BVP 550/550PMaintenance Manual BVP550

User Manual: BVP550

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BVP-550
BVP-550P

MAINTENANCE MANUAL
1st Edition
Serial No. 10001 and Higher (BVP-550)
Serial No. 40001 and Higher (BVP-550P)

! WARNING
This manual is intended for qualified service personnel only.
To reduce the risk of electric shock, fire or injury, do not perform any servicing other than that
contained in the operating instructions unless you are qualified to do so. Refer all servicing to
qualified service personnel.

! WARNUNG
Die Anleitung ist nur für qualifiziertes Fachpersonal bestimmt.
Alle Wartungsarbeiten dürfen nur von qualifiziertem Fachpersonal ausgeführt werden. Um die
Gefahr eines elektrischen Schlages, Feuergefahr und Verletzungen zu vermeiden, sind bei
Wartungsarbeiten strikt die Angaben in der Anleitung zu befolgen. Andere als die angegeben
Wartungsarbeiten dürfen nur von Personen ausgeführt werden, die eine spezielle Befähigung
dazu besitzen.

! AVERTISSEMENT
Ce manual est destiné uniquement aux personnes compétentes en charge de l’entretien. Afin
de réduire les risques de décharge électrique, d’incendie ou de blessure n’effectuer que les
réparations indiquées dans le mode d’emploi à moins d’être qualifié pour en effectuer d’autres.
Pour toute réparation faire appel à une personne compétente uniquement.

CAUTION
Danger of explosion if battery is incorrectly
replaced.

X-RAY RADIATION WARNING
Be sure that parts replacement in the high voltage block
and adjustments made to the high voltage circuits are
carried out precisely in accordance with the procedures
given in this manual.

Replace only with the same or equivalent type
recommended by the manufacturer.
Dispose of used batteries according to the
manufacturer's instructions.

Vorsicht!
Explosionsgefahr bei unsachgemäßem
Austausch der Batterie.
Ersatz nur durch denselben oder einen vom
Hersteller empfohlenen ähnlichen Typ.
Entsorgung gebrauchter Batterien nach Angaben
des Herstellers.

ATTENTION
Il y a danger d'explosion s'il y a remplacement
incorrect de la batterie.
Remplacer uniquement avec une batterie du
même type ou d'un type équivalent recommandé
par le constructeur.
Mettre au rebut les batteries usagées
conformément aux instructions du fabricant.

ADVARSEL!
Lithiumbatteri-Eksplosionsfare ved fejlagtig
håndtering.
Udskiftning må kun ske med batteri
af samme fabrikat og type.
Levér det brugte batteri tilbage til leverandøren.

1 (P)

Table of Contents
Manual Structure
Purpose of this manual ........................................................................................ 5 (E)
Contents ............................................................................................................... 5 (E)
Relative manuals ................................................................................................. 6 (E)

1. Installation
1-1.
1-2.

1-3.
1-4.
1-5.
1-6.

Supplied Accessories ............................................................................1-1 (E)
Connectors and Cables ..........................................................................1-1 (E)
1-2-1. Connector Input/Output Signals ...........................................1-1 (E)
1-2-2. Connection Connector ..........................................................1-6 (E)
Installaton Conditions ...........................................................................1-6 (E)
Function of Internal Switches ...............................................................1-6 (E)
Instance of Sytem Configuration ..........................................................1-8 (E)
Optional Accessories for Viewfinder ..................................................1-11 (E)

2. Service Overview
2-1.

2-2.
2-3.
2-4.
2-5.
2-6.

2-7.

2-8.
2-9.

BVP-550
BVP-550P

Notes on Service ...................................................................................2-1 (E)
2-1-1. Note on Replacement of Parts ..............................................2-1 (E)
2-1-2. Note on Replacement of PR-211 Board ...............................2-1 (E)
2-1-3. Description of EEPROM Data .............................................2-1 (E)
2-1-4. Extension Boards .................................................................2-1 (E)
2-1-5. Notes on Repair Parts ...........................................................2-1 (E)
Removal of Cabinet...............................................................................2-2 (E)
Location of Printed Circuit Boards .......................................................2-2 (E)
Circuit Description ................................................................................2-3 (E)
Periodic Replacement Part ....................................................................2-6 (E)
Cleaning ................................................................................................2-7 (E)
2-6-1. Cleaning of Viewfinder ........................................................2-7 (E)
2-6-2. Cares After Using at Special Environment ..........................2-7 (E)
Replacement of External Connectors ....................................................2-8 (E)
2-7-1. VF Connector .......................................................................2-8 (E)
2-7-2. MIC Connector.....................................................................2-8 (E)
2-7-3. TEST OUT/REMOTE Connector ........................................2-9 (E)
Disconnecting/Connecting of Flexible Card Wires ............................2-10 (E)
Board Replacement .............................................................................2-11 (E)
2-9-1. MB-602 Board ...................................................................2-11 (E)
2-9-2. CN-1120/1121 Board .........................................................2-12 (E)

1 (E)

2-10. Replacement of Function Switches .....................................................2-13 (E)
2-10-1. Side Switch Panel Block ....................................................2-13 (E)
2-10-2. Front Switch Panel Block ...................................................2-13 (E)
2-10-3. VF DISP Switch .................................................................2-14 (E)
2-11. Replacement of DC/DC Convertor Unit .............................................2-15 (E)
2-12. Replacement of CRT on Viewfinder ...................................................2-16 (E)

3. Setup Menu
3-1.

3-2.

Setup Menu ...........................................................................................3-1 (E)
3-1-1. Operation Menu ...................................................................3-3 (E)
3-1-2. Paint Menu ...........................................................................3-6 (E)
3-1-3. Maintenance Menu ...............................................................3-9 (E)
3-1-4. Reference Menu .................................................................3-11 (E)
3-1-5. Triming Menu ....................................................................3-11 (E)
3-1-6. System Config Menu ..........................................................3-12 (E)
Self-Diagnosis .....................................................................................3-14 (E)

4. Electrical Alignment
4-1.

4-2.

2 (E)

Preparation ............................................................................................4-1 (E)
4-1-1. Equipment Required .............................................................4-1 (E)
4-1-2. Notes on Adjustment ............................................................4-2 (E)
4-1-3. Connections ..........................................................................4-2 (E)
4-1-4. Initial Setting ........................................................................4-3 (E)
Adjustment for Installation of OHB ......................................................4-4 (E)
4-2-1. VCO CONT Frequency Confirmation .................................4-4 (E)
4-2-2. VA Gain Adjustment ............................................................4-5 (E)
4-2-3. Black Shading Adjustment ...................................................4-6 (E)
4-2-4. White Shading Adjustment ..................................................4-8 (E)
4-2-5. Master Black Adjustment ...................................................4-10 (E)
4-2-6. Gamma Correction Adjustment .........................................4-10 (E)
4-2-7. Flare Adjustment ................................................................4-11 (E)
4-2-8. Knee and White Clip Adjustment ......................................4-12 (E)
4-2-9. Crispening Adjustment .......................................................4-13 (E)
4-2-10. Level Dependent Adjustment .............................................4-14 (E)
4-2-11. Detail Frequency Adjustment ............................................4-15 (E)
4-2-12. H/V Ratio Adjustment ........................................................4-16 (E)
4-2-13. Detail Level Adjustment ....................................................4-17 (E)
4-2-14. Detail Clip Adjustment ......................................................4-17 (E)
4-2-15. Skin Tone Adjustment ........................................................4-18 (E)
4-2-16. Zebra Adjustment ...............................................................4-19 (E)
4-2-17. Automatic Iris Adjustment .................................................4-20 (E)
4-2-18. File Store ............................................................................4-20 (E)
4-2-19. Menu Setting After Adjustment .........................................4-20 (E)

BVP-550
BVP-550P

4-3.

4-4.

Viewfinder System Adjustment ..........................................................4-21 (E)
4-3-1. Vertical Hold Adjustment ..................................................4-21 (E)
4-3-2. Horizontal Hold Adjustment ..............................................4-22 (E)
4-3-3. Bright Set Adjustment ........................................................4-22 (E)
4-3-4. Focus Adjustment...............................................................4-23 (E)
4-3-5. Heater Voltage Adjustment ................................................4-23 (E)
4-3-6. Picture Frame Adjustment..................................................4-24 (E)
Overall Electrical Alignment ..............................................................4-26 (E)
4-4-1. VCO CONT Frequency Adjustment ..................................4-26 (E)
4-4-2. VTR Y Adjustment ............................................................4-26 (E)
4-4-3. Test out Adjustment ...........................................................4-27 (E)
4-4-4. Chroma Adjustment ...........................................................4-28 (E)
4-4-5. INT SC Phase Adjustment .................................................4-29 (E)
4-4-6. REG Level Adjustment ......................................................4-29 (E)
4-4-7. TEST1 Adjustment.............................................................4-30 (E)
4-4-8. TEST2 Adjustment.............................................................4-30 (E)
4-4-9. A/D Clock Phase Adjustment ............................................4-31 (E)
4-4-10. VA Gain Adjustment..........................................................4-31 (E)
4-4-11. VA MOD Adjustment ........................................................4-32 (E)
4-4-12. Master Black Adjustment ...................................................4-33 (E)
4-4-13. A/D Gain Adjustment ........................................................4-34 (E)
4-4-14. Black Shading Adjustment .................................................4-35 (E)
4-4-15. White Shading Adjustment ................................................4-37 (E)
4-4-16. Gamma Correction Adjustment .........................................4-39 (E)
4-4-17. Flare Adjustment ................................................................4-40 (E)
4-4-18. Pre Knee Adjustment .........................................................4-41 (E)
4-4-19. Knee and White Clip Adjustment ......................................4-43 (E)
4-4-20. VTR R-Y/B-Y Adjustment ................................................4-44 (E)
4-4-21. CCU Y/R-Y/B-Y Adjustment ............................................4-45 (E)
4-4-22. RGB Adjustment ................................................................4-46 (E)
4-4-23. File Store ............................................................................4-47 (E)
4-4-24. Menu Setting After Finishing Adjustment .........................4-47 (E)

5. Spare Parts
5-1.
5-2.

BVP-550
BVP-550P

Notes on Repair Parts .................................................................................. 5-1
Exploded Views .......................................................................................... 5-2
TOP PANEL BLOCK............................................................................... 5-2
RIGHT PANEL AND PLUG-IN BOARDS ............................................. 5-3
LEFT PANEL AND BOARDS ................................................................ 5-4
CHASSIS AND SHOLDER PAD ............................................................ 5-5
BOTTOM BLOCK ................................................................................... 5-6
VIEW FINDER ......................................................................................... 5-7
TRIPAD ADAPTOR ................................................................................ 5-9
SCREWS AND WASHERS ................................................................... 5-10

3 (E)

5-3.

5-4.
5-5.

Electrical Parts List ................................................................................... 5-11
5-3-1. Parts List for Camera ............................................................... 5-11
5-3-2. Parts List for View Finder ........................................................ 5-43
Supplied Accessories ................................................................................ 5-46
Optional Fixtures ....................................................................................... 5-46

6. Semiconductor Pin Assignments
7. Block Diagrams
OVERALL BLOCK .................................................................................... 7-2
VA-163 BOARD ......................................................................................... 7-4
AT-95 BOARD ........................................................................................... 7-5
SG-234 BOARD ......................................................................................... 7-6
DA-88 BOARD ........................................................................................... 7-7
IF-510 BOARD ........................................................................................... 7-8
VF BLOCK ................................................................................................. 7-9

8. Schematic Diagrams
LOCATION OF PRINTED CIRCUIT BOARDS ...................................... 8-1
VA-163 BOARD ......................................................................................... 8-2
AT-95 BOARD ........................................................................................... 8-6
SG-234 BOARD ....................................................................................... 8-10
DA-88 BOARD ......................................................................................... 8-14
IF-510 BOARD ......................................................................................... 8-18
VIEW FINDER ......................................................................................... 8-20
MB-602 BOARD ...................................................................................... 8-22
FRAME WIRING ..................................................................................... 8-24

9. Board Layouts
VA-163 BOARD ......................................................................................... 9-1
AT-95 BOARD ........................................................................................... 9-2
SG-234 BOARD ......................................................................................... 9-3
DA-88 BOARD ........................................................................................... 9-4
IF-510 BOARD ........................................................................................... 9-5
MB-602 BOARD ........................................................................................ 9-6
VF-60 BOARD ........................................................................................... 9-7

4 (E)

BVP-550
BVP-550P

Manual Structure
Purpose of this manual
This manual is the maintenance manual for Color Video Camera BVP-550/550P.
This manual describes the information items necessary when the unit is supplied and
installed, items on maintenance, and items that premise the service based on the
components parts such as alignment, schematic diagrams, board layouts and spare
parts list, assuming use of system and service engineers.

Contents
This followings are summaries of the each section for understanding the manual.
Section 1. Installation
Describes information about connector input/output signals, instance of configuration and function of internal switches.
Section 2. Service Overview
Describes information about board locations, circuit description, replacement of part
and notes on services.
Section 3. Setup menu
Describes information about setup menu and selfdiagnosis mode.
Section 4 Electrical Alignment
Describes electrical adjustment.
Section5 Spare Parts
Describes parts list, exploded views, supplied accessories and fixtures list used in
the unit.
Section 6 Semiconductor Pin Assignments
Describes function diagrams and pin names of semiconductor used in the unit.
Section 7. Block Diagrams
Describes overall block diagram and the block diagrams for every circuit board.
Section 8. Schematic Diagrams
Describes schematic diagrams for every circuit board.
Section 9. Board Layouts
Describes board layouts for every circuit board.

BVP-550
BVP-550P

5 (E)

Relative manuals
Besides this maintenance manual the following manuals are available for this unit.
• Operation Manual (Supplied with this unit)
This manual is necessary for application and operation of this unit.
• System manual (Not supplied with this unit)
This manual is necessary for connection and operation of this unit and other
peripheral equipments.
If this manual is required, please contact Sony service organization

6 (E)

BVP-550
BVP-550P

Section 1
Installation
1-1. Supplied Accessories
Accessories

Sony Part No. Qt’y

Microphone

1-542-233-11

1

Microphone Spacer

3-179-882-01

1

Tripod Adaptor VCT-14

—

1

Operation Manual
(English, German)

—

1
each

Maintenance Manual

—

1

1-2. Connectors and Cables
1-2-1. Connector Input/Output Signals
Output Signal
• TEST OUT
BNC 75 Ω 1.0 Vp-p

REMOTE (6P FEMALE)

MIC IN (3P FEMALE)
)

(EXTERNAL VIEW)

(EXTERNAL VIEW)

No. SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

Serial data for camera control

1

MIC IN (G)
MIC IN (X)

–60 dBu High impedance
balanced

MIC IN (Y)

SERIAL DATA IN

2

SERIAL DATA OUT

2

3

UNREG (G)

3

4

VBS (X) OUT

5

VBS (G) OUT

6

UNREG OUT

BVP-550
BVP-550P

VBS 1 Vp-p, Zo = 75 Ω

(0 dBu=0.775 Vrms)

+10.5 V to +17 V

1-1 (E)

1-2. Connectors and Cables

LENS (12P FEMALE)

VF (20P FEMALE)

(EXTERNAL VIEW)

(EXTERNAL VIEW)

No.

SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

RET VIDEO ENABLE IN

ENABLE: 0 V
DISABLE: +5 V or OPEN

1

NC

No connection

2

ABNORMAL IND OUT

2

RET 2 ENABLE IN

ENABLE: 0 V
DISABLE: +5 V or OPEN

H: Indicator lights
L: Indicator goes out

3

16:9 MODE OUT

3

GND

GND for UNREG

H: NORMAL (4:3)
L: WIDE (16:9)

4

AUTO +5 V OUT

AUTO: +5 V
MANU: 0 V or OPEN

4

NC

No connection

5

COMP/VBS SW IN/OUT

*Note1

5

IRIS CONT OUT

+3.4 V (F16) to
+6.2 V (F2.8)

6

CCIR/EIA OUT

H:CCIR, L:EIA

6

UNREG OUT

+10.5 V to +17 V

7

NC

No connection

8

G TALLY OUT

H: Indicator lights
L: Indicator goes out

7

IRIS POSITION IN

+3.4 V (F16) to
+6.2 V (F2.8)

8

AUTO/MANU OUT

AUTO IRIS: 0 V
MANUAL IRIS: +5 V

9

EXTENDER ON/OFF IN

EX 2 ON: 0 V
EX 0.8 ON: +1.8 V
OFF: +4.8 V

10

ZOOM POSITION IN

WIDE: 2 V
TELE: 7 V

11

NC

No connection

12

NC

No connection

1-2 (E)

9

NC

No connection

10

Y (X) OUT

1 Vp-p, VF:Zi = 1 kΩ

11

ZEBRA ON IN

H: OFF, L:ON

12

VF VIDEO OUT (X)

1.0 Vp-p, VF:Zi = 1 kΩ

13

NC

No connection

14

B-Y (X) OUT

700 mVp-p, VF:Zi = 1 kΩ,
75% color-bars

15

R-Y (X) OUT

700 mVp-p, VF:Zi = 1 kΩ,
75% color-bars

16

BATT IND OUT

H: Indicator lights
L: Indicator goes out

17

TALLY IND OUT

H: Indicator lights
L: Indicator goes out

18

+9.3 V (VF) OUT

REG +9.3 V

19

GND

GND

20

UNREG OUT

+10.5 V to 17 V

Note1: Specification of COMP/VBS SW Signal
When powering on, the microcomputer of the camera
identifies a viewfinder in use by detecting the voltage at
pin 5.
H: Color VF, L: B/W VF
• In use of B/W VF
Voltage control of pin 5 is disabled during operation.
Switching between the return video signal and monochrome signal for the viewfinder is done by the camera
and selected signal is output at pin 12 to the viewfinder.
• In use of Color VF
By controlling the voltage at pin 5 during operation,
switching between the decoded return video signal and
the camera component signal is done in the viewfinder.
H: Camera, L: Return video
BVP-550
BVP-550P

1-2. Connectors and Cables
34

1

ANALOG CA (68P FEMALE)

(EXTERNAL VIEW)
68

35

*: In connection with CCU, **: In connection with VTR
No.

SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

UNREG GND

GND for UNREG

35

UNREG GND

GND for UNREG

2

UNREG GND

GND for UNREG

36

UNREG GND

GND for UNREG

3

VF UNREG GND

GND for VF UNREG

37

VF UNREG GND

GND for VF UNREG

4

LENS UNREG GND

GND for LENS UNREG

38

LENS UNREG GND

GND for LENS UNREG

5

UNREG IN

10.5 V to 17 V

39

UNREG IN

10.5 V to 17 V

6

UNREG IN

10.5 V to 17 V

40

UNREG IN

10.5 V to 17 V

7

VF UNREG IN

10.5 V to 17 V

41

VF UNREG IN

10.5 V to 17 V

8

LENS UNREG IN

10.5 V to 17 V

42

LENS UNREG IN

10.5 V to 17 V

9

R OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

43

G OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

10

B OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

44

R/G/B GND

GND for R/G/B VIDEO

11

VBS OUT (G)

GND for VBS VIDEO

45

VBS OUT (X)

1.0 Vp-p ±10%, Zo = 75 Ω

12

Y OUT (X)

VS 1.0 Vp-p, Zo = 75 Ω

46

R-Y OUT (X)

700 mVp-p, with sync 350 mV*
756 mVp-p (J) 
700 mVp-p (UC)  **
525 mVp-p (CE) 

13

B-Y OUT (X)

47

Y/R-Y/B-Y GND

GND for Y/R-Y/B-Y

No connection

48

NC

No connection

700 mVp-p, with sample 350 mV*
756 mVp-p (J) 
700 mVp-p (UC)  **
525 mVp-p (CE) 

14

NC

15

C OUT (X)

SC for S connector

49

C OUT (G)

GND for C

16

VBS GENLOCK IN (X)

1.0 Vp-p ±6 dB

50

VBS GENLOCK IN (G)

GND for GENLOCK/H CONT IN

17

RET VIDEO IN (G)

GND for RET VIDEO

51

RET VIDEO IN (X)

1.0 Vp-p, Zi = 1 kΩ

18

MONITOR VIDEO OUT (X)

VS 1.0 Vp-p, Zo = 75 Ω

52

MONITOR VIDEO OUT (G)

GND for MONITOR VIDEO

19

BATTERY ALARM IN

Zi = 300 Ω *

53

VTR START/STOP OUT

Zo ≤ 10 kΩ

20

NC

No connection

54

NC

No connection

21

AUDIO CH1 CONT OUT

0 V (0 dB) to 7 V (–50 dB or less)

55

MIC 1 OUT (G)

GND for CAM MIC

22

MIC 1 OUT (Y)

Zo ≤ 600 Ω, –60 dBu balanced

56

MIC 1 OUT (X)

Zo ≤ 600 Ω, –60 dBu balanced

23

NC

No connection

57

NC

No connection

24

SKIN TONE GATE OUT

1.0 Vp-p

58

NC

No connection

59

AUDIO LEVEL IN

Zi ≥ 1 kΩ (–15 dBu at 0 VU)

Note 2

Note 4

25

TAPE REM IN

*

26

VTR SYNC OUT

+5.0 Vp-p Negative pulse, Zo ≤ 100 Ω

60

NC

No connection

27

RET EN OUT

ENABLE; 0 V, DISABLE; +5 V or OPEN

61

V RESET IN/CF OUT

V Reset;0 V to +5 V, CF; 0 V to –5 V

28

PB REF IN

PB; +4.5 V,
CAM; 0 V or OPEN

62

REC TALLY IN

ON; +5 V,
OFF; +2.5 V or 0 V,
Zi ≥ 20 kΩ *Note 3

29

H CONT IN

0 V to 5 V, Analog

63

VTR SAVE OUT

SAVE; +4.5 V, STANDBY; 0 V, Zo ≤ 10 kΩ

30

ANALOG GND

64

GND

31

DIGITAL HD OUT

3 Vp-p for Digital

65

SD IN/OUT

Serial data for camera control

32

COM CONT IN

5 Vp-p

66

COM DATA OUT

5 Vp-p

33

IIC CLOCK OUT (CA)

5 Vp-p

67

IIC DATA IN/OUT (CA)

5 Vp-p, 4700 Ω, Pull up

34

IIC CLOCK OUT (ST)

5 Vp-p

68

IIC DATA IN/OUT (ST)

5 Vp-p, 4700 Ω, Pull up

BVP-550
BVP-550P

(0 dBu=0.775 Vrms)
1-3 (E)

1-2. Connectors and Cables

Note 2 : Specifications of BATT ALARM Signal
VTR has a battery voltage detection and waring signal generation circuits and it sends the signal shown
below to the camera.
Battery Terminal
Voltage
(VTR internal battery)

12.0—11.1 Vdc

11.1—10.8 Vdc

10.8 Vdc—

1.0 ± 0.2 Hz
duty 50 ± 10 %

2—3 Vdc
across 300 Ω

Input Signal at
Pin 19
0V
LED on Viewfinder

Stays out

Blinks at 1 Hz

Lights up

Note 3 : Specifications of REC TALLY Signal
+1
5.0 -0.5 Vdc
Input Signal at
Pin 62
2.5 ± 0.5 Vdc
REC TALLY
signal
1.0 ± 0.2 Hz
duty 50 ± 10 %

0 ± 0.3 Vdc
Power
OFF

Power
ON

VTR Action

When VTR changes
from POWER SAVE
to REC START mode,
or when the servo is
lost

REC RESET signal
10—100 msec
When VTR
changes from
STANDBY to
REC START
mode, or in
REC mode

At the end of STOP
tape or When mode
VTR is put
into STOP
mode by itself
(REC RESET
signal does
not appear
when VTR is
put into STOP
mode by
operating the
camera)

Note 4 : Specifications of TAPE REM Signal
Tape Remaining (VTR)

Input Signal at Pin 25

TAPE1

TAPE2

+5 V

+5 V

+3.4 V

+5 V

0V

+3.1 V

0V

+5 V

+2.2 V

0V

0V

0V

1-4 (E)

Remark

G TALLY lamp lights at +3.1 V

BVP-550
BVP-550P

1-2. Connectors and Cables

DIGITAL CA (68P FEMALE)

34

1

68

35

(EXTERNAL VIEW)

No.

SIGNAL

1

SPECIFICATIONS

No.

SIGNAL

Y (L) OUT

35

Y (1) OUT

2

Y (2) OUT

36

Y (3) OUT

3

Y (4) OUT

37

Y (5) OUT

4

Y (6) OUT

38

Y (7) OUT

5

Y (8) OUT

39

Y (M) OUT

6

R-Y (L) OUT

40

R-Y (1) OUT

7

R-Y (2) OUT

41

R-Y (3) OUT

8

R-Y (4) OUT

42

R-Y (5) OUT

9

R-Y (6) OUT

43

R-Y (7) OUT

10

R-Y (8) OUT

44

R-Y (M) OUT

11

B-Y (L) OUT

45

B-Y (1) OUT

12

B-Y (2) OUT

46

B-Y (3) OUT

13

B-Y (4) OUT

47

B-Y (5) OUT

14

B-Y (6) OUT

48

B-Y (7) OUT

15

B-Y (8) OUT

49

B-Y (M) OUT

16

DIGITAL GND

GND for DIGITAL

50

DIGITAL GND

GND for DIGITAL

3.3 Vp-p

3.3 Vp-p

3.3 Vp-p

SPECIFICATIONS

3.3 Vp-p

3.3 Vp-p

3.3 Vp-p

17

DIGITAL BLANKING OUT

3.3 Vp-p

51

DIGITAL SAMPLE OUT

3.3 Vp-p

18

DIGITAL SYNC OUT

3.3 Vp-p

52

DIGITAL VD OUT

3.3 Vp-p

19

NC

No connection

53

DIGITAL CF OUT

3.3 Vp-p

20

NC

No connection

54

NC

No connection

21

NC

No connection

55

NC

No connection

22

NC

No connection

56

NC

No connection

23

NC

No connection

57

NC

No connection

24

NC

No connection

58

NC

No connection

25

NC

No connection

59

NC

No connection

26

NC

No connection

60

NC

No connection

27

NC

No connection

61

NC

No connection

28

NC

No connection

62

NC

No connection

29

NC

No connection

63

NC

No connection

30

NC

No connection

64

NC

No connection

31

NC

No connection

65

NC

No connection

32

NC

No connection

66

NC

No connection

33

NC

No connection

67

NC

No connection

34

18 MHz OUT (G)

GND for 18 MHz

68

18 MHz OUT (X)

3.3 Vp-p

BVP-550
BVP-550P

1-5 (E)

1-2. Connectors and Cables
1-3. Installaton Conditions
1-4. Function of Internal Switches

1-2-2. Connection Connector

1-4. Function of Internal Switches

Connection made with the connector panels during installation or service, should be made with the connectors/
complete cable assemblies specified in the following list,
or equivalent parts.

AT-95 Board

Connector Name

Connection Connectors/Cables

TEST OUT
(BNC)

1-560-069-11 Plug, BNC or
B-B Cable assembly
(cable length 1.5 m, option)

REMOTE
(6P FEMALE)

1-560-078-00 Plug, 6P Male or
HIROSE HR10-7PA-6P equivalent

MIC IN
(3P FEMALE)

1-508-084-00 XLR, 3P Male or
CANNON XLR-3-12C equivalent

4

3

2

1

AT

A

B

C

D

E

S1

1-3. Installaton Conditions

F

Operating Temparature : –20°C to +45°C
Storage Temparature
: –20°C to +50°C
Humidity
: No condence
• Install the unit in a location as dry and well-ventilated as
possible.
• Do not install the unit in the following conditions.
High temparature room or near the heat source
Excessive dust or mechanical vibration
Intense magnetic and electric fields
A place subjected to direct sunlight or strong light

G

AT 95(COMPONENT SIDE)

S1
: Setup menu select switch (S1-1 to S1-4)
Setup menu indicated on the viewfinder can be selected in
combination of switches S1-1 to S1-4.
( ) in parentheses: Factory-set positions
Setup Menu
S1-1 S1-2 S1-3 S1-4 Operation Paint Maintenance Reference Triming Config
OFF OFF OFF OFF YES

NO

NO

NO

NO

NO

(ON) (OFF) (OFF) (OFF) YES

YES NO

NO

NO

NO

OFF ON

OFF OFF YES

YES YES

NO

NO

NO

ON

OFF OFF YES

YES YES

YES

NO

NO

ON

OFF OFF ON

OFF YES

YES YES

YES

YES

NO

ON

OFF YES

YES YES

YES

YES

YES

OFF ON

For details on the setup menu, refer to Section 3.

1-6 (E)

BVP-550
BVP-550P

1-4. Function of Internal Switches

IF-510 Board

MB-602 Board

4

3

2

1

IF

A

1

S1
2

B

S1

3

C

4

VIDEO
LEVEL

D

5

E
6

F
7

G

S1
: VF connector signal select switch
Selects an output signal at VF connector.
RET: Return video signal from CCU
GEN: Reference signal for external synchronization which
is input at GENLOCK IN connector of CA
Factory-set position: RET

BVP-550
BVP-550P

F

E

D

C

B

A

In setting a switch on MB-602 board, open the left side
panel.
S1
: PHANTOM POWER switch
Turn on when connecting the PHANTOM +48 V microphone to MIC connector.
Factory-set position: ON

1-7 (E)

1-5. Instance of Sytem Configuration

1-5. Instance of Sytem Configuration

ELECTRONIC
VIEWFINDER
BVF-77/77CE

STUDIO ZOOM LENS

CCD UNIT
OHB-400/400P
OHB-500/500P
OHB-500WS/500WSP

TRIAX CABLE (*2)

COLOR VIDEO CAMERA
BVP-500/500P

COLOR VIDEO CAMERA
BVP-550/550P
1.5" VF(BVF-10/10CE)
CCD UNIT
OHB-450/450P
OHB-451/451P
OHB-550/550P
OHB-550WS/550WSP

ELECTRONIC
VIEWFINDER
BVF-55/55CE

CAMERA ADAPTOR
CA-550/550P

TRIAX CABLE (*2)
or COAX CABLE

ENG/EFP LENS

OTHER OPTIONAL ACCESSORIES
For BVP-500/500P

STANDALONE UNIT
BKP-5910/5910P
SCRIPT HOLDER
BKP-7911/7912

For BVP-550/550P

ELECTRET CONDENSER MICROPHONE
ECM-MS5
MICROPHONE
C-74 (Sony P/N 1-542-099-11)
CRADLE SUSPENSION
CRS-3P
CARRYING CASE
LC-303SFT

For CA-550/550P

1-8 (E)

TELEPROMPTER UNIT
BKP-5971
BVP-550
BVP-550P

1-5. Instance of Sytem Configuration

REMOTE CONTROL
PANEL
RCP-700 RCP-701

REMOTE CONTROL PANEL
RCP-720 RCP-721 RCP-740 RCP-741
CCA-5 CABLE
(*1)
CCA-5 CABLE
(*1)

CAMERA CONTROL UNIT
CCU-700/700P

CCA-5 CABLE
(*1)

CCA-5 CABLE
(*1)
CAMERA COMMAND
NETWORK UNIT
CNU-700/500

PIX 2
WF 2

VIDEO SELECTOR
VCS-700

CCA-5 CABLE
(max. 200m)

PIX 2
WF 2
PIX

MASTER SETUP UNIT
MSU-700

WF

CCA-5 CABLE
(max. 200m)

CAMERA CONTROL UNIT
CCU-700/700P
CCA-5 CABLE
(*1)

*1: CCA-5 CABLE LENGTH

RCP-700/701

(
CCA-5

RCP

)
CCA-5

CNU

CCA-5

CCU

Total length 200m or less

*2: TRIAX CABLE LENGTH

BVP-550
BVP-550P

Diameter

Maximum length

8.5 mm

1000 m

14.5 mm

2000 m

1-9 (E)

1-5. Instance of Sytem Configuration

COLOR VIDEO CAMERA
BVP-550/550P
1.5" VF(BVF-10/10CE)
CCD UNIT
OHB-450/450P
OHB-451/451P
OHB-550/550P
OHB-550WS/550WSP

CAMERA ADAPTOR
CA-550/550P

DIGITAL VIDEO CASSETTE
RECORDER
DVW-250/250P

CCZ CABLE
ENG/EFP LENS

AC ADAPTOR
AC-550/550P

CCA-5 CABLE
(max. 50m)

REMOTE MASTER
CONTROL SETUP
UNIT
PANEL
RCP-700
RCP-701
RCP-720
RCP-721
RCP-740
RCP-741

MSU-700

RETURN VIDEO
SELECTOR
CAC-6
REMOTE
CONTROL
UNIT
RM-P9
VIDEO CASSETTE
RECORDER
BVV-5/5PS
BETACAM
ADAPTOR
CA-553

CCZ CABLE

CAMERA ADAPTOR
CA-3A

CA-57A/57AP
CA-55A/55AP
CA-50A/50AP
CAMERA
ADAPTOR

1-10 (E)

VTR

CCU-370/370P
CCU-355/355P
CCU-350/350P
CAMERA
CONTROL
UNIT

BVP-550
BVP-550P

1-6. Optional Accessories for Viewfinder

1-6. Optional Accessories for Viewfinder
The following accessories are available separately for the
supplied viewfinder. Please order as necessary.
• VF Rotation Bracket BKW-401
By fitting the BKW-401 to the camera, you can rotate
the viewfinder out of the way so that your right leg does
not hit the viewfinder while you are carrying the camera.
• Fog-proof Filter (Sony Part No. 1-547-341-11)
Use in place of the MC protector shown in the figure.
• Lens Assembly for Aged Eye
(Sony Part No. A-8262-537-A)
• Lens Assembly for Low Power
(Sony Part No. A-8262-538-A)
• Lens Assembly (Standard magnification with special
compensation for aberration)
(Sony Part No. A-8267-737-A)
• High Performance (3X) Lens Assembly
(Sony Part No. A-8314-798-A)
Use in place of the VF tube sub assembly shown in the
figure.

Hold ring
Align red lines

VF tube sub
assembly

MC protector
Filter holder
Eyecup

* To protect the viefinder lens from drops, put the MC protector
in the filter holder and attach the eyecup securely.

BVP-550
BVP-550P

1-11 (E)

Section 2
Service Overview
2-1. Notes on Service

2-1-5. Notes on Repair Parts

2-1-1. Note on Replacement of Parts

1. w
Safety Related Components Warning
Components marked ! are critical to safe operation.
Therefore, specified parts should be used in the case of
replacement.

Every component electrical part mounted on the PR-211
and CN-1142 boards cannot be replaced. And also a 68-pin
connector on the CN-1120/1121 board cannot be. If there
is any defective part, replace the mounted circuit board
itself.

2-1-2. Note on Replacement of PR-211 Board
The PR-211 board is equipped with a termination board
CN-1142 on it. If replacing the PR-211 board, be sure to
connect the CN-1142 board that was used before to a new
PR-211 board.

2-1-3. Description of EEPROM Data
The table below gives the holding data of EEPROM on
every printed circuit board.

2. Standardization of Parts
Some repair parts supplied by Sony differ from those
used for the unit. These are because of parts commonality and improvement.
Parts list has the present standardized repair parts.
3. Stock of Parts
Parts marked with “o” at SP(Supply Code) column of
the spare parts list may be not stocked. Therefore, the
delivery date will be delayed.
4. Units Representation
The following represented units are changed or
omitted in writing.

Board

Ref. No.

Holding data

VA-163

IC26

VA-163 adjustment data

AT-95

IC46

Triming/Reference files

Capacitance

µF

uF

SG-234

IC21

SG-234 adjustment data

Inductance

µH

uH

Resistance

Ω

Abbreviation

DA-88

IC10

DA-88 adjustment data

IF-510

IC155

IF-510 adjustment data

MB-602

IC5

Model name, Serial number of the unit

n
The IC listed above cannot be replaced because it is the
EEPROM that is holding data inherent in the board. The
part number listed in Section 5 “Spare Parts” is for an
EEPROM which is not programmed. If replacement is
needed, consult your Sony representatives.

Units

Representation

5. Destination Representation
The part indicated “For UCJ/CE” in the spare parts list
is used in the unit written below.
For UCJ : The part is used in a unit for Japan, U.S.A.
and Canada.
For CE : The part is used in a unit for regions except
the above countries.

2-1-4. Extension Boards
The extension boards and harness are available separately
for check or adjustment of some printed circuit boards.
Extension Board/Harness

Sony P/N

EX-464

J-6395-040-A VA-163
AT-95
SG-234
DA-88
IF-510
Plug-in boards for CA

BVP-550
BVP-550P

To be extended

2-1 (E)

2-2. Removal of Cabinet
2-3. Location of Printed Circuit Boards

2-2. Removal of Cabinet

To remove the both side panels
Loosen the four screws respectively.

2-3. Location of Printed Circuit Boards
Camera block

Viewfinder block

SW-732

VR-199
LP-84

MB-602
CN-1120
PR-211
CN-1121
CN-1142

IF-510
DA-88
CN-1122

SG-234
AT-95
VA-163

SW-731

2-2 (E)

SW-733

SW-730
SW-742

BVP-550
BVP-550P

2-4. Circuit Description

2-4. Circuit Description
Circuit description for the BVP-550/550P and CCD unit
OHB-450/451/550/550W series (available separately) is
described here. The BVP-550/550P is called as BVP, and
OHB-450/451/550/550W series is called as OHB in this
section.

DR-302 board (OHB-451/451P only)
The DR-302 is a driving board for one optical filter disk,
which motor-drives a filter selected by the RCP or MSU.
The DR-302 board consists of a motor-drive circuit, and a
servo circuit comprised of a selected filter detection and
filter position voltage generation circuits.
(2) Video Signal System

(1) CCD Drive System (OHB)
TG-159 board
The TG-159 outputs the pulses for driving the CCD to the
DR-271 board and outputs the pulses for sampling the
CCD output to the PA-181 board.
The driving pulses are synchronized with the HD and VD
pulses input from the BVP and are output.
Pulses are generated from the VCO clock (36 MHz) of the
board. The clocks for the digital processing circuit (36
MHz, 18 MHz)are also output to the BVP.
CCD V-sub voltage, white shading data and so on are also
stored in the EEPROM of the TG-159 board.
DR-271 board
The DR-271 board converts the pulses from the TG-159
board to directly drive the CCD. The converted pulses are
transmitted to the CCD via the BI-91(R)/91(G)/91(B)
board respectively. The board also has a circuit which
makes +29 V from +15 V for the V-sub voltage. Furthermore, the board also has an interface circuit for the optical
filter.
BI-91(R)/91(G)/91(B) boards
The CCDs are mounted on the BI-91(R)/91(G) /91(B)
boards. These boards supply the driving pulses and control
voltages to the CCD.
The signals output from the CCD are sent to the PA-181
board via the emitter follower.
PA-181 board
The PA-181 board extracts video signals from the CCD
signals output from the BI-91(R) /91(G)/91(B) boards by a
correlated double sampling circuit, and amplifies the R and
G signals by one time, and the B signal by three times. The
resultant signals are output to the VA-163 board of the
BVP.

BVP-550
BVP-550P

VA-163 board
The VA-163 board amplifies the video signals output from
the OHB and performs the following processings:
• Black shading correction
• Gain-up control
• Blanking cleaning
• White shading correction
• Feedback clamping
• White balancing
• Flare compensation, and
• Pre-knee
In addition, it also switches between the video signals,
TEST SAW(TEST1) signal and 3-STEP TEST(TEST2)
signal.
PR-211 board
The PR-211 board converts the analog R, G, and B video
signals into digital signals with an A/D converter having
sampling/holding functions.
It generates clocks required for the A/D conversion and the
digital processings from the clocks generated by the OHB.
In addition, the PR-211 board adds a linear matrix and
detail signals to the analog-to-digital-converted R, G and B
signals.
It performs the processings such as pedestal control,
gamma correction, knee correction and white clipping for
the signals. It also performs the followings.
• Generates an internal color-bar signal and switches
between this signal and the main line signals.
• Creates detail and aperture signals from digital R and G
signals.
• Creates a skin tone singal.
• Detects signals for an auto iris, flare compensation,
DCC, and auto white/black balancings.
• Detects black/white shadings, generates a waveform to
compensate them and outputs the wavefoem to the VA163 board.
• Detects black levels and outputs the feedback clamp
voltage to the VA-163 board.
• Generates TEST SAW waveforms and output them to
the VA-163 board.
2-3 (E)

2-4. Circuit Description

• Generates a 27-MHz clock signal required for the VTR
control.
The video signals that has thus been digital-processed, are
then converted to Y, R-Y and B-Y signals. Some signals
are output to the DA-88 board and the others are output via
the MB board as a digital video signal output at the same
time. The Y/C signals are generated from the Y, R-Y and
B-Y signals with a color encoder IC on the PR-211 board.
These signals, that were sampled at 36-MHz rate and
quantized by 10 bits, are digital-to-analog converted. And
the resultants are then output to the DA-88 board as a
monochrome signal for VF, wide-band luminance signal,
or modulated chroma signal. The monochrome signal for
VF has a zebra signal for level indication, and character
signal and center marker signal on it.
DA-88 board
The monochrome signal for VF (VF Y) sent from the PR211 board goes through a lowpass filter and is output to the
MB-602 board. The wide-band luminance signal Hi-Ys is
output via a lowpass filter to the IF-510 board. The
modulated chroma signal C goes through a black clamp
circuit and lowpass filter and is added to the Hi-Ys. The
resultant is output to the IF-510 board as a VBS signal.
The Y, R-Y and B-Y signals, that are input from the PR211 board as the digital video signals, are aligned in phase
with video signals in another channels by a digital delay
line. The resultant is digital-to-analog converted and is
then output via a lowpass filter to the IF-510 board. On the
other hand, an analog component signal is generated in
combination with the above-mentioned Hi-Ys signal, R-Y
and B-Y signals. The analog component signal is controlled, on the level adjustment and reference signal
addition, by the AT-95 board according to equipment
connected to the camera (VTR or CCU). The analog
component signal is output to external equipment via the
68P interface connector .
IF-510 board
Input signals at the IF-510 board are as follows;
Signals from the DA-88 board: VF Y, VBS, Y, R-Y and B-Y
Signals from external equipment: Reference signal for
external synchronization, Return video signal
By combination with these signals, the IF-510 board
outputs the following signals.
• VBS OUT signal
Output via a buffer amplifier to external equipment.

2-4 (E)

• VBS OUT signal for RM
Output to an interface connector for a remote control unit
RM-P9. Using the setup menu, a character signal to
confirm the menu setting can be mixed to this signal.
• TEST OUT signal
With the signal select switch at the right top of the
camera, the above-mentioned VBS or the VF Y signal
can be selected as a TEST OUT signal output at the
TEST OUT connector.
• VF OUT/MONI OUT signal
The same signal is output as the VF OUT signal and the
MONI OUT signal. One of the VF Y, VBS, or return
video or reference signal selected by S1 on the IF-510
board, is selected. The selected signal is mixed with a
center marker and safety-zone pulse, and is then output.
The VF OUT signal is output at the VF connector and
the MONI OUT signal is output at the 68P interface
connector.
• R/G/B output signals
The Y, R-Y and B-Y signals are converted to the R, G
and B signals by a matrix circuit. The converted signals
are output at the 68P interface connector.
• Y/R-Y/B-Y output signals for VF
These signals are for a color viewfinder. A character
signal and SKIN GATE signal are mixed with the abovementioned Y, R-Y and B-Y signals. The resultants are
output to the VF.
In addition, the IF-510 board is equipped with the
following circuits.
• HD/VD external sync circuit
When displaying the return video or reference signal on
the viewfinder screen, it is necessary to synchronize the
cursor signal with those signals. And a sync signal is
separated from those signals to generate the external HD
and VD signals, and the resultant is sent to the cursor
signal generation circuit on the PR-211 board.
• Peak-detects the G signal and outputs to the AT-95
board.
• Transmits the SKIN GATE signal from DA-88 board to
the CCU via the 68P interface connector.

BVP-550
BVP-550P

2-4. Circuit Description

(3) Auto system
AT-95 board
The AT-95 board consists of a microcomputer which
controls the camera according to the instructions stored in
a ROM. Operations of the board are listed below;
• Analyzes instructions of the function switches, video
system detection data and analog data.
• Outputs various control signals and compensation
signals to the boards.
• Outputs status information and self-diagnosis infomation
as character data from the character generator.
• Incorporates the interface function with the RM-P9 or
the CCU-700/700P.
(4) Pulse system
SG-234 board
The SG-234 board has a sync signal generator which
generates various sync signals for the camera. The sync
signals are generated from the clock pulse input from the
OHB via the PR-211 board. They are output to the board
of the camera, OHB and the camera adaptor (CA) respectively. This generator has two modes to synchronize with a
reference signal input for external synchronization. One is
a VBS input mode when the camera is used alone and the
other is V RESET/H CONT mode when the CCU is
connected to the camera. Input channels of the V RESET
and H CONT signals differ depending on the type of CA in
connection with the camera.

BVP-550
BVP-550P

2-5 (E)

2-5. Periodic Replacement Part

2-5. Periodic Replacement Part
Parts listed below are periodic replacement parts. They are
subject to cracks with the lapse of time. Check sometimes
by visual, and replace as necessary.
No.

Description

Sony P/N

1

PAD ASSY (LARGE)

A-8278-237-A

2

PAD ASSY (SMALL)

A-8278-238-A

3

WIND SCREEN

3-708-875-0X

4

MIC CUSHION, RUBBER

3-692-138-0X

5

COVER, SW

3-676-244-1X

6

EYE CUP

3-723-079-0X

7

CAP, CONNECTOR

3-692-914-1X

6

3

4

7

5

2-6 (E)

2

1

BVP-550
BVP-550P

2-6. Cleaning

2-6. Cleaning

2-6-2. Cares After Using at Special
Environment

2-6-1. Cleaning of Viewfinder
By extracting VF tube sub assy, lens and MC protector can
be easily cleaned. And also dust on the CRT surface or
mirror can be easily cleaned off.
1. Turn the hold ring to the left and extract the VF tube
sub assy.
2. Detach the eyecup.
3. Remove the MC protector with a commercially
available camera lens cleaner. Blow off dust with a
blower carefully so as not to flaw the mirror.
5. After the cleaning is completed, install by reversing
the preceding steps. Align red lines of the VF tube and
VF tube sub assy when inserting, and turn the hold
ring to the right until it locks.

It is recommended to check the following items after
gathering the news at seaside, dust area or spa.
1. Clean off sand and other dust in the unit carefully.
2. Do not allow salt in seawater or sulfur in spa to contact
a not-painted surface of the cabinet. They may cause to
corrode. Clean with alcohol immediately if contacted.
3. Clean the connection surface of connectors.
4. Carry out the common operation check and check that
the unit has not an abnormal sound or operation.

m
• Do not use any type of solvent, such as alcohol, benzine
or thinner to remove stains.
• Be sure to attach the eyecup to the VF, or the MC
protector may come off.
• To protect the viewfinder lens from drops, put the MC
protector in the filter holder and attach the eyecup
securely.

Hold ring
Align red lines

VF tube sub
assembly

MC protector
Filter holder
Eyecup

BVP-550
BVP-550P

2-7 (E)

2-7. Replacement of External Connectors

2-7. Replacement of External
Connectors

3. Remove the two screws and remove the VF connector.
Then unsolder it.

2-7-1. VF Connector
1. Remove the four screws and remove the CCD unit.
2. Disconnect the three connectors CN3 on the DR-271
board, CN3 on the TG-159 board and CN2 on the PA181 board of the CCD unit.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

VF connector

Precision
P2.6 X 5

TG-159

4. Install a new connector in the reverse procedures of
removal.

CCD Unit
PA-181

2-7-2. MIC Connector
B4 X 8
B4 X 8
CN3

1. Remove the two screws and remove the MIC connector.
Then unsolder it.

B4 X 8
B4 X 8
DR-271

MIC connector

Precision
P2.6 X 5

2. Install a new connector in the reverse procedures of
removal.

2-8 (E)

BVP-550
BVP-550P

2-7. Replacement of External Connectors

2-7-3. TEST OUT/REMOTE Connector
1. Remove the three screws and remove the Pad Assembly (Large).

3. Remove the screw and remove the connector
bracket.Unsolder the TEST OUT/REMOTE connector.
Remove the each nut and remove the TEST OUT/
REMOTE connector.

Connector
bracket
Pad assembly(small)

Pad assembly(large)

Precision
P2.6 X 5

2. Remove the seven screws and remove the V shoe
bracket.
4. Install a new connector in the reverse procedures of
removal.

B3 X 5

K3 X 8

V Shoe bracket
B3 X 5

BVP-550
BVP-550P

2-9 (E)

2-8. Disconnecting/Connecting of Flexible Card Wires

2-8. Disconnecting/Connecting of
Flexible Card Wires

Type A

The flexible card wires are used between the MB-602
board and the CCD unit, the MB-602 board and the CN1120/1121/1122/PR-211 boards. Be careful not to bend
these wires. This shortens the wire life.

A

Disconnecting
Conductive surface

1. Turn off the power of the camera.

MB-602&OHB

Type A
(between the MB-602 board and CCD unit)
2. Lift up the portion A in the direction of the arrow and
disconnect the flexible card wire.
Type B
(between the MB-602 board and CN-1120/1121/1122/
PR-211 boards)
2. Slide portion B in the direction of the arrow and
disconnect the flexible card wire.

Type B

B

B
Conductive surface

Connecting
MB-602&CN-1120/1121/1122/PR-211

m
• Be careful not to insert the flexible card wires obliquely.
• Check that the conductive surface of the flexible card
wire is not soiled with dust.
Type A
(between the MB-602 board and CCD unit)
1. Lift up the portion A in the direction of the arrow.
Insert the flexible card wire as far as it will go into
connector with the conductive surface of the wire put
down.
2. Push down the portion A to secure the flexible card
wire.
Type B
(between the MB-602 board and CN-1120/1121/1122/
PR-211boards)
1. Slide portion B in the direction of the arrow and insert
the flexible card wire as far as it will go into connector
with the conductive surface of the wire put down.
2. Slide portion B in the opposite direction of the arrow
and lock each connector.

2-10 (E)

BVP-550
BVP-550P

2-9. Board Replacement

2-9.

Board Replacement

2-9-1. MB-602 Board
1. Remove the right and left side panels of the camera.
(Refer to “2-2. Removal of Cabinet”.)
2. Pull out the five plug-in boards.
3. Remove the four screws and remove the PR-211
board.
4. Disconnect the four connectors.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.
5. Remove the four screws and remove the four supports.
Remove the MB-602 board.

6. Disconnect the connectors.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

CN11

CN7
CN12

MB-602
CN13

Support

CN14

CN32

7. Install a new board in the reverse procedures of
removal.

B3 X 5
B3 X 5

Support
CN-1142
PR-211
B3 X 5

BVP-550
BVP-550P

2-11 (E)

2-9. Board Replacement

2-9-2. CN-1120/1121 Board
1. Remove the right side panel of the camera. (Refer to
“2-2. Removal of Cabinet”.)
2. Pull out the five plug-in boards and the four shielding
plates.
3. Remove the DC/DC convertor unit.
(Refer to “2-11. Replacement of DC/DC Convertor
Unit”.)
4. Remove the rail(upper).
5. Remove the four screws and remove the rail bracket.

6. Remove the two screws and remove the CN-1120/
1121 board.
7. Disconnect the connector.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

CN-1120

Precision
P2 X 5

B2.6 X 5

B3 X 5

CN-1121
B2.6 X 5

Rail
bracket

Rail(upper)

2-12 (E)

8. Install a new board in the reverse procedures of
removal.

BVP-550
BVP-550P

2-10. Replacement of Function Switches

2-10. Replacement of Function Switches

2-10-2. Front Switch Panel Block

2-10-1. Side Switch Panel Block

1. Remove the two screws and remove the front switch
panel.
2. Disconnect the connector CN501 on the SW-731
board.

1. Remove the two screws and remove the side switch
panel.
2. Disconnect the connector CN801 on the SW-730
board.

CN801
Precision
P2.6 X 5

SW-731
SW-730
Side switch panel

3. Remove the two screws.Remove the SW-730 board,
shielding plate and drop protection cushion.
4. Unsolder the terminals and remove the switch to be
replaced.

Precision
P2.6 X 5
CN501

Front switch panel

3. Remove the two screws.Remove the SW-731 board,
knob packing, VR knob and shielding plate.
4. Unsolder the terminals and remove the switch to be
replaced.

Switch garud
Shielding plate
Drop protection
cushion
SW-730

BTP2.6 X 6

Shielding plate

BTP2.6 X 6

SW-731

5. Install a new switch in the reverse procedures of
removal.

P2.6 X 5
P2.6 X 5

5. Install a new switch in the reverse procedures of
removal.

BVP-550
BVP-550P

2-13 (E)

2-10. Replacement of Function Switches

5. Remove the two screws and remove the menu bracket.

2-10-3. VF DISP Switch
1. Remove the four screws and remove the CCD unit
referring to “2-7-1. VF Connector”.
2. Disconnect three connectors CN3 on the DR-271
board, CN3 on the TG-159 board and CN2 on the PA181 board.
n
When disconnecting the connectors, refer to “2-8.
Disconnecting/Connecting of Flexible Card Wires”
and “2-7-1. VF Connector”.
3. Remove the three screws and remove the handle.
4. Remove the three screws and remove the handle
holder.

SW-732

B2.6 X 5

Menu bracket

B4 X 8
B5 X 12

Handle
B4 X 8

B4 X 8
Handle holder

6. Remove the two screws and remove the SW-732 board
and the drop protection cushion.
7. Unsolder the terminals and remove the switch to be
replaced.

SW-732

Drop protection cushion
B3 X 5
B2.6 X 5

8. Install a new switch in the reverse procedures of
removal.

2-14 (E)

BVP-550
BVP-550P

2-11. Replacement of DC/DC Convertor Unit

2-11. Replacement of DC/DC Convertor
Unit
1. Remove the right and left side panels of the camera.
(Refer to “2-2. Removal of Cabinet”.)
2. Remove the two screws on the left side of the camera
shown in the figure.

3. Thread the two screws that were removed in Step 2,
into the holes of the DC/DC convertor unit three turns.
n
Never turn the two screws more than three turns.
4. Hold the two screws with hands and remove the DC/
DC convertor unit.

DC/DC
Convertor Unit

B2.6 X 5

5. Install a new DC/DC convertor unit pushing with
hands.
Secure it to the MB-602 board with the two screws
that were removed in Step 2.

BVP-550
BVP-550P

2-15 (E)

2-12. Replacement of CRT on Viewfinder

2-12. Replacement of CRT on Viewfinder
1. Loosen the screw of the MIC clamp and open the MIC
clamp.
2. Remove the three screws and remove the upper
chassis.

5. Remove the three screws and remove the CRT from
the VF tube assembly.
6. Remove the CRT tube from the CRT.

Upper chassis

MIC clamp
CRT

PTP2.6 X 8
VF Tube assembly

PTP2.6 X 8

PTP2 X 6

Lug

7. Remove the four screws and remove the mask spacer.
8. Disconnect the connectors CN21 on LP-84 board and
CN31 on LP-85 board.

BOLT,HEXAGON
SOCKETS 2.6 X 6

Mask spacer

3. Disconnect the three connectors CN2, CN4 and anode
cable of the VF-60 board.
4. Remove the CRT socket from the CRT.

LP-84
CRT

Anode cable

K2 X 5

K2 X 5

CRT cable
CN21

CRT
CN31

CN4

LP-85

9. Install a new CRT in the reverse procedures of removal.
n
When installing the upper chassis, take care not to
clamp the harness between upper and lower chassis.

VF-60
CN2

2-16 (E)

BVP-550
BVP-550P

Section 3
Setup Menu
3-1. Setup Menu
The Setup menu is used to select settings of camera operation, select items to be displayed on the viewfinder screen, and select the way the items are displayed.
It is also used for adjustment. The menu appears on the viewfinder screen.
By changing a setting through this menu, the same signal as output to the viewfinder is enabled to be
output at the TEST OUT connector.

•

Configuration of the Setup Menu

The setup menu consists of the following menus
• Operation menu
• Paint menu
• Maintenance menu
• Reference menu
• Triming menu
• System config menu
Operation and Paint menus are normally accessible. To display the other menus, switch setting of the
AT-95 board is required. For details, refer to Section 1-4. “Function of Internal Switches—AT-95 board”
•

Equipment required

CCD Unit
OHB-450/550 series
Camera Adaptor CA-550/550P
Supply power from a camera control unit CCU-700/700P, AC adaptor AC-550/550CE or VTR.
•

Switches and Button

DISP switch
DISP
ON
OFF
MENU

MENU SEL switch
MIC
LEVEL

CANCEL button


CANCEL

BVP-550
BVP-550P

3-1(E)

3-1. Setup Menu

DISP switch
ON
: Displays characters and messages indicating the video camera settings and operation status.
OFF
: No character or marker display appears on the viewfinder screen.
MENU : The setup menu appears on the viewfinder screen.
MENU SEL switch
Selects the menu item or setting value displayed on the viewfinder screen.
CANCEL button
Cancels the contents of a menu setting, or returns to the page select mode or TOP menu.
n
The TOP menu screen indicates the entire configuration of menu items.
To display the TOP menu, set the DISP switch to MENU (from OFF) while holding down the MENU
SEL switch.
•

Basic Operation

1. Displaying the menu
To display the Operation menu, set the DISP switch to MENU.
To display the other menus than the Operation menu, first of all, the TOP menu shall be displayed.
To display the TOP menu, set the DISP switch to MENU while holding down the MENU SEL
switch. Then turn the MENU SEL switch to move the cursor to a menu item which you want and
press the MENU SEL switch.
2. To shift the page, turn the MENU SEL switch with a page scroll bar displayed at the top-right of the
screen until the desired page is displayed and press the MENU SEL switch.
The menu enters the item select mode and the page scroll bar disappears.
3. To shift the item, turn the MENU SEL switch until the → cursor points the item to be set and press
the MENU SEL switch.
4. To change the value, turn the MENU SEL switch. You can change the values quickly by turning
the MENU SEL switch fast. You can make very fine adjustments by turning the switch slowly. By
pressing the MENU SEL switch, the setting is entered.
5 The menu page is returned to the item select mode or page select mode every time the CANCEL
button is pressed.
6. To exit from the setup menu, set the DISP switch to OFF.
•

ROM version
Contents in the menu and factory settings may differ from the descriptions in this manual depending
on the version of ROM on the AT-95 board.

3-2(E)

BVP-550
BVP-550P

3-1. Setup Menu

3-1-1. Operation Menu
This menu contains items contained for changing camera settings to suit shooting conditions during
normal camera operations.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VF DISPLAY

ZOOM

[ON], OFF

Turns on and off the indications of zoom position and lens extender.

SHUTTER

[ON], OFF

Turns on and off the indications of shutter speed and mode.

IRIS

[ON], OFF

Turns the iris setting indication on and off.

AUDIO

[ON], OFF

Turns the audio level indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

TAPE

[ON], OFF

Turns the tape-remaining indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

ZEBRA

ON, OFF

Turns the zebra indication on and off. (Corresponds to the ZEBRA switch
of VF connected to the camera.)

MESSAGE

[ON], OFF

Turns on and off the indication of message in changing each setting of filter,
white balance memory, gain value, DCC(auto knee) and shutter speed.
The indication is displayed within three seconds in the center of the
viewfinder screen.

MODE

CHG, [USR]

CHG : The indications of the optical filter, white balance memory and gain
value are displayed only when they differ from the standard settings
(FILTER:1B, WHITE:A, GAIN:0dB)
USR : The indications are displayed corresponding to the settings on the
VF DISPLAY page.

FILTER

*, [ON], OFF

Turns the optical filter indication on and off.

WHITE

*, [ON], OFF

Turns the white balance memory indication on and off.

GAIN

*, [ON], OFF

Turns the gain value indication on and off.

CENTER

[ON], OFF

Turns the center marker indication on and off.

SAFETY ZONE

80%, 90% , OFF

Turns the safety zone marker indication on and off and selects the area
indicated by that marker.

BOX CURSOR

ON, [OFF]

Turns the box cursor indication on and off.

BOX H POS

-99 to 99 ([0])

Shifts horizontally the location of the box cursor on the screen.

BOX V POS

-99 to 99 ([0])

Shifts vertically the location of the box cursor on the screen.

BOX WIDTH

00 to 99 ([41])

Sets the width of the box cursor.

BOX HEIGHT

00 to 99 ([10])

Sets the height of the box cursor.

LOW

-3,[0], 3, 6, 9, 12,
18, 24, 30 dB

Selects the gain value for each gain switch position
(LOW, MIDDLE, HIGH)

MID

-3, 0, 3, 6, [9], 12,
18, 24, 30dB

HIGH

-3, 0, 3, 6, 9, 12,
[18], 24, 30dB

MARKER

MASTER GAIN

BVP-550
BVP-550P

3-3(E)

3-1. Setup Menu

Page

Item

Settings

Contents

WIDE SCREEN

16:9/4:3 MODE

[16:9], 4:3

Selects the aspect ratio for the video signal output.

[AUTO], 4:3

Selects the aspect ratio for the viewfinder indication.
AUTO : Automatically selects according to the aspect ratio selected by
16:9/4:3 MODE on the WIDE SCREEN page.
4:3
: Selects 4:3 regardless of the 16:9/4:3 MODE setting.

4:3 SAFETY

ON, [OFF]

Turns on and off the indication of the frame showing the 4:3 area in the
16:9 mode.

16:9 ID ON VF

ON, [OFF]

Turns on and off the 16:9 indication in the 16:9 mode on the viewfinder
screen. (This setting is valid only when the DISP switch is set to on or off.)

16:9 ID
ON BARS

ON, [OFF]

Selects whether the 16:9 indication is displayed on the internal color-bar in
the16:9 mode, or not. (This setting is valid only when the DISP switch is
set to on or off.)

BNC TEST OUT

[VBS], RM, VF Y

Selects a video signal to be output at TEST OUT connector.
VBS : Color composite signal
RM : The same as a signal ouput to RM-P9
Y
: Y(monochrome) signal

RM/MON CHAR

[ON], OFF

Selects whether character signals displayed on the viewfinder screen are
mixed with the VBS signal to be output to RM-P9, or not. Turning on is
convenient to operate the setup menu by RM-P9.

VBS LOCK

ON, [OFF]

Used to prevent misoperation by ENC/RGB switch.
ON : ENC signal is output at TEST OUT connector regardless of ENC/
RGB switch setting.
OFF : A signal selected by ENC/RGB switch is output.

(For OHB-550WS VF ASPECT
/550WSP)

MON OUT

VF VIDEO MODE [Y], MIX, NAM

AUTO IRIS
AUTO KNEE (DCC)

STAND ALONE

3-4(E)

Selects a video signal to be output to the viewfinder.
Y
: Y=0.3R+0.59G+0.11B; The same as a camera output signal
MIX : Y=0.33R+0.33G+0.33B
NAM : Selects one of the R, G, and B signal that is maximum in level.

[RGB]-G

ON, [OFF]

Sets signals selectable by RGB switch.
ON : R-G, B-G
OFF : R, G, B

IRIS OVERRIDE

-99 to 99 ([0])

Sets the reference value for automatic iris adjustment.
-99 (further closed) ↔ 99 (further opened)

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

APL RATIO

-99 to 99 ([0])

Sets the way the iris is automatically adjusted.
-99 (PEAK) ↔ 99 (AVERAGE)

AUTO KNEE
POINT

-99 to 99 ([XX])

Sets the point on which the knee function starts to have effect in the autoknee mode.

AUTO KNEE
SLOPE

-99 to 99 ([XX])

Sets the volume of the effect of the knee function in the auto-knee mode.

H PHASE

-99 to 99 ([XX])

Sets the horizontal phase of the camera in the genlock mode.

SC PHASE

0 to 360([XX])

Sets the subcarrier phase of the camera in the genlock mode.

CABLE COMP

ON, [OFF]

Turns on and off the cable compensation circuit for the external sync
signal in the genlock mode.

SNG BARS

ON, [OFF]

Turns the color-bar signal for SNG on and off.

MASTER BLACK

-99 to 99 ([0])

Adjusts the MASTER BLACK level.

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

CF PULSE

[ON], OFF

Turns on and off the color framing pulse supplied to the VTR.

SKIN DETAIL

ON, [OFF]

Turns the skin tone detail function on and off.

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Starts to automatically adjust the volume of effect of the skin detail auto
hue function. (Does not function at present.)

BVP-550
BVP-550P

3-1. Setup Menu

Page

Item

Settings

Contents

AUTO SETUP

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output.

OHB

[OK], NG

Displays a state of communication for control data between the OHB block
and CPU on AT board.

PR

[OK], NG

Displays a state of communication for control data between the PR board
and CPU on AT board.

VA

[OK], NG

Displays a state of communication for control data between the VA board
and CPU on AT board.

AT

[OK], NG

Displays a state of communication for control data between the CPU and
memory on AT board.

SG

[OK], NG

Displays a state of communication for control data between the SG board
and CPU on AT board.

DA

[OK], NG

Displays a state of communication for control data between DA board and
CPU on AT board.

IF

[OK], NG

Displays a state of communication for control data between IF board and
CPU on AT board.

MD

[OK], NG

Displays a self-diagnosis result of MD board (of camera adaptor).

AU

[OK], NG

Displays a self-diagnosis result of AU board (of camera adaptor).

TR

[OK], NG

Displays a self-diagnosis result of TR board (of camera adaptor).

DIAGNOSIS

CAMERA ID

ID: [] [] [] [] [] [] []
ID ON BARS

c)

Sets a camera ID of up to ten alphanumerics, symbols, and spaces.
ON, [OFF]

Selects whether the camera ID is mixed with a camera output signal only
in the color-bar mode, or not.

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence. After the adjustment is complete, adjustment result is stored as a reference file.
1. Lens is automatically closed and the black balance is automatically adjusted.
2. The white balance is automatically adjusted using TEST 2 (3-step) signal.
n
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the LEVEL AUTO adjustment does not contain the gamma and knee adjustments unlike a conventional camera.

BVP-550
BVP-550P

3-5(E)

3-1. Setup Menu

3-1-2. Paint Menu
The Paint menu is used for white and other paint adjustments items. To activate the Paint menu, first
display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VIDEO LEVEL

WHITE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B gain level.

BLACK R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master black level.

FLARE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B flare level.

GAMMA R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master gamma correction curve.

FLARE

[ON], OFF

Turns the flare correction circuit on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: outputs the sawtooth waveform test signal
2
: outputs 3-step waveform test signal
OFF : no test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the VIDEO LEVEL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding the detail signal.

LEVEL

–99 to 99 ([0])

Adjusts the master level for the detail signal.

LIMITTER

–99 to 99 ([0])

Adjusts the clipping level against the maximum detail level.

CRISPENING

–99 to 99 ([0])

Adjusts the level at which the detail signal is crispened.

LEVEL DEP

–99 to 99 ([0])

Adjusts the level to control the detail signal used at lower signal level.

LEVEL DEP

[ON], OFF

Turns the level depend function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the DETAIL 1 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding detail signal.

H/V RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H and V detail signal.

DETAIL1

DETAIL2

3-6(E)

FREQUENCY

–99 to 99 ([0])

Adjusts the boost frequency for H detail signal.

MIX RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H detail signal used before and after the gamma
compensation circuit.

W.LIMITTER

–99 to 99 ([0])

Adjust the clipping level adainst the higher detail signal at the maximum level.

B.LIMITTER

–99 to 99 ([0])

Adjusts the clippping level against the lower detail signal at the minimum level.

COMB

–99 to 99 ([0])

Sets the effect volume of the comb filter
99 (Causes less cross colors.) ↔ –99 (Yields clear pictures, but causes more
cross colors.)
* For a PAL model, this function has the effect on not every object but a specified object.

KNEE APRT.

ON, [OFF]

Turns the knee aperture function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the DETAIL2 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)
BVP-550
BVP-550P

3-1. Setup Menu

Page

Item

Settings

Contents

SKIN DETAIL

SKIN DETAIL

ON, [OFF]

Turns the skin detail function on and off.

LEVEL

–99 to 99 ([0])

Adjusts the level of the skin detail.

PHASE

100° to 170°([0])

Adjusts the hue for the skin detail function.

WIDTH

0° to 90° ([0])

Adjusts the color width for the skin detail function.

SATURATION

–99 to 99 ([0])

Adjusts the color saturation of the skin detail function.

GATE

ON, [OFF]

Turns the area display of the skin detail function in the viewfinder screen.

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Sets the range of skin detail hue function automatically.
(Does not function at preset.)

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the SKIN DETAIL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA, R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B and master gamma level.

COARSE

0.40, [0.45], 0.50

Selects the gamma value in steps.

GAMMA

[ON], OFF

Turns the gamma value on and off.

BLACK GAMMA

–99 to 99 ([0])

Adjusts the black gamma (master).
(Note: A noise appears on the screen during operation.)

BLACK GAMMA

ON, [OFF]

Turns the black gamma function on and off.
(Note: A noise appears on the screen during operation.)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Resets all settings on the GAMMA page to the factry settings.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

POINT

–99 to 99 ([0])

Adjusts the knee point level when the function is OFF.

SLOPE

–99 to 99 ([0])

Adjusts the knee slope level when the function is OFF.

KNEE

[ON], OFF

Turns the knee function on and off.

AUTO KNEE

ON, [OFF]

Turns the auto knee function on and off.

KNEE MAX

ON, [OFF]

Turns on and off the knee max function which changes the slope to
completely collapsed form.

WHITE CLIP

–99 to 99 ([0])

Adjusts the white clip level.

WHITE CLIP

[ON],OFF

Turn the white clip function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the KNEE/W.CLIP page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA

KNEE/W.CLIP

BVP-550
BVP-550P

3-7(E)

3-1. Setup Menu

Page

Item

Settings

Contents

MATRIX

R-G, R-B

–99 to 99 ([0])

Compensates the user’s matrix (sets an optional value as the constant for

G-R, G-B

–99 to 99 ([0])

R-G, R-B, G-R, G-B, B-R, and B-G).

B-R, B-G

–99 to 99 ([0])

MATRIX

[ON], OFF

Turns the matrix compensation on and off.

[ON], OFF

Turns the user’s matrix compensation on and off.

PRESETa)

[ON], OFF

Turns on and off only the preset matrix compensation (fixed constant
compensation).

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step form test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the MATRIX page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

1

Storing and recalling a scene file (painting data corresponding to a shot scene)

2

Storing a scene file

3

1 Turn MENU SEL switch to move the → cursor to “FILE STORE,” then press MENU SEL

USER

SCENE FILE

a)

4

a)

switch. “FILE STORE” flashes on the viewfinder screen.

5

2 Select the file number (1 to 5) to be stored to.

FILE STORE

(If data is already stored at the selected location, the new data replaces the current data.)
Recalling a scene file
Turn MENU SEL switch to move the → cursor to the file number whose data is to be recalled,
then press MENU SEL switch.
• When MENU SEL switch is pressed, the scene file data replaces the current settings.
• When the scene file is recalled, an asterisk appears next to the number.

STANDARD

Returns the current amount of paint adjustments and switch setting to their reference value
stored as a reference file.

When both USER and PRESET are set to ON, the matrix constant compensation is total value of the USER and PRESET matrix.

3-8(E)

BVP-550
BVP-550P

3-1. Setup Menu

3-1-3. Maintenance Menu
The Maintenance menu is used for encoder output level and other adjustments items necessary for
camera’s maintenance. The Maintenance menu is not normally accessible. To display this menu, switch
setting of the AT-95 board is required.
For details, refer to Section 1-4. “Function of Internal Switches—AT-95 board”.
To activate the Maintenance menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VBS

SYNC LEVEL

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.

Y LEVEL

-99 to 99 ([XX])

Adjusts the Y level of camera’s encoder output signal.

BURST LEVEL

-99 to 99 ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LEVEL

-99 to 99 ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

-99 to 99 ([XX])

Adjusts the Q (or V) level of camera’s encoder output signal.

SET UP

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.
(This setting is valid only for NTSC.)

BF PHASE

-99 to 99 ([XX])

Adjusts the burst phase of camera’s encoder output signal.

SC-H PHASE

-99 to 99 ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

V BLANKING

19,[20],21H

Adjusts the V blanking width of camera’s encoder output signal.
(This setting is valid only for NTSC.)
In connection with CCU, the width is fixed to 19H.
* For a PAL model, the width is fixed to 25H at all times.

V SAW R/G/B/M

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, B or master
white shading.

V PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.PARA compensation for the R, G, or B white shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B white shading.

H PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.PARA compensation for the R, G, or B white shading.

WHITE R/G/B

-99 to 99 ([XX])

Adjusts the R, G, or B white level.

V MOD

ON, [OFF]

Turns the V modulation shading on and off.

V MOD R/G/B/M

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, B or master
modulation shading of the lens and prism.b)

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the WHITE SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

BLACK SHADING V SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, or B black shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B black shading.

BLK SET R/G/B

-99 to 99 ([XX])

Adjusts the volume of BLACK SET compensation for the R, G, or B.

BLACK R/G/B/M

-99 to 99 ([XX])

Adjusts the R, G, B or master black level.

MASTER GAIN

-3,0,3,6,9,12,18,
24,30 dB ([X])

Selects the master gain value.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the BLACK SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

WHITE SHADING

b)

When the master modulation shading is adjusted, the V. SAW component for the R and B V-modulation shadings of the prism is
simultaneously compensated.

BVP-550
BVP-550P

3-9(E)

3-1. Setup Menu

Page

Item

Settings

Contents

AUTO SET UP

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Starts to automatically adjust the volume of effect of the
hue function. (Does not function at present.)

COLOR MATCH

Press MENU SEL
switch to execute.

Starts to automatically perform the COLOR MATCH adjustment to match
in color between two or more cameras. (Does not function at present.)

WHITE SHADING Press MENU SEL
switch to execute.

Starts to automatically adjust the white shading. (Does not function at present.)

BLACK SHADING Press MENU SEL
switch to execute.

Starts to automatically adjust the black shading. d)

DD/MM/YY
HH:MM:SS

Adjusts a built-in timer. (HH;hour/MM;minute only)

DATE/TIME

OTHERS

c)

d)

skin detail auto

DATE ON BARS

ON, [OFF]

Selects whether the date characters are mixed with a camera output
signal in the color-bar mode, or not.

TIME ON BARS

ON, [OFF]

Selects whether the time characters are mixed with a camera output
signal in the color-bar mode, or not.

S/N MEASURE

ON, [OFF]

ON : Set to ON in mesuring the S/N ratio. And settings of the DETAIL,
CHROMA, GAMMA, MATRIX, and FLARE will be temporarily turned OFF.
OFF: Settings of DETAIL and so on are returned as they were.

MOD MEASURE

ON, [OFF]

ON : Set to ON in mesuring the modulation depth. And settings of the
DETAIL, GAMMA, MATRIX, and FLARE will be temporarily turned OFF.
OFF: Settings of DETAIL and so on are returned as they were.

MASTER BLACK

-99 to 99 ([0])

Adjusts the master black in measuring the S/N ratio and modulation depth.

DETAIL

[ON], OFF

CHROMA

[ON], OFF

GAMMA

[ON], OFF

MATRIX

[ON], OFF

FLARE

[ON], OFF

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence. After the adjustment is complete, adjustment result is stored as a reference file.
1. Lens is automatically closed and the black balance is automatically adjusted.
2. The white balance is automatically adjusted using TEST 2 (3-step) signal.
n
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the LEVEL AUTO adjustment does not contain the gamma and knee adjustments unlike a conventional camera.
Before first using the camera with the OHB-450/451/550/550WS (or their PAL version) installed, or After replacing the CCD unit, be
sure to execute the automatic black shading adjustment.

3-10(E)

BVP-550
BVP-550P

3-1. Setup Menu

3-1-4. Reference Menu
The Reference menu stores the reference values used for automatic setup adjustment and the standard
settings of the switches as the reference files. And the menu can clear the current reference files. The
Reference menu is not normally accessible. To display this menu, switch setting of the AT-95 board is
required. For details, refer to Section 1-4. “Function of Internal Switches—AT-95 board”. To activate
the Reference menu, first display the TOP menu.
m
1. Executing the FILE STORE on the REFERENCE FILE page registers settings of items, which have
been set through the Paint, Maintenance and System config menus just before the file store, as the
reference values.
2. When changed numbers of items are returned to the reference values stored as the reference files,
recall the standard file using an MSU/RCP or the setup menu.
Page

Item

Settings

Contents

REFERENCE
FILE

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the reference files.
(Temporarily clears the current reference filese) .)

FILE STORE

Press MENU SEL
switch to execute.

Stores specific data for a lens to be used as the lens files. The standard
values are stored at the factory. (Does not function at present.)

LENS FILE
e)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

3-1-5. Triming Menu
The Triming menu stores the adjustment data in replacing parts as the triming files. And the menu can
clear the current adjustment values. The Triming menu is not normally accessible. To display this
menu, switch setting of the AT-95 board is required. For details, refer to Section 1-4. “Function of
Internal Switches—AT-95 board”. To activate the Triming menu, first display the TOP menu.
n
Executing the FILE STORE on the TRIMING FILE page registers settings of items, which have been
set through the Maintenance and System config menus just before the file store, as the reference values.
Page

Item

Settings

Contents

TRIMING FILE

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the triming files and returns to the
factory-set values. (Temporarily clears the current triming filese).)

FILE STORE

Press MENU SEL
switch to execute.

Stores specific data for a CCD unit to be used as the OHB files.
The standard values are stored at the factory.

OHB FILE
e)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

BVP-550
BVP-550P

3-11(E)

3-1. Setup Menu

3-1-6. System Config Menu
The System config menu is used for adjustments items necessary to replace a printed circuit board or
some parts of the camera. The System config menu is not normally accessible. To display this menu,
switch setting of the AT-95 board is required. For details, refer to Section 1-4. “Function of Internal
Switches—AT-95 board”. To activate the System config menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting. XX or XXX represents two or three digits in hexadecimal.)
Page

Item

DATE/TIME

YY/MM/DD
HH:MM:SS

Y/CHROMA

PR/VR/TEST

Settings

Contents
Adjusts the built-in calender and timer.

RESET

Turn MENU SEL
switch to execute.

Resets hour (HH), minute (MM) and second (SS) of the timer.

SC FREQ

XXX ([XX])

Adjusts the camera’s subcarrier frequency.

Y SYNC

XXX ([XX])

Adjusts the sync level of camera’s Y output signal.

Y SETUP

XXX ([XX])

Adjusts the setup level of camera’s Y output signal.

Y VIDEO

XXX ([XX])

Adjusts the Y level of camera’s Y output signal.

TEST SETUP

XXX ([XX])

Adjusts the setup level of camera’s encoder output signal.

BURST LVL

XXX ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LVL

XXX ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

XXX ([XX])

Adjusts the Q(V) level of camera’s encoder output signal.

SC-H PHASE

XXX ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

REG LVL

XXX ([XX])

Adjusts the level of the R, G and B output signals.

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting each
item on the Y/CHROMA page.

PR ADG R/G/B

XXX ([XX])

Adjusts the reference level of the AD converter for R/G/B signals on the
PR board.

VA MOD R/G/B

XXX ([XX])

Adjusts the R, G or B modulation balance for the VA board.

G CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for G
signal on the PR board.
(Note: In replacing OHB, readjustment is required to set the maximum
value of the modulation depth.)

R/B CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for R/B
signals on the PR board.
(Note: In replacing OHB, readjustment is required to set the minimum
level of a pseudo signal.)

M.BLACK

XXX ([XX])

Adjusts the master black signal.

TEST2 HI

XXX ([XX])

Adjusts the high level of the TEST2 (3-STEP) signal on the VA board.

TEST2 MID

XXX ([XX])

Adjusts the middle level of the TEST2 (3-STEP) signal on the VA board.

TEST CLIP

XXX ([XX])

Adjusts the clip level of the TEST1 (sawtooth) signal on the VA board.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the PR/VR/
TEST page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

PRE KNEE/ZEBRA

PREKNEE1 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 1 level on the VA board.

(Continued)

PREKNEE2 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 2 level on the VA board.

APERTURE

Adjusts the aperture compensation signal level.

3-12(E)

XXX ([XX])

BVP-550
BVP-550P

3-1. Setup Menu

Page

Item

Settings

Contents

PRE KNEE/ZEBRA

WHITE CLIP

XXX ([XX])

Adjusts the white clip level.

WHITE CLIP

[ON], OFF

Turns the white clip function on and off.

VTR/CCU

IRIS

OTHERS

BVP-550
BVP-550P

ZEBRA1 LEVEL,WIDE XXX ([XX])

Sets the center value and range for the zebra 1 signal detection.

ZEBRA2 LEVEL

XXX ([XX])

Sets the detection value for the zebra 2 signal.

Z.DISP

1,2, 1&2

Selects a zebra signal to be displayed on the viewfinder.
1: Zebra 1 signal
2: Zebra 2 signal
1&2: Both zebra 1 and 2 signals are displayed at the same time.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the PREKNEE/
ZEBRA page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

VTR R-Y

XXX ([XX])

Adjusts the R-Y color-difference signal level.

VTR B-Y

XXX ([XX])

Adjusts the B-Y color-difference signal level.

CCU Y SAMP

XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the Y signal.

CCU R-Y SYNC

XXX ([XX])

Adjusts the level of the sync pulse to be mixed with the R-Y signal.

CCU B-Y SAMP

XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the B-Y signal.

RGB OFFSET

XXX ([XX])

Adjusts the G signal level.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the VTR/CCU page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting each
item on the VTR/CCU page.

LEVEL

-99 to 99 ([XX])

Adjusts the auto-iris level.

APL RATIO

-99 to 99 ([0])

Sets the way the iris is automatically adjusted. -99 (PEAK) ↔ 99 (AVERAGE)

FILTER,WHT MEM [ON], OFF

ON: A total of 8 settings of the white balance value can be saved in
conbination with the CC filter and WHITE BAL switch settings.
OFF: One white balance value can be saved for the WHITE BAL switch
setting A or B, for a total of 2 settings.

NTSC ENC

[WIDE], NRW

Sets the band width of the Q signal for the NTSC color encoder.

ROTARY

[STD], RVS

Selects the mode of MENU SEL switch (as turned counterclockwise when
viewed from the front.)
STD: Cursor moves downwards and a numeric value increases.
RVS: Cursor moves upwards and a numeric value decreases.

OWN CALL

R, F&R , OFF

Selects whether one or two TALLY lamps are lit corresponding to the
CALL button of camera adaptor pressed, or not. Or selects which TALLY
lamp is lit when the CALL button is pressed.
(This setting is valid in connection with CCU. When the camera is used
alone, it is always set to OFF.)
R: Rear TALLY lamp is lit.
R&F: Rear and front TALLY lamps are lit.
OFF: No TALLY lamp is lit corresponding to the CALL button.

CENTER H POS

XXX ([XX])

Shifts horizontally the location of the center marker on the screen.

CENTER V POS

XXX ([XX])

Shifts vertically the location of the center marker on the screen.

LENS VTR S/S

TALK, [RET2]

Selects the mode of VTR S/S SW of the lens and camera.
TALK: VTR S/S SW of lens functions as INCOM TALK SW (momentary)
and that of the camra as RET2 SW.
RET2: VTR S/S SW of lens functions as RET2 SW and that of the camera
as INCOM TALK SW.

VF ? DISPLAY

[ON], OFF

Turns on and off the indication of ? mark at the top-right of the VF screen with
the DISP switch set to ON when the self-diagnosis result is NG (no good)and
so on.

3-13(E)

3-2. Self-Diagnosis

3-2. Self-Diagnosis
The BVP-550/550P has a diagnosis mode used for self-diagnosis of every plug-in board and the OHB.
The diagnosis page is displayed on the viewfinder screen.
• Operation
Select “Diagnosis” page of the Operation menu referring to Section 3-1.
• Viewfinder Screen

• Display Descriptions
Marks

Board/Block

Judging Point for NG

1

OHB(CCD UNIT) Error in communication with IC18, IC19/TG-159

2

PR-211

Error in communication with IC49

3

VA-163

Error in communication with IC26

4

AT-95

Error in communication with IC46

5

SG-234

Error in communication with IC21

6

DA-88

Error in communication with IC10

7

IF-510

Error in communication with IC155

Refer to CA-550/550P maintenance manual for descriptions on columns of CA.
n
When other equipment than the CA-550/550P is connected to the camera, or when the CA-550/550P is
connected to the camera but is not connected to the CCU, the columns 8 will display “– –”.

3-14(E)

BVP-550
BVP-550P

Section 4
Electrical Alignment
4-1. Preparation
4-1-1. Equipment Required
Multiburst Chart

Pattern box PTB-500

Sony P/N: J-6026-110-A

0.5

1

2

3

4

5

6

7

8

9

10

Sony P/N: J-6029-140-B
• Light source for test chart
Power supply AC90 to 240V

0.5

Grayscale Chart
Sony P/N: J-6026-130-B

Grayscale Chart (16:9)
Sony P/N: J-6394-080-A

White Window Chart

Extension board EX-464 (option)

Make a square hole at the center
of a black sheet of paper.

Sony P/N: J-6395-040-A
For BVP-550/550P plug-in boards

VF extension harness

Extension board BKP-7900 (option)

Sony P/N: J-6395-050-A

BVP-550
BVP-550P

Equipment
• Digital voltmeter
• Oscilloscope (band width: 150 MHz or more)
• Vectorscope (conform to SETUP 0)
• Waveform monitor
• B/W monitor (Horizontal resolution: 700 lines or more)
• Color monitor
• Video signal generator
(Tektronix 1410 or equivalent for NTSC)
(Tektronix 1411 or equivalent for PAL)
• Frequency counter
• Spectrum analyzer
• Audio generator
• DC power supply
Peripheral Equipment
• Camera control unit CCU-700/700P/700A/700AP
• Master setup unit MSU-700
• CCD unit OHB-450/550 series
• Camera adaptor CA-550/550P

For CCU-700/700P plug-in boards

4-1 (E)

4-1. Preparation

4-1-2. Notes on Adjustment
When performing the adjustment, read throughly the
following comments.
1. The calibration of all measuring equipment should be
completed.
2. Camera control unit and CCD unit alignments should
be also completed.
3. “4-1-4. Initial Setting” should be completed.
4. Turn off the power before extending the plug-in board
using the extension board.
5. When using the camera as 16:9 mode together with the
OHB-550WS/550WSP, use the specified grayscale
chart (J-6394-080-A).
6. Paste a black colored velvets (around 3 × 3 cm) to both
sides of the full white portion in the center of the
grayscale chart.
(For more details, consult your Sony service represen
tative.)
7. When connectting MSU-700 to BVP-550/550P, use
MSU-700 for various settings, because the switches on
the side panel of the camera become invalid.

8. Setup menu consists of the following menus.
• Operation
• Paint
• Maintenance
• Reference
• Triming file
• System config
To activate each menu, first display the TOP menu.
9. In this manual, describes the setup menu operation as
follows.
Title of the selected page (top right corner display)

For reference:
When Paint →Skin Detail is selected:
MENU : Paint
PAGE : Skin Detail (P4)
10. How to change the setting values
To enter or cancel the setting value of items, which
can be changed by turning the MENU SEL switch,
proceed as follows.
To enter the setting value; Press the MENU SEL
switch.
To cancel the setting value;
Before pressing the MENU SEL switch, press the
CANCEL button. The original setting is restored.
After pressing the MENU SEL switch, the setting can
not be canceled.

4-1-3. Connections

1.5" VF
CCD UNIT
OHB

CAMERA CONTROL
UNIT
CCU-700/700P

Waveform monitor
A-ch
PIX

TRIAX CABLE

ENG/EFP LENS
PATTERN
BOX

CAMERA
ADAPTOR
CA-550/550P

(100 to 1000m)

75Ω

COLOR VIDEO
CAMERA
BVP-550/550P

Vector scope
CCA-5 CABLE
(max. 200m)
MASTER SETUP UNIT
MSU-700

Color monitor

Audio generator
Oscilloscope

4-2 (E)

75Ω

BVP-550
BVP-550P

4-1. Preparation

4-1-4. Initial Setting
Displaying Setup Menu
The setup menus from the Operation menu to System
config menu are used in BVP-550/550P adjustment.
Perform the following setting to display all of the setup
menu.
Preparations:
• AT-95 board
S1-1 → ON
S1-2 → OFF
S1-3 → ON
S1-4 → OFF
• CAMERA SAVE/STBY switch → STBY
Operation Procedures:
1. DISP switch → OFF
2. POWER switch → ON
3. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
Setup menu:
• Execute the Scene File Standard.
MENU : Paint
PAGE : Scene File (P8)
ITEM
: Standard
Press the MENU SEL switch (on the front panel) to
execute the Scene File Standard.

BVP-550
BVP-550P

• Set each item through the setup menu as follows.
(Refer to the Operation Manual to operate the setup
menu.)
MENU : Operation
PAGE : Gain Sw (?3)
ITEM : Low → 0 dB
ITEM : Middle → 9 dB
ITEM : High → 18 dB
MENU : Paint
PAGE : Video Level (P1)
ITEM : Test → Off
PAGE : Detail 1 (P2)
ITEM : Detail → On
PAGE : Skin Detail (P4)
ITEM : Skin Detail → Off
PAGE : Gamma (P5)
ITEM : Gamma → On
PAGE : Knee/W.Clip (P6)
ITEM : Knee → Off
ITEM : White Clip → On
PAGE : Matrix (P7)
ITEM : Matrix → Off
Side Panel:
VTR SAVE/STBY switch → STBY
GAIN switch → L (0 dB)
OUTPUT/DCC switch → CAM/OFF
WHITE BAL switch → PRST
Front Panel:
SHUTTER switch → OFF

4-3 (E)

4-2. Adjustment for Installation of OHB

4-2. Adjustment for Installation of OHB
4-2-1. VCO CONT Frequency Confirmation
Notes:
• Perform this confirmation only when the CCD unit is
installed.
• Warm up the camera for about 10 minutes before
performing this confirmation.
Preparation

: RGB/ENC switch (on the side
panel)→ENC
Equipment
: Frequency counter, Video signal
generator
Test point
: TEST OUT connector
Specifications: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

TEST
OUT

GENLOCK
SC
Video signal
IN
OUT
generator

Frequency
counter

If the specification is not satisfied, perform the following
adjustment.
1. Set the menu as follows and adjust the frequency by
turning the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC Freq
Specifications: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

4-4 (E)

BVP-550
BVP-550P

4-2. Adjustment for Installation of OHB

4-2-2. VA Gain Adjustment
Notes:
• Use the reflective chart (reflection ratio: 89.9 %) in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminous intensity of the chart to 2000 lx.
• Never change the setting of the following trimmer
capacitors.
These capacitors are extremely difficult to adjust in the
field.
VA-163 board: 1CT200, 1CT300, 1CT400

5. Set the menu as follows.
MENU
: Operation
PAGE
: Auto Setup (?8)
ITEM
: Test → Off
6. Set the RGB/ENC switch (on the side panel) to ENC.
7. Shoot the white window chart so that the chart is
aligned with the underscanned monitor frame.
8. Adjust the iris control of the lens to satisfy the white
level B.
Specifications: B = 100 ±2 IRE (for NTSC)
B = 700 ±14 mV (for PAL)

Equipment : Waveform monitor
Object
: White window chart

B

Preparations:
Connect the waveform monitor to the TEST OUT connector.
WHITE BAL switch (on the side panel) → PRST

(Waveform Monitor)

Adjustment procedures
Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
1. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
2. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the DISP switch (on the side panel) to MENU.
4. Confirm the output level of the TEST waveform.
Set the menu as follows and adjust the level by turning
the MENU SEL switch.
MENU
: Operation
PAGE
: Auto Setup (?8)
ITEM
: Test→2
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

A

(Waveform Monitor)

BVP-550
BVP-550P

4-5 (E)

4-2. Adjustment for Installation of OHB

9. Switch the waveform monitor to CHROMA mode.
10. Perform adjustment.
Adjustment point:
1 RV200/VA-163 (C4)
1 RV400/VA-163 (F4)
Specifications: C=Minimum
C=MINIMUM

4-2-3. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again referring to the message displayed on
the viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.

(Waveform Monitor)

4

3

2

1

VA

A

Preparations:
Connect the waveform monitor to the TEST OUT connector.
RGB/ENC switch (on the side panel) → ENC

TEST

B

CT200
R GAIN

Test point
: TEST OUT connector
Iris of the lens: CLOSE

RV200
C

R

G GAIN

CT300

D

R

E
B GAIN

CT400
RV400
F

B

G

VA-163(COMPONENT SIDE)

Adjustment procedures:
1. Set the DISP switch (on the side panel) to MENU.
2. Set the menu as follows and execute the auto black
shading.
MENU : Maintenance
PAGE : Auto Setup(M4)
ITEM
: Black Shading
• Press the MENU SEL switch (on the front panel) to
execute the automatic black shading adjustment.
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again referring to this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.

4-6 (E)

BVP-550
BVP-550P

4-2. Adjustment for Installation of OHB

4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

• Manual Black Shading Adjustment (For reference)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

Note:
• Perform this adjustment only when “4-2-3. Black
Shading Adjustment” is not completed.

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

Equipment

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

TEST OUT connector

: Waveform monitor

Preparations:
Connect the waveform monitor to the TEST OUT connector.
GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE

6. After adjustments are completed, set the switches as
follows.
ENC/RGB switch (on the side panel) → ENC
GAIN switch (on the side panel) → L (0 dB)

Adjustment procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 35 mV for PAL by
turning the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
4. If the shading is monitored, makes the waveform flat
referring to the following table.
5. Perform the adjustments for R-ch and B-ch following
the same procedures as for G-ch.

BVP-550
BVP-550P

4-7 (E)

4-2. Adjustment for Installation of OHB

4-2-4. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Full white pattern
Preparations:
Connect the waveform monitor to the TEST OUT connector.
ENC/RGB (on the side panel)→ENC
Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Zoom of the lens : Shoot the fully occupied white area
of the pattern box in the full underscanned monitor frame adjusting the
zoom control.
Adjust the iris control of the lens to
satisfy the white level A.
Iris of the lens : A = 80 ±5 IRE (for NTSC)
A = 560 ±14 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

R

B

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

G ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

R

B

TEST OUT connector

Adjustmnet procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. If the white shading is monitored, makes the waveform
flat referring to the following tables.
4. Perform the adjustments for R-ch and B-ch following
the same procedures as for G-ch.

4-8 (E)

BVP-550
BVP-550P

4-2. Adjustment for Installation of OHB

5. Set the menu as follows.
MENU : Reference
PAGE : Reference file (R1)
ITEM
: File Store
Execute the Reference File Store.
Press the MENU SEL switch (on the front panel).
6. After adjustments are completed, set the switch and
menu as follows.
ENC/RGB switch (on the side panel) → ENC
Menu setting:

BVP-550
BVP-550P

4-9 (E)

4-2. Adjustment for Installation of OHB

4-2-5. Master Black Adjustment

4-2-6. Gamma Correction Adjustment

Equipment
: Waveform monitor
Test point
: TEST OUT connector
Iris of the lens: CLOSE

Equipment
Test point
Object

Preparations:
Connect the waveform monitor to the TEST OUT connector.

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.

Adjustment procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the black level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black (M)
Specifications: A = 3 ±1 IRE (for NTSC)
A = 35 ±7 mV (for PAL)

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
(Waveform Monitor)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Perform the Auto Black Bal adjustment.
AUTO W/B BAL switch (on the front panel) → BLK

RGB/ENC switch (on the side panel) → RGB
R/G/B switch (on the side panel) → G
Adjust the iris control of the lens to satisfy the white level
A.
A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)
Adjustmnet procedures:
1. Set the RGB/ENC switch (on the side panel) to ENC.
2. Set the menu as follows, and adjust the gamma
correction for (M) by turning the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma (M)
Specifications: B = 60 ±2 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

(Waveform Monitor)

4-10 (E)

BVP-550
BVP-550P

4-2. Adjustment for Installation of OHB

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test→1
4. Gamma (R) Adjustment
Set the menu as follows, and adjust the gamma
correction for (R) by turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma (R)
Specifications: Center the dot on the vectorscope.
5. Gamma (B) Adjustment
Set the menu as follows, and adjust the gamma
correction for (B) by turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma (B)
Specifications: Center the dot on the vectorscope.

4-2-7. Flare Adjustment

6. Repeat the steps 4 and 5 alternately, until the beam
spot is minimized on the vectorscope.

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF

Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart
Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.

(Waveform Monitor)

RGB/ENC switch (on the side panel) → ENC
Adjust the iris control of the lens to satisfy the white level
A.
A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Vector scope)

7. Confirm that the carrier leakage does not observed at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

(Waveform Monitor)

8. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test→Off
BVP-550
BVP-550P

4-11 (E)

4-2. Adjustment for Installation of OHB

Adjustmnet procedures:
1. Perform the Auto White Bal adjustment.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Select the 15 lines in the center of the monitor screen
by using the 15 LINESELECT on the waveform
monitor.

Line Select

4. Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (G)
5. Confirm that the level at portion B does not fluctuate
even if the flare turns On/Off. If fluctuates, turn Flare
ON and adjust by Flare (G).
6. Flare (R) Adjustment
Set the menu as follows, and adjust the Flare (R) by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (R)
Specifications: Minimize the carrier leakage.
7. Flare (B) Adjustment
Set the menu as follows, and adjust the Flare (B) by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (B)
Specifications: Minimize the carrier leakage.

(Waveform Monitor)

4-2-8. Knee and White Clip Adjustment
Note:
Perform this adjustment on the customer's preferences, if
necessary.
Equipment : Waveform monitor
Test point : TEST OUT connector
Preparations:
Connect the waveform monitor to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → CAM/ON
RGB/ENC switch (on the side panel) → ENC
WHITE BAL switch (on the side panel) → PRST
GAIN switch (on the side panel) → M(9 dB)
Adjustmnet procedures:
1. Knee Point Adjustment
Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test→1
ITEM
: White Clip→Off
ITEM
: Knee Max→On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

(Waveform Monitor)

2. Knee Slope Adjustment
Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max→Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)

8. Repeat the steps 6 and 7 alternately, until the carrier
leakage is minimized.
9. WHITE BAL switch (on the side panel) → PRST
4-12 (E)

BVP-550
BVP-550P

4-2. Adjustment for Installation of OHB

4-2-9. Crispening Adjustment

(Waveform Monitor)

3. Set the GAIN switch (on the side panel) → H (18 dB).
4. White Clip Adjustment
Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip On/Off→On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

5. Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test→Off
ITEM
: Knee→Off
6. Set the GAIN switch (on the side panel) → L (0 dB).
Note:
The values used in the above adjustments are under the
conditions that the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763 107/749

105/735

103/721

Knee point

98/686

96/672

96/672

Knee slope

109/763 107/750

107/750

107/750

White clip

109/763 107/749

105/735

103/721

BVP-550
BVP-550P

(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
RGB/ENC switch (on the side panel) → ENC
Adjust the iris control of the lens to satisfy the white level A.
A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

98/686

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart
Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.

(Waveform Monitor)

Adjustment procedures
1. Adjust the iris control of the lens to satisfy the white
level A under the grayscale chart shooting.
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)
2. Set the DISP switch (on the side panel) to MENU.
3. Set the menu as follows, and adjust the crispening by
turning the MENU SEL switch.
MENU : Paint
PAGE : Detail 1(P2)
ITEM
: Crispening
Turn the MENU SEL switch (on the front panel) once
to –99, and turn slowly for increment until the noise at
the black level of the waveform is just decreased, or
turn the MENU SEL switch so that the crispening
level is an appropriate value.
4-13 (E)

4-2. Adjustment for Installation of OHB

4-2-10. Level Dependent Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart

2. Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Level Dep.
Specifications: Turn the MENU SEL switch (on the
front panel) once to –99, and slowly
turn it for increment until spikes at
portion B are just decreased.

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.
(Waveform Monitor)

Note:
After this adjustment is completed, be sure to perform “42-12. H/V Ratio Adjustment” and “4-2-13. Detail Level
Adjustment”.
(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
RGB/ENC switch (on the side panel) → ENC
Set the menu as follows.
MENU : Paint
PAGE : Detail 1 (P2)
ITEM
: Detail→On
ITEM
: Level Dep.→On
Adjustment procedures:
1. Adjust the iris of the lens to satisfy the white level A.
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

4-14 (E)

BVP-550
BVP-550P

4-2. Adjustment for Installation of OHB

4-2-11. Detail Frequency Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart

2. Make a selection of line at the center white portion of
the grayscale chart.
3. Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Frequency
Specifications: Adjust the edge width at each end of
the center white portion to the
desired width by turning the MENU
SEL switch.

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.

(Waveform Monitor)

(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF

Note:
After this adjustment is completed, be sure to perform “42-12. H/V Ratio Adjustment” and “4-2-13. Detail Level
Adjustment”.

RGB/ENC switch (on the side panel) → ENC
Set the menu as follows.
MENU : Paint
PAGE : Detail 2 (P3)
ITEM
: Detail→On
Adjustment procedures:
1. Adjust the iris control of the lens to satisfy the white
level A.
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

BVP-550
BVP-550P

4-15 (E)

4-2. Adjustment for Installation of OHB

4-2-12. H/V Ratio Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart

2. Set the menu as follows, and adjust the H/V Ratio by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: H/V Ratio
Specifications: Adjust the ratio between the H and
V detail amounts (white) to be
added is 1 : 1.
H

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.

V

(Waveform Monitor)

(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
RGB/ENC switch (on the side panel) → ENC
Set the menu as follows.
MENU : Paint
PAGE : Detail 2 (P3)
ITEM
: Detail→On
Adjustment procedures:
1. Adjust the iris control of the lens to satisfy the white
level A.
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

4-16 (E)

BVP-550
BVP-550P

4-2. Adjustment for Installation of OHB

4-2-13. Detail Level Adjustment

4-2-14. Detail Clip Adjustment

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart

Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.
RGB/ENC switch (on the side panel) → ENC
Set the menu as follows.
MENU : Paint
PAGE : Detail 1 (P2)
ITEM
: Detail→On

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.

(Waveform Monitor)

(Waveform Monitor)

Adjustment procedures:
1. Adjust the iris control of the lens to satisfy the white
level A.
Specifications: A = 80 ±2 IRE (for NTSC)
A = 560 ±14 mV (for PAL)

RGB/ENC switch (on the side panel) → ENC
Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
Set the menu as follows.
MENU : Paint
PAGE : Detail 2 (P3)
ITEM
: Detail→On
Adjustment procedures:
1. Adjust the iris control of the lens to satisfy the white
level A.
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

2. Set the menu as follows, and adjust the signal level by
turning the MENU SEL switch.
MENU : Paint
PAGE : Detail 1 (P2)
ITEM
: Level
Adjust the detail signal level to be added to each step
in the grayscale chart for the desired level.

BVP-550
BVP-550P

(Waveform Monitor)

4-17 (E)

4-2. Adjustment for Installation of OHB

2. Make a selection of line at the center white portion of
the grayscale chart.

Line Select

3. White Limitter Adjustment
Set the menu as follows, and set the clip level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: W.Limitter
Specifications: Adjust the edges of portion (a) to
the desired clip level.

(Waveform Monitor)

4. Black Limitter Adjustment
Set the menu as follows, and set the clip level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: B.Limitter
Specifications: Adjust the edges of portion (b) to
the desired clip level.

4-2-15. Skin Tone Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Color monitor, Viewfinder or Vectorscope
Preparations:
Connect the vectorscope to the TEST OUT connector.
Shoot a person’s face.
Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Skin Detail→On
Adjustment procedures:
1. Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Gate→On
2. Set the menu as follows, and adjust the amount of the
skin detail signal to the desired level according to the
following menus by turning the MENU SEL switch.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Phase: Hue
ITEM
: Saturation: Component in the saturation
direction
ITEM
: Width: Component in the hue direction
(The effective area of the skin detail signal appears in
a zebra pattern on the viewfinder screen. Set the
desired level.)
R-Y
phase
Width

Saturation

B-Y

(Waveform Monitor)
(Vector scope Monitor)

3. Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Gate→Off

4-18 (E)

BVP-550
BVP-550P

4-2. Adjustment for Installation of OHB

4-2-16. Zebra Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart
Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.
Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
RGB/ENC switch (on the side panel) → ENC
Zebra switch (on the viewfinder) → ON

(Waveform Monitor)

Adjustment procedures:
1. Adjust the iris control of the lens to satisfy the white
level A.
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

2. Set the menu as follows, and adjust by turning the
MENU SEL switch.
MENU
: System config
PAGE
: Pre knee/Zebra (S4)
ITEM
: Z.Disp→1
Adjustment Pont:
ITEM
: Zebra1 (level)
Specifications: Adjust that the stripes appear at the
center of the portions A on the
viewfinder screen.
(The area of the stripes can be
changed by ITEM: Zebla 1 (Wide).)

A

A

(Waveform Monitor)

3. Set the menu as follows, and adjust it by turning the
MENU SEL switch.
MENU
: System config
PAGE
: Pre knee/Zebra (S4)
ITEM
: Z.Disp→2
Adjustment Pont:
ITEM
: Zebra2 (level)
Specifications: Adjust that the stripes appear at the
center of the portions B on the
viewfinder screen.
(The area of the stripes can be
changed by ITEM: Zebla 2 (Wide).)

B

(Waveform Monitor)

4. Set the Zebra switch (on the viewfinder) to OFF.
(Waveform Monitor)

BVP-550
BVP-550P

4-19 (E)

4-2. Adjustment for Installation of OHB

4-2-17. Automatic Iris Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart

(Waveform Monitor)

4-2-18. File Store
Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.
RGB/ENC switch (on the side panel) → ENC
AUTO/MANU switch (on the lens) → AUTO

(Waveform Monitor)

Adjustment procedures:
1. APL Ratio Adjustment
Set the menu as follows, and adjust it by turning the
MENU SEL switch.
MENU
: Operation
PAGE
: Auto Iris/Auto Knee (?6)
ITEM
: APL Ratio
Specifications: Adjust the automatic iris operation
mode depending on the application.
Note:
Automatic iris operation mode setting can be done from
the average level to peak-to-peak level of the video signal.
99 → average level
–99 → peak-to-peak level
2. Auto Iris Level Adjustment
Set the menu as follows.
MENU
: Operation
PAGE
: Auto Iris/Auto Knee (?6)
ITEM
: Iris Override → OFF
Adjustment Point:
MENU
: System config
PAGE
: Iris (S6)
ITEM
: LEVEL
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)
4-20 (E)

Note:
• Be sure to perform this item after any one of the adjustments of sections 4-2-1. through 4-2-17. is performed.
• Reference File Store
1. Set the menu as follows.
MENU : Reference
PAGE : Reference File (R1)
ITEM
: File Store
2. Press the MENU SEL switch (on the front panel) to
perform the reference file store.
• Triming File Store
1. Set the menu as follows.
MENU : Triming File
PAGE : Triming File (T1)
ITEM
: File Store
2. Press the MENU SEL switch (on the front panel) to
perform the triming file store.

4-2-19. Menu Settings After Finishing
Adjustment
Set the menu as follows.
MENU : Paint
PAGE : Detail 1 (P2)
ITEM
: Detail → ON
PAGE : Gamma
ITEM
: Gamma → ON
PAGE : Knee/W.Clip (P6)
ITEM
: Knee → ON

BVP-550
BVP-550P

4-3. Viewfinder System Adjustment

4-3. Viewfinder System Adjustment

4-3-1. Vertical Hold Adjustment

Notes:
• This adjustment should be performed after the camera is
adjusted completely.

Equipment : Frequency counter

Preparations:
1. Turn off the main power switch (on the side panel)
before performing adjustment.
2. Remove the viewfinder from the camera, then remove
the chassis (upper).
Chassis (upper)
Mic Clamp

Preparations:
Extend the IF-510 board of BVP-550/550P with EX-464
extension board.
Disconnect the RET IN connector on CCU-700/700P.
Short between 45-pin and 92-pin on the EX-464 board
using a shorting clip.
Set 1RV6 (V SIZE)/VF-60 board to the mechanical center
position.
(When 1RV6 is marked, it should not be turned.)
Adjustment procedures
Test point
: TP3/VF-60
GND : E1/VF-60
Adjustment point : 1RV5 (V HOLD)/VF-60
Specifications
: 48.0 ±0.5 Hz (for NTSC)
38.0 ±0.5 Hz (for PAL)
After adjustment is completed, disconnect the shorting clip
on the EX-464.
Connect the IF-510 board to the camera.

3. Connect the viewfinder to the camera using the VF
extension harness (J-6395-050-A).

TP5
E1
RV5

RV9

RV8

RV3
RV4

TP4

CN2
5

4. Turn on the main power switch.

CN5

RV7 RV10 RV6
TP3

RV1

1

TP2

CN1

RV2
TP1

CN4

VF-60 BOARD (A SIDE)
BVP-550
BVP-550P

4-21 (E)

4-3. Viewfinder System Adjustment

4-3-2. Horizontal Hold Adjustment

4-3-3. Bright Set Adjustment

Equipment : Frequency counter

Preparations:
OUTPUT/DCC switch (on the side panel of BVP-550/
550P) → BARS/OFF
BRIGHT control (on the viewfinder) → Fully turn counterclockwise
CONTRAST control (on the viewfinder) → Fully turn
clockwise

Preparations:
Extend the IF-510 board of BVP-550/550P with EX-464
extension board.
Disconnect the RET IN connector on CCU-700/700P.
Short between 45-pin and 92-pin on the EX-464 board
using a shorting clip.
Set 1RV6 (V SIZE)/VF-60 board to the mechanical center
position.
(When 1RV6 is marked, it should not be turned.)
Adjustment procedures
Test point
: TP1/VF-60
GND
: E1/VF-60
Adjustment point : 1RV3 (H HOLD)/VF-60
Specifications
: 15.73 ±0.05 kHz (for NTSC)
15.63 ±0.05 kHz (for PAL)

Measurement point : viewfinder
Adjustment point : 1RV9 (SUB BRIGHT)/VF-60
Specifications
For NTSC model
Spec.:
Adjust 1RV9/VF-60 so that portions A and
B on the viewfinder screen can be barely
discriminated.

After adjustment is completed, disconnect the shorting clip
on the EX-464.
Connect the IF-510 board to the camera.
For PAL model
Spec.:
Adjust 1RV9/VF-60 so that portions A and
B on the viewfinder screen can be barely
discriminated, and portions B and C cannot
be discriminated.

TP5
E1
RV5

RV9

RV8

RV3
RV4

TP4
5

CN2

CN5

RV7 RV10 RV6
TP3

RV1

1

TP2

CN1

RV2
TP1

CN4

VF-60 BOARD (A SIDE)

4-22 (E)

BVP-550
BVP-550P

4-3. Viewfinder System Adjustment

4-3-4. Focus Adjustment

4-3-5. Heater Voltage Adjustment

Note:
• This adjustment, “4-3-5. Heater Voltage Adjustment”
and “4-3-6. Picture Frame Adjustment” affect each other.
Therefore, repeat these three adjustments until these
specifications are satisfied.

Note:
• This adjustment, “4-3-4. Focus Adjustment” and “4-3-6.
Picture Frame Adjustment” affect each other. Therefore,
repeat these three adjustments until these specifications
are satisfied.

Equipment : Waveform monitor
Object
: Resolution chart

Equipment : Digital voltmeter

Preparations:
Shoot the resolution chart so that the chart frame is aligned
with the underscanned monitor frame.

Preparations:
BRIGHT control (on the viewfinder) → mechanical center
CONTRAST control (on the viewfinder) → mechanical
center
PEAKING control (on the viewfinder) → mechanical
center
Test point

(Viewfinder Monitor)

: CN5-4pin/VF-60 board
CN5-5pin/VF-60 board
Adjustment point : 1RV8 (HEATER)/VF-60
Specifications
: 700 ±10 mV dc

Adjust the iris of the lens so that the output level at VIDEO
OUT connector satisfies the level A.
A = 70 ±2 IRE (for NTSC)
A = 490 ±14 mV (for PAL)
BRIGHT control (on the viewfinder) → mechanical center
CONTRAST control (on the viewfinder) → mechanical
center
Adjustment procedures:
Measurement point : viewfinder
Adjustment point : 1RV2 (ANODE SET)/VF-60
Specifications
: Turn 1RV2 fully counterclockwise, and slowly turn it clockwise
to adjust the best focus position.
Note:
After adjustment is completed, confirm that the focus
operation can be performed irrespective of its BRIGHT
and CONTRAST controls setting.

TP5
E1
RV5

RV9

RV8

RV3
RV4

TP4
5

CN2

CN5

RV7 RV10 RV6
TP3

RV1

1

TP2

CN1

RV2
TP1

CN4

VF-60 BOARD (A SIDE)
BVP-550
BVP-550P

4-23 (E)

4-3. Viewfinder System Adjustment

4-3-6. Picture Frame Adjustment
Note:
• This adjustment, “4-3-4. Focus Adjustment” and “4-3-5.
Heater Voltage Adjustment” affect each other. Therefore, repeat these three adjustments until these specifications are satisfied.
Equipment : Oscilloscope
Object
: Resolution chart
Preparations:
BRIGHT control (on the viewfinder) → mechanical center
CONTRAST control (on the viewfinder) → mechanical
center
PEAKING control (on the viewfinder) → mechanical
center
Shoot the resolution chart so that the chart frame is aligned
with the underscanned monitor frame.

Step 3.
Measurement point : Viewfinder
Adjustment point : 1RV1 (H SIZE)/VF-60
1RV6 (V SIZE)/VF-60
1Centering magnet
Specifications
: Adjust 1RV1 (H SIZE) and
1RV6 (V SIZE) so that the
position of the resolution chart
are as shown below.
Turn the centering magnet only
when the left and lower corners
cannot be adjusted.

(Viewfinder Monitor)

Step 4.
Place the VF tube to the lower chassis as shown below,
and confirm that the picture is in the center of the viewfinder in the normal installing position.
(Viewfinder Monitor)
Centering Magnet

Adjustment procedures:
Step 1.
Measurement point : viewfinder
Adjustment point : 1RV3 (H HOLD)/VF-60
Specifications
: If the upper left corner of the
picture is distorted, makes right
angle.

TP5
E1
RV5
RV3
RV4

TP4

CN2
5

Step 2.
Measurement point : Viewfinder
Adjustment point : 1RV7 (V LIN)/VF-60
Specifications
: Minimize the distortion of the
four circles at the corners of the
resolution chart.

RV8

CN5

RV7 RV10 RV6
TP3

TP2

RV1

1

(Waveform Monitor)

RV9

CN1

RV2
TP1

CN4

VF-60 BOARD (A SIDE)

4-24 (E)

BVP-550
BVP-550P

4-3. Viewfinder System Adjustment

Step 5.
Test point : TP3/VF-60 board
GND : E1/VF-60 board
Measure and memorize the value A shown in the figure
below.

A

(Oscilloscope Monitor)

Step 6.
Extend the AT-95 board of BVP-550/550P using EX-464
extension board, and short between 76-pin and 100-pin on
the EX-464 board using a shorting clip. (Turn into 16:9
mode.)
Step 7.
Test point

: TP3/VF-60 board
GND : E1/VF-60 board
Adjustment point : 1RV10 (V SIZE (WIDE))/VF-60
Specifications
: Measure the value B, and adjust the
ratio to A : B = 4 : 3.

B

(Oscilloscope Monitor)

Note:
When the centering magnet is turned, paint-lock it again.
After these adjustments are completed, disconnect the
shorting clip, and connect the IF-510 board to the camera.

TP5
E1
RV5

RV9

RV8

RV3
RV4

TP4
5

CN2

CN5

RV7 RV10 RV6
TP3

RV1

1

TP2

CN1

RV2
TP1

CN4

VF-60 BOARD (A SIDE)
BVP-550
BVP-550P

4-25 (E)

4-4. Overall Electrical Alignment

4-4. Overall Electrical Alignment

4-4-2. VTR Y Adjustment

Notes:
If the adjustments in this section are suspended or the
power is turned off to extend a printed circuit board and so
on, be sure to execute the FILE STORE before turning off.
(Refer to Section 4-4-23 “File Store”)

Equipment
Test point

4-4-1. VCO CONT Frequency Adjustment
Note:
• Warm up the camera for about 10 minutes before this
confirmation.
Preparations:
RGB/ENC switch (on the side panel) → ENC
Equipment
: Frequency counter,
Video signal generator
Test point
: SC out connector/
Video signal generator
Specifications
: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

TEST
OUT

GENLOCK
SC
Video signal
IN
OUT
generator

Frequency
counter

: Oscilloscope
: TP3 (D4)/DA-88

Preparations:
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → ENC
WHITE BAL switch (on the side panel)→PRST
Connect the Oscilloscope to the TP3 (D4) (GND:E1 (F4))/
DA-88 Board.
Adjustment procedures:
1. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SYNC
Specifications: A = 286 ±2 mV (for NTSC)
A = 300 ±2 mV (for PAL)
2. Menu setting : (NTSC only)
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SETUP
Specifications: C = 53.5 ±2 mV
3. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y VIDEO
Specifications: B = 714 ±7 mV (for NTSC)
B = 700 ±7 mV (for PAL)

If the specifications are not satisfied, perform the following
adjustment.
1. Set the menu as follows and adjust the frequency by
turning the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC Freq
Specifications : 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

(For NTSC)

• OHB File Store
2. Set the menu as follows.
MENU : Triming file
PAGE : OHB File (T2)
ITEM
: File Store
Press the MENU SEL switch (on the front panel) to
perform the triming file store.
4-26(E)

(For PAL)
BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-3. Test out Adjustment
Equipment : Waveform monitor
Test point : TEST OUT connector
Preparations:
Connect the waveform monitor to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → ENC
Adjustment procedures:
1. Adjustment point : 1RV101 (D4)/IF-510
Specifications
: A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)
2. Menu setting: (NTSC only)
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: TEST SETUP
Specifications
: B = 7.5 ±1 IRE

4

(For NTSC)

3

2

1

IF

A

B

C

VIDEO
LEVEL

D

RV101

(For PAL)

E

F

G

IF-510 BOARD (COMPONENT SIDE)
BVP-550
BVP-550P

4-27(E)

4-4. Overall Electrical Alignment

4-4-4. Chroma Adjustment
Equipment : Waveform monitor, Vectorscope
Test point : TEST OUT connector
Preparations:
Connect the vectorscope to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → ENC
Adjustment procedures:
1. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: CHROMA LVL
Specifications: Place the beam spots inside the
corresponding frames on the
vectorscope.

3. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: BURST LVL
Specifications: A = 40 ±1 IRE (for NTSC)
A = 300 ±5 mV (for PAL)

(For NTSC)

2. Connect the waveform monitor to the TEST OUT
connector.

(For PAL)

(For NTSC)

(For PAL)

4-28(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-5. INT SC Phase Adjustment

4-4-6. REG Level Adjustment

Notes:
This adjustment precedures are stated below assuming that
where the Tektronix 1750 (for BVP-550) or1751 (for
BVP-550P) is used.
If any other measuring instrument is used, follow the
instructions given in the operation manual attached to it.

Equipment : Waveform monitor
Test point : TEST OUT connector

Equipment : SC-H Phase measuring instrument
Test point : TEST OUT connector
Preparations:
Connect the SC-H Phase measuring instrument to the
TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → ENC
Adjustment procedures:
1. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC-H Phase
Specifications: Position the luminous line of the
burst (SC) and the beam spot of H
as shown in the figure.

Preparations:
Connect the waveform monitor to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → RGB
R/B/B switch (on the side panel) → G
Adjustment procedures:
1. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: REG LVL
Specifications:
SYNC LEVEL : A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)

(For NTSC)

(For NTSC)

(For PAL)

(For PAL)

BVP-550
BVP-550P

4-29(E)

4-4. Overall Electrical Alignment

4-4-7. TEST1 Adjustment

4-4-8. TEST2 Adjustment

Equipment : Oscilloscope
Test points : TP50,52,54/Extension board extending
VA-163

Equipment : Oscilloscope
Test point : TP52/Extension board extending VA-163

Preparations:
1. Extend VA-163 board with EX-464 board.
2. WHITE BAL switch (on the side panel)→PRST
3. Select the TEST SAW signal
MENU setting:
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST→1
Adjustment procedures:
1. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
2. G-ch signal adjustment
Adjustment point : 1RV50 (B4)/VA-163
Specifications
: A = 880 ±2 mV

Preparations:
1. Extend VA-163 board with EX-464 board.
2. Select the TEST SAW signal
MENU setting:
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST→2
Adjustment procedures:
1. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
2. TEST2 HIGH Level adjustment
MENU setting:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 HI
Specifications: A = 880 ±5 mV
3. TEST2 MID Level adjustment
MENU setting:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 MID
Specifications: B = 283 ±5 mV

3. R-ch signal confirmation
Connect the oscilloscope to the TP54 (GND:GND
(A))/Extension board extending VA-163.
Specifications: A = 880 ±40 mV
4. B-ch signal confirmation
Connect the oscilloscope to the TP50 (GND:GND
(A))/Extension board extending VA-163.
Specifications: A = 880 ±40 mV

4-30(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-9. A/D Clock Phase Adjustment

4-4-10. VA Gain Adjustment

Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Multiburst chart

Notes:
• Use the reflective chart (reflection ratio:89.9%)in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminouse intensity of the chart to 2000 lx.
• Never change the setting of the following trimmer
capacitors.
These capacitors are extremely difficult to adjust in the
field.
VA-163 board :1CT200, 1CT300, 1CT400

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the multiburst chart so that the chart frame is aligned
with the underscaned monitor frame with the zoom control.
Pan so that the 9 MHz portion of the multiburst chart is
positioned at the center of the monitor screen.
OUTPUT/DCC switch (on the side panel) → CAM/OFF
RGB/ENC switch (on the side panel) → ENC
Adjustment procedures:
1. Adjust the iris control of the lens.
A = 90 ± 2 IRE (for NTSC)
A = 630 ± 10 mV (for PAL)

2. Clock Phase [G]
Menu setting:
MENU
:
PAGE
:
ITEM
:
Specifications:

System config
PR/VA/TEST (S3)
G Clock
Maximize the 9 MHz signal portion.

Equipment : Waveform monitor
Object
: Grayscale chart
Preparations:
WHITE BAL switch (on the side panel)→PRST
GAIN switch (on the side panel)→L (0 dB)
Extend VA-163 board with EX-464 board.
Adjustment procedures:
1. MENU setting:
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→Off
2. Adjust automatically the black balance.
AUTO W/B BAL switch (on the front panel)→BLK
3. Connect the oscilloscope to the TP74 (GND:TP73)/
Extension board extending VA-163.
Specifications: Adjust the iris control of the lens.
A = 125 mV

3. Clock Phase [R/B]
Menu setting:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: R/B Clock
Specifications: Adjust the 9 MHz signal portion
nearly horizontally.

BVP-550
BVP-550P

4-31(E)

4-4. Overall Electrical Alignment

4. Connect the oscilloscope to the TP54 (GND:TP53)/
Extension board extending VA-163.
Adjustment point : 1RV200 (C4)/VA-163
Specifications
: B = 880 ±5 mV

4-4-11. VA MOD Adjustment
Equipment : Waveform monitor
Test point : TEST OUT connector
Preparations:
Connect the waveform monitor to the TEST OUT connector.
GAIN switch (on the side panel) → L (0 dB)
Iris of the lens : CLOSE
RGB/ENC switch (on the side panel) → RGB
R/G/B switch (on the side panel) → R

5. Connect the oscilloscope to the TP72 (GND:TP71)/
Extension board extending VA-163.
Specifications
: Adjust the iris control of the
lens.
A = 125 mV
6. Connect the oscilloscope to the TP52 (GND:TP51)/
Extension board extending VA-163.
Adjustment point : 1RV300 (D4)/VA-163
Specifications
: B = 880 ±5 mV
7. Connect the oscilloscope to the TP70 (GND:TP69)/
Extension board extending VA-163.
Specifications
: Adjust the iris control of the
lens.
A = 125 mV
8. Connect the oscilloscope to the TP50 (GND:TP49)/
Extension board extending VA-163.
Adjustment point : 1RV400 (F4)/VA-163
Specifications
: B = 880 ±5 mV
4

3

2

Adjustment procedures:
1. VA MOD [R] Adjustment
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [R] → 99
Adjustment point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [R]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [R] varies from 99
to –99.

1

VA

A

TEST

B
R GAIN

CT200
RV200

C

(×5)

R

D

G GAIN

CT300
R

RV300

E

B GAIN

CT400
B

F

RV400
G

VA-163 BOARD (COMPONENT SIDE)

4-32(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

2. VA MOD [G] Adjustment
R/G/B switch (on the side panel) → G
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [G] → 99
Adjustment point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [G]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [G] varies from 99
to –99.
3. VA MOD [B] Adjustment
R/G/B switch (on the side panel) → B
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [B] → 99
Adjustment point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [B]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [B] varies from 99
to –99.
4. MENU setting:
MENU
:
PAGE
:
ITEM
:
ITEM
:
ITEM
:

BVP-550
BVP-550P

4-4-12. Master Black Adjustment
Equipment
: Waveform monitor
Test point
: TEST OUT connector
Iris of the lens : CLOSE
Preparations:
Connect the waveform monitor to the TEST OUT connector.
Adjustment procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the black level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black (M)
Specifications: A = 3 ±1 IRE (for NTSC)
A = 35 ±7 mV (for PAL)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Adjust automatically the black balance.
AUTO W/B BAL switch (on the front panel) → BLK

Maintenance
White Shading (M2)
H Saw [R] → 0
H Saw [G] → 0
H Saw [B] → 0

4-33(E)

4-4. Overall Electrical Alignment

4-4-13. A/D Gain Adjustment
Preparations:
Connect the waveform monitor to the TEST OUT connector.
GAIN switch (on the side panel) → L (0 dB)
RGB/ENC switch (on the side panel) → RGB
R/G/B switch (on the side panel) → G
MENU Setting:
MENU :
Paint
PAGE :
Detail1 (P2)
ITEM :
Detail→Off
PAGE :
Gamma (P5)
ITEM :
Gammma→Off
PAGE :
Knee/W.Clip (P6)
ITEM :
Knee→Off
ITEM :
White Clip→Off
MENU :
System config
PAGE :
PR/VA/TEST (S3)
ITEM :
TEST→2

Adjustment procedures:
• A/D Gain [G] Adjustment
1. MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [G]
Specifications: The white level shall not be changed
even if the OUTPUT/DCC switch
(on the side panel) is changed over
between CAM and BARS.
A=B

Test point
: TEST OUT connector
Iris of the lens : CLOSE

(For NTSC)

(For PAL)

4-34(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

• A/D Gain [R] Adjustment
2. R/G/B switch (on the side panelüj→ ENC
3. OUTPUT/DCC switch (on the side panel) → CAM/
OFF
4. MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [R]
Specifications: Minimize the carrier leakage.
C = Minimum
• A/D Gain [B] Adjustment
5. MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [B]
Specifications: Minimize the carrier leakage.
C = Minimum

4-4-14. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again following the message displayed on the
viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.
Preparations:
Connect the waveform monitor to the TEST OUT connector.
RGB/ENC switch (on the side panel) → ENC
Test point
: TEST OUT connector
Iris of the lens: CLOSE

6. Repeat the steps 4 and 5 alternately until the specifications are satisfied.
7. MENU Setting:
MENU : Paint
PAGE : Detail1 (P2)
ITEM
: Detail→On
PAGE : Gamma (P5)
ITEM
: Gammma→On
PAGE : Knee/W.Clip (P6)
ITEM
: White Clip→On
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST→Off

BVP-550
BVP-550P

Adjustment procedures:
1. Set the DISP switch (on the side panel) to MENU.
2. Set the menu as follows and execute the auto black
shading by pressing the MENU SEL switch (on the
front panel).
MENU : Maintenance
PAGE : Auto Setup (M4)
ITEM
: Black Shading
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again following this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.

4-35(E)

4-4. Overall Electrical Alignment

4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

• Manual Black Shading Adjustment (For reference)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

Note:
• Perform this adjustment only when “4-2-3. Black
Shading Adjustment” is not completed.

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

Equipment

TEST OUT connector

: Waveform monitor

Preparations:
Connect the waveform monitor to the TEST OUT connector.
GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE

6. After adjustments are completed, set the switches as
follows.
ENC/RGB switch (on the side panel) → ENC
GAIN switch (on the side panel) → L (0 dB)

Adjustment procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 35 mV for PAL by
turning the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
4. If the shading is monitored, makes the waveform flat
following the table.
5. Perform the adjustments for R-ch and B-ch following
the same procedures as for G-ch.

4-36(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-15. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Full white pattern
Preparations:
Connect the waveform monitor to the TEST OUT connector.
ENC/RGB (on the side panel)→ENC
Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Zoom of the lens : Shoot the fully occupied white area
of the pattern box in the full underscanned monitor frame adjusting the
zoom control.
Iris of the lens : Adjust the iris control of the lens to
satisfy the white level A.
A = 80 ±5 IRE (for NTSC)
A = 560 ±14 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

G

ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

R

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

B

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

TEST OUT connector

Adjustmnet procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
2. Set the ENC/RGB switch (on the side panel) to R.G.B.
Set the R/G/B switch (on the side panel) to G.
3. If the white shading is monitored, makes the waveform
flat following the tables.
4. Perform the adjustments for R-ch and B-ch following
the same procedures as for G-ch.

BVP-550
BVP-550P

4-37(E)

4-4. Overall Electrical Alignment

5. Set the menu as follows.
MENU : Reference
PAGE : Reference file (R1)
ITEM
: File Store
Execute the Reference File Store by pressing the
MENU SEL switch (on the front panel).
6. After adjustments are completed, set the switch as
follows.
ENC/RGB switch (on the side panel) → ENC

4-38(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-16. Gamma Correction Adjustment
Equipment
Test point
Object

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.
• Adjust automatically the white balance.
Set the WHT BAL switch (on the side panel) to A
Set the AUTO W/B BAL switch (on the front panl) to
WHT

(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
RGB/ENC switch (on the side panel) → RGB
R/G/B switch (on the side panel) → G
Adjust the iris control of the lens to satisfy the white level
A.
A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

BVP-550
BVP-550P

Adjustmnet procedures:
1. Set the RGB/ENC switch (on the side panel) to ENC.
2. Set the menu as follows, and adjust the gamma
correction for (M) by turning the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma (M)
Specifications: B = 60 ±2 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

(Waveform Monitor)

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test→1
4. Gamma (R) Adjustment
Set the menu as follows, and adjust the gamma
correction for (R) by turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma (R)
Specifications: Center the beam spot on the
vectorscope.
5. Gamma (B) Adjustment
Set the menu as follows, and adjust the gamma
correction for (B) by turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma (B)
Specifications: Center the beam spoe on the
vectorscope.

4-39(E)

4-4. Overall Electrical Alignment

6. Repeat the steps 4 and 5 alternately, until the beam
spot is minimized on the vectorscope.

4-4-17. Flare Adjustment
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart
Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.

(Vector scope)

7. Confirm that the carrier leakage does not monitored at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
RGB/ENC switch (on the side panel) → ENC
Adjust the iris control of the lens to satisfy the white level
A.
A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

8. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test→Off
9. WHITE BAL switch (on the side panel) → PRST
(Waveform Monitor)

4-40(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

Adjustmnet procedures:
1. Adjust the automatically the white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Select the 15 lines in the center of the monitor screen
by using the 15 LINE SELECT on the waveform
monitor.

Line select

4. Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (G)
5. Confirm that the level at portion B does not fluctuate
even if the flare is turned ON or OFF. If fluctuates,
turn Flare ON and adjust by Flare (G).
6. Flare (R) Adjustment
Set the menu as follows, and adjust the Flare (R) by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (R)
Specifications: Minimize the carrier leakage.
7. Flare (B) Adjustment
Set the menu as follows, and adjust the Flare (B) by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (B)
Specifications: Minimize the carrier leakage.

4-4-18. Pre Knee Adjustment
Equipment
: Oscilloscope
Preparations:
Extend VA-163 board with an EX-464 board.
Test points
: TP50,52,54/Extension board extending
VA-163
Iris of the lens : CLOSE
Adjustment procedures:
1. MENU Setting:
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → On
2. Set the RGB/ENC switch (on the side panel) to ENC.
3. Set the GAIN switch (on the side panel) to M (9 dB).
4. Set the WHITE BAL switch (on the side panel) to
PRST.
5. Set the menu as follows.
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: TEST → 2
• Pre knee1 [G] Adjustement
6. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
7. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[G]
Specifications:A = 1.68 ±0.02 V p-p

(Waveform Monitor)

8. Repeat the steps 6 and 7 alternately, until the carrier
leakage is minimized.
9. WHITE BAL switch (on the side panel) → PRST
BVP-550
BVP-550P

4-41(E)

4-4. Overall Electrical Alignment

• Pre knee1 [R] Adjustement
8. Connect the oscilloscope to the TP54 (GND:GND
(A))/Extension board extending VA-163.
9. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[R]
Specifications: A = 1.68 ±0.05 V p-p
• Pre knee1 [B] Adjustement
10. Connect the oscilloscope to the TP50 (GND:GND
(A))/Extension board extending VA-163.
11. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[B]
Specifications: A = 1.68 ±0.05 V p-p

• Pre knee2 [B] Adjustment
17. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
18. MENU Setting:
MENU
:
System config
PAGE
:
Pre Knee/Zebra (S4)
ITEM
:
PreKnee2[R]
Specifications
:
B = 1.80 ±0.05 V p-p

19. MENU Setting:
MENU
:
Operation
PAGE
:
Gain SW (?3)
ITEM
:
Middle → 9 dB
20. Set the GAIN switch (on the side panel) to L (0 dB).

12. Pre knee2 Adjustment
MENU Setting:
MENU
: Operation
PAGE
: Gain SW (?3)
ITEM
: Middle → 12 dB
• Pre knee2 [G] Adjustment
13. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
14. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[G]
Specifications:B = 1.80 ±0.02 V p-p
• Pre knee2 [R] Adjustment
15. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
16. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[R]
Specifications:B = 1.80 ±0.05 V p-p

4-42(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-19. Knee and White Clip Adjustment
Equipment : Waveform monitor
Test point : TEST OUT connector
Preparations:
Connect the waveform monitor to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → CAM/ON
RGB/ENC switch (on the side panel) → ENC
WHITE BAL switch (on the side panel) → PRST
GAIN switch (on the side panel) → M (9dB)
Adjustment procedures:
1. Knee Point Adjustment
Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test →1
ITEM
: White Clip →Off
ITEM
: Knee Max →On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

BVP-550
BVP-550P

2. Knee Slope Adjustment
Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max →Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)

3. Set the GAIN switch (on the side panel) →H (18 dB).
4. Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip →On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

4-43(E)

4-4. Overall Electrical Alignment

5. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test →Off
6. Set the GAIN switch (on the side panel) →L (0 dB).
Note:
The values used in the above adjustments are under the
conditions when the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763

107/749

105/735

103/721

Knee point

98/686

98/686

96/672

96/672

Knee slope

109/763

107/750

107/750

107/750

White clip

109/763

107/749

105/735

103/721

4-4-20. VTR R-Y/B-Y Adjustment
Equipment
Test points

: Oscilloscope
: TP4,TP5/DA-88

Preparations:
OUTPUT/DCC switch (on the side panel) → BARS
Adjustment procedures:
1. Connect the oscilloscope to the TP4 (E4) (GND:E1
(F4))/DA-88 Board.
2. VTR R-Y Adjustment
Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR R-Y
Specifications: A = 700 ±5 mV (for NTSC)
: A = 525 ±5 mV (for PAL)

• As for the detail adjustments, refer to Sections 4-2-9 to
4-2-17. Adjust according to the customer’s preferences.

3. Connect the oscilloscope to the TP5 (F4) (GND:E1
(F4))/DA-88 Board.
4. VTR B-Y Adjustment
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR B-Y
Specifications: B = 700 ±5 mV (for NTSC)
: B = 525 ±5 mV (for PAL)

5. MENU Setting:
MENU : Triming File
PAGE : Triming File (T1)
ITEM
: File Store
Press the MENU SEL switch (on the front panel) to
execute the triming file store.
4-44(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-21. CCU Y/R-Y/B-Y Adjustment
Equipment : Oscilloscope
Test points : TP3,TP4,TP5/DA-88
Preparations:
Connect the CCU to the camera.

• CCU R-Y Sync adjustment
3. Connect the oscilloscope to the TP4 (E4) (GND:E1
(F4))/DA-88 Board.
4. Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU R-Y SYNC
Specifications: B = 350 ±2 mV

MENU Setting:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CB →On
Adjustment procedures:
• CCU Y Sample adjustment
1. Connect the oscilloscope to the TP3 (D4) (GND:E1
(F4))/DA-88 Board.
2. Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU Y SAMP
Specifications: A = 700 ±2 mV

• CCU B-Y Sample adjustment
5. Connect the oscilloscope to the TP5 (F4) (GND:E1
(F4))/DA-88 Board.
6. Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU B-Y SYNC
Specifications: C = 350 ±2 mV

4

3

2

1

DA

A

(For NTSC)
TP1
B

TP2
C

D
Y

R-Y

(For PAL)
B-Y

TP3
TP4

E

TP5
GND

E1

F

G

DA-88 BOARD (COMPONENT SIDE)
BVP-550
BVP-550P

4-45(E)

4-4. Overall Electrical Alignment

4-4-22. RGB Adjustment
Equipment
Test points

: Oscilloscope
: TP59,TP61,TP63/Extension board
extending IF-510.

• R-ch Video confirmation
3. Connect the oscilloscope to the TP63 (GND:GND
(A))/Extension board extending IF-510.
Specifications:B = 700 ±7 mV

Preparations:
Extend IF-510 board with EX-464 board.
MENU Setting:
MENU
PAGE
ITEM

: System config
: VTR/CCU (S5)
: CB→On

Adjustment procedures:
• G-ch Video adjustment
1. Connect the oscilloscope to the TP61 (GND:GND
(A))/Extension board extending IF-510.
2. Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: RGB OFFSET
Specifications: A = 700 ±5 mV

(For NTSC)

(For PAL)

(For NTSC)

(For PAL)

4-46(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

• R-ch Video confirmation
4. Connect the oscilloscope to the TP59 (GND:GND
(A))/Extension board extending IF-510.
Specifications: C = 700 ±7 mV

4-4-23. File Store
Note:
• Be sure to perform this item after any of the adjustments
of sections 4-4-1 through 4-4-22 is performed.
• Reference File Store
1. Set the menu as follows.
MENU : Reference
PAGE : Referrence File (R1)
ITEM
: File Store
2. Press the MENU SEL switch (on the front panel)to
execute the reference file store.

(For NTSC)

• Triming File Store
1. Set the menu as follows.
MENU : Triming File
PAGE : Triming File (T1)
ITEM
: File Store
2. Press the MENU SEL switch (on the front panel)to
execute the reference file store.

4-4-24. Menu Setting After Finishing
Adjustment
(For PAL)

BVP-550
BVP-550P

Set the menu as follows.
MENU : Paint
PAGE : Detail1 (P2)
ITEM : Detail →ON
PAGE : Gamma (P5)
ITEM : Gamma →ON
PAGE : Knee/W.Clip (P6)
ITEM : Knee →ON

4-47(E)

Section 5
Spare Parts
5-1. Notes on Repair Parts
1. w Safety Related Components Warning
Components marked ! are critical to safe operation. Therefore, specified parts should be used in the
case of replacement.
2. Standardization of Parts
Some repair parts supplied by Sony differ from those used for the unit. These are because of parts
commonality and improvement.
Parts list has the present standardized repair parts.
3. Stock of Parts
Parts marked with “o” at SP (Supply Code) column of the spare parts list may be not stocked.
Therefore, the delivery date will be delayed.
4. Units Representation
The following represented units are changed or omitted in writing.

Units

Representation

Capacitance

µF

uF

Inductance

µH

uH

Resistance

Ω

Abbreviation

5. Destination Representation
The part indicated “For UCJ/CE” in the spare parts list is used in the unit written below.
For UCJ : The part is used in a unit for Japan, U.S.A. and Canada.
For CE : The part is used in a unit for regions except the above countries.

BVP-550
BVP-550P

5-1

TOP PANEL BLOCK

2

5-2. Exploded Views

8
30

27

B4 X 8

19
9

B4 X 8

B5 X 12

14
11
10
12

W3
SMALL
BOLT,HEXAGON
SOCKET 3 X 8

W3
SMALL

28
13
31

26

25

B4 X 8

10

BOLT,HEXAGON
SOCKET 3 X 8
W3
SMALL
BOLT,HEXAGON
SOCKET 3 X 8

15

3
18

29
16

17
21

1

7
5
20
B2.6 X 5

24

22

6

23

B2.6 X 5

B3 X 5

No.

Part No.

SP Description

B2.6 X 5

1
2
3
4
5

A-8278-029-A
X-3678-451-1
X-3678-455-2
1-565-051-21
1-570-985-11

o
o
o
o
s

SLIDE ASSY,VF
4
HANDLE ASSY
HOLDER SUB ASSY,HANDLE
CONNECTOR 20P, FEMALE “VF”
SWITCH TOGGLE “R/G/B” “ENC/RGB”

6
7
8
9
10

1-571-396-11
1-657-442-11
3-673-046-00
3-679-683-01
3-679-684-01

s
o
s
o
o

SWITCH TOGGLE “DIPS ON/OFF/MENU”
PRINTED CIRCUIT BOARD, SW-732
LEVER, LOCK
ARM,SLIDE
REST,ARM

No.

Part No.

11
12
13
14
15

3-679-685-01
3-679-686-01
3-679-698-01
3-679-702-01
3-687-116-01

o
o
o
o
o

TABEL,FIXED,VF SLIDE
TABEL,FIXED,VF SHOE
RING(C),LOCK
CUSION,STOPPER
WASHER(4), STOPPER

21
22
23
24
25

3-694-196-01
3-694-197-01
3-694-198-01
3-694-199-01
3-701-442-21

s
o
s
s
s

SHEET, DUST PROTECTION (S)
SHEET, DUST PROTECTION (F)
RETAINER, DROP PROTECTION (F)
RETAINER DROP, PROTECTION (S)
WASHER, 4.5

16
17
18
19
20

3-692-112-01
3-692-150-01
3-692-165-01
3-692-649-01
3-693-984-01

o
o
o
s
s

PLATE,MENU
SHEET,DROP PROTECTION
HOLDER,HANDOLE
SHEET, BLIND
CUSSHION, DROP PROTECTION (3)

26
27
28
29
30

3-701-506-01
3-701-508-00
3-710-039-03
3-711-765-01
3-711-794-01

s
s
s
s
o

SET SCREW, DOUBLE POINT 3X4
SET SCREW, DOUBLE POINT 3X6
SHOE, SLIDE
BOLT (M3), HEXAGON SOCKET
PIN, STOPPER

31

3-720-919-01 o RUBBER, LOCK RING

5-2

SP Description

BVP-550
BVP-550P

RIGHT PANEL AND PLUG-IN BOARDS

*2

*1

113

*3

112
105
111

114
104
110
103
*2

107

109
102

115

B4 X 12

108
*1

101

107

B4 X 12

B4 X 12

*3

107

B4 X 12

106

No.

Part No.

101
102
103
104
105

A-8269-359-A
A-8269-360-A
A-8269-361-A
A-8269-362-A
A-8269-363-A

o
o
o
o
o

MOUNTED
MOUNTED
MOUNTED
MOUNTED
MOUNTED

106
107
108
109
110

X-3678-450-1
3-687-116-01
3-692-125-02
3-692-126-02
3-692-127-02

o
o
o
o
o

PANEL ASSY, RIGHT
WASHER (4), STOPPER
PANEL,VA-163 PC BOARD
PANEL,AT-95 PC BOARD
PANEL,SG-234 PC BOARD

BVP-550
BVP-550P

SP Description
CIRCUIT
CIRCUIT
CIRCUIT
CIRCUIT
CIRCUIT

BOARD,
BOARD,
BOARD,
BOARD,
BOARD,

VA-163
AT-95
SG-234
DA-88
IF-510

No.

Part No.

111
112
113
114
115

3-692-128-02
3-692-129-02
3-692-642-01
3-724-753-01
3-729-061-01

SP Description
o
o
o
o
s

PANEL,DA-88 PC BOARD
PANEL,IF-510 PC BOARD
SHEET,SHIELD
RING
SCREW (M2X4.5) (TYPE 1)

5-3

LEFT PANEL AND BOARDS

B4 X 12

208

B4 X 12

204
208
208

208

B3 X 5

203

B3 X 5

B3 X 5

210
B2.6 X 5

202
209

B3 X 5

207

B2.6 X 5

206

210
210
B2.6 X 5

201

205
210

No.

Part No.

201
202
203
204
205

A-8269-357-A
A-8269-358-A
A-8269-381-A
X-3678-452-1
1-473-314-11

5-4

!

SP Description
o
o
o
o
s

MOUNTED CIRCUIT BOARD, PR-211
MOUNTED CIRCUIT BOARD, MB-602
MOUNTED CIRCUIT BOARD, CN-1142
PANEL ASSY, LEFT
CONVERTER, D.C-D.C

No.

Part No.

206
207
208
209
210

2-623-773-11
3-168-296-01
3-687-116-01
3-692-113-01
4-924-260-01

SP Description
s
s
o
o
o

BOLT (M3X8), STAINLESS
PIN, ID
WASHER (4), STOPPER
WEDGE,HANGER
BOSS (D)

BVP-550
BVP-550P

CHASSIS AND SHOLDER PAD

Precision
P2.6 X 5

306

313

Precision
P2.6 X 5
Precision
P2 X 5

319

Precision
P2.6 X 5

307

B4 X 8
Precision
P2.6 X 5

Precision
P2.6 X 5

*4

308
*4

*3

*1

*2

301

309

BTP2.6 X 6

BTP2.6 X 6

302
*3
*1

*2

303

W2.6 SMALL

310

314

BOLT,HEXAGON
SOCKET 3 X 8
BOLT,HEXAGON
SOCKET 3 X 8

B3 X 5

*1

305
304
B3 X 5

315

316

E2

K4 X 8

B4 X 14

311
317

B4 X 14

312

318
K3 X 8

No.

Part No.

301
302
303
304
305

A-8269-369-A
A-8269-370-A
A-8278-237-A
A-8278-238-A
3-692-102-01

o
o
s
s
o

306
307
308
309
310

3-692-114-01
3-692-115-01
3-692-117-01
3-692-119-01
3-692-641-03

o
o
o
o
o

BVP-550
BVP-550P

P4 X 6

K3 X 8

No.

Part No.

MOUNTED PCB, CN-1120
MOUNTED PCB, CN-1121
PAD ASSY (LARGE)
PAD ASSY (SMALL)
BRACKET V SHOE

311
312
313
314
315

3-692-643-02
3-692-645-01
3-692-646-01
3-692-647-01
3-693-973-01

o
o
o
o
s

BASE,V SHOE
ROD,ROTARY
SHEET,DUST PROTECTION (PS)
SPACER,PAD
SPRING, TORSION (SMALL)

PLATE,CONNECTOR(136P)
SHOE,LOCK
RAIL
RAIL,CAM
ROD,LOCK

316
317
318
319

3-701-444-21
3-742-011-01
3-742-015-01
4-864-521-01

s
s
o
s

WASHER, 6
SCREW, 1/4, 3/8 CONVERSION
WEDGE (B), MOUNTING
SPRING (PC BOARD GROUND)

SP Description

SP Description

5-5

BOTTOM BLOCK

429
404
415

424

422
405
425
419
429
Precision
P2.6 X 5

402

Precision
P2.6 X 5

427
420

406

421

417

BTP2.6 X 6

409

428

Precision
P2.6 X 5

430

426

432
411
408

414

416
Precision
P2.6 X 5

B2.6 X 5

412
433

407

413

418

410
BTP2.6 X 6

431
403
401

423

No.

Part No.

401
402
403
404
405

1-473-315-11
1-509-184-31
1-554-088-00
1-561-781-11
1-562-222-41

406
407
408
409
410

1-570-282-21 s SWITCH KEY BOARD “VTR START”
1-571-415-11 s SWITCH TOGGLE “CAMERA/VTR”
“GAIN” “OUTPUT” WHITE BAL”
1-571-416-11 s SWITCH TOGGLE “AUTO W/B BAL”
1-571-679-11 s SWITCH TOGGLE “SHUTTER”
1-657-443-01 o PRINTED CIRCUIT BOARD, SW-730

411
412
413
414
415

1-657-444-12
1-657-445-11
1-657-446-11
1-657-447-12
1-695-841-12

416

3-312-823-00 s PACKING, KNOB

5-6

SP Description
s
s
s
s
s

o
o
o
o
s

ENCODER ROTARY “MENU SEL”
CONNECTOR 3P, FEMALE “MIC”
SWITCH, TACTILE “CANCEL”
CONNECTOR, BNC “TEST OUT”
CONNECTOR 6P, FEMALE “REMOTE”

PRINTED CIRCUIT BOARD, SW-731
PRINTED CIRCUIT BOARD, SW-733
PRINTED CIRCUIT BOARD, SW-742
PRINTED CIRCUIT BOARD, CN-1122
CONNECTOR 12P, FEMALE “LENS”

No.

Part No.

SP Description

417
418
419
420

3-676-244-11
3-679-679-03
3-692-106-01
3-692-107-02

s
s
o
o

COVER, SW
KNOB,VR(AUDIO)
BASE,SHOULDER
COVER,FRONT SWITCH

421
422
423
424
425

3-692-108-01
3-692-110-01
3-692-111-01
3-692-149-01
3-692-644-02

o
o
s
o
o

GUARD,SWITCH
BRACKET,CONNECTOR
KNOB,RE “MIC LEVEL”
BRACKET,CONNECTOR(TEST OUT)
CAP,CONNECTOR

426
427
428
429
430

3-693-974-01
3-693-976-01
3-693-983-01
3-694-181-01
3-729-069-01

o
o
o
s
s

PLATE, SHIELD (SIDE)
PLATE, SHUTTER (FRONT)
CUSSHION, DROP PROTECTION (2)
TYPE1, AROCK PRECISION +P2.6
BUTTON, VTR START

431
432
433

3-742-065-01 o SHAFT, SHUTTER
3-742-066-01 o SPRING, SHUTTER
3-742-067-04 o LID, SHUTTER
BVP-550
BVP-550P

VIEW FINDER
504

507
Precision
P2 X 3.5

528

526

527

508

514

506

522
505
510
B2 X 4

509

515
B2 X 4

502

520

516

523

501

512
Precision
P2 X 3.5

522

519

513
511
518

503
Precision K2.6 X 5

521
524
BOLT,HEXAGON
SOCKET 2.6 X 6

525

517

No.

Part No.

501
502
503
504
505

A-8269-387-A
A-8269-388-A
X-3678-435-1
1-542-232-12
1-775-771-11

o
o
o
o
o

506
507
508
509
510

1-952-420-21
2-277-457-00
2-277-466-01
3-165-904-01
3-657-657-00

511
512
513
514
515

3-679-693-01
3-679-694-01
3-679-695-01
3-692-131-01
3-692-132-01

BVP-550
BVP-550P

SP Description

Precision
P2 X 3.5

No.

Part No.

SP Description

MOUNTED CIRCUIT BOARD, VF-60
MOUNTED CIRCUIT BOARD, VR-199
CHASSIS,BOTTOM ASSY
MICROPHONE (SUPPLIED ACCESSORY)
FLEXIBLE CARD WIRE (14 CORE)

516
517
518
519
520

3-692-134-01
3-692-135-01
3-692-137-01
3-692-138-01
3-692-145-01

o
o
o
s
o

MIC CLAMP
LID,COVER
LABEL,VF
MIC CUSHION,RUBBER
CUSSHION,DRROP PROTECCTION

s
s
s
s
s

HARNESS (VF CABLE 3)
KNOB, STOPPER
SPRING, COMPRESSION
WASHER, SCREW STOPPER
SCREW (M5)

521
522
523
524
525

3-692-147-01
3-692-148-02
3-692-151-01
3-692-154-01
3-693-327-01

o
o
o
s
s

GUARD BAR
LEAF SPRING
PLATE, GROUND
KNOB, VF
NUT, M6

o
o
o
o
o

BASE,SLIDE
COVER,SLIDE
COVER,TALLY
CHASSIS,UPPER
COVER,TALLY

526
527
528

3-693-978-01 o SHEET, LUBRICATION
3-708-875-01 s SCREEN, WIND (SUPPLIED ACCESSORY)
3-710-008-02 s HOUSING, STOPPER
5-7

VIEW FINDER

621

P2.6 X 8

605
613
602
606
P2.6 X 8

K2 X 5

611

615
610

603

616

K2 X 5

PTP2 X 6

601

612

Precision
P2 X 10

620
618

614

P2 X 6

607
619

609
Precision
P2 X 10

608
617
607

624

626

628

623

609

617
622

625

608
604

627

No.

Part No.

601
602
603
604
605

A-7612-389-B
A-8269-389-A
A-8269-390-A
X-3722-436-1
1-251-386-11

s
o
o
o
s

606
607
608
609
610

3-176-022-03
3-176-414-01
3-335-207-01
3-573-150-00
3-692-133-01

611
612
613
614
615

3-692-136-01
3-692-139-01
3-692-144-01
3-692-146-01
3-692-155-01

5-8

!

SP Description

623

No.

Part No.

SP Description

TUBE SUB ASSY, VF
MOUNTED CIRCUIT BOARD, LP-84
MOUNTED CIRCUIT BOARD, LP-85
LENS ASSY
1.5" CRT ASSY

616
617
618
619
620

3-692-166-01
3-722-485-01
3-723-069-02
3-723-073-01
3-723-079-01

o
o
o
o
s

VF TUBU(3)
ROLLER, SLIDE
PROTECTOR, MC
CUSHION, MIRROR
EYE CUP

o
o
s
o
o

SPACER (B), MASK
RETAINER, RING
SHAFT, MOTOR
SPRING, COMPRESSION
RING,VF

621
622
623
624
625

3-725-220-02
3-725-276-01
3-742-038-01
3-742-052-03
3-742-053-02

o
s
o
o
o

TUBE (A), CRT
LUPE, VF
NUT (2), PLATE
HOLDER, EYE CUP
RING

o
o
o
o
o

FIXED RING
MIRROR(2)
SPACER,LP
HOLDER,MIRROR(2)
PLATE,DISPLAY

626
627
628

3-742-054-01 o TUBE
3-742-060-01 o HOLDER, RING
3-742-075-01 o HOLDER, FILTER

BVP-550
BVP-550P

TRIPAD ADAPTOR

722

K4 X 8

709
710

B3 X 6

B3 X 6

705

707

704

703

701

708

B3 X 6

711

718

706
702

K4 X 10

B3 X 6

716

B3 X 6

712

W3 SMALL

BOLT, HEXAGON
SOCKET 3 X 16

719

711

W3 SMALL

B3 X 6

B3 X 6

K3 X 10

713

720
721

714
SW4
SW4

SW4

BOLT, HEXAGON
SOCKET 4 X 12

BOLT, HEXAGON
SOCKET 4 X 12

BOLT, HEXAGON
SOCKET 4 X 12

SW4
BOLT, HEXAGON
SOCKET 4 X 12

SW4

706
717
N3

715

B3 X 8

B3 X 8

SP Description

B3 X 15

SW4

BOLT, HEXAGON
SOCKET 4 X 12

BOLT, HEXAGON
SOCKET 4 X 12

No.

Part No.

SP Description

716
717
718
719
720

3-720-907-01
3-720-908-01
3-720-909-01
3-720-910-01
3-720-911-01

721
722

3-720-912-01 o FRAME (S)
OPTIONAL ACCESSORY: TRIPOD ADAPTOR VCT-14

o
o
o
o
o

PIN (S), REAR
TABLE (S), PIN, REAR
KNOB, CRANK
SHEET, SLIDE
BASE, TRIPOD FITTING SCREW

No.

Part No.

701
702
703
704
705

2-381-631-01
2-381-632-01
2-381-633-01
2-381-635-01
2-381-636-01

o
o
o
o
o

SPRING
ARM, LOCKER
SOLENOID
LEVER, LOCK
KNOB

706
707
708
709
710

2-381-637-01
2-381-638-01
2-381-640-01
2-381-641-01
2-381-642-02

o
o
o
o
o

SPRING
SPRING
DOG
COLLAR
MOUNT

7-623-210-22
7-626-314-01
7-682-249-04
7-682-262-04
7-682-263-04

s
s
s
s
s

SW 4,TYPE 2
PIN, SPRING 2X5
SCREW +K 3X10
SCREW +K 4X10
SCREW +K 4X12

711
712
713
714
715

2-381-648-01
2-381-652-01
2-381-654-01
3-678-704-00
3-720-906-01

o
o
s
o
o

INSULATOR, KNOB
SPRING, TENSION
PIN, SPRING
SPACER
LID (S), REAR

7-682-547-09
7-682-548-09
7-683-408-04
7-683-421-04
7-684-023-04

s
s
s
s
s

SCREW +B 3X6
SCREW +B 3X8
BOLT,HEXAGON SOCKET 3X16
BOLT,HEXAGON SOCKET 4X12
NUT 3, TYPE 2

7-688-003-11 s WASHER 3, MIDDLE
BVP-550
BVP-550P

5-9

SCREWS AND WASHERS

No.

Part No.

SP Description

7-621-770-87
7-623-208-22
7-623-505-01
7-624-104-04
7-624-105-04

s
o
s
s
s

SCREW +B 2.6X5
SW 3,TYPE 2
LUG, 2
STOP RING 2.0, TYPE -E
STOP RING 2.3, TYPE -E

7-624-200-01
7-627-452-38
7-627-454-38
7-627-553-78
7-627-554-18

s
s
s
s
s

NUT, PUSH 1.5
SCREW,PRECISION +K 2X5
SCREW, PRECISION +K 2.6X5
SCREW,PRECISION +P 2X10
SCREW,PRECISION +P 2X3.5 TYPE1

7-627-556-57
7-627-556-58
7-671-158-01
7-682-160-09
7-682-247-04

s
s
s
s
s

PRECISION SCREW +P 2.6X5 TYPE1
SCREW +P 2.6X5
BALL, STAINLESS (2.5 DIA)
SCREW +P 4X6
SCREW +K 3X6

7-682-248-09
7-682-261-09
7-682-545-04
7-682-546-04
7-682-546-09

s
s
s
s
s

SCREW
SCREW
SCREW
SCREW
SCREW

7-682-561-09
7-682-563-09
7-682-564-09
7-682-576-09
7-683-404-04

s
s
s
s
s

SCREW +B 4X8
SCREW +B 4X12
SCREW +B 4X14
SCREW +B 5X12
BOLT,HEXAGON SOCKET 3X8

7-683-405-04
7-683-412-05
7-685-104-19
7-685-134-19
7-685-533-19

s
s
s
s
s

BOLT,HEXAGON SOCKET 3X10
BOLT,HEXAGON SOCKET 2.6X6
SCREW +P 2X6 TYPE2 NON-SLIT
SCREW +P 2.6X8 TYPE2 NON-SLIT
SCREW +BTP 2.6X6 TYPE2 N-S

+K
+K
+B
+B
+B

3X8
4X8
3X4
3X5
3X5

7-688-002-02 s W2.6, SHALL
7-688-003-02 s W 3, SMALL

5-10

BVP-550
BVP-550P

5-3. Electrical Parts List
5-3-1. Parts List for Camera
----------AT-95 BOARD
----------Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
1pc
1pc
6pcs

A-8269-360-A
3-692-126-02
3-724-753-01
3-729-061-01

C54
C55
C56
C57
C58

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

BT1

1-550-104-32 s HOLDER, BATTERY

C1
C2
C3
C4
C5

1-162-927-11
1-162-964-11
1-164-156-11
1-164-156-11
1-107-688-11

s
s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP,TANTALUM 1.5uF 20% 25V

C59
C60
C61
C62
C63

1-162-927-11
1-162-927-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

100PF 5% 50V
100PF 5% 50V
25V
25V
25V

C6
C7
C8
C9
C10

1-164-156-11
1-107-688-11
1-126-392-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CHIP,TANTALUM 1.5uF 20% 25V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C64
C65
C66
C67
C68

1-164-156-11
1-164-156-11
1-162-927-11
1-162-927-11
1-162-927-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP

25V
25V
100PF 5% 50V
100PF 5% 50V
100PF 5% 50V

C11
C12
C13
C14
C15

1-164-156-11
1-135-165-11
1-135-165-11
1-164-156-11
1-104-905-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
DOUBLE LAYERS, 0.22F 5.5V

C69
C70
C71
C80

1-162-927-11
1-162-927-11
1-131-360-00
1-164-156-11

s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
TANTALUM 15uF
CERAMIC 0.1uF

100PF 5% 50V
100PF 5% 50V
10% 10V
25V

CNI36

1-540-197-11 o SOCKET, IC

C16
C17
C18
C19
C20

1-164-156-11
1-135-215-21
1-164-156-11
1-126-392-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 0.1uF 25V

D1
D2
D3
D4
D5

8-719-029-63
8-719-820-41
8-719-974-76
8-719-974-76
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
1SS302
HSM107S
HSM107S
1SS302

C21
C22
C23
C24
C25

1-162-927-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

100PF 5% 50V
25V
25V
25V
25V

D6
D7
D8
D10
D11

8-719-974-76
8-719-974-76
8-719-974-76
8-719-974-76
8-719-974-76

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM107S
HSM107S
HSM107S
HSM107S
HSM107S

C26
C27
C28
C29
C30

1-162-970-11
1-164-156-11
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF

0.01uF 10% 25V
25V
0.01uF 10% 25V
25V
25V

D12
D13
D15
D16
D17

8-719-974-76
8-719-974-76
8-719-974-76
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM107S
HSM107S
HSM107S
1SS302
1SS302

C31
C32
C33
C34
C35

1-135-180-21
1-162-966-11
1-162-970-11
1-135-076-21
1-162-970-11

s
s
s
s
s

TANTALUM, CHIP 3.3uF 20% 6.3V
CERAMIC, CHIP 0.0022uF 10% 50V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 1uF 10% 35V
CERAMIC, CHIP 0.01uF 10% 25V

D18
D19
D20
D21
D22

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

C36
C37
C38
C39
C40

1-162-970-11
1-164-156-11
1-164-156-11
1-162-970-11
1-135-085-21

s
s
s
s
s

CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 4.7uF 10% 25V

IC1
IC2
IC3
IC4
IC5

8-759-252-59
8-759-242-78
8-759-186-51
8-759-076-06
8-759-076-06

s
s
s
s
s

IC
IC
IC
IC
IC

MAX202CSE
TC7W02F
TC74VHC157FS(EL)
TL064CPW
TL064CPW

C41
C42
C43
C44
C45

1-162-970-11
1-162-964-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC6
IC7
IC8
IC9
IC11

8-759-637-07
8-759-089-61
8-759-082-60
8-759-076-06
8-759-711-50

s
s
s
s
s

IC
IC
IC
IC
IC

M62021FP
TC74HC4052AFS(EL)
TC7S66FU
TL064CPW
NJU7022M

C46
C47
C48
C49
C50

1-164-156-11
1-164-156-11
1-135-215-21
1-164-156-11
1-135-157-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V

IC12
IC13
IC14
IC15
IC17

8-759-711-50
8-759-059-50
8-759-082-57
8-759-083-94
8-759-058-64

s
s
s
s
s

IC
IC
IC
IC
IC

NJU7022M
MB88351PFV
TC7W04FU
TC7W74FU
TC7S32FU(TE85R)

C51
C52
C53

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

IC18
IC19
IC20

8-759-271-84 s IC TC7SH02FU
8-759-271-86 s IC TC7SH04FU
8-759-196-96 s IC TC7SH08FU-TE85R

BVP-550
BVP-550P

o
o
o
s

MOUNTED CIRCUIT BOARD, AT-95
PANEL,AT-95 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

SP Description
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

5-11

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

IC21
IC22
IC23
IC24
IC25

8-759-271-84
8-759-196-97
8-759-186-31
8-759-079-70
8-759-065-20

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH02FU
TC7SH32FU-TE85R
TC74VHC20F
TC74VHC138FS(EL)
RTC-4553B

R22
R23
R25
R26
R28

1-218-724-11
1-216-794-11
1-216-821-11
1-216-809-11
1-218-889-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

IC26
IC27
IC28
IC29
IC30

8-752-337-91
8-759-154-60
8-759-154-60
8-759-149-10
8-759-271-84

s
s
s
s
s

IC
IC
IC
IC
IC

CXK58257ATM-70LL
UPD71055GB-10-3B4
UPD71055GB-10-3B4
UPD4702G
TC7SH02FU

R29
R30
R31
R32
R33

1-216-857-11
1-218-858-11
1-218-720-11
1-216-839-11
1-216-862-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 33K 5% 1/16W
METAL 2.7M 5% 1/16W

IC31
IC32
IC33
IC34
IC35

8-759-196-97
8-759-242-78
8-759-186-53
8-759-186-53
8-759-277-99

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH32FU-TE85R
TC7W02F
TC74VHC163F
TC74VHC163F
CXD8889R

R34
R35
R36
R37
R38

1-216-857-11
1-216-857-11
1-216-857-11
1-216-863-11
1-216-857-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 3.3M 5% 1/16W
METAL, CHIP 1M 5% 1/16W

IC36
IC37
IC38
IC39
IC40

8-759-176-87
8-759-196-96
8-759-182-95
8-759-079-85
8-759-079-61

o
s
s
s
s

IC
IC
IC
IC
IC

M27V201-200L6
TC7SH08FU-TE85R
HD151015T
TC74VHC244FS(EL)
TC74VHC74FS(EL)

R39
R40
R41
R42
R43

1-216-857-11
1-218-716-11
1-218-724-11
1-216-819-11
1-216-821-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 680 5% 1/16W
METAL, CHIP 1K 5% 1/16W

IC41
IC42
IC43
IC44
IC45

8-759-195-81
8-759-186-53
8-759-082-57
8-759-186-53
8-759-083-94

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S86FU
TC74VHC163F
TC7W04FU
TC74VHC163F
TC7W74FU

R44
R45
R46
R47
R48

1-218-867-11
1-216-825-11
1-216-821-11
1-218-716-11
1-218-873-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 12K 0.50% 1/16W

IC46
IC47
IC48

8-759-165-37 s IC X24164SIC7000
8-759-078-75 s IC UPD6453GT-610
8-759-276-00 s IC TC7W139FU(TE12R)

L1
L2

1-410-737-31 s INDUCTOR CHIP 0.47UH
1-410-377-31 s INDUCTOR CHIP 4.7uH

R49
R50
R51
R52
R53

1-218-716-11
1-218-724-11
1-216-821-11
1-216-821-11
1-216-809-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 100 5% 1/16W

Q1
Q2
Q3
Q4
Q5

8-729-141-48
8-729-402-19
8-729-920-48
8-729-925-47
8-729-920-48

R54
R55
R56
R57
R58

1-216-836-11
1-218-867-11
1-216-824-11
1-218-716-11
1-218-873-11

s
s
s
s
s

METAL, CHIP 18K 5% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL, CHIP 1.8K 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 12K 0.50% 1/16W

Q6

8-729-920-48 s TRANSISTOR IMH2

R1
R2
R3
R4
R5

1-216-794-11
1-216-833-11
1-216-831-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

5.6 5% 1/16W
10K 5% 1/16W
6.8K 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R59
R60
R61
R62
R63

1-216-820-11
1-216-855-11
1-216-854-11
1-218-752-11
1-216-854-11

s
s
s
s
s

METAL, CHIP 820 5% 1/16W
METAL, CHIP 680K 5% 1/16W
METAL, CHIP 560K 5% 1/16W
METAL 330K 0.50% 1/16W
METAL, CHIP 560K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-809-11
1-216-829-11
1-216-833-11
1-216-837-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100 5% 1/16W
4.7K 5% 1/16W
10K 5% 1/16W
22K 5% 1/16W

R64
R66
R70
R71
R72

1-218-750-11
1-216-821-11
1-216-857-11
1-216-829-11
1-216-821-11

s
s
s
s
s

METAL 270K 0.50% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 1K 5% 1/16W

R11
R12
R13
R14
R15

1-216-845-11
1-216-794-11
1-216-864-11
1-216-821-11
1-216-864-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
5.6 5% 1/16W
0 5% 1/16W
1K 5% 1/16W
0 5% 1/16W

R73
R74
R75
R76
R77

1-216-829-11
1-216-829-11
1-216-829-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R16
R17
R18
R19
R20

1-216-809-11
1-216-858-11
1-218-723-11
1-216-821-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 100 5% 1/16W
METAL, CHIP 1.2M 5% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 100 5% 1/16W

R78
R79
R80
R81
R82

1-216-797-11
1-216-828-11
1-216-797-11
1-216-797-11
1-218-866-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

10 5% 1/16W
3.9K 5% 1/16W
10 5% 1/16W
10 5% 1/16W
6.2K 0.50% 1/16W

R21

1-218-668-11 s CHIP, METAL 100 0.50% 1/16W

R83
R84
R85
R86

1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

10
10
10
10

5-12

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
XN6501
IMH2
IMB2
IMH2

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP

22K 5% 1/16W
5.6 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
56K 0.50% 1/16W

4.7K 5% 1/16W
4.7K 5% 1/16W
4.7K 5% 1/16W
100 5% 1/16W
100 5% 1/16W

5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W

BVP-550
BVP-550P

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R87
R88
R89
R90
R91

1-216-797-11
1-216-797-11
1-216-841-11
1-216-841-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10 5% 1/16W
10 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W
10 5% 1/16W

R150
R151
R152
R153
R154

1-216-809-11
1-216-821-11
1-216-841-11
1-216-845-11
1-216-833-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R92
R93
R94
R95
R96

1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10
10
10
10
10

R155
R160
R161
R162
R163

1-216-845-11
1-216-821-11
1-216-862-11
1-216-864-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 2.7M 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R97
R98
R99
R100
R101

1-216-845-11
1-216-845-11
1-216-845-11
1-216-833-11
1-216-833-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W

R164
R165

1-218-751-11 s METAL, CHIP 300K 0.50% 1/16
1-218-858-11 s CHIP, METAL 3K 0.50% 1/16W

RV1

1-237-035-11 s RES, ADJ METAL 5K

S1

1-692-270-21 s SWITCH, SLIDE

R102
R103
R104
R105
R106

1-216-821-11
1-216-821-11
1-216-845-11
1-216-809-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
220K 5% 1/16W

R107
R108
R109
R110
R111

1-216-841-11
1-216-841-11
1-216-841-11
1-216-825-11
1-216-825-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47K 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W

R114
R115
R118
R119
R120

1-216-825-11
1-216-825-11
1-216-809-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

2.2K 5% 1/16W
2.2K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R121
R122
R123
R124
R125

1-216-809-11
1-216-809-11
1-216-821-11
1-216-821-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
100 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W

R126
R127
R128
R129
R130

1-216-821-11
1-216-809-11
1-216-809-11
1-216-809-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100K 5% 1/16W

R131
R132
R133
R134
R135

1-216-845-11
1-216-841-11
1-216-841-11
1-216-841-11
1-216-841-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W

R136
R137
R138
R139
R140

1-216-841-11
1-216-821-11
1-216-809-11
1-216-821-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47K 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W

R141
R142
R143
R144
R145

1-216-821-11
1-216-821-11
1-216-821-11
1-216-841-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
47K 5% 1/16W
100 5% 1/16W

R146
R147
R148
R149

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP

100K
100K
100K
100K

BVP-550
BVP-550P

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

5%
5%
5%
5%

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
1K 5% 1/16W
47K 5% 1/16W
100K 5% 1/16W
10K 5% 1/16W

1/16W
1/16W
1/16W
1/16W

5-13

------------CN-1120 BOARD
------------Ref. No.
or Q'ty Part No.

------------CN-1121 BOARD
------------Ref. No.
or Q'ty Part No.

SP Description

SP Description

1pc

A-8269-369-A o MOUNTED CIRCUIT BOARD, CN-1120

1pc

A-8269-370-A o MOUNTED CIRCUIT BOAAD, CN-1121

C1
C2
C3
C4
C5

1-163-275-11
1-163-275-11
1-163-275-11
1-163-275-11
1-163-275-11

CN101
CN102

1-569-531-11 s HOUSING, 20P
1-569-532-11 s HOUSING, 30P

C6

1-163-275-11 s CERAMIC 0.001uF 5% 50V

FL1
FL2
FL3
FL4
FL5

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

CN201
CN202

1-569-532-11 s HOUSING, 30P
1-569-532-11 s HOUSING, 30P

FL1
FL2
FL3
FL4
FL5

1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL6
FL7
FL8
FL9
FL10

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL6
FL7
FL8
FL9
FL10

1-239-825-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL11
FL12
FL13
FL14
FL15

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL11
FL12
FL13
FL14
FL15

1-239-719-11
1-239-825-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL16
FL17
FL18
FL19
FL20

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL16
FL17
FL18
FL19
FL20

1-239-825-11
1-239-719-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL21
FL22
FL23
FL24
FL25

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL21
FL22
FL23
FL24
FL25

1-239-825-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL26
FL27
FL28
FL30
FL31

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL26
FL27
FL28
FL29
FL30

1-239-719-11
1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL32
FL33
FL34
FL35
FL37

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL38
FL39

1-239-719-11 s FILTER, CHIP EMI
1-239-719-11 s FILTER, CHIP EMI

FL31
FL32
FL33
FL34
FL35

1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

R1
R2

1-216-295-11 s CHIP, CONDUCTOR 0
1-216-295-11 s CHIP, CONDUCTOR 0

FL36
FL37
FL38
FL39
FL40

1-239-825-11
1-239-825-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL41
FL42
FL43
FL44

1-239-719-11
1-239-719-11
1-239-825-11
1-239-825-11

s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI

5-14

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.001uF
0.001uF
0.001uF
0.001uF
0.001uF

5%
5%
5%
5%
5%

50V
50V
50V
50V
50V

BVP-550
BVP-550P

------------CN-1122 BOARD
------------Ref. No.
or Q'ty Part No.

------------CN-1142 BOARD
------------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-447-12 o PRINTED CIRCUIT BOARD, CN-1122

C1
C2
C5

1-128-592-11 s ELECT 0.33uF 20% 50V
1-128-592-11 s ELECT 0.33uF 20% 50V
1-126-968-11 s CHIP, ELECT 100uF 20% 50V

CN401
CN402
CN405
CN406
CN407

1-569-629-11
1-695-890-21
1-764-082-21
1-764-078-11
1-695-207-21

R1
R2
R3

1-218-708-11 s METAL 4.7K 0.50% 1/16W
1-218-708-11 s METAL 4.7K 0.50% 1/16W
1-215-421-00 s METAL 1K 1% 1/6W

BVP-550
BVP-550P

s
o
s
s
o

HOUSING, 24P
PIN, CONNECTOR
PIN, CONNECTOR
PIN, CONNECTOR
PIN, CONNECTOR

(PC
(PC
(PC
(PC

BOARD)
BOARD)
BOARD)
BOARD)

12P
11P
3P
6P

SP Description

1pc
1pc
3pcs
3pcs

A-8269-381-A
7-682-545-04
2-280-622-01
7-682-545-04

o
s
o
s

MOUNTED CIRCUIT BOARD, CN-1142
SCREW +B 3X4
SUPPORT (M3), HEXAGON
SCREW +B 3X4

C1
C2
C4
C5
C6

1-128-393-11
1-128-393-11
1-164-156-11
1-164-156-11
1-135-160-21

s
s
s
s
s

ELECT 100uF 20% 10V
ELECT 100uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V

C7
C8
C9
C10
C11

1-135-160-21
1-164-156-11
1-164-156-11
1-135-177-21
1-135-160-21

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V

C12
C13
C14
C15
C16

1-164-156-11
1-164-156-11
1-135-160-21
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C17
C18
C19
C20
C21

1-164-156-11
1-135-177-21
1-135-160-21
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C22
C23
C24
C25
C26

1-135-160-21
1-164-156-11
1-164-156-11
1-135-177-21
1-135-160-21

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V

C27
C28
C29
C30
C31

1-164-156-11
1-135-159-21
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 10% 20V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C32
C33
C35
C36
C37

1-164-156-11
1-135-215-21
1-135-157-21
1-164-156-11
1-135-157-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V

C38
C39
C40
C41
C42

1-164-156-11
1-135-157-21
1-164-156-11
1-135-157-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V

C43
C44
C45
C46
C47

1-135-160-21
1-164-156-11
1-164-156-11
1-135-161-21
1-164-156-11

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V

C48
C49
C51
C52
C53

1-164-156-11
1-135-215-21
1-162-913-11
1-164-156-11
1-135-157-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 8PF 0.5PF 50V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V

C54
C55
C56
C57
C58

1-164-156-11
1-135-157-21
1-164-156-11
1-135-157-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V

5-15

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C59
C60
C61
C62
C63

1-135-160-21
1-164-156-11
1-164-156-11
1-135-161-21
1-164-156-11

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V

C131
C132
C133
C134
C135

1-162-923-11
1-162-923-11
1-162-927-11
1-162-921-11
1-162-921-11

s
s
s
s
s

CERAMIC,
CERAMIC,
CERAMIC,
CERAMIC,
CERAMIC,

CHIP
CHIP
CHIP
CHIP
CHIP

47PF 5% 50V
47PF 5% 50V
100PF 5% 50V
33PF 5% 50V
33PF 5% 50V

C64
C65
C67
C68
C69

1-164-156-11
1-135-215-21
1-162-913-11
1-164-156-11
1-135-157-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 8PF 0.5PF 50V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V

C136
C137
C138
C139
C140

1-162-927-11
1-162-921-11
1-162-921-11
1-162-927-11
1-162-921-11

s
s
s
s
s

CERAMIC,
CERAMIC,
CERAMIC,
CERAMIC,
CERAMIC,

CHIP
CHIP
CHIP
CHIP
CHIP

100PF 5% 50V
33PF 5% 50V
33PF 5% 50V
100PF 5% 50V
33PF 5% 50V

C70
C71
C72
C73
C74

1-164-156-11
1-135-157-21
1-164-156-11
1-135-157-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V

C141
C142
C143
C144
C145

1-162-921-11
1-162-927-11
1-162-921-11
1-162-921-11
1-162-927-11

s
s
s
s
s

CERAMIC,
CERAMIC,
CERAMIC,
CERAMIC,
CERAMIC,

CHIP
CHIP
CHIP
CHIP
CHIP

33PF 5% 50V
100PF 5% 50V
33PF 5% 50V
33PF 5% 50V
100PF 5% 50V

C75
C76
C77
C78
C79

1-135-160-21
1-164-156-11
1-164-156-11
1-135-161-21
1-164-156-11

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V

C146
C147
C148
C149
C150

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-923-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

25V
25V
25V
25V
47PF 5% 50V

C80
C81
C89
C90
C91

1-164-156-11
1-162-913-11
1-135-210-11
1-164-156-11
1-135-180-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 8PF 0.5PF 50V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 3.3uF 20% 6.3V

C151
C152
C153
C154
C155

1-162-923-11
1-162-921-11
1-162-921-11
1-162-919-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF

47PF
33PF
33PF
22PF
25V

C92
C93
C94
C95
C96

1-164-156-11
1-164-156-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C156
C157
C158
C159
C160

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-921-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

25V
25V
25V
25V
33PF 5% 50V

C97
C98
C101
C102
C103

1-164-156-11
1-164-156-11
1-162-915-11
1-162-915-11
1-162-919-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP

C161
C167
C168
C169
C170

1-164-156-11
1-164-156-11
1-164-156-11
1-135-161-21
1-135-161-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 22uF 10% 10V
TANTALUM, CHIP 22uF 10% 10V

C104
C105
C106
C110
C111

1-162-919-11
1-162-917-11
1-162-917-11
1-135-161-21
1-135-161-21

s
s
s
s
s

CERAMIC, CHIP 22PF 5% 50V
CERAMIC, CHIP 15PF 5% 50V
CERAMIC, CHIP 15PF 5% 50V
TANTALUM, CHIP 22uF 10% 10V
TANTALUM, CHIP 22uF 10% 10V

C171
C172
C173
C174
C175

1-135-161-21
1-135-161-21
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C112
C113
C114
C115
C116

1-135-161-21
1-135-161-21
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C176
C177
C178
C179
C180

1-164-156-11
1-135-161-21
1-135-161-21
1-135-161-21
1-135-161-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 22uF
TANTALUM, CHIP 22uF
TANTALUM, CHIP 22uF
TANTALUM, CHIP 22uF

C117
C118
C119
C120
C121

1-164-156-11
1-135-166-21
1-135-166-21
1-135-166-21
1-135-166-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 47uF
TANTALUM, CHIP 47uF
TANTALUM, CHIP 47uF
TANTALUM, CHIP 47uF

C181
C182
C183
C184
C185

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C122
C123
C124
C125
C126

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-135-156-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 10% 6.3V

C186
C187
C188
C189
C190

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C127
C128
C129
C130

1-164-156-11
1-162-923-11
1-162-923-11
1-162-927-11

s
s
s
s

CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP

C191
C192
C193
C194

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC

5-16

25V
25V
10PF 5PF 50V
10PF 5PF 50V
22PF 5% 50V

10%
10%
10%
10%

10V
10V
10V
10V

25V
47PF 5% 50V
47PF 5% 50V
100PF 5% 50V

0.1uF
0.1uF
0.1uF
0.1uF

5%
5%
5%
5%

50V
50V
50V
50V

10%
10%
10%
10%

10V
10V
10V
10V

25V
25V
25V
25V

BVP-550
BVP-550P

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

C196
C197
C198
C199
C200

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C201
C202
C203
C204
C205

1-162-970-11
1-135-160-21
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

C206
C207
C208
C209
C210

1-164-156-11
1-107-689-21
1-165-128-11
1-164-156-11
1-162-970-11

C211
C212
C215
C216
C217

IC14
IC15
IC16
IC17
IC18

8-759-635-27
8-759-058-58
8-759-050-50
8-759-079-49
8-759-079-60

s
s
s
s
s

IC
IC
IC
IC
IC

M62352GP
TC7S04FU(TE85R)
SN74HCT04APW-E05
TC74VHC04FS(EL)
TC74VHC32FS(EL)

CERAMIC, CHIP 0.01uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC19
IC20
IC21
IC22
IC23

8-759-079-46
8-759-079-70
8-759-079-49
8-759-186-31
8-759-079-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC00FS(EL)
TC74VHC138FS(EL)
TC74VHC04FS(EL)
TC74VHC20F
TC74VHC74FS(EL)

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 1uF 20% 35V
CERAMIC 0.22uF 16V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V

IC24
IC27
IC28
IC29
IC30

8-759-079-49
8-759-173-15
8-759-182-95
8-759-359-65
8-759-359-65

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC04FS(EL)
STK10C68-5S35
HD151015T
TL084CPW-E05
TL084CPW-E05

1-135-215-21
1-135-216-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC31
IC32
IC33
IC34
IC35

8-759-076-06
8-752-360-44
8-752-360-44
8-759-186-26
8-752-360-44

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
CXK1203AR
CXK1203AR
TC74VHC02F
CXK1203AR

C218
C219
C220
C221
C223

1-164-156-11
1-164-156-11
1-135-177-21
1-135-164-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V

IC36
IC37
IC39
IC40
IC41

8-752-360-44
8-759-079-49
8-752-334-64
8-759-164-94
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

CXK1203AR
TC74VHC04FS(EL)
CXD1171M
TLC0820ACDW-ELL2000
TC4W53FU

C224
C228
C230
C232
C233

1-164-156-11
1-164-156-11
1-162-915-11
1-164-156-11
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 10PF 5PF 50V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

IC42
IC43
IC44
IC45
IC46

8-759-049-86
8-759-080-02
8-759-079-49
8-752-363-60
8-759-632-39

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HCT244APW-E20
TC74VHC541FS(EL)
TC74VHC04FS(EL)
CXD2307R-T4
M51958A-T1

C236
C237
C311

1-135-181-21 s TANTALUM, CHIP 4.7uF 10% 6.3V
1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

IC47
IC49
IC50
IC53

8-759-632-39
8-759-086-42
8-759-173-16
8-759-079-46

s
s
s
s

IC
IC
IC
IC

M51958A-T1
X24C02S-3.0-C7000
TL062CPW
TC74VHC00FS(EL)

CN2

1-569-629-11 s HOUSING, 24P

D1
D2
D3
D4
D6

8-719-029-63
8-719-029-63
8-719-029-63
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
1SS302

L1
L2
L3
L4
L5

1-424-643-11
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

COIL, CHOKE 10UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH

D7
D9
D10
D11

8-719-027-95
8-719-820-41
8-719-820-41
8-719-029-63

s
s
s
s

DIODE
DIODE
DIODE
DIODE

HSM88WK
1SS302
1SS302
RD4.3UH-T1

L6
L7
L8
L9
L11

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR, CHIP 22uH

FL1
FL2
FL3

1-239-755-11 s FILTER, LOW PASS
1-239-755-11 s FILTER, LOW PASS
1-239-755-11 s FILTER, LOW PASS

IC1
IC2
IC3
IC4
IC5

8-759-076-06
8-752-358-04
8-759-173-16
8-752-358-04
8-759-173-16

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
CXD2310R
TL062CPW
CXD2310R
TL062CPW

L13
L15
L16
L17
L18

1-410-385-11
1-410-385-11
1-410-385-11
1-410-373-31
1-410-369-11

s
s
s
s
s

INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH
INDUCTOR CHIP 2.2uH
INDUCTOR CHIP 1UH

IC6
IC7
IC10
IC11
IC12

8-752-358-04
8-759-173-16
8-759-058-62
8-759-058-64
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

CXD2310R
TL062CPW
TC7S08FU(TE85R)
TC7S32FU(TE85R)
TC74HC595AF(EL)

L19
L20
L21
L22
L23

1-410-369-11
1-410-381-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

IC13

8-759-996-82 s IC MSM82C55A-2GS

L24
L25
L26
L27
L28

1-410-369-11
1-410-385-11
1-410-385-11
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR CHIP 1UH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH

BVP-550
BVP-550P

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

SP Description

CHIP
CHIP
CHIP
CHIP
CHIP

1UH
10uH
1UH
1UH
1UH

5-17

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

Q1

8-729-141-48 s TRANSISTOR 2SB624-BV345

Q2
Q3
Q4
Q7
Q8

8-729-141-48
8-729-141-75
8-729-141-48
8-729-122-63
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SD596DV345
2SB624-BV345
2SA1226
2SA1611-M6

Q9
Q12
Q13
Q14
Q17

8-729-117-32
8-729-122-63
8-729-117-16
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SA1611-M6
2SC4177
2SA1226

Q18
Q19
Q20
Q21
Q22

8-729-117-16
8-729-117-32
8-729-143-07
8-729-141-48
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SA1610-Y33
2SB624-BV345
2SA1226

Q23
Q24
Q25
Q26

8-729-122-63
8-729-122-63
8-729-920-48
8-729-014-93

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
IMH2
2SB1440S-TX

R3
R4
R5
R6
R7

1-218-677-11
1-218-723-11
1-218-724-11
1-216-821-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R9
R10
R11
R12
R13

1-218-677-11
1-218-723-11
1-218-724-11
1-216-821-11
1-218-856-11

s
s
s
s
s

CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W

R14
R15
R16
R17
R18

1-218-729-11
1-218-723-11
1-216-821-11
1-218-729-11
1-218-723-11

s
s
s
s
s

CHIP, METAL 36K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R19
R22
R23
R26
R27

1-216-864-11
1-216-864-11
1-218-846-11
1-218-722-11
1-216-864-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R28
R29
R30
R31
R32

1-216-827-11
1-216-864-11
1-218-864-11
1-218-723-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 3.3K 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 5.1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W

R33
R34
R37
R38
R41

1-218-730-11
1-218-889-11
1-216-864-11
1-218-846-11
1-216-864-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
METAL, CHIP

39K 0.50% 1/16W
56K 0.50% 1/16W
0 5% 1/16W
910 0.50% 1/16W
0 5% 1/16W

R42
R43
R44
R45
R46

1-218-722-11
1-216-827-11
1-216-864-11
1-216-809-11
1-218-730-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

18K 0.50% 1/16W
3.3K 5% 1/16W
0 5% 1/16W
100 5% 1/16W
39K 0.50% 1/16W

R47
R48
R49

1-218-889-11 s CHIP, METAL 56K 0.50% 1/16W
1-218-899-11 s CHIP, METAL 150K 0.50% 1/16W
1-216-809-11 s METAL, CHIP 100 5% 1/16W

5-18

0 5% 1/16W
0 5% 1/16W
910 0.50% 1/16W
18K 0.50% 1/16W
0 5% 1/16W

SP Description

R52
R53
R56
R57
R58

1-216-864-11
1-218-846-11
1-218-722-11
1-216-864-11
1-216-827-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

0 5% 1/16W
910 0.50% 1/16W
18K 0.50% 1/16W
0 5% 1/16W
3.3K 5% 1/16W

R59
R60
R61
R62
R63

1-216-864-11
1-216-809-11
1-218-730-11
1-218-889-11
1-218-899-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
CHIP, METAL
CHIP, METAL
CHIP, METAL

0 5% 1/16W
100 5% 1/16W
39K 0.50% 1/16W
56K 0.50% 1/16W
150K 0.50% 1/16W

R64
R69
R70
R71
R72

1-216-809-11
1-216-827-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

100 5% 1/16W
3.3K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R74
R78
R79
R80
R81

1-218-716-11
1-218-740-11
1-218-740-11
1-218-668-11
1-218-844-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

10K 0.50% 1/16W
100K 0.50% 1/16W
100K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 750 0.50% 1/16W

R82
R83
R84
R85
R87

1-218-829-11
1-218-829-11
1-218-829-11
1-211-987-11
1-211-969-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R88
R89
R91
R92
R93

1-211-969-11
1-211-969-11
1-218-740-11
1-211-969-11
1-218-740-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
METAL

METAL 10 0.50% 1/16W
METAL 10 0.50% 1/16W
100K 0.50% 1/16W
METAL 10 0.50% 1/16W
100K 0.50% 1/16W

R94
R95
R96
R97
R98

1-216-805-11
1-216-805-11
1-216-864-11
1-216-864-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47 5% 1/16W
47 5% 1/16W
0 5% 1/16W
0 5% 1/16W
10 5% 1/16W

R99
R100
R101
R102
R104

1-216-797-11
1-216-833-11
1-216-841-11
1-216-841-11
1-216-833-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10 5% 1/16W
10K 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W
10K 5% 1/16W

R105
R106
R108
R109
R110

1-216-864-11
1-218-856-11
1-216-864-11
1-216-803-11
1-216-864-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP

0 5% 1/16W
2.4K 0.50% 1/16W
0 5% 1/16W
33 5% 1/16W
0 5% 1/16W

R111
R113
R114
R115
R116

1-218-856-11
1-216-864-11
1-216-803-11
1-216-864-11
1-218-856-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

2.4K 0.50% 1/16W
0 5% 1/16W
33 5% 1/16W
0 5% 1/16W
2.4K 0.50% 1/16W

R118
R119
R120
R121
R124

1-216-864-11
1-216-803-11
1-216-864-11
1-218-856-11
1-216-864-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP

0 5% 1/16W
33 5% 1/16W
0 5% 1/16W
2.4K 0.50% 1/16W
0 5% 1/16W

R125
R126
R127
R129

1-216-803-11
1-216-864-11
1-218-856-11
1-216-864-11

s
s
s
s

METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP

33 5% 1/16W
0 5% 1/16W
2.4K 0.50% 1/16W
0 5% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

180 0.50% 1/16W
180 0.50% 1/16W
180 0.50% 1/16W
56 0.50% 1/16W
10 0.50% 1/16W

BVP-550
BVP-550P

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R130
R131
R132
R134
R135

1-216-803-11
1-216-864-11
1-218-856-11
1-216-864-11
1-216-803-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP
METAL, CHIP

R136
R137
R138
R139
R140

1-218-716-11
1-218-723-11
1-218-730-11
1-218-702-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R141
R142
R143
R144
R145

1-218-716-11
1-218-729-11
1-218-714-11
1-216-803-11
1-218-716-11

s
s
s
s
s

R146
R147
R148
R149
R150

1-218-723-11
1-218-730-11
1-218-702-11
1-218-716-11
1-218-716-11

R151
R152
R153
R154
R155

SP Description

33 5% 1/16W
0 5% 1/16W
2.4K 0.50% 1/16W
0 5% 1/16W
33 5% 1/16W

R198
R201
R202
R203
R204

1-218-676-11
1-218-704-11
1-218-704-11
1-218-704-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

220 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
33K 0.50% 1/16W

10K 0.50% 1/16W
20K 0.50% 1/16W
METAL 39K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
10K 0.50% 1/16W

R205
R206
R207
R208
R209

1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

33K
33K
33K
33K
33K

METAL 10K 0.50% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL 8.2K 0.50% 1/16W
METAL, CHIP 33 5% 1/16W
METAL 10K 0.50% 1/16W

R210
R211
R212
R213
R214

1-218-730-11
1-218-730-11
1-218-730-11
1-216-805-11
1-218-668-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

39K 0.50% 1/16W
39K 0.50% 1/16W
39K 0.50% 1/16W
47 5% 1/16W
100 0.50% 1/16W

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

20K 0.50% 1/16W
METAL 39K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W

R215
R216
R217
R218
R219

1-216-805-11
1-216-805-11
1-216-825-11
1-216-825-11
1-216-825-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

47 5% 1/16W
47 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W

1-216-803-11
1-218-716-11
1-218-723-11
1-218-730-11
1-218-702-11

s
s
s
s
s

METAL, CHIP 33 5% 1/16W
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 39K 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W

R220
R221
R222
R223
R224

1-216-017-00
1-216-017-00
1-216-017-00
1-216-821-11
1-216-821-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

47
47
47
1K
1K

R156
R157
R158
R159
R160

1-218-716-11
1-218-716-11
1-216-803-11
1-216-864-11
1-218-856-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 33 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W

R226
R228
R229
R230
R231

1-216-864-11
1-216-845-11
1-216-809-11
1-216-805-11
1-216-864-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

0 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
47 5% 1/16W
0 5% 1/16W

R162
R163
R164
R165
R166

1-216-864-11
1-216-803-11
1-216-797-11
1-216-805-11
1-216-817-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

0 5% 1/16W
33 5% 1/16W
10 5% 1/16W
47 5% 1/16W
470 5% 1/16W

R233
R234
R235
R236
R237

1-216-814-11
1-216-809-11
1-218-899-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP
METAL, CHIP

270 5% 1/16W
100 5% 1/16W
150K 0.50% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R167
R168
R169
R170
R171

1-216-864-11
1-216-829-11
1-216-833-11
1-216-797-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

0 5% 1/16W
4.7K 5% 1/16W
10K 5% 1/16W
10 5% 1/16W
10 5% 1/16W

R238
R239
R240
R241
R242

1-216-805-11
1-216-857-11
1-216-857-11
1-216-821-11
1-218-707-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

47 5% 1/16W
1M 5% 1/16W
1M 5% 1/16W
1K 5% 1/16W
4.3K 0.50% 1/16W

R172
R173
R174
R175
R176

1-216-835-11
1-218-704-11
1-218-700-11
1-216-821-11
1-216-825-11

s
s
s
s
s

METAL, CHIP 15K 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R243
R244
R245
R246
R247

1-218-668-11
1-218-724-11
1-216-821-11
1-216-837-11
1-216-864-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP

100 0.50% 1/16W
22K 5% 1/16W
1K 5% 1/16W
22K 5% 1/16W
0 5% 1/16W

R178
R179
R180
R181
R182

1-216-821-11
1-216-017-00
1-216-829-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP

1K 5% 1/16W
47 5% 1/10W
4.7K 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R248
R249
R250
R251
R252

1-216-864-11
1-216-797-11
1-216-797-11
1-216-797-11
1-216-864-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

0 5% 1/16W
10 5% 1/16W
10 5% 1/16W
10 5% 1/16W
0 5% 1/16W

R183
R184
R185
R186
R187

1-216-821-11
1-216-797-11
1-216-797-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

1K 5% 1/16W
10 5% 1/16W
10 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R253
R254
R257
R258
R259

1-216-797-11
1-218-699-11
1-218-699-11
1-216-797-11
1-216-864-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

R190
R191
R195
R197

1-216-805-11
1-216-845-11
1-218-676-11
1-218-676-11

s
s
s
s

METAL, CHIP 47 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 220 0.50% 1/16W

R260
R361
R363

1-216-864-11 s METAL, CHIP 0 5% 1/16W
1-216-805-11 s METAL, CHIP 47 5% 1/16W
1-216-837-11 s METAL, CHIP 22K 5% 1/16W

BVP-550
BVP-550P

CHIP
CHIP
CHIP
CHIP
CHIP

0.50%
0.50%
0.50%
0.50%
0.50%

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

1/16W
1/16W
1/16W
1/16W
1/16W

5%
5%
5%
5%
5%

1/10W
1/10W
1/10W
1/16W
1/16W

10 5% 1/16W
2K 0.50% 1/16W
2K 0.50% 1/16W
10 5% 1/16W
0 5% 1/16W

5-19

----------DA-88 BOARD
----------Ref. No.
or Q'ty Part No.

(CN-1142 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-236-907-11

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
RESISTOR

RB6
RB7
RB8
RB9
RB10

1-239-306-11
1-239-790-12
1-239-790-12
1-239-790-12
1-239-791-12

s
s
s
s
s

RESISTOR BLOCK, CHIP 10KX8
RESISTOR, NETWORK, CHIP 5K
RESISTOR, NETWORK, CHIP 5K
RESISTOR, NETWORK, CHIP 5K
RESISTOR, NETWORK, CHIP 5K

RB11
RB12
RB13
RB14
RB15

1-239-791-12
1-239-791-12
1-239-790-12
1-236-908-11
1-236-908-11

s
s
s
s
s

RESISTOR,
RESISTOR,
RESISTOR,
RESISTOR,
RESISTOR,

RB16
RB17
RB18
RB19
RB20

1-239-306-11
1-239-409-11
1-239-409-11
1-239-309-11
1-239-409-11

s
s
s
s
s

RESISTOR
NETWORK,
NETWORK,
RESISTOR
NETWORK,

BLOCK, CHIP 10KX8
RESISTOR (CHIP TYPE)
RESISTOR (CHIP TYPE)
BLOCK, CHIP 100KX8
RESISTOR (CHIP TYPE)

RB21
RB22
RB23
RB24
RB25

1-236-907-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

s
s
s
s
s

RESISTOR
NETWORK,
NETWORK,
NETWORK,
NETWORK,

BLOCK, CHIP 100KX4
RESISTOR (CHIP TYPE)
RESISTOR (CHIP TYPE)
RESISTOR (CHIP TYPE)
RESISTOR (CHIP TYPE)

RB26
RB27
RB28
RB29
RB48

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

RB49
RB50
RB51

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

5-20

RESISTOR (CHIP TYPE)
RESISTOR (CHIP TYPE)
RESISTOR (CHIP TYPE)
RESISTOR (CHIP TYPE)
BLOCK, CHIP 100KX4

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

CHIP
CHIP
CHIP
CHIP
CHIP

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

5K
5K
5K
10k
10k

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

SP Description

1pc
1pc
1pc
6pcs

A-8269-362-A
3-692-128-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, DA-88
PANEL,DA-88 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-215-21
1-135-160-21
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C6
C7
C8
C9
C10

1-135-160-21
1-164-156-11
1-162-923-11
1-165-176-11
1-135-160-21

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 47PF 5% 50V
CERAMIC, CHIP 0.047uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-135-177-21
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C16
C17
C18
C19
C20

1-135-216-11
1-135-216-11
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C21
C23
C24
C25
C26

1-162-915-11
1-164-156-11
1-164-156-11
1-135-215-21
1-135-216-11

s
s
s
s
s

CERAMIC, CHIP 10PF 5PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V

C27
C28
C29
C30
C31

1-135-216-11
1-135-216-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C32
C33
C34
C35
C36

1-164-156-11
1-162-970-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C37
C38
C39
C40
C41

1-164-156-11
1-164-156-11
1-162-970-11
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C42
C43
C44
C45
C46

1-164-156-11
1-164-156-11
1-164-156-11
1-162-919-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

C47
C48
C49
C50
C51

1-164-156-11
1-162-913-11
1-162-907-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 8PF 0.5PF 50V
CERAMIC, CHIP 2PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C52
C53
C54
C55
C56

1-164-156-11
1-164-156-11
1-135-215-21
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

25V
25V
25V
22PF 5% 50V
0.01uF 10% 25V

BVP-550
BVP-550P

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C57
C58
C59
C61
C64

1-135-177-21
1-135-177-21
1-164-315-11
1-135-216-11
1-162-905-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 470PF 5% 50V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 1PF 0.25PF 50V

C132
C133
C134
C136
C137

1-162-905-11
1-162-915-11
1-162-921-11
1-162-915-11
1-162-921-11

s
s
s
s
s

CERAMIC 1PF 0.25PF
CERAMIC, CHIP 10PF
CERAMIC, CHIP 33PF
CERAMIC, CHIP 10PF
CERAMIC, CHIP 33PF

C65
C66
C67
C68
C69

1-162-915-11
1-162-921-11
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF

C138
C140
C141
C142
C143

1-162-970-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C70
C71
C72
C73
C74

1-162-913-11
1-162-907-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 8PF 0.5PF 50V
CERAMIC, CHIP 2PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C144
C145
C146
C147
C148

1-135-215-21
1-162-907-11
1-135-177-21
1-135-177-21
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C75
C76
C77
C81
C82

1-164-156-11
1-135-162-21
1-135-215-21
1-162-970-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V

C149
C150
C151
C154
C155

1-135-177-21
1-164-156-11
1-135-215-21
1-162-905-11
1-162-915-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 1PF 0.25PF 50V
CERAMIC, CHIP 10PF 5PF 50V

C83
C84
C85
C87
C88

1-135-215-21
1-162-970-11
1-162-918-11
1-162-905-11
1-162-921-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 18PF 5% 50V
CERAMIC 1PF 0.25PF 50V
CERAMIC, CHIP 33PF 5% 50V

C166
C167
C169
C170
C171

1-135-216-11
1-164-156-11
1-135-215-21
1-135-215-21
1-135-215-21

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V

C89
C90
C92
C93
C95

1-162-919-11
1-162-911-11
1-164-156-11
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 22PF 5% 50V
CERAMIC, CHIP 6PF 50V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C172
C200
C201
C202
C203

1-135-215-21
1-164-156-11
1-164-156-11
1-135-215-21
1-162-907-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V

C96
C97
C98
C99
C100

1-164-156-11
1-164-156-11
1-164-156-11
1-135-215-21
1-162-907-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V

C204
C205
C206
C207
C208

1-164-156-11
1-162-907-11
1-135-215-21
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C101
C102
C103
C104
C105

1-135-177-21
1-135-177-21
1-135-177-21
1-135-177-21
1-164-315-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
CERAMIC 470PF 5% 50V

C209
C210
C211
C213
C214

1-164-156-11
1-135-215-21
1-164-156-11
1-162-909-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 0.1uF 25V

C106
C107
C109
C110
C113

1-164-156-11
1-135-215-21
1-164-156-11
1-135-160-21
1-162-905-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 1PF 0.25PF 50V

C215
C216
C217
C218
C219

1-135-215-21
1-164-156-11
1-135-215-21
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C114
C115
C118
C119
C120

1-162-915-11
1-162-921-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C220
C221
C222
C223
C225

1-164-156-11
1-164-156-11
1-164-156-11
1-162-915-11
1-162-915-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

C121
C122
C123
C124
C125

1-164-156-11
1-135-215-21
1-162-907-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C226
C228
C229
C230
C231

1-162-915-11
1-135-160-21
1-162-908-11
1-162-908-11
1-162-908-11

s
s
s
s
s

CERAMIC, CHIP 10PF 5PF 50V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 3PF 0.25PF 50V
CERAMIC 3PF 0.25PF 50V
CERAMIC 3PF 0.25PF 50V

C126
C127
C128
C129

1-135-177-21
1-135-177-21
1-164-156-11
1-135-215-21

s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C500

1-162-905-11 s CERAMIC 1PF 0.25PF 50V

D1
D2

8-719-029-63 s DIODE RD4.3UH-T1
8-719-029-63 s DIODE RD4.3UH-T1

BVP-550
BVP-550P

10PF 5PF 50V
33PF 5% 50V
0.01uF 10% 25V
25V
25V

25V
25V
25V
25V

10PF 5PF 50V
33PF 5% 50V
25V
25V
25V

50V
5PF 50V
5% 50V
5PF 50V
5% 50V

0.01uF 10% 25V
25V
25V
25V
25V

25V
25V
25V
10PF 5PF 50V
10PF 5PF 50V

5-21

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

D3
D5
D6
D7
D9

8-719-029-63
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
1SS302
1SS302
1SS302
1SS302

IC100
IC101
IC102
IC103
IC104

8-759-058-62
8-759-058-58
8-759-082-59
8-759-058-64
8-759-058-54

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S08FU(TE85R)
TC7S04FU(TE85R)
TC7W32FU
TC7S32FU(TE85R)
TC7S00FU(TE85R)

D10
D11
D12
D13
D14

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

IC105
IC106
IC107
IC108
IC109

8-759-058-64
8-759-058-62
8-759-196-96
8-759-058-54
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S32FU(TE85R)
TC7S08FU(TE85R)
TC7SH08FU-TE85R
TC7S00FU(TE85R)
TC7S08FU(TE85R)

D15
D16
D17
D24
D25

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

IC110

8-759-058-58 s IC TC7S04FU(TE85R)

JR1
JR2
JR3
JR4

1-216-864-11
1-216-864-11
1-216-864-11
1-216-864-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

D26
D100
D101
D102

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302

FL1
FL2
FL3
FL4
FL5

1-239-754-11
1-239-753-11
1-233-240-21
1-239-753-11
1-233-240-21

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

L1
L2
L3
L4
L5

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

FL6
FL7
FL8

1-239-754-11 s FILTER, LOW PASS
1-239-754-11 s FILTER, LOW PASS
1-239-754-11 s FILTER, LOW PASS

L6
L7
L8
L9
L10

1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH

IC1
IC2
IC3
IC4
IC5

8-759-066-68
8-759-076-06
8-759-632-39
8-752-360-44
8-752-360-44

s
s
s
s
s

IC
IC
IC
IC
IC

REF-03GS
TL064CPW
M51958A-T1
CXK1203AR
CXK1203AR

L11
L12
L13
L14
L15

1-410-385-11
1-410-392-11
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 82uH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH

IC6
IC7
IC8
IC9
IC10

8-752-360-44
8-752-363-60
8-759-079-46
8-759-058-54
8-759-086-42

s
s
s
s
s

IC
IC
IC
IC
IC

CXK1203AR
CXD2307R-T4
TC74VHC00FS(EL)
TC7S00FU(TE85R)
X24C02S-3.0-C7000

L16
L17
L18
L19
L20

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

IC11
IC12
IC13
IC14
IC15

8-759-058-58
8-759-058-62
8-759-237-79
8-759-064-36
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S04FU(TE85R)
TC7S08FU(TE85R)
TC74HC595AF(EL)
MB88346BPFV
TC4W53FU

L21
L22
L23
L24
L25

1-410-737-31
1-410-737-31
1-410-737-31
1-410-389-31
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 47uH
INDUCTOR, CHIP 22uH

IC16
IC17
IC18
IC19
IC20

8-759-981-48
8-759-082-61
8-759-082-61
8-759-079-85
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TL082M
TC4W53FU
TC4W53FU
TC74VHC244FS(EL)
TC4W53FU

Q1
Q2
Q3
Q4
Q7

8-729-141-48
8-729-141-75
8-729-141-75
8-729-117-73
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SD596DV345
2SD596DV345
2SC4178-F14
2SC4177

IC23
IC24
IC25
IC26
IC27

8-759-359-65
8-759-082-61
8-759-089-61
8-759-066-59
8-759-359-65

s
s
s
s
s

IC
IC
IC
IC
IC

TL084CPW-E05
TC4W53FU
TC74HC4052AFS(EL)
TC74HC4053AFS
TL084CPW-E05

Q8
Q9
Q10
Q11
Q12

8-729-117-16
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

IC28
IC29
IC34
IC35
IC36

8-759-089-61
8-759-082-61
8-759-271-86
8-759-180-08
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

TC74HC4052AFS(EL)
TC4W53FU
TC7SH04FU
TC74HC4538AFS
TC74HC595AF(EL)

Q13
Q14
Q15
Q16
Q17

8-729-122-63
8-729-122-63
8-729-122-63
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SA1226
2SC4177
2SA1226

IC37

8-759-082-59 s IC TC7W32FU

Q18
Q19
Q20

8-729-142-90 s TRANSISTOR 2SK853-K5
8-729-403-32 s TRANSISTOR XN6534
8-729-920-48 s TRANSISTOR IMH2

5-22

LOW
LOW
LOW
LOW
LOW

PASS
PASS
PASS
PASS
PASS

CHIP
CHIP
CHIP
CHIP

0
0
0
0

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W

0.47UH
0.47UH
0.47UH
0.47UH
0.47UH

0.47UH
0.47UH
0.47UH
0.47UH
0.47UH

BVP-550
BVP-550P

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

Q22
Q23
Q25
Q26
Q27

8-729-122-63
8-729-102-08
8-729-117-32
8-729-117-16
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SC2223-F14
2SC4177
2SA1611-M6
2SC4178-F14

Q28
Q29
Q30
Q32
Q33

8-729-117-73
8-729-117-73
8-729-117-73
8-729-122-63
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1226
2SC2223-F14

Q34
Q43
Q44
Q45
Q46

8-729-102-08
8-729-403-32
8-729-102-08
8-729-117-16
8-729-920-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
XN6534
2SC2223-F14
2SA1611-M6
IMH2

Q47
Q48
Q49
Q50
Q51

8-729-117-32
8-729-117-73
8-729-122-63
8-729-122-63
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SA1226
2SA1226
2SA1226

Q52
Q53
Q54
Q59
Q63

8-729-117-32
8-729-122-63
8-729-142-90
8-729-403-32
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SK853-K5
XN6534
2SC2223-F14

Q67
Q68
Q69
Q70
Q71

8-729-117-73
8-729-122-63
8-729-122-63
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1226
2SA1226
2SC4177
2SA1226

Q72
Q73
Q75
Q79
Q83

8-729-142-90
8-729-122-63
8-729-403-32
8-729-102-08
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SK853-K5
2SA1226
XN6534
2SC2223-F14
2SC4177

Q84
Q85
Q86
Q87
Q88

8-729-117-16
8-729-117-73
8-729-122-63
8-729-122-63
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4178-F14
2SA1226
2SA1226
2SA1226

Q89
Q90
Q91
Q92
Q94

8-729-117-32
8-729-122-63
8-729-142-90
8-729-122-63
8-729-403-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SK853-K5
2SA1226
XN6534

Q98
Q100
Q101
Q102
Q103

8-729-102-08
8-729-403-32
8-729-102-08
8-729-122-63
8-729-403-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
XN6534
2SC2223-F14
2SA1226
XN6534

Q104
Q105
Q106
Q107
Q108

8-729-102-08
8-729-029-14
8-729-029-14
8-729-102-08
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
DTC144EUA-T106
DTC144EUA-T106
2SC2223-F14
2SC2223-F14

Q109
Q110
Q111
Q112

8-729-102-08
8-729-102-08
8-729-102-08
8-729-102-08

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
2SC2223-F14
2SC2223-F14
2SC2223-F14

BVP-550
BVP-550P

SP Description

Q113
Q114
Q115
Q117

8-729-102-08
8-729-102-08
8-729-102-08
8-729-122-63

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
2SC2223-F14
2SC2223-F14
2SA1226

R1
R2
R3
R4
R5

1-216-864-11
1-216-845-11
1-216-821-11
1-218-677-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W

R6
R7
R8
R9
R10

1-218-724-11
1-216-821-11
1-216-809-11
1-216-864-11
1-218-724-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

R11
R12
R13
R14
R15

1-218-724-11
1-218-729-11
1-216-864-11
1-218-723-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R16
R17
R18
R19
R20

1-216-821-11
1-218-676-11
1-218-698-11
1-218-676-11
1-216-805-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R21
R22
R23
R24
R25

1-218-704-11
1-216-805-11
1-220-158-91
1-216-809-11
1-216-832-11

s
s
s
s
s

METAL 3.3K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 8.2K 5% 1/16W

R26
R33
R34
R35
R36

1-216-803-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R37
R38
R39
R40
R41

1-216-845-11
1-216-845-11
1-218-676-11
1-218-676-11
1-218-676-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 220 0.50% 1/16W
METAL 220 0.50% 1/16W

R42
R43
R44
R45
R46

1-218-704-11
1-218-704-11
1-218-704-11
1-218-883-11
1-218-724-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
33K 0.50% 1/16W
METAL 22K 5% 1/16W

R47
R48
R49
R50
R51

1-218-730-11
1-218-883-11
1-218-724-11
1-218-730-11
1-218-883-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
METAL

METAL 39K
33K 0.50%
METAL 22K
METAL 39K
33K 0.50%

R52
R53
R54
R56
R57

1-218-724-11
1-218-730-11
1-216-797-11
1-216-857-11
1-218-676-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
CHIP, METAL 39K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 220 0.50% 1/16W

R58
R59
R60
R61
R62

1-218-692-11
1-216-805-11
1-216-805-11
1-216-829-11
1-216-829-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

22K 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
0 5% 1/16W
22K 5% 1/16W

33 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

0.50% 1/16W
1/16W
5% 1/16W
0.50% 1/16W
1/16W

1K 0.50% 1/16W
47 5% 1/16W
47 5% 1/16W
4.7K 5% 1/16W
4.7K 5% 1/16W

5-23

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R63
R64
R65
R66
R67

1-218-692-11
1-218-708-11
1-218-692-11
1-216-805-11
1-218-708-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 4.7K 0.50% 1/16W

R127
R128
R129
R130
R131

1-216-845-11
1-216-832-11
1-216-830-11
1-216-832-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R68
R69
R70
R71
R72

1-218-692-11
1-216-805-11
1-220-158-91
1-220-158-91
1-216-805-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R135
R136
R137
R142
R145

1-216-833-11
1-216-833-11
1-216-833-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R73
R74
R75
R76
R77

1-216-829-11
1-218-856-11
1-218-710-11
1-218-708-11
1-218-705-11

s
s
s
s
s

METAL, CHIP 4.7K
CHIP, METAL 2.4K
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%

R146
R147
R148
R149
R150

1-218-676-11
1-218-710-11
1-218-706-11
1-218-694-11
1-218-700-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
METAL

220 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 1.2K 0.50% 1/16W
2.2K 0.50% 1/16W

R78
R79
R80
R81
R82

1-218-700-11
1-218-705-11
1-218-708-11
1-216-809-11
1-216-845-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R151
R152
R153
R154
R155

1-218-702-11
1-218-692-11
1-218-700-11
1-218-700-11
1-211-990-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 2.7K 0.50% 1/16W
METAL 1K 0.50% 1/16W
2.2K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 75 0.50% 1/16W

R83
R84
R85
R87
R88

1-216-845-11
1-218-708-11
1-218-724-11
1-218-702-11
1-218-724-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R156
R157
R158
R159
R160

1-216-845-11
1-216-809-11
1-216-864-11
1-218-698-11
1-218-676-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W

R89
R90
R91
R92
R93

1-218-706-11
1-218-710-11
1-218-700-11
1-216-837-11
1-216-845-11

s
s
s
s
s

METAL 3.9K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL, CHIP 22K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R161
R162
R163
R164
R165

1-220-158-91
1-216-805-11
1-216-829-11
1-218-672-11
1-218-710-11

s
s
s
s
s

CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R94
R95
R96
R97
R98

1-218-708-11
1-218-858-11
1-218-699-11
1-218-668-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R166
R167
R168
R169
R170

1-218-708-11
1-218-705-11
1-218-700-11
1-218-858-11
1-218-705-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
METAL

R99
R100
R101
R102
R103

1-216-825-11
1-216-830-11
1-218-720-11
1-218-716-11
1-218-725-11

s
s
s
s
s

METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
METAL 15K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 24K 0.50% 1/16W

R171
R172
R173
R174
R175

1-216-845-11
1-216-809-11
1-216-845-11
1-218-708-11
1-218-724-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R105
R106
R107
R108
R110

1-216-845-11
1-216-845-11
1-216-809-11
1-216-809-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R177
R178
R184
R185
R186

1-218-867-11
1-218-724-11
1-218-828-11
1-218-648-11
1-218-661-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

R111
R112
R113
R114
R115

1-216-805-11
1-216-829-11
1-216-829-11
1-218-692-11
1-218-708-11

s
s
s
s
s

METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R187
R188
R190
R191
R192

1-211-990-11
1-218-702-11
1-216-829-11
1-218-700-11
1-218-710-11

s
s
s
s
s

CHIP, METAL 75 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 2.2K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R116
R117
R118
R119
R120

1-218-692-11
1-218-708-11
1-218-846-11
1-218-692-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 910 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R193
R194
R195
R196
R197

1-218-706-11
1-218-700-11
1-218-702-11
1-218-720-11
1-218-740-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

3.9K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
15K 0.50% 1/16W
100K 0.50% 1/16W

R121
R122
R123
R124

1-216-805-11
1-220-158-91
1-220-158-91
1-216-805-11

s
s
s
s

METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R198
R199
R200
R201

1-218-858-11
1-211-990-11
1-218-668-11
1-218-668-11

s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL

5-24

5% 1/16W
0.50% 1/16W
0.50% 1/16W
1/16W
1/16W

4.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
47 5% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

100K
8.2K
5.6K
8.2K
4.7K

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

4.7K 0.50% 1/16W
3.6K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 3K 0.50% 1/16W
3.6K 0.50% 1/16W

METAL 6.8K 0.50% 1/16W
METAL 22K 5% 1/16W
160 0.50% 1/16W
15 0.50% 1/16W
METAL 51 0.50% 1/16W

3K 0.50% 1/16W
75 0.50% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W

BVP-550
BVP-550P

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R202
R205
R206
R207
R208

1-218-668-11
1-218-699-11
1-218-732-11
1-218-725-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL 47K 0.50% 1/16W
METAL 24K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R267
R268
R269
R270
R271

1-218-700-11
1-218-858-11
1-218-705-11
1-216-845-11
1-216-809-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W

R209
R210
R211
R212
R213

1-218-698-11
1-218-676-11
1-220-158-91
1-216-805-11
1-216-829-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R272
R273
R274
R275
R276

1-216-845-11
1-218-841-11
1-218-697-11
1-218-672-11
1-218-864-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
CHIP, METAL 560 0.50% 1/16W
METAL 1.6K 0.50% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 5.1K 0.50% 1/16W

R214
R215
R216
R217
R218

1-216-864-11
1-218-710-11
1-218-708-11
1-218-705-11
1-218-700-11

s
s
s
s
s

METAL, CHIP 0 5%
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%
METAL 2.2K 0.50%

R277
R278
R280
R281
R282

1-218-675-11
1-216-829-11
1-218-672-11
1-218-867-11
1-218-706-11

s
s
s
s
s

CHIP, METAL 200 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.9K 0.50% 1/16W

R219
R220
R221
R222
R223

1-218-858-11
1-218-705-11
1-216-845-11
1-216-809-11
1-216-845-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R283
R284
R285
R288
R289

1-218-710-11
1-218-700-11
1-218-702-11
1-218-858-11
1-211-990-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 5.6K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 75 0.50% 1/16W

R224
R225
R226
R227
R228

1-218-841-11
1-218-697-11
1-218-672-11
1-218-864-11
1-218-675-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
CHIP,

METAL 560 0.50% 1/16W
1.6K 0.50% 1/16W
150 0.50% 1/16W
METAL 5.1K 0.50% 1/16W
METAL 200 0.50% 1/16W

R290
R293
R294
R295
R300

1-218-668-11
1-218-714-11
1-218-724-11
1-218-732-11
1-218-868-11

s
s
s
s
s

CHIP,
METAL
CHIP,
METAL
CHIP,

METAL 100 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 22K 5% 1/16W
47K 0.50% 1/16W
METAL 7.5K 0.50% 1/16W

R229
R231
R232
R233
R234

1-216-829-11
1-218-829-11
1-218-867-11
1-218-706-11
1-218-710-11

s
s
s
s
s

METAL, CHIP 4.7K 5% 1/16W
CHIP, METAL 180 0.50% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.9K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R301
R302
R303
R304
R305

1-218-698-11
1-218-708-11
1-218-851-11
1-218-675-11
1-218-725-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

1.8K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 200 0.50% 1/16W
24K 0.50% 1/16W

R235
R236
R239
R240
R241

1-218-700-11
1-218-702-11
1-218-858-11
1-211-990-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R306
R307
R308
R309
R310

1-216-832-11
1-218-868-11
1-218-698-11
1-218-706-11
1-216-826-11

s
s
s
s
s

METAL, CHIP 8.2K
CHIP, METAL 7.5K
METAL 1.8K 0.50%
METAL 3.9K 0.50%
METAL, CHIP 2.7K

5% 1/16W
0.50% 1/16W
1/16W
1/16W
5% 1/16W

R242
R243
R244
R246
R247

1-218-668-11
1-218-668-11
1-216-845-11
1-218-729-11
1-218-724-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

100 0.50% 1/16W
100 0.50% 1/16W
100K 5% 1/16W
36K 0.50% 1/16W
22K 5% 1/16W

R311
R312
R313
R314
R315

1-216-864-11
1-218-704-11
1-216-829-11
1-216-829-11
1-216-829-11

s
s
s
s
s

METAL, CHIP 0 5%
METAL 3.3K 0.50%
METAL, CHIP 4.7K
METAL, CHIP 4.7K
METAL, CHIP 4.7K

1/16W
1/16W
5% 1/16W
5% 1/16W
5% 1/16W

R248
R249
R250
R251
R252

1-218-732-11
1-218-699-11
1-218-668-11
1-218-668-11
1-216-825-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R316
R317
R318
R320
R321

1-216-829-11
1-216-829-11
1-216-829-11
1-216-829-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

5%
5%
5%
5%
5%

R253
R254
R255
R256
R257

1-216-830-11
1-218-873-11
1-218-716-11
1-218-725-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 5.6K 5% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 24K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R322
R323
R324
R325
R326

1-216-829-11
1-216-864-11
1-216-864-11
1-216-864-11
1-218-692-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

R258
R259
R260
R261
R262

1-218-698-11
1-218-676-11
1-220-158-91
1-216-805-11
1-216-829-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R327
R328
R330
R331
R332

1-218-692-11
1-218-708-11
1-216-864-11
1-218-724-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL 33K 0.50% 1/16W

R263
R264
R265
R266

1-216-864-11
1-218-710-11
1-218-708-11
1-218-705-11

s
s
s
s

METAL, CHIP 0 5%
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%

R333
R334
R335
R336

1-216-821-11
1-216-821-11
1-216-821-11
1-218-727-11

s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 30K 0.50% 1/16W

BVP-550
BVP-550P

1/16W
0.50% 1/16W
1/16W
1/16W
1/16W

2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 100 0.50% 1/16W

1/16W
0.50% 1/16W
1/16W
1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

4.7K
4.7K
4.7K
4.7K
4.7K

1/16W
1/16W
1/16W
1/16W
1/16W

4.7K 5% 1/16W
0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
1K 0.50% 1/16W

5-25

-----------IF-510 BOARD
-----------Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R337
R357
R358
R361
R362

1-216-821-11
1-218-680-11
1-218-672-11
1-218-856-11
1-218-856-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 330 0.50% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W

R363
R364
R365
R366
R367

1-216-809-11
1-216-849-11
1-216-849-11
1-216-845-11
1-218-700-11

s
s
s
s
s

METAL, CHIP 100 5% 1/16W
METAL, CHIP 220K 5% 1/16W
METAL, CHIP 220K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 2.2K 0.50% 1/16W

R368
R369
R370
R371
R372

1-218-692-11
1-218-829-11
1-218-856-11
1-216-797-11
1-218-856-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R373
R374
R375
R376
R378

1-218-856-11
1-216-797-11
1-218-856-11
1-218-727-11
1-218-664-11

s
s
s
s
s

CHIP, METAL 2.4K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 68 0.50% 1/16W

R379
R380

1-218-727-11 s METAL 30K 0.50% 1/16W
1-218-655-91 s CHIP, METAL 30 0.50% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-309-11
1-239-309-11
1-239-309-11
1-236-908-11
1-236-908-11

RB6
RB7

1-236-906-11 s NETWORK RESISTOR (CHIP) 15K
1-236-906-11 s NETWORK RESISTOR (CHIP) 15K

5-26

s
s
s
s
s

1K 0.50% 1/16W
180 0.50% 1/16W
2.4K 0.50% 1/16W
10 5% 1/16W
2.4K 0.50% 1/16W

RESISTOR BLOCK, CHIP 100KX8
RESISTOR BLOCK, CHIP 100KX8
RESISTOR BLOCK, CHIP 100KX8
RESISTOR, NETWORK, CHIP 10k
RESISTOR, NETWORK, CHIP 10k

SP Description

1pc
1pc
1pc
6pcs

A-8269-363-A
3-692-129-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, IF-510
PANEL,IF-510 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C10
C11
C12
C13
C14

1-104-913-11
1-135-160-21
1-164-156-11
1-135-208-11
1-135-165-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 10% 16V

C15
C16
C17
C20
C21

1-164-156-11
1-164-156-11
1-164-156-11
1-135-160-21
1-135-160-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V

C22
C23
C24
C25
C26

1-164-156-11
1-135-208-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C30
C31
C32
C33
C34

1-104-851-11
1-104-851-11
1-164-156-11
1-135-208-11
1-104-911-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 20% 10V

C35
C36
C101
C102
C103

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-907-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

C104
C105
C150
C151
C152

1-104-914-11
1-104-914-11
1-164-156-11
1-135-160-21
1-164-156-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C153
C154
C155
C201
C202

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C203
C204
C205
C206
C221

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-104-914-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V

C222
C223
C224
C225
C226

1-164-156-11
1-162-927-11
1-162-907-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 100PF 5% 50V
CERAMIC, CHIP 2PF 50V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C250
C252
C253
C254
C300

1-104-851-11
1-163-097-00
1-163-135-00
1-102-965-00
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 15PF 5% 50V
CERAMIC 560PF 5% 50V
CERAMIC 39PF 5% 50V
CERAMIC 0.1uF 25V

C301
C303
C307
C308
C309

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
2PF 50V

25V
25V
25V
25V
25V

25V
25V
25V
25V
25V

BVP-550
BVP-550P

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
SP Description

Ref. No.
or Q'ty Part No.

SP Description

C311
C312
C313
C315
C320

1-164-156-11
1-164-156-11
1-104-914-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C606
C621
C622
C623
C624

1-104-914-11
1-164-156-11
1-164-156-11
1-162-907-11
1-162-927-11

s
s
s
s
s

TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V
CERAMIC, CHIP 100PF 5% 50V

C321
C322
C350
C351
C352

1-164-156-11
1-164-156-11
1-104-913-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C625
C626
C641
C642
C643

1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11
1-162-907-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V

C353
C400
C401
C402
C403

1-164-156-11
1-162-905-11
1-104-914-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C644
C645
C646
C701
C702

1-162-927-11
1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C404
C405
C406
C407
C408

1-164-156-11
1-104-914-11
1-104-910-11
1-162-905-11
1-104-914-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V

C703
C704
C705
C706
C707

1-164-156-11
1-126-396-11
1-126-396-11
1-104-851-11
1-162-915-11

s
s
s
s
s

CERAMIC 0.1uF 25V
ELECT, CHIP 47uF 20% 16V
ELECT, CHIP 47uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC, CHIP 10PF 5PF 50V

C409
C410
C411
C412
C413

1-104-914-11
1-164-156-11
1-164-156-11
1-104-914-11
1-104-910-11

s
s
s
s
s

TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V

D11
D21
D31
D101
D250

8-719-029-63
8-719-029-63
8-719-029-57
8-719-820-41
8-719-948-47

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD2.4UH-T1
1SS302
HSM88AS

C414
C415
C416
C417
C418

1-162-905-11
1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

D400
D401
D402
D500

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302

C419
C420
C421
C422
C502

1-104-914-11
1-104-910-11
1-162-919-11
1-164-156-11
1-162-909-11

s
s
s
s
s

TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 22PF 5% 50V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V

IC12
IC101
IC151
IC152
IC153

8-759-076-06
8-759-082-61
8-759-925-76
8-759-082-55
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
SN74HC08ANS
TC7W00FU
TC74HC595AF(EL)

C503
C504
C505
C508
C509

1-162-909-11
1-104-914-11
1-104-910-11
1-162-909-11
1-162-909-11

s
s
s
s
s

CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC 4PF 0.25PF 50V
CERAMIC 4PF 0.25PF 50V

IC154
IC155
IC200
IC201
IC202

8-759-082-58
8-759-086-42
8-759-082-61
8-759-089-61
8-759-089-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
X24C02S-3.0-C7000
TC4W53FU
TC74HC4052AFS(EL)
TC74HC4052AFS(EL)

C510
C511
C513
C514
C515

1-104-914-11
1-104-910-11
1-162-915-11
1-162-911-11
1-162-909-11

s
s
s
s
s

TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 10PF 5PF 50V
CERAMIC, CHIP 6PF 50V
CERAMIC 4PF 0.25PF 50V

IC206
IC301
IC302
IC303
IC304

8-759-054-61
8-759-254-49
8-759-925-90
8-759-925-90
8-759-082-59

s
s
s
s
s

IC
IC
IC
IC
IC

CLC505AJE
EL4581CS-TE2
SN74HC74ANS
SN74HC74ANS
TC7W32FU

C516
C517
C518
C519
C520

1-104-914-11
1-104-910-11
1-162-915-11
1-135-070-00
1-104-914-11

s
s
s
s
s

TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 10PF 5PF 50V
TANTALUM, CHIP 0.1uF 10% 35V
TANTAL 22uF 20% 16V

IC305
IC306
IC307
IC308
IC309

8-759-925-90
8-759-082-57
8-759-082-58
8-759-058-62
8-759-082-59

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HC74ANS
TC7W04FU
TC7W08FU
TC7S08FU(TE85R)
TC7W32FU

C521
C522
C524
C525
C601

1-104-914-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC310
IC322
IC351
IC352
IC400

8-759-082-58
8-759-032-01
8-759-925-90
8-759-058-58
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
MC74HC00AF
SN74HC74ANS
TC7S04FU(TE85R)
TC4W53FU

C602
C603
C604
C605

1-164-156-11
1-162-907-11
1-162-927-11
1-104-914-11

s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V
CERAMIC, CHIP 100PF 5% 50V
TANTAL 22uF 20% 16V

IC404
IC410
IC420
IC500
IC501

8-759-209-57
8-759-082-61
8-759-082-61
8-759-066-59
8-759-981-48

s
s
s
s
s

IC
IC
IC
IC
IC

TC4S69F
TC4W53FU
TC4W53FU
TC74HC4053AFS
TL082M

BVP-550
BVP-550P

5-27

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

IC502
IC601
IC621
IC641
IC701

8-759-082-58
8-759-054-61
8-759-054-61
8-759-054-61
8-759-988-13

IC702

8-759-195-81 s IC TC7S86FU

L1
L2
L3
L150
L201

1-410-737-31
1-410-737-31
1-410-737-31
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

0.47UH
0.47UH
0.47UH
1UH
1UH

L202
L203
L301
L400
L401

1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

1UH
1UH
1UH
1UH
1UH

L402
L500
L501
L502
L601

1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

1UH
1UH
1UH
1UH
1UH

L602
L603
L700

1-410-369-11 s INDUCTOR CHIP 1UH
1-410-369-11 s INDUCTOR CHIP 1UH
1-410-369-11 s INDUCTOR CHIP 1UH

Q1
Q2
Q10
Q20
Q30

8-729-117-16
8-729-117-32
8-729-141-48
8-729-141-75
8-729-141-75

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SB624-BV345
2SD596DV345
2SD596DV345

Q101
Q102
Q103
Q109
Q110

8-729-122-63
8-729-122-63
8-729-122-63
8-729-117-16
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SA1226
2SA1611-M6
2SC4177

Q205
Q206
Q207
Q208
Q209

8-729-117-16
8-729-117-32
8-729-117-16
8-729-117-32
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SA1611-M6
2SC4177
2SA1611-M6

Q210
Q211
Q250
Q251
Q271

8-729-117-16
8-729-117-32
8-729-117-32
8-729-117-16
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SC4177
2SA1611-M6
2SA1611-M6

Q272
Q273
Q352
Q353
Q354

8-729-117-16
8-729-117-16
8-729-920-48
8-729-920-48
8-729-028-91

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1611-M6
IMH2
IMH2
DTA144EUA-T106

Q401
Q402
Q403
Q404
Q405

8-729-117-16
8-729-117-32
8-729-026-32
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
XP6534
2SC4178-F14
2SA1611-M6

Q406
Q410
Q411
Q412

8-729-117-32
8-729-026-32
8-729-117-73
8-729-117-16

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
XP6534
2SC4178-F14
2SA1611-M6

5-28

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
CLC505AJE
CLC505AJE
CLC505AJE
LM393PS

SP Description

Q413
Q414
Q420
Q421
Q422

8-729-117-16
8-729-117-32
8-729-026-32
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
XP6534
2SC4178-F14
2SA1611-M6

Q423
Q424
Q430
Q431
Q500

8-729-117-16
8-729-117-32
8-729-117-16
8-729-117-32
8-729-026-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SA1611-M6
2SC4177
XP6534

Q501
Q502
Q503
Q504
Q505

8-729-122-63
8-729-102-08
8-729-026-32
8-729-122-63
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SC2223-F14
XP6534
2SA1226
2SC2223-F14

Q506
Q507
Q508
Q509
Q510

8-729-026-32
8-729-122-63
8-729-102-08
8-729-117-16
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XP6534
2SA1226
2SC2223-F14
2SA1611-M6
2SC4177

Q701
Q702
Q703

8-729-230-49 s TRANSISTOR 2SC2712-YG
8-729-800-37 s TRANSISTOR 2SD1048-X7
8-729-141-48 s TRANSISTOR 2SB624-BV345

R1
R2
R8
R9
R10

1-218-867-11
1-218-704-11
1-218-748-11
1-218-748-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
METAL

R13
R14
R15
R23
R24

1-218-677-11
1-218-723-11
1-218-724-11
1-216-864-11
1-218-723-11

s
s
s
s
s

CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 20K 0.50% 1/16W

R25
R33
R34
R35
R100

1-218-723-11
1-218-856-11
1-218-729-11
1-218-723-11
1-218-856-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

20K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 36K 0.50% 1/16W
20K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W

R101
R102
R103
R104
R105

1-218-708-11
1-218-710-11
1-218-840-11
1-218-858-11
1-218-840-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

4.7K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 510 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 510 0.50% 1/16W

R110
R111
R151
R152
R153

1-218-867-11
1-218-704-11
1-216-857-11
1-218-748-11
1-218-740-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W
CHIP, METAL 220K 0.50% 1/16W
METAL 100K 0.50% 1/16W

R154
R155
R156
R198
R199

1-218-668-11
1-218-668-11
1-218-668-11
1-216-857-11
1-216-857-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

R200
R201
R202
R203
R204

1-218-668-11
1-218-668-11
1-218-668-11
1-218-867-11
1-218-704-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
METAL

METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 220K 0.50% 1/16W
METAL 220K 0.50% 1/16W
10K 0.50% 1/16W

100 0.50% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W
1M 5% 1/16W
1M 5% 1/16W

METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W

BVP-550
BVP-550P

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R205
R206
R207
R208
R209

1-218-668-11
1-218-867-11
1-218-668-11
1-218-704-11
1-218-668-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 100 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 100 0.50% 1/16W

R401
R402
R403
R404
R405

1-218-867-11
1-218-704-11
1-218-836-11
1-218-858-11
1-218-729-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 360 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 36K 0.50% 1/16W

R210
R211
R212
R213
R214

1-218-867-11
1-218-668-11
1-218-867-11
1-218-704-11
1-218-668-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 6.8K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 100 0.50% 1/16W

R406
R407
R408
R409
R410

1-218-710-11
1-218-706-11
1-218-700-11
1-218-702-11
1-218-706-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
METAL

METAL 5.6K
3.9K 0.50%
2.2K 0.50%
METAL 2.7K
3.9K 0.50%

R221
R222
R224
R225
R226

1-218-692-11
1-218-724-11
1-211-981-11
1-218-845-11
1-218-688-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
METAL

METAL 1K 0.50% 1/16W
METAL 22K 5% 1/16W
METAL 33 0.50% 1/16W
METAL 820 0.50% 1/16W
680 0.50% 1/16W

R411
R412
R413
R414
R415

1-218-692-11
1-218-724-11
1-218-867-11
1-218-851-11
1-218-664-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R227
R228
R229
R230
R250

1-218-883-11
1-218-692-11
1-211-990-11
1-211-990-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

33K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 100 0.50% 1/16W

R416
R417
R418
R419
R420

1-218-672-11
1-218-856-11
1-218-710-11
1-218-706-11
1-218-700-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

150 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W
2.2K 0.50% 1/16W

R251
R252
R253
R254
R256

1-218-740-11
1-218-700-11
1-218-883-11
1-218-692-11
1-218-840-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

100K 0.50% 1/16W
2.2K 0.50% 1/16W
33K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 510 0.50% 1/16W

R421
R422
R423
R424
R425

1-218-702-11
1-218-706-11
1-218-867-11
1-218-692-11
1-218-867-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 2.7K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W

R257
R258
R259
R260
R263

1-218-706-11
1-218-842-11
1-218-840-11
1-216-295-11
1-216-857-11

s
s
s
s
s

METAL 3.9K 0.50% 1/16W
CHIP, METAL 620 0.50% 1/16W
CHIP, METAL 510 0.50% 1/16W
CHIP, CONDUCTOR 0
METAL, CHIP 1M 5% 1/16W

R426
R427
R428
R429
R430

1-218-851-11
1-218-664-11
1-218-672-11
1-218-856-11
1-218-710-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

METAL 1.5K 0.50% 1/16W
METAL 68 0.50% 1/16W
150 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W

R264
R271
R272
R273
R274

1-218-668-11
1-218-710-11
1-218-692-11
1-218-704-11
1-218-710-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 100 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 1K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W

R431
R432
R433
R434
R435

1-218-706-11
1-218-700-11
1-218-702-11
1-218-706-11
1-218-867-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

3.9K 0.50%
2.2K 0.50%
METAL 2.7K
3.9K 0.50%
METAL 6.8K

R275
R276
R277
R278
R279

1-218-692-11
1-218-867-11
1-218-710-11
1-218-692-11
1-218-867-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R436
R437
R438
R439
R440

1-218-692-11
1-218-867-11
1-218-851-11
1-218-664-11
1-218-668-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R310
R311
R315
R320
R321

1-218-668-11
1-218-708-11
1-216-855-11
1-218-668-11
1-218-668-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 680K 5% 1/16W
CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W

R441
R442
R443
R444
R445

1-218-714-11
1-218-668-11
1-218-692-11
1-218-867-11
1-218-700-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
METAL

8.2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
2.2K 0.50% 1/16W

R322
R323
R324
R325
R326

1-216-857-11
1-216-857-11
1-218-668-11
1-218-668-11
1-218-668-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
CHIP, METAL
CHIP, METAL
CHIP, METAL

1M 5% 1/16W
1M 5% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W

R446
R447
R448
R500
R501

1-218-700-11
1-218-700-11
1-211-969-11
1-216-864-11
1-216-864-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R327
R328
R329
R351
R352

1-218-668-11
1-216-857-11
1-216-857-11
1-218-716-11
1-218-724-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R502
R503
R504
R505
R506

1-216-864-11
1-218-858-11
1-216-864-11
1-218-698-11
1-218-671-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 1.8K 0.50% 1/16W
CHIP, METAL 130 0.50% 1/16W

R353
R354
R361
R400

1-218-692-11
1-216-857-11
1-216-864-11
1-218-668-11

s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
CHIP, METAL

R507
R508
R509
R510

1-218-851-11
1-218-698-11
1-218-694-11
1-218-698-11

s
s
s
s

CHIP,
METAL
CHIP,
METAL

BVP-550
BVP-550P

1K 0.50% 1/16W
6.8K 0.50% 1/16W
5.6K 0.50% 1/16W
1K 0.50% 1/16W
6.8K 0.50% 1/16W

1K 0.50% 1/16W
1M 5% 1/16W
0 5% 1/16W
100 0.50% 1/16W

0.50% 1/16W
1/16W
1/16W
0.50% 1/16W
1/16W

1K 0.50% 1/16W
22K 5% 1/16W
6.8K 0.50% 1/16W
1.5K 0.50% 1/16W
68 0.50% 1/16W

1/16W
1/16W
0.50% 1/16W
1/16W
0.50% 1/16W

1K 0.50% 1/16W
6.8K 0.50% 1/16W
1.5K 0.50% 1/16W
68 0.50% 1/16W
100 0.50% 1/16W

METAL 1.5K
1.8K 0.50%
METAL 1.2K
1.8K 0.50%

0.50% 1/16W
1/16W
0.50% 1/16W
1/16W

5-29

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R511
R512
R513
R514
R515

1-218-710-11
1-218-660-91
1-216-864-11
1-218-851-11
1-211-969-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

5.6K 0.50% 1/16W
47 0.50% 1/16W
0 5% 1/16W
1.5K 0.50% 1/16W
10 0.50% 1/16W

R641
R642
R643
R644
R645

1-218-699-11
1-218-699-11
1-216-864-11
1-218-680-11
1-218-692-11

s
s
s
s
s

CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

R516
R517
R518
R519
R520

1-218-858-11
1-216-864-11
1-218-851-11
1-218-650-11
1-218-698-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 1.5K 0.50% 1/16W
METAL, CHIP 18 0.50% 1/16
METAL 1.8K 0.50% 1/16W

R646
R647
R701
R702
R703

1-218-883-11
1-211-990-11
1-218-732-11
1-218-720-11
1-218-720-11

s
s
s
s
s

METAL
CHIP,
METAL
METAL
METAL

33K 0.50% 1/16W
METAL 75 0.50% 1/16W
47K 0.50% 1/16W
15K 0.50% 1/16W
15K 0.50% 1/16W

R521
R522
R523
R524
R525

1-218-851-11
1-218-694-11
1-218-698-11
1-218-710-11
1-218-660-91

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

R704
R705
R706
R707
R708

1-218-725-11
1-218-732-11
1-218-732-11
1-218-883-11
1-218-881-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

24K 0.50%
47K 0.50%
47K 0.50%
33K 0.50%
METAL 27K

1/16W
1/16W
1/16W
1/16W
0.50% 1/16W

R526
R527
R528
R529
R530

1-216-864-11
1-218-851-11
1-211-969-11
1-216-864-11
1-218-858-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

0 5% 1/16W
1.5K 0.50% 1/16W
10 0.50% 1/16W
0 5% 1/16W
3K 0.50% 1/16W

R709
R710
R711
R712
R713

1-216-631-11
1-216-631-11
1-216-631-11
1-216-631-11
1-216-631-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

150
150
150
150
150

1/10W
1/10W
1/10W
1/10W
1/10W

R531
R532
R533
R534
R535

1-218-698-11
1-218-694-11
1-218-846-11
1-211-992-11
1-218-840-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
CHIP, METAL 1.2K 0.50% 1/16W
CHIP, METAL 910 0.50% 1/16W
CHIP,METAL 91 0.50% 1/16W
CHIP, METAL 510 0.50% 1/16W

R714
R715
R716
R717
R718

1-216-631-11
1-218-727-11
1-218-716-11
1-218-668-11
1-216-857-11

s
s
s
s
s

METAL 150 0.50% 1/10W
METAL 30K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W

R536
R537
R538
R539
R540

1-218-699-11
1-218-664-11
1-218-698-11
1-218-660-91
1-218-710-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

METAL 2K 0.50% 1/16W
METAL 68 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 47 0.50% 1/16W
METAL 5.6K 0.50% 1/16W

R719
R721
R722

1-218-716-11 s METAL 10K 0.50% 1/16W
1-218-699-11 s CHIP, METAL 2K 0.50% 1/16W
1-218-692-11 s CHIP, METAL 1K 0.50% 1/16W

RV101

1-241-260-11 s METAL, ADJ 500

R541
R542
R543
R544
R545

1-218-851-11
1-211-969-11
1-218-867-11
1-218-692-11
1-218-704-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
METAL

METAL 1.5K 0.50% 1/16W
METAL 10 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 1K 0.50% 1/16W
3.3K 0.50% 1/16W

S1

1-572-272-11 s SWITCH, SLIDE

R546
R547
R548
R549
R550

1-218-668-11
1-218-668-11
1-218-716-11
1-218-740-11
1-218-740-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
METAL

METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
10K 0.50% 1/16W
100K 0.50% 1/16W
100K 0.50% 1/16W

R551
R552
R553
R554
R555

1-218-668-11
1-218-668-11
1-218-704-11
1-218-704-11
1-218-716-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
METAL

METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
10K 0.50% 1/16W

R601
R602
R603
R604
R605

1-218-699-11
1-218-698-11
1-218-670-11
1-218-680-11
1-218-692-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
CHIP,

METAL 2K 0.50% 1/16W
1.8K 0.50% 1/16W
120 0.50% 1/16W
330 0.50% 1/16W
METAL 1K 0.50% 1/16W

R606
R607
R621
R622
R623

1-218-883-11
1-211-990-11
1-218-699-11
1-218-699-11
1-218-648-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
METAL

33K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
15 0.50% 1/16W

R624
R625
R626
R627

1-218-680-11
1-218-692-11
1-218-883-11
1-211-990-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

330 0.50% 1/16W
METAL 1K 0.50% 1/16W
33K 0.50% 1/16W
METAL 75 0.50% 1/16W

5-30

METAL 1.5K 0.50% 1/16W
METAL 1.2K 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 47 0.50% 1/16W

0.50%
0.50%
0.50%
0.50%
0.50%

BVP-550
BVP-550P

-----------MB-602 BOARD
-----------Ref. No.
or Q'ty Part No.

(MB-602 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
15pcs

A-8269-358-A o MOUNTED CIRCUIT BOARD, MB-602
3-729-061-01 s SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C6
C7
C8
C9
C10

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C16
C17
C18
C19
C20

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C21
C22
C23
C24
C25

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C26
C27
C28
C29
C30

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C31

1-164-156-11 s CERAMIC 0.1uF 25V

CN7
CN11
CN12
CN13
CN14

1-569-629-11
1-569-532-11
1-569-532-11
1-569-532-11
1-569-531-11

s
s
s
s
s

HOUSING,
HOUSING,
HOUSING,
HOUSING,
HOUSING,

CN15
CN21
CN22
CN23
CN31

1-764-088-11
1-764-093-21
1-774-260-11
1-774-261-21
1-750-934-21

o
o
o
o
o

PIN, CONNECTOR
PIN, CONNECTOR
CONNECTOR, FFC
CONNECTOR, FFC
PIN, CONNECTOR

CN32
CN41
CN42
CN51

1-764-097-11
1-569-629-11
1-750-635-21
1-770-580-11

o
s
o
o

PIN, CONNECTOR (PC BOARD) 12P
HOUSING, 24P
PIN, CONNECTOR (PC BOARD) 5P
SOCKET, CONNECTOR(PCB-PCB) 26P

D1

8-719-042-14 s DIODE DE5LC20U-TA2

IC1
IC2
IC3
IC4
IC5

8-759-080-02
8-759-080-02
8-759-080-02
8-759-080-02
8-759-086-42

Q1
Q2

8-729-119-61 s TRANSISTOR 2SA811A-C15
8-729-271-32 s TRANSISTOR 2SC2713-L

R1

1-216-864-11 s METAL, CHIP 0 5% 1/16W

BVP-550
BVP-550P

s
s
s
s
s

IC
IC
IC
IC
IC

SP Description

R2
R3
R4
R6
R7

1-216-864-11
1-216-864-11
1-216-864-11
1-216-864-11
1-216-833-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
10K 5% 1/16W

R8
R9
R10
R11
R12

1-216-842-11
1-216-833-11
1-216-833-11
1-216-829-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

56K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
4.7K 5% 1/16W
100K 5% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

RB6
RB7
RB8

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

S1

1-572-272-11 s SWITCH, SLIDE

-----------PR-211 BOARD
-----------Ref. No.
or Q'ty Part No.
1pc

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

SP Description

A-8269-357-A o MOUNTED CIRCUIT BOARD, PR-211

24P
30P
30P
30P
20P
(PC BOARD) 3P
(PC BOARD) 8P
(ZIF) 20P
(ZIF) 24P
20P

TC74VHC541FS(EL)
TC74VHC541FS(EL)
TC74VHC541FS(EL)
TC74VHC541FS(EL)
X24C02S-3.0-C7000

5-31

-----------SG-234 BOARD
-----------Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
1pc
1pc
6pcs

A-8269-361-A
3-692-127-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, SG-234
PANEL,SG-234 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-177-21
1-135-159-21
1-135-214-21
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 10uF 10% 20V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C6
C7
C8
C9
C10

1-135-164-21
1-164-156-11
1-135-177-21
1-135-215-21
1-135-215-21

s
s
s
s
s

TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C23
C24
C25
C26
C27

1-164-156-11
1-135-215-21
1-135-215-21
1-164-156-11
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C28
C29
C30
C31
C32

1-135-215-21
1-164-156-11
1-135-210-11
1-164-156-11
1-162-915-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 10PF 5PF 50V

C33
C34
C35
C36
C37

1-164-156-11
1-162-966-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

C38
C39
C40
C41
C42

1-162-921-11
1-164-156-11
1-162-921-11
1-162-923-11
1-164-156-11

C43
C45
C46
C47
C48

SP Description

C66
C67
C68
C69
C70

1-164-156-11
1-164-156-11
1-135-210-11
1-164-156-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V

C71
C72
C73
C74
C75

1-135-076-21
1-135-217-21
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 35V
TANTAL 15uF 20% 6.3
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C76
C77
C78
C79
C80

1-135-216-11
1-164-156-11
1-164-156-11
1-162-909-11
1-164-315-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 470PF 5% 50V

C81
C82
C83
C85
C87

1-128-391-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-919-11

s
s
s
s
s

ELECT 330uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 22PF 5% 50V

C88
C89
C90
C92
C93

1-162-927-11
1-162-923-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C94
C95
C96
C97
C98

1-164-156-11
1-135-178-11
1-164-156-11
1-135-179-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM CHIP 1.5uF 20% 20V
CERAMIC 0.1uF 25V
TANTAL 2.2uF 10% 16V
CERAMIC 0.1uF 25V

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.0022uF 10% 50V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C99
C100
C200
C201

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF

D1
D2
D3
D4
D5

8-719-029-63
8-719-029-63
8-719-948-47
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
HSM88AS
RD4.3UH-T1
1SS302

1-162-925-11
1-135-211-11
1-164-346-11
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC, CHIP 68PF 5% 50V
TANTALUM, CHIP 6.8uF 20% 6.3V
CERAMIC 1uF 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

D6
D7
D8
D10
D11

8-719-404-35
8-719-404-35
8-719-041-68
8-719-948-47
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

MA141WK
MA141WK
RD3.3UH-T1
HSM88AS
1SS302

C49
C50
C51
C52
C53

1-164-156-11
1-135-210-11
1-135-161-21
1-135-216-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
TANTALUM, CHIP 22uF 10% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V

D12
D13
D14
D200
D201

8-719-948-47
8-719-948-47
8-719-948-47
8-719-820-41
8-719-948-47

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM88AS
HSM88AS
HSM88AS
1SS302
HSM88AS

C54
C56
C57
C58
C59

1-164-156-11
1-165-128-11
1-135-161-21
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.22uF 16V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

FL1

1-239-756-11 s FILTER, LOW PASS

C60
C62
C63
C64
C65

1-164-156-11
1-164-156-11
1-162-970-11
1-135-165-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

IC3
IC5
IC8
IC11
IC12

8-759-076-06
8-759-254-49
8-759-082-57
8-759-082-58
8-759-064-36

IC13
IC16
IC17

8-759-066-59 s IC TC74HC4053AFS
8-752-360-44 s IC CXK1203AR
8-759-082-61 s IC TC4W53FU

5-32

33PF 5% 50V
25V
33PF 5% 50V
47PF 5% 50V
25V

s
s
s
s
s

IC
IC
IC
IC
IC

0.1uF
0.1uF
0.1uF
0.1uF

100PF 5% 50V
47PF 5% 50V
25V
25V
25V

25V
25V
25V
25V

TL064CPW
EL4581CS-TE2
TC7W04FU
TC7W08FU
MB88346BPFV

BVP-550
BVP-550P

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

IC18
IC20
IC21
IC22
IC25

8-759-632-39
8-759-058-62
8-759-086-42
8-759-271-86
8-759-079-85

s
s
s
s
s

IC
IC
IC
IC
IC

M51958A-T1
TC7S08FU(TE85R)
X24C02S-3.0-C7000
TC7SH04FU
TC74VHC244FS(EL)

Q23
Q24
Q25
Q26
Q200

8-729-029-14
8-729-029-14
8-729-029-14
8-729-029-14
8-729-029-14

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106

IC30
IC31
IC32
IC33
IC34

8-759-079-85
8-759-271-86
8-759-076-06
8-759-066-59
8-759-184-64

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC244FS(EL)
TC7SH04FU
TL064CPW
TC74HC4053AFS
TC4W66FU

Q201
Q202
Q203
Q204
Q205

8-729-029-14
8-729-216-22
8-729-029-14
8-729-029-14
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTC144EUA-T106
2SA1162
DTC144EUA-T106
DTC144EUA-T106
2SC4177

IC35
IC36
IC37
IC38
IC39

8-759-049-86
8-759-180-08
8-759-082-58
8-759-083-94
8-759-195-81

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HCT244APW-E20
TC74HC4538AFS
TC7W08FU
TC7W74FU
TC7S86FU

R1
R2
R3
R5
R6

1-218-716-11
1-216-864-11
1-216-864-11
1-216-864-11
1-218-677-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 240 0.50% 1/16W

IC40
IC41
IC42
IC43
IC44

8-759-082-60
8-759-082-61
8-759-049-86
8-759-058-54
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
TC4W53FU
SN74HCT244APW-E20
TC7S00FU(TE85R)
TC4W53FU

R7
R8
R9
R10
R11

1-218-723-11
1-218-724-11
1-218-729-11
1-218-723-11
1-216-864-11

s
s
s
s
s

METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

IC45
IC46
IC47
IC48
IC200

8-759-271-86
8-759-082-61
8-759-082-61
8-759-173-16
8-759-079-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH04FU
TC4W53FU
TC4W53FU
TL062CPW
TC74VHC74FS(EL)

R15
R16
R17
R18
R21

1-216-864-11
1-218-724-11
1-218-720-11
1-216-845-11
1-218-692-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W

IC201
IC202
IC203
IC204
IC206

8-759-058-58
8-759-058-64
8-759-058-62
8-759-082-61
8-759-173-16

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S04FU(TE85R)
TC7S32FU(TE85R)
TC7S08FU(TE85R)
TC4W53FU
TL062CPW

R22
R23
R24
R25
R26

1-218-692-11
1-216-805-11
1-218-704-11
1-216-831-11
1-218-700-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 6.8K 5% 1/16W
METAL 2.2K 0.50% 1/16W

IC207

8-759-058-55 s IC TC7S02FU-TE85L

L1
L2
L4
L5
L6

1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11
1-410-385-11

R27
R28
R29
R30
R31

1-218-700-11
1-218-706-11
1-218-873-11
1-218-716-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

2.2K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 12K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W

L7
L8
L9

1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH

R32
R33
R34
R35
R36

1-218-720-11
1-218-708-11
1-218-724-11
1-218-732-11
1-218-704-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

15K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 22K 5% 1/16W
47K 0.50% 1/16W
3.3K 0.50% 1/16W

Q1
Q2
Q4
Q5
Q6

8-729-141-48
8-729-141-48
8-729-141-75
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SB624-BV345
2SD596DV345
2SC4178-F14
2SA1611-M6

R37
R38
R39
R40
R41

1-218-706-11
1-218-716-11
1-218-736-11
1-218-889-11
1-218-716-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
METAL

3.9K 0.50% 1/16W
10K 0.50% 1/16W
68K 0.50% 1/16W
METAL 56K 0.50% 1/16W
10K 0.50% 1/16W

Q7
Q8
Q9
Q10
Q11

8-729-117-32
8-729-117-73
8-729-117-32
8-729-117-73
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4177
2SC4178-F14
2SC4177

R42
R43
R44
R45
R46

1-218-704-11
1-218-740-11
1-218-845-11
1-218-700-11
1-218-700-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

3.3K 0.50% 1/16W
100K 0.50% 1/16W
METAL 820 0.50% 1/16W
2.2K 0.50% 1/16W
2.2K 0.50% 1/16W

Q12
Q14
Q15
Q16
Q17

8-729-403-29
8-729-117-32
8-729-117-73
8-729-118-56
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6435
2SC4177
2SC4178-F14
2SK852-X2
2SC4177

R47
R48
R49
R50
R51

1-218-716-11
1-218-720-11
1-216-809-11
1-216-817-11
1-218-692-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 470 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W

Q18
Q20
Q21
Q22

8-729-920-48
8-729-029-14
8-729-118-56
8-729-029-14

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

IMH2
DTC144EUA-T106
2SK852-X2
DTC144EUA-T106

R52
R54
R55
R56

1-218-706-11
1-216-855-11
1-218-706-11
1-218-692-11

s
s
s
s

METAL 3.9K 0.50% 1/16W
METAL, CHIP 680K 5% 1/16W
METAL 3.9K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

BVP-550
BVP-550P

s
s
s
s
s

INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR CHIP 0.47UH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH

5-33

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R57
R58
R59
R60
R61

1-216-845-11
1-216-809-11
1-216-809-11
1-216-809-11
1-218-833-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

100K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
270 0.50% 1/16W

R131
R132
R133
R134
R135

1-216-857-11
1-218-732-11
1-216-864-11
1-216-805-11
1-216-845-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL 47K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R62
R63
R64
R65
R66

1-216-845-11
1-218-692-11
1-216-849-11
1-216-849-11
1-216-845-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP

100K 5% 1/16W
1K 0.50% 1/16W
220K 5% 1/16W
220K 5% 1/16W
100K 5% 1/16W

R136
R137
R138
R139
R140

1-216-849-11
1-216-849-11
1-218-692-11
1-218-697-11
1-218-899-11

s
s
s
s
s

METAL, CHIP 220K 5% 1/16W
METAL, CHIP 220K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 1.6K 0.50% 1/16W
CHIP, METAL 150K 0.50% 1/16W

R67
R68
R69
R71
R77

1-218-881-11
1-218-716-11
1-218-874-11
1-216-864-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 27K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 13K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R141
R144
R145
R146
R148

1-218-868-11
1-216-845-11
1-216-845-11
1-216-864-11
1-216-845-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP

R78
R79
R80
R81
R83

1-218-692-11
1-218-716-11
1-216-809-11
1-216-809-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 0 5% 1/16W

R149
R150
R151
R152
R153

1-216-864-11
1-216-864-11
1-218-732-11
1-218-732-11
1-218-732-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W

R84
R85
R86
R90
R92

1-216-809-11
1-216-805-11
1-216-805-11
1-216-805-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R154
R200
R201
R202
R203

1-218-732-11
1-218-692-11
1-216-845-11
1-216-845-11
1-216-829-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R95
R96
R97
R98
R99

1-218-692-11
1-218-716-11
1-218-716-11
1-218-716-11
1-218-883-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

METAL 1K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W
33K 0.50% 1/16W

R204
R205
R206
R207
R208

1-218-716-11
1-216-845-11
1-216-845-11
1-216-829-11
1-216-845-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R100
R101
R102
R103
R104

1-218-692-11
1-218-692-11
1-218-740-11
1-218-732-11
1-218-710-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 1K 0.50% 1/16W
METAL 1K 0.50% 1/16W
100K 0.50% 1/16W
47K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W

R209
R210
R211

1-218-716-11 s METAL 10K 0.50% 1/16W
1-216-845-11 s METAL, CHIP 100K 5% 1/16W
1-216-845-11 s METAL, CHIP 100K 5% 1/16W

R105
R106
R107
R108
R109

1-218-716-11
1-218-710-11
1-218-710-11
1-218-700-11
1-218-732-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

10K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
2.2K 0.50% 1/16W
47K 0.50% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

RB10

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

R110
R111
R112
R113
R114

1-216-805-11
1-216-805-11
1-216-805-11
1-216-857-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R115
R116
R117
R118
R119

1-218-692-11
1-216-805-11
1-218-716-11
1-216-845-11
1-216-845-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R121
R122
R123
R124
R126

1-216-857-11
1-218-692-11
1-218-716-11
1-216-845-11
1-216-797-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 10 5% 1/16W

R127
R128
R129
R130

1-218-692-11
1-218-692-11
1-216-849-11
1-216-857-11

s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

5-34

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
47 5% 1/16W
47 5% 1/16W
47 5% 1/16W
47 5% 1/16W

47
47
47
1M
47

5%
5%
5%
5%
5%

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

7.5K
100K
100K
0 5%
100K

0.50% 1/16W
5% 1/16W
5% 1/16W
1/16W
5% 1/16W

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

1/16W
1/16W
1/16W
1/16W
1/16W

1K 0.50% 1/16W
1K 0.50% 1/16W
220K 5% 1/16W
1M 5% 1/16W

BVP-550
BVP-550P

-----------SW-730 BOARD
-----------Ref. No.
or Q'ty Part No.

-----------SW-731 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

SP Description

1pc

1-657-443-11 o PRINTED CIRCUIT BOARD, SW-730

1pc

1-657-444-12 o PRINTED CIRCUIT BOARD, SW-731

C1
C3

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

C1
C3
C4

1-164-156-11 s CERAMIC 0.1uF 25V
1-162-927-11 s CERAMIC, CHIP 100PF 5% 50V
1-164-156-11 s CERAMIC 0.1uF 25V

CN801

1-764-082-21 s PIN, CONNECTOR (PC BOARD) 11P
CN501

1-695-207-21 o PIN, CONNECTOR (PC BOARD) 6P

D1

8-719-106-43 s DIODE RD9.1M-B1
IC1

8-759-175-04 s IC PCF8574T-T

IC1

8-759-175-04 s IC PCF8574T-T

R1
R2
R3
R4
R5

1-216-827-11
1-216-833-11
1-216-833-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

3.3K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R1
R2
R3
R4
R5

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
1K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-864-11
1-216-849-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
0 5% 1/16W
220K 5% 1/16W
220K 5% 1/16W

R11

1-216-845-11 s METAL, CHIP 100K 5% 1/16W

R11
R12
R13
R14
R15

1-216-845-11
1-216-845-11
1-216-845-11
1-216-849-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K
100K
100K
220K
220K

RV1

1-223-686-11 s RES, VAR, CARBON 5K/5K

S1
S2
S3

1-571-416-11 s SWITCH, TOGGLE
1-571-679-11 s SWITCH, TOGGLE
1-570-282-21 s SWITCH, KEY BOARD

S1
S2
S3
S4

1-571-415-11
1-571-415-11
1-571-415-11
1-571-415-11

s
s
s
s

SWITCH,
SWITCH,
SWITCH,
SWITCH,

BVP-550
BVP-550P

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

TOGGLE
TOGGLE
TOGGLE
TOGGLE

5-35

-----------SW-732 BOARD
-----------Ref. No.
or Q'ty Part No.

-----------VA-163 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-442-11 o PRINTED CIRCUIT BOARD, SW-732

C1
C2

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

CN301

1-750-635-21 o PIN, CONNECTOR (PC BOARD) 5P

IC1

8-759-175-04 s IC PCF8574T-T

R1
R2
R3
R4
R5

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
1K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-849-11
1-216-849-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
220K 5% 1/16W
220K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

S1
S2
S3

1-570-985-11 s SWITCH, TOGGLE
1-570-985-11 s SWITCH, TOGGLE
1-571-396-11 s SWITCH, TOGGLE

-----------SW-733 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-445-11 o PRINTED CIRCUIT BOARD, SW-733

CN701

1-764-079-21 s PIN, CONNECTOR (PC BOARD) 4P

S1

1-473-315-11 s ENCODER, ROTARY

-----------SW-742 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-446-11 o PRINTED CIRCUIT BOARD, SW-742

CN601

1-764-078-11 s PIN, CONNECTOR (PC BOARD) 3P

S1

1-554-088-00 s SWITCH, TACTILE

5-36

SP Description

1pc
1pc
1pc
6pcs

A-8269-359-A
3-692-125-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, VA-163
PANEL,VA-163 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-216-11
1-164-156-11
1-164-156-11
1-135-216-11
1-135-216-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V

C6
C7
C8
C9
C10

1-135-216-11
1-164-156-11
1-164-156-11
1-135-217-21
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C11
C12
C13
C14
C15

1-135-161-21
1-126-391-11
1-135-177-21
1-135-177-21
1-135-125-21

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
ELECT 47uF 20% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTAL 33uF 20% 10V

C16
C17
C18
C19
C20

1-135-161-21
1-126-391-11
1-164-156-11
1-135-177-21
1-135-216-11

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
ELECT 47uF 20% 6.3V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 10uF 20% 10V

C21
C22
C23
C24
C25

1-164-156-11
1-164-156-11
1-164-156-11
1-135-216-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V

C26
C27
C30
C31
C32

1-164-217-11
1-162-927-11
1-164-156-11
1-162-927-11
1-164-156-11

s
s
s
s
s

CERAMIC 150PF
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC 0.1uF

C40
C41
C42
C43
C44

1-135-211-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C45
C46
C47
C48
C49

1-164-156-11
1-135-070-00
1-162-964-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 0.1uF 10% 35V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C50
C51
C52
C53
C54

1-135-211-11
1-135-211-11
1-104-559-11
1-164-315-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 6.3V
TANTALUM, CHIP 6.8uF 20% 6.3V
FILM, CHIP 0.047uF 5% 16V
CERAMIC 470PF 5% 50V
CERAMIC 0.1uF 25V

C55
C56
C57
C58
C59

1-164-156-11
1-135-177-21
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C60
C61
C62
C63
C64

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

5% 50V
100PF 5% 50V
25V
100PF 5% 50V
25V

25V
25V
25V
25V
25V

BVP-550
BVP-550P

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C65
C66
C67
C68
C69

1-135-217-21
1-135-217-21
1-135-217-21
1-164-156-11
1-135-217-21

s
s
s
s
s

TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
TANTAL 15uF 20% 6.3

C311
C312
C314
C315
C316

1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C70
C71
C72
C124
C125

1-135-217-21
1-135-217-21
1-164-156-11
1-107-685-11
1-107-685-11

s
s
s
s
s

TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
TANTALUM 15uF 20% 6.3V
TANTALUM 15uF 20% 6.3V

C317
C318
C319
C320
C321

1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C200
C201
C202
C203
C204

1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11
1-135-157-21

s
s
s
s
s

TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V

C323
C324
C325
C326
C327

1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C205
C207
C208
C209
C211

1-164-156-11
1-162-920-11
1-126-392-11
1-162-908-11
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 3PF 0.25PF 50V
TANTALUM, CHIP 1uF 10% 25V

C328
C329
C330
C331
C332

1-135-162-21
1-135-157-21
1-135-177-21
1-135-177-21
1-104-852-11

s
s
s
s
s

TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 20% 10V

C212
C214
C215
C216
C217

1-164-156-11
1-135-177-21
1-135-177-21
1-164-156-11
1-162-909-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V

C333
C334
C335
C336
C337

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C218
C219
C220
C221
C223

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C338
C339
C340
C342
C343

1-135-177-21
1-135-177-21
1-162-924-11
1-135-092-21
1-135-210-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V
TANTALUM 4.7uF 10% 10V

C224
C225
C226
C227
C228

1-104-608-11
1-135-217-21
1-135-217-21
1-164-156-11
1-135-162-21

s
s
s
s
s

ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V

C359
C400
C401
C402
C403

1-135-177-21
1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

C229
C230
C231
C232
C233

1-135-157-21
1-135-177-21
1-135-177-21
1-135-161-21
1-164-156-11

s
s
s
s
s

TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V

C404
C405
C407
C408
C409

1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11
1-162-908-11

s
s
s
s
s

TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 3PF 0.25PF 50V

C234
C235
C236
C237
C238

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C411
C412
C414
C415
C416

1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C239
C240
C242
C243
C259

1-135-177-21
1-162-924-11
1-135-092-21
1-135-210-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V
TANTALUM 4.7uF 10% 10V
TANTALUM, CHIP 1uF 10% 25V

C417
C418
C419
C420
C421

1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C300
C301
C302
C303
C304

1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11
1-135-157-21

s
s
s
s
s

TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V

C423
C424
C425
C426
C427

1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C305
C307
C308
C309

1-164-156-11
1-162-920-11
1-126-392-11
1-162-908-11

s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 3PF 0.25PF 50V

C428
C429
C430
C431

1-135-162-21
1-135-157-21
1-135-177-21
1-135-177-21

s
s
s
s

TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

BVP-550
BVP-550P

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V
0.1uF 25V

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V
0.1uF 25V

5-37

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
SP Description

Ref. No.
or Q'ty Part No.

SP Description

C432
C433
C434
C435
C436

1-104-852-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC300
IC301
IC302
IC303
IC304

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

C437
C438
C439
C440
C442

1-164-156-11
1-135-177-21
1-135-177-21
1-162-924-11
1-135-092-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V

IC400
IC401
IC402
IC403
IC404

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

C443
C459

1-135-210-11 s TANTALUM 4.7uF 10% 10V
1-135-177-21 s TANTALUM, CHIP 1uF 10% 25V

L1
L2

1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH

CT200
CT300
CT400

1-141-311-11 s CAP, VAR, TRIMMER
1-141-311-11 s CAP, VAR, TRIMMER
1-141-311-11 s CAP, VAR, TRIMMER

D1
D2
D3
D4
D5

8-719-029-63
8-719-029-63
8-719-029-63
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
1SS302

Q1
Q2
Q3
Q4
Q5

8-729-141-48
8-729-820-86
8-729-141-75
8-729-117-32
8-729-402-78

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SB1121-ST
2SD596DV345
2SC4177
XN6401

D7
D8
D9
D10

8-719-974-76
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

HSM107S
1SS302
1SS302
1SS302

Q7
Q10
Q11
Q12
Q13

8-729-141-75
8-729-402-78
8-729-402-19
8-729-402-19
8-729-402-19

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SD596DV345
XN6401
XN6501
XN6501
XN6501

FL200
FL300
FL400

1-402-639-11 s FILTER, TRAP
1-402-639-11 s FILTER, TRAP
1-402-639-11 s FILTER, TRAP

Q14
Q200
Q201
Q202
Q203

8-729-402-78
8-729-117-16
8-729-175-73
8-729-122-63
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6401
2SA1611-M6
2SC2757
2SA1226
2SA1611-M6

IC1
IC3
IC5
IC6
IC7

8-759-076-06
8-759-066-68
8-759-180-08
8-759-359-68
8-759-058-64

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
REF-03GS
TC74HC4538AFS
TL074CPW-E05
TC7S32FU(TE85R)

Q204
Q205
Q206
Q207
Q208

8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33
2SC4177

IC8
IC9
IC10
IC11
IC12

8-759-082-60
8-759-085-67
8-759-058-58
8-759-058-58
8-759-359-68

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
LM339NS
TC7S04FU(TE85R)
TC7S04FU(TE85R)
TL074CPW-E05

Q209
Q210
Q211
Q212
Q213

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

IC13
IC14
IC15
IC16
IC17

8-759-082-60
8-759-082-60
8-759-076-06
8-759-326-65
8-759-066-59

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
TC7S66FU
TL064CPW
MP7670AS-TE2
TC74HC4053AFS

Q214
Q215
Q216
Q217
Q218

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1611-M6

IC18
IC19
IC20
IC21
IC22

8-759-326-65
8-759-359-68
8-759-237-79
8-759-064-36
8-759-066-59

s
s
s
s
s

IC
IC
IC
IC
IC

MP7670AS-TE2
TL074CPW-E05
TC74HC595AF(EL)
MB88346BPFV
TC74HC4053AFS

Q219
Q220
Q300
Q301
Q302

8-729-402-19
8-729-402-19
8-729-117-16
8-729-175-73
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6501
XN6501
2SA1611-M6
2SC2757
2SA1226

IC23
IC24
IC25
IC26
IC27

8-759-049-60
8-759-059-50
8-759-058-58
8-759-086-42
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HC08APW-E05
MB88351PFV
TC7S04FU(TE85R)
X24C02S-3.0-C7000
TC7S08FU(TE85R)

Q303
Q304
Q305
Q306
Q307

8-729-117-16
8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33

IC200
IC201
IC202
IC203
IC204

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

Q308
Q309
Q310
Q311
Q312

8-729-117-32
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

Q313

8-729-117-73 s TRANSISTOR 2SC4178-F14

5-38

BVP-550
BVP-550P

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

Q314
Q315
Q316
Q317
Q318

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1611-M6

R31
R35
R36
R37
R38

1-218-700-11
1-218-668-11
1-218-668-11
1-218-668-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

Q319
Q320
Q400
Q401
Q402

8-729-402-19
8-729-402-19
8-729-117-16
8-729-175-73
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6501
XN6501
2SA1611-M6
2SC2757
2SA1226

R39
R40
R41
R42
R43

1-216-857-11
1-218-668-11
1-216-809-11
1-218-873-11
1-218-851-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

1M 5% 1/16W
100 0.50% 1/16W
100 5% 1/16W
12K 0.50% 1/16W
1.5K 0.50% 1/16W

Q403
Q404
Q405
Q406
Q407

8-729-117-16
8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33

R44
R45
R46
R47
R48

1-218-851-11
1-218-851-11
1-218-851-11
1-216-833-11
1-216-833-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

1.5K 0.50% 1/16W
1.5K 0.50% 1/16W
1.5K 0.50% 1/16W
10K 5% 1/16W
10K 5% 1/16W

Q408
Q409
Q410
Q411
Q412

8-729-117-32
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

R49
R50
R51
R52
R53

1-216-833-11
1-216-833-11
1-218-692-11
1-218-716-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W

Q413
Q414
Q415
Q416
Q417

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

R54
R55
R56
R57
R58

1-218-716-11
1-218-723-11
1-218-901-11
1-218-732-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

Q418
Q419
Q420

8-729-117-16 s TRANSISTOR 2SA1611-M6
8-729-402-19 s TRANSISTOR XN6501
8-729-402-19 s TRANSISTOR XN6501

R1
R2
R3
R4
R5

1-218-723-11
1-216-833-11
1-218-724-11
1-218-716-11
1-218-732-11

s
s
s
s
s

METAL 20K 0.50%
METAL, CHIP 10K
CHIP, METAL 22K
METAL 10K 0.50%
METAL 47K 0.50%

R59
R60
R61
R62
R63

1-218-732-11
1-218-732-11
1-208-854-11
1-216-853-11
1-218-883-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W
CHIP,METAL 1M 0.50% 1/10W
METAL, CHIP 470K 5% 1/16W
METAL 33K 0.50% 1/16W

R6
R7
R8
R9
R10

1-218-724-11
1-218-716-11
1-218-716-11
1-216-823-11
1-218-724-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 1.5K 5% 1/16W
CHIP, METAL 22K 5% 1/16W

R64
R65
R66
R67
R68

1-218-883-11
1-218-699-11
1-218-692-11
1-218-699-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R11
R12
R13
R14
R15

1-218-716-11
1-218-716-11
1-218-668-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R69
R70
R71
R72
R73

1-218-699-11
1-218-692-11
1-218-883-11
1-216-864-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R16
R17
R18
R19
R20

1-216-845-11
1-216-829-11
1-216-833-11
1-211-969-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL 10K 0.50% 1/16W

R74
R75
R76
R77
R78

1-216-864-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-708-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 33K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R21
R22
R23
R24
R25

1-216-827-11
1-211-969-11
1-218-700-11
1-218-704-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 3.3K 5% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W
METAL 10K 0.50% 1/16W

R79
R80
R81
R82
R83

1-218-708-11
1-218-708-11
1-218-708-11
1-218-708-11
1-218-708-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

4.7K
4.7K
4.7K
4.7K
4.7K

R26
R27
R28
R29
R30

1-218-700-11
1-218-692-11
1-218-716-11
1-218-714-11
1-218-716-11

s
s
s
s
s

METAL
CHIP,
METAL
METAL
METAL

R84
R85
R86
R87
R88

1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

33K
33K
33K
33K
33K

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

R89
R90
R91
R92

1-218-883-11
1-218-883-11
1-218-716-11
1-218-716-11

s
s
s
s

METAL
METAL
METAL
METAL

33K
33K
10K
10K

0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W

BVP-550
BVP-550P

1/16W
5% 1/16W
5% 1/16W
1/16W
1/16W

2.2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
10K 0.50% 1/16W
8.2K 0.50% 1/16W
10K 0.50% 1/16W

2.2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 1K 0.50% 1/16W

10K 0.50% 1/16W
20K 0.50% 1/16W
METAL 180K 0.50% 1/16W
47K 0.50% 1/16W
10K 0.50% 1/16W

33K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1K 0.50% 1/16W

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

5-39

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R93
R94
R95
R96
R97

1-218-716-11
1-218-732-11
1-218-732-11
1-218-732-11
1-218-732-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

10K
47K
47K
47K
47K

R230
R231
R232
R233
R234

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R98
R99
R100
R101
R102

1-218-714-11
1-218-698-11
1-218-699-11
1-218-723-11
1-218-692-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R235
R236
R237
R238
R239

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R103
R104
R105
R106
R107

1-218-730-11
1-216-829-11
1-216-809-11
1-218-708-11
1-218-700-11

s
s
s
s
s

CHIP, METAL 39K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL 4.7K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W

R240
R241
R242
R243
R244

1-218-710-11
1-218-699-11
1-216-809-11
1-218-699-11
1-218-842-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

R108
R109
R110
R111
R112

1-218-702-11
1-218-716-11
1-218-702-11
1-216-809-11
1-218-714-11

s
s
s
s
s

CHIP, METAL 2.7K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL 8.2K 0.50% 1/16W

R245
R246
R247
R248
R249

1-218-751-11
1-218-716-11
1-218-723-11
1-216-825-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 300K 0.50% 1/16
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 0 5% 1/16W

R113
R114
R115
R116
R117

1-218-668-11
1-218-723-11
1-218-699-11
1-216-845-11
1-218-702-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W

R250
R251
R252
R253
R254

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R118
R120
R121
R122
R123

1-216-829-11
1-218-704-11
1-216-809-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 4.7K 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W

R255
R256
R257
R258
R259

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
CHIP, METAL 11K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R200
R201
R202
R203
R204

1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11
1-218-727-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
METAL 30K 0.50% 1/16W

R260
R261
R262
R263
R264

1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11
1-218-858-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W

R205
R206
R207
R208
R209

1-218-732-11
1-218-708-11
1-218-710-11
1-218-856-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
20K 0.50% 1/16W

R265
R266
R267
R268
R269

1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11
1-218-692-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

R210
R211
R212
R213
R214

1-218-714-11
1-211-969-11
1-218-680-11
1-218-851-11
1-211-969-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 10 0.50% 1/16W

R270
R271
R272
R280
R281

1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11
1-218-708-11

s
s
s
s
s

METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R215
R216
R217
R218
R219

1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11
1-218-699-11

s
s
s
s
s

METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W

R300
R301
R302
R303
R304

1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11
1-218-710-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R220
R222
R223
R224
R225

1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 750 0.50% 1/16W
CHIP, METAL 820 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
METAL 33K 0.50% 1/16W

R305
R306
R307
R308
R309

1-218-727-11
1-218-732-11
1-218-708-11
1-218-856-11
1-218-874-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

30K 0.50% 1/16W
47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 13K 0.50% 1/16W

R226
R227
R228
R229

1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

R310
R311
R312
R313

1-218-714-11
1-211-969-11
1-218-680-11
1-218-851-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

5-40

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

SP Description

10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W

39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
5.6K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W
2K 0.50% 1/16W
620 0.50% 1/16W

20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 1K 0.50% 1/16W

BVP-550
BVP-550P

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R314
R315
R316
R317
R318

1-211-969-11
1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11

s
s
s
s
s

CHIP, METAL 10 0.50% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W

R381
R400
R401
R402
R403

1-218-708-11
1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11

s
s
s
s
s

METAL 4.7K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W

R319
R320
R322
R323
R324

1-218-699-11
1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R404
R405
R406
R407
R408

1-218-727-11
1-218-732-11
1-218-708-11
1-218-856-11
1-218-874-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

30K 0.50% 1/16W
47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 13K 0.50% 1/16W

R325
R326
R327
R328
R329

1-218-883-11
1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

R409
R410
R411
R412
R413

1-218-714-11
1-211-969-11
1-218-710-11
1-218-680-11
1-218-851-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

R330
R331
R332
R333
R334

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R414
R415
R416
R417
R418

1-211-969-11
1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11

s
s
s
s
s

CHIP, METAL 10 0.50% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W

R335
R336
R337
R338
R339

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R419
R420
R422
R423
R424

1-218-699-11
1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R340
R341
R342
R343
R344

1-218-710-11
1-218-699-11
1-218-716-11
1-216-809-11
1-218-699-11

s
s
s
s
s

CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
CHIP, METAL 2K 0.50% 1/16W

R425
R426
R427
R428
R429

1-218-883-11
1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

R345
R346
R347
R348
R349

1-218-842-11
1-218-750-11
1-218-723-11
1-216-825-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 620 0.50% 1/16W
METAL 270K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 0 5% 1/16W

R430
R431
R432
R433
R434

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R350
R351
R352
R353
R354

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R435
R436
R437
R438
R439

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R355
R356
R357
R358
R359

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
CHIP, METAL 11K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R440
R441
R442
R443
R444

1-218-710-11
1-218-699-11
1-216-809-11
1-218-699-11
1-218-842-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

R360
R361
R362
R363
R364

1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11
1-218-858-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W

R445
R446
R447
R448
R449

1-218-740-11
1-218-723-11
1-216-864-11
1-218-716-11
1-216-825-11

s
s
s
s
s

METAL 100K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R365
R366
R367
R368
R369

1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11
1-218-692-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

R450
R451
R452
R453
R454

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R370
R371
R372
R380

1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11

s
s
s
s

METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W

R455
R456
R457
R458

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11

s
s
s
s

METAL, CHIP
CHIP, METAL
CHIP, METAL
CHIP, METAL

BVP-550
BVP-550P

2K 0.50% 1/16W
750 0.50% 1/16W
820 0.50% 1/16W
100 5% 1/16W
5.6K 0.50% 1/16W

33K 0.50% 1/16W
10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W

20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 1K 0.50% 1/16W

2K 0.50% 1/16W
750 0.50% 1/16W
820 0.50% 1/16W
100 5% 1/16W
5.6K 0.50% 1/16W

33K 0.50% 1/16W
10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
5.6K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W
2K 0.50% 1/16W
620 0.50% 1/16W

10K 5% 1/16W
1K 0.50% 1/16W
3K 0.50% 1/16W
11K 0.50% 1/16W

5-41

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(FRAME)
Ref. No.
or Q'ty Part No.

SP Description

R459
R460
R461
R462
R463

1-218-723-11
1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11

s
s
s
s
s

METAL 20K 0.50% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

R464
R465
R466
R467
R468

1-218-858-11
1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

R469
R470
R471
R472
R480

1-218-692-11
1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W

R481

1-218-708-11 s METAL 4.7K 0.50% 1/16W

RV50
RV200
RV300
RV400

1-241-263-11
1-241-260-11
1-241-260-11
1-241-260-11

----FRAME
----Ref. No.
or Q'ty Part No.
!

s
s
s
s

METAL 3K 0.50% 1/16W
20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W

SP Description

1-775-778-11 o FLEXIBLE CARD WIRE
(CN1120
1-775-779-11 s FLEXIBLE CARD WIRE
(MB-602
1-775-780-11 s FLEXIBLE CARD WIRE
(MB-602

CN2F(to PA-181 BOARD of
1-695-212-11 o
1-695-215-11 o
CN15F(to MB602 BOARD)
1-764-193-11 o
1-695-215-11 o
CN21F(to MB-602 BOARD)
1-764-196-11 o
1-695-215-11 o
CN31F(to MB-602 BOARD)
1-580-586-11 o
1-573-176-11 o
1-580-599-11 o
CN32F(to MB-602 BOARD)
1-695-892-11 o
1-695-215-11 o
CN42F(to MB-602 BOARD)
1-764-195-11 o
1-695-215-11 o
CN301F(to SW-732 BOARD)
1-764-195-11 o
1-695-215-11 o
CN402F(to CN1122 BOARD)
1-695-892-11 o
1-695-215-11 o
CN405F(to CN1122 BOARD)
1-764-198-11 o
1-695-215-11 o
CN406F(to CN1122 BOARD)
1-764-193-11 o
1-695-215-11 o

RES, ADJ, METALT 5K
METAL, ADJ 500
METAL, ADJ 500
METAL, ADJ 500

1-473-314-11 s CONVERTER, D.C-D.C
1-775-774-11 o FLEXIBLE CARD WIRE (20
(CN-1121 TO
1-775-775-11 o FLEXIBLE CARD WIRE (24
(CN-1122 TO
1-775-776-11 o FLEXIBLE CARD WIRE (30
(CN1120 TO
1-775-777-11 o FLEXIBLE CARD WIRE (30
(CN1121 TO

SP Description

CORE)
MB-602)
CORE)
MB-602)
CORE)
MB-602)
CORE)
MB-602)

(30 CORE)
TO MB-602)
(20 CORE)
TO CCD UNIT)
(24 CORE)
TO CCD UNIT)

CN407F(to MB602 BOARD)
1-695-212-11 o
1-695-215-11 o
CN501F(to SW731 BOARD)
1-695-212-11 o
1-695-215-11 o
CN601F(to SW742 BOARD)
1-764-193-11 o
1-695-215-11 o
CN701F(to SW733 BOARD)
1-764-194-11 o
1-695-215-11 o

CCD UNIT)
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 8P
CONTACT, FEMALE AWG26-30
HOUSING, 20P
CONTACT, FEMALE AWG22-26
CONTACT, FEMALE AWG26-30
HOUSING, 12P
CONTACT, FEMALE AWG26-30
HOUSING, 5P
CONTACT, FEMALE AWG26-30
HOUSING, 5P
CONTACT, FEMALE AWG26-30
HOUSING, 12P
CONTACT, FEMALE AWG26-30
HOUSING, 11P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 4P
CONTACT, FEMALE AWG26-30

CN801F(to SW730 BOARD)
1-764-198-11 o HOUSING, 11P
1-695-215-11 o CONTACT, FEMALE AWG26-30

1-955-080-12 o HARNESS (VF)
1-955-086-12 o HARNESS (PA)
CN101
CN901
CN902
CN903
CN904

1-952-420-21
1-561-781-11
1-562-222-41
1-565-051-21
1-695-841-12

s
s
s
o
s

HARNESS (VF CABLE 3)
CONNECTOR BNC "TEST OUT"
CONNECTOR 6P FEMALE "REMOTE"
CONNECTOR, 20P FEMAL "VF"
CONNECTOR 12P FEMALE "LENS"

CN905

1-509-184-31 s CONNECTOR 3P MALE "MIC"

CN1F(to VF-60 BOARD)
1-580-585-11 o HOUSING, 18P
1-580-599-11 o CONTACT, FEMALE AWG26-30

5-42

BVP-550
BVP-550P

5-3-2. Parts List for View Finder
----------LP-84 BOARD
----------Ref. No.
or Q'ty Part No.

SP Description

----------VF-60 BOARD
----------Ref. No.
or Q'ty Part No.

SP Description

1pc

A-8269-389-A o MOUNTED CIRCUIT BOARD, LP-84

1pc

A-8269-387-A o MOUNTED CIRCUIT BOARD, VF-60

CN21

1-566-759-11 o PIN, CONNECTOR (PC BOARD) 4P

D1
D2
D3

8-719-026-39 s DIODE CL-150UR-CD-T
8-719-026-39 s DIODE CL-150UR-CD-T
8-719-987-43 s DIODE CL-150PG-CD

C1
C2
C3
C4
C5

1-162-970-11
1-162-970-11
1-164-232-11
1-104-911-11
1-135-159-21

s
s
s
s
s

CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 0.01uF 10% 50V
TANTALUM, CHIP 33uF 20% 10V
TANTALUM, CHIP 10uF 10% 20V

C6
C7
C8
C9
C10

1-135-159-21
1-163-249-11
1-107-686-11
1-162-970-11
1-163-038-00

s
s
s
s
s

TANTALUM, CHIP 10uF 10% 20V
CERAMIC, CHIP 82PF 5% 50V
CHIP, TANTALUM 4.7uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CHIP, CERAMIC 0.1uF 25V

1-136-480-11
1-136-683-11
1-163-037-11
1-162-970-11
1-163-038-00

s
s
s
s
s

FILM 0.0015MF
FILM 0.0056uF
CERAMIC, CHIP
CERAMIC, CHIP
CHIP, CERAMIC

C16
C17
C18
C19
C20

1-163-038-00
1-135-165-11
1-104-823-11
1-164-350-11
1-163-243-11

s
s
s
s
s

CHIP, CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
TANTALUM, CHIP 47uF 20% 16V
CERAMIC 470PF 10% 1KV
CERAMIC, CHIP 47PF 5% 50V

C21
C22
C23
C24
C25

1-163-038-00
1-128-405-11
1-162-957-11
1-163-809-11
1-163-038-00

s
s
s
s
s

CHIP, CERAMIC 0.1uF 25V
ELECT 22uF 20% 50V
CERAMIC 220PF 5% 50V
CERAMIC, CHIP 0.047uF 10% 25V
CHIP, CERAMIC 0.1uF 25V

C26
C27
C28
C29
C30

1-135-159-21
1-135-159-21
1-107-689-21
1-164-232-11
1-135-159-21

s
s
s
s
s

TANTALUM, CHIP 10uF 10% 20V
TANTALUM, CHIP 10uF 10% 20V
TANTAL 1uF 20% 35V
CERAMIC, CHIP 0.01uF 10% 50V
TANTALUM, CHIP 10uF 10% 20V

C31
C32
C33
C35
C36

1-135-091-91
1-135-159-21
1-135-159-21
1-163-038-00
1-162-957-11

s
s
s
s
s

CHIP, TANTALUM 1uF 20% 16V
TANTALUM, CHIP 10uF 10% 20V
TANTALUM, CHIP 10uF 10% 20V
CHIP, CERAMIC 0.1uF 25V
CERAMIC 220PF 5% 50V

C37
C38
C39
C40
C41

1-128-397-21
1-128-394-11
1-164-156-11
1-107-689-21
1-135-159-21

s
s
s
s
s

ELECT 100uF 20% 16V
ELECT 220uF 20% 10V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 35V
TANTALUM, CHIP 10uF 10% 20V

C42
C43
C44
C45
C46

1-163-038-00
1-162-969-11
1-135-159-21
1-104-547-11
1-164-227-11

s
s
s
s
s

CHIP, CERAMIC 0.1uF 25V
CERAMIC 0.0068uF 10% 25V
TANTALUM, CHIP 10uF 10% 20V
FILM 0.0047uF 5% 16V
CERAMIC 0.022uF 10% 25V

C47
C48
C49
C50
C51

1-107-689-21
1-163-017-00
1-104-912-11
1-164-156-11
1-135-159-21

s
s
s
s
s

TANTAL 1uF 20% 35V
CERAMIC 0.0047uF 10% 50V
CHIP,TANTALUM 3.3uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 10% 20V

C52
C53
C54
C55

1-164-156-11
1-164-156-11
1-162-927-11
1-164-156-11

s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC 0.1uF

CN1
CN2
CN3

1-580-538-11 o PIN, CONNECTOR (PC BOARD) 18P
1-764-080-21 s PIN, CONNECTOR (PC BOARD) 8P
1-569-529-21 o HOUSING, 14P

----------LP-85 BOARD
----------Ref. No.
or Q'ty Part No.

SP Description

1pc

A-8269-390-A o MOUNTED CIRCUIT BOARD, LP-85

CN31

1-566-759-11 o PIN, CONNECTOR (PC BOARD) 4P

D1
D2
D3

8-719-026-16 s DIODE CL-150D-CD-T
8-719-026-39 s DIODE CL-150UR-CD-T
8-719-026-16 s DIODE CL-150D-CD-T

BVP-550
BVP-550P

C11
C12
C13
C14
C15

!

5% 100
5% 100V
0.022uF 10% 25V
0.01uF 10% 25V
0.1uF 25V

25V
25V
100PF 5% 50V
25V

5-43

(VF-60 BOARD)
Ref. No.
or Q'ty Part No.

(VF-60 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

CN4
CN5

1-564-004-11 o PIN, CONNECTOR 5P
1-506-470-11 s PIN, CONNECTOR 5P

D1
D2
D3
D4
D5

8-719-404-35
8-719-900-95
8-719-820-41
8-719-901-19
8-719-900-95

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

MA141WK
V09G
1SS302
V11N
V09G

D6
D7
D8
D9
D10

8-719-404-35
8-719-404-35
8-719-029-68
8-719-820-41
8-719-404-35

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

MA141WK
MA141WK
RD6.2UJN-T1
1SS302
MA141WK

D11
D12

8-719-404-35 s DIODE MA141WK
8-719-989-53 s DIODE CL-200HR-C-TSL

DL1

1-411-383-11 s DELAY LINE 80 nS

IC1
IC2
IC3
IC4

!

8-759-300-28
8-759-100-94
8-759-209-57
8-759-209-54

L2
L3

!

1-459-899-11 s COIL, HORIZONTAL LINEARITY
1-410-380-31 s INDUCTOR CHIP 8.2uH

s
s
s
s

IC
IC
IC
IC

HA11423MP
UPC358G2
TC4S69F
TC4S01F

Q1
Q2
Q3
Q4
Q5

8-729-028-91
8-729-028-91
8-729-117-32
8-729-117-16
8-729-403-29

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTA144EUA-T106
DTA144EUA-T106
2SC4177
2SA1611-M6
XN6435

Q6
Q7
Q8
Q9
Q10

8-729-024-56
8-729-422-44
8-729-403-32
8-729-105-37
8-729-105-37

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1808
2SK663
XN6534
2SC3360-N16
2SC3360-N16

Q11
Q12
Q13
Q14
Q15

8-729-117-32
8-729-117-16
8-729-141-48
8-729-119-00
8-729-119-00

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1611-M6
2SB624-BV345
2SK612
2SK612

Q16
Q17
Q18
Q19
Q20

8-729-028-91
8-729-117-32
8-729-117-16
8-729-117-32
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTA144EUA-T106
2SC4177
2SA1611-M6
2SC4177
2SC4177

Q21
Q22

8-729-117-16 s TRANSISTOR 2SA1611-M6
8-729-422-12 s TRANSISTOR 2SK664

R1
R2
R3
R4
R5

1-216-671-11
1-216-309-00
1-216-627-11
1-208-806-11
1-216-667-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP

R6
R7
R8
R9
R10

1-208-774-11
1-208-806-11
1-218-704-11
1-216-635-11
1-216-635-11

s
s
s
s
s

CHIP, METAL 470 0.50% 1/10W
CHIP, METAL 10K 0.50% 1/10W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 220 0.5% 1/10W
METAL, CHIP 220 0.5% 1/10W

R11
R12
R13

1-218-680-11 s METAL 330 0.50% 1/16W
1-216-611-11 s CHIP, METAL 22 0.50% 1/10W
1-216-635-11 s METAL, CHIP 220 0.5% 1/10W

5-44

6.8K 0.50% 1/10W
5.6 5% 1/10W
100 0.50% 1/10W
10K 0.50% 1/10W
4.7K 0.5% 1/10W

SP Description

R14
R15
R16
R17
R18

1-216-133-00
1-216-659-11
1-208-774-11
1-218-668-11
1-216-666-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

3.3M 5% 1/10W
2.2K 0.5% 1/10W
470 0.50% 1/10W
100 0.50% 1/16W
4.3K 0.5% 1/10W

R19
R20
R21
R22
R23

1-218-680-11
1-218-700-11
1-218-700-11
1-216-639-11
1-218-724-11

s
s
s
s
s

METAL 330 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL, CHIP 330 0.5% 1/10W
CHIP, METAL 22K 5% 1/16W

R24
R25
R26
R27
R28

1-208-806-11
1-208-814-11
1-216-133-00
1-216-673-11
1-216-619-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R29
R30
R31
R32
R33

1-208-812-11
1-208-824-11
1-218-708-11
1-216-133-00
1-216-655-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

R34
R35
R36
R37
R38

1-208-800-11
1-218-698-11
1-216-687-11
1-208-806-11
1-218-714-11

s
s
s
s
s

CHIP, METAL 5.6K 0.50% 1/10W
METAL 1.8K 0.50% 1/16W
METAL, CHIP 33K 0.5% 1/10W
CHIP, METAL 10K 0.50% 1/10W
METAL 8.2K 0.50% 1/16W

R39
R40
R41
R42
R43

1-216-633-11
1-208-822-11
1-216-609-11
1-218-724-11
1-216-667-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP

R44
R45
R46
R47
R48

1-208-814-11
1-218-740-11
1-216-673-11
1-216-651-11
1-218-899-11

s
s
s
s
s

CHIP, METAL 22K 0.50% 1/10W
METAL 100K 0.50% 1/16W
METAL, CHIP 8.2K 0.5% 1/10W
METAL, CHIP 1K 0.5% 1/10W
CHIP, METAL 150K 0.50% 1/16W

R49
R50
R51
R52
R53

1-216-655-11
1-216-651-11
1-208-812-11
1-208-814-11
1-218-708-11

s
s
s
s
s

CHIP, METAL 1.5K 0.50% 1/10W
METAL, CHIP 1K 0.5% 1/10W
CHIP, METAL 18K 0.50% 1/10W
CHIP, METAL 22K 0.50% 1/10W
METAL 4.7K 0.50% 1/16W

R54
R55
R56
R57
R58

1-216-667-11
1-216-699-11
1-216-133-00
1-216-133-00
1-208-854-11

s
s
s
s
s

METAL, CHIP 4.7K 0.5% 1/10W
CHIP, METAL 100K 0.50% 1/10W
CHIP, METAL 3.3M 5% 1/10W
CHIP, METAL 3.3M 5% 1/10W
CHIP,METAL 1M 0.50% 1/10W

R59
R60
R61
R62
R63

1-208-806-11
1-216-699-11
1-216-133-00
1-218-716-11
1-216-677-11

s
s
s
s
s

CHIP, METAL 10K 0.50% 1/10W
CHIP, METAL 100K 0.50% 1/10W
CHIP, METAL 3.3M 5% 1/10W
METAL 10K 0.50% 1/16W
METAL, CHIP 12K 0.5% 1/10W

R64
R65
R66
R67
R68

1-218-768-11
1-216-685-11
1-216-687-11
1-216-663-11
1-218-648-11

s
s
s
s
s

METAL 470K 0.50% 1/10W
METAL, CHIP 27K 0.5% 1/10W
METAL, CHIP 33K 0.5% 1/10W
METAL, CHIP 3.3K 0.5% 1/10W
METAL 15 0.50% 1/16W

R69
R70
R71
R72

1-216-663-11
1-218-692-11
1-216-673-11
1-216-627-11

s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
CHIP, METAL

10K 0.50% 1/10W
22K 0.50% 1/10W
3.3M 5% 1/10W
8.2K 0.5% 1/10W
47 0.50% 1/10W

METAL 18K 0.50% 1/10W
METAL 56K 0.50% 1/10W
4.7K 0.50% 1/16W
METAL 3.3M 5% 1/10W
METAL 1.5K 0.50% 1/10W

180 0.50% 1/10W
47K 0.50% 1/10W
18 0.50% 1/10W
22K 5% 1/16W
4.7K 0.5% 1/10W

3.3K 0.5% 1/10W
1K 0.50% 1/16W
8.2K 0.5% 1/10W
100 0.50% 1/10W

BVP-550
BVP-550P

-----------VR-199 BOARD
-----------Ref. No.
or Q'ty Part No.

(VF-60 BOARD)
Ref. No.
or Q'ty Part No.
R73
R74
R75
R76
R77

SP Description

1-216-629-11
1-218-883-11
1-218-708-11
1-218-716-11
1-208-814-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
CHIP,

METAL 120 0.50% 1/10W
33K 0.50% 1/16W
4.7K 0.50% 1/16W
10K 0.50% 1/16W
METAL 22K 0.50% 1/10W

R78
R80
R81
R82
R83

1-218-873-11
1-216-295-11
1-218-716-11
1-216-793-11
1-218-716-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
METAL

METAL 12K 0.50% 1/16W
CONDUCTOR 0
10K 0.50% 1/16W
4.7 5% 1/16W
10K 0.50% 1/16W

R84
R85
R86
R87
R88

1-218-773-11
1-218-841-11
1-216-659-11
1-218-732-11
1-218-736-11

s
s
s
s
s

CHIP, METAL 750K 0.50% 1/10W
CHIP, METAL 560 0.50% 1/16W
METAL, CHIP 2.2K 0.5% 1/10W
METAL 47K 0.50% 1/16W
METAL 68K 0.50% 1/16W

R89
R90
R91
R92
R93

1-218-732-11
1-218-714-11
1-218-692-11
1-218-883-11
1-218-867-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

47K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
33K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W

R94
R95
R96
R97
R98

1-211-969-11
1-218-740-11
1-218-700-11
1-218-710-11
1-218-740-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
METAL

METAL 10 0.50% 1/16W
100K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
100K 0.50% 1/16W

R99
R100
R101
R102
R103

1-218-684-11
1-218-684-11
1-208-822-11
1-216-659-11
1-218-752-11

s
s
s
s
s

CHIP, METAL 470 0.50% 1/16W
CHIP, METAL 470 0.50% 1/16W
CHIP, METAL 47K 0.50% 1/10W
METAL, CHIP 2.2K 0.5% 1/10W
METAL 330K 0.50% 1/16W

R104
R105
R106

1-218-730-11 s CHIP, METAL 39K 0.50% 1/16W
1-218-883-11 s METAL 33K 0.50% 1/16W
1-218-716-11 s METAL 10K 0.50% 1/16W

RV1
RV2
RV3
RV4
RV5

1-241-832-21
1-241-829-21
1-241-832-21
1-241-838-11
1-241-832-21

s
s
s
s
s

RES,
RES,
RES,
RES,
RES,

ADJ,
ADJ,
ADJ,
ADJ,
ADJ,

RV6
RV7
RV8
RV9
RV10

1-241-828-21
1-241-828-21
1-241-825-11
1-241-741-11
1-241-828-21

s
s
s
s
s

RES,
RES,
RES,
RES,
RES,

ADJ, METAL 500
ADJ, METAL 500
ADJ, METAL 50
ADJ METAL 50K
ADJ, METAL 500

S1
S2
S3

1-762-488-11 s SWITCH, TOGGLE
1-762-020-11 s SWITCH, TOGGLE
1-762-489-11 s SWITCH, TOGGLE

T1
VDR1

!

!

!

METAL
METAL
METAL
METAL
METAL

5K
1K
5K
500K
5K

1-439-419-12 s TRANSFORMER, FLYBACK
1-806-497-00 s VARISTOR ERZ-C05DK220

SP Description

1pc
1pc

A-8269-388-A o MOUNTED CIRCUIT BOARD, VR-199
3-692-151-01 o PLATE,GROUND

C1
C2
C3
C4
C5

1-104-823-11
1-164-232-11
1-164-232-11
1-163-037-11
1-107-686-11

C6
C7
C8

1-135-160-21 s CHIP, TANTALUM 15uF 10% 16V
1-163-038-00 s CHIP, CERAMIC 0.1uF 25V
1-164-232-11 s CERAMIC, CHIP 0.01uF 10% 50V

CN11

1-569-529-21 o HOUSING, 14P

D1
D2

8-719-989-53 s DIODE CL-200HR-C-TSL
8-719-989-53 s DIODE CL-200HR-C-TSL

IC1

8-759-939-53 s IC BA225F-T2

Q1
Q2
Q3
Q4

8-729-028-91
8-729-028-91
8-729-402-19
8-729-402-19

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

R1
R2
R3
R4
R5

1-216-615-11
1-216-645-11
1-216-673-11
1-208-814-11
1-208-814-11

s
s
s
s
s

METAL 33 0.50% 1/10W
METAL 560 0.50% 1/10W
METAL, CHIP 8.2K 0.5% 1/10W
CHIP, METAL 22K 0.50% 1/10W
CHIP, METAL 22K 0.50% 1/10W

R6
R7
R8
R9
R10

1-208-814-11
1-218-772-11
1-208-822-11
1-208-824-11
1-216-295-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 22K 0.50% 1/10W
680K 0.50% 1/10W
METAL 47K 0.50% 1/10W
METAL 56K 0.50% 1/10W
CONDUCTOR 0

R11
R13
R14
R15
R16

1-208-822-11
1-208-814-11
1-208-774-11
1-208-822-11
1-216-645-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
METAL

METAL 47K
METAL 22K
METAL 470
METAL 47K
560 0.50%

RV1
RV2
RV3

1-238-293-11 s CARBON, VAR 10K
1-238-290-11 s CARBON, VAR 1K
1-238-296-11 s CARBON, VAR 10K

----FRAME
----Ref. No.
or Q'ty Part No.
!

TANTALUM, CHIP 47uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 50V
CERAMIC, CHIP 0.01uF 10% 50V
CERAMIC, CHIP 0.022uF 10% 25V
CHIP, TANTALUM 4.7uF 20% 16V

DTA144EUA-T106
DTA144EUA-T106
XN6501
XN6501

0.50%
0.50%
0.50%
0.50%
1/10W

1/10W
1/10W
1/10W
1/10W

SP Description

1-251-386-11 s CRT ASSY, 1.5"
1-775-771-11 o FLEXIBLE CARD WIRE (14 CORE)
(VF-60 TO VR-199)

CN2F(to VF-60 BOARD)
1-764-196-11
1-695-215-11
CN21F(to LP-84 BOARD)
1-569-619-11
1-565-977-11
CN31F(to LP-85 BOARD)
1-569-619-11
1-565-977-11

BVP-550
BVP-550P

s
s
s
s
s

o HOUSING, 8P
o CONTACT, FEMALE AWG26-30
o HOUSING, CONNECTOR 4P
s CONTACT, FEMALE AWG 28-32
o HOUSING, CONNECTOR 4P
s CONTACT, FEMALE AWG 28-32

5-45

5-4. Supplied Accessories

5-5.Optional Fixtures

-------------------SUPPLIED ACCESSORIES
-------------------Ref. No.
or Q'ty Part No.
SP Description

-----------------TOOLS AND FIXTURES
-----------------Part No.
SP Description

1pc
1pc

5-46

1-542-233-12 o MICROPHONE
3-179-882-01 o SPACER, MICROPHONE

J-6026-110-A
J-6026-130-B
J-6029-140-B
J-6394-080-A
J-6395-040-A

o
o
o
o
o

MULTI-BURST CHART
GRAYSCALE CHART
PATTERN BOX PTB-500
GRAYSCALE CHART (16:9)
EXTENSION BOARD, EX-464

BVP-550
BVP-550P

SEMICONDUCTOR INDEX

Section 6
Semiconductor Pin Assignments
Semiconductors of which functions are equivalent are described here.
For parts replacement, refer to the section of Spare Parts in this
manual. The circuit diagram of each IC is obtained from the IC data
book published by the manufacturer.

Diode

PAGE

1S1588 .............................. 6-2
1SS226 ............................. 6-2
1SS300 ............................. 6-2
1SS302 ............................. 6-2
1T363 ................................ 6-2
CL-150D-CD .....................
CL-150PG-CD ..................
CL-150UR-CD ..................
CL-200HR .........................

6-2
6-2
6-2
6-2

2SC4177 ...........................
2SC4177-L6 ......................
2SC4178 ...........................
2SC4184 ...........................
2SC4215 ...........................
2SD1048 ...........................
2SD1111 ...........................
2SD1615A ........................
2SD1623 ...........................
2SD596 .............................
2SD596-DV5 .....................

6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-3
6-3
6-2
6-2

CXD1171M .......................
CXD2307R ........................
CXD2310R ........................
CXK1203AR .....................

DTA143XKA ......................
DTA144E ...........................
DTA144EUA ......................
DTC143XKA .....................
DTC144EE ........................
DTC144EK ........................
DTC144EKA .....................
DTC144EUA .....................

6-3
6-3
6-3
6-3
6-3
6-3
6-3
6-3

LA1140 ............................
LM339NS ........................
LM339PW .......................
LM358PS ........................
LM393PS ........................
LM4040BIMM3X .............

6-7
6-8
6-8
6-9

EL4581CS ........................ 6-9
HA11423MP ..................... 6-9
HD14053BFP .................. 6-10
HD151015T .................... 6-10
HD6475328F10 .............. 6-11

DE5LC20U ........................ 6-2
GL-5ED5 ........................... 6-2
HSM107S .........................
HSM88AS .........................
HSM88WA ........................
HSM88WK ........................

6-2
6-2
6-2
6-2

KV1470 ............................. 6-2
LT9527U ............................ 6-2

IMB2 .................................. 6-3
IMH2 ................................. 6-3

MA141WK ......................... 6-2

Others

RD ? ?M-B ? .....................
RD ? ?M-B ........................
RD ? ?MB .........................
RD ? ?UH .........................
RD ? ?UJN ........................

2SK612 .............................
2SK663 .............................
2SK664 .............................
2SK852-X2 .......................
2SK853 .............................

6-2
6-2
6-2
6-2
6-2

PAGE
6-3
6-3
6-3
6-3
6-3

SC802-04 .......................... 6-2

CXK58257ATM-70LL ......... 6-3

V09C ................................. 6-2
V09G ................................. 6-2
V11 ? ................................. 6-2

HM53461JP-12 ................. 6-4

Transistor

PC410 ............................... 6-5

PAGE

2SA1162G ........................
2SA1226 ...........................
2SA1610 ...........................
2SA1611 ...........................
2SA1688 ...........................
2SA1808 ...........................
2SA811A ...........................
2SB1115A .........................
2SB1121 ...........................
2SB1440S .........................
2SB624 .............................
2SB798 .............................
2SC1623 ...........................
2SC2223 ...........................
2SC2712 ...........................
2SC2713 ...........................
2SC2714Y ........................
2SC2757 ...........................
2SC2758 ...........................
2SC3115 ...........................
2SC3360 ...........................
BVP-550
BVP-550P

6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2

6-12
6-12
6-12
6-12
6-12
6-12

M27V201-200L6 ............. 6-12
M51132FP ...................... 6-13
M51958A ........................ 6-13
M52313SP ...................... 6-13
M62021FP ...................... 6-13
M62352GP ...................... 6-14
MAX202CSE ................... 6-14
MB88346BPFV ............... 6-14
MB88351PFV ................. 6-15
MC14018BF .................... 6-15
MC14020BF .................... 6-15
MC14023BF .................... 6-16
MC74HC00AF ................ 6-16
MC74HC4053F ............... 6-16
MN6790S ........................ 6-16
MN8232A ........................ 6-17
MSM82C55A-2GS ........... 6-17

MP7670AS ........................ 6-4

SGM2016M ....................... 6-5
UPA101G .......................... 6-5
XN6401 .............................
XN6435 .............................
XN6501 .............................
XN6534 .............................
XP6435 .............................
XP6501 .............................
XP6534 .............................
IC

6-5
6-5
6-5
6-5
6-5
6-5
6-5

PAGE

BA225F ............................. 6-6
CA3102M ..........................
CLC505AJE ......................
CXA1165M .......................
CXA1432M .......................
CXA1486Q ........................

