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Published by RB 0371 Service PaCE Printed in the Netherlands Subject to modification EN 3122 785 13950

©

Copyright 2003 Philips Consumer Electronics B.V. Eindhoven, The Netherlands.

All rights reserved. No part of this publication may be reproduced, stored in a

retrieval system or transmitted, in any form or by any means, electronic,

mechanical, photocopying, or otherwise without the prior permission of Philips.

Colour television Chassis

A02E

AA

Contents Page Contents Page

1 Technical Specifications, Connection Facilities, 2

and Chassis Overview

2 Safety and Maintenance Instructions, 4

Warnings, and Notes

3 Directions for Use 6

4 Mechanical Instructions 12

5 Service Modes, Error Codes, and Faultfinding 14

6Block Diagrams, Testpoint Overview, and

Waveforms

Wiring Diagram 23

Block Diagram LSP Supply and Deflection 24

Testpoint Overview LSP and CRT 25

Block Diagram 1 Audio & Video 26

Block Diagram 2 Audio & Video 27

Block Diagram 3 Audio & Video 28

Testpoint Overview SSB 29

I2C Overview 30

Supply Lines Overview 31

7Circuit Diagrams and PWB layouts Diagram PWB

LSP: Main Supply (Diagram A1A) 32 42-47

LSP: Main Supply (Diagram A1B) 33 42-47

LSP: Standby Supply (Diagram A2) 34 42-47

LSP: Line Deflection (Diagram A3) 35 42-47

LSP: Frame Defl. E/W Drive (Diagram A4) 36 42-47

LSP: Rotation Circuitry (Diagram A5) 37 42-47

LSP: Audio Amplifier (Diagram A6) 38 42-47

LSP: Headphone Amplifier (Diagram A7) 37 42-47

LSP: Tuner, SIMM Conn.(Fem.) (Diagram A8) 39 42-47

LSP: Front (Diagram A10) 40 42-47

LSP: Inputs/Outputs (Diagram A11) 41 42-47

SSB: If & SAW Filter (Diagram B1) 48 64-73

SSB: Vid. Source Sel/Data Link (Diagram B2) 49 64-73

SSB: Audio Source Select (Diagram B3) 50 64-73

SSB: MPIF-Supply, E/W, Ctrl (Diagram B4) 51 64-73

SSB: Video Decoder (Diagram B5) 52 64-73

SSB: Feature Box (Diagram B6) 53 64-73

SSB: RGB Processing (Diagram B7) 54 64-73

SSB: Sync & Deflection Proc. (Diagram B8) 55 64-73

SSB: Protection (Diagram B9) 56 64-73

SSB: Audio Processing (Diagram B10) 57 64-73

SSB: Control (Diagram B11) 58 64-73

SSB: Ctrl-Mem. Int. (EBIU) (Diagram B12) 59 64-73

SSB: Ctrl-Mem. Int. (SDRAM) (Diagram B13) 60 64-73

SSB: ADOC Supply (Diagram B14) 61 64-73

SSB: Low Volt. Supply ADOC (Diagram B15) 62 64-73

SSB: Connector Interface (Diagram B18) 63 64-73

Side I/O Panel (Diagram D) 74 75

Top Control Panel (Diagram E) 76 77

CRT Panel (Diagram F) 78 79

DC-Shift Panel (Diagram G) 80 80

VDAF + 2nd Orders (Diagram I) 81 82

Front Interface (Diagram J) 83 84

8 Electrical Alignments 85

9 Circuit Descriptions 92

List of Abbreviations 105

IC Data Sheets 107

10 Spare Parts List 108

11 Revision List 114

Technical Specifications, Connections, and Chassis Overview

EN 2 A02E1.

1. Technical Specifications, Connections, and Chassis Overview

Index of this chapter:

1. Technical Specifications

2. Connections

3. Chassis Overview

Note: Figures below can deviate slightly from the actual

situation, due to the different set executions.

1.1 Technical Specifications

1.1.1 Vision

Display type :CRT, Real Flat

Screen size(s) :28 inch - 16:9

:29 inch - 4:3

:32 inch - 16:9

Tuning system :PLL

IF frequency :38.9 MHz

Colour systems :PAL: B/G,D/K,I

:SECAM: B/G,D/K,L/L’

:NTSC-playback

Channel selections :100 presets

:UVSH

Aerial input :75 ohm, IEC-type

1.1.2 Sound

Sound systems :FM-mono, AM-mono

:FM-stereo: B/G

:NICAM: B/G,D/K,I,L

Maximum power :4 x 10 W_rms (int.)

1.1.3 Miscellaneous

Mains voltage :220 - 240 Vac

Mains frequency :50 / 60 Hz

Ambient temperature :+5 to +45 deg. C

Maximum humidity :90 % R.H.

Power consumption :

- Normal operation :≈ 115 W

- Standby :< 1 W

1.2 Connections

1.2.1 Front and Top Control, Side I/O Connections

Figure 1-1 Front and Top Control, Side I/O connections

Hosiden: SVHS - In

1 - Y Ground H

2 - C Ground H

3 - Y 1 Vpp / 75 ohm j

4 - C 0.3 Vpp / 75 ohm j

Cinch: In

- CVBS 1 Vpp / 75 ohm jq

- Audio - L 0.5 Vrms / 10 kohm jq

- Audio - R 0.5 Vrms / 10 kohm jq

Mini Jack: Headphone - Out

- Headphone 32 - 600 ohm / 10 mW ot

1.2.2 Rear Connections

Figure 1-2 Rear connections

Aerial - In

- IEC-type Coax, 75 ohm D

Service connector

1 - SDA-S I2C data (5 V) jk

2 - SCL-S I2C clock (5 V) j

3 - GND Ground H

Audio - Out (Cinch)

S - Surround 0.5 Vrms / 1 kohm (optional) kq

L - Audio - L 0.5 Vrms / 1 kohm kq

R - Audio - R 0.5 Vrms / 1 kohm kq

External 1: RGB/YUV and CVBS - In/Out

Figure 1-3 SCART connector

1 - Audio - R 0.5 Vrms / 1 kohm k

2 - Audio - R 0.5 Vrms / 10 kohm j

3 - Audio - L 0.5 Vrms / 1 kohm k

4 - Audio Ground H

5 - Audio Ground H

6 - Audio - L 0.5 Vrms / 10 kohm j

7 - Blue / U 0.7 Vpp / 75 ohm j

8 - CVBS-status 0 - 1.3 V: INT

4.5 - 7 V: EXT 16:9

9.5 - 12 V: EXT 4:3 j

9 - Video Ground H

10 - N.C.

11 - Green / Y 0.7 Vpp / 75 ohm j

12 - N.C.

13 - Video Ground H

14 - Video Ground H

15 - Red / V 0.7 Vpp / 75 ohm j

16 - Status / FBL 0 - 0.4 V: INT

1 - 3 V: EXT / 75 ohm j

17 - Video Ground H

18 - Video Ground H

19 - CVBS 1 Vpp / 75 ohm k

20 - CVBS 1 Vpp / 75 ohm j

21 - Shielding Ground H

CL 06532130_002.eps

031000

S-Video

Video

L

Audio

R

SIDE I/OFRONT CONTROL

V+V-

P-

P+

IR

RED

TOP CONTROL

L

S

R

AUDIO

OUT

75 Ohm

SERVICE

CONNECTOR

CL 36532058_080.eps

101003

EXTERNAL 2

EXTERNAL 1

121

202

CL96532137_056.eps

171199

Technical Specifications, Connections, and Chassis Overview EN 3A02E 1.

External 2: CVBS and Y/C - In/Out (for recorder)

Figure 1-4 SCART connector

1 - Audio - R 0.5 Vrms / 1 kohm k

2 - Audio - R 0.5 Vrms / 10 kohm j

3 - Audio - L 0.5 Vrms / 1 kohm k

4 - Audio Ground H

5 - Audio Ground H

6 - Audio - L 0.5 Vrms / 10 kohm j

7 - C-in 0.7 Vpp / 75 ohm k

8 - CVBS-status 0 - 1.3 V: INT

4.5 - 7 V: EXT 16:9

9.5 - 12 V: EXT 4:3 j

9 - Video Ground H

10 - Easylink (P50) j

11 - N.C.

12 - N.C.

13 - Video Ground H

14 - Video Ground H

15 - C 0.7 Vpp / 75 ohm j

16 - N.C.

17 - Video Ground H

18 - Video Ground H

19 - CVBS-out 1 Vpp / 75 ohm k

20 - YCVBS-in 1 Vpp / 75 ohm j

21 - Shielding Ground H

1.3 Chassis Overview

Figure 1-5 PWB location

121

202

CL96532137_056.eps

171199

CL 36532058_053.eps

211103

LARGE SIGNAL PANEL A

VDAF + 2ND ORDERS

PANEL I

DC SHIFT PANEL

(OPTIONAL) G

SMALL SIGNAL BOARD

B

CRT/SCAVEM PANEL

F

FRONT INTERFACE PANEL J

TOP CONTROL PANEL E

SIDE I/O PANEL

D

Service Modes, Error Codes, and Fault Finding

EN 14 A02E5.

5. Service Modes, Error Codes, and Fault Finding

Index of this chapter:

1. Test points

2. Service Modes

3. Problems and solving tips (related to CSM)

4. ComPair

5. Error Codes

6. The blinking LED procedure

7. Protections

8. Repair tips

9. Software downloading

5.1 Test Points

See chapter 6 " Block Diagrams, Testpoint Overview, and

Waveforms".

Perform measurements under the following conditions:

•Service Default Mode.

•Video: colour bar signal.

•Audio: 3 kHz left, 1 kHz right.

5.2 Service Modes

Service Default Mode (SDM) and Service Alignment Mode

(SAM) offer several features for the service technician, while

the Customer Service Mode (CSM) is used for communication

between a Philips Customer Care Centre (P3C) and a

customer.

There is also the option of using ComPair, a hardware interface

between a computer (see requirements below) and the TV

chassis. It offers the ability of structured troubleshooting, test

pattern generation, error code reading, software version

readout, and software upgrading.

Minimum requirements: a Pentium processor, Windows 95/

98, and a CD-ROM drive (see also paragraph “ComPair”).

5.2.1 Service Default Mode (SDM)

Purpose

•To create a pre-defined setting, to get the same

measurement results as given in this manual.

•To override SW protections (only when SDM is activated

via shorting the SDM pins on the SSB).

•To start the blinking LED procedure.

•Inspection of error buffer, life timer, and software version.

Specifications

•Tuning frequency: 475.25 MHz for PAL/SECAM.

•Colour system: SECAM L for France or PAL B/G for the

rest of Europe.

•All picture settings at 50 % (brightness, colour, contrast).

•All sound settings at 50 %, except volume at 25 %.

•All service-unfriendly modes (if present) are disabled, like:

–(Sleep) timer.

–Child/parental lock.

–Blue mute.

–Automatic volume limiter (AVL).

–Auto switch-off (when no video signal was received for

10 minutes).

–Skip/blank of non-favourite pre-sets.

–Hotel or hospital mode.

–Local keyboard block.

–Smart modes.

–Auto store of personal presets.

–Auto user menu time-out.

How to Activate SDM

Use one of the following methods:

•Use the standard RC-transmitter and key in the code

“062596”, directly followed by the “MENU” button.

Note: It is possible that, together with the SDM, the main

menu will appear. To switch it "off", push the “MENU”

button again.

•Short circuit, during switch "on" of the set, the two solder

pads on the SSB with the indication “FOR SERVICE”.

These solder pads are located at the "tuner" side of the

SSB (just above the large BGA IC).

Caution: If the SDM is activated via these pins, all the

software-controlled protections are de-activated for 15 s.

When these 15 s are expired, the set will shutdown to

protection mode.

•Use the DST-emulation feature of ComPair.

•Use the “DEFAULT” button on the Dealer Service Tool

(RC7150).

After activating this mode:

•“SDM” will appear in the upper right corner of the screen.

•Also, the error buffer, operating hours, and software

version are displayed (can be toggled "on/off" with the

"STATUS / OSD / [i+]" button).

•Blinking LED procedure will be started.

•All software-controlled protections are overridden for 15 s.

When these 15 s are expired, the set will shutdown to

protection mode.

Contents of SDM:

•HRS. Displays the accumulated total of operation hours

(not the standby hours) in hexadecimal value.

•SW. Displays the date of the software and the software

version of the ROM

example: A02EB1_1.00 = AAABBC-X.YY.

–AAA= chassis name.

–BB= region and/or function name: E= Europe, A= Asia

Pacific, U= NAFTA, L= LATAM, B= Basic, T= Top, P=

PAL, N= NTSC, S= Stereo, M= Mono.

–C= the language cluster number.

–X.Y= the software version, where X is the main version

number (different numbers are not compatible with one

another) and Y is the sub version number (a higher

number is always compatible with a lower number).

•ERR (followed by maximal 8 errors). The most recent error

is displayed at the upper left (for an error explanation see

paragraph “Error Codes”).

How to navigate

•When you press the “MENU” button on the RC transmitter,

the set will toggle between the SDM and the normal user

menu (with the SDM mode still active in the background).

•When you press the “STATUS / OSD / [i+]” button on the

RC transmitter, the set will toggle only display "SDM". This

mode is useful when performing measurements, then the

OSD info will not generate interference.

How to exit SDM

Use one of the following methods:

•Switch the set to STANDBY via a standard customer RC-

transmitter (the error buffer is erased).

•Via a standard customer RC-transmitter: key in “00”-

sequence (the error buffer is not erased).

5.2.2 Service Alignment Mode (SAM)

Purpose

•To perform alignments.

•To change option settings.

•To easily identify the used software version.

•To view operation hours.

•To display / clear the error code buffer.

Service Modes, Error Codes, and Fault Finding EN 15A02E 5.

Specifications

•Operating hours counter.

•Software version.

•Option settings.

•Error buffer reading and erasing.

•Software alignments.

•Disable service unfriendly modes.

How to activate SAM

Use one of the following methods:

•Via a standard RC transmitter: key in the code “062596”

directly followed by the “STATUS / OSD / [i+]” button.

•Use the DST-emulation feature of ComPair.

•Press the "ALIGN" button on the DST while the set is in the

normal operation

After activating this mode, “SAM” will appear in the upper right

corner of the screen.

Contents of SAM:

•HRS. Displays the accumulated total of operation hours

(not the standby hours) in hexadecimal value

Note: every time the set is switched "on" by the mains

switch or the RC, the timer is increased by 0.5.

•SW. Displays the software version of the ROM

example: A02EB1_1.00 = AAABBC-X.YY.

–AAA= chassis name.

–BB= region and/or function name: E= Europe, A= Asia

Pacific, U= NAFTA, L= LATAM, B= Basic, T= Top, P=

PAL, N= NTSC, S= Stereo, M= Mono.

–C= the language cluster number.

–X.Y= the software version, where X is the main version

number (different numbers are not compatible with one

another) and Y is the sub version number (a higher

number is always compatible with a lower number).

•ERR (followed by maximal 8 errors). The most recent error

is displayed at the upper left (for an error explanation see

paragraph “Error Codes”).

•CLEAR ERRORS. When you press the “OK” button, the

error buffer is reset.

•OPTIONS. Extra features for Service.

•AKB. Disable (off) or enable (on) the "black current loop"

(AKB= Auto Kine Bias). For Vg2 alignment.

•VSD. Disable (off) or enable (on) the vertical deflection

(VSD= Vertical Scan Disable).Do not use (will cause a

protection). Is for future use.

•TUNER. This will activate the “TUNER” alignments sub-

menu.

•WHITE TONE. This will activate the “WHITE TONE”

alignments sub-menu.

•GEOMETRY. This will activate the “GEOMETRY”

alignments sub-menu.

•SOUND. This will activate the “SOUND” alignments sub-

menu.

•SMART SETTINGS. This will activate the “SMART

SETTINGS” alignments sub-menu.

•STORE. This will save the new settings/alignments.

•EEPROM TEST. This will report if the SW checksum is OK.

Convenient after SW upgrading.

•VID RAM TEST. This will check the continuity of the

address bus and data bus of the Video RAM.

•VG2. This feature is not implemented yet. Do not use.

Note: Alignments are described in chapter 8 "Alignments".

How to navigate

•In SAM, you can select the menu items with the “CURSOR

UP/DOWN” key on the RC-transmitter. The selected item

will be highlighted. When not all menu items fit on the

screen, move the “CURSOR UP/DOWN” key to display the

next/previous menu items.

•With the “CURSOR LEFT/RIGHT” keys, it is possible to:

–(De) activate the selected menu item.

–Change the value of the selected menu item.

–Activate the selected submenu.

•When you press the “MENU” button on the RC transmitter,

the set will toggle between the SAM and the normal user

menu (with the SAM mode still active in the background).

How to exit SAM

Use one of the following methods:

•Switch the set to STANDBY via the RC-transmitter (the

error buffer is erased).

•Via a standard customer RC-transmitter: key in “00”-

sequence (the error buffer is not erased).

5.2.3 Customer Service Mode (CSM)

Purpose

When a customer is having problems with his TV-set, he can

call his dealer or the Philips helpdesk (P3C). The service

technician can than ask the customer to activate the CSM, in

order to identify the status of the set. Now, the service

technician can judge the severity of the complaint. In many

cases, he can advise the customer how to solve the problem,

or he can decide if it is necessary to visit the customer.

The CSM is a read only mode; therefore, modifications in this

mode are not possible.

How to activate CSM

Use one of the following methods:

•Press the “MUTE” button on the RC-transmitter

simultaneously with any key on the TV for at least 4

seconds.

•Key in the code “123654” via the standard RC transmitter.

Notes:

•Activation of the CSM is only possible if there is no (user)

menu on the screen!

•During CSM, sound volume is set to 25% of the scale,

"Smart Sound" is set to "Theatre" mode, and "Smart

Picture" is set to "Rich/Movies" mode temporarily to ensure

a good picture and sound of the working set. After leaving

CSM, the original settings are restored.

How to navigate

By means of the “CURSOR-DOWN/UP” knob on the RC-

transmitter, you can navigate through the menus.

Contents of CSM

The following information is displayed on screen:

•Text “CSM” on the first line.

•Line number for every line (to make CSM language

independent).

•Option code information.

•Configuration information.

•Service-unfriendly modes.

1. 28PW8609/12 (if present). Type/model number according

to the Philips standard.

2. SOFTWARE. Software version AAABBC-X.YY.

3. HOURS ON. Operating hours (in hexadecimal).

4. CODES. Shows the contents of the error buffer (the word

“error” may not be used on this screen, instead “codes” is

used).

5. OP. Option code information.

6. SYSTEM. "XXXXXX" is the (colour) system that is set for

this preset (this is not applicable to NAFTA and AP-NTSC

models).

7. NO SIGNAL. No "ident" signal present (VID status bit in

MPIF) on selected source.

8. TIMER ON (if present). Timer (in "FEATURE" menu) is

activated.

9. CHANNEL LOCKED (if present). Child Lock is activated

(i.e. when local keyboard is locked).

10. NOT PREFERED (if present). Current channel is defined

as skipped or non-preferred.

Service Modes, Error Codes, and Fault Finding

EN 16 A02E5.

11. HOTELMODE ON/OFF (if present). Shows if the HOTEL

mode is activated (only for Europe and AP).

12. SOURCE. Selected source before entry of CSM; XXX

(channel no.), external source name (i.e. AV1, CVI, EXT1,

etc...).

13. SOUND. Selected SOUND mode; "XX"= MONO, NICAM,

STEREO, L1 (Language 1), L2 (Language 2), SAP,

VIRTUAL, or DIGITAL prior entry to CSM.

14. VOLUME. Volume level before entry of CSM (typ. 00..100).

15. BALANCE. Balance level before entry of CSM (typ. -

50..50).

16. BRIGHTNESS. Brightness level before entry of CSM (typ.

00..100).

17. COLOR. Colour level before entry of CSM (typ. 00..100).

18. CONTRAST. Contrast level before entry of CSM (typ.

00..100).

19. HUE (if present). Hue level before entry of CSM (typ. -

50..100).

How to exit CSM

Use one of the following methods:

•After you press a key on the RC-transmitter (with exception

of the “CHANNEL”, “VOLUME” and digit (0-9) keys), or

•After you switch the TV-set “OFF” with the mains switch.

•After 15 min. no RC or local keyboard actions.

5.3 Problems and Solving Tips (related to CSM)

Note: Below described problems are all related to the TV

settings. The procedures to change the value (or status) of the

different settings are described above. New value(s) are

automatically stored.

5.3.1 Picture Problems

Picture too dark

1. Press SMART PICTURE on the RC. In case the picture

improves, increase the “Brightness” or the “Contrast”

value. The new value(s) are automatically stored (in

“personal” pre-set) for all TV channels.

2. Check in CSM lines BRIGHTNESS and/or CONTRAST. If

the value of line BRIGHTNESS is low (< 10) or the value of

line CONTRAST is low (< 10), increase them.

Picture too bright

1. Press SMART PICTURE on the RC. In case the picture

improves, decrease the “Brightness” or the “Contrast”

value. The new value(s) are automatically stored (in

“personal” pre-set) for all TV channels.

2. Check in CSM lines BRIGHTNESS and/or CONTRAST. If

the value of line BRIGHTNESS is high (> 40) or the value

of line CONTRAST is high (> 50), decrease the

“Brightness” or the “Contrast” value.

White line around picture elements and text

1. Press SMART PICTURE on the RC. In case the picture

improves, decrease the “Sharpness” value. The new value

is automatically stored (in “personal” pre-set) for all TV

channels.

2. Check in CSM line SHARPNESS. Decrease the

“Sharpness” value. The new value is automatically stored

for all TV channels.

No picture

Check in CSM line 7. In case this line shows NO SIGNAL,

check the aerial cable/aerial system.

Blue picture

No proper signal is received. Check the aerial cable/aerial

system.

Blue picture and/or unstable picture

A scrambled or decoded signal is received.

Black and white picture

Check in CSM line COLOR. In case the value is low (< 10),

increase the “Color” value. The new value is automatically

stored for all TV channels.

No colours/colour lines around picture elements or

colours not correct or unstable picture

1. Check in CSM line SYSTEM. If a “strange” system pops up,

something has gone wrong during installation. Re-install

the channel.

2. In case line SYSTEM is “FRANCE”, the installed system for

this pre-set is SECAM, while PAL is required. Install the

required program again: open the installation menu and

perform manual installation. Select system “West Europe”.

Menu text not sharp enough

1. Press “SMART PICTURE”. In case picture improves,

decrease the "Contrast" value. The new value(s) are

automatically stored for all TV channels.

2. Check in CSM line CONTRAST. If the value of this line is

high (> 50), decrease the "Contrast" value.

5.3.2 Sound Problems

No sound from left and right speaker

Check in CSM line VOLUME. If the value is high, increase the

value of “Volume”. The new value(s) are automatically stored

(in “personal” pre-set) for all TV channels.

Sound too loud for left and right speaker

Check in CSM line VOLUME. If the value is low, decrease the

value of “Volume”. The new value(s) are automatically stored

(in “personal” pre-set) for all TV channels.

5.4 ComPair

5.4.1 Introduction

ComPair (Computer Aided Repair) is a service tool for Philips

Consumer Electronics products. ComPair is a further

development on the European DST (service remote control),

which allows faster and more accurate diagnostics. ComPair

has three big advantages:

•ComPair helps you to quickly get an understanding on how

to repair the chassis in a short time by guiding you

systematically through the repair procedures.

•ComPair allows very detailed diagnostics (on I2C level) and

is therefore capable of accurately indicating problem areas.

You do not have to know anything about I2C commands

yourself because ComPair takes care of this.

•ComPair speeds up the repair time since it can

automatically communicate with the chassis (when the

microprocessor is working) and all repair information is

directly available. When ComPair is installed together with

the SearchMan electronic manual of the defective chassis,

schematics and PWBs are only a mouse click away.

5.4.2 Specifications

ComPair consists of a Windows based faultfinding program

and an interface box between PC and the (defective) product.

The ComPair interface box is connected to the PC via a serial

or RS232 cable.

For this chassis, the ComPair interface box and the TV

communicate via a bi-directional service cable via the service

connector.

Service Modes, Error Codes, and Fault Finding EN 17A02E 5.

The ComPair faultfinding program is able to determine the

problem of the defective television. ComPair can gather

diagnostic information in two ways:

•Automatic (by communication with the television):

ComPair can automatically read out the contents of the

entire error buffer. Diagnosis is done on I2C level. ComPair

can access the I2C bus of the television. ComPair can

send and receive I2C commands to the micro controller of

the television. In this way, it is possible for ComPair to

communicate (read and write) to devices on the I2C

busses of the TV-set.

•Manually (by asking questions to you): Automatic

diagnosis is only possible if the micro controller of the

television is working correctly and only to a certain extends.

When this is not the case, ComPair will guide you through

the faultfinding tree by asking you questions (e.g. Does the

screen give a picture? Click on the correct answer: YES /

NO) and showing you examples (e.g. Measure test-point I7

and click on the correct oscillogram you see on the

oscilloscope). You can answer by clicking on a link (e.g.

text or a waveform picture) that will bring you to the next

step in the faultfinding process.

By a combination of automatic diagnostics and an interactive

question / answer procedure, ComPair will enable you to find

most problems in a fast and effective way.

Beside fault finding, ComPair provides some additional

features like:

•Up- or downloading of pre-sets.

•Managing of pre-set lists.

•Emulation of the Dealer Service Tool (DST).

•If both ComPair and SearchMan (Electronic Service

Manual) are installed, all the schematics and the PWBs of

the set are available by clicking on the appropriate

hyperlink.

Example: Measure the DC-voltage on capacitor C2568

(Schematic/Panel) at the Mono-carrier.

–Click on the “Panel” hyperlink to automatically show

the PWB with a highlighted capacitor C2568.

–Click on the “Schematic” hyperlink to automatically

show the position of the highlighted capacitor.

•SW upgrading

5.4.3 Stepwise Start-up

This is realised via ComPair and is very helpful when a

protection is activated (see also chapter “Protections”).

Under normal circumstances, a fault in the power supply, or an

error during start-up, will switch the television to protection

mode. ComPair can take over the initialisation of the television.

In this way, it is possible to distinguish which part of the start-

up routine (hence which circuitry) is causing the problem.

Take notice that the transition between two steps can take

some time, so give the set some time to reach a stable state.

During the transition time, the LED can blink strangely.

On activating Service mode, protections and other errors can

be trapped by powering the TV in stepwise fashion as

explained below. The "stepwise start-up" mode is done in the

specified sequence. Before activating this mode, all the

protections are disabled and are only enabled step-by-step, to

trap the errors more appropriately.

The following steps are involved.

Step 0: Standby.

•Pre-condition: The set is in protection mode.

•Post-condition: The set is switched to the stepwise start-up

mode. Only the necessary Standby Supply is present, all

other supplies are switched "off".

Step 1: Power "on".

•Pre-condition: All protections are disabled, sound

amplifiers are muted, and general initialisation is done.

•Post-condition: 8V and 5V supplies are "on". Degaussing

is "on" and switched "off" after 3 s. The supply fault

protections are enabled.

Step 2: Initialised.

•Pre-condition: Step 1 is done. No supply protection faults

are detected.

•Post-condition: ADOC, MPIF, and Tuner components are

initialised.

Step 3: Deflection "on".

•Pre-condition: Step 2 is done. No protection faults

detected.

•Post-condition: Deflection is switched "on". The horizontal

deflection fault protections are enabled.

Step 4: TV "on".

•Pre-condition: Step 3 is done. No protection faults

detected.

•Post-condition: Picture tube is switched "on". Sound

amplifiers are demuted. The X-ray/beam current fault

protections are enabled.

Note: When the set is in stepwise mode and, due to stepping-

up, a protection is activated, the set will really go into protection

(blinking LED). The set will not leave the stepwise-mode

however. If state X is the state where the set went to protection,

stepwise start-up will return to state X-1. At state (X-1)

diagnostic measurements can be performed. Also, in the short

time, the set is in state X but not in protection, you can also do

some measurements.

5.4.4 How To Connect

1. First, install the ComPair Browser software (see the Quick

Reference Card for installation instructions).

2. Connect the RS232 interface cable between a free serial

(COM) port of your PC and the PC connector (marked with

“PC”) of the ComPair interface.

3. Connect the mains adapter to the supply connector

(marked with “POWER 9V DC”) of the ComPair interface.

4. Switch the ComPair interface “OFF”.

5. Switch the television set “OFF” with the mains switch.

6. Connect the ComPair interface cable between the

connector on the rear side of the ComPair interface

(marked with “I2C”) and the ComPair connector at the rear

side of the TV.

7. Plug the mains adapter in a mains outlet, and switch the

interface “ON”. The green and red LEDs light up together.

The red LED extinguishes after approx. 1 second while the

green LED remains lit.

8. Start the ComPair program and read the “Introduction”

chapter.

Figure 5-1 ComPair Interface connection

5.4.5 How To Order

ComPair order codes:

CL96532156_029.eps

190600

PC VCR I2CPower

9V DC

R

L

AUDIO EXTERNAL 1

EXTERNAL 2

SERVICE

CONNECTOR

Service Modes, Error Codes, and Fault Finding

EN 18 A02E5.

•Starter kit ComPair32/SearchMan32 software and

ComPair interface (excl. transformer): 3122 785 90450.

•ComPair interface (excluding transformer): 4822 727

21631.

•Starter kit ComPair32 software (registration version): 3122

785 60040.

•Starter kit SearchMan32 software: 3122 785 60050.

•ComPair32 CD (2003 update): 3122 785 60110.

•SearchMan32 CD (2003 update): 3122 785 60120.

•ComPair interface cable: 3122 785 90004.

•ComPair firmware upgrade IC: 3122 785 90510.

•Transformer Europe: 4822 727 21632.

•Transformer UK: 4822 727 21633.

5.5 Error Codes

5.5.1 Introduction

The error code buffer contains all detected errors since the last

time the buffer was erased. The buffer is written from left to

right, new errors are logged at the left side, and all other errors

shift one position to the right.

When an error has occurred, the error is added to the list of

errors, provided the list is not full or the error is a protection

error.

When an error occurs and the error buffer is full, then the new

error is not added, and the error buffer stays intact (history is

maintained), except when the error is a protection error.

To prevent that an occasional error stays in the list forever, the

error is removed from the list after 50+ operation hours.

When multiple errors occur (errors occurred within a short time

span), there is a high probability that there is some relation

between them.

5.5.2 How to read the Error Buffer

Use one of the following methods:

•On screen via the SAM (only if you have a picture).

Examples:

–0 0 0 0: No errors detected

–6 0 0 0: Error code 6 is the last and only detected error

–9 6 0 0: Error code 6 was first detected and error code

9 is the last detected error

•Via the blinking LED procedure (when you have no

picture). See next paragraph.

•Via ComPair.

5.5.3 How to clear the Error Buffer

Use one of the following methods:

•By activation of the “CLEAR ERRORS” command in the

SAM menu.

•With a normal RC, key in sequence “MUTE” followed by

“062599” and “OK”.

•When you transmit the commands “DIAGNOSE” - “99” -

“OK” with ComPair (or with a DST).

•If the content of the error buffer has not changed for 50+

hours, it resets automatically.

5.5.4 Error Codes

Error codes are required to indicate failures in the TV set. In

principle a unique error is available for every:

•I2C device error.

•I2C bus error (for every bus containing two or more I2C

devices).

•Protection error (e.g. +8V protection or Horizontal

protection).

•Error not related to an I2C device, but of importance (e.g.

BC-loop, RAM error).

Table 5-1 Error Table

Service tips:

•In case of non-intermittent faults, clear the error buffer

before you begin the repair. This to ensure that old error

codes are no longer present. Before clearing the buffer,

write down the content, as this history can give you

significant information.

•If possible, check the entire contents of the error buffer. In

some situations, an error code is only the result of another

error code and not the actual cause (e.g., a fault in the

protection detection circuitry can also lead to a protection).

5.6 The Blinking LED Procedure

5.6.1 Introduction

Via this procedure, you can make the contents of the error

buffer visible via the front LED. This is especially useful for fault

finding, when there is no picture.

When the SDM is activated, the front LED will show (blink) the

contents of the error-buffer. Error-codes > 10 are shown as

follows:

1. A long blink of 750 ms (which is an indication of the decimal

digit),

2. A pause of 1500 ms,

3. “n” short blinks (where “n” = 1 - 9),

4. When all the error-codes are displayed, the sequence

finishes with a LED blink of 3000 ms,

5. The sequence starts again.

Example: Error 12 9 6 0 0.

After activation of the SDM, the front LED will show:

1. 1 long blink of 750 ms (which is an indication of the decimal

digit) followed by a pause of 1500 ms,

2. 2 short blinks of 250 ms, followed by a pause of 3000 ms,

3. 9 short blinks of 250 ms, followed by a pause of 3000 ms,

4. 6 short blinks of 250 ms, followed by a pause of 3000 ms,

5. 1 long blink of 3000 ms to finish the sequence,

6. The sequence starts again.

5.6.2 How to activate

Use one of the following methods:

•Activate the SDM (only via soldering pads marked “FOR

SERVICE” on the SSB). The blinking front LED will show

the entire contents of the error buffer (this works in “normal

Error Description

0 No error

1 Horizontal Protection (via NOHFB bit in ADOC)

3+8V error (missing/protection active by checking

MPIF ASUP bit))

4X-ray/High beam current protection signal (via

XPROT bit in ADOC)

5 Hardware Protection is active (same as EMG)

7 Under-voltage protection

11 MPIF I2C communication failure / MPIF test failed

12 BC-loop not stabilised within the time limit (i.e. after

timer is expired)

13 NVM I2C communication failure

14 Main tuner I2C failure UV13xx

17 3D Combfilter I2C communication failure

18 PIP Tuner I2C failure

19 2fH component input I2C failure (PCF8574)

21 PIP IF demodulator IC TDA988x communication

failed (only for PIP/DW sets)

22 Flash over protection error (to register CRT flash-

overs, via FPR bit in ADOC)

Service Modes, Error Codes, and Fault Finding EN 19A02E 5.

operation” mode and in “protection” mode). In order to

avoid confusion with RC5 signal reception blinking, this

LED blinking procedure is terminated when an RC5

command is received.

•Transmit the commands “MUTE”, “06250x”, and “OK” with

a normal RC (where “x” is the position in the error buffer

that has to be displayed). With x= 1, the last detected error

is shown, x= 2 the second last error, etc.... When x= 0, all

errors are shown.

•“DIAGNOSE X” with the DST (where “x” is the position in

the error buffer that has to be displayed). With x= 1, the last

detected error is shown, x= 2 the second last error, etc....

When x= 0, all errors are shown.

Note: It can take some seconds before the blinking LED starts.

5.7 Protections

5.7.1 Introduction

Fault protections are introduced to avoid unacceptable

temperature rising and burning hazards. If a fault situation is

detected, an error code will be generated and if necessary, the

set is put in protection mode.

The protection mode is indicated by the blinking of the front

LED at a frequency of 3 Hz (or by a coded blinking in special

cases). For the customer, it is made impossible to switch "on"

the set during a protection.

It is possible to determine the type of fault by interpreting the

blinking pattern of the LED indicator. It is also possible to read

out the error codes from the NVM via ComPair. It is possible to

de-activate the protection states in the Service Default Mode.

The following protections are implemented:

Table 5-2 Protections overview

The protections are split up in the following order:

•I2C related protections.

•ADOC related protections (via polling on I/O pins or via

algorithms).

•DOP related protections (mainly for deflection items).

•Hardware errors that are not sensed by the OTC (e.g.

vertical flyback protection, bridge coil protection, E/W

protection, arcing protection).

All faults detected are re-checked five times before the

protection mode is triggered. It should be noted that supply

fault detection/protection are enabled only after the chassis

power supply has been established. Likewise, after the line

drive starts, the deflection detection/protection must be

enabled. To prevent false activation of protection mode during

power mode transitions, interrupts related to supply fault and

deflection fault are disabled.

5.7.2 I2C Related Protections

In normal operation, some registers of the I2C controlled ICs

are refreshed every 200 ms. During this sequence, the I2C

busses and the I2C ICs are checked.

An I2C protection will take place if the SDA and SCL lines are

short-circuited to ground, or to each other. An I2C error will also

occur, if the power supply of the IC is missing.

5.7.3 ADOC Related Protections

If a protection is detected at an ADOC input, the uP will start to

scan all protection inputs every 200 ms for five times. If the

protection on one of the inputs is still active after 1 s, the

microprocessor will put the set in the protection mode. Before

the scanning is started, a so-called “ESD refresh” is carried out.

This is done, because the interrupt on one of the inputs is

possibly caused either by a flash or by ESD. As a flash or ESD

can influence IC settings, the key ICs are initialised again, to

ensure the normal picture and sound conditions of the set.

Under Voltage Protection

The under voltage protection is needed due to the non-isolated

chassis architecture used in A02. Whenever there is a short

circuit in the Deflection yoke coil or in the Audio power supply,

the averaged Horizontal Flyback Voltage (HFB_XRAY_PROT)

will fall. After signal conditioning, this voltage is fed to the

"KEYBOARD_ADC" input. When this input of the MIPS

controller is less than a certain level, the under voltage

protection is activated. This is done by the normal keyboard

polling mechanism.

The protection mode is activated after five consecutive

occurrences. Response time required is 2 s. This is to avoid set

going to under voltage protection mode during start up, since

the HFB will only be stable w.r.t. mains on for about 1.6 s.

Figure 5-2 Under Voltage Protection

+8V Protection

Hardware is employed for the detection of +8V supply fault. A

hardware interrupt (MPIF-IRQ) is generated by the MPIF when

the +8V supply falls below the IC specification.

To avoid false detection, the corresponding interrupt sub

routine checks the status of “ASUP” bit in the MPIF status

register for five times consecutively with an interval of 200 ms

before triggering the protection mode. Response time required

is 1.2 s.

Protection Detection

method

Bit name Detection

Under Voltage Via ADC (KB) ADC (KB) ADC input

+8V Supply Via MPIF_IRQ ASUP MPIF internal

register

Horizontal fly-

back

Via interrupts NOHFB ADOC internal

register (DOP)

X-ray Via interrupts XPROT ADOC internal

register (DOP)

Beam Current Via interrupts BCF ADOC internal

register (DOP)

Flash Hardware ctrl - Hardware

Arc Hardware ctrl - Hardware

Vertical Hardware ctrl - Hardware

East/West Hardware ctrl - Hardware

Bridge coil Hardware ctrl - Hardware

-Ve

Threshold

+Ve

Threshold

Signal

conditioning

Switch

MPIF

+8V

Voltage

divider

Signal

conditioning

FLASH

DOP

ADOC

BCL

NOHFB

XPROT

ADC

KEYBOARD

MPIF IRQ

MIPS CORE

CL 36532058_057.eps

091003

EHT-INFO

HFB_X-RAY- Switch

Inverter

-Ve

Threshold

<16Vp-p

When hor. Defl. coil or sound amp

s/c, HFB will drop at <16Vpp level.

The switch will put ADC keybd to low.

Switch

Service Modes, Error Codes, and Fault Finding

EN 20 A02E5.

Figure 5-3 +8V Protection

5.7.4 DOP Related Protections

The uP reads every 200 ms the status register of the DOP (via

the I2C bus). If a protection signal is detected on one of the

inputs of the DOP, the relevant error bit in the register is set to

“high”. If this error bit is still “high” after 1 s, the OTC will store

the error code in the error buffer of the NVM and, depending on

the relevancy of the error bit, the set will either go into the

protection mode or not.

Horizontal Fly Back Protection

Hardware is employed for the detection of a horizontal

deflection fault. The DOP core generates a hardware interrupt

when consecutive three horizontal flyback pulses are not

received at the HFB input of the DOP block of the ADOC IC.

To avoid false detection, the corresponding interrupt sub

routine checks the status of “NOHFB” status bit in the DOP

core for five times consecutively with an interval of 50 ms

before triggering the protection mode. The response time for

this protection needed is 300 ms.

Figure 5-4 Horizontal Fly Back Protection

X-Ray Protection (Over Voltage, USA only)

Hardware is employed for the detection of X-ray fault. A

hardware interrupt is generated by the DOP core when the

"XPROT" input of ADOC IC is pulled "HIGH" (flyback pulses

are > 27 V_pp).

To avoid false detection, the corresponding interrupt sub

routine checks the status of “XPROT” bit in DOP core for five

times consecutively with an interval of 50 ms before triggering

the protection mode. It should be noted that the “XPROT”

status is not reset on reading. It should be cleared by the

software explicitly.

Once the XRAY protection status is confirmed, the “PRD” bit

has to be set to "1" by software. This enables an automatic stop

of the H-out via Slow Stop initiated by auto-clearing the DFL bit.

Now, the protection mode is activated.

Figure 5-5 X-Ray Protection

Beam Current Protection

A hardware interrupt is generated by the DOP core when the

current at the BCL input of the ADOC IC exceeds the limit.

To avoid false detection, the corresponding interrupt sub

routine checks the status of “BCF” bit in DOP core for five times

consecutively with an interval of 50 ms before triggering the

protection mode. Once the BCL protection status is confirmed,

the “PRD” bit has to be set to "1" by software. This enables an

automatic stop of the H-out via Slow Stop initiated by auto-

clearing the "DFL" bit. Now, the protection mode is activated.

Figure 5-6 Beam Current Protection

Flash Protection

Flash detection is used to shutdown the set only if the Flash

occurs more than 5 times and is persistent. Therefore, this is a

method to protect the set from undue electrical stress because

of picture tube flashes. The flash detector circuitry uses the

"EHT_INFO" signal as input. Its output is connected to the

"FLASH" input of the DOP block of the ADOC.

When the "FLASH" input is pulled "HIGH", the ADOC’s

horizontal drive output stops immediately and the “FPR” status

bit of the DOP core is set to "1". The status is latched until

readout. With the absence of any other disturbances, the

horizontal drive output will restart after the "FLASH" input is

"LOW" again. No software interaction is required in this case.

The “FPR” bit has to be readout by polling at an interval of 500

ms. If the “FPR” status bit has been set to "1" for more than 5

times consecutively, then the protection mode has to be

triggered. Setting the “FPR” bit for less than 5 times by the

"FLASH" input does not need to trigger the protection mode

(shutting down of the H-drive should be enough).

FLASH

DOP

ADOC

BCL

NOHFB

XPROT

ADC

KEYBOARD

MPIF_IRQ

MIPS CORE

CL 36532058_059.eps

091003

-Ve

Threshold

+Ve

Threshold

Switch

Switch

+8V

Switch

Inverter

Voltage

devider

Signal

conditioning

-Ve

Threshold

EHT-INFO

HFB_X-RAY-

Signal

conditioning

MPIF

ASUP

Detection by MPIF. ASUP status bit will set to

High if +8V falls below threshold level.

-Ve

Threshold

+Ve

Threshold

Signal

conditioning

Switch

Switch

MPIF

+8V

Voltage

divider

FLASH

DOP

ADOC

BCL

NOHFB

XPROT

ADC

KEYBOARD

MPIF IRQ

MIPS CORE

CL 36532058_056.eps

091003

EHT-INFO

HFB_X-RAY- Switch

Inverter

-Ve

Threshold

Consecutively check for 5 cycles

for the presence of flyback pulses

Signal

conditioning

-Ve

Threshold

+Ve

Threshold

Signal

conditioning

Switch

Switch

MPIF

+8V

Voltage

divider

Signal

conditioning

FLASH

DOP

ADOC

BCL

NOHFB

XPROT

ADC

KEYBOARD

MPIF IRQ

MIPS CORE

CL 36532058_055.eps

011003

EHT-INFO

HFB_X-RAY- Switch

Inverter

-Ve

Threshold

>27Vp-p

If EHT is too high at defined level,

the switch will set XPROT to High

(over voltage).

-Ve

Threshold

+Ve

Threshold

Switch

Switch

MPIF

+8V

Switch

Inverter

Voltage

divider

Signal

conditioning

-Ve

Threshold

FLASH

DOP

ADOC

BCL

NOHFB

XPROT

ADC

KEYBOARD

MPIF IRQ

MIPS CORE

CL 36532058_058.eps

011003

EHT-INFO

HFB_X-RAY-

Signal

conditioning

When beam current is too high, at

defined level and will set BCL input

to=<1.2V, e7365. This bit is checked

for 5 consecutive cycles to ensure

not caused by other defect

(i.e flash-over).

Service Modes, Error Codes, and Fault Finding EN 21A02E 5.

Figure 5-7 Flash Protection

5.7.5 Hardware Related Protections

Due to the architecture (read “hot” deflection), some

protections cannot be sensed by the microprocessor. These

protections will lead to a protection on set level (Standby mode

and blinking LED).

