DVD3800_Cover.p65 DVD3800
User Manual: DVD3800
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For U.S.A., Canada, Europe,
Asia & Korea model
Digital Player
SERVICE MANUAL
MODEL
DVD-3800
DVD AUDIO-VIDEO PLAYER
Some illustrations using in this service manual are slightly different from the actual set.
16-11, YUSHIMA 3-CHOME, BUNKYOU-KU, TOKYO 113-0034 JAPAN
Telephone: 03 (3837) 5321
X0137 NC 0207
DVD-3800
SAFETY PRECAUTIONS
The following check should be performed for the continued protection of the customer and service technician.
LEAKAGE CURRENT CHECK
Before returning the unit to the customer, make sure you make either (1) a leakage current check or (2) a line to chassis
resistance check. If the leakage current exceeds 0.5 milliamps, or if the resistance from chassis to either side of the
power cord is less than 460 kohms, the unit is defective.
SPECIFICATIONS
Signal System:
Applicable Discs:
NTSC/PAL
(1) DVD-Audio/DVD-Video discs
1-layer 12 cm single-sided discs, 2-layer 12 cm single-sided discs,
2-layer 12 cm double-sided discs (1 layer per side)
1-layer 8 cm single-sided discs, 2-layer 8 cm single-sided discs,
2-layer 8 cm double-sided discs (1 layer per side)
(2) Compact discs (CD-DA, Video CD)
12 cm discs, 8 cm discs
S-Video Output:
Y output level:
1 Vp-p (75 Ω/ohms)
C output level:
0.286 Vp-p (For U.S.A., Canada, Asia & Korea model)
0.3 Vp-p (For Europe model)
Output connectors: S connectors, 2 setS
AV 1 connector, 1 set (For Europe model)
Video Output:
Output level:
1 Vp-p (75 Ω/ohms)
Output connector: Pin-plug jacks, 2 setS
AV 1 connector, 1 set/AV2 connector, 1 set (For Europe model)
Component Output:
Y output level:
1 Vp-p (75 Ω/ohms)
PB/CB output level: 0.648 Vp-p (75 Ω/ohms) (For U.S.A., Canada, Asia & Korea model)
0.7 Vp-p (75 Ω/ohms) (For Europe model)
PR/CR output level: 0.648 Vp-p (75 Ω/ohms) (For U.S.A., Canada, Asia & Korea model)
0.7 Vp-p (75 Ω/ohms) (For Europe model)
Output connector: Pin jack, 1 set
RGB Output:
Output level:
0.7 Vp-p (75 Ω/ohms) (For Europe model)
Output connector: AV 1 connector, 1 set (For Europe model)
Audio Output:
Output level:
2 Vrms
2 channel (FL, FR) output connector: Pin jacks, 2 sets
Multi channel (C, SW, SL, SR) output connector: Pin jack, 1 set
AV 1, 1 set/AV 2, 1 set (For Europe model)
Audio Output Properties:
(1) Frequency response
1 DVDs (linear PCM) : 2 Hz to 22 kHz (48 kHz sampling)
: 2 Hz to 44 kHz (96 kHz sampling)
: 2 Hz to 88 kHz (192 kHz sampling)
2 CDs
: 2 Hz to 20 kHz
(2) S/N ratio
1 DVDs
: 116 dB
2 CDs
: 116 dB
(3) Total harmonic distortion
1 DVDs
: 0.0015 %
2 CDs
: 0.0018 %
(4) Dynamic range
1 DVDs
: 108 dB
2 CDs
: 100 dB
Digital Audio Output:
Optical digital output
: Optical connector, 1 set
Coaxial digital output
: Pin jack, 1 set
Power Supply:
AC 120 V, 60 Hz (For U.S.A. & Canada model)
AC 230 V, 50 Hz (For Europe & Asia model)
AC 220 V, 50 Hz (For China model)
AC 220 V, 60 Hz (For Korea model)
Power Consumption:
30 W (For U.S.A. & Canada model)
32 W (For Europe, Asia & Korea model)
Maximum External Dimensions: 434 (W) × 132 (H) × 343 (D) mm (including protruding parts)
Mass:
10.0 kg
Remote Control Unit:
RC-553
Type:
Infrared pulse
Power Supply:
DC 3 V, 2 "AA" /R6P batteries
∗
Design and specifications are subject to change without notice in the course of product improvement.
2
DVD-3800
Iop Measurement Method (Diagnostics of Traverse Unit)
Diagnostics of optical pickup (Replacing Traverse Unit) as shown as below.
1. Arrange of Judgment
(1) Check read discs
Disc no read, unsteady playback, etc.
(2) Laser current (Iop) check
Check the Iop (Laser drive current).
If the present Iop value exceeds +50% of the initial value,
replace the Traverse Unit with a new one.
(3) Replacing the Traverse Unit
Traverse Unit replacing (See page 8 and 9).
No mechanical adjustment is necessary after the replacement.
DVD
CD
mA
mA
Laser current initial value
2. Iop Measurement Method
Nearby C532
DVD laser drive current measuring points
17
7
18
6
1
14
1
28
28
15
40
29
60
41 40
61
8
4
5
15
32
17
1
16
1
21
80
1
1
39
1
40
1
20
24
40
21
20
1
8
14
7
1
21
20
75
51
50
76
26
100
1
11
12
1
48
25
24
37
25
CD laser drive current measuring points
36
GU-3389 P.W.B. (foil side)
[CD] IOP silk point
(1) DVD laser current measurement
• Playback the title 1/chapter 1 of DVD test disc (DVDT-S01) or the equivalent.
• Connect the oscilloscope to the above mentioned point.
• DVD laser current = Measured Voltage Value / 39 (Resistance Value)
(2) CD laser current measurement
• Playback the track 1 of CD test disc (TCD-784) or the equivalent.
• Connect the oscilloscope to the above mentioned point.
• CD laser current value = Measured Voltage Value / 39 (Resistance Value)
3
DVD-3800
Note for Handling the Laser Pick-up
The protection for the damage of laser diode.
If you want to change the optical device unit from any other units, you must keep the following.
(1) It should be done at the desk already took measures the static electricity in care of removing the OPU's
(Optical device unit) connector cable.
(2) Workers should be put on the "Earth Band".
(3) It shold be done to add the solder to the short land to prevent the broken Laser diode before removing the
24P FFC cable.
(4) Don't touch OPU's connector parts carelessly.
Replacement of the Traverse Unit
When repairing, carry out failure diagnostics by following the procedure described below.
If the present value of the laser drive current is 50% up to initial value, it is the point of the pickup replacement.
In case of the pickup replacement, replace the Traverse Unit with no adjustment.
The initial value is indicated on the label on back side of Mecha.
NO DISC indicated, Playback not smooth, etc.
Laser drive current check
HF signal check
Present value: 50% up to initial value
Traverse Unit replacement (refer to page 8)
Laser drive current check after replacement.
If the present value is less than 80mA, write on
the new label by hand, put on the new label over
the old label.
If the present value exceeds 80mA,
replace the Traverse Unit with a new one.
Cause: Damaged electrostatically when replaced.
4
DVD-3800
DISASSEMBLY
( Follow the procedure below in reverse order when reassembling )
1. Top Cover
(1) Remove 10 screws 1 on the top and both sides,
and 2 screws 2 on the rear.
(2) Widen the Top Cover a little laterally, then detach it
with sliding in the arrow direction.
1
1
2
1
2. Loader Panel, Front Panel
Power P.W.B.
2-1. When the Disc Tray can be ejected electrically
3
(1) After removing the Top Cover, proceed
Front Panel
as follows.
(2) Plug the power cord to the wall outlet,
switch on the power, and press the
“OPEN/CLOSE” button to open the Disc
Tray.
Power Switch
(3) Detach the Loader Panel by lifting it in
the arrow direction.
(4) Press the “OPEN/CLOSE” button to
close the Disc Tray, then unplug the
power cord.
Loader Panel
(5) Disconnect the wire (CX025, CX041)
connecting the Front Panel’s P.W.B. and
the Power PWB in the Chassis.
4
(6) Remove 4 top screws 3 and 4 bottom
“OPEN/CLOSE” button
screws 4 , then detach the Front Panel
to the arrow direction.
(7) Disconnect the FFC (CX171) connecting
the Front Panel’s P.W.B. and the Main
P.W.B. in the Chassis.
Main P.W.B.
5
DVD-3800
2-2. When the Disc Tray cannot be ejected electrically
(1) After removing the Top Cover, proceed as
follows.
Trans. Bracket
(2) Remove 2 screws 5 on the Trans.
Bracket and 2 bottom screws 6 .
5
6
Front Panel
(3) Turn the Trans. and Bracket to the arrow
direction, then remove 2 screws 7 .
7
(4) Move the Trans. toward the Front Panel.
Trans.
Front Panel
(5) Insert a screwdriver
into the left hole of
the Mecha. Fix Bracket, and push the Plate
Gear of the DVD Mecha. slowly to open
the Disc Tray.
DVD Mecha.
Mecha. Fix Bracket
Plate Gear
screwdriver
(6) Remove the Loader Panel, and close the
Disc Tray.
Loader Panel
(7) Detach the Front Panel following the same
steps described on the previous page 2-1.
(5)~(7).
6
DVD-3800
3. Video P.W.B.
(1)
(2)
(3)
(4)
(5)
8
Disconnect 2 connectors.
Disconnect 2 FFCs (CY272, CY131).
Remove 4 screws 8 on the Video P.W.B.
Remove 3 screws 9 from the rear.
Detach the Video P.W.B. to the arrow direction.
FFC
9
Video P.W.B.
Connector
I/F P.W.B.
Connector
4. DVD Mecha.
FFC
(1) Remove 2 screws
on the I/F P.W.B.,
2 screws from the rear, then disconnect
2 FFCs (CY211, CY212) and 1 connector
(CY036) to detach the I/F P.W.B.
(2) Disconnect each one of 30P FFC (CY301) and
14P connector (CX141) from the DVD Mecha.
(3) Remove 4 screws on the DVD Mecha., and
take it off in the arrow direction.
14P Connector
DVD Mecha.
30P FFC
#
Power P.W.B.
5. Audio P.W.B. / Power P.W.B.
!
5-1. Audio P.W.B.
Remove 4 screw ! on the Audio P.W.B.,
4 screws " from the rear.
5-2. Power P.W.B.
(1) Remove 6 screws # on the Power P.W.B.
(2) Disconnect 2 connectors (CX024, CX026).
Connector
Audio P.W.B.
"
7
DVD-3800
How to Replace Traverse Unit
1. Preparing for Replacement
(1) Removing Clamp Base Damper
Remove 4 pcs of 2.6mm machine screw (a), and detach
the Clamp Base Damper upward.
(2) Removing Clamp Base
Remove 6 pcs of 3mm P-tight screw (b), and detach the
Clamp Base upward.
(3) Ejecting Loader
Through the left rectangular hole of the Mechanism Unit,
push the slider with a ruler or screwdriver until the
Traverse portion lowers and the Loader comes out a little.
(4) Removing Loader
• Remove 2 pcs of 3mm P-tight screw (c) on the Loader
Holder left.
• Remove 2 pcs of 3mm P-tight screw (d) on the Loader
Holder right, then pull up the Bearing Plate.
• Fully pull out the Loader forward, and lift up to take it
out.
(5) Shorting Pickup
To protect the Pickup from static electricity, short-circuit
2 positions as shown in figure.
(6) Removing Main P.W.B. Ass'y
Remove 4 pcs of 3mm P-tight screw (e), and detach the
Main P.W.B. Ass'y downward.
(a)
Clamp Base Damper
Clamp Base
(b)
(d)
Bearing Plate
(c)
Holder
Loader
A
(4)
(3)
Main P.W.B. Ass'y
Solder to short-circuit (CD)
(e)
Solder to short-circuit (DVD)
Short-circuit with solder (enlarged fig. A)
2. Replacing Traverse Unit
(1) Removing Wires
• CX241: 24P-FFC for Pickup
• CX151: 15P-FFC for Spindle
• CX031: 3P-PH wire for PU Slide
(2) Removing Traverse Unit
Remove 4 pcs of special screw (f) and dampers, then
take out the Traverse Unit upward.
(3) Mounting Traverse Unit
Mount the Traverse Unit following the reverse order.
(f)
Traverse Unit
Damper
8
DVD-3800
3. Installing Loader
Plate Gear
(1) Inserting Loader
Set and push the Loader to the arrow direction until it
stops. When installing the Loader, move the Plate Gear
to right beforehand so as that the boss of the Plate Gear
fits in the backside groove of the Loader. (See figure right)
(2) Fixing Loader
Fix the Loader with each 2 screws (c) and (d).
Boss
Groove
(d)
Bearing Plate
(c)
Loader
4. Assembly (1)
(1) Assembling Main P.W.B. Ass'y
Fix the Main P.W.B. Ass'y with 6 pcs of 3mm P-tight
screw (e).
(2) Removing Pickup-short Solder
After connecting 24P-FFC of the Pickup with P.W.B.,
remove solder from 2 shorted positions.
(3) Temporary Positioning Clamp Base
To protect your eyes from laser light, put the Clamp Base
temporarily. (At this moment, be sure to make chucking
the Clamper and Turn-table securly.)
(4) Positioning up Traverse Unit
Connect the following wires of the Mechanism Unit, and
operate it.
• CX141: 14P-PH wire for power
• CX131: 13P-FFC wire from Display P.W.B.
Turn on the power to the unit, and press "OPEN/CLOSE"
button to close the Loader.
The Traverse Unit rises up. (display: 0h00m00s)
Clamp Base
(e)
Main P.W.B. Ass'y
9
DVD-3800
5. Assembly (2)
(1) Attaching Tape to Clamp Base Damper
Attach acetate cloth tape to 3 projections of the Clamp
Base Damper backside. (Be careful not to make it
overlapped.)
(2) Assembling Clamp Base
Set the Clamp Base Damper with positioning for clamper
by 3 projections.
Fix the Clamp Base with 6 pcs of 3mm P-tight screw (b).
Acetate Cloth Tape
Clamp Base Damper
Clamp Base Damper
(b)
Clamp Base
6. Assembly (3)
(1) Detaching Tape from Clamp Base Damper
Detach acetate cloth tape from 3 projections of the Clamp
Base Damper backside.
(2) Assembling Clamp Base Damper
Set the Clamp Base Damper to the Clamp Base contrary
to the direction set in step above.
Fix the Clamp Base Damper with 4 pcs of 3mm S-tight
screw (a).
(a)
Clamp Base Damper
10
DVD-3800
Service Mode
1. Aging Mode
(1) Preparation
(a) Equipment used: Any one of DVD Karaoke Disc (containing more than 10 titles), CD/Video CD (Ver1.0: None
playback control), or No-menu DVD. (Setting varies according to the disc used.)
(b) Unit setting: No spec other than the following procedure (Aging mode)
At the tray open status, press the "POWER" button to turn on the power while pressing the "PLAY" and
"OPEN/CLOSE" buttons for DVD operation simultaneously.
mark on the FL lights, and the unit is set to the heat
run mode.
(2) Procedure
(a) According the above, set to the aging mode.
(b) Set a DVD Karaoke disc to the tray and press the "PLAY" button once.
mark on the FL blinks, and aging peration
(after playback title-1 and title-10 of the disc, the tray open/close is made automatically, then playback the title-1
again) starts. This aging operation continues automatically until it is stopped or it stops caused by an error.
(c) When using other than a DVD Karaoke disc, aging operation (after playback all titles of the disc, the tray open/close
is made automatically, then playback all titles again) starts by pressing the "PLAY" button once, and
mark on
the FL lights. The aging operation continues automatically until it is stopped or it stops caused by an error. In case
of some error in DVD, the tray opens and the following error messages are displayed on the FL.
No.
Error contents
Error code
FL display
1
During tray work, it doesn’t end within the time specified.
045300
ERROR 01
2
No spindle work during playback.
040990
ERROR 02
3
Out of focus during playback, search, or pause.
031100
ERROR 04
4
No data read when spin up.
031100
ERROR 04
5
No data read when playback.
031100
ERROR 04
6
Cannot read TOC within the time specified.
025700
ERROR 05
7
No sub-code read
025700
ERROR 05
8
No response from DVD drive more than 10 sec.
0B4000
ERROR 06
9
Error not specified (other than above).
---
ERROR 07
2. Initial Setting Mode
(1) Preparation
(a) Equipment used: None
(b) Unit setting: No spec other than the following procedure
(2) Procedure
(a) Initialize the DVD player when µcom, peripheral parts of µcom, or Main P.W.B. has been replaced in servicing.
(b) Carry out the following to restore factory setting mode. At the player stop condition, press 3 buttons for DVD peration
("PLAY", "OPEN/CLOSE", and "
SKIP") until "INITIALIZE" appears and disappears in the FL.
("Initialized" appears and disappears on the TV screen.)
(c) All user setting will be lost and its factory setting will be restored when this initialization is made. Be sure to
memorize your setting for restoring again after the initialization.
11
DVD-3800
3. P.W.B. Check Mode
(1) Preparation
(a) Equipment used: None
(b) Unit setting: No spec other than the following procedure
(2) Procedure
(a) Press the "POWER" button to turn on the power while pressing the "PLAY" and "OPEN/CLOSE" buttons for DVD
operation simultaneously.
(b) FL all light/extinguish mode.
This mode is for detecting FL defects. Press "STILL/PAUSE( )"on the remote control unit once to light all FL
segments, and press it once again to extinguish them.
(c) DVD µcom and main unit µcom firm check mode.
This mode is for displaying the status of each µcom employed.
• DVD µcom firm: Press the "MENU" button. Each time the "MENU" button is pressed, µcom firm is displayed one
after another.
Ex.: [DRV_6067, ESS_6094, PANEL 6093]
Set Serial No. (lower 5 digits)
1
00001~
Bus Manager
V.52
Drive Pcom
Ver. 6067
(Display) 6067
ESS Pcom
Ver. 6094
(Display) 6094
Panel Pcom
Ver. 6093
(Display) 6093
2
3
4
12
DVD-3800
TROUBLESHOOTING
1. No power
(FL tube doesn't light.)
Check connector insertion.
Switching power (GU-3439-1):
[CX024, CX025, CX026, CY041,
CX141]
Main PWB (GU-3389):
[CX031, CX131, CX141, CX171,
CX272]
Check switching power (GU-3439-1)
voltages.
[CX141]: 14P PH for Main PWB:
5 , +5V, " (3.3V)
(1) Check reset signal (3V) at 67pin of
IC601 on DISP PWB.
(2) Check 4.3MHz at 65pin of IC601.
No
No
No
Replace the switching power
unit (GU-3439-1).
(1) Check R681, R602 solderring.
(2) After checking X601 and IC601
soldering, change X601.
If still NG after changing, replace
IC601.
Check switching power (GU-3439-1)
voltages.
[CX041]: 4P PH for Main PWB:
1 +3.6V
No
Check soldering of IC201 on Main PWB
(GU-3389).
Check switching power (GU-3439-1)
voltages.
[CX141]: 14P PH for Main PWB:
1 +12V 2 -12V 3 +5V
9 3.3V +5V ! +3.3V
[CX041]: 4P PH for DISP PWB:
1 ON/ST(3.6V) 2 -24V 3 -29V 4 -32V
No
Replace the switching power unit
(GU-3439-1).
Perform operation check after
changing Main PWB (GU-3389) with
a perfect one.
No
When replacing µcom, µcom
peripheral parts, or Main PWB,
perform initializing of DVD player.
Re-insert the connector.
There is something wrong in Main PWB
(GU-3389).
→ Check 27MHz output of IC101 (49)
pin/XIN, (105) pin/CLK, and (116) pin/
PCLK2X on Main PWB.
No
No
Check after replacing IC201 on Main
PWB (GU-3389).
Check soldering of IC108, IC110 and
IC116 on Main PWB (GU-3389), then
change IC101 if it's NG. Change IC111 if
it's still NG.
A
Note: When switching power unit is repairable, refer to the waveforms and voltages shown in Schematic Diagram.
13
DVD-3800
A
There is something wrong in Main PWB
No
(GU-3389).
→ Check 11MHz input of IC101 (39) pin/
MCLK.
Check IC109→IC113→IC112→IC111
(see Schematic Diagram) on Main PWB
(GU-3389).
There is something wrong in Main PWB
(GU-3389).
No
→ Check if CLOCK and DATA signals of
ICBUS are output on IC101 (160) pin/
AUX0, (161) pin/AUX1 when the power
is on.
Check soldering of IC106, IC703, IC706
and IC101 on Main PWB (GU-3389),
and change IC101 if it's NG. Change
IC106, then IC703 and IC706 if it's still
NG. Finally, change IC601 on Video
PWB (GU-3438-2) if still NG.
Check soldering of IC101 (208 pins) on
Main PWB (GU-3389).
→ Perform re-soldering.
Caused by Main PWB (GU-3389).
No
→Check 20MHz output on IC703(10) pin.
Check soldering of IC703 and X701, and
replace if NG.
Caused by Main PWB (GU-3389).
No
→Check 27MHz input on IC706 (32) pin.
Check soldering of IC706, and replace
if NG.
Check RESET 5V output of IC511 (30)
pin on Main PWB.
Check soldering of R637 and IC101
(145) pin on Main PWB.
→ Perform re-soldering.
No
Check Laser drive current/HF wave form.
Criterion: Iop is less than 1.5 times of its
initial value.
Replace Traverse Unit.
Write Iop after replacing the unit.
14
DVD-3800
2. No power
(Both FL tube & LED don't light.)
Check connector insertion.
Switching power (GU-3439-1):
[CX024, CY025, CX028, CY141,
CX041]
Main PWB (GU-3389):
[CX141, CX171]
No
Re-insert the connector.
Check switching power voltages.
[CY141]: 14P PH for Main PWB:
+5V(NSW) " +3.3V(NSW)
No
Replace the switching power unit.
Check Main PWB voltages.
[CX171]:
1 pin: +5V check
(CX141 →CX171 1 break check)
pin: +3.3V check
(CX141 " →CX171 2 break check),
etc.
15
DVD-3800
Electrical Adjustment for Video
SETTING
1. Connect the monitor TV to the video output 1 terminal.
2. Connect the Oscilloscope to the Y-signal and C-signal of S2 video output terminal and each terminate at 75 Ohms.
3. Connect the Oscilloscope to the PB-signal , CB-signal and Y-signal of Component video output terminal and each
terminate at 75 Ohms.
Use the 75 Ohms resistance must be 1%
4. DVD test disc : DVDT-S01
ADJUSTMENT
Setting the Oscilloscope as bellow.
1 PB / CB / PR / CR
(a) TIME / DIV : 2 µS
(b) VOLT / DIV : 100 mV
(use the probe : ×10)
2 Y/C
(a) TIME / DIV :2 µS
(b) VOLT / DIV :50 mV
(use the probe : ×10)
Power on. Power Supply
U.S.A.& Canada : 120 V
Asia
: 230 V
China
: 220 V
Europe
: 230 V
1.
2.
3.
4.
5.
6.
Power on.
Set the [SOURCE] selector knob : DVD.
Push [OPEN/CLOSE] button, then open the Disc Tray.
Set DVD test disc (DVDT-S01) on the Disc Tray, and then push [CLOSE] button.
FL display appear "STOP", push [PLAY] button to playback DVD.
Set the Video output to INTERLACED by remote control unit. (Push the
[SETUP] button, set to the mode of VIDEO SETUP.)
7. Push the [DISPLAY] button of remote control unit and then appear the ONScreen Display (GUI) on the monitor TV.
8. Push the [12] button, select title 12 of DVD.
9. Push the [SELECT] button, playback title 12. (color bar 75%)
Adjustment
Point & Adjustment Value
Wave
Adjust the signal of S2 video out by the
wave of Oscilloscope.
1 Y-signal
Y
Point : VR602
Adjustment Value : 1000 ±20 mV
Y-signal of S2 video out
Adjust the signal of S2 video out by the
wave of Oscilloscope.
2 C-signal
C
Point : VR603
Adjustment Value : 286 ±5 mV
C-signal of S2 video out
Adjust the signal of Component video out.
1 CB-signal
Point : VR601
Adjustment Value : *525 ±10 mV
PB
PB-signal
16
DVD-3800
Adjustment
Adjust the signal of Component video out
Point & Adjustment Value
Wave
Point: VR604
Adjustment Value: 1000 ±20mV
2 Y-signal
Y
Y-signal
Set the Video output to PROGRESSIVE by
remote control unit. (Push the [SETUP]
button, set to the mode of VIDEO SETUP.)
Point: VR710
Adjustment Value: 1000 ±20mV
Y
1 Y-signal
Y-signal
Set the Video output to PROGRESSIVE by
remote control unit.
(Push the [SETUP] button, set to the mode
of VIDEO SETUP.)
Point: VR709
Adjustment Value: *525 ±10mV
PB
2 PB-signal
PB-signal
Set the Video output to PROGRESSIVE by
remote control unit.
(Push the [SETUP] button, set to the mode
of VIDEO SETUP.)
Point: VR708
Adjustment Value: *525 ±10mV
PR
3 PR-signal
PR-signal
*: 486 ±10mV for U.S.A. & Canada model
17
DVD-3800
BLOCK DIAGRAM
1
DVD DRIVE
MECHA UNIT
[FG-180]
2
3
FRONTEND
PROCESSOR
[TA1293F]
4
DRAM
DRAM
DISC SERVO
PROCESSOR
[TA1293F]
ATAPI INTERFACE
DVD DECODER
[TC9469BF]
ACT/MOTOR
DRIVER
5
FLASH
ROM
6
REM
KEY
7
FL DRIVER
[ML9207]
PANEL CONTROL
µ-COM
[MN102H460B]
RESET
DRIVE CONTROL
µ-COM
[TMP95FY64F]
LED
FLT
ROT SW.
8
A
< PANEL CONTROL >
RS-232C
< FRONT END >
WIRED REM
B
< BACK END >
64M SDRAM
SPDIF
16M FLASH ROM
E2PROM
DVD PROCESSOR
[ES6038]
33MHz
OSC
27MHz
OSC
PLL
< AUDIO BLOCK >
BASS
MANAGEMENT.
DSP
[ADSPMEL322]
I/O
EXPAN
12MHz
OSC
VIDEO ENCODER
[ADV7190]
I/P µCOM
[PIC18LC242]
FILTER&
AMP
FR
C
DAC
[PCM1738]
VR &
FILTER
CLAMP &
DRIVER
525I/625I
FILTER&
AMP
SL
FILTER&
AMP
SR
FILTER&
AMP
C
D
DAC
[PCM1738]
I/P CONVERTER
[SiI504]
64M SDRAM
POWER
TRANS
FLASH
ROM
FL
MONO MULTI
DIGITAL
POWER
UNIT
ANALOG
POWER
UNIT
ALPHA
PROCESSOR
[DXP7001]
FILTER&
AMP
FPGA
XC2530
VIDEO ENCODER
[ADV7300]
VR &
FILTER
SELECTOR
CLAMP &
DRIVER
525P
FILTER&
AMP
MONO MULTI
PROM
E
DAC
[PCM1738]
SW
< VIDEO BLOCK >
18
DVD3800_Block.p65
Page 18
02/06/18, 14:20
Adobe PageMaker 6.5J/Win
DVD-3800
SEMICONDUCTORS
IC’s
Note: Indications before IC numbers denote P.W.B. name.
AV: AUDIO/VIDEO P.W.B.
MA: MAIN P.W.B.
PD: POWER/DISPLAY P.W.B.
SC: SCART P.W.B.
TC9453F (MA: IC505)
to Driver
from
RF-Amp.
(servo signal)
ADC
Digital
Servo
DSP
Output
I/F
Digital
IN
Analog
Out
1bit DAC
for CD-DA
Clock
PLL
from
RF-Amp.
(RF signal)
RF Signal
Process
Sync
ECC
Output
I/F
MPU I/F
PLL
Data Out
MPU
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
PDON2
PDOP2
PDON1
PDOP1
PESP
PVSS
PESV
PPW
CFC2
CFC1
VSS3
TESM8
TESM7
TESM6
TESM5
PLCK
VDD3
NC
NC
BD15
BD14
BD13
VSS5
BD12
BD11
BD10
BD9
VSS3
BD8
BD7
BD6
BD5
BD4
BD3
BD2
BD1
BD0
VDD5
/BWU
/BWL
/BCAS
/BRAS
/BOE
VDD3
1Mbit
DRAM
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
BA8
BA7
BA6
BA5
BA4
VSS5
BA3
BA2
BA1
BA0
VDD3
TESM4
DIGI
TESM3
VDD5
PDCK
/PDRQ
/PSYC
PD8
PD7
PD6
PD5
VSS3
PD4
PD3
PD2
PD1
VSS5
PD0
VDD3
VMCK
SMCK
NC
NC
VDD5
MD7
MD6
MD5
MD4
MD3
MD2
MD1
MD0
/MINT
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
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
NC
NC
DVSS
RO
DVDD
DVR
LO
DVSS
XVSS
XI
XO
XVDD
TESM0
TESM1
TESM2
VDD3
VSS3
VPFC
TEST0
VLPF1
VLPF0
VSS3
MON0
MON1
MON2
MON3
MON4
MON5
MON6
MON7
MON8
MON9
VDD3
NC
NC
TEST1
FLGA
FLGB
VSS3
/RST
/MA
/MRD
/MWR
/MCE
LPFN
LPFO
PVREF
VCOREF
VCOF
PVDD
SLCO1
TESM9
TEST2
RFCD
RFDVD
AVDD
RFCT
RFZ1
TEZ1
AWIN
AVSS
FE1
TE1
RFSB
RFRP
AVSS
TESM10
EXTAD
VREF
FOO
TRO
AVDD
AWCTL
FMO
DMO
TEBC
FEBC
DPDC
EQBC
ANMON
/DFCT
VRCK
VSS3
SCD
SCL
SCB
FGIN
NC
19
DVD-3800
TC9453F Terminal Function
Pin No.