6-6
6-6
6-6
6-6
6-7

NJM3414AM ...................
NJM4556AM-A ...............
NJM4558V ......................
NJU7022M ......................

6-18
6-18
6-18
6-18

PCF8574AT .................... 6-18
PCF8574T ...................... 6-18
REF-03GS ...................... 6-18
RTC4553B ...................... 6-19
SN74HC08ANS .............. 6-19
SN74HC08APW ............. 6-19
SN74HC157APW ............ 6-19
SN74HC74ANS .............. 6-19
SN74HCT04APW ............ 6-19
SN74HCT244APW-E05 ... 6-20
SN75158PS .................... 6-20
STK10C68-5S35 ............. 6-20
TA75S393F .....................
TA8129Z ..........................
TC4S01F ........................
TC4S11F ........................

6-20
6-21
6-21
6-21

TC4S30F ........................ 6-21
TC4S69F ........................ 6-21
TC4S71F ........................ 6-21
TC4S81F ........................ 6-22
TC4SU69F ...................... 6-21
TC4W53FU ..................... 6-22
TC4W66FU ..................... 6-22
TC74HC00AF ................. 6-16
TC74HC4052AFS (EL) .... 6-22
TC74HC4053AFS ............ 6-16
TC74HC4538AFS ............ 6-22
TC74HC595AF ............... 6-23
TC74VHC00FS (EL) ........ 6-16
TC74VHC02F ................. 6-23
TC74VHC04FS (EL) ........ 6-19
TC74VHC08FS (EL) ........ 6-19
TC74VHC138FS (EL) ...... 6-23
TC74VHC157FS ............. 6-19
TC74VHC163F ............... 6-23
TC74VHC20F ................. 6-24
TC74VHC244FS (EL) ...... 6-20
TC74VHC32FS (EL) ........ 6-24
TC74VHC541FS (EL) ...... 6-24
TC74VHC74F ................. 6-19
TC74VHC74FS (EL) ........ 6-19
TC7S00FU ...................... 6-21
TC7S02FU ...................... 6-21
TC7S04FU ...................... 6-21
TC7S08FU ...................... 6-22
TC7S32FU ...................... 6-21
TC7S66FU ...................... 6-24
TC7S86FU ...................... 6-21
TC7SH02FU ................... 6-21
TC7SH04FU ................... 6-21
TC7SH08FU ................... 6-22
TC7SH32FU ................... 6-21
TC7W00FU ..................... 6-24
TC7W02F ....................... 6-24
TC7W04FU ..................... 6-24
TC7W08FU ..................... 6-24
TC7W139FU ................... 6-25
TC7W32FU ..................... 6-25
TC7W74FU ..................... 6-25
TL062CPW ..................... 6-25
TL064CPW ..................... 6-25
TL074CPW ..................... 6-25
TL082M ........................... 6-25
TL084CPW ..................... 6-25
TLC0820ACDW .............. 6-26
TLC272CPW ................... 6-26
TLC27L2CPS .................. 6-26
UPC358G2 ..................... 6-12
UPC393G2 ..................... 6-12
UPD4702G ..................... 6-26
UPD6453GT-610 ............. 6-27
UPD71055GB-10-3B4 ..... 6-28
X24164S1 ....................... 6-28
X24C02S-3. 0 ................. 6-28

6-1

Di, Tr

DIODE

1S1588

SC802-04

GL-5ED5;A=RED,B=YEL GRN

1SS226
1SS302
HSM107S
HSM88AS

V09C
V09G
V11 ?

HSM88WK
MA141WK

TRANSISTOR

1SS300
HSM88WA
2SA1162G
2SA1226
2SA1610
2SA1611
2SA1688
2SA1808
2SA811A
2SB1440S
2SB624

KV1470

1T363
2SB1115A
2SB1121
2SB798
LT5927U

CL-150D-CD;ORANGE
CL-150PG-CD;GREEN
CL-150UR-CD;RED

3

(

2

)

CL-200HR;RED

DE5LC20U

RD ? ?M-B
RD ? ?MB
RD ? ?M-B ?

1

2SC1623
2SC2223
2SC2712
2SC2713
2SC2714Y
2SC2757
2SC2758
2SC3115
2SC3360
2SC4177
2SC4177-L6
2SC4178
2SC4184
2SC4215
2SD1048
2SD596
2SD596-DV5

2SD1111
RD ? ?UH
RD ? ?UJN

6-2

BVP-550
BVP-550P

Tr, Others

Others

2SD1615A
2SD1623

2SK612

2SK663

2SK852-X2
2SK853

2SK664
DTA143XKA(R1=4.7K R2=10K)
DTA144EE(R1=47K, R2=47K)
DTA144EUA(R1=47K, R2=47K)

CXK58257ATM-70LL(SONY)(ACCESS TIME=70ns)FLAT PACKAGE
C-MOS 256K(32768x8)-BIT STATIC RAM
– TOP VIEW –

DTC143XKA(R1=4.7K, R2=10K)
DTC144EE(R1=47K, R2=47K)
DTC144EK(R1=47K, R2=47K)
DTC144EKA(R1=47K, R2=47K)
DTC144EUA(R1=47K, R2=47K)

IMB2(R=47K)

IMH2(R=47K)

BVP-550
BVP-550P

6-3

Others

HM53461JP-12(HITACHI)(ACCESS TIME=120ns)PLCC

MP7670AS(MICRO POWER SYSTEMS)FLAT PACKAGE

C-MOS 64K WORDx4 BIT MULTI PORT RAM
– TOP VIEW –

C-MOS 8-BIT 8HANNEL D/A CONVERTER
– TOP VIEW –

C V

OUT

1

24 D V

OUT

B V

OUT

2

23 C V

IN

A V

OUT

3

22 D V

IN

B V IN 4
A V IN 5
6 GND
PR IN 7

VDD
21
(+5V)
20 DI

A
B
C
D
E
F
G
H

A
B
C
D
E
F
G
H

7
PR
16
LD
20
DI
17

IN

VSS
19
(–5V)
18 DO

OUT

E V IN 8

17 CK

IN

F V IN 9

16 LD

IN

E V

OUT

10

15 H V

IN

F V

OUT

11

14 G V

IN

G V

OUT

12

13 H V

OUT

CK
DI
DO
LD
PR

5
4
23
22
8
9
14
15

DO

3
2
1
24
10
11
12
13

18

; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT
; DATA LOAD CONTROL INPUT
; PRESET INPUT

5

LATCH A

D/A A

-

3

+

4

LATCH B

D/A B

-

2

+

23

LATCH C

D/A C

-

1

+

22

LATCH D

D/A D

-

24

+

8

LATCH E

D/A E

-

10

+

9

LATCH F

D/A F

-

11

+

14

LATCH G
PR

D/A G

-

12

+

15

7

LATCH H

D/A H

-

13

+

6

LD

DI
CK

6-4

16

20
17

A V
A V
B V
B V
C V
C V
D V
D V
E V
E V
F V
F V
G V
G V
H V
H V

GND

LOGIC
CONTROL

A3 A2 A1 A0

D7

TO

D0

18

DO

SERIAL SHIFT
REGISTER

BVP-550
BVP-550P

Others

PC410(SHARP)FLAT PACKAGE

XP6435

OPIC-OUTPUT PHOTO COUPLER
– TOP VIEW –

SGM2016M

XP6501

UPA101G(NEC)FLAT PACKAGE
TRANSISTOR ARRAY
– TOP VIEW –

XP6534

XN6401
XN6435

XN6501
XN6534

BVP-550
BVP-550P

6-5

IC

IC

BA225F(ROHM)

CXA1165M(SONY)FLAT PACKAGE

CR TIMER
– TOP VIEW –

CATV VHF TUNER
– TOP VIEW –

CA3102M(RCA)FLAT PACKAGE
HIGH FREQ.DIFFERNTIAL AMPLIFIER
– TOP VIEW –

CXA1432M(SONY)FLAT PACKAGE
VIDEO SIGNAL CLAMPER
– TOP VIEW –

CLC505AJE(COMLINEAR)FLAT PACKAGE
OPERATIONAL AMPLIFIER
– TOP VIEW –

6-6

BVP-550
BVP-550P

IC

CXA1486Q

(SONY)

CXD1171M(SONY)FLAT PACKAGE
C-MOS 8-BIT D/A CONVERTER
– TOP VIEW –

V EE

V CC

V EE I
DR V EE

DR V CC

GND2

GND I

V CC I

V CC , V CC I, DR V CC , = (+5V)
V EE , V EE I, DR V EE , = (-2.5 to -5.5V)
16
15
14
13
12
11
10
9

1
2
3
4
5
6
7
8

25
26
27
28
29
30
31
32

GND1

24
23
22
21
20
19
18
17

VIDEO AMPLIFIER FOR VIDEO CAMERA
– TOP VIEW –

24
12
26
14
2
27

BLACK1
BLKG
G CTRL
ZERO
W SHAD
F COMP

30
BLACK2
18
SIG IN
16
BLK SHAD
19
GS2
20
GS1
21
CLP PLS1
32
CLP PLS2
4
FB REF
9
KNEE PT

23
LPFC1
11
FLT DET
LPF C2

CLP C1
FLR DET
CLP C2

SIG OUT

1
OUT SW
10
KNEE SW

29

31
11

INPUT
BLACK1, 2
BLKG
BLK SHAD
CLP PLS1, 2
F COMP
FB REF
G CTRL
GS1, 2
KNEE PT
KNEE SW

PIN
No.

I/O

SIGNAL

PIN
No.

I/O

SIGNAL

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

I
I
–
I
–
–
O
–
I
I
O
I
–
I
–
I

OUT SW
W SHAD
GND I
FB REF
V EE I
DR V EE
SIG OUT
DR V CC
KNEE PT
KNEE SW
FLR DET
BLKG
GND2
ZERO
V CC
BLK SHAD

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

–
I
I
I
I
–
O
I
O
I
I
–
O
I
O
I

GND1
SIG IN
GS2
GS1
CLP PLS1
V EE
LPF C1
BLACK1
CLP C2
G CTRL
F COMP
V CC I
LPF C2
BLACK2
CLP C1
CLP PLS2

OUT SW
SIG IN
W SHAD
ZERO

; FOR CLAMP DC COMPENSATION
; BLANKING SIGNAL
; BLACK SHADING CORRECTION SIGNAL
; CLAMP PULSE
; FLARE COMPENSATION SIGNAL
; OUTPUT 2 INVERT AMPLIFY DC ADJUST
; WHITE BALANCE GAIN CONTROL
; GAIN SELECT
; KNEE POINT
; 1/4, 1/5 KNEE SELECT
(4.5V=1/4 KNEE, 0V=1/5 KNEE)
; OUTPUT 3 AMPLIFY SELECT
; SIGNAL INPUT
; WHITE SHADING SIGNAL
; VARIABLE GAIN AMPLIFY ZERO POINT ADJUST

OUTPUT
CLP C1, C2
FLR DET
LPF C1, C2
SIG OUT

; FOR CLAMP CAPACITANCE
; FLARE DETECT
; CONNECT CAPACITANCE FOR LPF
; SIGNAL OUTPUT

25

7

19, 20
GS1,2
21
CLP PLS1
24
BLACK1
23
LPF C1

31

CLP C1
18
SIG IN
16
BLK SHAD

G
BLKG

12

26
G CTRL
14
ZERO
2
W SHAD
27
F COMP

BLKG

WBAL
11

2dB

29

25
CLP C2
32
CLP PLS2
30
BLACK2

9

1/4 KNEE

FLR DET

LPF C2

KNEE PT

1/5 KNEE
10

KNEE SW

0dB

FB REF

4
4dB

DR

8
DR V DD
7
SIG OUT
6
DR V EE

0dB

OUT SW

1

BVP-550
BVP-550P

6-7

IC

CXD2307R(SONY)FLAT PACKAGE

CXD2310R(SONY)

C-MOS 10-BIT 50MSPS RGB 3CHANNEL D/A CONVERTER
– TOP VIEW –

C-MOS 10-BIT 20MSPS VIDEO A/D CONVERTER
– TOP VIEW –

(+5V)

(+5V)

AVDD 25

AVDD 26

AGND 27

VRT
29

AGND 28

VRT
30

NC 31

NC 32

VRB
34

NC 33

VRB

24

CE

23

OE

22

CLK

21

MINV

CAL 41

20

LINV

TS 42

19

TMOD

COURSE
CONPARATE
& ENCODE

AT 38
S/H
AMP.

VIN 39

+

40 NC

TIMING
GEN.

+ –

43 AGND

DAC

CALIVBRATION
UNIT

TSTR 37

35

AGND 36

TOP VIEW

AMP.
(x 8)

44 AGND
45 DVDD
(+3V)

AVDD 18
(+5V)

17

FINE
COMPARATE
& ENCODE

46 NC

39
34
35
41
17
15
24
23
22

14
37
42

VRT

D9

VRT

D8

VIN

D7

VRB

D6

VRB

D5

CAL

D4

SEL

D3

RESET

D2

CE

D1

OE

D0

15

RESET

14

TIN

13

TO

D9 12

D8 11

D7 10

9
D6

5
D4

8

4
D3

COURSE CORRECTION
& LATCH

D5

3
D2

DD
7 DV
(+3V)

2

1
30

D0

(LSB)

29

D1

FINE LATCH

6 DGND

47 NC
48 DGND

SEL

DGND 16

12
11
10
9
8
5
4
3
2
1

CLK

TIN

TO

TSTR

AT

13
38

TS

INPUT
CAL
CE
CLK
LINV
MINV
OE
RESET
SEL
TIN
TMOD
TS
TSTR
VRB
VRT

; CALIBRATION PULSE INPUT
; CHIP ENABLE
; CLOCK
; OUTPUT (D0-D8) INVERSION
; OUTPUT (D9) INVERSION
; DIGITAL DATA OUTPUT ENABLE
; CALIBRATION CIRCUIT RESET
; OUTPUT DATA (D5-D9) SELECT FOR CALIBRATION (4-CLOCK)
HIGH; THROUGH OUTPUT, LOW; DATA FIXED AS WITH D0-D4
; TEST SIGNAL INPUT
; TEST MODE
; TEST SIGNAL INPUT
; TEST SIGNAL INPUT
; REFERENCE BOTTOM VOLTAGE
; REFERENCE TOP VOLTAGE

OUTPUT
AT
; TEST SIGNAL OUTPUT
D0-D9
; DIGIRAL DATA OUTPUT
TO
; TEST PIN

6-8

BVP-550
BVP-550P

IC

CXK1203AR(SONY)FLAT PACKAGE

EL4581CS(ELT)FLAT PACKAGE

C-MOS DIGITAL LINE MEMORY
– TOP VIEW –

VIDEO SYNC SEPARATOR
– TOP VIEW –

HA11423MP(HITACHI)FLAT PACKAGE
TV H/V SYNC SIGNAL PROCESSOR
– TOP VIEW –

BVP-550
BVP-550P

6-9

IC

HD14053BFP(HITACHI)FLAT PACKAGE
C-MOS TRIPLE 2-CHANNEL ANALOG MULTIPLEXERS/
DEMULTIPLEXERS
– TOP VIEW –

HD151015T(HITACHI)FLAT PACKAGE
C-MOS 9-BIT LEVEL SHIFTER/TRANSCEIVER WITH 3-STATE OUTPUTS
– TOP VIEW –

6-10

BVP-550
BVP-550P

IC

HD6475328F10(HITACHI)
C-MOS 16-BIT MICROPROCESSOR
– TOP VIEW –

BVP-550
BVP-550P

6-11

IC

LA1140(SANYO)

LM393PS(TI)FLAT PACKAGE
UPC393G2(NEC)FLAT PACKAGE

IF AMP,LIMITTER,DETECTOR,MUTING,+ FM CS
DUAL VOLTAGE COMPARATORS
– TOP VIEW –

LM4040BIM3X(NS)
PRECISION MICROPOWER SHUNT VOLTAGE REFERENCE
– TOP VIEW –

M27V201-200L6(SGS)CHIP CARRIER

LM339NS(TI)FLAT PACKAGE
LM339PW(TI)FLAT PACKAGE

C-MOS 2M(256X8)-BIT UV ERASABLE PROM AND OTP ROM
– TOP VIEW –

QUAD COMPARATORS
– TOP VIEW –

LM358PS(TI)FLAT PACKAGE
UPC358G2(NEC)FLAT PACKAGE
DUAL OPERATIONAL AMPLIFIERS
– TOP VIEW –

6-12

BVP-550
BVP-550P

IC

M51132FP(MITSUBISHI)FLAT PACKAGE

M52313SP(MITSUBISHI)

2-CHANNEL ELECTRONIC LEVEL CONTROL
– TOP VIEW –

PLL VIF/SIF
– TOP VIEW –

VREF OUT 1

16 OUT1

FILTER 2

NC 13

4 GND
LEVEL/LEVEL1 5
REDUCE 6

10 OUT 2

FILTER
GND

9

MODE
SEL

FILTER

V REF OUT
6
REDUCE
8
PASS/VCA

11 IN 2

PASS/VCA 8

V REF OUT

2

NC 12

BAL/LEVEL2 7

16
OUT1
10
OUT2

5
LEVEL/LEVEL1
7
BAL/LEVEL2
9
MODE SEL

15 IN1
VCC (+12V) 14

3 NC

Vcc

15
IN1
11
IN2

1

BAL/LEVEL2 ; BALANCE/LEVEL2 CONTROL
FILTER
; FILTER
IN1
; INPUT 1
IN2
; INPUT 2
MODE SEL
; MODE SELECT
OUT1
; OUTPUT 1
OUT2
; OUTPUT 2
PASS/VCA
; PASS/VCA CONTROL SWITCH
REDUCE
; SWITCHING NOISE REDUCE
LEVEL/LEVEL1 ; LEVEL/LEVEL1 CONTROL
V REF OUT
; REFERENCE VOLTAGE OUTPUT

OUTPUT
VCA1 BUFFER 1

14

16
1

REG

15

2

OUT1
IN1

INPUT
BUFFER 1

4

5
LEVEL/LEVEL1
7
BAL/LEVEL2

INPUT
BUFFER 2

CONTROL
VOLTAGE
GENERATOR

11
10

6
REDUCE
8
PASS/VCA
9
MODE SEL

CONTROL MODE
SELECT
PASS/VCA
SELECT

VCA2

IN2
OUT2

OUTPUT
BUFFER 2

M62021FP(MITSUBISHI)FLAT PACKAGE
SELECTION SW BUILT-IN SYSTEM RESET
– TOP VIEW –

M51958A(MITSUBISHI)FLAT PACKAGE
VOLTAGE DETECT DELAY
– TOP VIEW –

1

NC 8

NC

Vcc
7
(+2 to +17V)

IN 2
3 NC

6 OUT

4 GND

5 CD

Vcc

25µA

5µA

6

IN

OUT

+

2
–
+
1.25V
5
CD

BVP-550
BVP-550P

6-13

IC

M62352GP(MITSUBISHI)FLAT PACKAGE

MAX202CSE(MAXIM)

C-MOS 8-BITx12 CHANNEL D/A CONVERTER (WITH BUFFER OPERATIONAL
AMPLIFIER)
– TOP VIEW –

RS-232 TRANSMITTER/RECEIVER
– TOP VIEW –

MB88346BPFV(FUJITSU)FLAT PACKAGE(SMALL)
C-MOS 8-BIT D/A CONVERTER
– TOP VIEW –

6-14

BVP-550
BVP-550P

IC

MB88351PFV(FUJITSU)FLAT PACKAGE

MC14018BF(MOTOROL)FLAT PACKAGE

C-MOS 12-BIT D/A CONVERTER WITH OPERATIONAL AMPLIFIER
– TOP VIEW –

C-MOS PRESETTABLE DIVIDE-BY-N COUNTER
– TOP VIEW –

MC14020BF(MOTOROLA)FLAT PACKAGE
C-MOS 14-STAG RIPPLE-CARRY BINARY COUNTER/DRIVER
– TOP VIEW –

BVP-550
BVP-550P

6-15

IC

MC14023BF(MOTOROLA)FLAT PACKAGE

MN6790S(MATSUSHITA)

C-MOS 3-INPUT NAND GATE
– TOP VIEW –

C-MOS CLOCK GENERATOR
– TOP VIEW –

MC74HC00AF(MOTOROLA)FLAT PACKAGE
TC74HC00AF(TOSHIBA)FLAT PACKAGE
TC74VHC00FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS QUAD 2-INPUT NAND GATES
– TOP VIEW –

MC74HC4053F(MOTOROLA)FLAT PACKAGE
TC74HC4053AFS(TOSHIBA)FLAT PACKAGE
C-MOS TRIPLE 2-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER
– TOP VIEW –

6-16

BVP-550
BVP-550P

IC

MN8232A(MATSUSHITA)

MSM82C55A-2GS(OKI)FLAT PACKAGE

PICTURE IN PICTURE/PICTURE OUT PICTURE CONTROLLER
– TOP VIEW –

C-MOS PROGRAMMABLE PERIPHERAL INTERFACE
– TOP VIEW –

BVP-550
BVP-550P

6-17

IC

NJM3414AM(SNM)FLAT PACKAGE
DUAL OPERATIONAL AMPLIFIER
– TOP VIEW –
8
Vcc

7

6

PCF8574AT(PHILIPS)
PCF8574T(PHILIPS)
C-MOS REMOTE 8-BIT I/O EXPANDER
– TOP VIEW –

5

+
+
1

2

NOTE:
TYPE
TA75358P
NJM3414M
RC3414M
M5223FP

3

GND
4

Vcc
+12V
+15V
+36V

NJM4556AM-A(NEC)FLAT PACKAGE
OPERATIONAL AMPLIFIER\(WIDE BAND, DECOMPENSATED)
– TOP VIEW –

NJM4558V(JRC)FLAT PACKAGE
NJU7022M(JRC)FLAT PACKAGE
DUAL OPERATIONAL AMPLIFIER
– TOP VIEW –

REF-03GS(PMI)
REFERENCE/TEMPERATURE TRANSDUCER
– TOP VIEW –

6-18

BVP-550
BVP-550P

IC

RTC4553B(EPSON)

SN74HC157APW(TI)FLAT PACKAGE
TC74VHC157FS(TOSHIBA)FLAT PACKAGE(SMALL)

C-MOS REAL TIME CLOCK
– TOP VIEW –

C-MOS QUAD 2-LINE-TO-1-LINE DATA SELECTOR/MULTIPLEXER
– TOP VIEW –

SN74HC74ANS(TI)FLAT PACKAGE
TC74VHC74F(TOSHIBA)FLAT PACKAGE
TC74VHC74FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS DUAL D-TYPE FLIP-FLOPS WITH DIRECT SET/RESET
– TOP VIEW –

SN74HC08ANS(TI)FLAT PACKAGE
SN74HC08APW(TI)FLAT PACKAGE
TC74VHC08FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS QUAD 2-INPUT AND GATES
– TOP VIEW –

SN74HCT04APW(TOSHIBA)FLAT PACKAGE
TC74VHC04FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS HEX INVERTERS
– TOP VIEW –

BVP-550
BVP-550P

6-19

IC

SN74HCT244APW-E05(TI)FLAT PACKAGE
TC74VHC244FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS BUS BUFFER WITH 3-STATE OUTPUTS
– TOP VIEW –

STK10C68-5S35(SIMTEK)FLAT PACKAGE
C-MOS 8KX8-BIT NONVOLATILE STATIC RAM
– TOP VIEW –

SN75158PS(TI)
DUAL DIFFERENTIAL LINE DRIVE
– TOP VIEW –

TA75S393F(TOSHIBA)
SINGLE COMPARATOR
– TOP VIEW –

6-20

BVP-550
BVP-550P

IC

TA8129Z(TOSHIBA)
FM IF SYSTEM (DIFFERENTIAL PEAK DETECT)
– TOP VIEW –

TC4S30F(TOSHIBA)CHIP PACKAGE
TC7S86FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT EXCLUSIVE OR GATE
– TOP VIEW –

TC4S69F(TOSHIBA)CHIP PACKAGE
TC4SU69F(TOSHIBA)CHIP PACKAGE
TC7S04FU(TOSHIBA)CHIP PACKAGE
TC7SH04FU(TOSHIBA)CHIP PACKAGE
C-MOS INVERTER
– TOP VIEW –

TC4S01F(TOSHIBA)CHIP PACKAGE
TC7S02FU(TOSHIBA)CHIP PACKAGE
TC7SH02FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT NOR GATE
– TOP VIEW –

TC4S71F(TOSHIBA)CHIP PACKAGE
TC7S32FU(TOSHIBA)CHIP PACKAGE
TC7SH32FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT OR GATE
– TOP VIEW –

TC4S11F(TOSHIBA)CHIP PACKAGE
TC7S00FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT NAND GATE
– TOP VIEW –

BVP-550
BVP-550P

6-21

IC

TC4S81F(TOSHIBA)CHIP PACKAGE
TC7S08FU(TOSHIBA)CHIP PACKAGE
TC7SH08FU(TOSHIBA)CHIP PACKAGE

TC74HC4052AFS(EL)(TOSHIBA)FLAT PACKAGE
C-MOS DUAL 4-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER
– TOP VIEW –

C-MOS 2-INPUT AND GATE
– TOP VIEW –

TC4W53FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-CHANNEL MULTIPLEXER/DEMULTIPLEXER
– TOP VIEW –

TC74HC4538AFS(TOSHIBA)FLAT PACKAGE
C-MOS DUAL RETRIGGERABLE/NON-RETRIGGERABLE MONOSTABLE
MULTIVIBRATOR
– TOP VIEW –

TC4W66FU(TOSHIBA)CHIP PACKAGE
C-MOS DUAL BILATERAL SWITCH
– TOP VIEW –

6-22

BVP-550
BVP-550P

IC

TC74HC595AF(TOSHIBA)FLAT PACKAGE

TC74VHC138FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

C-MOS 8-BIT SERIAL-INPUT/SERIAL- OR PARALLEL-OUTPUT\SHIFT REGISTER
WITH LATCHED 3-STATE OUTPUT
– TOP VIEW –

C-MOS 3-TO-8 LINE DECODER/DEMULTIPLEXER
– TOP VIEW –

TC74VHC163F(TOSHIBA)FLAT PACKAGE
C-MOS PRESETTABLE SYNCHRONOUS 4-BIT BINARY COUNTER
– TOP VIEW –

TC74VHC02F(TOSHIBA)FLAT PACKAGE
C-MOS QUAD 2-INPUT NOR GATES
– TOP VIEW –

BVP-550
BVP-550P

6-23

IC

TC74VHC20F(TOSHIBA)FLAT PACKAGE

TC7W00FU(TOSHIBA)CHIP PACKAGE

C-MOS 4-INPUT POSITIVE-NAND GATE
– TOP VIEW –

C-MOS 2-INPUT NAND GATE
– TOP VIEW –
A

1

B

2

1

8 VDD
(+2 to +6 V)

2

7

3

6

5

GND 4

5

6

A

7 Y

B

Y

3
Y=A•B=A+B

A
0
0
1
1

B
0
1
0
1

Y
1
1
1
0

0; LOW LEVEL
1; HIGH LEVEL

TC7W02F(TOSHIBA)FLAT PACKAGE
C-MOS DUAL 2-INPUT NOR GATE
– TOP VIEW –

TC74VHC32FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS QUAD 2-INPUT OR GATES
– TOP VIEW –

TC7W04FU(TOSHIBA)CHIP PACKAGE
C-MOS HEX INVERTERS
– TOP VIEW –

TC74VHC541FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS BUFFERS AND LINE DRIVERS WITH 3-STATE OUTPUTS
– TOP VIEW –

TC7W08FU(TOSHIBA)CHIP PACKAGE
C-MOS DUAL 2-INPUT AND GATE
– TOP VIEW –

TC7S66FU(TOSHIBA)
C-MOS ANALOG SWITCH
– TOP VIEW –

6-24

BVP-550
BVP-550P

IC

TC7W139FU(TOSHIBA)CHIP PACKAGE

TL062CPW(TI)FLAT PACKAGE
TL082M(TI)

C-MOS 2 to 4 LINE DECODER WITH ENABLE
– TOP VIEW –
(SCALE 5/1)

(SCALE 5/1)
1

V DD
8 (+2 to +6V)

2

7

3

6

GND 4

OPERATIONAL AMPLIFIER\(J FET INPUT)
– TOP VIEW –

V DD
8 (+2 to +6V)
7
6
5

1
2
3
GND 4

5
FU TYPE

F TYPE
1
A
2
B

INPUTS
SELECT
B
A
0
0
0
1
1
0
1
1

7
Y0
6
Y1
5
Y2
3
Y3

OUTPUTS
Y0

Y1

Y2

Y3

SELECTED
OUTPUT

0
1
1
1

1
0
1
1

1
1
0
1

1
1
1
0

Y0
Y1
Y2
Y3

TL064CPW(TI)
OPERATIONAL AMPLIFIER\(J FET INPUT)
– TOP VIEW –

0 ; LOW LEVL
1 ; HIGH LEVEL

TC7W32FU(TOSHIBA)CHIP PACKAGE
C-MOS DUAL 2-INPUT OR GATE
– TOP VIEW –
A

1

B

2

1

8 VDD
(+2 to +6 V)

2

7

3

6

5

GND 4

5

6

A

7 Y

B

Y

3
Y=A+B=A•B

A
0
0
1
1

B
0
1
0
1

Y
0
1
1
1

TL074CPW(TI)
0; LOW LEVEL
1; HIGH LEVEL

OPERATIONAL AMPLIFIER\(LOW-NOISE, JFET-INPUT)
– TOP VIEW –

TC7W74FU(TOSHIBA)CHIP PACKAGE
C-MOS D-TYPE FLIP-FLOPS WITH DIRECT SET/RESET
– TOP VIEW –

TL084CPW(TI)
OPERATIONAL AMPLIFIER\(J FET INPUT)
– TOP VIEW –

BVP-550
BVP-550P

6-25

IC

TLC0820ACDW(TI)FLAT PACKAGE

UPD4702G(NEC)

C-MOS 8-BIT SEMIFLASH TYPE A/D CONVERTER
– TOP VIEW –

C-MOS INCREMENTAL ENCODER 8BIT UP DOWN COUNTER
– TOP VIEW –

TLC272CP
TLC272CPW(TI)
TLC27L2CPS(TI)FLAT PACKAGE
OPERATIONAL AMPLIFIER
– TOP VIEW –

6-26

BVP-550
BVP-550P

IC

UPD6453GT-610(NEC)FLAT PACKAGE
C-MOS ON-SCREEN CHARACTER DISPLAY
– TOP VIEW –

BVP-550
BVP-550P

6-27

IC

UPD71055GB-10-3B4(NEC)FLAT PACKAGE
C-MOS PARALLEL INTERFACE UNIT
– TOP VIEW –

X24164SI(XICOR)(16K BIT)FLAT PACKAGE
X24C02S-3.0(XICOR)(2K BIT)FLAT PACKAGE
C-MOS SERIAL EEPROM
– TOP VIEW –

A0 IN 1

Vcc (+5V) 8

A1 IN 2

7 WC* IN

A2 IN 3

6 SCL IN

SDA

SCL

7

SDA

5

WC*

5 SDA OUT

4 GND

WC *

6
SCL
3
A2
2
A1
1
A0

7

5

6

START
CYCLE

START
STOP
LOGIC

SLAVE ADDRESS
REGISTER
COMPARATOR

CONTROL
LOGIC

LOAD
INC

3
A2
2
A1
1
A0

H. V. GENERATION
TIMING &
CONTROL

E 2 PROM
2K ; 64x32
4K ; 64x64
16K ; 64x256

X DEC

WORD
ADDRESS
COUNTER

Y DEC

R/W

CK
PIN

D OUT
ACK

8
DATA
ERGISTER
D OUT

NOTE : * TEST (at X24164SIC7000)

6-28

BVP-550
BVP-550P

Section 7
Block Diagrams

BVP-550
BVP-550P

7-1

7-1

OVERALL

OVERALL

OVERALL BLOCK
OHB-450/451/550/550WS

M GAIN / FLARE COMP

AD VD
AD HD

TP200

CCD UNIT

VIDEO AMP
for
VIDEO CAMERA

RV200
R GAIN

CT200
R FREQ

B BLK SHAD

R W SHD

R(X)

R(X)

R FEED BACK

R FEED BACK

AMP
R KNEE P2

FLOATING
AMP

R(X)

R GAIN
R KNEE P1

R(X)

36/18 M CLK

HTSG

PR-212

TP300
VIDEO AMP
for
VIDEO CAMERA

RV300
G GAIN

CT300
G FREQ

G BLK SHAD
G W SHD

G(X)

G(X)

G FEED BACK

G FEED BACK

B(X)

B(X)

B FEED BACK

B FEED BACK

AMP

(OHB-550WS only)

R/G/B

R/G/B
Y0-Y9

G KNEE P2

FLOATING
AMP

G(X)

G GAIN
G KNEE P1

G(X)

PA-181

RY0-RY9

TP400

LENS

CT400
B FREQ

B BLK SHAD
HCLP
R W SHAD
GW SHAD
B W SHAD
HTSG

GC
ARRAY

M.BLK SHD
R W SHD
GW SHD
B W SHD

TEST SAW(X)

36/18MHz

RV50

IIC DATA

CN903
VF

IIC DATA

D/A
CONV.

TEST1/
TEST TEST2
SIG.
GEN.

TITLE BACK

VA-163

ND FILT
CC FILT

DBO-DB7

DATA

TEMP

A0,A1
RD
WR

ADDRESS

BACK UP
BATTERY

RM VBS(X)
MIC

TAPE REM
HD
VD

POWER SAVE

S3

IIC DATA

BAR
B
A
RESET

DCC
S4

CANCEL

SW-742

S1

SW-730

OFF
ON
SEL
AWB

S2
AWB/ABB

ABB

S1
DISP/MENU
S2
MONI

IIC DATA

I/O
EXP.

RV1
INCOM LEVEL

ON
OFF
MENU
R
G
B
ENC

D/A
CONV.

SYNC
GEN.

NEW/OLD CA

ROM

RV1 AUDIO

NEW
CM
I/F

COM DATA

U/D
COUNTER

TALLY ON
D/A
CONV.

IIC DATA
VTR S/S TRIG
RET EN
ZEBRA
REC TALLY
PB REF

I/O
EXP.

REAL
TIME
CLOCK
IIC DATA

DELAY

TITLE BACK
CHAR VF
CHARA
TITLE
GEN. CHAR BACK

TP2

MENU
SEL

TP5

S1

N/P
H COMP
SC CONT

SC(X)

IRIS CONT
fsc FREQ
AUTO +5V
REM/LOCAL
VTR S/S
RET EN
VE RGB
WIDE
ABNORMAL
G TALLY

AT-95

DL SYNC/BLKG

VCO CONT

CCU H CONT

SG-234

I/O
EXP.

RGB
S3
ENC/RGB

S3
VTR
START
/STOP

IIC DATA

TP3

WHITE

SHUTTER

RAM

SW-733
I/O
EXP.

V RESET

V RESET2

SET
RE AØ
RE BØ

BURST SC
SEP BPF
CONT.
DET

V RESET

BLKG
SAMPLE 1
CF
SYNC
VD
FLD1
SYNC
VD
HD
BF
BLKG
LALT
2FH
VD
HD
HD
NRW BLKG
INT/EXT

SYNC SYNC
SEP.

H CONT1
H CONT2
V RESET1/CF

BACK UP

VTR SAVE

RE A
RE B

S2

µ-COM

COM CONT

L
M
H
DCC ON

GEN VIDEO

AMP

AUDIO LEVEL

SET
CANCEL

CABLE
COMP

CE0
CE1

RM SD

POWER

GAIN

ADDRESS
DECODER

232C
I/F
CA(CONT/DATA)

RM SD

MIC
S1

BA

EX ON
IRIS POSI
ZOOM POSI
TP1

ON
ON
SAVE

GEN LOCK(X)
GEN LOCK(G)/H CONT

BA
TEMP

CN905

PR-211

I/CO CONT

DR-271

REMOTE

R BLK SHAD
G BLK SHAD
B BLK SHAD
R WHT SHAD
G WHT SHAD
B WHT SHAD
TEST SAW(X)
D.OUT EN
SC(X)
CHAR VF
CORSOR 1
CORSOR 2

TITLE
FLD1
SYNC
VD
HD
BF
BLKG
LALT
2FH
NRW BLKG
INT/EXT
SC CONT
INT/EXT VD
INT/EXT HD

DC/DC
CONT

ND FILT
CC FILT

CN902

HI-Y(X)
C(X)
VF-Y(X)

A0,A1
RD
WR
CE0
CE1

R GAIN
G GAIN
B GAIN
R KNEE P1
G KNEE P1
B KNEE P1
R KNEE P2
G KNEE P2
B KNEE P2

TG-159

ZEBRA
VF RGB
WIDE
ABNORMAL
G TALLY
BATT ALARM
N/P
TALLY
VF(X)
VF-Y(X)
VF R-Y(X)
VF B-Y(X)

B W SHD

TEST

AD VD
AD HD

BY0-BY9

DB0-DB7
B KNEE P2

RV400
B GAIN

EX ON
IRIS POSI
ZOOM POSI
VTR S/S TRIG
RET EN
AUTO +5V
REM/LOCAL
IRIS CONT

CN904

FLOATING
AMP

B(X)

B GAIN
B KNEE P1

B(X)

AMP

VIDEO AMP
for
VIDEO CAMERA

SW-732

AUDIO CH1 CONT

SW-731

CN-1122

7-2

7-2

BVP-550
BVP-550P

OVERALL

DC/DC
CONVERTER

OVERALL

Y0-Y9

POWER
SAVE

Y0-Y9
RY0-RY9

BUFF

BY0-BY9
1121 CONTROL

Y0-Y9

BY0-BY9

1121 CONTROL

Y0-Y9

RY0-RY9

Y0-Y9

B,OUT EN
DDL

Y(X)
R-Y(X)
B-Y(X)

DY0-DY9

SAMPLE1
BLKG
VD
CF
SYNC
18MCLK

CN-1121

TP4
RY0-RY9

RY0-RY9

RY0-RY9

ATT
D/A
CONV.

BY0-BY9

BY0-BY9

HI-Y(X)
C(X)
VF-Y(X)

HI-Y(X)
C(X)
VF-Y(X)

BY0-BY9

DYB1-DYB9
DDL

IIC DATA

S→P
CONV.

R-Y(X)

R-Y(X)

B-Y(X)

B-Y(X)

DRY0-DRY9

DDL

LEVEL
CTL

TP5
ATT

DYB0-DYB9

DYB0
LEVEL
CTL

SKIN GATE ON/OFF

SKIN GATE
R-Y SYNC LEV
B-Y SLP LEV
SETUP 2
D/A
CONV.

Y, R-Y, B-Y LEV

LEVEL
CTL

Y SPL LEV
SETUP 1

LEVEL
CTL

TP3

H1-Y(X)

Y(X)

ATT

Y(X)

TP2
VBS(X)
BLKG

C(X)
VF-Y(X)
DLSYNC/BLKG

C(X)
VF-Y(X)
VTR SYNC

PULSES
SHAPER

C(X)
VTR SYNC

DA-88

N/P
TO PR CONTROL
FROM PR CONTROL
IIC DATA

TO PR CONTROL
FROM PR CONTROL
IIC DATA

RV101
VBS GAIN
GEN VIDEO

GEN VIDEO

VBS(X)

VBS(X)

VBS(X)

RM VBS(X)

TEST(X)

RM chose ON/OFF

TEST OUT

CHAR VF
VF-Y(X)
MONI(X)

MONI(X)

CHAR BACK
VF(X)
CORSOR 1
CORSOR 2
IIC DATA
VD
HD

VD
HD

S→P
CONV.

TEST SEL
VF/MONI SEL

PB REF
RET VIDEO(X)
DL SYNC/BLKG
N/P

N/P

SYNC
SEP

GEN LOCK(X)

VD
HD

VD
HD

TIMING
PULSE
SW'er

INT/EXT VD
INT/EXT HD

SKIN GATE

SKIN GATE
DL SYNC

VF Y(X)

Y(X)

R(X)
G(X)
B(X)
VF R-Y(X)
VF B-Y(X)

R-Y(X)
B-Y(X)

TALLY

TALLY
DRIVE
TALLY ON
CONTROL

CONTROL

PB REF
RET VIDEO(X)

S1

DL SYNC/BLKG

SKIN GATE
R(X)
B(X)
REC TALLY
G(X)
MIC
VTR SAVE
AUDIO CH1 CONT
AUDIO LEVEL
TAPE REM
CA(CONT/DATA)
COM CONT
PB REF
COM DATA
VTR S/S
RET EN
GEN LOCK(X)
GEN LOCK(G)/H CONT
H CONT
V RESET/CF
HD

REC TALLY
N/P

REC TALLY
N/P

IF-510
VF CONTROL
RM VSB(X)
1120 CONTROL

IIC DATA
BATT ALARM

VF CONTROL

OVERALL BLOCK

RM VBS(X)
1120 CONTROL

CN-1120

BVP550-OVERALL#1/M

BVP-550
BVP-550P

7-3

7-3

BVP-550
BVP-550P

VA-163

VA-163

VA-163 BOARD

IC202

125mVp-p/100%

250mVp-p/100%

880mVp-p/100%

TP200
Q200-204
PA, 1-6

1-74

FLOATING
AMP

R (X)

Q205

Q206, 207, FL200

BUFF

18M TRAP
FILTER

Q209-212
18

M.G
SW

G.CLT
AMP

BLG

2dB
AMP

KNEE
1/4, 1/5

0dB
AMP

DR

7

Q215-217

6dB
AMP

+
AMP
-

M.V.SAW SHD

IC201
5

1

6
16

14

12

26

2

14

27

32

11

R F-DET

CLP2 ATT

R F-COMP

RW SHD

GC1

R GC BAL

BUFF
R GAIN

AMP

23
Q208

21

R NAM V

12

R BLK SHAD

19

CLP1 ATT

1-80

TEST

PR, 2-22

20

CLP2

GC2

IC6

1-54

PR, 2-9

7

5

10

Q213, 214

9

IC200
1

PRE
KNEE 2

LPF

IC203
3 1

SAMPLE
HOLD

6

R FEED BACK IN 1-60

5

R KNEE P2

AMP

CLP

R KNEE P1

IC200
14

R (X) OUT

CLP

KNEE MODE

CT200
R FREQ

PRE BLKG

RV200
R GAIN

PR, 2-14

IC218-220
4

1
204

WINDOW
COMP

2

CLP 2
IC302
125mVp-p/100%

250mVp-p/100%

TP300
Q300-304
PA, 1-4

1-72

FLOATING
AMP

G (X)

880mVp-p/100%
Q309-312

Q306, 307, FL300

Q305

18

18M TRAP
FILTER

BUFF

M.G
SW

G.CLT
AMP

BLG

KNEE
1/4, 1/5

2dB
AMP

7

0dB
AMP

Q315-317

6dB
AMP

DR

+
AMP
-

M.V.SAW SHD

AMP

IC301
5

1

CLP
6
16

5

23
Q308

21

12

26

2

14

27

32

11

R F-DET

CLP2 ATT

R F-COMP

R GC BAL

RW SHD

BUFF

GC1

Q313, 314

9

10

IC300
1

PRE
KNEE 2

R NAM V

AMP

CLP1 ATT

G BLK SHAD

19

GC2

1-79

TEST

PR, 2-23

20

CLP2

8

R GAIN

IC6
10

1-52

PR, 2-7

7

LPF

IC303
3

1

SAMPLE
HOLD

6

G FEED BACK IN 1-59

5

R KNEE P2

IC300

R KNEE P1

14

G (X) OUT

CLP

KNEE MODE

CT300
G FREQ

PRE BLKG

RV300
G GAIN

PR, 2-15

IC318-320
4

1
304

WINDOW
COMP

2

CLP 2
IC402

125mVp-p/100%

250mVp-p/100%

TP400
FLOATING
AMP

BUFF

880mVp-p/100%
Q409-212
18

18M TRAP
FILTER

M.G
SW

M.V.SAW SHD
RV400
B GAIN

CT400
B FREQ
14

IC400
AMP

IC401
5

1

+5V

IC26
1
2
3
6

A0
SDA
A1
A2
EEPROM

16
5

15

DO

AT, 1-20

1-1

LD (VA)

1, 2

27

16

16
25

DI

A01

4
15

A06
D/A
CONV. A07
A08
LD

A09
A010
A011
A012

18

R KNEE P1

19

G KNEE P1

DO

2

R KNEE P2

4

G KNEE P2

5

B KNEE P2

6

R GC BAL

7

G GC BAL

8

B GC BAL

9

TEST1 ON/OFF

12

TEST2 LEVEL1

13

TEST2 LEVEL2

14

14

IC20
SI

15

12

Q3
RCK

Q4
Q5
Q6
QH

2
4

GC1

4, 6,
9, 11

IC9

TIMING
PULSE GEN. 2, 13 10
9 23
FOR TEST2

1
2

Q11

Q12, 13

NAM
SW

8

1-9

2

11

10

6 TEST2 ON/OFF
9

18-20

S0

4

14-4

4

13-4

IC12, 14
H.SAW
GEN.

IC16, 18
SD1 VOA
VOC

16-14

IC12
13

H.PARA
GEN.

14

18-14

2

V.PARA
GEN.
15

18-8
1

18-9

16-8

5

3

1-13

PRE BLKG

ATT

1

BLKG
TG, 1-13

1-12

H CLP 1

23

6

PRE BLKG

PR, 2-13

R KNEE P2

R KNEE P1

KNEE MODE

R F-DET

CLP2 ATT

404

WINDOW
COMP

2

IC1, Q1

11

+4.8V

8

B NAM V

VOB

RW SHD
GW SHD

18-1

BW SHD

16-13

M.V.SAW SHD

16-3 12

+7.3V

1-93

+7.3V

1-94

+5.1V

1-91

+5.1V

1-92

IC1, Q2

IC3

+2.5V

14

+2.5V REF OUT 1-89

PR, 2-24

IC1, Q7

R F-COMP

-2.5V
REG.

PRE BLK

11

2

IC6
+2.5V
REG.

IC17

13

REG.
CONT

-2.8V

1-85

-2.8V

1-86

-2.5V
16-2 2

IC17
15

IC1, Q3

G F-COMP

1

-5V
REG.

PRE BLK

10

-5.1V

1-87

-5.1V

1-88

-4.8V

16-1 5

IC17
4

B F-COMP

3
9

PRE BLK
IC15

18-13

V1A

16-5

8

18-11

10

R F-DET

12

G F-DET

AMP
IC15

VOH

18-23
16-12
16-11

AMP

VOA

V1B
VOE
VOE

16-10
18-10

G NAM V

V1C
VOD
VOF

V1B

VOF

V1C

16-4

14

16-23

1

AMP
IC15

B F-DET

3

AMP

Q4

Q5

BUFF

NAM

1

+4.8V

7

IC5

2

4

23

2

5

H CLP

B FEED BACK IN 1-60

VOB

18-4

AMP

V1G

V1A VOC
VOB
VOD

18-24

R NAM V

PRE BLK
4

1

TEST

18-2

V1D

18-5
16-24
18-12

IC19
10

B W SHADING IN
R20, 23

14

18-3

V1F
V1H

16-22
7

AMP

IC19

TG, 1-12

PR, 2-11

IC418-420
4

V1E

16-9

R W SHADING IN

VOH

V1F
V1D

18-22

7

LD

V1G
V1H GC
ARRAY
V1E

18-15

IC12

IC12, 13
V.SAW
GEN.

1-65 G W SHADING IN

1-64

6

5

6

IC19

PR, 2-17

IC403
3 1 1 SAMPLE
HOLD

+5V
REG.

16-15

PR, 2-19

LPF

+7V
REG.

13

RV50
TEST

SAMPLE 3

1-66

IC400
1

PRE
KNEE 2

5 TEST1 ON/OFF

5

PR, 2-18

Q413, 214

10

TEST1
BA&SW

16
17
2

SAMPLE 3 IN

11

IC22

12

NAM

Q14

GC2

3
4 KNEE MODE

A. HD

SG, 1-18

32

+7V

1, 14

TEST SAW (X)

A HD IN

27

TEST2
GEN.
5, 7,
8, 10

IC8

VOB

1-8

1-50

IC22, Q10

Q0

Q1
S
P
Q2
CONV.

TG, 1-3

B (X) OUT

B KNEE P1

3

11

1-26

+
AMP
-

CLP 2

1

PR, 2-4

14

B GAIN
17

A02

4
2

2

R F-COMP

G GAIN

6

A05

IIC CLK

26

R GC BAL

5

A04

1-2

12

RW SHD

A0
A1
D/A
CONV.A2
LD
DI

R GAIN

A03

MB, 1-2

23
Q408

21

R GAIN

IIC DATA

4

TEST

1-3

19

BUFF

IC24
MB, 1-3

20

CLP2

AMP

17

Q415-417

6dB
AMP

7
R NAM V

B BLK SHAD

7

CLP

CLP

GC1

1-78

DR

6
16

PR, 2-21

0dB
AMP

KNEE
1/4, 1/5

7

5

IC6

5

2dB
AMP

G.CLT
AMP

BLG

PRE BLKG

B (X)

Q406, 407, FL400

CLP1 ATT

1-70

Q405

GC2

PA, 1-2

Q400-404

3

5

MM

Q

CLP2

10

CLP2 ATT

VA-163 BLOCK

CLP1 ATT

BVP-550
BVP-550P

R30, 31

1

C40, R38, 39

ATT

P.ON
RESET

R25, 16
13
23

11

ATT

12
BVP550-VA163BLOCK#1/M

7-4

7-4

BVP-550
BVP-550P

AT-95

AT-95

AT-95 BOARD

1

3

54

AMP

AN2

WR

4

RD

RD

WR

WR

4
IC35

R40, 47

IC9
12

LENS, 1-4

1-67

IRIS POSI IN

ATT

AMP

A0-A2

AN3

EX ON IN

AN4

IC9
5, 6
AMP
R49, 57
LENS, 1-6

1-64 ZOOM POSI IN

3

AMP

IC5
DR, 1-14

1-70

ND FILT IN

DR, 1-15

1-69

CC FILT IN

DR, 1-16

1-68

TEMP IN

14
IC5
AMP

15
14

11

CLOCK
34-12 GEN.

AN6

59
60

µ-COM

0
1

13

BACK UP
BATTERY

1-4

RM SD IN

CN, 1-8

1-3

RM SD OUT

2
TP1

7
14

AMP

5

59

AN7

2

BRD 1

63

10

9

64

T2OUT T2 IN
T1OUT T1 IN

10

74

11

66

7

2
2

12

1

11
6

3

2

CS
RES
RES

8

CS

5
7

RES

9

10
1

P13

1-43

VOUT

67

75

10
1

1-55

18M(X) IN

6

14

77

2

78

1-53

RXD

40-5
HD
LATCH

+5.1V

IVH

WR

2

1-10,
21, 23-26

RESET

RD

22

WR

27

IC26

24

RD

IRQ1
A4

24-3

24-15

A5

24-2

17-4

A6

24-1

21-4

A11

23-5

24-14

A12

23-4

24-13

A13

23-2

22

I/O1

A0
A14
OE

I/O8

1

43

70

7

44

TP4
+4.8V

45

XTAL

P00

D7

P01

A0
A1

P02
P03

RESET

P04

RD

P05

CS

EXTAL

ADDRESS
DECORER

17

42

16

41

15

+7.3V IN

IC26
I/O1

A17
G

I/O8

13-15, 17-21
D0-D7

1-83

+3.1V IN
+3.1V IN

1-85

-2.8V IN

1-86

-2.8V IN

37

1

36

2

P12

16

P13

18

—

—

PR, 1-74

1-29

PR, 1-48

CD0

A
B

1-6

IF, 1-30

P14

LENS, 1-10

1-81

ZEBRA ON IN

1-65 VTR S/S TRIG IN

LENS, 1-3

1-66

RET SW IN

MB, 12-17

1-48

PB REF IN

1-2

CN,1-9

RE BØ

1-1

CN,1-10

RST
STB

DI

D/A
CONV.

IC12
3

A01

IC12
1

24-10

A15

18, 19-2

24-11

P10

18-2, 21-1,
22-2, 24-5

7
2 4
DEC

6
5

21

3

20

2

19

LD (TG)

1-18

TG, 1-16

LD (CCD)

1-16

TG, 1-15

LD (VA)

1-20

VA, 1-1

LD (DA)

1-17

DA, 1-1

LD (SG)

1-19

LD (IF)

1-15

IF, 1-1

IIC DATA(SW)

1-13

TG, 1-8, VA, 1-2, SG, 1-2, DA, 1-2,
IF, 1-2, SW, 1-2, CN, 1-6, MB, 2-13

SG, 1-1

IIC DATA(CA)

1-11

IF, 1-11/MB, 12-27

IIC DATA(ST)

1-9

MB, 12-19

SI

14

S0

IIC DATA(SW)

1-14

MB, 2-14

IIC DATA(CA)

1-12

IF, 1-13/MB, 12-28

IIC DATA(CA)

1-10

MB, 12-30

13

WR

11

CS

REAL
TIME
CLOCK

CS

4

SC

+4.8V
IC25

2
3
1
D16-D19
P21
P23

23-8

P25
P26
P27

5

SDA
S1
S2
S0 EEPROM
SCL

10
11
12

TP3

13
9
8
7
6
IC47

RES

5

HD

20

VD

19

OSC

9

+5V
6

MD0

7 MD1
8

WAIT

76

5

14

24-31

3

D0-D7

MD2

4, 5

BRD1

P03

D7

P14

A0
A1
RESET

P15

A0, A1
32

RD

44

RD

WR

35

WR

2

CS

43

P00

FB REF

41
S1
1

ZEBRA
TALLY
TRIG

2

39

3

4

38

5

6

37

7

8

36

TALLY

RET SW

D0

RES

-2.8V

BUFF

LENS, 1-5

TP2

P24

TFI2

IRIS CONT OUT 1-61

AMP

LD

6

23-1

7

5

AMP

12

P22

5 +2.5V 7
REG.

CCU CONT IN

1-57 REC TALLY IN

3

MB, 12-26

RE AØ

OE

E

Q6
VF, 1-B6

2

IC25

P15

ZEBRA
MB, 12-25

PR, 1-72

CEI1(PR)

38

15

P16

CS 17-1

+3.1V
1-84

PR, 1-50

1-42

PR, 1-70

39

P11

—

+7.3V IN

1-30

A0(PR)

1-41

40

24-9

A14

A19

+7.3V
1-94

PR, 1-52

WR(PR)

1-40

I/O
EXP.

TFI1

+9.3V IN

1-93

1-31

IC13
P06
P07

CE

43

WR

11-13, 15-19
D0-D7

P20

+9.3V
1-90

PR, 1-68

RD(PR)

A1(PR)

TMC1

+5V
REG.

2.5V REF IN

1-39

U/D

IC4
1-89

PR, 1-66

DB7(PR)

CE0(PR)

+2.5V
DA,1-89

1-38

COUNTER

IC13
D0

WE

2-12, 23,
25-30
A0
A0-A17

IRQ0

FTCI3

45-5

IC4, Q1

1-92

4

OSC

43-5

+5.1V

+5.1V

16

17

44
35

P13

46
TMR1
47
FTCI1
48
FTCI2
49

VTR RST IN

1-91

4

22

RD

IC17-24

69
IF, 1-28

PR, 1-64

DB6(PR)

2

RESE

32

20

HD

40-2

14

31

RES

VD

1

1-37

B1

2

RYD

24-31

TMC
SG, 1-55

PR, 1-62

DB5(PR)

A4

CD7

D0-D7

VDD

VD IN

40-3
42-2
44-2

1-36

BRD0

P12
TXD

BACK UP

HD IN

PR, 1-60

DB4(PR)

IRIS

P11

RES

IC40-45
SG, 1-49

1-35

CHU DATA OUT 1-5

BRD1

CSN

A0-A14

IVH

1-44

PR, 1-58

DB3(PR)

EN

D0-D7

A0, A1

RESET IC

SG, 1-50

14

IC29
1

1
39

16

12
5 3.3V
X4
CONV.
3
Y1
5
B2
Y2

1

4

X3

4

3

CM I/F

44

IC3

5
IRIS

D2 C15 R16

2

4, 5

13

BUFF

VIN

37
61
BTVD
23
NEW TVD

X2

A3

PR, 1-56

1-34

1

IC3

+4.8V
14

IC3

Q2(2/2)

3

2

A2

PR, 1-54

1-33

DB2(PR)

IVH

RS-232C I/F

VBAT

CLK

X1

1-32

DB1(PR)

P13
73

DET

1

+5.1V

38

P92
P93

D20, C80
8

BUFF

+4.8V

RDN
WRN

A1

18

DB0(PR)

14

IC1

2

8
17

1

RIN1 ROUT1

1-7 CA DATA IN/OUT

A1

D0-D7

1
4

6

3

Q2(1/2)
MB, 12-24

D7

6

IC3

IC4
12

D0

A2

32-6, 33-2

RES
8

AMP

BT1

CN, 1-7

40

IC32-34

IC9
10

WR

45

SCK

58

43

72
68

1

RD

IC7
12

1

AMP

12

O

AN5

IC9

ATT

3

57

7

A0

A0

1-8

15

56

14

G

2

55
1-63

DB0-DB7

IC39

3

48-46
LENS, 1-7

A7

DIR

23

ADDRESS BUS

—

TAPE REM IN

A0-A17, A19

—

1-51

RD

3-10

A0

B7

21-28, 30-39, 41

A17
A19
1
P/W

P94
AN1

IC4
MB, 12-12

2

—

3

1-47 AUDIO LEVEL IN

65
53

PEAK 7
DET

B0

D0-D7

DATA BUS

—

MB, 12-13

IC11

A0
—

RV1
AUDIO

2

GAIN
CONT
4

IC38

15-22
D0-D7

D7

IC5
1

13-20

D0

AN0

—

52

—

6

—

AMP

IC16

IC5
G PEAK 7
GAIN

5

8

10

G PEEK IN

—

1-74

—

IC5
IF, 1-18

10
TP5

PB REF

11

TRIG

12

RET SW

13

P02

P16
P01
P17

P13
P12

P04
P05

P11

1

19

2

20

3

21

4

CHARA
GEN.

HD
VD

17

GBLK

16

OSCIN RBLK
VG
BUST

13
12

VR

P10

P20

P24

P21
P23

PR, 1-42

CHAR VF OUT 1-28

IF, 1-44

TITLE OUT

1-26

PR, 1-40

VF RGB IN/OUT 1-80

VF, 1-B7

CS
DATA

42
Q3 (2/2)

22

BUFF
Q4 (1/2)

18

BUFF

AUTO +5V OUT 1-60

16

REM/LOCAL

Q5 (1/2)

15

BUFF

P25
P26

14

BUFF

9

1-62

LENS, 1-8
LENS, 1-9

VF 16:9/4:3 OUT 1-76

VF, 1-A6

ABNORMAL OUT 1-78

VF, 1-B4

TALLY ON OUT 1-85

Q4 (2/2)
8

IF, 1-29

BUFF

G TALLY OUT

1-77

VF, 1-A5

Q3 (1/2)

VTR S/S OUT

1-52

MB, 12-6

BUFF

PET EN OUT

1-50

MB, 12-15

7
6

79
2
1

TMC

IF, 1-50

TITLE BACK OUT 1-25

Q5 (2/2)

P07

P22

CHAR BACK OUT 1-27

CLK

P06

P27

TMO

40

PLC

IC15
D

FF Q
R

5

WINDOW OUT 1-45

IF, 1-25

61

FTOA2
50
FTOA1
62
FTOA3

V RESET OUT

1-23

PEAK RST OUT 1-46

SG, 1-21
IF, 1-26

AT-95 BLOCK
BVP-550
BVP-550P

CONTROL BUS
BVP550-AT95BLOCK#1/M

BVP-550
BVP-550P

7-5

7-5

SG-234

SG-234

SG-234 BOARD
*1 CA-550 only
Q21

Q5, 6, 8, 9, 17
CABLE
COMP.

GEN LOCK(X)

Q205
BUFF

Q16
MB, 11-30

IC42
2

7

1

AMP

IC46

1 6

7

5

1-5

IC46

7

IC17
CABLE 1
COMP.

6

IC206, Q204

5

5

5

H CONT 2 IN

1

1

1

7
*1

6

+4.8V

IC47
6

MB, 12-19

IC24
IC204

1-79 GEN LOCK(G)/H CONT 1

DET

-4.8V

Q22

5
1
2

4
201

Q11

IC5, Q7, 18(2/2)

BUFF

SYNC
SEP
Q10, 12, 14, 15, 18(1/2)
BURST
SEP BPF
CONTROL

Q202, 203
POWER
SW

13

6

25

25

7

59

14

57

EXT SYNC IN

EXT SC IN
HD
VD
SYNC
BF
BLKG
CF
LALT
2FH

Q20
4

MB, 12-16

1-19

2

IC13 (1/3)

D7, C47

5

4 V RESET

3
IC200, 201
IC202, 203
200-2
200-8 202-1, 2
1H
203-4
GEN
203-2

*1
AT, 1-23

1-21

V RESET 2

200-3,
201-2

DI

IIC DATA

AT, 1-19

1-1

LD (SG)

AT, 1-13

1-2

IIC CK

1
3

+4.8V

3
1, 2

8

8
IC21

7

6
5

14

2

13

25

18

VRST IN

SYNC2

IC16

10
11
42

15

D1/PRE BLKG

13
14

OLD/NEW CA

11

6

35

9
CAMPLE

16

A03-A08

Q25

8
9
12
13

TD1
TD0
TCK

Q24

C.COMP ON
CF ON/OFF
GENLOCK OFF

INT/EXT

Q201
SCL

N/P OUT

2

11

FSC ADJ CTL

4

18/36M IN

IC18, Q23
P. ON
RESET

IF, 1-36

HD
VD
SYNC
CF

1-6
1-9
1-8
1-7

MB, 12-22
MB, 14-17
MB, 14-18
MB, 14-15

IC42
14
BUFF 12

HD
VD

1-49
1-50

AT, 1-43
AT, 1-44

HD
VD
SYNC
BF
BLKG
CF
LALT
2FH

1-40
1-41
1-42
1-43
1-44
1-45
1-46
1-47

PR, 1-53
PR, 1-55
PR, 1-57
PR, 1-59
PR, 1-61
PR, 1-63
PR, 1-65
PR, 1-67

DL BLKG
DL SYNC

1-25
1-23

DA, 1-8, IF, 1-14
DA, 1-6, IF, 1-12

25

9

BLKG
NRWBLKG

1-4
1-39

MB, 1-20
PR, 1-51

SAMPLE
SAMPLE
SAMPLE

1-10
1-18
1-17

MB, 14-19
VA, 1-9
DA, 1-4, IF, 1-4

TD1
TD0
TCK

1-34
1-32
1-30

MB, 3-34
MB, 3-32
MB, 3-30

INT / EXT

1-35

PR, 1-105

N /P OUT

1-36

VA, 1-41,
PR,1-106,
DA, 1-41

SC CONT

1-78

PR,1-114

VCO CONT OUT

1-68

TG, 1-5

18MHz (X) OUT

1-12

MB, 3-12

18MHz (X) OUT

1-55

AT, 1-55,
DA, 1-46

36MHz OUT

1-57

DA, 1-48

IC30, 42
30-7

42-13
42-11

BUFF

42-7
42-9

72
73
74
8

58
75

4

35

12

35

IC38

2
1

16

Q

D

FF

Q

5
3

RD

6

HR SEL

H CONT OUT1
+3.1V

6
8

30-13

6
22

1-51

11, 18,
21-24

SEA
ACK

2

14
16
BUFF 12
18

IC42
16
BUFF 18

4

27
26

DELAY

11

8bit
D/A

EEPROM

10

3

9

18
A01
19
A02
A03 2-7

LD
A08
CK A09
A10
A11
12ch A12

2

11

6
4
8
2

4
11
5
6
7
12
9
8

IC13 (2/3)
12

NRWBLKG

—

1-3

5, 6

VR SEL

Q200

IC12
AT, 1-14

DET

16

35-6
11-1
20-2

20-4

15

V RESET 1 / CF

25

IC11, 20, 35

IC13 (3/3)
1

GEN VIDEO OUT

IC30

A03-A08

1-80

DELAY CONTROL

MB, 11-29

H CONT OUT2
CLR
TDC OUT

12

3
62 17
63 15

35
35

25

8

3

37

3

5

IC36
MM a

12

5

52

9 1
2 37

7

IC36
13

7

35

MM

4

a

7

DELAY CONTROL

15

4

FL1
PR, 1-109

1-76

2-A80
2-B80

1-91
1-92
1-89

7.3V
7.3V

5.1V
5.1V
2.5 REF

1-87
1-88

-5.1V
-5.1V

1-83
1-84

3.1V
3.1V

1

LPF

SC (X) IN

2 43

Q1, IC3
+7V
REG.

+7V

Q2, IC3

+4.8V

1
2

4

39

1

4

IC32
2

5

IC41
7

AMP

6
1

7

IC40

5

626

+4.8V
REG.
7
3
Q4, IC3
-4.8V
REG.

5

35

IC34 VBS GENLOCK
2, 6 MODE 5
H
COMP.
3

IC33
4 3

IC32
AMP

IC33
14
13

PR, 1-109

1-59
1-61

AMP

12

14

11

-4.8V

+3.1V

PR, 1-107

IC32

1 12

11

30

9

H CONT
2

18MHz (X) IN

2

36MHz IN

45
31

4
4

SG-234 BLOCK

BVP550-SG234BLOCK#1/M

BVP-550
BVP-550P

7-6

7-6

BVP-550
BVP-550P

DA-88

DA-88

DA-88 BOARD
Y(18)
PR, 1-38
PR, 1-36
PR, 1-35
PR, 1-34
PR, 1-33
PR, 1-32
PR, 1-31
PR, 1-30
PR, 1-29
PR, 1-28

1-42
1-40
1-39
1-38
1-37
1-36
1-35
1-34
1-33
1-32

Y (L) IN
Y (1) IN
Y (2) IN
Y (3) IN
Y (4) IN
Y (5) IN
Y (6) IN
Y (7) IN
Y (8) IN
Y (M) IN

PR, 1-26
PR, 1-25
PR, 1-24
PR, 1-23
PR, 1-22
PR, 1-21
PR, 1-20
PR, 1-19
PR, 1-18
PR, 1-17

1-30
1-29
1-28
1-27
1-26
1-25
1-24
1-23
1-23
1-21

R-Y (L) IN
R-Y (1) IN
R-Y (2) IN
R-Y (3) IN
R-Y (4) IN
R-Y (5) IN
R-Y (6) IN
R-Y (7) IN
R-Y (8) IN
R-Y (M) IN

1-11
Y0-Y9

Y0-Y9

24-22
DLYO-DLY2

21, 20, 18, 17
DLY3-DLY6

42

DI0
DI9

IC7

IC4
36-31, 29-26
DO0
DO9

19-28
YB0 - AYB9

B0
B9

B0

58

FL6

Q48, 49

LPF

BUFF

Q50-53
NEG:1.0Vp-p

AMP
IC23,Q54

PSE0
PSE2

FBC
R-Y(18)

DDL
PSW0
PSW3
G0

FL7

Q67, 117

LPF

BUFF

NEG:0.76Vp-p

54

IC28, Q110,-112

Q73

ATT

BUFF

AMP

CLK

IF, 1-72
IF, 1-70
IF, 1-68

R-Y (X) OUT 1-61

MB, 11-24

B-Y (X) OUT 1-59

MB, 11-25

TP4

R-Y

Q68-71

Y (X) OUT 1-71
R-Y (X) OUT 1-69
B-Y (X) OUT 1-67

Q75, 79
INV.
AMP

IC27,Q72
FBC

PR, 1-15
PR, 1-14
PR, 1-13
PR, 1-12
PR, 1-11
PR, 1-10
PR, 1-9
PR, 1-8
PR, 1-7
PR, 1-6
SG, 1-55

1-19
1-18
1-17
1-16
1-15
1-14
1-13
1-12
1-11
1-10

1-11
RY0-RY9

24-22
DLYO-DLY2

21, 20, 18, 17
DLY3- DLY6

42

1-11

B-Y (L) IN
B-Y (1) IN
B-Y (2) IN
B-Y (3) IN
B-Y (4) IN
B-Y (5) IN
B-Y (6) IN
B-Y (7) IN
B-Y (8) IN
B-Y (M) IN

1-46 18MHz (X) IN

RY0-RY9

BY0-BY9

BY0-BY9

DI0
DI9

IC5
36-31, 29-26
DO0
DO9

9-18
RYB0 - RYB9

21, 20, 18, 17
DLY3- DLY6

42

2

PSE0
PSE2

VD IN

AT, 1-14

1-3

IIC DATA

LPF

R0

TP5

Q87-90

BUFF
+5V

PSW0
PSW3

IC24

8 13

8

5

MM Q

CLK
SW1
A

IC6
36-31, 29-26
DI0 DO0
DI9 DO9

63.64,1-9
DYB0 - DYB9

+4.8V

R0
R9

1
2 107

DO0
PSW0
PSW3

4

2

101

2
1

2 110

4 2
1 108

102

6
5

102

7

6

3

INH
DL SYNC

6

19

1
2 8

6

12
11

IC27
15 5 LEVEL
CTL

B-Y SPL LEVEL

15,1-7

+4.8V
2

DLY0-DLY7

Q7
S
P
µY7
CONV.
LD
9
DO

IC3
RESET

1
2 9

6

4

29
42
41
40

Q20

IC13
14

12
11

Q0
Q1
Q2
S
P Q3
CONV. Q4
Q5
LD
Q6
Q7
DI

15
1
2
3
4
5
6
7

D/A BLK OUT
WD/NR
LEV1
LEV2
TRIAX/VTR
SETUP1 ON/OFF
SETUP2 ON/OFF
SKIN GATE ON/OFF

AMP

IC27
LEVEL
CTL

8

IC29
SETUP2 LEVEL

6
1
7

BLK
SETUP Y
DL BLKG

VRB
CRG
VRR

4

19

1
4 SETUP 2 ON/OFF
2 106

16

2.5V REF OUT 1-89

Q2, IC2
-5V
REG

9
Q83, 84

8

-2.5V

RCK
SETUP 2

2

Q3, IC2
-2.5V
REG

IC26
4 10

BCK

GCK

1-92

7

10
5

BUFF

IC36

+4.8V

32

3

REG
CONT

10

IC26

3
33
3

Q0

2

1
4 R-Y" SYNC ON/OFF
2 105

14

B-Y SAMPLE
6

1-91

+5.1V

IC2
R-Y SYNC LEVEL

R-Y SYNC

4

+5.1V

IC1

1

CLK

Q1, IC2
+5V
REG

5

INH
B

PSE0
PSE2

4
5 8

DI

BUFF

1

11

14

ATT

NEG:0.76Vp-p

Q94, 98
INV.
AMP

7

9

IC10
1 EEPROM
A0
5
2
SEA
A1
3
A2

Q92

FBC

6

34

8

IC28, Q113-115

AMP
IC27,Q91

DDL

IC35
1-43

Q85, 86

4
9, 10

SG, 1-50

FL8
50

24-22
DLYO-DLY2

B-Y

B-Y(18)

G0
G9

3

IC27
LEVEL
CTL

-4.8V

-2.8V
-2.8V

1-85
1-86

-5.1V
-5.1V

1-87
1-88

+3.1V
+3.1V

1-83
1-84

+7.3V
+7.3V

1-93
1-94

AT, 1-89
SG, 1-89
IF, 1-89

1
+3.1V

10
IC26

Y SPL LEVEL

Y-SAMPLE
SN
A
B
INH

CHAR VF
CHAR ON

1
2 104

SAMPLE 2

13

19

12

IC27
14 12 LEVEL 14
CTL

13
1
4
2 109

4

1
4
2 103

7

+7.3V

Y SPL" ON/OFF
11
B-Y SPL" ON/OFF

INH
SETUP Y
V SPL

SKIN GATE OUT

IC14
17

AT, 1-13

1-2

IIC CLK

AT, 1-17

1-1

LD (DA) IN

SG, 1-25
AT, 1-28
SG, 1-23

1-8
1-51
1-6

DL BLKG IN
CHAR VF
DL SYNC IN

1-4

SAMPLE 2 IN

SG, 1-17
PR, 1-117

1-76

1, 2
2

12
11

4
4

DI

A01
A02
16
A03
A04
15
A05
LD
A06
D/A A07
CONV. A08
A09

18
19
2
3
4
5
6
7
8

Y LEVEL
R-Y LEVEL
B-Y LEVEL
SETUP 1
SETUP 2
Y SPL
R-Y SYNC
B-Y SPL
CH ARC ON/OFF

SETUP 1 LEVEL
SETUP 2
Y-SAMPLE
R-Y SYNC
B-Y SAMPLE
CHAR ON
DL BLKG
2

15

19

19

1
4
2 100

18
CHAR VF
DL SYNC
SW1
SAMPLE 2

5

IC16, 18, Q25, 26
LEVEL
CTL

SETUP 1 ON/ OFF

SKIN GATE

1-5

IF, 1-15

Y (X) OUT

1-63

MB, 11-23

Q19, 23
INV.
AMP
(1.0Vp-p, 0Vdc)
TP3

Q9,12 FL2

IC15
7

H1-Y (X) IN

Q13

LPF

1

IC25, Q107-109

Q22

AMP

ATT

BUFF

YsH

Q59, 63
INV.
AMP

IC16, Q18

LPF
SW

BUFF

6

Q10, 11 FL3

Q14-17

5

FBC

WD / NR

IC17
6
-5V

17

19

1
7

3

(1.0Vp-p, 0Vdc)

5

A

1
2

7
Q33
BUFF

INH

1
2

B

VBS

Q43, 44
INV.
AMP

VBS (X) OUT 1-65

IF, 1-66

7
TP2

Q27, 30, FL4
PR, 1-115

1-74

C (X) IN

IC20
7

LPF

1
6

Q28, 29, FL5
LPF
SW

Q102

Q103, 104

Q32

Q34

BUFF

AMP

BUFF

BUFF

C (X) OUT

1-55

MB, 11-27

5
WD / NR

Q45-47, 106
8

19

12

VARIABLE
LPF

VTR SYNC OUT 1-7

MB, 12-14

Q105

SG, 1-36

1-41

N/P IN

PR, 1-119

1-78 VF-Y (X) IN

Q4

Q4, FL1

Q100, 101

Q7

Q8

BUFF

LPF

AMP

BUFF

BUFF

VF- (X) OUT 1-80

IF, 1-80

DA-88 BLOCK
BVP-550
BVP-550P

7-7

7-7

BVP-550
BVP-550P

BVP550-DA88BLOCK#1/M

IF-510

IC601

IF-510 BOARD
DA, 1-65

1-66

IF-510

3
RV101
VBS GAIN

Q109

Q1, Q2

Q101-Q103

VBS (X) IN

BUFF

BUFF

IC101
7
1

A0 EEPROM
A2
SDA
A1
SCL

IC153
5

8BITS Q7
S
P
14

AT,
AT,
AT, 1-15

1-3
1-2
1-2

IIC DATA
IIC CLK

Q6

D
1, 2

151

7

1
7
2 154

CVF CHR & CURSOR
ON/OFF
6

CK
152

5 TEST SEL 2
Q5
4 TEST SEL 1
Q4
3 MONI SEL 2
Q3
2 MONI SEL 1
Q2
1 CHARA ON/OFF
Q1
15
Q0

LD

1-10 CORSOR 1 IN
1-9 CORSOR 2 IN

PR, 1-44

1-7

6
5

3

IC308
152-2

1
7
2 309

308-4

308-1

4
6
5 151
+4.8V
2
7
1 307

151

11

6
3
5 307

Q205
VF-Y (X) IN

1-8

CHAR BACK IN

12
14
15
11

IC202
0
1
2
3
A
10

ATT

IC200
6
1

ATT

1-45

IC206
3 OUTPUT 6
AMP

Q211
13

BUFF

MB, 15-1

MONI (X) OUT 1-49
VF (X) OUT 1-78

MB, 12-3
VF, 1-A3

9

+4.8V

Q206

Q209

BUFF

BUFF

IC12, Q10
+4.8V
REG

+5.1V
+5.1V

2.5V REF IN 1-89

Q272
IC12, Q20
-4.8V
REG

5
6

PB REF IN

304

2

3
6

5
3
6 154

SYNC
TIP

306

-2.5V
REG

6

3

Q251

S1

IC301

SG, 1-49
SG, 1-50

1-40
1-39

2

RET

1-53 RET VIDEO (X) IN
2

SG, 1-23

5
6

309

3

Q405

Q403, 404

Q500

Q501, 502

Q503

Q504, 505

1-25 WINDOW IN

DA, 1-69

1-70

1, 2

502

502

1

BUFF

VF Y (X) OUT 1-76

VF, 1-B8

R

B

R (X) OUT

1-63

G (X) OUT

1-61

MB, 11-17
MB, 11-?

B (X) OUT

1-59

MB, 11-19

(0.7Vp-p, 0Vdc)

G PEAK OUT 1-18

AT, 1-74

VF R-Y (X) OUT 1-75

VF, 1-A9

VF B-Y (X) OUT 1-74

VF, 1-B9

G
PEAK
DET.

3

7

R-Y (X) IN

BUFF
+4.8V

IC410
6

5

Q422

+4.8V

IC420

Q424

7
6

BUFF

1

Q423
BUFF

Q352, 354

BUFF

1

Q413

BUFF

B-Y (X) IN

Q414

7

BUFF
Q420, 421

1-48

MB, 12-23

(0.7Vp-p, 0Vdc)

Q509, 510
IC500, 501

Q410, 441

SG, 1-36

SKIN GATE OUT 1-16

G

Q412

1-68

PR, 1-39
PR, 1-41

SKIN GATE

5

Q507, 508

5, 6

INT/EXT HD OUT 1-6
INT/EXT VD OUT 1-5

Q406

6

BUFF

+

AT, 1-45

8
6

BUFF

7

1-26 PEAK RESET IN

TIMING
PULSE
SW'er

Q430, 431

BUFF

Q506

1-90

(1.0Vp-p, 0Vdc)

Q401, 402

DA, 1-67

JITER

4

404

Y (X) IN

AT, 1-46

2, 13

2
7
1 310

5

306

2

1-12 DL SYNC IN

1-72

7

INT HD 12
INT VD 1

IC400

DA, 1-71

306

IC302, 303, 351
303-1, 13
303-6 EXT ND 10
303-8 EXT VD 5
302-2
302-12
DE

HD IN
VD IN

1-15 SKIN GATE IN

+9.3V

+9.3V

302-3, 3, 11,
351-3

5
3
6 310

DA, 1-5

1
SYNC HD
3
IN SEP.
VD

SC
L250, C252
TRAP

4

352

3

1-85
1-86

BUFF

GEN

1-34 18MHz (X) IN

-2.8V
-2.8V

-2.5V

1

SG, 1-55

1-87
1-88

IC12, Q30
5

FF Q
Q
2

-5.1V
-5.1V

-4.8V

IC322

MB, 12-1

1-91
1-92

5

1
7
2 304

1-36 GELOCK (X) IN

TEST (X) OUT 1-43

B

BUFF

Q250
SG, 1-51

OUTPUT 6
AMP

10

IC305
MB, 12-17

CN, 1-16

A

ATT

Q273
12, 13

3

BUFF

Q271

9
8
10 151

1-80

RM VBS (X) OUT 1-21

3

BUFF

7

AT, 1-27

13

1
2

Q210

IC152

CHAR VF IN

DA, 1-80

OUTPUT 6
AMP
IC641

Q207, Q08

0

B

SKIN GATE
ON/OFF
PR, 1-43
PR, 1-45

12
14
15
11

5

9

12

7

MB, 11-21

IC201

RM CHR
ON/OFF

11

3

1, 2

LD (IF) IN

3

BUFF

IC155
1
3
2
6

VBS (X) OUT 1-57

IC621

Q110

6

+4.8V

OUTPUT 6
AMP

5
N/P OUT

N/P IN

1-47

VF, 1-B3

TALLY OUT 1-27

VF, 1-B5

Q701, 703
CN, 1-19

AT, 1-58

1-82

TALLY
DRIVE

UNREG
2
1

1-29 TALLY ON IN

IF-510 BLOCK

+9.3V
702

4

IC701 (1/2)
MB, 12-18

1-31 REC TALLY IN

3

COMP

1

REC TALLY OUT 1-30

AT, 1-57

VTR RESET OUT 1-28

AT, 1-53

BVP-550
BVP-550P

IC701 (2/2)
5

COMP

7

7-8

7-8

BVP550-IF510BLOCK#1/M

BVP-550
BVP-550P

VF BLOCK

VF BLOCK

VF BLOCK

TO
CAMERA
HEAD

20PIN
CONNECTOR

RV2
CONTRAST
1-12

3-6

VIDEO IN

VIDEO

11-9

11-8

DL1
80ns
DELAY

Q3
VIDEO

3-7

BUFF

S1

AUDIO IND

1-3
1-14

G TALLY
BATT IND

Q8,9

Q10

Q11

AMP

BUFF

CLAMP

TP2
G1 OUT

5-5

H1 OUT

5-4

H2 OUT

5-3

G2 OUT

5-1

Q12

INV.

AUDIO
1-4

Q4,5
BUFF

VR-199(2/3)
ON
OFF

RV3
Q6

PEAKING

Q7
BLKG
CLEAN

BUFF

3-5

PEAKING

11-11

11-10

PEAKING

3-4

RV1
BRIGHT

D1
BATT

21-1

2-1

BATT

BATT

3-2

D3

G TALLY

21-3

2-3

G TALLY

REC

21-2

2-2

REC

1-7
1-8

VTR SAVE
ABNORMAL

2-6

ABNORMAL

SUB BRIGHT

D2
REC

Q1
ABNORMAL 31-1

+9.3V

Q2
VTR SAVE

VTR SAVE
D2

REC

31-3

31-2

2-8

2-7

VTR SAVE

Q17

RV1

SL1

RIPPLE
FILTER

H SIZE

SL2

IC1

REC(L)

LP-85

12
REC TALLY
REC(L)

3-11

REC CONT

11-4

CLAMP

Q2

REC

INV.

ZEBRA

11-5

3-10

14

Q15

C12
IC2

H OSC

H
DRIVER

16
2

7

C11

4

COMP

18

5
6

RV2
ANODE SET
1
2

11

SYNC
SEP.

7

8

V OSC

V
DRIVER

4

4

1
CRT
ANODE

SL5
11-6

3-9

ZEBRA

1-17

ZEBRA

Q4(2/2)

4

2

RV5

REC
SL6

V HOLD

S2
ON

D1,2

13

6

Q4(1/2)

INV.

Q14
IC3

SL3
SL4

5

TALLY

IC1

5

C28,D7

DRIVER

3

RV3

V BLKG
REC CONT

TP4

Q18

Q1
DRIVER

1

AFC
GATE

TP5

HEATER

TP1

H HOLD
1-6
1-18

RV8

T1

VOLTAGE
REG.

+9.3V

DRIVER

REC

TIMER

VR-199(3/3)

Q13,IC2

DRIVER

D3

Q3(2/2)

3-1

G2
H1
H2
G1

D1

Q3(1/2)

BRIGHT CTL

LP-84

ABNORMAL

7

11-14

11-13

RV9

G TALLY

IC1

+50V

-H DEF

ZEBRA

4-4

OFF
MOMENTARY 11-7

TALLY OUT 11-12

3-8

3-3

MOMENTARY

H.DY

MOMENTARY

TALLY OUT

H1

+H DEF

4-5

+V DEF

4-2

OFF
S3

VR-199(1/3)

LOW

TALLY

Q19

Q20,21

AMP

V
DRIVER

RV4

1-15

D12

V SIZE

BACK TARRY

(PAL ONLY)

TP3

RV6
V SIZE

V.DY
RV7
L IN

CCIR/EIA

-V DEF

4-3

Q22
RV10
V SIZE(WIDE)

Q16
1-9

INV.

16:9

VF BLOCK
VF-60

BVP-550
BVP-550P

BVP550-VIEW FINDER BLOCK#1/M

BVP-550
BVP-550P

7-9

7-9

5-4

5-4

OHB-400/500/500WS & PAL
OHB-450/451/550/550WS & PAL

Section 8
Schematic Diagrams
1

LOCATION OF PRINTED CIRCUIT BOARDS

SW-732

2
MB-602
CN-1120
PR-211
CN-1121
CN-1142

IF-510
DA-88
CN-1122

SG-234
AT-95

3

VA-163
SW-731

SW-733

SW-730
SW-742

VR-199
LP-84

VF-60

4

LP-85

5

8-1

BVP-550
BVP-550P

I

J

K

L

8-1
M

N

O

P

VA-163 (1/2)

1

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

VA-163 BOARD

2/2
2/2
2/2
2/2
2/2

——————————
VA-163 (1-657-438-11)
——————————
*: B SIDE
CN1

C-1

CT200 B-4
CT300 D-4
CT400 F-4
D1
D2
D3
D4
D5
D7
* D8
* D9
* D10
*
*
*
*
*

2

A-3
A-2
A-2
A-3
B-3
B-3
F-3
F-3
F-3

FL200 C-3
FL300 D-3
FL400 E-3
IC1
IC3
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC21
IC22
IC23
IC24
IC25
IC26
IC27
IC200
IC201
IC202
IC203
IC204
IC300
IC301
IC302
IC303
IC304
IC400
IC401
IC402
IC403
IC404

A-3
B-2
B-3
B-2
B-3
F-4
F-4
F-2
F-2
F-2
F-2
F-2
F-3
G-3
G-3
G-2
G-3
G-2
G-1
B-4
B-3
G-1
F-1
F-1
F-1
C-4
C-3
C-2
B-2
B-1
D-4
D-3
D-2
C-2
C-1
E-4
E-3
E-2
D-2
E-1

L1
L2

A-2
A-3

* Q1
* Q2
* Q3
Q4
Q5

A-2
A-2
A-3
B-3
A-3

* Q7
Q10
Q11
Q12
Q13
Q14
* Q200
* Q201
* Q202
* Q203
* Q204
* Q205
Q206
* Q207
* Q208
Q209
Q210
Q211
Q212

A-3
A-4
A-4
A-4
A-4
A-4
B-4
B-4
C-4
C-4
C-4
C-3
B-3
C-3
C-3
B-2
C-2
B-2
C-2

*
*

3

*
*

*
*
*
*

4

*
*
*
*
*

3
4
5
1
7

C
GSL 2
GSL 1
TEST SIG
V SAW
C124
15
6.3V

IC200(1/4)
TL064CPW-E05

* Q213
* Q214
* Q215
Q216
Q217
* Q218
Q219
Q220
* Q300
* Q301
* Q302
* Q303
* Q304
* Q305
Q306
* Q307
* Q308
Q309
Q310
Q311
Q312
* Q313
* Q314
* Q315
Q316
Q317
* Q318
Q319
Q320
* Q400
* Q401
* Q402
* Q403
* Q404
* Q405
Q406
* Q407
* Q408
Q409
Q410
Q411
Q412
* Q413
* Q414
* Q415
Q416
Q417
* Q418
Q419
Q420
RV50
RV200
RV300
RV400

C-1
C-1
C-2
C-2
C-1
B-1
C-1
C-1
C-4
C-4
D-4
D-4
D-4
D-3
D-3
D-3
D-3
D-2
D-2
D-2
D-2
D-1
D-1
D-2
D-2
D-1
C-1
D-1
D-1
D-4
E-4
E-4
F-4
E-4
E-3
E-3
E-3
E-3
E-2
E-2
E-2
E-2
E-1
E-1
E-2
E-2
E-1
E-1
E-1
E-1

C200
4.7
20V
:TA-B

IC200(2/4)
TL064CPW-E05

IC201
TC4W53FU(TE12R)

C201 C202 C203
33
0.1
0.1
16V
:TA-D

C204
10
6.3V

R209
20k

MB,21-6

74

R(X) IN

Q205
2SA1226-T1E4

R200
1k

C125
15
6.3V

Q206
2SC4178-F13F14-T
1

IC202(1/2)
CXA1486Q-TH

Q207
2SA1610-T1Y34

R202
4.7k

R203
5.6k

R207
5.6k

R211
10

Q201

CN1(74/100)

TP200

R265
20k

12
13

14

4
5
6

7
R269
1k

C239
1
25V
:TA-CA
C259
1
25V
:TA-CA

11

R215
330

2 4 8

CT200
R235
150

6

18

FL200

1

R230
39k

Q205
R241
2k

R263
1k

IC300(1/4)
TL064CPW-E05

C300
4.7
20V
:TA-B

C301
0.1 C302
33
16V

IC300(2/4)
TL064CPW-E05

IC301
TC4W53FU(TE12R)

Q300
2SA1611-T1M7

R301
20k

C303
0.1

C304
10
6.3V

R248
2.2k

R249
0

12
13

14

4
5
6

7
R369
1k

Q306
2SC4178-F13F14-T
1

Q305
2SA1226-T1E4

R300
1k

11

G(G) IN

71

R335
150

Q302

Q306

16

R323
100

1 5

TP200 D-4
TP300 E-4
TP400 F-4

IC400(1/4)
TL064CPW-E05
2/2
2/2

17
18

IC400(2/4)
TL064CPW-E05

C401 C402
0.1
33
16V

R401
20k

C403
0.1

C404
10
6.3V
:TA-B

19

R330
39k

Q307

R349
0

R465
20k

12
13

7

C439
1
25V
:TA-CA
C459
1
25V
:TA-CA

4
5
6
11

Q406
2SC4178-F13F14-T
1

Q405
2SA1226-T1E4

R400
1k

R410
10

23

12

R350
0

C317
4p

Q308
C318
0.1

C319
0.1

R351
100k

R352
10k

C330
1
25V
:TA-CA

IC402(1/2)
CXA1486Q-TH

Q408
2SC4177-T1L7

R403
5.6k
1/16W

R415
330

2 4 8

C407
33p

CT400
R435
150

6
7
401
5 3

18

FL400

1 5
R422
820 2

C441
:n'm C440
:TA-CB 56p

R412
330

R413
1.5k

VCC
B FREQ

1

R411
5.6k

28

16

R423
100

19

R430
39k

R445
100k
R449
2.2k

26

R424
5.6k

14

R436
47k

R447
0

C416
0.1

C408
100
6.3V
:AL-C

GCTL

402

Q405

R448
10k

R416
1k

20

Q406

RV400
500

2
WSH

Q407

3 1/16W

TRAP
Q402

IN
BSH
GS1
GS2

ZERO

VEE

GND CLC1 CLP1 BLK1 LPF1 BLKG

5

3

21

31

C414
1
25V
:TA-CA

24

23

12

R450
0

C417
4p

Q408

C418
0.1

C419
0.1

R451
100k

R452
10k

RV400:B GAIN

A GND
R458
11k
C433
0.1
R463
1k

Q403

Q404

C428
33
6.3V

C429
10
6.3V

C434
0.1

C430
1
25V
:TA-CA

R459 R462
20k 30k

-2.5V
8

IC400(4/4)
TL064CPW-E05

B

24

Q401

CN1(69/100)

C432
22
10V

8
9
10
11

21
C314
1
25V
:TA-CA

Q407
2SA1610-T1Y34

R402
4.7k

R456
1k

2/2
2/2
2/2
2/2

31

Q304
2SA1226-T1E4

R444
620

20

GND CLC1 CLP1 BLK1 LPF1 BLKG
3

R362
30k

R441
2k

2/2

VEE
5

C334
0.1

C329
10
6.3V

6 4 7

19

R336
47k

ZERO

R359
20k

Q304

R468
3.3k

R470
33k

2/2

14

GCTL

GS1
GS2

C316
0.1

C437
0.1

R469
1k

B(G) IN

R324
5.6k

WSH
302

TP400

69

26

C308
100
6.3V
:AL-C

CN1(70/100)

C438
1
25V
:TA-CA

MB,21-1

R316
1k

Q400
R408
13k

B(X) IN

70

2

20

TRAP

R348
2.2k

+7V
+4.8V
C400
4.7
20V
:TA-B

MB,21-2

Q303
C328
33
6.3V

Q400
Q401
Q402
2SA1611-T1M7 2SC2757-T1T34 2SA1226-T1E4

IC401
TC4W53FU(TE12R)

R313
1.5k

RV300:G GAIN

Q303
2SA1611-T1M7

10
9

8

R346
270k

IN
BSH

3 1/16W

2

RV300
500

R358
11k

IC300(4/4)
TL064CPW-E05

R312
330

28

Q305

R356
1k

B-4
C-4
D-4
F-4

Q308
2SC4177-T1L7

18

FL300

R342
10k

R345
620

R363
1k

R252
10k

R304
5.6k

CT300

R368
3.3k

C333
0.1

R251
100k

VCC

C307
33p

R322
820

CN1(71/100)

C332
22
10V

C219
0.1

C230
1
25V
:TA-C

IC302(1/2)
CXA1486Q-TH

R341
2k

MB,21-3

C218
0.1

Q301

G FREQ

C341
:n'm C340
:TA-CB 56p

5 3

12

C217
4p

R303
5.6k

6 4 7
R370
33k

23

R250
0

24

C214
1
25V
:TA-CA

Q307
2SA1610-T1Y34

R302
4.7k

R315
330

301

21

31

Q300

6
7

1

GND CLC1 CLP1 BLK1 LPF1 BLKG
3

Q204
2SA1226-T1E4

Q301
Q302
2SC2757-T1T34 2SA1226-T1E4

2 4 8

C339
1
25V
:TA-CA
C359
1
25V
:TA-CA

R236
47k

R262
30k

TP300

R365
20k

VEE
5
C216
0.1

C337
0.1

C338
1
25V
:TA-CA

14
ZERO

C234
0.1

R311
10

CN1(72/100)

R224
5.6k

GCTL

GS1
GS2

R259
20k

C229
10 6.3V :TA-B

Q203
2SA1611-T1M7

R309
13k

G(X) IN

72

Q204

Q203
C228
33
6.3V

10
9

8

IC200(4/4)
TL064CPW-E05

26

C208
100
6.3V
:AL-C

RV200:R GAIN

R258
11k
C233
0.1

R246
10k

RV200
500

R256
1k

MB,21-4

R245
300k

R(G) IN

C232
22
10V

R216
1k

Q208
R244
620

CN1(73/100)

73

2
WSH
202

20
19

Q206
6 4 7

IN
BSH

Q207

3 1/16W

2
TRAP

Q202

R268
3.3k

R270
33k

16

R223
100

1 5

R222
820

7
C241
:n'm C240
:TA-CB 56p

R213
1.5k

VCC

C207
33p

R FREQ

201
5 3

R212
330

28

C237
0.1

C238
1
25V
:TA-C

MB,21-5

Q208
2SC4177-T1L7

Q200

PRE
CLP
CLP
CLP

Q403
2SA1611-T1M7

10
9

Q404
2SA1226-T1E4
N
M
L

14
13
12

2/2
2/2
2/2

BLKG
1
2
3

8-2
A

Q200
Q201
Q202
2SA1611-T1M7 2SC2757-T1T34 2SA1226-T1E4

R201
20k

14

5

VA-163 (1/2)

C

8-2
D

BVP-550
BVP-550P

E

F

G

H

VA-163 (1/2)

VA-163 (1/2)

1

Q209
Q211
Q214
Q216
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
Q217
Q210
Q212
Q213
Q215
1
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
1

IC202(2/2)
CXA1486Q-TH

R204
30k

IC203
TC4W53FU(TE12R)

IC204
TC7S08FU(TE85R)

Q218
2SA1611-T1M7

Q219
XN6501-TW

R205
47k

C242
3.3
16V

Q211

C205
0.1

10

11
K-POINT

F-DET

202

27
VEE
22
R281 R253
4.7k 4.7k

C220
0.1

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

30

32

29

1

GND
13

R271
100k

C231
1
25V
:TA-CA

R219
2k

R231
1k

R228
8.2k

R220
750

IC200(3/4)
TL064CPW-E05

C209
3p

Q215

MB,7-9

R233
2k
C211
1
25V

6

3
2

R229 1
2k

C210
:n'm

Q213

R FEED BACK IN

60

MB,7-14

5V

R232
1k

R240
5.6k

6
1

R272
100k

R254
0

CN1(60/100)

7
Q218

2

R238
2k

203
4 5 3

R237
1k
R247
20k

C212
0.1

C223
0.1

R234
100
1/16W

8
Q214

R227
2k

VEE

C215
1
25V
:TA-CA

C243
4.7
10V

R218
11k
R221
:N'M
R226
10k

FB

C221
0.1

C235
0.1

54

Q216
R217
10

1

4
F-COMP

R280
33k

R(X) OUT

OUT

9

16

2/2

R214
10

Q210

7
K-SEL

R225
33k

4

2

Q212

10

15
1

Q209

B

R206
4.7k

CN1(54/100)

8
VCC

2/2

R208
2.4k

C206

15

6

Q220
XN6501-TW

R210
8.2k

VCC

KNEE SEL

4

R243
2k
C225
15
6.3V

C226
15
6.3V

R239
20k

C224
33
6.3V
:AL-C

D200
:N'M

-5V

5
1
204 2
3

R242
100
1/16W

Q219
R255
10k
1/16W

C213
:N'M

2

Q220
R257
3k

C227
0.1
CN1(53/100)

R(G) OUT

53

MB,7-10

G(X) OUT

52

MB,7-7

G FEED BACK IN

59

MB,7-15

G(G) OUT

51

MB,7-6

C222
:N'M
R260
10k

C236
0.1

R261
10k

R267
1.8k
R266
10k

R264
3k

7

Q309
Q311
Q313
Q316
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
Q310
Q312
Q314
Q315
Q317
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
1

IC302(2/2)
CXA1486Q-TH

IC304
Q318
TC7S08FU(TE85R) 2SA1611-T1M7

IC303
TC4W53FU(TE12R)

R305
30k

R306
47k
C342
3.3
16V

Q311

R308
2.4k

C305
0.1

R310
8.2k

10

14
2

Q309

VCC

5

11
K-POINT

F-DET

302

27

17

VEE
22
R381
4.7k

R353
4.7k

C320
0.1

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

32

30

29

1

GND
13

R318
11k

R319
2k

R321
:N'M
R331
1k

R371
100k

C310
:n'm

R326
10k

C309
3p
R328
8.2k

IC300(3/4)
TL064CPW-E05

R320
750

C311
1
25V

6

3

R329 1
2k

R332
1k
R333
2k

Q313

C323
0.1

R372
100k

R354
0

C312
0.1

R334
100
1/16W

8
Q314

R340
5.6k

2

R338
2k

6
7

1
2

CN1(59/100)

Q318

303
4 5 3

R337
1k
R347
20k

C331
1
25V
:TA-CA

3

R314
10

C306

Q315

R327
2k

VEE

C315
1
25V
:TA-CA

C343
4.7
10V

R317
10

2

FB

C321
0.1

C335
0.1

Q312

5V

4
F-COMP

R380
33k

CN1(52/100)

Q310

OUT

9

R307
4.7k

Q317

7
K-SEL

R325
33k

Q320
XN6501-TW

Q316

8

15
VCC

11

Q319
XN6501-TW

4

R344
2k
C325
15
6.3V

C326
15
6.3V

R339
20k

C324
33
6.3V
:AL-C

D300
:N'M

-5V

Q319

5
1
304 2
3

R343
100
1/16W

R355
10k
1/16W

C313
:N'M

Q320
R357
3k

C327
0.1
CN1(51/100)

C322
:N'M

R360
10k
1/16W

C336
0.1

R361
10k
1/16W

R367
1.8k

R366
10k

R364
3k

4

8

Q416
Q409
Q411
Q413
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
Q417
Q412
Q414
Q415
Q410
2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T
1
1
1
1
1

IC402(2/2)
CXA1486Q-TH

IC403
TC4W53FU(TE12R)

IC404
TC7S08FU(TE85R)

Q418
2SA1611-T1M7

R404
30k

R405
47k
C442
3.3
16V

Q411
R409
8.2k

VCC

VCC

11
K-POINT

F-DET

402

27
VEE
22
R481
4.7k

R453
4.7k

C420
0.1

17

25

32

30

29

1

GND
13

VEE

R419
2k

C410
:n'm

R426
10k

C409
3p
R428
8.2k

8

Q414

R427
2k

R432
1k
R433
2k

R471
100k

Q413

3
2

R429 1
2k

R440
5.6k

R438
2k

6
C412
0.1

C423
0.1

MB,7-11

R443
2k

R434
100

6
7

1
2

B FEED BACK IN

58

MB,7-13

4 5 3

C411
1
25V

49

MB,7-10

57

MB,7-12

CN1(58/100)

Q418
403

R437
1k

R472
100k

50

IC400(3/4)
TL064CPW-E05

R420
750

R446
20k

C415
1
25V
:TA-C

C421
0.1

R431
1k

FB
GND CLC2 CLP2 BLK2 LPF2 OS1

R418
11k
R421
:N'M

4
F-COMP

R480
33k

R417
10

3

B(X) OUT
R414
10

5V

OUT

9

18

CN1(50/100)
C406

Q415

7
K-SEL

R425
33k

6

R406
4.7k

Q416

Q410
Q412

10

13

12

Q409

Q420
XN6501-TW

Q417

R407
2.4k

C405
0.1

8

15

3

Q419
XN6501-TW

C425
15
6.3V

C426
15
6.3V

4
R439
20k

C424
33
6.3V
:AL-C

D400
:N'M

-5V

Q419

5
1
404 2
3

R442
100
1/16W

R455
10k

C413
:N'M

5

Q420
R457
3k

C427
0.1
CN1(49/100)

B(G)
C435
0.1

C443
4.7
10V

C431
1
25V
:TA-C

R454
0

C422
:N'M

R460
10k
1/16W

C436
0.1

R461
10k
1/16W

CN1(57/100)

R467
1.8k

+2.5V
NAM

16
15

2/2
2/2

R464
3k

OUT

FB GND

R466
10k

9

VA-163 (1/2)

VA-163(1/2)

BOARD NO. 1-657-438-11
LOT NO. 504-

B-¥ BVP550-VA163-12

B-¥BVP550-VA163-12

1995.8.9

8-3

BVP-550
BVP-550P

I

J

K

L

8-3
M

N

O

P

VA-163 (2/2)

VA-163 (2/2)
BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

1

SG,1-18

9

SAMPLE 3 IN

CN1(9/100)

Q7
IC1(1/4)
2SD596T1-DV345 TL064CPW-E05
D1
RD4.3UH-T1

2
1

1

R1
20k

3

C2
0.1

2

85
86

-2.8V
-2.8V

94
93

+7.3V
+7.3V

C1
10
10V
:TA-CB

CN1(85/100)

R2
10k

C4
10
10V
:TA-CB

C3
0.1

CN1(86/100)

Q1
2SB624-T1BV3

C5
10
10V
:TA-CB
C7
0.1

20

1/2

+7V

17

1/2

+4.8V

18

1/2

A GND

19

1/2

IC1(2/4)
TL064CPW-E05

CN1(94/100)
CN1(93/100)

-2.5V

4

C6
10
10V
:TA-CB

R3
22k

5

R4
10k

7
6

1
D2
RD4.3UH-T1

R5
47k

Q2
2SB1114-T1ZL
92
91

+5.1V
+5.1V

C8
0.1

IC1(3/4)
TL064CPW-E05

IC6(1/4)
TL074CPW-E05

CN1(92/100)

2.5V

CN1(91/100)
C9
15
R6
6.3V 22k
:TA-CB
C10
0.1
C12
47
6.3V
:AL-C

10

R7
10k

8
1

9

R8
10k

R9
1.5k

3

100
99
98
97

A
A
A
A

GND
GND
GND
GND

C14
1
25V
R10 :TA-CA
22k

CN1(100/100)
CN1(99/100)

C13
1
25V
:TA-CA

CN1(97/100)

14
C17
47
6.3V
:AL-C

-5.1V
-5.1V

C11
22
10V
:TA-CC

1

CN1(98/100)

D4
RD4.3UH-T1

88
87

2
3 6

D3
RD4.3UH-T1

1
C18
0.1

13
12

R11
10k

C15
33
10V

C16
22
10V
:TA-CC

11
C19
1
R12
25V
10k
:TA-CA

CN1(88/100)
CN1(87/100)

-5V

Q3
IC1(4/4)
2SD596T1-DV345 TL064CPW-E05

MB,7-24

89

+2.5V REF OUT

CN1(89/100)
R13
100

IC3
REF-03GSR
1
2
3
4

R14
100k

4

MB,6-47
MB,23-3

8

A HD IN

CN1(8/100)

8
7
6
5

NC
NC
3
IN
NC
TEMP OUT
GND TR

R40
100

5V

IC23(2/4)
SN74HC08APW-E05

L1
22µH

R16
100k
1/16W

R15
100k
1/16W

MB,23-12

13

PREBLKG IN

CN1(13/100)

Q5
XN6401-TW

R19
10

Q4
2SC4177-T1L7

R17
4.7k
1/16W

R18
10k

R20
10k

R21
3.3k

Q4

MB,23-13

5

12

H CLP 1 IN

CN1(12/100)

4

R22
10

Q5

14

6 3

6

2

5

5

D5
1SS302-TE85L

7
4 1

11

DC LP

MB,6-49
MB,23-4

7

A VD IN

MB,22-13

14

V CLP 1 IN

CN1(11/100)

C20
10
10V
:TA-CB

C21
0.1

CN1(7/100)

C24
10
10V
L2 :TA-CB
22µH

C25
0.1

C22
0.1

R23
2.2k

R24
3.3k

C23
0.1

CN1(14/100)

-2.5V

8-4
A

B

C

8-4
D

BVP-550
BVP-550P

E

F

G

H

VA-163 (2/2)

VA-163 (2/2)

Q12
XN6501-TW

5V

IC12(1/4)
TL074CPW-E05

C48
0.1

180k

5 4

2

IC12(3/4)
TL074CPW-E05

R65
2k

3

4

5
6

5V
C45
0.1

R42
12k

R47
10k

11

3

5

C50
6.8
6.3V

C46
0.1
35V

C73
18p

C49
0.1

R43
1.5k

R68
1k

7

IC15(1/4)
TL064CPW-E05

4 3

R57
47k

9
R49
10k

D9
1SS302-TE85L

3

12

11
13
9

R70
1k

IC12(4/4)
TL074CPW-E05

R54
10k

1

C44
0.1

R46
1.5k

R52
10k

2

-2.5V

1

15

IC22(1/3)
TC74HC4053AFS-EL

17

13

C61 5V
0.1

R62
470k

16
5
3

IC15(4/4)
TL064CPW-E05

R77
33k

3
C58
1
25V

R101
20k

9
4

5

-2.5V

Q14
XN6401-TW

15

17
6 8 7

2

R100
2k

R102
1k

C64
0.1

C68
0.1

R118
4.7k

10
4

6 3

1
2

22
6 8 7

R111
100

2

15 5

6

3

4

1

2

5
22

4

CN1(26/100)

1
R112
8.2k

R108
2.7k

R115
2k

CN1(25/100)

R120
3.3k

MB,7-4
MB,7-3

14

IC17(3/3)
TC74HC4053AFS-EL

13

4 3
-2.5V
2

1/2

3
2
1

5
4

12
11
10
9
8
7
6
R55 5V
20k

5V
5V
R58
10k

R63
33k

R64
33k
R71
33k

R96
47k

10
9
8
7
6
5
4
3
2
1

21

24

VCC
A011

V0H
V1G
V1H
LD
CLK
SD0
VSS
SD1
VDD
V1D
V1C
V0D

11
12
13
14
15
16
17
18
19
20

13
14
15
16
17
18
19
20
21
22
23
24

CLK
SD0
VSS
SD1
VDD
V1D
V1C
V0D

V0H
V1G
V1H
LD

13
14
15
16
17
18
19
20
21
22
23
24
7

20

8
7
6
5

NC
D0
LD
CK
D1
NC
NC
GND

V0G
V0F
V0E
V1F
V1E
PR
GND
V1A
V1B
V0A
V0B
V0C
18

IC26
X24C02S-3.0-C700
0

R116
100k

VDD
NC
NC
AO4
AO3
AO2
AO1
NC
NC
VSS

R97
47k

C

IC16
MP7670AS-TE2

IC24
MB88351PFV-ER

VCC
NC

R94
47k

VDD
A0
CPE
A1
26
SCL
A2
SDA
VSS

1
2
3
4

3

11
12
13
14
15
16
17
18
19
20

IC20
TC74HC595AF(EL)

16

1/2

R90
33k

AO12
D0
LD
CK
D1
AO1
AO2
GND

3

PR
GND
V1A
V1B
V0A
V0B
V0C

12
11
10
9
8
7
6
5
4
3
2
1
V0G
V0F
V0E
V1F
V1E
1/2

R95
47k

IC18
MP7670AS-TE2

10
9
8
7
6
5
4
3
2
1

R84
33k

IC11
TC7S04FU(TE85R)

R89
33k

R87
33k

VDA
AO10
A09
A08
A07
A06
A05
A04
AO3
VSS

R85 R86 R88
33k 33k 33k

3

8
7
6
5
4
3
2
1

5 4

GND
Q7
Q6
Q5
Q4
Q3
Q2
Q1

2

QH
CLR
SCK
RCK
G
S1
Q0
VCC

5V

9
10
11
12
13
14
15
16

R53
20k

IC8
TC7S66FU(TE85R)

V SAW
C62
0.1

CN1(3/100)

C72
0.1

C63
0.1

5V

5V

R121
100

5 1
27 2

R122
100

2

CN1(1/100)

25

IC21
MB88346BPFV-EF

3

4

IC19(1/4)
TL074CPW-E05

C59
0.1

C60
0.1

C67
15
6.3V

C69
15
6.3V

C65
15
6.3V

C70
15
6.3V

C66
15
6.3V

C71
15
6.3V

3

LD(VA) IN

1

IIC CLK

2

IC25
TC7S04FU(TE85R)

R W SHADING IN

66

MB,7-18

G W SHADING IN

65

MB,7-19

B W SHADING IN

64

MB,7-17

W SHADING GND

63

MB,7-16

CN1(2/100)

AT,1-20

R123
100

3

R91
10k

5

IIC DATA

5

4

IC27
TC7S08FU(TE85R)
CN1(66/100)

7
19

5V

6

-5V
4
19
13

IC19(4/4)
TL074CPW-E05

R92
10k

3
1

11

19
2

10
8
19

IC23(1/4)
SN74HC08APW-E05

IC5(1/2)
TC74HC4538AFS-EL

+2.5V
PRE BLKG
CLP 1

16
8
9

1/2
1/2
1/2

CLP 3
CLP 2
NAM

11
10
15

1/2
1/2
1/2

GSL 2
GSL 1
KNEE SEL

9

R93
10k

4
5
6

1/2
1/2
1/2

CN1(63/100)

IC19(3/4)
TL074CPW-E05

4

L
M
N

IC5(2/2)
TC74HC4538AFS-EL

R28
10k

CN1(64/100)

IC19(2/4)
TL074CPW-E05

-5V

IC23(4/4)
SN74HC08APW-E05

CN1(65/100)

12

14

IC7
TC7S32FU(TE85R)

2

-2.5V

12
11
10
9
8
7
6
5
4
3
2
1

4 3

26
25

TEST SAW(X) IN
TEST SAW(G) IN

R119

15
R83
4.7k

IC14
TC7S66FU(TE85R)

R99
1.8k

R114
20k
R105
100

9

2
R51
1k

1/2

5V

B
1

1

-2.5V

Q11
XN6501-TW

R104
4.7k

16
3
5

18

5V

IC9(4/4)
LM339NS-E20

Q10
XN6401-TW

IC22(2/3)
TC74HC4053AFS-EL

R103
39k

R98
8.2k

1

R80
4.7k
D10
1SS302-TE85L

5
12

R74
0

C53
470p

10

14

R106
4.7k

17

TEST SIG

IC22(3/3)
TC74HC4053AFS-EL

8
10
15

14
22

R117
2.7k

R110
2.7k

R79
4.7k

13
R60
47k

C51
6.8
6.3V

5V

12
13

RV50
5k

IC23(3/4)
SN74HC08APW-E05

2

R82
4.7k

12
C47
0.001

23

R69
2k

14
8

9

IC9(3/4)
LM339NS-E20

R50
10k

IC12(2/4)
TL074CPW-E05

12

8
C43
0.1

C57
1
25V

11

-5V

10

14

9

9 10

IC17(2/3)
TC74HC4053AFS-EL

12

C55

R113
100

R107
2.2k

16

14

IC15(3/4)
TL064CPW-E05

R76
33k

11 0.1

IC13
TC7S66FU(TE85R)

5V

R73
0

6

9

IC9(2/4)
LM339NS-E20

R45
1.5k

4

2

1

12
13
17

0.1

5

6

11

8

15
9

R81
4.7k

15

C42
0.1

R44
1.5k

TEST

10

R67
2k

1

7

IC17(1/3)
TC74HC4053AFS-EL

R78
4.7k
D8
1SS302-TE85L

2

5

IC9(1/4)
LM339NS-E20
R48
10k

R61
1M

5V

4

R75
33k
C56
1
25V

5V C54

9

R72
0

C52
0.047
:FILM-C

R59
47k

-5V

2
C41
0.1

R66
1k

1

12

2

7
12
5V

R109
10k

IC15(2/4)
TL064CPW-E05

3

5V

Q13
XN6501-TW

1

5V
2.5V R56

R41
100

1

5V

IC10
TC7S04FU(TE85R)

IC6(2/4)
TL074CPW-E05

IC6(3/4)
TL074CPW-E05

R29
8.2k

4

C40
6.8
6.3V

7

5
6

1/2
1/2
1/2

12
13
14

IC6(4/4)
TL074CPW-E05

R35
100
R32
:N'M

C26
150p
C27
100p

5

1

15

14 16

4
2

2

1

R38
1k

3

Cx

D7
HSM107S-TL

4

CxRx
Q

11

R25
10k

CX CXRX VCC
Q

R30
10k

10
9

RD

R27
1k

13

CN1(80/100)

CN1(79/100)

CN1(77/100)

B
G
R
B

BLK SHAD
BLK SHAD
BLK SHAD
SHADING GND

78
79
80
77

MB,7-21
MB,7-23
MB,7-22
MB,7-20

Q
GND

8
12
13
11
R31
2.2k

C31
100p

R37
100
A1

14

3
R26
2.2k

CN1(78/100)

7
Q
RD

12
R39
330k

R36
100
R33
:N'M

8

9

5

5

3

10

5

2
1

13

6

12
11

A2

A3

A4

A5

A6

A7

A8

5

A9

R34
:N'M

C30
0.1

VA-163(2/2)

C32
0.1

VA-163 (2/2)

B-¥ BVP550-VA163-12
-5V

BOARD NO. 1-657-438-11
LOT NO. 504B-¥BVP550-VA163-12

8-5

BVP-550
BVP-550P

I

J

K

L

8-5
M

N

O

P

AT-95

1

AT-95

AT-95 BOARD
——————————
AT-95 (1-657-448-11)
——————————
*: B SIDE
BT1

B-4

CNI36 F-2

2

3

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

4

*
*
*
*

*
*
*
*
*
*
*
*
*
*

5
*
*
*
*
*

CN1

C-1

D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D12
D13
D15
D16
D17
D18
D19
D20
D21
D22

A-2
B-4
A-2
A-2
A-3
B-3
B-3
A-3
A-3
A-3
A-4
B-4
B-3
G-4
G-4
G-4
G-4
G-1
C-2
G-3

IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC21
IC22
IC23
IC24
IC25
IC26
IC27
IC28
IC29
IC30
IC31
IC32
IC33
IC34
IC35
IC37
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48

F-1
G-2
G-1
A-2
B-2
B-4
B-2
A-2
B-3
B-4
C-2
B-2
C-3
D-4
D-2
D-4
D-4
D-4
D-4
D-4
D-4
E-3
E-3
D-4
E-2
E-4
F-4
G-3
G-2
F-2
B-2
B-2
C-2
C-4
E-4
C-3
E-4
D-2
C-3
D-3
D-3
D-3
D-2
G-4
E-2
G-2

L1
L2

B-1
F-1

Q1
Q2
Q3
Q4
Q5
Q6

A-2
F-2
B-1
C-1
B-1
B-1

RV1

C-3

S1

E-3

8-6
A

B

C

8-6
D

BVP-550
BVP-550P

E

F

G

H

AT-95 (1/2)

AT-95 (1/2)

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

1

3
2
1

2/2

-2.8V
A GND
+7.3V

IC4(1/4)
TL064CPW-E05

Q1
2SB624-T1BV3
5V

92
91

CN1(92/100)

+5.1V IN
+5.1V IN

C8
100
6.3V
:AL

L1
0.47µH

89

C9
0.1

R20
100

2.5V REF IN
GND
GND
GND
GND

C18
0.1

CN1(99/100)

-2.8V IN
-2.8V IN

88
87

-5.1V IN
-5.1V IN

10

4
8

R16
100

4
9

C13
33
16V
:TA

C12
33
16V
:TA

C11
0.1

D1
RD4.3UH-T1

1
2
3
4

R19
1k

R15
C10 0
0.1

4

2/2

CS
≠≠
≠≠≠
RES

5
6

C14
0.1

2/2
2/2

C15
0.22
5.5V

C16
0.1

BT1

RES

7

2/2

8
VOUT

CS

7
6
5

RES

VBAT

6
VIN

GND

CT

RES

C17
6.8
16V
:TA

R22
22k
:RN-C

CN1(98/100)
CN1(97/100)

C19
100
6.3V
:AL

R23
5.6

CN1(86/100)

86
85

R18
20k
:RN-C
R21
100
:RN-C

11
CN1(100/100)

A
A
A
A

IC6
M62021FP
BACK UP V

CN1(89/100)

100
99
98
97

D2
1SS302-TE85L R14
1k

CN1(91/100)

R17
1.2M

DA,1-89/DF,1-89
SG,1-89

5V
R13
0

C20
0.1

CN1(85/100)

IC7(2/2)
TC74HC4052AFS(EL )

IC5(1/4)
TL064CPW-E05

IC5(2/4)
TL064CPW-E05

IC4(2/4)
TL064CPW-E05

IC7(1/2)
TC74HC4052AFS(EL )

CN1(88/100)
CN1(87/100)

16
CN1(75/100)

IF,1-19
IF,1-18
IF,1-17
IF,1-20

75
74
73
72

R PEAK IN
G PEAK IN
B PEAK IN
PEAK GND

96
95

D GND
D GND

CN1(74/100)

1
5

CN1(73/100) R25 1k
CN1(72/100)

2
4

12

8

7

C21
100p

R26
100

5

8

7

5

7

4

R28
56k
:RN-C

7

13

R29
1M

R31
15k

5

B

6 10

9

2 :RN-C

1 8

P93
P92

8
9

2/2
2/2

P94

10

2/2

L

11

2/2

N

12

2/2

AN0
R32
33k

4

3

AN7

D4
HSM107S-TL
A

5V
R30
3k
:RN-C

CN1(95/100)

7

14
15
11

6

5
11

9

C22
0.1

5

6

4
10
3

CN1(96/100)

2

D3
HSM107S-TL

IC8
TC7S66FU(TE85R)

IC5(3/4)
TL064CPW-E05
CN1(70/100)

MB,22-14

70

12

3

ND FILT IN
R34
1M

5

5

14

5

12

1

4

13

2

R33
2.7M

3

1

C23
0.1

R39
1M

IC4(4/4)
TL064CPW-E05

IC4(3/4)
TL064CPW-E05

IC5(4/4)
TL064CPW-E05

D6
IC9(1/4)
TL064CPW-E05 HSM107S-TL

14
4

AN5

7

9

2

6
13

69
51

CC FILT IN
TAPE REM IN

R37
3.3M
D5
1SS302-TE85L
R35
R36
1M
1M

C25
0.1

R38
CN1(69/100) 1M

MB,22-15
MB,22-12

CN1(51/100)
C24
0.1

CN1(67/100)

MB,32-4

67
90

IRIS POSI IN
+9.3V IN

CN1(90/100)

IC9(3/4)
TL064CPW-E05

D9
:N'M
R12
5.6
R42
680

CN1(68/100)

MB,22-16

68

3

D7
HSM107S-TL

AN2

IC9(2/4)
TL064CPW-E05

10

TEMP IN

4

R40
10k
:RN-C

8

9

12
11

D8
HSM107S-TL

R45
2.2k

D11
HSM107S-TL

R41
22k
:RN-C

9

C27
0.1

D10
HSM107S-TL

R43
1k

14

9

AN3

13
C26
0.01

R47
10k
:RN-C

R46
1k

C28
0.01

R48
12k
:RN-C

R44
6.8k
:RN-C

AN4
C29
0.1

IC11(1/2)
NJU7022M-TE2

CN1(64/100)

MB,32-6

64

ZOOM POSI IN

MB,12-13

47

AUDIO LEVEL IN

IC11(2/2)
NJU7022M-TE2
IC9(4/4)
TL064CPW-E05

CN1(47/100)

R51
1k
C30
0.1
C31
3.3
10V
:TA

D13
HSM107S-TL

D12
HSM107S-TL

5

8

3

11
11

1

R49
10k
:RN-C

R50
22k
:RN-C

D14
:N'M

3

6

R52
1k

2

9

R59
820

RV1
5k

C34
1
35V
:TA

R54
18k

R56
1.8k

R60
680k

R57
10k
:RN-C

C33
0.01

R55
6.8k
C35 :RN-C
0.01

R58
12k
:RN-C

AN6
AN1

IC12(2/2)
NJU7022M-TE2

IC13
MB88351PFV-ER

IC12(1/2)
NJU7022M-TE2
1

3

8
12

2
3

R61
560k

1

12

4

7

6

R164
300k
1/16W
C40
4.7
25V
:TA

4
5
6
7
8

5

2

R63
560k

R64
270k

R165 R62
330k
3k
1/16W
C39
0.01

R65

9
10

5V

GND
VSS
NC
NC
NC
NC
DI
AO1
13
CLK
AO2
LD
AO3
DO
AO4
NC
NC
NC
NC
VDD
VCC

20
19
18
17
16
15
14
13

P30
P31
P32

13

M

2/2

12
11
C38
0.1

C37
0.1

R66
1k

C41
0.01

IRIS CONT OUT

4

R53
100

C36
0.01

AUDIO

61

1

2

4
C32
0.0022

D15
HSM107S-TL

7

AT-95(1/2)

5

B-¥ BVP550-AT95-12

CN1(61/100)

AT-95 (1/2)
BOARD NO. 1-657-448-11
LOT NO. 504B-¥BVP550-AT95-12

8-7

BVP-550
BVP-550P

AI

J
B

K
C

LD

8-7
M
E

NF

O
G

P
H

AT-95 (2/2)

AT-95 (2/2)

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)
R1
5.6

Q2(1/2)
IC2(1/2)
Q2(2/2)
XN6501-TW TC7W02FU(TE12R)
XN6501-TW
1

MB,41-7

8
27

CN1(7/100)

R8 R9
4.7k 10k

GND

IC14(2/3)
TC7W04FU(TE12R)

1
7
12

R161
2.7M

2

14
13

14

5
14

3

3

IC14(3/3)
TC7W04FU(TE12R)

IF,1-26
SG,1-21
IF,1-25

CN1(5/100)

CHU DATA OUT

5

MB,12-26

CN1(6/100)

CCU CONT IN

6

MB,12-25

CN1(8/100)

NC(VA4)
NC(SG22)
NC
NC(LENS11)
NC(PR102)
NC(LENS12)

8
21
54
59
71
82

R74
4.7k

4

D0
D1
D2
D3
D4
D5
D6
D7

P30/D0
P31/D1
P32/D2
P33/D3
P34/D4
P35/D5
P36/D6
P37/D7

TP4

ROUT0

NC

TEST1

SEL

TEST0

RVD

WRN

VSS

ADR7

CN1(54/100)
CN1(59/100)

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

ROUT1

ADR6

ROUT2

ADR5

ROUT3

ADR4

ROUT4

ADR3

ROUT5

ADR2

ROUT6
ROUT7

ADR1
ADR0

VDD

35
VDD

VSS

VSS

TVD

BRD1

IVH

BRD0

BCKO

BTVD

NC

NC

NC

VDD

RIN0

VSS

RIN1

5V

CN1(71/100)
CN1(82/100)

IC33
TC74VHC163FS(EL)

3
4
5
6

C47
0.1

3
4
5
6
8
1
2 32
4

33

7 EN1
CO 15
10 EN2
GND RD

IC35
CXD8889R

9

9 16
LD VCC 14
QA
QB 13
QC 12
QD 11

A
B
C
D

2

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

IC34
TC74VHC163FS(EL)

5
6 32

3

A
B
C
D

5V

16

C46
0.1

LD VCC 14
QA
QB 13
QC 12
QD 11
34

7

7 EN1
CO
10 EN2
GND RD

15

8 1
8 1

C48
6.8
16V
:TA

C49
0.1

IC32(1/2)
IC32(2/2)
TC7W02FU(TE12R) TC7W02FU(TE12R)

A0
A1
A2
A3
A4
A5
A6
A7

A8
A9
A10
A11
A12
A13
A14
A15
A16
A17

21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40

3

A0

P20/AS
P17/TMO
P16/IRQ1
P15/IRQ0
P14/WATT
P13/BREQ
P12/BACK
P11/E
P10/0
16

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

AN7
AN6
AN5
AN4
AN3
AN2
AN1
AN0

CN1(21/100)

RIN2

≠≠≠
RES

60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41

AVCC
P87/AN7
P86/AN6
P85/AN5
P84/AN4
P83/AN3
P82/AN2
P81/AN1
P80/AN0
AVSS
P77/FTOA1
P76/FTOB3/FTCI3
P75/FTOB2/FTCI2
P74/FTOB1/FTCI1
P73/FTI3/TMRI
P72/TFI2
P71/TFI1
P70/TMCI
VCC
P63/A19

RIN3

RES

6

46
23
45

3

RIN4

1/2

7

C45 0.1

1/2

RD
WR

P21/R/ W
P22/DS
P23/RD
P24/WR
VCC
MD0
MD1
MD2
STBY
RESET
NMI

RIN5

5V

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

RIN6

P94

CN1(45/100)

C43
0.1

RIN7

10

P92

C44
0.1

D0

1/2

R73 4.7k

PEAK RST OUT
V RESET OUT
WINDOW OUT

R76
100

2
3

3

D0
D1
D2
D3
D4
D5
D6
D7

P93

CN1(23/100)

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

XTAL
EXTAL
P97/SCK
P96/RXD
P95/TXD
P94/PW3
P93/PW2
P92/PW1
P91/FTOA3
P90/FTOA2

8

CN1(46/100)

R72 1k

R77
100

P50/A8
P51/A9
P52/A10
P53/A11
P54/A12
P55/A13
P56/A14
P57/A15
P60/A16
P61/A17
P62/A18

1/2

56

R71 4.7k

15 8

P40/A0
P41/A1
P42/A2
P43/A3
P44/A4
P45/A5
P46/A6
P47/A7

9

55

18M(G)IN

16

5
6

7

C7
1.5
25V
:TA

80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61

1/2

18M(X)IN

CN1(56/100)

R75
4.7k

IC3(3/4)
TC74VHC157FS(EL)

R163
0

R162
0

IC16
HD6475328F10

2

CN1(55/100)

IC3(4/4)
5V
TC74VHC157FS(EL)

6

RESE

+7.3V
A GND
-2.8V

C6
0.1

C80
0.1

Q

3

15
R

R10
22k

1
3
-10VOUT C1VCC 16
C21
L2
GND
C1+
4.7µH
2
C2+ +10VOUT

5

VDD

1
2
3

C5
1.5
25V
:TA

6

Q

VSS

4
C4
0.1

5V

D20
1SS302-TE85L

S
D

D7

6
5
15

C3
0.1

2
1
4

RD

R11
100k

9
ROUT2
ROUT1 12
10
T2IN
11
T1IN

4
9

IC15
TC7W74FU(TE12R)

VDD

7
14

RIN2
RIN1
T2OUT
T1OUT

3

6 8

RDN

8
13

CN1(3/100)

C1
100p

1/2
1/2
1/2

14
10
11

4

C2
0.001 5

1

CSN

TP1

8
7

D6

RM SD OUT

R70
1M

3
6

CN1(4/100)
R3
6.8k
R7
100

3

5
4

3

CLK

RM SD IN

R6
1k

IC1
MAX202CSE-TE2

R4
100

5V

C42
0.001

D5

4

5V

IC14(1/3)
TC7W04FU(TE12R)

D4

MB,41-8

IC3(1/4)
IC3(2/4)
TC74VHC157FS(EL) TC74VHC157FS(EL)

R2
10k

D3

R5
100

2
1

A0
A1
A2

CA DATA IN/OUT

7

IC2(2/2)
TC7W02FU(TE12R)

CN1(93/100)

A2

CN1(94/100)

A1

+7.5V IN
+7.5V IN

D2

94
93

WR

5V
MB,12-24

D1

1

AN3
1/2

11

L

IC38
HD151015TEL

5V
CN1(84/100)

R78
10

+3.3V IN
+3.3V IN

84
83

DB
DB
DB
DB
DB
DB
DB
DB

0(PR)
1(PR)
2(PR)
3(PR)
4(PR)
5(PR)
6(PR)
7(PR)

32
33
34
35
36
37
38
39

MB,6-54
MB,6-56
MB,6-58
MB,6-60
MB,6-62
MB,6-64
MB,6-66
MB,6-68

R93 10 CN1(40/100)
R94 10 CN1(29/100)

RD(PR)
WR(PR)
CE0(PR)
CE1(PR)

31
30
40
29

MB,6-52
MB,6-50
MB,6-70
MB,6-48

R95 10 CN1(42/100)
R96 10 CN1(41/100)

A0(PR)
A1(PR)

42
41

MB,6-72
MB,6-74

CN1(83/100)

R79
3.9k

12

IC18
TC7SH02FU-TE85R

IC22
TC7SH32FU-TE85R

A7 5
A6 6
A5 7
A4 8
A3 9
A2 10
A1 11
A0 12
13

3

IC23(1/2)
TC74VHC20FS(EL)
A14
A13
A12
A11

1
2
4
5

C54
0.1

6
4

14
6

5
7

9 10 12 13

16
1
2

A
B
C

Y0
Y1
Y2
Y3
24
Y4
G1
Y5
G2A Y6
G2B Y7

15
14
13
12
11
10
9
7

1
2

A7

A14

A6

A13

A5

A8

A4

A9

36

A3

A11

A2

G

A1

A10
E

A0

DO8

DO1
DO2

IC19
TC7SH04FU-TE85R
A6
A5
A4

20
19
18
17
16
15

A14
A13
A8
A9
A11

29
28
27
26
25
24
23
22
21

24 1
A0

B1

A1

B2

A2

3

B3

A4

B5

A5

B6

A6

B7

A7

B8

10
11

A8

C52
0.1

C50
10
6.3V
:TA

R80 10 CN1(32/100)
R81 10 CN1(33/100)
R83 10 CN1(34/100)
R84 10 CN1(35/100)
R85 10 CN1(36/100)
R86 10 CN1(37/100)
R87 10 CN1(38/100)
R88 10 CN1(39/100)

G

12 23 13

R89
47k

5
4

R90
47k

3
1
RD
WR

2
4
17

RD
A10

A0
A1

15
13
11
6
8

20

EN
A1

X1

A2

X2

B1

Y1
Y2

B2

39
B3

Y3

B4

Y4
X3

A3

X4

A4

18
16
3
5
7
9
14
12

R91 10 CN1(31/100)
R92 10 CN1(30/100)

EN

14 15 16 17 18 19 20

C55
0.1

4
5
6
7
8
9

A3

38

B4

IC37
TC7SH08FU-TE85R

IC36

2
DIR
B0

21

4 3 2 1 32 31 30

C53
0.1

8

5V

4

A17

IC23(2/2)
TC74VHC20FS(EL)

IC24
TC74VHC138FS(EL)

22

14

NC

4
3

PGM

3

3

5V

5

VCC

2

2

1
2

DO7

4

4
3

3

4

5

VDD

5

A15

4

DO6

3
5 1

1
2

5

DO5

IC17
TC7S32FU(TE85R)

1
2

DO4

4

A12
A15
A16

5

1
2

BACK UP V

A16

4

≠≠
CS

A15

1/2

5V

R82
6.2k

IC21
TC7SH02FU-TE85R

A12

5

IC20
TC7SH08FU-TE85R

GND

1/2

D0
D1
D2
D3
D4
D5
D6
D7

N

DO3

1/2

C51
0.1

8

10

19

5

1/2

13

D7

D3
D4
D5
D6

D1
D2

D0

IC39
TC74VHC244FS(EL)

M

8-8
A

B

C

8-8
D

BVP-550
BVP-550P

E

F

G

H

AT-95 (2/2)

AT-95 (2/2)

1

5V
D21
1SS302-TE85L R100
10k

R97
100k

R101
10k
CN1(2/100)
CN1(1/100)

WR

D0
D1
D2
D3
D4
D5
D6
D7

VDD

D0
A0
A1
A2

11
10
9
8

I/06

A13
WE

I/05

26
VCC

I/04
GND

A14

I/03

A12

I/02

A7

I/01

A6

A0

A5

A1

A4

A2

A3

A14
A12
A7
A6
A5
A4
A3

6
7
8
9
10
11

P07

NC

WR

P06

P05

P04

P03

P01

P02

RD

4
5
6
7

A1
A0
P27
P26
P25
P24
P20

1
2
3
4
5

NC

NC

CS

RESET

GND

D0

A1

D1

A0

D2

27

P27

D3

P26

D4

P25

D5

P24

D6

P20

D7

P21

VDD

33
32
31
30
29
28
27
26
25
24
23

D0
D1
D2
D3
D4
D5
D6
D7

CN1(24/100)

5
6
7
8
12
13
14
15
17
16

CD0

VDD

CD1

VCC

CD2

CO

CD3

20
10
19
18
4
9
11
2
3
1

BO

CD4

NC

29
CD5

NC

CD6

NC

CD7

A

STB

B

OE

RST

IC40(1/2)
TC74VHC74FS(EL)

IC42
IC40(2/2)
TC74VHC163FS(EL)
TC74VHC74FS(EL)
IC41
IC43(1/3)
TC7S86FU(TE85R)
TC7W04FU(TE12R)

5V

4
2
3

9

SD
D

5
Q

40
6
Q

C59
0.1

1
2

5
41

3 A
4
B
5 C
6
D

4

3

RD

C60
0.1

1
2

C61
0.1

5
1
2 31

RD
WR

12 13 14 15 16 17 18 19 20 21 22

2
1
24
44

MB,41-9
MB,41-10
MB,6-49

16

LD VCC
QA
QB
QC
QD
42

14

13
14
13
12
11

12
11

C57
0.1

7

SD VCC
Q

D

IC43(2/3)
IC45
TC7W04FU(TE12R)
TC7W74FU(TE12R)
IC44
IC43(3/3)
TC74VHC163FS(EL)
TC7W04FU(TE12R)

9
A
B
C
D

4
8
GND

16
LD VCC
QA
QB
QC
QD
44

C58
0.1 3

9

40
5
6

Q
RD

10

2

6 8
14
13
12
11

6

2

R103
1k

82

D

1
4

43

4

SD VCC
Q

5

45
3
GND

Q
RD

2

7

1 5
2 30

15
7 EN1
CO
10
EN2
GND RD
1
8

4

1

7

7

15

EN1
CO
10 EN2
GND RD

3
43

5
8 1

R104
100k

3
4

3
CN1(22/100)

A HD IN
HD IN

22
43

MB,6-47

CHAR BACK OUT
TITLE BACK OUT

27
25

MB,6-46
MB,6-42

CHAR VF OUT
TITLE OUT

28
26

MB,6-44
MB,6-40

LD(TG)
LD(CCD)
LD(VA)
IIC CLK(SW)
IIC DATA(SW)
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(CA)
LD(DA)
LD(SG)
LD(IF)

18
16
20
13
14
11
12
9
10
17
19
15

MB,23-16
MB,23-15
VA,1-1
MB,IC5-6
MB,IC5-5
MB,12-27
MB,12-28
MB,12-29
MB,12-30
DA,1-1
SG,1-1
IF,1-1

RET EN OUT
TALLY ON OUT
REC TALLY IN
VTR RST IN
VTR S/S TRIG IN
RET SW IN
EX ON IN
ZEBRA ON

50
58
57
53
65
66
63
81

MB,12-15
IF,1-29
IF,1-30
IF,1-28
MB,32-10
MB,32-3
MB,32-7
MB,31-B6

CN1(76/100)

AUTO +5V OUT
REM/LOCAL
VF 16:9/4:3 OUT

60
62
76

MB,32-8
MB,32-9
MB,31-A6

CN1(78/100)

ABNORMAL OUT

78

MB,31-B4

CN1(77/100)

G TALLY OUT

77

MB,31-A5

CN1(52/100)
CN1(48/100)

VTR S/SOUT
PB REF IN

52
48

MB,12-6
IF,1-45/MB,12-17

CN1(49/100)

BATT ALARM IN

49

MB,12-5/MB,31-A4

CN1(80/100)

VF RGB OUT

80

MB,31-B7

CN1(79/100)

NC(VF 7)

79

CN1(43/100)

IC30
TC7SH02FU-TE85R

WR

RD
P30
P31
P32
P33
P34
P35
P36
P37

RE A Ø
RE B Ø
A VD IN
VD IN

5V

5V

TP5

C62
0.1

D22
1SS302-TE85L

R102
1k

5V

P17

NC

9
8

A8

A11
A9
A8
A13

P16

NC

I/07

22 RD
23
24
25
26
27 WR
28
1
2
3

P15

NC

NC

A9

P14

NC

A11

I/08

P13

CS

OE

CE

NC

25
SC

A10

P13
P14
P15
P16
P17

CS

12
11
10

A10 21
20
19
18
17
16
15
14
13
D2
12
D1

D7
D6
D5
D4
D3

P12

S1

14
13

P11

SO

P10

TP

P12

4
5
6
7

VSS
WR

P23

1
2
3

P22

IC25
RTC-4553B

C56
0.1

P22
P23
P10
P11

C71
15
16V
:TA

P00

44 43 42 41 40 39 38 37 36 35 34

IC26
CXK58257ATM-70LL

R99
100k

CN1(44/100)

IC29
µPD4702G

P04
P05
P06
P07

RD
P00

P01
P02
P03

IC27
µPD71055GB-10-3B 4

R98
100k

R105
100

IC31
TC7SH32FU-TE85R

P07

NC

WR

P06

P05

P04

P03

P01

P02

A1

D1

A0

D2

28

P27

D3

D6

P20

D7

P21

VDD
P17

P24

P16

D5

P15

P25

P14

D4

P13

P26

P22

7
8
9
10
11

D0

NC

A1
A0

R109
47k

RESET

GND

P12

R108
47k

NC

CS

P11

R107
47k

NC

P10

R106
220k

1
2
3
4
5
6

P23

5V

P00

RD

44 43 42 41 40 39 38 37 36 35 34

33
32
31
30
29
28
27
26
25
24
23

IC47
µPD6453GT-610

D0
D1
D2
D3
D4
D5
D6
D7

TP3

IC46
X24164SIC7000
1
2
3
4

5V

S0

VCC

S1

TST

46
S2

SCL

GND

SDA

8
7

C63
0.1

P03
P14
P15
P16

1
2
3
4

6
5

5
7
8

C65
0.1

9
D16
1SS302-TE85L

D17
1SS302-TE85L

D18
1SS302-TE85L

12 13 14 15 16 17 18 19 20 21 22

D19
1SS302-TE85L

5V

6

TP2

IC28
µPD71055GB-10-3B 4

V DD
BUSY
HD
CLK
VD
47
CS
BBLK
DATA GBLK
PCL
RBLK
VCBL
CKOUT
VB
OSCOUT VG
OSCIN
VR
VMON
GND
10

20
19
18
17
16
15
14
13
12
11

C64
0.1
R110
2.2k
CN1(27/100)
CN1(25/100)

3

R111
2.2k
R114
2.2k

R113

R112

CN1(28/100)
CN1(26/100)
R115
2.2k
R117

R116

5V
P33
P34
P35

8
P36
P37

48

7
6
5

CN1(16/100)

R120 100

CN1(20/100)

R121 100

CN1(13/100)

R122 100

CN1(14/100)

R123 1k

CN1(11/100)

R124 1k

CN1(12/100)

R125 1k

CN1(9/100)

R126 1k

CN1(10/100)

R127 100

CN1(17/100)

R128 100

CN1(19/100)

R129 100

CN1(15/100)
R135
47k

3

4

2
R136
47k

Q3(1/2)
IMH2-T110

P01

R144
47k

R134
47k

1
CN1(50/100)

P24
P20

C66
100p

CN1(18/100)

R119 100

R130 R131 R132 R133 5V
100k 100k 47k 47k

4
IC48
TC7W139FU(TE12R)

P27
R137
1k

1
2
3

R118 100

P22
P23

R138 100

CN1(58/100)

R139 1k

CN1(57/100)

R140 1k

CN1(53/100)

R141 1k

CN1(65/100)

R142 1k

CN1(66/100)

R143 1k

CN1(63/100)

P00

CN1(81/100)

4
5

3
P13

R160
1k

Q4(1/2)
IMB2-T110

2

6

5V R147 R148

Q6(1/2)
IMH2-T110

1

100k 100k

CN1(60/100)
R145 100

P12
S1

1
3
5
7

R146
100k

R149
100k

2
4
6
8

P04
P05
P06
P07

CN1(62/100)

1
P11

Q5(1/2)
IMH2-T110

2

Q4(2/2)
IMB2-T110

P25

6
3
5
4
4

P10

Q5(2/2)
IMH2-T110

5

5

R150
100

6

P26
P02

R151
1k
C67
100p

C68
100p

C69
100p

R152
47k

6

R154
10k

P17

C70
100p

5

R153
100k

R155
100k

4

Q3(2/2)
IMH2-T110

AT-95(2/2)
A1

A2

A3

A4

A5

A6

A7

A8

AT-95 (2/2)

A9

B-¥ BVP550-AT95-12
95.08.14 BOARD NO.

8-9

BVP-550
BVP-550P

I

J

K

L

1-657-448-11
LOT NO. 504-

8-9

B-¥BVP550-AT-95-12

M

N

O

P

SG-234 (1/2)

SG-234 (1/2)

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

SG-234 BOARD
——————————
SG-234 (1-657-449-11)
——————————
*: B SIDE

*
*
*
*
*
*

5

4
8

6

2 202

Q
RD

2

14

18
25

16

4

25

IC25(2/8)
TC74VHC244FS(EL)

4
2 203

Q24
DTC144EUA-T106

IC35(8/8)
SN74HCT244APW-E0 5

3

4

11

9

L7
22µH

5

2

6
35

6

C47
0.1

R62
100k

3

7 13

1

14

4

3

5

1

IC25(1/8)
TC74VHC244FS(EL)

8 1
11 2

5

1

RD

Q25
DTC144EUA-T106

Q200
DTC144EUA-T106

Q201
DTC144EUA-T106

7V

201

E-1
F-1
D-1
D-1
C-1
D-1

R68
10k
:RN-C
R67
27k
:RN-C

3
R129
220k

IC201
TC7S04FU(TE85R)
AT,1-13

2

IIC CK

CN1(2/100)

AT,1-14

3

IIC DATA

CN1(3/100)

IC8(2/3)
TC7W04FU(TE12R)

R130
1M

R58
100 3

5

6
8

8

18
19
2
3
4
5
6
7
8
9
12
13
14

VDDVCC

C48
6.8
16V
:TA-C

2

11

10

IC8(3/3)
TC7W04FU(TE12R)

A01

C49
0.1

A02
A03

R59
100

A04
A05

R60 100

AT,1-19

1

1

CN1(1/100)

LD(SG) IN

8
8

IC8(1/3)
TC7W04FU(TE12R)

A06

7

4

12

R61
270
:RN-C

A07
A08

16

8
R200
1k

1
2
3

V
A0

15
30

5
SDA

21
A1
A2
SCL
VSS CPE

A09

CK

6

D8
RD3.3UH-T1

R131
1M

A10

17
A11

D1

5

A12

15

R201
100k

R144
100k

R202
100k

Q24

D0

LD
VSSGND

4 7

IC30(7/8)
TC74VHC244FS(EL)

C50
4.7
10V
:TA-C

R69
13k
:RN-C

20

1

IC21
X24C02S-3.0-C700 0

R145
100k

Q25

IC12
MB88346BPFV-EF
IC30(8/8)
TC74VHC244FS(EL)

IC18
M51958A-T1

L8
22µH

84
83

CN1(84/100)

3.1V
3.1V

CN1(83/100)

20

R78
1k

C85
0.1

19

7
17

3

30

VCC

2

1

6

18
5

10

CD
GND

4
C56
0.22

C57
22
10V
:TA-C
C81
330
6.3V
:AL

C58
0.1

C82
0.1

C62
0.1

96
95

R70

R71
0

NC

NC

CLK

NC

PSW0

D19

PSW1

6 30 13 14 15 16 17 18 20 21 44 38 37 42

D08

D17

D07
D06

D16

16

D15

D05

D13

D03

D12

D02

D11

D01

R77
0

N/P

D04

INIT

D14

D10

R80
100

C61

D00

19 43 39 41 22 23 24 45 46 47 48 25 12 40

CN1(96/100)

D GND
D GND

26
27
28
29
31
32
33
34
35
36

D09

D18

OEN

11
10
9
8
7
5
4
3
2
1

PSW2

RB1
RB2
RB3
RB4
RB5
RB10

R79
10k
:RN-C

IC16
CXK1203AR-T4

CN1(95/100)

L9 4.8V-2
22µH

RB5(1/3)

DA,1-48

3

CN1(57/100)

57

36MHz OUT

4

5
4

IC31

IC32(3/4)
TL064CPW-E05

2 TC7SH04FU-TE85R

31

3
MB,6-109

C64
33
16V
:TA-C

36MHz IN
C83
0.1

DA,1-47
MB,6-110
MB,14-13

58
62
11

D3
HSM88AS-TL

CN1(11/100)

MB,IC4-2

CN1(59/100)

59

IC45
TC7SH04FU-TE85R

6

5

18MHz(X) OUT

MB,6-108
DA,1-45
IF,1-33

60
56

18MHz(G) IN
18MHz(G) OUT

MB,23-6

B

C

R98
:RN-C

R100
1k
:RN-C

R99
33k
:RN-C

R101
1k
:RN-C

C73
0.01

1

11
5
8

2

32

45

C78
0.1

CN1(60/100)

15
1

10

IC32(2/4)
TL064CPW-E05

CN1(56/100)

2

33

9

4

CN1(68/100)

14

IC32(1/4)
TL064CPW-E05

CN1(66/100)

D

IC33(1/3)
TC74HC4053AFS-EL

11

R92
47

VCO CONT OUT
VCO CONT(G)

C72
15
6.3V
:TA-C

10

IC33(3/3)
TC74HC4053AFS-EL

66

5

30

2

3

68

3

R96
10k
:RN-C

-4.8V 10k

9

MB,23-5

C93
0.1

R146
0

RB5(3/3)
CN1(55/100)

55

16
33
4
6
8 9 7

R147

IC30(6/8)
TC74VHC244FS(EL)

R90
47

18MHz(X) OUT

DA,1-46
IF,1-34

3
32 2
11

18MHz(X) IN
CN1(12/100)

12

R97
10k
:RN-C

4

1

CN1(62/100)

RB5(2/3)

MB,6-107

R95
1k

C65
0.1

R122
1k

CN1(58/100)

36MHz(G) OUT
36MHz(G) IN
18MHz(G) OUT

7V

D10
HSM88AS-TL

R121
1M

CN1(61/100)

61

8-10
A

9

9
Q

200

NC

4

*
*
*
*
*
*

D

NC

*

Q

14

SD

12
11

PSW3

*

5
Q

200

7

IC35(1/8)
SN74HCT244APW-E0 5

R65
220k

NC

*

SD
D

16
13

11

PSW4

*
*

2
3

R66
100k

NC

A-2
A-2
B-2
A-4
A-4
B-4
A-4
A-4
C-4
A-4
C-3
C-3
C-4
A-3
A-3
C-4

*

10

4

R128
1k

3
6 11

PSW5

Q1
* Q2
* Q4
Q5
Q6
* Q7
Q8
* Q9
Q10
* Q11
* Q12
* Q14
Q15
* Q16
Q17
* Q18

*

CN1(21/100)

V RESET 2 IN

5

PSB0

A-1
A-1
B-1
B-4
C-4
F-1
B-2
B-2

*
*
*

21

R63
1k

4

5 1
20 2

4

12
13

8 10

PSB1

L1
L2
L4
L5
L6
L7
L8
L9

*

AT,1-23

13

5
3

15

C46
1

R149
0

2
1

R64
220k

D7
1SS301-TE85L

4.8V-2
R57
100k

7
13

IC11(2/2)
TC7W08FU(TE12R)

PSB2

A-2
B-4
F-1
D-3
F-1
D-3
F-2
A-2
F-4
D-3
F-1
F-3
F-4
E-2
E-2
C-2
D-2
D-3
D-4
D-4
C-4
C-3
D-3
D-3
C-3
D-3
D-2
C-3
B-3
D-2
A-3
B-3
A-3
D-1
D-1
D-1
D-1
A-4
B-4
B-4

IC13(1/3)
TC74HC4053AFS-EL

VSS

IC3
IC5
IC8
IC11
IC12
IC13
IC16
IC17
IC18
IC20
IC21
IC22
IC24
IC25
IC30
IC31
IC32
IC33
IC34
IC35
IC36
IC37
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48
IC200
IC201
IC202
IC203
IC204
IC206
IC207

*

3

C-2

CN1(19/100)

V RESET 1/CF OUT

IC202
IC203
TC7S32FU(TE85R) TC7S08FU(TE85R)

PSW6

FL1

19

IC200(1/2)
IC200(2/2)
TC74VHC74FS(EL) TC74VHC74FS(EL)

R127
1k

SCLK

*
*

MB,12-16

IC11(1/2)
IC13(2/3)
TC74HC4053AFS-EL TC7W08FU(TE12R)
IC13(3/3)
IC20
TC74HC4053AFS-EL
TC7S08FU(TE85R)

VSS

*

2

A-2
A-2
E-2
A-1
B-3
B-4
D-3
F-1
C-2
C-3
A-3
D-1
A-3
B-4
E-3

D-4
A-3
B-3
G-4
F-1
F-1
D-3
E-1
F-2
A-4
A-4
B-4
A-3

R56
1k

PSW7

*

D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D12
D13
D14
D200
D201

* Q20
* Q21
Q22
Q23
* Q24
* Q25
Q26
* Q200
* Q201
Q202
Q203
Q204
* Q205

CN1(36/100)

N/P OUT

AEN

*

C-1

36

VDD

*

CN1

MB,6-106
IF,1-48
DA,1-41

VDD

1

32

13
12

13
14
12
C84

33

IC33(2/3)
TC74HC4053AFS-EL

8-10

BVP-550
BVP-550P

E

F

G

H

SG-234 (1/2)

SG-234 (1/2)

V RESET 2
N/P
H CONT
+4.8V
GND
OLD/NEW CA
VR DET
-4.8V
CABLE COMP
EXT SYNC
GENLOCK OFF
TRAP
EXT SC

1
2
3
4
5
6
7
8
9
10
11
12
13

1

2/2

2
IC35(2/8)
SN74HCT244APW-E0 5
Q20
DTC144EUA-T106

RB10

5
3
1
8

6
4
2
7

R124
100k

CN1(34/100)
CN1(32/100)
CN1(30/100)

TD1
TD0
TCK

34
32
30

DL SYNC OUT

23

DA,1-6
IF,1-12

DL BLKG OUT

25

DA,1-8
IF,1-14

CF OUT

7

MB,14-15

VD OUT

9

MB,14-17

HD OUT

6

MB,12-22

16 35 4
Q20

IC25(5/8)
TC74VHC244FS(EL)
Q23
DTC144EUA-T106

IC42(1/8)
SN74HCT244APW-E0 5
IC25(4/8)
TC74VHC244FS(EL)

RB1(1/2)

2

IC42(2/8)
SN74HCT244APW-E0 5

4

IC30(1/8)
TC74VHC244FS(EL)
IC30(2/8)
TC74VHC244FS(EL)

D201
HSM88AS-TL
C52
C51
10
22
10V
10V
:TA-C :TA-C

R150
0

CLK SEL 1

VDD

20

HD
VD
SYNC

MODE SEL 1

BF

MODE SEL 1

BLKG

2
4
6
8
2
4
6
8

4
11
5
6
7

Q23

R123
10k
:RN-C

LALT

39
49
35

18M OUT

9
8

R81
100

SYNC2

H COM OUT 2

SAMPLE

COM OUT 1

FLD

COM OUT 2

CF

13
13

INT/EXT

ASET

TGC OUT

SDA
TST OUT

TST 7

TST 6

TST 5

TST 4

TST 3

TST 1

TST 2

INT SC IN

H PHASE3

H PHASE2

H PHASE1

H PHASE0

VBL WIDTH1

VBL WIDTH0

CLR

HBL WIDTH3

ACK

HBL WIDTH2

SCL

HBL WIDTH1

EXT SC IN
HBL WIDTH0

C60
0.1

27M IN

VSS

IC22
TC7SH04FU-TE85R

R84
100

36M IN

VSS

3

58
52
57
55
53

IC35(3/8)
SN74HCT244APW-E0 5
2

IC25(3/8)
TC74VHC244FS(EL)

18

26 27 28 29

32 33

64 65 66 67

14

3

C97
2.2
16V
:TA-C

20
17

8
35

35

1

CxRx
Q

R102
100k
:RN-C

10
5
15
35
7

13

3
6

1

35

Cx

4

CN1(41/100)
CN1(42/100)
CN1(43/100)
CN1(44/100)
CN1(45/100)
CN1(46/100)

42

2

7

5

SD

1
2

Q

CN1(10/100)

SAMPLE 1 OUT

10

MB,14-19

3

CN1(18/100)

SAMPLE 3 OUT

18

VA,1-9

2

1

CN1(17/100)

SAMPLE 2 OUT

17

IF,1-4
DA,1-4

IC25(8/8)
TC74VHC244FS(EL)

IC40
TC7S66FU(TE85R)

39

4

3

2

1

19

32

7

8
41

7
6

C67
0.1

IC34(2/2)
TC4W66FU(TE12R)

R108
2.2k
:RN-C

VD OUT

50

AT,1-44 / DA,1-43
IF,1-39

CN1(78/100)

6
R109
47k
:RN-C

R107
5.6k
:RN-C

CN1(35/100)

R148
100k

78

MB,6-114

35

MB,6-105

FL1

5
52
43 1

C74
0.1

4

2

Q26
DTC144EUA-T106

42

3

C76
10
10V

C79
4p

3
C77
0.1

IC42(7/8)
SN74HCT244APW-E0 5

1

6
5
R115
1k
:RN-C

FG

11

GND

9

8

10
3
12

R116
47

5

C75
0.1
CN1(76/100)

SC(X) IN

76

MB,6-112

CN1(75/100)

SC(G) IN

75

MB,6-111

7

A2

A6

8-11
L

SG-234 (1/2)

IC43
TC7S00FU(TE85R)

IC42(8/8)
SN74HCT244APW-E0 5

K

OUT

R113
1M

15

IC35(5/8)
SN74HCT244APW-E0 5

J

INT/ EXT

R125

IC37(2/2)
TC7W08FU(TE12R)

BVP-550
BVP-550P

SC CONT OUT

R114
47

2 5 4

A1

I

CN1(50/100)

R112
47

1

17

IC37(1/2)
TC7W08FU(TE12R)

AT,1-43 / DA,1-44
IF,1-40

3

-4.8V

IC36(1/2)
TC74HC4538AFS-EL

49

12

FG

IC35(6/8)
SN74HCT244APW-E0 5

HD OUT

1

4

IC35(4/8)
SN74HCT244APW-E0 5

CN1(49/100)

R111
47

42

IC34(1/2)
TC4W66FU(TE12R)

MB,14-20

R110
47

14

42

5

C71
1
35V
:TA

4

10

R106
5.6k
:RN-C

R105
10k
:RN-C

BLKG

IC42(3/8)
SN74HCT244APW-E0 5
IC41
IC42(4/8)
TC4W53FU(TE12R) SN74HCT244APW-E0 5

IC32(4/4)
TL064CPW-E05

6

3
C70
0.01

C69
0.1

RD

4

R104
1k
:RN-C

CN1(4/100)

19

40
3

RD

4

Q

MB,6-51
MB,6-53
MB,6-55
MB,6-57
MB,6-59
MB,6-61
MB,6-63
MB,6-65
MB,6-67

4

8 3 16

4

MB,14-18

R86
47

25

IC25(7/8)
TC74VHC244FS(EL)

5

38
Q

8
6
3
5 37

6

8
39
40
41
42
43
44
45
46
47

R134
47

9

11

25

8

D

1

SYNC OUT
NRW BLKG OUT
HD OUT
VD OUT
SYNC OUT
BF OUT
BLKG OUT
FLD 1 OUT
LALT OUT
2FH OUT

RB1(2/2)

42

8

36

34

CN1(39/100)

20

7

3

4
3

17

5

IC39
TC7S86FU(TE85R)

2
CxRx
Q

CN1(8/100)

CN1(40/100)

42

13

1

5

5

11

10

7
1
2 37

5

30

6

10
9

6

12

6

15

IC38
TC7W74FU(TE12R)

36
RD

CN1(6/100)

1

5 4
Q

C68
4.7
10V
:TA-C

C66
0.1

1

IC42(5/8)
7 SN74HCT244APW-E0 5
IC42(6/8)
9 SN74HCT244APW-E0 5

14

15
12
11

2

14
30

RB2

7V

Cx

D11
1SS302-TE85L

34

CN1(9/100)

IC30(5/8)
TC74VHC244FS(EL)

7

C63
0.01

19

7 8
2

12

7

30

R103
47k
:RN-C

C96
0.1

8

16
30

25

18 19 36 43 48 56 60 76

IC36(2/2)
TC74HC4538AFS-EL

CN1(7/100)

SC COM

IC25(6/8)
TC74VHC244FS(EL)
IC35(7/8)
SN74HCT244APW-E0 5

3

C59
0.1

20

35

25

10 30 51 54 71

4

18
30

R85
47

15
16
17
12
14

NRWBLKG

34
50
25
23
24
22
42

VSS

4

CN1(25/100)

RB4

D1/PRE BLKG

H COM OUT 1

VSS

5
22

7

R133
0

13

VSS

2

CN1(23/100)

8

CN1(47/100)

2FH

27M OUT
36M OUT

5

16
42

1
3
5
7
1
3
5
7

24
62
63
44
45

8

6

RB3

D CONT

VDD

VDD

VDD

VDD

VDD

VDD

VDD

HR SEL

VR SEL

1 21 31 40 41 61 70 80

H RST IN

CLK SEL 0

V RST IN

EXT SYNC IN

77 78 79 3 2
LALT RST IN

D HD OUT

69 68
INT HD IN

72 73 74 75
TCK

59
37
38
46
47

6

IC30(4/8)
TC74VHC244FS(EL)

8
TD0

7

4

IC30(3/8)
TC74VHC244FS(EL)

12

R83
0

R82

25

IC24
CXD8858R

C53
0.1

N/P OUT

25

C99
0.1

TD1

13

C98
0.1

C54
0.1

R132
47k
:RN-C

2

18
42

A7

A3
A8

A4

SG-234(1/2)

BOARD NO. 1-657-449-11
LOT NO. 504-

B-¥ BVP550-SG234-12

B-¥BVP550-SG-234-12

A5

A9

8-11
M

N

O

P

SG-234 (2/2)

SG-234 (2/2)

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

1

94
93

7.3V
7.3V

Q1
2SB624-T1BV3

CN1(94/100)

IC3(1/4)
TL064CPW-E05
7V

L1
0.47µH

CN1(93/100)

C1
R9
1
36k
35V
:TA-C :RN-C
R10
20k
:RN-C

R3
0

Q1

4

5
6

7
3
D1
RD4.3UH-T1

CN1(13/100)
C3
4.7
20V
:TA-C

C2
10
20V
:TA-C

C4
0.1

R11
0

C5
0.1

C6
22
20V
:TA-C

CN1(14/100)

C7
0.1

CN1(15/100)
CN1(16/100)

92
91

5.1V
5.1V

CN1(92/100)

Q2
2SB624-T1BV3

L2
0.47µH

CN1(91/100)

CN1(20/100)

IC3(2/4)
TL064CPW-E05

CN1(24/100)

R136
220k
:RN-C

12

14
3

13

D2
RD4.3UH-T1

2
2.5 REF

100
99
98
97

GND
GND
GND
GND

C9
6.8
16V
:TA-C

CN1(89/100)

C12
0.1

-2.8V
-2.8V

CN1(28/100)
CN1(29/100)
C13
33
16V
:TA-C

R8
22k
:RN-C

CN1(33/100)

C14
0.1

CN1(37/100)

C15
0.1
25V
F

IC206(1/2)
TL062CPW-ELL2000

IC206(2/2)
TL062CPW-ELL2000

IC207
Q204
DTC144EUA-T106 TC7S02FU(TE85R)

CN1(98/100)

1
CN1(97/100)

5
6

CN1(85/100)

A VD IN
A HD IN

37
38

GEN VIDEO(G) OUT
GND
GND

52
53
54

GEN VIDEO(X) OUT

51

CN1(48/100)

CN1(99/100)

CN1(86/100)

CN1(38/100)

4.8V

3

CN1(52/100)

4.8V

D200
1SS302-TE85L

CN1(53/100)

3
2

7V

2
3

R208
100k
R206
100k

R211
100k

1

C200
0.1

IC3(3/4)
TL064CPW-E05

IC48(2/2)
TL062CPW-ELL2000
86
85

CN1(27/100)

CN1(31/100)
C11
0.1

R1
10k
:RN-C

R137
220k
:RN-C

CN1(100/100)

C10
6.8
16V
:TA-C

CN1(26/100)

C8
R6
1
240
35V :RN-C
:TA-C
R7
20k
:RN-C

R2
0

Q2

89

CN1(22/100)

4.8V

5
6

R209
10k

R207
4.7k

1

CN1(54/100)

5
4

CN1(63/100)

2

8 7

CN1(64/100)

3
CN1(65/100)

4

CN1(67/100)

7

CN1(69/100)

R210
100k

C201
0.1

CN1(70/100)

Q4
2SD596-T1DV3

-4.8V

IC3(4/4)
TL064CPW-E05

CN1(71/100)
CN1(72/100)
CN1(73/100)

90

9.3V

CN1(90/100)
CN1(74/100)

R15
0

C23
0.1

CN1(77/100)
C25
6.8
16V
:TA-C

C24
6.8
16V
:TA-C

C26
0.1

3
D4
RD4.3UH-T1

88
87

-5.1V
-5.1V

CN1(88/100)

R16
22k
:RN-C

9

8

10

C28
C27
R17
6.8
1
15k
16V
35V
:TA-C :RN-C :TA-C

11

L4
0.47µH

CN1(87/100)

3

Q5
Q6
2SC4178-T1F14 2SA1611-T1M7M
Q8
Q9
2SC4178-T1F14
2SC4177-T1L7

-4.8V

R25
6.8k

D14
HSM88AS-TL
R154
47k

R152
47k

MB,11-30

GEN(G)/H CONT IN

79

R18
100k

H CONT IN

R118
100k

2
3

8
4

1

7
6

47

4
1

Q16
8
4
6

R138
1k
CN1(5/100)

2 5 3

Q21
2SK852-T1X2 R135

C80
470p

R153
47k

C100
0.1

100k

R119
100k

4
1

44
1

8
46

7
2 5 3

2 5 3

7
6

C34
0.0022

Q21

R24
3.3k
:RN-C

R22
1k

8
4
1

C87 22p

6
7

17

R28
3.9k
:RN-C

4
1/2

C94
0.1

C88 100p

8 5

R30
10k
:RN-C

204
3 4

1
2

Q12
Q11

R142

C45
6.8
6.3V
:TA-C

Q17
2SC4177-T1L7

R38
10k
:RN-C

R47
10k
:RN-C

Q18(2/2)
IMH2-T110

R49
100

IC5
EL4581CS-TE2

Q7
2SC4177-T1L7
C31
0.1

R143

D5
1SS302-TE85L

R53

Q7
R51
1k
:RN-C

C36
0.1

R46
2.2k
:RN-C

L5
22µH

D6
1SS301-TE85L

8
VCC

2

C38
33p

C37
0.1

IN

Q18
C40
33p
C39
0.1

R37
3.9k
:RN-C

R36
R35
47k 3.3k
:RN-C :RN-C

L6
22µH

R39
68k
:RN-C Q15

1

Q14

C41
47p

6

C33
0.1

5
7

2

4 Q18
5

-4.8V

R140
150k

Q17

Q14
2SC4177-T1L7

Q10

C32
10p

C35
10
10V
:TA-C

R141
7500

5 2

Q12
XN6435-TW
R44
R43
100k 820
:RN-C :RN-C

R41
10k
:RN-C

R34
22k
:RN-C

R139
1600

Q22

Q22
DTC144EUA-T106

Q11
Q18(1/2)
Q15
Q10
C90
2SC4177-T1L7 IMH2-T110 2SC4178-T1F14 2SC4178-T1F14 0.1 C91

4.8V

7
6

R27
2.2k
:RN-C

1
2
3
4
5
6
7
8
9
10
11
12
13

Q202
2SA812-T1M7
C95
1.5
20V
:TA-C

Q9

IC17
TC4W53FU(TE12R)
D13
HSM88AS-TL

IC204
TC4W53FU(TE12R)

C30
4.7
10V
:TA-C

Q6

R120

CN1(80/100)

R29
12k
:RN-C

C86

C89 47p

S

GENLOCK(X) IN

80

CN1(82/100)

Q8
R23
47

R21
1k
:RN-C

3
MB,11-29

Q5

R26
2.2k
:RN-C

S

8

R117
10k
:RN-C
R151
47k

5

IC46
TC4W53FU(TE12R)

Q16
2SK852-T1X2

CN1(79/100)
D12
HSM88AS-TL

MB,12-19

IC44
TC4W53FU(TE12R)

CN1(81/100)

Q203
DTC144EUA-T106

R204
10k

C29
0.1

R5
0

Q4

IC48(1/2)
IC47
TL062CPW-ELL2000 TC4W53FU(TE12R)

R205
100k

C92
0.1

R55
3.9k
:RN-C

RESET GND

6 4
3
R40
56k
:RN-C

R45
2.2k
:RN-C

R42
3.3k
:RN-C

R31
10k
:RN-C

C42
0.1

R48
15k
:RN-C

R50
470

C43
68p

R52
3.9k
:RN-C

C44

R54
680k

R126
10

R33
R32
15k 4.7k
:RN-C :RN-C

1
3
5

CN1(51/100)

IF,1-36

R203
4.7k

Q205
2SC4177-T1L7

V RESET 2
N/P
H CONT
+4.8V
GND
OLD/NEW CA
VR DET
-4.8V
CABLE COMP
EXT SYNC

SG-234(2/2)

GENLOCK OFF
TRAP
EXT SC

B-¥ BVP550-SG234-12

SG-234 (2/2)
BOARD NO. 1-657-449-11
LOT NO. 504B-¥BVP550-SG-234-12

5

8-12
A

B

C

D

8-12

BVP-550
BVP-550P

E

F

G

H

1

2

3

4

5

8-13

BVP-550
BVP-550P

I

J

K

L

8-13
M

N

O

P

DA-88 (1/2)

DA-88 (1/2)

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

1

DA-88 BOARD
——————————
DA-88 (1-657-450-11)
——————————
*: B SIDE

*

*
*
*
*

4

*
*

*
*
*

*

5
*
*
*
*

IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC23
IC24
IC25
IC26
IC27
IC28
IC29
IC34
IC35
IC36
IC37
IC100
IC101
IC102
IC103
IC104
IC105
IC106
IC107
IC108
IC109
IC110

A-1
B-1
A-2
D-1
E-1
E-1
D-2
D-1
E-2
E-1
F-1
F-1
E-2
F-2
B-3
B-4
B-4
C-4
G-2
C-2
C-3
D-4
C-3
C-4
E-3
F-4
C-4
D-1
E-1
F-2
C-3
F-2
C-3
C-3
G-2
G-2
G-2
G-2
E-2
E-2
G-2
E-2

JR1
JR2
JR3
JR4

B-4
A-4
C-2
B-3

L1
L2
L3
L4
L5

A-1
A-2
A-1
A-2
B-1

DLY6
DLY5
DLY4
DLY3

YB1

IC7
CXD2307R-T4

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

CN1(42/100)
CN1(40/100)
CN1(39/100)
CN1(38/100)
CN1(37/100)
CN1(36/100)
CN1(35/100)
CN1(34/100)
CN1(33/100)
CN1(32/100)

Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
Y8
Y9

11
10
9
8
7
5
4
3
2
1

Y9
Y8
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

9 2 8 3 7 4 6 5
DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

CN1(31/100)

4

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

26
27
28
29
31
32
33
34
35
36

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2
YB1
YB0

R34
100k

62

27
26

CN1(30/100)
CN1(29/100)
CN1(28/100)
CN1(27/100)
CN1(26/100)
CN1(25/100)
CN1(24/100)
CN1(23/100)
CN1(22/100)
CN1(21/100)

RY0
RY1
RY2
RY3
RY4
RY5
RY6
RY7
RY8
RY9

RY9
RY8
RY7
RY6
RY5
RY4
RY3
RY2
RY1
RY0

11
10
9
8
7
5
4
3
2
1

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

CN1(20/100)

RB2

6 30 13 14 15 16 17 18 20 21 44 38 37 42

5

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

26
27
28
29
31
32
33
34
35
36

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
RYB1
RYB0

RYB0

B9

VGB

B8

ROB

25
24
23
22

B6

VGG

B5

ROG

B3

VGR

B2

ROR

B1
B0

BO

G9

BO

18

3

17

46
45
44
43

15

9 2 8 3 7 4 6 5
R37
100k

RB3

R38
100k

1

19
18
17
16
15
14
13
12
11
10
9

B-Y(L)
B-Y(1)
B-Y(2)
B-Y(3)
B-Y(4)
B-Y(5)
B-Y(6)
B-Y(7)
B-Y(8)
B-Y(M)
B-Y(G)

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

CN1(19/100)
CN1(18/100)
CN1(17/100)
CN1(16/100)
CN1(15/100)
CN1(14/100)
CN1(13/100)
CN1(12/100)
CN1(11/100)
CN1(10/100)

BY0
BY1
BY2
BY3
BY4
BY5
BY6
BY7
BY8
BY9

11
10
9
8
7
5
4
3
2
1

BY9
BY8
BY7
BY6
BY5
BY4
BY3
BY2
BY1
BY0

CN1(9/100)

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

7

C97
0.1

R162
47

C96
0.1

L19
0.47µH

23

5
6
C103
1
25V
:TA-CA

R40
220
:RN-C

54

C101 C102
1
1
25V
25V
:TA-CA :TA-CA

R166
4.7k
:RN-C

R171
100k

C214
0.1

C98
0.1

C99
6.8
16V

Q67
2SC4178-F13F14-T
IC27(1/4)
Q117
Q68
Q69
Q70
Q71
Q72
1
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5

L20
0.47µH

GO

G5
G4

RO

8
7

C117
*

FG

R5

R51
R48
R45
R44
33k
33k
3.3k 33k
42 :RN-C :RN-C :RN-C :RN-C

R53
39k
:RN-C

Y

41

R50
39k
:RN-C

R-Y

40

R47
39k
:RN-C

VRB

R4
R3

1
VRG

R2

64
R1
63
33
32

R0

VRR

BCK

CE

C123
2p

R222
100

FG

S

37
IRR

R220
3.6k

R215
5.6k
:RN-C

16
15

R7
R6

R219
3k
:RN-C

D14
1SS302-TE85L

1 2 3 4 5 6 7 8 9
17

R43
3.3k
:RN-C

38
IRG

R8

R214 R370
2.4k
0
C118 :RN-C :RN-C
0.1

FL7
R42
3.3k
:RN-C

R9

6
5
4
3
2

R209
1.8k
:RN-C

R208
0

51
RO

G1

R217
3.6k

R213
4.7k

R41
220
:RN-C

50

7
G3

14 13

12 11

10

R218
2.2k
:RN-C

4
1

C120
0.1
R211
3.6k

B-Y

30

C220
0.1

L21
0.47µH

27

R223
100k

3
2
C126
1
25V
:TA-CA

11

R212
47

R210
220
:RN-C

GCK

C124
C125
1
1
25V
25V
:TA-CA :TA-CA

R216
4.7k
:RN-C

BLK

RCK
DVSS

AVSS
AVSS

VB

R52
R49
R46
22k
22k
22k
:RN-C :RN-C :RN-C

49

36

35

Q85
2SC4178-F13F14-T
IC27(3/4)
Q86
Q87
Q88
Q89
Q90
Q91
1
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5

L22
0.47µH

R327
1k

5
2
34

C35
0.1

R54
10

C223
10p

R266
3.6k

R262
4.7k

C42
0.1

C140
0.1

C43
0.1

R268
3k
:RN-C

R269
3.6k

R263 R373
2.4k
0
:RN-C :RN-C
C145
2p

R258
1.8k
:RN-C

6 30 13 14 15 16 17 18 20 21 44 38 37 42

6

C127
1
25V
:TA-CA

C122
6.8
16V

C121
0.1

C119
0.1

R221
100k

29

31

34

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

C104
1
25V
:TA-CA

55

C41
0.1

MB,6-15
MB,6-14
MB,6-13
MB,6-12
MB,6-11
MB,6-10
MB,6-9
MB,6-8
MB,6-7
MB,6-6
MB,6-5

S

10

R161
3.6k

G6

IC34
TC7SH04FU-TE85R

3

IC6
CXK1203AR-T4

R168
2.2k
:RN-C

C40
15
16V

R39
C39
220
58 :RN-C 0.01

G0

C34
10
10V
:TA-CB

C33
0.01

R172
100

D10
1SS302-TE85L

11

G2

19 43 39 41 22 23 24 45 46 47 48 25 12 40

12 11

R160
220
:RN-C

GO

G7

C230
3p

R165
5.6k
:RN-C

16
FG
14 13

C38
0.1

G8

10
9

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2
BYB1
BYB0

1 2 3 4 5 6 7 8 9

59

17
16
15
14
13
12
11

R336
30k

FG

R170
3.6k

4

B4

21
20
19

R158
0
:RN-C

Q53
IC23(1/4)
Q54
2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5

R169
3k
:RN-C

C100
2p

C95
0.1

FL6

C37
0.1

IRB

C31
0.1

4

48
47

R167
3.6k
R164
150 R367
1/16W 2.2k
:RN-C :RN-C

R159
1.8k
:RN-C

C94
*

5 1
9 2

C36
0.1

39
BYB0

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

R36
100k

1

BYB1

R-Y(L)
R-Y(1)
R-Y(2)
R-Y(3)
R-Y(4)
R-Y(5)
R-Y(6)
R-Y(7)
R-Y(8)
R-Y(M)
R-Y(G)

RYB1

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2

DLY2
DLY1
DLY0
DLY6
DLY5
DLY4
DLY3

30
29
28
27
26
25
24
23
22
21
20

R35
100k

AVDD AVDD AVDD
AVDD AVDD AVDD

B7

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
RYB1
RYB0

9 2 8 3 7 4 6 5

4

28

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2
YB1
YB0

19 43 39 41 22 23 24 45 46 47 48 25 12 40

IC5
CXK1203AR-T4

52 53 56 57 60 61

DVDD

1

RB1

C30
0.1

MB,6-26
MB,6-25
MB,6-24
MB,6-23
MB,6-22
MB,6-21
MB,6-20
MB,6-19
MB,6-18
MB,6-17
MB,6-16

IC9
TC7S00FU(TE85R)

L10
22µH
R33
100k

Q50
Q51
Q52
2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7

R163
4.7k

6 30 13 14 15 16 17 18 20 21 44 38 37 42

26
27
28
29
31
32
33
34
35
36

IC8(2/4)
TC74VHC00FS(EL)

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2
BYB1
BYB0

IC8(3/4)
TC74VHC00FS(EL)

R257
0

IC8(1/4)
TC74VHC00FS(EL)

C139
*

R271
100

D17
1SS302-TE85L
R264
5.6k
:RN-C

FL8

S

12
9
10

C44
0.1

8
8

8

IC35(2/2)
TC74HC4538AFS-EL

R196
15k
:RN-C

C84
0.01

R267
2.2k
:RN-C

16
FG

FG

R272
100k

12
14
27 13

15
2
1 8

R57
220

IC35(1/2)
TC74HC4538AFS-EL
C81
0.01

17

6

7

R55
*

C222
0.1

1 2 3 4 5 6 7 8 9

14

4
5

11

13 8

R56
1M

1 5
4
2 107

19 43 39 41 22 23 24 45 46 47 48 25 12 40

C45
22p

14 13

12 11

10
C142
0.1

3
R259
220
:RN-C

C46
0.01

IC8(4/4)
TC74VHC00FS(EL)

L23
0.47µH

C148
1
25V
:TA-CA

R261
47

C221
0.1

R260
3.6k

C143
0.1

C141
0.1

C146
C147
1
1
25V
25V
:TA-CA :TA-CA

R265
4.7k
:RN-C

R270
100k

C149
1
25V
:TA-CA

C144
6.8
16V
:TA-CB

R197
100k
:RN-C

3
C32
0.1

48
47
46
45
44
43
5

36MHz(X) IN
36MHz(G) IN
18MHz(X) IN
18MHz(G) IN
HD IN
VD IN
SKIN GATE OUT

5
1
4
2 108

5 4

2

SG,1-57
SG,1-58
SG,1-55
SG,1-56
SG,1-49
SG,1-50
IF,1-15

110

3

Q

IC107
TC7SH08FU-TE85R
IC110
IC108
TC7S04FU(TE85R) TC7S00FU(TE85R)

CN1(47/100)

Cx

6

14
10
CxRx 16
Q

12
11

35

7

Q

9

RD

8 13

3

CN1(46/100)
CN1(45/100)

IC10
X24C02S-3.0-C700 0

CN1(44/100)
CN1(43/100)

IC36
TC74HC595AF(EL)

IC14
MB88346BPFV-EF

IC13
TC74HC595AF(EL)

R326
1k

CN1(5/100)

8
1 A0 VDD SDA 5
2 A1 10 SCL 6
7
3 A2
CPE

R365
220k

Q0

11 CK

Q1
Q2

14 DI
36

4

12 LD

Q4
Q5

9 DO

CN1(3/100)

Q3

Q6

CN1(2/100)

Q7

CN1(1/100)

1
2 12
2

5

4

15
1
2
3
4
5
6
7

1
3
5
7
1
3
5
7

4

DLY0
DLY1
DLY2
DLY3
DLY4
DLY5
DLY6
DLY7

VCC
Q0

11
14

Q1

CK

Q2
DI

13
12
9

LD

Q3
Q4
Q5

DO
Q6
Q7

15
1
2
3
4
5
6
7

BLK
16:9/4:3
A
B
INH

10
VDD
A01

14

A02

DO

A03

17

A04

DI

A05

16

14

CLK

A06
A07

15

A08

LD

GND G
A09

RB5

8

11

VCC CLR

2
4
6
8
2
4
6
8

GND G

5

C47
0.1

16 10
RB4

VCC CLR

VSS

IIC DATA
IIC CLK
LD(DA) IN

CxRx
Q

35

3

16 10

3
2
1

Cx

4
5

15

RD

CN1(48/100)

R364
220k

AT,1-14
AT,1-13
AT,1-17

2

1

8

13

13

A10
A11

3

11

A12
GND

3
R332
33k
:RN-C

R366
100k

IC11
TC7S04FU(TE85R)

IC12
TC7S08FU(TE85R)

20

R331
22k
:RN-C

RB6

18
19
2
3
4
5
6
7
8
9
12
13

Y
R-Y
B-Y
SETUP1
SETUP2
Y-SAMPLE
R-Y SYNC
B-Y SAMPLE
CHAR ON

VSS

1

RB7

SETUP HI-Y
SETUP Y

8-14
A

YB0

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2

CN1(95/100)

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

Y(L)
Y(1)
Y(2)
Y(3)
Y(4)
Y(5)
Y(6)
Y(7)
Y(8)
Y(M)
Y(G)

C29
0.1

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2

A-4
A-3
B-3
B-2
C-2
D-3
E-3
F-3

B-2
C-1
D-4
E-4
F-4

CN1(96/100)

D GND
D GND

C28
10
10V

C27
10
10V

Q48
2SC4178-F13F14-T
Q49
1
2SA1226-T1E4

L18
0.47µH

DLY2
DLY1
DLY0

FL1
FL2
FL3
FL4
FL5
FL6
FL7
FL8

TP1
TP2
TP3
TP4
TP5

42
40
39
38
37
36
35
34
33
32
31

IC4
CXK1203AR-T4

DLY6
DLY5
DLY4
DLY3

*
*
*
*
*
*
*
*

F-4

A-2
A-2
B-2
A-3
A-3
A-3
A-3
A-2
B-3
A-4
B-4
B-4
A-4
A-4
B-4
B-4
B-3
A-2
C-3
B-3
C-4
B-4
B-2
B-1
C-2
B-2
C-2
C-2
C-2
C-2
C-1
F-1
G-1
G-1
D-4
D-3
D-4
D-4
D-4
D-4
D-4
C-4
C-4
D-3
E-3
E-3
E-3
E-3
E-3
E-4
E-4
E-4
C-4
C-4
F-3
F-3
G-3
G-3
G-3
G-3
G-3
F-4
G-4
G-4
A-4
A-4
C-2

MB,6-38
MB,6-36
MB,6-35
MB,6-34
MB,6-33
MB,6-32
MB,6-31
MB,6-30
MB,6-29
MB,6-28
MB,6-27

L9
22µH

CN1(83/100)

DLY2
DLY1
DLY0

3

E1

* Q1
Q2
Q3
* Q4
* Q7
* Q8
* Q9
* Q10
* Q11
* Q12
* Q13
Q14
Q15
* Q16
Q17
* Q18
* Q19
* Q20
* Q22
Q23
* Q25
* Q26
* Q27
* Q28
* Q29
* Q30
* Q32
* Q33
* Q34
Q43
Q44
* Q45
* Q46
* Q47
* Q48
* Q49
* Q50
* Q51
* Q52
* Q53
* Q54
Q59
Q63
* Q67
* Q68
* Q69
* Q70
* Q71
Q72
* Q73
Q75
Q79
* Q83
* Q84
* Q85
Q86
* Q87
* Q88
* Q89
* Q90
Q91
* Q92
Q94
Q98
* Q100
* Q101
* Q102

D-2
E-2
E-2
F-2
F-1
F-2
F-2

96
95

CN1(84/100)

+3.1V
+3.1V

8
6
4
2
8
6
4
2

*
*
*

* RB1
* RB2
* RB3
RB4
RB5
* RB6
* RB7

84
83

7
5
3
1
7
5
3
1

*

C-2
C-3
G-2
G-1
B-3
C-3
C-3
E-4
E-4
E-4
F-4
G-4
G-4
D-3

DLY7
DLY6
DLY5
DLY4
DLY3
DLY2
DLY1
DLY0

2

* Q103
* Q104
Q105
* Q106
* Q107
* Q108
* Q109
* Q110
* Q111
* Q112
* Q113
* Q114
* Q115
Q117

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

*

A-2
B-1
B-1
A-4
G-2
F-2
C-1
D-3
G-2
E-4
G-2
E-3
G-2
G-2
G-3
B-3
C-4
G-4
A-3
C-2
G-2

B-2
A-3
A-3
B-1
D-2
F-1
G-1
G-3
A-3
B-3
B-2
B-2
D-4
D-4
E-4
E-4
F-4
G-4
G-1
F-1

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

*
*
*

D1
D2
D3
D5
D6
D7
D9
D10
D11
D12
D13
D14
D15
D16
D17
D24
D25
D26
D100
D101
D102

L6
L7
L8
L9
L10
L11
L12
L13
L14
L15
L16
L17
L18
L19
* L20
* L21
* L22
L23
L24
L25

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

*
*
*
*
*

C-1

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

CN1

B

C

D

8-14

BVP-550
BVP-550P

E

F

G

H

DA-88 (1/2)

DA-88 (1/2)

1
TP3
CN1(64/100)

IC102(1/2)
TC7W32FU-TE12L
IC24
TC4W53FU(TE12R)

Q107
2SC2223-T1F14

IC102(2/2)
TC7W32FU-TE12L

IC101
TC7S04FU(TE85R)

IC37(1/2)
TC7W32FU-TE12L

Q22
2SA1226-T1E4
8

16
VCC

5

14
11
12
15

R184
160
:RN-C

2
101

3

4

R185
15
:RN-C

A
B

5
8
VCC
1
24
2 INH
GND VEE
3
4

1 2

INH

102

4

7
6
C106
0.1

C107
6.8
16V
:TA-CB

C109
0.1

102
3

IC103(1/2)
TC7S32FU(TE85R)

3

2
5

5
R190
4.7k

6

C217
6.8
16V

R192
5.6k
:RN-C

6

C218
0.1

1
2

4

R198
R199
3k
C113
75
:RN-C 1p :RN-C

103

4
109

R188 R313
2.7k 4.7k
:RN-C

R314
4.7k

R201
100
:RN-C

13
23 12

14

IC25(2/2)
TC74HC4052AFS(EL )

12

C114
10p

R195
2.7k

R178
22k
:RN-C

6

R135
10k

19

51
50

IF,1-7
AT,1-28
IF,1-8
AT,1-27

13

C115
33p
R205
2k
:RN-C

CHAR VF IN
CHAR BACK IN

CN1(50/100)

C219
0.1

7

13
14
26

R193
3.9k

Q109
2SC2223-T1F14

R200
100
:RN-C

CN1(51/100)

R202
100
:RN-C

11

16

R194
2.2k
:RN-C

C215
6.8
16V

D13
1SS302-TE85L

C225
10p

D25
1SS302-TE85L

R177
6.8k
:RN-C

25

R315
4.7k

MB,11-26
MB,11-23

3

3

VCC

3

5
1
104 2

4

1
2

3

R334
1k

7

1
2
4
5

64
63

IC104
IC23(3/4)
IC19(5/8)
IC19(6/8)
TC7S00FU(TE85R)
:NM
TL084CPW-E05
TC74VHC244FS(EL)
TC74VHC244FS(EL)

IC109
TC7S08FU(TE85R)

1

R369 R191
180 2.2k
:RN-C :RN-C

R187
75
:RN-C

C110
15
16V

IC26(1/3)
TC74HC4053AFS-EL

GND VEE

6

5

IC23(2/4)
TL084CPW-E05

Q63
2SC2223-T1F14

4

5

R186
51
:RN-C

8
7

37

37

25

Q59
XN6534-TW

7

10
9
13

8

R173
100k

Y(G) OUT
Y(X) OUT

CN1(63/100)

Q108
IC25(1/2)
2SC2223-T1F14 TC74HC4052AFS(EL )

9

R207
24k
:RN-C

19

11

8

23

9
10
Y-SAMPLE

INH
GND VEE

8

7

R206
47k
:RN-C

C116
*

IC37(2/2)
TC7W32FU-TE12L

2

C216
0.1

Q111
Q112
IC28(1/2)
2SC2223-T1F14 2SC2223-T1F14 TC74HC4052AFS(EL )

Q110
2SC2223-T1F14

Q75
XN6534-TW

Q73
2SA1226-T1E4

IC27(2/4)
TL084CPW-E05

Q79
2SC2223-T1F14

IC26(2/3)
TC74HC4053AFS-EL

IC105
TC7S32FU(TE85R)

IC23(4/4)
TL084CPW-E05

IC19(7/8)
TC74VHC244FS(EL)

IC29
TC4W53FU(TE12R)

Q83
2SC4177-T1L7

IC106
TC7S08FU(TE85R)

IC19(8/8)
TC74VHC244FS(EL)

TP4
CN1(62/100)

R229
4.7k

16
VCC

12
14
15
11

R224
560
:RN-C
R225
1.6k
:RN-C

A
B

R372
2.4k
:RN-C

13

5
R371
10

6

8

R317
4.7k

R239 C132
3k
1p
:RN-C

R232
6.8k
:RN-C

GND VEE

R226 R316
150 4.7k
:RN-C

4

1
2

105

R335
1k

7

3

D15
R242
100 1SS302-TE85L
:RN-C

14

10
R241

D12
1SS302-TE85L
R227
5.1k
:RN-C

C128
0.1

R228
200
:RN-C

MB,11-26
MB,11-24

62
61

R240
75
:RN-C
R234
5.6k
:RN-C

28

INH

R-Y(G) OUT
R-Y(X) OUT

CN1(61/100)
R231
180
:RN-C

10
9

C129
6.8
16V
:TA-CB

7
27

R233
3.9k

R235
2.2k
:RN-C

6 100
5 :RN-C

C226
10p

1
2

R236
2.7k

C133
10p

R318
4.7k

6
8

R243
100
:RN-C

1

23

2
3

R249
2k
:RN-C

5

R247
22k
:RN-C

51
106 2

R254
12k
:RN-C

7
1
2

R244
100k

C135
*

R250
100
:RN-C

D16
1SS302-TE85L

16
3
R256
24k
:RN-C

6
C136
10p

26
R136
10k

R253
5.6k

VCC

C134
33p

R248
47k
:RN-C

R246
36k
:RN-C

15

4
19

R337
1k

19

4

R251
100
:RN-C
C137
33p

C227

29
INH
GND VEE

4

3

R252
2.2k

R255
10k
:RN-C

C138
0.01

SETUP2

Q84
2SA1611-T1M7

C172
6.8
16V

3

R-Y SYNC

TP5
Q113
2SC2223-T1F14

IC28(2/2)
Q114
2SC2223-T1F14 TC74HC4052AFS(EL )

Q92
2SA1226-T1E4

Q94
XN6534-TW

Q98
2SC2223-T1F14

IC26(3/3)
TC74HC4053AFS-EL

IC27(4/4)
TL084CPW-E05

CN1(60/100)
R278
4.7k

1
5
2
4

R273
560
:RN-C

28
3

R280
150
:RN-C

R274
1.6k
:RN-C

R283
5.6k
:RN-C
R288
3k
:RN-C

CN1(49/100)

C154
1p

CN1(53/100)

R275
150
:RN-C

C150
0.1
R320
4.7k

R277
200
:RN-C

R321
4.7k

R322
4.7k

8
R282
3.9k

R284
2.2k
:RN-C

R324
0

9
27 10

R290
100
:RN-C

3

R293
8.2k
:RN-C
R295
47k
:RN-C

4
5

R285
2.7k
C155
10p

Q115
2SC2223-T1F14

R323
0

CN1(54/100)

9

R276
5.1k
:RN-C

49
52
53
54

CN1(52/100)

D26
1SS302-TE85L

C151
6.8
16V
:TA-CB

MB,11-26
MB,11-25

60
59

R289
75
:RN-C

R374
10
R281
6.8k
:RN-C

B-Y(G) OUT
B-Y(X) OUT

CN1(59/100)

R375
2.4k
:RN-C

R137
10k

B-Y SAMPLE

26
R294
22k
:RN-C

C156
*

C171
6.8
16V

CN1(72/100)

R325
0

Y(G) OUT
Y(X) OUT
B-Y(G) OUT
B-Y(X) OUT
R-Y(G) OUT
R-Y(X) OUT

CN1(71/100)
CN1(68/100)
CN1(67/100)
CN1(70/100)
CN1(69/100)

-2.5V
-4.8V
+4.8V
A GND
RESET
16:9/4:3
HI-Y
SAMPL 2
+4.8V-2
DL SYNC
SAMPL 1
GND
DL BLKG
SETUP 1
SETUP ON/OFF
A GND 2
A1

A2

A3

A4

A6

A7

A8

A9

72
71
68
67
70
69

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

IF,1-71
IF,1-72
IF,1-67
IF,1-68
IF,1-69
IF,1-70

2/2

5

A5

DA-88(1/2)
B-¥ BVP550-DA88-12
1995.8.22

DA-88 (1/2)
8-15

BVP-550
BVP-550P

I

J

K

L

BOARD NO. 1-657-450-11
LOT NO. 504-

8-15

B-¥BVP550-DA88-12

M

N

O

4

P

DA-88 (2/2)

DA-88 (2/2)

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

1

92
91

+5.1V
+5.1V

Q1
2SB624-T1BV3

IC1
REF-03GSR

CN1(92/100)
CN1(91/100)

L1
0.47µH

L2
0.47µH

R1
0
D1
RD4.3UH-T1

90

+9.3V

A
A
A
A

89

GND
GND
GND
GND

2.5V REF OUT

C1
6.8
16V

C2
15
16V

C3
0.1

8

1
2

NC

3
4

TEMP

7

NC

IN

7
6

NC

1

MB,6-115
MB,6-116

C6
15
16V

R92
22k

7
VCC
6
RESET
2 VIN
5
3
CD
GND

R7
1k
C7
0.1

5

4

C8
47p

R3
1k

R73
4.7k
FL2
R64
4.7k
:RN-C

5
6

86
85

-2.8V
-2.8V

CN1(86/100)

VF-Y(X) IN
VF-Y(G) IN

8

2

2
3

1
2

C11
0.1

D3
RD4.3UH-T1
C15
0.1

C14
15
16V

L3
0.47µH

R11
22k

C13
1
25V

C12
0.1

C17
10
10V

L4
0.47µH

C18
0.1

2

13
12

C166
10
10V
C20
1
L6
0.47µH 25V

R79
3.6k
:RN-C

7

C48
8p

R65
1k
:RN-C

JR2
0

R357
330

C49
2p

R75
5.6k
:RN-C
S

15 INH 2
VEE GND
3
4

R68
1k
:RN-C

R81
100

D5
1SS302-TE85L

R72
47

6

FL3

R78
2.2k
:RN-C

8
1
16

C50
0.1

FG

R58
1k
:RN-C

R27
0

C167
0.1

R82
100k

3
2

C52
0.1

R76
4.7k
:RN-C

C57
1
25V
:TA-CA
C56
1
25V
:TA-CA

C55
1
25V
:TA-CA

R14
20k
:RN-C

8 5
VCC

7

1

4

R70
3.6k

R71
3.6k

C201
0.1

C500
1p

5 8
VCC
1

C169
6.8
16V

R80
4.7k

R13
0

C19
0.1

L5
0.47µH

R77
3.6k

C229
3p

C58
1
25V
:TA-CA

R83
100k

17
2

6

INH
GND VEE
4
3

C69
0.1

C61
10
10V

CN1(87/100)
R61
4.7k

IC2(2/4)
TL064CPW-E05

CN1(85/100)

R62
4.7k

Q2
IC2(3/4)
2SD596T1-DV345 TL064CPW-E05

C200
0.1

L15
0.47µH

Q3
IC2(4/4)
2SD596T1-DV345 TL064CPW-E05

C53
0.1

C51
0.1

C54
6.8
16V

C170
6.8
16V

CN1(76/100)
CN1(75/100)

Q4
2SC4178-F13F14-T
1
CN1(74/100)

CN1(78/100)

Q30
Q29
2SC4178-F13F14-T
2SC4178-F13F14-T
1
IC20
1
:2125
TC4W53FU(TE12R)

Q27
Q28
2SC4178-F13F14-T
2SC4178-F13F14-T
1
1

Q8
2SA1611-T1M7
:2125

Q101
Q7
2SC2223-T1F14 2SC4177-T1L7

Q100
XN6534-TW

L16
0.47µH

CN1(73/100)

Q102
Q103
2SA1226-T1E4 XN6534-TW

R300
7.5k
:RN-C

R15
47

CN1(77/100)

L7
0.47µH
C23
0.1

R20
47

R17
220
:RN-C

R16
1k

C25
6.8
16V

FL1
C203
2p
R22
47

C231
3p

15

14 13

12 11

R301
1.8k
:RN-C

10

R379
30k

R111
47

R116
1k
:RN-C

7

R23
3.6k

R380
30
:RN-C

R118
910
:RN-C

R123
3.6k

R124
47

R310 R311
2.7k
0
:RN-C :RN-C

INH 2
VEE GND
3 4

C72
0.1

FG

1

6

R119
1k
:RN-C

C207
0.1
C76
33
6.3V

5 8
VCC
20

C71
2p

C206
6.8
16V

C205
2p

JR4
0

FL5

R117
4.7k
:RN-C

R128
8.2k
D101
1SS302-TE85L

R306
8.2k
C70
8p

7

R121
47

FG

C24
0.1

R312
3.3k
R129
5.6k

R308
1.8k
:RN-C

R309
3.9k
:RN-C

L17
0.47µH

L8
0.47µH

R112
4.7k

R113
4.7k

C204
0.1

R130
8.2k

R131
4.7k
C82
0.1

C74
0.1

R122
3.6k

C26
10
10V

CN1(81/100)
CN1(80/100)

9 8

R21
3.3k

R302
4.7k
:RN-C

CN1(82/100)

10

11

R24
100

R303 R304
1.5k 200
:RN-C :RN-C

R18
R19
220 1.8k
:RN-C :RN-C

FG

R110
47

R26
33

17
FG

R114
1k
:RN-C

R25
8.2k

D100
1SS302-TE85L

FG

Q32
Q33
Q34
2SA1226-T1E4 2SC2223-T1F14 2SC2223-T1F14

R120
47

1 2 3 4 5 6
12

Q104
2SC2223-T1F14

R307
7.5k
:RN-C

FL4
JR3
0

C21
10p

4

8

FG
14

C16
10
10V

11
D2
RD4.3UH-T1

FG

1/2

9

R67
4.7k
:RN-C

R12
36k
:RN-C

R10
22k

1 2 3 4 5 6 7 8 9

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

10

R74
2.4k
:RN-C

7

R60
47

9
10

16

VF-Y(X) OUT
VF-Y(G) OUT

FG

C9
0.047

R9
0

3

IF,1-80
IF,1-79

FG

R376
30k

R66
47

11

R59
47

R305
24k

82
81
80
79

1 2 3 4 5 6

R69
47

CN1(89/100)

CN1(88/100)

78
77

JR1
0

12

R63
1k
:RN-C

R6
22k

CN1(97/100)

Q13
Q14
Q15
Q16
Q17
IC16(1/2)
Q18
IC17
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL082CPS-E05 2SK853-T1K5 TC4W53FU(TE12R)

2

R115
4.7k
:RN-C

MB,6-119
MB,6-120

Q11
Q12
2SC4178-F13F14-T
2SC4178-F13F14-T
IC15
1
1
TC4W53FU(TE12R)

1

3

4

CN1(98/100)

-5.1V
-5.1V

C(X) IN
C(G) IN

R5
20k

L14
0.47µH

Q9
Q10
2SC4178-F13F14-T
Q20(2/2) 2SC4178-F13F14-T
1
1
IMH2-T110

CN1(99/100)

88
87

74
73

R4
240

L13
0.47µH

Q20(1/2)
IMH2-T110

OUT

GND TRIM

C10
15
16V

HI-Y(X) IN
HI-Y(G) IN

5
6

CN1(100/100)

2

76
75

2

IC3
M51958A-T1

R2
100k

R8
100

MB,6-117
MB,6-118

C5
1
25V

C4
0.1

4

CN1(90/100)

E1
100
99
98
97

IC2(1/4)
TL064CPW-E05

C75
0.1

C73
0.1

C83
6.8
16V
:TA-CB

C77
6.8
16V
:TA-CB

CN1(79/100)

-2.5V
-4.8V
+4.8V
A GND
RESET
16:9/4:3
HI-Y
SAMPL 2
+4.8V-2
DL SYNC
SAMPL 1
GND
DL BLKG
SETUP 1
SETUP ON/OFF
A GND 2

5

8-16
A

B

C

D

8-16

BVP-550
BVP-550P

E

F

G

H

DA-88 (2/2)

DA-88 (2/2)

1

Q19
XN6534-TW

Q23
2SC2223-T1F14

IC16(2/2)
TL082CPS-E05

Q25
Q26
IC18
TC4W53FU(TE12R) 2SC4177-T1L7 2SA1611-T1M7

IC100
IC19(1/8)
TC7S08FU(TE85R) TC74VHC244FS(EL)

IC19(2/8)
TC74VHC244FS(EL)

IC19(3/8)
TC74VHC244FS(EL)

TP1

C202
6.8
16V

CN1(58/100)
CN1(57/100)

R358
150
:RN-C

R87
2.7k
:RN-C

HI-Y(G) OUT
HI-Y(X) OUT

58
57

DL BLKG IN

8

IF,1-14
SG,1-25

SAMPLE2 IN

4

IF,1-4
SG,1-17

R90
5.6k
:RN-C
R95
3k
:RN-C

R104
*

C64
1p

4

5 1
100 2

R333
1k

D24
1SS302-TE85L

3

R88
22k
:RN-C

18

R100
5.6k
C66
33p

8 5
R89
3.9k

R97
D7
100 1SS302-TE85L
:RN-C

C224

R91
2.2k
:RN-C

R98
100
R84
:RN-C 4.7k
:RN-C

R105
100k

20
2
10

D6
1SS302-TE85L

C68
0.1

3

7

16

R96
2k
:RN-C

R101
15k
:RN-C

7
1

R94
4.7k

R103
24k
:RN-C

R127
100k

17
19

D11
1SS302-TE85L

R174
4.7k
:RN-C

R85
22k
:RN-C

6
C65
10p

5

2 INH 18

19

R108
100

15

CN1(4/100)

2

19
R99
2.2k

GND VEE

4

CN1(8/100)

R106
100k

1

VCC

6
5

R107
100

19

3

R102
10k
:RN-C

C67
0.01

C105 R175
470p 22k
:RN-C

C59
470p

SETUP1
CN1(7/100)

VTR SYNC OUT

7

MB,12-14

CN1(56/100)

C(G) OUT
C(X) OUT

56
55

MB,11-28
MB,11-27

CN1(94/100)

+7.5V
+7.5V

93
94

CN1(6/100)

DL SYNC IN

6

IF,1-12
SG,1-23

CN1(66/100)

VBS(G) OUT
VBS(X) OUT

66
65

IF,1-65
IF,1-66

41

MB,6-106
SG,1-36
IF,1-48

TP2
CN1(55/100)

Q43
XN6534-TW

Q44
2SC2223-T1F14

Q45
2SA1611-T1M7

R147
5.6k
:RN-C

R378 R368
1k
68
:RN-C

R155
75
:RN-C

Q46(1/2)
IMH2-T110

Q106
Q46(2/2)
Q47
IC19(4/8)
DTC144EUA-T106 IMH2-T110 2SC4177-T1L7 TC74VHC244FS(EL)

Q105
DTC144EUA-T106

C168
*

12

R93
100k

R143
*
L12
82µH

R153
2.2k
:RN-C

L24
47µH

R156
100k

8
19

D102
R142
4.7k 1SS302-TE85L
1/16W

D9
1SS302-TE85L
R151
2.7k
:RN-C
R145
0
:RN-C

R361
2.4k
:RN-C

R146
220
:RN-C

R362
2.4k
:RN-C

C210
6.8
16V

C87
1p

R157
100

C213
4p

C212
R154
2.2k

C211
0.1

C92
0.1

C93
15
16V

C85
18p

R328
4.7k
1/16W

C91
*

C89
22p

CN1(65/100)
R363
100
R148
3.9k

R149
1.2k
:RN-C

R150
2.2k

4

1
5

C88
33p

6
C208
6.8
16V

CN1(93/100)

L11
22µH

R152
1k

R330
0

2

C90
6p

R329
CN1(41/100)

N/P IN

3
C228
15
16V

C209
0.1

3

L25
22µH

4

DA-88(2/2)
B-¥ BVP550-DA88-12

DA-88 (2/2)
BOARD NO. 1-657-450-11
LOT NO. 504B-¥BVP550-DA88-12

5

8-17

BVP-550
BVP-550P

I

J

K

L

8-17
M

N

O

P

IF-510 (1/2)

IF-510 BOARD

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)
IC701(1/2)
LM393PS-E05

——————————
IF-510 (1-657-453-11)
——————————
*: B SIDE
CN1
*
*
*
*
*
*
*
*
*

2

3

D11
D21
D31
D101
D250
D400
D401
D402
D500

* IC12
* IC101
IC151
* IC152
* IC153
* IC154
IC155
IC200
* IC201
* IC202
* IC206
* IC301
* IC302
IC303
* IC304
IC305
* IC306
* IC307
* IC308
IC309
* IC310
IC322
* IC351
* IC352
IC400
* IC404
IC410
IC420
* IC500
* IC501
* IC502
* IC601
* IC621
* IC641
IC701
IC702

C-1

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

A-2
A-2
B-2
D-3
B-3
C-2
C-3
D-3
E-2
A-2
D-4
F-4
F-3
F-3
F-3
G-4
B-4
B-4
A-4
A-3
G-2
F-2
F-2
G-2
F-3
F-1
G-2
G-1
G-1
G-1
F-1
F-2
F-2
C-3
C-4
C-3
D-3
E-1
C-1
D-1
E-3
E-2
E-2
A-3
A-2

*
*
*
*
*
*
*
*
*

*
*
*

Q251
Q271
Q272
Q273
Q352
Q353
Q354
Q401
Q402
Q403
Q404
Q405
Q406
Q410
Q411
Q412
Q413
Q414
Q420
Q421
Q422
Q423
Q424
Q430
Q431
Q500
Q501
Q502
Q503
Q504
Q505
Q506
Q507
Q508
Q509
Q510
Q701
Q702
Q703

Q20
Q10
IC12(1/4)
IC12(2/4)
2SD596T1-DV345 2SB624-T1BV3TL064CPW-E05 TL064CPW-E05

B-3
C-4
C-4
C-3
G-3
F-3
G-3
B-2
B-3
C-2
C-3
C-3
B-3
C-2
C-3
C-3
C-3
C-3
D-2
D-3
D-3
D-3
D-3
C-3
C-4
C-2
B-2
B-2
C-2
C-2
C-2
D-2
D-2
D-2
E-2
E-1
A-3
A-3
A-3

AT,1-89/DA,1-89
SG,1-89

89

4

*
*
*
*
*

5
*
*
*

*

Q1
Q2
Q10
Q20
Q30
Q101
Q102
Q103
Q109
Q110
Q205
Q206
Q207
Q208
Q209
Q210
Q211
Q250

A
A
A
A

C10
10
16V

CN1(93/100)

C11
15
16V

R8
220k

R9
220k

CN1(100/100)

-2.8V
-2.8V

84
83

+3.1V
+3.1V

C15
0.1

R722
1k

Q703
Q702
2SB624-T1BV3 2SD1048X7-TB

C704
47
16V

C705
47
16V

R710
150
1/10W

C706
10
10V

12

C702
0.1

702

CN1(99/100)

R33
2.4k

R23
0

CN1(98/100)

C20
15
16V

CN1(97/100)

D21
RD4.3UH-T1 7

6

C21
15
16V

R24
20k

5

R702
10k

C24
33
16V

C31
10
10V

C30
10
10V

C25
0.1

D31
RD2.4UH-T1

C32
0.1

8

12

9
IC12(3/4)
10 TL064CPW-E05

C34
33
10V

R34
36k

C701
0.1

C23
1
10V

C22
0.1

CN1(88/100)

R25
20k

CN1(82/100)

4

R713
150
1/10W

7
3

R708
27k

CN1(27/100)

CN1(81/100)
CN1(28/100)

R715
30k

CN1(30/100)

CN1(29/100)

66
65

VBS(X)IN
VBS(G)IN

MB,31-B5

UNREG(G)
VTR RESET OUT
REC TALLY OUT

81
28
30

AT,1-53
AT,1-57

CN1(31/100)

R35
20k

TALLY ON IN
REC TALLY IN

29
31

AT,1-58
MB,12-18

R718
1M

-2.5V
+4.8V
-2.5V
-4.8V

CN1(86/100)

Q101
2SA1226-T1E4

CN1(85/100)

Q103
2SA1226-T1E4

Q102
2SA1226-T1E4
R101
4.7k

RV101:VBS GAIN

D GND
D GND

27

CN1(87/100)

-4.8V

96
95

TALLY OUT

R714
150
1/10W

R716
10k

C33
1
10V

Q30
2SD596T1-DV345

82

R712
150
1/10W

Q703

R717
100

L3
0.47µH

UNREG

Q701

C36
0.1

11

90

R711
150
1/10W

R704
24k

C707
10p
50V
CH

C35
0.1

+9.3V

R707
33k

5

1
2

6
5 701

+1.1V

CN1(90/100)

R709
150
1/10W

Q702

C703
0.1

R719
10k

C103
2p

R105
510

CN1(84/100)
R100
2.4k

IC101
Q109
2SA1611-T1M7 TC4W53FU(TE12R)

R1
6.8k

R110
6.8k

R104
3k

L

Q101

IC601
CLC505AJE-T

7
6

Q2

C605
22
16V

R601
2k

8
101

IC641
CLC505AJE-T

3

Q110

601

8
621

6

CN1(57/100)
CN1(58/100)

7

3

C624 R627
100p 75

8
641

6

C644 R647
100p 75

CN1(21/100)

2
4

R605
1k

R603
120

C101
0.1

Q109

R2
3.3k

7

C641
0.1

2
4

H

C645
22
16V

R641
2k

3

C604 R607
100p 75

6

R646
33k

C621
0.1

2

4 5 3

D101
1SS302-TE85L

C625
22
16V

R621
2k

7

L601
1µH

R626
33k

C601
0.1

Q102

CN1(95/100)

IC621
CLC505AJE-T

8

1
2

Q1

CN1(96/100)

Q110
2SC4177-T1L7

R606
33k

C104
22
16V

RV101
500

CN1(83/100)

Q1
Q2
2SA1611-T1M7 2SC4177-T1L7

CN1(22/100)

4

R625
1k

R623
15

R645
1k

2/2
2/2
2/2

9
8
7

VBS(X)OUT
VBS(G)OUT

57
58

MB,11-21
MB,11-22

RM VBS(X)OUT
RM VBS(G)OUT

21
22

MB,41-16
MB,41-15

TEST(X)OUT
TEST(G)OUT

43
44

MB,15-1
MB,15-2

R643
0

C623
2p

C643
2p

C603
2p

Q103
DA,1-65
DA,1-66

CN1(66/100)

R102
5.6k

R103
510

R111
3.3k
C105
22
16V

IC151(1/4)
SN74HC08ANS-E05

R151
1M

AT,1-15

IC152(1/2)
TC7W00FU(TE12R)

IC153
TC74HC595AF(EL)

IIC DATA

1

LD(IF)IN

R154
100
R155
100

CN1(3/100)

C152
0.1

7

R156
100

CN1(1/100)

10

C151
15
16V

1 14
3
2 151

8
1
2 152

7

4
C150
0.1

C153
0.1

R153
100k

VCC

C-3

Q272
2SA1611-T1M7
IC151(3/4)
IC151(4/4)
SN74HC08ANS-E05
SN74HC08ANS-E05
R276
6.8k

R273
3.3k

R200
100

CHAR BACK IN

IC151(2/4)
SN74HC08ANS-E05

QH
153 Q7
11
CK
Q6
Q5
14
D
Q4
Q3
12
LD
Q2
Q1
13
EN
Q0
GND
8

Q271
R201
100

4
6
5 151
R271

R199
1M

5.6k

CN1(7/100)

CHAR VF IN

SDA
SCL

9
8
10 151

1
A0
2
A1
3
A2

L603
1µH

5
6 152

L201
1µH

CPE
VSS

4

R203
6.8k

IC201
TC74HC4052AFS(EL
)
16

7
6

R274 Q272
5.6k

12
11
13 151

Q206
2SC4177-T1L7

8
200

12
14
15
11
1
5
2
4

Q206
1
2

VBS
RM
VF-Y

4 5 3

R277
5.6k Q273

C201
0.1

CN1(79/100)

3

Q205

Q207
2SA1611-T1M7
Q208
2SC4177-T1L7

C203
0.1

0X VCC
1X
201
2X
3X
0Y
1Y
2Y
3Y
A
B

C721
:N'M

R272
1k

C722
:N'M

R275
1k

C723
:N'M

Q209
2SA1611-T1M7
IC202
Q210
TC74HC4052AFS(EL
Q211
2SA1611-T1M7
)
2SC4177-T1L7

IC304(1/2)
TC7W32FU-TE12L

R210
6.8k

R207
100

Q208

13

R212
6.8k

R209
100

R205
100
R211
100

Q207
Q209
3

Q210
10
9
R208
3.3k

16 0.1
VF-Y 12 0X VCC
RM 14 1X
202
13
15 2X
RET 11 3X
1 0Y
5 1Y
3
2 2Y
10
4 3Y
A
9
B

R227
33k
C300
0.1

14
VCC
5
1Q 305

Q211
8
1
7 304
2
4

INH GND VEE

6 8 7

C202
0.1

IC306(2/3)
TC7W04FU(TE12R)
IC206
CLC505AJE-T

R214
100

6 8 7

C204
0.1

6
9
8

R213
3.3k

7

1

4
2
1D
3
1CK
1
10
12
2D
11
2CK
13

1Q
2Q
2Q
GND
7

R278
1k

CHARAC

IC305
IC306(1/3)
SN74HC74ANS-E05
TC7W04FU(TE12R)

C205
R206
6.8k

INH GND VEE

10

2/2

4

IC152(2/2)
TC7W00FU(TE12R)

CN1(80/100)

VF-Y(X)IN
VF-Y(G)IN

L602
1µH

IC155
X24C02S-3.0-C700
0

R204
3.3k

2/2

CN1(44/100)

C646
22
16V

8

Q205
2SA1611-T1M7
Q273
IC200
2SA1611-T1M7 TC4W53FU(TE12R)
R279
6.8k

R202
100

80
79

C626
22
16V

CHAR BACK

C154
0.1

CN1(8/100)
R198
1M

DA,1-80
DA,1-79

CN1(43/100)

C642
0.1

VDD

Q271
2SA1611-T1M7

7

R644
330

R642
2k

C155
0.1

5
3
6 154
4

9
7
6
5
4
3
2
1
15

R

7

8

C622
0.1

L150
1µH

5
6

PR,1-46

R624
330

R622
2k

CHAR BACK VBS

IC154(1/2)
IC154(2/2)
TC7W08FU(TE12R) TC7W08FU(TE12R)

16

R152
220k

CN1(2/100)

IIC CLK

3

C602
0.1

C606
22
16V

C102
0.1

8
1
7
2 154

2

R604
330

R602
1.8k

CN1(65/100)

RV101 D-4

A-1
A-1
B-1
E-4
A-3
A-3
A-4
B-3
F-2
D-2
D-3
C-3
D-2
C-1
D-1
D-4
E-3
D-3
A-2

13
12

IC12(4/4)
TL064CPW-E05

155

S1

R721
2k

2
8
1
3 701

R15
22k

C17
0.1

R10
10k

L2
0.47µH

86
85

+3.0V

4

C26
0.1

-5.1V
-5.1V

14
C14
33
16V

R14
20k

D11
RD4.3UH-T1

12

88
87

R13
240

4 3
12 2

1

C12
0.1

CN1(89/100)

GND
GND
GND
GND

C13
1
10V

C16
0.1

CN1(94/100)

2.5V REF IN

100
99
98
97

R701
47k

Q701
9.3V
2SC2712L-TE85L

R706
47k

CN1(91/100)

+7.3V
+7.3V

94
93

IC702
TC7S86FU(TE85R)

R705
47k

CN1(92/100)

+5.1V
+5.1V

92
91

PR,1-44

L1
L2
L3
L150
L201
L202
L203
L250
L301
L400
L401
L402
L500
L501
L502
L601
L602
L603
L700

4.8V

L1
0.47µH

IC701(2/2)
LM393PS-E05

R703
20k

L700
1µH

C301
0.1

3

C221
22
16V

R221
1k

C303
0.1

5
304 6

C222
0.1

3

C223
100p

7
8
206

8

6

CN1(49/100)

49
50

MB,12-3
MB,12-4

CN1(77/100)

VF(G)OUT

77

MB,31-B2

CN1(78/100)

VF(X)OUT

78

MB,31-A3

CN1(45/100)

PB REF IN

45

AT,1-48
MB,12-17

CN1(10/100)

CORSOR 1 IN
CORSOR 2 IN

10
9

PR,1-43
PR,1-45

SKIN GATE IN

15

DA,1-5

EXT HD OUT
EXT VD OUT

6
5

PR,1-39
PR,1-41

HD IN
VD IN

40
39

AT,1-43/DA,1-44/
SG,1-49
AT,1-44/DA,1-43/
SG,1-50

R228
1k

R224
33

4

MONI(X)OUT
MONI(G)OUT

CN1(50/100)

4

R230
75

R222
22k

C224
2p

R225
820

L202
1µH

R226
680
C225
22
16V

C226
0.1

IC304(2/2)
TC7W32FU-TE12L

C206
0.1

R229
75

2

6

2
CHAR BACK
CHAR C-VF ON
CHAR VBS ON

1

IF-510 (1/2)

L203
1µH

R264
100

38
37

Q250
2SC4177-T1L7

CN1(38/100)

GND
GND

Q251
2SA1611-T1M7

R257
3.9k

C254
39p

36
35

GENLOCK(X)IN
GENLOCK(G)IN

R258
18k

CN1(36/100)

Q250

R261
10k

8
VCC

C307
0.1

2
IN

D250
HSM88AS-TL

CN1(35/100)

Q251

GEN

C255
10
10V
:TA

C250
10
10V
:TA

S1

R256
510

7

R259
510

R252
2.2k

C252
15p

R253
33k

HD
VD
301

RESET

C253
22p

RET
R251
100k

E-4
E-4
A-2
A-2
B-2
D-4
D-4
D-4
E-4
D-3
B-4
B-4
B-4
B-4
A-4
A-4
A-4
B-4

IC302
SN74HC74ANS-E05

IC303
SN74HC74ANS-E05

GND

6

C308
0.1

4

1
3
5

C313
22
16V

4
2
3
1
10
12
11
13

14
VCC
5
1Q
1D 302
1CK
6
1Q
2Q
2D
2CK
2Q

C311
0.1

4
2
3
1
10
12
11
13

9
8

GND
7

R315
680k

C312
0.1

5

2/2

IC309(2/2)
IC309(1/2)
TC7W32FU-TE12L TC7W32FU-TE12L

IC307(1/2)
TC7W08FU(TE12R)

R263
1M

CN1(37/100)

R250
100

SG,1-51
SG,1-52

IC301
EL4581CS-TE2

Q252
2SA1611-T1M7

14 C309
0.1
VCC
PR
5
1Q
1D 303
1CK
6
1Q
CLR
PR
9
2Q
2D
2CK
8
2Q
CLR
GND
7

C320
0.1

14
12
11
13 322

7
9
10 322

8

8

5

4
1
3
2 322
7

3
4
5 322

6

5
307 6
4

1
308 2
3

1
7
309 2

IC307(2/2)
TC7W08FU(TE12R)

C321
0.1

C322
0.1

R321
100
CN1(9/100)

4

R320
100

R322
1M

R311
4.7k

3

C315
0.1

C361
:N'M

+4.8V-2

L301
1µH

8
1
307 2

IC308
TC7S08FU(TE85R)

5
309 6

7

R323
1M

8 1
5
CN1(15/100)
3
310 2
R310
100
IC306(3/3)
4 SKIN GATE ON
TC7W04FU(TE12R)
5
3 310
6
CHAR CCU ON
CHAR

IC310(1/2)
TC7W08FU(TE12R)

R324
100

CN1(6/100)
CN1(5/100)

R325
100

MB,12-1

53

RET VIDEO(X)IN

MB,12-2

54

RET VIDEO(G)IN

SG,1-55

34

14

CN1(53/100)

CN1(54/100)

R254
1k

C352
0.1

CN1(34/100)

18MHz(X)IN

4
2
3
1
10
12
11
13

IC352
TC7S04FU(TE85R)

2

5 4
3

SG,1-56

33

C353
0.1

CN1(33/100)

18MHz(G)IN

R354
1M

VCC
5

IC310(2/2)
TC7W08FU(TE12R)R327
100

R361
0

CN1(40/100)

1Q
1D
1CK

CN1(39/100)

6

R362
:N'M

1Q
351
9
2Q
2D
2CK

R326
100

IC322(1/4)
IC322(2/4)
IC322(3/4)
IC322(4/4)
SN74HC00ANS-E05 SN74HC00ANS-E05 SN74HC00ANS-E05 SN74HC00ANS-E05

IC351
SN74HC74ANS-E05

SKIN GATE
SKIN GATE 2
CARSOR

8

1
2
3

2/2
2/2
2/2

R328
1M

R329
1M

IF-510(1/2)
B-¥ BVP550-IF510-12

2Q
GND
7

1995.8.23

IF-510 (1/2)
BOARD NO. 1-657-453-11
LOT NO. 504B-¥BVP550-IF510-12

8-18
A

B

C

D

8-18

BVP-550
BVP-550P

E

F

G

H

IF-510 (2/2)

IF-510 (2/2)

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

1

1

C351
0.1
25V

R351
10k

4

4

CN1(48/100)

-4.8V
-2.5V
+4.8V

7
8
9

1/2
1/2
1/2

CHAR BACK
CARSOR

4
3

1/2
1/2

C350
10
16V
R353
1k

5

N/P IN

1/2

3

1
48

5

R352
22k

2

DA,1-41
VA,1-41
SG,1-36
PR,1-106

+4.8V-2
9.3V

Q352(2/2) Q353(1/2)
Q354
IMH2-T110 IMH2-T110 DTA144EUA-T106

Q352(1/2)
IMH2-T110

2

6
5
3
6

MB,31-B3

47

N/P OUT

Q353(2/2)
IMH2-T110

CN1(47/100)

CN1(76/100)
CN1(75/100)
CN1(74/100)

1/2

10

CHARAC

CN1(73/100)

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

MB,31-B8
MB,31-A9
MB,31-B9
MB,31-A10

76
75
74
73

CORSOR

Q401
2SA1611-T1M7

Q402
2SC4177-T1L7

Q403
XP6534-TX

Q404
2SC4178-F13F14-T
1
D400
1SS302-TE85L

IC400
TC4W53FU(TE12R)

Q405
2SA1611-T1M7

Q411
Q412
IC410
2SC4178-F13F14-T
2SA1611-T1M7
TC4W53FU(TE12R)
1
Q410
Q413
Q414
D401
1SS302-TE85L
XP6534-TX
2SA1611-T1M7
2SC4177-T1L7

Q406
2SC4177-T1L7

Q421
IC420
2SC4178-F13F14-T
Q422
TC4W53FU(TE12R)
1
2SA1611-T1M7
Q420
Q423
Q424
D402
XP6534-TX
1SS302-TE85L
2SA1611-T1M7
2SC4177-T1L7

SKIN GATE 2

Q430
2SA1611-T1M7

Q404
R401
6.8k

C401
22 R412
16V 22k

C408
22
16V

R418
5.6k

C405
22
16V

R413
6.8k

R423
6.8k

R425
6.8k

C415
22
16V

R430
5.6k

C412
22
16V

2

L402
1µH

Q411

R406
5.6k

1/2

2

Q431
2SC4177-T1L7

Q421
R437
6.8k

R435
6.8k

R444
6.8k

C419
22
16V

8
8

8
Q402

Q406
D400
C400
1p

Q403
Q401
R403
360

R404
3k

R400
100

R411
1k

Q405

1
2

R416
150

R407
3.9k

R408
2.2k

Q414
D402

1
2

4 5 3
C403
0.1

R419
3.9k

C402
22
16V

C406
15
10V

C404
0.1

Q422
C414
1p

C410
0.1
R422
3.9k

R420
2.2k

420

7
6

Q424
1
2

R426
1.5k
R431
3.9k

R432
2.2k

CN1(16/100)

SKIN GATE OUT

MB,12-23

16

Q430 C423
:NM
R443
1k

R438
1.5k

C424
:NM

R447
2.2k

R436
1k

C416
22
16V

C413
15
10V

C411
0.1

R448
10

4 5 3
C417
0.1

R434
3.9k

Q431

R439
68

R433
2.7k

R424
1k

C409
22
16V

Q423

R446
2.2k

R441
8.2k

Q420

R421
2.7k

R414
1.5k

R429
2.4k

4 5 3

Q413

R415
68

R410
3.9k

R428
150

R427
68

Q410
C407
1p

R409
2.7k

R405
36k
R402
3.3k

Q412

R417
2.4k

410

7
6

D401

400

7
6

R445
2.2k

C420
15
10V

C418
0.1

L401
1µH

L400
1µH

CHAR BACK C-VF

SKIN GATE

1/2

1

3

C422
0.1

DA,1-71
DA,1-72
DA,1-69
DA,1-70
DA,1-67
DA,1-68

72
71
70
69
68
67

Y(X)IN
Y(G)IN
R-Y(X)IN
R-Y(G)IN
B-Y(X)IN
B-Y(G)IN

4

DL SYNC IN

12

DA,1-6
SG,1-23

CN1(19/100)

R PEEK OUT
G PEEK OUT
B PEEK OUT

19
18
17

AT,1-75
AT,1-74
AT,1-73

PEEK GND

20

AT,1-72

PEEK RESET IN
WINDOW IN

26
25

AT,1-46
AT,1-45

64
63
60
59
62
61

MB,11-20
MB,11-17
MB,11-20
MB,11-19
MB,11-20
MB,11-18

R442
100

3

IC404
TC4S69F(TE85R)
R501 0

Q500
XP6534-TX

CN1(68/100)
CN1(67/100)

CN1(12/100)

R500 0

CN1(70/100)
CN1(69/100)

2

C421
22p

CN1(72/100)
CN1(71/100)

5

R440
100

SYNC

Q502
Q501
2SA1226-T1E4 2SC2223-T1F14

CN1(18/100)

R502 0

Q503
XP6534-TX

Q505
Q504
2SA1226-T1E4 2SC2223-T1F14

Q506
XP6534-TX

Q507
Q508
Q509
Q510
IC501(2/2)
IC500(1/3)
2SA1226-T1E4 2SC2223-T1F14 2SA1611-T1M7 2SC4177-T1L7 TL082CPS-E05 TC74HC4053AFS-EL

IC500(3/3)
TC74HC4053AFS-EL

IC500(2/3)
TC74HC4053AFS-EL

IC501(1/2)
TL082CPS-E05

IC502(1/2)
IC502(2/2)
L500
TC7W08FU(TE12R) TC7W08FU(TE12R) 1µH

CN1(17/100)

CN1(20/100)
C502
4p
R507 50V
1.5k :TA-CA
R503
3k

R505
1.8k
C500
,N'M

R504
0

Q501

R516
3k

Q502
C501
,N'M

R518
1.5k
C506
,N'M

R510
1.8k

R506
130

R512
47

Q504

R521
1.5k

R513
0

R515
10

R517
0

C508
4p
50V
:TA-CA

C507
,N'M

R508
1.8k

R514
1.5k

R543
6.8k

Q508
C512
,N'M

R533
910

R536
2k

R534
91

R537
68

16
R544
1k

D500
1SS302-TE85L

Q510
5
6

R519
18
R525
47

R528
10

C509
4p
C510
22
16V

Q503

R509
1.2k
R511
5.6k

Q507

Q505

R523
1.8k

Q500

C514
6p
50V
:TA-CA

R532
1.2k

R529
0

C503
4p
C504
22
16V

R526
0

R520
1.8k

R522
1.2k

R524
5.6k

R527
1.5k

R530
3k

C513
10p

Q506

R531
1.8k

7

5
3

500
4

C519
0.1
35V

9

R555
10k

2
1

C515
4p
R541
1.5k

C516
22
16V

R542
10

C518
10p

R545
3.3k

2
3

R546
100

4

Q509

R539
47

R540
5.6k

R535
510

C511
15
10V

C505
15
10V

R538
1.8k

8

R547
100

12
13

1

C524
0.1

500
14
7

R548
10k

C525
0.1

6 11 8
7

500

8
1
502 2
4

3

6
502 5
R551
100

15

R554
3.3k

R553
3.3k

C520
22
16V
R549
100k

C517
15
10V

CN1(26/100)
CN1(25/100)

10

C522
0.1

C521
22
16V

R550
100k

R552
100

4

L501
1µH

L502
1µH
CN1(64/100)
CN1(63/100)
CN1(60/100)
CN1(59/100)
CN1(62/100)
CN1(61/100)
A1

A2

A3

A4

A6

A7

A8

A9

R(G)
R(X)
B(G)
B(X)
G(G)
G(X)

OUT
OUT
OUT
OUT
OUT
OUT

A5

IF-510(2/2)
B-¥ BVP550-IF510-12

5

IF-510 (2/2)
BOARD NO. 1-657-453-11
LOT NO. 504B-¥BVP550-IF510-12

8-19

BVP-550
BVP-550P

AI

J
B

K
C

L
D

8-19
E
M

NF

O
G

P
H

VF-60 VR-199 LP-84/85

VIEW FINDER

VIEW FINDER VF-60 VR-199 LP-84/85
VIEW FINDER
CN101

1

LP-84
D1
CL-150UR-CD-T

D1

D2
CL-150UR-CD-T

D2

D3
CL-150PG-CD-T

D3

BATT
REC
G TALLY
GND

D1

D2
CL-150UR-CD-T

D2

D3
CL-150D-CD-T

D3

1
2
3
0

1
2
3
4

LP-85
D1
CL-150D-CD-T

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

CN21

CN31

6
7
8
0

1
2
3
4

ABNORMAL
REC
VTR SAVE
GND

VTR SAVE
ABNORMAL
16-9
REC(L)
CCIR/EIA
AUDIO IND ON
G TALLY
VIDEO(G)
ZEBRA ON
VIDEO(X)
AUDIO CTL
MIC(Y)
MIC(X)
BATT IND
REC/ALLY
+9.3V
GND
UNREG

A7
A8
A9
B9
B6
A4
A3
B4
B8
B3
B7

B5
A6
A1
A2

2
Q1
DTA144EUAT106

Q3
XN6501

Q2
DTA144EUAT106
R1
33

R3
8.2k

R2
560

C1
47
16V
:TA
R4
22k

R5
22k
C3
0.01
50V
B

C2
0.01
50V
B

CN11

IC1
BA225F-T2
R6
22k

3

R7
680k
R8
47k

1

C4
0.022
25V
B

8

2
3

7

IC1

6

R9
56k

5

C5
4.7
16V

R11
47k
C6
15
16V
:TA-CC

R13
22k
C8
0.01
50V
B

4

9V
GND
GND
REC CONT
REC
ZEBRA
MOMENTARY
VIDEO OUT
VIDEO IN
PEAKING IN
PEAKING OUT
TALLY OUT
+50V
BRIGHT CTL

R10
0

FLAT
CABLE

1
2
3
4
5
6
7
8
9
10
11
12
13
14

R12
NM
C7
0.1
25V
F

Q4
XN6501

R14
470

D1
CL-200HR-C-TUL

D2
CL-200HR-C-TUL

RV1
10k
(B)

RV2
1k
(B)

R15
47k

R16
560

RV3
10k
(C)

RV1:BRIGHT
RV2:CONTRAST
RV3:PEAKING

VR-199

4

5

8-20
A

B

C

D

8-20

BVP-550
BVP-550P

E

F

G

H

VF-60 VR-199 LP-84/85

Q1
DTA144EUAT106

CN1

A1
A2
A3
A4

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18

A6
A7
A8
A9

B3
B4
B5
B6
B7
B8
B9

+9.3V IN
GND
G TALLY
AUDIO IND

VIEW FINDER VF-60 VR-199 LP-84/85

1

Q2
DTA144EUAT106

C1
0.01
50V
B

C2
0.01
50V
B

Q9
2SC3360

REC/TALLY
VTR SAVE
ABNORMAL

Q3
2SC4177-T1L6

R2
5.6

R12
22

Q1

R16
470
:RN-C

Q2

R17
100

R15
2.2k
R14 :RN-C
3.3M

R22
330

R19
330

BATT
REC
G TALLY
GND
GND
ABNORMAL
REC(L)
VTR SAVE

R20
2.2k

C6
10
20V
:TA-CC

R21
2.2k

R25
22k
:RN-C

R27
8.2k
:RN-C

E1

C5
R23
10
22k
20V
:TA-CC :RN-C

C8
4.7
16V
:TA-CA

Q7

S

R29
18k
:RN-C

C55
0.1

Q12

R24
10k

R26
3.3M

VDR1
C9
0.01 R30
50V
56k
B
:RN-C

Q6
R31
4.7k
:RN-C

R33
1.5k
:RN-C

Q11

C7
82p
50V
CH

R28
47
R18
4300

1
2
3
4
5
6
7
8

TP2
C3
0.01
50V
B

R3
100

Q8

R11
330

L3
8.2µH

CN2

R4
10k
:RN-C

Q9

DELAY

1
2
3
0
0
6
7
8

Q12
2SA1611-T1M6

CLAMP

Q8
XN6534-TW

R8
3.3k
:RN-C

R10
220

Q5

CCIR/ EIA
AUDIO CTL
ZEBRA
REC(L)

Q11
2SC4177-T1L6

Q10
R6
470
:RN-C

R9
220

R13
220

Q3

Q10
2SC3360-T1N17

R1
6.8k
:RN-C

Q4

R7
10k
:RN-C

C4
33
10V
:TA-CC

Q6
Q7
2SA1808-PT106 2SK852-T1X3

Q4
Q5
2SA1611-T1M6 XN6435-TW
R5
4.7k
:RN-C

16:9
+9V
GND
VIDEO IN
VIDEO(G)
BATT IND

VIEW FINDER

R34
5.6k

R32
3.3M

R35
1.8k

R36
33k

DL1
R37
10k

SL1

R39
180

2

C10
0.1
25V
F

D1
1SS301

SL2

5-5

H1 OUT
H2 OUT

5-4
5-3

G2 OUT
NC

5-1
5-2

GND

4-1

3

RV9;SUB BRIGHT

RV9
50k

Q13
2SB624-T1BV3

IC3
TC4S69F

IC2(1/2)
µPC358G2

Q14
2SK612

R47
1k

R48
150k

9V
GND
GND
REC CONT
REC
ZEBRA
MOMENTARY
VIDEO IN
VIDEO OUT
PEAKING OUT
PEAKING SET
TALLY OUT
+50V
BRIGHT CTL

C13
0.022
25V
B

R49
1.5k

R43
4.7k
:RN-C

R42
22k
:RN-C

1

1
2
RV2
C15
1k
0.1
25V
F

R51
18k
:RN-C
SL3

R46
8.2k

RV1
5k

SL4

R53
4.7k
:RN-C

3
2

C16
0.1
50V
F

4

R45
100k
C17
33
16V
:TA-CD

2

5
3

4

Q14

R55
100k

500V

C20
47p
50V
CH

S

C21
0.1
25V
F

R54
4.7k
:RN-C

S

9

C19
470p
50V
B

D5
V09C

C24
0.047 R59
25V
10k
B
:RN-C

C26
10
20V
:TA-CC

4
4

C25
0.1
25V
F

6
5

7

2

GND
0
CRT

R60
100k

ANODE

R61
3.3M

3

D6
1SS301

4

R62
10k

C27
10
R65
20V
27k :TA-CC

C22
22
50V
CN4(1/5)

8
2

5

R56
3.3M

R57
3.3M

IC4
TC4S01F
R63
12k

6
1

G2

CN5(1/5)
CN5(2/5)

8

H1
H2
ANODE

D4
V11N

6
7

C23
220p
50V
CH

R64
470k

CN5(3/5)

R58
1M

RV1;H SIZE
RV2;ANODE SET

D7
1SS301

CN5(4/5)

10

C12
0.0056
100V

C11
1500p
100V

RV8
50

D2 V09C

Q15

3

C18
47
16V
:TA-CD

R52
22k
:RN-C

C14
0.01
50V
R50 1k
B

5
3

TP1

D3
1SS302

R44
22k
:RN-C

R41
18
:RN-C

F.B.T

TP5

TP4

RV8;HEATER

T1

Q15
2SK612

DRIVER
2

CN3
14
13
12
11
10
9
8
7
6
5
4
3
2
1

G1 OUT

R40 47k

R38
8.2k

FLAT
CABLE

G1

CN5(5/5)

IC2(2/2)
µPC358G2

1
2

3
R66
33k

C28
1
35V
:TA-CA

R67
3.3k

D8
RD6.2UJN-T1

L2

CN4(5/5)

+H DEF

4-5

1

-H DEF

4-4

2

+V DEF

4-2

3

-V DEF

4-3

6

H.L.C

H.DY
CN4(4/5)

Q17
2SC4177-T1L6

IC1(1/2)
HA11423MP

Q18
2SA1611-T1M6

RIPPLE FILTER

Q19
Q20
Q21
2SC4177-T1L6 2SC4177-T1L6 2SA1611-T1M6

IC1(2/2)
HA11423MP

CCIR SW

AMP
R68
15

Q17

AUDIO
ZEBRA

R79
ON
NM
OFF
R80
ON
0
OFF
MOMENTARY

R70
1k

C29
0.01
50V
B

SL5
SL6

HI
OFF
LOW

R72
100

C30
10
20V
:TA-CC

S1

C35
0.1
25V
F

R86
2.2k
S3

R87
47k

R73
120

R74
33k
R81
10k

S2

TALLY

R71
8.2k

R76
10k

11
R105
33k

R83
10k
:RN-C

15

10

12

D10
1SS301

C31
1
16V
:TA-CA

R77
22k

AFC GATE
1
SYNC
SEPARATE

16
Q18

R78
12k
RV3
5k

R88
68k

H
OSC

H
DRIVE

7

V
TRIG

R90
8.2k

V
DRIVE

R91
1k

1
R106
10k

2
6

1
GND

C32
10
20V
R82
4.7 :TA-CC

C36
220p
50V
CH

V BLKG

V
OSC

Q20

TP3

X RAY
TRIG

14
C39
0.1
25V
F

R75
4.7k

D9
1SS302

18

R84
750k

13

8

C33
10
20V
:TA-CC

5
VCC

C53
0.1µ 17

V DRIVER
R69
3.3k

Q19

R89
47k

R92
33k

Q16

C41
10
20V
:TA-CC

R101
47k
R102
2.2k

C52
0.1µ

C42
0.1
25V
F

V.DY
CN4(3/5)

C43
0.0068
25V
B

C51
10 20V :TA-CC

C45
C46
C44
10
R95 0.0047 0.022
25V
20V 100k 16V
B
:TA-CC

R96
2.2k

RV4
500k

C47
1
35V
:TA-CA

D11
1SS301

C40
1
35V
:TA-CA
R103
330k

R104
39k

C54
100p

R97
5.6k

C48
0.0047
50V
B

4

C38
220
10V

RV10
500

R93
6.8k

4 3

Q16
DTA144EUAT106

C37
100
16V

C34
NM

RV6
500

9

BACKTALLY

CN4(2/5)
R85
560

Q21

RV7
500
R94
10

C49
C50
3.3
0.1
16V
25V
:TA-CA F

R98
100k

R99
470

R100
470
S1

2

RV5
5k

Q22
2SK664
3

D12
CL-200HR-C-TSL

RV3;H.HOLD

RV5;V HOLD

RV4;V SIZE(P)

RV6;V SIZE

RV7;V LIN

RV10;V SIZE(WIDE)

VF-60

5

VIEW FINDER
VF-60
VR-199
LP-84/85
A-¥BVP550-VIEW FINDER/M
B-¥BVP550-LP84/M
B-¥BVP550-LP85/M
B-¥BVP550-VF60/M
B-¥BVP550-VR199/M

8-21

BVP-550
BVP-550P

I

J

K

L

8-21
M

N

O

P

MB-602
MB-602 BOARD

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)
TO PR-211 BOARD

NC

TDI(SH)
TDI(EN)
TMS(SH)
TMS(EN)
TDO(SH)
TDO(EN)
TDI(DET)
TDI(PR)
TMS(DET)
TMS(PR)
TDO(DET)
TDO(PR)
TCK
TRST
A1(PR)
GND
AO(PR)

140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN6

PR(1/2)

A GND
A GND
A GND
A GND
D GND
D GND
D GND
D GND
+5.1V
+5.1V
-5.1V
-5.1V
-2.8V
-2.8V
+3.3V
+3.3V
+3.3V
+3.3V
+7.3V
+7.3V
VF-Y(G)OUT
VF-Y(X)OUT
HI-Y(G)OUT
HI-Y(X)OUT
C(G)OUT
C(X)OUT
SC CONT IN
NC
INT SC(X)OUT
INT SC(G)OUT
36MHz(G)OUT
36MHz(X)OUT
18MHz(G)OUT
18MHz(X)OUT
N/P IN
INT/EXT IN
AD EN

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
TEST SAW(X)OUT
TEST SAW(G)OUT
HTSG OUT
H CLP IN

CN7
24P

PR(2/2)

2.5V REF IN
G B SHADING OUT
R B SHADING OUT
B B SHADING OUT
B SHADING GND
G W SHADING OUT
R W SHADING OUT
B W SHADING OUT
W SHADING GND
G FEEDBACK OUT
R FEEDBACK OUT
B FEEDBACK OUT
FEEDBACK GND
B(X)IN
B(G)IN
R(X)IN
R(G)IN
G(X)IN
G(G)IN

TO PR-211 BOARD

CE0(PR)
NC
DB7(PR)
2FH IN
DB6(PR)
LALT IN
DB5(PR)
FLD1 IN
DB4(PR)
BLKG IN
DB3(PR)
BF IN
DB2(PR)
SYNC IN
DB1(PR)
VD IN
DB0(PR)
HD IN
RD(PR)
NRW BLKG IN
WR(PR)
A VD OUT
CE1(PR)
A HD OUT
CHAR BACK IN
CURSOR 2 OUT
CHAR VF IN
CURSOR1 OUT
TITLE BACK IN
EXT VD IN
TITLE IN
EXT HD IN
Y(L)OUT
D OUT EN
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
Y(G)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
R-Y(G)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
B-Y(8)OUT
B-Y(M)OUT
B-Y(G)OUT
18MHz(G)IN
18MHz(X)IN
36MHz(G)IN
36MHz(X)IN

1

MB-602

D7
D8
D9
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
D32
D33
D34
D35
D36
D37
D38
D39
D40
E68
E69
E70
E71

E36
E37
E38
E39
E40
E41
E42
E43
E44
E45
E46
E47
E48
E49
E50
E51
E52
E53
E54
E55
E56
E57
E58
E59
E60
E61
E62
E63
E64
E65
E66
E67

E35

E34

E72

E33
F13

E25
E26
E27
E28
E29
E30
E31
E32

D1
D2
D3
D4
D5
D6

A9

A3

A10

A11

A5

E21
E22
E23
E24

E1
E2
E3
E4
E5
E6
E7
E8
E9
E10
E11
E12
E13
E14
E15
E16
E17
E18
E19

A6

C16
0.1

2
A6

LENS UNREG
LENS UNREG(G)
RET EN IN
IRIS POSI IN
IRIS CONT OUT
ZOOM POSI IN
EX ON
AUTO 5V
REM/LOCAL
VTR S/S IN
LAUX 1
LAUX 2

4

PA

1
2
3
4
5
6
7
8

B(G)IN
B(X)IN
G(G)IN
G(X)IN
R(G)IN
R(X)IN
NC
NC

L3
L4

C8 C9 C10 C11
0.1 0.1 0.1 0.1

E3
E4

N3
N4
N5
N6

A17
A19
L10
L9
L15
L12
L13
L16
L14
L11
L18
L19

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

A9
A5
A7
A11
A10
A3

N8
L5
L17
L2
L1

TO
CCD UNIT

CN22
20P

DR

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

CN23
24P

TG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

VA

CN1

A6

M2
M1
M4
M3
M6
M5

M5
M3
M1

A4

E7
E8

A14
A13
A8
A2

E11
E12
E16
E18
E14

A1
M7
L6
L7
L8
A10

A4
E59
E57
F1
F2
E71
E70
E69
E68
E23
M8
M9
M10

E21

M7
M9
F18
E59

E24
G5
G3
G7
G8

G8

R1
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF OUT
-5.1V
-2.8V
+3.1V

R B SHADING IN
B B SHADING IN

G B SHADING IN
B SHADING GND

R(X)IN
G(X)IN
B(X)IN

R(G)IN
G(G)IN
B(G)IN

R W SHADING IN
B W SHADING IN

G W SHADING IN
W SHADING GND

R FEEDBACK IN
B FEEDBACK IN

G FEEDBACK IN
FEEDBACK GND

R(X)OUT
G(X)OUT
B(X)OUT

R(G)OUT
G(G)OUT
B(G)OUT

N/P IN

TEST SAW(X)IN

V CLP IN
H CLP IN
NC
A HD IN
NC
IIC CLK

TEST SAW(G)IN

PBLKG IN
D CLP IN
SAMPLE3 IN
A VD IN
IIC DATA
LD(VA)IN

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

C12 C13 C14
0.1 0.1 0.1

AT

CN2

A6

A6
C19
0.1

C15
0.1

A9
A5
A7
A11
A10
A3
L19
L1
L3
L5
K2
K4
L6
L8
L10
L12
L14
L16

A9
A5
E1
A11
A10
A3
E2
E5
M6
M4
M2
E6
E9
E10
E13

J2
F5

E17
E19
E15

B16
B19
B31
K5
F11
E35
E36
E40
E44
E48
E52
E56
E62
E66
E57
E59
G1
G3
G5
G7

F13

E22

M8
M10
F19
E57

B43
B45
B40

G7
G1

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V
LAUX 2
VF RGB OUT
ABNORMAL OUT
WIDE OUT
G PEEK IN
PEEK GND
ND FILT IN
TEMP IN
RET EN IN
ZOOM POSI IN
REM/LOCAL
AUTO 5V
TALLY ON OUT
18MHz(G)IN
VTR S/S OUT
RET EN OUT
PB REF IN
PEEK RESET OUT
VD IN
A0(PR)
CE0(PR)
DB6(PR)
DB4(PR)
DB2(PR)
DB0(PR)
WR(PR)
CHAR VF OUT
TITLE OUT
A VD IN
A HD IN
LD(VA)OUT
LD(TG)OUT
LD(CCD)OUT
IIC DATA
IIC DATA(CA)
IIC DATA(ST)
NC
COM CONT
RM DATA IN
RE A

R2
0

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V
ZEBRA ON/OFF IN
VF COLOR IN
G TALLY OUT
R PEEK IN
B PEEK IN
NC
CC FILT IN
IRIS POSI IN
VTR S/S IN
EX ON
IRIS CONT OUT
LAUX 1
REC TALLY IN
18MHz(X)IN
VTR RESET IN
TAPE REM IN
BATT ALERM IN
AUDIO LEVEE IN
WINDOW OUT
HD IN
A1(PR)
DB7(PR)
DB5(PR)
DB3(PR)
DB1(PR)
RD(PR)
CE1(PR)
CHAR BACK OUT
TITLE BACK OUT
V RESET OUT
NC
LD(SG)OUT
LD(DA)OUT
LD(IF)OUT
IIC CLK
IIC CLK(CA)
IIC CLK(ST)
CA(CONT/DATA)
COM DATA
RM DATA OUT
RE B

C18 C20 C21
0.1 0.1 0.1

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

SG

CN3

A6

A6

C17
0.1

A9
A5
A7
A11
A10
A3

A9
A5
A11
A10
A3
L17
L2
L4
K1
K3

B29
E25
E27

E72
L7
L9
L11
L13
L15
L18

F1
F2
E29
E31
J1

F3
F5
F7
F9
F11

F6
J3
B17
B15
B18
K6
F12

E37
E41
E45
E49
E53
E59

E34
E38
E42
F13

E46
E50
E54
E58
E60
E64
F17

F17
F18
F19

G2
G4
G6
G8
B42
B44
B10
B41

B35
B36
B38
B34
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R3
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V

GENLOCK(X)IN
SC CONT OUT
INT SC(X)IN

GEN(G)/H CONT IN
NC
INT SC(G)IN

VCO CONT OUT
VCO CONT(G)
36MHz(G)IN
18MHz(G)IN
36MHz(G)OUT
18MHz(G)OUT
NC
GENLOCK(G)OUT
VD OUT
NC
LALT OUT
BLKG OUT
SYNC OUT
HD OUT
A HD IN
N/P OUT
TDI
TDO
TCK

36MHz(X)IN
18MHz(X)IN
36MHz(X)OUT
18MHz(X)OUT
NC
GENLOCK(X)OUT
HD OUT
2FH OUT
FLD1 OUT
BF OUT
VD OUT
NRW BLKG OUT
A VD IN
INT/EXT OUT

NC
NC
SAMPLE3 OUT

DL BLKG OUT
DL SYNC OUT
V RESET IN
V RESET IN/CF OUT
SAMPLE2 OUT

18MHz(X)OUT
SAMPLE1 OUT
SYNC OUT
HD OUT
BLKG
IIC CLK

18MHz(G)OUT
VD OUT
CF OUT
H CONT IN
IIC DATA
LD(SG)IN

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

C23 C24 C25
0.1 0.1 0.1

A6

C22
0.1

A9
A5
A11
A10
A3
B30
E26
E28

E30
E32
F4
F6
F8
F10
F12
E39
E43
E47
E51
E55
E57
E33

F15
F16
B20
F20

B37
B39
B46
G7
G2

A9
A5
A11
C30
0.1

C31
0.1

A4

A6

C29
0.1

C26
0.1

A5
A6

1
2
3
4
5
6
7
8
9
10
11
12

N2
N1
N7
B15

CN21
8P

G7
G8

LENS

A7
A16
A18

B11
B9
A15

CN32
12P

C7
0.1

A6
A5
A7

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20

A12
A2
A1

+9.3V
VF UNREG
VF UNREG(G)
VF(G)OUT
VF(X)OUT
N/P OUT
BATT ALERM OUT
ABNORMAL OUT
G TALLY OUT
TALLY OUT
WIDE OUT
ZEBRA ON/OFF OUT
VF COLOR IN
VF RGB OUT

C6
0.1

B14
B13
B12

3

A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10

VF

A1

CN31
20P

C27
0.1

TO CN-1122 BOARD

8-22
A

B

C

D

1
2
3
4
5

+5.1V
A GND

SW

IIC DATA
IIC CLK

CN42
5P

AUDIO CH1 CONT IN
VTR SAVE
POWER SAVE

RE B
RE A
RM DATA OUT
RM DATA IN
IIC CLK
IIC DATA

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

RM VBS(X)OUT
RM VBS(G)OUT
A GND
+5.1V
+9.3V

CN

MIC(X)IN
MIX(Y)IN
MIC(G)IN

CN41
24P

+48V
UNREG OUT
UNREG(G) OUT

C28
0.1

5

TO SW-732 BOARD.

8-22

BVP-550
BVP-550P

E

F

G

H

MB-602

MB-602

1

CN51
26P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26

D/D

GND(UNREG)
GND(UNREG)
UNREG
UNREG
+3.1V
+3.1V
GND(D)
GND(D)
+5.1V
+5.1V
A GND
A GND
+9.3V
+6.5V
+7.3V
+7.3V
-2.8V
-5.1V
A GND
A GND
+48V
+15V
A GND
POWER SAVE
-11V
A GND

TO D/D

-2

A15
A14

Q1
2SA811A-T1C15

110P(1/4)
A1

A12

A13

A10
A11
A4

A7
A8
A9

A5
A6

A3

A GND

A3

A2

A1

R6
0

D1
DE5LC20U-TA2
R7
10k
1/16W

A18

Q2
2SC1622A-T1D17

R9
10k

213

R8
56k
1/16W R10
10k

A19
A2
S1

A16

DA

CN4

A6

A9
A5
A7
A11
A10
A3
H1
D2
D4
D6
H3
H5
H7
H9
B24
B24
B24
B28

E60
F4
F6
F12
D7
D9
D11
D13
D15
D17
D19
D21
D23
D25
D27
D29
D31
D33
D35
D37
D39
F15
F16
F20
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R4
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V

VF-Y(X)OUT
VF-Y(X)IN
HI-Y(X)IN
C(X)IN
Y(G)OUT
R-Y(G)OUT
B-Y(G)OUT
VBS(G)OUT
Y(G)OUT
R-Y(G)OUT
B-Y(G)OUT
Y(G)OUT
C(G)OUT

VF-Y(G)OUT
VF-Y(G)IN
HI-Y(G)IN
C(G)IN
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
VBS(X)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y(X)OUT
C(X)OUT
CHAR VF IN

CHAR BACK IN
36MHz(X)IN
18MHz(X)IN
HD IN
Y(L)IN
Y(1)IN
Y(3)IN
Y(5)IN
Y(7)IN
Y(M)IN
R-Y(L)IN
R-Y(2)IN
R-Y(4)IN
R-Y(6)IN
R-Y(8)IN
R-Y(G)IN
B-Y(1)IN
B-Y(3)IN
B-Y(5)IN
B-Y(7)IN
B-Y(M)IN
DL BLKG IN
DL SYNC IN
SAMPLE2 IN
IIC CLK

36MHz(G)IN
18MHz(G)IN
VD IN
N/P IN
Y(2)IN
Y(4)IN
Y(6)IN
Y(8)IN
Y(G)IN
R-Y(1)IN
R-Y(3)IN
R-Y(5)IN
R-Y(7)IN
R-Y(M)IN
B-Y(L)IN
B-Y(2)IN
B-Y(4)IN
B-Y(6)IN
B-Y(8)IN
B-Y(G)IN
VTR SYNC OUT
SKIN GATE OUT
IIC DATA
LD(DA)IN

A6

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

IF

CN5

A6

A9
A5

A9
A5
A7
A11
A10
A3
A2
H1

A11
A10
A3
H2
D1
D3
D5
H4
H6
H8
H10

N1
N3
N5
H4
H6
H8
H10
B21
B22
B23

B4
B4
B4
B6
B30
B8

B27
E62

B48
F3
F5
F11
F13
D10
D12
D14
D16
D18
D20
D22
D24
D26
D28
D30
D32
D34
D36
D38
D40

F13
B50
F12
F8
F10
F6
J1
J3
K5

K4
K2
B51
F15
F16
E63
E60
E67

B33
H11
G7
G4

F20
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R5
:NM

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V
UNREG
VF-Y(X)IN
VF(X)OUT
VF Y(X)OUT
VF B-Y(X)OUT
Y(X)IN
R-Y(X)IN
B-Y(X)IN
VBS(X)IN
R(G)OUT
G(G)OUT
B(G)OUT
VBS(G)OUT

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V
GND(UNREG)
VF-Y(G)IN
VF(G)OUT
VF R-Y(X)OUTT
VF Y/R-Y/B-Y
Y(G)IN
R-Y(G)IN
B-Y(G)IN
VBS(G)IN
R(X)OUT
G(X)OUT
B(X)OUT
VBS(X)OUT

RET VIDEO(G)IN

RET VIDEO(X)IN

MONI(G)OUT
N/P IN

MONI(X)OUT
N/P OUT
PB REF IN
TEST(X)OUT

TEST(G)OUT
HD IN
NC
GENLOCK(X)IN
18MHz(X)IN
REC TALLY OUT
VTR RESET OUT
PEEK RESET IN

VD IN
NC
GENLOCK(G)IN
18MHz(G)IN
REC TALLY IN
TALLY ON IN
TALLY OUT
WINDOW IN

RM VBS(G)OUT
PEEK GND
G PEEK OUT
SKIN GATE OUT
DL BLKG IN
DL SYNC IN
CURSOR 1 IN
CHAR BACK IN
EXT HD OUT
SAMPLE2 IN
IIC CLK

RM VBS(X)OUT
R PEEK OUT
B PEEK OUT
SKIN GATE IN
IIC DATA(CA)
IIC CLK(CA)
CURSOR 2 IN
CHAR VF IN
EXT VD OUT
IIC DATA
LD(IF)IN

A17

IC1
TC74VHC541FS(EL)

A6

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

20

C1
0.1
RB1

D23
D24
D25
D26
D27
D28
D30
D31

A9
A5
A11
A10
A3
A1

9
8
7
6
5
4
3
2

VCC
1

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C15
C16
C17
C18
C19
C20
C21
C22

2
4
6
8
2
4
6
8

C29
C27
C25
C23
C24
C26
C28
C30

G1 G2 GND

H2

RB2

N2
N4
N6

1 19 10

D8

IC2
TC74VHC541FS(EL)

H3
H5
H7
H9

20

C2
0.1

B1
B2
B3
B4
B5
B6
B21
B22
B23
B24
B27
B28
B29
B30

RB3

D38
D36
D34
D32
D33
D35
D37
D39

B1
B2
B3
B5
B29
B7

9
8
7
6
5
4
3
2

VCC
2

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

G1 G2 GND
RB4

B47
N7
B31
B49

1 19 10

D8

20

C3
0.1
RB5

F11
F7
F9
F5
B32
J2
N8

D22
D21
D20
D19
D17
D16
D15
D14

9
8
7
6
5
4
3
2

K6

VCC
3

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C14
C13
C12
C11
C10
C9
C8
C7

B17
B18
B33
B19
B20
B31
B32
B46
B9
A6

G1 G2 GND
RB6

1 19 10

D8
K1
K3

IC4
TC74VHC541FS(EL)

H11
B43
B42
E61
E62
E65
G7
G6

110P(2/4)
B7
B8
B47
B48
B15
B16
B11
B12
B13
B14
A6

IC3
TC74VHC541FS(EL)

20

C4
0.1
RB7

D13
D12
D11
D10
D9
D7

8
7
6
5
4
3
2
9
-2

VCC
4

12
13
14
15
16
17
18
11

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C6
C5
C4
C3
C2
C1
C31

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

B38
B51
B10
B40
B41
B42
B43
B44
B45

G1 G2 GND

RET VIDEO(X) IN
RET VIDEO(G) IN
MONI(X) OUT
MONI(G) OUT
BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G) OUT
MIC(Y) OUT
MIC(X) OUT
A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/ CF OUT
PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

CN11
30P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
CN12
30P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

2

TO CN-1120 BOARD

C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C27
C28

C30
C29

RB8

1 19 10

D8
D18
D29
D40

D GND

-2

IC5
X24C02S-3.0-C700
0

G8

C31
C32

A5

G7

C32

8
R11
4.7k

VDD
1

B39

R12
100k

5
A0

SDA

A1

SCL

2

B37
B36
B35
B34

6

3

110P(3/4)

CN13
30P

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

110P(4/4)

CN14
20P

3

4
TO CN-1121 BOARD

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG

5

A2
5
CPE

7

C5
0.1

B49
B50

VSS

BNC

CN15
3P

TEST(X)OUT
TEST(G)OUT

1
2
3

4

MB-602

-2

A1

A2

B-¥ BVP550-MB602-11
1995.8.8

MB-602
8-23

BVP-550
BVP-550P

I

J

K

L

BOARD NO. 1-657-437-11
LOT NO. 904-

8-23

B-¥BVP550-MB602-11

M

N

O

P

CN-1120/1121/1122/1142 SW-730/731/732/733/742

1

FRAME WIRING

FRAME WIRING

FRAME WIRING CN-1120/1121/1122/1142 SW-730/731/732/733/742

BVP-550 (UC)
BVP-550 (J)
BVP-550P (CE)

CN42

IIC DATA
IIC CLK
+5.1V
A GND

HARNESS
(VF)

17

2

7

6

11

1
5
10

16

15

14

20

19

18

4
VF Y(X)OUT
ZEBRA ON/OFF OUT
VF(X)OUT

9
13

VF B-Y(X)OUT
VF R-Y(X)OUT
BATT ALERM OUT
TALLY OUT
+9.3V
VF UNREG(G)
VF UNREG

9
0
1
2
3
4
6
9
7
8

9
9
9
9
9
1
4
2
0
1

89
9
9
9

89
89

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20

IF-510

12

3

89
8
0
7
3

+9.3V
VF UNREG
VF UNREG(G)
VF(G)OUT
VF(X)OUT
N/P OUT
BATT ALERM OUT
ABNORMAL OUT
G TALLY OUT
TALLY OUT
WIDE OUT
ZEBRA ON/OFF OUT
VF COLOR IN
VF RGB OUT

DA-88

8

VF RGB OUT
N/P OUT
VF COLOR IN
G TALLY OUT

A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10

SG-234

2

CN31

2
1
0

2
6

AT-95

ABNORMAL OUT
WIDE OUT

VA-163

CN903
(VF)

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

1
2
3
4
5

IRIS CONT OUT
HARNESS
(LENS)

CN15

1
2
3

TEST(X)OUT
TEST(G)OUT

MB-602

MIC(G)IN
MIX(Y)IN
MIC(X)IN

IRIS POSI IN
REM/LOCAL
EX ON
ZOOM POSI IN
LAUX 1
LAUX 2

4

LENS UNREG
LENS UNREG(G)
RET EN IN
IRIS POSI IN
IRIS CONT OUT
ZOOM POSI IN
EX ON
AUTO 5V
REM/LOCAL
VTR S/S IN
LAUX 1
LAUX 2

UNREG(G)OUT
UNREG OUT
+48V

5

1
2
3
4
5
6
7
8
9
10
11
12

CN41

6

CN32

1
0
0
1
2
3
4
6
7
8
9
2

+9.3V
+5.1V
A GND
RM VBS(G)OUT
RM VBS(X)OUT

9 1
8 10 2
7 12 11 3

0
8
0
6
2
1
1
7
4
3
9
2

IIC DATA
IIC CLK
RM DATA IN
RM DATA OUT
RE A
RE B

CN904
(LENS)

1
2
3
4
5
6
7
8
9
10
11
12

POWER SAVE
VTR SAVE
AUDIO CH1 CONT IN

RET EN IN
VTR S/S IN
LENS UNREG(G)
AUTO 5V
LENS UNREG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

3

CN901
BNC

4

5

8-24
A

B

C

D

8-24

BVP-550
BVP-550P

E

F

G

H

I

BVP-550
BVP-550P

J
K

8-25

L
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68

M

CN-1120

N
O

18MHZ(X)OUT

18MHZ(G)OUT
Y(1)OUT
Y(3)OUT
Y(5)OUT
Y(7)OUT
Y(M)OUT
R-Y(1)OUT
R-Y(3)OUT
R-Y(5)OUT
R-Y(7)OUT
R-Y(M)OUT
B-Y(1)OUT
B-Y(3)OUT
B-Y(5)OUT
B-Y(7)OUT
B-Y(M)OUT
D GND
SAMPLE1 OUT
VD OUT
CF OUT

Y(L)OUT
Y(2)OUT
Y(4)OUT
Y(6)OUT
Y(8)OUT
R-Y(L)OUT
R-Y(2)OUT
R-Y(4)OUT
R-Y(6)OUT
R-Y(8)OUT
B-Y(L)OUT
B-Y(2)OUT
B-Y(4)OUT
B-Y(6)OUT
B-Y(8)OUT
D GND
BLKG OUT
SYNC OUT

V RESET IN/CF OUT
REC TALLY IN
VTR SAVE
A GND
CA(CONT/DATA)
CAM DATA
IIC DATA(CA)
IIC DATA(ST)

AUDIO LEVEL IN

MIC(G)OUT
MIC(X)OUT

SKIN GATE OUT
TAPE REM IN
VTR SYNC OUT
RET EN OUT
PB REF IN
H CONT IN
A GND
HD OUT
COM CONT
IIC CLK(CA)
IIC CLK(ST)
UNREG(G)
UNREG(G)
VF UNREG(G)
LENS UNREG(G)
UNREG
UNREG
VF UNREG
LENS UNREG
G(X)OUT
R/G/B(G)OUT
VBS(X)OUT
R-Y(X)OUT
Y/R-Y/B-Y(G)
Y(X)OUT
C(G)OUT
GEN(G)/H CONT IN
RET VIDEO(X)IN
MONI(G)OUT
VTR S/S OUT

AUDIO CH1 CONT OUT
MIC(Y)OUT

UNREG(G)
UNREG(G)
VF UNREG(G)
LENS UNREG(G)
UNREG
UNREG
VF UNREG
LENS UNREG
R(X)OUT
B(X)OUT
VBS(G)OUT
Y(X)OUT
B-Y(X)OUT
Y(G)OUT
C(X)OUT
GENLOCK(X)IN
RET VIDEO(G)IN
MONI(X)OUT
BATT ALARM IN

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG OUT

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/CF OUT

BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT

RET VIDEO(X)IN
RET VIDEO(G)IN
MONI(X)OUT
MONI(G)OUT

CN11

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

CN202

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

CN13

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

CN102

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

FLAT
CABLE

CN14

CN101

FLAT
CABLE

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

CN12

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

FLAT
CABLE

FLAT
CABLE

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG OUT

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

RET VIDEO(X)IN
RET VIDEO(G)IN
MONI(X)OUT
MONI(G)OUT
BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT
A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/CF OUT
PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)
84
84

CN3

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

CN23

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

TG
GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

FLAT
CABLE

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

1
2
3
4
5
6

CN2

CN3

9

9
0
9

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

FLAT
CABLE

80

89

80

89

CN22

9

9
0
9

DR

8
7
6
5
4
3
2
1

NC
NC
R(X)IN
R(G)IN
G(X)IN
G(G)IN
B(X)IN
B(G)IN

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

CN21

PA

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

R(X)IN
R(G)IN
G(X)IN
G(G)IN
B(X)IN
B(G)IN

TG-159

DR-271

PA-181

FRAME WIRING

CN103

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68

CN203

CN201

CN-1120/1121/1122/1142 SW-730/731/732/733/742

FRAME WIRING CN-1120/1121/1122/1142 SW-730/731/732/733/742

1

CCD UNIT

2

3

4

CN-1121

5

FRAME WIRING

CN-1120/1121/1122/1142
SW-730/731/732/733/742

B-¥BVP550-FRAME-11

8-25
P

5-4

5-4

OHB-400/500/500WS & PAL
OHB-450/451/550/550WS & PAL

VA-163

VA-163

Section 9
Board Layouts

VA-163 BOARD

BVP-550
BVP-550P

VA-163 - A SIDE -

VA-163 - B SIDE -

1-657-438-11

1-657-438-11

9-1

9-1

AT-95

AT-95

AT-95 BOARD

AT-95

AT-95

- A SIDE -

1-657-448-11

- B SIDE -

1-657-448-11

9-2

9-2

BVP-550
BVP-550P

SG-234

SG-234

SG-234 BOARD

BVP-550
BVP-550P

SG-234 - A SIDE -

SG-234

1-657-449-11

1-657-449-11

9-3

9-3

- B SIDE -

DA-88

DA-88

DA-88 BOARD

DA-88 - A SIDE -

DA-88 - B SIDE -

1-657-450-11

1-657-450-11

9-4

9-4

BVP-550
BVP-550P

IF-510

IF-510

IF-510 BOARD

BVP-550
BVP-550P

IF-510 - A SIDE -

IF-510 - B SIDE -

1-657-453-11

1-657-453-11

9-5

9-5

MB-602

MB-602

MB-602 BOARD

MB-602 - A SIDE -

MB-602 - B SIDE -

1-657-437-11

1-657-437-11

9-6

9-6

BVP-550
BVP-550P

VF-60

VF-60

VF-60 BOARD

VF-60 - A SIDE 1-658-080-11

VF-60 - B SIDE 1-658-080-11

BVP-550
BVP-550P

9-7

9-7

5-4

5-4

OHB-400/500/500WS & PAL
OHB-450/451/550/550WS & PAL

The material contained in this manual consists of
information that is the property of Sony Corporation and
is intended solely for use by the purchasers of the
equipment described in this manual.
Sony Corporation expressly prohibits the duplication of
any portion of this manual or the use thereof for any
purpose other than the operation or maintenance of the
equipment described in this manual without the express
written permission of Sony Corporation.

Le matériel contenu dans ce manuel consiste en
informations qui sont la propriété de Sony Corporation et
sont destinées exclusivement à l’usage des acquéreurs
de l’équipement décrit dans ce manuel.
Sony Corporation interdit formellement la copie de
quelque partie que ce soit de ce manuel ou son emploi
pour tout autre but que des opérations ou entretiens de
l’équipement à moins d’une permission écrite de Sony
Corporation.

Das in dieser Anleitung enthaltene Material besteht aus
Informationen, die Eigentum der Sony Corporation sind,
und ausschließlich zum Gebrauch durch den Käufer der
in dieser Anleitung beschriebenen Ausrüstung bestimmt
sind.
Die Sony Corporation untersagt ausdrücklich die
Vervielfältigung jeglicher Teile dieser Anleitung oder den
Gebrauch derselben für irgendeinen anderen Zweck als
die Bedienung oder Wartung der in dieser Anleitung
beschriebenen
Ausrüstung
ohne
ausdrückliche
schriftliche Erlaubnis der Sony Corporation.

BVP-550 (UCJ)
BVP-550P (CE) J,E
3-189-412-01

Sony Corporation
Broadcast Products Company

Printed in Japan
1995. 9 08
© 1995

Published by Broadcast Products Company

COLOR VIDEO CAMERA

BVP-550

MAINTENANCE MANUAL
1st Edition
Serial No. 50001 and Higher

! WARNING
This manual is intended for qualified service personnel only.
To reduce the risk of electric shock, fire or injury, do not perform any servicing other than that
contained in the operating instructions unless you are qualified to do so. Refer all servicing to
qualified service personnel.

! WARNUNG
Die Anleitung ist nur für qualifiziertes Fachpersonal bestimmt.
Alle Wartungsarbeiten dürfen nur von qualifiziertem Fachpersonal ausgeführt werden. Um die
Gefahr eines elektrischen Schlages, Feuergefahr und Verletzungen zu vermeiden, sind bei
Wartungsarbeiten strikt die Angaben in der Anleitung zu befolgen. Andere als die angegeben
Wartungsarbeiten dürfen nur von Personen ausgeführt werden, die eine spezielle Befähigung
dazu besitzen.

! AVERTISSEMENT
Ce manual est destiné uniquement aux personnes compétentes en charge de l’entretien. Afin
de réduire les risques de décharge électrique, d’incendie ou de blessure n’effectuer que les
réparations indiquées dans le mode d’emploi à moins d’être qualifié pour en effectuer d’autres.
Pour toute réparation faire appel à une personne compétente uniquement.

CAUTION
Danger of explosion if battery is incorrectly
replaced.
Replace only with the same or equivalent type
recommended by the manufacturer.
Dispose of used batteries according to the
manufacturer’s instructions.

Vorsicht!
Explosionsgefahr bei unsachgemäßem
Austausch der Batterie.
Ersatz nur durch denselben oder einen vom
Hersteller empfohlenen ähnlichen Typ.
Entsorgung gebrauchter Batterien nach Angaben
des Herstellers.

ATTENTION
Il y a danger d’explosion s’il y a remplacement
incorrect de la batterie.
Remplacer uniquement avec une batterie du
même type ou d’un type équivalent recommandé
par le constructeur.
Mettre au rebut les batteries usagées
conformément aux instructions du fabricant.

ADVARSEL!
Lithiumbatteri-Eksplosionsfare ved fejlagtig
håndtering.
Udskiftning må kun ske med batteri
af samme fabrikat og type.
Levér det brugte batteri tilbage til leverandøren.

1 (P)

Table of Contents
Manual Structure
Purpose of this manual ........................................................................................ 5 (E)
Contents ............................................................................................................... 5 (E)
Relative manuals ................................................................................................. 6 (E)

1. Installation
1-1.

1-2.
1-3.
1-4.
1-5.

Connectors and Cables ..........................................................................1-1 (E)
1-1-1. Connector Input/Output Signals ...........................................1-1 (E)
1-1-2. Connection Connector ..........................................................1-6 (E)
Installaton Conditions ...........................................................................1-6 (E)
Function of Internal Switches ...............................................................1-6 (E)
Instance of Sytem Configuration ..........................................................1-8 (E)
Optional Accessories for Viewfinder ..................................................1-11 (E)

2. Service Overview
2-1.

Notes on Service ...................................................................................2-1 (E)
2-1-1. Note on Replacement of Parts ..............................................2-1 (E)
2-1-2. Description of EEPROM Data .............................................2-1 (E)
2-1-3. Extension Boards .................................................................2-1 (E)
2-1-4. Notes on Repair Parts ...........................................................2-1 (E)
2-2. Removal of Cabinet...............................................................................2-2 (E)
2-3. Location of Printed Circuit Boards .......................................................2-2 (E)
2-4. Circuit Description ................................................................................2-3 (E)
2-5. Periodic Replacement Part ....................................................................2-6 (E)
2-6. Cleaning ................................................................................................2-7 (E)
2-6-1. Cleaning of Viewfinder (Option) .........................................2-7 (E)
2-6-2. Cares After Using at Special Environment ..........................2-7 (E)
2-7. Replacement of External Connectors ....................................................2-8 (E)
2-7-1. VF Connector .......................................................................2-8 (E)
2-7-2. MIC Connector.....................................................................2-8 (E)
2-7-3. TEST OUT/REMOTE Connector ........................................2-9 (E)
2-8. Disconnecting/Connecting of Flexible Card Wires ............................2-10 (E)
2-9. Board Replacement .............................................................................2-11 (E)
2-9-1. MB-602 Board ...................................................................2-11 (E)
2-9-2. CN-1120/1121 Board .........................................................2-12 (E)
2-10. Replacement of Function Switches .....................................................2-13 (E)
2-10-1. Side Switch Panel Block ....................................................2-13 (E)
2-10-2. Front Switch Panel Block...................................................2-13 (E)
2-10-3. VF DISP Switch .................................................................2-14 (E)
2-11. Replacement of DC/DC Convertor Unit .............................................2-15 (E)

BVP-550

1 (E)

3. Setup Menu
3-1.

3-2.

Setup Menu ...........................................................................................3-1 (E)
3-1-1. Operation Menu ...................................................................3-3 (E)
3-1-2. Paint Menu ...........................................................................3-6 (E)
3-1-3. Maintenance Menu ...............................................................3-9 (E)
3-1-4. Reference Menu .................................................................3-11 (E)
3-1-5. Triming Menu ....................................................................3-11 (E)
3-1-6. System Config Menu ..........................................................3-12 (E)
Self-Diagnosis .....................................................................................3-15 (E)

4. Electrical Alignment
4-1.

4-2.

4-3.

2 (E)

Preparation ............................................................................................4-1 (E)
4-1-1. Equipment Required .............................................................4-1 (E)
4-1-2. Notes on Adjustment ............................................................4-1 (E)
4-1-3. Connections ..........................................................................4-2 (E)
4-1-4. Description of Setup Menu ..................................................4-2 (E)
4-1-5. Initial Setting ........................................................................4-3 (E)
Adjustment for Installation of OHB ......................................................4-4 (E)
4-2-1. VCO CONT Frequency Confirmation .................................4-4 (E)
4-2-2. VA Gain Adjustment ............................................................4-4 (E)
4-2-3. Black Shading Adjustment ...................................................4-6 (E)
4-2-4. White Shading Adjustment ..................................................4-8 (E)
4-2-5. Master Black Adjustment .....................................................4-9 (E)
4-2-6. Gamma Correction Adjustment ...........................................4-9 (E)
4-2-7. Flare Adjustment ................................................................4-11 (E)
4-2-8. Knee and White Clip Adjustment ......................................4-12 (E)
4-2-9. Crispening Adjustment .......................................................4-13 (E)
4-2-10. Level Dependent Adjustment .............................................4-14 (E)
4-2-11. Detail Frequency Adjustment ............................................4-15 (E)
4-2-12. H/V Ratio Adjustment ........................................................4-16 (E)
4-2-13. Detail Level Adjustment ....................................................4-17 (E)
4-2-14. Detail Clip Adjustment ......................................................4-17 (E)
4-2-15. Skin Tone Adjustment ........................................................4-18 (E)
4-2-16. Zebra Adjustment ...............................................................4-20 (E)
4-2-17. Auto Iris Adjustment ..........................................................4-21 (E)
4-2-18. Menu Settings After Finishing Adjustment .......................4-22 (E)
4-2-19. File Store ............................................................................4-22 (E)
Overall Electrical Alignment ..............................................................4-22 (E)
4-3-1. VCO CONT Frequency Adjustment ..................................4-23 (E)
4-3-2. VTR Y Adjustment ............................................................4-24 (E)
4-3-3. Test out Adjustment ...........................................................4-25 (E)
4-3-4. Chroma Adjustment ...........................................................4-26 (E)
4-3-5. INT SC Phase Adjustment .................................................4-27 (E)
4-3-6. REG Level Adjustment ......................................................4-28 (E)

BVP-550

4-3-7.
4-3-8.
4-3-9.
4-3-10.
4-3-11.
4-3-12.
4-3-13.
4-3-14.
4-3-15.
4-3-16.
4-3-17.
4-3-18.
4-3-19.
4-3-20.
4-3-21.
4-3-22.
4-3-23.

TEST1 Adjustment.............................................................4-29 (E)
TEST2 Adjustment.............................................................4-30 (E)
A/D Gain Adjustment ........................................................4-31 (E)
VA Gain Adjustment..........................................................4-32 (E)
VA MOD Adjustment ........................................................4-34 (E)
Black Shading Adjustment .................................................4-35 (E)
White Shading Adjustment ................................................4-37 (E)
Master Black Adjustment ...................................................4-38 (E)
Gamma Correction Adjustment .........................................4-39 (E)
Flare Adjustment ................................................................4-40 (E)
Pre Knee Adjustment .........................................................4-41 (E)
Knee and White Clip Adjustment ......................................4-43 (E)
A/D Clock Phase Adjustment ............................................4-45 (E)
VTR R-Y/B-Y Adjustment ................................................4-46 (E)
CCU Y/R-Y/B-Y Adjustment ............................................4-46 (E)
RGB Adjustment ................................................................4-48 (E)
Menu Setting After Finishing Adjustment .........................4-49 (E)

5. Spare Parts
5-1.
5-2.

5-3.
5-4.

Notes on Repair Parts .................................................................................. 5-1
Exploded Views .......................................................................................... 5-2
TOP PANEL BLOCK............................................................................... 5-2
RIGHT PANEL AND PLUG-IN BOARDS ............................................. 5-4
LEFT PANEL AND BOARDS ................................................................ 5-6
CHASSIS AND SHOLDER PAD ............................................................ 5-8
BOTTOM BLOCK ................................................................................. 5-10
SCREWS AND WASHERS ................................................................... 5-12
Electrical Parts List ................................................................................... 5-13
Optional Fixtures ....................................................................................... 5-40

6. Semiconductor Pin Assignments

BVP-550

3 (E)

7. Block Diagrams
OVERALL BLOCK .................................................................................... 7-2
VA-163 BOARD ......................................................................................... 7-4
AT-95 BOARD ........................................................................................... 7-5
SG-234 BOARD ......................................................................................... 7-6
DA-88 BOARD ........................................................................................... 7-7
IF-510 BOARD ........................................................................................... 7-8

8. Schematic Diagrams
LOCATION OF PRINTED CIRCUIT BOARDS ...................................... 8-1
VA-163 BOARD ......................................................................................... 8-2
AT-95 BOARD ........................................................................................... 8-6
SG-234 BOARD ....................................................................................... 8-10
DA-88 BOARD ......................................................................................... 8-14
IF-510 BOARD ......................................................................................... 8-18
MB-602 BOARD ...................................................................................... 8-20
FRAME WIRING ..................................................................................... 8-22

9. Board Layouts
VA-163 BOARD ......................................................................................... 9-1
AT-95 BOARD ........................................................................................... 9-3
SG-234 BOARD ......................................................................................... 9-5
DA-88 BOARD ........................................................................................... 9-7
IF-510 BOARD ........................................................................................... 9-9
MB-602 BOARD ...................................................................................... 9-11

4 (E)

BVP-550

Manual Structure
Purpose of this manual
This manual is the maintenance manual for Color Video Camera BVP-550.
This manual describes the information items necessary when the unit is supplied and
installed, items on maintenance, and items that premise the service based on the
components parts such as alignment, schematic diagrams, board layouts and spare
parts list, assuming use of system and service engineers.

Contents
This followings are summaries of the each section for understanding the manual.
Section 1. Installation
Describes information about connector input/output signals, instance of configuration and function of internal switches.
Section 2. Service Overview
Describes information about board locations, circuit description, replacement of part
and notes on services.
Section 3. Setup menu
Describes information about setup menu and self-diagnosis mode.
Section 4. Electrical Alignment
Describes electrical adjustment.
Section 5. Spare Parts
Describes parts list, exploded views, supplied accessories and fixtures list used in
the unit.
Section 6. Semiconductor Pin Assignments
Describes function diagrams and pin names of semiconductor used in the unit.
Section 7. Block Diagrams
Describes overall block diagram and the block diagrams for every circuit board.
Section 8. Schematic Diagrams
Describes schematic diagrams for every circuit board.
Section 9. Board Layouts
Describes board layouts for every circuit board.

BVP-550

5 (E)

Relative manuals
Besides this maintenance manual the following manuals are available for this unit.
• Operation Manual (Supplied with this unit)
This manual is necessary for application and operation of this unit.
• System manual (Not supplied with this unit)
This manual is necessary for connection and operation of this unit and other
peripheral equipments.
If this manual is required, please contact Sony service organization

6 (E)

BVP-550

Section 1
Installation
1-1. Connectors and Cables
1-1-1. Connector Input/Output Signals
Output Signal
• TEST OUT
BNC 75 Ω 1.0 Vp-p

REMOTE (6P FEMALE)

MIC IN (3P FEMALE)
)

(EXTERNAL VIEW)

(EXTERNAL VIEW)
No. SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

SERIAL DATA IN

Serial data for camera control

1

MIC IN (G)

2

SERIAL DATA OUT

2

MIC IN (X)

–60 dBu High impedance
balanced

3

UNREG (G)

3

MIC IN (Y)

4

VBS (X) OUT

5

VBS (G) OUT

6

UNREG OUT

BVP-550

VBS 1 Vp-p, Zo = 75 Ω

(0 dBu=0.775 Vrms)

+10.5 V to +17 V

1-1 (E)

1-1. Connectors and Cables

LENS (12P FEMALE)

VF (20P FEMALE)

(EXTERNAL VIEW)

(EXTERNAL VIEW)

No.

SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

RET VIDEO ENABLE IN

ENABLE: 0 V
DISABLE: +5 V or OPEN

1

NC

No connection

2

ABNORMAL IND OUT

2

RET 2 ENABLE IN

ENABLE: 0 V
DISABLE: +5 V or OPEN

H: Indicator lights
L: Indicator goes out

3

16:9 MODE OUT

3

GND

GND for UNREG

H: NORMAL (4:3)
L: WIDE (16:9)

4

AUTO +5 V OUT

AUTO: +5 V
MANU: 0 V or OPEN

4

NC

No connection

5

COMP/VBS SW IN/OUT

*Note1

5

IRIS CONT OUT

+3.4 V (F16) to
+6.2 V (F2.8)

6

CCIR/EIA OUT

H:CCIR, L:EIA

6

UNREG OUT

+10.5 V to +17 V

7

NC

No connection

8

G TALLY OUT

H: Indicator lights
L: Indicator goes out

7

IRIS POSITION IN

+3.4 V (F16) to
+6.2 V (F2.8)

8

AUTO/MANU OUT

AUTO IRIS: 0 V
MANUAL IRIS: +5 V

9

EXTENDER ON/OFF IN

EX 2 ON: 0 V
EX 0.8 ON: +1.8 V
OFF: +4.8 V

10

ZOOM POSITION IN

WIDE: 2 V
TELE: 7 V

11

NC

No connection

12

NC

No connection

1-2 (E)

9

NC

No connection

10

Y (X) OUT

1 Vp-p, VF:Zi = 1 kΩ

11

ZEBRA ON IN

H: OFF, L:ON

12

VF VIDEO OUT (X)

1.0 Vp-p, VF:Zi = 1 kΩ

13

NC

No connection

14

B-Y (X) OUT

700 mVp-p, VF:Zi = 1 kΩ,
75% color-bars

15

R-Y (X) OUT

700 mVp-p, VF:Zi = 1 kΩ,
75% color-bars

16

BATT IND OUT

H: Indicator lights
L: Indicator goes out

17

TALLY IND OUT

H: Indicator lights
L: Indicator goes out

18

+9.3 V (VF) OUT

REG +9.3 V

19

GND

GND

20

UNREG OUT

+10.5 V to 17 V

Note1: Specification of COMP/VBS SW Signal
When powering on, the microcomputer of the camera
identifies a viewfinder in use by detecting the voltage at
pin 5.
H: Color VF, L: B/W VF
• In use of B/W VF
Voltage control of pin 5 is disabled during operation.
Switching between the return video signal and monochrome signal for the viewfinder is done by the camera
and selected signal is output at pin 12 to the viewfinder.
• In use of Color VF
By controlling the voltage at pin 5 during operation,
switching between the decoded return video signal and
the camera component signal is done in the viewfinder.
H: Camera, L: Return video
BVP-550

1-1. Connectors and Cables
34

1

ANALOG CA (68P FEMALE)

(EXTERNAL VIEW)
68

35

*: In connection with CCU, **: In connection with VTR
No.

SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

UNREG GND

GND for UNREG

35

UNREG GND

GND for UNREG

2

UNREG GND

GND for UNREG

36

UNREG GND

GND for UNREG

3

VF UNREG GND

GND for VF UNREG

37

VF UNREG GND

GND for VF UNREG

4

LENS UNREG GND

GND for LENS UNREG

38

LENS UNREG GND

GND for LENS UNREG

5

UNREG IN

10.5 V to 17 V

39

UNREG IN

10.5 V to 17 V

6

UNREG IN

10.5 V to 17 V

40

UNREG IN

10.5 V to 17 V

7

VF UNREG IN

10.5 V to 17 V

41

VF UNREG IN

10.5 V to 17 V

8

LENS UNREG IN

10.5 V to 17 V

42

LENS UNREG IN

10.5 V to 17 V

9

R OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

43

G OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

10

B OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

44

R/G/B GND

GND for R/G/B VIDEO

11

VBS OUT (G)

GND for VBS VIDEO

45

VBS OUT (X)

1.0 Vp-p ±10%, Zo = 75 Ω

12

Y OUT (X)

VS 1.0 Vp-p, Zo = 75 Ω

46

R-Y OUT (X)

700 mVp-p, with sync 350 mV*
756 mVp-p (J) 
700 mVp-p (UC)  **
525 mVp-p (CE) 

13

B-Y OUT (X)

47

Y/R-Y/B-Y GND

GND for Y/R-Y/B-Y

No connection

48

NC

No connection

700 mVp-p, with sample 350 mV*
756 mVp-p (J) 
700 mVp-p (UC)  **
525 mVp-p (CE) 

14

NC

15

C OUT (X)

SC for S connector

49

C OUT (G)

GND for C

16

VBS GENLOCK IN (X)

1.0 Vp-p ±6 dB

50

VBS GENLOCK IN (G)

GND for GENLOCK/H CONT IN

17

RET VIDEO IN (G)

GND for RET VIDEO

51

RET VIDEO IN (X)

1.0 Vp-p, Zi = 1 kΩ

18

MONITOR VIDEO OUT (X)

VS 1.0 Vp-p, Zo = 75 Ω

52

MONITOR VIDEO OUT (G)

GND for MONITOR VIDEO

19

BATTERY ALARM IN

Zi = 300 Ω *

53

VTR START/STOP OUT

Zo ≤ 10 kΩ

20

NC

No connection

54

NC

No connection

21

AUDIO CH1 CONT OUT

0 V (0 dB) to 7 V (–50 dB or less)

55

MIC 1 OUT (G)

GND for CAM MIC

22

MIC 1 OUT (Y)

Zo ≤ 600 Ω, –60 dBu balanced

56

MIC 1 OUT (X)

Zo ≤ 600 Ω, –60 dBu balanced

23

NC

No connection

57

NC

No connection

24

SKIN TONE GATE OUT

1.0 Vp-p

58

NC

No connection

59

AUDIO LEVEL IN

Zi ≥ 1 kΩ (–15 dBu at 0 VU)

Note 2

Note 4

25

TAPE REM IN

*

26

VTR SYNC OUT

+5.0 Vp-p Negative pulse, Zo ≤ 100 Ω

60

NC

No connection

27

RET EN OUT

ENABLE; 0 V, DISABLE; +5 V or OPEN

61

V RESET IN/CF OUT

V Reset;0 V to +5 V, CF; 0 V to –5 V

28

PB REF IN

PB; +4.5 V,
CAM; 0 V or OPEN

62

REC TALLY IN

ON; +5 V,
OFF; +2.5 V or 0 V,
Zi ≥ 20 kΩ *Note 3

29

H CONT IN

0 V to 5 V, Analog

63

VTR SAVE OUT

SAVE; +4.5 V, STANDBY; 0 V, Zo ≤ 10 kΩ

30

ANALOG GND

64

GND

31

DIGITAL HD OUT

3 Vp-p for Digital

65

SD IN/OUT

Serial data for camera control

32

COM CONT IN

5 Vp-p

66

COM DATA OUT

5 Vp-p

33

IIC CLOCK OUT (CA)

5 Vp-p

67

IIC DATA IN/OUT (CA)

5 Vp-p, 4700 Ω, Pull up

34

IIC CLOCK OUT (ST)

5 Vp-p

68

IIC DATA IN/OUT (ST)

5 Vp-p, 4700 Ω, Pull up

BVP-550

(0 dBu=0.775 Vrms)
1-3 (E)

1-1. Connectors and Cables

Note 2 : Specifications of BATT ALARM Signal
VTR has a battery voltage detection and waring signal generation circuits and it sends the signal shown
below to the camera.
Battery Terminal
Voltage
(VTR internal battery)

12.0—11.1 Vdc

11.1—10.8 Vdc

10.8 Vdc—

1.0 ± 0.2 Hz
duty 50 ± 10 %

2—3 Vdc
across 300 Ω

Input Signal at
Pin 19
0V
LED on Viewfinder

Stays out

Blinks at 1 Hz

Lights up

Note 3 : Specifications of REC TALLY Signal
+1
5.0 -0.5 Vdc
Input Signal at
Pin 62
2.5 ± 0.5 Vdc
REC TALLY
signal
1.0 ± 0.2 Hz
duty 50 ± 10 %

0 ± 0.3 Vdc
Power
OFF

Power
ON

VTR Action

When VTR changes
from POWER SAVE
to REC START mode,
or when the servo is
lost

REC RESET signal
10—100 msec
When VTR
changes from
STANDBY to
REC START
mode, or in
REC mode

At the end of STOP
tape or When mode
VTR is put
into STOP
mode by itself
(REC RESET
signal does
not appear
when VTR is
put into STOP
mode by
operating the
camera)

Note 4 : Specifications of TAPE REM Signal
Tape Remaining (VTR)

Input Signal at Pin 25

TAPE1

TAPE2

+5 V

+5 V

+3.4 V

+5 V

0V

+3.1 V

0V

+5 V

+2.2 V

0V

0V

0V

1-4 (E)

Remark

G TALLY lamp lights at +3.1 V

BVP-550

1-1. Connectors and Cables

DIGITAL CA (68P FEMALE)

34

1

68

35

(EXTERNAL VIEW)

No.

SIGNAL

1

SPECIFICATIONS

No.

SIGNAL

Y (L) OUT

35

Y (1) OUT

2

Y (2) OUT

36

Y (3) OUT

3

Y (4) OUT

37

Y (5) OUT

4

Y (6) OUT

38

Y (7) OUT

5

Y (8) OUT

39

Y (M) OUT

6

R-Y (L) OUT

40

R-Y (1) OUT

7

R-Y (2) OUT

41

R-Y (3) OUT

8

R-Y (4) OUT

42

R-Y (5) OUT

9

R-Y (6) OUT

43

R-Y (7) OUT

10

R-Y (8) OUT

44

R-Y (M) OUT

11

B-Y (L) OUT

45

B-Y (1) OUT

12

B-Y (2) OUT

46

B-Y (3) OUT

13

B-Y (4) OUT

47

B-Y (5) OUT

14

B-Y (6) OUT

48

B-Y (7) OUT

15

B-Y (8) OUT

49

B-Y (M) OUT

16

DIGITAL GND

GND for DIGITAL

50

DIGITAL GND

GND for DIGITAL

3.3 Vp-p

3.3 Vp-p

3.3 Vp-p

SPECIFICATIONS

3.3 Vp-p

3.3 Vp-p

3.3 Vp-p

17

DIGITAL BLANKING OUT

3.3 Vp-p

51

DIGITAL SAMPLE OUT

3.3 Vp-p

18

DIGITAL SYNC OUT

3.3 Vp-p

52

DIGITAL VD OUT

3.3 Vp-p

19

NC

No connection

53

DIGITAL CF OUT

3.3 Vp-p

20

NC

No connection

54

NC

No connection

21

NC

No connection

55

NC

No connection

22

NC

No connection

56

NC

No connection

23

NC

No connection

57

NC

No connection

24

NC

No connection

58

NC

No connection

25

NC

No connection

59

NC

No connection

26

NC

No connection

60

NC

No connection

27

NC

No connection

61

NC

No connection

28

NC

No connection

62

NC

No connection

29

NC

No connection

63

NC

No connection

30

NC

No connection

64

NC

No connection

31

NC

No connection

65

NC

No connection

32

NC

No connection

66

NC

No connection

33

NC

No connection

67

NC

No connection

34

18 MHz OUT (G)

GND for 18 MHz

68

18 MHz OUT (X)

3.3 Vp-p

BVP-550

1-5 (E)

1-1. Connectors and Cables
1-2. Installaton Conditions
1-3. Function of Internal Switches

1-1-2. Connection Connector

1-3. Function of Internal Switches

Connection made with the connector panels during installation or service, should be made with the connectors/
complete cable assemblies specified in the following list,
or equivalent parts.

AT-95 Board

Connector Name

Connection Connectors/Cables

TEST OUT
(BNC)

1-560-069-11 Plug, BNC or
B-B Cable assembly
(cable length 1.5 m, option)

REMOTE
(6P FEMALE)

1-560-078-00 Plug, 6P Male or
HIROSE HR10-7PA-6P equivalent

MIC IN
(3P FEMALE)

1-508-084-00 XLR, 3P Male or
CANNON XLR-3-12C equivalent

4

3

2

1

AT

A

B

C

D

E

S1

1-2. Installaton Conditions

F

Operating Temparature : –20°C to +45°C
Storage Temparature
: –20°C to +50°C
Humidity
: No condence
• Install the unit in a location as dry and well-ventilated as
possible.
• Do not install the unit in the following conditions.
High temparature room or near the heat source
Excessive dust or mechanical vibration
Intense magnetic and electric fields
A place subjected to direct sunlight or strong light

G

AT 95(COMPONENT SIDE)

S1
: Setup menu select switch (S1-1 to S1-4)
Setup menu indicated on the viewfinder can be selected in
combination of switches S1-1 to S1-4.
( ) in parentheses: Factory-set positions
Setup Menu
S1-1 S1-2 S1-3 S1-4 Operation Paint Maintenance Reference Triming Config
OFF OFF OFF OFF YES

NO

NO

NO

NO

NO

(ON) (OFF) (OFF) (OFF) YES

YES NO

NO

NO

NO

OFF ON

OFF OFF YES

YES YES

NO

NO

NO

ON

OFF OFF YES

YES YES

YES

NO

NO

ON

OFF OFF ON

OFF YES

YES YES

YES

YES

NO

ON

OFF YES

YES YES

YES

YES

YES

OFF ON

For details on the setup menu, refer to Section 3.

1-6 (E)

BVP-550

1-3. Function of Internal Switches

IF-510 Board

MB-602 Board

4

3

2

1

IF

A

1

(ON)

S1

2

B

S1

3

C

4

VIDEO
LEVEL

D

5

E
6

F
7

G

S1
: VF connector signal select switch
Selects an output signal at VF connector.
RET: Return video signal from CCU
GEN: Reference signal for external synchronization which
is input at GENLOCK IN connector of CA
Factory-set position: RET

BVP-550

F

E

D

C

B

A

In setting a switch on MB-602 board, open the left side
panel.
S1
: PHANTOM POWER switch
Turn on when connecting the PHANTOM +48 V microphone to MIC connector.
Factory-set position: ON

1-7 (E)

1-4. Instance of Sytem Configuration

1-4. Instance of Sytem Configuration

ELECTRONIC
VIEWFINDER
BVF-77/77CE

STUDIO ZOOM LENS

CCD UNIT
OHB-400/400P
OHB-500/500P
OHB-500WS/500WSP

TRIAX CABLE (*2)

COLOR VIDEO CAMERA
BVP-500/500P

1.5" VF(BVF-10/10CE)
CCD UNIT
OHB-450/450P
OHB-451/451P
OHB-550/550P
OHB-550WS/550WSP

ELECTRONIC
VIEWFINDER
BVF-55/55CE

CAMERA ADAPTOR
CA-550/550P

TRIAX CABLE (*2)
or COAX CABLE

ENG/EFP LENS
COLOR VIDEO CAMERA
BVP-550

OTHER OPTIONAL ACCESSORIES
For BVP-500/500P

STANDALONE UNIT
BKP-5910/5910P
SCRIPT HOLDER
BKP-7911/7912

For BVP-550

ELECTRET CONDENSER MICROPHONE
ECM-MS5
MICROPHONE
C-74 (Sony P/N 1-542-099-11)
CRADLE SUSPENSION
CRS-3P
CARRYING CASE
LC-303SFT

For CA-550/550P

1-8 (E)

TELEPROMPTER UNIT
BKP-5971
BVP-550

1-4. Instance of Sytem Configuration

REMOTE CONTROL
PANEL
RCP-700 RCP-701

REMOTE CONTROL PANEL
RCP-720 RCP-721 RCP-740 RCP-741
CCA-5 CABLE
(*1)
CCA-5 CABLE
(*1)

CAMERA CONTROL UNIT
CCU-700/700P

CCA-5 CABLE
(*1)

CCA-5 CABLE
(*1)
CAMERA COMMAND
NETWORK UNIT
CNU-700/500

PIX 2
WF 2

VIDEO SELECTOR
VCS-700

CCA-5 CABLE
(max. 200m)

PIX 2
WF 2
PIX

MASTER SETUP UNIT
MSU-700

WF

CCA-5 CABLE
(max. 200m)

CAMERA CONTROL UNIT
CCU-700/700P
CCA-5 CABLE
(*1)

*1: CCA-5 CABLE LENGTH

RCP-700/701

(
CCA-5

RCP

)
CCA-5

CNU

CCA-5

CCU

Total length 200m or less

*2: TRIAX CABLE LENGTH

BVP-550

Diameter

Maximum length

8.5 mm

1000 m

14.5 mm

2000 m

1-9 (E)

1-4. Instance of Sytem Configuration

COLOR VIDEO CAMERA
BVP-550
1.5" VF(BVF-10/10CE)
CCD UNIT
OHB-450/450P
OHB-451/451P
OHB-550/550P
OHB-550WS/550WSP

CAMERA ADAPTOR
CA-550/550P

DIGITAL VIDEO CASSETTE
RECORDER
DVW-250/250P

CCZ CABLE
ENG/EFP LENS

AC ADAPTOR
AC-550/550P

CCA-5 CABLE
(max. 50m)

REMOTE MASTER
CONTROL SETUP
PANEL
UNIT
RCP-700
RCP-701
RCP-720
RCP-721
RCP-740
RCP-741

MSU-700

RETURN VIDEO
SELECTOR
CAC-6
REMOTE
CONTROL
UNIT
RM-P9
VIDEO CASSETTE
RECORDER
BVV-5/5PS
BETACAM
ADAPTOR
CA-553

CCZ CABLE

CAMERA ADAPTOR
CA-3A

CA-57A/57AP
CA-55A/55AP
CA-50A/50AP
CAMERA
ADAPTOR

1-10 (E)

VTR

CCU-370/370P
CCU-355/355P
CCU-350/350P
CAMERA
CONTROL
UNIT

BVP-550

1-5. Optional Accessories for Viewfinder

1-5. Optional Accessories for Viewfinder
The following accessories are available separately for the
supplied viewfinder. Please order as necessary.
• VF Rotation Bracket BKW-401
By fitting the BKW-401 to the camera, you can rotate
the viewfinder out of the way so that your right leg does
not hit the viewfinder while you are carrying the camera.
• Fog-proof Filter (Sony Part No. 1-547-341-11)
Use in place of the MC protector shown in the figure.
• Lens Assembly for Aged Eye
(Sony Part No. A-8262-537-A)
• Lens Assembly for Low Power
(Sony Part No. A-8262-538-A)
• Lens Assembly (Standard magnification with special
compensation for aberration)
(Sony Part No. A-8267-737-A)
• High Performance (3X) Lens Assembly
(Sony Part No. A-8314-798-A)
Use in place of the VF tube sub assembly shown in the
figure.

Hold ring
Align red lines

VF tube sub
assembly

MC protector
Filter holder
Eyecup

* To protect the viefinder lens from drops, put the MC protector
in the filter holder and attach the eyecup securely.

BVP-550

1-11 (E)

Section 2
Service Overview
2-1. Notes on Service

2-1-4. Notes on Repair Parts

2-1-1. Note on Replacement of Parts

1. w
Safety Related Components Warning
Components marked ! are critical to safe operation.
Therefore, specified parts should be used in the case of
replacement.

Every component electrical part mounted on the PR-211
and CN-1142 boards cannot be replaced. And also a 68-pin
connector on the CN-1120/1121 board cannot be. If there
is any defective part, replace the mounted circuit board
itself.
The PR-211 board is provided with a termination board
CN-1142 on it. The CN-1142 board is necessary when the
PR-212 board of OHB-550WS/550WSP is not installed.
Unless the PR-212 board is installed, be sure to connect the
CN-1142 board to the PR-211 board.

2-1-2. Description of EEPROM Data
The table below gives the holding data of EEPROM on
every printed circuit board.
Board

Ref. No.

Holding data

VA-163

IC26

VA-163 adjustment data

AT-95

IC46

Triming/Reference files

SG-234

IC21

SG-234 adjustment data

DA-88

IC10

DA-88 adjustment data

IF-510

IC155

IF-510 adjustment data

MB-602

IC5

Model name, Serial number of the unit

2. Standardization of Parts
Some repair parts supplied by Sony differ from those
used for the unit. These are because of parts commonality and improvement.
Parts list has the present standardized repair parts.
3. Stock of Parts
Parts marked with “o” at SP(Supply Code) column of
the spare parts list may be not stocked. Therefore, the
delivery date will be delayed.
4. Units Representation
The following represented units are changed or
omitted in writing.
Units

Representation

Capacitance

µF

uF

Inductance

µH

uH

Resistance

Ω

Abbreviation

n
The IC listed above cannot be replaced because it is the
EEPROM that is holding data inherent in the board. The
part number listed in Section 5 “Spare Parts” is for an
EEPROM which is not programmed. If replacement is
needed, consult your Sony representatives.

2-1-3. Extension Boards
The extension boards and harness are available separately
for check or adjustment of some printed circuit boards.
Extension Board/Harness

Sony P/N

EX-464

J-6395-040-A VA-163
AT-95
SG-234
DA-88
IF-510
Plug-in boards for CA

BVP-550

To be extended

2-1 (E)

2-2. Removal of Cabinet
2-3. Location of Printed Circuit Boards

2-2. Removal of Cabinet

To remove the both side panels
Loosen the four screws respectively.

2-3. Location of Printed Circuit Boards

SW-732

MB-602
CN-1120
PR-211
CN-1121
CN-1142

IF-510
DA-88
CN-1122

SG-234
AT-95
VA-163

SW-731

2-2 (E)

SW-733

SW-730
SW-742

BVP-550

2-4. Circuit Description

2-4. Circuit Description
Circuit description for the BVP-550 and CCD unit OHB450/451/550/550W series (available separately) is described here. The BVP-550 is called as BVP, and OHB450/451/550/550W series is called as OHB in this section.

DR-302 board (OHB-451/451P only)
The DR-302 is a driving board for one optical filter disk,
which motor-drives a filter selected by the RCP or MSU.
The DR-302 board consists of a motor-drive circuit, and a
servo circuit comprised of a selected filter detection and
filter position voltage generation circuits.

(1) CCD Drive System (OHB)

(2) Video Signal System

TG-159 board
The TG-159 outputs the pulses for driving the CCD to the
DR-271 board and outputs the pulses for sampling the
CCD output to the PA-181 board.
The driving pulses are synchronized with the HD and VD
pulses input from the BVP and are output.
Pulses are generated from the VCO clock (36 MHz) of the
board. The clocks for the digital processing circuit (36
MHz, 18 MHz)are also output to the BVP.
CCD V-sub voltage, white shading data and so on are also
stored in the EEPROM of the TG-159 board.

VA-163 board
The VA-163 board amplifies the video signals output from
the OHB and performs the following processings:
• Black shading correction
• Gain-up control
• Blanking cleaning
• White shading correction
• Feedback clamping
• White balancing
• Flare compensation, and
• Pre-knee
In addition, it also switches between the video signals,
TEST SAW(TEST1) signal and 3-STEP TEST(TEST2)
signal.

DR-271 board
The DR-271 board converts the pulses from the TG-159
board to directly drive the CCD. The converted pulses are
transmitted to the CCD via the BI-91(R)/91(G)/91(B)
board respectively. The board also has a circuit which
makes +29 V from +15 V for the V-sub voltage. Furthermore, the board also has an interface circuit for the optical
filter.
BI-91(R)/91(G)/91(B) boards
The CCDs are mounted on the BI-91(R)/91(G) /91(B)
boards. These boards supply the driving pulses and control
voltages to the CCD.
The signals output from the CCD are sent to the PA-181
board via the emitter follower.
PA-181 board
The PA-181 board extracts video signals from the CCD
signals output from the BI-91(R) /91(G)/91(B) boards by a
correlated double sampling circuit, and amplifies the R and
G signals by one time, and the B signal by three times. The
resultant signals are output to the VA-163 board of the
BVP.

BVP-550

PR-211 board
The PR-211 board converts the analog R, G, and B video
signals into digital signals with an A/D converter having
sampling/holding functions.
It generates clocks required for the A/D conversion and the
digital processings from the clocks generated by the OHB.
In addition, the PR-211 board adds a linear matrix and
detail signals to the analog-to-digital-converted R, G and B
signals.
It performs the processings such as pedestal control,
gamma correction, knee correction and white clipping for
the signals. It also performs the followings.
• Generates an internal color-bar signal and switches
between this signal and the main line signals.
• Creates detail and aperture signals from digital R and G
signals.
• Creates a skin tone singal.
• Detects signals for an auto iris, flare compensation,
DCC, and auto white/black balancings.
• Detects black/white shadings, generates a waveform to
compensate them and outputs the wavefoem to the VA163 board.
• Detects black levels and outputs the feedback clamp
voltage to the VA-163 board.
• Generates TEST SAW waveforms and output them to
the VA-163 board.
2-3 (E)

2-4. Circuit Description

• Generates a 27-MHz clock signal required for the VTR
control.
The video signals that has thus been digital-processed, are
then converted to Y, R-Y and B-Y signals. Some signals
are output to the DA-88 board and the others are output via
the MB board as a digital video signal output at the same
time. The Y/C signals are generated from the Y, R-Y and
B-Y signals with a color encoder IC on the PR-211 board.
These signals, that were sampled at 36-MHz rate and
quantized by 10 bits, are digital-to-analog converted. And
the resultants are then output to the DA-88 board as a
monochrome signal for VF, wide-band luminance signal,
or modulated chroma signal. The monochrome signal for
VF has a zebra signal for level indication, and character
signal and center marker signal on it.
DA-88 board
The monochrome signal for VF (VF Y) sent from the PR211 board goes through a lowpass filter and is output to the
MB-602 board. The wide-band luminance signal Hi-Ys is
output via a lowpass filter to the IF-510 board. The
modulated chroma signal C goes through a black clamp
circuit and lowpass filter and is added to the Hi-Ys. The
resultant is output to the IF-510 board as a VBS signal.
The Y, R-Y and B-Y signals, that are input from the PR211 board as the digital video signals, are aligned in phase
with video signals in another channels by a digital delay
line. The resultant is digital-to-analog converted and is
then output via a lowpass filter to the IF-510 board. On the
other hand, an analog component signal is generated in
combination with the above-mentioned Hi-Ys signal, R-Y
and B-Y signals. The analog component signal is controlled, on the level adjustment and reference signal
addition, by the AT-95 board according to equipment
connected to the camera (VTR or CCU). The analog
component signal is output to external equipment via the
68P interface connector .
IF-510 board
Input signals at the IF-510 board are as follows;
Signals from the DA-88 board: VF Y, VBS, Y, R-Y and B-Y
Signals from external equipment: Reference signal for
external synchronization, Return video signal
By combination with these signals, the IF-510 board
outputs the following signals.
• VBS OUT signal
Output via a buffer amplifier to external equipment.

2-4 (E)

• VBS OUT signal for RM
Output to an interface connector for a remote control unit
RM-P9. Using the setup menu, a character signal to
confirm the menu setting can be mixed to this signal.
• TEST OUT signal
With the signal select switch at the right top of the
camera, the above-mentioned VBS or the VF Y signal
can be selected as a TEST OUT signal output at the
TEST OUT connector.
• VF OUT/MONI OUT signal
The same signal is output as the VF OUT signal and the
MONI OUT signal. One of the VF Y, VBS, or return
video or reference signal selected by S1 on the IF-510
board, is selected. The selected signal is mixed with a
center marker and safety-zone pulse, and is then output.
The VF OUT signal is output at the VF connector and
the MONI OUT signal is output at the 68P interface
connector.
• R/G/B output signals
The Y, R-Y and B-Y signals are converted to the R, G
and B signals by a matrix circuit. The converted signals
are output at the 68P interface connector.
• Y/R-Y/B-Y output signals for VF
These signals are for a color viewfinder. A character
signal and SKIN GATE signal are mixed with the abovementioned Y, R-Y and B-Y signals. The resultants are
output to the VF.
In addition, the IF-510 board is equipped with the
following circuits.
• HD/VD external sync circuit
When displaying the return video or reference signal on
the viewfinder screen, it is necessary to synchronize the
cursor signal with those signals. And a sync signal is
separated from those signals to generate the external HD
and VD signals, and the resultant is sent to the cursor
signal generation circuit on the PR-211 board.
• Peak-detects the G signal and outputs to the AT-95
board.
• Transmits the SKIN GATE signal from DA-88 board to
the CCU via the 68P interface connector.

BVP-550

2-4. Circuit Description

(3) Auto system
AT-95 board
The AT-95 board consists of a microcomputer which
controls the camera according to the instructions stored in
a ROM. Operations of the board are listed below;
• Analyzes instructions of the function switches, video
system detection data and analog data.
• Outputs various control signals and compensation
signals to the boards.
• Outputs status information and self-diagnosis infomation
as character data from the character generator.
• Incorporates the interface function with the RM-P9 or
the CCU-700/700P.
(4) Pulse system
SG-234 board
The SG-234 board has a sync signal generator which
generates various sync signals for the camera. The sync
signals are generated from the clock pulse input from the
OHB via the PR-211 board. They are output to the board
of the camera, OHB and the camera adaptor (CA) respectively. This generator has two modes to synchronize with a
reference signal input for external synchronization. One is
a VBS input mode when the camera is used alone and the
other is V RESET/H CONT mode when the CCU is
connected to the camera. Input channels of the V RESET
and H CONT signals differ depending on the type of CA in
connection with the camera.