Arc Protection

If there are “open” connections (e.g. bad solder joints) in the

high-energy deflection circuitry, this can lead to damaging

effects (read: fire). For that reason, the E/W current is sensed

(via 3479//3480). If this current becomes too high, the

“thyristor” circuit (TS7653 and TS7654) is triggered. TS7442 is

switched “on” and TS7443 is forced into conduction. The “SUP-

ENABLE” signal is shorted now to ground level, which will force

the Main Power Supply to Standby mode. This prevents further

arcing.

Vertical Protection

If the frame stage generates no pulses, TS7641 will block.

TS7443 is now switched “on”, which will lead to Standby mode.

Therefore, in normal operation condition, TS7641 and TS7652

are conducting, while TS7443 is blocked.

EW protection

Several faults in the defection circuit can cause excessive

currents through MOSFET 7480. The temperature of this

device can become too high, causing an unsafe situation. The

power supply is shut down in the above-mentioned way.

Caution: All hardware deflection protections can be disabled

by interrupting R3403 on the LSP.

However, be careful: unsafe situations (heat) can occur or the

picture tube can be destroyed.

Bridge coil protection

According safety regulations, every coil may be short-circuited.

By doing this in the secondary winding of coil L5422, high

currents will flow in the winding. With no safety circuit, the coil

will begin to burn soon.

This is sensed via the “EW” signal going to the base of TS7652

(via R3495 and D6499). In a normal situation, the voltage on

C2498 (diagram A4) is high and TS7652 is conducting. When

bridge coil 5422 (diagram A3) is short circuited, the voltage on

C2498 changes to low, which will block TS7652. In this case,

also TS7641 will block and the voltage on 2642 will rise until

TS7443 is forced in conduction. The “SUP-ENABLE” signal (in

normal operating condition -20 V) is shorted now to ground

level, which will force the Main Power Supply to Standby mode.

Note: Maximum EW width settings can also cause a

protection.

5.8 Repair tips

5.8.1 Miscellaneous

The relay you hear when you switch the set “on” (from Standby

or via the mains switch), is from the degaussing circuitry. It is

not used for switching the Power Supply (as done in the MG-

chassis).

•Take care not to touch the “hot” heatsink while

disconnecting the SSP, despite the fact that the mains cord

is out of the mains socket. There still can be an annoying

rest-voltage on the heatsink for a short while, because the

discharge resistors 3502 and 3503 (on the LSP between

hot and cold part) are not stuffed for Europe. Instead,

discharge resistors 3066 and 3057 on the Mains Switch

panel are used, but because they are located before the

Mains switch, they only discharge when this switch is “on”.

Advice: when you want to disconnect the SSP, first

disconnect the Mains cord, but keep the Mains Switch in

the “on” position.

•Where the circuitry was too “crowded” for service printing,

you can find the correct location on the “test point

overviews” in this manual.

•A very large part of the LSP is “hot”, such as:

–The primary part of the Standby Supply.

–The whole Main supply (except for the secondary

Audio supply).

–And the complete deflection circuitry (so notice that the

deflection coil is hot!).

5.8.2 Start-up/Shut-down Sequence

For a detailed description, see chapter 9 " Circuit Descriptions,

Abbreviation List, and IC Data Sheets".

5.8.3 ComPair

This chassis does not have an IR transmitting LED (as in MG-

sets). Therefore, a “Service” (ComPair) connector is

implemented at the rear side of the set, which is directly

accessible. In addition to this, there is also a blinking LED

procedure to show the contents of the error buffer.

When you use ComPair, you have the possibility to activate a

“stepwise start-up” mode. With this mode, you can initiate the

start-up sequence step by step. This also means that in certain

steps, some protections are not activated. This is sometimes

very convenient during repair.

5.8.4 Protections

Activating SDM via the “service pads” will overrule the

processor-controlled protections, but not the hardware

protections.

Caution: When doing this, the service technician must know

what he is doing, as it could lead to damaging the set.

The “ARC”- and/or “BRIDGECOIL” protection are hardly ever

triggered, however:

•When you suspect the “ARC” protection, look for bad

solder joints and smell. By interrupting resistor 3497, this

protection is disabled (special attention needed!).

•When you suspect the “BRIDGECOIL” protection, which

can also be due to a too wide picture amplitude, shorten G

and S of the E/W MOSFET 7480. This will disable the

protection. You will now have minimal horizontal amplitude.

Re-align the horizontal amplitude in the SAM menu and

remove the G/S short of TS7480.

FLASH

DOP

ADOC

BCL

NOHFB

XPROT

ADC

KEYBOARD

MPIF_IRQ

MIPS CORE

CL 36532058_054.eps

011003

-Ve

Threshold

+Ve

Threshold

Switch

Switch

MPIF

+8V

Switch

Inverter

Voltage

divider

Signal

conditioning

-Ve

Threshold

EHT-INFO

HFB_X-RAY-

Signal

conditioning

Service Modes, Error Codes, and Fault Finding

EN 22 A02E5.

5.8.5 Main Supply

1. Replace FET 7504 and zener 6505.

2. Disconnect the SSP panel.

3. Short B and E of TS7529, in order to put the Main Supply

in “on”-mode (TS7529 is blocking then).

Caution: To prevent that R3403 and TS7443 will be

damaged, first disable the HW-protection of the

deflection circuit. Therefore, short-circuit C2642 on the

LSP (diagram A4).

4. Attach a load of 500 Ω to the V_BAT capacitor C2515 (the

supply can not work without a minimum load).

5. Use a variac, and slowly increase the V_MAINS. Measure

over sensing resistors R3514//15, if a nice sawtooth

voltage becomes available.

6. Also, measure the V_BAT. This may never exceed +141 V.

If it does, there is something wrong in the feedback circuitry

(e.g. regulator 7506).

Note: Be careful when measuring on the gate of FET TS7504.

This circuitry is very high ohmic and can easily be damaged

(first connect ground to measuring equipment, than measure

the gate).

5.8.6 Frame Deflection

Caution: When the Frame Deflection circuitry is suspected,

one must be careful. Because there is a DC-voltage on the

frame deflection, the beam current could damage the CRT

neck, leading to a defective CRT.

To prevent this from happening, you must:

1. Interrupt the resistors 3403 and 3404 on the CRT panel

(diagram F), in order to remove the “filament” voltage from

the tube (no beam current, so no chance of destroying the

CRT).

2. Interrupt resistor 3403 on the LSP (diagram A4) to disable

the “SUP-ENABLE” line.

3. Measure with a multi-meter, or better with an oscilloscope,

the functionality of the Frame stage.

4. After you have found the cause, exchange the defective

component (e.g. TDA8177), and re-solder the interrupted

resistors.

Table 5-3 Repair tips

5.9 Software Downloading

In this chassis, you can upgrade the software via ComPair.

You can find more information on how this procedure works in

the ComPair file. It is possible that not all sets are equipped

with the hardware, needed to make software upgrading

possible. To speed up the programming process the firmware

of the ComPair interface can be upgraded. See paragraph

“How To Order” for the order numbers.

Phenomenon Possible Cause Repair tip

No picture, no LED. Standby Supply defective. Measure circuitry (see diagram A2). Start at test-point A19.When the Mains switch is "on", this voltage must always be

available.

No picture, LED blinking at

3 Hz.

Set is in protection due to various

causes. For error codes see error-

code list.

You have no picture, so: read the error buffer via ComPair (error buffer is accessible when set is in protection, ComPair-

file will guide you to this). Read the blinking LED information via standard remote command mute-06250x-ok. Or you

read the error code sequence via standard remote command mute-062500-ok. When you have found the error, check

the circuitry related to the supply voltage and I2C-communication or the circuitry that triggers the protection.

No picture, LED blinking

with code 8-8-8-etc or 9-9-

9-etc.

No communication on slow I2C- or

fast I2C-bus.

As processor cannot communicate with one of the 2 busses it the standby-LED spontaneously starts blinking 8-8-8-etc

or 9-9-9-etc... If in the error buffer somewhere is an error 8 or 9, these will have the highest priority starting the mentioned

blinking. Measure dependent of the error on the I2C-bus which device is loading the bus (use the I2C-overview)

No picture, LED blinking

with code 13-13-13-etc.

No communication on NVM-I2C bus

to the uP.

As the uP cannot communicate with the NVM I2C bus, it spontaneously starts blinking 13-13-13-etc. Note: when there

is no access to the NVM, a lot of picture setting can go wrong.

No picture, no sound. Set is

making audible squeaking

sound

Supply is possibly in hiccup-mode,

which is audible via a squeaking

supply transformer.

Possible causes: V_BAT is shorted (caused by short circuited line transistor 7421), the sound winding is shorted

(amplifier is shorting the power supply lines), or D6514 is shorted (due to a too high V_BAT). Remove excessive load,

to see what causes the failure, or check feedback circuit. See repair tip "Main Power Supply" (supply needs a minimal

load).

No picture, no sound. Front

LED works fine

Supply does not work correctly. If e.g. V_BAT is only about 90 V, it is possible that the regulator IC (7506) is defective.

No RC-reception. Front

LED does not echo RC-

commands.

uP circuitry or RC-receiver is

defective.

In case the set does react on a local keyboard operation, you must check the RC-receiver circuitry (diagram J).

Relay (degaussing) is not

audible, when set is

switched from "off" or

"standby" to "on".

uP is not working correctly. When

line "DEGAUS" is low, the

degaussing must be activated.

Check RESET-circuitry (IC7581 on diagram B11). Check the level on line "DEGAUS" when you switch the set "on".

Signal must be low initially and go to high after approx. 12 s.

Picture is rotated. Rotation circuitry (if present) on

diagram A5, or related supply to it,

malfunctions.

Measure test points on diagram A5.

Picture is continuously

switching "off" and "on",

showing heavy "switch"

spots (set does not go into

protection).

200 V is missing on CRT panel. Probably a bad connection from LSP connector 1424 to CRT connector 1424 (diagram F), or an interruption of the

200 V supplies line (e.g. R3341 on circuit F1 is interrupted).

Picture is not sharp. Focus is possibly mis-aligned or

SCAVEM-circuitry does not work

correctly.

Re-align the "FOCUS" potmeter on the Line Output Transformer, or check the SCAVEM circuitry on the CRT-panel

(diagram F). It is also possible that the DAF circuitry is defective (see diagram I). Check the V_dc values.

Picture is distorted. Check video-path in Service Default

Mode.

Investigate whether there is an error code present in the error buffer. In case there is one, check the I2C-bus and/or

supply lines (see overview supply lines). Measure and check signal path Tuner-MPIF-ADOC-RGB amplifier. In case it

is a geometry issue, check on diagram A4 opto-coupler 7482, OpAmps 7440/7450 and the Frame circuitry alignments

or a possible corrupted NVM (IC7525 on diagram B11).

No menu, no OSD. Probably a defective uP (ADOC).

No Teletext. IC7730 defective or not powered. Check circuitry around IC7730 on diagram B13.

Strange switch "off"

behaviour

TS7445 possibly defective. Check, with a multi-meter, whether transistor TS7445 is well functioning. (diagram A3).

Various symptoms, due to

missing local supply

voltage.

An interrupted fuse, NFR-resistor or

connection.

When no symptom or error code leads you to a specific circuitry, use the supply lines overview (see supply lines

overview), for a quick scan of all supply lines.

Block Diagrams, Testpoint Overview, and Waveforms 23A02E 6.

6. Block Diagrams, Testpoint Overview, and Waveforms

Wiring Diagram

CL 36532058_006.eps

211103

SIDE

I/O PANEL

D

0240

CRT PANEL

(COMPONENT VIEW)

F

TOP CONTROL PANEL

E

A

B

VDAF +

2ND ORDERS

PANEL

1424

BLACK

RED

EHT

1483

1434

1435

1940

HEADPHONE

SVHS

RIGHT (RED)

LEFT (WHITE)

CVBS (YELLOW)

0215

0203 1951

1502

1491

1505

1735

1625

3642

1417

1936

1940

TUNER

1943

Compair

connector

LOT

I

FRONT

INTERFACE

PANEL

J

1201

1419

MAINS

SWITCH

SPEAKER L

SPEAKER R

CRT PANEL

F

SCAVEM

COIL

AQUADAG

DEGAUSSING COIL

ROTATING

COIL

CRT

DC

SHIFT

(OPTIONAL)

0317

G

LSP(LARGE SIGNAL PANEL)

1945

1947

1620

1499

1010

1009

TUNER

1498

1424

1417

1418

1497

1491

1510

0201

MAINS

CORD

2p

0202

CRT

SOCKET

7p

3p

11p

3p

3p

4p

X

2p

2p

2p

80p

SCART

2p

CINCH

2p

2p 2p

7p

11p

5p

2p

2p

2p

2p 2p

2p2p

11p

4p

3p 5p

11p

2p

SSB

SMALL SIGNAL BOARD

B

24A02E 6.

Block Diagrams, Testpoint Overview, and Waveforms

Block Diagram LSP Supply and Deflection

CL 36532058_003.eps

010903

LINE DEFLECTION

A3 DC-SHIFT

(OPTIONAL)

GDAF

LOT

I

MAIN SUPPLY A1A

FRONT INTERFACE

J

FRAME DEFLECTION

E/W DRIVE

A4

STAND-BY SUPPLY

A2

MAINS

SUPPLY

A1B

ROTATING CIRCUITRY

A5

B8

B11

F

2

1

A28

A15

A10

A11

A13

A16

A2

A45

A43

A44

A46

A47

A29

A25

A26

A24

A22

A31

A12

A3

A23

A20

A42

3431

2430

2431

6408

6080

6620

+11D

+5.2V

+5.2V_MP

DEGAUSSING

MAINS SWITCH

6407

6110

6117

6118

6119

3115

3116

+8V6-SWITCH

7133

7130

2126

7131

STP16NE06

STP16NE06

7140

7132

3173

7141

CONTROL

6113

1148

5112

3161

5111 5130

6130

6148

1A25

3415

94

5410

7421

BU2520DX

+141V

LINE

OUTPUT

CIRCUIT

+

EW

CORR.

5421

1417

61

3416

7408

SUP-ENABLE

COLD HOT

3404

7409

341434062492

+

LINEDRIVE 1

EW-DRIVE 1

MPIF

VTUN

57

1

2

5

+8V-S +141V

7482

3492

3484

3493 3488

7487

3483

EW

PROTECTION

CIRCUIT

3481

5467

6480

7480

STP3NB60

7486

E/W - DRIVE

FRAME DEFLECTION

4

7450-B

3654

6456

6

+VBATT

EHT

FOCUS B

DYNAMIC FOCUS

FILAMENT

HFB_X-RAY-PROT.

HFB_X-RAY-PROT.

200V

VG2

10

8

11

9

3

4

6

12

3450 3451

1491

+11D

+11D

+11D

1492

EHT-INFO

EHT-INFO

+11D

PORPOR

7445

FILAMENT

TO

CRT

A4

TO

E/W

DRIVE

F

A6

TO

1424

CRT

5

5430

HOT COLD COLD

AUDIO

B8

B8 B9

B8 B9

ADOC

B11

ADOC

HOT

COLD

HOT

1

5400

HOT

COLD

ADOC

HOT

ADOC

COLD

HOT

HOT

6514

3510

3527

3526

2523 2515

COLD COLD

HOT

COLD

6

5

5621

7614

3641

10

1

2

1

1417 1418

1497

5800

1693

2

1

1

1

2

1

0317

2

1

1419

1

2

2

1

4

1550

7501

7528

3

DEG.

COIL

1502

2

1

VERT.

DEFL.

COIL

1625

3627

6619

3647

3

1

5

8

6

2ROTATION

DEFLECTION

COIL

1620

2

3

4

5

6

7

1

7611

1424

B4 DAF

TO 1693

I

A8

31

7450-A

2

7

3

2622

5

4

-15V-LOT

62

OP. AMP

1

57

3455

3457

2403

7441

3459

7455

+8Vb

+13V-LOT

-15V_LOT

ARC-PROT

+8Vb

+8V6

65

5100

7103 OR

7104

7

8

10

3

6107

5103

6111

3113

6122

+11V_STBY

+11V_ROT

+11V

+5.2V

+5V

+5.2V_MP

+8V6

+8V6

+11V_STBY

6103

6109

-20V 5102

31205106

5517

2102

2

1

3456

2404

3419

7440-B

CURRENT

SOURCE

6

2

1

3

HFB_X-RAY-PROT

A3

B8

FRAMEDRIVE +

B11

ADOC

STANDBY

ADOC

ADOC

FRAMEDRIVE-

B8

FOCUS A

2

3

4

1

1495

3479

6491 EW

7442, 7654

7653

3660

+VBATT

+VBATT

3640

3631

+8V-S

6627 6626 6625

3642

3643

TV

3630

3632

3623

3620

5620

3634

FLYBACK

GENERATOR

3638 7620

TDA8177

7612

7641

7443

7652

TILT

ADOC

3480

STARTUP

V-START

+375V

SUP-ENABLE

51095101

3509

1501

RP

RS

3

21

3550

8+

0+

T5AH V

MAINS

FILTER

ACTIVATING

CIRCUIT

5502

5503

5504

5511

5516

3400

3437

3460

3461

3462

3463

6462

6463

2462

+13V - LOT

+13V LOT

TO

PANEL

ON

CRT

NECK

(optional)

-12V8

5463

6400

2442

2443

6460

5461

A32

2464

A37

A36

A40

A39

A33

A35

31

7440-A

3658

2

B7

3657

3464

34993498

3686

3684

+Vp

+11V_ROT

1601

125mA 7680

TDA7052

3685

7681

7682

3465

3449

6464

6465

-15V - LOT

5465

3

2

4

1

1

3

2

3506

7507

TCET1103

3507

3520

VBATT

ADJUSTMENT

3530

7506

TL431CZP

3531

5

3108 3118

GND-STB

GND-STB

GND-STB

5113

4

1

2

PROTECTION

CIRCUIT

SWITCH OFF

CIRCUIT

IN STAND-BY

D

S

G

THERMAL

PROTECTION

D

G

S

A21

+5V-SWITCH

CONTROL

3114

3124

+375V

-20V

-20V

A7

A6

6535

6539

5507

3514

5514

2512

+

GND-AUD

GND-FB

HOT GROUND

GND-SUPGND-FB

7529

-20V

SUP-ENABLE

6

5506 OR

5512

7502

7530

7504

0.4

7

9

10 N.C.

5

4

3

1

+28V

2542

+

2546

+

V-START

D

G

S

CONTROL

CIRCUIT

ACTIVATING

CIRCUIT

CONTROL

CIRCUIT

D

7102

7100

7101

7105

7120

STP3NB60

G

S

DG

S

1147

1A6

DC-

SHIFT

CIRCUIT

A4

SUP-ENABLE

COLD

HOR. DAF

CIRCUIT

VER. DAF

CIRCUIT

(OPTIONAL)

HOT

LINE

DEFLECTI

COIL

A18

A19

A17

A30

A48

A34

A49

A38

A5

2457

DEFLECTION

5401

1430

400 mA

3

121

A50

+13V-LOT

3635

3636

+11D +8Vb

1

2

3

7613

TL431

3637

+8V-S

1693

5104

FILA-

MENT

PULSES

7505, 7506, 7503

QUICK

SWITCH

OFF

MAIN SUPPLY

A1

1503

F2.5AH

2516

GND-STB

6525

GBU4J 2

1

3

+

+

-

4

SUP-ENABLE

A2

1

2

0201

1

2

1505

1

2

3

4

1951

1

2

0202

Block Diagrams, Testpoint Overview, and Waveforms 25A02E 6.

Testpoint Overview LSP and CRT

A1

50V / div DC

2us / div

PM3394B

A2

50V / div DC

5us / div

PM3394B

A3

50V / div DC

5us / div

PM3394B

PM3394B PM3394B PM3394B

A4

50V / div DC

5us / div

PM3394B

A5

5V / div DC

10us / div

PM3394B

A6 A7: 33V DC

A28: 206 V DCA26: A29: 11V4 DC

A20: 8V DC

A21: 5V1 DC

20V / div DC

10us / div

PM3394B

A10

50V / div DC

5us / div

PM3394B

A11

5V / div DC

5us / div

PM3394B

PM3394B

A12

2V / div DC

5us / div

PM3394B

A13

5V / div DC

10us / div

PM3394B

A14

200mV / div DC

10us / div

PM3394B PM3394B PM3394B

A17

20V / div DC

5us / div

PM3394B

A18

5V / div DC

5us / div

PM3394B

A19

1V / div DC

5us / div

PM3394B

PM3394B

A16

5V / div DC

5ms / div

A22

1V / div DC

10us / div

PM3394B

A23

200mV / div DC

10us / div

PM3394B

A24

5V / div DC

10us / div

PM3394B PM3394B A33

500mV / div DC

2ms / div

PM3394B

A36

200mV / div DC

10us / div

PM3394B

A37

500mV / div DC

2ms / div

PM3394B

A38

200mV / div DC

10us / div

PM3394B

A39

2V / div DC

10us / div

PM3394B

PM3394B

A43

10V / div DC

2ms / div

PM3394B

A44

200mV / div DC

2ms / div

PM3394B

A45

1V / div DC

10µs / div

PM3394B

A47

50V / div DC

10µs / div

PM3394B

A46

500mV / div DC

10µs / div

PM3394B

A48 A49: *V3 DC A50: *V DC

500mV / div DC

10µs / div

PM3394B PM3394B PM3394B PM3394B PM3394B PM3394B

F1

1 V / div DC

20µs / div

F2

Measured across

6, 10, 5300

1 V / div DC

20µs / div

F3

1 V / div DC

20µs / div

F4

20 V / div DC

20µs / div

F5

20 V / div DC

20µs / div

F6

20 V / div DC

20µs / div

F7

20 V / div DC

20µs / div

F8

20 V / div DC

20µs / div

F9

20 V / div DC

20µs / div

F10

50mV / div DC

20µs / div

A15

500mV / div DC

5ms / div

A25

200 V / div DC

10µs / div

A30 A31: 13V DC A32: 15V DC

50 V / div DC

10µs / div

A40

2 V / div AC

5ms / div

A41

2 V / div AC

5ms / div

A42

10 V / div AC

5ms / div

A35

500mV / div DC

2ms / div

PM3394B

A34

500mV / div DC

2ms / div

PM3394B

A56

20mV / div AC

1ms / div

A57

500mV / div AC

1ms / div

A58

20mV / div AC

200µs / div

A59

500mV / div AC

1ms / div

A68

500mV / div AC

20µs / div

A69

2 V / div DC

100ms / div

A70

2 V / div DC

100ms / div

A7

A20

7131

+8V6

G

S

D

A21

7141

+5V

S

D

G

A19

CL 36532058_007.eps

071003

LSP COPPER TRACK SIDE

SSB

MAINS

SUPPLY

TRAFO

5506

1424

1435

7307

TUNER

ECB

1

7

7421

LINE

7480

E/W

7620

FRAME

1

2

3

12

LOT 5430

11

10

49

58

6

80

11

1

1

8

A32

A43

A49

A33

A37

A36

A35

A69

A34

A38

A23

A59

A57

A56

A40

A15 A16

A71

A29

A13

A2

A6

A28

A46

A45

A44

A42

A68

A48

A47

A3

COLDHOTCOLD HOT

ATTENTION:

LIVE PARTS

7504

MAIN

SUPPLY

S

D

G

7701

AUDIO

AMPL

S

D

G

45

7680

ROTATION

51

610

1

14

12

STANDBY

SUPPLY

TRAFO

5100

15

106

A10

A11

A5

A12

A1

A4

A58

7102

STANDBY

SUPPLY

S

D

G

A1

A2

A3

A4

A5

A6

A7

A10

A11

A12

A13

A14

A15

A16

A17

A18

A19

A20

A21

A22

A23

A24

A25

A26

A28

A29

A30

A31

A32

A33

A34

A35

A36

A37

A38

A39

A40

A41

A42

A43

A44

A45

A46

A47

A48

A49

A50

A56

A57

E4

D3

D4

C4

C4

C5

A4

C2

C2

D3

D1

D1

C1

C1

B1

A1

A3

A2

A3

D8

D8

D8

D8

D7

G9

G10

G10

E9

E9

C8

D9

C9

D10

D9

C9

D10

E10

E10

E10

F10

E10

D7

E6

E7

E7

C9

D9

C6

B6

F1

F2

F3

F4

F5

F6

F7

F10

F11

F12

F13

14

A15

A16

A17

A18

A19

A20

A21

A22

A23

A24

E4

D3

D4

C4

C4

C5

A4

C2

C2

D3

D1

D1

C1

C1

B1

A1

A3

A2

A3

D8

D8

D8

A24

A22

A17

A14

A

12 3 4 5 6 7 8 9 10

B

C

D

E

F

G

A

B

C

D

E

F

G

1 2 3 4 5 6 7 8 9 10

A58

A59

A68

A69

A70

C6

B5

A9

A10

A10

CRT PANEL (COPPER TRACK SIDE)

11 1

B

G

R

F8

F11

F14

F13

F15

A18

A30

A41

A31

A50

A39

A26A25

A70

7

9

1

1

F9

F12

F6

F7

F3

SC3

F10

F1

F4

F5

F12

1 V / div DC

20µs / div

F13

1 V / div DC

20µs / div

SC3

20 V / div AC

20µs / div

3139 123 5523.1

3139 123 5746.2

26A02E 6.

Block Diagrams, Testpoint Overview, and Waveforms

Block Diagram 1 Audio & Video

CL 36532058_010.eps

210803

Block Diagrams, Testpoint Overview, and Waveforms 27A02E 6.

Block Diagram 2 Audio & Video

CL 36532058_014.eps

210803

28A02E 6.

Block Diagrams, Testpoint Overview, and Waveforms

Block Diagram 3 Audio & Video

CL 36532058_013.eps

210803

Block Diagrams, Testpoint Overview, and Waveforms 29A02E 6.

Testpoint Overview SSB

S1

100mV / div DC

20µs / div

S4

100mV / div DC

20µs / div

S3

100mV / div DC

20µs / div

S2

100mV / div DC

20µs / div

F014

1 V / div DC

1ms / div

F015

1 V / div DC

1ms / div

F016

500mV / div DC

1ms / div

F017

500mV / div DC

1ms / div

F060

500mV / div DC

20µs / div

F080

500mV / div DC

20µs / div

F064

500mV / div DC

20µs / div

F088

1 V / div DC

20µs / div

F089

1 V / div DC

20µs / div

F150: 3V2 DC

F152: 3V2 DC

F281: 3V2 DC

F381: 0V DC

F382: 0V DC

F383: 0V DC

F480

100mV / div AC

1ms / div

F481

100mV / div AC

1ms / div

F509

1 V / div DC

200µs / div

F508

1 V / div DC

500µs / div

F601: 1V8 DC

F650: 3V2 DC

F651: 1V8 DC

F652

500mV / div DC

500ns / div

F911

500mV / div DC

20µs / div

F913

500mV / div AC

10µs / div

F967

200mV / div AC

1ms / div

F941

2 V / div DC

20µs / div

F931

1 V / div DC

5ms / div

F929

500mV / div DC

5ms / div

F928

500mV / div DC

5ms / div

F926

1 V / div DC

10µs / div

F925

1 V / div DC

10µs / div

F969

500mV / div AC

1ms / div

F968

200mV / div AC

1ms / div

F970

500mV / div AC

1ms / div

F923

1 V / div DC

10µs / div

F924

1 V / div DC

10µs / div

I310

200mV / div DC

10µs / div

I308

200mV / div DC

10µs / div

I306

200mV / div DC

10µs / div

I437

20mV / div AC

200µs / div

I438

100mV / div AC

1ms / div

I436

20mV / div AC

500µs / div

S5

500mV / div DC

50ns / div

CL 36532058_008.eps

211103

I442 A4

I443 A5

I444 A5

I445 A5

I446 A5

I447 A6

I448 A6

I501 C4

I502 C6

I601 B5

I651 C7

I381 C3

I382 C3

I431 A4

I432 A4

I433 A3

I434 A3

I435 A4

I436 A4

I437 A4

I438 A4

I439 A3

I440 A4

I441 A4

I308 D4

I309 C4

I310 D4

I341 B5

I342 C5

I343 C5

I344 C5

I345 C6

I346 C5

I347 C5

I348 C5

I349 C5

I350 C5

I108 B2

I151 B1

I152 B1

I153 B2

I154 B2

I281 C2

I301 C4

I302 C4

I303 C4

I304 C4

I305 C4

I306 C4

I307 C4

I009 B2

I010 A2

I061 C2

I062 B1

I063 C1

I064 B1

I101 C2

I102 B2

I103 B2

I104 C2

I105 B2

I106 B3

I107 B2

F976 D7

F977 D6

F978 D7

F979 D7

F980 D7

I001 C1

I002 A2

I003 A2

I004 B2

I005 B1

I006 A2

I007 A2

I008 A2

F962 D5

F963 D6

F964 D6

F965 D6

F966 D6

F967 D6

F968 D6

F969 D6

F970 D6

F972 D7

F973 D6

F974 D6

F975 D7

F947 C5

F948 D5

F949 D5

F950 D5

F951 D5

F952 D5

F953 D5

F955 D5

F956 D5

F958 D5

F959 D5

F960 D5

F961 D6

F929 D3

F931 D3

F932 D3

F933 D4

F935 D3

F936 D3

F937 D3

F938 C4

F939 D2

F940 D4

F941 D4

F943 D4

F944 D4

F910 D2

F911 D2

F913 C2

F915 D2

F918 D2

F919 D3

F920 D3

F921 D3

F923 D3

F924 D3

F925 D3

F926 D3

F928 D3

F794 C5

F795 C5

F797 C6

F798 C6

F799 C6

F901 D1

F902 D1

F903 D1

F904 D2

F905 D2

F906 D2

F907 C2

F909 D2

F551 B3

F570 A5

F582 B6

F584 A7

F601 B5

F650 C6

F651 B6

F652 C6

F730 B5

F790 C5

F791 B5

F792 B5

F793 C5

F527 C2

F532 B3

F533 B4

F534 B4

F537 C4

F538 B4

F539 B4

F540 B4

F541 B4

F542 B4

F543 B4

F544 B4

F550 B3

F512 B3

F513 B3

F514 B3

F515 A7

F516 B4

F517 B4

F518 B4

F519 B3

F520 B4

F521 B3

F522 B3

F523 B3

F524 C4

F390 C3

F391 C3

F437 B4

F438 B3

F439 B4

F448 B4

F449 B4

F480 A5

F481 A5

F508 B4

F509 B4

F510 A3

F511 B3

F351 C4

F354 C3

F355 C5

F357 D5

F358 C5

F381 C3

F382 C4

F383 C3

F384 C3

F385 C3

F386 C4

F387 C3

F389 C3

F134 B2

F135 B2

F137 C2

F138 C2

F139 B2

F150 A1

F152 C1

F159 A2

F281 B4

F282 A4

F341 C4

F346 C4

F348 A1

F064 B1

F074 A2

F075 A2

F076 A1

F077 B1

F078 A1

F080 B1

F088 A2

F089 A2

F114 C2

F115 D2

F116 C1

F132 C1

1009 A2

F014 A3

F015 A3

F016 A4

F017 A4

F020 C1

F021 A2

F041 A1

F042 A1

F045 A1

F046 B1

F047 B1

F060 C2

2583

2582

S5

S4

63 62 61 60

S3 S2 S1

SIDE A SIDE B

3139 123 5536.2

30A02E 6.

Block Diagrams, Testpoint Overview, and Waveforms

I2C Overview

CONTROL

ADOC

TUNER

A7

SSB.

CONN.

B1

A69 A70

I2C Overview

SDA0

SCL0

AF6

7300-C

AE6

3511

3513

3523

3581

3515

SDA1

F-REF

0291

0290

IRQ-MPIF

SCL1

+5V2 +5V2

VDDE

VDEE

VDDE

3509 3510

AF7

3512

AD6

AF8

A26

AF2

WC

B11

7025

M24C64

(NVM)

EEPROM

7790

M58LW032A

RAM

FLASH

CONN.

DATA

FLASH

CONN.

ADDRESS

ERR

13

ERR

14

ERR

11

5

7

6

3201

54

3200 3261 3262

1200

TUNER

TEDE9

1205

SDA-S

SCL-S

0230

48

49

1

2

3

1943

COMPAIR

CONNECTOR

FOR SERVICE

(REACHABLE VIA

HOLE IN REAR

COVER)

CL 36532058_004.eps

030903

A8B18

MPIF

B1

B4

F509

F508

DATA

ADDRESS

B12

7100-D

MPIF

43

40

42

44

DIGITAL

BLOCK

7300-E

7300-k

Error Description

0 No error

1 Horizontal Protection (via NOHFB bit in ADOC)

3 +8V error (missing/protection active by checking MPIF ASUP bit))

4 X-ray/High beam current protection signal (via XPROT bit in ADOC)

5 Hardware Protection is active (same as EMG)

7 Under-voltage protection

11 MPIF I2C communication failure / MPIF test failed

12 BC-loop not stabilised within the time limit (i.e. after timer is expired)

13 NVM I2C communication failure

14 Main tuner I2C failure UV13xx

17 3D Combfilter I2C communication failure

18 PIP Tuner I2C failure

19 2fH component input I2C failure (PCF8574)

21 PIP IF demodulator IC TDA988x communication failed (only for PIP/DW Sets)

22 Flash over protection error (to register CRT flash-overs, via FPR bit in ADOC)

Block Diagrams, Testpoint Overview, and Waveforms 31A02E 6.

Supply Lines Overview

1

1947

6

1940

3941

3904

TUNER

SIM CONN.

A8

AUDIO AMPLIFIER

A6

HEADPHONE

AMPL.

A7

FRONT

A10 FRONT

J

VTUN 9

7.3

5901

6200

-C33

1200

TEDE9

TUNER

SBB

CONNECTOR

B18

1

0203

+5V2

43

40

+5V2

+8V

+5VA

+3V3

+8V

1000

STANDBY

STANDBY

+3V3

2x

6x

8x

8x

4x

5x

+5V

+8V

+5V2

1205

45

44

+3V3OUTIN

+5VT

+8V

+8VS2

+11V5

+11V

+8VS

+8V

+8V

+11V

+5V

+5V2

5903

+5V

1

+11V5

46

47

36

7910

9970

9972

OUTIN

7911

L78L05

7912

MC78M05

3907 3910

9909

9980

3

1

1492

+11D +11D

FILAMENT

PULSES

FILAMENT CRT

LINE

DEFLECTION

PANEL ON CRT

NECK

(IF APPLICABLE)

A3 F

F

+VBATT

SUP-ENABLE

5400 5401

+141V

+5V2

+11D

HOT COLD

LOT

HOT COLD

COLD

HOT

COLD

-15V-LOT

+13V-LOT

+13V-LOT

-15V-LOT

EW

LINE

DRIVE

HOT

5430

5

1

5410 7421

3465

6464

6465

3464

3400

3720

3721

3722

3300

3404

3403

LINE

OUTPUT

STAGE

9410

5465 3

3463

3499

6462

3461

12

9

6460

+11D

TO

3450

3451

5441

6400

FOCUS 2

FOCUS 1

EHT

3460

5461

3462

3498

3635

5463

1485

6

FILAMENT 2

7

1424 1424

8

6463

3

1

3

1

FRAME

DEFLECTION

E/W DRIVE

A4

COLD HOT

3449

7620

TDA8177

4

2

+11D +8Vb

+13V-LOT

+13V-LOT

+8V-S

+141V

-15V-LOT

-15V-LOT

7813

2

7

1

1940

+8V

N.C. +8V

200V

SCAVEM

6

1

1498 1499

+11D

1

DAF

I3809

11VDC

1492

3

1

3807 3808

5904

5902

+VBATT

1601

125mA

+11V_ROT +11V_ROT

17680

TDA7052

ROTATING

CIRCUITRY

A5

MAINS SUPPLY

STAND-BY SUPPLY

MAIN SUPPLY

A2

MAINS

SUPPLY

A1B

A1A

B11

A15

A10

A11

A13

A16

A2

A12

A3

A20

+5.2V_MP

DEGAUSSING

6110

6117

6118

6119

3115

3116

+8V6-SWITCH

7133

7130

2126

7131

STP16NE06

STP16NE06

7140

7132

3173

7141

CONTROL

6113

1148

5112

3161

5111 5130

6130

6148

1A25

VTUN

HOT

ADOC

COLD

HOT

6514

3510

3527

3526

2523 2515

COLD

HOT

COLD

1

2

2

1

4

1550

7501

7528

3

DEG.

COIL

1502

65

5100

7103 OR

7104

7

8

10

3

6107

5103

6111

3113

6122

+11V_STBY

+11V_ROT

+11V

+5.2V

+5V

+5.2V_MP

+8V6

+8V6

+11V_STBY

6103

6109

-20V 5102

31205106

5517

2102

2

1

STANDBY

+VBATT

+VBATT

STARTUP

V-START

+375V

SUP-ENABLE

51095101

3509

1501

RP

RS

3

21

3550

8+

0+

T5AH V

MAINS

FILTER

ACTIVATING

CIRCUIT

5502

5503

5504

5511

5516

3

2

4

1

1

3

2

3506

7507

TCET1103

3507

3520

VBATT

ADJUSTMENT

3530

7506

TL431CZP

3531

5

3108 3118

GND-STB

GND-STB

GND-STB

5113

4

1

2

D

G

S

A21

+5V-SWITCH

CONTROL

3114

3124

+375V

-20V

-20V

A7

A6

6535

6539

5507

3514

5514

2512

+

GND-AUD

GND-FB

HOT GROUND

GND-SUPGND-FB

7529

-20V

SUP-ENABLE

6

5506 OR

5512

7502

7530

7504

STP5NB60FP

7

9

10 N.C.

5

4

3

1

+28V

+28V 13-7701

(AUDIO AMPL.)

2542

+

2546

+

V-START

D

G

S

CONTROL

CIRCUIT

ACTIVATING

CIRCUIT

CONTROL

CIRCUIT

D

7102

7100

7101

7105

7120

STP3NB60

G

S

DG

S

1147

1A6

A4

A18

A19

A17

A5

5104

7505, 7506, 7503

QUICK

SWITCH

OFF

MAIN SUPPLY

A1

1503

F2.5AH

2516

GND-STB

6525

GBU4J 2

1

3

+

+

-

4

SUP-ENABLE

CRT

FRONT INTERFACE

J

MAINS SWITCH

1

2

0201

1

2

1505

1

2

3

4

1951

1

2

0202

B11

B5

VDDE 5283 To N23 7300-J (ADOC)

To AF3 7300-J (ADOC)

To P23 7300-J (ADOC)

To F23 7300-J (ADOC)

VIDEO DECODER

VDDCO 5281

5282

5285

B4

To 35 7100-D (MPIF)

To 28 7100-D (MPIF)

To 14 7100-D (MPIF)

+5V

MPIF - SUPPLY

+5V

+8V

5150

5151

5152

B13

To 3, 9 43, 49, 7730

To 1, 14, 27, 7730

CONTROL MEMORY (SDRAM)

VDDE

5731

5730

B11

+5V

CONTROL

+5V

+5V2

+5V2

VDDCO

VDDCO

VDEE

VDDE

B10

To 8 - 7480 (HP AMPL.)

AUDIO PROCESSING

+5V

+8V

+8v

To AD22-7300-B (ADOC)

VDDCO

To AC22-7300-B (ADOC)

VDDE

B12

To 9, 37, 43, - 7790 (RAM)

CONTROL MEMORY (RAM)

VDDE VDDE

B14

B15

VDDE

VDDCO

B14 ADOC SUPPLY

5600

5601

7650

CS51033YDR8

LOW VOLTAGE SUPPLY-ADOC

+5V2 +1V8

+3V3

+1V8

VDDE

VDDCO

5654 5651

+3V3 5659 CONTROL

B1

+5Vd

+5Vb

+5Va

+5V

IF & SAW FILTER

+5V

5135

5134

5102

5112

B3

To 98 7100-A (MPIF)

To 88 7100-A (MPIF)

To 77 7100-A (MPIF)

+5V

AUDIO SOURCE

SELECTION

+5V

3018

3019 3010

3011

B2

To 64 7100-B (MPIF)

To 49 7100-B (MPIF)

+5V

VIDEO SOURCE

SELECTION

+5V

5060

5061

+8Vc

+8Va

+8V

3134

(For PIP D/W Only)

F601

7651

STS5PF30L

F650

F651

5480

5452

5450

B9

3V3

PROTECTION

+3V3

+8V

+8v

To W1-7300-G (ADOC)

VDDE 3388

+8V

+8v

+3V3

+3V3

+5v

To M1-7300-F (ADOC)

VDDCO 5342

B8

To AA4 - 7300-F (ADOC)

To R3 - 7300-F (ADOC)

To N4 - 7300-F (ADOC)

To L2 - 7300-F (ADOC)

To M1 - 7300-F (ADOC)

SYNC & DEFLECTION

VDDE

5345

3340

5344

5343

5342

To L1 - 7300-F (ADOC)

3358

B7

+3V3

RGB PROCESSING

+3V3

+8V

+8v

+5V

+5v

To W4-7300-H (ADOC)

VDDE 5300

CL 36532058_005.eps

260903

32A02E 7.