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
Pin Name
NC
NC
DVSS
RO
DVDD
DVR
LO
DVSS
XVSS
XI
XO
XVDD
TESM0
TESM1
TESM2
VDD3
VSS3
VPFC
TEST0
VLPFI
VLPFO
VSS3
MON0
MON1
MON2
MON3
MON4
MON5
MON6
MON7
MON8
MON9
VDD3
NC
NC
TEST1
FLGA
FLGB
VSS3
/RST
/MA
/MRD
/MWR
/MCE
/MINT
MD0
MD1
MD2
MD3
MD4
MD5
MD6
MD7
VDD5
NC
NC
SMCK
VMCK
I/O
O
O
O
I
O
O
I
I
O
O
O
O
O
O
O
O
O
O
O
I
I/O
I/O
I
I
I
I
I
O
O
O
O
O
O
O
O
O
O
O
Function
GND for DAC
R-ch output signal, Analog output pin
Power for DAC
Amp ref. signal output, Analog input pin
L-ch output signal, Analog output pin
GND for DAC
GND for oscillator
X’tal osc. input, Analog input pin
X’tal osc. output, Analog output pin
Power for oscillator
Test pin, Connect to GND
Test pin, Open
Test pin, Connect to VDD3
3.3V digital power
3.3V digital GND
Clock PLL block phase/freq. comparator out, Analog output pin
Test mode pin, Connect to VDD3
VCO block filter input for clock PLL, Analog input pin
VCO block filter output for clock PLL, Analog output pin
3.3V digital GND
Test monitor
Test monitor
Test monitor
Test monitor
Test monitor
Test monitor
Test monitor
Test monitor
Test monitor
Test monitor
3.3V digital power
Test mode pin, Connect to VDD3
Universal I/O or flag monitor
Universal I/O or flag monitor
3.3V digital GND
Reset pin, Pull-up resister built-in
µcom address enable signal, Fail-safe pin
µcom data read signal, Fail-safe pin
µcom data write signal, Fail-safe pin
µcom chip enable signal, Fail-safe pin
µcom interrupt signal, Open drain pin
µcom data bus
µcom data bus
µcom data bus
µcom data bus
µcom data bus
µcom data bus
µcom data bus
µcom data bus
Power for 5V
22M block clock output
Data output block (signal processing system) clock output
20
DVD-3800
Pin No.
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
Pin Name
VDD3
PD0
VSS5
PD1
PD2
PD3
PD4
VSS3
PD5
PD6
PD7
PD8
/PSYC
/PDRQ
PDCK
VDD5
TESM3
DIGI
TESM4
VDD3
BA0
BA1
BA2
BA3
VSS5
BA4
BA5
BA6
BA7
BA8
VDD3
/BOE
/BRAS
/BCAS
/BWL
/BWU
VDD5
BD0
BD1
BD2
BD3
BD4
BD5
BD6
BD7
BD8
VSS3
BD9
BD10
BD11
BD12
VSS5
BD13
BD14
BD15
NC
NC
VDD3
PLCK
I/O
Function
3.3V digital power
O DVD/CD data output
GND for 5V
O DVD/CD data output
O DVD/CD data output
O DVD/CD data output
O DVD/CD data output
3.3V digital GND
O DVD/CD data output
O DVD/CD data output
O DVD/CD data output
O DVD/CD data output
O DVD data sector sync signal
O DVD data transfer block
O DVD data transfer clock
Power for 5V
Test pin, Connect to VSS5
I 1bit DAC digital-in input
Test pin, Connect to VSS5
3.3V digital power
O External RAM address output
O External RAM address output
O External RAM address output
O External RAM address output
GND for 5V
O External RAM address output
O External RAM address output
O External RAM address output
O External RAM address output
O External RAM address output
3.3V digital power
O External RAM/OE signal
O External RAM/RAS signal
O External RAM/CAS signal
O External RAM Lower/WE signal
O External RAM Upper/WE signal
Power for 5V
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
3.3V digital GND
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
GND for 5V
I/O External RAM data in/output
I/O External RAM data in/output
I/O External RAM data in/output
3.3V digital power
I/O PLL block clock in/output
21
DVD-3800
Pin No.
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
Pin Name
TESM5
TESM6
TESM7
TESM8
VSS3
CFC1
CFC2
PPW
PESV
PVSS
PESP
PDOP1
PDON1
PDOP2
PDON2
LPFN
LPFO
PVREF
VCOREF
VCOF
PVDD
SLCO1
TESM9
TEST2
RFCD
RFDVD
AVDD
RFCT
RFZI
TEZI
AWIN
AVSS
FEI
TEI
RFSB
RFRP
SAVSS
TESM10
EXTAD
VREF
FOO
TRO
AVDD
AWCTL
FMO
DMO
TEBC
FEBC
DPDC
EQBC
ANMON
/DFCT
VRCK
VSS3
SCD
SCL
SCB
FGIN
NC
I/O
O
O
O
I
O
O
O
O
O
I
O
I
I
O
I
I
I
I
I
I
I
I
I
I
I
I
O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
I
Function
Test pin, Connect to GND
Test pin, Connect to GND
Test pin, Open
Test pin, Open
3.3V digital GND
VCO frequency control signal, Analog output pin
VCO frequency control signal, Analog output pin
Phase comparator offset adj. V out, Analog output pin
Phase comparator offset adj. sig. in, Analog input pin
GND for 3.3V PLL block
Phase comparator offset adj. sig. out, Analog output pin
DVD/CD phase control sig. (positive), Analog output pin
DVD/CD phase control sig. (negative), Analog output pin
DVD/CD phase control sig. (positive), Analog output pin
DVD/CD phase control sig. (negative), Analog output pin
Data PLL low pass filter inverted input, Analog input pin
Data PLL low pass filter output, Analog output pin
Ref. V for data PLL block
VCO reference, Analog input pin
VCO auto-adj. filter out, Analog input pin
Power for 3.3V PLL block
Data slice 6bitDAC out, Analog output pin
Test pin, Open
Test mode pin, Connect to VDD3
CD RF signal input, Analog input pin
DVD RF signal input, Analog input pin
Power for 3.3V analog block
RFRP center V input (zero-cross intake), Analog input pin
RFRP signal input (zero-cross intake), Analog input pin
Tracking error signal input (zero-cross intake), Analog input pin
Active wide PLL control signal input, Analog input pin
GND for 3.3V analog block
Focus error signal input, Analog input pin
Tracking error signal input, Analog input pin
RF level or sub beam signal add input, Analog input pin
RFRP signal input, Analog input pin
GND for 3.3V analog block
Test pin, Connect to VREF
Universal outside ADC input, Analog input pin
Ref. V (1.65V) for analog block
Focus EQ output, Analog output pin
Tracking EQ output, Analog output pin
Power for 3.3V analog block
Active wide PLL control output, Analog output pin
Focus EQ output, Analog output pin
Disc EQ output, Analog output pin
Tracking balance control signal, Analog output pin
Focus balance control signal, Analog output pin
DPD error signal pit depth adj. signal, Analog output pin
RF wide boost adj. signal, Analog output pin
Universal PWM output, Analog output pin
Black dot detect signal
RF EQ characteristic control clock
3.3V digital GND
Head amp serial data
Head amp serial data latch pulse
Head amp serial data clock
Disc FG signal input (w/ self-bias circuit), Feedback R/Analog input pin
* Pin names begin with “/” are active “L” terminals.
22
DVD-3800
/RAS./CAS
3
16
BA8-0
SEDVD
DRAM 256kw/128kw/64kw
(4Mbit/2Mbit/1Mbit)
BD15-0
Buffer
/BWU./BWL
/BOE
TC9469BF (MA: IC508)
2
CSEL
/PDIAG./DASP
2
9
Input
Selecter
CD-IF &
DVD-IF
9
Buffer
Address
64
Da
Daf
HEDda
16
16
HSYC
8
PDA(7:0)
16
2
5
64
64
SBDa
H-FIFO
(64B)
ECC
8
SUB-IF
Input
IF
Convert
IORDY
HDRQ
8
Driver
PDA8
Correction
(H-IF)
PSYCN.PDROM 3
PDCK
16
SBQa
/HDAK
/IOCS16
HD15-0
/HRD./HWR
/HCS3./HCS1
HA2-0
INTRQ
H Interrupt
BSYC
16
M-FIFO
(8B ´ 3ch)
8
8
16
AV-IF
/RST
DIGO
AZCK
ABCK.ACHCK
ADO
ASYC
8
Gnd
Vdd 30
3
(M-IF)
Clock
AUTH
M Address
M Interrupt
TC9469BF
MA6-0
/MINT
7
3
m com
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
(NC)
VSS
VSS
VDD
/RST
ESTOUT
/MINT
/MWR
VSS
/WRD
/WCE
MA6
MA5
MA4
MA3
MA2
MA1
MA0
VDD
VSS
MD7
MD6
MD5
MD4
MD3
MD2
MD1
MD0
VSS
SEDVD
VDD
ACHCK
AD0
ABCK
AZCK
(NC)
MD7-0
8
/MWR./WRD
/MCE
XO
3
XI
TEST2-0
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
(NC)
(NC)
VSS
(LRCK)PDA0
(BCK)PDA1
(DA1)PDA2
(C2P1)PDA3
(CLCK)PDA4
VSS
(SB01)PDA5
(SFSY)PDA6
(SBSY)PDA7
PDA8
PSYCN
PDRQN
PDCK
(NC)
DIGO
VDDck
X0
X1
VSSck
TEST2
TEST1
TEST0
BA3
BA1
BA2
VSS
BA0
BA4
BA5
BA6
BA7
VSS
(NC)
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
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
(NC)
VSS
A2
/HCS1
/HCS3
/DASP
CSEL
VSS
VDD
BD15
BD14
BD13
BD12
BD11
BD10
BD9
BD8
VDD
VSS
BD4
BD5
BD7
BD6
BD3
BD2
BD1
BD0
VSS
/BWU(/BWE)
/BWL(/CASL)
/CAS(/CASU)
/RAS
/BOE
BA8
VDD
(NC)
VDD
HD7
HD8
HD6
HD9
HD5
HD10
VSS
HD4
HD11
HD3
HD12
HD2
HD13
HD1
HD14
HD0
VDD
VSS
HD15
HDRQ
/HWR
VSShr
/HRD
VSS24
IORDY
VDD24
VSS
/HDAK
INTRO
/IOCS16
HA1
/PDIAG
HA0
VDD
(NC)
23
DVD-3800
TC9469BF Terminal Function
Pin No.
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
Pin Name
NC
VSS
HA2
/HCS1
HCS3
/DASP
CSEL
VSS
VDD
BD15
BD14
BD13
BD12
BD11
BD10
BD9
BD8
VDD
VSS
BD4
BD5
BD7
BD6
BD3
BD2
BD1
BD0
VSS
/BWU
/BWL
/CAS
/RAS
/BOE
BA8
VDD
NC
NC
VSS
BA7
BA6
BA5
BA4
BA0
VSS
BA2
BA1
BA3
TEST0
TEST1
TEST2
VSSck
XI
XO
VDDck
DIGO
NC
PDCK
PDRQN
I/O
Function
I
I
I
I/O
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
I/O
O
O
O
O
O
O
O
O
O
O
O
O
O
O
I
I
I
GND pin
Host address 2 input: IDE sig. DA2, TTL level input, pull-up R built-in
Chip select 1 input: IDE sig. /CS1FX, TTL level input, pull-up R built-in
Chip select 3 input: IDE sig. /CS3FX, TTL level input, pull-up R built-in
Drive active in/output: IDE sig. /DASP, TTL level input, open drain out, pull-up R built-in
Cable select pin: IDE sig. CSEL
GND pin
Power pin
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Power pin
GND pin
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
Buffer RAM data in/output, at low power: output
GND pin
For write enable bit (for /BWE sig.), at low power: H
For /CAS signal lower 8bit (for /CASL sig.), at low power: H
For /CAS signal upper 8bit (for /CASU sig.), at low power: H
RAS signal output, at low power: H
Output enable, at low power: H
Buffer address output
Power pin
GND pin
Buffer address output
Buffer address output
Buffer address output
Buffer address output
Buffer address output
GND pin
GND pin
GND pin
Buffer address output
Test pin, Fixed to “L”
Test pin, Fixed to “L”
Test pin, Fixed to “L”
GND pin (for clock system)
I Master clock in/output, feedback R built-in
O Master clock in/output, feedback R built-in
Power pin (for clock system)
O Digital out pin
I Data read clock input
I Data effective flag input
24
DVD-3800
Pin No.
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
Pin Name
PSYCN
PDA8
PDA7
PDA6
PDA5
VSS
PDA4
PDA3
PDA2
PDA1
PDA0
VSS
NC
NC
NC
AZCK
ABCK
ADO
ACHCK
VDD
SEDVD
VSS
MD0
MD1
MD2
MD3
MD4
MD5
MD6
MD7
VSS
VDD
MA0
MA1
MA2
MA3
MA4
MA5
MA6
/MCE
/MRD
VSS
/MWR
/MINT
TESTOUT
/RST
VDD
VSS
VSS
NC
VDD
HD7
HD8
HD6
HD9
HD5
HD10
VSS
I/O
I
I
I
I
I
I
I
I
I
I
I
O
O
O
I
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I
I
I
I
I
I
I
I
I
O
O
I
I/O
I/O
I/O
I/O
I/O
I/O
Function
Sync signal input
Parallel data 8 input
Parallel data 7 input
Parallel data 6 input
Parallel data 5 input
GND pin
Parallel data 4 input
Parallel data 3 input
Parallel data 2 input
Parallel data 1 input
Parallel data 0 input
GND pin
Ref. clock input for audio playback
Bit clock (BCK) output for audio playback
Data output for audio playback
Channel clock (LRCK) output for audio playback
Power pin
Input IF select
GND pin
µcom data in/output, tri-state output
µcom data in/output, tri-state output
µcom data in/output, tri-state output
µcom data in/output, tri-state output
µcom data in/output, tri-state output
µcom data in/output, tri-state output
µcom data in/output, tri-state output
µcom data in/output, tri-state output
GND pin
Power pin
µcom address input
µcom address input
µcom address input
µcom address input
µcom address input
µcom address input
µcom address input
Chip enable signal input
µcom chip read signal input
GND pin
µcom write signal input
µcom interrupt signal output, open drain, pull-up R built-in
Output for test, leave it open
Hardware reset input (CMOS level), pull-up R built-in
Power pin
GND pin
GND pin
Power pin
Host data in/output (HD[0:15]:IDE sig. DD[0:15]), TTL level, tri-state out, pull-up R built-in
GND pin
25
DVD-3800
Pin Name
Pin No.
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
HD4
HD11
HD3
HD12
HD2
HD13
HD1
HD14
HD0
VDD
VSS
HD15
HDRQ
/HWR
VSShr
/HRD
VSS24
IORDY
VDD24
VSS
/HDAK
INTRQ
/IOCS16
HA1
/PDIAG
HA0
VDD
NC
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
O
I
I
O
I
O
O
I
I/O
I
Function
Host data in/output (HD[0:15]:IDE sig. DD[0:15]), TTL level, tri-state out, pull-up R built-in
Power pin
GND pin
Host data in/output (HD[0:15]:IDE sig. DD[0:15])
Data request output: IDE sig. DMARQ, tri-state out, drive-ability 12mA
Host write signal input: IDE sig. /DIOW, TTL level, pull-up R built-in
GND pin (for /HR)
Host read signal input: IDE sig. /DIOR, TTL level, pull-up R built-in
GND pin (for IORDY)
IO transfer ready output: IDE sig. IORDY, tri-state out, drive-ability 24mA
Power pin (for IORDY)
GND pin
Data acknowledge input: IDE sig. /DMACK, TTL level, pull-up R built-in
Interrupt signal output: IDE sig. INTRQ, tri-state out, drive-ability 12mA
Data bit wide select output: IDE sig. /IOCS16, open drain, pull-up R built-in
Host address 1 input: IDE sig. DA1, TTL level, pull-up R built-in
Post diagnostic in/output: IDE sig. /PDIAG, TTL level, tri-state out, pull-up R built-in
Host address 0 input: IDE sig. DA0, TTL level, pull-up R built-in
Power pin
* Pin names begin with “/” PSYNCN, and PDRQN are active “L” terminals.
MX29LV160BTC-90 (MA: IC102)
A15 1
A14 2
48 A16
47 BYTE
A13 3
46 GND
A12 4
45 Q15/A-1
A11 5
44 Q7
A10 6
43 Q14
A9 7
42 Q6
A8 8
41 Q13
A19 9
40 Q5
NC 10
39 Q12
WE 11
RESET 12
38 Q4
37 VCC
NC 13
36 Q11
NC 14
35 Q3
RY/BY 15
34 Q10
A18 16
33 Q2
A17 17
32 Q9
A7 18
31 Q1
A6 19
30 Q8
A5 20
29 Q0
A4 21
28 OE
A3 22
27 GND
A2 23
26 CE
A1 24
25 A0
SYMBOL
A0~A19
Q0~Q14
Q15/A-1
CE
WE
BYTE
RESET
OE
RY/BY
VCC
GND
PIN NAME
Address Input
Data Input/Output
Q15 (Word mode)/LSB addr (Byte mode)
Chip Enable Input
Write Enable Input
Word/Byte Selection input
Hardware Reset Pin/Sector Protect Unlock
Output Enable Input
Ready/Busy Output
Power Supply Pin (2.7V~3.6V)
Ground Pin
26
DVD-3800
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
P34/A12
P35/A13
P36/A14
P37/A15
P20/A16
P21/A17
P22/A18
P23/A19
P24/A20
P25/A21
P26/A22
P27/A23
VCC
VSS(GND)
AM8/16
P17/D15
P16/D14
P15/D13
P14/D12
P13/D11
P12/D10
P11/D9
P10/D8
P07/D7
P06/D6
TMP95FY64F (MA: IC511)
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
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
P05/D5
P04/D4
P03/D3
P02/D2
P01/D1
P00/D0
VCC
P96/TOA/TOB
P95/TIB/INT8
P94/TIA/INT7
P93/TO9
P92/TO8
P91/TI9/INT6
P90/TI8/INT5
P75/TO7/INT4
P74/TO5
P73/TI4/INT3
P72/TO3/INT2
P71/TO1
P70/TI0/INT1
RESET
EA
X2
X1
VSS(GND)
VREFL
AVSS
AVCC
DAOUT0
DAOUT1
NMI
P53/BUSRQ
P54/BUSAK
P55/WAIT
P56/INTO
P57/SCLK2/CTS2
P80/TxD0
P81/RxD1
P82/SCLK0/CTS0
P83/TxD1
P84/RxD1
P85/SCLK1/CTS1
P86/TxD2
P87/RxD2
P60/CS0
P61CS1
P62/CS2
P62/CS3
CLK
VCC
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
P33/A11
P32/A10
P31/A9
P30/A8
P47/A7
P46/A6
P45/A5
P44/A4
P43/A3
P42/A2
P41/A1
P40/A0
P50/RD
P51/WR
P52/HWR
(GND)VSS
PA0/AN0
PA1/AN1
PA2/AN2
PA3/AN3/ADTRG
PA4/AN4
PA5/AN5
PA6/AN6
PA7/AN7
VREFH
TMP95FY64F Terminal Function
Pin No.
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
Pin Name
VREFL
AVSS
AVCC
DAOUT0
DAOUT1
NMI
P53
P54
P55
INT0
P57
P80
P81
P82
P83
P84
P85
P86
P87
CS0
CS1
P62
P63
CLK
VCC
VSS
X1
X2
EA
RESET
INT1
P71
P72
Symbol
VREFL
AVSS
AVCC
DAOUT0
DAOUT1
NMI
STBN
AMUTE
DSPINT
RSTN
TEST
TMM+
TMM
DECCSN
DSPCSN
VCC
VSS
X1
X2
EA
RESET
DECINT
I/O
Function
I
O
O
I
O
O
Ref. V input (L) for A/D converter
GND
Power
D/A output 0
D/A output 1
Non-maskable interrupt request pin
TA8493F/BA5952FP standby pin
Not used
Not used
I Interrupt input from TC9453F
O Reset output of TC9453F
Not used
Not used
I Not used
Not used
O Loading motor control pin
O Loading motor control pin
O Not used
I Not used
O TC9469BF chip select
O TC9453F chip select
Not used
Not used
Not used
Power
GND
I X’tal connection
O X’tal connection
I Power
I Reset input pin
I Interrupt input from TC9469BF
Not used
Not used
27
DVD-3800
Pin No.
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
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
Pin Name
INT3
P74
P75
INT5
P91
P92
P93
P95
P96
VCC
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
AM8/16
VSS
VCC
P27
P26
P25
P24
P23
P22
P21
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
RD
WR
P52
VSS
PA0
PA1
PA2
PA3
PA4
PA5
AN6
PA7
VREFH
Symbol
FG
BRKN
I
O
SLIDE_PULSE
P-LOW
PLLD
P-HIGH
INT7
I
O
PLLB
VCC
MD0
MD1
MD2
MD3
MD4
MD5
MD6
MD7
T22
T9
T10
T11
T12
T13
T14
T15
AM8/16
VSS
VCC
BUSY
Function
I/O
O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I
O
O
O
MA8
O
MA6
MA5
MA4
MA3
MA2
MA1
MA0
RDN
WRN
O
O
O
O
O
O
O
O
O
VSS
MASTER
SLAVE
CSEL
CLOS
OPEN
INSWN
+1.65V
EJECT
VREFH
I
I
I
I
I
I
I
I
I
FG signal input from TA8493F
Brake signal output to TA8493F
Not used
Pulse counter input of slide
PLL filter switching output
Not used
PLL filter switching output
Not used
Not used
Not used
Power
Data bus
Data bus
Data bus
Data bus
Data bus
Data bus
Data bus
Data bus
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Pull-up
GND
Power
Busy output
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Address bus
Not used
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Address bus
Strobe signal output for read
Strobe signal output for write
Not used
Power
Pull-down
Pull-up
Pull-up
Loader close SW input pin
Loader open SW input pin
Pickup inner SW input pin
Analog input pin
Not used
Ref. V input (H) for A/D converter
28
DVD-3800
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
LDO1
MDI1
EQF
EQB
RFDC
GND2
EQD
NC
Vcc2
VccO
PSC
FEB
TEB
DPDB
VccR
RFO
RPP
RPB
RPO
RPZ
TA1293F (MA: IC501)
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
DFTN
NC
NC
NC
NC
NC
FEO
TEO
NC
LVL
NC
NC
NC
VccS
RFSW
NC
NC
NC
NC
VccP
GNDP
LDO2
MDI2
NC
NC
VrA
Vrfi
VrD
Vdd
DPAC
DPBD
DPD1
DPD2
SCB
SCL
SCD
VRCK
NC
NC
VCKF
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
P1TN
P1TP
P1FN
P1FP
LDP1
GNDR
P1DI
P1CI
P1BI
P1AI
LDP2
P2AI
P2BI
P2CI
P2DI
GNDS
P2FP
P2FN
P2TP
P2TN
TA1293F Terminal Function
Pin No.
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
Pin Name
GNDP
LDO2
MDI2
NC
NC
VrA
Vrfi
VrD
Vdd
DPAC
DPBD
DPD1
DPD2
SCB
SCL
SCD
VRCK
NC
NC
VCKF
VccP
NC
NC
NC
NC
RFSW
VccS
NC
NC
I/O
Function
GND pin
O Drive pin
I Monitor pin
Used connecting with VrA
Used connecting with VrA
O Analog VREF
Filter capacity for reference
O Digital VREF, outputs 1/2 of Vdd
I Power pin, connect Vdd of servo IC
DPD AC coupling capacity 1
DPD AC coupling capacity 2
DPD integral capacity 1
DPD integral capacity 2
I Control line (bit clock)
I Control line (latch signal)
I Control line (serial data)
I Ref. clock input
Used connecting with GND
Used connecting with GND
Capacity for adjusting time constant
Power pin
Used in open
Used in open
Used in open
Used connecting with GND
I RFO control pin, outputs signal after EQ at L
Power pin
Used in open
Used connecting with VrA
29
DVD-3800
Pin No.
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
69
70
71
72
73
74
75
76
77
78
79
80
Pin Name
NC
LVL
NC
TEO
FEO
NC
NC
NC
NC
NC
DFTN
RPZ
RPO
RPB
RPP
RFO
VccR
DPDB
TEB
FEB
PSC
VccO
Vcc2
NC
EQD
GND2
RFDC
EQB
EQF
MDI1
LDO1
P1TN
P1TP
P1FN
P1FP
LDP1
GNDR
P1DI
P1CI
P1BI
P1AI
LDP2
P2AI
P2BI
P2CI
P2DI
GNDS
P2FP
P2FN
P2TP
P2TN
I/O
Function
Used connecting with VrA
O Servo addition output
Used in open
O TE output
O TE output
Used connecting with VrA
Used connecting with VrA
Used connecting with VrA
Used connecting with VrA
Used connecting with VrA
I DPD defect, L: DPD out = Mute
O RF ripple center output
O RF ripple output
O Bottom of RF ripple
O Peak of RF ripple
O Equivalent RF output
Power pin (RF)
I Pit depth adjustment
I TE balance
I FE balance
I VRCK divide on/off, H: divide off
Power pin
Power pin
Connect with VrD, or GND via C
I Group delay correction
GND pin
DC feedback capacity
I Boost adjustment
I Frequency adjustment
I Monitor input
O Drive output
I TE(-) input (DVD)
I TE(+) input (DVD)
I FE(-) input (DVD)
I FE(+) input (DVD)
I APC polarity 1, positive when connected to Vcc
GND pin
I D input (DVD)
I C input (DVD)
I B input (DVD)
I A input (DVD)
I APC polarity 2, positive when connected to Vcc
I A input (CD)
I B input (CD)
I C input (CD)
I D input (CD)
GND pin
I FE(+) input (CD)
I FE(-) input (CD)
I TE(+) input (CD)
I TE(-) input (CD)
30
DVD-3800
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
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
HostAddr5
HostAddr4
HostAddr3
HostAddr2
HostAddr1
HostAddr0
GNDCore
HostCS
HostRd_SDA
HostWr_SCL
VDDCore
VidlnClk
GNDIO
VidlnData9
VidlnData8
VidlnData7
VidlnData6
VidlnData5
VidlnData4
VidlnData3
VidlnData2
VDDIO
ExtRefXtalIOut
ExtRefXtalIn
VDDIO
GNDIO
MemData16
MemData17
MemData18
MemData19
GNDIO
MemData20
MemData21
MemData22
MemData23
GNDIO
MemData31
MemData30
GNDIO
VDDIO
MemData29
MemData28
GNDIO
MemData27
MemData26
MemData25
MemData24
MemData15
BypPLLMemClk
GNDCore
VDDCore
RSVD
SiI504CM208 (MA: IC701)
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
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
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
TOP VIEW
RSVD
RSVD
GNDCore
MemClk
GNDCore
VDDCore
MemData14
MemData13
MemData12
MemData11
MemData10
GNDIO
MemData9
MemData8
PuPdDis
VDDIO
MemData0
MemData1
MemData2
GNDIO
MemData3
MemData4
MemData5
MemData6
MemData7
GNDIO
DQM
WE
CAS
RAS
VDDIO
VDDIO
GNDIO
RSVD
MemAddr11
MemAddr10
MemAddr9
MemAddr8
GNDIO
MemAddr7
MemAddr6
MemAddr5
MemAddr4
GNDIO
MemAddr0
MemAddr1
MemAddr2
MemAddr3
VDDCore
GNDCore
RSVD
RSVD
RSVD
VDDCore
GNDCore
LCDPwrEn
CBIank
CSync
VSync
HSync
Blue_Cb0
Blue_Cb1
Blue_Cb2
Blue_Cb3
Blue_Cb4
Blue_Cb5
GNDIO
VDDIO
Blue_Cb6
Blue_Cb7
Blue_Cb8
Blue_Cb9
GNDIO
Green_Y0
Green_Y1
Green_Y2
Green_Y3
VDDIO
Green_Y4
Green_Y5
Green_Y6
Green_Y7
Green_Y8
Green_Y9
GNDIO
Red_Cr0
Red_Cr1
Red_Cr2
Red_Cr3
Red_Cr4
Red_Cr5
GNDCore
VDDCore
Red_Cr6
Red_Cr7
Red_Cr8
Red_Cr9
VidOutClk
GNDCore
BypPLLClk48M
Clk48M
GNDCore
VDDCore
ExtRefSel
HostAddr6
HostAddr7
HostMode
VDDCore
HostClk
GNDCore
HostData15\VidlnData19
HostData14\VidlnData18
HostData13\VidlnData17
HostData12\VidlnData16
GNDCore
VDDCore
HostData11\VidlnData15
HostData10\VidlnData14
HostData9\VidlnData13
HostData8\VidlnData12
RSVD
HostData7\VS
HostData6\HS
HostData5
HostData4
HostData3
HostData2
HostData1
HostData0
VDDIO
GNDIO
Det32PD
Det22PD
DetVideo
DeintDone
MemAddr12
VDDIO
GNDIO
SDOut
WSOut
SCKOut
VDDIO
SDIn
WSIn
SCKIn
GNDIO
VDDCore
Reset
Test0
Test1
BypPLLClk54_72M
Clk54_72M
VDDCore
GNDCore
ARTN
AVDD
SiI504CM208 Terminal Function
Pin No.