BVP-550

2-5 (E)

2-5. Periodic Replacement Part

2-5. Periodic Replacement Part
Parts listed below are periodic replacement parts. They are subject to cracks with the
lapse of time. Check sometimes by visual, and replace as necessary.
No.

Description

Sony P/N

Remarks

1

PAD ASSY (LARGE)

A-8278-237-A

2

PAD ASSY (SMALL)

A-8278-238-A

3

WIND SCREEN

3-708-875-0X

Supplied with VF

4

MIC CUSHION, RUBBER

3-692-138-0X

Supplied with VF

5

COVER, SW

3-676-244-1X

6

EYE CUP

3-723-079-0X

7

CAP, CONNECTOR

3-692-914-1X

Supplied with VF

6

3

4

7

5

2-6 (E)

2

1

BVP-550

2-6. Cleaning

2-6. Cleaning

2-6-2. Cares After Using at Special
Environment

2-6-1. Cleaning of Viewfinder (Option)
By extracting VF tube sub assy, lens and MC protector can
be easily cleaned. And also dust on the CRT surface or
mirror can be easily cleaned off.
1. Turn the hold ring to the left and extract the VF tube
sub assy.
2. Detach the eyecup.
3. Remove the MC protector with a commercially
available camera lens cleaner. Blow off dust with a
blower carefully so as not to flaw the mirror.
5. After the cleaning is completed, install by reversing
the preceding steps. Align red lines of the VF tube and
VF tube sub assy when inserting, and turn the hold
ring to the right until it locks.

It is recommended to check the following items after
gathering the news at seaside, dust area or spa.
1. Clean off sand and other dust in the unit carefully.
2. Do not allow salt in seawater or sulfur in spa to contact
a not-painted surface of the cabinet. They may cause to
corrode. Clean with alcohol immediately if contacted.
3. Clean the connection surface of connectors.
4. Carry out the common operation check and check that
the unit has not an abnormal sound or operation.

m
• Do not use any type of solvent, such as alcohol, benzine
or thinner to remove stains.
• Be sure to attach the eyecup to the VF, or the MC
protector may come off.
• To protect the viewfinder lens from drops, put the MC
protector in the filter holder and attach the eyecup
securely.

Hold ring
Align red lines

VF tube sub
assembly

MC protector
Filter holder
Eyecup

BVP-550

2-7 (E)

2-7. Replacement of External Connectors

2-7. Replacement of External
Connectors

3. Remove the two screws and remove the VF connector.
Then unsolder it.

2-7-1. VF Connector
1. Remove the four screws and remove the CCD unit.
2. Disconnect the three connectors CN3 on the DR-271
board, CN3 on the TG-159 board and CN2 on the PA181 board of the CCD unit.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

VF connector

Precision
P2.6 X 5

TG-159

4. Install a new connector in the reverse procedures of
removal.

CCD Unit
PA-181

2-7-2. MIC Connector
B4 X 8
B4 X 8
CN3

1. Remove the two screws and remove the MIC connector.
Then unsolder it.

B4 X 8
B4 X 8
DR-271

MIC connector

Precision
P2.6 X 5

2. Install a new connector in the reverse procedures of
removal.

2-8 (E)

BVP-550

2-7. Replacement of External Connectors

2-7-3. TEST OUT/REMOTE Connector
1. Remove the three screws and remove the Pad Assembly (Large).

3. Remove the screw and remove the connector
bracket.Unsolder the TEST OUT/REMOTE connector.
Remove the each nut and remove the TEST OUT/
REMOTE connector.

Connector
bracket
Pad assembly(small)

Pad assembly(large)

2. Remove the seven screws and remove the V shoe
bracket.

Precision
P2.6 X 5

4. Install a new connector in the reverse procedures of
removal.

B3 X 5

K3 X 8

V Shoe bracket
B3 X 5

BVP-550

2-9 (E)

2-8. Disconnecting/Connecting of Flexible Card Wires

2-8. Disconnecting/Connecting of
Flexible Card Wires

Type A

The flexible card wires are used between the MB-602
board and the CCD unit, the MB-602 board and the CN1120/1121/1122/PR-211 boards. Be careful not to bend
these wires. This shortens the wire life.

A

Disconnecting
Conductive surface

1. Turn off the power of the camera.

MB-602&OHB

Type A
(between the MB-602 board and CCD unit)
2. Lift up the portion A in the direction of the arrow and
disconnect the flexible card wire.
Type B
(between the MB-602 board and CN-1120/1121/1122/
PR-211 boards)
2. Slide portion B in the direction of the arrow and
disconnect the flexible card wire.

Type B

B

B
Conductive surface

Connecting
MB-602&CN-1120/1121/1122/PR-211

m
• Be careful not to insert the flexible card wires obliquely.
• Check that the conductive surface of the flexible card
wire is not soiled with dust.
Type A
(between the MB-602 board and CCD unit)
1. Lift up the portion A in the direction of the arrow.
Insert the flexible card wire as far as it will go into
connector with the conductive surface of the wire put
down.
2. Push down the portion A to secure the flexible card
wire.
Type B
(between the MB-602 board and CN-1120/1121/1122/
PR-211boards)
1. Slide portion B in the direction of the arrow and insert
the flexible card wire as far as it will go into connector
with the conductive surface of the wire put down.
2. Slide portion B in the opposite direction of the arrow
and lock each connector.

2-10 (E)

BVP-550

2-9. Board Replacement

2-9.

Board Replacement

2-9-1. MB-602 Board
1. Remove the right and left side panels of the camera.
(Refer to “2-2. Removal of Cabinet”.)
2. Pull out the five plug-in boards.
3. Remove the four screws and remove the PR-211
board.
4. Disconnect the four connectors.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.
5. Remove the four screws and remove the four supports.
Remove the MB-602 board.

6. Disconnect the connectors.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

CN11

CN7
CN12

MB-602
CN13

Support

CN14

CN32

7. Install a new board in the reverse procedures of
removal.

B3 X 5
B3 X 5

Support
CN-1142
PR-211
B3 X 5

BVP-550

2-11 (E)

2-9. Board Replacement

2-9-2. CN-1120/1121 Board
1. Remove the right side panel of the camera. (Refer to
“2-2. Removal of Cabinet”.)
2. Pull out the five plug-in boards and the four shielding
plates.
3. Remove the DC/DC convertor unit.
(Refer to “2-11. Replacement of DC/DC Convertor
Unit”.)
4. Remove the rail(upper).
5. Remove the four screws and remove the rail bracket.

6. Remove the two screws and remove the CN-1120/
1121 board.
7. Disconnect the connector.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

CN-1120

Precision
P2 X 5

B2.6 X 5

B3 X 5

CN-1121

B2.6 X 5

Rail
bracket

Rail(upper)

2-12 (E)

8. Install a new board in the reverse procedures of
removal.

BVP-550

2-10. Replacement of Function Switches

2-10. Replacement of Function Switches

2-10-2. Front Switch Panel Block

2-10-1. Side Switch Panel Block

1. Remove the two screws and remove the front switch
panel.
2. Disconnect the connector CN501 on the SW-731
board.

1. Remove the two screws and remove the side switch
panel.
2. Disconnect the connector CN801 on the SW-730
board.

CN801
Precision
P2.6 X 5

SW-731

SW-730
Side switch panel

3. Remove the two screws.Remove the SW-730 board,
shielding plate and drop protection cushion.
4. Unsolder the terminals and remove the switch to be
replaced.

Precision
P2.6 X 5
CN501

Front switch panel

3. Remove the two screws.Remove the SW-731 board,
knob packing, VR knob and shielding plate.
4. Unsolder the terminals and remove the switch to be
replaced.

Switch garud
Shielding plate
Drop protection
cushion
SW-730

BTP2.6 X 6

Shielding plate

BTP2.6 X 6

SW-731

5. Install a new switch in the reverse procedures of
removal.

P2.6 X 5
P2.6 X 5

5. Install a new switch in the reverse procedures of
removal.

BVP-550

2-13 (E)

2-10. Replacement of Function Switches

5. Remove the two screws and remove the menu bracket.

2-10-3. VF DISP Switch
1. Remove the four screws and remove the CCD unit
referring to “2-7-1. VF Connector”.
2. Disconnect three connectors CN3 on the DR-271
board, CN3 on the TG-159 board and CN2 on the PA181 board.
n
When disconnecting the connectors, refer to “2-8.
Disconnecting/Connecting of Flexible Card Wires”
and “2-7-1. VF Connector”.
3. Remove the three screws and remove the handle.
4. Remove the three screws and remove the handle
holder.

SW-732

B2.6 X 5

Menu bracket

B4 X 8
B5 X 12

Handle
B4 X 8

B4 X 8
Handle holder

6. Remove the two screws and remove the SW-732 board
and the drop protection cushion.
7. Unsolder the terminals and remove the switch to be
replaced.
SW-732

Drop protection cushion
B3 X 5

B2.6 X 5

8. Install a new switch in the reverse procedures of
removal.

2-14 (E)

BVP-550

2-11. Replacement of DC/DC Convertor Unit

2-11. Replacement of DC/DC Convertor
Unit
1. Remove the right and left side panels of the camera.
(Refer to “2-2. Removal of Cabinet”.)
2. Remove the two screws on the left side of the camera
shown in the figure.

3. Thread the two screws that were removed in Step 2,
into the holes of the DC/DC convertor unit three turns.
n
Never turn the two screws more than three turns.
4. Hold the two screws with hands and remove the DC/
DC convertor unit.

DC/DC
Convertor Unit

B2.6 X 5

5. Install a new DC/DC convertor unit pushing with
hands.
Secure it to the MB-602 board with the two screws
that were removed in Step 2.

BVP-550

2-15 (E)

Section 3
Setup Menu
3-1. Setup Menu
The Setup menu is used to select settings of camera operation, select items to be displayed on the viewfinder screen, and select the way the items are displayed.
It is also used for adjustment. The menu appears on the viewfinder screen.
By changing a setting through this menu, the same signal as output to the viewfinder is enabled to be
output at the TEST OUT connector.

•

Configuration of the Setup Menu

The setup menu consists of the following menus
• Operation menu
• Paint menu
• Maintenance menu
• Reference menu
• Triming menu
• System config menu
Operation and Paint menus are normally accessible. To display the other menus, switch setting of the
AT-95 board is required. For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”
•

Equipment required

CCD Unit
OHB-450/550 series
Camera Adaptor CA-550/550P
Supply power from a camera control unit CCU-700/700P, AC adaptor AC-550/550CE or VTR.
•

Switches and Button

DISP switch
DISP
ON
OFF
MENU

MENU SEL switch
MIC
LEVEL

CANCEL button


CANCEL

BVP-550

3-1(E)

3-1. Setup Menu

DISP switch
ON
: Displays characters and messages indicating the video camera settings and operation status.
OFF
: No character or marker display appears on the viewfinder screen.
MENU : The setup menu appears on the viewfinder screen.
MENU SEL switch
Selects the menu item or setting value displayed on the viewfinder screen.
CANCEL button
Cancels the contents of a menu setting, or returns to the page select mode or TOP menu.
n
The TOP menu screen indicates the entire configuration of menu items.
To display the TOP menu, set the DISP switch to MENU (from OFF) while holding down the MENU
SEL switch.
•

Basic Operation

1. Displaying the menu
To display the Operation menu, set the DISP switch to MENU.
To display the other menus than the Operation menu, first of all, the TOP menu shall be displayed.
To display the TOP menu, set the DISP switch to MENU while holding down the MENU SEL
switch. Then turn the MENU SEL switch to move the cursor to a menu item which you want and
press the MENU SEL switch.
2. To shift the page, turn the MENU SEL switch with a page scroll bar displayed at the top-right of the
screen until the desired page is displayed and press the MENU SEL switch.
The menu enters the item select mode and the page scroll bar disappears.
3. To shift the item, turn the MENU SEL switch until the → cursor points the item to be set and press
the MENU SEL switch.
4. To change the value, turn the MENU SEL switch. You can change the values quickly by turning
the MENU SEL switch fast. You can make very fine adjustments by turning the switch slowly. By
pressing the MENU SEL switch, the setting is entered.
5 The menu page is returned to the item select mode or page select mode every time the CANCEL
button is pressed.
6. To exit from the setup menu, set the DISP switch to OFF.
•

ROM version
Contents in the menu and factory settings may differ from the descriptions in this manual depending
on the version of ROM on the AT-95 board.

3-2(E)

BVP-550

3-1. Setup Menu

3-1-1. Operation Menu
This menu contains items contained for changing camera settings to suit shooting conditions during
normal camera operations.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VF DISPLAY

ZOOM

[ON], OFF

Turns on and off the indications of zoom position and lens extender.

SHUTTER

[ON], OFF

Turns on and off the indications of shutter speed and mode.

IRIS

[ON], OFF

Turns the iris setting indication on and off.

AUDIO

[ON], OFF

Turns the audio level indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

TAPE

[ON], OFF

Turns the tape-remaining indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

ZEBRA

ON, OFF

Turns the zebra indication on and off. (Corresponds to the ZEBRA switch
of VF connected to the camera.)

MESSAGE

[ON], OFF

Turns on and off the indication of message in changing each setting of filter,
white balance memory, gain value, DCC(auto knee) and shutter speed.
The indication is displayed within three seconds in the center of the
viewfinder screen.

MODE

CHG, [USR]

CHG : The indications of the optical filter, white balance memory and gain
value are displayed only when they differ from the standard settings
(FILTER:1B, WHITE:A, GAIN:0dB)
USR : The indications are displayed corresponding to the settings on the
VF DISPLAY page.

FILTER

*, [ON], OFF

Turns the optical filter indication on and off.

WHITE

*, [ON], OFF

Turns the white balance memory indication on and off.

GAIN

*, [ON], OFF

Turns the gain value indication on and off.

CENTER

[ON], OFF

Turns the center marker indication on and off.

SAFETY ZONE

80%, 90% , OFF

Turns the safety zone marker indication on and off and selects the area
indicated by that marker. f)

BOX CURSOR

ON, [OFF]

Turns the box cursor indication on and off.

BOX H POS

-99 to 99 ([0])

Shifts horizontally the location of the box cursor on the screen.

BOX V POS

-99 to 99 ([0])

Shifts vertically the location of the box cursor on the screen.

BOX WIDTH

00 to 99 ([41])

Sets the width of the box cursor.

BOX HEIGHT

00 to 99 ([10])

Sets the height of the box cursor.

MARKER

f)

In the 16:9 mode, the following kinds of safety zone marker can be selected in combination of the settings of “SAFETY ZONE” and
“4:3 SAFETY”.

SAFETY ZONE
80%
4:3
SAFETY

90%

OFF

16:9

ON

4:3 area
Safety
zone

OFF

BVP-550

Not indicated

3-3(E)

3-1. Setup Menu

Page

Item

Settings

Contents

GAIN SW

LOW

-3,[0], 3, 6, 9, 12,
18, 24, 30 dB

Selects the gain value for each gain switch position.
(LOW, MIDDLE, HIGH)

MID

-3, 0, 3, 6, [9], 12,
18, 24, 30dB

HIGH

-3, 0, 3, 6, 9, 12,
[18], 24, 30dB
[16:9], 4:3

Selects the aspect ratio for the video signal output.
(This setting is valid only when the camera is used alone.)
* Corresponds the CCU‘s setting when the CCU is connected.

VF ASPECT

[AUTO], 4:3

Selects the aspect ratio for the viewfinder indication.
AUTO : Automatically selects according to the aspect ratio selected by
16:9/4:3 MODE on the WIDE SCREEN page.
4:3
: Selects 4:3 regardless of the 16:9/4:3 MODE setting.

4:3 SAFETY

ON, [OFF]

Selects whether the safety zone marker showing the 4:3 area is indicated
in the 16:9 mode, or not. f)

16:9 ID ON VF

ON, [OFF]

Turns on and off the 16:9 indication in the 16:9 mode on the viewfinder
screen.
(This setting is valid only when the DISP switch is set to on or off.)

16:9 ID
ON BARS

ON, [OFF]

Selects whether the 16:9 indication is displayed on the internal color-bar in
the16:9 mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

BNC TEST OUT

[VBS], RM, VF Y

Selects a video signal to be output at TEST OUT connector.
VBS : Color composite signal
RM : The same as a signal ouput to RM-P9
Y
: Y(monochrome) signal

RM/MON CHAR

[ON], OFF

Selects whether character signals displayed on the viewfinder screen are
mixed with the VBS signal to be output to RM-P9, or not. Turning on is
convenient to operate the setup menu by RM-P9.

VBS LOCK

ON, [OFF]

Used to prevent misoperation by ENC/RGB switch.
ON : ENC signal is output at TEST OUT connector regardless of ENC/
RGB switch setting.
OFF : A signal selected by ENC/RGB switch is output.

WIDE SCREEN 16:9/4:3 MODE
(For OHB-550WS
/550WSP)

MON OUT

VF VIDEO MODE [Y], MIX, NAM

AUTO IRIS
AUTO KNEE (DCC)

3-4(E)

Selects a video signal to be output to the viewfinder.
Y
: Y=0.3R+0.59G+0.11B; The same as a camera output signal
MIX : Y=0.33R+0.33G+0.33B
NAM : Selects one of the R, G, and B signal that is maximum in level.

[RGB]-G

ON, [OFF]

Sets signals selectable by RGB switch.
ON : R-G, B-G
OFF : R, G, B

IRIS OVERRIDE

-99 to 99 ([0])

Sets the reference value for automatic iris adjustment.
-99 (further closed) ↔ 99 (further opened)

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

APL RATIO

-99 to 99 ([0])

Sets the way the iris is automatically adjusted.
-99 (PEAK) ↔ 99 (AVERAGE)

AUTO KNEE
POINT

-99 to 99 ([XX])

Sets the point on which the knee function starts to have effect in the autoknee mode.

AUTO KNEE
SLOPE

-99 to 99 ([XX])

Sets the volume of the effect of the knee function in the auto-knee mode.

BVP-550

3-1. Setup Menu

Page

Item

Settings

Contents

STAND ALONE

H PHASE

-99 to 99 ([XX])

Sets the horizontal phase of the camera in the genlock mode.

SC PHASE

0 to 360([XX])

Sets the subcarrier phase of the camera in the genlock mode.

CABLE COMP

ON, [OFF]

Turns on and off the cable compensation circuit for the external sync
signal in the genlock mode.

SNG BARS

ON, [OFF]

Turns the color-bar signal for SNG on and off.

MASTER BLACK

-99 to 99 ([0])

Adjusts the MASTER BLACK level.

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

CF PULSE

[ON], OFF

Turns on and off the color framing pulse supplied to the VTR.

SKIN DETAIL

ON, [OFF]

Turns the skin tone detail function on and off.

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Starts to automatically adjust the volume of effect of the skin detail auto
hue function. (Does not function at present.)

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output.

OHB

[OK], NG

Displays a state of communication for control data between the OHB block
and CPU on AT board.

PR

[OK], NG

Displays a state of communication for control data between the PR board
and CPU on AT board.

VA

[OK], NG

Displays a state of communication for control data between the VA board
and CPU on AT board.

AT

[OK], NG

Displays a state of communication for control data between the CPU and
memory on AT board.

SG

[OK], NG

Displays a state of communication for control data between the SG board
and CPU on AT board.

DA

[OK], NG

Displays a state of communication for control data between DA board and
CPU on AT board.

IF

[OK], NG

Displays a state of communication for control data between IF board and
CPU on AT board.

MD

[OK], NG

Displays a self-diagnosis result of MD board (of camera adaptor).

AU

[OK], NG

Displays a self-diagnosis result of AU board (of camera adaptor).

TR

[OK], NG

Displays a self-diagnosis result of TR board (of camera adaptor).

AUTO SETUP

DIAGNOSIS

CAMERA ID

ID: [] [] [] [] [] [] []
ID ON BARS

c)

Sets a camera ID of up to ten alphanumerics, symbols, and spaces.
ON, [OFF]

Selects whether the camera ID is mixed with a camera output signal only
in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence. After the adjustment is complete, adjustment result is stored as a reference file.
1. Lens is automatically closed and the black balance is automatically adjusted.
2. The white balance is automatically adjusted using TEST 2 (3-step) signal.
n
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the LEVEL AUTO adjustment does not contain the gamma and knee adjustments unlike a conventional camera.

BVP-550

3-5(E)

3-1. Setup Menu

3-1-2. Paint Menu
The Paint menu is used for white and other paint adjustments items. To activate the Paint menu, first
display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VIDEO LEVEL

WHITE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B gain level.

BLACK R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master black level.

FLARE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B flare level.

GAMMA R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master gamma correction curve.

FLARE

[ON], OFF

Turns the flare correction circuit on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the VIDEO LEVEL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding the detail signal.

LEVEL

–99 to 99 ([0])

Adjusts the master level for the detail signal.

LIMITTER

–99 to 99 ([0])

Adjusts the clipping level against the maximum detail level.

CRISPENING

–99 to 99 ([0])

Adjusts the level at which the detail signal is crispened.

LEVEL DEP

–99 to 99 ([0])

Adjusts the level to control the detail signal used at lower signal level.

LEVEL DEP

[ON], OFF

Turns the level depend function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the DETAIL 1 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding detail signal.

H/V RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H and V detail signal.

DETAIL1

DETAIL2

3-6(E)

FREQUENCY

–99 to 99 ([0])

Adjusts the boost frequency for H detail signal.

MIX RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H detail signal used before and after the gamma
compensation circuit.

W.LIMITTER

–99 to 99 ([0])

Adjust the clipping level adainst the higher detail signal at the maximum level.

B.LIMITTER

–99 to 99 ([0])

Adjusts the clippping level against the lower detail signal at the minimum level.

COMB

–99 to 99 ([0])

Sets the effect volume of the comb filter
99 (Causes less cross colors.) ↔ –99 (Yields clear pictures, but causes more
cross colors.)
* For a PAL model, this function has the effect on not every object but a specified object.

KNEE APRT.

ON, [OFF]

Turns the knee aperture function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the DETAIL2 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)
BVP-550

3-1. Setup Menu

Page

Item

Settings

Contents

SKIN DETAIL

SKIN DETAIL

ON, [OFF]

Turns the skin detail function on and off.

LEVEL

–99 to 99 ([0])

Adjusts the level of the skin detail.

PHASE

100° to 170°([0])

Adjusts the hue for the skin detail function.

WIDTH

0° to 90° ([0])

Adjusts the color width for the skin detail function.

SATURATION

–99 to 99 ([0])

Adjusts the color saturation of the skin detail function.

GATE

ON, [OFF]

Turns the area display of the skin detail function in the viewfinder screen.

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Sets the range of skin detail hue function automatically.
(Does not function at preset.)

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the SKIN DETAIL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA, R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B and master gamma level.

COARSE

0.40, [0.45], 0.50

Selects the gamma value in steps.

GAMMA

[ON], OFF

Turns the gamma value on and off.

BLACK GAMMA

–99 to 99 ([0])

Adjusts the black gamma (master).
(Note: A noise appears on the screen during operation.)

BLACK GAMMA

ON, [OFF]

Turns the black gamma function on and off.
(Note: A noise appears on the screen during operation.)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Resets all settings on the GAMMA page to the factry settings.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

POINT

–99 to 99 ([0])

Adjusts the knee point level when the function is OFF.

SLOPE

–99 to 99 ([0])

Adjusts the knee slope level when the function is OFF.

KNEE

[ON], OFF

Turns the knee function on and off.

AUTO KNEE

ON, [OFF]

Turns the auto knee function on and off.

KNEE MAX

ON, [OFF]

Turns on and off the knee max function which changes the slope to
completely collapsed form.

WHITE CLIP

–99 to 99 ([0])

Adjusts the white clip level.

WHITE CLIP

[ON],OFF

Turn the white clip function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the KNEE/W.CLIP page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA

KNEE/W.CLIP

BVP-550

3-7(E)

3-1. Setup Menu

Page

Item

Settings

Contents

MATRIX

R-G, R-B

–99 to 99 ([0])

Compensates the user’s matrix (sets an optional value as the constant for

G-R, G-B

–99 to 99 ([0])

R-G, R-B, G-R, G-B, B-R, and B-G).

B-R, B-G

–99 to 99 ([0])

MATRIX

[ON], OFF

Turns the matrix compensation on and off.

[ON], OFF

Turns the user’s matrix compensation on and off.

PRESETa)

[ON], OFF

Turns on and off only the preset matrix compensation (fixed constant
compensation).

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step form test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the MATRIX page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

1

Storing and recalling a scene file (painting data corresponding to a shot scene)

2

Storing a scene file

3

1 Turn MENU SEL switch to move the → cursor to “FILE STORE,” then press MENU SEL

USER

SCENE FILE

a)

4

a)

switch. “FILE STORE” flashes on the viewfinder screen.

5

2 Select the file number (1 to 5) to be stored to.

FILE STORE

(If data is already stored at the selected location, the new data replaces the current data.)
Recalling a scene file
Turn MENU SEL switch to move the → cursor to the file number whose data is to be recalled,
then press MENU SEL switch.
• When MENU SEL switch is pressed, the scene file data replaces the current settings.
• When the scene file is recalled, an asterisk appears next to the number.

STANDARD

Returns the current amount of paint adjustments and switch setting to their reference value
stored as a reference file.

When both USER and PRESET are set to ON, the matrix constant compensation is total value of the USER and PRESET matrix.

3-8(E)

BVP-550

3-1. Setup Menu

3-1-3. Maintenance Menu
The Maintenance menu is used for encoder output level and other adjustments items necessary for
camera’s maintenance. The Maintenance menu is not normally accessible. To display this menu, switch
setting of the AT-95 board is required.
For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”.
To activate the Maintenance menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VBS

SYNC LEVEL

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.

Y LEVEL

-99 to 99 ([XX])

Adjusts the Y level of camera’s encoder output signal.

BURST LEVEL

-99 to 99 ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LEVEL

-99 to 99 ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

-99 to 99 ([XX])

Adjusts the Q (or V) level of camera’s encoder output signal.

SET UP

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.
(This setting is valid only for NTSC.)

BF PHASE

-99 to 99 ([XX])

Adjusts the burst phase of camera’s encoder output signal.

SC-H PHASE

-99 to 99 ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

V BLANKING

19,[20],21H

Adjusts the V blanking width of camera’s encoder output signal.
(This setting is valid only for NTSC.)
In connection with CCU, the width is fixed to 19H.
* For a PAL model, the width is fixed to 25H at all times.

V SAW R/G/B/M

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, B or master
white shading.

V PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.PARA compensation for the R, G, or B white shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B white shading.

H PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.PARA compensation for the R, G, or B white shading.

WHITE R/G/B

-99 to 99 ([XX])

Adjusts the R, G, or B white level.

V MOD R/G/B/M

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, B or master
modulation shading of the lens and prism.b)

V MOD

ON, [OFF]

Turns the V modulation shading on and off.

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the WHITE SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

BLACK SHADING V SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, or B black shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B black shading.

BLK SET R/G/B

-99 to 99 ([XX])

Adjusts the volume of BLACK SET compensation for the R, G, or B.

BLACK R/G/B/M

-99 to 99 ([XX])

Adjusts the R, G, B or master black level.

MASTER GAIN

-3,0,3,6,9,12,18,
24,30 dB ([X])

Selects the master gain value.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the BLACK SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

WHITE SHADING

b)

When the master modulation shading is adjusted, the V. SAW component for the R and B V-modulation shadings of the prism is
simultaneously compensated.

BVP-550

3-9(E)

3-1. Setup Menu

Page

Item

Settings

Contents

AUTO SET UP

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Starts to automatically adjust the volume of effect of the
hue function. (Does not function at present.)

COLOR MATCH

Press MENU SEL
switch to execute.

Starts to automatically perform the COLOR MATCH adjustment to match
in color between two or more cameras. (Does not function at present.)

WHITE SHADING Press MENU SEL
switch to execute.

Starts to automatically adjust the white shading. (Does not function at present.)

BLACK SHADING Press MENU SEL
switch to execute.

Starts to automatically adjust the black shading. d)

DD/MM/YY
HH:MM:SS

Adjusts a built-in timer. (HH;hour/MM;minute only)

DATE/TIME

OTHERS

c)

d)

skin detail auto

DATE ON BARS

ON, [OFF]

Selects whether the date characters are mixed with a camera output
signal in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

TIME ON BARS

ON, [OFF]

Selects whether the time characters are mixed with a camera output
signal in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

S/N MEASURE

ON, [OFF]

ON : Set to ON in mesuring the S/N ratio. And settings of the DETAIL,
CHROMA, GAMMA, MATRIX, and FLARE will be temporarily turned OFF.
OFF: Settings of DETAIL and so on are returned as they were.

MOD MEASURE

ON, [OFF]

ON : Set to ON in mesuring the modulation depth. And settings of the
DETAIL, GAMMA, MATRIX, and FLARE will be temporarily turned OFF.
OFF: Settings of DETAIL and so on are returned as they were.

MASTER BLACK

-99 to 99 ([0])

Adjusts the master black in measuring the S/N ratio and modulation depth.

DETAIL

[ON], OFF

CHROMA

[ON], OFF

GAMMA

[ON], OFF

MATRIX

[ON], OFF

FLARE

[ON], OFF

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence. After the adjustment is complete, adjustment result is stored as a reference file.
1. Lens is automatically closed and the black balance is automatically adjusted.
2. The white balance is automatically adjusted using TEST 2 (3-step) signal.
n
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the LEVEL AUTO adjustment does not contain the gamma and knee adjustments unlike a conventional camera.
Before first using the camera with the OHB-450/451/550/550WS (or their PAL version) installed, or After replacing the CCD unit, be
sure to execute the automatic black shading adjustment.

3-10(E)

BVP-550

3-1. Setup Menu

3-1-4. Reference Menu
The Reference menu stores the reference values used for automatic setup adjustment and the standard
settings of the switches as the reference files. And the menu can clear the current reference files. The
Reference menu is not normally accessible. To display this menu, switch setting of the AT-95 board is
required. For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”. To activate
the Reference menu, first display the TOP menu.
m
1. Executing the FILE STORE on the REFERENCE FILE page registers settings of items, which have
been set through the Paint, Maintenance and System config menus just before the file store, as the
reference values.
2. When changed numbers of items are returned to the reference values stored as the reference files,
recall the standard file using an MSU/RCP or the setup menu.
Page

Item

Settings

Contents

REFERENCE
FILE

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the reference files.
(Temporarily clears the current reference filese) .)

FILE STORE

Press MENU SEL
switch to execute.

Stores specific data for a lens to be used as the lens files. The standard
values are stored at the factory. (Does not function at present.)

LENS FILE
e)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

3-1-5. Triming Menu
The Triming menu stores the adjustment data in replacing parts as the triming files. And the menu can
clear the current adjustment values. The Triming menu is not normally accessible. To display this
menu, switch setting of the AT-95 board is required. For details, refer to Section 1-3. “Function of
Internal Switches—AT-95 board”. To activate the Triming menu, first display the TOP menu.
n
Executing the FILE STORE on the TRIMING FILE page registers settings of items, which have been
set through the Maintenance and System config menus just before the file store, as the reference values.
Page

Item

Settings

Contents

TRIMING FILE

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the triming files.
(Temporarily clears the current triming filese).)

FILE STORE

Press MENU SEL
switch to execute.

Stores specific data for a CCD unit to be used as the OHB files.
The standard values are stored at the factory.

OHB FILE
e)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

BVP-550

3-11(E)

3-1. Setup Menu

3-1-6. System Config Menu
The System config menu is used for adjustments items necessary to replace a printed circuit board or
some parts of the camera. The System config menu is not normally accessible. To display this menu,
switch setting of the AT-95 board is required. For details, refer to Section 1-3. “Function of Internal
Switches—AT-95 board”. To activate the System config menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting. XX or XXX represents two or three digits in hexadecimal.)
Page

Item

DATE/TIME

YY/MM/DD
HH:MM:SS

Y/CHROMA

PR/VA/TEST

Settings

Contents
Adjusts the built-in calender and timer.

RESET

Turn MENU SEL
switch to execute.

Resets hour (HH), minute (MM) and second (SS) of the timer.

SC FREQ

XXX ([XX])

Adjusts the camera’s subcarrier frequency.

Y SYNC

XXX ([XX])

Adjusts the sync level of camera’s Y output signal.

Y SETUP

XXX ([XX])

Adjusts the setup level of camera’s Y output signal.

Y VIDEO

XXX ([XX])

Adjusts the Y level of camera’s Y output signal.

TEST SETUP

XXX ([XX])

Adjusts the setup level of camera’s encoder output signal.

BURST LVL

XXX ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LVL

XXX ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

XXX ([XX])

Adjusts the Q(V) level of camera’s encoder output signal.

SC-H PHASE

XXX ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

REG LVL

XXX ([XX])

Adjusts the level of the R, G and B output signals.

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting each
item on the Y/CHROMA page.

PR ADG R/G/B

XXX ([XX])

Adjusts the reference level of the AD converter for R/G/B signals on the
PR board.

VA MOD R/G/B

XXX ([XX])

Adjusts the R, G or B modulation balance for the VA board.

G CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for G
signal on the PR board.
(Note: In replacing OHB, readjustment is required to set the maximum
value of the modulation depth.)

R/B CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for R/B
signals on the PR board.
(Note: In replacing OHB, readjustment is required to set the minimum
level of a pseudo signal.)

M.BLACK

XXX ([XX])

Adjusts the master black signal.

TEST2 HI

XXX ([XX])

Adjusts the high level of the TEST2 (3-STEP) signal on the VA board.

TEST2 MID

XXX ([XX])

Adjusts the middle level of the TEST2 (3-STEP) signal on the VA board.

TEST CLIP

XXX ([XX])

Adjusts the clip level of the TEST1 (sawtooth) signal on the VA board.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the PR/VR/
TEST page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

PRE KNEE/ZEBRA

PREKNEE1 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 1 level on the VA board.

(Continued)

PREKNEE2 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 2 level on the VA board.

APERTURE

Adjusts the aperture compensation signal level.

3-12(E)

XXX ([XX])

BVP-550

3-1. Setup Menu

Page

Item

Settings

Contents

PRE KNEE/ZEBRA

WHITE CLIP

XXX ([XX])

Adjusts the white clip level.

WHITE CLIP

[ON], OFF

Turns the white clip function on and off.

VTR/CCU

IRIS

OTHERS 1

(Continued)
BVP-550

ZEBRA1 LEVEL,WIDE XXX ([XX])

Sets the center value and range for the zebra 1 signal detection.

ZEBRA2 LEVEL

XXX ([XX])

Sets the detection value for the zebra 2 signal.

Z.DISP

1,2, 1&2

Selects a zebra signal to be displayed on the viewfinder.
1: Zebra 1 signal
2: Zebra 2 signal
1&2: Both zebra 1 and 2 signals are displayed at the same time.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the PREKNEE/
ZEBRA page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

VTR R-Y

XXX ([XX])

Adjusts the R-Y color-difference signal level.

VTR B-Y

XXX ([XX])

Adjusts the B-Y color-difference signal level.

CCU Y SAMP

XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the Y signal.

CCU R-Y SYNC

XXX ([XX])

Adjusts the level of the sync pulse to be mixed with the R-Y signal.

CCU B-Y SAMP

XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the B-Y signal.

RGB OFFSET

XXX ([XX])

Adjusts the G signal level.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the VTR/CCU page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting each
item on the VTR/CCU page.

LEVEL

XXX ([XX])

Adjusts the auto-iris level.

APL RATIO

XXX ([0])

Sets the way the iris is automatically adjusted. -99 (PEAK) ↔ 99 (AVERAGE)

FILTER,WHT MEM [ON], OFF

ON: A total of 8 settings of the white balance value can be saved in
conbination with the CC filter and WHITE BAL switch settings.
OFF: One white balance value can be saved for the WHITE BAL switch
setting A or B, for a total of 2 settings.

NTSC ENC

[WIDE], NRW

Sets the band width of the Q signal for the NTSC color encoder.

ROTARY

[STD], RVS

Selects the mode of MENU SEL switch (as turned counterclockwise when
viewed from the front.)
STD: Cursor moves downwards and a numeric value increases.
RVS: Cursor moves upwards and a numeric value decreases.

OWN CALL

R, F&R , OFF

Selects whether one or two TALLY lamps are lit corresponding to the
CALL button of camera adaptor pressed, or not. Or selects which TALLY
lamp is lit when the CALL button is pressed.
(This setting is valid in connection with CCU. When the camera is used
alone, it is always set to OFF.)
R: Rear TALLY lamp is lit.
F&R: Rear and front TALLY lamps are lit.
OFF: No TALLY lamp is lit corresponding to the CALL button.

CENTER H POS

XXX ([XX])

Shifts horizontally the location of the center marker on the screen.

CENTER V POS

XXX ([XX])

Shifts vertically the location of the center marker on the screen.

LENS VTR S/S

TALK, [RET2]

Selects the mode of VTR S/S SW of the lens and camera.
TALK: VTR S/S SW of lens functions as INCOM TALK SW (momentary)
and that of the camra as RET2 SW.
RET2: VTR S/S SW of lens functions as RET2 SW and that of the camera
as INCOM TALK SW.

VF ? DISPLAY

[ON], OFF

Turns on and off the indication of ? mark at the top-right of the VF screen with
the DISP switch set to ON when the self-diagnosis result is NG (no good)and
so on.

3-13(E)

3-1. Setup Menu

Page

Item

Settings

OTHERS 1

PinP RET RVS

[RVS1], RVS 2, OFF Selects the indication mode of VF display in PinP mode. (Does not function in
the unit.)

OTHERS 2

F TALLY RVS

[ON], OFF

3-14(E)

Contents

Selects the operation mode of TALLY lamps corresponding to a CALL button
of MSU or RCP pressed when a TALLY signal is input to the camera from
CCU or VTR.
ON: Rear and front TALLY lamps go out.
OFF: Rear TALLY lamp alone goes out.

BVP-550

3-2. Self-Diagnosis

3-2. Self-Diagnosis
The BVP-550 has a diagnosis mode used for self-diagnosis of every plug-in board and the OHB.
The diagnosis page is displayed on the viewfinder screen.
• Operation
Select “Diagnosis” page of the Operation menu referring to Section 3-1.
• Viewfinder Screen

• Display Descriptions
Marks

Board/Block

Judging Point for NG

1

OHB(CCD UNIT) Error in communication with IC18, IC19/TG-159

2

PR-211

Error in communication with IC49

3

VA-163

Error in communication with IC26

4

AT-95

Error in communication with IC46

5

SG-234

Error in communication with IC21

6

DA-88

Error in communication with IC10

7

IF-510

Error in communication with IC155

Refer to CA-550/550P maintenance manual for descriptions on columns of CA.
n
When other equipment than the CA-550/550P is connected to the camera, or when the CA-550/550P is
connected to the camera but is not connected to the CCU, the columns 8 will display “– –”.

BVP-550

3-15(E)

Section 4
Electrical Alignment
4-1. Preparation
4-1-1. Equipment Required
Multiburst Chart

Pattern box PTB-500

Sony P/N: J-6026-110-A

0.5

1

2

3

4

5

6

7

8

9

10

Sony P/N: J-6029-140-B
• Light source for test chart
Power supply AC90 to 240V

0.5

Grayscale Chart
Sony P/N: J-6026-130-B

Grayscale Chart (16:9)
Sony P/N: J-6394-080-A

Measuring Equipment
• Frequency counter
Advantest TR5821AK or equivalent
• Oscilloscope
Tektronix 2465 or equivalent
• Waveform monitor/Vectorscope
Tektronix 1750 or equivalent (for NTSC)
Tektronix 1751 or equivalent (for PAL)
• Digital voltmeter
Advantest TR6845 or equivalent
• Video signal generator
Tektronix 1410 or equivalent (for NTSC)
Tektronix 1411 or equivalent (for PAL)
• Color monitor
Sony BVM-1911/2811 or equivalent (for NTSC)
Sony BVM-2011P/3011P or equivalent (for PAL)
Peripheral Equipment
• CCD unit OHB-450/550 series
• Camera adaptor CA-550/550P
• AC adaptor AC-550/550CE
• Master setup unit MSU-700

4-1-2. Notes on Adjustment
White Window Chart
Make a square hole at the center
of a black sheet of paper.

Extension board BKP-7900 (option)
For CCU-700/700P plug-in boards

BVP-550

Extension board EX-464 (option)
Sony P/N: J-6395-040-A
For BVP-550 plug-in boards

When performing the adjustment, read throughly the
following comments.
1. The calibration of all measuring equipment should be
completed.
2. The alignment of OHB-450/550 series, CA-550/550P
and MSU-700 should be also completed.
3. “4-1-5. Initial Setting” should be completed.
4. Turn off the power before extending the plug-in board
using the extension board.
5. When using the camera as 16:9 mode together with the
OHB-550WS/550WSP, use the specified grayscale
chart (J-6394-080-A).
6. Paste a black colored velvets (around 3 × 3 cm) to both
sides of the full white portion in the center of the
grayscale chart.
(For more details, consult your Sony service represen
tative.)
7. When connecting MSU-700 to BVP-550, use MSU700 for various settings, because the switches on the
side panel of the camera become invalid.

4-1 (E)

4-1. Preparation

4-1-3. Connections
1.5" VF
BVF-10/10CE
CCD UNIT
OHB

CAMERA
ADAPTOR
CA-550/550/P
TEST OUT

ENG/EFP LENS
PATTERN
BOX

Waveform monitor
A-ch
PIX
75Ω

COLOR VIDEO
DC IN
CAMERA
AC
ADAPTOR
BVP-550
AC-550/550CE

Vector scope
CCA-5 CABLE
(max. 200m)

Color monitor

MASTER SETUP UNIT
MSU-700
Oscilloscope

4-1-4. Description of Setup Menu
A part of adjustments given in this section uses the setup
menu. The setup menu consists of the following menus.
Besides there is a TOP menu indicating the entire configuration of menu items.
Operation
Paint
Maintenance
Reference File
Triming File
System config
To display all of the menus, switch setting of the AT-95 board is
required. And for details on the setup menu, refer to Section 3.
In this manual, describes the setup menu operation as follows.
Title of the selected page (top right corner display)
For reference:
When Paint → Skin Detail is selected:
MENU : Paint
PAGE : Skin Detail (P4)
Displaying Setup Menu
1. Set the internal switches of the AT-95 board as
follows.
S1-1 → ON
S1-2 → OFF
S1-3 → ON
S1-4 → OFF
4-2 (E)

75Ω

2. DISP switch (on the side panel) → OFF
3. POWER switch (on the camera adaptor) → ON
4. Set the DISP switch to MENU (from OFF) while
holding down the MENU SEL switch (on the front
panel). (TOP menu will be displayed.)
n
If the power switch is turned off once, perform the above
operations again to display the setup menu (steps 2 to 4).
How to change the setting values
To enter or cancel the setting value of items, which can be
changed by turning the MENU SEL switch, proceed as
follows.
To enter the setting value;
Press the MENU SEL switch to ENTER.
To cancel the setting value;
Before pressing the MENU SEL switch, press the CANCEL button. The original setting is restored.
After pressing the MENU SEL switch, the setting can not
be canceled.
File Store
If the adjustments in this section are suspended or the
power is turned off to extend a printed circuit board and so
on, be sure to execute the FILE STORE before being
powered off.

BVP-550

4-1. Preparation

4-1-5. Initial Setting
Internal Switches:
n
When switching the following switches from a customerset position, it is recommended to record the setting state
of the customer in the table below.
After adjustment is complete, be sure to return the switches
to their customer-set position.
Board

Switch

Initial setting Customer-set position

AT-95

S1-1

ON

S1-2

OFF

S1-3

ON

S1-4

OFF

Setup Menu:
MENU : Operation
PAGE : Gain Sw (?3)
ITEM : Low → 0 dB
ITEM : Middle → 9 dB
ITEM : High → 18 dB
PAGE : Wide Screen (?4)
ITEM : 16:9/4:3 MODE → 16:9
(For OHB-550WS/550WSP)
MENU : Paint
PAGE : Video Level (P1)
ITEM : Test → Off
PAGE : Detail 1 (P2)
ITEM : Detail → On
PAGE : Skin Detail (P4)
ITEM : Skin Detail → Off
PAGE : Gamma (P5)
ITEM : Gamma → On
PAGE : Knee/W.Clip (P6)
ITEM : Knee → Off
ITEM : White Clip → Off
PAGE : Matrix (P7)
ITEM : Matrix → Off

BVP-550

Side Panel:
VTR SAVE/STBY switch → STBY
GAIN switch → L (0 dB)
OUTPUT/DCC switch → CAM/OFF
WHITE BAL switch → PRST
Front Panel:
SHUTTER switch → OFF
Filter Setting:3200 K
OHB-550/550WS series → 1B (FILTER selector)
OHB-450/451 series → 1 (FILTER selector)
Execution of Scene File Standard:
MENU
: Paint
PAGE
: Scene File (P8)
ITEM
: Standard
(Press the MENU SEL switch to execute.)

4-3 (E)

4-2. Adjustment for Installation of OHB
4-2-1. VCO CONT Frequency Confirmation
4-2-2. VA Gain Adjustment

4-2. Adjustment for Installation of OHB
When the auto black adjustment is executed with the
AUTO W/B BAL switch on the front panel for the first
time after the OHB is replaced or a new OHB is installed,
the black shading is automatically adjusted in succession to
the auto black adjustment.
If the shading adjustment is correctly completed at that
time, “4-2-3. Black Shading Adjustment” can be skipped.

4-2-1. VCO CONT Frequency Confirmation
Notes:
• Perform this confirmation only when the CCD unit is
installed.
• Warm up the camera for about 10 minutes before
performing this confirmation.
Preparation:
• RGB/ENC switch (on the side panel) → ENC

File Store:
Execute the OHB file store. Press the MENU SEL switch
to execute.
MENU
: Triming File
PAGE
: OHB File (T2)
ITEM
: File Store

4-2-2. VA Gain Adjustment
Setting of Sensitivity and Standard Color Temperature:
• Use the reflective chart (reflection ratio:89.9%)in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminous intensity of the chart to 2000 lx and the
color temperature to 3200 K.
• This adjustment shall be performed at F7.0 or more.
Note:
• Never change the setting of the following trimmer
capacitors. These capacitors are extremely difficult to
adjust in the field.
VA-163 board :1CT200, 1CT300, 1CT400

Equipment

: Frequency counter, Video signal
generator
Test Point
: TEST OUT connector
Specifications: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)
AC ADAPTOR
AC-550/550CE
DC IN

TEST
OUT

GENLOCK
IN

Video signal SC
OUT
generator

Frequency
counter

If the specification is not satisfied, perform the following
adjustment.
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and adjust the frequency by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC FREQ
Specifications: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

4-4 (E)

Equipment : Oscilloscope, Waveform monitor
Object
: Grayscale chart
Preparations:
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → L (0 dB)
• Extend VA-163 board with EX-464 board.
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee → Off
3. Close the lens iris.
4. Execute the level auto setup.
Press the MENU SEL switch to execute.
MENU
: Operation
PAGE
: Auto Setup
ITEM
: Level Auto
5. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL at the TEST OUT connector.
If the black level is out of specs, carry out “4-2-5.
Master Black Adjustment”.

BVP-550

4-2. Adjustment for Installation of OHB
4-2-2. VA Gain Adjustment

6. Test Point

: TP72 (GND:TP71)/extension board
(extending VA-163)
Iris of the lens: A = 125 mV (at F7.0 or more)

12. Set the RGB/ENC switch (on the side panel) to ENC.
13. Test Point
: TEST OUT connector
Adjustment Point : 1RV200 (R GAIN)/VA-163
panel
1RV400 (B GAIN)/VA-163
panel
Specifications
: Carrier leakage D = Minimum

C

(Oscilloscope)

7. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
8. Adjust the VA gain for G.
Test Point
: TEST OUT connector
Adjustment Point : 1RV300 (G GAIN)/VA-163
panel
Specifications
: The levels A and B are shall be
equal when the test waveform is
switched between 2 and off.
Menu Setting:
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test

(Waveform Monitor)

4

3

2

1

VA

A

TEST

B

CT200
R GAIN

RV200
C

R

(Waveform Monitor)

G GAIN

CT300

D

RV300

9. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test → Off
10. Select the 15 lines in the center of monitor screen C by
using the 15 LINE SELECT on the waveform monitor.
11. Put the waveform monitor into the CHROMA mode.

R

E
B GAIN

CT400
RV400
F

B

G

VA-163 BOARD (A SIDE)
BVP-550

4-5 (E)

4-2. Adjustment for Installation of OHB
4-2-3. Black Shading Adjustment

4-2-3. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again referring to the message displayed on
the viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → ENC
Test Point
: TEST OUT connector
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and execute the auto black
shading. Press the MENU SEL switch to execute.
MENU : Maintenance
PAGE : Auto Setup(M4)
ITEM
: Black Shading
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again referring to this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.
4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)
4-6 (E)

• Manual Black Shading Adjustment
(For reference)
Note:
• Perform this adjustment only when “4-2-3. Black
Shading Adjustment” is not completed.
Equipment

: Waveform monitor

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
4. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 21 mV for PAL by using
the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
5. If the shading is monitored, make the waveform flat
referring to the following table.
6. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

BVP-550

4-2. Adjustment for Installation of OHB
4-2-3. Black Shading Adjustment

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

TEST OUT connector

Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC
• GAIN switch (on the side panel) → L (0 dB)

BVP-550

4-7 (E)

4-2. Adjustment for Installation of OHB
4-2-4. White Shading Adjustment

4-2-4. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Full white pattern
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• ENC/RGB switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
• Shoot the fully occupied white area of the pattern box in
the full underscanned monitor frame adjusting the zoom
control.
Iris of the lens : A = 80 ±5 IRE (for NTSC)
A = 560 ±35 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

R

B

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

G ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

R

B

TEST OUT connector

Adjustment Procedures:
1. Set the WHITE BAL switch (on the side panel) to
PRST.
2. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
3. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
4. If the white shading is monitored, make the waveform
flat referring to the following tables.
5. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

4-8 (E)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC

BVP-550

4-2. Adjustment for Installation of OHB
4-2-5. Master Black Adjustment
4-2-6. Gamma Correction Adjustment

4-2-5. Master Black Adjustment

4-2-6. Gamma Correction Adjustment

Equipment
Test Point

Equipment
Test Point
Object

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(Waveform Monitor)

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

Adjustment Procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the gamma
correction for (M) by using the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma [M]
Specifications: B = 55.5 ±2.0 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

BVP-550

(Waveform Monitor)

4-9 (E)

4-2. Adjustment for Installation of OHB
4-2-6. Gamma Correction Adjustment

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test → 1
4. Set the RGB/ENC switch (on the side panel) to ENC.
5. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
6. Set the menu as follows, and adjust the gamma
correction for (R) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [R]
Specifications: Center the beam spot on the
vectorscope.
7. Set the menu as follows, and adjust the gamma
correction for (B) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [B]
Specifications: Center the beam spot on the
vectorscope.

9. Confirm that the carrier leakage does not observed at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Test → Off
• WHITE BAL switch (on the side panel) → PRST

8. Repeat the steps 6 and 7 alternately, until the beam
spot is minimized on the vectorscope.

MG
R
YL

B

G

CY

(For NTSC)

R

MG

YL

B

G

CY

(For PAL)

(Vectorscope)

4-10 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-7. Flare Adjustment

4-2-7. Flare Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

5. Confirm that the level at portion B does not fluctuate
even if the flare turns On/Off. If fluctuates, turn Flare
ON and adjust by Flare (G).
Menu Setting:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare → On/Off
Adjustment Point:
ITEM
: Flare [G]
6. Set the ENC/RGB switch (on the side panel) to ENC.
7. Set the menu as follows, and adjust the flare for R by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [R]
Specifications: Minimize the carrier leakage.
8. Set the menu as follows, and adjust the flare for B by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [B]
Specifications: Minimize the carrier leakage.

(Waveform Monitor)

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Set the RGB/ENC switch (on the side panel) to ENC.
Set the R/G/B switch (on the side panel) to G.
4. Select the 15 lines in the center of the monitor screen
by using the 15 LINESELECT on the waveform
monitor.

Line Select

BVP-550

(Waveform Monitor)

9. Repeat the steps 7 and 8 alternately, until the carrier
leakage is minimized.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

4-11 (E)

4-2. Adjustment for Installation of OHB
4-2-8. Knee and White Clip Adjustment

4-2-8. Knee and White Clip Adjustment
Note:
Perform this adjustment on the customer's preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → M(9 dB)
Adjustment Procedures:
1. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL.
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the knee point
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → 1
ITEM
: White Clip → Off
ITEM
: Knee → On
ITEM
: Knee Max → On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

(Waveform Monitor)

4. Set the menu as follows, and adjust the knee slope
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max → Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)
4-12 (E)

(Waveform Monitor)

5. Set the GAIN switch (on the side panel) to H (18 dB).
6. Set the menu as follows, and adjust the white clip level
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip → On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB).
Note:
The values used in the above adjustments are under the
conditions that the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763

107/749

105/735

103/721

Knee point

98/686

98/686

96/672

96/672

Knee slope

109/763

109/763

107/750

107/750

White clip

109/763

107/749

105/735

103/721

BVP-550

4-2. Adjustment for Installation of OHB
4-2-9. Crispening Adjustment

4-2-9. Crispening Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On
Iris of the lens

: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

Adjustment Procedure:
Set the menu as follows, and adjust the crispening by using
the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1(P2)
ITEM
: Crispening
Specifications : Turn the MENU SEL switch (on the
front panel) once to –99, and turn
slowly for increment until the noise at
the black level of the waveform is just
decreased, or turn the MENU SEL
switch so that the crispening level is an
appropriate value.

BVP-550

4-13 (E)

4-2. Adjustment for Installation of OHB
4-2-10. Level Dependent Adjustment

4-2-10. Level Dependent Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On
ITEM
: Level Dep. → On

2. Set the menu as follows, and adjust the level dependent by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Level Dep.
Specifications: Turn the MENU SEL switch (on the
front panel) once to –99, and slowly
turn it for increment until spikes at
portions B are just decreased.

(Waveform Monitor)

Note:
After this adjustment is completed, be sure to perform “42-12. H/V Ratio Adjustment” and “4-2-13. Detail Level
Adjustment”.

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

4-14 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-11. Detail Frequency Adjustment

4-2-11. Detail Frequency Adjustment

2. Make a selection of line at the center white portion of
the grayscale chart.

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Line Select

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

3. Set the menu as follows, and adjust the detail frequency by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Frequency
Specifications: Adjust the edge width at each end of
the center white portion to the
desired width.

(Waveform Monitor)

Note:
After this adjustment is completed, be sure to perform “42-12. H/V Ratio Adjustment” and “4-2-13. Detail Level
Adjustment”.

(Waveform Monitor)

BVP-550

4-15 (E)

4-2. Adjustment for Installation of OHB
4-2-12. H/V Ratio Adjustment

4-2-12. H/V Ratio Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

2. Set the menu as follows, and adjust the H/V ratio by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: H/V Ratio
Specifications: The ratio between the H and V
detail amounts (white) to be added
shall be 1 : 1.
H

V

(Monitor Screen)

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

4-16 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-13. Detail Level Adjustment
4-2-14. Detail Clip Adjustment

4-2-13. Detail Level Adjustment

4-2-14. Detail Clip Adjustment

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

2. Set the menu as follows, and adjust the signal level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Level
Specifications: Adjust the detail signal level to be
added to each step in the grayscale
chart for the desired level.

BVP-550

(Waveform Monitor)

4-17 (E)

4-2. Adjustment for Installation of OHB
4-2-14. Detail Clip Adjustment
4-2-15. Skin Tone Adjustment

2. Make a selection of line at the center white portion of
the grayscale chart.

4-2-15. Skin Tone Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Line Select

Equipment : Color monitor, Viewfinder or Vectorscope

3. Set the menu as follows, and adjust the white limiter
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: W.Limitter
Specifications: Adjust the edges of portions B to the
desired clip level.

(Waveform Monitor)

4. Set the menu as follows, and adjust the black limiter
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: B.Limitter
Specifications: Adjust the edges of portions C to the
desired clip level.

Preparations:
• Connect the vectorscope to the TEST OUT connector.
• Shoot a person’s face.
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Skin Detail (P4)
ITEM
: Skin Detail → On
Adjustment Procedures:
1. Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Gate → On
2. Set the menu as follows, and adjust the amount of the
skin detail signal to the desired level according to the
following items by using the MENU SEL switch.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Level (Detail level within the skin gate)
ITEM
: Phase (Hue)
ITEM
: Saturation
(Component in the saturation direction)
ITEM
: Width (Component in the hue direction)
(The effective area of the skin detail signal appears in
a zebra pattern on the viewfinder screen. Set the
desired level.)
R-Y
Phase
Width

(Waveform Monitor)
Saturation

B-Y

(Vectorscope)

4-18 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-15. Skin Tone Adjustment

Resetting after Adjustment:
• Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Gate → Off

BVP-550

4-19 (E)

4-2. Adjustment for Installation of OHB
4-2-16. Zebra Adjustment

4-2-16. Zebra Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• ZEBRA switch (on the viewfinder) → ON
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Iris of the lens: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

3. Set the menu as follows, and adjust the zebra 1 level
by using the MENU SEL switch.
MENU
: System config
PAGE
: Pre knee/Zebra (S4)
ITEM
: Z.Disp → 1
Adjustment Point:
ITEM
: Zebra1 [LEVEL]
Specifications: Adjust that the stripes appear at the
center of the portions A on the
viewfinder screen.
The area of the stripes can be
changed by ITEM: Zebla 1
[RANGE].

A

A

(Monitor Screen)

4. Set the menu as follows, and adjust the zebra 2 level
by using the MENU SEL switch.
MENU
: System config
PAGE
: Pre knee/Zebra (S4)
ITEM
: Z.Disp → 2
Adjustment Point:
ITEM
: Zebra2 [LEVEL]
Specifications: Adjust that the stripes appear at the
center of the portions B on the
viewfinder screen.

B

(Waveform Monitor)

(Monitor Screen)

Resetting after Adjustment:
• ZEBRA switch (on the viewfinder) → OFF
• WHITE BAL switch (on the side panel) → PRST

4-20 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-17. Auto Iris Adjustment

4-2-17. Auto Iris Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• AUTO/MANU switch (on the lens) → AUTO
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

3. Set the menu as follows, and adjust the auto-iris level
by using the MENU SEL switch.
MENU
: Operation
PAGE
: Auto Iris/Auto Knee (?6)
ITEM
: Iris Override → Off
Adjustment Point:
MENU
: System config
PAGE
: Iris (S6)
ITEM
: Level
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Set the menu as follows, and adjust the APL ratio by
using the MENU SEL switch.
MENU
: Operation
PAGE
: Auto Iris/Auto Knee (?6)
ITEM
: APL Ratio
Specifications: Adjust the auto-iris operation mode
depending on the application.
Note
: Automatic iris operation mode
setting can be done from the average
level to peak-to-peak level of the
video signal.
99 → average level
–99 → peak-to-peak level

BVP-550

4-21 (E)

4-2. Adjustment for Installation of OHB
4-2-18. Menu Settings After Finishing Adjustment
4-2-19. File Store
4-3. Overall Electrical Alignment

4-2-18. Menu Settings After Finishing
Adjustment
MENU
PAGE
ITEM
PAGE
ITEM
PAGE
ITEM

: Paint
: Detail 1 (P2)
: Detail → On
: Gamma (P5)
: Gamma → On
: Knee/W.Clip (P6)
: Knee → On

4-2-19. File Store
Be sure to execute the file store after any one of the
adjustments of Sections 4-2-1 through 4-2-17 is performed.
Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Execute the reference file store. Press the MENU SEL
switch to execute.
Menu Setting:
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
3. Execute the triming file store. Press the MENU SEL
switch to execute.
Menu Setting:
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

4-22 (E)

4-3. Overall Electrical Alignment
Before beginning this adjustment, check the initial settings
referring to Section 4-1-5. When a board was replaced or
repaired, preset the compensation data, proceeding as
follows. If the data is preset once, be sure to carry out all
steps of 4-3-1 through 4-3-23. Because presetting clears all
adjustment data of video and detail system.
(1) Execute the reference file clear.
Press the MENU SEL switch to execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: Clear File
(2) Execute the scene file standard.
Press the MENU SEL switch to execute.
MENU
: Paint
PAGE
: Scene File (P8)
ITEM
: Standard
This section provides intructions to store the setting data
on the reference or triming file in every adjustment item.
This intends to prevent the data from being cleared when
the unit is powered off to extend a board, and so on.
As the data is kept held unless powered off, however, more
than one data can be stored at a time.
The file store may not necessarily be executed for every
adjustment item.

BVP-550

4-3. Overall Electrical Alignment
4-3-1. VCO CONT Frequency Adjustment

4-3-1. VCO CONT Frequency Adjustment
Note:
• Warm up the camera for about 10 minutes before this
confirmation.
Equipment
Test Point

: Frequency counter,
Video signal generator
: TEST OUT connector

Preparation:
• RGB/ENC switch (on the side panel) → ENC
AC ADAPTOR
AC-550/550CE
DC IN

TEST
OUT

GENLOCK
IN

Video signal SC
OUT
generator

Frequency
counter

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and adjust the frequency by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC FREQ
Specifications : 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)
File Store:
Execute the OHB file store. Press the MENU SEL switch
to execute.
MENU
: Triming File
PAGE
: OHB File (T2)
ITEM
: File Store

BVP-550

4-23 (E)

4-3. Overall Electrical Alignment
4-3-2. VTR Y Adjustment

4-3-2. VTR Y Adjustment
Equipment
Test Point

: Oscilloscope
: TP3 (Y)/DA-88 panel

Preparations:
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the Y sync by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SYNC
Specifications: A = 286 ±2 mV (for NTSC)
A = 300 ±2 mV (for PAL)
3. (NTSC only)
Set the menu as follows, and adjust the Y setup by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SETUP
Specifications: C = 53.5 ±2 mV

4. Set the menu as follows, and adjust the Y video by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y Video
Specifications: B = 714 ±7 mV (for NTSC)
B = 700 ±7 mV (for PAL)

(For NTSC)

(For PAL)

(20 MHz B/W LIMIT → ON)
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

4-24 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-3. Test out Adjustment

4-3-3. Test out Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
(For NTSC)

Adjustment Procedures:
1. Adjustment Point : 1RV101 (VIDEO LEVEL)/
IF-510 panel
Specifications
: A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)
2. (NTSC only)
Set the menu as follows, and adjust the test setup by
using the MENU SEL.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: TEST SETUP
Specifications
: B = 7.5 ±1 IRE
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Triming File
PAGE : Triming File (T1)
ITEM : File Store

(For PAL)

4

3

2

1

IF

A

B

C

VIDEO
LEVEL

D

RV101

E

F

G

IF-510 BOARD (A SIDE)
BVP-550

4-25 (E)

4-3. Overall Electrical Alignment
4-3-4. Chroma Adjustment

4-3-4. Chroma Adjustment
Equipment : Waveform monitor, Vectorscope
Test Point : TEST OUT connector
Preparations:
• Connect the vectorscope to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the chroma level
and Q/V level alternately by using the MENU SEL
switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Chroma LVL
ITEM
: Q/V LVL
Specifications: Place the beam spots inside the
corresponding frames on the
vectorscope.

3. Connect the waveform monitor to the TEST OUT
connector.
4. Set the menu as follows, and adjust the burst level by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Burst LVL
Specifications: A = 40 ±1 IRE (for NTSC)
A = 300 ±5 mV (for PAL)

(For NTSC)

(For PAL)

(For NTSC)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

(For PAL)

4-26 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-5. INT SC Phase Adjustment

4-3-5. INT SC Phase Adjustment
Notes:
This adjustment precedures are stated below assuming that
where the Tektronix 1750 (for NTSC) or1751 (for PAL) is
used.
If any other measuring instrument is used, follow the
instructions given in the operation manual attached to it.

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Equipment : Vectorscope (SC-H Phase measuring mode)
Test Point : TEST OUT connector
Preparations:
• Connect the vectorscope to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the SC-H phase by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC-H Phase
Specifications: Position the luminous line of the
burst (SC) and the beam spot of H
as shown in the figure.

MG
R
YL

B

G

CY

For NTSC)

R

MG

YL

B

G

CY

(For PAL)
BVP-550

4-27 (E)

4-3. Overall Electrical Alignment
4-3-6. REG Level Adjustment

4-3-6. REG Level Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the REG level by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: REG LVL
Specifications:
SYNC LEVEL : A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)

(For NTSC)

(For PAL)

4-28 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-7. TEST1 Adjustment

4-3-7. TEST1 Adjustment
Equipment : Oscilloscope
Preparation:
• Extend VA-163 board with EX-464 board.
Adjustment Procedures:
1. WHITE BAL switch (on the side panel) → PRST
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → 1
4. Test Point
: TP52 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point : 1RV50 (TEST)/VA-163 panel
Specifications
: A = 880 ±2 mV

6. Set the menu as follows, and adjust the white level for
B by turning the MENU SEL switch.
Test Point
: TP50 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: White [B]
Specifications
: A = 880 ±40 mV
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

5. Set the menu as follows, and adjust the white level for
R by using the MENU SEL switch.
Test Point
: TP54 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: White [R]
Specifications
: A = 880 ±40 mV

BVP-550

4-29 (E)

4-3. Overall Electrical Alignment
4-3-8. TEST2 Adjustment

4-3-8. TEST2 Adjustment
Equipment : Oscilloscope
Test Point : TP52 (GND:GND (A))/
Extension board (extending VA-163)
Preparation:
• Extend VA-163 board with EX-464 board.
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → 2

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

3. Set the menu as follows, and adjust the TEST2 high
level by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 HI
Specifications: A = 880 ±5 mV
4. Set the menu as follows, and adjust the TEST 2 middle
level by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 MID
Specifications: B = 290 ±5 mV

4-30 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-9. A/D Gain Adjustment

4-3-9. A/D Gain Adjustment
Equipment
Test Point

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → L (0 dB)
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU :
Paint
PAGE :
Detail1 (P2)
ITEM :
Detail → Off
PAGE :
Gamma (P5)
ITEM :
Gamma → On
PAGE :
Knee/W.Clip (P6)
ITEM :
Knee → Off
ITEM :
White Clip → Off

5. Set the menu as follows, and adjust the A/D gain for G
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [G]
Specifications: The white level shall not be changed
even if the OUTPUT/DCC switch
(on the side panel) is changed over
between CAM and BARS.
A=B

Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(For NTSC)

(Waveform Monitor)

3. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
4. Set the menu as follows.
MENU :
System config
PAGE :
PR/VA/TEST (S3)
ITEM :
TEST → 2
(For PAL)
BVP-550

4-31 (E)

4-3. Overall Electrical Alignment
4-3-9. A/D Gain Adjustment
4-3-10. VA Gain Adjustment

6. Set the R/G/B switch (on the side panelüj to ENC.
7. Set the OUTPUT/DCC switch (on the side panel) to
CAM/OFF.
8. Set the menu as follows, and adjust the A/D gain for R
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [R]
Specifications: Minimize the carrier leakage.
C = Minimum
9. Set the menu as follows, and adjust the A/D gain for B
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [B]
Specifications: Minimize the carrier leakage.
C = Minimum

4-3-10. VA Gain Adjustment
Setting of Sensitivity and Standard Color Temperature:
• Use the reflective chart (reflection ratio:89.9%)in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminous intensity of the chart to 2000 lx and the
color temperature to 3200 K.
• This adjustment shall be performed at F7.0 or more.
Note:
• Never change the setting of the following trimmer
capacitors. These capacitors are extremely difficult to
adjust in the field.
VA-163 board :1CT200, 1CT300, 1CT400
Equipment : Oscilloscope, Waveform monitor
Object
: Grayscale chart
Preparations:
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → L (0 dB)
• Extend VA-163 board with EX-464 board.
• RGB/ENC switch (on the side panel) → ENC

10. Repeat the steps 8 and 9 alternately until the specifications are satisfied.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

4-32 (E)

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee → Off
3. Close the lens iris.
4. Execute the level auto setup.
Press the MENU SEL switch to execute.
MENU
: Operation
PAGE
: Auto Setup
ITEM
: Level Auto
5. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL at the TEST OUT connector.
If the black level is out of specs, carry out “4-3-14.
Master Black Adjustment”.

BVP-550

4-3. Overall Electrical Alignment
4-3-10. VA Gain Adjustment

6. Test Point

: TP72 (GND:TP71)/extension board
(extending VA-163)
Iris of the lens: A = 125 mV (at F7.0 or more)

12. Set the RGB/ENC switch (on the side panel) to ENC.
13. Test Point
: TEST OUT connector
Adjustment Point : 1RV200 (R GAIN)/VA-163
panel
1RV400 (B GAIN)/VA-163
panel
Specifications
: Carrier leakage D = Minimum

C

(Oscilloscope)

7. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
8. Adjust the VA gain for G.
Test Point
: TEST OUT connector
Adjustment Point : 1RV300 (G GAIN)/VA-163
panel
Specifications
: The levels A and B are shall be
equal when the test waveform is
switched between 2 and off.
Menu Setting:
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test

(Waveform Monitor)

4

3

2

1

VA

A

TEST

B

CT200
R GAIN

RV200
C

R

(Waveform Monitor)

G GAIN

CT300

D

RV300

9. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test → Off
10. Select the 15 lines in the center of monitor screen C by
using the 15 LINE SELECT on the waveform monitor.
11. Put the waveform monitor into the CHROMA mode.

R

E
B GAIN

CT400
RV400
F

B

G

VA-163 BOARD (A SIDE)
BVP-550

4-33 (E)

4-3. Overall Electrical Alignment
4-3-11. VA MOD Adjustment

4-3-11. VA MOD Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → L (0 dB)
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → R
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the menu as follows, and adjust the V MOD for R
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [R] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [R]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [R] varies from 99
to –99.

3. Set the R/G/B switch (on the side panel) to G.
4. Set the menu as follows, and adjust the V MOD for G
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [G] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [G]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [G] varies from 99
to –99.
5. Set the R/G/B switch (on the side panel) to B.
6. Set the menu as follows, and adjust the V MOD for R
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [B] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [B]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [B] varies from 99
to –99.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

(×5)

4-34 (E)

Resetting after Adjustment:
• Set the menu as follows. Press the MENU SEL switch to
execute.
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: Clear

BVP-550

4-3. Overall Electrical Alignment
4-3-12. Black Shading Adjustment

4-3-12. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again referring to the message displayed on
the viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → ENC
Test Point
: TEST OUT connector
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and execute the auto black
shading. Press the MENU SEL switch to execute.
MENU : Maintenance
PAGE : Auto Setup(M4)
ITEM
: Black Shading
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again referring to this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.
4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)
BVP-550

• Manual Black Shading Adjustment
(For reference)
Note:
• Perform this adjustment only when “4-4-12. Black
Shading Adjustment” is not completed.
Equipment

: Waveform monitor

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
4. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 21 mV for PAL by using
the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
5. If the shading is monitored, make the waveform flat
referring to the following table.
6. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

4-35 (E)

4-3. Overall Electrical Alignment
4-3-12. Black Shading Adjustment

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

R

B

TEST OUT connector

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC
• GAIN switch (on the side panel) → L (0 dB)

4-36 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-13. White Shading Adjustment

4-3-13. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Full white pattern
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• ENC/RGB switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
• Shoot the fully occupied white area of the pattern box in
the full underscanned monitor frame adjusting the zoom
control.
Iris of the lens : A = 80 ±5 IRE (for NTSC)
A = 560 ±35 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

R

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

G

ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

B

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

TEST OUT connector

Adjustment Procedures:
1. Set the WHITE BAL switch (on the side panel) to
PRST.
2. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
3. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
4. If the white shading is monitored, make the waveform
flat referring to the following tables.
5. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

BVP-550

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC

4-37 (E)

4-3. Overall Electrical Alignment
4-3-14. Master Black Adjustment

4-3-14. Master Black Adjustment
Equipment
Test Point

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(Waveform Monitor)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-38 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-15. Gamma Correction Adjustment

4-3-15. Gamma Correction Adjustment
Equipment
Test Point
Object

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Gamma (P5)
ITEM
: Gamma → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

Adjustment Procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the gamma
correction for (M) by using the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma [M]
Specifications: B = 55.5 ±2.0 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test → 1
4. Set the RGB/ENC switch (on the side panel) to ENC.
5. Adjust the auto white balance.
WHT BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panl) → WHT
6. Set the menu as follows, and adjust the gamma
correction for (R) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [R]
Specifications: Center the beam spot on the
vectorscope.
7. Set the menu as follows, and adjust the gamma
correction for (B) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [B]
Specifications: Center the beam spot on the
vectorscope.
8. Repeat the steps 6 and 7 alternately, until the beam
spot is minimized on the vectorscope.
MG
R
YL

B

G

CY

(For NTSC)

R

MG

YL

B

(Waveform Monitor)
G

CY

(For PAL)

(Vectorscope)

BVP-550

4-39 (E)

4-3. Overall Electrical Alignment
4-3-15. Gamma Correction Adjustment
4-3-16. Flare Adjustment

9. Confirm that the carrier leakage does not monitored at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-3-16. Flare Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Test → Off
• WHITE BAL switch (on the side panel) → PRST

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Set the RGB/ENC switch (on the side panel) to ENC.
Set the R/G/B switch (on the side panel) to G.
4. Select the 15 lines in the center of the monitor screen
by using the 15 LINESELECT on the waveform
monitor.

Line Select

4-40 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-16. Flare Adjustment
4-3-17. Pre Knee Adjustment

5. Confirm that the level at portion B does not fluctuate
even if the flare turns On/Off. If fluctuates, turn Flare
ON and adjust by Flare (G).
Menu Setting:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare → On/Off
Adjustment Point:
ITEM
: Flare [G]
6. Set the ENC/RGB switch (on the side panel) to ENC.
7. Set the menu as follows, and adjust the flare for R by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [R]
Specifications: Minimize the carrier leakage.
8. Set the menu as follows, and adjust the flare for B by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [B]
Specifications: Minimize the carrier leakage.

(Waveform Monitor)

9. Repeat the steps 7 and 8 alternately, until the carrier
leakage is minimized.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-3-17. Pre Knee Adjustment
Equipment

: Oscilloscope, Waveform monitor

Preparation:
• Extend VA-163 board with EX-464 board.
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → On
3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Set the GAIN switch (on the side panel) to M (9 dB).
5. Set the WHITE BAL switch (on the side panel) to
PRST.
6. Set the menu as follows.
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: Test → 2
7. Set the menu as follows, and adjust the pre knee 1 for
G by using the MENU SEL switch.
Test Point
: TP52 (GND:GND (A))/
Extension board (extending VA-163)
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[G]
Specifications: A = 1.68 ±0.02 V p-p

(Oscilloscope)

Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

BVP-550

4-41 (E)

4-3. Overall Electrical Alignment
4-3-17. Pre Knee Adjustment

8. Set the menu as follows.
MENU
: Operation
PAGE
: Gain SW (?3)
ITEM
: Middle → 12 dB
9. Set the menu as follows, and adjust the pre knee 2 for
G by using the MENU SEL switch.
Test Point
: TP52 (GND:GND (A))/
Extension board (extending VA-163)
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[G]
Specifications: B = 1.80 ±0.02 V p-p

14. Set the menu as follows, and adjust the pre knee 2 for
R by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[R]
Specifications: Minimize the carrier leakage D.
15. Set the menu as follows, and adjust the pre knee 2 for
B by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[B]
Specifications: Minimize the carrier leakage D.

(Oscilloscope)

10. Set the menu as follows.
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: Test → 1
11. Set the GAIN switch (on the side panel) to H (18dB).
Set the OUTPUT/DCC switch (on the side panel) to
CAM/ON.
12. Set the menu as follows, and adjust the pre knee 1 for
R by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[R]
Specifications: Minimize the carrier leakage C.
13. Set the menu as follows, and adjust the pre knee 1 for
B by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[B]
Specifications: Minimize the carrier leakage C.

4-42 (E)

(Waveform Monitor)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : Operation
PAGE : Gain SW (?3)
ITEM
: Middle → 9 dB
MENU : System config
PAGE : Pre Knee/Zebra (S4)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB)

BVP-550

4-3. Overall Electrical Alignment
4-3-18. Knee and White Clip Adjustment

4-3-18. Knee and White Clip Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → M(9 dB)
Adjustment Procedures:
1. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL.
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the knee point
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → 1
ITEM
: White Clip → Off
ITEM
: Knee → On
ITEM
: Knee Max → On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

(Waveform Monitor)

4. Set the menu as follows, and adjust the knee slope
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max → Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)

BVP-550

(Waveform Monitor)

5. Set the GAIN switch (on the side panel) to H (18 dB).
6. Set the menu as follows, and adjust the white clip level
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip → On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB).
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-43 (E)

4-3. Overall Electrical Alignment
4-3-18. Knee and White Clip Adjustment

Note:
The values used in the above adjustments are under the
conditions that the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763

107/749

105/735

103/721

Knee point

98/686

98/686

96/672

96/672

Knee slope

109/763

109/763

107/750

107/750

White clip

109/763

107/749

105/735

103/721

4-44 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-19. A/D Clock Phase Adjustment

4-3-19. A/D Clock Phase Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Multiburst chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the multiburst chart so that the chart frame is
aligned with the underscanned monitor frame with the
zoom control.
• Pan so that the 9 MHz portion of the multiburst chart is
positioned at the center of the monitor screen.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Auto Knee → On

3. Set the menu as follows, and adjust the clock phase for
R/B by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: R/B Clock
Specifications: Minimize the aliasing around the 9
MHz signal portion.

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Adjustment Procedures:
1. Iris of the lens: A = 90 ± 2 IRE (for NTSC)
A = 630 ± 10 mV (for PAL)

2. Set the menu as follows, and adjust the clock phase for
G by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: G Clock
Specifications: Maximize the 9 MHz signal portion.

BVP-550

4-45 (E)

4-3. Overall Electrical Alignment
4-3-20. VTR R-Y/B-Y Adjustment
4-3-21. CCU Y/R-Y/B-Y Adjustment

4-3-20. VTR R-Y/B-Y Adjustment

4-3-21. CCU Y/R-Y/B-Y Adjustment

Equipment

Equipment : Oscilloscope

: Oscilloscope

Preparation:
• OUTPUT/DCC switch (on the side panel) → BARS

Preparation:
• Connect the CCU to the camera.

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the VTR R-Y by
using the MENU SEL switch.
Test Point
: TP4 (R-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR R-Y
Specifications: A = 700 ±5 mV (for NTSC)
: A = 525 ±5 mV (for PAL)

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the CCU Y sample
by using the MENU SEL switch.
Test Point
: TP3 (Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU Y SAMP
Specifications: A = 700 ±2 mV

3. Set the menu as follows, and adjust the VTR B-Y by
using the MENU SEL switch.
Test Point
: TP5 (B-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR B-Y
Specifications: B = 700 ±5 mV (for NTSC)
: B = 525 ±5 mV (for PAL)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
4-46 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-21. CCU Y/R-Y/B-Y Adjustment

3. Set the menu as follows, and adjust the CCU R-Y sync
by using the MENU SEL switch.
Test Point
: TP4 (R-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU R-Y SYNC
Specifications: B = 350 ±2 mV

4. Set the menu as follows, and adjust the CCU B-Y by
using the MENU SEL switch.
Test Point
: TP5 (B-Y) (GND:E1)/DA-88 panel
6. Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU B-Y SAMP
Specifications: C = 350 ±2 mV

4

3

2

1

DA

A

TP1
B

TP2

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

C

D
Y

R-Y

B-Y

TP3
TP4

E

TP5
GND

E1

F

G

DA-88 BOARD (A SIDE)
BVP-550

4-47 (E)

4-3. Overall Electrical Alignment
4-3-22. RGB Adjustment

4-3-22. RGB Adjustment
Equipment

: Oscilloscope

2. Confirm the R video level.
Test Point
: TP63 (GND:GND (A))/
Extension board (extending IF-510)
Specifications:B = 700 ±7 mV

Preparations:
• Extend IF-510 board with EX-464 board.
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CB → On
Adjustment Procedures:
1. Set the menu as follows, and adjust the G video level
by using the MENU SEL switch.
Test Point
: TP61 (GND:GND (A))/
Extension board (extending IF-510)
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: RGB OFFSET
Specifications: A = 700 ±5 mV

(For NTSC)

(For PAL)

(For NTSC)

(For PAL)

4-48 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-22. RGB Adjustment
4-3-23. Menu Setting After Finishing Adjustment

3. Confirm the B video level.
Test Point
: TP59 (GND:GND (A))/
Extension board (extending IF-510)
Specifications: C = 700 ±7 mV

(For NTSC)

4-3-23. Menu Setting After Finishing
Adjustment
MENU : Paint
PAGE : Detail1 (P2)
ITEM : Detail → On
PAGE : Gamma (P5)
ITEM : Gamma → On
PAGE : Knee/W.Clip (P6)
ITEM : Knee → On
MENU : System config
PAGE : VTR/CCU (S5)
ITEM : CB→Off
MENU : Reference File
PAGE : Reference File (R1)
ITEM : File Store
(Press the MENU SEL switch to execute.)

(For PAL)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

BVP-550

4-49 (E)

Section 5
Spare Parts
5-1. Notes on Repair Parts
1. w Safety Related Components Warning
Components marked ! are critical to safe operation. Therefore, specified parts should be used in the
case of replacement.
2. Standardization of Parts
Some repair parts supplied by Sony differ from those used for the unit. These are because of parts
commonality and improvement.
Parts list has the present standardized repair parts.
3. Stock of Parts
Parts marked with “o” at SP (Supply Code) column of the spare parts list may be not stocked.
Therefore, the delivery date will be delayed.
4. Units Representation
The following represented units are changed or omitted in writing.

Units

Representation

Capacitance

µF

uF

Inductance

µH

uH

Resistance

Ω

Abbreviation

BVP-550

5-1

TOP PANEL BLOCK

5-2. Exploded Views

2
8
30

27

B4 X 8

19
9

B4 X 8

B5 X 12

14
11
10
W3
SMALL

12

BOLT,HEXAGON
SOCKET 3 X 8

W3
SMALL

28
13
31

26

25

B4 X 8

10

BOLT,HEXAGON
SOCKET 3 X 8
W3
SMALL
BOLT,HEXAGON
SOCKET 3 X 8

15

3
18

29
16

17
1

21

7
5
20
B2.6 X 5

24

22

23

6

B2.6 X 5

B3 X 5
B2.6 X 5

4

5-2

BVP-550

TOP PANEL BLOCK

No.

Part No.

SP Description

1
2
3
4
5

A-8278-029-A
X-3678-451-1
X-3678-484-1
1-565-051-21
1-570-985-11

o
o
o
o
s

SLIDE ASSY,VF
HANDLE ASSY
HOLDER SUB ASSY,HANDLE
CONNECTOR 20P, FEMALE “VF”
SWITCH TOGGLE “R/G/B” “ENC/RGB”

6
7
8
9
10

1-571-396-11
1-657-442-22
3-673-046-00
3-679-683-01
3-679-684-01

s
o
s
o
o

SWITCH TOGGLE “DIPS ON/OFF/MENU”
PRINTED CIRCUIT BOARD, SW-732
LEVER, LOCK
ARM,SLIDE
REST,ARM

11
12
13
14
15

3-679-685-01
3-679-686-01
3-679-698-01
3-679-702-01
3-687-116-01

o
o
o
o
o

TABEL,FIXED,VF SLIDE
TABEL,FIXED,VF SHOE
RING(C),LOCK
CUSION,STOPPER
WASHER(4), STOPPER

16
17
18
19
20

3-692-112-01
3-692-150-01
3-692-165-01
3-692-649-01
3-693-984-01

o
o
o
s
s

PLATE,MENU
SHEET,DROP PROTECTION
HOLDER,HANDOLE
SHEET, BLIND
CUSSHION, DROP PROTECTION (3)

21
22
23
24
25

3-694-196-01
3-694-197-01
3-694-198-01
3-694-199-01
3-701-442-21

s
o
s
s
s

SHEET, DUST PROTECTION (S)
SHEET, DUST PROTECTION (F)
RETAINER, DROP PROTECTION (F)
RETAINER DROP, PROTECTION (S)
WASHER, 4.5

26
27
28
29
30

3-701-506-01
3-701-508-00
3-710-039-03
3-711-765-01
3-711-794-01

s
s
s
s
o

SET SCREW, DOUBLE POINT 3X4
SET SCREW, DOUBLE POINT 3X6
SHOE, SLIDE
BOLT (M3), HEXAGON SOCKET
PIN, STOPPER

31

3-720-919-01 o RUBBER, LOCK RING

BVP-550

5-3

RIGHT PANEL AND PLUG-IN BOARDS

*2

*1

113

*3

112
105
111

114
104
110
103
*2

107

109
102

115

B4 X 12

108
101

*1

107

B4 X 12

B4 X 12

*3

107

B4 X 12

106

5-4

BVP-550

RIGHT PANEL AND PLUG-IN BOARDS

No.

Part No.

101
102
103
104
105

A-8272-560-A
A-8272-562-A
A-8272-564-A
A-8272-566-A
A-8272-568-A

o
o
o
o
o

MOUNTED
MOUNTED
MOUNTED
MOUNTED
MOUNTED

106
107
108
109
110

X-3678-480-1
3-687-116-01
3-692-125-02
3-692-126-02
3-692-127-02

o
o
o
o
o

PANEL ASSY, RIGHT
WASHER (4), STOPPER
PANEL,VA-163 PC BOARD
PANEL,AT-95 PC BOARD
PANEL,SG-234 PC BOARD

111
112
113
114
115

3-692-128-02
3-692-129-02
3-692-642-01
3-724-753-01
3-729-061-01

o
o
o
o
s

PANEL,DA-88 PC BOARD
PANEL,IF-510 PC BOARD
SHEET,SHIELD
RING
SCREW (M2X4.5) (TYPE 1)

BVP-550

SP Description
CIRCUIT
CIRCUIT
CIRCUIT
CIRCUIT
CIRCUIT

BOARD,
BOARD,
BOARD,
BOARD,
BOARD,

VA-163
AT-95
SG-234
DA-88
IF-510

5-5

LEFT PANEL AND BOARDS

B4 X 12

208

B4 X 12

204
208
208

208

B3 X 5

203

B3 X 5

B3 X 5

210
B2.6 X 5

202
209

B3 X 5

207

B2.6 X 5

206

210
210
B2.6 X 5

201

205
210

5-6

BVP-550

LEFT PANEL AND BOARDS

No.

Part No.

201
202
203
204
205

A-8272-557-A
A-8272-547-A
A-8272-559-A
X-3678-481-1
A-8272-571-A

o
o
o
o
s

MOUNTED CIRCUIT BOARD, PR-211
MOUNTED CIRCUIT BOARD, MB-602
MOUNTED CIRCUIT BOARD, CN-1142
PANEL ASSY, LEFT
CONVERTER ASSY, DC-DC

2-623-773-11
3-168-296-01
3-687-116-01
3-692-113-01
4-924-260-01

s
s
o
o
o

BOLT (M3X8), STAINLESS
PIN, ID
WASHER (4), STOPPER
WEDGE,HANGER
BOSS (D)

206
207
208
209
210

BVP-550

!

SP Description

5-7

CHASSIS AND SHOLDER PAD

Precision
P2.6 X 5

306

313

Precision
P2.6 X 5
Precision
P2 X 5

319

Precision
P2.6 X 5

307

B4 X 8
Precision
P2.6 X 5

Precision
P2.6 X 5

*4

308
*4

*3

*1

*2

301

BTP2.6 X 6

309

BTP2.6 X 6

302
*3
*1

*2

303

W2.6 SMALL

310

314

BOLT,HEXAGON
SOCKET 3 X 8
BOLT,HEXAGON
SOCKET 3 X 8

*1

B3 X 5

305
304
B3 X 5

315

316

E2

K4 X 8

B4 X 14

311
317

312

B4 X 14

318
K3 X 8

5-8

P4 X 6

K3 X 8

BVP-550

CHASSIS AND SHOLDER PAD

No.

Part No.

301
302
303
304
305

A-8272-549-A
A-8272-550-A
A-8278-237-A
A-8278-238-A
3-692-102-01

o
o
s
s
o

MOUNTED PCB, CN-1120
MOUNTED PCB, CN-1121
PAD ASSY (LARGE)
PAD ASSY (SMALL)
BRACKET V SHOE

306
307
308
309
310

3-692-114-02
3-692-115-01
3-692-117-02
3-692-119-01
3-692-641-03

o
o
o
o
o

PLATE,CONNECTOR(136P)
SHOE,LOCK
RAIL
RAIL,CAM
ROD,LOCK

311
312
313
314
315

3-692-643-02
3-692-645-01
3-692-646-01
3-692-647-01
3-693-973-01

o
o
o
o
s

BASE,V SHOE
ROD,ROTARY
SHEET,DUST PROTECTION (PS)
SPACER,PAD
SPRING, TORSION (SMALL)

316
317
318
319

3-701-444-21
3-742-011-01
3-742-015-01
4-864-521-01

s
s
o
s

WASHER, 6
SCREW, 1/4, 3/8 CONVERSION
WEDGE (B), MOUNTING
SPRING (PC BOARD GROUND)

BVP-550

SP Description

5-9

BOTTOM BLOCK

429
404
415

424

422
405
425
419
429
Precision
P2.6 X 5

402

Precision
P2.6 X 5

427
420

406

421

417

BTP2.6 X 6

409

428

Precision
P2.6 X 5

430

426

432
411
408

414

416
Precision
P2.6 X 5

B2.6 X 5

413

418
412
433

407
410
BTP2.6 X 6

431
403
423

5-10

401

BVP-550

BOTTOM BLOCK

No.

Part No.

401
402
403
404
405

1-473-315-11
1-509-184-31
1-554-088-00
1-561-781-11
1-562-222-41

406
407
408
409
410

1-570-282-21 s SWITCH KEY BOARD “VTR START”
1-571-415-11 s SWITCH TOGGLE “CAMERA/VTR”
“GAIN” “OUTPUT” WHITE BAL”
1-571-416-11 s SWITCH TOGGLE “AUTO W/B BAL”
1-571-679-11 s SWITCH TOGGLE “SHUTTER”
1-657-443-21 o PRINTED CIRCUIT BOARD, SW-730

411
412
413
414
415

1-657-444-21
1-657-445-21
1-657-446-21
1-657-447-21
1-695-841-12

o
o
o
o
s

PRINTED CIRCUIT BOARD, SW-731
PRINTED CIRCUIT BOARD, SW-733
PRINTED CIRCUIT BOARD, SW-742
PRINTED CIRCUIT BOARD, CN-1122
CONNECTOR 12P, FEMALE “LENS”

416
417
418
419
420

3-312-823-00
3-676-244-11
3-679-679-03
3-692-106-01
3-692-107-02

s
s
s
o
o

PACKING, KNOB
COVER, SW
KNOB,VR(AUDIO)
BASE,SHOULDER
COVER,FRONT SWITCH

421
422
423
424
425

3-692-108-01
3-692-110-02
3-692-111-01
3-692-149-02
3-692-644-02

o
o
s
o
o

GUARD,SWITCH
BRACKET,CONNECTOR
KNOB,RE “MIC LEVEL”
BRACKET,CONNECTOR(TEST OUT)
CAP,CONNECTOR

426
427
428
429
430

3-693-974-01
3-693-976-01
3-693-983-01
3-694-181-01
3-729-069-01

o
o
o
s
s

PLATE, SHIELD (SIDE)
PLATE, SHUTTER (FRONT)
CUSSHION, DROP PROTECTION (2)
TYPE1, AROCK PRECISION +P2.6
BUTTON, VTR START

431
432
433

3-742-065-01 o SHAFT, SHUTTER
3-742-066-11 o SPRING, SHUTTER
3-742-067-04 o LID, SHUTTER

BVP-550

SP Description
s
s
s
s
s

ENCODER ROTARY “MENU SEL”
CONNECTOR 3P, FEMALE “MIC”
SWITCH, TACTILE “CANCEL”
CONNECTOR, BNC “TEST OUT”
CONNECTOR 6P, FEMALE “REMOTE”

5-11

SCREWS AND WASHERS

No.

Part No.

SP Description

7-621-770-87
7-623-208-22
7-623-505-01
7-624-104-04
7-624-105-04

s
o
s
s
s

SCREW +B 2.6X5
SW 3,TYPE 2
LUG, 2
STOP RING 2.0, TYPE -E
STOP RING 2.3, TYPE -E

7-624-200-01
7-627-452-38
7-627-454-38
7-627-553-78
7-627-554-18

s
s
s
s
s

NUT, PUSH 1.5
SCREW,PRECISION +K 2X5
SCREW, PRECISION +K 2.6X5
SCREW,PRECISION +P 2X10
SCREW,PRECISION +P 2X3.5 TYPE1

7-627-556-57
7-627-556-58
7-671-158-01
7-682-160-09
7-682-247-04

s
s
s
s
s

PRECISION SCREW +P 2.6X5 TYPE1
SCREW +P 2.6X5
BALL, STAINLESS (2.5 DIA)
SCREW +P 4X6
SCREW +K 3X6

7-682-248-09
7-682-261-09
7-682-545-04
7-682-546-04
7-682-546-09

s
s
s
s
s

SCREW
SCREW
SCREW
SCREW
SCREW

7-682-561-09
7-682-563-09
7-682-564-09
7-682-576-09
7-683-404-04

s
s
s
s
s

SCREW +B 4X8
SCREW +B 4X12
SCREW +B 4X14
SCREW +B 5X12
BOLT,HEXAGON SOCKET 3X8

7-683-405-04
7-683-412-05
7-685-104-19
7-685-134-19
7-685-533-19

s
s
s
s
s

BOLT,HEXAGON SOCKET 3X10
BOLT,HEXAGON SOCKET 2.6X6
SCREW +P 2X6 TYPE2 NON-SLIT
SCREW +P 2.6X8 TYPE2 NON-SLIT
SCREW +BTP 2.6X6 TYPE2 N-S

+K
+K
+B
+B
+B

3X8
4X8
3X4
3X5
3X5

7-688-002-02 s W2.6, SHALL
7-688-003-02 s W 3, SMALL

5-12

BVP-550

5-3. Electrical Parts List
----------AT-95 BOARD
----------Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
1pc
1pc
6pcs

A-8272-562-A
3-692-126-02
3-724-753-01
3-729-061-01

C55
C56
C57
C58
C59

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-927-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

25V
25V
25V
25V
100PF 5% 50V

BT1

1-550-104-32 s HOLDER, BATTERY

C1
C2
C3
C4
C5

1-162-927-11
1-162-964-11
1-164-156-11
1-164-156-11
1-107-688-11

s
s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP,TANTALUM 1.5uF 20% 25V

C60
C61
C62
C63
C64

1-162-927-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

100PF 5% 50V
25V
25V
25V
25V

C6
C7
C8
C9
C10

1-164-156-11
1-107-688-11
1-126-392-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CHIP,TANTALUM 1.5uF 20% 25V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C65
C66
C67
C68
C69

1-164-156-11
1-162-927-11
1-162-927-11
1-162-927-11
1-162-927-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP

25V
100PF
100PF
100PF
100PF

C11
C12
C13
C14
C16

1-164-156-11
1-135-165-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C70
C71
C80
C81

1-162-927-11
1-131-360-00
1-164-156-11
1-126-935-11

s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
TANTALUM 15uF 10% 10V
CERAMIC 0.1uF 25V
ELECT, CHIP 470uF 20% 16V

CNI36

1-540-197-11 o SOCKET, IC

C17
C18
C19
C20
C21

1-135-215-21
1-164-156-11
1-126-392-11
1-164-156-11
1-162-927-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 100PF 5% 50V

D1
D2
D3
D4
D5

8-719-029-63
8-719-820-41
8-719-974-76
8-719-974-76
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
1SS302
HSM107S
HSM107S
1SS302

C22
C23
C24
C25
C26

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

D6
D7
D8
D10
D11

8-719-974-76
8-719-974-76
8-719-974-76
8-719-974-76
8-719-974-76

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM107S
HSM107S
HSM107S
HSM107S
HSM107S

C27
C28
C29
C30
C31

1-164-156-11
1-162-970-11
1-164-156-11
1-164-156-11
1-135-180-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 3.3uF 20% 6.3V

D12
D13
D15
D16
D17

8-719-974-76
8-719-974-76
8-719-974-76
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM107S
HSM107S
HSM107S
1SS302
1SS302

C32
C33
C34
C35
C36

1-162-966-11
1-162-970-11
1-135-076-21
1-162-970-11
1-162-970-11

s
s
s
s
s

CERAMIC, CHIP 0.0022uF 10% 50V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 1uF 10% 35V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 0.01uF 10% 25V

D18
D19
D20
D21
D22

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

C37
C38
C39
C40
C41

1-164-156-11
1-164-156-11
1-162-970-11
1-135-085-21
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 4.7uF 10% 25V
CERAMIC, CHIP 0.01uF 10% 25V

IC1
IC2
IC3
IC4
IC5

8-759-252-59
8-759-242-78
8-759-079-74
8-759-076-06
8-759-076-06

s
s
s
s
s

IC
IC
IC
IC
IC

MAX202CSE
TC7W02F
TC74VHC157FS(EL)
TL064CPW
TL064CPW

C42
C43
C44
C45
C46

1-162-964-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

IC6
IC7
IC8
IC9
IC11

8-759-637-07
8-759-089-61
8-759-082-60
8-759-076-06
8-759-711-50

s
s
s
s
s

IC
IC
IC
IC
IC

M62021FP
TC74HC4052AFS(EL)
TC7S66FU
TL064CPW
NJU7022M

C47
C48
C49
C50
C51

1-164-156-11
1-135-215-21
1-164-156-11
1-135-157-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V

IC12
IC13
IC14
IC15
IC17

8-759-711-50
8-759-059-50
8-759-082-57
8-759-083-94
8-759-058-64

s
s
s
s
s

IC
IC
IC
IC
IC

NJU7022M
MB88351PFV
TC7W04FU
TC7W74FU
TC7S32FU(TE85R)

C52
C53
C54

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

IC18
IC19
IC20
IC21

8-759-271-84
8-759-271-86
8-759-196-96
8-759-271-84

s
s
s
s

IC
IC
IC
IC

TC7SH02FU
TC7SH04FU
TC7SH08FU-TE85R
TC7SH02FU

BVP-550

o
o
o
s

MOUNTED CIRCUIT BOARD, AT-95
PANEL,AT-95 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

SP Description

25V
25V
25V
25V
0.01uF 10% 25V

0.001uF 10% 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V
0.1uF 25V

5%
5%
5%
5%

50V
50V
50V
50V

5-13

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

IC22
IC23
IC24
IC25
IC26

8-759-196-97
8-759-186-31
8-759-079-70
8-759-065-20
8-752-337-91

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH32FU-TE85R
TC74VHC20F
TC74VHC138FS(EL)
RTC-4553B
CXK58257ATM-70LL

R23
R25
R26
R28
R29

1-216-794-11
1-216-821-11
1-216-809-11
1-218-889-11
1-216-857-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP

IC27
IC28
IC29
IC30
IC31

8-759-154-60
8-759-154-60
8-759-149-10
8-759-271-84
8-759-196-97

s
s
s
s
s

IC
IC
IC
IC
IC

UPD71055GB-10-3B4
UPD71055GB-10-3B4
UPD4702G
TC7SH02FU
TC7SH32FU-TE85R

R30
R31
R32
R33
R34

1-218-858-11
1-218-720-11
1-216-839-11
1-216-862-11
1-216-857-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 33K 5% 1/16W
METAL 2.7M 5% 1/16W
METAL, CHIP 1M 5% 1/16W

IC32
IC33
IC34
IC35
IC36

8-759-242-78
8-759-186-53
8-759-186-53
8-759-277-99

s
s
s
s

IC
IC
IC
IC
IC

TC7W02F
TC74VHC163F
TC74VHC163F
CXD8889R
PENDING

R35
R36
R37
R38
R39

1-216-857-11
1-216-857-11
1-216-863-11
1-216-857-11
1-216-857-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 3.3M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W

IC37
IC38
IC39
IC40
IC41

8-759-196-96
8-759-182-95
8-759-079-85
8-759-079-61
8-759-195-81

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH08FU-TE85R
HD151015T
TC74VHC244FS(EL)
TC74VHC74FS(EL)
TC7S86FU

R40
R41
R42
R43
R44

1-218-716-11
1-218-724-11
1-216-819-11
1-216-821-11
1-218-867-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 680 5% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W

IC42
IC43
IC44
IC45
IC46

8-759-186-53
8-759-082-57
8-759-186-53
8-759-083-94
8-759-165-37

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC163F
TC7W04FU
TC74VHC163F
TC7W74FU
X24164SIC7000

R45
R46
R47
R48
R49

1-216-825-11
1-216-821-11
1-218-716-11
1-218-873-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL 10K 0.50% 1/16W

IC47
IC48

8-759-078-75 s IC UPD6453GT-610
8-759-276-00 s IC TC7W139FU(TE12R)

L1
L2

1-410-737-31 s INDUCTOR CHIP 0.47uH
1-410-377-31 s INDUCTOR CHIP 4.7uH

R50
R51
R52
R53
R54

1-218-724-11
1-216-821-11
1-216-821-11
1-216-809-11
1-216-836-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP

Q1
Q2
Q3
Q4
Q5

8-729-141-48
8-729-402-19
8-729-920-48
8-729-925-47
8-729-920-48

R55
R56
R57
R58
R59

1-218-867-11
1-216-824-11
1-218-716-11
1-218-873-11
1-216-820-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
METAL, CHIP 1.8K 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL, CHIP 820 5% 1/16W

Q6

8-729-920-48 s TRANSISTOR IMH2

R1
R2
R3
R4
R5

1-216-794-11
1-216-833-11
1-216-831-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

5.6 5% 1/16W
10K 5% 1/16W
6.8K 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R60
R61
R62
R63
R64

1-216-855-11
1-216-854-11
1-218-752-11
1-216-854-11
1-218-750-11

s
s
s
s
s

METAL, CHIP 680K
METAL, CHIP 560K
METAL 330K 0.50%
METAL, CHIP 560K
METAL 270K 0.50%

R6
R7
R8
R9
R10

1-216-821-11
1-216-809-11
1-216-829-11
1-216-833-11
1-216-837-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100 5% 1/16W
4.7K 5% 1/16W
10K 5% 1/16W
22K 5% 1/16W

R66
R70
R71
R72
R73

1-216-821-11
1-216-857-11
1-216-829-11
1-216-821-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1M 5% 1/16W
4.7K 5% 1/16W
1K 5% 1/16W
4.7K 5% 1/16W

R11
R12
R13
R14
R15

1-216-845-11
1-216-794-11
1-216-864-11
1-216-821-11
1-216-864-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
5.6 5% 1/16W
0 5% 1/16W
1K 5% 1/16W
0 5% 1/16W

R74
R75
R76
R77
R78

1-216-829-11
1-216-829-11
1-216-809-11
1-216-809-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

4.7K 5% 1/16W
4.7K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
10 5% 1/16W

R16
R17
R18
R19
R20

1-216-809-11
1-216-858-11
1-218-723-11
1-216-692-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 100 5% 1/16W
METAL, CHIP 1.2M 5% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 1K 0.5% 1/16W
METAL, CHIP 100 5% 1/16W

R79
R80
R81
R82
R83

1-216-828-11
1-216-797-11
1-216-797-11
1-218-866-11
1-216-797-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP

3.9K 5% 1/16W
10 5% 1/16W
10 5% 1/16W
6.2K 0.50% 1/16W
10 5% 1/16W

R21
R22

1-218-668-11 s CHIP, METAL 100 0.50% 1/16W
1-218-724-11 s CHIP, METAL 22K 5% 1/16W

R84
R85
R86
R87

1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

10
10
10
10

5-14

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
XN6501
IMH2
IMB2
IMH2

CHIP
CHIP
CHIP
CHIP

5.6 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
56K 0.50% 1/16W
1M 5% 1/16W

22K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
18K 5% 1/16W

5%
5%
5%
5%

5% 1/16W
5% 1/16W
1/16W
5% 1/16W
1/16W

1/16W
1/16W
1/16W
1/16W

BVP-550

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R88
R89
R90
R91
R92

1-216-797-11
1-216-841-11
1-216-841-11
1-216-797-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W
10 5% 1/16W
10 5% 1/16W

R151
R152
R153
R154
R155

1-216-821-11
1-216-841-11
1-216-845-11
1-216-833-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R93
R94
R95
R96
R97

1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10 5% 1/16W
10 5% 1/16W
10 5% 1/16W
10 5% 1/16W
100K 5% 1/16W

R160
R161
R162
R163
R164

1-216-821-11
1-216-862-11
1-216-864-11
1-216-864-11
1-218-751-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 2.7M 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 300K 0.50% 1/16

R98
R99
R100
R101
R102

1-216-845-11
1-216-845-11
1-216-833-11
1-216-833-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
1K 5% 1/16W

R165

1-218-858-11 s CHIP, METAL 3K 0.50% 1/16W

RV1

1-237-035-11 s RES, ADJ METAL 5K

S1

1-692-270-21 s SWITCH, SLIDE

R103
R104
R105
R106
R107

1-216-821-11
1-216-845-11
1-216-809-11
1-216-849-11
1-216-841-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
220K 5% 1/16W
47K 5% 1/16W

R108
R109
R110
R111
R114

1-216-841-11
1-216-841-11
1-216-825-11
1-216-825-11
1-216-825-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47K 5% 1/16W
47K 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W

R115
R118
R119
R120
R121

1-216-825-11
1-216-809-11
1-216-809-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

2.2K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R122
R123
R124
R125
R126

1-216-809-11
1-216-821-11
1-216-821-11
1-216-821-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W

R127
R128
R129
R130
R131

1-216-809-11
1-216-809-11
1-216-809-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R132
R133
R134
R135
R136

1-216-841-11
1-216-841-11
1-216-833-11
1-216-841-11
1-216-841-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47K
47K
10K
47K
47K

R137
R138
R139
R140
R141

1-216-821-11
1-216-809-11
1-216-821-11
1-216-821-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W

R142
R143
R144
R145
R146

1-216-821-11
1-216-821-11
1-216-841-11
1-216-809-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
47K 5% 1/16W
100 5% 1/16W
100K 5% 1/16W

R147
R148
R149
R150

1-216-845-11
1-216-845-11
1-216-845-11
1-216-809-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W

BVP-550

5%
5%
5%
5%
5%

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
47K 5% 1/16W
100K 5% 1/16W
10K 5% 1/16W
100K 5% 1/16W

1/16W
1/16W
1/16W
1/16W
1/16W

5-15

------------CN-1120 BOARD
------------Ref. No.
or Q'ty Part No.

------------CN-1121 BOARD
------------Ref. No.
or Q'ty Part No.

SP Description

SP Description

1pc

A-8272-549-A o MOUNTED CIRCUIT BOARD, CN-1120

1pc

A-8272-550-A o MOUNTED CIRCUIT BOAAD, CN-1121

C1
C2
C3
C4
C5

1-163-275-11
1-163-275-11
1-163-275-11
1-163-275-11
1-163-275-11

CN101
CN102

1-569-531-11 s HOUSING, 20P
1-569-532-11 s HOUSING, 30P

C6

1-163-275-11 s CERAMIC 0.001uF 5% 50V

FL1
FL2
FL3
FL4
FL5

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

CN201
CN202

1-569-532-11 s HOUSING, 30P
1-569-532-11 s HOUSING, 30P

FL1
FL2
FL3
FL4
FL5

1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL6
FL7
FL8
FL9
FL10

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL6
FL7
FL8
FL9
FL10

1-239-825-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL11
FL12
FL13
FL14
FL15

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL11
FL12
FL13
FL14
FL15

1-239-719-11
1-239-825-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL16
FL17
FL18
FL19
FL20

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL16
FL17
FL18
FL19
FL20

1-239-825-11
1-239-719-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL21
FL22
FL23
FL24
FL25

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL21
FL22
FL23
FL24
FL25

1-239-825-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL26
FL27
FL28
FL30
FL31

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL26
FL27
FL28
FL29
FL30

1-239-719-11
1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL32
FL33
FL34
FL35
FL37

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL38
FL39

1-239-719-11 s FILTER, CHIP EMI
1-239-719-11 s FILTER, CHIP EMI

FL31
FL32
FL33
FL34
FL35

1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

R1
R2

1-216-295-11 s CHIP, CONDUCTOR 0
1-216-295-11 s CHIP, CONDUCTOR 0

FL36
FL37
FL38
FL39
FL40

1-239-825-11
1-239-825-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL41
FL42
FL43
FL44

1-239-719-11
1-239-719-11
1-239-825-11
1-239-825-11

s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI

5-16

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.001uF
0.001uF
0.001uF
0.001uF
0.001uF

5%
5%
5%
5%
5%

50V
50V
50V
50V
50V

BVP-550

------------CN-1122 BOARD
------------Ref. No.
or Q'ty Part No.

----------DA-88 BOARD
----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-447-21 o PRINTED CIRCUIT BOARD, CN-1122

C1
C2
C5

1-128-592-11 s ELECT 0.33uF 20% 50V
1-128-592-11 s ELECT 0.33uF 20% 50V
1-126-968-11 s CHIP, ELECT 100uF 20% 50V

CN401
CN402
CN405
CN406
CN407

1-569-629-11
1-695-890-21
1-764-082-21
1-764-078-11
1-695-207-21

R1
R2
R3

1-218-708-11 s METAL 4.7K 0.50% 1/16W
1-218-708-11 s METAL 4.7K 0.50% 1/16W
1-215-421-00 s METAL 1K 1% 1/6W

------------CN-1142 BOARD
------------Ref. No.
or Q'ty Part No.
1pc

BVP-550

s
o
s
s
o

HOUSING, 24P
PIN, CONNECTOR
PIN, CONNECTOR
PIN, CONNECTOR
PIN, CONNECTOR

(PC
(PC
(PC
(PC

BOARD)
BOARD)
BOARD)
BOARD)

12P
11P
3P
6P

SP Description

A-8272-559-A o MOUNTED CIRCUIT BOARD, CN-1142

SP Description

1pc
1pc
1pc
6pcs

A-8272-566-A
3-692-128-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, DA-88
PANEL,DA-88 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-215-21
1-135-160-21
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C6
C7
C8
C9
C10

1-135-160-21
1-164-156-11
1-162-923-11
1-165-176-11
1-135-160-21

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 47PF 5% 50V
CERAMIC, CHIP 0.047uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-135-177-21
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C16
C17
C18
C19
C20

1-135-216-11
1-135-216-11
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C21
C23
C24
C25
C26

1-162-915-11
1-164-156-11
1-164-156-11
1-135-215-21
1-135-216-11

s
s
s
s
s

CERAMIC, CHIP 10PF 5PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V

C27
C28
C29
C30
C31

1-135-216-11
1-135-216-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C32
C33
C34
C35
C36

1-164-156-11
1-162-970-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C37
C38
C39
C40
C41

1-164-156-11
1-164-156-11
1-162-970-11
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C42
C43
C44
C45
C46

1-164-156-11
1-164-156-11
1-164-156-11
1-162-919-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

C47
C48
C49
C50
C51

1-164-156-11
1-162-913-11
1-162-907-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 8PF 0.5PF 50V
CERAMIC, CHIP 2PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C52
C53
C54
C55
C56

1-164-156-11
1-164-156-11
1-135-215-21
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

25V
25V
25V
22PF 5% 50V
0.01uF 10% 25V

5-17

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C57
C58
C59
C61
C64

1-135-177-21
1-135-177-21
1-164-315-11
1-135-216-11
1-162-905-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 470PF 5% 50V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 1PF 0.25PF 50V

C132
C133
C134
C136
C137

1-162-905-11
1-162-915-11
1-162-921-11
1-162-915-11
1-162-921-11

s
s
s
s
s

CERAMIC 1PF 0.25PF
CERAMIC, CHIP 10PF
CERAMIC, CHIP 33PF
CERAMIC, CHIP 10PF
CERAMIC, CHIP 33PF

C65
C66
C67
C68
C69

1-162-915-11
1-162-921-11
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF

C138
C140
C141
C142
C143

1-162-970-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C70
C71
C72
C73
C74

1-162-913-11
1-162-907-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 8PF 0.5PF 50V
CERAMIC, CHIP 2PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C144
C145
C146
C147
C148

1-135-215-21
1-162-907-11
1-135-177-21
1-135-177-21
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C75
C76
C77
C81
C82

1-164-156-11
1-135-162-21
1-135-215-21
1-162-970-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V

C149
C150
C151
C154
C155

1-135-177-21
1-164-156-11
1-135-215-21
1-162-905-11
1-162-915-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 1PF 0.25PF 50V
CERAMIC, CHIP 10PF 5PF 50V

C83
C84
C85
C87
C88

1-135-215-21
1-162-970-11
1-162-918-11
1-162-905-11
1-162-921-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 18PF 5% 50V
CERAMIC 1PF 0.25PF 50V
CERAMIC, CHIP 33PF 5% 50V

C166
C167
C169
C170
C171

1-135-216-11
1-164-156-11
1-135-215-21
1-135-215-21
1-135-215-21

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V

C89
C90
C92
C93
C95

1-162-919-11
1-162-911-11
1-164-156-11
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 22PF 5% 50V
CERAMIC, CHIP 6PF 50V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C172
C200
C201
C202
C203

1-135-215-21
1-164-156-11
1-164-156-11
1-135-215-21
1-162-907-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V

C96
C97
C98
C99
C100

1-164-156-11
1-164-156-11
1-164-156-11
1-135-215-21
1-162-907-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V

C204
C205
C206
C207
C208

1-164-156-11
1-162-907-11
1-135-215-21
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C101
C102
C103
C104
C105

1-135-177-21
1-135-177-21
1-135-177-21
1-135-177-21
1-164-315-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
CERAMIC 470PF 5% 50V

C209
C210
C211
C213
C214

1-164-156-11
1-135-215-21
1-164-156-11
1-162-909-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 0.1uF 25V

C106
C107
C109
C110
C113

1-164-156-11
1-135-215-21
1-164-156-11
1-135-160-21
1-162-905-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 1PF 0.25PF 50V

C215
C216
C217
C218
C219

1-135-215-21
1-164-156-11
1-135-215-21
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C114
C115
C118
C119
C120

1-162-915-11
1-162-927-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C220
C221
C222
C223
C225

1-164-156-11
1-164-156-11
1-164-156-11
1-162-915-11
1-162-915-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

C121
C122
C123
C124
C125

1-164-156-11
1-135-215-21
1-162-907-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C226
C228
C229
C230
C231

1-162-915-11
1-135-160-21
1-162-908-11
1-162-908-11
1-162-908-11

s
s
s
s
s

CERAMIC, CHIP 10PF 5PF 50V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 3PF 0.25PF 50V
CERAMIC 3PF 0.25PF 50V
CERAMIC 3PF 0.25PF 50V

C126
C127
C128
C129

1-135-177-21
1-135-177-21
1-164-156-11
1-135-215-21

s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C500

1-162-905-11 s CERAMIC 1PF 0.25PF 50V

D1
D2

8-719-029-63 s DIODE RD4.3UH-T1
8-719-029-63 s DIODE RD4.3UH-T1

5-18

10PF 5PF 50V
33PF 5% 50V
0.01uF 10% 25V
25V
25V

25V
25V
25V
25V

10PF 5PF 50V
100PF 5% 50V
25V
25V
25V

50V
5PF 50V
5% 50V
5PF 50V
5% 50V

0.01uF 10% 25V
25V
25V
25V
25V

25V
25V
25V
10PF 5PF 50V
10PF 5PF 50V

BVP-550

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

D3
D5
D6
D7
D9

8-719-029-63
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
1SS302
1SS302
1SS302
1SS302

IC100
IC101
IC102
IC103
IC104

8-759-058-62
8-759-058-58
8-759-082-59
8-759-058-64
8-759-058-54

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S08FU(TE85R)
TC7S04FU(TE85R)
TC7W32FU
TC7S32FU(TE85R)
TC7S00FU(TE85R)

D10
D11
D12
D13
D14

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

IC105
IC106
IC107
IC108
IC109

8-759-058-64
8-759-058-62
8-759-196-96
8-759-058-54
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S32FU(TE85R)
TC7S08FU(TE85R)
TC7SH08FU-TE85R
TC7S00FU(TE85R)
TC7S08FU(TE85R)

D15
D16
D17
D24
D25

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

IC110

8-759-058-58 s IC TC7S04FU(TE85R)

JR1
JR2
JR3
JR4

1-216-864-11
1-216-864-11
1-216-864-11
1-216-864-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

D26
D100
D101
D102

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302

FL1
FL2
FL3
FL4
FL5

1-239-754-11
1-239-753-11
1-233-240-21
1-239-753-11
1-233-240-21

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

L1
L2
L3
L4
L5

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

FL6
FL7
FL8

1-239-754-11 s FILTER, LOW PASS
1-239-754-11 s FILTER, LOW PASS
1-239-754-11 s FILTER, LOW PASS

L6
L7
L8
L9
L10

1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH

IC1
IC2
IC3
IC4
IC5

8-759-066-68
8-759-076-06
8-759-632-39
8-752-360-44
8-752-360-44

s
s
s
s
s

IC
IC
IC
IC
IC

REF-03GS
TL064CPW
M51958A-T1
CXK1203AR
CXK1203AR

L11
L12
L13
L14
L15

1-410-385-11
1-410-392-11
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 82uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH

IC6
IC7
IC8
IC9
IC10

8-752-360-44
8-752-363-60
8-759-079-46
8-759-058-54
8-759-086-42

s
s
s
s
s

IC
IC
IC
IC
IC

CXK1203AR
CXD2307R-T4
TC74VHC00FS(EL)
TC7S00FU(TE85R)
X24C02S-3.0-C7000

L16
L17
L18
L19
L20

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

IC11
IC12
IC13
IC14
IC15

8-759-058-58
8-759-058-62
8-759-237-79
8-759-064-36
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S04FU(TE85R)
TC7S08FU(TE85R)
TC74HC595AF(EL)
MB88346BPFV
TC4W53FU

L21
L22
L23
L24
L25

1-410-737-31
1-410-737-31
1-410-737-31
1-410-389-31
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 47uH
INDUCTOR, CHIP 22uH

IC16
IC17
IC18
IC19
IC20

8-759-981-48
8-759-082-61
8-759-082-61
8-759-079-85
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TL082M
TC4W53FU
TC4W53FU
TC74VHC244FS(EL)
TC4W53FU

Q1
Q2
Q3
Q4
Q7

8-729-141-48
8-729-141-75
8-729-141-75
8-729-117-73
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SD596DV345
2SD596DV345
2SC4178-F14
2SC4177

IC23
IC24
IC25
IC26
IC27

8-759-287-54
8-759-082-61
8-759-089-61
8-759-066-59
8-759-287-54

s
s
s
s
s

IC
IC
IC
IC
IC

TL084CPW-E20
TC4W53FU
TC74HC4052AFS(EL)
TC74HC4053AFS
TL084CPW-E20

Q8
Q9
Q10
Q11
Q12

8-729-117-16
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

IC28
IC29
IC34
IC35
IC36

8-759-089-61
8-759-082-61
8-759-271-86
8-759-180-08
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

TC74HC4052AFS(EL)
TC4W53FU
TC7SH04FU
TC74HC4538AFS
TC74HC595AF(EL)

Q13
Q14
Q15
Q16
Q17

8-729-122-63
8-729-122-63
8-729-122-63
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SA1226
2SC4177
2SA1226

IC37

8-759-082-59 s IC TC7W32FU

Q18
Q19
Q20

8-729-142-90 s TRANSISTOR 2SK853-K5
8-729-403-32 s TRANSISTOR XN6534
8-729-920-48 s TRANSISTOR IMH2

BVP-550

LOW
LOW
LOW
LOW
LOW

PASS
PASS
PASS
PASS
PASS

CHIP
CHIP
CHIP
CHIP

0
0
0
0

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W

0.47uH
0.47uH
0.47uH
0.47uH
0.47uH

0.47uH
0.47uH
0.47uH
0.47uH
0.47uH

5-19

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

Q22
Q23
Q25
Q26
Q27

8-729-122-63
8-729-102-08
8-729-117-32
8-729-117-16
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SC2223-F14
2SC4177
2SA1611-M6
2SC4178-F14

Q28
Q29
Q30
Q32
Q33

8-729-117-73
8-729-117-73
8-729-117-73
8-729-122-63
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1226
2SC2223-F14

Q34
Q43
Q44
Q45
Q46

8-729-102-08
8-729-403-32
8-729-102-08
8-729-117-16
8-729-920-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
XN6534
2SC2223-F14
2SA1611-M6
IMH2

Q47
Q48
Q49
Q50
Q51

8-729-117-32
8-729-117-73
8-729-122-63
8-729-122-63
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SA1226
2SA1226
2SA1226

Q52
Q53
Q54
Q59
Q63

8-729-117-32
8-729-122-63
8-729-142-90
8-729-403-32
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SK853-K5
XN6534
2SC2223-F14

Q67
Q68
Q69
Q70
Q71

8-729-117-73
8-729-122-63
8-729-122-63
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1226
2SA1226
2SC4177
2SA1226

Q72
Q73
Q75
Q79
Q83

8-729-142-90
8-729-122-63
8-729-403-32
8-729-102-08
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SK853-K5
2SA1226
XN6534
2SC2223-F14
2SC4177

Q84
Q85
Q86
Q87
Q88

8-729-117-16
8-729-117-73
8-729-122-63
8-729-122-63
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4178-F14
2SA1226
2SA1226
2SA1226

Q89
Q90
Q91
Q92
Q94

8-729-117-32
8-729-122-63
8-729-142-90
8-729-122-63
8-729-403-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SK853-K5
2SA1226
XN6534

Q98
Q100
Q101
Q102
Q103

8-729-102-08
8-729-403-32
8-729-102-08
8-729-122-63
8-729-403-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
XN6534
2SC2223-F14
2SA1226
XN6534

Q104
Q105
Q106
Q107
Q108

8-729-102-08
8-729-029-14
8-729-029-14
8-729-102-08
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
DTC144EUA-T106
DTC144EUA-T106
2SC2223-F14
2SC2223-F14

Q109
Q110
Q111
Q112

8-729-102-08
8-729-102-08
8-729-102-08
8-729-102-08

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
2SC2223-F14
2SC2223-F14
2SC2223-F14

5-20

SP Description

Q113
Q114
Q115
Q117

8-729-102-08
8-729-102-08
8-729-102-08
8-729-122-63

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

R1
R2
R3
R4
R5

1-216-864-11
1-216-845-11
1-216-821-11
1-218-677-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W

R6
R7
R8
R9
R10

1-218-724-11
1-216-821-11
1-216-809-11
1-216-864-11
1-218-724-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

R11
R12
R13
R14
R15

1-218-724-11
1-218-729-11
1-216-864-11
1-218-723-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R16
R17
R18
R19
R20

1-216-821-11
1-218-676-11
1-218-698-11
1-218-676-11
1-216-805-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R21
R22
R23
R24
R25

1-218-704-11
1-216-805-11
1-220-158-91
1-216-809-11
1-216-832-11

s
s
s
s
s

METAL 3.3K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 8.2K 5% 1/16W

R26
R27
R33
R34
R35

1-216-803-11
1-216-864-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R36
R37
R38
R39
R40

1-216-845-11
1-216-845-11
1-216-845-11
1-218-676-11
1-218-676-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 220 0.50% 1/16W

R41
R42
R43
R44
R45

1-218-676-11
1-218-704-11
1-218-704-11
1-218-704-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

220 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
33K 0.50% 1/16W

R46
R47
R48
R49
R50

1-218-724-11
1-218-730-11
1-218-883-11
1-218-724-11
1-218-730-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

METAL 22K
METAL 39K
33K 0.50%
METAL 22K
METAL 39K

R51
R52
R53
R54
R56

1-218-883-11
1-218-724-11
1-218-730-11
1-216-797-11
1-216-857-11

s
s
s
s
s

METAL 33K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 39K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
METAL, CHIP 1M 5% 1/16W

R57
R58
R59
R60
R61
R62

1-218-676-11
1-218-692-11
1-216-805-11
1-216-805-11
1-216-829-11
1-216-829-11

s
s
s
s
s
s

METAL 220 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

2SC2223-F14
2SC2223-F14
2SC2223-F14
2SA1226

22K 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
0 5% 1/16W
22K 5% 1/16W

33 5% 1/16W
0 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

5% 1/16W
0.50% 1/16W
1/16W
5% 1/16W
0.50% 1/16W

BVP-550

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R63
R64
R65
R66
R67

1-218-692-11
1-218-708-11
1-218-692-11
1-216-805-11
1-218-708-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 4.7K 0.50% 1/16W

R127
R128
R129
R130
R131

1-216-845-11
1-216-832-11
1-216-830-11
1-216-832-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R68
R69
R70
R71
R72

1-218-692-11
1-216-805-11
1-220-158-91
1-220-158-91
1-216-805-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R135
R136
R137
R142
R145

1-216-833-11
1-216-833-11
1-216-833-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R73
R74
R75
R76
R77

1-216-829-11
1-218-856-11
1-218-710-11
1-218-708-11
1-218-705-11

s
s
s
s
s

METAL, CHIP 4.7K
CHIP, METAL 2.4K
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%

R146
R147
R148
R149
R150

1-218-676-11
1-218-710-11
1-218-706-11
1-218-694-11
1-218-700-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
METAL

220 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 1.2K 0.50% 1/16W
2.2K 0.50% 1/16W

R78
R79
R80
R81
R82

1-218-700-11
1-218-705-11
1-218-708-11
1-216-809-11
1-216-845-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R151
R152
R153
R154
R155

1-218-702-11
1-218-692-11
1-218-700-11
1-218-700-11
1-211-990-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 2.7K 0.50% 1/16W
METAL 1K 0.50% 1/16W
2.2K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 75 0.50% 1/16W

R83
R84
R85
R87
R88

1-216-845-11
1-218-708-11
1-218-724-11
1-218-702-11
1-218-724-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R156
R157
R158
R159
R160

1-216-845-11
1-216-809-11
1-216-864-11
1-218-698-11
1-218-676-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W

R89
R90
R91
R92
R93

1-218-706-11
1-218-710-11
1-218-700-11
1-216-837-11
1-216-845-11

s
s
s
s
s

METAL 3.9K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL, CHIP 22K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R161
R162
R163
R164
R165

1-220-158-91
1-216-805-11
1-216-829-11
1-218-672-11
1-218-710-11

s
s
s
s
s

CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R94
R95
R96
R97
R98

1-218-708-11
1-218-858-11
1-218-699-11
1-218-668-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R166
R167
R168
R169
R170

1-218-708-11
1-218-705-11
1-218-700-11
1-218-858-11
1-218-705-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
METAL

R99
R100
R101
R102
R103

1-216-825-11
1-216-830-11
1-218-720-11
1-218-716-11
1-218-725-11

s
s
s
s
s

METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
METAL 15K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 24K 0.50% 1/16W

R171
R172
R173
R174
R175

1-216-845-11
1-216-809-11
1-216-845-11
1-218-708-11
1-218-724-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R105
R106
R107
R108
R110

1-216-845-11
1-216-845-11
1-216-809-11
1-216-809-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R177
R178
R184
R185
R186

1-218-867-11
1-218-724-11
1-218-828-11
1-218-648-11
1-218-661-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

R111
R112
R113
R114
R115

1-216-805-11
1-216-829-11
1-216-829-11
1-218-692-11
1-218-708-11

s
s
s
s
s

METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R187
R188
R190
R191
R192

1-211-990-11
1-218-702-11
1-216-829-11
1-218-700-11
1-218-710-11

s
s
s
s
s

CHIP, METAL 75 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 2.2K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R116
R117
R118
R119
R120

1-218-692-11
1-218-708-11
1-218-846-11
1-218-692-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 910 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R193
R194
R195
R196
R197

1-218-706-11
1-218-700-11
1-218-702-11
1-218-720-11
1-218-740-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

3.9K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
15K 0.50% 1/16W
100K 0.50% 1/16W

R121
R122
R123
R124

1-216-805-11
1-220-158-91
1-220-158-91
1-216-805-11

s
s
s
s

METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R198
R199
R200
R201

1-218-858-11
1-211-990-11
1-218-668-11
1-218-720-11

s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL

BVP-550

5% 1/16W
0.50% 1/16W
0.50% 1/16W
1/16W
1/16W

4.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
47 5% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

100K
8.2K
5.6K
8.2K
4.7K

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

4.7K 0.50% 1/16W
3.6K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 3K 0.50% 1/16W
3.6K 0.50% 1/16W

METAL 6.8K 0.50% 1/16W
METAL 22K 5% 1/16W
160 0.50% 1/16W
15 0.50% 1/16W
METAL 51 0.50% 1/16W

3K 0.50% 1/16W
75 0.50% 1/16W
100 0.50% 1/16W
15K 0.50% 1/16W

5-21

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R202
R205
R206
R207
R208

1-218-720-11
1-218-699-11
1-218-732-11
1-218-725-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 15K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL 47K 0.50% 1/16W
METAL 24K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R267
R268
R269
R270
R271

1-218-700-11
1-218-858-11
1-218-705-11
1-216-845-11
1-216-809-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W

R209
R210
R211
R212
R213

1-218-698-11
1-218-676-11
1-220-158-91
1-216-805-11
1-216-829-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R272
R273
R274
R275
R276

1-216-845-11
1-218-841-11
1-218-697-11
1-218-672-11
1-218-864-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
CHIP, METAL 560 0.50% 1/16W
METAL 1.6K 0.50% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 5.1K 0.50% 1/16W

R214
R215
R216
R217
R218

1-216-864-11
1-218-710-11
1-218-708-11
1-218-705-11
1-218-700-11

s
s
s
s
s

METAL, CHIP 0 5%
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%
METAL 2.2K 0.50%

R277
R278
R280
R281
R282

1-218-675-11
1-216-829-11
1-218-672-11
1-218-867-11
1-218-706-11

s
s
s
s
s

CHIP, METAL 200 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.9K 0.50% 1/16W

R219
R220
R221
R222
R223

1-218-858-11
1-218-705-11
1-216-845-11
1-216-809-11
1-216-845-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R283
R284
R285
R288
R289

1-218-710-11
1-218-700-11
1-218-702-11
1-218-858-11
1-211-990-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 5.6K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 75 0.50% 1/16W

R224
R225
R226
R227
R228

1-218-841-11
1-218-697-11
1-218-672-11
1-218-864-11
1-218-675-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
CHIP,

METAL 560 0.50% 1/16W
1.6K 0.50% 1/16W
150 0.50% 1/16W
METAL 5.1K 0.50% 1/16W
METAL 200 0.50% 1/16W

R290
R293
R294
R295
R300

1-218-668-11
1-218-714-11
1-218-724-11
1-218-732-11
1-218-868-11

s
s
s
s
s

CHIP,
METAL
CHIP,
METAL
CHIP,

METAL 100 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 22K 5% 1/16W
47K 0.50% 1/16W
METAL 7.5K 0.50% 1/16W

R229
R231
R232
R233
R234

1-216-829-11
1-218-829-11
1-218-867-11
1-218-706-11
1-218-710-11

s
s
s
s
s

METAL, CHIP 4.7K 5% 1/16W
CHIP, METAL 180 0.50% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.9K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R301
R302
R303
R304
R305

1-218-698-11
1-218-708-11
1-218-851-11
1-218-675-11
1-218-725-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

1.8K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 200 0.50% 1/16W
24K 0.50% 1/16W

R235
R236
R239
R240
R241

1-218-700-11
1-218-702-11
1-218-858-11
1-211-990-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R306
R307
R308
R309
R310

1-216-832-11
1-218-868-11
1-218-698-11
1-218-706-11
1-216-826-11

s
s
s
s
s

METAL, CHIP 8.2K
CHIP, METAL 7.5K
METAL 1.8K 0.50%
METAL 3.9K 0.50%
METAL, CHIP 2.7K

5% 1/16W
0.50% 1/16W
1/16W
1/16W
5% 1/16W

R242
R243
R244
R246
R247

1-218-668-11
1-218-668-11
1-216-845-11
1-218-729-11
1-218-724-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

100 0.50% 1/16W
100 0.50% 1/16W
100K 5% 1/16W
36K 0.50% 1/16W
22K 5% 1/16W

R311
R312
R313
R314
R315

1-216-864-11
1-218-704-11
1-216-829-11
1-216-829-11
1-216-829-11

s
s
s
s
s

METAL, CHIP 0 5%
METAL 3.3K 0.50%
METAL, CHIP 4.7K
METAL, CHIP 4.7K
METAL, CHIP 4.7K

1/16W
1/16W
5% 1/16W
5% 1/16W
5% 1/16W

R248
R249
R250
R251
R252

1-218-732-11
1-218-699-11
1-218-668-11
1-218-668-11
1-216-825-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R316
R317
R318
R320
R321

1-216-829-11
1-216-829-11
1-216-829-11
1-216-829-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

5%
5%
5%
5%
5%

R253
R254
R255
R256
R257

1-216-830-11
1-218-873-11
1-218-716-11
1-218-725-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 5.6K 5% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 24K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R322
R323
R324
R325
R326

1-216-829-11
1-216-864-11
1-216-864-11
1-216-864-11
1-218-692-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

R258
R259
R260
R261
R262

1-218-698-11
1-218-676-11
1-220-158-91
1-216-805-11
1-216-829-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R327
R328
R330
R331
R332

1-218-692-11
1-218-708-11
1-216-864-11
1-218-724-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL 33K 0.50% 1/16W

R263
R264
R265
R266

1-216-864-11
1-218-710-11
1-218-708-11
1-218-705-11

s
s
s
s

METAL, CHIP 0 5%
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%

R333
R334
R335
R336

1-216-821-11
1-216-821-11
1-216-821-11
1-218-727-11

s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 30K 0.50% 1/16W

5-22

1/16W
0.50% 1/16W
1/16W
1/16W
1/16W

2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 100 0.50% 1/16W

1/16W
0.50% 1/16W
1/16W
1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

4.7K
4.7K
4.7K
4.7K
4.7K

1/16W
1/16W
1/16W
1/16W
1/16W

4.7K 5% 1/16W
0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
1K 0.50% 1/16W

BVP-550

-----------IF-510 BOARD
-----------Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R337
R357
R358
R361
R362

1-216-821-11
1-218-680-11
1-218-672-11
1-218-856-11
1-218-856-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 330 0.50% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W

R363
R364
R365
R366
R367

1-216-809-11
1-216-849-11
1-216-849-11
1-216-845-11
1-218-700-11

s
s
s
s
s

METAL, CHIP 100 5% 1/16W
METAL, CHIP 220K 5% 1/16W
METAL, CHIP 220K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 2.2K 0.50% 1/16W

R368
R369
R370
R371
R372

1-218-692-11
1-218-829-11
1-218-856-11
1-216-797-11
1-218-856-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R373
R374
R375
R376
R378

1-218-856-11
1-216-797-11
1-218-856-11
1-218-727-11
1-218-664-11

s
s
s
s
s

CHIP, METAL 2.4K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 68 0.50% 1/16W

R379
R380

1-218-727-11 s METAL 30K 0.50% 1/16W
1-218-655-91 s CHIP, METAL 30 0.50% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-309-11
1-239-309-11
1-239-309-11
1-236-908-11
1-236-908-11

RB6
RB7

1-236-906-11 s NETWORK RESISTOR (CHIP) 15K
1-236-906-11 s NETWORK RESISTOR (CHIP) 15K

BVP-550

s
s
s
s
s

1K 0.50% 1/16W
180 0.50% 1/16W
2.4K 0.50% 1/16W
10 5% 1/16W
2.4K 0.50% 1/16W

RESISTOR BLOCK, CHIP 100KX8
RESISTOR BLOCK, CHIP 100KX8
RESISTOR BLOCK, CHIP 100KX8
RESISTOR, NETWORK, CHIP 10k
RESISTOR, NETWORK, CHIP 10k

SP Description

1pc
1pc
1pc
6pcs

A-8272-568-A
3-692-129-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, IF-510
PANEL,IF-510 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C10
C11
C12
C13
C14

1-104-913-11
1-135-160-21
1-164-156-11
1-135-208-11
1-135-165-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 10% 16V

C15
C16
C17
C20
C21

1-164-156-11
1-164-156-11
1-164-156-11
1-135-160-21
1-135-160-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V

C22
C23
C24
C25
C26

1-164-156-11
1-135-208-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C30
C31
C32
C33
C34

1-104-851-11
1-104-851-11
1-164-156-11
1-135-208-11
1-104-911-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 20% 10V

C35
C36
C101
C102
C103

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-907-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

C104
C105
C150
C151
C152

1-104-914-11
1-104-914-11
1-164-156-11
1-135-160-21
1-164-156-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C153
C154
C155
C201
C202

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C203
C204
C205
C206
C221

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-104-914-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V

C222
C223
C224
C225
C226

1-164-156-11
1-162-927-11
1-162-907-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 100PF 5% 50V
CERAMIC, CHIP 2PF 50V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C250
C252
C253
C254
C255

1-104-851-11
1-163-231-11
1-162-919-11
1-162-922-11
1-104-851-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC, CHIP 15PF 5% 50V
CERAMIC 22PF 5% 50V
CERAMIC 39PF 5% 50V
TANTALUM, CHIP 10uF 20% 10V

C300
C301
C303
C307
C308

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
2PF 50V

25V
25V
25V
25V
25V

25V
25V
25V
25V
25V

5-23

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C309
C311
C312
C313
C315

1-164-156-11
1-164-156-11
1-164-156-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C605
C606
C621
C622
C623

1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11
1-162-907-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V

C320
C321
C322
C350
C351

1-164-156-11
1-164-156-11
1-164-156-11
1-104-913-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 16V
CERAMIC 0.1uF 25V

C624
C625
C626
C641
C642

1-162-927-11
1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C352
C353
C400
C401
C402

1-164-156-11
1-164-156-11
1-162-905-11
1-104-914-11
1-104-914-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V

C643
C644
C645
C646
C701

1-162-907-11
1-162-927-11
1-104-914-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 2PF 50V
CERAMIC, CHIP 100PF 5% 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C403
C404
C405
C406
C407

1-164-156-11
1-164-156-11
1-104-914-11
1-104-910-11
1-162-905-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC 1PF 0.25PF 50V

C702
C703
C704
C705
C706

1-164-156-11
1-164-156-11
1-126-396-11
1-126-396-11
1-104-851-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT, CHIP 47uF 20% 16V
ELECT, CHIP 47uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V

C408
C409
C410
C411
C412

1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11
1-104-914-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V

C707

1-162-915-11 s CERAMIC, CHIP 10PF 5PF 50V

C413
C414
C415
C416
C417

1-104-910-11
1-162-905-11
1-104-914-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CHIP,TANTALUM 15uF 10% 10V
CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

D11
D21
D31
D101
D250

8-719-029-63
8-719-029-63
8-719-029-57
8-719-820-41
8-719-948-47

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD2.4UH-T1
1SS302
HSM88AS

D400
D401
D402
D500

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302

C418
C419
C420
C421
C422

1-164-156-11
1-104-914-11
1-104-910-11
1-162-919-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 22PF 5% 50V
CERAMIC 0.1uF 25V

IC12
IC101
IC151
IC152
IC153

8-759-076-06
8-759-082-61
8-759-925-76
8-759-082-55
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
SN74HC08ANS
TC7W00FU
TC74HC595AF(EL)

C502
C503
C504
C505
C508

1-162-909-11
1-162-909-11
1-104-914-11
1-104-910-11
1-162-909-11

s
s
s
s
s

CERAMIC 4PF 0.25PF 50V
CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC 4PF 0.25PF 50V

IC154
IC155
IC200
IC201
IC202

8-759-082-58
8-759-086-42
8-759-082-61
8-759-089-61
8-759-089-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
X24C02S-3.0-C7000
TC4W53FU
TC74HC4052AFS(EL)
TC74HC4052AFS(EL)

C509
C510
C511
C513
C514

1-162-909-11
1-104-914-11
1-104-910-11
1-162-915-11
1-162-911-11

s
s
s
s
s

CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 10PF 5PF 50V
CERAMIC, CHIP 6PF 50V

IC206
IC301
IC302
IC303
IC304

8-759-054-61
8-759-254-49
8-759-925-90
8-759-925-90
8-759-082-59

s
s
s
s
s

IC
IC
IC
IC
IC

CLC505AJE
EL4581CS-TE2
SN74HC74ANS
SN74HC74ANS
TC7W32FU

C515
C516
C517
C518
C519

1-162-909-11
1-104-914-11
1-104-910-11
1-162-915-11
1-135-070-00

s
s
s
s
s

CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 10PF 5PF 50V
TANTALUM, CHIP 0.1uF 10% 35V

IC305
IC306
IC307
IC308
IC309

8-759-925-90
8-759-082-57
8-759-082-58
8-759-058-62
8-759-082-59

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HC74ANS
TC7W04FU
TC7W08FU
TC7S08FU(TE85R)
TC7W32FU

C520
C521
C522
C524
C525

1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC310
IC322
IC351
IC352
IC400

8-759-082-58
8-759-032-01
8-759-925-90
8-759-058-58
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
MC74HC00AF
SN74HC74ANS
TC7S04FU(TE85R)
TC4W53FU

C601
C602
C603
C604

1-164-156-11
1-164-156-11
1-162-907-11
1-162-927-11

s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

IC404
IC410
IC420

8-759-209-57 s IC TC4S69F
8-759-082-61 s IC TC4W53FU
8-759-082-61 s IC TC4W53FU

5-24

25V
25V
2PF 50V
100PF 5% 50V

BVP-550

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

IC500
IC501
IC502
IC601
IC621

8-759-066-59
8-759-981-48
8-759-082-58
8-759-054-61
8-759-054-61

IC641
IC701
IC702

8-759-054-61 s IC CLC505AJE
8-759-988-13 s IC LM393PS
8-759-195-81 s IC TC7S86FU

L1
L2
L3
L150
L201

1-410-737-31
1-410-737-31
1-410-737-31
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

0.47uH
0.47uH
0.47uH
1uH
1uH

L202
L203
L301
L400
L401

1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

1uH
1uH
1uH
1uH
1uH

L402
L500
L501
L502
L601

1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

1uH
1uH
1uH
1uH
1uH

L602
L603
L700

1-410-369-11 s INDUCTOR CHIP 1uH
1-410-369-11 s INDUCTOR CHIP 1uH
1-410-369-11 s INDUCTOR CHIP 1uH

Q1
Q2
Q10
Q20
Q30

8-729-117-16
8-729-117-32
8-729-141-48
8-729-141-75
8-729-141-75

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SB624-BV345
2SD596DV345
2SD596DV345

Q101
Q102
Q103
Q109
Q110

8-729-122-63
8-729-122-63
8-729-122-63
8-729-117-16
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SA1226
2SA1611-M6
2SC4177

Q205
Q206
Q207
Q208
Q209

8-729-117-16
8-729-117-32
8-729-117-16
8-729-117-32
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SA1611-M6
2SC4177
2SA1611-M6

Q210
Q211
Q250
Q251
Q252

8-729-117-16
8-729-117-32
8-729-117-32
8-729-117-16
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SC4177
2SA1611-M6
2SA1611-M6

Q271
Q272
Q273
Q352
Q353

8-729-117-16
8-729-117-16
8-729-117-16
8-729-920-48
8-729-920-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1611-M6
2SA1611-M6
IMH2
IMH2

Q354
Q401
Q402
Q403
Q404

8-729-028-91
8-729-117-16
8-729-117-32
8-729-026-32
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTA144EUA-T106
2SA1611-M6
2SC4177
XP6534
2SC4178-F14

Q405
Q406
Q410

8-729-117-16 s TRANSISTOR 2SA1611-M6
8-729-117-32 s TRANSISTOR 2SC4177
8-729-026-32 s TRANSISTOR XP6534

BVP-550

s
s
s
s
s

IC
IC
IC
IC
IC

TC74HC4053AFS
TL082M
TC7W08FU
CLC505AJE
CLC505AJE

SP Description

Q411
Q412
Q413
Q414
Q420

8-729-117-73
8-729-117-16
8-729-117-16
8-729-117-32
8-729-026-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1611-M6
2SA1611-M6
2SC4177
XP6534

Q421
Q422
Q423
Q424
Q430

8-729-117-73
8-729-117-16
8-729-117-16
8-729-117-32
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1611-M6
2SA1611-M6
2SC4177
2SA1611-M6

Q431
Q500
Q501
Q502
Q503

8-729-117-32
8-729-026-32
8-729-122-63
8-729-102-08
8-729-026-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
XP6534
2SA1226
2SC2223-F14
XP6534

Q504
Q505
Q506
Q507
Q508

8-729-122-63
8-729-102-08
8-729-026-32
8-729-122-63
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SC2223-F14
XP6534
2SA1226
2SC2223-F14

Q509
Q510
Q701
Q702
Q703

8-729-117-16
8-729-117-32
8-729-230-49
8-729-800-37
8-729-141-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SC2712-YG
2SD1048-X7
2SB624-BV345

R1
R2
R8
R9
R10

1-218-867-11
1-218-704-11
1-218-748-11
1-218-748-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
METAL

R13
R14
R15
R23
R24

1-218-677-11
1-218-723-11
1-218-724-11
1-216-864-11
1-218-723-11

s
s
s
s
s

CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 20K 0.50% 1/16W

R25
R33
R34
R35
R100

1-218-723-11
1-218-856-11
1-218-729-11
1-218-723-11
1-218-856-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

20K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 36K 0.50% 1/16W
20K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W

R101
R102
R103
R104
R105

1-218-708-11
1-218-710-11
1-218-840-11
1-218-858-11
1-218-840-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

4.7K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 510 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 510 0.50% 1/16W

R110
R111
R151
R152
R153

1-218-867-11
1-218-704-11
1-216-857-11
1-218-748-11
1-218-740-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W
CHIP, METAL 220K 0.50% 1/16W
METAL 100K 0.50% 1/16W

R154
R155
R156
R198
R199

1-218-668-11
1-218-668-11
1-218-668-11
1-216-857-11
1-216-857-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

100 0.50% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W
1M 5% 1/16W
1M 5% 1/16W

R200
R201
R202
R203

1-218-668-11
1-218-668-11
1-218-668-11
1-218-867-11

s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,

100 0.50% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W
6.8K 0.50% 1/16W

METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 220K 0.50% 1/16W
METAL 220K 0.50% 1/16W
10K 0.50% 1/16W

METAL
METAL
METAL
METAL

5-25

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R204
R205
R206
R207
R208

1-218-704-11
1-218-668-11
1-218-867-11
1-218-668-11
1-218-704-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
METAL

3.3K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 100 0.50% 1/16W
3.3K 0.50% 1/16W

R400
R401
R402
R403
R404

1-218-668-11
1-218-867-11
1-218-704-11
1-218-836-11
1-218-858-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 360 0.50% 1/16W
METAL 3K 0.50% 1/16W

R209
R210
R211
R212
R213

1-218-668-11
1-218-867-11
1-218-668-11
1-218-867-11
1-218-704-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
METAL

METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W

R405
R406
R407
R408
R409

1-218-729-11
1-218-710-11
1-218-706-11
1-218-700-11
1-218-702-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 36K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W

R214
R221
R222
R224
R225

1-218-668-11
1-218-692-11
1-218-724-11
1-211-981-11
1-218-845-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R410
R411
R412
R413
R414

1-218-706-11
1-218-692-11
1-218-724-11
1-218-867-11
1-218-851-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

3.9K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 22K 5% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

R226
R227
R228
R229
R230

1-218-688-11
1-218-883-11
1-218-692-11
1-211-990-11
1-211-990-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
CHIP,

680 0.50% 1/16W
33K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 75 0.50% 1/16W

R415
R416
R417
R418
R419

1-218-664-11
1-218-672-11
1-218-856-11
1-218-710-11
1-218-706-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
METAL

METAL 68 0.50% 1/16W
150 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W

R250
R251
R252
R253
R254

1-218-668-11
1-218-740-11
1-218-700-11
1-218-883-11
1-218-692-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
CHIP,

METAL 100 0.50% 1/16W
100K 0.50% 1/16W
2.2K 0.50% 1/16W
33K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R420
R421
R422
R423
R424

1-218-700-11
1-218-702-11
1-218-706-11
1-218-867-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
CHIP,

2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R256
R257
R258
R259
R261

1-218-840-11
1-218-706-11
1-218-722-11
1-218-840-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 510 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 18K 0.50% 1/16W
METAL 510 0.50% 1/16W
METAL 10K 0.5% 1/16W

R425
R426
R427
R428
R429

1-218-867-11
1-218-851-11
1-218-664-11
1-218-672-11
1-218-856-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 6.8K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 68 0.50% 1/16W
150 0.50% 1/16W
METAL 2.4K 0.50% 1/16W

R263
R264
R271
R272
R273

1-216-857-11
1-218-668-11
1-218-710-11
1-218-692-11
1-218-704-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W

R430
R431
R432
R433
R434

1-218-710-11
1-218-706-11
1-218-700-11
1-218-702-11
1-218-706-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
METAL

METAL 5.6K
3.9K 0.50%
2.2K 0.50%
METAL 2.7K
3.9K 0.50%

R274
R275
R276
R277
R278

1-218-710-11
1-218-692-11
1-218-867-11
1-218-710-11
1-218-692-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

5.6K 0.50% 1/16W
1K 0.50% 1/16W
6.8K 0.50% 1/16W
5.6K 0.50% 1/16W
1K 0.50% 1/16W

R435
R436
R437
R438
R439

1-218-867-11
1-218-692-11
1-218-867-11
1-218-851-11
1-218-664-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R279
R310
R311
R315
R320

1-218-867-11
1-218-668-11
1-218-708-11
1-216-855-11
1-218-668-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 680K 5% 1/16W
CHIP, METAL 100 0.50% 1/16W

R440
R441
R442
R443
R444

1-218-668-11
1-218-714-11
1-218-668-11
1-218-692-11
1-218-867-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 100 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W

R321
R322
R323
R324
R325

1-218-668-11
1-216-857-11
1-216-857-11
1-218-668-11
1-218-668-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
CHIP, METAL
CHIP, METAL

100 0.50% 1/16W
1M 5% 1/16W
1M 5% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W

R445
R446
R447
R448
R500

1-218-700-11
1-218-700-11
1-218-700-11
1-211-969-11
1-216-864-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R326
R327
R328
R329
R351

1-218-668-11
1-218-668-11
1-216-857-11
1-216-857-11
1-218-716-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 10K 0.50% 1/16W

R501
R502
R503
R504
R505

1-216-864-11
1-216-864-11
1-218-858-11
1-216-864-11
1-218-698-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 1.8K 0.50% 1/16W

R352
R353
R354
R361

1-218-724-11
1-218-692-11
1-216-857-11
1-216-864-11

s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

R506
R507
R508
R509

1-218-671-11
1-218-851-11
1-218-698-11
1-218-694-11

s
s
s
s

CHIP,
CHIP,
METAL
CHIP,

5-26

METAL
METAL
METAL
METAL
METAL

100 0.50% 1/16W
1K 0.50% 1/16W
22K 5% 1/16W
33 0.50% 1/16W
820 0.50% 1/16W

22K 5% 1/16W
1K 0.50% 1/16W
1M 5% 1/16W
0 5% 1/16W

0.50% 1/16W
1/16W
1/16W
0.50% 1/16W
1/16W

6.8K 0.50% 1/16W
1K 0.50% 1/16W
6.8K 0.50% 1/16W
1.5K 0.50% 1/16W
68 0.50% 1/16W

METAL 130 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 1.2K 0.50% 1/16W

BVP-550

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R510
R511
R512
R513
R514

1-218-698-11
1-218-710-11
1-218-660-91
1-216-864-11
1-218-851-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 47 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 1.5K 0.50% 1/16W

R627
R641
R642
R643
R644

1-211-990-11
1-218-699-11
1-218-699-11
1-216-864-11
1-218-680-11

s
s
s
s
s

CHIP, METAL 75 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 330 0.50% 1/16W

R515
R516
R517
R518
R519

1-211-969-11
1-218-858-11
1-216-864-11
1-218-851-11
1-218-650-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
METAL, CHIP

R645
R646
R647
R701
R702

1-218-692-11
1-218-883-11
1-211-990-11
1-218-732-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
METAL
METAL

METAL 1K 0.50% 1/16W
33K 0.50% 1/16W
METAL 75 0.50% 1/16W
47K 0.50% 1/16W
10K 0.50% 1/16W

R520
R521
R522
R523
R524

1-218-698-11
1-218-851-11
1-218-694-11
1-218-698-11
1-218-710-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

1/16W
0.50% 1/16W
0.50% 1/16W
1/16W
0.50% 1/16W

R703
R704
R705
R706
R707

1-218-723-11
1-218-725-11
1-218-732-11
1-218-732-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

20K
24K
47K
47K
33K

R525
R526
R527
R528
R529

1-218-660-91
1-216-864-11
1-218-851-11
1-211-969-11
1-216-864-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

47 0.50% 1/16W
0 5% 1/16W
1.5K 0.50% 1/16W
10 0.50% 1/16W
0 5% 1/16W

R708
R709
R710
R711
R712

1-218-881-11
1-216-631-11
1-216-631-11
1-216-631-11
1-216-631-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

METAL 27K
150 0.50%
150 0.50%
150 0.50%
150 0.50%

0.50% 1/16W
1/10W
1/10W
1/10W
1/10W

R530
R531
R532
R533
R534

1-218-858-11
1-218-698-11
1-218-694-11
1-218-846-11
1-211-992-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 1.8K 0.50% 1/16W
CHIP, METAL 1.2K 0.50% 1/16W
CHIP, METAL 910 0.50% 1/16W
CHIP,METAL 91 0.50% 1/16W

R713
R714
R715
R716
R717

1-216-631-11
1-216-631-11
1-218-727-11
1-218-716-11
1-218-668-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

150 0.50%
150 0.50%
30K 0.50%
10K 0.50%
METAL 100

1/10W
1/10W
1/16W
1/16W
0.50% 1/16W

R535
R536
R537
R538
R539

1-218-840-11
1-218-699-11
1-218-664-11
1-218-698-11
1-218-660-91

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 510 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 68 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 47 0.50% 1/16W

R718
R719
R721
R722

1-216-857-11
1-218-716-11
1-218-699-11
1-218-692-11

s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

RV101

1-241-260-11 s METAL, ADJ 500

R540
R541
R542
R543
R544

1-218-710-11
1-218-851-11
1-211-969-11
1-218-867-11
1-218-692-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

S1

1-572-272-11 s SWITCH, SLIDE

R545
R546
R547
R548
R549

1-218-704-11
1-218-668-11
1-218-668-11
1-218-716-11
1-218-740-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

3.3K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
10K 0.50% 1/16W
100K 0.50% 1/16W

R550
R551
R552
R553
R554

1-218-740-11
1-218-668-11
1-218-668-11
1-218-704-11
1-218-704-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

100K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W

R555
R601
R602
R603
R604

1-218-716-11
1-218-699-11
1-218-698-11
1-218-670-11
1-218-680-11

s
s
s
s
s

METAL
CHIP,
METAL
METAL
METAL

10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
1.8K 0.50% 1/16W
120 0.50% 1/16W
330 0.50% 1/16W

R605
R606
R607
R621
R622

1-218-692-11
1-218-883-11
1-211-990-11
1-218-699-11
1-218-699-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 1K 0.50% 1/16W
33K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 2K 0.50% 1/16W

R623
R624
R625
R626

1-218-648-11
1-218-680-11
1-218-692-11
1-218-883-11

s
s
s
s

METAL
METAL
CHIP,
METAL

15 0.50% 1/16W
330 0.50% 1/16W
METAL 1K 0.50% 1/16W
33K 0.50% 1/16W

BVP-550

10 0.50% 1/16W
3K 0.50% 1/16W
0 5% 1/16W
1.5K 0.50% 1/16W
18 0.50% 1/16

1.8K 0.50%
METAL 1.5K
METAL 1.2K
1.8K 0.50%
METAL 5.6K

5.6K 0.50% 1/16W
1.5K 0.50% 1/16W
10 0.50% 1/16W
6.8K 0.50% 1/16W
1K 0.50% 1/16W

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

5-27

-----------MB-602 BOARD
-----------Ref. No.
or Q'ty Part No.

(MB-602 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
15pcs

A-8272-547-A o MOUNTED CIRCUIT BOARD, MB-602
3-729-061-01 s SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C6
C7
C8
C9
C10

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C16
C17
C18
C19
C20

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C21
C22
C23
C24
C25

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C26
C27
C28
C29
C30

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C31

1-164-156-11 s CERAMIC 0.1uF 25V

CN7
CN11
CN12
CN13
CN14

1-569-629-11
1-569-532-11
1-569-532-11
1-569-532-11
1-569-531-11

s
s
s
s
s

HOUSING,
HOUSING,
HOUSING,
HOUSING,
HOUSING,

CN15
CN21
CN22
CN23
CN31

1-764-088-11
1-764-093-21
1-774-260-11
1-774-261-21
1-750-934-21

o
o
o
o
o

PIN, CONNECTOR
PIN, CONNECTOR
CONNECTOR, FFC
CONNECTOR, FFC
PIN, CONNECTOR

CN32
CN41
CN42
CN51

1-764-097-11
1-569-629-11
1-750-635-21
1-770-580-11

o
s
o
o

PIN, CONNECTOR (PC BOARD) 12P
HOUSING, 24P
PIN, CONNECTOR (PC BOARD) 5P
SOCKET, CONNECTOR(PCB-PCB) 26P

D1

8-719-042-14 s DIODE DE5LC20U-TA2

IC1
IC2
IC3
IC4
IC5

8-759-080-02
8-759-080-02
8-759-080-02
8-759-080-02
8-759-086-42

Q1
Q2

8-729-119-61 s TRANSISTOR 2SA811A-C15
8-729-271-32 s TRANSISTOR 2SC2713-L

R1

1-216-864-11 s METAL, CHIP 0 5% 1/16W

5-28

s
s
s
s
s

IC
IC
IC
IC
IC

SP Description

R2
R3
R4
R6
R7

1-216-864-11
1-216-864-11
1-216-864-11
1-216-864-11
1-216-833-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
10K 5% 1/16W

R8
R9
R10
R11
R12

1-216-842-11
1-216-833-11
1-216-833-11
1-216-829-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

56K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
4.7K 5% 1/16W
100K 5% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

RB6
RB7
RB8

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

S1

1-572-272-11 s SWITCH, SLIDE

-----------PR-211 BOARD
-----------Ref. No.
or Q'ty Part No.
1pc

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

SP Description

A-8272-557-A o MOUNTED CIRCUIT BOARD, PR-211

24P
30P
30P
30P
20P
(PC BOARD) 3P
(PC BOARD) 8P
(ZIF) 20P
(ZIF) 24P
20P

TC74VHC541FS(EL)
TC74VHC541FS(EL)
TC74VHC541FS(EL)
TC74VHC541FS(EL)
X24C02S-3.0-C7000

BVP-550

-----------SG-234 BOARD
-----------Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
1pc
1pc
6pcs

A-8272-564-A
3-692-127-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, SG-234
PANEL,SG-234 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-177-21
1-135-159-21
1-135-214-21
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 10uF 10% 20V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C6
C7
C8
C9
C10

1-135-164-21
1-164-156-11
1-135-177-21
1-135-215-21
1-135-215-21

s
s
s
s
s

TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C23
C24
C25
C26
C27

1-164-156-11
1-135-215-21
1-135-215-21
1-164-156-11
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C28
C29
C30
C31
C32

1-135-215-21
1-164-156-11
1-135-210-11
1-164-156-11
1-162-915-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 10PF 5PF 50V

C33
C34
C35
C36
C37

1-164-156-11
1-162-966-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

C38
C39
C40
C41
C42

1-162-921-11
1-164-156-11
1-162-921-11
1-162-923-11
1-164-156-11

C43
C45
C46
C47
C48

SP Description

C66
C67
C68
C69
C70

1-164-156-11
1-164-156-11
1-135-210-11
1-164-156-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V

C71
C72
C73
C74
C75

1-135-076-21
1-135-217-21
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 35V
TANTAL 15uF 20% 6.3
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C76
C77
C78
C79
C80

1-135-216-11
1-164-156-11
1-164-156-11
1-162-909-11
1-164-315-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 470PF 5% 50V

C81
C82
C83
C85
C87

1-128-391-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-919-11

s
s
s
s
s

ELECT 330uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 22PF 5% 50V

C88
C89
C90
C92
C93

1-162-927-11
1-162-923-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C94
C95
C96
C97
C98

1-164-156-11
1-135-178-11
1-164-156-11
1-135-179-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM CHIP 1.5uF 20% 20V
CERAMIC 0.1uF 25V
TANTAL 2.2uF 10% 16V
CERAMIC 0.1uF 25V

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.0022uF 10% 50V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C99
C100
C200
C201

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF

D1
D2
D3
D4
D5

8-719-029-63
8-719-029-63
8-719-948-47
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
HSM88AS
RD4.3UH-T1
1SS302

1-162-925-11
1-135-211-11
1-164-346-11
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC, CHIP 68PF 5% 50V
TANTALUM, CHIP 6.8uF 20% 6.3V
CERAMIC 1uF 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

D6
D7
D8
D10
D11

8-719-404-35
8-719-404-35
8-719-041-68
8-719-948-47
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

MA141WK
MA141WK
RD3.3UH-T1
HSM88AS
1SS302

C49
C50
C51
C52
C53

1-164-156-11
1-135-210-11
1-135-161-21
1-135-216-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
TANTALUM, CHIP 22uF 10% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V

D12
D13
D14
D200
D201

8-719-948-47
8-719-948-47
8-719-948-47
8-719-820-41
8-719-948-47

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM88AS
HSM88AS
HSM88AS
1SS302
HSM88AS

C54
C56
C57
C58
C59

1-164-156-11
1-165-128-11
1-135-161-21
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.22uF 16V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

FL1

1-239-756-11 s FILTER, LOW PASS

C60
C62
C63
C64
C65

1-164-156-11
1-164-156-11
1-162-970-11
1-135-165-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

IC3
IC5
IC8
IC11
IC12

8-759-076-06
8-759-254-49
8-759-082-57
8-759-082-58
8-759-064-36

IC13
IC16
IC17

8-759-066-59 s IC TC74HC4053AFS
8-752-360-44 s IC CXK1203AR
8-759-082-61 s IC TC4W53FU

BVP-550

33PF 5% 50V
25V
33PF 5% 50V
47PF 5% 50V
25V

s
s
s
s
s

IC
IC
IC
IC
IC

0.1uF
0.1uF
0.1uF
0.1uF

100PF 5% 50V
47PF 5% 50V
25V
25V
25V

25V
25V
25V
25V

TL064CPW
EL4581CS-TE2
TC7W04FU
TC7W08FU
MB88346BPFV

5-29

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

IC18
IC20
IC21
IC22
IC25

8-759-632-39
8-759-058-62
8-759-086-42
8-759-271-86
8-759-079-85

s
s
s
s
s

IC
IC
IC
IC
IC

M51958A-T1
TC7S08FU(TE85R)
X24C02S-3.0-C7000
TC7SH04FU
TC74VHC244FS(EL)

Q23
Q24
Q25
Q26
Q200

8-729-029-14
8-729-029-14
8-729-029-14
8-729-029-14
8-729-029-14

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106

IC30
IC31
IC32
IC33
IC34

8-759-079-85
8-759-271-86
8-759-076-06
8-759-066-59
8-759-184-64

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC244FS(EL)
TC7SH04FU
TL064CPW
TC74HC4053AFS
TC4W66FU

Q201
Q202
Q203
Q204
Q205

8-729-029-14
8-729-216-22
8-729-029-14
8-729-029-14
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTC144EUA-T106
2SA1162
DTC144EUA-T106
DTC144EUA-T106
2SC4177

IC35
IC36
IC37
IC38
IC39

8-759-049-86
8-759-180-08
8-759-082-58
8-759-083-94
8-759-195-81

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HCT244APW-E20
TC74HC4538AFS
TC7W08FU
TC7W74FU
TC7S86FU

R1
R2
R3
R5
R6

1-218-716-11
1-216-864-11
1-216-864-11
1-216-864-11
1-218-677-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 240 0.50% 1/16W

IC40
IC41
IC42
IC43
IC44

8-759-082-60
8-759-082-61
8-759-049-86
8-759-058-54
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
TC4W53FU
SN74HCT244APW-E20
TC7S00FU(TE85R)
TC4W53FU

R7
R8
R9
R10
R11

1-218-723-11
1-218-724-11
1-218-729-11
1-218-723-11
1-216-864-11

s
s
s
s
s

METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

IC45
IC46
IC47
IC48
IC200

8-759-271-86
8-759-082-61
8-759-082-61
8-759-173-16
8-759-079-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH04FU
TC4W53FU
TC4W53FU
TL062CPW
TC74VHC74FS(EL)

R15
R16
R17
R18
R21

1-216-864-11
1-218-724-11
1-218-720-11
1-216-845-11
1-218-692-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W

IC201
IC202
IC203
IC204
IC206

8-759-058-58
8-759-058-64
8-759-058-62
8-759-082-61
8-759-173-16

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S04FU(TE85R)
TC7S32FU(TE85R)
TC7S08FU(TE85R)
TC4W53FU
TL062CPW

R22
R23
R24
R25
R26

1-218-692-11
1-216-805-11
1-218-704-11
1-216-831-11
1-218-700-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 6.8K 5% 1/16W
METAL 2.2K 0.50% 1/16W

IC207

8-759-058-55 s IC TC7S02FU-TE85L

L1
L2
L4
L5
L6

1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11
1-410-385-11

R27
R28
R29
R30
R31

1-218-700-11
1-218-706-11
1-218-873-11
1-218-716-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

2.2K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 12K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W

L7
L8
L9

1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH

R32
R33
R34
R35
R36

1-218-720-11
1-218-708-11
1-218-724-11
1-218-732-11
1-218-704-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

15K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 22K 5% 1/16W
47K 0.50% 1/16W
3.3K 0.50% 1/16W

Q1
Q2
Q4
Q5
Q6

8-729-141-48
8-729-141-48
8-729-141-75
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SB624-BV345
2SD596DV345
2SC4178-F14
2SA1611-M6

R37
R38
R39
R40
R41

1-218-706-11
1-218-716-11
1-218-736-11
1-218-889-11
1-218-716-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
METAL

3.9K 0.50% 1/16W
10K 0.50% 1/16W
68K 0.50% 1/16W
METAL 56K 0.50% 1/16W
10K 0.50% 1/16W

Q7
Q8
Q9
Q10
Q11

8-729-117-32
8-729-117-73
8-729-117-32
8-729-117-73
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4177
2SC4178-F14
2SC4177

R42
R43
R44
R45
R46

1-218-704-11
1-218-740-11
1-218-845-11
1-218-700-11
1-218-700-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

3.3K 0.50% 1/16W
100K 0.50% 1/16W
METAL 820 0.50% 1/16W
2.2K 0.50% 1/16W
2.2K 0.50% 1/16W

Q12
Q14
Q15
Q16
Q17

8-729-403-29
8-729-117-32
8-729-117-73
8-729-118-56
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6435
2SC4177
2SC4178-F14
2SK852-X2
2SC4177

R47
R48
R49
R50
R51

1-218-716-11
1-218-720-11
1-216-809-11
1-216-817-11
1-218-692-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 470 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W

Q18
Q20
Q21
Q22

8-729-920-48
8-729-029-14
8-729-118-56
8-729-029-14

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

IMH2
DTC144EUA-T106
2SK852-X2
DTC144EUA-T106

R52
R54
R55
R56

1-218-706-11
1-216-855-11
1-218-706-11
1-218-692-11

s
s
s
s

METAL 3.9K 0.50% 1/16W
METAL, CHIP 680K 5% 1/16W
METAL 3.9K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

5-30

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH

BVP-550

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R57
R58
R59
R60
R61

1-216-845-11
1-216-809-11
1-216-809-11
1-216-809-11
1-218-833-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

100K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
270 0.50% 1/16W

R131
R132
R133
R134
R135

1-216-857-11
1-218-732-11
1-216-864-11
1-216-805-11
1-216-845-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL 47K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R62
R63
R64
R65
R66

1-216-845-11
1-218-692-11
1-216-849-11
1-216-849-11
1-216-845-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP

100K 5% 1/16W
1K 0.50% 1/16W
220K 5% 1/16W
220K 5% 1/16W
100K 5% 1/16W

R136
R137
R138
R139
R140

1-216-849-11
1-216-849-11
1-218-692-11
1-218-697-11
1-218-899-11

s
s
s
s
s

METAL, CHIP 220K 5% 1/16W
METAL, CHIP 220K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 1.6K 0.50% 1/16W
CHIP, METAL 150K 0.50% 1/16W

R67
R68
R69
R71
R77

1-218-881-11
1-218-716-11
1-218-874-11
1-216-864-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 27K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 13K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R141
R144
R145
R146
R148

1-218-868-11
1-216-845-11
1-216-845-11
1-216-864-11
1-216-845-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP

R78
R79
R80
R81
R83

1-218-692-11
1-218-716-11
1-216-809-11
1-216-809-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 0 5% 1/16W

R149
R150
R151
R152
R153

1-216-864-11
1-216-864-11
1-218-732-11
1-218-732-11
1-218-732-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W

R84
R85
R86
R90
R92

1-216-809-11
1-216-805-11
1-216-805-11
1-216-805-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R154
R200
R201
R202
R203

1-218-732-11
1-218-692-11
1-216-845-11
1-216-845-11
1-216-829-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R95
R96
R97
R98
R99

1-218-692-11
1-218-716-11
1-218-716-11
1-218-716-11
1-218-883-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

METAL 1K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W
33K 0.50% 1/16W

R204
R205
R206
R207
R208

1-218-716-11
1-216-845-11
1-216-845-11
1-216-829-11
1-216-845-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R100
R101
R102
R103
R104

1-218-692-11
1-218-692-11
1-218-740-11
1-218-732-11
1-218-710-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 1K 0.50% 1/16W
METAL 1K 0.50% 1/16W
100K 0.50% 1/16W
47K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W

R209
R210
R211

1-218-716-11 s METAL 10K 0.50% 1/16W
1-216-845-11 s METAL, CHIP 100K 5% 1/16W
1-216-845-11 s METAL, CHIP 100K 5% 1/16W

R105
R106
R107
R108
R109

1-218-716-11
1-218-710-11
1-218-710-11
1-218-700-11
1-218-732-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

10K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
2.2K 0.50% 1/16W
47K 0.50% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

RB10

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

R110
R111
R112
R113
R114

1-216-805-11
1-216-805-11
1-216-805-11
1-216-857-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R115
R116
R117
R118
R119

1-218-692-11
1-216-805-11
1-218-716-11
1-216-845-11
1-216-845-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R121
R122
R123
R124
R126

1-216-857-11
1-218-692-11
1-218-716-11
1-216-845-11
1-216-797-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 10 5% 1/16W

R127
R128
R129
R130

1-218-692-11
1-218-692-11
1-216-849-11
1-216-857-11

s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

BVP-550

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
47 5% 1/16W
47 5% 1/16W
47 5% 1/16W
47 5% 1/16W

47
47
47
1M
47

5%
5%
5%
5%
5%

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

7.5K
100K
100K
0 5%
100K

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

0.50% 1/16W
5% 1/16W
5% 1/16W
1/16W
5% 1/16W

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

1/16W
1/16W
1/16W
1/16W
1/16W

1K 0.50% 1/16W
1K 0.50% 1/16W
220K 5% 1/16W
1M 5% 1/16W

5-31

-----------SW-730 BOARD
-----------Ref. No.
or Q'ty Part No.

-----------SW-731 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

SP Description

1pc

1-657-443-21 o PRINTED CIRCUIT BOARD, SW-730

1pc

1-657-444-21 o PRINTED CIRCUIT BOARD, SW-731

C1
C3

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

C1
C3
C4

1-164-156-11 s CERAMIC 0.1uF 25V
1-162-927-11 s CERAMIC, CHIP 100PF 5% 50V
1-164-156-11 s CERAMIC 0.1uF 25V

CN801

1-764-082-21 s PIN, CONNECTOR (PC BOARD) 11P
CN501

1-695-207-21 o PIN, CONNECTOR (PC BOARD) 6P

D1

8-719-106-43 s DIODE RD9.1M-B1
IC1

8-759-175-04 s IC PCF8574T-T

IC1

8-759-175-04 s IC PCF8574T-T

R1
R2
R3
R4
R5

1-216-827-11
1-216-833-11
1-216-833-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

3.3K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R1
R2
R3
R4
R5

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
1K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-864-11
1-216-849-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
0 5% 1/16W
220K 5% 1/16W
220K 5% 1/16W

R11

1-216-845-11 s METAL, CHIP 100K 5% 1/16W

R11
R12
R13
R14
R15

1-216-845-11
1-216-845-11
1-216-845-11
1-216-849-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K
100K
100K
220K
220K

RV1

1-223-686-11 s RES, VAR, CARBON 5K/5K

S1
S2
S3

1-571-416-11 s SWITCH, TOGGLE
1-571-679-11 s SWITCH, TOGGLE
1-570-282-21 s SWITCH, KEY BOARD

S1
S2
S3
S4

1-571-415-11
1-571-415-11
1-571-415-11
1-571-415-11

s
s
s
s

SWITCH,
SWITCH,
SWITCH,
SWITCH,

5-32

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

TOGGLE
TOGGLE
TOGGLE
TOGGLE

BVP-550

-----------SW-732 BOARD
-----------Ref. No.
or Q'ty Part No.

-----------VA-163 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-442-22 o PRINTED CIRCUIT BOARD, SW-732

C1
C2

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

CN301

1-750-635-21 o PIN, CONNECTOR (PC BOARD) 5P

IC1

8-759-175-04 s IC PCF8574T-T

R1
R2
R3
R4
R5

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
1K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-849-11
1-216-849-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
220K 5% 1/16W
220K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

S1
S2
S3

1-570-985-11 s SWITCH, TOGGLE
1-570-985-11 s SWITCH, TOGGLE
1-571-396-11 s SWITCH, TOGGLE

-----------SW-733 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-445-21 o PRINTED CIRCUIT BOARD, SW-733

CN701

1-764-079-21 s PIN, CONNECTOR (PC BOARD) 4P

S1

1-473-315-11 s ENCODER, ROTARY

-----------SW-742 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-446-21 o PRINTED CIRCUIT BOARD, SW-742

CN601

1-764-078-11 s PIN, CONNECTOR (PC BOARD) 3P

S1

1-554-088-00 s SWITCH, TACTILE

BVP-550

SP Description

1pc
1pc
1pc
6pcs

A-8272-560-A
3-692-125-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, VA-163
PANEL,VA-163 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-216-11
1-164-156-11
1-164-156-11
1-135-216-11
1-135-216-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V

C6
C7
C8
C9
C10

1-135-216-11
1-164-156-11
1-164-156-11
1-135-217-21
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C11
C12
C13
C14
C15

1-135-161-21
1-126-391-11
1-135-177-21
1-135-177-21
1-135-125-21

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
ELECT 47uF 20% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTAL 33uF 20% 10V

C16
C17
C18
C19
C20

1-135-161-21
1-126-391-11
1-164-156-11
1-135-177-21
1-135-216-11

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
ELECT 47uF 20% 6.3V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 10uF 20% 10V

C21
C22
C23
C24
C25

1-164-156-11
1-164-156-11
1-164-156-11
1-135-216-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V

C26
C27
C30
C31
C32

1-164-217-11
1-162-927-11
1-164-156-11
1-162-927-11
1-164-156-11

s
s
s
s
s

CERAMIC 150PF
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC 0.1uF

C40
C41
C42
C43
C44

1-135-211-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C45
C46
C47
C48
C49

1-164-156-11
1-135-070-00
1-162-964-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 0.1uF 10% 35V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C50
C51
C52
C53
C54

1-135-211-11
1-135-211-11
1-104-559-11
1-164-315-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 6.3V
TANTALUM, CHIP 6.8uF 20% 6.3V
FILM, CHIP 0.047uF 5% 16V
CERAMIC 470PF 5% 50V
CERAMIC 0.1uF 25V

C55
C56
C57
C58
C59

1-164-156-11
1-135-177-21
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C60
C61
C62
C63
C64

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

5% 50V
100PF 5% 50V
25V
100PF 5% 50V
25V

25V
25V
25V
25V
25V

5-33

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C65
C66
C67
C68
C69

1-135-217-21
1-135-217-21
1-135-217-21
1-164-156-11
1-135-217-21

s
s
s
s
s

TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
TANTAL 15uF 20% 6.3

C309
C311
C312
C314
C315

1-162-908-11
1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 3PF 0.25PF
TANTALUM, CHIP 1uF
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF
TANTALUM, CHIP 1uF

C70
C71
C72
C73
C124

1-135-217-21
1-135-217-21
1-164-156-11
1-162-918-11
1-107-685-11

s
s
s
s
s

TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
CERAMIC, CHIP 18PF 5% 50V
TANTALUM 15uF 20% 6.3V

C316
C317
C318
C319
C320

1-164-156-11
1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C125
C200
C201
C202
C203

1-107-685-11
1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11

s
s
s
s
s

TANTALUM 15uF 20% 6.3V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

C321
C323
C324
C325
C326

1-164-156-11
1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3

C204
C205
C207
C208
C209

1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11
1-162-908-11

s
s
s
s
s

TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 3PF 0.25PF 50V

C327
C328
C329
C330
C331

1-164-156-11
1-135-162-21
1-135-157-21
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C211
C212
C214
C215
C216

1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C332
C333
C334
C335
C336

1-104-852-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C217
C218
C219
C220
C221

1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C337
C338
C339
C340
C342

1-164-156-11
1-135-177-21
1-135-177-21
1-162-924-11
1-135-092-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V

C223
C224
C225
C226
C227

1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C343
C359
C400
C401
C402

1-135-210-11
1-135-177-21
1-135-214-21
1-164-156-11
1-135-165-11

s
s
s
s
s

TANTALUM 4.7uF 10% 10V
TANTALUM, CHIP 1uF 10% 25V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V

C228
C229
C230
C231
C232

1-135-162-21
1-135-157-21
1-135-177-21
1-135-177-21
1-135-161-21

s
s
s
s
s

TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 10% 10V

C403
C404
C405
C407
C408

1-164-156-11
1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V

C233
C234
C235
C236
C237

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C409
C411
C412
C414
C415

1-162-908-11
1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 3PF 0.25PF
TANTALUM, CHIP 1uF
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF
TANTALUM, CHIP 1uF

C238
C239
C240
C242
C243

1-135-177-21
1-135-177-21
1-162-924-11
1-135-092-21
1-135-210-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V
TANTALUM 4.7uF 10% 10V

C416
C417
C418
C419
C420

1-164-156-11
1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C259
C300
C301
C302
C303

1-135-177-21
1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

C421
C423
C424
C425
C426

1-164-156-11
1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3

C304
C305
C307
C308

1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11

s
s
s
s

TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V

C427
C428
C429
C430

1-164-156-11
1-135-162-21
1-135-157-21
1-135-177-21

s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V

5-34

4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V
0.1uF 25V

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

50V
10% 25V
10% 25V
10% 25V

0.1uF 25V
4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V

50V
10% 25V
10% 25V
10% 25V

0.1uF 25V
4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
SP Description

Ref. No.
or Q'ty Part No.

SP Description

C431
C432
C433
C434
C435

1-135-177-21
1-104-852-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC300
IC301
IC302
IC303
IC304

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

C436
C437
C438
C439
C440

1-164-156-11
1-164-156-11
1-135-177-21
1-135-177-21
1-162-924-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V

IC400
IC401
IC402
IC403
IC404

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

C442
C443
C459

1-135-092-21 s TANTALUM, CHIP 3.3uF 10% 16V
1-135-210-11 s TANTALUM 4.7uF 10% 10V
1-135-177-21 s TANTALUM, CHIP 1uF 10% 25V

L1
L2

1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH

CT200
CT300
CT400

1-141-311-11 s CAP, VAR, TRIMMER
1-141-311-11 s CAP, VAR, TRIMMER
1-141-311-11 s CAP, VAR, TRIMMER

Q1
Q2
Q3
Q4
Q5

8-729-141-48
8-729-820-86
8-729-141-75
8-729-117-32
8-729-402-78

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SB1121-ST
2SD596DV345
2SC4177
XN6401

D1
D2
D3
D4
D5

8-719-029-63
8-719-029-63
8-719-029-63
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
1SS302

Q7
Q10
Q11
Q12
Q13

8-729-141-75
8-729-402-78
8-729-402-19
8-729-402-19
8-729-402-19

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SD596DV345
XN6401
XN6501
XN6501
XN6501

D7
D8
D9
D10

8-719-974-76
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

HSM107S
1SS302
1SS302
1SS302

FL200
FL300
FL400

1-402-639-11 s FILTER, TRAP
1-402-639-11 s FILTER, TRAP
1-402-639-11 s FILTER, TRAP

Q14
Q200
Q201
Q202
Q203

8-729-402-78
8-729-117-16
8-729-175-73
8-729-122-63
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6401
2SA1611-M6
2SC2757
2SA1226
2SA1611-M6

IC1
IC3
IC5
IC6
IC7

8-759-076-06
8-759-066-68
8-759-180-08
8-759-175-02
8-759-058-64

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
REF-03GS
TC74HC4538AFS
TL074CPW-ELM1000
TC7S32FU(TE85R)

Q204
Q205
Q206
Q207
Q208

8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33
2SC4177

IC8
IC9
IC10
IC11
IC12

8-759-082-60
8-759-085-67
8-759-058-58
8-759-058-58
8-759-175-02

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
LM339NS
TC7S04FU(TE85R)
TC7S04FU(TE85R)
TL074CPW-ELM1000

Q209
Q210
Q211
Q212
Q213

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

IC13
IC14
IC15
IC16
IC17

8-759-082-60
8-759-082-60
8-759-076-06
8-759-326-65
8-759-066-59

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
TC7S66FU
TL064CPW
MP7670AS-TE2
TC74HC4053AFS

Q214
Q215
Q216
Q217
Q218

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1611-M6

IC18
IC19
IC20
IC21
IC22

8-759-326-65
8-759-175-02
8-759-237-79
8-759-064-36
8-759-066-59

s
s
s
s
s

IC
IC
IC
IC
IC

MP7670AS-TE2
TL074CPW-ELM1000
TC74HC595AF(EL)
MB88346BPFV
TC74HC4053AFS

Q219
Q220
Q300
Q301
Q302

8-729-402-19
8-729-402-19
8-729-117-16
8-729-175-73
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6501
XN6501
2SA1611-M6
2SC2757
2SA1226

IC23
IC24
IC25
IC26
IC27

8-759-049-60
8-759-059-50
8-759-058-58
8-759-086-42
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HC08APW-E05
MB88351PFV
TC7S04FU(TE85R)
X24C02S-3.0-C7000
TC7S08FU(TE85R)

Q303
Q304
Q305
Q306
Q307

8-729-117-16
8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33

IC200
IC201
IC202
IC203
IC204

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

Q308
Q309
Q310
Q311
Q312

8-729-117-32
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

Q313

8-729-117-73 s TRANSISTOR 2SC4178-F14

BVP-550

5-35

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

Q314
Q315
Q316
Q317
Q318

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1611-M6

R31
R35
R36
R37
R38

1-218-700-11
1-218-668-11
1-218-668-11
1-218-668-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

Q319
Q320
Q400
Q401
Q402

8-729-402-19
8-729-402-19
8-729-117-16
8-729-175-73
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6501
XN6501
2SA1611-M6
2SC2757
2SA1226

R39
R40
R41
R42
R43

1-216-857-11
1-218-668-11
1-216-809-11
1-218-873-11
1-218-851-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

1M 5% 1/16W
100 0.50% 1/16W
100 5% 1/16W
12K 0.50% 1/16W
1.5K 0.50% 1/16W

Q403
Q404
Q405
Q406
Q407

8-729-117-16
8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33

R44
R45
R46
R47
R48

1-218-851-11
1-218-851-11
1-218-699-11
1-216-833-11
1-216-833-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

1.5K 0.50% 1/16W
1.5K 0.50% 1/16W
2K 0.50% 1/16W
10K 5% 1/16W
10K 5% 1/16W

Q408
Q409
Q410
Q411
Q412

8-729-117-32
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

R49
R50
R51
R52
R53

1-216-833-11
1-216-833-11
1-218-692-11
1-218-716-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W

Q413
Q414
Q415
Q416
Q417

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

R54
R55
R56
R57
R58

1-218-716-11
1-218-723-11
1-218-901-11
1-218-732-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

Q418
Q419
Q420

8-729-117-16 s TRANSISTOR 2SA1611-M6
8-729-402-19 s TRANSISTOR XN6501
8-729-402-19 s TRANSISTOR XN6501

R1
R2
R3
R4
R5

1-218-723-11
1-216-833-11
1-218-724-11
1-218-716-11
1-218-732-11

s
s
s
s
s

METAL 20K 0.50%
METAL, CHIP 10K
CHIP, METAL 22K
METAL 10K 0.50%
METAL 47K 0.50%

R59
R60
R61
R62
R63

1-218-732-11
1-218-732-11
1-208-854-11
1-216-853-11
1-218-883-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W
CHIP,METAL 1M 0.50% 1/10W
METAL, CHIP 470K 5% 1/16W
METAL 33K 0.50% 1/16W

R6
R7
R8
R9
R10

1-218-724-11
1-218-716-11
1-218-716-11
1-216-823-11
1-218-724-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 1.5K 5% 1/16W
CHIP, METAL 22K 5% 1/16W

R64
R65
R66
R67
R68

1-218-883-11
1-218-699-11
1-218-692-11
1-218-699-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R11
R12
R13
R14
R15

1-218-716-11
1-218-716-11
1-218-668-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R69
R70
R71
R72
R73

1-218-699-11
1-218-692-11
1-218-883-11
1-216-864-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R16
R17
R18
R19
R20

1-216-845-11
1-216-829-11
1-216-833-11
1-211-969-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL 10K 0.50% 1/16W

R74
R75
R76
R77
R78

1-216-864-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-708-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 33K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R21
R22
R23
R24
R25

1-216-827-11
1-211-969-11
1-218-700-11
1-218-704-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 3.3K 5% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W
METAL 10K 0.50% 1/16W

R79
R80
R81
R82
R83

1-218-708-11
1-218-708-11
1-218-708-11
1-218-708-11
1-218-708-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

4.7K
4.7K
4.7K
4.7K
4.7K

R26
R27
R28
R29
R30

1-218-700-11
1-218-692-11
1-218-716-11
1-218-714-11
1-218-716-11

s
s
s
s
s

METAL
CHIP,
METAL
METAL
METAL

R84
R85
R86
R87
R88

1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

33K
33K
33K
33K
33K

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

R89
R90
R91
R92

1-218-883-11
1-218-883-11
1-218-716-11
1-218-716-11

s
s
s
s

METAL
METAL
METAL
METAL

33K
33K
10K
10K

0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W

5-36

1/16W
5% 1/16W
5% 1/16W
1/16W
1/16W

2.2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
10K 0.50% 1/16W
8.2K 0.50% 1/16W
10K 0.50% 1/16W

2.2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 1K 0.50% 1/16W

10K 0.50% 1/16W
20K 0.50% 1/16W
METAL 180K 0.50% 1/16W
47K 0.50% 1/16W
10K 0.50% 1/16W

33K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1K 0.50% 1/16W

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R93
R94
R95
R96
R97

1-218-716-11
1-218-732-11
1-218-732-11
1-218-732-11
1-218-732-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

10K
47K
47K
47K
47K

R230
R231
R232
R233
R234

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R98
R99
R100
R101
R102

1-218-714-11
1-218-714-11
1-218-699-11
1-218-873-11
1-218-692-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
12K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R235
R236
R237
R238
R239

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R103
R104
R105
R106
R107

1-218-886-11
1-216-829-11
1-216-809-11
1-218-708-11
1-218-700-11

s
s
s
s
s

CHIP, METAL 43K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL 4.7K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W

R240
R241
R242
R243
R244

1-218-710-11
1-218-699-11
1-216-809-11
1-218-699-11
1-218-842-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

R108
R109
R110
R111
R112

1-218-702-11
1-218-716-11
1-218-702-11
1-216-809-11
1-218-714-11

s
s
s
s
s

CHIP, METAL 2.7K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL 8.2K 0.50% 1/16W

R245
R246
R247
R248
R249

1-218-751-11
1-218-716-11
1-218-723-11
1-216-825-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 300K 0.50% 1/16
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 0 5% 1/16W

R113
R114
R115
R116
R117

1-218-668-11
1-218-723-11
1-218-699-11
1-216-845-11
1-218-702-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W

R250
R251
R252
R253
R254

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R118
R120
R121
R122
R123

1-216-829-11
1-218-704-11
1-216-809-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 4.7K 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W

R255
R256
R257
R258
R259

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
CHIP, METAL 11K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R200
R201
R202
R203
R204

1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11
1-218-727-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
METAL 30K 0.50% 1/16W

R260
R261
R262
R263
R264

1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11
1-218-858-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W

R205
R206
R207
R208
R209

1-218-732-11
1-218-708-11
1-218-710-11
1-218-856-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
20K 0.50% 1/16W

R265
R266
R267
R268
R269

1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11
1-218-692-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

R210
R211
R212
R213
R214

1-218-714-11
1-211-969-11
1-218-680-11
1-218-851-11
1-211-969-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 10 0.50% 1/16W

R270
R271
R272
R280
R281

1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11
1-218-708-11

s
s
s
s
s

METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R215
R216
R217
R218
R219

1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11
1-218-699-11

s
s
s
s
s

METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W

R300
R301
R302
R303
R304

1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11
1-218-710-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R220
R222
R223
R224
R225

1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 750 0.50% 1/16W
CHIP, METAL 820 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
METAL 33K 0.50% 1/16W

R305
R306
R307
R308
R309

1-218-727-11
1-218-732-11
1-218-708-11
1-218-856-11
1-218-874-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

30K 0.50% 1/16W
47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 13K 0.50% 1/16W

R226
R227
R228
R229

1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

R310
R311
R312
R313

1-218-714-11
1-211-969-11
1-218-680-11
1-218-851-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

BVP-550

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

SP Description

10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W

39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
5.6K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W
2K 0.50% 1/16W
620 0.50% 1/16W

20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 1K 0.50% 1/16W

5-37

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R314
R315
R316
R317
R318

1-211-969-11
1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11

s
s
s
s
s

CHIP, METAL 10 0.50% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W

R381
R400
R401
R402
R403

1-218-708-11
1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11

s
s
s
s
s

METAL 4.7K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W

R319
R320
R322
R323
R324

1-218-699-11
1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R404
R405
R406
R407
R408

1-218-727-11
1-218-732-11
1-218-708-11
1-218-856-11
1-218-874-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

30K 0.50% 1/16W
47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 13K 0.50% 1/16W

R325
R326
R327
R328
R329

1-218-883-11
1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

R409
R410
R411
R412
R413

1-218-714-11
1-211-969-11
1-218-710-11
1-218-680-11
1-218-851-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

R330
R331
R332
R333
R334

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R414
R415
R416
R417
R418

1-211-969-11
1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11

s
s
s
s
s

CHIP, METAL 10 0.50% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W

R335
R336
R337
R338
R339

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R419
R420
R422
R423
R424

1-218-699-11
1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R340
R341
R342
R343
R344

1-218-710-11
1-218-699-11
1-218-716-11
1-216-809-11
1-218-699-11

s
s
s
s
s

CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
CHIP, METAL 2K 0.50% 1/16W

R425
R426
R427
R428
R429

1-218-883-11
1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

R345
R346
R347
R348
R349

1-218-842-11
1-218-750-11
1-218-723-11
1-216-825-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 620 0.50% 1/16W
METAL 270K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 0 5% 1/16W

R430
R431
R432
R433
R434

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R350
R351
R352
R353
R354

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R435
R436
R437
R438
R439

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R355
R356
R357
R358
R359

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
CHIP, METAL 11K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R440
R441
R442
R443
R444

1-218-710-11
1-218-699-11
1-216-809-11
1-218-699-11
1-218-842-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

R360
R361
R362
R363
R364

1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11
1-218-858-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W

R445
R446
R447
R448
R449

1-218-740-11
1-218-723-11
1-216-864-11
1-218-716-11
1-216-825-11

s
s
s
s
s

METAL 100K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R365
R366
R367
R368
R369

1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11
1-218-692-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

R450
R451
R452
R453
R454

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R370
R371
R372
R380

1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11

s
s
s
s

METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W

R455
R456
R457
R458

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11

s
s
s
s

METAL, CHIP
CHIP, METAL
CHIP, METAL
CHIP, METAL

5-38

2K 0.50% 1/16W
750 0.50% 1/16W
820 0.50% 1/16W
100 5% 1/16W
5.6K 0.50% 1/16W

33K 0.50% 1/16W
10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W

20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 1K 0.50% 1/16W

2K 0.50% 1/16W
750 0.50% 1/16W
820 0.50% 1/16W
100 5% 1/16W
5.6K 0.50% 1/16W

33K 0.50% 1/16W
10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
5.6K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W
2K 0.50% 1/16W
620 0.50% 1/16W

10K 5% 1/16W
1K 0.50% 1/16W
3K 0.50% 1/16W
11K 0.50% 1/16W

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(FRAME)
Ref. No.
or Q'ty Part No.

SP Description

R459
R460
R461
R462
R463

1-218-723-11
1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11

s
s
s
s
s

METAL 20K 0.50% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

R464
R465
R466
R467
R468

1-218-858-11
1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

R469
R470
R471
R472
R480

1-218-692-11
1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W

R481

1-218-708-11 s METAL 4.7K 0.50% 1/16W

RV50
RV200
RV300
RV400

1-241-263-11
1-241-260-11
1-241-260-11
1-241-260-11

----FRAME
----Ref. No.
or Q'ty Part No.
!

s
s
s
s

METAL 3K 0.50% 1/16W
20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W

RES, ADJ, METALT 5K
METAL, ADJ 500
METAL, ADJ 500
METAL, ADJ 500

1-775-778-11 o FLEXIBLE CARD WIRE
(CN1120
1-777-000-11 s FLEXIBLE CARD WIRE
(MB-602
1-777-001-11 s FLEXIBLE CARD WIRE
(MB-602

CN2F(to PA-181 BOARD of
1-695-212-11 o
1-695-215-11 o
CN15F(to MB602 BOARD)
1-764-193-11 o
1-695-215-11 o
CN21F(to MB-602 BOARD)
1-764-196-11 o
1-695-215-11 o
CN31F(to MB-602 BOARD)
1-580-586-11 o
1-573-176-11 o
1-580-599-11 o
CN32F(to MB-602 BOARD)
1-695-892-11 o
1-695-215-11 o
CN42F(to MB-602 BOARD)
1-764-195-11 o
1-695-215-11 o
CN301F(to SW-732 BOARD)
1-764-195-11 o
1-695-215-11 o
CN402F(to CN1122 BOARD)
1-695-892-11 o
1-695-215-11 o
CN405F(to CN1122 BOARD)
1-764-198-11 o
1-695-215-11 o
CN406F(to CN1122 BOARD)
1-764-193-11 o
1-695-215-11 o
CN407F(to MB602 BOARD)
1-695-212-11 o
1-695-215-11 o
CN501F(to SW731 BOARD)
1-695-212-11 o
1-695-215-11 o
CN601F(to SW742 BOARD)
1-764-193-11 o
1-695-215-11 o
CN701F(to SW733 BOARD)
1-764-194-11 o
1-695-215-11 o

SP Description

A-8272-571-A s CONVERTER ASSY, DC-DC
1-775-774-11 o FLEXIBLE CARD WIRE (20
(CN-1121 TO
1-775-775-11 o FLEXIBLE CARD WIRE (24
(CN-1122 TO
1-775-776-11 o FLEXIBLE CARD WIRE (30
(CN1120 TO
1-775-777-11 o FLEXIBLE CARD WIRE (30
(CN1121 TO

SP Description

CORE)
MB-602)
CORE)
MB-602)
CORE)
MB-602)
CORE)
MB-602)

CCD UNIT)
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 8P
CONTACT, FEMALE AWG26-30
HOUSING, 20P
CONTACT, FEMALE AWG22-26
CONTACT, FEMALE AWG26-30
HOUSING, 12P
CONTACT, FEMALE AWG26-30
HOUSING, 5P
CONTACT, FEMALE AWG26-30
HOUSING, 5P
CONTACT, FEMALE AWG26-30
HOUSING, 12P
CONTACT, FEMALE AWG26-30
HOUSING, 11P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 4P
CONTACT, FEMALE AWG26-30

CN801F(to SW730 BOARD)
1-764-198-11 o HOUSING, 11P
1-695-215-11 o CONTACT, FEMALE AWG26-30

(30 CORE)
TO MB-602)
(20 CORE)
TO CCD UNIT)
(24 CORE)
TO CCD UNIT)

1-955-080-12 o HARNESS (VF)
1-955-086-12 o HARNESS (PA)
CN901
CN902
CN903
CN904
CN905

BVP-550

1-561-781-11
1-562-222-41
1-565-051-21
1-695-841-12
1-509-184-31

s
s
o
s
s

CONNECTOR BNC "TEST OUT"
CONNECTOR 6P FEMALE "REMOTE"
CONNECTOR, 20P FEMAL "VF"
CONNECTOR 12P FEMALE "LENS"
CONNECTOR 3P MALE "MIC"

5-39

5-4. Optional Fixtures
-----------------TOOLS AND FIXTURES
-----------------Part No.
SP Description
J-6026-110-A
J-6026-130-B
J-6029-140-B
J-6394-080-A
J-6395-040-A

5-40

o
o
o
o
o

MULTI-BURST CHART
GRAYSCALE CHART
PATTERN BOX PTB-500
GRAYSCALE CHART (16:9)
EXTENSION BOARD, EX-464

BVP-550

SEMICONDUCTOR INDEX

Section 6
Semiconductor Pin Assignments
Semiconductors of which functions are equivalent are described here.
For parts replacement, refer to the section of Spare Parts in this
manual. The circuit diagram of each IC is obtained from the IC data
book published by the manufacturer.

Diode

PAGE

1S1588 .............................. 6-2
1SS226 ............................. 6-2
1SS300 ............................. 6-2
1SS302 ............................. 6-2
1T363 ................................ 6-2
CL-150D-CD .....................
CL-150PG-CD ..................
CL-150UR-CD ..................
CL-200HR .........................

6-2
6-2
6-2
6-2

2SC4177 ...........................
2SC4177-L6 ......................
2SC4178 ...........................
2SC4184 ...........................
2SC4215 ...........................
2SD1048 ...........................
2SD1111 ...........................
2SD1615A ........................
2SD1623 ...........................
2SD596 .............................
2SD596-DV5 .....................

6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-3
6-3
6-2
6-2

CXD1171M .......................
CXD2307R ........................
CXD2310R ........................
CXK1203AR .....................

DTA143XKA ......................
DTA144E ...........................
DTA144EUA ......................
DTC143XKA .....................
DTC144EE ........................
DTC144EK ........................
DTC144EKA .....................
DTC144EUA .....................

6-3
6-3
6-3
6-3
6-3
6-3
6-3
6-3

LA1140 ............................
LM339NS ........................
LM339PW .......................
LM358PS ........................
LM393PS ........................
LM4040BIMM3X .............

6-7
6-8
6-8
6-9

EL4581CS ........................ 6-9
HA11423MP ..................... 6-9
HD14053BFP .................. 6-10
HD151015T .................... 6-10
HD6475328F10 .............. 6-11

DE5LC20U ........................ 6-2
GL-5ED5 ........................... 6-2
HSM107S .........................
HSM88AS .........................
HSM88WA ........................
HSM88WK ........................

6-2
6-2
6-2
6-2

KV1470 ............................. 6-2
LT9527U ............................ 6-2

IMB2 .................................. 6-3
IMH2 ................................. 6-3

MA141WK ......................... 6-2

Others

RD ? ?M-B ? .....................
RD ? ?M-B ........................
RD ? ?MB .........................
RD ? ?UH .........................
RD ? ?UJN ........................

2SK612 .............................
2SK663 .............................
2SK664 .............................
2SK852-X2 .......................
2SK853 .............................

6-2
6-2
6-2
6-2
6-2

PAGE
6-3
6-3
6-3
6-3
6-3

SC802-04 .......................... 6-2

CXK58257ATM-70LL ......... 6-3

V09C ................................. 6-2
V09G ................................. 6-2
V11 ? ................................. 6-2

HM53461JP-12 ................. 6-4

Transistor

PC410 ............................... 6-5

PAGE

2SA1162G ........................
2SA1226 ...........................
2SA1610 ...........................
2SA1611 ...........................
2SA1688 ...........................
2SA1808 ...........................
2SA811A ...........................
2SB1115A .........................
2SB1121 ...........................
2SB1440S .........................
2SB624 .............................
2SB798 .............................
2SC1623 ...........................
2SC2223 ...........................
2SC2712 ...........................
2SC2713 ...........................
2SC2714Y ........................
2SC2757 ...........................
2SC2758 ...........................
2SC3115 ...........................
2SC3360 ...........................
BVP-550

6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2

6-12
6-12
6-12
6-12
6-12
6-12

M27V201-200L6 ............. 6-12
M51132FP ...................... 6-13
M51958A ........................ 6-13
M52313SP ...................... 6-13
M62021FP ...................... 6-13
M62352GP ...................... 6-14
MAX202CSE ................... 6-14
MB88346BPFV ............... 6-14
MB88351PFV ................. 6-15
MC14018BF .................... 6-15
MC14020BF .................... 6-15
MC14023BF .................... 6-16
MC74HC00AF ................ 6-16
MC74HC4053F ............... 6-16
MN6790S ........................ 6-16
MN8232A ........................ 6-17
MSM82C55A-2GS ........... 6-17

MP7670AS ........................ 6-4

SGM2016M ....................... 6-5
UPA101G .......................... 6-5
XN6401 .............................
XN6435 .............................
XN6501 .............................
XN6534 .............................
XP6435 .............................
XP6501 .............................
XP6534 .............................
IC

6-5
6-5
6-5
6-5
6-5
6-5
6-5

PAGE

BA225F ............................. 6-6
CA3102M ..........................
CLC505AJE ......................
CXA1165M .......................
CXA1432M .......................
CXA1486Q ........................

6-6
6-6
6-6
6-6
6-7

NJM3414AM ...................
NJM4556AM-A ...............
NJM4558V ......................
NJU7022M ......................

6-18
6-18
6-18
6-18

PCF8574AT .................... 6-18
PCF8574T ...................... 6-18
REF-03GS ...................... 6-18
RTC4553B ...................... 6-19
SN74HC08ANS .............. 6-19
SN74HC08APW ............. 6-19
SN74HC157APW ............ 6-19
SN74HC74ANS .............. 6-19
SN74HCT04APW ............ 6-19
SN74HCT244APW-E05 ... 6-20
SN75158PS .................... 6-20
STK10C68-5S35 ............. 6-20
TA75S393F .....................
TA8129Z ..........................
TC4S01F ........................
TC4S11F ........................

6-20
6-21
6-21
6-21

TC4S30F ........................ 6-21
TC4S69F ........................ 6-21
TC4S71F ........................ 6-21
TC4S81F ........................ 6-22
TC4SU69F ...................... 6-21
TC4W53FU ..................... 6-22
TC4W66FU ..................... 6-22
TC74HC00AF ................. 6-16
TC74HC4052AFS (EL) .... 6-22
TC74HC4053AFS ............ 6-16
TC74HC4538AFS ............ 6-22
TC74HC595AF ............... 6-23
TC74VHC00FS (EL) ........ 6-16
TC74VHC02F ................. 6-23
TC74VHC04FS (EL) ........ 6-19
TC74VHC08FS (EL) ........ 6-19
TC74VHC138FS (EL) ...... 6-23
TC74VHC157FS ............. 6-19
TC74VHC163F ............... 6-23
TC74VHC20F ................. 6-24
TC74VHC244FS (EL) ...... 6-20
TC74VHC32FS (EL) ........ 6-24
TC74VHC541FS (EL) ...... 6-24
TC74VHC74F ................. 6-19
TC74VHC74FS (EL) ........ 6-19
TC7S00FU ...................... 6-21
TC7S02FU ...................... 6-21
TC7S04FU ...................... 6-21
TC7S08FU ...................... 6-22
TC7S32FU ...................... 6-21
TC7S66FU ...................... 6-24
TC7S86FU ...................... 6-21
TC7SH02FU ................... 6-21
TC7SH04FU ................... 6-21
TC7SH08FU ................... 6-22
TC7SH32FU ................... 6-21
TC7W00FU ..................... 6-24
TC7W02F ....................... 6-24
TC7W04FU ..................... 6-24
TC7W08FU ..................... 6-24
TC7W139FU ................... 6-25
TC7W32FU ..................... 6-25
TC7W74FU ..................... 6-25
TL062CPW ..................... 6-25
TL064CPW ..................... 6-25
TL074CPW ..................... 6-25
TL082M ........................... 6-25
TL084CPW ..................... 6-25
TLC0820ACDW .............. 6-26
TLC272CPW ................... 6-26
TLC27L2CPS .................. 6-26
UPC358G2 ..................... 6-12
UPC393G2 ..................... 6-12
UPD4702G ..................... 6-26
UPD6453GT-610 ............. 6-27
UPD71055GB-10-3B4 ..... 6-28
X24164S1 ....................... 6-28
X24C02S-3. 0 ................. 6-28

6-1

Di, Tr

DIODE

GL-5ED5;A=RED,B=YEL GRN

1S1588

(SCALE 4/1)
TOP VIEW

(
)
TOP VIEW

SC802-04

1SS226
1SS302
HSM107S
HSM88AS

V09C
V09G
V11 ?
B

A

TOP VIEW

TRANSISTOR

HSM88WK
MA141WK

TOP VIEW

1SS300
HSM88WA
(SCALE 4/1)
TOP VIEW

3

1

2

KV1470

—TOP VIEW—

2SA1162G
2SA1226
2SA1610
2SA1611
2SA1688
2SA1808
2SA811A
2SB1440S
2SB624

3

(

)
TOP VIEW

2

1

1T363

(
)
TOP VIEW

2SB1115A
2SB1121
2SB798

LT9527U
INDEX

CL-150D-CD;ORANGE
CL-150PG-CD;GREEN
CL-150UR-CD;RED
7

8

9

10

11

6

12

5

4

3

2

1
(

)
TOP VIEW

3

CL-200HR;RED

2

4

1

(

6

3

5

8

7

10

9

12

11

)

RD ? ?M-B
RD ? ?MB
RD ? ?M-B ?

TOP VIEW

DE5LC20U
3

1

2

2SC1623
2SC2223
2SC2712
2SC2713
2SC2714Y
2SC2757
2SC2758
2SC3115
2SC3360
2SC4177
2SC4177-L6
2SC4178
2SC4184
2SC4215
2SD1048
2SD596
2SD596-DV5

NC

2

1

2SD1111
(
)
TOP VIEW

6-2

RD ? ?UH
RD ? ?UJN

BVP-550

Tr, Others

Others

(SCALE 4/1)
TOP VIEW

2SK612

2SD1615A
2SD1623

TOP VIEW

3

2

3

2

(SCALE 4/1)
TOP VIEW

2SK663

2SK852-X2
2SK853

3

2

1

1

S

1

S

S

(
)
TOP VIEW

DTA143XKA(R1=4.7K R2=10K)
DTA144EE(R1=47K, R2=47K)
DTA144EUA(R1=47K, R2=47K)

3

2

1
R1

R2

CXK58257ATM-70LL(SONY)(ACCESS TIME=70ns)FLAT PACKAGE
(SCALE 4/1)
TOP VIEW

C-MOS 256K (32768 x 8)-BIT STATIC RAM
—TOP VIEW—

DTC143XKA(R1=4.7K, R2=10K)
DTC144EE(R1=47K, R2=47K)
DTC144EK(R1=47K, R2=47K)
DTC144EKA(R1=47K, R2=47K)
DTC144EUA(R1=47K, R2=47K)

3

2

1
R1

10

OE

IN

21 A10

22

IN

9
8

A11

IN

20 CE

23

IN

7
6

A9

IN

19 I/O8

24

5

R2

4

A8

IN

18 I/O7

25

3
25

A13

IN

17 I/O6

26

24
21

WE

IN

27

16 I/O5

23

DD
28 V
+5V

15 I/O4

26

2

(
)
—TOP VIEW—

6

1

5

2

4

3

IMB2(R=47K)

1

A14

IN

1

A12

IN

2

13 I/O3

A7

IN

3

12 I/O2

A6

IN

4

11 I/O1

A5

IN

5

10 A0

IN

A4

IN

6

9 A1

IN

A3

IN

7

8 A2

IN

GND 14

A0
A1
A2
A3

I/O1

A4

I/O2

A5

I/O3

A6

I/O4

A7

I/O5

A8

I/O6

A9

I/O7

A10

I/O8

A11
A12
A13
A14
OE
22

WE
27

CE
20

1

6
R
R

5
2
R

R

3

4

A0-A14
CE
I/O1-I/O8
OE
WE
(

)

IMH2(R=47K)

TOP VIEW

6

1

5

2

4

3

A14
A13
A12

1

6
R

A11
A9
A8

R

A7

5
2
R

4

A6
A5

CE
1
0
0
0

1

ROW
DECODER

26
2

25

OE
X
1
0
X

ADDRESS INPUTS
CHIP ENABLE INPUT
DATA INPUTS/OUTPUTS
OUTPUT ENABLE INPUT
WRITE ENABLE INPUT
WE
MODE
X
NOT SELECT
1 OUTPUT DISABLE
1
READ
0
WRITE

I/O TERMINAL
HIGH IMPEDANCE
HIGH IMPEDANCE
OUTPUT DATA
INPUT DATA
0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

23
24

;
;
;
;
;

BUFFER

3

MEMORY
MATRIX
512 x 512

4
5

R
19

3
A10
A4
A3
A2
A1
A0

21

18

6

17

7
8

BUFFER

9

I/O GATE
COLUMN
DECODER

I/O
BUFFER

16
15
13
12

10

11

I/O8
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1

OE

WE

22

27

BUFFER

20
CE

BVP-550

6-3

11
12
13
15
16
17
18
19

Others

HM53461JP-12(HITACHI)(ACCESS TIME=120ns)PLCC

MP7670AS(MICRO POWER SYSTEMS)FLAT PACKAGE

C-MOS 64K WORD x 4 BIT MULTI PORT RAM

C-MOS 8-BIT 8CHANNEL D/A CONVERTER

—TOP VIEW—

1
2
3
4
5
6
7
8
9
10
11
12

— TOP VIEW —

GND

VCC (+5V)

17
16
15
14
11
10
9
13

8
18
7
4
21

A0

I/O1

A1

I/O2

A2

I/O3

A3

I/O4

A4

SI/O1

A5

SI/O2

A6

SI/O3
SI/O4

A7

24
23
22
21
20
19
18
17
16
15
14
13

PIN
No.

I/O

1
2
3
4
5
6
7
8
9
10
11
12

—
I/O
I/O
—
I/O
I/O
—
—
I
I
I
—

PIN
No.
13
14
15
16
17
18
19
20
21
22
23
24

SIGNAL
SC
SI/O1
SI/O2
DT/OE
I/O1
I/O2
WE
RAS
A6
A5
A4
VCC

5

I/O
I
I
I
I
I
—
I/O
I/O
—
I/O
I/O
—

SIGNAL

C V

OUT

1

24 D V

OUT

B V

OUT

2

23 C V

IN

4
23

A7
A3
A2
A1
A0
CAS
I/O3
I/O4
SOE
SI/O3
SI/O4
GND

22
8

A V

OUT

3

22 D V

9

IN

14

B V IN 4

VDD
(+5V)

A V IN 5

21

15

20 DI

7

IN

16

6 GND

VSS
(–5V)

19

20
17

PR IN 7

18 DO

OUT

E V IN 8

17 CK

IN

F V IN 9

16 LD

IN

A

A

B

B

C

C

D

D

E

E

F

F

G

G

H

H

3
2
1
24
10
11
12
13

PR
LD
DI

DO

18

5
6

A0-A7
CAS
DT/OE
I/O1-I/O4
RAS
SC
SI/O1-SI/O4
SOE
WE

19
20
2
3
22
23

;
;
;
;
;
;
;
;
;

ADDRESS INPUT
COLUMN ADDRESS STROBE INPUT
DATA TRANSMISSION/OUTPUT ENABLE INPUT
RAM PORT DATA INPUT/OUTPUT
ROW ADDRESS STROBE INPUT
SERIAL CLOCK INPUT
SAM PORT DATA INPUT/OUTPUT
SAM PORT ENABLE INPUT/OUTPUT
WRITE ENABLE INPUT

E V

RAS

OUT

10

15 H V

IN

F V

OUT

11

14 G V

IN

G V

OUT

12

13 H V

OUT

CK
DI
DO
LD
PR

CAS
WE
DT/OE
SOE

; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT
; DATA LOAD CONTROL INPUT
; PRESET INPUT

1

5
I/O1

I/O2

5

6

I/O3

I/O4

19

20

LATCH A

D/A A

-

3

+

4

WRITE MASK
GENERATOR

OE CLOCK
GENERATOR

I/O BUFFER

4

WE

CAS

18

WE CLOCK
GENERATOR

CAS CLOCK
GENERATOR

LATCH B

DT/OE

D/A B

23

LATCH C

64K x 4
MEMORY
ARRAY

SOE CLOCK
GENERATOR

21

D/A C

8

RAS CLOCK
GENERATOR

SC CLOCK
GENERATOR

256 x 4 DATA
REGISTER

13-17 9-11
A0-A7

1

CAS

24
8

LATCH E

SI/O BUFFER

VBB
GENERATOR

D/A E

LATCH F

-

10

+

D/A F

-

11

+

14

LATCH G
PR

RAS

D/A D

-

+

SC

REFRESH ADDRESS
COUNTER
18

+

9

Y ADDRESS
BUFFER

8

1

SOE

POINTER

X ADDRESS
BUFFER

-

22

LATCH D
RAS

2

+

TRANSFER
CONTROL

Y DECODER
X DECODER

7

-

2

3

22

SI/O1

SI/O2 SI/O3

D/A G

-

+

15

7

23
SI/O4

12

LATCH H

D/A H

-

13

+

6

LD

DI
CK

6-4

16

20
17

A V
A V
B V
B V
C V
C V
D V
D V
E V
E V
F V
F V
G V
G V
H V
H V

GND

LOGIC
CONTROL

A3 A2 A1 A0

D7

TO

D0

18

DO

SERIAL SHIFT
REGISTER

BVP-550

Others

PC410(SHARP)FLAT PACKAGE
OPIC-OUTPUT PHOTO COUPLER
—TOP VIEW—
6

5

**
XP6435

(SCALE 6/1)
TOP VIEW

1
2
3

6
5
4

4
6

1

5

1

2

3

4

3

2

SGM2016M

3
1

6
5

4
G2

D

G1

S

1PIN

**
XP6501

(
)
TOP VIEW

4

1
2
3

1

6

2

5
4

3

UPA101G(NEC)FLAT PACKAGE
—TOP VIEW—
8

7

6

1
2
3

5

*

(SCALE 6/1)
TOP VIEW

TRANSISTOR ARRAY

1

XP6534

6
5
4

6
5

2

1

2

3

**
XN6401
XN6435

(SCALE 6/1)
TOP VIEW

6
5

1
2
3

4

4

3

4

6

1

5

2
3

4

*
XN6501
XN6534

(SCALE 6/1)
TOP VIEW

6
5
4

1
2
3

6

1

5

2
3

4

BVP-550

6-5

IC

IC

BA225F(ROHM)

CXA1165M(SONY)FLAT PACKAGE

CR TIMER

CATV VHF TUNER
— TOP VIEW —

-TOP VIEWVCC
(+16V)

OUT1 1

8

8

2

O

CR1 2

7 OUT2

CR

6

O

T

TRIGGER1 3

CR

6 CR2

3

5 TRIGGER2

5

VCC
CR1
OUT1

14
VCC

CR2

TRG1
OUT2
TRG2

OSC OSC OSC
3
2
1

OUT

OUT

OUT

OUT

13

12

11

10

9
GND

8

3

4

5

6

7

7

GND
4

GND
1

2

RF1 RF2

IF
OUT

IN

UIF MIX1 MIX2

IN

IN

OSC OSC
2 1
13

CA3102M(RCA)FLAT PACKAGE
14

HIGH FREQ.DIFFERENTIAL AMPLIFIER

TP

(+6.5 V to +9.5 V)

T

4 GND

1

REG

12 11

OUT

OUT

TP

10

8

+5 V
REG

VCC
(+6.5 V to +9.5 V)

—TOP VIEW—

OSC
1

14

2

13

RF2

3

12 SUBSTRATE

4

11

5

10

6

9

7

8

6

3

RF1

UIF

4

MIX

5

UIF
AMP

7

1

IF
AMP

+

MIX1
MIX2

IF

CXA1432M(SONY)FLAT PACKAGE
VIDEO SIGNAL CLAMPER
— TOP VIEW —

CLC505AJE(COMLINEAR)FLAT PACKAGE

CP

TP12

OPERATIONAL AMPLIFIER

14
VCC

— TOP VIEW —

(+5 V)

13
NC

12

IN

11
VEE

PEDE SENS

10

9

1

3

(–5 V)

9
8

1 NC
V– 2

–

V+ 3

+

4 VEE

(–5 V)

10

8 RP
VCC
(+5 V)

7
6 V OUT

1

2

3

4

V

E

FV

TP5

IN

OUT

IN

E OUT

2

NC
6

FV IN
PEDE

V OUT

7

SENS
CP IN

7
V
OUT

NC 5

CP IN
E OUT
FV IN
PEDE
SENS
TP5, TP12
V IN
V OUT

V IN

FV IN

PEDE
SENS

CP IN

6-6

NC
5

V IN

8

1

; CLAMP PULSE INPUT
; BUFFER AMP OUTPUT
; FLOATING VIDEO SIGNAL INPUT
; CLAMP LEVEL DC INPUT
; CLAMP POINT SIGNAL INPUT
; FOR TEST
; VIDEO SIGNAL INPUT
; VIDEO SIGNAL OUTPUT

2

E. F

3

9
8

10

+

E. F

7

E OUT

V OUT

SAMPLE
&
HOLD

+
–

MODE
SELECTOR

BVP-550

IC

CXA1486Q

(SONY)

CXD1171M(SONY)FLAT PACKAGE

VIDEO AMPLIFIER FOR VIDEO CAMERA

C-MOS 8-BIT D/A CONVERTER
— TOP VIEW —

V EE

V CC

V EE I
DR V EE

DR V CC

GND2

GND I

V CC I

V CC , V CC I, DR V CC , = (+5V)
V EE , V EE I, DR V EE , = (-2.5 to -5.5V)
16
15
14
13
12
11
10
9

1
2
3
4
5
6
7
8

25
26
27
28
29
30
31
32

GND1

24
23
22
21
20
19
18
17

- TOP VIEW -

24
12
26
14
2
27

BLACK1
BLKG
G CTRL
ZERO
W SHAD
F COMP

30
BLACK2
18
SIG IN
16
BLK SHAD
19
GS2
20
GS1
21
CLP PLS1
32
CLP PLS2
4
FB REF
9
KNEE PT

23
LPFC1
11
FLT DET
LPF C2

CLP C1
FLR DET
CLP C2

29

31
11

INPUT
BLACK1, 2
BLKG
BLK SHAD
CLP PLS1, 2
F COMP
FB REF
G CTRL
GS1, 2
KNEE PT
KNEE SW

25
OUT SW
SIG IN
W SHAD
ZERO

SIG OUT

I/O

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

I
I
–
I
–
–
O
–
I
I
O
I
–
I
–
I

SIGNAL

PIN
No.

I/O

SIGNAL

OUT SW
W SHAD
GND I
FB REF
V EE I
DR V EE
SIG OUT
DR V CC
KNEE PT
KNEE SW
FLR DET
BLKG
GND2
ZERO
V CC
BLK SHAD

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

–
I
I
I
I
–
O
I
O
I
I
–
O
I
O
I

GND1
SIG IN
GS2
GS1
CLP PLS1
V EE
LPF C1
BLACK1
CLP C2
G CTRL
F COMP
V CC I
LPF C2
BLACK2
CLP C1
CLP PLS2

; FOR CLAMP DC COMPENSATION
; BLANKING SIGNAL
; BLACK SHADING CORRECTION SIGNAL
; CLAMP PULSE
; FLARE COMPENSATION SIGNAL
; OUTPUT 2 INVERT AMPLIFY DC ADJUST
; WHITE BALANCE GAIN CONTROL
; GAIN SELECT
; KNEE POINT
; 1/4, 1/5 KNEE SELECT
(4.5V=1/4 KNEE, 0V=1/5 KNEE)
; OUTPUT 3 AMPLIFY SELECT
; SIGNAL INPUT
; WHITE SHADING SIGNAL
; VARIABLE GAIN AMPLIFY ZERO POINT ADJUST

7
OUTPUT
CLP C1, C2
FLR DET
LPF C1, C2
SIG OUT

1
OUT SW
10
KNEE SW

PIN
No.

12

26
G CTRL
14
ZERO
2
W SHAD
27
F COMP

(+5 V)

A. VDD
(+5 V)

1

24

2
3

23

4
5

22

6
7

D3 IN 4
D4 IN 5

21 IO OUT

8

20 IO OUT

12
9

A. VDD

D5 IN 6

(+5 V)

A. VDD

D6 IN 7

(+5 V)

D7 IN 8

15

18

15 IREF IN

VB IN 11

A. GND 14

CK IN 12

B. GND 13

2

2

D2 3 - 5 3
–
D4

DECODER

D5 6 - 8 3
–
D7

DECODER

VREF

VB

9

16
15

20
21

D3
D4
D5
D6
D7

BLK
VREF
IREF
VB

VG
17

CK
; CLOCK INPUT
BLK
; BLANKING PULSE INPUT
D0 - 7 ; DIGITAL DATA INPUT
IO
; CURRENT OUTPUT
IO
; INVERT CURRENT OUTPUT
IREF ; CURRENT REFERENCE INPUT
VB, VG ; FOR CAPACITOR
VREF ; VOLTAGE REFERENCE INPUT

2

LATCHES

2

6MSB'S
CURRENT
CELLS

+

2LSB'S
CURRENT
CELLS

20
21

17

IO
IO

VG

–
CURRENT
CELLS
FOR FULL
SCALE

11

12

IO

D2

11

16 VREF IN

10 D. GND

BLK

IO

D1

17 VG OUT

BLK IN 9

D0 1
D1 2

16

19

D0

CLOCK
GENERATOR

31

CLP C1
18
SIG IN
16
BLK SHAD

G
BLKG

D. VDD

D2 IN 3

CK

19, 20
GS1,2
21
CLP PLS1
24
BLACK1
23
LPF C1

(+5 V)

D1 IN 2

IREF

; FOR CLAMP CAPACITANCE
; FLARE DETECT
; CONNECT CAPACITANCE FOR LPF
; SIGNAL OUTPUT

D. VDD

D0 IN 1

BLKG

WBAL
11

2dB

29

25
CLP C2
32
CLP PLS2
30
BLACK2

9

1/4 KNEE

FLR DET

LPF C2

KNEE PT

1/5 KNEE
10

KNEE SW

0dB

FB REF

4
4dB

DR

8
DR V DD
7
SIG OUT
6
DR V EE

0dB

OUT SW

BVP-550

1

6-7

IC

CXD2307R(SONY)FLAT PACKAGE

CXD2310R(SONY)
C-MOS 10-BIT 20MSPS VIDEO A/D CONVERTER

C-MOS 10-BIT 50MSPS RGB 3CHANNEL D/A CONVERTER

13
14
15
16
17

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

18

R9

VB

G1

23
24
25
26
27
28

G5

G7

32
33
37
38
39
40
41
42

G9

R6

R7
R8
R9

5

7
8

B4

G4
G5
G6

G7
G8
G9

14
15

RCK

ROG

17

GCK

18

ROB

B5
B6

B7
B8
B9

BLK

CE

25

IRR

VGR

IRG

VGG

IRB

VGB

28

29

(+5V)

(+5V)

AVDD 25

AVDD 26

AGND 27

VRT

44
46
48
29

VRR

30

VRG
VRB
BLK

39

CE

34

30

35

14
37

51
44

43
–

40

37

55

6LSB' S
CURRENT
CELLS

46

45
–

41

VRT

D9

VRT

D8

VIN

D7

VRB

D6

VRB

D5

CAL

D4

SEL

D3

RESET

D2

CE

D1

OE

D0

12
11
10
9
8
5
4
3
2
1

CLK

TIN

TO

TSTR

AT

13
38

TS

RO
RO
VGR
RCK
ROR
VRR

IRR

GO
GO
VGG
GCK

INPUT
CAL
CE
CLK
LINV
MINV
OE
RESET
SEL
TIN
TMOD
TS
TSTR
VRB
VRT

; CALIBRATION PULSE INPUT
; CHIP ENABLE
; CLOCK
; OUTPUT (D0-D8) INVERSION
; OUTPUT (D9) INVERSION
; DIGITAL DATA OUTPUT ENABLE
; CALIBRATION CIRCUIT RESET
; OUTPUT DATA (D5-D9) SELECT FOR CALIBRATION (4-CLOCK)
HIGH; THROUGH OUTPUT, LOW; DATA FIXED AS WITH D0-D4
; TEST SIGNAL INPUT
; TEST MODE
; TEST SIGNAL INPUT
; TEST SIGNAL INPUT
; REFERENCE BOTTOM VOLTAGE
; REFERENCE TOP VOLTAGE

OUTPUT
AT
; TEST SIGNAL OUTPUT
D0-D9
; DIGIRAL DATA OUTPUT
TO
; TEST PIN

ROG

CURRENT CELLS
(FOR FULL SCALE)

38

VRG

IRG

4LSB' S
CURRENT
CELLS
58

DECODER

LATCHES

59

6LSB' S
CURRENT
CELLS

48
33

CLOCK
GENERATOR

26
27

AGND 28

47

+

DECODER

23
24

COURSE CORRECTION
& LATCH

45

32

B0 19
(LSB)
20
B1
21
B2
22
B3

B4

FINE LATCH

BCK

6LSB' S
CURRENT
CELLS

CLOCK
GENERATOR

TO

43

54

16

13

B9

+

LATCHES

TIN

48 DGND

B8

4LSB' S
CURRENT
CELLS

DECODER

RESET

B7

CURRENT CELLS
(FOR FULL SCALE)

13

DGND 16

14

B6

31

G0 9
(LSB)
10
G1
11
G2
12
G3

SEL

15

B5

50

DECODER

17

B3

42

6

(+5V)

47 NC

B1
B2

AVDD 18

FINE
COMPARATE
& ENCODE

46 NC

4LSB' S
CURRENT
CELLS

CLOCK
GENERATOR

29

45 DVDD

B0

22

LATCHES

30

44 AGND

G8

23

DECODER

AMP.
(x 8)

G6

24

R5

VRT

43 AGND

ROR
31

NC 31

G4

5

22

DAC

4

— AVSS
RO
O
RO
O
— AVDD
— AVDD
GO
O
GO
O
— AVDD
— AVDD
O
BO
O
BO
— AVDD
— AVDD
— DVDD
I R0 (LSB)
I
R1

21

NC 32

TMOD

G3

15

4

NC 33

LINV

19

+ –

G2

17

3

VRB

20

TS 42

+

TIMING
GEN.

G0

41

R4

34

CAL 41

S/H
AMP.

40 NC

29

R0 63
(LSB)
64
R1
1
R2
2
R3

VRB

MINV

VIN 39

D4

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

CLK

21

35

D3

BCK
DVSS
VB
AVSS
IRR
IRG
IRB
VRR
VRG
VRB
ROR
VGR
ROG
VGG
ROB
VGB

BO

R8

3

I
—
O
—
I
I
I
I
I
I
I
I
I
I
I
I

R7

D2

33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48

OE

22

COURSE
CONPARATE
& ENCODE

2

I
G8
I
G9
I B0 (LSB)
I
B1
I
B2
I
B3
I
B4
I
B5
I
B6
I
B7
I
B8
I
B9
I
BLK
I
CE
I
RCK
I
GCK

CE

23

AT 38

1

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

24

58

D1

PIN
PIN
PIN
PIN
I/O SIGNAL
I/O SIGNAL
I/O SIGNAL
I/O SIGNAL
No.
No.
No.
No.
I
R2
I
R3
I
R4
I
R5
I
R6
I
R7
I
R8
I
R9
I G0 (LSB)
G1
I
G2
I
G3
I
G4
I
G5
I
G6
I
G7
I

TSTR 37
59

(+3V)

19
20

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

BO

D9 12

12

R6

D8 11

11

54

D7 10

9
10

55

CALIVBRATION
UNIT

8

GO

R5

9

7

GO

R4

8

6

R3

D6

5

50

R2

D5

4

51

DD
7 DV
(+3V)

A VDD (+7 V)
A VDD (+7 V)
D VDD (+7 V)

3

RO

6 DGND

A VDD (+7 V)
A VDD (+7 V)

2

RO

R1

D0

A VDD (+7 V)
A VDD (+7 V)

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

R0

(LSB)

A VSS (GND)

1

D VSS (GND)

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

A VSS (GND)

64

AGND 36

48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33

63

35

—TOP VIEW—

— TOP VIEW —

DECODER

47
–

42

BO
BO
VGB
BCK
ROB
VRB

+

CURRENT CELLS
(FOR FULL SCALE)

39

BIAS VOLTAGE
GENERATOR

35

IRB

VB

30

6-8

BVP-550

IC

CXK1203AR(SONY)FLAT PACKAGE

EL4581CS(ELT)FLAT PACKAGE

C-MOS DIGITAL LINE MEMORY

VIDEO SYNC SEPARATOR

—TOP VIEW—

36
35
34
33
32
31
30
29
28
27
26
25

— TOP VIEW —
1

NC
NC

3

24
23
22
21
20
19
18
17
16
15
14
13

VDD (+5V)
VDD (+5V)
NC
NC
NC
NC
NC

GND

37
38
39
40
41
42
43
44
45
46
47
48

GND

2

4
5
7
8
9
10
11

DOT0

D1

DOT1

D2

DOT2

D3

DOT3

D4

DOT4

D5

DOT5

D6

DOT6

D7

DOT7

D8

DOT8

D9

21

DOT9

VCC
(+5 V)

COMPOSITE
1
SYNC OUT

35
34
33
32
31

C

8

COMPOSITE
VIDEO

2

COMPOSITE 2
VIDEO IN

7 ODD/EVEN OUT

VERTICAL
SYNC OUT

3

6 RSET

4 GND

5 BURST/BACK

COMPOSITE 1
SYNC
VERTICAL 3
SYNC
ODD/EVEN

7

29
28

6

OUT

27

RSET

BURST/BACK

5

R

26

PSW0

20

TIMING CHART

PSW1

18

OEN

PSW2

17

25

COMPOSITE
VIDEO IN

PSW3

16
15

1
2
3
4
5
6
7
8
9
10
11
12

D0

36

14

PSW4

PSB0

PSW5

PSB1
PSB2

PSW6

13

24

COMPOSITE
SYNC OUT

23

VERTICAL
SYNC OUT

22

PSW7

BURST OUT

N/P

ODD/EVEN OUT

AEN

TINT

SCLK

42

41 12 39 40

(VDD = +5V)
PIN
PIN
PIN
PIN
NO. I/O SIGNAL NO. I/O SIGNAL NO. I/O SIGNAL NO. I/O SIGNAL
1
2
3
4
5
6
7
8
9
10
11
12

I
I
I
I
I
—
I
I
I
I
I
I

D0
D1
D2
D3
D4
GND
D5
D6
D7
D8
D9
TINT

13
14
15
16
17
18
19
20
21
22
23
24

I
I
I
I
I
I
—
I
I
I
I
I

PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
VDD
PSW1
PSW0
PSB2
PSB1
PSB0

25
26
27
28
29
30
31
32
33
34
35
36

I
O
O
O
O
—
O
O
O
O
O
O

OEN
DOT9
DOT8
DOT7
DOT6
GND
DOT5
DOT4
DOT3
DOT2
DOT1
DOT0

37
38
39
40
41
42
43
44
45
46
47
48

—
—
I
I
I
I
—
—
—
—
—
—

N.C
N.C
AEN
N/P
SCLK
CLK
VDD
N.C
N.C
N.C
N.C
N.C

HA11423MP(HITACHI)FLAT PACKAGE
TV H/V SYNC SIGNAL PROCESSOR
-TOP VIEWFIN
2

1

18

17

3

16
VCC
(+12V)

4

14

6

13

7
AEN
CLK
DIN0-DIN9
DOT0-DOT9
N/P
OEN
PSB0-PSB2
PSW0-PSW7
SCLK
TINT

;
;
;
;
;
;
;
;
;
;

LINE MEMORY SELECT
CLOCK
VIDEO DATA INPUT
VIDEO DATA OUTPUT
NTSC/PAL/SECAM SELECT
OUTPUT ENABLE
DELAY STEP SELECT (1 BITxN)
DELAY STEP SELECT (8 BITxN)
CLOCK EDGE SELECT
TEST

15

VCC
5 (+12V)

12
8

GND
9

10

11

FIN

VBS
VIDEO
IN

11

FBP
IN

12

SYNC
SEP

8

SYNC OUT

AFC
GATE

13

BUFF

DIN9

1 LINE MEMORY
(1138 x 10bit)

SMALL DELAY
CONTROLLER

BUFF

14

H
OSC

17

X-RAY
TRIGG

7

V
TRIGG

DOT0

—

—

DIN0

H
SIZE

26-29
31-36

1-5
7-11

DOT9

22-24

OEN
PSB0

—

25

PSB2

ADDRESS
COUNTER

PSW7

N/P

V
SIZE

4

V
OSC

16

V
BLKG

18

V
DRIVER

1

H DEF OUT

V BLKG OUT

V DEF OUT

CLK

41
SCLK
12

ADDRESS
MULTIPLEXER

—

PSW0

13-18
20, 21

TIMING
CONTROLLER

42

H
DRIVER

+

3

TINT

40
39

AEN

BVP-550

6-9

IC

HD14053BFP(HITACHI)FLAT PACKAGE
C-MOS TRIPLE 2-CHANNEL ANALOG MULTIPLEXERS/DEMULTIPLEXERS
— TOP VIEW —

VDD
(+3 V to +18 V)

X1 IN/OUT 1

16

X0 IN/OUT 2

15 XC

IN/OUT

Y1 IN/OUT 3

14 ZC

IN/OUT

YC IN/OUT 4

13 Z1

Y0 IN/OUT 5
EN IN 6

2

X0

1

X1

XC 15

OPEN
10 AX
5

Y0

3

Y1

IN/OUT

9

OPEN
AY

YC 4

12 Z0

IN/OUT

12 Z0

11 AZ

IN/OUT

OPEN
11 AZ

10 AX

IN/OUT

EN

VEE

6

7

13 Z1

7 VEE *

9 AY

8 GND

ZC 14

IN/OUT

CONT. INPUTS
ON
EN A (X, Y, Z) CHANNEL
0
0
0
1
1
0
OPEN
X
1

VEE * ; VDD – VEE + 3 V + 18 V
0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

HD151015T(HITACHI)FLAT PACKAGE
C-MOS 9-BIT LEVEL SHIFTER/TRANSCEIVER WITH 3-STATE OUTPUTS
— TOP VIEW —

1 VDDA

(+2 V to +6 V)

VDDB
(+2 V to +6 V)

DIR IN 2

24
23 EN

IN

3

22

4

21

5

20

6

19

7

A0 3

22 B0

18
A

8

B

17

9

A1 4

21 B1

16

10

15

11

A2 5

20 B2

A3 6

19 B3

A4 7

18 B4

A5 8

17 B5

A6 9

16 B6

A7 10

15 B7

A8 11

14 B8

12 GND

14
DIR

EN

2

23

EN
0
0
1

DIR OPERATION
0
B to A
1
A to B
X
HI-Z

0
1
X
HI-Z

GND 13

;
;
;
;

LOW LEVEL
HIGH LEVEL
DON'T CARE
HIGH IMPEDANCE

A0

A1

A2

A3

A4

A5

A6

3

4

5

6

7

8

9

A7

A8

10

11

23
EN
2
DIR

22

B0

6-10

21

B1

20

B2

19

B3

18

B4

17

B5

16

B6

15

B7

14

B8

BVP-550

IC

HD6475328F10(HITACHI)
C-MOS 16-BIT MICROPROCESSOR

9

RAM
1 k BYTE

13

BVP-550

P30/D0

P32/D2

P33/D3

P34/D4

P35/D5

P36/D6

P37/D7

P31/D1
13

14

15

16

17

18

19

PORT 6

31
30

43
P70/TMC1

44
P71/FT11

P72/FT12

45

46
P73/FT13/TMR1

47
P74/FTOB1/FTC11

P75/FTOB2/FTC12

48

49
P77/FTOA1

P76/FTOB3/FTC13

50

53

54

52
P80/AN0

38

PORT 7

P81/AN1

39

PORT 8
55

40

56

PORT 9

41

P70/TMCI

P71/FTI1

P72/FTI2

P60/A16

32

43

44

45

P73/FTI3TMRI
46

P75/FTOB2/FTCI2

P76/FTOB3/FTCI3

P74/FTOB1/FTCI1
47

48

49

P77/FTOA1
50

P81/AN1

P82/AN2

P80/AN0
52

53

54

P84/AN4

P85/AN5

P83/AN3
55

56

57

P87/AN7

P86/AN6
58

59

P90/FTOA2
61

P92/PW1

P93/PW2

P94/PW3

P91/FTOA3
62

63

64

65

P95/TXD

P96/RXD

66

67

68

P97/SCK

P60/A16

P61/A17

33

P82/AN2

P61/A17

38

P83/AN3

P62/A18

P62/A18

34

57

P63/A19

P63/A19
40
39

61

P50/A8

41

35

P91/FTOA3

P51/A9
NMI

36

62

P53/A11

37

63

MD2

P52/A10
11

21

P92/PW1

P54/A12

WATCHDOG
TIMER

22

64

MD1

10-BIT
A/D CONVERTER

23

P93/PW2

P55/A13

16-BIT FREE
RUNNING TIMER
(x3 CHANNEL)

24

P94/PW3

8

P50/A8

65

7

MD0

P52/A10

PWM TIMER
(x3 CHANNEL)

25

P95/TXD

6

P53/A11
32
P51/A9

66

P56/A14

P54/A12
33

30

STBY
P57/A15

34

26

P84/AN4

P40/A0

RES

8-BIT
TIMER

27

67

9

37

31

68

10

P40/A0

P56/A14

58

P41/A1

P41/A1

P57/A15

P85/AN5

P42/A2

P42/A2
21

36

P86/AN6

P43/A3

28

P87/AN7

XTAL

P43/A3
23

P55/A13

59

P44/A4

P44/A4
24

22

CPU

SERIAL
COMMUNICATION
INTERFACE

P97/SCK

70

EXTAL

25

35

P96/RXD

69

P45/A5

11

P90/FTOA2

14

15

16

17

18

19

20

P45/A5

P20/AS

INTERRUPT
CONTROLLER

P30/D0

P31/D1

P32/D2

P33/D3

P34/D4

P35/D5

P36/D6

P37/D7

1

2

3

4

80
P20/AS

P21/R/W

P22/DS

P23/RD

P24/WR

73

74

72
P10/Ø

P11/E

P12/BACK

P13/BREQ

75

77

78

79

76
P14/WAIT

P15/IRQ0

P16/IRQ1

P17/TMO

P46/A6

20

MASK ROM
32 k BYTE

P46/A6
26

PORT 4

WAIT
STATE
CONTROLLER

DATA
TRANSFER
CONTROLLER

P47/A7

P21/R/W

P22/DS

P23/RO

P47/A7
27

10

6
MD0
7
MD1
8
MD2

NMI

80

1

P24/WR

28

PORT 5

STBY

CLOCK
OSC

ADDRESS BUS

RES

69
70

PORT 3

DATA BUS (HIGH ORDER)

XTAL

PORT 2

DATA BUS (LOW ORDER)

EXTAL

2

4

PORT 1

3

P10/ø

P11/E

P12/BACK

P83/AN3
P84/AN4
P85/AN5
P86/AN6
P87/AN7
AVDD
P90/FTOA2
P91/FTOA3
P92/PW1
P93/PW2
P94/PW3
P95/TXD
P96/RXD
P97/SCK
EXTAL
XTAL
VSS
P10/ø
P11/E
P12/BACK
P12/BREQ
P12/WAIT
P12/IRQ0
P12/IRQ1
P12/TMO
P12/AS

72

SIGNAL

I/O
I/O
I/O
I/O
I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I
I
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O

P13/BREQ

I/O

55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80

73

P47/A7
GND
P50/A8
P51/A9
P52/A10
P53/A11
P54/A12
P55/A13
P56/A14
P57/A15
P60/A16
P61/A17
P62/A18
P63/A19
VDD
P70/TMCI
P71/FTI1
P72/FTI2
P73/FTI3/TMRI
P74/FTOB1/FTCI1
P75/FTOB2/FTCI2
P76/FTOB3/FTCI3
P77/FTOA1
AGND
P80/AN0
P81/AN1
P82/AN2

P14/WAIT

SIGNAL

I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
O
—
I/O
I/O
I/O

74

I/O

28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54

P15/IRQ0

SIGNAL
P21/R/W
P22/DS
P23/RD
P24/WR
VDD
MD0
MD1
MD2
STBY
RES
NMI
GND
P30/D0
P31/D1
P32/D2
P33/D3
P34/D4
P35/D5
P36/D6
P37/D7
P40/A0
P41/A1
P42/A2
P43/A3
P44/A4
P45/A5
P46/A6

INPUT/OUTPUT
D0-D7
; DATA BUS
P10-P17
; PORT 1
P20-P24
; PORT 2
P30-P37
; PORT 3
P40-P47
; PORT 4
P50-P57
; PORT 5
P60-P63
; PORT 6
P70-P77
; PORT 7
P90-P97
; PORT 9
SCK
; SERIAL CLOCK INPUT/OUTPUT

75

I/O
I/O
I/O
I/O
—
I
I
I
I
I
I
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O

PIN
No.

P16/IRQ1

I/O

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27

PIN
No.

; ADDRESS BUS
; ADDRESS STROBE
; BUS REQUEST ACKNOWLEDGE
; DATA STROBE
; ENABLE CLOCK
; FRT OUTPUT COMPARE A OUTPUT (CHANNEL 1 TO 3)
; FRT OUTPUT COMPARE B OUTPUT (CHANNEL 1 TO 3)
; PWM TIMER OUTPUT (CHANNEL 1 TO 3)
; READ/WRITE
; READ
; 8-BIT TIMER OUTPUT
; SEND DATA
; WRITE
; SYSTEM CLOCK

76

PIN
No.

OUTPUT
A0-A19
AS
BACK
DS
E
FTOA1-FTOA3
FTOB1-FTOB3
PW1-PW3
R/W
RD
TMO
TXD
WR
ø

P17/TMO

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND

VDD (+5 V)

GND

77

GND

; ANALOG INPUT
; BUS REQUEST
; CONNECTED TO CRYSTAL OSCILLATOR.
; FRT COUNTER CLOCK INPUT (CHANNEL 1 TO 3)
; FRT INPUT CAPTURE INPUT (CHANNEL 1 TO 3)
; INTERRUPTION REQUEST 0 AND 1
; MODE SETTING
; NON MASKABLE INTERRUPTION
; PORT 8
; RESET
; RECEIVE DATA
; STANDBY
; 8-BIT TIMER CLOCK INPUT
; 8-BIT TIMER COUNTER RESET INPUT
; WAIT
; CONNECTED TO CRYSTAL OSCILLATOR.

79

40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21

INPUT
AN0-AN7
BREQ
EXTAL
ETCI1-FTCI3
FTI1-FTI3
IRQ0, 1
MD0-MD2
NMI
P80-P87
RES
RXD
STBY
TMCI
TMRI
WAIT
XTAL

78

VDD (+5 V)

61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80

AGND

AVDD (+5 V)

60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41

— TOP VIEW —

6-11

IC

LM393PS(TI)FLAT PACKAGE
UPC393G2(NEC)FLAT PACKAGE

LA1140(SANYO)
IF AMP, LIMITTER, DETECTOR, MUTING, + FM CS

DUAL VOLTAGE COMPARATORS

— PRINTED SIDE VIEW —

—TOP VIEW—
8

7

VCC
(+2 to +36V)

6

5

+

–

VDD
(+8 V)

VCC

+
12

IF OUT

12

13

14

15

16

AGC

11

S-MUTER

10

V RET

9

MUTE
DRIVE

8

QUAD IN

7

IF OUT

6

AFC

4

AF OUT

GND
5

MUTE IN

3

IF IN

2

MUTE ATT
ADJ

GND
1

QUAD IN

9

11

IF IN

1st

2nd

3rd

4th

5th

6th

3

GND
4

13

AFC
CLAMP

QUADRATURE
LIMITER

2

V RET

VOLTAGE
REGULATOR

1

–

1

QUADRATURE
DET

7

8

AFC

AF OUT

LM4040BIM3X(NS)
PRECISION MICROPOWER SHUNT VOLTAGE REFERENCE
— TOP VIEW —

LEVEL
DEL

LEVEL
DEL

LEVEL
DEL

SIGNAL
LEVEL
INDICATE

AGC
DRIVE

16

15

AGC

S-METER

INVERTER

HOLE
DET

DC
LEVEL
DET

AF
MUTE
AMP

1
NC

5

MUTE
ATT
ADJ.

2

3

MUTE
DRIVE

14
MUTE DRIVE

6
MUTE IN

M27V201-200L6(SGS)CHIP CARRIER
C-MOS 2M (256×8) -BIT UV ERASABLE PROM AND OTP ROM

14

13

GND
12

A7 IN
11

10

+
–

9

8

A5 IN

+
–

A4 IN

+
–

2

3
VCC

6

30 A17 IN

31 P IN

32

12
11
10
9

29 A14 IN

8
7

28 A13 IN

6
5

7

27 A8 IN

27
26

+
–
1

A6 IN

5

VDD
(+3.2 V to +5.5 V)

2 A16 IN

—TOP VIEW—

VPP 1

QUAD COMPARATORS

3 A15 IN

— TOP VIEW —
4 A12 IN

LM339NS(TI)FLAT PACKAGE
LM339PW(TI)FLAT PACKAGE–

8

26 A9 IN

23
25

A3 IN
4

5

6

7

9

25 A11 IN

4
28

A2 IN 10

24 G IN

A1 IN 11

23 A10 IN

29
3

(+5V)

2
30

22 E IN

DUAL OPERATIONAL AMPLIFIERS
— TOP VIEW —
VCC
(+3 V to +30 V)

1
2
3
4 GND

8
7

– +

+ –

6
5

A0 - A17
Q0 - Q7
E
G
P
VPP

6-12

Q1

A2

Q2

A3

Q3

A4

Q4

A5

Q5

A6

Q6

A7

Q7

14
15
17
18
19
20
21

A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
G
22

24

P
31

Q6 OUT 20

Q5 OUT 19

Q4 OUT 18

13

; ADDRESS INPUTS
; DATA OUTPUTS
; CHIP ENABLE INPUT
; OUTPUT ENABLE INPUT
; PROGRAM INPUT
; PROGRAM SUPPLY (12.75 V)

MODE
READ
OUTPUT DISABLE
PROGRAM
VERIFY
PROGRAM INHIBIT
STANDBY
ELECTRONIC SIGNATURE
0
1
X
VID
HI-Z

Q0

A1

E

21 Q7 OUT
Q3 OUT 17

LM358PS(TI)FLAT PACKAGE
UPC358G2(NEC)FLAT PACKAGE

Q2 OUT 15

Q1 OUT 14

Q0 OUT 13

16 GND

A0 IN 12

A0

E
0
0
0
0
1
1
0

G
0
1
1
0
X
X
0

E
X
X
1
X
X
1

E
X
X
X
X
X
X
VID

E
X
X
VPP
VPP
VPP
X
VDD

Q0 -Q7
DATA OUT
HI-Z
DATA IN
DATA OUT
HI-Z
HI-Z
CODES

; INPUT LOW VOLTAGE
; INPUT HIGH VOLTAGE
; DON'T CARE
; 12 V ± 0.5 V
; HIGH IMPEDANCE

BVP-550

IC

M51132FP(MITSUBISHI)FLAT PACKAGE

M52313SP(MITSUBISHI)

2-CHANNEL ELECTRONIC LEVEL CONTROL

PLL VIF/SIF

—TOP VIEW—

— TOP VIEW —
15

VREF OUT 1

16 OUT1

11

IN1

OUT1

IN2

OUT2

16

19

10

AFT COIL 1

20 EQ OUT

EQ

EQ

12

FILTER 2

15 IN1

5
7

3 NC

VCC (+12V) 14

4 GND
LEVEL/LEVEL1 5

9

NC 13

2

NC 12

6
8

REDUCE 6

11 IN 2

BAL/LEVEL2 7

10 OUT 2

PASS/VCA 8

Vcc

VREF OUT

FILTER

GND

LEVEL/LEVEL1
BAL/LEVEL2

9

MODE
SEL

AFT OUT 2

LEVEL/LEVEL1
BAL/LEVEL2

OUT

FILTER

1

REDUCE

MODE SEL

18

VCC
(+5 V)

VIF IN 5

16

PASS/VCA

BAL/LEVEL2 ; BALANCE/LEVEL2 CONTROL
; FILTER
FILTER
; INPUT 1
IN1
; INPUT 2
IN2
; MODE SELECT
MODE SEL
; OUTPUT 1
OUT1
; OUTPUT 2
OUT2
; PASS/VCA CONTROL SWITCH
PASS/VCA
; SWITCHING NOISE REDUCE
REDUCE
LEVEL/LEVEL1 ; LEVEL/LEVEL1 CONTROL
; REFERENCE VOLTAGE OUTPUT
V REF OUT

VCA1

7 GND

14 VCO COIL

15

2

VIDEO
OUT
17

EQ IN
19

VIDEO
AMP

VCO
COIL
15

VIDEO
DET

IN1

CONTROL
VOLTAGE
GENERATOR

7

6

SIF IN
12

APC
FILTER IN
11

VCO

APC

LIM

IF
AGC

IF AMP

LOCK
DET

FM
DET

INPUT
BUFFER 2
11

CONTROL MODE
SELECT
PASS/VCA
SELECT

8
9

VCO
COIL
14

AFT

RF
AGC

5

2

OUT1

INPUT
BUFFER 1

4

AFT

3

11 APC FILTER

OUT

EQ
AMP
16

RF AGC

17

12 SIF IN

AUDIO 10

EQ OUT
20

VIDEO

10

VCC 13
(+5 V)

FM DET
9
COIL

OUTPUT
BUFFER 1

REG

15 VCO COIL

RF AGC
8
DELAY

AUDIO

11 APC
FILTER
14
VCO COIL
15
VCO COIL
4 IF AGC
FILTER
8 REF AGC
DELAY
6
VIF
5
VIF
1 AFT
COIL

17 VIDEO OUT

VREF OUT
REDUCE

10

PASS/VCA

IF AGC
4
FILTER

VIF IN 6

14

1

VCC
(+5 V)

RF AGC 3

MODE SEL

SIF
9 FM DET
COIL

19 EQ IN

20

VCA2

1

IN2

OUT2

2

AFT COIL
IN

AFT
OUT

3

4

RF AGC
OUT

IF AGC
FILTER IN

5
VIF IN

6

8

VIF IN

9

10

RF AGC FM DET AUDIO
DELAY
COIL
OUT

OUTPUT
BUFFER 2

M62021FP(MITSUBISHI)FLAT PACKAGE
SELECTION SW BUILT-IN SYSTEM RESET

M51958A(MITSUBISHI)FLAT PACKAGE

— TOP VIEW —

VOLTAGE DETECT DELAY

3

— TOP VIEW —

1

V OUT 1

8 CS

2

V BAT 2

7 RES

4

NC 8

NC

V IN 3 +5V

VCC

IN 2

V

V

1

V BAT
CS
RES

CT

RES

GND 6

8
7
5

(+2 V to +17 V) 7

CT 4

3 NC

6 OUT

4 GND

5 CD

5 RES
; CHIP SELECT OUTPUT
CS
CT
; DELAY CAPACITY INPUT
RES ; RESET OUTPUT
VBAT ; VIDEO SIGNAL BACKUP INPUT
VIN ; VIDEO SIGNAL INPUT
VOUT ; VIDEO SIGNAL OUTPUT
SW

VCC

5 µA

V IN

3

1

OUT
R1

2.5 µA

Com

2

–

+
–

R2

1.24 V

+
1.25 V
RES

5
CD

BVP-550

+

RES

7
5

2

8

DELAY
CAPACITY
CIRCUIT

IN

V OUT

D1

RESET
CIRCUIT

6

4

V BAT

CS

CT

6-13

IC

M62352GP(MITSUBISHI)FLAT PACKAGE

MAX202CSE(MAXIM)
RS-232 TRANSMITTER/RECEIVER

C-MOS 8-BITx12 CHANNEL D/A CONVERTER
(WITH BUFFER OPERATIONAL AMPLIFIER)

— TOP VIEW —

— TOP VIEW —

1 VSS

GND 20

17

AO3 2

19 AO2

AO4 3

18 AO1

AO5 4

17 DI

AO6 5

16 CK

DI

LD

AO1
AO2
AO3
AO4
AO5
AO6
AO7
AO8
AO9

AO7 6

AO10

15 LD

AO11
AO12

AO8 7

14 DO

AO9 8

13 AO12

AO10 9

12 AO11

16

VCC
(+5 V)

10 VDD

VCC
(+5 V)

C1 + 1

15

DO

1

16

4

18

V+ 2

19
2
3

GND 15

5

C1 – 3

14 T1 OUT

C2 + 4

13 R1 IN

11
10

4
5

13

6

C2 – 5

7
8

V– 6

11 T1 IN

T2 OUT 7

10 T2 IN

9
11
12

12 R1 OUT

R2 IN 8

14

8

C1+

C2+

6

V–

C2–

T1

T1

T2

T2

R1

R1

R2

R2

14
7

12
9

R1, 2 ; RECEIVER 1, 2
T1, 2 ; TRANSMITTER 1, 2

+5 V
0.1 µF INPUT
+

0.1 µF
6.3 V
+

16
1
+

11

0.1 µF

3
+

4

; 8-BIT D/A OUTPUTS
; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT

5

+5 V to +10 V
VOLTAGE DOUBLER

2 +10 V

+10 V to –10 V
VOLTAGE INVERTER

–10 V
6
0.1 µF
+ 16 V

+5 V
400 K

11

14

T1
+5 V

TTL/CMOS
INPUTS

NOTE:
3.5 V < VDD < VCC
–3.5 V < VSS < VCC

10

RS-232
OUTPUTS

400 K

7

T2

12

13

R1
5K

TTL/CMOS
OUTPUTS
9

DI 17
CK 16

2

V+

C1–

9 R2 OUT

0.1 µF

AO1-AO12
CK
DI
DO

3

14

12-BIT SHIFT RESISTOR

RS-232
INPUTS
8

R2
5K

DO
15

LD 15

ADDRESS
DECODER

8

CH1

8

8-BIT
LATCH

12

8-BIT
D/A CONVERTER

+
–

18

AO1

MB88346BPFV(FUJITSU)FLAT PACKAGE(SMALL)
CH2

19

CH3

2

CH4

3

AO2

C-MOS 8-BIT D/A CONVERTER
— TOP VIEW —

AO3

1 GND

CH5

CH6

CH7

CH8

CH9

4

5

6

7

8

AO4

AO3 OUT 2

19 AO2 OUT

AO4 OUT 3

18 AO1 OUT

AO5 OUT 4

17 DI IN

AO6 OUT 5

16 CK IN

9

CH11

12

CH12

13

AO2
AO3
AO4
AO5
17

AO5

AO6

AO7 OUT 6

15 LD IN

AO8 OUT 7

14 DO OUT

AO9 OUT 8

13 AO12 OUT

AO6

D1

AO7
AO8
AO9
AO10
AO11
AO12

AO7

DO

LD

AO8

18
19
2
3
4
5
6
7
8
9
12
13

16

AO10 OUT 9

14

15

12 AO11 OUT

AO9

VCC

VDD
10 (+5
V)

CH10

AO1

GND 20

(+5 V)

11

AO10

AO11

AO1 - AO12
CK
DI
DO
LD

; 8-BIT D/A OUTPUTS
; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT
; DATA LOAD CONTROL INPUT (H ; LOAD)

AO12

D0

8

8

8-BIT
LATCH

8

8-BIT
LATCH

8

D1

8-BIT
R-2R
D/A CONV

+
–

13

8-BIT
R-2R
D/A CONV

+
–

18

AO12

D2

CK

16

D3

12-BIT
SHIFT REGISTER

DI

17

D4
D5
8

D6
D7

AO1

D8
D9
D10

ADDRESS 12
DECODER

D11
14

LD

6-14

DO

15

BVP-550

IC

MB88351PFV(FUJITSU)FLAT PACKAGE

MC14018BF(MOTOROL)FLAT PACKAGE

C-MOS 12-BIT D/A CONVERTER WITH OPERATIONAL AMPLIFIER

C-MOS PRESETTABLE DIVIDE-BY-N COUNTER

— TOP VIEW —

— TOP VIEW —

1 GND

AO1

GND 20

2 NC

17

AO2
AO3

NC 19

3 NC

DI

16

AO4

14

4

FB (FEEDBACK) IN 1

5

16

6
7

(+3 V to +12 V) 15 RD (RESET DIRECT) IN

NC 18
LD

DO

14 CK (CLOCK) IN

16 CLK IN

QA OUT 5

12 E IN

AO3 OUT 6

15 LD IN

QC OUT 6

11 QD OUT

AO4 OUT 7

14 DO OUT

AO2 OUT 5

7

14

13 QE OUT

17 DI IN

PE

9

QB OUT 4

AO1 OUT 4

FB

2
3

B IN 3
15

1
10

VDD

A IN 2

12

A

QA

B

QB

C

QC

D

QD

E

QE

5
4
6
11
13

RD

8 NC

NC 13

9 NC

NC 12

C IN 7

15

10 PE (PRESET ENABLE) IN

8 GND

9 D IN

10 VDD (+3 V) VDD (+5 V) 11

INPUT
CLK
DI
LD

; SHIFT CLOCK
; SERIAL DATA
; DECODER AND D/A REGISTER TO LOAD

OUTPUT
AO1-AO4
DO

; ANALOG DATA
; MBS BIT DATA IN 15-BIT SHIFT REGISTER

D12
0
0
0
0
1
1
1
1

D13
0
0
1
1
0
0
1
1

D14
0
1
0
1
0
1
0
1

ADDRESS SELECT
DON'T CARE
AO1 SELECT
AO2 SELECT
AO3 SELECT
AO4 SELECT
DON'T CARE
DON'T CARE
DON'T CARE

CONNECT TO FB
INPUT
QE
QD, QE
QD
QC, QD
QC
QB, QC
QB
QA, QB
QA

DIVIDE
BY
10
9
8
7
6
5
4
3
2

VIA

RESULTS FROM EACH Q OUTPUT

DIRECT
AND GATE
DIRECT
AND GATE
DIRECT
AND GATE
DIRECT
AND GATE
DIRECT

5 COUNTS
5 COUNTS
4 COUNTS
4 COUNTS
3 COUNTS
3 COUNTS
2 COUNTS
2 COUNTS
1 COUNTS

HIGH, 5 COUNTS
HIGH, 4 COUNTS
HIGH, 4 COUNTS
HIGH, 3 COUNTS
HIGH, 3 COUNTS
HIGH, 2 COUNTS
HIGH, 2 COUNTS
HIGH, 1 COUNTS
HIGH, 1 COUNTS

LOW
LOW
LOW
LOW
LOW
LOW
LOW
LOW
LOW

MC14020BF(MOTOROLA)FLAT PACKAGE

0 ; LOW LEVEL
1 ; HIGH LEVEL

C-MOS 14-STAG RIPPLE-CARRY BINARY COUNTER/DRIVER
—TOP VIEW—

Q11
1CH
12

D12

12

—

12-BIT
LATCH

D14

12-BIT R-2R
D/A
CONVERTER

AMP

4

OUT

OUT

AO2

Q5

OUT

4

13 Q7

OUT

6

4CH

AO3

Q4

OUT

5

12 Q8

OUT

12

12-BIT
LATCH

12-BIT R-2R
D/A
CONVERTER

AMP

7

AO4

Q3

14
15
1

Q11

IN

9 Q0

8 GND

2
3

Q13

IN

11

*

VDD
+2 to +6V

TYPE
HC4020
14020, 4020, 84020

OUT

4

+3 to +18V

DO

J
CK

•••

•••

•••

•••

•••

•••

•••

•••

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

0
1
0
1

H
J

Q

Q13-Q0
ALL LOW
COUNT

RD
1
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

Q12

Q3
H

H
J

Q

7
J

Q

H

2
J

Q

H

3
J

Q

Q

Q13

10
K RD

K RD

RD

Q0
0
1
0
1
0

1
1
1
1

Q0
9

Q3
0
0
0
0
0

1
1
1
1

IN HEXADECIMAL
IN DECIMAL

H

Q4
0
0
0
0
0

•••

0000
0001
0002
0003
0004

OUTPUTS
Q7 Q6 Q5
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0

•••

0
1
2
3
4

BINARY
Q13 Q12 Q11 Q10 Q9 Q8
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0

•••

COUNT

16380 4FFC
16381 4FFD
16382 4FFE
16383 4FFF

BVP-550

12

Q9

Q12

10 CK

7

OUT

ADDRESS 2
3
DECODER
14

15

13

Q8

•••

—

D14

6

Q7

Q10

11 RD

6

OUT

4

RD

1
3

Q6

•••

16

15-BIT
SHIFT
REGISTER

5

Q5
Q6

14 Q9

3

7

Q4

17

D12

LD

Q13

OUT

15 Q10

2

•••

CLK

OUT

Q3

10
5

DI

AO1

Q12

9

Q0

*VDD 16

1

OUT

H
11

H

K RD
H

K RD
H

K
H

K RD
H

6-15

IC

MN6790S(MATSUSHITA)

MC14023BF(MOTOROLA)FLAT PACKAGE
C-MOS 3-INPUT NAND GATE

C-MOS CLOCK GENERATOR

— TOP VIEW —
14
VDD

13

12

— TOP VIEW —
11

10

9

A
B
C

8

+3 V to
+18 V

=

Y

Y

4

1 D. GND

Y=A•B•C = A+B+C
A
X
X
0
1

GND
1

A
B
C

2

3

4

5

6

7

B
X
0
X
1

C
0
X
X
1

A. VDD
(+4.5 V to +5.5 V)

PC OUT 2

Y
1
1
1
0

3 D. VDD

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

10 TEST1 IN

DIV OUT 6

9 MOD1 IN

1

3

4

5

6

4
PHASE
COMPARATOR

5

11

VCO

TEST2 OUT

1
Y =

2

A
B

Y

DIV OUT

6

1
684,858,864

8

Y=A•B=A+B

CK OUT

Y
1
1
1
0

MOD1

MOD2

0
1
0
1

0
0
1
1

A
0
0
1
1

GND
7

B
0
1
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL

NOTE:
TYPE
TC74AC00 TYPE
TC74VHC00
MC74HCT00N
74ACT00 TYPE
OTHER TYPES

6

VCO1
IN
14

8
A
B

2

11

8 CK OUT

PC
OUT
2

PC2 IN

9

TEST2

8

11 TEST2 OUT

PC1 IN

10

VCO1

DIV

PC2 IN 5

—TOP VIEW—
11

14

PC1 IN 4

C-MOS QUAD 2-INPUT NAND GATES
12

13

2

PC2

(+4.5 V to +5.5 V)

MC74HC00AF(MOTOROLA)FLAT PACKAGE
TC74HC00AF(TOSHIBA)FLAT PACKAGE
TC74VHC00FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

13

5

A. GND 12

MOD2 IN 7

14
VDD

PC

PC1

14 VCO1 IN

VDD
+2 to +5.5V
+5V

FREQUENCY
RATIO
1/684
1/858
1/864

VCO

MOTE

OSCILLATION
STANDSTILL

CK = DIV = L

0 ; LOW LEVEL
1 ; HIGH LEVEL

+4.5 to +5.5V
+2 to +6V

MC74HC4053F(MOTOROLA)FLAT PACKAGE
TC74HC4053AFS(TOSHIBA)FLAT PACKAGE
C-MOS TRIPLE 2-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER
— TOP VIEW —
VDD
(+2 V to +6 V)

Y1 IN/OUT 1

12 X0

16

13 X1

X 14

OPEN
11 A

Y0 IN/OUT 2

15 Y IN/OUT

Z1 IN/OUT 3

14 X IN/OUT

Z IN/OUT 4

13 X1 IN/OUT

Z0 IN/OUT 5

12 X0 IN/OUT

3 Z1

11 A IN

9

2 Y0
1 Y1

Y 15

OPEN
10 B
5 Z0

EN IN 6
7 VEE *

10 B IN

8 GND

9 C IN

Z

4

OPEN
C
EN

VEE

6

7

VEE*; VDD – VEE = +3 V to +12 V
< GND
VEE =

CONTROL INPUTS
SELECT
C
B
A
0
0
0
0
0
0
1
0
0
1
0
0
0
1
1
0
1
0
0
0
1
0
1
0
1
1
0
0
1
1
1
0
X
X
X
1

EN

6-16

ON CHANNEL
Z0
Z0
Z0
Z0
Z1
Z1
Z1
Z1

Y0
Y0
Y1
Y1
Y0
Y0
Y1
Y1
OPEN

X0
X1
X0
X1
X0
X1
X0
X1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

BVP-550

IC

PA2

PA3

PA4

PA5

PA6

PA7

WR

44

43

42

41

40

39 38
NC

37

36

35

34

2 GND

32 D0

A1 3

31 D1

PC7 5

29 D3

PC6 6

28 D4

4

27 D5

3

PC4 8

26 D6

PC0 9

25 D7
VDD
(+3 V to +6 V)

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

SIGNAL

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

—
—
—
I
I
I
I
—
—
I
—
I
I
O
I
I

GND
GND
VRB
TEST0
Y
RY
BY
VDD
VRT
TEST1
VDD
IREF
VREF
Y
COMP
VIB

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

O
O
—
I
I
O
I
I
I
I
O
I
—
I
—
O

RY
BY
GND
RST
SCL
SDA
VPD
VCD
CKCNT
CVC
CPC
HC
GND
IREFVC
VDD
CLAMP

33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48

O
I
O
I
—
—
O
O
O
O
O
O
O
O
O
O

YS
HP
PPC
PVC
VDD
GND
A0
A1
A2
A3
A4
A5
A6
A7
A8
CAS

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

O
O
O
O
I
I
I
—
—
I
I
I
I/O
I/O
I/O
I/O

RAS
WE
DT
SC
LEV1
LEV0
DI3
VDD
GND
DI2
DI1
DI0
DO3
DO2
DO1
DO0

3

VREF 13
IN
12
IREF
IN

+
–

STORE
BUFFER
MEMORY

READ
BUFFER
MEMORY

DEMULTIPLEXER
ELECTRIC
CURRENT

FRAME
COMPOSITE
FRAME COLOR
LEVEL

COMP 15
IN 16
VIB IN

50
49
48
47
46
45
44
43
42
41
40
39

DA
CONVERTER

7

17

DA
CONVERTER

6
I2C
CONTROL

SAMPLING
CLOCK
GENERATOR

PB2

PB1

D3

PA3

D4

PA4

D5

PA5

D6

PA6

D7

PA7

PB0
PB1
A0

PB2

A1

PB3
PB4
PB5
PB6
PB7

24

PC0

19

20

21

PC1

22

PC2
44
34

RD

PC3

WR

PC4

WR
1
1
1
1
0
0
0
0
X

RD
0
0
0
0
1
1
1
1
X

OPERATION
PORT A
DATA BUS
PORT B
DATA BUS
PORT C
DATA BUS
NO OPERATION
DATA BUS
PORT A
DATA BUS
PORT B
DATA BUS
PORT C
DATA BUS
CONTROL REGISTER
HIGH IMPEDANCE

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

A0, A1
CS
D0 to 7
PA0 to 7
PB0 to 7
PC0 to 7
RD
WR

PC6
1

CS

PC7

43
42
41
40
38
37
36
35

14
15
16
18
19
20
21
23

9
10
11
13
8
7
6
5

RESET
33

; PORT SELECT ADDRESS
; CHIP SELECT
; DATA BUS
; PORT A IN/OUT
; PORT B IN/OUT
; PORT C IN/OUT
; READ
; WRITE

GROUP
A
PORT A

GROUP
A
PORT C
HIGHER
4-BITS

DATA
BUS
BUFFER

SC OUT

PA0 to PA7

PC4 to PC7

DT OUT
WE OUT
RAS OUT

RD

CAS OUT

WR

A8 OUT

RESET

A7 OUT

CS

A6 OUT

A0

A5 OUT

A1

A4 OUT
A3 OUT
A2 OUT

READ/
WRITE
CONTROL
LOGIC

GROUP
B
CONTROL

GROUP
B
PORT C
LOWER
4-BITS

GROUP
B
PORT B

PC0 to PC3

PB0 to PB7

A1 OUT
A0 OUT

DISPLAY
CLOCK
GENERATOR

35

36
PVC IN

CPC OUT

HP IN

34

30

25
CKCNT IN

IREF VC IN

27
CPC OUT

CVC IN

26

28
HC IN

32

20

33
YS OUT

CLAMP OUT

SCL IN

BVP-550

18

PA2

6

RST OUT

DA
CONVERTER

READ
CONTROL

21

BY 18
OUT

STORE
CONTROL

22

RY
OUT

14

SDA OUT

Y OUT

CS
0
0
0
0
0
0
0
0
1

LEV1 IN

51

7
VERTICAL
FILTER

A0
0
1
0
1
0
1
0
1
X

D0 to D7
52

AD
CONVERTER

17

PA1

D2

PC5

A1
0
0
1
1
0
0
1
1
X

MULTIPLEXER

EXTERNAL MEMORY CONTROL/
ADDRESS GENERATOR

7

16

PA0

D1

NC

GROUP
A
CONTROL

5
6

15

53

54

DI3 IN
55

58

59

60

61

62

63

64
VRB

LEV0 IN

I/O

DI2 IN

PIN
No.

DI1 IN

SIGNAL

DI0 IN

I/O

DO3 IN/OUT

PIN
No.

DO2 IN/OUT

SIGNAL

DO1 IN/OUT

I/O

DO0 IN/OUT

PIN
No.

14

PB0

PC3

13

D0

23 PB7

VDD
(+3 V to +6 V)

NC

SIGNAL

Y IN

26

30 D2

PC1 10

I/O

BY IN

27

A0 4

PC5 7

PIN
No.

RY IN

29

25

12

9

30

28

PC2 11

VRT

31

PB6

GND

VDD (+5 V)

GND
VDD (+5 V)

32

33 RESET

PB5

VDD (+5 V)

CS 1

PB4

VDD (+5 V)

48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33

PB3

GND
GND

GND

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

PA1

— TOP VIEW —

PA0

C-MOS PROGRAMMABLE PERIPHERAL INTERFACE

— TOP VIEW —

RD

PICTURE IN PICTURE/PICTURE OUT PICTURE CONTROLLER

GND
VDD (+5 V)

MSM82C55A-2GS(OKI)FLAT PACKAGE

64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49

MN8232A(MATSUSHITA)

6-17

IC

NJM3414AM(SNM)FLAT PACKAGE

PCF8574AT(PHILIPS)
PCF8574T(PHILIPS)

DUAL OPERATIONAL AMPLIFIER
— TOP VIEW —

C-MOS REMOTE 8-BIT I/O EXPANDER
— TOP VIEW —

8
Vcc

7

6

5
1

+

A0 IN 1

VDD 16

3

A1 IN 2
+
1

2

15 SDA

2

GND
4

3

14 SCL

P0 I/O 4

13 INT

P1 I/O 5
NOTE:
TYPE
TA75358P
NJM3414M
RC3414M
M5223FP

P2 I/O 6

11 P6 I/O

+15V

P3 I/O 7

10 P5 I/O

+36V

P0

A2

P2

SCL

P3
P4
P5
P6

12 P7 I/O

Vcc
+12V

8 GND

9

13

A1

P1
14

A2 IN 3

INT

A0

P7
SDA

4
5
6
7
9
10
11
12
15

P4 I/O

INPUT
A0 - A2 ; ADDRESS INPUTS
SCL
; SYSTEM CLOCK LINE

NJM4556AM-A(NEC)FLAT PACKAGE
OPERATIONAL AMPLIFIER
(WIDE BAND, DECOMPENSATED)
—TOP VIEW—

OUTPUT
INT
; INTERRUPT OUTPUT
SDA
; SERIAL DATA LINE
INPUT/OUTPUT
P0 - P7 ; 8-BITS QUASI-BIDIRECTIONAL I/O PORT

VDD

1

(+15V) 14
–

2

+

13
+–

3

12

VEE

4 (-15V)

11

INT
A0
A1
A2

INTERRUPT
LOGIC

13
1

LP FILTER
PCF8574
PCF8574A

2
3

4
5

SCL
SDA

14

INPUT
FILTER

15

I2C BUS
CONTROL

6

SHIFT
REGISTER

I/O
PORTS

8 BIT

7
9
10
11

NJM4558V(JRC)FLAT PACKAGE
NJU7022M(JRC)FLAT PACKAGE

12

DUAL OPERATIONAL AMPLIFIER
— TOP VIEW —
8

7

6

P1
P2
P3
P4
P5
P6
P7

write pulse
VDD
VSS

VDD
(+15 V)

P0

16

read pulse

POWER-ON
RESET

8

5

–
+
+
–
VEE
(–15 V)

1

2

3

4

REF-03GS(PMI)
REFERENCE/TEMPERATURE TRANSDUCER
— TOP VIEW —
2

1 NC
V IN 2

NC 8
NC 7

V IN
5

TMP

3

TRIM
GND

V OUT

6

4

TEMP OUT 3
4 GND

6 V OUT
5 TRIM

V IN
; INPUT VOLTAGE (+4.5 V to +33 V)
TEMP OUT ; TEMPERATURE TRANSDUCER
VOLTAGE OUTPUT
TRIM IN
; OUTPUT SIGNAL TRIMMING
V OUT
; OUTPUT VOLTAGE (+2.5 V)

6-18

BVP-550

IC

RTC4553B(EPSON)

SN74HC157APW(TI)FLAT PACKAGE
TC74VHC157FS(TOSHIBA)FLAT PACKAGE(SMALL)

C-MOS REAL TIME CLOCK

C-MOS QUAD 2-LINE-TO-1-LINE DATA SELECTOR/ DEMULTIPLEXER

— TOP VIEW —

—TOP VIEW—
8

1 GND

14 TP OUT

4

13 S OUT

11

3

WR IN 2

12

S IN 3

12 CS1 IN

SCK IN 4

2

5
6

L1 IN 5

10 L5 IN

7
9

L2 IN 6

9 L4 IN
VDD
(+5 V)

L3 IN 7

INPUT
CS0
CS1
L1-L5
SCK
SIN
WR

SCK
SIN

S OUT

10

13

16
VDD

CS0

CS0

XC

OUT

IN

IN

OUT

12

11

10

9

X0

1
0

L2

1

2

3

GND

A

V0

1

IN

IN

L5

V0

3

V1

5

W0

6

4

W1

WC

7

11 X0
10 X1

XC

9

14 Y0
13 Y1

YC 12

0
1

L3
L4

2

VC

1
0

0
1

L1

8

4

5

6

7

V1

VC

W0

W1

WC

IN

OUT

IN

IN

OUT

GND
8

A

DIVIDING

14

+2 to +8V
+2 to +6V

—TOP VIEW—
CONTROL CONTROL CONTROL
REGISTER REGISTER REGISTER
(1)
(2)
(3)

2

RAM
(120 bit)

13

12

11

10

9

8

INPUTS
SD
0
1
0
1
1
1

D

SD

Q

14
VDD

Q
RD

S OUT

D

SD

13

OUTPUT
CONTROL

Q

5-7, 9, 10

TEST

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

C-MOS DUAL D-TYPE FLIP-FLOPS WITH DIRECT SET/RESET
SHIFT
REGISTER

L1-L3
L4, L5

ON
CHANNEL
0
1
GND

SN74HC74ANS(TI)FLAT PACKAGE
TC74VHC74F(TOSHIBA)FLAT PACKAGE
TC74VHC74FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

CONTROL

11

CONT.IN
INH
A
0
0
0
1
1
X

+2 to +5.5V

15

TP OUT

CONTROL

3

12

VDD
+5V

TYPE
74ACT/74FCT
TC74AC157P
TC74AC157
TC40H
OTHER TYPES

OUTPUT CONTROL

INH

1

NOTE:

SECOND MINUTE HOUR DAY DATE MONTH YEAR

4

WR

X1

IN

13

RD Q

CS1

YC

IN

14

14

; CHIP SELECT (L: ACCESS ENABLE, H: SOUT HIGH Z)
; POWER DOWN DETECTION
; TEST IN
; SERIAL SYNC SIGNAL
; SERIAL ADDRESS/DATA
; WRITING SELECT (L: WRITING, H: READING)

OSC

SIN

Y0

WR

OUTPUT
SOUT
; SERIAL ADDRESS/DATA
; REFERENCE SIGNAL
TPOUT

SCK

Y1

IN

15

CS1

TP OUT

11 CS0 IN

INH

VDD (+5 V)

1

2

3

4

5

6

GND
7

RD
1
0
0
1
1
1

CK
X
X
X

0

OUTPUTS
D
X
X
X
1
0
X

Qn+1 Qn+1
1
0
0
1
1
1
1
0
0
1
Qn
Qn

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

2

SD
D

Q

11

10

9

A
B

Y =

A
B

Y=A•B=A+B

1

2

3

4

5

6

A
0
0
1
1

B
0
1
0
1

Y
0
0
0
1

TYPE
HCT/ACT
TC74AC/VHC
OTHERS

VDD
+5V
+2 to +5.5V
+2 to +6V

RD

Q

13

Y

SN74HCT04APW(TOSHIBA)FLAT PACKAGE
TC74VHC04FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS HEX INVERTERS
—TOP VIEW—

0 ; LOW LEVEL
1 ; HIGH LEVEL

14
VDD

13

12

11

10

9

8

NOTE:
TYPE
TC74AC08 TYPE
MC74ACT08M
TC40H
OTHER TYPES

Q

9

8

6

1

8

GND
7

D

Q

RD

12

SD

11

—TOP VIEW—
13

12

5

3

C-MOS QUAD 2-INPUT AND GATES
14
VDD

NOTE:

10

4

SN74HC08ANS(TI)FLAT PACKAGE
SN74HC08APW(TI)FLAT PACKAGE
TC74VHC08FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

A

Y =

A

Y

VDD

Y=A
+2 to +5.5V

A Y
0 1
1 0

+2 to +8V
+2 to +6V

1

2

3

4

5

6

GND
7

0 ; LOW LEVEL
1 ; HIGH LEVEL

NOTE:
TYPE
74HCT04 TYPE
TC74AC04 TYPE
TC74VHC04 TYPE
74ACT04 TYPE
OTHER TYPES

BVP-550

VDD
+5V
+2 to +5.5V
+4.5 to +5.5V
+2 to +6V

6-19

IC

SN74HCT244APW-E05(TI)FLAT PACKAGE
TC74VHC244FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

STK10C68-5S35(SIMTEK)FLAT PACKAGE
C-MOS 8K×8-BIT NONVOLATILE STATIC RAM
— TOP VIEW —

C-MOS BUS BUFFER WITH 3-STATE OUTPUTS
—TOP VIEW—

10

20
VDD

VDD
(+5V)

NE IN 1

G2
19

18

17

16

15

14

13

12

11

28

9
8

A

Y =

A

Y

A12 IN 2

27 WE IN

7
6

G

G

A7 IN 3

NC 26

5
4

1

2

3

4

5

6

7

8

G
0
0
X

GND
10

9

A
0
1
X

A6 IN 4

Y
0
1
HI-Z

2

18

4

16

6

14

8

12

11

9

13

7

15

5

17

1

18

4

16

6

14

8

12
G
1

OR

3
G1

2

A5 IN 5

G2

11

9

13

7

15

19

5

17

24 A9 IN

A4 IN 6

24

23 A11 IN

23
2

A3 IN 7

22 OE IN

A2 IN 8

21 A10 IN

A1 IN 9

20 CE IN

A0 IN 10

19 D7 IN/OUT

D0

A1

D1

A2

D2

A3

D3

A4

D4

A5

D5

A6

D6
D7

A7

21

VDD

A0 - A12
CE
D0 - D7
NE
OE
WE

D0 IN/OUT 11

18 D6 IN

D1 IN/OUT 12

17 D5 IN

+5V
D2 IN/OUT 13

+2 to +5.5V

12
13
15
16
17
18
19

A9
A10
A11
A12

1

+2 to +6V

11

A8

NE

NOTE:
TYPE
AC
HC
40H
ACT
BCT
FCT
HCT
TC74AC244 TYPE
TC74VHC244

3
25

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE
HI-Z ; HIGH IMPEDANCE

G1

25 A8 IN

A0

CE

OE

20

WE

22

27

; ADDRESS INPUTS
; CHIP ENABLE INPUT
; DATA INPUTS/OUTPUTS
; NONVOLATILE ENABLE INPUT
; OUTPUT ENABLE INPUT
; WRITE ENABLE INPUT

16 D4 IN

14 GND

15 D3 IN

3
G
19

SN75158PS(TI)

STORE
RECALL

DUAL DIFFERENTIAL LINE DRIVE
A3

— TOP VIEW —

A4
A5

1Z 1

VCC
(+5 V)

8

A6
A7

1Y 2

7 2Z

A8
A9

1A 3
4 GND

6 2Y

A12

EEPROM ARRAY
256×256

7
6
5
4

STATIC RAM
ARRAY
256×256

ROW
DECODER

3
25
24
2

5 2A
A0
A1
A2
A10
A11

10
9

COLUMN COLUMN
DECODER
I/O

8
21

11
12

23

13
8

8

8

15
16
17

INPUT
BUFFER

22
OE
27
WE
1
NE
20
CE

8

8

18
19

D0
D1
D2
D3
D4
D5
D6
D7

STORE/RECALL
CONTROL

TA75S393F(TOSHIBA)
SINGLE COMPARATOR
— TOP VIEW —
OUT
4

5
VCC
–

VCC ; +1 V to +18 V or +2 V to +36 V
VEE ; –1 V to –18 V

+

1
IN (–)

6-20

VEE
2

3
IN (+)

BVP-550

IC

TC4S30F(TOSHIBA)CHIP PACKAGE
TC7S86FU(TOSHIBA)CHIP PACKAGE

TA8129Z(TOSHIBA)
FM IF SYSTEM (DIFFERENTIAL PEAK DETECT)
— SIDE VIEW —

C-MOS 2-INPUT EXCLUSIVE OR GATE
(SCALE 6/1)
—TOP VIEW—
1

A

5 VDD

B

2

4

1

Y

14

15

16

IF OUT

MUTE

13

DET 2

AF OUT

12

REG

11

DET 1

10

F

6

SD OUT

IF IN

BIAS

SDS

2

GND 3

VCC
(+16 V)

GND
7
8
9

METER

1

GND
3
4
5

BYPASS

2
4

Y=A•B+A•B
A
0
0
1
1

Y
0
1
1
0

B
0
1
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
VDD

TYPE
7S86FU
7S86F
4S30F

+2 to +6V
+3 to +18V

F DET

MUTE
DRIVE

5

6

7

9

IF IN

BIAS

GND (IF)

SDS

METER OUT

SD OUT

F

10

11

MUTE

12

13

14

15

16

IF OUT

4

DET 2 IN

3

TC4S69F(TOSHIBA)CHIP PACKAGE
TC4SU69F(TOSHIBA)CHIP PACKAGE
TC7S04FU(TOSHIBA)CHIP PACKAGE
TC7SH04FU(TOSHIBA)CHIP PACKAGE

PEAK DET

DET 1 IN

2

REG

AF OUT

1

BYPASS

AF AMP

VCC

STATION
DET

LPF

REG OUT

METER
DRIVE

IF AMP

C-MOS INVERTER
(SCALE 6/1)
—TOP VIEW—
1

5 VDD

A

2

4

A

Y =

Y

2
GND 3

TYPE
7S04F
7SU04F
7SU04FU
4S69F
4SU69F
7SH04FU

C-MOS 2-INPUT NOR GATE
(SCALE 6/1)
—TOP VIEW—
A

5 VDD

B

1

4

2

Y =

A

4

A Y
0 1
1 0

TC4S01F(TOSHIBA)CHIP PACKAGE
TC7S02FU(TOSHIBA)CHIP PACKAGE
TC7SH02FU(TOSHIBA)CHIP PACKAGE

1

Y=A

VDD

0 ; LOW LEVEL
1 ; HIGH LEVEL

+2 to +6V

+3 to +18V
+2 to +5.5V

Y

B

2
GND 3

Y=A+B=A•B

4

A
0
0
1
1

B
0
1
0
1

Y
1
0
0
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+3 to +18V

TYPE
4S01F
7S02F
7S02FU
7SH02FU

+2 to +6V

TC4S71F(TOSHIBA)CHIP PACKAGE
TC7S32FU(TOSHIBA)CHIP PACKAGE
TC7SH32FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT OR GATE
(SCALE 6/1)
—TOP VIEW—
1

5 VDD

2
A
1
B

4

Y =

A
B

Y

2
GND 3

4

Y=A+B=A • B
A
0
0
1
1

TC4S11F(TOSHIBA)CHIP PACKAGE
TC7S00FU(TOSHIBA)CHIP PACKAGE

B
0
1
0
1

TYPE
7S32F
7S32FU
4S71F
7SH32FU

C-MOS 2-INPUT NAND GATE
— TOP VIEW —

Y
0
1
1
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
VDD
+2 to +6V
+3 to +18V
–2 to +5.5V

(SCALE 6/1)
1

5 VDD

GND 3

A
B

2
4

2

4

1

A

Y

B

Y=A•B=A+B
A
0
0
1
1

TYPE
7S00F
7S00FU
4S11F
4SU11F
7SH00FU

BVP-550

Y =

B
0
1
0
1

Y
1
1
1
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+2 to +6 V
+3 to +18 V
+2 to +5.5 V

6-21

IC

TC4S81F(TOSHIBA)CHIP PACKAGE
TC7S08FU(TOSHIBA)CHIP PACKAGE
TC7SH08FU(TOSHIBA)CHIP PACKAGE

TC74HC4052AFS(EL)(TOSHIBA)FLAT PACKAGE
C-MOS DUAL 4-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER
— TOP VIEW —

C-MOS 2-INPUT AND GATE
(SCALE 6/1)
—TOP VIEW—
1

4

Y=A•B=A+B
A
0
0
1
1

4

A
B

14 X1

Y =

Y

B
0
1
0
1

Y
0
0
0
1

Y2 IN/OUT 2

15 X2 IN/OUT

YC IN/OUT 3

14 X1 IN/OUT

XC 13

11 X3
OPEN
1 Y0

Y3 IN/OUT 4

13 XC IN/OUT

Y1 IN/OUT 5

12 X0 IN/OUT

4 Y3

11 X3 IN/OUT

OPEN
10 A

5 Y1
2 Y2

0 ; LOW LEVEL
1 ; HIGH LEVEL

EN IN 6

YC

3

9 B

VDD

TYPE
7S08F
7S08FU
4S81F
14S81F
7SH08FU

12 X0

16

15 X2

5 VDD

2
A
1
B

2
GND 3

VDD
(+2 V to +6 V)

Y0 IN/OUT 1

7 VEE *

10 A IN

8 GND

9 B IN

EN

VEE

6

7

+2 to +6V
+3 to +18V
–2 to +5.5V

CONTROL
INPUTS
B
A
EN
0
0
0
0
1
0
1
0
0
1
1
0
X
X
1

VEE* ; VDD – VEE = +3 V to +12 V

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

"ON"
CHANNEL
0
1
2
3
OPEN

TC4W53FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-CHANNEL MULTIPLEXER / DEMULTIPLEXER
(SCALE 3/1)
—TOP VIEW—
1

6
7

2

7

3

6

GND 4

5

TC74HC4538AFS(TOSHIBA)FLAT PACKAGE

0
1

1

C

OPEN

8 VDD(+3 to +18V)
5

C-MOS DUAL RETRIGGERABLE/NON-RETRIGGERABLE MONOSTABLE
MULTIVIBRATOR

A
INH

VEE

2

— TOP VIEW —

3

VDD
(+2 V to +6 V)

1-C 1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

CONT.INPUT
ON
CHANNEL
INH
A
0
0
0
1
1
0
OPEN
1
X

VDD

16

C
1

1-CR 2

15 2-C

1-RD 3

14 2-CR

C

2

4

1-CK 4

VDD

R
15

Q

6

Q

7

5

Q 10

12
11

Q

RD

13 2-RD
12 2-CK

1-Q 6

11 2-CK

1-Q 7

10 2-Q

9

RD

3

1-CK 5

R
14

13

8 GND

TC4W66FU(TOSHIBA)CHIP PACKAGE
C-MOS DUAL BILATERAL SWITCH

1
C

(SCALE 3/1)
—TOP VIEW—
1

8 VDD(+3 to +18V)

2

7

3

6

GND 4

5

2
CR
Q 6

4
5

2

1

Q

7

15
C

IN/OUT

11

9

Q
RD

3

6

5

14
CR
Q 10

12

RD

7

13

0.74
0.72
0.70
0.68
0.66
0.64
0.62
2

3

4

5

6

VDD POWER SUPPLY VOLTAGE (VOLTS)

IN/OUT

3
CONTROL

CONTROL
0
1

RETRIGGERABLE M. M. V

SWITCH
OFF
ON

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
RD
VDD

6-22

9 2-Q

k. OUTPUT PULSE WIDTH CONSTANT (TYPICAL)

OUTPUT PULSE WIDTH = k · C · R

NON-RETRIGGERABLE M. M. V

VDD

VDD

VDD

VDD

Q

Q

Q

Q

Q

Q

Q

RD
VDD

Q

RD

RD

VDD

VDD

BVP-550

IC

TC74HC595AF(TOSHIBA)FLAT PACKAGE

TC74VHC138FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

C-MOS 8-BIT SERIAL-INPUT/SERIAL- OR PARALLEL-OUTPUT
SHIFT REGISTER WITH LATCHED 3-STATE OUTPUT

C-MOS 3-TO-8 LINE DECODER / DEMULTIPLEXER
—TOP VIEW—

—TOP VIEW—
1

14

QB

VDD 16

1

OUT

QB

(+2V to +6V)

QC
QD
QE

QD

IN

13 OE

4

OUT

QC

RESET

OUT

QE

14 SI

3

OUT

10

15 QA

2

OUT

QA

SI

QF
QG

IN

QH
11

QF

OUT

5

12 LCK (

) IN

QG

OUT

6

11 SCK (

) IN

15

10 RESET

7

OUT

B

IN

C

IN

1

VDD 16

2

15 Y0

OUT

3

14 Y1

OUT

4

RESET
SI

EN2

6

4

13 Y2

OUT

IN

5

12 Y3

OUT

IN

6

11 Y4

OUT

OUT

7

10 Y5

OUT

9 Y6

OUT

EN1

IN

EN2
EN3

SCK

RD
D

Y7

D

OE

RD
Q

D

C

Y2

15
14
13
12
11

Y4

4

10

Y5

5

EN

6

9

Y6

7

Y7

INPUTS
EN C B
0 X X
1 0 0
1 0 0
1 0 1
1 0 1
1 1 0
1 1 0
1 1 1
1 1 1

NOTE:

9

Q

SQH

VDD
+5V
+4.5 to +5.5V

TYPE
74HCT138 TYPE
74ACT138 TYPE
TC74AC138 TYPE
TC74VHC138
OTHER TYPES

A Y7 Y6
X 1 1
0 1 1
1 1 1
0 1 1
1 1 1
0 1 1
1 1 1
0 1 0
1 0 1

Y5
1
1
1
1
1
1
0
1
1

EN = EN1 • EN2 • EN3

OUTPUTS
Y4 Y3 Y2
1 1 1
1 1 1
1 1 1
1 1 0
1 0 1
0 1 1
1 1 1
1 1 1
1 1 1

Y1
1
1
0
1
1
1
1
1
1

Y0
1
0
1
1
1
1
1
1
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

+2 to +5.5V
+2 to +6V

11

D

LCK

OUTPUT ENABLE INPUT
LATCH CLOCK INPUT
SHIFT CLOCK INPUT
SHIFT-REGISTER RESET INPUT
SERIAL IN
PARALLEL OUTPUT
SERIAL OUT

RD
Q

EN3

13

;
;
;
;
;
;
;

Y1

7

10
14

EN1

SQH 9

OE
LCK
SCK
RESET
SI
QA-QH
SQH

Y0

B

Y3

5

LCK

IN

OUT

A

3

8 GND

9 SQH

8 GND

2
3

2

OE

QH

IN

1

SCK

12

A

Q

D

Q

TC74VHC163F(TOSHIBA)FLAT PACKAGE

12

C-MOS PRESETTABLE SYNCHRONOUS 4-BIT BINARY COUNTER

13
15

7

QA

—TOP VIEW—
MODE SELECTION
CONTROL INPUTS
RD
LD EN1 EN2

QH

RD

IN

1

VDD 16

CK

IN

2

15 CO

OUT

A(DATA A)

IN

3

14 QA

OUT

TC74VHC02F(TOSHIBA)FLAT PACKAGE
B(DATA B)

IN

4

13 QB

OUT

C(DATA C)

IN

5

12 QC

OUT

D(DATA D)

IN

6

11 QD

OUT

EN1

IN

7

10 EN2

IN

C-MOS QUAD 2-INPUT NOR GATES
—TOP VIEW—

MODE

X

X

X

RESET
(SYNCHRONOUS)

1

0

X

X

PRESET
(SYNCHRONOUS)

1
1
1

1
1
1

0
X
1

X
0
1

NO COUNT
NO COUNT
COUNT

0

CARRY OUTPUT "CO"

14
VDD

13

12

11

10

9

8
A

Y

B

B

1

2

3

4

5

6

GND
7

B
0
1
0
1

Y
1
0
0
0

NOTE:
TYPE
HC
AC/VHC
HCT/ACT

VDD
+2 to +6V
+2 to +5.5V
+5V

9 LD

8 GND

Y=A+B=A•B
A
0
0
1
1

IN

CO

EN2

CO IS HIGH WHEN EN2 INPUT IS
HIGH AND COUNT IS "15".
COUNT SEQUENCE

NOTE:
VDD
+2 to +6V
+2 to +5.5V
+5V

TYPE
HC
AC/VHC
HCT/ACT/FCT

0 ; LOW LEVEL
1 ; HIGH LEVEL

9
3
4
5
6

LD
A

QA

B

QB

C

QC

D

QD

14
13
12
11

2

7
10

EN1

CO

EN2
RD
1

BVP-550

QA
QB
QC
QD

A
= Y

15

COUNT
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15

QD
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1

OUTPUTS
QC QB QA
0
0
0
1
0
0
0
1
0
1
1
0
0
0
1
1
0
1
0
1
1
1
1
1
0
0
0
1
0
0
0
1
0
1
1
0
0
0
1
1
0
1
0
1
1
1
1
1

6-23

IC

TC74VHC20F(TOSHIBA)FLAT PACKAGE

TC7W00FU(TOSHIBA)CHIP PACKAGE

C-MOS 4-INPUT POSITIVE-NAND GATE

C-MOS 2-INPUT NAND GATE
– TOP VIEW –

—TOP VIEW—
14

12

13

11
NC

VDD
(+2 to +6V)

10

9

8
A
B
C
D

A
B
C
D

Y =

6

NOTE:
VDD
+2 to +5.5V
+2 to +6V

TYPE
AC/VHC
HC

Y
1
1
1
1
1
•••

5

D
0
1
0
1
0
•••

4

C
0
0
1
1
0
•••

2

GND
7

B
0
0
0
0
1
•••

1

NC
3

A
0
0
0
0
0
•••

Y=A • B • C • D=A+B+C+D

A

1

B

2

1

8 VDD
(+2 to +6 V)

2

7

3

6

5

GND 4

5

6

Y

A

7 Y

Y

B

3
Y=A•B=A+B

A
0
0
1
1

Y
1
1
1
0

B
0
1
0
1

0; LOW LEVEL
1; HIGH LEVEL

1 1 0 1 1
1 1 1 0 1
1 1 1 1 0
0 ; LOW LEVEL
1 ; HIGH LEVEL

TC7W02F(TOSHIBA)FLAT PACKAGE
C-MOS DUAL 2-INPUT NOR GATE
—TOP VIEW—

TC74VHC32FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

(+2 to +6V)
VDD

1A 1

A
B

8

C-MOS QUAD 2-INPUT OR GATES
—TOP VIEW—
14
VDD

13

12

11

10

9

8
A
B

A

Y =

Y

B

1B 2

7 1Y

2Y 3

6 2B

4 GND

A
B

Y =

Y

Y=A+B = A • B
A
0
0
1
1

5 2A

B
0
1
0
1

Y
1
0
0
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

Y=A+B=A•B

1

2

3

4

5

6

A
0
0
1
1

GND
7

B
0
1
0
1

Y
0
1
1
1

NOTE:
0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+2 to +5.5V
+2 to +6V

TYPE
AC/VHC
HC

TC7W04FU(TOSHIBA)CHIP PACKAGE
C-MOS HEX INVERTERS
(SCALE 3/1)
—TOP VIEW—

TC74VHC541FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS BUFFERS AND LINE DRIVERS WITH 3-STATE OUTPUTS
— TOP VIEW —

20
VDD

G2

Y1

Y2

Y3

Y4

Y5

Y6

Y7

Y8

19

18

17

16

15

14

13

12

11

A

1

8 VDD(+2 to +6V)

2

7

3

6

GND 4

5

A

1

7

3

5

6

2

Y =

Y=A

G1
G2

GND
1

2

3

4

5

6

7

8

9

G1

A1

A2

A3

A4

A5

A6

A7

A8

2

18

3

17

4

16

5

15

6

14

7

13

8

12

9

11
G1

NOTE :
TYPE
AC/VHC
HC
ABT/ACT/BCT/HCT/VHCT

G2

1

10

19

VDD
+2 V to +5.5 V
+2 V to +6 V
+5 V

A
0
1
X
X

Y

A Y
0 1
1 0

Y

G1 G2
0
0
0
0
1 X
X 1

A

0 ; LOW LEVEL
1 ; HIGH LEVEL

Y
0
1
HI-Z
HI-Z

0
1

; LOW LEVEL
; HIGH LEVEL
; DON'T CARE
X
HI-Z ; HIGH IMPEDANCE

TC7W08FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT AND GATE
(SCALE 3/1)
—TOP VIEW—
1

8 VDD(+2

2

7

3

6

GND 4

5

to +6V)

A
B

1
7

2
5
6

Y =

A
B

Y

3

Y=A•B=A+B
A
0
0
1
1

B
0
1
0
1

Y
0
0
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL

TC7S66FU(TOSHIBA)
C-MOS ANALOG SWITCH
—TOP VIEW—

IN/OUT 1

(+12V MAX)
VDD

5

OUT/IN 2
3 GND

6-24

4 CONT

BVP-550

IC

TC7W139FU(TOSHIBA)CHIP PACKAGE

TL062CPW(TI)FLAT PACKAGE
TL082M(TI)

C-MOS 2 to 4 LINE DECODER WITH ENABLE
—TOP VIEW —

1

V DD
8 (+2 to +6V)

2

7

3

6

GND 4

2

—TOP VIEW—
V DD
8 (+2 to +6V)
7
6
5

1
2
3
GND 4

A

Y0

B

Y1
Y2
Y3

INPUTS
SELECT
B
A
0
0
0
1
1
0
1
1

VDD
(+1.5 to +18V)

1

–+

2

5
FU TYPE

F TYPE
1

OPERATIONAL AMPLIFIER
(J FET INPUT)

(SCALE 5/1)

(SCALE 5/1)

7

7
+–

3

8

6

4 VEE

5

(–18 to –1.5V)

6
5
3

OUTPUTS
Y0

Y1

Y2

Y3

0
1
1
1

1
0
1
1

1
1
0
1

1
1
1
0

SELECTED
OUTPUT

TL064CPW(TI)

Y0
Y1

OPERATIONAL AMPLIFIER
(J FET INPUT)

Y2
Y3

—TOP VIEW—

0 ; LOW LEVL
1 ; HIGH LEVEL

1

14
–

2

+

+–

13

3

12
VEE 11

4 VCC

(+18V)

TC7W32FU(TOSHIBA)CHIP PACKAGE

(-18V)

5

A

1

B

2

1

8 VDD
(+2 to +6 V)

2

7

3

6

5

GND 4

5

6

10

6

—TOP VIEW—
A

7 Y

Y

B

–

+

+

C-MOS DUAL 2-INPUT OR GATE

9

–

7

8

3
Y=A+B=A•B

A
0
0
1
1

Y
0
1
1
1

B
0
1
0
1

TL074CPW(TI)
0;
1;

LOW LEVEL
HIGH LEVEL

OPERATIONAL AMPLIFIER
(LOW-NOISE, JFET-INPUT)
—TOP VIEW—

1

14
–+

2

TC7W74FU(TOSHIBA)CHIP PACKAGE

13

3

C-MOS D-TYPE FLIP-FLOPS WITH DIRECT SET / RESET
—TOP VIEW—

12
VCC 11

4 VEE

(+15V)

(-15V)

5

10

6

–

+

+

(SCALE 3/1)
—TOP VIEW—
1

+–

9

–

8 VDD

(+2 to +6V)

2

7

3

6

GND 4

5

7

7
2

SD
Q

D

8

5

1

RD

Q

3

6

INPUTS
SD
0
1
0
1
1
1

RD
1
0
0
1
1
1

CK
X
X
X

OUTPUTS
D
X
X
X
1
0
X

Qn+1 Qn+1
1
0
0
1
1
1
1
0
0
1
Qn
Qn

TL084CPW(TI)
OPERATIONAL AMPLIFIER
(J FET INPUT)
—TOP VIEW—
14

13

12

11

10

VEE
(–15V)

+

–

+

+

–
1

BVP-550

2

8

+

–

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

9

–

VCC
(+15V)
3

4

5

6

7

6-25

IC

TLC0820ACDW(TI)FLAT PACKAGE

UPD4702G(NEC)

C-MOS 8-BIT SEMIFLASH TYPE A / D CONVERTER

C-MOS INCREMENTAL ENCODER 8-BIT UP DOWN COUNTER
—TOP VIEW—

—TOP VIEW—

ANLG

VDD
(+5V)

1

IN

12

20

11

1

D1 OUT 3

18 OFLW OUT

D2 OUT 4

17 D7 OUT
(MSB)

D4
D5
D6
(MSB)D7
7

OUTPUT
D0-D7
INT
OFLW

5

19 CARRY

15

B 3

18 BORROW

2
3

17

4 NC

14 D4 OUT

CD2 7

14 CD6

13 CS IN

CD3 8

13 CD5

INT

CD3

B

CD4
CD5
CD6

17 STB

CD7
16
17

WR/RDY

A

16

15 CD7

OFLW

CD2

A 2

14

MODE
CS

CD1

4

RD

6

CD0

20

16 OE

MODE IN 7

;
;
;
;
;

(+5V)

CD1 6

13
8

INPUT
ANLG
CS
MODE
RD
REF+, REF–

VDD

RESET 1

CD0 5

15 D5 OUT

10 GND

D3

ANLG

3

9

16 D6 OUT

INT OUT 9

D1

18

D3 OUT 5
WR/RDY IN/OUT 6

RD IN 8

(LSB)D0

REF –

D2

NC 19

D0 OUT 2
(LSB)

REF +

2

12 REF + IN

9 NC

11 REF – IN

10 GND

ANALOG SIGNAL
CHIP SELECT
MODE
READ
REFERENCE VOLTAGE +, –

RESET

A

B

; DIGITAL SIGNAL
; INTERRUPT
; OVERFLOW

OE

INPUT/OUTPUT
WR/RDY
; L : WRITE/H : READY

STB

12 CD4
NC 11

1

A
B
BORROW
CARRY
CD0-7
OE
RESET
STB

;
;
;
;
;
;
;
;

OE
STB

BORROW
CARRY

5
6
7
8
12
13
14
15

18
19

RESET

INCREMENTAL SIGNAL (PHASE A) INPUT
INCREMENTAL SIGNAL (PHASE B) INPUT
BORROW PULSE OUTPUT
CARRY PULSE OUTPUT
COUNT DATA OUTPUT
OUTPUT CONTROL SIGNAL INPUT
COUNTER RESET INPUT
LATCH STROBE SIGNAL INPUT

1

2

3

19

PHASE
DISCRIMINATION
EDGE DETECTOR

8-BIT
UP / DOWN COUNTER

18

CARRY

BORROW

16
17

8-BIT LATCH
TRI-STATE OUTPUT
5-8
12-15
CD0-CD7

REF +
REF –
ANLG

12

4-BIT FLASH
A/D CONVERTER
(HIGHER)

11
1

4-BIT FLASH
A/D CONVERTER
(LOWER)

–1
+1

CS
RD
WR/RDY

2

4

D0(LSB)

3

D1

4

D2

5

4-BIT
D/A CONVERTER

MODE

4

OUTPUT
LATCH
AND
3-STATE
BUFFER

4

4

D3

14
15
16
17

D4
D5
D6
D7(MSB)

18
OFLW

7
13

TIMING
&
CONTROL

8
6

9
INT

TLC272CP
TLC272CPW(TI)
TLC27L2CPS(TI)FLAT PACKAGE
OPERATIONAL AMPLIFIER
—TOP VIEW—
VDD
(+3V to +16V) 14

1
2

–

+

3
4 GND

6-26

13
+–

12
11

BVP-550

IC

UPD6453GT-610(NEC)FLAT PACKAGE
C-MOS ON-SCREEN CHARACTER DISPLAY
—TOP VIEW—
4

1

20 H SYNC

2

CLK 2

19 V SYNC

20

BUSY

18 B BLK

DATA 4

17 G BLK

9

CK OUT

V SYNC

MP

OSC IN

V CBL

R BLK

15 V CBL

(+5V)

PCL

B BLK

BUSY

14 VB

7

12
13
14
7
11

15

OSC OUT
G BLK

5

VDD

6
OUT

8

H SYNC

16 R BLK

PCL 5

CK

VR
VG
VB

19

CS 3

DATA

16
17
18

1

CS
3

OSC

8

13 VG

9

12 VR

10 GND

11 MP

OUT

OSC

IN

INPUT
CLK
CS
DATA
H SYNC
OSC IN
PCL
V SYNC

;
;
;
;
;
;
;

CLOCK
CHIP SELECT
SERIAL DATA
HORIZONTAL SYNC
OSCILLATOR IN
POWER ON CLEAR
VERTICAL SYNC

OUTPUT
BBLK, RBLK, GBLK
BUSY
CK OUT
MP
OSC OUT
VR, VG, VB
VCBL

;
;
;
;
;
;
;

B, R, G, BLANKING
BUSY OUT
CLOCK
MASK PULSE
OSCILLATOR OUT
R, G, B, CHARACTER DATA
VIDEO CUT BLANKING

UPD6453GT (2/2)
4

DATA INPUT
SHIFFT
REGISTER

DATA
2
CLK
1

BUSY

DATA
BUFFER
REGISTER

3
CS

CAHRA
SIZE
REGISTER

CK OUT

6 VDD
10 VSS

CONTROL
SIGNAL

INSTRUCTION
DECODER

7

H
SIZE
COUNTER

H
ADDRESS
REGISTER

WRITE
ADDRESS
COUNTER

H
POSITION
COUNTER

H
ADDRESS
COUNTER

VIDEO RAM
DATA
SELECTOR

CHARA
COLOR
BLINK
DATA
DATA
DATA
8-BIT
3-BIT
1-BIT
x
x
x
288 WORD 288 WORD 288 WORD

BACKGROUND
CONTROL
DATA
REGISTER

DISPLAY
CONTROL
DATA
REGISTER

OSC IN
9
OSC OUT

OSC
CIRCUIT

L OSC

V
ADDRESS
REGISTER

8

COSC IN

COSC OUT

H SYNC
V SYNC

20
19

SYNC
PROTECT
CIRCUIT

TIMING
GENERATOR

V
SIZE
COUNTER

V
POSITION
COUNTER

V
ADDRESS
COUNTER

CHARACTER CHARACTER
GENERATOR GENERATOR
RAM
ROM
12x18-BIT
12x18-BIT
x
x
16 WORD
240 WORD
16

OUTPUT CONTROL

11
MP

BVP-550

12
VR

13
VG

14
VB

17
18

R BLK
G BLK
B BLK

15
VCBL

6-27

IC

UPD71055GB-10-3B4(NEC)FLAT PACKAGE

X24164SI(XICOR)(16K BIT)FLAT PACKAGE
X24C02S-3.0(XICOR)(2K BIT)FLAT PACKAGE

C-MOS PARALLEL INTERFACE UNIT

P00

44 43 42 41 40 39 38 37 36 35 34
NC
INDEX
NC 33
1 NC

P01
P02
2

CS

32 RESET

CS 2
3

P04
5

31 D0

A0

4

A1 4 GND

30

D1

A0 5

29

D2

P27 6

28

D3

P26 7

27

D4

P25 8

26

D5

P24 9

25 D6

P20 10

24 D7

A1

44

26
27
28

P17

P16

P15

P14

P13

IC

31

P12

30

P11

12 13 14 15 16 17 18 19 20 21 22

P22

29

P10

P06

WR

P10

RD

P11
P12

24

VDD (+5V) 23

P23

P05

P07
35

25

P21 11

P03

D7

P13

D6

P14

D5

P15

D4

P16

D3

P17

D2

P20

D1

P21

D0

P22
P23

32

A1, A0
CS
D7-D0
P07-P00

;
;
;
;

IC

; INTERNALLY CONNECTED

CS
0
0
0
0
0
0
0
0
0
0
1

RD
0
0
0
0
0
1
1
1
1
1
X

ADDRESS
CHIP SELECT
DATA BUS
PORT 0

WR
1
1
1
1
0
0
0
0
0
1
X

A1
0
0
1
1
X
0
0
1
1
X
X

A0
0
1
0
1
X
0
1
0
1
X
X

P17-P10
P27-P20
RD
WR

;
;
;
;

RESET

PORT 1
PORT 2
READ STROBE
WRITE STROBE

OPERATION
PORT0 DATA • BUS
PORT1 DATA • BUS
PORT2 DATA • BUS

P24
P25
P26
P27

43

- TOP VIEW -

42
41

A0 IN 1

Vcc (+5V) 8

40
39

A1 IN 2

7 WC* IN

A2 IN 3

6 SCL IN

38
37

6
SCL
3
A2
2
A1
1
A0
7

36
14

SDA

5

WC*

5 SDA OUT

4 GND

15
16
18
19
20

WC *

7

21
22
10

SDA

5

11

START
CYCLE

START
STOP
LOGIC

H. V. GENERATION
TIMING &
CONTROL

12
13
9
8
7
6

SCL

6

SLAVE ADDRESS
REGISTER
COMPARATOR

3
A2
2
A1
1
A0

CONTROL
LOGIC

LOAD
INC

WR

P07

P06

P05

P04

P03

P02

C-MOS SERIAL EEPROM
P01

RD

P00

—TOP VIEW—

E 2 PROM
2K ; 64x32
4K ; 64x64
16K ; 64x256

X DEC

WORD
ADDRESS
COUNTER

CPU ACTION
INPUT
INPUT
INPUT
R/W

DISABLE
DATA • BUS PORT0
DATA • BUS PORT1
DATA • BUS PORT2
DATA • BUS COMMAND REGISTER

OUTPUT
OUTPUT
OUTPUT
OUTPUT

HIGH IMPEDANCE

Y DEC

CK
PIN

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

D OUT
ACK

8
DATA
ERGISTER
D OUT

NOTE : * TEST (at X24164SIC7000)

24-31
D7-D0

DATA BUS
BUFF

8
8

36-43
P07-P00

PORT 0

RD
WR
A1
A0
RESET

44
35
4
5

READ/
WRITE
CONTROL

COMMAND
REGISTER

32

INTERNAL 8-BIT BUS

GROUP
CONTROL
6-9
P27-P24

8

PORT 2

P23-P20

22-18,
16-14

8

PORT 1
CS

13-10

P17-P10

2

GROUP
CONTROL

6-28

BVP-550

Section 7
Block Diagrams

BVP-550

7-1

7-1

OVERALL

OVERALL

OVERALL BLOCK
OHB-450/451/550/550WS

M GAIN / FLARE COMP

AD VD
AD HD

TP200

CCD UNIT

VIDEO AMP
for
VIDEO CAMERA

RV200
R GAIN

CT200
R FREQ

B BLK SHAD

R W SHD

R(X)

R(X)

R FEED BACK

R FEED BACK

AMP
R KNEE P2

FLOATING
AMP

R(X)

R GAIN
R KNEE P1

R(X)

36/18 M CLK

HTSG

PR-212

TP300
VIDEO AMP
for
VIDEO CAMERA

RV300
G GAIN

CT300
G FREQ

G BLK SHAD
G W SHD

G(X)

G(X)

G FEED BACK

G FEED BACK

B(X)

B(X)

B FEED BACK

B FEED BACK

AMP

(OHB-550WS only)

R/G/B

R/G/B
Y0-Y9

G KNEE P2

FLOATING
AMP

G(X)

G GAIN
G KNEE P1

G(X)

PA-181

RY0-RY9

TP400

LENS

CT400
B FREQ

B BLK SHAD
HCLP
R W SHAD
GW SHAD
B W SHAD
HTSG

GC
ARRAY

M.BLK SHD
R W SHD
GW SHD
B W SHD

TEST SAW(X)

36/18MHz

RV50

IIC DATA

CN903
VF

IIC DATA

D/A
CONV.