Circuit Diagrams and PWB Layouts

7. Circuit Diagrams and PWB Layouts

Large Signal Panel: Main Supply

+t

Rs

Rp

+t

V

TO

0301 OF

FROM

0202 OF

DEGAUSSING

COIL

TO

FOR LATAM - AP SETS

T5AH- 250V FOR

MAIN SUPPLY

MAINS SWITCH

PANEL

HOT COLD

HOT HOT

COLD COLD

RES

A2-43

A8-30

A2-42

T6,3AH-250V

US/AP Single Range

*

*

*

*

A3-A4-23

ABOUT DC VOLTAGE MEASUREMENT

Normal

standby ( )

HOT

COLD

A1-8

F4AH-250V for

F2,5AH-250V FOR

AP/Euro Single Range

US/AP Full Range

143V FOR 120V SETS

277V FOR 230V SETS

A1-8

1 2 3 4 5 6 7 8 9

1 2 3 4 5 6 7 8 9

A

B

C

D

E

F

A

B

C

D

E

F

0043 D1

1500 A2

1501 A3

1502 C1

1503 A9

1505 A1

1510 F2

1550 D8

1590 A4

1591 A6

2505 E1

2507 B4

2508 B8

2509 B8

2516 B8

2517 B9

2520 C2

2521 E2

2528 E9

2529 F6

2533 F9

2537 A7

2539 E4

2545 E4

2547 C2

3500 B6

3501 A5

3502 F2

3503 F1

3509 B3

3516 C6

3521 B3

3524 E9

3528 E8

3529 E9

3532 D9

3534 F9

3537 C2

3541 F8

3548 F6

3550 B6

3551 F6

3554 E3

3555 E3

3556 E4

3557 F4

3558 E5

3559 E5

3560 F3

3561 E4

3562 A7

5502 B6

5503 B4

5504 B4

5511 A7

5515 C2

5516 A5

6507 E6

6508 E6

6511 D8

6512 D8

6513 E6

6522 E4

6525 A8

7501 E8

7503 F7

7505 E5

7508 E5

7528 E8

9501 A2

9502 B2

9503 A6

9504 B6

9507 A7

9513 B6

9516 B2

9518 C6

9519 B6

RES RES

AP/Euro Single Range

5V

0V

0V6

GND-STB

2533

DSP

1591

7505

BC857B

GND-SUP

9501

9502

2517

10n

BT151

7503

A1

47K

3532

470p

2521

9513

9503

100n

2XXX

1503

GND-STB

GND-STB

GND-FB

GND-STB

4n7

TUNERGND

3562

100R

9507

3561

1M

2545

1n

1M2

3560

3555

680K

3559

10K

7508

BF423

2539

10u

3558

47K

MCL4148

6522

3556

47K

3557

220K

3554

6M8

100n

2529

1K

3548

330R

3551

BZX384-C56

6513 6507

BZX384-C47

6508

BZX384-C56

22R

3541

GND-SUP

GND-SUP

GND-SSP

3537

1K

3500

1R

3

4

9518

9519

3550

1

2

3

54A-0018

5516

1

2

13

24

56

232266296

9516

1500

SDDF

5515

33u

47K

3524

33K

7501

BC847B

3534

HEATSINK

0043

123

1510

100n

2520

9504

3

4

2

1

6525

GBU4J

14

23

5511

2516

5502

1590

DSP

4M7

3521

22n

2537

3509

BAS216

6512

14

23

6511

BAS216

3501

100R

5503

1501

1u

3529

4K7

3528

10K

2528

12

BC337-25

7528

1

2

3516

1550

23

14

1502

2505

GND-SSP

2508

22n22n

2509

4M7

3502

4M7

3503

5504

14

23

1505

1

2

470n

2507

GND-FB

VBATT

VBATT

A2-8

CL 36532058_043.eps

040903

3139 123 5523.1

Item

Remarks

Europe

NAFTA

China

AP single range

AP full range

DESCRIPTION

1501 --- V ---

---

V FUSE 5X20 HT 6A3 250V IEC B

1501 V --- V V --- FUSE 5X20 HT 5A 250V IEC B

1503 --- V --- --- V FUSE 5X20 F 4A 250V IEC B

1503 V --- V V --- FUSE 5X20 F 2A5 250V IEC B

1591 V --- V --- V SURGE PROTECT DSP-501N-A21F A

2100 in A2 --- --- --- V --- CERSAF KX 250V S 470P PM10 B

2100 in A2 V V V --- V CERSAF KX 250V S 1N PM20 B

2503 V --- V V --- CAP MPOL 100V S 33N PM10 A

2503 --- V --- --- V CAP MPOL 100V S 39N PM5 A

2505 V V --- V --- CERSAF KX 250V S 470P PM10 B

2505 --- --- V --- V CERSAF KX 250V S 1N PM20 B

2506 --- V --- --- V CAP POL 50V S 47N PM10 COL A

2515 V --- --- --- --- ELCAP JA 200V S 47U P50M10 B

2515 --- V --- --- --- ELCAP JA 200V S 47U P50M10 B

2515 --- --- V --- --- ELCAP JA 200V S 47U P50M10 B

2515 --- --- --- V V ELCAP JA 200V S 47U P50M10 B

2516 --- --- --- --- V ELCAP USR 400V S 470U PM20 B

2516 --- --- V --- --- ELCAP LQ 450V S 220U PM20 B

2516 --- V --- --- --- ELCAP USR 200V S 680U PM20 B

2516 V --- --- V --- ELCAP 057 400V S 220U PM20 B

2517 --- --- --- --- V CAP MPOL 400V S 10N PM10 A

2518 V --- V V --- CER2 DC B 500V S 100P COL A

2518 --- V --- --- V CER2 DC B 500V S 330P COL A

2521 --- V --- --- V CERSAF KX 250V S 1N PM20 B

2524 V --- V V --- CER2 0603 X7R 50V 10N COL

2529 --- V --- --- V CER2 0603 Y5V 25V 100N COL

2531 V --- V V --- CER2 DC B 500V S 1N COL A

2531 --- V --- --- V CER2 DC B 500V S 1N5 COL A

2539 --- V --- --- V ELCAP 5MM 35V 10U PM20 COL A

2540 V --- V V --- ELCAP 50V S 1U PM20 COL A

2540 --- V --- --- V ELCAP 50V S 10U PM20 COL A

2541 V --- V V --- CER2 DC B 500V S 100P COL A

2541 --- V --- --- V CER2 DC B 500V S 330P COL A

2544 --- V --- --- V CER2 0603 X7R 50V 1N COL

2544 V --- V V --- CER2 0603 X7R 50V 2N2 COL

3500 --- V --- V V RST WW 10W RMW10L S 0R56 PM5

B

3502 --- V --- --- --- RST MGL VR37 A 4M7 PM5 A

3503 --- V --- --- --- RST MGL VR37 A 4M7 PM5 A

3505 --- V --- --- V RST CRB 1/6W A 150K PM5 COL A

3505 V --- V V --- RST CRB 1/6W A 22K PM5 COL A

3509 V --- V V V VDR DC 1MA/612V S MAX 1120V B

3509 --- V --- --- --- VDR DC 1MA/423V S MAX 800V B

3512 V --- V V --- RST SM 0603 220K PM5 COL

3512 --- V --- --- V RST SM 0603 330K PM5 COL

3514 V --- V V --- RST MFLM PR01 S 0R39 PM5 B

3514 --- V --- --- V RST POW 1W S 0R22 PM5 COL B

3515 V --- V V --- RST MFLM PR01 S 0R39 PM5 B

3515 --- V --- --- V RST POW 1W S 0R22 PM5 COL B

3518 --- V --- --- V RST MGL VR25 A 330K PM5 A

3518 V --- V V --- RST CRB 1/6W A 100K PM5 COL A

3519 V --- V V --- RST SM 0603 1K PM5 COL

3519 --- V --- --- V RST SM 0603 1K2 PM5 COL

3531 --- V --- --- V RST SM 0805 4K7 PM5 COL R

3531 V --- V V --- RST SM 0805 6K8 PM5 COL R

3538 --- V --- --- V RST SM 0805 33K PM5 COL R

3539 --- V --- --- V RST SM 0805 39K PM5 COL R

3540 --- V --- --- V RST CRB 1/6W A 10K PM5 COL A

3540 V --- V V --- RST CRB 1/6W A 33K PM5 COL A

3543 --- V --- --- V RST CRB 1/6W A 1K PM5 COL A

A1

50V / div DC

2us / div

PM3394B

Circuit Diagrams and PWB Layouts 33A02E 7.

Large Signal Panel: Main Supply

A3

E

F

G

H

A

B

C

D

E

F

G

H

1506 A2

2501 D3

2502 F6

2503 B8

2504 D2

2506 F6

2510 D8

2512 B11

2513 E5

2514 F5

2515 D9

2518 A7

2519 B10

2523 D10

2524 F6

2525 C4

1234567891011

1234567891011

A

B

C

D

30R

5519

2526 A1

2527 D8

2530 F9

2531 F6

2532 F10

2535 C1

2538 E4

2540 F10

2541 A7

2542 B11

2544 C2

2546 B10

3504 C3

3505 C4

3506 E5

3507 E6

3508 B5

3510 F7

A5

2541

3511 B7

3512 C5

3513 A3

3514 C2

3515 C1

3517 E8

3518 B3

3519 F8

3520 D5

3522 F5

3523 F5

3525 E5

3526 G7

3527 F7

3530 F6

3531 E7

3533 F10

3535 C1

3536 E9

3538 B7

3539 B7

3540 E6

3542 G7

3543 A8

3544 B7

3545 C3

3535

47R

3546 C3

3547 C3

3549 F7

3552 C2

3553 C2

5505 E8

5506 C8

5507 B9

5512 B9

5514 B10

5517 A2

5518 C1

5519 B2

3533

15R

5520 D7

6505 B2

6506 C4

6509 E4

6510 A4

6514 D9

6515 C1

6516 F9

6517 E9

3519

6518 B4

6519 B4

6520 C3

6523 G7

6530 D3

6533 G8

6534 D7

6535 B10

6537 F8

6538 D4

6539 B10

7502 C5

7504 B2

GND-FB

7506 F4

7507 D4

7529 F7

7530 C2

9505 G7

9510 E9

9511 C7

9571 G7

9572 B10

470p

470p

2527

GND-SUP

1

21506

VA

1K5

3536

3546

3505

22n

2504

10n

2524 820R

3510

2K2

3504

2531

10n

2502

GND-FB

GND-FB

2523

47u

6519

BYD33D

1u

2530

3518

1M

3523

BC847B

7530

9

5507

83R

A2

330p

2518

2510

220p

GND-STB

GND-STB

BYV28

6539

BY359X-1500

7507

TCET1103(G)

5512

S419C4-01

10

11

12

132

4

5

69

GND-FB

GND-FB

7502

BC547B

BZX79-C15

6505

A6

A4

3515

BC546B

7529

3543

10n

2538

2513

9571

47K

3517

9572

17V2

169V 18V2

*

HOT

*

*

144V

16V6

*

*

*

2V2

*

*

*

*

COLD

A2-12

A1-8

*

*

COLD

HOT

A2-44

Vbe=0V7

A3-A4-23

(Vbe=0V)

*

0V

*

MAIN SUPPLY

*

*

0V

*

32V

2V5

*

3538 33K

3539 39K

2519

2n2

5K63506

2n2

2526

3514

A7

2K

3527

GND-FB

6515

BZV85-C6V8

2544

3552

2506

83R

5505

47u

2515

3553

GND-STB

15R

3508

GND-FB

GND-SUP

BAS216

6523

33K

3520

BZX79-C33

6510

47R

3525

6533

BAS216

BZX284-C27

6518

6537

BAS316

14

32

BAS316

6538

3531

220K

3549

2542

470u

3544 39K

BAT254

6517

1m

2512

83R

5517

BYV95C

6530

2503

1u

2532

330K

3513

83R

5520

6516

BAS216

9505

33u5514

6534

7504

2514

2n2

9510

GND-AUD

220R

3547

5518

BAT254

160K

3507

6509

BAS216

6506

110

3

4

56

7

8

1n5

2525 5506

2K23511

3540

6514

BZT03-C

1K

3530

2

1

3

2535

4n7

6K8

3522

7506

TL431

2540

15K

3545

1n

2501

6535

STPS8H100

GND-AUD

2546

9511

3512

2m2

3542

0R15 0R1

3526

+28V

VBATT

GND-SUP

6520

1N4148

CL 36532058_044.eps

030903

FOR DIVERSITY TABLE SEE DIAGRAM A1A

A2

50V / div DC

5us / div

PM3394B A3

50V / div DC

5us / div

PM3394B A4

50V / div DC

5us / div

PM3394B A5

5V / div DC

10us / div

PM3394B A6

20V / div DC

10us / div

PM3394B

3139 123 5523.1

34A02E 7.

Circuit Diagrams and PWB Layouts

Large Signal Panel: Standby Supply

(0V)

(0V)

5V1 (0V)

(0V3)

A

B

C

D

E

F

G

H

A

B

C

D

E

F

G

H

1146 F15

1147 D15

1148 C11

2100 E8

2101 B6

2102 F3

2103 A5

2104 D9

2105 A5

2106 B15

2107 D9

2108 C6

1 2 3 4 5 6 7 8 9 101112131415

1 2 3 4 5 6 7 8 9 101112131415

*

*

**

2109 F9

2110 E5

2111 E6

2112 E6

2114 B4

2115 C9

2116 B9

2118 D11

2119 D10

2120 C11

2121 G2

2122 G2

2123 E6

2124 F6

2126 B15

2130 D14

2131 C13

2132 B14

2140 F13

2141 C13

2143 C11

2144 E5

2145 D5

2147 E13

2148 B11

2149 G9

+5V -switch

5V2 (5V3)

TO

N.C.

2150 C14

2151 F3

2152 C7

2153 F7

2154 B13

2155 F1

2156 F1

2157 F2

2159 C5

2160 B5

2161 B3

2162 C15

2163 B4

3101 B4

3102 B5

3103 B6

3104 D6

3105 B5

3106 F3

3107 E2

3108 E7

3109 E9

3111 B5

3113 E10

35v(0V)

3114 F9

3115 B10

3116 B10

3117 D5

3118 E7

3120 G3

3121 F3

3123 F10

3124 F9

3125 F4

3126 F4

3127 F5

3130 B13

3131 C12

3132 C13

3133 D15

3134 D14

3135 C14

3136 D13

3137 D11

3138 B4

A8-47

A3-48

138V

A1-8

HOT

STAND-BY SUPPLY

A1-43

3140 C14

3141 F13

3142 F13

3143 F13

3144 B12

3145 G6

3146 F7

3147 F6

3148 E6

3149 E6

3150 D6

3151 C14

3152 E5

3153 C14

3155 F13

3156 C14

3157 D14

3158 C15

3159 D13

3160 E6

3161 D10

3162 B12

3164 B13

3165 C15

3166 E9

4V6

A1-12

A1-42

RES

A1-44

166V

3167 E9

3168 B14

3169 F1

3170 F1

3171 C10

3172 C10

5100 C7

5101 B6

5102 G3

5103 C9

5104 C7

5105 C10

5106 G2

5107 D7

5108 E7

5109 C7

5110 C9

5111 C11

5112 C10

5113 D7

5130 B13

5131 F1

6103 G3

6104 B4

(0V)

+8V SWITCH

150V

6105 D6

6106 F4

6107 D9

6108 E5

6109 B3

6110 B9

6111 C9

6112 B13

6113 C11

6114 G5

6115 D6

6116 E7

6117 C12

6118 D12

6119 D12

6120 G10

6121 G10

6122 F10

6130 B11

6132 C14

6133 C12

6134 B12

6141 E14

6142 E5

6144 E5

6147 E7

6148 C11

13V1

6149 C15

7100 F4

7101 D5

7102 C6

7103 F8

7104 F8

7105 E6

7120 F2

7130 C14

7131 B13

7132 D14

7133 C13

7140 E14

7141 E14

9101 B7

9102 D12

9103 F8

9106 F8

A8-9

9107 C12

9108 D12

9112 C10

9122 D11

9123 F3

9126 E15

9128 F3

9129 E3

**

*

5V(0V)

COLD

2148

3n3

10u

2141

9108

5101

6104

PDZ-27B

9106

100R

2162

1u0

2151

100u

A13

A16

GND-STB

GND-STB

5105

2u2

3158

100R

2154

33n

3115

9126

9122

2124

MP125

1148

1A25

1K

3169

GND-STB

12

GND-SSP

1n5

2120

A19

2150

10n

10K

3157

3168

4K7

6141

BZM55-C15

3151

100R

3132

47R

2153

6148

BYV27-200

A12

A11

6147

BZX79-C6V8

2143

2n2

3131

470R

GND-SSP

GND-SSP

GND-SSP

220R

3144

30R

5106

100R

3143

1A6

MP160

1147

GND-STB

10u

5100

1N5062 (COL)

6109

10R

3121

22R

3113

2100

3106

1K

GND-SSP

3155

100R

STP16NE06

7141

7140

BC847B

3162

470R

BC847B

7130

100R

3135

3130

47R

7132

BC847B

GND-SSP

12

1K

3103

3118

1K

3105

9101

5109

83R

A14

A15

100n GND-STB

2114

9107

6119

BAS316

100p

2103

6133

MCL4148

7133

BC857B

10R

3120

100p

2105

2

9103

STPS8H100

6107

GND-STB

GND-STB

6115 BAT254

220R

3145

BZM55-C5V6

100R

3150

30R

5107

GND-SSP

A21

A20

3

4

5

1146

1

2

83R

5112

2108

10n

5108

GND-STB

3K3

3142

3116

15R

3125

3127

5K6

3140

100K

6121

1N4148

BYD33D

1

5

42

18V(0V) 0V(0V7)

19v(0V)

13V

12V

1N4148

6120

10V5

8V5(0V)

BC337-25

7101

6110

BYV27-200

7104

TCDT1102G

BYW29EX

1m

2118

4M7

3101

GND-STB

6113

220R

3114

7102 STP3NB60

6108

BAT254

BZX79-B22

6106

6103 10u

5102

2140

10u

GND-SSP

3n3

2107

BZX79-B3V9

6122

220n

2122

3108

2121

220n

2n2

1K

3102

BZX79-C15

6105

GND-STB

2101

47R

3117

470p

2160

TCET1102

7103

1

4

3

470p

2159

3111

1K5

GND-STB

A10

2132

2n2

GND-SSP

5130

83R

3164 100K

6112

BZX384-C10

6117

BAS316

BAS316

6118

9102

47R

3104

10K

3126

5103 6111

SB360

1u0

2109

47n

2111

10R

3123

68R

3124

2102

100u

1K

3107

3137

4K7

3166

680R

3167

680R

S22992-02

110

2

3

56

7

8

2K7

3141

6149

MCL4148

BAT254

6142

1u02144

2110

BC557B

7100

1u0

100n

2123

BC557B

7105

5104

83R

3159

10K

10K

3149

15n

220n

2152

2m2

2126

A17

6114

BYD33D

6116

GND-SSP

GND-SSP

47R

3146

2K2

3147

MCL41486144

2145

470p

A18

GND-SSP

STPS8H100

6130

5113

83R

3161

100R

2149

1u0

2147

15n

3160

1K

3153

4K7

3152 1K

5110

9112

1n

2131

10n2112

6132

BZX384-C6V8

GND-SSP

2106

2n2

3136

10R

22R

3148

6134

MCL4148

47K

3170

100u

5131

2155

100n

3165

100R

GND-STB

STP16NE06

7131

GND-STB

GND-SSP

2163

100n

100p

2116

83R

5111

3172

3171

GND-SSP

3n3

2157

9123

9129

10n

2156

BC847B

7120

3156

9128

3138

1M

2161

680p

GND-SSP

22u2115

3134

1K

GND-SSP

10n

2130

47K

3133

2104

2m2

680R

3109

2m2

2119

+11V_ROT

+375V

V-START

+8V6

+5V

STANDBY

+11V_STBY

+8V6

+11V

VTUN

+11V_STBY

+5.2V_MP

+11V

VTUN

-20V

+5.2V

+5.2V_MP

+5.2V_MP

STARTUP

CL 36532058_045.eps

030903

3139 123 5523.1

Item

Europe (single range)

Others (full range)

DESCRIPTION

2102 --- v ELCAP 25V S 100U PM20 COL A

2102 v --- ELCAP 50V S 10U PM20 COL A

2121 --- v CAP MPOL 250V S 22N PM10 A

2122 --- v CAP MPOL 250V S 22N PM10 A

2151 --- v ELCAP 25V S 100U PM20 COL A

2155 --- v CER2 0805 X7R 16V 100N COL R

2156 --- v CER2 0603 X7R 50V 10N COL

2157 --- v CAP POL 50V S 3N3 PM10 COL A

2159 --- v CER1 0603 NP0 50V 470P COL

2160 --- v CER1 0603 NP0 50V 470P COL

3106 --- v RST CRB 1/6W A 1K PM5 COL A

3106 v --- RST CRB 1/6W A 2K2 PM5 COL A

3107 --- v RST CRB 1/6W A 1K PM5 COL A

3107 v --- RST CRB 1/6W A 2K2 PM5 COL A

3120 v --- RST SM 0805 10R PM5 COL R

3121 --- v RST SM 0603 10R PM5 COL

3169 --- v RST SM 0603 1K PM5 COL

3170 --- v RST SM 0603 47K PM5 COL

5131 --- v IND FXD 04 A 100U PM10 COL A

7102 --- v FET POW STP5NB60FP

(

ST00

)

L

7102 v --- FET POW FQPF3N60

(

FSC0

)

L

7120 --- v TRA SIG SM BC847B

(

COL

)

R

9123 v --- WR CU-ETP SNPB5-PL 0.58MM COL

9128 v --- RST SM 0805 JUMP. 0R05 COL R

9129 --- v RST SM 0805 JUMP. 0R05 COL R

Circuit Diagrams and PWB Layouts 35A02E 7.

Large Signal Panel: Line Deflection

FOCUS

EHT

G2

*

RES

CRT

*

#

*

x

x

x

G

H

A

B

C

D

E

F

G

H

0040 H2

1417 B7

1424 A12

1430 C9

1491 B13

1492 C13

1493 B10

1495 G13

1498 C13

1499 C13

2400 G2

2401 A8

0V4

6V6

x

0V

10V4

#

-15V2

RES

NC

0V

FILAMENT PULSES

#

1 2 3 4 5 6 7 8 9 10 11 12 13 14

123456

RES

RES

RES

A8-41

A8-41

TO

LINE

*

*

RES

+11D

7 8 9 10 11 12 13 14

A

B

C

D

E

F

A3-48

*

0V

FILAMENT

A8-3

-12V8

*

RES

RES

TO

COIL VDAF

RES

2402 C12

2405 E9

2409 C3

2412 B3

2413 B3

2414 B3

2415 C2

2417 C4

2418 B5

2419 C6

2420 C5

2421 D6

2422 D6

2423 D6

2424 D8

2425 B5

2426 B5

2430 C7

HOT

13V7

0V

x

2431 C7

2432 D7

2433 D7

2434 D7

2435 B5

2440 E3

2441 E12

2442 D10

2443 E12

2444 F10

2445 E12

2450 B10

2460 D13

2461 C12

2462 G11

2463 G11

2464 H11

2465 H11

2468 C11

2469 C10

2488 B6

2492 C1

COLD

2494 A5

2495 A6

3400 B11

3401 A9

3402 A9

3404 D3

3406 C2

3407 C2

3409 B4

3410 A4

3411 B3

3414 C2

3415 A3

3416 A3

3417 C4

3423 B6

3425 C6

3426 C6

3431 C8

3435 D8

3436 D8

3437 D11

3440 F2

3441 E2

3442 F2

3443 E3

3444 E11

3445 E11

3446 E12

3447 D12

3448 F10

3450 A10

3451 A10

3452 F10

3453 F11

3454 D11

3460 C11

3461 C11

3462 G10

3463 G10

3464 H10

3465 H10

3469 D12

3498 H12

3499 H12

3689 C10

5400 G2

5401 A8

5402 A6

5410 B3

5411 B4

5421 C7

5422 F6

5423 B6

5424 E6

5425 C5

5426 A5

5430 A9

5461 C11

5463 G10

5465 H10

5466 C10

5469 B10

6400 B11

6401 F12

6406 C2

6407 A2

6408 A2

6409 D10

6410 D11

6411 E10

6412 E10

6413 E10

6414 E10

6415 F10

6421 A6

6422 C6

6423 B6

6434 E8

6435 D8

6460 C12

6462 G11

6463 H11

6464 H11

6465 H11

7407 F11

7408 D3

7409 C3

7421 B4

7445 F2

9401 A8

9410 C10

9417 C4

9423 B6

9425 C5

9426 A5

9484 A12

9623 B4

1492

VDAF

0V

11V2

COLD

HOT

A8-20

0V6

RES

A4-46

233V

*

0V1

TO

*

#

0V

TO

x

PANEL

= USA XRAY PROT

x

#

RES

RES

RES

RES

HOT

N.C

= AC FILAMENT

-1V4

RES

x

0V

0V

*

1491

TO

5V2

#

x

COLD

CRT PANEL

x

#

#

x

#

*

LINE DEFLECTION

+13V-LOT

DEFLECTION

DEFLECTION

POR-CIRCUIT

x= DC FILAMENT

0V4

A8-4

A1-A4-23

x

5V8

#

A6-A8-45

A3-48

RES

0224

LINE

EHT-INFO

6V6

0V4

13V7

RES

x

0V

RES

0V

3446

2423

470n

2431

3n3

A29

6460

BYV95C

A28

6423

BY228/20

560n

5423

2430

1

2

680n

2432

6464

BYW76

100R

3406

1u

2444

7408

BC368

BYV29X-500

6465

1491

1

2

1495

1

10R

3426

3452

470R

A22

5469

1K

3409

7407

BC817-25

A25

470p

2463

100u

2492

GND-SUP

GND-SUP

18u

5401

3442

2443

560p

33K

3435

10K

3451

1R

3465

330R

3414

3437

10R

10K

3407

64146415

PDZ-15B

220n

2417

5400

33u

22n

2445

2488

430n

3464

1R

1K

3689

5425

83R

PDZ-8.2B

9426

470p

6n8

2442

3402

120R

2421

680n

A30

3447

100R

SIN

1430

1

GND-SUP

GND-SUP

3u6

5421

4

CU20

5422

12

4

96

47R

3410

220n

2494

CU15

5424 43

21

BC847B

7409

BYW76

6462

A32

6434

3n3

5463

3441

22K

GND-SUP

8

9

1n2

2420

5430

OV2076

1

10

11

123

4

5

6

47n

2414

1

2

3

4

5

6

7

GND-SUP

6421

BY359X-1500

1424

3436

33K

22n

2441

2465

470p

3448

2K7

470p

2461

1R

3454

1n5

2405

BAS316

6413

2464

1m

2412

47n

2469

3n3

22u

5466

GND-SUP

2400

100R

3416

6435

BYD33J

47u

6411

7445

BC847B

220p

2415

150R

3431

BYV95C

6400

6408

BYD33D

9410

680K

3443

BYD33J

470p

2418

2426

27n

1m

2462

6463

BYV29X-500

3453

100R

11n

2425

MCL4148

6407

6422

BY229X-600

1u2

2422

GND-SUP

2495

220n

5461

3463

1R

10R

3425

A23

47p

2409

9417

470R

3404

1499

1

2

3450

10K

470p

2419

9425

2468

GND-SUP

2u2

2424

GND-SUP

15R

3415

100n

2450

1R

3460

3461

1R

9423

680n

2433

470K

2

3

4

470n

2434

1417

1

2

1R

3462

3469

1K

3445

BAS316

6412

A31

1492

1

2

3

10u

2413

560n

5411

BAS316

6401

1m

2460

3400

1498

150u

5402

1R

90R

5426

9623

10R

3417

1K

3440

A26

39R

3411

2440

1u

A24

9n1

2435

6R8

3423

3401

27R

33u

2402

MCL4148

6406

2401

6n8

123456

5R6

3498

0040

HEATSINK

9401

GND-SUP

6410

5R6

3499

3

6409

3444

1R

CE165T

5410

1

1

5465

7421

BU2520DX

SIN

1493

9484

+141V

EW

+13V-LOT

SUP-ENABLE

-15V-LOT

+11D+11D

+11D

LINEDRIVE1

VBATT +141V

+5.2V

+11D

GND-LINEDRIVE

EHT-INFO

CL 36532058_052.eps

030903

3139 123 5523.1

A25

200 V / div DC

10µs / div

A30

50 V / div DC

10µs / div

A22

1V / div DC

10us / div

PM3394B

A23

200mV / div DC

10us / div

PM3394B

A24

5V / div DC

10us / div

PM3394B

Item

Remarks

28WSRF EU LGPD MK2

32RF 4X3 NA TOS

29RF 4X3 AP SAM

32WSRF EU LGPD MK2

28SF 4X3 EU LGPD

32WSRF LA LGPD

36WSRF LA MEC

34WSRF NA MEC

34RF 4X3 AP LGPD

32RF 4X3 NA LGPD

27RF 4X3 NA SAM

30WSRF NA LGPD MK2

29RF 4X3 EU LGPD

36WSRF LGPD

DESCRIPTION

2405 V --- --- V --- V --- --- --- --- --- --- V --- CERSAF NSA 250V S 1N PM20 B

2405 --- --- --- --- --- --- --- --- --- --- --- --- --- V CERSAF KX 250V S 470P PM10 B

2420 V --- V V --- V --- --- --- --- V --- --- --- CAP PP-MPP 2KV S 1N PM5 B

2420 --- --- --- --- V --- --- --- --- --- --- --- --- --- CAP PP-MPP 2KV S 1N2 PM5 B

2420 --- --- --- --- --- --- --- --- V V --- V --- --- CAP PP-MPP 2KV S 680P PM5 B

2420 --- V --- --- --- --- --- --- --- --- --- --- --- --- CAP PP-MPP 2KV S 1N8 PM5 B

2420 --- --- --- --- --- --- --- --- --- --- --- --- V --- CAP PP-MPP 2KV S 1N5 PM5 B

2420 --- --- --- --- --- --- V V --- --- --- --- --- V CAP PP-MPP 2KV S 820P PM5 B

2421 --- V V --- --- --- --- --- --- --- --- --- V --- CAP MPP 250V S 560N PM5 B

2421 V --- --- V V V V V --- --- V V --- V CAP MPP 250V S 1U2 PM5 B

2421 --- --- --- --- --- --- --- --- V V --- --- --- --- CAP MPP 479 250V S 430N PM5 B

2425 --- V --- --- --- --- --- --- V V --- --- --- --- CAP PP-MPP 2KV S 8N2 PM5 B

2425 --- --- V --- V --- V V --- --- V --- V V CAP PP-MPP 2KV S 9N1 PM5 B

2425 V --- --- V --- V --- --- --- --- --- V --- --- CAP PP-MPP 2KV S 10N PM5 B

2426 --- --- --- --- --- --- --- --- --- --- V --- --- --- CAP PP-MPP 630V S 18N PM5 B

2426 V --- V V --- V V V --- --- --- V V V CAP PP-MPP 630V S 22N PM5 B

2426 --- --- --- --- V --- --- --- --- --- --- --- --- --- CAP PP-MPP 630V S 24N PM5 B

2426 --- V --- --- --- --- --- --- V V --- --- --- --- CAP PP-MPP 630V S 20N PM5 B

2433 --- --- V --- --- --- --- --- --- --- V --- V --- CAP MPP 250V S 510N PM5 B

2433 --- V --- --- --- --- --- --- --- --- --- --- --- --- CAP MPP 250V S 820N PM5 B

2433 V --- --- V V V V V --- --- --- V --- V CAP MPP 250V S 360N PM5 B

2433 --- --- --- --- --- --- --- --- V V --- --- --- --- CAP MPP 479 250V S 560N PM5 B

2441 --- --- --- --- --- --- --- --- --- --- --- --- --- V CER2 0805 X7R 50V 22N COL R

2441 --- --- --- --- --- --- --- --- --- V V --- --- --- CER2 0603 X7R 25V 22N COL

2442 --- --- --- --- --- --- --- --- --- V V --- --- V CER2 0805 X7R 50V 6N8 COL R

2443 --- --- --- --- --- --- --- --- --- V V --- --- --- CER1 0805 NP0 50V 560P COL R

2443 V V V V V V V V V --- --- V V V CER2 0805 X7R 50V 470P COL R

2444 --- V --- --- --- --- V V --- V V V --- V CER2 0805 X7R 16V 1U PM10 R

2445 --- --- --- --- --- --- --- --- --- --- --- --- --- V CER2 0805 X7R 50V 22N COL R

2445 --- --- --- --- --- --- --- --- --- V V --- --- --- CER2 0603 X7R 25V 22N COL

2450 --- --- --- --- --- --- VVVV---V---VCAP MPOL 63V S 220N PM10 A

2450 --- --- --- --- --- --- --- --- --- --- V --- --- --- CAP MPOL 63V S 330N PM10 A

2450 V V V V V V --- --- --- --- --- --- V --- CAP MPOL 100V S 100N PM10 A

2483 in A8 --- --- --- --- --- --- --- --- --- --- --- V --- --- CER2 0603 X7R 16V 100N COL

2483 in A8 V --- --- V --- V VVVV------VVCER2 0603 X7R 50V 15N COL

2496 in A8 V --- --- V --- V VVVV---VVVCER2 0603 X7R 16V 100N COL

2496 in A8 --- --- --- --- --- --- --- --- --- --- V --- --- --- CER2 0603 X7R 50V 6N8 COL

3427 in A8 --- --- --- --- --- --- --- --- --- --- --- --- V --- RST SM 0603 100K PM5 COL

3427 in A8 --- --- --- --- --- --- V V --- --- V V --- V RST SM 0603 56K PM5 COL

3427 in A8 V --- --- V --- V --- --- V V --- --- --- --- RST SM 0603 68K PM5 COL

3428 in A8 --- --- --- --- --- --- --- --- V V --- --- --- --- RST SM 0603 RC21 560K PM5 R

3428 in A8 --- --- --- --- --- --- --- --- --- --- --- --- --- V RST SM 0603 RC21 820K PM5 R

3428 in A8 --- --- --- --- --- --- --- --- --- --- --- V --- --- RST SM 0603 330K PM5 COL

3428 in A8 V --- --- V --- V V V --- --- V --- V --- RST SM 0603 680K PM5 COL

3429 in A8 V --- --- V --- V --- --- --- --- --- --- --- V RST SM 0603 10K PM5 COL

3429 in A8 --- --- --- --- --- --- --- --- --- --- --- V --- --- RST SM 0603 100K PM5 COL

3429 in A8 --- --- --- --- --- --- --- --- V V --- --- V --- RST SM 0603 22K PM5 COL

3429 in A8 --- --- --- --- --- --- V V --- --- --- --- --- --- RST SM 0603 33K PM5 COL

3430 in A8 --- --- --- --- --- --- --- --- --- --- --- V --- --- RST SM 0603 100K PM5 COL

3430 in A8 V --- --- V --- V --- --- --- --- --- --- --- --- RST SM 0603 12K PM5 COL

3430 in A8 --- --- --- --- --- --- VVVV------VVRST SM 0603 22K PM5 COL

3431 --- --- --- --- --- --- --- --- V V --- --- --- --- RST FUSE NFR25 S 220R PM5 A

3431 V V V V V V V V --- --- V V V V RST FUSE NFR25H S 150R PM5 A

3432 in A8 --- --- --- --- --- --- --- --- V V --- --- --- --- RST SM 0603 RC21 390K PM5 R

3432 in A8 --- --- --- --- --- --- --- --- --- --- V --- --- --- RST SM 0603 RC21 470K PM5 R

36A02E 7.

Circuit Diagrams and PWB Layouts

Large Signal Panel: Frame Deflection & E/W Drive

FLYBACK

GENERATOR

POWER

AMPLIFIER

THERMAL

PROTECTION

FRAME

EW

COLD HOT

RES

RES

RES

FRAME DEFLECTION & E/W DRIVE

FRAME DEFLECTION

-

FRAME

DEFLECTION

COIL

GD

S

***

RES

RES

RES

RES

RES

PROTECTION CIRCUIT

(SEE NOTE)

NOTE

BRIDGECOIL PROTECTION (5422) IS TRIGGERED VIA EW

13V7

-3V6

-15V2

4V1

0V1

-0V9

8V2

1V9

21V2

-11V7

21V2

0V3 21V1

22V5

22V7

1V

5V7

0V4

7V8

0V6

1V2

0V

0V7

7V9

0V

0V

0V5

0V

1V3

0V

0V4

7V9

2V6

A1-A3-23

7V9

A8-10

A8-11

A8-41

A8-6

A3-46

A3-46

(SEE DIAGRAM A3 ALSO)

TO

VDAF

RES

RES

RES

RES

RES RES

RES

RES

1V1

1V1

1V3

1V2

1V5

1V5

2V4

1V6

1V2

3V5

3V

13V5

12V3

0V

0V9

0V3

-10V

-16V

0V

0V7

21V1

3661

150R

G

H

A

B

C

D

E

F

G

H

1625 D12

1627 D12

1693 G4

2403 E3

2404 E2

2448 C11

2451 H2

2454 G2

2457 F3

2458 F1

2466 E12

2480 G9

2481 G8

2482 H9

2487 B12

2490 F7

8Vb

FRAMEDRIVE+

8Vb

FRAMEDRIVE-

8Vb

EW-DRIVE

12345678910111213

12345678910111213

A

B

C

D

E

F

2491 G12

2493 H3

2497 F11

2498 G13

2499 F12

2603 D6

2604 D9

2605 D5

6458

BZX384-C5V6

2620 D9

2621 E9

2622 B10

2623 D3

2624 D10

2625 D10

2657

10n

2627 D11

2628 B7

2629 D12

2630 D8

2631 C8

2633 E6

2635 B8

2642 C11

2653 E10

2656 C2

2657 C3

2659 D1

2660 G11

2661 D7

3491

GND-SUP

2662 D2

3403 B13

3412 F5

3418 G9

3419 E2

3420 E3

3421 E1

3422 E3

3449 G2

3455 E1

3456 E1

3457 E3

3458 F3

3459 F2

3466 F12

3467 B12

3472 F11

3474 F12

3475 G11

3476 F11

3478 G10

3479 G10

3480 G10

3481 G9

3482 G9

3483 G8

3484 G8

3485 G7

3486 G3

3487 G3

3488 F9

3489 G9

3490 F5

3491 G11

3492 F7

3493 F8

3495 G12

3496 H8

3497 E13

3610 C4

3611 D3

3620 E10

3621 E10

3622 E10

3623 E9

3624 D10

3625 D11

3626 D11

3627 D11

3628 B6

3629 D12

3630 C8

3631 C7

3632 D6

3633 C6

3634 D8

3635 B8

3636 B9

3637 B9

3638 C8

3639 D5

3640 B7

3641 D5

3642 C7

3643 C8

3644 C11

3645 B11

3646 D11

3647 D11

3648 E11

3652 C12

3653 D11

3654 G3

3655 C2

3656 C2

3657 D3

3658 D2

3659 D1

3660 C6

3661 D12

3662 C6

3663 D12

3664 D2

3665 C11

3688 H9

3690 D7

5467 G10

5620 C11

5621 C5

6405 B11

6442 C11

6455 F2

6456 G3

6457 H2

6458 H2

6480 F10

6481 G9

6482 G8

6483 G9

6491 F13

BAT254

6614

6493 G11

6494 G11

6499 G13

6614 D5

6615 F5

6616 D5

6617 C6

6618 C6

6619 D11

6620 B9

6621 B10

6622 C10

6623 C11

6624 D12

6625 A7

6626 A6

6627 A6

6628 D12

7440-A C3

7440-B E2

7441 E3

7442 E12

7443 B12

7450-A C4

7450-B G4

7455 F3

7480 G10

7482 G5

7483 F5

7486 G8

7487 G7

7611 C7

7612 E6

7613 B8

7614 D5

7620 C9

7641 B11

7652 C12

7442

BC857B

7653 G12

7654 F12

9405 G3

9481 G4

9482 G7

9483 F7

9499 G12

BC847B

7443

9620 C10

MCL4148

6624

9622 C10

47K

3646

GND-SUP

4K7

3475

2R2

3647

6628

MCL4148

GND-SUP

10u

2487

3497

3

2

BAV99

6456

1

6627

MCL4148

2631

2u2

2603

220p

3648

1R

2491

10u

3665

47R

3664

15K 6n8

2662 3690

1K

1n

2661

6626

MCL4148

6625

MCL4148

6457

BZX384-C2V7

1627

1

2

3

150K

3493

2605

1n

3422

470K

3421

3K3

3420

3K3

2403

1n

1n

2404 3419

470K

1693

9481

9405

3654

4K7

2493

3n3

GND-SUP

150R

3663

3688

100K

3653

22K

BAT254

6483

1K5

3662

330K

3643

6615

MCL4148

3K3

3490

A48

A46

A37

A38

A45 A47

A42

A43

A44

A49

A50

A39

A40

A41

A33

A35

A34

A36

2482

47n 15K3489

2660

1n

GND-SUP

680K

3488

2K2

3640

56K

3633

BC847B

7611

6618

MCL4148

6617

MCL4148

5K6

3660

BC847B

7614

470R

3641

6616

MCL4148

5621

S13974

110

3

56

33K

BAS216

2458

560p

6482

56K

3639

2K2

3611

2K7

3496

100K

3467

GND-SUP

GND-SUP

100n

3466

4K7

2623

2n2

2466

3457

1K5

2659

22n

GND-SUP

22n

2656

3628

100u

2628

100u

GND-SUP

100R

100R

3492

2490

470p

2448

47K

3642

GND-SUP

47K

3449

1m

2451

GND-SUP

100R

GND-SUP

GND-SUP

GND-SUP

GND-SUP

GND-SUP GND-SUP GND-SUP

GND-SUP

GND-SUP

2633

3495

33K

3610

6K8

3n3

15n

2457

1K8

3412

3478

100R BAT254

6494

MCL4148

470n

2498

6493

3n3

2499

2635

12

470R

3485

3635

330R

100n

3636

10K

3637

TL431CZ

7613

2

1

3

22K

6499

34763472

39K

BZX384-C10

2497

33n

220K

3474

56K

6491

1PS76SB10

7654

BC857B

9499

BYD33D

6480

7653

BC847B

STP3NB60

7480

5467

56K

3418

4R7

3480

100R

3479

4R7

BZX284-C15

6481

3481

100R

4n7

2480 2n2

2481

3482

3483

1K8

4K7

3484

BC847B

7486

BC847B

7487

94839482

7483

TCET1102

14

32

7482

TCDT1102G

15

42

8K2

3487

15n

2454

6K8

3486

6K8

3456

7441

BC857B

1K2

3656

3K3

3455

12K

3655

2K2

3659

4

22K

3657

3658

22K

3634

LM393D

7450-B

5

6

7

8

39K 39K

BC847B

7612

3632

33K 470K

3638

7450-A

LM393D

3

2

1

8

4

3630

6455

MCL4148

470R

3459

470R

3458

8

4

PMBT2369

7455

7

8

4

LM358N

7440-A

3

2

1

2K2

7440-B

LM358N

5

6

2u2

2630

3631

1625

1

2

3

3622

3R3

GND-SUP

1R

3620

3621

1R

2653

3n3

GND-SUP

18K

3623

2621

100n

2620

220n

2604

3403

100R

220n

150K

3645

GND-SUP

GND-SUP

BZX79-C47

6405

BC847B

100u

2642

100R

3652

7652

GND-SUP

7641

BC847B

MCL4148

6623

BZX284-C15

6442

220R

3644

2629

100n

3625

120R

100R

3629

3627

3626

100R

10u

2627

22K

90R

6619

BYD33D

1R5

3624

5620

470n 470n

2624

9622

2625

100u

6622

BZV85-C

6621

BYD33D

2622

9620

6620

BYV27-200

7620

FLYB

3

GND

4

IN+

7

IN-

1

OUT

5

VSUP

26

VSUPO

TDA8177

HFB_X-RAY-PROT

SUP-ENABLE

+141V

8Vb

+8V-S

EW

+141V

EW

+8V-S

+13V-LOT

+8V-S

+11D 8Vb

8Vb

+13V-LOT

-15V-LOT

+141V

CL 36532058_046.eps

040903

3139 123 5523.1

Item

28/32" WSRF LGPD

34/36" 4:3 RF TOSJ

29" 4:3 RF SMGK

28" 4:3 SF PHCO

36" WSRF MEC

32RF 4X3 NA LGPD

27RF 4X3 NA SAM

30WSRF NA LGPD

34 4:3RF AP LGPD

32WSRF LGPD MKII

29RF EU LGPD

36WSRF_LGPD

DESCRIPTION

1625 V V V V --- V VVVVV---CON V 3P M 2.50 BK EH-A B

1627 --- --- --- --- V --- --- --- --- --- --- V CON V 3P M 2.50 BK EH-A B

2490 V V V V --- --- --- --- --- V V --- ELCAP 10V S 100U PM20 COL A

2490 --- --- --- --- V V V V V --- --- V ELCAP 50V S 100U PM20 COL A

2498 V V V V --- --- --- --- --- V V --- CER2 0805 X7R 16V 1U PM10 R

2633 V V V V --- V VVVVV---CER2 0603 X7R 50V 3N3 COL

2633 --- --- --- --- V --- --- --- --- --- --- V CER2 0603 X7R 50V 6N8 COL

2653 --- --- V --- --- --- --- --- --- --- V --- CER2 0603 X7R 50V 2N7 PM10 R

2653 --- --- --- --- V V V V V --- --- V CER2 0603 X7R 50V 2N2 COL

2653 V V --- V --- --- --- --- --- V --- --- CER2 0603 X7R 50V 3N3 COL

2661 --- --- --- --- V --- --- --- --- --- --- V CER2 0603 X7R 50V 6N8 COL

2662 --- --- --- --- V V V V V --- --- V CER2 0603 X7R 50V 3N3 COL

3403 V VVVVVVVVVVVRST CRB 1/6W A 100R PM5 COL A

3412 V VVVVVVVVVVVRST SM 0603 1K2 PM5 COL

3418 --- --- --- --- V --- --- --- --- --- --- V RST MFLM MBB0207 A 47K PM1 A

3418 V V V V --- V VVVVV---RST MFLM MBB0207 A 56K PM1 A

3480 V --- --- V V --- --- V --- V --- V RST FUSE NFR25 S 4R7 PM5 A

3480 --- V V --- --- V V --- V --- V --- RST FUSE NFR25 S 6R8 PM5 A

3483 V --- V V V --- V V --- V V V RST SM 0603 1K8 PM5 COL

3483 --- V --- --- --- V --- --- V --- --- --- RST SM 0603 2K2 PM5 COL

3484 --- --- --- --- V V V V V --- --- V RST SM 0603 4K7 PM5 COL

3488 V --- V V V --- V V --- V V V RST MFLM MBB0207 A 1M PM1 A

3491 --- --- --- --- --- V V V V --- --- --- RST SM 0603 27K PM5 COL

3491 --- --- --- --- V --- --- --- --- --- --- V RST SM 0603 39K PM5 COL

3491 V V V V --- --- --- --- --- V V --- RST SM 0603 47K PM5 COL

3493 V V V V --- --- --- --- --- V V --- RST MFLM MBB0207 A 150K PM1 A

3495 V V V V --- --- --- --- --- V V --- RST MFLM MBB0207 A 15K PM1 A

3620 V --- --- --- --- --- --- --- --- V --- --- RST CRB CFR25S A 1R8 PM5 A

3620 --- --- --- V V --- --- --- --- --- --- V RST CRB CFR25S A 1R5 PM5 A

3620 --- V --- --- --- --- --- V --- --- --- --- RST CRB CFR25S A 1R2 PM5 A

3620 --- --- V --- --- V V --- V --- V --- RST CRB 1/6W A 1R PM5 COL A

3621 --- --- --- --- V --- --- V --- --- --- V RST CRB CFR25S A 1R5 PM5 A

3621 --- V --- --- --- --- --- --- V --- --- --- RST CRB CFR25S A 1R2 PM5 A

3621 V --- V V --- V V --- --- V V --- RST CRB 1/6W A 1R PM5 COL A

3622 V --- --- --- --- --- --- --- --- --- --- --- RST CRB ERDS2T A 3R3 PM5 A

3622 --- --- --- V V --- --- V --- --- --- V RST CRB CFR25S A 1R5 PM5 A

3622 --- V V --- --- --- --- --- --- --- --- --- RST CRB CFR25S A 1R2 PM5 A

3622 --- --- --- --- --- --- V --- --- --- --- --- RST CRB 1/6W A 1R PM5 COL A

3622 --- --- --- --- --- V --- --- V V --- --- RST CRB 1/6W A 2R2 PM5 COL A

3623 V VVVVV---VVVVVRST CRB 1/6W A 18K PM5 COL A

3623 --- --- --- --- --- --- V --- --- --- --- --- RST CRB 1/6W A 22K PM5 COL A

3625 --- --- V --- --- V V --- V --- V --- RST CRB 1/6W A 120R PM5 COL A

3625 --- --- --- --- V --- --- V --- --- --- V RST CRB 1/6W A 220R PM5 COL A

3625 V V --- V --- --- --- --- --- V --- --- RST CRB 1/6W A 330R PM5 COL A

3626 --- --- V --- --- V V --- V --- V --- RST CRB 1/6W A 100R PM5 COL A

3626 --- --- --- --- V --- --- V --- --- --- V RST CRB 1/6W A 220R PM5 COL A

3626 V V --- V --- --- --- --- --- V --- --- RST CRB 1/6W A 330R PM5 COL A

3627 --- --- --- --- V V V V V --- --- V RST SM 0805 10K PM5 COL R

3627 V V V V --- --- --- --- --- V V --- RST SM 0805 22K PM5 COL R

3630 --- --- --- --- --- V --- --- V --- --- --- RST SM 0603 27K PM5 COL

3630 V VVVV---VV---VVVRST SM 0603 33K PM5 COL

3632 --- --- --- --- V --- --- --- --- --- --- V RST SM 0603 18K PM5 COL

3632 --- --- --- --- --- V --- --- V --- --- --- RST SM 0603 33K PM5 COL

3632 V V V V --- --- V V --- V V --- RST SM 0603 39K PM5 COL

A40

2 V / div AC

5ms / div

A41

2 V / div AC

5ms / div

A42

10 V / div AC

5ms / div

A33

500mV / div DC

2ms / div

PM3394B

A34

500mV / div DC

2ms / div

PM3394B

A35

500mV / div DC

2ms / div

PM3394B

A36

200mV / div DC

10us / div

PM3394B

A37

500mV / div DC

2ms / div

PM3394B

A38

200mV / div DC

10us / div

PM3394B

A39

2V / div DC

10us / div

PM3394B

A43

10V / div DC

2ms / div

PM3394B A44

200mV / div DC

2ms / div

PM3394B A45

1V / div DC

10µs / div

PM3394B A47

50V / div DC

10µs / div

PM3394B

A46

500mV / div DC

10µs / div

PM3394B A48

500mV / div DC

10µs / div

PM3394B

Circuit Diagrams and PWB Layouts 37A02E 7.