2, 41, 51, 56,
99, 106, 146,
160, 168, 199,
205
3, 40, 47, 50,
55, 100, 102,
107, 150, 162,
167, 206
4
5
6
7
8
9~14, 17~20
15, 21, 33, 61,
66, 72, 79, 85,
93, 114, 118,
121, 126, 131,
144, 183, 190,
198
Pin Name
I/O
Function
VDDCore
Pwr
1.8V Core Power.
GNDCore
Pwr
Digital Ground for Core Power.
LCDPwrEn
CBlank
CSync
VSync
HSync
Blue_Cb[9:0]
Out
Out
Out
Out
Out
Out
LCD Power Enable
Composite Blank
Composite Sync
Vertical Sync
Horizontal Sync
Blue Data (RGB output mode); Cb Data (YCrCb output mode)
GNDIO
Pwr
Digital Ground for I/O Power.
31
DVD-3800
Pin No.
Pin Name
16, 26, 73, 74,
89, 117, 132,
VDDIO
135, 182, 189,
194
22~25, 27~32
Green_Y[9:0]
34~39, 42~45
Red_Cr[9:0]
46
VidOutClk
48
BypPLLClk48M
49
Clk48M
52
ExtRefSel
57~60, 62~65,
MemAddr[12:0]
67~70, 188
75
RAS
76
CAS
77
WE
78
DQM
80~84, 86~88,
91, 92, 94~98,
109, 110~113,
MemData[31:0]
115, 116, 119,
120, 122~125,
127~130
90
PuPdDis
101
MemClk
108
BypPLLMemClk
133
ExtRefXtalIn
134
ExtRefXtalOut
136~143
VidlnData[9:2]
145
VidlnClk
147
HostWr_SCL
148
HostRd_SDA
149
151~158
159
161
163~166,
169~172
174
175
176~181
184
185
186
187
191
192
193
195
196
197
200
201, 202
203
204
207
208
HostCS
HostAddr[7:0]
HostMode
HostClk
HostData[15:8]
(VidInData[19:2])
HostData[7](VS)
HostData[6](HS)
HostData[5:0]
Det32PD
Det22PD
DetVideo
DeintDone
SDOut
WSOut
SCKOut
SDIn
WSIn
SCKIn
Reset
Test[1:0]
BypPLLClk54_72M
Clk54_72M
ARTN
AVDD
I/O
Pwr
Out
Out
Out
In
InOut
In
Function
3.3V I/O Power.
Green Data (RGB output mode); Y Data (YCrCb output mode)
Red Data (RGB output mode); Cr Data (YCrCb output mode)
Video Output Clock, 36, 27 or 24 MHZ
Bypass PLL for Clk48M.
48 MHz Clock.
External APLL Reference Select.
InOut SDRAM Address when an output. Configuration at reset when an input.
Out
Out
Out
Out
SDRAM Row Address Strobe.
SDRAM Column Address Strobe.
SDRAM Write Enable.
SDRAM Data Mask.
InOut SDRAM Data.
In
InOut
In
In
Out
In
In
In
InOut
Internal pullup and pulldown disable test function.
SDRAM Clock.
Bypass PLL for MemClk.
External APLL Reference Crystal/oscillator Input.
External APLL Reference Crystal Output.
Multiplexed Video Input Data; Y Video Input Data.
Video Input Clock, 27.0 MHz
186-Compatible Write when HostMode=0. Serial Clock when HostMode=1.
186-Compatible Read when HostMode=0. Serial Data when HostMode=1.
186-Compatible Chip Select when HostMode=0.
In
When HostMode=1, must be tied to VDD or pulled up to VDD.
In
186-Compatible Address when HostMode=0. No connect when HostMode=1.
In
Serial Host Interface when HostMode=1. 186-compatible host interface when HostMode=0.
InOut 186-Compatible Clock when HostMode=0. No connect when HostMode=1.
InOut 186-Compatible Data when HostMode=0. Chroma video input data when HostMode=1.
InOut
InOut
InOut
Out
Out
Out
Out
Out
Out
Out
In
In
In
In
In
In
InOut
Pwr
Pwr
186-Compatible Data when HostMode=0. Vertical sync input when HostMode=1.
186-Compatible Data when HostMode=0. Horizontal sync input when HostMode=1.
186-Compatible Data when HostMode=0. No connect when HostMode=1.
3:2 Pulldown Sequence Detected.
2:2 Pulldown Sequence Detected.
Interlaced Video Sequence Detected.
Deinterlace processing complete for current field period.
Serial Digital Audio Output Data.
Serial Digital Audio Output Word Select.
Serial Digital Audio Output Clock.
Serial Digital Audio Input Data.
Serial Digital Audio Input Word Select.
Serial Digital Audio Input Clock.
Hardware Reset.
Production hardware test support.
Bypass PLL for Clk54_72M.
54 or 72 MHz Clock.
Analog Return for PLLs.
1.8V Analog Power for PLL.
32
GND_IO
CLKIN_B
S9
S8
S7
S6
S5
DGND
VDD
S4
S3
S2
S1
S0
S_HSYNC
S_VSYNC
DVD-3800
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
ADV7300 (MA: IC706)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
TOP VIEW
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
S_BLANK
R SET 1
VREF
COMP1
DAC A
DAC B
DAC C
VAA
AGND
DAC D
DAC E
DAC F
COMP2
R SET 2
EXT_LF
RESET
ADV7300 Terminal Function
Pin No.
Pin Name
I/O
1
2~9, 12, 13
10, 56
11, 57
14~18, 26~30
VDD_IO
Y9-0
VDD
DGND
C9-0
P
I
P
G
I
19
SPI/I2C
I
20
21
22
ALSB_SO
SDA_CLKSP
SCLK_SI
I/O
I/O
I
23
P_HSYNC
I
24
P_VSYNC
I
25
31
32
P_BLANK
RTC_SCR_TR
CLKIN_A
I
I
I
33
RESET
I
34
EXT_LF
I
35, 47
RSET1,2
I
36,45
COMP
O
37
DAC F
O
38
DAC E
O
39
DAC D
O
40
41
42
43
44
46
48
49
50
AGND
VAA
DAC C
DAC B
DAC A
VREF
S_BLANK
S_VSYNC
S_HSYNC
G
P
O
O
O
I/O
I/O
I/O
I/O
S9-S0
I
CLKIN_B
GND_IO
I
G
51~55, 58~62
63
64
C3
C4
SPI/I2C
ALSB_SO
SDA_CLKSP
SCLK_SI
P_HSYNC
P_VSYNC
P_BLANK
C5
C6
C7
C8
C9
RTC_SCR_TR
CLKIN_A
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
VDD_IO
Y0
Y1
Y2
Y3
Y4
Y5
Y6
Y7
VDD
DGND
Y8
Y9
C0
C1
C2
Function
Digital power supply.
10-Bit Progressive scan/ HDTV input port for Y data.
Digital power supply.
Digital Ground
10-Bit Progressive scan/ HDTV input port for CrCb color data in 4:2:2 input mode.
When this input pin is brought low, the ADV7300 interfaces over the SPI port and uses this
input as part of the 4 wire SPI interface. When this input pin is tied high [VDD_IO], the ADV7300
interfaces over the I2C port.
Multifunctional pin.
Multifunctional pin.
Multifunctional input.
Video Horizontal Sync Control Signal for HD sync in simultaneous SD/HD mode
and HD only mode.
Video Vertical Sync Control Signal for HD sync in simultaneous SD/HD mode
and HD only mode.
Video Blanking Control Signal for HD sync in simultaneous SD/HD mode and HD only mode.
Multifunctional input.
Pixel Clock Input for HD only or SD only modes.
This input resets the on-chip timing generator and sets the ADV7300 into Default Register
setting. Reset is an active low signal.
External Loop filter for the internal PLL.
A1520 Ohms resistor must be connected from this pin to AGND and is used to control the
amplitudes of the DAC outputs.
Compensation Pin for DACs.
In SD only mode: Chroma/RED/V analog output.
In HD only mode and simultaneus HD/SD: Pb/ BLUE (HD) analog output.
In SD only mode: Luma/BLUE/U analog output.
In HD only mode and simultaneus HD/SD: Pr/ RED (HD) analog output.
In SD only mode: CVBS/GREEN/Y analog output.
In HD only mode and simultaneus HD/SD: Y/ GREEN (HD) analog output.
Analog Ground
Analog power supply.
Chroma/ RED/ V SD analog output.
Luma/ BLUE/ U SD analog output.
CVBS/ GREEN/ Y SD analog output.
Optional External Voltage Reference Input for DACs or Voltage Reference Output (1.235V).
Video Blanking Control Signal for SD.
Video Vertical Sync Control Signal for SD.
Video Horizontal Control Signal for SD.
10-Bit Standard Definition input port. Or Progressive Scan/ HDTV input port for
Cr [Red/V] color data in 4:4:4 input mode.
Pixel Clock Input.
Digital Ground
33
DVD-3800
PIC18LC242-I/SO (MA: IC703)
MCLR
1
28
RB7
RA0
RA1
2
27
3
26
RB6
RB5
RB4
RA2
4
25
RA3
5
24
RB3
RA4
6
23
RB2
RA5
7
22
RB1
VSS
8
21
INT0
OSC1
9
20
VDD
OSC2
10
19
VSS
RC0
RC1
11
18
12
17
RC7
RC6
RC2
13
16
RC5
RC3
14
15
RC4
TOP VIEW
PIC18LC242-I/SO Terminal Function
Pin No.
Pin Name
I/O
1
2
3
4
5
6
7
8
MCLR
RA0
RA1
RA2
RA3
RA4
RA5
VSS
I
I/O
I/O
I/O
I/O
I/O
I/O
P
9
OSC1
I
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
OSC2
RC0
RC1
RC2
RC3
RC4
RC5
RC6
RC7
VSS
VDD
INT0
RB1
RB2
RB3
RB4
RB5
RB6
RB7
O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
P
P
I
I/O
I/O
I/O
I/O
I/O
I/O
I/O
Description
Master Clear (Reset) input. This pin is an active low RESET to the device.
Digital I/O.
Digital I/O.
Digital I/O.
Digital I/O.
Digital I/O. Open drain when configured as output.
Digital I/O.
Ground reference for logic and I/O pins.
Oscillator crystal input or external clock source input.
ST buffer when configured in RC mode. CMOS otherwise.
Oscillator crystal output. Connects to crystal or resonator in Crystal Oscillator mode.
Digital I/O.
Digital I/O.
Digital I/O.
Digital I/O.
Digital I/O.
Digital I/O.
Digital I/O.
Digital I/O.
Ground reference for logic and I/O pins.
Positive supply for logic and I/O pins.
External Interrupt 0.
Digital I/O.
Digital I/O.
Digital I/O.
Digital I/O. Interrupt-on-change pin.
Digital I/O. Interrupt-on-change pin.
Digital I/O. Interrupt-on-change pin. ICSP programming clock.
Digital I/O. Interrupt-on-change pin. ICSP programming data.
Legend: O=Output
I=Input
P=Power
34
DVD-3800
VEE
VSS
HA1
HA0
HCS3FX#
HCS1FX#
HIOCS16#
HRD#
HWR#
VEE
VSS
HIORDY
HRST#
HIRQ
HRDQ#
HWRQ#
HD15
HD14
VCC
VSS
HD13
HD12
HD11
HD10
HD9
HD8
HD7
VEE
VSS
HD6
HD5
HD4
HD3
HD2
HD1
HD0
VCC
VSS
HSYNC#
VSYNC#
PCLKQSCN
PCLK2XSCN
YUV7
YUV6
YUV5
VSS
ADVEE
YUV4
YUV3
YUV2
YUV1
YUV0
DCLK
156
155
154
153
152
151
150
149
148
147
146
145
144
143
142
141
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
ES6038 (MA: IC101)
157
104
VEE
HA2
158
103
VSS
VEE
159
102
DSCK
AUX[0]
160
101
DQM
AUX[1]
161
100
DCS0#
AUX[2]
162
99
VEE
VSS
163
98
VSS
VEE
164
97
DCS1#
AUX[3]
165
96
DB15
AUX[4]
166
95
DB14
AUX[5]
167
94
DB13
AUX[6]
168
93
DB12
AUX[7]
169
92
VEE
LOE#
VSS
170
171
91
90
VSS
DB11
VCC
172
173
89
DB10
88
DB9
174
175
87
DB8
LCS2#
86
DB7
LCS3#
176
85
DB6
VSS
177
84
VSS
LD0
LD1
178
179
83
VCC
82
DB5
LD2
LD3
180
181
81
80
DB4
DB3
LD4
182
79
DB2
VEE
VSS
183
184
78
77
DB1
DB0
LD5
185
76
VSS
LD6
186
75
VEE
LD7
187
74
DMBS1
LD8
188
73
DMBS0
LCS0#
LCS1#
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
TDMFS
TDMTSC#
TWS/SEL_PLL2
TSD0/SEL_PLL0
VSS
VCC
TSD1/SEL_PLL1
TSD2
TSD3
MCLK
TBCK
SPDIF/PLL3
NC
VSS
VCC
RSD
RWS
RBCK
NC
XIN
XOUT
AVEE
VSS
LA9
TDMCLK
DMA0
28
53
TDMDR
208
26
27
DMA1
VSS
VSS
VEE
54
25
207
24
DMA2
LA3
TDMDX
55
RESET#
206
23
DMA3
LA2
LA21
DMA4
56
22
57
205
LA20
204
LA1
20
21
DMA5
LA0
19
58
LA18
LA19
203
LA17
VEE
CAMIN1
18
VSS
59
VEE
60
202
17
DMA6
201
CAMIN0
VSS
61
16
200
VEE
LA16
DMA7
VSS
15
62
LA15
199
14
DMA9
DMA8
LWRHL#
13
64
63
LA14
197
198
LA13
DMA10
LD15
LWRLL#
12
65
LA12
196
11
DMA11
LD14
LA11
66
10
195
LA10
VEE
VSS
LD13
9
68
67
8
193
194
7
DCAS#
VEE
LD12
VSS
69
VCC
192
5
6
DSCK_EN
VSS
LA7
LA8
70
4
191
3
DWE#
LD11
LA6
DRAS#
71
LA5
72
190
1
2
189
VEE
LA4
LD9
LD10
ES6038 Terminal Function
Pin No.
1, 18, 27, 59,
68, 75, 92, 99,
104, 130, 148,
157, 159, 164,
183, 193, 201
8, 17, 26, 34,
43, 52, 60, 67,
76, 84, 91, 98,
103, 112, 120,
129, 138, 147,
156, 163, 171,
177, 184, 192,
200, 208
23:19, 16:10,
7:2, 207:204
9, 35, 44, 83,
121, 139, 172
Pin Name
I/O
Function
VEE
I
I/O power supply.
VSS
I
Ground.
LA[21:0]
O
Device address output.
VCC
I
Core power supply.
35
DVD-3800
Pin No.
24
25
28
29
30
31
Pin Name
I/O
RESET#
TDMDX
TDMDR
TDMCLK
TDMFS
TDMTSC#
TWS
SEL_PLL2
I
O
I
I
I
O
O
I
TSD0
SEL_PLL0
TSD1
SEL_PLL1
TSD[2]
TSD[3]
MCLK
TBCK
SPDIF
SEL_PLL3
O
I
O
I
O
O
I/O
O
O
I
NC
RSD
RWS
RBCK
XIN
XOUT
AVEE
DMA[11:0]
DCAS#
DSCK_EN
DWE#
DRAS#
DMBS0
DMBS1
I
I
I
I
O
I
O
O
O
O
O
O
O
Reset input, active low.
TDM transmit data.
TDM receive data.
TDM clock input.
TDM frame sync.
TDM output enable.
Audio transmit frame sync.
System and DSCK output clock frequency selection is made at the rising edge of RESET#.
The matrix below lists the available clock frequencies and their respective PLL bit settings.
SEL_PLL2 SEL_PLL1 SEL_PLL0
Clock Type
0
0
0
VCO off.
0
0
1
DCLK
0
1
0
Bypass mode
0
1
1
DCLK x 2
1
0
0
DCLK x 4.5
1
0
1
DCLK x 3
1
1
0
DCLK x 3.5z
1
1
1
DCLK x 4
Audio transmit serial data port 0.
Refer to the description and matrix for SEL_PLL2 pin 32.
Audio transmit serial data port 1.
Refer to the description and matrix for SEL_PLL2 pin 32.
Audio transmit serial data output 2.
Audio transmit serial data output 3.
Audio master clock for audio DAC.
Audio transmit bit clock.
S/PDIF output.
Clock source select.
SEL_PLL3 Clock Source
0
Crystal oscillator
1
DCLK input
No connect pins. Leave open.
Audio receive serial data.
Audio receive frame sync.
Audio receive bit clock.
Crystal input.
Crystal output.
Analog power for PLL.
DRAM address bus [11:0]
DRAM column address strobe,
DRAM clock enable.
DRAM write enable.
DRAM row address strobe.
SDRAM bank select 0.
SDRAM bank select 1.
DB[15:0]
I/O
DRAM data bus [15:0]
DCS[1:0]#
DQM
DSCK
DCLK
YUV0
YUV1
YUV2
YUV3
YUV4
ADVEE
YUV5
O
O
O
I
O
O
O
O
O
I
O
SDRAM chip select [1:0]
Data input/output mask.
Output clock to SDRAM.
27 MHz clock input to PLL.
YUV0 pixel output data.
YUV1 pixel output data.
YUV2 pixel output data.
YUV3 pixel output data.
YUV4 pixel output data.
Analog power for video DAC.
YUV5 pixel output data.
32
33
36
37
38
39
40
41
42,48
45
46
47
49
50
51
66:61, 58:53
69
70
71
72
73
74
96:93, 90:85,
82:77
97, 100
101
102
105
106
107
108
109
110
111
113
Function
36
DVD-3800
Pin No.
114
115
116
117
118
119
127:122
128
131
132
133
134
135
136
137
140
141
142
143
144
145
146
149
150
151
152
153
158, 155:154
160
162
165
169:166
170
176:173
197:194,
191:185,
182:178
198
199
202
203
Pin Name
I/O
YUV6
YUV7
PCLK2XSCN
PCLKQSCN
VSYNC#
HSYNC#
HD[5:0]
HD[6]
HD[7]
HD[8]
HD[9]
HD[10]
HD[11]
HD[12]
HD[13]
HD[14]
HD[15]
HWRQ#
HRRQ#
HIRQ
HRST#
HIORDY
HWR#
HRD#
HIOCS16#
HCS1FX#
HCS3FX#
HA[2:0]
AUX[1:0]
AUX[2]
AUX[3]
AUX[7:3]
LOE#
LCS[3:0]#
O
O
I/O
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
O
I/O
O
I
I/O
O
I
O
O
I/O
I/O
I/O
I/O
I/O
O
O
YUV6 pixel output data.
YUV7 pixel output data.
27 MHz video output pixel clock.
13.5 MHz video output pixel clock.
Vertical sync, active low.
Horizontal sync, active low.
Host data I/O [5:0].
Host data I/O [6].
Host data I/O [7].
Host data bus 8.
Host data bus line 9.
Host data bus line 10.
Host data bus line 11.
Host data bus line 12.
Host data bus line 13.
Host data bus line 14.
Host data bus line 15.
Host write request.
Host read request.
Host interrupt.
Host reset.
Host I/O ready.
Host write.
Host read.
Device16-bit data transfer.
Host select 1.
Host select 3.
Host address bus.
Auxiliary ports 1:0.
Auxiliary ports 2.
Auxiliary ports 3.
Auxiliary ports 7:3.
Device output enable.
Chip select [3:0].
LD[15:0]
I/O
EPROM device data bus.
LWRLL#
LWRHL#
CAMIN0
CAMIN1
O
O
I
I
Device low-byte write enable.
Device high-byte write enable.
Camera YUV 0.
Camera YUV 1.
Function
37
DVD-3800
128
127
P53, CS2,ALE
VDD
VSS
P54, RAS, RFSH
P55, CAS, LCAS,BIBT1
P56, CS3, UCAS,BIBT2
P20,A0, KI0
P21,A1, KI1
P22,A2, KI2
P23,A3, KI3
P24,A4, KI4
P25,A5, KI5
P26,A6, KI6
P27,A7, KI7,TMI17B
P30,A8
PD6,RTP6
PD7,RTP7
P31,A9
P32,A10
P33,A11
P34,A12
P35,A13
VDD(VPP)
PC4,TM12O,TM8I,TM21IA
P36,A14
P37,A15
P40,A16
P41,A17
P42,A18
P43,A19
P44,A20
P45,A21
MN102H460B (MA: IC201)
126
124
122
120
118
116
114
112
110
108
106
104
102
100
98
125
123
121
119
117
115
113
111
109
107
105
103
101
99
97 96
P46,A22, CS0
1
P47,A23, CS1
2
95
P51, WEH,WE
P00,AD0,D0
3
94
P50, WEL
P01,AD1,D1
4
93
PC7,NBRACK
P02,AD2,D2
5
92
PC6,NBREQ
P03,AD3,D3
6
91
P97,AN15,TM20IB
VDD
7
90
P96,AN14,TM15O,TM19IB
VSS
8
89
P95,AN13,TM13O,TM2I
P04,AD4,D4
9
88
P94,AN12,TM11O,TM4I
P05,AD5,D5
10
87
AVDD
P06,AD6,D6
11
86
VREFH
P07,AD7,D7
12
85
P93,AN11
P10,AD8,D8
13
84
P92,AN10
P11,AD9,D9
14
83
P91,AN9
P12,AD10,D10
15
82
P90,AN8
PD0,RTP0
16
81
PD5,RTP5
PD1,RTP1
17
80
PD4,RTP4
P13,AD11,D11
18
79
P87,AN7
P14,AD12,D12
19
78
P86,AN6
P15,AD13,D13
20
77
P85,AN5
P16,AD14,D14
21
76
P84,AN4
P17,AD15,D15
22
75
P83,AN3
MODE0
23
74
P82,AN2
MODE1
24
73
P81,AN1
MODE2
25
72
P80,AN0
PC3,TM10O,TM7I,TM21IR
26
71
VREFL
PC2,TM8O,TM6I
27
70
AVSS
PC1,TM6O,TM11I
28
69
VSS
VDD
29
68
VDD
OSCI
30
67
PB5,SBT3,SCL3
OSCO
31
66
PB4,SBO3,SDA3
65
PB3,SBI3
64
PB2,SBT2,TM18IC
63
PB1,SBO2,TM17IC
62
PB0,SBI2,TM16IC
61
PA5,SBT1,SCL1
60
PA4,SBO1,SDA1
59
PA3,SBI1
58
PA2,SBT0
57
PA1,SBO0
56
PA0,SBI0
55
P75,TM18IOB,TM21ID
54
P74,TM18OA
53
P73,TM17OB,STOP
52
P72,TM17OA
51
P77,TM20IOA
50
VDD
49
PD3,RTP3
48
PD2,RTP2
47
P71,TM16OB,WDOUT
46
P70,TM16OA
45
P67,IRQ7, EXTDK
44
P66,IRQ6
43
P65,IRQ5,TM18IA
42
P64,IRQ4,TM17IA
41
P63,IRQ3,TM16IB
40
P62,IRQ2,TM16IA
39
P61,IRQ1,TM3I
38
P60,IRQ0
37
P76,TM19IOA
36
PC0,TM4O,TM10I
35
RST
34
PC5,NMI
32 33
P57,/DUMX,BOSC
VSS
TOP VIEW
P52, RE
38
DVD-3800
TOP VIEW
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
A20
A19
A18
GND
A17
A16
A15
A14
VDDEXT
A13
A12
A11
A10
A9
GND
A8
A7
A6
VDDEXT
A5
A4
A3
A2
A1
A0
OPMODE
VDDINT
EMU
GND
TRST
TCK
GND
TMS
TDI
TDO
RESET
VDDEXT
PF6
PF7
TMR0
TMR1
TMR2
DT2
TCLK2
TFS2
DR2
RCLK2
RFS2
RXD
TXD
GND
GND
DT0
TCLK0
VDDINT
TFS0
DR0
RCLK0
RFS0
VDDEXT
DT1
TCLK1
TFS1
DR1
RCLK1
RFS1
BMODE0
BMODE1
BYPASS
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
69
70
71
72
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
PF3
PF4
PF5
D14
D15
HAD0
HAD1
GND
HAD2
HAD3
HAD4
HAD5
HAD6
HAD7
HAD8
VDDEXT
HAD9
HAD10
GND
HAD11
HAD12
VDDINT
HAD13
HAD14
HAD15
HA16
HACK_P
VDDEXT
HACK
HCMS
HCIOMS
GND
HALE
HRD
HWR
GND
PF0
PF1
PF2
144
143
142
141
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
D13
VDDEXT
D12
D11
D10
D9
D8
D7
D6
D5
GND
XTAL
CLKIN
VDDEXT
CLKOUT
GND
D4
VDDINT
D3
D2
D1
D0
RD
WR
ACK
MS3
VDDEXT
MS2
MS1
MS0
IOMS
BMS
BR
BG
BGH
A21
ADSPMEL322 (MA: IC207)
39
18
19
20
21
22
23
24
25
CDATA<5>
CDATA<4>
CDATA<3>
CDATA<2>
M1
GND
M0
12
VCCO
CDATA<6>
11
GND
17
10
YDATA<0>
CDATA<7>
9
YDATA<1>
16
8
YDATA<2>
CDATA<8>
7
YDATA<3>
CDATA<9>
6
YDATA<4>
15
5
YDATA<5>
14
4
YDATA<6>
13
3
NC
2
TMS
YDATA<7>
VCCINT
1
GND
CCLK
NC
DIN
YOUT<7>
YOUT<8>
YOUT<9>
COUT<0>
COUT<1>
COUT<2>
COUT<3>
COUT<4>
GND
VCCO
DELAYHSYNC
VCCINT
DELAYVSYNC
DELAYBLANK
NC
COUT<5>
COUT<6>
COUT<7>
COUT<8>
COUT<9>
INITNC
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
DVD-3800
XC2S30-5VQ100C (MA: IC711)
VCCO
76
50
VCCO
NC(TDO)
77
49
DONE
GND
78
48
GND
NC(TDI)
79
47
NC
YOUT<6>
80
46
NC
YOUT<5>
81
45
NC
YOUT<4>
82
44
NC
YOUT<3>
83
43
NC
YOUT<2>
84
42
VCCINT
VCCINT
85
41
RESET
YOUT<1>
86
40
BLANK
YOUT<0>
87
39
NC
NC
88
38
GND
GND
89
37
VCCO
VCCO
90
36
NC
CLOCK
91
35
VCCINT
VCCINT
92
34
VSYNC
BYPASS
93
33
VCCINT
VCCINT
94
32
HSYNC
GRAYBITS<0>
95
31
CDATA<0>
GRAYBITS<1>
96
30
CDATA<1>
YDATA<9>
97
29
NC
YDATA<8>
98
28
NC
NC(TCK)
99
27
M2
VCCO
100
26
VCCO
40
DVD-3800
W986416DH (MA: IC103)
VCC 1
DQ0 2
VCCQ 3
54 VSS
53 DQ15
DQ1 4
51 DQ14
DQ2 5
50 DQ13
VSSQ 6
49 VCCQ
DQ3 7
48 DQ12
DQ4 8
47 DQ11
VCCQ 9
46 VSSQ
52 VssQ
DQ5 10
45 DQ10
DQ6 11
VSSQ 12
44 DQ9
43 VCCQ
DQ7 13
42 DQ8
VCC 14
41 VSS
LDQM 15
40 NC
WE 16
39 UDQM
CAS 17
38 CLK
RAS 18
37 CKE
CS 19
36 NC
BS0 20
35 A11
BS1 21
34 A9
A10/AP 22
33 A8
A0 23
32 A7
A1 24
31 A6
A2 25
A3 26
30 A5
Vcc 27
29 A4
28 Vss
W986416DH Terminal Function
Pin No.
1, 14, 27
2, 4, 5, 7, 8, 10,
11, 13, 42, 44,
45, 47, 48, 50,
51, 53
3, 9, 43, 49
6, 12, 46, 52
16
17
Pin Name
Function
Description
VCC
Power (+3.3V)
Power for input buffers and logic circuit inside DRAM.
DQ0-DQ15
Data Input/Output
Multiplexed pins for data output and input.
VCCQ
VSSQ
WE
CAS
Power (+3.3V) for I/O buffer
Ground for I/O buffer
Write Enable
Column Address Strobe
18
RAS
Row Address Strobe
19
CS
Chip Select
20, 21
BS0, BS1
Bank Select
23~26, 22
29~35
A0-A11
Address
28, 41, 54
36, 40
VSS
NC
Ground
No Connection
37
CKE
Clock Enable
38
CLK
Clock Inputs
39, 15
UDQM, LDQM Input/Output mask
Separated power from VCC, to improve DQ noise immunity.