TEST1/
TEST TEST2
SIG.
GEN.

TITLE BACK

VA-163

ND FILT
CC FILT

DBO-DB7

DATA

TEMP

A0,A1
RD
WR

ADDRESS

BACK UP
BATTERY

RM VBS(X)
MIC

TAPE REM
HD
VD

POWER SAVE

S3

IIC DATA

BAR
B
A
RESET

DCC
S4

CANCEL

SW-742

S1

SW-730

OFF
ON
SEL
AWB

S2
AWB/ABB

ABB

S1
DISP/MENU
S2
MONI

IIC DATA

I/O
EXP.

RV1
INCOM LEVEL

ON
OFF
MENU
R
G
B
ENC

D/A
CONV.

SYNC
GEN.

NEW/OLD CA

ROM

RV1 AUDIO

NEW
CM
I/F

COM DATA

U/D
COUNTER

TALLY ON
D/A
CONV.

IIC DATA
VTR S/S TRIG
RET EN
ZEBRA
REC TALLY
PB REF

I/O
EXP.

REAL
TIME
CLOCK
IIC DATA

DELAY

TITLE BACK
CHAR VF
CHARA
TITLE
GEN. CHAR BACK

TP2

MENU
SEL

TP5

S1

N/P
H COMP
SC CONT

SC(X)

IRIS CONT
fsc FREQ
AUTO +5V
REM/LOCAL
VTR S/S
RET EN
VE RGB
WIDE
ABNORMAL
G TALLY

AT-95

DL SYNC/BLKG

VCO CONT

CCU H CONT

SG-234

I/O
EXP.

RGB
S3
ENC/RGB

S3
VTR
START
/STOP

IIC DATA

TP3

WHITE

SHUTTER

RAM

SW-733
I/O
EXP.

V RESET

V RESET2

SET
RE A Ø
RE B Ø

BURST SC
SEP BPF
CONT.
DET

V RESET

BLKG
SAMPLE 1
CF
SYNC
VD
FLD1
SYNC
VD
HD
BF
BLKG
LALT
2FH
VD
HD
HD
NRW BLKG
INT/EXT

SYNC SYNC
SEP.

H CONT1
H CONT2
V RESET1/CF

BACK UP

VTR SAVE

RE A
RE B

S2

µ-COM

COM CONT

L
M
H
DCC ON

GEN VIDEO

AMP

AUDIO LEVEL

SET
CANCEL

CABLE
COMP

CE0
CE1

RM SD

POWER

GAIN

ADDRESS
DECODER

232C
I/F
CA(CONT/DATA)

RM SD

MIC
S1

BA

EX ON
IRIS POSI
ZOOM POSI
TP1

ON
ON
SAVE

GEN LOCK(X)
GEN LOCK(G)/H CONT

BA
TEMP

CN905

PR-211

I/CO CONT

DR-271

REMOTE

R BLK SHAD
G BLK SHAD
B BLK SHAD
R WHT SHAD
G WHT SHAD
B WHT SHAD
TEST SAW(X)
D.OUT EN
SC(X)
CHAR VF
CORSOR 1
CORSOR 2

TITLE
FLD1
SYNC
VD
HD
BF
BLKG
LALT
2FH
NRW BLKG
INT/EXT
SC CONT
INT/EXT VD
INT/EXT HD

DC/DC
CONT

ND FILT
CC FILT

CN902

HI-Y(X)
C(X)
VF-Y(X)

A0,A1
RD
WR
CE0
CE1

R GAIN
G GAIN
B GAIN
R KNEE P1
G KNEE P1
B KNEE P1
R KNEE P2
G KNEE P2
B KNEE P2

TG-159

ZEBRA
VF RGB
WIDE
ABNORMAL
G TALLY
BATT ALARM
N/P
TALLY
VF(X)
VF-Y(X)
VF R-Y(X)
VF B-Y(X)

B W SHD

TEST

AD VD
AD HD

BY0-BY9

DB0-DB7
B KNEE P2

RV400
B GAIN

EX ON
IRIS POSI
ZOOM POSI
VTR S/S TRIG
RET EN
AUTO +5V
REM/LOCAL
IRIS CONT

CN904

FLOATING
AMP

B(X)

B GAIN
B KNEE P1

B(X)

AMP

VIDEO AMP
for
VIDEO CAMERA

SW-732

AUDIO CH1 CONT

SW-731

CN-1122

7-2

7-2

BVP-550

OVERALL

DC/DC
CONVERTER

OVERALL

Y0-Y9

POWER
SAVE

Y0-Y9
RY0-RY9

BUFF

BY0-BY9
1121 CONTROL

Y0-Y9

BY0-BY9

1121 CONTROL

Y0-Y9

RY0-RY9

Y0-Y9

B,OUT EN
DDL

Y(X)
R-Y(X)
B-Y(X)

DY0-DY9

SAMPLE1
BLKG
VD
CF
SYNC
18MCLK

CN-1121

TP4
RY0-RY9

RY0-RY9

RY0-RY9

ATT
D/A
CONV.

BY0-BY9

BY0-BY9

HI-Y(X)
C(X)
VF-Y(X)

HI-Y(X)
C(X)
VF-Y(X)

BY0-BY9

DYB1-DYB9
DDL

IIC DATA

S→P
CONV.

R-Y(X)

R-Y(X)

B-Y(X)

B-Y(X)

DRY0-DRY9

DDL

LEVEL
CTL

TP5
ATT

DYB0-DYB9

DYB0
LEVEL
CTL

SKIN GATE ON/OFF

SKIN GATE
R-Y SYNC LEV
B-Y SLP LEV
SETUP 2
D/A
CONV.

Y, R-Y, B-Y LEV

LEVEL
CTL

Y SPL LEV
SETUP 1

LEVEL
CTL

TP3

H1-Y(X)

Y(X)

ATT

Y(X)

TP2
VBS(X)

BLKG

C(X)
VF-Y(X)
DLSYNC/BLKG

C(X)
VF-Y(X)
VTR SYNC

PULSES
SHAPER

C(X)
VTR SYNC

DA-88

N/P
TO PR CONTROL
FROM PR CONTROL
IIC DATA

TO PR CONTROL
FROM PR CONTROL
IIC DATA

RV101
VBS GAIN
GEN VIDEO

GEN VIDEO

VBS(X)

VBS(X)

VBS(X)

RM VBS(X)

TEST(X)

RM chose ON/OFF

TEST OUT

CHAR VF
VF-Y(X)
MONI(X)

MONI(X)

CHAR BACK
VF(X)
CORSOR 1
CORSOR 2
IIC DATA
VD
HD

VD
HD

S→P
CONV.

TEST SEL
VF/MONI SEL

PB REF
RET VIDEO(X)
DL SYNC/BLKG
N/P

N/P

SYNC
SEP

GEN LOCK(X)

VD
HD

VD
HD

TIMING
PULSE
SW'er

INT/EXT VD
INT/EXT HD

SKIN GATE

SKIN GATE
DL SYNC

VF Y(X)

Y(X)

R(X)
G(X)
B(X)
VF R-Y(X)
VF B-Y(X)

R-Y(X)
B-Y(X)

TALLY

TALLY
DRIVE
TALLY ON
CONTROL

CONTROL

PB REF
RET VIDEO(X)

S1

DL SYNC/BLKG

SKIN GATE
R(X)
B(X)
REC TALLY
G(X)
MIC
VTR SAVE
AUDIO CH1 CONT
AUDIO LEVEL
TAPE REM
CA(CONT/DATA)
COM CONT
PB REF
COM DATA
VTR S/S
RET EN
GEN LOCK(X)
GEN LOCK(G)/H CONT
H CONT
V RESET/CF
HD

REC TALLY
N/P

REC TALLY
N/P

IF-510
VF CONTROL
RM VSB(X)
1120 CONTROL

IIC DATA
BATT ALARM

VF CONTROL

OVERALL BLOCK

RM VBS(X)
1120 CONTROL

CN-1120

BVP550-OVERALL#1/M

BVP-550

7-3

7-3

BVP-550

VA-163

VA-163 BOARD

VA-163

IC202

125mVp-p/100%

250mVp-p/100%

880mVp-p/100%

TP200

1-74

R (X)

Q205

Q206, 207, FL200

FLOATING
AMP

BUFF

18M TRAP
FILTER

Q209-212
18

M.G
SW

2dB
AMP

KNEE
1/4, 1/5

0dB
AMP

DR

7

Q215-217

6dB
AMP

+
AMP
-

M.V.SAW SHD

IC201
5

1

CLP
6
16

23
Q208

21

12

26

2

14

27

32

11

R F-DET

CLP2 ATT

R F-COMP

RW SHD

GC1

R GC BAL

BUFF
R GAIN

AMP

19

R NAM V

R BLK SHAD

20

CLP2

TEST

1-80

5
14

CLP1 ATT

IC6
12

1-54

MB, 7-9 (BVP-550)
MB, 11-9 (BVP-500)

7
10

Q213, 214

9

IC200
1

PRE
KNEE 2

LPF

IC203
3 1

SAMPLE
HOLD

6

R FEED BACK IN 1-60

5

R KNEE P2

AMP

R KNEE P1

IC200
14

R (X) OUT

CLP

KNEE MODE

CT200
R FREQ

PRE BLKG

RV200
R GAIN

MB, 7-22 (BVP-550)
MB, 11-22 (BVP-500)

G.CLT
AMP

BLG

GC2

MB, 21-6 (BVP-550)
MB, 14-6 (BVP-500)

Q200-204

MB, 7-14 (BVP-550)
MB, 11-14 (BVP-500)

IC218-220
4

1
204

WINDOW
COMP

2

CLP 2
IC302
125mVp-p/100%

250mVp-p/100%

TP300
Q300-304
1-72

FLOATING
AMP

G (X)

18

18M TRAP
FILTER

BUFF

M.G
SW

KNEE
1/4, 1/5

2dB
AMP

0dB
AMP

Q315-317

6dB
AMP

DR

+
AMP
-

IC301
5

1

6
16
5

23
Q308

21

12

26

2

14

27

32

11

G F-DET

CLP2 ATT

G F-COMP

GW SHD

G GAIN

G GC BAL

BUFF

GC1

Q313, 314

9

10

IC300
1

PRE
KNEE 2

G NAM V

AMP

CLP1 ATT

G BLK SHAD

19

8

TEST

1-79

10

20

CLP2

PRE BLKG

IC6

1-52

MB, 7-7 (BVP-550)
MB, 11-7 (BVP-500)

7

LPF

IC303
3

1

SAMPLE
HOLD

6

G FEED BACK IN 1-59

5

G KNEE P2

AMP

G KNEE P1

IC300

G (X) OUT

CLP

CLP

KNEE MODE

CT300
G FREQ
14

MB, 7-23 (BVP-550)
MB, 11-23 (BVP-500)

G.CLT
AMP

BLG

7

M.V.SAW SHD
RV300
G GAIN

GC2

MB, 21-4 (BVP-550)
MB, 14-4 (BVP-500)

880mVp-p/100%
Q309-312

Q306, 307, FL300

Q305

MB, 7-15 (BVP-550)
MB, 11-15 (BVP-500)

IC318-320
4

1
304

WINDOW
COMP

2

CLP 2
IC402

125mVp-p/100%

250mVp-p/100%

TP400
Q400-404

BUFF

M.G
SW

M.V.SAW SHD
RV400
B GAIN

CT400
B FREQ
14

IC400
AMP

IC401
5

1

IC26
1
2
3
6

A0
SDA
A1
A2
EEPROM

16
5

15

DO

5

G GAIN
B GAIN

16

17

DI

A01
A02

A05

AT, 1-20

1-1

IIC CLK
LD (VA)

27

16

4
2

25

4
15

A06
D/A
CONV. A07
A08
LD

A09
A010
A011
A012

18

R KNEE P1

DO

19

G KNEE P1

2

R KNEE P2

4

G KNEE P2

5

B KNEE P2

6

R GC BAL

7

G GC BAL

8

B GC BAL

9

TEST1 ON/OFF

12

TEST2 LEVEL1

13

TEST2 LEVEL2

14

14

IC20
SI

11
12

2

15

Q3
RCK

4

GC1

4, 6,
9, 11

Q4
Q5
Q6

1, 14

TIMING
PULSE GEN. 2, 13 10
9 23
FOR TEST2

1
2

8

Q11

Q12, 13

NAM
SW

NAM

1-9

3
4 KNEE MODE

2

11

10

6 TEST2 ON/OFF
9

S0

18-20

4

14-4

4

13-4

IC12, 14
H.SAW
GEN.

IC16, 18
SD1 VOA
VOC

16-14

IC12
13

H.PARA
GEN.

14

18-14

2

V.PARA
GEN.
15

18-8
1

18-9

16-8

7

3

10

B W SHADING IN
R20, 23

1-13

PRE BLKG

ATT

PRE BLKG
PRE BLK

BLKG
MB, 23-13(BVP-550)
MB, 11-1/16-3 (BVP-500)

1-12

H CLP 1

4
23

6

B NAM V

VOA

B KNEE P2

B KNEE P1

KNEE MODE

B F-DET

CLP2 ATT

B F-COMP

1
404

WINDOW
COMP

2

IC1, Q1

13
11

+4.8V

VOB

RW SHD
GW SHD

18-1

BW SHD

16-13

M.V.SAW SHD

16-3 12

+7.3V

1-93

+7.3V

1-94

+5.1V

1-91

+5.1V

1-92

IC1, Q2

IC3

+2.5V

14

+2.5V REF OUT 1-89

MB,7-24 (BVP-550)
MB, 11-24 (BVP-500)

IC1, Q7

R F-COMP

-2.5V
REG.

PRE BLK

11

2

IC6
+2.5V
REG.

IC17

13

REG.
CONT

-2.8V

1-85

-2.8V

1-86

-2.5V
16-2 2

IC17
15

IC1, Q3

G F-COMP

1

-5V
REG.

PRE BLK

10

-5.1V

1-87

-5.1V

1-88

-4.8V

16-1 5

IC17
4

B F-COMP

3
9

PRE BLK
IC15

V1B
VOE
VOE

18-13
8

V1A

16-5

8

18-11

10

R F-DET

12

G F-DET

AMP
IC15

VOH

18-23
16-12
16-11

AMP

G NAM V

V1C
VOD
VOF

V1B

VOF

V1C

16-4

14

AMP
IC15

16-23

1

B F-DET

3

AMP

Q4

Q5

BUFF

NAM

1
7

+4.8V

IC5

2

4

23

2

5

H CLP

MB, 7-13 (BVP-550)
MB, 11-13 (BVP-500)

VOB

18-4
16-10
18-10

R NAM V

V1G

V1A VOC
VOB
VOD

18-24
1

AMP

IC19

MB, 23-12(BVP-550)
MB, 16-12 (BVP-500)

B FEED BACK IN 1-58

TEST

18-2

V1D

18-5
16-24
18-12

AMP

IC19

1-64

6

IC418-420

+7V
REG.
14

18-3

V1F
V1H

16-22

IC19

MB, 7-17(BVP-550)
MB, 11-17 (BVP-500)

IC403
3 1 1 SAMPLE
HOLD

4

V1E

16-9

5

VOH

V1F
V1D

18-22

7

LD

V1G
V1H GC
ARRAY
V1E

18-15

IC12

IC12, 13
V.SAW
GEN.

R W SHADING IN

1-65 G W SHADING IN

LPF

5

5 TEST1 ON/OFF

16-15

MB, 7-19(BVP-550)
MB, 11-19 (BVP-500)

IC400
1

PRE
KNEE 2

+5V
REG.

SAMPLE 3

1-66

Q413, 214

10

6

5

MB, 7-18(BVP-550)
MB, 11-18 (BVP-500)

11

TEST1
BA&SW

16
17
2

SAMPLE 3 IN

32

IC22

12

RV50
TEST

Q14

GC2

A. HD

SG, 1-18

27

+7V

TEST SAW (X)

A HD IN

14

TEST2
GEN.
IC9

VOB

1-8

MB, 7-11 (BVP-550)
MB, 11-11 (BVP-500)

IC22, Q10

5, 7,
8, 10

IC8

Q0

QH

MB, 6-47 (BVP-550)
MB, 23-3 (BVP-550)
MB, 10-47 (BVP-500)
MB, 16-3 (BVP-500)

1-50

B (X) OUT

B KNEE P1

3

Q1
S
P
Q2
CONV.

1-26

+
AMP
-

CLP 2

1

MB, 7-4 (BVP-550)
MB, 11-4 (BVP-500)

2

B GC BAL

R GAIN

4
6

A04

1-2

26

BW SHD

A0
A1
D/A
CONV.A2
LD
DI

A03

MB, 11-18 (BVP-500)

12

B NAM V

17
+5V

1, 2

23
Q408

21

BUFF

IIC DATA

Q415-417

6dB
AMP

7

TEST

1-3

19

AMP

IC24
MB, 1-3

20

CLP2

B GAIN

5

B BLK SHAD

7

CLP

CLP

GC1

1-78

DR

6
16

MB, 7-21 (BVP-550)
MB, 11-21 (BVP-500)

BLG

0dB
AMP

KNEE
1/4, 1/5

7

5

IC6

2dB
AMP

G.CLT
AMP

PRE BLKG

B (X)

CLP1 ATT

1-70

18

18M TRAP
FILTER

GC2

MB, 21-2 (BVP-550)
MB, 14-2 (BVP-500)

880mVp-p/100%
Q409-212

Q406, 407, FL400

Q405

FLOATING
AMP

3

5

MM

Q

CLP2

10
R30, 31

1

C40, R38, 39

CLP2 ATT
ATT

P.ON
RESET
13
23

11

ATT

VA-163 BLOCK
BVP-550

R25, 16
CLP1 ATT

12
BVP550-VA163BLOCK#1/M

7-4

7-4

BVP-550

AT-95

AT-95

AT-95 BOARD

A17
A19
1
P/W

P94
AN1

IC4
1

3
1-51

TAPE REM IN

54

AMP

AN2

WR

4

RD

RD

WR

WR

4
IC35

R40, 47

IC9
12

LENS, 1-4

1-67

IRIS POSI IN

ATT

AMP

A0-A2

AN3

EX ON IN

AN4

IC9
5, 6
AMP
R49, 57
LENS, 1-6

1-64 ZOOM POSI IN

3

AMP

IC5
DR, 1-14

1-70

ND FILT IN

DR, 1-15

1-69

CC FILT IN

DR, 1-16

1-68

TEMP IN

14
IC5
AMP

15
14

11

CLOCK
34-12 GEN.

AN6

59
60

µ-COM

0
1

13

BACK UP
BATTERY

1-4

RM SD IN

CN, 1-8

1-3

RM SD OUT

2
TP1

7
14

AMP

5

59

AN7

2

BRD 1

63

10

9

64

T2OUT T2 IN
T1OUT T1 IN

10

74

11

66

7

2
2

12

1

11
6

3

2

CS
RES
RES

8

CS

5
7

RES

9

10
1

P13

1-43

VOUT

67

75

10
1

1-55

18M(X) IN

6

14

77

2

78

1-53

RXD

40-5
HD
LATCH

+5.1V

IVH

WR

2

1-10,
21, 23-26

RESET

RD

22

WR

27

IC26

24

RD

IRQ1
A4

24-3

24-15

A5

24-2

17-4

A6

24-1

21-4

A11

23-5

24-14

A12

23-4

24-13

A13

23-2

22

I/O1

A0
A14
OE

I/O8

1

43

70

7

44

TP4
+4.8V

45

XTAL

P00

D7

P01

A0
A1

P02
P03

RESET

P04

RD

P05

CS

EXTAL

ADDRESS
DECORER

17

42

16

41

15

+7.3V IN

IC26
I/O1

A17
G

I/O8

13-15, 17-21
D0-D7

1-83

+3.1V IN
+3.1V IN

1-85

-2.8V IN

1-86

-2.8V IN

37

1

36

2

P12

16

P13

18

—

PR, 1-74

1-29

PR, 1-48

CD0

A
B

1-6

IF, 1-30

P14

1-81

ZEBRA ON IN

LENS, 1-10

1-65 VTR S/S TRIG IN

LENS, 1-3

1-66

RET SW IN

MB, 12-17

1-48

PB REF IN

1-2

CN,1-9

RE B Ø

1-1

CN,1-10

RST
STB

DI

D/A
CONV.

IC12
3

A01

IC12
1

24-10

A15

18, 19-2

24-11

P10

18-2, 21-1,
22-2, 24-5

7
2 4
DEC

6
5

21

3

20

2

19

LD (TG)

1-18

TG, 1-16

LD (CCD)

1-16

TG, 1-15

LD (VA)

1-20

VA, 1-1

LD (DA)

1-17

DA, 1-1

LD (SG)

1-19

LD (IF)

1-15

IF, 1-1

IIC DATA(SW)

1-13

TG, 1-8, VA, 1-2, SG, 1-2, DA, 1-2,
IF, 1-2, SW, 1-2, CN, 1-6, MB, 2-13

SG, 1-1

IIC DATA(CA)

1-11

IF, 1-11/MB, 12-27

IIC DATA(ST)

1-9

MB, 12-19

SI

14

S0

IIC DATA(SW)

1-14

MB, 2-14

IIC DATA(CA)

1-12

IF, 1-13/MB, 12-28

IIC DATA(CA)

1-10

MB, 12-30

13

WR

11

CS

REAL
TIME
CLOCK

CS

4

SC

+4.8V
IC25

2
3
1
D16-D19
P21
P23

23-8

P25
P26
P27

5

SDA
S1
S2
S0 EEPROM
SCL

10
11
12

TP3

13
9
8
7
6
IC47

RES

5

HD

20

VD

19

OSC

9

+5V
6

MD0

7 MD1
8

WAIT

76

5

14

24-31

3

D0-D7

MD2

4, 5

BRD1

P03

D7

P14

A0
A1
RESET

P15

A0, A1
32

RD

44

RD

WR

35

WR

2

CS

43

P00

FB REF

41
S1
1

ZEBRA
TALLY
TRIG

2

39

3

4

38

5

6

37

7

8

36

TALLY

RET SW

D0

RES

-2.8V

BUFF

LENS, 1-5

TP2

P24

TFI2

IRIS CONT OUT 1-61

AMP

LD

6

23-1

7

5

AMP

12

P22

5 +2.5V 7
REG.

CCU CONT IN

1-57 REC TALLY IN

3

MB, 12-26

RE A Ø

OE

E

Q6
VF, 1-B6

2

IC25

P15

ZEBRA
MB, 12-25

PR, 1-72

CEI1(PR)

38

15

P16

CS 17-1

+3.1V
1-84

PR, 1-50

1-42

PR, 1-70

39

P11

—

+7.3V IN

1-30

A0(PR)

1-41

40

24-9

A14

A19

+7.3V
1-94

PR, 1-52

WR(PR)

1-40

I/O
EXP.

TFI1

+9.3V IN

1-93

1-31

IC13
P06
P07

CE

43

WR

11-13, 15-19
D0-D7

P20

+9.3V
1-90

PR, 1-68

RD(PR)

A1(PR)

TMC1

+5V
REG.

2.5V REF IN

1-39

U/D

IC4
1-89

PR, 1-66

DB7(PR)

CE0(PR)

+2.5V
DA,1-89

1-38

COUNTER

IC13
D0

WE

2-12, 23,
25-30
A0
A0-A17

IRQ0

FTCI3

45-5

IC4, Q1

1-92

4

OSC

43-5

+5.1V

+5.1V

16

17

44
35

P13

46
TMR1
47
FTCI1
48
FTCI2
49

VTR RST IN

1-91

4

22

RD

IC17-24

69
IF, 1-28

PR, 1-64

DB6(PR)

2

RESE

32

20

HD

40-2

14

31

RES

VD

1

1-37

B1

2

RYD

24-31

TMC
SG, 1-55

PR, 1-62

DB5(PR)

A4

CD7

D0-D7

VDD

VD IN

40-3
42-2
44-2

1-36

BRD0

P12
TXD

BACK UP

HD IN

PR, 1-60

DB4(PR)

IRIS

P11

RES

IC40-45
SG, 1-49

1-35

CHU DATA OUT 1-5

BRD1

CSN

A0-A14

IVH

1-44

PR, 1-58

DB3(PR)

EN

D0-D7

A0, A1

RESET IC

SG, 1-50

14

IC29
1

1
39

16

12
5 3.3V
X4
CONV.
3
Y1
5
B2
Y2

1

4

X3

4

3

CM I/F

44

IC3

5
IRIS

D2 C15 R16

2

4, 5

13

BUFF

VIN

37
61
BTVD
23
NEW TVD

X2

A3

PR, 1-56

1-34

1

IC3

+4.8V
14

IC3

Q2(2/2)

3

2

A2

PR, 1-54

1-33

DB2(PR)

IVH

RS-232C I/F

VBAT

CLK

X1

1-32

DB1(PR)

P13
73

DET

1

+5.1V

38

P92
P93

D20, C80
8

BUFF

+4.8V

RDN
WRN

A1

18

DB0(PR)

14

IC1

2

8
17

1

RIN1 ROUT1

1-7 CA DATA IN/OUT

A1

D0-D7

1
4

6

3

Q2(1/2)
MB, 12-24

D7

6

IC3

IC4
12

D0

A2

32-6, 33-2

RES
8

AMP

BT1

CN, 1-7

40

IC32-34

IC9
10

WR

45

SCK

58

43

72
68

1

RD

IC7
12

1

AMP

12

O

AN5

IC9

ATT

3

57

7

A0

A0

1-8

15

56

14

G

2

55
1-63

DB0-DB7

IC39

3

48-46
LENS, 1-7

A7

DIR

23

ADDRESS BUS

—

MB, 12-12

RD

A0-A17, A19

—

3

1-47 AUDIO LEVEL IN

65
53

PEAK 7
DET

3-10

A0

B7

21-28, 30-39, 41

—

MB, 12-13

IC11

A0

2

—

RV1
AUDIO

2

GAIN
CONT
4

—

1

B0

D0-D7

DATA BUS

D7

IC5

IC38

15-22
D0-D7

—

13-20

D0

AN0

—

52

—

6

—

AMP

IC16

IC5
G PEAK 7
GAIN

5

8

10

G PEEK IN

—

1-74

—

IC5
IF, 1-18

10
TP5

PB REF

11

TRIG

12

RET SW

13

P02

P16
P01
P17

P13
P12

P04
P05

P11

1

19

2

20

3

21

4

CHARA
GEN.

HD
VD

17

GBLK

16

OSCIN RBLK
VG
BUST

13
12

VR

P10

P20

P24

P21
P23

PR, 1-42

CHAR VF OUT 1-28

IF, 1-44

TITLE OUT

1-26

PR, 1-40

VF RGB IN/OUT 1-80

VF, 1-B7

CS
DATA

42
Q3 (2/2)

22

BUFF
Q4 (1/2)

18

BUFF

AUTO +5V OUT 1-60

16

REM/LOCAL

Q5 (1/2)

15

BUFF

P25
P26

14

BUFF

9

1-62

LENS, 1-8
LENS, 1-9

VF 16:9/4:3 OUT 1-76

VF, 1-A6

ABNORMAL OUT 1-78

VF, 1-B4

TALLY ON OUT 1-85

Q4 (2/2)
8

IF, 1-29

BUFF

G TALLY OUT

1-77

VF, 1-A5

Q3 (1/2)

VTR S/S OUT

1-52

MB, 12-6

BUFF

PET EN OUT

1-50

MB, 12-15

7
6

79
2
1

TMC

IF, 1-50

TITLE BACK OUT 1-25

Q5 (2/2)

P07

P22

CHAR BACK OUT 1-27

CLK

P06

P27

TMO

40

PLC

IC15
D

FF Q
R

5

WINDOW OUT 1-45

IF, 1-25

61

FTOA2
50
FTOA1
62
FTOA3

V RESET OUT

1-23

PEAK RST OUT 1-46

SG, 1-21
IF, 1-26

AT-95 BLOCK
BVP-550

CONTROL BUS
BVP550-AT95BLOCK#1/M

BVP-550

7-5

7-5

SG-234

SG-234

SG-234 BOARD
*1 CA-550 only
Q21

Q5, 6, 8, 9, 17
CABLE
COMP.

GEN LOCK(X)

Q205
BUFF

Q16
MB, 11-30

IC42
2

7

1

AMP

IC46

1 6

7

5

1-5

IC46

7

IC17
CABLE 1
COMP.

6

IC206, Q204

5

5

5

H CONT 2 IN

1

1

1

7
*1

6

+4.8V

IC47
6

MB, 12-19

IC24
IC204

1-79 GEN LOCK(G)/H CONT 1

DET

-4.8V

Q22

5
1
2

4
201

Q11

IC5, Q7, 18(2/2)

BUFF

SYNC
SEP
Q10, 12, 14, 15, 18(1/2)
BURST
SEP BPF
CONTROL

Q202, 203
POWER
SW

13

6

25

25

7

59

14

57

EXT SYNC IN

EXT SC IN
HD
VD
SYNC
BF
BLKG
CF
LALT
2FH

Q20
4

MB, 12-16

1-19

2

IC13 (1/3)

D7, C47

5

4 V RESET

3
IC200, 201
IC202, 203
200-2
200-8 202-1, 2
1H
203-4
GEN
203-2

*1
AT, 1-23

1-21

V RESET 2

200-3,
201-2

DI

IIC DATA

AT, 1-19

1-1

LD (SG)

AT, 1-13

1-2

IIC CK

1
3

+4.8V

3
1, 2

8

8
IC21

7

6
5

14

2

13

25

18

VRST IN

SYNC2

IC16

10
11
42

15

D1/PRE BLKG

13
14

OLD/NEW CA

11

6

35

9
CAMPLE

16

A03-A08

Q25

8
9
12
13

TD1
TD0
TCK

Q24

C.COMP ON
CF ON/OFF
GENLOCK OFF

INT/EXT

Q201
SCL

N/P OUT

2

11

FSC ADJ CTL

4

18/36M IN

IC18, Q23
P. ON
RESET

IF, 1-36

HD
VD
SYNC
CF

1-6
1-9
1-8
1-7

MB, 12-22
MB, 14-17
MB, 14-18
MB, 14-15

IC42
14
BUFF 12

HD
VD

1-49
1-50

AT, 1-43
AT, 1-44

HD
VD
SYNC
BF
BLKG
CF
LALT
2FH

1-40
1-41
1-42
1-43
1-44
1-45
1-46
1-47

PR, 1-53
PR, 1-55
PR, 1-57
PR, 1-59
PR, 1-61
PR, 1-63
PR, 1-65
PR, 1-67

DL BLKG
DL SYNC

1-25
1-23

DA, 1-8, IF, 1-14
DA, 1-6, IF, 1-12

25

9

BLKG
NRWBLKG

1-4
1-39

MB, 1-20
PR, 1-51

SAMPLE
SAMPLE
SAMPLE

1-10
1-18
1-17

MB, 14-19
VA, 1-9
DA, 1-4, IF, 1-4

TD1
TD0
TCK

1-34
1-32
1-30

MB, 3-34
MB, 3-32
MB, 3-30

INT / EXT

1-35

PR, 1-105

N /P OUT

1-36

VA, 1-41,
PR,1-106,
DA, 1-41

SC CONT

1-78

PR,1-114

VCO CONT OUT

1-68

TG, 1-5

18MHz (X) OUT

1-12

MB, 3-12

18MHz (X) OUT

1-55

AT, 1-55,
DA, 1-46

36MHz OUT

1-57

DA, 1-48

IC30, 42
30-7

42-13
42-11

BUFF

42-7
42-9

72
73
74
8

58
75

4

35

12

35

IC38

2
1

16

Q

D

FF

Q

5
3

RD

6

HR SEL

H CONT OUT1
+3.1V

6
8

30-13

6
22

1-51

11, 18,
21-24

SEA
ACK

2

14
16
BUFF 12
18

IC42
16
BUFF 18

4

27
26

DELAY

11

8bit
D/A

EEPROM

10

3

9

18
A01
19
A02
A03 2-7

LD
A08
CK A09
A10
A11
12ch A12

2

11

6
4
8
2

4
11
5
6
7
12
9
8

IC13 (2/3)
12

NRWBLKG

—

1-3

5, 6

VR SEL

Q200

IC12
AT, 1-14

DET

16

35-6
11-1
20-2

20-4

15

V RESET 1 / CF

25

IC11, 20, 35

IC13 (3/3)
1

GEN VIDEO OUT

IC30

A03-A08

1-80

DELAY CONTROL

MB, 11-29

H CONT OUT2
CLR
TDC OUT

12

3
62 17
63 15

35
35

25

8

3

37

3

5

IC36
MM a

12

5

52

9 1
2 37

7

IC36
13

7

35

MM

4

a

7

DELAY CONTROL

15

4

FL1
PR, 1-109

1-76

2-A80
2-B80

1-91
1-92
1-89

7.3V
7.3V

5.1V
5.1V
2.5 REF

1-87
1-88

-5.1V
-5.1V

1-83
1-84

3.1V
3.1V

1

LPF

SC (X) IN

2 43

Q1, IC3
+7V
REG.

+7V

Q2, IC3

+4.8V

1
2

4

39

1

4

IC32
2

5

IC41
7

AMP

6
1

7

IC40

5

626

+4.8V
REG.
7
3
Q4, IC3
-4.8V
REG.

5

35

IC34 VBS GENLOCK
2, 6 MODE 5
H
COMP.
3

IC33
4 3

IC32
AMP

IC33
14
13

PR, 1-109

1-59
1-61

AMP

12

14

11

-4.8V

+3.1V

PR, 1-107

IC32

1 12

11

30

9

H CONT
2

18MHz (X) IN

2

36MHz IN

45
31

4
4

SG-234 BLOCK

BVP550-SG234BLOCK#1/M

BVP-550

7-6

7-6

BVP-550

DA-88

DA-88

DA-88 BOARD
Y(18)
PR, 1-38
PR, 1-36
PR, 1-35
PR, 1-34
PR, 1-33
PR, 1-32
PR, 1-31
PR, 1-30
PR, 1-29
PR, 1-28

1-42
1-40
1-39
1-38
1-37
1-36
1-35
1-34
1-33
1-32

Y (L) IN
Y (1) IN
Y (2) IN
Y (3) IN
Y (4) IN
Y (5) IN
Y (6) IN
Y (7) IN
Y (8) IN
Y (M) IN

PR, 1-26
PR, 1-25
PR, 1-24
PR, 1-23
PR, 1-22
PR, 1-21
PR, 1-20
PR, 1-19
PR, 1-18
PR, 1-17

1-30
1-29
1-28
1-27
1-26
1-25
1-24
1-23
1-23
1-21

R-Y (L) IN
R-Y (1) IN
R-Y (2) IN
R-Y (3) IN
R-Y (4) IN
R-Y (5) IN
R-Y (6) IN
R-Y (7) IN
R-Y (8) IN
R-Y (M) IN

1-11
Y0-Y9

Y0-Y9

24-22
DLYO-DLY2

21, 20, 18, 17
DLY3-DLY6

42

DI0
DI9

IC7

IC4
36-31, 29-26
DO0
DO9

19-28
YB0 - AYB9

B0
B9

B0

58

FL6

Q48, 49

LPF

BUFF

Q50-53
NEG:1.0Vp-p

AMP
IC23,Q54

PSE0
PSE2

FBC
R-Y(18)

DDL
PSW0
PSW3
G0

FL7

Q67, 117

LPF

BUFF

NEG:0.76Vp-p

54

IC28, Q110,-112

Q73

ATT

BUFF

AMP

CLK

IF, 1-72
IF, 1-70
IF, 1-68

R-Y (X) OUT 1-61

MB, 11-24

B-Y (X) OUT 1-59

MB, 11-25

TP4

R-Y

Q68-71

Y (X) OUT 1-71
R-Y (X) OUT 1-69
B-Y (X) OUT 1-67

Q75, 79
INV.
AMP

IC27,Q72
FBC

PR, 1-15
PR, 1-14
PR, 1-13
PR, 1-12
PR, 1-11
PR, 1-10
PR, 1-9
PR, 1-8
PR, 1-7
PR, 1-6
SG, 1-55

1-19
1-18
1-17
1-16
1-15
1-14
1-13
1-12
1-11
1-10

1-11
RY0-RY9

24-22
DLYO-DLY2

21, 20, 18, 17
DLY3- DLY6

42

1-11

B-Y (L) IN
B-Y (1) IN
B-Y (2) IN
B-Y (3) IN
B-Y (4) IN
B-Y (5) IN
B-Y (6) IN
B-Y (7) IN
B-Y (8) IN
B-Y (M) IN

1-46 18MHz (X) IN

RY0-RY9

BY0-BY9

BY0-BY9

DI0
DI9

IC5
36-31, 29-26
DO0
DO9

9-18
RYB0 - RYB9

21, 20, 18, 17
DLY3- DLY6

42

2

PSE0
PSE2

VD IN

AT, 1-14

1-3

IIC DATA

LPF

R0

TP5

Q87-90

BUFF
+5V

PSW0
PSW3

IC24

8 13

8

5

MM Q

CLK
SW1
A

IC6
36-31, 29-26
DI0 DO0
DI9 DO9

63.64,1-9
DYB0 - DYB9

+4.8V

R0
R9

1
2 107

DO0
PSW0
PSW3

4

2

101

2
1

2 110

4 2
1 108

102

6
5

102

7

6

3

INH
DL SYNC

6

19

1
2 8

6

12
11

IC27
15 5 LEVEL
CTL

B-Y SPL LEVEL

15,1-7

+4.8V
2

DLY0-DLY7

Q7
S
P
µY7
CONV.
LD
9
DO

IC3
RESET

1
2 9

6

4

29
42
41
40

Q20

IC13
14

12
11

Q0
Q1
Q2
S
P Q3
CONV. Q4
Q5
LD
Q6
Q7
DI

15
1
2
3
4
5
6
7

D/A BLK OUT
WD/NR
LEV1
LEV2
TRIAX/VTR
SETUP1 ON/OFF
SETUP2 ON/OFF
SKIN GATE ON/OFF

AMP

IC27
LEVEL
CTL

8

IC29
SETUP2 LEVEL

6
1
7

BLK
SETUP Y
DL BLKG

VRB
CRG
VRR

4

19

1
4 SETUP 2 ON/OFF
2 106

16

2.5V REF OUT 1-89

Q2, IC2
-5V
REG

9
Q83, 84

8

-2.5V

RCK
SETUP 2

2

Q3, IC2
-2.5V
REG

IC26
4 10

BCK

GCK

1-92

7

10
5

BUFF

IC36

+4.8V

32

3

REG
CONT

10

IC26

3
33
3

Q0

2

1
4 R-Y" SYNC ON/OFF
2 105

14

B-Y SAMPLE
6

1-91

+5.1V

IC2
R-Y SYNC LEVEL

R-Y SYNC

4

+5.1V

IC1

1

CLK

Q1, IC2
+5V
REG

5

INH
B

PSE0
PSE2

4
5 8

DI

BUFF

1

11

14

ATT

NEG:0.76Vp-p

Q94, 98
INV.
AMP

7

9

IC10
1 EEPROM
A0
5
2
SEA
A1
3
A2

Q92

FBC

6

34

8

IC28, Q113-115

AMP
IC27,Q91

DDL

IC35
1-43

Q85, 86

4
9, 10

SG, 1-50

FL8
50

24-22
DLYO-DLY2

B-Y

B-Y(18)

G0
G9

3

IC27
LEVEL
CTL

-4.8V

-2.8V
-2.8V

1-85
1-86

-5.1V
-5.1V

1-87
1-88

+3.1V
+3.1V

1-83
1-84

+7.3V
+7.3V

1-93
1-94

AT, 1-89
SG, 1-89
IF, 1-89

1
+3.1V

10
IC26

Y SPL LEVEL

Y-SAMPLE
SN
A
B
INH

CHAR VF
CHAR ON

1
2 104

SAMPLE 2

13

19

12

IC27
14 12 LEVEL 14
CTL

13
1
4
2 109

4

1
4
2 103

7

+7.3V

Y SPL" ON/OFF
11
B-Y SPL" ON/OFF

INH
SETUP Y
V SPL

SKIN GATE OUT

IC14
17

AT, 1-13

1-2

IIC CLK

AT, 1-17

1-1

LD (DA) IN

SG, 1-25
AT, 1-28
SG, 1-23

1-8
1-51
1-6

DL BLKG IN
CHAR VF
DL SYNC IN

1-4

SAMPLE 2 IN

SG, 1-17
PR, 1-117

1-76

1, 2
2

12
11

4
4

DI

A01
A02
16
A03
A04
15
A05
LD
A06
D/A A07
CONV. A08
A09

18
19
2
3
4
5
6
7
8

Y LEVEL
R-Y LEVEL
B-Y LEVEL
SETUP 1
SETUP 2
Y SPL
R-Y SYNC
B-Y SPL
CH ARC ON/OFF

SETUP 1 LEVEL
SETUP 2
Y-SAMPLE
R-Y SYNC
B-Y SAMPLE
CHAR ON
DL BLKG
2

15

19

19

1
4
2 100

18
CHAR VF
DL SYNC
SW1
SAMPLE 2

5

IC16, 18, Q25, 26
LEVEL
CTL

SETUP 1 ON/ OFF

SKIN GATE

1-5

IF, 1-15

Y (X) OUT

1-63

MB, 11-23

Q19, 23
INV.
AMP
(1.0Vp-p, 0Vdc)
TP3

Q9,12 FL2

IC15
7

H1-Y (X) IN

Q13

LPF

1

IC25, Q107-109

Q22

AMP

ATT

BUFF

YsH

Q59, 63
INV.
AMP

IC16, Q18

LPF
SW

BUFF

6

Q10, 11 FL3

Q14-17

5

FBC

WD / NR

IC17
6
-5V

17

19

1
7

3

(1.0Vp-p, 0Vdc)

5

A

1
2

7
Q33
BUFF

INH

1
2

B

VBS

Q43, 44
INV.
AMP

VBS (X) OUT 1-65

IF, 1-66

7
TP2

Q27, 30, FL4
PR, 1-115

1-74

C (X) IN

IC20
7

LPF

1
6

Q28, 29, FL5
LPF
SW

Q102

Q103, 104

Q32

Q34

BUFF

AMP

BUFF

BUFF

C (X) OUT

1-55

MB, 11-27

5
WD / NR

Q45-47, 106
8

19

12

VARIABLE
LPF

VTR SYNC OUT 1-7

MB, 12-14

Q105

SG, 1-36

1-41

N/P IN

PR, 1-119

1-78 VF-Y (X) IN

Q4

Q4, FL1

Q100, 101

Q7

Q8

BUFF

LPF

AMP

BUFF

BUFF

VF- (X) OUT 1-80

IF, 1-80

DA-88 BLOCK
BVP-550
BVP-550

7-7

7-7

BVP550-DA88BLOCK#1/M

IF-510

IC601

IF-510 BOARD
DA, 1-65

1-66

IF-510

3
RV101
VBS GAIN

Q109

Q1, Q2

Q101-Q103

VBS (X) IN

BUFF

BUFF

IC101
7
1

A0 EEPROM
A2
SDA
A1
SCL

IC153
5

8BITS Q7
S
P
14

AT,
AT,
AT, 1-15

1-3
1-2
1-2

IIC DATA
IIC CLK

Q6

D
1, 2

151

7

1
7
2 154

CVF CHR & CURSOR
ON/OFF
6

CK
152

5 TEST SEL 2
Q5
4 TEST SEL 1
Q4
3 MONI SEL 2
Q3
2 MONI SEL 1
Q2
1 CHARA ON/OFF
Q1
15
Q0

LD

1-10 CORSOR 1 IN
1-9 CORSOR 2 IN

PR, 1-44

1-7

6
5

3

IC308
152-2

1
7
2 309

308-4

308-1

4
6
5 151
+4.8V
2
7
1 307

151

11

6
3
5 307

Q205
VF-Y (X) IN

1-8

CHAR BACK IN

12
14
15
11

IC202
0
1
2
3
A
10

ATT

IC200
6
1

ATT

1-45

IC206
3 OUTPUT 6
AMP

Q211
13

BUFF

MB, 15-1

MONI (X) OUT 1-49
VF (X) OUT 1-78

MB, 12-3
VF, 1-A3

9

+4.8V

Q206

Q209

BUFF

BUFF

IC12, Q10
+4.8V
REG

+5.1V
+5.1V

2.5V REF IN 1-89

Q272
IC12, Q20
-4.8V
REG

5
6

PB REF IN

304

2

3
6

5
3
6 154

SYNC
TIP

306

-2.5V
REG

6

3

Q251

S1

IC301

SG, 1-49
SG, 1-50

1-40
1-39

2

RET

1-53 RET VIDEO (X) IN
2

SG, 1-23

5
6

309

3

Q405

Q403, 404

Q500

Q501, 502

Q503

Q504, 505

1-25 WINDOW IN

DA, 1-69

1-70

1, 2

502

502

1

BUFF

VF Y (X) OUT 1-76

VF, 1-B8

R

B

R (X) OUT

1-63

G (X) OUT

1-61

MB, 11-17
MB, 11-?

B (X) OUT

1-59

MB, 11-19

(0.7Vp-p, 0Vdc)

G PEAK OUT 1-18

AT, 1-74

VF R-Y (X) OUT 1-75

VF, 1-A9

VF B-Y (X) OUT 1-74

VF, 1-B9

G
PEAK
DET.

3

7

R-Y (X) IN

BUFF
+4.8V

IC410
6

5

Q422

+4.8V

IC420

Q424

7
6

BUFF

1

Q423
BUFF

Q352, 354

BUFF

1

Q413

BUFF

B-Y (X) IN

Q414

7

BUFF
Q420, 421

1-48

MB, 12-23

(0.7Vp-p, 0Vdc)

Q509, 510
IC500, 501

Q410, 441

SG, 1-36

SKIN GATE OUT 1-16

G

Q412

1-68

PR, 1-39
PR, 1-41

SKIN GATE

5

Q507, 508

5, 6

INT/EXT HD OUT 1-6
INT/EXT VD OUT 1-5

Q406

6

BUFF

+

AT, 1-45

8
6

BUFF

7

1-26 PEAK RESET IN

TIMING
PULSE
SW'er

Q430, 431

BUFF

Q506

1-90

(1.0Vp-p, 0Vdc)

Q401, 402

DA, 1-67

JITER

4

404

Y (X) IN

AT, 1-46

2, 13

2
7
1 310

5

306

2

1-12 DL SYNC IN

1-72

7

INT HD 12
INT VD 1

IC400

DA, 1-71

306

IC302, 303, 351
303-1, 13
303-6 EXT ND 10
303-8 EXT VD 5
302-2
302-12
DE

HD IN
VD IN

1-15 SKIN GATE IN

+9.3V

+9.3V

302-3, 3, 11,
351-3

5
3
6 310

DA, 1-5

1
SYNC HD
3
IN SEP.
VD

SC
L250, C252
TRAP

4

352

3

1-85
1-86

BUFF

GEN

1-34 18MHz (X) IN

-2.8V
-2.8V

-2.5V

1

SG, 1-55

1-87
1-88

IC12, Q30
5

FF Q
Q
2

-5.1V
-5.1V

-4.8V

IC322

MB, 12-1

1-91
1-92

5

1
7
2 304

1-36 GELOCK (X) IN

TEST (X) OUT 1-43

B

BUFF

Q250
SG, 1-51

OUTPUT 6
AMP

10

IC305
MB, 12-17

CN, 1-16

A

ATT

Q273
12, 13

3

BUFF

Q271

9
8
10 151

1-80

RM VBS (X) OUT 1-21

3

BUFF

7

AT, 1-27

13

1
2

Q210

IC152

CHAR VF IN

DA, 1-80

OUTPUT 6
AMP
IC641

Q207, Q08

0

B

SKIN GATE
ON/OFF
PR, 1-43
PR, 1-45

12
14
15
11

5

9

12

7

MB, 11-21

IC201

RM CHR
ON/OFF

11

3

1, 2

LD (IF) IN

3

BUFF

IC155
1
3
2
6

VBS (X) OUT 1-57

IC621

Q110

6

+4.8V

OUTPUT 6
AMP

5
N/P OUT

N/P IN

1-47

VF, 1-B3

TALLY OUT 1-27

VF, 1-B5

Q701, 703
CN, 1-19

AT, 1-58

1-82

TALLY
DRIVE

UNREG
2
1

1-29 TALLY ON IN

IF-510 BLOCK

+9.3V
702

4

BVP-550

IC701 (1/2)
MB, 12-18

1-31 REC TALLY IN

3

COMP

1

REC TALLY OUT 1-30

AT, 1-57

VTR RESET OUT 1-28

AT, 1-53

IC701 (2/2)
5

COMP

7

7-8

7-8

BVP550-IF510BLOCK#1/M

BVP-550

Section 8
Schematic Diagrams
1

LOCATION OF PRINTED CIRCUIT BOARDS

SW-732
2

MB-602
CN-1120
PR-211
CN-1121
CN-1142

3

IF-510
DA-88
CN-1122

SG-234
AT-95
VA-163

4

SW-730
SW-731

SW-733

SW-742

5

8-1

BVP-550

I

J

K

L

8-1
M

N

O

P

VA-163 (1/2)

VA-163 (1/2)

BVP-550 (SY)

1

VA-163 BOARD

2/2
2/2
2/2
2/2
2/2

———————————
VA-163 (1-657-438-21)
———————————
*: B SIDE
CN1

C-1

CT200 B-4
CT300 D-4
CT400 F-4
D1
D2
D3
D4
D5
D7
* D8
* D9
* D10
*
*
*
*
*

2

A-3
A-2
A-2
A-3
B-3
B-3
F-3
F-3
F-3

FL200 C-3
FL300 D-3
FL400 E-3

*
*

3

*
*

*
*
*
*

4

*
*
*
*
*

IC1
IC3
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC21
IC22
IC23
IC24
IC25
IC26
IC27
IC200
IC201
IC202
IC203
IC204
IC300
IC301
IC302
IC303
IC304
IC400
IC401
IC402
IC403
IC404

A-3
B-2
B-3
B-2
B-3
F-4
F-4
F-2
F-2
F-2
F-2
F-2
F-3
G-3
G-3
G-2
G-3
G-2
G-1
B-4
B-3
G-1
F-1
F-1
F-1
C-4
C-3
C-2
B-2
B-1
D-4
D-3
D-2
C-2
C-1
E-4
E-3
E-2
D-2
E-1

L1
L2

A-2
A-3

* Q1
* Q2
* Q3
Q4
Q5

A-2
A-2
A-3
B-3
A-3

* Q7
Q10
Q11
Q12
Q13
Q14
* Q200
* Q201
* Q202
* Q203
* Q204
* Q205
Q206
* Q207
* Q208
Q209
Q210
Q211
Q212

A-3
A-4
A-4
A-4
A-4
A-4
B-4
B-4
C-4
C-4
C-4
C-3
B-3
C-3
C-3
B-2
C-2
B-2
C-2

3
4
5
1
7

C
GSL 2
GSL 1
TEST SIG
V SAW
C124
15
6.3V

IC200(1/4)
TL064CPW-E05

* Q213
* Q214
* Q215
Q216
Q217
* Q218
Q219
Q220
* Q300
* Q301
* Q302
* Q303
* Q304
* Q305
Q306
* Q307
* Q308
Q309
Q310
Q311
Q312
* Q313
* Q314
* Q315
Q316
Q317
* Q318
Q319
Q320
* Q400
* Q401
* Q402
* Q403
* Q404
* Q405
Q406
* Q407
* Q408
Q409
Q410
Q411
Q412
* Q413
* Q414
* Q415
Q416
Q417
* Q418
Q419
Q420
RV50
RV200
RV300
RV400

C-1
C-1
C-2
C-2
C-1
B-1
C-1
C-1
C-4
C-4
D-4
D-4
D-4
D-3
D-3
D-3
D-3
D-2
D-2
D-2
D-2
D-1
D-1
D-2
D-2
D-1
C-1
D-1
D-1
D-4
E-4
E-4
F-4
E-4
E-3
E-3
E-3
E-3
E-2
E-2
E-2
E-2
E-1
E-1
E-2
E-2
E-1
E-1
E-1
E-1

C200
4.7
20V
:TA-B

IC201
TC4W53FU(TE12R)

C201 C202 C203
33
0.1
0.1
16V
:TA-D

C204
10
6.3V

R209
20k

MB,21-6(BVP-550)
MB,14-6(BVP-500)

74

R(X) IN

Q205
2SA1226-T1E4

R200
1k

C125
15
6.3V

Q206
2SC4178-F13F14-T
1

IC202(1/2)
CXA1486Q-TH

Q207
2SA1610-T1Y34

R202
4.7k

R203
5.6k

R207
5.6k

R211
10

Q201

CN1(74/100)

TP200

R265
20k

12
13

14

5
6

7
R269
1k

C239
1
25V
:TA-CA
C259
1
25V
:TA-CA

4

11

R215
330

2 4 8

CT200
R235
150

R FREQ

18

FL200

1

R230
39k

Q205
R241
2k

R263
1k

IC300(1/4)
TL064CPW-E05

C300
4.7
20V
:TA-B

C301
0.1 C302
33
16V

IC300(2/4)
TL064CPW-E05

IC301
TC4W53FU(TE12R)

Q300
2SA1611-T1M7

R301
20k

C303
0.1

C304
10
6.3V

R248
2.2k

R249
0

12
13

14

4
5
6

7
R369
1k

C339
1
25V
:TA-CA
C359
1
25V
:TA-CA

Q306
2SC4178-F13F14-T
1

Q305
2SA1226-T1E4

R300
1k

11

R302
4.7k

MB,21-3(BVP-550)
MB,14-3(BVP-500)

R335
150

TP200 D-4
TP300 E-4
TP400 F-4
17
18

IC400(2/4)
TL064CPW-E05

Q303

C401 C402
0.1
33
16V

R401
20k

C403
0.1

C404
10
6.3V
:TA-B

302
19

R330
39k

Q307

R349
0

R465
20k

12
13

7

C439
1
25V
:TA-CA
C459
1
25V
:TA-CA

4
5
6
11

Q406
2SC4178-F13F14-T
1

Q405
2SA1226-T1E4

R400
1k

R410
10

R415
330

2 4 8

C407
27p

21

24

C314
1
25V
:TA-CA

23

12

R350
0

C317
4p

Q308
C318
0.1

C319
0.1

R351
100k

R352
10k

C330
1
25V
:TA-CA

IC402(1/2)
CXA1486Q-TH

Q408
2SC4177-T1L7

R403
5.6k
1/16W

CT400
R435
150

B FREQ
6
7

1

5 3

18

FL400

1 5
R422
820 2

C441
:n'm C440
:TA-CB 56p

401

R411
5.6k

28

R412
330

R413
1.5k

16

R423
100

19

R430
39k

Q405

R445
100k
R448
10k

R449
2.2k

26

R424
5.6k

14

R436
47k

R447
0

C416
0.1

C408
100
6.3V
:AL-C

WSH
GCTL

402

Q406

RV400
500

R416
1k

20

TRAP
Q402

IN
BSH

Q407

3 1/16W

2

GS1
GS2

ZERO

VEE

GND CLC1 CLP1 BLK1 LPF1 BLKG

5

3

21

31

C414
1
25V
:TA-CA

24

23

12

R450
0

C417
4p

Q408

C418
0.1

C419
0.1

R451
100k

R452
10k

RV400:B GAIN

A GND
R458
11k
C433
0.1
R463
1k

Q403
C428
33
6.3V

Q404
C429
10
6.3V

C434
0.1

C430
1
25V
:TA-CA

R459 R462
20k 30k

-2.5V
8

IC400(4/4)
TL064CPW-E05

B

31

VCC

CN1(69/100)

C432
22
10V

8
9
10
11

GND CLC1 CLP1 BLK1 LPF1 BLKG
3

Q401

R456
1k

2/2
2/2
2/2
2/2

VEE
5

Q407
2SA1610-T1Y34

R402
4.7k

R444
620

20

R336
47k

Q304
2SA1226-T1E4

R441
2k

2/2

14

R362
30k

6 4 7

19

R324
5.6k

ZERO

C334
0.1

C329
10
6.3V

R468
3.3k

R470
33k

2/2

GS1
GS2

C316
0.1

C437
0.1

R469
1k

B(G) IN

26

C308
100
6.3V
:AL-C

GCTL

20

TP400

69

R316
1k

WSH

CN1(70/100)

C438
1
25V
:TA-CA

MB,21-1(BVP-550)
MB,14-1(BVP-500)

R313
1.5k

2

Q400
R408
13k

B(X) IN

IN
BSH

R359
20k

Q304

C328
33
6.3V

Q400
Q401
Q402
2SA1611-T1M7 2SC2757-T1T34 2SA1226-T1E4

IC401
TC4W53FU(TE12R)

R312
330

3 1/16W
TRAP

R348
2.2k

+7V
+4.8V
C400
4.7
20V
:TA-B

70

R346
270k

Q303
2SA1611-T1M7

10
9

R252
10k

RV300:G GAIN

R358
11k

IC400(1/4)
TL064CPW-E05
2/2
2/2

MB,21-2(BVP-550)
MB,14-2(BVP-500)

16

R323
100

1 5
2

RV300
500

R356
1k

8

R251
100k

Q308
2SC4177-T1L7

28

Q305
R345
620

IC300(4/4)
TL064CPW-E05

C219
0.1

C230
1
25V
:TA-C

18

FL300

Q306

R342
10k

Q302

R368
3.3k

B-4
C-4
D-4
F-4

C218
0.1

R304
5.6k

CT300

R322
820
C341
:n'm C340
:TA-CB 56p

R363
1k

C217
4p

VCC

C307
27p

6
7

C333
0.1

R250
0

Q301

CN1(71/100)

C332
22
10V

12

IC302(1/2)
CXA1486Q-TH

R341
2k

G(G) IN

71

23

24

C214
1
25V
:TA-CA

R303
5.6k

G FREQ

5 3

21

31

Q307
2SA1610-T1Y34

6 4 7
R370
33k

3

Q300

R315
330

301

5

Q204
2SA1226-T1E4

Q301
Q302
2SC2757-T1T34 2SA1226-T1E4

2 4 8
1

R236
47k

R262
30k

TP300

R365
20k

GND CLC1 CLP1 BLK1 LPF1 BLKG

C216
0.1

C337
0.1

C338
1
25V
:TA-CA

14
ZERO

VEE

C234
0.1

R311
10

CN1(72/100)

R224
5.6k

GCTL

GS1
GS2

R259
20k

C229
10 6.3V :TA-B

Q203
2SA1611-T1M7

R309
13k

G(X) IN

72

Q204

Q203
C228
33
6.3V

10
9

8

IC200(4/4)
TL064CPW-E05

26

C208
100
6.3V
:AL-C

RV200:R GAIN

R258
11k
C233
0.1

R246
10k

RV200
500

R256
1k

MB,21-4(BVP-550)
MB,14-4(BVP-500)

R245
300k

R(G) IN

C232
22
10V

R216
1k

Q208
R244
620

CN1(73/100)

73

2
WSH
202

20
19

Q206
6 4 7

IN
BSH

Q207

3 1/16W

2
TRAP

Q202

R268
3.3k

R270
33k

16

R223
100

1 5

R222
820

7
C241
:n'm C240
:TA-CB 56p

R213
1.5k

VCC

C207
27p

6
201
5 3

R212
330

28

C237
0.1

C238
1
25V
:TA-C

MB,21-5(BVP-550)
MB,14-5(BVP-500)

Q208
2SC4177-T1L7

Q200

PRE
CLP
CLP
CLP

Q403
2SA1611-T1M7

10
9

Q404
2SA1226-T1E4
N
M
L

14
13
12

2/2
2/2
2/2

BLKG
1
2
3

8-2
A

Q200
Q201
Q202
2SA1611-T1M7 2SC2757-T1T34 2SA1226-T1E4

R201
20k

14

5

IC200(2/4)
TL064CPW-E05

C

8-2
D

BVP-550

E

F

G

H

VA-163 (1/2)

VA-163 (1/2)

1

Q209
Q211
Q214
Q216
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
Q217
Q210
Q212
Q213
Q215
1
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
1

IC202(2/2)
CXA1486Q-TH

R204
30k

IC203
TC4W53FU(TE12R)

IC204
TC7S08FU(TE85R)

Q218
2SA1611-T1M7

Q219
XN6501-TW

R205
47k

C242
3.3
16V

Q211

VCC

1
10

VCC

4

CN1(54/100)

11
K-POINT

F-DET

202

27
VEE
22
R281 R253
4.7k 4.7k

C220
0.1

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

30

32

29

1

GND
13

C231
1
25V
:TA-CA

R219
2k

R221
:N'M
R271
100k

R231
1k

R228
8.2k

R220
750

IC200(3/4)
TL064CPW-E05

C209
3p

Q215

MB,7-9(BVP-550)
MB,11-9(BVP-500)

R233
2k
C211
1
25V

6

3
2

R229 1
2k

C210
:n'm

Q213

R FEED BACK IN

60

MB,7-14(BVP-550)
MB,11-14(BVP-500)

5V

R232
1k

R240
5.6k

6
1

C223
0.1

R272
100k

R254
0

CN1(60/100)

7
Q218

2

R238
2k

203
4 5 3

R237
1k
R247
20k

C212
0.1

R234
100
1/16W

8
Q214

R227
2k

VEE

C215
1
25V
:TA-CA

C243
4.7
10V

R218
11k
R226
10k

FB

C221
0.1

C235
0.1

54

Q216
R217
10

1

4
F-COMP

R280
33k

R(X) OUT

OUT

9

16

2/2

R214
10

Q210

7
K-SEL

2

Q212

10
R225
33k

B

R206
4.7k

C206

15

2/2

R208
2.4k

C205
0.1

8
Q209

6

Q220
XN6501-TW

R210
8.2k

15

KNEE SEL

4

R243
2k
C225
15
6.3V

C226
15
6.3V

R239
20k

D200
:N'M

C224
33
6.3V
:AL-C

-5V

5
1
204 2
3

R242
100
1/16W

Q219
R255
10k
1/16W

C213
:N'M

2

Q220
R257
3k

C227
0.1
CN1(53/100)

R(G) OUT

53

MB,7-10(BVP-550)
MB,11-10(BVP-500)

G(X) OUT

52

MB,7-7(BVP-550)
MB,11-7(BVP-500)

G FEED BACK IN

59

MB,7-15(BVP-550)
MB,11-15(BVP-500)

G(G) OUT

51

MB,7-6(BVP-550)
MB,11-6(BVP-500)

C222
:N'M
R260
10k

C236
0.1

R261
10k

R267
1.8k
R266
10k

R264
3k

7

Q309
Q311
Q313
Q316
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
Q310
Q312
Q314
Q315
Q317
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
1

IC302(2/2)
CXA1486Q-TH

IC304
Q318
TC7S08FU(TE85R) 2SA1611-T1M7

IC303
TC4W53FU(TE12R)

R305
30k

R306
47k
C342
3.3
16V

Q311

R308
2.4k

C305
0.1

R310
8.2k

VCC

11

Q309

VCC

10

14
5

11
K-POINT

F-DET

302

27

17

VEE
22
R381
4.7k

R353
4.7k

C320
0.1

Q312

R314
10

C306

Q315

5V

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

32

30

29

1

GND
13

R319
2k

R331
1k

C310
:n'm

R326
10k

C309
3p
R328
8.2k

IC300(3/4)
TL064CPW-E05

R320
750

Q313

C311
1
25V

3

R329 1
2k

R332
1k
R333
2k

6

R340
5.6k

2

R338
2k

6
7

1
2

C323
0.1

R372
100k

R354
0

C331
1
25V
:TA-CA

CN1(59/100)

Q318

303
4 5 3

R337
1k
R347
20k

C312
0.1

R334
100
1/16W

8
Q314

R327
2k

VEE

C315
1
25V
:TA-CA

C343
4.7
10V

R318
11k
R321
:N'M

R371
100k

FB

C321
0.1

C335
0.1

Q310

R317
10

2

4
F-COMP

R380
33k

3
CN1(52/100)

OUT

9

R307
4.7k

Q316

7
K-SEL

R325
33k

Q320
XN6501-TW

Q317

8

15

2

Q319
XN6501-TW

4

R344
2k
C325
15
6.3V

C326
15
6.3V

R339
20k

D300
:N'M

C324
33
6.3V
:AL-C

-5V

3

R343
100
1/16W

Q319

5
1
304 2
R355
10k
1/16W

C313
:N'M

Q320
R357
3k

C327
0.1
CN1(51/100)

C322
:N'M

R360
10k
1/16W

C336
0.1

R361
10k
1/16W

R367
1.8k

R366
10k

R364
3k

4

8

Q416
Q409
Q411
Q413
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
Q417
Q412
Q414
Q415
Q410
2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T
1
1
1
1
1

IC402(2/2)
CXA1486Q-TH

IC403
TC4W53FU(TE12R)

IC404
TC7S08FU(TE85R)

Q418
2SA1611-T1M7

R404
30k

R405
47k
C442
3.3
16V

Q411
R409
8.2k

VCC

6

11
K-POINT

F-DET

402

27

18

VEE
22
R481
4.7k

R453
4.7k

C420
0.1

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

32

30

29

1

GND
13

VEE

R418
11k

R419
2k

R421
:N'M
R431
1k

FB

C410
:n'm

R426
10k

C409
3p
R428
8.2k

8

Q414

R427
2k

R432
1k
R433
2k

R471
100k

Q413

3
2

R429 1
2k

R440
5.6k

R438
2k

C423
0.1

C412
0.1

R443
2k

C411
1
25V

R434
100

6
7

1
2

B FEED BACK IN

58

MB,7-13(BVP-550)
MB,11-13(BVP-500)

49

MB,7-10(BVP-550)
MB,11-10(BVP-500)

57

MB,7-12(BVP-550)
MB,11-12(BVP-500)

CN1(58/100)

Q418
403
4 5 3

R437
1k

6
R472
100k

MB,7-11(BVP-550)
MB,11-11(BVP-500)

IC400(3/4)
TL064CPW-E05

R420
750

R446
20k

C415
1
25V
:TA-C

C421
0.1

3

4
F-COMP

R480
33k

R417
10

50

R414
10

5V

OUT

9

B(X) OUT

CN1(50/100)
C406

Q415

7
K-SEL

R425
33k

R406
4.7k

Q416

Q410
Q412

10

13
3

Q409

VCC

Q420
XN6501-TW

Q417

R407
2.4k

C405
0.1

8

15

12

Q419
XN6501-TW

C425
15
6.3V

C426
15
6.3V

4
R439
20k

D400
:N'M

C424
33
6.3V
:AL-C

-5V

Q419

5
1
404 2
3

R442
100
1/16W

R455
10k

C413
:N'M

5

Q420
R457
3k

C427
0.1
CN1(49/100)

B(G)
C435
0.1

C443
4.7
10V

R454
0

C431
1
25V
:TA-C

C422
:N'M

R460
10k
1/16W

C436
0.1

R461
10k
1/16W

CN1(57/100)

R467
1.8k

+2.5V
NAM

16
15

2/2
2/2

R464
3k

OUT

FB GND

VA-163 (1/2)
BOARD NO. 1-657-438-21
LOT NO. 508- VA-163(1/2)

R466
10k

9

B-¥BVP550-VA163-12
B-¥ BVP550-VA163-12

1995.9.7

8-3

BVP-550

I

J

K

L

8-3
M

N

O

P

VA-163 (2/2)

VA-163 (2/2)
BVP-550 (SY)

1

SG,1-18

9

SAMPLE 3 IN

CN1(9/100)

Q7
IC1(1/4)
2SD596T1-DV345 TL064CPW-E05
D1
RD4.3UH-T1

2
1

1

R1
20k

3

C2
0.1

2

85
86

-2.8V
-2.8V

94
93

+7.3V
+7.3V

C1
10
10V
:TA-CB

CN1(85/100)

R2
10k

C4
10
10V
:TA-CB

C3
0.1

CN1(86/100)

Q1
2SB624-T1BV3

C5
10
10V
:TA-CB
C7
0.1

20

1/2

+7V

17

1/2

+4.8V

18

1/2

A GND

19

1/2

IC1(2/4)
TL064CPW-E05

CN1(94/100)
CN1(93/100)

-2.5V

4

C6
10
10V
:TA-CB

R3
22k

5

R4
10k

7
6

1
D2
RD4.3UH-T1

R5
47k

Q2
2SB1114-T1ZL
92
91

+5.1V
+5.1V

C8
0.1

IC1(3/4)
TL064CPW-E05

IC6(1/4)
TL074CPW-E05

CN1(92/100)

2.5V

CN1(91/100)
C9
15
R6
6.3V 22k
:TA-CB
C10
0.1
C12
47
6.3V
:AL-C

10

R7
10k

8
1

9

R8
10k

100
99
98
97

A
A
A
A

GND
GND
GND
GND

C14
1
25V
R10 :TA-CA
22k

CN1(100/100)
CN1(99/100)

CN1(97/100)

14
C17
47
6.3V
:AL-C

-5.1V
-5.1V

C13
1
25V
:TA-CA

CN1(98/100)

D4
RD4.3UH-T1

88
87

1

D3
RD4.3UH-T1
R9
1.5k

3

2
3 6

C11
22
10V
:TA-CC

1
C18
0.1

13
12

R11
10k

C15
33
10V

C16
22
10V
:TA-CC

11
C19
1
R12
25V
10k
:TA-CA

CN1(88/100)
CN1(87/100)

-5V

Q3
IC1(4/4)
2SD596T1-DV345 TL064CPW-E05

MB,7-24(BVP-550)
MB,11-24(BVP-500)

89

+2.5V REF OUT

CN1(89/100)
R13
100

IC3
REF-03GSR
1
2
3
4

R14
100k

4

MB,6-47/MB,23-3(BVP-550)
MB,10-47/MB,16-3(BVP-500)

8

A HD IN

CN1(8/100)

8
7
6
5

NC
NC
3
IN
NC
TEMP OUT
GND TR

R40
100

5V

IC23(2/4)
SN74HC08APW-E05

L1
22µH

R16
100k
1/16W

R15
100k
1/16W

MB,23-12(BVP-550)
MB,16-12(BVP-500)

13

PREBLKG IN

CN1(13/100)

Q5
XN6401-TW

R19
10

Q4
2SC4177-T1L7

R17
4.7k
1/16W

R18
10k

R20
10k

R21
3.3k

Q4

MB,23-13(BVP-550)
MB,11-1/MB,16-3(BVP-500)

5

12

H CLP 1 IN

CN1(12/100)

4

R22
10

Q5

14

6 3

6

2

5

5

D5
1SS302-TE85L

7
4 1

8-4
A

B

C

MB,16-14(BVP-500)

11

DC LP

MB,6-49/MB,23-4(BVP-550)
MB,10-49/MB,16-4(BVP-500)

7

A VD IN

MB,22-13(BVP-550)
MB,15-13(BVP-500)

14

V CLP 1 IN

CN1(11/100)

C20
10
10V
:TA-CB

C21
0.1

CN1(7/100)

C24
10
10V
L2 :TA-CB
22µH

C25
0.1

R23
2.2k

C22
0.1

R24
3.3k

C23
0.1

CN1(14/100)

-2.5V

8-4
D

BVP-550

E

F

G

H

VA-163 (2/2)

VA-163 (2/2)

Q12
XN6501-TW

5V

IC12(1/4)
TL074CPW-E05

C48
0.1

180k

5 4

2

IC12(3/4)
TL074CPW-E05

R65
2k

3

4

5
6

5V
C45
0.1

R42
12k

R47
10k

11

3

5

C50
6.8
6.3V

C46
0.1
35V

C73
18p

C49
0.1

R43
1.5k

R68
1k

7

IC15(1/4)
TL064CPW-E05

4 3

R57
47k

9
R49
10k

IC12(2/4)
TL074CPW-E05

D9
1SS302-TE85L

3

12

11
13
9

R70
1k

R46
2k

R52
10k

IC12(4/4)
TL074CPW-E05

R54
10k

1

C44
0.1

2

-2.5V

14

1

15

IC22(1/3)
TC74HC4053AFS-EL

17

13

C61 5V
0.1

R101
12k

5

Q10
XN6401-TW

IC22(2/3)
TC74HC4053AFS-EL

-2.5V

Q14
XN6401-TW

5V

R62
470k

16
5
3

3

9
4

15

R99
8.2k

17
6 8 7

R100
2k

R102
1k

C64
0.1

R114
20k

C68
0.1

R118
4.7k

R105
100

9
10
4

6 3

1
2

R111
100

2

15 5

22
6 8 7

6

3

4

1

2

5
22

4

CN1(26/100)

1
R112
8.2k

R108
2.7k

R115
2k

CN1(25/100)

R120
3.3k

14

R83
4.7k

IC17(3/3)
TC74HC4053AFS-EL

13
-2.5V
1/2

2

3
2
1

5
4

12
11
10
9
8
7
6
R55 5V
20k

5V
5V
R58
10k

R63
33k

R64
33k
R71
33k

R96
47k

V0G
V0F
V0E
V1F
V1E
PR
GND
V1A
V1B
V0A
V0B
V0C
V0H
V1G
V1H
LD
CLK
SD0
VSS
SD1
VDD
V1D
V1C
V0D

10
9
8
7
6
5
4
3
2
1

21

24

11
12
13
14
15
16
17
18
19
20

13
14
15
16
17
18
19
20
21
22
23
24

CLK
SD0
VSS
SD1
VDD
V1D
V1C
V0D

V0H
V1G
V1H
LD

13
14
15
16
17
18
19
20
21
22
23
24
7

20

VCC
A011

18

IC26
X24C02S-3.0-C700
0

R116
100k

8
7
6
5

NC
D0
LD
CK
D1
NC
NC
GND

R97
47k

C

IC16
MP7670AS-TE2

IC24
MB88351PFV-ER

VDD
NC
NC
AO4
AO3
AO2
AO1
NC
NC
VSS

R94
47k

VCC
NC

12
11
10
9
8
7
6
5
4
3
2
1

IC20
TC74HC595AF(EL)

16

1/2

R95
47k
R90
33k

VDD
A0
CPE
A1
26
SCL
A2
SDA
VSS

1
2
3
4

3

11
12
13
14
15
16
17
18
19
20

3

PR
GND
V1A
V1B
V0A
V0B
V0C

12
11
10
9
8
7
6
5
4
3
2
1
V0G
V0F
V0E
V1F
V1E
1/2

IC18
MP7670AS-TE2

10
9
8
7
6
5
4
3
2
1

R84
33k

IC11
TC7S04FU(TE85R)

R89
33k

R87
33k

VDA
AO10
A09
A08
A07
A06
A05
A04
AO3
VSS

R85 R86 R88
33k 33k 33k

3

AO12
D0
LD
CK
D1
AO1
AO2
GND

5 4

8
7
6
5
4
3
2
1

2

GND
Q7
Q6
Q5
Q4
Q3
Q2
Q1

5V

QH
CLR
SCK
RCK
G
S1
Q0
VCC

R53
20k

IC8
TC7S66FU(TE85R)

V SAW
C62
0.1

CN1(3/100)

C72
0.1

C63
0.1

5V
4

5V

R121
100

IC21
MB88346BPFV-EF

5 1
27 2

R122
100

2
3

IC19(1/4)
TL074CPW-E05

C59
0.1

C60
0.1

CN1(1/100)

4

C67
15
6.3V

C69
15
6.3V

C65
15
6.3V

C70
15
6.3V

C66
15
6.3V

C71
15
6.3V

3

LD(VA) IN

1

AT,1-20

IIC CLK

2

MB,11-18(BVP-500)

IC25
TC7S04FU(TE85R)

R W SHADING IN

66

MB,7-18(BVP-550)
MB,11-18(BVP-500)

G W SHADING IN

65

MB,7-19(BVP-550)
MB,11-19(BVP-500)

B W SHADING IN

64

MB,7-17(BVP-550)
MB,11-17(BVP-500)

W SHADING GND

63

MB,7-16(BVP-550)
MB,11-16(BVP-500)

CN1(2/100)

R123
100

3

R91
10k

5

IIC DATA

5
25

IC27
TC7S08FU(TE85R)
CN1(66/100)

7
19

5V

6

-5V
4
19
13

IC19(4/4)
TL074CPW-E05

R92
10k

3
1

11

19
2

10
8
19

IC23(1/4)
SN74HC08APW-E05

IC5(1/2)
TC74HC4538AFS-EL

+2.5V
PRE BLKG
CLP 1

16
8
9

1/2
1/2
1/2

CLP 3
CLP 2
NAM

11
10
15

1/2
1/2
1/2

GSL 2
GSL 1
KNEE SEL

9

R93
10k

4
5
6

1/2
1/2
1/2

CN1(63/100)

IC19(3/4)
TL074CPW-E05

4

L
M
N

IC5(2/2)
TC74HC4538AFS-EL

R28
10k

CN1(64/100)

IC19(2/4)
TL074CPW-E05

-5V

IC23(4/4)
SN74HC08APW-E05

CN1(65/100)

12

14

IC7
TC7S32FU(TE85R)

IC6(2/4)
TL074CPW-E05

IC6(3/4)
TL074CPW-E05

R29
8.2k

4

C40
6.8
6.3V

7

5
6

1/2
1/2
1/2

12
13
14

IC6(4/4)
TL074CPW-E05

R35
100
R32
:N'M

C26
150p

MB,7-21(BVP-550)
MB,11-21(BVP-500)

C27
100p

1

5

15

14 16

4
2
R38
1k

2

1
3

Cx

D7
HSM107S-TL

CxRx
Q

4

11

R25
10k

6

12
11

CX CXRX VCC
Q

3

10

RD

8
9

CN1(80/100)

R33
:N'M

CN1(77/100)

Q
GND

13

12

BLK SHAD
BLK SHAD
BLK SHAD
SHADING GND

78
79
80
77

MB,7-23(BVP-550)
MB,11-23(BVP-500)
MB,7-22(BVP-550)
MB,11-22(BVP-500)

R37
100

5

14
13
11
R31
2.2k

C31
100p

B
G
R
B

MB,7-20(BVP-550)
MB,11-20(BVP-500)

8

3
R26
2.2k

CN1(79/100)

7
Q
RD

R27
1k

12
R39
1M

CN1(78/100)

R36
100

9

5

5

10

R30
10k

5

2
1

13

R34
:N'M

C30
0.1

C32
0.1

VA-163 (2/2)

-5V

BOARD NO. 1-657-438-21
LOT NO. 508B-¥BVP550-VA163-12

8-5

BVP-550

I

2

4 3

9
10
11
12
13
14
15
16

4 3

MB,7-3(BVP-550)
MB,11-3(BVP-500)

-2.5V

2
R51
1k

MB,7-4(BVP-550)
MB,11-4(BVP-500)

26
25

TEST SAW(X) IN
TEST SAW(G) IN

R119

15

R80
4.7k
D10
1SS302-TE85L

IC14
TC7S66FU(TE85R)

18

1
2

16
3
5

B
1

1/2

1

-2.5V

Q11
XN6501-TW

R104
4.7k

R103
43k

R98
8.2k

5V

IC9(4/4)
LM339NS-E20

R106
4.7k

17

TEST SIG

IC22(3/3)
TC74HC4053AFS-EL

8
15

14
22

R117
2.7k

R110
2.7k

10

IC15(4/4)
TL064CPW-E05

R77
33k
C58
1
25V

5
12

R74
0

C53
470p

10

12
13

R79
4.7k

13
R60
47k

C51
6.8
6.3V

5V

11

RV50
5k

IC23(3/4)
SN74HC08APW-E05

2

R82
4.7k

12
C47
0.001

23

R69
2k

14
8

9

IC9(3/4)
LM339NS-E20

R50
10k

C57
1
25V

12

8
C43
0.1

9 10

IC17(2/3)
TC74HC4053AFS-EL

12

C55

R113
100

R107
2.2k

16

-5V

10

14

9

14

IC15(3/4)
TL064CPW-E05

R76
33k

11 0.1

IC13
TC7S66FU(TE85R)

5V

R73
0

6

9

IC9(2/4)
LM339NS-E20

R45
1.5k

4

2

1

12
13
17

0.1

5

6

11

8

15
9

R81
4.7k

15

C42
0.1

R44
1.5k

TEST

10

R67
2k

1

7

IC17(1/3)
TC74HC4053AFS-EL

R78
4.7k
D8
1SS302-TE85L

2

5

IC9(1/4)
LM339NS-E20
R48
10k

R61
1M

5V

4

R75
33k
C56
1
25V

5V C54

9

R72
0

C52
0.047
:FILM-C

R59
47k

-5V

2
C41
0.1

R66
1k

1

12

2

7
12
5V

R109
10k

IC15(2/4)
TL064CPW-E05

3

5V

Q13
XN6501-TW

1

5V
2.5V R56

R41
100

1

5V

IC10
TC7S04FU(TE85R)

J

K

L

8-5
M

N

O

P

AT-95

1

AT-95

AT-95 BOARD
————————————
AT-95 (1-657-448-21)
————————————
*: B SIDE
BT1

B-4

CNI36 F-2

2

3

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

4

*
*
*
*

*
*
*
*
*
*
*
*
*
*

5
*
*
*
*
*

CN1

C-1

D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D12
D13
D15
D16
D17
D18
D19
D20
D21
D22

A-2
B-4
A-2
A-2
A-3
B-3
B-3
A-3
A-3
A-3
A-4
B-4
B-3
G-4
G-4
G-4
G-4
G-1
C-2
G-3

IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC21
IC22
IC23
IC24
IC25
IC26
IC27
IC28
IC29
IC30
IC31
IC32
IC33
IC34
IC35
IC37
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48

F-1
G-2
G-1
A-2
B-2
B-4
B-2
A-2
B-3
B-4
C-2
B-2
C-3
D-4
D-2
D-4
D-4
D-4
D-4
D-4
D-4
E-3
E-3
D-4
E-2
E-4
F-4
G-3
G-2
F-2
B-2
B-2
C-2
C-4
E-4
C-3
E-4
D-2
C-3
D-3
D-3
D-3
D-2
G-4
E-2
G-2

L1
L2

B-1
F-1

Q1
Q2
Q3
Q4
Q5
Q6

A-2
F-2
B-1
C-1
B-1
B-1

RV1

C-3

S1

E-3

8-6
A

B

C

8-6
D

BVP-550

E

F

G

H

AT-95 (1/2)

AT-95 (1/2)

BVP-550 (SY)

1

3
2
1

2/2

-2.8V
A GND
+7.3V

IC4(1/4)
TL064CPW-E05

Q1
2SB624-T1BV3
5V

92
91

+5.1V IN
+5.1V IN

CN1(92/100)

C8
100
6.3V
:AL

L1
0.47µH

89

C9
0.1

R20
100

2.5V REF IN
GND
GND
GND
GND

C18
0.1

CN1(99/100)

-2.8V IN
-2.8V IN

88
87

-5.1V IN
-5.1V IN

10

4
8

R16
100

4
9

C13
33
16V
:TA

C12
33
16V
:TA

C11
0.1

D1
RD4.3UH-T1

1
2
3
4

R19
1k

R15
C10 0
0.1
C14
0.1

C15
0.22
5.5V

C16
0.1

BT1

VOUT

4

2/2

CS
≠≠
≠
≠≠≠
RES
≠≠

5
6

2/2
2/2

RES

7

2/2

8

CS

7
6
5

RES

VBAT

6
VIN

GND

CT

RES

C17
6.8
16V
:TA

R22
22k
:RN-C

CN1(98/100)
CN1(97/100)

C19
100
6.3V
:AL

R23
5.6

CN1(86/100)

86
85

R18
20k
:RN-C
R21
100
:RN-C

11
CN1(100/100)

A
A
A
A

IC6
M62021FP
BACK UP V

CN1(89/100)

100
99
98
97

D2
1SS302-TE85L R14
1k

CN1(91/100)

R17
1.2M

MB,12-18(BVP-500)/MB,51-18(BVP-550)

5V
R13
0

C20
0.1

CN1(85/100)

IC7(2/2)
TC74HC4052AFS(EL )

IC5(1/4)
TL064CPW-E05

IC5(2/4)
TL064CPW-E05

IC4(2/4)
TL064CPW-E05

IC7(1/2)
TC74HC4052AFS(EL )

CN1(88/100)
CN1(87/100)

16
CN1(75/100)

IF,870-19(BVP-500)/IF,1-19(BVP-550)
IF,870-18(BVP-500)/IF,1-18(BVP-550)
IF,870-17(BVP-500)/IF,1-17(BVP-550)
IF,870-20(BVP-500)/IF,1-20(BVP-550)

75
74
73
72

R PEAK IN
G PEAK IN
B PEAK IN
PEAK GND

96
95

D GND
D GND

CN1(74/100)

1
5

CN1(73/100) R25 1k
CN1(72/100)

2
4

12

8

7

C21
100p

R26
100

5

8

7

5

7

4

R28
56k
:RN-C

7

13

R29
1M

R31
15k

5

B

6 10

9

2 :RN-C

1 8

P93
P92

8
9

2/2
2/2

P94

10

2/2

L

11

2/2

N

12

2/2

AN0
R32
33k

4

3

AN7

D4
HSM107S-TL
A

5V
R30
3k
:RN-C

CN1(95/100)

7

14
15
11

6

5
11

9

C22
0.1

5

6

4
10
3

CN1(96/100)

2

D3
HSM107S-TL

IC8
TC7S66FU(TE85R)

IC5(3/4)
TL064CPW-E05
CN1(70/100)

MB,15-14(BVP-500)/MB,22-14(BVP-550)

70

R34
1M

3

1

C23
0.1

R39
1M

R33
2.7M

12

3

ND FILT IN

5

5

14

5

12

1

4

13

2

IC4(4/4)
TL064CPW-E05

IC4(3/4)
TL064CPW-E05

IC5(4/4)
TL064CPW-E05

D6
IC9(1/4)
TL064CPW-E05 HSM107S-TL

14
4

AN5

7

9

2

6
13

69
51

CC FILT IN
TAPE REM IN

R37
3.3M
D5
1SS302-TE85L
R35
R36
1M
1M

C25
0.1

R38
CN1(69/100) 1M

MB,15-15(BVP-500)/MB,22-15(BVP-550)
MB,22-12(BVP-550)

CN1(51/100)
C24
0.1

CN1(67/100)

LENS,102-12(BVP-500)/MB,32-4(BVP-550)

67
90

IRIS POSI IN
+9.3V IN

CN1(90/100)

IC9(3/4)
TL064CPW-E05

D9
:N'M
R12
5.6
R42
680

CN1(68/100)

MB,15-16(BVP-500)/MB,22-16(BVP-550)

68

3

D7
HSM107S-TL

AN2

IC9(2/4)
TL064CPW-E05

10

TEMP IN

4

R40
10k
:RN-C

8

9

12
11

D8
HSM107S-TL

R45
2.2k

D11
HSM107S-TL

R41
22k
:RN-C

9

C27
0.1

D10
HSM107S-TL

R43
1k

14

9

AN3

13
C26
0.01

R47
10k
:RN-C

R46
1k

C28
0.01

R48
12k
:RN-C

R44
6.8k
:RN-C

AN4
C29
0.1

IC11(1/2)
NJU7022M-TE2

CN1(64/100)

LENS,102-13(BVP-500)/MB,32-6(BVP-550)

64

ZOOM POSI IN

MB,12-13(BVP-550)

47

AUDIO LEVEL IN

IC11(2/2)
NJU7022M-TE2
IC9(4/4)
TL064CPW-E05

CN1(47/100)

R51
1k
C30
0.1
C31
3.3
10V
:TA

D13
HSM107S-TL

D12
HSM107S-TL

5

8

3

11
11

1

R49
10k
:RN-C

R50
22k
:RN-C

D14
:N'M

3

6

R52
1k

2

9

1

4

R53
100

2

4
C32
0.0022

D15
HSM107S-TL

7

R59
820

RV1
5k

C34
1
35V
:TA

R54
18k

R56
1.8k

R60
680k

R57
10k
:RN-C

C33
0.01

R55
6.8k
C35 :RN-C
0.01

R58
12k
:RN-C

AN6
AN1

C36
0.01

AUDIO

IC12(2/2)
NJU7022M-TE2

IC13
MB88351PFV-ER

IC12(1/2)
NJU7022M-TE2
1

3

8
12

2
3

R61
560k

1

12

4

7

6

R164
300k
1/16W
C40
4.7
25V
:TA

4
5
6
7
8

5

2

R63
560k

R64
270k

R165 R62
330k
3k
1/16W
C39
0.01

R65

9
10

5V
C37
0.1

R66
1k

GND
VSS
NC
NC
NC
NC
DI
AO1
13
CLK
AO2
LD
AO3
DO
AO4
NC
NC
NC
NC
VDD
VCC

20
19
18
17
16
15
14
13

P30
P31
P32

M

61

IRIS CONT OUT

2/2

C38
0.1

5

AT-95(1/2)

C41
0.01

LENS,102-17(BVP-500)

13

12
11

B-¥ BVP550-AT95-12

CN1(61/100)

AT-95 (1/2)
BOARD NO. 1-657-448-21
LOT NO. 508B-¥BVP550-AT95-12

8-7

BVP-550

AI

J
B

K
C

LD

8-7
M
E

NF

O
G

P
H

AT-95 (2/2)

AT-95 (2/2)

BVP-550 (SY)

5V
R1
5.6

Q2(1/2)
IC2(1/2)
Q2(2/2)
IC2(2/2)
XN6501-TW TC7W02FU(TE12R) XN6501-TW TC7W02FU(TE12R)
1

8
27

CN1(7/100)

6
5
15
4

1

IC14(2/3)
TC7W04FU(TE12R)
2

14
13

12

R161
2.7M

14

5
14

3

3

IC14(3/3)
TC7W04FU(TE12R)

CHU DATA OUT

5

MB,12-26(BVP-550)/AU-211,1-13(BVP-500)

CN1(6/100)

CCU CONT IN

6

MB,12-25(BVP-550)/AU-211,1-9(BVP-500)

CN1(8/100)

NC(VA4)
NC(SG22)
NC
NC(LENS11)
NC(PR102)
NC(LENS12)

8
21
54
59
71
82

4

CN1(21/100)
CN1(54/100)

ROUT0

NC

TEST1

SEL

ADR7

TEST0

RVD

WRN

A0

CN1(59/100)

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

ROUT1

ADR6

ROUT2

ADR5

ROUT3

ADR4

ROUT4

ADR3

ROUT5
ROUT6

ADR2

ROUT7

ADR1
ADR0

VDD

35
VDD

VSS

VSS

TVD

BRD1

IVH

BRD0

BCKO

BTVD

NC

NC

NC

VDD

RIN0

VSS

RIN1

5V

CN1(71/100)
CN1(82/100)

IC33
TC74VHC163FS(EL)

3
4
5
6

C47
0.1

9
3
4
5
6
8
1
2 32
4

33

7 EN1
CO 15
10 EN2
GND RD

IC35
CXD8889R

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

IC34
TC74VHC163FS(EL)

9 16
LD VCC 14
QA
QB 13
QC 12
QD 11

A
B
C
D

2

RIN2

TP4

RESE

XTAL
EXTAL
P97/SCK
P96/RXD
P95/TXD
P94/PW3
P93/PW2
P92/PW1
P91/FTOA3
P90/FTOA2

P20/AS
P17/TMO
P16/IRQ1
P15/IRQ0
P14/WATT
P13/BREQ
P12/BACK
P11/E
P10/0

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

AN7
AN6
AN5
AN4
AN3
AN2
AN1
AN0

RIN3

P30/D0
P31/D1
P32/D2
P33/D3
P34/D4
P35/D5
P36/D6
P37/D7

16

5
6 32

3

5V

16

C46
0.1

LD VCC 14
QA
QB 13
QC 12
QD 11

A
B
C
D

34

7

7 EN1
CO
10 EN2
GND RD

15

8 1
8 1

C48
6.8
16V
:TA

C49
0.1

IC32(1/2)
IC32(2/2)
TC7W02FU(TE12R) TC7W02FU(TE12R)

A0
A1
A2
A3
A4
A5
A6
A7

A8
A9
A10
A11
A12
A13
A14
A15
A16
A17

21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40

3

CN1(5/100)

R74
4.7k

3

RIN4

D0
D1
D2
D3
D4
D5
D6
D7

60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41

AVCC
P87/AN7
P86/AN6
P85/AN5
P84/AN4
P83/AN3
P82/AN2
P81/AN1
P80/AN0
AVSS
P77/FTOA1
P76/FTOB3/FTCI3
P75/FTOB2/FTCI2
P74/FTOB1/FTCI1
P73/FTI3/TMRI
P72/TFI2
P71/TFI1
P70/TMCI
VCC
P63/A19

RIN5

≠≠≠
RES
≠≠

P21/R/ W
P22/DS
P23/RD
P24/WR
VCC
MD0
MD1
MD2
STBY
RESET
NMI

RIN6

6

IF,1-26(BVP-550)/IF,870-26(BVP-500)
SG,1-21
IF,1-25(BVP-550)/IF,870-25(BVP-500)

C43
0.1

RIN7

RES

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

D0

P94

7

C45 0.1

10

1/2
1/2

RD
WR

P93

1/2

46
23
45

R76
100

2
3

3

D0
D1
D2
D3
D4
D5
D6
D7

8

CN1(45/100)

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

C44
0.1

P50/A8
P51/A9
P52/A10
P53/A11
P54/A12
P55/A13
P56/A14
P57/A15
P60/A16
P61/A17
P62/A18

P92
5V

1/2

R73 4.7k

PEAK RST OUT
V RESET OUT
WINDOW OUT

R77
100

P40/A0
P41/A1
P42/A2
P43/A3
P44/A4
P45/A5
P46/A6
P47/A7

2

CN1(23/100)

15 8

80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61

9

CN1(46/100)

R72 1k

16

5
6

7

C7
1.5
25V
:TA

IC16
HD6475328F10

1/2

56

R71 4.7k

R75
4.7k

IC3(3/4)
TC74VHC157FS(EL)

R163
0

R162
0

55

18M(G)IN

IC3(4/4)
5V
TC74VHC157FS(EL)

6

VDD

+7.3V
A GND
-2.8V

C80
0.1

VSS

1
2
3

C6
0.1

R10
22k

11

1
3
-10VOUT C1C2VCC 16
1
L2
GND
C1+
4.7µH
2
C2+ +10VOUT

3

VSS

1/2
1/2
1/2

C5
1.5
25V
:TA

6

VDD

C4
0.1

5V

D20
1SS302-TE85L

18M(X)IN

CN1(56/100)

5

RDN

C3
0.1

9
12
10

2 D S Q
1
15
4 GND
Q
R
7

D7

R11
100k

ROUT2
ROUT1
T2IN
T1IN

4
9

RD

7
14

C1
100p

RIN2
RIN1
T2OUT
T1OUT

3

CSN

RM SD OUT

8
13

CN1(3/100)

10
11

4

C2
0.001 5

CN1(55/100)

IC15
6 8 TC7W74FU(TE12R)

1

D6

3

R8 R9
4.7k 10k

TP1

C42
0.001

8
7
14

CN1(4/100)
R3
6.8k
R7
100

CN1231,12-2(BVP-500)

R70
1M

3
6

CLK

RM SD IN

5
4

3

D5

4

R6
1k

IC1
MAX202CSE-TE2

R4
100

5V

D4

MB,41-8(BVP-550)
CN1231,12-1(BVP-500)

5V

IC14(1/3)
TC7W04FU(TE12R)

R2
10k

D3

R5
100

2
1

A0
A1
A2

CA DATA IN/OUT

7

IC3(1/4)
IC3(2/4)
TC74VHC157FS(EL) TC74VHC157FS(EL)

CN1(93/100)

A2

CN1(94/100)

A1

+7.5V IN
+7.5V IN

D2

94
93

MB,41-7(BVP-550)
MB,12-15,16(BVP-500)

D1

MB,12-24(BVP-550)
MB,12-15,16(BVP-500)

WR

1

AN3
1/2

11

L

IC38
HD151015TEL

5V
R78
10

R79
3.9k

IC18
TC7SH02FU-TE85R
≠≠
CS
≠

3

IC24
TC74VHC138FS(EL)

3

IC23(1/2)
TC74VHC20FS(EL)

4

A14
A13
A12
A11

1
2
4
5

C54
0.1

6
4

14
6

5
7

9 10 12 13

16
1
2

A
B
C

Y0
Y1
Y2
Y3
24
Y4
G1
Y5
G2A Y6
G2B Y7

15
14
13
12
11
10
9
7

A7

A14

A6

A13

A5

A8

A4

A9

36

A3

A11

A2

G

A1

A10
E

A0

DO8

DO1

DO2

IC19
TC7SH04FU-TE85R

20
19
18
17
16
15
14

1
2
A14
A13
A8
A9
A11

29
28
27
26
25
24
23
22
21

2

24 1

DIR
B0

A0

B1

A1

B2

A2

B3

A3

3

21

38

B4

A4

B5

A5

B6

A6

B7

A7

B8

A8

5

12 23 13

R89
47k

4

10
11

C50
10
6.3V
:TA

+3.3V IN
+3.3V IN

84
83

DB
DB
DB
DB
DB
DB
DB
DB

0(PR)
1(PR)
2(PR)
3(PR)
4(PR)
5(PR)
6(PR)
7(PR)

32
33
34
35
36
37
38
39

MB,6-54(BVP-550)/MB,10-54(BVP-500)
MB,6-56(BVP-550)/MB,10-56(BVP-500)
MB,6-58(BVP-550)/MB,10-58(BVP-500)
MB,6-60(BVP-550)/MB,10-60(BVP-500)
MB,6-62(BVP-550)/MB,10-62(BVP-500)
MB,6-64(BVP-550)/MB,10-64(BVP-500)
MB,6-66(BVP-550)/MB,10-66(BVP-500)
MB,6-68(BVP-550)/MB,10-68(BVP-500)

R93 10 CN1(40/100)
R94 10 CN1(29/100)

RD(PR)
WR(PR)
CE0(PR)
CE1(PR)

31
30
40
29

MB,6-52(BVP-550)/MB,10-52(BVP-500)
MB,6-50(BVP-550)/MB,10-50(BVP-500)
MB,6-70(BVP-550)/MB,10-70(BVP-500)
MB,6-48(BVP-550)/MB,10-48(BVP-500)

R95 10 CN1(42/100)
R96 10 CN1(41/100)

A0(PR)
A1(PR)

42
41

MB,6-72(BVP-550)/MB,10-72(BVP-500)
MB,6-74(BVP-550)/MB,10-74(BVP-500)

R80 10 CN1(32/100)
R81 10 CN1(33/100)
R83 10 CN1(34/100)
R84 10 CN1(35/100)
R85 10 CN1(36/100)
R86 10 CN1(37/100)
R87 10 CN1(38/100)
R88 10 CN1(39/100)

R90
47k

3
1
RD
WR

2
4
17

RD
A10

A0
A1

20

EN
A1

X1

A2

X2

B1

Y1

15 B2
13 B3
11
B4
6

Y2

39
Y3

18
16
3
5
7
9

R91 10 CN1(31/100)
R92 10 CN1(30/100)

Y4
X3

A3

8

X4

A4

14
12

EN

14 15 16 17 18 19 20

C55
0.1

4
5
6
7
8
9

C52
0.1

G

4 3 2 1 32 31 30

C53
0.1

8
A7 5
A6 6
A5 7
A4 8
A3 9
A2 10
A1 11
A0 12
13

22

IC37
TC7SH08FU-TE85R

IC36

5V

A6
A5
A4

A17

IC23(2/2)
TC74VHC20FS(EL)
NC

IC22
TC7SH32FU-TE85R

PGM

4

VCC

3

5V

5

VDD

2

2

1
2

3

4
3

3

4

5

DO7

5

A15

4

DO6

3
5 1

4

1
2

5

DO5

IC17
TC7S32FU(TE85R)

1
2

DO4

4

A12
A15
A16

5

1
2

BACK UP V

A16

4

5V

R82
6.2k

IC21
TC7SH02FU-TE85R

A15

1/2

5

IC20
TC7SH08FU-TE85R

A12

1/2

D0
D1
D2
D3
D4
D5
D6
D7

N

GND

12

DO3

1/2

CN1(84/100)
CN1(83/100)

C51
0.1

8

10

19

1/2

13

D7

D3
D4
D5
D6

D1
D2

D0

IC39
TC74VHC244FS(EL)

M

5

8-8
A

B

C

8-8
D

BVP-550

E

F

G

H

AT-95 (2/2)

AT-95 (2/2)

1

5V
D21
1SS302-TE85L R100
10k

R97
100k

R101
10k
CN1(2/100)
CN1(1/100)

WR

R98
100k

D0
D1
D2
D3
D4
D5
D6
D7

WE

I/05

26
I/04

VCC

GND

A14

I/03

A12

I/02

A7

I/01

A6

A0

A5

A1

A4

A2

A3

P07

NC

WR

P06

P05

P04

P03

P02

P01

RD

4
5
6
7

A14
A12
A7
A6
A5
A4
A3

6
7
8
9

RESET

GND

D0

A1

D1

A0

D2

27

P27

D3

P26

D4

P25

D5

P24

D6

10 P20
11 P21

VDD

D7

33
32
31
30
29
28
27
26
25
24
23

D0
D1
D2
D3
D4
D5
D6
D7

D22
1SS302-TE85L

CN1(24/100)

5
6
7
8
12
13
14
15
17
16

CD0

VDD

CD1

VCC

CD2

CO

CD3

20
10
19
18
4
9
11
2
3
1

BO

CD4

NC

29
CD5

NC

CD6

NC

CD7

A

STB

B

OE

RST

IC40(1/2)
TC74VHC74FS(EL)

IC42
IC40(2/2)
TC74VHC163FS(EL)
TC74VHC74FS(EL)
IC41
IC43(1/3)
TC7S86FU(TE85R)
TC7W04FU(TE12R)

5V

4

9

SD
5
2
D
Q
3
40
6
Q

C59
0.1

1
2

5
41

3 A
4
B
5 C
6
D

4

3

RD

C60
0.1

1
2

C61
0.1

5
1
2 31

RD
1 5
2 30

WR

12 13 14 15 16 17 18 19 20 21 22

2
1
24
44

MB,41-9(BVP-550)/SW795,1-2(BVP-500)
MB,41-10(BVP-550)/SW795,1-1(BVP-500)
MB,6-49(BVP-550)/MB,16-4(BVP-500)
SG,1-50(BVP-500)

14
13
9
12 D SD VCC
Q
11
40
8
7

16

LD VCC 14
QA
13
QB
12
QC
11
QD
42

IC43(2/3)
IC45
TC7W04FU(TE12R)
TC7W74FU(TE12R)
IC44
IC43(3/3)
TC74VHC163FS(EL)
TC7W04FU(TE12R)

C57
0.1

5
6

10

2

RD

16
LD VCC 14
QA
13
QB
12
QC
11
QD
44

A
B
C
D

4

Q

GND

9

C58
0.1 3

82

6 43

6 8
5
2 D SD VCC
Q

R103
1k

1
4

4

45
3
GND

Q
RD

7

15
7 EN1
CO
10
EN2
GND RD
1
8

4

1

7
15
EN1
CO
10 EN2
GND RD
8 1
R104

7

2

3
43

5

100k

3
4

3
CN1(22/100)

A HD IN
HD IN

22
43

MB,6-47(BVP-550)/MB,10-47(BVP-500)
SG,1-49

CHAR BACK OUT
TITLE BACK OUT

27
25

DA,1-50/IF,1-8(BVP-550)
DA,1-50/IF,870-27(BVP-500)
MB,6-42(BVP-550)/MB,10-42(BVP-500)

CHAR VF OUT
TITLE OUT

28
26

DA,1-51/IF,1-7(BVP-550)
DA,1-51/IF,870-7(BVP-500)
MB,6-40(BVP-550)/MB,10-40(BVP-500)

LD(TG)
LD(CCD)
LD(VA)
IIC CLK(SW)
IIC DATA(SW)
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(CA)
LD(DA)
LD(SG)
LD(IF)

18
16
20
13
14
11
12
9
10
17
19
15

MB,23-16(BVP-550)/MB,16-16(BVP-500)
MB,23-15(BVP-550)/MB,16-15(BVP-500)
VA,1-1
MB,IC5-6
MB,IC5-5
MB,12-27(BVP-550)/SW795,1-6(BVP-500)
MB,12-28(BVP-550)/SW795,1-5(BVP-500)
MB,12-29(BVP-550)/SW795,1-4(BVP-500)
MB,12-30(BVP-550)/SW795,1-3(BVP-500)
DA,1-1
SG,1-1
IF,1-1

RET EN OUT
TALLY ON OUT
REC TALLY IN
VTR RST IN
VTR S/S TRIG IN
RET SW IN
EX ON IN
ZEBRA ON

50
58
57
53
65
66
63
81

CN1(76/100)

AUTO +5V OUT
REM/LOCAL
VF 16:9/4:3 OUT

60
62
76

MB,32-8(BVP-550)
MB,32-9(BVP-550)
MB,31-A6(BVP-550)/VF,103-25(BVP-500)

CN1(78/100)

ABNORMAL OUT

78

MB,31-B4(BVP-550)

CN1(77/100)

G TALLY OUT

77

MB,31-A5(BVP-550)/VF,103-23(BVP-500)

CN1(52/100)
CN1(48/100)

VTR S/SOUT
PB REF IN

52
48

MB,12-6(BVP-550)/MB,18-A8(BVP-500)
IF,1-45/MB,12-17(BVP-550)
IF,870-45/DM98,2-16(BVP-500)

CN1(49/100)

BATT ALARM IN

49

MB,12-5/MB,31-A4(BVP-550)/AU,1-42(BVP-500)

CN1(80/100)

VF RGB OUT

80

MB,31-B7(BVP-550)

CN1(79/100)

NC(VF 7)

79

CN1(43/100)

IC30
TC7SH02FU-TE85R

WR

RD
P30
P31
P32
P33
P34
P35
P36
P37

RE A
RE B
A VD IN
VD IN

5V

5V

TP5

C62
0.1

R102
1k

5V

P17

A13

NC

CS

P16

I/06

A1
A0
P27
P26
P25
P24
P20

NC

P15

A8

1
2
3
4
5

P14

A9

I/07

A11
A9
A8
A13

P13

I/08

22 RD
23
24
25
26
27 WR
28
1
2
3

NC

A11

P12

OE

CE

P11

A10

P12

A10 21
20
19
18
17
16
15
14
13
D2
12
D1
D0
11
10
A0
9
A1
A2
8
D7
D6
D5
D4
D3

P13
P14
P15
P16
P17

TP

P10

14
13
WR
SO
S1
CS 12
4 SC 25 CS 11
5 NC
10
NC
6 NC
9
NC
8
7 NC
VDD
VSS

P23

1
2
3

P22

C56
0.1

P22
P23
P10
P11

C71
15
16V
:TA

IC26
CXK58257ATM-70LL

P00

44 43 42 41 40 39 38 37 36 35 34

IC25
RTC-4553B

R99
100k

CN1(44/100)

IC29
µPD4702G

P04
P05
P06
P07

RD
P00

P01
P02
P03

IC27
µPD71055GB-10-3B 4

R105
100

IC31
TC7SH32FU-TE85R

D16
1SS302-TE85L

D17
1SS302-TE85L

D18
1SS302-TE85L

D19
1SS302-TE85L

P07

NC

WR

P06

P05

P04

P03

P02

P01

A1

D1

A0

D2

28

P27

D3

P20

D7

P21

VDD

P17

D6

P16

P24

P15

D5

P14

D4

P25

P13

P26

P22

7
8
9
10
11

D0

NC

R109
47k

RESET

GND

P12

R108
47k

NC

CS

P11

R107
47k

NC

P10

R106
220k

A1
A0

P23

1
2
3
4
5
6

5V

P00

RD

44 43 42 41 40 39 38 37 36 35 34

33
32
31
30
29
28
27
26
25
24
23

IC47
µPD6453GT-610

D0
D1
D2
D3
D4
D5
D6
D7

TP3

IC46
X24164SIC7000
1
2
3
4

5V

S0

VCC

S1

TST

46
S2

SCL

GND

SDA

TP2

8
7

C63
0.1

P03
P14
P15
P16

1
2
3
4

6
5

5
7
8

C65
0.1

9

12 13 14 15 16 17 18 19 20 21 22

IC28
µPD71055GB-10-3B 4

5V

6
V DD
BUSY
HD
CLK
VD
47
CS
BBLK
DATA GBLK
PCL
RBLK
VCBL
CKOUT
VB
OSCOUT VG
OSCIN
VR
VMON
GND
10

20
19
18
17
16
15
14
13
12
11

C64
0.1
R110
2.2k
CN1(27/100)
CN1(25/100)
R111
2.2k
R114
2.2k

R113

R112

CN1(28/100)
CN1(26/100)

3

R115
2.2k
R117

R116

5V
P33
P34
P35

8
P36
P37

48

7
6
5

CN1(16/100)

R120 100

CN1(20/100)

R121 100

CN1(13/100)

R122 100

CN1(14/100)

R123 1k

CN1(11/100)

R124 1k

CN1(12/100)

R125 1k

CN1(9/100)

R126 1k

CN1(10/100)

R127 100

CN1(17/100)
CN1(19/100)

R129 100

CN1(15/100)

R130 R131 R132 R133 5V
100k 100k 47k 47k

R135
47k

3
2
R136
47k

Q3(1/2)
IMH2-T110

P01

R144
47k

R134
47k

1
CN1(50/100)

P24
P20

C66
100p

CN1(18/100)

R119 100

R128 100

4
IC48
TC7W139FU(TE12R)

P27
R137
1k

1
2
3

R118 100

P22
P23

R138 100

CN1(58/100)

R139 1k

CN1(57/100)

R140 1k

CN1(53/100)

R141 1k

CN1(65/100)

R142 1k

CN1(66/100)

R143 1k

CN1(63/100)

P00

CN1(81/100)

4

Q4(1/2)
IMB2-T110

2

6

5V R147 R148

R160
1k

Q6(1/2)
IMH2-T110
CN1(60/100)

R145 100

P12
1
3
5
7

R146
100k

2
4
6
8

4

1

100k 100k

S1

IF,1-29(BVP-550)/IF,870-29(BVP-500)
IF,1-30(BVP-550)/IF,870-30(BVP-500)
IF,1-28(BVP-550)/IF,870-28(BVP-500)
MB,32-10(BVP-550)
MB,32-3(BVP-550)
MB,32-7(BVP-550)
MB,31-B6(BVP-550)

5

3
P13

MB,12-15(BVP-550)
MB,22-B6/MB,23-B6/LENS,102-32/DM98,2-19(BVP-500)

R149
100k

P04
P05
P06
P07

CN1(62/100)

1
P11

Q5(1/2)
IMH2-T110

2

Q4(2/2)
IMB2-T110

P25

6
3
5
4
4

P10

Q5(2/2)
IMH2-T110

5

R150
100

6

P26
P02

R151
1k
C67
100p

C68
100p

C69
100p

R152
47k

6

R154
10k

P17

5

Q3(2/2)
IMH2-T110

C70
100p

R155
100k

R153
100k

5

4

AT-95 (2/2)
BOARD NO. 1-657-448-21
LOT NO. 508B-¥BVP550AT-95-12

8-9

BVP-550

I

J

K

L

8-9
M

N

O

P

SG-234 (1/2)

SG-234 (1/2)

BVP-550 (SY)

SG-234 BOARD
———————————
SG-234 (1-657-449-21)
———————————
*: B SIDE

*
*
*
*
*
*

5

L1
L2
L4
L5
L6
L7
L8
L9

Q1
* Q2
* Q4
Q5
Q6
* Q7
Q8
* Q9
Q10
* Q11
* Q12
* Q14
Q15
* Q16
Q17
* Q18

4
8

25

16
25

IC25(2/8)
TC74VHC244FS(EL)

5

1

2 202

Q
RD

4
2 203

Q24
DTC144EUA-T106

IC35(8/8)
SN74HCT244APW-E0 5

3
3

7 13

1
5
4

11

9

L7
22µH

Q25
DTC144EUA-T106

Q200
DTC144EUA-T106

Q201
DTC144EUA-T106

7V

201

E-1
F-1
D-1
D-1
C-1
D-1

R68
10k
:RN-C
R67
27k
:RN-C

3
R129
220k

IC201
TC7S04FU(TE85R)
AT,1-13

2

IIC CK

CN1(2/100)

AT,1-14

3

IIC DATA

CN1(3/100)

AT,1-19

1

LD(SG) IN

CN1(1/100)

IC8(2/3)
TC7W04FU(TE12R)

R130
1M

R58
100 3

5

6

2

18
19
2
3
4
5
6
7
8
9
12
13
14

VDDVCC

C48
6.8
16V
:TA-C

8

8

11

10

IC8(3/3)
TC7W04FU(TE12R)

A01

C49
0.1

A02
A03

R59
100

A04
A05

A-2
B-4
F-1
D-3
F-1
D-3
F-2
A-2
F-4
D-3
F-1
F-3
F-4
E-2
E-2
C-2
D-2
D-3
D-4
D-4
C-4
C-3
D-3
D-3
C-3
D-3
D-2
C-3
B-3
D-2
A-3
B-3
A-3
D-1
D-1
D-1
D-1
A-4
B-4
B-4

R60 100

8

1
8

IC8(1/3)
TC7W04FU(TE12R)

A06

7

4

12

R61
270
:RN-C

A07
A08

16

8
R200
1k

1
2
3

V
A0

15
30

5
SDA

21
A1
A2
SCL
VSS CPE

A09

CK

6

D8
RD3.3UH-T1

R131
1M

A10

17
A11

D1

5

A12

15

R201
100k

R144
100k

R202
100k

Q24

D0

LD

4 7

IC30(7/8)
TC74VHC244FS(EL)

C50
4.7
10V
:TA-C

R69
13k
:RN-C

20

1

IC21
X24C02S-3.0-C700 0

R145
100k

Q25

VSSGND

IC12
MB88346BPFV-EF
IC30(8/8)
TC74VHC244FS(EL)

IC18
M51958A-T1

L8
22µH

84
83

3.1V
3.1V

CN1(84/100)
CN1(83/100)

20

R78
1k

C85
0.1

19

7
17

3

30

VCC

2

1

6

18
5

10

CD
GND

4
C56
0.22

C57
22
10V
:TA-C
C81
330
6.3V
:AL

C58
0.1

C82
0.1

C62
0.1

96
95

D GND
D GND

R70

R71
0

NC

NC

CLK

NC

PSW0

PSW1

D19

PSW2

6 30 13 14 15 16 17 18 20 21 44 38 37 42

D07

D17

D06

D16

16

D15

D05

D03

D12

D02

D11

D01

R77
0

N/P

D04

D13

INIT

D14

D10

26
27
28
29
31
32
33
34
35
36

D09
D08

D18

OEN

11
10
9
8
7
5
4
3
2
1

A-1
A-1
B-1
B-4
C-4
F-1
B-2
B-2

R80
100

C61

D00

19 43 39 41 22 23 24 45 46 47 48 25 12 40

CN1(96/100)

R79
10k
:RN-C

IC16
CXK1203AR-T4

CN1(95/100)

L9 4.8V-2
22µH

RB5(1/3)

DA,1-48

3

CN1(57/100)

57

36MHz OUT

4

5
4

MB,6-109(BVP-550)
MB,10-109(BVP-500)

61

DA,1-47
MB,10-110(BVP-500)/MB,6-110(BVP-550)
MB,6-5(BVP-500)/MB,14-13(BVP-550)

58
62
11

MB,IC4-2(BVP-550)

C83
0.1

36MHz(G) OUT
36MHz(G) IN
18MHz(G) OUT

D3
HSM88AS-TL

CN1(11/100)

IC45
TC7SH04FU-TE85R

6

5

18MHz(X) OUT

MB,10-108(BVP-500)/MB,6-108(BVP-550)
AT,1-56/DA,1-45
IF,1-33

60
56

18MHz(G) IN
18MHz(G) OUT

C93
0.1

R98
:RN-C

VCO CONT OUT
VCO CONT(G)

R99
33k
:RN-C

R101
1k
:RN-C

30

11
5

33

9

4

2

1

8

2

32

45

C78
0.1

CN1(60/100)

2

15
1

10

14

IC32(1/4)
TL064CPW-E05

CN1(66/100)

D

IC33(1/3)
TC74HC4053AFS-EL

11

R92
47

8-10

C72
15
6.3V
:TA-C

10

IC32(2/4)
TL064CPW-E05

CN1(56/100)

CN1(68/100)

68
66

R100
1k
:RN-C

C73
0.01

IC33(3/3)
TC74HC4053AFS-EL

MB,16-6(BVP-500)/MB,23-6(BVP-550)

5

R96
10k
:RN-C

R146
0

3

MB,16-5(BVP-500)/MB,23-5(BVP-550)

3

8 9 7

R147

IC30(6/8)
TC74VHC244FS(EL)

R90
47

CN1(55/100)

55

16
33
4
6

-4.8V 10k

18MHz(X) OUT

AT,1-55/DA,1-46
IF,1-34

3
32 2
11

18MHz(X) IN
CN1(12/100)

12

R97
10k
:RN-C

4

1

CN1(62/100)

CN1(59/100)

59

7V

R95
1k

C65
0.1

R122
1k

CN1(58/100)

9

C

C64
33
16V
:TA-C

CN1(61/100)

RB5(3/3)

B

IC32(3/4)
TL064CPW-E05
D10
HSM88AS-TL

R121
1M

36MHz IN

RB5(2/3)

MB,6-107(BVP-550)
MB,10-107(BVP-500)

IC31
2 TC7SH04FU-TE85R

31

3

A-2
A-2
B-2
A-4
A-4
B-4
A-4
A-4
C-4
A-4
C-3
C-3
C-4
A-3
A-3
C-4

A

200

6

18

6

5

1

6
35

2

C47
0.1

R62
100k

9
Q

NC

4

*
*
*
*
*
*

D

200
Q

SD

12
11

14

4

3

4

NC

*

5
Q

RD

2

RB1
RB2
RB3
RB4
RB5
RB10

SD
D

7

IC25(1/8)
TC74VHC244FS(EL)

8 1
11 2

14

11

PSW3

*

2
3

4

IC35(1/8)
SN74HCT244APW-E0 5

R65
220k

NC

*

R128
1k

R66
100k

PSW4

*
*

CN1(21/100)

3

NC

*

V RESET 2 IN

5
6 11

9

PSW5

*

21

4

14

5 1
20 2

16
13

12
13

8 10

R63
1k

PSB0

3

AT,1-23

10

4

13

5
3

2
1

15

C46
1

R149
0

R64
220k

D7
1SS301-TE85L

4.8V-2
R57
100k

7
13

IC11(2/2)
TC7W08FU(TE12R)

PSB1

*
*
*

CN1(19/100)

IC13(1/3)
TC74HC4053AFS-EL

PSB2

*

V RESET 1/CF OUT

IC202
IC203
TC7S32FU(TE85R) TC7S08FU(TE85R)

VSS

*

IC3
IC5
IC8
IC11
IC12
IC13
IC16
IC17
IC18
IC20
IC21
IC22
IC24
IC25
IC30
IC31
IC32
IC33
IC34
IC35
IC36
IC37
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48
IC200
IC201
IC202
IC203
IC204
IC206
IC207

C-2

19

IC200(1/2)
IC200(2/2)
TC74VHC74FS(EL) TC74VHC74FS(EL)

R127
1k

PSW6

FL1

IC11(1/2)
IC13(2/3)
TC74HC4053AFS-EL TC7W08FU(TE12R)
IC13(3/3)
IC20
TC74HC4053AFS-EL
TC7S08FU(TE85R)

SCLK

*
*

MB,12-16(BVP-550)
MB,18-B6(BVP-500)

R56
1k

VSS

*

2

A-2
A-2
E-2
A-1
B-3
B-4
D-3
F-1
C-2
C-3
A-3
D-1
A-3
B-4
E-3

D-4
A-3
B-3
G-4
F-1
F-1
D-3
E-1
F-2
A-4
A-4
B-4
A-3

CN1(36/100)

PSW7

*

D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D12
D13
D14
D200
D201

* Q20
* Q21
Q22
Q23
* Q24
* Q25
Q26
* Q200
* Q201
Q202
Q203
Q204
* Q205

N/P OUT

AEN

*

C-1

36

VDD

*

CN1

MB,6-106/IF,1-48(BVP-550)
MB,10-106/IF,870-48(BVP-500)
DA,1-41(BVP-550/500)

VDD

1

32

13
12

13
14
12
C84

33

IC33(2/3)
TC74HC4053AFS-EL

8-10

BVP-550

E

F

G

H

SG-234 (1/2)

SG-234 (1/2)

V RESET 2
N/P
H CONT
+4.8V
GND
OLD/NEW CA
VR DET
-4.8V
CABLE COMP
EXT SYNC
GENLOCK OFF
TRAP
EXT SC

1
2
3
4
5
6
7
8
9
10
11
12
13

1

2/2

2
IC35(2/8)
SN74HCT244APW-E0 5
Q20
DTC144EUA-T106

RB10

5
3
1
8

6
4
2
7

R124
100k

CN1(34/100)
CN1(32/100)
CN1(30/100)

TD1
TD0
TCK

34
32
30

DL SYNC OUT

23

DA,1-6(BVP-550/500)
IF,1-12(BVP-550)/MB,5-12(BVP-500)

DL BLKG OUT

25

DA,1-8(BVP-550/500)
IF,1-14(BVP-550)/MB,5-14(BVP-500)

CF OUT

7

MB,14-15(BVP-550)/MB,6-5(BVP-500)

VD OUT

9

MB,14-17(BVP-550)/MB,6-2(BVP-500)

HD OUT

6

MB,12-22(BVP-550)/MB,6-1(BVP-500)

16 35 4
Q20

IC25(5/8)
TC74VHC244FS(EL)
Q23
DTC144EUA-T106

IC42(1/8)
SN74HCT244APW-E0 5
IC25(4/8)
TC74VHC244FS(EL)

RB1(1/2)

2

IC42(2/8)
SN74HCT244APW-E0 5

4

IC30(1/8)
TC74VHC244FS(EL)
IC30(2/8)
TC74VHC244FS(EL)

D201
HSM88AS-TL
C52
C51
10
22
10V
10V
:TA-C :TA-C

R150
0

CLK SEL 1

VDD

20

HD
VD
SYNC

MODE SEL 1

BF

MODE SEL 1

BLKG

2
4
6
8
2
4
6
8

4
11
5
6
7

Q23

R123
10k
:RN-C

LALT

39
49
35

18M OUT

9
8

R81
100

SYNC2

H COM OUT 2

SAMPLE

COM OUT 1

FLD

COM OUT 2

CF

13
13

INT/EXT

ASET

TGC OUT

SDA

TST OUT

TST 7

TST 6

TST 5

TST 4

TST 3

TST 1

TST 2

INT SC IN

H PHASE3

H PHASE2

H PHASE1

H PHASE0

VBL WIDTH1

VBL WIDTH0

CLR

HBL WIDTH3

ACK

HBL WIDTH2

SCL

HBL WIDTH1

EXT SC IN

HBL WIDTH0

C60
0.1

27M IN

VSS

IC22
TC7SH04FU-TE85R

R84
100

36M IN

VSS

3

58
52
57
55
53

IC35(3/8)
SN74HCT244APW-E0 5
2

IC25(3/8)
TC74VHC244FS(EL)

18

26 27 28 29

32 33

64 65 66 67

14

3

C97
2.2
16V
:TA-C

20
17

8
35

35

1

CxRx
Q

R102
100k
:RN-C

10
5
15
35
7

13

3
6

1

35

4
5

5

Cx

CN1(41/100)
CN1(42/100)
CN1(43/100)
CN1(44/100)
CN1(45/100)
CN1(46/100)

42

2

IC39
TC7S86FU(TE85R)

36
7

CN1(10/100)

SAMPLE 1 OUT

10

MB,14-19(BVP-550)/MB,6-4(BVP-500)

4

3

CN1(18/100)

SAMPLE 3 OUT

18

VA,1-9

2

1

CN1(17/100)

SAMPLE 2 OUT

17

IF,1-4(BVP-550)/IF,870-4(BVP-500)
DA,1-4(BVP-550/500)

IC25(8/8)
TC74VHC244FS(EL)

R104
1k
:RN-C

5

SD

1
2

Q

39
3

4

2

1

C70
0.01

4

4

32

7

C71
1
35V
:TA

RD

R108
2.2k
:RN-C

R107
5.6k
:RN-C

C67
0.1

IC34(2/2)
TC4W66FU(TE12R)

IC37(2/2)
TC7W08FU(TE12R)

VD OUT

50

AT,1-44 / DA,1-43(BVP-550/500)
IF,1-39(BVP-550)/IF,870-39(BVP-500)

CN1(78/100)

R109
47k
:RN-C

CN1(35/100)

R148
100k

SC CONT OUT

INT/ EXT

OUT

78

MB,6-114(BVP-550)/MB,10-114(BVP-500)

35

MB,6-105(BVP-550)/MB,10-105(BVP-500)

R113
1M
FL1
R125

5

15

17

IC37(1/2)
TC7W08FU(TE12R)

CN1(50/100)

R114
47

2 5 4

-4.8V

IC36(1/2)
TC74HC4538AFS-EL

AT,1-43 / DA,1-44(BVP-550/500)
IF,1-40(BVP-550)/IF,870-40(BVP-500)

R112
47

1

52
43 1

C74
0.1

4

2

Q26
DTC144EUA-T106

42

3

C76
10
10V

IC42(7/8)
SN74HCT244APW-E0 5

3
C77
0.1

1

6
5
FG

IC35(6/8)
SN74HCT244APW-E0 5

49

3

4

IC35(4/8)
SN74HCT244APW-E0 5

HD OUT

12

42

IC34(1/2)
TC4W66FU(TE12R)

CN1(49/100)

R111
47

19

8
41

7
6

6
C69
0.1

MB,14-20(BVP-550)/MB,6-6(BVP-500)

1
5

R105
10k
:RN-C

4

R110
47

14

42

6

3

BLKG

10

R106
5.6k
:RN-C

40
3

CN1(4/100)

IC42(3/8)
SN74HCT244APW-E0 5
IC41
IC42(4/8)
TC4W53FU(TE12R) SN74HCT244APW-E0 5

IC32(4/4)
TL064CPW-E05

8 3 16

4

MB,6-51(BVP-550)/MB,10-51(BVP-500)
MB,6-53(BVP-550)/MB,10-53(BVP-500)
MB,6-55(BVP-550)/MB,10-55(BVP-500)
MB,6-57(BVP-550)/MB,10-57(BVP-500)
MB,6-59(BVP-550)/MB,10-59(BVP-500)
MB,6-61(BVP-550)/MB,10-61(BVP-500)
MB,6-63(BVP-550)/MB,10-63(BVP-500)
MB,6-65(BVP-550)/MB,10-65(BVP-500)
MB,6-67(BVP-550)/MB,10-67(BVP-500)

19

IC40
TC7S66FU(TE85R)

RD

8
6
3
5 37

MB,14-18(BVP-550)/MB,6-8(BVP-500)

R86
47

25

IC25(7/8)
TC74VHC244FS(EL)

5

38
Q

6

8
39
40
41
42
43
44
45
46
47

R134
47

9

11

25

8

D

1

SYNC OUT
NRW BLKG OUT
HD OUT
VD OUT
SYNC OUT
BF OUT
BLKG OUT
FLD 1 OUT
LALT OUT
2FH OUT

RB1(2/2)

42

8

7

3

4
3

17

5

2
CxRx
Q

CN1(39/100)

20

13

1

CN1(8/100)

CN1(40/100)

42

Q

34

11

10

7
1
2 37

5

30

6

10
9

6

12

6

15

IC38
TC7W74FU(TE12R)

36
RD

CN1(6/100)

1

5 4
Q

C68
4.7
10V
:TA-C

C66
0.1

1

IC42(5/8)
7 SN74HCT244APW-E0 5
IC42(6/8)
9 SN74HCT244APW-E0 5

14

15
12
11

2

14
30

RB2

7V

Cx

D11
1SS302-TE85L

34

CN1(9/100)

IC30(5/8)
TC74VHC244FS(EL)

7

C63
0.01

19

7 8
2

12

7

30

R103
47k
:RN-C

C96
0.1

8

16
30

25

18 19 36 43 48 56 60 76

IC36(2/2)
TC74HC4538AFS-EL

CN1(7/100)

SC COM

IC25(6/8)
TC74VHC244FS(EL)
IC35(7/8)
SN74HCT244APW-E0 5

3

C59
0.1

20

35

25

10 30 51 54 71

4

18
30

R85
47

15
16
17
12
14

NRWBLKG

34
50
25
23
24
22
42

VSS

4

CN1(25/100)

RB4

D1/PRE BLKG

H COM OUT 1

VSS

5
22

7

R133
0

13

VSS

2

CN1(23/100)

8

CN1(47/100)

2FH

27M OUT
36M OUT

5

16
42

1
3
5
7
1
3
5
7

24
62
63
44
45

8

6

RB3

D CONT

VDD

VDD

VDD

VDD

VDD

VDD

VDD

HR SEL

VR SEL

1 21 31 40 41 61 70 80

H RST IN

CLK SEL 0

V RST IN

EXT SYNC IN

77 78 79 3 2
LALT RST IN

D HD OUT

69 68
INT HD IN

72 73 74 75
TCK

59
37
38
46
47

6

IC30(4/8)
TC74VHC244FS(EL)

8
TD0

7

4

IC30(3/8)
TC74VHC244FS(EL)

12

R83
0

R82

25

IC24
CXD8858R

C53
0.1

N/P OUT

25

C99
0.1

TD1

13

C98
0.1

C54
0.1

R132
47k
:RN-C

2

18
42

C79
4p

R115
1k
:RN-C

FG

11

GND

9

8

10
3
12

R116
47

5

C75
0.1
CN1(76/100)

SC(X) IN

76

MB,6-112(BVP-550)/MB,10-112(BVP-500)

CN1(75/100)

SC(G) IN

75

MB,6-111(BVP-550)/MB,10-111(BVP-500)

7

IC43
TC7S00FU(TE85R)

IC42(8/8)
SN74HCT244APW-E0 5

IC35(5/8)
SN74HCT244APW-E0 5

SG-234 (1/2)
BOARD NO. 1-657-449-21
LOT NO. 508B-¥BVP550SG234-12

8-11

BVP-550

I

J

K

L

8-11
M

N

O

P

SG-234 (2/2)

1

SG-234 (2/2)

BVP-550 (SY)

94
93

7.3V
7.3V

Q1
2SB624-T1BV3

CN1(94/100)

IC3(1/4)
TL064CPW-E05
7V

L1
0.47µH

CN1(93/100)

C1
R9
1
36k
35V
:TA-C :RN-C
R10
20k
:RN-C

R3
0

Q1

4

5
6

7
3
D1
RD4.3UH-T1

CN1(13/100)
C3
4.7
20V
:TA-C

C2
10
20V
:TA-C

C4
0.1

R11
0

C5
0.1

C6
22
20V
:TA-C

CN1(14/100)

C7
0.1

CN1(15/100)
CN1(16/100)

5.1V
5.1V

92
91

CN1(92/100)

Q2
2SB624-T1BV3

L2
0.47µH

CN1(91/100)

CN1(20/100)

IC3(2/4)
TL064CPW-E05

CN1(24/100)

Q2

2

12

14
3

13

D2
RD4.3UH-T1

2.5 REF

100
99
98
97

GND
GND
GND
GND

C9
6.8
16V
:TA-C

CN1(89/100)

C12
0.1

-2.8V
-2.8V

CN1(28/100)
CN1(29/100)
C13
33
16V
:TA-C

R8
22k
:RN-C

CN1(33/100)

C14
0.1

CN1(37/100)

C15
0.1
25V
F

IC206(1/2)
TL062CPW-ELL2000

IC206(2/2)
TL062CPW-ELL2000

Q204
IC207
DTC144EUA-T106 TC7S02FU(TE85R)

1
CN1(97/100)

CN1(85/100)

3

CN1(52/100)

4.8V

D200
1SS302-TE85L

CN1(98/100)

5
6

A VD IN
A HD IN

37
38

GEN VIDEO(G) OUT
GND
GND

52
53
54

GEN VIDEO(X) OUT

51

CN1(48/100)

CN1(99/100)

CN1(86/100)

CN1(38/100)

4.8V
CN1(53/100)

3
2

7V

2
3

R208
100k
R206
100k

R211
100k

1

C200
0.1

IC3(3/4)
TL064CPW-E05

IC48(2/2)
TL062CPW-ELL2000
86
85

CN1(27/100)

CN1(31/100)
C11
0.1

R1
10k
:RN-C

R137
220k
:RN-C

CN1(100/100)

C10
6.8
16V
:TA-C

CN1(26/100)

C8
R6
1
240
35V :RN-C
:TA-C
R7
20k
:RN-C

R2
0

R136
220k
:RN-C

89

CN1(22/100)

4.8V

5
6

R209
10k

R207
4.7k

1

CN1(54/100)

5
4

IF,870-35(BVP-500)

CN1(63/100)

2

8 7

CN1(64/100)

3

CN1(65/100)

4

CN1(67/100)
CN1(69/100)

R210
100k

C201
0.1

7

CN1(70/100)

Q4
2SD596-T1DV3

-4.8V

IC3(4/4)
TL064CPW-E05

CN1(71/100)
CN1(72/100)
CN1(73/100)

9.3V

90

CN1(90/100)
CN1(74/100)

R15
0

C23
0.1

CN1(77/100)
C25
6.8
16V
:TA-C

C24
6.8
16V
:TA-C

C26
0.1

8
3
D4
RD4.3UH-T1

-5.1V
-5.1V

88
87

3

CN1(88/100)

10

C28
C27
R17
6.8
1
15k
16V
35V
:TA-C :RN-C :TA-C

11

L4
0.47µH

CN1(87/100)

Q6
Q5
2SC4178-T1F14 2SA1611-T1M7M
Q8
Q9
2SC4178-T1F14
2SC4177-T1L7

-4.8V

R25
6.8k

D14
HSM88AS-TL
R152
47k

MB,11-30(BVP-550)
MB,18-B15(BVP-500)

79

GEN(G)/H CONT IN

R18
100k

H CONT IN

R118
100k

Q16
2SK852-T1X2

2
3

8
4

1

7
6

47

4
1

8
4

2 5 3

C80
470p

R153
47k

C100
0.1

1

8
46

7
2 5 3

100k

2 5 3

7
6

C34
0.0022

GENLOCK(X) IN

D13
HSM88AS-TL

R24
3.3k
:RN-C

R22
1k

8
4
1

C87 22p

6
7

17

1/2

R28
3.9k
:RN-C

8 5

R30
10k
:RN-C

204
3 4

Q22
C45
6.8
6.3V
:TA-C

Q17
2SC4177-T1L7

Q14
2SC4177-T1L7
R47
10k
:RN-C

Q18(2/2)
IMH2-T110

R49
100

Q7
2SC4177-T1L7

IC5
EL4581CS-TE2

C31
0.1

R143

D5
1SS302-TE85L

R53

Q7

1
2

Q12
Q11

R142

R38
10k
:RN-C

R51
1k
:RN-C

Q10

C32
10p

C35
10
10V
:TA-C

C36
0.1

R46
2.2k
:RN-C

L5
22µH

D6
1SS301-TE85L

8
VCC

2

C38
33p

C37
0.1

IN

Q18
C40
33p
C39
0.1

R37
3.9k
:RN-C

R36
R35
47k 3.3k
:RN-C :RN-C

L6
22µH

R39
68k
:RN-C Q15

1

Q14

C41
47p

6

C33
0.1

5
7

2

4 Q18
5

-4.8V

R140
150k

Q17

Q12
XN6435-TW
R44
R43
100k 820
:RN-C :RN-C

R41
10k
:RN-C

R34
22k
:RN-C

R141
7500

5 2

Q22
DTC144EUA-T106

4

C94
0.1

R139
1600

C88 100p

R27
2.2k
:RN-C

1
2
3
4
5
6
7
8
9
10
11
12
13

Q11
Q18(1/2)
Q15
Q10
C90
2SC4177-T1L7 IMH2-T110 2SC4178-T1F14 2SC4178-T1F14 0.1 C91

4.8V

7
6

IC17
TC4W53FU(TE12R)

Q21

Q202
2SA812-T1M7
C95
1.5
20V
:TA-C

Q6

R120

CN1(80/100)

IC204
TC4W53FU(TE12R)

C30
4.7
10V
:TA-C

C86

C89 47p

S

80

CN1(82/100)

Q8
R23
47

3
MB,11-29(BVP-550)
MB,18-A15(BVP-500)

R29
12k
:RN-C

Q9

R21
1k
:RN-C

R119
100k

4
1

44

Q5

R26
2.2k
:RN-C

S

Q16
6

R138
1k
CN1(5/100)

Q21
2SK852-T1X2 R135

IC46
TC4W53FU(TE12R)

8

R117
10k
:RN-C
R151
47k

5

IC44
TC4W53FU(TE12R)

CN1(79/100)
D12
HSM88AS-TL

MB,12-19(BVP-550)
TR,1-81,82(BVP-500)

R154
47k

CN1(81/100)

Q203
DTC144EUA-T106

R204
10k

C29
0.1

R5
0

Q4

IC48(1/2)
IC47
TL062CPW-ELL2000 TC4W53FU(TE12R)

R205
100k

R16
22k
:RN-C

9

C92
0.1

1
3
5

6 4
3
R40
56k
:RN-C

R45
2.2k
:RN-C

R42
3.3k
:RN-C

R31
10k
:RN-C

C42
0.1

R48
15k
:RN-C

R50
470

C43
68p

R52
3.9k
:RN-C

C44

R54
680k

R126
10

R33
R32
15k 4.7k
:RN-C :RN-C

R55
3.9k
:RN-C

RESET GND

CN1(51/100)

R203
4.7k

IF,1-36(BVP-550)
IF,870-36(BVP-500)

Q205
2SC4177-T1L7

V RESET 2
N/P
H CONT
+4.8V
GND
OLD/NEW CA
VR DET
-4.8V
CABLE COMP
EXT SYNC
GENLOCK OFF
TRAP
EXT SC

SG-234 (2/2)
BOARD NO. 1-657-449-21
LOT NO. 508B-¥BVP550-SG234-12

5

8-12
A

B

C

D

8-12

BVP-550

E

F

G

H

1

2

3

4

5

8-13

BVP-550

I

J

K

L

8-13
M

N

O

P

DA-88 (1/2)

DA-88 (1/2)

BVP-550 (SY)

DA-88 BOARD

3

*
*
*
*
*
*
*
*
*

*
*
*
*

4

*
*

*
*
*

*

5
*
*
*
*

FL1
FL2
FL3
FL4
FL5
FL6
FL7
FL8

A-4
A-3
B-3
B-2
C-2
D-3
E-3
F-3

IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC23
IC24
IC25
IC26
IC27
IC28
IC29
IC34
IC35
IC36
IC37
IC100
IC101
IC102
IC103
IC104
IC105
IC106
IC107
IC108
IC109
IC110

A-1
B-1
A-2
D-1
E-1
E-1
D-2
D-1
E-2
E-1
F-1
F-1
E-2
F-2
B-3
B-4
B-4
C-4
G-2
C-2
C-3
D-4
C-3
C-4
E-3
F-4
C-4
D-1
E-1
F-2
C-3
F-2
C-3
C-3
G-2
G-2
G-2
G-2
E-2
E-2
G-2
E-2

JR1
JR2
JR3
JR4

B-4
A-4
C-2
B-3

L1
L2
L3
L4
L5

A-1
A-2
A-1
A-2
B-1

CN1(42/100)
CN1(40/100)
CN1(39/100)
CN1(38/100)
CN1(37/100)
CN1(36/100)
CN1(35/100)
CN1(34/100)
CN1(33/100)
CN1(32/100)

DLY6
DLY5
DLY4
DLY3

11
10
9
8
7
5
4
3
2
1

Y9
Y8
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

CN1(31/100)

4

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

26
27
28
29
31
32
33
34
35
36

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2
YB1
YB0

YB0
R33
100k

R34
100k

62
RB1

27
26

CN1(30/100)
CN1(29/100)
CN1(28/100)
CN1(27/100)
CN1(26/100)
CN1(25/100)
CN1(24/100)
CN1(23/100)
CN1(22/100)
CN1(21/100)

RY0
RY1
RY2
RY3
RY4
RY5
RY6
RY7
RY8
RY9

RY9
RY8
RY7
RY6
RY5
RY4
RY3
RY2
RY1
RY0

11
10
9
8
7
5
4
3
2
1

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

CN1(20/100)

RYB0

RYB1

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
5

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

26
27
28
29
31
32
33
34
35
36

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
RYB1
RYB0

B9

VGB

B8

ROB

23
22

B6

VGG

B5

ROG

B3

VGR

B2

ROR

B1
B0

BO

G9

BO

18

17

44
43

C37
0.1

9 2 8 3 7 4 6 5
R37
100k

RB3

R38
100k

1

19
18
17
16
15
14
13
12
11
10
9

B-Y(L)
B-Y(1)
B-Y(2)
B-Y(3)
B-Y(4)
B-Y(5)
B-Y(6)
B-Y(7)
B-Y(8)
B-Y(M)
B-Y(G)

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

CN1(19/100)
CN1(18/100)
CN1(17/100)
CN1(16/100)
CN1(15/100)
CN1(14/100)
CN1(13/100)
CN1(12/100)
CN1(11/100)
CN1(10/100)

BY0
BY1
BY2
BY3
BY4
BY5
BY6
BY7
BY8
BY9

11
10
9
8
7
5
4
3
2
1

BY9
BY8
BY7
BY6
BY5
BY4
BY3
BY2
BY1
BY0

CN1(9/100)

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

S

7

23

5
6

C97
0.1

R162
47

C103
1
25V
:TA-CA

R161
3.6k

C96
0.1

L19
0.47µH

R40
220
:RN-C

54
GO

C101 C102
1
1
25V
25V
:TA-CA :TA-CA

R166
4.7k
:RN-C

R171
100k

C40
15
16V

R39
C39
220
58 :RN-C 0.01

C214
0.1

G4

C99
6.8
16V

C98
0.1

Q67
Q117
Q68
Q69
Q70
Q71
Q72
IC27(1/4)
2SC4178-F13F14-T
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5
1

L20
0.47µH

RO

51

8
7

C117
*

FG

R5

R51
R48
R45
R44
33k
33k
3.3k 33k
42 :RN-C :RN-C :RN-C :RN-C

R53
39k
:RN-C

Y

41

R50
39k
:RN-C

R-Y

40

R47
39k
:RN-C

VRB

R4
R3

1
VRG

R2

64
R1
63
33
32

R0

VRR

BCK

CE

C123
2p

R222
100

FG

S

37
IRR

R220
3.6k

R215
5.6k
:RN-C

16
15

R7
R6

R219
3k
:RN-C

D14
1SS302-TE85L

1 2 3 4 5 6 7 8 9
17

R43
3.3k
:RN-C

38
IRG

R8

R214 R370
2.4k
0
C118 :RN-C :RN-C
0.1

FL7
R42
3.3k
:RN-C

R9

6
5
4
3
2

R209
1.8k
:RN-C

R208
0

RO

G1

R217
3.6k

R213
4.7k

R41
220
:RN-C

50

7
G3

14 13

12 11

10

R218
2.2k
:RN-C

4
1

C120
0.1
R211
3.6k

B-Y

30

C220
0.1

L21
0.47µH

27

R223
100k

3
2
C126
1
25V
:TA-CA

11

R212
47

R210
220
:RN-C

GCK

C124
C125
1
1
25V
25V
:TA-CA :TA-CA

R216
4.7k
:RN-C

BLK

RCK
DVSS

AVSS
AVSS

VB

R52
R49
R46
22k
22k
22k
:RN-C :RN-C :RN-C

49

36

35

Q85
Q86
Q87
Q88
Q89
Q90
Q91
IC27(3/4)
2SC4178-F13F14-T
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5
1

L22
0.47µH

R327
1k

5
2
34

R54
10

C223
10p

C35
0.1

R266
3.6k

R262
4.7k

C42
0.1

C140
0.1

C43
0.1

R268
3k
:RN-C

R269
3.6k

R263 R373
2.4k
0
:RN-C :RN-C
C145
2p

R258
1.8k
:RN-C

6 30 13 14 15 16 17 18 20 21 44 38 37 42

6

C127
1
25V
:TA-CA

C122
6.8
16V

C121
0.1

C119
0.1

R221
100k

29

31

34

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

C104
1
25V
:TA-CA

55

C41
0.1

MB,10-15(BVP-500)/MB,6-15(BVP-550)
MB,10-14(BVP-500)/MB,6-14(BVP-550)
MB,10-13(BVP-500)/MB,6-13(BVP-550)
MB,10-12(BVP-500)/MB,6-12(BVP-550)
MB,10-11(BVP-500)/MB,6-11(BVP-550)
MB,10-10(BVP-500)/MB,6-10(BVP-550)
MB,10-9(BVP-500)/MB,6-9(BVP-550)
MB,10-8(BVP-500)/MB,6-8(BVP-550)
MB,10-7(BVP-500)/MB,6-7(BVP-550)
MB,10-6(BVP-500)/MB,6-6(BVP-550)
MB,10-5(BVP-500)/MB,6-5(BVP-550)

R168
2.2k
:RN-C

10

GO

G5

IC34
TC7SH04FU-TE85R

3

IC6
CXK1203AR-T4

R172
100

D10
1SS302-TE85L

11

G0

C34
10
10V
:TA-CB

C33
0.01

12 11

R160
220
:RN-C

G6

10
9

19 43 39 41 22 23 24 45 46 47 48 25 12 40

FG
14 13

C38
0.1

G8
G7

C230
3p

R165
5.6k
:RN-C

16
15

G2

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2
BYB1
BYB0

1 2 3 4 5 6 7 8 9

59

17
16
15
14
13
12
11

R336
30k

FG

R170
3.6k

4
46
45

B4

21
20
19

R158
0
:RN-C

Q53
IC23(1/4)
Q54
2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5

R169
3k
:RN-C

C100
2p

C95
0.1

FL6

3

39

C31
0.1

4

48
47

R167
3.6k
R164
150 R367
1/16W 2.2k
:RN-C :RN-C

R159
1.8k
:RN-C

C94
*

5 1
9 2

C36
0.1

IRB

BYB0

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

BYB1

R-Y(L)
R-Y(1)
R-Y(2)
R-Y(3)
R-Y(4)
R-Y(5)
R-Y(6)
R-Y(7)
R-Y(8)
R-Y(M)
R-Y(G)

R36
100k

1

RB2

6 30 13 14 15 16 17 18 20 21 44 38 37 42

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2

30
29
28
27
26
25
24
23
22
21
20

R35
100k

AVDD AVDD AVDD
AVDD AVDD AVDD

B7

25
24

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
RYB1
RYB0

9 2 8 3 7 4 6 5

4

28

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2
YB1
YB0

DLY2
DLY1
DLY0

IC5
CXK1203AR-T4

52 53 56 57 60 61

DVDD

1

19 43 39 41 22 23 24 45 46 47 48 25 12 40

MB,10-26(BVP-500)/MB,6-26(BVP-550)
MB,10-25(BVP-500)/MB,6-25(BVP-550)
MB,10-24(BVP-500)/MB,6-24(BVP-550)
MB,10-23(BVP-500)/MB,6-23(BVP-550)
MB,10-22(BVP-500)/MB,6-22(BVP-550)
MB,10-21(BVP-500)/MB,6-21(BVP-550)
MB,10-20(BVP-500)/MB,6-20(BVP-550)
MB,10-19(BVP-500)/MB,6-19(BVP-550)
MB,10-18(BVP-500)/MB,6-18(BVP-550)
MB,10-17(BVP-500)/MB,6-17(BVP-550)
MB,10-16(BVP-500)/MB,6-16(BVP-550)

IC9
TC7S00FU(TE85R)

L10
22µH

C30
0.1

26
27
28
29
31
32
33
34
35
36

IC8(2/4)
TC74VHC00FS(EL)

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2
BYB1
BYB0

R257
0

IC8(1/4)
TC74VHC00FS(EL)

C139
*

R271
100

D17
1SS302-TE85L
R264
5.6k
:RN-C

FL8

S

9
10

C44
0.1

8
8

8

IC35(2/2)
TC74HC4538AFS-EL
C84
0.01

R267
2.2k
:RN-C

16
FG
15

2
1 8
R57
220

R196
15k
:RN-C

C81
0.01

17

6

FG

R272
100k

12
14
27 13

R56
1M

R55
*

C222
0.1

1 2 3 4 5 6 7 8 9

14

4
5

11

13 8

7

IC35(1/2)
TC74HC4538AFS-EL

19 43 39 41 22 23 24 45 46 47 48 25 12 40

IC8(3/4)
TC74VHC00FS(EL)
12

1 5
4
2 107

C45
22p

14 13

12 11

C142
0.1

3
R259
220
:RN-C

C46
0.01

IC8(4/4)
TC74VHC00FS(EL)

L23
0.47µH

C148
1
25V
:TA-CA

10

R261
47

C221
0.1

R260
3.6k

C143
0.1

C141
0.1

C146
C147
1
1
25V
25V
:TA-CA :TA-CA

R265
4.7k
:RN-C

R270
100k

C149
1
25V
:TA-CA

C144
6.8
16V
:TA-CB

R197
100k
:RN-C

3
C32
0.1

2

SG,1-57
SG,1-58
SG,1-55
SG,1-56
SG,1-49
SG,1-50
IF,870-15(BVP-500)/IF,1-15(BVP-550)

48
47
46
45
44
43
5

36MHz(X) IN
36MHz(G) IN
18MHz(X) IN
18MHz(G) IN
HD IN
VD IN
SKIN GATE OUT

5
1
4
2 108

5 4
110

3

CN1(47/100)

Cx

6
12
11

35
Q

14
10
CxRx 16
Q

35

7

Q

9

RD

8 13

3

CN1(46/100)
CN1(45/100)

IC10
X24C02S-3.0-C700 0

CN1(44/100)
CN1(43/100)

IC36
TC74HC595AF(EL)

IC13
TC74HC595AF(EL)

R326
1k

IC14
MB88346BPFV-EF

CN1(5/100)

8
1 A0 VDD SDA 5
2 A1 10 SCL 6
7
3 A2
CPE

R365
220k

Q0
Q1
Q2

14 DI
36

4

12 LD

Q3
Q4
Q5

9 DO

CN1(3/100)

Q6

CN1(2/100)

Q7

CN1(1/100)

1 5
4
2 12
2

5

4

15
1
2
3
4
5
6
7

1
3
5
7
1
3
5
7

11

VCC CLR

2
4
6
8
2
4
6
8

DLY0
DLY1
DLY2
DLY3
DLY4
DLY5
DLY6
DLY7

VCC
Q0

11
14

Q1

CK

Q2
DI

13
12
9

LD

Q3
Q4
Q5

DO
Q6
Q7

GND G

15
1
2
3
4
5
6
7

BLK
16:9/4:3
A
B
INH

10
VDD
A01

14

A02

DO

A03

17

A04

DI

A05

16

14

CLK

A06
A07

15

A08

LD

GND G
A09

RB5

8

C47
0.1

16 10
RB4

VCC CLR

11 CK

VSS

IIC DATA
IIC CLK
LD(DA) IN

CxRx
Q

15

RD

16 10

3
2
1

Cx

4
5

3

IC107
TC7SH08FU-TE85R
IC110
IC108
TC7S04FU(TE85R) TC7S00FU(TE85R)

CN1(48/100)

R364
220k

AT,1-14
AT,1-13
AT,1-17

2

1

8

13

13

A10
A11

3

11

A12
GND

3
R332
33k
:RN-C

R366
100k

IC11
TC7S04FU(TE85R)

IC12
TC7S08FU(TE85R)

RB6

Y
R-Y
B-Y
SETUP1
SETUP2
Y-SAMPLE
R-Y SYNC
B-Y SAMPLE
CHAR ON

VSS

20

R331
22k
:RN-C

18
19
2
3
4
5
6
7
8
9
12
13

1

RB7

SETUP HI-Y
SETUP Y

8-14
A

YB1

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2

Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
Y8
Y9

DLY6
DLY5
DLY4
DLY3

B-2
C-1
D-4
E-4
F-4

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

TP1
TP2
TP3
TP4
TP5

Y(L)
Y(1)
Y(2)
Y(3)
Y(4)
Y(5)
Y(6)
Y(7)
Y(8)
Y(M)
Y(G)

IC7
CXD2307R-T4

9 2 8 3 7 4 6 5

Q50
Q51
Q52
2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7

R163
4.7k

6 30 13 14 15 16 17 18 20 21 44 38 37 42

DLY2
DLY1
DLY0

F-4

A-2
A-2
B-2
A-3
A-3
A-3
A-3
A-2
B-3
A-4
B-4
B-4
A-4
A-4
B-4
B-4
B-3
A-2
C-3
B-3
C-4
B-4
B-2
B-1
C-2
B-2
C-2
C-2
C-2
C-2
C-1
F-1
G-1
G-1
D-4
D-3
D-4
D-4
D-4
D-4
D-4
C-4
C-4
D-3
E-3
E-3
E-3
E-3
E-3
E-4
E-4
E-4
C-4
C-4
F-3
F-3
G-3
G-3
G-3
G-3
G-3
F-4
G-4
G-4
A-4
A-4
C-2

42
40
39
38
37
36
35
34
33
32
31

CN1(95/100)

DLY6
DLY5
DLY4
DLY3

E1

* Q1
Q2
Q3
* Q4
* Q7
* Q8
* Q9
* Q10
* Q11
* Q12
* Q13
Q14
Q15
* Q16
Q17
* Q18
* Q19
* Q20
* Q22
Q23
* Q25
* Q26
* Q27
* Q28
* Q29
* Q30
* Q32
* Q33
* Q34
Q43
Q44
* Q45
* Q46
* Q47
* Q48
* Q49
* Q50
* Q51
* Q52
* Q53
* Q54
Q59
Q63
* Q67
* Q68
* Q69
* Q70
* Q71
Q72
* Q73
Q75
Q79
* Q83
* Q84
* Q85
Q86
* Q87
* Q88
* Q89
* Q90
Q91
* Q92
Q94
Q98
* Q100
* Q101
* Q102

D-2
E-2
E-2
F-2
F-1
F-2
F-2

MB,10-38(BVP-500)/MB,6-38(BVP-550)
MB,10-36(BVP-500)/MB,6-36(BVP-550)
MB,10-35(BVP-500)/MB,6-35(BVP-550)
MB,10-34(BVP-500)/MB,6-34(BVP-550)
MB,10-33(BVP-500)/MB,6-33(BVP-550)
MB,10-32(BVP-500)/MB,6-32(BVP-550)
MB,10-31(BVP-500)/MB,6-31(BVP-550)
MB,10-30(BVP-500)/MB,6-30(BVP-550)
MB,10-29(BVP-500)/MB,6-29(BVP-550)
MB,10-28(BVP-500)/MB,6-28(BVP-550)
MB,10-27(BVP-500)/MB,6-27(BVP-550)

CN1(96/100)

D GND
D GND

DLY2
DLY1
DLY0

*
*
*

* RB1
* RB2
* RB3
RB4
RB5
* RB6
* RB7

96
95

C29
0.1

8
6
4
2
8
6
4
2

*

C-2
C-3
G-2
G-1
B-3
C-3
C-3
E-4
E-4
E-4
F-4
G-4
G-4
D-3

C28
10
10V

C27
10
10V

Q48
Q49
2SC4178-F13F14-T
2SA1226-T1E4
1

L18
0.47µH

7
5
3
1
7
5
3
1

2

* Q103
* Q104
Q105
* Q106
* Q107
* Q108
* Q109
* Q110
* Q111
* Q112
* Q113
* Q114
* Q115
Q117

IC4
CXK1203AR-T4

DLY7
DLY6
DLY5
DLY4
DLY3
DLY2
DLY1
DLY0

*

A-2
B-1
B-1
A-4
G-2
F-2
C-1
D-3
G-2
E-4
G-2
E-3
G-2
G-2
G-3
B-3
C-4
G-4
A-3
C-2
G-2

B-2
A-3
A-3
B-1
D-2
F-1
G-1
G-3
A-3
B-3
B-2
B-2
D-4
D-4
E-4
E-4
F-4
G-4
G-1
F-1

L9
22µH

CN1(83/100)

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

*
*
*

D1
D2
D3
D5
D6
D7
D9
D10
D11
D12
D13
D14
D15
D16
D17
D24
D25
D26
D100
D101
D102

L6
L7
L8
L9
L10
L11
L12
L13
L14
L15
L16
L17
L18
L19
* L20
* L21
* L22
L23
L24
L25

CN1(84/100)

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

*
*
*
*
*

C-1

+3.1V
+3.1V

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

CN1

84
83

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

——————————
DA-88 (1-657-450-21)
——————————
*: B SIDE

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

1

B

C

D

8-14

BVP-550

E

F

G

H

DA-88 (1/2)

DA-88 (1/2)

1
TP3
CN1(64/100)

IC102(1/2)
TC7W32FU-TE12L
IC24
TC4W53FU(TE12R)

Q107
2SC2223-T1F14

IC102(2/2)
TC7W32FU-TE12L

IC101
TC7S04FU(TE85R)

CN1(63/100)

Q108
IC25(1/2)
2SC2223-T1F14 TC74HC4052AFS(EL )

IC37(1/2)
TC7W32FU-TE12L

Q22
2SA1226-T1E4
8

16
VCC

14
11
12
15

R184
160
:RN-C

2
5 101 3
4

R185
15
:RN-C

A
B

1 2
102

1

4

7

24
6
2 INH
GND VEE
3
4

C106
0.1

C107
6.8
16V
:TA-CB

2
R190
4.7k

C109
0.1

6

102
3

4

R198
R199
3k
C113
75
:RN-C 1p :RN-C

C218
0.1

5
1
103 2

5
4
109

R201
100
:RN-C

16

R188 R313
2.7k 4.7k
:RN-C

R314
4.7k

R177
6.8k
:RN-C

3

13
23 12

14

R194
2.2k
:RN-C

Q109
2SC2223-T1F14

R178
22k
:RN-C

C215
6.8
16V

IC25(2/2)
TC74HC4052AFS(EL )

R200
100
:RN-C

C114
10p

R195
2.7k

CN1(50/100)

C115
33p

12

R205
2k
:RN-C

51
50

R-Y(G) OUT
R-Y(X) OUT

62
61

MB,11-26(BVP-550)/MD,1-80(BVP-500)
MB,11-24(BVP-550)/MD,1-78(BVP-500)

B-Y(G) OUT
B-Y(X) OUT

60
59

MB,11-26(BVP-550)/MD,1-74(BVP-500)
MB,11-25(BVP-550)/MD,1-76(BVP-500)

IF,1-8(BVP-550)/IF,870-8(BVP-500)
AT,1-27(BVP-550)

7 19 13

13
14

IF,1-7(BVP-550)/IF,870-7(BVP-500)
AT,1-28(BVP-550)

CHAR VF IN
CHAR BACK IN

C219
0.1

R202
100
:RN-C

11

26

R193
3.9k

25

R315
4.7k

D13
1SS302-TE85L

C225
10p

D25
1SS302-TE85L

CN1(51/100)

3

3

R334
1k

7

1
2
4
5

IC23(3/4)
IC19(6/8)
TC74VHC244FS(EL) TL084CPW-E05

5
1
104 2

4

1
2

3

VCC

R187
75
:RN-C

C110
15
16V

C217
6.8
16V

R192
5.6k
:RN-C

R369 R191
180 2.2k
:RN-C :RN-C

6

5

IC104
IC109
IC19(5/8)
TC7S08FU(TE85R) TC74VHC244FS(EL) TC7S00FU(TE85R):NM

IC103(1/2)
TC7S32FU(TE85R)

4

6

R186
51
:RN-C

8
7

IC26(1/3)
TC74HC4053AFS-EL

MB,11-26(BVP-550)
MD,1-82(BVP-500)
MB,11-23(BVP-550)
MD,1-84(BVP-500)

1

GND VEE

8
5
8
VCC

R173
100k

37

5

3
37

INH

IC23(2/4)
TL084CPW-E05

Q63
2SC2223-T1F14

64
63

7

10
9
13

25

Q59
XN6534-TW

Y(G) OUT
Y(X) OUT

9

R207
24k
:RN-C

19

11

8

23

9
10
Y-SAMPLE

6 INH

R135
10k

GND VEE

8

7

R206
47k
:RN-C

C116
*

IC37(2/2)
TC7W32FU-TE12L
C216
0.1

Q111
Q112
IC28(1/2)
2SC2223-T1F14 2SC2223-T1F14 TC74HC4052AFS(EL )

Q110
2SC2223-T1F14

Q75
XN6534-TW

Q73
2SA1226-T1E4

IC27(2/4)
TL084CPW-E05

Q79
2SC2223-T1F14

IC26(2/3)
TC74HC4053AFS-EL

IC105
TC7S32FU(TE85R)

IC19(7/8)
TC74VHC244FS(EL)

IC23(4/4)
TL084CPW-E05

IC29
TC4W53FU(TE12R)

Q83
2SC4177-T1L7

IC106
TC7S08FU(TE85R)

IC19(8/8)
TC74VHC244FS(EL)

2

TP4
CN1(62/100)

R229
4.7k

16
VCC

12
14
15
11

R224
560
:RN-C
R225
1.6k
:RN-C

A
B

CN1(61/100)
R231
180
:RN-C

10
9

R372
2.4k
:RN-C

28
13
INH

8

R317
4.7k

5
4 105

R239 C132
3k
1p
:RN-C

R371
10

6

R232
6.8k
:RN-C

GND VEE

R226 R316
150 4.7k
:RN-C

R240
75
:RN-C
R234
5.6k
:RN-C

R335
1k

7

D15
R242
100 1SS302-TE85L
:RN-C

D12
1SS302-TE85L
C128
0.1

C129
6.8
16V
:TA-CB

R241

7
27

R233
3.9k

R235
2.2k
:RN-C

6 100
5 :RN-C

C226
10p

1
2

R236
2.7k

C133
10p

R318
4.7k

8

R243
100
:RN-C

1

2
3

23

R249
2k
:RN-C

R247
22k
:RN-C

5

51
106 2

R254
12k
:RN-C

7
1
2 INH

R244
100k

C135
*

R250
100
:RN-C

D16
1SS302-TE85L

16 19 4

3
R256
24k
:RN-C

6
C136
10p

26
R136
10k

R253
5.6k

VCC

C134
33p

R248
47k
:RN-C

R246
36k
:RN-C

15

4

14 19 6

10

R227
5.1k
:RN-C
R228
200
:RN-C

1
2

3

C227

29
GND VEE

4

3

R337
1k

R252
2.2k

R255
10k
:RN-C

R251
100
:RN-C
C137
33p

C138
0.01

SETUP2

Q84
2SA1611-T1M7

C172
6.8
16V

R-Y SYNC

TP5
Q113
2SC2223-T1F14

Q114
IC28(2/2)
2SC2223-T1F14 TC74HC4052AFS(EL )

Q92
2SA1226-T1E4

Q94
XN6534-TW

IC27(4/4)
TL084CPW-E05

Q98
2SC2223-T1F14

IC26(3/3)
TC74HC4053AFS-EL
CN1(60/100)

R278
4.7k

1
5
2
4

R273
560
:RN-C

28
3

R280
150
:RN-C

CN1(59/100)

R375
2.4k
:RN-C

R289
75
:RN-C

R374
10
R281
6.8k
:RN-C

R274
1.6k
:RN-C

R288
3k
:RN-C

CN1(49/100)

C154
1p

CN1(53/100)

R275
150
:RN-C

C150
0.1
R320
4.7k

R277
200
:RN-C

R321
4.7k

R322
4.7k

8
R282
3.9k

R284
2.2k
:RN-C

R324
0

9
27 10

R290
100
:RN-C

3

R293
8.2k
:RN-C
R295
47k
:RN-C

4
5

R285
2.7k
C155
10p

Q115
2SC2223-T1F14

R323
0

CN1(54/100)

9

R276
5.1k
:RN-C

49
52
53
54

CN1(52/100)

D26
1SS302-TE85L

C151
6.8
16V
:TA-CB

3

R283
5.6k
:RN-C

R137
10k

B-Y SAMPLE

26
R294
22k
:RN-C

C156
*

C171
6.8
16V

CN1(72/100)

R325
0

CN1(71/100)
CN1(68/100)
CN1(67/100)
CN1(70/100)
CN1(69/100)

Y(G) OUT
Y(X) OUT
B-Y(G) OUT
B-Y(X) OUT
R-Y(G) OUT
R-Y(X) OUT

72
71
68
67
70
69

IF,1-71(BVP-550)/IF,870-71(BVP-500)
IF,1-72(BVP-550)/IF,870-72(BVP-500)
IF,1-67(BVP-550)/IF,870-67(BVP-500)
IF,1-68(BVP-550)/IF,870-68(BVP-500)
IF,1-69(BVP-550)/IF,870-69(BVP-500)
IF,1-70(BVP-550)/IF,870-70(BVP-500)

4

-2.5V
-4.8V
+4.8V
A GND
RESET
16:9/4:3
HI-Y
SAMPL 2
+4.8V-2
DL SYNC
SAMPL 1
GND
DL BLKG
SETUP 1
SETUP ON/OFF
A GND 2

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

2/2

5

DA-88 (1/2)
BOARD NO. 1-657-450-21
LOT NO. 508B-¥BVP550-DA88-12

8-15

BVP-550

I

J

K

L

8-15
M

N

O

P

DA-88 (2/2)

DA-88 (2/2)

BVP-550 (SY)

1

92
91

+5.1V
+5.1V

Q1
2SB624-T1BV3

IC1
REF-03GSR

CN1(92/100)
CN1(91/100)

L1
0.47µH

L2
0.47µH

R1
0
D1
RD4.3UH-T1

90

+9.3V

A
A
A
A

89

GND
GND
GND
GND

2.5V REF OUT

C1
6.8
16V

C2
15
16V

C3
0.1

8

1
2

NC

3
4

TEMP

7

NC

IN

7
6

NC

1

7
VCC
6
RESET
2 VIN
5
3
CD
GND

R7
1k
C7
0.1

R2
100k

L14
0.47µH

R92
22k

Q9
Q10
Q20(2/2) 2SC4178-F13F14-T 2SC4178-F13F14-T
1
1
IMH2-T110

5

4

C8
47p

R3
1k

R73
4.7k
FL2

4

R64
4.7k
:RN-C

5

86
85

-2.8V
-2.8V

CN1(86/100)

76
75

HI-Y(X) IN
HI-Y(G) IN

VF-Y(X) IN
VF-Y(G) IN

8

2

9
10

2
3

1
2

C11
0.1

D3
RD4.3UH-T1

R10
22k

C15
0.1

C14
15
16V

L3
0.47µH

L4
0.47µH

R74
2.4k
:RN-C

7

C48
8p

R65
1k
:RN-C

JR2
0

C18
0.1

2

13
12

C166
10
10V
C20
1
L6
0.47µH 25V

R357
330
R81
100

D5
1SS302-TE85L

R72
47

R75
5.6k
:RN-C
S

15 INH 2
VEE GND
3
4

R68
1k
:RN-C

R78
2.2k
:RN-C

8
1
16

C50
0.1

FG

R58
1k
:RN-C

R27
0

C167
0.1

R82
100k

3
2

C52
0.1

R76
4.7k
:RN-C

C57
1
25V
:TA-CA
C56
1
25V
:TA-CA

C55
1
25V
:TA-CA

R14
20k
:RN-C

8 5
VCC

7

1

4

R70
3.6k

R71
3.6k

C201
0.1

C500
1p

6
C49
2p

C169
6.8
16V

R80
4.7k

R13
0

C19
0.1

L5
0.47µH

R79
3.6k
:RN-C

5 8
VCC
1

FL3

R61
4.7k

IC2(2/4)
TL064CPW-E05

CN1(85/100)

C58
1
25V
:TA-CA

R83
100k

17
2

6

INH
GND VEE
4
3

C69
0.1

C61
10
10V

R62
4.7k

C200
0.1

L15
0.47µH

Q3
IC2(4/4)
2SD596T1-DV345 TL064CPW-E05

Q2
IC2(3/4)
2SD596T1-DV345 TL064CPW-E05

C53
0.1

C51
0.1

C54
6.8
16V

C170
6.8
16V

CN1(76/100)
CN1(75/100)

Q4
2SC4178-F13F14-T
1
CN1(74/100)

Q27
2SC4178-F13F14-T
1

Q8
2SA1611-T1M7
:2125

Q101
Q7
2SC2223-T1F14 2SC4177-T1L7

Q100
XN6534-TW

CN1(78/100)
CN1(77/100)

Q30
Q29
2SC4178-F13F14-T
2SC4178-F13F14-T
1
IC20
1
:2125
TC4W53FU(TE12R)

Q28
2SC4178-F13F14-T
1

L16
0.47µH

CN1(73/100)

Q102
Q103
2SA1226-T1E4 XN6534-TW

R300
7.5k
:RN-C

R15
47

L7
0.47µH
C23
0.1

R20
47

R17
220
:RN-C

R16
1k

C25
6.8
16V

FL1
C203
2p
R22
47

C231
3p

15

14 13

12 11

R301
1.8k
:RN-C

10
R18
R19
220 1.8k
:RN-C :RN-C

FG

10

9 8

11
C70
8p

7

7

FG
R21
3.3k

R302
4.7k
:RN-C
R379
30k

CN1(82/100)

R23
3.6k

R380
30
:RN-C

C24
0.1

R123
3.6k

C76
33
6.3V

R310 R311
2.7k
0
:RN-C :RN-C

R312
3.3k
R129
5.6k

R308
1.8k
:RN-C

R309
3.9k
:RN-C

L17
0.47µH

L8
0.47µH

R112
4.7k

R113
4.7k

C204
0.1

R130
8.2k

R131
4.7k
C82
0.1

C74
0.1

R122
3.6k

C26
10
10V

CN1(81/100)
CN1(80/100)

R118
910
:RN-C

R124
47

INH 2
VEE GND
3 4

C72
0.1

FG

1

6

R119
1k
:RN-C

C207
0.1

5 8
VCC
20

C71
2p

C206
6.8
16V

C205
2p

JR4
0

FL5

R117
4.7k
:RN-C

R24
100

R303 R304
1.5k 200
:RN-C :RN-C

R116
1k
:RN-C
R121
47

R111
47

R128
8.2k
D101
1SS302-TE85L

R306
8.2k

R110
47

R26
33

17
FG

R114
1k
:RN-C

R25
8.2k

D100
1SS302-TE85L

FG

Q32
Q33
Q34
2SA1226-T1E4 2SC2223-T1F14 2SC2223-T1F14

R120
47

1 2 3 4 5 6
12

Q104
2SC2223-T1F14

R307
7.5k
:RN-C

FL4
JR3
0

C21
10p

4

8

FG
14

C17
10
10V

C16
10
10V

R11
22k

C13
1
25V

C12
0.1

1 2 3 4 5 6 7 8 9

1/2

9

R77
3.6k

C229
3p

CN1(87/100)

FG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

10

R67
4.7k
:RN-C

R12
36k
:RN-C

11
D2
RD4.3UH-T1

16

VF-Y(X) OUT
VF-Y(G) OUT

FG

7

R60
47

3

82
81
80
79

11
FG

C9
0.047

R9
0

R305
24k

IF,870-80(BVP-500)/IF,1-80(BVP-550)
IF,870-79(BVP-500)/IF,1-79(BVP-550)

12

R376
30k

R66
47

R69
47

CN1(89/100)

CN1(88/100)

78
77

1 2 3 4 5 6

R63
1k
:RN-C

6

JR1
0

R59
47

CN1(97/100)

Q13
Q14
Q15
Q16
Q17
IC16(1/2)
Q18
IC17
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL082CPS-E05 2SK853-T1K5 TC4W53FU(TE12R)

2
3

CN1(98/100)

-5.1V
-5.1V

Q12
2SC4178-F13F14-T
IC15
1
TC4W53FU(TE12R)

1

R115
4.7k
:RN-C

MB,10-119(BVP-500)/MB,6-119(BVP-550)
MB,10-120(BVP-500)/MB,6-120(BVP-550)

Q11
2SC4178-F13F14-T
1

CN1(99/100)

88
87

C(X) IN
C(G) IN

R5
20k

L13
0.47µH

Q20(1/2)
IMH2-T110

R6
22k

C10
15
16V

74
73

R4
240

C6
15
16V

CN1(100/100)

2

MB,10-115(BVP-500)/MB,6-115(BVP-550)
MB,10-116(BVP-500)/MB,6-116(BVP-550)

2

5
6

IC3
M51958A-T1

OUT

GND TRIM

R8
100

MB,10-117(BVP-500)/MB,6-117(BVP-550)
MB,10-118(BVP-500)/MB,6-118(BVP-550)

C5
1
25V

C4
0.1

4

CN1(90/100)

E1
100
99
98
97

IC2(1/4)
TL064CPW-E05

C75
0.1

C73
0.1

C83
6.8
16V
:TA-CB

C77
6.8
16V
:TA-CB

CN1(79/100)

-2.5V
-4.8V
+4.8V
A GND
RESET
16:9/4:3
HI-Y
SAMPL 2
+4.8V-2
DL SYNC
SAMPL 1
GND
DL BLKG
SETUP 1
SETUP ON/OFF
A GND 2

5

8-16
A

B

C

D

8-16

BVP-550

E

F

G

H

DA-88 (2/2)

DA-88 (2/2)

1

Q19
XN6534-TW

Q23
2SC2223-T1F14

IC16(2/2)
TL082CPS-E05

Q25
Q26
IC18
TC4W53FU(TE12R) 2SC4177-T1L7 2SA1611-T1M7

IC100
IC19(1/8)
TC7S08FU(TE85R) TC74VHC244FS(EL)

IC19(2/8)
TC74VHC244FS(EL)

IC19(3/8)
TC74VHC244FS(EL)

TP1

C202
6.8
16V

CN1(58/100)
CN1(57/100)

R358
150
:RN-C

R87
2.7k
:RN-C

HI-Y(G) OUT
HI-Y(X) OUT

58
57

DL BLKG IN

8

SG,1-25

SAMPLE2 IN

4

SG,1-17

R90
5.6k
:RN-C
R95
3k
:RN-C

R104
*

C64
1p

4

5 1
100 2

R333
1k

D24
1SS302-TE85L

3

R88
22k
:RN-C

18

R100
5.6k
C66
33p

8 5
R89
3.9k

R97
D7
100 1SS302-TE85L
:RN-C

C224

R91
2.2k
:RN-C

R98
100
R84
:RN-C 4.7k
:RN-C

R105
100k

20
2
10

D6
1SS302-TE85L

C68
0.1

3

6
5

16

R96
2k
:RN-C

R101
15k
:RN-C

7
1

R94
4.7k

R103
24k
:RN-C

6
C65
10p

R127
100k

2 INH

17
19

D11
1SS302-TE85L

R85
22k
:RN-C

R174
4.7k
:RN-C

C59
470p

C105 R175
470p 22k
:RN-C

5

18

19

R108
100

15

CN1(4/100)

2

19
R99
2.2k

GND VEE

4

CN1(8/100)

R106
100k

1

VCC

7

R107
100

19

3

R102
10k
:RN-C

C67
0.01

SETUP1
CN1(7/100)

VTR SYNC OUT

7

MB,12-14(BVP-550)/MD,1-58(BVP-500)

CN1(56/100)

C(G) OUT
C(X) OUT

56
55

MB,11-28(BVP-550)
MB,11-27(BVP-550)

CN1(94/100)

+7.5V
+7.5V

93
94

CN1(6/100)

DL SYNC IN

6

SG,1-23

CN1(66/100)

VBS(G) OUT
VBS(X) OUT

66
65

IF,1-65(BVP-550)/IF,870-65(BVP-500)
IF,1-66(BVP-550)/IF,870-66(BVP-500)

41

SG,1-36

TP2
CN1(55/100)

Q43
XN6534-TW

Q44
2SC2223-T1F14

Q45
2SA1611-T1M7

R147
5.6k
:RN-C

R378 R368
1k
68
:RN-C

R155
75
:RN-C

Q46(1/2)
IMH2-T110

Q106
Q46(2/2)
Q47
IC19(4/8)
DTC144EUA-T106 IMH2-T110 2SC4177-T1L7 TC74VHC244FS(EL)

C168
*

Q105
DTC144EUA-T106

12

R93
100k

R143
*
L12
82µH

R153
2.2k
:RN-C

L24
47µH

R156
100k

8
19

D102
R142
4.7k 1SS302-TE85L
1/16W

D9
1SS302-TE85L
R151
2.7k
:RN-C
R145
0
:RN-C

R361
2.4k
:RN-C

R146
220
:RN-C

R362
2.4k
:RN-C

C210
6.8
16V

C87
1p

R157
100

C213
4p

C212
R154
2.2k

C211
0.1

C92
0.1

C93
15
16V

C85
18p

R328
4.7k
1/16W

C91
*

C89
22p

CN1(65/100)
R363
100
R148
3.9k

R149
1.2k
:RN-C

4

R150
2.2k

1
5

C88
33p

6
C208
6.8
16V

CN1(93/100)

L11
22µH

R152
1k

R330
0

2

C90
6p

R329
CN1(41/100)

N/P IN

3
C228
15
16V

C209
0.1

3

L25
22µH

4

DA-88 (2/2)
BOARD NO. 1-657-450-21
LOT NO. 508B-¥BVP550-DA88-12

5

8-17

BVP-550

I

J

K

L

8-17
M

N

O

P

IF-510 (1/2)

IF-510 BOARD

BVP-550 (SY)
IC701(1/2)
LM393PS-E05
Q20
Q10
IC12(1/4)
IC12(2/4)
2SD596T1-DV345 2SB624-T1BV3TL064CPW-E05 TL064CPW-E05

——————————
IF-510 (1-657-453-21)
——————————
*: B SIDE
CN1
*
*
*
*
*
*
*
*
*

2

3

D11
D21
D31
D101
D250
D400
D401
D402
D500

* IC12
* IC101
IC151
* IC152
* IC153
* IC154
IC155
IC200
* IC201
* IC202
* IC206
* IC301
* IC302
IC303
* IC304
IC305
* IC306
* IC307
* IC308
IC309
* IC310
IC322
* IC351
* IC352
IC400
* IC404
IC410
IC420
* IC500
* IC501
* IC502
* IC601
* IC621
* IC641
IC701
IC702
L1
L2
L3
L150
L201
L202
L203
L250
L301
L400
L401
L402
L500
L501
L502
L601
L602
L603
L700

4

C-1

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

A-2
A-2
B-2
D-3
B-3
C-2
C-3
D-3
E-2
A-2
D-4
F-4
F-3
F-3
F-3
G-4
B-4
B-4
A-4
A-3
G-2
F-2
F-2
G-2
F-3
F-1
G-2
G-1
G-1
G-1
F-1
F-2
F-2
C-3
C-4
C-3
D-3
E-1
C-1
D-1
E-3
E-2
E-2
A-3
A-2

*
*
*
*
*
*
*
*
*

*
*
*

Q251
Q271
Q272
Q273
Q352
Q353
Q354
Q401
Q402
Q403
Q404
Q405
Q406
Q410
Q411
Q412
Q413
Q414
Q420
Q421
Q422
Q423
Q424
Q430
Q431
Q500
Q501
Q502
Q503
Q504
Q505
Q506
Q507
Q508
Q509
Q510
Q701
Q702
Q703

4.8V

L1
0.47µH

+5.1V
+5.1V

CN1(92/100)

94
93

+7.3V
+7.3V

CN1(94/100)

89

2.5V REF IN

CN1(89/100)

92
91

B-3
C-4
C-4
C-3
G-3
F-3
G-3
B-2
B-3
C-2
C-3
C-3
B-3
C-2
C-3
C-3
C-3
C-3
D-2
D-3
D-3
D-3
D-3
C-3
C-4
C-2
B-2
B-2
C-2
C-2
C-2
D-2
D-2
D-2
E-2
E-1
A-3
A-3
A-3

AT,1-89/DA,1-89
SG,1-89

A
A
A
A

100
99
98
97

C13
1
10V

C16
0.1
C10
10
16V

CN1(93/100)

C11
15
16V

R8
220k

3
12 2

1

C12
0.1

84
83

+3.1V
+3.1V

R9
220k

CN1(100/100)

R10
10k

5
*
*
*

*

Q1
Q2
Q10
Q20
Q30
Q101
Q102
Q103
Q109
Q110
Q205
Q206
Q207
Q208
Q209
Q210
Q211
Q250

C15
0.1

13
12

12

R721
2k

R722
1k

2
3
C702
0.1

8
701

Q703
Q702
2SB624-T1BV3 2SD1048X7-TB

C704
47
16V

1

C705
47
16V

R710
150
1/10W

C706
10
10V

6
5

1
2

702

C20
15
16V

CN1(97/100)

D21
RD4.3UH-T1 7

6

C21
15
16V

R24
20k

R33
2.4k

5

C24
33
16V

C31
10
10V

C30
10
10V

C25
0.1

D31
RD2.4UH-T1

C32
0.1

8

9
IC12(3/4)
10 TL064CPW-E05

12

C34
33
10V

R34
36k

C701
0.1

4

3

C23
1
10V

C22
0.1

R25
20k

CN1(27/100)

CN1(81/100)
CN1(28/100)

R715
30k

CN1(30/100)

CN1(29/100)
CN1(31/100)

R35
20k

TALLY OUT

27

MB,31-B5

UNREG(G)
VTR RESET OUT
REC TALLY OUT

81
28
30

AT,1-53
AT,1-57

TALLY ON IN
REC TALLY IN

29
31

AT,1-58
MB,12-18

R718
1M

CN1(87/100)

-2.5V
-4.8V

+4.8V
-2.5V
-4.8V

CN1(86/100)

Q102
2SA1226-T1E4

Q101
2SA1226-T1E4

CN1(85/100)

R101
4.7k

RV101:VBS GAIN

R105
510

R100
2.4k

Q109
IC101
2SA1611-T1M7 TC4W53FU(TE12R)

R1
6.8k

R110
6.8k

R104
3k

L

Q101

IC601
CLC505AJE-T

7
6

Q2

C605
22
16V

R601
2k

8
101

3

Q110

H

8
621

6

CN1(57/100)
CN1(58/100)

7

3

C624 R627
100p 75

8
641

6

C644 R647
100p 75

CN1(21/100)

2
4

R605
1k

R603
120

C101
0.1

Q109

7

C641
0.1

2
4

R2
3.3k

C645
22
16V

R641
2k

3

C604 R607
100p 75

6

601

R646
33k

C621
0.1

2

4 5 3

D101
1SS302-TE85L

C625
22
16V

R621
2k

7

L601
1µH

R626
33k

C601
0.1

Q102

CN1(95/100)

IC641
CLC505AJE-T

IC621
CLC505AJE-T

8

1
2

Q1

CN1(96/100)

Q110
2SC4177-T1L7

R606
33k

C104
22
16V

RV101
500

CN1(83/100)

Q2
Q1
2SA1611-T1M7 2SC4177-T1L7

Q103
2SA1226-T1E4

C103
2p

CN1(84/100)

D GND
D GND

96
95

82

R714
150
1/10W

R716
10k

C33
1
10V

Q30
2SD596T1-DV345

UNREG

R712
150
1/10W

Q703

R717
100

L3
0.47µH

90

Q701

C36
0.1

11

CN1(88/100)

R713
150
1/10W

R708
27k

R704
24k

C707
10p
50V
CH

C35
0.1

+9.3V

R711
150
1/10W

R719
10k
R702
10k

CN1(82/100)

R707
33k

5

7

701

CN1(90/100)

R709
150
1/10W

Q702

C703
0.1

+1.1V

IC12(4/4)
TL064CPW-E05

R23
0

CN1(98/100)

CN1(22/100)

4

R625
1k

R623
15

R645
1k

2/2
2/2
2/2

9
8
7

VBS(X)OUT
VBS(G)OUT

57
58

MB,11-21
MB,11-22

RM VBS(X)OUT
RM VBS(G)OUT

21
22

MB,41-16
MB,41-15

TEST(X)OUT
TEST(G)OUT

43
44

MB,15-1
MB,15-2

R643
0

C623
2p

C643
2p

C603
2p

Q103
DA,1-65
DA,1-66

66
65

VBS(X)IN
VBS(G)IN

CN1(66/100)

R102
5.6k

R103
510

R111
3.3k
C105
22
16V

IC151(1/4)
SN74HC08ANS-E05

R151
1M

AT,1-15

IIC CLK

3

IIC DATA

1

LD(IF)IN

IC152(1/2)
TC7W00FU(TE12R)

IC153
TC74HC595AF(EL)

R154
100

CN1(2/100)

R155
100

CN1(3/100)

C152
0.1

7

R156
100

CN1(1/100)

10

C151
15
16V

1 14
3
2 151

8
1
2 152

7

C150
0.1

C153
0.1

R153
100k

VCC

QH
153 Q7
11
CK
Q6
Q5
14
D
Q4
Q3
12
LD
Q2
Q1
13
EN
Q0
GND
8

Q272
2SA1611-T1M7
IC151(3/4)
IC151(4/4)
SN74HC08ANS-E05
SN74HC08ANS-E05
R276
6.8k

R273
3.3k

R200
100

IC151(2/4)
SN74HC08ANS-E05

PR,1-44

7

CHAR VF IN

R201
100

4
6
5 151
R271

R199
1M

5.6k

Q271

CN1(7/100)

80
79

VF-Y(X)IN
VF-Y(G)IN

SDA

A0

SCL

A1
A2

5
6 152

VSS

4

IC201
TC74HC4052AFS(EL
)
16

7
6
12
11
13 151

Q206
2SC4177-T1L7

8
200

12
14
15
11
1
5
2
4

Q206
1
2

VBS
RM
VF-Y

4 5 3

R277
5.6k Q273

C201
0.1

CN1(80/100)
CN1(79/100)

3

Q205

Q207
Q209
2SA1611-T1M7
2SA1611-T1M7
IC202
Q208
Q210
TC74HC4052AFS(EL
Q211
2SC4177-T1L7
2SA1611-T1M7
)
2SC4177-T1L7

C203
0.1

0X VCC
1X
201
2X
3X
0Y
1Y
2Y
3Y
A
B

C721
:N'M

R272
1k

C722
:N'M

R275
1k

C723
:N'M

IC304(1/2)
TC7W32FU-TE12L

R210
6.8k

R207
100

Q208

13

R212
6.8k

R209
100

R205
100
R211
100

Q207
Q209
3

Q210
10
9
R208
3.3k

16 0.1
VF-Y 12 0X VCC
RM 14 1X
202
13
15 2X
RET 11 3X
1 0Y
5 1Y
3
2 2Y
10
4 3Y
A
9
B

C300
0.1

14
VCC
5
1Q 305

Q211
8
1
7 304
2
4

INH GND VEE

6 8 7

C202
0.1

IC305
SN74HC74ANS-E05

IC206
CLC505AJE-T

IC306(2/3)
TC7W04FU(TE12R)

R227
33k
R214
100

C204
0.1

6
9
8

R213
3.3k

6 8 7

7

1

1D
1CK
1Q
2Q
2D
2CK
2Q

4
2
3
1
10
12
11
13

GND
7

R278
1k

CHARAC

IC306(1/3)
TC7W04FU(TE12R)

C205
R206
6.8k

INH GND VEE

10

2/2

IC152(2/2)
TC7W00FU(TE12R)

CPE

R203
6.8k

R274 Q272
5.6k
9
8
10 151

1
2
3

R204
3.3k

2/2

4

L201
1µH

8

Q205
2SA1611-T1M7
IC200
Q273
2SA1611-T1M7 TC4W53FU(TE12R)
R279
6.8k

R202
100

DA,1-80
DA,1-79

L603
1µH

IC155
X24C02S-3.0-C700
0
C154
0.1

CN1(8/100)
R198
1M

CN1(44/100)
L602
1µH

VDD

Q271
2SA1611-T1M7

CHAR BACK IN

CN1(43/100)

C646
22
16V

CHAR BACK

155

C-3

C626
22
16V

C642
0.1

C155
0.1

5
3
6 154
4

9
7
6
5
4
3
2
1
15

R

R644
330

R642
2k

C622
0.1

L150
1µH

5
6

8

R624
330

R622
2k

CHAR BACK VBS

IC154(1/2)
IC154(2/2)
TC7W08FU(TE12R) TC7W08FU(TE12R)

16

R152
220k

4

PR,1-46

C602
0.1

C606
22
16V

C102
0.1

8
1
7
2 154

2

R604
330

R602
1.8k

CN1(65/100)

RV101 D-4

A-1
A-1
B-1
E-4
A-3
A-3
A-4
B-3
F-2
D-2
D-3
C-3
D-2
C-1
D-1
D-4
E-3
D-3
A-2

+3.0V

R15
22k

C17
0.1

CN1(99/100)

C301
0.1

3

C303
0.1

5
304 6

C221
22
16V

R221
1k

C222
0.1

3

C223
100p

7
8
206

8

6

CN1(49/100)

49
50

MB,12-3
MB,12-4

CN1(77/100)

VF(G)OUT

77

MB,31-B2

CN1(78/100)

VF(X)OUT

78

MB,31-A3

CN1(45/100)

PB REF IN

45

AT,1-48
MB,12-17

CN1(10/100)

CORSOR 1 IN
CORSOR 2 IN

10
9

PR,1-43
PR,1-45

SKIN GATE IN

15

DA,1-5

EXT HD OUT
EXT VD OUT

6
5

PR,1-39
PR,1-41

HD IN
VD IN

40
39

AT,1-43/DA,1-44/
SG,1-49
AT,1-44/DA,1-43/
SG,1-50

R228
1k

R224
33

4

MONI(X)OUT
MONI(G)OUT

CN1(50/100)

4

R230
75

R222
22k

C224
2p

L202
1µH

R226
680

R225
820

C225
22
16V

C226
0.1

IC304(2/2)
TC7W32FU-TE12L

C206
0.1

R229
75

2

6

2

L203
1µH

R264
100

38
37

Q251
2SA1611-T1M7

Q250
2SC4177-T1L7

CN1(38/100)

GND
GND

Q252
2SA1611-T1M7
R257
3.9k

C254
39p
R250
100

SG,1-51
SG,1-52

36
35

GENLOCK(X)IN
GENLOCK(G)IN

R258
18k

CN1(36/100)

R261
10k

8

C307
0.1

VCC

2

HD
VD

IN

Q250

CN1(35/100)

Q251
C250
10
10V
:TA

S1

GEN

E-4
E-4
A-2
A-2
B-2
D-4
D-4
D-4
E-4
D-3
B-4
B-4
B-4
B-4
A-4
A-4
A-4
B-4

IC302
SN74HC74ANS-E05

IC301
EL4581CS-TE2

IC303
SN74HC74ANS-E05

C255
10
10V
:TA

R256
510

7

R259
510

RESET

C253
22p

RET
R252
2.2k

D250
HSM88AS-TL

R253
33k

301

C252
15p

GND

6

C308
0.1

4

1
3
5

C313
22
16V

4
2
3
1
10
12
11
13

14
VCC
5
1Q
1D 302
1CK
6
1Q
2Q
2D
2CK
2Q

C311
0.1

4
2
3
1
10
12
11
13

9
8

GND
7

R315
680k

C312
0.1

5

2/2

IC307(1/2)
TC7W08FU(TE12R)

IC309(1/2)
TC7W32FU-TE12L

IC309(2/2)
TC7W32FU-TE12L

R263
1M

CN1(37/100)

R251
100k

*
*
*
*
*

C14
33
16V

R14
20k

7

S1

R701
47k

Q701
9.3V
2SC2712L-TE85L

R706
47k

4

L2
0.47µH

-2.8V
-2.8V

14

D11
RD4.3UH-T1

C26
0.1

86
85

R13
240

4

12

-5.1V
-5.1V

R705
47k

CN1(91/100)

GND
GND
GND
GND

88
87

IC702
TC7S86FU(TE85R)

IC701(2/2)
LM393PS-E05

R703
20k

L700
1µH

CHAR BACK
CHAR C-VF ON
CHAR VBS ON

1

IF-510 (1/2)

14 C309
0.1
VCC
PR
5
1Q
1D 303
1CK
6
1Q
CLR
PR
9
2Q
2D
2CK
8
2Q
CLR
GND
7

C320
0.1

14
12
11
13 322

7
9
10 322

8

8

5

4
1
3
2 322
7

4
5 322

5
3
307 6
4

6

1
308 2
3

1
7
309 2

IC307(2/2)
TC7W08FU(TE12R)

4

C321
0.1

C322
0.1

IC308
TC7S08FU(TE85R)

R321
100
CN1(9/100)
R320
100

5
3
309 6

R322
1M

R323
1M

R311
4.7k

7

C315
0.1

C361
:N'M

+4.8V-2

L301
1µH

8
1
307 2

8 1
CN1(15/100)
5 306 3
310 2
R310
100
IC306(3/3)
4 SKIN GATE ON
5
TC7W04FU(TE12R)
3 310
CHAR CCU ON
6
CHAR

IC310(1/2)
TC7W08FU(TE12R)

R324
100

CN1(6/100)
CN1(5/100)

MB,12-1

53

RET VIDEO(X)IN

MB,12-2

54

RET VIDEO(G)IN

SG,1-55

34

18MHz(X)IN

14

CN1(53/100)

CN1(54/100)

R254
1k

4
2
3
1
10
12
11
13

IC352
TC7S04FU(TE85R)
C352
0.1

CN1(34/100)

2

5 4
3

SG,1-56

33

18MHz(G)IN

R325
100
IC310(2/2)
TC7W08FU(TE12R)R327
100

C353
0.1

CN1(33/100)

R354
1M

VCC
5

R361
0

CN1(40/100)

1Q
1D
1CK

CN1(39/100)

6

R362
:N'M

1Q
351
9
2Q
2D
2CK

IC322(1/4)
IC322(2/4)
IC322(3/4)
IC322(4/4)
SN74HC00ANS-E05 SN74HC00ANS-E05 SN74HC00ANS-E05 SN74HC00ANS-E05

IC351
SN74HC74ANS-E05

R326
100

SKIN GATE
SKIN GATE 2
CARSOR

1
2
3

R328
1M

R329
1M

2/2
2/2
2/2

8
2Q
GND
7

IF-510 (1/2)
BOARD NO. 1-657-453-21
LOT NO. 508B-¥BVP550-IF510-12

8-18
A

B

C

D

8-18

BVP-550

E

F

G

H

IF-510 (2/2)

IF-510 (2/2)

BVP-550 (SY)

1

1

C351
0.1
25V

R351
10k

4

4

CN1(48/100)

-4.8V
-2.5V
+4.8V

7
8
9

1/2
1/2
1/2

CHAR BACK
CARSOR

4
3

1/2
1/2

C350
10
16V
R353
1k

5

N/P IN

1/2

3

1
48

5

R352
22k

2

DA,1-41
VA,1-41
SG,1-36
PR,1-106

+4.8V-2
9.3V

Q352(2/2) Q353(1/2)
Q354
IMH2-T110 IMH2-T110 DTA144EUA-T106

Q352(1/2)
IMH2-T110

2

6
5
3
6

MB,31-B3

47

N/P OUT

Q353(2/2)
IMH2-T110

CN1(47/100)

CN1(76/100)
CN1(75/100)
CN1(74/100)

1/2

10

CHARAC

CN1(73/100)

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

MB,31-B8
MB,31-A9
MB,31-B9
MB,31-A10

76
75
74
73

CORSOR

Q401
2SA1611-T1M7

Q402
2SC4177-T1L7

Q403
XP6534-TX

Q404
2SC4178-F13F14-T
1
D400
1SS302-TE85L

IC400
TC4W53FU(TE12R)

Q405
2SA1611-T1M7

Q411
Q412
IC410
2SC4178-F13F14-T
2SA1611-T1M7
TC4W53FU(TE12R)
1
Q410
Q413
Q414
D401
XP6534-TX
2SA1611-T1M7
2SC4177-T1L7
1SS302-TE85L

Q406
2SC4177-T1L7

2

Q421
IC420
2SC4178-F13F14-T
Q422
TC4W53FU(TE12R)
1
2SA1611-T1M7
Q420
Q423
Q424
D402
XP6534-TX
2SA1611-T1M7
2SC4177-T1L7
1SS302-TE85L

SKIN GATE 2

Q430
2SA1611-T1M7

Q421
Q404
R401
6.8k

L402
1µH

Q411

R406
5.6k

C401
22 R412
16V 22k

C405
22
16V

R413
6.8k

C408
22
16V

R418
5.6k

R423
6.8k

R425
6.8k

C415
22
16V

R430
5.6k

C412
22
16V

1/2

2

Q431
2SC4177-T1L7

R437
6.8k

R435
6.8k

R444
6.8k

C419
22
16V

8
8

8
Q402

Q406
D400
C400
1p

Q403
Q401
R403
360

7
6

R404
3k

R400
100

R411
1k

Q405

1
2

R416
150

R407
3.9k

R408
2.2k

4 5 3

R419
3.9k

C402
22
16V

R422
3.9k

R420
2.2k

C406
15
10V

C404
0.1

R429
2.4k

Q422

R426
1.5k

Q424
1
2

R431
3.9k

R432
2.2k

CN1(16/100)

MB,12-23

16

SKIN GATE OUT

Q430 C423
:NM
C417
0.1

R434
3.9k

Q431
R448
10

4 5 3
R443
1k

R438
1.5k

C424
:NM

R447
2.2k

R436
1k

C416
22
16V

C413
15
10V

C411
0.1

Q423

R446
2.2k

R441
8.2k
R439
68

R433
2.7k

R424
1k

C409
22
16V

420

7
6

Q420

C410
0.1

R421
2.7k

R414
1.5k

R410
3.9k

R428
150

C414
1p

R415
68
C403
0.1

D402
R427
68

4 5 3

Q413

R445
2.2k

Q414
1
2

Q410
C407
1p

R409
2.7k

R405
36k
R402
3.3k

Q412

R417
2.4k

410

7
6

D401

400

C420
15
10V

C418
0.1

L401
1µH

L400
1µH

CHAR BACK C-VF

SKIN GATE

3

1/2

1

C422
0.1

DA,1-71
DA,1-72
DA,1-69
DA,1-70
DA,1-67
DA,1-68

72
71
70
69
68
67

Y(X)IN
Y(G)IN
R-Y(X)IN
R-Y(G)IN
B-Y(X)IN
B-Y(G)IN

4

12

DA,1-6
SG,1-23

R PEEK OUT
G PEEK OUT
B PEEK OUT

19
18
17

AT,1-75
AT,1-74
AT,1-73

PEEK GND

20

AT,1-72

PEEK RESET IN
WINDOW IN

26
25

AT,1-46
AT,1-45

64
63
60
59
62
61

MB,11-20
MB,11-17
MB,11-20
MB,11-19
MB,11-20
MB,11-18

IC404
TC4S69F(TE85R)
R501 0

Q500
XP6534-TX

CN1(68/100)
CN1(67/100)

DL SYNC IN

R442
100

R500 0

CN1(70/100)
CN1(69/100)

CN1(12/100)

2
3

C421
22p

CN1(72/100)
CN1(71/100)

5

R440
100

SYNC

Q502
Q501
2SA1226-T1E4 2SC2223-T1F14

CN1(19/100)
CN1(18/100)

R502 0

Q503
XP6534-TX

Q504
Q505
2SA1226-T1E4 2SC2223-T1F14

Q506
XP6534-TX

Q507
Q508
Q509
Q510
IC501(2/2)
IC500(1/3)
2SA1226-T1E4 2SC2223-T1F14 2SA1611-T1M7 2SC4177-T1L7 TL082CPS-E05 TC74HC4053AFS-EL

IC500(3/3)
TC74HC4053AFS-EL

IC500(2/3)
TC74HC4053AFS-EL

IC501(1/2)
TL082CPS-E05

IC502(1/2)
IC502(2/2)
L500
TC7W08FU(TE12R) TC7W08FU(TE12R) 1µH

CN1(17/100)

CN1(20/100)
C502
4p
R507 50V
1.5k :TA-CA
R503
3k

R505
1.8k
C500
,N'M

R504
0

Q501

R513
0
R516
3k

Q502
C501
,N'M

R518
1.5k
C506
,N'M

R510
1.8k

R506
130

R512
47

Q504

R521
1.5k

R515
10

R517
0

C508
4p
50V
:TA-CA

C507
,N'M

R508
1.8k

R514
1.5k

R543
6.8k

Q508
C512
,N'M

R533
910

R536
2k

R534
91

R537
68

16
R544
1k

R525
47

R528
10

C509
4p
C510
22
16V

Q503
R520
1.8k

R522
1.2k

R524
5.6k

R527
1.5k

R530
3k

C513
10p

Q506

R531
1.8k

5
6

C511
15
10V

C505
15
10V

R538
1.8k

8
7

5
3

500

C519
0.1
35V

9

R555
10k

2
1

C515
4p
R541
1.5k

C516
22
16V

R542
10

C518
10p

R545
3.3k

2
3

R546
100

4

4

Q509

R539
47

R540
5.6k

R535
510

D500
1SS302-TE85L

Q510

R519
18

R509
1.2k
R511
5.6k

Q507

Q505

R523
1.8k

Q500

C514
6p
50V
:TA-CA

R532
1.2k

R529
0

C503
4p
C504
22
16V

R526
0

R547
100

12
13

1

C524
0.1

500
14
7

R548
10k

C525
0.1

6 11 8
7

500

8
1
502 2
4

3

6
502 5
R551
100

15

R554
3.3k

R553
3.3k

C520
22
16V

CN1(25/100)

10

R549
100k

C517
15
10V

C521
22
16V

4
CN1(26/100)

C522
0.1

R550
100k

R552
100

L501
1µH

L502
1µH
CN1(64/100)
CN1(63/100)
CN1(60/100)
CN1(59/100)
CN1(62/100)
CN1(61/100)

R(G)
R(X)
B(G)
B(X)
G(G)
G(X)

OUT
OUT
OUT
OUT
OUT
OUT

5

IF-510 (2/2)
BOARD NO. 1-657-453-21
LOT NO. 508B-¥BVP550-IF510-12

8-19

BVP-550

AI

J
B

K
C

L
D

8-19
E
M

NF

O
G

P
H

MB-602
MB-602 BOARD

MB-602

BVP-550 (SY)

1
TO PR-211 BOARD

CE0(PR)
NC
DB7(PR)
2FH IN
DB6(PR)
LALT IN
DB5(PR)
FLD1 IN
DB4(PR)
BLKG IN
DB3(PR)
BF IN
DB2(PR)
SYNC IN
DB1(PR)
VD IN
DB0(PR)
HD IN
RD(PR)
NRW BLKG IN
WR(PR)
A VD OUT
CE1(PR)
A HD OUT
CHAR BACK IN
CURSOR 2 OUT
CHAR VF IN
CURSOR1 OUT
TITLE BACK IN
EXT VD IN
TITLE IN
EXT HD IN
Y(L)OUT
D OUT EN
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
Y(G)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
R-Y(G)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
B-Y(8)OUT
B-Y(M)OUT
B-Y(G)OUT
18MHz(G)IN
18MHz(X)IN
36MHz(G)IN
36MHz(X)IN

NC

TDI(SH)
TDI(EN)
TMS(SH)
TMS(EN)
TDO(SH)
TDO(EN)
TDI(DET)
TDI(PR)
TMS(DET)
TMS(PR)
TDO(DET)
TDO(PR)
TCK
TRST
A1(PR)
GND
AO(PR)

140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN6

PR(1/2)

A GND
A GND
A GND
A GND
D GND
D GND
D GND
D GND
+5.1V
+5.1V
-5.1V
-5.1V
-2.8V
-2.8V
+3.3V
+3.3V
+3.3V
+3.3V
+7.3V
+7.3V
VF-Y(G)OUT
VF-Y(X)OUT
HI-Y(G)OUT
HI-Y(X)OUT
C(G)OUT
C(X)OUT
SC CONT IN
NC
INT SC(X)OUT
INT SC(G)OUT
36MHz(G)OUT
36MHz(X)OUT
18MHz(G)OUT
18MHz(X)OUT
N/P IN
INT/EXT IN
AD EN

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
TEST SAW(X)OUT
TEST SAW(G)OUT
HTSG OUT
H CLP IN

CN7
24P

PR(2/2)

2.5V REF IN
G B SHADING OUT
R B SHADING OUT
B B SHADING OUT
B SHADING GND
G W SHADING OUT
R W SHADING OUT
B W SHADING OUT
W SHADING GND
G FEEDBACK OUT
R FEEDBACK OUT
B FEEDBACK OUT
FEEDBACK GND
B(X)IN
B(G)IN
R(X)IN
R(G)IN
G(X)IN
G(G)IN

TO PR-211 BOARD

E68
E69
E70
E71

D7
D8
D9
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
D32
D33
D34
D35
D36
D37
D38
D39
D40
E36
E37
E38
E39
E40
E41
E42
E43
E44
E45
E46
E47
E48
E49
E50
E51
E52
E53
E54
E55
E56
E57
E58
E59
E60
E61
E62
E63
E64
E65
E66
E67

E35

E34

E72

E33
F13

E25
E26
E27
E28
E29
E30
E31
E32

D1
D2
D3
D4
D5
D6

A9

A3

A10

A11

A5

E21
E22
E23
E24

E1
E2
E3
E4
E5
E6
E7
E8
E9
E10
E11
E12
E13
E14
E15
E16
E17
E18
E19

A6

C16
0.1

2
A6

1
2
3
4
5
6
7
8
9
10
11
12

LENS UNREG
LENS UNREG(G)
RET EN IN
IRIS POSI IN
IRIS CONT OUT
ZOOM POSI IN
EX ON
AUTO 5V
REM/LOCAL
VTR S/S IN
LAUX 1
LAUX 2

4

L3
L4

A9
A5
A7
A11
A10
A3

C8 C9 C10 C11
0.1 0.1 0.1 0.1

E3
E4

N8
L5
L17
L2
L1
N3
N4
N5
N6

A17
A19
L10
L9
L15
L12
L13
L16
L14
L11
L18
L19

TO
CCD UNIT

CN22
20P

DR

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

CN23
24P

TG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

VA

CN1

A6

M2
M1
M4
M3
M6
M5

-2
D GND

M5
M3
M1

A4

E7
E8

A14
A13
A8
A2

E11
E12
E16
E18
E14

A1
M7
L6
L7
L8
A10

A4
E59
E57
F1
F2
E71
E70
E69
E68
E23
M8
M9
M10

E21

M7
M9
F18
E59

E24
G5
G3
G7
G8

G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R1
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF OUT
-5.1V
-2.8V
+3.1V

R B SHADING IN
B B SHADING IN

G B SHADING IN
B SHADING GND

R(X)IN
G(X)IN
B(X)IN

R(G)IN
G(G)IN
B(G)IN

R W SHADING IN
B W SHADING IN

G W SHADING IN
W SHADING GND

R FEEDBACK IN
B FEEDBACK IN

G FEEDBACK IN
FEEDBACK GND

R(X)OUT
G(X)OUT
B(X)OUT

R(G)OUT
G(G)OUT
B(G)OUT

N/P IN

TEST SAW(X)IN

V CLP IN
H CLP IN
NC
A HD IN
NC
IIC CLK

TEST SAW(G)IN

PBLKG IN
D CLP IN
SAMPLE3 IN
A VD IN
IIC DATA
LD(VA)IN

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

C12 C13 C14
0.1 0.1 0.1

AT

CN2

A6

A6
C19
0.1

C15
0.1

A9
A5
A7
A11
A10
A3
L19
L1
L3
L5
K2
K4
L6
L8
L10
L12
L14
L16

A9
A5
E1
A11
A10
A3
E2
E5
M6
M4
M2
E6
E9
E10
E13

J2
F5

E17
E19
E15

B16
B19
B31
K5
F11
E35
E36
E40
E44
E48
E52
E56
E62
E66
E57
E59
G1
G3
G5
G7

F13

E22

M8
M10
F19
E57

B43
B45
B40

G7
G1

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V
LAUX 2
VF RGB OUT
ABNORMAL OUT
WIDE OUT
G PEEK IN
PEEK GND
ND FILT IN
TEMP IN
RET EN IN
ZOOM POSI IN
REM/LOCAL
AUTO 5V
TALLY ON OUT
18MHz(G)IN
VTR S/S OUT
RET EN OUT
PB REF IN
PEEK RESET OUT
VD IN
A0(PR)
CE0(PR)
DB6(PR)
DB4(PR)
DB2(PR)
DB0(PR)
WR(PR)
CHAR VF OUT
TITLE OUT
A VD IN
A HD IN
LD(VA)OUT
LD(TG)OUT
LD(CCD)OUT
IIC DATA
IIC DATA(CA)
IIC DATA(ST)
NC
COM CONT
RM DATA IN
RE A

R2
0

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V
ZEBRA ON/OFF IN
VF COLOR IN
G TALLY OUT
R PEEK IN
B PEEK IN
NC
CC FILT IN
IRIS POSI IN
VTR S/S IN
EX ON
IRIS CONT OUT
LAUX 1
REC TALLY IN
18MHz(X)IN
VTR RESET IN
TAPE REM IN
BATT ALERM IN
AUDIO LEVEE IN
WINDOW OUT
HD IN
A1(PR)
DB7(PR)
DB5(PR)
DB3(PR)
DB1(PR)
RD(PR)
CE1(PR)
CHAR BACK OUT
TITLE BACK OUT
V RESET OUT
NC
LD(SG)OUT
LD(DA)OUT
LD(IF)OUT
IIC CLK
IIC CLK(CA)
IIC CLK(ST)
CA(CONT/DATA)
COM DATA
RM DATA OUT
RE B

C18 C20 C21
0.1 0.1 0.1

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

SG

CN3

A6

A6

C17
0.1

A9
A5
A7
A11
A10
A3

A9
A5
A11
A10
A3
L17
L2
L4
K1
K3

B29
E25
E27

E72
L7
L9
L11
L13
L15
L18

F1
F2
E29
E31
J1

F3
F5
F7
F9
F11

F6
J3
B17
B15
B18
K6
F12

E37
E41
E45
E49
E53
E59

E34
E38
E42
F13

E46
E50
E54
E58
E60
E64
F17

F17
F18
F19

G2
G4
G6
G8
B42
B44
B10
B41

B35
B36
B38
B34
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R3
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V

GENLOCK(X)IN
SC CONT OUT
INT SC(X)IN

GEN(G)/H CONT IN
NC
INT SC(G)IN

VCO CONT OUT
VCO CONT(G)
36MHz(G)IN
18MHz(G)IN
36MHz(G)OUT
18MHz(G)OUT
NC
GENLOCK(G)OUT
VD OUT
NC
LALT OUT
BLKG OUT
SYNC OUT
HD OUT
A HD IN
N/P OUT
TDI
TDO
TCK

36MHz(X)IN
18MHz(X)IN
36MHz(X)OUT
18MHz(X)OUT
NC
GENLOCK(X)OUT
HD OUT
2FH OUT
FLD1 OUT
BF OUT
VD OUT
NRW BLKG OUT
A VD IN
INT/EXT OUT

NC
NC
SAMPLE3 OUT

DL BLKG OUT
DL SYNC OUT
V RESET IN
V RESET IN/CF OUT
SAMPLE2 OUT

18MHz(X)OUT
SAMPLE1 OUT
SYNC OUT
HD OUT
BLKG
IIC CLK

18MHz(G)OUT
VD OUT
CF OUT
H CONT IN
IIC DATA
LD(SG)IN

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

C23 C24 C25
0.1 0.1 0.1

A6

C22
0.1

A9
A5
A11
A10
A3
B30
E26
E28

E30
E32
F4
F6
F8
F10
F12
E39
E43
E47
E51
E55
E57
E33

F15
F16
B20
F20

B37
B39
B46
G7
G2

A9
A5
A11
C30
0.1

C31
0.1

A4

A6

C29
0.1

C26
0.1

A5
A6

LENS

N2
N1
N7
B15

B(G)IN
B(X)IN
G(G)IN
G(X)IN
R(G)IN
R(X)IN
NC
NC

G7
G8

CN32
12P

A7
A16
A18

PA

1
2
3
4
5
6
7
8

B11
B9
A15

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20

CN21
8P

A6
A5
A7

+9.3V
VF UNREG
VF UNREG(G)
VF(G)OUT
VF(X)OUT
N/P OUT
BATT ALERM OUT
ABNORMAL OUT
G TALLY OUT
TALLY OUT
WIDE OUT
ZEBRA ON/OFF OUT
VF COLOR IN
VF RGB OUT

C7
0.1

A12
A2
A1

A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10

C6
0.1

B14
B13
B12

VF

A1

3

CN31
20P

C27
0.1

5

TO CN-1122 BOARD

8-20
A

B

C

D

1
2
3
4
5

+5.1V
A GND

SW

IIC DATA
IIC CLK

CN42
5P

AUDIO CH1 CONT IN
VTR SAVE
POWER SAVE

RE B
RE A
RM DATA OUT
RM DATA IN
IIC CLK
IIC DATA

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

RM VBS(X)OUT
RM VBS(G)OUT
A GND
+5.1V
+9.3V

CN

MIC(X)IN
MIX(Y)IN
MIC(G)IN

CN41
24P

+48V
UNREG OUT
UNREG(G) OUT

C28
0.1

TO SW-732 BOARD.

8-20

BVP-550

E

F

G

H

MB-602

MB-602

1

CN51
26P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26

D/D

GND(UNREG)
GND(UNREG)
UNREG
UNREG
+3.1V
+3.1V
GND(D)
GND(D)
+5.1V
+5.1V
A GND
A GND
+9.3V
+6.5V
+7.3V
+7.3V
-2.8V
-5.1V
A GND
A GND
+48V
+15V
A GND
POWER SAVE
-11V
A GND

TO D/D

-2

A15
A14

Q1
2SA811A-T1C15

110P(1/4)
A1

A12

A13

A10
A11
A4

A7
A8
A9

A5
A6

A3

A GND

A3

A2

A1

R6
0

D1
DE5LC20U-TA2
R7
10k
1/16W

A18

Q2
2SC1622A-T1D17

R9
10k

213

R8
56k
1/16W R10
10k

A19
A2
S1

A16

DA

CN4

A6

A9
A5
A7
A11
A10
A3
H1
D2
D4
D6
H3
H5
H7
H9
B24
B24
B24
B28

E60
F4
F6
F12
D7
D9
D11
D13
D15
D17
D19
D21
D23
D25
D27
D29
D31
D33
D35
D37
D39
F15
F16
F20
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R4
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V

VF-Y(X)OUT
VF-Y(X)IN
HI-Y(X)IN
C(X)IN
Y(G)OUT
R-Y(G)OUT
B-Y(G)OUT
VBS(G)OUT
Y(G)OUT
R-Y(G)OUT
B-Y(G)OUT
Y(G)OUT
C(G)OUT

VF-Y(G)OUT
VF-Y(G)IN
HI-Y(G)IN
C(G)IN
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
VBS(X)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y(X)OUT
C(X)OUT
CHAR VF IN

CHAR BACK IN
36MHz(X)IN
18MHz(X)IN
HD IN
Y(L)IN
Y(1)IN
Y(3)IN
Y(5)IN
Y(7)IN
Y(M)IN
R-Y(L)IN
R-Y(2)IN
R-Y(4)IN
R-Y(6)IN
R-Y(8)IN
R-Y(G)IN
B-Y(1)IN
B-Y(3)IN
B-Y(5)IN
B-Y(7)IN
B-Y(M)IN
DL BLKG IN
DL SYNC IN
SAMPLE2 IN
IIC CLK

36MHz(G)IN
18MHz(G)IN
VD IN
N/P IN
Y(2)IN
Y(4)IN
Y(6)IN
Y(8)IN
Y(G)IN
R-Y(1)IN
R-Y(3)IN
R-Y(5)IN
R-Y(7)IN
R-Y(M)IN
B-Y(L)IN
B-Y(2)IN
B-Y(4)IN
B-Y(6)IN
B-Y(8)IN
B-Y(G)IN
VTR SYNC OUT
SKIN GATE OUT
IIC DATA
LD(DA)IN

IF

CN5

A6

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

A6

A9
A5

A9
A5
A7
A11
A10
A3
A2
H1

A11
A10
A3
H2
D1
D3
D5
H4
H6
H8
H10

N1
N3
N5
H4
H6
H8
H10
B21
B22
B23

B4
B4
B4
B6
B30
B8

B27
E62

B48
F3
F5
F11
F13
D10
D12
D14
D16
D18
D20
D22
D24
D26
D28
D30
D32
D34
D36
D38
D40

F13
B50
F12
F8
F10
F6
J1
J3
K5

K4
K2
B51
F15
F16
E63
E60
E67

B33
H11
G7
G4

F20
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R5
:NM

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V
UNREG
VF-Y(X)IN
VF(X)OUT
VF Y(X)OUT
VF B-Y(X)OUT
Y(X)IN
R-Y(X)IN
B-Y(X)IN
VBS(X)IN
R(G)OUT
G(G)OUT
B(G)OUT
VBS(G)OUT

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V
GND(UNREG)
VF-Y(G)IN
VF(G)OUT
VF R-Y(X)OUTT
VF Y/R-Y/B-Y
Y(G)IN
R-Y(G)IN
B-Y(G)IN
VBS(G)IN
R(X)OUT
G(X)OUT
B(X)OUT
VBS(X)OUT

RET VIDEO(G)IN

RET VIDEO(X)IN

MONI(G)OUT
N/P IN

MONI(X)OUT
N/P OUT
PB REF IN
TEST(X)OUT

TEST(G)OUT
HD IN
NC
GENLOCK(X)IN
18MHz(X)IN

VD IN
NC
GENLOCK(G)IN
18MHz(G)IN
REC TALLY IN
TALLY ON IN
TALLY OUT
WINDOW IN

REC TALLY OUT
VTR RESET OUT
PEEK RESET IN
RM VBS(G)OUT
PEEK GND
G PEEK OUT
SKIN GATE OUT
DL BLKG IN
DL SYNC IN
CURSOR 1 IN
CHAR BACK IN
EXT HD OUT
SAMPLE2 IN
IIC CLK

A17

RM VBS(X)OUT
R PEEK OUT
B PEEK OUT
SKIN GATE IN
IIC DATA(CA)
IIC CLK(CA)
CURSOR 2 IN
CHAR VF IN
EXT VD OUT
IIC DATA
LD(IF)IN

IC1
TC74VHC541FS(EL)

A6

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

20

C1
0.1
RB1

D23
D24
D25
D26
D27
D28
D30
D31

A9
A5
A11
A10
A3
A1

9
8
7
6
5
4
3
2

VCC
1

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C15
C16
C17
C18
C19
C20
C21
C22

2
4
6
8
2
4
6
8

C29
C27
C25
C23
C24
C26
C28
C30

G1 G2 GND

H2

RB2

N2
N4
N6

1 19 10

D8

IC2
TC74VHC541FS(EL)

H3
H5
H7
H9

20

C2
0.1

B1
B2
B3
B4
B5
B6
B21
B22
B23
B24
B27
B28
B29
B30

RB3

D38
D36
D34
D32
D33
D35
D37
D39

B1
B2
B3
B5
B29
B7

9
8
7
6
5
4
3
2

VCC
2

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

G1 G2 GND
RB4

B47
N7
B31
B49

1 19 10

D8

20

C3
0.1
RB5

F11
F7
F9
F5
B32
J2
N8

D22
D21
D20
D19
D17
D16
D15
D14

9
8
7
6
5
4
3
2

K6

VCC
3

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C14
C13
C12
C11
C10
C9
C8
C7

B17
B18
B33
B19
B20
B31
B32
B46
B9
A6

G1 G2 GND
RB6

1 19 10

D8
K1
K3

IC4
TC74VHC541FS(EL)

H11
B43
B42
E61
E62
E65
G7
G6

110P(2/4)
B7
B8
B47
B48
B15
B16
B11
B12
B13
B14
A6

IC3
TC74VHC541FS(EL)

20

C4
0.1
RB7

D13
D12
D11
D10
D9
D7

8
7
6
5
4
3
2
9
-2

VCC
4

12
13
14
15
16
17
18
11

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C6
C5
C4
C3
C2
C1
C31

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

B38
B51
B10
B40
B41
B42
B43
B44
B45

G1 G2 GND

RET VIDEO(X) IN
RET VIDEO(G) IN
MONI(X) OUT
MONI(G) OUT
BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G) OUT
MIC(Y) OUT
MIC(X) OUT
A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/ CF OUT
PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

CN11
30P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
CN12
30P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

2

TO CN-1120 BOARD

C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C27
C28

C30
C29

RB8

1 19 10

D8
D18
D29
D40

-2

G8

C31
C32

A5

G7

C32

8
R11
4.7k

VDD
1

B39

R12
100k

5
A0

SDA

A1

SCL

2

CN13
30P

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

110P(4/4)

CN14
20P

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

D GND
D GND
D GND

IC5
X24C02S-3.0-C700
0

110P(3/4)

B37
B36
B35
B34

6

3

D GND
D GND
D GND
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG

3

4
TO CN-1121 BOARD

5

A2
5
7
CPE

C5
0.1

B49
B50

VSS

BNC

CN15
3P

TEST(X)OUT
TEST(G)OUT

1
2
3

4

MB-602

MB-602

-2

A1

A2

B-¥ BVP550-MB602-11
1995.8.8
BOARD NO. 1-657-437-21

LOT NO. 508B-¥BVP550-MB602-11

8-21

BVP-550

I

J

K

L

8-21
M

N

O

P

CN-1120/1121/1122/1142 SW-730/731/732/733/742

1

FRAME WIRING

FRAME WIRING

FRAME WIRING CN-1120/1121/1122/1142 SW-730/731/732/733/742

BVP-550 (SY)
CN42

IIC DATA
IIC CLK
+5.1V
A GND

HARNESS
(VF)

5

4

10

VF Y(X)OUT
ZEBRA ON/OFF IN
VF(X)OUT

9

16

15

14

20

19

18

13

VF B-Y(X)OUT
VF R-Y(X)OUT
BATT ALERM OUT
TALLY OUT
+9.3V
VF UNREG(G)
VF UNREG

2

9
0
1
2
3
4
6
9
7
8

8
0
7
3
9
9
9
9
9
1
4
2
0
1

CN301(1/5)

IIC DATA
IIC CLK

1
2
3
4
5

R7
220k

CN301(2/5)
CN301(3/5)
CN301(4/5)

+5.1V
A GND

89
9
9
9

89
89

R9
100k

R8
220k

R3
100k

CN301(5/5)
S1

S2

DISP/MENU

MONI

S3

R6
1k

R4
100k

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

ON

R

OFF

G

MENU

B

R10
100k

R5
1k

C2
0.1

16 15 14 13 12 11 10 9
VCC SDA SCL INT P7 P6 P5 P4

RGB

R1
100k

R2
100k

C1
0.1

1
A0 A1 A2 P0 P1 P2 P3 GND

1 2 3 4 5 6 7 8

IF-510

6

11

89

1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20

DA-88

7

COMP/VBS SW IN/OUT
N/P OUT
NC
G TALLY OUT

1

CN301

ENC

+9.3V
VF UNREG
VF UNREG(G)
VF(G)OUT
VF(X)OUT
N/P OUT
BATT ALERM OUT
ABNORMAL OUT
G TALLY OUT
TALLY OUT
WIDE OUT
ZEBRA ON/OFF IN
NC
COMP/VBS SW IN/OUT

SG-234

17

2

2
6

A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10

AT-95

8
12

3

ABNORMAL OUT
WIDE OUT

HARNESS
(RG)
0
1
2
3
4

CN31

2
1
0

VA-163

CN903
(VF)

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

1
2
3
4
5

BOARD NO. 1-657-442LOT NO. 508-

IC1
PCF8574T

SW-732

IRIS CONT OUT
HARNESS
(LENS)

TEST(X)OUT
TEST(G)OUT
FLAT
CABLE

89

1
2
3

CN15

MIC(G)IN
MIX(Y)IN
MIC(X)IN

UNREG(G)OUT
UNREG OUT
+48V

+9.3V
+5.1V
A GND
RM VBS(G)OUT
RM VBS(X)OUT

MB-602

CN41

3

LENS UNREG
LENS UNREG(G)
RET EN IN
IRIS POSI IN
IRIS CONT OUT
ZOOM POSI IN
EX ON
AUTO 5V
REM/LOCAL
VTR S/S IN
LAUX 1
LAUX 2

IIC DATA
IIC CLK
RM DATA IN
RM DATA OUT
RE A
RE B

4

1
2
3
4
5
6
7
8
9
10
11
12

POWER SAVE
VTR SAVE
AUDIO CH1 CONT IN

5

CN32

1
0
0
1
2
3
4
6
7
8
9
2

0
8
0
6
2
1
1
7
4
3
9
2

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

9 1
8 10 2
7 12 11 3
6

1
2
3
4
5
6
7
8
9
10
11
12

RET EN IN
VTR S/S IN
LENS UNREG(G)
AUTO 5V
IRIS CONT OUT
LENS UNREG
IRIS POSI IN
REM/LOCAL
EX ON
ZOOM POSI IN
LAUX 1
LAUX 2

CN904
(LENS)

CN905
(MIC)

R2
100k

RV1 CN501(5/6)
5k
CN501(6/6)

C1
0.1

A GND
AUDIO CH1 CONT OUT

MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT

+9.3V IN
+5.1V IN
GND
RM VBS(G)IN
RM VBS(X)IN

UNREG GND
UNREG IN
+48V IN

CN401(1/24)

CN401(2/24)

CN401(3/24)

CN401(4/24)

CN401(5/24)

CN401(6/24)

CN401(7/24)

7
8
9
0
1
2

CN407(2/6)
CN407(3/6)
CN407(4/6)

CN401(8/24)

1
2
3
4
5
6

CN401(9/24)

1
R1
100k

+9.3V
+5.1V

IIC CLK
IIC DATA

CN401(10/24)

R7 CN501(3/6)
1k CN501(4/6)

CN401(11/24)

CN501(2/6)
VCC SDA SCL INT P7 P6 P5 P4

CN401(12/24)

16 15 14 13 12 11 10 9
ABB

CN401(13/24)

ON

CN407
CN407(1/6)

CN407(5/6)
CN401(14/24)

CN501(1/6)

4

CN406(3/3)

CN501

AWB

SEL

CN406(2/3)

CN401(15/24)

BOARD NO. 1-657-444LOT NO. 508-

C4
0.1

CN401(16/24)

R3
100k

CN401(17/24)

R4
100k

CN401(18/24)

R5
1k

IIC DATA
IIC CLK
RM DATA OUT
RM DATA IN
RE A OUT
RE B OUT

R6
1k

CN901
(TEST OUT)

CN-1122
HARNESS

CN401(19/24)

OFF

R11
100k

CN406(1/3)

CN401(20/24)

S2

AWB/ABB

MIC(X) IN
MIC(Y) IN
MIC(G) IN

CN401(24/24)

S1

SHUTTER

1
2
3

CN401(21/24)

3
S3

VTR START/STOP

CN406

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

89
HARNESS
(MIC)
2
9
0
89

1 2

CN401

SW-731

R10
220k

POWER SAVE OUT
CN401(23/24)
VTR SAVE OUT
CN401(22/24) AUDIO CH1 CONT OUT

R9
220k

CN407(6/6)

RM DATA OUT
RM DATA IN
UNREG GND
RM VBS(X)OUT
RM VBS(G)OUT
UNREG OUT

1
2
3
4
5
6

(RM)
9
9

CN902
(REMOTE)
80
84

84
80

9
9
89

89

1
2
3
4
5
6

RM DATA IN
RM DATA OUT
UNREG GND
RM VBS(X)OUT
RM VBS(G)OUT
UNREG OUT

1 6
2

5
3 4

C2
C1
0.33µ 0.33µ
50V
50V
:BP
:BP

A0 A1 A2 P0 P1 P2 P3 GND

1 2 3 4 5 6 7 8
R3
1k

C5
100µ
50V
:AL

R2
4700
:RN-C

R1
4700
:RN-C

BOARD NO. 1-657-443LOT NO. 508-

CN402

IC1
PCF8574T
R8
0

9
9

0
1
2
3
4
6
7
8
9
0
1
2

C3
100p

C2
*

CN601

S1

CANCEL

CN601(1/3)

CANCEL

CN601(2/3)
CN601(3/3)

BOARD NO. 1-657-446LOT NO. 508-

GND

1
2
3

4
6

1
2
3
4
5
6
7
8
9
10
11
12

R15
220k
R7
1k

CN405
C3

C4
CN405(1/11)
CN405(2/11)
CN405(3/11)

SW-742

CN405(4/11)
CN405(5/11)
CN405(6/11)
CN405(7/11)
CN405(8/11)

MENU SEL

CN405(9/11)
CN405(10/11)

BOARD NO. 1-657-447LOT NO. 508-

CN701

5

CN701(2/4)
CN701(3/4)
CN701(4/4)

BOARD NO. 1-657-445LOT NO. 508-

RE A
RE B
SET
GND

1
2
3
4

SW-733

CN405(11/11)

UNREG OUT
UNREG GND
VTR SAVE IN
POWER SAVE IN
+9.3V OUT
+5.1V OUT
IIC CLK
IIC DATA
CANCEL OUT
SET OUT
GND

1
2
3
4
5
6
7
8
9
10
11

HARNESS
(SW)
0
1
2
3
4
6
7
8
9
0
1

1
2
3
4
5
6
7
8
9
10
11

UNREG IN
UNREG GND
VTR SAVE
POWER SAVE
+9.3V
+5.1V
II C CLK
II C DATA
CANCEL IN
SET IN
A GND

CN801(1/11)

16 15 14 13 12 11 10 9

CN801(2/11)

VCC SDA SCL INT P7 P6 P5 P4

CN801(3/11)

R13
100k

C3
0.1

R10
100k

CN801(4/11)
CN801(5/11)

R4
100k

R5
100k

1

C1
0.1

CN801(6/11)

R11
100k
A0 A1 A2 P0 P1 P2 P3 GND

CN801(7/11)

1 2 3 4 5 6 7 8
CN801(8/11)
CN801(9/11)
CN801(10/11)
CN801(11/11)

0
1
2
3

R1
3300

POWER
R2
10k

HARNESS
(FRONT)

S1
S2

S3

ON

L

DCC ON

ON

M

SAVE

H

8-22
C

D

S4
B
A

BAR

RESET

R3
10k

GAIN

SW-730

B

R12
100k

R9
100k

CN801

D1
RD9.1M

A

R8
100k

R6
1k

IC1
PCF8574T

S1

CN701(1/4)

R14
220k

CN402(1/12)

RE A IN
CN402(2/12)
RE B IN
CN402(3/12)
SET IN
CN402(4/12)
GND
CN402(5/12)
CANCEL IN
CN402(6/12)
GND
CN402(7/12)
+9.3V OUT
CN402(8/12)
+5.1V OUT
CN402(9/12)
IIC CLK
CN402(10/12)
IIC DATA
CN402(11/12)
GND
CN402(12/12)
AUDIO CH1 CONT IN

8-22

DCC

WHITE

BVP-550

E

F

G

H

I
J

BVP-550

K

8-23

L
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68

TO ANALOG CA

M

CN-1120
BOARD NO. 1-657-440LOT NO. 508-

N

18MHZ(X)OUT

18MHZ(G)OUT
Y(1)OUT
Y(3)OUT
Y(5)OUT
Y(7)OUT
Y(M)OUT
R-Y(1)OUT
R-Y(3)OUT
R-Y(5)OUT
R-Y(7)OUT
R-Y(M)OUT
B-Y(1)OUT
B-Y(3)OUT
B-Y(5)OUT
B-Y(7)OUT
B-Y(M)OUT
D GND
SAMPLE1 OUT
VD OUT
CF OUT

Y(L)OUT
Y(2)OUT
Y(4)OUT
Y(6)OUT
Y(8)OUT
R-Y(L)OUT
R-Y(2)OUT
R-Y(4)OUT
R-Y(6)OUT
R-Y(8)OUT
B-Y(L)OUT
B-Y(2)OUT
B-Y(4)OUT
B-Y(6)OUT
B-Y(8)OUT
D GND
BLKG OUT
SYNC OUT

V RESET IN/CF OUT
REC TALLY IN
VTR SAVE
A GND
CA(CONT/DATA)
CAM DATA
IIC DATA(CA)
IIC DATA(ST)

AUDIO LEVEL IN

MIC(G)OUT
MIC(X)OUT

SKIN GATE OUT
TAPE REM IN
VTR SYNC OUT
RET EN OUT
PB REF IN
H CONT IN
A GND
HD OUT
COM CONT
IIC CLK(CA)
IIC CLK(ST)
UNREG(G)
UNREG(G)
VF UNREG(G)
LENS UNREG(G)
UNREG
UNREG
VF UNREG
LENS UNREG
G(X)OUT
R/G/B(G)OUT
VBS(X)OUT
R-Y(X)OUT
Y/R-Y/B-Y(G)
Y(X)OUT
C(G)OUT
GEN(G)/H CONT IN
RET VIDEO(X)IN
MONI(G)OUT
VTR S/S OUT

AUDIO CH1 CONT OUT
MIC(Y)OUT

UNREG(G)
UNREG(G)
VF UNREG(G)
LENS UNREG(G)
UNREG
UNREG
VF UNREG
LENS UNREG
R(X)OUT
B(X)OUT
VBS(G)OUT
Y(X)OUT
B-Y(X)OUT
Y(G)OUT
C(X)OUT
GENLOCK(X)IN
RET VIDEO(G)IN
MONI(X)OUT
BATT ALARM IN

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG OUT

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/CF OUT

BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT

RET VIDEO(X)IN
RET VIDEO(G)IN
MONI(X)OUT
MONI(G)OUT

CN11

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

CN202

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

FLAT
CABLE

CN13

CN102

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN14

CN101

FLAT
CABLE

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

CN12

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

FLAT
CABLE

FLAT
CABLE

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG OUT

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

RET VIDEO(X)IN
RET VIDEO(G)IN
MONI(X)OUT
MONI(G)OUT
BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT
A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/CF OUT
PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

CN23

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

TG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

CN22

DR

8
7
6
5
4
3
2
1

NC
NC
R(X)IN
R(G)IN
G(X)IN
G(G)IN
B(X)IN
B(G)IN

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

CN21

PA

9

9
0
9
84

80

89

FLAT
CABLE

FLAT
CABLE

84

80

89

9

9
0
9

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

CN3

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

CN3

1
2
3
4
5
6

CN2

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

R(X)IN
R(G)IN
G(X)IN
G(G)IN
B(X)IN
B(G)IN

TG-159

DR-271

PA-181

CCD UNIT

FRAME WIRING

CN103

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68

CN203

CN201

CN-1120/1121/1122/1142 SW-730/731/732/733/742

FRAME WIRING CN-1120/1121/1122/1142 SW-730/731/732/733/742

(OHB-450/451/550/550WS SERIES)

1

2

3

CN-1121
4

BOARD NO. 1-657-441LOT NO. 508-

TO DIGITAL CA

FRAME WIRING

CN-1120/1121/1122/1142
SW-730/731/732/733/742

A-¥BVP550-FRAME/M
B-¥BVP550-FRAME/M

B-¥BVP550-CN1122/M

B-¥BVP550-SW730/M

B-¥BVP550-SW731/M

B-¥BVP550-SW732/M

B-¥BVP550-SW733/M

B-¥BVP550-SW742/M

8-23
O
P

5

5-4

5-4

OHB-400/500/500WS & PAL
OHB-450/451/550/550WS & PAL

VA-163

VA-163

Section 9
Board Layouts

VA-163 BOARD

BVP-550

VA-163 - A SIDE -

VA-163 - B SIDE -

1-657-438-12, 21

1-657-438-12, 21

9-1

9-1

AT-95

AT-95

AT-95 BOARD

AT-95

AT-95

- A SIDE -

1-657-448-11, 12, 21

BVP-550

- B SIDE -

1-657-448-11, 12, 21

9-3

9-3

SG-234

SG-234

SG-234 BOARD

BVP-550

SG-234 - A SIDE -

SG-234 - B SIDE -

1-657-449-12, 21

1-657-449-12, 21

9-5

9-5

DA-88

DA-88

DA-88 BOARD

BVP-550

DA-88 - A SIDE -

DA-88 - B SIDE -

1-657-450-12, 21

1-657-450-12, 21

9-7

9-7

IF-510

IF-510

IF-510 BOARD

BVP-550

IF-510 - A SIDE -

IF-510

1-657-453-12, 21

1-657-453-12, 21

9-9

9-9

- B SIDE -

MB-602

MB-602

MB-602 BOARD

BVP-550

MB-602 - A SIDE -

MB-602 - B SIDE -

1-657-437-14, 21

1-657-437-14, 21

9-11

9-11

The material contained in this manual consists of
information that is the property of Sony Corporation and
is intended solely for use by the purchasers of the
equipment described in this manual.
Sony Corporation expressly prohibits the duplication of
any portion of this manual or the use thereof for any
purpose other than the operation or maintenance of the
equipment described in this manual without the express
written permission of Sony Corporation.

Le matériel contenu dans ce manuel consiste en
informations qui sont la propriété de Sony Corporation et
sont destinées exclusivement à l’usage des acquéreurs
de l’équipement décrit dans ce manuel.
Sony Corporation interdit formellement la copie de
quelque partie que ce soit de ce manuel ou son emploi
pour tout autre but que des opérations ou entretiens de
l’équipement à moins d’une permission écrite de Sony
Corporation.

Das in dieser Anleitung enthaltene Material besteht aus
Informationen, die Eigentum der Sony Corporation sind,
und ausschließlich zum Gebrauch durch den Käufer der
in dieser Anleitung beschriebenen Ausrüstung bestimmt
sind.
Die Sony Corporation untersagt ausdrücklich die
Vervielfältigung jeglicher Teile dieser Anleitung oder den
Gebrauch derselben für irgendeinen anderen Zweck als
die Bedienung oder Wartung der in dieser Anleitung
beschriebenen
Ausrüstung
ohne
ausdrückliche
schriftliche Erlaubnis der Sony Corporation.

BVP-550 (SY) J, E

Sony Corporation

3-190-368-01

Broadcast Products Company

Printed in U.S.A.
1996. 1 76
©1996

Published by Broadcast Products Company

COLOR VIDEO CAMERA

BVP-550

MAINTENANCE MANUAL
1st Edition (Revised 1)
Serial No. 15001 and Higher
Serial No. 50001 and Higher

! WARNING
This manual is intended for qualified service personnel only.
To reduce the risk of electric shock, fire or injury, do not perform any servicing other than that
contained in the operating instructions unless you are qualified to do so. Refer all servicing to
qualified service personnel.

! WARNUNG
Die Anleitung ist nur für qualifiziertes Fachpersonal bestimmt.
Alle Wartungsarbeiten dürfen nur von qualifiziertem Fachpersonal ausgeführt werden. Um die
Gefahr eines elektrischen Schlages, Feuergefahr und Verletzungen zu vermeiden, sind bei
Wartungsarbeiten strikt die Angaben in der Anleitung zu befolgen. Andere als die angegeben
Wartungsarbeiten dürfen nur von Personen ausgeführt werden, die eine spezielle Befähigung
dazu besitzen.

! AVERTISSEMENT
Ce manual est destiné uniquement aux personnes compétentes en charge de l’entretien. Afin
de réduire les risques de décharge électrique, d’incendie ou de blessure n’effectuer que les
réparations indiquées dans le mode d’emploi à moins d’être qualifié pour en effectuer d’autres.
Pour toute réparation faire appel à une personne compétente uniquement.

Table of Contents
Manual Structure
Purpose of this manual ........................................................................................ 5 (E)
Contents ............................................................................................................... 5 (E)
Relative manuals ................................................................................................. 6 (E)

1. Installation
1-1.

1-2.
1-3.
1-4.
1-5.

Connectors and Cables ..........................................................................1-1 (E)
1-1-1. Connector Input/Output Signals ...........................................1-1 (E)
1-1-2. Connection Connector ..........................................................1-6 (E)
Installaton Conditions ...........................................................................1-6 (E)
Function of Internal Switches ...............................................................1-6 (E)
Instance of Sytem Configuration ..........................................................1-8 (E)
Optional Accessories for Viewfinder ..................................................1-11 (E)

2. Service Overview
2-1.

Notes on Service ...................................................................................2-1 (E)
2-1-1. Note on Replacement of Parts ..............................................2-1 (E)
2-1-2. Description of EEPROM Data .............................................2-1 (E)
2-1-3. Extension Boards .................................................................2-1 (E)
2-1-4. Notes on Repair Parts ...........................................................2-1 (E)
2-2. Removal of Cabinet...............................................................................2-2 (E)
2-3. Location of Printed Circuit Boards .......................................................2-2 (E)
2-4. Circuit Description ................................................................................2-3 (E)
2-5. Periodic Replacement Part ....................................................................2-6 (E)
2-6. Cleaning ................................................................................................2-7 (E)
2-6-1. Cleaning of Viewfinder (Option) .........................................2-7 (E)
2-6-2. Cares After Using at Special Environment ..........................2-7 (E)
2-7. Replacement of External Connectors ....................................................2-8 (E)
2-7-1. VF Connector .......................................................................2-8 (E)
2-7-2. MIC Connector.....................................................................2-8 (E)
2-7-3. TEST OUT/REMOTE Connector ........................................2-9 (E)
2-8. Disconnecting/Connecting of Flexible Card Wires ............................2-10 (E)
2-9. Board Replacement .............................................................................2-11 (E)
2-9-1. MB-602 Board ...................................................................2-11 (E)
2-9-2. CN-1120/1121 Board .........................................................2-12 (E)
2-10. Replacement of Function Switches .....................................................2-13 (E)
2-10-1. Side Switch Panel Block ....................................................2-13 (E)
2-10-2. Front Switch Panel Block...................................................2-13 (E)
2-10-3. VF DISP Switch .................................................................2-14 (E)
2-11. Replacement of DC/DC Convertor Unit .............................................2-15 (E)

BVP-550

1 (E)

3. Setup Menu
3-1.

3-2.

Setup Menu ...........................................................................................3-1 (E)
3-1-1. Operation Menu ...................................................................3-3 (E)
3-1-2. Paint Menu ...........................................................................3-7 (E)
3-1-3. Maintenance Menu .............................................................3-10 (E)
3-1-4. Reference Menu .................................................................3-12 (E)
3-1-5. Triming Menu ....................................................................3-12 (E)
3-1-6. System Config Menu ..........................................................3-13 (E)
Self-Diagnosis .....................................................................................3-16 (E)

4. Electrical Alignment
4-1.

4-2.

4-3.

2 (E)

Preparation ............................................................................................4-1 (E)
4-1-1. Equipment Required .............................................................4-1 (E)
4-1-2. Notes on Adjustment ............................................................4-1 (E)
4-1-3. Connections ..........................................................................4-2 (E)
4-1-4. Description of Setup Menu ..................................................4-2 (E)
4-1-5. Initial Setting ........................................................................4-3 (E)
Adjustment for Installation of OHB ......................................................4-4 (E)
4-2-1. VCO CONT Frequency Confirmation .................................4-4 (E)
4-2-2. VA Gain Adjustment ............................................................4-4 (E)
4-2-3. Black Shading Adjustment ...................................................4-6 (E)
4-2-4. White Shading Adjustment ..................................................4-8 (E)
4-2-5. Master Black Adjustment .....................................................4-9 (E)
4-2-6. Gamma Correction Adjustment ...........................................4-9 (E)
4-2-7. Flare Adjustment ................................................................4-11 (E)
4-2-8. Knee and White Clip Adjustment ......................................4-12 (E)
4-2-9. Crispening Adjustment .......................................................4-13 (E)
4-2-10. Level Dependent Adjustment .............................................4-14 (E)
4-2-11. Detail Frequency Adjustment ............................................4-15 (E)
4-2-12. H/V Ratio Adjustment ........................................................4-16 (E)
4-2-13. Detail Level Adjustment ....................................................4-17 (E)
4-2-14. Detail Clip Adjustment ......................................................4-17 (E)
4-2-15. Skin Tone Adjustment ........................................................4-18 (E)
4-2-16. Zebra Adjustment ...............................................................4-20 (E)
4-2-17. Auto Iris Adjustment ..........................................................4-21 (E)
4-2-18. Menu Settings After Finishing Adjustment .......................4-22 (E)
4-2-19. File Store ............................................................................4-22 (E)
Overall Electrical Alignment ..............................................................4-22 (E)
4-3-1. VCO CONT Frequency Adjustment ..................................4-23 (E)
4-3-2. VTR Y Adjustment ............................................................4-24 (E)
4-3-3. Test out Adjustment ...........................................................4-25 (E)
4-3-4. Chroma Adjustment ...........................................................4-26 (E)
4-3-5. INT SC Phase Adjustment .................................................4-27 (E)
4-3-6. REG Level Adjustment ......................................................4-28 (E)

BVP-550

4-3-7.
4-3-8.
4-3-9.
4-3-10.
4-3-11.
4-3-12.
4-3-13.
4-3-14.
4-3-15.
4-3-16.
4-3-17.
4-3-18.
4-3-19.
4-3-20.
4-3-21.
4-3-22.
4-3-23.

TEST1 Adjustment.............................................................4-29 (E)
TEST2 Adjustment.............................................................4-30 (E)
A/D Gain Adjustment ........................................................4-31 (E)
VA Gain Adjustment..........................................................4-32 (E)
VA MOD Adjustment ........................................................4-34 (E)
Black Shading Adjustment .................................................4-35 (E)
White Shading Adjustment ................................................4-37 (E)
Master Black Adjustment ...................................................4-38 (E)
Gamma Correction Adjustment .........................................4-39 (E)
Flare Adjustment ................................................................4-40 (E)
Pre Knee Adjustment .........................................................4-41 (E)
Knee and White Clip Adjustment ......................................4-43 (E)
A/D Clock Phase Adjustment ............................................4-45 (E)
VTR R-Y/B-Y Adjustment ................................................4-46 (E)
CCU Y/R-Y/B-Y Adjustment ............................................4-46 (E)
RGB Adjustment ................................................................4-48 (E)
Menu Setting After Finishing Adjustment .........................4-49 (E)

5. Spare Parts
5-1.
5-2.

5-3.
5-4.
5-5.

Notes on Repair Parts .................................................................................. 5-1
Exploded Views .......................................................................................... 5-2
Top Panel Block ........................................................................................ 5-2
Right Panel and Plug-In Boards ................................................................ 5-4
Left Panel and Boards ............................................................................... 5-6
Chassis and Shoulder Pad ......................................................................... 5-8
Bottom Block .......................................................................................... 5-10
Screws and Washers ............................................................................... 5-12
Electrical Parts List ................................................................................... 5-13
Optional Fixtures ....................................................................................... 5-40
Changed Parts............................................................................................ 5-41

6. Semiconductor Pin Assignments

BVP-550

3 (E)

7. Block Diagrams
OVERALL BLOCK .................................................................................... 7-2
VA-163 BOARD ......................................................................................... 7-4
AT-95 BOARD ........................................................................................... 7-5
SG-234 BOARD ......................................................................................... 7-6
DA-88 BOARD ........................................................................................... 7-7
IF-510 BOARD ........................................................................................... 7-8

8. Schematic Diagrams
LOCATION OF PRINTED CIRCUIT BOARDS ...................................... 8-1
VA-163 BOARD ......................................................................................... 8-2
AT-95 BOARD ........................................................................................... 8-6
SG-234 BOARD ....................................................................................... 8-10
DA-88 BOARD ......................................................................................... 8-14
IF-510 BOARD ......................................................................................... 8-18
MB-602 BOARD ...................................................................................... 8-20
FRAME WIRING ..................................................................................... 8-22

9. Board Layouts
VA-163 BOARD ......................................................................................... 9-1
AT-95 BOARD ........................................................................................... 9-3
SG-234 BOARD ......................................................................................... 9-5
DA-88 BOARD ........................................................................................... 9-7
IF-510 BOARD ........................................................................................... 9-9
MB-602 BOARD ...................................................................................... 9-11

4 (E)

BVP-550

Manual Structure
Purpose of this manual
This manual is the maintenance manual for Color Video Camera BVP-550.
This manual describes the information items necessary when the unit is supplied and
installed, items on maintenance, and items that premise the service based on the
components parts such as alignment, schematic diagrams, board layouts and spare
parts list, assuming use of system and service engineers.

Contents
This followings are summaries of the each section for understanding the manual.
Section 1. Installation
Describes information about connector input/output signals, instance of configuration and function of internal switches.
Section 2. Service Overview
Describes information about board locations, circuit description, replacement of part
and notes on services.
Section 3. Setup menu
Describes information about setup menu and self-diagnosis mode.
Section 4. Electrical Alignment
Describes electrical adjustment.
Section 5. Spare Parts
Describes parts list, exploded views, supplied accessories and fixtures list used in
the unit.
Section 6. Semiconductor Pin Assignments
Describes function diagrams and pin names of semiconductor used in the unit.
Section 7. Block Diagrams
Describes overall block diagram and the block diagrams for every circuit board.
Section 8. Schematic Diagrams
Describes schematic diagrams for every circuit board.
Section 9. Board Layouts
Describes board layouts for every circuit board.

BVP-550

5 (E)

Relative manuals
Besides this maintenance manual the following manuals are available for this unit.
• Operation Manual (Supplied with this unit)
This manual is necessary for application and operation of this unit.
• System manual (Not supplied with this unit)
This manual is necessary for connection and operation of this unit and other
peripheral equipments.
If this manual is required, please contact Sony service organization

6 (E)

BVP-550

Section 1
Installation
1-1. Connectors and Cables
1-1-1. Connector Input/Output Signals
Output Signal
• TEST OUT
BNC 75 Ω 1.0 Vp-p

REMOTE (6P FEMALE)

MIC IN (3P FEMALE)
)

(EXTERNAL VIEW)

(EXTERNAL VIEW)
No. SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

SERIAL DATA IN

Serial data for camera control

1

MIC IN (G)

2

SERIAL DATA OUT

2

MIC IN (X)

–60 dBu High impedance
balanced

3

UNREG (G)

3

MIC IN (Y)

4

VBS (X) OUT

5

VBS (G) OUT

6

UNREG OUT

BVP-550

VBS 1 Vp-p, Zo = 75 Ω

(0 dBu=0.775 Vrms)

+10.5 V to +17 V

1-1 (E)

1-1. Connectors and Cables

LENS (12P FEMALE)

VF (20P FEMALE)

(EXTERNAL VIEW)

(EXTERNAL VIEW)

No.

SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

RET VIDEO ENABLE IN

ENABLE: 0 V
DISABLE: +5 V or OPEN

1

NC

No connection

2

ABNORMAL IND OUT

2

RET 2 ENABLE IN

ENABLE: 0 V
DISABLE: +5 V or OPEN

H: Indicator lights
L: Indicator goes out

3

16:9 MODE OUT

3

GND

GND for UNREG

H: NORMAL (4:3)
L: WIDE (16:9)

4

AUTO +5 V OUT

AUTO: +5 V
MANU: 0 V or OPEN

4

NC

No connection

5

COMP/VBS SW IN/OUT

*Note1

5

IRIS CONT OUT

+3.4 V (F16) to
+6.2 V (F2.8)

6

CCIR/EIA OUT

H:CCIR, L:EIA

6

UNREG OUT

+10.5 V to +17 V

7

NC

No connection

8

G TALLY OUT

H: Indicator lights
L: Indicator goes out

7

IRIS POSITION IN

+3.4 V (F16) to
+6.2 V (F2.8)

8

AUTO/MANU OUT

AUTO IRIS: 0 V
MANUAL IRIS: +5 V

9

EXTENDER ON/OFF IN

EX 2 ON: 0 V
EX 0.8 ON: +1.8 V
OFF: +4.8 V

10

ZOOM POSITION IN

WIDE: 2 V
TELE: 7 V

11

NC

No connection

12

NC

No connection

1-2 (E)

9

NC

No connection

10

Y (X) OUT

1 Vp-p, VF:Zi = 1 kΩ

11

ZEBRA ON IN

H: OFF, L:ON

12

VF VIDEO OUT (X)

1.0 Vp-p, VF:Zi = 1 kΩ

13

NC

No connection

14

B-Y (X) OUT

700 mVp-p, VF:Zi = 1 kΩ,
75% color-bars

15

R-Y (X) OUT

700 mVp-p, VF:Zi = 1 kΩ,
75% color-bars

16

BATT IND OUT

H: Indicator lights
L: Indicator goes out

17

TALLY IND OUT

H: Indicator lights
L: Indicator goes out

18

+9.3 V (VF) OUT

REG +9.3 V

19

GND

GND

20

UNREG OUT

+10.5 V to 17 V

Note1: Specification of COMP/VBS SW Signal
When powering on, the microcomputer of the camera
identifies a viewfinder in use by detecting the voltage at
pin 5.
H: Color VF, L: B/W VF
• In use of B/W VF
Voltage control of pin 5 is disabled during operation.
Switching between the return video signal and monochrome signal for the viewfinder is done by the camera
and selected signal is output at pin 12 to the viewfinder.
• In use of Color VF
By controlling the voltage at pin 5 during operation,
switching between the decoded return video signal and
the camera component signal is done in the viewfinder.
H: Camera, L: Return video
BVP-550

1-1. Connectors and Cables
34

1

ANALOG CA (68P FEMALE)

(EXTERNAL VIEW)
68

35

*: In connection with CCU, **: In connection with VTR
No.

SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

UNREG GND

GND for UNREG

35

UNREG GND

GND for UNREG

2

UNREG GND

GND for UNREG

36

UNREG GND

GND for UNREG

3

VF UNREG GND

GND for VF UNREG

37

VF UNREG GND

GND for VF UNREG

4

LENS UNREG GND

GND for LENS UNREG

38

LENS UNREG GND

GND for LENS UNREG

5

UNREG IN

10.5 V to 17 V

39

UNREG IN

10.5 V to 17 V

6

UNREG IN

10.5 V to 17 V

40

UNREG IN

10.5 V to 17 V

7

VF UNREG IN

10.5 V to 17 V

41

VF UNREG IN

10.5 V to 17 V

8

LENS UNREG IN

10.5 V to 17 V

42

LENS UNREG IN

10.5 V to 17 V

9

R OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

43

G OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

10

B OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

44

R/G/B GND

GND for R/G/B VIDEO

11

VBS OUT (G)

GND for VBS VIDEO

45

VBS OUT (X)

1.0 Vp-p ±10%, Zo = 75 Ω

12

Y OUT (X)

VS 1.0 Vp-p, Zo = 75 Ω

46

R-Y OUT (X)

700 mVp-p, with sync 350 mV*
756 mVp-p (J) 
700 mVp-p (UC)  **
525 mVp-p (CE) 

13

B-Y OUT (X)

47

Y/R-Y/B-Y GND

GND for Y/R-Y/B-Y

No connection

48

NC

No connection

700 mVp-p, with sample 350 mV*
756 mVp-p (J) 
700 mVp-p (UC)  **
525 mVp-p (CE) 

14

NC

15

C OUT (X)

SC for S connector

49

C OUT (G)

GND for C

16

VBS GENLOCK IN (X)

1.0 Vp-p ±6 dB

50

VBS GENLOCK IN (G)

GND for GENLOCK/H CONT IN

17

RET VIDEO IN (G)

GND for RET VIDEO

51

RET VIDEO IN (X)

1.0 Vp-p, Zi = 1 kΩ

18

MONITOR VIDEO OUT (X)

VS 1.0 Vp-p, Zo = 75 Ω

52

MONITOR VIDEO OUT (G)

GND for MONITOR VIDEO

19

BATTERY ALARM IN

Zi = 300 Ω *

53

VTR START/STOP OUT

Zo ≤ 10 kΩ

20

NC

No connection

54

NC

No connection

21

AUDIO CH1 CONT OUT

0 V (0 dB) to 7 V (–50 dB or less)

55

MIC 1 OUT (G)

GND for CAM MIC

22

MIC 1 OUT (Y)

Zo ≤ 600 Ω, –60 dBu balanced

56

MIC 1 OUT (X)

Zo ≤ 600 Ω, –60 dBu balanced

23

NC

No connection

57

NC

No connection

24

SKIN TONE GATE OUT

1.0 Vp-p

58

NC

No connection

59

AUDIO LEVEL IN

Zi ≥ 1 kΩ (–15 dBu at 0 VU)

Note 2

Note 4

25

TAPE REM IN

*

26

VTR SYNC OUT

+5.0 Vp-p Negative pulse, Zo ≤ 100 Ω

60

NC

No connection

27

RET EN OUT

ENABLE; 0 V, DISABLE; +5 V or OPEN

61

V RESET IN/CF OUT

V Reset;0 V to +5 V, CF; 0 V to –5 V

28

PB REF IN

PB; +4.5 V,
CAM; 0 V or OPEN

62

REC TALLY IN

ON; +5 V,
OFF; +2.5 V or 0 V,
Zi ≥ 20 kΩ *Note 3

29

H CONT IN

0 V to 5 V, Analog

63

VTR SAVE OUT

SAVE; +4.5 V, STANDBY; 0 V, Zo ≤ 10 kΩ

30

ANALOG GND

64

GND

31

DIGITAL HD OUT

3 Vp-p for Digital

65

SD IN/OUT

Serial data for camera control

32

COM CONT IN

5 Vp-p

66

COM DATA OUT

5 Vp-p

33

IIC CLOCK OUT (CA)

5 Vp-p

67

IIC DATA IN/OUT (CA)

5 Vp-p, 4700 Ω, Pull up

34

IIC CLOCK OUT (ST)

5 Vp-p

68

IIC DATA IN/OUT (ST)

5 Vp-p, 4700 Ω, Pull up

BVP-550

(0 dBu=0.775 Vrms)
1-3 (E)

1-1. Connectors and Cables

Note 2 : Specifications of BATT ALARM Signal
VTR has a battery voltage detection and waring signal generation circuits and it sends the signal shown
below to the camera.
Battery Terminal
Voltage
(VTR internal battery)

12.0—11.1 Vdc

11.1—10.8 Vdc

10.8 Vdc—

1.0 ± 0.2 Hz
duty 50 ± 10 %

2—3 Vdc
across 300 Ω

Input Signal at
Pin 19
0V
LED on Viewfinder

Stays out

Blinks at 1 Hz

Lights up

Note 3 : Specifications of REC TALLY Signal
+1
5.0 -0.5 Vdc
Input Signal at
Pin 62
2.5 ± 0.5 Vdc
REC TALLY
signal
1.0 ± 0.2 Hz
duty 50 ± 10 %

0 ± 0.3 Vdc
Power
OFF

Power
ON

VTR Action

When VTR changes
from POWER SAVE
to REC START mode,
or when the servo is
lost

REC RESET signal
10—100 msec
When VTR
changes from
STANDBY to
REC START
mode, or in
REC mode

At the end of STOP
tape or When mode
VTR is put
into STOP
mode by itself
(REC RESET
signal does
not appear
when VTR is
put into STOP
mode by
operating the
camera)

Note 4 : Specifications of TAPE REM Signal
Tape Remaining (VTR)

Input Signal at Pin 25

TAPE1

TAPE2

+5 V

+5 V

+3.4 V

+5 V

0V

+3.1 V

0V

+5 V

+2.2 V

0V

0V

0V

1-4 (E)

Remark

G TALLY lamp lights at +3.1 V

BVP-550

1-1. Connectors and Cables

DIGITAL CA (68P FEMALE)

34

1

68

35

(EXTERNAL VIEW)

No.

SIGNAL

1

SPECIFICATIONS

No.

SIGNAL

Y (L) OUT

35

Y (1) OUT

2

Y (2) OUT

36

Y (3) OUT

3

Y (4) OUT

37

Y (5) OUT

4

Y (6) OUT

38

Y (7) OUT

5

Y (8) OUT

39

Y (M) OUT

6

R-Y (L) OUT

40

R-Y (1) OUT

7

R-Y (2) OUT

41

R-Y (3) OUT

8

R-Y (4) OUT

42

R-Y (5) OUT

9

R-Y (6) OUT

43

R-Y (7) OUT

10

R-Y (8) OUT

44

R-Y (M) OUT

11

B-Y (L) OUT

45

B-Y (1) OUT

12

B-Y (2) OUT

46

B-Y (3) OUT

13

B-Y (4) OUT

47

B-Y (5) OUT

14

B-Y (6) OUT

48

B-Y (7) OUT

15

B-Y (8) OUT

49

B-Y (M) OUT

16

DIGITAL GND

GND for DIGITAL

50

DIGITAL GND

GND for DIGITAL

3.3 Vp-p

3.3 Vp-p

3.3 Vp-p

SPECIFICATIONS

3.3 Vp-p

3.3 Vp-p

3.3 Vp-p

17

DIGITAL BLANKING OUT

3.3 Vp-p

51

DIGITAL SAMPLE OUT

3.3 Vp-p

18

DIGITAL SYNC OUT

3.3 Vp-p

52

DIGITAL VD OUT

3.3 Vp-p

19

NC

No connection

53

DIGITAL CF OUT

3.3 Vp-p

20

NC

No connection

54

NC

No connection

21

NC

No connection

55

NC

No connection

22

NC

No connection

56

NC

No connection

23

NC

No connection

57

NC

No connection

24

NC

No connection

58

NC

No connection

25

NC

No connection

59

NC

No connection

26

NC

No connection

60

NC

No connection

27

NC

No connection

61

NC

No connection

28

NC

No connection

62

NC

No connection

29

NC

No connection

63

NC

No connection

30

NC

No connection

64

NC

No connection

31

NC

No connection

65

NC

No connection

32

NC

No connection

66

NC

No connection

33

NC

No connection

67

NC

No connection

34

18 MHz OUT (G)

GND for 18 MHz

68

18 MHz OUT (X)

3.3 Vp-p

BVP-550

1-5 (E)

1-1. Connectors and Cables
1-2. Installaton Conditions
1-3. Function of Internal Switches

1-1-2. Connection Connector

1-3. Function of Internal Switches

Connection made with the connector panels during installation or service, should be made with the connectors/
complete cable assemblies specified in the following list,
or equivalent parts.

AT-95 Board

Connector Name

Connection Connectors/Cables

TEST OUT
(BNC)

1-560-069-11 Plug, BNC or
B-B Cable assembly
(cable length 1.5 m, option)

REMOTE
(6P FEMALE)

1-560-078-00 Plug, 6P Male or
HIROSE HR10-7PA-6P equivalent

MIC IN
(3P FEMALE)

1-508-084-00 XLR, 3P Male or
CANNON XLR-3-12C equivalent

4

3

2

1

AT

A

B

C

D

E

S1

1-2. Installaton Conditions

F

Operating Temparature : –20°C to +45°C
Storage Temparature
: –20°C to +50°C
Humidity
: No condence
• Install the unit in a location as dry and well-ventilated as
possible.
• Do not install the unit in the following conditions.
High temparature room or near the heat source
Excessive dust or mechanical vibration
Intense magnetic and electric fields
A place subjected to direct sunlight or strong light

G

AT 95(COMPONENT SIDE)

S1
: Setup menu select switch (S1-1 to S1-4)
Setup menu indicated on the viewfinder can be selected in
combination of switches S1-1 to S1-4.
( ) in parentheses: Factory-set positions
Setup Menu
S1-1 S1-2 S1-3 S1-4 Operation Paint Maintenance Reference Triming Config
OFF OFF OFF OFF YES

NO

NO

NO

NO

NO

(ON) (OFF) (OFF) (OFF) YES

YES NO

NO

NO

NO

OFF ON

OFF OFF YES

YES YES

NO

NO

NO

ON

OFF OFF YES

YES YES

YES

NO

NO

ON

OFF OFF ON

OFF YES

YES YES

YES

YES

NO

ON

OFF YES

YES YES

YES

YES

YES

OFF ON

For details on the setup menu, refer to Section 3.

1-6 (E)

BVP-550

1-3. Function of Internal Switches

IF-510 Board

MB-602 Board

4

3

2

1

IF

A

1

(ON)

S1

2

B

S1

3

C

4

VIDEO
LEVEL

D

5

E
6

F
7

G

S1
: VF connector signal select switch
Selects an output signal at VF connector.
RET: Return video signal from CCU
GEN: Reference signal for external synchronization which
is input at GENLOCK IN connector of CA
Factory-set position: RET

BVP-550

F

E

D

C

B

A

In setting a switch on MB-602 board, open the left side
panel.
S1
: PHANTOM POWER switch
Turn on when connecting the PHANTOM +48 V microphone to MIC connector.
Factory-set position: ON

1-7 (E)

1-4. Instance of Sytem Configuration

1-4. Instance of Sytem Configuration

ELECTRONIC
VIEWFINDER
BVF-77/77CE

STUDIO ZOOM LENS

CCD UNIT
OHB-400/400P
OHB-500/500P
OHB-500WS/500WSP

TRIAX CABLE (*2)

COLOR VIDEO CAMERA
BVP-500/500P

1.5" VF(BVF-10/10CE)
CCD UNIT
OHB-450/450P
OHB-451/451P
OHB-550/550P
OHB-550WS/550WSP

ELECTRONIC
VIEWFINDER
BVF-55/55CE

CAMERA ADAPTOR
CA-550/550P

TRIAX CABLE (*2)
or COAX CABLE

ENG/EFP LENS
COLOR VIDEO CAMERA
BVP-550

OTHER OPTIONAL ACCESSORIES
For BVP-500/500P

STANDALONE UNIT
BKP-5910/5910P
SCRIPT HOLDER
BKP-7911/7912

For BVP-550

ELECTRET CONDENSER MICROPHONE
ECM-MS5
MICROPHONE
C-74 (Sony P/N 1-542-099-11)
CRADLE SUSPENSION
CRS-3P
CARRYING CASE
LC-303SFT

For CA-550/550P

1-8 (E)

TELEPROMPTER UNIT
BKP-5971
BVP-550

1-4. Instance of Sytem Configuration

REMOTE CONTROL
PANEL
RCP-700 RCP-701

REMOTE CONTROL PANEL
RCP-720 RCP-721 RCP-740 RCP-741
CCA-5 CABLE
(*1)
CCA-5 CABLE
(*1)

CAMERA CONTROL UNIT
CCU-700/700P

CCA-5 CABLE
(*1)

CCA-5 CABLE
(*1)
CAMERA COMMAND
NETWORK UNIT
CNU-700/500

PIX 2
WF 2

VIDEO SELECTOR
VCS-700

CCA-5 CABLE
(max. 200m)

PIX 2
WF 2
PIX

MASTER SETUP UNIT
MSU-700

WF

CCA-5 CABLE
(max. 200m)

CAMERA CONTROL UNIT
CCU-700/700P
CCA-5 CABLE
(*1)

*1: CCA-5 CABLE LENGTH

RCP-700/701

(
CCA-5

RCP

)
CCA-5

CNU

CCA-5

CCU

Total length 200m or less

*2: TRIAX CABLE LENGTH

BVP-550

Diameter

Maximum length

8.5 mm

1000 m

14.5 mm

2000 m

1-9 (E)

1-4. Instance of Sytem Configuration

COLOR VIDEO CAMERA
BVP-550
1.5" VF(BVF-10/10CE)
CCD UNIT
OHB-450/450P
OHB-451/451P
OHB-550/550P
OHB-550WS/550WSP

CAMERA ADAPTOR
CA-550/550P

DIGITAL VIDEO CASSETTE
RECORDER
DVW-250/250P

CCZ CABLE
ENG/EFP LENS

AC ADAPTOR
AC-550/550P

CCA-5 CABLE
(max. 50m)

REMOTE MASTER
CONTROL SETUP
PANEL
UNIT
RCP-700
RCP-701
RCP-720
RCP-721
RCP-740
RCP-741

MSU-700

RETURN VIDEO
SELECTOR
CAC-6
REMOTE
CONTROL
UNIT
RM-P9
VIDEO CASSETTE
RECORDER
BVV-5/5PS
BETACAM
ADAPTOR
CA-553

CCZ CABLE

CAMERA ADAPTOR
CA-3A

CA-57A/57AP
CA-55A/55AP
CA-50A/50AP
CAMERA
ADAPTOR

1-10 (E)

VTR

CCU-370/370P
CCU-355/355P
CCU-350/350P
CAMERA
CONTROL
UNIT

BVP-550

1-5. Optional Accessories for Viewfinder

1-5. Optional Accessories for Viewfinder
The following accessories are available separately for the
supplied viewfinder. Please order as necessary.
• VF Rotation Bracket BKW-401
By fitting the BKW-401 to the camera, you can rotate
the viewfinder out of the way so that your right leg does
not hit the viewfinder while you are carrying the camera.
• Fog-proof Filter (Sony Part No. 1-547-341-11)
Use in place of the MC protector shown in the figure.
• Lens Assembly for Aged Eye
(Sony Part No. A-8262-537-A)
• Lens Assembly for Low Power
(Sony Part No. A-8262-538-A)
• Lens Assembly (Standard magnification with special
compensation for aberration)
(Sony Part No. A-8267-737-A)
• High Performance (3X) Lens Assembly
(Sony Part No. A-8314-798-A)
Use in place of the VF tube sub assembly shown in the
figure.

Hold ring
Align red lines

VF tube sub
assembly

MC protector
Filter holder
Eyecup

* To protect the viefinder lens from drops, put the MC protector
in the filter holder and attach the eyecup securely.

BVP-550

1-11 (E)

1-12 (E)

BVP-550

Section 2
Service Overview
2-1. Notes on Service

2-1-4. Notes on Repair Parts

2-1-1. Note on Replacement of Parts

1. w
Safety Related Components Warning
Components marked ! are critical to safe operation.
Therefore, specified parts should be used in the case of
replacement.

Every component electrical part mounted on the PR-211
and CN-1142 boards cannot be replaced. And also a 68-pin
connector on the CN-1120/1121 board cannot be. If there
is any defective part, replace the mounted circuit board
itself.
The PR-211 board is provided with a termination board
CN-1142 on it. The CN-1142 board is necessary when the
PR-212 board of OHB-550WS/550WSP is not installed.
Unless the PR-212 board is installed, be sure to connect the
CN-1142 board to the PR-211 board.

2-1-2. Description of EEPROM Data
The table below gives the holding data of EEPROM on
every printed circuit board.
Board

Ref. No.

Holding data

VA-163

IC26

VA-163 adjustment data

AT-95

IC46

Triming/Reference files

SG-234

IC21

SG-234 adjustment data

DA-88

IC10

DA-88 adjustment data

IF-510

IC155

IF-510 adjustment data

MB-602

IC5

Model name, Serial number of the unit

2. Standardization of Parts
Some repair parts supplied by Sony differ from those
used for the unit. These are because of parts commonality and improvement.
Parts list has the present standardized repair parts.
3. Stock of Parts
Parts marked with “o” at SP(Supply Code) column of
the spare parts list may be not stocked. Therefore, the
delivery date will be delayed.
4. Units Representation
The following represented units are changed or
omitted in writing.
Units

Representation

Capacitance

µF

uF

Inductance

µH

uH

Resistance

Ω

Abbreviation

n
The IC listed above cannot be replaced because it is the
EEPROM that is holding data inherent in the board. The
part number listed in Section 5 “Spare Parts” is for an
EEPROM which is not programmed. If replacement is
needed, consult your Sony representatives.

2-1-3. Extension Boards
The extension boards and harness are available separately
for check or adjustment of some printed circuit boards.
Extension Board/Harness

Sony P/N

EX-464

J-6395-040-A VA-163
AT-95
SG-234
DA-88
IF-510
Plug-in boards for CA

BVP-550

To be extended

2-1 (E)

2-2. Removal of Cabinet
2-3. Location of Printed Circuit Boards

2-2. Removal of Cabinet

To remove the both side panels
Loosen the four screws respectively.

2-3. Location of Printed Circuit Boards

SW-732

MB-602
CN-1120
PR-211
CN-1121
CN-1142

IF-510
DA-88
CN-1122

SG-234
AT-95
VA-163

SW-731

2-2 (E)

SW-733

SW-730
SW-742

BVP-550

2-4. Circuit Description

2-4. Circuit Description
Circuit description for the BVP-550 and CCD unit OHB450/451/550/550W series (available separately) is described here. The BVP-550 is called as BVP, and OHB450/451/550/550W series is called as OHB in this section.

DR-302 board (OHB-451/451P only)
The DR-302 is a driving board for one optical filter disk,
which motor-drives a filter selected by the RCP or MSU.
The DR-302 board consists of a motor-drive circuit, and a
servo circuit comprised of a selected filter detection and
filter position voltage generation circuits.

(1) CCD Drive System (OHB)

(2) Video Signal System

TG-159 board
The TG-159 outputs the pulses for driving the CCD to the
DR-271 board and outputs the pulses for sampling the
CCD output to the PA-181 board.
The driving pulses are synchronized with the HD and VD
pulses input from the BVP and are output.
Pulses are generated from the VCO clock (36 MHz) of the
board. The clocks for the digital processing circuit (36
MHz, 18 MHz)are also output to the BVP.
CCD V-sub voltage, white shading data and so on are also
stored in the EEPROM of the TG-159 board.

VA-163 board
The VA-163 board amplifies the video signals output from
the OHB and performs the following processings:
• Black shading correction
• Gain-up control
• Blanking cleaning
• White shading correction
• Feedback clamping
• White balancing
• Flare compensation, and
• Pre-knee
In addition, it also switches between the video signals,
TEST SAW(TEST1) signal and 3-STEP TEST(TEST2)
signal.

DR-271 board
The DR-271 board converts the pulses from the TG-159
board to directly drive the CCD. The converted pulses are
transmitted to the CCD via the BI-91(R)/91(G)/91(B)
board respectively. The board also has a circuit which
makes +29 V from +15 V for the V-sub voltage. Furthermore, the board also has an interface circuit for the optical
filter.
BI-91(R)/91(G)/91(B) boards
The CCDs are mounted on the BI-91(R)/91(G) /91(B)
boards. These boards supply the driving pulses and control
voltages to the CCD.
The signals output from the CCD are sent to the PA-181
board via the emitter follower.
PA-181 board
The PA-181 board extracts video signals from the CCD
signals output from the BI-91(R) /91(G)/91(B) boards by a
correlated double sampling circuit, and amplifies the R and
G signals by one time, and the B signal by three times. The
resultant signals are output to the VA-163 board of the
BVP.

BVP-550

PR-211 board
The PR-211 board converts the analog R, G, and B video
signals into digital signals with an A/D converter having
sampling/holding functions.
It generates clocks required for the A/D conversion and the
digital processings from the clocks generated by the OHB.
In addition, the PR-211 board adds a linear matrix and
detail signals to the analog-to-digital-converted R, G and B
signals.
It performs the processings such as pedestal control,
gamma correction, knee correction and white clipping for
the signals. It also performs the followings.
• Generates an internal color-bar signal and switches
between this signal and the main line signals.
• Creates detail and aperture signals from digital R and G
signals.
• Creates a skin tone singal.
• Detects signals for an auto iris, flare compensation,
DCC, and auto white/black balancings.
• Detects black/white shadings, generates a waveform to
compensate them and outputs the wavefoem to the VA163 board.
• Detects black levels and outputs the feedback clamp
voltage to the VA-163 board.
• Generates TEST SAW waveforms and output them to
the VA-163 board.
2-3 (E)

2-4. Circuit Description

• Generates a 27-MHz clock signal required for the VTR
control.
The video signals that has thus been digital-processed, are
then converted to Y, R-Y and B-Y signals. Some signals
are output to the DA-88 board and the others are output via
the MB board as a digital video signal output at the same
time. The Y/C signals are generated from the Y, R-Y and
B-Y signals with a color encoder IC on the PR-211 board.
These signals, that were sampled at 36-MHz rate and
quantized by 10 bits, are digital-to-analog converted. And
the resultants are then output to the DA-88 board as a
monochrome signal for VF, wide-band luminance signal,
or modulated chroma signal. The monochrome signal for
VF has a zebra signal for level indication, and character
signal and center marker signal on it.
DA-88 board
The monochrome signal for VF (VF Y) sent from the PR211 board goes through a lowpass filter and is output to the
MB-602 board. The wide-band luminance signal Hi-Ys is
output via a lowpass filter to the IF-510 board. The
modulated chroma signal C goes through a black clamp
circuit and lowpass filter and is added to the Hi-Ys. The
resultant is output to the IF-510 board as a VBS signal.
The Y, R-Y and B-Y signals, that are input from the PR211 board as the digital video signals, are aligned in phase
with video signals in another channels by a digital delay
line. The resultant is digital-to-analog converted and is
then output via a lowpass filter to the IF-510 board. On the
other hand, an analog component signal is generated in
combination with the above-mentioned Hi-Ys signal, R-Y
and B-Y signals. The analog component signal is controlled, on the level adjustment and reference signal
addition, by the AT-95 board according to equipment
connected to the camera (VTR or CCU). The analog
component signal is output to external equipment via the
68P interface connector .
IF-510 board
Input signals at the IF-510 board are as follows;
Signals from the DA-88 board: VF Y, VBS, Y, R-Y and B-Y
Signals from external equipment: Reference signal for
external synchronization, Return video signal
By combination with these signals, the IF-510 board
outputs the following signals.
• VBS OUT signal
Output via a buffer amplifier to external equipment.

2-4 (E)

• VBS OUT signal for RM
Output to an interface connector for a remote control unit
RM-P9. Using the setup menu, a character signal to
confirm the menu setting can be mixed to this signal.
• TEST OUT signal
With the signal select switch at the right top of the
camera, the above-mentioned VBS or the VF Y signal
can be selected as a TEST OUT signal output at the
TEST OUT connector.
• VF OUT/MONI OUT signal
The same signal is output as the VF OUT signal and the
MONI OUT signal. One of the VF Y, VBS, or return
video or reference signal selected by S1 on the IF-510
board, is selected. The selected signal is mixed with a
center marker and safety-zone pulse, and is then output.
The VF OUT signal is output at the VF connector and
the MONI OUT signal is output at the 68P interface
connector.
• R/G/B output signals
The Y, R-Y and B-Y signals are converted to the R, G
and B signals by a matrix circuit. The converted signals
are output at the 68P interface connector.
• Y/R-Y/B-Y output signals for VF
These signals are for a color viewfinder. A character
signal and SKIN GATE signal are mixed with the abovementioned Y, R-Y and B-Y signals. The resultants are
output to the VF.
In addition, the IF-510 board is equipped with the
following circuits.
• HD/VD external sync circuit
When displaying the return video or reference signal on
the viewfinder screen, it is necessary to synchronize the
cursor signal with those signals. And a sync signal is
separated from those signals to generate the external HD
and VD signals, and the resultant is sent to the cursor
signal generation circuit on the PR-211 board.
• Peak-detects the G signal and outputs to the AT-95
board.
• Transmits the SKIN GATE signal from DA-88 board to
the CCU via the 68P interface connector.

BVP-550

2-4. Circuit Description

(3) Auto system
AT-95 board
The AT-95 board consists of a microcomputer which
controls the camera according to the instructions stored in
a ROM. Operations of the board are listed below;
• Analyzes instructions of the function switches, video
system detection data and analog data.
• Outputs various control signals and compensation
signals to the boards.
• Outputs status information and self-diagnosis infomation
as character data from the character generator.
• Incorporates the interface function with the RM-P9 or
the CCU-700/700P.
(4) Pulse system
SG-234 board
The SG-234 board has a sync signal generator which
generates various sync signals for the camera. The sync
signals are generated from the clock pulse input from the
OHB via the PR-211 board. They are output to the board
of the camera, OHB and the camera adaptor (CA) respectively. This generator has two modes to synchronize with a
reference signal input for external synchronization. One is
a VBS input mode when the camera is used alone and the
other is V RESET/H CONT mode when the CCU is
connected to the camera. Input channels of the V RESET
and H CONT signals differ depending on the type of CA in
connection with the camera.

BVP-550

2-5 (E)

2-5. Periodic Replacement Part

2-5. Periodic Replacement Part
Parts listed below are periodic replacement parts. They are subject to cracks with the
lapse of time. Check sometimes by visual, and replace as necessary.
No.

Description

Sony P/N

Remarks

1

PAD ASSY (LARGE)

A-8278-237-A

2

PAD ASSY (SMALL)

A-8278-238-A

3

WIND SCREEN

3-708-875-0X

Supplied with VF

4

MIC CUSHION, RUBBER

3-692-138-0X

Supplied with VF

5

COVER, SW

3-676-244-1X

6

EYE CUP

3-723-079-0X

7

CAP, CONNECTOR

3-692-914-1X

Supplied with VF

6

3

4

7

5

2-6 (E)

2

1

BVP-550

2-6. Cleaning

2-6. Cleaning

2-6-2. Cares After Using at Special
Environment

2-6-1. Cleaning of Viewfinder (Option)
By extracting VF tube sub assy, lens and MC protector can
be easily cleaned. And also dust on the CRT surface or
mirror can be easily cleaned off.
1. Turn the hold ring to the left and extract the VF tube
sub assy.
2. Detach the eyecup.
3. Remove the MC protector with a commercially
available camera lens cleaner. Blow off dust with a
blower carefully so as not to flaw the mirror.
5. After the cleaning is completed, install by reversing
the preceding steps. Align red lines of the VF tube and
VF tube sub assy when inserting, and turn the hold
ring to the right until it locks.

It is recommended to check the following items after
gathering the news at seaside, dust area or spa.
1. Clean off sand and other dust in the unit carefully.
2. Do not allow salt in seawater or sulfur in spa to contact
a not-painted surface of the cabinet. They may cause to
corrode. Clean with alcohol immediately if contacted.
3. Clean the connection surface of connectors.
4. Carry out the common operation check and check that
the unit has not an abnormal sound or operation.

m
• Do not use any type of solvent, such as alcohol, benzine
or thinner to remove stains.
• Be sure to attach the eyecup to the VF, or the MC
protector may come off.
• To protect the viewfinder lens from drops, put the MC
protector in the filter holder and attach the eyecup
securely.

Hold ring
Align red lines

VF tube sub
assembly

MC protector
Filter holder
Eyecup

BVP-550

2-7 (E)

2-7. Replacement of External Connectors

2-7. Replacement of External
Connectors

3. Remove the two screws and remove the VF connector.
Then unsolder it.

2-7-1. VF Connector
1. Remove the four screws and remove the CCD unit.
2. Disconnect the three connectors CN3 on the DR-271
board, CN3 on the TG-159 board and CN2 on the PA181 board of the CCD unit.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

VF connector

Precision
P2.6 X 5

TG-159

4. Install a new connector in the reverse procedures of
removal.

CCD Unit
PA-181

2-7-2. MIC Connector
B4 X 8
B4 X 8
CN3

1. Remove the two screws and remove the MIC connector.
Then unsolder it.

B4 X 8
B4 X 8
DR-271

MIC connector

Precision
P2.6 X 5

2. Install a new connector in the reverse procedures of
removal.

2-8 (E)

BVP-550

2-7. Replacement of External Connectors

2-7-3. TEST OUT/REMOTE Connector
1. Remove the three screws and remove the Pad Assembly (Large).

3. Remove the screw and remove the connector
bracket.Unsolder the TEST OUT/REMOTE connector.
Remove the each nut and remove the TEST OUT/
REMOTE connector.

Connector
bracket
Pad assembly(small)

Pad assembly(large)

2. Remove the seven screws and remove the V shoe
bracket.

Precision
P2.6 X 5

4. Install a new connector in the reverse procedures of
removal.

B3 X 5

K3 X 8

V Shoe bracket
B3 X 5

BVP-550

2-9 (E)

2-8. Disconnecting/Connecting of Flexible Card Wires

2-8. Disconnecting/Connecting of
Flexible Card Wires

Type A

The flexible card wires are used between the MB-602
board and the CCD unit, the MB-602 board and the CN1120/1121/1122/PR-211 boards. Be careful not to bend
these wires. This shortens the wire life.

A

Disconnecting
Conductive surface

1. Turn off the power of the camera.

MB-602&OHB

Type A
(between the MB-602 board and CCD unit)
2. Lift up the portion A in the direction of the arrow and
disconnect the flexible card wire.
Type B
(between the MB-602 board and CN-1120/1121/1122/
PR-211 boards)
2. Slide portion B in the direction of the arrow and
disconnect the flexible card wire.

Type B

B

B
Conductive surface

Connecting
MB-602&CN-1120/1121/1122/PR-211

m
• Be careful not to insert the flexible card wires obliquely.
• Check that the conductive surface of the flexible card
wire is not soiled with dust.
Type A
(between the MB-602 board and CCD unit)
1. Lift up the portion A in the direction of the arrow.
Insert the flexible card wire as far as it will go into
connector with the conductive surface of the wire put
down.
2. Push down the portion A to secure the flexible card
wire.
Type B
(between the MB-602 board and CN-1120/1121/1122/
PR-211boards)
1. Slide portion B in the direction of the arrow and insert
the flexible card wire as far as it will go into connector
with the conductive surface of the wire put down.
2. Slide portion B in the opposite direction of the arrow
and lock each connector.

2-10 (E)

BVP-550

2-9. Board Replacement

2-9.

Board Replacement

2-9-1. MB-602 Board
1. Remove the right and left side panels of the camera.
(Refer to “2-2. Removal of Cabinet”.)
2. Pull out the five plug-in boards.
3. Remove the four screws and remove the PR-211
board.
4. Disconnect the four connectors.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.
5. Remove the four screws and remove the four supports.
Remove the MB-602 board.

6. Disconnect the connectors.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

CN11

CN7
CN12

MB-602
CN13

Support

CN14

CN32

7. Install a new board in the reverse procedures of
removal.

B3 X 5
B3 X 5

Support
CN-1142
PR-211
B3 X 5

BVP-550

2-11 (E)

2-9. Board Replacement

2-9-2. CN-1120/1121 Board
1. Remove the right side panel of the camera. (Refer to
“2-2. Removal of Cabinet”.)
2. Pull out the five plug-in boards and the four shielding
plates.
3. Remove the DC/DC convertor unit.
(Refer to “2-11. Replacement of DC/DC Convertor
Unit”.)
4. Remove the rail(upper).
5. Remove the four screws and remove the rail bracket.

6. Remove the two screws and remove the CN-1120/
1121 board.
7. Disconnect the connector.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

CN-1120

Precision
P2 X 5

B2.6 X 5

B3 X 5

CN-1121

B2.6 X 5

Rail
bracket

Rail(upper)

2-12 (E)

8. Install a new board in the reverse procedures of
removal.

BVP-550

2-10. Replacement of Function Switches

2-10. Replacement of Function Switches

2-10-2. Front Switch Panel Block

2-10-1. Side Switch Panel Block

1. Remove the two screws and remove the front switch
panel.
2. Disconnect the connector CN501 on the SW-731
board.

1. Remove the two screws and remove the side switch
panel.
2. Disconnect the connector CN801 on the SW-730
board.

CN801
Precision
P2.6 X 5

SW-731

SW-730
Side switch panel

3. Remove the two screws.Remove the SW-730 board,
shielding plate and drop protection cushion.
4. Unsolder the terminals and remove the switch to be
replaced.

Precision
P2.6 X 5
CN501

Front switch panel

3. Remove the two screws.Remove the SW-731 board,
knob packing, VR knob and shielding plate.
4. Unsolder the terminals and remove the switch to be
replaced.

Switch garud
Shielding plate
Drop protection
cushion
SW-730

BTP2.6 X 6

Shielding plate

BTP2.6 X 6

SW-731

5. Install a new switch in the reverse procedures of
removal.

P2.6 X 5
P2.6 X 5

5. Install a new switch in the reverse procedures of
removal.

BVP-550

2-13 (E)

2-10. Replacement of Function Switches

5. Remove the two screws and remove the menu bracket.

2-10-3. VF DISP Switch
1. Remove the four screws and remove the CCD unit
referring to “2-7-1. VF Connector”.
2. Disconnect three connectors CN3 on the DR-271
board, CN3 on the TG-159 board and CN2 on the PA181 board.
n
When disconnecting the connectors, refer to “2-8.
Disconnecting/Connecting of Flexible Card Wires”
and “2-7-1. VF Connector”.
3. Remove the three screws and remove the handle.
4. Remove the three screws and remove the handle
holder.

SW-732

B2.6 X 5

Menu bracket

B4 X 8
B5 X 12

Handle
B4 X 8

B4 X 8
Handle holder

6. Remove the two screws and remove the SW-732 board
and the drop protection cushion.
7. Unsolder the terminals and remove the switch to be
replaced.
SW-732

Drop protection cushion
B3 X 5

B2.6 X 5

8. Install a new switch in the reverse procedures of
removal.

2-14 (E)

BVP-550

2-11. Replacement of DC/DC Convertor Unit

2-11. Replacement of DC/DC Convertor
Unit
1. Remove the right and left side panels of the camera.
(Refer to “2-2. Removal of Cabinet”.)
2. Remove the two screws on the left side of the camera
shown in the figure.

3. Thread the two screws that were removed in Step 2,
into the holes of the DC/DC convertor unit three turns.
n
Never turn the two screws more than three turns.
4. Hold the two screws with hands and remove the DC/
DC convertor unit.

DC/DC
Convertor Unit

B2.6 X 5

5. Install a new DC/DC convertor unit pushing with
hands.
Secure it to the MB-602 board with the two screws
that were removed in Step 2.

BVP-550

2-15 (E)

2-16 (E)

BVP-550

Section 3
Setup Menu
3-1. Setup Menu
The Setup menu is used to select settings of camera operation, select items to be displayed on the viewfinder screen, and select the way the items are displayed.
It is also used for adjustment. The menu appears on the viewfinder screen.
By changing a setting through this menu, the same signal as output to the viewfinder is enabled to be
output at the TEST OUT connector.

•

Configuration of the Setup Menu

The setup menu consists of the following menus
• Operation menu
• Paint menu
• Maintenance menu
• Reference menu
• Triming menu
• System config menu
Operation and Paint menus are normally accessible. To display the other menus, switch setting of the
AT-95 board is required. For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”
•

Equipment required

CCD Unit
OHB-450/550 series
Camera Adaptor CA-550/550P
Supply power from a camera control unit CCU-700/700P, AC adaptor AC-550/550CE or VTR.
•

Switches and Button

DISP switch
DISP
ON
OFF
MENU

MENU SEL switch
MIC
LEVEL

CANCEL button

CANCEL

BVP-550

3-1(E)

3-1. Setup Menu

DISP switch
ON
: Displays characters and messages indicating the video camera settings and operation status.
OFF
: No character or marker display appears on the viewfinder screen.
MENU : The setup menu appears on the viewfinder screen.
MENU SEL switch
Selects the menu item or setting value displayed on the viewfinder screen.
CANCEL button
Cancels the contents of a menu setting, or returns to the page select mode or TOP menu.
n
The TOP menu screen indicates the entire configuration of menu items.
To display the TOP menu, set the DISP switch to MENU (from OFF) while holding down the MENU
SEL switch.
•

Basic Operation

1. Displaying the menu
To display the Operation menu, set the DISP switch to MENU.
To display the other menus than the Operation menu, first of all, the TOP menu shall be displayed.
To display the TOP menu, set the DISP switch to MENU while holding down the MENU SEL
switch. Then turn the MENU SEL switch to move the cursor to a menu item which you want and
press the MENU SEL switch.
2. To shift the page, turn the MENU SEL switch with a page scroll bar displayed at the top-right of the
screen until the desired page is displayed and press the MENU SEL switch.
The menu enters the item select mode and the page scroll bar disappears.
3. To shift the item, turn the MENU SEL switch until the → cursor points the item to be set and press
the MENU SEL switch.
4. To change the value, turn the MENU SEL switch. You can change the values quickly by turning
the MENU SEL switch fast. You can make very fine adjustments by turning the switch slowly. By
pressing the MENU SEL switch, the setting is entered.
5 The menu page is returned to the item select mode or page select mode every time the CANCEL
button is pressed.
6. To exit from the setup menu, set the DISP switch to OFF.
• ROM version
Contents in the menu and factory settings may differ from the descriptions in this manual depending on
the version of ROM (IC36) on the AT-95 board.
In this section, an item under “Ver.” in the table shows a ROM version. If any version is given, it shows
that the function for the item is added or changed, and the ROM with that version or higher version
supports the function. If no version is given, it shows that every ROM version supports the function.
To confirm the ROM version easily proceed as follows:
1. Set the DISP switch to OFF.
2. Power the unit on while holding down the MENU SEL switch. The indication of ROM version
is displayed for about three seconds.

3-2(E)

BVP-550

3-1. Setup Menu
3-1-1. Operation Menu

3-1-1. Operation Menu
This menu contains items contained for changing camera settings to suit shooting conditions during
normal camera operations.
(Boxed items under “Settings” indicate the factory setting.)
Page

Ver.

VF DISPLAY

MARKER

a)

Item

Settings

Contents

ZOOM

[ON], OFF

Turns on and off the indications of zoom position and lens extender.

SHUTTER

[ON], OFF

Turns on and off the indications of shutter speed and mode.

IRIS

[ON], OFF

Turns the iris setting indication on and off.

AUDIO

[ON], OFF

Turns the audio level indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

TAPE

[ON], OFF

Turns the tape-remaining indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

ZEBRA

ON, OFF

Turns the zebra indication on and off. (Corresponds to the ZEBRA
switch of VF connected to the camera.)

MESSAGE

[ON], OFF

Turns on and off the indication of message in changing each setting of filter,
white balance memory, gain value, DCC(auto knee) and shutter speed.
The indication is displayed within three seconds in the center of the
viewfinder screen.

MODE

CHG, [USR]

CHG : The indications of the optical filter, white balance memory and
gain value are displayed only when they differ from the standard
settings (FILTER:1B, WHITE:A, GAIN:0dB)
USR : The indications are displayed corresponding to the settings on
the VF DISPLAY page.

FILTER

*, [ON], OFF

Turns the optical filter indication on and off.

WHITE

*, [ON], OFF

Turns the white balance memory indication on and off.

GAIN

*, [ON], OFF

Turns the gain value indication on and off.

CENTER

[ON], OFF

Turns the center marker indication on and off.

SAFETY ZONE

80%, 90% , OFF

Turns the safety zone marker indication on and off and selects the area
indicated by that marker. a)

BOX CURSOR

ON, [OFF]

Turns the box cursor indication on and off.

BOX H POS

-99 to 99 ([0])

Shifts horizontally the location of the box cursor on the screen.

BOX V POS

-99 to 99 ([0])

Shifts vertically the location of the box cursor on the screen.

BOX WIDTH

00 to 99 ([41])

Sets the width of the box cursor.

BOX HEIGHT

00 to 99 ([10])

Sets the height of the box cursor.

In the 16:9 mode, the following kinds of safety zone marker can be selected in combination of the settings of “SAFETY ZONE” and
“4:3 SAFETY”.

SAFETY ZONE
80%
4:3
SAFETY

90%

OFF

16:9

ON

4:3 area
Safety
zone

OFF

BVP-550

Not indicated

3-3(E)

3-1. Setup Menu
3-1-1. Operation Menu

Page
GAIN SW

WIDE SCREEN
(For OHB-550WS
/550WSP)

MON OUT

AUTO IRIS
AUTO KNEE
(DCC)

b)

Ver.

Item

Settings

Contents

LOW

-3,[0], 3, 6, 9, 12,
18, 24, 30 dB

Selects the gain value for each gain switch position.
(LOW, MIDDLE, HIGH)

MID

-3, 0, 3, 6, [9], 12,
18, 24, 30dB

HIGH

-3, 0, 3, 6, 9, 12,
[18], 24, 30dB

16:9/4:3 MODE

[16:9], 4:3

Selects the aspect ratio for the video signal output.
(This setting is valid only when the camera is used alone.) b)

VF ASPECT

[AUTO], 4:3

Selects the aspect ratio for the viewfinder indication.
AUTO: Automatically selects according to the aspect ratio selected by
16:9/4:3 MODE on the WIDE SCREEN page.
4:3 : Selects 4:3 regardless of the 16:9/4:3 MODE setting.

4:3 SAFETY

ON, [OFF]

Selects whether the safety zone marker showing the 4:3 area is
indicated in the 16:9 mode, or not. a)

16:9 ID ON VF

ON, [OFF]

Turns on and off the 16:9 indication in the 16:9 mode on the viewfinder
screen.
(This setting is valid only when the DISP switch is set to on or off.)

16:9 ID
ON BARS

ON, [OFF]

Selects whether the 16:9 indication is displayed on the internal color-bar
in the16:9 mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

BNC TEST OUT [VBS], RM, VF Y

Selects a video signal to be output at TEST OUT connector.
VBS : Color composite signal
RM : The same as a signal ouput to RM-P9
Y
: Y(monochrome) signal

RM/MON CHAR [ON], OFF

Selects whether character signals displayed on the viewfinder screen
are mixed with the VBS signal to be output to RM-P9, or not. Turning on
is convenient to operate the setup menu by RM-P9.

VBS LOCK

ON, [OFF]

Used to prevent misoperation by ENC/RGB switch.
ON : ENC signal is output at TEST OUT connector regardless of
ENC/RGB switch setting.
OFF : A signal selected by ENC/RGB switch is output.

VF VIDEO
MODE

[Y], MIX, NAM

Selects a video signal to be output to the viewfinder.
Y
: Y=0.3R+0.59G+0.11B; The same as a camera output signal
MIX : Y=0.33R+0.33G+0.33B
NAM : Selects one of the R, G, and B signal that is maximum in level.

[RGB]-G

ON, [OFF]

Sets signals selectable by RGB switch.
ON : R-G, B-G
OFF : R, G, B

IRIS OVERRIDE

-99 to 99 ([0])

Sets the reference value for automatic iris adjustment.
-99 (further closed) ↔ 99 (further opened)

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

APL RATIO

-99 to 99 ([0])

Sets the way the iris is automatically adjusted.
-99 (PEAK) ↔ 99 (AVERAGE)

AUTO KNEE
POINT

-99 to 99 ([XX])

Sets the point on which the knee function starts to have effect in the
auto-knee mode.

AUTO KNEE
SLOPE

-99 to 99 ([XX])

Sets the volume of the effect of the knee function in the auto-knee mode.

The change of aspect ratio using this menu is disabled because the CCU’ s setting has a priority when the CCU is connected.
If you want to change the aspect ratio when the CCU is connected, use the OTHERS page of the Paint menu. When you attempt to
change using this menu, a message “Use Paint MNU” is displayed.

3-4(E)

BVP-550

3-1. Setup Menu
3-1-1. Operation Menu

Page

Ver.

STAND
ALONE

1.10
AUTO
SETUP

DIAGNOSIS

c)

Item

Settings

Contents

H PHASE

-99 to 99 ([XX])

Sets the horizontal phase of the camera in the genlock mode.

SC PHASE

0 to 360([XX])

Sets the subcarrier phase of the camera in the genlock mode.

CABLE COMP

ON, [OFF]

Turns on and off the cable compensation circuit for the external sync
signal in the genlock mode.

SNG BARS

ON, [OFF]

Turns the color-bar signal for SNG on and off.

MASTER BLACK

-99 to 99 ([0])

Adjusts the MASTER BLACK level.

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

CF PULSE

[ON], OFF

Turns on and off the color framing pulse supplied to the VTR.

SKIN DETAIL

ON, [OFF]

Turns the skin tone detail function on and off.

AUTO HUE

Press MENU SEL
switch to execute.

Sets the skin detail hue function automatically.
(Locate the desired skin color within the gate marker of VF and measure.)

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.
(To abort a processing during execution, press MENU SEL switch.)

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)
(To abort a processing during execution, press MENU SEL switch.)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output.

OHB

[OK], NG

Displays a state of communication for control data between the OHB
block and CPU on AT board.

PR

[OK], NG

Displays a state of communication for control data between the PR
board and CPU on AT board.

VA

[OK], NG

Displays a state of communication for control data between the VA
board and CPU on AT board.

AT

[OK], NG

Displays a state of communication for control data between the CPU
and memory on AT board.

SG

[OK], NG

Displays a state of communication for control data between the SG
board and CPU on AT board.

DA

[OK], NG

Displays a state of communication for control data between DA board
and CPU on AT board.

IF

[OK], NG

Displays a state of communication for control data between IF board
and CPU on AT board.

MD

[OK], NG

Displays a self-diagnosis result of MD board (of camera adaptor).

AU

[OK], NG

Displays a self-diagnosis result of AU board (of camera adaptor).

TR

[OK], NG

Displays a self-diagnosis result of TR board (of camera adaptor).

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence, After the adjustment is complete, adjustment result is stored as a master setup data.
1. A reference file which is reference for adjustment is loaded .
2. Lens is autmatically closed and the black balance is automatically adjusted.
3. The white balance is automatically adjust using TEST 2 (3-step) signal.
m
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the gamma and knee compensation values remains the values stored in the reference file.

BVP-550

3-5(E)

3-1. Setup Menu
3-1-1. Operation Menu

Page

Ver.

CAMERA ID

Item

Settings

Contents

No.

1 to 96 ([X])

Sets a camera number in the range of 1 to 96.
(When no camera number is set, “- -” is displayed.)

ID: [] [] [] [] [] [] []

Sets a camera ID of up to ten alphanumerics, symbols, and

spaces.

LENS FILE

d)

1.10

No. / ID ON BARS CAM No., CAM ID,
[OFF]

Selects whether the camera number or ID is mixed with a camera
output signal only in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

1.10

CENTER H POS

–20 to 20 ([XX])

Shifts horizontally the location of the center marker on the screen.
20 (right) ↔ –20 (left)

1.10

CENTER V POS

–20 to 20 ([XX])

Shifts vertically the location of the center marker on the screen.
20 (up) ↔ –20 (down)

1.10

CENTER POS
STORE

Press MENU SEL
switch to execute.

Stores the location of the center marker at present in the selected lens
file number.

1.10

No.

[0] to 15

Selects a lens file. d)
(Example) No. : 1
← Lens file number (0 to15)
Lens : 27 : A14x8BERM ← Lens name
EX : 1.0
← Lens extender value

Select a lens file appropriate for the mounted lens from 16 kinds of the lens files which are stored in the RAM IC26/AT-95 board.
An additional data such as a center marker is also stored in the selected lens file.

3-6(E)

BVP-550

3-1. Setup Menu
3-1-2. Paint Menu

3-1-2. Paint Menu
The Paint menu is used for white and other paint adjustments items. To activate the Paint menu, first
display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page
VIDEO
LEVEL

DETAIL1

DETAIL2

BVP-550

Ver.

Item

Settings

Contents

WHITE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B gain level.

BLACK R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master black level.

FLARE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B flare level.

GAMMA R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master gamma correction curve.

FLARE

[ON], OFF

Turns the flare correction circuit on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the VIDEO LEVEL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding the detail signal.

LEVEL

–99 to 99 ([0])

Adjusts the master level for the detail signal.

LIMITTER

–99 to 99 ([0])

Adjusts the clipping level against the maximum detail level.

CRISPENING

–99 to 99 ([0])

Adjusts the level at which the detail signal is crispened.

LEVEL DEP

–99 to 99 ([0])

Adjusts the level to control the detail signal used at lower signal level.

LEVEL DEP

[ON], OFF

Turns the level depend function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the DETAIL 1 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding detail signal.

H/V RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H and V detail signal.

FREQUENCY

–99 to 99 ([0])

Adjusts the boost frequency for H detail signal.

MIX RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H detail signal used before and after the gamma
compensation circuit.

W.LIMITTER

–99 to 99 ([0])

Adjust the clipping level adainst the higher detail signal at the maximum level.

B.LIMITTER

–99 to 99 ([0])

Adjusts the clippping level against the lower detail signal at the minimum level.

COMB

–99 to 99 ([0])

Sets the effect volume of the comb filter
99 (Causes less cross colors.) ↔ –99 (Yields clear pictures, but causes more
cross colors.)
* For a PAL model, this function has the effect on not every object but a specified object.

KNEE APRT.

ON, [OFF]

Turns the knee aperture function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the DETAIL2 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

3-7(E)

3-1. Setup Menu
3-1-2. Paint Menu

Page

Ver.

Item

Settings

Contents

SKIN DETAIL

ON, [OFF]

Turns the skin detail function on and off.

LEVEL

–99 to 99 ([0])

Adjusts the level of the skin detail.

PHASE

100° to 170°([120])

Adjusts the hue for the skin detail function.

WIDTH

0° to 90° ([60])

Adjusts the color width for the skin detail function.

SATURATION

–99 to 99 ([0])

Adjusts the color saturation of the skin detail function.

GATE

ON, [OFF]

Turns the area display of the skin detail function in the viewfinder
screen.

AUTO HUE

Press MENU SEL
switch to execute.

Sets the range of skin detail hue function automatically.
(Locate the desired skin color within the gate marker of VF and measure.)

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the SKIN DETAIL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA,
R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B and master gamma level.

COARSE

0.40, [0.45], 0.50

Selects the gamma value in steps.

GAMMA

[ON], OFF

Turns the gamma value on and off.

1.07

BLACK GAMMA

–99 to 99 ([0])

Adjusts the black gamma (master).

1.07

BLACK GAMMA

ON, [OFF]

Turns the black gamma function on and off. e)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Resets all settings on the GAMMA page to the factry settings.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

POINT

–99 to 99 ([0])

Adjusts the knee point level when the function is OFF.

SLOPE

–99 to 99 ([0])

Adjusts the knee slope level when the function is OFF.

KNEE

[ON], OFF

Turns the knee function on and off.

AUTO KNEE

ON, [OFF]

Turns the auto knee function on and off.

KNEE MAX

ON, [OFF]

Turns on and off the knee max function which changes the slope to
completely collapsed form.

WHITE CLIP

–99 to 99 ([0])

Adjusts the white clip level.

SKIN DETAIL

1.10

GAMMA

KNEE/W.CLIP

e)

e)

WHITE CLIP

[ON],OFF

Turn the white clip function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the KNEE/W.CLIP page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

This function is inhibited while TALLY lamps are lit or by the setting of the System Config menu.
A noise appears on the screen during operation.

3-8(E)

BVP-550

3-1. Setup Menu
3-1-2. Paint Menu

Page

Ver.

MATRIX

Item

Settings

Contents

G-R, B-R

–99 to 99 ([0])

R-G, B-G

–99 to 99 ([0])

Compensates the user’s matrix (sets an optional value as the constant
for G-R, B-R, R-G, B-G, R-B, and G-B).

R-B, G-B

–99 to 99 ([0])

MATRIX

[ON], OFF

Turns the user’s matrix compensation on and off.

[ON], OFF

Turns on and off only the preset matrix compensation (fixed constant
compensation).

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step form test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the MATRIX page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

1

Storing and recalling a scene file (painting data corresponding to a shot scene)

2

Storing a scene file

3

1 Turn MENU SEL switch to move the → cursor to “FILE STORE,” then press MENU SEL

PRESET

SCENE FILE

f)

4

SHUTTER

Turns the matrix compensation on and off.

[ON], OFF

USER

f)

switch. “FILE STORE” flashes on the viewfinder screen.

5

2 Select the file number (1 to 5) to be stored to.

FILE STORE

(If data is already stored at the selected location, the new data replaces the current data.)
Recalling a scene file
Turn MENU SEL switch to move the → cursor to the file number whose data is to be recalled,
then press MENU SEL switch.
• When MENU SEL switch is pressed, the scene file data replaces the current settings.
• When the scene file is recalled, an asterisk appears next to the number.

STANDARD

Returns the current amount of paint adjustments and switch setting to their reference value
stored as a reference file.

1.10

SELECT

[OFF], SHUTTER,
EVS, ECS

1.10

SHUTTER

1
1
(or 60
), 125
,
1
1
,
,
500 1000 2000
1

1

100

250

,

Selects the shutter, EVS, or ECS mode. (Does not correspond to the
setting of the SHUTTER switch in the camera front.)
Selects the shutter speed.

1

OTHERS
f)
h)
i)

1.10

ECS

h)

1.10

S-EVS

[0] to 100%

Sets the desired resolution in %.
(This setting is invalid with the OHB-450/450P/451/451P installed.)

1.09

16:9/4:3 MODE

[16:9], 4:3

Selects the aspect ratio for the video signal output. i)

Sets the ECS (CLS) frequency.

When both USER and PRESET are set to ON, the matrix constant compensation is total value of the USER and PRESET matrix.
Variable range differs depending on the OHB in use. For details refer to the operation manual supplied with the OHB.
The aspect ratio normally corresponds to the CCU’s setting when the CCU is connected. To forcefully select, use this menu.