Large Signal Panel: Rotation Circuitry

ROTATION CIRCUITRY

ROTATION

DEFLECTION

COIL

RES

RES

RES

RES

13V1

OV6

OV6

OV

1V2

OV6

0V1

0V1

1V3

FROM A8-49

1 2 3 4

1 2 3 4

A

B

C

D

E

A

B

C

D

E

1601 A2

1620 C4

2601 B2

3649 D1

3681 D2

3682 E2

3683 D1

3684 B2

3685 C1

3686 B1

3687 C3

4601 D3

6080 C2

6081 B3

6082 B2

6083 C4

6084 C1

7680 B2

7681 D2

7682 D3

(Present when applicable)

56K

3686

3649

4601

2

3

7680

TDA7052

BZX384-C15

6084

10K

6083

BZM55-C15

100n

2601

BAT254

6082

BZM55-C15

6081

27K

3685

100K

3682

10K

3683 7681

BC847B

3681

470R

6080

MCL4148

7682

BC368

6K8

3684

MP13

1601

125mA

820R

3687

+Vp

1

4

3

6

2

7

5

8

+11V_ROT

+11V_ROT

+11V_ROT

TILT

1620

1

CL 36532058_047.eps

040903

3139 123 5523.1

Large Signal Panel: Headphone Amplifier

CL 36532058_049.eps

030903

HEADPHONE AMPLIFIER

1234

1234

A

B

C

D

E

A

B

C

D

E

2751 B4

2752 B4

2754 B1

2755 C4

2756 C3

2757 C2

2758 D1

2759 E4

2760 E3

2761 E2

2762 C2

2763 D2

2764 B3

3752 B2

3753 C2

3754 C3

3755 C3

3756 C2

3757 C3

3758 D2

3759 D2

3760 E3

3761 E3

3762 E3

3763 E2

3764 A3

4703 E1

4704 C1

4705 B2

5750 A2

2V5

FOR EMG-STAR SET

5V

7712 B3

7751-A B3

7751-B D3

9716 A2

c703 D4

*

A8-37

2V5 2V5

* FOR A02 SSB

A8-34

5V

A8-35

2V5

2V5

A8-38

*

2V5

GND-STAR

5

6

7

8

4

GND-STAR

4703

68R

3760

GND-STAR

4704

3754

68R

33p

2760

GND-STAR

12K

3761

GND-STAR

3755

12K

100n

2761

GND-STAR

GND-STAR

c703

GND-STAR 2756

33p

100u

2755

2752

100u

2758

1u

GND-STAR

3762

100K

4705

2762

1n

GND-STAR

3752

47K

4

2751

100n

100K

3759

7751-A

NJM4556AM

3

2

1

8

3763

12K

2757

100n

2759

100u

GND-STAR

1n

2763

2764

470u10V

47K

3758

7751-B

NJM4556AM

GND-AUD

1u

2754

GND-STAR

12K

3756

9716

100K

3757

0u68

5750

7712

BC847B

3753

100K

470R

3764

HEADPH-L

HEADPHONE-L

HEADPH-R

HEADPHONE-R

+5V

FOR DIVERSITY TABLE SEE DIAGRAM A6

3139 123 5523.1

38A02E 7.

Circuit Diagrams and PWB Layouts

Large Signal Panel: Audio Amplifier

CENTER

OPAMP

OPAMP

OPAMP

L/R

MUTE/STBY

PROTECT

PGND

A

B

C

D

E

F

1735 D8

1738 E8

1739 A8

1740 B8

2701 E3

2702 E2

2703 C2

2704 D2

2705 D1

2706 D2

2707 B4

2708 D3

2709 A6

2710 A6

2711 D7

2712 D7

2713 D7

2714 C7

2715 C7

2716 C7

2717 E6

2718 E7

2719 E7

2721 D2

2722 A3

A8-19

123456789

123456789

A

B

C

D

E

F

3701 E2

3702 E2

3703 C2

3704 D2

3705 D2

3706 D2

3707 B2

3708 B2

3710 B3

3711 B2

3713 D7

3714 C7

3715 E6

3716 B3

3719 C2

3720 A1

3721 A1

3722 B1

3723 B2

3724 C1

3725 B4

3726 A2

4702 D4

10W 8E R

A8-2

SPK-L

7701 C5

7710 C2

7711 B3

9702 D4

9710 C5

9712 E5

9715 F4

9722 B1

c701 F5

c702 F5

AUDIO AMPLIFIER

10W 8E L

A8-14

14V MAIN SPEAKERS

A8-19

A8-45

14V

50K

32V

SPK-R

14V

14V

14V

NORMAL = 0V

MUTE = 5V

14V

FOR ACTIVE SUBWOOFER

32V

N.C.

* ONLY FOR SUBWOOFER

*

*

A8-13

FOR PASSIVE SUBWOOFER

3702

10K

2712

47n

3

4

5

9715

1R

3720

GND-STAR

1n

2702

1735

1

2

3

4

9710

9712

2701

220n

470u

2708

GND-STAR

3705

1K

9702

47n

2715

3719

47K

GND-STAR

GND-STAR

1R

3716

10K

1u

2705

3723

2703

220n

GND-STAR

1m

2709

GND-STAR

3722

2710

100n

GND-STAR

GND-STAR

3715

4R7

GND-STAR GND-STAR

1n

2704

GND-STAR

47n

2716

c702

10K

3725

BC847B

7710

1738

1

2

3

GND-STAR

4R7

3713

GND-STAR

2713

47n

GND-STAR

GND-STAR

3707

10K

GND-STAR

10K

3724

1K

3703

1u

2707

47K

3708

BC847B

7711

9722

1740

1

2

GND-STAR

GND-SSP

2706

1n

INL

1 INR

10 MUTE1

9 MUTE2

OC 3

12OL

14OR

PGND-C

411158

SGND

7 SVR

13

VS

2

VS-C

TDA7497

7701

INC6

5

3714

4R7

47n

2718

1739

1

2

3

2721

1u

2722

100u50V

GND-STAR

3726

10K

47n

2719

10K

3706

GND-STAR

2711

1m

3711

10K

3710

47K

1K

3701

GND-STAR

1m

2714

A56

GND-AUD

1m

2717

A57

3704

10K

GND-STAR

A58

A59

c701

4702

GND-STAR

1R

3721

AUDIO-SW

GND-STAR

GND-STAR

+28V

AUDIO-L

AUDIO-SW

AUDIO-R

SOUND-ENABLE

POR

CL 36532058_048.eps

030903

3139 123 5523.1

Item

2x10W w/o HP Amp

3x10W w/o HP Amp + Subwoofer

2x10W with EXT Subwoofer

3x10W with HP amp + Subwoofer

2x10W with HP Amp

DESCRIPTION

1738 --- V --- V --- CON BM V 3P M 2.50 EH B

1739 --- --- V --- --- CON BM V 3P M 2.50 EH B

2701 V --- V --- V CER2 0805 Y5V 16V 1U COL R

2701 --- V --- V --- CER2 0603 X7R 16V 100N COL

2702 V VVVVCER1 0603 NP0 25V 1N COL

2703 V --- V --- V CER2 0805 Y5V 16V 1U COL R

2703 --- V --- V --- CER2 0603 X7R 16V 100N COL

2704 V VVVVCER1 0603 NP0 25V 1N COL

2705 --- V --- V --- CER2 0805 Y5V 16V 1U COL R

2706 --- V --- V --- CER2 0603 X7R 50V 3N3 COL

2711 V --- V --- V ELCAP 25V S 1000U PM20 COL B

2711 --- V --- V --- ELCAP 25V S 470U PM20 COL B

2714 V --- V --- V ELCAP 25V S 1000U PM20 COL B

2714 --- V --- --- --- ELCAP 25V S 470U PM20 COL B

2715 V VVVVCER2 0603 X7R 16V 47N COL

2716 V VVVVCER2 0603 X7R 16V 47N COL

2717 --- V --- V --- ELCAP 25V S 1000U PM20 COL B

2718 --- V --- V --- CER2 0603 X7R 16V 47N COL

2719 --- V --- V --- CER2 0603 X7R 16V 47N COL

2721 --- --- --- V --- CER2 0603 X7R 10V 220N COL

2721 --- V --- --- --- CER2 0603 Y5V 10V 470N COL

2751 --- --- --- V V CER2 0805 Y5V 50V 100N P8020 R

2752 --- --- --- V V ELCAP 25V S 100U PM20 COL A

2753 --- --- --- V V CER2 0805 Y5V 50V 100N P8020 R

2754 --- --- --- V V CER2 0805 Y5V 16V 1U COL R

2755 --- --- --- V V ELCAP 25V S 100U PM20 COL A

2756 --- --- --- V V CER1 0603 NP0 50V 33P COL

2757 --- --- --- V V CER2 0603 X7R 16V 100N COL

2758 --- --- --- V V CER2 0805 Y5V 16V 1U COL R

2759 --- --- --- V V ELCAP 25V S 100U PM20 COL A

2760 --- --- --- V V CER1 0603 NP0 50V 33P COL

2761 --- --- --- V V CER2 0603 X7R 16V 100N COL

2762 --- --- --- V V CER1 0603 NP0 25V 1N COL

2763 --- --- --- V V CER1 0603 NP0 25V 1N COL

2764 --- --- --- V V ELCAP 10V S 470U PM20 COL A

3703 V V V V --- RST SM 0603 10K PM5 COL

3703 --- --- --- --- V RST SM 0603 18K PM5 COL

3704 V V V V --- RST SM 0603 22K PM5 COL

3704 --- --- --- --- V RST SM 0805 10K PM5 COL R

3705 --- V --- V --- RST SM 0603 10K PM5 COL

3706 --- V --- --- --- RST SM 0603 22K PM5 COL

3706 --- --- --- --- V RST SM 0805 10K PM5 COL R

3706 --- --- --- V --- RST SM 0805 22K PM5 COL R

3715 --- V --- V --- RST SM 0603 RC21 8R2 PM5 R

3722 --- V --- V --- RST FUSE NFR25 S 1R PM5 A

3751 --- --- --- V V RST SM 0603 22K PM5 COL

3752 --- --- --- V V RST SM 0603 47K PM5 COL

3753 --- --- --- V V RST SM 0603 47K PM5 COL

3754 --- --- --- V V RST CRB CFR25S A 3R9 PM5 A

3755 --- --- --- V V RST SM 0603 12K PM5 COL

3756 --- --- --- V V RST SM 0603 12K PM5 COL

3757 --- --- --- V V RST SM 0603 100K PM5 COL

A56

20mV / div AC

1ms / div

A57

500mV / div AC

1ms / div

A58

20mV / div AC

200µs / div

A59

500mV / div AC

1ms / div

Circuit Diagrams and PWB Layouts 39A02E 7.

Large Signal Panel: Tuner SIMM Connector (Female)

NC GND

GND-SCART-AV

GND-SCART-AV

GND-RGB-CRT

GND-PIP

GND-CVBS-OUT

GND-RGB-SC1_YUV

GND-CVBS-IN

CVBS-PIP_TUN1-2-CVBS-IN

*components with diversity

*

*

*

HA

VA

TUNER SIM CONNECTOR (FEMALE)

TO/FROM

TO/FROM

TO

TO/FROM SSB

SIM CONN MALE

SDA-S

SCL-S

+5V

+8V

TUNER

SDA-S

SCL-S

SDA-S

SCL-S

COMPAIR

CONNECTOR

1510

SUPPLY

CRT

SIDE IO

FM

GND-CVBS-OUT

FROM

EXTERNAL

FM

N.C.

N.C.

RESERVED

TO 1934

1V7

8V1

1V1

2V7

8V1

2V7

8V1

3V

2V4

4V9

7V5

0V

0V

5V

5V

4V9

1V7

4V9

2V2

0V

0V

0V

0V

0V

0V

0V

0V

0V

2V7

2V7

0V

0V

0V

4V1

0V

0V

0V

3V2

5V7

0V

3V

3V

3V

2V5

0V

1V1

0V9

0V

1V6

6V

4V

2V3

0V

0V

0V

5V2

2V8

0V

8V1

3V5

5V1

3V5

3V5

3V2

5V

5V

0V

0V

0V

0V

0V

0V

0V

0V

0V

0V

0V

0V

0V8

0V

0V

0V

0V

4V5

4V5

0V

0V

0V

0V

4V3

3V5

3V6

3V5

0V

3V1

3V3

3V

0V

0V

6V

2V8

3V

3V

3V

0V

5V7

8V4

33V

A11-53

A11-52

A11-51

A11-54

A11-60

A7-37

A7-38

A11-70

A11-71

A11-66

A11-68

A2-47

A11-59

A8-61

A11-69

A11-67

A3-3

A3-4

A4-10

A4-11

A3-20

A4-6 A4-41

A5-49

A2-9

A10-31

A3-45

A6-2

A11-55

A11-65

A11-81

A11-57

A11-64

A11-82

A11-56

A11-74

A11-72

A11-73

N.C

A6-19

A6-13

A6-14

A10-27

A10-24

A10-25

.

--

.A11

TO 1951

2V6

1V4

NOT EUR

NOT EUR

GND-RGB-CRT

A7-34

A7-35

A1-30

N.C.

HD JACK

PANEL

TO 1933

HD JACK

PANEL

TO 0200

2T PIP

DW PANEL

OF

TO 0236

2T PIP

DW PANEL

OF

N.C.

N.C.

RES

OF 3D-COMB

FILTER PANEL

TO 0201

OF

2T PIP/DW

PANEL

1 2 3 4 5 6 7 8 9 10 11 12 13 14

1 2 3 4 5 6 7 8 9 10 11 12 13 14

A

B

C

D

E

F

G

H

I

A

B

C

D

E

F

G

H

I

1200 F2

1201 G1

1205 I2

1932 F9

1933 B6

1934 A6

1935 E9

1936 D6

1937 B13

1940 F6

1943 E5

1948 D13

1951 A13

1952 E9

1953 D9

1955 F5

1961 C9

1965 D6

1966 G9

1997 E3

2200 D2

2201 F1

2202 G2

2203 G3

2455 I7

2483 B9

2496 B8

2914 E2

2915 E1

2916 C4

2917 E12

2918 F11

2929 E10

2930 F8

2931 D9

2940 B3

2941 I8

2942 I8

2943 I8

2944 E12

2945 H13

2946 I13

2947 I7

2950 G3

2951 G2

3200 F3

3201 F3

3210 D10

3211 D10

3212 D11

3213 C11

3250 H3

3261 E4

3262 F4

3427 A7

3428 A8

3429 B8

3430 A9

3432 A8

3903 F11

3904 E1

3905 I11

3907 C1

3910 C1

3928 C4

3929 D4

3930 D3

3938 F10

3939 G11

3940 G11

3941 E2

3942 E11

3943 E11

3944 C11

3945 F11

3999 A3

4915 I11

5901 C2

5902 A1

5903 A1

5904 H8

6200 G2

6201 G3

6202 G3

6402 B9

6901 A8

7210 D10

7211 D11

7901 C3

7902 F11

7908 E11

7910 B2

7911 D1

7912 C1

9201 C12

9203 C12

9205 E8

9206 D8

9215 G2

9225 E8

9226 D9

9228 A4

9229 A4

9250 E6

9251 E6

9292 B4

9901 C12

9902 C12

9903 D12

9904 C12

9905 F8

9906 E3

9907 C11

9908 C3

9909 B1

9980 B1

9982 F6

9983 C11

9987 B6

9988 B6

9989 B6

9990 B5

9998 I13

c001 H2

c002 I2

N.C.

A3-41

A6-45

A11-58

1933

1n

7902

BC847B

9998

1952

1

2

3

2455

A69

9982

1

2

3

4

1965

1

2

10K

3938

100R

220n

2944

1

2

1997

3904

6R8

9251

100R

3261

3262

100R

47R

3907 3910

68R

2950

10n

9990

9998

100R

3XXX

10K

3944

9292

9228

9226

9229

100K

3432

9225

2496

10n

3429

100K

56K

3427

BAS316

6402

4n7

2483

3428

330K

BZX384-C5V6

6901 100K

3430

83R

5904

1n

2930

F921

1n

2931

1K

3999 F922

2K2

3211

15R

3213

1K

3210

100R

3212

7211

BC847B

BC847B

7210

100n

2918

9980

2917

100n

GND

IN OUT

9909

10n

2951

L78L05

7911

MC78M05

7912

GND

IN OUT

33u

5903

33u

5902

2916

330p

9908

9250

2947

4u7

10u

5901

2946

2u2

1966

1

2

2945

2u2

9907

9906

9905

1

2

3

4

5

1961

A70A68 1955

1

2

3

9904

9203

1

2

9215

1932

2943

100n

100n

2941

9903

2942

100n

9902

9901

9201

1

2

3

10

11

2

3

4

5

6

7

8

9

1943

2

3

4

5

6

1940

1

1

2

3

4

5

1934

1

1

2

3

1935

1948

1

2

3

1953

9

1951

1

2

3

4

5

1937

1

10

2

3

4

5

6

7

8

2915

10u

2940

100u

LD1086

7910

GND

IN OUT

1936

1

10

11

2

3

4

5

6

7

8

9

7901

BC847B

9205

9206

7908

100R

3942

3903

560R

BC847B

2K7

3945 3943

2929

220n

3939

10K

560R

3940

6R8

3941

9983

10u

2914

9987

9988

9989

10K

3929

100R

3928

560R

3930

6201

6202

22K

3250

1201 1

c002

3201

100R

c001

2203

100u

100R

3200

220n

2201

10u

2200

2202

220n

BZM55-C33

6200

11 IF1

6MB1

MB2

7

12131415

2

8

10

4

SCL

5

SDA

9

TU2

TEDE9

1200

1AGC

3

AS

79

8

80

9

GND-AUD

65

66

67

68

69

7

70

71

72

73

74

75

76

77

78

50

51

52

53

54

55

56

57

58

59

6

60

61

62

63

64

36

37

38

39

4

40

41

42

43

44

45

46

47

48

49

5

21

22

23

24

25

26

27

28

29

3

30

31

32

33

34

35

1

10

11

12

13

14

15

16

17

18

19

2

20

1205

+8V6 +8V

+11V +11V5

+5.2V

PROT_AUDIOSUPPLY

+8V

+5V

EHT-INFO

EW-DRIVE

GND

+8V

GND-AUD

+3V3

+8VS2

+8V

+11V5

AUDIO-SL

VTUN

+8V

+5VT

+5.2V

AUDIO-SL

R-CL_VL-OUT

L-CL_VL-OUT

PANORAMA

VTUN

SCL-S

SDA-S

+5V

+11V5

Y_CVBS-FRONT-IN

PIP-CVBS

SC1-FBL-IN

TER-CVBS-OUT

HFB_X-RAY-PROT

+8VS

+8VS

+8V

SC2-CVBS_MON-OUT

CVBS-SC2_MON-OUT

+8VS2

C-FRONT-IN

SC2-C-OUT

LIGHT-SENSOR

PIP-MONO

+5VA

+5VA

VTUN

+8VS

CVBS-TER-OUT

HEADPH-R

HEADPH-L

SC1-R_V-IN

SC1-G-IN_Y-IN

SC1-B-IN_U-IN

TER-CVBS-OUT

AUDIO-L

AUDIO-R

SDA-S

CVBS-SC1_AV1-IN

C-SC2_SVHS-IN

Y_CVBS-SC2_AV2-IN

+8V

C-FRONT-IN

B-SC1-IN_U-IN

FBL-SC1-IN

HFB_X-RAY-PROT

Y_CVBS-FRONT-IN

FRONT-DETECT

C-FRONT-IN

L-FRONT-IN

R-FRONT-IN

SCL-S

SDA-S

SDA-S

SCL-S

GND

FRAMEDRIVE-

FRAMEDRIVE+

GND-LINEDRIVE

LINEDRIVE1

+5VT

SCL-S

+3V3

GND

GND-LINEDRIVE

HEADPHONE-L

HEADPHONE-R

STANDBY

POR

R-SC1_V-IN

G-SC1-IN_Y-IN

EHT-INFO

R-CRT

G-CRT

B-CRT

CUTOFF

+8V

Y_CVBS-FRONT-IN

+3V3

+8V

Y-SCAVEM

+5.2V

IRQ-DIGITAL

DYN-FASE-COR

EW-DRIVE

R-SC2-OUT

Y_CVBS-SC2_AV2-IN

R-SC1_AV1-IN

R-SC1_AV-OUT

FRONT-DETECT

C-FRONT-IN

L-FRONT-IN

R-FRONT-IN

L-CL_VL-OUT

C-SC2_SVHS-IN

R-CL_VL-OUT

AUDIO-SL

AUDIO-C

AUDIO-SW

ON-OFF-LED

RC

KEYBOARD

DEGAUSSING

CVBS-SC2_MON-OUT

B-SC1-IN_U-IN

CVBS-SC1_AV1-IN

CVBS-TER-OUT

IF-TER

AGC

PIP-CVBS

SC1-STATUS

SEL-SVHS-RR_STATUS2

G-SC1-IN_Y-IN

P50

CUTOFF

B-CRT

G-CRT

R-CRT

R-SC1_V-IN

HFB_X-RAY-PROT

EHT-INFO

TILT

PIP-MONO

FBL-SC1-IN

SOUND-ENABLE

L-SC1_AV1-IN

L-SC2_AV2-IN

L-SC2-OUT

L-SC1_AV-OUT

R-SC2_AV2-IN

CL 36532058_042.eps

040903

3139 123 5523.1

A68

500mV / div AC

20µs / div

A69

2 V / div DC

100ms / div

A70

2 V / div DC

100ms / div

Item.

SCART I/O + SC3

SCART I/O

SCART I/O+SC3+ PIP

DESCRIPTION

1937 --- --- CON BM V 10P M 2.50 EH B

1951 --- CON BM V 5P M 2.50 EH B

9203 --- --- RST SM 0603 JUMP. 0R05 COL

9902 --- --- WR CU-ETP SNPB5-PL 0.58MM COL

Item

EU CENELEC LL38.9

NA NTSC FPIN 45.75

China IEC PAL 38.0

NA NTSC PHONO 45.75

AP PAL 38.9 non-PIP

EU CENELEC LL38.9 PIP

DESCRIPTION

1200 --- --- --- --- --- TUNER TEDH9X700A

1200 --- --- --- --- --- TUNER TEDE9-200A

1200 --- --- --- --- --- TUNER TEDH9-240A

1200 --- --- --- --- --- TUNER TEDE9-228B

1200 --- --- --- --- --- TUNER UV1316T/A I X-3

1200 --- --- --- --- --- TUNER UV1317/A I X U-3

2203 --- --- ELCAP 10V S 100U PM20 COL A

2203 --- --- --- --- ELCAP 25V S 47U PM20 COL A

3250 --- --- --- --- RST SM 0805 10K PM5 COL R

3250 --- --- RST SM 0805 JUMP. 0R05 COL R

3905 --- --- --- --- --- RST SM 0603 100R PM5 COL

6202 --- --- --- --- DIO SIG SM BAS316

(

COL

)

R

9925 --- --- --- --- WR CU-ETP SNPB5-PL 0.58MM COL

v

v

v

vvvv

v

v

v

v

v

vv

v

v

v

v

v

v

v

v

v

v

v

v

v

v

40A02E 7.

Circuit Diagrams and PWB Layouts

Large Signal Panel: Front

FRONT

TO

0215

TOP CONTROL

PANEL

NC

0V

0V

3V3

0V

0V

0V

2V

3V1

5V2

3V3

8V2

A8-27

A8-24

A8-24

A8-27

A8-24

A8-25

A8-31

A8-25

1 2 3

1 2 3

A

B

C

D

E

A

B

C

D

E

1945 E3

1946 B1

1947 A1

1949 B1

2952 D2

3911 B2

3912 D3

3913 D2

3914 C2

4911 A2

4912 A2

4914 A2

9970 A3

9973 B3

9978 A2

A8-25

TO

0203

PANEL

INTERFACE

FRONT

NC

1

2

1949

1946

9973

1n

2952

4911

4914

3914

1K

8K2

3912

4912

10K

3913

10K

3911

9970

9978

1

2

3

4

5

6

7

8

9

1947

1

2

3

4

5

1945

1

2

3

ON-OFF-LED

RC

KEYBOARD

RCOUT

ON-OFF-LED

+5.2V

KEYBOARD

LIGHT-SENSOR

+8V

RC

KEYBOARD

+8V

+5.2V

CL 36532058_050.eps

030903

3139 123 5523.1

Personal Notes:

Circuit Diagrams and PWB Layouts 41A02E 7.

Large Signal Panel: Inputs/Outputs

(SCART2)

(SCART1)

AUDIO - R

OUT

AUDIO -SURROUND

OUT

AUDIO - L

OUT

INPUTs

INPUTS/OUTPUTS

A8-58

A8-57

A8-51

A11-60

A8-56

A8-55

A11-61

A8-52

A8-53

A8-54

A8-59

A8-72

A8-73

A8-74

A8-64

A8-65

A8-69

A8-70

A8-71

A8-82

A8-81

A8-66

A8-67

A8-68

1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8

A

B

C

D

E

A

B

C

D

E

1901-A A6

1901-B A2

1902-A D2

1902-B D1

1902-C D2

1910 B3

1911 B7

2985 C5

2987 E2

2988 E2

2989 D3

2990 B7

2991 B4

2992 B3

2993 A7

2994 A5

2995 A6

2996 A2

2997 A1

2998 A7

2999 A3

3959 A2

3960 A1

3961 E3

3962 E2

3963 E3

3964 E2

3965 D3

3966 D2

3967 C7

3968 C3

3969 C7

3970 C3

3971 C5

3972 C1

3973 C3

3974 C3

3975 C7

3976 C4

3977 C7

3978 C3

3979 B3

3980 B3

3981 B8

3982 B7

3983 B6

3984 B4

3985 B2

3986 B3

3987 A1

3988 A7

3989 A3

3990 A6

3991 A5

3992 A2

3993 A1

3994 A7

3995 A3

3996 A6

3997 A5

6950 B1

6951 C1

6953 B4

6954 C3

6955 C4

6956 C3

6957 B5

6958 B5

6959 C5

6960 B8

6961 C8

6962 C8

1901-A

1A

11902-A4

3980

100R

3987

2985

390p

3971

75R

3993

150R

BZX284-C12

6960

1910

6951

PDZ6.8-B

1911

PDZ6.8-B

6950

6953

PDZ6.8-B

PDZ6.8-B

6955

PDZ6.8-B

6954

6956

PDZ6.8-B

6957

PDZ6.8-B

69586959

PDZ6.8-B PDZ6.8-B

PDZ6.8-B

6962 6961

PDZ6.8-B

100R

100R

3969

100R

3983

3977

3970

100R

3976

100R

100R

100R

3978

3991

150R

2994

330p

150R

3997

330p

2995

3996

150R

150R

3990

3967

75R

8K2

3981

75R

3975

2990

330p

3982

3K9

100p

2993 2998

100p

1K

3988

3994

1K

4A

5A

6A

7A

8A

9A

10A

11A

12A

13A

14A

15A

16A

17A

18A

19A

2A

20A

21A

3A

2988

3n3

330p

2989

2987

330p

150R

39613962

150R

3963

150R

150R

3965

150R

3964

3966

150R

52 1902-C63

1902-B

3972

75R

150R

3960

2999

100p

100p

2991

1K

3989

75R

3985

330p

8K2

3984

3K9

3986

2992

3979

75R

75R

3973

3974

75R75R

3968

2997

330p

1K

3995

330p

2996

3992

150R

20B

21B

3B

4B

5B

6B

7B

8B

9B

150R

3959

1901-B

1B

10B

11B

12B

13B

14B

15B

16B

17B

18B

19B

2B

SC1-B-IN_U-IN

SC1-G-IN_Y-IN

SC1-R_V-IN

CVBS-SC1_AV1-IN

SC1-FBL-IN

R-SC1_AV1-IN

SC1-STATUS

L-SC1_AV1-IN

TER-CVBS-OUT

R-SC1_AV-OUT

L-SC1_AV-OUT

R-CL_VL-OUT

AUDIO-SL

L-CL_VL-OUT

SC2-C-OUT

R-SC2_AV2-IN

L-SC2_AV2-IN

SEL-SVHS-RR_STATUS2

SC2-CVBS_MON-OUT

R-SC2-OUT

L-SC2-OUT

P50

Y_CVBS-SC2_AV2-IN

C-SC2_SVHS-IN

CL 36532058_051.eps

040903

3139 123 5523.1

48A02E 7.

Circuit Diagrams and PWB Layouts

Small Signal Board: If & SAW Filter

NCMT

NCMT

NCMT

AGC

HPF

IF PLL

CALIBRATOR

VCO

LPF

SIF

I/V

BPF

LPF

LPF

AGC

DET

VSW

TO

VIDEO LPF

LPF

AFC AFA

AFB

LOCK

TRAP

GROUP

DELAY

LPF 2ndSIF A/D

SLPM

PMOD

QSS QSSOUT

DSIF,DDIF

ST1...0 GD

VAI, VA1...0

AUDIO SWITCH

TO AM INTERNAL

LOCK

SOUND

2nd SIF

AGC

DET

PMOD,AGC O/IGATING

FFI,IFO IFA/B/C,IFLH

F138

5101 C1

C

D

B

5102 A1

100MHZ/220R A

5112 B2

9

1113-B A10

1114-A B5

1114-B A10

1115 D10

45678910

A

I108 E6

2132 B10

6101 C2

6102 C4

2134 A2

2136 C10

2135 B1

2137 B22133 B1

E

1112-A A4

1112-B A10

2101 C1

2102 A1

2103 D2

2115 D5

2119 B2

2126 A6

2127 A6

2128 C6

B

C

D

E

7100-C A6

2130 E7

IF & SAW FILTER

3132 D7 4104 B3

4102 A3

3116 D6

3112 D3

3131 D7

NC

4103 B3

3133 E7

B18-5

4101 A33104 B3

3105 D3

3106 D1

4108 A3

4107 A3

1

TO/FROM 1115 OF PIP PANEL

3

10

B18-11

2

B11-7

(TO CON 0221)

100MHZ/220R

NC

100MHZ/220R

100MHZ/220R

B1-2

B1-1

B1-2

B2-4

NC

B3-3

NC

B1-1

3101 C2

3102 C4

3103 B3

B2-12

3137 C10

3138 A6

3134 B1

3135 B9

5678

7101 D2

7104 D4

7131 B10

F114 E10

2138 A2 5128 B6

2V

2V

2V

2V2

2V

FOR PIP/DW

ONLY

5129 B6

I101 B1

I102 A4

I103 A4

I104 B6

I105 B6

I106 C6

I107 C9

F115 D10

F116 E10

F132 E10

F134 D6

F135 A9

F137 D3

F138 B4

F139 A8

1234

1113-A B4 5134 A2

5135 A2

4V9

0V

FOR /93 ONLY

1V9

1V9

1V9

7V9

2K2

3104

2135

10u

1415 1112 16 17

4107

OFWK3955L

1114-B

118

45691013

45691013 1415 11 12 16 17

1617

1113-B

OFWK3953L

118

118

45691013 1415 11 12

+5Vd

OFWK9656L

1112-B

+8Vc

+8Vc

+8V +8Va

+8Va

2132

10n

7101

3106

27K

3137

1K

BC847BW

2119

10n100n

2133

5112

3134

10R

100R

3135

7131

BC847BW

100n

2127

6102

+5V

2K2

3101

1SS356

2103

1n

22n

2130

I102

+5V

I101

7

8

9

2136

10u

1

2

3

4

5

6

F139

1115

1u0

5128

2126

100p

3

7

8

+8Va

F137

3138

390R

OFWK3955L

1114-A

2

10n

2101

3132

100R

+5Vd

+5Va

+5Vb

+5Vb

15K

3133

4102

+5Va

4108

2128

2u2

6K8

5101

0u82

5102

3103

100n

2138

100u

2137

I108

I107

4101

I106

I105

3

7

8

4104

I104

2

3

7

8

OFWK9656L

1112-A

2

2115

10n

1113-A

OFWK3953L

3131

10K

5129

1u0

I103

4103

F135

5134

2134

100n

2102

10n

47K

3112

BC847BW

7104

3105

3102

2K2

22K

5135

1SS356

220R

3116

+8Va

6101

SIFAGC101

SIFINN100

SIFINP99

TESTPIN1

124

TUNERAGC105

VCC-IF

110

VCC-SUP 118

VCC1-VSW 122

VCC2-VSW 125

VIFINN108

VIFINP

107

VIFPLL111

F134

2NDSIFAGC 114

2NDSIFEXT

113

CVBSOUTIF 120

DTVIFAGC 102

DTVIFINN

104

DTVIFINP

103

DTVIFPLL

109

DTVOUTN 117

DTVOUTP 116

FUSE4

106

FUSE5

119 GND-SUP

121

GND1-IF

112

GND2-IF

115

7100-C

MPIF

+5Va

SIF_PIP

CVBS_PIP_TUN2

SIF_MAIN

SIF_PIP

2ndSIFEXT

VIFINN

VIFINP

IF-TER

SEL-IF-LL

TUNER_AGC AGC

CVBSOUTIF

SIFINN

SIFNP

PIP_AUDIO

SIF_MAIN

CL 36532058_022.eps

211103

3139 123 5536.2

Circuit Diagrams and PWB Layouts 49A02E 7.

Small Signal Board: Video Source Selection & Data Link

VIM

CVBS/Y PRIM

C- PRIM CLP

PRIM

LPF

SEC 3...0

CVO 3...0

CVBS SEC

CLAMP LPF

CLP

SEC

A

D

ICPL

DM 1...0

PRIM

LR

DIG

2Fh

Yyuv

MHz

54

DATA

LINK

3

MHz

54

SIF

2nd

A/D HV-P/S

TEST

DIG

DATA

LINK

3

RGB

SOURCE

SWITCH

CLAMP

HDTV

CLON

CLPS

LEVEL

ADAPT

INVERSE

PAL

MATRIX

LPF

LPF

LPF

A

D

A

D

DM 1...0

SEC

MONO

DIG

U,V

U

V

Yyuv

DVD

MAT

CLP

yuv

ICPL

ICPL

RSEL

DATA

LINK

54MHz

DM 1...0 297MHz

Yyuv

2Fh

PLL

CIRCUIT

CLP PRIM

CLP SEC

CLP yuv

CLPS

YUV

CLK

PLL

27MHz

TIMING

ROK

IDENT VID CVBS-OUTA

CLAMP LPF

A

D

+

PRI 3...0

DATA

LINK

1

BC857B

7062

100n

2085

B1-12

876543

D

B1-4

F

B5-25

2060 A3

2062 B4

2063 C2

2064 C2

2065 C2

2066 D2

2067 D2

21 9

F078 E1

F080 B4

F088 F7

F089 F7

I061 C3

I062 C3

I063 D3

8

I064 D3

A

E

1116 E1

RES

B5-40

B17-28

B17-27

B18-22

B18-18

100MHz/220R

RES

2073 E2 2079 F42074 E2

2075 E2

2076 E2

2078 E3

100MHz/220R

B3-15

1 234567

2082 A7

9

2084 C4

B

C

D

E

F

A

B

C

B5-44

B5-33

B18-17

B18-30

B17-14

B5-38

B5-31

4153 E2

5061 F3

5063 A8

7060-A A3

7060-B B2

7062 B8

7063 B7

2081 F3 7100-B B4

2083 C4 F060 B1

2085 D3

2086 D4

2087 C2

2088 A8

3060 A2

3061 A8

3062 B3

3063 B3

3064 C2

3065 C2

3066 A8

3067 B7

3068 B7

3070 B1

3071 B3

3072 E3

3073 E3

3074 E3

4062 E2

4152 D1

5060 E3

100HZ/220R

B18-20

B5-34

B5-36

VIDEO SOURCE SELECTION AND DATA LINK

B5-35

B5-37

B3-21

B18-29

B18-19

B5-26

B5-32

B5-43

2068 D2

2069 D2

2070 D2

2071 D2

2072 E2

B5-39

B5-41

B18-16

100HZ/220R

B5-42

B18-23

TO/FROM 1002 OF 2Fh IO PNL

OR

TO/FROM 1103 OF 3RD SCART PNL

(CONNECT TO 3D COMB FILTER)

B18-24

2V8

2V2

2V2

1V6

1V4

1V9

0V3

0V3

0V3

0V3

0V3

0V4

F064 B7

F074 E2

F075 F1

F076 E1

F077 E1

3072 100R

150R

3065

2K2

3066

S1 S2

2078

100n

100n

2083

S3 S4

2084

100n

F080

F078

F076

F077

100n2063

7060-B

BC847BPN

+5V

100n

100n2075

100n2073

2074

2072 100n

F089

100n2069

F088

3063

180R

7060-A

BC847BPN 2u2

2088

1K0

3068

1K0

3067

100n

2067

4152

100n2070

4062

3064

150R

+5V

100n

2087

5063

4153

100R3071

100n

100n2068

46HV-PRIM

45HV-SEC

25 R|PR|V-1

R|PR|V-230

60STROBE1N

61STROBE1P

56STROBE2F

55STROBE2N

50STROBE3N

51STROBE3P

49 VCC-DIG

64 VCC-I2D

47 VD2V5

15 Y-COMB

2065

19CVBS-OUTA

22CVBS-OUTB

4 CVBS|Y-3

8 CVBS|Y-4

62DATA1N

63DATA1P

57DATA2N

58DATA2P

52DATA3N

53DATA3P

54 FUSE10

48 GND-DIG

59 GND-I2D

6 GND-VSW

26 G|Y|Y-1

G|Y|Y-231

MPIF

7100-B

27 B|PB|U-1

B|PB|U-232

5C-3

9C-4

16 C-COMB

126 CVBS-1

1 CVBS-2

12 CVBS-DTV

123 CVBS-IF

5061

100R3070

100R

3074

3073 100R

5060

2079

100n

2081

100n

2076

+5V

3060

2K2

3061

2K2

100n

100n

2064

100n2071

I062

3062

180R

2066 100n

I061

2

3

4

5

6

7

+5V

1116

1

2086

100n

F074

F064

F075

7063

BC857B

F060

I063

I064

2u2

2082

2062 100n

+5V

2060

100n

5062

YOUT-COMB

FBL

H-2FH

V-2FH

CVBS-SC3

CVBS-TERR

COUT-COMB

CVBS-SC2_MON-OUT

CVBS_TER_OUT

STROBE2P

DATA2N

DATA2P

HV_PRM

HV_SEC

CVBS-SC1_AV1-IN

CVBS_PIP_TUN2

C-SC2_SVHS-IN

Y-CVBS-FRONT-IN

C-FRONT-IN

B-PB-2FH

CVBS

G-SC1-IN_Y-IN

STROBE1N

STROBE1P

DATA1N

DATA1P

STROBE3N

STROBE3P

DATA3N

DATA3P

STROBE2N

CVBSOUTIF

Y-CVBS-SC2_AV2-IN

R-SC1_V-IN

B-SC1-IN_U-IN

R-PR-2FH

G-Y-2FH

CL 36532058_023.eps

030903

3139 123 5536.2

S1

100mV / div DC

20µs / div

S2

100mV / div DC

20µs / div

S3

100mV / div DC

20µs / div

S4

100mV / div DC

20µs / div

50A02E 7.