Separated ground from VSS, to improve DQ noise immunity.
Referred to RAS.
Referred to RAS.
Command input. When sampled at the rising edge of the clock RAS, CAS
and WE define the operation to be executed.
Disable or enable the command decoder. When command decoder is
disabled, new command is ignored and previous operation continues.
Select bank to activate during row address latch time, or bank to read/write
during address latch time.
Multiplexed pins for row and column address. Row address: A0-A11.
Column address: A0-A7. A10 is sampled during a precharge command to
determine if all banks are to be precharged or bank selected by BS0, BS1.
Ground for input buffers and logic circuit inside DRAM.
No Connection
CKE controls the clock activation and deactivation. When CKE is low,
Power Down mode, Suspend mode, or Self Refresh mode is entered.
System clock used to sample inputs on the rising edge of clock.
The output buffer is placed at Hi-Z (with latency of 2) when DQM is sampled
high in read cycle. In write cycle, sampling DQM high will block the write
operation with zero latency.
41
DVD-3800
AGND
VAA
NC
NC
NC
NC
NC
NC
TTX
AGND
VAA
NC
PAL_NTSC
VSO/CLAMP
CSO_HSO
RESET
ADV7190 (AV: IC601)
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
P0
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
TOP VIEW
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
RSET1
VREF
COMP 1
DAC A
DAC B
VAA
AGND
DAC C
DAC D
AGND
VAA
DAC E
DAC F
COMP 2
RSET2
AGND
VAA
AGND
HSYNC
VSYNC
BLANK
ALSB
TTXREQ
AGND
VAA
AGND
CLKIN
CLKOUT
VAA
SCL
SDA
SCRESET/TRC/TR
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
ADV7190 Terminal Function
Pin No.
Pin Name
I/O
Function
1~16
17, 25, 29, 38,
43, 54, 63
18, 24, 26, 33,
39, 42, 55, 64
P0-P15
I
8-Bit or 16-Bit 4:2:2 Multiplexed YCrCb Pixel Port. The LSB of the input data is set up on Pin P0.
VAA
P
Analog Power Supply (3.3V to 5V).
AGND
G
Analog Ground.
19
HSYNC
I/O
20
VSYNC
I/O
21
BLANK
I/O
22
23
ALSB
TTXREQ
I
O
27
CLKIN
I
28
30
31
CLKOUT
SCL
SDA
32
SCRESET/RTC/TR
34
RSET2
I
35
36
37
40
41
44
45
46
COMP 2
DAC F
DAC E
DAC D
DAC C
DAC B
DAC A
COMP 1
O
O
O
O
O
O
O
O
47
VREF
I/O
48
RSET1
I
49
RESET
I
50
CSO_HSO
O
51
VSO/CLAMP
I/O
52
53, 57~62
56
PAL_NTSC
NC
TTX
O
I
I/O
I
I
I
HSYNC (Modes 1, 2, and 3) Control Signal. This pin may be configured to be an output
(Master Mode) or an input (Slave Mode) and accept Sync Signals.
VSYNC Control Signal. This pin may be configured as an output (Master Mode) or as an input
(Slave Mode) and accept VSYNC as a Control Signal.
Video Blanking Control Signal. This signal is optional. For further information see Vertical
Blanking Data Insertion and BLANK Input section.
TTL Address Input. This signal sets up the LSB of the MPU address.
Teletext Data Request Output Signal, used to control teletext data transfer.
TTL Clock Input. Requires a stable 27 MHz reference clock for standard operation. Alternatively,
a 24.5454 MHz (NTSC) or 29.5 MHz (PAL) can be used for square pixel operation.
Clock Output Pin.
MPU Port Serial Interface Clock Input.
MPU Port Serial Data Input/Output.
Multifunctional Input: Real-Time Control (RTC) Input, Timing Reset Input,
Subcarrier Reset Input.
A 1200 ohm resistor connected from this pin to ground is used to control full-scale amplitudes of
the Video Signals from DACs D, E, and F.
Compensation Pin for DACs D, E, and F. Connect a 0.1µF Capacitor from COMP2 to VAA.
S-Video C/V/RED Analog Output. This DAC is capable of providing 4.33 mA output.
S-Video Y/U/BLUE Analog Output. This DAC is capable of providing 4.33 mA output.
Composite/Y/GREEN Analog Output. This DAC is capable of providing 4.33 mA output.
S-Video C/V/RED Analog Output. This DAC is capable of providing 4.33 mA output.
S-Video Y/U/BLUE Analog Output. This DAC is capable of providing 4.33 mA output.
Composite/Y/GREEN Analog Output. This DAC is capable of providing 4.33 mA output.
Compensation Pin for DACs A, B, and C. Connect a 0.1µF Capacitor from COMP1 to VAA.
Voltage Reference Input for DACs or Voltage Reference Output (1.235V). An external VREF
cannot be used in 4x oversampling mode.
A 1200 ohm resistor connected from this pin to ground is used to control full-scale amplitudes of
the Video Signals from DACs A, B, and C.
The input resets the on-chip timing generator and sets the ADV7190/ADV7191 into default
mode. See Appendix 8 for Default Register Settings.
Dual function CSO or HSO Output Sync Signal at TTL Level.
Multifunction Pin. VSO Output Sync Signal at TTL level. CLAMP TTL Output Signals can be
used to drive external circuitry to enable clamping of all Video Signals.
Input signal to select PAL or NTSC mode of operation, pin set to Logic 1 selects PAL.
No Connect.
Teletext Data Input Pin.
42
DVD-3800
DXP7001AF (AV: IC201)
23
33
34
22
44
12
1
11
DXP7001AF Terminal Function
Pin
No.
Pin Name
I/O
Pin
No.
Description
Pin Name
I/O
Description
1
MDT
Ip
Microcomputer Interface Data
23
P24L
O
/Lambda-processor Lch 24th bit Output *1, *2
2
MCK
Ip
Microcomputer Interface Clock
24
P23L
O
/Lambda-processor Lch 23rd bit Output *1, *2
3
MLEN
Ip
Microcomputer Interface Latch Enable
25
P22L
O
/Lambda-processor Lch 22nd bit Output *1, *2
4
RSTN
Ip
Reset Terminal
26
P21L
O
/Lambda-processor Lch 21st bit Output *1
5
DLRCK
Ip
Audio Serial Input Data L/R Clock
27
P20L
O
/Lambda-processor Lch 20th bit Output *1
28
VDD
Power Supply Terminal
29
SO2L/P19L
O
Test Setting Terminal 2 (Alpha-processor 1
30
SO1L
O
Lambda-processor Lch(+) Output
Output shifts 12-bit.)
31
SO1R
O
Lambda-processor Rch(+) Output
32
SO2R/P19R
O
33
P20R
O
/Lambda-processor Rch 20th bit Output *1
34
P21R
O
/Lambda-processor Rch 21st bit Output *1, *2
35
P22R
O
/Lambda-processor Rch 22nd bit Output *1, *2
36
P23R
O
/Lambda-processor Rch 23rd bit Output *1, *2
37
P24R
O
/Lambda-processor Rch 24th bit Output *1, *2
38
TEST1N
Ip
Test Terminal 1 (Alpha-processor 1 stops)
39
CKSLN
Ip
System Clock Select (384fs system /
40
CKDV1
Ip
6
VSS
Ground Terminal
7
DBCK
Ip
Audio Serial Input Bit Clock
8
9
10
DDT
TEST2N
TEST3N
Ip
Ip
Ip
th
Audio Serial Input Data
Test Setting Terminal 3 (Alpha-processor 2
Output stops.)
Test Setting Terminal 4 (Lambda-processor
11
TEST4N
Ip
12
DFBCK
Ip
Lambda-processor Input Bit Clock
13
DFWCK
Ip
Lambda-processor Input Word Clock
14
DOL
Ip
Lambda-processor Input Data L-channel
15
DOR
Ip
Lambda-processor Input Data R-channel
16
LMOD
Ip
Lambda-processor Operation Mode Set
17
OMOD1
Ip
Output Mode Setting Terminal 1
Output stops.)
Output Mode Setting Terminal 2
18
OMOD2
Ip
L
OMOD2
H
H
24bit
Alternate
24bit
Parallel
Output *1
Lambda-processor Rch() Output/19 bit
th
Output *1
256fs system)
OMOD1
L
18bit
Alternate
20bit
Parallel
Lambda-processor Lch() Output /19 bit
System Clock Divider Select Terminal 1
System Clock Divider Select Terminal 2
41
CKDV2
Ip
L
CKDV2
H
19
INVIN
Ip
Lambda-processor Input Reversed
Polarity Terminal
20
BCKO
O
Lambda-processor Output Bit Clock
21
WCKO
O
Lambda-processor Output Word Clock
22
WCKO2
O
42
XTI
I
CKDV1
L
192fs (CKSLN=H)
256fs (CKSLN=H)
192fs (CKSLN=H)
256fs (CKSLN=H)
H
768fs
384fs
X-TAL Oscillator Input Terminal
43
XTO
O
X-TAL Oscillator Output Terminal
44
CKO
O
Clock Output Terminal
Lambda-processor Output Word Clock 2
(for Canceling OFFSET on 1DAC
(Ip = Input Terminal with pull-up)
*1: Outputted on OMOD1=L (18-bit Alternate Output or 20 bit Parallel Output)
*2: Internal Signal is outputted on OMOD1=H (24-bit Alternate Output or 24 bit Parallel Output) and one of TEST1N, TEST2N, TEST3N
or TEST4N is set to L.
43
DVD-3800
PCM1738-1 (AV: IC206, 209, 212)
PCM1738-1 Terminal Function
Pin Name
Pin No.
RST
1
28
VCC3
ZEROL
2
27 AGND2
ZEROR
3
26 IOUTL-
LRCK
4
25 IOUTL+
DATA
5
24 VCC2
BCK
6
23 VCC1
SCKI
7
22 VCOM3
DGND
8
21 IREF
9
20 VCOM2
SCKO 10
19 VCOM1
VDD
MDO 11
18 AGND1
MDI 12
17 IOUTR+
MC 13
16 IOUTR-
CS 14
15 MUTE
1
2
3
RST
ZEROL
ZEROR
4
LRCK
5
DATA
6
BCK
7
SCKI
8
9
10
11
12
13
14
DGND
VDD
SCKO
MDO
MDI
MC
CS
15
MUTE
16
17
18
19
20
21
22
23
24
25
26
27
28
LOUTR−
LOUTR+
AGND1
VCOM1
VCOM2
IREF
VCOM3
VCC1
VCC2
IOUTL+
IOUTL−
AGND2
VCC3
I/O
Function
I Reset (1)
O Zero-flag for Lch
O Zero-flag for Rch
Normal mode: L/R clock (fs) input (1)
I Ext. DF mode: WDCK clock input
DSD mode: GND connection
Normal mode: Serial audio data input (1)
I Ext. DF & DSD mode: Lch audio data input
Normal mode: Bit clock input (1)
I DSD mode: GND connection
Normal mode: System clock input (1)
I DSD mode: BCK (64fs) clock input
Digital GND
Digital power +3.3V
O System clock output
O Function control register serial data output (2)
I Function control register serial data input (1)
I Function control register shift clock (1)
I Mode control chip select and latch signal (1)
Normal mode: Analog output mute control (1)
I Ext. DF & DSD mode: Rch audio data input
O Rch analog current output (−)
O Rch analog current output (+)
Analog GND
Internal bias de-coupling pin
Common mode voltage of I/V
Output current reference bias pin
Internal bias de-coupling pin
Analog power +5.0V
Analog power +5.0V
O Lch analog current output (+)
O Lch analog current output (−)
Analog GND
Analog power +5.0V
Note: (1) Schmitt trigger input, 5V input possible (2) Tri-state output
AN8471SA (MA: IC503)
AN8471SA Terminal Function
32
BC4
BC3
BC2
BC1
VPUMP
VLP
VM1
16
VDD
1
18
16 15
14
13
12
32
31
OSC
FG 10
Booster
Logic Circuit
FG2 20
Pin No.
17
Thermal
Protect
19 VM2
H1H 7
27 A11
Hall Amp
Matrix
H2L 4
Divider
3ø Bridge
H2H 5
Pre-Driver
H1L 6
H3H 3
24 A21
25 A22
21 A31
H3L 2
22 A32
PWMOUT
VHB 1
28 A12
Hall
Bias
23 CS2
Direction
SW
26 CS1
SRESET
EC 8
VT
Start/Stop
ECR 9
VCL
X5
CSOUT
BMS 30
START 11
17 GND
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
Pin Name
VHB
H3L
H3H
H2L
H2H
H1L
H1H
EC
ECR
FG1
START
VPUMP
BC1
BC2
BC3
BC4
GND
VDD
VM2
FG2
A31
A32
CS2
A21
A22
CS1
A11
A12
NC
BMS
VM1
VLP
Function
Hall bias pin
Hall element 3 input (-)
Hall element 3 input (+)
Hall element 2 input (-)
Hall element 2 input (+)
Hall element 1 input (-)
Hall element 1 input (+)
Torque command input pin
Torque command ref. input pin
FG signal lout put pin (0.C)
Start/Stop switching pin
Booster pin
Booster cap. connecting pin 1
Torque command input pin 2
Torque command input pin 3
Torque command input pin 4
GND pin
Power pin
Motor power pin 2
3x FG signal output pin (0.C)
Drive output 3
Drive output 3
Current detect pin 2
Drive output 2
Drive output 2
Current detect pin 1
Drive output 1
Drive output 1
N.C.
Brake mode switching pin
Motor power pin 1
Pre-driver lower power
44
DVD-3800
SM8701BM (MA: IC109)
SM8701BM Terminal Function
Pin No.
MLEN/R2
1
20 MCK/R1
P/S
2
19 MDT/R0
VDD
3
18 RSTN
GND
4
17 SO3
XTO
5
16 VDDO
XTI
6
15 GNDO
GNDP
7
14 SO2
VDDP
8
13 SO4
VDD3
9
12 SO1
MO 10
11 MON
Pin Name
I/O
1
MLEN/R2
Ip1
2
P/S
Ip1
3
4
5
VDD
GND
XTO
O
6
XTI
7
8
9
10
11
12
13
14
15
16
17
18
GNDP
VDDP
VDD3
MO
MON
SO1
SO4
SO2
GNDO
VDDO
SO3
RSTN
O
O
O
O
O
O
Ip2
19
MDT/R0
Ip1
20
MCK/R1
Ip1
I
Function
Control signal input.
In serial mode: latch enable signal
In parallel mode: sampling rate select signal
Mode select signal.
LOW: serial mode, HIGH: parallel mode
5V supply (Digital block)
Ground (Digital block)
Reference signal crystal oscillator element connection
Reference signal crystal oscillator element connection
or external clock input
Ground (PLL block)
5V supply (PLL block)
3.3V supply (output buffer)
27 MHz fixed-frequency output
27 MHz fixed-frequency output (inverted)
33.8688 MHz fixed-frequency output
768fs output
256fs output
Ground (output buffer)
3.3V supply (output buffer)
384fs output
LOW-level reset input
Control signal input.
In serial mode: control data input signal
In parallel mode: sampling frequency select signal
Control signal input.
In serial mode: clock signal
In parallel mode: sampling frequency select signal
Note: 1. Schmitt trigger input with pull-down resistor
2. Schmitt trigger input with pull-up resistor
64M SDRAM (MA: IC702)
W986432AH
W986432AH Terminal Function
VCC 1
DQ0 2
86 VSS
85 DQ15
VCCQ 3
84 VCCQ
DQ1 4
83 DQ14
DQ2 5
82 DQ13
VSSQ 6
81 VCCQ
DQ3 7
80 DQ12
DQ4 8
79 DQ11
VCCQ 9
78 VSSQ
Pin No.
Pin Name
25~27, 60~66, 24
A0-A10
22, 23
BS0, BS1
DQ5 10
77 DQ10
2, 4, 5, 7, 8, 10, 11 ,13,
31, 33, 34, 36, 37, 39,
40, 42, 45, 47, 48, 50, DQ0-DQ31
51, 53, 54, 56, 74, 76,
77, 79, 80, 82, 83, 85
DQ6 11
VSSQ 12
76 DQ9
75 VCCQ
20
DQ7 13
74 DQ8
NC 14
73 NC
VCC 15
72 VSS
DQM0 16
71 DQM1
WE 17
70 NC
CAS 18
69 NC
RAS 19
68 CLK
CS 20
67 CKE
NC 21
66 A9
BS0 22
65 A8
BS1 23
64 A7
A10/AP 24
63 A6
A0 25
62 A5
A1 26
A2 27
61 A4
60 A3
DQM2 28
59 DQM3
VCC 29
58 VSS
NC 30
57 NC
DQ16 31
56 DQ31
VSSQ 32
55 VCCQ
DQ17 33
54 DQ30
DQ18 34
53 DQ29
VCCQ 35
52 VSSQ
DQ19 36
DQ20 37
51 DQ28
50 DQ27
VSSQ 38
49 VCCQ
DQ21 39
48 DQ26
DQ22 40
47 DQ25
VCCQ 41
46 VSSQ
DQ23 42
45 DQ24
VCC 43
19
18
17
16, 28, 59, 71
68
67
1, 15, 29, 43
44, 58, 72, 86
3, 9, 35, 41, 49, 55,
75, 81
6, 12, 32, 38, 46, 52,
78, 84
14, 21, 30, 57, 69,
70, 73
Function
Address for row and column
Bank Select to activate during row
address latch time
Data Input / Output pins for data
Chip Selec to disable or enable the
command decoder
RAS
Row Address Strobe
CAS
Column Address Strobe
WE
Write Enable
DQM0-DQM3 Input / Out put Mask
CLK
Clock Inputs
CKE
Clock Enable
VCC
Power (+3.3V)
VSS
Ground
CS
VCCQ
Power (+3.3V) for I/O Buffer
VSSQ
Ground for I/O Buffer
NC
No Connection
44 VSS
45
DVD-3800
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
AD2
AD1
VDISP2
NC
VFL2
P4
P3
P2
P1
VDD
DA
CP
CS
RESET
OSC1
OSC0
GND
VFL1
COM24
COM23
ML9207-01 (PD: IC101)
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
COM22
COM21
COM20
COM19
COM18
COM17
COM16
COM15
COM14
COM13
COM12
COM11
COM10
COM9
COM8
COM7
COM6
COM5
COM4
COM3
SEG19
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
VDISP1
COM1
COM2
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
AD3
AD4
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
ML9207-01 Terminal Function
Pin No.
3~37
39~62
1,2, 79, 80
72~75
71
38, 78
64
63, 76
70
69
68
67
65
66
Pin Name
SEG1~35
COM1~24
AD1~4
P1~4
VDD
VDISP1~2
GND
VFL1~2
DA
CP
CS
RESET
OSC0
OSC1
I/O
O
O
O
O
I
I
I
I
I
O
Function
FL display anode drive output pin
FL display grid drive output pin
FL display anode drive output pin
General port output pin
VDD-GND: Power supply for logic block
VDISP-VFL: Power supply for FL display drive
For VDD and VDISP, apply from same power source
Serial data input pin (positive logic)
Shift clock input pin
Chip select input pin
Reset input pin
Pin for self-oscillation
BA5952AFP (MA: IC504)
VINFC 1
CFCErr1 2
28 MUTE
CFCErr2 3
26 VINTK
27 BIAS
VINSL+ 4
25 CTKerr1
VINSL- 5
24 CTKerr2
VOSL $
VNFFC 7
23 VINLD
PreVcc &
PVcc1 9
22 PreGND
21 PVcc2
20 VNFTK
PGND 10
VOSL- 11
19 PGND
VOSL+ 12
17 VOLD+
VOFC- 13
VOFC+ 14
16 VOTK15 VOTK+
18 VOLD-
Terminal Function
Pin
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Pin
Name
Function
No.
VINFC Focus driver input
15 VOTK+ Tracking driver output(+)
CFCerr1 Cap.connecting pin for error amp filter 16 VOTK- Tracking driver output(-)
CFCerr2 Cap.connecting pin for error amp filter 17 VOLD+ Loading driver output(+)
VINSL+ Op.amp input (+) for sled driver
18 VOLD- Loading driver output(-)
Power GND
VINSL- Op.amp input (-) for sled driver
19 PGND
20 VNFTK Tracking driver feedback pin
Op.amp output for sled driver
VOSL
21 PVcc1
VNFFC Focus driver feedback pin
Power GND
22 PreGND Pre GND
PreVcc Pre Vcc
23 VINLD
PVcc1 Power Vcc of sled driver
Loading driver input
24 CTKerr2 Cap.connecting pin for error amp filter
PGND Power GND of sled driver
VOSL- Sled driver output(-)
25 CTKerr1 Cap.connecting pin for error amp filter
VOSL+ Sled driver output(+)
Tracking driver input
26 VINTK
Bias input
27 BIAS
VOFC- Focus driver output(-)
Mute control pin
28 MUTE
VOFC+ Focus driver output(+)
Name
Function
46
DVD-3800
GND
39
3
38
4
37
5
36
6
35
7
34
8
33
9
32
10
31
11
30
12
29
13
28
14
27
15
26
16
25
17
24
18
23
I/O15
I/O14
I/O13
I/O12
GND
I/O11
I/O10
I/O9
I/O8
NC
LCAS
UCAS
OE
A8
A7
A6
A5
19
22
20
21
A3
VCC
Terminal Function
Name
A0-A8
I/O0-15
WE
OE
RAS
UCAS
LCAS
Vcc
GND
NC
Function
Address Inputs
Data Inputs/Outputs
Write Enable
Output Enable
Row Address Strobe
Upper Column Address Strobe
Lower Column Address Strobe
Power
Ground
No Connection
20
19
18
17
16
15
14
13
12
11
1
2
3
4
5
6
7
8
9
10
CLR
L
H
H
H
D
X
L
H
X
Vcc
Q8
D8
D7
Q7
Q6
D6
D5
Q5
CK
Output
CK
X
7
8
9
10
11
12
13
14
15
16
17
39
38
37
36
35
34
33
32
31
30
29
S-24C02BFJ-TB (MA: IC106)
Function
Q
L
L
H
Qn
A0 1
8 Vcc
A1 2
7 TEST/WP
NC 3
6 SCL
GND 4
5 SDA
Terminal Function
Truth Table
Input
I/O12
I/O11
I/O10
I/O9
I/O8
GND
NC
I/O7
I/O6
I/O5
I/O4
Clear
¾
¾
No change
Pin No.
Name
1
2
3
4
5
6
7
8
A0
A1
A2
GND
SDA
SCL
TEST/WP
Vcc
Function
Address input
Address input
Address input
GND
Serial data input/output
Serial clock input
Test, connect to GND
Power supply
X: Don't Care
BA033LBSG (AV: IC205, 208, 211)
5
A13
A12
A11
A10
A9
GND
NC
A8
A7
A6
A5
Pin Name
A0-A15
CE
OE
WE
I/O0-I/O15
NC
Function
Address Inputs
Chip Enable
Output Enable
Write Enable
Data Inputs/Outputs
No Connection
A4
GND
SN74AHCT273PW
(MA: IC104, 105, 114)
CLR
Q1
D1
D2
Q2
Q3
D3
D4
Q4
GND
Terminal Function
6
5
4
3
2
1
44
43
42
41
40
40
2
18
19
20
21
22
23
24
25
26
27
28
1
I/O3
I/O2
I/O1
I/O 0
OE
NC
A0
A1
A2
A3
A4
VCC
I/O0
I/O1
I/O2
I/O3
VCC
I/O4
I/O5
I/O6
I/O7
NC
NC
WE
RAS
NC
A0
A1
A2
AT49LV1025 (MA: IC202)
I/O 13
I/O 14
I/O 15
CE
NC
NC
VCC
WE
NC
A15
A14
4M DRAM (SOJ)-35 (IC507, 509)
IS41C16256
M11B416256A
TC74VHC157A (MA: IC113)
SELECT
1A
1B
1Y
2A
2B
2Y
GND
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
Vcc
ST
4A
4B
4Y
3A
3B
3Y
TOP VIEW
Terminal Function
INPUTS
SELECT
ST
X
H
L
L
L
L
H
L
H
L
X: Don't Care
OUTPUTS
A
X
L
H
X
X
B
X
X
X
L
H
Y
L
L
H
L
H
TC4W53F (SC: IC855)
(Europe model only)
Terminal Function
4
Vcc
1
Vref
TOP
VIEW
CTL
3
1 2 3
5
OUT
4
C
Pin No.
Name
1
2
3
4
5
Vcc
GND
CTL
C
OUT
Ripple Improve
Output
Over current protection
Over temperature protection
GND
TOP VIEW
Function
Power
Ground
Power Save
COM 1
8 VCC
NH 2
7 ch0
VEE 3
6 ch1
GND 4
5 ADR
2
TC7W32F (MA: IC107)
TC7W14F (MA: IC111, 115, 116)
MN1382-S (MA: IC203)
TOP VIEW
1A 1
8 Vcc
1A 1
8 Vcc
1B 2
7 1Y
3Y 2
7 1Y
2Y 3
6 2B
2A 3
6 3A
GND 4
5 2A
GND 4
5 2Y
OUT 1
2 VDD
VSS
3
47
DVD-3800
STR-F6674 (PD: IC901)
4 Vin
BA15218F (MA: IC510)
NJM2068DD (AV: IC407, 408)
NJM2068MD (AV: IC301~308, 401~406)
NJM4558M (MA: IC502)
TK15420MTL (AV: IC701~707, 803, 804)
3 Drain
DRV.REC=8.6V
FRONT
VIEW
Start
Rg2
O.V.P
Rg1
DRV
Latch
Reg.
47ohm
T.S.D
O.C.P./F.B.
S
D
VIN
GND
1 OCP/FB
Rg2:
STR-F6632 360ohm
STR-F6672 180ohm
OCP/FB comp.
+IN1
7 OUT2
+
2ch
-
6
3
VEE 4
Vth2=1.3~1.6V
+
1ch
+
1.35mA
OSC
-
2
-IN1
+
8 VCC
OUT1 1
2 Source
Vth1=0.73±0.05V
-IN2
5 +IN2
INH comp.
Tth(min)=1m S
4700pF
TOFF=50m S typ.
Iconst trm.
5 GND
BA033FP (MA: IC302, 512)
BA18BC0FP (MA: IC710)
AT49LV002-70TC (MA: IC210)
A11
A9
A8
A13
A14
A17
WE
VCC
RESET
A16
A15
A12
A7
A6
A5
A4
1
2
3
4
5
6
7
8
9
10
32
31
30
29
28
27
26
25
24
23
11
12
13
14
15
22
21
20
19
16
17
18
OE
A10
CE
I/O7
I/O6
I/O5
I/O4
I/O3
GND
I/O2
I/O1
I/O0
A0
A1
A2
A3
2
Vcc
TOP
VIEW
1
REFFERENCE
VOLTAGE
GND
2
1
3
PQ070XZ01Z (MA: IC301, 303, 304, 709)
3
TOP
VIEW
DC input
(VIN)
1
On/Off control
(VO)
2
A 1
8 VCC
B 2
7 ST
Y 3
6 SELECT
GND 4
5 Y
8 VIN2
GND 2 TOP VIEW 7 V
VSAG1 3
6 VSAG2
+
VOUT1 4
DATA 1
8 VCC
CLK 2
7 VCC
RESET/OE 3
CE 4
NJM2267M (SC: IC852)
(Europe model only)
VIN1 1
XC17S30AV08C (MA: IC712)
5 VOUT2
6 NC
3
DC output
(VO)
4
Output voltage
adjustment (VADJ)
Specific IC
5
GND
12345
TC7WH157FU (MA: IC112)
OUT
3
PC123 (PD: IC902)
TOP VIEW
ANODE
CATHODE
COLLECTOR
EMITTER
5 GND
TC7WU04F (MA: IC108, 110)
SE005N (PD: IC903)
C Vout
2
1
1A 1
8 Vcc
3Y 2
7 1Y
2A 3
6 3A
GND 4
5 2Y
FRONT
VIEW
1 2 3
3
GND
48
DVD-3800
TC74HCT7007AF (MA: IC206, 209)
1
14 Vcc
1CLR 1
2
13 6A
1D 2
2A 3
12 6Y
1CK 3
1Y
TC74VHC123AF (AV: IC602, 708)
13 2CLR
CK D
PR
CLR
Q Q
11 5A
1PR 4
11 2CK
3A 5
10 5Y
1Q 5
10 2PR
3Y 6
9 4A
D CK
CLR PR
Q Q
GND 7
GND 7
MUTE 1
INA 2
75ohm
GND 3
INB 4
6dB
75ohm
14 OUTA2
Z1 3
Z1
Z 4
Z
X1
13 X1
Z0 5
Z0
X0
12 X0
12 OUTB2
11 N.C.
6dB
75ohm
GND 8
10 OUTC1
Inhibit 6
9 OUTC2
VEE 7
Inhibit
C
GND 8
1A 2
1A
G
15 STROBE
1B 3
1B
4A
14 4A
OUTPUT 1Y 4
1Y
4B
13 4B
INPUTS
2A 5
2B 6
OUTPUT 2Y 7
2A
2B
INPUTS
4Y
12 4Y OUTPUT
3A
11 3A
2Y 3Y 3B
GND 8
10 3B
X
14 X
INPUTS
9 3Y OUTPUT
BA033T (PD: IC904)
NJM7805FA(S) (AV: IC204, 207,
210, 951)
NJM7812FA(S) (AV: IC953)
14
Vcc
1Y
2
13
6A
2A
3
12
6Y
2Y
4
11
5A
5
10
5Y
B
10 B
3Y
6
9
4A
9 C
GND
7
8
4Y
74VHC4066MTC (MA: IC506)
19
GND
VCC 3
18
-
C4
C1- 4
17
C5+ 5
16
2
C5 6
-
300ohm
300ohm
ROUT1 9
5.5kohm
ROUT2 10
5.5kohm
NJM7905FA (AV: IC952)
NJM7912FA (AV: IC954)
FRONT
VIEW
1
11 A
C4+
DIN2 8
1A
A
20
DIN1 7
SN74LV04APW (MA: IC208, 213)
TC74HCT04AF (AV: IC219, 506)
TC74HCU04AF (AV: IC216)
3A
+
IN/OUT1 1
14 VDD
OUT/IN1 2
13 CONT1
VSS
OUT/IN2 3
12 CONT4
STBY
IN/OUT2 4
11 IN/OUT4
10 OUT/IN4
15
VCHA
CONT2 5
14
DOUT1
CONT3 6
9 OUT/IN3
13
DOUT2
VSS 7
8 IN/OUT3
12
RIN1
11
RIN2
PQ1CG21H2FZ (PD: IC905)
FRONT
VIEW
Input
GND
Output
FRONT
VIEW
Common
Input
Output
INPUTS
S
15 Y
VDD 1
C1
16 VCC
SELECT 1
Y
m PD4721GS (PD: IC511)
SN74LV157APW (AV: IC214)
11 2CLR
9 2A
Y0
N.C. 6
2Cx 6
Q
CLR
10 2B
Y0 2
13 OUTB1
12 2Q
Q
GND 8
16 VCC
Y1
2Q 5
8 2Q
15 OUTA1
GND 5
INC 7
Y1 1
14 1Cx
13 1Q
1Q 4
2Rx/Cx 7
TC4053BF (AV: IC801, 802)
(SC: IC851~854, 858)
(Europe model only)
16 VCC
6dB
CLR
Q
Q
9 2Q
8 4Y
BA7660FS (SC: IC856)
(Europe model only)
1B 2
1CLR 3
12 2D
2Y 4
1Q 6
16 Vcc
15 1Rx/Cx
1A 1
14 VCC
VIN
VOUT
COM
OADJ
ON/OFF
1A
SN74LV74APW (AV: IC215)
49
DVD-3800
OTHERS
GP1UM271XK (Remote Control Sensor)
(PD: IC103)
TOP VIEW
RL
Limiter
Amp
BPF
Detector & Integrator Hysteresis
Comparator
Comparator
VOUT
VCC
GND
Head
Amp
GND VCC VOUT
CXA1511M (PD: IC510)
1
4
Head
Amp
8
TOP
VIEW
Limiter
Amp
BPF
BEF
Detector &
Integrator
Comparator
Hysteresis
Comparator
IN 1
5
ABLC
2
3 4 5 6
C2 GND fo N.C.