BVP-550

3-9(E)

3-1. Setup Menu
3-1-3. Maintenance Menu

3-1-3. Maintenance Menu
The Maintenance menu is used for encoder output level and other adjustments items necessary for
camera’s maintenance. The Maintenance menu is not normally accessible. To display this menu, switch
setting of the AT-95 board is required.
For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”.
To activate the Maintenance menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page
VBS

WHITE
SHADING

Ver.

Item

Settings

Contents

SYNC LEVEL

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.

Y LEVEL

-99 to 99 ([XX])

Adjusts the Y level of camera’s encoder output signal.

BURST LEVEL

-99 to 99 ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LEVEL

-99 to 99 ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

-99 to 99 ([XX])

Adjusts the Q (or V) level of camera’s encoder output signal.

SET UP

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.
(This setting is valid only for NTSC.)

BF PHASE

-99 to 99 ([XX])

Adjusts the burst phase of camera’s encoder output signal.

SC-H PHASE

-99 to 99 ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

V BLANKING

19,[20],21H

Adjusts the V blanking width of camera’s encoder output signal.
(This setting is valid only for NTSC.)
In connection with CCU, the width is fixed to 19H.
* For a PAL model, the width is fixed to 25H at all times.

V SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, or B white
shading.

V PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.PARA compensation for the R, G, or B white shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B white shading.

H PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.PARA compensation for the R, G, or B white shading.

WHITE R/G/B

-99 to 99 ([XX])

Adjusts the R, G, or B white level.

V MOD R/G/B/M -99 to 99 ([XX])

BLACK
SHADING

j)

Adjusts the volume of V.SAW compensation for the R, G, B or master
modulation shading of the lens and prism. j)

V MOD

ON, [OFF]

Turns the V modulation shading on and off.

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the WHITE SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

V SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, or B black shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B black shading.

BLK SET R/G/B

-99 to 99 ([XX])

Adjusts the volume of BLACK SET compensation for the R, G, or B.
(Adjusts for each gain.)

BLACK R/G/B/M -99 to 99 ([XX])

Adjusts the R, G, B or master black level.

MASTER GAIN

-3,0,3,6,9,12,18,
24,30 dB ([X])

Selects the master gain value.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the BLACK SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

When the master modulation shading is adjusted, the V. SAW component for the R and B V-modulation shadings of the prism is
simultaneously compensated.

3-10(E)

BVP-550

3-1. Setup Menu
3-1-3. Maintenance Menu

Page

Ver.

Item

Settings

Contents

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.
(To abort a processing during execution, press MENU SEL switch.)

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)
(To abort a processing during execution, press MENU SEL switch.)

AUTO HUE

Press MENU SEL
switch to execute.

Sets the skin detail hue function automatically.
(Locate the desired skin color within the gate marker of VF and measure.)

WHITE
SHADING

Press MENU SEL
switch to execute.

Starts to automatically adjust the white shading.
(To abort a processing during execution, press MENU SEL switch.)

BLACK
SHADING

Press MENU SEL
switch to execute.

Starts to automatically adjust the black shading. k)
(To abort a processing during execution, press MENU SEL switch.)

1.10

COLOR REF
(SELF)

Press MENU SEL
switch to execute.

Makes a color reference to compensate the difference in colors between
OHBs using a single camera. (Locate the desired colors of a Macbeth
chart within the gate marker of VF and measure. To abort a processing
during execution, press MENU SEL switch.) m)

1.10

COLOR SETUP
(SELF)

Press MENU SEL
switch to execute.

Automatically calculates the color matrix from the reference.
(Locate the desired colors of a Macbeth chart within the gate marker of
VF and measure. To abort a processing during execution, press MENU
SEL switch.) n)

AUTO
SET UP

1.10

DATE/TIME

OTHERS

DD/MM/YY
HH:MM:SS

Adjusts a built-in timer. (HH;hour/MM;minute only)

DATE ON BARS ON, [OFF]

Selects whether the date characters are mixed with a camera output
signal in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

TIME ON BARS

ON, [OFF]

Selects whether the time characters are mixed with a camera output
signal in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

S/N MEASURE

ON, [OFF]

ON : Set to ON in mesuring the S/N ratio. And settings of the DETAIL,
CHROMA, GAMMA, MATRIX, and FLARE will be temporarily turned
OFF.
OFF : Settings of DETAIL and so on are returned as they were.

MOD
MEASURE

ON, [OFF]

ON

MASTER
BLACK

-99 to 99 ([0])

Adjusts the master black in measuring the S/N ratio and modulation
depth.

DETAIL
CHROMA
GAMMA
MATRIX
FLARE

[ON], OFF
[ON], OFF
[ON], OFF
[ON], OFF
[ON], OFF

: Set to ON in mesuring the modulation depth. And settings of the
DETAIL, GAMMA, MATRIX, and FLARE will be temporarily turned OFF.
OFF : Settings of DETAIL and so on are returned as they were.

c)

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence, After the adjustment is complete, adjustment result is stored as a master setup data.
1. A reference file which is reference for adjustment is loaded .
2. Lens is autmatically closed and the black balance is automatically adjusted.
3. The white balance is automatically adjust using TEST 2 (3-step) signal.
m
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the gamma and knee compensation values remains the values stored in the reference file.
k) Before first using the camera with the OHB-450/451/550/550WS (or their PAL version) installed, or After replacing the CCD unit, be
sure to execute the automatic black shading adjustment.
m) When performing compensation between two or more cameras, use the MSU.
n) Differing from the color-setup operation by plural cameras, a data transfer is not performed.
Execute to recalculate. After execution, the color matrix data is temporarily reflected in the OHB matrix of the System Config menu.
Execute the OHB FILE STORE of the Triming menu to store the color matrix data.

BVP-550

3-11(E)

3-1. Setup Menu
3-1-4. Reference Menu
3-1-5. Triming Menu

3-1-4. Reference Menu
The Reference menu stores the reference values used for automatic setup adjustment and the standard settings of the
switches as the reference files. And the menu can clear the current reference files. The Reference menu is not normally
accessible. To display this menu, switch setting of the AT-95 board is required. For details, refer to Section 1-3.
“Function of Internal Switches—AT-95 board”. To activate the Reference menu, first display the TOP menu.
m
1. Executing the FILE STORE on the REFERENCE FILE page registers settings of items, which have been set through
the Paint, Maintenance and System config menus just before the file store, as the reference values.
2. When changed numbers of items are returned to the reference values stored as the reference files, recall the standard
file using an MSU/RCP or the setup menu.
Page

Ver.

REFERENCE
FILE

p)

Item

Settings

Contents

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the reference files.
(Temporarily clears the current reference files p).)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

3-1-5. Triming Menu
The Triming menu stores the adjustment data in replacing parts as the triming files. And the menu can clear the current
adjustment values. The Triming menu is not normally accessible. To display this menu, switch setting of the AT-95 board
is required. For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”. To activate the Triming
menu, first display the TOP menu.
n
Executing the FILE STORE on the TRIMING FILE page registers settings of items, which have been set through the
Maintenance and System config menus just before the file store, as the reference values.
Page

Ver.

Item

Settings

Contents

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the triming files.
(Temporarily clears the current triming files p).)

FILE STORE

Press MENU SEL
switch to execute.

Stores specific data for a CCD unit to be used as the OHB files.
The standard values are stored at the factory.
(Stores the offset value, OHB matrix data and so on.)

1.10

LENS FILE
STORE

Press MENU SEL
switch to execute.

Stores specific data for a lens to be used as the lens files.
The standard values are stored at the factory.

1.10

SELECT
CURRENT
LENS

[0] to 49

Loads a lens data into the lens file selected at present by the LENS
FILE page of the Operation menu.

1.10

RESET ALL
LENS

Press MENU SEL
switch to execute.

Resets all of 16 lens files.
(Example) No. : 1
← Lens stored number (0 to 49)
Lens : 27 : A14x8BERM ← Lens name
EX : 1.0
← Lens extender value

TRIMING
FILE

OHB FILE

LENS FILE

p)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

3-12(E)

BVP-550

3-1. Setup Menu
3-1-6. System Config Menu

3-1-6. System Config Menu
The System config menu is used for adjustments items necessary to replace a printed circuit board or
some parts of the camera. The System config menu is not normally accessible. To display this menu,
switch setting of the AT-95 board is required. For details, refer to Section 1-3. “Function of Internal
Switches—AT-95 board”. To activate the System config menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting. XX or XXX represents two or three digits in hexadecimal.)
Page
DATE/TIME

Y/CHROMA

PR/VA/TEST

Ver.

Item

Settings

YY/MM/DD
HH:MM:SS

Contents
Adjusts the built-in calender and timer.

RESET

Turn MENU SEL
switch to execute.

Resets hour (HH), minute (MM) and second (SS) of the timer.

SC FREQ

XXX ([XX])

Adjusts the camera’s subcarrier frequency.

Y SYNC

XXX ([XX])

Adjusts the sync level of camera’s Y output signal.

Y SETUP

XXX ([XX])

Adjusts the setup level of camera’s Y output signal.

Y VIDEO

XXX ([XX])

Adjusts the Y level of camera’s Y output signal.

TEST SETUP

XXX ([XX])

Adjusts the setup level of camera’s encoder output signal.

BURST LVL

XXX ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LVL

XXX ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

XXX ([XX])

Adjusts the Q(V) level of camera’s encoder output signal.

SC-H PHASE

XXX ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

REG LVL

XXX ([XX])

Adjusts the level of the R, G and B output signals.

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting
each item on the Y/CHROMA page.

PR ADG R/G/B

XXX ([XX])

Adjusts the reference level of the AD converter for R/G/B signals on the
PR board.

VA MOD R/G/B

XXX ([XX])

Adjusts the R, G or B modulation balance for the VA board.

G CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for G
signal on the PR board.
(Note: In replacing OHB, readjustment is required to set the maximum
value of the modulation depth.)

R/B CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for R/B
signals on the PR board.
(Note: In replacing OHB, readjustment is required to set the minimum
level of a pseudo signal.)

M.BLACK

XXX ([XX])

Adjusts the master black signal.

TEST2 HI

XXX ([XX])

Adjusts the high level of the TEST2 (3-STEP) signal on the VA board.

TEST2 MID

XXX ([XX])

Adjusts the middle level of the TEST2 (3-STEP) signal on the VA board.

TEST CLIP

XXX ([XX])

Adjusts the clip level of the TEST1 (sawtooth) signal on the VA board.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the PR/VR/
TEST page.
1
: Outputs the sawtooth test signal
2
: Outputs the 3-step waveform test signal
OFF : No test signal is output

PRE KNEE/
ZEBRA

PREKNEE1 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 1 level on the VA board.

PREKNEE2 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 2 level on the VA board.

(Continued)

APERTURE

Adjusts the aperture compensation signal level.

BVP-550

XXX ([XX])

3-13(E)

3-1. Setup Menu
3-1-6. System Config Menu

Page

Ver.

PRE KNEE/
ZEBRA

Settings

Contents

WHITE CLIP

XXX ([XX])

Adjusts the white clip level.

WHITE CLIP

[ON], OFF

Turns the white clip function on and off.

ZEBRA1 LEVEL, XXX ([XX])
RANGE

Sets the center value and range for the zebra 1 signal detection.

ZEBRA2 LEVEL XXX ([XX])

Sets the detection value for the zebra 2 signal.

Z.DISP

1,2, 1&2

Selects a zebra signal to be displayed on the viewfinder.
1
: Zebra 1 signal
2
: Zebra 2 signal
1&2 : Both zebra 1 and 2 signals are displayed at the same time.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the
PREKNEE/ZEBRA page.
1
: Outputs the sawtooth test signal
2
: Outputs the 3-step waveform test signal
OFF : No test signal is output

VTR R-Y

XXX ([XX])

Adjusts the R-Y color-difference signal level.

VTR B-Y

XXX ([XX])

Adjusts the B-Y color-difference signal level.

CCU Y SAMP

XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the Y signal.

CCU R-Y SYNC XXX ([XX])

Adjusts the level of the sync pulse to be mixed with the R-Y signal.

CCU B-Y SAMP XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the B-Y signal.

RGB OFFSET

XXX ([XX])

Adjusts the G signal level.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the VTR/CCU page.
1
: Outputs the sawtooth test signal
2
: Outputs the 3-step waveform test signal
OFF : No test signal is output

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting
each item on the VTR/CCU page.

LEVEL

XXX ([XX])

Adjusts the auto-iris level.

APL RATIO

XXX ([XX])

Sets the way the iris is automatically adjusted. -99 (PEAK) ↔ 99 (AVERAGE)

1.10

COLOR REF
(SELF)

Press MENU SEL
switch to execute.

Makes a color reference to compensate the difference in colors
between OHBs using a single camera. (Locate the desired colors of a
Macbeth chart within the gate marker of VF and measure. To abort a
processing during execution, press MENU SEL switch.) m)

1.10

COLOR SETUP Press MENU SEL
(SELF)
switch to execute.

Automatically calculates the color matrix from the reference. (Locate the
desired colors of a Macbeth chart within the gate marker of VF and measure.
To abort a processing during execution, press MENU SEL switch.) n)

1.10

(OHB MATRIX)
G-R, B-R
R-G, B-G
R-B, G-B

-99 to 99 ([0])
-99 to 99 ([0])
-99 to 99 ([0])

Compensates the OHB matrix to adjust the difference between OHBs or
cameras (sets an optional value as the constant for G-R, B-R, R-G,
B-G, R-B and G-B). r)

1.10

OHB MTX

[ON], OFF

Turns the OHB matrix compensation on and off.

1.10

CM ADD LVL

[0] to 16

For fine adjustment in color-setup operation. Compensates the
caluculation value for the color selected by the CM ADD COLOR in 16
steps and recalculates the OHB matrix. (Selecting 0 turns off the function.) s) t)

1.10

CM ADD
COLOR

[0] to 17

For fine adjustment in color-setup operation. Select a color to be
compensated from 18 colors of the Macbeth chart with the gate marker
of VF. Recalculates the OHB matrix t)

VTR/CCU

IRIS

COLOR
SETUP

Item

m) When performing compensation between two or more cameras, use the MSU.
n) Differing from the color-setup operation by plural cameras, a data transfer is not performed.
Execute to recalculate. After execution, the color matrix data is temporarily reflected in the OHB matrix of the System Config menu.
Execute the OHB FILE STORE of the Triming menu to store the color matrix data.
r) Adjust with the MATRIX of the Paint menu turned OFF. Execute the OHB FILE STORE to store the adjustment values.
s) The compensation value is temporarily reflected in the OHB matrix of the System Config menu after execution of the COLOR
SETUP(SELF). Execute the OHB FILE STORE of the Triming menu to store the value.
The higher you set the value of the CM ADD LVL, the more the weights are assigned to the color selected by the CM ADD COLOR.
The compensation is performed so as to entirely minimize the error, while reducing the error for the weights-assigned color.
t) After powered off once following the completion of color-setup operation, recalculation is not performed.

3-14(E)

BVP-550

3-1. Setup Menu
3-1-6. System Config Menu

Page

Ver.

Item

Settings

Contents

FILTER,
WHT MEM

[ON], OFF

ON : A total of 8 settings of the white balance value can be saved
in conbination with the CC filter and WHITE BAL switch settings.
OFF : One white balance value can be saved for the WHITE BAL
switch setting A or B, for a total of 2 settings.

NTSC ENC

[WIDE], NRW

Sets the band width of the Q signal for the NTSC color encoder.

ROTARY

[STD], RVS

Selects the mode of MENU SEL switch (as turned counterclockwise
when viewed from the front.)
STD : Cursor moves downwards and a numeric value increases.
RVS : Cursor moves upwards and a numeric value decreases.

OWN CALL

R, F&R , OFF

Selects whether one or two TALLY lamps are lit corresponding to the
CALL button of camera adaptor pressed, or not. Or selects which
TALLY lamp is lit when the CALL button is pressed.
(This setting is valid in connection with CCU. When the camera is used
alone and MSU/RCP is not connected to the camera, it is always set to
OFF.)
R
: Rear TALLY lamp is lit.
F&R : Rear and front TALLY lamps are lit.
OFF : No TALLY lamp is lit corresponding to the CALL button.

CENTER H POS

–20 to 20 ([XX])

Shifts horizontally the location of the center marker on the screen.
20 (right) ↔ –20 (left)

CENTER V POS

–20 to 20 ([XX])

Shifts vertically the location of the center marker on the screen.
20 (up) ↔ –20 (down)

LENS VTR S/S

TALK, [RET2]

Selects the mode of VTR S/S SW of the lens and camera.
TALK : VTR S/S SW of lens functions as INCOM TALK SW
(momentary) and that of the camra as RET2 SW.
RET2 : VTR S/S SW of lens functions as RET2 SW and that of the
camera as INCOM TALK SW.

VF ? DISPLAY

[ON], OFF

Turns on and off the indication of ? mark at the top-right of the VF screen
with the DISP switch set to ON when the self-diagnosis result is NG (no
good) and so on.

PinP RET RVS

[RVS1], RVS 2, OFF

Selects the indication mode of VF display in PinP mode. (Does not function
in the unit.)

F TALLY RVS

[ON], OFF

Selects the operation mode of TALLY lamps corresponding to a CALL
button of MSU or RCP pressed when a TALLY signal is input to the camera
from CCU or VTR.
ON : Rear and front TALLY lamps go out.
OFF : Rear TALLY lamp alone goes out.

1.07

BLK GAM
INHIBIT

[ON], OFF

ON : Inhibits the black gamma adjustment and on/off function from the
MSU or Paint manu.
OFF : Enables the above operation.

1.10

CHAR CAM No.

[1,2,3], A,B,C

Selects the indication mode of the camera number set by the CAMERA
No. page of Operation menu.
1,2,3 : Indicates in numerics.
A,B,C : Indicates camera numbers 1 to 27 in alphabetical order of A to Z.
(When connecting 28 or more cameras, select “1,2,3”.)

1.10

WHT SETUP
MODE

[AWB], LEVEL

AWB : After executing the LEVEL AUTO, white balance adjustment
data returns to the value before execution.
LEVEL: After executing the LEVEL AUTO, white balance adjustment
data changes to the value after the white balance is adjusted
using TEST 2 signal.

1.10

AW SHADING
MODE

[RGB], RB ONLY

RGB

OTHERS 1

OTHERS 2

BVP-550

: When automatically adjusting the white balance, R, G, and
B signal waveforms are all flattened.
RB ONLY : When automatically adjusting the white balance, R and B
signal waveforms are flattened.

3-15(E)

3-2. Self-Diagnosis

3-2. Self-Diagnosis
The BVP-550 has a diagnosis mode used for self-diagnosis of every plug-in board and the OHB.
The diagnosis page is displayed on the viewfinder screen.
• Operation
Select “Diagnosis” page of the Operation menu referring to Section 3-1.
• Viewfinder Screen

• Display Descriptions
Marks

Board/Block

Judging Point for NG

1

OHB(CCD UNIT) Error in communication with IC18, IC19/TG-159

2

PR-211

Error in communication with IC49

3

VA-163

Error in communication with IC26

4

AT-95

Error in communication with IC46

5

SG-234

Error in communication with IC21

6

DA-88

Error in communication with IC10

7

IF-510

Error in communication with IC155

Refer to CA-550/550P maintenance manual for descriptions on columns of CA.
n
When other equipment than the CA-550/550P is connected to the camera, or when the CA-550/550P is
connected to the camera but is not connected to the CCU, the columns 8 will display “– –”.

3-16(E)

BVP-550

Section 4
Electrical Alignment
4-1. Preparation
4-1-1. Equipment Required
Multiburst Chart

Pattern box PTB-500

Sony P/N: J-6026-110-A

0.5

1

2

3

4

5

6

7

8

9

10

Sony P/N: J-6029-140-B
• Light source for test chart
Power supply AC90 to 240V

0.5

Grayscale Chart
Sony P/N: J-6026-130-B

Grayscale Chart (16:9)
Sony P/N: J-6394-080-A

Measuring Equipment
• Frequency counter
Advantest TR5821AK or equivalent
• Oscilloscope
Tektronix 2465 or equivalent
• Waveform monitor/Vectorscope
Tektronix 1750 or equivalent (for NTSC)
Tektronix 1751 or equivalent (for PAL)
• Digital voltmeter
Advantest TR6845 or equivalent
• Video signal generator
Tektronix 1410 or equivalent (for NTSC)
Tektronix 1411 or equivalent (for PAL)
• Color monitor
Sony BVM-1911/2811 or equivalent (for NTSC)
Sony BVM-2011P/3011P or equivalent (for PAL)
Peripheral Equipment
• CCD unit OHB-450/550 series
• Camera adaptor CA-550/550P
• AC adaptor AC-550/550CE
• Master setup unit MSU-700

4-1-2. Notes on Adjustment
White Window Chart
Make a square hole at the center
of a black sheet of paper.

Extension board BKP-7900 (option)
For CCU-700/700P plug-in boards

BVP-550

Extension board EX-464 (option)
Sony P/N: J-6395-040-A
For BVP-550 plug-in boards

When performing the adjustment, read throughly the
following comments.
1. The calibration of all measuring equipment should be
completed.
2. The alignment of OHB-450/550 series, CA-550/550P
and MSU-700 should be also completed.
3. “4-1-5. Initial Setting” should be completed.
4. Turn off the power before extending the plug-in board
using the extension board.
5. When using the camera as 16:9 mode together with the
OHB-550WS/550WSP, use the specified grayscale
chart (J-6394-080-A).
6. Paste a black colored velvets (around 3 × 3 cm) to both
sides of the full white portion in the center of the
grayscale chart.
(For more details, consult your Sony service represen
tative.)
7. When connecting MSU-700 to BVP-550, use MSU700 for various settings, because the switches on the
side panel of the camera become invalid.

4-1 (E)

4-1. Preparation

4-1-3. Connections
1.5" VF
BVF-10/10CE
CCD UNIT
OHB

CAMERA
ADAPTOR
CA-550/550/P
TEST OUT

ENG/EFP LENS
PATTERN
BOX

Waveform monitor
A-ch
PIX
75Ω

COLOR VIDEO
DC IN
CAMERA
AC
ADAPTOR
BVP-550
AC-550/550CE

Vector scope
CCA-5 CABLE
(max. 200m)

Color monitor

MASTER SETUP UNIT
MSU-700
Oscilloscope

4-1-4. Description of Setup Menu
A part of adjustments given in this section uses the setup
menu. The setup menu consists of the following menus.
Besides there is a TOP menu indicating the entire configuration of menu items.
Operation
Paint
Maintenance
Reference File
Triming File
System config
To display all of the menus, switch setting of the AT-95 board is
required. And for details on the setup menu, refer to Section 3.
In this manual, describes the setup menu operation as follows.
Title of the selected page (top right corner display)
For reference:
When Paint → Skin Detail is selected:
MENU : Paint
PAGE : Skin Detail (P4)
Displaying Setup Menu
1. Set the internal switches of the AT-95 board as
follows.
S1-1 → ON
S1-2 → OFF
S1-3 → ON
S1-4 → OFF
4-2 (E)

75Ω

2. DISP switch (on the side panel) → OFF
3. POWER switch (on the camera adaptor) → ON
4. Set the DISP switch to MENU (from OFF) while
holding down the MENU SEL switch (on the front
panel). (TOP menu will be displayed.)
n
If the power switch is turned off once, perform the above
operations again to display the setup menu (steps 2 to 4).
How to change the setting values
To enter or cancel the setting value of items, which can be
changed by turning the MENU SEL switch, proceed as
follows.
To enter the setting value;
Press the MENU SEL switch to ENTER.
To cancel the setting value;
Before pressing the MENU SEL switch, press the CANCEL button. The original setting is restored.
After pressing the MENU SEL switch, the setting can not
be canceled.
File Store
If the adjustments in this section are suspended or the
power is turned off to extend a printed circuit board and so
on, be sure to execute the FILE STORE before being
powered off.

BVP-550

4-1. Preparation

4-1-5. Initial Setting
Internal Switches:
n
When switching the following switches from a customerset position, it is recommended to record the setting state
of the customer in the table below.
After adjustment is complete, be sure to return the switches
to their customer-set position.
Board

Switch

Initial setting Customer-set position

AT-95

S1-1

ON

S1-2

OFF

S1-3

ON

S1-4

OFF

Setup Menu:
MENU : Operation
PAGE : Gain Sw (?3)
ITEM : Low → 0 dB
ITEM : Middle → 9 dB
ITEM : High → 18 dB
PAGE : Wide Screen (?4)
ITEM : 16:9/4:3 MODE → 16:9
(For OHB-550WS/550WSP)
MENU : Paint
PAGE : Video Level (P1)
ITEM : Test → Off
PAGE : Detail 1 (P2)
ITEM : Detail → On
PAGE : Skin Detail (P4)
ITEM : Skin Detail → Off
PAGE : Gamma (P5)
ITEM : Gamma → On
PAGE : Knee/W.Clip (P6)
ITEM : Knee → Off
ITEM : White Clip → Off
PAGE : Matrix (P7)
ITEM : Matrix → Off

BVP-550

Side Panel:
VTR SAVE/STBY switch → STBY
GAIN switch → L (0 dB)
OUTPUT/DCC switch → CAM/OFF
WHITE BAL switch → PRST
Front Panel:
SHUTTER switch → OFF
Filter Setting:3200 K
OHB-550/550WS series → 1B (FILTER selector)
OHB-450/451 series → 1 (FILTER selector)
Execution of Scene File Standard:
MENU
: Paint
PAGE
: Scene File (P8)
ITEM
: Standard
(Press the MENU SEL switch to execute.)

4-3 (E)

4-2. Adjustment for Installation of OHB
4-2-1. VCO CONT Frequency Confirmation
4-2-2. VA Gain Adjustment

4-2. Adjustment for Installation of OHB
When the auto black adjustment is executed with the
AUTO W/B BAL switch on the front panel for the first
time after the OHB is replaced or a new OHB is installed,
the black shading is automatically adjusted in succession to
the auto black adjustment.
If the shading adjustment is correctly completed at that
time, “4-2-3. Black Shading Adjustment” can be skipped.

4-2-1. VCO CONT Frequency Confirmation
Notes:
• Perform this confirmation only when the CCD unit is
installed.
• Warm up the camera for about 10 minutes before
performing this confirmation.
Preparation:
• RGB/ENC switch (on the side panel) → ENC

File Store:
Execute the OHB file store. Press the MENU SEL switch
to execute.
MENU
: Triming File
PAGE
: OHB File (T2)
ITEM
: File Store

4-2-2. VA Gain Adjustment
Setting of Sensitivity and Standard Color Temperature:
• Use the reflective chart (reflection ratio:89.9%)in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminous intensity of the chart to 2000 lx and the
color temperature to 3200 K.
• This adjustment shall be performed at F7.0 or more.
Note:
• Never change the setting of the following trimmer
capacitors. These capacitors are extremely difficult to
adjust in the field.
VA-163 board :1CT200, 1CT300, 1CT400

Equipment

: Frequency counter, Video signal
generator
Test Point
: TEST OUT connector
Specifications: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)
AC ADAPTOR
AC-550/550CE
DC IN

TEST
OUT

GENLOCK
IN

Video signal SC
OUT
generator

Frequency
counter

If the specification is not satisfied, perform the following
adjustment.
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and adjust the frequency by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC FREQ
Specifications: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

4-4 (E)

Equipment : Oscilloscope, Waveform monitor
Object
: Grayscale chart
Preparations:
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → L (0 dB)
• Extend VA-163 board with EX-464 board.
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee → Off
3. Close the lens iris.
4. Execute the level auto setup.
Press the MENU SEL switch to execute.
MENU
: Operation
PAGE
: Auto Setup
ITEM
: Level Auto
5. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL at the TEST OUT connector.
If the black level is out of specs, carry out “4-2-5.
Master Black Adjustment”.

BVP-550

4-2. Adjustment for Installation of OHB
4-2-2. VA Gain Adjustment

6. Test Point

: TP72 (GND:TP71)/extension board
(extending VA-163)
Iris of the lens: A = 125 mV (at F7.0 or more)

12. Set the RGB/ENC switch (on the side panel) to ENC.
13. Test Point
: TEST OUT connector
Adjustment Point : 1RV200 (R GAIN)/VA-163
panel
1RV400 (B GAIN)/VA-163
panel
Specifications
: Carrier leakage D = Minimum

C

(Oscilloscope)

7. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
8. Adjust the VA gain for G.
Test Point
: TEST OUT connector
Adjustment Point : 1RV300 (G GAIN)/VA-163
panel
Specifications
: The levels A and B are shall be
equal when the test waveform is
switched between 2 and off.
Menu Setting:
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test

(Waveform Monitor)

4

3

2

1

VA

A

TEST

B

CT200
R GAIN

RV200
C

R

(Waveform Monitor)

G GAIN

CT300

D

RV300

9. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test → Off
10. Select the 15 lines in the center of monitor screen C by
using the 15 LINE SELECT on the waveform monitor.
11. Put the waveform monitor into the CHROMA mode.

R

E
B GAIN

CT400
RV400
F

B

G

VA-163 BOARD (A SIDE)
BVP-550

4-5 (E)

4-2. Adjustment for Installation of OHB
4-2-3. Black Shading Adjustment

4-2-3. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again referring to the message displayed on
the viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → ENC
Test Point
: TEST OUT connector
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and execute the auto black
shading. Press the MENU SEL switch to execute.
MENU : Maintenance
PAGE : Auto Setup(M4)
ITEM
: Black Shading
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again referring to this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.
4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)
4-6 (E)

• Manual Black Shading Adjustment
(For reference)
Note:
• Perform this adjustment only when “4-2-3. Black
Shading Adjustment” is not completed.
Equipment

: Waveform monitor

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
4. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 21 mV for PAL by using
the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
5. If the shading is monitored, make the waveform flat
referring to the following table.
6. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

BVP-550

4-2. Adjustment for Installation of OHB
4-2-3. Black Shading Adjustment

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

TEST OUT connector

Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC
• GAIN switch (on the side panel) → L (0 dB)

BVP-550

4-7 (E)

4-2. Adjustment for Installation of OHB
4-2-4. White Shading Adjustment

4-2-4. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Full white pattern
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• ENC/RGB switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
• Shoot the fully occupied white area of the pattern box in
the full underscanned monitor frame adjusting the zoom
control.
Iris of the lens : A = 80 ±5 IRE (for NTSC)
A = 560 ±35 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

R

B

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

G ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

R

B

TEST OUT connector

Adjustment Procedures:
1. Set the WHITE BAL switch (on the side panel) to
PRST.
2. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
3. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
4. If the white shading is monitored, make the waveform
flat referring to the following tables.
5. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

4-8 (E)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC

BVP-550

4-2. Adjustment for Installation of OHB
4-2-5. Master Black Adjustment
4-2-6. Gamma Correction Adjustment

4-2-5. Master Black Adjustment

4-2-6. Gamma Correction Adjustment

Equipment
Test Point

Equipment
Test Point
Object

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(Waveform Monitor)

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

Adjustment Procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the gamma
correction for (M) by using the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma [M]
Specifications: B = 55.5 ±2.0 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

BVP-550

(Waveform Monitor)

4-9 (E)

4-2. Adjustment for Installation of OHB
4-2-6. Gamma Correction Adjustment

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test → 1
4. Set the RGB/ENC switch (on the side panel) to ENC.
5. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
6. Set the menu as follows, and adjust the gamma
correction for (R) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [R]
Specifications: Center the beam spot on the
vectorscope.
7. Set the menu as follows, and adjust the gamma
correction for (B) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [B]
Specifications: Center the beam spot on the
vectorscope.

9. Confirm that the carrier leakage does not observed at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Test → Off
• WHITE BAL switch (on the side panel) → PRST

8. Repeat the steps 6 and 7 alternately, until the beam
spot is minimized on the vectorscope.

MG
R
YL

B

G

CY

(For NTSC)

R

MG

YL

B

G

CY

(For PAL)

(Vectorscope)

4-10 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-7. Flare Adjustment

4-2-7. Flare Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

5. Confirm that the level at portion B does not fluctuate
even if the flare turns On/Off. If fluctuates, turn Flare
ON and adjust by Flare (G).
Menu Setting:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare → On/Off
Adjustment Point:
ITEM
: Flare [G]
6. Set the ENC/RGB switch (on the side panel) to ENC.
7. Set the menu as follows, and adjust the flare for R by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [R]
Specifications: Minimize the carrier leakage.
8. Set the menu as follows, and adjust the flare for B by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [B]
Specifications: Minimize the carrier leakage.

(Waveform Monitor)

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Set the RGB/ENC switch (on the side panel) to ENC.
Set the R/G/B switch (on the side panel) to G.
4. Select the 15 lines in the center of the monitor screen
by using the 15 LINESELECT on the waveform
monitor.

Line Select

BVP-550

(Waveform Monitor)

9. Repeat the steps 7 and 8 alternately, until the carrier
leakage is minimized.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

4-11 (E)

4-2. Adjustment for Installation of OHB
4-2-8. Knee and White Clip Adjustment

4-2-8. Knee and White Clip Adjustment
Note:
Perform this adjustment on the customer's preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → M(9 dB)
Adjustment Procedures:
1. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL.
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the knee point
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → 1
ITEM
: White Clip → Off
ITEM
: Knee → On
ITEM
: Knee Max → On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

(Waveform Monitor)

4. Set the menu as follows, and adjust the knee slope
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max → Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)
4-12 (E)

(Waveform Monitor)

5. Set the GAIN switch (on the side panel) to H (18 dB).
6. Set the menu as follows, and adjust the white clip level
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip → On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB).
Note:
The values used in the above adjustments are under the
conditions that the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763

107/749

105/735

103/721

Knee point

98/686

98/686

96/672

96/672

Knee slope

109/763

109/763

107/750

107/750

White clip

109/763

107/749

105/735

103/721

BVP-550

4-2. Adjustment for Installation of OHB
4-2-9. Crispening Adjustment

4-2-9. Crispening Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On
Iris of the lens

: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

Adjustment Procedure:
Set the menu as follows, and adjust the crispening by using
the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1(P2)
ITEM
: Crispening
Specifications : Turn the MENU SEL switch (on the
front panel) once to –99, and turn
slowly for increment until the noise at
the black level of the waveform is just
decreased, or turn the MENU SEL
switch so that the crispening level is an
appropriate value.

BVP-550

4-13 (E)

4-2. Adjustment for Installation of OHB
4-2-10. Level Dependent Adjustment

4-2-10. Level Dependent Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On
ITEM
: Level Dep. → On

2. Set the menu as follows, and adjust the level dependent by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Level Dep.
Specifications: Turn the MENU SEL switch (on the
front panel) once to –99, and slowly
turn it for increment until spikes at
portions B are just decreased.

(Waveform Monitor)

Note:
After this adjustment is completed, be sure to perform “42-12. H/V Ratio Adjustment” and “4-2-13. Detail Level
Adjustment”.

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

4-14 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-11. Detail Frequency Adjustment

4-2-11. Detail Frequency Adjustment

2. Make a selection of line at the center white portion of
the grayscale chart.

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Line Select

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

3. Set the menu as follows, and adjust the detail frequency by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Frequency
Specifications: Adjust the edge width at each end of
the center white portion to the
desired width.

(Waveform Monitor)

Note:
After this adjustment is completed, be sure to perform “42-12. H/V Ratio Adjustment” and “4-2-13. Detail Level
Adjustment”.

(Waveform Monitor)

BVP-550

4-15 (E)

4-2. Adjustment for Installation of OHB
4-2-12. H/V Ratio Adjustment

4-2-12. H/V Ratio Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

2. Set the menu as follows, and adjust the H/V ratio by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: H/V Ratio
Specifications: The ratio between the H and V
detail amounts (white) to be added
shall be 1 : 1.
H

V

(Monitor Screen)

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

4-16 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-13. Detail Level Adjustment
4-2-14. Detail Clip Adjustment

4-2-13. Detail Level Adjustment

4-2-14. Detail Clip Adjustment

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

2. Set the menu as follows, and adjust the signal level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Level
Specifications: Adjust the detail signal level to be
added to each step in the grayscale
chart for the desired level.

BVP-550

(Waveform Monitor)

4-17 (E)

4-2. Adjustment for Installation of OHB
4-2-14. Detail Clip Adjustment
4-2-15. Skin Tone Adjustment

2. Make a selection of line at the center white portion of
the grayscale chart.

4-2-15. Skin Tone Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Line Select

Equipment : Color monitor, Viewfinder or Vectorscope

3. Set the menu as follows, and adjust the white limiter
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: W.Limitter
Specifications: Adjust the edges of portions B to the
desired clip level.

(Waveform Monitor)

4. Set the menu as follows, and adjust the black limiter
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: B.Limitter
Specifications: Adjust the edges of portions C to the
desired clip level.

Preparations:
• Connect the vectorscope to the TEST OUT connector.
• Shoot a person’s face.
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Skin Detail (P4)
ITEM
: Skin Detail → On
Adjustment Procedures:
1. Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Gate → On
2. Set the menu as follows, and adjust the amount of the
skin detail signal to the desired level according to the
following items by using the MENU SEL switch.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Level (Detail level within the skin gate)
ITEM
: Phase (Hue)
ITEM
: Saturation
(Component in the saturation direction)
ITEM
: Width (Component in the hue direction)
(The effective area of the skin detail signal appears in
a zebra pattern on the viewfinder screen. Set the
desired level.)
R-Y
Phase
Width

(Waveform Monitor)
Saturation

B-Y

(Vectorscope)

4-18 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-15. Skin Tone Adjustment

Resetting after Adjustment:
• Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Gate → Off

BVP-550

4-19 (E)

4-2. Adjustment for Installation of OHB
4-2-16. Zebra Adjustment

4-2-16. Zebra Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• ZEBRA switch (on the viewfinder) → ON
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Iris of the lens: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

3. Set the menu as follows, and adjust the zebra 1 level
by using the MENU SEL switch.
MENU
: System config
PAGE
: Pre knee/Zebra (S4)
ITEM
: Z.Disp → 1
Adjustment Point:
ITEM
: Zebra1 [LEVEL]
Specifications: Adjust that the stripes appear at the
center of the portions A on the
viewfinder screen.
The area of the stripes can be
changed by ITEM: Zebla 1
[RANGE].

A

A

(Monitor Screen)

4. Set the menu as follows, and adjust the zebra 2 level
by using the MENU SEL switch.
MENU
: System config
PAGE
: Pre knee/Zebra (S4)
ITEM
: Z.Disp → 2
Adjustment Point:
ITEM
: Zebra2 [LEVEL]
Specifications: Adjust that the stripes appear at the
center of the portions B on the
viewfinder screen.

B

(Waveform Monitor)

(Monitor Screen)

Resetting after Adjustment:
• ZEBRA switch (on the viewfinder) → OFF
• WHITE BAL switch (on the side panel) → PRST

4-20 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-17. Auto Iris Adjustment

4-2-17. Auto Iris Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• AUTO/MANU switch (on the lens) → AUTO
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

3. Set the menu as follows, and adjust the auto-iris level
by using the MENU SEL switch.
MENU
: Operation
PAGE
: Auto Iris/Auto Knee (?6)
ITEM
: Iris Override → Off
Adjustment Point:
MENU
: System config
PAGE
: Iris (S6)
ITEM
: Level
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Set the menu as follows, and adjust the APL ratio by
using the MENU SEL switch.
MENU
: Operation
PAGE
: Auto Iris/Auto Knee (?6)
ITEM
: APL Ratio
Specifications: Adjust the auto-iris operation mode
depending on the application.
Note
: Automatic iris operation mode
setting can be done from the average
level to peak-to-peak level of the
video signal.
99 → average level
–99 → peak-to-peak level

BVP-550

4-21 (E)

4-2. Adjustment for Installation of OHB
4-2-18. Menu Settings After Finishing Adjustment
4-2-19. File Store
4-3. Overall Electrical Alignment

4-2-18. Menu Settings After Finishing
Adjustment
MENU
PAGE
ITEM
PAGE
ITEM
PAGE
ITEM

: Paint
: Detail 1 (P2)
: Detail → On
: Gamma (P5)
: Gamma → On
: Knee/W.Clip (P6)
: Knee → On

4-2-19. File Store
Be sure to execute the file store after any one of the
adjustments of Sections 4-2-1 through 4-2-17 is performed.
Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Execute the reference file store. Press the MENU SEL
switch to execute.
Menu Setting:
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
3. Execute the triming file store. Press the MENU SEL
switch to execute.
Menu Setting:
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

4-22 (E)

4-3. Overall Electrical Alignment
Before beginning this adjustment, check the initial settings
referring to Section 4-1-5. When a board was replaced or
repaired, preset the compensation data, proceeding as
follows. If the data is preset once, be sure to carry out all
steps of 4-3-1 through 4-3-23. Because presetting clears all
adjustment data of video and detail system.
(1) Execute the reference file clear.
Press the MENU SEL switch to execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: Clear File
(2) Execute the scene file standard.
Press the MENU SEL switch to execute.
MENU
: Paint
PAGE
: Scene File (P8)
ITEM
: Standard
This section provides intructions to store the setting data
on the reference or triming file in every adjustment item.
This intends to prevent the data from being cleared when
the unit is powered off to extend a board, and so on.
As the data is kept held unless powered off, however, more
than one data can be stored at a time.
The file store may not necessarily be executed for every
adjustment item.

BVP-550

4-3. Overall Electrical Alignment
4-3-1. VCO CONT Frequency Adjustment

4-3-1. VCO CONT Frequency Adjustment
Note:
• Warm up the camera for about 10 minutes before this
confirmation.
Equipment
Test Point

: Frequency counter,
Video signal generator
: TEST OUT connector

Preparation:
• RGB/ENC switch (on the side panel) → ENC
AC ADAPTOR
AC-550/550CE
DC IN

TEST
OUT

GENLOCK
IN

Video signal SC
OUT
generator

Frequency
counter

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and adjust the frequency by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC FREQ
Specifications : 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)
File Store:
Execute the OHB file store. Press the MENU SEL switch
to execute.
MENU
: Triming File
PAGE
: OHB File (T2)
ITEM
: File Store

BVP-550

4-23 (E)

4-3. Overall Electrical Alignment
4-3-2. VTR Y Adjustment

4-3-2. VTR Y Adjustment
Equipment
Test Point

: Oscilloscope
: TP3 (Y)/DA-88 panel

Preparations:
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the Y sync by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SYNC
Specifications: A = 286 ±2 mV (for NTSC)
A = 300 ±2 mV (for PAL)
3. (NTSC only)
Set the menu as follows, and adjust the Y setup by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SETUP
Specifications: C = 53.5 ±2 mV

4. Set the menu as follows, and adjust the Y video by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y Video
Specifications: B = 714 ±7 mV (for NTSC)
B = 700 ±7 mV (for PAL)

(For NTSC)

(For PAL)

(20 MHz B/W LIMIT → ON)
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

4-24 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-3. Test out Adjustment

4-3-3. Test out Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
(For NTSC)

Adjustment Procedures:
1. Adjustment Point : 1RV101 (VIDEO LEVEL)/
IF-510 panel
Specifications
: A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)
2. (NTSC only)
Set the menu as follows, and adjust the test setup by
using the MENU SEL.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: TEST SETUP
Specifications
: B = 7.5 ±1 IRE
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Triming File
PAGE : Triming File (T1)
ITEM : File Store

(For PAL)

4

3

2

1

IF

A

B

C

VIDEO
LEVEL

D

RV101

E

F

G

IF-510 BOARD (A SIDE)
BVP-550

4-25 (E)

4-3. Overall Electrical Alignment
4-3-4. Chroma Adjustment

4-3-4. Chroma Adjustment
Equipment : Waveform monitor, Vectorscope
Test Point : TEST OUT connector
Preparations:
• Connect the vectorscope to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the chroma level
and Q/V level alternately by using the MENU SEL
switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Chroma LVL
ITEM
: Q/V LVL
Specifications: Place the beam spots inside the
corresponding frames on the
vectorscope.

3. Connect the waveform monitor to the TEST OUT
connector.
4. Set the menu as follows, and adjust the burst level by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Burst LVL
Specifications: A = 40 ±1 IRE (for NTSC)
A = 300 ±5 mV (for PAL)

(For NTSC)

(For PAL)

(For NTSC)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

(For PAL)

4-26 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-5. INT SC Phase Adjustment

4-3-5. INT SC Phase Adjustment
Notes:
This adjustment precedures are stated below assuming that
where the Tektronix 1750 (for NTSC) or1751 (for PAL) is
used.
If any other measuring instrument is used, follow the
instructions given in the operation manual attached to it.

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Equipment : Vectorscope (SC-H Phase measuring mode)
Test Point : TEST OUT connector
Preparations:
• Connect the vectorscope to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the SC-H phase by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC-H Phase
Specifications: Position the luminous line of the
burst (SC) and the beam spot of H
as shown in the figure.

MG
R
YL

B

G

CY

For NTSC)

R

MG

YL

B

G

CY

(For PAL)
BVP-550

4-27 (E)

4-3. Overall Electrical Alignment
4-3-6. REG Level Adjustment

4-3-6. REG Level Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the REG level by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: REG LVL
Specifications:
SYNC LEVEL : A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)

(For NTSC)

(For PAL)

4-28 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-7. TEST1 Adjustment

4-3-7. TEST1 Adjustment
Equipment : Oscilloscope
Preparation:
• Extend VA-163 board with EX-464 board.
Adjustment Procedures:
1. WHITE BAL switch (on the side panel) → PRST
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → 1
4. Test Point
: TP52 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point : 1RV50 (TEST)/VA-163 panel
Specifications
: A = 880 ±2 mV

6. Set the menu as follows, and adjust the white level for
B by turning the MENU SEL switch.
Test Point
: TP50 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: White [B]
Specifications
: A = 880 ±40 mV
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

5. Set the menu as follows, and adjust the white level for
R by using the MENU SEL switch.
Test Point
: TP54 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: White [R]
Specifications
: A = 880 ±40 mV

BVP-550

4-29 (E)

4-3. Overall Electrical Alignment
4-3-8. TEST2 Adjustment

4-3-8. TEST2 Adjustment
Equipment : Oscilloscope
Test Point : TP52 (GND:GND (A))/
Extension board (extending VA-163)
Preparation:
• Extend VA-163 board with EX-464 board.
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → 2

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

3. Set the menu as follows, and adjust the TEST2 high
level by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 HI
Specifications: A = 880 ±5 mV
4. Set the menu as follows, and adjust the TEST 2 middle
level by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 MID
Specifications: B = 290 ±5 mV

4-30 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-9. A/D Gain Adjustment

4-3-9. A/D Gain Adjustment
Equipment
Test Point

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → L (0 dB)
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU :
Paint
PAGE :
Detail1 (P2)
ITEM :
Detail → Off
PAGE :
Gamma (P5)
ITEM :
Gamma → On
PAGE :
Knee/W.Clip (P6)
ITEM :
Knee → Off
ITEM :
White Clip → Off

5. Set the menu as follows, and adjust the A/D gain for G
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [G]
Specifications: The white level shall not be changed
even if the OUTPUT/DCC switch
(on the side panel) is changed over
between CAM and BARS.
A=B

Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(For NTSC)

(Waveform Monitor)

3. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
4. Set the menu as follows.
MENU :
System config
PAGE :
PR/VA/TEST (S3)
ITEM :
TEST → 2
(For PAL)
BVP-550

4-31 (E)

4-3. Overall Electrical Alignment
4-3-9. A/D Gain Adjustment
4-3-10. VA Gain Adjustment

6. Set the R/G/B switch (on the side panelüj to ENC.
7. Set the OUTPUT/DCC switch (on the side panel) to
CAM/OFF.
8. Set the menu as follows, and adjust the A/D gain for R
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [R]
Specifications: Minimize the carrier leakage.
C = Minimum
9. Set the menu as follows, and adjust the A/D gain for B
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [B]
Specifications: Minimize the carrier leakage.
C = Minimum

4-3-10. VA Gain Adjustment
Setting of Sensitivity and Standard Color Temperature:
• Use the reflective chart (reflection ratio:89.9%)in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminous intensity of the chart to 2000 lx and the
color temperature to 3200 K.
• This adjustment shall be performed at F7.0 or more.
Note:
• Never change the setting of the following trimmer
capacitors. These capacitors are extremely difficult to
adjust in the field.
VA-163 board :1CT200, 1CT300, 1CT400
Equipment : Oscilloscope, Waveform monitor
Object
: Grayscale chart
Preparations:
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → L (0 dB)
• Extend VA-163 board with EX-464 board.
• RGB/ENC switch (on the side panel) → ENC

10. Repeat the steps 8 and 9 alternately until the specifications are satisfied.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

4-32 (E)

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee → Off
3. Close the lens iris.
4. Execute the level auto setup.
Press the MENU SEL switch to execute.
MENU
: Operation
PAGE
: Auto Setup
ITEM
: Level Auto
5. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL at the TEST OUT connector.
If the black level is out of specs, carry out “4-3-14.
Master Black Adjustment”.

BVP-550

4-3. Overall Electrical Alignment
4-3-10. VA Gain Adjustment

6. Test Point

: TP72 (GND:TP71)/extension board
(extending VA-163)
Iris of the lens: A = 125 mV (at F7.0 or more)

12. Set the RGB/ENC switch (on the side panel) to ENC.
13. Test Point
: TEST OUT connector
Adjustment Point : 1RV200 (R GAIN)/VA-163
panel
1RV400 (B GAIN)/VA-163
panel
Specifications
: Carrier leakage D = Minimum

C

(Oscilloscope)

7. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
8. Adjust the VA gain for G.
Test Point
: TEST OUT connector
Adjustment Point : 1RV300 (G GAIN)/VA-163
panel
Specifications
: The levels A and B are shall be
equal when the test waveform is
switched between 2 and off.
Menu Setting:
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test

(Waveform Monitor)

4

3

2

1

VA

A

TEST

B

CT200
R GAIN

RV200
C

R

(Waveform Monitor)

G GAIN

CT300

D

RV300

9. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test → Off
10. Select the 15 lines in the center of monitor screen C by
using the 15 LINE SELECT on the waveform monitor.
11. Put the waveform monitor into the CHROMA mode.

R

E
B GAIN

CT400
RV400
F

B

G

VA-163 BOARD (A SIDE)
BVP-550

4-33 (E)

4-3. Overall Electrical Alignment
4-3-11. VA MOD Adjustment

4-3-11. VA MOD Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → L (0 dB)
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → R
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the menu as follows, and adjust the V MOD for R
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [R] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [R]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [R] varies from 99
to –99.

3. Set the R/G/B switch (on the side panel) to G.
4. Set the menu as follows, and adjust the V MOD for G
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [G] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [G]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [G] varies from 99
to –99.
5. Set the R/G/B switch (on the side panel) to B.
6. Set the menu as follows, and adjust the V MOD for R
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [B] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [B]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [B] varies from 99
to –99.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

(×5)

4-34 (E)

Resetting after Adjustment:
• Set the menu as follows. Press the MENU SEL switch to
execute.
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: Clear

BVP-550

4-3. Overall Electrical Alignment
4-3-12. Black Shading Adjustment

4-3-12. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again referring to the message displayed on
the viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → ENC
Test Point
: TEST OUT connector
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and execute the auto black
shading. Press the MENU SEL switch to execute.
MENU : Maintenance
PAGE : Auto Setup(M4)
ITEM
: Black Shading
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again referring to this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.
4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)
BVP-550

• Manual Black Shading Adjustment
(For reference)
Note:
• Perform this adjustment only when “4-4-12. Black
Shading Adjustment” is not completed.
Equipment

: Waveform monitor

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
4. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 21 mV for PAL by using
the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
5. If the shading is monitored, make the waveform flat
referring to the following table.
6. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

4-35 (E)

4-3. Overall Electrical Alignment
4-3-12. Black Shading Adjustment

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

R

B

TEST OUT connector

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC
• GAIN switch (on the side panel) → L (0 dB)

4-36 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-13. White Shading Adjustment

4-3-13. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Full white pattern
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• ENC/RGB switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
• Shoot the fully occupied white area of the pattern box in
the full underscanned monitor frame adjusting the zoom
control.
Iris of the lens : A = 80 ±5 IRE (for NTSC)
A = 560 ±35 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

R

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

G

ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

B

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

TEST OUT connector

Adjustment Procedures:
1. Set the WHITE BAL switch (on the side panel) to
PRST.
2. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
3. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
4. If the white shading is monitored, make the waveform
flat referring to the following tables.
5. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

BVP-550

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC

4-37 (E)

4-3. Overall Electrical Alignment
4-3-14. Master Black Adjustment

4-3-14. Master Black Adjustment
Equipment
Test Point

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(Waveform Monitor)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-38 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-15. Gamma Correction Adjustment

4-3-15. Gamma Correction Adjustment
Equipment
Test Point
Object

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Gamma (P5)
ITEM
: Gamma → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

Adjustment Procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the gamma
correction for (M) by using the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma [M]
Specifications: B = 55.5 ±2.0 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test → 1
4. Set the RGB/ENC switch (on the side panel) to ENC.
5. Adjust the auto white balance.
WHT BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panl) → WHT
6. Set the menu as follows, and adjust the gamma
correction for (R) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [R]
Specifications: Center the beam spot on the
vectorscope.
7. Set the menu as follows, and adjust the gamma
correction for (B) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [B]
Specifications: Center the beam spot on the
vectorscope.
8. Repeat the steps 6 and 7 alternately, until the beam
spot is minimized on the vectorscope.
MG
R
YL

B

G

CY

(For NTSC)

R

MG

YL

B

(Waveform Monitor)
G

CY

(For PAL)

(Vectorscope)

BVP-550

4-39 (E)

4-3. Overall Electrical Alignment
4-3-15. Gamma Correction Adjustment
4-3-16. Flare Adjustment

9. Confirm that the carrier leakage does not monitored at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-3-16. Flare Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Test → Off
• WHITE BAL switch (on the side panel) → PRST

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Set the RGB/ENC switch (on the side panel) to ENC.
Set the R/G/B switch (on the side panel) to G.
4. Select the 15 lines in the center of the monitor screen
by using the 15 LINESELECT on the waveform
monitor.

Line Select

4-40 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-16. Flare Adjustment
4-3-17. Pre Knee Adjustment

5. Confirm that the level at portion B does not fluctuate
even if the flare turns On/Off. If fluctuates, turn Flare
ON and adjust by Flare (G).
Menu Setting:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare → On/Off
Adjustment Point:
ITEM
: Flare [G]
6. Set the ENC/RGB switch (on the side panel) to ENC.
7. Set the menu as follows, and adjust the flare for R by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [R]
Specifications: Minimize the carrier leakage.
8. Set the menu as follows, and adjust the flare for B by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [B]
Specifications: Minimize the carrier leakage.

(Waveform Monitor)

9. Repeat the steps 7 and 8 alternately, until the carrier
leakage is minimized.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-3-17. Pre Knee Adjustment
Equipment

: Oscilloscope, Waveform monitor

Preparation:
• Extend VA-163 board with EX-464 board.
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → On
3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Set the GAIN switch (on the side panel) to M (9 dB).
5. Set the WHITE BAL switch (on the side panel) to
PRST.
6. Set the menu as follows.
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: Test → 2
7. Set the menu as follows, and adjust the pre knee 1 for
G by using the MENU SEL switch.
Test Point
: TP52 (GND:GND (A))/
Extension board (extending VA-163)
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[G]
Specifications: A = 1.68 ±0.02 V p-p

(Oscilloscope)

Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

BVP-550

4-41 (E)

4-3. Overall Electrical Alignment
4-3-17. Pre Knee Adjustment

8. Set the menu as follows.
MENU
: Operation
PAGE
: Gain SW (?3)
ITEM
: Middle → 12 dB
9. Set the menu as follows, and adjust the pre knee 2 for
G by using the MENU SEL switch.
Test Point
: TP52 (GND:GND (A))/
Extension board (extending VA-163)
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[G]
Specifications: B = 1.80 ±0.02 V p-p

14. Set the menu as follows, and adjust the pre knee 2 for
R by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[R]
Specifications: Minimize the carrier leakage D.
15. Set the menu as follows, and adjust the pre knee 2 for
B by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[B]
Specifications: Minimize the carrier leakage D.

(Oscilloscope)

10. Set the menu as follows.
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: Test → 1
11. Set the GAIN switch (on the side panel) to H (18dB).
Set the OUTPUT/DCC switch (on the side panel) to
CAM/ON.
12. Set the menu as follows, and adjust the pre knee 1 for
R by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[R]
Specifications: Minimize the carrier leakage C.
13. Set the menu as follows, and adjust the pre knee 1 for
B by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[B]
Specifications: Minimize the carrier leakage C.

4-42 (E)

(Waveform Monitor)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : Operation
PAGE : Gain SW (?3)
ITEM
: Middle → 9 dB
MENU : System config
PAGE : Pre Knee/Zebra (S4)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB)

BVP-550

4-3. Overall Electrical Alignment
4-3-18. Knee and White Clip Adjustment

4-3-18. Knee and White Clip Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → M(9 dB)
Adjustment Procedures:
1. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL.
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the knee point
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → 1
ITEM
: White Clip → Off
ITEM
: Knee → On
ITEM
: Knee Max → On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

(Waveform Monitor)

4. Set the menu as follows, and adjust the knee slope
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max → Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)

BVP-550

(Waveform Monitor)

5. Set the GAIN switch (on the side panel) to H (18 dB).
6. Set the menu as follows, and adjust the white clip level
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip → On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB).
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-43 (E)

4-3. Overall Electrical Alignment
4-3-18. Knee and White Clip Adjustment

Note:
The values used in the above adjustments are under the
conditions that the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763

107/749

105/735

103/721

Knee point

98/686

98/686

96/672

96/672

Knee slope

109/763

109/763

107/750

107/750

White clip

109/763

107/749

105/735

103/721

4-44 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-19. A/D Clock Phase Adjustment

4-3-19. A/D Clock Phase Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Multiburst chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the multiburst chart so that the chart frame is
aligned with the underscanned monitor frame with the
zoom control.
• Pan so that the 9 MHz portion of the multiburst chart is
positioned at the center of the monitor screen.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Auto Knee → On

3. Set the menu as follows, and adjust the clock phase for
R/B by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: R/B Clock
Specifications: Minimize the aliasing around the 9
MHz signal portion.

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Adjustment Procedures:
1. Iris of the lens: A = 90 ± 2 IRE (for NTSC)
A = 630 ± 10 mV (for PAL)

2. Set the menu as follows, and adjust the clock phase for
G by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: G Clock
Specifications: Maximize the 9 MHz signal portion.

BVP-550

4-45 (E)

4-3. Overall Electrical Alignment
4-3-20. VTR R-Y/B-Y Adjustment
4-3-21. CCU Y/R-Y/B-Y Adjustment

4-3-20. VTR R-Y/B-Y Adjustment

4-3-21. CCU Y/R-Y/B-Y Adjustment

Equipment

Equipment : Oscilloscope

: Oscilloscope

Preparation:
• OUTPUT/DCC switch (on the side panel) → BARS

Preparation:
• Connect the CCU to the camera.

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the VTR R-Y by
using the MENU SEL switch.
Test Point
: TP4 (R-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR R-Y
Specifications: A = 700 ±5 mV (for NTSC)
: A = 525 ±5 mV (for PAL)

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the CCU Y sample
by using the MENU SEL switch.
Test Point
: TP3 (Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU Y SAMP
Specifications: A = 700 ±2 mV

3. Set the menu as follows, and adjust the VTR B-Y by
using the MENU SEL switch.
Test Point
: TP5 (B-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR B-Y
Specifications: B = 700 ±5 mV (for NTSC)
: B = 525 ±5 mV (for PAL)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
4-46 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-21. CCU Y/R-Y/B-Y Adjustment

3. Set the menu as follows, and adjust the CCU R-Y sync
by using the MENU SEL switch.
Test Point
: TP4 (R-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU R-Y SYNC
Specifications: B = 350 ±2 mV

4. Set the menu as follows, and adjust the CCU B-Y by
using the MENU SEL switch.
Test Point
: TP5 (B-Y) (GND:E1)/DA-88 panel
6. Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU B-Y SAMP
Specifications: C = 350 ±2 mV

4

3

2

1

DA

A

TP1
B

TP2

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

C

D
Y

R-Y

B-Y

TP3
TP4

E

TP5
GND

E1

F

G

DA-88 BOARD (A SIDE)
BVP-550

4-47 (E)

4-3. Overall Electrical Alignment
4-3-22. RGB Adjustment

4-3-22. RGB Adjustment
Equipment

: Oscilloscope

2. Confirm the R video level.
Test Point
: TP63 (GND:GND (A))/
Extension board (extending IF-510)
Specifications:B = 700 ±7 mV

Preparations:
• Extend IF-510 board with EX-464 board.
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CB → On
Adjustment Procedures:
1. Set the menu as follows, and adjust the G video level
by using the MENU SEL switch.
Test Point
: TP61 (GND:GND (A))/
Extension board (extending IF-510)
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: RGB OFFSET
Specifications: A = 700 ±5 mV

(For NTSC)

(For PAL)

(For NTSC)

(For PAL)

4-48 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-22. RGB Adjustment
4-3-23. Menu Setting After Finishing Adjustment

3. Confirm the B video level.
Test Point
: TP59 (GND:GND (A))/
Extension board (extending IF-510)
Specifications: C = 700 ±7 mV

(For NTSC)

4-3-23. Menu Setting After Finishing
Adjustment
MENU : Paint
PAGE : Detail1 (P2)
ITEM : Detail → On
PAGE : Gamma (P5)
ITEM : Gamma → On
PAGE : Knee/W.Clip (P6)
ITEM : Knee → On
MENU : System config
PAGE : VTR/CCU (S5)
ITEM : CB→Off
MENU : Reference File
PAGE : Reference File (R1)
ITEM : File Store
(Press the MENU SEL switch to execute.)

(For PAL)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

BVP-550

4-49 (E)

4-50 (E)

BVP-550

Section 5
Spare Parts
5-1. Notes on Repair Parts
1. w Safety Related Components Warning
Components marked ! are critical to safe operation. Therefore, specified parts should be used in the
case of replacement.
2. Standardization of Parts
Some repair parts supplied by Sony differ from those used for the unit. These are because of parts
commonality and improvement.
Parts list has the present standardized repair parts.
3. Stock of Parts
Parts marked with “o” at SP (Supply Code) column of the spare parts list may be not stocked.
Therefore, the delivery date will be delayed.
4. Units Representation
The following represented units are changed or omitted in writing.

Units

Representation

Capacitance

µF

uF

Inductance

µH

uH

Resistance

Ω

Abbreviation

BVP-550

5-1

TOP PANEL BLOCK

5-2. Exploded Views

2
8
30

27

B4 X 10

19
9

B4 X 10

B5 X 12

14
11
10
W3
SMALL

12

BOLT,HEXAGON
SOCKET 3 X 8

W3
SMALL

28
13
31

26

25

B4 X 8

10

BOLT,HEXAGON
SOCKET 3 X 8
W3
SMALL
BOLT,HEXAGON
SOCKET 3 X 8

15

3
18

29
16

17
1

21

7
5
20
B2.6 X 5

24

22

23

6

B2.6 X 5

B3 X 5
B2.6 X 5

4

5-2

BVP-550

TOP PANEL BLOCK

No.

Part No.

SP Description

1
2
3
4
5

A-8278-029-A
X-3678-451-2
X-3678-484-1
1-565-051-21
1-570-985-11

o
o
o
o
s

SLIDE ASSY,VF
HANDLE ASSY
HOLDER SUB ASSY,HANDLE
CONNECTOR 20P, FEMALE “VF”
SWITCH TOGGLE “R/G/B” “ENC/RGB”

6
7
8
9
10

1-571-396-11
1-657-442-22
3-673-046-00
3-679-683-01
3-679-684-01

s
o
s
o
o

SWITCH TOGGLE “DIPS ON/OFF/MENU”
PRINTED CIRCUIT BOARD, SW-732
LEVER, LOCK
ARM,SLIDE
REST,ARM

11
12
13
14
15

3-679-685-01
3-679-686-01
3-679-698-01
3-679-702-01
3-687-116-01

o
o
o
o
o

TABEL,FIXED,VF SLIDE
TABEL,FIXED,VF SHOE
RING(C),LOCK
CUSION,STOPPER
WASHER(4), STOPPER

16
17
18
19
20

3-692-112-01
3-692-150-01
3-692-165-01
3-692-649-01
3-693-984-01

o
o
o
s
s

PLATE,MENU
SHEET,DROP PROTECTION
HOLDER,HANDOLE
SHEET, BLIND
CUSSHION, DROP PROTECTION (3)

21
22
23
24
25

3-694-196-01
3-694-197-01
3-694-198-01
3-694-199-01
3-701-442-21

s
o
s
s
s

SHEET, DUST PROTECTION (S)
SHEET, DUST PROTECTION (F)
RETAINER, DROP PROTECTION (F)
RETAINER DROP, PROTECTION (S)
WASHER, 4.5

26
27
28
29
30

3-701-506-01
3-701-508-00
3-710-039-03
3-711-765-01
3-711-794-01

s
s
s
s
o

SET SCREW, DOUBLE POINT 3X4
SET SCREW, DOUBLE POINT 3X6
SHOE, SLIDE
BOLT (M3), HEXAGON SOCKET
PIN, STOPPER

31

3-720-919-01 o RUBBER, LOCK RING

BVP-550

5-3

RIGHT PANEL AND PLUG-IN BOARDS

*2

*1

113

*3

112
105
111

114
104
110
103
*2

107

109
102

115

B4 X 12

108
101

*1

107

B4 X 12

B4 X 12

*3

107

B4 X 12

106

5-4

BVP-550

RIGHT PANEL AND PLUG-IN BOARDS

No.

Part No.

101
102
103
104
105

A-8272-560-A
A-8272-562-A
A-8272-564-A
A-8272-566-A
A-8272-568-A

o
o
o
o
o

MOUNTED
MOUNTED
MOUNTED
MOUNTED
MOUNTED

106
107
108
109
110

X-3678-480-1
3-687-116-01
3-692-125-02
3-692-126-02
3-692-127-02

o
o
o
o
o

PANEL ASSY, RIGHT
WASHER (4), STOPPER
PANEL,VA-163 PC BOARD
PANEL,AT-95 PC BOARD
PANEL,SG-234 PC BOARD

111
112
113
114
115

3-692-128-02
3-692-129-02
3-692-642-01
3-724-753-01
3-729-061-01

o
o
o
o
s

PANEL,DA-88 PC BOARD
PANEL,IF-510 PC BOARD
SHEET,SHIELD
RING
SCREW (M2X4.5) (TYPE 1)

BVP-550

SP Description
CIRCUIT
CIRCUIT
CIRCUIT
CIRCUIT
CIRCUIT

BOARD,
BOARD,
BOARD,
BOARD,
BOARD,

VA-163
AT-95
SG-234
DA-88
IF-510

5-5

LEFT PANEL AND BOARDS

B4 X 12

208

B4 X 12

204
208
208

208

B3 X 5

203

B3 X 5

B3 X 5

210
202

B2.6 X 5

209

B3 X 5

207

B2.6 X 5

206

210
210
B2.6 X 5

201

205
210

BVP

5-6

N

BVP-550

LEFT PANEL AND BOARDS

No.

Part No.

201
202
203
204
205

A-8272-557-A
A-8272-547-A
A-8272-559-A
X-3678-481-1
A-8272-571-A

o
o
o
o
s

MOUNTED CIRCUIT BOARD, PR-211
MOUNTED CIRCUIT BOARD, MB-602
MOUNTED CIRCUIT BOARD, CN-1142
PANEL ASSY, LEFT
CONVERTER ASSY, DC-DC

2-623-773-11
3-168-296-01
3-687-116-01
3-692-113-01
4-924-260-01

s
s
o
o
o

BOLT (M3X8), STAINLESS
PIN, ID
WASHER (4), STOPPER
WEDGE,HANGER
BOSS (D)

206
207
208
209
210

BVP-550

!

SP Description

5-7

CHASSIS AND SHOULDER PAD

Precision
P2.6 X 5

306

313

Precision
P2.6 X 5
Precision
P2 X 5

319

Precision
P2.6 X 5

307

B4 X 8
Precision
P2.6 X 5

Precision
P2.6 X 5

*4

308
*4

*3

*1

*2

301

BTP2.6 X 6

309

BTP2.6 X 6

302
*3
*1

*2

303

W2.6 SMALL

310

314

BOLT,HEXAGON
SOCKET 3 X 8
BOLT,HEXAGON
SOCKET 3 X 8

*1

B3 X 5

305
304
B3 X 5

315

316

E2

K4 X 8

B4 X 14

311
317

312

B4 X 14

318
K3 X 8

5-8

P4 X 6

K3 X 8

BVP-550

CHASSIS AND SHOULDER PAD

No.

Part No.

301
302
303
304
305

A-8272-549-A
A-8272-550-A
A-8278-237-A
A-8278-238-A
3-692-102-01

o
o
s
s
o

MOUNTED PCB, CN-1120
MOUNTED PCB, CN-1121
PAD ASSY (LARGE)
PAD ASSY (SMALL)
BRACKET V SHOE

306
307
308
309
310

3-692-114-02
3-692-115-01
3-692-117-02
3-692-119-01
3-692-641-03

o
o
o
o
o

PLATE,CONNECTOR(136P)
SHOE,LOCK
RAIL
RAIL,CAM
ROD,LOCK

311
312
313
314
315

3-692-643-02
3-692-645-01
3-692-646-01
3-692-647-01
3-693-973-01

o
o
o
o
s

BASE,V SHOE
ROD,ROTARY
SHEET,DUST PROTECTION (PS)
SPACER,PAD
SPRING, TORSION (SMALL)

316
317
318
319

3-701-444-21
3-742-011-01
3-742-015-01
4-864-521-01

s
s
o
s

WASHER, 6
SCREW, 1/4, 3/8 CONVERSION
WEDGE (B), MOUNTING
SPRING (PC BOARD GROUND)

BVP-550

SP Description

5-9

BOTTOM BLOCK

429
404
415

424

422
405
425
419
429
Precision
P2.6 X 5

402

Precision
P2.6 X 5

427
420

406

421

417

BTP2.6 X 6

409

428

Precision
P2.6 X 5

430

426

432
411
408

414

416
Precision
P2.6 X 5

B2.6 X 5

413

418
412
433

407
410
BTP2.6 X 6

431
403
423

5-10

401

BVP-550

BOTTOM BLOCK

No.

Part No.

401
402
403
404
405

1-473-315-11
1-509-184-31
1-554-088-00
1-561-781-11
1-562-222-41

406
407
408
409
410

1-570-282-21 s SWITCH KEY BOARD “VTR START”
1-571-415-11 s SWITCH TOGGLE “CAMERA/VTR”
“GAIN” “OUTPUT” WHITE BAL”
1-571-416-11 s SWITCH TOGGLE “AUTO W/B BAL”
1-571-679-11 s SWITCH TOGGLE “SHUTTER”
1-657-443-21 o PRINTED CIRCUIT BOARD, SW-730

411
412
413
414
415

1-657-444-21
1-657-445-21
1-657-446-21
1-657-447-21
1-695-841-12

o
o
o
o
s

PRINTED CIRCUIT BOARD, SW-731
PRINTED CIRCUIT BOARD, SW-733
PRINTED CIRCUIT BOARD, SW-742
PRINTED CIRCUIT BOARD, CN-1122
CONNECTOR 12P, FEMALE “LENS”

416
417
418
419
420

3-312-823-00
3-676-244-11
3-679-679-03
3-692-106-01
3-692-107-02

s
s
s
o
o

PACKING, KNOB
COVER, SW
KNOB,VR(AUDIO)
BASE,SHOULDER
COVER,FRONT SWITCH

421
422
423
424
425

3-692-108-01
3-692-110-02
3-692-111-01
3-692-149-02
3-692-644-02

o
o
s
o
o

GUARD,SWITCH
BRACKET,CONNECTOR
KNOB,RE “MIC LEVEL”
BRACKET,CONNECTOR(TEST OUT)
CAP,CONNECTOR

426
427
428
429
430

3-693-974-01
3-693-976-01
3-693-983-01
3-694-181-01
3-729-069-01

o
o
o
s
s

PLATE, SHIELD (SIDE)
PLATE, SHUTTER (FRONT)
CUSSHION, DROP PROTECTION (2)
TYPE1, AROCK PRECISION +P2.6
BUTTON, VTR START

431
432
433

3-742-065-01 o SHAFT, SHUTTER
3-742-066-11 o SPRING, SHUTTER
3-742-067-04 o LID, SHUTTER

BVP-550

SP Description
s
s
s
s
s

ENCODER ROTARY “MENU SEL”
CONNECTOR 3P, FEMALE “MIC”
SWITCH, TACTILE “CANCEL”
CONNECTOR, BNC “TEST OUT”
CONNECTOR 6P, FEMALE “REMOTE”

5-11

SCREWS AND WASHERS

No.

Part No.

SP Description

7-621-770-87
7-623-208-22
7-623-505-01
7-624-104-04
7-624-105-04

s
o
s
s
s

SCREW +B 2.6X5
SW 3,TYPE 2
LUG, 2
STOP RING 2.0, TYPE -E
STOP RING 2.3, TYPE -E

7-624-200-01
7-627-452-38
7-627-454-38
7-627-553-78
7-627-554-18

s
s
s
s
s

NUT, PUSH 1.5
SCREW,PRECISION +K 2X5
SCREW, PRECISION +K 2.6X5
SCREW,PRECISION +P 2X10
SCREW,PRECISION +P 2X3.5 TYPE1

7-627-556-57
7-627-556-58
7-671-158-01
7-682-160-09
7-682-247-04

s
s
s
s
s

PRECISION SCREW +P 2.6X5 TYPE1
SCREW +P 2.6X5
BALL, STAINLESS (2.5 DIA)
SCREW +P 4X6
SCREW +K 3X6

7-682-248-09
7-682-261-09
7-682-545-04
7-682-546-04
7-682-546-09

s
s
s
s
s

SCREW
SCREW
SCREW
SCREW
SCREW

7-682-561-09
7-682-563-09
7-682-564-09
7-682-576-09
7-683-404-04

s
s
s
s
s

SCREW +B 4X8
SCREW +B 4X12
SCREW +B 4X14
SCREW +B 5X12
BOLT,HEXAGON SOCKET 3X8

7-683-405-04
7-683-412-05
7-685-104-19
7-685-134-19
7-685-533-19

s
s
s
s
s

BOLT,HEXAGON SOCKET 3X10
BOLT,HEXAGON SOCKET 2.6X6
SCREW +P 2X6 TYPE2 NON-SLIT
SCREW +P 2.6X8 TYPE2 NON-SLIT
SCREW +BTP 2.6X6 TYPE2 N-S

+K
+K
+B
+B
+B

3X8
4X8
3X4
3X5
3X5

7-688-002-02 s W2.6, SHALL
7-688-003-02 s W 3, SMALL

5-12

BVP-550

5-3. Electrical Parts List
----------AT-95 BOARD
----------Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
1pc
1pc
6pcs

A-8272-562-A
3-692-126-02
3-724-753-01
3-729-061-01

C55
C56
C57
C58
C59

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

25V
25V
25V
25V
0.01uF 10% 25V

BT1

1-550-104-32 s HOLDER, BATTERY

C1
C2
C3
C4
C5

1-162-927-11
1-162-964-11
1-164-156-11
1-164-156-11
1-107-688-11

s
s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP,TANTALUM 1.5uF 20% 25V

C60
C61
C62
C63
C64

1-162-970-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

0.01uF 10% 25V
25V
25V
25V
25V

C6
C7
C8
C9
C10

1-164-156-11
1-107-688-11
1-126-392-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CHIP,TANTALUM 1.5uF 20% 25V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C65
C66
C67
C68
C69

1-164-156-11
1-162-927-11
1-162-927-11
1-162-927-11
1-162-927-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP

25V
100PF
100PF
100PF
100PF

C11
C12
C13
C14
C16

1-164-156-11
1-135-165-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C70
C71
C80
C81

1-162-927-11
1-131-360-00
1-164-156-11
1-126-925-11

s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
TANTALUM 15uF 10% 10V
CERAMIC 0.1uF 25V
ELECT, CHIP 470uF 20% 10V

CNI36

1-540-197-11 o SOCKET, IC

C17
C18
C19
C20
C21

1-135-215-21
1-164-156-11
1-126-392-11
1-164-156-11
1-162-927-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 100PF 5% 50V

D1
D2
D3
D4
D5

8-719-029-63
8-719-820-41
8-719-974-76
8-719-974-76
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
1SS302
HSM107S
HSM107S
1SS302

C22
C23
C24
C25
C26

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

D6
D7
D8
D10
D11

8-719-974-76
8-719-974-76
8-719-974-76
8-719-974-76
8-719-974-76

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM107S
HSM107S
HSM107S
HSM107S
HSM107S

C27
C28
C29
C30
C31

1-164-156-11
1-162-970-11
1-164-156-11
1-164-156-11
1-135-180-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 3.3uF 20% 6.3V

D12
D13
D15
D16
D17

8-719-974-76
8-719-974-76
8-719-974-76
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM107S
HSM107S
HSM107S
1SS302
1SS302

C32
C33
C34
C35
C36

1-162-966-11
1-162-970-11
1-135-076-21
1-162-970-11
1-162-970-11

s
s
s
s
s

CERAMIC, CHIP 0.0022uF 10% 50V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 1uF 10% 35V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 0.01uF 10% 25V

D18
D19
D20
D21
D22

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

C37
C38
C39
C40
C41

1-164-156-11
1-164-156-11
1-162-970-11
1-135-085-21
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 4.7uF 10% 25V
CERAMIC, CHIP 0.01uF 10% 25V

IC1
IC2
IC3
IC4
IC5

8-759-252-59
8-759-242-78
8-759-079-74
8-759-076-06
8-759-076-06

s
s
s
s
s

IC
IC
IC
IC
IC

MAX202CSE
TC7W02F
TC74VHC157FS(EL)
TL064CPW
TL064CPW

C42
C43
C44
C45
C46

1-162-964-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

IC6
IC7
IC8
IC9
IC11

8-759-637-07
8-759-089-61
8-759-082-60
8-759-076-06
8-759-711-50

s
s
s
s
s

IC
IC
IC
IC
IC

M62021FP
TC74HC4052AFS(EL)
TC7S66FU
TL064CPW
NJU7022M

C47
C48
C49
C50
C51

1-164-156-11
1-135-215-21
1-164-156-11
1-135-157-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V

IC12
IC13
IC14
IC15
IC17

8-759-711-50
8-759-059-50
8-759-082-57
8-759-083-94
8-759-058-64

s
s
s
s
s

IC
IC
IC
IC
IC

NJU7022M
MB88351PFV
TC7W04FU
TC7W74FU
TC7S32FU(TE85R)

C52
C53
C54

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

IC18
IC19
IC20
IC21

8-759-271-84
8-759-271-86
8-759-196-96
8-759-271-84

s
s
s
s

IC
IC
IC
IC

TC7SH02FU
TC7SH04FU
TC7SH08FU-TE85R
TC7SH02FU

BVP-550

o
o
o
s

MOUNTED CIRCUIT BOARD, AT-95
PANEL,AT-95 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

SP Description

25V
25V
25V
25V
0.01uF 10% 25V

0.001uF 10% 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V
0.1uF 25V

5%
5%
5%
5%

50V
50V
50V
50V

5-13

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

IC22
IC23
IC24
IC25
IC26

8-759-196-97
8-759-186-31
8-759-079-70
8-759-065-20
8-752-337-91

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH32FU-TE85R
TC74VHC20F
TC74VHC138FS(EL)
RTC-4553B
CXK58257ATM-70LL

R23
R25
R26
R28
R29

1-216-794-11
1-216-821-11
1-216-809-11
1-218-889-11
1-216-857-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP

IC27
IC28
IC29
IC30
IC31

8-759-154-60
8-759-154-60
8-759-149-10
8-759-271-84
8-759-196-97

s
s
s
s
s

IC
IC
IC
IC
IC

UPD71055GB-10-3B4
UPD71055GB-10-3B4
UPD4702G
TC7SH02FU
TC7SH32FU-TE85R

R30
R31
R32
R33
R34

1-218-858-11
1-218-720-11
1-216-839-11
1-216-862-11
1-216-857-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 33K 5% 1/16W
METAL 2.7M 5% 1/16W
METAL, CHIP 1M 5% 1/16W

IC32
IC33
IC34
IC35
IC36

8-759-242-78
8-759-186-53
8-759-186-53
8-759-277-99

s
s
s
s

IC
IC
IC
IC
IC

TC7W02F
TC74VHC163F
TC74VHC163F
CXD8889R
PENDING

R35
R36
R37
R38
R39

1-216-857-11
1-216-857-11
1-216-863-11
1-216-857-11
1-216-857-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 3.3M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W

IC37
IC38
IC39
IC40
IC41

8-759-196-96
8-759-182-95
8-759-079-85
8-759-079-61
8-759-195-81

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH08FU-TE85R
HD151015T
TC74VHC244FS(EL)
TC74VHC74FS(EL)
TC7S86FU

R40
R41
R42
R43
R44

1-218-716-11
1-218-724-11
1-216-819-11
1-216-821-11
1-218-707-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 680 5% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 4.3K 0.50% 1/16W

IC42
IC43
IC44
IC45
IC46

8-759-186-53
8-759-082-57
8-759-186-53
8-759-083-94
8-759-165-37

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC163F
TC7W04FU
TC74VHC163F
TC7W74FU
X24164SIC7000

R45
R46
R47
R48
R49

1-216-825-11
1-216-821-11
1-218-716-11
1-218-873-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL 10K 0.50% 1/16W

IC47
IC48

8-759-078-75 s IC UPD6453GT-610
8-759-276-00 s IC TC7W139FU(TE12R)

L1
L2

1-410-737-31 s INDUCTOR CHIP 0.47uH
1-410-377-31 s INDUCTOR CHIP 4.7uH

R50
R51
R52
R53
R54

1-218-724-11
1-216-821-11
1-216-821-11
1-216-809-11
1-216-836-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP

Q1
Q2
Q3
Q4
Q5

8-729-141-48
8-729-402-19
8-729-920-48
8-729-925-47
8-729-920-48

R55
R56
R57
R58
R59

1-218-867-11
1-216-824-11
1-218-716-11
1-218-873-11
1-216-820-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
METAL, CHIP 1.8K 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL, CHIP 820 5% 1/16W

Q6

8-729-920-48 s TRANSISTOR IMH2

R1
R2
R3
R4
R5

1-216-794-11
1-216-833-11
1-216-831-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

5.6 5% 1/16W
10K 5% 1/16W
6.8K 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R60
R61
R62
R63
R64

1-216-855-11
1-216-854-11
1-218-752-11
1-216-854-11
1-218-750-11

s
s
s
s
s

METAL, CHIP 680K
METAL, CHIP 560K
METAL 330K 0.50%
METAL, CHIP 560K
METAL 270K 0.50%

R6
R7
R8
R9
R10

1-216-821-11
1-216-809-11
1-216-829-11
1-216-833-11
1-216-837-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100 5% 1/16W
4.7K 5% 1/16W
10K 5% 1/16W
22K 5% 1/16W

R66
R70
R71
R72
R73

1-216-821-11
1-216-857-11
1-216-829-11
1-216-821-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1M 5% 1/16W
4.7K 5% 1/16W
1K 5% 1/16W
4.7K 5% 1/16W

R11
R12
R13
R14
R15

1-216-845-11
1-216-794-11
1-216-864-11
1-216-821-11
1-216-864-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
5.6 5% 1/16W
0 5% 1/16W
1K 5% 1/16W
0 5% 1/16W

R74
R75
R76
R77
R78

1-216-829-11
1-216-829-11
1-216-809-11
1-216-809-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

4.7K 5% 1/16W
4.7K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
10 5% 1/16W

R16
R17
R18
R19
R20

1-216-809-11
1-216-858-11
1-218-723-11
1-216-692-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 100 5% 1/16W
METAL, CHIP 1.2M 5% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 1K 0.5% 1/16W
METAL, CHIP 100 5% 1/16W

R79
R80
R81
R82
R83

1-216-828-11
1-216-797-11
1-216-797-11
1-218-866-11
1-216-797-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP

3.9K 5% 1/16W
10 5% 1/16W
10 5% 1/16W
6.2K 0.50% 1/16W
10 5% 1/16W

R21
R22

1-218-668-11 s CHIP, METAL 100 0.50% 1/16W
1-218-724-11 s CHIP, METAL 22K 5% 1/16W

R84
R85
R86
R87

1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

10
10
10
10

5-14

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
XN6501
IMH2
IMB2
IMH2

CHIP
CHIP
CHIP
CHIP

5.6 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
56K 0.50% 1/16W
1M 5% 1/16W

22K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
18K 5% 1/16W

5%
5%
5%
5%

5% 1/16W
5% 1/16W
1/16W
5% 1/16W
1/16W

1/16W
1/16W
1/16W
1/16W

BVP-550

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R88
R89
R90
R91
R92

1-216-797-11
1-216-841-11
1-216-841-11
1-216-797-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W
10 5% 1/16W
10 5% 1/16W

R151
R152
R153
R154
R155

1-216-821-11
1-216-841-11
1-216-845-11
1-216-833-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R93
R94
R95
R96
R97

1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10 5% 1/16W
10 5% 1/16W
10 5% 1/16W
10 5% 1/16W
100K 5% 1/16W

R160
R161
R162
R163
R164

1-216-821-11
1-216-862-11
1-216-864-11
1-216-864-11
1-218-751-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 2.7M 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 300K 0.50% 1/16

R98
R99
R100
R101
R102

1-216-845-11
1-216-845-11
1-216-833-11
1-216-833-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
1K 5% 1/16W

R165

1-218-858-11 s CHIP, METAL 3K 0.50% 1/16W

RV1

1-237-035-11 s RES, ADJ METAL 5K

S1

1-692-270-21 s SWITCH, SLIDE

R103
R104
R105
R106
R107

1-216-821-11
1-216-845-11
1-216-809-11
1-216-849-11
1-216-841-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
220K 5% 1/16W
47K 5% 1/16W

R108
R109
R110
R111
R114

1-216-841-11
1-216-841-11
1-216-825-11
1-216-825-11
1-216-825-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47K 5% 1/16W
47K 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W

R115
R118
R119
R120
R121

1-216-825-11
1-216-809-11
1-216-809-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

2.2K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R122
R123
R124
R125
R126

1-216-809-11
1-216-821-11
1-216-821-11
1-216-821-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W

R127
R128
R129
R130
R131

1-216-809-11
1-216-809-11
1-216-809-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R132
R133
R134
R135
R136

1-216-841-11
1-216-841-11
1-216-833-11
1-216-841-11
1-216-841-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47K
47K
10K
47K
47K

R137
R138
R139
R140
R141

1-216-821-11
1-216-809-11
1-216-821-11
1-216-821-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W

R142
R143
R144
R145
R146

1-216-821-11
1-216-821-11
1-216-841-11
1-216-809-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
47K 5% 1/16W
100 5% 1/16W
100K 5% 1/16W

R147
R148
R149
R150

1-216-845-11
1-216-845-11
1-216-845-11
1-216-809-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W

BVP-550

5%
5%
5%
5%
5%

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
47K 5% 1/16W
100K 5% 1/16W
10K 5% 1/16W
100K 5% 1/16W

1/16W
1/16W
1/16W
1/16W
1/16W

5-15

------------CN-1120 BOARD
------------Ref. No.
or Q'ty Part No.

------------CN-1121 BOARD
------------Ref. No.
or Q'ty Part No.

SP Description

SP Description

1pc

A-8272-549-A o MOUNTED CIRCUIT BOARD, CN-1120

1pc

A-8272-550-A o MOUNTED CIRCUIT BOAAD, CN-1121

C1
C2
C3
C4
C5

1-163-275-11
1-163-275-11
1-163-275-11
1-163-275-11
1-163-275-11

CN101
CN102

1-569-531-11 s HOUSING, 20P
1-569-532-11 s HOUSING, 30P

C6

1-163-275-11 s CERAMIC 0.001uF 5% 50V

FL1
FL2
FL3
FL4
FL5

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

CN201
CN202

1-569-532-11 s HOUSING, 30P
1-569-532-11 s HOUSING, 30P

FL1
FL2
FL3
FL4
FL5

1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL6
FL7
FL8
FL9
FL10

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL6
FL7
FL8
FL9
FL10

1-239-825-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL11
FL12
FL13
FL14
FL15

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL11
FL12
FL13
FL14
FL15

1-239-719-11
1-239-825-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL16
FL17
FL18
FL19
FL20

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL16
FL17
FL18
FL19
FL20

1-239-825-11
1-239-719-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL21
FL22
FL23
FL24
FL25

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL21
FL22
FL23
FL24
FL25

1-239-825-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL26
FL27
FL28
FL30
FL31

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL26
FL27
FL28
FL29
FL30

1-239-719-11
1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL32
FL33
FL34
FL35
FL37

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL38
FL39

1-239-719-11 s FILTER, CHIP EMI
1-239-719-11 s FILTER, CHIP EMI

FL31
FL32
FL33
FL34
FL35

1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

R1
R2

1-216-295-11 s CHIP, CONDUCTOR 0
1-216-295-11 s CHIP, CONDUCTOR 0

FL36
FL37
FL38
FL39
FL40

1-239-825-11
1-239-825-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL41
FL42
FL43
FL44

1-239-719-11
1-239-719-11
1-239-825-11
1-239-825-11

s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI

5-16

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.001uF
0.001uF
0.001uF
0.001uF
0.001uF

5%
5%
5%
5%
5%

50V
50V
50V
50V
50V

BVP-550

------------CN-1122 BOARD
------------Ref. No.
or Q'ty Part No.

----------DA-88 BOARD
----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-447-21 o PRINTED CIRCUIT BOARD, CN-1122

C1
C2
C5

1-128-592-11 s ELECT 0.33uF 20% 50V
1-128-592-11 s ELECT 0.33uF 20% 50V
1-126-968-11 s CHIP, ELECT 100uF 20% 50V

CN401
CN402
CN405
CN406
CN407

1-569-629-11
1-695-890-21
1-764-082-21
1-764-078-11
1-695-207-21

R1
R2
R3

1-218-708-11 s METAL 4.7K 0.50% 1/16W
1-218-708-11 s METAL 4.7K 0.50% 1/16W
1-215-421-00 s METAL 1K 1% 1/6W

------------CN-1142 BOARD
------------Ref. No.
or Q'ty Part No.
1pc

BVP-550

s
o
s
s
o

HOUSING, 24P
PIN, CONNECTOR
PIN, CONNECTOR
PIN, CONNECTOR
PIN, CONNECTOR

(PC
(PC
(PC
(PC

BOARD)
BOARD)
BOARD)
BOARD)

12P
11P
3P
6P

SP Description

A-8272-559-A o MOUNTED CIRCUIT BOARD, CN-1142

SP Description

1pc
1pc
1pc
6pcs

A-8272-566-A
3-692-128-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, DA-88
PANEL,DA-88 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-215-21
1-135-160-21
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C6
C7
C8
C9
C10

1-135-160-21
1-164-156-11
1-162-923-11
1-165-176-11
1-135-160-21

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 47PF 5% 50V
CERAMIC, CHIP 0.047uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-135-177-21
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C16
C17
C18
C19
C20

1-135-216-11
1-135-216-11
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C21
C23
C24
C25
C26

1-162-915-11
1-164-156-11
1-164-156-11
1-135-215-21
1-135-216-11

s
s
s
s
s

CERAMIC, CHIP 10PF 5PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V

C27
C28
C29
C30
C31

1-135-216-11
1-135-216-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C32
C33
C34
C35
C36

1-164-156-11
1-162-970-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C37
C38
C39
C40
C41

1-164-156-11
1-164-156-11
1-162-970-11
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C42
C43
C44
C45
C46

1-164-156-11
1-164-156-11
1-164-156-11
1-162-919-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

C47
C48
C49
C50
C51

1-164-156-11
1-162-913-11
1-162-907-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 8PF 0.5PF 50V
CERAMIC, CHIP 2PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C52
C53
C54
C55
C56

1-164-156-11
1-164-156-11
1-135-215-21
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

25V
25V
25V
22PF 5% 50V
0.01uF 10% 25V

5-17

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C57
C58
C59
C61
C64

1-135-177-21
1-135-177-21
1-164-315-11
1-135-216-11
1-162-905-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 470PF 5% 50V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 1PF 0.25PF 50V

C132
C133
C134
C136
C137

1-162-905-11
1-162-915-11
1-162-921-11
1-162-915-11
1-162-921-11

s
s
s
s
s

CERAMIC 1PF 0.25PF
CERAMIC, CHIP 10PF
CERAMIC, CHIP 33PF
CERAMIC, CHIP 10PF
CERAMIC, CHIP 33PF

C65
C66
C67
C68
C69

1-162-915-11
1-162-921-11
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF

C138
C140
C141
C142
C143

1-162-970-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C70
C71
C72
C73
C74

1-162-913-11
1-162-907-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 8PF 0.5PF 50V
CERAMIC, CHIP 2PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C144
C145
C146
C147
C148

1-135-215-21
1-162-907-11
1-135-177-21
1-135-177-21
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C75
C76
C77
C81
C82

1-164-156-11
1-135-162-21
1-135-215-21
1-162-970-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V

C149
C150
C151
C154
C155

1-135-177-21
1-164-156-11
1-135-215-21
1-162-905-11
1-162-915-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 1PF 0.25PF 50V
CERAMIC, CHIP 10PF 5PF 50V

C83
C84
C85
C87
C88

1-135-215-21
1-162-970-11
1-162-918-11
1-162-905-11
1-162-921-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 18PF 5% 50V
CERAMIC 1PF 0.25PF 50V
CERAMIC, CHIP 33PF 5% 50V

C166
C167
C169
C170
C171

1-135-216-11
1-164-156-11
1-135-215-21
1-135-215-21
1-135-215-21

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V

C89
C90
C92
C93
C95

1-162-919-11
1-162-911-11
1-164-156-11
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 22PF 5% 50V
CERAMIC, CHIP 6PF 50V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C172
C200
C201
C202
C203

1-135-215-21
1-164-156-11
1-164-156-11
1-135-215-21
1-162-907-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V

C96
C97
C98
C99
C100

1-164-156-11
1-164-156-11
1-164-156-11
1-135-215-21
1-162-907-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V

C204
C205
C206
C207
C208

1-164-156-11
1-162-907-11
1-135-215-21
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C101
C102
C103
C104
C105

1-135-177-21
1-135-177-21
1-135-177-21
1-135-177-21
1-164-315-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
CERAMIC 470PF 5% 50V

C209
C210
C211
C213
C214

1-164-156-11
1-135-215-21
1-164-156-11
1-162-909-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 0.1uF 25V

C106
C107
C109
C110
C113

1-164-156-11
1-135-215-21
1-164-156-11
1-135-160-21
1-162-905-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 1PF 0.25PF 50V

C215
C216
C217
C218
C219

1-135-215-21
1-164-156-11
1-135-215-21
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C114
C115
C118
C119
C120

1-162-915-11
1-162-927-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C220
C221
C222
C223
C225

1-164-156-11
1-164-156-11
1-164-156-11
1-162-915-11
1-162-915-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

C121
C122
C123
C124
C125

1-164-156-11
1-135-215-21
1-162-907-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C226
C228
C229
C230
C231

1-162-915-11
1-135-160-21
1-162-908-11
1-162-908-11
1-162-908-11

s
s
s
s
s

CERAMIC, CHIP 10PF 5PF 50V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 3PF 0.25PF 50V
CERAMIC 3PF 0.25PF 50V
CERAMIC 3PF 0.25PF 50V

C126
C127
C128
C129

1-135-177-21
1-135-177-21
1-164-156-11
1-135-215-21

s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C500

1-162-905-11 s CERAMIC 1PF 0.25PF 50V

D1
D2

8-719-029-63 s DIODE RD4.3UH-T1
8-719-029-63 s DIODE RD4.3UH-T1

5-18

10PF 5PF 50V
33PF 5% 50V
0.01uF 10% 25V
25V
25V

25V
25V
25V
25V

10PF 5PF 50V
100PF 5% 50V
25V
25V
25V

50V
5PF 50V
5% 50V
5PF 50V
5% 50V

0.01uF 10% 25V
25V
25V
25V
25V

25V
25V
25V
10PF 5PF 50V
10PF 5PF 50V

BVP-550

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

D3
D5
D6
D7
D9

8-719-029-63
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
1SS302
1SS302
1SS302
1SS302

IC100
IC101
IC102
IC103
IC104

8-759-058-62
8-759-058-58
8-759-082-59
8-759-058-64
8-759-058-54

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S08FU(TE85R)
TC7S04FU(TE85R)
TC7W32FU
TC7S32FU(TE85R)
TC7S00FU(TE85R)

D10
D11
D12
D13
D14

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

IC105
IC106
IC107
IC108
IC109

8-759-058-64
8-759-058-62
8-759-196-96
8-759-058-54
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S32FU(TE85R)
TC7S08FU(TE85R)
TC7SH08FU-TE85R
TC7S00FU(TE85R)
TC7S08FU(TE85R)

D15
D16
D17
D24
D25

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

IC110

8-759-058-58 s IC TC7S04FU(TE85R)

JR1
JR2
JR3
JR4

1-216-864-11
1-216-864-11
1-216-864-11
1-216-864-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

D26
D100
D101
D102

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302

FL1
FL2
FL3
FL4
FL5

1-239-754-11
1-239-753-11
1-233-240-21
1-239-753-11
1-233-240-21

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

L1
L2
L3
L4
L5

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

FL6
FL7
FL8

1-239-754-11 s FILTER, LOW PASS
1-239-754-11 s FILTER, LOW PASS
1-239-754-11 s FILTER, LOW PASS

L6
L7
L8
L9
L10

1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH

IC1
IC2
IC3
IC4
IC5

8-759-066-68
8-759-076-06
8-759-632-39
8-752-360-44
8-752-360-44

s
s
s
s
s

IC
IC
IC
IC
IC

REF-03GS
TL064CPW
M51958A-T1
CXK1203AR
CXK1203AR

L11
L12
L13
L14
L15

1-410-385-11
1-410-392-11
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 82uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH

IC6
IC7
IC8
IC9
IC10

8-752-360-44
8-752-363-60
8-759-079-46
8-759-058-54
8-759-086-42

s
s
s
s
s

IC
IC
IC
IC
IC

CXK1203AR
CXD2307R-T4
TC74VHC00FS(EL)
TC7S00FU(TE85R)
X24C02S-3.0-C7000

L16
L17
L18
L19
L20

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

IC11
IC12
IC13
IC14
IC15

8-759-058-58
8-759-058-62
8-759-237-79
8-759-064-36
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S04FU(TE85R)
TC7S08FU(TE85R)
TC74HC595AF(EL)
MB88346BPFV
TC4W53FU

L21
L22
L23
L24
L25

1-410-737-31
1-410-737-31
1-410-737-31
1-410-389-31
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 47uH
INDUCTOR, CHIP 22uH

IC16
IC17
IC18
IC19
IC20

8-759-981-48
8-759-082-61
8-759-082-61
8-759-079-85
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TL082M
TC4W53FU
TC4W53FU
TC74VHC244FS(EL)
TC4W53FU

Q1
Q2
Q3
Q4
Q7

8-729-141-48
8-729-141-75
8-729-141-75
8-729-117-73
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SD596DV345
2SD596DV345
2SC4178-F14
2SC4177

IC23
IC24
IC25
IC26
IC27

8-759-287-54
8-759-082-61
8-759-089-61
8-759-066-59
8-759-287-54

s
s
s
s
s

IC
IC
IC
IC
IC

TL084CPW-E20
TC4W53FU
TC74HC4052AFS(EL)
TC74HC4053AFS
TL084CPW-E20

Q8
Q9
Q10
Q11
Q12

8-729-117-16
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

IC28
IC29
IC34
IC35
IC36

8-759-089-61
8-759-082-61
8-759-271-86
8-759-180-08
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

TC74HC4052AFS(EL)
TC4W53FU
TC7SH04FU
TC74HC4538AFS
TC74HC595AF(EL)

Q13
Q14
Q15
Q16
Q17

8-729-122-63
8-729-122-63
8-729-122-63
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SA1226
2SC4177
2SA1226

IC37

8-759-082-59 s IC TC7W32FU

Q18
Q19
Q20

8-729-142-90 s TRANSISTOR 2SK853-K5
8-729-403-32 s TRANSISTOR XN6534
8-729-920-48 s TRANSISTOR IMH2

BVP-550

LOW
LOW
LOW
LOW
LOW

PASS
PASS
PASS
PASS
PASS

CHIP
CHIP
CHIP
CHIP

0
0
0
0

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W

0.47uH
0.47uH
0.47uH
0.47uH
0.47uH

0.47uH
0.47uH
0.47uH
0.47uH
0.47uH

5-19

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

Q22
Q23
Q25
Q26
Q27

8-729-122-63
8-729-102-08
8-729-117-32
8-729-117-16
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SC2223-F14
2SC4177
2SA1611-M6
2SC4178-F14

Q28
Q29
Q30
Q32
Q33

8-729-117-73
8-729-117-73
8-729-117-73
8-729-122-63
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1226
2SC2223-F14

Q34
Q43
Q44
Q45
Q46

8-729-102-08
8-729-403-32
8-729-102-08
8-729-117-16
8-729-920-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
XN6534
2SC2223-F14
2SA1611-M6
IMH2

Q47
Q48
Q49
Q50
Q51

8-729-117-32
8-729-117-73
8-729-122-63
8-729-122-63
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SA1226
2SA1226
2SA1226

Q52
Q53
Q54
Q59
Q63

8-729-117-32
8-729-122-63
8-729-142-90
8-729-403-32
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SK853-K5
XN6534
2SC2223-F14

Q67
Q68
Q69
Q70
Q71

8-729-117-73
8-729-122-63
8-729-122-63
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1226
2SA1226
2SC4177
2SA1226

Q72
Q73
Q75
Q79
Q83

8-729-142-90
8-729-122-63
8-729-403-32
8-729-102-08
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SK853-K5
2SA1226
XN6534
2SC2223-F14
2SC4177

Q84
Q85
Q86
Q87
Q88

8-729-117-16
8-729-117-73
8-729-122-63
8-729-122-63
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4178-F14
2SA1226
2SA1226
2SA1226

Q89
Q90
Q91
Q92
Q94

8-729-117-32
8-729-122-63
8-729-142-90
8-729-122-63
8-729-403-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SK853-K5
2SA1226
XN6534

Q98
Q100
Q101
Q102
Q103

8-729-102-08
8-729-403-32
8-729-102-08
8-729-122-63
8-729-403-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
XN6534
2SC2223-F14
2SA1226
XN6534

Q104
Q105
Q106
Q107
Q108

8-729-102-08
8-729-029-14
8-729-029-14
8-729-102-08
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
DTC144EUA-T106
DTC144EUA-T106
2SC2223-F14
2SC2223-F14

Q109
Q110
Q111
Q112

8-729-102-08
8-729-102-08
8-729-102-08
8-729-102-08

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
2SC2223-F14
2SC2223-F14
2SC2223-F14

5-20

SP Description

Q113
Q114
Q115
Q117

8-729-102-08
8-729-102-08
8-729-102-08
8-729-122-63

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

R1
R2
R3
R4
R5

1-216-864-11
1-216-845-11
1-216-821-11
1-218-677-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W

R6
R7
R8
R9
R10

1-218-724-11
1-216-821-11
1-216-809-11
1-216-864-11
1-218-724-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

R11
R12
R13
R14
R15

1-218-724-11
1-218-729-11
1-216-864-11
1-218-723-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R16
R17
R18
R19
R20

1-216-821-11
1-218-676-11
1-218-698-11
1-218-676-11
1-216-805-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R21
R22
R23
R24
R25

1-218-704-11
1-216-805-11
1-220-158-91
1-216-809-11
1-216-832-11

s
s
s
s
s

METAL 3.3K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 8.2K 5% 1/16W

R26
R27
R33
R34
R35

1-216-803-11
1-216-864-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R36
R37
R38
R39
R40

1-216-845-11
1-216-845-11
1-216-845-11
1-218-676-11
1-218-676-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 220 0.50% 1/16W

R41
R42
R43
R44
R45

1-218-676-11
1-218-704-11
1-218-704-11
1-218-704-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

220 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
33K 0.50% 1/16W

R46
R47
R48
R49
R50

1-218-724-11
1-218-730-11
1-218-883-11
1-218-724-11
1-218-730-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

METAL 22K
METAL 39K
33K 0.50%
METAL 22K
METAL 39K

R51
R52
R53
R54
R56

1-218-883-11
1-218-724-11
1-218-730-11
1-216-797-11
1-216-857-11

s
s
s
s
s

METAL 33K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 39K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
METAL, CHIP 1M 5% 1/16W

R57
R58
R59
R60
R61
R62

1-218-676-11
1-218-692-11
1-216-805-11
1-216-805-11
1-216-829-11
1-216-829-11

s
s
s
s
s
s

METAL 220 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

2SC2223-F14
2SC2223-F14
2SC2223-F14
2SA1226

22K 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
0 5% 1/16W
22K 5% 1/16W

33 5% 1/16W
0 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

5% 1/16W
0.50% 1/16W
1/16W
5% 1/16W
0.50% 1/16W

BVP-550

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R63
R64
R65
R66
R67

1-218-692-11
1-218-708-11
1-218-692-11
1-216-805-11
1-218-708-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 4.7K 0.50% 1/16W

R127
R128
R129
R130
R131

1-216-845-11
1-216-832-11
1-216-830-11
1-216-832-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R68
R69
R70
R71
R72

1-218-692-11
1-216-805-11
1-220-158-91
1-220-158-91
1-216-805-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R135
R136
R137
R142
R145

1-216-833-11
1-216-833-11
1-216-833-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R73
R74
R75
R76
R77

1-216-829-11
1-218-856-11
1-218-710-11
1-218-708-11
1-218-705-11

s
s
s
s
s

METAL, CHIP 4.7K
CHIP, METAL 2.4K
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%

R146
R147
R148
R149
R150

1-218-676-11
1-218-710-11
1-218-706-11
1-218-694-11
1-218-700-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
METAL

220 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 1.2K 0.50% 1/16W
2.2K 0.50% 1/16W

R78
R79
R80
R81
R82

1-218-700-11
1-218-705-11
1-218-708-11
1-216-809-11
1-216-845-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R151
R152
R153
R154
R155

1-218-702-11
1-218-692-11
1-218-700-11
1-218-700-11
1-211-990-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 2.7K 0.50% 1/16W
METAL 1K 0.50% 1/16W
2.2K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 75 0.50% 1/16W

R83
R84
R85
R87
R88

1-216-845-11
1-218-708-11
1-218-724-11
1-218-702-11
1-218-724-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R156
R157
R158
R159
R160

1-216-845-11
1-216-809-11
1-216-864-11
1-218-698-11
1-218-676-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W

R89
R90
R91
R92
R93

1-218-706-11
1-218-710-11
1-218-700-11
1-216-837-11
1-216-845-11

s
s
s
s
s

METAL 3.9K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL, CHIP 22K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R161
R162
R163
R164
R165

1-220-158-91
1-216-805-11
1-216-829-11
1-218-672-11
1-218-710-11

s
s
s
s
s

CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R94
R95
R96
R97
R98

1-218-708-11
1-218-858-11
1-218-699-11
1-218-668-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R166
R167
R168
R169
R170

1-218-708-11
1-218-705-11
1-218-700-11
1-218-858-11
1-218-705-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
METAL

R99
R100
R101
R102
R103

1-216-825-11
1-216-830-11
1-218-720-11
1-218-716-11
1-218-725-11

s
s
s
s
s

METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
METAL 15K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 24K 0.50% 1/16W

R171
R172
R173
R174
R175

1-216-845-11
1-216-809-11
1-216-845-11
1-218-708-11
1-218-724-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R105
R106
R107
R108
R110

1-216-845-11
1-216-845-11
1-216-809-11
1-216-809-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R177
R178
R184
R185
R186

1-218-867-11
1-218-724-11
1-218-828-11
1-218-648-11
1-218-661-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

R111
R112
R113
R114
R115

1-216-805-11
1-216-829-11
1-216-829-11
1-218-692-11
1-218-708-11

s
s
s
s
s

METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R187
R188
R190
R191
R192

1-211-990-11
1-218-702-11
1-216-829-11
1-218-700-11
1-218-710-11

s
s
s
s
s

CHIP, METAL 75 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 2.2K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R116
R117
R118
R119
R120

1-218-692-11
1-218-708-11
1-218-846-11
1-218-692-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 910 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R193
R194
R195
R196
R197

1-218-706-11
1-218-700-11
1-218-702-11
1-218-720-11
1-218-740-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

3.9K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
15K 0.50% 1/16W
100K 0.50% 1/16W

R121
R122
R123
R124

1-216-805-11
1-220-158-91
1-220-158-91
1-216-805-11

s
s
s
s

METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R198
R199
R200
R201

1-218-858-11
1-211-990-11
1-218-668-11
1-218-720-11

s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL

BVP-550

5% 1/16W
0.50% 1/16W
0.50% 1/16W
1/16W
1/16W

4.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
47 5% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

100K
8.2K
5.6K
8.2K
4.7K

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

4.7K 0.50% 1/16W
3.6K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 3K 0.50% 1/16W
3.6K 0.50% 1/16W

METAL 6.8K 0.50% 1/16W
METAL 22K 5% 1/16W
160 0.50% 1/16W
15 0.50% 1/16W
METAL 51 0.50% 1/16W

3K 0.50% 1/16W
75 0.50% 1/16W
100 0.50% 1/16W
15K 0.50% 1/16W

5-21

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R202
R205
R206
R207
R208

1-218-720-11
1-218-699-11
1-218-732-11
1-218-725-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 15K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL 47K 0.50% 1/16W
METAL 24K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R267
R268
R269
R270
R271

1-218-700-11
1-218-858-11
1-218-705-11
1-216-845-11
1-216-809-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W

R209
R210
R211
R212
R213

1-218-698-11
1-218-676-11
1-220-158-91
1-216-805-11
1-216-829-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R272
R273
R274
R275
R276

1-216-845-11
1-218-841-11
1-218-697-11
1-218-672-11
1-218-864-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
CHIP, METAL 560 0.50% 1/16W
METAL 1.6K 0.50% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 5.1K 0.50% 1/16W

R214
R215
R216
R217
R218

1-216-864-11
1-218-710-11
1-218-708-11
1-218-705-11
1-218-700-11

s
s
s
s
s

METAL, CHIP 0 5%
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%
METAL 2.2K 0.50%

R277
R278
R280
R281
R282

1-218-675-11
1-216-829-11
1-218-672-11
1-218-867-11
1-218-706-11

s
s
s
s
s

CHIP, METAL 200 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.9K 0.50% 1/16W

R219
R220
R221
R222
R223

1-218-858-11
1-218-705-11
1-216-845-11
1-216-809-11
1-216-845-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R283
R284
R285
R288
R289

1-218-710-11
1-218-700-11
1-218-702-11
1-218-858-11
1-211-990-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 5.6K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 75 0.50% 1/16W

R224
R225
R226
R227
R228

1-218-841-11
1-218-697-11
1-218-672-11
1-218-864-11
1-218-675-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
CHIP,

METAL 560 0.50% 1/16W
1.6K 0.50% 1/16W
150 0.50% 1/16W
METAL 5.1K 0.50% 1/16W
METAL 200 0.50% 1/16W

R290
R293
R294
R295
R300

1-218-668-11
1-218-714-11
1-218-724-11
1-218-732-11
1-218-868-11

s
s
s
s
s

CHIP,
METAL
CHIP,
METAL
CHIP,

METAL 100 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 22K 5% 1/16W
47K 0.50% 1/16W
METAL 7.5K 0.50% 1/16W

R229
R231
R232
R233
R234

1-216-829-11
1-218-829-11
1-218-867-11
1-218-706-11
1-218-710-11

s
s
s
s
s

METAL, CHIP 4.7K 5% 1/16W
CHIP, METAL 180 0.50% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.9K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R301
R302
R303
R304
R305

1-218-698-11
1-218-708-11
1-218-851-11
1-218-675-11
1-218-725-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

1.8K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 200 0.50% 1/16W
24K 0.50% 1/16W

R235
R236
R239
R240
R241

1-218-700-11
1-218-702-11
1-218-858-11
1-211-990-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R306
R307
R308
R309
R310

1-216-832-11
1-218-868-11
1-218-698-11
1-218-706-11
1-216-826-11

s
s
s
s
s

METAL, CHIP 8.2K
CHIP, METAL 7.5K
METAL 1.8K 0.50%
METAL 3.9K 0.50%
METAL, CHIP 2.7K

5% 1/16W
0.50% 1/16W
1/16W
1/16W
5% 1/16W

R242
R243
R244
R246
R247

1-218-668-11
1-218-668-11
1-216-845-11
1-218-729-11
1-218-724-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

100 0.50% 1/16W
100 0.50% 1/16W
100K 5% 1/16W
36K 0.50% 1/16W
22K 5% 1/16W

R311
R312
R313
R314
R315

1-216-864-11
1-218-704-11
1-216-829-11
1-216-829-11
1-216-829-11

s
s
s
s
s

METAL, CHIP 0 5%
METAL 3.3K 0.50%
METAL, CHIP 4.7K
METAL, CHIP 4.7K
METAL, CHIP 4.7K

1/16W
1/16W
5% 1/16W
5% 1/16W
5% 1/16W

R248
R249
R250
R251
R252

1-218-732-11
1-218-699-11
1-218-668-11
1-218-668-11
1-216-825-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R316
R317
R318
R320
R321

1-216-829-11
1-216-829-11
1-216-829-11
1-216-829-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

5%
5%
5%
5%
5%

R253
R254
R255
R256
R257

1-216-830-11
1-218-873-11
1-218-716-11
1-218-725-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 5.6K 5% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 24K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R322
R323
R324
R325
R326

1-216-829-11
1-216-864-11
1-216-864-11
1-216-864-11
1-218-692-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

R258
R259
R260
R261
R262

1-218-698-11
1-218-676-11
1-220-158-91
1-216-805-11
1-216-829-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R327
R328
R330
R331
R332

1-218-692-11
1-218-708-11
1-216-864-11
1-218-724-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL 33K 0.50% 1/16W

R263
R264
R265
R266

1-216-864-11
1-218-710-11
1-218-708-11
1-218-705-11

s
s
s
s

METAL, CHIP 0 5%
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%

R333
R334
R335
R336

1-216-821-11
1-216-821-11
1-216-821-11
1-218-727-11

s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 30K 0.50% 1/16W

5-22

1/16W
0.50% 1/16W
1/16W
1/16W
1/16W

2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 100 0.50% 1/16W

1/16W
0.50% 1/16W
1/16W
1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

4.7K
4.7K
4.7K
4.7K
4.7K

1/16W
1/16W
1/16W
1/16W
1/16W

4.7K 5% 1/16W
0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
1K 0.50% 1/16W

BVP-550

-----------IF-510 BOARD
-----------Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R337
R357
R358
R361
R362

1-216-821-11
1-218-680-11
1-218-672-11
1-218-856-11
1-218-856-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 330 0.50% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W

R363
R364
R365
R366
R367

1-216-809-11
1-216-849-11
1-216-849-11
1-216-845-11
1-218-700-11

s
s
s
s
s

METAL, CHIP 100 5% 1/16W
METAL, CHIP 220K 5% 1/16W
METAL, CHIP 220K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 2.2K 0.50% 1/16W

R368
R369
R370
R371
R372

1-218-692-11
1-218-829-11
1-218-856-11
1-216-797-11
1-218-856-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R373
R374
R375
R376
R378

1-218-856-11
1-216-797-11
1-218-856-11
1-218-727-11
1-218-664-11

s
s
s
s
s

CHIP, METAL 2.4K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 68 0.50% 1/16W

R379
R380

1-218-727-11 s METAL 30K 0.50% 1/16W
1-218-655-91 s CHIP, METAL 30 0.50% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-309-11
1-239-309-11
1-239-309-11
1-236-908-11
1-236-908-11

RB6
RB7

1-236-906-11 s NETWORK RESISTOR (CHIP) 15K
1-236-906-11 s NETWORK RESISTOR (CHIP) 15K

BVP-550

s
s
s
s
s

1K 0.50% 1/16W
180 0.50% 1/16W
2.4K 0.50% 1/16W
10 5% 1/16W
2.4K 0.50% 1/16W

RESISTOR BLOCK, CHIP 100KX8
RESISTOR BLOCK, CHIP 100KX8
RESISTOR BLOCK, CHIP 100KX8
RESISTOR, NETWORK, CHIP 10k
RESISTOR, NETWORK, CHIP 10k

SP Description

1pc
1pc
1pc
6pcs

A-8272-568-A
3-692-129-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, IF-510
PANEL,IF-510 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C10
C11
C12
C13
C14

1-104-913-11
1-135-160-21
1-164-156-11
1-135-208-11
1-135-165-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 10% 16V

C15
C16
C17
C20
C21

1-164-156-11
1-164-156-11
1-164-156-11
1-135-160-21
1-135-160-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V

C22
C23
C24
C25
C26

1-164-156-11
1-135-208-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C30
C31
C32
C33
C34

1-104-851-11
1-104-851-11
1-164-156-11
1-135-208-11
1-104-911-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 20% 10V

C35
C36
C101
C102
C103

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-907-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

C104
C105
C150
C151
C152

1-104-914-11
1-104-914-11
1-164-156-11
1-135-160-21
1-164-156-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C153
C154
C155
C201
C202

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C203
C204
C205
C206
C221

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-104-914-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V

C222
C223
C224
C225
C226

1-164-156-11
1-162-927-11
1-162-907-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 100PF 5% 50V
CERAMIC, CHIP 2PF 50V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C250
C252
C253
C254
C255

1-104-851-11
1-162-917-11
1-162-919-11
1-162-922-11
1-104-851-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 15PF 5% 50V
CERAMIC 22PF 5% 50V
CERAMIC 39PF 5% 50V
TANTALUM, CHIP 10uF 20% 10V

C300
C301
C303
C307
C308

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
2PF 50V

25V
25V
25V
25V
25V

25V
25V
25V
25V
25V

5-23

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C309
C311
C312
C313
C315

1-164-156-11
1-164-156-11
1-164-156-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C605
C606
C621
C622
C623

1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11
1-162-907-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V

C320
C321
C322
C330
C350

1-164-156-11
1-164-156-11
1-164-156-11
1-162-958-11
1-104-913-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 270p 10% 50V
TANTALUM, CHIP 10uF 20% 16V

C624
C625
C626
C641
C642

1-162-927-11
1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C351
C352
C353
C400
C401

1-164-156-11
1-164-156-11
1-164-156-11
1-162-905-11
1-104-914-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V

C643
C644
C645
C646
C701

1-162-907-11
1-162-927-11
1-104-914-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 2PF 50V
CERAMIC, CHIP 100PF 5% 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C402
C403
C404
C405
C406

1-104-914-11
1-164-156-11
1-164-156-11
1-104-914-11
1-104-910-11

s
s
s
s
s

TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V

C702
C703
C704
C705
C706

1-164-156-11
1-164-156-11
1-126-396-11
1-126-396-11
1-104-851-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT, CHIP 47uF 20% 16V
ELECT, CHIP 47uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V

C407
C408
C409
C410
C411

1-162-905-11
1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C707

1-162-915-11 s CERAMIC, CHIP 10PF 5PF 50V

C412
C413
C414
C415
C416

1-104-914-11
1-104-910-11
1-162-905-11
1-104-914-11
1-104-914-11

s
s
s
s
s

TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V

D11
D21
D31
D101
D250

8-719-029-63
8-719-029-63
8-719-029-57
8-719-820-41
8-719-948-47

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD2.4UH-T1
1SS302
HSM88AS

D400
D401
D402
D500

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302

C417
C418
C419
C420
C421

1-164-156-11
1-164-156-11
1-104-914-11
1-104-910-11
1-162-919-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 22PF 5% 50V

IC12
IC101
IC151
IC152
IC153

8-759-076-06
8-759-082-61
8-759-925-76
8-759-082-55
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
SN74HC08ANS
TC7W00FU
TC74HC595AF(EL)

C422
C502
C503
C504
C505

1-164-156-11
1-162-909-11
1-162-909-11
1-104-914-11
1-104-910-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V

IC154
IC155
IC200
IC201
IC202

8-759-082-58
8-759-086-42
8-759-082-61
8-759-089-61
8-759-089-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
X24C02S-3.0-C7000
TC4W53FU
TC74HC4052AFS(EL)
TC74HC4052AFS(EL)

C508
C509
C510
C511
C513

1-162-909-11
1-162-909-11
1-104-914-11
1-104-910-11
1-162-915-11

s
s
s
s
s

CERAMIC 4PF 0.25PF 50V
CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 10PF 5PF 50V

IC206
IC301
IC302
IC303
IC304

8-759-054-61
8-759-254-49
8-759-925-90
8-759-925-90
8-759-082-59

s
s
s
s
s

IC
IC
IC
IC
IC

CLC505AJE
EL4581CS-TE2
SN74HC74ANS
SN74HC74ANS
TC7W32FU

C514
C515
C516
C517
C518

1-162-911-11
1-162-909-11
1-104-914-11
1-104-910-11
1-162-915-11

s
s
s
s
s

CERAMIC, CHIP 6PF 50V
CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 10PF 5PF 50V

IC305
IC306
IC307
IC308
IC309

8-759-925-90
8-759-082-57
8-759-082-58
8-759-058-62
8-759-082-59

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HC74ANS
TC7W04FU
TC7W08FU
TC7S08FU(TE85R)
TC7W32FU

C519
C520
C521
C522
C524

1-135-070-00
1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 0.1uF 10% 35V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC310
IC322
IC351
IC352
IC400

8-759-082-58
8-759-032-01
8-759-925-90
8-759-058-58
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
MC74HC00AF
SN74HC74ANS
TC7S04FU(TE85R)
TC4W53FU

C525
C601
C602
C603
C604

1-164-156-11
1-164-156-11
1-164-156-11
1-162-907-11
1-162-927-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

IC404
IC410
IC420

8-759-209-57 s IC TC4S69F
8-759-082-61 s IC TC4W53FU
8-759-082-61 s IC TC4W53FU

5-24

25V
25V
25V
2PF 50V
100PF 5% 50V

BVP-550

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

IC500
IC501
IC502
IC601
IC621

8-759-066-59
8-759-981-48
8-759-082-58
8-759-054-61
8-759-054-61

IC641
IC701
IC702

8-759-054-61 s IC CLC505AJE
8-759-988-13 s IC LM393PS
8-759-195-81 s IC TC7S86FU

L1
L2
L3
L150
L201

1-410-737-31
1-410-737-31
1-410-737-31
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

0.47uH
0.47uH
0.47uH
1uH
1uH

L202
L203
L301
L400
L401

1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

1uH
1uH
1uH
1uH
1uH

L402
L500
L501
L502
L601

1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

1uH
1uH
1uH
1uH
1uH

L602
L603
L700

1-410-369-11 s INDUCTOR CHIP 1uH
1-410-369-11 s INDUCTOR CHIP 1uH
1-410-369-11 s INDUCTOR CHIP 1uH

Q1
Q2
Q10
Q20
Q30

8-729-117-16
8-729-117-32
8-729-141-48
8-729-141-75
8-729-141-75

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SB624-BV345
2SD596DV345
2SD596DV345

Q101
Q102
Q103
Q109
Q110

8-729-122-63
8-729-122-63
8-729-122-63
8-729-117-16
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SA1226
2SA1611-M6
2SC4177

Q205
Q206
Q207
Q208
Q209

8-729-117-16
8-729-117-32
8-729-117-16
8-729-117-32
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SA1611-M6
2SC4177
2SA1611-M6

Q210
Q211
Q250
Q251
Q252

8-729-117-16
8-729-117-32
8-729-117-32
8-729-117-16
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SC4177
2SA1611-M6
2SA1611-M6

Q271
Q272
Q273
Q352
Q353

8-729-117-16
8-729-117-16
8-729-117-16
8-729-920-48
8-729-920-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1611-M6
2SA1611-M6
IMH2
IMH2

Q354
Q401
Q402
Q403
Q404

8-729-028-91
8-729-117-16
8-729-117-32
8-729-026-32
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTA144EUA-T106
2SA1611-M6
2SC4177
XP6534
2SC4178-F14

Q405
Q406
Q410

8-729-117-16 s TRANSISTOR 2SA1611-M6
8-729-117-32 s TRANSISTOR 2SC4177
8-729-026-32 s TRANSISTOR XP6534

BVP-550

s
s
s
s
s

IC
IC
IC
IC
IC

TC74HC4053AFS
TL082M
TC7W08FU
CLC505AJE
CLC505AJE

SP Description

Q411
Q412
Q413
Q414
Q420

8-729-117-73
8-729-117-16
8-729-117-16
8-729-117-32
8-729-026-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1611-M6
2SA1611-M6
2SC4177
XP6534

Q421
Q422
Q423
Q424
Q430

8-729-117-73
8-729-117-16
8-729-117-16
8-729-117-32
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1611-M6
2SA1611-M6
2SC4177
2SA1611-M6

Q431
Q500
Q501
Q502
Q503

8-729-117-32
8-729-026-32
8-729-122-63
8-729-102-08
8-729-026-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
XP6534
2SA1226
2SC2223-F14
XP6534

Q504
Q505
Q506
Q507
Q508

8-729-122-63
8-729-102-08
8-729-026-32
8-729-122-63
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SC2223-F14
XP6534
2SA1226
2SC2223-F14

Q509
Q510
Q701
Q702
Q703

8-729-117-16
8-729-117-32
8-729-230-49
8-729-800-37
8-729-141-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SC2712-YG
2SD1048-X7
2SB624-BV345

R1
R2
R8
R9
R10

1-218-867-11
1-218-704-11
1-218-748-11
1-218-748-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
METAL

R13
R14
R15
R23
R24

1-218-677-11
1-218-723-11
1-218-724-11
1-216-864-11
1-218-723-11

s
s
s
s
s

CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 20K 0.50% 1/16W

R25
R33
R34
R35
R100

1-218-723-11
1-218-856-11
1-218-729-11
1-218-723-11
1-218-856-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

20K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 36K 0.50% 1/16W
20K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W

R101
R102
R103
R104
R105

1-218-708-11
1-218-710-11
1-218-840-11
1-218-858-11
1-218-840-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

4.7K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 510 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 510 0.50% 1/16W

R106
R107
R110
R111
R151

1-211-990-11
1-218-705-11
1-218-867-11
1-218-704-11
1-216-857-11

s
s
s
s
s

CHIP, METAL 75 0.50% 1/10W
CHIP, METAL 3.6K 0.50% 1/10W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W

R152
R153
R154
R155
R156

1-218-748-11
1-218-740-11
1-218-668-11
1-218-668-11
1-218-668-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

R198
R199
R200
R201
R202

1-216-857-11
1-216-857-11
1-218-668-11
1-218-668-11
1-218-668-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
CHIP, METAL
CHIP, METAL
CHIP, METAL

R203

1-218-867-11 s CHIP, METAL 6.8K 0.50% 1/16W

METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 220K 0.50% 1/16W
METAL 220K 0.50% 1/16W
10K 0.50% 1/16W

METAL 220K 0.50% 1/16W
100K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
1M 5% 1/16W
1M 5% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W
5-25

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R204
R205
R206
R207
R208

1-218-704-11
1-218-668-11
1-218-867-11
1-218-668-11
1-218-704-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
METAL

3.3K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 100 0.50% 1/16W
3.3K 0.50% 1/16W

R400
R401
R402
R403
R404

1-218-668-11
1-218-867-11
1-218-704-11
1-218-836-11
1-218-858-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 360 0.50% 1/16W
METAL 3K 0.50% 1/16W

R209
R210
R211
R212
R213

1-218-668-11
1-218-867-11
1-218-668-11
1-218-867-11
1-218-704-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
METAL

METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W

R405
R406
R407
R408
R409

1-218-729-11
1-218-710-11
1-218-706-11
1-218-700-11
1-218-702-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 36K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W

R214
R221
R222
R224
R225

1-218-668-11
1-218-692-11
1-218-724-11
1-211-981-11
1-218-845-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R410
R411
R412
R413
R414

1-218-706-11
1-218-692-11
1-218-724-11
1-218-867-11
1-218-851-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

3.9K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 22K 5% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

R226
R227
R228
R229
R230

1-218-688-11
1-218-883-11
1-218-692-11
1-211-990-11
1-211-990-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
CHIP,

680 0.50% 1/16W
33K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 75 0.50% 1/16W

R415
R416
R417
R418
R419

1-218-664-11
1-218-672-11
1-218-856-11
1-218-710-11
1-218-706-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
METAL

METAL 68 0.50% 1/16W
150 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W

R250
R251
R252
R253
R254

1-218-668-11
1-218-740-11
1-218-700-11
1-218-883-11
1-218-692-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
CHIP,

METAL 100 0.50% 1/16W
100K 0.50% 1/16W
2.2K 0.50% 1/16W
33K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R420
R421
R422
R423
R424

1-218-700-11
1-218-702-11
1-218-706-11
1-218-867-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
CHIP,

2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R256
R257
R258
R259
R261

1-218-840-11
1-218-706-11
1-218-722-11
1-218-840-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 510 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 18K 0.50% 1/16W
METAL 510 0.50% 1/16W
METAL 10K 0.5% 1/16W

R425
R426
R427
R428
R429

1-218-867-11
1-218-851-11
1-218-664-11
1-218-672-11
1-218-856-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 6.8K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 68 0.50% 1/16W
150 0.50% 1/16W
METAL 2.4K 0.50% 1/16W

R263
R264
R271
R272
R273

1-216-857-11
1-218-668-11
1-218-710-11
1-218-692-11
1-218-704-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W

R430
R431
R432
R433
R434

1-218-710-11
1-218-706-11
1-218-700-11
1-218-702-11
1-218-706-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
METAL

METAL 5.6K
3.9K 0.50%
2.2K 0.50%
METAL 2.7K
3.9K 0.50%

R274
R275
R276
R277
R278

1-218-710-11
1-218-692-11
1-218-867-11
1-218-710-11
1-218-692-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

5.6K 0.50% 1/16W
1K 0.50% 1/16W
6.8K 0.50% 1/16W
5.6K 0.50% 1/16W
1K 0.50% 1/16W

R435
R436
R437
R438
R439

1-218-867-11
1-218-692-11
1-218-867-11
1-218-851-11
1-218-664-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R279
R310
R311
R315
R320

1-218-867-11
1-218-668-11
1-218-708-11
1-216-855-11
1-218-668-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 680K 5% 1/16W
CHIP, METAL 100 0.50% 1/16W

R440
R441
R442
R443
R444

1-218-668-11
1-218-714-11
1-218-668-11
1-218-692-11
1-218-867-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 100 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W

R321
R322
R323
R324
R325

1-218-668-11
1-216-857-11
1-216-857-11
1-218-668-11
1-218-668-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
CHIP, METAL
CHIP, METAL

100 0.50% 1/16W
1M 5% 1/16W
1M 5% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W

R445
R446
R447
R448
R500

1-218-700-11
1-218-700-11
1-218-700-11
1-211-969-11
1-216-864-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R326
R327
R328
R329
R351

1-218-668-11
1-218-668-11
1-216-857-11
1-216-857-11
1-218-716-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 10K 0.50% 1/16W

R501
R502
R503
R504
R505

1-216-864-11
1-216-864-11
1-218-858-11
1-216-864-11
1-218-698-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 1.8K 0.50% 1/16W

R352
R353
R354
R361

1-218-724-11
1-218-692-11
1-216-857-11
1-216-864-11

s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

R506
R507
R508
R509

1-218-671-11
1-218-851-11
1-218-698-11
1-218-694-11

s
s
s
s

CHIP,
CHIP,
METAL
CHIP,

5-26

METAL
METAL
METAL
METAL
METAL

100 0.50% 1/16W
1K 0.50% 1/16W
22K 5% 1/16W
33 0.50% 1/16W
820 0.50% 1/16W

22K 5% 1/16W
1K 0.50% 1/16W
1M 5% 1/16W
0 5% 1/16W

0.50% 1/16W
1/16W
1/16W
0.50% 1/16W
1/16W

6.8K 0.50% 1/16W
1K 0.50% 1/16W
6.8K 0.50% 1/16W
1.5K 0.50% 1/16W
68 0.50% 1/16W

METAL 130 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 1.2K 0.50% 1/16W

BVP-550

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R510
R511
R512
R513
R514

1-218-698-11
1-218-710-11
1-218-660-91
1-216-864-11
1-218-851-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 47 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 1.5K 0.50% 1/16W

R627
R641
R642
R643
R644

1-211-990-11
1-218-699-11
1-218-699-11
1-216-864-11
1-218-680-11

s
s
s
s
s

CHIP, METAL 75 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 330 0.50% 1/16W

R515
R516
R517
R518
R519

1-211-969-11
1-218-858-11
1-216-864-11
1-218-851-11
1-218-650-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
METAL, CHIP

R645
R646
R647
R701
R702

1-218-692-11
1-218-883-11
1-211-990-11
1-218-732-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
METAL
METAL

METAL 1K 0.50% 1/16W
33K 0.50% 1/16W
METAL 75 0.50% 1/16W
47K 0.50% 1/16W
10K 0.50% 1/16W

R520
R521
R522
R523
R524

1-218-698-11
1-218-851-11
1-218-694-11
1-218-698-11
1-218-710-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

1/16W
0.50% 1/16W
0.50% 1/16W
1/16W
0.50% 1/16W

R703
R704
R705
R706
R707

1-218-723-11
1-218-725-11
1-218-732-11
1-218-732-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

20K
24K
47K
47K
33K

R525
R526
R527
R528
R529

1-218-660-91
1-216-864-11
1-218-851-11
1-211-969-11
1-216-864-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

47 0.50% 1/16W
0 5% 1/16W
1.5K 0.50% 1/16W
10 0.50% 1/16W
0 5% 1/16W

R708
R709
R710
R711
R712

1-218-881-11
1-216-631-11
1-216-631-11
1-216-631-11
1-216-631-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

METAL 27K
150 0.50%
150 0.50%
150 0.50%
150 0.50%

0.50% 1/16W
1/10W
1/10W
1/10W
1/10W

R530
R531
R532
R533
R534

1-218-858-11
1-218-698-11
1-218-694-11
1-218-846-11
1-211-992-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 1.8K 0.50% 1/16W
CHIP, METAL 1.2K 0.50% 1/16W
CHIP, METAL 910 0.50% 1/16W
CHIP,METAL 91 0.50% 1/16W

R713
R714
R715
R716
R717

1-216-631-11
1-216-631-11
1-218-727-11
1-218-716-11
1-218-668-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

150 0.50%
150 0.50%
30K 0.50%
10K 0.50%
METAL 100

1/10W
1/10W
1/16W
1/16W
0.50% 1/16W

R535
R536
R537
R538
R539

1-218-840-11
1-218-699-11
1-218-664-11
1-218-698-11
1-218-660-91

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 510 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 68 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 47 0.50% 1/16W

R718
R719
R721
R722

1-216-857-11
1-218-716-11
1-218-699-11
1-218-692-11

s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

RV101

1-241-260-11 s METAL, ADJ 500

R540
R541
R542
R543
R544

1-218-710-11
1-218-851-11
1-211-969-11
1-218-867-11
1-218-692-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

S1

1-572-272-11 s SWITCH, SLIDE

R545
R546
R547
R548
R549

1-218-704-11
1-218-668-11
1-218-668-11
1-218-716-11
1-218-740-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

3.3K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
10K 0.50% 1/16W
100K 0.50% 1/16W

R550
R551
R552
R553
R554

1-218-740-11
1-218-668-11
1-218-668-11
1-218-704-11
1-218-704-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

100K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W

R555
R601
R602
R603
R604

1-218-716-11
1-218-699-11
1-218-698-11
1-218-670-11
1-218-680-11

s
s
s
s
s

METAL
CHIP,
METAL
METAL
METAL

10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
1.8K 0.50% 1/16W
120 0.50% 1/16W
330 0.50% 1/16W

R605
R606
R607
R621
R622

1-218-692-11
1-218-883-11
1-211-990-11
1-218-699-11
1-218-698-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 1K 0.50% 1/16W
33K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1.8K 0.50% 1/16W

R623
R624
R625
R626

1-218-671-11
1-218-680-11
1-218-692-11
1-218-883-11

s
s
s
s

METAL
METAL
CHIP,
METAL

130 0.50% 1/16W
330 0.50% 1/16W
METAL 1K 0.50% 1/16W
33K 0.50% 1/16W

BVP-550

10 0.50% 1/16W
3K 0.50% 1/16W
0 5% 1/16W
1.5K 0.50% 1/16W
18 0.50% 1/16

1.8K 0.50%
METAL 1.5K
METAL 1.2K
1.8K 0.50%
METAL 5.6K

5.6K 0.50% 1/16W
1.5K 0.50% 1/16W
10 0.50% 1/16W
6.8K 0.50% 1/16W
1K 0.50% 1/16W

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

5-27

-----------MB-602 BOARD
-----------Ref. No.
or Q'ty Part No.

(MB-602 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
15pcs

A-8272-547-A o MOUNTED CIRCUIT BOARD, MB-602
3-729-061-01 s SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C6
C7
C8
C9
C10

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C16
C17
C18
C19
C20

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C21
C22
C23
C24
C25

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C26
C27
C28
C29
C30

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C31

1-164-156-11 s CERAMIC 0.1uF 25V

CN7
CN11
CN12
CN13
CN14

1-569-629-11
1-569-532-11
1-569-532-11
1-569-532-11
1-569-531-11

s
s
s
s
s

HOUSING,
HOUSING,
HOUSING,
HOUSING,
HOUSING,

CN15
CN21
CN22
CN23
CN31

1-764-088-11
1-764-093-21
1-774-260-11
1-774-261-21
1-750-934-21

o
o
o
o
o

PIN, CONNECTOR
PIN, CONNECTOR
CONNECTOR, FFC
CONNECTOR, FFC
PIN, CONNECTOR

CN32
CN41
CN42
CN51

1-764-097-11
1-569-629-11
1-750-635-21
1-770-580-11

o
s
o
o

PIN, CONNECTOR (PC BOARD) 12P
HOUSING, 24P
PIN, CONNECTOR (PC BOARD) 5P
SOCKET, CONNECTOR(PCB-PCB) 26P

D1

8-719-042-14 s DIODE DE5LC20U-TA2

IC1
IC2
IC3
IC4
IC5

8-759-080-02
8-759-080-02
8-759-080-02
8-759-080-02
8-759-086-42

Q1
Q2

8-729-119-61 s TRANSISTOR 2SA811A-C15
8-729-271-32 s TRANSISTOR 2SC2713-L

R1

1-216-864-11 s METAL, CHIP 0 5% 1/16W

5-28

s
s
s
s
s

IC
IC
IC
IC
IC

SP Description

R2
R3
R4
R6
R7

1-216-864-11
1-216-864-11
1-216-864-11
1-216-864-11
1-216-833-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
10K 5% 1/16W

R8
R9
R10
R11
R12

1-216-842-11
1-216-833-11
1-216-833-11
1-216-829-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

56K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
4.7K 5% 1/16W
100K 5% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

RB6
RB7
RB8

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

S1

1-572-272-11 s SWITCH, SLIDE

-----------PR-211 BOARD
-----------Ref. No.
or Q'ty Part No.
1pc

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

SP Description

A-8272-557-A o MOUNTED CIRCUIT BOARD, PR-211

24P
30P
30P
30P
20P
(PC BOARD) 3P
(PC BOARD) 8P
(ZIF) 20P
(ZIF) 24P
20P

TC74VHC541FS(EL)
TC74VHC541FS(EL)
TC74VHC541FS(EL)
TC74VHC541FS(EL)
X24C02S-3.0-C7000

BVP-550

-----------SG-234 BOARD
-----------Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
1pc
1pc
6pcs

A-8272-564-A
3-692-127-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, SG-234
PANEL,SG-234 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-177-21
1-135-159-21
1-135-214-21
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 10uF 10% 20V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C6
C7
C8
C9
C10

1-135-164-21
1-164-156-11
1-135-177-21
1-135-215-21
1-135-215-21

s
s
s
s
s

TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C23
C24
C25
C26
C27

1-164-156-11
1-135-215-21
1-135-215-21
1-164-156-11
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C28
C29
C30
C31
C32

1-135-215-21
1-164-156-11
1-135-210-11
1-164-156-11
1-162-915-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 10PF 5PF 50V

C33
C34
C35
C36
C37

1-164-156-11
1-162-966-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

C38
C39
C40
C41
C42

1-162-921-11
1-164-156-11
1-162-921-11
1-162-923-11
1-164-156-11

C43
C45
C46
C47
C48

SP Description

C66
C67
C68
C69
C70

1-164-156-11
1-164-156-11
1-135-210-11
1-164-156-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V

C71
C72
C73
C74
C75

1-135-076-21
1-135-217-21
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 35V
TANTAL 15uF 20% 6.3
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C76
C77
C78
C79
C80

1-135-216-11
1-164-156-11
1-164-156-11
1-162-909-11
1-164-315-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 470PF 5% 50V

C81
C82
C83
C85
C87

1-128-391-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-919-11

s
s
s
s
s

ELECT 330uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 22PF 5% 50V

C88
C89
C90
C92
C93

1-162-927-11
1-162-923-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C94
C95
C96
C97
C98

1-164-156-11
1-135-178-11
1-164-156-11
1-135-179-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM CHIP 1.5uF 20% 20V
CERAMIC 0.1uF 25V
TANTAL 2.2uF 10% 16V
CERAMIC 0.1uF 25V

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.0022uF 10% 50V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C99
C100
C200
C201

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF

D1
D2
D3
D4
D5

8-719-029-63
8-719-029-63
8-719-948-47
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
HSM88AS
RD4.3UH-T1
1SS302

1-162-925-11
1-135-211-11
1-164-346-11
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC, CHIP 68PF 5% 50V
TANTALUM, CHIP 6.8uF 20% 6.3V
CERAMIC 1uF 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

D6
D7
D8
D10
D11

8-719-404-35
8-719-404-35
8-719-041-68
8-719-948-47
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

MA141WK
MA141WK
RD3.3UH-T1
HSM88AS
1SS302

C49
C50
C51
C52
C53

1-164-156-11
1-135-210-11
1-135-161-21
1-135-216-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
TANTALUM, CHIP 22uF 10% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V

D12
D13
D14
D200
D201

8-719-948-47
8-719-948-47
8-719-800-76
8-719-820-41
8-719-948-47

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM88AS
HSM88AS
1SS126
1SS302
HSM88AS

C54
C56
C57
C58
C59

1-164-156-11
1-165-128-11
1-135-161-21
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.22uF 16V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

FL1

1-239-756-11 s FILTER, LOW PASS

C60
C62
C63
C64
C65

1-164-156-11
1-164-156-11
1-162-970-11
1-135-165-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

IC3
IC5
IC8
IC11
IC12

8-759-076-06
8-759-254-49
8-759-082-57
8-759-082-58
8-759-064-36

IC13
IC16
IC17

8-759-066-59 s IC TC74HC4053AFS
8-752-360-44 s IC CXK1203AR
8-759-082-61 s IC TC4W53FU

BVP-550

33PF 5% 50V
25V
33PF 5% 50V
47PF 5% 50V
25V

s
s
s
s
s

IC
IC
IC
IC
IC

0.1uF
0.1uF
0.1uF
0.1uF

100PF 5% 50V
47PF 5% 50V
25V
25V
25V

25V
25V
25V
25V

TL064CPW
EL4581CS-TE2
TC7W04FU
TC7W08FU
MB88346BPFV

5-29

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

IC18
IC20
IC21
IC22
IC25

8-759-632-39
8-759-058-62
8-759-086-42
8-759-271-86
8-759-079-85

s
s
s
s
s

IC
IC
IC
IC
IC

M51958A-T1
TC7S08FU(TE85R)
X24C02S-3.0-C7000
TC7SH04FU
TC74VHC244FS(EL)

Q23
Q24
Q25
Q26
Q200

8-729-029-14
8-729-029-14
8-729-029-14
8-729-029-14
8-729-029-14

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106

IC30
IC31
IC32
IC33
IC34

8-759-079-85
8-759-271-86
8-759-076-06
8-759-066-59
8-759-184-64

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC244FS(EL)
TC7SH04FU
TL064CPW
TC74HC4053AFS
TC4W66FU

Q201
Q202
Q203
Q204
Q205

8-729-029-14
8-729-216-22
8-729-029-14
8-729-029-14
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTC144EUA-T106
2SA1162
DTC144EUA-T106
DTC144EUA-T106
2SC4177

IC35
IC36
IC37
IC38
IC39

8-759-049-86
8-759-180-08
8-759-082-58
8-759-083-94
8-759-195-81

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HCT244APW-E20
TC74HC4538AFS
TC7W08FU
TC7W74FU
TC7S86FU

R1
R2
R3
R5
R6

1-218-716-11
1-216-864-11
1-216-864-11
1-216-864-11
1-218-677-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 240 0.50% 1/16W

IC40
IC41
IC42
IC43
IC44

8-759-082-60
8-759-082-61
8-759-049-86
8-759-058-54
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
TC4W53FU
SN74HCT244APW-E20
TC7S00FU(TE85R)
TC4W53FU

R7
R8
R9
R10
R11

1-218-723-11
1-218-724-11
1-218-729-11
1-218-723-11
1-216-864-11

s
s
s
s
s

METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

IC45
IC46
IC47
IC48
IC200

8-759-271-86
8-759-082-61
8-759-082-61
8-759-173-16
8-759-079-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH04FU
TC4W53FU
TC4W53FU
TL062CPW
TC74VHC74FS(EL)

R15
R16
R17
R18
R21

1-216-864-11
1-218-724-11
1-218-720-11
1-216-845-11
1-218-692-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W

IC201
IC202
IC203
IC204
IC206

8-759-058-58
8-759-058-64
8-759-058-62
8-759-082-61
8-759-173-16

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S04FU(TE85R)
TC7S32FU(TE85R)
TC7S08FU(TE85R)
TC4W53FU
TL062CPW

R22
R23
R24
R25
R26

1-218-692-11
1-216-805-11
1-218-704-11
1-216-831-11
1-218-700-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 6.8K 5% 1/16W
METAL 2.2K 0.50% 1/16W

IC207

8-759-058-55 s IC TC7S02FU-TE85L

L1
L2
L4
L5
L6

1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11
1-410-385-11

R27
R28
R29
R30
R31

1-218-700-11
1-218-706-11
1-218-873-11
1-218-716-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

2.2K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 12K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W

L7
L8
L9

1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH

R32
R33
R34
R35
R36

1-218-720-11
1-218-708-11
1-218-724-11
1-218-732-11
1-218-704-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

15K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 22K 5% 1/16W
47K 0.50% 1/16W
3.3K 0.50% 1/16W

Q1
Q2
Q4
Q5
Q6

8-729-141-48
8-729-141-48
8-729-141-75
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SB624-BV345
2SD596DV345
2SC4178-F14
2SA1611-M6

R37
R38
R39
R40
R41

1-218-706-11
1-218-716-11
1-218-736-11
1-218-889-11
1-218-716-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
METAL

3.9K 0.50% 1/16W
10K 0.50% 1/16W
68K 0.50% 1/16W
METAL 56K 0.50% 1/16W
10K 0.50% 1/16W

Q7
Q8
Q9
Q10
Q11

8-729-117-32
8-729-117-73
8-729-117-32
8-729-117-73
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4177
2SC4178-F14
2SC4177

R42
R43
R44
R45
R46

1-218-704-11
1-218-740-11
1-218-845-11
1-218-700-11
1-218-700-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

3.3K 0.50% 1/16W
100K 0.50% 1/16W
METAL 820 0.50% 1/16W
2.2K 0.50% 1/16W
2.2K 0.50% 1/16W

Q12
Q14
Q15
Q16
Q17

8-729-403-29
8-729-117-32
8-729-117-73
8-729-118-56
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6435
2SC4177
2SC4178-F14
2SK852-X2
2SC4177

R47
R48
R49
R50
R51

1-218-716-11
1-218-720-11
1-216-809-11
1-216-817-11
1-218-692-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 470 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W

Q18
Q20
Q21
Q22

8-729-920-48
8-729-029-14
8-729-118-56
8-729-029-14

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

IMH2
DTC144EUA-T106
2SK852-X2
DTC144EUA-T106

R52
R54
R55
R56

1-218-706-11
1-216-855-11
1-218-706-11
1-218-692-11

s
s
s
s

METAL 3.9K 0.50% 1/16W
METAL, CHIP 680K 5% 1/16W
METAL 3.9K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

5-30

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH

BVP-550

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R57
R58
R59
R60
R61

1-216-845-11
1-216-809-11
1-216-809-11
1-216-809-11
1-218-833-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

100K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
270 0.50% 1/16W

R131
R132
R133
R134
R135

1-216-857-11
1-218-732-11
1-216-864-11
1-216-805-11
1-216-845-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL 47K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R62
R63
R64
R65
R66

1-216-845-11
1-218-692-11
1-216-849-11
1-216-849-11
1-216-845-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP

100K 5% 1/16W
1K 0.50% 1/16W
220K 5% 1/16W
220K 5% 1/16W
100K 5% 1/16W

R136
R137
R138
R139
R140

1-216-849-11
1-216-849-11
1-218-692-11
1-218-697-11
1-218-899-11

s
s
s
s
s

METAL, CHIP 220K 5% 1/16W
METAL, CHIP 220K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 1.6K 0.50% 1/16W
CHIP, METAL 150K 0.50% 1/16W

R67
R68
R69
R71
R77

1-218-881-11
1-218-716-11
1-218-874-11
1-216-864-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 27K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 13K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R141
R144
R145
R146
R148

1-218-868-11
1-216-845-11
1-216-845-11
1-216-864-11
1-216-845-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP

R78
R79
R80
R81
R83

1-218-692-11
1-218-716-11
1-216-809-11
1-216-809-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 0 5% 1/16W

R149
R150
R151
R152
R153

1-216-864-11
1-216-864-11
1-218-732-11
1-218-732-11
1-218-732-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W

R84
R85
R86
R90
R92

1-216-809-11
1-216-805-11
1-216-805-11
1-216-805-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R154
R200
R201
R202
R203

1-218-732-11
1-218-692-11
1-216-845-11
1-216-845-11
1-216-829-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R95
R96
R97
R98
R99

1-218-692-11
1-218-716-11
1-218-716-11
1-218-716-11
1-218-883-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

METAL 1K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W
33K 0.50% 1/16W

R204
R205
R206
R207
R208

1-218-716-11
1-216-845-11
1-216-845-11
1-216-829-11
1-216-845-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R100
R101
R102
R103
R104

1-218-692-11
1-218-692-11
1-218-740-11
1-218-732-11
1-218-710-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 1K 0.50% 1/16W
METAL 1K 0.50% 1/16W
100K 0.50% 1/16W
47K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W

R209
R210
R211

1-218-716-11 s METAL 10K 0.50% 1/16W
1-216-845-11 s METAL, CHIP 100K 5% 1/16W
1-216-845-11 s METAL, CHIP 100K 5% 1/16W

R105
R106
R107
R108
R109

1-218-716-11
1-218-710-11
1-218-710-11
1-218-700-11
1-218-732-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

10K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
2.2K 0.50% 1/16W
47K 0.50% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

RB10

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

R110
R111
R112
R113
R114

1-216-805-11
1-216-805-11
1-216-805-11
1-216-857-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R115
R116
R117
R118
R119

1-218-692-11
1-216-805-11
1-218-716-11
1-216-845-11
1-216-845-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R121
R122
R123
R124
R126

1-216-857-11
1-218-692-11
1-218-716-11
1-216-845-11
1-216-797-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 10 5% 1/16W

R127
R128
R129
R130

1-218-692-11
1-218-692-11
1-216-849-11
1-216-857-11

s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

BVP-550

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
47 5% 1/16W
47 5% 1/16W
47 5% 1/16W
47 5% 1/16W

47
47
47
1M
47

5%
5%
5%
5%
5%

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

7.5K
100K
100K
0 5%
100K

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

0.50% 1/16W
5% 1/16W
5% 1/16W
1/16W
5% 1/16W

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

1/16W
1/16W
1/16W
1/16W
1/16W

1K 0.50% 1/16W
1K 0.50% 1/16W
220K 5% 1/16W
1M 5% 1/16W

5-31

-----------SW-730 BOARD
-----------Ref. No.
or Q'ty Part No.

-----------SW-731 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

SP Description

1pc

1-657-443-21 o PRINTED CIRCUIT BOARD, SW-730

1pc

1-657-444-21 o PRINTED CIRCUIT BOARD, SW-731

C1
C3

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

C1
C3
C4

1-164-156-11 s CERAMIC 0.1uF 25V
1-162-927-11 s CERAMIC, CHIP 100PF 5% 50V
1-164-156-11 s CERAMIC 0.1uF 25V

CN801

1-764-082-21 s PIN, CONNECTOR (PC BOARD) 11P
CN501

1-695-207-21 o PIN, CONNECTOR (PC BOARD) 6P

D1

8-719-106-43 s DIODE RD9.1M-B1
IC1

8-759-175-04 s IC PCF8574T-T

IC1

8-759-175-04 s IC PCF8574T-T

R1
R2
R3
R4
R5

1-216-827-11
1-216-833-11
1-216-833-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

3.3K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R1
R2
R3
R4
R5

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
1K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-864-11
1-216-849-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
0 5% 1/16W
220K 5% 1/16W
220K 5% 1/16W

R11

1-216-845-11 s METAL, CHIP 100K 5% 1/16W

R11
R12
R13
R14
R15

1-216-845-11
1-216-845-11
1-216-845-11
1-216-849-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K
100K
100K
220K
220K

RV1

1-223-686-11 s RES, VAR, CARBON 5K/5K

S1
S2
S3

1-571-416-11 s SWITCH, TOGGLE
1-571-679-11 s SWITCH, TOGGLE
1-570-282-21 s SWITCH, KEY BOARD

S1
S2
S3
S4

1-571-415-11
1-571-415-11
1-571-415-11
1-571-415-11

s
s
s
s

SWITCH,
SWITCH,
SWITCH,
SWITCH,

5-32

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

TOGGLE
TOGGLE
TOGGLE
TOGGLE

BVP-550

-----------SW-732 BOARD
-----------Ref. No.
or Q'ty Part No.

-----------VA-163 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-442-22 o PRINTED CIRCUIT BOARD, SW-732

C1
C2

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

CN301

1-750-635-21 o PIN, CONNECTOR (PC BOARD) 5P

IC1

8-759-175-04 s IC PCF8574T-T

R1
R2
R3
R4
R5

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K
100K
100K
100K
220K

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-849-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
220K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

S1
S2
S3

1-570-985-11 s SWITCH, TOGGLE
1-570-985-11 s SWITCH, TOGGLE
1-571-396-11 s SWITCH, TOGGLE

-----------SW-733 BOARD
-----------Ref. No.
or Q'ty Part No.

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

SP Description

1pc

1-657-445-21 o PRINTED CIRCUIT BOARD, SW-733

CN701

1-764-079-21 s PIN, CONNECTOR (PC BOARD) 4P

S1

1-473-315-11 s ENCODER, ROTARY

-----------SW-742 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-446-21 o PRINTED CIRCUIT BOARD, SW-742

CN601

1-764-078-11 s PIN, CONNECTOR (PC BOARD) 3P

S1

1-554-088-00 s SWITCH, TACTILE

BVP-550

SP Description

1pc
1pc
1pc
6pcs

A-8272-560-A
3-692-125-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, VA-163
PANEL,VA-163 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-216-11
1-164-156-11
1-164-156-11
1-135-216-11
1-135-216-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V

C6
C7
C8
C9
C10

1-135-216-11 s
1-164-156-11 s
1-164-156-11
1-135-217-21 s
1-164-156-11 s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
s CERAMIC 0.1uF 25V
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C11
C12
C13
C14
C15

1-135-161-21
1-126-391-11
1-135-177-21
1-135-177-21
1-135-125-21

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
ELECT 47uF 20% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTAL 33uF 20% 10V

C16
C17
C18
C19
C20

1-135-161-21
1-126-391-11
1-164-156-11
1-135-177-21
1-135-216-11

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
ELECT 47uF 20% 6.3V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 10uF 20% 10V

C21
C22
C23
C24
C25

1-164-156-11
1-164-156-11
1-164-156-11
1-135-216-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V

C26
C27
C30
C31
C32

1-164-217-11
1-162-927-11
1-164-156-11
1-162-927-11
1-164-156-11

s
s
s
s
s

CERAMIC 150PF
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC 0.1uF

C40
C41
C42
C43
C44

1-135-211-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C45
C46
C47
C48
C49

1-164-156-11
1-135-070-00
1-162-964-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 0.1uF 10% 35V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C50
C51
C52
C53
C54

1-135-211-11
1-135-211-11
1-104-559-11
1-164-315-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 6.3V
TANTALUM, CHIP 6.8uF 20% 6.3V
FILM, CHIP 0.047uF 5% 16V
CERAMIC 470PF 5% 50V
CERAMIC 0.1uF 25V

C55
C56
C57
C58
C59

1-164-156-11
1-135-177-21
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C60
C61
C62
C63
C64

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

5% 50V
100PF 5% 50V
25V
100PF 5% 50V
25V

25V
25V
25V
25V
25V

5-33

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C65
C66
C67
C68
C69

1-135-217-21
1-135-217-21
1-135-217-21
1-164-156-11
1-135-217-21

s
s
s
s
s

TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
TANTAL 15uF 20% 6.3

C309
C311
C312
C314
C315

1-162-908-11
1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 3PF 0.25PF
TANTALUM, CHIP 1uF
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF
TANTALUM, CHIP 1uF

C70
C71
C72
C73
C124

1-135-217-21
1-135-217-21
1-164-156-11
1-162-918-11
1-107-685-11

s
s
s
s
s

TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
CERAMIC, CHIP 18PF 5% 50V
TANTALUM 15uF 20% 6.3V

C316
C317
C318
C319
C320

1-164-156-11
1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C125
C200
C201
C202
C203

1-107-685-11
1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11

s
s
s
s
s

TANTALUM 15uF 20% 6.3V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

C321
C323
C324
C325
C326

1-164-156-11
1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3

C204
C205
C207
C208
C209

1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11
1-162-908-11

s
s
s
s
s

TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 3PF 0.25PF 50V

C327
C328
C329
C330
C331

1-164-156-11
1-135-162-21
1-135-157-21
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C211
C212
C214
C215
C216

1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C332
C333
C334
C335
C336

1-104-852-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C217
C218
C219
C220
C221

1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C337
C338
C339
C340
C342

1-164-156-11
1-135-177-21
1-135-177-21
1-162-924-11
1-135-092-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V

C223
C224
C225
C226
C227

1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C343
C359
C400
C401
C402

1-135-210-11
1-135-177-21
1-135-214-21
1-164-156-11
1-135-165-11

s
s
s
s
s

TANTALUM 4.7uF 10% 10V
TANTALUM, CHIP 1uF 10% 25V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V

C228
C229
C230
C231
C232

1-135-162-21
1-135-157-21
1-135-177-21
1-135-177-21
1-135-161-21

s
s
s
s
s

TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 10% 10V

C403
C404
C405
C407
C408

1-164-156-11
1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V

C233
C234
C235
C236
C237

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C409
C411
C412
C414
C415

1-162-908-11
1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 3PF 0.25PF
TANTALUM, CHIP 1uF
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF
TANTALUM, CHIP 1uF

C238
C239
C240
C242
C243

1-135-177-21
1-135-177-21
1-162-924-11
1-135-092-21
1-135-210-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V
TANTALUM 4.7uF 10% 10V

C416
C417
C418
C419
C420

1-164-156-11
1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C259
C300
C301
C302
C303

1-135-177-21
1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

C421
C423
C424
C425
C426

1-164-156-11
1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3

C304
C305
C307
C308

1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11

s
s
s
s

TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V

C427
C428
C429
C430

1-164-156-11
1-135-162-21
1-135-157-21
1-135-177-21

s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V

5-34

4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V
0.1uF 25V

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

50V
10% 25V
10% 25V
10% 25V

0.1uF 25V
4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V

50V
10% 25V
10% 25V
10% 25V

0.1uF 25V
4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
SP Description

Ref. No.
or Q'ty Part No.

SP Description

C431
C432
C433
C434
C435

1-135-177-21
1-104-852-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC300
IC301
IC302
IC303
IC304

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

C436
C437
C438
C439
C440

1-164-156-11
1-164-156-11
1-135-177-21
1-135-177-21
1-162-924-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V

IC400
IC401
IC402
IC403
IC404

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

C442
C443
C459

1-135-092-21 s TANTALUM, CHIP 3.3uF 10% 16V
1-135-210-11 s TANTALUM 4.7uF 10% 10V
1-135-177-21 s TANTALUM, CHIP 1uF 10% 25V

L1
L2

1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH

CT200
CT300
CT400

1-141-311-11 s CAP, VAR, TRIMMER
1-141-311-11 s CAP, VAR, TRIMMER
1-141-311-11 s CAP, VAR, TRIMMER

Q1
Q2
Q3
Q4
Q5

8-729-141-48
8-729-820-86
8-729-141-75
8-729-117-32
8-729-402-78

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SB1121-ST
2SD596DV345
2SC4177
XN6401

D1
D2
D3
D4
D5

8-719-029-63
8-719-029-63
8-719-029-63
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
1SS302

Q7
Q10
Q11
Q12
Q13

8-729-141-75
8-729-402-78
8-729-402-19
8-729-402-19
8-729-402-19

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SD596DV345
XN6401
XN6501
XN6501
XN6501

D7
D8
D9
D10

8-719-974-76
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

HSM107S
1SS302
1SS302
1SS302

FL200
FL300
FL400

1-402-639-11 s FILTER, TRAP
1-402-639-11 s FILTER, TRAP
1-402-639-11 s FILTER, TRAP

Q14
Q200
Q201
Q202
Q203

8-729-402-78
8-729-117-16
8-729-175-73
8-729-122-63
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6401
2SA1611-M6
2SC2757
2SA1226
2SA1611-M6

IC1
IC3
IC5
IC6
IC7

8-759-076-06
8-759-066-68
8-759-180-08
8-759-175-02
8-759-058-64

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
REF-03GS
TC74HC4538AFS
TL074CPW-ELM1000
TC7S32FU(TE85R)

Q204
Q205
Q206
Q207
Q208

8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33
2SC4177

IC8
IC9
IC10
IC11
IC12

8-759-082-60
8-759-085-67
8-759-058-58
8-759-058-58
8-759-175-02

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
LM339NS
TC7S04FU(TE85R)
TC7S04FU(TE85R)
TL074CPW-ELM1000

Q209
Q210
Q211
Q212
Q213

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

IC13
IC14
IC15
IC16
IC17

8-759-082-60
8-759-082-60
8-759-076-06
8-759-326-65
8-759-066-59

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
TC7S66FU
TL064CPW
MP7670AS-TE2
TC74HC4053AFS

Q214
Q215
Q216
Q217
Q218

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1611-M6

IC18
IC19
IC20
IC21
IC22

8-759-326-65
8-759-175-02
8-759-237-79
8-759-064-36
8-759-066-59

s
s
s
s
s

IC
IC
IC
IC
IC

MP7670AS-TE2
TL074CPW-ELM1000
TC74HC595AF(EL)
MB88346BPFV
TC74HC4053AFS

Q219
Q220
Q300
Q301
Q302

8-729-402-19
8-729-402-19
8-729-117-16
8-729-175-73
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6501
XN6501
2SA1611-M6
2SC2757
2SA1226

IC23
IC24
IC25
IC26
IC27

8-759-049-60
8-759-059-50
8-759-058-58
8-759-086-42
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HC08APW-E05
MB88351PFV
TC7S04FU(TE85R)
X24C02S-3.0-C7000
TC7S08FU(TE85R)

Q303
Q304
Q305
Q306
Q307

8-729-117-16
8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33

IC200
IC201
IC202
IC203
IC204

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

Q308
Q309
Q310
Q311
Q312

8-729-117-32
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

Q313

8-729-117-73 s TRANSISTOR 2SC4178-F14

BVP-550

5-35

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

Q314
Q315
Q316
Q317
Q318

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1611-M6

R31
R35
R36
R37
R38

1-218-700-11
1-218-668-11
1-218-668-11
1-218-668-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

Q319
Q320
Q400
Q401
Q402

8-729-402-19
8-729-402-19
8-729-117-16
8-729-175-73
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6501
XN6501
2SA1611-M6
2SC2757
2SA1226

R39
R40
R41
R42
R43

1-216-857-11
1-218-668-11
1-216-809-11
1-218-873-11
1-218-851-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

1M 5% 1/16W
100 0.50% 1/16W
100 5% 1/16W
12K 0.50% 1/16W
1.5K 0.50% 1/16W

Q403
Q404
Q405
Q406
Q407

8-729-117-16
8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33

R44
R45
R46
R47
R48

1-218-851-11
1-218-851-11
1-218-699-11
1-216-833-11
1-216-833-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

1.5K 0.50% 1/16W
1.5K 0.50% 1/16W
2K 0.50% 1/16W
10K 5% 1/16W
10K 5% 1/16W

Q408
Q409
Q410
Q411
Q412

8-729-117-32
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

R49
R50
R51
R52
R53

1-216-833-11
1-216-833-11
1-218-692-11
1-218-716-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W

Q413
Q414
Q415
Q416
Q417

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

R54
R55
R56
R57
R58

1-218-716-11
1-218-723-11
1-218-901-11
1-218-732-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

Q418
Q419
Q420

8-729-117-16 s TRANSISTOR 2SA1611-M6
8-729-402-19 s TRANSISTOR XN6501
8-729-402-19 s TRANSISTOR XN6501

R1
R2
R3
R4
R5

1-218-723-11
1-216-833-11
1-218-724-11
1-218-716-11
1-218-732-11

s
s
s
s
s

METAL 20K 0.50%
METAL, CHIP 10K
CHIP, METAL 22K
METAL 10K 0.50%
METAL 47K 0.50%

R59
R60
R61
R62
R63

1-218-732-11
1-218-732-11
1-208-854-11
1-216-853-11
1-218-883-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W
CHIP,METAL 1M 0.50% 1/10W
METAL, CHIP 470K 5% 1/16W
METAL 33K 0.50% 1/16W

R6
R7
R8
R9
R10

1-218-724-11
1-218-716-11
1-218-716-11
1-216-823-11
1-218-724-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 1.5K 5% 1/16W
CHIP, METAL 22K 5% 1/16W

R64
R65
R66
R67
R68

1-218-883-11
1-218-699-11
1-218-692-11
1-218-699-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R11
R12
R13
R14
R15

1-218-716-11
1-218-716-11
1-218-668-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R69
R70
R71
R72
R73

1-218-699-11
1-218-692-11
1-218-883-11
1-216-864-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R16
R17
R18
R19
R20

1-216-845-11
1-216-829-11
1-216-833-11
1-211-969-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL 10K 0.50% 1/16W

R74
R75
R76
R77
R78

1-216-864-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-708-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 33K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R21
R22
R23
R24
R25

1-216-827-11
1-211-969-11
1-218-700-11
1-218-704-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 3.3K 5% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W
METAL 10K 0.50% 1/16W

R79
R80
R81
R82
R83

1-218-708-11
1-218-708-11
1-218-708-11
1-218-708-11
1-218-708-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

4.7K
4.7K
4.7K
4.7K
4.7K

R26
R27
R28
R29
R30

1-218-700-11
1-218-692-11
1-218-716-11
1-218-714-11
1-218-716-11

s
s
s
s
s

METAL
CHIP,
METAL
METAL
METAL

R84
R85
R86
R87
R88

1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

33K
33K
33K
33K
33K

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

R89
R90
R91
R92

1-218-883-11
1-218-883-11
1-218-716-11
1-218-716-11

s
s
s
s

METAL
METAL
METAL
METAL

33K
33K
10K
10K

0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W

5-36

1/16W
5% 1/16W
5% 1/16W
1/16W
1/16W

2.2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
10K 0.50% 1/16W
8.2K 0.50% 1/16W
10K 0.50% 1/16W

2.2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 1K 0.50% 1/16W

10K 0.50% 1/16W
20K 0.50% 1/16W
METAL 180K 0.50% 1/16W
47K 0.50% 1/16W
10K 0.50% 1/16W

33K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1K 0.50% 1/16W

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R93
R94
R95
R96
R97

1-218-716-11
1-218-732-11
1-218-732-11
1-218-732-11
1-218-732-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

10K
47K
47K
47K
47K

R230
R231
R232
R233
R234

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R98
R99
R100
R101
R102

1-218-714-11
1-218-714-11
1-218-699-11
1-218-873-11
1-218-692-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
12K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R235
R236
R237
R238
R239

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R103
R104
R105
R106
R107

1-218-886-11
1-216-829-11
1-216-809-11
1-218-708-11
1-218-700-11

s
s
s
s
s

CHIP, METAL 43K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL 4.7K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W

R240
R241
R242
R243
R244

1-218-710-11
1-218-699-11
1-216-809-11
1-218-699-11
1-218-842-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

R108
R109
R110
R111
R112

1-218-702-11
1-218-716-11
1-218-702-11
1-216-809-11
1-218-714-11

s
s
s
s
s

CHIP, METAL 2.7K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL 8.2K 0.50% 1/16W

R245
R246
R247
R248
R249

1-218-751-11
1-218-716-11
1-218-723-11
1-216-825-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 300K 0.50% 1/16
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 0 5% 1/16W

R113
R114
R115
R116
R117

1-218-668-11
1-218-723-11
1-218-699-11
1-216-845-11
1-218-702-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W

R250
R251
R252
R253
R254

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R118
R120
R121
R122
R123

1-216-829-11
1-218-704-11
1-216-809-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 4.7K 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W

R255
R256
R257
R258
R259

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
CHIP, METAL 11K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R200
R201
R202
R203
R204

1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11
1-218-727-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
METAL 30K 0.50% 1/16W

R260
R261
R262
R263
R264

1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11
1-218-858-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W

R205
R206
R207
R208
R209

1-218-732-11
1-218-708-11
1-218-710-11
1-218-856-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
20K 0.50% 1/16W

R265
R266
R267
R268
R269

1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11
1-218-692-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

R210
R211
R212
R213
R214

1-218-714-11
1-211-969-11
1-218-680-11
1-218-851-11
1-211-969-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 10 0.50% 1/16W

R270
R271
R272
R280
R281

1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11
1-218-708-11

s
s
s
s
s

METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R215
R216
R217
R218
R219

1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11
1-218-699-11

s
s
s
s
s

METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W

R300
R301
R302
R303
R304

1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11
1-218-710-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R220
R222
R223
R224
R225

1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 750 0.50% 1/16W
CHIP, METAL 820 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
METAL 33K 0.50% 1/16W

R305
R306
R307
R308
R309

1-218-727-11
1-218-732-11
1-218-708-11
1-218-856-11
1-218-874-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

30K 0.50% 1/16W
47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 13K 0.50% 1/16W

R226
R227
R228
R229

1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

R310
R311
R312
R313

1-218-714-11
1-211-969-11
1-218-680-11
1-218-851-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

BVP-550

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

SP Description

10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W

39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
5.6K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W
2K 0.50% 1/16W
620 0.50% 1/16W

20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 1K 0.50% 1/16W

5-37

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R314
R315
R316
R317
R318

1-211-969-11
1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11

s
s
s
s
s

CHIP, METAL 10 0.50% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W

R381
R400
R401
R402
R403

1-218-708-11
1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11

s
s
s
s
s

METAL 4.7K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W

R319
R320
R322
R323
R324

1-218-699-11
1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R404
R405
R406
R407
R408

1-218-727-11
1-218-732-11
1-218-708-11
1-218-856-11
1-218-874-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

30K 0.50% 1/16W
47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 13K 0.50% 1/16W

R325
R326
R327
R328
R329

1-218-883-11
1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

R409
R410
R411
R412
R413

1-218-714-11
1-211-969-11
1-218-710-11
1-218-680-11
1-218-851-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

R330
R331
R332
R333
R334

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R414
R415
R416
R417
R418

1-211-969-11
1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11

s
s
s
s
s

CHIP, METAL 10 0.50% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W

R335
R336
R337
R338
R339

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R419
R420
R422
R423
R424

1-218-699-11
1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R340
R341
R342
R343
R344

1-218-710-11
1-218-699-11
1-218-716-11
1-216-809-11
1-218-699-11

s
s
s
s
s

CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
CHIP, METAL 2K 0.50% 1/16W

R425
R426
R427
R428
R429

1-218-883-11
1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

R345
R346
R347
R348
R349

1-218-842-11
1-218-750-11
1-218-723-11
1-216-825-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 620 0.50% 1/16W
METAL 270K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 0 5% 1/16W

R430
R431
R432
R433
R434

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R350
R351
R352
R353
R354

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R435
R436
R437
R438
R439

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R355
R356
R357
R358
R359

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
CHIP, METAL 11K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R440
R441
R442
R443
R444

1-218-710-11
1-218-699-11
1-216-809-11
1-218-699-11
1-218-842-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

R360
R361
R362
R363
R364

1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11
1-218-858-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W

R445
R446
R447
R448
R449

1-218-740-11
1-218-723-11
1-216-864-11
1-218-716-11
1-216-825-11

s
s
s
s
s

METAL 100K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R365
R366
R367
R368
R369

1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11
1-218-692-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

R450
R451
R452
R453
R454

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R370
R371
R372
R380

1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11

s
s
s
s

METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W

R455
R456
R457
R458

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11

s
s
s
s

METAL, CHIP
CHIP, METAL
CHIP, METAL
CHIP, METAL

5-38

2K 0.50% 1/16W
750 0.50% 1/16W
820 0.50% 1/16W
100 5% 1/16W
5.6K 0.50% 1/16W

33K 0.50% 1/16W
10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W

20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 1K 0.50% 1/16W

2K 0.50% 1/16W
750 0.50% 1/16W
820 0.50% 1/16W
100 5% 1/16W
5.6K 0.50% 1/16W

33K 0.50% 1/16W
10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
5.6K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W
2K 0.50% 1/16W
620 0.50% 1/16W

10K 5% 1/16W
1K 0.50% 1/16W
3K 0.50% 1/16W
11K 0.50% 1/16W

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(FRAME)
Ref. No.
or Q'ty Part No.

SP Description

R459
R460
R461
R462
R463

1-218-723-11
1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11

s
s
s
s
s

METAL 20K 0.50% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

R464
R465
R466
R467
R468

1-218-858-11
1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

R469
R470
R471
R472
R480

1-218-692-11
1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W

R481

1-218-708-11 s METAL 4.7K 0.50% 1/16W

RV50
RV200
RV300
RV400

1-241-263-11
1-241-260-11
1-241-260-11
1-241-260-11

----FRAME
----Ref. No.
or Q'ty Part No.
!

s
s
s
s

METAL 3K 0.50% 1/16W
20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W

RES, ADJ, METALT 5K
METAL, ADJ 500
METAL, ADJ 500
METAL, ADJ 500

1-775-778-11 o FLEXIBLE CARD WIRE
(CN1120
1-777-000-11 s FLEXIBLE CARD WIRE
(MB-602
1-777-001-11 s FLEXIBLE CARD WIRE
(MB-602

CN2F(to PA-181 BOARD of
1-695-212-11 o
1-695-215-11 o
CN15F(to MB602 BOARD)
1-764-193-11 o
1-695-215-11 o
CN21F(to MB-602 BOARD)
1-764-196-11 o
1-695-215-11 o
CN31F(to MB-602 BOARD)
1-580-586-11 o
1-573-176-11 o
1-580-599-11 o
CN32F(to MB-602 BOARD)
1-695-892-11 o
1-695-215-11 o
CN42F(to MB-602 BOARD)
1-764-195-11 o
1-695-215-11 o
CN301F(to SW-732 BOARD)
1-764-195-11 o
1-695-215-11 o
CN402F(to CN1122 BOARD)
1-695-892-11 o
1-695-215-11 o
CN405F(to CN1122 BOARD)
1-764-198-11 o
1-695-215-11 o
CN406F(to CN1122 BOARD)
1-764-193-11 o
1-695-215-11 o
CN407F(to MB602 BOARD)
1-695-212-11 o
1-695-215-11 o
CN501F(to SW731 BOARD)
1-695-212-11 o
1-695-215-11 o
CN601F(to SW742 BOARD)
1-764-193-11 o
1-695-215-11 o
CN701F(to SW733 BOARD)
1-764-194-11 o
1-695-215-11 o

SP Description

A-8272-571-A s CONVERTER ASSY, DC-DC
1-775-774-11 o FLEXIBLE CARD WIRE (20
(CN-1121 TO
1-775-775-11 o FLEXIBLE CARD WIRE (24
(CN-1122 TO
1-775-776-11 o FLEXIBLE CARD WIRE (30
(CN1120 TO
1-775-777-11 o FLEXIBLE CARD WIRE (30
(CN1121 TO

SP Description

CORE)
MB-602)
CORE)
MB-602)
CORE)
MB-602)
CORE)
MB-602)

CCD UNIT)
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 8P
CONTACT, FEMALE AWG26-30
HOUSING, 20P
CONTACT, FEMALE AWG22-26
CONTACT, FEMALE AWG26-30
HOUSING, 12P
CONTACT, FEMALE AWG26-30
HOUSING, 5P
CONTACT, FEMALE AWG26-30
HOUSING, 5P
CONTACT, FEMALE AWG26-30
HOUSING, 12P
CONTACT, FEMALE AWG26-30
HOUSING, 11P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 4P
CONTACT, FEMALE AWG26-30

CN801F(to SW730 BOARD)
1-764-198-11 o HOUSING, 11P
1-695-215-11 o CONTACT, FEMALE AWG26-30

(30 CORE)
TO MB-602)
(20 CORE)
TO CCD UNIT)
(24 CORE)
TO CCD UNIT)

1-955-080-12 o HARNESS (VF)
1-955-086-12 o HARNESS (PA)
CN901
CN902
CN903
CN904
CN905

BVP-550

1-561-781-11
1-562-222-41
1-565-051-21
1-695-841-12
1-509-184-31

s
s
o
s
s

CONNECTOR BNC "TEST OUT"
CONNECTOR 6P FEMALE "REMOTE"
CONNECTOR, 20P FEMAL "VF"
CONNECTOR 12P FEMALE "LENS"
CONNECTOR 3P MALE "MIC"

5-39

5-4. Optional Fixtures
-----------------TOOLS AND FIXTURES
-----------------Part No.
SP Description
J-6026-110-A
J-6026-130-B
J-6029-140-B
J-6394-080-A
J-6395-040-A

5-40

o
o
o
o
o

MULTI-BURST CHART
GRAYSCALE CHART
PATTERN BOX PTB-500
GRAYSCALE CHART (16:9)
EXTENSION BOARD, EX-464

BVP-550

5-5. Changed Parts
NOTE: The numbers identified by marking with ) are
matching with each serial numbers.
See the table matched with each serial numbers.

510) Serial No. 50141 and higher
15001 and higher
604) Serial No. 15621 and higher

-----------AT-95 BOARD
-----------510) R44

1-218-567-11 s METAL, CHIP 6.8K 0.5% 1/16W

---> 1-218-707-11 s METAL, CHIP 4.3K 0.5% 1/16W

1-163-231-11
1-102-111-00
NOT IN USE.
1-216-624-11
NOT IN USE.
1-216-664-11
1-218-699-11
1-218-648-11

--->
--->
--->
--->
--->
--->
--->
--->

-----------IF-510 BOARD
-----------604)
604)
510)
604)
510)
604)
510)
510)

C252
C330
R106
R106
R107
R107
R622
R623

BVP-550

s CERAMIC, CHIP 15PF 5% 50V
s CERAMIC 270PF 10% 50V
s METAL, CHIP 75 0.5% 1/10W
s METAL, CHIP 3.6K 0.5% 1/10W
s METAL, CHIP 2K 0.5% 1/16W
s METAL, CHIP 15 0.5% 1/16W

1-162-917-11
1-162-958-11
1-216-624-11
1-211-990-11
1-216-664-11
1-218-705-11
1-218-698-11
1-218-671-11

s
s
s
s
s
s
s
s

CERAMIC 15PF 5% 50V
CERAMIC 270PF 5% 50V
METAL, CHIP 75 0.5% 1/10W
METAL, CHIP 75 0.5% 1/16W
METAL, CHIP 3.6K 0.5% 1/10W
METAL, CHIP 4.3K 0.5% 1/16W
METAL, CHIP 1.8K 0.5% 1/16W
METAL, CHIP 130 0.5% 1/16W

5-41

5-42

BVP-550

SEMICONDUCTOR INDEX

Section 6
Semiconductor Pin Assignments
Semiconductors of which functions are equivalent are described here.
For parts replacement, refer to the section of Spare Parts in this
manual. The circuit diagram of each IC is obtained from the IC data
book published by the manufacturer.

Diode

PAGE

1S1588 .............................. 6-2
1SS226 ............................. 6-2
1SS300 ............................. 6-2
1SS302 ............................. 6-2
1T363 ................................ 6-2
CL-150D-CD .....................
CL-150PG-CD ..................
CL-150UR-CD ..................
CL-200HR .........................

6-2
6-2
6-2
6-2

2SC4177 ...........................
2SC4177-L6 ......................
2SC4178 ...........................
2SC4184 ...........................
2SC4215 ...........................
2SD1048 ...........................
2SD1111 ...........................
2SD1615A ........................
2SD1623 ...........................
2SD596 .............................
2SD596-DV5 .....................

6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-3
6-3
6-2
6-2

CXD1171M .......................
CXD2307R ........................
CXD2310R ........................
CXK1203AR .....................

DTA143XKA ......................
DTA144E ...........................
DTA144EUA ......................
DTC143XKA .....................
DTC144EE ........................
DTC144EK ........................
DTC144EKA .....................
DTC144EUA .....................

6-3
6-3
6-3
6-3
6-3
6-3
6-3
6-3

LA1140 ............................
LM339NS ........................
LM339PW .......................
LM358PS ........................
LM393PS ........................
LM4040BIMM3X .............

6-7
6-8
6-8
6-9

EL4581CS ........................ 6-9
HA11423MP ..................... 6-9
HD14053BFP .................. 6-10
HD151015T .................... 6-10
HD6475328F10 .............. 6-11

DE5LC20U ........................ 6-2
GL-5ED5 ........................... 6-2
HSM107S .........................
HSM88AS .........................
HSM88WA ........................
HSM88WK ........................

6-2
6-2
6-2
6-2

KV1470 ............................. 6-2
LT9527U ............................ 6-2

IMB2 .................................. 6-3
IMH2 ................................. 6-3

MA141WK ......................... 6-2

Others

RD ? ?M-B ? .....................
RD ? ?M-B ........................
RD ? ?MB .........................
RD ? ?UH .........................
RD ? ?UJN ........................

2SK612 .............................
2SK663 .............................
2SK664 .............................
2SK852-X2 .......................
2SK853 .............................

6-2
6-2
6-2
6-2
6-2

PAGE
6-3
6-3
6-3
6-3
6-3

SC802-04 .......................... 6-2

CXK58257ATM-70LL ......... 6-3

V09C ................................. 6-2
V09G ................................. 6-2
V11 ? ................................. 6-2

HM53461JP-12 ................. 6-4

Transistor

PC410 ............................... 6-5

PAGE

2SA1162G ........................
2SA1226 ...........................
2SA1610 ...........................
2SA1611 ...........................
2SA1688 ...........................
2SA1808 ...........................
2SA811A ...........................
2SB1115A .........................
2SB1121 ...........................
2SB1440S .........................
2SB624 .............................
2SB798 .............................
2SC1623 ...........................
2SC2223 ...........................
2SC2712 ...........................
2SC2713 ...........................
2SC2714Y ........................
2SC2757 ...........................
2SC2758 ...........................
2SC3115 ...........................
2SC3360 ...........................
BVP-550

6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2

6-12
6-12
6-12
6-12
6-12
6-12

M27V201-200L6 ............. 6-12
M51132FP ...................... 6-13
M51958A ........................ 6-13
M52313SP ...................... 6-13
M62021FP ...................... 6-13
M62352GP ...................... 6-14
MAX202CSE ................... 6-14
MB88346BPFV ............... 6-14
MB88351PFV ................. 6-15
MC14018BF .................... 6-15
MC14020BF .................... 6-15
MC14023BF .................... 6-16
MC74HC00AF ................ 6-16
MC74HC4053F ............... 6-16
MN6790S ........................ 6-16
MN8232A ........................ 6-17
MSM82C55A-2GS ........... 6-17

MP7670AS ........................ 6-4

SGM2016M ....................... 6-5
UPA101G .......................... 6-5
XN6401 .............................
XN6435 .............................
XN6501 .............................
XN6534 .............................
XP6435 .............................
XP6501 .............................
XP6534 .............................
IC

6-5
6-5
6-5
6-5
6-5
6-5
6-5

PAGE

BA225F ............................. 6-6
CA3102M ..........................
CLC505AJE ......................
CXA1165M .......................
CXA1432M .......................
CXA1486Q ........................

6-6
6-6
6-6
6-6
6-7

NJM3414AM ...................
NJM4556AM-A ...............
NJM4558V ......................
NJU7022M ......................

6-18
6-18
6-18
6-18

PCF8574AT .................... 6-18
PCF8574T ...................... 6-18
REF-03GS ...................... 6-18
RTC4553B ...................... 6-19
SN74HC08ANS .............. 6-19
SN74HC08APW ............. 6-19
SN74HC157APW ............ 6-19
SN74HC74ANS .............. 6-19
SN74HCT04APW ............ 6-19
SN74HCT244APW-E05 ... 6-20
SN75158PS .................... 6-20
STK10C68-5S35 ............. 6-20
TA75S393F .....................
TA8129Z ..........................
TC4S01F ........................
TC4S11F ........................

6-20
6-21
6-21
6-21

TC4S30F ........................ 6-21
TC4S69F ........................ 6-21
TC4S71F ........................ 6-21
TC4S81F ........................ 6-22
TC4SU69F ...................... 6-21
TC4W53FU ..................... 6-22
TC4W66FU ..................... 6-22
TC74HC00AF ................. 6-16
TC74HC4052AFS (EL) .... 6-22
TC74HC4053AFS ............ 6-16
TC74HC4538AFS ............ 6-22
TC74HC595AF ............... 6-23
TC74VHC00FS (EL) ........ 6-16
TC74VHC02F ................. 6-23
TC74VHC04FS (EL) ........ 6-19
TC74VHC08FS (EL) ........ 6-19
TC74VHC138FS (EL) ...... 6-23
TC74VHC157FS ............. 6-19
TC74VHC163F ............... 6-23
TC74VHC20F ................. 6-24
TC74VHC244FS (EL) ...... 6-20
TC74VHC32FS (EL) ........ 6-24
TC74VHC541FS (EL) ...... 6-24
TC74VHC74F ................. 6-19
TC74VHC74FS (EL) ........ 6-19
TC7S00FU ...................... 6-21
TC7S02FU ...................... 6-21
TC7S04FU ...................... 6-21
TC7S08FU ...................... 6-22
TC7S32FU ...................... 6-21
TC7S66FU ...................... 6-24
TC7S86FU ...................... 6-21
TC7SH02FU ................... 6-21
TC7SH04FU ................... 6-21
TC7SH08FU ................... 6-22
TC7SH32FU ................... 6-21
TC7W00FU ..................... 6-24
TC7W02F ....................... 6-24
TC7W04FU ..................... 6-24
TC7W08FU ..................... 6-24
TC7W139FU ................... 6-25
TC7W32FU ..................... 6-25
TC7W74FU ..................... 6-25
TL062CPW ..................... 6-25
TL064CPW ..................... 6-25
TL074CPW ..................... 6-25
TL082M ........................... 6-25
TL084CPW ..................... 6-25
TLC0820ACDW .............. 6-26
TLC272CPW ................... 6-26
TLC27L2CPS .................. 6-26
UPC358G2 ..................... 6-12
UPC393G2 ..................... 6-12
UPD4702G ..................... 6-26
UPD6453GT-610 ............. 6-27
UPD71055GB-10-3B4 ..... 6-28
X24164S1 ....................... 6-28
X24C02S-3. 0 ................. 6-28

6-1

Di, Tr

DIODE

GL-5ED5;A=RED,B=YEL GRN

1S1588

(SCALE 4/1)
TOP VIEW

(
)
TOP VIEW

SC802-04

1SS226
1SS302
HSM107S
HSM88AS

V09C
V09G
V11 ?
B

A

TOP VIEW

TRANSISTOR

HSM88WK
MA141WK

TOP VIEW

1SS300
HSM88WA
(SCALE 4/1)
TOP VIEW

3

1

2

KV1470

—TOP VIEW—

2SA1162G
2SA1226
2SA1610
2SA1611
2SA1688
2SA1808
2SA811A
2SB1440S
2SB624

3

(

)
TOP VIEW

2

1

1T363

(
)
TOP VIEW

2SB1115A
2SB1121
2SB798

LT9527U
INDEX

CL-150D-CD;ORANGE
CL-150PG-CD;GREEN
CL-150UR-CD;RED
7

8

9

10

11

6

12

5

4

3

2

1
(

)
TOP VIEW

3

CL-200HR;RED

2

4

1

(

6

3

5

8

7

10

9

12

11

)

RD ? ?M-B
RD ? ?MB
RD ? ?M-B ?

TOP VIEW

DE5LC20U
3

1

2

2SC1623
2SC2223
2SC2712
2SC2713
2SC2714Y
2SC2757
2SC2758
2SC3115
2SC3360
2SC4177
2SC4177-L6
2SC4178
2SC4184
2SC4215
2SD1048
2SD596
2SD596-DV5

NC

2

1

2SD1111
(
)
TOP VIEW

6-2

RD ? ?UH
RD ? ?UJN

BVP-550

Tr, Others

Others

(SCALE 4/1)
TOP VIEW

2SK612

2SD1615A
2SD1623

TOP VIEW

3

2

3

2

(SCALE 4/1)
TOP VIEW

2SK663

2SK852-X2
2SK853

3

2

1

1

S

1

S

S

(
)
TOP VIEW

DTA143XKA(R1=4.7K R2=10K)
DTA144EE(R1=47K, R2=47K)
DTA144EUA(R1=47K, R2=47K)

3

2

1
R1

R2

CXK58257ATM-70LL(SONY)(ACCESS TIME=70ns)FLAT PACKAGE
*

(SCALE 4/1)
TOP VIEW

—TOP VIEW—

DTC143XKA(R1=4.7K, R2=10K)
DTC144EE(R1=47K, R2=47K)
DTC144EK(R1=47K, R2=47K)
DTC144EKA(R1=47K, R2=47K)
DTC144EUA(R1=47K, R2=47K)

3

2

C-MOS 256K (32768 x 8)-BIT STATIC RAM

1
R1

10

OE

IN

21 A10

22

IN

9
8

A11

IN

20 CE

23

IN

7
6

A9

IN

19 I/O8

24

5

R2

4

A8

IN

18 I/O7

25

3
25

A13

IN

17 I/O6

26

24
21

WE

IN

27

16 I/O5

23

DD
28 V
+5V

15 I/O4

26

2

(
)
—TOP VIEW—

6

1

5

2

4

3

IMB2(R=47K)

1

A14

IN

1

A12

IN

2

13 I/O3

A7

IN

3

12 I/O2

A6

IN

4

11 I/O1

A5

IN

5

10 A0

IN

A4

IN

6

9 A1

IN

A3

IN

7

8 A2

IN

GND 14

A0
A1
A2
A3

I/O1

A4

I/O2

A5

I/O3

A6

I/O4

A7

I/O5

A8

I/O6

A9

I/O7

A10

I/O8

A11
A12
A13
A14
OE
22

WE
27

CE
20

1

6
R
R

5
2
R

R

3

4

A0-A14
CE
I/O1-I/O8
OE
WE
(

)

IMH2(R=47K)

TOP VIEW

6

1

5

2

4

3

A14
A13
A12

1

6
R

A11
A9
A8

R

A7

5
2
R

4

A6
A5

CE
1
0
0
0

1

ROW
DECODER

26
2

25

OE
X
1
0
X

ADDRESS INPUTS
CHIP ENABLE INPUT
DATA INPUTS/OUTPUTS
OUTPUT ENABLE INPUT
WRITE ENABLE INPUT
WE
MODE
X
NOT SELECT
1 OUTPUT DISABLE
1
READ
0
WRITE

I/O TERMINAL
HIGH IMPEDANCE
HIGH IMPEDANCE
OUTPUT DATA
INPUT DATA
0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

23
24

;
;
;
;
;

BUFFER

3

MEMORY
MATRIX
512 x 512

4
5

R
19

3
A10
A4
A3
A2
A1
A0

21

18

6

17

7
8

BUFFER

9

I/O GATE
COLUMN
DECODER

I/O
BUFFER

16
15
13
12

10

11

I/O8
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1

OE

WE

22

27

BUFFER

20
CE

BVP-550

6-3

11
12
13
15
16
17
18
19

Others

HM53461JP-12(HITACHI)(ACCESS TIME=120ns)PLCC

MP7670AS(MICRO POWER SYSTEMS)FLAT PACKAGE

C-MOS 64K WORD x 4 BIT MULTI PORT RAM

C-MOS 8-BIT 8CHANNEL D/A CONVERTER

—TOP VIEW—

1
2
3
4
5
6
7
8
9
10
11
12

— TOP VIEW —

GND

VCC (+5V)

17
16
15
14
11
10
9
13

8
18
7
4
21

A0

I/O1

A1

I/O2

A2

I/O3

A3

I/O4

A4

SI/O1

A5

SI/O2

A6

SI/O3
SI/O4

A7

24
23
22
21
20
19
18
17
16
15
14
13

PIN
No.

I/O

1
2
3
4
5
6
7
8
9
10
11
12

—
I/O
I/O
—
I/O
I/O
—
—
I
I
I
—

PIN
No.
13
14
15
16
17
18
19
20
21
22
23
24

SIGNAL
SC
SI/O1
SI/O2
DT/OE
I/O1
I/O2
WE
RAS
A6
A5
A4
VCC

5

I/O
I
I
I
I
I
—
I/O
I/O
—
I/O
I/O
—

SIGNAL

C V

OUT

1

24 D V

OUT

B V

OUT

2

23 C V

IN

4
23

A7
A3
A2
A1
A0
CAS
I/O3
I/O4
SOE
SI/O3
SI/O4
GND

22
8

A V

OUT

3

22 D V

9

IN

14

B V IN 4

VDD
(+5V)

A V IN 5

21

15

20 DI

7

IN

16

6 GND

VSS
(–5V)

19

20
17

PR IN 7

18 DO

OUT

E V IN 8

17 CK

IN

F V IN 9

16 LD

IN

A

A

B

B

C

C

D

D

E

E

F

F

G

G

H

H

3
2
1
24
10
11
12
13

PR
LD
DI

DO

18

5
6

A0-A7
CAS
DT/OE
I/O1-I/O4
RAS
SC
SI/O1-SI/O4
SOE
WE

19
20
2
3
22
23

;
;
;
;
;
;
;
;
;

ADDRESS INPUT
COLUMN ADDRESS STROBE INPUT
DATA TRANSMISSION/OUTPUT ENABLE INPUT
RAM PORT DATA INPUT/OUTPUT
ROW ADDRESS STROBE INPUT
SERIAL CLOCK INPUT
SAM PORT DATA INPUT/OUTPUT
SAM PORT ENABLE INPUT/OUTPUT
WRITE ENABLE INPUT

E V

RAS

OUT

10

15 H V

IN

F V

OUT

11

14 G V

IN

G V

OUT

12

13 H V

OUT

CK
DI
DO
LD
PR

CAS
WE
DT/OE
SOE

; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT
; DATA LOAD CONTROL INPUT
; PRESET INPUT

1

5
I/O1

I/O2

5

6

I/O3

I/O4

19

20

LATCH A

D/A A

-

3

+

4

WRITE MASK
GENERATOR

OE CLOCK
GENERATOR

I/O BUFFER

4

WE

CAS

18

WE CLOCK
GENERATOR

CAS CLOCK
GENERATOR

LATCH B

DT/OE

D/A B

23

LATCH C

64K x 4
MEMORY
ARRAY

SOE CLOCK
GENERATOR

21

D/A C

8

RAS CLOCK
GENERATOR

SC CLOCK
GENERATOR

256 x 4 DATA
REGISTER

13-17 9-11
A0-A7

1

CAS

24
8

LATCH E

SI/O BUFFER

VBB
GENERATOR

D/A E

LATCH F

-

10

+

D/A F

-

11

+

14

LATCH G
PR

RAS

D/A D

-

+

SC

REFRESH ADDRESS
COUNTER
18

+

9

Y ADDRESS
BUFFER

8

1

SOE

POINTER

X ADDRESS
BUFFER

-

22

LATCH D
RAS

2

+

TRANSFER
CONTROL

Y DECODER
X DECODER

7

-

2

3

22

SI/O1

SI/O2 SI/O3

D/A G

-

+

15

7

23
SI/O4

12

LATCH H

D/A H

-

13

+

6

LD

DI
CK

6-4

16

20
17

A V
A V
B V
B V
C V
C V
D V
D V
E V
E V
F V
F V
G V
G V
H V
H V

GND

LOGIC
CONTROL

A3 A2 A1 A0

D7

TO

D0

18

DO

SERIAL SHIFT
REGISTER

BVP-550

Others

PC410(SHARP)FLAT PACKAGE
OPIC-OUTPUT PHOTO COUPLER
—TOP VIEW—
6

5

**
XP6435

(SCALE 6/1)
TOP VIEW

1
2
3

6
5
4

4
6

1

5

1

2

3

4

3

2

SGM2016M

3
1

6
5

4
G2

D

G1

S

1PIN

**
XP6501

(
)
TOP VIEW

4

1
2
3

1

6

2

5
4

3

UPA101G(NEC)FLAT PACKAGE
—TOP VIEW—
8

7

6

1
2
3

5

*

(SCALE 6/1)
TOP VIEW

TRANSISTOR ARRAY

1

XP6534

6
5
4

6
5

2

1

2

3

**
XN6401
XN6435

(SCALE 6/1)
TOP VIEW

6
5

1
2
3

4

4

3

4

6

1

5

2
3

4

*
XN6501
XN6534

(SCALE 6/1)
TOP VIEW

6
5
4

1
2
3

6

1

5

2
3

4

BVP-550

6-5

IC

IC

BA225F(ROHM)

CXA1165M(SONY)FLAT PACKAGE

CR TIMER

CATV VHF TUNER
— TOP VIEW —

-TOP VIEWVCC
(+16V)

OUT1 1

8

8

2

O

CR1 2

7 OUT2

CR

6

O

T

TRIGGER1 3

CR

6 CR2

3

5 TRIGGER2

5

VCC
CR1
OUT1

14
VCC

CR2

TRG1
OUT2
TRG2

OSC OSC OSC
3
2
1

OUT

OUT

OUT

OUT

13

12

11

10

9
GND

8

3

4

5

6

7

7

GND
4

GND
1

2

RF1 RF2

IF
OUT

IN

UIF MIX1 MIX2

IN

IN

OSC OSC
2 1
13

CA3102M(RCA)FLAT PACKAGE
14

HIGH FREQ.DIFFERENTIAL AMPLIFIER

TP

(+6.5 V to +9.5 V)

T

4 GND

1

REG

12 11

OUT

OUT

TP

10

8

+5 V
REG

VCC
(+6.5 V to +9.5 V)

—TOP VIEW—

OSC
1

14

2

13

RF2

3

12 SUBSTRATE

4

11

5

10

6

9

7

8

6

3

RF1

UIF

4

MIX

5

UIF
AMP

7

1

IF
AMP

+

MIX1
MIX2

IF

CXA1432M(SONY)FLAT PACKAGE
VIDEO SIGNAL CLAMPER
— TOP VIEW —

CLC505AJE(COMLINEAR)FLAT PACKAGE

CP

TP12

OPERATIONAL AMPLIFIER

14
VCC

— TOP VIEW —

(+5 V)

13
NC

12

IN

11
VEE

PEDE SENS

10

9

1

3

(–5 V)

9
8

1 NC
V– 2

–

V+ 3

+

4 VEE

(–5 V)

10

8 RP
VCC
(+5 V)

7
6 V OUT

1

2

3

4

V

E

FV

TP5

IN

OUT

IN

E OUT

2

NC
6

FV IN
PEDE

V OUT

7

SENS
CP IN

7
V
OUT

NC 5

CP IN
E OUT
FV IN
PEDE
SENS
TP5, TP12
V IN
V OUT

V IN

FV IN

PEDE
SENS

CP IN

6-6

NC
5

V IN

8

1

; CLAMP PULSE INPUT
; BUFFER AMP OUTPUT
; FLOATING VIDEO SIGNAL INPUT
; CLAMP LEVEL DC INPUT
; CLAMP POINT SIGNAL INPUT
; FOR TEST
; VIDEO SIGNAL INPUT
; VIDEO SIGNAL OUTPUT

2

E. F

3

9
8

10

+

E. F

7

E OUT

V OUT

SAMPLE
&
HOLD

+
–

MODE
SELECTOR

BVP-550

IC

CXA1486Q

(SONY)

CXD1171M(SONY)FLAT PACKAGE

VIDEO AMPLIFIER FOR VIDEO CAMERA

C-MOS 8-BIT D/A CONVERTER
— TOP VIEW —

V EE

V CC

V EE I
DR V EE

DR V CC

GND2

GND I

V CC I

V CC , V CC I, DR V CC , = (+5V)
V EE , V EE I, DR V EE , = (-2.5 to -5.5V)
16
15
14
13
12
11
10
9

1
2
3
4
5
6
7
8

25
26
27
28
29
30
31
32

GND1

24
23
22
21
20
19
18
17

- TOP VIEW -

24
12
26
14
2
27

BLACK1
BLKG
G CTRL
ZERO
W SHAD
F COMP

30
BLACK2
18
SIG IN
16
BLK SHAD
19
GS2
20
GS1
21
CLP PLS1
32
CLP PLS2
4
FB REF
9
KNEE PT

23
LPFC1
11
FLT DET
LPF C2

CLP C1
FLR DET
CLP C2

29

31
11

INPUT
BLACK1, 2
BLKG
BLK SHAD
CLP PLS1, 2
F COMP
FB REF
G CTRL
GS1, 2
KNEE PT
KNEE SW

25
OUT SW
SIG IN
W SHAD
ZERO

SIG OUT

I/O

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

I
I
–
I
–
–
O
–
I
I
O
I
–
I
–
I

SIGNAL

PIN
No.

I/O

SIGNAL

OUT SW
W SHAD
GND I
FB REF
V EE I
DR V EE
SIG OUT
DR V CC
KNEE PT
KNEE SW
FLR DET
BLKG
GND2
ZERO
V CC
BLK SHAD

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

–
I
I
I
I
–
O
I
O
I
I
–
O
I
O
I

GND1
SIG IN
GS2
GS1
CLP PLS1
V EE
LPF C1
BLACK1
CLP C2
G CTRL
F COMP
V CC I
LPF C2
BLACK2
CLP C1
CLP PLS2

; FOR CLAMP DC COMPENSATION
; BLANKING SIGNAL
; BLACK SHADING CORRECTION SIGNAL
; CLAMP PULSE
; FLARE COMPENSATION SIGNAL
; OUTPUT 2 INVERT AMPLIFY DC ADJUST
; WHITE BALANCE GAIN CONTROL
; GAIN SELECT
; KNEE POINT
; 1/4, 1/5 KNEE SELECT
(4.5V=1/4 KNEE, 0V=1/5 KNEE)
; OUTPUT 3 AMPLIFY SELECT
; SIGNAL INPUT
; WHITE SHADING SIGNAL
; VARIABLE GAIN AMPLIFY ZERO POINT ADJUST

7
OUTPUT
CLP C1, C2
FLR DET
LPF C1, C2
SIG OUT

1
OUT SW
10
KNEE SW

PIN
No.

12

26
G CTRL
14
ZERO
2
W SHAD
27
F COMP

(+5 V)

A. VDD
(+5 V)

1

24

2
3

23

4
5

22

6
7

D3 IN 4
D4 IN 5

21 IO OUT

8

20 IO OUT

12
9

A. VDD

D5 IN 6

(+5 V)

A. VDD

D6 IN 7

(+5 V)

D7 IN 8

15

18

15 IREF IN

VB IN 11

A. GND 14

CK IN 12

B. GND 13

2

2

D2 3 - 5 3
–
D4

DECODER

D5 6 - 8 3
–
D7

DECODER

VREF

VB

9

16
15

20
21

D3
D4
D5
D6
D7

BLK
VREF
IREF
VB

VG
17

CK
; CLOCK INPUT
BLK
; BLANKING PULSE INPUT
D0 - 7 ; DIGITAL DATA INPUT
IO
; CURRENT OUTPUT
IO
; INVERT CURRENT OUTPUT
IREF ; CURRENT REFERENCE INPUT
VB, VG ; FOR CAPACITOR
VREF ; VOLTAGE REFERENCE INPUT

2

LATCHES

2

6MSB'S
CURRENT
CELLS

+

2LSB'S
CURRENT
CELLS

20
21

17

IO
IO

VG

–
CURRENT
CELLS
FOR FULL
SCALE

11

12

IO

D2

11

16 VREF IN

10 D. GND

BLK

IO

D1

17 VG OUT

BLK IN 9

D0 1
D1 2

16

19

D0

CLOCK
GENERATOR

31

CLP C1
18
SIG IN
16
BLK SHAD

G
BLKG

D. VDD

D2 IN 3

CK

19, 20
GS1,2
21
CLP PLS1
24
BLACK1
23
LPF C1

(+5 V)

D1 IN 2

IREF

; FOR CLAMP CAPACITANCE
; FLARE DETECT
; CONNECT CAPACITANCE FOR LPF
; SIGNAL OUTPUT

D. VDD

D0 IN 1

BLKG

WBAL
11

2dB

29

25
CLP C2
32
CLP PLS2
30
BLACK2

9

1/4 KNEE

FLR DET

LPF C2

KNEE PT

1/5 KNEE
10

KNEE SW

0dB

FB REF

4
4dB

DR

8
DR V DD
7
SIG OUT
6
DR V EE

0dB

OUT SW

BVP-550

1

6-7

IC

CXD2307R(SONY)FLAT PACKAGE

CXD2310R(SONY)
C-MOS 10-BIT 20MSPS VIDEO A/D CONVERTER

C-MOS 10-BIT 50MSPS RGB 3CHANNEL D/A CONVERTER

13
14
15
16
17

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

18

R9

VB

G1

23
24
25
26
27
28

G5

G7

32
33
37
38
39
40
41
42

G9

R6

R7
R8
R9

5

7
8

B4

G4
G5
G6

G7
G8
G9

14
15

RCK

ROG

17

GCK

18

ROB

B5
B6

B7
B8
B9

BLK

CE

25

IRR

VGR

IRG

VGG

IRB

VGB

28

29

(+5V)

(+5V)

AVDD 25

AVDD 26

AGND 27

VRT

44
46
48
29

VRR

30

VRG
VRB
BLK

39

CE

34

30

35

14
37

51
44

43
–

40

37

55

6LSB' S
CURRENT
CELLS

46

45
–

41

VRT

D9

VRT

D8

VIN

D7

VRB

D6

VRB

D5

CAL

D4

SEL

D3

RESET

D2

CE

D1

OE

D0

12
11
10
9
8
5
4
3
2
1

CLK

TIN

TO

TSTR

AT

13
38

TS

RO
RO
VGR
RCK
ROR
VRR

IRR

GO
GO
VGG
GCK

INPUT
CAL
CE
CLK
LINV
MINV
OE
RESET
SEL
TIN
TMOD
TS
TSTR
VRB
VRT

; CALIBRATION PULSE INPUT
; CHIP ENABLE
; CLOCK
; OUTPUT (D0-D8) INVERSION
; OUTPUT (D9) INVERSION
; DIGITAL DATA OUTPUT ENABLE
; CALIBRATION CIRCUIT RESET
; OUTPUT DATA (D5-D9) SELECT FOR CALIBRATION (4-CLOCK)
HIGH; THROUGH OUTPUT, LOW; DATA FIXED AS WITH D0-D4
; TEST SIGNAL INPUT
; TEST MODE
; TEST SIGNAL INPUT
; TEST SIGNAL INPUT
; REFERENCE BOTTOM VOLTAGE
; REFERENCE TOP VOLTAGE

OUTPUT
AT
; TEST SIGNAL OUTPUT
D0-D9
; DIGIRAL DATA OUTPUT
TO
; TEST PIN

ROG

CURRENT CELLS
(FOR FULL SCALE)

38

VRG

IRG

4LSB' S
CURRENT
CELLS
58

DECODER

LATCHES

59

6LSB' S
CURRENT
CELLS

48
33

CLOCK
GENERATOR

26
27

AGND 28

47

+

DECODER

23
24

COURSE CORRECTION
& LATCH

45

32

B0 19
(LSB)
20
B1
21
B2
22
B3

B4

FINE LATCH

BCK

6LSB' S
CURRENT
CELLS

CLOCK
GENERATOR

TO

43

54

16

13

B9

+

LATCHES

TIN

48 DGND

B8

4LSB' S
CURRENT
CELLS

DECODER

RESET

B7

CURRENT CELLS
(FOR FULL SCALE)

13

DGND 16

14

B6

31

G0 9
(LSB)
10
G1
11
G2
12
G3

SEL

15

B5

50

DECODER

17

B3

42

6

(+5V)

47 NC

B1
B2

AVDD 18

FINE
COMPARATE
& ENCODE

46 NC

4LSB' S
CURRENT
CELLS

CLOCK
GENERATOR

29

45 DVDD

B0

22

LATCHES

30

44 AGND

G8

23

DECODER

AMP.
(x 8)

G6

24

R5

VRT

43 AGND

ROR
31

NC 31

G4

5

22

DAC

4

— AVSS
RO
O
RO
O
— AVDD
— AVDD
GO
O
GO
O
— AVDD
— AVDD
O
BO
O
BO
— AVDD
— AVDD
— DVDD
I R0 (LSB)
I
R1

21

NC 32

TMOD

G3

15

4

NC 33

LINV

19

+ –

G2

17

3

VRB

20

TS 42

+

TIMING
GEN.

G0

41

R4

34

CAL 41

S/H
AMP.

40 NC

29

R0 63
(LSB)
64
R1
1
R2
2
R3

VRB

MINV

VIN 39

D4

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

CLK

21

35

D3

BCK
DVSS
VB
AVSS
IRR
IRG
IRB
VRR
VRG
VRB
ROR
VGR
ROG
VGG
ROB
VGB

BO

R8

3

I
—
O
—
I
I
I
I
I
I
I
I
I
I
I
I

R7

D2

33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48

OE

22

COURSE
CONPARATE
& ENCODE

2

I
G8
I
G9
I B0 (LSB)
I
B1
I
B2
I
B3
I
B4
I
B5
I
B6
I
B7
I
B8
I
B9
I
BLK
I
CE
I
RCK
I
GCK

CE

23

AT 38

1

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

24

58

D1

PIN
PIN
PIN
PIN
I/O SIGNAL
I/O SIGNAL
I/O SIGNAL
I/O SIGNAL
No.
No.
No.
No.
I
R2
I
R3
I
R4
I
R5
I
R6
I
R7
I
R8
I
R9
I G0 (LSB)
G1
I
G2
I
G3
I
G4
I
G5
I
G6
I
G7
I

TSTR 37
59

(+3V)

19
20

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

BO

D9 12

12

R6

D8 11

11

54

D7 10

9
10

55

CALIVBRATION
UNIT

8

GO

R5

9

7

GO

R4

8

6

R3

D6

5

50

R2

D5

4

51

DD
7 DV
(+3V)

A VDD (+7 V)
A VDD (+7 V)
D VDD (+7 V)

3

RO

6 DGND

A VDD (+7 V)
A VDD (+7 V)

2

RO

R1

D0

A VDD (+7 V)
A VDD (+7 V)

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

R0

(LSB)

A VSS (GND)

1

D VSS (GND)

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

A VSS (GND)

64

AGND 36

48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33

63

35

—TOP VIEW—

— TOP VIEW —

DECODER

47
–

42

BO
BO
VGB
BCK
ROB
VRB

+

CURRENT CELLS
(FOR FULL SCALE)

39

BIAS VOLTAGE
GENERATOR

35

IRB

VB

30

6-8

BVP-550

IC

CXK1203AR(SONY)FLAT PACKAGE

EL4581CS(ELT)FLAT PACKAGE

C-MOS DIGITAL LINE MEMORY

VIDEO SYNC SEPARATOR

—TOP VIEW—

36
35
34
33
32
31
30
29
28
27
26
25

— TOP VIEW —
1

NC
NC

3

24
23
22
21
20
19
18
17
16
15
14
13

VDD (+5V)
VDD (+5V)
NC
NC
NC
NC
NC

GND

37
38
39
40
41
42
43
44
45
46
47
48

GND

2

4
5
7
8
9
10
11

DOT0

D1

DOT1

D2

DOT2

D3

DOT3

D4

DOT4

D5

DOT5

D6

DOT6

D7

DOT7

D8

DOT8

D9

21

DOT9

VCC
(+5 V)

COMPOSITE
1
SYNC OUT

35
34
33
32
31

C

8

COMPOSITE
VIDEO

2

COMPOSITE 2
VIDEO IN

7 ODD/EVEN OUT

VERTICAL
SYNC OUT

3

6 RSET

4 GND

5 BURST/BACK

COMPOSITE 1
SYNC
VERTICAL 3
SYNC
ODD/EVEN

7

29
28

6

OUT

27

RSET

BURST/BACK

5

R

26

PSW0

20

TIMING CHART

PSW1

18

OEN

PSW2

17

25

COMPOSITE
VIDEO IN

PSW3

16
15

1
2
3
4
5
6
7
8
9
10
11
12

D0

36

14

PSW4

PSB0

PSW5

PSB1
PSB2

PSW6

13

24

COMPOSITE
SYNC OUT

23

VERTICAL
SYNC OUT

22

PSW7

BURST OUT

N/P

ODD/EVEN OUT

AEN

TINT

SCLK

42

41 12 39 40

(VDD = +5V)
PIN
PIN
PIN
PIN
NO. I/O SIGNAL NO. I/O SIGNAL NO. I/O SIGNAL NO. I/O SIGNAL
1
2
3
4
5
6
7
8
9
10
11
12

I
I
I
I
I
—
I
I
I
I
I
I

D0
D1
D2
D3
D4
GND
D5
D6
D7
D8
D9
TINT

13
14
15
16
17
18
19
20
21
22
23
24

I
I
I
I
I
I
—
I
I
I
I
I

PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
VDD
PSW1
PSW0
PSB2
PSB1
PSB0

25
26
27
28
29
30
31
32
33
34
35
36

I
O
O
O
O
—
O
O
O
O
O
O

OEN
DOT9
DOT8
DOT7
DOT6
GND
DOT5
DOT4
DOT3
DOT2
DOT1
DOT0

37
38
39
40
41
42
43
44
45
46
47
48

—
—
I
I
I
I
—
—
—
—
—
—

N.C
N.C
AEN
N/P
SCLK
CLK
VDD
N.C
N.C
N.C
N.C
N.C

HA11423MP(HITACHI)FLAT PACKAGE
TV H/V SYNC SIGNAL PROCESSOR
-TOP VIEWFIN
2

1

18

17

3

16
VCC
(+12V)

4

14

6

13

7
AEN
CLK
DIN0-DIN9
DOT0-DOT9
N/P
OEN
PSB0-PSB2
PSW0-PSW7
SCLK
TINT

;
;
;
;
;
;
;
;
;
;

LINE MEMORY SELECT
CLOCK
VIDEO DATA INPUT
VIDEO DATA OUTPUT
NTSC/PAL/SECAM SELECT
OUTPUT ENABLE
DELAY STEP SELECT (1 BITxN)
DELAY STEP SELECT (8 BITxN)
CLOCK EDGE SELECT
TEST

15

VCC
5 (+12V)

12
8

GND
9

10

11

FIN

VBS
VIDEO
IN

11

FBP
IN

12

SYNC
SEP

8

SYNC OUT

AFC
GATE

13

BUFF

DIN9

1 LINE MEMORY
(1138 x 10bit)

SMALL DELAY
CONTROLLER

BUFF

14

H
OSC

17

X-RAY
TRIGG

7

V
TRIGG

DOT0

—

—

DIN0

H
SIZE

26-29
31-36

1-5
7-11

DOT9

22-24

OEN
PSB0

—

25

PSB2

ADDRESS
COUNTER

PSW7

N/P

V
SIZE

4

V
OSC

16

V
BLKG

18

V
DRIVER

1

H DEF OUT

V BLKG OUT

V DEF OUT

CLK

41
SCLK
12

ADDRESS
MULTIPLEXER

—

PSW0

13-18
20, 21

TIMING
CONTROLLER

42

H
DRIVER

+

3

TINT

40
39

AEN

BVP-550

6-9

IC

HD14053BFP(HITACHI)FLAT PACKAGE
C-MOS TRIPLE 2-CHANNEL ANALOG MULTIPLEXERS/DEMULTIPLEXERS
— TOP VIEW —

VDD
(+3 V to +18 V)

X1 IN/OUT 1

16

X0 IN/OUT 2

15 XC

IN/OUT

Y1 IN/OUT 3

14 ZC

IN/OUT

YC IN/OUT 4

13 Z1

Y0 IN/OUT 5
EN IN 6

2

X0

1

X1

XC 15

OPEN
10 AX
5

Y0

3

Y1

IN/OUT

9

OPEN
AY

YC 4

12 Z0

IN/OUT

12 Z0

11 AZ

IN/OUT

OPEN
11 AZ

10 AX

IN/OUT

EN

VEE

6

7

13 Z1

7 VEE *

9 AY

8 GND

ZC 14

IN/OUT

CONT. INPUTS
ON
EN A (X, Y, Z) CHANNEL
0
0
0
1
1
0
OPEN
X
1

VEE * ; VDD – VEE + 3 V + 18 V
0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

HD151015T(HITACHI)FLAT PACKAGE
C-MOS 9-BIT LEVEL SHIFTER/TRANSCEIVER WITH 3-STATE OUTPUTS
— TOP VIEW —

1 VDDA

(+2 V to +6 V)

VDDB
(+2 V to +6 V)

DIR IN 2

24
23 EN

IN

3

22

4

21

5

20

6

19

7

A0 3

22 B0

18
A

8

B

17

9

A1 4

21 B1

16

10

15

11

A2 5

20 B2

A3 6

19 B3

A4 7

18 B4

A5 8

17 B5

A6 9

16 B6

A7 10

15 B7

A8 11

14 B8

12 GND

14
DIR

EN

2

23

EN
0
0
1

DIR OPERATION
0
B to A
1
A to B
X
HI-Z

0
1
X
HI-Z

GND 13

;
;
;
;

LOW LEVEL
HIGH LEVEL
DON'T CARE
HIGH IMPEDANCE

A0

A1

A2

A3

A4

A5

A6

3

4

5

6

7

8

9

A7

A8

10

11

23
EN
2
DIR

22

B0

6-10

21

B1

20

B2

19

B3

18

B4

17

B5

16

B6

15

B7

14

B8

BVP-550

IC

HD6475328F10(HITACHI)
C-MOS 16-BIT MICROPROCESSOR

9

RAM
1 k BYTE

13

BVP-550

P30/D0

P32/D2

P33/D3

P34/D4

P35/D5

P36/D6

P37/D7

P31/D1
13

14

15

16

17

18

19

PORT 6

31
30

43
P70/TMC1

44
P71/FT11

P72/FT12

45

46
P73/FT13/TMR1

47
P74/FTOB1/FTC11

P75/FTOB2/FTC12

48

49
P77/FTOA1

P76/FTOB3/FTC13

50

53

54

52
P80/AN0

38

PORT 7

P81/AN1

39

PORT 8
55

40

56

PORT 9

41

P70/TMCI

P71/FTI1

P72/FTI2

P60/A16

32

43

44

45

P73/FTI3TMRI
46

P75/FTOB2/FTCI2

P76/FTOB3/FTCI3

P74/FTOB1/FTCI1
47

48

49

P77/FTOA1
50

P81/AN1

P82/AN2

P80/AN0
52

53

54

P84/AN4

P85/AN5

P83/AN3
55

56

57

P87/AN7

P86/AN6
58

59

P90/FTOA2
61

P92/PW1

P93/PW2

P94/PW3

P91/FTOA3
62

63

64

65

P95/TXD

P96/RXD

66

67

68

P97/SCK

P60/A16

P61/A17

33

P82/AN2

P61/A17

38

P83/AN3

P62/A18

P62/A18

34

57

P63/A19

P63/A19
40
39

61

P50/A8

41

35

P91/FTOA3

P51/A9
NMI

36

62

P53/A11

37

63

MD2

P52/A10
11

21

P92/PW1

P54/A12

WATCHDOG
TIMER

22

64

MD1

10-BIT
A/D CONVERTER

23

P93/PW2

P55/A13

16-BIT FREE
RUNNING TIMER
(x3 CHANNEL)

24

P94/PW3

8

P50/A8

65

7

MD0

P52/A10

PWM TIMER
(x3 CHANNEL)

25

P95/TXD

6

P53/A11
32
P51/A9

66

P56/A14

P54/A12
33

30

STBY
P57/A15

34

26

P84/AN4

P40/A0

RES

8-BIT
TIMER

27

67

9

37

31

68

10

P40/A0

P56/A14

58

P41/A1

P41/A1

P57/A15

P85/AN5

P42/A2

P42/A2
21

36

P86/AN6

P43/A3

28

P87/AN7

XTAL

P43/A3
23

P55/A13

59

P44/A4

P44/A4
24

22

CPU

SERIAL
COMMUNICATION
INTERFACE

P97/SCK

70

EXTAL

25

35

P96/RXD

69

P45/A5

11

P90/FTOA2

14

15

16

17

18

19

20

P45/A5

P20/AS

INTERRUPT
CONTROLLER

P30/D0

P31/D1

P32/D2

P33/D3

P34/D4

P35/D5

P36/D6

P37/D7

1

2

3

4

80
P20/AS

P21/R/W

P22/DS

P23/RD

P24/WR

73

74

72
P10/Ø

P11/E

P12/BACK

P13/BREQ

75

77

78

79

76
P14/WAIT

P15/IRQ0

P16/IRQ1

P17/TMO

P46/A6

20

MASK ROM
32 k BYTE

P46/A6
26

PORT 4

WAIT
STATE
CONTROLLER

DATA
TRANSFER
CONTROLLER

P47/A7

P21/R/W

P22/DS

P23/RO

P47/A7
27

10

6
MD0
7
MD1
8
MD2

NMI

80

1

P24/WR

28

PORT 5

STBY

CLOCK
OSC

ADDRESS BUS

RES

69
70

PORT 3

DATA BUS (HIGH ORDER)

XTAL

PORT 2

DATA BUS (LOW ORDER)

EXTAL

2

4

PORT 1

3

P10/ø

P11/E

P12/BACK

P83/AN3
P84/AN4
P85/AN5
P86/AN6
P87/AN7
AVDD
P90/FTOA2
P91/FTOA3
P92/PW1
P93/PW2
P94/PW3
P95/TXD
P96/RXD
P97/SCK
EXTAL
XTAL
VSS
P10/ø
P11/E
P12/BACK
P12/BREQ
P12/WAIT
P12/IRQ0
P12/IRQ1
P12/TMO
P12/AS

72

SIGNAL

I/O
I/O
I/O
I/O
I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I
I
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O

P13/BREQ

I/O

55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80

73

P47/A7
GND
P50/A8
P51/A9
P52/A10
P53/A11
P54/A12
P55/A13
P56/A14
P57/A15
P60/A16
P61/A17
P62/A18
P63/A19
VDD
P70/TMCI
P71/FTI1
P72/FTI2
P73/FTI3/TMRI
P74/FTOB1/FTCI1
P75/FTOB2/FTCI2
P76/FTOB3/FTCI3
P77/FTOA1
AGND
P80/AN0
P81/AN1
P82/AN2

P14/WAIT

SIGNAL

I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
O
—
I/O
I/O
I/O

74

I/O

28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54

P15/IRQ0

SIGNAL
P21/R/W
P22/DS
P23/RD
P24/WR
VDD
MD0
MD1
MD2
STBY
RES
NMI
GND
P30/D0
P31/D1
P32/D2
P33/D3
P34/D4
P35/D5
P36/D6
P37/D7
P40/A0
P41/A1
P42/A2
P43/A3
P44/A4
P45/A5
P46/A6

INPUT/OUTPUT
D0-D7
; DATA BUS
P10-P17
; PORT 1
P20-P24
; PORT 2
P30-P37
; PORT 3
P40-P47
; PORT 4
P50-P57
; PORT 5
P60-P63
; PORT 6
P70-P77
; PORT 7
P90-P97
; PORT 9
SCK
; SERIAL CLOCK INPUT/OUTPUT

75

I/O
I/O
I/O
I/O
—
I
I
I
I
I
I
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O

PIN
No.

P16/IRQ1

I/O

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27

PIN
No.

; ADDRESS BUS
; ADDRESS STROBE
; BUS REQUEST ACKNOWLEDGE
; DATA STROBE
; ENABLE CLOCK
; FRT OUTPUT COMPARE A OUTPUT (CHANNEL 1 TO 3)
; FRT OUTPUT COMPARE B OUTPUT (CHANNEL 1 TO 3)
; PWM TIMER OUTPUT (CHANNEL 1 TO 3)
; READ/WRITE
; READ
; 8-BIT TIMER OUTPUT
; SEND DATA
; WRITE
; SYSTEM CLOCK

76

PIN
No.

OUTPUT
A0-A19
AS
BACK
DS
E
FTOA1-FTOA3
FTOB1-FTOB3
PW1-PW3
R/W
RD
TMO
TXD
WR
ø

P17/TMO

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND

VDD (+5 V)

GND

77

GND

; ANALOG INPUT
; BUS REQUEST
; CONNECTED TO CRYSTAL OSCILLATOR.
; FRT COUNTER CLOCK INPUT (CHANNEL 1 TO 3)
; FRT INPUT CAPTURE INPUT (CHANNEL 1 TO 3)
; INTERRUPTION REQUEST 0 AND 1
; MODE SETTING
; NON MASKABLE INTERRUPTION
; PORT 8
; RESET
; RECEIVE DATA
; STANDBY
; 8-BIT TIMER CLOCK INPUT
; 8-BIT TIMER COUNTER RESET INPUT
; WAIT
; CONNECTED TO CRYSTAL OSCILLATOR.

79

40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21

INPUT
AN0-AN7
BREQ
EXTAL
ETCI1-FTCI3
FTI1-FTI3
IRQ0, 1
MD0-MD2
NMI
P80-P87
RES
RXD
STBY
TMCI
TMRI
WAIT
XTAL

78

VDD (+5 V)

61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80

AGND

AVDD (+5 V)

60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41

— TOP VIEW —

6-11

IC

LM393PS(TI)FLAT PACKAGE
UPC393G2(NEC)FLAT PACKAGE

LA1140(SANYO)
IF AMP, LIMITTER, DETECTOR, MUTING, + FM CS

DUAL VOLTAGE COMPARATORS

— PRINTED SIDE VIEW —

—TOP VIEW—
8

7

VCC
(+2 to +36V)

6

5

+

–

VDD
(+8 V)

VCC

+
12

IF OUT

12

13

14

15

16

AGC

11

S-MUTER

10

V RET

9

MUTE
DRIVE

8

QUAD IN

7

IF OUT

6

AFC

4

AF OUT

GND
5

MUTE IN

3

IF IN

2

MUTE ATT
ADJ

GND
1

QUAD IN

9

11

IF IN

1st

2nd

3rd

4th

5th

6th

3

GND
4

13

AFC
CLAMP

QUADRATURE
LIMITER

2

V RET

VOLTAGE
REGULATOR

1

–

1

QUADRATURE
DET

7

8

AFC

AF OUT

LM4040BIM3X(NS)
PRECISION MICROPOWER SHUNT VOLTAGE REFERENCE
— TOP VIEW —

LEVEL
DEL

LEVEL
DEL

LEVEL
DEL

SIGNAL
LEVEL
INDICATE

AGC
DRIVE

16

15

AGC

S-METER

INVERTER

HOLE
DET

DC
LEVEL
DET

AF
MUTE
AMP

1
NC

5

MUTE
ATT
ADJ.

2

3

MUTE
DRIVE

14
MUTE DRIVE

6
MUTE IN

M27V201-200L6(SGS)CHIP CARRIER
C-MOS 2M (256×8) -BIT UV ERASABLE PROM AND OTP ROM

14

13

GND
12

A7 IN
11

10

+
–

9

8

A5 IN

+
–

A4 IN

+
–

2

3
VCC

6

30 A17 IN

31 P IN

32

12
11
10
9

29 A14 IN

8
7

28 A13 IN

6
5

7

27 A8 IN

27
26

+
–
1

A6 IN

5

VDD
(+3.2 V to +5.5 V)

2 A16 IN

—TOP VIEW—

VPP 1

QUAD COMPARATORS

3 A15 IN

— TOP VIEW —
4 A12 IN

LM339NS(TI)FLAT PACKAGE
LM339PW(TI)FLAT PACKAGE–

8

26 A9 IN

23
25

A3 IN
4

5

6

7

9

25 A11 IN

4
28

A2 IN 10

24 G IN

A1 IN 11

23 A10 IN

29
3

(+5V)

2
30

22 E IN

DUAL OPERATIONAL AMPLIFIERS
— TOP VIEW —
VCC
(+3 V to +30 V)

1
2
3
4 GND

8
7

– +

+ –

6
5

A0 - A17
Q0 - Q7
E
G
P
VPP

6-12

Q1

A2

Q2

A3

Q3

A4

Q4

A5

Q5

A6

Q6

A7

Q7

14
15
17
18
19
20
21

A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
G
22

24

P
31

Q6 OUT 20

Q5 OUT 19

Q4 OUT 18

13

; ADDRESS INPUTS
; DATA OUTPUTS
; CHIP ENABLE INPUT
; OUTPUT ENABLE INPUT
; PROGRAM INPUT
; PROGRAM SUPPLY (12.75 V)

MODE
READ
OUTPUT DISABLE
PROGRAM
VERIFY
PROGRAM INHIBIT
STANDBY
ELECTRONIC SIGNATURE
0
1
X
VID
HI-Z

Q0

A1

E

21 Q7 OUT
Q3 OUT 17

LM358PS(TI)FLAT PACKAGE
UPC358G2(NEC)FLAT PACKAGE

Q2 OUT 15

Q1 OUT 14

Q0 OUT 13

16 GND

A0 IN 12

A0

E
0
0
0
0
1
1
0

G
0
1
1
0
X
X
0

E
X
X
1
X
X
1

E
X
X
X
X
X
X
VID

E
X
X
VPP
VPP
VPP
X
VDD

Q0 -Q7
DATA OUT
HI-Z
DATA IN
DATA OUT
HI-Z
HI-Z
CODES

; INPUT LOW VOLTAGE
; INPUT HIGH VOLTAGE
; DON'T CARE
; 12 V ± 0.5 V
; HIGH IMPEDANCE

BVP-550

IC

M51132FP(MITSUBISHI)FLAT PACKAGE

M52313SP(MITSUBISHI)

2-CHANNEL ELECTRONIC LEVEL CONTROL

PLL VIF/SIF

—TOP VIEW—

— TOP VIEW —
15

VREF OUT 1

16 OUT1

11

IN1

OUT1

IN2

OUT2

16

19

10

AFT COIL 1

20 EQ OUT

EQ

EQ

12

FILTER 2

15 IN1

5
7

3 NC

VCC (+12V) 14

4 GND
LEVEL/LEVEL1 5

9

NC 13

2

NC 12

6
8

REDUCE 6

11 IN 2

BAL/LEVEL2 7

10 OUT 2

PASS/VCA 8

Vcc

VREF OUT

FILTER

GND

LEVEL/LEVEL1
BAL/LEVEL2

9

MODE
SEL

AFT OUT 2

LEVEL/LEVEL1
BAL/LEVEL2

OUT

FILTER

1

REDUCE

MODE SEL

18

VCC
(+5 V)

VIF IN 5

16

PASS/VCA

BAL/LEVEL2 ; BALANCE/LEVEL2 CONTROL
; FILTER
FILTER
; INPUT 1
IN1
; INPUT 2
IN2
; MODE SELECT
MODE SEL
; OUTPUT 1
OUT1
; OUTPUT 2
OUT2
; PASS/VCA CONTROL SWITCH
PASS/VCA
; SWITCHING NOISE REDUCE
REDUCE
LEVEL/LEVEL1 ; LEVEL/LEVEL1 CONTROL
; REFERENCE VOLTAGE OUTPUT
V REF OUT

VCA1

7 GND

14 VCO COIL

15

2

VIDEO
OUT
17

EQ IN
19

VIDEO
AMP

VCO
COIL
15

VIDEO
DET

IN1

CONTROL
VOLTAGE
GENERATOR

7

6

SIF IN
12

APC
FILTER IN
11

VCO

APC

LIM

IF
AGC

IF AMP

LOCK
DET

FM
DET

INPUT
BUFFER 2
11

CONTROL MODE
SELECT
PASS/VCA
SELECT

8
9

VCO
COIL
14

AFT

RF
AGC

5

2

OUT1

INPUT
BUFFER 1

4

AFT

3

11 APC FILTER

OUT

EQ
AMP
16

RF AGC

17

12 SIF IN

AUDIO 10

EQ OUT
20

VIDEO

10

VCC 13
(+5 V)

FM DET
9
COIL

OUTPUT
BUFFER 1

REG

15 VCO COIL

RF AGC
8
DELAY

AUDIO

11 APC
FILTER
14
VCO COIL
15
VCO COIL
4 IF AGC
FILTER
8 REF AGC
DELAY
6
VIF
5
VIF
1 AFT
COIL

17 VIDEO OUT

VREF OUT
REDUCE

10

PASS/VCA

IF AGC
4
FILTER

VIF IN 6

14

1

VCC
(+5 V)

RF AGC 3

MODE SEL

SIF
9 FM DET
COIL

19 EQ IN

20

VCA2

1

IN2

OUT2

2

AFT COIL
IN

AFT
OUT

3

4

RF AGC
OUT

IF AGC
FILTER IN

5
VIF IN

6

8

VIF IN

9

10

RF AGC FM DET AUDIO
DELAY
COIL
OUT

OUTPUT
BUFFER 2

M62021FP(MITSUBISHI)FLAT PACKAGE
SELECTION SW BUILT-IN SYSTEM RESET

M51958A(MITSUBISHI)FLAT PACKAGE

— TOP VIEW —

VOLTAGE DETECT DELAY

3

— TOP VIEW —

1

V OUT 1

8 CS

2

V BAT 2

7 RES

4

NC 8

NC

V IN 3 +5V

VCC

IN 2

V

V

1

V BAT
CS
RES

CT

RES

GND 6

8
7
5

(+2 V to +17 V) 7

CT 4

3 NC

6 OUT

4 GND

5 CD

5 RES
; CHIP SELECT OUTPUT
CS
CT
; DELAY CAPACITY INPUT
RES ; RESET OUTPUT
VBAT ; VIDEO SIGNAL BACKUP INPUT
VIN ; VIDEO SIGNAL INPUT
VOUT ; VIDEO SIGNAL OUTPUT
SW

VCC

5 µA

V IN

3

1

OUT
R1

2.5 µA

Com

2

–

+
–

R2

1.24 V

+
1.25 V
RES

5
CD

BVP-550

+

RES

7
5

2

8

DELAY
CAPACITY
CIRCUIT

IN

V OUT

D1

RESET
CIRCUIT

6

4

V BAT

CS

CT

6-13

IC

M62352GP(MITSUBISHI)FLAT PACKAGE

MAX202CSE(MAXIM)
RS-232 TRANSMITTER/RECEIVER

C-MOS 8-BITx12 CHANNEL D/A CONVERTER
(WITH BUFFER OPERATIONAL AMPLIFIER)

— TOP VIEW —

— TOP VIEW —

1 VSS

GND 20

17

AO3 2

19 AO2

AO4 3

18 AO1

AO5 4

17 DI

AO6 5

16 CK

DI

LD

AO1
AO2
AO3
AO4
AO5
AO6
AO7
AO8
AO9

AO7 6

AO10

15 LD

AO11
AO12

AO8 7

14 DO

AO9 8

13 AO12

AO10 9

12 AO11

16

VCC
(+5 V)

10 VDD

VCC
(+5 V)

C1 + 1

15

DO

1

16

4

18

V+ 2

19
2
3

GND 15

5

C1 – 3

14 T1 OUT

C2 + 4

13 R1 IN

11
10

4
5

13

6

C2 – 5

7
8

V– 6

11 T1 IN

T2 OUT 7

10 T2 IN

9
11
12

12 R1 OUT

R2 IN 8

14

8

C1+

C2+

6

V–

C2–

T1

T1

T2

T2

R1

R1

R2

R2

14
7

12
9

R1, 2 ; RECEIVER 1, 2
T1, 2 ; TRANSMITTER 1, 2

+5 V
0.1 µF INPUT
+

0.1 µF
6.3 V
+

16
1
+

11

0.1 µF

3
+

4

; 8-BIT D/A OUTPUTS
; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT

5

+5 V to +10 V
VOLTAGE DOUBLER

2 +10 V

+10 V to –10 V
VOLTAGE INVERTER

–10 V
6
0.1 µF
+ 16 V

+5 V
400 K

11

14

T1
+5 V

TTL/CMOS
INPUTS

NOTE:
3.5 V < VDD < VCC
–3.5 V < VSS < VCC

10

RS-232
OUTPUTS

400 K

7

T2

12

13

R1
5K

TTL/CMOS
OUTPUTS
9

DI 17
CK 16

2

V+

C1–

9 R2 OUT

0.1 µF

AO1-AO12
CK
DI
DO

3

14

12-BIT SHIFT RESISTOR

RS-232
INPUTS
8

R2
5K

DO
15

LD 15

ADDRESS
DECODER

8

CH1

8

8-BIT
LATCH

12

8-BIT
D/A CONVERTER

+
–

18

AO1

MB88346BPFV(FUJITSU)FLAT PACKAGE(SMALL)
CH2

19

CH3

2

CH4

3

AO2

C-MOS 8-BIT D/A CONVERTER
— TOP VIEW —

AO3

1 GND

CH5

CH6

CH7

CH8

CH9

4

5

6

7

8

AO4

AO3 OUT 2

19 AO2 OUT

AO4 OUT 3

18 AO1 OUT

AO5 OUT 4

17 DI IN

AO6 OUT 5

16 CK IN

9

CH11

12

CH12

13

AO2
AO3
AO4
AO5
17

AO5

AO6

AO7 OUT 6

15 LD IN

AO8 OUT 7

14 DO OUT

AO9 OUT 8

13 AO12 OUT

AO6

D1

AO7
AO8
AO9
AO10
AO11
AO12

AO7

DO

LD

AO8

18
19
2
3
4
5
6
7
8
9
12
13

16

AO10 OUT 9

14

15

12 AO11 OUT

AO9

VCC

VDD
10 (+5
V)

CH10

AO1

GND 20

(+5 V)

11

AO10

AO11

AO1 - AO12
CK
DI
DO
LD

; 8-BIT D/A OUTPUTS
; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT
; DATA LOAD CONTROL INPUT (H ; LOAD)

AO12

D0

8

8

8-BIT
LATCH

8

8-BIT
LATCH

8

D1

8-BIT
R-2R
D/A CONV

+
–

13

8-BIT
R-2R
D/A CONV

+
–

18

AO12

D2

CK

16

D3

12-BIT
SHIFT REGISTER

DI

17

D4
D5
8

D6
D7

AO1

D8
D9
D10

ADDRESS 12
DECODER

D11
14

LD

6-14

DO

15

BVP-550

IC

MB88351PFV(FUJITSU)FLAT PACKAGE

MC14018BF(MOTOROL)FLAT PACKAGE

C-MOS 12-BIT D/A CONVERTER WITH OPERATIONAL AMPLIFIER

C-MOS PRESETTABLE DIVIDE-BY-N COUNTER

— TOP VIEW —

— TOP VIEW —

1 GND

AO1

GND 20

2 NC

17

AO2
AO3

NC 19

3 NC

DI

16

AO4

14

4

FB (FEEDBACK) IN 1

5

16

6
7

(+3 V to +12 V) 15 RD (RESET DIRECT) IN

NC 18
LD

DO

14 CK (CLOCK) IN

16 CLK IN

QA OUT 5

12 E IN

AO3 OUT 6

15 LD IN

QC OUT 6

11 QD OUT

AO4 OUT 7

14 DO OUT

AO2 OUT 5

7

14

13 QE OUT

17 DI IN

PE

9

QB OUT 4

AO1 OUT 4

FB

2
3

B IN 3
15

1
10

VDD

A IN 2

12

A

QA

B

QB

C

QC

D

QD

E

QE

5
4
6
11
13

RD

8 NC

NC 13

9 NC

NC 12

C IN 7

15

10 PE (PRESET ENABLE) IN

8 GND

9 D IN

10 VDD (+3 V) VDD (+5 V) 11

INPUT
CLK
DI
LD

; SHIFT CLOCK
; SERIAL DATA
; DECODER AND D/A REGISTER TO LOAD

OUTPUT
AO1-AO4
DO

; ANALOG DATA
; MBS BIT DATA IN 15-BIT SHIFT REGISTER

D12
0
0
0
0
1
1
1
1

D13
0
0
1
1
0
0
1
1

D14
0
1
0
1
0
1
0
1

ADDRESS SELECT
DON'T CARE
AO1 SELECT
AO2 SELECT
AO3 SELECT
AO4 SELECT
DON'T CARE
DON'T CARE
DON'T CARE

CONNECT TO FB
INPUT
QE
QD, QE
QD
QC, QD
QC
QB, QC
QB
QA, QB
QA

DIVIDE
BY
10
9
8
7
6
5
4
3
2

VIA

RESULTS FROM EACH Q OUTPUT

DIRECT
AND GATE
DIRECT
AND GATE
DIRECT
AND GATE
DIRECT
AND GATE
DIRECT

5 COUNTS
5 COUNTS
4 COUNTS
4 COUNTS
3 COUNTS
3 COUNTS
2 COUNTS
2 COUNTS
1 COUNTS

HIGH, 5 COUNTS
HIGH, 4 COUNTS
HIGH, 4 COUNTS
HIGH, 3 COUNTS
HIGH, 3 COUNTS
HIGH, 2 COUNTS
HIGH, 2 COUNTS
HIGH, 1 COUNTS
HIGH, 1 COUNTS

LOW
LOW
LOW
LOW
LOW
LOW
LOW
LOW
LOW

MC14020BF(MOTOROLA)FLAT PACKAGE

0 ; LOW LEVEL
1 ; HIGH LEVEL

C-MOS 14-STAG RIPPLE-CARRY BINARY COUNTER/DRIVER
—TOP VIEW—

Q11
1CH
12

D12

12

—

12-BIT
LATCH

D14

12-BIT R-2R
D/A
CONVERTER

AMP

4

OUT

OUT

AO2

Q5

OUT

4

13 Q7

OUT

6

4CH

AO3

Q4

OUT

5

12 Q8

OUT

12

12-BIT
LATCH

12-BIT R-2R
D/A
CONVERTER

AMP

7

AO4

Q3

14
15
1

Q11

IN

9 Q0

8 GND

2
3

Q13

IN

11

*

VDD
+2 to +6V

TYPE
HC4020
14020, 4020, 84020

OUT

4

+3 to +18V

DO

J
CK

•••

•••

•••

•••

•••

•••

•••

•••

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

0
1
0
1

H
J

Q

Q13-Q0
ALL LOW
COUNT

RD
1
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

Q12

Q3
H

H
J

Q

7
J

Q

H

2
J

Q

H

3
J

Q

Q

Q13

10
K RD

K RD

RD

Q0
0
1
0
1
0

1
1
1
1

Q0
9

Q3
0
0
0
0
0

1
1
1
1

IN HEXADECIMAL
IN DECIMAL

H

Q4
0
0
0
0
0

•••

0000
0001
0002
0003
0004

OUTPUTS
Q7 Q6 Q5
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0

•••

0
1
2
3
4

BINARY
Q13 Q12 Q11 Q10 Q9 Q8
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0

•••

COUNT

16380 4FFC
16381 4FFD
16382 4FFE
16383 4FFF

BVP-550

12

Q9

Q12

10 CK

7

OUT

ADDRESS 2
3
DECODER
14

15

13

Q8

•••

—

D14

6

Q7

Q10

11 RD

6

OUT

4

RD

1
3

Q6

•••

16

15-BIT
SHIFT
REGISTER

5

Q5
Q6

14 Q9

3

7

Q4

17

D12

LD

Q13

OUT

15 Q10

2

•••

CLK

OUT

Q3

10
5

DI

AO1

Q12

9

Q0

*VDD 16

1

OUT

H
11

H

K RD
H

K RD
H

K
H

K RD
H

6-15

IC

MN6790S(MATSUSHITA)

MC14023BF(MOTOROLA)FLAT PACKAGE
C-MOS 3-INPUT NAND GATE

C-MOS CLOCK GENERATOR

— TOP VIEW —
14
VDD

13

12

— TOP VIEW —
11

10

9

A
B
C

8

+3 V to
+18 V

=

Y

Y

4

1 D. GND

Y=A•B•C = A+B+C
A
X
X
0
1

GND
1

A
B
C

2

3

4

5

6

7

B
X
0
X
1

C
0
X
X
1

A. VDD
(+4.5 V to +5.5 V)

PC OUT 2

Y
1
1
1
0

3 D. VDD

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

10 TEST1 IN

DIV OUT 6

9 MOD1 IN

1

3

4

5

6

4
PHASE
COMPARATOR

5

11

VCO

TEST2 OUT

1
Y =

2

A
B

Y

DIV OUT

6

1
684,858,864

8

Y=A•B=A+B

CK OUT

Y
1
1
1
0

MOD1

MOD2

0
1
0
1

0
0
1
1

A
0
0
1
1

GND
7

B
0
1
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL

NOTE:
TYPE
TC74AC00 TYPE
TC74VHC00
MC74HCT00N
74ACT00 TYPE
OTHER TYPES

6

VCO1
IN
14

8
A
B

2

11

8 CK OUT

PC
OUT
2

PC2 IN

9

TEST2

8

11 TEST2 OUT

PC1 IN

10

VCO1

DIV

PC2 IN 5

—TOP VIEW—
11

14

PC1 IN 4

C-MOS QUAD 2-INPUT NAND GATES
12

13

2

PC2

(+4.5 V to +5.5 V)

MC74HC00AF(MOTOROLA)FLAT PACKAGE
TC74HC00AF(TOSHIBA)FLAT PACKAGE
TC74VHC00FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

13

5

A. GND 12

MOD2 IN 7

14
VDD

PC

PC1

14 VCO1 IN

VDD
+2 to +5.5V
+5V

FREQUENCY
RATIO
1/684
1/858
1/864

VCO

MOTE

OSCILLATION
STANDSTILL

CK = DIV = L

0 ; LOW LEVEL
1 ; HIGH LEVEL

+4.5 to +5.5V
+2 to +6V

MC74HC4053F(MOTOROLA)FLAT PACKAGE
TC74HC4053AFS(TOSHIBA)FLAT PACKAGE
C-MOS TRIPLE 2-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER
— TOP VIEW —
VDD
(+2 V to +6 V)

Y1 IN/OUT 1

12 X0

16

13 X1

X 14

OPEN
11 A

Y0 IN/OUT 2

15 Y IN/OUT

Z1 IN/OUT 3

14 X IN/OUT

Z IN/OUT 4

13 X1 IN/OUT

Z0 IN/OUT 5

12 X0 IN/OUT

3 Z1

11 A IN

9

2 Y0
1 Y1

Y 15

OPEN
10 B
5 Z0

EN IN 6
7 VEE *

10 B IN

8 GND

9 C IN

Z

4

OPEN
C
EN

VEE

6

7

VEE*; VDD – VEE = +3 V to +12 V
< GND
VEE =

CONTROL INPUTS
SELECT
C
B
A
0
0
0
0
0
0
1
0
0
1
0
0
0
1
1
0
1
0
0
0
1
0
1
0
1
1
0
0
1
1
1
0
X
X
X
1

EN

6-16

ON CHANNEL
Z0
Z0
Z0
Z0
Z1
Z1
Z1
Z1

Y0
Y0
Y1
Y1
Y0
Y0
Y1
Y1
OPEN

X0
X1
X0
X1
X0
X1
X0
X1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

BVP-550

IC

PA2

PA3

PA4

PA5

PA6

PA7

WR

44

43

42

41

40

39 38
NC

37

36

35

34

2 GND

32 D0

A1 3

31 D1

PC7 5

29 D3

PC6 6

28 D4

4

27 D5

3

PC4 8

26 D6

PC0 9

25 D7
VDD
(+3 V to +6 V)

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

SIGNAL

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

—
—
—
I
I
I
I
—
—
I
—
I
I
O
I
I

GND
GND
VRB
TEST0
Y
RY
BY
VDD
VRT
TEST1
VDD
IREF
VREF
Y
COMP
VIB

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

O
O
—
I
I
O
I
I
I
I
O
I
—
I
—
O

RY
BY
GND
RST
SCL
SDA
VPD
VCD
CKCNT
CVC
CPC
HC
GND
IREFVC
VDD
CLAMP

33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48

O
I
O
I
—
—
O
O
O
O
O
O
O
O
O
O

YS
HP
PPC
PVC
VDD
GND
A0
A1
A2
A3
A4
A5
A6
A7
A8
CAS

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

O
O
O
O
I
I
I
—
—
I
I
I
I/O
I/O
I/O
I/O

RAS
WE
DT
SC
LEV1
LEV0
DI3
VDD
GND
DI2
DI1
DI0
DO3
DO2
DO1
DO0

3

VREF 13
IN
12
IREF
IN

+
–

STORE
BUFFER
MEMORY

READ
BUFFER
MEMORY

DEMULTIPLEXER
ELECTRIC
CURRENT

FRAME
COMPOSITE
FRAME COLOR
LEVEL

COMP 15
IN 16
VIB IN

50
49
48
47
46
45
44
43
42
41
40
39

DA
CONVERTER

7

17

DA
CONVERTER

6
I2C
CONTROL

SAMPLING
CLOCK
GENERATOR

PB2

PB1

D3

PA3

D4

PA4

D5

PA5

D6

PA6

D7

PA7

PB0
PB1
A0

PB2

A1

PB3
PB4
PB5
PB6
PB7

24

PC0

19

20

21

PC1

22

PC2
44
34

RD

PC3

WR

PC4

WR
1
1
1
1
0
0
0
0
X

RD
0
0
0
0
1
1
1
1
X

OPERATION
PORT A
DATA BUS
PORT B
DATA BUS
PORT C
DATA BUS
NO OPERATION
DATA BUS
PORT A
DATA BUS
PORT B
DATA BUS
PORT C
DATA BUS
CONTROL REGISTER
HIGH IMPEDANCE

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

A0, A1
CS
D0 to 7
PA0 to 7
PB0 to 7
PC0 to 7
RD
WR

PC6
1

CS

PC7

43
42
41
40
38
37
36
35

14
15
16
18
19
20
21
23

9
10
11
13
8
7
6
5

RESET
33

; PORT SELECT ADDRESS
; CHIP SELECT
; DATA BUS
; PORT A IN/OUT
; PORT B IN/OUT
; PORT C IN/OUT
; READ
; WRITE

GROUP
A
PORT A

GROUP
A
PORT C
HIGHER
4-BITS

DATA
BUS
BUFFER

SC OUT

PA0 to PA7

PC4 to PC7

DT OUT
WE OUT
RAS OUT

RD

CAS OUT

WR

A8 OUT

RESET

A7 OUT

CS

A6 OUT

A0

A5 OUT

A1

A4 OUT
A3 OUT
A2 OUT

READ/
WRITE
CONTROL
LOGIC

GROUP
B
CONTROL

GROUP
B
PORT C
LOWER
4-BITS

GROUP
B
PORT B

PC0 to PC3

PB0 to PB7

A1 OUT
A0 OUT

DISPLAY
CLOCK
GENERATOR

35

36
PVC IN

CPC OUT

HP IN

34

30

25
CKCNT IN

IREF VC IN

27
CPC OUT

CVC IN

26

28
HC IN

32

20

33
YS OUT

CLAMP OUT

SCL IN

BVP-550

18

PA2

6

RST OUT

DA
CONVERTER

READ
CONTROL

21

BY 18
OUT

STORE
CONTROL

22

RY
OUT

14

SDA OUT

Y OUT

CS
0
0
0
0
0
0
0
0
1

LEV1 IN

51

7
VERTICAL
FILTER

A0
0
1
0
1
0
1
0
1
X

D0 to D7
52

AD
CONVERTER

17

PA1

D2

PC5

A1
0
0
1
1
0
0
1
1
X

MULTIPLEXER

EXTERNAL MEMORY CONTROL/
ADDRESS GENERATOR

7

16

PA0

D1

NC

GROUP
A
CONTROL

5
6

15

53

54

DI3 IN
55

58

59

60

61

62

63

64
VRB

LEV0 IN

I/O

DI2 IN

PIN
No.

DI1 IN

SIGNAL

DI0 IN

I/O

DO3 IN/OUT

PIN
No.

DO2 IN/OUT

SIGNAL

DO1 IN/OUT

I/O

DO0 IN/OUT

PIN
No.

14

PB0

PC3

13

D0

23 PB7

VDD
(+3 V to +6 V)

NC

SIGNAL

Y IN

26

30 D2

PC1 10

I/O

BY IN

27

A0 4

PC5 7

PIN
No.

RY IN

29

25

12

9

30

28

PC2 11

VRT

31

PB6

GND

VDD (+5 V)

GND
VDD (+5 V)

32

33 RESET

PB5

VDD (+5 V)

CS 1

PB4

VDD (+5 V)

48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33

PB3

GND
GND

GND

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

PA1

— TOP VIEW —

PA0

C-MOS PROGRAMMABLE PERIPHERAL INTERFACE

— TOP VIEW —

RD

PICTURE IN PICTURE/PICTURE OUT PICTURE CONTROLLER

GND
VDD (+5 V)

MSM82C55A-2GS(OKI)FLAT PACKAGE

64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49

MN8232A(MATSUSHITA)

6-17

IC

NJM3414AM(SNM)FLAT PACKAGE

PCF8574AT(PHILIPS)
PCF8574T(PHILIPS)

DUAL OPERATIONAL AMPLIFIER
— TOP VIEW —

C-MOS REMOTE 8-BIT I/O EXPANDER
— TOP VIEW —

8
Vcc

7

6

5
1

+

A0 IN 1

VDD 16

3

A1 IN 2
+
1

2

15 SDA

2

GND
4

3

14 SCL

P0 I/O 4

13 INT

P1 I/O 5
NOTE:
TYPE
TA75358P
NJM3414M
RC3414M
M5223FP

P2 I/O 6

11 P6 I/O

+15V

P3 I/O 7

10 P5 I/O

+36V

P0

A2

P2

SCL

P3
P4
P5
P6

12 P7 I/O

Vcc
+12V

8 GND

9

13

A1

P1
14

A2 IN 3

INT

A0

P7
SDA

4
5
6
7
9
10
11
12
15

P4 I/O

INPUT
A0 - A2 ; ADDRESS INPUTS
SCL
; SYSTEM CLOCK LINE

NJM4556AM-A(NEC)FLAT PACKAGE
OPERATIONAL AMPLIFIER
(WIDE BAND, DECOMPENSATED)
—TOP VIEW—

OUTPUT
INT
; INTERRUPT OUTPUT
SDA
; SERIAL DATA LINE
INPUT/OUTPUT
P0 - P7 ; 8-BITS QUASI-BIDIRECTIONAL I/O PORT

VDD

1

(+15V) 14
–

2

+

13
+–

3

12

VEE

4 (-15V)

11

INT
A0
A1
A2

INTERRUPT
LOGIC

13
1

LP FILTER
PCF8574
PCF8574A

2
3

4
5

SCL
SDA

14

INPUT
FILTER

15

I2C BUS
CONTROL

6

SHIFT
REGISTER

I/O
PORTS

8 BIT

7
9
10
11

NJM4558V(JRC)FLAT PACKAGE
NJU7022M(JRC)FLAT PACKAGE

12

DUAL OPERATIONAL AMPLIFIER
— TOP VIEW —
8

7

6

P1
P2
P3
P4
P5
P6
P7

write pulse
VDD
VSS

VDD
(+15 V)

P0

16

read pulse

POWER-ON
RESET

8

5

–
+
+
–
VEE
(–15 V)

1

2

3

4

REF-03GS(PMI)
REFERENCE/TEMPERATURE TRANSDUCER
— TOP VIEW —
2

1 NC
V IN 2

NC 8
NC 7

V IN
5

TMP

3

TRIM
GND

V OUT

6

4

TEMP OUT 3
4 GND

6 V OUT
5 TRIM

V IN
; INPUT VOLTAGE (+4.5 V to +33 V)
TEMP OUT ; TEMPERATURE TRANSDUCER
VOLTAGE OUTPUT
TRIM IN
; OUTPUT SIGNAL TRIMMING
V OUT
; OUTPUT VOLTAGE (+2.5 V)

6-18

BVP-550

IC

RTC4553B(EPSON)

SN74HC157APW(TI)FLAT PACKAGE
TC74VHC157FS(TOSHIBA)FLAT PACKAGE(SMALL)

C-MOS REAL TIME CLOCK

C-MOS QUAD 2-LINE-TO-1-LINE DATA SELECTOR/ DEMULTIPLEXER

— TOP VIEW —

—TOP VIEW—
8

1 GND

14 TP OUT

4

13 S OUT

11

3

WR IN 2

12

S IN 3

12 CS1 IN

SCK IN 4

2

5
6

L1 IN 5

10 L5 IN

7
9

L2 IN 6

9 L4 IN
VDD
(+5 V)

L3 IN 7

INPUT
CS0
CS1
L1-L5
SCK
SIN
WR

SCK
SIN

S OUT

10

13

16
VDD

CS0

CS0

XC

OUT

IN

IN

OUT

12

11

10

9

X0

1
0

L2

1

2

3

GND

A

V0

1

IN

IN

L5

V0

3

V1

5

W0

6

4

W1

WC

7

11 X0
10 X1

XC

9

14 Y0
13 Y1

YC 12

0
1

L3
L4

2

VC

1
0

0
1

L1

8

4

5

6

7

V1

VC

W0

W1

WC

IN

OUT

IN

IN

OUT

GND
8

A

DIVIDING

14

+2 to +8V
+2 to +6V

—TOP VIEW—
CONTROL CONTROL CONTROL
REGISTER REGISTER REGISTER
(1)
(2)
(3)

2

RAM
(120 bit)

13

12

11

10

9

8

INPUTS
SD
0
1
0
1
1
1

D

SD

Q

14
VDD

Q
RD

S OUT

D

SD

13

OUTPUT
CONTROL

Q

5-7, 9, 10

TEST

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

C-MOS DUAL D-TYPE FLIP-FLOPS WITH DIRECT SET/RESET
SHIFT
REGISTER

L1-L3
L4, L5

ON
CHANNEL
0
1
GND

SN74HC74ANS(TI)FLAT PACKAGE
TC74VHC74F(TOSHIBA)FLAT PACKAGE
TC74VHC74FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

CONTROL

11

CONT.IN
INH
A
0
0
0
1
1
X

+2 to +5.5V

15

TP OUT

CONTROL

3

12

VDD
+5V

TYPE
74ACT/74FCT
TC74AC157P
TC74AC157
TC40H
OTHER TYPES

OUTPUT CONTROL

INH

1

NOTE:

SECOND MINUTE HOUR DAY DATE MONTH YEAR

4

WR

X1

IN

13

RD Q

CS1

YC

IN

14

14

; CHIP SELECT (L: ACCESS ENABLE, H: SOUT HIGH Z)
; POWER DOWN DETECTION
; TEST IN
; SERIAL SYNC SIGNAL
; SERIAL ADDRESS/DATA
; WRITING SELECT (L: WRITING, H: READING)

OSC

SIN

Y0

WR

OUTPUT
SOUT
; SERIAL ADDRESS/DATA
; REFERENCE SIGNAL
TPOUT

SCK

Y1

IN

15

CS1

TP OUT

11 CS0 IN

INH

VDD (+5 V)

1

2

3

4

5

6

GND
7

RD
1
0
0
1
1
1

CK
X
X
X

0

OUTPUTS
D
X
X
X
1
0
X

Qn+1 Qn+1
1
0
0
1
1
1
1
0
0
1
Qn
Qn

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

2

SD
D

Q

11

10

9

A
B

Y =

A
B

Y=A•B=A+B

1

2

3

4

5

6

A
0
0
1
1

B
0
1
0
1

Y
0
0
0
1

TYPE
HCT/ACT
TC74AC/VHC
OTHERS

VDD
+5V
+2 to +5.5V
+2 to +6V

RD

Q

13

Y

SN74HCT04APW(TOSHIBA)FLAT PACKAGE
TC74VHC04FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS HEX INVERTERS
—TOP VIEW—

0 ; LOW LEVEL
1 ; HIGH LEVEL

14
VDD

13

12

11

10

9

8

NOTE:
TYPE
TC74AC08 TYPE
MC74ACT08M
TC40H
OTHER TYPES

Q

9

8

6

1

8

GND
7

D

Q

RD

12

SD

11

—TOP VIEW—
13

12

5

3

C-MOS QUAD 2-INPUT AND GATES
14
VDD

NOTE:

10

4

SN74HC08ANS(TI)FLAT PACKAGE
SN74HC08APW(TI)FLAT PACKAGE
TC74VHC08FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

A

Y =

A

Y

VDD

Y=A
+2 to +5.5V

A Y
0 1
1 0

+2 to +8V
+2 to +6V

1

2

3

4

5

6

GND
7

0 ; LOW LEVEL
1 ; HIGH LEVEL

NOTE:
TYPE
74HCT04 TYPE
TC74AC04 TYPE
TC74VHC04 TYPE
74ACT04 TYPE
OTHER TYPES

BVP-550

VDD
+5V
+2 to +5.5V
+4.5 to +5.5V
+2 to +6V

6-19

IC

SN74HCT244APW-E05(TI)FLAT PACKAGE
TC74VHC244FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

STK10C68-5S35(SIMTEK)FLAT PACKAGE
C-MOS 8K×8-BIT NONVOLATILE STATIC RAM
— TOP VIEW —

C-MOS BUS BUFFER WITH 3-STATE OUTPUTS
—TOP VIEW—

10

20
VDD

VDD
(+5V)

NE IN 1

G2
19

18

17

16

15

14

13

12

11

28

9
8

A

Y =

A

Y

A12 IN 2

27 WE IN

7
6

G

G

A7 IN 3

NC 26

5
4

1

2

3

4

5

6

7

8

G
0
0
X

GND
10

9

A
0
1
X

A6 IN 4

Y
0
1
HI-Z

2

18

4

16

6

14

8

12

11

9

13

7

15

5

17

1

18

4

16

6

14

8

12
G
1

OR

3
G1

2

A5 IN 5

G2

11

9

13

7

15

19

5

17

24 A9 IN

A4 IN 6

24

23 A11 IN

23
2

A3 IN 7

22 OE IN

A2 IN 8

21 A10 IN

A1 IN 9

20 CE IN

A0 IN 10

19 D7 IN/OUT

D0

A1

D1

A2

D2

A3

D3

A4

D4

A5

D5

A6

D6
D7

A7

21

VDD

A0 - A12
CE
D0 - D7
NE
OE
WE

D0 IN/OUT 11

18 D6 IN

D1 IN/OUT 12

17 D5 IN

+5V
D2 IN/OUT 13

+2 to +5.5V

12
13
15
16
17
18
19

A9
A10
A11
A12

1

+2 to +6V

11

A8

NE

NOTE:
TYPE
AC
HC
40H
ACT
BCT
FCT
HCT
TC74AC244 TYPE
TC74VHC244

3
25

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE
HI-Z ; HIGH IMPEDANCE

G1

25 A8 IN

A0

CE

OE

20

WE

22

27

; ADDRESS INPUTS
; CHIP ENABLE INPUT
; DATA INPUTS/OUTPUTS
; NONVOLATILE ENABLE INPUT
; OUTPUT ENABLE INPUT
; WRITE ENABLE INPUT

16 D4 IN

14 GND

15 D3 IN

3
G
19

SN75158PS(TI)

STORE
RECALL

DUAL DIFFERENTIAL LINE DRIVE
A3

— TOP VIEW —

A4
A5

1Z 1

VCC
(+5 V)

8

A6
A7

1Y 2

7 2Z

A8
A9

1A 3
4 GND

6 2Y

A12

EEPROM ARRAY
256×256

7
6
5
4

STATIC RAM
ARRAY
256×256

ROW
DECODER

3
25
24
2

5 2A
A0
A1
A2
A10
A11

10
9

COLUMN COLUMN
DECODER
I/O

8
21

11
12

23

13
8

8

8

15
16
17

INPUT
BUFFER

22
OE
27
WE
1
NE
20
CE

8

8

18
19

D0
D1
D2
D3
D4
D5
D6
D7

STORE/RECALL
CONTROL

TA75S393F(TOSHIBA)
SINGLE COMPARATOR
— TOP VIEW —
OUT
4

5
VCC
–

VCC ; +1 V to +18 V or +2 V to +36 V
VEE ; –1 V to –18 V

+

1
IN (–)

6-20

VEE
2

3
IN (+)

BVP-550

IC

TC4S30F(TOSHIBA)CHIP PACKAGE
TC7S86FU(TOSHIBA)CHIP PACKAGE

TA8129Z(TOSHIBA)
FM IF SYSTEM (DIFFERENTIAL PEAK DETECT)
— SIDE VIEW —

C-MOS 2-INPUT EXCLUSIVE OR GATE
(SCALE 6/1)
—TOP VIEW—
1

A

5 VDD

B

2

4

1

Y

14

15

16

IF OUT

MUTE

13

DET 2

AF OUT

12

REG

11

DET 1

10

F

6

SD OUT

IF IN

BIAS

SDS

2

GND 3

VCC
(+16 V)

GND
7
8
9

METER

1

GND
3
4
5

BYPASS

2
4

Y=A•B+A•B
A
0
0
1
1

Y
0
1
1
0

B
0
1
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
VDD

TYPE
7S86FU
7S86F
4S30F

+2 to +6V
+3 to +18V

F DET

MUTE
DRIVE

5

6

7

9

IF IN

BIAS

GND (IF)

SDS

METER OUT

SD OUT

F

10

11

MUTE

12

13

14

15

16

IF OUT

4

DET 2 IN

3

TC4S69F(TOSHIBA)CHIP PACKAGE
TC4SU69F(TOSHIBA)CHIP PACKAGE
TC7S04FU(TOSHIBA)CHIP PACKAGE
TC7SH04FU(TOSHIBA)CHIP PACKAGE

PEAK DET

DET 1 IN

2

REG

AF OUT

1

BYPASS

AF AMP

VCC

STATION
DET

LPF

REG OUT

METER
DRIVE

IF AMP

C-MOS INVERTER
(SCALE 6/1)
—TOP VIEW—
1

5 VDD

A

2

4

A

Y =

Y

2
GND 3

TYPE
7S04F
7SU04F
7SU04FU
4S69F
4SU69F
7SH04FU

C-MOS 2-INPUT NOR GATE
(SCALE 6/1)
—TOP VIEW—
A

5 VDD

B

1

4

2

Y =

A

4

A Y
0 1
1 0

TC4S01F(TOSHIBA)CHIP PACKAGE
TC7S02FU(TOSHIBA)CHIP PACKAGE
TC7SH02FU(TOSHIBA)CHIP PACKAGE

1

Y=A

VDD

0 ; LOW LEVEL
1 ; HIGH LEVEL

+2 to +6V

+3 to +18V
+2 to +5.5V

Y

B

2
GND 3

Y=A+B=A•B

4

A
0
0
1
1

B
0
1
0
1

Y
1
0
0
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+3 to +18V

TYPE
4S01F
7S02F
7S02FU
7SH02FU

+2 to +6V

TC4S71F(TOSHIBA)CHIP PACKAGE
TC7S32FU(TOSHIBA)CHIP PACKAGE
TC7SH32FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT OR GATE
(SCALE 6/1)
—TOP VIEW—
1

5 VDD

2
A
1
B

4

Y =

A
B

Y

2
GND 3

4

Y=A+B=A • B
A
0
0
1
1

TC4S11F(TOSHIBA)CHIP PACKAGE
TC7S00FU(TOSHIBA)CHIP PACKAGE

B
0
1
0
1

TYPE
7S32F
7S32FU
4S71F
7SH32FU

C-MOS 2-INPUT NAND GATE
— TOP VIEW —

Y
0
1
1
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
VDD
+2 to +6V
+3 to +18V
–2 to +5.5V

(SCALE 6/1)
1

5 VDD

GND 3

A
B

2
4

2

4

1

A

Y

B

Y=A•B=A+B
A
0
0
1
1

TYPE
7S00F
7S00FU
4S11F
4SU11F
7SH00FU

BVP-550

Y =

B
0
1
0
1

Y
1
1
1
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+2 to +6 V
+3 to +18 V
+2 to +5.5 V

6-21

IC

TC4S81F(TOSHIBA)CHIP PACKAGE
TC7S08FU(TOSHIBA)CHIP PACKAGE
TC7SH08FU(TOSHIBA)CHIP PACKAGE

TC74HC4052AFS(EL)(TOSHIBA)FLAT PACKAGE
C-MOS DUAL 4-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER
— TOP VIEW —

C-MOS 2-INPUT AND GATE
(SCALE 6/1)
—TOP VIEW—
1

4

Y=A•B=A+B
A
0
0
1
1

4

A
B

14 X1

Y =

Y

B
0
1
0
1

Y
0
0
0
1

Y2 IN/OUT 2

15 X2 IN/OUT

YC IN/OUT 3

14 X1 IN/OUT

XC 13

11 X3
OPEN
1 Y0

Y3 IN/OUT 4

13 XC IN/OUT

Y1 IN/OUT 5

12 X0 IN/OUT

4 Y3

11 X3 IN/OUT

OPEN
10 A

5 Y1
2 Y2

0 ; LOW LEVEL
1 ; HIGH LEVEL

EN IN 6

YC

3

9 B

VDD

TYPE
7S08F
7S08FU
4S81F
14S81F
7SH08FU

12 X0

16

15 X2

5 VDD

2
A
1
B

2
GND 3

VDD
(+2 V to +6 V)

Y0 IN/OUT 1

7 VEE *

10 A IN

8 GND

9 B IN

EN

VEE

6

7

+2 to +6V
+3 to +18V
–2 to +5.5V

CONTROL
INPUTS
B
A
EN
0
0
0
0
1
0
1
0
0
1
1
0
X
X
1

VEE* ; VDD – VEE = +3 V to +12 V

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

"ON"
CHANNEL
0
1
2
3
OPEN

TC4W53FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-CHANNEL MULTIPLEXER / DEMULTIPLEXER
(SCALE 3/1)
—TOP VIEW—
1

6
7

2

7

3

6

GND 4

5

TC74HC4538AFS(TOSHIBA)FLAT PACKAGE

0
1

1

C

OPEN

8 VDD(+3 to +18V)
5

C-MOS DUAL RETRIGGERABLE/NON-RETRIGGERABLE MONOSTABLE
MULTIVIBRATOR

A
INH

VEE

2

— TOP VIEW —

3

VDD
(+2 V to +6 V)

1-C 1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

CONT.INPUT
ON
CHANNEL
INH
A
0
0
0
1
1
0
OPEN
1
X

VDD

16

C
1

1-CR 2

15 2-C

1-RD 3

14 2-CR

C

2

4

1-CK 4

VDD

R
15

Q

6

Q

7

5

Q 10

12
11

Q

RD

13 2-RD
12 2-CK

1-Q 6

11 2-CK

1-Q 7

10 2-Q

9

RD

3

1-CK 5

R
14

13

8 GND

TC4W66FU(TOSHIBA)CHIP PACKAGE
C-MOS DUAL BILATERAL SWITCH

1
C

(SCALE 3/1)
—TOP VIEW—
1

8 VDD(+3 to +18V)

2

7

3

6

GND 4

5

2
CR
Q 6

4
5

2

1

Q

7

15
C

IN/OUT

11

9

Q
RD

3

6

5

14
CR
Q 10

12

RD

7

13

0.74
0.72
0.70
0.68
0.66
0.64
0.62
2

3

4

5

6

VDD POWER SUPPLY VOLTAGE (VOLTS)

IN/OUT

3
CONTROL

CONTROL
0
1

RETRIGGERABLE M. M. V

SWITCH
OFF
ON

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
RD
VDD

6-22

9 2-Q

k. OUTPUT PULSE WIDTH CONSTANT (TYPICAL)

OUTPUT PULSE WIDTH = k · C · R

NON-RETRIGGERABLE M. M. V

VDD

VDD

VDD

VDD

Q

Q

Q

Q

Q

Q

Q

RD
VDD

Q

RD

RD

VDD

VDD

BVP-550

IC

TC74HC595AF(TOSHIBA)FLAT PACKAGE

TC74VHC138FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

C-MOS 8-BIT SERIAL-INPUT/SERIAL- OR PARALLEL-OUTPUT
SHIFT REGISTER WITH LATCHED 3-STATE OUTPUT

C-MOS 3-TO-8 LINE DECODER / DEMULTIPLEXER
—TOP VIEW—

—TOP VIEW—
1

14

QB

VDD 16

1

OUT

QB

(+2V to +6V)

QC
QD
QE

QD

IN

13 OE

4

OUT

QC

RESET

OUT

QE

14 SI

3

OUT

10

15 QA

2

OUT

QA

SI

QF
QG

IN

QH
11

QF

OUT

5

12 LCK (

) IN

QG

OUT

6

11 SCK (

) IN

15

10 RESET

7

OUT

B

IN

C

IN

1

VDD 16

2

15 Y0

OUT

3

14 Y1

OUT

4

RESET
SI

EN2

6

4

13 Y2

OUT

IN

5

12 Y3

OUT

IN

6

11 Y4

OUT

OUT

7

10 Y5

OUT

9 Y6

OUT

EN1

IN

EN2
EN3

SCK

RD
D

Y7

D

OE

RD
Q

D

C

Y2

15
14
13
12
11

Y4

4

10

Y5

5

EN

6

9

Y6

7

Y7

INPUTS
EN C B
0 X X
1 0 0
1 0 0
1 0 1
1 0 1
1 1 0
1 1 0
1 1 1
1 1 1

NOTE:

9

Q

SQH

VDD
+5V
+4.5 to +5.5V

TYPE
74HCT138 TYPE
74ACT138 TYPE
TC74AC138 TYPE
TC74VHC138
OTHER TYPES

A Y7 Y6
X 1 1
0 1 1
1 1 1
0 1 1
1 1 1
0 1 1
1 1 1
0 1 0
1 0 1

Y5
1
1
1
1
1
1
0
1
1

EN = EN1 • EN2 • EN3

OUTPUTS
Y4 Y3 Y2
1 1 1
1 1 1
1 1 1
1 1 0
1 0 1
0 1 1
1 1 1
1 1 1
1 1 1

Y1
1
1
0
1
1
1
1
1
1

Y0
1
0
1
1
1
1
1
1
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

+2 to +5.5V
+2 to +6V

11

D

LCK

OUTPUT ENABLE INPUT
LATCH CLOCK INPUT
SHIFT CLOCK INPUT
SHIFT-REGISTER RESET INPUT
SERIAL IN
PARALLEL OUTPUT
SERIAL OUT

RD
Q

EN3

13

;
;
;
;
;
;
;

Y1

7

10
14

EN1

SQH 9

OE
LCK
SCK
RESET
SI
QA-QH
SQH

Y0

B

Y3

5

LCK

IN

OUT

A

3

8 GND

9 SQH

8 GND

2
3

2

OE

QH

IN

1

SCK

12

A

Q

D

Q

TC74VHC163F(TOSHIBA)FLAT PACKAGE

12

C-MOS PRESETTABLE SYNCHRONOUS 4-BIT BINARY COUNTER

13
15

7

QA

—TOP VIEW—
MODE SELECTION
CONTROL INPUTS
RD
LD EN1 EN2

QH

RD

IN

1

VDD 16

CK

IN

2

15 CO

OUT

A(DATA A)

IN

3

14 QA

OUT

TC74VHC02F(TOSHIBA)FLAT PACKAGE
B(DATA B)

IN

4

13 QB

OUT

C(DATA C)

IN

5

12 QC

OUT

D(DATA D)

IN

6

11 QD

OUT

EN1

IN

7

10 EN2

IN

C-MOS QUAD 2-INPUT NOR GATES
—TOP VIEW—

MODE

X

X

X

RESET
(SYNCHRONOUS)

1

0

X

X

PRESET
(SYNCHRONOUS)

1
1
1

1
1
1

0
X
1

X
0
1

NO COUNT
NO COUNT
COUNT

0

CARRY OUTPUT "CO"

14
VDD

13

12

11

10

9

8
A

Y

B

B

1

2

3

4

5

6

GND
7

B
0
1
0
1

Y
1
0
0
0

NOTE:
TYPE
HC
AC/VHC
HCT/ACT

VDD
+2 to +6V
+2 to +5.5V
+5V

9 LD

8 GND

Y=A+B=A•B
A
0
0
1
1

IN

CO

EN2

CO IS HIGH WHEN EN2 INPUT IS
HIGH AND COUNT IS "15".
COUNT SEQUENCE

NOTE:
VDD
+2 to +6V
+2 to +5.5V
+5V

TYPE
HC
AC/VHC
HCT/ACT/FCT

0 ; LOW LEVEL
1 ; HIGH LEVEL

9
3
4
5
6

LD
A

QA

B

QB

C

QC

D

QD

14
13
12
11

2

7
10

EN1

CO

EN2
RD
1

BVP-550

QA
QB
QC
QD

A
= Y

15

COUNT
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15

QD
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1

OUTPUTS
QC QB QA
0
0
0
1
0
0
0
1
0
1
1
0
0
0
1
1
0
1
0
1
1
1
1
1
0
0
0
1
0
0
0
1
0
1
1
0
0
0
1
1
0
1
0
1
1
1
1
1

6-23

IC

TC74VHC20F(TOSHIBA)FLAT PACKAGE

TC7W00FU(TOSHIBA)CHIP PACKAGE

C-MOS 4-INPUT POSITIVE-NAND GATE

C-MOS 2-INPUT NAND GATE
– TOP VIEW –

—TOP VIEW—
14

12

13

11
NC

VDD
(+2 to +6V)

10

9

8
A
B
C
D

A
B
C
D

Y =

6

NOTE:
VDD
+2 to +5.5V
+2 to +6V

TYPE
AC/VHC
HC

Y
1
1
1
1
1
•••

5

D
0
1
0
1
0
•••

4

C
0
0
1
1
0
•••

2

GND
7

B
0
0
0
0
1
•••

1

NC
3

A
0
0
0
0
0
•••

Y=A • B • C • D=A+B+C+D

A

1

B

2

1

8 VDD
(+2 to +6 V)

2

7

3

6

5

GND 4

5

6

Y

A

7 Y

Y

B

3
Y=A•B=A+B

A
0
0
1
1

Y
1
1
1
0

B
0
1
0
1

0; LOW LEVEL
1; HIGH LEVEL

1 1 0 1 1
1 1 1 0 1
1 1 1 1 0
0 ; LOW LEVEL
1 ; HIGH LEVEL

TC7W02F(TOSHIBA)FLAT PACKAGE
C-MOS DUAL 2-INPUT NOR GATE
—TOP VIEW—

TC74VHC32FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

(+2 to +6V)
VDD

1A 1

A
B

8

C-MOS QUAD 2-INPUT OR GATES
—TOP VIEW—
14
VDD

13

12

11

10

9

8
A
B

A

Y =

Y

B

1B 2

7 1Y

2Y 3

6 2B

4 GND

A
B

Y =

Y

Y=A+B = A • B
A
0
0
1
1

5 2A

B
0
1
0
1

Y
1
0
0
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

Y=A+B=A•B

1

2

3

4

5

6

A
0
0
1
1

GND
7

B
0
1
0
1

Y
0
1
1
1

NOTE:
0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+2 to +5.5V
+2 to +6V

TYPE
AC/VHC
HC

TC7W04FU(TOSHIBA)CHIP PACKAGE
C-MOS HEX INVERTERS
(SCALE 3/1)
—TOP VIEW—

TC74VHC541FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS BUFFERS AND LINE DRIVERS WITH 3-STATE OUTPUTS
— TOP VIEW —

20
VDD

G2

Y1

Y2

Y3

Y4

Y5

Y6

Y7

Y8

19

18

17

16

15

14

13

12

11

A

1

8 VDD(+2 to +6V)

2

7

3

6

GND 4

5

A

1

7

3

5

6

2

Y =

Y=A

G1
G2

GND
1

2

3

4

5

6

7

8

9

G1

A1

A2

A3

A4

A5

A6

A7

A8

2

18

3

17

4

16

5

15

6

14

7

13

8

12

9

11
G1

NOTE :
TYPE
AC/VHC
HC
ABT/ACT/BCT/HCT/VHCT

G2

1

10

19

VDD
+2 V to +5.5 V
+2 V to +6 V
+5 V

A
0
1
X
X

Y

A Y
0 1
1 0

Y

G1 G2
0
0
0
0
1 X
X 1

A

0 ; LOW LEVEL
1 ; HIGH LEVEL

Y
0
1
HI-Z
HI-Z

0
1

; LOW LEVEL
; HIGH LEVEL
; DON'T CARE
X
HI-Z ; HIGH IMPEDANCE

TC7W08FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT AND GATE
(SCALE 3/1)
—TOP VIEW—
1

8 VDD(+2

2

7

3

6

GND 4

5

to +6V)

A
B

1
7

2
5
6

Y =

A
B

Y

3

Y=A•B=A+B
A
0
0
1
1

B
0
1
0
1

Y
0
0
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL

TC7S66FU(TOSHIBA)
C-MOS ANALOG SWITCH
—TOP VIEW—

IN/OUT 1

(+12V MAX)
VDD

5

OUT/IN 2
3 GND

6-24

4 CONT

BVP-550

IC

TC7W139FU(TOSHIBA)CHIP PACKAGE

TL062CPW(TI)FLAT PACKAGE
TL082M(TI)

C-MOS 2 to 4 LINE DECODER WITH ENABLE
—TOP VIEW —

1

V DD
8 (+2 to +6V)

2

7

3

6

GND 4

2

—TOP VIEW—
V DD
8 (+2 to +6V)
7
6
5

1
2
3
GND 4

A

Y0

B

Y1
Y2
Y3

INPUTS
SELECT
B
A
0
0
0
1
1
0
1
1

VDD
(+1.5 to +18V)

1

–+

2

5
FU TYPE

F TYPE
1

OPERATIONAL AMPLIFIER
(J FET INPUT)

(SCALE 5/1)

(SCALE 5/1)

7

7
+–

3

8

6

4 VEE

5

(–18 to –1.5V)

6
5
3

OUTPUTS
Y0

Y1

Y2

Y3

0
1
1
1

1
0
1
1

1
1
0
1

1
1
1
0

SELECTED
OUTPUT

TL064CPW(TI)

Y0
Y1

OPERATIONAL AMPLIFIER
(J FET INPUT)

Y2
Y3

—TOP VIEW—

0 ; LOW LEVL
1 ; HIGH LEVEL

1

14
–

2

+

+–

13

3

12
VEE 11

4 VCC

(+18V)

TC7W32FU(TOSHIBA)CHIP PACKAGE

(-18V)

5

A

1

B

2

1

8 VDD
(+2 to +6 V)

2

7

3

6

5

GND 4

5

6

10

6

—TOP VIEW—
A

7 Y

Y

B

–

+

+

C-MOS DUAL 2-INPUT OR GATE

9

–

7

8

3
Y=A+B=A•B

A
0
0
1
1

Y
0
1
1
1

B
0
1
0
1

TL074CPW(TI)
0;
1;

LOW LEVEL
HIGH LEVEL

OPERATIONAL AMPLIFIER
(LOW-NOISE, JFET-INPUT)
—TOP VIEW—

1

14
–+

2

TC7W74FU(TOSHIBA)CHIP PACKAGE

13

3

C-MOS D-TYPE FLIP-FLOPS WITH DIRECT SET / RESET
—TOP VIEW—

12
VCC 11

4 VEE

(+15V)

(-15V)

5

10

6

–

+

+

(SCALE 3/1)
—TOP VIEW—
1

+–

9

–

8 VDD

(+2 to +6V)

2

7

3

6

GND 4

5

7

7
2

SD
Q

D

8

5

1

RD

Q

3

6

INPUTS
SD
0
1
0
1
1
1

RD
1
0
0
1
1
1

CK
X
X
X

OUTPUTS
D
X
X
X
1
0
X

Qn+1 Qn+1
1
0
0
1
1
1
1
0
0
1
Qn
Qn

TL084CPW(TI)
OPERATIONAL AMPLIFIER
(J FET INPUT)
—TOP VIEW—
14

13

12

11

10

VEE
(–15V)

+

–

+

+

–
1

BVP-550

2

8

+

–

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

9

–

VCC
(+15V)
3

4

5

6

7

6-25

IC

TLC0820ACDW(TI)FLAT PACKAGE

UPD4702G(NEC)

C-MOS 8-BIT SEMIFLASH TYPE A / D CONVERTER

C-MOS INCREMENTAL ENCODER 8-BIT UP DOWN COUNTER
—TOP VIEW—

—TOP VIEW—

ANLG

VDD
(+5V)

1

IN

12

20

11

1

D1 OUT 3

18 OFLW OUT

D2 OUT 4

17 D7 OUT
(MSB)

D4
D5
D6
(MSB)D7
7

OUTPUT
D0-D7
INT
OFLW

5

19 CARRY

15

B 3

18 BORROW

2
3

17

4 NC

14 D4 OUT

CD2 7

14 CD6

13 CS IN

CD3 8

13 CD5

INT

CD3

B

CD4
CD5
CD6

17 STB

CD7
16
17

WR/RDY

A

16

15 CD7

OFLW

CD2

A 2

14

MODE
CS

CD1

4

RD

6

CD0

20

16 OE

MODE IN 7

;
;
;
;
;

(+5V)

CD1 6

13
8

INPUT
ANLG
CS
MODE
RD
REF+, REF–

VDD

RESET 1

CD0 5

15 D5 OUT

10 GND

D3

ANLG

3

9

16 D6 OUT

INT OUT 9

D1

18

D3 OUT 5
WR/RDY IN/OUT 6

RD IN 8

(LSB)D0

REF –

D2

NC 19

D0 OUT 2
(LSB)

REF +

2

12 REF + IN

9 NC

11 REF – IN

10 GND

ANALOG SIGNAL
CHIP SELECT
MODE
READ
REFERENCE VOLTAGE +, –

RESET

A

B

; DIGITAL SIGNAL
; INTERRUPT
; OVERFLOW

OE

INPUT/OUTPUT
WR/RDY
; L : WRITE/H : READY

STB

12 CD4
NC 11

1

A
B
BORROW
CARRY
CD0-7
OE
RESET
STB

;
;
;
;
;
;
;
;

OE
STB

BORROW
CARRY

5
6
7
8
12
13
14
15

18
19

RESET

INCREMENTAL SIGNAL (PHASE A) INPUT
INCREMENTAL SIGNAL (PHASE B) INPUT
BORROW PULSE OUTPUT
CARRY PULSE OUTPUT
COUNT DATA OUTPUT
OUTPUT CONTROL SIGNAL INPUT
COUNTER RESET INPUT
LATCH STROBE SIGNAL INPUT

1

2

3

19

PHASE
DISCRIMINATION
EDGE DETECTOR

8-BIT
UP / DOWN COUNTER

18

CARRY

BORROW

16
17

8-BIT LATCH
TRI-STATE OUTPUT
5-8
12-15
CD0-CD7

REF +
REF –
ANLG

12

4-BIT FLASH
A/D CONVERTER
(HIGHER)

11
1

4-BIT FLASH
A/D CONVERTER
(LOWER)

–1
+1

CS
RD
WR/RDY

2

4

D0(LSB)

3

D1

4

D2

5

4-BIT
D/A CONVERTER

MODE

4

OUTPUT
LATCH
AND
3-STATE
BUFFER

4

4

D3

14
15
16
17

D4
D5
D6
D7(MSB)

18
OFLW

7
13

TIMING
&
CONTROL

8
6

9
INT

TLC272CP
TLC272CPW(TI)
TLC27L2CPS(TI)FLAT PACKAGE
OPERATIONAL AMPLIFIER
—TOP VIEW—
VDD
(+3V to +16V) 14

1
2

–

+

3
4 GND

6-26

13
+–

12
11

BVP-550

IC

UPD6453GT-610(NEC)FLAT PACKAGE
C-MOS ON-SCREEN CHARACTER DISPLAY
—TOP VIEW—
4

1

20 H SYNC

2

CLK 2

19 V SYNC

20

BUSY

18 B BLK

DATA 4

17 G BLK

9

CK OUT

V SYNC

MP

OSC IN

V CBL

R BLK

15 V CBL

(+5V)

PCL

B BLK

BUSY

14 VB

7

12
13
14
7
11

15

OSC OUT
G BLK

5

VDD

6
OUT

8

H SYNC

16 R BLK

PCL 5

CK

VR
VG
VB

19

CS 3

DATA

16
17
18

1

CS
3

OSC

8

13 VG

9

12 VR

10 GND

11 MP

OUT

OSC

IN

INPUT
CLK
CS
DATA
H SYNC
OSC IN
PCL
V SYNC

;
;
;
;
;
;
;

CLOCK
CHIP SELECT
SERIAL DATA
HORIZONTAL SYNC
OSCILLATOR IN
POWER ON CLEAR
VERTICAL SYNC

OUTPUT
BBLK, RBLK, GBLK
BUSY
CK OUT
MP
OSC OUT
VR, VG, VB
VCBL

;
;
;
;
;
;
;

B, R, G, BLANKING
BUSY OUT
CLOCK
MASK PULSE
OSCILLATOR OUT
R, G, B, CHARACTER DATA
VIDEO CUT BLANKING

UPD6453GT (2/2)
4

DATA INPUT
SHIFFT
REGISTER

DATA
2
CLK
1

BUSY

DATA
BUFFER
REGISTER

3
CS

CAHRA
SIZE
REGISTER

CK OUT

6 VDD
10 VSS

CONTROL
SIGNAL

INSTRUCTION
DECODER

7

H
SIZE
COUNTER

H
ADDRESS
REGISTER

WRITE
ADDRESS
COUNTER

H
POSITION
COUNTER

H
ADDRESS
COUNTER

VIDEO RAM
DATA
SELECTOR

CHARA
COLOR
BLINK
DATA
DATA
DATA
8-BIT
3-BIT
1-BIT
x
x
x
288 WORD 288 WORD 288 WORD

BACKGROUND
CONTROL
DATA
REGISTER

DISPLAY
CONTROL
DATA
REGISTER

OSC IN
9
OSC OUT

OSC
CIRCUIT

L OSC

V
ADDRESS
REGISTER

8

COSC IN

COSC OUT

H SYNC
V SYNC

20
19

SYNC
PROTECT
CIRCUIT

TIMING
GENERATOR

V
SIZE
COUNTER

V
POSITION
COUNTER

V
ADDRESS
COUNTER

CHARACTER CHARACTER
GENERATOR GENERATOR
RAM
ROM
12x18-BIT
12x18-BIT
x
x
16 WORD
240 WORD
16

OUTPUT CONTROL

11
MP

BVP-550

12
VR

13
VG

14
VB

17
18

R BLK
G BLK
B BLK

15
VCBL

6-27

IC

UPD71055GB-10-3B4(NEC)FLAT PACKAGE

X24164SI(XICOR)(16K BIT)FLAT PACKAGE
X24C02S-3.0(XICOR)(2K BIT)FLAT PACKAGE

C-MOS PARALLEL INTERFACE UNIT

P00

44 43 42 41 40 39 38 37 36 35 34
NC
INDEX
NC 33
1 NC

P01
P02
2

CS

32 RESET

CS 2
3

P04
5

31 D0

A0

4

A1 4 GND

30

D1

A0 5

29

D2

P27 6

28

D3

P26 7

27

D4

P25 8

26

D5

P24 9

25 D6

P20 10

24 D7

A1

44

26
27
28

P17

P16

P15

P14

P13

IC

31

P12

30

P11

12 13 14 15 16 17 18 19 20 21 22

P22

29

P10

P06

WR

P10

RD

P11
P12

24

VDD (+5V) 23

P23

P05

P07
35

25

P21 11

P03

D7

P13

D6

P14

D5

P15

D4

P16

D3

P17

D2

P20

D1

P21

D0

P22
P23

32

A1, A0
CS
D7-D0
P07-P00

;
;
;
;

IC

; INTERNALLY CONNECTED

CS
0
0
0
0
0
0
0
0
0
0
1

RD
0
0
0
0
0
1
1
1
1
1
X

ADDRESS
CHIP SELECT
DATA BUS
PORT 0

WR
1
1
1
1
0
0
0
0
0
1
X

A1
0
0
1
1
X
0
0
1
1
X
X

A0
0
1
0
1
X
0
1
0
1
X
X

P17-P10
P27-P20
RD
WR

;
;
;
;

RESET

PORT 1
PORT 2
READ STROBE
WRITE STROBE

OPERATION
PORT0 DATA • BUS
PORT1 DATA • BUS
PORT2 DATA • BUS

P24
P25
P26
P27

43

- TOP VIEW -

42
41

A0 IN 1

Vcc (+5V) 8

40
39

A1 IN 2

7 WC* IN

A2 IN 3

6 SCL IN

38
37

6
SCL
3
A2
2
A1
1
A0
7

36
14

SDA

5

WC*

5 SDA OUT

4 GND

15
16
18
19
20

WC *

7

21
22
10

SDA

5

11

START
CYCLE

START
STOP
LOGIC

H. V. GENERATION
TIMING &
CONTROL

12
13
9
8
7
6

SCL

6

SLAVE ADDRESS
REGISTER
COMPARATOR

3
A2
2
A1
1
A0

CONTROL
LOGIC

LOAD
INC

WR

P07

P06

P05

P04

P03

P02

C-MOS SERIAL EEPROM
P01

RD

P00

—TOP VIEW—

E 2 PROM
2K ; 64x32
4K ; 64x64
16K ; 64x256

X DEC

WORD
ADDRESS
COUNTER

CPU ACTION
INPUT
INPUT
INPUT
R/W

DISABLE
DATA • BUS PORT0
DATA • BUS PORT1
DATA • BUS PORT2
DATA • BUS COMMAND REGISTER

OUTPUT
OUTPUT
OUTPUT
OUTPUT

HIGH IMPEDANCE

Y DEC

CK
PIN

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

D OUT
ACK

8
DATA
ERGISTER
D OUT

NOTE : * TEST (at X24164SIC7000)

24-31
D7-D0

DATA BUS
BUFF

8
8

36-43
P07-P00

PORT 0

RD
WR
A1
A0
RESET

44
35
4
5

READ/
WRITE
CONTROL

COMMAND
REGISTER

32

INTERNAL 8-BIT BUS

GROUP
CONTROL
6-9
P27-P24

8

PORT 2

P23-P20

22-18,
16-14

8

PORT 1
CS

13-10

P17-P10

2

GROUP
CONTROL

6-28

BVP-550

Section 7
Block Diagrams

BVP-550

7-1

7-1

OVERALL

OVERALL

OVERALL BLOCK
OHB-450/451/550/550WS

M GAIN / FLARE COMP

AD VD
AD HD

TP200

CCD UNIT

VIDEO AMP
for
VIDEO CAMERA

RV200
R GAIN

CT200
R FREQ

B BLK SHAD

R W SHD

R(X)

R(X)

R FEED BACK

R FEED BACK

AMP
R KNEE P2

FLOATING
AMP

R(X)

R GAIN
R KNEE P1

R(X)

36/18 M CLK

HTSG

PR-212

TP300
VIDEO AMP
for
VIDEO CAMERA

RV300
G GAIN

CT300
G FREQ

G BLK SHAD
G W SHD

G(X)

G(X)

G FEED BACK

G FEED BACK

B(X)

B(X)

B FEED BACK

B FEED BACK

AMP

(OHB-550WS only)

R/G/B

R/G/B
Y0-Y9

G KNEE P2

FLOATING
AMP

G(X)

G GAIN
G KNEE P1

G(X)

PA-181

RY0-RY9

TP400

LENS

CT400
B FREQ

B BLK SHAD
HCLP
R W SHAD
GW SHAD
B W SHAD
HTSG

GC
ARRAY

M.BLK SHD
R W SHD
GW SHD
B W SHD

TEST SAW(X)

36/18MHz

RV50

IIC DATA

CN903
VF

IIC DATA

D/A
CONV.

TEST1/
TEST TEST2
SIG.
GEN.

TITLE BACK

VA-163

ND FILT
CC FILT

DBO-DB7

DATA

TEMP

A0,A1
RD
WR

ADDRESS

BACK UP
BATTERY

RM VBS(X)
MIC

TAPE REM
HD
VD

POWER SAVE

S3

IIC DATA

BAR
B
A
RESET

DCC
S4

CANCEL

SW-742

S1

SW-730

OFF
ON
SEL
AWB

S2
AWB/ABB

ABB

S1
DISP/MENU
S2
MONI

IIC DATA

I/O
EXP.

RV1
INCOM LEVEL

ON
OFF
MENU
R
G
B
ENC

D/A
CONV.

SYNC
GEN.

NEW/OLD CA

ROM

RV1 AUDIO

NEW
CM
I/F

COM DATA

U/D
COUNTER

TALLY ON
D/A
CONV.

IIC DATA
VTR S/S TRIG
RET EN
ZEBRA
REC TALLY
PB REF

I/O
EXP.

REAL
TIME
CLOCK
IIC DATA

DELAY

TITLE BACK
CHAR VF
CHARA
TITLE
GEN. CHAR BACK

TP2

MENU
SEL

TP5

S1

N/P
H COMP
SC CONT

SC(X)

IRIS CONT
fsc FREQ
AUTO +5V
REM/LOCAL
VTR S/S
RET EN
VE RGB
WIDE
ABNORMAL
G TALLY

AT-95

DL SYNC/BLKG

VCO CONT

CCU H CONT

SG-234

I/O
EXP.

RGB
S3
ENC/RGB

S3
VTR
START
/STOP

IIC DATA

TP3

WHITE

SHUTTER

RAM

SW-733
I/O
EXP.

V RESET

V RESET2

SET
RE AØ
RE BØ

BURST SC
SEP BPF
CONT.
DET

V RESET

BLKG
SAMPLE 1
CF
SYNC
VD
FLD1
SYNC
VD
HD
BF
BLKG
LALT
2FH
VD
HD
HD
NRW BLKG
INT/EXT

SYNC SYNC
SEP.

H CONT1
H CONT2
V RESET1/CF

BACK UP

VTR SAVE

RE A
RE B

S2

µ-COM

COM CONT

L
M
H
DCC ON

GEN VIDEO

AMP

AUDIO LEVEL

SET
CANCEL

CABLE
COMP

CE0
CE1

RM SD

POWER

GAIN

ADDRESS
DECODER

232C
I/F
CA(CONT/DATA)

RM SD

MIC
S1

BA

EX ON
IRIS POSI
ZOOM POSI
TP1

ON
ON
SAVE

GEN LOCK(X)
GEN LOCK(G)/H CONT

BA
TEMP

CN905

PR-211

I/CO CONT

DR-271

REMOTE

R BLK SHAD
G BLK SHAD
B BLK SHAD
R WHT SHAD
G WHT SHAD
B WHT SHAD
TEST SAW(X)
D.OUT EN
SC(X)
CHAR VF
CORSOR 1
CORSOR 2

TITLE
FLD1
SYNC
VD
HD
BF
BLKG
LALT
2FH
NRW BLKG
INT/EXT
SC CONT
INT/EXT VD
INT/EXT HD

DC/DC
CONT

ND FILT
CC FILT

CN902

HI-Y(X)
C(X)
VF-Y(X)

A0,A1
RD
WR
CE0
CE1

R GAIN
G GAIN
B GAIN
R KNEE P1
G KNEE P1
B KNEE P1
R KNEE P2
G KNEE P2
B KNEE P2

TG-159

ZEBRA
VF RGB
WIDE
ABNORMAL
G TALLY
BATT ALARM
N/P
TALLY
VF(X)
VF-Y(X)
VF R-Y(X)
VF B-Y(X)

B W SHD

TEST

AD VD
AD HD

BY0-BY9

DB0-DB7
B KNEE P2

RV400
B GAIN

EX ON
IRIS POSI
ZOOM POSI
VTR S/S TRIG
RET EN
AUTO +5V
REM/LOCAL
IRIS CONT

CN904

FLOATING
AMP

B(X)

B GAIN
B KNEE P1

B(X)

AMP

VIDEO AMP
for
VIDEO CAMERA

SW-732

AUDIO CH1 CONT

SW-731

CN-1122

7-2

7-2

BVP-550

OVERALL

DC/DC
CONVERTER

OVERALL

Y0-Y9

POWER
SAVE

Y0-Y9
RY0-RY9

BUFF

BY0-BY9
1121 CONTROL

Y0-Y9

BY0-BY9

1121 CONTROL

Y0-Y9

RY0-RY9

Y0-Y9

B,OUT EN
DDL

Y(X)
R-Y(X)
B-Y(X)

DY0-DY9

SAMPLE1
BLKG
VD
CF
SYNC
18MCLK

CN-1121

TP4
RY0-RY9

RY0-RY9

RY0-RY9

ATT
D/A
CONV.

BY0-BY9

BY0-BY9

HI-Y(X)
C(X)
VF-Y(X)

HI-Y(X)
C(X)
VF-Y(X)

BY0-BY9

DYB1-DYB9
DDL

IIC DATA

S→P
CONV.

R-Y(X)

R-Y(X)

B-Y(X)

B-Y(X)

DRY0-DRY9

DDL

LEVEL
CTL

TP5
ATT

DYB0-DYB9

DYB0
LEVEL
CTL

SKIN GATE ON/OFF

SKIN GATE
R-Y SYNC LEV
B-Y SLP LEV
SETUP 2
D/A
CONV.

Y, R-Y, B-Y LEV

LEVEL
CTL

Y SPL LEV
SETUP 1

LEVEL
CTL

TP3

H1-Y(X)

Y(X)

ATT

Y(X)

TP2
VBS(X)

BLKG

C(X)
VF-Y(X)
DLSYNC/BLKG

C(X)
VF-Y(X)
VTR SYNC

PULSES
SHAPER

C(X)
VTR SYNC

DA-88

N/P
TO PR CONTROL
FROM PR CONTROL
IIC DATA

TO PR CONTROL
FROM PR CONTROL
IIC DATA

RV101
VBS GAIN
GEN VIDEO

GEN VIDEO

VBS(X)

VBS(X)

VBS(X)

RM VBS(X)

TEST(X)

RM chose ON/OFF

TEST OUT

CHAR VF
VF-Y(X)
MONI(X)

MONI(X)

CHAR BACK
VF(X)
CORSOR 1
CORSOR 2
IIC DATA
VD
HD

VD
HD

S→P
CONV.

TEST SEL
VF/MONI SEL

PB REF
RET VIDEO(X)
DL SYNC/BLKG
N/P

N/P

SYNC
SEP

GEN LOCK(X)

VD
HD

VD
HD

TIMING
PULSE
SW'er

INT/EXT VD
INT/EXT HD

SKIN GATE

SKIN GATE
DL SYNC

VF Y(X)

Y(X)

R(X)
G(X)
B(X)
VF R-Y(X)
VF B-Y(X)

R-Y(X)
B-Y(X)

TALLY

TALLY
DRIVE
TALLY ON
CONTROL

CONTROL

PB REF
RET VIDEO(X)

S1

DL SYNC/BLKG

SKIN GATE
R(X)
B(X)
REC TALLY
G(X)
MIC
VTR SAVE
AUDIO CH1 CONT
AUDIO LEVEL
TAPE REM
CA(CONT/DATA)
COM CONT
PB REF
COM DATA
VTR S/S
RET EN
GEN LOCK(X)
GEN LOCK(G)/H CONT
H CONT
V RESET/CF
HD

REC TALLY
N/P

REC TALLY
N/P

IF-510
VF CONTROL
RM VSB(X)
1120 CONTROL

IIC DATA
BATT ALARM

VF CONTROL

OVERALL BLOCK

RM VBS(X)
1120 CONTROL

CN-1120

BVP550-OVERALL#1/M

BVP-550

7-3

7-3

BVP-550

VA-163

VA-163 BOARD

VA-163

IC202

125mVp-p/100%

250mVp-p/100%

880mVp-p/100%

TP200

1-74

R (X)

Q205

Q206, 207, FL200

FLOATING
AMP

BUFF

18M TRAP
FILTER

Q209-212
18

M.G
SW

2dB
AMP

KNEE
1/4, 1/5

0dB
AMP

DR

7

Q215-217

6dB
AMP

+
AMP
-

M.V.SAW SHD

IC201
5

1

CLP
6
16

23
Q208

21

12

26

2

14

27

32

11

R F-DET

CLP2 ATT

R F-COMP

RW SHD

GC1

R GC BAL

BUFF
R GAIN

AMP

19

R NAM V

R BLK SHAD

20

CLP2

TEST

1-80

5
14

CLP1 ATT

IC6
12

1-54

MB, 7-9 (BVP-550)
MB, 11-9 (BVP-500)

7
10

Q213, 214

9

IC200
1

PRE
KNEE 2

LPF

IC203
3 1

SAMPLE
HOLD

6

R FEED BACK IN 1-60

5

R KNEE P2

AMP

R KNEE P1

IC200
14

R (X) OUT

CLP

KNEE MODE

CT200
R FREQ

PRE BLKG

RV200
R GAIN

MB, 7-22 (BVP-550)
MB, 11-22 (BVP-500)

G.CLT
AMP

BLG

GC2

MB, 21-6 (BVP-550)
MB, 14-6 (BVP-500)

Q200-204

MB, 7-14 (BVP-550)
MB, 11-14 (BVP-500)

IC218-220
4

1
204

WINDOW
COMP

2

CLP 2
IC302
125mVp-p/100%

250mVp-p/100%

TP300
Q300-304
1-72

FLOATING
AMP

G (X)

18

18M TRAP
FILTER

BUFF

M.G
SW

KNEE
1/4, 1/5

2dB
AMP

0dB
AMP

Q315-317

6dB
AMP

DR

+
AMP
-

IC301
5

1

6
16
5

23
Q308

21

12

26

2

14

27

32

11

G F-DET

CLP2 ATT

G F-COMP

GW SHD

G GAIN

G GC BAL

BUFF

GC1

Q313, 314

9

10

IC300
1

PRE
KNEE 2

G NAM V

AMP

CLP1 ATT

G BLK SHAD

19

8

TEST

1-79

10

20

CLP2

PRE BLKG

IC6

1-52

MB, 7-7 (BVP-550)
MB, 11-7 (BVP-500)

7

LPF

IC303
3

1

SAMPLE
HOLD

6

G FEED BACK IN 1-59

5

G KNEE P2

AMP

G KNEE P1

IC300

G (X) OUT

CLP

CLP

KNEE MODE

CT300
G FREQ
14

MB, 7-23 (BVP-550)
MB, 11-23 (BVP-500)

G.CLT
AMP

BLG

7

M.V.SAW SHD
RV300
G GAIN

GC2

MB, 21-4 (BVP-550)
MB, 14-4 (BVP-500)

880mVp-p/100%
Q309-312

Q306, 307, FL300

Q305

MB, 7-15 (BVP-550)
MB, 11-15 (BVP-500)

IC318-320
4

1
304

WINDOW
COMP

2

CLP 2
IC402

125mVp-p/100%

250mVp-p/100%

TP400
Q400-404

BUFF

M.G
SW

M.V.SAW SHD
RV400
B GAIN

CT400
B FREQ
14

IC400
AMP

IC401
5

1

IC26
1
2
3
6

A0
SDA
A1
A2
EEPROM

16
5

15

DO

5

G GAIN
B GAIN

16

17

DI

A01
A02

A05

AT, 1-20

1-1

IIC CLK
LD (VA)

27

16

4
2

25

4
15

A06
D/A
CONV. A07
A08
LD

A09
A010
A011
A012

18

R KNEE P1

DO

19

G KNEE P1

2

R KNEE P2

4

G KNEE P2

5

B KNEE P2

6

R GC BAL

7

G GC BAL

8

B GC BAL

9

TEST1 ON/OFF

12

TEST2 LEVEL1

13

TEST2 LEVEL2

14

14

IC20
SI

11
12

2

15

Q3
RCK

4

GC1

4, 6,
9, 11

Q4
Q5
Q6

1, 14

TIMING
PULSE GEN. 2, 13 10
9 23
FOR TEST2

1
2

8

Q11

Q12, 13

NAM
SW

NAM

1-9

3
4 KNEE MODE

2

11

10

6 TEST2 ON/OFF
9

S0

18-20

4

14-4

4

13-4

IC12, 14
H.SAW
GEN.

IC16, 18
SD1 VOA
VOC

16-14

IC12
13

H.PARA
GEN.

14

18-14

2

V.PARA
GEN.
15

18-8
1

18-9

16-8

7

3

10

B W SHADING IN
R20, 23

1-13

PRE BLKG

ATT

PRE BLKG
PRE BLK

BLKG
MB, 23-13(BVP-550)
MB, 11-1/16-3 (BVP-500)

1-12

H CLP 1

4
23

6

B NAM V

VOA

B KNEE P2

B KNEE P1

KNEE MODE

B F-DET

CLP2 ATT

B F-COMP

1
404

WINDOW
COMP

2

IC1, Q1

13
11

+4.8V

VOB

RW SHD
GW SHD

18-1

BW SHD

16-13

M.V.SAW SHD

16-3 12

+7.3V

1-93

+7.3V

1-94

+5.1V

1-91

+5.1V

1-92

IC1, Q2

IC3

+2.5V

14

+2.5V REF OUT 1-89

MB,7-24 (BVP-550)
MB, 11-24 (BVP-500)

IC1, Q7

R F-COMP

-2.5V
REG.

PRE BLK

11

2

IC6
+2.5V
REG.

IC17

13

REG.
CONT

-2.8V

1-85

-2.8V

1-86

-2.5V
16-2 2

IC17
15

IC1, Q3

G F-COMP

1

-5V
REG.