Circuit Diagrams and PWB Layouts

Small Signal Board: Audio Source Select

MIC1

AM

LPF

LPF

LPF

AD

AD

AD

DLINK2MIC1/L2/PIPM

MIC2/R2

AUDIO SWITCH

( ANALOG OUT )

AD

MIC

AMPS

AUDIO SWITCH

( DIGITAL OUT )

AM

SOUND

LPF

DLINK1

L1/AM-INT

R1/AM-EXT

AUDIO

AMPS

6.75 MHz

I009

I010

I005

6030

BAS316

10u

2006 A8

2007 B2

2008 B2

TO/FROM 1104 OF

87

OR

345621 9

3026 C9

3027 D9

3028 A10

3031 D10

3032 D10

B18

B18

3019 A1

3022 D9

3024 E9 3030 C10

3029 A10

3008 E3

3009 E3

3010 A2

3011 B2

3012 E3

3013 E3

3016 A1

3018 A1

B3-59

B10-65

B10-64

B10-63

B18-66

B18-61

B18-49

B3-58

0R

B18-67

B10-62

2039 D9

2040 D9

2041 E4

2042 E4

2043 E3

2044 E3

2045 A2

2046 A2

2047 A2

2048 A2

2049 A2

2050 A2

2051 B2

3002 D2

3003 C2

3004 C2

3005 C2

3006 A9

3007 A9

D

456

AUDIO SOURCE SELECT

B2-21

78910

A

B

C

23

10

1

B10

I010 D9

0R

B1-3

B3-58

B2-15

B18-60

B18-57

B18-56

2005 A8

2004 C1

2003 A9

2002 A9

TO/FROM 1062 OF 2Fh IO PNL

TO/FROM 1102 OF 3RD SCART PNL

1118 B9

1117 E1

1009 A8

E

A

B

C

D

E

7V9

7V9

3V6

3V6

3V6

3V6

3V6

3V6

3V6

3V6

3V6

3V6

3033 E10

6029 A10

6030 A10

7029-1 A9

7029-2 A9

7030-1 C9

7030-2 D9

7031-1 D9

7031-2 E9

7100-A A4

F014 E8

F015 E8

F016 E8

F017 E8

F020 E8

F021 E8

F041 E2

F042 E2

F045 B10

F046 E2

F047 E2

I001 B3

I002 E3

I003 E3

I004 E3

I005 E3

I006 A8

I007 C9

I008 C9

I009 D9

5V

4V9

B18-54

B18-51

B18-50

B18-52

B11-53

NC

B18-48

2009 C1

2010 C1

2011 D1

2012 B2

2013 C2

2014 C3

2015 C2

2016 C2

2018 C2

2019 C2

2021 D2

2022 D2

2024 D2

2025 D2

2027 E2

2028 E2

2029 A10

2030 D9

2031 C9

2032 E9

2033 D9

2037 C9

2038 C9

3RD SCART PNL

B3-59

1K8

3029

BC847BS

7029-2

47K

3027

100n

2049

F014

470p

2018

2028

470n

2014

100n

2011

100p

100p

2010

2009

100p

100p

2004

BC847BS

7031-2

2006

1n

2038

F045

10u

I001

1K8

3033

2024

470p

2039

2021

470p 10u

1n

1n

2033

I004 2042

I008

BAS316

6029

1u0

2029

3028

1K8

7029-1

BC847BS

2003

10u

2002

10u

1117

1

2

3

4

5

6

7

100R

F047

3013

F046

1009

I007

47K

3024

+5V

3016

220R

3030

1K8

7030-1

BC847BS

1K8

3031

BC847BS

7030-2

3032

1K8

7031-1

BC847BS

3010

3019

10R

3026

47K

47K

2037

10u

3007

47K

3006

470n

2019

2016

470n

1118

1

2

3

4

5

2041

1n

I003

I002

47K

2015

47K

3002

3003

2013

470p

470p

2040

F015

3008 100R

100n

2050

100R3012

I006

2007

470n

2008

1n

2032

1n

2030

1n

2031

1n

470n

3018

4R7

2012

16V10u

2047

3011

+5V

+8V

F042

F041

2044

1n

3004

47K

3005

47K

1n

2043

F020

2027

2045

50V

2u2

470p

VAADCP91

VAADCREF89

VCC-AADC77

VCC1-ASW98

VCC2-ASW88

2048

100n

LINEL

68 LINER

67

MIC1N94

MIC1P95

MIC2N92

MIC2P93

R1

85

R2

83

R3

81

R4

79

R5

128

SCART1L

70 SCART1R

69

SCART2L

66 SCART2R

65

VAADCN90

AMEXT

17

DSNDL1

75

DSNDL2

73

DSNDR1

74

DSNDR2

72

FUSE196

FUSE278

FUSE371

GND-AADC76

GND1-ASW97

GND2-ASW87

L1

86

L2

84

L3

82

L4

80

L5

127

MPIF

7100-A

470n

2025

470n

2022

2046

22u 16V

100n

3022

F021

2051

1n

47K

F017

2005

100R

3009

SOUND-ENABLE_1

F016

R-SC1_AV-OUT

L-SC1_AV-OUT

CVBS-SC3

SEL-2FH-SRC_STATUS3

L-CL_VL-OUT

R-CL_VL-OUT

L-SC1_AV-OUT

R-SC1_AV-OUT

L-SC2-OUT

R-SC2-OUT

SOUND-ENABLE_2

POR_FLASH_1

DSNDL2

DSNDR2

PIP_AUDIO

AUD-L1

AUD-R1

AUD_L2

AUD_R2

CVBS-TERR

L-SC1_AV1-IN

R-SC1_AV1-IN

L-SC2_AV2-IN

R-SC2_AV2-IN

L-FRONT-IN

R-FRONT-IN

DSNDL1

DSNDR1

CL 36532058_024.eps

211103

3139 123 5536.2

F014

1 V / div DC

1ms / div

F015

1 V / div DC

1ms / div

F016

500mV / div DC

1ms / div

F017

500mV / div DC

1ms / div

Circuit Diagrams and PWB Layouts 51A02E 7.

Small Signal Board: MPIF-Supply, E/W, & Control

BAND GAP

EW

I

V

DIGITAL

BLOCK

SUPPLY

&

REFERENCE

BAND GAP

7150-A

BC847BS

I153

100n

100n

2156

8

B10-68

3153 C5

MPIF-SUPPLY,E/W, & CONTROL

A

B8-70

5

2

76

C

D

B8-69

5151 D5

I151 B3

7100-D A2

F159 F8

5150 D5

5152 E5

D

E

F

NC

58

B18-71

F

I154 C3

7

A

B

3152 B5

3154 B4

6

I152 B3

I153 B3

1

2155 D5

2150 A5

B11-72

B11-73

B

E

C

2151 C4

2

3

1

2152 C4

2154 C5

3V9

1V3

2V

2V5

3V2

3V2

3V2

0V8

7150-B B5

F150 A8

7150-A A5

F152 C8

34

4

100MHZ/220R

100MHZ/220R

100MHZ/220R

2157 E5

3155 E4

3151 B5

3150 A5

2156 D5

5152

+5V

3V3

1V3

5151

2154

10u 16V

43SDA

24TESTPIN2

18TESTPIN3

2VAUDO

3VAUDS

14VCC-FILT

28VCC-RGB

35VCC-VADC

20VDEFLO

21VDEFLS

40XREF

39ADR

7BGDEC

37EWIOUT

36EWVIN

41FUSE6

23FUSE7

10FUSE8

33FUSE9

11GND-FILT

29GND-RGB

34GND-VADC

42IRQ

38REW

13RREF

44SCL

MPIF

7100-D

+5V

VREF_AUD_POS

3V2 DC

3V2 DC

+5V

2150

100n

47K

3154

5150

2155

2152

100n

I154

I152

2151

100n

2157

2u2

820R3155

1K2

3151

1K8

3152

1K2

3153

1K8

3150

BC847BS

7150-B

F159

F152

I151

+5V

F150

VREF_DEFL

EW-DRIVE

EW_MPIF

IRQ_MPIF

F_REF

SCL1

SDA1

CL 36532058_025.eps

211103

3139 123 5536.2

52A02E 7.

Circuit Diagrams and PWB Layouts

Small Signal Board: Video Decoder

2

I

D3

2

I

D2

( A-ADC1, A-ADC2 )

SSIF

EXT SUB MONO-CHANNEL

( A-ADC3 )

A-ADC4

SEC DECODER

TDC-

ANA TDC-

DIG

SRC-YYUV-CYC

SRC-UYUV

SRC-VYUV

AMP-YYC

AMP-YYUV-CYC

AMP-UYUV

AMP-VYUV

AMP-SYNCYC SYNC-GAIN

CVBS-Y-GAIN

UV-GAIN

AGC

INCR

INCR

OVERFL.

DAV. INCR

CVBS-YYC-DELTA

+DAV

UV-DELTA

+DAV

SYNC-GAIN

PRF-SYNC-2FH SYNC-

MODULE-

2FH

EXT-

SYNC

HSYNC-FBL+DELTA HSYNC+DELTA

FBL+DELTA

COMB

YC DET

DEMUX

FBLANK

SWITCH

DMSD

FORMATTER

HV-INFO

Y

SYNC

FORMAT

H/V

REGISTER

AND

PI INTERF

BANDOUTS VIDDEC-INT

PI-A

PI-D

EXT MAIN STEREO CHANNEL

I2

DATA

SYNC

PRI DECODER

EXT

SYNC-

MUX

SRC-YYC

SRC

DELTA

GEN

FREQ-SELECT

DTO

ITS

DEC

FBLANK

FIFO

DELAY AND FAST-BLANK

’SRC’ FOR HFB1/H-SYNC

UV

D1

5283

100Mhz / 220R

B

5282 C95281 A9 I281 D23284 D2 5285 D95283 D9

2345

B2-44

78

3282 D2 3283 D2

B2-33

C

B2-31

B2-35

B2-34

B2-32

9

C

2

A

1

B2-37

B2-38

1

3

B2-36

B2-40

B2-39

6

5281

100Mhz / 220R

B2-41

B2-26

B18-45

B2-25

D

VIDEO DECODER

B2-42

3281 C1

54

2285 D92284 D9 F282 C2F281 D97300-J A3

8

100Mhz / 220R

100Mhz / 220R

B2-43

67 9

A

2281 A9 2282 C9

B

D

AE3PLLVSSA

N23VID1-DTC-VDD3

P23VID1-DTC-VDDA

N26VID1-DTC-VSSA

P24 VSYNC1

P25 VSYNC2

F281

H26 DLINK1DP

H23 DLINK1SN

H24 DLINK1SP

G24 DLINK2DN

G25 DLINK2DP

F24 DLINK2SN

F25 DLINK2SP

E25 DLINK3DN

E26 DLINK3DP

E23 DLINK3SN

E24 DLINK3SP

N24 HSYNCFBL1

N25 HSYNCFBL2

P26 HVINFO1

R23 HVINFO2

AF3PLLVDDA

ADOC

7300-J

F23DLINK-VDDA

D26DLINK-VDDD

G26DLINK-VSSA

J23DLINK-VSSD

H25 DLINK1DN

3283

1K

100n

2282

100n

VDDCO

2281

5282

VDDCO

VDDCO

5285

100n

2285

1K

3284

F282

1K

3281

3282

1K

VDDE

I281

2284

100n

HV_SEC

HV_PRM

STROBE1N

STROBE1P

DATA1N

DATA1P

STROBE3N

STROBE3P

DATA3N

DATA3P

STROBE2N

STROBE2P

DATA2N

DATA2P

FBL-SC1-IN

H-2FH

V-2FH

CL 36532058_026.eps

211103

3139 123 5536.2

3V2 DC

Circuit Diagrams and PWB Layouts 53A02E 7.

Small Signal Board: Feature Box

MAIN CHANNEL

TO MBF

CONTROL INTERFACE

PI-DTL MMIO ADAPTER

YUV

YUV

YUV

YUV

FRONT END PROCESSING

MEMORY BASED PROCESSING

BACK END PROCESSING

7300

7300

7300

COLOUR FEATURES

Y

U

V

COLOUR

SPACE

CONVERSION

FRAME

PROCESSING

R

G

B

TO DOP

FROM MBF

LUMINANCE SHARPNESS

CONTROL INTERFACE

PI-DTL MMIO ADAPTER

SUB

SHAPE

R

G

B

HORIZONTAL

COMPRESSION

CHANNEL

SUB

YUV VERTICAL

COMPRESSION

NOISE

FEATURE BOX

COMPENSATION

DELAY

DCTI

Y

UV

Y

U

V

PANORAMA

Y

U

V

FILTERS

COMPENSATION

DELAY

SHARPNESS

MEASURE

DYNAMIC

PEAKING

LTI

256

Y

U

V

SKIN

TONE

CONTROL

BLUE

STRETCH

GREEN

ENHANCE

FIFO CACHE

HORIZONTAL

COMPRESSION

CHANNEL

MAIN

YUV NOISE

SHAPE

MAIN

FIFO CACHE DNR

MEMORY BUS

DEVICE

INTERFACE

UNDITHER

UNDITHER

UNDITHER

SCAN RATE

CONVERSION

DISPLAY CONTROLLERMODE CONTROL

OUTPUT

MULTIPLEXER

DTL INTERFACE

SDRAM

VIA

MMI

TO BEF YUV

CONTROL INTERFACE

MMIO ADAPTER

DTL MMIO

PI-BUS

MEMORY BASED FEATURES

SAMPLE RATE

CONVERTER

SAMPLE RATE

CONVERTER

VIDDEC2

FROM

VIDDEC1

FROM

BLACK

STRETCH

BLACK

STRETCH

HISTOGRAM

MODIFY

HISTOGRAM

MEASURE

BLACKLEVEL

DETECTION

BLACKBAR

DETECTION

NOISE

MEASURE

Y

Y

INPUT

SWITCH

MATRIX MEASUREMENT BLOCKS

SUB CHANNEL

TO MBF

CL 36532058_027.eps

020903

3139 123 5536.2

54A02E 7.

Circuit Diagrams and PWB Layouts

Small Signal Board: RGB Processing

RGB

BLANKING

CTRL SCAVEM

FIXED

BEAM

CURRENT

SWITCH OFF

CDAC

RGB

GAIN

RGB

CUTOFF

LEAKAGE

COMPENSATOR

RGB

POWER

SOURCE

GFX

BLENDER

DRIVE

ADJUST

BLENDER

ADC

RGB PROCESSING

B18-75

B18-76

B18-77

B18-78

B18-79

100Mhz / 220R

B18-112

RES

RES

0R

0R

0R

RES RES

RES

RES

RES

RES

RES

RES

RES

RES

RES

18R

18R

18R

1 2 3 4 5 6 7 8 9

1 2 3 4 5 6 7 8 9

A

B

C

D

E

A

B

C

D

E

2300 B1

2305 E6

2307 A6

2308 A5

2310 A9

2311 A9

2317 B6

2318 B5

2319 A8

2321 B9

2324 D4

2325 C5

2326 C6

2327 B6

2328 B5

2329 B8

2331 C9

2339 D8

2346 E5

3302 B1

3303 D7

3304 D7

3305 E7

3306 E7

3307 A8

3308 A5

3309 A8

3310 A8

3311 A8

3312 A8

3313 A8

3316 B8

3317 A5

3318 D5

3319 B8

3320 B8

3321 C8

3322 C8

3323 C8

3324 D5

3326 D4

3328 C5

3329 C8

3330 C8

3331 D8

3332 D8

3333 D8

3334 A4

3335 B4

3336 B4

3337 B4

3338 D8

3339 B5

3343 E4

3345 E5

3347 D6

3348 D6

3349 C6

3356 E5

5300 A1

5307 A5

5317 B5

5327 B5

5328 C5

6301 E7

6326 D4

6327 E5

7300-H A1

7301 A8

7302 C8

7303 D8

7304 D7

7310-A A8

7310-B A9

7320-A B8

7320-B B9

7330-A D8

7330-B D9

7346 D5

7356 E5

I301 C5

I302 C6

I303 D4

I304 D5

I305 A5

I306 A6

I307 A5

I308 A6

I309 B5

I310 B6

2307

2327

2317

2326

2305

1u0

2339

100p

7303

BC857B

100p

2329

2319

100p

BC857B

7302

82p

2325

7301

BC857B

33R

3306

BC847BW

7304

BAS316

6301

1K2

3305

330R

3304

+8V

6K8

3303

I309 I310

I307 I308

I306

I303

I305

I304

+3V3

I301 I302

6326

BAS316 47K

3324

+5V

7346

BC857B

22K

3348

+8V

22K

3347

47K

3349

3328

33R

3339

3338

3316

3317

3307

3308

PDZ-2.7B

6327

1K2

3318

100n

2346

+8V

3345

6K8

820R

3356

BC857B

7356

10K

3343

16V10u

2310

3335

33R

33R

3334

33R

3336

3331

33R

3337

33R

2328

33R

3321

2318

220p

220p

W4 CDAC2-VDDA

Y3 CDAC2-VSSA

V2COUTN

V3GOUTP

N1IBC

AA2IBCRANGE

U2ROUTN

U3ROUTP

Y1SVMN

Y2SVMP

220p

2308

ADOC

7300-H

W2BOUTN

W3BOUTP

U1 CDAC-REF

V1 CDAC1-VDDA

U4 CDAC1-VSSA

10n

2331

2321

10n

10n

2311

2324

100p

5328

2u2

1K2

3302

7330-A

BC847BPN

7320-A

BC847BPN

7330-B

BC847BPN

7320-B

BC847BPN

7310-A

BC847BPN

7310-B

BC847BPN

VDDE

100n

2300

4K7

5300

+8V

3326

3332 1K2

3330

1K2

3333

330R

5327

2u2

3329

330R

+8V

1K23322

3320

330R

3323

5317

2u2

1K2

+8V

330R

3319

3313

3312 1K2

33R

1K2

3310

330R

2u2

5307

3311

330R

3309

R-CRT

G-CRT

B-CRT

TILT

CUTOFF

Y-SCAVEM

CL 36532058-083.eps

211103

3139 123 5536.2

I310

200mV / div DC

10µs / div

I308

200mV / div DC

10µs / div

I306

200mV / div DC

10µs / div

Circuit Diagrams and PWB Layouts 55A02E 7.

Small Signal Board: Sync & Deflection Processing

DRIVE

CTRL

LOOP

PH1-2

SECOND

CTRL

LOOP

PH1-2

SLOW START

AND

SLOW START

LOW POWER

SUPPLY

HIRES

TIMING

GENERATOR

1/64 CLOCK

HORIZONTAL TIME BASE GEN.

DTO AND CONTROL LOOP

EW

WAVEFORM

VERTICAL

SAWTOOTH

VERTICAL

WAVEFORM

VERTICAL

DRIVER

VERT.

DRIVE

HOR.

FIRST

ADC

SDAC

GEOMETRY

22K

+8V

3353

5344

2343 C2

2344 C1

2345 C1 F341 C3

F346 E3

B

C

D

E

100Mhz / 220R

B4-69

2364 C8 3355 C6

3354 A10

4

3374 E9

220R 220R

2371 D9

2372 D9

2377 E10

2379 E10

8910

123

RES

6353 A9

6361 B9

6365 C9

6367 C9

F348 D10

F351 E6

F354 A9

F355 B8

2361 C8

2362 B9

2363 B7 I342 C6

I343 C6

I344 C7

3373 C8

3341 B2

3346 D2

3350 A8

2360 C6

3353 A9

3352 A9

3351 A7

3340 A2

56

I350 E10

3375 E9

3376 D8

5345 C1

6341 C1

220R

B18-84

SYNC & DEFLECTION PROCESSING

10

A

B18-83

B18-82

100Mhz /

RES

1234567

RES

I346 B8

I347 C8

I348 C9

I349 E10

789

3361 B8

3362 B9 4361 C9

3378 B8

3377 C8

0R

5342 C22342 C2

2341 B2 4363 B8

5343 C2

5344 C1

3357 C7

3358 A6

3360 B8 I345 B9

RES

3363 B9

3364 B9

3365 C8

3366 C9

D

E

2366 C9 3372 C8

B

A

C

5

100Mhz /

2365 D8

I341 C6

F358 C9

F357 C8

2359 C6

B4-70

B18-87

B18-89

B18-88

NC

3367 B10

3368 C10

3371 D9

7365 C8

7361 B8

7300-F B3

6368 C9

100Mhz /

2350 A7

2351 A8

2352 A9

2358 D7

+8V

3V2

3V2

1V7

0V3

1V2

1V2

1V2

1V2

1V2

1V2

0V

2V

1V5

1V4

7V9

3V5

4V

2V9

2V4

2351

F348

10p

F341

BC847B

7365

10K

10K

3354

2366

2u2

1K

3371

1K0

3341

3374

2K7

F346 F351

F357

3363

27K

3362

100K

2379

2n2

3355

3361

3365

15K

6361

BAS316

2371

1n

100p

2360

+3V3

2344

100n

2M2

3377

F358

AA3

HDROUT L1

HFB L3

IMEAS-CAL P2

IMEAS-VDDAN4

IMEAS-VREF-C M3

IMEAS-VREF-R M4

IMEAS-VSSAP1

IMEAS-ZERO P3

NSP AA1

SDAC-3V3R3

SDAC-VDDAT1

SDAC-VSSAR4

SEL2FHAA4

VDRN R2

VDRP R1

7300-F

ADOC

AUXP T3

BCL N2

BPAAC1

DAFP Y4

DOP-DTC-VDD3L2

DOP-DTC-VDDAM1

DOP-DTC-VSSAM2

EHT N3

EWP T2

FBCIN

3360

15K

3346

5343

1K0

+5V

2345

100n

3376

10K

VDDE

100p

2365

F355

100u

2350

16V

VDDE

I347

I348

I343 I344

I342

BAV99

6353

2372

1n

3375

2K7

I346

I345

4363

5345

3352

47K

6368

BZX384-C6V8

I350

3372

330K

3373

10K

5342

2361

2u2

3340

1K0

2343

100n 22K

3357

BAS316

6341

3378

1M

2341

100n

VDDEVDDE

100n

2342

+8V

VDDE

3366

2K2

10n

2u2

2364

2363

100p

2362

I349

2352

10p

BAV99

6365

1K

8K2

3368

6367 3367

4361

BZX384-C22

3358

10R

+8V

1K 3350

220R

3351

VDDCO

I341

2377

2n2

2358

100p

100n

2359

3364 68K

F354

7361

BC847B

FRAMEDRIVE+

FRAMEDRIVE-

HFB_X-RAY-PROT

POR_FLASH

EW_MPIF

VREF_DEFL

LINEDRIVE1

EHT-INFO

CL 36532058_029.eps

030903

3139 123 5536.2

56A02E 7.

Circuit Diagrams and PWB Layouts

Small Signal Board: Protection

PROTECTION

2397

100n

F391

3393

3K3

I382

1

7393 D5

F381 C6

F382 C6

F383 C6

3

6382 A3

6384 B3 7300-G C6

I382 C4

6398 C3

E

D

7

D

E

C

A

F387 E4

B18-91

RES

F384 A4 F389 C32395 E5

PROTECTION

2380 B2

0V

10V4 3V2

F391 B4

B18-92

I381 A2

F390 C4

F385 B3

F386 B2

RES

B

B18-91

2395 D6

3390 C5

2386 B5

3456

3386 B5

A

B

C

7383-B E5

2397 D3

756

3397 C4

4

3380 B2

3382 A4

3384 E5

3385 B5 3398 C2

6381 A3

3388 C5 3391 E4

6385 A4

6397 C3

3392 E3

3393 D5

7382 A4

7383-A E6

3394 D4

3395 E5

12

3396 D4

2

2395

10n

7V9

0V

0V DC

0V DC

0V DC

0V

0V

0V

1K0

3390

F389 F390

7383-B

BC847BPN

BAS316

6398 BZX384-C27

BC847BPN

6397

FLASHAB1

VGUARDW1

XPROTAB2

VDDE

+3V3

7383-A

7300-G

ADOC

3395

10K

3392 47K

6381

BAV99

F383

7382

3380

10K

3382

1K

BC857B

3391

39K

3396

470R

7393

BC847BW

3397

470R

+8V

3385

47K

3386

27K

3384

10K

10K

3394

3388

1K0

F382

2384

1n

100R

2380

470p

F386

3398

F384

2386

10p

BAS316

6385

6382

BZX284-C47

F381

+8V

F387

I381

6384

BZX384-C22

HFB_X-RAY-PROT

KEYBOARD

EHT-INFO

F385

CL 36532058_030.eps

211103

3139 123 5536.2

Circuit Diagrams and PWB Layouts 57A02E 7.

Small Signal Board: Audio Processing

PROCESSING

INPUT

X-BAR

WS PLL

NOISE

SHAPER

I2SOUT

I2SIN

DAC

5D/A

2D/A

4D/A

FROM AUDIO DEMDEC & DD-DSP

AUDIO DSP

LEVEL

ADJ

INPUT

X-BAR

2u2

VREF_AUD_NEG

3447

56K

3460

1K2

5678910

FOR DPL SET

PROVISION FOR DVD INTERFACE

2439 B9

REMOVE FOR DVD

D

E

A

B

C

D

E

2430 C7

2431 C6

2432 C6

2433 C5

2434 C5

2435 C6

2436 C6

2437 C7

2438 B9

2134

REFER TO SHT B10a

2440 D7

2441 D7

2442 D8

2443 E7

2444 E7

2445 E7

2447 D1

2450 C4

2451 A8

3453 A2

3454 A3

3455 B3

3456 B3

3457 A3

3458 A5

2453 A7

2454 A4

2457 A2

2458 C6

10

A

B

C

2452 C4 2462 E9

2461 E9

2465 A5

2467 C6

2468 B6

2480 C8

2481 E8

2483 C9

123456789

2V7

UAB 12 NEED TO BE RAISE :

AE25 : AUD-SPKR-R-VRNEG

AF26 : AUD-SPKR-R-VRPOS

7V3

4V

I437 C6

I438 C6

I439 C6

I440 C7

I441 D5

I442 D5

I443 E5

I444 E5

I445 C8

I446 D8

I447 D10

I448 E10

100MHZ / 220R 100MHZ / 220R

REMOVE FOR DVD

ALL STRAPS TO BE

REFER TO SHT B10a

B18-100

PROVISION FOR DVD INTERFACE

PREPROCESSING

7V3

2V7

4V

1K8

B3

1V6

4V9

4V9

2V5

2V5

2V5

2V5

2V5

2V5

ALL STRAPS TO BE

4451 A10

4452 A10

4453 A10

4480 C8

4481 E8

5450 C4

2484 D8

2485 E9

2486 C9

2487 C9

2488 D10

2489 D10

3433 B9

3434 B8

3435 A8

AE25 : AUD-SPKR-R-VRNEG

UAB 12 NEED TO BE RAISE :

3436 A8

3437 A8

3439 A7

3440 A7

3441 A7

3442 B7

3443 B7

3444 A7

3445 A4

3446 A4

3447 B4

3448 B4

3449 A5

3450 A4

3452 A3

7434-A A6

7434-B A6

7480-A D9

7480-B E9

7486-A D10

7486-B E10

3459 A5

3460 A6

3461 B5

3462 B6

3463 A6

3465 A9

3468 B6

3480 C8

3481 E8

100MHZ / 220R

SRC

3482 D8

3483 C9

3484 D9

3485 E9

3486 D10

3487 E10

4430 B3

4431 B4

4432 B6

4433 B7

4434 B8

4435 E3

4436 E3

4437 E3

4450 A10

PROCESSING

B18-95

I433 A5

I434 A7

I435 A8

I436 C5

5452 C4

5480 C8

6480 D10

6481 E10

7300-B C2

7430-A A8

7430-B A9

7431-A A7

7431-B A7

DDEP

7300

B18-96

SSIF

A_ADC1

SELECT

B4-68

DECIMATION

B18-98

B18-97

AF26 : AUD-SPKR-R-VRPOS

DEMDEC & DD_DSP

A_ADC2

7432-A A4

7432-B A4

7433-A A3

7433-B A3

FOR

SUBWOOFER

SET

1V6

1V6

1V6

F437 E4

F438 E4

F439 E4

F448 C4

F449 C4

F480 C7

F481 E8

I431 A2

I432 A4

AUDIO DEMODULATION

B3-65

DEMATRIX AND

AUDIO PROCESSING

TO AUDIO

B18-99

FILTER

FROM VIDDEC

B3-64

HEADPHONE AMPLIFIER

B18-94

B3-63

FOR DPL SET

A_ADC3

A_ADC4

B3-62

DOWNMIX

7486-B

3487

7486-A

BC847BS

BC847BS

4453

4452

3435

56K

2454

3434

56K

2437

470n

F438

2436

470n

F437

3439

470n2480

7431-B

BC847BPN

47K

100u

2488

7432-A

BC847BPN

I448

2442

1n

2443

1n

2441

1n

100R

3468

I438 I439

+8V

3462

1K2

3463

1K5

2481

470n

8K23485

3481

2K7

4480

I436

4481

I434 I435I432 I433

BC847BPN

7433-B

2467

470n

+8V

1K8

3486

SDAC1-3V3

AD22

SDAC1-VDDA

AE22

SDAC1-VSSA

AF16

SDI

AE17

SDO1

AD17

SDO2

AD16

WSI

AE19

WSO1

WSO2

AD19

2450

10n

AUD-SPKR-C-VRPOS

AD25AUD-SPKR-L

AD26 AUD-SPKR-L-VRNEG

AD24 AUD-SPKR-L-VRPOS

AE26AUD-SPKR-R

AF26 AUD-SPKR-R-VRNEG

AE25 AUD-SPKR-R-VRPOS

AB23AUD-SPKR-SL

AB24 AUD-SPKR-SL-VRNEG

AA26 AUD-SPKR-SL-VRPOS

AE24AUD-SPKR-SW

AF24 AUD-SPKR-SW-VRNEG

AF25 AUD-SPKR-SW-VRPOS

SCKI

AE16

AE18

SCKO1

AD18

SCKO2

AC22

AUD-DAC1-R-VRNEG

Y24 AUD-DAC1-R-VRPOS

W26AUD-DAC2-L

W25 AUD-DAC2-L-VRNEG

Y23 AUD-DAC2-L-VRPOS

W23AUD-DAC2-R

W24 AUD-DAC2-R-VRNEG

V26 AUD-DAC2-R-VRPOS

AB26AUD-HP-L

AC23 AUD-HP-L-VRNEG

AB25 AUD-HP-L-VRPOS

AC25AUD-HP-R

AUD-HP-R-VRNEGAC24

AC26 AUD-HP-R-VRPOS

AE23AUD-SPKR-C

AD23 AUD-SPKR-C-VRNEG

AF23

ADOC

7300-B

AUD-DAC1-L AA24

AA23 AUD-DAC1-L-VRNEG

AA25 AUD-DAC1-L-VRPOS

Y25AUD-DAC1-R

Y26

2440

1n

4434

F448

F439

F449

3443

56K

3433

1K2

7434-A

BC847BPN

1K2

3442

3459

56K

+8V

2435

470n

7430-A

BC847BPN

10n

2452

2453

2u2

3456

2451

2u2

56K

3455

1K2

3454

56K

2433

1n

2434

470n

2458

1n

2457

2u2

1n

2444

I444

I443

I440

4451

2K7

3480

+5V

6480

BZX384-C12

I437

3458

47K

3450

1K2

3446

56K

7432-B

BC847BPN

3445

47K

F481

F480

TDA1308T

7480-A

3

2

1

8

4

4450

5450 5452

2465

2u2

BC847BPN

7433-A

3461

56K

2486

100n

2487

10u16V

3441

56K

VDDE VDDCO

3440

1K2

2462 470n

2461 470n

I447

VREF_AUD_POS

I445

I446

3452

3453

47K 1K2

2439 470n

2447

100u

470n2438

I442

I441

4432 4433

7434-B

BC847BPN

2489

100u

3449

1K5

BZX384-C12

6481

3448

1K2

I431

3483 8K2

1n

2445

5

6

7

8

4

1n

2483

3457

1K5

TDA1308T

7480-B

4430 4431

5480

4437

2431

1n

2432

1n

4436

3437

1K2

1n

2468

4435

+8V

3436

47K

3444

1K5

+8V

7430-B

BC847BPN

3465

1K5

BC847BPN

7431-A

16V10u

2484 3484

4K7

2485 1n

4K7

3482

HEADPHONE-L

SOUND-ENABLE_2

2430

1n

AUDIO-L

AUDIO-R

AUDIO-SW

DSNDR2

DSNDL2

DSNDR1

DSNDL1

AUDIO-C

AUDSPKR_R

AUDSPKR_L

AUDSPKR_C

AUDSPKR_SR

AUDIO-SURR

C_TV_IN

SW_TV_IN

L_TV_IN

R_TV_IN

HEADPHONE-R

CL 36532058_031.eps

211103

3139 123 5536.2

F480

100mV / div AC

1ms / div

F481

100mV / div AC

1ms / div

I437

20mV / div AC

200µs / div

I438

100mV / div AC

1ms / div

I436

20mV / div AC

500µs / div

58A02E 7.

Circuit Diagrams and PWB Layouts

Small Signal Board: Control

XTAL & RESET

UART

E-JTAG

DEBUGGING

INTERFACE

ANALOG TO

DIGITAL

CONVERTER

SLOW PI-BUS

A/D

PI-PI

BRIDGE

MIPS-

FAST PI-BUS

SRAM

CTRL

SRAM 96KB

SUB-SYSTEM

PR1910

GEN CLK

BLOCK MMI SDRAM

DCU

EBIU E-JTAG

UART GRAPHICS GEN.

SLAVE GROUP INTERFACE

TIMER I2C GPIO ADC

F538

3580

1K0

F544

3503 10K

3504

8

(FOR USE WITH SCART3 ONLY)

3504 A2

0201 A10 3507 B3

CONNECT

EEPROM

RES

E

2516 C1

2525 C3

(NVM)

B18-117

FOR FACTORY &

DEVELOPMENT USE ONLY

P50_INT

B18-114

B18-116

RES

F541 B7

B18-118

F540 B7

13.5MHZ

COMB

FOR SERVICE ONLY

F539 B7

F543 B7

F542 B7

F532 D2

F533 B7

F537 A4

EEPROM

F538 B3

100Mhz / 220R

F534 B3

F527 A1

B18-109

M24C64

B18-119

4570 E9

4571 E9

F524 A4

NC

B17-??

F512 C10

F513 C10

3570 E8

3571 E9

3572 E9

3573 E8

3580 C3

3581 C4

3582 E4

3583 E6

3586 E6

3590 D6

A

B

C

D

E

A

B

C

D

3515 B2

3518 A3

789 10

123456

3550 A9

3557 C9

910

I502 E6

I501 A1

B4-73

F582 E5

F570 E7

F584 D6

F509 B1

F510 C10

F511 C10

CONTROL

F551 B3F514 B10

F515 B10

F516 B9

F517 B9

F518 B9

F519 C10

F520 A9

F521 A9

F522 A9

F523 A9

3V2

3V2

0V

4V9

4V9

3V2

3V2

3V2

0V

0V9

0V9

3V2

2V6

0V

3V2

1V

0V

3V2

B12

6

7

B18-107

B1-7

12345

(TO CONNECTOR 0222)

B18-113

7300-D A8

TO 3D

F508 B1

FILTER

B18-111

B8-121

B18-120

7300-C A4

7300-A E8

F544 B7

F550 B9

B18-115

7581 E56589 C10

4573 E9

5570 E7

5583 D4

3561 D8

B18-110

SDM

B18-108

7525 D2

3510 B3

3511 B1

3512 B1

3513 B2

7300-K C63563 D8

3523 C3

3530 E3

3541 A10

3542 A9

3543 B9

3544 A9

3546 B9

3547 C9

3548 B9

3549 B9

B12

B3-53

100Mhz / 220R

B4-72

B18-106

0202 A10

1581 C5

1582 E4

2514 B1 3564 D9

3565 D8

2546 C9

2557 C9

2571 E7

2581 C4

2582 C4

2583 D5

2584 D5

3501 A3

3502 A4

3503 A2 4501 E9

4560 D8

3508 B2

3509 B3

10K

F511

VDDE

F534

3501

F523

F524

3507 10K

4K73508

F551

5570

F533

3515 4K7

F582

VDDCO

2571

100n

2581 22p F519

3509 4K7

CP15C

1581

F508

100n

2584

S5 S6

3563 10K

18p

2516

3510 4K7

F532

F550 19

2

20

34

56

78

9

TYPE

0201

1

10

11 12

13 14

15 16

17 18

F542

F541

F540

VDDE

33R

3548

VDDE

F521

4570

SKQR

1582

5583

3590

F509

1K0

4501

F515

3549 33R

F514

2582 22p

+5V2

F513

VDDE

2514

18p

TD1

AF18

TMS

AF17

TRST_

AF20

VDDE-JTAG

7300-D

AE20

DCLK

AD14

P3-4|RTS

AF15P3-5|CTS

AE15

P3-6|RXD

AD15

P3-7|TXD

AE21

PCST0

AD21PCST1

AD20

PCST2

AF21

TCK

AF22TD0

AF19

ADOC

22K

3586

33R

3547

3581 1K0

I501

I502

VDDE

F517

VDDE

10K

3582

F520

3557

+5V2

47R

3512 100R

4K7

3513

J26

ADC-VDDA

L25

ADC-VSSA

K23

ADC0

K24

ADC1

K25

ADC2

K26

ADC3

L23

ADC4

L24

ADC5

1MR

2SUB 5

VCC

4

VOUT

ADOC

7300-A

NE56610-45

7581

3GND

3570 2K7

3571

2K2

33R

+5V2

10K

+5V2

3543

F512

3544

+5V

P3-3

3565 10K

AD7 P1-4|GPT0-CNT

AF8 P1-5|GPT0-GATE

AE8 P1-6|GPT0-CAP

AD8 P1-7|GPT0-PWM

AF9P2-0|GPT1-CNT0

AE9P2-1|GPT1-CNT1

AF10P2-2|GPT1-GATE

AE10P2-3|GPT1-CAP0

AF11P2-4|GPT1-CAP1

AE11P2-5|GPT1-PWM

AF12P2-6|RCIN

AE12P2-7|RCOUT

AF13P3-0|RCRXPWR

AE13P3-1|RCCARDET

AD13P3-2

AF14

AC3 P0-0|INT0

AD1 P0-1|INT1

AD2 P0-2|INT2

AD3 P0-3|INT3

AE1 P0-4|INT4

AE2 P0-5|INT5

AF1 P0-6|INT6

AF2 P0-7|MPIF-INT

AF6 P1-0|SDA0

AE6 P1-1|SCL0

AF7 P1-2|SDA1

AD6 P1-3|SCL1

ADOC

7300-C

VDDE

10K

3518

33R

3546

10K

3573

4573

100n

2583

10K

+5V2

10K

3542

3541

F584

F518

VDDE

F543

10K3564

BAT254

6589

F527

+5V2

3583

18K

100n

2546

F537

10

2

34

56

78

9

0202 TYPE

1

4K7

3550

10K

3502

F570

10K3561

2525

100n

3530

100K

4560

A26 MPIFCLK

AB3

RESET-SEL

AC2

RESET_

AF5 XGND

AE4 XIN

AD4 XOUT

AF4 XVDD

F539

3511 100R

ADOC

7300-K

10K

10K

3572

4571

VDDE

VDDE

3523

10K

F510

F516

E0

1

E1

2

E2

3

SCL

6

SDA 5

VCC

8

VSS

4

WC_

7

2557 100p

7525

F522

SEL-2FH-SRC_STATUS3

DEGAUSS

RESET_3D

SDA1

SCL0

SDA1

SCL1

SDA0

SCL1

FRONT-DETECT

COMM_LINE

STAND-BY

RB

RST_JTAG

FLASH_RST

STATUS1_PIP-AFT_PIP-50-60HZ

F_REF

SEL-SVHS-RR_STATUS2

DTV_EXPANSION

ON-OFF-LED

SOUND-ENABLE

IRQ_MPIF

SEL-2FH-SRC_STATUS3

RC5

LIGHTSENSOR

KEYBOARD

SCL0

SDA0

SEL-IF-LL

POR_FLASH

CL 36532058_032.eps

211103

3139 123 5536.2

S5

500mV / div DC

50ns / div

F509

1 V / div DC

200µs / div

F508

1 V / div DC

500µs / div

Circuit Diagrams and PWB Layouts 59A02E 7.

Small Signal Board: Control-Memory Interface (EBIU)

EBIU

W

VPP

VDDQVSSQ

VDD

R

RB

VSS

19

18

15

1

2

3

4

5

6

7

8

D

0

9

10

11

12

13

14

3

4

1

E

G

RP

0

2

17

16

15

14

13

2048k-1

12

11

10

9

8

7

5

A

6

L

K

20

21

F794

35

NC

CONTROL-MEMORY INTERFACE (EBIU)

NC

NC

B11

NC

F799 E3

NC

F793 E3

B

4790 F1

NC

NC

100MHZ / 220R

A(1:21)

A

2792 B4

2793 B6

0290 B7

9

0291 B9

B

5792 A4

4791 E4

F792 F1

NC

A

F795 D3

NC

NC

7

C

D

E

F

F798 E3

21

F797 E5

NC

F794 E3

4

7790 B4

6

C

D

E

F

F790 E1

7300-E B1

F791 E1

D(0:15)

89

12345678

F799

F798

F792

F793

F791

F790

B7

EBIU-D14 C5

EBIU-D15 C4

EBIU-D2 A7

EBIU-D3 A9

EBIU-D4 C10

EBIU-D5 C8

EBIU-D6 B6

EBIU-D7 C7

EBIU-D8 A4

EBIU-D9 A6

EBIU-ENH|BAA

A11

EBIU-ENL|LBA

K2

EBIU-OE_ A3

EBIU-WE_ K1

EBIU-A5

E3

EBIU-A6

F2

EBIU-A7

G1

EBIU-A8

G3

EBIU-A9

H1

EBIU-BOOT8

C9

EBIU-CLK-OUT

B11

EBIU-CS0_ A2

EBIU-CS1_ C6

EBIU-CS2_ D3

EBIU-D0 B4

EBIU-D1 A5

EBIU-D10 A8

EBIU-D11 A10

EBIU-D12 B9

EBIU-D13

EBIU-A1

A1

EBIU-A10

G2

EBIU-A11

F3

EBIU-A12

F1

EBIU-A13

E1

EBIU-A14

D1

EBIU-A15

C1

EBIU-A16

B1

EBIU-A17

B3

EBIU-A18

H3

EBIU-A19

J2

EBIU-A2

C3

EBIU-A20

J1

EBIU-A21

J3

EBIU-A3

C2

EBIU-A4

D2

7300-E

ADOC

EBIU-A0|A22

K3

5792

59

6

60

7

89

2793

100n

47

48 49

5

50 51

52 53

54 55

56 57

58

35

36 37

38 39

4

40 41

42 43

44 45

46

23

24 25

26 27

28 29

3

30 31

32 33

34

12 13

14 15

16 17

18 19

2

20 21

22

0290

TYPE

1

10 11

F797

2792

100n

VDDE

F795

4791

4790

9

37

43

15

21

48

42

55

31

29

1

30

32

56

2

53

16

52

38

40

44

46

49

51

34

36

14

54

22

20

19

33

35

39

41

45

47

50

8

7

6

5

27

4

3

26

25

24

23

2Mx16

28

18

17

13

12

11

10

RAM

M58LW032A

7790

58

59

6

60

78

9

46

47 48

49

5

50

51 52

53 54

55 56

57

34

35 36

37 38

39

4

40

41 42

43 44

45

22

23 24

25 26

27 28

29

3

30

31 32

33

11 12

13 14

15 16

17 18

19

2

20

21

A(2)

A(12)

0291

TYPE

1

10

A(10)

A(11)

A(1)

A(13)

FLASH_RST

A(14)

A(15)

A(16)

A(17)

A(18)

A(19)

A(20)

A(21)

A(3)

A(4)

D(15)

D(7)

D(14)

D(6)

D(13)

D(5)

D(12)

D(4)

D(11)

D(3)

D(10)

D(2)

D(9)

D(1)

D(8)

D(0)

D(6)

D(7)

D(8)

D(9)

D(10)

D(11)

D(12)

D(13)

D(14)

A(20)

D(15)

A(21)

D(15)

A(21)

RB

FLASH_RST

A(5)

A(6)

A(7)

A(8)

A(9)

A(11)

A(12)

A(13)

A(14)

A(15)

A(17)

A(18)

A(19)

A(20)

A(16)

D(0)

D(1)

D(2)

D(3)

D(4)

D(5)

D(6)

D(7)

D(8)

D(9)

D(10)

D(11)

D(12)

D(13)

D(14)

D(0)

D(1)

D(2)

D(3)

D(4)

D(5)

A(1)

A(2)

A(3)

A(4)

A(5)

A(6)

A(7)

A(8)

A(9)

A(10)

A(11)

A(12)

A(13)

A(14)

A(16)

A(17)

A(18)

A(19)

A(15)

A(1)

A(2)

A(3)

A(4)

A(5)

A(6)

A(7)

A(8)

A(9)

A(10)

CL 36532058_033.eps

211103

3139 123 5536.2

60A02E 7.

Circuit Diagrams and PWB Layouts

Small Signal Board: Control-Memory Interface (SDRAM)

1M x 16

1M x 16

1M x 16

1M x 16

BANK

SELECT

OUTPUT BUFFER

VSS VSSQ

TIMING REGISTER

NC

ADDRESS REGISTER

LCKE

BURST LENGTH

LATENCY &

DECODER

COLUMN

LWCBR

LCAS

LWE

REGISTER

COL. BUFFER

LQDM

ROW DECODER

REFRESH COUNTER

ROW BUFFER

LDQM

LWE

I/O CONTROL

SENSE AMP

LRAS

VDD VDDQ

LCBR

DATA INPUT

REGISTER

PROGRAMMING

LRAS

LCBR

SDRAM

2733

100n

F730 D2

7730 B6

N.C.