7 8
OUT Vcc
OPTICAL
Output
GP1FA551TZ (AV: JK503)
FRONT VIEW
VCC
LED
DRIVE
IC
VIN
GND
VIN
VCC
GND
C1
50
DVD-3800
TRANSISTORS
2SA1022
2SA1036K (Europe model only)
2SB709A
2SC2411K (Europe model only)
2SC2412K
2SD601A
B
KTC2875B
TOP
C
DTA114EK
VIEW
E
DTA124EK
DTC114EK
DTC124TK (Europe model only)
DTC143EK
DTC143TK
DTC144EK (Europe model only)
DTC144TK (Europe model only)
DTA114EK
DTA124EK
C
C
TOP
VIEW
C
R1
R2
E
R1
B
R2
R2
DTC114EK
10kohm
10kohm
DTC124TK
22kohm
E
DTC143EK
4.7kohm
R2
DTC143TK
4.7kohm
DTA114EK
10kohm
10kohm
DTC144EK
47kohm
DTA124EK
22kohm
22kohm
DTC144TK
47kohm
4.7kohm
47kohm
2SC1740S
2SD468
C
FRONT
VIEW
FRONT
VIEW
E
R1
R1
2SB1266
2SB1274
2SD1902
2SB1260
B
DTC114EK
DTC124TK
DTC143EK
DTC143TK
B
DTC144EK
DTC144TK
E C B
B C E
HAT2053M
IMD3A
4 5 6
1 25 6
DDD D
TOP VIEW
1
6
2
5
3
4
(4)
TOP
VIEW
3
G
10k
3 2 1
DTr1
DTr2
S
4
4
Source
3
Gate
1,2,5,6 Drain
10k
R2
(3)
(5)
(6)
10k
R1
R2
10k
R1
(2)
(1)
DIODES (Including LED)
1SS355
RB161L-40
TOP VIEW
UDZS12B
UDZS13B
1SR139-400
AG01ZT(V1)
AL01ZT(V1)
EM01AT(V1)
TOP VIEW
RJ43 LF015-305
RK39 LF-C4
SARS01T(V1)
RB411D
HZS4C-1
TOP VIEW
S4VB20
MA152A
(Europe model only)
TOP VIEW
SEL1210S (Red)
SELU1E10CXM-002 (Blue)
MA152WK
(Europe model only)
TOP VIEW
SEL2810A (Amber)
TOP VIEW
TOP VIEW
TOP VIEW
SIDE VIEW
TOP VIEW
TOP VIEW
51
DVD-3800
FL DISPLAY 17-ST-04GNK (FL101)
1
COLOR ILLUMINATION
66
Reddish Orange ----- Above pattern
Green ------------------ Other
part
PIN CONNECTION
11111111 11 22 22 22 2
1234 5678 901234567 89 01 23 45 6
PPPP PPPPPPPPP
CONNECTION F N N N P P P P P P P P P 1 1 1 1 1 1 1 1 1 1 2 2 2
- XPP1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2
PIN NO.
5555555556666666
1234567890123456
111
CONNECTION 2 1 0 9 8 7 6 5 4 3 2 1 N N N F
GGGG GGGG GG GG P P X +
PIN NO.
GRID ASSIGNMENT
14G
2223333333333 44 44 44 44 445
7890123456789 01 23 45 67 890
PPPPP PP PP PPPP
11 111
2 2 2 2 2 2 2 3 3 3 3 3 3 NNNNNN7 6 5 4 3
3 4 5 6 7 8 9 0 1 2 3 4 5 C C C C C C GG G G G
NOTE 1) F-,F+ ---------- Filament
2) NP ------------- No pin
3) NX ------------- No extend pin
4) DL ------------ Datum line
5) 1G~17G ----- Grid
6) Visual Field -- Upper 22.6° min.
7) NC ------------ No connection
(NC pin should be electorically open on the PC board)
15G
16G
13G 12G 11G 10G
9G
8G
[13G~1G]
7G
6G
1-1
2-1
3-1
4-1
5G
5-1
4G
1-2
2-2
3-2
4-2
5-2
1-3
2-3
3-3
4-3
5-3
1-4
2-4
3-4
4-4
5-4
1-5
2-5
3-5
4-5
5-5
1-6
2-6
3-6
4-6
5-6
1-7
2-7
3-7
4-7
5-7
3G
2G
1G
ANODE CONNECTION
17G
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18
16G
15G
14G
13G~1G
1-1
2-1
3-1
4-1
5-1
1-2
2-2
3-2
4-2
5-2
1-3
2-3
3-3
4-3
5-3
1-4
2-4
3-4
17G
P19
P20
P21
P22
P23
P24
P25
P26
P27
P28
P29
P30
P31
P32
P33
P34
P35
16G
15G
14G
13G~1G
4-4
5-4
1-5
2-5
3-5
4-5
5-5
1-6
2-6
3-6
4-6
5-6
1-7
2-7
3-7
4-7
5-7
52
DVD-3800
PRINTED WIRING BOARD
1
4
3
2
5
6
7
8
GU-3389A MAIN P.W.B. UNIT Ass'y
A
14
1
32
33
128
97
64
65
96
1
1
176
7
1
8
14
8
5
1
4
8
5
1
4
133
1
132
43
B
86
15
14
28
1
1
44
21
1
1
C
6
44
36
89
1
37
45
144
88
21
1
108
73
75
51
50
17
7
8
100
26
1
8
5
8
5
8
5
1
4
1
4
1
4
25
8
5
1
4
16
1
12
20
9
11
144
8 5
14
1 4
1
8
1
20
11
20
11
20
11
1
10
1
10
1
10
8
108
2
36
73
37
72
1
26
4
1
30
1
D
1
7
5
6
13
10
14
5
1
109
1
1
1
2
109
72
76
8
1
27
3
E
COMPONENT SIDE
53
DVD-3800
1
4
3
2
5
6
7
8
GU-3389A MAIN P.W.B. UNIT Ass'y
A
17
5
1
7
18
14
5
6
1
1
1
28
28
15
40
29
156
105
1
157
60
41 40
61
24
4
5
32
17
1
16
15
B
1
25
157
208
1
21
80
156
1
53
1
8
48
104
208
1
1
40
1
20
52
24
25
8
14
7
1
C
1
26
40
100
52
51
20
21
104
28
76
50
21
105
53
1
5
39
27
75
1
1
4
81
54
20
75
8
51
76
50
100
26
5
17
32
33
16
48
1
49
9
54
8
1
1
32
1
11
12
D
1
48
25
64
16
1
16
17
24
37
25
36
E
FOIL SIDE
54
DVD-3800
1
4
3
2
5
6
7
8
GU-3438 AUDIO/VIDEO P.W.B. UNIT Ass'y
3
1
2
8
14
1
7
14
7
5
8
1
1
9
7
8
A
4
1
5
8
15
1
4
1
5
8
8
8
1
7
7
4
1
5
8
14
8
5
1
4
1
1
4
1
1
30
4
44
34
1
33
11
23
12
8
14
14
9
1
1
28
14
15
5
8
5
8
4
1
4
1
5
8
5
8
5
29
1
28
1
14
4
8
22
3
1
28
1
4
14
15
1
4
1
5
8
5
8
4
1
4
1
5
8
5
8
4
1
5
8
8
5
1
4
B
4
1
5
8
GU-3438-1 AUDIO P.W.B.
C
10
1
16
6
26
1
1
13
12
2
2
8
16
1
1
27
9
1
64
17
32
4
1
5
8
49
48
4
1
5
8
D
4
1
5
8
4
1
5
8
4
1
5
8
E
3
33
1
4
1
5
8
5
8
1
4
GU-3438-2 VIDEO P.W.B.
COMPONENT SIDE
55
DVD-3800
1
2
3
4
5
6
7
8
GU-3438 AUDIO/VIDEO P.W.B. UNIT Ass'y
A
B
C
D
E
FOIL SIDE
56
DVD-3800
1
3
2
4
5
6
7
8
GU-3439 POWER/DISPLAY P.W.B. UNIT Ass'y
GU-3439-1 DIGI. POWER P.W.B.
4
A
1
1
2
GU-3439-6 I/F P.W.B.
1
21
20
1
2
2
1
20
3
21
14
2
1
2
1
B
1
C
GU-3439-3 LED P.W.B.
D
GU-3439-5 P.SW P.W.B.
E
GU-3439-2 DISPLAY P.W.B.
GU-3439-6 SW P.W.B.
COMPONENT SIDE
57
DVD-3800
1
4
3
2
5
6
7
8
GU-3439 POWER/DISPLAY P.W.B. UNIT Ass'y
A
B
8
5
1
4
10
1
11
20
C
D
41
40
60
21
61
20
80
1
E
FOIL SIDE
58
DVD-3800
1
4
3
2
5
6
7
8
GU-3442 SCART P.W.B. UNIT Ass'y (Europe model only)
1
A
8
5
1
4
10
B
1
8
16
16
9
1
8
1
16
8
9
9
C
8
5
1
4
1
16
1
16
1
16
8
9
8
9
8
9
COMPONENT SIDE
D
FOIL SIDE
E
59
DVD-3800
NOTE FOR PARTS LIST
l Part indicated with the mark "" are not always in stock and possibly to take a long period of time for supplying, or in
some case supplying of part may be refused.
l When ordering of part, clearly indicate "1" and "I" (i) to avoid mis-supplying.
l Ordering part without stating its part number can not be supplied.
l Part indicated with the mark " " is not illustrated in the exploded view.
l Not including Carbon Film ±5%, 1/4W Type in the P.W.Board parts list. (Refer to the Schematic Diagram for those parts.)
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacturer.
l Resistors
l Capacitors
Ex.:
Ex.:
RN 14K
2E
182
G
FR
Type Shape Power Resist- Allowable Others
and perance error
formance
t
t
RD : Carbon
RC : Composition
RS : Metal oxide film
RW : Winding
RN : Metal film
RK : Metal mixture
Resistance
1 8 2
⇒
s
s
2B
2E
2H
3A
3D
3F
3H
t
: 1/8W
: 1/4W
: 1/2W
: 1W
: 2W
: 3W
: 5W
F
G
J
K
M
: ±1%
: ±2%
: ±5%
: ±10%
: ±20%
CE
04W
1H
2R2
M
BP
Type Shape Dielectric Capacity Allowable Others
and per- strength
error
formance
1800 ohm = 1.8 kohm
Indicates number of zeros after effective number.
2-digit effective number.
t
t
t
P : Pulse-resistant type
NL : Low noise type
NB : Non-burning type
FR : Fuse-resistor
F : Lead wire forming
CE : Aluminum foil
electrolytic
CA : Aluminum solid
electrolytic
CS : Tantalum electrolytic
CQ : Film
CK : Ceramic
CC : Ceramic
CP : Oil
CM : Mica
CF : Metallized
CH : Metallized
• Units: ohm
1
s
R
2
s
• Units: ohm
⇒
1.2 ohm
1-digit effective number.
2-digit effective number, decimal point indicated by R.
t
t
0J : 6.3V
F : ±1%
HS : High stability type
1A : 10V
G : ±2%
BP : Non-polar type
1C : 16V
1E : 25V
1V : 35V
J : ±5%
K : ±10%
M : ±20%
1H
2A
2B
2C
2D
2E
2H
2J
Z : +80%
–20%
P : +100%
–0%
C : ±0.25pF
D : ±0.5pF
= : Others
HR : Ripple-resistant type
DL : For change and discharge
HF : For assuring high
requency
U : UL part
C : CSA part
W : UL-CSA type
F : Lead wire forming
: 50V
: 100V
: 125V
: 160V
: 200V
: 250V
: 500V
: 630V
Capacity (electrolyte only)
2 2 2
⇒
2200µF
s
s
Indicates number of zeros after effective number.
2-digit effective number.
• Units: µF.
2
R
2
s
s
⇒
2.2µF
1-digit effective number.
2-digit effective number, decimal point indicated by R.
• Units: µF.
Capacity (except electrolyte)
2 2 2
⇒
2200pF=0.0022µF
s
s
(More than 2) Indicates number of zeros after effective number.
2-digit effective number.
• Units: pF.
2
s
2
1
s
⇒
220pF
(0 or 1)
Indicates number of zeros after effective number.
2-digit effective number.
• Units: pF.
• When the dielectric strength is indicated in AC, "AC" is included after the dieelectric
strength value.
60
DVD-3800
PARTS LIST OF P.W.B. UNIT ASS'Y
GU-3389A MAIN P.W.B. UNIT
Ref. No.
Part No.
Part Name
Remarks
SEMICONDUCTORS GROUP
IC101
IC102
ROM sub Ass’y
Ref. No.
Part No.
Part Name
TR503-505 269 0091 906 Transistor DTC143TKT96
MX29LV160BTC-90
TR506
274 0154 007 Transistor 2SD1902(R,S)
IC103
262 3119 004 IC W986416DH-7
TR507
272 0110 003 Transistor 2SB1266(R,S)
IC104,105
262 2801 902 IC SN74AHCT273PW-EL2
TR509
269 0171 907 Transistor IMD3A-T108
IC106
262 3053 908 IC S-24C02BFJ-TB
IC107
262 2391 904 IC TC7W32F(TE12L)
TR707
271 0293 901 Transistor 2SA1022-B
IC108
262 1953 903 IC TC7WU04F
TR708,709 272 0125 904 Transistor 2SB709A
IC109
262 3052 909 IC SM8701BM
IC110
262 1953 903 IC TC7WU04F
IC111
262 2104 900 IC TC7W14F
IC112
262 3046 902 IC TC7WH157FU
IC113
262 3129 900 IC TC74VHC157AF-EL
IC114
262 2801 902 IC SN74AHCT273PW-EL2
IC115,116
262 2104 900 IC TC7W14F
IC201
262 3054 004 IC MN102H460B
IC202
GEN 6093
ROM sub Ass’y
IC203
262 1647 905 IC MN1382-S(TX)
IC206
262 2376 903 IC TC74HCT7007AF(TP1)
IC207
262 3121 005 IC ADSPMEL322
IC208
262 2515 900 IC SN74LV04APW-EL2
IC209
262 2376 903 IC TC74HCT7007AF(TP1)
IC210
GEN 6074
Bass M.ROM sub Ass’y
IC301
263 1110 901 IC PQ070XZ01ZP
IC302
263 1079 903 IC BA033FP
IC303,304
263 1110 901 IC PQ070XZ01ZP
IC501
262 2802 008 IC TA1293F
IC502
263 0425 901 IC NJM4558M (TAPE)
IC503
263 1109 909 IC AN8471SA
IC504
263 1080 905 IC BA5952AFP
IC505
262 2803 007 IC TC9453F
IC506
262 2892 908 IC 74VHC4066MTC
IC507
262 2877 907 IC 4M DRAM(SOJ)-35
IC508
262 2798 002 IC TC9469BF
IC509
262 2877 907 IC 4M DRAM(SOJ)-35
IC510
263 0615 902 IC BA15218F-DXE2
IC511
GEN 6100
DRV ROM sub Ass’y
IC512
263 1079 903 IC BA033FP
IC701
262 3058 000 IC SII504CM208
IC702
262 2916 004 IC 64M SDRAM(TSOP)
IC703
262 3059 902 IC PIC18LC242-I/SO TAPE
IC706
262 3050 008 IC ADV7300
IC708
262 1348 903 IC TC74HC123AF(TP1)
IC709
263 1110 901 IC PQ070XZ01ZP
IC710
262 2977 904 IC BA18BC0FP-E2
IC711
262 3126 000 IC XC2S30-5VQ100C
IC712
262 3127 009 IC XC17S30AV08C(SQZ)
Remarks
TR501,502 272 0156 902 Transistor 2SB1260-Q
262 3051 007 IC ES6038
GEN 6094
Note : The symbols in the column “Remarks” indicate the following destinations.
E3 : U.S.A. & Canada model
E2 : Europe model
E1 : Asia model
AT49LV1025-70JC
AT49LV002-70TC
TMP95FY64F
D201
276 0717 903 Diode 1SS355 TE-17
D301-303
276 0717 903 Diode 1SS355 TE-17
D501,502
276 0717 903 Diode 1SS355 TE-17
D701
276 0717 903 Diode 1SS355 TE-17
RESISTORS GROUP
R101
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R102-105
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R106
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R107,108
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R109
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R111
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R113
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R116-118
247 2009 941 Carbon chip 6.8 kohm 1/16W RM73B--682JT
R119
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R120-125
247 2009 941 Carbon chip 6.8 kohm 1/16W RM73B--682JT
R126
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R127-130
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R131
247 2014 965 Carbon chip 1 Mohm 1/16W
RM73B--105JT
R132
247 2006 944 Carbon chip 390 ohm 1/16W RM73B--391JT
R133
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R135-137
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R143
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R144
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R145,146
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R147,148
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R150,151
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R152-155
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R157
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R158
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R159
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R160
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R163
247 2014 965 Carbon chip 1 Mohm 1/16W
R164
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
RM73B--105JT
R166,167
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R169-174
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R177-179
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R180-185
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R186,187
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R189-191
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
61
DVD-3800
Ref. No.
Part No.
Part Name
Remarks
Ref. No.
Part No.
Part Name
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R535
R202
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R536
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R203
247 2008 984 Carbon chip 3.9 kohm 1/16W RM73B--392JT
R537-540
247 2018 916 Carbon chip 1 ohm 1/16W
R205
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
R541,542
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R207
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R543-545
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R209
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R546
247 2014 965 Carbon chip 1 Mohm 1/16W
RM73B--105JT
R211
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R547
247 2006 902 Carbon chip 330 ohm 1/16W RM73B--331JT (1608)
R231
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R548
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R233,234
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R549
247 2013 982 Carbon chip 470 kohm 1/16W RM73B--474JT
R235
247 2018 903 Carbon chip 0 ohm 1/16W
R550
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R236
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R551,552
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R237
247 2014 965 Carbon chip 1 Mohm 1/16W
R553-557
247 2018 903 Carbon chip 0 ohm 1/16W
R238-242
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R558
247 2012 996 Carbon chip 200 kohm 1/16W RM73B--204JT
R243
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R559
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
R244,245
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R560
247 2009 941 Carbon chip 6.8 kohm 1/16W RM73B--682JT
R247,248
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R561,562
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
R250,251
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R563
247 2010 985 Carbon chip 27 kohm 1/16W RM73B--273JT
R253
247 2018 903 Carbon chip 0 ohm 1/16W
R564
247 2011 968 Carbon chip 56 kohm 1/16W RM73B--563JT
R254-264
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R565,566
247 2007 943 Carbon chip 1 kohm 1/16W
R266
247 2007 969 Carbon chip 1.2 kohm 1/16W RM73B--122JT
R568
247 2013 924 Carbon chip 270 kohm 1/16W RM73B--274JT
R571
247 2012 970 Carbon chip 160 kohm 1/16W RM73B--164JT
R301
247 2007 972 Carbon chip 1.3 kohm 1/16W RM73B--132JT
R573
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R302
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R574
247 2018 903 Carbon chip 0 ohm 1/16W
R303
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R575
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R304
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R576
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R305-307
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R577
247 2010 998 Carbon chip 30 kohm 1/16W RM73B--303JT
R308
247 2010 927 Carbon chip 15 kohm 1/16W RM73B--153JT
R578
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R309-313
247 2018 903 Carbon chip 0 ohm 1/16W
R579-585
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R586
247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT
R501
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R587
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R502
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R589-594
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R503
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R596
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R504
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--0R0KT
RM73B--105JT
RM73B--0R0KT
RM73B--0R0KT
247 2018 916 Carbon chip 1 ohm 1/16W
Remarks
R201
RM73B--010KT
RM73B--010KT
RM73B--0R0KT
RM73B--102JT
RM73B--0R0KT
RM73B--102JT
R505,506
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R604
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R507
247 2012 925 Carbon chip 100 kohm 1/16W RM73B--104JT
R613-617
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R508
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R618
247 2007 943 Carbon chip 1 kohm 1/16W
R510
247 2012 925 Carbon chip 100 kohm 1/16W RM73B--104JT
R619,620
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R511,512
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R625,626
247 2012 941 Carbon chip 120 kohm 1/16W RM73B--124JT
R513,514
247 2005 958 Carbon chip 160 ohm 1/16W RM73B--161JT
R627
247 2009 954 Carbon chip 7.5 kohm 1/16W RM73B--752JT
R515,516
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
R628
247 2010 927 Carbon chip 15 kohm 1/16W RM73B--153JT
R517
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R629
247 2011 997 Carbon chip 75 kohm 1/16W RM73B--753JT
R518,519
247 2005 958 Carbon chip 160 ohm 1/16W RM73B--161JT
R630
247 2010 914 Carbon chip 13 kohm 1/16W RM73B--133JT
R520,521
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
R631
244 2050 904 Metal oxide 22 ohm 1W(NB)
R522
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R632
244 2052 960 Metal oxide 220 ohm 1W(NB) RS14B3A221JNBST(S)
R523
247 2004 988 Carbon chip 82 ohm 1/16W
RM73B--820JT
R633
244 2051 945 Metal oxide 1 ohm 1W(NB)
R524
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R634
244 2052 960 Metal oxide 220 ohm 1W(NB) RS14B3A221JNBST(S)
R525
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R637
247 2007 943 Carbon chip 1 kohm 1/16W
R526,527
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R638
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R528-530
247 2018 916 Carbon chip 1 ohm 1/16W
RM73B--010KT
R640
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R531
247 2010 972 Carbon chip 24 kohm 1/16W RM73B--243JT
R648
247 2011 900 Carbon chip 33 kohm 1/16W RM73B--333JT
R532,533
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R649
247 2005 961 Carbon chip 180 ohm 1/16W RM73B--181JT
R534
247 2018 903 Carbon chip 0 ohm 1/16W
R650
247 2010 969 Carbon chip 22 kohm 1/16W RM73B--223JT
RM73B--0R0KT
RM73B--102JT
RS14B3A220JNBST(S)
RS14B3A010JNBST(S)
RM73B--102JT
62
DVD-3800
Ref. No.
Part No.
Part Name
Remarks
Ref. No.
Part No.
Part Name
Remarks
R651-653
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R796
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R656-664
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R798
247 2018 903 Carbon chip 0 ohm 1/16W
R668
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R799
247 2007 985 Carbon chip 1.5 kohm 1/16W RM73B--152JT
R671-674
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R675
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R800-802
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
R679
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R815,816
247 2003 989 Carbon chip 33 ohm 1/16W
R680
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R821,822
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R681-685
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R823
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R686
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R827
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R828
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
RM73B--330JT
R702-704
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R832-834
RM73B--0R0KT
R705
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R838
247 2007 985 Carbon chip 1.5 kohm 1/16W RM73B--152JT
R709
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R839-841
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
R710
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R844
247 2007 943 Carbon chip 1 kohm 1/16W
R712
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R845
247 2007 901 Carbon chip 680 ohm 1/16W RM73B--681JT
R713
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R846
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R714,715
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R847-850
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
RM73B--102JT
R716
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R851
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R722-724
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R860-862
247 2018 903 Carbon chip 0 ohm 1/16W
R733
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R863
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R734
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R880,881
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R735
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R736,737
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
RA101-103 247 9002 909 Chip network 33 ohm 1/16W
R738-741
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
RA104
R743,744
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
RA105,106 247 9002 909 Chip network 33 ohm 1/16W
R745
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R746,747
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R748
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R749
247 2003 989 Carbon chip 33 ohm 1/16W
R750
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R751,752
247 2018 903 Carbon chip 0 ohm 1/16W
R753
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R754,755
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
MNR14=330JE0AB
247 9002 912 Chip network 6.8 kohm 1/16W MNR14=682JEOAB
MNR14=330JE0AB
RA107-109 247 9002 912 Chip network 6.8 kohm 1/16W MNR14=682JEOAB
RA597-600 247 9002 909 Chip network 33 ohm 1/16W
MNR14=330JE0AB
RM73B--330JT
RA621-624 247 9002 912 Chip network 6.8 kohm 1/16W MNR14=682JEOAB
RM73B--0R0KT
RA642,643 247 9002 912 Chip network 6.8 kohm 1/16W MNR14=682JEOAB
RM73B--0R0KT
R757
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
RA701-704 247 9002 909 Chip network 33 ohm 1/16W
MNR14=330JE0AB
R759-762
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
RA710-715 247 9002 909 Chip network 33 ohm 1/16W
MNR14=330JE0AB
R766-768
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
VR708-710 211 6148 906 Semi fixed resistor 470 ohm
V03PB471MT(RH03ADCS)
R769
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R770
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R771
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R774
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R777,778
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R783
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
R784
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R785
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R786
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
R787
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R788
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R789
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
R790
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R791
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R794
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R795
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
CAPACITORS GROUP
C101
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C102
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C103
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C104
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C105,106
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C108-110
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C111
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C112-122
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C123
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C124
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C125
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C126-131
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C132
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
63
DVD-3800
Ref. No.
C133
Part No.
Part Name
254 4464 906 Electrolytic 100uF/6.3V
Remarks
Ref. No.
Part No.