PRE BLK

10

-5.1V

1-87

-5.1V

1-88

-4.8V

16-1 5

IC17
4

B F-COMP

3
9

PRE BLK
IC15

V1B
VOE
VOE

18-13
8

V1A

16-5

8

18-11

10

R F-DET

12

G F-DET

AMP
IC15

VOH

18-23
16-12
16-11

AMP

G NAM V

V1C
VOD
VOF

V1B

VOF

V1C

16-4

14

AMP
IC15

16-23

1

B F-DET

3

AMP

Q4

Q5

BUFF

NAM

1
7

+4.8V

IC5

2

4

23

2

5

H CLP

MB, 7-13 (BVP-550)
MB, 11-13 (BVP-500)

VOB

18-4
16-10
18-10

R NAM V

V1G

V1A VOC
VOB
VOD

18-24
1

AMP

IC19

MB, 23-12(BVP-550)
MB, 16-12 (BVP-500)

B FEED BACK IN 1-58

TEST

18-2

V1D

18-5
16-24
18-12

AMP

IC19

1-64

6

IC418-420

+7V
REG.
14

18-3

V1F
V1H

16-22

IC19

MB, 7-17(BVP-550)
MB, 11-17 (BVP-500)

IC403
3 1 1 SAMPLE
HOLD

4

V1E

16-9

5

VOH

V1F
V1D

18-22

7

LD

V1G
V1H GC
ARRAY
V1E

18-15

IC12

IC12, 13
V.SAW
GEN.

R W SHADING IN

1-65 G W SHADING IN

LPF

5

5 TEST1 ON/OFF

16-15

MB, 7-19(BVP-550)
MB, 11-19 (BVP-500)

IC400
1

PRE
KNEE 2

+5V
REG.

SAMPLE 3

1-66

Q413, 214

10

6

5

MB, 7-18(BVP-550)
MB, 11-18 (BVP-500)

11

TEST1
BA&SW

16
17
2

SAMPLE 3 IN

32

IC22

12

RV50
TEST

Q14

GC2

A. HD

SG, 1-18

27

+7V

TEST SAW (X)

A HD IN

14

TEST2
GEN.
IC9

VOB

1-8

MB, 7-11 (BVP-550)
MB, 11-11 (BVP-500)

IC22, Q10

5, 7,
8, 10

IC8

Q0

QH

MB, 6-47 (BVP-550)
MB, 23-3 (BVP-550)
MB, 10-47 (BVP-500)
MB, 16-3 (BVP-500)

1-50

B (X) OUT

B KNEE P1

3

Q1
S
P
Q2
CONV.

1-26

+
AMP
-

CLP 2

1

MB, 7-4 (BVP-550)
MB, 11-4 (BVP-500)

2

B GC BAL

R GAIN

4
6

A04

1-2

26

BW SHD

A0
A1
D/A
CONV.A2
LD
DI

A03

MB, 11-18 (BVP-500)

12

B NAM V

17
+5V

1, 2

23
Q408

21

BUFF

IIC DATA

Q415-417

6dB
AMP

7

TEST

1-3

19

AMP

IC24
MB, 1-3

20

CLP2

B GAIN

5

B BLK SHAD

7

CLP

CLP

GC1

1-78

DR

6
16

MB, 7-21 (BVP-550)
MB, 11-21 (BVP-500)

BLG

0dB
AMP

KNEE
1/4, 1/5

7

5

IC6

2dB
AMP

G.CLT
AMP

PRE BLKG

B (X)

CLP1 ATT

1-70

18

18M TRAP
FILTER

GC2

MB, 21-2 (BVP-550)
MB, 14-2 (BVP-500)

880mVp-p/100%
Q409-212

Q406, 407, FL400

Q405

FLOATING
AMP

3

5

MM

Q

CLP2

10
R30, 31

1

C40, R38, 39

CLP2 ATT
ATT

P.ON
RESET
13
23

11

ATT

VA-163 BLOCK
BVP-550

R25, 16
CLP1 ATT

12
BVP550-VA163BLOCK#1/M

7-4

7-4

BVP-550

AT-95

AT-95

AT-95 BOARD

PEAK 7
DET

A17
A19
1
P/W

P94
AN1

IC4
1-51

TAPE REM IN

54

AMP

AN2

WR

3

RD

RD

2

4

WR

WR

4
IC35

48-46
1-63

R40, 47

IC9
12

LENS, 1-4

1-67

IRIS POSI IN

ATT

AMP

A0-A2

AN3

EX ON IN

AN4

IC9
5, 6
AMP
R49, 57
LENS, 1-6

1-64 ZOOM POSI IN

1-70

3

ND FILT IN

AMP

IC5
1-69

12

CC FILT IN

AMP

AN5

15
14

11

34-12

AN6

CLOCK
GEN.

13

1-68

10

TEMP IN

59
60

12

BACK UP
BATTERY

CN, 1-7

1-4

RM SD IN

CN, 1-8

1-3

RM SD OUT

2
TP1

7
14

AMP

5

59

AN7

2

BRD 1

63

10

64

T2OUT T2 IN

10

74

11

66

7

2
2

12

1

6

3

2
5
IRIS

CS
RES
RES

8

CS

5
7

RES

9

10
1

P13

VOUT

67

75

1-55

18M(X) IN

6

14

77

2

78

1-53

RXD

40-5
HD
LATCH

4

1

—
B

43

70

7

44

TP4

2

1-10,
21, 23-26

22

WR

RESET

27

IC26
A0

I/O1

IRQ0

24

RD

IRQ1
A4

24-3

24-15

A5

24-2

17-4

A6

24-1

21-4

A11

23-5

24-14

A12

23-4

24-13

A13

23-2

22

IC13
D0

P00

D7

P01

A0
A1

P02
P03

RESET

P04

RD

P05

43

17

42

16

41

15

+4.8V

45

XTAL

CS

ADDRESS
DECORER

P07

11-13, 15-19
D0-D7

+7.3V IN

WE

DI

D/A
CONV.

IC12
3

A01

1-83

+3.1V IN
+3.1V IN

1-85

-2.8V IN

1-86

-2.8V IN

IC26
I/O1

A17
G

I/O8

13-15, 17-21
D0-D7

37

1

36

2

P11
P12

16

P13

18

1-6

P15

IF, 1-30

P14

LENS, 1-10

1-81

ZEBRA ON IN

1-65 VTR S/S TRIG IN

LENS, 1-3

1-66

RET SW IN

MB, 12-17

1-48

PB REF IN

PR, 1-50

1-42

PR, 1-72

A1(PR)

1-41

PR, 1-74

CE0(PR)

1-40

PR, 1-70

CEI1(PR)

1-29

PR, 1-48

MB, 12-26

RE AØ

1-2

CN,1-9

RE BØ

1-1

CN,1-10

23-1

A15

18, 19-2

24-11

P10

6
5

21

3

20

2

19

11

14

1-18

TG, 3-9

1-16

TG, 1-15

LD (VA)

1-20

VA, 1-1

LD (DA)

1-17

DA, 1-1

LD (SG)

1-19

SG, 1-1

LD (IF)

1-15

IF, 1-1

IIC DATA(SW)

1-13

TG, 1-8, VA, 1-2, SG, 1-2, DA, 1-2,
IF, 1-2, SW, 1-2, CN, 1-6, MB, 2-13

IIC DATA(CA)

1-11

IF, 1-11/MB, 12-27

IIC DATA(ST)

1-9

MB, 12-19

SI

S0

IIC DATA(SW)

1-14

MB, 2-14

IIC DATA(CA)

1-12

IF, 1-13/MB, 12-28

IIC DATA(CA)

1-10

MB, 12-30

13

WR
CS

REAL
TIME
CLOCK

CS

4

SC

IC25

2
3
1
D16-D19
P21
P23

23-8

P25
P26
P27

5

SDA
S1
S2
S0 EEPROM
SCL

10
11
12

TP3

13
9
8
7
6
IC47

RES

5

HD

20

VD

19

OSC

9

+5V
6

MD0

7 MD1

WAIT

76

5

14

24-31

3

D0-D7

MD2
8

4, 5

BRD1

P03

D7

P14

A0
A1
RESET

P15

A0, A1
32

RD

44

RD

WR

35

WR

2

CS

43

P00

FB REF

41
S1

ZEBRA
TALLY
TRIG

1

2

39

3

4

38

5

6

37

7

8

36

TALLY

RET SW

D0

RES

-2.8V

BUFF

LD (TG)
LD (CCD)

+4.8V

P24
18-2, 21-1,
22-2, 24-5

LENS, 1-5

TP2

P22

TFI2

IRIS CONT OUT 1-61

AMP

7
2 4
DEC

12

TFI1

5 +2.5V 7
REG.

CCU CONT IN

1-57 REC TALLY IN

1-30

A0(PR)

LD

6

A14

7

5

E

Q6
VF, 1-B6

PR, 1-52

WR(PR)

IC25
P16

ZEBRA
MB, 12-25

1-31

IC12
1

AMP

I/O
EXP.

CS 17-1

+3.1V
1-84

PR, 1-68

RD(PR)

STB

38

15

—

+7.3V IN

3

39

24-9
24-10

A19

+7.3V
1-94

1-39

IC13
P06

P20

EXTAL

+9.3V IN

1-93

PR, 1-66

DB7(PR)

RST

TMC1

+9.3V
1-90

2

40

WR

I/O8

A14
OE

20
CE
2-12, 23,
25-30
A0
A0-A17

+5V
REG.

2.5V REF IN

1-38

OE

+2.5V
1-89

PR, 1-64

DB6(PR)

U/D

IC4
DA,1-89

1-37

COUNTER

OSC

43-5
45-5

IC4, Q1
+5.1V
+5.1V

16

17
IVH

WR

FTCI3

+5.1V

1-91

4

22

44
35

P13

46
TMR1
47
FTCI1
48
FTCI2
49

VTR RST IN

1-92

PR, 1-62

DB5(PR)

2

RESE

32

IC17-24

69
IF, 1-28

31

RD

VDD

HD

40-2

14

A

2

RYD

RES

VD

1

CD0
CD7

24-31

TMC
SG, 1-55

D0-D7

D0-D7

RD
10

1

VD IN

40-3
42-2
44-2

1-36

CHU DATA OUT 1-5
IC29

1

P12
TXD

BACK UP

HD IN

PR, 1-60

DB4(PR)

IRIS

P11

RES

IC40-45
1-43

1-35

BRD0

CSN

A0-A14

IVH

SG, 1-49

3

CM I/F

PR, 1-58

DB3(PR)

EN

4

A0, A1

RESET IC

1-44

39

1

4

BRD1

44

IC3
11

BUFF

SG, 1-50

X2
14
X3
12
5 3.3V
A4
X4
CONV.
3
B1
Y1
5
B2
Y2
A3

PR, 1-56

1-34

1

4, 5

13

1

D2 C15 R16

2

+4.8V
14

IC3

BUFF

VIN

37
61

16

PR, 1-54

1-33

DB2(PR)

IVH

T1OUT T1 IN

3

2
IC3

CLK

18

1-32

DB1(PR)

P13
73

DET

Q2(2/2)

+4.8V

RDN
WRN

X1

A2

17

1

P92
P93

D20, C80
8

RS-232C I/F

VBAT

A1

DB0(PR)

14

RIN1 ROUT1

2

8

1

9

IC1

1-7 CA DATA IN/OUT

+5.1V

38

4

6

3

Q2(1/2)
MB, 12-24

D0-D7

6

A1

1

IC4

BT1

D7

A0

IC3

RES
8

AMP

1-8

D0

A2

32-6, 33-2

µ-COM

0
1

A0

BTVD
23
NEW TVD

IC9
DR, 1-16

40

IC32-34

SCK

58

43

45

68
1

RD
WR
72

IC7
12

1

AMP

14

DR, 1-15

O

IC9
3

ATT
IC5

DR, 1-14

57

7

G

15

56

14

DB0-DB7

IC39

55
LENS, 1-7

A7

DIR

23

ADDRESS BUS

—

MB, 12-12

RD

1

3

A0-A17, A19

—

3

1-47 AUDIO LEVEL IN

65
53

3-10

A0

B7

21-28, 30-39, 41

—

MB, 12-13

IC11

A0

2

—

RV1
AUDIO

GAIN
CONT
4

—

1

2

B0

D0-D7

DATA BUS

D7

IC5

IC38

15-22
D0-D7

—

13-20

D0

AN0

—

52

—

6

—

AMP

IC16

IC5
G PEAK 7
GAIN

5

8

10

G PEEK IN

—

1-74

—

IC5
IF, 1-18

10
TP5

PB REF

11

TRIG

12

RET SW

13

P02

P16
P01
P17

P13
P12

P04
P05

P11

1

19

2

20

3

21

4

CHARA
GEN.

HD
VD

17

GBLK

16

OSCIN RBLK
VG
BUST

13
12

VR

P10

P20

P24

P21
P23

PR, 1-42

CHAR VF OUT 1-28

IF, 1-44

TITLE OUT

1-26

PR, 1-40

VF RGB IN/OUT 1-80

VF, 1-B7

CS
DATA

42
Q3 (2/2)

22

BUFF
Q4 (1/2)

18

BUFF

AUTO +5V OUT 1-60

16

REM/LOCAL

Q5 (1/2)

15

BUFF

P25
P26

14

BUFF

9

1-62

LENS, 1-8
LENS, 1-9

VF 16:9/4:3 OUT 1-76

VF, 1-A6

ABNORMAL OUT 1-78

VF, 1-B4

TALLY ON OUT 1-85

Q4 (2/2)
8

IF, 1-29

BUFF

G TALLY OUT

1-77

VF, 1-A5

Q3 (1/2)

VTR S/S OUT

1-52

MB, 12-6

BUFF

PET EN OUT

1-50

7
6

79
2
1

TMC

IF, 1-50

TITLE BACK OUT 1-25

Q5 (2/2)

P07

P22

CHAR BACK OUT 1-27

CLK

P06

P27

TMO

40

PLC

MB, 12-15

IC15
D

FF Q
R

5

WINDOW OUT 1-45

IF, 1-25

61

FTOA2
50
FTOA1
62
FTOA3

V RESET OUT

1-23

PEAK RST OUT 1-46

SG, 1-21
IF, 1-26

AT-95 BLOCK
BVP-550

CONTROL BUS
BVP550-AT95BLOCK#1/M

BVP-550

7-5

7-5

SG-234

SG-234

SG-234 BOARD
*1 CA-550 only
Q21

Q5, 6, 8, 9, 17
CABLE
COMP.

GEN LOCK(X)

Q205
BUFF

Q16
MB, 11-30

IC42
2

7

1

AMP

IC46

1 6

7

5

1-5

IC46

7

IC17
CABLE 1
COMP.

6

IC206, Q204

5

5

5

H CONT 2 IN

1

1

1

7
*1

6

+4.8V

IC47
6

MB, 12-19

IC24
IC204

1-79 GEN LOCK(G)/H CONT 1

DET

-4.8V

Q22

5
1
2

4
201

Q11

IC5, Q7, 18(2/2)

BUFF

SYNC
SEP
Q10, 12, 14, 15, 18(1/2)
BURST
SEP BPF
CONTROL

Q202, 203
POWER
SW

13

6

25

25

7

59

14

57

EXT SYNC IN

EXT SC IN
HD
VD
SYNC
BF
BLKG
CF
LALT
2FH

Q20
4

MB, 12-16

1-19

2

IC13 (1/3)

D7, C47

5

4 V RESET

3
IC200, 201
IC202, 203
200-2
200-8 202-1, 2
1H
203-4
GEN
203-2

*1
AT, 1-23

1-21

V RESET 2

200-3,
201-2

DI

IIC DATA

AT, 1-19

1-1

LD (SG)

AT, 1-13

1-2

IIC CK

1
3

+4.8V

3
1, 2

8

8
IC21

7

6
5

14

2

13

25

18

VRST IN

SYNC2

IC16

10
11
42

15

D1/PRE BLKG

13
14

OLD/NEW CA

11

6

35

9
CAMPLE

16

A03-A08

Q25

8
9
12
13

TD1
TD0
TCK

Q24

C.COMP ON
CF ON/OFF
GENLOCK OFF

INT/EXT

Q201
SCL

N/P OUT

2

11

FSC ADJ CTL

4

18/36M IN

IC18, Q23
P. ON
RESET

IF, 1-36

HD
VD
SYNC
CF

1-6
1-9
1-8
1-7

MB, 12-22
MB, 14-17
MB, 14-18
MB, 14-15

IC42
14
BUFF 12

HD
VD

1-49
1-50

AT, 1-43
AT, 1-44

HD
VD
SYNC
BF
BLKG
CF
LALT
2FH

1-40
1-41
1-42
1-43
1-44
1-45
1-46
1-47

PR, 1-53
PR, 1-55
PR, 1-57
PR, 1-59
PR, 1-61
PR, 1-63
PR, 1-65
PR, 1-67

DL BLKG
DL SYNC

1-25
1-23

DA, 1-8, IF, 1-14
DA, 1-6, IF, 1-12

25

9

BLKG
NRWBLKG

1-4
1-39

MB, 1-20
PR, 1-51

SAMPLE
SAMPLE
SAMPLE

1-10
1-18
1-17

MB, 14-19
VA, 1-9
DA, 1-4, IF, 1-4

TD1
TD0
TCK

1-34
1-32
1-30

MB, 3-34
MB, 3-32
MB, 3-30

INT / EXT

1-35

PR, 1-105

N /P OUT

1-36

VA, 1-41,
PR,1-106,
DA, 1-41

SC CONT

1-78

PR,1-114

VCO CONT OUT

1-68

TG, 1-5

18MHz (X) OUT

1-12

MB, 3-12

18MHz (X) OUT

1-55

AT, 1-55,
DA, 1-46

36MHz OUT

1-57

DA, 1-48

IC30, 42
30-7

42-13
42-11

BUFF

42-7
42-9

72
73
74
8

58
75

4

35

12

35

IC38

2
1

16

Q

D

FF

Q

5
3

RD

6

HR SEL

H CONT OUT1
+3.1V

6
8

30-13

6
22

1-51

11, 18,
21-24

SDA
ACK

2

14
16
BUFF 12
18

IC42
16
BUFF 18

4

27
26

DELAY

11

8bit
D/A

EEPROM

10

3

9

18
A01
19
A02
A03 2-7

LD
A08
CK A09
A10
A11
12ch A12

2

11

6
4
8
2

4
11
5
6
7
12
9
8

IC13 (2/3)
12

NRWBLKG

—

1-3

5, 6

VR SEL

Q200

IC12
AT, 1-14

DET

16

35-6
11-1
20-2

20-4

15

V RESET 1 / CF

25

IC11, 20, 35

IC13 (3/3)
1

GEN VIDEO OUT

IC30

A03-A08

1-80

DELAY CONTROL

MB, 11-29

H CONT OUT2
CLR
TDC OUT

12

3
62 17
63 15

35
35

25

8

3

37

3

5

IC36
MM a

12

5

52

9 1
2 37

7

IC36
13

7

35

MM

4

a

7

DELAY CONTROL

15

4

FL1
PR, 1-109

1-76

2-A80
2-B80

1-91
1-92
1-89

7.3V
7.3V

5.1V
5.1V
2.5 REF

1-87
1-88

-5.1V
-5.1V

1-83
1-84

3.1V
3.1V

1

LPF

SC (X) IN

2 43

Q1, IC3
+7V
REG.

+7V

Q2, IC3

+4.8V

1
2

4

39

1

4

IC32
2

5

IC41
7

AMP

6
1

7

IC40

5

626

+4.8V
REG.
7
3
Q4, IC3
-4.8V
REG.

5

35

IC34 VBS GENLOCK
2, 6 MODE 5
H
COMP.
3

IC33
4 3

IC32
AMP

IC33
14
13

PR, 1-109

1-59
1-61

AMP

12

14

11

-4.8V

+3.1V

PR, 1-107

IC32

1 12

11

30

9

H CONT
2

18MHz (X) IN

2

36MHz IN

45
31

4
4

SG-234 BLOCK

BVP550-SG234BLOCK#1/M

BVP-550

7-6

7-6

BVP-550

DA-88

DA-88

DA-88 BOARD
Y(18)
PR, 1-38
PR, 1-36
PR, 1-35
PR, 1-34
PR, 1-33
PR, 1-32
PR, 1-31
PR, 1-30
PR, 1-29
PR, 1-28

1-42
1-40
1-39
1-38
1-37
1-36
1-35
1-34
1-33
1-32

Y (L) IN
Y (1) IN
Y (2) IN
Y (3) IN
Y (4) IN
Y (5) IN
Y (6) IN
Y (7) IN
Y (8) IN
Y (M) IN

PR, 1-26
PR, 1-25
PR, 1-24
PR, 1-23
PR, 1-22
PR, 1-21
PR, 1-20
PR, 1-19
PR, 1-18
PR, 1-17

1-30
1-29
1-28
1-27
1-26
1-25
1-24
1-23
1-23
1-21

R-Y (L) IN
R-Y (1) IN
R-Y (2) IN
R-Y (3) IN
R-Y (4) IN
R-Y (5) IN
R-Y (6) IN
R-Y (7) IN
R-Y (8) IN
R-Y (M) IN

1-11
Y0-Y9

Y0-Y9

24-22
DLYO-DLY2

21, 20, 18, 17
DLY3-DLY6

42

DI0
DI9

IC7

IC4
36-31, 29-26
DO0
DO9

19-28
YB0 - AYB9

B0
B9

B0

58

FL6

Q48, 49

LPF

BUFF

Q50-53
NEG:1.0Vp-p

AMP
IC23,Q54

PSE0
PSE2

FBC
R-Y(18)

DDL
PSW0
PSW3
G0

FL7

Q67, 117

LPF

BUFF

NEG:0.76Vp-p

54

IC28, Q110,-112

Q73

ATT

BUFF

AMP

CLK

IF, 1-72
IF, 1-70
IF, 1-68

R-Y (X) OUT 1-61

MB, 11-24

B-Y (X) OUT 1-59

MB, 11-25

TP4

R-Y

Q68-71

Y (X) OUT 1-71
R-Y (X) OUT 1-69
B-Y (X) OUT 1-67

Q75, 79
INV.
AMP

IC27,Q72
FBC

PR, 1-15
PR, 1-14
PR, 1-13
PR, 1-12
PR, 1-11
PR, 1-10
PR, 1-9
PR, 1-8
PR, 1-7
PR, 1-6
SG, 1-55

1-19
1-18
1-17
1-16
1-15
1-14
1-13
1-12
1-11
1-10

1-11
RY0-RY9

24-22
DLYO-DLY2

21, 20, 18, 17
DLY3- DLY6

42

1-11

B-Y (L) IN
B-Y (1) IN
B-Y (2) IN
B-Y (3) IN
B-Y (4) IN
B-Y (5) IN
B-Y (6) IN
B-Y (7) IN
B-Y (8) IN
B-Y (M) IN

1-46 18MHz (X) IN

RY0-RY9

BY0-BY9

BY0-BY9

DI0
DI9

IC5
36-31, 29-26
DO0
DO9

9-18
RYB0 - RYB9

21, 20, 18, 17
DLY3- DLY6

42

2

PSE0
PSE2

VD IN

AT, 1-14

1-3

IIC DATA

LPF

R0

TP5

Q87-90

BUFF
+5V

PSW0
PSW3

IC24

8 13

8

5

MM Q

CLK
SW1
A

IC6
36-31, 29-26
DI0 DO0
DI9 DO9

63.64,1-9
DYB0 - DYB9

+4.8V

R0
R9

1
2 107

DO0
PSW0
PSW3

4

2

101

2
1

2 110

4 2
1 108

102

6
5

102

7

6

3

INH
DL SYNC

6

19

1
2 8

6

12
11

IC27
15 5 LEVEL
CTL

B-Y SPL LEVEL

15,1-7

+4.8V
2

DLY0-DLY7

Q7
S
P
µY7
CONV.
LD
9
DO

IC3
RESET

1
2 9

6

4

29
42
41
40

Q20

IC13
14

12
11

Q0
Q1
Q2
S
P Q3
CONV. Q4
Q5
LD
Q6
Q7
DI

15
1
2
3
4
5
6
7

D/A BLK OUT
WD/NR
LEV1
LEV2
TRIAX/VTR
SETUP1 ON/OFF
SETUP2 ON/OFF
SKIN GATE ON/OFF

AMP

IC27
LEVEL
CTL

8

IC29
SETUP2 LEVEL

6
1
7

BLK
SETUP Y
DL BLKG

VRB
CRG
VRR

4

19

1
4 SETUP 2 ON/OFF
2 106

16

2.5V REF OUT 1-89

Q2, IC2
-5V
REG

9
Q83, 84

8

-2.5V

RCK
SETUP 2

2

Q3, IC2
-2.5V
REG

IC26
4 10

BCK

GCK

1-92

7

10
5

BUFF

IC36

+4.8V

32

3

REG
CONT

10

IC26

3
33
3

Q0

2

1
4 R-Y" SYNC ON/OFF
2 105

14

B-Y SAMPLE
6

1-91

+5.1V

IC2
R-Y SYNC LEVEL

R-Y SYNC

4

+5.1V

IC1

1

CLK

Q1, IC2
+5V
REG

5

INH
B

PSE0
PSE2

4
5 8

DI

BUFF

1

11

14

ATT

NEG:0.76Vp-p

Q94, 98
INV.
AMP

7

9

IC10
1 EEPROM
A0
5
2
SEA
A1
3
A2

Q92

FBC

6

34

8

IC28, Q113-115

AMP
IC27,Q91

DDL

IC35
1-43

Q85, 86

4
9, 10

SG, 1-50

FL8
50

24-22
DLYO-DLY2

B-Y

B-Y(18)

G0
G9

3

IC27
LEVEL
CTL

-4.8V

-2.8V
-2.8V

1-85
1-86

-5.1V
-5.1V

1-87
1-88

+3.1V
+3.1V

1-83
1-84

+7.3V
+7.3V

1-93
1-94

AT, 1-89
SG, 1-89
IF, 1-89

1
+3.1V

10
IC26

Y SPL LEVEL

Y-SAMPLE
SN
A
B
INH

CHAR VF
CHAR ON

1
2 104

SAMPLE 2

13

19

12

IC27
14 12 LEVEL 14
CTL

13
1
4
2 109

4

1
4
2 103

7

+7.3V

Y SPL" ON/OFF
11
B-Y SPL" ON/OFF

INH
SETUP Y
V SPL

SKIN GATE OUT

IC14
17

AT, 1-13

1-2

IIC CLK

AT, 1-17

1-1

LD (DA) IN

SG, 1-25
AT, 1-28
SG, 1-23

1-8
1-51
1-6

DL BLKG IN
CHAR VF
DL SYNC IN

1-4

SAMPLE 2 IN

SG, 1-17
PR, 1-117

1-76

1, 2
2

12
11

4
4

DI

A01
A02
16
A03
A04
15
A05
LD
A06
D/A A07
CONV. A08
A09

18
19
2
3
4
5
6
7
8

Y LEVEL
R-Y LEVEL
B-Y LEVEL
SETUP 1
SETUP 2
Y SPL
R-Y SYNC
B-Y SPL
CH ARC ON/OFF

SETUP 1 LEVEL
SETUP 2
Y-SAMPLE
R-Y SYNC
B-Y SAMPLE
CHAR ON
DL BLKG
2

15

19

19

1
4
2 100

18
CHAR VF
DL SYNC
SW1
SAMPLE 2

5

IC16, 18, Q25, 26
LEVEL
CTL

SETUP 1 ON/ OFF

SKIN GATE

1-5

IF, 1-15

Y (X) OUT

1-63

MB, 11-23

Q19, 23
INV.
AMP
(1.0Vp-p, 0Vdc)
TP3

Q9,12 FL2

IC15
7

H1-Y (X) IN

Q13

LPF

1

IC25, Q107-109

Q22

AMP

ATT

BUFF

YsH

Q59, 63
INV.
AMP

IC16, Q18

LPF
SW

BUFF

6

Q10, 11 FL3

Q14-17

5

FBC

WD / NR

IC17
6
-5V

17

19

1
7

3

(1.0Vp-p, 0Vdc)

5

A

1
2

7
Q33
BUFF

INH

1
2

B

VBS

Q43, 44
INV.
AMP

VBS (X) OUT 1-65

IF, 1-66

7
TP2

Q27, 30, FL4
PR, 1-115

1-74

C (X) IN

IC20
7

LPF

1
6

Q28, 29, FL5
LPF
SW

Q102

Q103, 104

Q32

Q34

BUFF

AMP

BUFF

BUFF

C (X) OUT

1-55

MB, 11-27

5
WD / NR

Q45-47, 106
8

19

12

VARIABLE
LPF

VTR SYNC OUT 1-7

MB, 12-14

Q105

SG, 1-36

1-41

N/P IN

PR, 1-119

1-78 VF-Y (X) IN

Q4

Q4, FL1

Q100, 101

Q7

Q8

BUFF

LPF

AMP

BUFF

BUFF

VF- (X) OUT 1-80

IF, 1-80

DA-88 BLOCK
BVP-550
BVP-550

7-7

7-7

BVP550-DA88BLOCK#1/M

IF-510

IC601

IF-510 BOARD
DA, 1-65

1-66

IF-510

3
RV101
VBS GAIN

Q109

Q1, Q2

Q101-Q103

VBS (X) IN

BUFF

BUFF

IC101
7
1

A0 EEPROM
A2
SDA
A1
SCL

IC153
5

8BITS Q7
S
P
14

AT,
AT,
AT, 1-15

1-3
1-2
1-2

IIC DATA
IIC CLK

Q6

D
1, 2

151

7

1
7
2 154

CVF CHR & CURSOR
ON/OFF
6

CK
152

5 TEST SEL 2
Q5
4 TEST SEL 1
Q4
3 MONI SEL 2
Q3
2 MONI SEL 1
Q2
1 CHARA ON/OFF
Q1
15
Q0

LD

1-10 CORSOR 1 IN
1-9 CORSOR 2 IN

PR, 1-44

1-7

6
5

3

IC308
152-2

1
7
2 309

308-4

308-1

4
6
5 151
+4.8V
2
7
1 307

151

11

6
3
5 307

Q205
VF-Y (X) IN

1-8

CHAR BACK IN

12
14
15
11

IC202
0
1
2
3
A
10

ATT

IC200
6
1

ATT

1-45

IC206
3 OUTPUT 6
AMP

Q211
13

BUFF

MB, 15-1

MONI (X) OUT 1-49
VF (X) OUT 1-78

MB, 12-3
VF, 1-A3

9

+4.8V

Q206

Q209

BUFF

BUFF

IC12, Q10
+4.8V
REG

+5.1V
+5.1V

2.5V REF IN 1-89

Q272
IC12, Q20
-4.8V
REG

5
6

PB REF IN

304

2

3
6

5
3
6 154

SYNC
TIP

306

-2.5V
REG

6

3

Q251

S1

IC301

SG, 1-49
SG, 1-50

1-40
1-39

2

RET

1-53 RET VIDEO (X) IN
2

SG, 1-23

5
6

309

3

Q405

Q403, 404

Q500

Q501, 502

Q503

Q504, 505

1-25 WINDOW IN

DA, 1-69

1-70

1, 2

502

502

1

BUFF

VF Y (X) OUT 1-76

VF, 1-B8

R

B

R (X) OUT

1-63

G (X) OUT

1-61

MB, 11-17
MB, 11-?

B (X) OUT

1-59

MB, 11-19

(0.7Vp-p, 0Vdc)

G PEAK OUT 1-18

AT, 1-74

VF R-Y (X) OUT 1-75

VF, 1-A9

VF B-Y (X) OUT 1-74

VF, 1-B9

G
PEAK
DET.

3

7

R-Y (X) IN

BUFF
+4.8V

IC410
6

5

Q422

+4.8V

IC420

Q424

7
6

BUFF

1

Q423
BUFF

Q352, 354

BUFF

1

Q413

BUFF

B-Y (X) IN

Q414

7

BUFF
Q420, 421

1-48

MB, 12-23

(0.7Vp-p, 0Vdc)

Q509, 510
IC500, 501

Q410, 441

SG, 1-36

SKIN GATE OUT 1-16

G

Q412

1-68

PR, 1-39
PR, 1-41

SKIN GATE

5

Q507, 508

5, 6

INT/EXT HD OUT 1-6
INT/EXT VD OUT 1-5

Q406

6

BUFF

+

AT, 1-45

8
6

BUFF

7

1-26 PEAK RESET IN

TIMING
PULSE
SW'er

Q430, 431

BUFF

Q506

1-90

(1.0Vp-p, 0Vdc)

Q401, 402

DA, 1-67

JITER

4

404

Y (X) IN

AT, 1-46

2, 13

2
7
1 310

5

306

2

1-12 DL SYNC IN

1-72

7

INT HD 12
INT VD 1

IC400

DA, 1-71

306

IC302, 303, 351
303-1, 13
303-6 EXT ND 10
303-8 EXT VD 5
302-2
302-12
DE

HD IN
VD IN

1-15 SKIN GATE IN

+9.3V

+9.3V

302-3, 3, 11,
351-3

5
3
6 310

DA, 1-5

1
SYNC HD
3
IN SEP.
VD

SC
L250, C252
TRAP

4

352

3

1-85
1-86

BUFF

GEN

1-34 18MHz (X) IN

-2.8V
-2.8V

-2.5V

1

SG, 1-55

1-87
1-88

IC12, Q30
5

FF Q
Q
2

-5.1V
-5.1V

-4.8V

IC322

MB, 12-1

1-91
1-92

5

1
7
2 304

1-36 GELOCK (X) IN

TEST (X) OUT 1-43

B

BUFF

Q250
SG, 1-51

OUTPUT 6
AMP

10

IC305
MB, 12-17

CN, 1-16

A

ATT

Q273
12, 13

3

BUFF

Q271

9
8
10 151

1-80

RM VBS (X) OUT 1-21

3

BUFF

7

AT, 1-27

13

1
2

Q210

IC152

CHAR VF IN

DA, 1-80

OUTPUT 6
AMP
IC641

Q207, Q08

0

B

SKIN GATE
ON/OFF
PR, 1-43
PR, 1-45

12
14
15
11

5

9

12

7

MB, 11-21

IC201

RM CHR
ON/OFF

11

3

1, 2

LD (IF) IN

3

BUFF

IC155
1
3
2
6

VBS (X) OUT 1-57

IC621

Q110

6

+4.8V

OUTPUT 6
AMP

5
N/P OUT

N/P IN

1-47

VF, 1-B3

TALLY OUT 1-27

VF, 1-B5

Q701, 703
CN, 1-19

AT, 1-58

1-82

TALLY
DRIVE

UNREG
2
1

1-29 TALLY ON IN

IF-510 BLOCK

+9.3V
702

4

BVP-550

IC701 (1/2)
MB, 12-18

1-31 REC TALLY IN

3

COMP

1

REC TALLY OUT 1-30

AT, 1-57

VTR RESET OUT 1-28

AT, 1-53

IC701 (2/2)
5

COMP

7

7-8

7-8

BVP550-IF510BLOCK#1/M

BVP-550

Section 8
Schematic Diagrams
1

LOCATION OF PRINTED CIRCUIT BOARDS

SW-732
2

MB-602
CN-1120
PR-211
CN-1121
CN-1142

3

IF-510
DA-88
CN-1122

SG-234
AT-95
VA-163

4

SW-730
SW-731

SW-733

SW-742

5

8-1

BVP-550

I

J

K

L

8-1
M

N

O

P

VA-163 (1/2)

VA-163 (1/2)

BVP-550 (SY)

1

VA-163 BOARD

2/2
2/2
2/2
2/2
2/2

———————————
VA-163 (1-657-438-21)
———————————
*: B SIDE
CN1

C-1

CT200 B-4
CT300 D-4
CT400 F-4
D1
D2
D3
D4
D5
D7
* D8
* D9
* D10
*
*
*
*
*

2

A-3
A-2
A-2
A-3
B-3
B-3
F-3
F-3
F-3

FL200 C-3
FL300 D-3
FL400 E-3

*
*

3

*
*

*
*
*
*

4

*
*
*
*
*

IC1
IC3
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC21
IC22
IC23
IC24
IC25
IC26
IC27
IC200
IC201
IC202
IC203
IC204
IC300
IC301
IC302
IC303
IC304
IC400
IC401
IC402
IC403
IC404

A-3
B-2
B-3
B-2
B-3
F-4
F-4
F-2
F-2
F-2
F-2
F-2
F-3
G-3
G-3
G-2
G-3
G-2
G-1
B-4
B-3
G-1
F-1
F-1
F-1
C-4
C-3
C-2
B-2
B-1
D-4
D-3
D-2
C-2
C-1
E-4
E-3
E-2
D-2
E-1

L1
L2

A-2
A-3

* Q1
* Q2
* Q3
Q4
Q5

A-2
A-2
A-3
B-3
A-3

* Q7
Q10
Q11
Q12
Q13
Q14
* Q200
* Q201
* Q202
* Q203
* Q204
* Q205
Q206
* Q207
* Q208
Q209
Q210
Q211
Q212

A-3
A-4
A-4
A-4
A-4
A-4
B-4
B-4
C-4
C-4
C-4
C-3
B-3
C-3
C-3
B-2
C-2
B-2
C-2

3
4
5
1
7

C
GSL 2
GSL 1
TEST SIG
V SAW
C124
15
6.3V

IC200(1/4)
TL064CPW-E05

* Q213
* Q214
* Q215
Q216
Q217
* Q218
Q219
Q220
* Q300
* Q301
* Q302
* Q303
* Q304
* Q305
Q306
* Q307
* Q308
Q309
Q310
Q311
Q312
* Q313
* Q314
* Q315
Q316
Q317
* Q318
Q319
Q320
* Q400
* Q401
* Q402
* Q403
* Q404
* Q405
Q406
* Q407
* Q408
Q409
Q410
Q411
Q412
* Q413
* Q414
* Q415
Q416
Q417
* Q418
Q419
Q420
RV50
RV200
RV300
RV400

C-1
C-1
C-2
C-2
C-1
B-1
C-1
C-1
C-4
C-4
D-4
D-4
D-4
D-3
D-3
D-3
D-3
D-2
D-2
D-2
D-2
D-1
D-1
D-2
D-2
D-1
C-1
D-1
D-1
D-4
E-4
E-4
F-4
E-4
E-3
E-3
E-3
E-3
E-2
E-2
E-2
E-2
E-1
E-1
E-2
E-2
E-1
E-1
E-1
E-1

C200
4.7
20V
:TA-B

IC201
TC4W53FU(TE12R)

C201 C202 C203
33
0.1
0.1
16V
:TA-D

C204
10
6.3V

R209
20k

MB,21-6(BVP-550)
MB,14-6(BVP-500)

74

R(X) IN

Q205
2SA1226-T1E4

R200
1k

C125
15
6.3V

Q206
2SC4178-F13F14-T
1

IC202(1/2)
CXA1486Q-TH

Q207
2SA1610-T1Y34

R202
4.7k

R203
5.6k

R207
5.6k

R211
10

Q201

CN1(74/100)

TP200

R265
20k

12
13

14

5
6

7
R269
1k

C239
1
25V
:TA-CA
C259
1
25V
:TA-CA

4

11

R215
330

2 4 8

CT200
R235
150

R FREQ

18

FL200

1

R230
39k

Q205
R241
2k

R263
1k

IC300(1/4)
TL064CPW-E05

C300
4.7
20V
:TA-B

C301
0.1 C302
33
16V

IC300(2/4)
TL064CPW-E05

IC301
TC4W53FU(TE12R)

Q300
2SA1611-T1M7

R301
20k

C303
0.1

C304
10
6.3V

R248
2.2k

R249
0

12
13

14

4
5
6

7
R369
1k

C339
1
25V
:TA-CA
C359
1
25V
:TA-CA

Q306
2SC4178-F13F14-T
1

Q305
2SA1226-T1E4

R300
1k

11

R302
4.7k

MB,21-3(BVP-550)
MB,14-3(BVP-500)

R335
150

TP200 D-4
TP300 E-4
TP400 F-4
17
18

IC400(2/4)
TL064CPW-E05

Q303

C401 C402
0.1
33
16V

R401
20k

C403
0.1

C404
10
6.3V
:TA-B

302
19

R330
39k

Q307

R349
0

R465
20k

12
13

7

C439
1
25V
:TA-CA
C459
1
25V
:TA-CA

4
5
6
11

Q406
2SC4178-F13F14-T
1

Q405
2SA1226-T1E4

R400
1k

R410
10

R415
330

2 4 8

C407
27p

21

24

C314
1
25V
:TA-CA

23

12

R350
0

C317
4p

Q308
C318
0.1

C319
0.1

R351
100k

R352
10k

C330
1
25V
:TA-CA

IC402(1/2)
CXA1486Q-TH

Q408
2SC4177-T1L7

R403
5.6k
1/16W

CT400
R435
150

B FREQ
6
7

1

5 3

18

FL400

1 5
R422
820 2

C441
:n'm C440
:TA-CB 56p

401

R411
5.6k

28

R412
330

R413
1.5k

16

R423
100

19

R430
39k

Q405

R445
100k
R448
10k

R449
2.2k

26

R424
5.6k

14

R436
47k

R447
0

C416
0.1

C408
100
6.3V
:AL-C

WSH
GCTL

402

Q406

RV400
500

R416
1k

20

TRAP
Q402

IN
BSH

Q407

3 1/16W

2

GS1
GS2

ZERO

VEE

GND CLC1 CLP1 BLK1 LPF1 BLKG

5

3

21

31

C414
1
25V
:TA-CA

24

23

12

R450
0

C417
4p

Q408

C418
0.1

C419
0.1

R451
100k

R452
10k

RV400:B GAIN

A GND
R458
11k
C433
0.1
R463
1k

Q403
C428
33
6.3V

Q404
C429
10
6.3V

C434
0.1

C430
1
25V
:TA-CA

R459 R462
20k 30k

-2.5V
8

IC400(4/4)
TL064CPW-E05

B

31

VCC

CN1(69/100)

C432
22
10V

8
9
10
11

GND CLC1 CLP1 BLK1 LPF1 BLKG
3

Q401

R456
1k

2/2
2/2
2/2
2/2

VEE
5

Q407
2SA1610-T1Y34

R402
4.7k

R444
620

20

R336
47k

Q304
2SA1226-T1E4

R441
2k

2/2

14

R362
30k

6 4 7

19

R324
5.6k

ZERO

C334
0.1

C329
10
6.3V

R468
3.3k

R470
33k

2/2

GS1
GS2

C316
0.1

C437
0.1

R469
1k

B(G) IN

26

C308
100
6.3V
:AL-C

GCTL

20

TP400

69

R316
1k

WSH

CN1(70/100)

C438
1
25V
:TA-CA

MB,21-1(BVP-550)
MB,14-1(BVP-500)

R313
1.5k

2

Q400
R408
13k

B(X) IN

IN
BSH

R359
20k

Q304

C328
33
6.3V

Q400
Q401
Q402
2SA1611-T1M7 2SC2757-T1T34 2SA1226-T1E4

IC401
TC4W53FU(TE12R)

R312
330

3 1/16W
TRAP

R348
2.2k

+7V
+4.8V
C400
4.7
20V
:TA-B

70

R346
270k

Q303
2SA1611-T1M7

10
9

R252
10k

RV300:G GAIN

R358
11k

IC400(1/4)
TL064CPW-E05
2/2
2/2

MB,21-2(BVP-550)
MB,14-2(BVP-500)

16

R323
100

1 5
2

RV300
500

R356
1k

8

R251
100k

Q308
2SC4177-T1L7

28

Q305
R345
620

IC300(4/4)
TL064CPW-E05

C219
0.1

C230
1
25V
:TA-C

18

FL300

Q306

R342
10k

Q302

R368
3.3k

B-4
C-4
D-4
F-4

C218
0.1

R304
5.6k

CT300

R322
820
C341
:n'm C340
:TA-CB 56p

R363
1k

C217
4p

VCC

C307
27p

6
7

C333
0.1

R250
0

Q301

CN1(71/100)

C332
22
10V

12

IC302(1/2)
CXA1486Q-TH

R341
2k

G(G) IN

71

23

24

C214
1
25V
:TA-CA

R303
5.6k

G FREQ

5 3

21

31

Q307
2SA1610-T1Y34

6 4 7
R370
33k

3

Q300

R315
330

301

5

Q204
2SA1226-T1E4

Q301
Q302
2SC2757-T1T34 2SA1226-T1E4

2 4 8
1

R236
47k

R262
30k

TP300

R365
20k

GND CLC1 CLP1 BLK1 LPF1 BLKG

C216
0.1

C337
0.1

C338
1
25V
:TA-CA

14
ZERO

VEE

C234
0.1

R311
10

CN1(72/100)

R224
5.6k

GCTL

GS1
GS2

R259
20k

C229
10 6.3V :TA-B

Q203
2SA1611-T1M7

R309
13k

G(X) IN

72

Q204

Q203
C228
33
6.3V

10
9

8

IC200(4/4)
TL064CPW-E05

26

C208
100
6.3V
:AL-C

RV200:R GAIN

R258
11k
C233
0.1

R246
10k

RV200
500

R256
1k

MB,21-4(BVP-550)
MB,14-4(BVP-500)

R245
300k

R(G) IN

C232
22
10V

R216
1k

Q208
R244
620

CN1(73/100)

73

2
WSH
202

20
19

Q206
6 4 7

IN
BSH

Q207

3 1/16W

2
TRAP

Q202

R268
3.3k

R270
33k

16

R223
100

1 5

R222
820

7
C241
:n'm C240
:TA-CB 56p

R213
1.5k

VCC

C207
27p

6
201
5 3

R212
330

28

C237
0.1

C238
1
25V
:TA-C

MB,21-5(BVP-550)
MB,14-5(BVP-500)

Q208
2SC4177-T1L7

Q200

PRE
CLP
CLP
CLP

Q403
2SA1611-T1M7

10
9

Q404
2SA1226-T1E4
N
M
L

14
13
12

2/2
2/2
2/2

BLKG
1
2
3

8-2
A

Q200
Q201
Q202
2SA1611-T1M7 2SC2757-T1T34 2SA1226-T1E4

R201
20k

14

5

IC200(2/4)
TL064CPW-E05

C

8-2
D

BVP-550

E

F

G

H

VA-163 (1/2)

VA-163 (1/2)

1

Q209
Q211
Q214
Q216
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
Q217
Q210
Q212
Q213
Q215
1
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
1

IC202(2/2)
CXA1486Q-TH

R204
30k

IC203
TC4W53FU(TE12R)

IC204
TC7S08FU(TE85R)

Q218
2SA1611-T1M7

Q219
XN6501-TW

R205
47k

C242
3.3
16V

Q211

VCC

1
10

VCC

4

CN1(54/100)

11
K-POINT

F-DET

202

27
VEE
22
R281 R253
4.7k 4.7k

C220
0.1

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

30

32

29

1

GND
13

C231
1
25V
:TA-CA

R219
2k

R221
:N'M
R271
100k

R231
1k

R228
8.2k

R220
750

IC200(3/4)
TL064CPW-E05

C209
3p

Q215

MB,7-9(BVP-550)
MB,11-9(BVP-500)

R233
2k
C211
1
25V

6

3
2

R229 1
2k

C210
:n'm

Q213

R FEED BACK IN

60

MB,7-14(BVP-550)
MB,11-14(BVP-500)

5V

R232
1k

R240
5.6k

6
1

C223
0.1

R272
100k

R254
0

CN1(60/100)

7
Q218

2

R238
2k

203
4 5 3

R237
1k
R247
20k

C212
0.1

R234
100
1/16W

8
Q214

R227
2k

VEE

C215
1
25V
:TA-CA

C243
4.7
10V

R218
11k
R226
10k

FB

C221
0.1

C235
0.1

54

Q216
R217
10

1

4
F-COMP

R280
33k

R(X) OUT

OUT

9

16

2/2

R214
10

Q210

7
K-SEL

2

Q212

10
R225
33k

B

R206
4.7k

C206

15

2/2

R208
2.4k

C205
0.1

8
Q209

6

Q220
XN6501-TW

R210
8.2k

15

KNEE SEL

4

R243
2k
C225
15
6.3V

C226
15
6.3V

R239
20k

D200
:N'M

C224
33
6.3V
:AL-C

-5V

5
1
204 2
3

R242
100
1/16W

Q219
R255
10k
1/16W

C213
:N'M

2

Q220
R257
3k

C227
0.1
CN1(53/100)

R(G) OUT

53

MB,7-10(BVP-550)
MB,11-10(BVP-500)

G(X) OUT

52

MB,7-7(BVP-550)
MB,11-7(BVP-500)

G FEED BACK IN

59

MB,7-15(BVP-550)
MB,11-15(BVP-500)

G(G) OUT

51

MB,7-6(BVP-550)
MB,11-6(BVP-500)

C222
:N'M
R260
10k

C236
0.1

R261
10k

R267
1.8k
R266
10k

R264
3k

7

Q309
Q311
Q313
Q316
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
Q310
Q312
Q314
Q315
Q317
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
1

IC302(2/2)
CXA1486Q-TH

IC304
Q318
TC7S08FU(TE85R) 2SA1611-T1M7

IC303
TC4W53FU(TE12R)

R305
30k

R306
47k
C342
3.3
16V

Q311

R308
2.4k

C305
0.1

R310
8.2k

VCC

11

Q309

VCC

10

14
5

11
K-POINT

F-DET

302

27

17

VEE
22
R381
4.7k

R353
4.7k

C320
0.1

Q312

R314
10

C306

Q315

5V

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

32

30

29

1

GND
13

R319
2k

R331
1k

C310
:n'm

R326
10k

C309
3p
R328
8.2k

IC300(3/4)
TL064CPW-E05

R320
750

Q313

C311
1
25V

3

R329 1
2k

R332
1k
R333
2k

6

R340
5.6k

2

R338
2k

6
7

1
2

C323
0.1

R372
100k

R354
0

C331
1
25V
:TA-CA

CN1(59/100)

Q318

303
4 5 3

R337
1k
R347
20k

C312
0.1

R334
100
1/16W

8
Q314

R327
2k

VEE

C315
1
25V
:TA-CA

C343
4.7
10V

R318
11k
R321
:N'M

R371
100k

FB

C321
0.1

C335
0.1

Q310

R317
10

2

4
F-COMP

R380
33k

3
CN1(52/100)

OUT

9

R307
4.7k

Q316

7
K-SEL

R325
33k

Q320
XN6501-TW

Q317

8

15

2

Q319
XN6501-TW

4

R344
2k
C325
15
6.3V

C326
15
6.3V

R339
20k

D300
:N'M

C324
33
6.3V
:AL-C

-5V

3

R343
100
1/16W

Q319

5
1
304 2
R355
10k
1/16W

C313
:N'M

Q320
R357
3k

C327
0.1
CN1(51/100)

C322
:N'M

R360
10k
1/16W

C336
0.1

R361
10k
1/16W

R367
1.8k

R366
10k

R364
3k

4

8

Q416
Q409
Q411
Q413
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
Q417
Q412
Q414
Q415
Q410
2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T
1
1
1
1
1

IC402(2/2)
CXA1486Q-TH

IC403
TC4W53FU(TE12R)

IC404
TC7S08FU(TE85R)

Q418
2SA1611-T1M7

R404
30k

R405
47k
C442
3.3
16V

Q411
R409
8.2k

VCC

6

11
K-POINT

F-DET

402

27

18

VEE
22
R481
4.7k

R453
4.7k

C420
0.1

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

32

30

29

1

GND
13

VEE

R418
11k

R419
2k

R421
:N'M
R431
1k

FB

C410
:n'm

R426
10k

C409
3p
R428
8.2k

8

Q414

R427
2k

R432
1k
R433
2k

R471
100k

Q413

3
2

R429 1
2k

R440
5.6k

R438
2k

C423
0.1

C412
0.1

R443
2k

C411
1
25V

R434
100

6
7

1
2

B FEED BACK IN

58

MB,7-13(BVP-550)
MB,11-13(BVP-500)

49

MB,7-10(BVP-550)
MB,11-10(BVP-500)

57

MB,7-12(BVP-550)
MB,11-12(BVP-500)

CN1(58/100)

Q418
403
4 5 3

R437
1k

6
R472
100k

MB,7-11(BVP-550)
MB,11-11(BVP-500)

IC400(3/4)
TL064CPW-E05

R420
750

R446
20k

C415
1
25V
:TA-C

C421
0.1

3

4
F-COMP

R480
33k

R417
10

50

R414
10

5V

OUT

9

B(X) OUT

CN1(50/100)
C406

Q415

7
K-SEL

R425
33k

R406
4.7k

Q416

Q410
Q412

10

13
3

Q409

VCC

Q420
XN6501-TW

Q417

R407
2.4k

C405
0.1

8

15

12

Q419
XN6501-TW

C425
15
6.3V

C426
15
6.3V

4
R439
20k

D400
:N'M

C424
33
6.3V
:AL-C

-5V

Q419

5
1
404 2
3

R442
100
1/16W

R455
10k

C413
:N'M

5

Q420
R457
3k

C427
0.1
CN1(49/100)

B(G)
C435
0.1

C443
4.7
10V

R454
0

C431
1
25V
:TA-C

C422
:N'M

R460
10k
1/16W

C436
0.1

R461
10k
1/16W

CN1(57/100)

R467
1.8k

+2.5V
NAM

16
15

2/2
2/2

R464
3k

OUT

FB GND

VA-163 (1/2)
BOARD NO. 1-657-438-21
LOT NO. 508- VA-163(1/2)

R466
10k

9

B-¥BVP550-VA163-12
B-¥ BVP550-VA163-12

1995.9.7

8-3

BVP-550

I

J

K

L

8-3
M

N

O

P

VA-163 (2/2)

VA-163 (2/2)
BVP-550 (SY)

1

SG,1-18

9

SAMPLE 3 IN

CN1(9/100)

Q7
IC1(1/4)
2SD596T1-DV345 TL064CPW-E05
D1
RD4.3UH-T1

2
1

1

R1
20k

3

C2
0.1

2

85
86

-2.8V
-2.8V

94
93

+7.3V
+7.3V

C1
10
10V
:TA-CB

CN1(85/100)

R2
10k

C4
10
10V
:TA-CB

C3
0.1

CN1(86/100)

Q1
2SB624-T1BV3

C5
10
10V
:TA-CB
C7
0.1

20

1/2

+7V

17

1/2

+4.8V

18

1/2

A GND

19

1/2

IC1(2/4)
TL064CPW-E05

CN1(94/100)
CN1(93/100)

-2.5V

4

C6
10
10V
:TA-CB

R3
22k

5

R4
10k

7
6

1
D2
RD4.3UH-T1

R5
47k

Q2
2SB1114-T1ZL
92
91

+5.1V
+5.1V

C8
0.1

IC1(3/4)
TL064CPW-E05

IC6(1/4)
TL074CPW-E05

CN1(92/100)

2.5V

CN1(91/100)
C9
15
R6
6.3V 22k
:TA-CB
C10
0.1
C12
47
6.3V
:AL-C

10

R7
10k

8
1

9

R8
10k

100
99
98
97

A
A
A
A

GND
GND
GND
GND

C14
1
25V
R10 :TA-CA
22k

CN1(100/100)
CN1(99/100)

CN1(97/100)

14
C17
47
6.3V
:AL-C

-5.1V
-5.1V

C13
1
25V
:TA-CA

CN1(98/100)

D4
RD4.3UH-T1

88
87

1

D3
RD4.3UH-T1
R9
1.5k

3

2
3 6

C11
22
10V
:TA-CC

1
C18
0.1

13
12

R11
10k

C15
33
10V

C16
22
10V
:TA-CC

11
C19
1
R12
25V
10k
:TA-CA

CN1(88/100)
CN1(87/100)

-5V

Q3
IC1(4/4)
2SD596T1-DV345 TL064CPW-E05

MB,7-24(BVP-550)
MB,11-24(BVP-500)

89

+2.5V REF OUT

CN1(89/100)
R13
100

IC3
REF-03GSR
1
2
3
4

R14
100k

4

MB,6-47/MB,23-3(BVP-550)
MB,10-47/MB,16-3(BVP-500)

8

A HD IN

CN1(8/100)

8
7
6
5

NC
NC
3
IN
NC
TEMP OUT
GND TR

R40
100

5V

IC23(2/4)
SN74HC08APW-E05

L1
22µH

R16
100k
1/16W

R15
100k
1/16W

MB,23-12(BVP-550)
MB,16-12(BVP-500)

13

PREBLKG IN

CN1(13/100)

Q5
XN6401-TW

R19
10

Q4
2SC4177-T1L7

R17
4.7k
1/16W

R18
10k

R20
10k

R21
3.3k

Q4

MB,23-13(BVP-550)
MB,11-1/MB,16-3(BVP-500)

5

12

H CLP 1 IN

CN1(12/100)

4

R22
10

Q5

14

6 3

6

2

5

5

D5
1SS302-TE85L

7
4 1

8-4
A

B

C

MB,16-14(BVP-500)

11

DC LP

MB,6-49/MB,23-4(BVP-550)
MB,10-49/MB,16-4(BVP-500)

7

A VD IN

MB,22-13(BVP-550)
MB,15-13(BVP-500)

14

V CLP 1 IN

CN1(11/100)

C20
10
10V
:TA-CB

C21
0.1

CN1(7/100)

C24
10
10V
L2 :TA-CB
22µH

C25
0.1

R23
2.2k

C22
0.1

R24
3.3k

C23
0.1

CN1(14/100)

-2.5V

8-4
D

BVP-550

E

F

G

H

VA-163 (2/2)

VA-163 (2/2)

Q12
XN6501-TW

5V

IC12(1/4)
TL074CPW-E05

C48
0.1

180k

5 4

2

IC12(3/4)
TL074CPW-E05

R65
2k

3

4

5
6

5V
C45
0.1

R42
12k

R47
10k

11

3

5

C50
6.8
6.3V

C46
0.1
35V

C73
18p

C49
0.1

R43
1.5k

R68
1k

7

IC15(1/4)
TL064CPW-E05

4 3

R57
47k

9
R49
10k

IC12(2/4)
TL074CPW-E05

D9
1SS302-TE85L

3

12

11
13
9

R70
1k

R46
2k

R52
10k

IC12(4/4)
TL074CPW-E05

R54
10k

1

C44
0.1

2

-2.5V

14

1

15

IC22(1/3)
TC74HC4053AFS-EL

17

13

C61 5V
0.1

R101
12k

5

Q10
XN6401-TW

IC22(2/3)
TC74HC4053AFS-EL

-2.5V

Q14
XN6401-TW

5V

R62
470k

16
5
3

3

9
4

15

R99
8.2k

17
6 8 7

R100
2k

R102
1k

C64
0.1

R114
20k

C68
0.1

R118
4.7k

R105
100

9
10
4

6 3

1
2

R111
100

2

15 5

22
6 8 7

6

3

4

1

2

5
22

4

CN1(26/100)

1
R112
8.2k

R108
2.7k

R115
2k

CN1(25/100)

R120
3.3k

14

R83
4.7k

IC17(3/3)
TC74HC4053AFS-EL

13
-2.5V
1/2

2

3
2
1

5
4

12
11
10
9
8
7
6
R55 5V
20k

5V
5V
R58
10k

R63
33k

R64
33k
R71
33k

R96
47k

V0G
V0F
V0E
V1F
V1E
PR
GND
V1A
V1B
V0A
V0B
V0C
V0H
V1G
V1H
LD
CLK
SD0
VSS
SD1
VDD
V1D
V1C
V0D

10
9
8
7
6
5
4
3
2
1

21

24

11
12
13
14
15
16
17
18
19
20

13
14
15
16
17
18
19
20
21
22
23
24

CLK
SD0
VSS
SD1
VDD
V1D
V1C
V0D

V0H
V1G
V1H
LD

13
14
15
16
17
18
19
20
21
22
23
24
7

20

VCC
A011

18

IC26
X24C02S-3.0-C700
0

R116
100k

8
7
6
5

NC
D0
LD
CK
D1
NC
NC
GND

R97
47k

C

IC16
MP7670AS-TE2

IC24
MB88351PFV-ER

VDD
NC
NC
AO4
AO3
AO2
AO1
NC
NC
VSS

R94
47k

VCC
NC

12
11
10
9
8
7
6
5
4
3
2
1

IC20
TC74HC595AF(EL)

16

1/2

R95
47k
R90
33k

VDD
A0
CPE
A1
26
SCL
A2
SDA
VSS

1
2
3
4

3

11
12
13
14
15
16
17
18
19
20

3

PR
GND
V1A
V1B
V0A
V0B
V0C

12
11
10
9
8
7
6
5
4
3
2
1
V0G
V0F
V0E
V1F
V1E
1/2

IC18
MP7670AS-TE2

10
9
8
7
6
5
4
3
2
1

R84
33k

IC11
TC7S04FU(TE85R)

R89
33k

R87
33k

VDA
AO10
A09
A08
A07
A06
A05
A04
AO3
VSS

R85 R86 R88
33k 33k 33k

3

AO12
D0
LD
CK
D1
AO1
AO2
GND

5 4

8
7
6
5
4
3
2
1

2

GND
Q7
Q6
Q5
Q4
Q3
Q2
Q1

5V

QH
CLR
SCK
RCK
G
S1
Q0
VCC

R53
20k

IC8
TC7S66FU(TE85R)

V SAW
C62
0.1

CN1(3/100)

C72
0.1

C63
0.1

5V
4

5V

R121
100

IC21
MB88346BPFV-EF

5 1
27 2

R122
100

2
3

IC19(1/4)
TL074CPW-E05

C59
0.1

C60
0.1

CN1(1/100)

4

C67
15
6.3V

C69
15
6.3V

C65
15
6.3V

C70
15
6.3V

C66
15
6.3V

C71
15
6.3V

3

LD(VA) IN

1

AT,1-20

IIC CLK

2

MB,11-18(BVP-500)

IC25
TC7S04FU(TE85R)

R W SHADING IN

66

MB,7-18(BVP-550)
MB,11-18(BVP-500)

G W SHADING IN

65

MB,7-19(BVP-550)
MB,11-19(BVP-500)

B W SHADING IN

64

MB,7-17(BVP-550)
MB,11-17(BVP-500)

W SHADING GND

63

MB,7-16(BVP-550)
MB,11-16(BVP-500)

CN1(2/100)

R123
100

3

R91
10k

5

IIC DATA

5
25

IC27
TC7S08FU(TE85R)
CN1(66/100)

7
19

5V

6

-5V
4
19
13

IC19(4/4)
TL074CPW-E05

R92
10k

3
1

11

19
2

10
8
19

IC23(1/4)
SN74HC08APW-E05

IC5(1/2)
TC74HC4538AFS-EL

+2.5V
PRE BLKG
CLP 1

16
8
9

1/2
1/2
1/2

CLP 3
CLP 2
NAM

11
10
15

1/2
1/2
1/2

GSL 2
GSL 1
KNEE SEL

9

R93
10k

4
5
6

1/2
1/2
1/2

CN1(63/100)

IC19(3/4)
TL074CPW-E05

4

L
M
N

IC5(2/2)
TC74HC4538AFS-EL

R28
10k

CN1(64/100)

IC19(2/4)
TL074CPW-E05

-5V

IC23(4/4)
SN74HC08APW-E05

CN1(65/100)

12

14

IC7
TC7S32FU(TE85R)

IC6(2/4)
TL074CPW-E05

IC6(3/4)
TL074CPW-E05

R29
8.2k

4

C40
6.8
6.3V

7

5
6

1/2
1/2
1/2

12
13
14

IC6(4/4)
TL074CPW-E05

R35
100
R32
:N'M

C26
150p

MB,7-21(BVP-550)
MB,11-21(BVP-500)

C27
100p

1

5

15

14 16

4
2
R38
1k

2

1
3

Cx

D7
HSM107S-TL

CxRx
Q

4

11

R25
10k

6

12
11

CX CXRX VCC
Q

3

10

RD

8
9

CN1(80/100)

R33
:N'M

CN1(77/100)

Q
GND

13

12

BLK SHAD
BLK SHAD
BLK SHAD
SHADING GND

78
79
80
77

MB,7-23(BVP-550)
MB,11-23(BVP-500)
MB,7-22(BVP-550)
MB,11-22(BVP-500)

R37
100

5

14
13
11
R31
2.2k

C31
100p

B
G
R
B

MB,7-20(BVP-550)
MB,11-20(BVP-500)

8

3
R26
2.2k

CN1(79/100)

7
Q
RD

R27
1k

12
R39
1M

CN1(78/100)

R36
100

9

5

5

10

R30
10k

5

2
1

13

R34
:N'M

C30
0.1

C32
0.1

VA-163 (2/2)

-5V

BOARD NO. 1-657-438-21
LOT NO. 508B-¥BVP550-VA163-12

8-5

BVP-550

I

2

4 3

9
10
11
12
13
14
15
16

4 3

MB,7-3(BVP-550)
MB,11-3(BVP-500)

-2.5V

2
R51
1k

MB,7-4(BVP-550)
MB,11-4(BVP-500)

26
25

TEST SAW(X) IN
TEST SAW(G) IN

R119

15

R80
4.7k
D10
1SS302-TE85L

IC14
TC7S66FU(TE85R)

18

1
2

16
3
5

B
1

1/2

1

-2.5V

Q11
XN6501-TW

R104
4.7k

R103
43k

R98
8.2k

5V

IC9(4/4)
LM339NS-E20

R106
4.7k

17

TEST SIG

IC22(3/3)
TC74HC4053AFS-EL

8
15

14
22

R117
2.7k

R110
2.7k

10

IC15(4/4)
TL064CPW-E05

R77
33k
C58
1
25V

5
12

R74
0

C53
470p

10

12
13

R79
4.7k

13
R60
47k

C51
6.8
6.3V

5V

11

RV50
5k

IC23(3/4)
SN74HC08APW-E05

2

R82
4.7k

12
C47
0.001

23

R69
2k

14
8

9

IC9(3/4)
LM339NS-E20

R50
10k

C57
1
25V

12

8
C43
0.1

9 10

IC17(2/3)
TC74HC4053AFS-EL

12

C55

R113
100

R107
2.2k

16

-5V

10

14

9

14

IC15(3/4)
TL064CPW-E05

R76
33k

11 0.1

IC13
TC7S66FU(TE85R)

5V

R73
0

6

9

IC9(2/4)
LM339NS-E20

R45
1.5k

4

2

1

12
13
17

0.1

5

6

11

8

15
9

R81
4.7k

15

C42
0.1

R44
1.5k

TEST

10

R67
2k

1

7

IC17(1/3)
TC74HC4053AFS-EL

R78
4.7k
D8
1SS302-TE85L

2

5

IC9(1/4)
LM339NS-E20
R48
10k

R61
1M

5V

4

R75
33k
C56
1
25V

5V C54

9

R72
0

C52
0.047
:FILM-C

R59
47k

-5V

2
C41
0.1

R66
1k

1

12

2

7
12
5V

R109
10k

IC15(2/4)
TL064CPW-E05

3

5V

Q13
XN6501-TW

1

5V
2.5V R56

R41
100

1

5V

IC10
TC7S04FU(TE85R)

J

K

L

8-5
M

N

O

P

AT-95

1

AT-95

AT-95 BOARD
————————————
AT-95 (1-657-448-21)
————————————
*: B SIDE
BT1

B-4

CNI36 F-2

2

3

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

4

*
*
*
*

*
*
*
*
*
*
*
*
*
*

5
*
*
*
*
*

CN1

C-1

D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D12
D13
D15
D16
D17
D18
D19
D20
D21
D22

A-2
B-4
A-2
A-2
A-3
B-3
B-3
A-3
A-3
A-3
A-4
B-4
B-3
G-4
G-4
G-4
G-4
G-1
C-2
G-3

IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC21
IC22
IC23
IC24
IC25
IC26
IC27
IC28
IC29
IC30
IC31
IC32
IC33
IC34
IC35
IC37
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48

F-1
G-2
G-1
A-2
B-2
B-4
B-2
A-2
B-3
B-4
C-2
B-2
C-3
D-4
D-2
D-4
D-4
D-4
D-4
D-4
D-4
E-3
E-3
D-4
E-2
E-4
F-4
G-3
G-2
F-2
B-2
B-2
C-2
C-4
E-4
C-3
E-4
D-2
C-3
D-3
D-3
D-3
D-2
G-4
E-2
G-2

L1
L2

B-1
F-1

Q1
Q2
Q3
Q4
Q5
Q6

A-2
F-2
B-1
C-1
B-1
B-1

RV1

C-3

S1

E-3

8-6
A

B

C

8-6
D

BVP-550

E

F

G

H

AT-95 (1/2)

AT-95 (1/2)

BVP-550 (SY)

1

3
2
1

2/2

-2.8V
A GND
+7.3V

IC4(1/4)
TL064CPW-E05

Q1
2SB624-T1BV3
5V

92
91

+5.1V IN
+5.1V IN

CN1(92/100)

C8
100
6.3V
:AL

L1
0.47µH

C9
0.1

R18
20k
:RN-C
R21
100
:RN-C

R20
100

2.5V REF IN
GND
GND
GND
GND

C18
0.1

CN1(99/100)

-2.8V IN
-2.8V IN

88
87

-5.1V IN
-5.1V IN

75
74
73
72

R PEAK IN
G PEAK IN
B PEAK IN
PEAK GND

96
95

D GND
D GND

4
8

R16
100

4
9

C13
33
16V
:TA

C12
33
16V
:TA

C11
0.1

D1
RD4.3UH-T1

1
2
3
4

R19
1k

R15
C10 0
0.1
C14
0.1

C15
0.22
5.5V

C16
0.1

BT1

VOUT

4

2/2

CS
≠≠
≠
≠≠≠
RES
≠≠

5
6

2/2
2/2

RES

7

2/2

8

CS

7
6
5

RES

VBAT

6
VIN

GND

CT

RES

C17
6.8
16V
:TA

R22
22k
:RN-C

2

CN1(98/100)
CN1(97/100)

C19
100
6.3V
:AL

R23
5.6

CN1(86/100)

86
85

10

11
CN1(100/100)

A
A
A
A

IC6
M62021FP
BACK UP V

CN1(89/100)

89
100
99
98
97

D2
1SS302-TE85L R14
1k

CN1(91/100)

R17
1.2M

MB,12-18(BVP-500)/MB,51-18(BVP-550)

5V
R13
0

C20
0.1

CN1(85/100)

IC7(2/2)
TC74HC4052AFS(EL )

IC5(1/4)
TL064CPW-E05

IC5(2/4)
TL064CPW-E05

IC4(2/4)
TL064CPW-E05

IC7(1/2)
TC74HC4052AFS(EL )

CN1(88/100)
CN1(87/100)

D3
HSM107S-TL

16
CN1(75/100)

IF,870-19(BVP-500)/IF,1-19(BVP-550)
IF,870-18(BVP-500)/IF,1-18(BVP-550)
IF,870-17(BVP-500)/IF,1-17(BVP-550)
IF,870-20(BVP-500)/IF,1-20(BVP-550)

10

12

8

7

R26
100

5
3

CN1(73/100)
CN1(72/100)

C21
100p

CN1(96/100)

8

7

4

R28
56k
:RN-C

7

13

R29
1M

R31
15k

5

B

6 10

9

2 :RN-C

1 8

P93
P92

8
9

2/2
2/2

P94

10

2/2

L

11

2/2

N

12

2/2

AN0
R32
33k

4

3

AN7

D4
HSM107S-TL
A

5V
R30
3k
:RN-C

CN1(95/100)

7

14
15
11

6

11

9

C22
0.1

7

5
5

2
4

R25 1k

5

6

4

1
5

CN1(74/100)

IC8
TC7S66FU(TE85R)

IC5(3/4)
TL064CPW-E05
CN1(70/100)

MB,15-14(BVP-500)/MB,22-14(BVP-550)

70

R34
1M

3

1

C23
0.1

R39
1M

R33
2.7M

12

3

ND FILT IN

5

5

14

5

12

1

4

13

2

IC4(4/4)
TL064CPW-E05

IC4(3/4)
TL064CPW-E05

IC5(4/4)
TL064CPW-E05

D6
IC9(1/4)
TL064CPW-E05 HSM107S-TL

14
4

3

AN5

7

9

2

6
13

69
51

CC FILT IN
TAPE REM IN

D5
1SS302-TE85L
R35
R36
1M
1M

C25
0.1

R38
CN1(69/100) 1M

MB,15-15(BVP-500)/MB,22-15(BVP-550)
MB,22-12(BVP-550)

CN1(51/100)
C24
0.1

D7
HSM107S-TL

67
90

IRIS POSI IN
+9.3V IN

CN1(90/100)

IC9(3/4)
TL064CPW-E05

D9
:N'M
R12
5.6
R42
680

CN1(68/100)

MB,15-16(BVP-500)/MB,22-16(BVP-550)

68

AN2

IC9(2/4)
TL064CPW-E05

CN1(67/100)

LENS,102-12(BVP-500)/MB,32-4(BVP-550)

R37
3.3M

10

TEMP IN

4

R40
10k
:RN-C

8

9

12
11

D8
HSM107S-TL

R45
2.2k

C26
0.01

R47
10k
:RN-C

C28
0.01

R43
1k

14

9
13

R46
1k

D11
HSM107S-TL

R41
22k
:RN-C

9

C27
0.1

D10
HSM107S-TL

R48
12k
:RN-C

AN3

NOTE

*R44

*

4.3k
:RN-C

REF. NO.
R44

CHANGE INFORMATION
6.8k

4.3k

SERIAL NO.
1500150141-

AN4
C29
0.1

IC11(1/2)
NJU7022M-TE2

CN1(64/100)

LENS,102-13(BVP-500)/MB,32-6(BVP-550)

64

ZOOM POSI IN

MB,12-13(BVP-550)

47

AUDIO LEVEL IN

IC11(2/2)
NJU7022M-TE2

4

IC9(4/4)
TL064CPW-E05

CN1(47/100)

R51
1k
C30
0.1
C31
3.3
10V
:TA

D13
HSM107S-TL

D12
HSM107S-TL

5

8

3

11
11

1

R49
10k
:RN-C

R50
22k
:RN-C

D14
:N'M

3

6

R52
1k

2

9

1

R53
100

2

4
C32
0.0022

D15
HSM107S-TL

7

R59
820

RV1
5k

C34
1
35V
:TA

R54
18k

R56
1.8k

R60
680k

R57
10k
:RN-C

C33
0.01

R55
6.8k
C35 :RN-C
0.01

R58
12k
:RN-C

AN6
AN1

C36
0.01

AUDIO

IC12(2/2)
NJU7022M-TE2

IC13
MB88351PFV-ER

IC12(1/2)
NJU7022M-TE2
1

3

8
12

2
3

R61
560k

1

12

4

7

6

R164
300k
1/16W
C40
4.7
25V
:TA

4
5
6
7
8

5

2

R63
560k

R64
270k

R165 R62
330k
3k
1/16W
C39
0.01

R65

9
10

5V
C37
0.1

R66
1k

GND
VSS
NC
NC
NC
NC
DI
AO1
13
CLK
AO2
LD
AO3
DO
AO4
NC
NC
NC
NC
VDD
VCC

20
19
18
17
16
15
14
13

P30
P31
P32

5
M

61

IRIS CONT OUT

2/2

C38
0.1

AT-95 (1/2)

C41
0.01

LENS,102-17(BVP-500)

13

12
11

CN1(61/100)

BOARD NO. 1-657-448-21
LOT NO. 508B-¥BVP550-AT95-12

8-7

BVP-550

AI

J
B

K
C

LD

8-7
M
E

NF

O
G

P
H

AT-95 (2/2)

AT-95 (2/2)

BVP-550 (SY)

5V
R1
5.6

Q2(1/2)
IC2(1/2)
Q2(2/2)
IC2(2/2)
XN6501-TW TC7W02FU(TE12R) XN6501-TW TC7W02FU(TE12R)
1

8
27

CN1(7/100)

6
5
15
4

1

IC14(2/3)
TC7W04FU(TE12R)
2

14
13

12

R161
2.7M

14

5
14

3

3

IC14(3/3)
TC7W04FU(TE12R)

CHU DATA OUT

5

MB,12-26(BVP-550)/AU-211,1-13(BVP-500)

CN1(6/100)

CCU CONT IN

6

MB,12-25(BVP-550)/AU-211,1-9(BVP-500)

CN1(8/100)

NC(VA4)
NC(SG22)
NC
NC(LENS11)
NC(PR102)
NC(LENS12)

8
21
54
59
71
82

4

CN1(21/100)
CN1(54/100)

ROUT0

NC

TEST1

SEL

ADR7

TEST0

RVD

WRN

A0

CN1(59/100)

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

ROUT1

ADR6

ROUT2

ADR5

ROUT3

ADR4

ROUT4

ADR3

ROUT5
ROUT6

ADR2

ROUT7

ADR1
ADR0

VDD

35
VDD

VSS

VSS

TVD

BRD1

IVH

BRD0

BCKO

BTVD

NC

NC

NC

VDD

RIN0

VSS

RIN1

5V

CN1(71/100)
CN1(82/100)

IC33
TC74VHC163FS(EL)

3
4
5
6

C47
0.1

9
3
4
5
6
8
1
2 32
4

33

7 EN1
CO 15
10 EN2
GND RD

IC35
CXD8889R

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

IC34
TC74VHC163FS(EL)

9 16
LD VCC 14
QA
QB 13
QC 12
QD 11

A
B
C
D

2

RIN2

TP4

RESE

XTAL
EXTAL
P97/SCK
P96/RXD
P95/TXD
P94/PW3
P93/PW2
P92/PW1
P91/FTOA3
P90/FTOA2

P20/AS
P17/TMO
P16/IRQ1
P15/IRQ0
P14/WATT
P13/BREQ
P12/BACK
P11/E
P10/0

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

AN7
AN6
AN5
AN4
AN3
AN2
AN1
AN0

RIN3

P30/D0
P31/D1
P32/D2
P33/D3
P34/D4
P35/D5
P36/D6
P37/D7

16

5
6 32

3

5V

16

C46
0.1

LD VCC 14
QA
QB 13
QC 12
QD 11

A
B
C
D

34

7

7 EN1
CO
10 EN2
GND RD

15

8 1
8 1

C48
6.8
16V
:TA

C49
0.1

IC32(1/2)
IC32(2/2)
TC7W02FU(TE12R) TC7W02FU(TE12R)

A0
A1
A2
A3
A4
A5
A6
A7

A8
A9
A10
A11
A12
A13
A14
A15
A16
A17

21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40

3

CN1(5/100)

R74
4.7k

3

RIN4

D0
D1
D2
D3
D4
D5
D6
D7

60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41

AVCC
P87/AN7
P86/AN6
P85/AN5
P84/AN4
P83/AN3
P82/AN2
P81/AN1
P80/AN0
AVSS
P77/FTOA1
P76/FTOB3/FTCI3
P75/FTOB2/FTCI2
P74/FTOB1/FTCI1
P73/FTI3/TMRI
P72/TFI2
P71/TFI1
P70/TMCI
VCC
P63/A19

RIN5

≠≠≠
RES
≠≠

P21/R/ W
P22/DS
P23/RD
P24/WR
VCC
MD0
MD1
MD2
STBY
RESET
NMI

RIN6

6

IF,1-26(BVP-550)/IF,870-26(BVP-500)
SG,1-21
IF,1-25(BVP-550)/IF,870-25(BVP-500)

C43
0.1

RIN7

RES

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

D0

P94

7

C45 0.1

10

1/2
1/2

RD
WR

P93

1/2

46
23
45

R76
100

2
3

3

D0
D1
D2
D3
D4
D5
D6
D7

8

CN1(45/100)

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

C44
0.1

P50/A8
P51/A9
P52/A10
P53/A11
P54/A12
P55/A13
P56/A14
P57/A15
P60/A16
P61/A17
P62/A18

P92
5V

1/2

R73 4.7k

PEAK RST OUT
V RESET OUT
WINDOW OUT

R77
100

P40/A0
P41/A1
P42/A2
P43/A3
P44/A4
P45/A5
P46/A6
P47/A7

2

CN1(23/100)

15 8

80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61

9

CN1(46/100)

R72 1k

16

5
6

7

C7
1.5
25V
:TA

IC16
HD6475328F10

1/2

56

R71 4.7k

R75
4.7k

IC3(3/4)
TC74VHC157FS(EL)

R163
0

R162
0

55

18M(G)IN

IC3(4/4)
5V
TC74VHC157FS(EL)

6

VDD

+7.3V
A GND
-2.8V

C80
0.1

VSS

1
2
3

C6
0.1

R10
22k

11

1
3
-10VOUT C1C2VCC 16
1
L2
GND
C1+
4.7µH
2
C2+ +10VOUT

3

VSS

1/2
1/2
1/2

C5
1.5
25V
:TA

6

VDD

C4
0.1

5V

D20
1SS302-TE85L

18M(X)IN

CN1(56/100)

5

RDN

C3
0.1

9
12
10

2 D S Q
1
15
4 GND
Q
R
7

D7

R11
100k

ROUT2
ROUT1
T2IN
T1IN

4
9

RD

7
14

C1
100p

RIN2
RIN1
T2OUT
T1OUT

3

CSN

RM SD OUT

8
13

CN1(3/100)

10
11

4

C2
0.001 5

CN1(55/100)

IC15
6 8 TC7W74FU(TE12R)

1

D6

3

R8 R9
4.7k 10k

TP1

C42
0.001

8
7
14

CN1(4/100)
R3
6.8k
R7
100

CN1231,12-2(BVP-500)

R70
1M

3
6

CLK

RM SD IN

5
4

3

D5

4

R6
1k

IC1
MAX202CSE-TE2

R4
100

5V

D4

MB,41-8(BVP-550)
CN1231,12-1(BVP-500)

5V

IC14(1/3)
TC7W04FU(TE12R)

R2
10k

D3

R5
100

2
1

A0
A1
A2

CA DATA IN/OUT

7

IC3(1/4)
IC3(2/4)
TC74VHC157FS(EL) TC74VHC157FS(EL)

CN1(93/100)

A2

CN1(94/100)

A1

+7.5V IN
+7.5V IN

D2

94
93

MB,41-7(BVP-550)
MB,12-15,16(BVP-500)

D1

MB,12-24(BVP-550)
MB,12-15,16(BVP-500)

WR

1

AN3
1/2

11

L

IC38
HD151015TEL

5V
R78
10

R79
3.9k

IC18
TC7SH02FU-TE85R
≠≠
CS
≠

3

IC24
TC74VHC138FS(EL)

3

IC23(1/2)
TC74VHC20FS(EL)

4

A14
A13
A12
A11

1
2
4
5

C54
0.1

6
4

14
6

5
7

9 10 12 13

16
1
2

A
B
C

Y0
Y1
Y2
Y3
24
Y4
G1
Y5
G2A Y6
G2B Y7

15
14
13
12
11
10
9
7

A7

A14

A6

A13

A5

A8

A4

A9

36

A3

A11

A2

G

A1

A10
E

A0

DO8

DO1

DO2

IC19
TC7SH04FU-TE85R

20
19
18
17
16
15
14

1
2
A14
A13
A8
A9
A11

29
28
27
26
25
24
23
22
21

2

24 1

DIR
B0

A0

B1

A1

B2

A2

B3

A3

3

21

38

B4

A4

B5

A5

B6

A6

B7

A7

B8

A8

5

12 23 13

R89
47k

4

10
11

C50
10
6.3V
:TA

+3.3V IN
+3.3V IN

84
83

DB
DB
DB
DB
DB
DB
DB
DB

0(PR)
1(PR)
2(PR)
3(PR)
4(PR)
5(PR)
6(PR)
7(PR)

32
33
34
35
36
37
38
39

MB,6-54(BVP-550)/MB,10-54(BVP-500)
MB,6-56(BVP-550)/MB,10-56(BVP-500)
MB,6-58(BVP-550)/MB,10-58(BVP-500)
MB,6-60(BVP-550)/MB,10-60(BVP-500)
MB,6-62(BVP-550)/MB,10-62(BVP-500)
MB,6-64(BVP-550)/MB,10-64(BVP-500)
MB,6-66(BVP-550)/MB,10-66(BVP-500)
MB,6-68(BVP-550)/MB,10-68(BVP-500)

R93 10 CN1(40/100)
R94 10 CN1(29/100)

RD(PR)
WR(PR)
CE0(PR)
CE1(PR)

31
30
40
29

MB,6-52(BVP-550)/MB,10-52(BVP-500)
MB,6-50(BVP-550)/MB,10-50(BVP-500)
MB,6-70(BVP-550)/MB,10-70(BVP-500)
MB,6-48(BVP-550)/MB,10-48(BVP-500)

R95 10 CN1(42/100)
R96 10 CN1(41/100)

A0(PR)
A1(PR)

42
41

MB,6-72(BVP-550)/MB,10-72(BVP-500)
MB,6-74(BVP-550)/MB,10-74(BVP-500)

R80 10 CN1(32/100)
R81 10 CN1(33/100)
R83 10 CN1(34/100)
R84 10 CN1(35/100)
R85 10 CN1(36/100)
R86 10 CN1(37/100)
R87 10 CN1(38/100)
R88 10 CN1(39/100)

R90
47k

3
1
RD
WR

2
4
17

RD
A10

A0
A1

20

EN
A1

X1

A2

X2

B1

Y1

15 B2
13 B3
11
B4
6

Y2

39
Y3

18
16
3
5
7
9

R91 10 CN1(31/100)
R92 10 CN1(30/100)

Y4
X3

A3

8

X4

A4

14
12

EN

14 15 16 17 18 19 20

C55
0.1

4
5
6
7
8
9

C52
0.1

G

4 3 2 1 32 31 30

C53
0.1

8
A7 5
A6 6
A5 7
A4 8
A3 9
A2 10
A1 11
A0 12
13

22

IC37
TC7SH08FU-TE85R

IC36

5V

A6
A5
A4

A17

IC23(2/2)
TC74VHC20FS(EL)
NC

IC22
TC7SH32FU-TE85R

PGM

4

VCC

3

5V

5

VDD

2

2

1
2

3

4
3

3

4

5

DO7

5

A15

4

DO6

3
5 1

4

1
2

5

DO5

IC17
TC7S32FU(TE85R)

1
2

DO4

4

A12
A15
A16

5

1
2

BACK UP V

A16

4

5V

R82
6.2k

IC21
TC7SH02FU-TE85R

A15

1/2

5

IC20
TC7SH08FU-TE85R

A12

1/2

D0
D1
D2
D3
D4
D5
D6
D7

N

GND

12

DO3

1/2

CN1(84/100)
CN1(83/100)

C51
0.1

8

10

19

1/2

13

D7

D3
D4
D5
D6

D1
D2

D0

IC39
TC74VHC244FS(EL)

M

5

8-8
A

B

C

8-8
D

BVP-550

E

F

G

H

AT-95 (2/2)

AT-95 (2/2)

1

5V
D21
1SS302-TE85L R100
10k

R97
100k

R101
10k
CN1(2/100)
CN1(1/100)

WR

R98
100k

D0
D1
D2
D3
D4
D5
D6
D7

WE

I/05

26
I/04

VCC

GND

A14

I/03

A12

I/02

A7

I/01

A6

A0

A5

A1

A4

A2

A3

P07

NC

WR

P06

P05

P04

P03

P02

P01

RD

4
5
6
7

A14
A12
A7
A6
A5
A4
A3

6
7
8
9

RESET

GND

D0

A1

D1

A0

D2

27

P27

D3

P26

D4

P25

D5

P24

D6

10 P20
11 P21

VDD

D7

33
32
31
30
29
28
27
26
25
24
23

D0
D1
D2
D3
D4
D5
D6
D7

D22
1SS302-TE85L

CN1(24/100)

5
6
7
8
12
13
14
15
17
16

CD0

VDD

CD1

VCC

CD2

CO

CD3

20
10
19
18
4
9
11
2
3
1

BO

CD4

NC

29
CD5

NC

CD6

NC

CD7

A

STB

B

OE

RST

IC40(1/2)
TC74VHC74FS(EL)

IC42
IC40(2/2)
TC74VHC163FS(EL)
TC74VHC74FS(EL)
IC41
IC43(1/3)
TC7S86FU(TE85R)
TC7W04FU(TE12R)

5V

4

9

SD
5
2
D
Q
3
40
6
Q

C59
0.01

1
2

5
41

3 A
4
B
5 C
6
D

4

3

RD

C60
0.01

1

5V
5
1
2 31

RD
WR

12 13 14 15 16 17 18 19 20 21 22

2
1
24
44

MB,41-9(BVP-550)/SW795,1-2(BVP-500)
MB,41-10(BVP-550)/SW795,1-1(BVP-500)
MB,6-49(BVP-550)/MB,16-4(BVP-500)
SG,1-50(BVP-500)

14
13
9
12 D SD VCC
Q
11
40
8
7

16

LD VCC
QA
QB
QC
QD
42

14
13
12
11

IC43(2/3)
IC45
TC7W04FU(TE12R)
TC7W74FU(TE12R)
IC44
IC43(3/3)
TC74VHC163FS(EL)
TC7W04FU(TE12R)

C57
0.1

5
6

10

2

RD

16
LD VCC
QA
QB
QC
QD
44

A
B
C
D

4

Q

GND

9

C58
0.1 3

14
13
12
11

6 8
5
2 D SD VCC
Q

R103
1k

82

6 43

1
4

4

45
3
GND

Q
RD

7

1 5
2 30

15
7 EN1
CO
10
EN2
GND RD
1
8

4

1

7
15
EN1
CO
10 EN2
GND RD
8 1
R104

7

2

3
43

5

100k

3
4

3
CN1(22/100)

A HD IN
HD IN

22
43

MB,6-47(BVP-550)/MB,10-47(BVP-500)
SG,1-49

CHAR BACK OUT
TITLE BACK OUT

27
25

DA,1-50/IF,1-8(BVP-550)
DA,1-50/IF,870-27(BVP-500)
MB,6-42(BVP-550)/MB,10-42(BVP-500)

CHAR VF OUT
TITLE OUT

28
26

DA,1-51/IF,1-7(BVP-550)
DA,1-51/IF,870-7(BVP-500)
MB,6-40(BVP-550)/MB,10-40(BVP-500)

LD(TG)
LD(CCD)
LD(VA)
IIC CLK(SW)
IIC DATA(SW)
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(CA)
LD(DA)
LD(SG)
LD(IF)

18
16
20
13
14
11
12
9
10
17
19
15

MB,23-16(BVP-550)/MB,16-16(BVP-500)
MB,23-15(BVP-550)/MB,16-15(BVP-500)
VA,1-1
MB,IC5-6
MB,IC5-5
MB,12-27(BVP-550)/SW795,1-6(BVP-500)
MB,12-28(BVP-550)/SW795,1-5(BVP-500)
MB,12-29(BVP-550)/SW795,1-4(BVP-500)
MB,12-30(BVP-550)/SW795,1-3(BVP-500)
DA,1-1
SG,1-1
IF,1-1

RET EN OUT
TALLY ON OUT
REC TALLY IN
VTR RST IN
VTR S/S TRIG IN
RET SW IN
EX ON IN
ZEBRA ON

50
58
57
53
65
66
63
81

CN1(76/100)

AUTO +5V OUT
REM/LOCAL
VF 16:9/4:3 OUT

60
62
76

MB,32-8(BVP-550)
MB,32-9(BVP-550)
MB,31-A6(BVP-550)/VF,103-25(BVP-500)

CN1(78/100)

ABNORMAL OUT

78

MB,31-B4(BVP-550)

CN1(77/100)

G TALLY OUT

77

MB,31-A5(BVP-550)/VF,103-23(BVP-500)

CN1(52/100)
CN1(48/100)

VTR S/SOUT
PB REF IN

52
48

MB,12-6(BVP-550)/MB,18-A8(BVP-500)
IF,1-45/MB,12-17(BVP-550)
IF,870-45/DM98,2-16(BVP-500)

CN1(49/100)

BATT ALARM IN

49

MB,12-5/MB,31-A4(BVP-550)/AU,1-42(BVP-500)

CN1(80/100)

VF RGB OUT

80

MB,31-B7(BVP-550)

CN1(79/100)

NC(VF 7)

79

CN1(43/100)

IC30
TC7SH02FU-TE85R

WR

RD
P30
P31
P32
P33
P34
P35
P36
P37

RE A
RE B
A VD IN
VD IN

5V

C61
0.1

TP5

C62
0.1

R102
1k

5V

2

P17

A13

NC

CS

P16

I/06

A1
A0
P27
P26
P25
P24
P20

NC

P15

A8

1
2
3
4
5

P14

A9

I/07

A11
A9
A8
A13

P13

I/08

22 RD
23
24
25
26
27 WR
28
1
2
3

P13
P14
P15
P16
P17

A11

NC

11
10
9
8

OE

CE

P12

D0
A0
A1
A2

A10

P11

A10 21
20
19
18
17
16
15
14
13
D2
12
D1

D7
D6
D5
D4
D3

P12

TP

P10

14
13
WR
SO
S1
CS 12
4 SC 25 CS 11
5 NC
10
NC
6 NC
9
NC
8
7 NC
VDD
VSS

P23

1
2
3

P22

C56
0.1

IC26
CXK58257ATM-70LL

P22
P23
P10
P11

IC25
RTC-4553B

P00

44 43 42 41 40 39 38 37 36 35 34

C71
15
16V
:TA

R99
100k

CN1(44/100)

IC29
µPD4702G

P04
P05
P06
P07

RD
P00

P01
P02
P03

IC27
µPD71055GB-10-3B 4

R105
100

IC31
TC7SH32FU-TE85R

D16
1SS302-TE85L

D17
1SS302-TE85L

D18
1SS302-TE85L

D19
1SS302-TE85L

P07

NC

WR

P06

P05

P04

P03

P02

P01

A1

D1

A0

D2

28

P27

D3

P20

D7

P21

VDD
P17

D6

P16

D5

P24

P15

P25

P14

D4

P13

P26

P22

7
8
9
10
11

D0

NC

R109
47k

RESET

GND

P12

R108
47k

NC

CS

P11

R107
47k

NC

P10

R106
220k

A1
A0

P23

1
2
3
4
5
6

5V

P00

RD

44 43 42 41 40 39 38 37 36 35 34

33
32
31
30
29
28
27
26
25
24
23

IC47
µPD6453GT-610

D0
D1
D2
D3
D4
D5
D6
D7

TP3

IC46
X24164SIC7000
1
2
3
4

5V

S0

VCC

S1

TST

46
S2

SCL

GND

SDA

8
7

5V

6

TP2

C63
0.1

P03
P14
P15
P16

1
2
3
4

6
5

5
7
8

C65
0.1

9

12 13 14 15 16 17 18 19 20 21 22

IC28
µPD71055GB-10-3B 4

V DD
BUSY
HD
CLK
VD
47
CS
BBLK
DATA GBLK
PCL
RBLK
VCBL
CKOUT
VB
OSCOUT VG
OSCIN
VR
VMON
GND
10

20
19
18
17
16
15
14
13
12
11

C64
0.1
R110
2.2k
CN1(27/100)
CN1(25/100)
R111
2.2k
R114
2.2k

R113

R112

CN1(28/100)
CN1(26/100)

3

R115
2.2k
R117

R116

5V
P33
P34
P35

8
P36
P37

48

7
6
5

CN1(16/100)

R120 100

CN1(20/100)

R121 100

CN1(13/100)

R122 100

CN1(14/100)

R123 1k

CN1(11/100)

R124 1k

CN1(12/100)

R125 1k

CN1(9/100)

R126 1k

CN1(10/100)

R127 100

CN1(17/100)
CN1(19/100)

R129 100

CN1(15/100)

R130 R131 R132 R133 5V
100k 100k 47k 47k

R135
47k

3
2
R136
47k

Q3(1/2)
IMH2-T110

P01

R144
47k

R134
47k

1
CN1(50/100)

P24
P20

C66
100p

CN1(18/100)

R119 100

R128 100

4
IC48
TC7W139FU(TE12R)

P27
R137
1k

1
2
3

R118 100

P22
P23

R138 100

CN1(58/100)

R139 1k

CN1(57/100)

R140 1k

CN1(53/100)

R141 1k

CN1(65/100)

R142 1k

CN1(66/100)

R143 1k

CN1(63/100)

P00

CN1(81/100)

4

Q4(1/2)
IMB2-T110

2

6

5V R147 R148

R160
1k

Q6(1/2)
IMH2-T110
CN1(60/100)

R145 100

P12
1
3
5
7

R146
100k

2
4
6
8

4

1

100k 100k

S1

IF,1-29(BVP-550)/IF,870-29(BVP-500)
IF,1-30(BVP-550)/IF,870-30(BVP-500)
IF,1-28(BVP-550)/IF,870-28(BVP-500)
MB,32-10(BVP-550)
MB,32-3(BVP-550)
MB,32-7(BVP-550)
MB,31-B6(BVP-550)

5

3
P13

MB,12-15(BVP-550)
MB,22-B6/MB,23-B6/LENS,102-32/DM98,2-19(BVP-500)

R149
100k

P04
P05
P06
P07

CN1(62/100)

1
P11

Q5(1/2)
IMH2-T110

2

Q4(2/2)
IMB2-T110

P25

6
3
5
4
4

P10

Q5(2/2)
IMH2-T110

5

R150
100

6

P26
P02

R151
1k
C67
100p

C68
100p

C69
100p

R152
47k

6

R154
10k

P17

5

C70
100p

R155
100k

R153
100k

5

4

Q3(2/2)
IMH2-T110

AT-95 (2/2)
BOARD NO. 1-657-448-21
LOT NO. 508B-¥BVP550AT-95-12

8-9

BVP-550

I

J

K

L

8-9
M

N

O

P

SG-234 (1/2)

SG-234 (1/2)

BVP-550 (SY)

SG-234 BOARD
———————————
SG-234 (1-657-449-21)
———————————
*: B SIDE

*
*
*
*
*
*

5

L1
L2
L4
L5
L6
L7
L8
L9

Q1
* Q2
* Q4
Q5
Q6
* Q7
Q8
* Q9
Q10
* Q11
* Q12
* Q14
Q15
* Q16
Q17
* Q18

4
8

25

16
25

IC25(2/8)
TC74VHC244FS(EL)

5

1

2 202

Q
RD

4
2 203

Q24
DTC144EUA-T106

IC35(8/8)
SN74HCT244APW-E0 5

3
3

7 13

1
5
4

11

9

L7
22µH

Q25
DTC144EUA-T106

Q200
DTC144EUA-T106

Q201
DTC144EUA-T106

7V

201

E-1
F-1
D-1
D-1
C-1
D-1

R68
10k
:RN-C
R67
27k
:RN-C

3
R129
220k

IC201
TC7S04FU(TE85R)
AT,1-13

2

IIC CK

CN1(2/100)

AT,1-14

3

IIC DATA

CN1(3/100)

AT,1-19

1

LD(SG) IN

CN1(1/100)

IC8(2/3)
TC7W04FU(TE12R)

R130
1M

R58
100 3

5

6

2

18
19
2
3
4
5
6
7
8
9
12
13
14

VDDVCC

C48
6.8
16V
:TA-C

8

8

11

10

IC8(3/3)
TC7W04FU(TE12R)

A01

C49
0.1

A02
A03

R59
100

A04
A05

A-2
B-4
F-1
D-3
F-1
D-3
F-2
A-2
F-4
D-3
F-1
F-3
F-4
E-2
E-2
C-2
D-2
D-3
D-4
D-4
C-4
C-3
D-3
D-3
C-3
D-3
D-2
C-3
B-3
D-2
A-3
B-3
A-3
D-1
D-1
D-1
D-1
A-4
B-4
B-4

R60 100

8

1
8

IC8(1/3)
TC7W04FU(TE12R)

A06

7

4

12

R61
270
:RN-C

A07
A08

16

8
R200
1k

1
2
3

V
A0

15
30

5
SDA

21
A1
A2
SCL
VSS CPE

A09

CK

6

D8
RD3.3UH-T1

R131
1M

A10

17
A11

D1

5

A12

15

R201
100k

R144
100k

R202
100k

Q24

D0

LD

4 7

IC30(7/8)
TC74VHC244FS(EL)

C50
4.7
10V
:TA-C

R69
13k
:RN-C

20

1

IC21
X24C02S-3.0-C700 0

R145
100k

Q25

VSSGND

IC12
MB88346BPFV-EF
IC30(8/8)
TC74VHC244FS(EL)

IC18
M51958A-T1

L8
22µH

84
83

3.1V
3.1V

CN1(84/100)
CN1(83/100)

20

R78
1k

C85
0.1

19

7
17

3

30

VCC

2

1

6

18
5

10

CD
GND

4
C56
0.22

C57
22
10V
:TA-C
C81
330
6.3V
:AL

C58
0.1

C82
0.1

C62
0.1

96
95

D GND
D GND

R70

R71
0

NC

NC

CLK

NC

PSW0

PSW1

D19

PSW2

6 30 13 14 15 16 17 18 20 21 44 38 37 42

D07

D17

D06

D16

16

D15

D05

D03

D12

D02

D11

D01

R77
0

N/P

D04

D13

INIT

D14

D10

26
27
28
29
31
32
33
34
35
36

D09
D08

D18

OEN

11
10
9
8
7
5
4
3
2
1

A-1
A-1
B-1
B-4
C-4
F-1
B-2
B-2

R80
100

C61

D00

19 43 39 41 22 23 24 45 46 47 48 25 12 40

CN1(96/100)

R79
10k
:RN-C

IC16
CXK1203AR-T4

CN1(95/100)

L9 4.8V-2
22µH

RB5(1/3)

DA,1-48

3

CN1(57/100)

57

36MHz OUT

4

5
4

MB,6-109(BVP-550)
MB,10-109(BVP-500)

61

DA,1-47
MB,10-110(BVP-500)/MB,6-110(BVP-550)
MB,6-5(BVP-500)/MB,14-13(BVP-550)

58
62
11

MB,IC4-2(BVP-550)

C83
0.1

36MHz(G) OUT
36MHz(G) IN
18MHz(G) OUT

D3
HSM88AS-TL

CN1(11/100)

IC45
TC7SH04FU-TE85R

6

5

18MHz(X) OUT

MB,10-108(BVP-500)/MB,6-108(BVP-550)
AT,1-56/DA,1-45
IF,1-33

60
56

18MHz(G) IN
18MHz(G) OUT

C93
0.1

R98
:RN-C

VCO CONT OUT
VCO CONT(G)

R99
33k
:RN-C

R101
1k
:RN-C

30

11
5

33

9

4

2

1

8

2

32

45

C78
0.1

CN1(60/100)

2

15
1

10

14

IC32(1/4)
TL064CPW-E05

CN1(66/100)

D

IC33(1/3)
TC74HC4053AFS-EL

11

R92
47

8-10

C72
15
6.3V
:TA-C

10

IC32(2/4)
TL064CPW-E05

CN1(56/100)

CN1(68/100)

68
66

R100
1k
:RN-C

C73
0.01

IC33(3/3)
TC74HC4053AFS-EL

MB,16-6(BVP-500)/MB,23-6(BVP-550)

5

R96
10k
:RN-C

R146
0

3

MB,16-5(BVP-500)/MB,23-5(BVP-550)

3

8 9 7

R147

IC30(6/8)
TC74VHC244FS(EL)

R90
47

CN1(55/100)

55

16
33
4
6

-4.8V 10k

18MHz(X) OUT

AT,1-55/DA,1-46
IF,1-34

3
32 2
11

18MHz(X) IN
CN1(12/100)

12

R97
10k
:RN-C

4

1

CN1(62/100)

CN1(59/100)

59

7V

R95
1k

C65
0.1

R122
1k

CN1(58/100)

9

C

C64
33
16V
:TA-C

CN1(61/100)

RB5(3/3)

B

IC32(3/4)
TL064CPW-E05
D10
HSM88AS-TL

R121
1M

36MHz IN

RB5(2/3)

MB,6-107(BVP-550)
MB,10-107(BVP-500)

IC31
2 TC7SH04FU-TE85R

31

3

A-2
A-2
B-2
A-4
A-4
B-4
A-4
A-4
C-4
A-4
C-3
C-3
C-4
A-3
A-3
C-4

A

200

6

18

6

5

1

6
35

2

C47
0.1

R62
100k

9
Q

NC

4

*
*
*
*
*
*

D

200
Q

SD

12
11

14

4

3

4

NC

*

5
Q

RD

2

RB1
RB2
RB3
RB4
RB5
RB10

SD
D

7

IC25(1/8)
TC74VHC244FS(EL)

8 1
11 2

14

11

PSW3

*

2
3

4

IC35(1/8)
SN74HCT244APW-E0 5

R65
220k

NC

*

R128
1k

R66
100k

PSW4

*
*

CN1(21/100)

3

NC

*

V RESET 2 IN

5
6 11

9

PSW5

*

21

4

14

5 1
20 2

16
13

12
13

8 10

R63
1k

PSB0

3

AT,1-23

10

4

13

5
3

2
1

15

C46
1

R149
0

R64
220k

D7
1SS301-TE85L

4.8V-2
R57
100k

7
13

IC11(2/2)
TC7W08FU(TE12R)

PSB1

*
*
*

CN1(19/100)

IC13(1/3)
TC74HC4053AFS-EL

PSB2

*

V RESET 1/CF OUT

IC202
IC203
TC7S32FU(TE85R) TC7S08FU(TE85R)

VSS

*

IC3
IC5
IC8
IC11
IC12
IC13
IC16
IC17
IC18
IC20
IC21
IC22
IC24
IC25
IC30
IC31
IC32
IC33
IC34
IC35
IC36
IC37
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48
IC200
IC201
IC202
IC203
IC204
IC206
IC207

C-2

19

IC200(1/2)
IC200(2/2)
TC74VHC74FS(EL) TC74VHC74FS(EL)

R127
1k

PSW6

FL1

IC11(1/2)
IC13(2/3)
TC74HC4053AFS-EL TC7W08FU(TE12R)
IC13(3/3)
IC20
TC74HC4053AFS-EL
TC7S08FU(TE85R)

SCLK

*
*

MB,12-16(BVP-550)
MB,18-B6(BVP-500)

R56
1k

VSS

*

2

A-2
A-2
E-2
A-1
B-3
B-4
D-3
F-1
C-2
C-3
A-3
D-1
A-3
B-4
E-3

D-4
A-3
B-3
G-4
F-1
F-1
D-3
E-1
F-2
A-4
A-4
B-4
A-3

CN1(36/100)

PSW7

*

D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D12
D13
D14
D200
D201

* Q20
* Q21
Q22
Q23
* Q24
* Q25
Q26
* Q200
* Q201
Q202
Q203
Q204
* Q205

N/P OUT

AEN

*

C-1

36

VDD

*

CN1

MB,6-106/IF,1-48(BVP-550)
MB,10-106/IF,870-48(BVP-500)
DA,1-41(BVP-550/500)

VDD

1

32

13
12

13
14
12
C84

33

IC33(2/3)
TC74HC4053AFS-EL

8-10

BVP-550

E

F

G

H

SG-234 (1/2)

SG-234 (1/2)

V RESET 2
N/P
H CONT
+4.8V
GND
OLD/NEW CA
VR DET
-4.8V
CABLE COMP
EXT SYNC
GENLOCK OFF
TRAP
EXT SC

1
2
3
4
5
6
7
8
9
10
11
12
13

1

2/2

2
IC35(2/8)
SN74HCT244APW-E0 5
Q20
DTC144EUA-T106

RB10

5
3
1
8

6
4
2
7

R124
100k

CN1(34/100)
CN1(32/100)
CN1(30/100)

TD1
TD0
TCK

34
32
30

DL SYNC OUT

23

DA,1-6(BVP-550/500)
IF,1-12(BVP-550)/MB,5-12(BVP-500)

DL BLKG OUT

25

DA,1-8(BVP-550/500)
IF,1-14(BVP-550)/MB,5-14(BVP-500)

CF OUT

7

MB,14-15(BVP-550)/MB,6-5(BVP-500)

VD OUT

9

MB,14-17(BVP-550)/MB,6-2(BVP-500)

HD OUT

6

MB,12-22(BVP-550)/MB,6-1(BVP-500)

16 35 4
Q20

IC25(5/8)
TC74VHC244FS(EL)
Q23
DTC144EUA-T106

IC42(1/8)
SN74HCT244APW-E0 5
IC25(4/8)
TC74VHC244FS(EL)

RB1(1/2)

2

IC42(2/8)
SN74HCT244APW-E0 5

4

IC30(1/8)
TC74VHC244FS(EL)
IC30(2/8)
TC74VHC244FS(EL)

D201
HSM88AS-TL
C52
C51
10
22
10V
10V
:TA-C :TA-C

R150
0

CLK SEL 1

VDD

20

HD
VD
SYNC

MODE SEL 1

BF

MODE SEL 1

BLKG

2
4
6
8
2
4
6
8

4
11
5
6
7

Q23

R123
10k
:RN-C

LALT

39
49
35

18M OUT

9
8

R81
100

SYNC2

H COM OUT 2

SAMPLE

COM OUT 1

FLD

COM OUT 2

CF

13
13

INT/EXT

ASET

TGC OUT

SDA

TST OUT

TST 7

TST 6

TST 5

TST 4

TST 3

TST 1

TST 2

INT SC IN

H PHASE3

H PHASE2

H PHASE1

H PHASE0

VBL WIDTH1

VBL WIDTH0

CLR

HBL WIDTH3

ACK

HBL WIDTH2

SCL

HBL WIDTH1

EXT SC IN

HBL WIDTH0

C60
0.1

27M IN

VSS

IC22
TC7SH04FU-TE85R

R84
100

36M IN

VSS

3

58
52
57
55
53

IC35(3/8)
SN74HCT244APW-E0 5
2

IC25(3/8)
TC74VHC244FS(EL)

18

26 27 28 29

32 33

64 65 66 67

14

3

C97
2.2
16V
:TA-C

20
17

8
35

35

1

CxRx
Q

R102
100k
:RN-C

10
5
15
35
7

13

3
6

1

35

4
5

5

Cx

CN1(41/100)
CN1(42/100)
CN1(43/100)
CN1(44/100)
CN1(45/100)
CN1(46/100)

42

2

IC39
TC7S86FU(TE85R)

36
7

CN1(10/100)

SAMPLE 1 OUT

10

MB,14-19(BVP-550)/MB,6-4(BVP-500)

4

3

CN1(18/100)

SAMPLE 3 OUT

18

VA,1-9

2

1

CN1(17/100)

SAMPLE 2 OUT

17

IF,1-4(BVP-550)/IF,870-4(BVP-500)
DA,1-4(BVP-550/500)

IC25(8/8)
TC74VHC244FS(EL)

R104
1k
:RN-C

5

SD

1
2

Q

39
3

4

2

1

C70
0.01

4

4

32

7

C71
1
35V
:TA

RD

R108
2.2k
:RN-C

R107
5.6k
:RN-C

C67
0.1

IC34(2/2)
TC4W66FU(TE12R)

IC37(2/2)
TC7W08FU(TE12R)

VD OUT

50

AT,1-44 / DA,1-43(BVP-550/500)
IF,1-39(BVP-550)/IF,870-39(BVP-500)

CN1(78/100)

R109
47k
:RN-C

CN1(35/100)

R148
100k

SC CONT OUT

INT/ EXT

OUT

78

MB,6-114(BVP-550)/MB,10-114(BVP-500)

35

MB,6-105(BVP-550)/MB,10-105(BVP-500)

R113
1M
FL1
R125

5

15

17

IC37(1/2)
TC7W08FU(TE12R)

CN1(50/100)

R114
47

2 5 4

-4.8V

IC36(1/2)
TC74HC4538AFS-EL

AT,1-43 / DA,1-44(BVP-550/500)
IF,1-40(BVP-550)/IF,870-40(BVP-500)

R112
47

1

52
43 1

C74
0.1

4

2

Q26
DTC144EUA-T106

42

3

C76
10
10V

IC42(7/8)
SN74HCT244APW-E0 5

3
C77
0.1

1

6
5
FG

IC35(6/8)
SN74HCT244APW-E0 5

49

3

4

IC35(4/8)
SN74HCT244APW-E0 5

HD OUT

12

42

IC34(1/2)
TC4W66FU(TE12R)

CN1(49/100)

R111
47

19

8
41

7
6

6
C69
0.1

MB,14-20(BVP-550)/MB,6-6(BVP-500)

1
5

R105
10k
:RN-C

4

R110
47

14

42

6

3

BLKG

10

R106
5.6k
:RN-C

40
3

CN1(4/100)

IC42(3/8)
SN74HCT244APW-E0 5
IC41
IC42(4/8)
TC4W53FU(TE12R) SN74HCT244APW-E0 5

IC32(4/4)
TL064CPW-E05

8 3 16

4

MB,6-51(BVP-550)/MB,10-51(BVP-500)
MB,6-53(BVP-550)/MB,10-53(BVP-500)
MB,6-55(BVP-550)/MB,10-55(BVP-500)
MB,6-57(BVP-550)/MB,10-57(BVP-500)
MB,6-59(BVP-550)/MB,10-59(BVP-500)
MB,6-61(BVP-550)/MB,10-61(BVP-500)
MB,6-63(BVP-550)/MB,10-63(BVP-500)
MB,6-65(BVP-550)/MB,10-65(BVP-500)
MB,6-67(BVP-550)/MB,10-67(BVP-500)

19

IC40
TC7S66FU(TE85R)

RD

8
6
3
5 37

MB,14-18(BVP-550)/MB,6-8(BVP-500)

R86
47

25

IC25(7/8)
TC74VHC244FS(EL)

5

38
Q

6

8
39
40
41
42
43
44
45
46
47

R134
47

9

11

25

8

D

1

SYNC OUT
NRW BLKG OUT
HD OUT
VD OUT
SYNC OUT
BF OUT
BLKG OUT
FLD 1 OUT
LALT OUT
2FH OUT

RB1(2/2)

42

8

7

3

4
3

17

5

2
CxRx
Q

CN1(39/100)

20

13

1

CN1(8/100)

CN1(40/100)

42

Q

34

11

10

7
1
2 37

5

30

6

10
9

6

12

6

15

IC38
TC7W74FU(TE12R)

36
RD

CN1(6/100)

1

5 4
Q

C68
4.7
10V
:TA-C

C66
0.1

1

IC42(5/8)
7 SN74HCT244APW-E0 5
IC42(6/8)
9 SN74HCT244APW-E0 5

14

15
12
11

2

14
30

RB2

7V

Cx

D11
1SS302-TE85L

34

CN1(9/100)

IC30(5/8)
TC74VHC244FS(EL)

7

C63
0.01

19

7 8
2

12

7

30

R103
47k
:RN-C

C96
0.1

8

16
30

25

18 19 36 43 48 56 60 76

IC36(2/2)
TC74HC4538AFS-EL

CN1(7/100)

SC COM

IC25(6/8)
TC74VHC244FS(EL)
IC35(7/8)
SN74HCT244APW-E0 5

3

C59
0.1

20

35

25

10 30 51 54 71

4

18
30

R85
47

15
16
17
12
14

NRWBLKG

34
50
25
23
24
22
42

VSS

4

CN1(25/100)

RB4

D1/PRE BLKG

H COM OUT 1

VSS

5
22

7

R133
0

13

VSS

2

CN1(23/100)

8

CN1(47/100)

2FH

27M OUT
36M OUT

5

16
42

1
3
5
7
1
3
5
7

24
62
63
44
45

8

6

RB3

D CONT

VDD

VDD

VDD

VDD

VDD

VDD

VDD

HR SEL

VR SEL

1 21 31 40 41 61 70 80

H RST IN

CLK SEL 0

V RST IN

EXT SYNC IN

77 78 79 3 2
LALT RST IN

D HD OUT

69 68
INT HD IN

72 73 74 75
TCK

59
37
38
46
47

6

IC30(4/8)
TC74VHC244FS(EL)

8
TD0

7

4

IC30(3/8)
TC74VHC244FS(EL)

12

R83
0

R82

25

IC24
CXD8858R

C53
0.1

N/P OUT

25

C99
0.1

TD1

13

C98
0.1

C54
0.1

R132
47k
:RN-C

2

18
42

C79
4p

R115
1k
:RN-C

FG

11

GND

9

8

10
3
12

R116
47

5

C75
0.1
CN1(76/100)

SC(X) IN

76

MB,6-112(BVP-550)/MB,10-112(BVP-500)

CN1(75/100)

SC(G) IN

75

MB,6-111(BVP-550)/MB,10-111(BVP-500)

7

IC43
TC7S00FU(TE85R)

IC42(8/8)
SN74HCT244APW-E0 5

IC35(5/8)
SN74HCT244APW-E0 5

SG-234 (1/2)
BOARD NO. 1-657-449-21
LOT NO. 508B-¥BVP550SG234-12

8-11

BVP-550

I

J

K

L

8-11
M

N

O

P

SG-234 (2/2)

1

SG-234 (2/2)

BVP-550 (SY)

94
93

7.3V
7.3V

Q1
2SB624-T1BV3

CN1(94/100)

IC3(1/4)
TL064CPW-E05
7V

L1
0.47µH

CN1(93/100)

C1
R9
1
36k
35V
:TA-C :RN-C
R10
20k
:RN-C

R3
0

Q1

4

5
6

7
3
D1
RD4.3UH-T1

CN1(13/100)
C3
4.7
20V
:TA-C

C2
10
20V
:TA-C

C4
0.1

R11
0

C5
0.1

C6
22
20V
:TA-C

CN1(14/100)

C7
0.1

CN1(15/100)
CN1(16/100)

5.1V
5.1V

92
91

CN1(92/100)

Q2
2SB624-T1BV3

L2
0.47µH

CN1(91/100)

CN1(20/100)

IC3(2/4)
TL064CPW-E05

CN1(24/100)

Q2

2

12

14
3

13

D2
RD4.3UH-T1

2.5 REF

100
99
98
97

GND
GND
GND
GND

C9
6.8
16V
:TA-C

CN1(89/100)

C12
0.1

-2.8V
-2.8V

CN1(28/100)
CN1(29/100)
C13
33
16V
:TA-C

R8
22k
:RN-C

CN1(33/100)

C14
0.1

CN1(37/100)

C15
0.1
25V
F

IC206(1/2)
TL062CPW-ELL2000

IC206(2/2)
TL062CPW-ELL2000

Q204
IC207
DTC144EUA-T106 TC7S02FU(TE85R)

1
CN1(97/100)

CN1(85/100)

3

CN1(52/100)

4.8V

D200
1SS302-TE85L

CN1(98/100)

5
6

A VD IN
A HD IN

37
38

GEN VIDEO(G) OUT
GND
GND

52
53
54

GEN VIDEO(X) OUT

51

CN1(48/100)

CN1(99/100)

CN1(86/100)

CN1(38/100)

4.8V
CN1(53/100)

3
2

7V

2
3

R208
100k
R206
100k

R211
100k

1

C200
0.1

IC3(3/4)
TL064CPW-E05

IC48(2/2)
TL062CPW-ELL2000
86
85

CN1(27/100)

CN1(31/100)
C11
0.1

R1
10k
:RN-C

R137
220k
:RN-C

CN1(100/100)

C10
6.8
16V
:TA-C

CN1(26/100)

C8
R6
1
240
35V :RN-C
:TA-C
R7
20k
:RN-C

R2
0

R136
220k
:RN-C

89

CN1(22/100)

4.8V

5
6

R209
10k

R207
4.7k

1

CN1(54/100)

5
4

IF,870-35(BVP-500)

CN1(63/100)

2

8 7

CN1(64/100)

3

CN1(65/100)

4

CN1(67/100)
CN1(69/100)

R210
100k

C201
0.1

7

CN1(70/100)

-4.8V

IC3(4/4)
TL064CPW-E05

Q4
2SD596-T1DV3

CN1(71/100)
CN1(72/100)
CN1(73/100)

9.3V

90

CN1(90/100)
CN1(74/100)

R15
0

C23
0.1

CN1(77/100)
C25
6.8
16V
:TA-C

C24
6.8
16V
:TA-C

C26
0.1

8
3
D4
RD4.3UH-T1

-5.1V
-5.1V

88
87

3

CN1(88/100)

10

C28
C27
R17
6.8
1
15k
16V
35V
:TA-C :RN-C :TA-C

11

L4
0.47µH

CN1(87/100)

Q6
Q5
2SC4178-T1F14 2SA1611-T1M7M
Q8
Q9
2SC4178-T1F14
2SC4177-T1L7

-4.8V

R25
6.8k

D14
1SS123-T1
R152
47k

MB,11-30(BVP-550)
MB,18-B15(BVP-500)

79

GEN(G)/H CONT IN

R18
100k

H CONT IN

R118
100k

2
3

8
4

1

7
6

47

4
1

8
4

2 5 3

C80
470p

R153
47k

C100
0.1

1

8
46

7
2 5 3

100k

2 5 3

7
6

C34
0.0022

GENLOCK(X) IN

Q21

R24
3.3k
:RN-C

R22
1k

8
4
1

C87 22p

6
7

17

1/2

R28
3.9k
:RN-C

8 5

R30
10k
:RN-C

204
3 4

Q17
C45
6.8
6.3V
:TA-C

Q17
2SC4177-T1L7

Q14
2SC4177-T1L7
R47
10k
:RN-C

Q18(2/2)
IMH2-T110

R49
100

Q7
2SC4177-T1L7

IC5
EL4581CS-TE2

C31
0.1

R143

D5
1SS302-TE85L

R53

Q7

1
2

R46
2.2k
:RN-C

Q12
Q11

R142

R38
10k
:RN-C

R51
1k
:RN-C

Q10

C32
10p

C35
10
10V
:TA-C

C36
0.1

L5
22µH

D6
1SS301-TE85L

8
VCC

2

C38
33p

C37
0.1

IN

Q18
C40
33p
C39
0.1

R37
3.9k
:RN-C

R36
R35
47k 3.3k
:RN-C :RN-C

L6
22µH

R39
68k
:RN-C Q15

1

Q14

C41
47p

6

C33
0.1

5
7

2

4 Q18
5

-4.8V

R140
150k

Q22

Q12
XN6435-TW
R44
R43
100k 820
:RN-C :RN-C

R41
10k
:RN-C

R34
22k
:RN-C

R141
7500

5 2

Q22
DTC144EUA-T106

4

C94
0.1

R139
1600

C88 100p

R27
2.2k
:RN-C

1
2
3
4
5
6
7
8
9
10
11
12
13

Q11
Q18(1/2)
Q15
Q10
C90
2SC4177-T1L7 IMH2-T110 2SC4178-T1F14 2SC4178-T1F14 0.1 C91

4.8V

7
6

IC17
TC4W53FU(TE12R)
D13
HSM88AS-TL

Q202
2SA812-T1M7
C95
1.5
20V
:TA-C

Q6

C89 47p

CN1(80/100)

IC204
TC4W53FU(TE12R)

C30
4.7
10V
:TA-C

C86

R120

S

80

CN1(82/100)

Q8
R23
47

3
MB,11-29(BVP-550)
MB,18-A15(BVP-500)

R29
12k
:RN-C

Q9

R21
1k
:RN-C

R119
100k

4
1

44

Q5

R26
2.2k
:RN-C

S

Q16
6

R138
1k
CN1(5/100)

Q21
2SK852-T1X2 R135

IC46
TC4W53FU(TE12R)

Q16
2SK852-T1X2

8

R117
10k
:RN-C
R151
47k

5

IC44
TC4W53FU(TE12R)

CN1(79/100)
D12
HSM88AS-TL

MB,12-19(BVP-550)
TR,1-81,82(BVP-500)

R154
47k

CN1(81/100)

Q203
DTC144EUA-T106

R204
10k

C29
0.1

R5
0

Q4

IC48(1/2)
IC47
TL062CPW-ELL2000 TC4W53FU(TE12R)

R205
100k

R16
22k
:RN-C

9

C92
0.1

1
3
5

6 4
3
R40
56k
:RN-C

R45
2.2k
:RN-C

R42
3.3k
:RN-C

R31
10k
:RN-C

C42
0.1

R48
15k
:RN-C

R50
470

C43
68p

R52
3.9k
:RN-C

C44

R54
680k

R126
10

R33
R32
15k 4.7k
:RN-C :RN-C

R55
3.9k
:RN-C

RESET GND

CN1(51/100)

R203
4.7k

IF,1-36(BVP-550)
IF,870-36(BVP-500)

Q205
2SC4177-T1L7

V RESET 2
N/P
H CONT
+4.8V
GND
OLD/NEW CA
VR DET
-4.8V
CABLE COMP
EXT SYNC
GENLOCK OFF
TRAP
EXT SC

SG-234 (2/2)
BOARD NO. 1-657-449-21
LOT NO. 508B-¥BVP550-SG234-12

5

8-12
A

B

C

D

8-12

BVP-550

E

F

G

H

1

2

3

4

5

8-13

BVP-550

I

J

K

L

8-13
M

N

O

P

DA-88 (1/2)

DA-88 (1/2)

BVP-550 (SY)

DA-88 BOARD

3

*
*
*
*
*
*
*
*
*

*
*
*
*

4

*
*

*
*
*

*

5
*
*
*
*

FL1
FL2
FL3
FL4
FL5
FL6
FL7
FL8

A-4
A-3
B-3
B-2
C-2
D-3
E-3
F-3

IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC23
IC24
IC25
IC26
IC27
IC28
IC29
IC34
IC35
IC36
IC37
IC100
IC101
IC102
IC103
IC104
IC105
IC106
IC107
IC108
IC109
IC110

A-1
B-1
A-2
D-1
E-1
E-1
D-2
D-1
E-2
E-1
F-1
F-1
E-2
F-2
B-3
B-4
B-4
C-4
G-2
C-2
C-3
D-4
C-3
C-4
E-3
F-4
C-4
D-1
E-1
F-2
C-3
F-2
C-3
C-3
G-2
G-2
G-2
G-2
E-2
E-2
G-2
E-2

JR1
JR2
JR3
JR4

B-4
A-4
C-2
B-3

L1
L2
L3
L4
L5

A-1
A-2
A-1
A-2
B-1

CN1(42/100)
CN1(40/100)
CN1(39/100)
CN1(38/100)
CN1(37/100)
CN1(36/100)
CN1(35/100)
CN1(34/100)
CN1(33/100)
CN1(32/100)

DLY6
DLY5
DLY4
DLY3

11
10
9
8
7
5
4
3
2
1

Y9
Y8
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

CN1(31/100)

4

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

26
27
28
29
31
32
33
34
35
36

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2
YB1
YB0

YB0
R33
100k

R34
100k

62
RB1

27
26

CN1(30/100)
CN1(29/100)
CN1(28/100)
CN1(27/100)
CN1(26/100)
CN1(25/100)
CN1(24/100)
CN1(23/100)
CN1(22/100)
CN1(21/100)

RY0
RY1
RY2
RY3
RY4
RY5
RY6
RY7
RY8
RY9

RY9
RY8
RY7
RY6
RY5
RY4
RY3
RY2
RY1
RY0

11
10
9
8
7
5
4
3
2
1

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

CN1(20/100)

RYB0

RYB1

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
5

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

26
27
28
29
31
32
33
34
35
36

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
RYB1
RYB0

B9

VGB

B8

ROB

23
22

B6

VGG

B5

ROG

B3

VGR

B2

ROR

B1
B0

BO

G9

BO

18

17

44
43

C37
0.1

9 2 8 3 7 4 6 5
R37
100k

RB3

R38
100k

1

19
18
17
16
15
14
13
12
11
10
9

B-Y(L)
B-Y(1)
B-Y(2)
B-Y(3)
B-Y(4)
B-Y(5)
B-Y(6)
B-Y(7)
B-Y(8)
B-Y(M)
B-Y(G)

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

CN1(19/100)
CN1(18/100)
CN1(17/100)
CN1(16/100)
CN1(15/100)
CN1(14/100)
CN1(13/100)
CN1(12/100)
CN1(11/100)
CN1(10/100)

BY0
BY1
BY2
BY3
BY4
BY5
BY6
BY7
BY8
BY9

11
10
9
8
7
5
4
3
2
1

BY9
BY8
BY7
BY6
BY5
BY4
BY3
BY2
BY1
BY0

CN1(9/100)

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

S

7

23

5
6

C97
0.1

R162
47

C103
1
25V
:TA-CA

R161
3.6k

C96
0.1

L19
0.47µH

R40
220
:RN-C

54
GO

C101 C102
1
1
25V
25V
:TA-CA :TA-CA

R166
4.7k
:RN-C

R171
100k

C40
15
16V

R39
C39
220
58 :RN-C 0.01

C214
0.1

G4

C99
6.8
16V

C98
0.1

Q67
Q117
Q68
Q69
Q70
Q71
Q72
IC27(1/4)
2SC4178-F13F14-T
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5
1

L20
0.47µH

RO

51

8
7

C117
*

FG

R5

R51
R48
R45
R44
33k
33k
3.3k 33k
42 :RN-C :RN-C :RN-C :RN-C

R53
39k
:RN-C

Y

41

R50
39k
:RN-C

R-Y

40

R47
39k
:RN-C

VRB

R4
R3

1
VRG

R2

64
R1
63
33
32

R0

VRR

BCK

CE

C123
2p

R222
100

FG

S

37
IRR

R220
3.6k

R215
5.6k
:RN-C

16
15

R7
R6

R219
3k
:RN-C

D14
1SS302-TE85L

1 2 3 4 5 6 7 8 9
17

R43
3.3k
:RN-C

38
IRG

R8

R214 R370
2.4k
0
C118 :RN-C :RN-C
0.1

FL7
R42
3.3k
:RN-C

R9

6
5
4
3
2

R209
1.8k
:RN-C

R208
0

RO

G1

R217
3.6k

R213
4.7k

R41
220
:RN-C

50

7
G3

14 13

12 11

10

R218
2.2k
:RN-C

4
1

C120
0.1
R211
3.6k

B-Y

30

C220
0.1

L21
0.47µH

27

R223
100k

3
2
C126
1
25V
:TA-CA

11

R212
47

R210
220
:RN-C

GCK

C124
C125
1
1
25V
25V
:TA-CA :TA-CA

R216
4.7k
:RN-C

BLK

RCK
DVSS

AVSS
AVSS

VB

R52
R49
R46
22k
22k
22k
:RN-C :RN-C :RN-C

49

36

35

Q85
Q86
Q87
Q88
Q89
Q90
Q91
IC27(3/4)
2SC4178-F13F14-T
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5
1

L22
0.47µH

R327
1k

5
2
34

R54
10

C223
10p

C35
0.1

R266
3.6k

R262
4.7k

C42
0.1

C140
0.1

C43
0.1

R268
3k
:RN-C

R269
3.6k

R263 R373
2.4k
0
:RN-C :RN-C
C145
2p

R258
1.8k
:RN-C

6 30 13 14 15 16 17 18 20 21 44 38 37 42

6

C127
1
25V
:TA-CA

C122
6.8
16V

C121
0.1

C119
0.1

R221
100k

29

31

34

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

C104
1
25V
:TA-CA

55

C41
0.1

MB,10-15(BVP-500)/MB,6-15(BVP-550)
MB,10-14(BVP-500)/MB,6-14(BVP-550)
MB,10-13(BVP-500)/MB,6-13(BVP-550)
MB,10-12(BVP-500)/MB,6-12(BVP-550)
MB,10-11(BVP-500)/MB,6-11(BVP-550)
MB,10-10(BVP-500)/MB,6-10(BVP-550)
MB,10-9(BVP-500)/MB,6-9(BVP-550)
MB,10-8(BVP-500)/MB,6-8(BVP-550)
MB,10-7(BVP-500)/MB,6-7(BVP-550)
MB,10-6(BVP-500)/MB,6-6(BVP-550)
MB,10-5(BVP-500)/MB,6-5(BVP-550)

R168
2.2k
:RN-C

10

GO

G5

IC34
TC7SH04FU-TE85R

3

IC6
CXK1203AR-T4

R172
100

D10
1SS302-TE85L

11

G0

C34
10
10V
:TA-CB

C33
0.01

12 11

R160
220
:RN-C

G6

10
9

19 43 39 41 22 23 24 45 46 47 48 25 12 40

FG
14 13

C38
0.1

G8
G7

C230
3p

R165
5.6k
:RN-C

16
15

G2

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2
BYB1
BYB0

1 2 3 4 5 6 7 8 9

59

17
16
15
14
13
12
11

R336
30k

FG

R170
3.6k

4
46
45

B4

21
20
19

R158
0
:RN-C

Q53
IC23(1/4)
Q54
2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5

R169
3k
:RN-C

C100
2p

C95
0.1

FL6

3

39

C31
0.1

4

48
47

R167
3.6k
R164
150 R367
1/16W 2.2k
:RN-C :RN-C

R159
1.8k
:RN-C

C94
*

5 1
9 2

C36
0.1

IRB

BYB0

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

BYB1

R-Y(L)
R-Y(1)
R-Y(2)
R-Y(3)
R-Y(4)
R-Y(5)
R-Y(6)
R-Y(7)
R-Y(8)
R-Y(M)
R-Y(G)

R36
100k

1

RB2

6 30 13 14 15 16 17 18 20 21 44 38 37 42

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2

30
29
28
27
26
25
24
23
22
21
20

R35
100k

AVDD AVDD AVDD
AVDD AVDD AVDD

B7

25
24

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
RYB1
RYB0

9 2 8 3 7 4 6 5

4

28

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2
YB1
YB0

DLY2
DLY1
DLY0

IC5
CXK1203AR-T4

52 53 56 57 60 61

DVDD

1

19 43 39 41 22 23 24 45 46 47 48 25 12 40

MB,10-26(BVP-500)/MB,6-26(BVP-550)
MB,10-25(BVP-500)/MB,6-25(BVP-550)
MB,10-24(BVP-500)/MB,6-24(BVP-550)
MB,10-23(BVP-500)/MB,6-23(BVP-550)
MB,10-22(BVP-500)/MB,6-22(BVP-550)
MB,10-21(BVP-500)/MB,6-21(BVP-550)
MB,10-20(BVP-500)/MB,6-20(BVP-550)
MB,10-19(BVP-500)/MB,6-19(BVP-550)
MB,10-18(BVP-500)/MB,6-18(BVP-550)
MB,10-17(BVP-500)/MB,6-17(BVP-550)
MB,10-16(BVP-500)/MB,6-16(BVP-550)

IC9
TC7S00FU(TE85R)

L10
22µH

C30
0.1

26
27
28
29
31
32
33
34
35
36

IC8(2/4)
TC74VHC00FS(EL)

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2
BYB1
BYB0

R257
0

IC8(1/4)
TC74VHC00FS(EL)

C139
*

R271
100

D17
1SS302-TE85L
R264
5.6k
:RN-C

FL8

S

9
10

C44
0.1

8
8

8

IC35(2/2)
TC74HC4538AFS-EL
C84
0.01

R267
2.2k
:RN-C

16
FG
15

2
1 8
R57
220

R196
15k
:RN-C

C81
0.01

17

6

FG

R272
100k

12
14
27 13

R56
1M

R55
*

C222
0.1

1 2 3 4 5 6 7 8 9

14

4
5

11

13 8

7

IC35(1/2)
TC74HC4538AFS-EL

19 43 39 41 22 23 24 45 46 47 48 25 12 40

IC8(3/4)
TC74VHC00FS(EL)
12

1 5
4
2 107

C45
22p

14 13

12 11

C142
0.1

3
R259
220
:RN-C

C46
0.01

IC8(4/4)
TC74VHC00FS(EL)

L23
0.47µH

C148
1
25V
:TA-CA

10

R261
47

C221
0.1

R260
3.6k

C143
0.1

C141
0.1

C146
C147
1
1
25V
25V
:TA-CA :TA-CA

R265
4.7k
:RN-C

R270
100k

C149
1
25V
:TA-CA

C144
6.8
16V
:TA-CB

R197
100k
:RN-C

3
C32
0.1

2

SG,1-57
SG,1-58
SG,1-55
SG,1-56
SG,1-49
SG,1-50
IF,870-15(BVP-500)/IF,1-15(BVP-550)

48
47
46
45
44
43
5

36MHz(X) IN
36MHz(G) IN
18MHz(X) IN
18MHz(G) IN
HD IN
VD IN
SKIN GATE OUT

5
1
4
2 108

5 4
110

3

CN1(47/100)

Cx

6
12
11

35
Q

14
10
CxRx 16
Q

35

7

Q

9

RD

8 13

3

CN1(46/100)
CN1(45/100)

IC10
X24C02S-3.0-C700 0

CN1(44/100)
CN1(43/100)

IC36
TC74HC595AF(EL)

IC13
TC74HC595AF(EL)

R326
1k

IC14
MB88346BPFV-EF

CN1(5/100)

8
1 A0 VDD SDA 5
2 A1 10 SCL 6
7
3 A2
CPE

R365
220k

Q0
Q1
Q2

14 DI
36

4

12 LD

Q3
Q4
Q5

9 DO

CN1(3/100)

Q6

CN1(2/100)

Q7

CN1(1/100)

1 5
4
2 12
2

5

4

15
1
2
3
4
5
6
7

1
3
5
7
1
3
5
7

11

VCC CLR

2
4
6
8
2
4
6
8

DLY0
DLY1
DLY2
DLY3
DLY4
DLY5
DLY6
DLY7

VCC
Q0

11
14

Q1

CK

Q2
DI

13
12
9

LD

Q3
Q4
Q5

DO
Q6
Q7

GND G

15
1
2
3
4
5
6
7

BLK
16:9/4:3
A
B
INH

10
VDD
A01

14

A02

DO

A03

17

A04

DI

A05

16

14

CLK

A06
A07

15

A08

LD

GND G
A09

RB5

8

C47
0.1

16 10
RB4

VCC CLR

11 CK

VSS

IIC DATA
IIC CLK
LD(DA) IN

CxRx
Q

15

RD

16 10

3
2
1

Cx

4
5

3

IC107
TC7SH08FU-TE85R
IC110
IC108
TC7S04FU(TE85R) TC7S00FU(TE85R)

CN1(48/100)

R364
220k

AT,1-14
AT,1-13
AT,1-17

2

1

8

13

13

A10
A11

3

11

A12
GND

3
R332
33k
:RN-C

R366
100k

IC11
TC7S04FU(TE85R)

IC12
TC7S08FU(TE85R)

RB6

Y
R-Y
B-Y
SETUP1
SETUP2
Y-SAMPLE
R-Y SYNC
B-Y SAMPLE
CHAR ON

VSS

20

R331
22k
:RN-C

18
19
2
3
4
5
6
7
8
9
12
13

1

RB7

SETUP HI-Y
SETUP Y

8-14
A

YB1

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2

Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
Y8
Y9

DLY6
DLY5
DLY4
DLY3

B-2
C-1
D-4
E-4
F-4

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

TP1
TP2
TP3
TP4
TP5

Y(L)
Y(1)
Y(2)
Y(3)
Y(4)
Y(5)
Y(6)
Y(7)
Y(8)
Y(M)
Y(G)

IC7
CXD2307R-T4

9 2 8 3 7 4 6 5

Q50
Q51
Q52
2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7

R163
4.7k

6 30 13 14 15 16 17 18 20 21 44 38 37 42

DLY2
DLY1
DLY0

F-4

A-2
A-2
B-2
A-3
A-3
A-3
A-3
A-2
B-3
A-4
B-4
B-4
A-4
A-4
B-4
B-4
B-3
A-2
C-3
B-3
C-4
B-4
B-2
B-1
C-2
B-2
C-2
C-2
C-2
C-2
C-1
F-1
G-1
G-1
D-4
D-3
D-4
D-4
D-4
D-4
D-4
C-4
C-4
D-3
E-3
E-3
E-3
E-3
E-3
E-4
E-4
E-4
C-4
C-4
F-3
F-3
G-3
G-3
G-3
G-3
G-3
F-4
G-4
G-4
A-4
A-4
C-2

42
40
39
38
37
36
35
34
33
32
31

CN1(95/100)

DLY6
DLY5
DLY4
DLY3

E1

* Q1
Q2
Q3
* Q4
* Q7
* Q8
* Q9
* Q10
* Q11
* Q12
* Q13
Q14
Q15
* Q16
Q17
* Q18
* Q19
* Q20
* Q22
Q23
* Q25
* Q26
* Q27
* Q28
* Q29
* Q30
* Q32
* Q33
* Q34
Q43
Q44
* Q45
* Q46
* Q47
* Q48
* Q49
* Q50
* Q51
* Q52
* Q53
* Q54
Q59
Q63
* Q67
* Q68
* Q69
* Q70
* Q71
Q72
* Q73
Q75
Q79
* Q83
* Q84
* Q85
Q86
* Q87
* Q88
* Q89
* Q90
Q91
* Q92
Q94
Q98
* Q100
* Q101
* Q102

D-2
E-2
E-2
F-2
F-1
F-2
F-2

MB,10-38(BVP-500)/MB,6-38(BVP-550)
MB,10-36(BVP-500)/MB,6-36(BVP-550)
MB,10-35(BVP-500)/MB,6-35(BVP-550)
MB,10-34(BVP-500)/MB,6-34(BVP-550)
MB,10-33(BVP-500)/MB,6-33(BVP-550)
MB,10-32(BVP-500)/MB,6-32(BVP-550)
MB,10-31(BVP-500)/MB,6-31(BVP-550)
MB,10-30(BVP-500)/MB,6-30(BVP-550)
MB,10-29(BVP-500)/MB,6-29(BVP-550)
MB,10-28(BVP-500)/MB,6-28(BVP-550)
MB,10-27(BVP-500)/MB,6-27(BVP-550)

CN1(96/100)

D GND
D GND

DLY2
DLY1
DLY0

*
*
*

* RB1
* RB2
* RB3
RB4
RB5
* RB6
* RB7

96
95

C29
0.1

8
6
4
2
8
6
4
2

*

C-2
C-3
G-2
G-1
B-3
C-3
C-3
E-4
E-4
E-4
F-4
G-4
G-4
D-3

C28
10
10V

C27
10
10V

Q48
Q49
2SC4178-F13F14-T
2SA1226-T1E4
1

L18
0.47µH

7
5
3
1
7
5
3
1

2

* Q103
* Q104
Q105
* Q106
* Q107
* Q108
* Q109
* Q110
* Q111
* Q112
* Q113
* Q114
* Q115
Q117

IC4
CXK1203AR-T4

DLY7
DLY6
DLY5
DLY4
DLY3
DLY2
DLY1
DLY0

*

A-2
B-1
B-1
A-4
G-2
F-2
C-1
D-3
G-2
E-4
G-2
E-3
G-2
G-2
G-3
B-3
C-4
G-4
A-3
C-2
G-2

B-2
A-3
A-3
B-1
D-2
F-1
G-1
G-3
A-3
B-3
B-2
B-2
D-4
D-4
E-4
E-4
F-4
G-4
G-1
F-1

L9
22µH

CN1(83/100)

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

*
*
*

D1
D2
D3
D5
D6
D7
D9
D10
D11
D12
D13
D14
D15
D16
D17
D24
D25
D26
D100
D101
D102

L6
L7
L8
L9
L10
L11
L12
L13
L14
L15
L16
L17
L18
L19
* L20
* L21
* L22
L23
L24
L25

CN1(84/100)

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

*
*
*
*
*

C-1

+3.1V
+3.1V

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

CN1

84
83

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

——————————
DA-88 (1-657-450-21)
——————————
*: B SIDE

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

1

B

C

D

8-14

BVP-550

E

F

G

H

DA-88 (1/2)

DA-88 (1/2)

1
TP3
CN1(64/100)

IC102(1/2)
TC7W32FU-TE12L
IC24
TC4W53FU(TE12R)

Q107
2SC2223-T1F14

IC102(2/2)
TC7W32FU-TE12L

IC101
TC7S04FU(TE85R)

CN1(63/100)

Q108
IC25(1/2)
2SC2223-T1F14 TC74HC4052AFS(EL )

IC37(1/2)
TC7W32FU-TE12L

Q22
2SA1226-T1E4
8

16
VCC

14
11
12
15

R184
160
:RN-C

2
5 101 3
4

R185
15
:RN-C

A
B

1 2
102

1

4

7

24
6
2 INH
GND VEE
3
4

C106
0.1

C107
6.8
16V
:TA-CB

2
R190
4.7k

C109
0.1

6

102
3

4

R198
R199
3k
C113
75
:RN-C 1p :RN-C

C218
0.1

5
1
103 2

5
4
109

R201
100
:RN-C

16

R188 R313
2.7k 4.7k
:RN-C

R314
4.7k

R177
6.8k
:RN-C

3

13
23 12

14

R194
2.2k
:RN-C

Q109
2SC2223-T1F14

R178
22k
:RN-C

C215
6.8
16V

IC25(2/2)
TC74HC4052AFS(EL )

R200
100
:RN-C

C114
10p

R195
2.7k

CN1(50/100)

C115
33p

12

R205
2k
:RN-C

51
50

R-Y(G) OUT
R-Y(X) OUT

62
61

MB,11-26(BVP-550)/MD,1-80(BVP-500)
MB,11-24(BVP-550)/MD,1-78(BVP-500)

B-Y(G) OUT
B-Y(X) OUT

60
59

MB,11-26(BVP-550)/MD,1-74(BVP-500)
MB,11-25(BVP-550)/MD,1-76(BVP-500)

IF,1-8(BVP-550)/IF,870-8(BVP-500)
AT,1-27(BVP-550)

7 19 13

13
14

IF,1-7(BVP-550)/IF,870-7(BVP-500)
AT,1-28(BVP-550)

CHAR VF IN
CHAR BACK IN

C219
0.1

R202
100
:RN-C

11

26

R193
3.9k

25

R315
4.7k

D13
1SS302-TE85L

C225
10p

D25
1SS302-TE85L

CN1(51/100)

3

3

R334
1k

7

1
2
4
5

IC23(3/4)
IC19(6/8)
TC74VHC244FS(EL) TL084CPW-E05

5
1
104 2

4

1
2

3

VCC

R187
75
:RN-C

C110
15
16V

C217
6.8
16V

R192
5.6k
:RN-C

R369 R191
180 2.2k
:RN-C :RN-C

6

5

IC104
IC109
IC19(5/8)
TC7S08FU(TE85R) TC74VHC244FS(EL) TC7S00FU(TE85R):NM

IC103(1/2)
TC7S32FU(TE85R)

4

6

R186
51
:RN-C

8
7

IC26(1/3)
TC74HC4053AFS-EL

MB,11-26(BVP-550)
MD,1-82(BVP-500)
MB,11-23(BVP-550)
MD,1-84(BVP-500)

1

GND VEE

8
5
8
VCC

R173
100k

37

5

3
37

INH

IC23(2/4)
TL084CPW-E05

Q63
2SC2223-T1F14

64
63

7

10
9
13

25

Q59
XN6534-TW

Y(G) OUT
Y(X) OUT

9

R207
24k
:RN-C

19

11

8

23

9
10
Y-SAMPLE

6 INH

R135
10k

GND VEE

8

7

R206
47k
:RN-C

C116
*

IC37(2/2)
TC7W32FU-TE12L
C216
0.1

Q111
Q112
IC28(1/2)
2SC2223-T1F14 2SC2223-T1F14 TC74HC4052AFS(EL )

Q110
2SC2223-T1F14

Q75
XN6534-TW

Q73
2SA1226-T1E4

IC27(2/4)
TL084CPW-E05

Q79
2SC2223-T1F14

IC26(2/3)
TC74HC4053AFS-EL

IC105
TC7S32FU(TE85R)

IC19(7/8)
TC74VHC244FS(EL)

IC23(4/4)
TL084CPW-E05

IC29
TC4W53FU(TE12R)

Q83
2SC4177-T1L7

IC106
TC7S08FU(TE85R)

IC19(8/8)
TC74VHC244FS(EL)

2

TP4
CN1(62/100)

R229
4.7k

16
VCC

12
14
15
11

R224
560
:RN-C
R225
1.6k
:RN-C

A
B

CN1(61/100)
R231
180
:RN-C

10
9

R372
2.4k
:RN-C

28
13
INH

8

R317
4.7k

5
4 105

R239 C132
3k
1p
:RN-C

R371
10

6

R232
6.8k
:RN-C

GND VEE

R226 R316
150 4.7k
:RN-C

R240
75
:RN-C
R234
5.6k
:RN-C

R335
1k

7

D15
R242
100 1SS302-TE85L
:RN-C

D12
1SS302-TE85L
C128
0.1

C129
6.8
16V
:TA-CB

R241

7
27

R233
3.9k

R235
2.2k
:RN-C

6 100
5 :RN-C

C226
10p

1
2

R236
2.7k

C133
10p

R318
4.7k

8

R243
100
:RN-C

1

2
3

23

R249
2k
:RN-C

R247
22k
:RN-C

5

51
106 2

R254
12k
:RN-C

7
1
2 INH

R244
100k

C135
*

R250
100
:RN-C

D16
1SS302-TE85L

16 19 4

3
R256
24k
:RN-C

6
C136
10p

26
R136
10k

R253
5.6k

VCC

C134
33p

R248
47k
:RN-C

R246
36k
:RN-C

15

4

14 19 6

10

R227
5.1k
:RN-C
R228
200
:RN-C

1
2

3

C227

29
GND VEE

4

3

R337
1k

R252
2.2k

R255
10k
:RN-C

R251
100
:RN-C
C137
33p

C138
0.01

SETUP2

Q84
2SA1611-T1M7

C172
6.8
16V

R-Y SYNC

TP5
Q113
2SC2223-T1F14

Q114
IC28(2/2)
2SC2223-T1F14 TC74HC4052AFS(EL )

Q92
2SA1226-T1E4

Q94
XN6534-TW

IC27(4/4)
TL084CPW-E05

Q98
2SC2223-T1F14

IC26(3/3)
TC74HC4053AFS-EL
CN1(60/100)

R278
4.7k

1
5
2
4

R273
560
:RN-C

28
3

R280
150
:RN-C

CN1(59/100)

R375
2.4k
:RN-C

R289
75
:RN-C

R374
10
R281
6.8k
:RN-C

R274
1.6k
:RN-C

R288
3k
:RN-C

CN1(49/100)

C154
1p

CN1(53/100)

R275
150
:RN-C

C150
0.1
R320
4.7k

R277
200
:RN-C

R321
4.7k

R322
4.7k

8
R282
3.9k

R284
2.2k
:RN-C

R324
0

9
27 10

R290
100
:RN-C

3

R293
8.2k
:RN-C
R295
47k
:RN-C

4
5

R285
2.7k
C155
10p

Q115
2SC2223-T1F14

R323
0

CN1(54/100)

9

R276
5.1k
:RN-C

49
52
53
54

CN1(52/100)

D26
1SS302-TE85L

C151
6.8
16V
:TA-CB

3

R283
5.6k
:RN-C

R137
10k

B-Y SAMPLE

26
R294
22k
:RN-C

C156
*

C171
6.8
16V

CN1(72/100)

R325
0

CN1(71/100)
CN1(68/100)
CN1(67/100)
CN1(70/100)
CN1(69/100)

Y(G) OUT
Y(X) OUT
B-Y(G) OUT
B-Y(X) OUT
R-Y(G) OUT
R-Y(X) OUT

72
71
68
67
70
69

IF,1-71(BVP-550)/IF,870-71(BVP-500)
IF,1-72(BVP-550)/IF,870-72(BVP-500)
IF,1-67(BVP-550)/IF,870-67(BVP-500)
IF,1-68(BVP-550)/IF,870-68(BVP-500)
IF,1-69(BVP-550)/IF,870-69(BVP-500)
IF,1-70(BVP-550)/IF,870-70(BVP-500)

4

-2.5V
-4.8V
+4.8V
A GND
RESET
16:9/4:3
HI-Y
SAMPL 2
+4.8V-2
DL SYNC
SAMPL 1
GND
DL BLKG
SETUP 1
SETUP ON/OFF
A GND 2

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

2/2

5

DA-88 (1/2)
BOARD NO. 1-657-450-21
LOT NO. 508B-¥BVP550-DA88-12

8-15

BVP-550

I

J

K

L

8-15
M

N

O

P

DA-88 (2/2)

DA-88 (2/2)

BVP-550 (SY)

1

92
91

+5.1V
+5.1V

Q1
2SB624-T1BV3

IC1
REF-03GSR

CN1(92/100)
CN1(91/100)

L1
0.47µH

L2
0.47µH

R1
0
D1
RD4.3UH-T1

90

+9.3V

A
A
A
A

89

GND
GND
GND
GND

2.5V REF OUT

C1
6.8
16V

C2
15
16V

C3
0.1

8

1
2

NC

3
4

TEMP

7

NC

IN

7
6

NC

1

7
VCC
6
RESET
2 VIN
5
3
CD
GND

R7
1k
C7
0.1

R2
100k

L14
0.47µH

R92
22k

Q9
Q10
Q20(2/2) 2SC4178-F13F14-T 2SC4178-F13F14-T
1
1
IMH2-T110

5

4

C8
47p

R3
1k

R73
4.7k
FL2

4

R64
4.7k
:RN-C

5

86
85

-2.8V
-2.8V

CN1(86/100)

76
75

HI-Y(X) IN
HI-Y(G) IN

VF-Y(X) IN
VF-Y(G) IN

8

2

9
10

2
3

1
2

C11
0.1

D3
RD4.3UH-T1

R10
22k

C15
0.1

C14
15
16V

L3
0.47µH

L4
0.47µH

R74
2.4k
:RN-C

7

C48
8p

R65
1k
:RN-C

JR2
0

C18
0.1

2

13
12

C166
10
10V
C20
1
L6
0.47µH 25V

R357
330
R81
100

D5
1SS302-TE85L

R72
47

R75
5.6k
:RN-C
S

15 INH 2
VEE GND
3
4

R68
1k
:RN-C

R78
2.2k
:RN-C

8
1
16

C50
0.1

FG

R58
1k
:RN-C

R27
0

C167
0.1

R82
100k

3
2

C52
0.1

R76
4.7k
:RN-C

C57
1
25V
:TA-CA
C56
1
25V
:TA-CA

C55
1
25V
:TA-CA

R14
20k
:RN-C

8 5
VCC

7

1

4

R70
3.6k

R71
3.6k

C201
0.1

C500
1p

6
C49
2p

C169
6.8
16V

R80
4.7k

R13
0

C19
0.1

L5
0.47µH

R79
3.6k
:RN-C

5 8
VCC
1

FL3

R61
4.7k

IC2(2/4)
TL064CPW-E05

CN1(85/100)

C58
1
25V
:TA-CA

R83
100k

17
2

6

INH
GND VEE
4
3

C69
0.1

C61
10
10V

R62
4.7k

C200
0.1

L15
0.47µH

Q3
IC2(4/4)
2SD596T1-DV345 TL064CPW-E05

Q2
IC2(3/4)
2SD596T1-DV345 TL064CPW-E05

C53
0.1

C51
0.1

C54
6.8
16V

C170
6.8
16V

CN1(76/100)
CN1(75/100)

Q4
2SC4178-F13F14-T
1
CN1(74/100)

Q27
2SC4178-F13F14-T
1

Q8
2SA1611-T1M7
:2125

Q101
Q7
2SC2223-T1F14 2SC4177-T1L7

Q100
XN6534-TW

CN1(78/100)
CN1(77/100)

Q30
Q29
2SC4178-F13F14-T
2SC4178-F13F14-T
1
IC20
1
:2125
TC4W53FU(TE12R)

Q28
2SC4178-F13F14-T
1

L16
0.47µH

CN1(73/100)

Q102
Q103
2SA1226-T1E4 XN6534-TW

R300
7.5k
:RN-C

R15
47

L7
0.47µH
C23
0.1

R20
47

R17
220
:RN-C

R16
1k

C25
6.8
16V

FL1
C203
2p
R22
47

C231
3p

15

14 13

12 11

R301
1.8k
:RN-C

10
R18
R19
220 1.8k
:RN-C :RN-C

FG

10

9 8

11
C70
8p

7

7

FG
R21
3.3k

R302
4.7k
:RN-C
R379
30k

CN1(82/100)

R23
3.6k

R380
30
:RN-C

C24
0.1

R123
3.6k

C76
33
6.3V

R310 R311
2.7k
0
:RN-C :RN-C

R312
3.3k
R129
5.6k

R308
1.8k
:RN-C

R309
3.9k
:RN-C

L17
0.47µH

L8
0.47µH

R112
4.7k

R113
4.7k

C204
0.1

R130
8.2k

R131
4.7k
C82
0.1

C74
0.1

R122
3.6k

C26
10
10V

CN1(81/100)
CN1(80/100)

R118
910
:RN-C

R124
47

INH 2
VEE GND
3 4

C72
0.1

FG

1

6

R119
1k
:RN-C

C207
0.1

5 8
VCC
20

C71
2p

C206
6.8
16V

C205
2p

JR4
0

FL5

R117
4.7k
:RN-C

R24
100

R303 R304
1.5k 200
:RN-C :RN-C

R116
1k
:RN-C
R121
47

R111
47

R128
8.2k
D101
1SS302-TE85L

R306
8.2k

R110
47

R26
33

17
FG

R114
1k
:RN-C

R25
8.2k

D100
1SS302-TE85L

FG

Q32
Q33
Q34
2SA1226-T1E4 2SC2223-T1F14 2SC2223-T1F14

R120
47

1 2 3 4 5 6
12

Q104
2SC2223-T1F14

R307
7.5k
:RN-C

FL4
JR3
0

C21
10p

4

8

FG
14

C17
10
10V

C16
10
10V

R11
22k

C13
1
25V

C12
0.1

1 2 3 4 5 6 7 8 9

1/2

9

R77
3.6k

C229
3p

CN1(87/100)

FG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

10

R67
4.7k
:RN-C

R12
36k
:RN-C

11
D2
RD4.3UH-T1

16

VF-Y(X) OUT
VF-Y(G) OUT

FG

7

R60
47

3

82
81
80
79

11
FG

C9
0.047

R9
0

R305
24k

IF,870-80(BVP-500)/IF,1-80(BVP-550)
IF,870-79(BVP-500)/IF,1-79(BVP-550)

12

R376
30k

R66
47

R69
47

CN1(89/100)

CN1(88/100)

78
77

1 2 3 4 5 6

R63
1k
:RN-C

6

JR1
0

R59
47

CN1(97/100)

Q13
Q14
Q15
Q16
Q17
IC16(1/2)
Q18
IC17
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL082CPS-E05 2SK853-T1K5 TC4W53FU(TE12R)

2
3

CN1(98/100)

-5.1V
-5.1V

Q12
2SC4178-F13F14-T
IC15
1
TC4W53FU(TE12R)

1

R115
4.7k
:RN-C

MB,10-119(BVP-500)/MB,6-119(BVP-550)
MB,10-120(BVP-500)/MB,6-120(BVP-550)

Q11
2SC4178-F13F14-T
1

CN1(99/100)

88
87

C(X) IN
C(G) IN

R5
20k

L13
0.47µH

Q20(1/2)
IMH2-T110

R6
22k

C10
15
16V

74
73

R4
240

C6
15
16V

CN1(100/100)

2

MB,10-115(BVP-500)/MB,6-115(BVP-550)
MB,10-116(BVP-500)/MB,6-116(BVP-550)

2

5
6

IC3
M51958A-T1

OUT

GND TRIM

R8
100

MB,10-117(BVP-500)/MB,6-117(BVP-550)
MB,10-118(BVP-500)/MB,6-118(BVP-550)

C5
1
25V

C4
0.1

4

CN1(90/100)

E1
100
99
98
97

IC2(1/4)
TL064CPW-E05

C75
0.1

C73
0.1

C83
6.8
16V
:TA-CB

C77
6.8
16V
:TA-CB

CN1(79/100)

-2.5V
-4.8V
+4.8V
A GND
RESET
16:9/4:3
HI-Y
SAMPL 2
+4.8V-2
DL SYNC
SAMPL 1
GND
DL BLKG
SETUP 1
SETUP ON/OFF
A GND 2

5

8-16
A

B

C

D

8-16

BVP-550

E

F

G

H

DA-88 (2/2)

DA-88 (2/2)

1

Q19
XN6534-TW

Q23
2SC2223-T1F14

IC16(2/2)
TL082CPS-E05

Q25
Q26
IC18
TC4W53FU(TE12R) 2SC4177-T1L7 2SA1611-T1M7

IC100
IC19(1/8)
TC7S08FU(TE85R) TC74VHC244FS(EL)

IC19(2/8)
TC74VHC244FS(EL)

IC19(3/8)
TC74VHC244FS(EL)

TP1

C202
6.8
16V

CN1(58/100)
CN1(57/100)

R358
150
:RN-C

R87
2.7k
:RN-C

HI-Y(G) OUT
HI-Y(X) OUT

58
57

DL BLKG IN

8

SG,1-25

SAMPLE2 IN

4

SG,1-17

R90
5.6k
:RN-C
R95
3k
:RN-C

R104
*

C64
1p

4

5 1
100 2

R333
1k

D24
1SS302-TE85L

3

R88
22k
:RN-C

18

R100
5.6k
C66
33p

8 5
R89
3.9k

R97
D7
100 1SS302-TE85L
:RN-C

C224

R91
2.2k
:RN-C

R98
100
R84
:RN-C 4.7k
:RN-C

R105
100k

20
2
10

D6
1SS302-TE85L

C68
0.1

3

6
5

16

R96
2k
:RN-C

R101
15k
:RN-C

7
1

R94
4.7k

R103
24k
:RN-C

6
C65
10p

R127
100k

2 INH

17
19

D11
1SS302-TE85L

R85
22k
:RN-C

R174
4.7k
:RN-C

C59
470p

C105 R175
470p 22k
:RN-C

5

18

19

R108
100

15

CN1(4/100)

2

19
R99
2.2k

GND VEE

4

CN1(8/100)

R106
100k

1

VCC

7

R107
100

19

3

R102
10k
:RN-C

C67
0.01

SETUP1
CN1(7/100)

VTR SYNC OUT

7

MB,12-14(BVP-550)/MD,1-58(BVP-500)

CN1(56/100)

C(G) OUT
C(X) OUT

56
55

MB,11-28(BVP-550)
MB,11-27(BVP-550)

CN1(94/100)

+7.5V
+7.5V

93
94

CN1(6/100)

DL SYNC IN

6

SG,1-23

CN1(66/100)

VBS(G) OUT
VBS(X) OUT

66
65

IF,1-65(BVP-550)/IF,870-65(BVP-500)
IF,1-66(BVP-550)/IF,870-66(BVP-500)

41

SG,1-36

TP2
CN1(55/100)

Q43
XN6534-TW

Q44
2SC2223-T1F14

Q45
2SA1611-T1M7

R147
5.6k
:RN-C

R378 R368
1k
68
:RN-C

R155
75
:RN-C

Q46(1/2)
IMH2-T110

Q106
Q46(2/2)
Q47
IC19(4/8)
DTC144EUA-T106 IMH2-T110 2SC4177-T1L7 TC74VHC244FS(EL)

C168
*

Q105
DTC144EUA-T106

12

R93
100k

R143
*
L12
82µH

R153
2.2k
:RN-C

L24
47µH

R156
100k

8
19

D102
R142
4.7k 1SS302-TE85L
1/16W

D9
1SS302-TE85L
R151
2.7k
:RN-C
R145
0
:RN-C

R361
2.4k
:RN-C

R146
220
:RN-C

R362
2.4k
:RN-C

C210
6.8
16V

C87
1p

R157
100

C213
4p

C212
R154
2.2k

C211
0.1

C92
0.1

C93
15
16V

C85
18p

R328
4.7k
1/16W

C91
*

C89
22p

CN1(65/100)
R363
100
R148
3.9k

R149
1.2k
:RN-C

4

R150
2.2k

1
5

C88
33p

6
C208
6.8
16V

CN1(93/100)

L11
22µH

R152
1k

R330
0

2

C90
6p

R329
CN1(41/100)

N/P IN

3
C228
15
16V

C209
0.1

3

L25
22µH

4

DA-88 (2/2)
BOARD NO. 1-657-450-21
LOT NO. 508B-¥BVP550-DA88-12

5

8-17

BVP-550

I

J

K

L

8-17
M

N

O

P

IF-510 (1/2)

IF-510 BOARD

CN1
*
*
*
*
*
*
*
*
*

2

3

D11
D21
D31
D101
D250
D400
D401
D402
D500

* IC12
* IC101
IC151
* IC152
* IC153
* IC154
IC155
IC200
* IC201
* IC202
* IC206
* IC301
* IC302
IC303
* IC304
IC305
* IC306
* IC307
* IC308
IC309
* IC310
IC322
* IC351
* IC352
IC400
* IC404
IC410
IC420
* IC500
* IC501
* IC502
* IC601
* IC621
* IC641
IC701
IC702

C-1

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

A-2
A-2
B-2
D-3
B-3
C-2
C-3
D-3
E-2
A-2
D-4
F-4
F-3
F-3
F-3
G-4
B-4
B-4
A-4
A-3
G-2
F-2
F-2
G-2
F-3
F-1
G-2
G-1
G-1
G-1
F-1
F-2
F-2
C-3
C-4
C-3
D-3
E-1
C-1
D-1
E-3
E-2
E-2
A-3
A-2

*
*
*
*
*
*
*
*
*

*
*
*

Q251
Q271
Q272
Q273
Q352
Q353
Q354
Q401
Q402
Q403
Q404
Q405
Q406
Q410
Q411
Q412
Q413
Q414
Q420
Q421
Q422
Q423
Q424
Q430
Q431
Q500
Q501
Q502
Q503
Q504
Q505
Q506
Q507
Q508
Q509
Q510
Q701
Q702
Q703

+5.1V
+5.1V
+7.3V
+7.3V

94
93
AT,1-89/DA,1-89
SG,1-89

B-3
C-4
C-4
C-3
G-3
F-3
G-3
B-2
B-3
C-2
C-3
C-3
B-3
C-2
C-3
C-3
C-3
C-3
D-2
D-3
D-3
D-3
D-3
C-3
C-4
C-2
B-2
B-2
C-2
C-2
C-2
D-2
D-2
D-2
E-2
E-1
A-3
A-3
A-3

Q20
Q10
IC12(1/4)
IC12(2/4)
2SD596T1-DV345 2SB624-T1BV3TL064CPW-E05 TL064CPW-E05

89

2.5V REF IN
A
A
A
A

100
99
98
97

GND
GND
GND
GND

4.8V

C13
1
10V

C16
0.1

CN1(94/100)
C10
10
16V

CN1(93/100)

C11
15
16V

R8
220k

4 3
12 2

1

C12
0.1

-2.8V
-2.8V

84
83

+3.1V
+3.1V

14
C14
33
16V

R14
20k

C15
0.1

CN1(89/100)

R721
2k

13
12

12

4

*
*
*
*
*

5
*
*
*

*

A-1
A-1
B-1
E-4
A-3
A-3
A-4
B-3
F-2
D-2
D-3
C-3
D-2
C-1
D-1
D-4
E-3
D-3
A-2

Q1
Q2
Q10
Q20
Q30
Q101
Q102
Q103
Q109
Q110
Q205
Q206
Q207
Q208
Q209
Q210
Q211
Q250

E-4
E-4
A-2
A-2
B-2
D-4
D-4
D-4
E-4
D-3
B-4
B-4
B-4
B-4
A-4
A-4
A-4
B-4

R722
1k

C702
0.1

C704
47
16V

C705
47
16V

R710
150
1/10W

C706
10
10V

4

702

R9
220k

3

R33
2.4k

R23
0
C20
15
16V

CN1(97/100)

D21
RD4.3UH-T1 7

6

C21
15
16V

R24
20k

5

R702
10k

C24
33
16V

C31
10
10V

C30
10
10V

C25
0.1

D31
RD2.4UH-T1

C32
0.1

8

9
IC12(3/4)
10 TL064CPW-E05

12

C34
33
10V

R34
36k

C701
0.1

C23
1
10V

C22
0.1

R25
20k

CN1(27/100)

CN1(81/100)
CN1(28/100)
CN1(30/100)
R717
100
R716
10k

C33
1
10V

Q30
2SD596T1-DV345

L3
0.47µH

CN1(88/100)

DA,1-65
DA,1-66

D GND
D GND

66
65

VBS(X)IN
VBS(G)IN

27

MB,31-B5

UNREG(G)
VTR RESET OUT
REC TALLY OUT

81
28
30

AT,1-53
AT,1-57

CN1(29/100)
CN1(31/100)

R35
20k

TALLY ON IN
REC TALLY IN

29
31

AT,1-58
MB,12-18

R718
1M

CN1(87/100)

-2.5V
+4.8V
-2.5V
-4.8V

CN1(86/100)

Q101
2SA1226-T1E4

CN1(85/100)

R105
C103 510
2p

CN1(84/100)

Q1
Q2
2SA1611-T1M7 2SC4177-T1L7

Q103
2SA1226-T1E4

Q102
2SA1226-T1E4
R101
4.7k

RV101:VBS GAIN

96
95

TALLY OUT

R714
150
1/10W

R715
30k

C36
0.1

11

82

Q701

R704
24k

C707
10p
50V
CH

C35
0.1

90

UNREG

R712
150
1/10W

Q703

R719
10k

CN1(99/100)
CN1(98/100)

R713
150
1/10W

R708
27k

R15
22k

C17
0.1

R10
10k

+9.3V

R711
150
1/10W

7
4

CN1(100/100)

CN1(82/100)

R707
33k

5

1
2

6
5 701

CN1(90/100)

R709
150
1/10W

Q702

C703
0.1

+1.1V

IC12(4/4)
TL064CPW-E05

R100
2.4k

R1
6.8k

R110
6.8k

R104
3k

L

Q101

7
6

Q2

C605
22
16V

R601
2k

D101
1SS302-TE85L

R102
5.6k

R103
510

IC621
CLC505AJE-T

IC641
CLC505AJE-T

1
2

Q110

R107
3.6k

6

601

H

8
621

C624 R627
100p 75

6

8

*R623

641

6

CN1(21/100)

R645
1k

R624
330

1.8k

C622
0.1

R644
330

R642
2k

C626
22
16V

C606
22
16V

C102
0.1

VBS(X)OUT
VBS(G)OUT

57
58

MB,11-21
MB,11-22

RM VBS(X)OUT
RM VBS(G)OUT

21
22

MB,41-16
MB,41-15

TEST(X)OUT
TEST(G)OUT

43
44

MB,15-1
MB,15-2

C643
2p

*R622

C602
0.1

CN1(43/100)

C642
0.1

CN1(44/100)

CN1(65/100)
C105
22
16V

2/2
2/2
2/2

9
8
7

R643
0

C623
2p

130

R604
330

R602
1.8k

C644 R647
100p 75

CN1(22/100)

4

R625
1k

C603
2p

R111
3.3k

CN1(57/100)
CN1(58/100)

7

3
2

4

R605
1k

R603
120

C101
0.1

Q109

7

3

C641
0.1

2
4

R2
3.3k

C645
22
16V

R641
2k

2

Q103

R646
33k

C621
0.1

C604 R607
100p 75

8

4 5 3

C104
22
16V

C625
22
16V

R621
2k

7

3

L601
1µH

R626
33k

C601
0.1

Q102

CN1(95/100)

CN1(66/100)

IC601
CLC505AJE-T

8
101

Q1

CN1(96/100)

Q110
2SC4177-T1L7

R606
33k

R106
75

RV101
500

CN1(83/100)

IC101
Q109
2SA1611-T1M7 TC4W53FU(TE12R)

C646
22
16V

L602
1µH

50141* S/N 15001-

IC151(1/4)
SN74HC08ANS-E05

IC152(1/2)
TC7W00FU(TE12R)

IC153
TC74HC595AF(EL)

L150
1µH

8
1
7
2 154
R151
1M

2

IIC CLK

3
AT,1-15

IIC DATA

1

LD(IF)IN

16

R152
220k
R154
100

CN1(2/100)

R155
100

CN1(3/100)

C152
0.1

7

R156
100

CN1(1/100)

10

C151
15
16V

1 14
3
2 151

8
1
2 152

7

4
C150
0.1

C153
0.1

R153
100k

VCC

QH
153 Q7
11
CK
Q6
Q5
14
D
Q4
Q3
12
LD
Q2
Q1
13
EN
Q0
GND
8

C155
0.1

5
3
6 154
4

9
7
6
5
4
3
2
1
15

R

CHAR BACK

IC155
X24C02S-3.0-C700
0
C154
0.1

Q272
2SA1611-T1M7
IC151(3/4)
IC151(4/4)
SN74HC08ANS-E05
SN74HC08ANS-E05

Q271
2SA1611-T1M7

R276
6.8k

R273
3.3k

8

CHAR BACK IN

IC151(2/4)
SN74HC08ANS-E05

SDA

C-3
PR,1-44

7

CHAR VF IN

R279
6.8k

Q271
R201
100

4
6
5 151
R271

R199
1M

5.6k

CN1(7/100)

9
8
10 151

DA,1-80
DA,1-79

80
79

VF-Y(X)IN
VF-Y(G)IN

5
6 152

VSS

4

IC201
TC74HC4052AFS(EL
)
16

7
6
12
11
13 151

Q206
2SC4177-T1L7

8
200

12
14
15
11
1
5
2
4

Q206
1
2

VBS
RM
VF-Y

4 5 3

R277
5.6k Q273

C201
0.1

CN1(80/100)
CN1(79/100)

3

IC152(2/2)
TC7W00FU(TE12R)

CPE

R203
6.8k

R274 Q272
5.6k

R202
100

1
2
A1
3
A2
A0

SCL

Q205
2SA1611-T1M7
Q273
IC200
2SA1611-T1M7 TC4W53FU(TE12R)

CN1(8/100)
R198
1M

L201
1µH

8

155
7

PR,1-46

Q205

Q207
Q209
2SA1611-T1M7
2SA1611-T1M7
IC202
Q208
Q210
TC74HC4052AFS(EL
Q211
2SC4177-T1L7
2SA1611-T1M7
)
2SC4177-T1L7

C203
0.1

0X VCC
1X
201
2X
3X
0Y
1Y
2Y
3Y
A
B

C721
:N'M

10

R272
1k

C722
:N'M

R275
1k

C723
:N'M

IC304(1/2)
TC7W32FU-TE12L

IC306(1/3)
TC7W04FU(TE12R)

R210
6.8k

R207
100

Q208

13

R212
6.8k

R209
100

R205
100
R211
100

Q207
Q209
3

Q210
10
9
R208
3.3k

16 0.1
VF-Y 12 0X VCC
RM 14 1X
202
13
15 2X
RET 11 3X
C330
270P
1 0Y
5 1Y
3
2 2Y
10
4 3Y
A
9
B

C300
0.1

14
VCC
5
1Q 305

Q211
1
7 304
2
4

6
9
8

R213
3.3k

6 8 7

C204
0.1

4
2
1D
3
1CK
1
10
12
2D
11
2CK
13

8

INH GND VEE

6 8 7

C202
0.1

IC206
CLC505AJE-T
R227
33k

R214
100

7

1

1Q
2Q
2Q
GND
7

R278
1k

CHARAC

IC306(2/3)
TC7W04FU(TE12R)

IC305
SN74HC74ANS-E05

C205
R206
6.8k

INH GND VEE

2/2

2/2

4

VDD

5
6

R200
100

L603
1µH

CHAR BACK VBS

IC154(1/2)
IC154(2/2)
TC7W08FU(TE12R) TC7W08FU(TE12R)

R204
3.3k

L1
L2
L3
L150
L201
L202
L203
L250
L301
L400
L401
L402
L500
L501
L502
L601
L602
L603
L700

2
8
1
3 701

-4.8V

RV101 D-4
S1

R13
240

D11
RD4.3UH-T1

L2
0.47µH

86
85

+3.0V

Q703
Q702
2SB624-T1BV3 2SD1048X7-TB

R706
47k

CN1(91/100)

C26
0.1

-5.1V
-5.1V

R701
47k

Q701
9.3V
2SC2712L-TE85L

IC702
TC7S86FU(TE85R)

R705
47k

CN1(92/100)

12

88
87

IC701(2/2)
LM393PS-E05

R703
20k

L700
1µH

L1
0.47µH

92
91

——————————
IF-510 (1-657-453-21)
——————————
*: B SIDE

IC701(1/2)
LM393PS-E05

BVP-550 (SY)

C301
0.1

3

C222
0.1

C221
22
16V

R221
1k

C303
0.1

5
304 6

3

C223
100p

7
8
206

8

6

CN1(49/100)

49
50

MB,12-3
MB,12-4

CN1(77/100)

VF(G)OUT

77

MB,31-B2

CN1(78/100)

VF(X)OUT

78

MB,31-A3

CN1(45/100)

PB REF IN

45

AT,1-48
MB,12-17

CN1(10/100)

CORSOR 1 IN
CORSOR 2 IN

10
9

PR,1-43
PR,1-45

SKIN GATE IN

15

DA,1-5

EXT HD OUT
EXT VD OUT

6
5

PR,1-39
PR,1-41

HD IN
VD IN

40
39

AT,1-43/DA,1-44/
SG,1-49
AT,1-44/DA,1-43/
SG,1-50

R228
1k

R224
33

4

MONI(X)OUT
MONI(G)OUT

CN1(50/100)

4

R230
75

R222
22k

L202
1µH

C224
2p
R226
680

R225
820

C225
22
16V

C226
0.1

IC304(2/2)
TC7W32FU-TE12L

C206
0.1

R229
75

2

6

2
CHAR BACK
CHAR C-VF ON
CHAR VBS ON

1

IF-510 (1/2)

L203
1µH

R264
100

38
37

GND
GND

Q250
2SC4177-T1L7

CN1(38/100)

Q251
2SA1611-T1M7

R257
3.9k

C254
39p
R250
100

SG,1-51
SG,1-52

36
35

GENLOCK(X)IN
GENLOCK(G)IN

IC301
EL4581CS-TE2

Q252
2SA1611-T1M7

IC302
SN74HC74ANS-E05

IC303
SN74HC74ANS-E05

R258
18k

CN1(36/100)

R261
10k

8

C307
0.1

VCC

2

Q250

IN

CN1(35/100)

Q251
C250
10
10V
:TA

S1

GEN

C255
10
10V
:TA

R256
510

7

R259
510

R252
2.2k

D250
HSM88AS-TL

C252
15p

R253
33k

HD
VD
301

RESET

C253
22p

RET
R251
100k

GND

6

C308
0.1

4

1
3
5

C313
22
16V

4
2
3
1
10
12
11
13

14
VCC
5
1Q
1D 302
1CK
6
1Q
2Q
2D
2CK
2Q

C311
0.1

4
2
3
1
10
12
11
13

9
8

GND
7

R315
680k

C312
0.1

5

2/2

IC309(1/2)
TC7W32FU-TE12L

IC307(1/2)
TC7W08FU(TE12R)

IC309(2/2)
TC7W32FU-TE12L

R263
1M

CN1(37/100)

14 C309
0.1
VCC
PR
5
1Q
1D 303
1CK
6
1Q
CLR
PR
9
2Q
2D
2CK
8
2Q
CLR
GND
7

C320
0.1

14
12
11
13 322

7
9
10 322

8

8

5

4
1
3
2 322
4
5 322

7

5
3
307 6
4

6

1
308 2
3

7

1
309 2
4

C321
0.1

C322
0.1

IC307(2/2)
TC7W08FU(TE12R)

R321
100
CN1(9/100)
R320
100

5
3
309 6
7

C315
0.1

C361
:N'M

+4.8V-2

L301
1µH

8
1
307 2

IC308
TC7S08FU(TE85R)

8 1
5 306 3
310 2
4 SKIN GATE ON
5
3 310
6

R322
1M

R311
4.7k

R323
1M
CN1(15/100)

R310
100
C330
270P

IC306(3/3)
TC7W04FU(TE12R)
CHAR CCU ON
CHAR

IC310(1/2)
TC7W08FU(TE12R)

R324
100

CN1(6/100)
CN1(5/100)

MB,12-1

53

RET VIDEO(X)IN

MB,12-2

54

RET VIDEO(G)IN

SG,1-55

34

18MHz(X)IN

CN1(53/100)

CN1(54/100)

R254
1k

4
2
3
1
10
12
11
13

IC352
TC7S04FU(TE85R)
C352
0.1

CN1(34/100)

2

5 4
3

SG,1-56

33

18MHz(G)IN

R325
100
IC310(2/2)
TC7W08FU(TE12R)R327
100

14

C353
0.1

CN1(33/100)

R354
1M

VCC
5

R361
0

CN1(40/100)

1Q
1D
1CK

CN1(39/100)

6

R362
:N'M

1Q
351
9
2Q
2D
2CK

IC351
SN74HC74ANS-E05

R326
100

IC322(1/4)
IC322(2/4)
IC322(3/4)
IC322(4/4)
SN74HC00ANS-E05 SN74HC00ANS-E05 SN74HC00ANS-E05 SN74HC00ANS-E05

8

* S/N

2Q
GND
7

SKIN GATE
SKIN GATE 2
CARSOR

1
2
3

R328
1M

R329
1M

2/2
2/2
2/2

50001-50140

C103
2p

R105
510

C104
22
16V

R1
6.8k

R104
3k

Q1

NOTE
D101
1SS302-TE85L

*
REF. NO.
R622

Q103

R623

CHANGE INFORMATION
2k

1.8k

15

130

SERIAL NO.
5014115001-

C105
22
16V

IF-510 (1/2)
BOARD NO. 1-657-453-21
LOT NO. 508B-¥BVP550-IF510-12

8-18
A

B

C

D

8-18

BVP-550

E

F

G

H

IF-510 (2/2)

IF-510 (2/2)

BVP-550 (SY)

1

1

C351
0.1
25V

R351
10k

4

4

CN1(48/100)

-4.8V
-2.5V
+4.8V

7
8
9

1/2
1/2
1/2

CHAR BACK
CARSOR

4
3

1/2
1/2

C350
10
16V
R353
1k

5

N/P IN

1/2

3

1
48

5

R352
22k

2

DA,1-41
VA,1-41
SG,1-36
PR,1-106

+4.8V-2
9.3V

Q352(2/2) Q353(1/2)
Q354
IMH2-T110 IMH2-T110 DTA144EUA-T106

Q352(1/2)
IMH2-T110

2

6
5
3
6

MB,31-B3

47

N/P OUT

Q353(2/2)
IMH2-T110

CN1(47/100)

CN1(76/100)
CN1(75/100)
CN1(74/100)

1/2

10

CHARAC

CN1(73/100)

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

MB,31-B8
MB,31-A9
MB,31-B9
MB,31-A10

76
75
74
73

CORSOR

Q401
2SA1611-T1M7

Q402
2SC4177-T1L7

Q403
XP6534-TX

Q404
2SC4178-F13F14-T
1
D400
1SS302-TE85L

IC400
TC4W53FU(TE12R)

Q405
2SA1611-T1M7

Q411
Q412
IC410
2SC4178-F13F14-T
2SA1611-T1M7
TC4W53FU(TE12R)
1
Q410
Q413
Q414
D401
XP6534-TX
2SA1611-T1M7
2SC4177-T1L7
1SS302-TE85L

Q406
2SC4177-T1L7

2

Q421
IC420
2SC4178-F13F14-T
Q422
TC4W53FU(TE12R)
1
2SA1611-T1M7
Q420
Q423
Q424
D402
XP6534-TX
2SA1611-T1M7
2SC4177-T1L7
1SS302-TE85L

SKIN GATE 2

Q430
2SA1611-T1M7

Q421
Q404
R401
6.8k

L402
1µH

Q411

R406
5.6k

C401
22 R412
16V 22k

C405
22
16V

R413
6.8k

C408
22
16V

R418
5.6k

R423
6.8k

R425
6.8k

C415
22
16V

R430
5.6k

C412
22
16V

1/2

2

Q431
2SC4177-T1L7

R437
6.8k

R435
6.8k

R444
6.8k

C419
22
16V

8
8

8
Q402

Q406
D400
C400
1p

Q403
Q401
R403
360

7
6

R404
3k

R400
100

R411
1k

Q405

1
2

R416
150

R407
3.9k

R408
2.2k

4 5 3

R419
3.9k

C402
22
16V

R422
3.9k

R420
2.2k

C406
15
10V

C404
0.1

R429
2.4k

Q422

R426
1.5k

Q424
1
2

R431
3.9k

R432
2.2k

CN1(16/100)

MB,12-23

16

SKIN GATE OUT

Q430 C423
:NM
C417
0.1

R434
3.9k

Q431
R448
10

4 5 3
R443
1k

R438
1.5k

C424
:NM

R447
2.2k

R436
1k

C416
22
16V

C413
15
10V

C411
0.1

Q423

R446
2.2k

R441
8.2k
R439
68

R433
2.7k

R424
1k

C409
22
16V

420

7
6

Q420

C410
0.1

R421
2.7k

R414
1.5k

R410
3.9k

R428
150

C414
1p

R415
68
C403
0.1

D402
R427
68

4 5 3

Q413

R445
2.2k

Q414
1
2

Q410
C407
1p

R409
2.7k

R405
36k
R402
3.3k

Q412

R417
2.4k

410

7
6

D401

400

C420
15
10V

C418
0.1

L401
1µH

L400
1µH

CHAR BACK C-VF

SKIN GATE

3

1/2

1

C422
0.1

DA,1-71
DA,1-72
DA,1-69
DA,1-70
DA,1-67
DA,1-68

72
71
70
69
68
67

Y(X)IN
Y(G)IN
R-Y(X)IN
R-Y(G)IN
B-Y(X)IN
B-Y(G)IN

4

12

DA,1-6
SG,1-23

R PEEK OUT
G PEEK OUT
B PEEK OUT

19
18
17

AT,1-75
AT,1-74
AT,1-73

PEEK GND

20

AT,1-72

PEEK RESET IN
WINDOW IN

26
25

AT,1-46
AT,1-45

64
63
60
59
62
61

MB,11-20
MB,11-17
MB,11-20
MB,11-19
MB,11-20
MB,11-18

IC404
TC4S69F(TE85R)
R501 0

Q500
XP6534-TX

CN1(68/100)
CN1(67/100)

DL SYNC IN

R442
100

R500 0

CN1(70/100)
CN1(69/100)

CN1(12/100)

2
3

C421
22p

CN1(72/100)
CN1(71/100)

5

R440
100

SYNC

Q502
Q501
2SA1226-T1E4 2SC2223-T1F14

CN1(19/100)
CN1(18/100)

R502 0

Q503
XP6534-TX

Q504
Q505
2SA1226-T1E4 2SC2223-T1F14

Q506
XP6534-TX

Q507
Q508
Q509
Q510
IC501(2/2)
IC500(1/3)
2SA1226-T1E4 2SC2223-T1F14 2SA1611-T1M7 2SC4177-T1L7 TL082CPS-E05 TC74HC4053AFS-EL

IC500(3/3)
TC74HC4053AFS-EL

IC500(2/3)
TC74HC4053AFS-EL

IC501(1/2)
TL082CPS-E05

IC502(1/2)
IC502(2/2)
L500
TC7W08FU(TE12R) TC7W08FU(TE12R) 1µH

CN1(17/100)

CN1(20/100)
C502
4p
R507 50V
1.5k :TA-CA
R503
3k

R505
1.8k
C500
,N'M

R504
0

Q501

R513
0
R516
3k

Q502
C501
,N'M

R518
1.5k
C506
,N'M

R510
1.8k

R506
130

R512
47

Q504

R521
1.5k

R515
10

R517
0

C508
4p
50V
:TA-CA

C507
,N'M

R508
1.8k

R514
1.5k

R543
6.8k

Q508
C512
,N'M

R533
910

R536
2k

R534
91

R537
68

16
R544
1k

R525
47

R528
10

C509
4p
C510
22
16V

Q503
R520
1.8k

R522
1.2k

R524
5.6k

R527
1.5k

R530
3k

C513
10p

Q506

R531
1.8k

5
6

C511
15
10V

C505
15
10V

R538
1.8k

8
7

5
3

500

C519
0.1
35V

9

R555
10k

2
1

C515
4p
R541
1.5k

C516
22
16V

R542
10

C518
10p

R545
3.3k

2
3

R546
100

4

4

Q509

R539
47

R540
5.6k

R535
510

D500
1SS302-TE85L

Q510

R519
18

R509
1.2k
R511
5.6k

Q507

Q505

R523
1.8k

Q500

C514
6p
50V
:TA-CA

R532
1.2k

R529
0

C503
4p
C504
22
16V

R526
0

R547
100

12
13

1

C524
0.1

500
14
7

R548
10k

C525
0.1

6 11 8
7

500

8
1
502 2
4

3

6
502 5
R551
100

15

R554
3.3k

R553
3.3k

C520
22
16V

CN1(25/100)

10

R549
100k

C517
15
10V

C521
22
16V

4
CN1(26/100)

C522
0.1

R550
100k

R552
100

L501
1µH

L502
1µH
CN1(64/100)
CN1(63/100)
CN1(60/100)
CN1(59/100)
CN1(62/100)
CN1(61/100)

R(G)
R(X)
B(G)
B(X)
G(G)
G(X)

OUT
OUT
OUT
OUT
OUT
OUT

5

IF-510 (2/2)
BOARD NO. 1-657-453-21
LOT NO. 508B-¥BVP550-IF510-12

8-19

BVP-550

AI

J
B

K
C

L
D

8-19
E
M

NF

O
G

P
H

MB-602
MB-602 BOARD

MB-602

BVP-550 (SY)

1
TO PR-211 BOARD

CE0(PR)
NC
DB7(PR)
2FH IN
DB6(PR)
LALT IN
DB5(PR)
FLD1 IN
DB4(PR)
BLKG IN
DB3(PR)
BF IN
DB2(PR)
SYNC IN
DB1(PR)
VD IN
DB0(PR)
HD IN
RD(PR)
NRW BLKG IN
WR(PR)
A VD OUT
CE1(PR)
A HD OUT
CHAR BACK IN
CURSOR 2 OUT
CHAR VF IN
CURSOR1 OUT
TITLE BACK IN
EXT VD IN
TITLE IN
EXT HD IN
Y(L)OUT
D OUT EN
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
Y(G)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
R-Y(G)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
B-Y(8)OUT
B-Y(M)OUT
B-Y(G)OUT
18MHz(G)IN
18MHz(X)IN
36MHz(G)IN
36MHz(X)IN

NC

TDI(SH)
TDI(EN)
TMS(SH)
TMS(EN)
TDO(SH)
TDO(EN)
TDI(DET)
TDI(PR)
TMS(DET)
TMS(PR)
TDO(DET)
TDO(PR)
TCK
TRST
A1(PR)
GND
AO(PR)

140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN6

PR(1/2)

A GND
A GND
A GND
A GND
D GND
D GND
D GND
D GND
+5.1V
+5.1V
-5.1V
-5.1V
-2.8V
-2.8V
+3.3V
+3.3V
+3.3V
+3.3V
+7.3V
+7.3V
VF-Y(G)OUT
VF-Y(X)OUT
HI-Y(G)OUT
HI-Y(X)OUT
C(G)OUT
C(X)OUT
SC CONT IN
NC
INT SC(X)OUT
INT SC(G)OUT
36MHz(G)OUT
36MHz(X)OUT
18MHz(G)OUT
18MHz(X)OUT
N/P IN
INT/EXT IN
AD EN

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
TEST SAW(X)OUT
TEST SAW(G)OUT
HTSG OUT
H CLP IN

CN7
24P

PR(2/2)

2.5V REF IN
G B SHADING OUT
R B SHADING OUT
B B SHADING OUT
B SHADING GND
G W SHADING OUT
R W SHADING OUT
B W SHADING OUT
W SHADING GND
G FEEDBACK OUT
R FEEDBACK OUT
B FEEDBACK OUT
FEEDBACK GND
B(X)IN
B(G)IN
R(X)IN
R(G)IN
G(X)IN
G(G)IN

TO PR-211 BOARD

E68
E69
E70
E71

D7
D8
D9
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
D32
D33
D34
D35
D36
D37
D38
D39
D40
E36
E37
E38
E39
E40
E41
E42
E43
E44
E45
E46
E47
E48
E49
E50
E51
E52
E53
E54
E55
E56
E57
E58
E59
E60
E61
E62
E63
E64
E65
E66
E67

E35

E34

E72

E33
F13

E25
E26
E27
E28
E29
E30
E31
E32

D1
D2
D3
D4
D5
D6

A9

A3

A10

A11

A5

E21
E22
E23
E24

E1
E2
E3
E4
E5
E6
E7
E8
E9
E10
E11
E12
E13
E14
E15
E16
E17
E18
E19

A6

C16
0.1

2
A6

1
2
3
4
5
6
7
8
9
10
11
12

LENS UNREG
LENS UNREG(G)
RET EN IN
IRIS POSI IN
IRIS CONT OUT
ZOOM POSI IN
EX ON
AUTO 5V
REM/LOCAL
VTR S/S IN
LAUX 1
LAUX 2

4

L3
L4

A9
A5
A7
A11
A10
A3

C8 C9 C10 C11
0.1 0.1 0.1 0.1

E3
E4

N8
L5
L17
L2
L1
N3
N4
N5
N6

A17
A19
L10
L9
L15
L12
L13
L16
L14
L11
L18
L19

TO
CCD UNIT

CN22
20P

DR

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

CN23
24P

TG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

VA

CN1

A6

M2
M1
M4
M3
M6
M5

-2
D GND

M5
M3
M1

A4

E7
E8

A14
A13
A8
A2

E11
E12
E16
E18
E14

A1
M7
L6
L7
L8
A10

A4
E59
E57
F1
F2
E71
E70
E69
E68
E23
M8
M9
M10

E21

M7
M9
F18
E59

E24
G5
G3
G7
G8

G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R1
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF OUT
-5.1V
-2.8V
+3.1V

R B SHADING IN
B B SHADING IN

G B SHADING IN
B SHADING GND

R(X)IN
G(X)IN
B(X)IN

R(G)IN
G(G)IN
B(G)IN

R W SHADING IN
B W SHADING IN

G W SHADING IN
W SHADING GND

R FEEDBACK IN
B FEEDBACK IN

G FEEDBACK IN
FEEDBACK GND

R(X)OUT
G(X)OUT
B(X)OUT

R(G)OUT
G(G)OUT
B(G)OUT

N/P IN

TEST SAW(X)IN

V CLP IN
H CLP IN
NC
A HD IN
NC
IIC CLK

TEST SAW(G)IN

PBLKG IN
D CLP IN
SAMPLE3 IN
A VD IN
IIC DATA
LD(VA)IN

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

C12 C13 C14
0.1 0.1 0.1

AT

CN2

A6

A6
C19
0.1

C15
0.1

A9
A5
A7
A11
A10
A3
L19
L1
L3
L5
K2
K4
L6
L8
L10
L12
L14
L16

A9
A5
E1
A11
A10
A3
E2
E5
M6
M4
M2
E6
E9
E10
E13

J2
F5

E17
E19
E15

B16
B19
B31
K5
F11
E35
E36
E40
E44
E48
E52
E56
E62
E66
E57
E59
G1
G3
G5
G7

F13

E22

M8
M10
F19
E57

B43
B45
B40

G7
G1

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V
LAUX 2
VF RGB OUT
ABNORMAL OUT
WIDE OUT
G PEEK IN
PEEK GND
ND FILT IN
TEMP IN
RET EN IN
ZOOM POSI IN
REM/LOCAL
AUTO 5V
TALLY ON OUT
18MHz(G)IN
VTR S/S OUT
RET EN OUT
PB REF IN
PEEK RESET OUT
VD IN
A0(PR)
CE0(PR)
DB6(PR)
DB4(PR)
DB2(PR)
DB0(PR)
WR(PR)
CHAR VF OUT
TITLE OUT
A VD IN
A HD IN
LD(VA)OUT
LD(TG)OUT
LD(CCD)OUT
IIC DATA
IIC DATA(CA)
IIC DATA(ST)
NC
COM CONT
RM DATA IN
RE A

R2
0

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V
ZEBRA ON/OFF IN
VF COLOR IN
G TALLY OUT
R PEEK IN
B PEEK IN
NC
CC FILT IN
IRIS POSI IN
VTR S/S IN
EX ON
IRIS CONT OUT
LAUX 1
REC TALLY IN
18MHz(X)IN
VTR RESET IN
TAPE REM IN
BATT ALERM IN
AUDIO LEVEE IN
WINDOW OUT
HD IN
A1(PR)
DB7(PR)
DB5(PR)
DB3(PR)
DB1(PR)
RD(PR)
CE1(PR)
CHAR BACK OUT
TITLE BACK OUT
V RESET OUT
NC
LD(SG)OUT
LD(DA)OUT
LD(IF)OUT
IIC CLK
IIC CLK(CA)
IIC CLK(ST)
CA(CONT/DATA)
COM DATA
RM DATA OUT
RE B

C18 C20 C21
0.1 0.1 0.1

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

SG

CN3

A6

A6

C17
0.1

A9
A5
A7
A11
A10
A3

A9
A5
A11
A10
A3
L17
L2
L4
K1
K3

B29
E25
E27

E72
L7
L9
L11
L13
L15
L18

F1
F2
E29
E31
J1

F3
F5
F7
F9
F11

F6
J3
B17
B15
B18
K6
F12

E37
E41
E45
E49
E53
E59

E34
E38
E42
F13

E46
E50
E54
E58
E60
E64
F17

F17
F18
F19

G2
G4
G6
G8
B42
B44
B10
B41

B35
B36
B38
B34
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R3
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V

GENLOCK(X)IN
SC CONT OUT
INT SC(X)IN

GEN(G)/H CONT IN
NC
INT SC(G)IN

VCO CONT OUT
VCO CONT(G)
36MHz(G)IN
18MHz(G)IN
36MHz(G)OUT
18MHz(G)OUT
NC
GENLOCK(G)OUT
VD OUT
NC
LALT OUT
BLKG OUT
SYNC OUT
HD OUT
A HD IN
N/P OUT
TDI
TDO
TCK

36MHz(X)IN
18MHz(X)IN
36MHz(X)OUT
18MHz(X)OUT
NC
GENLOCK(X)OUT
HD OUT
2FH OUT
FLD1 OUT
BF OUT
VD OUT
NRW BLKG OUT
A VD IN
INT/EXT OUT

NC
NC
SAMPLE3 OUT

DL BLKG OUT
DL SYNC OUT
V RESET IN
V RESET IN/CF OUT
SAMPLE2 OUT

18MHz(X)OUT
SAMPLE1 OUT
SYNC OUT
HD OUT
BLKG
IIC CLK

18MHz(G)OUT
VD OUT
CF OUT
H CONT IN
IIC DATA
LD(SG)IN

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

C23 C24 C25
0.1 0.1 0.1

A6

C22
0.1

A9
A5
A11
A10
A3
B30
E26
E28

E30
E32
F4
F6
F8
F10
F12
E39
E43
E47
E51
E55
E57
E33

F15
F16
B20
F20

B37
B39
B46
G7
G2

A9
A5
A11
C30
0.1

C31
0.1

A4

A6

C29
0.1

C26
0.1

A5
A6

LENS

N2
N1
N7
B15

B(G)IN
B(X)IN
G(G)IN
G(X)IN
R(G)IN
R(X)IN
NC
NC

G7
G8

CN32
12P

A7
A16
A18

PA

1
2
3
4
5
6
7
8

B11
B9
A15

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20

CN21
8P

A6
A5
A7

+9.3V
VF UNREG
VF UNREG(G)
VF(G)OUT
VF(X)OUT
N/P OUT
BATT ALERM OUT
ABNORMAL OUT
G TALLY OUT
TALLY OUT
WIDE OUT
ZEBRA ON/OFF OUT
VF COLOR IN
VF RGB OUT

C7
0.1

A12
A2
A1

A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10

C6
0.1

B14
B13
B12

VF

A1

3

CN31
20P

C27
0.1

5

TO CN-1122 BOARD

8-20
A

B

C

D

1
2
3
4
5

+5.1V
A GND

SW

IIC DATA
IIC CLK

CN42
5P

AUDIO CH1 CONT IN
VTR SAVE
POWER SAVE

RE B
RE A
RM DATA OUT
RM DATA IN
IIC CLK
IIC DATA

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

RM VBS(X)OUT
RM VBS(G)OUT
A GND
+5.1V
+9.3V

CN

MIC(X)IN
MIX(Y)IN
MIC(G)IN

CN41
24P

+48V
UNREG OUT
UNREG(G) OUT

C28
0.1

TO SW-732 BOARD.

8-20

BVP-550

E

F

G

H

MB-602

MB-602

1

CN51
26P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26

D/D

GND(UNREG)
GND(UNREG)
UNREG
UNREG
+3.1V
+3.1V
GND(D)
GND(D)
+5.1V
+5.1V
A GND
A GND
+9.3V
+6.5V
+7.3V
+7.3V
-2.8V
-5.1V
A GND
A GND
+48V
+15V
A GND
POWER SAVE
-11V
A GND

TO D/D

-2

A15
A14

Q1
2SA811A-T1C15

110P(1/4)
A1

A12

A13

A10
A11
A4

A7
A8
A9

A5
A6

A3

A GND

A3

A2

A1

R6
0

D1
DE5LC20U-TA2
R7
10k
1/16W

A18

Q2
2SC1622A-T1D17

R9
10k

213

R8
56k
1/16W R10
10k

A19
A2
S1

A16

DA

CN4

A6

A9
A5
A7
A11
A10
A3
H1
D2
D4
D6
H3
H5
H7
H9
B24
B24
B24
B28

E60
F4
F6
F12
D7
D9
D11
D13
D15
D17
D19
D21
D23
D25
D27
D29
D31
D33
D35
D37
D39
F15
F16
F20
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R4
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V

VF-Y(X)OUT
VF-Y(X)IN
HI-Y(X)IN
C(X)IN
Y(G)OUT
R-Y(G)OUT
B-Y(G)OUT
VBS(G)OUT
Y(G)OUT
R-Y(G)OUT
B-Y(G)OUT
Y(G)OUT
C(G)OUT

VF-Y(G)OUT
VF-Y(G)IN
HI-Y(G)IN
C(G)IN
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
VBS(X)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y(X)OUT
C(X)OUT
CHAR VF IN

CHAR BACK IN
36MHz(X)IN
18MHz(X)IN
HD IN
Y(L)IN
Y(1)IN
Y(3)IN
Y(5)IN
Y(7)IN
Y(M)IN
R-Y(L)IN
R-Y(2)IN
R-Y(4)IN
R-Y(6)IN
R-Y(8)IN
R-Y(G)IN
B-Y(1)IN
B-Y(3)IN
B-Y(5)IN
B-Y(7)IN
B-Y(M)IN
DL BLKG IN
DL SYNC IN
SAMPLE2 IN
IIC CLK

36MHz(G)IN
18MHz(G)IN
VD IN
N/P IN
Y(2)IN
Y(4)IN
Y(6)IN
Y(8)IN
Y(G)IN
R-Y(1)IN
R-Y(3)IN
R-Y(5)IN
R-Y(7)IN
R-Y(M)IN
B-Y(L)IN
B-Y(2)IN
B-Y(4)IN
B-Y(6)IN
B-Y(8)IN
B-Y(G)IN
VTR SYNC OUT
SKIN GATE OUT
IIC DATA
LD(DA)IN

IF

CN5

A6

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

A6

A9
A5

A9
A5
A7
A11
A10
A3
A2
H1

A11
A10
A3
H2
D1
D3
D5
H4
H6
H8
H10

N1
N3
N5
H4
H6
H8
H10
B21
B22
B23

B4
B4
B4
B6
B30
B8

B27
E62

B48
F3
F5
F11
F13
D10
D12
D14
D16
D18
D20
D22
D24
D26
D28
D30
D32
D34
D36
D38
D40

F13
B50
F12
F8
F10
F6
J1
J3
K5

K4
K2
B51
F15
F16
E63
E60
E67

B33
H11
G7
G4

F20
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R5
:NM

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V
UNREG
VF-Y(X)IN
VF(X)OUT
VF Y(X)OUT
VF B-Y(X)OUT
Y(X)IN
R-Y(X)IN
B-Y(X)IN
VBS(X)IN
R(G)OUT
G(G)OUT
B(G)OUT
VBS(G)OUT

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V
GND(UNREG)
VF-Y(G)IN
VF(G)OUT
VF R-Y(X)OUTT
VF Y/R-Y/B-Y
Y(G)IN
R-Y(G)IN
B-Y(G)IN
VBS(G)IN
R(X)OUT
G(X)OUT
B(X)OUT
VBS(X)OUT

RET VIDEO(G)IN

RET VIDEO(X)IN

MONI(G)OUT
N/P IN

MONI(X)OUT
N/P OUT
PB REF IN
TEST(X)OUT

TEST(G)OUT
HD IN
NC
GENLOCK(X)IN
18MHz(X)IN

VD IN
NC
GENLOCK(G)IN
18MHz(G)IN
REC TALLY IN
TALLY ON IN
TALLY OUT
WINDOW IN

REC TALLY OUT
VTR RESET OUT
PEEK RESET IN
RM VBS(G)OUT
PEEK GND
G PEEK OUT
SKIN GATE OUT
DL BLKG IN
DL SYNC IN
CURSOR 1 IN
CHAR BACK IN
EXT HD OUT
SAMPLE2 IN
IIC CLK

A17

RM VBS(X)OUT
R PEEK OUT
B PEEK OUT
SKIN GATE IN
IIC DATA(CA)
IIC CLK(CA)
CURSOR 2 IN
CHAR VF IN
EXT VD OUT
IIC DATA
LD(IF)IN

IC1
TC74VHC541FS(EL)

A6

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

20

C1
0.1
RB1

D23
D24
D25
D26
D27
D28
D30
D31

A9
A5
A11
A10
A3
A1

9
8
7
6
5
4
3
2

VCC
1

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C15
C16
C17
C18
C19
C20
C21
C22

2
4
6
8
2
4
6
8

C29
C27
C25
C23
C24
C26
C28
C30

G1 G2 GND

H2

RB2

N2
N4
N6

1 19 10

D8

IC2
TC74VHC541FS(EL)

H3
H5
H7
H9

20

C2
0.1

B1
B2
B3
B4
B5
B6
B21
B22
B23
B24
B27
B28
B29
B30

RB3

D38
D36
D34
D32
D33
D35
D37
D39

B1
B2
B3
B5
B29
B7

9
8
7
6
5
4
3
2

VCC
2

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

G1 G2 GND
RB4

B47
N7
B31
B49

1 19 10

D8

20

C3
0.1
RB5

F11
F7
F9
F5
B32
J2
N8

D22
D21
D20
D19
D17
D16
D15
D14

9
8
7
6
5
4
3
2

K6

VCC
3

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C14
C13
C12
C11
C10
C9
C8
C7

B17
B18
B33
B19
B20
B31
B32
B46
B9
A6

G1 G2 GND
RB6

1 19 10

D8
K1
K3

IC4
TC74VHC541FS(EL)

H11
B43
B42
E61
E62
E65
G7
G6

110P(2/4)
B7
B8
B47
B48
B15
B16
B11
B12
B13
B14
A6

IC3
TC74VHC541FS(EL)

20

C4
0.1
RB7

D13
D12
D11
D10
D9
D7

8
7
6
5
4
3
2
9
-2

VCC
4

12
13
14
15
16
17
18
11

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C6
C5
C4
C3
C2
C1
C31

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

B38
B51
B10
B40
B41
B42
B43
B44
B45

G1 G2 GND

RET VIDEO(X) IN
RET VIDEO(G) IN
MONI(X) OUT
MONI(G) OUT
BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G) OUT
MIC(Y) OUT
MIC(X) OUT
A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/ CF OUT
PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

CN11
30P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
CN12
30P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

2

TO CN-1120 BOARD

C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C27
C28

C30
C29

RB8

1 19 10

D8
D18
D29
D40

-2

G8

C31
C32

A5

G7

C32

8
R11
4.7k

VDD
1

B39

R12
100k

5
A0

SDA

A1

SCL

2

CN13
30P

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

110P(4/4)

CN14
20P

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

D GND
D GND
D GND

IC5
X24C02S-3.0-C700
0

110P(3/4)

B37
B36
B35
B34

6

3

D GND
D GND
D GND
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG

3

4
TO CN-1121 BOARD

5

A2
5
7
CPE

C5
0.1

B49
B50

VSS

BNC

CN15
3P

TEST(X)OUT
TEST(G)OUT

1
2
3

4

MB-602

MB-602

-2

A1

A2

B-¥ BVP550-MB602-11
1995.8.8
BOARD NO. 1-657-437-21

LOT NO. 508B-¥BVP550-MB602-11

8-21

BVP-550

I

J

K

L

8-21
M

N

O

P

CN-1120/1121/1122/1142 SW-730/731/732/733/742

1

FRAME WIRING

FRAME WIRING

FRAME WIRING CN-1120/1121/1122/1142 SW-730/731/732/733/742

BVP-550 (SY)
CN42

IIC DATA
IIC CLK
+5.1V
A GND

HARNESS
(VF)

5

4

10

VF Y(X)OUT
ZEBRA ON/OFF IN
VF(X)OUT

9

16

15

14

20

19

18

13

VF B-Y(X)OUT
VF R-Y(X)OUT
BATT ALERM OUT
TALLY OUT
+9.3V
VF UNREG(G)
VF UNREG

2

9
0
1
2
3
4
6
9
7
8

8
0
7
3
9
9
9
9
9
1
4
2
0
1

CN301(1/5)

IIC DATA
IIC CLK

1
2
3
4
5

R5
220k

CN301(2/5)
CN301(3/5)
CN301(4/5)

+5.1V
A GND

89
9
9
9

89
89

R9
100k

R8
220k

R3
100k

CN301(5/5)
S1

S2

DISP/MENU

MONI

S3

R6
1k

R4
100k

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

ON

R

OFF

G

MENU

B

R10
100k

R7
1k

C2
0.1

16 15 14 13 12 11 10 9
VCC SDA SCL INT P7 P6 P5 P4

RGB

R1
100k

R2
100k

C1
0.1

1
A0 A1 A2 P0 P1 P2 P3 GND

1 2 3 4 5 6 7 8

IF-510

6

11

89

1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20

DA-88

7

COMP/VBS SW IN/OUT
N/P OUT
NC
G TALLY OUT

1

CN301

ENC

+9.3V
VF UNREG
VF UNREG(G)
VF(G)OUT
VF(X)OUT
N/P OUT
BATT ALERM OUT
ABNORMAL OUT
G TALLY OUT
TALLY OUT
WIDE OUT
ZEBRA ON/OFF IN
NC
COMP/VBS SW IN/OUT

SG-234

17

2

2
6

A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10

AT-95

8
12

3

ABNORMAL OUT
WIDE OUT

HARNESS
(RG)
0
1
2
3
4

CN31

2
1
0

VA-163

CN903
(VF)

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

1
2
3
4
5

BOARD NO. 1-657-442LOT NO. 508-

IC1
PCF8574T

SW-732

IRIS CONT OUT
HARNESS
(LENS)

TEST(X)OUT
TEST(G)OUT
FLAT
CABLE

89

1
2
3

CN15

MIC(G)IN
MIX(Y)IN
MIC(X)IN

UNREG(G)OUT
UNREG OUT
+48V

+9.3V
+5.1V
A GND
RM VBS(G)OUT
RM VBS(X)OUT

MB-602

CN41

3

LENS UNREG
LENS UNREG(G)
RET EN IN
IRIS POSI IN
IRIS CONT OUT
ZOOM POSI IN
EX ON
AUTO 5V
REM/LOCAL
VTR S/S IN
LAUX 1
LAUX 2

IIC DATA
IIC CLK
RM DATA IN
RM DATA OUT
RE A
RE B

4

1
2
3
4
5
6
7
8
9
10
11
12

POWER SAVE
VTR SAVE
AUDIO CH1 CONT IN

5

CN32

1
0
0
1
2
3
4
6
7
8
9
2

0
8
0
6
2
1
1
7
4
3
9
2

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

9 1
8 10 2
7 12 11 3
6

1
2
3
4
5
6
7
8
9
10
11
12

RET EN IN
VTR S/S IN
LENS UNREG(G)
AUTO 5V
IRIS CONT OUT
LENS UNREG
IRIS POSI IN
REM/LOCAL
EX ON
ZOOM POSI IN
LAUX 1
LAUX 2

CN904
(LENS)

CN905
(MIC)

R2
100k

RV1 CN501(5/6)
5k
CN501(6/6)

C1
0.1

A GND
AUDIO CH1 CONT OUT

MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT

+9.3V IN
+5.1V IN
GND
RM VBS(G)IN
RM VBS(X)IN

UNREG GND
UNREG IN
+48V IN

CN401(1/24)

CN401(2/24)

CN401(3/24)

CN401(4/24)

CN401(5/24)

CN401(6/24)

CN401(7/24)

7
8
9
0
1
2

CN407(2/6)
CN407(3/6)
CN407(4/6)

CN401(8/24)

1
2
3
4
5
6

CN401(9/24)

1
R1
100k

+9.3V
+5.1V

IIC CLK
IIC DATA

CN401(10/24)

R7 CN501(3/6)
1k CN501(4/6)

CN401(11/24)

CN501(2/6)
VCC SDA SCL INT P7 P6 P5 P4

CN401(12/24)

16 15 14 13 12 11 10 9
ABB

CN401(13/24)

ON

CN407
CN407(1/6)

CN407(5/6)
CN401(14/24)

CN501(1/6)

4

CN406(3/3)

CN501

AWB

SEL

CN406(2/3)

CN401(15/24)

BOARD NO. 1-657-444LOT NO. 508-

C4
0.1

CN401(16/24)

R3
100k

CN401(17/24)

R4
100k

CN401(18/24)

R5
1k

IIC DATA
IIC CLK
RM DATA OUT
RM DATA IN
RE A OUT
RE B OUT

R6
1k

CN901
(TEST OUT)

CN-1122
HARNESS

CN401(19/24)

OFF

R11
100k

CN406(1/3)

CN401(20/24)

S2

AWB/ABB

MIC(X) IN
MIC(Y) IN
MIC(G) IN

CN401(24/24)

S1

SHUTTER

1
2
3

CN401(21/24)

3
S3

VTR START/STOP

CN406

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

89
HARNESS
(MIC)
2
9
0
89

1 2

CN401

SW-731

R10
220k

POWER SAVE OUT
CN401(23/24)
VTR SAVE OUT
CN401(22/24) AUDIO CH1 CONT OUT

R9
220k

CN407(6/6)

RM DATA OUT
RM DATA IN
UNREG GND
RM VBS(X)OUT
RM VBS(G)OUT
UNREG OUT

1
2
3
4
5
6

(RM)
9
9

CN902
(REMOTE)
80
84

84
80

9
9
89

89

1
2
3
4
5
6

RM DATA IN
RM DATA OUT
UNREG GND
RM VBS(X)OUT
RM VBS(G)OUT
UNREG OUT

1 6
2

5
3 4

C2
C1
0.33µ 0.33µ
50V
50V
:BP
:BP

A0 A1 A2 P0 P1 P2 P3 GND

1 2 3 4 5 6 7 8
R3
1k

C5
100µ
50V
:AL

R2
4700
:RN-C

R1
4700
:RN-C

BOARD NO. 1-657-443LOT NO. 508-

CN402

IC1
PCF8574T
R8
0

9
9

0
1
2
3
4
6
7
8
9
0
1
2

C3
100p

C2
*

CN601

S1

CANCEL

CN601(1/3)

CANCEL

CN601(2/3)
CN601(3/3)

BOARD NO. 1-657-446LOT NO. 508-

GND

1
2
3

4
6

1
2
3
4
5
6
7
8
9
10
11
12

R15
220k
R7
1k

CN405
C3

C4
CN405(1/11)
CN405(2/11)
CN405(3/11)

SW-742

CN405(4/11)
CN405(5/11)
CN405(6/11)
CN405(7/11)
CN405(8/11)

MENU SEL

CN405(9/11)
CN405(10/11)

BOARD NO. 1-657-447LOT NO. 508-

CN701

5

CN701(2/4)
CN701(3/4)
CN701(4/4)

BOARD NO. 1-657-445LOT NO. 508-

RE A
RE B
SET
GND

1
2
3
4

SW-733

CN405(11/11)

UNREG OUT
UNREG GND
VTR SAVE IN
POWER SAVE IN
+9.3V OUT
+5.1V OUT
IIC CLK
IIC DATA
CANCEL OUT
SET OUT
GND

1
2
3
4
5
6
7
8
9
10
11

HARNESS
(SW)
0
1
2
3
4
6
7
8
9
0
1

1
2
3
4
5
6
7
8
9
10
11

UNREG IN
UNREG GND
VTR SAVE
POWER SAVE
+9.3V
+5.1V
II C CLK
II C DATA
CANCEL IN
SET IN
A GND

CN801(1/11)

16 15 14 13 12 11 10 9

CN801(2/11)

VCC SDA SCL INT P7 P6 P5 P4

CN801(3/11)

R13
100k

C3
0.1

R10
100k

CN801(4/11)
CN801(5/11)

R4
100k

R5
100k

1

C1
0.1

CN801(6/11)

R11
100k
A0 A1 A2 P0 P1 P2 P3 GND

CN801(7/11)

1 2 3 4 5 6 7 8
CN801(8/11)
CN801(9/11)
CN801(10/11)
CN801(11/11)

0
1
2
3

R1
3300

POWER
R2
10k

HARNESS
(FRONT)

S1
S2

S3

ON

L

DCC ON

ON

M

SAVE

H

8-22
C

D

S4
B
A

BAR

RESET

R3
10k

GAIN

SW-730

B

R12
100k

R9
100k

CN801

D1
RD9.1M

A

R8
100k

R6
1k

IC1
PCF8574T

S1

CN701(1/4)

R14
220k

CN402(1/12)

RE A IN
CN402(2/12)
RE B IN
CN402(3/12)
SET IN
CN402(4/12)
GND
CN402(5/12)
CANCEL IN
CN402(6/12)
GND
CN402(7/12)
+9.3V OUT
CN402(8/12)
+5.1V OUT
CN402(9/12)
IIC CLK
CN402(10/12)
IIC DATA
CN402(11/12)
GND
CN402(12/12)
AUDIO CH1 CONT IN

8-22

DCC

WHITE

BVP-550

E

F

G

H

I
J

BVP-550

K

8-23

L
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68

TO ANALOG CA

M
N

18MHZ(X)OUT

18MHZ(G)OUT
Y(1)OUT
Y(3)OUT
Y(5)OUT
Y(7)OUT
Y(M)OUT
R-Y(1)OUT
R-Y(3)OUT
R-Y(5)OUT
R-Y(7)OUT
R-Y(M)OUT
B-Y(1)OUT
B-Y(3)OUT
B-Y(5)OUT
B-Y(7)OUT
B-Y(M)OUT
D GND
SAMPLE1 OUT
VD OUT
CF OUT

Y(L)OUT
Y(2)OUT
Y(4)OUT
Y(6)OUT
Y(8)OUT
R-Y(L)OUT
R-Y(2)OUT
R-Y(4)OUT
R-Y(6)OUT
R-Y(8)OUT
B-Y(L)OUT
B-Y(2)OUT
B-Y(4)OUT
B-Y(6)OUT
B-Y(8)OUT
D GND
BLKG OUT
SYNC OUT

V RESET IN/CF OUT
REC TALLY IN
VTR SAVE
A GND
CA(CONT/DATA)
CAM DATA
IIC DATA(CA)
IIC DATA(ST)

AUDIO LEVEL IN

MIC(G)OUT
MIC(X)OUT

SKIN GATE OUT
TAPE REM IN
VTR SYNC OUT
RET EN OUT
PB REF IN
H CONT IN
A GND
HD OUT
COM CONT
IIC CLK(CA)
IIC CLK(ST)
UNREG(G)
UNREG(G)
VF UNREG(G)
LENS UNREG(G)
UNREG
UNREG
VF UNREG
LENS UNREG
G(X)OUT
R/G/B(G)OUT
VBS(X)OUT
R-Y(X)OUT
Y/R-Y/B-Y(G)
Y(X)OUT
C(G)OUT
GEN(G)/H CONT IN
RET VIDEO(X)IN
MONI(G)OUT
VTR S/S OUT

AUDIO CH1 CONT OUT
MIC(Y)OUT

UNREG(G)
UNREG(G)
VF UNREG(G)
LENS UNREG(G)
UNREG
UNREG
VF UNREG
LENS UNREG
R(X)OUT
B(X)OUT
VBS(G)OUT
Y(X)OUT
B-Y(X)OUT
Y(G)OUT
C(X)OUT
GENLOCK(X)IN
RET VIDEO(G)IN
MONI(X)OUT
BATT ALARM IN

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG OUT

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/CF OUT

BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT

RET VIDEO(X)IN
RET VIDEO(G)IN
MONI(X)OUT
MONI(G)OUT

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

FLAT
CABLE

CN13

CN102

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

CN14

CN101

FLAT
CABLE

CN11

CN202

CN12

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

FLAT
CABLE

FLAT
CABLE

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN201

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG OUT

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

RET VIDEO(X)IN
RET VIDEO(G)IN
MONI(X)OUT
MONI(G)OUT
BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT
A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/CF OUT
PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

CN23

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

TG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

CN22

DR

8
7
6
5
4
3
2
1

NC
NC
R(X)IN
R(G)IN
G(X)IN
G(G)IN
B(X)IN
B(G)IN

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

CN21

PA

9

9
0
9

84

80

89

FLAT
CABLE

FLAT
CABLE

84

80

89

9

9
0
9

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN3

20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN3

1
2
3
4
5
6

CN2

GND(CCD)
GND(CCD)
A HD IN
A VD IN
VCO CONT IN
VCO CONT(G)
36MHz(X)OUT
36MHz(G)OUT
18MHz(X)OUT
18MHz(G)OUT
HTSG IN
PBLKG OUT
H CLP OUT
D CLP OUT
LD(CCD)IN
LD(TG)IN
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP OUT
ND FILT OUT
CC FILT OUT
TEMP OUT
-2.8V
-2.8V

R(X)OUT
R(G)OUT
G(X)OUT
G(G)OUT
B(X)OUT
B(G)OUT

TG-159

DR-271

PA-181

CCD UNIT

FRAME WIRING

CN103

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68

CN203

CN-1120/1121/1122/1142 SW-730/731/732/733/742

FRAME WIRING CN-1120/1121/1122/1142 SW-730/731/732/733/742

(OHB-450/451/550/550WS SERIES)

1

2

3

CN-1120
CN-1121
4

BOARD NO. 1-657-440LOT NO. 508BOARD NO. 1-657-441LOT NO. 508-

TO DIGITAL CA

FRAME WIRING

CN-1120/1121/1122/1142
SW-730/731/732/733/742

A-¥BVP550-FRAME/M
B-¥BVP550-FRAME/M

B-¥BVP550-CN1122/M

B-¥BVP550-SW730/M

B-¥BVP550-SW731/M

B-¥BVP550-SW732/M

B-¥BVP550-SW733/M

B-¥BVP550-SW742/M

8-23
O
P

5

1

2

3

4

5

8-24
A

B

C

D

8-24

BVP-550

E

F

G

H

VA-163

VA-163

Section 9
Board Layouts

VA-163 BOARD

BVP-550

VA-163 - A SIDE -

VA-163 - B SIDE -

1-657-438-12, 21

1-657-438-12, 21

9-1

9-1

9-2

9-2

BVP-550

AT-95

AT-95

AT-95 BOARD

BVP-550

AT-95 - A SIDE -

AT-95

1-657-448-11, 12, 21

1-657-448-11, 12, 21

9-3

9-3

- B SIDE -

9-4

9-4

BVP-550

SG-234

SG-234

SG-234 BOARD

BVP-550

SG-234 - A SIDE -

SG-234

1-657-449-12, 21

1-657-449-12, 21

9-5

9-5

- B SIDE -

9-6

9-6

BVP-550

DA-88

DA-88

DA-88 BOARD

BVP-550

DA-88 - A SIDE -

DA-88 - B SIDE -

1-657-450-12, 21

1-657-450-12, 21

9-7

9-7

9-8

9-8

BVP-550

IC301

IC307 IC304

R326
R354

IC153

IC152 IC154

IC351

IC302

C330 R310
R311
C303
IC306 C309

R324 R327
R325 R329
R328
C315

Q353

C321
R323
IC310 R321
R322
R320
C322

C301 C311

IC308
Q354 C351
R352
R353
Q352
C154

IC352 C353C352

R201
R200

R642
R643
IC641 R641

D500

Q1
R1

IC502

R531
R540
R541

R537R536
R534R533

R550 R552
R549 R551

C508
Q504
R526
Q505

R100

R106 D101

R708R707

R33

IC12

R230 C226
D250 R254
R229 R226
R256R259
C422 Q273
C224
R253
Q251 R228 IC206
R251
Q272
Q250 R202
C206
R440
Q271
Q205
R279
R203
IC201
R276
R273
IC202

R400
Q401

C502
Q501
R513
Q502

R410R407R408
R406
Q404
Q406
R414
C404

R515

R508
R511
R514

R502

C30
C31
R15
R14
R13
C15

R9
C17

C706

R719

R225
R224
R221
R222

3

Q109

IC501

C514
Q507 R520
R524
R527
Q508 R528

R555C525 R553
R554
R548

R434R431R432
R422R419R420
R430
R418
Q421
Q411
Q424 R426
Q414
R438
C418
R439 C411
R427
R436

R542

Q110
R111
IC101 R110

C602
R602
R604
R603
R605 IC601 R601
C603
R607

C622
R622
R624
R625 IC621 R623
R621
C623
R627

C642
R644
R645
C643
R647

IC500

C152
C150
R277C723
R271R274R278
C721C722
R272 R275

C312

R199
R198

R546
C519
R547

9-9
Q2
R2

9-9
Q506
R532

IC309

R263
R264

G

Q422

F

D402 C414
R433 R538
C515
Q420 R539

C307
R261
Q252

R315
C320 C308
C313

Q423

L602

C101
R107
R105
R101

C361
C300

E

C417R429
R428
D401 C407
R421 R523
C509
Q410 R525

L301

IC322

IC303

R351
R362
R361
R258C253

C522
Q510
C518
R545
R543C524
Q509 R544

C646
C520

R102 R104 Q412
C103
Q413

L500

Q503
R521

C517

D
IC404

C626
C516

C36
C35 C32
C33 D31 Q30
R35
D21 C22
R34 Q20 C26
C13 C12
R8
Q10 R10
C16 D11

C513
R535

C
R424
C421

B

C250

C511

2

R257

C505

R721 R716
R701
C701
C703 R702 R714
R713
R705
R706
R712
Q703 R711
R710
Q702 R709

C504

C410R417
R416
C400
D400 R409

L3

Q500
R507

C34

R510
C503
R512

L2

Q403

C21

R405 Q405
C255 R412R411
R415

IC702

A
C23

R646
C644

IC305

R154R156R153
R151 C153
C155R152R155

IC155
C350

C20

1

C205R211

C416

L502

C645

C641

C625

C521

L400

1
R25
R23 R24

C415

L700
L1

CN1

C419
C510

L501

L401
C402

C10

C408

R518
C507
R519
R517
C506
R516

C409

R530
C512
R529

C413

R522

R435

C420
C401

C11

R500

R501
R505
C501
R506
R504
C500
R503 R509

C406

C14

C405

C24

C412

C25

R423

C605

R626
C624

C621

C606

IC400

IC420

C102

R717
R718
R715
C707

C424 R443
R441
Q102
R447
R448

C705

L402

IC410

C601
R606
C604

IC151

F
IC701

C105

R413

R437

C104
C252
C254

C702
R704
R722
R703

R252

R250

L601

L603

C151

BVP-550

L150

G
RV101

L202

C
C704

R425
R442
Q430
R444
R445
C423
R446
Q103
Q431
R103
Q101

E
S1

C201C202

C225

IC200

D
R212
Q210
Q209
R209 R205
Q207

2

C403R404
R403
R401 Q402 R402

C221

L201

B
C223
L203
R227
C204
Q211R213
R208
R214
R204 R207
Q206 R206
R210C203 Q208

A
3
Q701

4
C222

IF-510
IF-510

BVP-550 (SY) : S/N 15441 and Higher

IF-510 BOARD
4

IF-510 - A SIDE IF-510 - B SIDE -

1-657-453-13, 22
1-657-453-13, 22

IF-510

IF-510

BVP-550 (SY) : S/N 50001 through 50440
: S/N 15001 through 15440

IF-510 BOARD

IF-510 - A SIDE -

IF-510 - B SIDE -

1-657-453-12, 21

1-657-453-12, 21

9-10

9-10

BVP-550

MB-602

MB-602

MB-602 BOARD

BVP-550

MB-602 - A SIDE -

MB-602 - B SIDE -

1-657-437-14, 21

1-657-437-14, 21

9-11

9-11

9-12

9-12

BVP-550

The material contained in this manual consists of
information that is the property of Sony Corporation and
is intended solely for use by the purchasers of the
equipment described in this manual.
Sony Corporation expressly prohibits the duplication of
any portion of this manual or the use thereof for any
purpose other than the operation or maintenance of the
equipment described in this manual without the express
written permission of Sony Corporation.

Le matériel contenu dans ce manuel consiste en
informations qui sont la propriété de Sony Corporation et
sont destinées exclusivement à l’usage des acquéreurs
de l’équipement décrit dans ce manuel.
Sony Corporation interdit formellement la copie de
quelque partie que ce soit de ce manuel ou son emploi
pour tout autre but que des opérations ou entretiens de
l’équipement à moins d’une permission écrite de Sony
Corporation.

Das in dieser Anleitung enthaltene Material besteht aus
Informationen, die Eigentum der Sony Corporation sind,
und ausschließlich zum Gebrauch durch den Käufer der
in dieser Anleitung beschriebenen Ausrüstung bestimmt
sind.
Die Sony Corporation untersagt ausdrücklich die
Vervielfältigung jeglicher Teile dieser Anleitung oder den
Gebrauch derselben für irgendeinen anderen Zweck als
die Bedienung oder Wartung der in dieser Anleitung
beschriebenen
Ausrüstung
ohne
ausdrückliche
schriftliche Erlaubnis der Sony Corporation.

BVP-550 (SY) J, E

Sony Corporation

3-190-368-02

Broadcast Products Company

Printed in U.S.A.
1996. 7 76
©1996

Published by Broadcast Products Company

COLOR VIDEO CAMERA

BVP-550

MAINTENANCE MANUAL
2nd Edition
Serial No. 11001 and Higher

! WARNING
This manual is intended for qualified service personnel only.
To reduce the risk of electric shock, fire or injury, do not perform any servicing other than that
contained in the operating instructions unless you are qualified to do so. Refer all servicing to
qualified service personnel.

! WARNUNG
Die Anleitung ist nur für qualifiziertes Fachpersonal bestimmt.
Alle Wartungsarbeiten dürfen nur von qualifiziertem Fachpersonal ausgeführt werden. Um die
Gefahr eines elektrischen Schlages, Feuergefahr und Verletzungen zu vermeiden, sind bei
Wartungsarbeiten strikt die Angaben in der Anleitung zu befolgen. Andere als die angegeben
Wartungsarbeiten dürfen nur von Personen ausgeführt werden, die eine spezielle Befähigung
dazu besitzen.

! AVERTISSEMENT
Ce manual est destiné uniquement aux personnes compétentes en charge de l’entretien. Afin
de réduire les risques de décharge électrique, d’incendie ou de blessure n’effectuer que les
réparations indiquées dans le mode d’emploi à moins d’être qualifié pour en effectuer d’autres.
Pour toute réparation faire appel à une personne compétente uniquement.

CAUTION
Danger of explosion if battery is incorrectly
replaced.
Replace only with the same or equivalent type
recommended by the manufacturer.
Dispose of used batteries according to the
manufacturer's instructions.

Vorsicht!
Explosionsgefahr bei unsachgemäßem
Austausch der Batterie.
Ersatz nur durch denselben oder einen vom
Hersteller empfohlenen ähnlichen Typ.
Entsorgung gebrauchter Batterien nach Angaben
des Herstellers.

ATTENTION
Il y a danger d'explosion s'il y a remplacement
incorrect de la batterie.
Remplacer uniquement avec une batterie du
même type ou d'un type équivalent recommandé
par le constructeur.
Mettre au rebut les batteries usagées
conformément aux instructions du fabricant.

ADVARSEL!
Lithiumbatteri-Eksplosionsfare ved fejlagtig
håndtering.
Udskiftning må kun ske med batteri
af samme fabrikat og type.
Levér det brugte batteri tilbage til leverandøren.

1 (P)

Table of Contents
Manual Structure
Purpose of this manual ........................................................................................ 5 (E)
Contents ............................................................................................................... 5 (E)
Relative manuals ................................................................................................. 6 (E)

1. Installation
1-1.

1-2.
1-3.
1-4.
1-5.

Connectors and Cables ..........................................................................1-1 (E)
1-1-1. Connector Input/Output Signals ...........................................1-1 (E)
1-1-2. Connection Connector ..........................................................1-6 (E)
Installaton Conditions ...........................................................................1-6 (E)
Function of Internal Switches ...............................................................1-6 (E)
Instance of Sytem Configuration ..........................................................1-8 (E)
Optional Accessories for Viewfinder ..................................................1-11 (E)

2. Service Overview
2-1.

Notes on Service ...................................................................................2-1 (E)
2-1-1. Note on Replacement of PR-211 Board ...............................2-1 (E)
2-1-2. Description of EEPROM Data .............................................2-1 (E)
2-1-3. Extension Boards .................................................................2-1 (E)
2-1-4. Notes on Repair Parts ...........................................................2-1 (E)
2-2. Removal of Cabinet...............................................................................2-2 (E)
2-3. Location of Printed Circuit Boards .......................................................2-2 (E)
2-4. Circuit Description ................................................................................2-3 (E)
2-5. Periodic Replacement Part ....................................................................2-6 (E)
2-6. Cleaning ................................................................................................2-7 (E)
2-6-1. Cleaning of Viewfinder (Option) .........................................2-7 (E)
2-6-2. Cares After Using at Special Environment ..........................2-7 (E)
2-7. Replacement of External Connectors ....................................................2-8 (E)
2-7-1. VF Connector .......................................................................2-8 (E)
2-7-2. MIC Connector.....................................................................2-8 (E)
2-7-3. TEST OUT/REMOTE Connector ........................................2-9 (E)
2-8. Disconnecting/Connecting of Flexible Card Wires ............................2-10 (E)
2-9. Board Replacement .............................................................................2-11 (E)
2-9-1. MB-602 Board ...................................................................2-11 (E)
2-9-2. CN-1120/1121 Board .........................................................2-12 (E)
2-10. Replacement of Function Switches .....................................................2-13 (E)
2-10-1. Side Switch Panel Block ....................................................2-13 (E)
2-10-2. Front Switch Panel Block...................................................2-13 (E)
2-10-3. VF DISP Switch .................................................................2-14 (E)
2-11. Replacement of DC/DC Convertor Unit .............................................2-15 (E)

BVP-550

1 (E)

3. Setup Menu
3-1.

3-2.

Setup Menu ...........................................................................................3-1 (E)
3-1-1. Operation Menu ...................................................................3-3 (E)
3-1-2. Paint Menu ...........................................................................3-6 (E)
3-1-3. Maintenance Menu ...............................................................3-9 (E)
3-1-4. Reference Menu .................................................................3-11 (E)
3-1-5. Triming Menu ....................................................................3-11 (E)
3-1-6. System Config Menu ..........................................................3-12 (E)
Self-Diagnosis .....................................................................................3-15 (E)

4. Electrical Alignment
4-1.

4-2.

4-3.

2 (E)

Preparation ............................................................................................4-1 (E)
4-1-1. Equipment Required .............................................................4-1 (E)
4-1-2. Notes on Adjustment ............................................................4-1 (E)
4-1-3. Connections ..........................................................................4-2 (E)
4-1-4. Description of Setup Menu ..................................................4-2 (E)
4-1-5. Initial Setting ........................................................................4-3 (E)
Adjustment for Installation of OHB ......................................................4-4 (E)
4-2-1. VCO CONT Frequency Confirmation .................................4-4 (E)
4-2-2. VA Gain Adjustment ............................................................4-4 (E)
4-2-3. Black Shading Adjustment ...................................................4-6 (E)
4-2-4. White Shading Adjustment ..................................................4-8 (E)
4-2-5. Master Black Adjustment .....................................................4-9 (E)
4-2-6. Gamma Correction Adjustment ...........................................4-9 (E)
4-2-7. Flare Adjustment ................................................................4-11 (E)
4-2-8. Knee and White Clip Adjustment ......................................4-12 (E)
4-2-9. Crispening Adjustment .......................................................4-13 (E)
4-2-10. Level Dependent Adjustment .............................................4-14 (E)
4-2-11. Detail Frequency Adjustment ............................................4-15 (E)
4-2-12. H/V Ratio Adjustment ........................................................4-16 (E)
4-2-13. Detail Level Adjustment ....................................................4-17 (E)
4-2-14. Detail Clip Adjustment ......................................................4-17 (E)
4-2-15. Skin Tone Adjustment ........................................................4-18 (E)
4-2-16. Zebra Adjustment ...............................................................4-20 (E)
4-2-17. Auto Iris Adjustment ..........................................................4-21 (E)
4-2-18. Menu Settings After Finishing Adjustment .......................4-22 (E)
4-2-19. File Store ............................................................................4-22 (E)
Overall Electrical Alignment ..............................................................4-22 (E)
4-3-1. VCO CONT Frequency Adjustment ..................................4-23 (E)
4-3-2. VTR Y Adjustment ............................................................4-24 (E)
4-3-3. Test out Adjustment ...........................................................4-25 (E)
4-3-4. Chroma Adjustment ...........................................................4-26 (E)
4-3-5. INT SC Phase Adjustment .................................................4-27 (E)
4-3-6. REG Level Adjustment ......................................................4-28 (E)

BVP-550

4-3-7.
4-3-8.
4-3-9.
4-3-10.
4-3-11.
4-3-12.
4-3-13.
4-3-14.
4-3-15.
4-3-16.
4-3-17.
4-3-18.
4-3-19.
4-3-20.
4-3-21.
4-3-22.
4-3-23.

TEST1 Adjustment.............................................................4-29 (E)
TEST2 Adjustment.............................................................4-30 (E)
A/D Gain Adjustment ........................................................4-31 (E)
VA Gain Adjustment..........................................................4-32 (E)
VA MOD Adjustment ........................................................4-34 (E)
Black Shading Adjustment .................................................4-35 (E)
White Shading Adjustment ................................................4-37 (E)
Master Black Adjustment ...................................................4-38 (E)
Gamma Correction Adjustment .........................................4-39 (E)
Flare Adjustment ................................................................4-40 (E)
Pre Knee Adjustment .........................................................4-41 (E)
Knee and White Clip Adjustment ......................................4-43 (E)
A/D Clock Phase Adjustment ............................................4-45 (E)
VTR R-Y/B-Y Adjustment ................................................4-46 (E)
CCU Y/R-Y/B-Y Adjustment ............................................4-46 (E)
RGB Adjustment ................................................................4-48 (E)
Menu Setting After Finishing Adjustment .........................4-49 (E)

5. Spare Parts
5-1.
5-2.

5-3.
5-4.

Notes on Repair Parts .................................................................................. 5-1
Exploded Views .......................................................................................... 5-2
TOP PANEL BLOCK............................................................................... 5-2
RIGHT PANEL AND PLUG-IN BOARDS ............................................. 5-4
LEFT PANEL AND BOARDS ................................................................ 5-6
CHASSIS AND SHOLDER PAD ............................................................ 5-8
BOTTOM BLOCK ................................................................................. 5-10
SCREWS AND WASHERS ................................................................... 5-12
Electrical Parts List ................................................................................... 5-13
Optional Fixtures ....................................................................................... 5-40

6. Semiconductor Pin Assignments

BVP-550

3 (E)

7. Block Diagrams
OVERALL BLOCK .................................................................................... 7-2
VA-163 BOARD ......................................................................................... 7-4
AT-95 BOARD ........................................................................................... 7-5
SG-234 BOARD ......................................................................................... 7-6
DA-88 BOARD ........................................................................................... 7-7
IF-510 BOARD ........................................................................................... 7-8

8. Schematic Diagrams
LOCATION OF PRINTED CIRCUIT BOARDS ...................................... 8-1
VA-163 BOARD ......................................................................................... 8-2
AT-95 BOARD ........................................................................................... 8-6
SG-234 BOARD ....................................................................................... 8-10
DA-88 BOARD ......................................................................................... 8-14
IF-510 BOARD ......................................................................................... 8-18
MB-602 BOARD ...................................................................................... 8-20
FRAME WIRING ..................................................................................... 8-22

9. Board Layouts
VA-163 BOARD ......................................................................................... 9-1
AT-95 BOARD ........................................................................................... 9-3
SG-234 BOARD ......................................................................................... 9-5
DA-88 BOARD ........................................................................................... 9-7
IF-510 BOARD ........................................................................................... 9-9
MB-602 BOARD ...................................................................................... 9-11

4 (E)

BVP-550

Manual Structure
Purpose of this manual
This manual is the maintenance manual for Color Video Camera BVP-550.
This manual describes the information items necessary when the unit is supplied and
installed, items on maintenance, and items that premise the service based on the
components parts such as alignment, schematic diagrams, board layouts and spare
parts list, assuming use of system and service engineers.

Contents
This followings are summaries of the each section for understanding the manual.
Section 1. Installation
Describes information about connector input/output signals, instance of configuration and function of internal switches.
Section 2. Service Overview
Describes information about board locations, circuit description, replacement of part
and notes on services.
Section 3. Setup menu
Describes information about setup menu and self-diagnosis mode.
Section 4. Electrical Alignment
Describes electrical adjustment.
Section 5. Spare Parts
Describes parts list, exploded views, supplied accessories and fixtures list used in
the unit.
Section 6. Semiconductor Pin Assignments
Describes function diagrams and pin names of semiconductor used in the unit.
Section 7. Block Diagrams
Describes overall block diagram and the block diagrams for every circuit board.
Section 8. Schematic Diagrams
Describes schematic diagrams for every circuit board.
Section 9. Board Layouts
Describes board layouts for every circuit board.

BVP-550

5 (E)

Relative manuals
Besides this maintenance manual the following manuals are available for this unit.
• Operation Manual (Supplied with this unit)
This manual is necessary for application and operation of this unit.
• System manual (Not supplied with this unit)
This manual is necessary for connection and operation of this unit and other
peripheral equipments.
If this manual is required, please contact Sony service organization

6 (E)

BVP-550

Section 1
Installation
1-1. Connectors and Cables
1-1-1. Connector Input/Output Signals
Output Signal
• TEST OUT
BNC 75 Ω 1.0 Vp-p

REMOTE (6P FEMALE)

MIC IN (3P FEMALE)
)

(EXTERNAL VIEW)

(EXTERNAL VIEW)
No. SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

SERIAL DATA IN

Serial data for camera control

1

MIC IN (G)

2

SERIAL DATA OUT

2

MIC IN (X)

–60 dBu High impedance
balanced

3

UNREG (G)

3

MIC IN (Y)

4

VBS (X) OUT

5

VBS (G) OUT

6

UNREG OUT

BVP-550

VBS 1 Vp-p, Zo = 75 Ω

(0 dBu=0.775 Vrms)

+10.5 V to +17 V

1-1 (E)

1-1. Connectors and Cables

LENS (12P FEMALE)

VF (20P FEMALE)

(EXTERNAL VIEW)

(EXTERNAL VIEW)

No.

SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

RET VIDEO ENABLE IN

ENABLE: 0 V
DISABLE: +5 V or OPEN

1

NC

No connection

2

ABNORMAL IND OUT

2

RET 2 ENABLE IN

ENABLE: 0 V
DISABLE: +5 V or OPEN

H: Indicator lights
L: Indicator goes out

3

16:9 MODE OUT

3

GND

GND for UNREG

H: NORMAL (4:3)
L: WIDE (16:9)

4

AUTO +5 V OUT

AUTO: +5 V
MANU: 0 V or OPEN

4

NC

No connection

5

COMP/VBS SW IN/OUT

*Note1

5

IRIS CONT OUT

+3.4 V (F16) to
+6.2 V (F2.8)

6

CCIR/EIA OUT

H:CCIR, L:EIA

6

UNREG OUT

+10.5 V to +17 V

7

NC

No connection

8

G TALLY OUT

H: Indicator lights
L: Indicator goes out

7

IRIS POSITION IN

+3.4 V (F16) to
+6.2 V (F2.8)

8

AUTO/MANU OUT

AUTO IRIS: 0 V
MANUAL IRIS: +5 V

9

EXTENDER ON/OFF IN

EX 2 ON: 0 V
EX 0.8 ON: +1.8 V
OFF: +4.8 V

10

ZOOM POSITION IN

WIDE: 2 V
TELE: 7 V

11

NC

No connection

12

NC

No connection

1-2 (E)

9

NC

No connection

10

Y (X) OUT

1 Vp-p, VF:Zi = 1 kΩ

11

ZEBRA ON IN

H: OFF, L:ON

12

VF VIDEO OUT (X)

1.0 Vp-p, VF:Zi = 1 kΩ

13

NC

No connection

14

B-Y (X) OUT

700 mVp-p, VF:Zi = 1 kΩ,
75% color-bars

15

R-Y (X) OUT

700 mVp-p, VF:Zi = 1 kΩ,
75% color-bars

16

BATT IND OUT

H: Indicator lights
L: Indicator goes out

17

TALLY IND OUT

H: Indicator lights
L: Indicator goes out

18

+9.3 V (VF) OUT

REG +9.3 V

19

GND

GND

20

UNREG OUT

+10.5 V to 17 V

Note1: Specification of COMP/VBS SW Signal
When powering on, the microcomputer of the camera
identifies a viewfinder in use by detecting the voltage at
pin 5.
H: Color VF, L: B/W VF
• In use of B/W VF
Voltage control of pin 5 is disabled during operation.
Switching between the return video signal and monochrome signal for the viewfinder is done by the camera
and selected signal is output at pin 12 to the viewfinder.
• In use of Color VF
By controlling the voltage at pin 5 during operation,
switching between the decoded return video signal and
the camera component signal is done in the viewfinder.
H: Camera, L: Return video
BVP-550

1-1. Connectors and Cables
34

1

ANALOG CA (68P FEMALE)

(EXTERNAL VIEW)
68

35

*: In connection with CCU, **: In connection with VTR
No.

SIGNAL

SPECIFICATIONS

No.

SIGNAL

SPECIFICATIONS

1

UNREG GND

GND for UNREG

35

UNREG GND

GND for UNREG

2

UNREG GND

GND for UNREG

36

UNREG GND

GND for UNREG

3

VF UNREG GND

GND for VF UNREG

37

VF UNREG GND

GND for VF UNREG

4

LENS UNREG GND

GND for LENS UNREG

38

LENS UNREG GND

GND for LENS UNREG

5

UNREG IN

10.5 V to 17 V

39

UNREG IN

10.5 V to 17 V

6

UNREG IN

10.5 V to 17 V

40

UNREG IN

10.5 V to 17 V

7

VF UNREG IN

10.5 V to 17 V

41

VF UNREG IN

10.5 V to 17 V

8

LENS UNREG IN

10.5 V to 17 V

42

LENS UNREG IN

10.5 V to 17 V

9

R OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

43

G OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

10

B OUT (X)

700 mVp-p ±2%, DC 0 ±200 mV, Zo = 75 Ω

44

R/G/B GND

GND for R/G/B VIDEO

11

VBS OUT (G)

GND for VBS VIDEO

45

VBS OUT (X)

1.0 Vp-p ±10%, Zo = 75 Ω

12

Y OUT (X)

VS 1.0 Vp-p, Zo = 75 Ω

46

R-Y OUT (X)

700 mVp-p, with sync 350 mV*
756 mVp-p (J) 
700 mVp-p (UC)  **
525 mVp-p (CE) 

13

B-Y OUT (X)

47

Y/R-Y/B-Y GND

GND for Y/R-Y/B-Y

No connection

48

NC

No connection

700 mVp-p, with sample 350 mV*
756 mVp-p (J) 
700 mVp-p (UC)  **
525 mVp-p (CE) 

14

NC

15

C OUT (X)

SC for S connector

49

C OUT (G)

GND for C

16

VBS GENLOCK IN (X)

1.0 Vp-p ±6 dB

50

VBS GENLOCK IN (G)

GND for GENLOCK/H CONT IN

17

RET VIDEO IN (G)

GND for RET VIDEO

51

RET VIDEO IN (X)

1.0 Vp-p, Zi = 1 kΩ

18

MONITOR VIDEO OUT (X)

VS 1.0 Vp-p, Zo = 75 Ω

52

MONITOR VIDEO OUT (G)

GND for MONITOR VIDEO

19

BATTERY ALARM IN

Zi = 300 Ω *

53

VTR START/STOP OUT

Zo ≤ 10 kΩ

20

NC

No connection

54

NC

No connection

21

AUDIO CH1 CONT OUT

0 V (0 dB) to 7 V (–50 dB or less)

55

MIC 1 OUT (G)

GND for CAM MIC

22

MIC 1 OUT (Y)

Zo ≤ 600 Ω, –60 dBu balanced

56

MIC 1 OUT (X)

Zo ≤ 600 Ω, –60 dBu balanced

23

NC

No connection

57

NC

No connection

24

SKIN TONE GATE OUT

1.0 Vp-p

58

NC

No connection

59

AUDIO LEVEL IN

Zi ≥ 1 kΩ (–15 dBu at 0 VU)

Note 2

Note 4

25

TAPE REM IN

*

26

VTR SYNC OUT

+5.0 Vp-p Negative pulse, Zo ≤ 100 Ω

60

NC

No connection

27

RET EN OUT

ENABLE; 0 V, DISABLE; +5 V or OPEN

61

V RESET IN/CF OUT

V Reset;0 V to +5 V, CF; 0 V to –5 V

28

PB REF IN

PB; +4.5 V,
CAM; 0 V or OPEN

62

REC TALLY IN

ON; +5 V,
OFF; +2.5 V or 0 V,
Zi ≥ 20 kΩ *Note 3

29

H CONT IN

0 V to 5 V, Analog

63

VTR SAVE OUT

SAVE; +4.5 V, STANDBY; 0 V, Zo ≤ 10 kΩ

30

ANALOG GND

64

GND

31

DIGITAL HD OUT

3 Vp-p for Digital

65

SD IN/OUT

Serial data for camera control

32

COM CONT IN

5 Vp-p

66

COM DATA OUT

5 Vp-p

33

IIC CLOCK OUT (CA)

5 Vp-p

67

IIC DATA IN/OUT (CA)

5 Vp-p, 4700 Ω, Pull up

34

IIC CLOCK OUT (ST)

5 Vp-p

68

IIC DATA IN/OUT (ST)

5 Vp-p, 4700 Ω, Pull up

BVP-550

(0 dBu=0.775 Vrms)
1-3 (E)

1-1. Connectors and Cables

Note 2 : Specifications of BATT ALARM Signal
VTR has a battery voltage detection and waring signal generation circuits and it sends the signal shown
below to the camera.
Battery Terminal
Voltage
(VTR internal battery)

12.0—11.1 Vdc

11.1—10.8 Vdc

10.8 Vdc—

1.0 ± 0.2 Hz
duty 50 ± 10 %

2—3 Vdc
across 300 Ω

Input Signal at
Pin 19
0V
LED on Viewfinder

Stays out

Blinks at 1 Hz

Lights up

Note 3 : Specifications of REC TALLY Signal
+1
5.0 -0.5 Vdc
Input Signal at
Pin 62
2.5 ± 0.5 Vdc
REC TALLY
signal
1.0 ± 0.2 Hz
duty 50 ± 10 %

0 ± 0.3 Vdc
Power
OFF

Power
ON

VTR Action

When VTR changes
from POWER SAVE
to REC START mode,
or when the servo is
lost

REC RESET signal
10—100 msec
When VTR
changes from
STANDBY to
REC START
mode, or in
REC mode

At the end of STOP
tape or When mode
VTR is put
into STOP
mode by itself
(REC RESET
signal does
not appear
when VTR is
put into STOP
mode by
operating the
camera)

Note 4 : Specifications of TAPE REM Signal
Tape Remaining (VTR)

Input Signal at Pin 25

TAPE1

TAPE2

+5 V

+5 V

+3.4 V

+5 V

0V

+3.1 V

0V

+5 V

+2.2 V

0V

0V

0V

1-4 (E)

Remark

G TALLY lamp lights at +3.1 V

BVP-550

1-1. Connectors and Cables

DIGITAL CA (68P FEMALE)

34

1

68

35

(EXTERNAL VIEW)

No.

SIGNAL

1

SPECIFICATIONS

No.

SIGNAL

Y (L) OUT

35

Y (1) OUT

2

Y (2) OUT

36

Y (3) OUT

3

Y (4) OUT

37

Y (5) OUT

4

Y (6) OUT

38

Y (7) OUT

5

Y (8) OUT

39

Y (M) OUT

6

R-Y (L) OUT

40

R-Y (1) OUT

7

R-Y (2) OUT

41

R-Y (3) OUT

8

R-Y (4) OUT

42

R-Y (5) OUT

9

R-Y (6) OUT

43

R-Y (7) OUT

10

R-Y (8) OUT

44

R-Y (M) OUT

11

B-Y (L) OUT

45

B-Y (1) OUT

12

B-Y (2) OUT

46

B-Y (3) OUT

13

B-Y (4) OUT

47

B-Y (5) OUT

14

B-Y (6) OUT

48

B-Y (7) OUT

15

B-Y (8) OUT

49

B-Y (M) OUT

16

DIGITAL GND

GND for DIGITAL

50

DIGITAL GND

GND for DIGITAL

3.3 Vp-p

3.3 Vp-p

3.3 Vp-p

SPECIFICATIONS

3.3 Vp-p

3.3 Vp-p

3.3 Vp-p

17

DIGITAL BLANKING OUT

3.3 Vp-p

51

DIGITAL SAMPLE OUT

3.3 Vp-p

18

DIGITAL SYNC OUT

3.3 Vp-p

52

DIGITAL VD OUT

3.3 Vp-p

19

NC

No connection

53

DIGITAL CF OUT

3.3 Vp-p

20

NC

No connection

54

NC

No connection

21

NC

No connection

55

NC

No connection

22

NC

No connection

56

NC

No connection

23

NC

No connection

57

NC

No connection

24

NC

No connection

58

NC

No connection

25

NC

No connection

59

NC

No connection

26

NC

No connection

60

NC

No connection

27

NC

No connection

61

NC

No connection

28

NC

No connection

62

NC

No connection

29

NC

No connection

63

NC

No connection

30

NC

No connection

64

NC

No connection

31

NC

No connection

65

NC

No connection

32

NC

No connection

66

NC

No connection

33

NC

No connection

67

NC

No connection

34

18 MHz OUT (G)

GND for 18 MHz

68

18 MHz OUT (X)

3.3 Vp-p

BVP-550

1-5 (E)

1-1. Connectors and Cables
1-2. Installaton Conditions
1-3. Function of Internal Switches

1-1-2. Connection Connector

1-3. Function of Internal Switches

Connection made with the connector panels during installation or service, should be made with the connectors/
complete cable assemblies specified in the following list,
or equivalent parts.

AT-95 Board

Connector Name

Connection Connectors/Cables

TEST OUT
(BNC)

1-560-069-11 Plug, BNC or
B-B Cable assembly
(cable length 1.5 m, option)

REMOTE
(6P FEMALE)

1-560-078-00 Plug, 6P Male or
HIROSE HR10-7PA-6P equivalent

MIC IN
(3P FEMALE)

1-508-084-00 XLR, 3P Male or
CANNON XLR-3-12C equivalent

4

3

2

1

AT

A

B

C

D

E

S1

1-2. Installaton Conditions

F

Operating Temparature : –20°C to +45°C
Storage Temparature
: –20°C to +50°C
Humidity
: No condence
• Install the unit in a location as dry and well-ventilated as
possible.
• Do not install the unit in the following conditions.
High temparature room or near the heat source
Excessive dust or mechanical vibration
Intense magnetic and electric fields
A place subjected to direct sunlight or strong light

G

AT 95(COMPONENT SIDE)

S1
: Setup menu select switch (S1-1 to S1-4)
Setup menu indicated on the viewfinder can be selected in
combination of switches S1-1 to S1-4.
( ) in parentheses: Factory-set positions
Setup Menu
S1-1 S1-2 S1-3 S1-4 Operation Paint Maintenance Reference Triming Config
OFF OFF OFF OFF YES

NO

NO

NO

NO

NO

(ON) (OFF) (OFF) (OFF) YES

YES NO

NO

NO

NO

OFF ON

OFF OFF YES

YES YES

NO

NO

NO

ON

OFF OFF YES

YES YES

YES

NO

NO

ON

OFF OFF ON

OFF YES

YES YES

YES

YES

NO

ON

OFF YES

YES YES

YES

YES

YES

OFF ON

For details on the setup menu, refer to Section 3.

1-6 (E)

BVP-550

1-3. Function of Internal Switches

IF-510 Board

MB-602 Board

4

3

2

1

IF

A

1

(ON)

S1

2

B

S1

3

C

4

VIDEO
LEVEL

D

5

E
6

F
7

G

S1
: VF connector signal select switch
Selects an output signal at VF connector.
RET: Return video signal from CCU
GEN: Reference signal for external synchronization which
is input at GENLOCK IN connector of CA
Factory-set position: RET

BVP-550

F

E

D

C

B

A

In setting a switch on MB-602 board, open the left side
panel.
S1
: PHANTOM POWER switch
Turn on when connecting the PHANTOM +48 V microphone to MIC connector.
Factory-set position: ON

1-7 (E)

1-4. Instance of Sytem Configuration

1-4. Instance of Sytem Configuration

ELECTRONIC
VIEWFINDER
BVF-77/77CE

STUDIO ZOOM LENS

CCD UNIT
OHB-400/400P
OHB-500/500P
OHB-500WS/500WSP

TRIAX CABLE (*2)

COLOR VIDEO CAMERA
BVP-500/500P

1.5" VF(BVF-10/10CE)
CCD UNIT
OHB-450/450P
OHB-451/451P
OHB-550/550P
OHB-550WS/550WSP

ELECTRONIC
VIEWFINDER
BVF-55/55CE

CAMERA ADAPTOR
CA-550/550P

TRIAX CABLE (*2)
or COAX CABLE

ENG/EFP LENS
COLOR VIDEO CAMERA
BVP-550

OTHER OPTIONAL ACCESSORIES
For BVP-500/500P

STANDALONE UNIT
BKP-5910/5910P
SCRIPT HOLDER
BKP-7911/7912

For BVP-550

ELECTRET CONDENSER MICROPHONE
ECM-MS5
MICROPHONE
C-74 (Sony P/N 1-542-099-11)
CRADLE SUSPENSION
CRS-3P
CARRYING CASE
LC-303SFT

For CA-550/550P

1-8 (E)

TELEPROMPTER UNIT
BKP-5971
BVP-550

1-4. Instance of Sytem Configuration

REMOTE CONTROL
PANEL
RCP-700 RCP-701

REMOTE CONTROL PANEL
RCP-720 RCP-721 RCP-740 RCP-741
CCA-5 CABLE
(*1)
CCA-5 CABLE
(*1)

CAMERA CONTROL UNIT
CCU-700/700P

CCA-5 CABLE
(*1)

CCA-5 CABLE
(*1)
CAMERA COMMAND
NETWORK UNIT
CNU-700/500

PIX 2
WF 2

VIDEO SELECTOR
VCS-700

CCA-5 CABLE
(max. 200m)

PIX 2
WF 2
PIX

MASTER SETUP UNIT
MSU-700

WF

CCA-5 CABLE
(max. 200m)

CAMERA CONTROL UNIT
CCU-700/700P
CCA-5 CABLE
(*1)

*1: CCA-5 CABLE LENGTH

RCP-700/701

(
CCA-5

RCP

)
CCA-5

CNU

CCA-5

CCU

Total length 200m or less

*2: TRIAX CABLE LENGTH

BVP-550

Diameter

Maximum length

8.5 mm

1000 m

14.5 mm

2000 m

1-9 (E)

1-4. Instance of Sytem Configuration

COLOR VIDEO CAMERA
BVP-550
1.5" VF(BVF-10/10CE)
CCD UNIT
OHB-450/450P
OHB-451/451P
OHB-550/550P
OHB-550WS/550WSP

CAMERA ADAPTOR
CA-550/550P

DIGITAL VIDEO CASSETTE
RECORDER
DVW-250/250P

CCZ CABLE
ENG/EFP LENS

AC ADAPTOR
AC-550/550P

CCA-5 CABLE
(max. 50m)

REMOTE MASTER
CONTROL SETUP
PANEL
UNIT
RCP-700
RCP-701
RCP-720
RCP-721
RCP-740
RCP-741

MSU-700

RETURN VIDEO
SELECTOR
CAC-6
REMOTE
CONTROL
UNIT
RM-P9
VIDEO CASSETTE
RECORDER
BVV-5/5PS
BETACAM
ADAPTOR
CA-553

CCZ CABLE

CAMERA ADAPTOR
CA-3A

CA-57A/57AP
CA-55A/55AP
CA-50A/50AP
CAMERA
ADAPTOR

1-10 (E)

VTR

CCU-370/370P
CCU-355/355P
CCU-350/350P
CAMERA
CONTROL
UNIT

BVP-550

1-5. Optional Accessories for Viewfinder

1-5. Optional Accessories for Viewfinder
The following accessories are available separately for the
supplied viewfinder. Please order as necessary.
• VF Rotation Bracket BKW-401
By fitting the BKW-401 to the camera, you can rotate
the viewfinder out of the way so that your right leg does
not hit the viewfinder while you are carrying the camera.
• Fog-proof Filter (Sony Part No. 1-547-341-11)
Use in place of the MC protector shown in the figure.
• Lens Assembly for Aged Eye
(Sony Part No. A-8262-537-A)
• Lens Assembly for Low Power
(Sony Part No. A-8262-538-A)
• Lens Assembly (Standard magnification with special
compensation for aberration)
(Sony Part No. A-8267-737-A)
• High Performance (3X) Lens Assembly
(Sony Part No. A-8314-798-A)
Use in place of the VF tube sub assembly shown in the
figure.

Hold ring
Align red lines

VF tube sub
assembly

MC protector
Filter holder
Eyecup

* To protect the viefinder lens from drops, put the MC protector
in the filter holder and attach the eyecup securely.

BVP-550

1-11 (E)

Section 2
Service Overview
2-1. Notes on Service

2-1-4. Notes on Repair Parts

2-1-1. Note on Replacement of Parts

1. w
Safety Related Components Warning
Components marked ! are critical to safe operation.
Therefore, specified parts should be used in the case of
replacement.

Every component electrical part mounted on the PR-211
and CN-1142 boards cannot be replaced. And also a 68-pin
connector on the CN-1120/1121 board cannot be. If there
is any defective part, replace the mounted circuit board
itself.
The PR-211 board is provided with a termination board
CN-1142 on it. The CN-1142 board is necessary when the
PR-212 board of OHB-550WS/550WSP is not installed.
Unless the PR-212 board is installed, be sure to connect the
CN-1142 board to the PR-211 board.

2-1-2. Description of EEPROM Data
The table below gives the holding data of EEPROM on
every printed circuit board.
Board

Ref. No.

Holding data

VA-163

IC26

VA-163 adjustment data

AT-95

IC46

Triming/Reference files

SG-234

IC21

SG-234 adjustment data

DA-88

IC10

DA-88 adjustment data

IF-510

IC155

IF-510 adjustment data

MB-602

IC5

Model name, Serial number of the unit

2. Standardization of Parts
Some repair parts supplied by Sony differ from those
used for the unit. These are because of parts commonality and improvement.
Parts list has the present standardized repair parts.
3. Stock of Parts
Parts marked with “o” at SP(Supply Code) column of
the spare parts list may be not stocked. Therefore, the
delivery date will be delayed.
4. Units Representation
The following represented units are changed or
omitted in writing.
Units

Representation

Capacitance

µF

uF

Inductance

µH

uH

Resistance

Ω

Abbreviation

n
The IC listed above cannot be replaced because it is the
EEPROM that is holding data inherent in the board. The
part number listed in Section 5 “Spare Parts” is for an
EEPROM which is not programmed. If replacement is
needed, consult your Sony representatives.

2-1-3. Extension Boards
The extension boards and harness are available separately
for check or adjustment of some printed circuit boards.
Extension Board/Harness

Sony P/N

EX-464

J-6395-040-A VA-163
AT-95
SG-234
DA-88
IF-510
Plug-in boards for CA

BVP-550

To be extended

2-1 (E)

2-2. Removal of Cabinet
2-3. Location of Printed Circuit Boards

2-2. Removal of Cabinet

To remove the both side panels
Loosen the four screws respectively.

2-3. Location of Printed Circuit Boards

SW-732

MB-602
CN-1120
PR-211
CN-1121
CN-1142

IF-510
DA-88
CN-1122

SG-234
AT-95
VA-163

SW-731

2-2 (E)

SW-733

SW-730
SW-742

BVP-550

2-4. Circuit Description

2-4. Circuit Description
Circuit description for the BVP-550 and CCD unit OHB450/451/550/550W series (available separately) is described here. The BVP-550 is called as BVP, and OHB450/451/550/550W series is called as OHB in this section.

DR-302 board (OHB-451/451P only)
The DR-302 is a driving board for one optical filter disk,
which motor-drives a filter selected by the RCP or MSU.
The DR-302 board consists of a motor-drive circuit, and a
servo circuit comprised of a selected filter detection and
filter position voltage generation circuits.

(1) CCD Drive System (OHB)

(2) Video Signal System

TG-159 board
The TG-159 outputs the pulses for driving the CCD to the
DR-271 board and outputs the pulses for sampling the
CCD output to the PA-181 board.
The driving pulses are synchronized with the HD and VD
pulses input from the BVP and are output.
Pulses are generated from the VCO clock (36 MHz) of the
board. The clocks for the digital processing circuit (36
MHz, 18 MHz)are also output to the BVP.
CCD V-sub voltage, white shading data and so on are also
stored in the EEPROM of the TG-159 board.

VA-163 board
The VA-163 board amplifies the video signals output from
the OHB and performs the following processings:
• Black shading correction
• Gain-up control
• Blanking cleaning
• White shading correction
• Feedback clamping
• White balancing
• Flare compensation, and
• Pre-knee
In addition, it also switches between the video signals,
TEST SAW(TEST1) signal and 3-STEP TEST(TEST2)
signal.

DR-271 board
The DR-271 board converts the pulses from the TG-159
board to directly drive the CCD. The converted pulses are
transmitted to the CCD via the BI-91(R)/91(G)/91(B)
board respectively. The board also has a circuit which
makes +29 V from +15 V for the V-sub voltage. Furthermore, the board also has an interface circuit for the optical
filter.
BI-91(R)/91(G)/91(B) boards
The CCDs are mounted on the BI-91(R)/91(G) /91(B)
boards. These boards supply the driving pulses and control
voltages to the CCD.
The signals output from the CCD are sent to the PA-181
board via the emitter follower.
PA-181 board
The PA-181 board extracts video signals from the CCD
signals output from the BI-91(R) /91(G)/91(B) boards by a
correlated double sampling circuit, and amplifies the R and
G signals by one time, and the B signal by three times. The
resultant signals are output to the VA-163 board of the
BVP.

BVP-550

PR-211 board
The PR-211 board converts the analog R, G, and B video
signals into digital signals with an A/D converter having
sampling/holding functions.
It generates clocks required for the A/D conversion and the
digital processings from the clocks generated by the OHB.
In addition, the PR-211 board adds a linear matrix and
detail signals to the analog-to-digital-converted R, G and B
signals.
It performs the processings such as pedestal control,
gamma correction, knee correction and white clipping for
the signals. It also performs the followings.
• Generates an internal color-bar signal and switches
between this signal and the main line signals.
• Creates detail and aperture signals from digital R and G
signals.
• Creates a skin tone singal.
• Detects signals for an auto iris, flare compensation,
DCC, and auto white/black balancings.
• Detects black/white shadings, generates a waveform to
compensate them and outputs the wavefoem to the VA163 board.
• Detects black levels and outputs the feedback clamp
voltage to the VA-163 board.
• Generates TEST SAW waveforms and output them to
the VA-163 board.
2-3 (E)

2-4. Circuit Description

• Generates a 27-MHz clock signal required for the VTR
control.
The video signals that has thus been digital-processed, are
then converted to Y, R-Y and B-Y signals. Some signals
are output to the DA-88 board and the others are output via
the MB board as a digital video signal output at the same
time. The Y/C signals are generated from the Y, R-Y and
B-Y signals with a color encoder IC on the PR-211 board.
These signals, that were sampled at 36-MHz rate and
quantized by 10 bits, are digital-to-analog converted. And
the resultants are then output to the DA-88 board as a
monochrome signal for VF, wide-band luminance signal,
or modulated chroma signal. The monochrome signal for
VF has a zebra signal for level indication, and character
signal and center marker signal on it.
DA-88 board
The monochrome signal for VF (VF Y) sent from the PR211 board goes through a lowpass filter and is output to the
MB-602 board. The wide-band luminance signal Hi-Ys is
output via a lowpass filter to the IF-510 board. The
modulated chroma signal C goes through a black clamp
circuit and lowpass filter and is added to the Hi-Ys. The
resultant is output to the IF-510 board as a VBS signal.
The Y, R-Y and B-Y signals, that are input from the PR211 board as the digital video signals, are aligned in phase
with video signals in another channels by a digital delay
line. The resultant is digital-to-analog converted and is
then output via a lowpass filter to the IF-510 board. On the
other hand, an analog component signal is generated in
combination with the above-mentioned Hi-Ys signal, R-Y
and B-Y signals. The analog component signal is controlled, on the level adjustment and reference signal
addition, by the AT-95 board according to equipment
connected to the camera (VTR or CCU). The analog
component signal is output to external equipment via the
68P interface connector .
IF-510 board
Input signals at the IF-510 board are as follows;
Signals from the DA-88 board: VF Y, VBS, Y, R-Y and B-Y
Signals from external equipment: Reference signal for
external synchronization, Return video signal
By combination with these signals, the IF-510 board
outputs the following signals.
• VBS OUT signal
Output via a buffer amplifier to external equipment.

2-4 (E)

• VBS OUT signal for RM
Output to an interface connector for a remote control unit
RM-P9. Using the setup menu, a character signal to
confirm the menu setting can be mixed to this signal.
• TEST OUT signal
With the signal select switch at the right top of the
camera, the above-mentioned VBS or the VF Y signal
can be selected as a TEST OUT signal output at the
TEST OUT connector.
• VF OUT/MONI OUT signal
The same signal is output as the VF OUT signal and the
MONI OUT signal. One of the VF Y, VBS, or return
video or reference signal selected by S1 on the IF-510
board, is selected. The selected signal is mixed with a
center marker and safety-zone pulse, and is then output.
The VF OUT signal is output at the VF connector and
the MONI OUT signal is output at the 68P interface
connector.
• R/G/B output signals
The Y, R-Y and B-Y signals are converted to the R, G
and B signals by a matrix circuit. The converted signals
are output at the 68P interface connector.
• Y/R-Y/B-Y output signals for VF
These signals are for a color viewfinder. A character
signal and SKIN GATE signal are mixed with the abovementioned Y, R-Y and B-Y signals. The resultants are
output to the VF.
In addition, the IF-510 board is equipped with the
following circuits.
• HD/VD external sync circuit
When displaying the return video or reference signal on
the viewfinder screen, it is necessary to synchronize the
cursor signal with those signals. And a sync signal is
separated from those signals to generate the external HD
and VD signals, and the resultant is sent to the cursor
signal generation circuit on the PR-211 board.
• Peak-detects the G signal and outputs to the AT-95
board.
• Transmits the SKIN GATE signal from DA-88 board to
the CCU via the 68P interface connector.

BVP-550

2-4. Circuit Description

(3) Auto system
AT-95 board
The AT-95 board consists of a microcomputer which
controls the camera according to the instructions stored in
a ROM. Operations of the board are listed below;
• Analyzes instructions of the function switches, video
system detection data and analog data.
• Outputs various control signals and compensation
signals to the boards.
• Outputs status information and self-diagnosis infomation
as character data from the character generator.
• Incorporates the interface function with the RM-P9 or
the CCU-700/700P.
(4) Pulse system
SG-234 board
The SG-234 board has a sync signal generator which
generates various sync signals for the camera. The sync
signals are generated from the clock pulse input from the
OHB via the PR-211 board. They are output to the board
of the camera, OHB and the camera adaptor (CA) respectively. This generator has two modes to synchronize with a
reference signal input for external synchronization. One is
a VBS input mode when the camera is used alone and the
other is V RESET/H CONT mode when the CCU is
connected to the camera. Input channels of the V RESET
and H CONT signals differ depending on the type of CA in
connection with the camera.

BVP-550

2-5 (E)

2-5. Periodic Replacement Part

2-5. Periodic Replacement Part
Parts listed below are periodic replacement parts. They are subject to cracks with the
lapse of time. Check sometimes by visual, and replace as necessary.
No.

Description

Sony P/N

Remarks

1

PAD ASSY (LARGE)

A-8278-237-A

2

PAD ASSY (SMALL)

A-8278-238-A

3

WIND SCREEN

3-708-875-0X

Supplied with VF

4

MIC CUSHION, RUBBER

3-692-138-0X

Supplied with VF

5

COVER, SW

3-676-244-1X

6

EYE CUP

3-723-079-0X

7

CAP, CONNECTOR

3-692-914-1X

Supplied with VF

6

3

4

7

5

2-6 (E)

2

1

BVP-550

2-6. Cleaning

2-6. Cleaning

2-6-2. Cares After Using at Special
Environment

2-6-1. Cleaning of Viewfinder (Option)
By extracting VF tube sub assy, lens and MC protector can
be easily cleaned. And also dust on the CRT surface or
mirror can be easily cleaned off.
1. Turn the hold ring to the left and extract the VF tube
sub assy.
2. Detach the eyecup.
3. Remove the MC protector with a commercially
available camera lens cleaner. Blow off dust with a
blower carefully so as not to flaw the mirror.
5. After the cleaning is completed, install by reversing
the preceding steps. Align red lines of the VF tube and
VF tube sub assy when inserting, and turn the hold
ring to the right until it locks.

It is recommended to check the following items after
gathering the news at seaside, dust area or spa.
1. Clean off sand and other dust in the unit carefully.
2. Do not allow salt in seawater or sulfur in spa to contact
a not-painted surface of the cabinet. They may cause to
corrode. Clean with alcohol immediately if contacted.
3. Clean the connection surface of connectors.
4. Carry out the common operation check and check that
the unit has not an abnormal sound or operation.

m
• Do not use any type of solvent, such as alcohol, benzine
or thinner to remove stains.
• Be sure to attach the eyecup to the VF, or the MC
protector may come off.
• To protect the viewfinder lens from drops, put the MC
protector in the filter holder and attach the eyecup
securely.

Hold ring
Align red lines

VF tube sub
assembly

MC protector
Filter holder
Eyecup

BVP-550

2-7 (E)

2-7. Replacement of External Connectors

2-7. Replacement of External
Connectors

3. Remove the two screws and remove the VF connector.
Then unsolder it.

2-7-1. VF Connector
1. Remove the four screws and remove the CCD unit.
2. Disconnect the three connectors CN3 on the DR-271
board, CN3 on the TG-159 board and CN2 on the PA181 board of the CCD unit.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

VF connector

Precision
P2.6 X 5

TG-159

4. Install a new connector in the reverse procedures of
removal.

CCD Unit
PA-181

2-7-2. MIC Connector
B4 X 8
B4 X 8
CN3

1. Remove the two screws and remove the MIC connector.
Then unsolder it.

B4 X 8
B4 X 8

DR-271

MIC connector

Precision
P2.6 X 5

2. Install a new connector in the reverse procedures of
removal.

2-8 (E)

BVP-550

2-7. Replacement of External Connectors

2-7-3. TEST OUT/REMOTE Connector
1. Remove the three screws and remove the Pad Assembly (Large).

3. Remove the screw and remove the connector
bracket.Unsolder the TEST OUT/REMOTE connector.
Remove the each nut and remove the TEST OUT/
REMOTE connector.

Connector
bracket

Pad assembly(small)

Pad assembly(large)
Precision
P2.6 X 5

2. Remove the seven screws and remove the V shoe
bracket.
4. Install a new connector in the reverse procedures of
removal.

B3 X 5

K3 X 8

V Shoe bracket
B3 X 5

BVP-550

2-9 (E)

2-8. Disconnecting/Connecting of Flexible Card Wires

2-8. Disconnecting/Connecting of
Flexible Card Wires

Type A

The flexible card wires are used between the MB-602
board and the CCD unit, the MB-602 board and the CN1120/1121/1122/PR-211 boards. Be careful not to bend
these wires. This shortens the wire life.

A

Disconnecting
Conductive surface

1. Turn off the power of the camera.

MB-602&OHB

Type A
(between the MB-602 board and CCD unit)
2. Lift up the portion A in the direction of the arrow and
disconnect the flexible card wire.
Type B
(between the MB-602 board and CN-1120/1121/1122/
PR-211 boards)
2. Slide portion B in the direction of the arrow and
disconnect the flexible card wire.

Type B

B

B
Conductive surface

Connecting
MB-602&CN-1120/1121/1122/PR-211

m
• Be careful not to insert the flexible card wires obliquely.
• Check that the conductive surface of the flexible card
wire is not soiled with dust.
Type A
(between the MB-602 board and CCD unit)
1. Lift up the portion A in the direction of the arrow.
Insert the flexible card wire as far as it will go into
connector with the conductive surface of the wire put
down.
2. Push down the portion A to secure the flexible card
wire.
Type B
(between the MB-602 board and CN-1120/1121/1122/
PR-211boards)
1. Slide portion B in the direction of the arrow and insert
the flexible card wire as far as it will go into connector
with the conductive surface of the wire put down.
2. Slide portion B in the opposite direction of the arrow
and lock each connector.

2-10 (E)

BVP-550

2-9. Board Replacement

2-9.

Board Replacement

2-9-1. MB-602 Board
1. Remove the right and left side panels of the camera.
(Refer to “2-2. Removal of Cabinet”.)
2. Pull out the five plug-in boards.
3. Remove the four screws and remove the PR-211
board.
4. Disconnect the four connectors.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.
5. Remove the four screws and remove the four supports.
Remove the MB-602 board.

6. Disconnect the connectors.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

CN11

CN7
CN12

MB-602
CN13

Support

CN14

CN32

7. Install a new board in the reverse procedures of
removal.

B3 X 5
B3 X 5

Support
CN-1142
PR-211
B3 X 5

BVP-550

2-11 (E)

2-9. Board Replacement

2-9-2. CN-1120/1121 Board
1. Remove the right side panel of the camera. (Refer to
“2-2. Removal of Cabinet”.)
2. Pull out the five plug-in boards and the four shielding
plates.
3. Remove the DC/DC convertor unit.
(Refer to “2-11. Replacement of DC/DC Convertor
Unit”.)
4. Remove the rail(upper).
5. Remove the four screws and remove the rail bracket.

6. Remove the two screws and remove the CN-1120/
1121 board.
7. Disconnect the connector.
n
When disconnecting the flexible card wires, refer to
“2-8. Disconnecting/Connecting of Flexible Card
Wires”.

CN-1120

Precision
P2 X 5

B2.6 X 5

B3 X 5

CN-1121
B2.6 X 5

Rail
bracket

Rail(upper)

2-12 (E)

8. Install a new board in the reverse procedures of
removal.

BVP-550

2-10. Replacement of Function Switches

2-10. Replacement of Function Switches

2-10-2. Front Switch Panel Block

2-10-1. Side Switch Panel Block

1. Remove the two screws and remove the front switch
panel.
2. Disconnect the connector CN501 on the SW-731
board.

1. Remove the two screws and remove the side switch
panel.
2. Disconnect the connector CN801 on the SW-730
board.

CN801
Precision
P2.6 X 5

SW-731
SW-730
Side switch panel

Precision
P2.6 X 5

3. Remove the two screws.Remove the SW-730 board,
shielding plate and drop protection cushion.
4. Unsolder the terminals and remove the switch to be
replaced.

CN501

Front switch panel

3. Remove the two screws.Remove the SW-731 board,
knob packing, VR knob and shielding plate.
4. Unsolder the terminals and remove the switch to be
replaced.

Switch garud
Shielding plate
Drop protection
cushion
SW-730

BTP2.6 X 6

Shielding plate

BTP2.6 X 6

SW-731

5. Install a new switch in the reverse procedures of
removal.

P2.6 X 5
P2.6 X 5

5. Install a new switch in the reverse procedures of
removal.

BVP-550

2-13 (E)

2-10. Replacement of Function Switches

5. Remove the two screws and remove the menu bracket.

2-10-3. VF DISP Switch
1. Remove the four screws and remove the CCD unit
referring to “2-7-1. VF Connector”.
2. Disconnect three connectors CN3 on the DR-271
board, CN3 on the TG-159 board and CN2 on the PA181 board.
n
When disconnecting the connectors, refer to “2-8.
Disconnecting/Connecting of Flexible Card Wires”
and “2-7-1. VF Connector”.
3. Remove the three screws and remove the handle.
4. Remove the three screws and remove the handle
holder.

SW-732

B2.6 X 5

Menu bracket

B4 X 8
B5 X 12

Handle
B4 X 8

B4 X 8
Handle holder

6. Remove the two screws and remove the SW-732 board
and the drop protection cushion.
7. Unsolder the terminals and remove the switch to be
replaced.

SW-732

Drop protection cushion
B3 X 5

B2.6 X 5

8. Install a new switch in the reverse procedures of
removal.

2-14 (E)

BVP-550

2-11. Replacement of DC/DC Convertor Unit

2-11. Replacement of DC/DC Convertor
Unit
1. Remove the right and left side panels of the camera.
(Refer to “2-2. Removal of Cabinet”.)
2. Remove the two screws on the left side of the camera
shown in the figure.

3. Thread the two screws that were removed in Step 2,
into the holes of the DC/DC convertor unit three turns.
n
Never turn the two screws more than three turns.
4. Hold the two screws with hands and remove the DC/
DC convertor unit.

DC/DC
Convertor Unit

B2.6 X 5

5. Install a new DC/DC convertor unit pushing with
hands.
Secure it to the MB-602 board with the two screws
that were removed in Step 2.

BVP-550

2-15 (E)

Section 3
Setup Menu
3-1. Setup Menu
The Setup menu is used to select settings of camera operation, select items to be displayed on the viewfinder screen, and select the way the items are displayed.
It is also used for adjustment. The menu appears on the viewfinder screen.
By changing a setting through this menu, the same signal as output to the viewfinder is enabled to be
output at the TEST OUT connector.

•

Configuration of the Setup Menu

The setup menu consists of the following menus
• Operation menu
• Paint menu
• Maintenance menu
• Reference menu
• Triming menu
• System config menu
Operation and Paint menus are normally accessible. To display the other menus, switch setting of the
AT-95 board is required. For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”
•

Equipment required

CCD Unit
OHB-450/550 series
Camera Adaptor CA-550/550P
Supply power from a camera control unit CCU-700/700P, AC adaptor AC-550/550CE or VTR.
•

Switches and Button

DISP switch
DISP
ON
OFF
MENU

MENU SEL switch
MIC
LEVEL

CANCEL button

CANCEL

BVP-550

3-1(E)

3-1. Setup Menu

DISP switch
ON
: Displays characters and messages indicating the video camera settings and operation status.
OFF
: No character or marker display appears on the viewfinder screen.
MENU : The setup menu appears on the viewfinder screen.
MENU SEL switch
Selects the menu item or setting value displayed on the viewfinder screen.
CANCEL button
Cancels the contents of a menu setting, or returns to the page select mode or TOP menu.
n
The TOP menu screen indicates the entire configuration of menu items.
To display the TOP menu, set the DISP switch to MENU (from OFF) while holding down the MENU
SEL switch.
•

Basic Operation

1. Displaying the menu
To display the Operation menu, set the DISP switch to MENU.
To display the other menus than the Operation menu, first of all, the TOP menu shall be displayed.
To display the TOP menu, set the DISP switch to MENU while holding down the MENU SEL
switch. Then turn the MENU SEL switch to move the cursor to a menu item which you want and
press the MENU SEL switch.
2. To shift the page, turn the MENU SEL switch with a page scroll bar displayed at the top-right of the
screen until the desired page is displayed and press the MENU SEL switch.
The menu enters the item select mode and the page scroll bar disappears.
3. To shift the item, turn the MENU SEL switch until the → cursor points the item to be set and press
the MENU SEL switch.
4. To change the value, turn the MENU SEL switch. You can change the values quickly by turning
the MENU SEL switch fast. You can make very fine adjustments by turning the switch slowly. By
pressing the MENU SEL switch, the setting is entered.
5 The menu page is returned to the item select mode or page select mode every time the CANCEL
button is pressed.
6. To exit from the setup menu, set the DISP switch to OFF.
•

ROM version
Contents in the menu and factory settings may differ from the descriptions in this manual depending
on the version of ROM on the AT-95 board.

3-2(E)

BVP-550

3-1. Setup Menu

3-1-1. Operation Menu
This menu contains items contained for changing camera settings to suit shooting conditions during
normal camera operations.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VF DISPLAY

ZOOM

[ON], OFF

Turns on and off the indications of zoom position and lens extender.

SHUTTER

[ON], OFF

Turns on and off the indications of shutter speed and mode.

IRIS

[ON], OFF

Turns the iris setting indication on and off.

AUDIO

[ON], OFF

Turns the audio level indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

TAPE

[ON], OFF

Turns the tape-remaining indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

ZEBRA

ON, OFF

Turns the zebra indication on and off. (Corresponds to the ZEBRA switch
of VF connected to the camera.)

MESSAGE

[ON], OFF

Turns on and off the indication of message in changing each setting of filter,
white balance memory, gain value, DCC(auto knee) and shutter speed.
The indication is displayed within three seconds in the center of the
viewfinder screen.

MODE

CHG, [USR]

CHG : The indications of the optical filter, white balance memory and gain
value are displayed only when they differ from the standard settings
(FILTER:1B, WHITE:A, GAIN:0dB)
USR : The indications are displayed corresponding to the settings on the
VF DISPLAY page.

FILTER

*, [ON], OFF

Turns the optical filter indication on and off.

WHITE

*, [ON], OFF

Turns the white balance memory indication on and off.

GAIN

*, [ON], OFF

Turns the gain value indication on and off.

CENTER

[ON], OFF

Turns the center marker indication on and off.

SAFETY ZONE

80%, 90% , OFF

Turns the safety zone marker indication on and off and selects the area
indicated by that marker. f)

BOX CURSOR

ON, [OFF]

Turns the box cursor indication on and off.

BOX H POS

-99 to 99 ([0])

Shifts horizontally the location of the box cursor on the screen.

BOX V POS

-99 to 99 ([0])

Shifts vertically the location of the box cursor on the screen.

BOX WIDTH

00 to 99 ([41])

Sets the width of the box cursor.

BOX HEIGHT

00 to 99 ([10])

Sets the height of the box cursor.

MARKER

f)

In the 16:9 mode, the following kinds of safety zone marker can be selected in combination of the settings of “SAFETY ZONE” and
“4:3 SAFETY”.

SAFETY ZONE
80%
4:3
SAFETY

90%

OFF

16:9

ON

4:3 area
Safety
zone

OFF

BVP-550

Not indicated

3-3(E)

3-1. Setup Menu

Page

Item

Settings

Contents

GAIN SW

LOW

-3,[0], 3, 6, 9, 12,
18, 24, 30 dB

Selects the gain value for each gain switch position.
(LOW, MIDDLE, HIGH)

MID

-3, 0, 3, 6, [9], 12,
18, 24, 30dB

HIGH

-3, 0, 3, 6, 9, 12,
[18], 24, 30dB
[16:9], 4:3

Selects the aspect ratio for the video signal output.
(This setting is valid only when the camera is used alone.)
* Corresponds the CCU‘s setting when the CCU is connected.

VF ASPECT

[AUTO], 4:3

Selects the aspect ratio for the viewfinder indication.
AUTO : Automatically selects according to the aspect ratio selected by
16:9/4:3 MODE on the WIDE SCREEN page.
4:3
: Selects 4:3 regardless of the 16:9/4:3 MODE setting.

4:3 SAFETY

ON, [OFF]

Selects whether the safety zone marker showing the 4:3 area is indicated
in the 16:9 mode, or not. f)

16:9 ID ON VF

ON, [OFF]

Turns on and off the 16:9 indication in the 16:9 mode on the viewfinder
screen.
(This setting is valid only when the DISP switch is set to on or off.)

16:9 ID
ON BARS

ON, [OFF]

Selects whether the 16:9 indication is displayed on the internal color-bar in
the16:9 mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

BNC TEST OUT

[VBS], RM, VF Y

Selects a video signal to be output at TEST OUT connector.
VBS : Color composite signal
RM : The same as a signal ouput to RM-P9
Y
: Y(monochrome) signal

RM/MON CHAR

[ON], OFF

Selects whether character signals displayed on the viewfinder screen are
mixed with the VBS signal to be output to RM-P9, or not. Turning on is
convenient to operate the setup menu by RM-P9.

VBS LOCK

ON, [OFF]

Used to prevent misoperation by ENC/RGB switch.
ON : ENC signal is output at TEST OUT connector regardless of ENC/
RGB switch setting.
OFF : A signal selected by ENC/RGB switch is output.

WIDE SCREEN 16:9/4:3 MODE
(For OHB-550WS
/550WSP)

MON OUT

VF VIDEO MODE [Y], MIX, NAM

AUTO IRIS
AUTO KNEE (DCC)

3-4(E)

Selects a video signal to be output to the viewfinder.
Y
: Y=0.3R+0.59G+0.11B; The same as a camera output signal
MIX : Y=0.33R+0.33G+0.33B
NAM : Selects one of the R, G, and B signal that is maximum in level.

[RGB]-G

ON, [OFF]

Sets signals selectable by RGB switch.
ON : R-G, B-G
OFF : R, G, B

IRIS OVERRIDE

-99 to 99 ([0])

Sets the reference value for automatic iris adjustment.
-99 (further closed) ↔ 99 (further opened)

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

APL RATIO

-99 to 99 ([0])

Sets the way the iris is automatically adjusted.
-99 (PEAK) ↔ 99 (AVERAGE)

AUTO KNEE
POINT

-99 to 99 ([XX])

Sets the point on which the knee function starts to have effect in the autoknee mode.

AUTO KNEE
SLOPE

-99 to 99 ([XX])

Sets the volume of the effect of the knee function in the auto-knee mode.

BVP-550

3-1. Setup Menu

Page

Item

Settings

Contents

STAND ALONE

H PHASE

-99 to 99 ([XX])

Sets the horizontal phase of the camera in the genlock mode.

SC PHASE

0 to 360([XX])

Sets the subcarrier phase of the camera in the genlock mode.

CABLE COMP

ON, [OFF]

Turns on and off the cable compensation circuit for the external sync
signal in the genlock mode.

SNG BARS

ON, [OFF]

Turns the color-bar signal for SNG on and off.

MASTER BLACK

-99 to 99 ([0])

Adjusts the MASTER BLACK level.

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

CF PULSE

[ON], OFF

Turns on and off the color framing pulse supplied to the VTR.

SKIN DETAIL

ON, [OFF]

Turns the skin tone detail function on and off.

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Starts to automatically adjust the volume of effect of the skin detail auto
hue function. (Does not function at present.)

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output.

OHB

[OK], NG

Displays a state of communication for control data between the OHB block
and CPU on AT board.

PR

[OK], NG

Displays a state of communication for control data between the PR board
and CPU on AT board.

VA

[OK], NG

Displays a state of communication for control data between the VA board
and CPU on AT board.

AT

[OK], NG

Displays a state of communication for control data between the CPU and
memory on AT board.

SG

[OK], NG

Displays a state of communication for control data between the SG board
and CPU on AT board.

DA

[OK], NG

Displays a state of communication for control data between DA board and
CPU on AT board.

IF

[OK], NG

Displays a state of communication for control data between IF board and
CPU on AT board.

MD

[OK], NG

Displays a self-diagnosis result of MD board (of camera adaptor).

AU

[OK], NG

Displays a self-diagnosis result of AU board (of camera adaptor).

TR

[OK], NG

Displays a self-diagnosis result of TR board (of camera adaptor).

AUTO SETUP

DIAGNOSIS

CAMERA ID

ID: [] [] [] [] [] [] []
ID ON BARS

c)

Sets a camera ID of up to ten alphanumerics, symbols, and spaces.
ON, [OFF]

Selects whether the camera ID is mixed with a camera output signal only
in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence. After the adjustment is complete, adjustment result is stored as a reference file.
1. Lens is automatically closed and the black balance is automatically adjusted.
2. The white balance is automatically adjusted using TEST 2 (3-step) signal.
n
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the LEVEL AUTO adjustment does not contain the gamma and knee adjustments unlike a conventional camera.

BVP-550

3-5(E)

3-1. Setup Menu

3-1-2. Paint Menu
The Paint menu is used for white and other paint adjustments items. To activate the Paint menu, first
display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VIDEO LEVEL

WHITE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B gain level.

BLACK R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master black level.

FLARE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B flare level.

GAMMA R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master gamma correction curve.

FLARE

[ON], OFF

Turns the flare correction circuit on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the VIDEO LEVEL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding the detail signal.

LEVEL

–99 to 99 ([0])

Adjusts the master level for the detail signal.

LIMITTER

–99 to 99 ([0])

Adjusts the clipping level against the maximum detail level.

CRISPENING

–99 to 99 ([0])

Adjusts the level at which the detail signal is crispened.

LEVEL DEP

–99 to 99 ([0])

Adjusts the level to control the detail signal used at lower signal level.

LEVEL DEP

[ON], OFF

Turns the level depend function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the DETAIL 1 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding detail signal.

H/V RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H and V detail signal.

DETAIL1

DETAIL2

3-6(E)

FREQUENCY

–99 to 99 ([0])

Adjusts the boost frequency for H detail signal.

MIX RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H detail signal used before and after the gamma
compensation circuit.

W.LIMITTER

–99 to 99 ([0])

Adjust the clipping level adainst the higher detail signal at the maximum level.

B.LIMITTER

–99 to 99 ([0])

Adjusts the clippping level against the lower detail signal at the minimum level.

COMB

–99 to 99 ([0])

Sets the effect volume of the comb filter
99 (Causes less cross colors.) ↔ –99 (Yields clear pictures, but causes more
cross colors.)
* For a PAL model, this function has the effect on not every object but a specified object.

KNEE APRT.

ON, [OFF]

Turns the knee aperture function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the DETAIL2 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)
BVP-550

3-1. Setup Menu

Page

Item

Settings

Contents

SKIN DETAIL

SKIN DETAIL

ON, [OFF]

Turns the skin detail function on and off.

LEVEL

–99 to 99 ([0])

Adjusts the level of the skin detail.

PHASE

100° to 170°([0])

Adjusts the hue for the skin detail function.

WIDTH

0° to 90° ([0])

Adjusts the color width for the skin detail function.

SATURATION

–99 to 99 ([0])

Adjusts the color saturation of the skin detail function.

GATE

ON, [OFF]

Turns the area display of the skin detail function in the viewfinder screen.

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Sets the range of skin detail hue function automatically.
(Does not function at preset.)

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the SKIN DETAIL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA, R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B and master gamma level.

COARSE

0.40, [0.45], 0.50

Selects the gamma value in steps.

GAMMA

[ON], OFF

Turns the gamma value on and off.

BLACK GAMMA

–99 to 99 ([0])

Adjusts the black gamma (master).
(Note: A noise appears on the screen during operation.)

BLACK GAMMA

ON, [OFF]

Turns the black gamma function on and off.
(Note: A noise appears on the screen during operation.)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Resets all settings on the GAMMA page to the factry settings.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

POINT

–99 to 99 ([0])

Adjusts the knee point level when the function is OFF.

SLOPE

–99 to 99 ([0])

Adjusts the knee slope level when the function is OFF.

KNEE

[ON], OFF

Turns the knee function on and off.

AUTO KNEE

ON, [OFF]

Turns the auto knee function on and off.

KNEE MAX

ON, [OFF]

Turns on and off the knee max function which changes the slope to
completely collapsed form.

WHITE CLIP

–99 to 99 ([0])

Adjusts the white clip level.

WHITE CLIP

[ON],OFF

Turn the white clip function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the KNEE/W.CLIP page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA

KNEE/W.CLIP

BVP-550

3-7(E)

3-1. Setup Menu

Page

Item

Settings

Contents

MATRIX

R-G, R-B

–99 to 99 ([0])

Compensates the user’s matrix (sets an optional value as the constant for

G-R, G-B

–99 to 99 ([0])

R-G, R-B, G-R, G-B, B-R, and B-G).

B-R, B-G

–99 to 99 ([0])

MATRIX

[ON], OFF

Turns the matrix compensation on and off.

[ON], OFF

Turns the user’s matrix compensation on and off.

PRESETa)

[ON], OFF

Turns on and off only the preset matrix compensation (fixed constant
compensation).

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step form test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute

Sets all settings on the MATRIX page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

1

Storing and recalling a scene file (painting data corresponding to a shot scene)

2

Storing a scene file

3

1 Turn MENU SEL switch to move the → cursor to “FILE STORE,” then press MENU SEL

USER

SCENE FILE

a)

4

a)

switch. “FILE STORE” flashes on the viewfinder screen.

5

2 Select the file number (1 to 5) to be stored to.

FILE STORE

(If data is already stored at the selected location, the new data replaces the current data.)
Recalling a scene file
Turn MENU SEL switch to move the → cursor to the file number whose data is to be recalled,
then press MENU SEL switch.
• When MENU SEL switch is pressed, the scene file data replaces the current settings.
• When the scene file is recalled, an asterisk appears next to the number.

STANDARD

Returns the current amount of paint adjustments and switch setting to their reference value
stored as a reference file.

When both USER and PRESET are set to ON, the matrix constant compensation is total value of the USER and PRESET matrix.

3-8(E)

BVP-550

3-1. Setup Menu

3-1-3. Maintenance Menu
The Maintenance menu is used for encoder output level and other adjustments items necessary for
camera’s maintenance. The Maintenance menu is not normally accessible. To display this menu, switch
setting of the AT-95 board is required.
For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”.
To activate the Maintenance menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page

Item

Settings

Contents

VBS

SYNC LEVEL

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.

Y LEVEL

-99 to 99 ([XX])

Adjusts the Y level of camera’s encoder output signal.

BURST LEVEL

-99 to 99 ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LEVEL

-99 to 99 ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

-99 to 99 ([XX])

Adjusts the Q (or V) level of camera’s encoder output signal.

SET UP

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.
(This setting is valid only for NTSC.)

BF PHASE

-99 to 99 ([XX])

Adjusts the burst phase of camera’s encoder output signal.

SC-H PHASE

-99 to 99 ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

V BLANKING

19,[20],21H

Adjusts the V blanking width of camera’s encoder output signal.
(This setting is valid only for NTSC.)
In connection with CCU, the width is fixed to 19H.
* For a PAL model, the width is fixed to 25H at all times.

V SAW R/G/B/M

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, B or master
white shading.

V PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.PARA compensation for the R, G, or B white shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B white shading.

H PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.PARA compensation for the R, G, or B white shading.

WHITE R/G/B

-99 to 99 ([XX])

Adjusts the R, G, or B white level.

V MOD R/G/B/M

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, B or master
modulation shading of the lens and prism.b)

V MOD

ON, [OFF]

Turns the V modulation shading on and off.

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the WHITE SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

BLACK SHADING V SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, or B black shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B black shading.

BLK SET R/G/B

-99 to 99 ([XX])

Adjusts the volume of BLACK SET compensation for the R, G, or B.

BLACK R/G/B/M

-99 to 99 ([XX])

Adjusts the R, G, B or master black level.

MASTER GAIN

-3,0,3,6,9,12,18,
24,30 dB ([X])

Selects the master gain value.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the BLACK SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

WHITE SHADING

b)

When the master modulation shading is adjusted, the V. SAW component for the R and B V-modulation shadings of the prism is
simultaneously compensated.

BVP-550

3-9(E)

3-1. Setup Menu

Page

Item

Settings

Contents

AUTO SET UP

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)

AUTO HUE
DETECT

Press MENU SEL
switch to execute.

Starts to automatically adjust the volume of effect of the
hue function. (Does not function at present.)

COLOR MATCH

Press MENU SEL
switch to execute.

Starts to automatically perform the COLOR MATCH adjustment to match
in color between two or more cameras. (Does not function at present.)

WHITE SHADING Press MENU SEL
switch to execute.

Starts to automatically adjust the white shading. (Does not function at present.)

BLACK SHADING Press MENU SEL
switch to execute.

Starts to automatically adjust the black shading. d)

DD/MM/YY
HH:MM:SS

Adjusts a built-in timer. (HH;hour/MM;minute only)

DATE/TIME

OTHERS

c)

d)

skin detail auto

DATE ON BARS

ON, [OFF]

Selects whether the date characters are mixed with a camera output
signal in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

TIME ON BARS

ON, [OFF]

Selects whether the time characters are mixed with a camera output
signal in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

S/N MEASURE

ON, [OFF]

ON : Set to ON in mesuring the S/N ratio. And settings of the DETAIL,
CHROMA, GAMMA, MATRIX, and FLARE will be temporarily turned OFF.
OFF: Settings of DETAIL and so on are returned as they were.

MOD MEASURE

ON, [OFF]

ON : Set to ON in mesuring the modulation depth. And settings of the
DETAIL, GAMMA, MATRIX, and FLARE will be temporarily turned OFF.
OFF: Settings of DETAIL and so on are returned as they were.

MASTER BLACK

-99 to 99 ([0])

Adjusts the master black in measuring the S/N ratio and modulation depth.

DETAIL

[ON], OFF

CHROMA

[ON], OFF

GAMMA

[ON], OFF

MATRIX

[ON], OFF

FLARE

[ON], OFF

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence. After the adjustment is complete, adjustment result is stored as a reference file.
1. Lens is automatically closed and the black balance is automatically adjusted.
2. The white balance is automatically adjusted using TEST 2 (3-step) signal.
n
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the LEVEL AUTO adjustment does not contain the gamma and knee adjustments unlike a conventional camera.
Before first using the camera with the OHB-450/451/550/550WS (or their PAL version) installed, or After replacing the CCD unit, be
sure to execute the automatic black shading adjustment.

3-10(E)

BVP-550

3-1. Setup Menu

3-1-4. Reference Menu
The Reference menu stores the reference values used for automatic setup adjustment and the standard
settings of the switches as the reference files. And the menu can clear the current reference files. The
Reference menu is not normally accessible. To display this menu, switch setting of the AT-95 board is
required. For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”. To activate
the Reference menu, first display the TOP menu.
m
1. Executing the FILE STORE on the REFERENCE FILE page registers settings of items, which have
been set through the Paint, Maintenance and System config menus just before the file store, as the
reference values.
2. When changed numbers of items are returned to the reference values stored as the reference files,
recall the standard file using an MSU/RCP or the setup menu.
Page

Item

Settings

Contents

REFERENCE
FILE

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the reference files.
(Temporarily clears the current reference filese) .)

FILE STORE

Press MENU SEL
switch to execute.

Stores specific data for a lens to be used as the lens files. The standard
values are stored at the factory. (Does not function at present.)

LENS FILE
e)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

3-1-5. Triming Menu
The Triming menu stores the adjustment data in replacing parts as the triming files. And the menu can
clear the current adjustment values. The Triming menu is not normally accessible. To display this
menu, switch setting of the AT-95 board is required. For details, refer to Section 1-3. “Function of
Internal Switches—AT-95 board”. To activate the Triming menu, first display the TOP menu.
n
Executing the FILE STORE on the TRIMING FILE page registers settings of items, which have been
set through the Maintenance and System config menus just before the file store, as the reference values.
Page

Item

Settings

Contents

TRIMING FILE

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the triming files.
(Temporarily clears the current triming filese).)

FILE STORE

Press MENU SEL
switch to execute.

Stores specific data for a CCD unit to be used as the OHB files.
The standard values are stored at the factory.

OHB FILE
e)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

BVP-550

3-11(E)

3-1. Setup Menu

3-1-6. System Config Menu
The System config menu is used for adjustments items necessary to replace a printed circuit board or
some parts of the camera. The System config menu is not normally accessible. To display this menu,
switch setting of the AT-95 board is required. For details, refer to Section 1-3. “Function of Internal
Switches—AT-95 board”. To activate the System config menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting. XX or XXX represents two or three digits in hexadecimal.)
Page

Item

DATE/TIME

YY/MM/DD
HH:MM:SS

Y/CHROMA

PR/VA/TEST

Settings

Contents
Adjusts the built-in calender and timer.

RESET

Turn MENU SEL
switch to execute.

Resets hour (HH), minute (MM) and second (SS) of the timer.

SC FREQ

XXX ([XX])

Adjusts the camera’s subcarrier frequency.

Y SYNC

XXX ([XX])

Adjusts the sync level of camera’s Y output signal.

Y SETUP

XXX ([XX])

Adjusts the setup level of camera’s Y output signal.

Y VIDEO

XXX ([XX])

Adjusts the Y level of camera’s Y output signal.

TEST SETUP

XXX ([XX])

Adjusts the setup level of camera’s encoder output signal.

BURST LVL

XXX ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LVL

XXX ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

XXX ([XX])

Adjusts the Q(V) level of camera’s encoder output signal.

SC-H PHASE

XXX ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

REG LVL

XXX ([XX])

Adjusts the level of the R, G and B output signals.

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting each
item on the Y/CHROMA page.

PR ADG R/G/B

XXX ([XX])

Adjusts the reference level of the AD converter for R/G/B signals on the
PR board.

VA MOD R/G/B

XXX ([XX])

Adjusts the R, G or B modulation balance for the VA board.

G CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for G
signal on the PR board.
(Note: In replacing OHB, readjustment is required to set the maximum
value of the modulation depth.)

R/B CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for R/B
signals on the PR board.
(Note: In replacing OHB, readjustment is required to set the minimum
level of a pseudo signal.)

M.BLACK

XXX ([XX])

Adjusts the master black signal.

TEST2 HI

XXX ([XX])

Adjusts the high level of the TEST2 (3-STEP) signal on the VA board.

TEST2 MID

XXX ([XX])

Adjusts the middle level of the TEST2 (3-STEP) signal on the VA board.

TEST CLIP

XXX ([XX])

Adjusts the clip level of the TEST1 (sawtooth) signal on the VA board.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the PR/VR/
TEST page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

PRE KNEE/ZEBRA

PREKNEE1 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 1 level on the VA board.

(Continued)

PREKNEE2 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 2 level on the VA board.

APERTURE

Adjusts the aperture compensation signal level.

3-12(E)

XXX ([XX])

BVP-550

3-1. Setup Menu

Page

Item

Settings

Contents

PRE KNEE/ZEBRA

WHITE CLIP

XXX ([XX])

Adjusts the white clip level.

WHITE CLIP

[ON], OFF

Turns the white clip function on and off.

VTR/CCU

IRIS

OTHERS 1

(Continued)
BVP-550

ZEBRA1 LEVEL,WIDE XXX ([XX])

Sets the center value and range for the zebra 1 signal detection.

ZEBRA2 LEVEL

XXX ([XX])

Sets the detection value for the zebra 2 signal.

Z.DISP

1,2, 1&2

Selects a zebra signal to be displayed on the viewfinder.
1: Zebra 1 signal
2: Zebra 2 signal
1&2: Both zebra 1 and 2 signals are displayed at the same time.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the PREKNEE/
ZEBRA page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

VTR R-Y

XXX ([XX])

Adjusts the R-Y color-difference signal level.

VTR B-Y

XXX ([XX])

Adjusts the B-Y color-difference signal level.

CCU Y SAMP

XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the Y signal.

CCU R-Y SYNC

XXX ([XX])

Adjusts the level of the sync pulse to be mixed with the R-Y signal.

CCU B-Y SAMP

XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the B-Y signal.

RGB OFFSET

XXX ([XX])

Adjusts the G signal level.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the VTR/CCU page.
1: Outputs the sawtooth test signal
2: Outputs the 3-step waveform test signal
OFF: No test signal is output

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting each
item on the VTR/CCU page.

LEVEL

XXX ([XX])

Adjusts the auto-iris level.

APL RATIO

XXX ([0])

Sets the way the iris is automatically adjusted. -99 (PEAK) ↔ 99 (AVERAGE)

FILTER,WHT MEM [ON], OFF

ON: A total of 8 settings of the white balance value can be saved in
conbination with the CC filter and WHITE BAL switch settings.
OFF: One white balance value can be saved for the WHITE BAL switch
setting A or B, for a total of 2 settings.

NTSC ENC

[WIDE], NRW

Sets the band width of the Q signal for the NTSC color encoder.

ROTARY

[STD], RVS

Selects the mode of MENU SEL switch (as turned counterclockwise when
viewed from the front.)
STD: Cursor moves downwards and a numeric value increases.
RVS: Cursor moves upwards and a numeric value decreases.

OWN CALL

R, F&R , OFF

Selects whether one or two TALLY lamps are lit corresponding to the
CALL button of camera adaptor pressed, or not. Or selects which TALLY
lamp is lit when the CALL button is pressed.
(This setting is valid in connection with CCU. When the camera is used
alone, it is always set to OFF.)
R: Rear TALLY lamp is lit.
F&R: Rear and front TALLY lamps are lit.
OFF: No TALLY lamp is lit corresponding to the CALL button.

CENTER H POS

XXX ([XX])

Shifts horizontally the location of the center marker on the screen.

CENTER V POS

XXX ([XX])

Shifts vertically the location of the center marker on the screen.

LENS VTR S/S

TALK, [RET2]

Selects the mode of VTR S/S SW of the lens and camera.
TALK: VTR S/S SW of lens functions as INCOM TALK SW (momentary)
and that of the camra as RET2 SW.
RET2: VTR S/S SW of lens functions as RET2 SW and that of the camera
as INCOM TALK SW.

VF ? DISPLAY

[ON], OFF

Turns on and off the indication of ? mark at the top-right of the VF screen with
the DISP switch set to ON when the self-diagnosis result is NG (no good)and
so on.

3-13(E)

3-1. Setup Menu

Page

Item

Settings

OTHERS 1

PinP RET RVS

[RVS1], RVS 2, OFF Selects the indication mode of VF display in PinP mode. (Does not function in
the unit.)

OTHERS 2

F TALLY RVS

[ON], OFF

3-14(E)

Contents

Selects the operation mode of TALLY lamps corresponding to a CALL button
of MSU or RCP pressed when a TALLY signal is input to the camera from
CCU or VTR.
ON: Rear and front TALLY lamps go out.
OFF: Rear TALLY lamp alone goes out.

BVP-550

3-2. Self-Diagnosis

3-2. Self-Diagnosis
The BVP-550 has a diagnosis mode used for self-diagnosis of every plug-in board and the OHB.
The diagnosis page is displayed on the viewfinder screen.
• Operation
Select “Diagnosis” page of the Operation menu referring to Section 3-1.
• Viewfinder Screen

• Display Descriptions
Marks

Board/Block

Judging Point for NG

1

OHB(CCD UNIT) Error in communication with IC18, IC19/TG-159

2

PR-211

Error in communication with IC49

3

VA-163

Error in communication with IC26

4

AT-95

Error in communication with IC46

5

SG-234

Error in communication with IC21

6

DA-88

Error in communication with IC10

7

IF-510

Error in communication with IC155

Refer to CA-550/550P maintenance manual for descriptions on columns of CA.
n
When other equipment than the CA-550/550P is connected to the camera, or when the CA-550/550P is
connected to the camera but is not connected to the CCU, the columns 8 will display “– –”.