2734 B7

3737 E4

5730 A6

5731 A7

B

C

D

E

F

2730 B6

2731 B6

2732 B5

78

A

7300-I B2

1 3452

F

A

220R

E

CONTROL-MEMORY INTERFACE (SDRAM)

6

76

2733 B7

1

B

C

D

4

8

5

100Mhz /

220R

32

100Mhz /

2731

100n

5730

2732

VDDE

100n 100n

2734

52

16 WE_

3737

33R

RAS_

39 UDQM

11427394349

28 41 54 6 12 46

47

DQ12 48

DQ13 50

DQ14 51

DQ15 53

5DQ2

7DQ3

8DQ4

10DQ5

11DQ6

13DQ7

DQ8 42

DQ9 44

LDQM15

36

NC|RFU 40

18

26

A429

A530

A631

A732

A833

A934

20 BA0

BA121

17 CAS_

CKE37

CLK38

CS_19

2DQ0

4DQ1

DQ10 45

DQ11

SDRAM-RASN

A14

SDRAM-UDQM

A23 SDRAM-WEN

7730

K4S641632D

A023

A124

22 A10|AP

A1135

A225

A3

SDRAM-D10

B15

SDRAM-D11

C15

SDRAM-D12

C16

SDRAM-D13

A16

SDRAM-D14

A17

SDRAM-D15

C26

SDRAM-D2

A25

SDRAM-D3

C24

SDRAM-D4

B24

SDRAM-D5

A24

SDRAM-D6

C23

SDRAM-D7

B14

SDRAM-D8

C14

SDRAM-D9

B23 SDRAM-LDQM

A22

SDRAM-A3

C18 SDRAM-A4

B18 SDRAM-A5

A18 SDRAM-A6

C17 SDRAM-A7

B17 SDRAM-A8

C11 SDRAM-A9

B21 SDRAM-BS0

A21 SDRAM-BS1

C22 SDRAM-CASN

C12 SDRAM-CKE

C13 SDRAM-CLK-IN A13

SDRAM-CLK-OUT

C21 SDRAM-CSN

B26

SDRAM-D0

C25

SDRAM-D1

A15

ADOC

7300-I

B20 SDRAM-A0

A20 SDRAM-A1

C20 SDRAM-A10

A12 SDRAM-A11

B12 SDRAM-A12

C19 SDRAM-A2

A19

VDDE

5731

2730

F730

100n

SD(11)

SD(10)

SD(9)

SD(8)

SD(7)

SD(6)

SD(5)

SD(4)

SD(3)

SD(2)

SD(1)

SD(0)

SD(0)

SD(1)

SD(2)

SD(3)

SD(4)

SD(5)

SD(6)

SD(7)

SD(8)

SD(9)

SD(10)

SD(11)

SD(12)

SD(13)

SD(14)

SD(15)

SA(11)

SA(10)

SA(9)

SA(8)

SA(7)

SA(6)

SA(5)

SA(4)

SA(3)

SA(2)

SA(1)

SA(0)

SA(0)

SA(1)

SA(2)

SA(3)

SA(4)

SA(5)

SA(6)

SA(7)

SA(8)

SA(9)

SA(10)

SA(11)

SD(15)

SD(14)

SD(13)

SD(12)

CL 36532058_034.eps

030903

3139 123 5536.2

Circuit Diagrams and PWB Layouts 61A02E 7.

Small Signal Board: ADOC Supply

SUPPLY

NC

NC

2601 100n

VDDE

+1V8

30R

5600

2607

100n

2609

7300-L B65600 C1

2649 C2 5601 D7 7300-M A1

9

RES

F601 C12629 C6

100Mhz /

2628 C72612 C9

2615 C8 2618 C8

2620 C8 2644 D7

2645 C1

A

NC

NC

10

I601 D8

45678

2600 C10

2601 C10 2604 C10

23

2611 C9

1234

2622 C7 2630 C6

2633 C6 2634 C6

2638 C22607 C9 2609 C9

100Mhz/

1

10956

2623 C7

78

C

B

ADOC SUPPLY

D

A

B

C

D

2633

100n100n

2634 2622

100n

100n2623

2615

2629 100n

100n100n

2630

2628 100n

VDDCO

2645

10u 16V

+3V3

100u

2649

F601

100n

26002611

100n

2604 100n

100n

2612

2644

22u 16V

100n

100n

2638

2618

100n100n

2620

L4

U24

U23

T25

T24

T23

P4

V4

F26

G23

R24

R25 V25

U25

D7 VSSIS18

K4 VSSIS2

AD5 VSSIS3

AE5 VSSIS4

AC7 VSSIS5

AD9 VSSIS6

AD10 VSSIS7

AD12 VSSIS8

AC15 VSSIS9

ADOC

7300-M

T14

VSSE54

T15

VSSE55

T16

VSSE56

B10

VSSE6

B8

VSSE7

B5

VSSE8

B2

VSSE9

G4 VSSIS1

M24 VSSIS10

M25 VSSIS11

L26 VSSIS12

D23 VSSIS13

D20 VSSIS14

D18 VSSIS15

D14 VSSIS16

D12 VSSIS17

B16

VSSE4

P12

VSSE40

P13

VSSE41

P14

VSSE42

P15

VSSE43

P16

VSSE44

R11

VSSE45

R12

VSSE46

R13

VSSE47

R14

VSSE48

R15

VSSE49

B13

VSSE5

R16

VSSE50

T11

VSSE51

T12

VSSE52

T13

VSSE53

L15

VSSE25

L16

VSSE26

M11

VSSE27

M12

VSSE28

M13

VSSE29

B19

VSSE3

M14

VSSE30

M15

VSSE31

M16

VSSE32

N11

VSSE33

N12

VSSE34

N13

VSSE35

N14

VSSE36

N15

VSSE37

N16

VSSE38

P11

VSSE39

E2

VSSE10

H2

VSSE11

T4

VSSE12

AE7

VSSE13

AD11

VSSE14

AE14

VSSE15

AC20

VSSE16

AC21

VSSE17

V24

VSSE18

T26

VSSE19

B22

VSSE2

J24

VSSE20

L11

VSSE21

L12

VSSE22

L13

VSSE23

L14

VSSE24

D8 VDDE7

D5 VDDE8

D4 VDDE9

J4 VDDI1

D15 VDDI10

D11 VDDI11

D9 VDDI12

AB4 VDDI2

AC9 VDDI3

AC12 VDDI4

AC14 VDDI5

R26 VDDI6

M23 VDDI7

D24 VDDI8

D21 VDDI9

B25

VSSE1

H4 VDDE11

AC4 VDDE12

AC5 VDDE13

AC6 VDDE14

AC11 VDDE15

AC17 VDDE16

AC18 VDDE17

AC19 VDDE18

V23 VDDE19

D22 VDDE2

U26 VDDE20

J25 VDDE21

D19 VDDE3

D16 VDDE4

D13 VDDE5

D10 VDDE6

ADOC

7300-L

F4 VDDCO1

AC8 VDDCO2

AC10 VDDCO3

AC13 VDDCO4

AC16 VDDCO5

M26 VDDCO6

D17 VDDCO7

D6 VDDCO8

D25 VDDE1

E4 VDDE10

5601

30R

I601

CL 36532058_035.eps

030903

3139 123 5536.2

1V8 DC

62A02E 7.

Circuit Diagrams and PWB Layouts

Small Signal Board: Low Voltage Supply ADOC

R

S

Q

Q_

F2

VCC

G2

G4

G3

G5

A2

A3

A1

A4

A6

G1

F1

Q_

QR

VCC

S

+1V8

1u

5654

RES

RES

F652 D2

1

RES

5

with star point ground

Compts. Close to each other

LOW VOLTAGE SUPPLY - ADOC

I651 A2

2

F

A

B

6651 A3

5659 C2

C

D

E

F

2651 A4

12

5652 A4

7650 C2

7651 B3

2657 D2

2655 A2

2656 E2

F651 A5

F650 C3

2652 A4

2654 A2

4V9 1V7

2V9

1V9

2V5

1V3

2658 D5

E

345

A

B

C

D

34

3651 D5

3652 D5

3653 D5

5651 A4

2659 C2

5654 A2

10u

5651

2655

10u

3651

1K2

5652

10u

+5V2

100n

2658

+3V3

2K7

3652

6u8

5659

220n

2659

100p

2657

100u

2651

SS14

6651 10u

2652

100n

2656

I651

F652

F650

F651

3653

2K7

1

2

3

10u

2654

VGATE 1

7651

STS5PF30L

5

6

7

8

4

CS51033YDR8

7650

COSC3

7CS

GND

4

PGND 2

VC 8

VCC

6

VFB 5

CL 36532058_036.eps

211103

3139 123 5536.2

1V8 DC

F652

500mV / div DC

500ns / div

3V2 DC

Circuit Diagrams and PWB Layouts 63A02E 7.

Small Signal Board: Connector Interface

1975

1920

ON-OFF-LED

RC5

KEYBOARD

DEGAUSS

PIP_AUDIO

2951 G13

B11-116

2950 G13

2968 E13

2962 F13 F941 F8

F943 F8

F944 F8

F947 F8

F948 E8

F949 E8

F950 E8

F951 E8

2967 F13

2972 E13

2937 H2

2938 H2

2941 H13

2948 H131955 G10

TO/FROM 1205 OF LSSB

1906 B5

1903 B5

B10-100

10

B8-87

C

B7-79

1907 C5

8

B4-71

9

1909 C5

1902 A5

B3-66

B2-24

4567

1962 F13

1953 G10

1958 F10

1959 F10

1961 E10

1918 B2

B3-61

B3-54

B3-52

B3-51

B3-57

1956 F10

1960 E10

2935 G2

2936 H21950 G13

1951 G13

1952 H10

2915 E5

2918 B2

2919 B2

2904 A2

2973 E13

F902 A7

F903 A7

F904 A7

F905 A7

F906 B7

F907 B7

F909 B7

F910 B7

3911 D4

3918 A2

1974 D13

1975 D13

1976 C13

1977 C131931 G6

1979 B13

1980 B13

MPIF

B8-83

1921 C2

B10-99

1924 D2

B11-118

1919 B2

1920 B2

1923 C2

1925 D2 2920 B2

2932 F2

2933 F21948 H13

1949 H13

1910 D5

1911 D5

1913 D5

1915 E5

3

F936 F7

B11-115

F965 C8

SSB-CONNECTOR INTERFACE

B5-45

B10-98

B10-97

B10-96

F966 C8F960 D8

F962 C8

F964 C8

F963 C8

B11-113

B8-89

F955 D8

F956 D8

F958 D8

F959 D8

3975 D13

F961 D8

B3-67

F937 F7

F938 F7

F939 F7

F940 G8

B2-19

B2-20

F901 A7

3980 A13

3979 B13

3977 C13

3978 B13

3976 C13

F952 E8

F953 E8

3964 D11

3972 E13

3973 D13

3974 D13

2949 H13

B11-107

B10-95

1937 H2

1936 H2

B3-50

2974 D13

2975 D13

2976 C13

2977 C13

2978 C13

2979 B13

3904 A2

3909 C4

1972 E13

1973 E13

B3-56

1926 E2

1928 E2

1929 E2

9

1932 F2

1933 F2

1934 G2

1935 G2

B

ADOC

B11-121

B2-22

B

B11-119

E

F

G

B2-16

1938 H2

1939 H6

1941 H13

D

C

H

B9-91

12

B2-23

B3-49

B11-111

F923 D7 F929 E7

F928 E7

B8-82

F935 F7

F933 E7

F932 E7

B7-75

F924 D7

F925 D7

F926 D7

F967 C8

F968 C8F915 C7

F918 C7

F919 C7

F920 D7

3937 H2

3938 H2

B7-76

B7-77

3951 G13

B3-60

1978 C13

B11-114

MPIF

3962 F13

3963 D11

B8-88

3950 G13

3939 H5 F911 B7

F913 C7

3919 B2

3928 E2

3929 E2

3936 G2

ADOC

14

A

B9-92

B11-106

1963 D10

1964 D10

1965 C10

1966 C10

1967 F13

1968 E13

1969 B10

1970 B10

B3-48

B10-94

5678

1901 A5

10 11 12 13

B1-9

F978 A8

F977 A8

F976 A8

F931 E7

F969 B8

F970 B8

F979 A8

F980 A8

F921 D7 F972 B8

F973 B8

F974 B8

F975 B8

1904 A2

B11-120

B11-112

B11-108

B11-117

B7-78

B2-18

B2-30

B11-109

B2-29

B1-5

B1-11

B4-71

34

F

G

H

0230 A8

B2-17

B11-110

1972

11 12 13 14

12

D

E

A

B8-84

1934

1901

1913

1918

F961

1970

F964

3972

100R

1n

2972

F973

F974

1936

1973

1921

1965

F947

2950

100p

1915

1950

1906

100R

3980

3928

1980

1928

100R

1937

3962

100R

1961

1923

100p

2919

100p

2933

3975

100R

2975

1n

100R

3976

1n

2976

1978

100R

3909

3979

100R

1953

1956

1938

1959

1960

2949

100p

100R

2935

100p

F919

3963

F920

1966

2978

100p

1952

F939

2951

1n

1958

100p

2938

1962

F967

2918

100p

F966

100p

2904

3904

100R

3978

100R

1n

2968

1939

F948

F901

F941

76

77

78

79

8

80

9

61

62

63

64

65

66

67

68

69

7

70

71

72

73

74

75

47

48

49

5

50

51

52

53

54

55

56

57

58

59

6

60

32

33

34

35

36

37

38

39

4

40 41

42

43

44

45

46

18

19

2

20

21

22

23

24

25

26

27

28

29

3

30

31

CON-BOARD-EDGE

0230

1

10

11

12

13

14

15

16

17

F909

1941

F977

F978

F923

F921

F924

F925

F931

F929

3951

100R

F938

F959

F960

1n

2962

F958

F975

+3V3

2937

100p

2920

82p

1974

F965

3919

100R

3918

100R

1949

100R

3939

F949

F903

F902

F905

F907

F911

F910

100R

3974

1935

F918

1948

F976

100p

F928

F926

1932

2932

1n

1967 2967

19681929

1969

3936

+5V2

100R

3973

+8V

100R

1n

2974

1963

1951

1964

2977

100p

F933

F932

1909

100R

3929

1907

100R

1n

2973

3938

+5V

1903

1904

2948

100p

F970

1933

F969

F944

100R

3950

1979

1931

1955

3937

100R

F979

1919

3964

1911

100R

100p

2979

1977

F953

3911

100R

1910

F963

1925

F962

1924

1902

F972

F935

F943

F936

100p

2941

F937

F951

F952

F950

F955

F956

100p

2915

F906

F904

100p

2936

F968

F915

F913

F940

1976

F980

3977

100R

1926

Y-CVBS-FRONT-IN

B-SC1-IN_U-IN

R-SC1_V-IN

Y-CVBS-SC2_AV2-IN

C-SC2_SVHS-IN

CVBS-SC1_AV1-IN

CVBS_TER_OUT

IF-TER

AGC

G-SC1-IN_Y-IN

FBL-SC1-IN

STATUS1_PIP-AFT_PIP-50-60HZ

SEL-SVHS-RR_STATUS2

R-SC1_AV1-IN

R-SC2-OUT

R-SC2_AV2-IN

L-SC1_AV-OUT

L-SC2-OUT

L-SC2_AV2-IN

L-SC1_AV1-IN

SOUND-ENABLE_1

SOUND-ENABLE

POR_FLASH_1 POR_FLASH

SCL0

SDA0

Y-SCAVEM

AUDIO-L

AUDIO-SW

AUDIO-C

AUDIO-SURR

R-CL_VL-OUT

L-CL_VL-OUT

HEADPHONE-R

HEADPHONE-L

R-FRONT-IN

L-FRONT-IN

C-FRONT-IN

FRONT-DETECT

R-SC1_AV-OUT

CVBS-SC2_MON-OUT

COMM_LINE

CUTOFF

B-CRT

G-CRT

R-CRT

LINEDRIVE1

FRAMEDRIVE+

FRAMEDRIVE-

EW-DRIVE

HFB_X-RAY-PROT

EHT-INFO

TILT

STAND-BY

LIGHTSENSOR

DTV_EXPANSION

AUDIO-R

CL 36532058_037.eps

211103

3139 123 5536.2

F911

500mV / div DC

20µs / div

F913

500mV / div AC

10µs / div

F967

200mV / div AC

1ms / div

F941

2 V / div DC

20µs / div

F931

1 V / div DC

5ms / div

F929

500mV / div DC

5ms / div

F928

500mV / div DC

5ms / div

F926

1 V / div DC

10µs / div

F925

1 V / div DC

10µs / div

F969

500mV / div AC

1ms / div

F968

200mV / div AC

1ms / div

F970

500mV / div AC

1ms / div

F923

1 V / div DC

10µs / div

F924

1 V / div DC

10µs / div

74A02E 7.

Circuit Diagrams and PWB Layouts

Side I/O Panel

Y

C

S_VHS

VIDEO IN

LEFT

SIDE IO PANEL

RIGHT

HEADPHONE

TO 1936 OF

LSP

TO 1740 OF

LSP

1 2 3 4

1 2 3 4

A

B

C

D

E

A

B

C

D

E

0240 A4

0241 C4

0242 C4

1254 D1

1255-A D1

1255-B C1

1255-C B1

1256-A A1

1256-B A1

2286 A3

2288 B3

2292 C3

2294 C3

2296 E3

2297 E3

3285 A3

3286 A3

3287 B3

3288 A3

3289 B2

3291 B2

3292 C3

3293 C2

3294 C3

3295 D3

3296 E2

3297 E3

4201 A2

4202 A2

6291 E2

6292 E2

6293 E2

6294 E2

6295 A3

6296 A2

6297 A2

4202

4

5

EH-B

0241

1

2

3

6291 FOR SUBWOOFER

CONNECTIVITY

4201

SG07

6297

6296

EH-B

0242

1

2

3

4

5

6295

6294

6293

6292

2288

100p

9

2286

100p

0240

EH-B

1

10

11

2

3

4

5

6

7

8

SG08

3295

3K9

2

7

3

8

1

3289

1K8

5

10

4

9

6

11

YKF51-5347

1256-A

75R

3285

1256-B

YKF51-5347

7

8

9

3287

75R

1255-C

YKC21-5599 1

2

3

1255-A

YKC21-5599

1255-B

YKC21-5599 4

5

6

SG06

SG05

1K

3293

SG01

SG04

SG03

SG02

YKB21-5101A

1254

1

2

3

4

5

7

8

2292

470p

470p

2294

10n

2297

10K

3297

10n

2296

10K

3296

47K

3294

3292

47K

3291

1K

3286

100R

3288

100R

Y_CVBS_FRONT

C_FRONT_IN

L_FRONT_IN

R_FRONT_IN

HP_OUT_L

HP_OUT_R

FRONT_DETECT

CL 36532058_021.eps

210803

3139 123 5291.5

Personal Notes:

76A02E 7.

Circuit Diagrams and PWB Layouts

Top Control Panel

TOP CONTROL PANEL

C+ C- V+

V-

TO 1945

OF

FRONT

(LSP)

PLUG&PLAY MENU

620R

1 2 3 4

1 2 3 4

A

B

C

A

B

C

0215 A1

1091 A3

1092 A3

1093 A4

1094 C4

2010 A1

3088 B3

3089 B2

3091 A2

3092 A2

3093 A3

3094 A3

3095 A4

3096 C4

3097 A2

3098 B4

3099 B4

4091 A2

4092 B4

6091 B4

6092 B4

1

2

3

560R

10n

2010

4091

6092

BAT254

4092

3088

1K1

3089

3098

75R

3099

68R

3097

2K7

1K5

3096

6091

BAT85

3K3

30953093

560R 270R

30943091

390R

3092

0215

1093

SKQNAB

SKQNAB

1094

SKQNAB SKQNAB

1092

1091

CL 36532058_041.eps

030903

3139 123 5287.6

Personal Notes:

78A02E 7.

Circuit Diagrams and PWB Layouts

CRT Panel

Blue

Green

Red

V

R-CRT

G-CRT

B-CRT

CUT OFF

R

R

G

B

B

RGB AMPLIFIER

CRT PANEL

TO

SCAVEM

FROM

1424

**

EHT-INFO

+8V

Y-SCAVEM ln

EHT-INFO

Filament Pulses

200V

GND LS2

CRT

AQUADAC

VG1

VG2

FOCUSA

FOCUSB

EHT

FROM

LOT

TO

LINE DEFLECTION

LINE DEFLECTION

FROM

1940

TUNER and

SIM CONN.

G

SCAVEM

1599

0V

0V

0V

0V

6V

0V7

136V

136V

134V

5V7

220V

3V

3V

3V

220V

311V

136V

136V

41V

0V

0V5

2V5

1V8

0V

0V7 2V5

1V8

8V1

2V53V2

84V

83V 41V

0V

0V

0V

0V

0V

3V

3V

3V

0V

5V6

FROM LOT

COIL

6U8

1 2 3 4 5 6 7 8 9 10 11 12 13 14

1 2 3 4 5 6 7 8 9 10 11 12 13 14

A

B

C

D

E

F

G

H

A

B

C

D

E

F

G

H

0031 F7

1237-A G13

1237-B G9

1237-C G11

1237-D E9

1237-E G12

1237-F F9

1237-G F9

1237-H H9

1237-I E9

1298-A G12

1298-B G12

1298-C G11

1298-D E9

1298-E G12

1298-F F9

1298-G G9

1298-H G9

1298-I E9

1298-J G9

1298-K H9

1424 H2

1434 H13

1435 D9

1483 B13

1940 D2

2300 A8

2301 A5

2302 A5

2304 A8

2306 C6

2307 B8

2309 C8

2313 F5

2315 B5

2316 F5

2317 H13

2318 H11

2319 G7

2320 F6

2321 E5

2322 E5

2323 F5

2324 H13

2325 A8

2330 B8

2332 C2

2333 C2

2334 D2

2336 H7

2337 B13

2338 A6

2403 H6

2404 H6

2405 H5

2406 H6

2407 G6

2408 H7

2409 C7

2410 B3

2411 B5

2412 C4

2420 A7

2421 D11

2422 C9

2423 B9

2424 A10

2425 G2

3300 A5

3301 A8

3302 A7

3303 A7

3304 A8

3306 B7

3307 B6

3308 B8

3310 B13

3311 C6

3312 C6

3316 C8

3318 C8

3319 C8

3323 B7

3324 B8

3325 B5

3329 B7

3334 H10

3335 E5

3336 F5

3337 E5

3338 F8

3339 E8

3340 E8

3341 F4

3342 D5

3345 G7

3347 H12

3349 H11

3350 E7

3351 E7

3352 F7

3354 F6

3355 A9

3356 B12

3357 C9

3358 C2

3359 C2

3360 D2

3361 B13

3370 H11

3371 A6

3401 G4

3402 G7

3403 H3

3404 G3

3405 C7

3410 B3

3411 B3

3412 A4

3413 C4

3414 B4

3416 A7

3417 G2

3418 B5

3419 A8

3420 A10

3421 A10

3422 A10

3423 B10

3424 B10

3425 B10

3426 C10

3427 D10

3999 F2

4301 B5

4302 B7

4401 F2

5300 B11

5302 A11

5303 B11

5400 H4

5401 F2

6300 B7

6301 B7

6305 E7

6306 E7

6307 F7

6310 F6

6311 A6

6312 A6

6313 A6

6314 A6

6401 H5

7300 A6

7301 A7

7302 A10

7303 C10

7304 C7

7307 E6

7308 B4

7309 A10

7310 B10

9310 A12

9311 B12

9317 B11

9318 B11

9320 F2

9400 G7

9401 H5

9402 A11

9403 C11

9404 A8

9405 E2

9406 G6

9407 G4

9408 G4

9409 C4

9410 B4

9411 G3

9412 G9

9413 G9

9414 G1

7

1483

1

2

3

F7

S13974

5300

110

3

56

4R7

3329

2325

100n

RES

2323

68p

RES

2324

GND_SSB

4R7

3323

3352

470R

3354

2K2

0031

10R

3357

GND_RGB

15R

3412

2316

100n

1K

3310

3356

1K

9310

9311

7307

TDA6108JF

4

GND

IOM 5

VDD

3308

56K

3318

2300

22u

15R

2420

39R

3416

+8V

200V

+8V

3312

2K2

100n

2306

47p

2313

47u

RES

470n

4401

BAS316

6314 6313

BAS316

5401

BAS316

6312 6311

BAS316

4K7

3371

330n

2338

220p

2337

150R

3361

4301

4302

GND_RGB

9414

9412

9413

2

9404

7

FG1

1298-A

1

FG2

1298-B

G1

1298-C

5

G2

1298-E

13

GND1

1298-J

12

10

H2

1298-G

9

GNDB

1298-K

6

CR

1298-F

8

H1

1298-H

1298-I

11

CG

1298-D

8

SG1

1237-A

1

CB

11

G1

1237-C

6

G2

1237-E

1237-B

5

H2

1237-H

9

H1

1237-G

10

GND

12

CG

1237-D

7

CR

1237-F

9403

CB

1237-I

9402

GND_RGB

GND_RGB

7310

BCP56

3n3

2425

GND_LS1

10R

3417

10K

3419

9411

22R

3420

470n

2424

10R

3418

22R

3427

470n

2421

1K

3425

3424

18K

3426

1K

3422

22K

3421

22K

2423

22n

18K

3423

22n

2422

GND_RGBGND_SSB

BCP53

7309

RES

9320

RES

+8V

+8V

RES

9409

9410

+8V

+8V

1K

3413

GND_RGB

GND_RGB

3411

100K

GND_RGB

2410

7308

BFS20

100K

3410

470n

330p

2412

10R

3414

2411

100n

2409

470n

3405

39R

GND_LS1

GND_LS1

GND_RGB

3370

2322593

GND_RGB

GND_RGB

GND_LS1

GND_RGB

GND_RGB

GND_RGB

GND_RGB

GND_RGB

GND_RGB

GND_RGB

GND_RGB

GND_RGB

GND_RGB

GND_LS1

GND_SSB

GND_RGB

9405

10n

2336

F156F157

1K2

3999

18p

2334

820R

3304

18p

2333

10K

3358

18p

2332

3360

10K

3359

9408

RES

10K

200V

9407

F6

F15

F2

F1 F4

F5

F13

F11

F10

F3

F8

F9

F14

F12

560p

2330

220R

3325

GND_LS1

10n

2319

150R

3402

3n3

2408

9400

RES

10n

2406

RES

9406

RES

10n

2407

RES

2404

100u

RES

2403

100u

6401

BYV29X-500

RES

470p

2405

RES

9401

5400

22u

3403

1R

100R

3401

5302

3404

1R

5303

9318

3324

220R

9317

6300

MCL4148

6301

MCL4148

BF824

7304

SC3

33R

3345

2315

220p

3355

10R

1424

1

2

3

4

5

6

2321

68p

RES

68p

2322

22n

2307

22n

2309

56K

33163319

820R

22n

2304

3301

10K

3306

4R7

BCP56

7303

BFS20

7301

BCP53

7302

3307

10R

3303

10K

2302

3302

390R

2320

100n

MCL4148

6310

6306

BAS321 BAS321

6305

BAS321

6307

3351

470R

3350

470R

1435

1

3334

1K

22n

2318

6

VI11

VI22

VI33

VO1 9

VO2 8

VO3 7

3349

1K

1K5

3347

2317

3341

150R

RES

3338

1K

1K

3340

560R

3337

1K

3339

3336

560R

470R

3342

560R

3335

1434

PCB-TAB4.8x0.5

1

2

1

10

11

2

3

4

5

6

7

8

9

39R

3311

1940

BFS20

7300

3300

10R

2301

220u

X-RAY-PROT_HFB

HFB_X-RAY-PROT

CL 36532058_015.eps

211103

3139 123 5746.2

F1

1 V / div DC

20µs / div

F2

Measured across

6, 10, 5300

1 V / div DC

20µs / div

F3

1 V / div DC

20µs / div

F4

20 V / div DC

20µs / div

F5

20 V / div DC

20µs / div

F6

20 V / div DC

20µs / div

F7

20 V / div DC

20µs / div

F8

20 V / div DC

20µs / div

F9

20 V / div DC

20µs / div

F10

50mV / div DC

20µs / div

F12

1 V / div DC

20µs / div

F13

1 V / div DC

20µs / div

SC3

20 V / div AC

20µs / div

80A02E 7.

Circuit Diagrams and PWB Layouts

DC Shift Panel

Layout DC Shift Panel

317 B1

C

B

40

1234

1234

A

C

B

A

DC-SHIFT

TO 1419

DAF

N.C.

6433 B4

6432 B3

6431 B4

6430 B3

5493 B2

5430 A3

318 A1

1430 A3

2430 B3

2431 B4

2493 B2

12

43

9493

5493

CU15

68n

2493

BY228/20

6431

BYD33V

6433

2431

470p

6432

BYD33V

470p

2430

6430

BY228/20

2

MP

400mA

1430

5430

1

2

317

1

318

CL 26532041_034.eps

211103

I

3104 303 3654.5

CL 26532041_049.eps

260603

317 A3

318 A2

1430 A2

2430 A2

2431 A1

2493 A3

5430 A1

5493 A3

6430 A2

6431 A2

6432 A2

6433 A2

9493 A3

3104 303 3654.5

Personal Notes:

Circuit Diagrams and PWB Layouts 81A02E 7.

VDAF Panel + 2nd Orders

VV

9805

4M7

3805

3821

47K

3815

1K

3813

470K

2820

100n

2813

10u

3998

100R

3830

47K

1

1693

2803

330p

100K

3828

2825

1u

I2

1497

1

2

2892

4u7

TO

1491

V_Parabool

RES

2891

2818

10n

3

2809

100u

1491

1

2822

100n

2823

4u7

3814

100K

5K6

3827

TO

3898 D5

3897 E2

3833 C5

3832 A5

3831 B5

3830 B4

DEFLECTION

-HORIZONTAL DAF-

5800 E3

5801 F2

5810 A8

6810 A7

6812 C6

7810 B7

7818 C2

7820 C3

7821 C3

7822 C5

7823 C5

9800 D2

9803 F2

9804 E2

9805 D6

TO

DC-SHIFT

VDAF SIGNAL

11V DC

1492

V_Parabool

2891 E5

2892 B3

3805 D6

3807 A8

3808 A8

3809 A6

3812

27K

1417 E1

1418 D1

1419 F1

1490 C8

1491 E9

1492 A9

1497 D9

1693 C1

2800 E4

2803 E4

2809 A5

2812 A7

2813 C7

2814 B8

2816 A7

2818 C1

2820 A3

2821 F2

2822 A5

2823 B4

2824 C4

2825 B5

987654321

987654321

-2ND ORDER S-

RES

TO dynamic

A

B

C

D

E

F

A

DAF GND

DAF OUTPUT

COIL

2890 E5

1693

B

C

D

E

F

3810 A7

3811 B6

3812 C7

3813 C6

3814 B7

3815 B6

3816 C7

3818 C1

3819 B2

3820 C2

3821 A3

3822 A3

3823 A3

3824 B3

3826 C4

3827 C4

3828 C1

0318

of LOT

focus input

-VERTICAL DAF-

1417

RES

3899 E5

3998 C9

S21975

5800

1

2

34

5

6

330p 3826

4K7

330p

2814

1n

2800

9803

I1

I3

1417

1

2

15R

3807

3808

22R

3809

10R

3818

4K7

1K8

3832

9800

2890

270p

2812

10n

1419

1

2

7821

BC857B 7822

BC847B

7818

BC847B

3831

4K7

3833

4K7

3810

470K

7823

BC857B

9804

1492

1

2

3897

1R

1490

1

1418

1

2

CU15

5801

12

43

3811

4M7

3824

4K7

3816

4K7

2816

220p

2821

68n

12

43

BYD33V

6810

2322592

3899

CU15

5810

2824

10u

3898

2322592

3819

4K7

7820

BC847B

3820

3K3

3822

4K7

6812

BZX79-C22

STP3NB80

7810

2

1

3

3823

1K8

2ND ORDERS

+VDAF

CL 26532067_040.eps

260603

Item

29RF

28RF/32RF

34RF/38RF

36RF

Description

[I] VDAF+2ND ORDER S

1492 X X X 3p

1693 X X X 1p

2800 X 330pF

2800 X X 470pF

2800 X 390pF

2809 X X X 100F

2812 X X X 10nF

2813 X X X 10F

2814 X X X 1nF

2821 X X 68nF

2822 X X X 4nF

2824 X X X 10F

2825 X X X 1F

2890 X 270pF

2890 X 220pF

2890 X 470pF

2890 X 390pF

3807 X X X 15R

3808 X X X 15R

3809 X X X 10R

3810 X X X 470kR

3811 X X X 4.7MR

3812 X X X 27kR

3813 X X X 470kR

3814 X X X 100kR

3815 X X X 1kR

3816 X X 4.7kR

3816 X 2.2kR

3818 X X X 33kR

3820 X X X Jumper

3821 X X X Jumper

3822 X X X Jumper

3823 X X X 1.5kR

3824 X X X 33kR

3826 X X X 3.3kR

3827 X X X 5.6kR

3828 X X X 100kR

3830 X X X 47kR

3831 X X X 4.7kR

3832 X X X 1.8kR

3833 X X X 4.7kR

5801 X X Transformer

5810 X X X Bridge coil

6810 X X X BYD33V

6812 X X X BZX79-C22

7810 X X X STP3NB80FP

7818 X X X BC847B

7822 X X X BC847B

7823 X X X BC857B

9800 X X X Wire

9803 X X Wire

3104 303 3748.3

Circuit Diagrams and PWB Layouts 83A02E 7.

Front Interface Panel

T4.0AE

AC MAINS

INPUT

220V

TO 1505

OF

FRONT INTERFACE PANEL

*

*

*

*

RES

RES

RES

RES

ON-OFF-LED

RC 5 OUT

1 2 3 4 5 6 7

1 2 3 4 5 6 7

A

B

C

D

E

A

B

C

D

E

0201 D2

0202 D7

0203 A5

1910 A2

1951 D3

2930 A1

2931 C4

2932 D5

3957 E3

3966 E3

3978 A3

3981 B3

3982 A2

3983 C3

3984 A1

3985 B5

3986 B5

3987 B6

3988 B4

3989 B4

3990 C3

3991 C5

4900 C3

4901 B3

4903 B3

4904 D6

6901 B3

6953 A1

6954 C6

7900 B4

7901 B3

7902 C5

7903 C6

TO 1947

OF

100K

3990

I915

22n

2932

I913

100K

7902

TCDT1102G

15

42

1K

3991

4904

6954

1N4148

BZX284-C3V3

2K2

3984

6953

100u

2930

470R

3978

330R

3982

1K5

3981

4903

4901

1K

3983

4900

14

32

BC847BW

7901

1K

3989

7903

TCET1101G

47u

2931

3987

220R

47R

3988

220R

3986 3985

BC857BW

7900

1951

SDDF

13

24

56

6901

3M3

3957

TSOP1836

1910

2

GND

1

OUT

3

VS

0201

1

2

0202

1

2

3M3

3966

1

2

3

4

5

5V2 0203

CL 36532058_018.eps

030903

3139 123 5499.2

Electrical Alignments EN 85A02E 8.

8. Electrical Alignments

Index of this chapter:

1. General alignment conditions

2. Hardware alignments

3. Software alignments

4. Option settings

8.1 General Alignment Conditions

8.1.1 Default Alignment Settings

Perform all electrical adjustments under the following

conditions:

•Power supply voltage: 230 V_ac / 50 Hz (± 10 %).

•Connect the set to the mains via an isolation transformer

with low internal resistance.

•Allow the set to warm up for approximately 20 to 30

minutes.

•Measure voltages and waveforms in relation to chassis

ground (with the exception of the voltages on the primary

side of the power supply).

Caution: never use heatsinks as ground.

•Test probe: Ri > 10 Mohm, Ci < 20 pF.

•Use an isolated trimmer/screwdriver to perform

alignments.

Perform all electrical adjustments with the following default

settings (for all CRTs):

•Choose "Natural" picture mode with the "Smart Picture"

button on the remote control.

•Set "Dynamic Contrast" and "Active Control" to "off" (if

either one of them is present).

•Set "Brightness" to aligned value unless otherwise

specified.

8.1.2 Adjustment Sequence

Use the following adjustment sequence:

1. Set the correct TV-set OPTIONS as described in

paragraph "Options". After storing, re-start the set.

2. Rough adjustment of VG2 and FOCUS.

3. RF-AGC alignment.

4. IF-PLL OFFSET adjustment.

5. Rough adjustment of GEOMETRY.

6. Allow the set to warm up.

7. Precise adjustment of VG2 and FOCUS.

8. Precise adjustment of GEOMETRY.

9. PIP alignments (if present).

10. COLOUR alignments.

11. Other software alignments.

8.2 Hardware Alignments

Notes:

•The Service Alignment Mode (SAM) is described in chapter

5 "Service Modes, Error Codes, and Fault Finding".

•Use the cursor-, menu-, and OK-buttons of the remote

control (RC) transmitter for navigation.

Figure 8-1 Top view LSP

8.2.1 Vg2 Adjustment

Notes:

•For adjusting the VG2 in A10 sets, the vertical scan could

be disabled by the VSD bit (Vertical Scan Disable).

However, do not use this option in this chassis, as it will

lead to a "beam current" protection!

•Also, the option "VG2" in the SAM does not function yet.

Please, do not use!

In the frame-blanking period of the R, G, and B signals applied

to the CRT, the video processor inserts a measuring pulse with

different DC levels. Measure the black level pulse during the

vertical flyback at the RGB cathodes of the CRT.

1. Connect the RF output of a pattern generator to the

antenna input. Input a "black" picture (blank screen on CRT

without any OSD info) test pattern.

2. Use the MENU key to enter the "user" menu, select

"Picture", and set "Brightness" and "Contrast" to minimum.

3. Set the oscilloscope to 20 V/div and the time base to 20 us/

div. Use external triggering on the vertical pulse.

Caution: use a trigger point on the "cold" side!

4. Ground the scope on the CRT panel ("cold" side) and

connect a 10:1 probe to one of the cathodes of the picture

tube socket (see circuit diagram F).

5. Measure at test points F017, F018 and F019 on the picture

tube socket the DC-level of the measuring pulse (1st full

line after the frame blanking) with respect to earth.

6. Select the pin with the highest level found and adjust

V_cutoff by means of the Vg2-potmeter (lowest-one) on the

Line Output Transformer (LOT) to 165 +/- 5 V_dc (for all

screen sizes).

7. Reset "Contrast" and "Brightness" to their original values.

CL 26532041_060.eps

110402

SSB

V.SHIFTCINCH SCART

TUNER 3642

1502

5430

Focus 2

Focus 1

Screen

VG2

LOT

Warning

All alignments

are on hot-part !

A

B

C

Electrical Alignments

EN 86 A02E8.

Figure 8-2 Waveform Vg2 alignment

8.2.2 Focus alignment

The LOT has the following outline:

–Focus 1 (F1) = Static alignment (black wire).

–Focus 2 (F2) = Dynamic alignment (red wire).

1. Use an external video pattern generator to input a "circle"

or "crosshatch" test pattern to the set.

2. Choose "Natural" picture mode with the "Smart Picture"

button on the remote control transmitter.

3. Adjust the "dynamic focus 2" potentiometer (in the middle

on the LOT) until the horizontal lines at the centre of the

screen are of minimum width without introducing a visible

haze.

4. Adjust the "static focus 1" potentiometer (highest of the

LOT) until the horizontal lines at the sides of the screen are

of minimum width without introducing a visible haze.

5. Repeat these two steps to achieve the best result.

8.3 Software Alignments

Put the set in the SAM (see the "Service Modes, Error Codes

and Fault Finding" section). The SAM menu will now appear on

the screen. The different alignment parameters are described

further on.

Notes:

•All changes to menu items and alignments must be stored

manually.

•If an empty EAROM (permanent memory) is detected, all

settings are set to pre-programmed default values, so the

set must be re-aligned.

8.3.1 TUNER

AGC

1. Set an external pattern generator to a colour bar video

signal and connect the RF output to the aerial input of the

TV. Set the amplitude to 10 mV and the frequency to

475.25 MHz. Use system PAL B/G if possible, otherwise

match the system of your generator with the received

signal in the set.

2. Put the set in the SAM mode.

3. Select via the TUNER menu, the AGC sub-menu.

4. Connect a DC multi-meter to pin 1 of the tuner (item 1200

on the LSP).

5. Adjust the AGC until the voltage at pin 1 of the tuner is 3.3

V (+/- 0.1 V). The value can be incremented or

decremented by pressing the right/left CURSOR button on

the RC.

6. After alignment, save the value(s) with the STORE

command in the SAM main menu.

IF PLL OFFSET

No adjustments needed: default value is "35".

If the mentioned default value does not give the required result,

use the following alignment method:

1. Set an external pattern generator to a crosshatch video

signal and connect the RF output to the aerial input of the

TV. Set the amplitude to 10 mV and the frequency to

475.25 MHz. Use system PAL B/G if possible, otherwise

match the system of your generator with the received

signal in the set.

–For "Negative modulation", the sound signal must be

a non-modulated FM signal.

–For "Positive modulation", the video signal must have

high modulation (100% or above).

2. Put the set in the SAM mode.

3. Select via the TUNER menu, the IF-PLL OFFSET sub-

menu.

4. Measure and align:

–For "Negative modulation", on SCART pin 1 or 3

(audio out): Adjust IF-PLL OFFSET until the largest

Signal Noise Ratio (SNR) is reached.

–For "Positive modulation", on SCART pin 19 (video

out): Adjust IF-PLL OFFSET until you get minimal V-

sync disturbance.

8.3.2 GEOMETRY

Notes:

•Set an external pattern generator to a crosshatch video

signal and connect the RF output to the aerial input of the

TV. Set the amplitude at least 1 mV_rms (60 dBuV) and the

frequency to 475.25 MHz. Use system PAL B/G if possible,

otherwise match the system of your generator with the

received signal in the set.

Note: Do not use the internal test pattern from the

GEOMETRY menu!

•Use the default alignment settings, but set "Brightness" to

"32".

•For wide screen models, set to "wide screen" mode, for

"classic" models, set to "4:3".

•After alignment, save the value(s) with the STORE

command in the SAM main menu.

Service tip: When the set is equipped with a rotation coil, use

this menu item to check its correct alignment. If alignment is not

correct, go to the user MENU, choose FEATURES, and select

ROTATION. With the use of a crosshatch test pattern, align it

to a correct horizontal picture.

0V Ref.

CL 06532130_014.eps

131000

VCUTOFF [VDC]

max.

Electrical Alignments EN 87A02E 8.

Alignment

Figure 8-3 Geometry Alignments

1. Before starting the vertical alignment, set (in SAM) the

following parameters to "0":

–VER. SHIFT,

–VER. SCOR,

–VER. U_LIN,

–VER. L_LIN.

2. Set SERV. BLK to "on", to blank the lower half of the

screen.

3. Adjust the "VERTICAL SHIFT" potentiometer (R3642 on

the LSP) until the picture is centred (to the mechanical

centre of the picture tube), and switch SERV. BLK to "off".

4. Adjust VER. U_LIN and VER. L_LIN such, that upper and

lower horizontal lines of the crosshatch pattern are just

visible.

Use then the following software regulations to modify the

geometry:

1. VER. AMPL (Vertical Amplitude): Align for the vertical

picture centre, range from -32 to +32.

2. VER. SHIFT (Vertical Shift): Compensating for any gain

error in amplifier, adjust range from -32 to +32 to the proper

amplitude.

3. VER. SCOR (Vertical S-Correction): Align for equal height

of the blocks in the top, the bottom and the middle, range

from -63 to +63.

4. HOR. SHIFT (Horizontal Shift): Adjust for the horizontal

centre of the screen, range from -127 to +128.

Next step is to align the East/West geometry.

1. First, set the parameters EW_5 and EW_6 to "0"

2. EW. WIDTH (East-West Width): This sets the (overall)

horizontal size of the picture on the screen. Range from -

63 to +63 (with the following EW alignments, these lines

can be straightened).

3. EW_1 (East-West parameter 1): Has effect on the length of

the upper part of the vertical E/W lines.

4. EW_2 (East-West parameter 2): Has effect on the length of

the vertical E/W lines just below EW_1.

5. EW_3 (East-West parameter 3): Has effect on the length of

the vertical E/W lines just below EW_2.

6. EW_4 (East-West parameter 4): Has effect on the length of

the vertical E/W lines just below EW_3.

7. EW_5 (East-West parameter 5): Has effect on the length of

the vertical E/W lines just below EW_4.

8. EW_6 (East-West parameter 6): Has effect on the length of

the vertical E/W lines just below EW_5.

9. EW_7 (East-West parameter 7): Has effect on the length of

the vertical E/W lines just below EW_6.

10. EW_8 (East-West parameter 8): Has effect on the length of

the vertical E/W lines just below EW_7.

11. EW_9 (East-West parameter 9): Has effect on the length of

the vertical E/W lines just below EW_8.

12. EW_10 (East-West parameters 10): Has effect on the

length of the lowest part of the vertical E/W lines.

13. HOR. BOW (Horizontal Bow): Align the EW parabola to be

symmetrical, range from -63 to +63.

14. HOR. PARALLEL (Horizontal Parallel): Align for straight

vertical lines on the picture sides, range from -63 to +63.

15. HOR. LIN (Horizontal Linearity): Align for equal width of

horizontal blocks on the left, the right and the centre, range

from 0 to +127.

16. HOR. IN_PIN (Horizontal Inner Pincushion): Align for the

inner straight vertical lines, range from 0 to +32.

8.3.3 WHITE TONE

In the WHITE TONE sub menu, the colour values for the

different colour temperatures can be changed.

The colour temperature mode (NORMAL, DELTA COOL,

DELTA WARM) can be selected per colour (R, G, and B) with

the RIGHT/LEFT cursor keys. The mode or value can be

changed with the UP/DOWN cursor keys.