Part Name
Remarks
CE67C0J101MT
C241,242
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
CE67C1C220MT
C134
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C243
254 4465 905 Electrolytic 22uF/16V
C135-141
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C244
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C142
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C245-253
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C143
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C254
254 4465 905 Electrolytic 22uF/16V
CE67C1C220MT
C144
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C255,256
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C145
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C257
257 0504 924 Ceramic chip 27pF/50V
CC73CH1H270JT
C146
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C258
257 0504 940 Ceramic chip 33pF/50V
CC73CH1H330JT
C147
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C259-261
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C148
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C149
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C301
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
CK73F1E104ZT
C150,151
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C302,303
257 0512 903 Ceramic chip 0.1uF/25V
C152
257 0502 997 Ceramic chip 7pF/50V
CC73CH1H7R0DT
C304
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C153
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C305,306
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C154
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C307
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C155
257 0502 997 Ceramic chip 7pF/50V
CC73CH1H7R0DT
C326-329
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C156
254 4465 918 Electrolytic 47uF/16V
CE67C1C470MT
C159
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C501
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C160,161
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C503
254 4465 905 Electrolytic 22uF/16V
CE67C1C220MT
C162
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C504-506
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C163
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C507,508
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C164
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C509
257 0503 925 Ceramic chip 10pF/50V
CC73CH1H100DT
C165
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C510
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C166,167
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C511
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C168
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C512
257 2010 937 Electrolytic 22uF/10V
CS77B1A220MT
C169
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C513,514
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C170
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C515-517
257 0507 976 Ceramic chip 330pF/50V
CC73CH1H331JT
C171
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C519
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C172
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C522
257 0503 925 Ceramic chip 10pF/50V
CC73CH1H100DT
C173
257 0503 967 Ceramic chip 15pF/50V
CC73CH1H150JT
C523
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C174
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C524
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C175
257 0503 941 Ceramic chip 12pF/50V
CC73CH1H120JT
C526
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C176
254 4465 918 Electrolytic 47uF/16V
CE67C1C470MT
C527
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C177
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C528,529
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C178,179
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C530,531
257 0510 934 Ceramic chip 4700pF/50V
CK73B1H472KT
C180
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C532
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C181
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C533
254 4465 905 Electrolytic 22uF/16V
CE67C1C220MT
C534
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
CE67C1C220MT
C201
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C535
254 4465 905 Electrolytic 22uF/16V
C202-207
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C536,537
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C208
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C538
254 4465 905 Electrolytic 22uF/16V
CE67C1C220MT
C209
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C539,540
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C210
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C544,545
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C211
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C546
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C212
257 0503 967 Ceramic chip 15pF/50V
CC73CH1H150JT
C547
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C213
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C548
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C214
257 0503 967 Ceramic chip 15pF/50V
CC73CH1H150JT
C549
257 4010 906 Electrolytic 100uF/16V
CE67C1C101MT
C215
254 4465 918 Electrolytic 47uF/16V
CE67C1C470MT
C550
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C216
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C552
257 0516 909 Ceramic chip 0.022uF/25V
CK73B1E223KT
C229,230
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C553
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C231-233
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C554
257 0506 977 Ceramic chip 120pF/50V
CC73CH1H121JT
C234,235
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C555,556
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
64
DVD-3800
Remarks
Ref. No.
C557
257 0506 977 Ceramic chip 120pF/50V
CC73CH1H121JT
C722-730
C560
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C731
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C562
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C732-735
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C563
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C736
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C564
257 0501 927 Ceramic chip 0.015uF/50V
CK73B1H153KT
C737,738
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C565-569
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C741,742
257 0502 942 Ceramic chip 2pF/50V
CC73CH1H2R0CT
C570
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C743
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C571-573
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C744
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C574
254 4465 905 Electrolytic 22uF/16V
CE67C1C220MT
C745-748
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C575-577
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C750
254 4465 905 Electrolytic 22uF/16V
CE67C1C220MT
C578
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C751,752
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C579
257 0510 918 Ceramic chip 3300pF/50V
CK73B1H332KT
C756-758
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C580
257 0501 927 Ceramic chip 0.015uF/50V
CK73B1H153KT
C759
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C582-589
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C760
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
Ref. No.
Part No.
Part Name
Part No.
Part Name
257 0512 903 Ceramic chip 0.1uF/25V
Remarks
CK73F1E104ZT
C590,591
257 0507 976 Ceramic chip 330pF/50V
CC73CH1H331JT
C761
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C592
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C762,763
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C593
257 0510 950 Ceramic chip 6800pF/50V
CK73B1H682KT
C766,767
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C594
257 0509 945 Ceramic chip 1200pF/50V
CK73B1H122KT
C768-770
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
CC73CH1H221JT
C595
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C772
257 0507 934 Ceramic chip 220pF/50V
C596
257 0506 951 Ceramic chip 100pF/50V
CC73CH1H101JT
C773
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C597
257 0509 990 Ceramic chip 2200pF/50V
CK73B1H222KT
C774,775
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
CK73B1H392KT
C598
257 0509 945 Ceramic chip 1200pF/50V
CK73B1H122KT
C776
257 0510 921 Ceramic chip 3900pF/50V
C599-601
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C777
257 0509 903 Ceramic chip 820pF/50V
CK73B1H821KT
C778
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
CE67C0J101MT
C602
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C779
254 4464 906 Electrolytic 100uF/6.3V
C603-606
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C782
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C609-618
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C783,784
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C619
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C785
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C620-623
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C786
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C626-628
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C797
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C629
254 4465 905 Electrolytic 22uF/16V
CE67C1C220MT
C630-633
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C634
257 4010 906 Electrolytic 100uF/16V
CE67C1C101MT
C635,636
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C637
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C639
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C640
257 2010 937 Electrolytic 22uF/10V
CS77B1A220MT
C641
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C650
257 0506 951 Ceramic chip 100pF/50V
CC73CH1H101JT
C660-662
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C664
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C701
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C702
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C703
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C704-710
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C711
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
C712,713
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C714
254 4533 921 Electrolytic 100uF/6.3V
CE04W0J101MT SMG/RE3
C715
254 4465 905 Electrolytic 22uF/16V
CE67C1C220MT
C716-720
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C721
254 4464 906 Electrolytic 100uF/6.3V
CE67C0J101MT
65
DVD-3800
GU-3438 AUDIO/VIDEO P.W.B. UNIT
Ref. No.
Part No.
Part Name
Remarks
Q'ty
OTHER PARTS GROUP
Ref. No.
Part No.
Part Name
CX031
205 0863 936 3P PH connector base (L)
1
IC201
262 2978 000 IC DXP7001AF
CX051
205 0863 952 5P PH connector base (L)
1
IC204
263 0809 006 IC NJM7805FA(S)
CX061
205 1072 946 6P PH connector base
1
IC205
263 1136 901 IC BA033LBSG-TR
CX131
205 1170 932 13P FFC base (FMNBMTT)
1
IC206
262 3072 905 IC PCM1738-1
CX141
205 1172 943 14P PH connector base (L)
1
IC207
263 0809 006 IC NJM7805FA(S)
CX151
205 1149 905 15P FFC base (52207)
1
IC208
263 1136 901 IC BA033LBSG-TR
CX171
205 1174 909 17P FFC base (FMNSMT)
1
IC209
262 3072 905 IC PCM1738-1
CX211,212 205 1174 938 21P FFC base (FMNSMT)
2
IC210
263 0809 006 IC NJM7805FA(S)
CX241
205 1152 905 24P FFC base (FLZ-SM1)
1
IC211
263 1136 901 IC BA033LBSG-TR
CX272
205 1170 929 27P FFC base (FMNBMTT)
1
IC212
262 3072 905 IC PCM1738-1
IC213
262 2515 900 IC SN74LV04APW-EL2
CY301
205 1174 941 30P FFC base (FMNSMT)
1
IC214
262 2669 908 IC SN74LV157APW
IC215
262 2518 907 IC SN74LV74APW-EL2
FB201-210 235 0130 903 Chip emifil (11A121)
10
IC216
262 1205 907 IC TC74HCU04AF(TP1)
FB211-216 247 2018 903 Carbon chip 0 ohm 1/16W
6
IC219
262 1421 901 IC TC74HCT04AF(TAPE1)
FB217-219 235 0130 903 Chip emifil (11A121)
3
FB225
235 0130 903 Chip emifil (11A121)
1
IC301-308
263 0896 909 IC NJM2068MD-T1
FB229
235 0130 903 Chip emifil (11A121)
1
FB233,234 235 0130 903 Chip emifil (11A121)
2
IC401-406
263 0896 909 IC NJM2068MD-T1
FB236-255 235 0130 903 Chip emifil (11A121)
20
IC407,408
263 0609 002 IC NJM2068DDC
IC506
262 1421 901 IC TC74HCT04AF(TAPE1)
FBMJ1608HS280NT
1
FB505,506 235 0138 905 Beads inductor
FBMH3216MH501NT
2
FB507-509 235 0136 907 Beads inductor
FBMJ1608HS280NT
FB501
235 0136 907 Beads inductor
FB502-504 235 0130 903 Chip emifil (11A121)
3
3
IC601
262 3093 007 IC ADV7190
FB703,704 247 2018 903 Carbon chip 0 ohm 1/16W
2
IC602
262 1348 903 IC TC74HC123AF(TP1)
FB705-708 235 0130 903 Chip emifil (11A121)
4
IC701-707
263 1082 903 IC TK15420MTL
FB716-720 235 0130 903 Chip emifil (11A121)
5
FB721
1
247 2018 903 Carbon chip 0 ohm 1/16W
Remarks
SEMICONDUCTORS GROUP
FB722,723 235 0130 903 Chip emifil (11A121)
2
IC801,802
262 0707 901 IC TC4053BF (TAPE)
for E2
FB724,725 247 2018 903 Carbon chip 0 ohm 1/16W
2
IC803,804
263 1082 903 IC TK15420MTL
for E2
FB726-733 235 0130 903 Chip emifil (11A121)
8
IC951
263 0809 006 IC NJM7805FA(S)
L302
235 0048 901 Chip emifil
1
IC952
263 0554 005 IC NJM7905FA
L704,705
235 0125 905 Inductor 22uH
2
IC953
263 0801 004 IC NJM7812FA(S)
L710,711
235 0125 905 Inductor 22uH
2
IC954
263 0641 002 IC NJM7912FA
W702
203 0515 039 1P SIN connector cord
1
TR217
273 0384 900 Transistor 2SC2412KT96(S)
TR218
269 0083 901 Transistor DTA114EKT96
X101
399 0619 906 Crystal 27 MHz
1
TR219
269 0119 901 Transistor DTA124EKT96(TAPE)
X103
399 0807 909 Crystal 33.333 MHz
1
TR220
269 0082 902 Transistor DTC114EKT96
X201
399 0698 901 Ceramic 25.00 MHz
1
TR226,227 269 0082 902 Transistor DTC114EKT96
X202
399 0806 900 Crystal 12.288 MHz
1
X501
399 0697 902 Ceramic 22.57 MHz
1
X502
399 0699 900 Ceramic 50.00 MHz
1
X503
399 0698 901 Ceramic 25.00 MHz
1
TR401-410 273 0460 905 Transistor KTC2875B-RTK
X701
399 0706 903 Ceramic 20.00 MHz
1
TR411
269 0119 901 Transistor DTA124EKT96(TAPE)
TR412
269 0082 902 Transistor DTC114EKT96
TR305-308 273 0460 905 Transistor KTC2875B-RTK
001 0130 041 1P wire
3
TR413-420 273 0460 905 Transistor KTC2875B-RTK
461 0415 007 Rubber sheet
3
TR421-424 273 0460 905 Transistor KTC2875B-RTK
TR425
269 0119 901 Transistor DTA124EKT96(TAPE)
TR426
269 0082 902 Transistor DTC114EKT96
for E2
66
DVD-3800
Ref. No.
Part No.
Part Name
Remarks
Ref. No.
Part No.
Part Name
Remarks
TR601
274 0163 904 Transistor 2SD601A
R254
TR602
272 0125 904 Transistor 2SB709A
R255
247 2010 930 Carbon chip 16 kohm 1/16W RM73B--163JT
TR603
274 0163 904 Transistor 2SD601A
R261
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
TR604
272 0125 904 Transistor 2SB709A
R263
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
TR605
271 0293 901 Transistor 2SA1022-B
R264
247 2010 930 Carbon chip 16 kohm 1/16W RM73B--163JT
TR606
272 0125 904 Transistor 2SB709A
R270
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
TR607
271 0293 901 Transistor 2SA1022-B
R272
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
TR608,609 272 0125 904 Transistor 2SB709A
R273
247 2010 930 Carbon chip 16 kohm 1/16W RM73B--163JT
TR633
R276
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R278
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
TR701-705 272 0125 904 Transistor 2SB709A
R279
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
TR706
273 0460 905 Transistor KTC2875B-RTK
271 0293 901 Transistor 2SA1022-B
R281
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
TR707,708 272 0125 904 Transistor 2SB709A
R285-287
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
TR709,710 274 0163 904 Transistor 2SD601A
R288,289
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
TR715-717 274 0163 904 Transistor 2SD601A
R290
244 2051 974 Metal oxide 1 kohm 1W(NB)
R292
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
TR801,802 269 0048 904 Transistor DTC143EK-T96
TR807,808 274 0163 904 Transistor 2SD601A
D202,203
276 0717 903 Diode 1SS355 TE-17
D206,207
276 0717 903 Diode 1SS355 TE-17
D601-604
276 0717 903 Diode 1SS355 TE-17
for E2
RS14B3A102JNBST(S)
R293,294
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R295
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R297
247 2004 991 Carbon chip 91 ohm 1/16W
RM73B--910JT
R298-300
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R301
247 2007 930 Carbon chip 910 ohm 1/16W RM73B--911JT
R302
247 2006 999 Carbon chip 620 ohm 1/16W RM73B--621JT
R303
247 2007 930 Carbon chip 910 ohm 1/16W RM73B--911JT
R304-316
247 2006 999 Carbon chip 620 ohm 1/16W RM73B--621JT
D801,802
276 0717 903 Diode 1SS355 TE-17
R317-320
247 2008 913 Carbon chip 2 kohm 1/16W
D952
276 0305 001 Diode S4VB20
R321-336
247 2006 999 Carbon chip 620 ohm 1/16W RM73B--621JT
D953-956
276 0765 900 Diode 1SR139-400
R337,338
247 2008 913 Carbon chip 2 kohm 1/16W
RM73B--202JT
R342
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R345,346
247 2008 913 Carbon chip 2 kohm 1/16W
RM73B--202JT
R349-352
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R439,440
241 2420 946 Carbon film 150 ohm 1/4W
R441,442
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT
R443,444
241 2420 946 Carbon film 150 ohm 1/4W
R445,446
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT
R453,454
241 2420 946 Carbon film 150 ohm 1/4W
R455,456
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT
R457,458
241 2420 946 Carbon film 150 ohm 1/4W
R459,460
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT
R461
244 2051 932 Metal oxide 3.3 kohm 1W(NB) RS14B3A332JNBST(S)
R462
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R465,466
247 2010 998 Carbon chip 30 kohm 1/16W RM73B--303JT
RESISTORS GROUP
R202
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R203-207
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R208-211
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R215
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R219
247 2013 940 Carbon chip 330 kohm 1/16W RM73B--334JT
R221
247 2004 933 Carbon chip 51 ohm 1/16W
RM73B--510JT
R222
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R223
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R224
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R226
247 2006 902 Carbon chip 330 ohm 1/16W RM73B--331JT (1608)
R227,228
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R230-234
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R235
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R238
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R239,240
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R241
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R242
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R243
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R244
247 2004 920 Carbon chip 47 ohm 1/16W
RM73B--470JT
R245,246
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R248
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R252
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
RM73B--202JT
RD14B2E151JT(PSNB)
RD14B2E151JT(PSNB)
RD14B2E151JT(PSNB)
RD14B2E151JT(PSNB)
R467,468
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
R469,470
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT
R471,472
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
R473,474
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT
R475,476
247 2010 998 Carbon chip 30 kohm 1/16W RM73B--303JT
R477,478
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
R479,480
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT
R481,482
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
R483,484
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT
67
DVD-3800
Ref. No.
R487,488
Part No.
Part Name
Remarks
Ref. No.
Part No.
Part Name
Remarks
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT, for E2
R713
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R491,492
247 2008 942 Carbon chip 2.7 kohm 1/16W RM73B--272JT, for E2
R716,717
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R493
244 2051 932 Metal oxide 3.3 kohm 1W(NB) RS14B3A332JNBST(S)
R718,719
247 2007 927 Carbon chip 820 ohm 1/16W RM73B--821JT
R494
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R720
247 2005 974 Carbon chip 200 ohm 1/16W RM73B--201JT
R495-500
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R723
247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT
R517
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT
R724
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R518
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R725
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R519
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R726
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R520
247 2004 975 Carbon chip 75 ohm 1/16W
RM73B--750JT
R727
247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT
R522
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R728
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R729
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R601,602
247 2018 903 Carbon chip 0 ohm 1/16W
R730,731
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R603,604
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R732
247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT
R606,607
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R733
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R608,609
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--330JT
R734
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT
RM73B--0R0KT
R610,611
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R735
R612-615
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R736
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R621
247 2007 969 Carbon chip 1.2 kohm 1/16W RM73B--122JT
R737
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R623
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
R738
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R624
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R739
247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT
R627,628
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R740
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R630
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R741
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R632
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R742
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R633,634
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R743
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R635-637
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R746
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R638,639
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R747,748
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R640-642
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R749
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
R643
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R750
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R644
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R751,752
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R645
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R753
247 2005 974 Carbon chip 200 ohm 1/16W RM73B--201JT
R646
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R755
247 2014 965 Carbon chip 1 Mohm 1/16W
R647
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R756
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R648
247 2008 913 Carbon chip 2 kohm 1/16W
RM73B--202JT
R757,758
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R649
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R760
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R650
247 2005 987 Carbon chip 220 ohm 1/16W RM73B--221JT
R761
247 2014 965 Carbon chip 1 Mohm 1/16W
R651-655
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R762,763
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R659,660
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R764
247 2004 962 Carbon chip 68 ohm 1/16W
R661-665
247 2003 989 Carbon chip 33 ohm 1/16W
RM73B--103JT
R765,766
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R666-670
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R782
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R785,786
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
RM73B--105JT
RM73B--105JT
RM73B--105JT
RM73B--680JT
R701
247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT
R787,788
247 2014 965 Carbon chip 1 Mohm 1/16W
R702
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R789
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R703
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R790
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R704
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R791-793
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R705
247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT
R794,795
247 2014 965 Carbon chip 1 Mohm 1/16W
RM73B--105JT
R706
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R796
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R707
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R797
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
R708
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R798,799
247 2018 903 Carbon chip 0 ohm 1/16W
R709
247 2006 986 Carbon chip 560 ohm 1/16W RM73B--561JT
RM73B--0R0KT
R710
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
R803,804
247 2014 965 Carbon chip 1 Mohm 1/16W
RM73B--105JT, for E2
R711
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
R806
247 2014 965 Carbon chip 1 Mohm 1/16W
RM73B--105JT, for E2
R712
247 2008 926 Carbon chip 2.2 kohm 1/16W RM73B--222JT
R808
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT, for E2
68
DVD-3800
Ref. No.
R811,812
Part No.
Part Name
Remarks
Ref. No.
Part No.
Part Name
Remarks
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
C248,249
254 4313 921 Electrolytic 22uF/50V
CE04W1H220MT(ASF)
R813,814
247 2014 965 Carbon chip 1 Mohm 1/16W
RM73B--105JT
C250
257 3006 924 Metalized chip 0.01uF/16V
CF73=1C103JT(ECHUB5)
R815
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
C251
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
R816-819
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
C253,254
254 4313 798 Electrolytic 220uF/50V
CE04W1H221MC(ASF)
R820-825
247 2004 975 Carbon chip 75 ohm 1/16W
RM73B--750JT
C256
254 4313 934 Electrolytic 47uF/50V
CE04W1H470MT(ASF)
R826-839
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
C257
254 4313 921 Electrolytic 22uF/50V
CE04W1H220MT(ASF)
R840-842
247 2004 975 Carbon chip 75 ohm 1/16W
RM73B--750JT
C258
257 3012 921 Metalized chip 0.01uF/50V
CF73=1H103JT(ECHUB5)
R843-849
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
C259,260
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
R867
247 2014 965 Carbon chip 1 Mohm 1/16W
RM73B--105JT, for E2
C261,262
254 4313 921 Electrolytic 22uF/50V
CE04W1H220MT(ASF)
R868,869
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT, for E2
C263
257 3006 924 Metalized chip 0.01uF/16V
CF73=1C103JT(ECHUB5)
R870
247 2018 903 Carbon chip 0 ohm 1/16W
C264
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
R871-874
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT, for E2
C266,267
254 4313 798 Electrolytic 220uF/50V
CE04W1H221MC(ASF)
R876,877
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT, for E2
C269
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
R878,879
247 2007 969 Carbon chip 1.2 kohm 1/16W RM73B--122JT
C270
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
R881,882
247 2005 974 Carbon chip 200 ohm 1/16W RM73B--201JT, for E2
C271
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C272
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
R951
244 2051 974 Metal oxide 1 kohm 1W(NB)
RS14B3A102JNBST(S)
C273
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
R952
244 2043 940 Metal oxide 2.2 kohm 1W(NB) RS14B3A222JNBST(S)
C274
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C275
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C276
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C277,278
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
V03PB102MT(RH03ADC)
C279,280
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
V03PB471MT(RH03ADCS)
C281
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C282
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C283
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C293
254 4319 750 Electrolytic 470uF/25V
CE04W1E471MC(ASF)
C301
255 4232 940 Mylar film 1800pF/100V
CQ93P2A182JT(NH)
C302
255 4237 903 Mylar film 2700pF/100V
CQ93P2A272JT(NH)
C303
255 4232 940 Mylar film 1800pF/100V
CQ93P2A182JT(NH)
C304
255 4237 903 Mylar film 2700pF/100V
CQ93P2A272JT(NH)
C305,306
255 4232 953 Mylar film 4700pF/100V
CQ93P2A472JT(NH)
RA601-604 247 9002 909 Chip network 33 ohm 1/16W
VR601
211 6138 903 Semi fixed resistor 1 kohm
VR602-604 211 6148 906 Semi fixed resistor 470 ohm
RM73B--0R0KT, for E2
MNR14=330JE0AB
CAPACITORS GROUP
C200
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C201,202
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C203
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C204
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C205
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C206,207
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C208
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C209
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C210
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C211
253 4536 925 Ceramic 12pF/50V
CC45SL1H120JT(DD-3)
C212-214
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C215
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C216-218
254 4313 950 Electrolytic 100uF/50V
CE04W1H101MT(ASF)
C219,220
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C221,222
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C230
254 4313 934 Electrolytic 47uF/50V
CE04W1H470MT(ASF)
C231
254 4313 921 Electrolytic 22uF/50V
CE04W1H220MT(ASF)
C232
257 3012 921 Metalized chip 0.01uF/50V
CF73=1H103JT(ECHUB5)
C233,234
255 4235 934 Mylar film 0.01uF/100V
CQ93P2A103JT(NH)
C235,236
254 4313 921 Electrolytic 22uF/50V
CE04W1H220MT(ASF)
C237
255 4235 934 Mylar film 0.01uF/100V
CQ93P2A103JT(NH)
C238
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C240,241
254 4313 798 Electrolytic 220uF/50V
CE04W1H221MC(ASF)
C243
254 4313 934 Electrolytic 47uF/50V
CE04W1H470MT(ASF)
C244
254 4313 921 Electrolytic 22uF/50V
CE04W1H220MT(ASF)
C245
257 3012 921 Metalized chip 0.01uF/50V
CF73=1H103JT(ECHUB5)
C246,247
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C307-310
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C311-314
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C315-318
254 4313 950 Electrolytic 100uF/50V
CE04W1H101MT(ASF)
C319-322
255 4237 903 Mylar film 2700pF/100V
CQ93P2A272JT(NH)
C323,324
255 4232 953 Mylar film 4700pF/100V
CQ93P2A472JT(NH)
C325-328
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C329-332
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C333-336
254 4313 950 Electrolytic 100uF/50V
CE04W1H101MT(ASF)
C341-344
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C349-352
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C353-356
254 4598 908 Electrolytic 22uF/50V
CE04W1H220MTBP(ASF)
C357-360
257 0503 925 Ceramic chip 10pF/50V
CC73CH1H100DT
C407-410
255 4232 940 Mylar film 1800pF/100V
CQ93P2A182JT(NH)
C411-414
255 4235 918 Mylar film 100pF/100V
CQ93P2A101JT(NH)
C415-418
257 3011 948 Metalized chip 2200pF/50V
CF73=1H222JT(ECHUB5)
C419,420
255 4237 945 Mylar film 1200pF/100V
CQ93P2A122JT(NH)
C421,422
254 4598 908 Electrolytic 22uF/50V
CE04W1H220MTBP(ASF)
C423,424
257 0503 925 Ceramic chip 10pF/50V
CC73CH1H100DT
C425,426
254 4347 751 Electrolytic 2.2uF/50V
CE04W1H2R2MC(ARSA)
69
DVD-3800
Ref. No.
C427,428
Part No.
Part Name
254 4356 713 Electrolytic 100uF/50V
Remarks
Ref. No.
CE04W1H101MC(ARS)
C711
Part No.
Part Name
257 0512 903 Ceramic chip 0.1uF/25V
Remarks
CK73F1E104ZT
C431,432
255 4235 934 Mylar film 0.01uF/100V
CQ93P2A103JT(NH)
C714
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C433,434
254 4347 751 Electrolytic 2.2uF/50V
CE04W1H2R2MC(ARSA)
C715
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
C435,436
254 4356 713 Electrolytic 100uF/50V
CE04W1H101MC(ARS)
C717
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C437,438
255 4235 989 Mylar film 470pF/100V
CQ93P2A471JT(NH)
C720
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C439,440
254 4347 751 Electrolytic 2.2uF/50V
CE04W1H2R2MC(ARSA)
C723
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C441,442
254 4356 713 Electrolytic 100uF/50V
CE04W1H101MC(ARS)
C724
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
CK73F1E104ZT
C445,446
255 4235 934 Mylar film 0.01uF/100V
CQ93P2A103JT(NH)
C727
257 0512 903 Ceramic chip 0.1uF/25V
C447,448
254 4347 751 Electrolytic 2.2uF/50V
CE04W1H2R2MC(ARSA)
C730
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C449,450
254 4356 713 Electrolytic 100uF/50V
CE04W1H101MC(ARS)
C731
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
C451,452
255 4235 989 Mylar film 470pF/100V
CQ93P2A471JT(NH)
C732
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C467-470
254 4313 950 Electrolytic 100uF/50V
CE04W1H101MT(ASF)
C735
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C473,474
254 4313 950 Electrolytic 100uF/50V
CE04W1H101MT(ASF)
C738
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C475,476
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C739
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
C477,478
254 4313 950 Electrolytic 100uF/50V
CE04W1H101MT(ASF)
C741
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C479-481
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C742
254 4538 939 Electrolytic 47uF/16V
CE04W1C470MT SMG/RE3
C482
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C743
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C483,484
257 0508 933 Ceramic chip 560pF/50V
CC73CH1H561JT, for E2
C744
254 4538 939 Electrolytic 47uF/16V
CE04W1C470MT SMG/RE3
C485,486
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C745
254 4533 921 Electrolytic 100uF/6.3V
CE04W0J101MT SMG/RE3
C747
257 0504 940 Ceramic chip 33pF/50V
CC73CH1H330JT
C524
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C748
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C525
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C749
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C526
254 4525 900 Electrolytic 33uF/50V
CE04W1H330MT SMG/RE3
C750
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C527
254 4524 985 Electrolytic 10uF/50V
CE04W1H100MT SMG/RE3
C751
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C528
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C752
254 4533 921 Electrolytic 100uF/6.3V
CE04W0J101MT SMG/RE3
C533
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C753
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C534
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C754
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C535
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C755
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C536
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C756
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C537
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C757
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C538
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C758
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C759
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C601
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
C760
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
CK73B1H103KT (1608)
C602
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C761,762
257 0501 901 Ceramic chip 0.01uF/50V
C605-608
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C764
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C609
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
C765
254 4538 939 Electrolytic 47uF/16V
CE04W1C470MT SMG/RE3
C610-614
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C766
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C615
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C767
254 4538 939 Electrolytic 47uF/16V
CE04W1C470MT SMG/RE3
C616-618
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C768
254 4533 921 Electrolytic 100uF/6.3V
CE04W0J101MT SMG/RE3
C619-622
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C769
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C623,624
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C770
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C625-629
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C771,772
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C630
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
C773
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C631
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C774
254 4538 900 Electrolytic 10uF/16V
CE04W1C100MT SMG/RE3
C632
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C775
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C776
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
CK73F1E104ZT
C777
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
C701
257 0512 903 Ceramic chip 0.1uF/25V
C704
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C778
254 4538 900 Electrolytic 10uF/16V
CE04W1C100MT SMG/RE3
C705
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
C781-786
257 0504 982 Ceramic chip 47pF/50V
CC73CH1H470JT
C706
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C791-793
257 0504 982 Ceramic chip 47pF/50V
CC73CH1H470JT
C709
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C710
254 4533 934 Electrolytic 220uF/6.3V
CE04W0J221MT SMG/RE3
C802-805
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT, for E2
70
DVD-3800
Ref. No.
Part No.
Part Name
Remarks
Ref. No.
Part No.