BVP-550

3-15(E)

Section 4
Electrical Alignment
4-1. Preparation
4-1-1. Equipment Required
Multiburst Chart

Pattern box PTB-500

Sony P/N: J-6026-110-A

0.5

1

2

3

4

5

6

7

8

9

10

Sony P/N: J-6029-140-B
• Light source for test chart
Power supply AC90 to 240V

0.5

Grayscale Chart
Sony P/N: J-6026-130-B

Grayscale Chart (16:9)
Sony P/N: J-6394-080-A

Measuring Equipment
• Frequency counter
Advantest TR5821AK or equivalent
• Oscilloscope
Tektronix 2465 or equivalent
• Waveform monitor/Vectorscope
Tektronix 1750 or equivalent (for NTSC)
Tektronix 1751 or equivalent (for PAL)
• Digital voltmeter
Advantest TR6845 or equivalent
• Video signal generator
Tektronix 1410 or equivalent (for NTSC)
Tektronix 1411 or equivalent (for PAL)
• Color monitor
Sony BVM-1911/2811 or equivalent (for NTSC)
Sony BVM-2011P/3011P or equivalent (for PAL)
Peripheral Equipment
• CCD unit OHB-450/550 series
• Camera adaptor CA-550/550P
• AC adaptor AC-550/550CE
• Master setup unit MSU-700

4-1-2. Notes on Adjustment
White Window Chart
Make a square hole at the center
of a black sheet of paper.

Extension board BKP-7900 (option)
For CCU-700/700P plug-in boards

BVP-550

Extension board EX-464 (option)
Sony P/N: J-6395-040-A
For BVP-550 plug-in boards

When performing the adjustment, read throughly the
following comments.
1. The calibration of all measuring equipment should be
completed.
2. The alignment of OHB-450/550 series, CA-550/550P
and MSU-700 should be also completed.
3. “4-1-5. Initial Setting” should be completed.
4. Turn off the power before extending the plug-in board
using the extension board.
5. When using the camera as 16:9 mode together with the
OHB-550WS/550WSP, use the specified grayscale
chart (J-6394-080-A).
6. Paste a black colored velvets (around 3 × 3 cm) to both
sides of the full white portion in the center of the
grayscale chart.
(For more details, consult your Sony service represen
tative.)
7. When connecting MSU-700 to BVP-550, use MSU700 for various settings, because the switches on the
side panel of the camera become invalid.

4-1 (E)

4-1. Preparation

4-1-3. Connections
1.5" VF
BVF-10/10CE
CCD UNIT
OHB

CAMERA
ADAPTOR
CA-550/550/P
TEST OUT

ENG/EFP LENS
PATTERN
BOX

Waveform monitor
A-ch
PIX
75Ω

COLOR VIDEO
DC IN
CAMERA
AC
ADAPTOR
BVP-550
AC-550/550CE

Vector scope
CCA-5 CABLE
(max. 200m)

Color monitor

MASTER SETUP UNIT
MSU-700
Oscilloscope

4-1-4. Description of Setup Menu
A part of adjustments given in this section uses the setup
menu. The setup menu consists of the following menus.
Besides there is a TOP menu indicating the entire configuration of menu items.
Operation
Paint
Maintenance
Reference File
Triming File
System config
To display all of the menus, switch setting of the AT-95 board is
required. And for details on the setup menu, refer to Section 3.
In this manual, describes the setup menu operation as follows.
Title of the selected page (top right corner display)
For reference:
When Paint → Skin Detail is selected:
MENU : Paint
PAGE : Skin Detail (P4)
Displaying Setup Menu
1. Set the internal switches of the AT-95 board as
follows.
S1-1 → ON
S1-2 → OFF
S1-3 → ON
S1-4 → OFF
4-2 (E)

75Ω

2. DISP switch (on the side panel) → OFF
3. POWER switch (on the camera adaptor) → ON
4. Set the DISP switch to MENU (from OFF) while
holding down the MENU SEL switch (on the front
panel). (TOP menu will be displayed.)
n
If the power switch is turned off once, perform the above
operations again to display the setup menu (steps 2 to 4).
How to change the setting values
To enter or cancel the setting value of items, which can be
changed by turning the MENU SEL switch, proceed as
follows.
To enter the setting value;
Press the MENU SEL switch to ENTER.
To cancel the setting value;
Before pressing the MENU SEL switch, press the CANCEL button. The original setting is restored.
After pressing the MENU SEL switch, the setting can not
be canceled.
File Store
If the adjustments in this section are suspended or the
power is turned off to extend a printed circuit board and so
on, be sure to execute the FILE STORE before being
powered off.

BVP-550

4-1. Preparation

4-1-5. Initial Setting
Internal Switches:
n
When switching the following switches from a customerset position, it is recommended to record the setting state
of the customer in the table below.
After adjustment is complete, be sure to return the switches
to their customer-set position.
Board

Switch

Initial setting Customer-set position

AT-95

S1-1

ON

S1-2

OFF

S1-3

ON

S1-4

OFF

Setup Menu:
MENU : Operation
PAGE : Gain Sw (?3)
ITEM : Low → 0 dB
ITEM : Middle → 9 dB
ITEM : High → 18 dB
PAGE : Wide Screen (?4)
ITEM : 16:9/4:3 MODE → 16:9
(For OHB-550WS/550WSP)
MENU : Paint
PAGE : Video Level (P1)
ITEM : Test → Off
PAGE : Detail 1 (P2)
ITEM : Detail → On
PAGE : Skin Detail (P4)
ITEM : Skin Detail → Off
PAGE : Gamma (P5)
ITEM : Gamma → On
PAGE : Knee/W.Clip (P6)
ITEM : Knee → Off
ITEM : White Clip → Off
PAGE : Matrix (P7)
ITEM : Matrix → Off

BVP-550

Side Panel:
VTR SAVE/STBY switch → STBY
GAIN switch → L (0 dB)
OUTPUT/DCC switch → CAM/OFF
WHITE BAL switch → PRST
Front Panel:
SHUTTER switch → OFF
Filter Setting:3200 K
OHB-550/550WS series → 1B (FILTER selector)
OHB-450/451 series → 1 (FILTER selector)
Execution of Scene File Standard:
MENU
: Paint
PAGE
: Scene File (P8)
ITEM
: Standard
(Press the MENU SEL switch to execute.)

4-3 (E)

4-2. Adjustment for Installation of OHB
4-2-1. VCO CONT Frequency Confirmation
4-2-2. VA Gain Adjustment

4-2. Adjustment for Installation of OHB
When the auto black adjustment is executed with the
AUTO W/B BAL switch on the front panel for the first
time after the OHB is replaced or a new OHB is installed,
the black shading is automatically adjusted in succession to
the auto black adjustment.
If the shading adjustment is correctly completed at that
time, “4-2-3. Black Shading Adjustment” can be skipped.

4-2-1. VCO CONT Frequency Confirmation
Notes:
• Perform this confirmation only when the CCD unit is
installed.
• Warm up the camera for about 10 minutes before
performing this confirmation.
Preparation:
• RGB/ENC switch (on the side panel) → ENC

File Store:
Execute the OHB file store. Press the MENU SEL switch
to execute.
MENU
: Triming File
PAGE
: OHB File (T2)
ITEM
: File Store

4-2-2. VA Gain Adjustment
Setting of Sensitivity and Standard Color Temperature:
• Use the reflective chart (reflection ratio:89.9%)in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminous intensity of the chart to 2000 lx and the
color temperature to 3200 K.
• This adjustment shall be performed at F7.0 or more.
Note:
• Never change the setting of the following trimmer
capacitors. These capacitors are extremely difficult to
adjust in the field.
VA-163 board :1CT200, 1CT300, 1CT400

Equipment

: Frequency counter, Video signal
generator
Test Point
: TEST OUT connector
Specifications: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)
AC ADAPTOR
AC-550/550CE
DC IN

TEST
OUT

GENLOCK
IN

Video signal SC
OUT
generator

Frequency
counter

If the specification is not satisfied, perform the following
adjustment.
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and adjust the frequency by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC FREQ
Specifications: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

4-4 (E)

Equipment : Oscilloscope, Waveform monitor
Object
: Grayscale chart
Preparations:
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → L (0 dB)
• Extend VA-163 board with EX-464 board.
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee → Off
3. Close the lens iris.
4. Execute the level auto setup.
Press the MENU SEL switch to execute.
MENU
: Operation
PAGE
: Auto Setup
ITEM
: Level Auto
5. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL at the TEST OUT connector.
If the black level is out of specs, carry out “4-2-5.
Master Black Adjustment”.

BVP-550

4-2. Adjustment for Installation of OHB
4-2-2. VA Gain Adjustment

6. Test Point

: TP72 (GND:TP71)/extension board
(extending VA-163)
Iris of the lens: A = 125 mV (at F7.0 or more)

12. Set the RGB/ENC switch (on the side panel) to ENC.
13. Test Point
: TEST OUT connector
Adjustment Point : 1RV200 (R GAIN)/VA-163
panel
1RV400 (B GAIN)/VA-163
panel
Specifications
: Carrier leakage D = Minimum

C

(Oscilloscope)

7. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
8. Adjust the VA gain for G.
Test Point
: TEST OUT connector
Adjustment Point : 1RV300 (G GAIN)/VA-163
panel
Specifications
: The levels A and B are shall be
equal when the test waveform is
switched between 2 and off.
Menu Setting:
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test

(Waveform Monitor)

4

3

2

1

VA

A

TEST

B

CT200
R GAIN

RV200
C

R

(Waveform Monitor)

G GAIN

CT300

D

RV300

9. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test → Off
10. Select the 15 lines in the center of monitor screen C by
using the 15 LINE SELECT on the waveform monitor.
11. Put the waveform monitor into the CHROMA mode.

R

E
B GAIN

CT400
RV400
F

B

G

VA-163 BOARD (A SIDE)
BVP-550

4-5 (E)

4-2. Adjustment for Installation of OHB
4-2-3. Black Shading Adjustment

4-2-3. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again referring to the message displayed on
the viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → ENC
Test Point
: TEST OUT connector
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and execute the auto black
shading. Press the MENU SEL switch to execute.
MENU : Maintenance
PAGE : Auto Setup(M4)
ITEM
: Black Shading
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again referring to this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.
4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)
4-6 (E)

• Manual Black Shading Adjustment
(For reference)
Note:
• Perform this adjustment only when “4-2-3. Black
Shading Adjustment” is not completed.
Equipment

: Waveform monitor

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
4. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 21 mV for PAL by using
the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
5. If the shading is monitored, make the waveform flat
referring to the following table.
6. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

BVP-550

4-2. Adjustment for Installation of OHB
4-2-3. Black Shading Adjustment

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

TEST OUT connector

Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC
• GAIN switch (on the side panel) → L (0 dB)

BVP-550

4-7 (E)

4-2. Adjustment for Installation of OHB
4-2-4. White Shading Adjustment

4-2-4. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Full white pattern
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• ENC/RGB switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
• Shoot the fully occupied white area of the pattern box in
the full underscanned monitor frame adjusting the zoom
control.
Iris of the lens : A = 80 ±5 IRE (for NTSC)
A = 560 ±35 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

R

B

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

G ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

R

B

TEST OUT connector

Adjustment Procedures:
1. Set the WHITE BAL switch (on the side panel) to
PRST.
2. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
3. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
4. If the white shading is monitored, make the waveform
flat referring to the following tables.
5. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

4-8 (E)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC

BVP-550

4-2. Adjustment for Installation of OHB
4-2-5. Master Black Adjustment
4-2-6. Gamma Correction Adjustment

4-2-5. Master Black Adjustment

4-2-6. Gamma Correction Adjustment

Equipment
Test Point

Equipment
Test Point
Object

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(Waveform Monitor)

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

Adjustment Procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the gamma
correction for (M) by using the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma [M]
Specifications: B = 55.5 ±2.0 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

BVP-550

(Waveform Monitor)

4-9 (E)

4-2. Adjustment for Installation of OHB
4-2-6. Gamma Correction Adjustment

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test → 1
4. Set the RGB/ENC switch (on the side panel) to ENC.
5. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
6. Set the menu as follows, and adjust the gamma
correction for (R) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [R]
Specifications: Center the beam spot on the
vectorscope.
7. Set the menu as follows, and adjust the gamma
correction for (B) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [B]
Specifications: Center the beam spot on the
vectorscope.

9. Confirm that the carrier leakage does not observed at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Test → Off
• WHITE BAL switch (on the side panel) → PRST

8. Repeat the steps 6 and 7 alternately, until the beam
spot is minimized on the vectorscope.

MG
R
YL

B

G

CY

(For NTSC)

R

MG

YL

B

G

CY

(For PAL)

(Vectorscope)

4-10 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-7. Flare Adjustment

4-2-7. Flare Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

5. Confirm that the level at portion B does not fluctuate
even if the flare turns On/Off. If fluctuates, turn Flare
ON and adjust by Flare (G).
Menu Setting:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare → On/Off
Adjustment Point:
ITEM
: Flare [G]
6. Set the ENC/RGB switch (on the side panel) to ENC.
7. Set the menu as follows, and adjust the flare for R by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [R]
Specifications: Minimize the carrier leakage.
8. Set the menu as follows, and adjust the flare for B by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [B]
Specifications: Minimize the carrier leakage.

(Waveform Monitor)

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Set the RGB/ENC switch (on the side panel) to ENC.
Set the R/G/B switch (on the side panel) to G.
4. Select the 15 lines in the center of the monitor screen
by using the 15 LINESELECT on the waveform
monitor.

Line Select

BVP-550

(Waveform Monitor)

9. Repeat the steps 7 and 8 alternately, until the carrier
leakage is minimized.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

4-11 (E)

4-2. Adjustment for Installation of OHB
4-2-8. Knee and White Clip Adjustment

4-2-8. Knee and White Clip Adjustment
Note:
Perform this adjustment on the customer's preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → M(9 dB)
Adjustment Procedures:
1. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL.
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the knee point
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → 1
ITEM
: White Clip → Off
ITEM
: Knee → On
ITEM
: Knee Max → On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

(Waveform Monitor)

4. Set the menu as follows, and adjust the knee slope
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max → Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)
4-12 (E)

(Waveform Monitor)

5. Set the GAIN switch (on the side panel) to H (18 dB).
6. Set the menu as follows, and adjust the white clip level
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip → On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB).
Note:
The values used in the above adjustments are under the
conditions that the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763

107/749

105/735

103/721

Knee point

98/686

98/686

96/672

96/672

Knee slope

109/763

109/763

107/750

107/750

White clip

109/763

107/749

105/735

103/721

BVP-550

4-2. Adjustment for Installation of OHB
4-2-9. Crispening Adjustment

4-2-9. Crispening Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On
Iris of the lens

: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

Adjustment Procedure:
Set the menu as follows, and adjust the crispening by using
the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1(P2)
ITEM
: Crispening
Specifications : Turn the MENU SEL switch (on the
front panel) once to –99, and turn
slowly for increment until the noise at
the black level of the waveform is just
decreased, or turn the MENU SEL
switch so that the crispening level is an
appropriate value.

BVP-550

4-13 (E)

4-2. Adjustment for Installation of OHB
4-2-10. Level Dependent Adjustment

4-2-10. Level Dependent Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On
ITEM
: Level Dep. → On

2. Set the menu as follows, and adjust the level dependent by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Level Dep.
Specifications: Turn the MENU SEL switch (on the
front panel) once to –99, and slowly
turn it for increment until spikes at
portions B are just decreased.

(Waveform Monitor)

Note:
After this adjustment is completed, be sure to perform “42-12. H/V Ratio Adjustment” and “4-2-13. Detail Level
Adjustment”.

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

4-14 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-11. Detail Frequency Adjustment

4-2-11. Detail Frequency Adjustment

2. Make a selection of line at the center white portion of
the grayscale chart.

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Line Select

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

3. Set the menu as follows, and adjust the detail frequency by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Frequency
Specifications: Adjust the edge width at each end of
the center white portion to the
desired width.

(Waveform Monitor)

Note:
After this adjustment is completed, be sure to perform “42-12. H/V Ratio Adjustment” and “4-2-13. Detail Level
Adjustment”.

(Waveform Monitor)

BVP-550

4-15 (E)

4-2. Adjustment for Installation of OHB
4-2-12. H/V Ratio Adjustment

4-2-12. H/V Ratio Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

2. Set the menu as follows, and adjust the H/V ratio by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: H/V Ratio
Specifications: The ratio between the H and V
detail amounts (white) to be added
shall be 1 : 1.
H

V

(Monitor Screen)

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

4-16 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-13. Detail Level Adjustment
4-2-14. Detail Clip Adjustment

4-2-13. Detail Level Adjustment

4-2-14. Detail Clip Adjustment

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart

Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Detail → On

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: Detail → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

Adjustment Procedures:
1. Iris of the lens: A = 90 ±2 IRE (for NTSC)
A = 630 ±14 mV (for PAL)

(Waveform Monitor)

2. Set the menu as follows, and adjust the signal level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 1 (P2)
ITEM
: Level
Specifications: Adjust the detail signal level to be
added to each step in the grayscale
chart for the desired level.

BVP-550

(Waveform Monitor)

4-17 (E)

4-2. Adjustment for Installation of OHB
4-2-14. Detail Clip Adjustment
4-2-15. Skin Tone Adjustment

2. Make a selection of line at the center white portion of
the grayscale chart.

4-2-15. Skin Tone Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.

Line Select

Equipment : Color monitor, Viewfinder or Vectorscope

3. Set the menu as follows, and adjust the white limiter
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: W.Limitter
Specifications: Adjust the edges of portions B to the
desired clip level.

(Waveform Monitor)

4. Set the menu as follows, and adjust the black limiter
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Detail 2 (P3)
ITEM
: B.Limitter
Specifications: Adjust the edges of portions C to the
desired clip level.

Preparations:
• Connect the vectorscope to the TEST OUT connector.
• Shoot a person’s face.
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Skin Detail (P4)
ITEM
: Skin Detail → On
Adjustment Procedures:
1. Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Gate → On
2. Set the menu as follows, and adjust the amount of the
skin detail signal to the desired level according to the
following items by using the MENU SEL switch.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Level (Detail level within the skin gate)
ITEM
: Phase (Hue)
ITEM
: Saturation
(Component in the saturation direction)
ITEM
: Width (Component in the hue direction)
(The effective area of the skin detail signal appears in
a zebra pattern on the viewfinder screen. Set the
desired level.)
R-Y
Phase
Width

(Waveform Monitor)
Saturation

B-Y

(Vectorscope)

4-18 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-15. Skin Tone Adjustment

Resetting after Adjustment:
• Set the menu as follows.
MENU : Paint
PAGE : Skin Detail (P4)
ITEM
: Gate → Off

BVP-550

4-19 (E)

4-2. Adjustment for Installation of OHB
4-2-16. Zebra Adjustment

4-2-16. Zebra Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• ZEBRA switch (on the viewfinder) → ON
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Iris of the lens: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

3. Set the menu as follows, and adjust the zebra 1 level
by using the MENU SEL switch.
MENU
: System config
PAGE
: Pre knee/Zebra (S4)
ITEM
: Z.Disp → 1
Adjustment Point:
ITEM
: Zebra1 [LEVEL]
Specifications: Adjust that the stripes appear at the
center of the portions A on the
viewfinder screen.
The area of the stripes can be
changed by ITEM: Zebla 1
[RANGE].

A

A

(Monitor Screen)

4. Set the menu as follows, and adjust the zebra 2 level
by using the MENU SEL switch.
MENU
: System config
PAGE
: Pre knee/Zebra (S4)
ITEM
: Z.Disp → 2
Adjustment Point:
ITEM
: Zebra2 [LEVEL]
Specifications: Adjust that the stripes appear at the
center of the portions B on the
viewfinder screen.

B

(Waveform Monitor)

(Monitor Screen)

Resetting after Adjustment:
• ZEBRA switch (on the viewfinder) → OFF
• WHITE BAL switch (on the side panel) → PRST

4-20 (E)

BVP-550

4-2. Adjustment for Installation of OHB
4-2-17. Auto Iris Adjustment

4-2-17. Auto Iris Adjustment
Note:
• Perform this adjustment on the customer’s preferences, if
necessary.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• AUTO/MANU switch (on the lens) → AUTO
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off

3. Set the menu as follows, and adjust the auto-iris level
by using the MENU SEL switch.
MENU
: Operation
PAGE
: Auto Iris/Auto Knee (?6)
ITEM
: Iris Override → Off
Adjustment Point:
MENU
: System config
PAGE
: Iris (S6)
ITEM
: Level
Specifications: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Set the menu as follows, and adjust the APL ratio by
using the MENU SEL switch.
MENU
: Operation
PAGE
: Auto Iris/Auto Knee (?6)
ITEM
: APL Ratio
Specifications: Adjust the auto-iris operation mode
depending on the application.
Note
: Automatic iris operation mode
setting can be done from the average
level to peak-to-peak level of the
video signal.
99 → average level
–99 → peak-to-peak level

BVP-550

4-21 (E)

4-2. Adjustment for Installation of OHB
4-2-18. Menu Settings After Finishing Adjustment
4-2-19. File Store
4-3. Overall Electrical Alignment

4-2-18. Menu Settings After Finishing
Adjustment
MENU
PAGE
ITEM
PAGE
ITEM
PAGE
ITEM

: Paint
: Detail 1 (P2)
: Detail → On
: Gamma (P5)
: Gamma → On
: Knee/W.Clip (P6)
: Knee → On

4-2-19. File Store
Be sure to execute the file store after any one of the
adjustments of Sections 4-2-1 through 4-2-17 is performed.
Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Execute the reference file store. Press the MENU SEL
switch to execute.
Menu Setting:
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
3. Execute the triming file store. Press the MENU SEL
switch to execute.
Menu Setting:
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

4-22 (E)

4-3. Overall Electrical Alignment
Before beginning this adjustment, check the initial settings
referring to Section 4-1-5. When a board was replaced or
repaired, preset the compensation data, proceeding as
follows. If the data is preset once, be sure to carry out all
steps of 4-3-1 through 4-3-23. Because presetting clears all
adjustment data of video and detail system.
(1) Execute the reference file clear.
Press the MENU SEL switch to execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: Clear File
(2) Execute the scene file standard.
Press the MENU SEL switch to execute.
MENU
: Paint
PAGE
: Scene File (P8)
ITEM
: Standard
This section provides intructions to store the setting data
on the reference or triming file in every adjustment item.
This intends to prevent the data from being cleared when
the unit is powered off to extend a board, and so on.
As the data is kept held unless powered off, however, more
than one data can be stored at a time.
The file store may not necessarily be executed for every
adjustment item.

BVP-550

4-3. Overall Electrical Alignment
4-3-1. VCO CONT Frequency Adjustment

4-3-1. VCO CONT Frequency Adjustment
Note:
• Warm up the camera for about 10 minutes before this
confirmation.
Equipment
Test Point

: Frequency counter,
Video signal generator
: TEST OUT connector

Preparation:
• RGB/ENC switch (on the side panel) → ENC
AC ADAPTOR
AC-550/550CE
DC IN

TEST
OUT

GENLOCK
IN

Video signal SC
OUT
generator

Frequency
counter

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and adjust the frequency by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC FREQ
Specifications : 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)
File Store:
Execute the OHB file store. Press the MENU SEL switch
to execute.
MENU
: Triming File
PAGE
: OHB File (T2)
ITEM
: File Store

BVP-550

4-23 (E)

4-3. Overall Electrical Alignment
4-3-2. VTR Y Adjustment

4-3-2. VTR Y Adjustment
Equipment
Test Point

: Oscilloscope
: TP3 (Y)/DA-88 panel

Preparations:
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the Y sync by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SYNC
Specifications: A = 286 ±2 mV (for NTSC)
A = 300 ±2 mV (for PAL)
3. (NTSC only)
Set the menu as follows, and adjust the Y setup by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SETUP
Specifications: C = 53.5 ±2 mV

4. Set the menu as follows, and adjust the Y video by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y Video
Specifications: B = 714 ±7 mV (for NTSC)
B = 700 ±7 mV (for PAL)

(For NTSC)

(For PAL)

(20 MHz B/W LIMIT → ON)
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

4-24 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-3. Test out Adjustment

4-3-3. Test out Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
(For NTSC)

Adjustment Procedures:
1. Adjustment Point : 1RV101 (VIDEO LEVEL)/
IF-510 panel
Specifications
: A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)
2. (NTSC only)
Set the menu as follows, and adjust the test setup by
using the MENU SEL.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: TEST SETUP
Specifications
: B = 7.5 ±1 IRE
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU : Triming File
PAGE : Triming File (T1)
ITEM : File Store

(For PAL)

4

3

2

1

IF

A

B

C

VIDEO
LEVEL

D

RV101

E

F

G

IF-510 BOARD (A SIDE)
BVP-550

4-25 (E)

4-3. Overall Electrical Alignment
4-3-4. Chroma Adjustment

4-3-4. Chroma Adjustment
Equipment : Waveform monitor, Vectorscope
Test Point : TEST OUT connector
Preparations:
• Connect the vectorscope to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the chroma level
and Q/V level alternately by using the MENU SEL
switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Chroma LVL
ITEM
: Q/V LVL
Specifications: Place the beam spots inside the
corresponding frames on the
vectorscope.

3. Connect the waveform monitor to the TEST OUT
connector.
4. Set the menu as follows, and adjust the burst level by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Burst LVL
Specifications: A = 40 ±1 IRE (for NTSC)
A = 300 ±5 mV (for PAL)

(For NTSC)

(For PAL)

(For NTSC)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

(For PAL)

4-26 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-5. INT SC Phase Adjustment

4-3-5. INT SC Phase Adjustment
Notes:
This adjustment precedures are stated below assuming that
where the Tektronix 1750 (for NTSC) or1751 (for PAL) is
used.
If any other measuring instrument is used, follow the
instructions given in the operation manual attached to it.

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Equipment : Vectorscope (SC-H Phase measuring mode)
Test Point : TEST OUT connector
Preparations:
• Connect the vectorscope to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → ENC
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the SC-H phase by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC-H Phase
Specifications: Position the luminous line of the
burst (SC) and the beam spot of H
as shown in the figure.

MG
R
YL

B

G

CY

For NTSC)

R

MG

YL

B

G

CY

(For PAL)
BVP-550

4-27 (E)

4-3. Overall Electrical Alignment
4-3-6. REG Level Adjustment

4-3-6. REG Level Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• OUTPUT/DCC switch (on the side panel) → BARS
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the REG level by
using the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: REG LVL
Specifications:
SYNC LEVEL : A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)

(For NTSC)

(For PAL)

4-28 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-7. TEST1 Adjustment

4-3-7. TEST1 Adjustment
Equipment : Oscilloscope
Preparation:
• Extend VA-163 board with EX-464 board.
Adjustment Procedures:
1. WHITE BAL switch (on the side panel) → PRST
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → 1
4. Test Point
: TP52 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point : 1RV50 (TEST)/VA-163 panel
Specifications
: A = 880 ±2 mV

6. Set the menu as follows, and adjust the white level for
B by turning the MENU SEL switch.
Test Point
: TP50 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: White [B]
Specifications
: A = 880 ±40 mV
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

5. Set the menu as follows, and adjust the white level for
R by using the MENU SEL switch.
Test Point
: TP54 (GND:GND (A))/
Extension board
(extending VA-163)
Adjustment Point:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: White [R]
Specifications
: A = 880 ±40 mV

BVP-550

4-29 (E)

4-3. Overall Electrical Alignment
4-3-8. TEST2 Adjustment

4-3-8. TEST2 Adjustment
Equipment : Oscilloscope
Test Point : TP52 (GND:GND (A))/
Extension board (extending VA-163)
Preparation:
• Extend VA-163 board with EX-464 board.
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → 2

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

3. Set the menu as follows, and adjust the TEST2 high
level by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 HI
Specifications: A = 880 ±5 mV
4. Set the menu as follows, and adjust the TEST 2 middle
level by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 MID
Specifications: B = 290 ±5 mV

4-30 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-9. A/D Gain Adjustment

4-3-9. A/D Gain Adjustment
Equipment
Test Point

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → L (0 dB)
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU :
Paint
PAGE :
Detail1 (P2)
ITEM :
Detail → Off
PAGE :
Gamma (P5)
ITEM :
Gamma → On
PAGE :
Knee/W.Clip (P6)
ITEM :
Knee → Off
ITEM :
White Clip → Off

5. Set the menu as follows, and adjust the A/D gain for G
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [G]
Specifications: The white level shall not be changed
even if the OUTPUT/DCC switch
(on the side panel) is changed over
between CAM and BARS.
A=B

Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(For NTSC)

(Waveform Monitor)

3. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
4. Set the menu as follows.
MENU :
System config
PAGE :
PR/VA/TEST (S3)
ITEM :
TEST → 2
(For PAL)
BVP-550

4-31 (E)

4-3. Overall Electrical Alignment
4-3-9. A/D Gain Adjustment
4-3-10. VA Gain Adjustment

6. Set the R/G/B switch (on the side panelüj to ENC.
7. Set the OUTPUT/DCC switch (on the side panel) to
CAM/OFF.
8. Set the menu as follows, and adjust the A/D gain for R
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [R]
Specifications: Minimize the carrier leakage.
C = Minimum
9. Set the menu as follows, and adjust the A/D gain for B
by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [B]
Specifications: Minimize the carrier leakage.
C = Minimum

4-3-10. VA Gain Adjustment
Setting of Sensitivity and Standard Color Temperature:
• Use the reflective chart (reflection ratio:89.9%)in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminous intensity of the chart to 2000 lx and the
color temperature to 3200 K.
• This adjustment shall be performed at F7.0 or more.
Note:
• Never change the setting of the following trimmer
capacitors. These capacitors are extremely difficult to
adjust in the field.
VA-163 board :1CT200, 1CT300, 1CT400
Equipment : Oscilloscope, Waveform monitor
Object
: Grayscale chart
Preparations:
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → L (0 dB)
• Extend VA-163 board with EX-464 board.
• RGB/ENC switch (on the side panel) → ENC

10. Repeat the steps 8 and 9 alternately until the specifications are satisfied.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST → Off

4-32 (E)

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee → Off
3. Close the lens iris.
4. Execute the level auto setup.
Press the MENU SEL switch to execute.
MENU
: Operation
PAGE
: Auto Setup
ITEM
: Level Auto
5. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL at the TEST OUT connector.
If the black level is out of specs, carry out “4-3-14.
Master Black Adjustment”.

BVP-550

4-3. Overall Electrical Alignment
4-3-10. VA Gain Adjustment

6. Test Point

: TP72 (GND:TP71)/extension board
(extending VA-163)
Iris of the lens: A = 125 mV (at F7.0 or more)

12. Set the RGB/ENC switch (on the side panel) to ENC.
13. Test Point
: TEST OUT connector
Adjustment Point : 1RV200 (R GAIN)/VA-163
panel
1RV400 (B GAIN)/VA-163
panel
Specifications
: Carrier leakage D = Minimum

C

(Oscilloscope)

7. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
8. Adjust the VA gain for G.
Test Point
: TEST OUT connector
Adjustment Point : 1RV300 (G GAIN)/VA-163
panel
Specifications
: The levels A and B are shall be
equal when the test waveform is
switched between 2 and off.
Menu Setting:
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test

(Waveform Monitor)

4

3

2

1

VA

A

TEST

B

CT200
R GAIN

RV200
C

R

(Waveform Monitor)

G GAIN

CT300

D

RV300

9. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test → Off
10. Select the 15 lines in the center of monitor screen C by
using the 15 LINE SELECT on the waveform monitor.
11. Put the waveform monitor into the CHROMA mode.

R

E
B GAIN

CT400
RV400
F

B

G

VA-163 BOARD (A SIDE)
BVP-550

4-33 (E)

4-3. Overall Electrical Alignment
4-3-11. VA MOD Adjustment

4-3-11. VA MOD Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → L (0 dB)
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → R
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the menu as follows, and adjust the V MOD for R
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [R] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [R]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [R] varies from 99
to –99.

3. Set the R/G/B switch (on the side panel) to G.
4. Set the menu as follows, and adjust the V MOD for G
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [G] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [G]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [G] varies from 99
to –99.
5. Set the R/G/B switch (on the side panel) to B.
6. Set the menu as follows, and adjust the V MOD for R
by using the MENU SEL switch.
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [B] → 99
Adjustment Point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [B]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [B] varies from 99
to –99.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

(×5)

4-34 (E)

Resetting after Adjustment:
• Set the menu as follows. Press the MENU SEL switch to
execute.
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: Clear

BVP-550

4-3. Overall Electrical Alignment
4-3-12. Black Shading Adjustment

4-3-12. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again referring to the message displayed on
the viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → ENC
Test Point
: TEST OUT connector
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows and execute the auto black
shading. Press the MENU SEL switch to execute.
MENU : Maintenance
PAGE : Auto Setup(M4)
ITEM
: Black Shading
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again referring to this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.
4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)
BVP-550

• Manual Black Shading Adjustment
(For reference)
Note:
• Perform this adjustment only when “4-4-12. Black
Shading Adjustment” is not completed.
Equipment

: Waveform monitor

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
4. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 21 mV for PAL by using
the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
5. If the shading is monitored, make the waveform flat
referring to the following table.
6. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

4-35 (E)

4-3. Overall Electrical Alignment
4-3-12. Black Shading Adjustment

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

R

B

TEST OUT connector

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC
• GAIN switch (on the side panel) → L (0 dB)

4-36 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-13. White Shading Adjustment

4-3-13. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Full white pattern
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• ENC/RGB switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
• Shoot the fully occupied white area of the pattern box in
the full underscanned monitor frame adjusting the zoom
control.
Iris of the lens : A = 80 ±5 IRE (for NTSC)
A = 560 ±35 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

R

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

G

ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

B

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

TEST OUT connector

Adjustment Procedures:
1. Set the WHITE BAL switch (on the side panel) to
PRST.
2. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
3. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
4. If the white shading is monitored, make the waveform
flat referring to the following tables.
5. Perform the adjustments for R-ch and B-ch with the
same procedures as for G-ch.

BVP-550

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store
Resetting after Adjustment:
• ENC/RGB switch (on the side panel) → ENC

4-37 (E)

4-3. Overall Electrical Alignment
4-3-14. Master Black Adjustment

4-3-14. Master Black Adjustment
Equipment
Test Point

: Waveform monitor
: TEST OUT connector

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• RGB/ENC switch (on the side panel) → RGB
• R/G/B switch (on the side panel) → G
Iris of the lens: CLOSE
Adjustment Procedures:
1. Set the waveform monitor as follows.
• LUM mode
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the black level by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black [M]
Specifications: A = 3 ±1 IRE (for NTSC)
A = 21 ±7 mV (for PAL)

(Waveform Monitor)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Adjust the auto black balance.
AUTO W/B BAL switch (on the front panel) → BLK
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-38 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-15. Gamma Correction Adjustment

4-3-15. Gamma Correction Adjustment
Equipment
Test Point
Object

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Gamma (P5)
ITEM
: Gamma → On
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

Adjustment Procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the gamma
correction for (M) by using the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma [M]
Specifications: B = 55.5 ±2.0 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test → 1
4. Set the RGB/ENC switch (on the side panel) to ENC.
5. Adjust the auto white balance.
WHT BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panl) → WHT
6. Set the menu as follows, and adjust the gamma
correction for (R) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [R]
Specifications: Center the beam spot on the
vectorscope.
7. Set the menu as follows, and adjust the gamma
correction for (B) by using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma [B]
Specifications: Center the beam spot on the
vectorscope.
8. Repeat the steps 6 and 7 alternately, until the beam
spot is minimized on the vectorscope.
MG
R
YL

B

G

CY

(For NTSC)

R

MG

YL

B

(Waveform Monitor)
G

CY

(For PAL)

(Vectorscope)

BVP-550

4-39 (E)

4-3. Overall Electrical Alignment
4-3-15. Gamma Correction Adjustment
4-3-16. Flare Adjustment

9. Confirm that the carrier leakage does not monitored at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-3-16. Flare Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Grayscale chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the grayscale chart so that the chart frame is
aligned with the underscanned monitor frame.
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Iris of the lens

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Test → Off
• WHITE BAL switch (on the side panel) → PRST

: A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

(Waveform Monitor)

Adjustment Procedures:
1. Adjust the auto white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Set the RGB/ENC switch (on the side panel) to ENC.
Set the R/G/B switch (on the side panel) to G.
4. Select the 15 lines in the center of the monitor screen
by using the 15 LINESELECT on the waveform
monitor.

Line Select

4-40 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-16. Flare Adjustment
4-3-17. Pre Knee Adjustment

5. Confirm that the level at portion B does not fluctuate
even if the flare turns On/Off. If fluctuates, turn Flare
ON and adjust by Flare (G).
Menu Setting:
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare → On/Off
Adjustment Point:
ITEM
: Flare [G]
6. Set the ENC/RGB switch (on the side panel) to ENC.
7. Set the menu as follows, and adjust the flare for R by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [R]
Specifications: Minimize the carrier leakage.
8. Set the menu as follows, and adjust the flare for B by
using the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare [B]
Specifications: Minimize the carrier leakage.

(Waveform Monitor)

9. Repeat the steps 7 and 8 alternately, until the carrier
leakage is minimized.
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-3-17. Pre Knee Adjustment
Equipment

: Oscilloscope, Waveform monitor

Preparation:
• Extend VA-163 board with EX-464 board.
Iris of the lens : CLOSE
Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → On
3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Set the GAIN switch (on the side panel) to M (9 dB).
5. Set the WHITE BAL switch (on the side panel) to
PRST.
6. Set the menu as follows.
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: Test → 2
7. Set the menu as follows, and adjust the pre knee 1 for
G by using the MENU SEL switch.
Test Point
: TP52 (GND:GND (A))/
Extension board (extending VA-163)
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[G]
Specifications: A = 1.68 ±0.02 V p-p

(Oscilloscope)

Resetting after Adjustment:
• WHITE BAL switch (on the side panel) → PRST

BVP-550

4-41 (E)

4-3. Overall Electrical Alignment
4-3-17. Pre Knee Adjustment

8. Set the menu as follows.
MENU
: Operation
PAGE
: Gain SW (?3)
ITEM
: Middle → 12 dB
9. Set the menu as follows, and adjust the pre knee 2 for
G by using the MENU SEL switch.
Test Point
: TP52 (GND:GND (A))/
Extension board (extending VA-163)
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[G]
Specifications: B = 1.80 ±0.02 V p-p

14. Set the menu as follows, and adjust the pre knee 2 for
R by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[R]
Specifications: Minimize the carrier leakage D.
15. Set the menu as follows, and adjust the pre knee 2 for
B by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[B]
Specifications: Minimize the carrier leakage D.

(Oscilloscope)

10. Set the menu as follows.
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: Test → 1
11. Set the GAIN switch (on the side panel) to H (18dB).
Set the OUTPUT/DCC switch (on the side panel) to
CAM/ON.
12. Set the menu as follows, and adjust the pre knee 1 for
R by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[R]
Specifications: Minimize the carrier leakage C.
13. Set the menu as follows, and adjust the pre knee 1 for
B by using the MENU SEL switch.
Test Point
: TEST OUT connector
Adjustment Point:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[B]
Specifications: Minimize the carrier leakage C.

4-42 (E)

(Waveform Monitor)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
Resetting after Adjustment:
• Set the menu as follows.
MENU : Operation
PAGE : Gain SW (?3)
ITEM
: Middle → 9 dB
MENU : System config
PAGE : Pre Knee/Zebra (S4)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB)

BVP-550

4-3. Overall Electrical Alignment
4-3-18. Knee and White Clip Adjustment

4-3-18. Knee and White Clip Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Preparations:
• Connect the waveform monitor to the TEST OUT connector.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• WHITE BAL switch (on the side panel) → PRST
• GAIN switch (on the side panel) → M(9 dB)
Adjustment Procedures:
1. Confirm the black level is 3 IRE for NTSC and 21 mV
for PAL.
2. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
3. Set the menu as follows, and adjust the knee point
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → 1
ITEM
: White Clip → Off
ITEM
: Knee → On
ITEM
: Knee Max → On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

(Waveform Monitor)

4. Set the menu as follows, and adjust the knee slope
level by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max → Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)

BVP-550

(Waveform Monitor)

5. Set the GAIN switch (on the side panel) to H (18 dB).
6. Set the menu as follows, and adjust the white clip level
by using the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip → On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

(Waveform Monitor)

Resetting after Adjustment:
• Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test → Off
• GAIN switch (on the side panel) → L (0 dB).
File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Reference File
PAGE
: Reference File (R1)
ITEM
: File Store

4-43 (E)

4-3. Overall Electrical Alignment
4-3-18. Knee and White Clip Adjustment

Note:
The values used in the above adjustments are under the
conditions that the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763

107/749

105/735

103/721

Knee point

98/686

98/686

96/672

96/672

Knee slope

109/763

109/763

107/750

107/750

White clip

109/763

107/749

105/735

103/721

4-44 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-19. A/D Clock Phase Adjustment

4-3-19. A/D Clock Phase Adjustment
Equipment : Waveform monitor
Test Point : TEST OUT connector
Object
: Multiburst chart
Preparations:
• Connect the waveform monitor to the TEST OUT
connector.
• Shoot the multiburst chart so that the chart frame is
aligned with the underscanned monitor frame with the
zoom control.
• Pan so that the 9 MHz portion of the multiburst chart is
positioned at the center of the monitor screen.
• OUTPUT/DCC switch (on the side panel) → CAM/OFF
• RGB/ENC switch (on the side panel) → ENC
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Auto Knee → On

3. Set the menu as follows, and adjust the clock phase for
R/B by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: R/B Clock
Specifications: Minimize the aliasing around the 9
MHz signal portion.

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

Adjustment Procedures:
1. Iris of the lens: A = 90 ± 2 IRE (for NTSC)
A = 630 ± 10 mV (for PAL)

2. Set the menu as follows, and adjust the clock phase for
G by using the MENU SEL switch.
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: G Clock
Specifications: Maximize the 9 MHz signal portion.

BVP-550

4-45 (E)

4-3. Overall Electrical Alignment
4-3-20. VTR R-Y/B-Y Adjustment
4-3-21. CCU Y/R-Y/B-Y Adjustment

4-3-20. VTR R-Y/B-Y Adjustment

4-3-21. CCU Y/R-Y/B-Y Adjustment

Equipment

Equipment : Oscilloscope

: Oscilloscope

Preparation:
• OUTPUT/DCC switch (on the side panel) → BARS

Preparation:
• Connect the CCU to the camera.

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the VTR R-Y by
using the MENU SEL switch.
Test Point
: TP4 (R-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR R-Y
Specifications: A = 700 ±5 mV (for NTSC)
: A = 525 ±5 mV (for PAL)

Adjustment Procedures:
1. Set the DISP switch (on the side panel) to MENU
while holding down the MENU SEL switch (on the
front panel).
2. Set the menu as follows, and adjust the CCU Y sample
by using the MENU SEL switch.
Test Point
: TP3 (Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU Y SAMP
Specifications: A = 700 ±2 mV

3. Set the menu as follows, and adjust the VTR B-Y by
using the MENU SEL switch.
Test Point
: TP5 (B-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR B-Y
Specifications: B = 700 ±5 mV (for NTSC)
: B = 525 ±5 mV (for PAL)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store
4-46 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-21. CCU Y/R-Y/B-Y Adjustment

3. Set the menu as follows, and adjust the CCU R-Y sync
by using the MENU SEL switch.
Test Point
: TP4 (R-Y) (GND:E1)/DA-88 panel
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU R-Y SYNC
Specifications: B = 350 ±2 mV

4. Set the menu as follows, and adjust the CCU B-Y by
using the MENU SEL switch.
Test Point
: TP5 (B-Y) (GND:E1)/DA-88 panel
6. Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU B-Y SAMP
Specifications: C = 350 ±2 mV

4

3

2

1

DA

A

TP1
B

TP2

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

C

D
Y

R-Y

B-Y

TP3
TP4

E

TP5
GND

E1

F

G

DA-88 BOARD (A SIDE)
BVP-550

4-47 (E)

4-3. Overall Electrical Alignment
4-3-22. RGB Adjustment

4-3-22. RGB Adjustment
Equipment

: Oscilloscope

2. Confirm the R video level.
Test Point
: TP63 (GND:GND (A))/
Extension board (extending IF-510)
Specifications:B = 700 ±7 mV

Preparations:
• Extend IF-510 board with EX-464 board.
• Set the DISP switch (on the side panel) to MENU while
holding down the MENU SEL switch (on the front
panel). Set the menu as follows.
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CB → On
Adjustment Procedures:
1. Set the menu as follows, and adjust the G video level
by using the MENU SEL switch.
Test Point
: TP61 (GND:GND (A))/
Extension board (extending IF-510)
Adjustment Point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: RGB OFFSET
Specifications: A = 700 ±5 mV

(For NTSC)

(For PAL)

(For NTSC)

(For PAL)

4-48 (E)

BVP-550

4-3. Overall Electrical Alignment
4-3-22. RGB Adjustment
4-3-23. Menu Setting After Finishing Adjustment

3. Confirm the B video level.
Test Point
: TP59 (GND:GND (A))/
Extension board (extending IF-510)
Specifications: C = 700 ±7 mV

(For NTSC)

4-3-23. Menu Setting After Finishing
Adjustment
MENU : Paint
PAGE : Detail1 (P2)
ITEM : Detail → On
PAGE : Gamma (P5)
ITEM : Gamma → On
PAGE : Knee/W.Clip (P6)
ITEM : Knee → On
MENU : System config
PAGE : VTR/CCU (S5)
ITEM : CB→Off
MENU : Reference File
PAGE : Reference File (R1)
ITEM : File Store
(Press the MENU SEL switch to execute.)

(For PAL)

File Store:
Execute the file store. Press the MENU SEL switch to
execute.
MENU
: Triming File
PAGE
: Triming File (T1)
ITEM
: File Store

BVP-550

4-49 (E)

Section 5
Spare Parts
5-1. Notes on Repair Parts
1. w Safety Related Components Warning
Components marked ! are critical to safe operation. Therefore, specified parts should be used in the
case of replacement.
2. Standardization of Parts
Some repair parts supplied by Sony differ from those used for the unit. These are because of parts
commonality and improvement.
Parts list has the present standardized repair parts.
3. Stock of Parts
Parts marked with “o” at SP (Supply Code) column of the spare parts list may be not stocked.
Therefore, the delivery date will be delayed.
4. Units Representation
The following represented units are changed or omitted in writing.

Units

Representation

Capacitance

µF

uF

Inductance

µH

uH

Resistance

Ω

Abbreviation

BVP-550

5-1

TOP PANEL BLOCK

5-2. Exploded Views

2
8
30

27

B4 X 8

19
9

B4 X 8

B5 X 12

14
11
10
W3
SMALL

12

BOLT,HEXAGON
SOCKET 3 X 8

W3
SMALL

28
13
31

26

25

B4 X 8

10

BOLT,HEXAGON
SOCKET 3 X 8
W3
SMALL
BOLT,HEXAGON
SOCKET 3 X 8

15

3
18

29
16

17
1

21

7
5
20
B2.6 X 5

24

22

23

6

B2.6 X 5

B3 X 5
B2.6 X 5

4

5-2

BVP-550

TOP PANEL BLOCK

No.

Part No.

SP Description

1
2
3
4
5

A-8278-029-A
X-3678-451-1
X-3678-455-2
1-565-051-21
1-570-985-11

o
o
o
o
s

SLIDE ASSY,VF
HANDLE ASSY
HOLDER SUB ASSY,HANDLE
CONNECTOR 20P, FEMALE “VF”
SWITCH TOGGLE “R/G/B” “ENC/RGB”

6
7
8
9
10

1-571-396-11
1-657-442-12
3-673-046-00
3-679-683-01
3-679-684-01

s
o
s
o
o

SWITCH TOGGLE “DIPS ON/OFF/MENU”
PRINTED CIRCUIT BOARD, SW-732
LEVER, LOCK
ARM,SLIDE
REST,ARM

11
12
13
14
15

3-679-685-01
3-679-686-01
3-679-698-01
3-679-702-01
3-687-116-01

o
o
o
o
o

TABEL,FIXED,VF SLIDE
TABEL,FIXED,VF SHOE
RING(C),LOCK
CUSION,STOPPER
WASHER(4), STOPPER

16
17
18
19
20

3-692-112-01
3-692-150-01
3-692-165-01
3-692-649-01
3-693-984-01

o
o
o
s
s

PLATE,MENU
SHEET,DROP PROTECTION
HOLDER,HANDOLE
SHEET, BLIND
CUSSHION, DROP PROTECTION (3)

21
22
23
24
25

3-694-196-01
3-694-197-01
3-694-198-01
3-694-199-01
3-701-442-21

s
o
s
s
s

SHEET, DUST PROTECTION (S)
SHEET, DUST PROTECTION (F)
RETAINER, DROP PROTECTION (F)
RETAINER DROP, PROTECTION (S)
WASHER, 4.5

26
27
28
29
30

3-701-506-01
3-701-508-00
3-710-039-03
3-711-765-01
3-711-794-01

s
s
s
s
o

SET SCREW, DOUBLE POINT 3X4
SET SCREW, DOUBLE POINT 3X6
SHOE, SLIDE
BOLT (M3), HEXAGON SOCKET
PIN, STOPPER

31

3-720-919-01 o RUBBER, LOCK RING

BVP-550

5-3

RIGHT PANEL AND PLUG-IN BOARDS

*2

*1

113

*3

112
105
111

114
104
110
103
*2

107

109
102

115

B4 X 12

108
101

*1

107

B4 X 12

B4 X 12

*3

107

B4 X 12

106

5-4

BVP-550

RIGHT PANEL AND PLUG-IN BOARDS

No.

Part No.

101
102
103
104
105

A-8269-359-A
A-8269-360-A
A-8269-361-A
A-8269-362-A
A-8269-363-A

o
o
o
o
o

MOUNTED
MOUNTED
MOUNTED
MOUNTED
MOUNTED

106
107
108
109
110

X-3678-450-1
3-687-116-01
3-692-125-02
3-692-126-02
3-692-127-02

o
o
o
o
o

PANEL ASSY, RIGHT
WASHER (4), STOPPER
PANEL,VA-163 PC BOARD
PANEL,AT-95 PC BOARD
PANEL,SG-234 PC BOARD

111
112
113
114
115

3-692-128-02
3-692-129-02
3-692-642-01
3-724-753-01
3-729-061-01

o
o
o
o
s

PANEL,DA-88 PC BOARD
PANEL,IF-510 PC BOARD
SHEET,SHIELD
RING
SCREW (M2X4.5) (TYPE 1)

BVP-550

SP Description
CIRCUIT
CIRCUIT
CIRCUIT
CIRCUIT
CIRCUIT

BOARD,
BOARD,
BOARD,
BOARD,
BOARD,

VA-163
AT-95
SG-234
DA-88
IF-510

5-5

LEFT PANEL AND BOARDS

B4 X 12

208

B4 X 12

204
208
208

208

B3 X 5

203

B3 X 5

B3 X 5

210
B2.6 X 5

202
209

B3 X 5

207

B2.6 X 5

206

210
210
B2.6 X 5

201

205
210

5-6

BVP-550

LEFT PANEL AND BOARDS

No.

Part No.

201
202
203
204
205

A-8269-357-A
A-8269-358-A
A-8269-381-A
X-3678-452-1
1-473-314-11

o
o
o
o
s

MOUNTED CIRCUIT BOARD, PR-211
MOUNTED CIRCUIT BOARD, MB-602
MOUNTED CIRCUIT BOARD, CN-1142
PANEL ASSY, LEFT
CONVERTER, D.C-D.C

2-623-773-11
3-168-296-01
3-687-116-01
3-692-113-01
4-924-260-01

s
s
o
o
o

BOLT (M3X8), STAINLESS
PIN, ID
WASHER (4), STOPPER
WEDGE,HANGER
BOSS (D)

206
207
208
209
210

BVP-550

!

SP Description

5-7

CHASSIS AND SHOLDER PAD

Precision
P2.6 X 5

306

313

Precision
P2.6 X 5
Precision
P2 X 5

319

Precision
P2.6 X 5

307

B4 X 8
Precision
P2.6 X 5

Precision
P2.6 X 5

*4

308
*4

*3

*1

*2

301

BTP2.6 X 6

309

BTP2.6 X 6

302
*3
*1

*2

303

W2.6 SMALL

310

314

BOLT,HEXAGON
SOCKET 3 X 8
BOLT,HEXAGON
SOCKET 3 X 8

*1

B3 X 5

305
304
B3 X 5

315

316

E2

K4 X 8

B4 X 14

311
317

312

B4 X 14

318
K3 X 8

5-8

P4 X 6

K3 X 8

BVP-550

CHASSIS AND SHOLDER PAD

No.

Part No.

301
302
303
304
305

A-8269-369-A
A-8269-370-A
A-8278-237-A
A-8278-238-A
3-692-102-01

o
o
s
s
o

MOUNTED PCB, CN-1120
MOUNTED PCB, CN-1121
PAD ASSY (LARGE)
PAD ASSY (SMALL)
BRACKET V SHOE

306
307
308
309
310

3-692-114-02
3-692-115-01
3-692-117-02
3-692-119-01
3-692-641-03

o
o
o
o
o

PLATE,CONNECTOR(136P)
SHOE,LOCK
RAIL
RAIL,CAM
ROD,LOCK

311
312
313
314
315

3-692-643-02
3-692-645-01
3-692-646-01
3-692-647-01
3-693-973-01

o
o
o
o
s

BASE,V SHOE
ROD,ROTARY
SHEET,DUST PROTECTION (PS)
SPACER,PAD
SPRING, TORSION (SMALL)

316
317
318
319

3-701-444-21
3-742-011-01
3-742-015-01
4-864-521-01

s
s
o
s

WASHER, 6
SCREW, 1/4, 3/8 CONVERSION
WEDGE (B), MOUNTING
SPRING (PC BOARD GROUND)

BVP-550

SP Description

5-9

BOTTOM BLOCK

429
404
415

424

422
405
425
419
429
Precision
P2.6 X 5

402

Precision
P2.6 X 5

427
420

406

421

417

BTP2.6 X 6

409

428

Precision
P2.6 X 5

430

426

432
411
408

414

416
Precision
P2.6 X 5

B2.6 X 5

413

418
412
433

407
410
BTP2.6 X 6

431
403
423

5-10

401

BVP-550

BOTTOM BLOCK

No.

Part No.

401
402
403
404
405

1-473-315-11
1-509-184-31
1-554-088-00
1-561-781-11
1-562-222-41

406
407
408
409
410

1-570-282-21 s SWITCH KEY BOARD “VTR START”
1-571-415-11 s SWITCH TOGGLE “CAMERA/VTR”
“GAIN” “OUTPUT” WHITE BAL”
1-571-416-11 s SWITCH TOGGLE “AUTO W/B BAL”
1-571-679-11 s SWITCH TOGGLE “SHUTTER”
1-657-443-01 o PRINTED CIRCUIT BOARD, SW-730

411
412
413
414
415

1-657-444-12
1-657-445-11
1-657-446-11
1-657-447-12
1-695-841-12

o
o
o
o
s

PRINTED CIRCUIT BOARD, SW-731
PRINTED CIRCUIT BOARD, SW-733
PRINTED CIRCUIT BOARD, SW-742
PRINTED CIRCUIT BOARD, CN-1122
CONNECTOR 12P, FEMALE “LENS”

416
417
418
419
420

3-312-823-00
3-676-244-11
3-679-679-03
3-692-106-01
3-692-107-02

s
s
s
o
o

PACKING, KNOB
COVER, SW
KNOB,VR(AUDIO)
BASE,SHOULDER
COVER,FRONT SWITCH

421
422
423
424
425

3-692-108-01
3-692-110-02
3-692-111-01
3-692-149-02
3-692-644-02

o
o
s
o
o

GUARD,SWITCH
BRACKET,CONNECTOR
KNOB,RE “MIC LEVEL”
BRACKET,CONNECTOR(TEST OUT)
CAP,CONNECTOR

426
427
428
429
430

3-693-974-01
3-693-976-01
3-693-983-01
3-694-181-01
3-729-069-01

o
o
o
s
s

PLATE, SHIELD (SIDE)
PLATE, SHUTTER (FRONT)
CUSSHION, DROP PROTECTION (2)
TYPE1, AROCK PRECISION +P2.6
BUTTON, VTR START

431
432
433

3-742-065-01 o SHAFT, SHUTTER
3-742-066-11 o SPRING, SHUTTER
3-742-067-04 o LID, SHUTTER

BVP-550

SP Description
s
s
s
s
s

ENCODER ROTARY “MENU SEL”
CONNECTOR 3P, FEMALE “MIC”
SWITCH, TACTILE “CANCEL”
CONNECTOR, BNC “TEST OUT”
CONNECTOR 6P, FEMALE “REMOTE”

5-11

SCREWS AND WASHERS

No.

Part No.

SP Description

7-621-770-87
7-623-208-22
7-623-505-01
7-624-104-04
7-624-105-04

s
o
s
s
s

SCREW +B 2.6X5
SW 3,TYPE 2
LUG, 2
STOP RING 2.0, TYPE -E
STOP RING 2.3, TYPE -E

7-624-200-01
7-627-452-38
7-627-454-38
7-627-553-78
7-627-554-18

s
s
s
s
s

NUT, PUSH 1.5
SCREW,PRECISION +K 2X5
SCREW, PRECISION +K 2.6X5
SCREW,PRECISION +P 2X10
SCREW,PRECISION +P 2X3.5 TYPE1

7-627-556-57
7-627-556-58
7-671-158-01
7-682-160-09
7-682-247-04

s
s
s
s
s

PRECISION SCREW +P 2.6X5 TYPE1
SCREW +P 2.6X5
BALL, STAINLESS (2.5 DIA)
SCREW +P 4X6
SCREW +K 3X6

7-682-248-09
7-682-261-09
7-682-545-04
7-682-546-04
7-682-546-09

s
s
s
s
s

SCREW
SCREW
SCREW
SCREW
SCREW

7-682-561-09
7-682-563-09
7-682-564-09
7-682-576-09
7-683-404-04

s
s
s
s
s

SCREW +B 4X8
SCREW +B 4X12
SCREW +B 4X14
SCREW +B 5X12
BOLT,HEXAGON SOCKET 3X8

7-683-405-04
7-683-412-05
7-685-104-19
7-685-134-19
7-685-533-19

s
s
s
s
s

BOLT,HEXAGON SOCKET 3X10
BOLT,HEXAGON SOCKET 2.6X6
SCREW +P 2X6 TYPE2 NON-SLIT
SCREW +P 2.6X8 TYPE2 NON-SLIT
SCREW +BTP 2.6X6 TYPE2 N-S

+K
+K
+B
+B
+B

3X8
4X8
3X4
3X5
3X5

7-688-002-02 s W2.6, SHALL
7-688-003-02 s W 3, SMALL

5-12

BVP-550

5-3. Electrical Parts List
----------AT-95 BOARD
----------Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
1pc
1pc
6pcs

A-8269-360-A
3-692-126-02
3-724-753-01
3-729-061-01

C55
C56
C57
C58
C59

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-927-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

25V
25V
25V
25V
100PF 5% 50V

BT1

1-550-104-32 s HOLDER, BATTERY

C1
C2
C3
C4
C5

1-162-927-11
1-162-964-11
1-164-156-11
1-164-156-11
1-107-688-11

s
s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP,TANTALUM 1.5uF 20% 25V

C60
C61
C62
C63
C64

1-162-927-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

100PF 5% 50V
25V
25V
25V
25V

C6
C7
C8
C9
C10

1-164-156-11
1-107-688-11
1-126-392-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CHIP,TANTALUM 1.5uF 20% 25V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C65
C66
C67
C68
C69

1-164-156-11
1-162-927-11
1-162-927-11
1-162-927-11
1-162-927-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP

25V
100PF
100PF
100PF
100PF

C11
C12
C13
C14
C16

1-164-156-11
1-135-165-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C70
C71
C80
C81

1-162-927-11
1-131-360-00
1-164-156-11
1-126-935-11

s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
TANTALUM 15uF 10% 10V
CERAMIC 0.1uF 25V
ELECT, CHIP 470uF 20% 16V

CNI36

1-540-197-11 o SOCKET, IC

C17
C18
C19
C20
C21

1-135-215-21
1-164-156-11
1-126-392-11
1-164-156-11
1-162-927-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 100PF 5% 50V

D1
D2
D3
D4
D5

8-719-029-63
8-719-820-41
8-719-974-76
8-719-974-76
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
1SS302
HSM107S
HSM107S
1SS302

C22
C23
C24
C25
C26

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

D6
D7
D8
D10
D11

8-719-974-76
8-719-974-76
8-719-974-76
8-719-974-76
8-719-974-76

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM107S
HSM107S
HSM107S
HSM107S
HSM107S

C27
C28
C29
C30
C31

1-164-156-11
1-162-970-11
1-164-156-11
1-164-156-11
1-135-180-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 3.3uF 20% 6.3V

D12
D13
D15
D16
D17

8-719-974-76
8-719-974-76
8-719-974-76
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM107S
HSM107S
HSM107S
1SS302
1SS302

C32
C33
C34
C35
C36

1-162-966-11
1-162-970-11
1-135-076-21
1-162-970-11
1-162-970-11

s
s
s
s
s

CERAMIC, CHIP 0.0022uF 10% 50V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 1uF 10% 35V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 0.01uF 10% 25V

D18
D19
D20
D21
D22

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

C37
C38
C39
C40
C41

1-164-156-11
1-164-156-11
1-162-970-11
1-135-085-21
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 4.7uF 10% 25V
CERAMIC, CHIP 0.01uF 10% 25V

IC1
IC2
IC3
IC4
IC5

8-759-252-59
8-759-242-78
8-759-079-74
8-759-076-06
8-759-076-06

s
s
s
s
s

IC
IC
IC
IC
IC

MAX202CSE
TC7W02F
TC74VHC157FS(EL)
TL064CPW
TL064CPW

C42
C43
C44
C45
C46

1-162-964-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

IC6
IC7
IC8
IC9
IC11

8-759-637-07
8-759-089-61
8-759-082-60
8-759-076-06
8-759-711-50

s
s
s
s
s

IC
IC
IC
IC
IC

M62021FP
TC74HC4052AFS(EL)
TC7S66FU
TL064CPW
NJU7022M

C47
C48
C49
C50
C51

1-164-156-11
1-135-215-21
1-164-156-11
1-135-157-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V

IC12
IC13
IC14
IC15
IC17

8-759-711-50
8-759-059-50
8-759-082-57
8-759-083-94
8-759-058-64

s
s
s
s
s

IC
IC
IC
IC
IC

NJU7022M
MB88351PFV
TC7W04FU
TC7W74FU
TC7S32FU(TE85R)

C52
C53
C54

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

IC18
IC19
IC20
IC21

8-759-271-84
8-759-271-86
8-759-196-96
8-759-271-84

s
s
s
s

IC
IC
IC
IC

TC7SH02FU
TC7SH04FU
TC7SH08FU-TE85R
TC7SH02FU

BVP-550

o
o
o
s

MOUNTED CIRCUIT BOARD, AT-95
PANEL,AT-95 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

SP Description

25V
25V
25V
25V
0.01uF 10% 25V

0.001uF 10% 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V
0.1uF 25V

5%
5%
5%
5%

50V
50V
50V
50V

5-13

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

IC22
IC23
IC24
IC25
IC26

8-759-196-97
8-759-186-31
8-759-079-70
8-759-065-20
8-752-337-91

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH32FU-TE85R
TC74VHC20F
TC74VHC138FS(EL)
RTC-4553B
CXK58257ATM-70LL

R23
R25
R26
R28
R29

1-216-794-11
1-216-821-11
1-216-809-11
1-218-889-11
1-216-857-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP

IC27
IC28
IC29
IC30
IC31

8-759-154-60
8-759-154-60
8-759-149-10
8-759-271-84
8-759-196-97

s
s
s
s
s

IC
IC
IC
IC
IC

UPD71055GB-10-3B4
UPD71055GB-10-3B4
UPD4702G
TC7SH02FU
TC7SH32FU-TE85R

R30
R31
R32
R33
R34

1-218-858-11
1-218-720-11
1-216-839-11
1-216-862-11
1-216-857-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 33K 5% 1/16W
METAL 2.7M 5% 1/16W
METAL, CHIP 1M 5% 1/16W

IC32
IC33
IC34
IC35
IC36

8-759-242-78
8-759-186-53
8-759-186-53
8-759-277-99
8-759-176-87

s
s
s
s
o

IC
IC
IC
IC
IC

TC7W02F
TC74VHC163F
TC74VHC163F
CXD8889R
M27V201-200L6

R35
R36
R37
R38
R39

1-216-857-11
1-216-857-11
1-216-863-11
1-216-857-11
1-216-857-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 3.3M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W

IC37
IC38
IC39
IC40
IC41

8-759-196-96
8-759-182-95
8-759-079-85
8-759-079-61
8-759-195-81

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH08FU-TE85R
HD151015T
TC74VHC244FS(EL)
TC74VHC74FS(EL)
TC7S86FU

R40
R41
R42
R43
R44

1-218-716-11
1-218-724-11
1-216-819-11
1-216-821-11
1-218-867-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 680 5% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W

IC42
IC43
IC44
IC45
IC46

8-759-186-53
8-759-082-57
8-759-186-53
8-759-083-94
8-759-165-37

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC163F
TC7W04FU
TC74VHC163F
TC7W74FU
X24164SIC7000

R45
R46
R47
R48
R49

1-216-825-11
1-216-821-11
1-218-716-11
1-218-873-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL 10K 0.50% 1/16W

IC47
IC48

8-759-078-75 s IC UPD6453GT-610
8-759-276-00 s IC TC7W139FU(TE12R)

L1
L2

1-410-737-31 s INDUCTOR CHIP 0.47uH
1-410-377-31 s INDUCTOR CHIP 4.7uH

R50
R51
R52
R53
R54

1-218-724-11
1-216-821-11
1-216-821-11
1-216-809-11
1-216-836-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP

Q1
Q2
Q3
Q4
Q5

8-729-141-48
8-729-402-19
8-729-920-48
8-729-925-47
8-729-920-48

R55
R56
R57
R58
R59

1-218-867-11
1-216-824-11
1-218-716-11
1-218-873-11
1-216-820-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
METAL, CHIP 1.8K 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL, CHIP 820 5% 1/16W

Q6

8-729-920-48 s TRANSISTOR IMH2

R1
R2
R3
R4
R5

1-216-794-11
1-216-833-11
1-216-831-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

5.6 5% 1/16W
10K 5% 1/16W
6.8K 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R60
R61
R62
R63
R64

1-216-855-11
1-216-854-11
1-218-752-11
1-216-854-11
1-218-750-11

s
s
s
s
s

METAL, CHIP 680K
METAL, CHIP 560K
METAL 330K 0.50%
METAL, CHIP 560K
METAL 270K 0.50%

R6
R7
R8
R9
R10

1-216-821-11
1-216-809-11
1-216-829-11
1-216-833-11
1-216-837-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100 5% 1/16W
4.7K 5% 1/16W
10K 5% 1/16W
22K 5% 1/16W

R66
R70
R71
R72
R73

1-216-821-11
1-216-857-11
1-216-829-11
1-216-821-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1M 5% 1/16W
4.7K 5% 1/16W
1K 5% 1/16W
4.7K 5% 1/16W

R11
R12
R13
R14
R15

1-216-845-11
1-216-794-11
1-216-864-11
1-216-821-11
1-216-864-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
5.6 5% 1/16W
0 5% 1/16W
1K 5% 1/16W
0 5% 1/16W

R74
R75
R76
R77
R78

1-216-829-11
1-216-829-11
1-216-809-11
1-216-809-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

4.7K 5% 1/16W
4.7K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
10 5% 1/16W

R16
R17
R18
R19
R20

1-216-809-11
1-216-858-11
1-218-723-11
1-216-692-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 100 5% 1/16W
METAL, CHIP 1.2M 5% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 1K 0.5% 1/16W
METAL, CHIP 100 5% 1/16W

R79
R80
R81
R82
R83

1-216-828-11
1-216-797-11
1-216-797-11
1-218-866-11
1-216-797-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL
METAL, CHIP

3.9K 5% 1/16W
10 5% 1/16W
10 5% 1/16W
6.2K 0.50% 1/16W
10 5% 1/16W

R21
R22

1-218-668-11 s CHIP, METAL 100 0.50% 1/16W
1-218-724-11 s CHIP, METAL 22K 5% 1/16W

R84
R85
R86
R87

1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

10
10
10
10

5-14

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
XN6501
IMH2
IMB2
IMH2

CHIP
CHIP
CHIP
CHIP

5.6 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
56K 0.50% 1/16W
1M 5% 1/16W

22K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
18K 5% 1/16W

5%
5%
5%
5%

5% 1/16W
5% 1/16W
1/16W
5% 1/16W
1/16W

1/16W
1/16W
1/16W
1/16W

BVP-550

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

(AT-95 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R88
R89
R90
R91
R92

1-216-797-11
1-216-841-11
1-216-841-11
1-216-797-11
1-216-797-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10 5% 1/16W
47K 5% 1/16W
47K 5% 1/16W
10 5% 1/16W
10 5% 1/16W

R151
R152
R153
R154
R155

1-216-821-11
1-216-841-11
1-216-845-11
1-216-833-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R93
R94
R95
R96
R97

1-216-797-11
1-216-797-11
1-216-797-11
1-216-797-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

10 5% 1/16W
10 5% 1/16W
10 5% 1/16W
10 5% 1/16W
100K 5% 1/16W

R160
R161
R162
R163
R164

1-216-821-11
1-216-862-11
1-216-864-11
1-216-864-11
1-218-751-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 2.7M 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 300K 0.50% 1/16

R98
R99
R100
R101
R102

1-216-845-11
1-216-845-11
1-216-833-11
1-216-833-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
1K 5% 1/16W

R165

1-218-858-11 s CHIP, METAL 3K 0.50% 1/16W

RV1

1-237-035-11 s RES, ADJ METAL 5K

S1

1-692-270-21 s SWITCH, SLIDE

R103
R104
R105
R106
R107

1-216-821-11
1-216-845-11
1-216-809-11
1-216-849-11
1-216-841-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
220K 5% 1/16W
47K 5% 1/16W

R108
R109
R110
R111
R114

1-216-841-11
1-216-841-11
1-216-825-11
1-216-825-11
1-216-825-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47K 5% 1/16W
47K 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W
2.2K 5% 1/16W

R115
R118
R119
R120
R121

1-216-825-11
1-216-809-11
1-216-809-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

2.2K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W

R122
R123
R124
R125
R126

1-216-809-11
1-216-821-11
1-216-821-11
1-216-821-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W

R127
R128
R129
R130
R131

1-216-809-11
1-216-809-11
1-216-809-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R132
R133
R134
R135
R136

1-216-841-11
1-216-841-11
1-216-833-11
1-216-841-11
1-216-841-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

47K
47K
10K
47K
47K

R137
R138
R139
R140
R141

1-216-821-11
1-216-809-11
1-216-821-11
1-216-821-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
100 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W
1K 5% 1/16W

R142
R143
R144
R145
R146

1-216-821-11
1-216-821-11
1-216-841-11
1-216-809-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
47K 5% 1/16W
100 5% 1/16W
100K 5% 1/16W

R147
R148
R149
R150

1-216-845-11
1-216-845-11
1-216-845-11
1-216-809-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W

BVP-550

5%
5%
5%
5%
5%

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
47K 5% 1/16W
100K 5% 1/16W
10K 5% 1/16W
100K 5% 1/16W

1/16W
1/16W
1/16W
1/16W
1/16W

5-15

------------CN-1120 BOARD
------------Ref. No.
or Q'ty Part No.

------------CN-1121 BOARD
------------Ref. No.
or Q'ty Part No.

SP Description

SP Description

1pc

A-8269-369-A o MOUNTED CIRCUIT BOARD, CN-1120

1pc

A-8269-370-A o MOUNTED CIRCUIT BOAAD, CN-1121

C1
C2
C3
C4
C5

1-163-275-11
1-163-275-11
1-163-275-11
1-163-275-11
1-163-275-11

CN101
CN102

1-569-531-11 s HOUSING, 20P
1-569-532-11 s HOUSING, 30P

C6

1-163-275-11 s CERAMIC 0.001uF 5% 50V

FL1
FL2
FL3
FL4
FL5

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

CN201
CN202

1-569-532-11 s HOUSING, 30P
1-569-532-11 s HOUSING, 30P

FL1
FL2
FL3
FL4
FL5

1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL6
FL7
FL8
FL9
FL10

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL6
FL7
FL8
FL9
FL10

1-239-825-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL11
FL12
FL13
FL14
FL15

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL11
FL12
FL13
FL14
FL15

1-239-719-11
1-239-825-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL16
FL17
FL18
FL19
FL20

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL16
FL17
FL18
FL19
FL20

1-239-825-11
1-239-719-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL21
FL22
FL23
FL24
FL25

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL21
FL22
FL23
FL24
FL25

1-239-825-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL26
FL27
FL28
FL30
FL31

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL26
FL27
FL28
FL29
FL30

1-239-719-11
1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL32
FL33
FL34
FL35
FL37

1-239-719-11
1-239-719-11
1-239-719-11
1-239-719-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL38
FL39

1-239-719-11 s FILTER, CHIP EMI
1-239-719-11 s FILTER, CHIP EMI

FL31
FL32
FL33
FL34
FL35

1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11
1-239-825-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

R1
R2

1-216-295-11 s CHIP, CONDUCTOR 0
1-216-295-11 s CHIP, CONDUCTOR 0

FL36
FL37
FL38
FL39
FL40

1-239-825-11
1-239-825-11
1-239-719-11
1-239-825-11
1-239-719-11

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI
EMI

FL41
FL42
FL43
FL44

1-239-719-11
1-239-719-11
1-239-825-11
1-239-825-11

s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,

CHIP
CHIP
CHIP
CHIP

EMI
EMI
EMI
EMI

5-16

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.001uF
0.001uF
0.001uF
0.001uF
0.001uF

5%
5%
5%
5%
5%

50V
50V
50V
50V
50V

BVP-550

------------CN-1122 BOARD
------------Ref. No.
or Q'ty Part No.

----------DA-88 BOARD
----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-447-13 o PRINTED CIRCUIT BOARD, CN-1122

C1
C2
C5

1-128-592-11 s ELECT 0.33uF 20% 50V
1-128-592-11 s ELECT 0.33uF 20% 50V
1-126-968-11 s CHIP, ELECT 100uF 20% 50V

CN401
CN402
CN405
CN406
CN407

1-569-629-11
1-695-890-21
1-764-082-21
1-764-078-11
1-695-207-21

R1
R2
R3

1-218-708-11 s METAL 4.7K 0.50% 1/16W
1-218-708-11 s METAL 4.7K 0.50% 1/16W
1-215-421-00 s METAL 1K 1% 1/6W

------------CN-1142 BOARD
------------Ref. No.
or Q'ty Part No.
1pc

BVP-550

s
o
s
s
o

HOUSING, 24P
PIN, CONNECTOR
PIN, CONNECTOR
PIN, CONNECTOR
PIN, CONNECTOR

(PC
(PC
(PC
(PC

BOARD)
BOARD)
BOARD)
BOARD)

12P
11P
3P
6P

SP Description

A-8269-381-A o MOUNTED CIRCUIT BOARD, CN-1142

SP Description

1pc
1pc
1pc
6pcs

A-8269-362-A
3-692-128-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, DA-88
PANEL,DA-88 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-215-21
1-135-160-21
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C6
C7
C8
C9
C10

1-135-160-21
1-164-156-11
1-162-923-11
1-165-176-11
1-135-160-21

s
s
s
s
s

CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 47PF 5% 50V
CERAMIC, CHIP 0.047uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-135-177-21
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C16
C17
C18
C19
C20

1-135-216-11
1-135-216-11
1-164-156-11
1-164-156-11
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C21
C23
C24
C25
C26

1-162-915-11
1-164-156-11
1-164-156-11
1-135-215-21
1-135-216-11

s
s
s
s
s

CERAMIC, CHIP 10PF 5PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V

C27
C28
C29
C30
C31

1-135-216-11
1-135-216-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C32
C33
C34
C35
C36

1-164-156-11
1-162-970-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C37
C38
C39
C40
C41

1-164-156-11
1-164-156-11
1-162-970-11
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C42
C43
C44
C45
C46

1-164-156-11
1-164-156-11
1-164-156-11
1-162-919-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

C47
C48
C49
C50
C51

1-164-156-11
1-162-913-11
1-162-907-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 8PF 0.5PF 50V
CERAMIC, CHIP 2PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C52
C53
C54
C55
C56

1-164-156-11
1-164-156-11
1-135-215-21
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

25V
25V
25V
22PF 5% 50V
0.01uF 10% 25V

5-17

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C57
C58
C59
C61
C64

1-135-177-21
1-135-177-21
1-164-315-11
1-135-216-11
1-162-905-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 470PF 5% 50V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 1PF 0.25PF 50V

C132
C133
C134
C136
C137

1-162-905-11
1-162-915-11
1-162-921-11
1-162-915-11
1-162-921-11

s
s
s
s
s

CERAMIC 1PF 0.25PF
CERAMIC, CHIP 10PF
CERAMIC, CHIP 33PF
CERAMIC, CHIP 10PF
CERAMIC, CHIP 33PF

C65
C66
C67
C68
C69

1-162-915-11
1-162-921-11
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF

C138
C140
C141
C142
C143

1-162-970-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C70
C71
C72
C73
C74

1-162-913-11
1-162-907-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 8PF 0.5PF 50V
CERAMIC, CHIP 2PF 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C144
C145
C146
C147
C148

1-135-215-21
1-162-907-11
1-135-177-21
1-135-177-21
1-135-177-21

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C75
C76
C77
C81
C82

1-164-156-11
1-135-162-21
1-135-215-21
1-162-970-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V

C149
C150
C151
C154
C155

1-135-177-21
1-164-156-11
1-135-215-21
1-162-905-11
1-162-915-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 1PF 0.25PF 50V
CERAMIC, CHIP 10PF 5PF 50V

C83
C84
C85
C87
C88

1-135-215-21
1-162-970-11
1-162-918-11
1-162-905-11
1-162-921-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC, CHIP 18PF 5% 50V
CERAMIC 1PF 0.25PF 50V
CERAMIC, CHIP 33PF 5% 50V

C166
C167
C169
C170
C171

1-135-216-11
1-164-156-11
1-135-215-21
1-135-215-21
1-135-215-21

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V

C89
C90
C92
C93
C95

1-162-919-11
1-162-911-11
1-164-156-11
1-135-160-21
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 22PF 5% 50V
CERAMIC, CHIP 6PF 50V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C172
C200
C201
C202
C203

1-135-215-21
1-164-156-11
1-164-156-11
1-135-215-21
1-162-907-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V

C96
C97
C98
C99
C100

1-164-156-11
1-164-156-11
1-164-156-11
1-135-215-21
1-162-907-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V

C204
C205
C206
C207
C208

1-164-156-11
1-162-907-11
1-135-215-21
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C101
C102
C103
C104
C105

1-135-177-21
1-135-177-21
1-135-177-21
1-135-177-21
1-164-315-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
TANTALUM, CHIP 1uF 10%
CERAMIC 470PF 5% 50V

C209
C210
C211
C213
C214

1-164-156-11
1-135-215-21
1-164-156-11
1-162-909-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 0.1uF 25V

C106
C107
C109
C110
C113

1-164-156-11
1-135-215-21
1-164-156-11
1-135-160-21
1-162-905-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 1PF 0.25PF 50V

C215
C216
C217
C218
C219

1-135-215-21
1-164-156-11
1-135-215-21
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C114
C115
C118
C119
C120

1-162-915-11
1-162-927-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C220
C221
C222
C223
C225

1-164-156-11
1-164-156-11
1-164-156-11
1-162-915-11
1-162-915-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

C121
C122
C123
C124
C125

1-164-156-11
1-135-215-21
1-162-907-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC, CHIP 2PF 50V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C226
C228
C229
C230
C231

1-162-915-11
1-135-160-21
1-162-908-11
1-162-908-11
1-162-908-11

s
s
s
s
s

CERAMIC, CHIP 10PF 5PF 50V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 3PF 0.25PF 50V
CERAMIC 3PF 0.25PF 50V
CERAMIC 3PF 0.25PF 50V

C126
C127
C128
C129

1-135-177-21
1-135-177-21
1-164-156-11
1-135-215-21

s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

C500

1-162-905-11 s CERAMIC 1PF 0.25PF 50V

D1
D2

8-719-029-63 s DIODE RD4.3UH-T1
8-719-029-63 s DIODE RD4.3UH-T1

5-18

10PF 5PF 50V
33PF 5% 50V
0.01uF 10% 25V
25V
25V

25V
25V
25V
25V

10PF 5PF 50V
100PF 5% 50V
25V
25V
25V

50V
5PF 50V
5% 50V
5PF 50V
5% 50V

0.01uF 10% 25V
25V
25V
25V
25V

25V
25V
25V
10PF 5PF 50V
10PF 5PF 50V

BVP-550

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

D3
D5
D6
D7
D9

8-719-029-63
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
1SS302
1SS302
1SS302
1SS302

IC100
IC101
IC102
IC103
IC104

8-759-058-62
8-759-058-58
8-759-082-59
8-759-058-64
8-759-058-54

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S08FU(TE85R)
TC7S04FU(TE85R)
TC7W32FU
TC7S32FU(TE85R)
TC7S00FU(TE85R)

D10
D11
D12
D13
D14

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

IC105
IC106
IC107
IC108
IC109

8-759-058-64
8-759-058-62
8-759-196-96
8-759-058-54
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S32FU(TE85R)
TC7S08FU(TE85R)
TC7SH08FU-TE85R
TC7S00FU(TE85R)
TC7S08FU(TE85R)

D15
D16
D17
D24
D25

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302
1SS302

IC110

8-759-058-58 s IC TC7S04FU(TE85R)

JR1
JR2
JR3
JR4

1-216-864-11
1-216-864-11
1-216-864-11
1-216-864-11

s
s
s
s

METAL,
METAL,
METAL,
METAL,

D26
D100
D101
D102

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302

FL1
FL2
FL3
FL4
FL5

1-239-754-11
1-239-753-11
1-233-240-21
1-239-753-11
1-233-240-21

s
s
s
s
s

FILTER,
FILTER,
FILTER,
FILTER,
FILTER,

L1
L2
L3
L4
L5

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

FL6
FL7
FL8

1-239-754-11 s FILTER, LOW PASS
1-239-754-11 s FILTER, LOW PASS
1-239-754-11 s FILTER, LOW PASS

L6
L7
L8
L9
L10

1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH

IC1
IC2
IC3
IC4
IC5

8-759-066-68
8-759-076-06
8-759-632-39
8-752-360-44
8-752-360-44

s
s
s
s
s

IC
IC
IC
IC
IC

REF-03GS
TL064CPW
M51958A-T1
CXK1203AR
CXK1203AR

L11
L12
L13
L14
L15

1-410-385-11
1-410-392-11
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 82uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH

IC6
IC7
IC8
IC9
IC10

8-752-360-44
8-752-363-60
8-759-079-46
8-759-058-54
8-759-086-42

s
s
s
s
s

IC
IC
IC
IC
IC

CXK1203AR
CXD2307R-T4
TC74VHC00FS(EL)
TC7S00FU(TE85R)
X24C02S-3.0-C7000

L16
L17
L18
L19
L20

1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31
1-410-737-31

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

IC11
IC12
IC13
IC14
IC15

8-759-058-58
8-759-058-62
8-759-237-79
8-759-064-36
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S04FU(TE85R)
TC7S08FU(TE85R)
TC74HC595AF(EL)
MB88346BPFV
TC4W53FU

L21
L22
L23
L24
L25

1-410-737-31
1-410-737-31
1-410-737-31
1-410-389-31
1-410-385-11

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 47uH
INDUCTOR, CHIP 22uH

IC16
IC17
IC18
IC19
IC20

8-759-981-48
8-759-082-61
8-759-082-61
8-759-079-85
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TL082M
TC4W53FU
TC4W53FU
TC74VHC244FS(EL)
TC4W53FU

Q1
Q2
Q3
Q4
Q7

8-729-141-48
8-729-141-75
8-729-141-75
8-729-117-73
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SD596DV345
2SD596DV345
2SC4178-F14
2SC4177

IC23
IC24
IC25
IC26
IC27

8-759-287-54
8-759-082-61
8-759-089-61
8-759-066-59
8-759-287-54

s
s
s
s
s

IC
IC
IC
IC
IC

TL084CPW-E20
TC4W53FU
TC74HC4052AFS(EL)
TC74HC4053AFS
TL084CPW-E20

Q8
Q9
Q10
Q11
Q12

8-729-117-16
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

IC28
IC29
IC34
IC35
IC36

8-759-089-61
8-759-082-61
8-759-271-86
8-759-180-08
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

TC74HC4052AFS(EL)
TC4W53FU
TC7SH04FU
TC74HC4538AFS
TC74HC595AF(EL)

Q13
Q14
Q15
Q16
Q17

8-729-122-63
8-729-122-63
8-729-122-63
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SA1226
2SC4177
2SA1226

IC37

8-759-082-59 s IC TC7W32FU

Q18
Q19
Q20

8-729-142-90 s TRANSISTOR 2SK853-K5
8-729-403-32 s TRANSISTOR XN6534
8-729-920-48 s TRANSISTOR IMH2

BVP-550

LOW
LOW
LOW
LOW
LOW

PASS
PASS
PASS
PASS
PASS

CHIP
CHIP
CHIP
CHIP

0
0
0
0

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W

0.47uH
0.47uH
0.47uH
0.47uH
0.47uH

0.47uH
0.47uH
0.47uH
0.47uH
0.47uH

5-19

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

Q22
Q23
Q25
Q26
Q27

8-729-122-63
8-729-102-08
8-729-117-32
8-729-117-16
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SC2223-F14
2SC4177
2SA1611-M6
2SC4178-F14

Q28
Q29
Q30
Q32
Q33

8-729-117-73
8-729-117-73
8-729-117-73
8-729-122-63
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1226
2SC2223-F14

Q34
Q43
Q44
Q45
Q46

8-729-102-08
8-729-403-32
8-729-102-08
8-729-117-16
8-729-920-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
XN6534
2SC2223-F14
2SA1611-M6
IMH2

Q47
Q48
Q49
Q50
Q51

8-729-117-32
8-729-117-73
8-729-122-63
8-729-122-63
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SA1226
2SA1226
2SA1226

Q52
Q53
Q54
Q59
Q63

8-729-117-32
8-729-122-63
8-729-142-90
8-729-403-32
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SK853-K5
XN6534
2SC2223-F14

Q67
Q68
Q69
Q70
Q71

8-729-117-73
8-729-122-63
8-729-122-63
8-729-117-32
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1226
2SA1226
2SC4177
2SA1226

Q72
Q73
Q75
Q79
Q83

8-729-142-90
8-729-122-63
8-729-403-32
8-729-102-08
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SK853-K5
2SA1226
XN6534
2SC2223-F14
2SC4177

Q84
Q85
Q86
Q87
Q88

8-729-117-16
8-729-117-73
8-729-122-63
8-729-122-63
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4178-F14
2SA1226
2SA1226
2SA1226

Q89
Q90
Q91
Q92
Q94

8-729-117-32
8-729-122-63
8-729-142-90
8-729-122-63
8-729-403-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SA1226
2SK853-K5
2SA1226
XN6534

Q98
Q100
Q101
Q102
Q103

8-729-102-08
8-729-403-32
8-729-102-08
8-729-122-63
8-729-403-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
XN6534
2SC2223-F14
2SA1226
XN6534

Q104
Q105
Q106
Q107
Q108

8-729-102-08
8-729-029-14
8-729-029-14
8-729-102-08
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
DTC144EUA-T106
DTC144EUA-T106
2SC2223-F14
2SC2223-F14

Q109
Q110
Q111
Q112

8-729-102-08
8-729-102-08
8-729-102-08
8-729-102-08

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC2223-F14
2SC2223-F14
2SC2223-F14
2SC2223-F14

5-20

SP Description

Q113
Q114
Q115
Q117

8-729-102-08
8-729-102-08
8-729-102-08
8-729-122-63

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

R1
R2
R3
R4
R5

1-216-864-11
1-216-845-11
1-216-821-11
1-218-677-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W

R6
R7
R8
R9
R10

1-218-724-11
1-216-821-11
1-216-809-11
1-216-864-11
1-218-724-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

R11
R12
R13
R14
R15

1-218-724-11
1-218-729-11
1-216-864-11
1-218-723-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R16
R17
R18
R19
R20

1-216-821-11
1-218-676-11
1-218-698-11
1-218-676-11
1-216-805-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R21
R22
R23
R24
R25

1-218-704-11
1-216-805-11
1-220-158-91
1-216-809-11
1-216-832-11

s
s
s
s
s

METAL 3.3K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 8.2K 5% 1/16W

R26
R27
R33
R34
R35

1-216-803-11
1-216-864-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R36
R37
R38
R39
R40

1-216-845-11
1-216-845-11
1-216-845-11
1-218-676-11
1-218-676-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 220 0.50% 1/16W
METAL 220 0.50% 1/16W

R41
R42
R43
R44
R45

1-218-676-11
1-218-704-11
1-218-704-11
1-218-704-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

220 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W
33K 0.50% 1/16W

R46
R47
R48
R49
R50

1-218-724-11
1-218-730-11
1-218-883-11
1-218-724-11
1-218-730-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

METAL 22K
METAL 39K
33K 0.50%
METAL 22K
METAL 39K

R51
R52
R53
R54
R56

1-218-883-11
1-218-724-11
1-218-730-11
1-216-797-11
1-216-857-11

s
s
s
s
s

METAL 33K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 39K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
METAL, CHIP 1M 5% 1/16W

R57
R58
R59
R60
R61
R62

1-218-676-11
1-218-692-11
1-216-805-11
1-216-805-11
1-216-829-11
1-216-829-11

s
s
s
s
s
s

METAL 220 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

2SC2223-F14
2SC2223-F14
2SC2223-F14
2SA1226

22K 5% 1/16W
1K 5% 1/16W
100 5% 1/16W
0 5% 1/16W
22K 5% 1/16W

33 5% 1/16W
0 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

5% 1/16W
0.50% 1/16W
1/16W
5% 1/16W
0.50% 1/16W

BVP-550

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R63
R64
R65
R66
R67

1-218-692-11
1-218-708-11
1-218-692-11
1-216-805-11
1-218-708-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 4.7K 0.50% 1/16W

R127
R128
R129
R130
R131

1-216-845-11
1-216-832-11
1-216-830-11
1-216-832-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R68
R69
R70
R71
R72

1-218-692-11
1-216-805-11
1-220-158-91
1-220-158-91
1-216-805-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R135
R136
R137
R142
R145

1-216-833-11
1-216-833-11
1-216-833-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R73
R74
R75
R76
R77

1-216-829-11
1-218-856-11
1-218-710-11
1-218-708-11
1-218-705-11

s
s
s
s
s

METAL, CHIP 4.7K
CHIP, METAL 2.4K
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%

R146
R147
R148
R149
R150

1-218-676-11
1-218-710-11
1-218-706-11
1-218-694-11
1-218-700-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
METAL

220 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 1.2K 0.50% 1/16W
2.2K 0.50% 1/16W

R78
R79
R80
R81
R82

1-218-700-11
1-218-705-11
1-218-708-11
1-216-809-11
1-216-845-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R151
R152
R153
R154
R155

1-218-702-11
1-218-692-11
1-218-700-11
1-218-700-11
1-211-990-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 2.7K 0.50% 1/16W
METAL 1K 0.50% 1/16W
2.2K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 75 0.50% 1/16W

R83
R84
R85
R87
R88

1-216-845-11
1-218-708-11
1-218-724-11
1-218-702-11
1-218-724-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R156
R157
R158
R159
R160

1-216-845-11
1-216-809-11
1-216-864-11
1-218-698-11
1-218-676-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W

R89
R90
R91
R92
R93

1-218-706-11
1-218-710-11
1-218-700-11
1-216-837-11
1-216-845-11

s
s
s
s
s

METAL 3.9K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL, CHIP 22K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R161
R162
R163
R164
R165

1-220-158-91
1-216-805-11
1-216-829-11
1-218-672-11
1-218-710-11

s
s
s
s
s

CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R94
R95
R96
R97
R98

1-218-708-11
1-218-858-11
1-218-699-11
1-218-668-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R166
R167
R168
R169
R170

1-218-708-11
1-218-705-11
1-218-700-11
1-218-858-11
1-218-705-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
METAL

R99
R100
R101
R102
R103

1-216-825-11
1-216-830-11
1-218-720-11
1-218-716-11
1-218-725-11

s
s
s
s
s

METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
METAL 15K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 24K 0.50% 1/16W

R171
R172
R173
R174
R175

1-216-845-11
1-216-809-11
1-216-845-11
1-218-708-11
1-218-724-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W

R105
R106
R107
R108
R110

1-216-845-11
1-216-845-11
1-216-809-11
1-216-809-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R177
R178
R184
R185
R186

1-218-867-11
1-218-724-11
1-218-828-11
1-218-648-11
1-218-661-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

R111
R112
R113
R114
R115

1-216-805-11
1-216-829-11
1-216-829-11
1-218-692-11
1-218-708-11

s
s
s
s
s

METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R187
R188
R190
R191
R192

1-211-990-11
1-218-702-11
1-216-829-11
1-218-700-11
1-218-710-11

s
s
s
s
s

CHIP, METAL 75 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 2.2K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R116
R117
R118
R119
R120

1-218-692-11
1-218-708-11
1-218-846-11
1-218-692-11
1-216-805-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
CHIP, METAL 910 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W

R193
R194
R195
R196
R197

1-218-706-11
1-218-700-11
1-218-702-11
1-218-720-11
1-218-740-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

3.9K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
15K 0.50% 1/16W
100K 0.50% 1/16W

R121
R122
R123
R124

1-216-805-11
1-220-158-91
1-220-158-91
1-216-805-11

s
s
s
s

METAL, CHIP 47 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W

R198
R199
R200
R201

1-218-858-11
1-211-990-11
1-218-668-11
1-218-720-11

s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL

BVP-550

5% 1/16W
0.50% 1/16W
0.50% 1/16W
1/16W
1/16W

4.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
47 5% 1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

100K
8.2K
5.6K
8.2K
4.7K

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

4.7K 0.50% 1/16W
3.6K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 3K 0.50% 1/16W
3.6K 0.50% 1/16W

METAL 6.8K 0.50% 1/16W
METAL 22K 5% 1/16W
160 0.50% 1/16W
15 0.50% 1/16W
METAL 51 0.50% 1/16W

3K 0.50% 1/16W
75 0.50% 1/16W
100 0.50% 1/16W
15K 0.50% 1/16W

5-21

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R202
R205
R206
R207
R208

1-218-720-11
1-218-699-11
1-218-732-11
1-218-725-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 15K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL 47K 0.50% 1/16W
METAL 24K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R267
R268
R269
R270
R271

1-218-700-11
1-218-858-11
1-218-705-11
1-216-845-11
1-216-809-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W

R209
R210
R211
R212
R213

1-218-698-11
1-218-676-11
1-220-158-91
1-216-805-11
1-216-829-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R272
R273
R274
R275
R276

1-216-845-11
1-218-841-11
1-218-697-11
1-218-672-11
1-218-864-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
CHIP, METAL 560 0.50% 1/16W
METAL 1.6K 0.50% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 5.1K 0.50% 1/16W

R214
R215
R216
R217
R218

1-216-864-11
1-218-710-11
1-218-708-11
1-218-705-11
1-218-700-11

s
s
s
s
s

METAL, CHIP 0 5%
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%
METAL 2.2K 0.50%

R277
R278
R280
R281
R282

1-218-675-11
1-216-829-11
1-218-672-11
1-218-867-11
1-218-706-11

s
s
s
s
s

CHIP, METAL 200 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.9K 0.50% 1/16W

R219
R220
R221
R222
R223

1-218-858-11
1-218-705-11
1-216-845-11
1-216-809-11
1-216-845-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 3.6K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R283
R284
R285
R288
R289

1-218-710-11
1-218-700-11
1-218-702-11
1-218-858-11
1-211-990-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 5.6K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 75 0.50% 1/16W

R224
R225
R226
R227
R228

1-218-841-11
1-218-697-11
1-218-672-11
1-218-864-11
1-218-675-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
CHIP,

METAL 560 0.50% 1/16W
1.6K 0.50% 1/16W
150 0.50% 1/16W
METAL 5.1K 0.50% 1/16W
METAL 200 0.50% 1/16W

R290
R293
R294
R295
R300

1-218-668-11
1-218-714-11
1-218-724-11
1-218-732-11
1-218-868-11

s
s
s
s
s

CHIP,
METAL
CHIP,
METAL
CHIP,

METAL 100 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 22K 5% 1/16W
47K 0.50% 1/16W
METAL 7.5K 0.50% 1/16W

R229
R231
R232
R233
R234

1-216-829-11
1-218-829-11
1-218-867-11
1-218-706-11
1-218-710-11

s
s
s
s
s

METAL, CHIP 4.7K 5% 1/16W
CHIP, METAL 180 0.50% 1/16W
CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.9K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R301
R302
R303
R304
R305

1-218-698-11
1-218-708-11
1-218-851-11
1-218-675-11
1-218-725-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

1.8K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 200 0.50% 1/16W
24K 0.50% 1/16W

R235
R236
R239
R240
R241

1-218-700-11
1-218-702-11
1-218-858-11
1-211-990-11
1-218-668-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R306
R307
R308
R309
R310

1-216-832-11
1-218-868-11
1-218-698-11
1-218-706-11
1-216-826-11

s
s
s
s
s

METAL, CHIP 8.2K
CHIP, METAL 7.5K
METAL 1.8K 0.50%
METAL 3.9K 0.50%
METAL, CHIP 2.7K

5% 1/16W
0.50% 1/16W
1/16W
1/16W
5% 1/16W

R242
R243
R244
R246
R247

1-218-668-11
1-218-668-11
1-216-845-11
1-218-729-11
1-218-724-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

100 0.50% 1/16W
100 0.50% 1/16W
100K 5% 1/16W
36K 0.50% 1/16W
22K 5% 1/16W

R311
R312
R313
R314
R315

1-216-864-11
1-218-704-11
1-216-829-11
1-216-829-11
1-216-829-11

s
s
s
s
s

METAL, CHIP 0 5%
METAL 3.3K 0.50%
METAL, CHIP 4.7K
METAL, CHIP 4.7K
METAL, CHIP 4.7K

1/16W
1/16W
5% 1/16W
5% 1/16W
5% 1/16W

R248
R249
R250
R251
R252

1-218-732-11
1-218-699-11
1-218-668-11
1-218-668-11
1-216-825-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R316
R317
R318
R320
R321

1-216-829-11
1-216-829-11
1-216-829-11
1-216-829-11
1-216-829-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

5%
5%
5%
5%
5%

R253
R254
R255
R256
R257

1-216-830-11
1-218-873-11
1-218-716-11
1-218-725-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 5.6K 5% 1/16W
CHIP, METAL 12K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 24K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R322
R323
R324
R325
R326

1-216-829-11
1-216-864-11
1-216-864-11
1-216-864-11
1-218-692-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

R258
R259
R260
R261
R262

1-218-698-11
1-218-676-11
1-220-158-91
1-216-805-11
1-216-829-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
METAL 220 0.50% 1/16W
CHIP,METAL 3.6K 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R327
R328
R330
R331
R332

1-218-692-11
1-218-708-11
1-216-864-11
1-218-724-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL 33K 0.50% 1/16W

R263
R264
R265
R266

1-216-864-11
1-218-710-11
1-218-708-11
1-218-705-11

s
s
s
s

METAL, CHIP 0 5%
CHIP, METAL 5.6K
METAL 4.7K 0.50%
METAL 3.6K 0.50%

R333
R334
R335
R336

1-216-821-11
1-216-821-11
1-216-821-11
1-218-727-11

s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL, CHIP 1K 5% 1/16W
METAL 30K 0.50% 1/16W

5-22

1/16W
0.50% 1/16W
1/16W
1/16W
1/16W

2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 100 0.50% 1/16W

1/16W
0.50% 1/16W
1/16W
1/16W

CHIP
CHIP
CHIP
CHIP
CHIP

4.7K
4.7K
4.7K
4.7K
4.7K

1/16W
1/16W
1/16W
1/16W
1/16W

4.7K 5% 1/16W
0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
1K 0.50% 1/16W

BVP-550

-----------IF-510 BOARD
-----------Ref. No.
or Q'ty Part No.

(DA-88 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R337
R357
R358
R361
R362

1-216-821-11
1-218-680-11
1-218-672-11
1-218-856-11
1-218-856-11

s
s
s
s
s

METAL, CHIP 1K 5% 1/16W
METAL 330 0.50% 1/16W
METAL 150 0.50% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W

R363
R364
R365
R366
R367

1-216-809-11
1-216-849-11
1-216-849-11
1-216-845-11
1-218-700-11

s
s
s
s
s

METAL, CHIP 100 5% 1/16W
METAL, CHIP 220K 5% 1/16W
METAL, CHIP 220K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 2.2K 0.50% 1/16W

R368
R369
R370
R371
R372

1-218-692-11
1-218-829-11
1-218-856-11
1-216-797-11
1-218-856-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R373
R374
R375
R376
R378

1-218-856-11
1-216-797-11
1-218-856-11
1-218-727-11
1-218-664-11

s
s
s
s
s

CHIP, METAL 2.4K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 2.4K 0.50% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 68 0.50% 1/16W

R379
R380

1-218-727-11 s METAL 30K 0.50% 1/16W
1-218-655-91 s CHIP, METAL 30 0.50% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-309-11
1-239-309-11
1-239-309-11
1-236-908-11
1-236-908-11

RB6
RB7

1-236-906-11 s NETWORK RESISTOR (CHIP) 15K
1-236-906-11 s NETWORK RESISTOR (CHIP) 15K

BVP-550

s
s
s
s
s

1K 0.50% 1/16W
180 0.50% 1/16W
2.4K 0.50% 1/16W
10 5% 1/16W
2.4K 0.50% 1/16W

RESISTOR BLOCK, CHIP 100KX8
RESISTOR BLOCK, CHIP 100KX8
RESISTOR BLOCK, CHIP 100KX8
RESISTOR, NETWORK, CHIP 10k
RESISTOR, NETWORK, CHIP 10k

SP Description

1pc
1pc
1pc
6pcs

A-8269-363-A
3-692-129-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, IF-510
PANEL,IF-510 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C10
C11
C12
C13
C14

1-104-913-11
1-135-160-21
1-164-156-11
1-135-208-11
1-135-165-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 16V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 10% 16V

C15
C16
C17
C20
C21

1-164-156-11
1-164-156-11
1-164-156-11
1-135-160-21
1-135-160-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CHIP, TANTALUM 15uF 10% 16V

C22
C23
C24
C25
C26

1-164-156-11
1-135-208-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C30
C31
C32
C33
C34

1-104-851-11
1-104-851-11
1-164-156-11
1-135-208-11
1-104-911-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
TANTAL 1uF 20% 10V
TANTALUM, CHIP 33uF 20% 10V

C35
C36
C101
C102
C103

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-907-11

s
s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP

C104
C105
C150
C151
C152

1-104-914-11
1-104-914-11
1-164-156-11
1-135-160-21
1-164-156-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CHIP, TANTALUM 15uF 10% 16V
CERAMIC 0.1uF 25V

C153
C154
C155
C201
C202

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C203
C204
C205
C206
C221

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-104-914-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V

C222
C223
C224
C225
C226

1-164-156-11
1-162-927-11
1-162-907-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC, CHIP 100PF 5% 50V
CERAMIC, CHIP 2PF 50V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C250
C252
C253
C254
C255

1-104-851-11
1-163-231-11
1-162-919-11
1-162-922-11
1-104-851-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC, CHIP 15PF 5% 50V
CERAMIC 22PF 5% 50V
CERAMIC 39PF 5% 50V
TANTALUM, CHIP 10uF 20% 10V

C300
C301
C303
C307
C308

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
2PF 50V

25V
25V
25V
25V
25V

25V
25V
25V
25V
25V

5-23

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C309
C311
C312
C313
C315

1-164-156-11
1-164-156-11
1-164-156-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C605
C606
C621
C622
C623

1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11
1-162-907-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 2PF 50V

C320
C321
C322
C350
C351

1-164-156-11
1-164-156-11
1-164-156-11
1-104-913-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 16V
CERAMIC 0.1uF 25V

C624
C625
C626
C641
C642

1-162-927-11
1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 100PF 5% 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C352
C353
C400
C401
C402

1-164-156-11
1-164-156-11
1-162-905-11
1-104-914-11
1-104-914-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V

C643
C644
C645
C646
C701

1-162-907-11
1-162-927-11
1-104-914-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP 2PF 50V
CERAMIC, CHIP 100PF 5% 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

C403
C404
C405
C406
C407

1-164-156-11
1-164-156-11
1-104-914-11
1-104-910-11
1-162-905-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC 1PF 0.25PF 50V

C702
C703
C704
C705
C706

1-164-156-11
1-164-156-11
1-126-396-11
1-126-396-11
1-104-851-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT, CHIP 47uF 20% 16V
ELECT, CHIP 47uF 20% 16V
TANTALUM, CHIP 10uF 20% 10V

C408
C409
C410
C411
C412

1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11
1-104-914-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V

C707

1-162-915-11 s CERAMIC, CHIP 10PF 5PF 50V

C413
C414
C415
C416
C417

1-104-910-11
1-162-905-11
1-104-914-11
1-104-914-11
1-164-156-11

s
s
s
s
s

CHIP,TANTALUM 15uF 10% 10V
CERAMIC 1PF 0.25PF 50V
TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V

D11
D21
D31
D101
D250

8-719-029-63
8-719-029-63
8-719-029-57
8-719-820-41
8-719-948-47

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD2.4UH-T1
1SS302
HSM88AS

D400
D401
D402
D500

8-719-820-41
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

1SS302
1SS302
1SS302
1SS302

C418
C419
C420
C421
C422

1-164-156-11
1-104-914-11
1-104-910-11
1-162-919-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 22PF 5% 50V
CERAMIC 0.1uF 25V

IC12
IC101
IC151
IC152
IC153

8-759-076-06
8-759-082-61
8-759-925-76
8-759-082-55
8-759-237-79

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
SN74HC08ANS
TC7W00FU
TC74HC595AF(EL)

C502
C503
C504
C505
C508

1-162-909-11
1-162-909-11
1-104-914-11
1-104-910-11
1-162-909-11

s
s
s
s
s

CERAMIC 4PF 0.25PF 50V
CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC 4PF 0.25PF 50V

IC154
IC155
IC200
IC201
IC202

8-759-082-58
8-759-086-42
8-759-082-61
8-759-089-61
8-759-089-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
X24C02S-3.0-C7000
TC4W53FU
TC74HC4052AFS(EL)
TC74HC4052AFS(EL)

C509
C510
C511
C513
C514

1-162-909-11
1-104-914-11
1-104-910-11
1-162-915-11
1-162-911-11

s
s
s
s
s

CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 10PF 5PF 50V
CERAMIC, CHIP 6PF 50V

IC206
IC301
IC302
IC303
IC304

8-759-054-61
8-759-254-49
8-759-925-90
8-759-925-90
8-759-082-59

s
s
s
s
s

IC
IC
IC
IC
IC

CLC505AJE
EL4581CS-TE2
SN74HC74ANS
SN74HC74ANS
TC7W32FU

C515
C516
C517
C518
C519

1-162-909-11
1-104-914-11
1-104-910-11
1-162-915-11
1-135-070-00

s
s
s
s
s

CERAMIC 4PF 0.25PF 50V
TANTAL 22uF 20% 16V
CHIP,TANTALUM 15uF 10% 10V
CERAMIC, CHIP 10PF 5PF 50V
TANTALUM, CHIP 0.1uF 10% 35V

IC305
IC306
IC307
IC308
IC309

8-759-925-90
8-759-082-57
8-759-082-58
8-759-058-62
8-759-082-59

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HC74ANS
TC7W04FU
TC7W08FU
TC7S08FU(TE85R)
TC7W32FU

C520
C521
C522
C524
C525

1-104-914-11
1-104-914-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTAL 22uF 20% 16V
TANTAL 22uF 20% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC310
IC322
IC351
IC352
IC400

8-759-082-58
8-759-032-01
8-759-925-90
8-759-058-58
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7W08FU
MC74HC00AF
SN74HC74ANS
TC7S04FU(TE85R)
TC4W53FU

C601
C602
C603
C604

1-164-156-11
1-164-156-11
1-162-907-11
1-162-927-11

s
s
s
s

CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP

IC404
IC410
IC420

8-759-209-57 s IC TC4S69F
8-759-082-61 s IC TC4W53FU
8-759-082-61 s IC TC4W53FU

5-24

25V
25V
2PF 50V
100PF 5% 50V

BVP-550

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

IC500
IC501
IC502
IC601
IC621

8-759-066-59
8-759-981-48
8-759-082-58
8-759-054-61
8-759-054-61

IC641
IC701
IC702

8-759-054-61 s IC CLC505AJE
8-759-988-13 s IC LM393PS
8-759-195-81 s IC TC7S86FU

L1
L2
L3
L150
L201

1-410-737-31
1-410-737-31
1-410-737-31
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

0.47uH
0.47uH
0.47uH
1uH
1uH

L202
L203
L301
L400
L401

1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

1uH
1uH
1uH
1uH
1uH

L402
L500
L501
L502
L601

1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11
1-410-369-11

s
s
s
s
s

INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR
INDUCTOR

CHIP
CHIP
CHIP
CHIP
CHIP

1uH
1uH
1uH
1uH
1uH

L602
L603
L700

1-410-369-11 s INDUCTOR CHIP 1uH
1-410-369-11 s INDUCTOR CHIP 1uH
1-410-369-11 s INDUCTOR CHIP 1uH

Q1
Q2
Q10
Q20
Q30

8-729-117-16
8-729-117-32
8-729-141-48
8-729-141-75
8-729-141-75

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SB624-BV345
2SD596DV345
2SD596DV345

Q101
Q102
Q103
Q109
Q110

8-729-122-63
8-729-122-63
8-729-122-63
8-729-117-16
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SA1226
2SA1611-M6
2SC4177

Q205
Q206
Q207
Q208
Q209

8-729-117-16
8-729-117-32
8-729-117-16
8-729-117-32
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SA1611-M6
2SC4177
2SA1611-M6

Q210
Q211
Q250
Q251
Q252

8-729-117-16
8-729-117-32
8-729-117-32
8-729-117-16
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SC4177
2SA1611-M6
2SA1611-M6

Q271
Q272
Q273
Q352
Q353

8-729-117-16
8-729-117-16
8-729-117-16
8-729-920-48
8-729-920-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1611-M6
2SA1611-M6
IMH2
IMH2

Q354
Q401
Q402
Q403
Q404

8-729-028-91
8-729-117-16
8-729-117-32
8-729-026-32
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTA144EUA-T106
2SA1611-M6
2SC4177
XP6534
2SC4178-F14

Q405
Q406
Q410

8-729-117-16 s TRANSISTOR 2SA1611-M6
8-729-117-32 s TRANSISTOR 2SC4177
8-729-026-32 s TRANSISTOR XP6534

BVP-550

s
s
s
s
s

IC
IC
IC
IC
IC

TC74HC4053AFS
TL082M
TC7W08FU
CLC505AJE
CLC505AJE

SP Description

Q411
Q412
Q413
Q414
Q420

8-729-117-73
8-729-117-16
8-729-117-16
8-729-117-32
8-729-026-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1611-M6
2SA1611-M6
2SC4177
XP6534

Q421
Q422
Q423
Q424
Q430

8-729-117-73
8-729-117-16
8-729-117-16
8-729-117-32
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SA1611-M6
2SA1611-M6
2SC4177
2SA1611-M6

Q431
Q500
Q501
Q502
Q503

8-729-117-32
8-729-026-32
8-729-122-63
8-729-102-08
8-729-026-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
XP6534
2SA1226
2SC2223-F14
XP6534

Q504
Q505
Q506
Q507
Q508

8-729-122-63
8-729-102-08
8-729-026-32
8-729-122-63
8-729-102-08

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SC2223-F14
XP6534
2SA1226
2SC2223-F14

Q509
Q510
Q701
Q702
Q703

8-729-117-16
8-729-117-32
8-729-230-49
8-729-800-37
8-729-141-48

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SC4177
2SC2712-YG
2SD1048-X7
2SB624-BV345

R1
R2
R8
R9
R10

1-218-867-11
1-218-704-11
1-218-748-11
1-218-748-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
METAL

R13
R14
R15
R23
R24

1-218-677-11
1-218-723-11
1-218-724-11
1-216-864-11
1-218-723-11

s
s
s
s
s

CHIP, METAL 240 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 20K 0.50% 1/16W

R25
R33
R34
R35
R100

1-218-723-11
1-218-856-11
1-218-729-11
1-218-723-11
1-218-856-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

20K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 36K 0.50% 1/16W
20K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W

R101
R102
R103
R104
R105

1-218-708-11
1-218-710-11
1-218-840-11
1-218-858-11
1-218-840-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

4.7K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 510 0.50% 1/16W
METAL 3K 0.50% 1/16W
METAL 510 0.50% 1/16W

R110
R111
R151
R152
R153

1-218-867-11
1-218-704-11
1-216-857-11
1-218-748-11
1-218-740-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W
CHIP, METAL 220K 0.50% 1/16W
METAL 100K 0.50% 1/16W

R154
R155
R156
R198
R199

1-218-668-11
1-218-668-11
1-218-668-11
1-216-857-11
1-216-857-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

100 0.50% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W
1M 5% 1/16W
1M 5% 1/16W

R200
R201
R202
R203

1-218-668-11
1-218-668-11
1-218-668-11
1-218-867-11

s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,

100 0.50% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W
6.8K 0.50% 1/16W

METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 220K 0.50% 1/16W
METAL 220K 0.50% 1/16W
10K 0.50% 1/16W

METAL
METAL
METAL
METAL

5-25

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R204
R205
R206
R207
R208

1-218-704-11
1-218-668-11
1-218-867-11
1-218-668-11
1-218-704-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
METAL

3.3K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 100 0.50% 1/16W
3.3K 0.50% 1/16W

R400
R401
R402
R403
R404

1-218-668-11
1-218-867-11
1-218-704-11
1-218-836-11
1-218-858-11

s
s
s
s
s

CHIP,
CHIP,
METAL
CHIP,
CHIP,

METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 360 0.50% 1/16W
METAL 3K 0.50% 1/16W

R209
R210
R211
R212
R213

1-218-668-11
1-218-867-11
1-218-668-11
1-218-867-11
1-218-704-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
METAL

METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
3.3K 0.50% 1/16W

R405
R406
R407
R408
R409

1-218-729-11
1-218-710-11
1-218-706-11
1-218-700-11
1-218-702-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 36K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W
2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W

R214
R221
R222
R224
R225

1-218-668-11
1-218-692-11
1-218-724-11
1-211-981-11
1-218-845-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R410
R411
R412
R413
R414

1-218-706-11
1-218-692-11
1-218-724-11
1-218-867-11
1-218-851-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

3.9K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 22K 5% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

R226
R227
R228
R229
R230

1-218-688-11
1-218-883-11
1-218-692-11
1-211-990-11
1-211-990-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
CHIP,

680 0.50% 1/16W
33K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 75 0.50% 1/16W

R415
R416
R417
R418
R419

1-218-664-11
1-218-672-11
1-218-856-11
1-218-710-11
1-218-706-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
METAL

METAL 68 0.50% 1/16W
150 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
3.9K 0.50% 1/16W

R250
R251
R252
R253
R254

1-218-668-11
1-218-740-11
1-218-700-11
1-218-883-11
1-218-692-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
CHIP,

METAL 100 0.50% 1/16W
100K 0.50% 1/16W
2.2K 0.50% 1/16W
33K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R420
R421
R422
R423
R424

1-218-700-11
1-218-702-11
1-218-706-11
1-218-867-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
CHIP,

2.2K 0.50% 1/16W
METAL 2.7K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R256
R257
R258
R259
R261

1-218-840-11
1-218-706-11
1-218-722-11
1-218-840-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 510 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 18K 0.50% 1/16W
METAL 510 0.50% 1/16W
METAL 10K 0.5% 1/16W

R425
R426
R427
R428
R429

1-218-867-11
1-218-851-11
1-218-664-11
1-218-672-11
1-218-856-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 6.8K 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 68 0.50% 1/16W
150 0.50% 1/16W
METAL 2.4K 0.50% 1/16W

R263
R264
R271
R272
R273

1-216-857-11
1-218-668-11
1-218-710-11
1-218-692-11
1-218-704-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W

R430
R431
R432
R433
R434

1-218-710-11
1-218-706-11
1-218-700-11
1-218-702-11
1-218-706-11

s
s
s
s
s

CHIP,
METAL
METAL
CHIP,
METAL

METAL 5.6K
3.9K 0.50%
2.2K 0.50%
METAL 2.7K
3.9K 0.50%

R274
R275
R276
R277
R278

1-218-710-11
1-218-692-11
1-218-867-11
1-218-710-11
1-218-692-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

5.6K 0.50% 1/16W
1K 0.50% 1/16W
6.8K 0.50% 1/16W
5.6K 0.50% 1/16W
1K 0.50% 1/16W

R435
R436
R437
R438
R439

1-218-867-11
1-218-692-11
1-218-867-11
1-218-851-11
1-218-664-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

R279
R310
R311
R315
R320

1-218-867-11
1-218-668-11
1-218-708-11
1-216-855-11
1-218-668-11

s
s
s
s
s

CHIP, METAL 6.8K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 680K 5% 1/16W
CHIP, METAL 100 0.50% 1/16W

R440
R441
R442
R443
R444

1-218-668-11
1-218-714-11
1-218-668-11
1-218-692-11
1-218-867-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 100 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 6.8K 0.50% 1/16W

R321
R322
R323
R324
R325

1-218-668-11
1-216-857-11
1-216-857-11
1-218-668-11
1-218-668-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
CHIP, METAL
CHIP, METAL

100 0.50% 1/16W
1M 5% 1/16W
1M 5% 1/16W
100 0.50% 1/16W
100 0.50% 1/16W

R445
R446
R447
R448
R500

1-218-700-11
1-218-700-11
1-218-700-11
1-211-969-11
1-216-864-11

s
s
s
s
s

METAL 2.2K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R326
R327
R328
R329
R351

1-218-668-11
1-218-668-11
1-216-857-11
1-216-857-11
1-218-716-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL, CHIP 1M 5% 1/16W
METAL 10K 0.50% 1/16W

R501
R502
R503
R504
R505

1-216-864-11
1-216-864-11
1-218-858-11
1-216-864-11
1-218-698-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 3K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 1.8K 0.50% 1/16W

R352
R353
R354
R361

1-218-724-11
1-218-692-11
1-216-857-11
1-216-864-11

s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

R506
R507
R508
R509

1-218-671-11
1-218-851-11
1-218-698-11
1-218-694-11

s
s
s
s

CHIP,
CHIP,
METAL
CHIP,

5-26

METAL
METAL
METAL
METAL
METAL

100 0.50% 1/16W
1K 0.50% 1/16W
22K 5% 1/16W
33 0.50% 1/16W
820 0.50% 1/16W

22K 5% 1/16W
1K 0.50% 1/16W
1M 5% 1/16W
0 5% 1/16W

0.50% 1/16W
1/16W
1/16W
0.50% 1/16W
1/16W

6.8K 0.50% 1/16W
1K 0.50% 1/16W
6.8K 0.50% 1/16W
1.5K 0.50% 1/16W
68 0.50% 1/16W

METAL 130 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 1.2K 0.50% 1/16W

BVP-550

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

(IF-510 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R510
R511
R512
R513
R514

1-218-698-11
1-218-710-11
1-218-660-91
1-216-864-11
1-218-851-11

s
s
s
s
s

METAL 1.8K 0.50% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 47 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 1.5K 0.50% 1/16W

R627
R641
R642
R643
R644

1-211-990-11
1-218-699-11
1-218-699-11
1-216-864-11
1-218-680-11

s
s
s
s
s

CHIP, METAL 75 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 330 0.50% 1/16W

R515
R516
R517
R518
R519

1-211-969-11
1-218-858-11
1-216-864-11
1-218-851-11
1-218-650-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
METAL, CHIP

R645
R646
R647
R701
R702

1-218-692-11
1-218-883-11
1-211-990-11
1-218-732-11
1-218-716-11

s
s
s
s
s

CHIP,
METAL
CHIP,
METAL
METAL

METAL 1K 0.50% 1/16W
33K 0.50% 1/16W
METAL 75 0.50% 1/16W
47K 0.50% 1/16W
10K 0.50% 1/16W

R520
R521
R522
R523
R524

1-218-698-11
1-218-851-11
1-218-694-11
1-218-698-11
1-218-710-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

1/16W
0.50% 1/16W
0.50% 1/16W
1/16W
0.50% 1/16W

R703
R704
R705
R706
R707

1-218-723-11
1-218-725-11
1-218-732-11
1-218-732-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

20K
24K
47K
47K
33K

R525
R526
R527
R528
R529

1-218-660-91
1-216-864-11
1-218-851-11
1-211-969-11
1-216-864-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

47 0.50% 1/16W
0 5% 1/16W
1.5K 0.50% 1/16W
10 0.50% 1/16W
0 5% 1/16W

R708
R709
R710
R711
R712

1-218-881-11
1-216-631-11
1-216-631-11
1-216-631-11
1-216-631-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

METAL 27K
150 0.50%
150 0.50%
150 0.50%
150 0.50%

0.50% 1/16W
1/10W
1/10W
1/10W
1/10W

R530
R531
R532
R533
R534

1-218-858-11
1-218-698-11
1-218-694-11
1-218-846-11
1-211-992-11

s
s
s
s
s

CHIP, METAL 3K 0.50% 1/16W
METAL 1.8K 0.50% 1/16W
CHIP, METAL 1.2K 0.50% 1/16W
CHIP, METAL 910 0.50% 1/16W
CHIP,METAL 91 0.50% 1/16W

R713
R714
R715
R716
R717

1-216-631-11
1-216-631-11
1-218-727-11
1-218-716-11
1-218-668-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

150 0.50%
150 0.50%
30K 0.50%
10K 0.50%
METAL 100

1/10W
1/10W
1/16W
1/16W
0.50% 1/16W

R535
R536
R537
R538
R539

1-218-840-11
1-218-699-11
1-218-664-11
1-218-698-11
1-218-660-91

s
s
s
s
s

CHIP,
CHIP,
CHIP,
METAL
CHIP,

METAL 510 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 68 0.50% 1/16W
1.8K 0.50% 1/16W
METAL 47 0.50% 1/16W

R718
R719
R721
R722

1-216-857-11
1-218-716-11
1-218-699-11
1-218-692-11

s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

RV101

1-241-260-11 s METAL, ADJ 500

R540
R541
R542
R543
R544

1-218-710-11
1-218-851-11
1-211-969-11
1-218-867-11
1-218-692-11

s
s
s
s
s

CHIP,
CHIP,
CHIP,
CHIP,
CHIP,

METAL
METAL
METAL
METAL
METAL

S1

1-572-272-11 s SWITCH, SLIDE

R545
R546
R547
R548
R549

1-218-704-11
1-218-668-11
1-218-668-11
1-218-716-11
1-218-740-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

3.3K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
10K 0.50% 1/16W
100K 0.50% 1/16W

R550
R551
R552
R553
R554

1-218-740-11
1-218-668-11
1-218-668-11
1-218-704-11
1-218-704-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

100K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
3.3K 0.50% 1/16W
3.3K 0.50% 1/16W

R555
R601
R602
R603
R604

1-218-716-11
1-218-699-11
1-218-698-11
1-218-670-11
1-218-680-11

s
s
s
s
s

METAL
CHIP,
METAL
METAL
METAL

10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
1.8K 0.50% 1/16W
120 0.50% 1/16W
330 0.50% 1/16W

R605
R606
R607
R621
R622

1-218-692-11
1-218-883-11
1-211-990-11
1-218-699-11
1-218-699-11

s
s
s
s
s

CHIP,
METAL
CHIP,
CHIP,
CHIP,

METAL 1K 0.50% 1/16W
33K 0.50% 1/16W
METAL 75 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 2K 0.50% 1/16W

R623
R624
R625
R626

1-218-648-11
1-218-680-11
1-218-692-11
1-218-883-11

s
s
s
s

METAL
METAL
CHIP,
METAL

15 0.50% 1/16W
330 0.50% 1/16W
METAL 1K 0.50% 1/16W
33K 0.50% 1/16W

BVP-550

10 0.50% 1/16W
3K 0.50% 1/16W
0 5% 1/16W
1.5K 0.50% 1/16W
18 0.50% 1/16

1.8K 0.50%
METAL 1.5K
METAL 1.2K
1.8K 0.50%
METAL 5.6K

5.6K 0.50% 1/16W
1.5K 0.50% 1/16W
10 0.50% 1/16W
6.8K 0.50% 1/16W
1K 0.50% 1/16W

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

5-27

-----------MB-602 BOARD
-----------Ref. No.
or Q'ty Part No.

(MB-602 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
15pcs

A-8269-358-A o MOUNTED CIRCUIT BOARD, MB-602
3-729-061-01 s SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C6
C7
C8
C9
C10

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C16
C17
C18
C19
C20

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C21
C22
C23
C24
C25

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C26
C27
C28
C29
C30

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

C31

1-164-156-11 s CERAMIC 0.1uF 25V

CN7
CN11
CN12
CN13
CN14

1-569-629-11
1-569-532-11
1-569-532-11
1-569-532-11
1-569-531-11

s
s
s
s
s

HOUSING,
HOUSING,
HOUSING,
HOUSING,
HOUSING,

CN15
CN21
CN22
CN23
CN31

1-764-088-11
1-764-093-21
1-774-260-11
1-774-261-21
1-750-934-21

o
o
o
o
o

PIN, CONNECTOR
PIN, CONNECTOR
CONNECTOR, FFC
CONNECTOR, FFC
PIN, CONNECTOR

CN32
CN41
CN42
CN51

1-764-097-11
1-569-629-11
1-750-635-21
1-770-580-11

o
s
o
o

PIN, CONNECTOR (PC BOARD) 12P
HOUSING, 24P
PIN, CONNECTOR (PC BOARD) 5P
SOCKET, CONNECTOR(PCB-PCB) 26P

D1

8-719-042-14 s DIODE DE5LC20U-TA2

IC1
IC2
IC3
IC4
IC5

8-759-080-02
8-759-080-02
8-759-080-02
8-759-080-02
8-759-086-42

Q1
Q2

8-729-119-61 s TRANSISTOR 2SA811A-C15
8-729-271-32 s TRANSISTOR 2SC2713-L

R1

1-216-864-11 s METAL, CHIP 0 5% 1/16W

5-28

s
s
s
s
s

IC
IC
IC
IC
IC

SP Description

R2
R3
R4
R6
R7

1-216-864-11
1-216-864-11
1-216-864-11
1-216-864-11
1-216-833-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
0 5% 1/16W
10K 5% 1/16W

R8
R9
R10
R11
R12

1-216-842-11
1-216-833-11
1-216-833-11
1-216-829-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

56K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
4.7K 5% 1/16W
100K 5% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

RB6
RB7
RB8

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)
1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

S1

1-572-272-11 s SWITCH, SLIDE

-----------PR-211 BOARD
-----------Ref. No.
or Q'ty Part No.
1pc

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

SP Description

A-8269-357-A o MOUNTED CIRCUIT BOARD, PR-211

24P
30P
30P
30P
20P
(PC BOARD) 3P
(PC BOARD) 8P
(ZIF) 20P
(ZIF) 24P
20P

TC74VHC541FS(EL)
TC74VHC541FS(EL)
TC74VHC541FS(EL)
TC74VHC541FS(EL)
X24C02S-3.0-C7000

BVP-550

-----------SG-234 BOARD
-----------Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

1pc
1pc
1pc
6pcs

A-8269-361-A
3-692-127-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, SG-234
PANEL,SG-234 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-177-21
1-135-159-21
1-135-214-21
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 10uF 10% 20V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C6
C7
C8
C9
C10

1-135-164-21
1-164-156-11
1-135-177-21
1-135-215-21
1-135-215-21

s
s
s
s
s

TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V

C11
C12
C13
C14
C15

1-164-156-11
1-164-156-11
1-135-165-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C23
C24
C25
C26
C27

1-164-156-11
1-135-215-21
1-135-215-21
1-164-156-11
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V
TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V

C28
C29
C30
C31
C32

1-135-215-21
1-164-156-11
1-135-210-11
1-164-156-11
1-162-915-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 16V
CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 10PF 5PF 50V

C33
C34
C35
C36
C37

1-164-156-11
1-162-966-11
1-135-216-11
1-164-156-11
1-164-156-11

s
s
s
s
s

C38
C39
C40
C41
C42

1-162-921-11
1-164-156-11
1-162-921-11
1-162-923-11
1-164-156-11

C43
C45
C46
C47
C48

SP Description

C66
C67
C68
C69
C70

1-164-156-11
1-164-156-11
1-135-210-11
1-164-156-11
1-162-970-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V

C71
C72
C73
C74
C75

1-135-076-21
1-135-217-21
1-162-970-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 35V
TANTAL 15uF 20% 6.3
CERAMIC, CHIP 0.01uF 10% 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C76
C77
C78
C79
C80

1-135-216-11
1-164-156-11
1-164-156-11
1-162-909-11
1-164-315-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 4PF 0.25PF 50V
CERAMIC 470PF 5% 50V

C81
C82
C83
C85
C87

1-128-391-11
1-164-156-11
1-164-156-11
1-164-156-11
1-162-919-11

s
s
s
s
s

ELECT 330uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 22PF 5% 50V

C88
C89
C90
C92
C93

1-162-927-11
1-162-923-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC 0.1uF
CERAMIC 0.1uF

C94
C95
C96
C97
C98

1-164-156-11
1-135-178-11
1-164-156-11
1-135-179-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM CHIP 1.5uF 20% 20V
CERAMIC 0.1uF 25V
TANTAL 2.2uF 10% 16V
CERAMIC 0.1uF 25V

CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.0022uF 10% 50V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C99
C100
C200
C201

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC

s
s
s
s
s

CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC, CHIP
CERAMIC 0.1uF

D1
D2
D3
D4
D5

8-719-029-63
8-719-029-63
8-719-948-47
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
HSM88AS
RD4.3UH-T1
1SS302

1-162-925-11
1-135-211-11
1-164-346-11
1-164-156-11
1-135-215-21

s
s
s
s
s

CERAMIC, CHIP 68PF 5% 50V
TANTALUM, CHIP 6.8uF 20% 6.3V
CERAMIC 1uF 16V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 6.8uF 20% 16V

D6
D7
D8
D10
D11

8-719-404-35
8-719-404-35
8-719-041-68
8-719-948-47
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

MA141WK
MA141WK
RD3.3UH-T1
HSM88AS
1SS302

C49
C50
C51
C52
C53

1-164-156-11
1-135-210-11
1-135-161-21
1-135-216-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM 4.7uF 10% 10V
TANTALUM, CHIP 22uF 10% 10V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V

D12
D13
D14
D200
D201

8-719-948-47
8-719-948-47
8-719-948-47
8-719-820-41
8-719-948-47

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

HSM88AS
HSM88AS
HSM88AS
1SS302
HSM88AS

C54
C56
C57
C58
C59

1-164-156-11
1-165-128-11
1-135-161-21
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.22uF 16V
TANTALUM, CHIP 22uF 10% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

FL1

1-239-756-11 s FILTER, LOW PASS

C60
C62
C63
C64
C65

1-164-156-11
1-164-156-11
1-162-970-11
1-135-165-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 0.01uF 10% 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

IC3
IC5
IC8
IC11
IC12

8-759-076-06
8-759-254-49
8-759-082-57
8-759-082-58
8-759-064-36

IC13
IC16
IC17

8-759-066-59 s IC TC74HC4053AFS
8-752-360-44 s IC CXK1203AR
8-759-082-61 s IC TC4W53FU

BVP-550

33PF 5% 50V
25V
33PF 5% 50V
47PF 5% 50V
25V

s
s
s
s
s

IC
IC
IC
IC
IC

0.1uF
0.1uF
0.1uF
0.1uF

100PF 5% 50V
47PF 5% 50V
25V
25V
25V

25V
25V
25V
25V

TL064CPW
EL4581CS-TE2
TC7W04FU
TC7W08FU
MB88346BPFV

5-29

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

IC18
IC20
IC21
IC22
IC25

8-759-632-39
8-759-058-62
8-759-086-42
8-759-271-86
8-759-079-85

s
s
s
s
s

IC
IC
IC
IC
IC

M51958A-T1
TC7S08FU(TE85R)
X24C02S-3.0-C7000
TC7SH04FU
TC74VHC244FS(EL)

Q23
Q24
Q25
Q26
Q200

8-729-029-14
8-729-029-14
8-729-029-14
8-729-029-14
8-729-029-14

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106
DTC144EUA-T106

IC30
IC31
IC32
IC33
IC34

8-759-079-85
8-759-271-86
8-759-076-06
8-759-066-59
8-759-184-64

s
s
s
s
s

IC
IC
IC
IC
IC

TC74VHC244FS(EL)
TC7SH04FU
TL064CPW
TC74HC4053AFS
TC4W66FU

Q201
Q202
Q203
Q204
Q205

8-729-029-14
8-729-216-22
8-729-029-14
8-729-029-14
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

DTC144EUA-T106
2SA1162
DTC144EUA-T106
DTC144EUA-T106
2SC4177

IC35
IC36
IC37
IC38
IC39

8-759-049-86
8-759-180-08
8-759-082-58
8-759-083-94
8-759-195-81

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HCT244APW-E20
TC74HC4538AFS
TC7W08FU
TC7W74FU
TC7S86FU

R1
R2
R3
R5
R6

1-218-716-11
1-216-864-11
1-216-864-11
1-216-864-11
1-218-677-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
CHIP, METAL 240 0.50% 1/16W

IC40
IC41
IC42
IC43
IC44

8-759-082-60
8-759-082-61
8-759-049-86
8-759-058-54
8-759-082-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
TC4W53FU
SN74HCT244APW-E20
TC7S00FU(TE85R)
TC4W53FU

R7
R8
R9
R10
R11

1-218-723-11
1-218-724-11
1-218-729-11
1-218-723-11
1-216-864-11

s
s
s
s
s

METAL 20K 0.50% 1/16W
CHIP, METAL 22K 5% 1/16W
CHIP, METAL 36K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

IC45
IC46
IC47
IC48
IC200

8-759-271-86
8-759-082-61
8-759-082-61
8-759-173-16
8-759-079-61

s
s
s
s
s

IC
IC
IC
IC
IC

TC7SH04FU
TC4W53FU
TC4W53FU
TL062CPW
TC74VHC74FS(EL)

R15
R16
R17
R18
R21

1-216-864-11
1-218-724-11
1-218-720-11
1-216-845-11
1-218-692-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
CHIP, METAL 22K 5% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W

IC201
IC202
IC203
IC204
IC206

8-759-058-58
8-759-058-64
8-759-058-62
8-759-082-61
8-759-173-16

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S04FU(TE85R)
TC7S32FU(TE85R)
TC7S08FU(TE85R)
TC4W53FU
TL062CPW

R22
R23
R24
R25
R26

1-218-692-11
1-216-805-11
1-218-704-11
1-216-831-11
1-218-700-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 6.8K 5% 1/16W
METAL 2.2K 0.50% 1/16W

IC207

8-759-058-55 s IC TC7S02FU-TE85L

L1
L2
L4
L5
L6

1-410-737-31
1-410-737-31
1-410-737-31
1-410-385-11
1-410-385-11

R27
R28
R29
R30
R31

1-218-700-11
1-218-706-11
1-218-873-11
1-218-716-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

2.2K 0.50% 1/16W
3.9K 0.50% 1/16W
METAL 12K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W

L7
L8
L9

1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH

R32
R33
R34
R35
R36

1-218-720-11
1-218-708-11
1-218-724-11
1-218-732-11
1-218-704-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

15K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 22K 5% 1/16W
47K 0.50% 1/16W
3.3K 0.50% 1/16W

Q1
Q2
Q4
Q5
Q6

8-729-141-48
8-729-141-48
8-729-141-75
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SB624-BV345
2SD596DV345
2SC4178-F14
2SA1611-M6

R37
R38
R39
R40
R41

1-218-706-11
1-218-716-11
1-218-736-11
1-218-889-11
1-218-716-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
METAL

3.9K 0.50% 1/16W
10K 0.50% 1/16W
68K 0.50% 1/16W
METAL 56K 0.50% 1/16W
10K 0.50% 1/16W

Q7
Q8
Q9
Q10
Q11

8-729-117-32
8-729-117-73
8-729-117-32
8-729-117-73
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4177
2SC4178-F14
2SC4177

R42
R43
R44
R45
R46

1-218-704-11
1-218-740-11
1-218-845-11
1-218-700-11
1-218-700-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

3.3K 0.50% 1/16W
100K 0.50% 1/16W
METAL 820 0.50% 1/16W
2.2K 0.50% 1/16W
2.2K 0.50% 1/16W

Q12
Q14
Q15
Q16
Q17

8-729-403-29
8-729-117-32
8-729-117-73
8-729-118-56
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6435
2SC4177
2SC4178-F14
2SK852-X2
2SC4177

R47
R48
R49
R50
R51

1-218-716-11
1-218-720-11
1-216-809-11
1-216-817-11
1-218-692-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 15K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 470 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W

Q18
Q20
Q21
Q22

8-729-920-48
8-729-029-14
8-729-118-56
8-729-029-14

s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

IMH2
DTC144EUA-T106
2SK852-X2
DTC144EUA-T106

R52
R54
R55
R56

1-218-706-11
1-216-855-11
1-218-706-11
1-218-692-11

s
s
s
s

METAL 3.9K 0.50% 1/16W
METAL, CHIP 680K 5% 1/16W
METAL 3.9K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

5-30

s
s
s
s
s

INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR CHIP 0.47uH
INDUCTOR, CHIP 22uH
INDUCTOR, CHIP 22uH

BVP-550

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

(SG-234 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R57
R58
R59
R60
R61

1-216-845-11
1-216-809-11
1-216-809-11
1-216-809-11
1-218-833-11

s
s
s
s
s

METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP
CHIP, METAL

100K 5% 1/16W
100 5% 1/16W
100 5% 1/16W
100 5% 1/16W
270 0.50% 1/16W

R131
R132
R133
R134
R135

1-216-857-11
1-218-732-11
1-216-864-11
1-216-805-11
1-216-845-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
METAL 47K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 47 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R62
R63
R64
R65
R66

1-216-845-11
1-218-692-11
1-216-849-11
1-216-849-11
1-216-845-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP

100K 5% 1/16W
1K 0.50% 1/16W
220K 5% 1/16W
220K 5% 1/16W
100K 5% 1/16W

R136
R137
R138
R139
R140

1-216-849-11
1-216-849-11
1-218-692-11
1-218-697-11
1-218-899-11

s
s
s
s
s

METAL, CHIP 220K 5% 1/16W
METAL, CHIP 220K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 1.6K 0.50% 1/16W
CHIP, METAL 150K 0.50% 1/16W

R67
R68
R69
R71
R77

1-218-881-11
1-218-716-11
1-218-874-11
1-216-864-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 27K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 13K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R141
R144
R145
R146
R148

1-218-868-11
1-216-845-11
1-216-845-11
1-216-864-11
1-216-845-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
METAL, CHIP
METAL, CHIP
METAL, CHIP

R78
R79
R80
R81
R83

1-218-692-11
1-218-716-11
1-216-809-11
1-216-809-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 0 5% 1/16W

R149
R150
R151
R152
R153

1-216-864-11
1-216-864-11
1-218-732-11
1-218-732-11
1-218-732-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W

R84
R85
R86
R90
R92

1-216-809-11
1-216-805-11
1-216-805-11
1-216-805-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R154
R200
R201
R202
R203

1-218-732-11
1-218-692-11
1-216-845-11
1-216-845-11
1-216-829-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W

R95
R96
R97
R98
R99

1-218-692-11
1-218-716-11
1-218-716-11
1-218-716-11
1-218-883-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

METAL 1K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W
10K 0.50% 1/16W
33K 0.50% 1/16W

R204
R205
R206
R207
R208

1-218-716-11
1-216-845-11
1-216-845-11
1-216-829-11
1-216-845-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R100
R101
R102
R103
R104

1-218-692-11
1-218-692-11
1-218-740-11
1-218-732-11
1-218-710-11

s
s
s
s
s

CHIP,
CHIP,
METAL
METAL
CHIP,

METAL 1K 0.50% 1/16W
METAL 1K 0.50% 1/16W
100K 0.50% 1/16W
47K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W

R209
R210
R211

1-218-716-11 s METAL 10K 0.50% 1/16W
1-216-845-11 s METAL, CHIP 100K 5% 1/16W
1-216-845-11 s METAL, CHIP 100K 5% 1/16W

R105
R106
R107
R108
R109

1-218-716-11
1-218-710-11
1-218-710-11
1-218-700-11
1-218-732-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
METAL

10K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
2.2K 0.50% 1/16W
47K 0.50% 1/16W

RB1
RB2
RB3
RB4
RB5

1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11
1-239-409-11

RB10

1-239-409-11 s NETWORK, RESISTOR (CHIP TYPE)

R110
R111
R112
R113
R114

1-216-805-11
1-216-805-11
1-216-805-11
1-216-857-11
1-216-805-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

R115
R116
R117
R118
R119

1-218-692-11
1-216-805-11
1-218-716-11
1-216-845-11
1-216-845-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 47 5% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R121
R122
R123
R124
R126

1-216-857-11
1-218-692-11
1-218-716-11
1-216-845-11
1-216-797-11

s
s
s
s
s

METAL, CHIP 1M 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 10 5% 1/16W

R127
R128
R129
R130

1-218-692-11
1-218-692-11
1-216-849-11
1-216-857-11

s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

BVP-550

CHIP
CHIP
CHIP
CHIP
CHIP

CHIP
CHIP
CHIP
CHIP
CHIP

100 5% 1/16W
47 5% 1/16W
47 5% 1/16W
47 5% 1/16W
47 5% 1/16W

47
47
47
1M
47

5%
5%
5%
5%
5%

s
s
s
s
s

NETWORK,
NETWORK,
NETWORK,
NETWORK,
NETWORK,

7.5K
100K
100K
0 5%
100K

RESISTOR
RESISTOR
RESISTOR
RESISTOR
RESISTOR

0.50% 1/16W
5% 1/16W
5% 1/16W
1/16W
5% 1/16W

(CHIP
(CHIP
(CHIP
(CHIP
(CHIP

TYPE)
TYPE)
TYPE)
TYPE)
TYPE)

1/16W
1/16W
1/16W
1/16W
1/16W

1K 0.50% 1/16W
1K 0.50% 1/16W
220K 5% 1/16W
1M 5% 1/16W

5-31

-----------SW-730 BOARD
-----------Ref. No.
or Q'ty Part No.

-----------SW-731 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

SP Description

1pc

1-657-443-11 o PRINTED CIRCUIT BOARD, SW-730

1pc

1-657-444-12 o PRINTED CIRCUIT BOARD, SW-731

C1
C3

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

C1
C3
C4

1-164-156-11 s CERAMIC 0.1uF 25V
1-162-927-11 s CERAMIC, CHIP 100PF 5% 50V
1-164-156-11 s CERAMIC 0.1uF 25V

CN801

1-764-082-21 s PIN, CONNECTOR (PC BOARD) 11P
CN501

1-695-207-21 o PIN, CONNECTOR (PC BOARD) 6P

D1

8-719-106-43 s DIODE RD9.1M-B1
IC1

8-759-175-04 s IC PCF8574T-T

IC1

8-759-175-04 s IC PCF8574T-T

R1
R2
R3
R4
R5

1-216-827-11
1-216-833-11
1-216-833-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

3.3K 5% 1/16W
10K 5% 1/16W
10K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R1
R2
R3
R4
R5

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
1K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-845-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-821-11
1-216-864-11
1-216-849-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
1K 5% 1/16W
0 5% 1/16W
220K 5% 1/16W
220K 5% 1/16W

R11

1-216-845-11 s METAL, CHIP 100K 5% 1/16W

R11
R12
R13
R14
R15

1-216-845-11
1-216-845-11
1-216-845-11
1-216-849-11
1-216-849-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K
100K
100K
220K
220K

RV1

1-223-686-11 s RES, VAR, CARBON 5K/5K

S1
S2
S3

1-571-416-11 s SWITCH, TOGGLE
1-571-679-11 s SWITCH, TOGGLE
1-570-282-21 s SWITCH, KEY BOARD

S1
S2
S3
S4

1-571-415-11
1-571-415-11
1-571-415-11
1-571-415-11

s
s
s
s

SWITCH,
SWITCH,
SWITCH,
SWITCH,

5-32

5%
5%
5%
5%
5%

1/16W
1/16W
1/16W
1/16W
1/16W

TOGGLE
TOGGLE
TOGGLE
TOGGLE

BVP-550

-----------SW-732 BOARD
-----------Ref. No.
or Q'ty Part No.

-----------VA-163 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-442-12 o PRINTED CIRCUIT BOARD, SW-732

C1
C2

1-164-156-11 s CERAMIC 0.1uF 25V
1-164-156-11 s CERAMIC 0.1uF 25V

CN301

1-750-635-21 o PIN, CONNECTOR (PC BOARD) 5P

IC1

8-759-175-04 s IC PCF8574T-T

R1
R2
R3
R4
R5

1-216-845-11
1-216-845-11
1-216-845-11
1-216-845-11
1-216-821-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W
1K 5% 1/16W

R6
R7
R8
R9
R10

1-216-821-11
1-216-849-11
1-216-849-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL,
METAL,
METAL,
METAL,
METAL,

CHIP
CHIP
CHIP
CHIP
CHIP

1K 5% 1/16W
220K 5% 1/16W
220K 5% 1/16W
100K 5% 1/16W
100K 5% 1/16W

S1
S2
S3

1-570-985-11 s SWITCH, TOGGLE
1-570-985-11 s SWITCH, TOGGLE
1-571-396-11 s SWITCH, TOGGLE

-----------SW-733 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-445-11 o PRINTED CIRCUIT BOARD, SW-733

CN701

1-764-079-21 s PIN, CONNECTOR (PC BOARD) 4P

S1

1-473-315-11 s ENCODER, ROTARY

-----------SW-742 BOARD
-----------Ref. No.
or Q'ty Part No.

SP Description

1pc

1-657-446-11 o PRINTED CIRCUIT BOARD, SW-742

CN601

1-764-078-11 s PIN, CONNECTOR (PC BOARD) 3P

S1

1-554-088-00 s SWITCH, TACTILE

BVP-550

SP Description

1pc
1pc
1pc
6pcs

A-8269-359-A
3-692-125-02
3-724-753-01
3-729-061-01

o
o
o
s

MOUNTED CIRCUIT BOARD, VA-163
PANEL,VA-163 PC BOARD
RING
SCREW (M2X4.5) (TYPE 1)

C1
C2
C3
C4
C5

1-135-216-11
1-164-156-11
1-164-156-11
1-135-216-11
1-135-216-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
TANTALUM, CHIP 10uF 20% 10V

C6
C7
C8
C9
C10

1-135-216-11
1-164-156-11
1-164-156-11
1-135-217-21
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C11
C12
C13
C14
C15

1-135-161-21
1-126-391-11
1-135-177-21
1-135-177-21
1-135-125-21

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
ELECT 47uF 20% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTAL 33uF 20% 10V

C16
C17
C18
C19
C20

1-135-161-21
1-126-391-11
1-164-156-11
1-135-177-21
1-135-216-11

s
s
s
s
s

TANTALUM, CHIP 22uF 10% 10V
ELECT 47uF 20% 6.3V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 10uF 20% 10V

C21
C22
C23
C24
C25

1-164-156-11
1-164-156-11
1-164-156-11
1-135-216-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 10uF 20% 10V
CERAMIC 0.1uF 25V

C26
C27
C30
C31
C32

1-164-217-11
1-162-927-11
1-164-156-11
1-162-927-11
1-164-156-11

s
s
s
s
s

CERAMIC 150PF
CERAMIC, CHIP
CERAMIC 0.1uF
CERAMIC, CHIP
CERAMIC 0.1uF

C40
C41
C42
C43
C44

1-135-211-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 6.3V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C45
C46
C47
C48
C49

1-164-156-11
1-135-070-00
1-162-964-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 0.1uF 10% 35V
CERAMIC 0.001uF 10% 50V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C50
C51
C52
C53
C54

1-135-211-11
1-135-211-11
1-104-559-11
1-164-315-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 6.8uF 20% 6.3V
TANTALUM, CHIP 6.8uF 20% 6.3V
FILM, CHIP 0.047uF 5% 16V
CERAMIC 470PF 5% 50V
CERAMIC 0.1uF 25V

C55
C56
C57
C58
C59

1-164-156-11
1-135-177-21
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C60
C61
C62
C63
C64

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

5% 50V
100PF 5% 50V
25V
100PF 5% 50V
25V

25V
25V
25V
25V
25V

5-33

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

C65
C66
C67
C68
C69

1-135-217-21
1-135-217-21
1-135-217-21
1-164-156-11
1-135-217-21

s
s
s
s
s

TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
TANTAL 15uF 20% 6.3

C309
C311
C312
C314
C315

1-162-908-11
1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 3PF 0.25PF
TANTALUM, CHIP 1uF
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF
TANTALUM, CHIP 1uF

C70
C71
C72
C73
C124

1-135-217-21
1-135-217-21
1-164-156-11
1-162-918-11
1-107-685-11

s
s
s
s
s

TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V
CERAMIC, CHIP 18PF 5% 50V
TANTALUM 15uF 20% 6.3V

C316
C317
C318
C319
C320

1-164-156-11
1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C125
C200
C201
C202
C203

1-107-685-11
1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11

s
s
s
s
s

TANTALUM 15uF 20% 6.3V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

C321
C323
C324
C325
C326

1-164-156-11
1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3

C204
C205
C207
C208
C209

1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11
1-162-908-11

s
s
s
s
s

TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V
CERAMIC 3PF 0.25PF 50V

C327
C328
C329
C330
C331

1-164-156-11
1-135-162-21
1-135-157-21
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V

C211
C212
C214
C215
C216

1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 0.1uF 25V

C332
C333
C334
C335
C336

1-104-852-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

C217
C218
C219
C220
C221

1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C337
C338
C339
C340
C342

1-164-156-11
1-135-177-21
1-135-177-21
1-162-924-11
1-135-092-21

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V

C223
C224
C225
C226
C227

1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21
1-164-156-11

s
s
s
s
s

CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3
CERAMIC 0.1uF 25V

C343
C359
C400
C401
C402

1-135-210-11
1-135-177-21
1-135-214-21
1-164-156-11
1-135-165-11

s
s
s
s
s

TANTALUM 4.7uF 10% 10V
TANTALUM, CHIP 1uF 10% 25V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V

C228
C229
C230
C231
C232

1-135-162-21
1-135-157-21
1-135-177-21
1-135-177-21
1-135-161-21

s
s
s
s
s

TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 10% 10V

C403
C404
C405
C407
C408

1-164-156-11
1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11

s
s
s
s
s

CERAMIC 0.1uF 25V
TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V

C233
C234
C235
C236
C237

1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C409
C411
C412
C414
C415

1-162-908-11
1-135-177-21
1-164-156-11
1-135-177-21
1-135-177-21

s
s
s
s
s

CERAMIC 3PF 0.25PF
TANTALUM, CHIP 1uF
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF
TANTALUM, CHIP 1uF

C238
C239
C240
C242
C243

1-135-177-21
1-135-177-21
1-162-924-11
1-135-092-21
1-135-210-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V
TANTALUM, CHIP 3.3uF 10% 16V
TANTALUM 4.7uF 10% 10V

C416
C417
C418
C419
C420

1-164-156-11
1-162-909-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

CERAMIC
CERAMIC
CERAMIC
CERAMIC
CERAMIC

C259
C300
C301
C302
C303

1-135-177-21
1-135-214-21
1-164-156-11
1-135-165-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTAL 4.7uF 20% 20V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 16V
CERAMIC 0.1uF 25V

C421
C423
C424
C425
C426

1-164-156-11
1-164-156-11
1-104-608-11
1-135-217-21
1-135-217-21

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
ELECT 33uF 20% 6.3V
TANTAL 15uF 20% 6.3
TANTAL 15uF 20% 6.3

C304
C305
C307
C308

1-135-157-21
1-164-156-11
1-162-920-11
1-126-392-11

s
s
s
s

TANTAL 10uF 10% 6.3V
CERAMIC 0.1uF 25V
CERAMIC, CHIP 27PF 5% 50V
ELECT, CHIP 100uF 20% 6.3V

C427
C428
C429
C430

1-164-156-11
1-135-162-21
1-135-157-21
1-135-177-21

s
s
s
s

CERAMIC 0.1uF 25V
TANTALUM, CHIP 33uF 10% 6.3V
TANTAL 10uF 10% 6.3V
TANTALUM, CHIP 1uF 10% 25V

5-34

4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V
0.1uF 25V

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

25V
25V
25V
25V
25V

50V
10% 25V
10% 25V
10% 25V

0.1uF 25V
4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V

50V
10% 25V
10% 25V
10% 25V

0.1uF 25V
4PF 0.25PF 50V
0.1uF 25V
0.1uF 25V
0.1uF 25V

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
SP Description

Ref. No.
or Q'ty Part No.

SP Description

C431
C432
C433
C434
C435

1-135-177-21
1-104-852-11
1-164-156-11
1-164-156-11
1-164-156-11

s
s
s
s
s

TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 22uF 20% 10V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V

IC300
IC301
IC302
IC303
IC304

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

C436
C437
C438
C439
C440

1-164-156-11
1-164-156-11
1-135-177-21
1-135-177-21
1-162-924-11

s
s
s
s
s

CERAMIC 0.1uF 25V
CERAMIC 0.1uF 25V
TANTALUM, CHIP 1uF 10% 25V
TANTALUM, CHIP 1uF 10% 25V
CERAMIC 56PF 5% 50V

IC400
IC401
IC402
IC403
IC404

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

C442
C443
C459

1-135-092-21 s TANTALUM, CHIP 3.3uF 10% 16V
1-135-210-11 s TANTALUM 4.7uF 10% 10V
1-135-177-21 s TANTALUM, CHIP 1uF 10% 25V

L1
L2

1-410-385-11 s INDUCTOR, CHIP 22uH
1-410-385-11 s INDUCTOR, CHIP 22uH

CT200
CT300
CT400

1-141-311-11 s CAP, VAR, TRIMMER
1-141-311-11 s CAP, VAR, TRIMMER
1-141-311-11 s CAP, VAR, TRIMMER

Q1
Q2
Q3
Q4
Q5

8-729-141-48
8-729-820-86
8-729-141-75
8-729-117-32
8-729-402-78

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SB624-BV345
2SB1121-ST
2SD596DV345
2SC4177
XN6401

D1
D2
D3
D4
D5

8-719-029-63
8-719-029-63
8-719-029-63
8-719-029-63
8-719-820-41

s
s
s
s
s

DIODE
DIODE
DIODE
DIODE
DIODE

RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
RD4.3UH-T1
1SS302

Q7
Q10
Q11
Q12
Q13

8-729-141-75
8-729-402-78
8-729-402-19
8-729-402-19
8-729-402-19

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SD596DV345
XN6401
XN6501
XN6501
XN6501

D7
D8
D9
D10

8-719-974-76
8-719-820-41
8-719-820-41
8-719-820-41

s
s
s
s

DIODE
DIODE
DIODE
DIODE

HSM107S
1SS302
1SS302
1SS302

FL200
FL300
FL400

1-402-639-11 s FILTER, TRAP
1-402-639-11 s FILTER, TRAP
1-402-639-11 s FILTER, TRAP

Q14
Q200
Q201
Q202
Q203

8-729-402-78
8-729-117-16
8-729-175-73
8-729-122-63
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6401
2SA1611-M6
2SC2757
2SA1226
2SA1611-M6

IC1
IC3
IC5
IC6
IC7

8-759-076-06
8-759-066-68
8-759-180-08
8-759-175-02
8-759-058-64

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
REF-03GS
TC74HC4538AFS
TL074CPW-ELM1000
TC7S32FU(TE85R)

Q204
Q205
Q206
Q207
Q208

8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07
8-729-117-32

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33
2SC4177

IC8
IC9
IC10
IC11
IC12

8-759-082-60
8-759-085-67
8-759-058-58
8-759-058-58
8-759-175-02

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
LM339NS
TC7S04FU(TE85R)
TC7S04FU(TE85R)
TL074CPW-ELM1000

Q209
Q210
Q211
Q212
Q213

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

IC13
IC14
IC15
IC16
IC17

8-759-082-60
8-759-082-60
8-759-076-06
8-759-326-65
8-759-066-59

s
s
s
s
s

IC
IC
IC
IC
IC

TC7S66FU
TC7S66FU
TL064CPW
MP7670AS-TE2
TC74HC4053AFS

Q214
Q215
Q216
Q217
Q218

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1611-M6

IC18
IC19
IC20
IC21
IC22

8-759-326-65
8-759-175-02
8-759-237-79
8-759-064-36
8-759-066-59

s
s
s
s
s

IC
IC
IC
IC
IC

MP7670AS-TE2
TL074CPW-ELM1000
TC74HC595AF(EL)
MB88346BPFV
TC74HC4053AFS

Q219
Q220
Q300
Q301
Q302

8-729-402-19
8-729-402-19
8-729-117-16
8-729-175-73
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6501
XN6501
2SA1611-M6
2SC2757
2SA1226

IC23
IC24
IC25
IC26
IC27

8-759-049-60
8-759-059-50
8-759-058-58
8-759-086-42
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

SN74HC08APW-E05
MB88351PFV
TC7S04FU(TE85R)
X24C02S-3.0-C7000
TC7S08FU(TE85R)

Q303
Q304
Q305
Q306
Q307

8-729-117-16
8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33

IC200
IC201
IC202
IC203
IC204

8-759-076-06
8-759-082-61
8-752-068-64
8-759-082-61
8-759-058-62

s
s
s
s
s

IC
IC
IC
IC
IC

TL064CPW
TC4W53FU
CXA1486Q-TH
TC4W53FU
TC7S08FU(TE85R)

Q308
Q309
Q310
Q311
Q312

8-729-117-32
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

Q313

8-729-117-73 s TRANSISTOR 2SC4178-F14

BVP-550

5-35

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

Q314
Q315
Q316
Q317
Q318

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-16

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SA1611-M6

R31
R35
R36
R37
R38

1-218-700-11
1-218-668-11
1-218-668-11
1-218-668-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

Q319
Q320
Q400
Q401
Q402

8-729-402-19
8-729-402-19
8-729-117-16
8-729-175-73
8-729-122-63

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

XN6501
XN6501
2SA1611-M6
2SC2757
2SA1226

R39
R40
R41
R42
R43

1-216-857-11
1-218-668-11
1-216-809-11
1-218-873-11
1-218-851-11

s
s
s
s
s

METAL, CHIP
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

1M 5% 1/16W
100 0.50% 1/16W
100 5% 1/16W
12K 0.50% 1/16W
1.5K 0.50% 1/16W

Q403
Q404
Q405
Q406
Q407

8-729-117-16
8-729-122-63
8-729-122-63
8-729-117-73
8-729-143-07

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SA1611-M6
2SA1226
2SA1226
2SC4178-F14
2SA1610-Y33

R44
R45
R46
R47
R48

1-218-851-11
1-218-851-11
1-218-699-11
1-216-833-11
1-216-833-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
METAL, CHIP

1.5K 0.50% 1/16W
1.5K 0.50% 1/16W
2K 0.50% 1/16W
10K 5% 1/16W
10K 5% 1/16W

Q408
Q409
Q410
Q411
Q412

8-729-117-32
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4177
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

R49
R50
R51
R52
R53

1-216-833-11
1-216-833-11
1-218-692-11
1-218-716-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W

Q413
Q414
Q415
Q416
Q417

8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73
8-729-117-73

s
s
s
s
s

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14
2SC4178-F14

R54
R55
R56
R57
R58

1-218-716-11
1-218-723-11
1-218-901-11
1-218-732-11
1-218-716-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
METAL

Q418
Q419
Q420

8-729-117-16 s TRANSISTOR 2SA1611-M6
8-729-402-19 s TRANSISTOR XN6501
8-729-402-19 s TRANSISTOR XN6501

R1
R2
R3
R4
R5

1-218-723-11
1-216-833-11
1-218-724-11
1-218-716-11
1-218-732-11

s
s
s
s
s

METAL 20K 0.50%
METAL, CHIP 10K
CHIP, METAL 22K
METAL 10K 0.50%
METAL 47K 0.50%

R59
R60
R61
R62
R63

1-218-732-11
1-218-732-11
1-208-854-11
1-216-853-11
1-218-883-11

s
s
s
s
s

METAL 47K 0.50% 1/16W
METAL 47K 0.50% 1/16W
CHIP,METAL 1M 0.50% 1/10W
METAL, CHIP 470K 5% 1/16W
METAL 33K 0.50% 1/16W

R6
R7
R8
R9
R10

1-218-724-11
1-218-716-11
1-218-716-11
1-216-823-11
1-218-724-11

s
s
s
s
s

CHIP, METAL 22K 5% 1/16W
METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 1.5K 5% 1/16W
CHIP, METAL 22K 5% 1/16W

R64
R65
R66
R67
R68

1-218-883-11
1-218-699-11
1-218-692-11
1-218-699-11
1-218-692-11

s
s
s
s
s

METAL
CHIP,
CHIP,
CHIP,
CHIP,

R11
R12
R13
R14
R15

1-218-716-11
1-218-716-11
1-218-668-11
1-216-845-11
1-216-845-11

s
s
s
s
s

METAL 10K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 100 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL, CHIP 100K 5% 1/16W

R69
R70
R71
R72
R73

1-218-699-11
1-218-692-11
1-218-883-11
1-216-864-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 2K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL, CHIP 0 5% 1/16W

R16
R17
R18
R19
R20

1-216-845-11
1-216-829-11
1-216-833-11
1-211-969-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 100K 5% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL 10K 0.50% 1/16W

R74
R75
R76
R77
R78

1-216-864-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-708-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 33K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R21
R22
R23
R24
R25

1-216-827-11
1-211-969-11
1-218-700-11
1-218-704-11
1-218-716-11

s
s
s
s
s

METAL, CHIP 3.3K 5% 1/16W
CHIP, METAL 10 0.50% 1/16W
METAL 2.2K 0.50% 1/16W
METAL 3.3K 0.50% 1/16W
METAL 10K 0.50% 1/16W

R79
R80
R81
R82
R83

1-218-708-11
1-218-708-11
1-218-708-11
1-218-708-11
1-218-708-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

4.7K
4.7K
4.7K
4.7K
4.7K

R26
R27
R28
R29
R30

1-218-700-11
1-218-692-11
1-218-716-11
1-218-714-11
1-218-716-11

s
s
s
s
s

METAL
CHIP,
METAL
METAL
METAL

R84
R85
R86
R87
R88

1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11
1-218-883-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

33K
33K
33K
33K
33K

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

R89
R90
R91
R92

1-218-883-11
1-218-883-11
1-218-716-11
1-218-716-11

s
s
s
s

METAL
METAL
METAL
METAL

33K
33K
10K
10K

0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W

5-36

1/16W
5% 1/16W
5% 1/16W
1/16W
1/16W

2.2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
10K 0.50% 1/16W
8.2K 0.50% 1/16W
10K 0.50% 1/16W

2.2K 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 100 0.50% 1/16W
METAL 1K 0.50% 1/16W

10K 0.50% 1/16W
20K 0.50% 1/16W
METAL 180K 0.50% 1/16W
47K 0.50% 1/16W
10K 0.50% 1/16W

33K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
METAL 1K 0.50% 1/16W

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

R93
R94
R95
R96
R97

1-218-716-11
1-218-732-11
1-218-732-11
1-218-732-11
1-218-732-11

s
s
s
s
s

METAL
METAL
METAL
METAL
METAL

10K
47K
47K
47K
47K

R230
R231
R232
R233
R234

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R98
R99
R100
R101
R102

1-218-714-11
1-218-714-11
1-218-699-11
1-218-873-11
1-218-692-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
12K 0.50% 1/16W
METAL 1K 0.50% 1/16W

R235
R236
R237
R238
R239

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R103
R104
R105
R106
R107

1-218-886-11
1-216-829-11
1-216-809-11
1-218-708-11
1-218-700-11

s
s
s
s
s

CHIP, METAL 43K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL 4.7K 0.50% 1/16W
METAL 2.2K 0.50% 1/16W

R240
R241
R242
R243
R244

1-218-710-11
1-218-699-11
1-216-809-11
1-218-699-11
1-218-842-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

R108
R109
R110
R111
R112

1-218-702-11
1-218-716-11
1-218-702-11
1-216-809-11
1-218-714-11

s
s
s
s
s

CHIP, METAL 2.7K 0.50% 1/16W
METAL 10K 0.50% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL 8.2K 0.50% 1/16W

R245
R246
R247
R248
R249

1-218-751-11
1-218-716-11
1-218-723-11
1-216-825-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 300K 0.50% 1/16
METAL 10K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 0 5% 1/16W

R113
R114
R115
R116
R117

1-218-668-11
1-218-723-11
1-218-699-11
1-216-845-11
1-218-702-11

s
s
s
s
s

CHIP, METAL 100 0.50% 1/16W
METAL 20K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
CHIP, METAL 2.7K 0.50% 1/16W

R250
R251
R252
R253
R254

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R118
R120
R121
R122
R123

1-216-829-11
1-218-704-11
1-216-809-11
1-216-809-11
1-216-809-11

s
s
s
s
s

METAL, CHIP 4.7K 5% 1/16W
METAL 3.3K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W
METAL, CHIP 100 5% 1/16W

R255
R256
R257
R258
R259

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
CHIP, METAL 11K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R200
R201
R202
R203
R204

1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11
1-218-727-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
METAL 30K 0.50% 1/16W

R260
R261
R262
R263
R264

1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11
1-218-858-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W

R205
R206
R207
R208
R209

1-218-732-11
1-218-708-11
1-218-710-11
1-218-856-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
20K 0.50% 1/16W

R265
R266
R267
R268
R269

1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11
1-218-692-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

R210
R211
R212
R213
R214

1-218-714-11
1-211-969-11
1-218-680-11
1-218-851-11
1-211-969-11

s
s
s
s
s

METAL
CHIP,
METAL
CHIP,
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W
METAL 10 0.50% 1/16W

R270
R271
R272
R280
R281

1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11
1-218-708-11

s
s
s
s
s

METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W

R215
R216
R217
R218
R219

1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11
1-218-699-11

s
s
s
s
s

METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W

R300
R301
R302
R303
R304

1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11
1-218-710-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W

R220
R222
R223
R224
R225

1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 750 0.50% 1/16W
CHIP, METAL 820 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
CHIP, METAL 5.6K 0.50% 1/16W
METAL 33K 0.50% 1/16W

R305
R306
R307
R308
R309

1-218-727-11
1-218-732-11
1-218-708-11
1-218-856-11
1-218-874-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

30K 0.50% 1/16W
47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 13K 0.50% 1/16W

R226
R227
R228
R229

1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

R310
R311
R312
R313

1-218-714-11
1-211-969-11
1-218-680-11
1-218-851-11

s
s
s
s

METAL
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

BVP-550

0.50%
0.50%
0.50%
0.50%
0.50%

1/16W
1/16W
1/16W
1/16W
1/16W

SP Description

10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W

39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
5.6K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W
2K 0.50% 1/16W
620 0.50% 1/16W

20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 1K 0.50% 1/16W

5-37

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

SP Description

SP Description

R314
R315
R316
R317
R318

1-211-969-11
1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11

s
s
s
s
s

CHIP, METAL 10 0.50% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W

R381
R400
R401
R402
R403

1-218-708-11
1-218-692-11
1-218-723-11
1-216-829-11
1-216-830-11

s
s
s
s
s

METAL 4.7K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 4.7K 5% 1/16W
METAL, CHIP 5.6K 5% 1/16W

R319
R320
R322
R323
R324

1-218-699-11
1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R404
R405
R406
R407
R408

1-218-727-11
1-218-732-11
1-218-708-11
1-218-856-11
1-218-874-11

s
s
s
s
s

METAL
METAL
METAL
CHIP,
CHIP,

30K 0.50% 1/16W
47K 0.50% 1/16W
4.7K 0.50% 1/16W
METAL 2.4K 0.50% 1/16W
METAL 13K 0.50% 1/16W

R325
R326
R327
R328
R329

1-218-883-11
1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

R409
R410
R411
R412
R413

1-218-714-11
1-211-969-11
1-218-710-11
1-218-680-11
1-218-851-11

s
s
s
s
s

METAL
CHIP,
CHIP,
METAL
CHIP,

8.2K 0.50% 1/16W
METAL 10 0.50% 1/16W
METAL 5.6K 0.50% 1/16W
330 0.50% 1/16W
METAL 1.5K 0.50% 1/16W

R330
R331
R332
R333
R334

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R414
R415
R416
R417
R418

1-211-969-11
1-218-680-11
1-218-692-11
1-216-797-11
1-218-717-11

s
s
s
s
s

CHIP, METAL 10 0.50% 1/16W
METAL 330 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
METAL, CHIP 10 5% 1/16W
CHIP, METAL 11K 0.50% 1/16W

R335
R336
R337
R338
R339

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R419
R420
R422
R423
R424

1-218-699-11
1-218-844-11
1-218-845-11
1-216-809-11
1-218-710-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL

R340
R341
R342
R343
R344

1-218-710-11
1-218-699-11
1-218-716-11
1-216-809-11
1-218-699-11

s
s
s
s
s

CHIP, METAL 5.6K 0.50% 1/16W
CHIP, METAL 2K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 100 5% 1/16W
CHIP, METAL 2K 0.50% 1/16W

R425
R426
R427
R428
R429

1-218-883-11
1-218-716-11
1-218-699-11
1-218-714-11
1-218-699-11

s
s
s
s
s

METAL
METAL
CHIP,
METAL
CHIP,

R345
R346
R347
R348
R349

1-218-842-11
1-218-750-11
1-218-723-11
1-216-825-11
1-216-864-11

s
s
s
s
s

CHIP, METAL 620 0.50% 1/16W
METAL 270K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W
METAL, CHIP 0 5% 1/16W

R430
R431
R432
R433
R434

1-218-730-11
1-216-821-11
1-218-692-11
1-218-699-11
1-216-809-11

s
s
s
s
s

CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL
METAL, CHIP

R350
R351
R352
R353
R354

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R435
R436
R437
R438
R439

1-218-672-11
1-218-732-11
1-218-692-11
1-218-699-11
1-218-723-11

s
s
s
s
s

METAL
METAL
CHIP,
CHIP,
METAL

R355
R356
R357
R358
R359

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11
1-218-723-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W
CHIP, METAL 11K 0.50% 1/16W
METAL 20K 0.50% 1/16W

R440
R441
R442
R443
R444

1-218-710-11
1-218-699-11
1-216-809-11
1-218-699-11
1-218-842-11

s
s
s
s
s

CHIP, METAL
CHIP, METAL
METAL, CHIP
CHIP, METAL
CHIP, METAL

R360
R361
R362
R363
R364

1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11
1-218-858-11

s
s
s
s
s

METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W
CHIP, METAL 3K 0.50% 1/16W

R445
R446
R447
R448
R449

1-218-740-11
1-218-723-11
1-216-864-11
1-218-716-11
1-216-825-11

s
s
s
s
s

METAL 100K 0.50% 1/16W
METAL 20K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W
METAL 10K 0.50% 1/16W
METAL, CHIP 2.2K 5% 1/16W

R365
R366
R367
R368
R369

1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11
1-218-692-11

s
s
s
s
s

METAL
METAL
METAL
METAL
CHIP,

R450
R451
R452
R453
R454

1-216-864-11
1-218-740-11
1-218-716-11
1-218-708-11
1-216-864-11

s
s
s
s
s

METAL, CHIP 0 5% 1/16W
METAL 100K 0.50% 1/16W
METAL 10K 0.50% 1/16W
METAL 4.7K 0.50% 1/16W
METAL, CHIP 0 5% 1/16W

R370
R371
R372
R380

1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11

s
s
s
s

METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W

R455
R456
R457
R458

1-216-833-11
1-218-692-11
1-218-858-11
1-218-717-11

s
s
s
s

METAL, CHIP
CHIP, METAL
CHIP, METAL
CHIP, METAL

5-38

2K 0.50% 1/16W
750 0.50% 1/16W
820 0.50% 1/16W
100 5% 1/16W
5.6K 0.50% 1/16W

33K 0.50% 1/16W
10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W

20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W
METAL 1K 0.50% 1/16W

2K 0.50% 1/16W
750 0.50% 1/16W
820 0.50% 1/16W
100 5% 1/16W
5.6K 0.50% 1/16W

33K 0.50% 1/16W
10K 0.50% 1/16W
METAL 2K 0.50% 1/16W
8.2K 0.50% 1/16W
METAL 2K 0.50% 1/16W
39K 0.50% 1/16W
1K 5% 1/16W
1K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W

150 0.50% 1/16W
47K 0.50% 1/16W
METAL 1K 0.50% 1/16W
METAL 2K 0.50% 1/16W
20K 0.50% 1/16W
5.6K 0.50% 1/16W
2K 0.50% 1/16W
100 5% 1/16W
2K 0.50% 1/16W
620 0.50% 1/16W

10K 5% 1/16W
1K 0.50% 1/16W
3K 0.50% 1/16W
11K 0.50% 1/16W

BVP-550

(VA-163 BOARD)
Ref. No.
or Q'ty Part No.

(FRAME)
Ref. No.
or Q'ty Part No.

SP Description

R459
R460
R461
R462
R463

1-218-723-11
1-216-833-11
1-216-833-11
1-218-727-11
1-218-692-11

s
s
s
s
s

METAL 20K 0.50% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL, CHIP 10K 5% 1/16W
METAL 30K 0.50% 1/16W
CHIP, METAL 1K 0.50% 1/16W

R464
R465
R466
R467
R468

1-218-858-11
1-218-723-11
1-218-716-11
1-218-698-11
1-218-704-11

s
s
s
s
s

CHIP,
METAL
METAL
METAL
METAL

R469
R470
R471
R472
R480

1-218-692-11
1-218-883-11
1-218-740-11
1-216-845-11
1-218-883-11

s
s
s
s
s

CHIP, METAL 1K 0.50% 1/16W
METAL 33K 0.50% 1/16W
METAL 100K 0.50% 1/16W
METAL, CHIP 100K 5% 1/16W
METAL 33K 0.50% 1/16W

R481

1-218-708-11 s METAL 4.7K 0.50% 1/16W

RV50
RV200
RV300
RV400

1-241-263-11
1-241-260-11
1-241-260-11
1-241-260-11

----FRAME
----Ref. No.
or Q'ty Part No.
!

s
s
s
s

METAL 3K 0.50% 1/16W
20K 0.50% 1/16W
10K 0.50% 1/16W
1.8K 0.50% 1/16W
3.3K 0.50% 1/16W

RES, ADJ, METALT 5K
METAL, ADJ 500
METAL, ADJ 500
METAL, ADJ 500

1-775-778-11 o FLEXIBLE CARD WIRE
(CN1120
1-777-000-11 s FLEXIBLE CARD WIRE
(MB-602
1-777-001-11 s FLEXIBLE CARD WIRE
(MB-602

CN2F(to PA-181 BOARD of
1-695-212-11 o
1-695-215-11 o
CN15F(to MB602 BOARD)
1-764-193-11 o
1-695-215-11 o
CN21F(to MB-602 BOARD)
1-764-196-11 o
1-695-215-11 o
CN31F(to MB-602 BOARD)
1-580-586-11 o
1-573-176-11 o
1-580-599-11 o
CN32F(to MB-602 BOARD)
1-695-892-11 o
1-695-215-11 o
CN42F(to MB-602 BOARD)
1-764-195-11 o
1-695-215-11 o
CN301F(to SW-732 BOARD)
1-764-195-11 o
1-695-215-11 o
CN402F(to CN1122 BOARD)
1-695-892-11 o
1-695-215-11 o
CN405F(to CN1122 BOARD)
1-764-198-11 o
1-695-215-11 o
CN406F(to CN1122 BOARD)
1-764-193-11 o
1-695-215-11 o
CN407F(to MB602 BOARD)
1-695-212-11 o
1-695-215-11 o
CN501F(to SW731 BOARD)
1-695-212-11 o
1-695-215-11 o
CN601F(to SW742 BOARD)
1-764-193-11 o
1-695-215-11 o
CN701F(to SW733 BOARD)
1-764-194-11 o
1-695-215-11 o

SP Description

1-473-314-11 s CONVERTER, D.C-D.C
1-775-774-11 o FLEXIBLE CARD WIRE (20
(CN-1121 TO
1-775-775-11 o FLEXIBLE CARD WIRE (24
(CN-1122 TO
1-775-776-11 o FLEXIBLE CARD WIRE (30
(CN1120 TO
1-775-777-11 o FLEXIBLE CARD WIRE (30
(CN1121 TO

SP Description

CORE)
MB-602)
CORE)
MB-602)
CORE)
MB-602)
CORE)
MB-602)

CCD UNIT)
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 8P
CONTACT, FEMALE AWG26-30
HOUSING, 20P
CONTACT, FEMALE AWG22-26
CONTACT, FEMALE AWG26-30
HOUSING, 12P
CONTACT, FEMALE AWG26-30
HOUSING, 5P
CONTACT, FEMALE AWG26-30
HOUSING, 5P
CONTACT, FEMALE AWG26-30
HOUSING, 12P
CONTACT, FEMALE AWG26-30
HOUSING, 11P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 6P
CONTACT, FEMALE AWG26-30
HOUSING, 3P
CONTACT, FEMALE AWG26-30
HOUSING, 4P
CONTACT, FEMALE AWG26-30

CN801F(to SW730 BOARD)
1-764-198-11 o HOUSING, 11P
1-695-215-11 o CONTACT, FEMALE AWG26-30

(30 CORE)
TO MB-602)
(20 CORE)
TO CCD UNIT)
(24 CORE)
TO CCD UNIT)

1-955-080-12 o HARNESS (VF)
1-955-086-12 o HARNESS (PA)
CN901
CN902
CN903
CN904
CN905

BVP-550

1-561-781-11
1-562-222-41
1-565-051-21
1-695-841-12
1-509-184-31

s
s
o
s
s

CONNECTOR BNC "TEST OUT"
CONNECTOR 6P FEMALE "REMOTE"
CONNECTOR, 20P FEMAL "VF"
CONNECTOR 12P FEMALE "LENS"
CONNECTOR 3P MALE "MIC"

5-39

5-4. Optional Fixtures
-----------------TOOLS AND FIXTURES
-----------------Part No.
SP Description
J-6026-110-A
J-6026-130-B
J-6029-140-B
J-6394-080-A
J-6395-040-A

5-40

o
o
o
o
o

MULTI-BURST CHART
GRAYSCALE CHART
PATTERN BOX PTB-500
GRAYSCALE CHART (16:9)
EXTENSION BOARD, EX-464

BVP-550

SEMICONDUCTOR INDEX

Section 6
Semiconductor Pin Assignments
Semiconductors of which functions are equivalent are described here.
For parts replacement, refer to the section of Spare Parts in this
manual. The circuit diagram of each IC is obtained from the IC data
book published by the manufacturer.

Diode

PAGE

1S1588 .............................. 6-2
1SS226 ............................. 6-2
1SS300 ............................. 6-2
1SS302 ............................. 6-2
1T363 ................................ 6-2
CL-150D-CD .....................
CL-150PG-CD ..................
CL-150UR-CD ..................
CL-200HR .........................

6-2
6-2
6-2
6-2

2SC4177 ...........................
2SC4177-L6 ......................
2SC4178 ...........................
2SC4184 ...........................
2SC4215 ...........................
2SD1048 ...........................
2SD1111 ...........................
2SD1615A ........................
2SD1623 ...........................
2SD596 .............................
2SD596-DV5 .....................

6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-3
6-3
6-2
6-2

CXD1171M .......................
CXD2307R ........................
CXD2310R ........................
CXK1203AR .....................

DTA143XKA ......................
DTA144E ...........................
DTA144EUA ......................
DTC143XKA .....................
DTC144EE ........................
DTC144EK ........................
DTC144EKA .....................
DTC144EUA .....................

6-3
6-3
6-3
6-3
6-3
6-3
6-3
6-3

LA1140 ............................
LM339NS ........................
LM339PW .......................
LM358PS ........................
LM393PS ........................
LM4040BIMM3X .............

6-7
6-8
6-8
6-9

EL4581CS ........................ 6-9
HA11423MP ..................... 6-9
HD14053BFP .................. 6-10
HD151015T .................... 6-10
HD6475328F10 .............. 6-11

DE5LC20U ........................ 6-2
GL-5ED5 ........................... 6-2
HSM107S .........................
HSM88AS .........................
HSM88WA ........................
HSM88WK ........................

6-2
6-2
6-2
6-2

KV1470 ............................. 6-2
LT9527U ............................ 6-2

IMB2 .................................. 6-3
IMH2 ................................. 6-3

MA141WK ......................... 6-2

Others

RD ? ?M-B ? .....................
RD ? ?M-B ........................
RD ? ?MB .........................
RD ? ?UH .........................
RD ? ?UJN ........................

2SK612 .............................
2SK663 .............................
2SK664 .............................
2SK852-X2 .......................
2SK853 .............................

6-2
6-2
6-2
6-2
6-2

PAGE
6-3
6-3
6-3
6-3
6-3

SC802-04 .......................... 6-2

CXK58257ATM-70LL ......... 6-3

V09C ................................. 6-2
V09G ................................. 6-2
V11 ? ................................. 6-2

HM53461JP-12 ................. 6-4

Transistor

PC410 ............................... 6-5

PAGE

2SA1162G ........................
2SA1226 ...........................
2SA1610 ...........................
2SA1611 ...........................
2SA1688 ...........................
2SA1808 ...........................
2SA811A ...........................
2SB1115A .........................
2SB1121 ...........................
2SB1440S .........................
2SB624 .............................
2SB798 .............................
2SC1623 ...........................
2SC2223 ...........................
2SC2712 ...........................
2SC2713 ...........................
2SC2714Y ........................
2SC2757 ...........................
2SC2758 ...........................
2SC3115 ...........................
2SC3360 ...........................
BVP-550

6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2
6-2

6-12
6-12
6-12
6-12
6-12
6-12

M27V201-200L6 ............. 6-12
M51132FP ...................... 6-13
M51958A ........................ 6-13
M52313SP ...................... 6-13
M62021FP ...................... 6-13
M62352GP ...................... 6-14
MAX202CSE ................... 6-14
MB88346BPFV ............... 6-14
MB88351PFV ................. 6-15
MC14018BF .................... 6-15
MC14020BF .................... 6-15
MC14023BF .................... 6-16
MC74HC00AF ................ 6-16
MC74HC4053F ............... 6-16
MN6790S ........................ 6-16
MN8232A ........................ 6-17
MSM82C55A-2GS ........... 6-17

MP7670AS ........................ 6-4

SGM2016M ....................... 6-5
UPA101G .......................... 6-5
XN6401 .............................
XN6435 .............................
XN6501 .............................
XN6534 .............................
XP6435 .............................
XP6501 .............................
XP6534 .............................
IC

6-5
6-5
6-5
6-5
6-5
6-5
6-5

PAGE

BA225F ............................. 6-6
CA3102M ..........................
CLC505AJE ......................
CXA1165M .......................
CXA1432M .......................
CXA1486Q ........................

6-6
6-6
6-6
6-6
6-7

NJM3414AM ...................
NJM4556AM-A ...............
NJM4558V ......................
NJU7022M ......................

6-18
6-18
6-18
6-18

PCF8574AT .................... 6-18
PCF8574T ...................... 6-18
REF-03GS ...................... 6-18
RTC4553B ...................... 6-19
SN74HC08ANS .............. 6-19
SN74HC08APW ............. 6-19
SN74HC157APW ............ 6-19
SN74HC74ANS .............. 6-19
SN74HCT04APW ............ 6-19
SN74HCT244APW-E05 ... 6-20
SN75158PS .................... 6-20
STK10C68-5S35 ............. 6-20
TA75S393F .....................
TA8129Z ..........................
TC4S01F ........................
TC4S11F ........................

6-20
6-21
6-21
6-21

TC4S30F ........................ 6-21
TC4S69F ........................ 6-21
TC4S71F ........................ 6-21
TC4S81F ........................ 6-22
TC4SU69F ...................... 6-21
TC4W53FU ..................... 6-22
TC4W66FU ..................... 6-22
TC74HC00AF ................. 6-16
TC74HC4052AFS (EL) .... 6-22
TC74HC4053AFS ............ 6-16
TC74HC4538AFS ............ 6-22
TC74HC595AF ............... 6-23
TC74VHC00FS (EL) ........ 6-16
TC74VHC02F ................. 6-23
TC74VHC04FS (EL) ........ 6-19
TC74VHC08FS (EL) ........ 6-19
TC74VHC138FS (EL) ...... 6-23
TC74VHC157FS ............. 6-19
TC74VHC163F ............... 6-23
TC74VHC20F ................. 6-24
TC74VHC244FS (EL) ...... 6-20
TC74VHC32FS (EL) ........ 6-24
TC74VHC541FS (EL) ...... 6-24
TC74VHC74F ................. 6-19
TC74VHC74FS (EL) ........ 6-19
TC7S00FU ...................... 6-21
TC7S02FU ...................... 6-21
TC7S04FU ...................... 6-21
TC7S08FU ...................... 6-22
TC7S32FU ...................... 6-21
TC7S66FU ...................... 6-24
TC7S86FU ...................... 6-21
TC7SH02FU ................... 6-21
TC7SH04FU ................... 6-21
TC7SH08FU ................... 6-22
TC7SH32FU ................... 6-21
TC7W00FU ..................... 6-24
TC7W02F ....................... 6-24
TC7W04FU ..................... 6-24
TC7W08FU ..................... 6-24
TC7W139FU ................... 6-25
TC7W32FU ..................... 6-25
TC7W74FU ..................... 6-25
TL062CPW ..................... 6-25
TL064CPW ..................... 6-25
TL074CPW ..................... 6-25
TL082M ........................... 6-25
TL084CPW ..................... 6-25
TLC0820ACDW .............. 6-26
TLC272CPW ................... 6-26
TLC27L2CPS .................. 6-26
UPC358G2 ..................... 6-12
UPC393G2 ..................... 6-12
UPD4702G ..................... 6-26
UPD6453GT-610 ............. 6-27
UPD71055GB-10-3B4 ..... 6-28
X24164S1 ....................... 6-28
X24C02S-3. 0 ................. 6-28

6-1

Di, Tr

DIODE

GL-5ED5;A=RED,B=YEL GRN

1S1588

(SCALE 4/1)
TOP VIEW

(
)
TOP VIEW

SC802-04

1SS226
1SS302
HSM107S
HSM88AS

V09C
V09G
V11 ?
B

A

TOP VIEW

TRANSISTOR

HSM88WK
MA141WK

TOP VIEW

1SS300
HSM88WA
(SCALE 4/1)
TOP VIEW

3

1

2

KV1470

—TOP VIEW—

2SA1162G
2SA1226
2SA1610
2SA1611
2SA1688
2SA1808
2SA811A
2SB1440S
2SB624

3

(

)
TOP VIEW

2

1

1T363

(
)
TOP VIEW

2SB1115A
2SB1121
2SB798

LT9527U
INDEX

CL-150D-CD;ORANGE
CL-150PG-CD;GREEN
CL-150UR-CD;RED
7

8

9

10

11

6

12

5

4

3

2

1
(

)
TOP VIEW

3

CL-200HR;RED

2

4

1

(

6

3

5

8

7

10

9

12

11

)

RD ? ?M-B
RD ? ?MB
RD ? ?M-B ?

TOP VIEW

DE5LC20U
3

1

2

2SC1623
2SC2223
2SC2712
2SC2713
2SC2714Y
2SC2757
2SC2758
2SC3115
2SC3360
2SC4177
2SC4177-L6
2SC4178
2SC4184
2SC4215
2SD1048
2SD596
2SD596-DV5

NC

2

1

2SD1111
(
)
TOP VIEW

6-2

RD ? ?UH
RD ? ?UJN

BVP-550

Tr, Others

Others

(SCALE 4/1)
TOP VIEW

2SK612

2SD1615A
2SD1623

TOP VIEW

3

2

3

2

(SCALE 4/1)
TOP VIEW

2SK663

2SK852-X2
2SK853

3

2

1

1

S

1

S

S

(
)
TOP VIEW

DTA143XKA(R1=4.7K R2=10K)
DTA144EE(R1=47K, R2=47K)
DTA144EUA(R1=47K, R2=47K)

3

2

1
R1

R2

CXK58257ATM-70LL(SONY)(ACCESS TIME=70ns)FLAT PACKAGE
(SCALE 4/1)
TOP VIEW

C-MOS 256K (32768 x 8)-BIT STATIC RAM
—TOP VIEW—

DTC143XKA(R1=4.7K, R2=10K)
DTC144EE(R1=47K, R2=47K)
DTC144EK(R1=47K, R2=47K)
DTC144EKA(R1=47K, R2=47K)
DTC144EUA(R1=47K, R2=47K)

3

2

1
R1

10

OE

IN

21 A10

22

IN

9
8

A11

IN

20 CE

23

IN

7
6

A9

IN

19 I/O8

24

5

R2

4

A8

IN

18 I/O7

25

3
25

A13

IN

17 I/O6

26

24
21

WE

IN

27

16 I/O5

23

DD
28 V
+5V

15 I/O4

26

2

(
)
—TOP VIEW—

6

1

5

2

4

3

IMB2(R=47K)

1

A14

IN

1

A12

IN

2

13 I/O3

A7

IN

3

12 I/O2

A6

IN

4

11 I/O1

A5

IN

5

10 A0

IN

A4

IN

6

9 A1

IN

A3

IN

7

8 A2

IN

GND 14

A0
A1
A2
A3

I/O1

A4

I/O2

A5

I/O3

A6

I/O4

A7

I/O5

A8

I/O6

A9

I/O7

A10

I/O8

A11
A12
A13
A14
OE
22

WE
27

CE
20

1

6
R
R

5
2
R

R

3

4

A0-A14
CE
I/O1-I/O8
OE
WE
(

)

IMH2(R=47K)

TOP VIEW

6

1

5

2

4

3

A14
A13
A12

1

6
R

A11
A9
A8

R

A7

5
2
R

4

A6
A5

CE
1
0
0
0

1

ROW
DECODER

26
2

25

OE
X
1
0
X

ADDRESS INPUTS
CHIP ENABLE INPUT
DATA INPUTS/OUTPUTS
OUTPUT ENABLE INPUT
WRITE ENABLE INPUT
WE
MODE
X
NOT SELECT
1 OUTPUT DISABLE
1
READ
0
WRITE

I/O TERMINAL
HIGH IMPEDANCE
HIGH IMPEDANCE
OUTPUT DATA
INPUT DATA
0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

23
24

;
;
;
;
;

BUFFER

3

MEMORY
MATRIX
512 x 512

4
5

R
19

3
A10
A4
A3
A2
A1
A0

21

18

6

17

7
8

BUFFER

9

I/O GATE
COLUMN
DECODER

I/O
BUFFER

16
15
13
12

10

11

I/O8
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1

OE

WE

22

27

BUFFER

20
CE

BVP-550

6-3

11
12
13
15
16
17
18
19

Others

HM53461JP-12(HITACHI)(ACCESS TIME=120ns)PLCC

MP7670AS(MICRO POWER SYSTEMS)FLAT PACKAGE

C-MOS 64K WORD x 4 BIT MULTI PORT RAM

C-MOS 8-BIT 8CHANNEL D/A CONVERTER

—TOP VIEW—

1
2
3
4
5
6
7
8
9
10
11
12

— TOP VIEW —

GND

VCC (+5V)

17
16
15
14
11
10
9
13

8
18
7
4
21

A0

I/O1

A1

I/O2

A2

I/O3

A3

I/O4

A4

SI/O1

A5

SI/O2

A6

SI/O3
SI/O4

A7

24
23
22
21
20
19
18
17
16
15
14
13

PIN
No.

I/O

1
2
3
4
5
6
7
8
9
10
11
12

—
I/O
I/O
—
I/O
I/O
—
—
I
I
I
—

PIN
No.
13
14
15
16
17
18
19
20
21
22
23
24

SIGNAL
SC
SI/O1
SI/O2
DT/OE
I/O1
I/O2
WE
RAS
A6
A5
A4
VCC

5

I/O
I
I
I
I
I
—
I/O
I/O
—
I/O
I/O
—

SIGNAL

C V

OUT

1

24 D V

OUT

B V

OUT

2

23 C V

IN

4
23

A7
A3
A2
A1
A0
CAS
I/O3
I/O4
SOE
SI/O3
SI/O4
GND

22
8

A V

OUT

3

22 D V

9

IN

14

B V IN 4

VDD
(+5V)

A V IN 5

21

15

20 DI

7

IN

16

6 GND

VSS
(–5V)

19

20
17

PR IN 7

18 DO

OUT

E V IN 8

17 CK

IN

F V IN 9

16 LD

IN

A

A

B

B

C

C

D

D

E

E

F

F

G

G

H

H

3
2
1
24
10
11
12
13

PR
LD
DI

DO

18

5
6

A0-A7
CAS
DT/OE
I/O1-I/O4
RAS
SC
SI/O1-SI/O4
SOE
WE

19
20
2
3
22
23

;
;
;
;
;
;
;
;
;

ADDRESS INPUT
COLUMN ADDRESS STROBE INPUT
DATA TRANSMISSION/OUTPUT ENABLE INPUT
RAM PORT DATA INPUT/OUTPUT
ROW ADDRESS STROBE INPUT
SERIAL CLOCK INPUT
SAM PORT DATA INPUT/OUTPUT
SAM PORT ENABLE INPUT/OUTPUT
WRITE ENABLE INPUT

E V

RAS

OUT

10

15 H V

IN

F V

OUT

11

14 G V

IN

G V

OUT

12

13 H V

OUT

CK
DI
DO
LD
PR

CAS
WE
DT/OE
SOE

; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT
; DATA LOAD CONTROL INPUT
; PRESET INPUT

1

5
I/O1

I/O2

5

6

I/O3

I/O4

19

20

LATCH A

D/A A

-

3

+

4

WRITE MASK
GENERATOR

OE CLOCK
GENERATOR

I/O BUFFER

4

WE

CAS

18

WE CLOCK
GENERATOR

CAS CLOCK
GENERATOR

LATCH B

DT/OE

D/A B

23

LATCH C

64K x 4
MEMORY
ARRAY

SOE CLOCK
GENERATOR

21

D/A C

8

RAS CLOCK
GENERATOR

SC CLOCK
GENERATOR

256 x 4 DATA
REGISTER

13-17 9-11
A0-A7

1

CAS

24
8

LATCH E

SI/O BUFFER

VBB
GENERATOR

D/A E

LATCH F

-

10

+

D/A F

-

11

+

14

LATCH G
PR

RAS

D/A D

-

+

SC

REFRESH ADDRESS
COUNTER
18

+

9

Y ADDRESS
BUFFER

8

1

SOE

POINTER

X ADDRESS
BUFFER

-

22

LATCH D
RAS

2

+

TRANSFER
CONTROL

Y DECODER
X DECODER

7

-

2

3

22

SI/O1

SI/O2 SI/O3

D/A G

-

+

15

7

23
SI/O4

12

LATCH H

D/A H

-

13

+

6

LD

DI
CK

6-4

16

20
17

A V
A V
B V
B V
C V
C V
D V
D V
E V
E V
F V
F V
G V
G V
H V
H V

GND

LOGIC
CONTROL

A3 A2 A1 A0

D7

TO

D0

18

DO

SERIAL SHIFT
REGISTER

BVP-550

Others

PC410(SHARP)FLAT PACKAGE
OPIC-OUTPUT PHOTO COUPLER
—TOP VIEW—
6

5

**
XP6435

(SCALE 6/1)
TOP VIEW

1
2
3

6
5
4

4
6

1

5

1

2

3

4

3

2

SGM2016M

3
1

6
5

4
G2

D

G1

S

1PIN

**
XP6501

(
)
TOP VIEW

4

1
2
3

1

6

2

5
4

3

UPA101G(NEC)FLAT PACKAGE
—TOP VIEW—
8

7

6

1
2
3

5

*

(SCALE 6/1)
TOP VIEW

TRANSISTOR ARRAY

1

XP6534

6
5
4

6
5

2

1

2

3

**
XN6401
XN6435

(SCALE 6/1)
TOP VIEW

6
5

1
2
3

4

4

3

4

6

1

5

2
3

4

*
XN6501
XN6534

(SCALE 6/1)
TOP VIEW

6
5
4

1
2
3

6

1

5

2
3

4

BVP-550

6-5

IC

IC

BA225F(ROHM)

CXA1165M(SONY)FLAT PACKAGE

CR TIMER

CATV VHF TUNER
— TOP VIEW —

-TOP VIEWVCC
(+16V)

OUT1 1

8

8

2

O

CR1 2

7 OUT2

CR

6

O

T

TRIGGER1 3

CR

6 CR2

3

5 TRIGGER2

5

VCC
CR1
OUT1

14
VCC

CR2

TRG1
OUT2
TRG2

OSC OSC OSC
3
2
1

OUT

OUT

OUT

OUT

13

12

11

10

9
GND

8

3

4

5

6

7

7

GND
4

GND
1

2

RF1 RF2

IF
OUT

IN

UIF MIX1 MIX2

IN

IN

OSC OSC
2 1
13

CA3102M(RCA)FLAT PACKAGE
14

HIGH FREQ.DIFFERENTIAL AMPLIFIER

TP

(+6.5 V to +9.5 V)

T

4 GND

1

REG

12 11

OUT

OUT

TP

10

8

+5 V
REG

VCC
(+6.5 V to +9.5 V)

—TOP VIEW—

OSC
1

14

2

13

RF2

3

12 SUBSTRATE

4

11

5

10

6

9

7

8

6

3

RF1

UIF

4

MIX

5

UIF
AMP

7

1

IF
AMP

+

MIX1
MIX2

IF

CXA1432M(SONY)FLAT PACKAGE
VIDEO SIGNAL CLAMPER
— TOP VIEW —

CLC505AJE(COMLINEAR)FLAT PACKAGE

CP

TP12

OPERATIONAL AMPLIFIER

14
VCC

— TOP VIEW —

(+5 V)

13
NC

12

IN

11
VEE

PEDE SENS

10

9

1

3

(–5 V)

9
8

1 NC
V– 2

–

V+ 3

+

4 VEE

(–5 V)

10

8 RP
VCC
(+5 V)

7
6 V OUT

1

2

3

4

V

E

FV

TP5

IN

OUT

IN

E OUT

2

NC
6

FV IN
PEDE

V OUT

7

SENS
CP IN

7
V
OUT

NC 5

CP IN
E OUT
FV IN
PEDE
SENS
TP5, TP12
V IN
V OUT

V IN

FV IN

PEDE
SENS

CP IN

6-6

NC
5

V IN

8

1

; CLAMP PULSE INPUT
; BUFFER AMP OUTPUT
; FLOATING VIDEO SIGNAL INPUT
; CLAMP LEVEL DC INPUT
; CLAMP POINT SIGNAL INPUT
; FOR TEST
; VIDEO SIGNAL INPUT
; VIDEO SIGNAL OUTPUT

2

E. F

3

9
8

10

+

E. F

7

E OUT

V OUT

SAMPLE
&
HOLD

+
–

MODE
SELECTOR

BVP-550

IC

CXA1486Q

(SONY)

CXD1171M(SONY)FLAT PACKAGE

VIDEO AMPLIFIER FOR VIDEO CAMERA

C-MOS 8-BIT D/A CONVERTER
— TOP VIEW —

V EE

V CC

V EE I
DR V EE

DR V CC

GND2

GND I

V CC I

V CC , V CC I, DR V CC , = (+5V)
V EE , V EE I, DR V EE , = (-2.5 to -5.5V)
16
15
14
13
12
11
10
9

1
2
3
4
5
6
7
8

25
26
27
28
29
30
31
32

GND1

24
23
22
21
20
19
18
17

- TOP VIEW -

24
12
26
14
2
27

BLACK1
BLKG
G CTRL
ZERO
W SHAD
F COMP

30
BLACK2
18
SIG IN
16
BLK SHAD
19
GS2
20
GS1
21
CLP PLS1
32
CLP PLS2
4
FB REF
9
KNEE PT

23
LPFC1
11
FLT DET
LPF C2

CLP C1
FLR DET
CLP C2

29

31
11

INPUT
BLACK1, 2
BLKG
BLK SHAD
CLP PLS1, 2
F COMP
FB REF
G CTRL
GS1, 2
KNEE PT
KNEE SW

25
OUT SW
SIG IN
W SHAD
ZERO

SIG OUT

I/O

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

I
I
–
I
–
–
O
–
I
I
O
I
–
I
–
I

SIGNAL

PIN
No.

I/O

SIGNAL

OUT SW
W SHAD
GND I
FB REF
V EE I
DR V EE
SIG OUT
DR V CC
KNEE PT
KNEE SW
FLR DET
BLKG
GND2
ZERO
V CC
BLK SHAD

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

–
I
I
I
I
–
O
I
O
I
I
–
O
I
O
I

GND1
SIG IN
GS2
GS1
CLP PLS1
V EE
LPF C1
BLACK1
CLP C2
G CTRL
F COMP
V CC I
LPF C2
BLACK2
CLP C1
CLP PLS2

; FOR CLAMP DC COMPENSATION
; BLANKING SIGNAL
; BLACK SHADING CORRECTION SIGNAL
; CLAMP PULSE
; FLARE COMPENSATION SIGNAL
; OUTPUT 2 INVERT AMPLIFY DC ADJUST
; WHITE BALANCE GAIN CONTROL
; GAIN SELECT
; KNEE POINT
; 1/4, 1/5 KNEE SELECT
(4.5V=1/4 KNEE, 0V=1/5 KNEE)
; OUTPUT 3 AMPLIFY SELECT
; SIGNAL INPUT
; WHITE SHADING SIGNAL
; VARIABLE GAIN AMPLIFY ZERO POINT ADJUST

7
OUTPUT
CLP C1, C2
FLR DET
LPF C1, C2
SIG OUT

1
OUT SW
10
KNEE SW

PIN
No.

12

26
G CTRL
14
ZERO
2
W SHAD
27
F COMP

(+5 V)

A. VDD
(+5 V)

1

24

2
3

23

4
5

22

6
7

D3 IN 4
D4 IN 5

21 IO OUT

8

20 IO OUT

12
9

A. VDD

D5 IN 6

(+5 V)

A. VDD

D6 IN 7

(+5 V)

D7 IN 8

15

18

15 IREF IN

VB IN 11

A. GND 14

CK IN 12

B. GND 13

2

2

D2 3 - 5 3
–
D4

DECODER

D5 6 - 8 3
–
D7

DECODER

VREF

VB

9

16
15

20
21

D3
D4
D5
D6
D7

BLK
VREF
IREF
VB

VG
17

CK
; CLOCK INPUT
BLK
; BLANKING PULSE INPUT
D0 - 7 ; DIGITAL DATA INPUT
IO
; CURRENT OUTPUT
IO
; INVERT CURRENT OUTPUT
IREF ; CURRENT REFERENCE INPUT
VB, VG ; FOR CAPACITOR
VREF ; VOLTAGE REFERENCE INPUT

2

LATCHES

2

6MSB'S
CURRENT
CELLS

+

2LSB'S
CURRENT
CELLS

20
21

17

IO
IO

VG

–
CURRENT
CELLS
FOR FULL
SCALE

11

12

IO

D2

11

16 VREF IN

10 D. GND

BLK

IO

D1

17 VG OUT

BLK IN 9

D0 1
D1 2

16

19

D0

CLOCK
GENERATOR

31

CLP C1
18
SIG IN
16
BLK SHAD

G
BLKG

D. VDD

D2 IN 3

CK

19, 20
GS1,2
21
CLP PLS1
24
BLACK1
23
LPF C1

(+5 V)

D1 IN 2

IREF

; FOR CLAMP CAPACITANCE
; FLARE DETECT
; CONNECT CAPACITANCE FOR LPF
; SIGNAL OUTPUT

D. VDD

D0 IN 1

BLKG

WBAL
11

2dB

29

25
CLP C2
32
CLP PLS2
30
BLACK2

9

1/4 KNEE

FLR DET

LPF C2

KNEE PT

1/5 KNEE
10

KNEE SW

0dB

FB REF

4
4dB

DR

8
DR V DD
7
SIG OUT
6
DR V EE

0dB

OUT SW

BVP-550

1

6-7

IC

CXD2307R(SONY)FLAT PACKAGE

CXD2310R(SONY)
C-MOS 10-BIT 20MSPS VIDEO A/D CONVERTER

C-MOS 10-BIT 50MSPS RGB 3CHANNEL D/A CONVERTER

13
14
15
16
17

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

18

R9

VB

G1

23
24
25
26
27
28

G5

G7

32
33
37
38
39
40
41
42

G9

R6

R7
R8
R9

5

7
8

B4

G4
G5
G6

G7
G8
G9

14
15

RCK

ROG

17

GCK

18

ROB

B5
B6

B7
B8
B9

BLK

CE

25

IRR

VGR

IRG

VGG

IRB

VGB

28

29

(+5V)

(+5V)

AVDD 25

AVDD 26

AGND 27

VRT

44
46
48
29

VRR

30

VRG
VRB
BLK

39

CE

34

30

35

14
37

51
44

43
–

40

37

55

6LSB' S
CURRENT
CELLS

46

45
–

41

VRT

D9

VRT

D8

VIN

D7

VRB

D6

VRB

D5

CAL

D4

SEL

D3

RESET

D2

CE

D1

OE

D0

12
11
10
9
8
5
4
3
2
1

CLK

TIN

TO

TSTR

AT

13
38

TS

RO
RO
VGR
RCK
ROR
VRR

IRR

GO
GO
VGG
GCK

INPUT
CAL
CE
CLK
LINV
MINV
OE
RESET
SEL
TIN
TMOD
TS
TSTR
VRB
VRT

; CALIBRATION PULSE INPUT
; CHIP ENABLE
; CLOCK
; OUTPUT (D0-D8) INVERSION
; OUTPUT (D9) INVERSION
; DIGITAL DATA OUTPUT ENABLE
; CALIBRATION CIRCUIT RESET
; OUTPUT DATA (D5-D9) SELECT FOR CALIBRATION (4-CLOCK)
HIGH; THROUGH OUTPUT, LOW; DATA FIXED AS WITH D0-D4
; TEST SIGNAL INPUT
; TEST MODE
; TEST SIGNAL INPUT
; TEST SIGNAL INPUT
; REFERENCE BOTTOM VOLTAGE
; REFERENCE TOP VOLTAGE

OUTPUT
AT
; TEST SIGNAL OUTPUT
D0-D9
; DIGIRAL DATA OUTPUT
TO
; TEST PIN

ROG

CURRENT CELLS
(FOR FULL SCALE)

38

VRG

IRG

4LSB' S
CURRENT
CELLS
58

DECODER

LATCHES

59

6LSB' S
CURRENT
CELLS

48
33

CLOCK
GENERATOR

26
27

AGND 28

47

+

DECODER

23
24

COURSE CORRECTION
& LATCH

45

32

B0 19
(LSB)
20
B1
21
B2
22
B3

B4

FINE LATCH

BCK

6LSB' S
CURRENT
CELLS

CLOCK
GENERATOR

TO

43

54

16

13

B9

+

LATCHES

TIN

48 DGND

B8

4LSB' S
CURRENT
CELLS

DECODER

RESET

B7

CURRENT CELLS
(FOR FULL SCALE)

13

DGND 16

14

B6

31

G0 9
(LSB)
10
G1
11
G2
12
G3

SEL

15

B5

50

DECODER

17

B3

42

6

(+5V)

47 NC

B1
B2

AVDD 18

FINE
COMPARATE
& ENCODE

46 NC

4LSB' S
CURRENT
CELLS

CLOCK
GENERATOR

29

45 DVDD

B0

22

LATCHES

30

44 AGND

G8

23

DECODER

AMP.
(x 8)

G6

24

R5

VRT

43 AGND

ROR
31

NC 31

G4

5

22

DAC

4

— AVSS
RO
O
RO
O
— AVDD
— AVDD
GO
O
GO
O
— AVDD
— AVDD
O
BO
O
BO
— AVDD
— AVDD
— DVDD
I R0 (LSB)
I
R1

21

NC 32

TMOD

G3

15

4

NC 33

LINV

19

+ –

G2

17

3

VRB

20

TS 42

+

TIMING
GEN.

G0

41

R4

34

CAL 41

S/H
AMP.

40 NC

29

R0 63
(LSB)
64
R1
1
R2
2
R3

VRB

MINV

VIN 39

D4

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

CLK

21

35

D3

BCK
DVSS
VB
AVSS
IRR
IRG
IRB
VRR
VRG
VRB
ROR
VGR
ROG
VGG
ROB
VGB

BO

R8

3

I
—
O
—
I
I
I
I
I
I
I
I
I
I
I
I

R7

D2

33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48

OE

22

COURSE
CONPARATE
& ENCODE

2

I
G8
I
G9
I B0 (LSB)
I
B1
I
B2
I
B3
I
B4
I
B5
I
B6
I
B7
I
B8
I
B9
I
BLK
I
CE
I
RCK
I
GCK

CE

23

AT 38

1

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

24

58

D1

PIN
PIN
PIN
PIN
I/O SIGNAL
I/O SIGNAL
I/O SIGNAL
I/O SIGNAL
No.
No.
No.
No.
I
R2
I
R3
I
R4
I
R5
I
R6
I
R7
I
R8
I
R9
I G0 (LSB)
G1
I
G2
I
G3
I
G4
I
G5
I
G6
I
G7
I

TSTR 37
59

(+3V)

19
20

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

BO

D9 12

12

R6

D8 11

11

54

D7 10

9
10

55

CALIVBRATION
UNIT

8

GO

R5

9

7

GO

R4

8

6

R3

D6

5

50

R2

D5

4

51

DD
7 DV
(+3V)

A VDD (+7 V)
A VDD (+7 V)
D VDD (+7 V)

3

RO

6 DGND

A VDD (+7 V)
A VDD (+7 V)

2

RO

R1

D0

A VDD (+7 V)
A VDD (+7 V)

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

R0

(LSB)

A VSS (GND)

1

D VSS (GND)

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

A VSS (GND)

64

AGND 36

48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33

63

35

—TOP VIEW—

— TOP VIEW —

DECODER

47
–

42

BO
BO
VGB
BCK
ROB
VRB

+

CURRENT CELLS
(FOR FULL SCALE)

39

BIAS VOLTAGE
GENERATOR

35

IRB

VB

30

6-8

BVP-550

IC

CXK1203AR(SONY)FLAT PACKAGE

EL4581CS(ELT)FLAT PACKAGE

C-MOS DIGITAL LINE MEMORY

VIDEO SYNC SEPARATOR

—TOP VIEW—

36
35
34
33
32
31
30
29
28
27
26
25

— TOP VIEW —
1

NC
NC

3

24
23
22
21
20
19
18
17
16
15
14
13

VDD (+5V)
VDD (+5V)
NC
NC
NC
NC
NC

GND

37
38
39
40
41
42
43
44
45
46
47
48

GND

2

4
5
7
8
9
10
11

DOT0

D1

DOT1

D2

DOT2

D3

DOT3

D4

DOT4

D5

DOT5

D6

DOT6

D7

DOT7

D8

DOT8

D9

21

DOT9

VCC
(+5 V)

COMPOSITE
1
SYNC OUT

35
34
33
32
31

C

8

COMPOSITE
VIDEO

2

COMPOSITE 2
VIDEO IN

7 ODD/EVEN OUT

VERTICAL
SYNC OUT

3

6 RSET

4 GND

5 BURST/BACK

COMPOSITE 1
SYNC
VERTICAL 3
SYNC
ODD/EVEN

7

29
28

6

OUT

27

RSET

BURST/BACK

5

R

26

PSW0

20

TIMING CHART

PSW1

18

OEN

PSW2

17

25

COMPOSITE
VIDEO IN

PSW3

16
15

1
2
3
4
5
6
7
8
9
10
11
12

D0

36

14

PSW4

PSB0

PSW5

PSB1
PSB2

PSW6

13

24

COMPOSITE
SYNC OUT

23

VERTICAL
SYNC OUT

22

PSW7

BURST OUT

N/P

ODD/EVEN OUT

AEN

TINT

SCLK

42

41 12 39 40

(VDD = +5V)
PIN
PIN
PIN
PIN
NO. I/O SIGNAL NO. I/O SIGNAL NO. I/O SIGNAL NO. I/O SIGNAL
1
2
3
4
5
6
7
8
9
10
11
12

I
I
I
I
I
—
I
I
I
I
I
I

D0
D1
D2
D3
D4
GND
D5
D6
D7
D8
D9
TINT

13
14
15
16
17
18
19
20
21
22
23
24

I
I
I
I
I
I
—
I
I
I
I
I

PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
VDD
PSW1
PSW0
PSB2
PSB1
PSB0

25
26
27
28
29
30
31
32
33
34
35
36

I
O
O
O
O
—
O
O
O
O
O
O

OEN
DOT9
DOT8
DOT7
DOT6
GND
DOT5
DOT4
DOT3
DOT2
DOT1
DOT0

37
38
39
40
41
42
43
44
45
46
47
48

—
—
I
I
I
I
—
—
—
—
—
—

N.C
N.C
AEN
N/P
SCLK
CLK
VDD
N.C
N.C
N.C
N.C
N.C

HA11423MP(HITACHI)FLAT PACKAGE
TV H/V SYNC SIGNAL PROCESSOR
-TOP VIEWFIN
2

1

18

17

3

16
VCC
(+12V)

4

14

6

13

7
AEN
CLK
DIN0-DIN9
DOT0-DOT9
N/P
OEN
PSB0-PSB2
PSW0-PSW7
SCLK
TINT

;
;
;
;
;
;
;
;
;
;

LINE MEMORY SELECT
CLOCK
VIDEO DATA INPUT
VIDEO DATA OUTPUT
NTSC/PAL/SECAM SELECT
OUTPUT ENABLE
DELAY STEP SELECT (1 BITxN)
DELAY STEP SELECT (8 BITxN)
CLOCK EDGE SELECT
TEST

15

VCC
5 (+12V)

12
8

GND
9

10

11

FIN

VBS
VIDEO
IN

11

FBP
IN

12

SYNC
SEP

8

SYNC OUT

AFC
GATE

13

BUFF

DIN9

1 LINE MEMORY
(1138 x 10bit)

SMALL DELAY
CONTROLLER

BUFF

14

H
OSC

17

X-RAY
TRIGG

7

V
TRIGG

DOT0

—

—

DIN0

H
SIZE

26-29
31-36

1-5
7-11

DOT9

22-24

OEN
PSB0

—

25

PSB2

ADDRESS
COUNTER

PSW7

N/P

V
SIZE

4

V
OSC

16

V
BLKG

18

V
DRIVER

1

H DEF OUT

V BLKG OUT

V DEF OUT

CLK

41
SCLK
12

ADDRESS
MULTIPLEXER

—

PSW0

13-18
20, 21

TIMING
CONTROLLER

42

H
DRIVER

+

3

TINT

40
39

AEN

BVP-550

6-9

IC

HD14053BFP(HITACHI)FLAT PACKAGE
C-MOS TRIPLE 2-CHANNEL ANALOG MULTIPLEXERS/DEMULTIPLEXERS
— TOP VIEW —

VDD
(+3 V to +18 V)

X1 IN/OUT 1

16

X0 IN/OUT 2

15 XC

IN/OUT

Y1 IN/OUT 3

14 ZC

IN/OUT

YC IN/OUT 4

13 Z1

Y0 IN/OUT 5
EN IN 6

2

X0

1

X1

XC 15

OPEN
10 AX
5

Y0

3

Y1

IN/OUT

9

OPEN
AY

YC 4

12 Z0

IN/OUT

12 Z0

11 AZ

IN/OUT

OPEN
11 AZ

10 AX

IN/OUT

EN

VEE

6

7

13 Z1

7 VEE *

9 AY

8 GND

ZC 14

IN/OUT

CONT. INPUTS
ON
EN A (X, Y, Z) CHANNEL
0
0
0
1
1
0
OPEN
X
1

VEE * ; VDD – VEE + 3 V + 18 V
0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

HD151015T(HITACHI)FLAT PACKAGE
C-MOS 9-BIT LEVEL SHIFTER/TRANSCEIVER WITH 3-STATE OUTPUTS
— TOP VIEW —

1 VDDA

(+2 V to +6 V)

VDDB
(+2 V to +6 V)

DIR IN 2

24
23 EN

IN

3

22

4

21

5

20

6

19

7

A0 3

22 B0

18
A

8

B

17

9

A1 4

21 B1

16

10

15

11

A2 5

20 B2

A3 6

19 B3

A4 7

18 B4

A5 8

17 B5

A6 9

16 B6

A7 10

15 B7

A8 11

14 B8

12 GND

14
DIR

EN

2

23

EN
0
0
1

DIR OPERATION
0
B to A
1
A to B
X
HI-Z

0
1
X
HI-Z

GND 13

;
;
;
;

LOW LEVEL
HIGH LEVEL
DON'T CARE
HIGH IMPEDANCE

A0

A1

A2

A3

A4

A5

A6

3

4

5

6

7

8

9

A7

A8

10

11

23
EN
2
DIR

22

B0

6-10

21

B1

20

B2

19

B3

18

B4

17

B5

16

B6

15

B7

14

B8

BVP-550

IC

HD6475328F10(HITACHI)
C-MOS 16-BIT MICROPROCESSOR

9

RAM
1 k BYTE

13

BVP-550

P30/D0

P32/D2

P33/D3

P34/D4

P35/D5

P36/D6

P37/D7

P31/D1
13

14

15

16

17

18

19

PORT 6

31
30

43
P70/TMC1

44
P71/FT11

P72/FT12

45

46
P73/FT13/TMR1

47
P74/FTOB1/FTC11

P75/FTOB2/FTC12

48

49
P77/FTOA1

P76/FTOB3/FTC13

50

53

54

52
P80/AN0

38

PORT 7

P81/AN1

39

PORT 8
55

40

56

PORT 9

41

P70/TMCI

P71/FTI1

P72/FTI2

P60/A16

32

43

44

45

P73/FTI3TMRI
46

P75/FTOB2/FTCI2

P76/FTOB3/FTCI3

P74/FTOB1/FTCI1
47

48

49

P77/FTOA1
50

P81/AN1

P82/AN2

P80/AN0
52

53

54

P84/AN4

P85/AN5

P83/AN3
55

56

57

P87/AN7

P86/AN6
58

59

P90/FTOA2
61

P92/PW1

P93/PW2

P94/PW3

P91/FTOA3
62

63

64

65

P95/TXD

P96/RXD

66

67

68

P97/SCK

P60/A16

P61/A17

33

P82/AN2

P61/A17

38

P83/AN3

P62/A18

P62/A18

34

57

P63/A19

P63/A19
40
39

61

P50/A8

41

35

P91/FTOA3

P51/A9
NMI

36

62

P53/A11

37

63

MD2

P52/A10
11

21

P92/PW1

P54/A12

WATCHDOG
TIMER

22

64

MD1

10-BIT
A/D CONVERTER

23

P93/PW2

P55/A13

16-BIT FREE
RUNNING TIMER
(x3 CHANNEL)

24

P94/PW3

8

P50/A8

65

7

MD0

P52/A10

PWM TIMER
(x3 CHANNEL)

25

P95/TXD

6

P53/A11
32
P51/A9

66

P56/A14

P54/A12
33

30

STBY
P57/A15

34

26

P84/AN4

P40/A0

RES

8-BIT
TIMER

27

67

9

37

31

68

10

P40/A0

P56/A14

58

P41/A1

P41/A1

P57/A15

P85/AN5

P42/A2

P42/A2
21

36

P86/AN6

P43/A3

28

P87/AN7

XTAL

P43/A3
23

P55/A13

59

P44/A4

P44/A4
24

22

CPU

SERIAL
COMMUNICATION
INTERFACE

P97/SCK

70

EXTAL

25

35

P96/RXD

69

P45/A5

11

P90/FTOA2

14

15

16

17

18

19

20

P45/A5

P20/AS

INTERRUPT
CONTROLLER

P30/D0

P31/D1

P32/D2

P33/D3

P34/D4

P35/D5

P36/D6

P37/D7

1

2

3

4

80
P20/AS

P21/R/W

P22/DS

P23/RD

P24/WR

73

74

72
P10/Ø

P11/E

P12/BACK

P13/BREQ

75

77

78

79

76
P14/WAIT

P15/IRQ0

P16/IRQ1

P17/TMO

P46/A6

20

MASK ROM
32 k BYTE

P46/A6
26

PORT 4

WAIT
STATE
CONTROLLER

DATA
TRANSFER
CONTROLLER

P47/A7

P21/R/W

P22/DS

P23/RO

P47/A7
27

10

6
MD0
7
MD1
8
MD2

NMI

80

1

P24/WR

28

PORT 5

STBY

CLOCK
OSC

ADDRESS BUS

RES

69
70

PORT 3

DATA BUS (HIGH ORDER)

XTAL

PORT 2

DATA BUS (LOW ORDER)

EXTAL

2

4

PORT 1

3

P10/ø

P11/E

P12/BACK

P83/AN3
P84/AN4
P85/AN5
P86/AN6
P87/AN7
AVDD
P90/FTOA2
P91/FTOA3
P92/PW1
P93/PW2
P94/PW3
P95/TXD
P96/RXD
P97/SCK
EXTAL
XTAL
VSS
P10/ø
P11/E
P12/BACK
P12/BREQ
P12/WAIT
P12/IRQ0
P12/IRQ1
P12/TMO
P12/AS

72

SIGNAL

I/O
I/O
I/O
I/O
I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I
I
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O

P13/BREQ

I/O

55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80

73

P47/A7
GND
P50/A8
P51/A9
P52/A10
P53/A11
P54/A12
P55/A13
P56/A14
P57/A15
P60/A16
P61/A17
P62/A18
P63/A19
VDD
P70/TMCI
P71/FTI1
P72/FTI2
P73/FTI3/TMRI
P74/FTOB1/FTCI1
P75/FTOB2/FTCI2
P76/FTOB3/FTCI3
P77/FTOA1
AGND
P80/AN0
P81/AN1
P82/AN2

P14/WAIT

SIGNAL

I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
O
—
I/O
I/O
I/O

74

I/O

28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54

P15/IRQ0

SIGNAL
P21/R/W
P22/DS
P23/RD
P24/WR
VDD
MD0
MD1
MD2
STBY
RES
NMI
GND
P30/D0
P31/D1
P32/D2
P33/D3
P34/D4
P35/D5
P36/D6
P37/D7
P40/A0
P41/A1
P42/A2
P43/A3
P44/A4
P45/A5
P46/A6

INPUT/OUTPUT
D0-D7
; DATA BUS
P10-P17
; PORT 1
P20-P24
; PORT 2
P30-P37
; PORT 3
P40-P47
; PORT 4
P50-P57
; PORT 5
P60-P63
; PORT 6
P70-P77
; PORT 7
P90-P97
; PORT 9
SCK
; SERIAL CLOCK INPUT/OUTPUT

75

I/O
I/O
I/O
I/O
—
I
I
I
I
I
I
—
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O

PIN
No.

P16/IRQ1

I/O

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27

PIN
No.

; ADDRESS BUS
; ADDRESS STROBE
; BUS REQUEST ACKNOWLEDGE
; DATA STROBE
; ENABLE CLOCK
; FRT OUTPUT COMPARE A OUTPUT (CHANNEL 1 TO 3)
; FRT OUTPUT COMPARE B OUTPUT (CHANNEL 1 TO 3)
; PWM TIMER OUTPUT (CHANNEL 1 TO 3)
; READ/WRITE
; READ
; 8-BIT TIMER OUTPUT
; SEND DATA
; WRITE
; SYSTEM CLOCK

76

PIN
No.

OUTPUT
A0-A19
AS
BACK
DS
E
FTOA1-FTOA3
FTOB1-FTOB3
PW1-PW3
R/W
RD
TMO
TXD
WR
ø

P17/TMO

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND

VDD (+5 V)

GND

77

GND

; ANALOG INPUT
; BUS REQUEST
; CONNECTED TO CRYSTAL OSCILLATOR.
; FRT COUNTER CLOCK INPUT (CHANNEL 1 TO 3)
; FRT INPUT CAPTURE INPUT (CHANNEL 1 TO 3)
; INTERRUPTION REQUEST 0 AND 1
; MODE SETTING
; NON MASKABLE INTERRUPTION
; PORT 8
; RESET
; RECEIVE DATA
; STANDBY
; 8-BIT TIMER CLOCK INPUT
; 8-BIT TIMER COUNTER RESET INPUT
; WAIT
; CONNECTED TO CRYSTAL OSCILLATOR.

79

40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21

INPUT
AN0-AN7
BREQ
EXTAL
ETCI1-FTCI3
FTI1-FTI3
IRQ0, 1
MD0-MD2
NMI
P80-P87
RES
RXD
STBY
TMCI
TMRI
WAIT
XTAL

78

VDD (+5 V)

61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80

AGND

AVDD (+5 V)

60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41

— TOP VIEW —

6-11

IC

LM393PS(TI)FLAT PACKAGE
UPC393G2(NEC)FLAT PACKAGE

LA1140(SANYO)
IF AMP, LIMITTER, DETECTOR, MUTING, + FM CS

DUAL VOLTAGE COMPARATORS

— PRINTED SIDE VIEW —

—TOP VIEW—
8

7

VCC
(+2 to +36V)

6

5

+

–

VDD
(+8 V)

VCC

+
12

IF OUT

12

13

14

15

16

AGC

11

S-MUTER

10

V RET

9

MUTE
DRIVE

8

QUAD IN

7

IF OUT

6

AFC

4

AF OUT

GND
5

MUTE IN

3

IF IN

2

MUTE ATT
ADJ

GND
1

QUAD IN

9

11

IF IN

1st

2nd

3rd

4th

5th

6th

3

GND
4

13

AFC
CLAMP

QUADRATURE
LIMITER

2

V RET

VOLTAGE
REGULATOR

1

–

1

QUADRATURE
DET

7

8

AFC

AF OUT

LM4040BIM3X(NS)
PRECISION MICROPOWER SHUNT VOLTAGE REFERENCE
— TOP VIEW —

LEVEL
DEL

LEVEL
DEL

LEVEL
DEL

SIGNAL
LEVEL
INDICATE

AGC
DRIVE

16

15

AGC

S-METER

INVERTER

HOLE
DET

DC
LEVEL
DET

AF
MUTE
AMP

1
NC

5

MUTE
ATT
ADJ.

2

3

MUTE
DRIVE

14
MUTE DRIVE

6
MUTE IN

M27V201-200L6(SGS)CHIP CARRIER
C-MOS 2M (256×8) -BIT UV ERASABLE PROM AND OTP ROM

14

13

GND
12

A7 IN
11

10

+
–

9

8

A5 IN

+
–

A4 IN

+
–

2

3
VCC

6

30 A17 IN

31 P IN

32

12
11
10
9

29 A14 IN

8
7

28 A13 IN

6
5

7

27 A8 IN

27
26

+
–
1

A6 IN

5

VDD
(+3.2 V to +5.5 V)

2 A16 IN

—TOP VIEW—

VPP 1

QUAD COMPARATORS

3 A15 IN

— TOP VIEW —
4 A12 IN

LM339NS(TI)FLAT PACKAGE
LM339PW(TI)FLAT PACKAGE–

8

26 A9 IN

23
25

A3 IN
4

5

6

7

9

25 A11 IN

4
28

A2 IN 10

24 G IN

A1 IN 11

23 A10 IN

29
3

(+5V)

2
30

22 E IN

DUAL OPERATIONAL AMPLIFIERS
— TOP VIEW —
VCC
(+3 V to +30 V)

1
2
3
4 GND

8
7

– +

+ –

6
5

A0 - A17
Q0 - Q7
E
G
P
VPP

6-12

Q1

A2

Q2

A3

Q3

A4

Q4

A5

Q5

A6

Q6

A7

Q7

14
15
17
18
19
20
21

A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
G
22

24

P
31

Q6 OUT 20

Q5 OUT 19

Q4 OUT 18

13

; ADDRESS INPUTS
; DATA OUTPUTS
; CHIP ENABLE INPUT
; OUTPUT ENABLE INPUT
; PROGRAM INPUT
; PROGRAM SUPPLY (12.75 V)

MODE
READ
OUTPUT DISABLE
PROGRAM
VERIFY
PROGRAM INHIBIT
STANDBY
ELECTRONIC SIGNATURE
0
1
X
VID
HI-Z

Q0

A1

E

21 Q7 OUT
Q3 OUT 17

LM358PS(TI)FLAT PACKAGE
UPC358G2(NEC)FLAT PACKAGE

Q2 OUT 15

Q1 OUT 14

Q0 OUT 13

16 GND

A0 IN 12

A0

E
0
0
0
0
1
1
0

G
0
1
1
0
X
X
0

E
X
X
1
X
X
1

E
X
X
X
X
X
X
VID

E
X
X
VPP
VPP
VPP
X
VDD

Q0 -Q7
DATA OUT
HI-Z
DATA IN
DATA OUT
HI-Z
HI-Z
CODES

; INPUT LOW VOLTAGE
; INPUT HIGH VOLTAGE
; DON'T CARE
; 12 V ± 0.5 V
; HIGH IMPEDANCE

BVP-550

IC

M51132FP(MITSUBISHI)FLAT PACKAGE

M52313SP(MITSUBISHI)

2-CHANNEL ELECTRONIC LEVEL CONTROL

PLL VIF/SIF

—TOP VIEW—

— TOP VIEW —
15

VREF OUT 1

16 OUT1

11

IN1

OUT1

IN2

OUT2

16

19

10

AFT COIL 1

20 EQ OUT

EQ

EQ

12

FILTER 2

15 IN1

5
7

3 NC

VCC (+12V) 14

4 GND
LEVEL/LEVEL1 5

9

NC 13

2

NC 12

6
8

REDUCE 6

11 IN 2

BAL/LEVEL2 7

10 OUT 2

PASS/VCA 8

Vcc

VREF OUT

FILTER

GND

LEVEL/LEVEL1
BAL/LEVEL2

9

MODE
SEL

AFT OUT 2

LEVEL/LEVEL1
BAL/LEVEL2

OUT

FILTER

1

REDUCE

MODE SEL

18

VCC
(+5 V)

VIF IN 5

16

PASS/VCA

BAL/LEVEL2 ; BALANCE/LEVEL2 CONTROL
; FILTER
FILTER
; INPUT 1
IN1
; INPUT 2
IN2
; MODE SELECT
MODE SEL
; OUTPUT 1
OUT1
; OUTPUT 2
OUT2
; PASS/VCA CONTROL SWITCH
PASS/VCA
; SWITCHING NOISE REDUCE
REDUCE
LEVEL/LEVEL1 ; LEVEL/LEVEL1 CONTROL
; REFERENCE VOLTAGE OUTPUT
V REF OUT

VCA1

7 GND

14 VCO COIL

15

2

VIDEO
OUT
17

EQ IN
19

VIDEO
AMP

VCO
COIL
15

VIDEO
DET

IN1

CONTROL
VOLTAGE
GENERATOR

7

6

SIF IN
12

APC
FILTER IN
11

VCO

APC

LIM

IF
AGC

IF AMP

LOCK
DET

FM
DET

INPUT
BUFFER 2
11

CONTROL MODE
SELECT
PASS/VCA
SELECT

8
9

VCO
COIL
14

AFT

RF
AGC

5

2

OUT1

INPUT
BUFFER 1

4

AFT

3

11 APC FILTER

OUT

EQ
AMP
16

RF AGC

17

12 SIF IN

AUDIO 10

EQ OUT
20

VIDEO

10

VCC 13
(+5 V)

FM DET
9
COIL

OUTPUT
BUFFER 1

REG

15 VCO COIL

RF AGC
8
DELAY

AUDIO

11 APC
FILTER
14
VCO COIL
15
VCO COIL
4 IF AGC
FILTER
8 REF AGC
DELAY
6
VIF
5
VIF
1 AFT
COIL

17 VIDEO OUT

VREF OUT
REDUCE

10

PASS/VCA

IF AGC
4
FILTER

VIF IN 6

14

1

VCC
(+5 V)

RF AGC 3

MODE SEL

SIF
9 FM DET
COIL

19 EQ IN

20

VCA2

1

IN2

OUT2

2

AFT COIL
IN

AFT
OUT

3

4

RF AGC
OUT

IF AGC
FILTER IN

5
VIF IN

6

8

VIF IN

9

10

RF AGC FM DET AUDIO
DELAY
COIL
OUT

OUTPUT
BUFFER 2

M62021FP(MITSUBISHI)FLAT PACKAGE
SELECTION SW BUILT-IN SYSTEM RESET

M51958A(MITSUBISHI)FLAT PACKAGE

— TOP VIEW —

VOLTAGE DETECT DELAY

3

— TOP VIEW —

1

V OUT 1

8 CS

2

V BAT 2

7 RES

4

NC 8

NC

V IN 3 +5V

VCC

IN 2

V

V

1

V BAT
CS
RES

CT

RES

GND 6

8
7
5

(+2 V to +17 V) 7

CT 4

3 NC

6 OUT

4 GND

5 CD

5 RES
; CHIP SELECT OUTPUT
CS
CT
; DELAY CAPACITY INPUT
RES ; RESET OUTPUT
VBAT ; VIDEO SIGNAL BACKUP INPUT
VIN ; VIDEO SIGNAL INPUT
VOUT ; VIDEO SIGNAL OUTPUT
SW

VCC

5 µA

V IN

3

1

OUT
R1

2.5 µA

Com

2

–

+
–

R2

1.24 V

+
1.25 V
RES

5
CD

BVP-550

+

RES

7
5

2

8

DELAY
CAPACITY
CIRCUIT

IN

V OUT

D1

RESET
CIRCUIT

6

4

V BAT

CS

CT

6-13

IC

M62352GP(MITSUBISHI)FLAT PACKAGE

MAX202CSE(MAXIM)
RS-232 TRANSMITTER/RECEIVER

C-MOS 8-BITx12 CHANNEL D/A CONVERTER
(WITH BUFFER OPERATIONAL AMPLIFIER)

— TOP VIEW —

— TOP VIEW —

1 VSS

GND 20

17

AO3 2

19 AO2

AO4 3

18 AO1

AO5 4

17 DI

AO6 5

16 CK

DI

LD

AO1
AO2
AO3
AO4
AO5
AO6
AO7
AO8
AO9

AO7 6

AO10

15 LD

AO11
AO12

AO8 7

14 DO

AO9 8

13 AO12

AO10 9

12 AO11

16

VCC
(+5 V)

10 VDD

VCC
(+5 V)

C1 + 1

15

DO

1

16

4

18

V+ 2

19
2
3

GND 15

5

C1 – 3

14 T1 OUT

C2 + 4

13 R1 IN

11
10

4
5

13

6

C2 – 5

7
8

V– 6

11 T1 IN

T2 OUT 7

10 T2 IN

9
11
12

12 R1 OUT

R2 IN 8

14

8

C1+

C2+

6

V–

C2–

T1

T1

T2

T2

R1

R1

R2

R2

14
7

12
9

R1, 2 ; RECEIVER 1, 2
T1, 2 ; TRANSMITTER 1, 2

+5 V
0.1 µF INPUT
+

0.1 µF
6.3 V
+

16
1
+

11

0.1 µF

3
+

4

; 8-BIT D/A OUTPUTS
; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT

5

+5 V to +10 V
VOLTAGE DOUBLER

2 +10 V

+10 V to –10 V
VOLTAGE INVERTER

–10 V
6
0.1 µF
+ 16 V

+5 V
400 K

11

14

T1
+5 V

TTL/CMOS
INPUTS

NOTE:
3.5 V < VDD < VCC
–3.5 V < VSS < VCC

10

RS-232
OUTPUTS

400 K

7

T2

12

13

R1
5K

TTL/CMOS
OUTPUTS
9

DI 17
CK 16

2

V+

C1–

9 R2 OUT

0.1 µF

AO1-AO12
CK
DI
DO

3

14

12-BIT SHIFT RESISTOR

RS-232
INPUTS
8

R2
5K

DO
15

LD 15

ADDRESS
DECODER

8

CH1

8

8-BIT
LATCH

12

8-BIT
D/A CONVERTER

+
–

18

AO1

MB88346BPFV(FUJITSU)FLAT PACKAGE(SMALL)
CH2

19

CH3

2

CH4

3

AO2

C-MOS 8-BIT D/A CONVERTER
— TOP VIEW —

AO3

1 GND

CH5

CH6

CH7

CH8

CH9

4

5

6

7

8

AO4

AO3 OUT 2

19 AO2 OUT

AO4 OUT 3

18 AO1 OUT

AO5 OUT 4

17 DI IN

AO6 OUT 5

16 CK IN

9

CH11

12

CH12

13

AO2
AO3
AO4
AO5
17

AO5

AO6

AO7 OUT 6

15 LD IN

AO8 OUT 7

14 DO OUT

AO9 OUT 8

13 AO12 OUT

AO6

D1

AO7
AO8
AO9
AO10
AO11
AO12

AO7

DO

LD

AO8

18
19
2
3
4
5
6
7
8
9
12
13

16

AO10 OUT 9

14

15

12 AO11 OUT

AO9

VCC

VDD
10 (+5
V)

CH10

AO1

GND 20

(+5 V)

11

AO10

AO11

AO1 - AO12
CK
DI
DO
LD

; 8-BIT D/A OUTPUTS
; CLOCK INPUT
; SERIAL DATA INPUT
; DATA OUTPUT
; DATA LOAD CONTROL INPUT (H ; LOAD)

AO12

D0

8

8

8-BIT
LATCH

8

8-BIT
LATCH

8

D1

8-BIT
R-2R
D/A CONV

+
–

13

8-BIT
R-2R
D/A CONV

+
–

18

AO12

D2

CK

16

D3

12-BIT
SHIFT REGISTER

DI

17

D4
D5
8

D6
D7

AO1

D8
D9
D10

ADDRESS 12
DECODER

D11
14

LD

6-14

DO

15

BVP-550

IC

MB88351PFV(FUJITSU)FLAT PACKAGE

MC14018BF(MOTOROL)FLAT PACKAGE

C-MOS 12-BIT D/A CONVERTER WITH OPERATIONAL AMPLIFIER

C-MOS PRESETTABLE DIVIDE-BY-N COUNTER

— TOP VIEW —

— TOP VIEW —

1 GND

AO1

GND 20

2 NC

17

AO2
AO3

NC 19

3 NC

DI

16

AO4

14

4

FB (FEEDBACK) IN 1

5

16

6
7

(+3 V to +12 V) 15 RD (RESET DIRECT) IN

NC 18
LD

DO

14 CK (CLOCK) IN

16 CLK IN

QA OUT 5

12 E IN

AO3 OUT 6

15 LD IN

QC OUT 6

11 QD OUT

AO4 OUT 7

14 DO OUT

AO2 OUT 5

7

14

13 QE OUT

17 DI IN

PE

9

QB OUT 4

AO1 OUT 4

FB

2
3

B IN 3
15

1
10

VDD

A IN 2

12

A

QA

B

QB

C

QC

D

QD

E

QE

5
4
6
11
13

RD

8 NC

NC 13

9 NC

NC 12

C IN 7

15

10 PE (PRESET ENABLE) IN

8 GND

9 D IN

10 VDD (+3 V) VDD (+5 V) 11

INPUT
CLK
DI
LD

; SHIFT CLOCK
; SERIAL DATA
; DECODER AND D/A REGISTER TO LOAD

OUTPUT
AO1-AO4
DO

; ANALOG DATA
; MBS BIT DATA IN 15-BIT SHIFT REGISTER

D12
0
0
0
0
1
1
1
1

D13
0
0
1
1
0
0
1
1

D14
0
1
0
1
0
1
0
1

ADDRESS SELECT
DON'T CARE
AO1 SELECT
AO2 SELECT
AO3 SELECT
AO4 SELECT
DON'T CARE
DON'T CARE
DON'T CARE

CONNECT TO FB
INPUT
QE
QD, QE
QD
QC, QD
QC
QB, QC
QB
QA, QB
QA

DIVIDE
BY
10
9
8
7
6
5
4
3
2

VIA

RESULTS FROM EACH Q OUTPUT

DIRECT
AND GATE
DIRECT
AND GATE
DIRECT
AND GATE
DIRECT
AND GATE
DIRECT

5 COUNTS
5 COUNTS
4 COUNTS
4 COUNTS
3 COUNTS
3 COUNTS
2 COUNTS
2 COUNTS
1 COUNTS

HIGH, 5 COUNTS
HIGH, 4 COUNTS
HIGH, 4 COUNTS
HIGH, 3 COUNTS
HIGH, 3 COUNTS
HIGH, 2 COUNTS
HIGH, 2 COUNTS
HIGH, 1 COUNTS
HIGH, 1 COUNTS

LOW
LOW
LOW
LOW
LOW
LOW
LOW
LOW
LOW

MC14020BF(MOTOROLA)FLAT PACKAGE

0 ; LOW LEVEL
1 ; HIGH LEVEL

C-MOS 14-STAG RIPPLE-CARRY BINARY COUNTER/DRIVER
—TOP VIEW—

Q11
1CH
12

D12

12

—

12-BIT
LATCH

D14

12-BIT R-2R
D/A
CONVERTER

AMP

4

OUT

OUT

AO2

Q5

OUT

4

13 Q7

OUT

6

4CH

AO3

Q4

OUT

5

12 Q8

OUT

12

12-BIT
LATCH

12-BIT R-2R
D/A
CONVERTER

AMP

7

AO4

Q3

14
15
1

Q11

IN

9 Q0

8 GND

2
3

Q13

IN

11

*

VDD
+2 to +6V

TYPE
HC4020
14020, 4020, 84020

OUT

4

+3 to +18V

DO

J
CK

•••

•••

•••

•••

•••

•••

•••

•••

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

1
1
1
1

0
1
0
1

H
J

Q

Q13-Q0
ALL LOW
COUNT

RD
1
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

Q12

Q3
H

H
J

Q

7
J

Q

H

2
J

Q

H

3
J

Q

Q

Q13

10
K RD

K RD

RD

Q0
0
1
0
1
0

1
1
1
1

Q0
9

Q3
0
0
0
0
0

1
1
1
1

IN HEXADECIMAL
IN DECIMAL

H

Q4
0
0
0
0
0

•••

0000
0001
0002
0003
0004

OUTPUTS
Q7 Q6 Q5
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0

•••

0
1
2
3
4

BINARY
Q13 Q12 Q11 Q10 Q9 Q8
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0

•••

COUNT

16380 4FFC
16381 4FFD
16382 4FFE
16383 4FFF

BVP-550

12

Q9

Q12

10 CK

7

OUT

ADDRESS 2
3
DECODER
14

15

13

Q8

•••

—

D14

6

Q7

Q10

11 RD

6

OUT

4

RD

1
3

Q6

•••

16

15-BIT
SHIFT
REGISTER

5

Q5
Q6

14 Q9

3

7

Q4

17

D12

LD

Q13

OUT

15 Q10

2

•••

CLK

OUT

Q3

10
5

DI

AO1

Q12

9

Q0

*VDD 16

1

OUT

H
11

H

K RD
H

K RD
H

K
H

K RD
H

6-15

IC

MN6790S(MATSUSHITA)

MC14023BF(MOTOROLA)FLAT PACKAGE
C-MOS 3-INPUT NAND GATE

C-MOS CLOCK GENERATOR

— TOP VIEW —
14
VDD

13

12

— TOP VIEW —
11

10

9

A
B
C

8

+3 V to
+18 V

=

Y

Y

4

1 D. GND

Y=A•B•C = A+B+C
A
X
X
0
1

GND
1

A
B
C

2

3

4

5

6

7

B
X
0
X
1

C
0
X
X
1

A. VDD
(+4.5 V to +5.5 V)

PC OUT 2

Y
1
1
1
0

3 D. VDD

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

10 TEST1 IN

DIV OUT 6

9 MOD1 IN

1

3

4

5

6

4
PHASE
COMPARATOR

5

11

VCO

TEST2 OUT

1
Y =

2

A
B

Y

DIV OUT

6

1
684,858,864

8

Y=A•B=A+B

CK OUT

Y
1
1
1
0

MOD1

MOD2

0
1
0
1

0
0
1
1

A
0
0
1
1

GND
7

B
0
1
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL

NOTE:
TYPE
TC74AC00 TYPE
TC74VHC00
MC74HCT00N
74ACT00 TYPE
OTHER TYPES

6

VCO1
IN
14

8
A
B

2

11

8 CK OUT

PC
OUT
2

PC2 IN

9

TEST2

8

11 TEST2 OUT

PC1 IN

10

VCO1

DIV

PC2 IN 5

—TOP VIEW—
11

14

PC1 IN 4

C-MOS QUAD 2-INPUT NAND GATES
12

13

2

PC2

(+4.5 V to +5.5 V)

MC74HC00AF(MOTOROLA)FLAT PACKAGE
TC74HC00AF(TOSHIBA)FLAT PACKAGE
TC74VHC00FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

13

5

A. GND 12

MOD2 IN 7

14
VDD

PC

PC1

14 VCO1 IN

VDD
+2 to +5.5V
+5V

FREQUENCY
RATIO
1/684
1/858
1/864

VCO

MOTE

OSCILLATION
STANDSTILL

CK = DIV = L

0 ; LOW LEVEL
1 ; HIGH LEVEL

+4.5 to +5.5V
+2 to +6V

MC74HC4053F(MOTOROLA)FLAT PACKAGE
TC74HC4053AFS(TOSHIBA)FLAT PACKAGE
C-MOS TRIPLE 2-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER
— TOP VIEW —
VDD
(+2 V to +6 V)

Y1 IN/OUT 1

12 X0

16

13 X1

X 14

OPEN
11 A

Y0 IN/OUT 2

15 Y IN/OUT

Z1 IN/OUT 3

14 X IN/OUT

Z IN/OUT 4

13 X1 IN/OUT

Z0 IN/OUT 5

12 X0 IN/OUT

3 Z1

11 A IN

9

2 Y0
1 Y1

Y 15

OPEN
10 B
5 Z0

EN IN 6
7 VEE *

10 B IN

8 GND

9 C IN

Z

4

OPEN
C
EN

VEE

6

7

VEE*; VDD – VEE = +3 V to +12 V
< GND
VEE =

CONTROL INPUTS
SELECT
C
B
A
0
0
0
0
0
0
1
0
0
1
0
0
0
1
1
0
1
0
0
0
1
0
1
0
1
1
0
0
1
1
1
0
X
X
X
1

EN

6-16

ON CHANNEL
Z0
Z0
Z0
Z0
Z1
Z1
Z1
Z1

Y0
Y0
Y1
Y1
Y0
Y0
Y1
Y1
OPEN

X0
X1
X0
X1
X0
X1
X0
X1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

BVP-550

IC

PA2

PA3

PA4

PA5

PA6

PA7

WR

44

43

42

41

40

39 38
NC

37

36

35

34

2 GND

32 D0

A1 3

31 D1

PC7 5

29 D3

PC6 6

28 D4

4

27 D5

3

PC4 8

26 D6

PC0 9

25 D7
VDD
(+3 V to +6 V)

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

SIGNAL

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

—
—
—
I
I
I
I
—
—
I
—
I
I
O
I
I

GND
GND
VRB
TEST0
Y
RY
BY
VDD
VRT
TEST1
VDD
IREF
VREF
Y
COMP
VIB

17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

O
O
—
I
I
O
I
I
I
I
O
I
—
I
—
O

RY
BY
GND
RST
SCL
SDA
VPD
VCD
CKCNT
CVC
CPC
HC
GND
IREFVC
VDD
CLAMP

33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48

O
I
O
I
—
—
O
O
O
O
O
O
O
O
O
O

YS
HP
PPC
PVC
VDD
GND
A0
A1
A2
A3
A4
A5
A6
A7
A8
CAS

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

O
O
O
O
I
I
I
—
—
I
I
I
I/O
I/O
I/O
I/O

RAS
WE
DT
SC
LEV1
LEV0
DI3
VDD
GND
DI2
DI1
DI0
DO3
DO2
DO1
DO0

3

VREF 13
IN
12
IREF
IN

+
–

STORE
BUFFER
MEMORY

READ
BUFFER
MEMORY

DEMULTIPLEXER
ELECTRIC
CURRENT

FRAME
COMPOSITE
FRAME COLOR
LEVEL

COMP 15
IN 16
VIB IN

50
49
48
47
46
45
44
43
42
41
40
39

DA
CONVERTER

7

17

DA
CONVERTER

6
I2C
CONTROL

SAMPLING
CLOCK
GENERATOR

PB2

PB1

D3

PA3

D4

PA4

D5

PA5

D6

PA6

D7

PA7

PB0
PB1
A0

PB2

A1

PB3
PB4
PB5
PB6
PB7

24

PC0

19

20

21

PC1

22

PC2
44
34

RD

PC3

WR

PC4

WR
1
1
1
1
0
0
0
0
X

RD
0
0
0
0
1
1
1
1
X

OPERATION
PORT A
DATA BUS
PORT B
DATA BUS
PORT C
DATA BUS
NO OPERATION
DATA BUS
PORT A
DATA BUS
PORT B
DATA BUS
PORT C
DATA BUS
CONTROL REGISTER
HIGH IMPEDANCE

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

A0, A1
CS
D0 to 7
PA0 to 7
PB0 to 7
PC0 to 7
RD
WR

PC6
1

CS

PC7

43
42
41
40
38
37
36
35

14
15
16
18
19
20
21
23

9
10
11
13
8
7
6
5

RESET
33

; PORT SELECT ADDRESS
; CHIP SELECT
; DATA BUS
; PORT A IN/OUT
; PORT B IN/OUT
; PORT C IN/OUT
; READ
; WRITE

GROUP
A
PORT A

GROUP
A
PORT C
HIGHER
4-BITS

DATA
BUS
BUFFER

SC OUT

PA0 to PA7

PC4 to PC7

DT OUT
WE OUT
RAS OUT

RD

CAS OUT

WR

A8 OUT

RESET

A7 OUT

CS

A6 OUT

A0

A5 OUT

A1

A4 OUT
A3 OUT
A2 OUT

READ/
WRITE
CONTROL
LOGIC

GROUP
B
CONTROL

GROUP
B
PORT C
LOWER
4-BITS

GROUP
B
PORT B

PC0 to PC3

PB0 to PB7

A1 OUT
A0 OUT

DISPLAY
CLOCK
GENERATOR

35

36
PVC IN

CPC OUT

HP IN

34

30

25
CKCNT IN

IREF VC IN

27
CPC OUT

CVC IN

26

28
HC IN

32

20

33
YS OUT

CLAMP OUT

SCL IN

BVP-550

18

PA2

6

RST OUT

DA
CONVERTER

READ
CONTROL

21

BY 18
OUT

STORE
CONTROL

22

RY
OUT

14

SDA OUT

Y OUT

CS
0
0
0
0
0
0
0
0
1

LEV1 IN

51

7
VERTICAL
FILTER

A0
0
1
0
1
0
1
0
1
X

D0 to D7
52

AD
CONVERTER

17

PA1

D2

PC5

A1
0
0
1
1
0
0
1
1
X

MULTIPLEXER

EXTERNAL MEMORY CONTROL/
ADDRESS GENERATOR

7

16

PA0

D1

NC

GROUP
A
CONTROL

5
6

15

53

54

DI3 IN
55

58

59

60

61

62

63

64
VRB

LEV0 IN

I/O

DI2 IN

PIN
No.

DI1 IN

SIGNAL

DI0 IN

I/O

DO3 IN/OUT

PIN
No.

DO2 IN/OUT

SIGNAL

DO1 IN/OUT

I/O

DO0 IN/OUT

PIN
No.

14

PB0

PC3

13

D0

23 PB7

VDD
(+3 V to +6 V)

NC

SIGNAL

Y IN

26

30 D2

PC1 10

I/O

BY IN

27

A0 4

PC5 7

PIN
No.

RY IN

29

25

12

9

30

28

PC2 11

VRT

31

PB6

GND

VDD (+5 V)

GND
VDD (+5 V)

32

33 RESET

PB5

VDD (+5 V)

CS 1

PB4

VDD (+5 V)

48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33

PB3

GND
GND

GND

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

PA1

— TOP VIEW —

PA0

C-MOS PROGRAMMABLE PERIPHERAL INTERFACE

— TOP VIEW —

RD

PICTURE IN PICTURE/PICTURE OUT PICTURE CONTROLLER

GND
VDD (+5 V)

MSM82C55A-2GS(OKI)FLAT PACKAGE

64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49

MN8232A(MATSUSHITA)

6-17

IC

NJM3414AM(SNM)FLAT PACKAGE

PCF8574AT(PHILIPS)
PCF8574T(PHILIPS)

DUAL OPERATIONAL AMPLIFIER
— TOP VIEW —

C-MOS REMOTE 8-BIT I/O EXPANDER
— TOP VIEW —

8
Vcc

7

6

5
1

+

A0 IN 1

VDD 16

3

A1 IN 2
+
1

2

15 SDA

2

GND
4

3

14 SCL

P0 I/O 4

13 INT

P1 I/O 5
NOTE:
TYPE
TA75358P
NJM3414M
RC3414M
M5223FP

P2 I/O 6

11 P6 I/O

+15V

P3 I/O 7

10 P5 I/O

+36V

P0

A2

P2

SCL

P3
P4
P5
P6

12 P7 I/O

Vcc
+12V

8 GND

9

13

A1

P1
14

A2 IN 3

INT

A0

P7
SDA

4
5
6
7
9
10
11
12
15

P4 I/O

INPUT
A0 - A2 ; ADDRESS INPUTS
SCL
; SYSTEM CLOCK LINE

NJM4556AM-A(NEC)FLAT PACKAGE
OPERATIONAL AMPLIFIER
(WIDE BAND, DECOMPENSATED)
—TOP VIEW—

OUTPUT
INT
; INTERRUPT OUTPUT
SDA
; SERIAL DATA LINE
INPUT/OUTPUT
P0 - P7 ; 8-BITS QUASI-BIDIRECTIONAL I/O PORT

VDD

1

(+15V) 14
–

2

+

13
+–

3

12

VEE

4 (-15V)

11

INT
A0
A1
A2

INTERRUPT
LOGIC

13
1

LP FILTER
PCF8574
PCF8574A

2
3

4
5

SCL
SDA

14

INPUT
FILTER

15

I2C BUS
CONTROL

6

SHIFT
REGISTER

I/O
PORTS

8 BIT

7
9
10
11

NJM4558V(JRC)FLAT PACKAGE
NJU7022M(JRC)FLAT PACKAGE

12

DUAL OPERATIONAL AMPLIFIER
— TOP VIEW —
8

7

6

P1
P2
P3
P4
P5
P6
P7

write pulse
VDD
VSS

VDD
(+15 V)

P0

16

read pulse

POWER-ON
RESET

8

5

–
+
+
–
VEE
(–15 V)

1

2

3

4

REF-03GS(PMI)
REFERENCE/TEMPERATURE TRANSDUCER
— TOP VIEW —
2

1 NC
V IN 2

NC 8
NC 7

V IN
5

TMP

3

TRIM
GND

V OUT

6

4

TEMP OUT 3
4 GND

6 V OUT
5 TRIM

V IN
; INPUT VOLTAGE (+4.5 V to +33 V)
TEMP OUT ; TEMPERATURE TRANSDUCER
VOLTAGE OUTPUT
TRIM IN
; OUTPUT SIGNAL TRIMMING
V OUT
; OUTPUT VOLTAGE (+2.5 V)

6-18

BVP-550

IC

RTC4553B(EPSON)

SN74HC157APW(TI)FLAT PACKAGE
TC74VHC157FS(TOSHIBA)FLAT PACKAGE(SMALL)

C-MOS REAL TIME CLOCK

C-MOS QUAD 2-LINE-TO-1-LINE DATA SELECTOR/ DEMULTIPLEXER

— TOP VIEW —

—TOP VIEW—
8

1 GND

14 TP OUT

4

13 S OUT

11

3

WR IN 2

12

S IN 3

12 CS1 IN

SCK IN 4

2

5
6

L1 IN 5

10 L5 IN

7
9

L2 IN 6

9 L4 IN
VDD
(+5 V)

L3 IN 7

INPUT
CS0
CS1
L1-L5
SCK
SIN
WR

SCK
SIN

S OUT

10

13

16
VDD

CS0

CS0

XC

OUT

IN

IN

OUT

12

11

10

9

X0

1
0

L2

1

2

3

GND

A

V0

1

IN

IN

L5

V0

3

V1

5

W0

6

4

W1

WC

7

11 X0
10 X1

XC

9

14 Y0
13 Y1

YC 12

0
1

L3
L4

2

VC

1
0

0
1

L1

8

4

5

6

7

V1

VC

W0

W1

WC

IN

OUT

IN

IN

OUT

GND
8

A

DIVIDING

14

+2 to +8V
+2 to +6V

—TOP VIEW—
CONTROL CONTROL CONTROL
REGISTER REGISTER REGISTER
(1)
(2)
(3)

2

RAM
(120 bit)

13

12

11

10

9

8

INPUTS
SD
0
1
0
1
1
1

D

SD

Q

14
VDD

Q
RD

S OUT

D

SD

13

OUTPUT
CONTROL

Q

5-7, 9, 10

TEST

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

C-MOS DUAL D-TYPE FLIP-FLOPS WITH DIRECT SET/RESET
SHIFT
REGISTER

L1-L3
L4, L5

ON
CHANNEL
0
1
GND

SN74HC74ANS(TI)FLAT PACKAGE
TC74VHC74F(TOSHIBA)FLAT PACKAGE
TC74VHC74FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

CONTROL

11

CONT.IN
INH
A
0
0
0
1
1
X

+2 to +5.5V

15

TP OUT

CONTROL

3

12

VDD
+5V

TYPE
74ACT/74FCT
TC74AC157P
TC74AC157
TC40H
OTHER TYPES

OUTPUT CONTROL

INH

1

NOTE:

SECOND MINUTE HOUR DAY DATE MONTH YEAR

4

WR

X1

IN

13

RD Q

CS1

YC

IN

14

14

; CHIP SELECT (L: ACCESS ENABLE, H: SOUT HIGH Z)
; POWER DOWN DETECTION
; TEST IN
; SERIAL SYNC SIGNAL
; SERIAL ADDRESS/DATA
; WRITING SELECT (L: WRITING, H: READING)

OSC

SIN

Y0

WR

OUTPUT
SOUT
; SERIAL ADDRESS/DATA
; REFERENCE SIGNAL
TPOUT

SCK

Y1

IN

15

CS1

TP OUT

11 CS0 IN

INH

VDD (+5 V)

1

2

3

4

5

6

GND
7

RD
1
0
0
1
1
1

CK
X
X
X

0

OUTPUTS
D
X
X
X
1
0
X

Qn+1 Qn+1
1
0
0
1
1
1
1
0
0
1
Qn
Qn

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

2

SD
D

Q

11

10

9

A
B

Y =

A
B

Y=A•B=A+B

1

2

3

4

5

6

A
0
0
1
1

B
0
1
0
1

Y
0
0
0
1

TYPE
HCT/ACT
TC74AC/VHC
OTHERS

VDD
+5V
+2 to +5.5V
+2 to +6V

RD

Q

13

Y

SN74HCT04APW(TOSHIBA)FLAT PACKAGE
TC74VHC04FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS HEX INVERTERS
—TOP VIEW—

0 ; LOW LEVEL
1 ; HIGH LEVEL

14
VDD

13

12

11

10

9

8

NOTE:
TYPE
TC74AC08 TYPE
MC74ACT08M
TC40H
OTHER TYPES

Q

9

8

6

1

8

GND
7

D

Q

RD

12

SD

11

—TOP VIEW—
13

12

5

3

C-MOS QUAD 2-INPUT AND GATES
14
VDD

NOTE:

10

4

SN74HC08ANS(TI)FLAT PACKAGE
SN74HC08APW(TI)FLAT PACKAGE
TC74VHC08FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

A

Y =

A

Y

VDD

Y=A
+2 to +5.5V

A Y
0 1
1 0

+2 to +8V
+2 to +6V

1

2

3

4

5

6

GND
7

0 ; LOW LEVEL
1 ; HIGH LEVEL

NOTE:
TYPE
74HCT04 TYPE
TC74AC04 TYPE
TC74VHC04 TYPE
74ACT04 TYPE
OTHER TYPES

BVP-550

VDD
+5V
+2 to +5.5V
+4.5 to +5.5V
+2 to +6V

6-19

IC

SN74HCT244APW-E05(TI)FLAT PACKAGE
TC74VHC244FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

STK10C68-5S35(SIMTEK)FLAT PACKAGE
C-MOS 8K×8-BIT NONVOLATILE STATIC RAM
— TOP VIEW —

C-MOS BUS BUFFER WITH 3-STATE OUTPUTS
—TOP VIEW—

10

20
VDD

VDD
(+5V)

NE IN 1

G2
19

18

17

16

15

14

13

12

11

28

9
8

A

Y =

A

Y

A12 IN 2

27 WE IN

7
6

G

G

A7 IN 3

NC 26

5
4

1

2

3

4

5

6

7

8

G
0
0
X

GND
10

9

A
0
1
X

A6 IN 4

Y
0
1
HI-Z

2

18

4

16

6

14

8

12

11

9

13

7

15

5

17

1

18

4

16

6

14

8

12
G
1

OR

3
G1

2

A5 IN 5

G2

11

9

13

7

15

19

5

17

24 A9 IN

A4 IN 6

24

23 A11 IN

23
2

A3 IN 7

22 OE IN

A2 IN 8

21 A10 IN

A1 IN 9

20 CE IN

A0 IN 10

19 D7 IN/OUT

D0

A1

D1

A2

D2

A3

D3

A4

D4

A5

D5

A6

D6
D7

A7

21

VDD

A0 - A12
CE
D0 - D7
NE
OE
WE

D0 IN/OUT 11

18 D6 IN

D1 IN/OUT 12

17 D5 IN

+5V
D2 IN/OUT 13

+2 to +5.5V

12
13
15
16
17
18
19

A9
A10
A11
A12

1

+2 to +6V

11

A8

NE

NOTE:
TYPE
AC
HC
40H
ACT
BCT
FCT
HCT
TC74AC244 TYPE
TC74VHC244

3
25

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE
HI-Z ; HIGH IMPEDANCE

G1

25 A8 IN

A0

CE

OE

20

WE

22

27

; ADDRESS INPUTS
; CHIP ENABLE INPUT
; DATA INPUTS/OUTPUTS
; NONVOLATILE ENABLE INPUT
; OUTPUT ENABLE INPUT
; WRITE ENABLE INPUT

16 D4 IN

14 GND

15 D3 IN

3
G
19

SN75158PS(TI)

STORE
RECALL

DUAL DIFFERENTIAL LINE DRIVE
A3

— TOP VIEW —

A4
A5

1Z 1

VCC
(+5 V)

8

A6
A7

1Y 2

7 2Z

A8
A9

1A 3
4 GND

6 2Y

A12

EEPROM ARRAY
256×256

7
6
5
4

STATIC RAM
ARRAY
256×256

ROW
DECODER

3
25
24
2

5 2A
A0
A1
A2
A10
A11

10
9

COLUMN COLUMN
DECODER
I/O

8
21

11
12

23

13
8

8

8

15
16
17

INPUT
BUFFER

22
OE
27
WE
1
NE
20
CE

8

8

18
19

D0
D1
D2
D3
D4
D5
D6
D7

STORE/RECALL
CONTROL

TA75S393F(TOSHIBA)
SINGLE COMPARATOR
— TOP VIEW —
OUT
4

5
VCC
–

VCC ; +1 V to +18 V or +2 V to +36 V
VEE ; –1 V to –18 V

+

1
IN (–)

6-20

VEE
2

3
IN (+)

BVP-550

IC

TC4S30F(TOSHIBA)CHIP PACKAGE
TC7S86FU(TOSHIBA)CHIP PACKAGE

TA8129Z(TOSHIBA)
FM IF SYSTEM (DIFFERENTIAL PEAK DETECT)
— SIDE VIEW —

C-MOS 2-INPUT EXCLUSIVE OR GATE
(SCALE 6/1)
—TOP VIEW—
1

A

5 VDD

B

2

4

1

Y

14

15

16

IF OUT

MUTE

13

DET 2

AF OUT

12

REG

11

DET 1

10

F

6

SD OUT

IF IN

BIAS

SDS

2

GND 3

VCC
(+16 V)

GND
7
8
9

METER

1

GND
3
4
5

BYPASS

2
4

Y=A•B+A•B
A
0
0
1
1

Y
0
1
1
0

B
0
1
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
VDD

TYPE
7S86FU
7S86F
4S30F

+2 to +6V
+3 to +18V

F DET

MUTE
DRIVE

5

6

7

9

IF IN

BIAS

GND (IF)

SDS

METER OUT

SD OUT

F

10

11

MUTE

12

13

14

15

16

IF OUT

4

DET 2 IN

3

TC4S69F(TOSHIBA)CHIP PACKAGE
TC4SU69F(TOSHIBA)CHIP PACKAGE
TC7S04FU(TOSHIBA)CHIP PACKAGE
TC7SH04FU(TOSHIBA)CHIP PACKAGE

PEAK DET

DET 1 IN

2

REG

AF OUT

1

BYPASS

AF AMP

VCC

STATION
DET

LPF

REG OUT

METER
DRIVE

IF AMP

C-MOS INVERTER
(SCALE 6/1)
—TOP VIEW—
1

5 VDD

A

2

4

A

Y =

Y

2
GND 3

TYPE
7S04F
7SU04F
7SU04FU
4S69F
4SU69F
7SH04FU

C-MOS 2-INPUT NOR GATE
(SCALE 6/1)
—TOP VIEW—
A

5 VDD

B

1

4

2

Y =

A

4

A Y
0 1
1 0

TC4S01F(TOSHIBA)CHIP PACKAGE
TC7S02FU(TOSHIBA)CHIP PACKAGE
TC7SH02FU(TOSHIBA)CHIP PACKAGE

1

Y=A

VDD

0 ; LOW LEVEL
1 ; HIGH LEVEL

+2 to +6V

+3 to +18V
+2 to +5.5V

Y

B

2
GND 3

Y=A+B=A•B

4

A
0
0
1
1

B
0
1
0
1

Y
1
0
0
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+3 to +18V

TYPE
4S01F
7S02F
7S02FU
7SH02FU

+2 to +6V

TC4S71F(TOSHIBA)CHIP PACKAGE
TC7S32FU(TOSHIBA)CHIP PACKAGE
TC7SH32FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT OR GATE
(SCALE 6/1)
—TOP VIEW—
1

5 VDD

2
A
1
B

4

Y =

A
B

Y

2
GND 3

4

Y=A+B=A • B
A
0
0
1
1

TC4S11F(TOSHIBA)CHIP PACKAGE
TC7S00FU(TOSHIBA)CHIP PACKAGE

B
0
1
0
1

TYPE
7S32F
7S32FU
4S71F
7SH32FU

C-MOS 2-INPUT NAND GATE
— TOP VIEW —

Y
0
1
1
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
VDD
+2 to +6V
+3 to +18V
–2 to +5.5V

(SCALE 6/1)
1

5 VDD

GND 3

A
B

2
4

2

4

1

A

Y

B

Y=A•B=A+B
A
0
0
1
1

TYPE
7S00F
7S00FU
4S11F
4SU11F
7SH00FU

BVP-550

Y =

B
0
1
0
1

Y
1
1
1
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+2 to +6 V
+3 to +18 V
+2 to +5.5 V

6-21

IC

TC4S81F(TOSHIBA)CHIP PACKAGE
TC7S08FU(TOSHIBA)CHIP PACKAGE
TC7SH08FU(TOSHIBA)CHIP PACKAGE

TC74HC4052AFS(EL)(TOSHIBA)FLAT PACKAGE
C-MOS DUAL 4-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER
— TOP VIEW —

C-MOS 2-INPUT AND GATE
(SCALE 6/1)
—TOP VIEW—
1

4

Y=A•B=A+B
A
0
0
1
1

4

A
B

14 X1

Y =

Y

B
0
1
0
1

Y
0
0
0
1

Y2 IN/OUT 2

15 X2 IN/OUT

YC IN/OUT 3

14 X1 IN/OUT

XC 13

11 X3
OPEN
1 Y0

Y3 IN/OUT 4

13 XC IN/OUT

Y1 IN/OUT 5

12 X0 IN/OUT

4 Y3

11 X3 IN/OUT

OPEN
10 A

5 Y1
2 Y2

0 ; LOW LEVEL
1 ; HIGH LEVEL

EN IN 6

YC

3

9 B

VDD

TYPE
7S08F
7S08FU
4S81F
14S81F
7SH08FU

12 X0

16

15 X2

5 VDD

2
A
1
B

2
GND 3

VDD
(+2 V to +6 V)

Y0 IN/OUT 1

7 VEE *

10 A IN

8 GND

9 B IN

EN

VEE

6

7

+2 to +6V
+3 to +18V
–2 to +5.5V

CONTROL
INPUTS
B
A
EN
0
0
0
0
1
0
1
0
0
1
1
0
X
X
1

VEE* ; VDD – VEE = +3 V to +12 V

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

"ON"
CHANNEL
0
1
2
3
OPEN

TC4W53FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-CHANNEL MULTIPLEXER / DEMULTIPLEXER
(SCALE 3/1)
—TOP VIEW—
1

6
7

2

7

3

6

GND 4

5

TC74HC4538AFS(TOSHIBA)FLAT PACKAGE

0
1

1

C

OPEN

8 VDD(+3 to +18V)
5

C-MOS DUAL RETRIGGERABLE/NON-RETRIGGERABLE MONOSTABLE
MULTIVIBRATOR

A
INH

VEE

2

— TOP VIEW —

3

VDD
(+2 V to +6 V)

1-C 1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

CONT.INPUT
ON
CHANNEL
INH
A
0
0
0
1
1
0
OPEN
1
X

VDD

16

C
1

1-CR 2

15 2-C

1-RD 3

14 2-CR

C

2

4

1-CK 4

VDD

R
15

Q

6

Q

7

5

Q 10

12
11

Q

RD

13 2-RD
12 2-CK

1-Q 6

11 2-CK

1-Q 7

10 2-Q

9

RD

3

1-CK 5

R
14

13

8 GND

TC4W66FU(TOSHIBA)CHIP PACKAGE
C-MOS DUAL BILATERAL SWITCH

1
C

(SCALE 3/1)
—TOP VIEW—
1

8 VDD(+3 to +18V)

2

7

3

6

GND 4

5

2
CR
Q 6

4
5

2

1

Q

7

15
C

IN/OUT

11

9

Q
RD

3

6

5

14
CR
Q 10

12

RD

7

13

0.74
0.72
0.70
0.68
0.66
0.64
0.62
2

3

4

5

6

VDD POWER SUPPLY VOLTAGE (VOLTS)

IN/OUT

3
CONTROL

CONTROL
0
1

RETRIGGERABLE M. M. V

SWITCH
OFF
ON

0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
RD
VDD

6-22

9 2-Q

k. OUTPUT PULSE WIDTH CONSTANT (TYPICAL)

OUTPUT PULSE WIDTH = k · C · R

NON-RETRIGGERABLE M. M. V

VDD

VDD

VDD

VDD

Q

Q

Q

Q

Q

Q

Q

RD
VDD

Q

RD

RD

VDD

VDD

BVP-550

IC

TC74HC595AF(TOSHIBA)FLAT PACKAGE

TC74VHC138FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

C-MOS 8-BIT SERIAL-INPUT/SERIAL- OR PARALLEL-OUTPUT
SHIFT REGISTER WITH LATCHED 3-STATE OUTPUT

C-MOS 3-TO-8 LINE DECODER / DEMULTIPLEXER
—TOP VIEW—

—TOP VIEW—
1

14

QB

VDD 16

1

OUT

QB

(+2V to +6V)

QC
QD
QE

QD

IN

13 OE

4

OUT

QC

RESET

OUT

QE

14 SI

3

OUT

10

15 QA

2

OUT

QA

SI

QF
QG

IN

QH
11

QF

OUT

5

12 LCK (

) IN

QG

OUT

6

11 SCK (

) IN

15

10 RESET

7

OUT

B

IN

C

IN

1

VDD 16

2

15 Y0

OUT

3

14 Y1

OUT

4

RESET
SI

EN2

6

4

13 Y2

OUT

IN

5

12 Y3

OUT

IN

6

11 Y4

OUT

OUT

7

10 Y5

OUT

9 Y6

OUT

EN1

IN

EN2
EN3

SCK

RD
D

Y7

D

OE

RD
Q

D

C

Y2

15
14
13
12
11

Y4

4

10

Y5

5

EN

6

9

Y6

7

Y7

INPUTS
EN C B
0 X X
1 0 0
1 0 0
1 0 1
1 0 1
1 1 0
1 1 0
1 1 1
1 1 1

NOTE:

9

Q

SQH

VDD
+5V
+4.5 to +5.5V

TYPE
74HCT138 TYPE
74ACT138 TYPE
TC74AC138 TYPE
TC74VHC138
OTHER TYPES

A Y7 Y6
X 1 1
0 1 1
1 1 1
0 1 1
1 1 1
0 1 1
1 1 1
0 1 0
1 0 1

Y5
1
1
1
1
1
1
0
1
1

EN = EN1 • EN2 • EN3

OUTPUTS
Y4 Y3 Y2
1 1 1
1 1 1
1 1 1
1 1 0
1 0 1
0 1 1
1 1 1
1 1 1
1 1 1

Y1
1
1
0
1
1
1
1
1
1

Y0
1
0
1
1
1
1
1
1
1

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

+2 to +5.5V
+2 to +6V

11

D

LCK

OUTPUT ENABLE INPUT
LATCH CLOCK INPUT
SHIFT CLOCK INPUT
SHIFT-REGISTER RESET INPUT
SERIAL IN
PARALLEL OUTPUT
SERIAL OUT

RD
Q

EN3

13

;
;
;
;
;
;
;

Y1

7

10
14

EN1

SQH 9

OE
LCK
SCK
RESET
SI
QA-QH
SQH

Y0

B

Y3

5

LCK

IN

OUT

A

3

8 GND

9 SQH

8 GND

2
3

2

OE

QH

IN

1

SCK

12

A

Q

D

Q

TC74VHC163F(TOSHIBA)FLAT PACKAGE

12

C-MOS PRESETTABLE SYNCHRONOUS 4-BIT BINARY COUNTER

13
15

7

QA

—TOP VIEW—
MODE SELECTION
CONTROL INPUTS
RD
LD EN1 EN2

QH

RD

IN

1

VDD 16

CK

IN

2

15 CO

OUT

A(DATA A)

IN

3

14 QA

OUT

TC74VHC02F(TOSHIBA)FLAT PACKAGE
B(DATA B)

IN

4

13 QB

OUT

C(DATA C)

IN

5

12 QC

OUT

D(DATA D)

IN

6

11 QD

OUT

EN1

IN

7

10 EN2

IN

C-MOS QUAD 2-INPUT NOR GATES
—TOP VIEW—

MODE

X

X

X

RESET
(SYNCHRONOUS)

1

0

X

X

PRESET
(SYNCHRONOUS)

1
1
1

1
1
1

0
X
1

X
0
1

NO COUNT
NO COUNT
COUNT

0

CARRY OUTPUT "CO"

14
VDD

13

12

11

10

9

8
A

Y

B

B

1

2

3

4

5

6

GND
7

B
0
1
0
1

Y
1
0
0
0

NOTE:
TYPE
HC
AC/VHC
HCT/ACT

VDD
+2 to +6V
+2 to +5.5V
+5V

9 LD

8 GND

Y=A+B=A•B
A
0
0
1
1

IN

CO

EN2

CO IS HIGH WHEN EN2 INPUT IS
HIGH AND COUNT IS "15".
COUNT SEQUENCE

NOTE:
VDD
+2 to +6V
+2 to +5.5V
+5V

TYPE
HC
AC/VHC
HCT/ACT/FCT

0 ; LOW LEVEL
1 ; HIGH LEVEL

9
3
4
5
6

LD
A

QA

B

QB

C

QC

D

QD

14
13
12
11

2

7
10

EN1

CO

EN2
RD
1

BVP-550

QA
QB
QC
QD

A
= Y

15

COUNT
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15

QD
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1

OUTPUTS
QC QB QA
0
0
0
1
0
0
0
1
0
1
1
0
0
0
1
1
0
1
0
1
1
1
1
1
0
0
0
1
0
0
0
1
0
1
1
0
0
0
1
1
0
1
0
1
1
1
1
1

6-23

IC

TC74VHC20F(TOSHIBA)FLAT PACKAGE

TC7W00FU(TOSHIBA)CHIP PACKAGE

C-MOS 4-INPUT POSITIVE-NAND GATE

C-MOS 2-INPUT NAND GATE
– TOP VIEW –

—TOP VIEW—
14

12

13

11
NC

VDD
(+2 to +6V)

10

9

8
A
B
C
D

A
B
C
D

Y =

6

NOTE:
VDD
+2 to +5.5V
+2 to +6V

TYPE
AC/VHC
HC

Y
1
1
1
1
1
•••

5

D
0
1
0
1
0
•••

4

C
0
0
1
1
0
•••

2

GND
7

B
0
0
0
0
1
•••

1

NC
3

A
0
0
0
0
0
•••

Y=A • B • C • D=A+B+C+D

A

1

B

2

1

8 VDD
(+2 to +6 V)

2

7

3

6

5

GND 4

5

6

Y

A

7 Y

Y

B

3
Y=A•B=A+B

A
0
0
1
1

Y
1
1
1
0

B
0
1
0
1

0; LOW LEVEL
1; HIGH LEVEL

1 1 0 1 1
1 1 1 0 1
1 1 1 1 0
0 ; LOW LEVEL
1 ; HIGH LEVEL

TC7W02F(TOSHIBA)FLAT PACKAGE
C-MOS DUAL 2-INPUT NOR GATE
—TOP VIEW—

TC74VHC32FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)

(+2 to +6V)
VDD

1A 1

A
B

8

C-MOS QUAD 2-INPUT OR GATES
—TOP VIEW—
14
VDD

13

12

11

10

9

8
A
B

A

Y =

Y

B

1B 2

7 1Y

2Y 3

6 2B

4 GND

A
B

Y =

Y

Y=A+B = A • B
A
0
0
1
1

5 2A

B
0
1
0
1

Y
1
0
0
0

0 ; LOW LEVEL
1 ; HIGH LEVEL

Y=A+B=A•B

1

2

3

4

5

6

A
0
0
1
1

GND
7

B
0
1
0
1

Y
0
1
1
1

NOTE:
0 ; LOW LEVEL
1 ; HIGH LEVEL

VDD
+2 to +5.5V
+2 to +6V

TYPE
AC/VHC
HC

TC7W04FU(TOSHIBA)CHIP PACKAGE
C-MOS HEX INVERTERS
(SCALE 3/1)
—TOP VIEW—

TC74VHC541FS(EL)(TOSHIBA)FLAT PACKAGE(SMALL)
C-MOS BUFFERS AND LINE DRIVERS WITH 3-STATE OUTPUTS
— TOP VIEW —

20
VDD

G2

Y1

Y2

Y3

Y4

Y5

Y6

Y7

Y8

19

18

17

16

15

14

13

12

11

A

1

8 VDD(+2 to +6V)

2

7

3

6

GND 4

5

A

1

7

3

5

6

2

Y =

Y=A

G1
G2

GND
1

2

3

4

5

6

7

8

9

G1

A1

A2

A3

A4

A5

A6

A7

A8

2

18

3

17

4

16

5

15

6

14

7

13

8

12

9

11
G1

NOTE :
TYPE
AC/VHC
HC
ABT/ACT/BCT/HCT/VHCT

G2

1

10

19

VDD
+2 V to +5.5 V
+2 V to +6 V
+5 V

A
0
1
X
X

Y

A Y
0 1
1 0

Y

G1 G2
0
0
0
0
1 X
X 1

A

0 ; LOW LEVEL
1 ; HIGH LEVEL

Y
0
1
HI-Z
HI-Z

0
1

; LOW LEVEL
; HIGH LEVEL
; DON'T CARE
X
HI-Z ; HIGH IMPEDANCE

TC7W08FU(TOSHIBA)CHIP PACKAGE
C-MOS 2-INPUT AND GATE
(SCALE 3/1)
—TOP VIEW—
1

8 VDD(+2

2

7

3

6

GND 4

5

to +6V)

A
B

1
7

2
5
6

Y =

A
B

Y

3

Y=A•B=A+B
A
0
0
1
1

B
0
1
0
1

Y
0
0
0
1

0 ; LOW LEVEL
1 ; HIGH LEVEL

TC7S66FU(TOSHIBA)
C-MOS ANALOG SWITCH
—TOP VIEW—

IN/OUT 1

(+12V MAX)
VDD

5

OUT/IN 2
3 GND

6-24

4 CONT

BVP-550

IC

TC7W139FU(TOSHIBA)CHIP PACKAGE

TL062CPW(TI)FLAT PACKAGE
TL082M(TI)

C-MOS 2 to 4 LINE DECODER WITH ENABLE
—TOP VIEW —

1

V DD
8 (+2 to +6V)

2

7

3

6

GND 4

2

—TOP VIEW—
V DD
8 (+2 to +6V)
7
6
5

1
2
3
GND 4

A

Y0

B

Y1
Y2
Y3

INPUTS
SELECT
B
A
0
0
0
1
1
0
1
1

VDD
(+1.5 to +18V)

1

–+

2

5
FU TYPE

F TYPE
1

OPERATIONAL AMPLIFIER
(J FET INPUT)

(SCALE 5/1)

(SCALE 5/1)

7

7
+–

3

8

6

4 VEE

5

(–18 to –1.5V)

6
5
3

OUTPUTS
Y0

Y1

Y2

Y3

0
1
1
1

1
0
1
1

1
1
0
1

1
1
1
0

SELECTED
OUTPUT

TL064CPW(TI)

Y0
Y1

OPERATIONAL AMPLIFIER
(J FET INPUT)

Y2
Y3

—TOP VIEW—

0 ; LOW LEVL
1 ; HIGH LEVEL

1

14
–

2

+

+–

13

3

12
VEE 11

4 VCC

(+18V)

TC7W32FU(TOSHIBA)CHIP PACKAGE

(-18V)

5

A

1

B

2

1

8 VDD
(+2 to +6 V)

2

7

3

6

5

GND 4

5

6

10

6

—TOP VIEW—
A

7 Y

Y

B

–

+

+

C-MOS DUAL 2-INPUT OR GATE

9

–

7

8

3
Y=A+B=A•B

A
0
0
1
1

Y
0
1
1
1

B
0
1
0
1

TL074CPW(TI)
0;
1;

LOW LEVEL
HIGH LEVEL

OPERATIONAL AMPLIFIER
(LOW-NOISE, JFET-INPUT)
—TOP VIEW—

1

14
–+

2

TC7W74FU(TOSHIBA)CHIP PACKAGE

13

3

C-MOS D-TYPE FLIP-FLOPS WITH DIRECT SET / RESET
—TOP VIEW—

12
VCC 11

4 VEE

(+15V)

(-15V)

5

10

6

–

+

+

(SCALE 3/1)
—TOP VIEW—
1

+–

9

–

8 VDD

(+2 to +6V)

2

7

3

6

GND 4

5

7

7
2

SD
Q

D

8

5

1

RD

Q

3

6

INPUTS
SD
0
1
0
1
1
1

RD
1
0
0
1
1
1

CK
X
X
X

OUTPUTS
D
X
X
X
1
0
X

Qn+1 Qn+1
1
0
0
1
1
1
1
0
0
1
Qn
Qn

TL084CPW(TI)
OPERATIONAL AMPLIFIER
(J FET INPUT)
—TOP VIEW—
14

13

12

11

10

VEE
(–15V)

+

–

+

+

–
1

BVP-550

2

8

+

–

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

9

–

VCC
(+15V)
3

4

5

6

7

6-25

IC

TLC0820ACDW(TI)FLAT PACKAGE

UPD4702G(NEC)

C-MOS 8-BIT SEMIFLASH TYPE A / D CONVERTER

C-MOS INCREMENTAL ENCODER 8-BIT UP DOWN COUNTER
—TOP VIEW—

—TOP VIEW—

ANLG

VDD
(+5V)

1

IN

12

20

11

1

D1 OUT 3

18 OFLW OUT

D2 OUT 4

17 D7 OUT
(MSB)

D4
D5
D6
(MSB)D7
7

OUTPUT
D0-D7
INT
OFLW

5

19 CARRY

15

B 3

18 BORROW

2
3

17

4 NC

14 D4 OUT

CD2 7

14 CD6

13 CS IN

CD3 8

13 CD5

INT

CD3

B

CD4
CD5
CD6

17 STB

CD7
16
17

WR/RDY

A

16

15 CD7

OFLW

CD2

A 2

14

MODE
CS

CD1

4

RD

6

CD0

20

16 OE

MODE IN 7

;
;
;
;
;

(+5V)

CD1 6

13
8

INPUT
ANLG
CS
MODE
RD
REF+, REF–

VDD

RESET 1

CD0 5

15 D5 OUT

10 GND

D3

ANLG

3

9

16 D6 OUT

INT OUT 9

D1

18

D3 OUT 5
WR/RDY IN/OUT 6

RD IN 8

(LSB)D0

REF –

D2

NC 19

D0 OUT 2
(LSB)

REF +

2

12 REF + IN

9 NC

11 REF – IN

10 GND

ANALOG SIGNAL
CHIP SELECT
MODE
READ
REFERENCE VOLTAGE +, –

RESET

A

B

; DIGITAL SIGNAL
; INTERRUPT
; OVERFLOW

OE

INPUT/OUTPUT
WR/RDY
; L : WRITE/H : READY

STB

12 CD4
NC 11

1

A
B
BORROW
CARRY
CD0-7
OE
RESET
STB

;
;
;
;
;
;
;
;

OE
STB

BORROW
CARRY

5
6
7
8
12
13
14
15

18
19

RESET

INCREMENTAL SIGNAL (PHASE A) INPUT
INCREMENTAL SIGNAL (PHASE B) INPUT
BORROW PULSE OUTPUT
CARRY PULSE OUTPUT
COUNT DATA OUTPUT
OUTPUT CONTROL SIGNAL INPUT
COUNTER RESET INPUT
LATCH STROBE SIGNAL INPUT

1

2

3

19

PHASE
DISCRIMINATION
EDGE DETECTOR

8-BIT
UP / DOWN COUNTER

18

CARRY

BORROW

16
17

8-BIT LATCH
TRI-STATE OUTPUT
5-8
12-15
CD0-CD7

REF +
REF –
ANLG

12

4-BIT FLASH
A/D CONVERTER
(HIGHER)

11
1

4-BIT FLASH
A/D CONVERTER
(LOWER)

–1
+1

CS
RD
WR/RDY

2

4

D0(LSB)

3

D1

4

D2

5

4-BIT
D/A CONVERTER

MODE

4

OUTPUT
LATCH
AND
3-STATE
BUFFER

4

4

D3

14
15
16
17

D4
D5
D6
D7(MSB)

18
OFLW

7
13

TIMING
&
CONTROL

8
6

9
INT

TLC272CP
TLC272CPW(TI)
TLC27L2CPS(TI)FLAT PACKAGE
OPERATIONAL AMPLIFIER
—TOP VIEW—
VDD
(+3V to +16V) 14

1
2

–

+

3
4 GND

6-26

13
+–

12
11

BVP-550

IC

UPD6453GT-610(NEC)FLAT PACKAGE
C-MOS ON-SCREEN CHARACTER DISPLAY
—TOP VIEW—
4

1

20 H SYNC

2

CLK 2

19 V SYNC

20

BUSY

18 B BLK

DATA 4

17 G BLK

9

CK OUT

V SYNC

MP

OSC IN

V CBL

R BLK

15 V CBL

(+5V)

PCL

B BLK

BUSY

14 VB

7

12
13
14
7
11

15

OSC OUT
G BLK

5

VDD

6
OUT

8

H SYNC

16 R BLK

PCL 5

CK

VR
VG
VB

19

CS 3

DATA

16
17
18

1

CS
3

OSC

8

13 VG

9

12 VR

10 GND

11 MP

OUT

OSC

IN

INPUT
CLK
CS
DATA
H SYNC
OSC IN
PCL
V SYNC

;
;
;
;
;
;
;

CLOCK
CHIP SELECT
SERIAL DATA
HORIZONTAL SYNC
OSCILLATOR IN
POWER ON CLEAR
VERTICAL SYNC

OUTPUT
BBLK, RBLK, GBLK
BUSY
CK OUT
MP
OSC OUT
VR, VG, VB
VCBL

;
;
;
;
;
;
;

B, R, G, BLANKING
BUSY OUT
CLOCK
MASK PULSE
OSCILLATOR OUT
R, G, B, CHARACTER DATA
VIDEO CUT BLANKING

UPD6453GT (2/2)
4

DATA INPUT
SHIFFT
REGISTER

DATA
2
CLK
1

BUSY

DATA
BUFFER
REGISTER

3
CS

CAHRA
SIZE
REGISTER

CK OUT

6 VDD
10 VSS

CONTROL
SIGNAL

INSTRUCTION
DECODER

7

H
SIZE
COUNTER

H
ADDRESS
REGISTER

WRITE
ADDRESS
COUNTER

H
POSITION
COUNTER

H
ADDRESS
COUNTER

VIDEO RAM
DATA
SELECTOR

CHARA
COLOR
BLINK
DATA
DATA
DATA
8-BIT
3-BIT
1-BIT
x
x
x
288 WORD 288 WORD 288 WORD

BACKGROUND
CONTROL
DATA
REGISTER

DISPLAY
CONTROL
DATA
REGISTER

OSC IN
9
OSC OUT

OSC
CIRCUIT

L OSC

V
ADDRESS
REGISTER

8

COSC IN

COSC OUT

H SYNC
V SYNC

20
19

SYNC
PROTECT
CIRCUIT

TIMING
GENERATOR

V
SIZE
COUNTER

V
POSITION
COUNTER

V
ADDRESS
COUNTER

CHARACTER CHARACTER
GENERATOR GENERATOR
RAM
ROM
12x18-BIT
12x18-BIT
x
x
16 WORD
240 WORD
16

OUTPUT CONTROL

11
MP

BVP-550

12
VR

13
VG

14
VB

17
18

R BLK
G BLK
B BLK

15
VCBL

6-27

IC

UPD71055GB-10-3B4(NEC)FLAT PACKAGE

X24164SI(XICOR)(16K BIT)FLAT PACKAGE
X24C02S-3.0(XICOR)(2K BIT)FLAT PACKAGE

C-MOS PARALLEL INTERFACE UNIT

P00

44 43 42 41 40 39 38 37 36 35 34
NC
INDEX
NC 33
1 NC

P01
P02
2

CS

32 RESET

CS 2
3

P04
5

31 D0

A0

4

A1 4 GND

30

D1

A0 5

29

D2

P27 6

28

D3

P26 7

27

D4

P25 8

26

D5

P24 9

25 D6

P20 10

24 D7

A1

44

26
27
28

P17

P16

P15

P14

P13

IC

31

P12

30

P11

12 13 14 15 16 17 18 19 20 21 22

P22

29

P10

P06

WR

P10

RD

P11
P12

24

VDD (+5V) 23

P23

P05

P07
35

25

P21 11

P03

D7

P13

D6

P14

D5

P15

D4

P16

D3

P17

D2

P20

D1

P21

D0

P22
P23

32

A1, A0
CS
D7-D0
P07-P00

;
;
;
;

IC

; INTERNALLY CONNECTED

CS
0
0
0
0
0
0
0
0
0
0
1

RD
0
0
0
0
0
1
1
1
1
1
X

ADDRESS
CHIP SELECT
DATA BUS
PORT 0

WR
1
1
1
1
0
0
0
0
0
1
X

A1
0
0
1
1
X
0
0
1
1
X
X

A0
0
1
0
1
X
0
1
0
1
X
X

P17-P10
P27-P20
RD
WR

;
;
;
;

RESET

PORT 1
PORT 2
READ STROBE
WRITE STROBE

OPERATION
PORT0 DATA • BUS
PORT1 DATA • BUS
PORT2 DATA • BUS

P24
P25
P26
P27

43

- TOP VIEW -

42
41

A0 IN 1

Vcc (+5V) 8

40
39

A1 IN 2

7 WC* IN

A2 IN 3

6 SCL IN

38
37

6
SCL
3
A2
2
A1
1
A0
7

36
14

SDA

5

WC*

5 SDA OUT

4 GND

15
16
18
19
20

WC *

7

21
22
10

SDA

5

11

START
CYCLE

START
STOP
LOGIC

H. V. GENERATION
TIMING &
CONTROL

12
13
9
8
7
6

SCL

6

SLAVE ADDRESS
REGISTER
COMPARATOR

3
A2
2
A1
1
A0

CONTROL
LOGIC

LOAD
INC

WR

P07

P06

P05

P04

P03

P02

C-MOS SERIAL EEPROM
P01

RD

P00

—TOP VIEW—

E 2 PROM
2K ; 64x32
4K ; 64x64
16K ; 64x256

X DEC

WORD
ADDRESS
COUNTER

CPU ACTION
INPUT
INPUT
INPUT
R/W

DISABLE
DATA • BUS PORT0
DATA • BUS PORT1
DATA • BUS PORT2
DATA • BUS COMMAND REGISTER

OUTPUT
OUTPUT
OUTPUT
OUTPUT

HIGH IMPEDANCE

Y DEC

CK
PIN

0 ; LOW LEVEL
1 ; HIGH LEVEL
X ; DON'T CARE

D OUT
ACK

8
DATA
ERGISTER
D OUT

NOTE : * TEST (at X24164SIC7000)

24-31
D7-D0

DATA BUS
BUFF

8
8

36-43
P07-P00

PORT 0

RD
WR
A1
A0
RESET

44
35
4
5

READ/
WRITE
CONTROL

COMMAND
REGISTER

32

INTERNAL 8-BIT BUS

GROUP
CONTROL
6-9
P27-P24

8

PORT 2

P23-P20

22-18,
16-14

8

PORT 1
CS

13-10

P17-P10

2

GROUP
CONTROL

6-28

BVP-550

Section 7
Block Diagrams

BVP-550

7-1

7-1

OVERALL

OVERALL

OVERALL BLOCK
OHB-450/451/550/550WS

M GAIN / FLARE COMP

AD VD
AD HD

TP200

CCD UNIT

VIDEO AMP
for
VIDEO CAMERA

RV200
R GAIN

CT200
R FREQ

B BLK SHAD

R W SHD

R(X)

R(X)

R FEED BACK

R FEED BACK

AMP
R KNEE P2

FLOATING
AMP

R(X)

R GAIN
R KNEE P1

R(X)

36/18 M CLK

HTSG

PR-212

TP300
VIDEO AMP
for
VIDEO CAMERA

RV300
G GAIN

CT300
G FREQ

G BLK SHAD
G W SHD

G(X)

G(X)

G FEED BACK

G FEED BACK

B(X)

B(X)

B FEED BACK

B FEED BACK

AMP

(OHB-550WS only)

R/G/B

R/G/B
Y0-Y9

G KNEE P2

FLOATING
AMP

G(X)

G GAIN
G KNEE P1

G(X)

PA-181

RY0-RY9

TP400

LENS

CT400
B FREQ

B BLK SHAD
HCLP
R W SHAD
GW SHAD
B W SHAD
HTSG

GC
ARRAY

M.BLK SHD
R W SHD
GW SHD
B W SHD

TEST SAW(X)

36/18MHz

RV50

IIC DATA

CN903
VF

IIC DATA

D/A
CONV.

TEST1/
TEST TEST2
SIG.
GEN.

TITLE BACK

VA-163

ND FILT
CC FILT

DBO-DB7

DATA

TEMP

A0,A1
RD
WR

ADDRESS

BACK UP
BATTERY

RM VBS(X)
MIC

TAPE REM
HD
VD

POWER SAVE

S3

IIC DATA

BAR
B
A
RESET

DCC
S4

CANCEL

SW-742

S1

SW-730

OFF
ON
SEL
AWB

S2
AWB/ABB

ABB

S1
DISP/MENU
S2
MONI

IIC DATA

I/O
EXP.

RV1
INCOM LEVEL

ON
OFF
MENU
R
G
B
ENC

D/A
CONV.

SYNC
GEN.

NEW/OLD CA

ROM

RV1 AUDIO

NEW
CM
I/F

COM DATA

U/D
COUNTER

TALLY ON
D/A
CONV.

IIC DATA
VTR S/S TRIG
RET EN
ZEBRA
REC TALLY
PB REF

I/O
EXP.

REAL
TIME
CLOCK
IIC DATA

DELAY

TITLE BACK
CHAR VF
CHARA
TITLE
GEN. CHAR BACK

TP2

MENU
SEL

TP5

S1

N/P
H COMP
SC CONT

SC(X)

IRIS CONT
fsc FREQ
AUTO +5V
REM/LOCAL
VTR S/S
RET EN
VE RGB
WIDE
ABNORMAL
G TALLY

AT-95

DL SYNC/BLKG

VCO CONT

CCU H CONT

SG-234

I/O
EXP.

RGB
S3
ENC/RGB

S3
VTR
START
/STOP

IIC DATA

TP3

WHITE

SHUTTER

RAM

SW-733
I/O
EXP.

V RESET

V RESET2

SET
RE Aø
RE Bø

BURST SC
SEP BPF
CONT.
DET

V RESET

BLKG
SAMPLE 1
CF
SYNC
VD
FLD1
SYNC
VD
HD
BF
BLKG
LALT
2FH
VD
HD
HD
NRW BLKG
INT/EXT

SYNC SYNC
SEP.

H CONT1
H CONT2
V RESET1/CF

BACK UP

VTR SAVE

RE A
RE B

S2

µ-COM

COM CONT

L
M
H
DCC ON

GEN VIDEO

AMP

AUDIO LEVEL

SET
CANCEL

CABLE
COMP

CE0
CE1

RM SD

POWER

GAIN

ADDRESS
DECODER

232C
I/F
CA(CONT/DATA)

RM SD

MIC
S1

BA

EX ON
IRIS POSI
ZOOM POSI
TP1

ON
ON
SAVE

GEN LOCK(X)
GEN LOCK(G)/H CONT

BA
TEMP

CN905

PR-211

I/CO CONT

DR-271

REMOTE

R BLK SHAD
G BLK SHAD
B BLK SHAD
R WHT SHAD
G WHT SHAD
B WHT SHAD
TEST SAW(X)
D.OUT EN
SC(X)
CHAR VF
CORSOR 1
CORSOR 2

TITLE
FLD1
SYNC
VD
HD
BF
BLKG
LALT
2FH
NRW BLKG
INT/EXT
SC CONT
INT/EXT VD
INT/EXT HD

DC/DC
CONT

ND FILT
CC FILT

CN902

HI-Y(X)
C(X)
VF-Y(X)

A0,A1
RD
WR
CE0
CE1

R GAIN
G GAIN
B GAIN
R KNEE P1
G KNEE P1
B KNEE P1
R KNEE P2
G KNEE P2
B KNEE P2

TG-159

ZEBRA
VF RGB
WIDE
ABNORMAL
G TALLY
BATT ALARM
N/P
TALLY
VF(X)
VF-Y(X)
VF R-Y(X)
VF B-Y(X)

B W SHD

TEST

AD VD
AD HD

BY0-BY9

DB0-DB7
B KNEE P2

RV400
B GAIN

EX ON
IRIS POSI
ZOOM POSI
VTR S/S TRIG
RET EN
AUTO +5V
REM/LOCAL
IRIS CONT

CN904

FLOATING
AMP

B(X)

B GAIN
B KNEE P1

B(X)

AMP

VIDEO AMP
for
VIDEO CAMERA

SW-732

AUDIO CH1 CONT

SW-731

CN-1122

7-2

7-2

BVP-550

OVERALL

DC/DC
CONVERTER

OVERALL

Y0-Y9

POWER
SAVE

Y0-Y9
RY0-RY9

BUFF

BY0-BY9
1121 CONTROL

Y0-Y9

BY0-BY9

1121 CONTROL

Y0-Y9

RY0-RY9

Y0-Y9

B,OUT EN
DDL

Y(X)
R-Y(X)
B-Y(X)

DY0-DY9

SAMPLE1
BLKG
VD
CF
SYNC
18MCLK

CN-1121

TP4
RY0-RY9

RY0-RY9

RY0-RY9

ATT
D/A
CONV.

BY0-BY9

BY0-BY9

HI-Y(X)
C(X)
VF-Y(X)

HI-Y(X)
C(X)
VF-Y(X)

BY0-BY9

DYB1-DYB9
DDL

IIC DATA

S→P
CONV.

R-Y(X)

R-Y(X)

B-Y(X)

B-Y(X)

DRY0-DRY9

DDL

LEVEL
CTL

TP5
ATT

DYB0-DYB9

DYB0
LEVEL
CTL

SKIN GATE ON/OFF

SKIN GATE
R-Y SYNC LEV
B-Y SLP LEV
SETUP 2
D/A
CONV.

Y, R-Y, B-Y LEV

LEVEL
CTL

Y SPL LEV
SETUP 1

LEVEL
CTL

TP3

H1-Y(X)

Y(X)

ATT

Y(X)

TP2
VBS(X)

BLKG

C(X)
VF-Y(X)
DLSYNC/BLKG

C(X)
VF-Y(X)
VTR SYNC

PULSES
SHAPER

C(X)
VTR SYNC

DA-88

N/P
TO PR CONTROL
FROM PR CONTROL
IIC DATA

TO PR CONTROL
FROM PR CONTROL
IIC DATA

RV101
VBS GAIN
GEN VIDEO

GEN VIDEO

VBS(X)

VBS(X)

VBS(X)

RM VBS(X)

TEST(X)

RM chose ON/OFF

TEST OUT

CHAR VF
VF-Y(X)
MONI(X)

MONI(X)

CHAR BACK
VF(X)
CORSOR 1
CORSOR 2
IIC DATA
VD
HD

VD
HD

S→P
CONV.

TEST SEL
VF/MONI SEL

PB REF
RET VIDEO(X)
DL SYNC/BLKG
N/P

N/P

SYNC
SEP

GEN LOCK(X)

VD
HD

VD
HD

TIMING
PULSE
SW'er

INT/EXT VD
INT/EXT HD

SKIN GATE

SKIN GATE
DL SYNC

VF Y(X)

Y(X)

R(X)
G(X)
B(X)
VF R-Y(X)
VF B-Y(X)

R-Y(X)
B-Y(X)

TALLY

TALLY
DRIVE
TALLY ON
CONTROL

CONTROL

PB REF
RET VIDEO(X)

S1

DL SYNC/BLKG

SKIN GATE
R(X)
B(X)
REC TALLY
G(X)
MIC
VTR SAVE
AUDIO CH1 CONT
AUDIO LEVEL
TAPE REM
CA(CONT/DATA)
COM CONT
PB REF
COM DATA
VTR S/S
RET EN
GEN LOCK(X)
GEN LOCK(G)/H CONT
H CONT
V RESET/CF
HD

REC TALLY
N/P

REC TALLY
N/P

IF-510
VF CONTROL
RM VSB(X)
1120 CONTROL

IIC DATA
BATT ALARM

VF CONTROL

OVERALL BLOCK

RM VBS(X)
1120 CONTROL

CN-1120

BVP550-OVERALL#1/M

BVP-550

7-3

7-3

BVP-550

VA-163

VA-163 BOARD

VA-163

IC202

125mVp-p/100%

250mVp-p/100%

880mVp-p/100%

TP200

1-74

R (X)

Q205

Q206, 207, FL200

FLOATING
AMP

BUFF

18M TRAP
FILTER

Q209-212
18

M.G
SW

2dB
AMP

KNEE
1/4, 1/5

0dB
AMP

DR

7

Q215-217

6dB
AMP

+
AMP
-

M.V.SAW SHD

IC201
5

1

CLP
6
16

23
Q208

21

12

26

2

14

27

32

11

R F-DET

CLP2 ATT

R F-COMP

RW SHD

GC1

R GC BAL

BUFF
R GAIN

AMP

19

R NAM V

R BLK SHAD

20

CLP2

TEST

1-80

5
14

CLP1 ATT

IC6
12

1-54

MB, 7-9 (BVP-550)
MB, 11-9 (BVP-500)

7
10

Q213, 214

9

IC200
1

PRE
KNEE 2

LPF

IC203
3 1

SAMPLE
HOLD

6

R FEED BACK IN 1-60

5

R KNEE P2

AMP

R KNEE P1

IC200
14

R (X) OUT

CLP

KNEE MODE

CT200
R FREQ

PRE BLKG

RV200
R GAIN

MB, 7-22 (BVP-550)
MB, 11-22 (BVP-500)

G.CLT
AMP

BLG

GC2

MB, 21-6 (BVP-550)
MB, 14-6 (BVP-500)

Q200-204

MB, 7-14 (BVP-550)
MB, 11-14 (BVP-500)

IC218-220
4

1
204

WINDOW
COMP

2

CLP 2
IC302
125mVp-p/100%

250mVp-p/100%

TP300
Q300-304
1-72

FLOATING
AMP

G (X)

18

18M TRAP
FILTER

BUFF

M.G
SW

KNEE
1/4, 1/5

2dB
AMP

0dB
AMP

Q315-317

6dB
AMP

DR

+
AMP
-

IC301
5

1

6
16
5

23
Q308

21

12

26

2

14

27

32

11

G F-DET

CLP2 ATT

G F-COMP

GW SHD

G GAIN

G GC BAL

BUFF

GC1

Q313, 314

9

10

IC300
1

PRE
KNEE 2

G NAM V

AMP

CLP1 ATT

G BLK SHAD

19

8

TEST

1-79

10

20

CLP2

PRE BLKG

IC6

1-52

MB, 7-7 (BVP-550)
MB, 11-7 (BVP-500)

7

LPF

IC303
3

1

SAMPLE
HOLD

6

G FEED BACK IN 1-59

5

G KNEE P2

AMP

G KNEE P1

IC300

G (X) OUT

CLP

CLP

KNEE MODE

CT300
G FREQ
14

MB, 7-23 (BVP-550)
MB, 11-23 (BVP-500)

G.CLT
AMP

BLG

7

M.V.SAW SHD
RV300
G GAIN

GC2

MB, 21-4 (BVP-550)
MB, 14-4 (BVP-500)

880mVp-p/100%
Q309-312

Q306, 307, FL300

Q305

MB, 7-15 (BVP-550)
MB, 11-15 (BVP-500)

IC318-320
4

1
304

WINDOW
COMP

2

CLP 2
IC402

125mVp-p/100%

250mVp-p/100%

TP400
Q400-404

BUFF

M.G
SW

M.V.SAW SHD
RV400
B GAIN

CT400
B FREQ
14

IC400
AMP

IC401
5

1

IC26
1
2
3
6

A0
SDA
A1
A2
EEPROM

16
5

15

DO

5

G GAIN
B GAIN

16

17

DI

A01
A02

A05

AT, 1-20

1-1

IIC CLK
LD (VA)

27

16

4
2

25

4
15

A06
D/A
CONV. A07
A08
LD

A09
A010
A011
A012

18

R KNEE P1

DO

19

G KNEE P1

2

R KNEE P2

4

G KNEE P2

5

B KNEE P2

6

R GC BAL

7

G GC BAL

8

B GC BAL

9

TEST1 ON/OFF

12

TEST2 LEVEL1

13

TEST2 LEVEL2

14

14

IC20
SI

11
12

2

15

Q3
RCK

4

GC1

4, 6,
9, 11

Q4
Q5
Q6

1, 14

TIMING
PULSE GEN. 2, 13 10
9 23
FOR TEST2

1
2

8

Q11

Q12, 13

NAM
SW

NAM

1-9

3
4 KNEE MODE

2

11

10

6 TEST2 ON/OFF
9

S0

18-20

4

14-4

4

13-4

IC12, 14
H.SAW
GEN.

IC16, 18
SD1 VOA
VOC

16-14

IC12
13

H.PARA
GEN.

14

18-14

2

V.PARA
GEN.
15

18-8
1

18-9

16-8

7

3

10

B W SHADING IN
R20, 23

1-13

PRE BLKG

ATT

PRE BLKG
PRE BLK

BLKG
MB, 23-13(BVP-550)
MB, 11-1/16-3 (BVP-500)

1-12

H CLP 1

4
23

6

B NAM V

VOA

B KNEE P2

B KNEE P1

KNEE MODE

B F-DET

CLP2 ATT

B F-COMP

1
404

WINDOW
COMP

2

IC1, Q1

13
11

+4.8V

VOB

RW SHD
GW SHD

18-1

BW SHD

16-13

M.V.SAW SHD

16-3 12

+7.3V

1-93

+7.3V

1-94

+5.1V

1-91

+5.1V

1-92

IC1, Q2

IC3

+2.5V

14

+2.5V REF OUT 1-89

MB,7-24 (BVP-550)
MB, 11-24 (BVP-500)

IC1, Q7

R F-COMP

-2.5V
REG.

PRE BLK

11

2

IC6
+2.5V
REG.

IC17

13

REG.
CONT

-2.8V

1-85

-2.8V

1-86

-2.5V
16-2 2

IC17
15

IC1, Q3

G F-COMP

1

-5V
REG.

PRE BLK

10

-5.1V

1-87

-5.1V

1-88

-4.8V

16-1 5

IC17
4

B F-COMP

3
9

PRE BLK
IC15

V1B
VOE
VOE

18-13
8

V1A

16-5

8

18-11

10

R F-DET

12

G F-DET

AMP
IC15

VOH

18-23
16-12
16-11

AMP

G NAM V

V1C
VOD
VOF

V1B

VOF

V1C

16-4

14

AMP
IC15

16-23

1

B F-DET

3

AMP

Q4

Q5

BUFF

NAM

1
7

+4.8V

IC5

2

4

23

2

5

H CLP

MB, 7-13 (BVP-550)
MB, 11-13 (BVP-500)

VOB

18-4
16-10
18-10

R NAM V

V1G

V1A VOC
VOB
VOD

18-24
1

AMP

IC19

MB, 23-12(BVP-550)
MB, 16-12 (BVP-500)

B FEED BACK IN 1-58

TEST

18-2

V1D

18-5
16-24
18-12

AMP

IC19

1-64

6

IC418-420

+7V
REG.
14

18-3

V1F
V1H

16-22

IC19

MB, 7-17(BVP-550)
MB, 11-17 (BVP-500)

IC403
3 1 1 SAMPLE
HOLD

4

V1E

16-9

5

VOH

V1F
V1D

18-22

7

LD

V1G
V1H GC
ARRAY
V1E

18-15

IC12

IC12, 13
V.SAW
GEN.

R W SHADING IN

1-65 G W SHADING IN

LPF

5

5 TEST1 ON/OFF

16-15

MB, 7-19(BVP-550)
MB, 11-19 (BVP-500)

IC400
1

PRE
KNEE 2

+5V
REG.