First, the values for the NORMAL colour temperature must be

selected. Then the offset values for the DELTA COOL and

DELTA WARM mode can be selected. Note that the alignment

values are non-linear.

CL 36532058_084.eps

211103

4

2

6

7

9

8

VERT. AMPLITUDE

VERT UPPER LINEARITY

HOR. SHIFT

E/W WIDTH

11 HOR. IN. PIN

HOR. PARALLELOGRAM

HOR. BOW

3 VERT LOWER LINEARITY

5 V.S-CORRECTION

10 HOR. LIN

1 VERT. SHIFT

Electrical Alignments

EN 88 A02E8.

Alignment

No adjustments needed. Use the given default values:

Table 8-1 White tone alignment (default values)

If the mentioned default value does not give the required result,

use the following alignment method:

1. Set the external pattern generator to a 100% white pattern,

and connect the RF output to the aerial input of the TV. Set

the amplitude at least 1 mV_rms (60 dBuV) and the

frequency to 475.25 MHz. Use system PAL B/G if possible,

otherwise match the system of your generator with the

received signal in the set.

2. Set "Smart Picture" to "Natural".

3. Set "Dynamic NR" to "off".

4. Put the set in the SAM mode.

5. Select via the WHITE TONE menu, the PATTERN sub-

menu.

6. Set PATTERN to "on".

7. Set NORMAL GREEN to "32".

8. Measure with the colour analyser (Minolta CA100 Colour

Analyser or equivalent), calibrated with the spectra, on the

centre of the screen.

9. Adjust with the cursor left/right command the Red and Blue

register for the right xy-coordinates (see the table below).

10. Repeat the white tone adjustment also for the colour

temperatures COOL and WARM.

Table 8-2 White tone alignment (with colour analyser)

8.3.4 SOUND

No adjustments needed. Use the given default values:

•PRESCALE LEVEL

–FM: "+1".

–NICAM: "+3".

–EXTAM Gain: "0".

–PIPMONO: "0".

–ExtLR-in: "0".

•TRESHOLD LEVEL

–Over Mod Tresh: "+3dB".

–NIC ErrLmt_Hi: "60".

–NIC ErrLmt_Lo: "20".

–NoiseTres SC2: "+2".

–NoiseHyst SC2: "+4".

•EFFECTS LEVEL

–BMT CutOffFrq: "50Hz".

–Incredible SND: "60%".

–VDolby: "100%".

8.3.5 SMART SETTINGS

No adjustments needed. Use the given default values:

Table 8-3 Smart settings (default values)

8.4 Option Settings

8.4.1 Introduction

The microprocessor communicates with a large number of I2C

ICs in the set. To ensure good communication and to make

digital diagnosis possible, the microprocessor has to know

which ICs to address. The presence / absence of these specific

ICs (or functions) is made known by the option codes.

Notes:

•After changing the option(s), save them with the STORE

command.

•All changes are disregarded when the OPTIONS submenu

is left without using the STORE command.

•The new option setting is only active after the TV is

switched "off" and "on" again with the Mains switch (the

EAROM is then read again).

8.4.2 Changing options

Options are used to control the presence / absence of certain

features and hardware. There are two ways to change the

option settings. All changes in the option settings are saved by

selecting STORE and pressing the CURSOR RIGHT key.

Some changes will only take affect after the set has been

switched OFF and ON with the mains switch (cold start).

Changing multiple options by changing option byte values

Option Bytes (OB) makes it possible to set all options very fast.

An option byte represents a number of different options. All

Parameter

28PW8609/12

29PT8509/12

32PW8609/12

Normal Red -4 +11 +1

Normal Green -9 +4 -7

Normal Blue -6 +12 -2

Red BL Offset 7

Green BL Offset 7

Blue BL Offset 7

Delta Cool Red 7

Delta Cool Green 15

Delta Cool Blue 33

Delta Warm Red 2

Delta Warm Green 3

Delta Warm Blue 7

White D mode Temperature DUV x y

Normal 8500 K +-0.004 288 +/- 4 300 +/- 4

Cool 11500 K +-0.005 273 +/- 5 282 +/- 5

Warm 7000 K +-0.005 305 +/- 5 312 +/- 5

Smart setting Default

RICH BGT 55

COL 55

CON 100

SHP 6

HUE 51

NATURE BGT 51

COL 48

CON 80

SHP 5

HUE 51

SOFT BGT 49

COL 45

CON 65

SHP 4

HUE 51

MULTI BGT 51

COL 48

CON 85

SHP 6

HUE 51

BGT= Brightness,

COL= Colour,

CON= Contrast,

SHP= Sharpness,

HUE= Hue (not valid for Europe).

Electrical Alignments EN 89A02E 8.

options are controlled via eight option bytes (OB0 to OB7).

Select an Option Byte you want to change with the CURSOR

UP/DOWN keys, and key in the new value. See table for more

details. An explanation per option is listed in paragraph "Option

Bit Definition".

Changing a single option

It is also possible to change an option one at a time. Therefore,

select the option with the CURSOR UP/DOWN keys and

change its setting with the LEFT/RIGHT keys.

8.4.3 Option Settings

In the table, you will find the option settings.

Table 8-4 Option bit overview

8.4.4 Option Bit Definition

Sources

AV3: Side AV source.

Function: Disable/Enable side AV source.

Values: OFF= Disabled, side AV source is not available. ON=

Enabled, side AV source is available.

SCT3: SCART 3 input.

Function: Disable/Enable Scart3 input.

Values: OFF= Disabled. ON= Enabled.

Video

ASPR: Aspect Ratio Setting.

Function: Select between 4 by 3 or 16 by 9 set.

Values: OFF= 4 by 3 set. ON= 16 by 9 set.

DNR: Dynamic Noise Reduction.

Function: Disable/Enable (Dynamic) Noise Reduction function.

Values: OFF=Disabled. ON= Enabled.

BBD: Black Bar Detection.

Function: Disable/Enable Black Bar Detection.

Values: OFF=Disabled, Black Bar Detection not available. ON=

Enabled, Black Bar Detection available.

Note: The Auto Screen Fit will not be included in the picture

size loop when BBD is OFF.

ASF: Auto Screen Fit.

Function: Disable/Enable Auto Screen Fit.

Values: OFF=Disabled, Auto Screen Fit is not available. ON=

Enabled, Auto Screen is Fit available.

CZOM: Continuous Zoom.

Function: Disable/Enable Continuous Zoom.

Values: OFF=Disabled. ON= Enabled.

HSHT: Heading Shift.

Function: Disable/Enable Heading Shift.

Values: OFF=Disabled. ON= Enabled.

SSHT: Subtitle Shift.

Function: Disable/Enable Subtitle Shift.

Values: OFF=Disabled. ON= Enabled.

APC: Auto Picture Control (Auto TV).

Function: Disable/Enable Auto picture control.

Values: OFF= Disabled. ON= Enabled.

WSSB: Wide Screen Signalling Bit.

Function: Disable/Enable Wide screen Signalling bit function.

Values: OFF= Disabled. ON= Enabled.

ROTI: Rotation Tilt.

Function: Change the tilt level of picture tube.

Values: OFF= Disabled, menu item ROTATION is not

available. ON= Enabled, menu item ROTATION is available.

DGSC: Digital Scan.

Function: Enable/Disable the Digital Scan in the DIGITAL OPT

menu.

Values: OFF= Disabled, menu item DIG SCAN is not available.

ON= Enabled, menu item DIG SCAN is available.

SCAVM: SCAVEM.

Function: Enable/Disable SCAVEM.

Values: OFF= Disabled. ON= Enabled.

Audio

AAVL: Automatic Volume Level control.

Function: Disable/Enable automatic volume leveller function.

Values: OFF=Disabled, menu item AVL is not available. ON=

Enabled, menu item AVL is available.

Byte number

Bit number

Decimal value

Name

28PW8609/12

29PT8509/12

32PW8609/12

OB1

1 2 SCAVM 1 1 1

5 32 RCMX 0 0 0

664EQTO00 0

8 256 WSSB 1 0 1

12 4096 DGSC 1 1 1

14 16384 SSHT 1 0 1

OB2

532DBYV11 1

9 512 P50 0 0 0

11 2048 QPEAK 0 0 0

12 4096 EPG 0 0 0

OB3

0 1 AV3 1 1 1

12SCT3000

532SOSD00 0

8 256 ASPR 1 0 1

9 512 ROTI 1 0 1

OB4 38PITN *000

416PITN *00 0

OB5 6 64 AAVL 1 1 1

OB8 416PIPC000

532PIPT0 00

OB9

0 1 APC 1 1 1

532VMOD000

7 128 TIME 1 1 1

8 256 DNR 1 1 1

9 512 BBD 0 0 0

10 1024 ASF 0 0 0

OB10

5 32 UKPNP 0 0 0

664DTXT10 1

8 256 SBNP 1 1 1

9 512 AUSB 0 0 0

10 1024 CZOM 1 0 1

11 2048 HSHT 1 0 1

14 16384 CHLK 1 1 1

OB11

9 512 T1H0 1 1 1

13 8192 FAPG 1 1 1

14 16384 ACI 1 1 1

OB12 8 256 PLST 1 1 1

OB13

01T2H5111

2 4 T12H 1 1 1

38EWEU000

7 128 SMCK 1 1 1

8 256 ATS 1 1 1

* = There are 2 bits for this option:

00 = Philips,

01 = Other

Unused options have a default value of "0"

Electrical Alignments

EN 90 A02E8.

DBYV: Dolby Virtual.

Function: Select surround setting.

Values: OFF= Disabled, DOLBY VIRTUAL setting is not

available. ON= Enabled, DOLBY VIRTUAL setting is available.

Note: Incredible surround & Dolby virtual are mutually

exclusive.

EQTO: Equalizer or Tone control.

Function: Selection between Equalizer and Tone control (Bass

and Treble).

Values: OFF= Tone control (Bass and Treble). ON= Equalizer.

Note: Equalizer and Tone (Bass and treble) control are

mutually exclusive.

QPEAK: AV Sound Mode detection.

Function: The current Sound Mode detection in AV is not

working correctly. The optimal threshold value for the correct

sound mode detection is still being investigated. Therefore, this

is needed to disable the Sound Mode detection in AV until the

correct threshold is identified.

Value: OFF= Disabled, AV sound auto detection is not

available. ON= Enabled. AV sound auto detection is available.

Tuning

PITN: Philips Tuner.

Function: Choose the tuner type that is configured in the

hardware.

Values: OFF= Disabled, ALPS compatible tuner is used. ON=

Enabled, Philips compatible tuner is used.

Installation

ACI: Automatic Channel Installation.

Function: Disable/Enable automatic channel installation.

Values: OFF= Disabled Automatic Channel Installation. ON=

Enabled Automatic Channel Installation.

Note: Download present program when ACI is ON.

ATS: Automatic Tuning System.

Function: Disable/Enable automatic tuning system.

Values: OFF= Disabled, automatic tuning system is ignored.

ON= Enabled Automatic Tuning System, sort the program in an

ascending order starting from Program 1.

Note: Sort the program in an ascending order starting from

Program 1 when ATS is ON.

VMOD: Virgin Mode.

Function: Disable/Enable virgin mode.

Values: OFF= Disabled, cannot access virgin mode. ON=

Enabled, can access virgin mode.

Note: Plug and Play menu item will be displayed to perform

installation at the initial start up of the TV when MOD is ON and

after installation is done, VMOD will be automatically set to

OFF.

UKPNP: UK Plug and Play.

Function: Disable/Enable UK’s default Plug and Play setting.

Values: OFF= Disabled, UK’s default Plug and Play setting is

not available. ON= Enabled, UK’s default Plug and Play setting

is available.

Note: When UKPNP and VMOD are ON at the initial set-up,

LANGUAGE= ENGLISH, COUNTRY= GREAT BRITAIN and

after auto store is complete, VMOD will be set automatically to

OFF while UKPNP remain ON.

Program Selection

PLST: Program List.

Function: Disable/Enable Program List function.

Values: OFF= Disabled, the access to Program List Command

is ignored. ON= Enabled, the access to Program List

Command is processed.

Picture In Picture

PIPC: PIP Control.

Function: Disable/Enable submenu to adjust PIP Picture

settings

Values: OFF= Disabled, PIP feature is not available. ON=

Enabled, PIP feature is available

Note: PIP is present in FEATURES submenu when PIPC is

ON. When PIPC is switched OFF, bits PIPT, W4X3, and W169

must be automatically set to OFF.

PIPT: PIP Tuner.

Function: To determine the presence of second tuner.

Values: OFF= Disabled, second tuner is not available. ON=

Enabled, second tuner is available.

Note: When PIPC is switched OFF, bits PIPT, W4X3, and

W169 must be automatically set to OFF.

Clock

SMCK: Smart Clock/Autochron.

Function: Disable/Enable smart clock/AutoChron function.

Values: OFF= Disabled, menu item smart clock function not

available. ON= Enabled, menu item smart clock function

available.

Note: For NAFTA, AUTOCHRON is present in INSTALL

submenu when SMCK is ON. For AP-PAL and EUROPE,

Smart clock downloaded from Teletext is enabled when SMCK

is ON.

TIME: Timer.

Function: Disable/Enable menu item TIMER.

Values: OFF= Disabled, menu item TIMER not available. ON=

Enabled, menu item TIMER available.

Note: TIMER submenu is present in FEATURES submenu

when TIME is ON.

Data Service

DTXT: Dual Text.

Function: Disable/Enable Dual Text.

Values: OFF= Disabled. Dual text is not available. ON=

Enabled. Dual text is available.

RCMX: RC for Teletext Mix Mode.

Function: Disable/Enable RC for Teletext Mix mode support.

Values: OFF= Disabled. RC for mix mode is not available. ON=

Enabled, RC for mix mode is available.

FAPG: Favourite Page.

Function: Disable/Enable favourite page in Teletext mode.

Values: OFF= Disabled favourite page in Teletext mode. ON=

Enabled favourite page in Teletext mode.

T1H0: 100-Page Text.

Function: Disable/Enable 100-page Text.

Values: OFF= Disabled. 100-page text is not available. ON=

Enabled, 100-page text is available.

T2H5: 250-Page Text.

Function: Disable/Enable 250-page Text.

Values: OFF= Disabled. 250-page text is not available. ON=

Enabled, 250-page text is available.

T12H: 1200-Page Text.

Function: Disable/Enable 1200-page Text.

Values: OFF= Disabled. 1200-page text is not available. ON=

Enabled, 1200-page text is available.

Lock Features

CHLK: Child Lock.

Function: Disable / Enabled function to block/unblock

channels.

Values: OFF= Disabled. ON= Enabled.

OSD/Menu Related

SOSD: Smart OSD.

Function: Disable/Enable full display of SMART SOUND and

SMART PICTURE OSD.

Electrical Alignments EN 91A02E 8.

Values: OFF= Disabled, full display of SMART SOUND and

SMART PICTURE OSD not available. ON= Enabled, full

display of SMART SOUND and SMART PICTURE OSD

available.

Miscellaneous

SBNP: Auto Standby with No Picture.

Function: Disable/Enable automatic switch to standby after 15

minutes when no ident.

Values: OFF= Disabled, no automatic switch to standby. ON=

Enabled, set switches to standby after 15 minutes when no

ident.

AUSB: Auto Standby Auto On.

Function: Disable/Enable automatic switch to standby if no RC

or local keyboard response after 4 hours provided that the set

is ON from standby mode by the timer.

Values: OFF= Disabled, no automatic switch to standby. ON=

Enabled, set switches to standby after 4 hours.

EPG: Electronic Program Guide.

Function: Disable/Enable EPG feature.

Values: OFF= Disabled, EPG feature is not available. ON=

Enabled, EPG feature is available.

P50: P50 (Easylink).

Function: Disable/Enable P50 feature.

Values: OFF= Disabled, P50 feature not available. ON=

Enabled, P50 feature is available.

EWEU: East/West Europe region.

Function: Select between East Europe and West Europe.

Values: OFF= West Europe. ON= East Europe

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 92 A02E9.

9. Circuit Descriptions, Abbreviation List, and IC Data Sheets

Index of this chapter:

1. Introduction

2. Block diagrams

3. Power supply

4. Video

5. Synchronisation

6. Audio

7. Control

8. Protections

9. Software upgrading

10. Abbreviation list

•Only new circuits (circuits that are not published recently)

are described.

•For the "known" LSP circuits, see the EM5E manual. This

manual is available under number 3122 785 12560 (=

English).

•Figures can deviate slightly from the actual situation, due

to different set executions.

•For a good understanding of the following circuit

descriptions, please use the diagrams in chapter 6 and 7.

Where necessary, you will find a separate drawing for

clarification.

9.1 Introduction

The A02 is intended as the Mainstream TV platform for the

years 2003 and 2004 and successor to the A10. Covering three

ranges (Digital Ready, Digital Prepared, and Digital Integrated)

with screen sizes of 28 inch WS to 36 inch WS RF (16:9) and

29 inch to 38 inch RF (4:3). The platform supports 50 Hz, 100

Hz, and progressive scan.

It is based on the SALSA system (System Application for Lower

Segment Analogue television), which is a highly integrated

solution for TV. The system comprises two ICs: the ADOC

(Analogue Digital One Chip) and the MPIF (Multi Platform

InterFace). The MPIF IC performs analogue processing for IF,

source selection, and analogue to digital conversion. The

ADOC IC incorporates video and audio processing as well as

the complete TV control functionality. The ADOC aims at the

low and mid range market segment.

The split-up between an analogue (MPIF) and a digital part

(ADOC) has the following advantages:

•High frequent parts (IF) can be included in the concept.

•Less A/D and D/A converters needed for source switching.

•Better performance for AD converters (realised in analogue

design environment, more accurate, less tolerance).

•Critical items like reference voltages can be realised in the

analogue environment.

•Integrated SCART buffers.

The new A02 chassis has the following features:

•An LSP (Large Signal Panel) that is based on the existing

EM5 chassis.

•A new SSB (Small Signal Board) with very high integration.

•Upgradeable main software (via ComPair). The software is

a large and re-engineered version of the 'MG' software

used by Philips CE for several years.

9.1.1 Large Signal Panel

The chassis has a full sized LSP, which is identical to the one

in the EM5 chassis.

The main functionalities of the LSP are:

•Supply,

•Deflection,

•Sound amplification.

The LSP (single sided) is built up very conventional, with hardly

any surface mounted components on the copper side. It has a

large "hot" part, including both deflection coils.

9.1.2 Small Signal Board

The SSB is a high tech module (four layer, 2 sides reflow

technology, full SMC) with very high component density.

Despite this, it is designed in such a way, that repair on

component level is possible. To achieve this, attention was

paid to:

•Accessibility of the test points. The SSB has good

accessible service positions.

•Clearance around surface mounted ICs (for replacing).

•Detailed diagnostics and fault finding is possible via

ComPair.

•Software upgrading is possible via ComPair.

The main functionalities of the SSB are:

•Tuner input,

•I/O interface provisions,

•TXT and Control,

•Video and Audio decoding,

•Feature Box,

•Sync and Geometry control.

Further features of the SSB are:

•The PIP functionality (when present) is integrated on the

SSB.

•The 3D Comb filter functionality (for USA) is integrated on

the SSB.

On the photographs you can see where the key components

are located on the SSB:

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 94 A02E9.

9.2 Block Diagrams

Figure 9-3 Chassis block diagram

The tuner is a PLL tuner and delivers the IF-signal, via audio

and video SAW-filters, to the MPIF IC (Multi Platform

InterFace). This is an analogue video and audio pre-processing

unit for the ADOC TV processor. It contains the high frequent

IF part and all the analogue video and audio source switching

for external in- and outputs. The MPIF can handle CVBS, Y/C,

RGB (1fH/2fH) and YPbPr (1fH/2fH) video signals as well as

stereo, I2S, and second sound IF audio signals. The MPIF

converts the selected video and audio streams from the

analogue to the digital domain. Via three high-speed serial data

links (I2D), the digitised audio and video signals are streamed

to the ADOC IC for further processing.

The ADOC (Analogue Digital One Chip) is a fully integrated,

digitally implemented TV processor for audio, video, Vertical

Blank Interval services, graphics, and control. It is a global,

multi-standard system primarily designed for the reception and

processing of analogue broadcast signals.

Internal video processing is done in the ADOC with YUV-

signals. It also handles the video control, geometry part, and

the insertion of the TXT/OSD RGB-signals. The video part

delivers the RGB signals to the CRT-panel and the geometry

part delivers the H-drive, V-drive (differential output), and E/W-

drive.

An integrated MIPS 1910 processor runs the chassis software

and takes care of the set control, error generation TXT/OSD

input-, and output processing. The NVM (Non Volatile Memory)

is used to store the settings, the Flash-RAM contains the set

software, and the SDRAM stores the Teletext pages (in some

versions, this is stored in the internal memory of the ADOC).

Both deflection circuits are located on the LSP and are driven

by the ADOC. The horizontal output stage generates also

some supply voltages and the EHT-, focus- and Vg2-voltages.

The RGB amplifiers on the CRT-panel are integrated in one IC

and are supplied with 200 V from the LOT. The SCAVEM circuit

modulates transitions of the Luminance (Y) signal on the

horizontal deflection current, giving a sharper picture.

Sound IF processing, audio source selection, and audio

analogue-digital signal conversions are done in the MPIF IC.

The ADOC contains a digital TV sound processor for analogue

and digital multi-channel sound systems in TV sets. By

hardware programming, several applications can be scaled.

The audio output stage is built around a balanced amplifier,

and is located on the LSP. It uses a monolithic integrated power

amplifier IC, the TDA7497. The gain of the amplifier is constant.

This means that volume control is done via the ADOC.

The power supply is a Switch Mode Power Supply (SMPS) with

minimum voltage switch. It is a flyback converter with primary

current sensing, secondary voltage sensing, and mains input

measuring. It is built around IC7921 (which has a built-in

MOSFET and control circuit) and generates a.o. the 140 V (V-

BAT) and the 27 V (for the audio part).

During Standby, the power supply is switched to a 'low power

burst mode' via TS7946 and the following burst mode

generator, in order to reduce the power consumption.

A relay is used to switch the degaussing circuit for several

seconds during switching 'ON' of the set.

There is a separate Standby Supply, in order to reduce the

Standby power consumption. During Standby, the Main Supply

is switched "off" (via TS7529).

A relay (1550) is used to switch the Degaussing circuit. It is

switched "on" after set start-up and switched "off" by the

microprocessor after 12 s.

The Main Supply, a SMPS based on the "boost converter"

principle, generates the 141 V (V_BAT) and the +/- 16 V for the

audio part.

9.3 Power Supply

9.3.1 Introduction

The power supply circuitry is located on the large signal PWB,

together with the audio amplifier and the deflection. It

comprises of:

•Mains entrance with fuse.

•Separate standby -supply.

•Mains harmonic circuit.

•Mains rectifier.

•Main-supply: is able to deliver a continuous power between

100 W and 160 W.

•Degaussing.

For a detailed circuit description, see the EM5E Service

Manual.

9.3.2 Power Supply architecture

The A02 SSB is supplied by +5V, +5.2V, +3.3V and +8V supply

lines from the LSP. The SSB contains:

•A DC/DC converter which steps down +5.2V to +1V8,

•A switch to cut off the 3V3 supply to the 3D Comb in

"Standby" mode, and

•A regulator to generate the 2V5.

When the set is in “Power STANDBY” mode, the +5.2V, +3.3V

supply lines are present. Consequently, only the ADOC IC

(+3V3 and +1V8), the SDRAM (+3V3), the Flash memory

(+3V3), and the NVM memory (+3V3) are supplied. Other than

NVM, all the other devices are powered down in "Standby"

mode. See section below for more details on the power modes.

OFF Mode

The set is completely switched "off" from the mains. This is

done with the mains switch for Europe and AP (for NAFTA it

would mean disconnecting the TV from the mains by pulling out

the mains cable). Depending upon the last Standby Status

(stored in NVM), this mode can transit to “ON’ mode or

“STANDBY” mode.

The transition timing for a Cold start from “OFF” state to “ON”

shall be such that from the instance the ADOC gets a hard

reset, within 3 seconds one will hear the audio and within 7

seconds one will see the picture.

ON Mode

This is the normal operating mode. All the power supply lines

on the A02 SSB and LSP are available. All the circuits in the set

are active. From this mode, it is possible to transit to

“STANDBY”, “SEMI-STANDBY”, “PROTECTION”, or "OFF”

mode.

STANDBY Mode

The total power consumption of the TV set in this mode is equal

or less than 1 W. The Standby state will be indicated by the

LED. In this state only the ADOC, SDRAM, Program Memory,

NVM, and all means to wake-up the set are powered. Rest of

Tuner/SAW

Tuner/SAW

IF/

Mono Sound

MPIF ADOC

SDRAM

RGB

Amp.

Audio

Amp.

2nd tuner

PIP-channel

FLASH

CL 36532058_064.eps

281003

NVM

Local

keyboard

IR

7730

(TXT)

7790

(SET SW)

7525

(SETTINGS)

R

G

B

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 95A02E 9.

the A02 sub-systems are disconnected. This is controlled by a

STANDBY control port.

The transition timing from “STANDBY” to “ON” state is such

that within 3 seconds, one will hear the audio and within 7

seconds, one will see the picture. From this mode, it is possible

to transit to “ON”, “SEMI-STANDBY”, or “OFF” mode.

SEMI-STANDBY Mode

All the circuits in the set (ADOC, MPIF, etc), except the Audio

output, Deflection, and hence CRT display, are powered up

and fully active. The Audio Mute is activated. The set, however,

will appear to behave and to look like “STANDBY” mode to the

user. The user is totally oblivious of the existence of this mode.

The status of the power supply lines and the estimated total

power consumption of the SSB are the same as “ON” mode.

In this mode, the ADOC ICs horizontal deflection drive output

is disabled, while the STANDBY control port is disabled. This

consequently causes the LOT stage on the LSP to be inactive

(although V_batt voltage is present) that, in turn, will cause the

EHT to be cut off. This in turn will cause the CRT display to be

inactive.

From this mode, it is possible to transit to “ON” mode,

“STANDBY” mode, “PROTECTION” mode or “OFF” mode.

PROTECTION Mode

Power profile for protection mode is as low as required to allow

“soft” diagnostics, error detection, and to indicate LED flashes

to flag the type of fault. The horizontal deflection is "OFF" in this

mode. From the protection mode, the only possible transition is

to “OFF” mode.

9.3.3 Start Up Sequence

1. When we start the set (cold start), initially 5V2, 3V3, and

1V8 will be available. These come from the Standby

module of the power supply.

2. After this, the microprocessor resets (tied to 1V8 and 3V3

supplies) and checks the last status of the supply from the

NVM. Accordingly, the set will be put in STANDBY or in the

normal ON condition.

3. Now, 5V and 8V are available if the last status was ON

condition, and the DOP is initialised by the microcontroller

through the PI bus (not via the I2C).

4. The H-drive will become available from the DOP, which is

the source for the SUP_ENABLE signal.

5. Via the “SUP-ENABLE” signal, the Main Supply is switched

“on” and will deliver the V_BAT to the Line deflection stage.

6. EHT generation is now started.

7. The uP will un-blank the picture.

8. When you switch “off” the set, this is done in a controlled

way via the POR (Power On Reset) signal.

Note: Standby is controlled by the STANDBY Line of the uP

(not by the DOP).

9.3.4 Shut Down Sequence

This section describes the processes that need to be handled

by hardware and software when power is disconnected from

the set.

Some system requirements:

•To handle CRT discharge.

•To handle "switch off" plops.

•To prevent NVM corruption at switch "off".

•To effectively distinguish between the condition of mains

interruptions and shutdown and handle them properly.

•The "power down" detection is acquired from the deflection

supply (+11V) and the level is translated to +3.3V (this

event has the highest interrupt priority to trigger SW

shutdown procedure).

•Power down detection is fed to the FBCIN input, initiates a

slow stop, and hence ensures CRT discharge (it is

important that the slow-stop is maintained for at least 50

ms to assist good discharge).

•The microcontroller, hence the system, shall have a clean

power "on" and power "off" reset with respect to its supply.

The microcontroller shall not be operational when the

supply voltage is below the recommended limits. The

transition between active and reset is fast.

•The microcontroller "off" reset must occur much later (> 45

ms) than the POWER DOWN signal (P.DN).

When the POWER DOWN interrupt occurs, there is no way of

knowing whether it is due to Medium Mains Interruptions or due

to shutdown. Hence, there is no choice but to initiate shutdown

procedure as described further below. The definition of Mains

Interruption is given below:

•Short Mains Interruptions. Duration of the interrupts <=

55 ms. The set shall continue to work properly. The "power

off" acquisition circuit shall filter such events.

•Medium Mains Interruptions. Interruptions are of the

order 70 to 80 ms. This is a typical situation when the

"power off" acquisition circuit, signals that the power is

going down but the microcontroller does not get a reset. In

this condition, a POWER DOWN signal is generated but no

POWER OFF RESET signal is available.

•Long Mains Interruption or Shutdown. Any interrupt

above 80 ms shall cause a microcontroller reset and hence

a cold start. This happens, when the power is disconnected

long enough to get a "Power Off Reset" as well as the

microcontroller reset. After this situation, the system would

automatically cold start when the power resumes.

Figure 9-4 Shut down block diagram

Shutdown Procedure

1. Exclude all processes and do not respond to any interrupts

- including RC events. However, during the following

defined conditions of stopping the deflection (DFL-bit= 0),

ignore the P.DN interrupt and rest of the procedure:

–The system switched from ON to Standby by the user.

–Protection event that forces the H-Deflection to stop.

–Any other SW controlled event that causes the

deflection to stop.

2. Since the P.DN signal is connected to FBCIN input, the

DOP shall slow stop immediately - no software intervention

is required. The precondition for this is that the FBDM bit in

DOP is set to "1". The slow -stop process will continue for

the next 40 ms or so.

3. Mute Audio Output / Sound Enable line.

4. Mute audio external outputs (in ADOC).

5. Set the DFL-bit to "0", such that deflection shall not restart

after the slow -stop process is done.

6. Disable NVM access. Do the following:

–Put the NVM in standby state to stop I2C write to NVM,

by sending the Universal Reset Sequence.

–Set Write Enable high: this avoids any further Write

sequence to the NVM.

7. Disable all the I2C hardware communication.

POWER-DOWN

DETECTION

ADOC IC

FBCIN

POWER-DOWN

Interrupt (P0_1|INT1)

+11V

(LOT)

UP RESET

Generator

+5V2

STANDBY

SUPPLY

P.DN signal

(POR_FLASH)

uP RESET

Signal

RESET

CL 36532058_081.eps

281003

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 96 A02E9.

8. Wait for 200 ms and execute a cold start when there is no

microcontroller-reset signal. This is considered as “medium

mains interruption”.

9. After the cold start, the set should resume to the last status

of user settings.

9.4 Video

Figure 9-5 Signal processing A02- versus EMG-chassis.

The SALSA video processing part is a highly integrated

solution. It comprises only two ICs, the ADOC (Analogue

Digital One Chip) and the MPIF (Multi Platform InterFace),

while in the EMG-chassis, this was handled by four ICs (HIP,

PICNIC, PROZONIC, and HOP).

The MPIF uses a nominal 8V and 5V supply, while the ADOC

requires nominal supplies of 1.8V and 3.3V.

The video processing of the SALSA system can be spilt into six

parts:

•Initial source selection and analogue to digital conversion

performed by MPIF.

•Demodulator (VIDDEC) performed by the ADOC.

•Front End Features (FEF) performed by the ADOC.

•Memory Based Features (MBF) performed by the ADOC.

•Back End Features (BEF) performed by the ADOC.

•Digital Output Processing (DOP) performed by the ADOC.

9.4.1 MPIF Analogue Frond End

Introduction

The MPIF (Multi Platform InterFace, type number PNX3000,

item number 7100) is an analogue video and audio pre-

processing unit for the ADOC TV processor. It contains the

high frequent IF part and all the analogue video and audio

source switching for external in- and outputs. The MPIF can

handle CVBS, Y/C, RGB (1fH/2fH) and YPbPr (1fH/2fH) video

signals as well as stereo, I2S, and second sound IF audio

signals. The MPIF converts the selected video and audio

streams from the analogue to the digital domain. Via three

high-speed serial data links (I2D), the digitised audio and video

signals are streamed to the ADOC IC for further processing.

Following figure shows the MPIF block diagram.

Figure 9-6 MPIF block diagram

Some MPIF features:

•IF Processing:

–Amplifier, AGC.

–Down mixer to base band.

–Sound trap, low pass filter.

•Video base band switching:

–CVBS, Y/C.

–RGB, YPbPr (1fH/2fH).

•Audio base band switching.

•Video and audio A/D conversion.

•I2D formatter:

–Data transfer to ADOC.

•SCART output buffers.

Vision IF

The video signal is demodulated by means of an alignment-

free PLL carrier regenerator with an internal VCO. This VCO is

calibrated by means of a digital control circuit, which uses an

external crystal frequency as reference. The frequency setting

for the various standards (33.4, 33.9, 38.0, 38.9, 45.75 and

58.75 MHz) is realised via the I2C bus.

The AFC output is generated by the digital control circuit of the

IF-PLL demodulator and can be read via the I2C bus.

The AGC-detector operates on top sync or top white level.

The MPIF IC has an integrated sound trap filter. The trap

frequencies can be switched via the I2C-bus.

Also, a group delay correction filter is integrated. The filter can

be switched between the PAL BG curve and a flat group delay

response characteristic. This has the advantage that in multi-

standard receivers the video SAW filter does not need to be

switchable (cost effective).

Sound IF

The MPIF has a separate sound IF input to enable Quasi Split

Sound (QSS) applications. The sound IF amplifier is similar to

the vision IF amplifier and has a gain control range of about 55

dB.

The AGC detector measures the SIF carrier levels (average

level of AM or FM carriers) and ensures a constant signal

amplitude for the AM demodulator and QSS mixer.

For applications without SIF SAW filter, the IC can also be used

in intercarrier mode. In this mode, the composite video signal

from the VIF amplifier is fed to the QSS mixer and converted to

the intercarrier frequency. AM sound demodulation is realised

in the analogue domain with the QSS mixer.

Source Selection

The following selector parts can be identified:

•CVBS/YC source selector. The video input selector

consists of four independent source selectors, that can

select between the CVBS signal coming from the IF part

and four external CVBS signals. Two of the external CVBS

inputs can also be used as YC input. One selector is used

for selection of the primary video channel. A second

selector selects the CVBS or YC signal for the secondary

channel. The third and fourth selectors are used for

selection of analogue CVBS outputs A and B for SCART or

line output. The primary channel can be a CVBS or YC

signal. If an YC signal is selected for the secondary

channel or external CVBS outputs A or B, the luminance

and chrominance signals are added so that a CVBS signal

is obtained. The video identification circuit detects the

presence of a video signal on the CVBS_IF input (CVBS0).

The identification output can be read via I2C bus and is

normally used to detect transmitters during search tuning.

•RGB/YPbPr source selector. The IC has two RGB inputs.

Both inputs can also be used as YPbPr input for connection

of video sources with an YPbPr output like a DVD player.

The RGB inputs can also be used for fast insertion of RGB

signals (for instance on screen display menu’s) in the

primary CVBS signal. The fast insertion switch is located in

the digital video processor. The RGB signals are converted

to YUV before further processing. The YUV output signal is

digitised with the help of two A to D converters. The U and

HIP PICNIC

MPIF

A02 SALSA

EMG

ADOC

PROZONIC HOPHOP

CL 36532058_063.eps

271003

Inputs

Inputs

Video

IF Video

IF Processing

Sound IF

Processing

AM

Demod.

Video

output

Selection

CVBS_out

Control Video Sound

Video

ADC

Video

Source

Selection

Sound

2nd IF

Selection

Sound

IF ADC

Audio

Base band

ADC

Clocking I2C

Interface

Audio

Base band

Selection

Audio

Output

Selection

LR_out

Video

Base

band

Sound

IF

Sound

low-IF

Audio

Base

band

I2D

Link

I2C

Multi-

plexer

CL 36532058_065.eps

281003

I2DI2D

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 97A02E 9.

V components have half the bandwidth of the Y signal,

because the U and V signals are multiplexed and digitised

with the help of one A to D converter.

Figure 9-7 MPIF Video source selection

•Audio source selectors. The MPIF contains two different

audio source selectors. The first selector selects which

audio signals are routed to the audio ADCs for further

processing in the digital domain. The selector has two

outputs, a primary channel and a secondary channel:

–The primary audio channel is used for one stereo

signal. The secondary audio channel can carry a

second stereo signal or AM sound signal.

–The second selector selects which audio signals are

fed to the analogue audio outputs for SCART and line

out. This selector has also two stereo inputs for

demodulated sound signals coming from the digital

video processor.

CL 36532058_073.eps

071003

A

CVBS-IF

CVBS-1

CVBS-2

CVBS/Y-3

C3

CVBS/Y-4

C4

Y-COMB

C-COMB

R/Pr/V1

G/Y/Y-1

B/Pb/U1

R/Pr/V2

G/Y/Y-2

B/Pb/U2

+

YUV

RGB

Source

Switch

CLAMP LPF

Data

Link

2

Yyuv

U

V

CLAMP

LPFCLAMP

A

D

LPF

Data

Link

1

A

D

Data

Link

3

CVBS-outA

STROBE1N

STROBE1P

DATA1N

DATA1P

CVBS/Y prim

C prim

CVBS sec

Yyuv

2Fh

SIFA/D

LR prim

Dig

Yyuv

2Fh

STROBE3N

STROBE3P

DATA3N

DATA3P

STROBE2N

STROBE2P

DATA2N

DATA2P

U,V

LPF

A

D

A

D

Timing

Circuit

CLP prim

CLP sec

CLP Yyuv

CLP prim

CLP sec

CLP Yyuv

CVBS-SC1_AV1-IN

CVBS2_PIP_TUN2

Y-CVBS-SC2_AV2-IN

C-SC2_SVHS-IN

Y-CVBS-FRONT-IN

NT-IN

YOUT-COMB

COUT-COMB

R-SC1_V-IN

G-SC1-IN_Y-IN

B-SC1-IN_U-IN

7100-B

MPIF VIDEO SWITCH 19

60

61

63

62

50

51

53

54

55

56

57

58

46

45

123

126

9

8

5

4

1

15

16

25

26

27

30

31

32

5V 49

64

STROBE1N

STROBE1P

DATA1N

DATA1P

STROBE3N

STROBE3P

DATA3N

DATA3P

STROBE2N

STROBE2P

DATA2N

DATA2P

HV_PRIM

HV_SEC

Mono Sec.

Dig.

Ident

27/54 MHz

54MHz

54MHz

12CVBS-SC3 4152

CVBS-TERR

CVBS-DTV

HV-PRIM

HV-SEC

VCC-DIG

VCC-I2D

7062

CVBS-outB

22

R-PR-2FH

G-Y-2FH

B-PB2FH

7063

CVBS_SC2_

MON_OUT

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 98 A02E9.

Figure 9-8 MPIF Audio source selection

A to D Converters

The MPIF contains four video ADCs for analogue and digital

video broadcast signals. The clock frequency for these ADCs

is either 27 MHz or 54 MHz. In some cases, two analogue

signals are multiplexed at the input of one ADC. In these cases,

the clock frequency of the ADCs is 54 MHz, while the sample

frequency for each of the two signals is 27 MHz.

The sample frequency for standard 1fH video signals is 27

MHz.

For the YUV channel the sample frequency of the U and V

components is half the sample frequency of the Y signal.

For 2fH YPbPr or RGB input signals (for instance 480p or 1080i

ATSC signals), the frequency that is used to sample the YUV

signals is twice as high as for 1fH signals. The sample

frequency is 54 MHz for Y and 27 MHz for U and V.

Due to the high sample frequency, two data links are needed

for transport of the video data to the digital video processor.

9.4.2 Data Link Interface (I2D)

The digital interface between MPIF and ADOC is called Data

Link (or I2D Link). Data Link is a pin efficient, EMC friendly and

power efficient serial interface that transfers the data from

MPIF to ADOC over three Data Link interfaces. Each Data Link

has a data signal and a strobe signal. The synchronisation

information is distributed over the data and the strobe signal.

To minimize EMC, both signal outputs are low voltage

differential swing signals, with a swing of about 300 mV.

Each Data Link has four lines, one differential pair for the data,

and one differential pair for the strobe. The data rate is 594

Mbit/s. Each Data Link can carry two 27 MHz sampled video

streams (or one 54 MHz sampled 2fH video stream) and two

audio channels sampled at 6.75 MHz.

In the MPIF, the (video and audio) data to be transmitted is

multiplexed in an output register of 42 bits. The content of that

42 bits register is serial transmitted on one of the three data

links. In the ADOC, the serial data is de-multiplexed into

parallel streams. The data on the data link is divided in several

groups of signals (video, audio and strobe signals). Obvious it

is important that the transmitter and receiver are in the same

transmitting mode.

9.4.3 ADOC Digital TV Processor

Introduction

The A02 system is built around the ADOC IC. This chip

implements all TV functions in digital technology. Only a few

functions (like AD-conversion, IF processing and source select)

are implemented in an analogue companion IC, the MPIF.

The ADOC (Analogue Digital One Chip, type number

PNX3001-3008, item number 7300) is a fully integrated,

digitally implemented TV processor for audio, video, VBI

services, graphics, and control. It is a global, multi-standard

system primarily designed for the reception and processing of

analogue broadcast signals.

An integrated MIPS 1910 processor runs the chassis software.

This software is stored in a non-volatile external flash memory

(item 7790). Following figure shows the ADOC block diagram.

CL 36532058_074.eps

071003

+

LR

prim

A/D

Mono

sec

A/D

LR

Line

LR

Scart

AUDIO

AMPs

LPF A

D

LPF A

D

LPF A

D

L prim

R prim

Mono sec

LR prim

Dig

Mono sec

Dig

AM

Int

AM EXT

L1

R1

L2

R2

L3

R3

L4

R4

DSNDL1

DSNDR1

DSNDL2

DSNDR2 SCART1L

SCART1R

LINER

LINEL

MPIF AUDIO SWITCH

69

70

67

68

PIP-AUDIO

L-SC1_AV1-IN

R-SC1_AV1-IN

L-SC2_AV2-IN

R-SC2_AV2-IN

AUD-R1

DSNDL1

DSNDR1

DSNDL2

DSNDR2

17

86

85

84

83

82

81

80

79

74

73

72

75

+5V 91,77

98,88

R-SC1_AV-OUT

L-SC1_AV-OUT

L-CL_VL-OUT

R-CL_VL-OUT

L-SC2-OUT

R-SC2-OUT

43

44

I2C

IRQ 42 MPIF-IRQ

EW

VI

EWVIN

EWIOUT

SCL

SDA

SCL1

SDA1

EW_MPIF

EW-DRIVE

F_REF

7100-A

XREF 40

36

37

Supply

+

Ref.

2

3

20

21

B10

AUD-L1

7100-D

+8V

66

65

SCART2R

SCART2L

L-FRONT-IN

R-FRONT-IN

AUD_L2

AUD_R2

L5

R5

127

128

14,28,35

7150-A

3151

3150

7150-B

3153

3152

+5V

+5V

VREF_AUD_POS

VREF_DEFL

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 99A02E 9.

Figure 9-9 ADOC block diagram

The dual stream architecture of the ADOC system allows audio

and video processing of two A/V sources simultaneously. The

two video streams can be displayed in several programmable

ways (main screen, PIP or DW). The two audio streams are

audible via the TV loudspeakers and/or the headphones.

For the memory-based features (like scan rate conversion, 3D-

Comb filtering, dynamic noise reduction, and PIP/DW

applications), external SDRAM is used (item 7730).

The ADOC also has 128 kBytes of internal SRAM memory.

This memory is used to run low latency, timing critical parts of

the software. The internal memory is also used if the system

operates in a single scan 50/60 Hz interlace application without

any other kind of memory based features. Under these

circumstances, no external SDRAM is needed.

Some ADOC features:

•Video Decoding:

–2-Colour Decoder (PAL, NTSC, SECAM).

–2D and 3D Comb filter.

•Memory Based Features:

–PIP/DW, DNR, Scan Rate conversion.

•Picture Improvements:

–CTI, LTI, Colour correction.

•Digital Output Processor:

–RGB processing, Scavem, Deflection control.

•Audio Processing:

–Demodulator/Decoder (A2, NICAM, BTSC).

–Tone, Volume, Balance, Dolby ProLogic.

•VBI (Vertical Blank Interval) Services:

–Teletext, Closed Caption, V-chip.

•TV Control:

–I2C, UART, IR, Keyboard.

•Graphics:

–Character based.