Part Name
Remarks
Q'ty
C807,808
254 4538 900 Electrolytic 10uF/16V
CE04W1C100MT SMG/RE3
OTHER PARTS GROUP
C809
254 4538 939 Electrolytic 47uF/16V
for E2
AS909,910 417 0476 010 Radiator
2
C810
257 0512 903 Ceramic chip 0.1uF/25V
for E2
CX032
205 0653 036 3P VH connector base
1
CK73F1E104ZT, for E2
CX036
205 0343 032 3P connector base (KR-PH)
C811
254 4538 913 Electrolytic 22uF/16V
1
CE04W1C220MT SMG/RE3
CX062
205 0653 065 6P VH connector base
1
C812,813
257 0512 903 Ceramic chip 0.1uF/25V
for E2
CX102
205 0375 000 10P connector base (KR-PH) for E2
1
CK73F1E104ZT, for E2
CX301
205 0892 075 30P FFC base (P=1)
C814
254 4538 939 Electrolytic 47uF/16V
CE04W1C470MT SMG/RE3
1
for E2
CY032
205 0653 036 3P VH connector base
C815
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT, for E2
CY052
205 0343 058 5P connector base (KR-PH)
C816
254 4538 913 Electrolytic 22uF/16V
CE04W1C220MT SMG/RE3
CY131
205 0892 088 13P FFC base
1
for E2
CY272
205 1100 083 27P FFC base (P=1)
1
235 0130 903 Chip emifil (11A121)
CE04W1C470MT SMG/RE3
1
for E2
1
C820
257 0503 925 Ceramic chip 10pF/50V
C823
257 0503 925 Ceramic chip 10pF/50V
CC73CH1H100DT
CC73CH1H100DT
FB201
C825
254 4533 950 Electrolytic 470uF/6.3V
CE04W0J471MT SMG/RE3
FB202-207 247 2018 903 Carbon chip 0 ohm 1/16W
6
for E2
FB208,209 235 0130 903 Chip emifil (11A121)
2
FB406,407 235 0130 903 Chip emifil (11A121)
2
FB511,512 235 0130 903 Chip emifil (11A121)
2
1
1
C956
255 4235 934 Mylar film 0.01uF/100V
CQ93P2A103JT(NH)
C957
254 4599 703 Electrolytic 2200uF/16V
CE04W1C222MC (KMF)
C960
254 4599 703 Electrolytic 2200uF/16V
CE04W1C222MC (KMF)
JK401
204 8632 014 8P pin jack (AU)
C961
255 4235 934 Mylar film 0.01uF/100V
CQ93P2A103JT(NH)
JK503
269 0187 001 Optical connector GP1FA551TZ
1
C963
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
JK505
204 8618 009 1P pin jack (AU)
1
C965
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
JK701
204 8631 002 2P pin jack (AU)
1
C966
254 4368 947 Electrolytic 220uF/25V
CE04W1E221MT(ASF)
JK702
204 8620 000 3P pin jack (AU)
1
C968
254 4368 947 Electrolytic 220uF/25V
CE04W1E221MT(ASF)
JK704
204 8633 000 2P S-terminal (AU)
1
C969,970
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C972,973
254 4543 704 Electrolytic 3300uF/50V
CE04W1H332MC(ARS)
L601,602
235 0070 911 Inductor 22uH
2
C976,977
254 4356 742 Electrolytic 470uF/50V
CE04W1H471(ARS)
L603
235 0125 905 Inductor 22uH
1
C980
255 4235 934 Mylar film 0.01uF/100V
CQ93P2A103JT(NH)
L604
235 0070 911 Inductor 22uH
1
C983
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
L701-706
235 0070 911 Inductor 22uH
6
C984
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
L707
235 0060 934 Inductor 47uH
1
C985
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C986
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
LF701-703 261 0159 909 Filter ELB4B584
3
C987
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
LF705
261 0159 909 Filter ELB4B584
1
C989,990
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
LF706
261 0160 901 Filter ELB4C572
1
C991
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
LF804
261 0160 901 Filter ELB4C572
1
C992
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C993
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C994
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
RL701,702 214 0211 906 Relay (EB2-5NU-L1)
2
T501
1
231 8063 009 Pulse trans.
001 0112 043 Vinyl wire
001 0130 041 1P wire
1
for E2
1
412 2160 015 Common plate
2
461 0415 007 Rubber sheet
17
471 3303 016 Screw 3x6 CBS-Z
2
71
DVD-3800
GU-3439 POWER/DISPLAY P.W.B. UNIT
Ref. No.
Part No.
Part Name
Remarks
Ref. No.
Part No.
Part Name
Remarks
SEMICONDUCTORS GROUP
RESISTORS GROUP
IC101
262 3048 007 IC ML9207-01GP
R101
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
IC103
499 0303 004 Remote sensor GP1UM271XK
R102
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R103
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
IC510
262 2580 906 IC CXA1511M
R104
247 2005 961 Carbon chip 180 ohm 1/16W RM73B--181JT
IC511
262 2114 903 IC UPD4721GS-GJG
R105
247 2007 943 Carbon chip 1 kohm 1/16W
R106
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
IC901
265 0112 003 IC STR-F6674
R107
247 2005 961 Carbon chip 180 ohm 1/16W RM73B--181JT
IC902
262 3047 008 IC PC123 Y-22
R108
247 2006 915 Carbon chip 270 ohm 1/16W RM73B--271JT
IC903
263 1113 005 IC SE005N
R109
247 2007 943 Carbon chip 1 kohm 1/16W
IC904
263 1048 002 IC BA033T
R110
247 2009 967 Carbon chip 8.2 kohm 1/16W RM73B--822JT
IC905
263 1114 004 IC PQ1CG21H2FZ
R116
247 2007 943 Carbon chip 1 kohm 1/16W
R118
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
R120-122
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
R175
244 2051 929 Metal oxide 820 ohm 1W(NB) RM73B--102JT
TR101
269 0171 907 Transistor IMD3A-T108
TR102,103 269 0082 902 Transistor DTC114EKT96
RM73B--102JT
RM73B--102JT
RM73B--102JT
R176
244 2052 915 Metal oxide 1.8 kohm 1W(NB) RM73B--470JT
R177
244 2055 996 Metal oxide 1.2 kohm 1W(NB) RS14B3A122JNBST(S)
TR501
269 0171 907 Transistor IMD3A-T108
R178
247 2005 961 Carbon chip 180 ohm 1/16W RM73B--181JT
TR902
269 0082 902 Transistor DTC114EKT96
R179
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
TR903
272 0093 010 Transistor 2SB1274 (R/S)
R180
247 2007 943 Carbon chip 1 kohm 1/16W
TR904
273 0303 910 Transistor 2SC1740S(S)-T
R181
247 2008 984 Carbon chip 3.9 kohm 1/16W RM73B--392JT
RM73B--102JT
TR905
269 0083 901 Transistor DTA114EKT96
TR906
269 0082 902 Transistor DTC114EKT96
R529
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
TR907
275 0106 906 Transistor HAT2053M(TAPE)
R534
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
TR908,909 274 0036 905 Transistor 2SD468(C)TF
R542
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
TR910,911 269 0083 901 Transistor DTA114EKT96
R544
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
TR912
274 0036 905 Transistor 2SD468(C)TF
R545
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
D102-104
276 0717 903 Diode 1SS355 TE-17
R546
247 2012 996 Carbon chip 200 kohm 1/16W RM73B--204JT
R547
244 2052 928 Metal oxide 47 ohm 1W(NB)
RS14B3A470JNBST(S)
R549-551
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
RM73B--102JT
D901-904
276 0729 904 Diode EM01AT (V1)
R552
247 2007 943 Carbon chip 1 kohm 1/16W
D905
276 0730 906 Diode AG01ZT (V1)
R553
247 2011 926 Carbon chip 39 kohm 1/16W RM73B--393JT
D906
276 0724 909 Diode SARS01T (V1)
R554
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
D907-909
276 0730 906 Diode AG01ZT (V1)
R555-557
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
D910
276 0725 704 Diode RK39 LF-C4
R559
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
D911
276 0726 703 Diode RJ43 LF015-305
R561
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
D912
276 0745 904 Diode RB411DT146
R563
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
D913,914
276 0727 906 Diode AL01ZT (V1)
R572-574
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
D916
276 0717 903 Diode 1SS355 TE-17
R578
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--102JT
D917
276 0737 909 Diode RB161L-40 (TAPE)
R580
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E3
D922,923
276 0717 903 Diode 1SS355 TE-17
R581
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E1
ZD901
276 0457 904 Zener diode HZS4C-1TD
LD101
393 9623 908 LED SEL2810A(TP7)
Amber
LD102
393 9576 903 LED SELU1E10CXM-002
Blue
LD103
393 9504 904 LED SEL1210S(TP7)
Red
TH901
279 0044 002 Thermistor NTH11D8R0LA
R582,583
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E2,E1
R584
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E2,E1
R585
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E3,E2
R586,587
247 2011 942 Carbon chip 47 kohm 1/16W RM73B--473JT, for E3
R901
244 2675 716 Metal oxide 68 kohm 2W(NB) RS14B3D683JNBF (ERG)
R902
244 2671 956 Metal oxide 0.47 ohm 2W(NB) RS14B3DR47JNBST(S)
R905
244 2675 729 Metal oxide 220 kohm 2W(NB) RS14B3D224JNBF (ERG)
R906
244 2675 703 Metal oxide 47 ohm 2W(NB)
R913
244 2043 953 Metal oxide 470 ohm 1W(NB) RS14B3A471JNBST(S)
R920
244 2051 974 Metal oxide 1 kohm 1W(NB)
RS14B3D470JNBF (ERG)
RS14B3A102JNBST(S)
72
DVD-3800
Ref. No.
Part No.
Part Name
Remarks
R932
244 2052 999 Metal oxide 10 kohm 1W(NB) RS14B3A103JNBST(S)
R937
244 2064 929 Metal oxide 3.3 ohm 1W(NB) RS14B3A3R3JNBST(S)
R991
247 2006 902 Carbon chip 330 ohm 1/16W RM73B--331JT (1608)
R992
247 2018 916 Carbon chip 1 ohm 1/16W
257 0512 903 Ceramic chip 0.1uF/25V
Part No.
Part Name
CK73F1E104ZT
C106,107
257 0502 971 Ceramic chip 5pF/50V
CC73CH1H5R0CT
C108,109
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C110
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C111
254 4299 964 Electrolytic 47uF/16V
CE04W1C470MT(SRE)
C113
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C114
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C115
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C116,117
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C118
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C119
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C120
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C121
253 8022 707 Ceramic 0.01uF/250V(AC)
CK45F2EAC103MC
C122
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C501
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C502
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C503
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C504
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C505
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C507
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C508
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C509
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C510
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C511
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C566
257 0506 951 Ceramic chip 100pF/50V
CC73CH1H101JT
C567
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C568
254 4538 939 Electrolytic 47uF/16V
CE04W1C470MT SMG/RE3
C569
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C570
254 4524 943 Electrolytic 1uF/50V
CE04W1H010MT SMG/RE3
C571
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C573
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C574
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C575
257 0501 901 Ceramic chip 0.01uF/50V
CK73B1H103KT (1608)
C576-578
254 4524 901 Electrolytic 0.1uF/50V
CE04W1H0R1MT SMG/RE3
C579
254 4533 921 Electrolytic 100uF/6.3V
CE04W0J101MT SMG/RE3
C580
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C581,582
254 4524 901 Electrolytic 0.1uF/50V
CE04W1H0R1MT SMG/RE3
C585,586
257 0506 951 Ceramic chip 100pF/50V
CC73CH1H101JT
C588
257 0506 951 Ceramic chip 100pF/50V
CC73CH1H101JT
C589,590
257 0511 917 Ceramic chip 0.022uF/50V
CK73F1H223ZT
C591
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C592-594
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C901
256 8038 017 Metalized 0.22uF/250V
CF99--2EAC224M
C902
256 8038 004 Metalized 0.1uF/250V
CF99--2EAC104M
Remarks
C905
254 4589 700 Electrolytic 47uF/400V
C905
254 4589 713 Electrolytic 100uF/400V
CE04W2G470MC (KMG)
C906
253 4546 711 Ceramic 220pF/2000V
CC45SL3D221JC
C907
253 4452 902 Ceramic 470pF/50V
CC45SL1H471JT
for E2,E1
RM73B--010KT
CAPACITORS GROUP
C101,102
Ref. No.
CE04W2G101MC(KMG)
for E3
C908
253 9030 963 Ceramic 0.01uF/25V
CK45=1E103KT
C909
254 4522 945 Electrolytic 47uF/35V
CE04W1V470MT SMG/RE3
C910
253 8029 700 Ceramic 2200pF/250V(AC)
CK45F2EAC222MC (KX)
C911
253 8028 701 Ceramic 2200pF/1000V
CK45R3A222KC
C912
255 1249 923 Mylar film 680pF/50V
CQ93M1H681JT (B)
C913
254 4356 713 Electrolytic 100uF/50V
CE04W1H101MC(ARS)
C914
254 4592 700 Electrolytic 2200uF/6.3V
CE04W0J222MC K20(LXV
C915
254 4593 709 Electrolytic 1200uF/16V
CE04W1C122MC K20(LXJ
C916
254 4591 905 Electrolytic 100uF/50V
CE04W1H101MT (KMF)
C917
254 4593 709 Electrolytic 1200uF/16V
CE04W1C122MC K20(LXJ
C918
254 4591 905 Electrolytic 100uF/50V
CE04W1H101MT (KMF)
C919
256 1058 971 Metalized 0.1uF/50V
CF93A1H104JT (JL)
C920
254 4368 947 Electrolytic 220uF/25V
CE04W1E221MT(ASF)
C921
254 4524 985 Electrolytic 10uF/50V
CE04W1H100MT SMG/RE3
C922
253 8022 707 Ceramic 0.01uF/250V(AC)
CK45F2EAC103MC
C923
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C924
254 4538 942 Electrolytic 100uF/16V
CE04W1C101MT SMG/RE3
C925
254 4522 945 Electrolytic 47uF/35V
CE04W1V470MT SMG/RE3
C926
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C927
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C928
254 4585 908 Electrolytic 470uF/6.3V
CE04W0J471MT(LXV)
C929
254 4533 921 Electrolytic 100uF/6.3V
CE04W0J101MT SMG/RE3
C932,933
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C935
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C936
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C938
257 0512 903 Ceramic chip 0.1uF/25V
RM73B—103JT
C941
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C942
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C945,946
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C947
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C948
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C949
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C950
254 4313 950 Electrolytic 100uF/50V
CE04W1H101MT(ASF)
C964
254 4313 950 Electrolytic 100uF/50V
CE04W1H101MT(ASF)
73
DVD-3800
Ref. No.
Part No.
OTHER PARTS GROUP
Part Name
Remarks
Q’ty
Ref. No.
X101
Part No.
Part Name
399 0151 008 Crystal 4.332 MHz
Remarks
Q’ty
1
AS902
417 0610 009 Heat sink
1
CW041
203 6589 001 4P PH-SAN connector cord
1
CX024
205 0581 001 2P VH connector base
1
417 0632 003 Heat sink
1
CX025
205 0581 056 2P VH connector base
1
461 1125 118 FL spacer
4
203 5299 004 3P PH connector cord
for E2
1
415 0299 000 Condenser cover
for C121
1
417 0631 004 Heat sink
1
CX026
205 1093 006 2P VH connector base
1
471 3305 027 Screw 3x10 CBS-B
1
CX035
205 0355 033 3P KR connector base (L)
1
473 7005 002 Screw 3x10 CBTS(S)-Z
1
CX041
205 0343 045 4P connector base (KR-PH)
1
CY025
205 0581 056 2P VH connector base
1
CY035
205 0355 033 3P KR connector base (L)
1
CY036
205 0343 032 3P connector base (KR-PH)
1
CY141
205 0375 042 14P connector base (KR-PH)
1
CY171
205 1006 080 17P FFC base (P=1)
1
CY211,212 205 1006 022 21P FFC base (P=1)
2
F951
206 1087 002 Fuse ET0.63A
for E3
1
206 1015 058 Fuse 1.6A
for E2,E1
1
FB503-507 235 0130 903 Chip emifil (11A121)
5
FB519
235 0130 903 Chip emifil (11A121)
1
FB523-530 235 0130 903 Chip emifil (11A121)
8
FB753-756 235 0130 903 Chip emifil (11A121)
4
FF901
202 0040 909 Fuse clip
1
FH901
202 0040 909 Fuse clip
1
FL101
393 8060 009 FLT (17-ST-04GNK)
1
JK507,508
204 8612 005 Mini jack
2
JK509
205 1153 001 9P S SUB connector
1
L901
235 0141 002 Line filter (PLA10A)
1
L902
235 0142 917 Inductor 4.7uH
1
L903
239 8019 002 Line filter coil
1
L904
235 0140 906 Inductor 100uH
1
L907
235 0142 917 Inductor 4.7uH
1
L909
235 0142 917 Inductor 4.7uH
1
RL901
214 0202 009 Relay DG1U TV-8
1
S101-106
212 5604 910 Tact switch
6
S107
212 0389 007 Rotary switch
1
S108,109
212 5604 910 Tact switch
2
S120
212 1030 009 Power switch (TV-5)
1
ST901-903 205 0452 017 Style pin
3
T901
1
233 6403 007 Switching trans. (WIDE)
74
DVD-3800
GU-3442 SCART P.W.B. UNIT
Ref. No.
Part No.
Part Name
Note: Addition for Europe model
Remarks
Ref. No.
Part No.
Part Name
Remarks
SEMICONDUCTORS GROUP
R853
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
IC851-854
262 0707 901 IC TC4053BF (TAPE)
R854,855
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
IC855
262 1793 901 IC TC4W53F
R856
247 2005 958 Carbon chip 160 ohm 1/16W RM73B--161JT
IC856
262 2534 907 IC BA7660FS-E2
R857,858
247 2004 975 Carbon chip 75 ohm 1/16W
IC857
263 1115 906 IC NJM2267M (T1)
R859,860
247 2006 902 Carbon chip 330 ohm 1/16W RM73B--331JT (1608)
IC858
262 0707 901 IC TC4053BF (TAPE)
R861
247 2005 929 Carbon chip 120 ohm 1/16W RM73B--121JT
R862
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
TR851,852 269 0054 901 Transistor DTC144EKT96
R863
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
TR853
269 0085 909 Transistor DTC144TKT96
R864
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--151JT
TR854,855 269 0054 901 Transistor DTC144EKT96
R865
247 2005 929 Carbon chip 120 ohm 1/16W RM73B--121JT
TR856
269 0123 900 Transistor DTC124TKT146
R866
247 2005 945 Carbon chip 150 ohm 1/16W RM73B--102JT
TR857
269 0119 901 Transistor DTA124EKT96(TAPE)
R867
247 2011 900 Carbon chip 33 kohm 1/16W RM73B--470JT
TR858
269 0123 900 Transistor DTC124TKT146
R868
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
TR859
269 0119 901 Transistor DTA124EKT96(TAPE)
R869
247 2011 900 Carbon chip 33 kohm 1/16W RM73B--333JT
TR860
271 0260 905 Transistor 2SA1036KT146(S/R)
R870
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
TR861
273 0437 909 Transistor 2SC2411K-T146
RM73B--750JT
R871
247 2011 900 Carbon chip 33 kohm 1/16W RM73B--333JT
TR862-864 269 0054 901 Transistor DTC144EKT96
R872
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
TR865
273 0437 909 Transistor 2SC2411K-T146
R873-875
247 2004 975 Carbon chip 75 ohm 1/16W
TR866
271 0260 905 Transistor 2SA1036KT146(S/R)
R876
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
TR867
269 0054 901 Transistor DTC144EKT96
R877,878
247 2018 903 Carbon chip 0 ohm 1/16W
TR868
271 0260 905 Transistor 2SA1036KT146(S/R)
R883
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
TR869
273 0437 909 Transistor 2SC2411K-T146
R884
247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT
269 0054 901 Transistor DTC144EKT96
R885,886
247 2018 903 Carbon chip 0 ohm 1/16W
TR871
271 0260 905 Transistor 2SA1036KT146(S/R)
R887
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
TR872
272 0125 904 Transistor 2SB709A
R888-891
247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT
TR873
273 0437 909 Transistor 2SC2411K-T146
R892
247 2004 962 Carbon chip 68 ohm 1/16W
RM73B--680JT
TR874
272 0125 904 Transistor 2SB709A
R893,894
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
D851
276 0679 902 Diode MA152A(TAPE)
D852
276 0628 908 Diode MA152WK
D853
276 0679 902 Diode MA152A(TAPE)
ZD851
276 0683 969 Diode UDZS12B-TE17
ZD852
276 0683 972 Diode UDZS13B-TE17
TR870
RM73B--750JT
RM73B--0R0KT
RM73B--0R0KT
R895,896
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
R897-899
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
CAPACITORS GROUP
C801,802
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
C809
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C810
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C811
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C831
254 4299 964 Electrolytic 47uF/16V
CE04W1C470MT(SRE)
RM73B--0R0KT
C832,833
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
RM73B--0R0KT
C834,835
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
RM73B--102JT
C836,837
257 0508 917 Ceramic chip 470pF/50V
CC73CH1H471JT
R832
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
C838,839
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
R833
247 2009 983 Carbon chip 10 kohm 1/16W RM73B--103JT
C841-844
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
R834,835
247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT
C845,846
257 0508 917 Ceramic chip 470pF/50V
CC73CH1H471JT
R836
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
C847,848
257 0506 951 Ceramic chip 100pF/50V
CC73CH1H101JT
R837
247 2008 900 Carbon chip 1.8 kohm 1/16W RM73B--182JT
C851,852
257 0506 951 Ceramic chip 100pF/50V
CC73CH1H101JT
R838
247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT
C853
254 4299 964 Electrolytic 47uF/16V
CE04W1C470MT(SRE)
R839
247 2009 925 Carbon chip 5.6 kohm 1/16W RM73B--562JT
C854,855
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
R840
247 2006 960 Carbon chip 470 ohm 1/16W RM73B--471JT
C856-859
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
R841,842
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
C860,861
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
R843-847
247 2004 975 Carbon chip 75 ohm 1/16W
C862
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
R848,849
247 2009 909 Carbon chip 4.7 kohm 1/16W RM73B--472JT (1608)
C863
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
R850
247 2008 968 Carbon chip 3.3 kohm 1/16W RM73B--332JT
C864,865
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
R851,852
247 2005 903 Carbon chip 100 ohm 1/16W RM73B--101JT
C866-868
254 4299 964 Electrolytic 47uF/16V
CE04W1C470MT(SRE)
RESISTORS GROUP
R801-804
R807
R831
247 2018 903 Carbon chip 0 ohm 1/16W
247 2018 903 Carbon chip 0 ohm 1/16W
247 2007 943 Carbon chip 1 kohm 1/16W
RM73B--750JT
75
DVD-3800
Ref. No.
Part No.
Part Name
Remarks
C869
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
C870
254 4299 919 Electrolytic 22uF/16V
CE04W1C220MT(SRE)
C871
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
C872
254 4299 919 Electrolytic 22uF/16V
CE04W1C220MT(SRE)
C873
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
C874
254 4299 919 Electrolytic 22uF/16V
CE04W1C220MT(SRE)
C875
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C876
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
C877,878
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C879
257 0511 904 Ceramic chip 0.01uF/50V
CK73F1H103ZT
C880
257 0509 929 Ceramic chip 1000pF/50V
CK73B1H102KT
C890,891
247 2018 903 Carbon chip 0 ohm 1/16W
RM73B--0R0KT
C896,897
257 0512 903 Ceramic chip 0.1uF/25V
CK73F1E104ZT
C898,899
254 4300 963 Electrolytic 100uF/6.3V
CE04W0J101MT(SRE)
OTHER PARTS GROUP
Q'ty
CX031
205 0355 033 3P KR connector base (L)
1
CX052
205 0355 059 5P KR connector base (L)
1
CY102
205 0480 005 10P KR connector base (L)
1
FB801-816 235 0130 903 Chip emifil (11A121)
16
FB851-862 235 0130 903 Chip emifil (11A121)
12
JK851,852
204 6649 009 RGB connector
2
L851
235 0070 911 Inductor 22uH
1
W801,802
414 0903 005 SCART shield plate
2
76
DVD-3800
EXPLODED VIEW
1
4
3
2
5
6
7
8
WARNING:
Parts marked with this symbol
have critical
characteristics.
Use ONLY replacement parts recommended by the
manufacturer.
103
5
55
113
A
113
56
103
105
106
1
28
103
113
103
113
17
25
103
103
51
22
105
38
103
23
16
26
18
3-1
19
9
(for Europe, Asia &
Korea model)
24
103
B
104
13
12
106
26
54
3-6
106
52
103
113
114
53
46
31
107
112
30
112
(Europe model only)
3-5
112
C
4
107
107
33
43
44
49
32
3-3
50
11
3-2
106
47
103
42
107
6
103
40
2-2
35
103
D
29
3-4
41
103
45
8
115
2-1
48
10
27
39
106
103
10
103
E
103
103
103
77
DVD-3800
Note : The symbols in the column “Remarks” indicate the following destinations.
E3 : U.S.A. & Canada model
E2 : Europe model
E1 : Asia model
E1K : Korea model
PARTS LIST OF EXPLODED VIEW
Ref. No.
1
2
2
2
2-1
2-2
3
3
3
3-1
3-2
3-3
3-4
3-5
3-6
4
5
6
7
8
9
10
11
11
11
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
34
34
Part No.
Part Name
GU- 3389 A
GU- 3438
GU- 3438 D
GU- 3438 E
GU- 3439
GU- 3439 D
GU- 3439 E
GU- 3442
Main P.W.B. unit
Audio/Video P.W.B. unit Ass’y
Audio/Video P.W.B. unit Ass’y
Audio/Video P.W.B. unit Ass’y
Audio P.W.B. unit
Video P.W.B. unit
Power/Display P.W.B. unit Ass’y
Power/Display P.W.B. unit Ass’y
Power/Display P.W.B. unit Ass’y
Digital power P.W.B. unit
Display P.W.B. unit
LED P.W.B. unit
Select P.W.B. unit
Power switch P.W.B. unit
I/F P.W.B. unit
SCART P.W.B. unit
GEN 5903
FG-180 DVD mecha. sub Ass’y
Chassis
Caution label
Bottom cover
Trans. bracket
Foot
Rear panel
Rear panel
Rear panel
Rear panel
AC inlet
AC inlet
3P VH connector cord
Ferrite clamp (RFC-9)
Wire clamp band
Heat sink
Heat sheet
Mech. fix bracket
Spacer
Fuse label
Fuse label
Spacer
FL spacer
Card stand (H=18)
Power trans.
Power trans.
Cord holder (L50)
3P VH-VH connector cord
14P PH-PH connector cord
30P FFC (1.0)
21P FFC (1.0)
21P FFC (1.0)
27P FFC (1.0)
13P FFC (1.0)
Label (A)
Label (Laser)
E2 laser caution
411 1961 102
513 3363 004
105 1402 009
441 1963 004
104 0313 015
105 1401 000
105 1401 026
105 1401 039
105 1401 042
203 3994 000
203 3995 009
203 5293 013
342 0032 011
445 0033 005
417 0634 001
417 0636 009
412 4927 201
461 1137 009
513 3827 016
513 3827 003
461 1136 013
461 1125 121
412 2197 046
233 6404 006
233 6406 004
445 0048 016
203 5295 008
204 6741 004
009 0235 047
009 0235 021
009 0235 034
009 0235 005
009 0235 018
513 3406 107
513 3463 001
513 2065 002
Remarks
for E3
for E2
for E1, E1K
for E3
for E2
for E1, E1K
for E2
for E3
for E3
for E2
for E1
for E1K
for E3
for E2, E1, E1K
CW024
for E2,E1, E1K
for E2,E1, E1K
for E2,E1, E1K
for E3
for E2,E1, E1K
CW032
CW141
CW301
CW211
CW212
CW272
CW131
for E3
for E2,E1, E1K
for E2
Q'ty
1
1
1
1
1
1
1
1
1
1
1
1
1
4
1
1
1
1
1
1
1
1
1
2
2
1
1
2
1
2
1
2
1
1
5
1
1
1
1
1
1
1
1
1
1
Ref. No.
Part No.
Part Name
35
36
37
38
39
39
40
40
41
42
43
43
44
45
46
47
47
48
48
49
50
51
52
53
53
54
55
55
56
56
203 5296 010
203 8532 001
204 2942 001
412 4944 006
144 2750 263
144 2750 276
131 9004 013
131 9004 068
143 1145 009
143 1110 005
146 2225 309
146 2225 312
203 5296 007
009 0234 006
203 5294 009
113 1886 008
113 1886 011
112 0855 024
112 0855 037
461 1109 011
129 0253 048
461 1131 005
461 1131 018
102 0644 005
102 0644 018
105 1403 008
146 2282 009
146 2282 012
135 0067 006
135 0067 019
3P PH-PH connector cord
5P PH-PH connector cord
10P PH-PH connector cord
Front angle
Front panel
Front panel
DENON mark
DENON mark
Window
Lens
Inner panel
Inner panel
3P PH-PH connector cord
17P FFC (1.0)
3P VH-VH connector cord
Power switch knob
Power switch knob
Volume knob (B)
Volume knob (B)
PWB rubber
Rubber sheet
Rubber foam
Rubber foam
Top cover
Top cover
Top cover damper
Loader panel
Loader panel
DVD-A plate
DVD-A plate
57
57
57
57
58
59
513 3747 002
513 3798 006
513 3842 004
513 3886 003
513 3437 008
513 1381 004
Rating sheet
Rating sheet
Rating sheet
Rating sheet
Label C
Manufac. date label
103
104
105
106
107
112
112
113
113
114
473 7002 018
473 7003 017
473 7007 000
473 7015 005
473 7500 044
477 0064 123
477 0064 123
477 0263 005
477 0263 018
Screw 3x8 CBTS(S)-Z
Screw 3x8 CFTS (S)-B
Screw 4x8 CBTS(S)-B
Screw 3x6 CBTS (S)-B
Screw 3x8 CBTS(P)-B
Fixing screw
Fixing screw
3P. swelling screw
3P. swelling screw
Special screw
115
Remarks
CW036
CW052 for E2
CW102 for E2
Q'ty
for Black model
for Gold model
for Black model
for Gold model
1
1
1
1
1
1
1
1
1
3
1
1
1
1
1
1
1
1
1
2
2
2
1
1
1
1
1
1
1
1
for E3
for E2
for E1
for E1K
for E1
for E3
1
1
1
1
1
1
for Black model
for Gold model
for Black model
for Gold model
for Black model
for Gold model
CW035
CW171
CW025
for Black model
for Gold model
for Black model
for Gold model
for Black model
for Gold model
SCREWS
9 SP nut
52
2
4
15
14
8
12
10
10
2
for E3, E1, E1K
for E2
for Black model
for Gold model
Attachment for 9P
S SUB connector
Attachment for Rotary switch 1
78
DVD-3800
EXPLODED VIEW OF DVD MECHANISM
1
4
3
2
5
6
7
8
12
50
60
9
8
59
52
7
14
A
51
32
10
15
4
14
58
5
31
55
15
15
28
B
13
57
15
53
20
55
18
30
3
24
2
C
25
29
19
1
17
D
16
56
55
23
55
26
21
22
27
6
55
E
54
79
DVD-3800
PARTS LIST OF DVD MECHANISM
Ref. No.