SAMPLE 3

1-66

Q413, 214

10

6

5

MB, 7-18(BVP-550)
MB, 11-18 (BVP-500)

11

TEST1
BA&SW

16
17
2

SAMPLE 3 IN

32

IC22

12

RV50
TEST

Q14

GC2

A. HD

SG, 1-18

27

+7V

TEST SAW (X)

A HD IN

14

TEST2
GEN.
IC9

VOB

1-8

MB, 7-11 (BVP-550)
MB, 11-11 (BVP-500)

IC22, Q10

5, 7,
8, 10

IC8

Q0

QH

MB, 6-47 (BVP-550)
MB, 23-3 (BVP-550)
MB, 10-47 (BVP-500)
MB, 16-3 (BVP-500)

1-50

B (X) OUT

B KNEE P1

3

Q1
S
P
Q2
CONV.

1-26

+
AMP
-

CLP 2

1

MB, 7-4 (BVP-550)
MB, 11-4 (BVP-500)

2

B GC BAL

R GAIN

4
6

A04

1-2

26

BW SHD

A0
A1
D/A
CONV.A2
LD
DI

A03

MB, 11-18 (BVP-500)

12

B NAM V

17
+5V

1, 2

23
Q408

21

BUFF

IIC DATA

Q415-417

6dB
AMP

7

TEST

1-3

19

AMP

IC24
MB, 1-3

20

CLP2

B GAIN

5

B BLK SHAD

7

CLP

CLP

GC1

1-78

DR

6
16

MB, 7-21 (BVP-550)
MB, 11-21 (BVP-500)

BLG

0dB
AMP

KNEE
1/4, 1/5

7

5

IC6

2dB
AMP

G.CLT
AMP

PRE BLKG

B (X)

CLP1 ATT

1-70

18

18M TRAP
FILTER

GC2

MB, 21-2 (BVP-550)
MB, 14-2 (BVP-500)

880mVp-p/100%
Q409-212

Q406, 407, FL400

Q405

FLOATING
AMP

3

5

MM

Q

CLP2

10
R30, 31

1

C40, R38, 39

CLP2 ATT
ATT

P.ON
RESET
13
23

11

ATT

VA-163 BLOCK
BVP-550

R25, 16
CLP1 ATT

12
BVP550-VA163BLOCK#1/M

7-4

7-4

BVP-550

AT-95

AT-95

AT-95 BOARD

A17
A19
1
P/W

P94
AN1

IC4
1

3
1-51

TAPE REM IN

54

AMP

AN2

WR

4

RD

RD

WR

WR

4
IC35

R40, 47

IC9
12

LENS, 1-4

1-67

IRIS POSI IN

ATT

AMP

A0-A2

AN3

EX ON IN

AN4

IC9
5, 6
AMP
R49, 57
LENS, 1-6

1-64 ZOOM POSI IN

1-70

ND FILT IN

3

ATT

DR, 1-15

1-69

CC FILT IN

DR, 1-16

1-68

TEMP IN

3

AMP

14
IC5
AMP

15
14

11

CLOCK
34-12 GEN.

AN6

59
60

µ-COM

0
1

13

BACK UP
BATTERY

1-4

RM SD IN

CN, 1-8

1-3

RM SD OUT

2
TP1

7
14

AMP

5

59

AN7

2

BRD 1

63

10

9

64

T2OUT T2 IN
T1OUT T1 IN

10

74

11

66

7

2
2

12

1

11
6

3

2

CS
RES
RES

8

CS

5
7

RES

9

10
1

P13

1-43

VOUT

67

75

10
1

1-55

18M(X) IN

6

14

77

2

78

1-53

RXD

40-5
HD
LATCH

+5.1V

IVH

WR

2

1-10,
21, 23-26

RESET

RD

22

WR

27

IC26

24

RD

IRQ1
A4

24-3

24-15

A5

24-2

17-4

A6

24-1

21-4

A11

23-5

24-14

A12

23-4

24-13

A13

23-2

22

I/O1

A0
A14
OE

I/O8

1

43

70

7

44

TP4
+4.8V

45

XTAL

P00

D7

P01

A0
A1

P02
P03

RESET

P04

RD

P05

CS

EXTAL

ADDRESS
DECORER

17

42

16

41

15

+7.3V IN

IC26
I/O1

A17
G

I/O8

13-15, 17-21
D0-D7

1-83

+3.1V IN
+3.1V IN

1-85

-2.8V IN

1-86

-2.8V IN

37

1

36

2

P12

16

P13

18

—

PR, 1-74

1-29

PR, 1-48

CD0

A
B

1-6

IF, 1-30

P14

1-81

ZEBRA ON IN

LENS, 1-10

1-65 VTR S/S TRIG IN

LENS, 1-3

1-66

RET SW IN

MB, 12-17

1-48

PB REF IN

1-2

CN,1-9

RE Bø

1-1

CN,1-10

RST
STB

DI

D/A
CONV.

IC12
3

A01

IC12
1

24-10

A15

18, 19-2

24-11

P10

18-2, 21-1,
22-2, 24-5

7
2 4
DEC

6
5

21

3

20

2

19

LD (TG)

1-18

TG, 1-16

LD (CCD)

1-16

TG, 1-15

LD (VA)

1-20

VA, 1-1

LD (DA)

1-17

DA, 1-1

LD (SG)

1-19

LD (IF)

1-15

IF, 1-1

IIC DATA(SW)

1-13

TG, 1-8, VA, 1-2, SG, 1-2, DA, 1-2,
IF, 1-2, SW, 1-2, CN, 1-6, MB, 2-13

SG, 1-1

IIC DATA(CA)

1-11

IF, 1-11/MB, 12-27

IIC DATA(ST)

1-9

MB, 12-19

SI

14

S0

IIC DATA(SW)

1-14

MB, 2-14

IIC DATA(CA)

1-12

IF, 1-13/MB, 12-28

IIC DATA(CA)

1-10

MB, 12-30

13

WR

11

CS

REAL
TIME
CLOCK

CS

4

SC

+4.8V
IC25

2
3
1
D16-D19
P21
P23

23-8

P25
P26
P27

5

SDA
S1
S2
S0 EEPROM
SCL

10
11
12

TP3

13
9
8
7
6
IC47

RES

5

HD

20

VD

19

OSC

9

+5V
6

MD0

7 MD1
8

WAIT

76

5

14

24-31

3

D0-D7

MD2

4, 5

BRD1

P03

D7

P14

A0
A1
RESET

P15

A0, A1
32

RD

44

RD

WR

35

WR

2

CS

43

P00

FB REF

41
S1
1

ZEBRA
TALLY
TRIG

2

39

3

4

38

5

6

37

7

8

36

TALLY

RET SW

D0

RES

-2.8V

BUFF

LENS, 1-5

TP2

P24

TFI2

IRIS CONT OUT 1-61

AMP

LD

6

23-1

7

5

AMP

12

P22

5 +2.5V 7
REG.

CCU CONT IN

1-57 REC TALLY IN

3

MB, 12-26

RE Aø

OE

E

Q6
VF, 1-B6

2

IC25

P15

ZEBRA
MB, 12-25

PR, 1-72

CEI1(PR)

38

15

P16

CS 17-1

+3.1V
1-84

PR, 1-50

1-42

PR, 1-70

39

P11

—

+7.3V IN

1-30

A0(PR)

1-41

40

24-9

A14

A19

+7.3V
1-94

PR, 1-52

WR(PR)

1-40

I/O
EXP.

TFI1

+9.3V IN

1-93

1-31

IC13
P06
P07

CE

43

WR

11-13, 15-19
D0-D7

P20

+9.3V
1-90

PR, 1-68

RD(PR)

A1(PR)

TMC1

+5V
REG.

2.5V REF IN

1-39

U/D

IC4
1-89

PR, 1-66

DB7(PR)

CE0(PR)

+2.5V
DA,1-89

1-38

COUNTER

IC13
D0

WE

2-12, 23,
25-30
A0
A0-A17

IRQ0

FTCI3

45-5

IC4, Q1

1-92

4

OSC

43-5

+5.1V

+5.1V

16

17

44
35

P13

46
TMR1
47
FTCI1
48
FTCI2
49

VTR RST IN

1-91

4

22

RD

IC17-24

69
IF, 1-28

PR, 1-64

DB6(PR)

2

RESE

32

20

HD

40-2

14

31

RES

VD

1

1-37

B1

2

RYD

24-31

TMC
SG, 1-55

PR, 1-62

DB5(PR)

A4

CD7

D0-D7

VDD

VD IN

40-3
42-2
44-2

1-36

BRD0

P12
TXD

BACK UP

HD IN

PR, 1-60

DB4(PR)

IRIS

P11

RES

IC40-45
SG, 1-49

1-35

CHU DATA OUT 1-5

BRD1

CSN

A0-A14

IVH

1-44

PR, 1-58

DB3(PR)

EN

D0-D7

A0, A1

RESET IC

SG, 1-50

14

IC29
1

1
39

16

12
5 3.3V
X4
CONV.
3
Y1
5
B2
Y2

1

4

X3

4

3

CM I/F

44

IC3

5
IRIS

D2 C15 R16

2

4, 5

13

BUFF

VIN

37
61
BTVD
23
NEW TVD

X2

A3

PR, 1-56

1-34

1

IC3

+4.8V
14

IC3

Q2(2/2)

3

2

A2

PR, 1-54

1-33

DB2(PR)

IVH

RS-232C I/F

VBAT

CLK

X1

1-32

DB1(PR)

P13
73

DET

1

+5.1V

38

P92
P93

D20, C80
8

BUFF

+4.8V

RDN
WRN

A1

18

DB0(PR)

14

IC1

2

8
17

1

RIN1 ROUT1

1-7 CA DATA IN/OUT

A1

D0-D7

1
4

6

3

Q2(1/2)
MB, 12-24

D7

6

IC3

IC4
12

D0

A2

32-6, 33-2

RES
8

AMP

BT1

CN, 1-7

40

IC32-34

IC9
10

WR

45

SCK

58

43

72
68

1

RD

IC7
12

1

AMP

12

O

AN5

IC9

IC5
DR, 1-14

57

7

A0

A0

1-8

15

56

14

G

2

55
1-63

DB0-DB7

IC39

3

48-46
LENS, 1-7

A7

DIR

23

ADDRESS BUS

—

MB, 12-12

RD

A0-A17, A19

—

3

1-47 AUDIO LEVEL IN

65
53

PEAK 7
DET

3-10

A0

B7

21-28, 30-39, 41

—

MB, 12-13

IC11

A0

2

—

RV1
AUDIO

2

GAIN
CONT
4

—

1

B0

D0-D7

DATA BUS

D7

IC5

IC38

15-22
D0-D7

—

13-20

D0

AN0

—

52

—

6

—

AMP

IC16

IC5
G PEAK 7
GAIN

5

8

10

G PEEK IN

—

1-74

—

IC5
IF, 1-18

10
TP5

PB REF

11

TRIG

12

RET SW

13

P02

P16
P01
P17

P13
P12

P04
P05

P11

1

19

2

20

3

21

4

CHARA
GEN.

HD
VD

17

GBLK

16

OSCIN RBLK
VG
BUST

13
12

VR

P10

P20

P24

P21
P23

PR, 1-42

CHAR VF OUT 1-28

IF, 1-44

TITLE OUT

1-26

PR, 1-40

VF RGB IN/OUT 1-80

VF, 1-B7

CS
DATA

42
Q3 (2/2)

22

BUFF
Q4 (1/2)

18

BUFF

AUTO +5V OUT 1-60

16

REM/LOCAL

Q5 (1/2)

15

BUFF

P25
P26

14

BUFF

9

1-62

LENS, 1-8
LENS, 1-9

VF 16:9/4:3 OUT 1-76

VF, 1-A6

ABNORMAL OUT 1-78

VF, 1-B4

TALLY ON OUT 1-85

Q4 (2/2)
8

IF, 1-29

BUFF

G TALLY OUT

1-77

VF, 1-A5

Q3 (1/2)

VTR S/S OUT

1-52

MB, 12-6

BUFF

PET EN OUT

1-50

MB, 12-15

7
6

79
2
1

TMC

IF, 1-50

TITLE BACK OUT 1-25

Q5 (2/2)

P07

P22

CHAR BACK OUT 1-27

CLK

P06

P27

TMO

40

PLC

IC15
D

FF Q
R

5

WINDOW OUT 1-45

IF, 1-25

61

FTOA2
50
FTOA1
62
FTOA3

V RESET OUT

1-23

PEAK RST OUT 1-46

SG, 1-21
IF, 1-26

AT-95 BLOCK
BVP-550

CONTROL BUS
BVP550-AT95BLOCK#1/M

BVP-550

7-5

7-5

SG-234

SG-234

SG-234 BOARD
*1 CA-550 only
Q21

Q5, 6, 8, 9, 17
CABLE
COMP.

GEN LOCK(X)

Q205
BUFF

Q16
MB, 11-30

IC42
2

7

1

AMP

IC46

1 6

7

5

1-5

IC46

7

IC17
CABLE 1
COMP.

6

IC206, Q204

5

5

5

H CONT 2 IN

1

1

1

7
*1

6

+4.8V

IC47
6

MB, 12-19

IC24
IC204

1-79 GEN LOCK(G)/H CONT 1

DET

-4.8V

Q22

5
1
2

4
201

Q11

IC5, Q7, 18(2/2)

BUFF

SYNC
SEP
Q10, 12, 14, 15, 18(1/2)
BURST
SEP BPF
CONTROL

Q202, 203
POWER
SW

13

6

25

25

7

59

14

57

EXT SYNC IN

EXT SC IN
HD
VD
SYNC
BF
BLKG
CF
LALT
2FH

Q20
4

MB, 12-16

1-19

2

IC13 (1/3)

D7, C47

5

4 V RESET

3
IC200, 201
IC202, 203
200-2
200-8 202-1, 2
1H
203-4
GEN
203-2

*1
AT, 1-23

1-21

V RESET 2

200-3,
201-2

DI

IIC DATA

AT, 1-19

1-1

LD (SG)

AT, 1-13

1-2

IIC CK

1
3

+4.8V

3
1, 2

8

8
IC21

7

6
5

14

2

13

25

18

VRST IN

SYNC2

IC16

10
11
42

15

D1/PRE BLKG

13
14

OLD/NEW CA

11

6

35

9
CAMPLE

16

A03-A08

Q25

8
9
12
13

TD1
TD0
TCK

Q24

C.COMP ON
CF ON/OFF
GENLOCK OFF

INT/EXT

Q201
SCL

N/P OUT

2

11

FSC ADJ CTL

4

18/36M IN

IC18, Q23
P. ON
RESET

IF, 1-36

HD
VD
SYNC
CF

1-6
1-9
1-8
1-7

MB, 12-22
MB, 14-17
MB, 14-18
MB, 14-15

IC42
14
BUFF 12

HD
VD

1-49
1-50

AT, 1-43
AT, 1-44

HD
VD
SYNC
BF
BLKG
CF
LALT
2FH

1-40
1-41
1-42
1-43
1-44
1-45
1-46
1-47

PR, 1-53
PR, 1-55
PR, 1-57
PR, 1-59
PR, 1-61
PR, 1-63
PR, 1-65
PR, 1-67

DL BLKG
DL SYNC

1-25
1-23

DA, 1-8, IF, 1-14
DA, 1-6, IF, 1-12

25

9

BLKG
NRWBLKG

1-4
1-39

MB, 1-20
PR, 1-51

SAMPLE
SAMPLE
SAMPLE

1-10
1-18
1-17

MB, 14-19
VA, 1-9
DA, 1-4, IF, 1-4

TD1
TD0
TCK

1-34
1-32
1-30

MB, 3-34
MB, 3-32
MB, 3-30

INT / EXT

1-35

PR, 1-105

N /P OUT

1-36

VA, 1-41,
PR,1-106,
DA, 1-41

SC CONT

1-78

PR,1-114

VCO CONT OUT

1-68

TG, 1-5

18MHz (X) OUT

1-12

MB, 3-12

18MHz (X) OUT

1-55

AT, 1-55,
DA, 1-46

36MHz OUT

1-57

DA, 1-48

IC30, 42
30-7

42-13
42-11

BUFF

42-7
42-9

72
73
74
8

58
75

4

35

12

35

IC38

2
1

16

Q

D

FF

Q

5
3

RD

6

HR SEL

H CONT OUT1
+3.1V

6
8

30-13

6
22

1-51

11, 18,
21-24

SEA
ACK

2

14
16
BUFF 12
18

IC42
16
BUFF 18

4

27
26

DELAY

11

8bit
D/A

EEPROM

10

3

9

18
A01
19
A02
A03 2-7

LD
A08
CK A09
A10
A11
12ch A12

2

11

6
4
8
2

4
11
5
6
7
12
9
8

IC13 (2/3)
12

NRWBLKG

—

1-3

5, 6

VR SEL

Q200

IC12
AT, 1-14

DET

16

35-6
11-1
20-2

20-4

15

V RESET 1 / CF

25

IC11, 20, 35

IC13 (3/3)
1

GEN VIDEO OUT

IC30

A03-A08

1-80

DELAY CONTROL

MB, 11-29

H CONT OUT2
CLR
TDC OUT

12

3
62 17
63 15

35
35

25

8

3

37

3

5

IC36
MM a

12

5

52

9 1
2 37

7

IC36
13

7

35

MM

4

a

7

DELAY CONTROL

15

4

FL1
PR, 1-109

1-76

2-A80
2-B80

1-91
1-92
1-89

7.3V
7.3V

5.1V
5.1V
2.5 REF

1-87
1-88

-5.1V
-5.1V

1-83
1-84

3.1V
3.1V

1

LPF

SC (X) IN

2 43

Q1, IC3
+7V
REG.

+7V

Q2, IC3

+4.8V

1
2

4

39

1

4

IC32
2

5

IC41
7

AMP

6
1

7

IC40

5

626

+4.8V
REG.
7
3
Q4, IC3
-4.8V
REG.

5

35

IC34 VBS GENLOCK
2, 6 MODE 5
H
COMP.
3

IC33
4 3

IC32
AMP

IC33
14
13

PR, 1-109

1-59
1-61

AMP

12

14

11

-4.8V

+3.1V

PR, 1-107

IC32

1 12

11

30

9

H CONT
2

18MHz (X) IN

2

36MHz IN

45
31

4
4

SG-234 BLOCK

BVP550-SG234BLOCK#1/M

BVP-550

7-6

7-6

BVP-550

DA-88

DA-88

DA-88 BOARD
Y(18)
PR, 1-38
PR, 1-36
PR, 1-35
PR, 1-34
PR, 1-33
PR, 1-32
PR, 1-31
PR, 1-30
PR, 1-29
PR, 1-28

1-42
1-40
1-39
1-38
1-37
1-36
1-35
1-34
1-33
1-32

Y (L) IN
Y (1) IN
Y (2) IN
Y (3) IN
Y (4) IN
Y (5) IN
Y (6) IN
Y (7) IN
Y (8) IN
Y (M) IN

PR, 1-26
PR, 1-25
PR, 1-24
PR, 1-23
PR, 1-22
PR, 1-21
PR, 1-20
PR, 1-19
PR, 1-18
PR, 1-17

1-30
1-29
1-28
1-27
1-26
1-25
1-24
1-23
1-23
1-21

R-Y (L) IN
R-Y (1) IN
R-Y (2) IN
R-Y (3) IN
R-Y (4) IN
R-Y (5) IN
R-Y (6) IN
R-Y (7) IN
R-Y (8) IN
R-Y (M) IN

1-11
Y0-Y9

Y0-Y9

24-22
DLYO-DLY2

21, 20, 18, 17
DLY3-DLY6

42

DI0
DI9

IC7

IC4
36-31, 29-26
DO0
DO9

19-28
YB0 - AYB9

B0
B9

B0

58

FL6

Q48, 49

LPF

BUFF

Q50-53
NEG:1.0Vp-p

AMP
IC23,Q54

PSE0
PSE2

FBC
R-Y(18)

DDL
PSW0
PSW3
G0

FL7

Q67, 117

LPF

BUFF

NEG:0.76Vp-p

54

IC28, Q110,-112

Q73

ATT

BUFF

AMP

CLK

IF, 1-72
IF, 1-70
IF, 1-68

R-Y (X) OUT 1-61

MB, 11-24

B-Y (X) OUT 1-59

MB, 11-25

TP4

R-Y

Q68-71

Y (X) OUT 1-71
R-Y (X) OUT 1-69
B-Y (X) OUT 1-67

Q75, 79
INV.
AMP

IC27,Q72
FBC

PR, 1-15
PR, 1-14
PR, 1-13
PR, 1-12
PR, 1-11
PR, 1-10
PR, 1-9
PR, 1-8
PR, 1-7
PR, 1-6
SG, 1-55

1-19
1-18
1-17
1-16
1-15
1-14
1-13
1-12
1-11
1-10

1-11
RY0-RY9

24-22
DLYO-DLY2

21, 20, 18, 17
DLY3- DLY6

42

1-11

B-Y (L) IN
B-Y (1) IN
B-Y (2) IN
B-Y (3) IN
B-Y (4) IN
B-Y (5) IN
B-Y (6) IN
B-Y (7) IN
B-Y (8) IN
B-Y (M) IN

1-46 18MHz (X) IN

RY0-RY9

BY0-BY9

BY0-BY9

DI0
DI9

IC5
36-31, 29-26
DO0
DO9

9-18
RYB0 - RYB9

21, 20, 18, 17
DLY3- DLY6

42

2

PSE0
PSE2

VD IN

AT, 1-14

1-3

IIC DATA

LPF

R0

TP5

Q87-90

BUFF
+5V

PSW0
PSW3

IC24

8 13

8

5

MM Q

CLK
SW1
A

IC6
36-31, 29-26
DI0 DO0
DI9 DO9

63.64,1-9
DYB0 - DYB9

+4.8V

R0
R9

1
2 107

DO0
PSW0
PSW3

4

2

101

2
1

2 110

4 2
1 108

102

6
5

102

7

6

3

INH
DL SYNC

6

19

1
2 8

6

12
11

IC27
15 5 LEVEL
CTL

B-Y SPL LEVEL

15,1-7

+4.8V
2

DLY0-DLY7

Q7
S
P
µY7
CONV.
LD
9
DO

IC3
RESET

1
2 9

6

4

29
42
41
40

Q20

IC13
14

12
11

Q0
Q1
Q2
S
P Q3
CONV. Q4
Q5
LD
Q6
Q7
DI

15
1
2
3
4
5
6
7

D/A BLK OUT
WD/NR
LEV1
LEV2
TRIAX/VTR
SETUP1 ON/OFF
SETUP2 ON/OFF
SKIN GATE ON/OFF

AMP

IC27
LEVEL
CTL

8

IC29
SETUP2 LEVEL

6
1
7

BLK
SETUP Y
DL BLKG

VRB
CRG
VRR

4

19

1
4 SETUP 2 ON/OFF
2 106

16

2.5V REF OUT 1-89

Q2, IC2
-5V
REG

9
Q83, 84

8

-2.5V

RCK
SETUP 2

2

Q3, IC2
-2.5V
REG

IC26
4 10

BCK

GCK

1-92

7

10
5

BUFF

IC36

+4.8V

32

3

REG
CONT

10

IC26

3
33
3

Q0

2

1
4 R-Y" SYNC ON/OFF
2 105

14

B-Y SAMPLE
6

1-91

+5.1V

IC2
R-Y SYNC LEVEL

R-Y SYNC

4

+5.1V

IC1

1

CLK

Q1, IC2
+5V
REG

5

INH
B

PSE0
PSE2

4
5 8

DI

BUFF

1

11

14

ATT

NEG:0.76Vp-p

Q94, 98
INV.
AMP

7

9

IC10
1 EEPROM
A0
5
2
SEA
A1
3
A2

Q92

FBC

6

34

8

IC28, Q113-115

AMP
IC27,Q91

DDL

IC35
1-43

Q85, 86

4
9, 10

SG, 1-50

FL8
50

24-22
DLYO-DLY2

B-Y

B-Y(18)

G0
G9

3

IC27
LEVEL
CTL

-4.8V

-2.8V
-2.8V

1-85
1-86

-5.1V
-5.1V

1-87
1-88

+3.1V
+3.1V

1-83
1-84

+7.3V
+7.3V

1-93
1-94

AT, 1-89
SG, 1-89
IF, 1-89

1
+3.1V

10
IC26

Y SPL LEVEL

Y-SAMPLE
SN
A
B
INH

CHAR VF
CHAR ON

1
2 104

SAMPLE 2

13

19

12

IC27
14 12 LEVEL 14
CTL

13
1
4
2 109

4

1
4
2 103

7

+7.3V

Y SPL" ON/OFF
11
B-Y SPL" ON/OFF

INH
SETUP Y
V SPL

SKIN GATE OUT

IC14
17

AT, 1-13

1-2

IIC CLK

AT, 1-17

1-1

LD (DA) IN

SG, 1-25
AT, 1-28
SG, 1-23

1-8
1-51
1-6

DL BLKG IN
CHAR VF
DL SYNC IN

1-4

SAMPLE 2 IN

SG, 1-17
PR, 1-117

1-76

1, 2
2

12
11

4
4

DI

A01
A02
16
A03
A04
15
A05
LD
A06
D/A A07
CONV. A08
A09

18
19
2
3
4
5
6
7
8

Y LEVEL
R-Y LEVEL
B-Y LEVEL
SETUP 1
SETUP 2
Y SPL
R-Y SYNC
B-Y SPL
CH ARC ON/OFF

SETUP 1 LEVEL
SETUP 2
Y-SAMPLE
R-Y SYNC
B-Y SAMPLE
CHAR ON
DL BLKG
2

15

19

19

1
4
2 100

18
CHAR VF
DL SYNC
SW1
SAMPLE 2

5

IC16, 18, Q25, 26
LEVEL
CTL

SETUP 1 ON/ OFF

SKIN GATE

1-5

IF, 1-15

Y (X) OUT

1-63

MB, 11-23

Q19, 23
INV.
AMP
(1.0Vp-p, 0Vdc)
TP3

Q9,12 FL2

IC15
7

H1-Y (X) IN

Q13

LPF

1

IC25, Q107-109

Q22

AMP

ATT

BUFF

YsH

Q59, 63
INV.
AMP

IC16, Q18

LPF
SW

BUFF

6

Q10, 11 FL3

Q14-17

5

FBC

WD / NR

IC17
6
-5V

17

19

1
7

3

(1.0Vp-p, 0Vdc)

5

A

1
2

7
Q33
BUFF

INH

1
2

B

VBS

Q43, 44
INV.
AMP

VBS (X) OUT 1-65

IF, 1-66

7
TP2

Q27, 30, FL4
PR, 1-115

1-74

C (X) IN

IC20
7

LPF

1
6

Q28, 29, FL5
LPF
SW

Q102

Q103, 104

Q32

Q34

BUFF

AMP

BUFF

BUFF

C (X) OUT

1-55

MB, 11-27

5
WD / NR

Q45-47, 106
8

19

12

VARIABLE
LPF

VTR SYNC OUT 1-7

MB, 12-14

Q105

SG, 1-36

1-41

N/P IN

PR, 1-119

1-78 VF-Y (X) IN

Q4

Q4, FL1

Q100, 101

Q7

Q8

BUFF

LPF

AMP

BUFF

BUFF

VF- (X) OUT 1-80

IF, 1-80

DA-88 BLOCK
BVP-550
BVP-550

7-7

7-7

BVP550-DA88BLOCK#1/M

IF-510

IC601

IF-510 BOARD
DA, 1-65

1-66

IF-510

3
RV101
VBS GAIN

Q109

Q1, Q2

Q101-Q103

VBS (X) IN

BUFF

BUFF

IC101
7
1

A0 EEPROM
A2
SDA
A1
SCL

IC153
5

8BITS Q7
S
P
14

AT,
AT,
AT, 1-15

1-3
1-2
1-2

IIC DATA
IIC CLK

Q6

D
1, 2

151

7

1
7
2 154

CVF CHR & CURSOR
ON/OFF
6

CK
152

5 TEST SEL 2
Q5
4 TEST SEL 1
Q4
3 MONI SEL 2
Q3
2 MONI SEL 1
Q2
1 CHARA ON/OFF
Q1
15
Q0

LD

1-10 CORSOR 1 IN
1-9 CORSOR 2 IN

PR, 1-44

1-7

6
5

3

IC308
152-2

1
7
2 309

308-4

308-1

4
6
5 151
+4.8V
2
7
1 307

151

11

6
3
5 307

Q205
VF-Y (X) IN

1-8

CHAR BACK IN

12
14
15
11

IC202
0
1
2
3
A
10

ATT

IC200
6
1

ATT

1-45

IC206
3 OUTPUT 6
AMP

Q211
13

BUFF

MB, 15-1

MONI (X) OUT 1-49
VF (X) OUT 1-78

MB, 12-3
VF, 1-A3

9

+4.8V

Q206

Q209

BUFF

BUFF

IC12, Q10
+4.8V
REG

+5.1V
+5.1V

2.5V REF IN 1-89

Q272
IC12, Q20
-4.8V
REG

5
6

PB REF IN

304

2

3
6

5
3
6 154

SYNC
TIP

306

-2.5V
REG

6

3

Q251

S1

IC301

SG, 1-49
SG, 1-50

1-40
1-39

2

RET

1-53 RET VIDEO (X) IN
2

SG, 1-23

5
6

309

3

Q405

Q403, 404

Q500

Q501, 502

Q503

Q504, 505

1-25 WINDOW IN

DA, 1-69

1-70

1, 2

502

502

1

BUFF

VF Y (X) OUT 1-76

VF, 1-B8

R

B

R (X) OUT

1-63

G (X) OUT

1-61

MB, 11-17
MB, 11-?

B (X) OUT

1-59

MB, 11-19

(0.7Vp-p, 0Vdc)

G PEAK OUT 1-18

AT, 1-74

VF R-Y (X) OUT 1-75

VF, 1-A9

VF B-Y (X) OUT 1-74

VF, 1-B9

G
PEAK
DET.

3

7

R-Y (X) IN

BUFF
+4.8V

IC410
6

5

Q422

+4.8V

IC420

Q424

7
6

BUFF

1

Q423
BUFF

Q352, 354

BUFF

1

Q413

BUFF

B-Y (X) IN

Q414

7

BUFF
Q420, 421

1-48

MB, 12-23

(0.7Vp-p, 0Vdc)

Q509, 510
IC500, 501

Q410, 441

SG, 1-36

SKIN GATE OUT 1-16

G

Q412

1-68

PR, 1-39
PR, 1-41

SKIN GATE

5

Q507, 508

5, 6

INT/EXT HD OUT 1-6
INT/EXT VD OUT 1-5

Q406

6

BUFF

+

AT, 1-45

8
6

BUFF

7

1-26 PEAK RESET IN

TIMING
PULSE
SW'er

Q430, 431

BUFF

Q506

1-90

(1.0Vp-p, 0Vdc)

Q401, 402

DA, 1-67

JITER

4

404

Y (X) IN

AT, 1-46

2, 13

2
7
1 310

5

306

2

1-12 DL SYNC IN

1-72

7

INT HD 12
INT VD 1

IC400

DA, 1-71

306

IC302, 303, 351
303-1, 13
303-6 EXT ND 10
303-8 EXT VD 5
302-2
302-12
DE

HD IN
VD IN

1-15 SKIN GATE IN

+9.3V

+9.3V

302-3, 3, 11,
351-3

5
3
6 310

DA, 1-5

1
SYNC HD
3
IN SEP.
VD

SC
L250, C252
TRAP

4

352

3

1-85
1-86

BUFF

GEN

1-34 18MHz (X) IN

-2.8V
-2.8V

-2.5V

1

SG, 1-55

1-87
1-88

IC12, Q30
5

FF Q
Q
2

-5.1V
-5.1V

-4.8V

IC322

MB, 12-1

1-91
1-92

5

1
7
2 304

1-36 GELOCK (X) IN

TEST (X) OUT 1-43

B

BUFF

Q250
SG, 1-51

OUTPUT 6
AMP

10

IC305
MB, 12-17

CN, 1-16

A

ATT

Q273
12, 13

3

BUFF

Q271

9
8
10 151

1-80

RM VBS (X) OUT 1-21

3

BUFF

7

AT, 1-27

13

1
2

Q210

IC152

CHAR VF IN

DA, 1-80

OUTPUT 6
AMP
IC641

Q207, Q08

0

B

SKIN GATE
ON/OFF
PR, 1-43
PR, 1-45

12
14
15
11

5

9

12

7

MB, 11-21

IC201

RM CHR
ON/OFF

11

3

1, 2

LD (IF) IN

3

BUFF

IC155
1
3
2
6

VBS (X) OUT 1-57

IC621

Q110

6

+4.8V

OUTPUT 6
AMP

5
N/P OUT

N/P IN

1-47

VF, 1-B3

TALLY OUT 1-27

VF, 1-B5

Q701, 703
CN, 1-19

AT, 1-58

1-82

TALLY
DRIVE

UNREG
2
1

1-29 TALLY ON IN

IF-510 BLOCK

+9.3V
702

4

BVP-550

IC701 (1/2)
MB, 12-18

1-31 REC TALLY IN

3

COMP

1

REC TALLY OUT 1-30

AT, 1-57

VTR RESET OUT 1-28

AT, 1-53

IC701 (2/2)
5

COMP

7

7-8

7-8

BVP550-IF510BLOCK#1/M

BVP-550

Section 8
Schematic Diagrams
1

LOCATION OF PRINTED CIRCUIT BOARDS

SW-732

2
MB-602
CN-1120
PR-211
CN-1121
CN-1142

IF-510

3

DA-88
CN-1122

SG-234
AT-95
VA-163
SW-730
SW-731

SW-733

SW-742

4

5

8-1

BVP-550

I

J

K

L

8-1
M

N

O

P

VA-163 (1/2)

VA-163 (1/2)

BVP-550 (SY)

1

VA-163 BOARD

2/2
2/2
2/2
2/2
2/2

———————————
VA-163 (1-657-438-12)
———————————
*: B SIDE
CN1

C-1

CT200 B-4
CT300 D-4
CT400 F-4
D1
D2
D3
D4
D5
D7
* D8
* D9
* D10
*
*
*
*
*

2

A-3
A-2
A-2
A-3
B-3
B-3
F-3
F-3
F-3

FL200 C-3
FL300 D-3
FL400 E-3

*
*

3

*
*

*
*
*
*

4

*
*
*
*
*

IC1
IC3
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC21
IC22
IC23
IC24
IC25
IC26
IC27
IC200
IC201
IC202
IC203
IC204
IC300
IC301
IC302
IC303
IC304
IC400
IC401
IC402
IC403
IC404

A-3
B-2
B-3
B-2
B-3
F-4
F-4
F-2
F-2
F-2
F-2
F-2
F-3
G-3
G-3
G-2
G-3
G-2
G-1
B-4
B-3
G-1
F-1
F-1
F-1
C-4
C-3
C-2
B-2
B-1
D-4
D-3
D-2
C-2
C-1
E-4
E-3
E-2
D-2
E-1

L1
L2

A-2
A-3

* Q1
* Q2
* Q3
Q4
Q5

A-2
A-2
A-3
B-3
A-3

* Q7
Q10
Q11
Q12
Q13
Q14
* Q200
* Q201
* Q202
* Q203
* Q204
* Q205
Q206
* Q207
* Q208
Q209
Q210
Q211
Q212

A-3
A-4
A-4
A-4
A-4
A-4
B-4
B-4
C-4
C-4
C-4
C-3
B-3
C-3
C-3
B-2
C-2
B-2
C-2

3
4
5
1
7

C
GSL 2
GSL 1
TEST SIG
V SAW
C124
15
6.3V

IC200(1/4)
TL064CPW-E05

* Q213
* Q214
* Q215
Q216
Q217
* Q218
Q219
Q220
* Q300
* Q301
* Q302
* Q303
* Q304
* Q305
Q306
* Q307
* Q308
Q309
Q310
Q311
Q312
* Q313
* Q314
* Q315
Q316
Q317
* Q318
Q319
Q320
* Q400
* Q401
* Q402
* Q403
* Q404
* Q405
Q406
* Q407
* Q408
Q409
Q410
Q411
Q412
* Q413
* Q414
* Q415
Q416
Q417
* Q418
Q419
Q420
RV50
RV200
RV300
RV400

C-1
C-1
C-2
C-2
C-1
B-1
C-1
C-1
C-4
C-4
D-4
D-4
D-4
D-3
D-3
D-3
D-3
D-2
D-2
D-2
D-2
D-1
D-1
D-2
D-2
D-1
C-1
D-1
D-1
D-4
E-4
E-4
F-4
E-4
E-3
E-3
E-3
E-3
E-2
E-2
E-2
E-2
E-1
E-1
E-2
E-2
E-1
E-1
E-1
E-1

C200
4.7
20V
:TA-B

IC201
TC4W53FU(TE12R)

C201 C202 C203
33
0.1
0.1
16V
:TA-D

C204
10
6.3V

R209
20k

MB,21-6(BVP-550)
MB,14-6(BVP-500)

74

R(X) IN

Q205
2SA1226-T1E4

R200
1k

C125
15
6.3V

Q206
2SC4178-F13F14-T
1

IC202(1/2)
CXA1486Q-TH

Q207
2SA1610-T1Y34

R202
4.7k

R203
5.6k

R207
5.6k

R211
10

Q201

CN1(74/100)

TP200

R265
20k

12
13

14

5
6

7
R269
1k

C239
1
25V
:TA-CA
C259
1
25V
:TA-CA

4

11

R215
330

2 4 8

CT200
R235
150

R FREQ

18

FL200

1

R230
39k

Q205
R241
2k

R263
1k

IC300(1/4)
TL064CPW-E05

C300
4.7
20V
:TA-B

C301
0.1 C302
33
16V

IC300(2/4)
TL064CPW-E05

IC301
TC4W53FU(TE12R)

Q300
2SA1611-T1M7

R301
20k

C303
0.1

C304
10
6.3V

R248
2.2k

R249
0

12
13

14

4
5
6

7
R369
1k

C339
1
25V
:TA-CA
C359
1
25V
:TA-CA

Q306
2SC4178-F13F14-T
1

Q305
2SA1226-T1E4

R300
1k

11

R302
4.7k

MB,21-3(BVP-550)
MB,14-3(BVP-500)

R335
150

TP200 D-4
TP300 E-4
TP400 F-4
17
18

IC400(2/4)
TL064CPW-E05

Q303

C401 C402
0.1
33
16V

R401
20k

C403
0.1

C404
10
6.3V
:TA-B

302
19

R330
39k

Q307

R349
0

R465
20k

12
13

7

C439
1
25V
:TA-CA
C459
1
25V
:TA-CA

4
5
6
11

Q406
2SC4178-F13F14-T
1

Q405
2SA1226-T1E4

R400
1k

R410
10

R415
330

2 4 8

C407
27p

21

24

C314
1
25V
:TA-CA

23

12

R350
0

C317
4p

Q308
C318
0.1

C319
0.1

R351
100k

R352
10k

C330
1
25V
:TA-CA

IC402(1/2)
CXA1486Q-TH

Q408
2SC4177-T1L7

R403
5.6k
1/16W

CT400
R435
150

B FREQ
6
7

1

5 3

18

FL400

1 5
R422
820 2

C441
:n'm C440
:TA-CB 56p

401

R411
5.6k

28

R412
330

R413
1.5k

16

R423
100

19

R430
39k

Q405

R445
100k
R448
10k

R449
2.2k

26

R424
5.6k

14

R436
47k

R447
0

C416
0.1

C408
100
6.3V
:AL-C

WSH
GCTL

402

Q406

RV400
500

R416
1k

20

TRAP
Q402

IN
BSH

Q407

3 1/16W

2

GS1
GS2

ZERO

VEE

GND CLC1 CLP1 BLK1 LPF1 BLKG

5

3

21

31

C414
1
25V
:TA-CA

24

23

12

R450
0

C417
4p

Q408

C418
0.1

C419
0.1

R451
100k

R452
10k

RV400:B GAIN

A GND
R458
11k
C433
0.1
R463
1k

Q403
C428
33
6.3V

Q404
C429
10
6.3V

C434
0.1

C430
1
25V
:TA-CA

R459 R462
20k 30k

-2.5V
8

IC400(4/4)
TL064CPW-E05

B

31

VCC

CN1(69/100)

C432
22
10V

8
9
10
11

GND CLC1 CLP1 BLK1 LPF1 BLKG
3

Q401

R456
1k

2/2
2/2
2/2
2/2

VEE
5

Q407
2SA1610-T1Y34

R402
4.7k

R444
620

20

R336
47k

Q304
2SA1226-T1E4

R441
2k

2/2

14

R362
30k

6 4 7

19

R324
5.6k

ZERO

C334
0.1

C329
10
6.3V

R468
3.3k

R470
33k

2/2

GS1
GS2

C316
0.1

C437
0.1

R469
1k

B(G) IN

26

C308
100
6.3V
:AL-C

GCTL

20

TP400

69

R316
1k

WSH

CN1(70/100)

C438
1
25V
:TA-CA

MB,21-1(BVP-550)
MB,14-1(BVP-500)

R313
1.5k

2

Q400
R408
13k

B(X) IN

IN
BSH

R359
20k

Q304

C328
33
6.3V

Q400
Q401
Q402
2SA1611-T1M7 2SC2757-T1T34 2SA1226-T1E4

IC401
TC4W53FU(TE12R)

R312
330

3 1/16W
TRAP

R348
2.2k

+7V
+4.8V
C400
4.7
20V
:TA-B

70

R346
270k

Q303
2SA1611-T1M7

10
9

R252
10k

RV300:G GAIN

R358
11k

IC400(1/4)
TL064CPW-E05
2/2
2/2

MB,21-2(BVP-550)
MB,14-2(BVP-500)

16

R323
100

1 5
2

RV300
500

R356
1k

8

R251
100k

Q308
2SC4177-T1L7

28

Q305
R345
620

IC300(4/4)
TL064CPW-E05

C219
0.1

C230
1
25V
:TA-C

18

FL300

Q306

R342
10k

Q302

R368
3.3k

B-4
C-4
D-4
F-4

C218
0.1

R304
5.6k

CT300

R322
820
C341
:n'm C340
:TA-CB 56p

R363
1k

C217
4p

VCC

C307
27p

6
7

C333
0.1

R250
0

Q301

CN1(71/100)

C332
22
10V

12

IC302(1/2)
CXA1486Q-TH

R341
2k

G(G) IN

71

23

24

C214
1
25V
:TA-CA

R303
5.6k

G FREQ

5 3

21

31

Q307
2SA1610-T1Y34

6 4 7
R370
33k

3

Q300

R315
330

301

5

Q204
2SA1226-T1E4

Q301
Q302
2SC2757-T1T34 2SA1226-T1E4

2 4 8
1

R236
47k

R262
30k

TP300

R365
20k

GND CLC1 CLP1 BLK1 LPF1 BLKG

C216
0.1

C337
0.1

C338
1
25V
:TA-CA

14
ZERO

VEE

C234
0.1

R311
10

CN1(72/100)

R224
5.6k

GCTL

GS1
GS2

R259
20k

C229
10 6.3V :TA-B

Q203
2SA1611-T1M7

R309
13k

G(X) IN

72

Q204

Q203
C228
33
6.3V

10
9

8

IC200(4/4)
TL064CPW-E05

26

C208
100
6.3V
:AL-C

RV200:R GAIN

R258
11k
C233
0.1

R246
10k

RV200
500

R256
1k

MB,21-4(BVP-550)
MB,14-4(BVP-500)

R245
300k

R(G) IN

C232
22
10V

R216
1k

Q208
R244
620

CN1(73/100)

73

2
WSH
202

20
19

Q206
6 4 7

IN
BSH

Q207

3 1/16W

2
TRAP

Q202

R268
3.3k

R270
33k

16

R223
100

1 5

R222
820

7
C241
:n'm C240
:TA-CB 56p

R213
1.5k

VCC

C207
27p

6
201
5 3

R212
330

28

C237
0.1

C238
1
25V
:TA-C

MB,21-5(BVP-550)
MB,14-5(BVP-500)

Q208
2SC4177-T1L7

Q200

PRE
CLP
CLP
CLP

Q403
2SA1611-T1M7

10
9

Q404
2SA1226-T1E4
N
M
L

14
13
12

2/2
2/2
2/2

BLKG
1
2
3

8-2
A

Q200
Q201
Q202
2SA1611-T1M7 2SC2757-T1T34 2SA1226-T1E4

R201
20k

14

5

IC200(2/4)
TL064CPW-E05

C

8-2
D

BVP-550

E

F

G

H

VA-163 (1/2)

VA-163 (1/2)

1

Q209
Q211
Q214
Q216
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
Q217
Q210
Q212
Q213
Q215
1
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
1

IC202(2/2)
CXA1486Q-TH

R204
30k

IC203
TC4W53FU(TE12R)

IC204
TC7S08FU(TE85R)

Q218
2SA1611-T1M7

Q219
XN6501-TW

R205
47k

C242
3.3
16V

Q211

VCC

1
10

VCC

4

CN1(54/100)

11
K-POINT

F-DET

202

27
VEE
22
R281 R253
4.7k 4.7k

C220
0.1

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

30

32

29

1

GND
13

C231
1
25V
:TA-CA

R219
2k

R221
:N'M
R271
100k

R231
1k

R228
8.2k

R220
750

IC200(3/4)
TL064CPW-E05

C209
3p

Q215

MB,7-9(BVP-550)
MB,11-9(BVP-500)

R233
2k
C211
1
25V

6

3
2

R229 1
2k

C210
:n'm

Q213

R FEED BACK IN

60

MB,7-14(BVP-550)
MB,11-14(BVP-500)

5V

R232
1k

R240
5.6k

6
1

C223
0.1

R272
100k

R254
0

CN1(60/100)

7
Q218

2

R238
2k

203
4 5 3

R237
1k
R247
20k

C212
0.1

R234
100
1/16W

8
Q214

R227
2k

VEE

C215
1
25V
:TA-CA

C243
4.7
10V

R218
11k
R226
10k

FB

C221
0.1

C235
0.1

54

Q216
R217
10

1

4
F-COMP

R280
33k

R(X) OUT

OUT

9

16

2/2

R214
10

Q210

7
K-SEL

2

Q212

10
R225
33k

B

R206
4.7k

C206

15

2/2

R208
2.4k

C205
0.1

8
Q209

6

Q220
XN6501-TW

R210
8.2k

15

KNEE SEL

4

R243
2k
C225
15
6.3V

C226
15
6.3V

R239
20k

D200
:N'M

C224
33
6.3V
:AL-C

-5V

5
1
204 2
3

R242
100
1/16W

Q219
R255
10k
1/16W

C213
:N'M

2

Q220
R257
3k

C227
0.1
CN1(53/100)

R(G) OUT

53

MB,7-10(BVP-550)
MB,11-10(BVP-500)

G(X) OUT

52

MB,7-7(BVP-550)
MB,11-7(BVP-500)

G FEED BACK IN

59

MB,7-15(BVP-550)
MB,11-15(BVP-500)

G(G) OUT

51

MB,7-6(BVP-550)
MB,11-6(BVP-500)

C222
:N'M
R260
10k

C236
0.1

R261
10k

R267
1.8k
R266
10k

R264
3k

7

Q309
Q311
Q313
Q316
2SC4178-F13F14-T
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
Q310
Q312
Q314
Q315
Q317
2SC4178-F13F14-T 2SC4178-F13F14-T
2SC4178-F13F14-T2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
1

IC302(2/2)
CXA1486Q-TH

IC304
Q318
TC7S08FU(TE85R) 2SA1611-T1M7

IC303
TC4W53FU(TE12R)

R305
30k

R306
47k
C342
3.3
16V

Q311

R308
2.4k

C305
0.1

R310
8.2k

VCC

11

Q309

VCC

10

14
5

11
K-POINT

F-DET

302

27

17

VEE
22
R381
4.7k

R353
4.7k

C320
0.1

Q312

R314
10

C306

Q315

5V

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

32

30

29

1

GND
13

R319
2k

R331
1k

C310
:n'm

R326
10k

C309
3p
R328
8.2k

IC300(3/4)
TL064CPW-E05

R320
750

Q313

C311
1
25V

3

R329 1
2k

R332
1k
R333
2k

6

R340
5.6k

2

R338
2k

6
7

1
2

C323
0.1

R372
100k

R354
0

C331
1
25V
:TA-CA

CN1(59/100)

Q318

303
4 5 3

R337
1k
R347
20k

C312
0.1

R334
100
1/16W

8
Q314

R327
2k

VEE

C315
1
25V
:TA-CA

C343
4.7
10V

R318
11k
R321
:N'M

R371
100k

FB

C321
0.1

C335
0.1

Q310

R317
10

2

4
F-COMP

R380
33k

3
CN1(52/100)

OUT

9

R307
4.7k

Q316

7
K-SEL

R325
33k

Q320
XN6501-TW

Q317

8

15

2

Q319
XN6501-TW

4

R344
2k
C325
15
6.3V

C326
15
6.3V

R339
20k

D300
:N'M

C324
33
6.3V
:AL-C

-5V

3

R343
100
1/16W

Q319

5
1
304 2
R355
10k
1/16W

C313
:N'M

Q320
R357
3k

C327
0.1
CN1(51/100)

C322
:N'M

R360
10k
1/16W

C336
0.1

R361
10k
1/16W

R367
1.8k

R366
10k

R364
3k

4

8

Q416
Q409
Q411
Q413
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T
2SC4178-F13F14-T
1
1
1
1
Q417
Q412
Q414
Q415
Q410
2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T 2SC4178-F13F14-T
1
1
1
1
1

IC402(2/2)
CXA1486Q-TH

IC403
TC4W53FU(TE12R)

IC404
TC7S08FU(TE85R)

Q418
2SA1611-T1M7

R404
30k

R405
47k
C442
3.3
16V

Q411
R409
8.2k

VCC

6

11
K-POINT

F-DET

402

27

18

VEE
22
R481
4.7k

R453
4.7k

C420
0.1

GND CLC2 CLP2 BLK2 LPF2 OS1
17

25

32

30

29

1

GND
13

VEE

R418
11k

R419
2k

R421
:N'M
R431
1k

FB

C410
:n'm

R426
10k

C409
3p
R428
8.2k

8

Q414

R427
2k

R432
1k
R433
2k

R471
100k

Q413

3
2

R429 1
2k

R440
5.6k

R438
2k

C423
0.1

C412
0.1

R443
2k

C411
1
25V

R434
100

6
7

1
2

B FEED BACK IN

58

MB,7-13(BVP-550)
MB,11-13(BVP-500)

49

MB,7-10(BVP-550)
MB,11-10(BVP-500)

57

MB,7-12(BVP-550)
MB,11-12(BVP-500)

CN1(58/100)

Q418
403
4 5 3

R437
1k

6
R472
100k

MB,7-11(BVP-550)
MB,11-11(BVP-500)

IC400(3/4)
TL064CPW-E05

R420
750

R446
20k

C415
1
25V
:TA-C

C421
0.1

3

4
F-COMP

R480
33k

R417
10

50

R414
10

5V

OUT

9

B(X) OUT

CN1(50/100)
C406

Q415

7
K-SEL

R425
33k

R406
4.7k

Q416

Q410
Q412

10

13
3

Q409

VCC

Q420
XN6501-TW

Q417

R407
2.4k

C405
0.1

8

15

12

Q419
XN6501-TW

C425
15
6.3V

C426
15
6.3V

4
R439
20k

D400
:N'M

C424
33
6.3V
:AL-C

-5V

Q419

5
1
404 2
3

R442
100
1/16W

R455
10k

C413
:N'M

5

Q420
R457
3k

C427
0.1
CN1(49/100)

B(G)
C435
0.1

C443
4.7
10V

R454
0

C431
1
25V
:TA-C

C422
:N'M

R460
10k
1/16W

C436
0.1

R461
10k
1/16W

CN1(57/100)

R467
1.8k

+2.5V
NAM

16
15

2/2
2/2

R464
3k

OUT

FB GND

VA-163 (1/2)
BOARD NO. 1-657-438-12
LOT NO. 509- VA-163(1/2)

R466
10k

9

B-¥BVP550-VA163-12
B-¥ BVP550-VA163-12

1995.9.7

8-3

BVP-550

I

J

K

L

8-3
M

N

O

P

VA-163 (2/2)

VA-163 (2/2)
BVP-550 (SY)

1

SG,1-18

9

SAMPLE 3 IN

CN1(9/100)

Q7
IC1(1/4)
2SD596T1-DV345 TL064CPW-E05
D1
RD4.3UH-T1

2
1

1

R1
20k

3

C2
0.1

2

85
86

-2.8V
-2.8V

94
93

+7.3V
+7.3V

C1
10
10V
:TA-CB

CN1(85/100)

R2
10k

C4
10
10V
:TA-CB

C3
0.1

CN1(86/100)

Q1
2SB624-T1BV3

C5
10
10V
:TA-CB
C7
0.1

20

1/2

+7V

17

1/2

+4.8V

18

1/2

A GND

19

1/2

IC1(2/4)
TL064CPW-E05

CN1(94/100)
CN1(93/100)

-2.5V

4

C6
10
10V
:TA-CB

R3
22k

5

R4
10k

7
6

1
D2
RD4.3UH-T1

R5
47k

Q2
2SB1114-T1ZL
92
91

+5.1V
+5.1V

C8
0.1

IC1(3/4)
TL064CPW-E05

IC6(1/4)
TL074CPW-E05

CN1(92/100)

2.5V

CN1(91/100)
C9
15
R6
6.3V 22k
:TA-CB
C10
0.1
C12
47
6.3V
:AL-C

10

R7
10k

8
1

9

R8
10k

100
99
98
97

A
A
A
A

GND
GND
GND
GND

C14
1
25V
R10 :TA-CA
22k

CN1(100/100)
CN1(99/100)

CN1(97/100)

14
C17
47
6.3V
:AL-C

-5.1V
-5.1V

C13
1
25V
:TA-CA

CN1(98/100)

D4
RD4.3UH-T1

88
87

1

D3
RD4.3UH-T1
R9
1.5k

3

2
3 6

C11
22
10V
:TA-CC

1
C18
0.1

13
12

R11
10k

C15
33
10V

C16
22
10V
:TA-CC

11
C19
1
R12
25V
10k
:TA-CA

CN1(88/100)
CN1(87/100)

-5V

Q3
IC1(4/4)
2SD596T1-DV345 TL064CPW-E05

MB,7-24(BVP-550)
MB,11-24(BVP-500)

89

+2.5V REF OUT

CN1(89/100)
R13
100

IC3
REF-03GSR
1
2
3
4

R14
100k

4

MB,6-47/MB,23-3(BVP-550)
MB,10-47/MB,16-3(BVP-500)

8

A HD IN

CN1(8/100)

8
7
6
5

NC
NC
3
IN
NC
TEMP OUT
GND TR

R40
100

5V

IC23(2/4)
SN74HC08APW-E05

L1
22µH

R16
100k
1/16W

R15
100k
1/16W

MB,23-12(BVP-550)
MB,16-12(BVP-500)

13

PREBLKG IN

CN1(13/100)

Q5
XN6401-TW

R19
10

Q4
2SC4177-T1L7

R17
4.7k
1/16W

R18
10k

R20
10k

R21
3.3k

Q4

MB,23-13(BVP-550)
MB,11-1/MB,16-3(BVP-500)

5

12

H CLP 1 IN

CN1(12/100)

4

R22
10

Q5

14

6 3

6

2

5

5

D5
1SS302-TE85L

7
4 1

8-4
A

B

C

MB,16-14(BVP-500)

11

DC LP

MB,6-49/MB,23-4(BVP-550)
MB,10-49/MB,16-4(BVP-500)

7

A VD IN

MB,22-13(BVP-550)
MB,15-13(BVP-500)

14

V CLP 1 IN

CN1(11/100)

C20
10
10V
:TA-CB

C21
0.1

CN1(7/100)

C24
10
10V
L2 :TA-CB
22µH

C25
0.1

R23
2.2k

C22
0.1

R24
3.3k

C23
0.1

CN1(14/100)

-2.5V

8-4
D

BVP-550

E

F

G

H

VA-163 (2/2)

VA-163 (2/2)

Q12
XN6501-TW

5V

IC12(1/4)
TL074CPW-E05

C48
0.1

180k

5 4

2

IC12(3/4)
TL074CPW-E05

R65
2k

3

4

5
6

5V
C45
0.1

R42
12k

R47
10k

11

3

5

C50
6.8
6.3V

C46
0.1
35V

C73
18p

C49
0.1

R43
1.5k

R68
1k

7

IC15(1/4)
TL064CPW-E05

4 3

R57
47k

9
R49
10k

IC12(2/4)
TL074CPW-E05

D9
1SS302-TE85L

3

12

11
13
9

R70
1k

R46
2k

R52
10k

IC12(4/4)
TL074CPW-E05

R54
10k

1

C44
0.1

2

-2.5V

14

1

15

IC22(1/3)
TC74HC4053AFS-EL

17

13

C61 5V
0.1

R101
12k

5

Q10
XN6401-TW

IC22(2/3)
TC74HC4053AFS-EL

-2.5V

Q14
XN6401-TW

5V

R62
470k

16
5
3

3

9
4

15

R99
8.2k

17
6 8 7

R100
2k

R102
1k

C64
0.1

R114
20k

C68
0.1

R118
4.7k

R105
100

9
10
4

6 3

1
2

R111
100

2

15 5

22
6 8 7

6

3

4

1

2

5
22

4

CN1(26/100)

1
R112
8.2k

R108
2.7k

R115
2k

CN1(25/100)

R120
3.3k

14

R83
4.7k

IC17(3/3)
TC74HC4053AFS-EL

13
-2.5V
1/2

2

3
2
1

5
4

12
11
10
9
8
7
6
R55 5V
20k

5V
5V
R58
10k

R63
33k

R64
33k
R71
33k

R96
47k

V0G
V0F
V0E
V1F
V1E
PR
GND
V1A
V1B
V0A
V0B
V0C
V0H
V1G
V1H
LD
CLK
SD0
VSS
SD1
VDD
V1D
V1C
V0D

10
9
8
7
6
5
4
3
2
1

21

24

11
12
13
14
15
16
17
18
19
20

13
14
15
16
17
18
19
20
21
22
23
24

CLK
SD0
VSS
SD1
VDD
V1D
V1C
V0D

V0H
V1G
V1H
LD

13
14
15
16
17
18
19
20
21
22
23
24
7

20

VCC
A011

18

IC26
X24C02S-3.0-C700
0

R116
100k

8
7
6
5

NC
D0
LD
CK
D1
NC
NC
GND

R97
47k

C

IC16
MP7670AS-TE2

IC24
MB88351PFV-ER

VDD
NC
NC
AO4
AO3
AO2
AO1
NC
NC
VSS

R94
47k

VCC
NC

12
11
10
9
8
7
6
5
4
3
2
1

IC20
TC74HC595AF(EL)

16

1/2

R95
47k
R90
33k

VDD
A0
CPE
A1
26
SCL
A2
SDA
VSS

1
2
3
4

3

11
12
13
14
15
16
17
18
19
20

3

PR
GND
V1A
V1B
V0A
V0B
V0C

12
11
10
9
8
7
6
5
4
3
2
1
V0G
V0F
V0E
V1F
V1E
1/2

IC18
MP7670AS-TE2

10
9
8
7
6
5
4
3
2
1

R84
33k

IC11
TC7S04FU(TE85R)

R89
33k

R87
33k

VDA
AO10
A09
A08
A07
A06
A05
A04
AO3
VSS

R85 R86 R88
33k 33k 33k

3

AO12
D0
LD
CK
D1
AO1
AO2
GND

5 4

8
7
6
5
4
3
2
1

2

GND
Q7
Q6
Q5
Q4
Q3
Q2
Q1

5V

QH
CLR
SCK
RCK
G
S1
Q0
VCC

R53
20k

IC8
TC7S66FU(TE85R)

V SAW
C62
0.1

CN1(3/100)

C72
0.1

C63
0.1

5V
4

5V

R121
100

IC21
MB88346BPFV-EF

5 1
27 2

R122
100

2
3

IC19(1/4)
TL074CPW-E05

C59
0.1

C60
0.1

CN1(1/100)

4

C67
15
6.3V

C69
15
6.3V

C65
15
6.3V

C70
15
6.3V

C66
15
6.3V

C71
15
6.3V

3

LD(VA) IN

1

AT,1-20

IIC CLK

2

MB,11-18(BVP-500)

IC25
TC7S04FU(TE85R)

R W SHADING IN

66

MB,7-18(BVP-550)
MB,11-18(BVP-500)

G W SHADING IN

65

MB,7-19(BVP-550)
MB,11-19(BVP-500)

B W SHADING IN

64

MB,7-17(BVP-550)
MB,11-17(BVP-500)

W SHADING GND

63

MB,7-16(BVP-550)
MB,11-16(BVP-500)

CN1(2/100)

R123
100

3

R91
10k

5

IIC DATA

5
25

IC27
TC7S08FU(TE85R)
CN1(66/100)

7
19

5V

6

-5V
4
19
13

IC19(4/4)
TL074CPW-E05

R92
10k

3
1

11

19
2

10
8
19

IC23(1/4)
SN74HC08APW-E05

IC5(1/2)
TC74HC4538AFS-EL

+2.5V
PRE BLKG
CLP 1

16
8
9

1/2
1/2
1/2

CLP 3
CLP 2
NAM

11
10
15

1/2
1/2
1/2

GSL 2
GSL 1
KNEE SEL

9

R93
10k

4
5
6

1/2
1/2
1/2

CN1(63/100)

IC19(3/4)
TL074CPW-E05

4

L
M
N

IC5(2/2)
TC74HC4538AFS-EL

R28
10k

CN1(64/100)

IC19(2/4)
TL074CPW-E05

-5V

IC23(4/4)
SN74HC08APW-E05

CN1(65/100)

12

14

IC7
TC7S32FU(TE85R)

IC6(2/4)
TL074CPW-E05

IC6(3/4)
TL074CPW-E05

R29
8.2k

4

C40
6.8
6.3V

7

5
6

1/2
1/2
1/2

12
13
14

IC6(4/4)
TL074CPW-E05

R35
100
R32
:N'M

C26
150p

MB,7-21(BVP-550)
MB,11-21(BVP-500)

C27
100p

1

5

15

14 16

4
2
R38
1k

2

1
3

Cx

D7
HSM107S-TL

CxRx
Q

4

11

R25
10k

6

12
11

CX CXRX VCC
Q

3

10

RD

8
9

CN1(80/100)

R33
:N'M

CN1(77/100)

Q
GND

13

12

BLK SHAD
BLK SHAD
BLK SHAD
SHADING GND

78
79
80
77

MB,7-23(BVP-550)
MB,11-23(BVP-500)
MB,7-22(BVP-550)
MB,11-22(BVP-500)

R37
100

5

14
13
11
R31
2.2k

C31
100p

B
G
R
B

MB,7-20(BVP-550)
MB,11-20(BVP-500)

8

3
R26
2.2k

CN1(79/100)

7
Q
RD

R27
1k

12
R39
1M

CN1(78/100)

R36
100

9

5

5

10

R30
10k

5

2
1

13

R34
:N'M

C30
0.1

C32
0.1

VA-163 (2/2)

-5V

BOARD NO. 1-657-438-12
LOT NO. 509B-¥BVP550-VA163-12

8-5

BVP-550

I

2

4 3

9
10
11
12
13
14
15
16

4 3

MB,7-3(BVP-550)
MB,11-3(BVP-500)

-2.5V

2
R51
1k

MB,7-4(BVP-550)
MB,11-4(BVP-500)

26
25

TEST SAW(X) IN
TEST SAW(G) IN

R119

15

R80
4.7k
D10
1SS302-TE85L

IC14
TC7S66FU(TE85R)

18

1
2

16
3
5

B
1

1/2

1

-2.5V

Q11
XN6501-TW

R104
4.7k

R103
43k

R98
8.2k

5V

IC9(4/4)
LM339NS-E20

R106
4.7k

17

TEST SIG

IC22(3/3)
TC74HC4053AFS-EL

8
15

14
22

R117
2.7k

R110
2.7k

10

IC15(4/4)
TL064CPW-E05

R77
33k
C58
1
25V

5
12

R74
0

C53
470p

10

12
13

R79
4.7k

13
R60
47k

C51
6.8
6.3V

5V

11

RV50
5k

IC23(3/4)
SN74HC08APW-E05

2

R82
4.7k

12
C47
0.001

23

R69
2k

14
8

9

IC9(3/4)
LM339NS-E20

R50
10k

C57
1
25V

12

8
C43
0.1

9 10

IC17(2/3)
TC74HC4053AFS-EL

12

C55

R113
100

R107
2.2k

16

-5V

10

14

9

14

IC15(3/4)
TL064CPW-E05

R76
33k

11 0.1

IC13
TC7S66FU(TE85R)

5V

R73
0

6

9

IC9(2/4)
LM339NS-E20

R45
1.5k

4

2

1

12
13
17

0.1

5

6

11

8

15
9

R81
4.7k

15

C42
0.1

R44
1.5k

TEST

10

R67
2k

1

7

IC17(1/3)
TC74HC4053AFS-EL

R78
4.7k
D8
1SS302-TE85L

2

5

IC9(1/4)
LM339NS-E20
R48
10k

R61
1M

5V

4

R75
33k
C56
1
25V

5V C54

9

R72
0

C52
0.047
:FILM-C

R59
47k

-5V

2
C41
0.1

R66
1k

1

12

2

7
12
5V

R109
10k

IC15(2/4)
TL064CPW-E05

3

5V

Q13
XN6501-TW

1

5V
2.5V R56

R41
100

1

5V

IC10
TC7S04FU(TE85R)

J

K

L

8-5
M

N

O

P

AT-95

1

AT-95

AT-95 BOARD
————————————
AT-95 (1-657-448-12)
————————————
*: B SIDE
BT1

B-4

CNI36 F-2

2

3

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

4

*
*
*
*

*
*
*
*
*
*
*
*
*
*

5
*
*
*
*
*

CN1

C-1

D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D12
D13
D15
D16
D17
D18
D19
D20
D21
D22

A-2
B-4
A-2
A-2
A-3
B-3
B-3
A-3
A-3
A-3
A-4
B-4
B-3
G-4
G-4
G-4
G-4
G-1
C-2
G-3

IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC21
IC22
IC23
IC24
IC25
IC26
IC27
IC28
IC29
IC30
IC31
IC32
IC33
IC34
IC35
IC37
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48

F-1
G-2
G-1
A-2
B-2
B-4
B-2
A-2
B-3
B-4
C-2
B-2
C-3
D-4
D-2
D-4
D-4
D-4
D-4
D-4
D-4
E-3
E-3
D-4
E-2
E-4
F-4
G-3
G-2
F-2
B-2
B-2
C-2
C-4
E-4
C-3
E-4
D-2
C-3
D-3
D-3
D-3
D-2
G-4
E-2
G-2

L1
L2

B-1
F-1

Q1
Q2
Q3
Q4
Q5
Q6

A-2
F-2
B-1
C-1
B-1
B-1

RV1

C-3

S1

E-3

8-6
A

B

C

8-6
D

BVP-550

E

F

G

H

AT-95 (1/2)

AT-95 (1/2)

BVP-550 (SY)

1

3
2
1

2/2

-2.8V
A GND
+7.3V

IC4(1/4)
TL064CPW-E05

Q1
2SB624-T1BV3
5V

92
91

+5.1V IN
+5.1V IN

CN1(92/100)

C8
100
6.3V
:AL

L1
0.47µH

89

C9
0.1

R20
100

2.5V REF IN
GND
GND
GND
GND

C18
0.1

CN1(99/100)

-2.8V IN
-2.8V IN

88
87

-5.1V IN
-5.1V IN

10

4
8

R16
100

4
9

C13
33
16V
:TA

C12
33
16V
:TA

C11
0.1

D1
RD4.3UH-T1

1
2
3
4

R19
1k

R15
C10 0
0.1
C14
0.1

C15
0.22
5.5V

C16
0.1

BT1

VOUT

4

2/2

CS
≠≠
≠
≠≠≠
RES
≠≠

5
6

2/2
2/2

RES

7

2/2

8

CS

7
6
5

RES

VBAT

6
VIN

GND

CT

RES

C17
6.8
16V
:TA

R22
22k
:RN-C

CN1(98/100)
CN1(97/100)

C19
100
6.3V
:AL

R23
5.6

CN1(86/100)

86
85

R18
20k
:RN-C
R21
100
:RN-C

11
CN1(100/100)

A
A
A
A

IC6
M62021FP
BACK UP V

CN1(89/100)

100
99
98
97

D2
1SS302-TE85L R14
1k

CN1(91/100)

R17
1.2M

MB,12-18(BVP-500)/MB,51-18(BVP-550)

5V
R13
0

C20
0.1

CN1(85/100)

IC7(2/2)
TC74HC4052AFS(EL )

IC5(1/4)
TL064CPW-E05

IC5(2/4)
TL064CPW-E05

IC4(2/4)
TL064CPW-E05

IC7(1/2)
TC74HC4052AFS(EL )

CN1(88/100)
CN1(87/100)

16
CN1(75/100)

IF,870-19(BVP-500)/IF,1-19(BVP-550)
IF,870-18(BVP-500)/IF,1-18(BVP-550)
IF,870-17(BVP-500)/IF,1-17(BVP-550)
IF,870-20(BVP-500)/IF,1-20(BVP-550)

75
74
73
72

R PEAK IN
G PEAK IN
B PEAK IN
PEAK GND

96
95

D GND
D GND

CN1(74/100)

1
5

CN1(73/100) R25 1k
CN1(72/100)

2
4

12

8

7

C21
100p

R26
100

5

8

7

5

7

4

R28
56k
:RN-C

7

13

R29
1M

R31
15k

5

B

6 10

9

2 :RN-C

1 8

P93
P92

8
9

2/2
2/2

P94

10

2/2

L

11

2/2

N

12

2/2

AN0
R32
33k

4

3

AN7

D4
HSM107S-TL
A

5V
R30
3k
:RN-C

CN1(95/100)

7

14
15
11

6

5
11

9

C22
0.1

5

6

4
10
3

CN1(96/100)

2

D3
HSM107S-TL

IC8
TC7S66FU(TE85R)

IC5(3/4)
TL064CPW-E05
CN1(70/100)

MB,15-14(BVP-500)/MB,22-14(BVP-550)

70

R34
1M

3

1

C23
0.1

R39
1M

R33
2.7M

12

3

ND FILT IN

5

5

14

5

12

1

4

13

2

IC4(4/4)
TL064CPW-E05

IC4(3/4)
TL064CPW-E05

IC5(4/4)
TL064CPW-E05

D6
IC9(1/4)
TL064CPW-E05 HSM107S-TL

14
4

AN5

7

9

2

6
13

69
51

CC FILT IN
TAPE REM IN

R37
3.3M
D5
1SS302-TE85L
R35
R36
1M
1M

C25
0.1

R38
CN1(69/100) 1M

MB,15-15(BVP-500)/MB,22-15(BVP-550)
MB,22-12(BVP-550)

CN1(51/100)
C24
0.1

CN1(67/100)

LENS,102-12(BVP-500)/MB,32-4(BVP-550)

67
90

IRIS POSI IN
+9.3V IN

CN1(90/100)

IC9(3/4)
TL064CPW-E05

D9
:N'M
R12
5.6
R42
680

CN1(68/100)

MB,15-16(BVP-500)/MB,22-16(BVP-550)

68

3

D7
HSM107S-TL

AN2

IC9(2/4)
TL064CPW-E05

10

TEMP IN

4

R40
10k
:RN-C

8

9

12
11

D8
HSM107S-TL

R45
2.2k

D11
HSM107S-TL

R41
22k
:RN-C

9

C27
0.1

D10
HSM107S-TL

R43
1k

14

9

AN3

13
C26
0.01

R47
10k
:RN-C

R46
1k

C28
0.01

R48
12k
:RN-C

R44
6.8k
:RN-C

AN4
C29
0.1

IC11(1/2)
NJU7022M-TE2

CN1(64/100)

LENS,102-13(BVP-500)/MB,32-6(BVP-550)

64

ZOOM POSI IN

MB,12-13(BVP-550)

47

AUDIO LEVEL IN

IC11(2/2)
NJU7022M-TE2
IC9(4/4)
TL064CPW-E05

CN1(47/100)

R51
1k
C30
0.1
C31
3.3
10V
:TA

D13
HSM107S-TL

D12
HSM107S-TL

5

8

3

11
11

1

R49
10k
:RN-C

R50
22k
:RN-C

D14
:N'M

3

6

R52
1k

2

9

1

4

R53
100

2

4
C32
0.0022

D15
HSM107S-TL

7

R59
820

RV1
5k

C34
1
35V
:TA

R54
18k

R56
1.8k

R60
680k

R57
10k
:RN-C

C33
0.01

R55
6.8k
C35 :RN-C
0.01

R58
12k
:RN-C

AN6
AN1

C36
0.01

AUDIO

IC12(2/2)
NJU7022M-TE2

IC13
MB88351PFV-ER

IC12(1/2)
NJU7022M-TE2
1

3

8
12

2
3

R61
560k

1

12

4

7

6

R164
300k
1/16W
C40
4.7
25V
:TA

4
5
6
7
8

5

2

R63
560k

R64
270k

R165 R62
330k
3k
1/16W
C39
0.01

R65

9
10

5V
C37
0.1

R66
1k

GND
VSS
NC
NC
NC
NC
DI
AO1
13
CLK
AO2
LD
AO3
DO
AO4
NC
NC
NC
NC
VDD
VCC

20
19
18
17
16
15
14
13

P30
P31
P32

M

61

IRIS CONT OUT

2/2

C38
0.1

5

AT-95(1/2)

C41
0.01

LENS,102-17(BVP-500)

13

12
11

B-¥ BVP550-AT95-12

CN1(61/100)

AT-95 (1/2)
BOARD NO. 1-657-448-12
LOT NO. 509B-¥BVP550-AT95-12

8-7

BVP-550

AI

J
B

K
C

LD

8-7
M
E

NF

O
G

P
H

AT-95 (2/2)

AT-95 (2/2)

BVP-550 (SY)

5V
R1
5.6

Q2(1/2)
IC2(1/2)
Q2(2/2)
IC2(2/2)
XN6501-TW TC7W02FU(TE12R) XN6501-TW TC7W02FU(TE12R)
1

8
27

CN1(7/100)

1
3
-10VOUT C1C2VCC 16
1
L2
GND
C1+
4.7µH
2
C2+ +10VOUT

C6
0.1

C80
0.1

1

IC14(2/3)
TC7W04FU(TE12R)
2

14
13

12

R161
2.7M

14

5

3

3
14

IC14(3/3)
TC7W04FU(TE12R)

CHU DATA OUT

5

MB,12-26(BVP-550)/AU-211,1-13(BVP-500)

CN1(6/100)

CCU CONT IN

6

MB,12-25(BVP-550)/AU-211,1-9(BVP-500)

CN1(8/100)

NC(VA4)
NC(SG22)
NC
NC(LENS11)
NC(PR102)
NC(LENS12)

8
21
54
59
71
82

4

CN1(21/100)
CN1(54/100)

ROUT0

NC

TEST1

SEL

ADR7

TEST0

RVD

WRN

A0

CN1(59/100)

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

ROUT1

ADR6

ROUT2

ADR5

ROUT3

ADR4

ROUT4

ADR3

ROUT5
ROUT6

ADR2

ROUT7

ADR1
ADR0

VDD

35
VDD

VSS

VSS

TVD

BRD1

IVH

BRD0

BCKO

BTVD

NC

NC

NC

VDD

RIN0

VSS

RIN1

5V

CN1(71/100)
CN1(82/100)

IC33
TC74VHC163FS(EL)

3
4
5
6

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
C47
0.1

9
3
4
5
6
8
1
2 32
4

33

7 EN1
CO 15
10 EN2
GND RD

IC35
CXD8889R

IC34
TC74VHC163FS(EL)

9 16
LD VCC 14
QA
QB 13
QC 12
QD 11

A
B
C
D

2

RIN2

TP4

RESE

XTAL
EXTAL
P97/SCK
P96/RXD
P95/TXD
P94/PW3
P93/PW2
P92/PW1
P91/FTOA3
P90/FTOA2

P20/AS
P17/TMO
P16/IRQ1
P15/IRQ0
P14/WATT
P13/BREQ
P12/BACK
P11/E
P10/0

49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64

AN7
AN6
AN5
AN4
AN3
AN2
AN1
AN0

RIN3

P30/D0
P31/D1
P32/D2
P33/D3
P34/D4
P35/D5
P36/D6
P37/D7

16

5
6 32

3

A
B
C
D

5V

16

C46
0.1

LD VCC 14
QA
QB 13
QC 12
QD 11
34

7

7 EN1
CO
10 EN2
GND RD

15

8 1
8 1

C48
6.8
16V
:TA

C49
0.1

IC32(1/2)
IC32(2/2)
TC7W02FU(TE12R) TC7W02FU(TE12R)

A0
A1
A2
A3
A4
A5
A6
A7

A8
A9
A10
A11
A12
A13
A14
A15
A16
A17

21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40

3

CN1(5/100)

R74
4.7k

3

RIN4

D0
D1
D2
D3
D4
D5
D6
D7

60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41

AVCC
P87/AN7
P86/AN6
P85/AN5
P84/AN4
P83/AN3
P82/AN2
P81/AN1
P80/AN0
AVSS
P77/FTOA1
P76/FTOB3/FTCI3
P75/FTOB2/FTCI2
P74/FTOB1/FTCI1
P73/FTI3/TMRI
P72/TFI2
P71/TFI1
P70/TMCI
VCC
P63/A19

RIN5

≠≠≠
RES
≠≠

P21/R/ W
P22/DS
P23/RD
P24/WR
VCC
MD0
MD1
MD2
STBY
RESET
NMI

RIN6

6

IF,1-26(BVP-550)/IF,870-26(BVP-500)
SG,1-21
IF,1-25(BVP-550)/IF,870-25(BVP-500)

C43
0.1

RIN7

RES

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

D0

P94

7

C45 0.1

10

1/2
1/2

RD
WR

P93

1/2

46
23
45

R76
100

2
3

3

D0
D1
D2
D3
D4
D5
D6
D7

8

CN1(45/100)

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

C44
0.1

P50/A8
P51/A9
P52/A10
P53/A11
P54/A12
P55/A13
P56/A14
P57/A15
P60/A16
P61/A17
P62/A18

P92
5V

1/2

R73 4.7k

PEAK RST OUT
V RESET OUT
WINDOW OUT

R77
100

P40/A0
P41/A1
P42/A2
P43/A3
P44/A4
P45/A5
P46/A6
P47/A7

2

CN1(23/100)

15 8

80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61

9

CN1(46/100)

R72 1k

16

5
6

7

C7
1.5
25V
:TA

IC16
HD6475328F10

1/2

56

R71 4.7k

R75
4.7k

IC3(3/4)
TC74VHC157FS(EL)

R163
0

R162
0

55

18M(G)IN

IC3(4/4)
5V
TC74VHC157FS(EL)

6

VDD

+7.3V
A GND
-2.8V

R10
22k

11

3

VSS

1
2
3

C5
1.5
25V
:TA

6

18M(X)IN

CN1(56/100)

5

RD

4
C4
0.1

5V

D20
1SS302-TE85L

12
10

2 D S Q
1
15
4 GND
Q
R
7

VSS

C3
0.1

9

4
9

VDD

6
5
15

ROUT2
ROUT1
T2IN
T1IN

3

RDN

7
14
R11
100k

RIN2
RIN1
T2OUT
T1OUT

10
11

4

C2
0.001 5

1

D7

8
13

CN1(3/100)

C1
100p

1/2
1/2
1/2

14

CN1(55/100)

IC15
6 8 TC7W74FU(TE12R)

CSN

RM SD OUT

R8 R9
4.7k 10k

TP1

C42
0.001

8
7

D6

3

6

CN1(4/100)
R3
6.8k
R7
100

CN1231,12-2(BVP-500)

R70
1M

3

CLK

RM SD IN

5
4

3

D5

4

R6
1k

IC1
MAX202CSE-TE2

R4
100

5V

D4

MB,41-8(BVP-550)
CN1231,12-1(BVP-500)

5V

IC14(1/3)
TC7W04FU(TE12R)

R2
10k

D3

R5
100

2
1

A0
A1
A2

CA DATA IN/OUT

7

IC3(1/4)
IC3(2/4)
TC74VHC157FS(EL) TC74VHC157FS(EL)

CN1(93/100)

A2

CN1(94/100)

A1

+7.5V IN
+7.5V IN

D2

94
93

MB,41-7(BVP-550)
MB,12-15,16(BVP-500)

D1

MB,12-24(BVP-550)
MB,12-15,16(BVP-500)

WR

1

AN3
1/2

11

L

IC38
HD151015TEL

5V
R78
10

R79
3.9k

IC18
TC7SH02FU-TE85R

3

IC22
TC7SH32FU-TE85R

IC24
TC74VHC138FS(EL)

A14
A13
A12
A11

1
2
4
5

C54
0.1

6
4

14
6

5
7

A
B
C

Y0
Y1
Y2
Y3
24
Y4
G1
Y5
G2A Y6
G2B Y7

15
14
13
12
11
10

A7

A14

A6

A13

A5

A8

A4

A9

36

A3

A11

A2

G

A1

A10
E

A0

DO8

DO1

9
7

DO2

3

IC23(1/2)
TC74VHC20FS(EL)

4

9 10 12 13

16
1
2

A6
A5
A4

20
19
18
17
16
15
14

1
2
A14
A13
A8
A9
A11

29
28
27
26
25
24
23
22
21

2

24 1

DIR
B0

A0

B1

A1

B2

A2

3

21

IC37
TC7SH08FU-TE85R

IC36

A7 5
A6 6
A5 7
A4 8
A3 9
A2 10
A1 11
A0 12
13

22

B3

A3

38

B4

A4

B5

A5

B6

A6

B7

A7

B8

A8

5

12 23 13

R89
47k

4

10
11

C50
10
6.3V
:TA

+3.3V IN
+3.3V IN

84
83

DB
DB
DB
DB
DB
DB
DB
DB

0(PR)
1(PR)
2(PR)
3(PR)
4(PR)
5(PR)
6(PR)
7(PR)

32
33
34
35
36
37
38
39

MB,6-54(BVP-550)/MB,10-54(BVP-500)
MB,6-56(BVP-550)/MB,10-56(BVP-500)
MB,6-58(BVP-550)/MB,10-58(BVP-500)
MB,6-60(BVP-550)/MB,10-60(BVP-500)
MB,6-62(BVP-550)/MB,10-62(BVP-500)
MB,6-64(BVP-550)/MB,10-64(BVP-500)
MB,6-66(BVP-550)/MB,10-66(BVP-500)
MB,6-68(BVP-550)/MB,10-68(BVP-500)

R93 10 CN1(40/100)
R94 10 CN1(29/100)

RD(PR)
WR(PR)
CE0(PR)
CE1(PR)

31
30
40
29

MB,6-52(BVP-550)/MB,10-52(BVP-500)
MB,6-50(BVP-550)/MB,10-50(BVP-500)
MB,6-70(BVP-550)/MB,10-70(BVP-500)
MB,6-48(BVP-550)/MB,10-48(BVP-500)

R95 10 CN1(42/100)
R96 10 CN1(41/100)

A0(PR)
A1(PR)

42
41

MB,6-72(BVP-550)/MB,10-72(BVP-500)
MB,6-74(BVP-550)/MB,10-74(BVP-500)

R80 10 CN1(32/100)
R81 10 CN1(33/100)
R83 10 CN1(34/100)
R84 10 CN1(35/100)
R85 10 CN1(36/100)
R86 10 CN1(37/100)
R87 10 CN1(38/100)
R88 10 CN1(39/100)

R90
47k

3
1
RD
WR

2
4
17

RD
A10

A0
A1

20

EN
A1

X1

A2

X2

B1

Y1

15 B2
13 B3
11
B4
6

Y2

39
Y3

18
16
3
5
7
9

R91 10 CN1(31/100)
R92 10 CN1(30/100)

Y4
X3

A3

8

X4

A4

14
12

EN

14 15 16 17 18 19 20

C55
0.1

4
5
6
7
8
9

C52
0.1

G

4 3 2 1 32 31 30

C53
0.1

8

5V

IC19
TC7SH04FU-TE85R

A17

IC23(2/2)
TC74VHC20FS(EL)
NC

4

PGM

3

5V

5

VCC

2

2

1
2

3

4
3

3

4

5

DO7

5

A15

4

VDD

3
5 1

4

1
2

5

DO6

IC17
TC7S32FU(TE85R)

1
2

DO5

4

DO4

5

1
2

BACK UP V

A12
A15
A16

4

≠≠
CS
≠

A16

1/2

5V

R82
6.2k

IC21
TC7SH02FU-TE85R

A15

5

IC20
TC7SH08FU-TE85R

A12

1/2

D0
D1
D2
D3
D4
D5
D6
D7

N

GND

12

DO3

1/2

CN1(84/100)
CN1(83/100)

C51
0.1

8

10

19

1/2

13

D7

D3
D4
D5
D6

D1
D2

D0

IC39
TC74VHC244FS(EL)

M

5

8-8
A

B

C

8-8
D

BVP-550

E

F

G

H

AT-95 (2/2)

AT-95 (2/2)

1

5V
D21
1SS302-TE85L R100
10k

R97
100k

R101
10k
CN1(2/100)
CN1(1/100)

WR

R98
100k

D0
D1
D2
D3
D4
D5
D6
D7

WE

I/05

26
I/04

VCC

GND

A14

I/03

A12

I/02

A7

I/01

A6

A0

A5

A1

A4

A2

A3

P07

NC

WR

P06

P05

P04

P03

P02

P01

RD

4
5
6
7

A14
A12
A7
A6
A5
A4
A3

6
7
8
9

RESET

GND

D0

A1

D1

A0

D2

27

P27

D3

P26

D4

P25

D5

P24

D6

10 P20
11 P21

VDD

D7

33
32
31
30
29
28
27
26
25
24
23

D0
D1
D2
D3
D4
D5
D6
D7

D22
1SS302-TE85L

CN1(24/100)

5
6
7
8
12
13
14
15
17
16

CD0

VDD

CD1

VCC

CD2

CO

CD3

20
10
19
18
4
9
11
2
3
1

BO

CD4

NC

29
CD5

NC

CD6

NC

CD7

A

STB

B

OE

RST

IC40(1/2)
TC74VHC74FS(EL)

IC42
IC40(2/2)
TC74VHC163FS(EL)
TC74VHC74FS(EL)
IC41
IC43(1/3)
TC7S86FU(TE85R)
TC7W04FU(TE12R)

5V

4

9

SD
5
2
D
Q
3
40
6
Q

C59
0.1

1
2

5
41

3 A
4
B
5 C
6
D

4

3

RD

C60
0.1

1
2

C61
0.1

5
1
2 31

RD
1 5
2 30

WR

12 13 14 15 16 17 18 19 20 21 22

2
1
24
44

MB,41-9(BVP-550)/SW795,1-2(BVP-500)
MB,41-10(BVP-550)/SW795,1-1(BVP-500)
MB,6-49(BVP-550)/MB,16-4(BVP-500)
SG,1-50(BVP-500)

14
13
9
12 D SD VCC
Q
11
40
8
7

16

LD VCC 14
QA
13
QB
12
QC
11
QD
42

IC43(2/3)
IC45
TC7W04FU(TE12R)
TC7W74FU(TE12R)
IC44
IC43(3/3)
TC74VHC163FS(EL)
TC7W04FU(TE12R)

C57
0.1

5
6

10

2

RD

16
LD VCC 14
QA
13
QB
12
QC
11
QD
44

A
B
C
D

4

Q

GND

9

C58
0.1 3

82

6 43

6 8
5
2 D SD VCC
Q

R103
1k

1
4

4

45
3
GND

Q
RD

7

15
7 EN1
CO
10
EN2
GND RD
1
8

4

1

7
15
EN1
CO
10 EN2
GND RD
8 1
R104

7

2

3
43

5

100k

3
4

3
CN1(22/100)

A HD IN
HD IN

22
43

MB,6-47(BVP-550)/MB,10-47(BVP-500)
SG,1-49

CHAR BACK OUT
TITLE BACK OUT

27
25

DA,1-50/IF,1-8(BVP-550)
DA,1-50/IF,870-27(BVP-500)
MB,6-42(BVP-550)/MB,10-42(BVP-500)

CHAR VF OUT
TITLE OUT

28
26

DA,1-51/IF,1-7(BVP-550)
DA,1-51/IF,870-7(BVP-500)
MB,6-40(BVP-550)/MB,10-40(BVP-500)

LD(TG)
LD(CCD)
LD(VA)
IIC CLK(SW)
IIC DATA(SW)
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(CA)
LD(DA)
LD(SG)
LD(IF)

18
16
20
13
14
11
12
9
10
17
19
15

MB,23-16(BVP-550)/MB,16-16(BVP-500)
MB,23-15(BVP-550)/MB,16-15(BVP-500)
VA,1-1
MB,IC5-6
MB,IC5-5
MB,12-27(BVP-550)/SW795,1-6(BVP-500)
MB,12-28(BVP-550)/SW795,1-5(BVP-500)
MB,12-29(BVP-550)/SW795,1-4(BVP-500)
MB,12-30(BVP-550)/SW795,1-3(BVP-500)
DA,1-1
SG,1-1
IF,1-1

RET EN OUT
TALLY ON OUT
REC TALLY IN
VTR RST IN
VTR S/S TRIG IN
RET SW IN
EX ON IN
ZEBRA ON

50
58
57
53
65
66
63
81

CN1(76/100)

AUTO +5V OUT
REM/LOCAL
VF 16:9/4:3 OUT

60
62
76

MB,32-8(BVP-550)
MB,32-9(BVP-550)
MB,31-A6(BVP-550)/VF,103-25(BVP-500)

CN1(78/100)

ABNORMAL OUT

78

MB,31-B4(BVP-550)

CN1(77/100)

G TALLY OUT

77

MB,31-A5(BVP-550)/VF,103-23(BVP-500)

CN1(52/100)
CN1(48/100)

VTR S/SOUT
PB REF IN

52
48

MB,12-6(BVP-550)/MB,18-A8(BVP-500)
IF,1-45/MB,12-17(BVP-550)
IF,870-45/DM98,2-16(BVP-500)

CN1(49/100)

BATT ALARM IN

49

MB,12-5/MB,31-A4(BVP-550)/AU,1-42(BVP-500)

CN1(80/100)

VF RGB OUT

80

MB,31-B7(BVP-550)

CN1(79/100)

NC(VF 7)

79

CN1(43/100)

IC30
TC7SH02FU-TE85R

WR

RD
P30
P31
P32
P33
P34
P35
P36
P37

RE A
RE B
A VD IN
VD IN

5V

5V

TP5

C62
0.1

R102
1k

5V

P17

A13

NC

CS

P16

I/06

A1
A0
P27
P26
P25
P24
P20

NC

P15

A8

1
2
3
4
5

P14

A9

I/07

A11
A9
A8
A13

P13

I/08

22 RD
23
24
25
26
27 WR
28
1
2
3

NC

A11

P12

OE

CE

P11

A10

P12

A10 21
20
19
18
17
16
15
14
13
D2
12
D1
D0
11
10
A0
9
A1
A2
8
D7
D6
D5
D4
D3

P13
P14
P15
P16
P17

TP

P10

14
13
WR
SO
S1
CS 12
4 SC 25 CS 11
5 NC
10
NC
6 NC
9
NC
8
7 NC
VDD
VSS

P23

1
2
3

P22

C56
0.1

P22
P23
P10
P11

C71
15
16V
:TA

IC26
CXK58257ATM-70LL

P00

44 43 42 41 40 39 38 37 36 35 34

IC25
RTC-4553B

R99
100k

CN1(44/100)

IC29
µPD4702G

P04
P05
P06
P07

RD
P00

P01
P02
P03

IC27
µPD71055GB-10-3B 4

R105
100

IC31
TC7SH32FU-TE85R

D16
1SS302-TE85L

D17
1SS302-TE85L

D18
1SS302-TE85L

D19
1SS302-TE85L

P07

NC

WR

P06

P05

P04

P03

P02

P01

A1

D1

A0

D2

28

P27

D3

P20

D7

P21

VDD

P17

D6

P16

P24

P15

D5

P14

D4

P25

P13

P26

P22

7
8
9
10
11

D0

NC

R109
47k

RESET

GND

P12

R108
47k

NC

CS

P11

R107
47k

NC

P10

R106
220k

A1
A0

P23

1
2
3
4
5
6

5V

P00

RD

44 43 42 41 40 39 38 37 36 35 34

33
32
31
30
29
28
27
26
25
24
23

IC47
µPD6453GT-610

D0
D1
D2
D3
D4
D5
D6
D7

TP3

IC46
X24164SIC7000
1
2
3
4

5V

S0

VCC

S1

TST

46
S2

SCL

GND

SDA

TP2

8
7

C63
0.1

P03
P14
P15
P16

1
2
3
4

6
5

5
7
8

C65
0.1

9

12 13 14 15 16 17 18 19 20 21 22

IC28
µPD71055GB-10-3B 4

5V

6
V DD
BUSY
HD
CLK
VD
47
CS
BBLK
DATA GBLK
PCL
RBLK
VCBL
CKOUT
VB
OSCOUT VG
OSCIN
VR
VMON
GND
10

20
19
18
17
16
15
14
13
12
11

C64
0.1
R110
2.2k
CN1(27/100)
CN1(25/100)
R111
2.2k
R114
2.2k

R113

R112

CN1(28/100)
CN1(26/100)

3

R115
2.2k
R117

R116

5V
P33
P34
P35

8
P36
P37

48

7
6
5

CN1(16/100)

R120 100

CN1(20/100)

R121 100

CN1(13/100)

R122 100

CN1(14/100)

R123 1k

CN1(11/100)

R124 1k

CN1(12/100)

R125 1k

CN1(9/100)

R126 1k

CN1(10/100)

R127 100

CN1(17/100)
CN1(19/100)

R129 100

CN1(15/100)

R130 R131 R132 R133 5V
100k 100k 47k 47k

R135
47k

3
2
R136
47k

Q3(1/2)
IMH2-T110

P01

R144
47k

R134
47k

1
CN1(50/100)

P24
P20

C66
100p

CN1(18/100)

R119 100

R128 100

4
IC48
TC7W139FU(TE12R)

P27
R137
1k

1
2
3

R118 100

P22
P23

R138 100

CN1(58/100)

R139 1k

CN1(57/100)

R140 1k

CN1(53/100)

R141 1k

CN1(65/100)

R142 1k

CN1(66/100)

R143 1k

CN1(63/100)

P00

CN1(81/100)

4

Q4(1/2)
IMB2-T110

2

6

5V R147 R148

R160
1k

Q6(1/2)
IMH2-T110
CN1(60/100)

R145 100

P12
1
3
5
7

R146
100k

2
4
6
8

4

1

100k 100k

S1

IF,1-29(BVP-550)/IF,870-29(BVP-500)
IF,1-30(BVP-550)/IF,870-30(BVP-500)
IF,1-28(BVP-550)/IF,870-28(BVP-500)
MB,32-10(BVP-550)
MB,32-3(BVP-550)
MB,32-7(BVP-550)
MB,31-B6(BVP-550)

5

3
P13

MB,12-15(BVP-550)
MB,22-B6/MB,23-B6/LENS,102-32/DM98,2-19(BVP-500)

R149
100k

P04
P05
P06
P07

CN1(62/100)

1
P11

Q5(1/2)
IMH2-T110

2

Q4(2/2)
IMB2-T110

P25

6
3
5
4
4

P10

Q5(2/2)
IMH2-T110

5

R150
100

6

P26
P02

R151
1k
C67
100p

C68
100p

C69
100p

R152
47k

6

R154
10k

P17

5

Q3(2/2)
IMH2-T110

C70
100p

R155
100k

R153
100k

5

4

AT-95 (2/2)
BOARD NO. 1-657-448-12
LOT NO. 509B-¥BVP550-AT95-12

8-9

BVP-550

I

J

K

L

8-9
M

N

O

P

SG-234 (1/2)

SG-234 (1/2)

BVP-550 (SY)

SG-234 BOARD
———————————
SG-234 (1-657-449-12)
———————————
*: B SIDE

*
*
*
*
*
*

5

L1
L2
L4
L5
L6
L7
L8
L9

Q1
* Q2
* Q4
Q5
Q6
* Q7
Q8
* Q9
Q10
* Q11
* Q12
* Q14
Q15
* Q16
Q17
* Q18

4
8

25

16
25

IC25(2/8)
TC74VHC244FS(EL)

5

1

2 202

Q
RD

4
2 203

Q24
DTC144EUA-T106

IC35(8/8)
SN74HCT244APW-E0 5

3
3

7 13

1
5
4

11

9

L7
22µH

Q25
DTC144EUA-T106

Q200
DTC144EUA-T106

Q201
DTC144EUA-T106

7V

201

E-1
F-1
D-1
D-1
C-1
D-1

R68
10k
:RN-C
R67
27k
:RN-C

3
R129
220k

IC201
TC7S04FU(TE85R)
AT,1-13

2

IIC CK

CN1(2/100)

AT,1-14

3

IIC DATA

CN1(3/100)

AT,1-19

1

LD(SG) IN

CN1(1/100)

IC8(2/3)
TC7W04FU(TE12R)

R130
1M

R58
100 3

5

6

2

18
19
2
3
4
5
6
7
8
9
12
13
14

VDDVCC

C48
6.8
16V
:TA-C

8

8

11

10

IC8(3/3)
TC7W04FU(TE12R)

A01

C49
0.1

A02
A03

R59
100

A04
A05

A-2
B-4
F-1
D-3
F-1
D-3
F-2
A-2
F-4
D-3
F-1
F-3
F-4
E-2
E-2
C-2
D-2
D-3
D-4
D-4
C-4
C-3
D-3
D-3
C-3
D-3
D-2
C-3
B-3
D-2
A-3
B-3
A-3
D-1
D-1
D-1
D-1
A-4
B-4
B-4

R60 100

8

1
8

IC8(1/3)
TC7W04FU(TE12R)

A06

7

4

12

R61
270
:RN-C

A07
A08

16

8
R200
1k

1
2
3

V
A0

15
30

5
SDA

21
A1
A2
SCL
VSS CPE

A09

CK

6

D8
RD3.3UH-T1

R131
1M

A10

17
A11

D1

5

A12

15

R201
100k

R144
100k

R202
100k

Q24

D0

LD

4 7

IC30(7/8)
TC74VHC244FS(EL)

C50
4.7
10V
:TA-C

R69
13k
:RN-C

20

1

IC21
X24C02S-3.0-C700 0

R145
100k

Q25

VSSGND

IC12
MB88346BPFV-EF
IC30(8/8)
TC74VHC244FS(EL)

IC18
M51958A-T1

L8
22µH

84
83

3.1V
3.1V

CN1(84/100)
CN1(83/100)

20

R78
1k

C85
0.1

19

7
17

3

30

VCC

2

1

6

18
5

10

CD
GND

4
C56
0.22

C57
22
10V
:TA-C
C81
330
6.3V
:AL

C58
0.1

C82
0.1

C62
0.1

96
95

D GND
D GND

R70

R71
0

NC

NC

CLK

NC

PSW0

PSW1

D19

PSW2

6 30 13 14 15 16 17 18 20 21 44 38 37 42

D07

D17

D06

D16

16

D15

D05

D03

D12

D02

D11

D01

R77
0

N/P

D04

D13

INIT

D14

D10

26
27
28
29
31
32
33
34
35
36

D09
D08

D18

OEN

11
10
9
8
7
5
4
3
2
1

A-1
A-1
B-1
B-4
C-4
F-1
B-2
B-2

R80
100

C61

D00

19 43 39 41 22 23 24 45 46 47 48 25 12 40

CN1(96/100)

R79
10k
:RN-C

IC16
CXK1203AR-T4

CN1(95/100)

L9 4.8V-2
22µH

RB5(1/3)

DA,1-48

3

CN1(57/100)

57

36MHz OUT

4

5
4

MB,6-109(BVP-550)
MB,10-109(BVP-500)

61

DA,1-47
MB,10-110(BVP-500)/MB,6-110(BVP-550)
MB,6-5(BVP-500)/MB,14-13(BVP-550)

58
62
11

MB,IC4-2(BVP-550)

C83
0.1

36MHz(G) OUT
36MHz(G) IN
18MHz(G) OUT

D3
HSM88AS-TL

CN1(11/100)

IC45
TC7SH04FU-TE85R

6

5

18MHz(X) OUT

MB,10-108(BVP-500)/MB,6-108(BVP-550)
AT,1-56/DA,1-45
IF,1-33

60
56

18MHz(G) IN
18MHz(G) OUT

C93
0.1

R98
:RN-C

VCO CONT OUT
VCO CONT(G)

R99
33k
:RN-C

R101
1k
:RN-C

30

11
5

33

9

4

2

1

8

2

32

45

C78
0.1

CN1(60/100)

2

15
1

10

14

IC32(1/4)
TL064CPW-E05

CN1(66/100)

D

IC33(1/3)
TC74HC4053AFS-EL

11

R92
47

8-10

C72
15
6.3V
:TA-C

10

IC32(2/4)
TL064CPW-E05

CN1(56/100)

CN1(68/100)

68
66

R100
1k
:RN-C

C73
0.01

IC33(3/3)
TC74HC4053AFS-EL

MB,16-6(BVP-500)/MB,23-6(BVP-550)

5

R96
10k
:RN-C

R146
0

3

MB,16-5(BVP-500)/MB,23-5(BVP-550)

3

8 9 7

R147

IC30(6/8)
TC74VHC244FS(EL)

R90
47

CN1(55/100)

55

16
33
4
6

-4.8V 10k

18MHz(X) OUT

AT,1-55/DA,1-46
IF,1-34

3
32 2
11

18MHz(X) IN
CN1(12/100)

12

R97
10k
:RN-C

4

1

CN1(62/100)

CN1(59/100)

59

7V

R95
1k

C65
0.1

R122
1k

CN1(58/100)

9

C

C64
33
16V
:TA-C

CN1(61/100)

RB5(3/3)

B

IC32(3/4)
TL064CPW-E05
D10
HSM88AS-TL

R121
1M

36MHz IN

RB5(2/3)

MB,6-107(BVP-550)
MB,10-107(BVP-500)

IC31
2 TC7SH04FU-TE85R

31

3

A-2
A-2
B-2
A-4
A-4
B-4
A-4
A-4
C-4
A-4
C-3
C-3
C-4
A-3
A-3
C-4

A

200

6

18

6

5

1

6
35

2

C47
0.1

R62
100k

9
Q

NC

4

*
*
*
*
*
*

D

200
Q

SD

12
11

14

4

3

4

NC

*

5
Q

RD

2

RB1
RB2
RB3
RB4
RB5
RB10

SD
D

7

IC25(1/8)
TC74VHC244FS(EL)

8 1
11 2

14

11

PSW3

*

2
3

4

IC35(1/8)
SN74HCT244APW-E0 5

R65
220k

NC

*

R128
1k

R66
100k

PSW4

*
*

CN1(21/100)

3

NC

*

V RESET 2 IN

5
6 11

9

PSW5

*

21

4

14

5 1
20 2

16
13

12
13

8 10

R63
1k

PSB0

3

AT,1-23

10

4

13

5
3

2
1

15

C46
1

R149
0

R64
220k

D7
1SS301-TE85L

4.8V-2
R57
100k

7
13

IC11(2/2)
TC7W08FU(TE12R)

PSB1

*
*
*

CN1(19/100)

IC13(1/3)
TC74HC4053AFS-EL

PSB2

*

V RESET 1/CF OUT

IC202
IC203
TC7S32FU(TE85R) TC7S08FU(TE85R)

VSS

*

IC3
IC5
IC8
IC11
IC12
IC13
IC16
IC17
IC18
IC20
IC21
IC22
IC24
IC25
IC30
IC31
IC32
IC33
IC34
IC35
IC36
IC37
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48
IC200
IC201
IC202
IC203
IC204
IC206
IC207

C-2

19

IC200(1/2)
IC200(2/2)
TC74VHC74FS(EL) TC74VHC74FS(EL)

R127
1k

PSW6

FL1

IC11(1/2)
IC13(2/3)
TC74HC4053AFS-EL TC7W08FU(TE12R)
IC13(3/3)
IC20
TC74HC4053AFS-EL
TC7S08FU(TE85R)

SCLK

*
*

MB,12-16(BVP-550)
MB,18-B6(BVP-500)

R56
1k

VSS

*

2

A-2
A-2
E-2
A-1
B-3
B-4
D-3
F-1
C-2
C-3
A-3
D-1
A-3
B-4
E-3

D-4
A-3
B-3
G-4
F-1
F-1
D-3
E-1
F-2
A-4
A-4
B-4
A-3

CN1(36/100)

PSW7

*

D1
D2
D3
D4
D5
D6
D7
D8
D10
D11
D12
D13
D14
D200
D201

* Q20
* Q21
Q22
Q23
* Q24
* Q25
Q26
* Q200
* Q201
Q202
Q203
Q204
* Q205

N/P OUT

AEN

*

C-1

36

VDD

*

CN1

MB,6-106/IF,1-48(BVP-550)
MB,10-106/IF,870-48(BVP-500)
DA,1-41(BVP-550/500)

VDD

1

32

13
12

13
14
12
C84

33

IC33(2/3)
TC74HC4053AFS-EL

8-10

BVP-550

E

F

G

H

SG-234 (1/2)

SG-234 (1/2)

V RESET 2
N/P
H CONT
+4.8V
GND
OLD/NEW CA
VR DET
-4.8V
CABLE COMP
EXT SYNC
GENLOCK OFF
TRAP
EXT SC

1
2
3
4
5
6
7
8
9
10
11
12
13

1

2/2

2
IC35(2/8)
SN74HCT244APW-E0 5
Q20
DTC144EUA-T106

RB10

5
3
1
8

6
4
2
7

R124
100k

CN1(34/100)
CN1(32/100)
CN1(30/100)

TD1
TD0
TCK

34
32
30

DL SYNC OUT

23

DA,1-6(BVP-550/500)
IF,1-12(BVP-550)/MB,5-12(BVP-500)

DL BLKG OUT

25

DA,1-8(BVP-550/500)
IF,1-14(BVP-550)/MB,5-14(BVP-500)

CF OUT

7

MB,14-15(BVP-550)/MB,6-5(BVP-500)

VD OUT

9

MB,14-17(BVP-550)/MB,6-2(BVP-500)

HD OUT

6

MB,12-22(BVP-550)/MB,6-1(BVP-500)

16 35 4
Q20

IC25(5/8)
TC74VHC244FS(EL)
Q23
DTC144EUA-T106

IC42(1/8)
SN74HCT244APW-E0 5
IC25(4/8)
TC74VHC244FS(EL)

RB1(1/2)

2

IC42(2/8)
SN74HCT244APW-E0 5

4

IC30(1/8)
TC74VHC244FS(EL)
IC30(2/8)
TC74VHC244FS(EL)

D201
HSM88AS-TL
C52
C51
10
22
10V
10V
:TA-C :TA-C

R150
0

CLK SEL 1

VDD

20

HD
VD
SYNC

MODE SEL 1

BF

MODE SEL 1

BLKG

2
4
6
8
2
4
6
8

4
11
5
6
7

Q23

R123
10k
:RN-C

LALT

39
49
35

18M OUT

9
8

R81
100

SYNC2

H COM OUT 2

SAMPLE

COM OUT 1

FLD

COM OUT 2

CF

13
13

INT/EXT

ASET

TGC OUT

SDA

TST OUT

TST 7

TST 6

TST 5

TST 4

TST 3

TST 1

TST 2

INT SC IN

H PHASE3

H PHASE2

H PHASE1

H PHASE0

VBL WIDTH1

VBL WIDTH0

CLR

HBL WIDTH3

ACK

HBL WIDTH2

SCL

HBL WIDTH1

EXT SC IN

HBL WIDTH0

C60
0.1

27M IN

VSS

IC22
TC7SH04FU-TE85R

R84
100

36M IN

VSS

3

58
52
57
55
53

IC35(3/8)
SN74HCT244APW-E0 5
2

IC25(3/8)
TC74VHC244FS(EL)

18

26 27 28 29

32 33

64 65 66 67

14

3

C97
2.2
16V
:TA-C

20
17

8
35

35

1

CxRx
Q

R102
100k
:RN-C

10
5
15
35
7

13

3
6

1

35

4
5

5

Cx

CN1(41/100)
CN1(42/100)
CN1(43/100)
CN1(44/100)
CN1(45/100)
CN1(46/100)

42

2

IC39
TC7S86FU(TE85R)

36
7

CN1(10/100)

SAMPLE 1 OUT

10

MB,14-19(BVP-550)/MB,6-4(BVP-500)

4

3

CN1(18/100)

SAMPLE 3 OUT

18

VA,1-9

2

1

CN1(17/100)

SAMPLE 2 OUT

17

IF,1-4(BVP-550)/IF,870-4(BVP-500)
DA,1-4(BVP-550/500)

IC25(8/8)
TC74VHC244FS(EL)

R104
1k
:RN-C

5

SD

1
2

Q

39
3

4

2

1

C70
0.01

4

4

32

7

C71
1
35V
:TA

RD

R108
2.2k
:RN-C

R107
5.6k
:RN-C

C67
0.1

IC34(2/2)
TC4W66FU(TE12R)

IC37(2/2)
TC7W08FU(TE12R)

VD OUT

50

AT,1-44 / DA,1-43(BVP-550/500)
IF,1-39(BVP-550)/IF,870-39(BVP-500)

CN1(78/100)

R109
47k
:RN-C

CN1(35/100)

R148
100k

SC CONT OUT

INT/ EXT

OUT

78

MB,6-114(BVP-550)/MB,10-114(BVP-500)

35

MB,6-105(BVP-550)/MB,10-105(BVP-500)

R113
1M
FL1
R125

5

15

17

IC37(1/2)
TC7W08FU(TE12R)

CN1(50/100)

R114
47

2 5 4

-4.8V

IC36(1/2)
TC74HC4538AFS-EL

AT,1-43 / DA,1-44(BVP-550/500)
IF,1-40(BVP-550)/IF,870-40(BVP-500)

R112
47

1

52
43 1

C74
0.1

4

2

Q26
DTC144EUA-T106

42

3

C76
10
10V

IC42(7/8)
SN74HCT244APW-E0 5

3
C77
0.1

1

6
5
FG

IC35(6/8)
SN74HCT244APW-E0 5

49

3

4

IC35(4/8)
SN74HCT244APW-E0 5

HD OUT

12

42

IC34(1/2)
TC4W66FU(TE12R)

CN1(49/100)

R111
47

19

8
41

7
6

6
C69
0.1

MB,14-20(BVP-550)/MB,6-6(BVP-500)

1
5

R105
10k
:RN-C

4

R110
47

14

42

6

3

BLKG

10

R106
5.6k
:RN-C

40
3

CN1(4/100)

IC42(3/8)
SN74HCT244APW-E0 5
IC41
IC42(4/8)
TC4W53FU(TE12R) SN74HCT244APW-E0 5

IC32(4/4)
TL064CPW-E05

8 3 16

4

MB,6-51(BVP-550)/MB,10-51(BVP-500)
MB,6-53(BVP-550)/MB,10-53(BVP-500)
MB,6-55(BVP-550)/MB,10-55(BVP-500)
MB,6-57(BVP-550)/MB,10-57(BVP-500)
MB,6-59(BVP-550)/MB,10-59(BVP-500)
MB,6-61(BVP-550)/MB,10-61(BVP-500)
MB,6-63(BVP-550)/MB,10-63(BVP-500)
MB,6-65(BVP-550)/MB,10-65(BVP-500)
MB,6-67(BVP-550)/MB,10-67(BVP-500)

19

IC40
TC7S66FU(TE85R)

RD

8
6
3
5 37

MB,14-18(BVP-550)/MB,6-8(BVP-500)

R86
47

25

IC25(7/8)
TC74VHC244FS(EL)

5

38
Q

6

8
39
40
41
42
43
44
45
46
47

R134
47

9

11

25

8

D

1

SYNC OUT
NRW BLKG OUT
HD OUT
VD OUT
SYNC OUT
BF OUT
BLKG OUT
FLD 1 OUT
LALT OUT
2FH OUT

RB1(2/2)

42

8

7

3

4
3

17

5

2
CxRx
Q

CN1(39/100)

20

13

1

CN1(8/100)

CN1(40/100)

42

Q

34

11

10

7
1
2 37

5

30

6

10
9

6

12

6

15

IC38
TC7W74FU(TE12R)

36
RD

CN1(6/100)

1

5 4
Q

C68
4.7
10V
:TA-C

C66
0.1

1

IC42(5/8)
7 SN74HCT244APW-E0 5
IC42(6/8)
9 SN74HCT244APW-E0 5

14

15
12
11

2

14
30

RB2

7V

Cx

D11
1SS302-TE85L

34

CN1(9/100)

IC30(5/8)
TC74VHC244FS(EL)

7

C63
0.01

19

7 8
2

12

7

30

R103
47k
:RN-C

C96
0.1

8

16
30

25

18 19 36 43 48 56 60 76

IC36(2/2)
TC74HC4538AFS-EL

CN1(7/100)

SC COM

IC25(6/8)
TC74VHC244FS(EL)
IC35(7/8)
SN74HCT244APW-E0 5

3

C59
0.1

20

35

25

10 30 51 54 71

4

18
30

R85
47

15
16
17
12
14

NRWBLKG

34
50
25
23
24
22
42

VSS

4

CN1(25/100)

RB4

D1/PRE BLKG

H COM OUT 1

VSS

5
22

7

R133
0

13

VSS

2

CN1(23/100)

8

CN1(47/100)

2FH

27M OUT
36M OUT

5

16
42

1
3
5
7
1
3
5
7

24
62
63
44
45

8

6

RB3

D CONT

VDD

VDD

VDD

VDD

VDD

VDD

VDD

HR SEL

VR SEL

1 21 31 40 41 61 70 80

H RST IN

CLK SEL 0

V RST IN

EXT SYNC IN

77 78 79 3 2
LALT RST IN

D HD OUT

69 68
INT HD IN

72 73 74 75
TCK

59
37
38
46
47

6

IC30(4/8)
TC74VHC244FS(EL)

8
TD0

7

4

IC30(3/8)
TC74VHC244FS(EL)

12

R83
0

R82

25

IC24
CXD8858R

C53
0.1

N/P OUT

25

C99
0.1

TD1

13

C98
0.1

C54
0.1

R132
47k
:RN-C

2

18
42

C79
4p

R115
1k
:RN-C

FG

11

GND

9

8

10
3
12

R116
47

5

C75
0.1
CN1(76/100)

SC(X) IN

76

MB,6-112(BVP-550)/MB,10-112(BVP-500)

CN1(75/100)

SC(G) IN

75

MB,6-111(BVP-550)/MB,10-111(BVP-500)

7

IC43
TC7S00FU(TE85R)

IC42(8/8)
SN74HCT244APW-E0 5

IC35(5/8)
SN74HCT244APW-E0 5

SG-234 (1/2)
BOARD NO. 1-657-449-12
LOT NO. 509B-¥BVP550SG234-12

8-11

BVP-550

I

J

K

L

8-11
M

N

O

P

SG-234 (2/2)

1

SG-234 (2/2)

BVP-550 (SY)

94
93

7.3V
7.3V

Q1
2SB624-T1BV3

CN1(94/100)

IC3(1/4)
TL064CPW-E05
7V

L1
0.47µH

CN1(93/100)

C1
R9
1
36k
35V
:TA-C :RN-C
R10
20k
:RN-C

R3
0

Q1

4

5
6

7
3
D1
RD4.3UH-T1

CN1(13/100)
C3
4.7
20V
:TA-C

C2
10
20V
:TA-C

C4
0.1

R11
0

C5
0.1

C6
22
20V
:TA-C

CN1(14/100)

C7
0.1

CN1(15/100)
CN1(16/100)

5.1V
5.1V

92
91

CN1(92/100)

Q2
2SB624-T1BV3

L2
0.47µH

CN1(91/100)

CN1(20/100)

IC3(2/4)
TL064CPW-E05

CN1(24/100)

Q2

2

12

14
3

13

D2
RD4.3UH-T1

2.5 REF

100
99
98
97

GND
GND
GND
GND

C9
6.8
16V
:TA-C

CN1(89/100)

C12
0.1

-2.8V
-2.8V

CN1(28/100)
CN1(29/100)
C13
33
16V
:TA-C

R8
22k
:RN-C

CN1(33/100)

C14
0.1

CN1(37/100)

C15
0.1
25V
F

IC206(1/2)
TL062CPW-ELL2000

IC206(2/2)
TL062CPW-ELL2000

Q204
IC207
DTC144EUA-T106 TC7S02FU(TE85R)

1
CN1(97/100)

CN1(85/100)

3

CN1(52/100)

4.8V

D200
1SS302-TE85L

CN1(98/100)

5
6

A VD IN
A HD IN

37
38

GEN VIDEO(G) OUT
GND
GND

52
53
54

GEN VIDEO(X) OUT

51

CN1(48/100)

CN1(99/100)

CN1(86/100)

CN1(38/100)

4.8V
CN1(53/100)

3
2

7V

2
3

R208
100k
R206
100k

R211
100k

1

C200
0.1

IC3(3/4)
TL064CPW-E05

IC48(2/2)
TL062CPW-ELL2000
86
85

CN1(27/100)

CN1(31/100)
C11
0.1

R1
10k
:RN-C

R137
220k
:RN-C

CN1(100/100)

C10
6.8
16V
:TA-C

CN1(26/100)

C8
R6
1
240
35V :RN-C
:TA-C
R7
20k
:RN-C

R2
0

R136
220k
:RN-C

89

CN1(22/100)

4.8V

5
6

R209
10k

R207
4.7k

1

CN1(54/100)

5
4

IF,870-35(BVP-500)

CN1(63/100)

2

8 7

CN1(64/100)

3

CN1(65/100)

4

CN1(67/100)
CN1(69/100)

R210
100k

C201
0.1

7

CN1(70/100)

Q4
2SD596-T1DV3

-4.8V

IC3(4/4)
TL064CPW-E05

CN1(71/100)
CN1(72/100)
CN1(73/100)

9.3V

90

CN1(90/100)
CN1(74/100)

R15
0

C23
0.1

CN1(77/100)
C25
6.8
16V
:TA-C

C24
6.8
16V
:TA-C

C26
0.1

8
3
D4
RD4.3UH-T1

-5.1V
-5.1V

88
87

3

CN1(88/100)

10

C28
C27
R17
6.8
1
15k
16V
35V
:TA-C :RN-C :TA-C

11

L4
0.47µH

CN1(87/100)

Q6
Q5
2SC4178-T1F14 2SA1611-T1M7M
Q8
Q9
2SC4178-T1F14
2SC4177-T1L7

-4.8V

R25
6.8k

D14
HSM88AS-TL
R152
47k

MB,11-30(BVP-550)
MB,18-B15(BVP-500)

79

GEN(G)/H CONT IN

R18
100k

H CONT IN

R118
100k

Q16
2SK852-T1X2

2
3

8
4

1

7
6

47

4
1

8
4

2 5 3

C80
470p

R153
47k

C100
0.1

1

8
46

7
2 5 3

100k

2 5 3

7
6

C34
0.0022

GENLOCK(X) IN

D13
HSM88AS-TL

R24
3.3k
:RN-C

R22
1k

8
4
1

C87 22p

6
7

17

1/2

R28
3.9k
:RN-C

8 5

R30
10k
:RN-C

204
3 4

Q22
C45
6.8
6.3V
:TA-C

Q17
2SC4177-T1L7

Q14
2SC4177-T1L7
R47
10k
:RN-C

Q18(2/2)
IMH2-T110

R49
100

Q7
2SC4177-T1L7

IC5
EL4581CS-TE2

C31
0.1

R143

D5
1SS302-TE85L

R53

Q7

1
2

Q12
Q11

R142

R38
10k
:RN-C

R51
1k
:RN-C

Q10

C32
10p

C35
10
10V
:TA-C

C36
0.1

R46
2.2k
:RN-C

L5
22µH

D6
1SS301-TE85L

8
VCC

2

C38
33p

C37
0.1

IN

Q18
C40
33p
C39
0.1

R37
3.9k
:RN-C

R36
R35
47k 3.3k
:RN-C :RN-C

L6
22µH

R39
68k
:RN-C Q15

1

Q14

C41
47p

6

C33
0.1

5
7

2

4 Q18
5

-4.8V

R140
150k

Q17

Q12
XN6435-TW
R44
R43
100k 820
:RN-C :RN-C

R41
10k
:RN-C

R34
22k
:RN-C

R141
7500

5 2

Q22
DTC144EUA-T106

4

C94
0.1

R139
1600

C88 100p

R27
2.2k
:RN-C

1
2
3
4
5
6
7
8
9
10
11
12
13

Q11
Q18(1/2)
Q15
Q10
C90
2SC4177-T1L7 IMH2-T110 2SC4178-T1F14 2SC4178-T1F14 0.1 C91

4.8V

7
6

IC17
TC4W53FU(TE12R)

Q21

Q202
2SA812-T1M7
C95
1.5
20V
:TA-C

Q6

R120

CN1(80/100)

IC204
TC4W53FU(TE12R)

C30
4.7
10V
:TA-C

C86

C89 47p

S

80

CN1(82/100)

Q8
R23
47

3
MB,11-29(BVP-550)
MB,18-A15(BVP-500)

R29
12k
:RN-C

Q9

R21
1k
:RN-C

R119
100k

4
1

44

Q5

R26
2.2k
:RN-C

S

Q16
6

R138
1k
CN1(5/100)

Q21
2SK852-T1X2 R135

IC46
TC4W53FU(TE12R)

8

R117
10k
:RN-C
R151
47k

5

IC44
TC4W53FU(TE12R)

CN1(79/100)
D12
HSM88AS-TL

MB,12-19(BVP-550)
TR,1-81,82(BVP-500)

R154
47k

CN1(81/100)

Q203
DTC144EUA-T106

R204
10k

C29
0.1

R5
0

Q4

IC48(1/2)
IC47
TL062CPW-ELL2000 TC4W53FU(TE12R)

R205
100k

R16
22k
:RN-C

9

C92
0.1

1
3
5

6 4
3
R40
56k
:RN-C

R45
2.2k
:RN-C

R42
3.3k
:RN-C

R31
10k
:RN-C

C42
0.1

R48
15k
:RN-C

R50
470

C43
68p

R52
3.9k
:RN-C

C44

R54
680k

R126
10

R33
R32
15k 4.7k
:RN-C :RN-C

R55
3.9k
:RN-C

RESET GND

CN1(51/100)

R203
4.7k

IF,1-36(BVP-550)
IF,870-36(BVP-500)

Q205
2SC4177-T1L7

V RESET 2
N/P
H CONT
+4.8V
GND
OLD/NEW CA
VR DET
-4.8V
CABLE COMP
EXT SYNC
GENLOCK OFF
TRAP
EXT SC

SG-234 (2/2)
BOARD NO. 1-657-449-12
LOT NO. 509B-¥BVP550-SG234-12

5

8-12
A

B

C

D

8-12

BVP-550

E

F

G

H

1

2

3

4

5

8-13

BVP-550

I

J

K

L

8-13
M

N

O

P

DA-88 (1/2)

DA-88 (1/2)

BVP-550 (SY)

DA-88 BOARD

3

*
*
*
*
*
*
*
*
*

*
*
*
*

4

*
*

*
*
*

*

5
*
*
*
*

FL1
FL2
FL3
FL4
FL5
FL6
FL7
FL8

A-4
A-3
B-3
B-2
C-2
D-3
E-3
F-3

IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC19
IC20
IC23
IC24
IC25
IC26
IC27
IC28
IC29
IC34
IC35
IC36
IC37
IC100
IC101
IC102
IC103
IC104
IC105
IC106
IC107
IC108
IC109
IC110

A-1
B-1
A-2
D-1
E-1
E-1
D-2
D-1
E-2
E-1
F-1
F-1
E-2
F-2
B-3
B-4
B-4
C-4
G-2
C-2
C-3
D-4
C-3
C-4
E-3
F-4
C-4
D-1
E-1
F-2
C-3
F-2
C-3
C-3
G-2
G-2
G-2
G-2
E-2
E-2
G-2
E-2

JR1
JR2
JR3
JR4

B-4
A-4
C-2
B-3

L1
L2
L3
L4
L5

A-1
A-2
A-1
A-2
B-1

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

CN1(42/100)
CN1(40/100)
CN1(39/100)
CN1(38/100)
CN1(37/100)
CN1(36/100)
CN1(35/100)
CN1(34/100)
CN1(33/100)
CN1(32/100)

DLY6
DLY5
DLY4
DLY3

11
10
9
8
7
5
4
3
2
1

Y9
Y8
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

CN1(31/100)

4

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

26
27
28
29
31
32
33
34
35
36

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2
YB1
YB0

YB0
R33
100k

R34
100k

62
RB1

27
26

CN1(30/100)
CN1(29/100)
CN1(28/100)
CN1(27/100)
CN1(26/100)
CN1(25/100)
CN1(24/100)
CN1(23/100)
CN1(22/100)
CN1(21/100)

RY0
RY1
RY2
RY3
RY4
RY5
RY6
RY7
RY8
RY9

RY9
RY8
RY7
RY6
RY5
RY4
RY3
RY2
RY1
RY0

11
10
9
8
7
5
4
3
2
1

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

CN1(20/100)

RYB0

RYB1

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
5

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

26
27
28
29
31
32
33
34
35
36

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
RYB1
RYB0

VGB

B8

ROB

23
22

B6

VGG

B5

ROG

B3

VGR

B2

ROR

B1
B0

BO

G9

BO

18

17

44
43

C37
0.1

9 2 8 3 7 4 6 5
R37
100k

RB3

R38
100k

1

19
18
17
16
15
14
13
12
11
10
9

B-Y(L)
B-Y(1)
B-Y(2)
B-Y(3)
B-Y(4)
B-Y(5)
B-Y(6)
B-Y(7)
B-Y(8)
B-Y(M)
B-Y(G)

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

CN1(19/100)
CN1(18/100)
CN1(17/100)
CN1(16/100)
CN1(15/100)
CN1(14/100)
CN1(13/100)
CN1(12/100)
CN1(11/100)
CN1(10/100)

BY0
BY1
BY2
BY3
BY4
BY5
BY6
BY7
BY8
BY9

11
10
9
8
7
5
4
3
2
1

BY9
BY8
BY7
BY6
BY5
BY4
BY3
BY2
BY1
BY0

CN1(9/100)

DI9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
DI0

S

7

23

5
6

C97
0.1

R162
47

C103
1
25V
:TA-CA

R161
3.6k

C96
0.1

L19
0.47µH

R40
220
:RN-C

54
GO

C101 C102
1
1
25V
25V
:TA-CA :TA-CA

R166
4.7k
:RN-C

R171
100k

C40
15
16V

R39
C39
220
58 :RN-C 0.01

C214
0.1

G4

C99
6.8
16V

C98
0.1

Q67
Q117
Q68
Q69
Q70
Q71
Q72
IC27(1/4)
2SC4178-F13F14-T
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5
1

L20
0.47µH

RO

51

8
7

C117
*

FG

R5

R51
R48
R45
R44
33k
33k
3.3k 33k
42 :RN-C :RN-C :RN-C :RN-C

R53
39k
:RN-C

Y

41

R50
39k
:RN-C

R-Y

40

R47
39k
:RN-C

B-Y

VRB

R4
R3

1
VRG

R2

64
R1
63
33
32

R0

VRR

BCK

CE

C123
2p

R222
100

FG

S

37
IRR

R220
3.6k

R215
5.6k
:RN-C

16
15

R7
R6

R219
3k
:RN-C

D14
1SS302-TE85L

1 2 3 4 5 6 7 8 9
17

R43
3.3k
:RN-C

38
IRG

R8

R214 R370
2.4k
0
C118 :RN-C :RN-C
0.1

FL7
R42
3.3k
:RN-C

R9

6
5
4
3
2

R209
1.8k
:RN-C

R208
0

RO

G1

R217
3.6k

R213
4.7k

R41
220
:RN-C

50

7
G3

14 13

12 11

10

R218
2.2k
:RN-C

4
1

C120
0.1
R211
3.6k

30

C220
0.1

L21
0.47µH

27

R223
100k

3
2
C126
1
25V
:TA-CA

11

R212
47

R210
220
:RN-C

GCK

C124
C125
1
1
25V
25V
:TA-CA :TA-CA

R216
4.7k
:RN-C

BLK

RCK
DVSS

AVSS
AVSS

VB

R52
R49
R46
22k
22k
22k
:RN-C :RN-C :RN-C

49

36

35

Q85
Q86
Q87
Q88
Q89
Q90
Q91
IC27(3/4)
2SC4178-F13F14-T
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5
1

L22
0.47µH

R327
1k

5
2
34

R54
10

C223
10p

C35
0.1

R266
3.6k

R262
4.7k

C42
0.1

C140
0.1

C43
0.1

R268
3k
:RN-C

R269
3.6k

R263 R373
2.4k
0
:RN-C :RN-C
C145
2p

R258
1.8k
:RN-C

6 30 13 14 15 16 17 18 20 21 44 38 37 42

6

C127
1
25V
:TA-CA

C122
6.8
16V

C121
0.1

C119
0.1

R221
100k

29

31

34

DO9
DO8
DO7
DO6
DO5
DO4
DO3
DO2
DO1
DO0

C104
1
25V
:TA-CA

55

C41
0.1

MB,10-15(BVP-500)/MB,6-15(BVP-550)
MB,10-14(BVP-500)/MB,6-14(BVP-550)
MB,10-13(BVP-500)/MB,6-13(BVP-550)
MB,10-12(BVP-500)/MB,6-12(BVP-550)
MB,10-11(BVP-500)/MB,6-11(BVP-550)
MB,10-10(BVP-500)/MB,6-10(BVP-550)
MB,10-9(BVP-500)/MB,6-9(BVP-550)
MB,10-8(BVP-500)/MB,6-8(BVP-550)
MB,10-7(BVP-500)/MB,6-7(BVP-550)
MB,10-6(BVP-500)/MB,6-6(BVP-550)
MB,10-5(BVP-500)/MB,6-5(BVP-550)

R168
2.2k
:RN-C

10

GO

G5

IC34
TC7SH04FU-TE85R

3

IC6
CXK1203AR-T4

R172
100

D10
1SS302-TE85L

11

G0

C34
10
10V
:TA-CB

C33
0.01

12 11

R160
220
:RN-C

G6

10
9

19 43 39 41 22 23 24 45 46 47 48 25 12 40

FG
14 13

C38
0.1

G8
G7

C230
3p

R165
5.6k
:RN-C

16
15

G2

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2
BYB1
BYB0

1 2 3 4 5 6 7 8 9

59

17
16
15
14
13
12
11

R336
30k

FG

R170
3.6k

4
46
45

B4

21
20
19

R158
0
:RN-C

Q53
IC23(1/4)
Q54
2SA1226-T1E4 TL084CPW-E05 2SK853-T1K5

R169
3k
:RN-C

C100
2p

C95
0.1

FL6

3

39

C31
0.1

4

48
47

C36
0.1

IRB

BYB0

IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN

BYB1

R-Y(L)
R-Y(1)
R-Y(2)
R-Y(3)
R-Y(4)
R-Y(5)
R-Y(6)
R-Y(7)
R-Y(8)
R-Y(M)
R-Y(G)

R36
100k

1

RB2

6 30 13 14 15 16 17 18 20 21 44 38 37 42

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2

30
29
28
27
26
25
24
23
22
21
20

R35
100k

B9

B7

25
24

RYB9
RYB8
RYB7
RYB6
RYB5
RYB4
RYB3
RYB2
RYB1
RYB0

9 2 8 3 7 4 6 5

AVDD AVDD AVDD
AVDD AVDD AVDD

R167
3.6k
R164
150 R367
1/16W 2.2k
:RN-C :RN-C

R159
1.8k
:RN-C

C94
*

5 1
9 2

4

28

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2
YB1
YB0

DLY2
DLY1
DLY0

IC5
CXK1203AR-T4

52 53 56 57 60 61

DVDD

1

19 43 39 41 22 23 24 45 46 47 48 25 12 40

MB,10-26(BVP-500)/MB,6-26(BVP-550)
MB,10-25(BVP-500)/MB,6-25(BVP-550)
MB,10-24(BVP-500)/MB,6-24(BVP-550)
MB,10-23(BVP-500)/MB,6-23(BVP-550)
MB,10-22(BVP-500)/MB,6-22(BVP-550)
MB,10-21(BVP-500)/MB,6-21(BVP-550)
MB,10-20(BVP-500)/MB,6-20(BVP-550)
MB,10-19(BVP-500)/MB,6-19(BVP-550)
MB,10-18(BVP-500)/MB,6-18(BVP-550)
MB,10-17(BVP-500)/MB,6-17(BVP-550)
MB,10-16(BVP-500)/MB,6-16(BVP-550)

IC9
TC7S00FU(TE85R)

L10
22µH

C30
0.1

26
27
28
29
31
32
33
34
35
36

IC8(2/4)
TC74VHC00FS(EL)

BYB9
BYB8
BYB7
BYB6
BYB5
BYB4
BYB3
BYB2
BYB1
BYB0

R257
0

IC8(1/4)
TC74VHC00FS(EL)

C139
*

R271
100

D17
1SS302-TE85L
R264
5.6k
:RN-C

FL8

S

9
10

C44
0.1

8
8

13

IC35(2/2)
TC74HC4538AFS-EL
C84
0.01

R267
2.2k
:RN-C

16
FG

FG

R272
100k

12
14
27 13

15
2
1

R57
220

R196
15k
:RN-C

C81
0.01

17

6

8

R56
1M

R55
*

C222
0.1

1 2 3 4 5 6 7 8 9

14

4
5

11
8

7

IC35(1/2)
TC74HC4538AFS-EL

19 43 39 41 22 23 24 45 46 47 48 25 12 40

IC8(3/4)
TC74VHC00FS(EL)
12

1 5
4
2 107

C45
22p

8

14 13

12 11

C142
0.1

3
R259
220
:RN-C

C46
0.01

IC8(4/4)
TC74VHC00FS(EL)

L23
0.47µH

C148
1
25V
:TA-CA

10

R261
47

C221
0.1

R260
3.6k

C143
0.1

C141
0.1

C146
C147
1
1
25V
25V
:TA-CA :TA-CA

R265
4.7k
:RN-C

R270
100k

C149
1
25V
:TA-CA

C144
6.8
16V
:TA-CB

R197
100k
:RN-C

3
C32
0.1

48
47
46
45
44
43
5

36MHz(X) IN
36MHz(G) IN
18MHz(X) IN
18MHz(G) IN
HD IN
VD IN
SKIN GATE OUT

5
1
4
2 108

5 4

2

SG,1-57
SG,1-58
SG,1-55
SG,1-56
SG,1-49
SG,1-50
IF,870-15(BVP-500)/IF,1-15(BVP-550)

110

3

CN1(47/100)

Cx

6

Q

Q

12
11

35

14
10
CxRx 16

35

7

Q

9

RD

8 13

3

CN1(46/100)
CN1(45/100)

IC10
X24C02S-3.0-C700 0

CN1(44/100)
CN1(43/100)

IC36
TC74HC595AF(EL)

IC13
TC74HC595AF(EL)

R326
1k

IC14
MB88346BPFV-EF

CN1(5/100)

8
1 A0 VDD SDA 5
2 A1 10 SCL 6
7
3 A2
CPE

R365
220k

Q0
Q1
Q2

14 DI
36

4

12 LD

Q3
Q4
Q5

9 DO

CN1(3/100)

Q6

CN1(2/100)

Q7

CN1(1/100)

1 5
4
2 12
2

5

4

15
1
2
3
4
5
6
7

1
3
5
7
1
3
5
7

DLY0
DLY1
DLY2
DLY3
DLY4
DLY5
DLY6
DLY7

VCC
Q0

11
14

Q1

CK

Q2
DI

13
12
9

LD

Q3
Q4
Q5

DO
Q6
Q7

15
1
2
3
4
5
6
7

BLK
16:9/4:3
A
B
INH

10

11

VCC CLR

2
4
6
8
2
4
6
8

GND G

VDD
A01

14

A02

DO

A03

17

A04

DI

A05

16

14

CLK

A06
A07

15

A08

LD

GND G
A09

RB5

8

C47
0.1

16 10
RB4

VCC CLR

11 CK

VSS

IIC DATA
IIC CLK
LD(DA) IN

CxRx
Q

15

RD

16 10

3
2
1

Cx

4
5

3

IC107
TC7SH08FU-TE85R
IC110
IC108
TC7S04FU(TE85R) TC7S00FU(TE85R)

CN1(48/100)

R364
220k

AT,1-14
AT,1-13
AT,1-17

2

1

8

13

13

A10
A11

3

11

A12
GND

3
R332
33k
:RN-C

R366
100k

IC11
TC7S04FU(TE85R)

IC12
TC7S08FU(TE85R)

RB6

Y
R-Y
B-Y
SETUP1
SETUP2
Y-SAMPLE
R-Y SYNC
B-Y SAMPLE
CHAR ON

VSS

20

R331
22k
:RN-C

18
19
2
3
4
5
6
7
8
9
12
13

1

RB7

SETUP HI-Y
SETUP Y

8-14
A

YB1

YB9
YB8
YB7
YB6
YB5
YB4
YB3
YB2

Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
Y8
Y9

DLY6
DLY5
DLY4
DLY3

B-2
C-1
D-4
E-4
F-4

9 2 8 3 7 4 6 5

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

TP1
TP2
TP3
TP4
TP5

Y(L)
Y(1)
Y(2)
Y(3)
Y(4)
Y(5)
Y(6)
Y(7)
Y(8)
Y(M)
Y(G)

IC7
CXD2307R-T4

6 30 13 14 15 16 17 18 20 21 44 38 37 42

DLY2
DLY1
DLY0

F-4

A-2
A-2
B-2
A-3
A-3
A-3
A-3
A-2
B-3
A-4
B-4
B-4
A-4
A-4
B-4
B-4
B-3
A-2
C-3
B-3
C-4
B-4
B-2
B-1
C-2
B-2
C-2
C-2
C-2
C-2
C-1
F-1
G-1
G-1
D-4
D-3
D-4
D-4
D-4
D-4
D-4
C-4
C-4
D-3
E-3
E-3
E-3
E-3
E-3
E-4
E-4
E-4
C-4
C-4
F-3
F-3
G-3
G-3
G-3
G-3
G-3
F-4
G-4
G-4
A-4
A-4
C-2

42
40
39
38
37
36
35
34
33
32
31

CN1(95/100)

DLY6
DLY5
DLY4
DLY3

E1

* Q1
Q2
Q3
* Q4
* Q7
* Q8
* Q9
* Q10
* Q11
* Q12
* Q13
Q14
Q15
* Q16
Q17
* Q18
* Q19
* Q20
* Q22
Q23
* Q25
* Q26
* Q27
* Q28
* Q29
* Q30
* Q32
* Q33
* Q34
Q43
Q44
* Q45
* Q46
* Q47
* Q48
* Q49
* Q50
* Q51
* Q52
* Q53
* Q54
Q59
Q63
* Q67
* Q68
* Q69
* Q70
* Q71
Q72
* Q73
Q75
Q79
* Q83
* Q84
* Q85
Q86
* Q87
* Q88
* Q89
* Q90
Q91
* Q92
Q94
Q98
* Q100
* Q101
* Q102

D-2
E-2
E-2
F-2
F-1
F-2
F-2

MB,10-38(BVP-500)/MB,6-38(BVP-550)
MB,10-36(BVP-500)/MB,6-36(BVP-550)
MB,10-35(BVP-500)/MB,6-35(BVP-550)
MB,10-34(BVP-500)/MB,6-34(BVP-550)
MB,10-33(BVP-500)/MB,6-33(BVP-550)
MB,10-32(BVP-500)/MB,6-32(BVP-550)
MB,10-31(BVP-500)/MB,6-31(BVP-550)
MB,10-30(BVP-500)/MB,6-30(BVP-550)
MB,10-29(BVP-500)/MB,6-29(BVP-550)
MB,10-28(BVP-500)/MB,6-28(BVP-550)
MB,10-27(BVP-500)/MB,6-27(BVP-550)

CN1(96/100)

D GND
D GND

DLY2
DLY1
DLY0

*
*
*

* RB1
* RB2
* RB3
RB4
RB5
* RB6
* RB7

96
95

Q50
Q51
Q52
2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7

R163
4.7k

8
6
4
2
8
6
4
2

*

C-2
C-3
G-2
G-1
B-3
C-3
C-3
E-4
E-4
E-4
F-4
G-4
G-4
D-3

C29
0.1

7
5
3
1
7
5
3
1

2

* Q103
* Q104
Q105
* Q106
* Q107
* Q108
* Q109
* Q110
* Q111
* Q112
* Q113
* Q114
* Q115
Q117

C28
10
10V

C27
10
10V

Q48
Q49
2SC4178-F13F14-T
2SA1226-T1E4
1

L18
0.47µH

DLY7
DLY6
DLY5
DLY4
DLY3
DLY2
DLY1
DLY0

*

A-2
B-1
B-1
A-4
G-2
F-2
C-1
D-3
G-2
E-4
G-2
E-3
G-2
G-2
G-3
B-3
C-4
G-4
A-3
C-2
G-2

B-2
A-3
A-3
B-1
D-2
F-1
G-1
G-3
A-3
B-3
B-2
B-2
D-4
D-4
E-4
E-4
F-4
G-4
G-1
F-1

IC4
CXK1203AR-T4

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

*
*
*

D1
D2
D3
D5
D6
D7
D9
D10
D11
D12
D13
D14
D15
D16
D17
D24
D25
D26
D100
D101
D102

L6
L7
L8
L9
L10
L11
L12
L13
L14
L15
L16
L17
L18
L19
* L20
* L21
* L22
L23
L24
L25

L9
22µH

CN1(83/100)

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

*
*
*
*
*

C-1

CN1(84/100)

+3.1V
+3.1V

Vss
Vss
PSW7
PSW6
PSW5
PSW4
PSW3
PSW2
PSW1
PSW0
NC
NC
NC
CLK

CN1

84
83

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

——————————
DA-88 (1-657-450-12)
——————————
*: B SIDE

Vdd
Vdd
AEN
SCLK
PSB2
PSB1
PSB0
NC
NC
NC
NC
OEN
INIT
N/P

1

B

C

D

8-14

BVP-550

E

F

G

H

DA-88 (1/2)

DA-88 (1/2)

1
TP3
CN1(64/100)

IC102(1/2)
TC7W32FU-TE12L
IC24
TC4W53FU(TE12R)

Q107
2SC2223-T1F14

IC102(2/2)
TC7W32FU-TE12L

IC101
TC7S04FU(TE85R)

CN1(63/100)

Q108
IC25(1/2)
2SC2223-T1F14 TC74HC4052AFS(EL )

IC37(1/2)
TC7W32FU-TE12L

Q22
2SA1226-T1E4
8

16
VCC

14
11
12
15

R184
160
:RN-C

2
5 101 3
4

R185
15
:RN-C

A
B

1 2
102

4

7

24
6
2 INH
GND VEE
3
4

C106
0.1

C107
6.8
16V
:TA-CB

2
R190
4.7k

6

C109
0.1

6

102
3

4

R198
R199
3k
C113
75
:RN-C 1p :RN-C

C218
0.1

5
1
103 2

5
4
109

3

R334
1k

R201
100
:RN-C

16

R314
4.7k

R177
6.8k
:RN-C

3

13
23 12

14

R194
2.2k
:RN-C

Q109
2SC2223-T1F14

R178
22k
:RN-C

C215
6.8
16V

IC25(2/2)
TC74HC4052AFS(EL )

R200
100
:RN-C

C114
10p

R195
2.7k

CN1(50/100)

C115
33p

12

R205
2k
:RN-C

51
50

R-Y(G) OUT
R-Y(X) OUT

62
61

MB,11-26(BVP-550)/MD,1-80(BVP-500)
MB,11-24(BVP-550)/MD,1-78(BVP-500)

B-Y(G) OUT
B-Y(X) OUT

60
59

MB,11-26(BVP-550)/MD,1-74(BVP-500)
MB,11-25(BVP-550)/MD,1-76(BVP-500)

IF,1-8(BVP-550)/IF,870-8(BVP-500)
AT,1-27(BVP-550)

7 19 13

13
14

IF,1-7(BVP-550)/IF,870-7(BVP-500)
AT,1-28(BVP-550)

CHAR VF IN
CHAR BACK IN

C219
0.1

R202
100
:RN-C

11

26

R193
3.9k

25

R315
4.7k

D13
1SS302-TE85L

C225
10p

D25
1SS302-TE85L

CN1(51/100)

3

VCC

R188 R313
2.7k 4.7k
:RN-C

IC23(3/4)
IC19(6/8)
TC74VHC244FS(EL) TL084CPW-E05

5
1
104 2

4

1
2

3

7

1
2
4
5

R187
75
:RN-C

C110
15
16V

C217
6.8
16V

R192
5.6k
:RN-C

R369 R191
180 2.2k
:RN-C :RN-C

6

5

IC104
IC109
IC19(5/8)
TC7S08FU(TE85R) TC74VHC244FS(EL) TC7S00FU(TE85R):NM

IC103(1/2)
TC7S32FU(TE85R)

4

R186
51
:RN-C

8
7

1

IC26(1/3)
TC74HC4053AFS-EL

MB,11-26(BVP-550)
MD,1-82(BVP-500)
MB,11-23(BVP-550)
MD,1-84(BVP-500)

1

GND VEE

8
5
8
VCC

R173
100k

37

5

3
37

INH

IC23(2/4)
TL084CPW-E05

Q63
2SC2223-T1F14

64
63

7

10
9
13

25

Q59
XN6534-TW

Y(G) OUT
Y(X) OUT

9

R207
24k
:RN-C

19

11

8

23

9
10
Y-SAMPLE

6 INH

R135
10k

GND VEE

8

7

R206
47k
:RN-C

C116
*

IC37(2/2)
TC7W32FU-TE12L
C216
0.1

Q111
Q112
IC28(1/2)
2SC2223-T1F14 2SC2223-T1F14 TC74HC4052AFS(EL )

Q110
2SC2223-T1F14

Q75
XN6534-TW

Q73
2SA1226-T1E4

IC27(2/4)
TL084CPW-E05

Q79
2SC2223-T1F14

IC26(2/3)
TC74HC4053AFS-EL

IC105
TC7S32FU(TE85R)

IC19(7/8)
TC74VHC244FS(EL)

IC23(4/4)
TL084CPW-E05

IC29
TC4W53FU(TE12R)

Q83
2SC4177-T1L7

IC106
TC7S08FU(TE85R)

IC19(8/8)
TC74VHC244FS(EL)

2

TP4
CN1(62/100)

R229
4.7k

16
VCC

12
14
15
11

R224
560
:RN-C
R225
1.6k
:RN-C

A
B

CN1(61/100)
R231
180
:RN-C

10
9

R372
2.4k
:RN-C

13
INH

8

R317
4.7k

5
4 105

R239 C132
3k
1p
:RN-C

R371
10

6

R232
6.8k
:RN-C

GND VEE

R226 R316
150 4.7k
:RN-C

R240
75
:RN-C
R234
5.6k
:RN-C

28

R335
1k

7

D15
R242
100 1SS302-TE85L
:RN-C

D12
1SS302-TE85L
C128
0.1

C129
6.8
16V
:TA-CB

R241

7
27

R233
3.9k

R235
2.2k
:RN-C

6 100
5 :RN-C

C226
10p

1
2

R236
2.7k

C133
10p

R318
4.7k

8

R243
100
:RN-C

1

23

2
3

R249
2k
:RN-C

R247
22k
:RN-C

5

51
106 2

R254
12k
:RN-C

7
1
2 INH

R244
100k

C135
*

R250
100
:RN-C

D16
1SS302-TE85L

16 19 4

3
R256
24k
:RN-C

6
C136
10p

26
R136
10k

R253
5.6k

VCC

C134
33p

R248
47k
:RN-C

R246
36k
:RN-C

15

4

14 19 6

10

R227
5.1k
:RN-C
R228
200
:RN-C

1
2

3

C227

29
GND VEE

4

3

R337
1k

R252
2.2k

R255
10k
:RN-C

R251
100
:RN-C
C137
33p

C138
0.01

SETUP2

Q84
2SA1611-T1M7

C172
6.8
16V

R-Y SYNC

TP5
Q113
2SC2223-T1F14

Q114
IC28(2/2)
2SC2223-T1F14 TC74HC4052AFS(EL )

Q92
2SA1226-T1E4

Q94
XN6534-TW

IC27(4/4)
TL084CPW-E05

Q98
2SC2223-T1F14

IC26(3/3)
TC74HC4053AFS-EL
CN1(60/100)

R278
4.7k

1
5
2
4

R273
560
:RN-C

28
3

R280
150
:RN-C

CN1(59/100)

R375
2.4k
:RN-C

R289
75
:RN-C

R374
10
R281
6.8k
:RN-C

R274
1.6k
:RN-C

R288
3k
:RN-C

CN1(49/100)

C154
1p

CN1(53/100)

R275
150
:RN-C

C150
0.1
R320
4.7k

R277
200
:RN-C

R321
4.7k

R322
4.7k

8
R282
3.9k

R284
2.2k
:RN-C

R324
0

9
27 10

R290
100
:RN-C

R293
8.2k
:RN-C

3

R295
47k
:RN-C

4
5

R285
2.7k
C155
10p

Q115
2SC2223-T1F14

R323
0

CN1(54/100)

9

R276
5.1k
:RN-C

49
52
53
54

CN1(52/100)

D26
1SS302-TE85L

C151
6.8
16V
:TA-CB

3

R283
5.6k
:RN-C

R137
10k

B-Y SAMPLE

26
R294
22k
:RN-C

C156
*

C171
6.8
16V

CN1(72/100)

R325
0

CN1(71/100)
CN1(68/100)
CN1(67/100)
CN1(70/100)
CN1(69/100)

Y(G) OUT
Y(X) OUT
B-Y(G) OUT
B-Y(X) OUT
R-Y(G) OUT
R-Y(X) OUT

72
71
68
67
70
69

IF,1-71(BVP-550)/IF,870-71(BVP-500)
IF,1-72(BVP-550)/IF,870-72(BVP-500)
IF,1-67(BVP-550)/IF,870-67(BVP-500)
IF,1-68(BVP-550)/IF,870-68(BVP-500)
IF,1-69(BVP-550)/IF,870-69(BVP-500)
IF,1-70(BVP-550)/IF,870-70(BVP-500)

4

-2.5V
-4.8V
+4.8V
A GND
RESET
16:9/4:3
HI-Y
SAMPL 2
+4.8V-2
DL SYNC
SAMPL 1
GND
DL BLKG
SETUP 1
SETUP ON/OFF
A GND 2

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

2/2

5

DA-88 (1/2)
BOARD NO. 1-657-450-12
LOT NO. 509B-¥BVP550-DA88-12

8-15

BVP-550

I

J

K

L

8-15
M

N

O

P

DA-88 (2/2)

DA-88 (2/2)

BVP-550 (SY)

1

92
91

+5.1V
+5.1V

Q1
2SB624-T1BV3

IC1
REF-03GSR

CN1(92/100)
CN1(91/100)

L1
0.47µH

L2
0.47µH

R1
0
D1
RD4.3UH-T1

90

+9.3V

A
A
A
A

89

GND
GND
GND
GND

2.5V REF OUT

C1
6.8
16V

C2
15
16V

C3
0.1

8

1
2

NC

3
4

TEMP

7

NC

IN

7
6

NC

1

R5
20k
C6
15
16V

R92
22k

7
VCC
6
RESET
2 VIN
5
3
CD
GND

R7
1k
C7
0.1

L14
0.47µH

Q9
Q10
Q20(2/2) 2SC4178-F13F14-T 2SC4178-F13F14-T
1
1
IMH2-T110

5

4

C8
47p

R3
1k

R73
4.7k
FL2
R64
4.7k
:RN-C

5
6

86
85

-2.8V
-2.8V

CN1(86/100)

76
75

HI-Y(X) IN
HI-Y(G) IN

VF-Y(X) IN
VF-Y(G) IN

8

2

2
3

1
2

C11
0.1

D3
RD4.3UH-T1

R10
22k

C15
0.1

C14
15
16V

7

C48
8p

R65
1k
:RN-C

JR2
0

C17
10
10V

L4
0.47µH

C18
0.1

2

13
12

C166
10
10V
C20
1
L6
0.47µH 25V

R357
330
R81
100

D5
1SS302-TE85L

R72
47

R75
5.6k
:RN-C
S

15 INH 2
VEE GND
3
4

R68
1k
:RN-C

R78
2.2k
:RN-C

8
1
16

C50
0.1

FG

R58
1k
:RN-C

R27
0

C167
0.1

R82
100k

3
2

C52
0.1

R76
4.7k
:RN-C

C57
1
25V
:TA-CA
C56
1
25V
:TA-CA

C55
1
25V
:TA-CA

R14
20k
:RN-C

8 5
VCC

7

1

4

R70
3.6k

R71
3.6k

C201
0.1

C500
1p

6
C49
2p

C169
6.8
16V

R80
4.7k

R13
0

C19
0.1

L5
0.47µH

R79
3.6k
:RN-C

5 8
VCC
1

FL3

FG
14

C16
10
10V

R11
22k

C13
1
25V

C12
0.1

L3
0.47µH

R61
4.7k

IC2(2/4)
TL064CPW-E05

CN1(85/100)

C58
1
25V
:TA-CA

R83
100k

17
2

6

INH
GND VEE
4
3

C69
0.1

C61
10
10V

R62
4.7k

C200
0.1

L15
0.47µH

Q3
IC2(4/4)
2SD596T1-DV345 TL064CPW-E05

Q2
IC2(3/4)
2SD596T1-DV345 TL064CPW-E05

C53
0.1

C51
0.1

C54
6.8
16V

C170
6.8
16V

CN1(76/100)
CN1(75/100)

Q4
2SC4178-F13F14-T
1
CN1(74/100)

Q27
2SC4178-F13F14-T
1

Q8
2SA1611-T1M7
:2125

Q101
Q7
2SC2223-T1F14 2SC4177-T1L7

Q100
XN6534-TW

CN1(78/100)

Q30
Q29
2SC4178-F13F14-T
2SC4178-F13F14-T
1
IC20
1
:2125
TC4W53FU(TE12R)

Q28
2SC4178-F13F14-T
1

L16
0.47µH

CN1(73/100)

Q102
Q103
2SA1226-T1E4 XN6534-TW

R300
7.5k
:RN-C

R15
47

CN1(77/100)

L7
0.47µH
C23
0.1

R20
47

R17
220
:RN-C

R16
1k

C25
6.8
16V

FL1
C203
2p
R22
47

C231
3p

15

14 13

12 11

R301
1.8k
:RN-C

10

R379
30k

R116
1k
:RN-C

20
C71
2p

R23
3.6k

R380
30
:RN-C

R118
910
:RN-C

R123
3.6k

R124
47

R310 R311
2.7k
0
:RN-C :RN-C

INH 2
VEE GND
3 4

C72
0.1

FG

1

6

R119
1k
:RN-C

C207
0.1
C76
33
6.3V

5 8
VCC

7

FL5

R117
4.7k
:RN-C

C206
6.8
16V

C205
2p

JR4
0

R121
47

R111
47

R128
8.2k
D101
1SS302-TE85L

R306
8.2k
C70
8p

7

FG

C24
0.1

R312
3.3k
R129
5.6k

R308
1.8k
:RN-C

R309
3.9k
:RN-C

L17
0.47µH

L8
0.47µH

R112
4.7k

R113
4.7k

C204
0.1

R130
8.2k

R131
4.7k
C82
0.1

C74
0.1

R122
3.6k

C26
10
10V

CN1(81/100)
CN1(80/100)

9 8

R21
3.3k

R302
4.7k
:RN-C

CN1(82/100)

10

11

R24
100

R303 R304
1.5k 200
:RN-C :RN-C

R18
R19
220 1.8k
:RN-C :RN-C

FG

R110
47

R26
33

17
FG

R114
1k
:RN-C

R25
8.2k

D100
1SS302-TE85L

FG

Q32
Q33
Q34
2SA1226-T1E4 2SC2223-T1F14 2SC2223-T1F14

R120
47

1 2 3 4 5 6
12

Q104
2SC2223-T1F14

R307
7.5k
:RN-C

FL4
JR3
0

C21
10p

4

8

R77
3.6k

C229
3p

CN1(87/100)

FG

1/2

9

R67
4.7k
:RN-C

R12
36k
:RN-C

11
D2
RD4.3UH-T1

3

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

10

R74
2.4k
:RN-C

7

R60
47

1 2 3 4 5 6 7 8 9

VF-Y(X) OUT
VF-Y(G) OUT

FG

C9
0.047

R9
0

9
10

16

IF,870-80(BVP-500)/IF,1-80(BVP-550)
IF,870-79(BVP-500)/IF,1-79(BVP-550)

FG

R376
30k

R66
47

11

R59
47

R305
24k

82
81
80
79

1 2 3 4 5 6

R69
47

CN1(89/100)

CN1(88/100)

78
77

JR1
0

12

R63
1k
:RN-C

R6
22k

CN1(97/100)

Q13
Q14
Q15
Q16
Q17
IC16(1/2)
Q18
IC17
2SA1226-T1E4 2SA1226-T1E4 2SA1226-T1E4 2SC4177-T1L7 2SA1226-T1E4 TL082CPS-E05 2SK853-T1K5 TC4W53FU(TE12R)

2
3

4

CN1(98/100)

-5.1V
-5.1V

Q12
2SC4178-F13F14-T
IC15
1
TC4W53FU(TE12R)

1

R115
4.7k
:RN-C

MB,10-119(BVP-500)/MB,6-119(BVP-550)
MB,10-120(BVP-500)/MB,6-120(BVP-550)

Q11
2SC4178-F13F14-T
1

CN1(99/100)

88
87

C(X) IN
C(G) IN

R4
240

L13
0.47µH

Q20(1/2)
IMH2-T110

OUT

GND TRIM

C10
15
16V

74
73

5
6

CN1(100/100)

2

MB,10-115(BVP-500)/MB,6-115(BVP-550)
MB,10-116(BVP-500)/MB,6-116(BVP-550)

2

IC3
M51958A-T1

R2
100k

R8
100

MB,10-117(BVP-500)/MB,6-117(BVP-550)
MB,10-118(BVP-500)/MB,6-118(BVP-550)

C5
1
25V

C4
0.1

4

CN1(90/100)

E1
100
99
98
97

IC2(1/4)
TL064CPW-E05

C75
0.1

C73
0.1

C83
6.8
16V
:TA-CB

C77
6.8
16V
:TA-CB

CN1(79/100)

-2.5V
-4.8V
+4.8V
A GND
RESET
16:9/4:3
HI-Y
SAMPL 2
+4.8V-2
DL SYNC
SAMPL 1
GND
DL BLKG
SETUP 1
SETUP ON/OFF
A GND 2

5

8-16
A

B

C

D

8-16

BVP-550

E

F

G

H

DA-88 (2/2)

DA-88 (2/2)

1

Q19
XN6534-TW

Q23
2SC2223-T1F14

IC16(2/2)
TL082CPS-E05

Q25
Q26
IC18
TC4W53FU(TE12R) 2SC4177-T1L7 2SA1611-T1M7

IC100
IC19(1/8)
TC7S08FU(TE85R) TC74VHC244FS(EL)

IC19(2/8)
TC74VHC244FS(EL)

IC19(3/8)
TC74VHC244FS(EL)

TP1

C202
6.8
16V

CN1(58/100)
CN1(57/100)

R358
150
:RN-C

R87
2.7k
:RN-C

HI-Y(G) OUT
HI-Y(X) OUT

58
57

DL BLKG IN

8

SG,1-25

SAMPLE2 IN

4

SG,1-17

R90
5.6k
:RN-C
R95
3k
:RN-C

R104
*

C64
1p

4

5 1
100 2

R333
1k

D24
1SS302-TE85L

3

R88
22k
:RN-C

18

R100
5.6k
C66
33p

8 5
R89
3.9k

R97
D7
100 1SS302-TE85L
:RN-C

C224

R91
2.2k
:RN-C

R98
100
R84
:RN-C 4.7k
:RN-C

R105
100k

20
2
10

D6
1SS302-TE85L

C68
0.1

3

6
5

16

R96
2k
:RN-C

R101
15k
:RN-C

7
1

R94
4.7k

R103
24k
:RN-C

6
C65
10p

R127
100k

2 INH

17
19

D11
1SS302-TE85L

R85
22k
:RN-C

R174
4.7k
:RN-C

C59
470p

C105 R175
470p 22k
:RN-C

5

18

19

R108
100

15

CN1(4/100)

2

19
R99
2.2k

GND VEE

4

CN1(8/100)

R106
100k

1

VCC

7

R107
100

19

3

R102
10k
:RN-C

C67
0.01

SETUP1
CN1(7/100)

VTR SYNC OUT

7

MB,12-14(BVP-550)/MD,1-58(BVP-500)

CN1(56/100)

C(G) OUT
C(X) OUT

56
55

MB,11-28(BVP-550)
MB,11-27(BVP-550)

CN1(94/100)

+7.5V
+7.5V

93
94

CN1(6/100)

DL SYNC IN

6

SG,1-23

CN1(66/100)

VBS(G) OUT
VBS(X) OUT

66
65

IF,1-65(BVP-550)/IF,870-65(BVP-500)
IF,1-66(BVP-550)/IF,870-66(BVP-500)

41

SG,1-36

TP2
CN1(55/100)

Q43
XN6534-TW

Q44
2SC2223-T1F14

Q45
2SA1611-T1M7

R147
5.6k
:RN-C

R378 R368
1k
68
:RN-C

R155
75
:RN-C

Q46(1/2)
IMH2-T110

Q106
Q46(2/2)
Q47
IC19(4/8)
DTC144EUA-T106 IMH2-T110 2SC4177-T1L7 TC74VHC244FS(EL)

C168
*

Q105
DTC144EUA-T106

12

R93
100k

R143
*
L12
82µH

R153
2.2k
:RN-C

L24
47µH

R156
100k

8
19

D102
R142
4.7k 1SS302-TE85L
1/16W

D9
1SS302-TE85L
R151
2.7k
:RN-C
R145
0
:RN-C

R361
2.4k
:RN-C

R146
220
:RN-C

R362
2.4k
:RN-C

C210
6.8
16V

C87
1p

R157
100

C213
4p

C212
R154
2.2k

C211
0.1

C92
0.1

C93
15
16V

C85
18p

R328
4.7k
1/16W

C91
*

C89
22p

CN1(65/100)
R363
100
R148
3.9k

R149
1.2k
:RN-C

4

R150
2.2k

1
5

C88
33p

6
C208
6.8
16V

CN1(93/100)

L11
22µH

R152
1k

R330
0

2

C90
6p

R329
CN1(41/100)

N/P IN

3
C228
15
16V

C209
0.1

3

L25
22µH

4

DA-88 (2/2)
BOARD NO. 1-657-450-12
LOT NO. 509B-¥BVP550-DA88-12

5

8-17

BVP-550

I

J

K

L

8-17
M

N

O

P

IF-510 (1/2)

IF-510 BOARD

BVP-550 (SY)
IC701(1/2)
LM393PS-E05
Q20
Q10
IC12(1/4)
IC12(2/4)
2SD596T1-DV345 2SB624-T1BV3TL064CPW-E05 TL064CPW-E05

——————————
IF-510 (1-657-453-12)
——————————
*: B SIDE
CN1
*
*
*
*
*
*
*
*
*

2

3

D11
D21
D31
D101
D250
D400
D401
D402
D500

* IC12
* IC101
IC151
* IC152
* IC153
* IC154
IC155
IC200
* IC201
* IC202
* IC206
* IC301
* IC302
IC303
* IC304
IC305
* IC306
* IC307
* IC308
IC309
* IC310
IC322
* IC351
* IC352
IC400
* IC404
IC410
IC420
* IC500
* IC501
* IC502
* IC601
* IC621
* IC641
IC701
IC702
L1
L2
L3
L150
L201
L202
L203
L250
L301
L400
L401
L402
L500
L501
L502
L601
L602
L603
L700

4

C-1

*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*

A-2
A-2
B-2
D-3
B-3
C-2
C-3
D-3
E-2
A-2
D-4
F-4
F-3
F-3
F-3
G-4
B-4
B-4
A-4
A-3
G-2
F-2
F-2
G-2
F-3
F-1
G-2
G-1
G-1
G-1
F-1
F-2
F-2
C-3
C-4
C-3
D-3
E-1
C-1
D-1
E-3
E-2
E-2
A-3
A-2

*
*
*
*
*
*
*
*
*

*
*
*

Q251
Q271
Q272
Q273
Q352
Q353
Q354
Q401
Q402
Q403
Q404
Q405
Q406
Q410
Q411
Q412
Q413
Q414
Q420
Q421
Q422
Q423
Q424
Q430
Q431
Q500
Q501
Q502
Q503
Q504
Q505
Q506
Q507
Q508
Q509
Q510
Q701
Q702
Q703

4.8V

L1
0.47µH

+5.1V
+5.1V

CN1(92/100)

94
93

+7.3V
+7.3V

CN1(94/100)

89

2.5V REF IN

CN1(89/100)

92
91

B-3
C-4
C-4
C-3
G-3
F-3
G-3
B-2
B-3
C-2
C-3
C-3
B-3
C-2
C-3
C-3
C-3
C-3
D-2
D-3
D-3
D-3
D-3
C-3
C-4
C-2
B-2
B-2
C-2
C-2
C-2
D-2
D-2
D-2
E-2
E-1
A-3
A-3
A-3

AT,1-89/DA,1-89
SG,1-89

A
A
A
A

100
99
98
97

C13
1
10V

C16
0.1
C10
10
16V

CN1(93/100)

C11
15
16V

R8
220k

3
12 2

1

C12
0.1

84
83

+3.1V
+3.1V

R9
220k

CN1(100/100)

R10
10k

5
*
*
*

*

Q1
Q2
Q10
Q20
Q30
Q101
Q102
Q103
Q109
Q110
Q205
Q206
Q207
Q208
Q209
Q210
Q211
Q250

C15
0.1

13
12

12

R721
2k

R722
1k

2
3
C702
0.1

8
701

Q703
Q702
2SB624-T1BV3 2SD1048X7-TB

C704
47
16V

1

C705
47
16V

R710
150
1/10W

C706
10
10V

6
5

1
2

702

C20
15
16V

CN1(97/100)

D21
RD4.3UH-T1 7

6

C21
15
16V

R24
20k

R33
2.4k

5

C24
33
16V

C31
10
10V

C30
10
10V

C25
0.1

D31
RD2.4UH-T1

C32
0.1

8

9
IC12(3/4)
10 TL064CPW-E05

12

C34
33
10V

R34
36k

C701
0.1

4

3

C23
1
10V

C22
0.1

R25
20k

CN1(27/100)

CN1(81/100)
CN1(28/100)

R715
30k

CN1(30/100)

CN1(29/100)
CN1(31/100)

R35
20k

TALLY OUT

27

MB,31-B5

UNREG(G)
VTR RESET OUT
REC TALLY OUT

81
28
30

AT,1-53
AT,1-57

TALLY ON IN
REC TALLY IN

29
31

AT,1-58
MB,12-18

R718
1M

CN1(87/100)

-2.5V
-4.8V

+4.8V
-2.5V
-4.8V

CN1(86/100)

Q102
2SA1226-T1E4

Q101
2SA1226-T1E4

CN1(85/100)

R101
4.7k

RV101:VBS GAIN

R105
510

R100
2.4k

Q109
IC101
2SA1611-T1M7 TC4W53FU(TE12R)

R1
6.8k

R110
6.8k

R104
3k

L

Q101

IC601
CLC505AJE-T

7
6

Q2

C605
22
16V

R601
2k

8
101

3

Q110

H

8
621

6

CN1(57/100)
CN1(58/100)

7

3

C624 R627
100p 75

8
641

6

C644 R647
100p 75

CN1(21/100)

2
4

R605
1k

R603
120

C101
0.1

Q109

7

C641
0.1

2
4

R2
3.3k

C645
22
16V

R641
2k

3

C604 R607
100p 75

6

601

R646
33k

C621
0.1

2

4 5 3

D101
1SS302-TE85L

C625
22
16V

R621
2k

7

L601
1µH

R626
33k

C601
0.1

Q102

CN1(95/100)

IC641
CLC505AJE-T

IC621
CLC505AJE-T

8

1
2

Q1

CN1(96/100)

Q110
2SC4177-T1L7

R606
33k

C104
22
16V

RV101
500

CN1(83/100)

Q2
Q1
2SA1611-T1M7 2SC4177-T1L7

Q103
2SA1226-T1E4

C103
2p

CN1(84/100)

D GND
D GND

96
95

82

R714
150
1/10W

R716
10k

C33
1
10V

Q30
2SD596T1-DV345

UNREG

R712
150
1/10W

Q703

R717
100

L3
0.47µH

90

Q701

C36
0.1

11

CN1(88/100)

R713
150
1/10W

R708
27k

R704
24k

C707
10p
50V
CH

C35
0.1

+9.3V

R711
150
1/10W

R719
10k
R702
10k

CN1(82/100)

R707
33k

5

7

701

CN1(90/100)

R709
150
1/10W

Q702

C703
0.1

+1.1V

IC12(4/4)
TL064CPW-E05

R23
0

CN1(98/100)

CN1(22/100)

4

R625
1k

R623
15

R645
1k

2/2
2/2
2/2

9
8
7

VBS(X)OUT
VBS(G)OUT

57
58

MB,11-21
MB,11-22

RM VBS(X)OUT
RM VBS(G)OUT

21
22

MB,41-16
MB,41-15

TEST(X)OUT
TEST(G)OUT

43
44

MB,15-1
MB,15-2

R643
0

C623
2p

C643
2p

C603
2p

Q103
DA,1-65
DA,1-66

66
65

VBS(X)IN
VBS(G)IN

CN1(66/100)

R102
5.6k

R103
510

R111
3.3k
C105
22
16V

IC151(1/4)
SN74HC08ANS-E05

R151
1M

AT,1-15

IIC CLK

3

IIC DATA

1

LD(IF)IN

IC152(1/2)
TC7W00FU(TE12R)

IC153
TC74HC595AF(EL)

R154
100

CN1(2/100)

R155
100

CN1(3/100)

C152
0.1

7

R156
100

CN1(1/100)

10

C151
15
16V

1 14
3
2 151

8
1
2 152

7

C150
0.1

C153
0.1

R153
100k

VCC

QH
153 Q7
11
CK
Q6
Q5
14
D
Q4
Q3
12
LD
Q2
Q1
13
EN
Q0
GND
8

Q272
2SA1611-T1M7
IC151(3/4)
IC151(4/4)
SN74HC08ANS-E05
SN74HC08ANS-E05
R276
6.8k

R273
3.3k

R200
100

IC151(2/4)
SN74HC08ANS-E05

PR,1-44

7

CHAR VF IN

R201
100

4
6
5 151
R271

R199
1M

5.6k

Q271

CN1(7/100)

80
79

VF-Y(X)IN
VF-Y(G)IN

SDA

A0

SCL

A1
A2

5
6 152

VSS

4

IC201
TC74HC4052AFS(EL
)
16

7
6
12
11
13 151

Q206
2SC4177-T1L7

8
200

12
14
15
11
1
5
2
4

Q206
1
2

VBS
RM
VF-Y

4 5 3

R277
5.6k Q273

C201
0.1

CN1(80/100)
CN1(79/100)

3

Q205

Q207
Q209
2SA1611-T1M7
2SA1611-T1M7
IC202
Q208
Q210
TC74HC4052AFS(EL
Q211
2SC4177-T1L7
2SA1611-T1M7
)
2SC4177-T1L7

C203
0.1

0X VCC
1X
201
2X
3X
0Y
1Y
2Y
3Y
A
B

C721
:N'M

R272
1k

C722
:N'M

R275
1k

C723
:N'M

IC304(1/2)
TC7W32FU-TE12L

R210
6.8k

R207
100

Q208

13

R212
6.8k

R209
100

R205
100
R211
100

Q207
Q209
3

Q210
10
9
R208
3.3k

16 0.1
VF-Y 12 0X VCC
RM 14 1X
202
13
15 2X
RET 11 3X
1 0Y
5 1Y
3
2 2Y
10
4 3Y
A
9
B

C300
0.1

14
VCC
5
1Q 305

Q211
8
1
7 304
2
4

INH GND VEE

6 8 7

C202
0.1

IC305
SN74HC74ANS-E05

IC206
CLC505AJE-T

IC306(2/3)
TC7W04FU(TE12R)

R227
33k
R214
100

C204
0.1

6
9
8

R213
3.3k

6 8 7

7

1

1D
1CK
1Q
2Q
2D
2CK
2Q

4
2
3
1
10
12
11
13

GND
7

R278
1k

CHARAC

IC306(1/3)
TC7W04FU(TE12R)

C205
R206
6.8k

INH GND VEE

10

2/2

IC152(2/2)
TC7W00FU(TE12R)

CPE

R203
6.8k

R274 Q272
5.6k
9
8
10 151

1
2
3

R204
3.3k

2/2

4

L201
1µH

8

Q205
2SA1611-T1M7
IC200
Q273
2SA1611-T1M7 TC4W53FU(TE12R)
R279
6.8k

R202
100

DA,1-80
DA,1-79

L603
1µH

IC155
X24C02S-3.0-C700
0
C154
0.1

CN1(8/100)
R198
1M

CN1(44/100)
L602
1µH

VDD

Q271
2SA1611-T1M7

CHAR BACK IN

CN1(43/100)

C646
22
16V

CHAR BACK

155

C-3

C626
22
16V

C642
0.1

C155
0.1

5
3
6 154
4

9
7
6
5
4
3
2
1
15

R

R644
330

R642
2k

C622
0.1

L150
1µH

5
6

8

R624
330

R622
2k

CHAR BACK VBS

IC154(1/2)
IC154(2/2)
TC7W08FU(TE12R) TC7W08FU(TE12R)

16

R152
220k

4

PR,1-46

C602
0.1

C606
22
16V

C102
0.1

8
1
7
2 154

2

R604
330

R602
1.8k

CN1(65/100)

RV101 D-4

A-1
A-1
B-1
E-4
A-3
A-3
A-4
B-3
F-2
D-2
D-3
C-3
D-2
C-1
D-1
D-4
E-3
D-3
A-2

+3.0V

R15
22k

C17
0.1

CN1(99/100)

C301
0.1

3

C303
0.1

5
304 6

C221
22
16V

R221
1k

C222
0.1

3

C223
100p

7
8
206

8

6

CN1(49/100)

49
50

MB,12-3
MB,12-4

CN1(77/100)

VF(G)OUT

77

MB,31-B2

CN1(78/100)

VF(X)OUT

78

MB,31-A3

CN1(45/100)

PB REF IN

45

AT,1-48
MB,12-17

CN1(10/100)

CORSOR 1 IN
CORSOR 2 IN

10
9

PR,1-43
PR,1-45

SKIN GATE IN

15

DA,1-5

EXT HD OUT
EXT VD OUT

6
5

PR,1-39
PR,1-41

HD IN
VD IN

40
39

AT,1-43/DA,1-44/
SG,1-49
AT,1-44/DA,1-43/
SG,1-50

R228
1k

R224
33

4

MONI(X)OUT
MONI(G)OUT

CN1(50/100)

4

R230
75

R222
22k

C224
2p

L202
1µH

R226
680

R225
820

C225
22
16V

C226
0.1

IC304(2/2)
TC7W32FU-TE12L

C206
0.1

R229
75

2

6

2

L203
1µH

R264
100

38
37

Q251
2SA1611-T1M7

Q250
2SC4177-T1L7

CN1(38/100)

GND
GND

Q252
2SA1611-T1M7
R257
3.9k

C254
39p
R250
100

SG,1-51
SG,1-52

36
35

GENLOCK(X)IN
GENLOCK(G)IN

R258
18k

CN1(36/100)

R261
10k

8

C307
0.1

VCC

2

HD
VD

IN

Q250

CN1(35/100)

Q251
C250
10
10V
:TA

S1

GEN

E-4
E-4
A-2
A-2
B-2
D-4
D-4
D-4
E-4
D-3
B-4
B-4
B-4
B-4
A-4
A-4
A-4
B-4

IC302
SN74HC74ANS-E05

IC301
EL4581CS-TE2

IC303
SN74HC74ANS-E05

C255
10
10V
:TA

R256
510

7

R259
510

RESET

C253
22p

RET
R252
2.2k

D250
HSM88AS-TL

R253
33k

301

C252
15p

GND

6

C308
0.1

4

1
3
5

C313
22
16V

4
2
3
1
10
12
11
13

14
VCC
5
1Q
1D 302
1CK
6
1Q
2Q
2D
2CK
2Q

C311
0.1

4
2
3
1
10
12
11
13

9
8

GND
7

R315
680k

C312
0.1

5

2/2

IC307(1/2)
TC7W08FU(TE12R)

IC309(1/2)
TC7W32FU-TE12L

IC309(2/2)
TC7W32FU-TE12L

R263
1M

CN1(37/100)

R251
100k

*
*
*
*
*

C14
33
16V

R14
20k

7

S1

R701
47k

Q701
9.3V
2SC2712L-TE85L

R706
47k

4

L2
0.47µH

-2.8V
-2.8V

14

D11
RD4.3UH-T1

C26
0.1

86
85

R13
240

4

12

-5.1V
-5.1V

R705
47k

CN1(91/100)

GND
GND
GND
GND

88
87

IC702
TC7S86FU(TE85R)

IC701(2/2)
LM393PS-E05

R703
20k

L700
1µH

CHAR BACK
CHAR C-VF ON
CHAR VBS ON

1

IF-510 (1/2)

14 C309
0.1
VCC
PR
5
1Q
1D 303
1CK
6
1Q
CLR
PR
9
2Q
2D
2CK
8
2Q
CLR
GND
7

C320
0.1

14
12
11
13 322

7
9
10 322

8

8

5

4
1
3
2 322
7

4
5 322

5
3
307 6
4

6

1
308 2
3

1
7
309 2

IC307(2/2)
TC7W08FU(TE12R)

4

C321
0.1

C322
0.1

IC308
TC7S08FU(TE85R)

R321
100
CN1(9/100)
R320
100

5
3
309 6

R322
1M

R323
1M

R311
4.7k

7

C315
0.1

C361
:N'M

+4.8V-2

L301
1µH

8
1
307 2

8 1
CN1(15/100)
5 306 3
310 2
R310
100
IC306(3/3)
4 SKIN GATE ON
5
TC7W04FU(TE12R)
3 310
CHAR CCU ON
6
CHAR

IC310(1/2)
TC7W08FU(TE12R)

R324
100

CN1(6/100)
CN1(5/100)

MB,12-1

53

RET VIDEO(X)IN

MB,12-2

54

RET VIDEO(G)IN

SG,1-55

34

18MHz(X)IN

14

CN1(53/100)

CN1(54/100)

R254
1k

4
2
3
1
10
12
11
13

IC352
TC7S04FU(TE85R)
C352
0.1

CN1(34/100)

2

5 4
3

SG,1-56

33

18MHz(G)IN

R325
100
IC310(2/2)
TC7W08FU(TE12R)R327
100

C353
0.1

CN1(33/100)

R354
1M

VCC
5

R361
0

CN1(40/100)

1Q
1D
1CK

CN1(39/100)

6

R362
:N'M

1Q
351
9
2Q
2D
2CK

IC322(1/4)
IC322(2/4)
IC322(3/4)
IC322(4/4)
SN74HC00ANS-E05 SN74HC00ANS-E05 SN74HC00ANS-E05 SN74HC00ANS-E05

IC351
SN74HC74ANS-E05

R326
100

SKIN GATE
SKIN GATE 2
CARSOR

1
2
3

R328
1M

R329
1M

2/2
2/2
2/2

8
2Q
GND
7

IF-510 (1/2)
BOARD NO. 1-657-453-12
LOT NO. 509B-¥BVP550-IF510-12

8-18
A

B

C

D

8-18

BVP-550

E

F

G

H

IF-510 (2/2)

IF-510 (2/2)

BVP-550 (SY)

1

1

C351
0.1
25V

R351
10k

4

4

CN1(48/100)

-4.8V
-2.5V
+4.8V

7
8
9

1/2
1/2
1/2

CHAR BACK
CARSOR

4
3

1/2
1/2

C350
10
16V
R353
1k

5

N/P IN

1/2

3

1
48

5

R352
22k

2

DA,1-41
VA,1-41
SG,1-36
PR,1-106

+4.8V-2
9.3V

Q352(2/2) Q353(1/2)
Q354
IMH2-T110 IMH2-T110 DTA144EUA-T106

Q352(1/2)
IMH2-T110

2

6
5
3
6

MB,31-B3

47

N/P OUT

Q353(2/2)
IMH2-T110

CN1(47/100)

CN1(76/100)
CN1(75/100)
CN1(74/100)

1/2

10

CHARAC

CN1(73/100)

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

MB,31-B8
MB,31-A9
MB,31-B9
MB,31-A10

76
75
74
73

CORSOR

Q401
2SA1611-T1M7

Q402
2SC4177-T1L7

Q403
XP6534-TX

Q404
2SC4178-F13F14-T
1
D400
1SS302-TE85L

IC400
TC4W53FU(TE12R)

Q405
2SA1611-T1M7

Q411
Q412
IC410
2SC4178-F13F14-T
2SA1611-T1M7
TC4W53FU(TE12R)
1
Q410
Q413
Q414
D401
XP6534-TX
2SA1611-T1M7
2SC4177-T1L7
1SS302-TE85L

Q406
2SC4177-T1L7

2

Q421
IC420
2SC4178-F13F14-T
Q422
TC4W53FU(TE12R)
1
2SA1611-T1M7
Q420
Q423
Q424
D402
XP6534-TX
2SA1611-T1M7
2SC4177-T1L7
1SS302-TE85L

SKIN GATE 2

Q430
2SA1611-T1M7

Q421
Q404
R401
6.8k

L402
1µH

Q411

R406
5.6k

C401
22 R412
16V 22k

C405
22
16V

R413
6.8k

C408
22
16V

R418
5.6k

R423
6.8k

R425
6.8k

C415
22
16V

R430
5.6k

C412
22
16V

1/2

2

Q431
2SC4177-T1L7

R437
6.8k

R435
6.8k

R444
6.8k

C419
22
16V

8
8

8
Q402

Q406
D400
C400
1p

Q403
Q401
R403
360

7
6

R404
3k

R400
100

R411
1k

Q405

1
2

R416
150

R407
3.9k

R408
2.2k

4 5 3

R419
3.9k

C402
22
16V

R422
3.9k

R420
2.2k

C406
15
10V

C404
0.1

R429
2.4k

Q422

R426
1.5k

Q424
1
2

R431
3.9k

R432
2.2k

CN1(16/100)

MB,12-23

16

SKIN GATE OUT

Q430 C423
:NM
C417
0.1

R434
3.9k

Q431
R448
10

4 5 3
R443
1k

R438
1.5k

C424
:NM

R447
2.2k

R436
1k

C416
22
16V

C413
15
10V

C411
0.1

Q423

R446
2.2k

R441
8.2k
R439
68

R433
2.7k

R424
1k

C409
22
16V

420

7
6

Q420

C410
0.1

R421
2.7k

R414
1.5k

R410
3.9k

R428
150

C414
1p

R415
68
C403
0.1

D402
R427
68

4 5 3

Q413

R445
2.2k

Q414
1
2

Q410
C407
1p

R409
2.7k

R405
36k
R402
3.3k

Q412

R417
2.4k

410

7
6

D401

400

C420
15
10V

C418
0.1

L401
1µH

L400
1µH

CHAR BACK C-VF

SKIN GATE

3

1/2

1

C422
0.1

DA,1-71
DA,1-72
DA,1-69
DA,1-70
DA,1-67
DA,1-68

72
71
70
69
68
67

Y(X)IN
Y(G)IN
R-Y(X)IN
R-Y(G)IN
B-Y(X)IN
B-Y(G)IN

4

12

DA,1-6
SG,1-23

R PEEK OUT
G PEEK OUT
B PEEK OUT

19
18
17

AT,1-75
AT,1-74
AT,1-73

PEEK GND

20

AT,1-72

PEEK RESET IN
WINDOW IN

26
25

AT,1-46
AT,1-45

64
63
60
59
62
61

MB,11-20
MB,11-17
MB,11-20
MB,11-19
MB,11-20
MB,11-18

IC404
TC4S69F(TE85R)
R501 0

Q500
XP6534-TX

CN1(68/100)
CN1(67/100)

DL SYNC IN

R442
100

R500 0

CN1(70/100)
CN1(69/100)

CN1(12/100)

2
3

C421
22p

CN1(72/100)
CN1(71/100)

5

R440
100

SYNC

Q502
Q501
2SA1226-T1E4 2SC2223-T1F14

CN1(19/100)
CN1(18/100)

R502 0

Q503
XP6534-TX

Q504
Q505
2SA1226-T1E4 2SC2223-T1F14

Q506
XP6534-TX

Q507
Q508
Q509
Q510
IC501(2/2)
IC500(1/3)
2SA1226-T1E4 2SC2223-T1F14 2SA1611-T1M7 2SC4177-T1L7 TL082CPS-E05 TC74HC4053AFS-EL

IC500(3/3)
TC74HC4053AFS-EL

IC500(2/3)
TC74HC4053AFS-EL

IC501(1/2)
TL082CPS-E05

IC502(1/2)
IC502(2/2)
L500
TC7W08FU(TE12R) TC7W08FU(TE12R) 1µH

CN1(17/100)

CN1(20/100)
C502
4p
R507 50V
1.5k :TA-CA
R503
3k

R505
1.8k
C500
,N'M

R504
0

Q501

R513
0
R516
3k

Q502
C501
,N'M

R518
1.5k
C506
,N'M

R510
1.8k

R506
130

R512
47

Q504

R521
1.5k

R515
10

R517
0

C508
4p
50V
:TA-CA

C507
,N'M

R508
1.8k

R514
1.5k

R543
6.8k

Q508
C512
,N'M

R533
910

R536
2k

R534
91

R537
68

16
R544
1k

R525
47

R528
10

C509
4p
C510
22
16V

Q503
R520
1.8k

R522
1.2k

R524
5.6k

R527
1.5k

R530
3k

C513
10p

Q506

R531
1.8k

5
6

C511
15
10V

C505
15
10V

R538
1.8k

8
7

5
3

500

C519
0.1
35V

9

R555
10k

2
1

C515
4p
R541
1.5k

C516
22
16V

R542
10

C518
10p

R545
3.3k

2
3

R546
100

4

4

Q509

R539
47

R540
5.6k

R535
510

D500
1SS302-TE85L

Q510

R519
18

R509
1.2k
R511
5.6k

Q507

Q505

R523
1.8k

Q500

C514
6p
50V
:TA-CA

R532
1.2k

R529
0

C503
4p
C504
22
16V

R526
0

R547
100

12
13

1

C524
0.1

500
14
7

R548
10k

C525
0.1

6 11 8
7

500

8
1
502 2
4

3

6
502 5
R551
100

15

R554
3.3k

R553
3.3k

C520
22
16V

CN1(25/100)

10

R549
100k

C517
15
10V

C521
22
16V

4
CN1(26/100)

C522
0.1

R550
100k

R552
100

L501
1µH

L502
1µH
CN1(64/100)
CN1(63/100)
CN1(60/100)
CN1(59/100)
CN1(62/100)
CN1(61/100)

R(G)
R(X)
B(G)
B(X)
G(G)
G(X)

OUT
OUT
OUT
OUT
OUT
OUT

5

IF-510 (2/2)
BOARD NO. 1-657-453-12
LOT NO. 509B-¥BVP550-IF510-12

8-19

BVP-550

AI

J
B

K
C

L
D

8-19
E
M

NF

O
G

P
H

MB-602
MB-602 BOARD

MB-602

BVP-550 (SY)

1
TO PR-211 BOARD

CE0(PR)
NC
DB7(PR)
2FH IN
DB6(PR)
LALT IN
DB5(PR)
FLD1 IN
DB4(PR)
BLKG IN
DB3(PR)
BF IN
DB2(PR)
SYNC IN
DB1(PR)
VD IN
DB0(PR)
HD IN
RD(PR)
NRW BLKG IN
WR(PR)
A VD OUT
CE1(PR)
A HD OUT
CHAR BACK IN
CURSOR 2 OUT
CHAR VF IN
CURSOR1 OUT
TITLE BACK IN
EXT VD IN
TITLE IN
EXT HD IN
Y(L)OUT
D OUT EN
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
Y(G)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
R-Y(G)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
B-Y(8)OUT
B-Y(M)OUT
B-Y(G)OUT
18MHz(G)IN
18MHz(X)IN
36MHz(G)IN
36MHz(X)IN

NC

TDI(SH)
TDI(EN)
TMS(SH)
TMS(EN)
TDO(SH)
TDO(EN)
TDI(DET)
TDI(PR)
TMS(DET)
TMS(PR)
TDO(DET)
TDO(PR)
TCK
TRST
A1(PR)
GND
AO(PR)

140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN6

PR(1/2)

A GND
A GND
A GND
A GND
D GND
D GND
D GND
D GND
+5.1V
+5.1V
-5.1V
-5.1V
-2.8V
-2.8V
+3.3V
+3.3V
+3.3V
+3.3V
+7.3V
+7.3V
VF-Y(G)OUT
VF-Y(X)OUT
HI-Y(G)OUT
HI-Y(X)OUT
C(G)OUT
C(X)OUT
SC CONT IN
NC
INT SC(X)OUT
INT SC(G)OUT
36MHz(G)OUT
36MHz(X)OUT
18MHz(G)OUT
18MHz(X)OUT
N/P IN
INT/EXT IN
AD EN

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
TEST SAW(X)OUT
TEST SAW(G)OUT
HTSG OUT
H CLP IN

CN7
24P

PR(2/2)

2.5V REF IN
G B SHADING OUT
R B SHADING OUT
B B SHADING OUT
B SHADING GND
G W SHADING OUT
R W SHADING OUT
B W SHADING OUT
W SHADING GND
G FEEDBACK OUT
R FEEDBACK OUT
B FEEDBACK OUT
FEEDBACK GND
B(X)IN
B(G)IN
R(X)IN
R(G)IN
G(X)IN
G(G)IN

TO PR-211 BOARD

E68
E69
E70
E71

D7
D8
D9
D10
D11
D12
D13
D14
D15
D16
D17
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
D32
D33
D34
D35
D36
D37
D38
D39
D40
E36
E37
E38
E39
E40
E41
E42
E43
E44
E45
E46
E47
E48
E49
E50
E51
E52
E53
E54
E55
E56
E57
E58
E59
E60
E61
E62
E63
E64
E65
E66
E67

E35

E34

E72

E33
F13

E25
E26
E27
E28
E29
E30
E31
E32

D1
D2
D3
D4
D5
D6

A9

A3

A10

A11

A5

E21
E22
E23
E24

E1
E2
E3
E4
E5
E6
E7
E8
E9
E10
E11
E12
E13
E14
E15
E16
E17
E18
E19

A6

C16
0.1

2
A6

1
2
3
4
5
6
7
8
9
10
11
12

LENS UNREG
LENS UNREG(G)
RET EN IN
IRIS POSI IN
IRIS CONT OUT
ZOOM POSI IN
EX ON
AUTO 5V
REM/LOCAL
VTR S/S IN
LAUX 1
LAUX 2

4

B(G)IN
B(X)IN
G(G)IN
G(X)IN
R(G)IN
R(X)IN
NC
NC

L3
L4

C8 C9 C10 C11
0.1 0.1 0.1 0.1

N3
N4
N5
N6

A17
A19
L10
L9
L15
L12
L13
L16
L14
L11
L18
L19

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

A9
A5
A7
A11
A10
A3
E3
E4

N8
L5
L17
L2
L1

TO
CCD UNIT

CN22
20P

DR

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

CN23
24P

TG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

VA

CN1

A6

M2
M1
M4
M3
M6
M5

-2
D GND

M5
M3
M1

A4

E7
E8

A14
A13
A8
A2

E11
E12
E16
E18
E14

A1
M7
L6
L7
L8
A10

A4
E59
E57
F1
F2
E71
E70
E69
E68
E23
M8
M9
M10

E21

M7
M9
F18
E59

E24
G5
G3
G7
G8

G8

R1
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF OUT
-5.1V
-2.8V
+3.1V

R B SHADING IN
B B SHADING IN

G B SHADING IN
B SHADING GND

R(X)IN
G(X)IN
B(X)IN

R(G)IN
G(G)IN
B(G)IN

R W SHADING IN
B W SHADING IN

G W SHADING IN
W SHADING GND

R FEEDBACK IN
B FEEDBACK IN

G FEEDBACK IN
FEEDBACK GND

R(X)OUT
G(X)OUT
B(X)OUT

R(G)OUT
G(G)OUT
B(G)OUT

N/P IN

TEST SAW(X)IN

V CLP IN
H CLP IN
NC
A HD IN
NC
IIC CLK

TEST SAW(G)IN

PBLKG IN
D CLP IN
SAMPLE3 IN
A VD IN
IIC DATA
LD(VA)IN

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

C12 C13 C14
0.1 0.1 0.1

AT

CN2

A6

A6
C19
0.1

C15
0.1

A9
A5
A7
A11
A10
A3
L19
L1
L3
L5
K2
K4
L6
L8
L10
L12
L14
L16

A9
A5
E1
A11
A10
A3
E2
E5
M6
M4
M2
E6
E9
E10
E13

J2
F5

E17
E19
E15

B16
B19
B31
K5
F11
E35
E36
E40
E44
E48
E52
E56
E62
E66
E57
E59
G1
G3
G5
G7

F13

E22

M8
M10
F19
E57

B43
B45
B40

G7
G1

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V
LAUX 2
VF RGB OUT
ABNORMAL OUT
WIDE OUT
G PEEK IN
PEEK GND
ND FILT IN
TEMP IN
RET EN IN
ZOOM POSI IN
REM/LOCAL
AUTO 5V
TALLY ON OUT
18MHz(G)IN
VTR S/S OUT
RET EN OUT
PB REF IN
PEEK RESET OUT
VD IN
A0(PR)
CE0(PR)
DB6(PR)
DB4(PR)
DB2(PR)
DB0(PR)
WR(PR)
CHAR VF OUT
TITLE OUT
A VD IN
A HD IN
LD(VA)OUT
LD(TG)OUT
LD(CCD)OUT
IIC DATA
IIC DATA(CA)
IIC DATA(ST)
NC
COM CONT
RM DATA IN
RE A

R2
0

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V
ZEBRA ON/OFF IN
VF COLOR IN
G TALLY OUT
R PEEK IN
B PEEK IN
NC
CC FILT IN
IRIS POSI IN
VTR S/S IN
EX ON
IRIS CONT OUT
LAUX 1
REC TALLY IN
18MHz(X)IN
VTR RESET IN
TAPE REM IN
BATT ALERM IN
AUDIO LEVEE IN
WINDOW OUT
HD IN
A1(PR)
DB7(PR)
DB5(PR)
DB3(PR)
DB1(PR)
RD(PR)
CE1(PR)
CHAR BACK OUT
TITLE BACK OUT
V RESET OUT
NC
LD(SG)OUT
LD(DA)OUT
LD(IF)OUT
IIC CLK
IIC CLK(CA)
IIC CLK(ST)
CA(CONT/DATA)
COM DATA
RM DATA OUT
RE B

C18 C20 C21
0.1 0.1 0.1

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

SG

CN3

A6

A6

C17
0.1

A9
A5
A7
A11
A10
A3

A9
A5
A11
A10
A3
L17
L2
L4
K1
K3

B29
E25
E27

E72
L7
L9
L11
L13
L15
L18

F1
F2
E29
E31
J1

F3
F5
F7
F9
F11

F6
J3
B17
B15
B18
K6
F12

E37
E41
E45
E49
E53
E59

E34
E38
E42
F13

E46
E50
E54
E58
E60
E64
F17

F17
F18
F19

G2
G4
G6
G8
B42
B44
B10
B41

B35
B36
B38
B34
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R3
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V

GENLOCK(X)IN
SC CONT OUT
INT SC(X)IN

GEN(G)/H CONT IN
NC
INT SC(G)IN

VCO CONT OUT
VCO CONT(G)
36MHz(G)IN
18MHz(G)IN
36MHz(G)OUT
18MHz(G)OUT
NC
GENLOCK(G)OUT
VD OUT
NC
LALT OUT
BLKG OUT
SYNC OUT
HD OUT
A HD IN
N/P OUT
TDI
TDO
TCK

36MHz(X)IN
18MHz(X)IN
36MHz(X)OUT
18MHz(X)OUT
NC
GENLOCK(X)OUT
HD OUT
2FH OUT
FLD1 OUT
BF OUT
VD OUT
NRW BLKG OUT
A VD IN
INT/EXT OUT

NC
NC
SAMPLE3 OUT

DL BLKG OUT
DL SYNC OUT
V RESET IN
V RESET IN/CF OUT
SAMPLE2 OUT

18MHz(X)OUT
SAMPLE1 OUT
SYNC OUT
HD OUT
BLKG
IIC CLK

18MHz(G)OUT
VD OUT
CF OUT
H CONT IN
IIC DATA
LD(SG)IN

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

C23 C24 C25
0.1 0.1 0.1

A6

C22
0.1

A9
A5
A11
A10
A3
B30
E26
E28

E30
E32
F4
F6
F8
F10
F12
E39
E43
E47
E51
E55
E57
E33

F15
F16
B20
F20

B37
B39
B46
G7
G2

A9
A5
A11
C30
0.1

C31
0.1

A4

A6

C29
0.1

C26
0.1

A5
A6

LENS

PA

1
2
3
4
5
6
7
8

G7
G8

CN32
12P

N2
N1
N7
B15

CN21
8P

B11
B9
A15

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

A7
A16
A18

A6
A5
A7

+9.3V
VF UNREG
VF UNREG(G)
VF(G)OUT
VF(X)OUT
N/P OUT
BATT ALERM OUT
ABNORMAL OUT
G TALLY OUT
TALLY OUT
WIDE OUT
ZEBRA ON/OFF OUT
VF COLOR IN
VF RGB OUT

1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20

A12
A2
A1

VF

B14
B13
B12

3

A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10

C7
0.1

A1

CN31
20P

C6
0.1

C27
0.1

5

TO CN-1122 BOARD

8-20
A

B

C

D

1
2
3
4
5

+5.1V
A GND

SW

IIC DATA
IIC CLK

CN42
5P

AUDIO CH1 CONT IN
VTR SAVE
POWER SAVE

RE B
RE A
RM DATA OUT
RM DATA IN
IIC CLK
IIC DATA

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

RM VBS(X)OUT
RM VBS(G)OUT
A GND
+5.1V
+9.3V

CN

MIC(X)IN
MIX(Y)IN
MIC(G)IN

CN41
24P

+48V
UNREG OUT
UNREG(G) OUT

C28
0.1

TO SW-732 BOARD.

8-20

BVP-550

E

F

G

H

MB-602

MB-602

1
CN51
26P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26

D/D

GND(UNREG)
GND(UNREG)
UNREG
UNREG
+3.1V
+3.1V
GND(D)
GND(D)
+5.1V
+5.1V
A GND
A GND
+9.3V
+6.5V
+7.3V
+7.3V
-2.8V
-5.1V
A GND
A GND
+48V
+15V
A GND
POWER SAVE
-11V
A GND

TO D/D

-2

A15
A14

Q1
2SA811A-T1C15

110P(1/4)
A1

A12

A13

A10
A11
A4

A7
A8
A9

A5
A6

A3

A GND

A3

A2

A1

R6
0

D1
DE5LC20U-TA2
R7
10k
1/16W

A18

Q2
2SC1622A-T1D17

R9
10k

213

R8
56k
1/16W R10
10k

A19
A2
S1

A16

DA

CN4

A6

A9
A5
A7
A11
A10
A3
H1
D2
D4
D6
H3
H5
H7
H9
B24
B24
B24
B28

E60
F4
F6
F12
D7
D9
D11
D13
D15
D17
D19
D21
D23
D25
D27
D29
D31
D33
D35
D37
D39
F15
F16
F20
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R4
0

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V

VF-Y(X)OUT
VF-Y(X)IN
HI-Y(X)IN
C(X)IN
Y(G)OUT
R-Y(G)OUT
B-Y(G)OUT
VBS(G)OUT
Y(G)OUT
R-Y(G)OUT
B-Y(G)OUT
Y(G)OUT
C(G)OUT

VF-Y(G)OUT
VF-Y(G)IN
HI-Y(G)IN
C(G)IN
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
VBS(X)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y(X)OUT
C(X)OUT
CHAR VF IN

CHAR BACK IN
36MHz(X)IN
18MHz(X)IN
HD IN
Y(L)IN
Y(1)IN
Y(3)IN
Y(5)IN
Y(7)IN
Y(M)IN
R-Y(L)IN
R-Y(2)IN
R-Y(4)IN
R-Y(6)IN
R-Y(8)IN
R-Y(G)IN
B-Y(1)IN
B-Y(3)IN
B-Y(5)IN
B-Y(7)IN
B-Y(M)IN
DL BLKG IN
DL SYNC IN
SAMPLE2 IN
IIC CLK

36MHz(G)IN
18MHz(G)IN
VD IN
N/P IN
Y(2)IN
Y(4)IN
Y(6)IN
Y(8)IN
Y(G)IN
R-Y(1)IN
R-Y(3)IN
R-Y(5)IN
R-Y(7)IN
R-Y(M)IN
B-Y(L)IN
B-Y(2)IN
B-Y(4)IN
B-Y(6)IN
B-Y(8)IN
B-Y(G)IN
VTR SYNC OUT
SKIN GATE OUT
IIC DATA
LD(DA)IN

IF

CN5

A6

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

A6

A9
A5

A9
A5
A7
A11
A10
A3
A2
H1

A11
A10
A3
H2
D1
D3
D5
H4
H6
H8
H10

N1
N3
N5
H4
H6
H8
H10
B21
B22
B23

B4
B4
B4
B6
B30
B8

B27
E62

B48
F3
F5
F11
F13
D10
D12
D14
D16
D18
D20
D22
D24
D26
D28
D30
D32
D34
D36
D38
D40

F13
B50
F12
F8
F10
F6
J1
J3
K5

K4
K2
B51
F15
F16
E63
E60
E67

B33
H11
G7
G4

F20
G8

100
98
96
94
92
90
88
86
84
82
80
78
76
74
72
70
68
66
64
62
60
58
56
54
52
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2

R5
:NM

A GND
A GND
D GND
+7.3V
+5.1V
+9.3V
-5.1V
-2.8V
+3.1V
UNREG
VF-Y(X)IN
VF(X)OUT
VF Y(X)OUT
VF B-Y(X)OUT
Y(X)IN
R-Y(X)IN
B-Y(X)IN
VBS(X)IN
R(G)OUT
G(G)OUT
B(G)OUT
VBS(G)OUT

A GND
A GND
D GND
+7.3V
+5.1V
2.5V REF IN
-5.1V
-2.8V
+3.1V
GND(UNREG)
VF-Y(G)IN
VF(G)OUT
VF R-Y(X)OUTT
VF Y/R-Y/B-Y
Y(G)IN
R-Y(G)IN
B-Y(G)IN
VBS(G)IN
R(X)OUT
G(X)OUT
B(X)OUT
VBS(X)OUT

RET VIDEO(G)IN

RET VIDEO(X)IN

MONI(G)OUT
N/P IN

MONI(X)OUT
N/P OUT
PB REF IN
TEST(X)OUT

TEST(G)OUT
HD IN
NC
GENLOCK(X)IN
18MHz(X)IN
REC TALLY OUT
VTR RESET OUT
PEEK RESET IN

VD IN
NC
GENLOCK(G)IN
18MHz(G)IN
REC TALLY IN
TALLY ON IN
TALLY OUT
WINDOW IN

RM VBS(G)OUT
PEEK GND
G PEEK OUT
SKIN GATE OUT
DL BLKG IN
DL SYNC IN
CURSOR 1 IN
CHAR BACK IN
EXT HD OUT
SAMPLE2 IN
IIC CLK

RM VBS(X)OUT
R PEEK OUT
B PEEK OUT
SKIN GATE IN
IIC DATA(CA)
IIC CLK(CA)
CURSOR 2 IN
CHAR VF IN
EXT VD OUT
IIC DATA
LD(IF)IN

A17

IC1
TC74VHC541FS(EL)

A6

99
97
95
93
91
89
87
85
83
81
79
77
75
73
71
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1

20

C1
0.1
RB1

D23
D24
D25
D26
D27
D28
D30
D31

A9
A5
A11
A10
A3
A1

9
8
7
6
5
4
3
2

VCC
1

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C15
C16
C17
C18
C19
C20
C21
C22

2
4
6
8
2
4
6
8

C29
C27
C25
C23
C24
C26
C28
C30

2
4
6
8
2
4
6
8

C14
C13
C12
C11
C10
C9
C8
C7

G1 G2 GND

H2

RB2

N2
N4
N6

1 19 10

D8

IC2
TC74VHC541FS(EL)

H3
H5
H7
H9

20

C2
0.1

B1
B2
B3
B4
B5
B6
B21
B22
B23
B24
B27
B28
B29
B30

RB3

D38
D36
D34
D32
D33
D35
D37
D39

B1
B2
B3
B5
B29
B7

9
8
7
6
5
4
3
2

VCC
2

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

G1 G2 GND
RB4

B47
N7
B31
B49

1 19 10

D8

20

C3
0.1
RB5

F11
F7
F9
F5
B32
J2
N8

D22
D21
D20
D19
D17
D16
D15
D14

9
8
7
6
5
4
3
2

K6

VCC
3

11
12
13
14
15
16
17
18

1
3
5
7
1
3
5
7

B17
B18
B33
B19
B20
B31
B32
B46
B9
A6

G1 G2 GND
RB6

1 19 10

D8
K1
K3

IC4
TC74VHC541FS(EL)

H11
B43
B42
E61
E62
E65
G7
G6

110P(2/4)
B7
B8
B47
B48
B15
B16
B11
B12
B13
B14
A6

IC3
TC74VHC541FS(EL)

20

C4
0.1
RB7

D13
D12
D11
D10
D9
D7

8
7
6
5
4
3
2
9
-2

VCC
4

12
13
14
15
16
17
18
11

1
3
5
7
1
3
5
7

2
4
6
8
2
4
6
8

C6
C5
C4
C3
C2
C1
C31

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

B38
B51
B10
B40
B41
B42
B43
B44
B45

G1 G2 GND

RET VIDEO(X) IN
RET VIDEO(G) IN
MONI(X) OUT
MONI(G) OUT
BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G) OUT
MIC(Y) OUT
MIC(X) OUT
A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/ CF OUT
PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

CN11
30P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
CN12
30P

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

2

TO CN-1120 BOARD

C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C27
C28

C30
C29

RB8

1 19 10

D8
D18
D29
D40

-2

G8

G7
A5

R11
4.7k

VDD

A1

SCL

2

CN14
20P

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

BNC

CN15
3P

B49
B50

TEST(X)OUT
TEST(G)OUT

1
2
3

B39

R12
100k

5
SDA

110P(4/4)

B37
B36
B35
B34

C31
C32

8

A0

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

D GND
D GND
D GND
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG

C32

1

CN13
30P

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

D GND
D GND
D GND

IC5
X24C02S-3.0-C700
0

110P(3/4)

6

3

3

4
TO CN-1121 BOA

5

A2
5
CPE

7

C5
0.1

VSS
4

MB-602

MB-602

-2

A1

A2

B-¥ BVP550-MB
BOARD NO.
1995.8.8

1-657-437-14
LOT NO. 509B-¥BVP550-MB602-11

8-21

BVP-550

I

J

K

L

8-21
M

N

O

P

CN-1120/1121/1122/1142 SW-730/731/732/733/742

1

FRAME WIRING

FRAME WIRING

FRAME WIRING CN-1120/1121/1122/1142 SW-730/731/732/733/742

BVP-550 (SY)

CN42

IIC DATA
IIC CLK
+5.1V
A GND

HARNESS
(VF)

5

4

10

VF Y(X)OUT
ZEBRA ON/OFF IN
VF(X)OUT

9

16

15

14

20

19

18

13

VF B-Y(X)OUT
VF R-Y(X)OUT
BATT ALERM OUT
TALLY OUT
+9.3V
VF UNREG(G)
VF UNREG

2

9
0
1
2
3
4
6
9
7
8

8
0
7
3
9
9
9
9
9
1
4
2
0
1

CN301(1/5)

IIC DATA
IIC CLK

1
2
3
4
5

R7
220k

CN301(2/5)
CN301(3/5)
CN301(4/5)

+5.1V
A GND

89
9
9
9

89
89

R9
100k

R8
220k

R3
100k

CN301(5/5)
S1

S2

DISP/MENU

MONI

S3

R6
1k

R4
100k

VF Y(X)OUT
VF R-Y(X)OUT
VF B-Y(X)OUT
VF Y/R-Y/B-Y(G)

ON

R

OFF

G

MENU

B

R10
100k

R5
1k

C2
0.1

16 15 14 13 12 11 10 9
VCC SDA SCL INT P7 P6 P5 P4

RGB

R1
100k

R2
100k

C1
0.1

1
A0 A1 A2 P0 P1 P2 P3 GND

1 2 3 4 5 6 7 8

IF-510

6

11

89

1
11
2
12
3
13
4
14
5
15
6
16
7
17
8
18
9
19
10
20

DA-88

7

1

CN301

ENC

+9.3V
VF UNREG
VF UNREG(G)
VF(G)OUT
VF(X)OUT
N/P OUT
BATT ALERM OUT
ABNORMAL OUT
G TALLY OUT
TALLY OUT
WIDE OUT
ZEBRA ON/OFF IN
NC
COMP/VBS SW IN/OUT

SG-234

17

2

2
6

A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10

AT-95

8
12

3

COMP/VBS SW IN/OUT
N/P OUT
NC
G TALLY OUT

HARNESS
(RG)
0
1
2
3
4

CN31

2
1
0

VA-163

ABNORMAL OUT
WIDE OUT

CN903
(VF)

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

1
2
3
4
5

BOARD NO. 1-657-442LOT NO. 509-

IC1
PCF8574T

SW-732

IRIS CONT OUT
HARNESS
(LENS)

TEST(X)OUT
TEST(G)OUT
89

1
2
3

CN15

MIC(G)IN
MIX(Y)IN
MIC(X)IN

UNREG(G)OUT
UNREG OUT
+48V

FLAT
CABLE

CN41

3

MB-602
+9.3V
+5.1V
A GND
RM VBS(G)OUT
RM VBS(X)OUT

4

LENS UNREG
LENS UNREG(G)
RET EN IN
IRIS POSI IN
IRIS CONT OUT
ZOOM POSI IN
EX ON
AUTO 5V
REM/LOCAL
VTR S/S IN
LAUX 1
LAUX 2

IIC DATA
IIC CLK
RM DATA IN
RM DATA OUT
RE A
RE B

5

1
2
3
4
5
6
7
8
9
10
11
12

POWER SAVE
VTR SAVE
AUDIO CH1 CONT IN

9 1
8 10 2
7 12 11 3

CN32

1
0
0
1
2
3
4
6
7
8
9
2

0
8
0
6
2
1
1
7
4
3
9
2

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

CN904
(LENS)

6

1
2
3
4
5
6
7
8
9
10
11
12

RET EN IN
VTR S/S IN
LENS UNREG(G)
AUTO 5V
IRIS CONT OUT
LENS UNREG
IRIS POSI IN
REM/LOCAL
EX ON
ZOOM POSI IN
LAUX 1
LAUX 2

CN905
(MIC)

R1
100k

R2
100k

RV1 CN501(5/6)
5k
CN501(6/6)

MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT

UNREG GND
UNREG IN
+48V IN

+9.3V IN
+5.1V IN
GND
RM VBS(G)IN
RM VBS(X)IN

CN407(1/6)
CN407(2/6)
CN407(3/6)
CN407(4/6)

CN401(1/24)

CN401(2/24)

CN401(3/24)

CN401(4/24)

CN401(5/24)

CN401(6/24)

CN401(7/24)

CN401(8/24)

1
C1
0.1

7
8
9
0
1
2

CN401(9/24)

R7 CN501(3/6)
1k CN501(4/6)

1
2
3
4
5
6

CN401(10/24)

CN501(2/6)

ABB

+9.3V
+5.1V
IIC CLK
IIC DATA
A GND
AUDIO CH1 CONT OUT

CN401(11/24)

CN501(1/6)

16 15 14 13 12 11 10 9

CN407

CN407(5/6)

CN401(12/24)

AWB

CN901
(TEST OUT)

CN-1122
HARNESS

CN401(13/24)

CN406(3/3)

CN401(14/24)

CN406(2/3)

CN401(15/24)

MIC(X) IN
MIC(Y) IN
MIC(G) IN

CN401(16/24)

1
2
3

CN501

VCC SDA SCL INT P7 P6 P5 P4

4

BOARD NO. 1-657-444LOT NO. 509-

C4
0.1

CN401(17/24)

R3
100k

CN401(18/24)

R4
100k

IIC DATA
IIC CLK
RM DATA OUT
RM DATA IN
RE A OUT
RE B OUT

R5
1k

AWB/ABB

ON
SEL

R6
1k

CN401(19/24)

OFF

SHUTTER

R11
100k

CN401(20/24)

VTR START/STOP

S2

CN401(24/24)

S1

CN406(1/3)

CN401(21/24)

3
S3

CN406

24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

89
HARNESS
(MIC)
2
9
0
89

1 2

CN401

SW-731

R10
220k

POWER SAVE OUT
CN401(23/24)
VTR SAVE OUT
CN401(22/24) AUDIO CH1 CONT OUT

R9
220k

CN407(6/6)

RM DATA OUT
RM DATA IN
UNREG GND
RM VBS(X)OUT
RM VBS(G)OUT
UNREG OUT

1
2
3
4
5
6

(RM)
9
9

CN902
(REMOTE)
80
84

80
9
9
89

89

1
2
3
4
5
6

RM DATA IN
RM DATA OUT
UNREG GND
RM VBS(X)OUT
RM VBS(G)OUT
UNREG OUT

1 6
2

5
3 4

C2
C1
0.33µ 0.33µ
50V
50V
:BP
:BP

A0 A1 A2 P0 P1 P2 P3 GND

1 2 3 4 5 6 7 8
R3
1k

C5
100µ
50V
:AL

R2
4700
:RN-C

R1
4700
:RN-C

BOARD NO. 1-657-443LOT NO. 509-

CN402

IC1
PCF8574T
R8
0

9
9

84

0
1
2
3
4
6
7
8
9
0
1
2

C3
100p

C2
*

CN601

S1

CANCEL

CN601(1/3)

CANCEL

CN601(2/3)
CN601(3/3)

BOARD NO. 1-657-446LOT NO. 509-

GND

1
2
3

4
6

1
2
3
4
5
6
7
8
9
10
11
12

R15
220k

RE A IN
CN402(2/12)
RE B IN
CN402(3/12)
SET IN
CN402(4/12)
GND
CN402(5/12)
CANCEL IN
CN402(6/12)
GND
CN402(7/12)
+9.3V OUT
CN402(8/12)
+5.1V OUT
CN402(9/12)
IIC CLK
CN402(10/12)
IIC DATA
CN402(11/12)
GND
CN402(12/12)
AUDIO CH1 CONT IN

R7
1k

CN405
C3

C4
CN405(1/11)
CN405(2/11)
CN405(3/11)
CN405(4/11)
CN405(5/11)
CN405(6/11)
CN405(7/11)

S1

CN405(8/11)

MENU SEL

CN405(9/11)
CN405(10/11)

CN701(1/4)

5

CN701(2/4)
CN701(3/4)
CN701(4/4)

BOARD NO. 1-657-445LOT NO. 509-

RE A
RE B
SET
GND

1
2
3
4

SW-733

BOARD NO. 1-657-447LOT NO. 509-

CN405(11/11)

UNREG OUT
UNREG GND
VTR SAVE IN
POWER SAVE IN
+9.3V OUT
+5.1V OUT
IIC CLK
IIC DATA
CANCEL OUT
SET OUT
GND

1
2
3
4
5
6
7
8
9
10
11

HARNESS
(SW)
0
1
2
3
4
6
7
8
9
0
1

1
2
3
4
5
6
7
8
9
10
11

UNREG IN
UNREG GND
VTR SAVE
POWER SAVE
+9.3V
+5.1V
II C CLK
II C DATA
CANCEL IN
SET IN
A GND

CN801(1/11)

16 15 14 13 12 11 10 9

CN801(2/11)

VCC SDA SCL INT P7 P6 P5 P4

CN801(3/11)

R13
100k

C3
0.1

R10
100k

CN801(4/11)
CN801(5/11)

R4
100k

R5
100k

1

C1
0.1

R11
100k

CN801(6/11)

A0 A1 A2 P0 P1 P2 P3 GND

CN801(7/11)

1 2 3 4 5 6 7 8
CN801(8/11)
CN801(9/11)
CN801(10/11)
CN801(11/11)

0
1
2
3

R1
3300

POWER
R2
10k

HARNESS
(FRONT)

S1
S2

S3

ON

L

DCC ON

ON

M

SAVE

H

8-22
C

D

S4
B
A

BAR

RESET

R3
10k

GAIN

SW-730

B

R12
100k

R9
100k

CN801

D1
RD9.1M

A

R8
100k

R6
1k

IC1
PCF8574T

SW-742

CN701

R14
220k

CN402(1/12)

8-22

DCC

WHITE

BVP-550

E

F

G

H

I
J

BVP-550

K

8-23

L

TO ANALOG CA

M

CN-1120
BOARD NO. 1-657-440LOT NO. 509-

TO DIGITAL CA

N

18MHZ(X)OUT

18MHZ(G)OUT
Y(1)OUT
Y(3)OUT
Y(5)OUT
Y(7)OUT
Y(M)OUT
R-Y(1)OUT
R-Y(3)OUT
R-Y(5)OUT
R-Y(7)OUT
R-Y(M)OUT
B-Y(1)OUT
B-Y(3)OUT
B-Y(5)OUT
B-Y(7)OUT
B-Y(M)OUT
D GND
SAMPLE1 OUT
VD OUT
CF OUT

Y(L)OUT
Y(2)OUT
Y(4)OUT
Y(6)OUT
Y(8)OUT
R-Y(L)OUT
R-Y(2)OUT
R-Y(4)OUT
R-Y(6)OUT
R-Y(8)OUT
B-Y(L)OUT
B-Y(2)OUT
B-Y(4)OUT
B-Y(6)OUT
B-Y(8)OUT
D GND
BLKG OUT
SYNC OUT

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG OUT

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/CF OUT

BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT

RET VIDEO(X)IN
RET VIDEO(G)IN
MONI(X)OUT
MONI(G)OUT

CN11

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

CN202

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

FLAT
CABLE

CN13

CN102

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1

CN14

CN101

FLAT
CABLE

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

CN12

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30

FLAT
CABLE

FLAT
CABLE

Y(L)OUT
Y(1)OUT
Y(2)OUT
Y(3)OUT
Y(4)OUT
Y(5)OUT
Y(6)OUT
Y(7)OUT
Y(8)OUT
Y(M)OUT
R-Y(L)OUT
R-Y(1)OUT
R-Y(2)OUT
R-Y(3)OUT
R-Y(4)OUT
R-Y(5)OUT
R-Y(6)OUT
R-Y(7)OUT
R-Y(8)OUT
R-Y(M)OUT
B-Y(L)OUT
B-Y(1)OUT
B-Y(2)OUT
B-Y(3)OUT
B-Y(4)OUT
B-Y(5)OUT
B-Y(6)OUT
B-Y(7)OUT
D GND
D GND

B-Y(M)OUT
B-Y(8)OUT
NC
NC
NC
NC
NC
NC
NC
NC
D GND
18MHz(X)OUT
18MHz(G)OUT
NC
CF OUT
NC
VD OUT
SYNC OUT
SAMPLE1 OUT
BLKG OUT

UNREG(G)
UNREG(G)
UNREG(G)
UNREG(G)
VF UNREG(G)
VF UNREG(G)
LENS UNREG(G)
LENS UNREG(G)
UNREG
UNREG
UNREG
UNREG
VF UNREG
VF UNREG
LENS UNREG
LENS UNREG
R(X)OUT
G(X)OUT
B(X)OUT
R/G/B(G)OUT
VBS(X)OUT
VBS(G)OUT
Y(X)OUT
R-Y(X)OUT
B-Y(X)OUT
Y/R-Y/B-Y(G)
C(X)OUT
C(G)OUT
GENLOCK(X)IN
GEN(G)/H CONT IN

RET VIDEO(X)IN
RET VIDEO(G)IN
MONI(X)OUT
MONI(G)OUT
BATT ALARM IN
VTR S/S OUT
AUDIO CH1 CONT OUT
MIC(G)OUT
MIC(Y)OUT
MIC(X)OUT
A GND
TAPE REM IN
AUDIO LEVEL IN
VTR SYNC OUT
RET EN OUT
V RESET IN/CF OUT
PB REF IN
REC TALLY IN
H CONT IN
VTR SAVE
A GND
HD OUT
SKIN GATE OUT
CA(CONT/DATA)
COM CONT
COM DATA
IIC CLK(CA)
IIC DATA(CA)
IIC CLK(ST)
IIC DATA(ST)

CN23

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

TG

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

CN22

DR

8
7
6
5
4
3
2
1

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

CN21

PA
NC
NC
R(X)IN
R(G)IN
G(X)IN
G(G)IN
B(X)IN
B(G)IN
9

9
0
9
84

80

89

FLAT
CABLE

FLAT
CABLE

84

80

89

9

9
0
9

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24

CN3

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20

CN3

1
2
3
4
5
6

CN2

GND(CCD)
GND(CCD)
A HD OUT
A VD OUT
VCO CONT OUT
VCO CONT(G)
36MHz(X)IN
36MHz(G)IN
18MHz(X)IN
18MHz(G)IN
HTSG OUT
PBLKG IN
H CLP IN
D CLP IN
LD(CCD)OUT
LD(TG)OUT
IIC DATA
IIC CLK
+7.3V
+7.3V
+5.1V
+5.1V
-5.1V
-5.1V

GND(CCD)
GND(CCD)
GND(CCD)
GND(CCD)
-11V
-11V
+15V
+6.5V
UNREG
UNREG
GND(UNREG)
GND(UNREG)
V CLP IN
ND FILT IN
CC FILT IN
TEMP IN
-2.8V
-2.8V

R(X)IN
R(G)IN
G(X)IN
G(G)IN
B(X)IN
B(G)IN

TG-159

DR-271

PA-181

FRAME WIRING

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68

V RESET IN/CF OUT
REC TALLY IN
VTR SAVE
A GND
CA(CONT/DATA)
CAM DATA
IIC DATA(CA)
IIC DATA(ST)

AUDIO LEVEL IN

MIC(G)OUT
MIC(X)OUT

SKIN GATE OUT
TAPE REM IN
VTR SYNC OUT
RET EN OUT
PB REF IN
H CONT IN
A GND
HD OUT
COM CONT
IIC CLK(CA)
IIC CLK(ST)
UNREG(G)
UNREG(G)
VF UNREG(G)
LENS UNREG(G)
UNREG
UNREG
VF UNREG
LENS UNREG
G(X)OUT
R/G/B(G)OUT
VBS(X)OUT
R-Y(X)OUT
Y/R-Y/B-Y(G)
Y(X)OUT
C(G)OUT
GEN(G)/H CONT IN
RET VIDEO(X)IN
MONI(G)OUT
VTR S/S OUT

AUDIO CH1 CONT OUT
MIC(Y)OUT

UNREG(G)
UNREG(G)
VF UNREG(G)
LENS UNREG(G)
UNREG
UNREG
VF UNREG
LENS UNREG
R(X)OUT
B(X)OUT
VBS(G)OUT
Y(X)OUT
B-Y(X)OUT
Y(G)OUT
C(X)OUT
GENLOCK(X)IN
RET VIDEO(G)IN
MONI(X)OUT
BATT ALARM IN

CN201

CCD UNIT

CN103

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68

CN203

CN-1120/1121/1122/1142 SW-730/731/732/733/742

FRAME WIRING CN-1120/1121/1122/1142 SW-730/731/732/733/742

(OHB-450/451/550/550WS SERIES)

1

2

3

CN-1121
4

BOARD NO. 1-657-441LOT NO. 509-

FRAME WIRING

CN-1120/1121/1122/1142
SW-730/731/732/733/742

O

5

A-¥BVP550-FRAME/M
B-¥BVP550-FRAME/M

B-¥BVP550-CN1122/M

B-¥BVP550-SW730/M

B-¥BVP550-SW731/M

B-¥BVP550-SW732/M

B-¥BVP550-SW733/M

B-¥BVP550-SW742/M

8-23
P

5-4

5-4

OHB-400/500/500WS & PAL
OHB-450/451/550/550WS & PAL

VA-163

VA-163

Section 9
Board Layouts

VA-163 BOARD

BVP-550

VA-163 - A SIDE -

VA-163 - B SIDE -

1-657-438-12

1-657-438-12

9-1

9-1

AT-95

AT-95

AT-95 BOARD

AT-95

AT-95

- A SIDE -

1-657-448-11, 12

BVP-550

- B SIDE -

1-657-448-11, 12

9-3

9-3

SG-234

SG-234

SG-234 BOARD

BVP-550

SG-234 - A SIDE -

SG-234 - B SIDE -

1-657-449-12

1-657-449-12

9-5

9-5

DA-88

DA-88

DA-88 BOARD

BVP-550

DA-88 - A SIDE -

DA-88 - B SIDE -

1-657-450-12

1-657-450-12

9-7

9-7

IF-510

IF-510

IF-510 BOARD

BVP-550

IF-510 - A SIDE -

IF-510

1-657-453-12

1-657-453-12

9-9

9-9

- B SIDE -

MB-602

MB-602

MB-602 BOARD

BVP-550

MB-602 - A SIDE -

MB-602 - B SIDE -

1-657-437-14

1-657-437-14

9-11

9-11

5-4

5-4

OHB-400/500/500WS & PAL
OHB-450/451/550/550WS & PAL

The material contained in this manual consists of
information that is the property of Sony Corporation and
is intended solely for use by the purchasers of the
equipment described in this manual.
Sony Corporation expressly prohibits the duplication of
any portion of this manual or the use thereof for any
purpose other than the operation or maintenance of the
equipment described in this manual without the express
written permission of Sony Corporation.

Le matériel contenu dans ce manuel consiste en
informations qui sont la propriété de Sony Corporation et
sont destinées exclusivement à l’usage des acquéreurs
de l’équipement décrit dans ce manuel.
Sony Corporation interdit formellement la copie de
quelque partie que ce soit de ce manuel ou son emploi
pour tout autre but que des opérations ou entretiens de
l’équipement à moins d’une permission écrite de Sony
Corporation.

Das in dieser Anleitung enthaltene Material besteht aus
Informationen, die Eigentum der Sony Corporation sind,
und ausschließlich zum Gebrauch durch den Käufer der
in dieser Anleitung beschriebenen Ausrüstung bestimmt
sind.
Die Sony Corporation untersagt ausdrücklich die
Vervielfältigung jeglicher Teile dieser Anleitung oder den
Gebrauch derselben für irgendeinen anderen Zweck als
die Bedienung oder Wartung der in dieser Anleitung
beschriebenen
Ausrüstung
ohne
ausdrückliche
schriftliche Erlaubnis der Sony Corporation.

BVP-550 (SY) J,E
3-189-412-11

Sony Corporation
Broadcast Products Company

Printed in Japan
1995. 12 08
© 1995

Published by Broadcast Products Company

COLOR VIDEO CAMERA

BVP-550
BVP-550P
SUPPLEMENT-1
FOR

MAINTENANCE MANUAL

Please replace and add this SUPPLEMENT-1 with your own manual.
Applicable Manual (Manual Code)
1st Edition (3-189-412-01)
Contents
Additional information for the overall electrical alignment.
Section 4

BVP-550 (UCJ)
BVP-550P (CE) J,E
9-967-642-01

Electrical Alignment

Sony Corporation
Broadcast Products Company

Printed in Japan
1995. 10 08
© 1995

Published by Broadcast Products Company

4-3.

4-4.

Viewfinder System Adjustment ..........................................................4-21 (E)
4-3-1. Vertical Hold Adjustment ..................................................4-21 (E)
4-3-2. Horizontal Hold Adjustment ..............................................4-22 (E)
4-3-3. Bright Set Adjustment ........................................................4-22 (E)
4-3-4. Focus Adjustment...............................................................4-23 (E)
4-3-5. Heater Voltage Adjustment ................................................4-23 (E)
4-3-6. Picture Frame Adjustment..................................................4-24 (E)
Overall Electrical Alignment ..............................................................4-26 (E)
4-4-1. VCO CONT Frequency Adjustment ..................................4-26 (E)
4-4-2. VTR Y Adjustment ............................................................4-26 (E)
4-4-3. Test out Adjustment ...........................................................4-27 (E)
4-4-4. Chroma Adjustment ...........................................................4-28 (E)
4-4-5. INT SC Phase Adjustment .................................................4-29 (E)
4-4-6. REG Level Adjustment ......................................................4-29 (E)
4-4-7. TEST1 Adjustment.............................................................4-30 (E)
4-4-8. TEST2 Adjustment.............................................................4-30 (E)
4-4-9. A/D Clock Phase Adjustment ............................................4-31 (E)
4-4-10. VA Gain Adjustment..........................................................4-31 (E)
4-4-11. VA MOD Adjustment ........................................................4-32 (E)
4-4-12. Master Black Adjustment ...................................................4-33 (E)
4-4-13. A/D Gain Adjustment ........................................................4-34 (E)
4-4-14. Black Shading Adjustment .................................................4-35 (E)
4-4-15. White Shading Adjustment ................................................4-37 (E)
4-4-16. Gamma Correction Adjustment .........................................4-39 (E)
4-4-17. Flare Adjustment ................................................................4-40 (E)
4-4-18. Pre Knee Adjustment .........................................................4-41 (E)
4-4-19. Knee and White Clip Adjustment ......................................4-43 (E)
4-4-20. VTR R-Y/B-Y Adjustment ................................................4-44 (E)
4-4-21. CCU Y/R-Y/B-Y Adjustment ............................................4-45 (E)
4-4-22. RGB Adjustment ................................................................4-46 (E)
4-4-23. File Store ............................................................................4-47 (E)
4-4-24. Menu Setting After Finishing Adjustment .........................4-47 (E)

5. Spare Parts
5-1.
5-2.

BVP-550
BVP-550P

Notes on Repair Parts .................................................................................. 5-1
Exploded Views .......................................................................................... 5-2
TOP PANEL BLOCK............................................................................... 5-2
RIGHT PANEL AND PLUG-IN BOARDS ............................................. 5-3
LEFT PANEL AND BOARDS ................................................................ 5-4
CHASSIS AND SHOLDER PAD ............................................................ 5-5
BOTTOM BLOCK ................................................................................... 5-6
VIEW FINDER ......................................................................................... 5-7
TRIPAD ADAPTOR ................................................................................ 5-9
SCREWS AND WASHERS ................................................................... 5-10

3 (E)

5-3.

5-4.
5-5.

Electrical Parts List ................................................................................... 5-11
5-3-1. Parts List for Camera ............................................................... 5-11
5-3-2. Parts List for View Finder ........................................................ 5-43
Supplied Accessories ................................................................................ 5-46
Optional Fixtures ....................................................................................... 5-46

6. Semiconductor Pin Assignments
7. Block Diagrams
OVERALL BLOCK .................................................................................... 7-2
VA-163 BOARD ......................................................................................... 7-4
AT-95 BOARD ........................................................................................... 7-5
SG-234 BOARD ......................................................................................... 7-6
DA-88 BOARD ........................................................................................... 7-7
IF-510 BOARD ........................................................................................... 7-8
VF BLOCK ................................................................................................. 7-9

8. Schematic Diagrams
LOCATION OF PRINTED CIRCUIT BOARDS ...................................... 8-1
VA-163 BOARD ......................................................................................... 8-2
AT-95 BOARD ........................................................................................... 8-6
SG-234 BOARD ....................................................................................... 8-10
DA-88 BOARD ......................................................................................... 8-14
IF-510 BOARD ......................................................................................... 8-18
VIEW FINDER ......................................................................................... 8-20
MB-602 BOARD ...................................................................................... 8-22
FRAME WIRING ..................................................................................... 8-24

9. Board Layouts
VA-163 BOARD ......................................................................................... 9-1
AT-95 BOARD ........................................................................................... 9-2
SG-234 BOARD ......................................................................................... 9-3
DA-88 BOARD ........................................................................................... 9-4
IF-510 BOARD ........................................................................................... 9-5
MB-602 BOARD ........................................................................................ 9-6
VF-60 BOARD ........................................................................................... 9-7

4 (E)

BVP-550
BVP-550P

4-3. Viewfinder System Adjustment

Step 5.
Test point : TP3/VF-60 board
GND : E1/VF-60 board
Measure and memorize the value A shown in the figure
below.

A

(Oscilloscope Monitor)

Step 6.
Extend the AT-95 board of BVP-550/550P using EX-464
extension board, and short between 76-pin and 100-pin on
the EX-464 board using a shorting clip. (Turn into 16:9
mode.)
Step 7.
Test point

: TP3/VF-60 board
GND : E1/VF-60 board
Adjustment point : 1RV10 (V SIZE (WIDE))/VF-60
Specifications
: Measure the value B, and adjust the
ratio to A : B = 4 : 3.

B

(Oscilloscope Monitor)

Note:
When the centering magnet is turned, paint-lock it again.
After these adjustments are completed, disconnect the
shorting clip, and connect the IF-510 board to the camera.

TP5
E1
RV5

RV9

RV8

RV3
RV4

TP4
5

CN2

CN5

RV7 RV10 RV6
TP3

RV1

1

TP2

CN1

RV2
TP1

CN4

VF-60 BOARD (A SIDE)
BVP-550
BVP-550P

4-25 (E)

4-4. Overall Electrical Alignment

4-4. Overall Electrical Alignment

4-4-2. VTR Y Adjustment

Notes:
If the adjustments in this section are suspended or the
power is turned off to extend a printed circuit board and so
on, be sure to execute the FILE STORE before turning off.
(Refer to Section 4-4-23 “File Store”)

Equipment
Test point

4-4-1. VCO CONT Frequency Adjustment
Note:
• Warm up the camera for about 10 minutes before this
confirmation.
Preparations:
RGB/ENC switch (on the side panel) → ENC
Equipment
: Frequency counter,
Video signal generator
Test point
: SC out connector/
Video signal generator
Specifications
: 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

TEST
OUT

GENLOCK
SC
Video signal
IN
OUT
generator

Frequency
counter

: Oscilloscope
: TP3 (D4)/DA-88

Preparations:
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → ENC
WHITE BAL switch (on the side panel)→PRST
Connect the Oscilloscope to the TP3 (D4) (GND:E1 (F4))/
DA-88 Board.
Adjustment procedures:
1. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SYNC
Specifications: A = 286 ±2 mV (for NTSC)
A = 300 ±2 mV (for PAL)
2. Menu setting : (NTSC only)
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y SETUP
Specifications: C = 53.5 ±2 mV
3. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: Y VIDEO
Specifications: B = 714 ±7 mV (for NTSC)
B = 700 ±7 mV (for PAL)

If the specifications are not satisfied, perform the following
adjustment.
1. Set the menu as follows and adjust the frequency by
turning the MENU SEL switch.
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC Freq
Specifications : 3,579,545 ±10 Hz (for NTSC)
4,433,168 ±5 Hz (for PAL)

(For NTSC)

• OHB File Store
2. Set the menu as follows.
MENU : Triming file
PAGE : OHB File (T2)
ITEM
: File Store
Press the MENU SEL switch (on the front panel) to
perform the triming file store.
4-26(E)

(For PAL)
BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-3. Test out Adjustment
Equipment : Waveform monitor
Test point : TEST OUT connector
Preparations:
Connect the waveform monitor to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → ENC
Adjustment procedures:
1. Adjustment point : 1RV101 (D4)/IF-510
Specifications
: A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)
2. Menu setting: (NTSC only)
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: TEST SETUP
Specifications
: B = 7.5 ±1 IRE

4

(For NTSC)

3

2

1

IF

A

B

C

VIDEO
LEVEL

D

RV101

(For PAL)

E

F

G

IF-510 BOARD (COMPONENT SIDE)
BVP-550
BVP-550P

4-27(E)

4-4. Overall Electrical Alignment

4-4-4. Chroma Adjustment
Equipment : Waveform monitor, Vectorscope
Test point : TEST OUT connector
Preparations:
Connect the vectorscope to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → ENC
Adjustment procedures:
1. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: CHROMA LVL
Specifications: Place the beam spots inside the
corresponding frames on the
vectorscope.

3. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: BURST LVL
Specifications: A = 40 ±1 IRE (for NTSC)
A = 300 ±5 mV (for PAL)

(For NTSC)

2. Connect the waveform monitor to the TEST OUT
connector.

(For PAL)

(For NTSC)

(For PAL)

4-28(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-5. INT SC Phase Adjustment

4-4-6. REG Level Adjustment

Notes:
This adjustment precedures are stated below assuming that
where the Tektronix 1750 (for BVP-550) or1751 (for
BVP-550P) is used.
If any other measuring instrument is used, follow the
instructions given in the operation manual attached to it.

Equipment : Waveform monitor
Test point : TEST OUT connector

Equipment : SC-H Phase measuring instrument
Test point : TEST OUT connector
Preparations:
Connect the SC-H Phase measuring instrument to the
TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → ENC
Adjustment procedures:
1. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: SC-H Phase
Specifications: Position the luminous line of the
burst (SC) and the beam spot of H
as shown in the figure.

Preparations:
Connect the waveform monitor to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → BARS
RGB/ENC switch (on the side panel) → RGB
R/B/B switch (on the side panel) → G
Adjustment procedures:
1. Menu setting:
MENU
: System config
PAGE
: Y/Chroma (S2)
ITEM
: REG LVL
Specifications:
SYNC LEVEL : A = 40 ±1 IRE (for NTSC)
A = 300 ±2 mV (for PAL)

(For NTSC)

(For NTSC)

(For PAL)

(For PAL)

BVP-550
BVP-550P

4-29(E)

4-4. Overall Electrical Alignment

4-4-7. TEST1 Adjustment

4-4-8. TEST2 Adjustment

Equipment : Oscilloscope
Test points : TP50,52,54/Extension board extending
VA-163

Equipment : Oscilloscope
Test point : TP52/Extension board extending VA-163

Preparations:
1. Extend VA-163 board with EX-464 board.
2. WHITE BAL switch (on the side panel)→PRST
3. Select the TEST SAW signal
MENU setting:
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST→1
Adjustment procedures:
1. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
2. G-ch signal adjustment
Adjustment point : 1RV50 (B4)/VA-163
Specifications
: A = 880 ±2 mV

Preparations:
1. Extend VA-163 board with EX-464 board.
2. Select the TEST SAW signal
MENU setting:
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST→2
Adjustment procedures:
1. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
2. TEST2 HIGH Level adjustment
MENU setting:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 HI
Specifications: A = 880 ±5 mV
3. TEST2 MID Level adjustment
MENU setting:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: TEST2 MID
Specifications: B = 283 ±5 mV

3. R-ch signal confirmation
Connect the oscilloscope to the TP54 (GND:GND
(A))/Extension board extending VA-163.
Specifications: A = 880 ±40 mV
4. B-ch signal confirmation
Connect the oscilloscope to the TP50 (GND:GND
(A))/Extension board extending VA-163.
Specifications: A = 880 ±40 mV

4-30(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-9. A/D Clock Phase Adjustment

4-4-10. VA Gain Adjustment

Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Multiburst chart

Notes:
• Use the reflective chart (reflection ratio:89.9%)in this
adjustment, if possible.
• If a pattern box is used, it should be well-maintained.
• Set the luminouse intensity of the chart to 2000 lx.
• Never change the setting of the following trimmer
capacitors.
These capacitors are extremely difficult to adjust in the
field.
VA-163 board :1CT200, 1CT300, 1CT400

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the multiburst chart so that the chart frame is aligned
with the underscaned monitor frame with the zoom control.
Pan so that the 9 MHz portion of the multiburst chart is
positioned at the center of the monitor screen.
OUTPUT/DCC switch (on the side panel) → CAM/OFF
RGB/ENC switch (on the side panel) → ENC
Adjustment procedures:
1. Adjust the iris control of the lens.
A = 90 ± 2 IRE (for NTSC)
A = 630 ± 10 mV (for PAL)

2. Clock Phase [G]
Menu setting:
MENU
:
PAGE
:
ITEM
:
Specifications:

System config
PR/VA/TEST (S3)
G Clock
Maximize the 9 MHz signal portion.

Equipment : Waveform monitor
Object
: Grayscale chart
Preparations:
WHITE BAL switch (on the side panel)→PRST
GAIN switch (on the side panel)→L (0 dB)
Extend VA-163 board with EX-464 board.
Adjustment procedures:
1. MENU setting:
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→Off
2. Adjust automatically the black balance.
AUTO W/B BAL switch (on the front panel)→BLK
3. Connect the oscilloscope to the TP74 (GND:TP73)/
Extension board extending VA-163.
Specifications: Adjust the iris control of the lens.
A = 125 mV

3. Clock Phase [R/B]
Menu setting:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: R/B Clock
Specifications: Adjust the 9 MHz signal portion
nearly horizontally.

BVP-550
BVP-550P

4-31(E)

4-4. Overall Electrical Alignment

4. Connect the oscilloscope to the TP54 (GND:TP53)/
Extension board extending VA-163.
Adjustment point : 1RV200 (C4)/VA-163
Specifications
: B = 880 ±5 mV

4-4-11. VA MOD Adjustment
Equipment : Waveform monitor
Test point : TEST OUT connector
Preparations:
Connect the waveform monitor to the TEST OUT connector.
GAIN switch (on the side panel) → L (0 dB)
Iris of the lens : CLOSE
RGB/ENC switch (on the side panel) → RGB
R/G/B switch (on the side panel) → R

5. Connect the oscilloscope to the TP72 (GND:TP71)/
Extension board extending VA-163.
Specifications
: Adjust the iris control of the
lens.
A = 125 mV
6. Connect the oscilloscope to the TP52 (GND:TP51)/
Extension board extending VA-163.
Adjustment point : 1RV300 (D4)/VA-163
Specifications
: B = 880 ±5 mV
7. Connect the oscilloscope to the TP70 (GND:TP69)/
Extension board extending VA-163.
Specifications
: Adjust the iris control of the
lens.
A = 125 mV
8. Connect the oscilloscope to the TP50 (GND:TP49)/
Extension board extending VA-163.
Adjustment point : 1RV400 (F4)/VA-163
Specifications
: B = 880 ±5 mV
4

3

2

Adjustment procedures:
1. VA MOD [R] Adjustment
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [R] → 99
Adjustment point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [R]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [R] varies from 99
to –99.

1

VA

A

TEST

B
R GAIN

CT200
RV200

C

(×5)

R

D

G GAIN

CT300
R

RV300

E

B GAIN

CT400
B

F

RV400
G

VA-163 BOARD (COMPONENT SIDE)

4-32(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

2. VA MOD [G] Adjustment
R/G/B switch (on the side panel) → G
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [G] → 99
Adjustment point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [G]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [G] varies from 99
to –99.
3. VA MOD [B] Adjustment
R/G/B switch (on the side panel) → B
MENU setting:
MENU
: Maintenance
PAGE
: White Shading (M2)
ITEM
: H Saw [B] → 99
Adjustment point:
MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: VA MOD [B]
Specifications: Flatten the portion A.
Adjust so that the level at portion A
does not fluctuate even if the setting
value for H Saw [B] varies from 99
to –99.
4. MENU setting:
MENU
:
PAGE
:
ITEM
:
ITEM
:
ITEM
:

BVP-550
BVP-550P

4-4-12. Master Black Adjustment
Equipment
: Waveform monitor
Test point
: TEST OUT connector
Iris of the lens : CLOSE
Preparations:
Connect the waveform monitor to the TEST OUT connector.
Adjustment procedures:
1. Set the RGB/ENC switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
2. Set the menu as follows, and adjust the black level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Black (M)
Specifications: A = 3 ±1 IRE (for NTSC)
A = 35 ±7 mV (for PAL)

3. Set the RGB/ENC switch (on the side panel) to ENC.
4. Adjust automatically the black balance.
AUTO W/B BAL switch (on the front panel) → BLK

Maintenance
White Shading (M2)
H Saw [R] → 0
H Saw [G] → 0
H Saw [B] → 0

4-33(E)

4-4. Overall Electrical Alignment

4-4-13. A/D Gain Adjustment
Preparations:
Connect the waveform monitor to the TEST OUT connector.
GAIN switch (on the side panel) → L (0 dB)
RGB/ENC switch (on the side panel) → RGB
R/G/B switch (on the side panel) → G
MENU Setting:
MENU :
Paint
PAGE :
Detail1 (P2)
ITEM :
Detail→Off
PAGE :
Gamma (P5)
ITEM :
Gammma→Off
PAGE :
Knee/W.Clip (P6)
ITEM :
Knee→Off
ITEM :
White Clip→Off
MENU :
System config
PAGE :
PR/VA/TEST (S3)
ITEM :
TEST→2

Adjustment procedures:
• A/D Gain [G] Adjustment
1. MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [G]
Specifications: The white level shall not be changed
even if the OUTPUT/DCC switch
(on the side panel) is changed over
between CAM and BARS.
A=B

Test point
: TEST OUT connector
Iris of the lens : CLOSE

(For NTSC)

(For PAL)

4-34(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

• A/D Gain [R] Adjustment
2. R/G/B switch (on the side panelüj→ ENC
3. OUTPUT/DCC switch (on the side panel) → CAM/
OFF
4. MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [R]
Specifications: Minimize the carrier leakage.
C = Minimum
• A/D Gain [B] Adjustment
5. MENU
: System config
PAGE
: PR/VA/TEST (S3)
ITEM
: PR AD G [B]
Specifications: Minimize the carrier leakage.
C = Minimum

4-4-14. Black Shading Adjustment
Notes:
• The compensation data obtained by the black shading
adjustment is not stored in the OHB File. Therefore,
when the OHB is replaced or a new OHB is installed, be
sure to perform this adjustment.
• If the shading adjustment is not completed, perform the
adjustment again following the message displayed on the
viewfinder or MSU.
If the re-adjustment still is not completed, consult Sony
service representative.
Preparations:
Connect the waveform monitor to the TEST OUT connector.
RGB/ENC switch (on the side panel) → ENC
Test point
: TEST OUT connector
Iris of the lens: CLOSE

6. Repeat the steps 4 and 5 alternately until the specifications are satisfied.
7. MENU Setting:
MENU : Paint
PAGE : Detail1 (P2)
ITEM
: Detail→On
PAGE : Gamma (P5)
ITEM
: Gammma→On
PAGE : Knee/W.Clip (P6)
ITEM
: White Clip→On
MENU : System config
PAGE : PR/VA/TEST (S3)
ITEM
: TEST→Off

BVP-550
BVP-550P

Adjustment procedures:
1. Set the DISP switch (on the side panel) to MENU.
2. Set the menu as follows and execute the auto black
shading by pressing the MENU SEL switch (on the
front panel).
MENU : Maintenance
PAGE : Auto Setup (M4)
ITEM
: Black Shading
3. Confirm the “OK” is displayed on the viewfinder or
MSU. If the error message is displayed, perform the
adjustment again following this message.
Message and its meaning
BLACK:OK
: Adjustment correctly completed.
LEVEL TOO HIGH : Lens closing does not operate fully,
and so on.
TIME LIMIT
: Black shading adjustment could not
be completed within the specified
number of attempts.
OVER FLOW
: The difference between the reference value and the current value is
too great, and exceeds adjustment
range. Adjustment is then not
completed.

4-35(E)

4-4. Overall Electrical Alignment

4. Confirm the carrier level satisfies the specification on
the waveform monitor.
Specifications: Less than 2 IRE (for NTSC)
Less than 14 mV (for PAL)

Switch

H SAW
PAGE:
Black Shading (M3)

V SAW
PAGE:
Black Shading (M3)

G ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: V Saw (G)

• Manual Black Shading Adjustment (For reference)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: V Saw (R)

Note:
• Perform this adjustment only when “4-2-3. Black
Shading Adjustment” is not completed.

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: V Saw (B)

Equipment

TEST OUT connector

: Waveform monitor

Preparations:
Connect the waveform monitor to the TEST OUT connector.
GAIN switch (on the side panel) → H (18 dB)
Test Point
: TEST OUT connector
Iris of the lens : CLOSE

6. After adjustments are completed, set the switches as
follows.
ENC/RGB switch (on the side panel) → ENC
GAIN switch (on the side panel) → L (0 dB)

Adjustment procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCALE range → 0.5
2. Set the ENC/RGB switch (on the side panel) to RGB.
Set the R/G/B switch (on the side panel) to G.
3. Set the menu as follows, and adjust the master black
level to 3 IRE for NTSC and 35 mV for PAL by
turning the MENU SEL switch.
MENU
: Maintenance
PAGE
: Black Shading (M3)
ITEM
: Black M
4. If the shading is monitored, makes the waveform flat
following the table.
5. Perform the adjustments for R-ch and B-ch following
the same procedures as for G-ch.

4-36(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-15. White Shading Adjustment
Note:
• This adjustment could not be correctly performed if the
uneven white patten is used, luminance is not correct, or
lens iris and lens zoom are not in good conditions.
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Full white pattern
Preparations:
Connect the waveform monitor to the TEST OUT connector.
ENC/RGB (on the side panel)→ENC
Set the menu as follows.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → Off
Zoom of the lens : Shoot the fully occupied white area
of the pattern box in the full underscanned monitor frame adjusting the
zoom control.
Iris of the lens : Adjust the iris control of the lens to
satisfy the white level A.
A = 80 ±5 IRE (for NTSC)
A = 560 ±14 mV (for PAL)

Switch

H SAW
PAGE:
White Shading (M2)

H PARA
PAGE:
White Shading (M2)

G

ENC/RGB → RGB ITEM: H Saw (G)
R/G/B → G

ITEM: H Para (G)

R

ENC/RGB → RGB ITEM: H Saw (R)
R/G/B → R

ITEM: H Para (R)

B

ENC/RGB → RGB ITEM: H Saw (B)
R/G/B → B

ITEM: H Para (B)

TEST OUT connector

Switch

V SAW
PAGE:
White Shading (M2)

V PARA
PAGE:
White Shading (M2)

G

ENC/RGB → RGB ITEM: V Saw (G)
R/G/B → G

ITEM: V Para (G)

R

ENC/RGB → RGB ITEM: V Saw (R)
R/G/B → R

ITEM: V Para (R)

B

ENC/RGB → RGB ITEM: V Saw (B)
R/G/B → B

ITEM: V Para (B)

TEST OUT connector

Adjustmnet procedures:
1. Set the waveform monitor as follows.
• LUM mode
• VOLTFULL SCAN range → 0.5
2. Set the ENC/RGB switch (on the side panel) to R.G.B.
Set the R/G/B switch (on the side panel) to G.
3. If the white shading is monitored, makes the waveform
flat following the tables.
4. Perform the adjustments for R-ch and B-ch following
the same procedures as for G-ch.

BVP-550
BVP-550P

4-37(E)

4-4. Overall Electrical Alignment

5. Set the menu as follows.
MENU : Reference
PAGE : Reference file (R1)
ITEM
: File Store
Execute the Reference File Store by pressing the
MENU SEL switch (on the front panel).
6. After adjustments are completed, set the switch as
follows.
ENC/RGB switch (on the side panel) → ENC

4-38(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-16. Gamma Correction Adjustment
Equipment
Test point
Object

: Waveform monitor, Vectorscope
: TEST OUT connector
: Grayscale chart

Preparations:
Connect the waveform monitor to the TEST OUT connector.
Connect the vectorscope to the PIX OUT terminal on the
waveform monitor.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.
• Adjust automatically the white balance.
Set the WHT BAL switch (on the side panel) to A
Set the AUTO W/B BAL switch (on the front panl) to
WHT

(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
RGB/ENC switch (on the side panel) → RGB
R/G/B switch (on the side panel) → G
Adjust the iris control of the lens to satisfy the white level
A.
A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

BVP-550
BVP-550P

Adjustmnet procedures:
1. Set the RGB/ENC switch (on the side panel) to ENC.
2. Set the menu as follows, and adjust the gamma
correction for (M) by turning the MENU SEL switch.
PAGE
: Video Level (P1)
ITEM
: Gamma (M)
Specifications: B = 60 ±2 IRE (for NTSC)
B = 420 ±14 mV (for PAL)

(Waveform Monitor)

3. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test→1
4. Gamma (R) Adjustment
Set the menu as follows, and adjust the gamma
correction for (R) by turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma (R)
Specifications: Center the beam spot on the
vectorscope.
5. Gamma (B) Adjustment
Set the menu as follows, and adjust the gamma
correction for (B) by turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Gamma (B)
Specifications: Center the beam spoe on the
vectorscope.

4-39(E)

4-4. Overall Electrical Alignment

6. Repeat the steps 4 and 5 alternately, until the beam
spot is minimized on the vectorscope.

4-4-17. Flare Adjustment
Equipment : Waveform monitor
Test point : TEST OUT connector
Object
: Grayscale chart
Preparations:
Connect the waveform monitor to the TEST OUT connector.
Shoot the grayscale chart so that the chart frame is aligned
with the underscanned monitor frame.

(Vector scope)

7. Confirm that the carrier leakage does not monitored at
portion C on the waveform monitor.
Specifications: C = Minimum

(Waveform Monitor)

(Waveform Monitor)

Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Knee→OFF
RGB/ENC switch (on the side panel) → ENC
Adjust the iris control of the lens to satisfy the white level
A.
A = 100 ±2 IRE (for NTSC)
A = 700 ±14 mV (for PAL)

8. Set the menu as follows.
MENU : Paint
PAGE : Video Level (P1)
ITEM
: Test→Off
9. WHITE BAL switch (on the side panel) → PRST
(Waveform Monitor)

4-40(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

Adjustmnet procedures:
1. Adjust the automatically the white balance.
WHITE BAL switch (on the side panel) → A
AUTO W/B BAL switch (on the front panel) → WHT
2. Open the iris control of the lens by two stops against
the reference setup (corresponding above A).
3. Select the 15 lines in the center of the monitor screen
by using the 15 LINE SELECT on the waveform
monitor.

Line select

4. Set the menu as follows.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (G)
5. Confirm that the level at portion B does not fluctuate
even if the flare is turned ON or OFF. If fluctuates,
turn Flare ON and adjust by Flare (G).
6. Flare (R) Adjustment
Set the menu as follows, and adjust the Flare (R) by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (R)
Specifications: Minimize the carrier leakage.
7. Flare (B) Adjustment
Set the menu as follows, and adjust the Flare (B) by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Video Level (P1)
ITEM
: Flare (B)
Specifications: Minimize the carrier leakage.

4-4-18. Pre Knee Adjustment
Equipment
: Oscilloscope
Preparations:
Extend VA-163 board with an EX-464 board.
Test points
: TP50,52,54/Extension board extending
VA-163
Iris of the lens : CLOSE
Adjustment procedures:
1. MENU Setting:
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee → On
2. Set the RGB/ENC switch (on the side panel) to ENC.
3. Set the GAIN switch (on the side panel) to M (9 dB).
4. Set the WHITE BAL switch (on the side panel) to
PRST.
5. Set the menu as follows.
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: TEST → 2
• Pre knee1 [G] Adjustement
6. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
7. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[G]
Specifications:A = 1.68 ±0.02 V p-p

(Waveform Monitor)

8. Repeat the steps 6 and 7 alternately, until the carrier
leakage is minimized.
9. WHITE BAL switch (on the side panel) → PRST
BVP-550
BVP-550P

4-41(E)

4-4. Overall Electrical Alignment

• Pre knee1 [R] Adjustement
8. Connect the oscilloscope to the TP54 (GND:GND
(A))/Extension board extending VA-163.
9. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[R]
Specifications: A = 1.68 ±0.05 V p-p
• Pre knee1 [B] Adjustement
10. Connect the oscilloscope to the TP50 (GND:GND
(A))/Extension board extending VA-163.
11. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee1[B]
Specifications: A = 1.68 ±0.05 V p-p

• Pre knee2 [B] Adjustment
17. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
18. MENU Setting:
MENU
:
System config
PAGE
:
Pre Knee/Zebra (S4)
ITEM
:
PreKnee2[R]
Specifications
:
B = 1.80 ±0.05 V p-p

19. MENU Setting:
MENU
:
Operation
PAGE
:
Gain SW (?3)
ITEM
:
Middle → 9 dB
20. Set the GAIN switch (on the side panel) to L (0 dB).

12. Pre knee2 Adjustment
MENU Setting:
MENU
: Operation
PAGE
: Gain SW (?3)
ITEM
: Middle → 12 dB
• Pre knee2 [G] Adjustment
13. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
14. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[G]
Specifications:B = 1.80 ±0.02 V p-p
• Pre knee2 [R] Adjustment
15. Connect the oscilloscope to the TP52 (GND:GND
(A))/Extension board extending VA-163.
16. MENU Setting:
MENU
: System config
PAGE
: Pre Knee/Zebra (S4)
ITEM
: PreKnee2[R]
Specifications:B = 1.80 ±0.05 V p-p

4-42(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-19. Knee and White Clip Adjustment
Equipment : Waveform monitor
Test point : TEST OUT connector
Preparations:
Connect the waveform monitor to the TEST OUT connector.
OUTPUT/DCC switch (on the side panel) → CAM/ON
RGB/ENC switch (on the side panel) → ENC
WHITE BAL switch (on the side panel) → PRST
GAIN switch (on the side panel) → M (9dB)
Adjustment procedures:
1. Knee Point Adjustment
Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Test →1
ITEM
: White Clip →Off
ITEM
: Knee Max →On
Adjustment Point:
ITEM
: Point
Specifications: A = 98 ±2 IRE (for NTSC)
A = 686 ±10 mV (for PAL)

BVP-550
BVP-550P

2. Knee Slope Adjustment
Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: Knee Max →Off
Adjustment Point:
ITEM
: Slope
Specifications: B = 109 ±2 IRE (for NTSC)
B = 763 ±10 mV (for PAL)

3. Set the GAIN switch (on the side panel) →H (18 dB).
4. Set the menu as follows, and adjust the level by
turning the MENU SEL switch.
MENU
: Paint
PAGE
: Knee/W.Clip (P6)
ITEM
: White Clip →On
Adjustment Point:
ITEM
: White Clip
Specifications: C = 109 ±2 IRE (for NTSC)
C = 750 ±10 mV (for PAL)

4-43(E)

4-4. Overall Electrical Alignment

5. Set the menu as follows.
MENU : Paint
PAGE : Knee/W.Clip (P6)
ITEM
: Test →Off
6. Set the GAIN switch (on the side panel) →L (0 dB).
Note:
The values used in the above adjustments are under the
conditions when the white clip level is set to 109 IRE (for
NTSC) or 763 mV (for PAL).
When the white clip level is set to other value than 109
IRE or 763 mV, use the following table to set the levels of
the knee point and knee slope.
White Clip Level (Unit: IRE/mV)
109/763

107/749

105/735

103/721

Knee point

98/686

98/686

96/672

96/672

Knee slope

109/763

107/750

107/750

107/750

White clip

109/763

107/749

105/735

103/721

4-4-20. VTR R-Y/B-Y Adjustment
Equipment
Test points

: Oscilloscope
: TP4,TP5/DA-88

Preparations:
OUTPUT/DCC switch (on the side panel) → BARS
Adjustment procedures:
1. Connect the oscilloscope to the TP4 (E4) (GND:E1
(F4))/DA-88 Board.
2. VTR R-Y Adjustment
Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR R-Y
Specifications: A = 700 ±5 mV (for NTSC)
: A = 525 ±5 mV (for PAL)

• As for the detail adjustments, refer to Sections 4-2-9 to
4-2-17. Adjust according to the customer’s preferences.

3. Connect the oscilloscope to the TP5 (F4) (GND:E1
(F4))/DA-88 Board.
4. VTR B-Y Adjustment
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: VTR B-Y
Specifications: B = 700 ±5 mV (for NTSC)
: B = 525 ±5 mV (for PAL)

5. MENU Setting:
MENU : Triming File
PAGE : Triming File (T1)
ITEM
: File Store
Press the MENU SEL switch (on the front panel) to
execute the triming file store.
4-44(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

4-4-21. CCU Y/R-Y/B-Y Adjustment
Equipment : Oscilloscope
Test points : TP3,TP4,TP5/DA-88
Preparations:
Connect the CCU to the camera.

• CCU R-Y Sync adjustment
3. Connect the oscilloscope to the TP4 (E4) (GND:E1
(F4))/DA-88 Board.
4. Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU R-Y SYNC
Specifications: B = 350 ±2 mV

MENU Setting:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CB →On
Adjustment procedures:
• CCU Y Sample adjustment
1. Connect the oscilloscope to the TP3 (D4) (GND:E1
(F4))/DA-88 Board.
2. Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU Y SAMP
Specifications: A = 700 ±2 mV

• CCU B-Y Sample adjustment
5. Connect the oscilloscope to the TP5 (F4) (GND:E1
(F4))/DA-88 Board.
6. Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: CCU B-Y SYNC
Specifications: C = 350 ±2 mV

4

3

2

1

DA

A

(For NTSC)
TP1
B

TP2
C

D
Y

R-Y

(For PAL)
B-Y

TP3
TP4

E

TP5
GND

E1

F

G

DA-88 BOARD (COMPONENT SIDE)
BVP-550
BVP-550P

4-45(E)

4-4. Overall Electrical Alignment

4-4-22. RGB Adjustment
Equipment
Test points

: Oscilloscope
: TP59,TP61,TP63/Extension board
extending IF-510.

• R-ch Video confirmation
3. Connect the oscilloscope to the TP63 (GND:GND
(A))/Extension board extending IF-510.
Specifications:B = 700 ±7 mV

Preparations:
Extend IF-510 board with EX-464 board.
MENU Setting:
MENU
PAGE
ITEM

: System config
: VTR/CCU (S5)
: CB→On

Adjustment procedures:
• G-ch Video adjustment
1. Connect the oscilloscope to the TP61 (GND:GND
(A))/Extension board extending IF-510.
2. Adjustment point:
MENU
: System config
PAGE
: VTR/CCU (S5)
ITEM
: RGB OFFSET
Specifications: A = 700 ±5 mV

(For NTSC)

(For PAL)

(For NTSC)

(For PAL)

4-46(E)

BVP-550
BVP-550P

4-4. Overall Electrical Alignment

• R-ch Video confirmation
4. Connect the oscilloscope to the TP59 (GND:GND
(A))/Extension board extending IF-510.
Specifications: C = 700 ±7 mV

4-4-23. File Store
Note:
• Be sure to perform this item after any of the adjustments
of sections 4-4-1 through 4-4-22 is performed.
• Reference File Store
1. Set the menu as follows.
MENU : Reference
PAGE : Referrence File (R1)
ITEM
: File Store
2. Press the MENU SEL switch (on the front panel)to
execute the reference file store.

(For NTSC)

• Triming File Store
1. Set the menu as follows.
MENU : Triming File
PAGE : Triming File (T1)
ITEM
: File Store
2. Press the MENU SEL switch (on the front panel)to
execute the reference file store.

4-4-24. Menu Setting After Finishing
Adjustment
(For PAL)

BVP-550
BVP-550P

Set the menu as follows.
MENU : Paint
PAGE : Detail1 (P2)
ITEM : Detail →ON
PAGE : Gamma (P5)
ITEM : Gamma →ON
PAGE : Knee/W.Clip (P6)
ITEM : Knee →ON

4-47(E)

COLOR VIDEO CAMERA

BVP-550/550P
SUPPLEMENT-2
FOR

MAINTENANCE MANUAL

Please replace this SUPPLEMENT-2 with your own manual.
Applicable Manuals (Manual Code)
1st Edition (3-189-412-01/3-190-368-01)
2nd Edition (3-189-412-11)
Contents
Revised setup menu due to ROM upgrade
Section 3

BVP-550 (UCJ,SY)
BVP-550P (CE) J,E
9-967-642-02

Setup Menu

Sony Corporation
Broadcast Products Company

Printed in Japan
1996. 4 08
© 1996

Published by Broadcast Products Company

Table of Contents
Manual Structure
Purpose of this manual ........................................................................................ 5 (E)
Contents ............................................................................................................... 5 (E)
Relative manuals ................................................................................................. 6 (E)

1. Installation
1-1.

1-2.
1-3.
1-4.
1-5.

Connectors and Cables ..........................................................................1-1 (E)
1-1-1. Connector Input/Output Signals ...........................................1-1 (E)
1-1-2. Connection Connector ..........................................................1-6 (E)
Installaton Conditions ...........................................................................1-6 (E)
Function of Internal Switches ...............................................................1-6 (E)
Instance of Sytem Configuration ..........................................................1-8 (E)
Optional Accessories for Viewfinder ..................................................1-11 (E)

2. Service Overview
2-1.

Notes on Service ...................................................................................2-1 (E)
2-1-1. Note on Replacement of Parts ..............................................2-1 (E)
2-1-2. Description of EEPROM Data .............................................2-1 (E)
2-1-3. Extension Boards .................................................................2-1 (E)
2-1-4. Notes on Repair Parts ...........................................................2-1 (E)
2-2. Removal of Cabinet...............................................................................2-2 (E)
2-3. Location of Printed Circuit Boards .......................................................2-2 (E)
2-4. Circuit Description ................................................................................2-3 (E)
2-5. Periodic Replacement Part ....................................................................2-6 (E)
2-6. Cleaning ................................................................................................2-7 (E)
2-6-1. Cleaning of Viewfinder (Option) .........................................2-7 (E)
2-6-2. Cares After Using at Special Environment ..........................2-7 (E)
2-7. Replacement of External Connectors ....................................................2-8 (E)
2-7-1. VF Connector .......................................................................2-8 (E)
2-7-2. MIC Connector.....................................................................2-8 (E)
2-7-3. TEST OUT/REMOTE Connector ........................................2-9 (E)
2-8. Disconnecting/Connecting of Flexible Card Wires ............................2-10 (E)
2-9. Board Replacement .............................................................................2-11 (E)
2-9-1. MB-602 Board ...................................................................2-11 (E)
2-9-2. CN-1120/1121 Board .........................................................2-12 (E)
2-10. Replacement of Function Switches .....................................................2-13 (E)
2-10-1. Side Switch Panel Block ....................................................2-13 (E)
2-10-2. Front Switch Panel Block...................................................2-13 (E)
2-10-3. VF DISP Switch .................................................................2-14 (E)
2-11. Replacement of DC/DC Convertor Unit .............................................2-15 (E)

BVP-550

1 (E)

3. Setup Menu
3-1.

3-2.

Setup Menu ...........................................................................................3-1 (E)
3-1-1. Operation Menu ...................................................................3-3 (E)
3-1-2. Paint Menu ...........................................................................3-7 (E)
3-1-3. Maintenance Menu .............................................................3-10 (E)
3-1-4. Reference Menu .................................................................3-12 (E)
3-1-5. Triming Menu ....................................................................3-12 (E)
3-1-6. System Config Menu ..........................................................3-13 (E)
Self-Diagnosis .....................................................................................3-16 (E)

4. Electrical Alignment
4-1.

4-2.

4-3.

2 (E)

Preparation ............................................................................................4-1 (E)
4-1-1. Equipment Required .............................................................4-1 (E)
4-1-2. Notes on Adjustment ............................................................4-1 (E)
4-1-3. Connections ..........................................................................4-2 (E)
4-1-4. Description of Setup Menu ..................................................4-2 (E)
4-1-5. Initial Setting ........................................................................4-3 (E)
Adjustment for Installation of OHB ......................................................4-4 (E)
4-2-1. VCO CONT Frequency Confirmation .................................4-4 (E)
4-2-2. VA Gain Adjustment ............................................................4-4 (E)
4-2-3. Black Shading Adjustment ...................................................4-6 (E)
4-2-4. White Shading Adjustment ..................................................4-8 (E)
4-2-5. Master Black Adjustment .....................................................4-9 (E)
4-2-6. Gamma Correction Adjustment ...........................................4-9 (E)
4-2-7. Flare Adjustment ................................................................4-11 (E)
4-2-8. Knee and White Clip Adjustment ......................................4-12 (E)
4-2-9. Crispening Adjustment .......................................................4-13 (E)
4-2-10. Level Dependent Adjustment .............................................4-14 (E)
4-2-11. Detail Frequency Adjustment ............................................4-15 (E)
4-2-12. H/V Ratio Adjustment ........................................................4-16 (E)
4-2-13. Detail Level Adjustment ....................................................4-17 (E)
4-2-14. Detail Clip Adjustment ......................................................4-17 (E)
4-2-15. Skin Tone Adjustment ........................................................4-18 (E)
4-2-16. Zebra Adjustment ...............................................................4-20 (E)
4-2-17. Auto Iris Adjustment ..........................................................4-21 (E)
4-2-18. Menu Settings After Finishing Adjustment .......................4-22 (E)
4-2-19. File Store ............................................................................4-22 (E)
Overall Electrical Alignment ..............................................................4-22 (E)
4-3-1. VCO CONT Frequency Adjustment ..................................4-23 (E)
4-3-2. VTR Y Adjustment ............................................................4-24 (E)
4-3-3. Test out Adjustment ...........................................................4-25 (E)
4-3-4. Chroma Adjustment ...........................................................4-26 (E)
4-3-5. INT SC Phase Adjustment .................................................4-27 (E)
4-3-6. REG Level Adjustment ......................................................4-28 (E)

BVP-550

Section 3
Setup Menu
3-1. Setup Menu
The Setup menu is used to select settings of camera operation, select items to be displayed on the viewfinder screen, and select the way the items are displayed.
It is also used for adjustment. The menu appears on the viewfinder screen.
By changing a setting through this menu, the same signal as output to the viewfinder is enabled to be
output at the TEST OUT connector.

•

Configuration of the Setup Menu

The setup menu consists of the following menus
• Operation menu
• Paint menu
• Maintenance menu
• Reference menu
• Triming menu
• System config menu
Operation and Paint menus are normally accessible. To display the other menus, switch setting of the
AT-95 board is required. For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”
•

Equipment required

CCD Unit
OHB-450/550 series
Camera Adaptor CA-550/550P
Supply power from a camera control unit CCU-700/700P, AC adaptor AC-550/550CE or VTR.
•

Switches and Button

DISP switch
DISP
ON
OFF
MENU

MENU SEL switch
MIC
LEVEL

CANCEL button

CANCEL

BVP-550

3-1(E)

3-1. Setup Menu

DISP switch
ON
: Displays characters and messages indicating the video camera settings and operation status.
OFF
: No character or marker display appears on the viewfinder screen.
MENU : The setup menu appears on the viewfinder screen.
MENU SEL switch
Selects the menu item or setting value displayed on the viewfinder screen.
CANCEL button
Cancels the contents of a menu setting, or returns to the page select mode or TOP menu.
n
The TOP menu screen indicates the entire configuration of menu items.
To display the TOP menu, set the DISP switch to MENU (from OFF) while holding down the MENU
SEL switch.
•

Basic Operation

1. Displaying the menu
To display the Operation menu, set the DISP switch to MENU.
To display the other menus than the Operation menu, first of all, the TOP menu shall be displayed.
To display the TOP menu, set the DISP switch to MENU while holding down the MENU SEL
switch. Then turn the MENU SEL switch to move the cursor to a menu item which you want and
press the MENU SEL switch.
2. To shift the page, turn the MENU SEL switch with a page scroll bar displayed at the top-right of the
screen until the desired page is displayed and press the MENU SEL switch.
The menu enters the item select mode and the page scroll bar disappears.
3. To shift the item, turn the MENU SEL switch until the → cursor points the item to be set and press
the MENU SEL switch.
4. To change the value, turn the MENU SEL switch. You can change the values quickly by turning
the MENU SEL switch fast. You can make very fine adjustments by turning the switch slowly. By
pressing the MENU SEL switch, the setting is entered.
5 The menu page is returned to the item select mode or page select mode every time the CANCEL
button is pressed.
6. To exit from the setup menu, set the DISP switch to OFF.
• ROM version
Contents in the menu and factory settings may differ from the descriptions in this manual depending on
the version of ROM (IC36) on the AT-95 board.
In this section, an item under “Ver.” in the table shows a ROM version. If any version is given, it shows
that the function for the item is added or changed, and the ROM with that version or higher version
supports the function. If no version is given, it shows that every ROM version supports the function.
To confirm the ROM version easily proceed as follows:
1. Set the DISP switch to OFF.
2. Power the unit on while holding down the MENU SEL switch. The indication of ROM version
is displayed for about three seconds.

3-2(E)

BVP-550

3-1. Setup Menu
3-1-1. Operation Menu

3-1-1. Operation Menu
This menu contains items contained for changing camera settings to suit shooting conditions during
normal camera operations.
(Boxed items under “Settings” indicate the factory setting.)
Page

Ver.

VF DISPLAY

MARKER

a)

Item

Settings

Contents

ZOOM

[ON], OFF

Turns on and off the indications of zoom position and lens extender.

SHUTTER

[ON], OFF

Turns on and off the indications of shutter speed and mode.

IRIS

[ON], OFF

Turns the iris setting indication on and off.

AUDIO

[ON], OFF

Turns the audio level indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

TAPE

[ON], OFF

Turns the tape-remaining indication on and off.
(Automatically turned OFF in connection with CCU/RCP)

ZEBRA

ON, OFF

Turns the zebra indication on and off. (Corresponds to the ZEBRA
switch of VF connected to the camera.)

MESSAGE

[ON], OFF

Turns on and off the indication of message in changing each setting of filter,
white balance memory, gain value, DCC(auto knee) and shutter speed.
The indication is displayed within three seconds in the center of the
viewfinder screen.

MODE

CHG, [USR]

CHG : The indications of the optical filter, white balance memory and
gain value are displayed only when they differ from the standard
settings (FILTER:1B, WHITE:A, GAIN:0dB)
USR : The indications are displayed corresponding to the settings on
the VF DISPLAY page.

FILTER

*, [ON], OFF

Turns the optical filter indication on and off.

WHITE

*, [ON], OFF

Turns the white balance memory indication on and off.

GAIN

*, [ON], OFF

Turns the gain value indication on and off.

CENTER

[ON], OFF

Turns the center marker indication on and off.

SAFETY ZONE

80%, 90% , OFF

Turns the safety zone marker indication on and off and selects the area
indicated by that marker. a)

BOX CURSOR

ON, [OFF]

Turns the box cursor indication on and off.

BOX H POS

-99 to 99 ([0])

Shifts horizontally the location of the box cursor on the screen.

BOX V POS

-99 to 99 ([0])

Shifts vertically the location of the box cursor on the screen.

BOX WIDTH

00 to 99 ([41])

Sets the width of the box cursor.

BOX HEIGHT

00 to 99 ([10])

Sets the height of the box cursor.

In the 16:9 mode, the following kinds of safety zone marker can be selected in combination of the settings of “SAFETY ZONE” and
“4:3 SAFETY”.

SAFETY ZONE
80%
4:3
SAFETY

90%

OFF

16:9

ON

4:3 area
Safety
zone

OFF

BVP-550

Not indicated

3-3(E)

3-1. Setup Menu
3-1-1. Operation Menu

Page
GAIN SW

WIDE SCREEN
(For OHB-550WS
/550WSP)

MON OUT

AUTO IRIS
AUTO KNEE
(DCC)

b)

Ver.

Item

Settings

Contents

LOW

-3,[0], 3, 6, 9, 12,
18, 24, 30 dB

Selects the gain value for each gain switch position.
(LOW, MIDDLE, HIGH)

MID

-3, 0, 3, 6, [9], 12,
18, 24, 30dB

HIGH

-3, 0, 3, 6, 9, 12,
[18], 24, 30dB

16:9/4:3 MODE

[16:9], 4:3

Selects the aspect ratio for the video signal output.
(This setting is valid only when the camera is used alone.) b)

VF ASPECT

[AUTO], 4:3

Selects the aspect ratio for the viewfinder indication.
AUTO: Automatically selects according to the aspect ratio selected by
16:9/4:3 MODE on the WIDE SCREEN page.
4:3 : Selects 4:3 regardless of the 16:9/4:3 MODE setting.

4:3 SAFETY

ON, [OFF]

Selects whether the safety zone marker showing the 4:3 area is
indicated in the 16:9 mode, or not. a)

16:9 ID ON VF

ON, [OFF]

Turns on and off the 16:9 indication in the 16:9 mode on the viewfinder
screen.
(This setting is valid only when the DISP switch is set to on or off.)

16:9 ID
ON BARS

ON, [OFF]

Selects whether the 16:9 indication is displayed on the internal color-bar
in the16:9 mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

BNC TEST OUT [VBS], RM, VF Y

Selects a video signal to be output at TEST OUT connector.
VBS : Color composite signal
RM : The same as a signal ouput to RM-P9
Y
: Y(monochrome) signal

RM/MON CHAR [ON], OFF

Selects whether character signals displayed on the viewfinder screen
are mixed with the VBS signal to be output to RM-P9, or not. Turning on
is convenient to operate the setup menu by RM-P9.

VBS LOCK

ON, [OFF]

Used to prevent misoperation by ENC/RGB switch.
ON : ENC signal is output at TEST OUT connector regardless of
ENC/RGB switch setting.
OFF : A signal selected by ENC/RGB switch is output.

VF VIDEO
MODE

[Y], MIX, NAM

Selects a video signal to be output to the viewfinder.
Y
: Y=0.3R+0.59G+0.11B; The same as a camera output signal
MIX : Y=0.33R+0.33G+0.33B
NAM : Selects one of the R, G, and B signal that is maximum in level.

[RGB]-G

ON, [OFF]

Sets signals selectable by RGB switch.
ON : R-G, B-G
OFF : R, G, B

IRIS OVERRIDE

-99 to 99 ([0])

Sets the reference value for automatic iris adjustment.
-99 (further closed) ↔ 99 (further opened)

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

APL RATIO

-99 to 99 ([0])

Sets the way the iris is automatically adjusted.
-99 (PEAK) ↔ 99 (AVERAGE)

AUTO KNEE
POINT

-99 to 99 ([XX])

Sets the point on which the knee function starts to have effect in the
auto-knee mode.

AUTO KNEE
SLOPE

-99 to 99 ([XX])

Sets the volume of the effect of the knee function in the auto-knee mode.

The change of aspect ratio using this menu is disabled because the CCU’ s setting has a priority when the CCU is connected.
If you want to change the aspect ratio when the CCU is connected, use the OTHERS page of the Paint menu. When you attempt to
change using this menu, a message “Use Paint MNU” is displayed.

3-4(E)

BVP-550

3-1. Setup Menu
3-1-1. Operation Menu

Page

Ver.

STAND
ALONE

1.10
AUTO
SETUP

DIAGNOSIS

c)

Item

Settings

Contents

H PHASE

-99 to 99 ([XX])

Sets the horizontal phase of the camera in the genlock mode.

SC PHASE

0 to 360([XX])

Sets the subcarrier phase of the camera in the genlock mode.

CABLE COMP

ON, [OFF]

Turns on and off the cable compensation circuit for the external sync
signal in the genlock mode.

SNG BARS

ON, [OFF]

Turns the color-bar signal for SNG on and off.

MASTER BLACK

-99 to 99 ([0])

Adjusts the MASTER BLACK level.

IRIS OVERRIDE

ON, [OFF]

Turns the auto-iris override function on and off.

CF PULSE

[ON], OFF

Turns on and off the color framing pulse supplied to the VTR.

SKIN DETAIL

ON, [OFF]

Turns the skin tone detail function on and off.

AUTO HUE

Press MENU SEL
switch to execute.

Sets the skin detail hue function automatically.
(Locate the desired skin color within the gate marker of VF and measure.)

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.
(To abort a processing during execution, press MENU SEL switch.)

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)
(To abort a processing during execution, press MENU SEL switch.)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output.

OHB

[OK], NG

Displays a state of communication for control data between the OHB
block and CPU on AT board.

PR

[OK], NG

Displays a state of communication for control data between the PR
board and CPU on AT board.

VA

[OK], NG

Displays a state of communication for control data between the VA
board and CPU on AT board.

AT

[OK], NG

Displays a state of communication for control data between the CPU
and memory on AT board.

SG

[OK], NG

Displays a state of communication for control data between the SG
board and CPU on AT board.

DA

[OK], NG

Displays a state of communication for control data between DA board
and CPU on AT board.

IF

[OK], NG

Displays a state of communication for control data between IF board
and CPU on AT board.

MD

[OK], NG

Displays a self-diagnosis result of MD board (of camera adaptor).

AU

[OK], NG

Displays a self-diagnosis result of AU board (of camera adaptor).

TR

[OK], NG

Displays a self-diagnosis result of TR board (of camera adaptor).

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence, After the adjustment is complete, adjustment result is stored as a master setup data.
1. A reference file which is reference for adjustment is loaded .
2. Lens is autmatically closed and the black balance is automatically adjusted.
3. The white balance is automatically adjust using TEST 2 (3-step) signal.
m
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the gamma and knee compensation values remains the values stored in the reference file.

BVP-550

3-5(E)

3-1. Setup Menu
3-1-1. Operation Menu

Page

Ver.

CAMERA ID

LENS FILE

d)

Item

Settings

Contents

No.

1 to 96 ([X])

Sets a camera number in the range of 1 to 96.
(When no camera number is set, “- -” is displayed.)

ID: [] [] [] [] [] [] []

Sets a camera ID of up to ten alphanumerics, symbols, and spaces.

1.10

No. / ID ON BARS CAM No., CAM ID,
[OFF]

Selects whether the camera number or ID is mixed with a camera
output signal only in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

1.10

CENTER H POS

–20 to 20 ([XX])

Shifts horizontally the location of the center marker on the screen.
20 (right) ↔ –20 (left)

1.10

CENTER V POS

–20 to 20 ([XX])

Shifts vertically the location of the center marker on the screen.
20 (up) ↔ –20 (down)

1.10

CENTER POS
STORE

Press MENU SEL
switch to execute.

Stores the location of the center marker at present in the selected lens
file number.

1.10

No.

[0] to 15

Selects a lens file. d)
(Example) No. : 1
← Lens file number (0 to15)
Lens : 27 : A14x8BERM ← Lens name
EX : 1.0
← Lens extender value

Select a lens file appropriate for the mounted lens from 16 kinds of the lens files which are stored in the RAM IC26/AT-95 board.
An additional data such as a center marker is also stored in the selected lens file.

3-6(E)

BVP-550

3-1. Setup Menu
3-1-2. Paint Menu

3-1-2. Paint Menu
The Paint menu is used for white and other paint adjustments items. To activate the Paint menu, first
display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page
VIDEO
LEVEL

DETAIL1

DETAIL2

BVP-550

Ver.

Item

Settings

Contents

WHITE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B gain level.

BLACK R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master black level.

FLARE R/G/B

–99 to 99 ([0])

Adjusts the R, G, B flare level.

GAMMA R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B master gamma correction curve.

FLARE

[ON], OFF

Turns the flare correction circuit on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the VIDEO LEVEL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding the detail signal.

LEVEL

–99 to 99 ([0])

Adjusts the master level for the detail signal.

LIMITTER

–99 to 99 ([0])

Adjusts the clipping level against the maximum detail level.

CRISPENING

–99 to 99 ([0])

Adjusts the level at which the detail signal is crispened.

LEVEL DEP

–99 to 99 ([0])

Adjusts the level to control the detail signal used at lower signal level.

LEVEL DEP

[ON], OFF

Turns the level depend function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the DETAIL 1 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

DETAIL

[ON], OFF

Turns the function on and off to improve resolution by adding detail signal.

H/V RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H and V detail signal.

FREQUENCY

–99 to 99 ([0])

Adjusts the boost frequency for H detail signal.

MIX RATIO

–99 to 99 ([0])

Adjusts the mix ratio of H detail signal used before and after the gamma
compensation circuit.

W.LIMITTER

–99 to 99 ([0])

Adjust the clipping level adainst the higher detail signal at the maximum level.

B.LIMITTER

–99 to 99 ([0])

Adjusts the clippping level against the lower detail signal at the minimum level.

COMB

–99 to 99 ([0])

Sets the effect volume of the comb filter
99 (Causes less cross colors.) ↔ –99 (Yields clear pictures, but causes more
cross colors.)
* For a PAL model, this function has the effect on not every object but a specified object.

KNEE APRT.

ON, [OFF]

Turns the knee aperture function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the DETAIL2 page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

3-7(E)

3-1. Setup Menu
3-1-2. Paint Menu

Page

Ver.

SKIN DETAIL

Contents

SKIN DETAIL

ON, [OFF]

Turns the skin detail function on and off.

LEVEL

–99 to 99 ([0])

Adjusts the level of the skin detail.

PHASE

100° to 170°([120])

Adjusts the hue for the skin detail function.

WIDTH

0° to 90° ([60])

Adjusts the color width for the skin detail function.

SATURATION

–99 to 99 ([0])

Adjusts the color saturation of the skin detail function.

ON, [OFF]

Turns the area display of the skin detail function in the viewfinder
screen.

AUTO HUE

Press MENU SEL
switch to execute.

Sets the range of skin detail hue function automatically.
(Locate the desired skin color within the gate marker of VF and measure.)

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the SKIN DETAIL page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA,
R/G/B/M

–99 to 99 ([0])

Adjusts the R, G, B and master gamma level.

COARSE

0.40, [0.45], 0.50

Selects the gamma value in steps.

GAMMA

[ON], OFF

Turns the gamma value on and off.

1.07

BLACK GAMMA

–99 to 99 ([0])

Adjusts the black gamma (master). e)

1.07

BLACK GAMMA

ON, [OFF]

Turns the black gamma function on and off. e)

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Resets all settings on the GAMMA page to the factry settings.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

POINT

–99 to 99 ([0])

Adjusts the knee point level when the function is OFF.

SLOPE

–99 to 99 ([0])

Adjusts the knee slope level when the function is OFF.

KNEE

[ON], OFF

Turns the knee function on and off.

AUTO KNEE

ON, [OFF]

Turns the auto knee function on and off.

KNEE MAX

ON, [OFF]

Turns on and off the knee max function which changes the slope to
completely collapsed form.

WHITE CLIP

–99 to 99 ([0])

Adjusts the white clip level.

WHITE CLIP

[ON],OFF

Turn the white clip function on and off.

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step waveform test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the KNEE/W.CLIP page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

GAMMA

e)

Settings

GATE
1.10

KNEE/W.CLIP

Item

This function is inhibited while TALLY lamps are lit or by the setting of the System Config menu.
A noise appears on the screen during operation.

3-8(E)

BVP-550

3-1. Setup Menu
3-1-2. Paint Menu

Page

Ver.

MATRIX

Item

Settings

Contents

G-R, B-R

–99 to 99 ([0])

R-G, B-G

–99 to 99 ([0])

Compensates the user’s matrix (sets an optional value as the constant
for G-R, B-R, R-G, B-G, R-B, and G-B).

R-B, G-B

–99 to 99 ([0])

MATRIX

[ON], OFF

Turns the matrix compensation on and off.

[ON], OFF

Turns the user’s matrix compensation on and off.

PRESET f)

[ON], OFF

Turns on and off only the preset matrix compensation (fixed constant
compensation).

TEST

1, 2, [OFF]

Selects the test signal.
1
: Outputs the sawtooth waveform test signal
2
: Outputs 3-step form test signal
OFF : No test signal is output

CLEAR

Press MENU SEL
switch to execute.

Sets all settings on the MATRIX page to 0.
(When you press MENU SEL switch, the “CLEAR” indication flashes.
Press MENU SEL switch again to execute; press CANCEL button to cancel.)

1

Storing and recalling a scene file (painting data corresponding to a shot scene)

2

Storing a scene file

3

1 Turn MENU SEL switch to move the → cursor to “FILE STORE,” then press MENU SEL

USER

SCENE FILE

f)

4

SHUTTER

switch. “FILE STORE” flashes on the viewfinder screen.

5

2 Select the file number (1 to 5) to be stored to.

FILE STORE

(If data is already stored at the selected location, the new data replaces the current data.)
Recalling a scene file
Turn MENU SEL switch to move the → cursor to the file number whose data is to be recalled,
then press MENU SEL switch.
• When MENU SEL switch is pressed, the scene file data replaces the current settings.
• When the scene file is recalled, an asterisk appears next to the number.

STANDARD

Returns the current amount of paint adjustments and switch setting to their reference value
stored as a reference file.

1.10

SELECT

[OFF], SHUTTER,
EVS, ECS

Selects the shutter, EVS, or ECS mode. (Does not correspond to the
setting of the SHUTTER switch in the camera front.)

1.10

SHUTTER

1
1
1
(or 60
), 125
, 250
,
1
1
,
,
500 1000 2000

Selects the shutter speed.

1

100
1

OTHERS
f)
h)
i)

1.10

ECS

h)

Sets the ECS (CLS) frequency.

1.10

S-EVS

[0] to 100%

Sets the desired resolution in %.
(This setting is invalid with the OHB-450/450P/451/451P installed.)

1.09

16:9/4:3 MODE

[16:9], 4:3

Selects the aspect ratio for the video signal output. i)

When both USER and PRESET are set to ON, the matrix constant compensation is total value of the USER and PRESET matrix.
Variable range differs depending on the OHB in use. For details refer to the operation manual supplied with the OHB.
The aspect ratio normally corresponds to the CCU’s setting when the CCU is connected. To forcefully select, use this menu.

BVP-550

3-9(E)

3-1. Setup Menu
3-1-3. Maintenance Menu

3-1-3. Maintenance Menu
The Maintenance menu is used for encoder output level and other adjustments items necessary for
camera’s maintenance. The Maintenance menu is not normally accessible. To display this menu, switch
setting of the AT-95 board is required.
For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”.
To activate the Maintenance menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting.)
Page
VBS

WHITE
SHADING

Ver.

Item

Settings

Contents

SYNC LEVEL

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.

Y LEVEL

-99 to 99 ([XX])

Adjusts the Y level of camera’s encoder output signal.

BURST LEVEL

-99 to 99 ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LEVEL

-99 to 99 ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

-99 to 99 ([XX])

Adjusts the Q (or V) level of camera’s encoder output signal.

SET UP

-99 to 99 ([XX])

Adjusts the sync level of camera’s encoder output signal.
(This setting is valid only for NTSC.)

BF PHASE

-99 to 99 ([XX])

Adjusts the burst phase of camera’s encoder output signal.

SC-H PHASE

-99 to 99 ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

V BLANKING

19,[20],21H

Adjusts the V blanking width of camera’s encoder output signal.
(This setting is valid only for NTSC.)
In connection with CCU, the width is fixed to 19H.
* For a PAL model, the width is fixed to 25H at all times.

V SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, or B white
shading.

V PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.PARA compensation for the R, G, or B white shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B white shading.

H PARA R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.PARA compensation for the R, G, or B white shading.

WHITE R/G/B

-99 to 99 ([XX])

Adjusts the R, G, or B white level.

V MOD R/G/B/M -99 to 99 ([XX])

BLACK
SHADING

j)

Adjusts the volume of V.SAW compensation for the R, G, B or master
modulation shading of the lens and prism. j)

V MOD

ON, [OFF]

Turns the V modulation shading on and off.

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the WHITE SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

V SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of V.SAW compensation for the R, G, or B black shading.

H SAW R/G/B

-99 to 99 ([XX])

Adjusts the volume of H.SAW compensation for the R, G, or B black shading.

BLK SET R/G/B

-99 to 99 ([XX])

Adjusts the volume of BLACK SET compensation for the R, G, or B.
(Adjusts for each gain.)

BLACK R/G/B/M -99 to 99 ([XX])

Adjusts the R, G, B or master black level.

MASTER GAIN

-3,0,3,6,9,12,18,
24,30 dB ([X])

Selects the master gain value.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.

CLEAR

Press MENU SEL
switch to execute.

Resets numeric settings to “0” on the BLACK SHADING page.
(When you press the MENU SEL switch, the “CLEAR” indication flashes.
Press the MENU SEL switch again to execute; press CANCEL button to cancel.)

When the master modulation shading is adjusted, the V. SAW component for the R and B V-modulation shadings of the prism is
simultaneously compensated.

3-10(E)

BVP-550

3-1. Setup Menu
3-1-3. Maintenance Menu

Page

Ver.

Item

Settings

Contents

AUTO WHITE

Press MENU SEL
switch to execute.

Starts to automatically adjust the white balance.

AUTO BLACK

Press MENU SEL
switch to execute.

Starts to automatically adjust the black balance.
(To abort a processing during execution, press MENU SEL switch.)

LEVEL AUTO

Press MENU SEL
switch to execute.

Starts to automatically adjust the level in the internal circuits. c)
(To abort a processing during execution, press MENU SEL switch.)

AUTO HUE

Press MENU SEL
switch to execute.

Sets the skin detail hue function automatically.
(Locate the desired skin color within the gate marker of VF and measure.)

WHITE
SHADING

Press MENU SEL
switch to execute.

Starts to automatically adjust the white shading.
(To abort a processing during execution, press MENU SEL switch.)

BLACK
SHADING

Press MENU SEL
switch to execute.

Starts to automatically adjust the black shading. k)
(To abort a processing during execution, press MENU SEL switch.)

1.10

COLOR REF
(SELF)

Press MENU SEL
switch to execute.

Makes a color reference to compensate the difference in colors between
OHBs using a single camera. (Locate the desired colors of a Macbeth
chart within the gate marker of VF and measure. To abort a processing
during execution, press MENU SEL switch.) m)

1.10

COLOR SETUP Press MENU SEL
(SELF)
switch to execute.

Automatically calculates the color matrix from the reference.
(Locate the desired colors of a Macbeth chart within the gate marker of
VF and measure. To abort a processing during execution, press MENU
SEL switch.) n)

DD/MM/YY
HH:MM:SS

Adjusts a built-in timer. (HH;hour/MM;minute only)

DATE ON BARS ON, [OFF]

Selects whether the date characters are mixed with a camera output
signal in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

TIME ON BARS ON, [OFF]

Selects whether the time characters are mixed with a camera output
signal in the color-bar mode, or not.
(This setting is valid only when the DISP switch is set to on or off.)

AUTO
SET UP

1.10

DATE/TIME

OTHERS

S/N MEASURE

ON, [OFF]

ON

MOD
MEASURE

ON, [OFF]

ON

MASTER
BLACK

-99 to 99 ([0])

Adjusts the master black in measuring the S/N ratio and modulation
depth.

DETAIL
CHROMA
GAMMA
MATRIX
FLARE

[ON], OFF
[ON], OFF
[ON], OFF
[ON], OFF
[ON], OFF

: Set to ON in mesuring the S/N ratio. And settings of the DETAIL,
CHROMA, GAMMA, MATRIX, and FLARE will be temporarily turned
OFF.
OFF : Settings of DETAIL and so on are returned as they were.
: Set to ON in mesuring the modulation depth. And settings of the
DETAIL, GAMMA, MATRIX, and FLARE will be temporarily turned OFF.
OFF : Settings of DETAIL and so on are returned as they were.

c)

When executing the LEVEL AUTO, data set through the menu is all cleared and the automatic level adjustment is performed in
sequence, After the adjustment is complete, adjustment result is stored as a master setup data.
1. A reference file which is reference for adjustment is loaded .
2. Lens is autmatically closed and the black balance is automatically adjusted.
3. The white balance is automatically adjust using TEST 2 (3-step) signal.
m
This white balance adjustment compensates a drift of the gain of an amplifier, does not compensate color temperature for an actual
object.
The gamma and knee compensation values do not change with a lapse of time because of the digital-processing camera.
Therefore, the gamma and knee compensation values remains the values stored in the reference file.
k) Before first using the camera with the OHB-450/451/550/550WS (or their PAL version) installed, or After replacing the CCD unit, be
sure to execute the automatic black shading adjustment.
m) When performing compensation between two or more cameras, use the MSU.
n) Differing from the color-setup operation by plural cameras, a data transfer is not performed.
Execute to recalculate. After execution, the color matrix data is temporarily reflected in the OHB matrix of the System Config menu.
Execute the OHB FILE STORE of the Triming menu to store the color matrix data.

BVP-550

3-11(E)

3-1. Setup Menu
3-1-4. Reference Menu
3-1-5. Triming Menu

3-1-4. Reference Menu
The Reference menu stores the reference values used for automatic setup adjustment and the standard settings of the
switches as the reference files. And the menu can clear the current reference files. The Reference menu is not normally
accessible. To display this menu, switch setting of the AT-95 board is required. For details, refer to Section 1-3.
“Function of Internal Switches—AT-95 board”. To activate the Reference menu, first display the TOP menu.
m
1. Executing the FILE STORE on the REFERENCE FILE page registers settings of items, which have been set through
the Paint, Maintenance and System config menus just before the file store, as the reference values.
2. When changed numbers of items are returned to the reference values stored as the reference files, recall the standard
file using an MSU/RCP or the setup menu.
Page

Ver.

REFERENCE
FILE

p)

Item

Settings

Contents

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the reference files.
(Temporarily clears the current reference files p).)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

3-1-5. Triming Menu
The Triming menu stores the adjustment data in replacing parts as the triming files. And the menu can clear the current
adjustment values. The Triming menu is not normally accessible. To display this menu, switch setting of the AT-95 board
is required. For details, refer to Section 1-3. “Function of Internal Switches—AT-95 board”. To activate the Triming
menu, first display the TOP menu.
n
Executing the FILE STORE on the TRIMING FILE page registers settings of items, which have been set through the
Maintenance and System config menus just before the file store, as the reference values.
Page

Ver.

Item

Settings

Contents

FILE STORE

Press MENU SEL
switch to execute.

Stores the adjustment value on each item as the reference value.

CLEAR FILE

Press MENU SEL
switch to execute.

Clears the adjustment values stored as the triming files.
(Temporarily clears the current triming files p).)

FILE STORE

Press MENU SEL
switch to execute.

Stores specific data for a CCD unit to be used as the OHB files.
The standard values are stored at the factory.
(Stores the offset value, OHB matrix data and so on.)

1.10

LENS FILE
STORE

Press MENU SEL
switch to execute.

Stores specific data for a lens to be used as the lens files.
The standard values are stored at the factory.

1.10

SELECT
CURRENT
LENS

[0] to 49

Loads a lens data into the lens file selected at present by the LENS
FILE page of the Operation menu.

1.10

RESET ALL
LENS

Press MENU SEL
switch to execute.

Resets all of 16 lens files.
(Example) No. : 1
← Lens stored number (0 to 49)
Lens : 27 : A14x8BERM ← Lens name
EX : 1.0
← Lens extender value

TRIMING
FILE

OHB FILE

LENS FILE

p)

If the power is turned off without execution of the FILE STORE after clearing the file, the original setting is restored.

3-12(E)

BVP-550

3-1. Setup Menu
3-1-6. System Config Menu

3-1-6. System Config Menu
The System config menu is used for adjustments items necessary to replace a printed circuit board or
some parts of the camera. The System config menu is not normally accessible. To display this menu,
switch setting of the AT-95 board is required. For details, refer to Section 1-3. “Function of Internal
Switches—AT-95 board”. To activate the System config menu, first display the TOP menu.
(Boxed items under “Settings” indicate the factory setting. XX or XXX represents two or three digits in hexadecimal.)
Page
DATE/TIME

Y/CHROMA

PR/VA/TEST

Ver.

Item

Settings

YY/MM/DD
HH:MM:SS

Contents
Adjusts the built-in calender and timer.

RESET

Turn MENU SEL
switch to execute.

Resets hour (HH), minute (MM) and second (SS) of the timer.

SC FREQ

XXX ([XX])

Adjusts the camera’s subcarrier frequency.

Y SYNC

XXX ([XX])

Adjusts the sync level of camera’s Y output signal.

Y SETUP

XXX ([XX])

Adjusts the setup level of camera’s Y output signal.

Y VIDEO

XXX ([XX])

Adjusts the Y level of camera’s Y output signal.

TEST SETUP

XXX ([XX])

Adjusts the setup level of camera’s encoder output signal.

BURST LVL

XXX ([XX])

Adjusts the burst level of camera’s encoder output signal.

CHROMA LVL

XXX ([XX])

Adjusts the chroma level of camera’s encoder output signal.

Q/V LEVEL

XXX ([XX])

Adjusts the Q(V) level of camera’s encoder output signal.

SC-H PHASE

XXX ([XX])

Adjusts the SC-H phase of camera’s encoder output signal.

REG LVL

XXX ([XX])

Adjusts the level of the R, G and B output signals.

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting
each item on the Y/CHROMA page.

PR ADG R/G/B

XXX ([XX])

Adjusts the reference level of the AD converter for R/G/B signals on the
PR board.

VA MOD R/G/B

XXX ([XX])

Adjusts the R, G or B modulation balance for the VA board.

G CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for G
signal on the PR board.
(Note: In replacing OHB, readjustment is required to set the maximum
value of the modulation depth.)

R/B CLOCK

XXX ([XX])

Adjusts the clock pulse in phase to be input to the AD converter for R/B
signals on the PR board.
(Note: In replacing OHB, readjustment is required to set the minimum
level of a pseudo signal.)

M.BLACK

XXX ([XX])

Adjusts the master black signal.

TEST2 HI

XXX ([XX])

Adjusts the high level of the TEST2 (3-STEP) signal on the VA board.

TEST2 MID

XXX ([XX])

Adjusts the middle level of the TEST2 (3-STEP) signal on the VA board.

TEST CLIP

XXX ([XX])

Adjusts the clip level of the TEST1 (sawtooth) signal on the VA board.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the PR/VR/
TEST page.
1
: Outputs the sawtooth test signal
2
: Outputs the 3-step waveform test signal
OFF : No test signal is output

PRE KNEE/
ZEBRA

PREKNEE1 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 1 level on the VA board.

PREKNEE2 R/G/B XXX ([XX])

Adjusts the R, G or B pre-knee 2 level on the VA board.

(Continued)

APERTURE

Adjusts the aperture compensation signal level.

BVP-550

XXX ([XX])

3-13(E)

3-1. Setup Menu
3-1-6. System Config Menu

Page

Ver.

PRE KNEE/
ZEBRA

Settings

Contents

WHITE CLIP

XXX ([XX])

Adjusts the white clip level.

WHITE CLIP

[ON], OFF

Turns the white clip function on and off.

ZEBRA1 LEVEL, XXX ([XX])
RANGE

Sets the center value and range for the zebra 1 signal detection.

ZEBRA2 LEVEL XXX ([XX])

Sets the detection value for the zebra 2 signal.

Z.DISP

1,2, 1&2

Selects a zebra signal to be displayed on the viewfinder.
1
: Zebra 1 signal
2
: Zebra 2 signal
1&2 : Both zebra 1 and 2 signals are displayed at the same time.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the
PREKNEE/ZEBRA page.
1
: Outputs the sawtooth test signal
2
: Outputs the 3-step waveform test signal
OFF : No test signal is output

VTR R-Y

XXX ([XX])

Adjusts the R-Y color-difference signal level.

VTR B-Y

XXX ([XX])

Adjusts the B-Y color-difference signal level.

CCU Y SAMP

XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the Y signal.

CCU R-Y SYNC XXX ([XX])

Adjusts the level of the sync pulse to be mixed with the R-Y signal.

CCU B-Y SAMP XXX ([XX])

Adjusts the level of the sample pulse to be mixed with the B-Y signal.

RGB OFFSET

XXX ([XX])

Adjusts the G signal level.

TEST

1, 2, [OFF]

Selects a TEST signal to be output in setting each item on the VTR/CCU page.
1
: Outputs the sawtooth test signal
2
: Outputs the 3-step waveform test signal
OFF : No test signal is output

CB

ON, [OFF]

Turns on and off the camera color-bar signal to be output in setting
each item on the VTR/CCU page.

LEVEL

XXX ([XX])

Adjusts the auto-iris level.

APL RATIO

XXX ([0])

Sets the way the iris is automatically adjusted. -99 (PEAK) ↔ 99 (AVERAGE)

1.10

COLOR REF
(SELF)

Press MENU SEL
switch to execute.

Makes a color reference to compensate the difference in colors
between OHBs using a single camera. (Locate the desired colors of a
Macbeth chart within the gate marker of VF and measure. To abort a
processing during execution, press MENU SEL switch.) m)

1.10

COLOR SETUP
(SELF)

Press MENU SEL
switch to execute.

Automatically calculates the color matrix from the reference. (Locate the
desired colors of a Macbeth chart within the gate marker of VF and measure.
To abort a processing during execution, press MENU SEL switch.) n)

1.10

(OHB MATRIX)
G-R, B-R
R-G, B-G
R-B, G-B

VTR/CCU

IRIS

COLOR
SETUP

Item

-99 to 99 ([0])

Compensates the OHB matrix to adjust the difference between OHBs or
cameras (sets an optional value as the constant for G-R, B-R, R-G,
B-G, R-B and G-B). r)

1.10

OHB MTX

[ON], OFF

Turns the OHB matrix compensation on and off.

1.10

CM ADD LVL

[0] to 16

For fine adjustment in color-setup operation. Compensates the
caluculation value for the color selected by the CM ADD COLOR in 16
steps and recalculates the OHB matrix. (Selecting 0 turns off the function.) s) t)

1.10

CM ADD
COLOR

[0] to 17

For fine adjustment in color-setup operation. Select a color to be
compensated from 18 colors of the Macbeth chart with the gate marker
of VF. Recalculates the OHB matrix t)

m) When performing compensation between two or more cameras, use the MSU.
n) Differing from the color-setup operation by plural cameras, a data transfer is not performed.
Execute to recalculate. After execution, the color matrix data is temporarily reflected in the OHB matrix of the System Config menu.
Execute the OHB FILE STORE of the Triming menu to store the color matrix data.
r) Adjust with the MATRIX of the Paint menu turned OFF. Execute the OHB FILE STORE to store the adjustment values.
s) The compensation value is temporarily reflected in the OHB matrix of the System Config menu after execution of the COLOR
SETUP(SELF). Execute the OHB FILE STORE of the Triming menu to store the value.
The higher you set the value of the CM ADD LVL, the more the weights are assigned to the color selected by the CM ADD COLOR.
The compensation is performed so as to entirely minimize the error, while reducing the error for the weights-assigned color.
t) After powered off once following the completion of color-setup operation, recalculation is not performed.

3-14(E)

BVP-550

3-1. Setup Menu
3-1-6. System Config Menu

Page

Ver.

Item

Settings

Contents

FILTER,
WHT MEM

[ON], OFF

ON

NTSC ENC

[WIDE], NRW

Sets the band width of the Q signal for the NTSC color encoder.

ROTARY

[STD], RVS

Selects the mode of MENU SEL switch (as turned counterclockwise
when viewed from the front.)
STD : Cursor moves downwards and a numeric value increases.
RVS : Cursor moves upwards and a numeric value decreases.

OWN CALL

R, F&R , OFF

Selects whether one or two TALLY lamps are lit corresponding to the
CALL button of camera adaptor pressed, or not. Or selects which
TALLY lamp is lit when the CALL button is pressed.
(This setting is valid in connection with CCU. When the camera is used
alone and MSU/RCP is not connected to the camera, it is always set to
OFF.)
R
: Rear TALLY lamp is lit.
F&R : Rear and front TALLY lamps are lit.
OFF : No TALLY lamp is lit corresponding to the CALL button.

CENTER H POS

–20 to 20 ([XX])

Shifts horizontally the location of the center marker on the screen.
20 (right) ↔ –20 (left)

CENTER V POS

–20 to 20 ([XX])

Shifts vertically the location of the center marker on the screen.
20 (up) ↔ –20 (down)

LENS VTR S/S

TALK, [RET2]

Selects the mode of VTR S/S SW of the lens and camera.
TALK : VTR S/S SW of lens functions as INCOM TALK SW
(momentary) and that of the camra as RET2 SW.
RET2 : VTR S/S SW of lens functions as RET2 SW and that of the
camera as INCOM TALK SW.

VF ? DISPLAY

[ON], OFF

Turns on and off the indication of ? mark at the top-right of the VF screen
with the DISP switch set to ON when the self-diagnosis result is NG (no
good) and so on.

PinP RET RVS

[RVS1], RVS 2, OFF

Selects the indication mode of VF display in PinP mode. (Does not function
in the unit.)

F TALLY RVS

[ON], OFF

Selects the operation mode of TALLY lamps corresponding to a CALL
button of MSU or RCP pressed when a TALLY signal is input to the camera
from CCU or VTR.
ON : Rear and front TALLY lamps go out.
OFF : Rear TALLY lamp alone goes out.

1.07

BLK GAM
INHIBIT

[ON], OFF

ON

1.10

CHAR CAM No. [1,2,3], A,B,C

1.10

WHT SETUP
MODE

[AWB], LEVEL

AWB : After executing the LEVEL AUTO, white balance adjustment
data returns to the value before execution.
LEVEL: After executing the LEVEL AUTO, white balance adjustment
data changes to the value after the white balance is adjusted
using TEST 2 signal.

1.10

AW SHADING
MODE

[RGB], RB ONLY

RGB

OTHERS 1

OTHERS 2

BVP-550

: A total of 8 settings of the white balance value can be saved
in conbination with the CC filter and WHITE BAL switch settings.
OFF : One white balance value can be saved for the WHITE BAL
switch setting A or B, for a total of 2 settings.

: Inhibits the black gamma adjustment and on/off function from the
MSU or Paint manu.
OFF : Enables the above operation.

Selects the indication mode of the camera number set by the CAMERA
No. page of Operation menu.
1,2,3 : Indicates in numerics.
A,B,C : Indicates camera numbers 1 to 27 in alphabetical order of A to Z.
(When connecting 28 or more cameras, select “1,2,3”.)

: When automatically adjusting the white balance, R, G, and
B signal waveforms are all flattened.
RB ONLY : When automatically adjusting the white balance, R and B
signal waveforms are flattened.

3-15(E)

3-2. Self-Diagnosis

3-2. Self-Diagnosis
The BVP-550 has a diagnosis mode used for self-diagnosis of every plug-in board and the OHB.
The diagnosis page is displayed on the viewfinder screen.
• Operation
Select “Diagnosis” page of the Operation menu referring to Section 3-1.
• Viewfinder Screen

• Display Descriptions
Marks

Board/Block

Judging Point for NG

1

OHB(CCD UNIT) Error in communication with IC18, IC19/TG-159

2

PR-211

Error in communication with IC49

3

VA-163

Error in communication with IC26

4

AT-95

Error in communication with IC46

5

SG-234

Error in communication with IC21

6

DA-88

Error in communication with IC10

7

IF-510

Error in communication with IC155

Refer to CA-550/550P maintenance manual for descriptions on columns of CA.
n
When other equipment than the CA-550/550P is connected to the camera, or when the CA-550/550P is
connected to the camera but is not connected to the CCU, the columns 8 will display “– –”.

3-16(E)

BVP-550

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Modify Date                     : 2009:06:05 10:16:01+02:00
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Title                           : BVP-550/550PMaintenance Manual
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