1
2
3
4
5
6-1
6-2
6-3
6-4
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
34
Part No.
Part Name
411 1988 101
431 0426 503
9KA 2A40 3D
441 1952 109
9KM 01T1 32
9KA 85P0 05
9KA 85G0 27
9KA 82G3 08
9KS 01W1 48
421 0772 108
424 0269 209
424 0268 200
424 0267 201
424 0270 104
423 0077 100
446 0063 007
9KC 2A07 4A
9KC 2G08 3A
424 0246 109
431 0427 405
461 1131 005
461 1131 018
412 4817 104
431 0384 001
431 0428 006
412 4818 006
GU- 3389
009 0186 015
203 8517 068
414 0963 003
412 4820 201
9KA 7G20 3B
9KA 7P08 5A
9KA 7G20 2D
403 0061 002
513 3436 009
Mecha chassis
Plate gear
Gear base sub ass'y
Gear base ass'y
LD Motor
Detector SW P.W.B.
2P Connector wire
2P Connector
Detector SW
Motor pully
Gear C
Gear B
Gear A
Pulley gear
Belt
Mecha frame
TRAV. Mecha
Damper-IDLE
Loader gear
Loader
Rubber form
Rubber form
Loader bracket
Slide shaft
Holder
Bearing plate Ass'y
Main P.W.B. unit
24P FFC cable (0.5)
5P PH-PH Connector cord
Earth plate
Clamp base
Clamper L
Clamper T
Clamper H
Clamp base damper
ROM seal
Remarks
Q'ty
1
1
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
4
1
1
1
1
1
1
1
1
1
1
1
4
1
1
1
1
1
1
471 9057 007
9KM 01T1 32
471 3813 001
9KH 26P0 08
473 7511 004
473 7508 017
473 7508 046
477 0262 006
9KC 1H01 1A
9KP 36C6 25
9KP 26C6 25
Special screw M1.7
Screw 2.6x2.5CBS-NI
Screw 2.6x4 CBS-B
Screw 2.6x8CFTS(P)
Screw 3x10 CFTS (P)-Z
Screw 3x10 CBTS (P)-B
Screw 3x16 CBTS (P)-B
Special screw
SCW-Damper
Slit washer
Slit washer
2
2
4
5
1
16
2
2
4
1
1
SCREWS
50
51
52
53
54
55
56
57
58
59
60
80
DVD-3800
POINTS OF GREASING (1/2)
1
2
4
3
5
6
7
8
A
MOLYKOTE EM-30L
0.1mg x 4 points
B
MOLYKOTE EM-30L
0.1mg
MOLYKOTE EM-30L
0.1mg x 3 points
MOLYKOTE EM-30L
0.1mg x 4 points
C
MOLYKOTE EM-30L
0.1mg x 4 points
MOLYKOTE EM-30L
0.1mg x 3 points
MOLYKOTE EM-30L
0.1mg
D
MOLYKOTE EM-30L
0.1mg x 3 points
MOLYKOTE EM-30L
0.1mg x 4 points
E
81
DVD-3800
POINTS OF GREASING (2/2)
1
2
3
4
5
6
7
8
A
MOLYKOTE EM-30L
0.1mg x 4 points
B
HANARL FL777
0.1mg
MOLYKOTE EM-30L
0.1mg
MOLYKOTE EM-30L
0.1mg x 5 points
MOLYKOTE EM-30L
0.3mg
40~50mm
MOLYKOTE EM-30L
0.1mg
C
HANARL UD777
0.1mg
D
MOLYKOTE EM-30L
0.1mg
E
82
DVD-3800
PACKING VIEW
201
208
210
209
210
211
211
PARTS LIST OF PACKING & ACCESSORIES
Ref. No.
201
202
203
204
205
206
207
208
Part No.
505 0038 043
511 3877 002
511 3897 008
511 3898 007
511 3957 003
511 3928 100
511 3934 000
515 0921 005
206 2202 006
206 2203 005
206 2210 001
203 5224 008
399 0795 008
Part Name
Poly. cover
Instruction manual
Instruction manual
Instruction manual
Instruction manual
Correction sheet
Correction sheet
Service station list (EX)
AC cord set
AC cord set
AC cord
3P pin cord
Remote controller RC-553
Battery (AA/R6P)
Remarks
for E3
for E2
for E1
for E1K
for E3
for E2
for E3
for E2,E1
for E1K
Q'ty
1
1
1
1
1
1
1
1
1
1
1
1
1
212
Note : The symbols in the column “Remarks” indicate the following destinations.
E3 : U.S.A. & Canada model
E2 : Europe model
E1 : Asia model
E1K: Korea model
Ref. No.
209
210
211
212
213
214
215
217
218
219
Part No.
505 0312 028
503 1374 001
503 1440 003
501 2172 002
501 2172 028
513 3579 005
513 3579 018
513 9111 001
513 3580 007
515 0690 404
Part Name
Cabinet cover
Cushion
Bottom cushion
Carton case
Carton case
Control card
UPC label
POS label
POS label
Region label
Region label
Color label (gold)
Carton label (CHINA)
DEL warranty home
Remarks
Q'ty
for E3, E2
for E1, E1K
1
2
2
1
1
for E3
for E2 Black model
for E2 Gold model
for E3
for E2
for Gold model
for E1, E1K
for E3
2
2
2
1
1
83
DVD-3800
WIRING DIAGRAM
1
2
3
4
5
6
7
GU-3442-1
SCART UNIT CY102
(E2 MODEL ONLY)
CX031
AC IN
2P VH
A
3P PH
CX102
CY036
CX025
3P PH
INTERFACE UNIT
CY272
2P VH
CY025
10P PH
CX052
GU-3439-6
CX024
2P VH
8
27P FFC
CX026
(CW033)
CY212
GU-3439-5
P.SW UNIT
CY211
21P FFC
GU-3439-1
21P FFC
GU-3438-2
DIGI.POWER UNIT
B
VIDEO UNIT
CX212
CX211
14P PH
CY141
CX272
GU-3389-1
MAIN UNIT
CX141
CX131
CX041
AC IN
CY131
13P FFC
24P FFC
CX241
4P PH
CX062
CY032
15P FFC
CX151
C
DVD DRIVE MECHA
POWER
TRANS
UNIT [FG-180]
5 P PH
CX051
5P PH
3P PH
CX031
CX036
CY052
3P VH
CX032
30P FFC
OUTPUT
CX301
CY301
6P VH
CX171
D
17P FFC
GU-3438-1
AUDIO UNIT
CW041
CY171
E
3P PH
GU-3439-3
LED UNIT
DVD3800_Wiring.p65
Page 84
CY035
CX035
GU-3439-2 DISPLAY UNIT
GU-3439-4
SELECT UNIT
02/06/25, 9:26
Adobe PageMaker 6.5J/Win
84
DVD-3800
MEASURING METHOD AND WAVEFORMS
To check the waveforms on the Servo P.W.B., the GND (
(Except for Inner SW, TRVSW)
* For & ~
, connect the GND (−) probe to "GND".
) probe of the oscilloscope to
Vref
point.
NOTES
Measuring Disc:
DVD/DVDT-S01 or TDV-520A
CD/TCD-784
(It is better to use wires for extending between the probe and test points.)
When watching the HF waveform, use the extending wire as short as possible.
When HF waveform is noisy or cannot discriminate the eye-pattern, replace the Traverse Unit after measuring the Iop.
1 ~
points have the certain test points shown below.
8
5
2
4
7
14 15
3
12
17
7
18
14
6
1
1
1
28
28
15
40
29
9
60
41 40
61
1
8
4
5
15
32
17
1
16
10
1
13
11
21
80
56
1
39
40
1
20
1
6
24
8
14
7
1
1
40
21
05
20
21
16
1
20
75
51
50
76
32
11
26
100
1
12
1
48
25
17
24
37
25
17
18
19
36
20
Main P.W.B. Unit Foil Side
85
DVD-3800
WAVEFORMS
GU-3389-1 MAIN P.W.B.
DVD PLAY
DVD PLAY (INNER)
Disc DVDT-S01
1 HF (RFI)
DMO
FG
Vref
A3
V = 0.5 V/div
CD PLAY (INNER)
CD PLAY
Disc TCD-784A
DMO
FG
1 HF (RFI)
Vref
A3
V = 0.5 V/div
SERCH TO OUTER CHAPTER
(DVD/CD) LOADING
PLAY
(INNER
OUTER)
6 TEI
2 FEI
3 FOO
4 FO+
5 FO−
!
FMO
"
FM−
#
FM+
POWER ON (INNER SWITCH ON)
DVD PLAY
6 TEI
$
INSWN
!
FMO
"
FM+
OUT
7 TRO
%
8 TR+
9 TR−
LOADER OPEN
CD PLAY
6 TEI
&
OPEN
OPEN
7 TRO
8 TR+
'
CLOSE
CLOSE
CLOSE
LOADING+
9 TR−
86
DVD-3800
GU-3438-1 AUDIO P.W.B.
A1
A6
A11
A2
A7
A12
A3
A8
A13
A4
A9
A14
A5
A10
87
DVD-3800
GU-3389-1 MAIN P.W.B.
P1
P2
P3
88
DVD-3800
GU-3442 SCART P.W.B.
( P14 ~ P16 : Europe model only)
GU-3438-2 VIDEO P.W.B.
P4
P9
P14
75ohm terminate
P5
P10
P15
75ohm terminate
P6
P11
P16
75ohm terminate
P7
P12
P8
P13
89
DVD-3800
GU-3439-1 DIGITAL POWER P.W.B.
3439- A
3439- B
3439- C
3439- D
3439- E
90
DVD-3800
SCHEMATIC DIAGRAMS (1/8)
1
2
3
4
5
1
6
7
8
9
10
11
A
4
15
14
9
2
6
5
8
7
B
13
3
C
11
D
19
12
10
18
16
E
F
For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
17
20
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (1/8)
GU-3389A-1 MAIN UNIT(1/3)
91
DVD-3800
SCHEMATIC DIAGRAMS (1/8)
1
2
3
4
5
1
6
7
8
9
10
11
A
4
A
B
15
14
9
2
6
5
8
7
13
3
B
C
11
D
19
12
10
18
16
E
17
C
D
F
For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
20
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (1/8)
GU-3389A-1 MAIN UNIT(1/3)
91
DVD-3800
DVD-3800
DVD-3800
DVD-3800
DVD-3800
DVD-3800
DVD-3800
DVD-3800
DVD-3800
DVD-3800
SCHEMATIC DIAGRAMS (1/8)
1
2
3
4
5
1
6
7
8
9
10
11
A
4
15
14
9
2
6
5
8
7
B
13
3
C
11
D
19
12
10
18
16
E
F
For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
17
20
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (1/8)
GU-3389A-1 MAIN UNIT(1/3)
91
DVD-3800
SCHEMATIC DIAGRAMS (1/8)
1
2
3
4
5
1
6
7
8
9
10
11
A
4
15
14
9
2
6
5
8
7
B
13
3
C
11
D
19
12
10
18
16
E
F
For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
17
20
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (1/8)
GU-3389A-1 MAIN UNIT(1/3)
91
DVD-3800
SCHEMATIC DIAGRAMS (1/8)
1
2
3
4
5
1
6
7
8
9
10
11
A
4
15
14
9
2
6
5
8
7
B
13
3
C
11
D
19
12
10
18
16
E
F
For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
17
20
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (1/8)
GU-3389A-1 MAIN UNIT(1/3)
91
DVD-3800
SCHEMATIC DIAGRAMS (1/8)
1
2
3
4
5
1
6
7
8
9
10
11
A
4
15
14
9
2
6
5
8
7
B
13
3
C
11
D
19
12
10
18
16
E
F
For the Waveforms marked with numbers 1 ~ 20 , refer to page 86 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
17
20
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (1/8)
GU-3389A-1 MAIN UNIT(1/3)
91
DVD-3800
SCHEMATIC DIAGRAMS (2/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
WARNING:
G
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (2/8)
GU-3389A-1 MAIN UNIT(2/3)
92
DVD-3800
SCHEMATIC DIAGRAMS (2/8)
1
2
3
4
5
6
7
8
9
10
11
A
A
B
B
C
D
E
C
D
WARNING:
F
G
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (2/8)
GU-3389A-1 MAIN UNIT(2/3)
92
DVD-3800
SCHEMATIC DIAGRAMS (2/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
WARNING:
G
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (2/8)
GU-3389A-1 MAIN UNIT(2/3)
92
DVD-3800
SCHEMATIC DIAGRAMS (2/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
WARNING:
G
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (2/8)
GU-3389A-1 MAIN UNIT(2/3)
92
DVD-3800
SCHEMATIC DIAGRAMS (2/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
WARNING:
G
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (2/8)
GU-3389A-1 MAIN UNIT(2/3)
92
DVD-3800
SCHEMATIC DIAGRAMS (2/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
WARNING:
G
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (2/8)
GU-3389A-1 MAIN UNIT(2/3)
92
DVD-3800
SCHEMATIC DIAGRAMS (3/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P1
E
P2
F
P3
For the Waveforms marked with numbers P1 ~ P3 ,
refer to page 88 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (3/8)
GU-3389A-1 MAIN UNIT(3/3)
93
DVD-3800
SCHEMATIC DIAGRAMS (3/8)
1
2
3
4
5
6
7
8
9
10
11
A
A
B
B
C
D
P1
E
P2
C
D
F
P3
For the Waveforms marked with numbers P1 ~ P3 ,
refer to page 88 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (3/8)
GU-3389A-1 MAIN UNIT(3/3)
93
DVD-3800
SCHEMATIC DIAGRAMS (3/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P1
E
P2
F
P3
For the Waveforms marked with numbers P1 ~ P3 ,
refer to page 88 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (3/8)
GU-3389A-1 MAIN UNIT(3/3)
93
DVD-3800
SCHEMATIC DIAGRAMS (3/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P1
E
P2
F
P3
For the Waveforms marked with numbers P1 ~ P3 ,
refer to page 88 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (3/8)
GU-3389A-1 MAIN UNIT(3/3)
93
DVD-3800
SCHEMATIC DIAGRAMS (3/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P1
E
P2
F
P3
For the Waveforms marked with numbers P1 ~ P3 ,
refer to page 88 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (3/8)
GU-3389A-1 MAIN UNIT(3/3)
93
DVD-3800
SCHEMATIC DIAGRAMS (3/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P1
E
P2
F
P3
For the Waveforms marked with numbers P1 ~ P3 ,
refer to page 88 (WAVEFORMS).
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
_ B LINE
+
SIGNAL LINE
NOTICE
WARNING:
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (3/8)
GU-3389A-1 MAIN UNIT(3/3)
93
DVD-3800
SCHEMATIC DIAGRAMS (4/8)
1
2
3
4
5
6
7
8
9
10
11
A12
A
A1
B
A12
A5
A2
A6
A3
A4
A8 A7
C
A13
D
A12
A5
A11 A10
A9
A12
E
A12
F
A5
A11 A10
A9
A14
For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS).
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (4/8)
GU-3438-1 AUDIO UNIT
94
DVD-3800
SCHEMATIC DIAGRAMS (4/8)
1
2
3
4
5
6
7
8
9
10
11
A12
A
A1
A5
A2
A6
A3
A4
A8 A7
B
A
B
A12
C
A13
D
A12
A5
A11 A10
A9
A12
A14
C
D
E
A12
A5
A11 A10
A9
For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS).
F
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (4/8)
GU-3438-1 AUDIO UNIT
94
DVD-3800
SCHEMATIC DIAGRAMS (4/8)
1
2
3
4
5
6
7
8
9
10
11
A12
A
A1
B
A12
A5
A2
A6
A3
A4
A8 A7
C
A13
D
A12
A5
A11 A10
A9
A12
E
A12
F
A5
A11 A10
A9
A14
For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS).
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (4/8)
GU-3438-1 AUDIO UNIT
94
DVD-3800
SCHEMATIC DIAGRAMS (4/8)
1
2
3
4
5
6
7
8
9
10
11
A12
A
A1
B
A12
A5
A2
A6
A3
A4
A8 A7
C
A13
D
A12
A5
A11 A10
A9
A12
E
A12
F
A5
A11 A10
A9
A14
For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS).
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (4/8)
GU-3438-1 AUDIO UNIT
94
DVD-3800
SCHEMATIC DIAGRAMS (4/8)
1
2
3
4
5
6
7
8
9
10
11
A12
A
A1
B
A12
A5
A2
A6
A3
A4
A8 A7
C
A13
D
A12
A5
A11 A10
A9
A12
E
A12
F
A5
A11 A10
A9
A14
For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS).
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (4/8)
GU-3438-1 AUDIO UNIT
94
DVD-3800
SCHEMATIC DIAGRAMS (4/8)
1
2
3
4
5
6
7
8
9
10
11
A12
A
A1
B
A12
A5
A2
A6
A3
A4
A8 A7
C
A13
D
A12
A5
A11 A10
A9
A12
E
A12
F
A5
A11 A10
A9
A14
For the Waveforms marked with numbers A1 ~ A14 , refer to page 87 (WAVEFORMS).
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (4/8)
GU-3438-1 AUDIO UNIT
94
DVD-3800
SCHEMATIC DIAGRAMS (5/8)
1
2
3
4
5
6
7
8
9
10
11
A
P9
P10
B
P4
P5
C
P11 Progre only
P6
P12 Progre only
D
P7
P13 Progre only
P8
E
For the Waveforms marked with numbers P4 ~ P13 ,
refer to page 89 (WAVEFORMS).
F
_ B LINE
+
SIGNAL LINE
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (5/8)
GU-3438-2 VIDEO UNIT
95
DVD-3800
SCHEMATIC DIAGRAMS (5/8)
1
2
3
4
5
6
7
8
9
10
11
A
A
P9
P10
P4
P5
B
B
C
P11 Progre only
P6
P12 Progre only
D
P7
P13 Progre only
P8
E
For the Waveforms marked with numbers P4 ~ P13 ,
refer to page 89 (WAVEFORMS).
C
D
F
_ B LINE
+
SIGNAL LINE
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (5/8)
GU-3438-2 VIDEO UNIT
95
DVD-3800
SCHEMATIC DIAGRAMS (5/8)
1
2
3
4
5
6
7
8
9
10
11
A
P9
P10
B
P4
P5
C
P11 Progre only
P6
P12 Progre only
D
P7
P13 Progre only
P8
E
For the Waveforms marked with numbers P4 ~ P13 ,
refer to page 89 (WAVEFORMS).
F
_ B LINE
+
SIGNAL LINE
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (5/8)
GU-3438-2 VIDEO UNIT
95
DVD-3800
SCHEMATIC DIAGRAMS (5/8)
1
2
3
4
5
6
7
8
9
10
11
A
P9
P10
B
P4
P5
C
P11 Progre only
P6
P12 Progre only
D
P7
P13 Progre only
P8
E
For the Waveforms marked with numbers P4 ~ P13 ,
refer to page 89 (WAVEFORMS).
F
_ B LINE
+
SIGNAL LINE
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (5/8)
GU-3438-2 VIDEO UNIT
95
DVD-3800
SCHEMATIC DIAGRAMS (5/8)
1
2
3
4
5
6
7
8
9
10
11
A
P9
P10
B
P4
P5
C
P11 Progre only
P6
P12 Progre only
D
P7
P13 Progre only
P8
E
For the Waveforms marked with numbers P4 ~ P13 ,
refer to page 89 (WAVEFORMS).
F
_ B LINE
+
SIGNAL LINE
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (5/8)
GU-3438-2 VIDEO UNIT
95
DVD-3800
SCHEMATIC DIAGRAMS (5/8)
1
2
3
4
5
6
7
8
9
10
11
A
P9
P10
B
P4
P5
C
P11 Progre only
P6
P12 Progre only
D
P7
P13 Progre only
P8
E
For the Waveforms marked with numbers P4 ~ P13 ,
refer to page 89 (WAVEFORMS).
F
_ B LINE
+
SIGNAL LINE
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (5/8)
GU-3438-2 VIDEO UNIT
95
DVD-3800
SCHEMATIC DIAGRAMS (6/8)
1
2
3
4
5
6
7
8
9
10
11
3439- B
A
B
POWER ON : +5VDC
St-by : +0VDC
3439- E
POWER ON/
St-by : +5VDC
3439- A
+18VDC
+3.6VDC
C
3439- D
3439- C
GND for
Primary circuit
D
POWER ON : +3.2VDC
St-by : 0VDC
For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS).
E
_ B LINE
+
SIGNAL LINE
F
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
G
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (6/8)
GU-3439-1 DIGI. POWER UNIT
GU-3439-6 I/F UNIT
96
DVD-3800
SCHEMATIC DIAGRAMS (6/8)
1
2
3
4
5
6
7
8
9
10
11
3439- B
A
B
B
POWER ON : +5VDC
St-by : +0VDC
3439- E
A
POWER ON/
St-by : +5VDC
3439- A
+18VDC
+3.6VDC
3439- D
C
3439- C
GND for
Primary circuit
D
POWER ON : +3.2VDC
St-by : 0VDC
For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS).
E
C
D
_ B LINE
+
SIGNAL LINE
F
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
G
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (6/8)
GU-3439-1 DIGI. POWER UNIT
GU-3439-6 I/F UNIT
96
DVD-3800
SCHEMATIC DIAGRAMS (6/8)
1
2
3
4
5
6
7
8
9
10
11
3439- B
A
B
POWER ON : +5VDC
St-by : +0VDC
3439- E
POWER ON/
St-by : +5VDC
3439- A
+18VDC
+3.6VDC
C
3439- D
3439- C
GND for
Primary circuit
D
POWER ON : +3.2VDC
St-by : 0VDC
For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS).
E
_ B LINE
+
SIGNAL LINE
F
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
G
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (6/8)
GU-3439-1 DIGI. POWER UNIT
GU-3439-6 I/F UNIT
96
DVD-3800
SCHEMATIC DIAGRAMS (6/8)
1
2
3
4
5
6
7
8
9
10
11
3439- B
A
B
POWER ON : +5VDC
St-by : +0VDC
3439- E
POWER ON/
St-by : +5VDC
3439- A
+18VDC
+3.6VDC
C
3439- D
3439- C
GND for
Primary circuit
D
POWER ON : +3.2VDC
St-by : 0VDC
For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS).
E
_ B LINE
+
SIGNAL LINE
F
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
G
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (6/8)
GU-3439-1 DIGI. POWER UNIT
GU-3439-6 I/F UNIT
96
DVD-3800
SCHEMATIC DIAGRAMS (6/8)
1
2
3
4
5
6
7
8
9
10
11
3439- B
A
B
POWER ON : +5VDC
St-by : +0VDC
3439- E
POWER ON/
St-by : +5VDC
3439- A
+18VDC
+3.6VDC
C
3439- D
3439- C
GND for
Primary circuit
D
POWER ON : +3.2VDC
St-by : 0VDC
For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS).
E
_ B LINE
+
SIGNAL LINE
F
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
G
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (6/8)
GU-3439-1 DIGI. POWER UNIT
GU-3439-6 I/F UNIT
96
DVD-3800
SCHEMATIC DIAGRAMS (6/8)
1
2
3
4
5
6
7
8
9
10
11
3439- B
A
B
POWER ON : +5VDC
St-by : +0VDC
3439- E
POWER ON/
St-by : +5VDC
3439- A
+18VDC
+3.6VDC
C
3439- D
3439- C
GND for
Primary circuit
D
POWER ON : +3.2VDC
St-by : 0VDC
For the Waveforms marked with numbers 3439- A ~ 3439- E , refer to page 90 (WAVEFORMS).
E
_ B LINE
+
SIGNAL LINE
F
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
G
CAUTION:
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
H
SCHEMATIC DIAGRAMS (6/8)
GU-3439-1 DIGI. POWER UNIT
GU-3439-6 I/F UNIT
96
DVD-3800
SCHEMATIC DIAGRAMS (7/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
SCHEMATIC DIAGRAMS (7/8)
GU-3439-2 DISPLAY UNIT
GU-3439-3 LED UNIT
GU-3439-4 SW UNIT
GU-3439-5 P.SW UNIT
H
97
DVD-3800
SCHEMATIC DIAGRAMS (7/8)
1
2
3
4
5
6
7
8
9
10
11
A
A
B
B
C
D
E
C
WARNING:
D
F
G
_ B LINE
+
SIGNAL LINE
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
SCHEMATIC DIAGRAMS (7/8)
GU-3439-2 DISPLAY UNIT
GU-3439-3 LED UNIT
GU-3439-4 SW UNIT
GU-3439-5 P.SW UNIT
H
97
DVD-3800
SCHEMATIC DIAGRAMS (7/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
SCHEMATIC DIAGRAMS (7/8)
GU-3439-2 DISPLAY UNIT
GU-3439-3 LED UNIT
GU-3439-4 SW UNIT
GU-3439-5 P.SW UNIT
H
97
DVD-3800
SCHEMATIC DIAGRAMS (7/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
SCHEMATIC DIAGRAMS (7/8)
GU-3439-2 DISPLAY UNIT
GU-3439-3 LED UNIT
GU-3439-4 SW UNIT
GU-3439-5 P.SW UNIT
H
97
DVD-3800
SCHEMATIC DIAGRAMS (7/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
SCHEMATIC DIAGRAMS (7/8)
GU-3439-2 DISPLAY UNIT
GU-3439-3 LED UNIT
GU-3439-4 SW UNIT
GU-3439-5 P.SW UNIT
H
97
DVD-3800
SCHEMATIC DIAGRAMS (7/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
F
G
_ B LINE
+
SIGNAL LINE
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
SCHEMATIC DIAGRAMS (7/8)
GU-3439-2 DISPLAY UNIT
GU-3439-3 LED UNIT
GU-3439-4 SW UNIT
GU-3439-5 P.SW UNIT
H
97
DVD-3800
SCHEMATIC DIAGRAMS (8/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P16
E
P15
P14
F
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS).
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
_ B LINE
+
SIGNAL LINE
H
SCHEMATIC DIAGRAMS (8/8)
GU-3442-1 SCART UNIT (Europe model only)
98
DVD-3800
SCHEMATIC DIAGRAMS (8/8)
1
2
3
4
5
6
7
8
9
10
11
A
A
B
B
C
D
P16
E
P15
C
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
D
P14
F
G
For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS).
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
_ B LINE
+
SIGNAL LINE
H
SCHEMATIC DIAGRAMS (8/8)
GU-3442-1 SCART UNIT (Europe model only)
98
DVD-3800
SCHEMATIC DIAGRAMS (8/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P16
E
P15
P14
F
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS).
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
_ B LINE
+
SIGNAL LINE
H
SCHEMATIC DIAGRAMS (8/8)
GU-3442-1 SCART UNIT (Europe model only)
98
DVD-3800
SCHEMATIC DIAGRAMS (8/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P16
E
P15
P14
F
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS).
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
_ B LINE
+
SIGNAL LINE
H
SCHEMATIC DIAGRAMS (8/8)
GU-3442-1 SCART UNIT (Europe model only)
98
DVD-3800
SCHEMATIC DIAGRAMS (8/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P16
E
P15
P14
F
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS).
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
_ B LINE
+
SIGNAL LINE
H
SCHEMATIC DIAGRAMS (8/8)
GU-3442-1 SCART UNIT (Europe model only)
98
DVD-3800
SCHEMATIC DIAGRAMS (8/8)
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
P16
E
P15
P14
F
G
WARNING:
Parts marked with this symbol
have critical characteristics.
Use ONLY replacement parts recommended by the manufacture.
For the Waveforms marked with numbers P14 ~ P16 , refer to page 89 (WAVEFORMS).
CAUTION:
NOTICE
ALL RESISTANCE VALUES IN OHM. k=1,000 OHM M=1,000,000 OHM
ALL CAPACITANCE VALUES IN MICRO FARAD. P=MICRO-MICRO FARAD
EACH VOLTAGE AND CURRENT ARE MEASUERD AT MO SIGNAL INPUT
CONDITION.
CIRCUIT AND PARTS ARE SUBJECT TO CHANGE WITHOUT PRIOR
NOTICE.
Before returning the unit to the customer, make sure you make either (1) a
leakage current check or (2) a line to chassis resistance check. If the leakage
current exceeds 0.5 milliamps, or if the resistance from chassis to either side
of the power card is less than 460kohms, the unit is defective.
WARNING:
DO NOT return the unit to the customer until the problem is located and
corrected.
_ B LINE
+
SIGNAL LINE
H
SCHEMATIC DIAGRAMS (8/8)
GU-3442-1 SCART UNIT (Europe model only)
98
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