Video Decoding (VIDDEC)

The Video Decoder (VIDDEC) is the video input processor and

colour decoder. There are two VIDDECs: the primary and the

secondary VIDDEC. The VIDDEC processes all CVBS, Y/C,

and 1fH/2fH component (e.g. RGB) video input signals.

Figure 9-10 VIDDEC block diagram

Primary VIDDEC (1fH/2fH)

The primary VIDDEC supports the following functionality:

•Conversion of the digitised samples from MPIF into

orthogonal samples (meaning fixed number of pixels per

line, independently of line frequency).

•Correction for any amplitude errors of the input signals

(CVBS, YC, or YCbCr) by means of an Automatic Gain

Control (AGC).

•Standard detection of PAL/NTSC or SECAM and various

1fH/2fH component input formats.

•Colour decoding for PAL, NTSC, or SECAM input signals.

•Sync identification (to be used for channel search).

•Sync processing for any 1fH or 2fH input signal.

•Fast-blank insertion of RGB signals (supplied via MPIF) on

CVBS input signals.

•2D Comb filtering. 3D Comb filtering is implemented in the

Memory Based Feature block of the Feature Box.

Secondary VIDDEC (1fH)

The secondary VIDDEC is mainly intended for use with PIP/

DW. It supports the following functionality:

•Conversion of the digitised samples from MPIF into

orthogonal samples (meaning fixed number of pixels per

line, independently of line frequency).

•Correction for any amplitude errors of the input signals

(CVBS) by means of an Automatic Gain Control (AGC).

•Standard detection of PAL/NTSC or SECAM and various

1fH component input formats.

•Colour decoding for PAL, NTSC, or SECAM input signals.

•Sync identification (to be used for channel search).

•Sync processing for any 1fH input signal.

•CVBS 1fH input signals only.

Data Synchroniser and Sample Rate Converter

The data synchroniser is a de-multiplexer that separates the

UV stream into a separate U and V data stream. The sample

rate converter converts the video samples from the crystal

clock domain to the so-called line locked clock domain, 720

pixels per line.

Automatic Gain Control (AGC)

The AGC amplifier block controls the gain of the signal and is

controlled directly by the chassis software. This gain will

depend on the amplitude of the output signal (signal amplitude

and/or sync amplitude) as measured by the AGC gain block. As

a secondary function, it controls both the offset at the input and

the offset at the output of the gain control.

Digital Multi Standard Decoder (DMSD)

This DMSD block contains the following functionality:

Video

Primary

colour

decoder

Second

ary

colour

decoder

Main

Sub

select

Front

End

Features

Memory

based

Features

Back

End

Features

Digital

Output

Processor

CL 36532058_066.eps

281003

Control Sound

L/R/HP/MON/...

SDRAM

I2S ROM/FLASH/SRAM

RGB

Defl.

SDRAM

MMI

128KB

SRAM

Memory

MIPS

PR1910 Graphics

EBIU

Interface Peripherals

SOUND

Dem. SOUND

Dec.

(DSP)

SOUND

Switch

AUDIO

Features

(DSP)

DAC

I2D

Link

STROBE1N

STROBE1P

DATA1N

DATA1P

STROBE3N

STROBE3P

DATA3N

DATA3P

STROBE2N

STROBE2P

DATA2N

DATA2P

HV_PRIM

HV_SEC

I2D1

I2D3

I2D2 FAST-

BLANK

FIFO

DMSD

CHR.

MUX

DE-

MUX

FAST

BLANK

SWITCH

FOR-

MATER

SYNC

2Fh HV

INFO

HVSYNC

ADOC VIDDEC (PRI & SEC)

7300-J

DATA SYNC

SAMPLE RATE CONVERTER

AGC_AMP

PRI

SEC

SS

IF

VIDDEC1

VIDDEC2

Ext

Syn

c

Mux

SRC for

HFB1/

H-Sync

Sync

Mux.

H-2FH

V-2FH

FBL-SC1-IN

VDDCO VDDE

EXT. STEREO

EXT. MONO

DLINK-VDDA

DLINK-VDDD

VID1-DTC-VDDA

PLLVDDA

VID1-DTC-VDD3

B6

B8

DMSD=Digital Multi Standard Decoder

CL 36532058_067.eps

281003

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 100 A02E9.

•Decodes a CVBS or Y/C (primary VIDDEC) signal and

converts it to an YCbCr signal format. All world colour

standards are supported.

•YC detection (primary VIDDEC) via a SW algorithm.

•50/60 Hz, interlace/progressive, field polarity, and no-YC

detection.

•A chroma notch with programmable width.

•2D Comb filter (primary VIDDEC). The 3D Comb filter uses

the attached SDRAM memory and is implemented in the

FBX.

•Macro vision detection.

Comb Filter

The ADOC 2D comb works purely in the vertical direction, but

can bypass the entire signal as luminance straight away. The

2D comb uses the 180 degrees phase shift of the colour carrier

between successive lines or two lines apart. Adaptive two or

four delay lines 2D Y/C comb filtering is only possible for

sources routed onto the Main-Video path.

In the 3D comb filter implementation (for USA only), the 2D

comb filter processing in ADOC IC (on the Main-Video path) is

disabled via SW. The signal input for the 3D YC comb-filter

circuit is derived from the CVBS-SC2_MON-OUT signal path.

The processed signal is re-inserted back via YCOMB and

CCOMB inputs of the MPIF IC.

Standard Detection

The Standard Detection part identifies PAL/NTSC/SECAM/BW

but also involves Horizontal and Vertical sync identification

(both 1fH and 2fH) as well as YC detection (via a SW

algorithm).

YUV Multiplexer

The YUV mixer selects between the YUV output of the DMSD

and 1fH component video input signals (RGB, YPbPr) or 2fH

input signals (RGB, YPbPr, ATSC). The YUV mixer can also be

controlled via a fast blanking input (SCART) to insert RGB

signals, such as descrambler OSD or full RGB insertion of DVD

players.

When a 2fH input signal is selected as a input, the complete

primary VIDDEC is running at 2fH (54 MHz), including DMSD

(in this scenario, the DMSD cannot be used any more for CVBS

input signals, and as such, VBI data slicing cannot be done).

Feature Box

The Feature Box (FBX) in the ADOC can be divided into three

functional parts: The front-end features (FEF), memory-based

features (MBF), and back end features (BEF).

The FEF part of the FBX implements all signal analysis

functions as well as black stretch and histogram correction.

The MBF part applies spatial scaling, temporal noise reduction

and up-conversion to either progressive scan or a double field

rate (100 Hz).

The BEF part implements spatial picture enhancement

functions like sharpness and colour enhancement functions,

sharpness measurement and horizontal scaling and panorama

The FBX has two video inputs coming from VIDDDEC 1 and 2,

and outputs one RGB video stream to the display output

processor (DOP).

The following sections describe the three functional parts of

FBX in more detail.

Front End Features (FEF)

The FEF consists of several signal analysis functions (HME,

BLD, BBD, NEST), histogram correction (HMO) and black-

stretch (BS). Following figure shows the functional block

diagram of the video frond-end features (FEF). All signal

processing in the FEF is nine bits based.

The FEF has two video inputs coming from the VIDDECs. For

every block, one video source can be chosen as input,

independently for every block. The FEF has two video outputs,

designated as “main” and “sub”.

Histogram modification can only be performed on the main

channel; therefore, the HME block is general connected to the

same video source as the main channel. Besides the two

VIDDEC inputs, there is also a third virtual input, the “blanking”

input. Only main and sub can be connected to this blanking

input, and at the same time, it can be specified which sync

source has to be used (VIDDEC1 or VIDDEC2).

Figure 9-11 FEF block diagram

When a single stream is displayed, the main output is used for

this stream. Also, all signal analysis functions should be

connected to the same VIDDEC as the main channel is

connected to.

When two streams are displayed, then there are two user

scenarios: Picture In Picture (PIP) and Double Window (DW).

In the PIP scenario, the full screen picture is displayed via the

main channel, and the PIP stream is switched to sub. In the DW

scenario, selection of the video sources for main and sub

depends on if the two streams have a different vertical

resolution and how the system has to cope with this difference.

Following blocks are present:

•Black Stretch (BS). The function of BS is to pull the dark

areas in a picture to even darker levels. BS is available in

both the main and sub channel.

•Histogram (HMx). This block measures of every field in a

programmable (measurement-) window the histogram of

the luminance signal. The measurement window is set-up

such that the area that contains the subtitles or black bars

does not contribute to the histogram.

•Black Bar Detection (BBD). Many broadcasts or software

played on TVs produce a so-called "letterboxed" picture.

Black bars appear above and below the picture. Due to bad

standardisation of the aspect ratio, e.g. the size of the black

bars, there is a need to actively analyse the picture and

determine of the picture is in letterbox format and what the

size of the black bars is. Black bars are detected by

determining if a defined number of pixels (analysed within

a programmable window located in active video) are black.

The output of the BBD is the first non-black line and the last

non-black line.

•Black Level Detection (BLD). The BLD determines within

a programmable (measurement) window the “black level”

of a picture. The BLD will be used for the BS, but if

required, it can also be used for the BBD. The BLD function

records in multiple small windows within the measurement

window the maximum luminance. The minimum luminance

level of the various recorded maximum luminance levels is

the true black level. By measuring the maximum luminance

level in a small window, the BLD is not sensitive to “black”

spikes.

•Noise Estimation (NEST). The NEST block analyses the

video and outputs a number correlating to the amount of

noise in the picture. A basic problem is that picture detail is

also ‘recognised’ as noise. Several control- and status-

CL 36532058_069.eps

071003

INPUT

SWITCH

MATRIX

BLACK

STRETCH

BLACK

STRETCH

HISTOG.

MODIFY

HISTOG.

MEAS.

BLACK

BAR DET.

BLACK

LEVEL DET

NOISE

MEAS.

MEASUREMENT

BLOCKS

VIDDEC1

VIDDEC2

MAIN

CH.

SUB

CH.

ADOC FEF

(YUV)

(YUV)

SAMPLE RATE

CONVERTER

B5

7300

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 101A02E 9.

registers are added to compensate this. The video signal is

only analysed when it is within a programmable

(measurement) window. This window coincides with a

rectangular shaped part of the (visible) picture. Normally

this is the centre part of the picture.

Memory Based Features (MBF)

The Memory Based Features (MBF) block embodies a set of

functions that require (shared) memory.

The main and sub video streams can be spatially compressed

in order to produce a mixed output in the form of several PIP

combinations or DW.

The main video stream can be passed through a temporal

noise reduction circuit (DNR).

The 3D Comb filter is also implemented in this block.

The main and sub streams are merged when reading from

memory. The merged video stream can be up-converted to

either a double line rate (progressive scan) or to a double field

rate (100 Hz). The up-conversion is done by means of a digital

scan function. Following figure shows the functional block

diagram of the video memory based features (MBF).

Figure 9-12 MBF block diagram

Back End Features (BEF)

The Back End Features (BEF) block embodies a collection of

spatial picture enhancement functions.

The video display has to be blanked during AV switching,

channel switching, V-chip, and Child Lock modes. This is done

inside the BEF block of the ADOC IC. The fast blanking signal

input from SCART1and SCART3 (TV SCART inputs) for RGB

video insertion is connected to the ADOC IC.

Sharpness functions are:

•Luminance Transient Improvement (LTI),

•Dynamic Peaking, and

•Digital Colour Transient Improvement (DCTI).

The panorama block does the non-linear scaling for displaying

4:3 formats on a wide-screen display.

Colour enhancement functions are:

•Skin Tone Control,

•Blue Stretch, and

•Green Enhancement.

A colour Space Converter can convert the video signal from

YUV to RGB format. The Frame Processing block can insert

frames and borders such as a coloured frame around the

Picture in Picture (PIP). Following figure shows the structure of

the Back End Feature block.

Figure 9-13 BEF block diagram

Digital Output Processor (DOP)

The DOP is a display processor block, and contains the

following functions:

•RGB control processor with linear RGB input for the main

video signal, a linear RGB input for OSD/text signals with

blending, and an RGB output stage with black current

stabilisation which is realised with the continuous cathode

calibration (2-point black current measurement) system.

•Programmable deflection processor, driven by an

external crystal clock, which generates the drive signals for

the horizontal, east-west, north-south and vertical

deflection with extensive geometry correction capabilities.

•The circuit can be used in both single scan (50 or 60 Hz)

and double scan (100 or 120 Hz) applications.

Figure 9-14 DOP block diagram

RGB Control Processing

•The RGB control circuit of the DOP contains two sets of

input signals:

–The first RGB input (RGB), 10 bits wide, is intended for

the normal video signals coming from the BEF part.

The "RGB" signals will first enter a contrast control

stage, followed by a brightness control stage, both

influenced by a combination of user control, Beam

Current Limiter and Peak White Limiter, followed by a

soft clipper stage. Then the signal will be applied to the

blender stage. The blender input signal will be used as

an input for the peak white limiting system.

–The second RGB input (GFX), 4 bits wide, is intended

for OSD and Teletext signals. The switching between

the internal signal and the OSD signal is realised via a

blending function. The "GFX" input signals will be re-

formatted to 10 bit wide internally before entering the

Beam Current Control brightness correction stage,

followed by the hard clip stage. Then the signal will also

be applied to the blender stage.

•The two input data streams are combined into one stream

by the blender. This blender is controlled by a third data

stream.

•The next block is the "Drive Adjust" part. It contains a

Picture Tube Biasing system, a Beam Current Control, and

Peak White Limiting part.

CL 36532058_070.eps

071003

HOR.

COMPRESS

HOR.

COMPRESS

MAIN

CH.

SUB

CH.

VERT.

COMPRESS

SUB

FIFO

CACHE

NOISE

SHAPER

MAIN

FIFO

CACHE

NOISE

SHAPER DNR

MEMORY

BUS

DEVICE

INTERF.

UNDI-

THER

UNDI-

THER

SCAN

RATE

CONVERT

OUTPUT

MUX.

UNDI-

THER

DISPLAY CONTROLMODE CONTROL

SDRAM

ADOC MBF

Y

UV

7730

(YUV)

(YUV)

1,14,27

3,9,43,49

VDDE

7300-I

VDD

VDDQ

FIELD MEMORY & TXT PG

MEMORY

CTRL/SWI.

MMI BUS

SA0...SA11

SD0...SD15

DTL I/F

7300

CL 36532058_071.eps

071003

SKIN

TONE

CONTROL

BLUE

STRETCH

GREEN

ENHANCE

RGB

MATRIX

FRAME

PROC.

PANO-

RAMA

DCTI

SHARPNESS

MEASURE

LTI

DYN.

PEAKING

F

I

L

T

E

R

LUMINANCE SHARPNESS

COLOUR FEATURES

Y

UV

Y

U

V

U

V

YY

U

V

R

G

B

ADOC BEF

13.5 / 27 MHz

@ 720 ppl

27 / 54 MHz

@ 1440 ppl

B7

TO

7300

CL 36532058_068.eps

071003

Hor. TIMEBASE GEN.

DTO & CONTROL LOOP

SLOW START/STOP

L0W POWER STARTUP

1st

CONTROL

LOOP

SDAC

HIRES.

TIMING

GEN.

HOR. TIMEBASE GEN.

DTO & CONTROL LOOP

SLOW START/STOP

L0W POWER STARTUP

1st

CONTROL

LOOP

SDAC

HIRES.

TIMING

GEN.

ADC

2nd

CONTROL

LOOP

VERT.

WAVEFORM

EAST-WEST

WAVEFORM

VERT.

SAWTOOTH

VERT.

DRIVER

HDROUT LINE DRIVERS

EHT INFO

POR FLASH

FRAME DRIVE+

FRAME DRIVE -

EW-DRIVE

HFB

EHT

BCL

FBCIN

EWP

VDRP

VDRN

ADOC DOP

HVSYNC

FLASH

X-PROT

BPA

SDAC-VDDA

DOP-DTC-VDDA

DOP-DTC-VDD3

IMEAS-VDDA

SDAC-3V3

B5

SEL2FH

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 102 A02E9.

In order to enhance the spatial bandwidth of the CRT display,

Scan Velocity Modulation (SCAVEM) is implemented on the

CRT-panel.

Figure 9-15 ADOC RGB control block diagram

Synchronisation and Deflection Processing

•Horizontal synchronisation and drive circuit. The

horizontal drive signal is obtained from an internal

oscillator, which runs at a fixed frequency of 54 MHz. This

oscillator is synchronised to the incoming horizontal H_D

pulse by means of a digital PLL. The horizontal drive signal

is generated by a second control loop, which compares the

phase of the reference signal, applied from the internal

DTO, to the horizontal flyback pulse HFB.

•Vertical deflection and drive circuit. The drive signals for

the vertical and E/W deflection circuits are generated by a

vertical divider, which derives its reference signal from the

Horizontal Time base Generator. This divider is

synchronised by the incoming V_D pulse, generated by the

input processor or the Feature Box. The vertical drive

output is realised by a differential voltage, which is

generated by SDACs. The outputs must be DC-coupled to

the vertical output stage (TDA8177, item 7620 on the LSP).

See also figure "DOP block diagram"

9.5 Synchronisation

9.5.1 Sync Flow

The CVBS signal on the SCART1 connector (CVBS-SC1_AV1-

IN system signal path; designated as EXT 1 CVBS) is used to

provide synchronisation for the EXT1 RGB input. Besides

providing synchronisation for RGB source, EXT1 CVBS is also

required for SCART2 CVBS output.

Figure 9-16 Sync flow block diagram

For 1fH CVI input, synchronisation is derived from sync-on-Y.

For the 2fH CVI input, synchronisation signal is derived from

sync-on-Y input or the H_SYNC/V_SYNC.

In case of VGA input, synchronisation signal is taken from

H_SYNC and V_SYNC inputs

9.6 Audio

9.6.1 Introduction

Sound IF processing, audio source selection, and audio

analogue-digital signal conversions are done in the MPIF IC.

SIF demodulation, sound system auto-detection, audio base-

band, and headphone processing is done in the ADOC IC.

Therefore, the ADOC contains a digital TV sound processor for

analogue and digital multi-channel sound systems in TV sets.

By hardware programming, several applications can be scaled.

The sound processing of the SALSA system can be split into

three parts:

•Initial source selection and analogue to digital conversion

performed by MPIF.

•Demodulator and Decoder (DEMDEC) performed by the

ADOC.

•Back End Features (BEF) performed by the ADOC.

9.6.2 MPIF Sound part

The (main) Tuner receives an RF signal and converts it to IF.

Via the appropriate SAW filters, the SIF signal is delivered to

the QSS mixer stage of the MPIF IC and if channels according

to standard L/L' are received also to the AM demodulator. The

Quasi Split Sound demodulation generates the SSIF or

intercarrier signal. By the SSIF switch, it is possible to choose

between the internally derived intercarrier and an external

second SIF (e.g. from a PIP front end or 10.7 MHz radio). The

selected SSIF passes some anti-alias filtering, is amplified in

an AGC amplifier and is then converted from analogue to digital

(SSIF AGC/ADC). Together with other signals, the digitised

SSIF is transferred via an I2D-Link to the ADOC IC.

The audio signal out of the AM demodulator is connected to the

analogue X-bar in the MPIF IC. All other inputs to this

multiplexer/audio switch come from external, either from the

PIP front end (AMEXT/PIPMONO) or SCART/CINCH (AUDxin)

or the DAC1, DAC2 output signals from ADOC. The audio AD

converters are digitising the audio signals foreseen for further

digital processing in ADOC. Three stereo outputs (AUDx out,

LINE out) are available for connections to SCART/CINCH

sockets.

The sound part of ADOC consists of the demodulator/decoder

(DEMDEC), sample rate conversion (SRC), a digital input X-

bar, the digital audio processing for the loudspeaker,

headphone and DAC channels, the I2S processing and

interfacing as well as the DA conversion. This part will be

described in the next chapter.

9.6.3 ADOC Sound part

Introduction

The ADOC sound part contains two DSP cores as shown in the

block diagram. The first core called DEMDEC-DSP is

combined with DEMDEC (Demodulation/Decoding) hardware

and the second core is the AUDIO-DSP. The DEMDEC-DSP is

used for the decoder and demodulator tasks, plus the sample

rate conversion.

The AUDIO-DSP is used for the sound features, from the level

adjust unit up to the output cross bar. Audio DACs and I2S

hardware (optional) are converting the processed signals to

analogue or digital audio.

All I2D data links carry sound signals. The data link processing

splits them from the other signals as video so that the DEMDEC

block receives the second sound IF (SSIF) and the audio

CL 36532058_076.eps

071003

DRIVE

ADJUST CDAC

BLENDER

CONTROL

ADC

LEAKAGE

COMPASATOR

7310

7330

R-CRT

G-CRT

B-CRT

CUTOFF

ROUTP

GOUTP

BOUTP

DRIVE

ADJUST CDAC

RGB

CUTOFF

RGB

GAIN

BLENDER

CONTROL

ADC

LEAKAGE

COMPASATOR

FIXED

BEAM

CURRENT

SWITCH

OFF

GFX

ROUTP

BOUTP

IBC

IBCRANGE

ADOC RGB

7300-H

R

G

B

7320

41

25

24

23

21

VDDE

FROM

B6

B11

CDAC2-

VDDA

CDAC1-

VDDA

Y-SCAVEM

BLENDER

BLANKING

SCAVEM

SVMP

7346

7356

TILT

B8

7304

R

G

B

FBL

PR

/ R

Y / G

PB

/ B

Hsync

Vsync

NC

FBL/Hsync1

FBL/Hsync2

Vsync1

Vsync2

Clamp1

Clamp2

HV sync Clamp1

HV sync Clamp2

G1/Y1/Y1

B1/Pb1/U1

R1/Pr1/V1

G2/Y2/Y2

B2/Pb2/U2

R2/Pr2/V2

CVBS CVBS1

DLink1

DLink2

DLink3

SCART 1

2fH CVI

or VGA

MPIF IC

ADOC IC

SBL

SBL

CL 36532058_082.eps

281003

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 103A02E 9.

signals from the audio ADCs of the MPIF IC. The SSIF needs

some hardware processing before it enters the DEMDEC DSP.

The DEMDEC processing will be described in the next chapter.

The audio signals from the audio ADCs of the MPIF are

passing the DEMDEC DSP only for source selection and

sample rate conversion.

In this chassis, two of the DAC outputs are used to feed a

headphone. Two other DAC stereo outputs are provided for the

audio feedback to the MPIF IC. They are located to pins of the

ADOC that suit best for connection to MPIF.

Figure 9-17 ADOC sound processing block diagram

DEMDEC DSP

The output signals of the above-mentioned hardware blocks,

plus four audio ADC channels are read in by the DEMDEC

DSP, processed, converted to the current audio sample rate,

“demultiplexed”, and forwarded to the Audio DSP for further

processing (volume, tone control, effects etc.).

Down Mixer

The digitised SSIF input signal is fed to the mixers, which mix

one or both input sound carriers down to zero IF.

Pre-processing

This part contains the sound system identification and

demodulation circuitry.

Audio Sample Rate Conversion (SRC)

All input signals pass through a sample rate conversion to the

actual output sample rate (usually 48 kHz) such that the output

rate does not need to be synchronised with any of the input

rates. Up to five separate channels can be converted.

Audio Processing DSP

This block applies several filters, like down-sampling and de-

emphasis, noise reduction processing, performs a sample rate

conversion (SRC) to the current audio sample rate, and routes

the decoded signals to the output channels.

The generic processing controls are Volume, Bass, Treble,

Balance, Incredible Surround, Spatial (incredible mono), DBE,

Dynamic Ultra Bass II (for non-woofer sets only), AVL, Sub-

Woofer, and 5-band Graphic equaliser.

The Headphone volume can be separately controlled in the

Headphone menu without affecting the master volume (the

setting of the volume tables will be adapted after fine tuning).

For variable volume output for USA, the DAC1 output will

switch to the Main channel and therefore the same volume

curve for the Main Channel can be used.

9.6.4 Audio Amplifier

Speakers (diagram A6)

The audio output stage is built around IC7701 , which is a

balanced amplifier, and is located on the LSP. It uses an

monolithic integrated power amplifier IC, the TDA7497. The

gain of the amplifier is constant. This means that volume

control is done via the ADOC.

The supply voltage is +28 V, generated by the power supply via

L5506 (or L5512). The TDA7497 delivers an output of 3 x 10

W_rms to two full range speakers and an (optional) subwoofer.

Muting

There are three types of muting available: system mute,

headphone status mute, and user mute.

•System mute. System muting is implemented for “special

events” such as channel/source change event, loss of

identification signal, "on/off" switching of the set, during

search and auto store/program, and/or sound mode

change. This muting is transparent to the user. Audio

output is muted before the above “special events”

occurred, to prevent problems such as audible plop. Muting

is done via the SOUND-ENABLE (software controlled) and/

or POR (hardware controlled) line connected (via TS7710

and 7711) to pin 10 of the amplifier-IC and coming from the

ADOC microprocessor.

•Headphone status mute. A headphone status is available

to detect the presence of the headphone and mute the

main speakers if the headphone is detected. The

microprocessor will read the FRONT-DETECT status.

•User mute. This is a mute option available to the user. The

user select the MUTE option on the remote control to

switch "off/on" the sound output to the main loudspeaker

and the (optional) subwoofer.

Headphone amplifier (diagram A7)

The headphone amplifier is built around IC7751 (NJM4556),

which is a high-gain, high output current dual operational

amplifier. The supply voltage is +5 V.

9.7 Control

9.7.1 Introduction

The MIPS processor within the ADOC performs the control of

the complete SALSA system. This part of the document will

examine the functions that enable the MIPS to operate and

control the remainder of the SALSA system.

Some control features:

•MIPS1910 processor (MIPS).

•Embedded SRAM.

•External Bus Interface Unit (EBIU) for external memory

access.

•SDRAM Interface.

•Interrupt Controller.

•Power and Clock management.

•General Purpose I/O (GPIO).

•Analogue to Digital conversion.

•Two x I2C master/slave.

•Two x General Purpose Timers.

•UART.

•Two x Multi-standard VBI Data Capture Unit.

•EJTAG (for debug and boundary scan functions).

•Remote Control (Infra Red) pre-processing.

•Graphics.

CL 36532058_077.eps

281003

DAC

DDEP

Down

Mix Preprocessing SRC Dematrix

and Select

Level

Adj.

I/P

X-

Bar

I2SOUT

O/P

X-

Bar

Noise Shaper

Demodulation and Decoding DSP

AUD_SPK_SW

AUD_SPK_R

AUD_SPK_L

AUD_SPK_C

AUD_SPK_SL

AUD_HP_R

AUD_HP_L

DSNDL1

DSNDR1

DSNDL2

DSNDR2

SSIF

ADOC SOUND & AUDIO PROCESSING

VDDCO VDDE

EXT. STEREO

EXT. MONO

7300-x

7300-B

B5

SDAC1-VDDA

SDAC1-3V3

Decimation

Filter

I2SIN

WS PLL

Audio Processing DSP

SDI

SCKI

WSI

SD02

SCK02

WS02

N.C. N.C.

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 104 A02E9.

Figure 9-18 ADOC control block diagram

9.7.2 Internal Bus Structure

PI Bus

The Peripheral Interconnect (PI) bus connects all of the

functional blocks within the ADOC device. Physically it is split

into four distinct sections. These are referred to as:

•Fast PI Bus.

•Slow PI Bus.

•Video PI Bus.

•Sound PI Bus.

The individual segments of the PI bus are interconnected via

PI-PI bridges. When several devices are connected to a bus

system section only one of these may have control (ownership)

of the bus section at any instant in time. The device that has

control is referred to as the bus master, the remaining devices

are referred to as slaves. Each bus segment section has a Bus

Control Unit (BCU), which allocates bus ownership to the

various modules that are capable of being bus masters. A bus

master may have ownership of one or more sections of the PI

bus.

Extension Bus Interface Unit

The Extension Bus Interface Unit (EBIU) allows various types

of memory (ROM/FLASH/SRAM) to be attached to the ADOC

IC and must therefore be configured per memory type (in terms

of chip select lines, bus width used, and access times). This

enables the hardware of the EBIU to correctly address the

external memories and apply the correct number of wait states.

9.7.3 Microprocessor Reset

The reset of the device is split between three functions:

•Power-On-Reset (POR). Output is fed to the Power Clock

Reset (PCR) block generating a Hard reset (all functions

reset).

•PCR. In simplified terms two outputs are available:

–Hard reset, all blocks within ADOC are reset.

–Soft reset, a limited number of blocks within the control

core are reset.

•GP registers are used to allow software control of the reset

to certain blocks within ADOC.

9.7.4 External Bus Structure

I2C Bus

The system has two system I2C buses; one for the devices on

the SSB and the other for the devices used in the external

modules .

•The I2C-1 system bus, comprises of SCL and SDA, is used

to control all the I2C devices on the LSP (the main tuner)

and other I2C devices connected to other external panels

(PIP Front-End demodulation IC, PIP tuner, etc.). The I2C-

1 is a 100 kHz bus and is called as "slow" bus. It is

connected to the +5V supply. All these devices are

powered down in the Standby mode.

•The I2C-2 system bus, comprises of SCL2 and SDA2, is

used to control all the I2C devices (MPIF, 3D-Comb, NVM,

etc.) present on the SSB. The I2C-2 is a 400 kHz bus and

is called as "fast" bus. It is connected to the +3.3V supply.

9.8 Protections

For a detailed description, see chapter 5 "Service Modes, Error

Codes, and Fault Finding".

9.9 Software Upgrading

In this chassis, you can upgrade the software via ComPair.

This offers the possibility, to replace the entire SW image

without having to remove the flash-RAM from its socket. You

can find more information on how this procedure works in the

ComPair file. It is possible that not all sets are equipped with

the hardware, needed to make software upgrading possible. To

speed up the programming process, the firmware of the

ComPair interface can be upgraded. See Chapter "Service

Modes ..."; paragraph "ComPair" - “How To Order” for the order

number.

CL 36532058_075.eps

071003

MIPS EBIU

SRAM

128KB

PI-PI

BRIDGE

GFX

GEN

GPIO

I2C

A/DADC

TIMER

GFX

FAST

PI_BUS

SLOW

PI_BUS

1581

2582

2581

KEYBOARD

FRONT-DETECT

STATUS1_PIP-AFT-50-60HZ

SEL-SHVS-RR_STATUS2

LIGHT-SENSOR

RC5

SDA0

SCL0

SDA1

SCL1

SEL-IF-LL

SOUND-ENABLE

SEL-2FH-SRC_STATUS3

DEGAUSS

STANDBY

MPIF-IRQ

W

E

G

VDDE

7790

SEL-2FH-SRC_STATUS3

DTV_EXPENSION

COMM_LINE (SCART)

F_REF

ADOC-uP & CONTROL

POR_FLASH

B8

B18

B4

B1

B4

(FROM 0223)

B18

7300-A,C,E & K

ADC1

ADC4

P2-6

P3-0

ADC3

ADC0

ADC5

P0-7

P0-3

P0-1

P3-2

P0-6

P0-4

P2-4

P2-2

P0-5

P1-1

P1-0

P1-3

P1-2

MPIFCLK

XOUT

XIN

(SCART)

FOR 2FH I/P or SCART-3

BUS

A1..A21 D0..D15

VDD

MEMORY INTERFACE

B7

9,37

VDDQ 43

FLASH

RESET_

FLASH_RST

POR_FLASH

FLASH_RST

16

RP

ADC2

VDDE

VDDCO

ADC-

VDDA

XVDD

5570

5583

7525

WC_

5

6

7

VDDE

8

P1-5

SCL

SDA NVM

VPP

SDM

4565

4564

RES

SYSTEM

RESET

(50ms)

7581

VDDE

+5V2

3582

3590

3583

3586

1

5

4

15

RB

RB

RB53

P0-2

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 105A02E 9.

9.10 Abbreviation list

Table 9-1 Abbreviations

Abbreviation Description

0/6/12 SCART switch control signal on A/V board. 0 = loop through (AUX

to TV), 6 = play 16:9 format, 12 = play 4:3 format

2CS 2 Carrier Stereo

A2 Commonly known as two carriers sound (2CS) system

AC (or ac) Alternating Current

ACI Automatic Channel Installation: algorithm that installs TV channels

directly from a cable network by means of a predefined TXT page

ADC Analogue to Digital Converter

ADOC Analogue Digital One Chip

AFC Automatic Frequency Control: control signal used to tune to the

correct frequency

AGC Automatic gain control (feedback) signal to the tuner.

AM Amplitude Modulation

ANR Automatic Noise Reduction: one of the algorithms of Auto TV

AP / A/P Asia Pacific

AR Aspect Ratio: 4 by 3 or 16 by 9

ASD Automatic Standard Detection

AV External Audio Video

AVL Automatic Volume Level control

BBlue

B/G Monochrome TV system. Sound carrier distance is 5.5 MHz

BBD Black Bar Detection

BCL Beam Current Limiter

BC-PROT PROTection signal to the microprocessor for a too high Beam

Current.

BG System B and G

BLC-INFO BLack Current INFO

BLD Black Level Detection

BS Black Stretch

BTSC Broadcast Television Standard Committee. Multiplex FM stereo

sound system, originating from the USA and used e.g. in LATAM

and AP-NTSC countries

C Chroma (video) / Centre channel (audio)

CL Constant Level: audio output to connect with an external amplifier

CLUT Colour Look Up Table

ComPair Computer aided rePair

CRT Cathode Ray Tube or picture tube

CSM Customer Service Mode

CTI Colour Transient Improvement: manipulates steepness of chroma

transients

CVBS Composite Video Blanking and Synchronization

CVI Component Video Input

D/K Monochrome TV system. Sound carrier distance is 6.5 MHz

DAC Digital to Analogue Converter

DBE Dynamic Bass Enhancement: extra low frequency amplification

DC (or dc) Direct Current

DCC Dynamic Contrast Control

DC-filament Filament supply voltage

DEGAUSS Control line. Logic LOW to enable CRT degaussing. Logic HIGH

to disable the CRT degaussing.

DFU Directions For Use: owner's manual

DNR Digital Noise Reduction: noise reduction feature of the set

DOP Digital Output Processor (Part of ADOC which takes care of RGB

control and delection)

DPL Dolby Pro Logic

DRAM Dynamic RAM

DS Digital Scan

DSP Digital Signal Processing

DST Dealer Service Tool: special remote control designed for dealers

to enter e.g. service mode (a DST-emulator is available in

ComPair)

DTS Digital Theatre Sound

DVD Digital Versatile Disc

DVI(-d) Digital Visual Interface (d= digital only)

DW Double Window

DYN-FASE-

COR

Dynamic phase correction, to correct the phase of the H-drive

EEPROM Electrically Erasable and Programmable Read Only Memory

EHT Extra High Tension

EHT-INFO Extra High Tension INFOrmation, used for contrast reduction,

vertical and horizontal amplitude correction, beam current

protection, and flash detection

EMI Electro Magnetic Interference

EPG Electronic Program Guide: system used by broadcasters to

transmit TV guide information (= NexTView)

EPLD Erasable Programmable Logic Device

EU Europe

EW East West, related to horizontal deflection of the set

EW-DRIVE East -West correction drive signal.

EXT EXTernal (source), entering the set by SCART or by Cinches

(jacks)

FBL Fast BLanking: DC signal accompanying RGB signals

FBX Feature Box: module which contains 100 Hz processing, Pixel

Plus, and AutoTV algorithms (FBX6= based on PICNIC, FBX7=

based on PICNIC and Eagle)

FE Front End

Field Each interlaced broadcast FRAME is composed of two Fields,

each Field consists of either Odd or Even lines

FILAMENT Filament of CRT

FLASH FLASH memory

FM Field Memory / Frequency Modulation

FM Radio Audio receiver which can receive the FM Band 87.5 - 108 MHz

FMR FM Radio

Frame A complete TV picture comprising of all lines (625/525)

FRAMEDRIV

E -

Differential frame (vertical) drive signal (negative)

FRAMEDRIV

E+

Differential frame (vertical) drive signal (positive)

FRC Frame Rate Converter

FRONT-

DETECT

Control line for detection of headphone insertion, Service Mode

jumper, power failure detection.

FRONT-

Y_CVBS

Front input luminance or CVBS (SVHS)

GGreen

Gb/s Giga bits per second

H H_sync to the module

H_2FH Horizontal sync input for the 2fH source.

H_A50 Horizontal Acquisition 1fH: horizontal sync pulse coming out of the

HIP

H_D100 Horizontal Drive 2fH: horizontal sync pulse coming out of the

feature-box

H_DRIVE Horizontal Drive

H_FLYBACK Horizontal Flayback

H_OUT H_sync output of the module

H_OUT Horizontal Output pulse

HA Horizontal Acquisition: horizontal sync pulse coming out of the

BOCMA

HD High Definition

HEADPHONE

-L

Stereo headphone (Left) signal output.

HEADPHONE

-R

Stereo headphone (Right) signal output.

HFB Horizontal Flyback Pulse: horizontal sync pulse from large signal

deflection

HP HeadPhone

HW Hardware

I Monochrome TV system. Sound carrier distance is 6.0 MHz

I2C Integrated IC bus (same as IIC)

I2S Integrated IC Sound bus

IC Integrated Circuit

IDRIVE- Vertical drive -

IDRIVE+ Vertical drive +

IF Intermediate Frequency

IF-TER IF signal from main tuner

IIC Integrated IC bus (same as I2C)

Interlaced Scan mode where two fields are used to form one frame. Each

field contains half the number of the total amount of lines. The

fields are written in "pairs", causing line flicker.

IO In/Out

IR Infra Red

IROM Internal ROM (inside uP)

IRQ Interrupt ReQuest

ITV Institutional TV

JTAG Joint Test Action Group. Definition for a standardised serial test

interface

KEYB Front panel keyboard

KEYBOARD Input line: carries the voltage value of the corresponding tact

switch on TOP-control or FRONT-control keypad

L Left audio channel

Abbreviation Description

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 106 A02E9.

L/L' Monochrome TV system. Sound carrier distance is 6.5 MHz. L' is

Band I, L is all bands except for Band I

Last Status The settings last chosen by the customer and read and stored in

RAM or in the NVM. They are called at startup of the set to

configure it according to the customer's preferences

LATAM Latin America

LCD Liquid Crystal Display

L-CL_VLOUT REAR CINCH stereo output

LED Light Emitting Diode

LFE Low Frequency Enhancement audio channel

L-FRONT-IN EXT3 stereo input

LIGHT-

SENSOR

Ambient light intensity signal.

LINE DRIVE Line drive signal (for the Line transistor)

LINEDRIVE1 Horizontal (line) deflection drive signal.

LNA Low Noise Adapter / Low Noise Amplifier

LOT Line Output Transformer

LPD LG.Philips Displays

LS Loudspeaker

Ls, Rs Left surround and Right surround channel (audio)

LSP Large signal panel

Lt, Rt Left total and Right total in case of a Dolby ProLogic encoded

signal (audio)

LTI Luminance Transient Improvement

LTP Luminance Transient Processor

LUT Look Up Table

LVDS Low Voltage Differential Signalling, data transmission system for

high speed and low EMI communication.

M/N Monochrome TV system. Sound carrier distance is 4.5 MHz

Mb/s Mega bits per second

MCS Multi Channel Sound: refers to Dolby Pro Logic Surround in A02

ADOC

MDO Mode control data output

MIPS Microprocessor without Interlocked Pipeline-Stages. A RISC-

based microprocessor.

Mips Million instructions per second

MMI Multi Media Interface

MOSFET Metal Oxide Semiconductor Field Effect Transistor

MPEG Motion Pictures Experts Group

MPIF Multi Platform InterFace (Part of Salsa chipset, sister-chip of

ADOC IC)

MPIP Multi Picture in Picture: commercial feature showing several

frozen or moving pips

MPX MultiPleX

MSP Multi-standard Sound Processor: ITT sound decoder

MUTE MUTE Line

NAFTA North American Free Trade Area (NAFTA & USA are used

interchangeable)

NC Not Connected

NDF No vertical Deflection: vertical fly back protection

NHF No Horizontal deflection: horizontal fly back protection

NICAM Near Instantaneously Companded Audio Multiplexing. This is a

digital sound system, mainly used in Europe.

NTC Negative Temperature Coefficient, non-linear resistor

NTSC National Television Standard Committee. Colour system mainly

used in North America and Japan. Colour carrier NTSC M/N=

3.579545 MHz, NTSC 4.43= 4.433619 MHz (this is a VCR norm,

it is not transmitted off-air)

NVM Non Volatile Memory: IC containing data such as alignments,

stations

O/C Open Circuit

OB Option Byte

OC Open Circuit

ON/OFF LED On/Off control signal for the LED

ON/STBY On/Standby

ON-OFF-LED Active-LOW control line. Logic LOW = red LED on, HIGH = red

LED off.

OP Option Byte

OSD On Screen Display

P50 Project 50: communication protocol between TV and peripherals

PAL Phase Alternating Line. Colour system mainly used in West

Europe (colour carrier= 4.433619 MHz) and South America

(colour carrier PAL M= 3.575612 MHz and PAL N= 3.582056

MHz)

PC Personal Computer

PCB Printed Circuit Board (same as "PWB")

PCM Pulse Code Modulation

PILOT Pilot Signal

Abbreviation Description

PIP Picture In Picture

PLL Phase Locked Loop. Used for e.g. FST tuning systems. The

customer can give directly the desired frequency

POR Power On Reset, signal to reset the microprocessor

POR_FLASH Signal that informs the micro controller (painter) that set will switch

off

Progressive

Scan

Scan mode where all scan lines are displayed in one frame at the

same time, creating a double vertical resolution.

PTC Positive Temperature Coefficient, non linear resistor

PTP Picture Tube Panel

PWB Printed Wiring Board (same as "PCB")

PWM Pulse Width Modulation

QSS Quasi Split Sound

R Right audio channel

RRed

RAM Random Access Memory

RC Remote Control transmitter

RC5 Remote Control system 5, the signal from the remote control

RC5 / RC6 Signal protocol from the remote control receiver

RDS Radio Data System

RESET RESET signal

RF Real Flat / Radio Frequency

RGB Red, Green, and Blue. The primary colour signals for TV. By

mixing levels of R,G, and B, all colours (Y/C) are reproduced.

RGBHV Red, Green, Blue, Horizontal sync, and Vertical sync

RISC Reduced Instructions Set Computer

RMS Root Mean Square value

ROM Read Only Memory

S Surround channel or mono surround channel (audio)

S/C Short Circuit

S/PDIF Sony Philips Digital InterFace

SALSA System Application for Low Segment of Analogue TV

SAM Service Alignment Mode

SAP Second Audio Program

SAW Surface Acoustics Wave

SC SandCastle: two-level pulse derived from sync signals / SCART

SCART Syndicat des Constructeurs d'Appareils Radiorecepteurs et

Televisieurs

SCAVEM Scan Velocity Modulation

SCL Serial Clock I2C

SCL-F CLock Signal on Fast I2C bus

SD Standard Definition

SDA Serial Data I2C

SDA-F Data Signal on Fast I2C bus

SDAM Service Default / Alignment Mode

SDRAM Synchronous DRAM

SECAM SEequence Couleur Avec Memoire: Colour system mainly used in

France and East Europe. Colour carriers= 4.406250 MHz and

4.250000 MHz

SEL Control signal

SIF Sound Intermediate Frequency

SIMM Single In-line Memory Module: 80-fold connector between LSP

and SSB

SL Audio Surround Left

SLDP Smart Local Dooming Prevention (HW and SW)

SMC Surface Mounted Compoments

SMPS Switched Mode Power Supply

SND SouND

SNERT Synchronous No parity Eight bit Reception and Transmit

SOG Sync On Green

SOPS Self Oscillating Power Supply

SOUND-

ENABLE

Control line to do hardware mute or un-mute of loudspeakers.

SR Audio Surround Right

SRAM Static RAM

SS Small Screen

ST_BY Standby

STANDBY

(POR)

Signal coming from Main Supply informing the supply is switching

off

STATUS Status signal from pin 8 on SCART connector

STBY Standby

SURR Surround (mono) signal

SVHS Super Video Home System

SW Software / Subwoofer

SW1 Switch 1

TBD To Be Defined

Abbreviation Description

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 107A02E 9.

9.11 IC Data Sheets

This section shows the internal block diagrams and pin layouts

of ICs that are drawn as "black boxes" in the electrical diagrams

(with the exception of "memory" and "logic" ICs). This is not

applicable to this manual.

THD Total Harmonic Distortion

TILT PWM Output signal (variable DC level) to control the picture tilt

from the DOP block of the ADOC.

Trinorma Video standard, combination of PAL N, PAL M, NTSC M

TXT Teletext

TXTSW Teletext switch

U_100 U from Feature Box

UART Universal Asynchronous Receiver Transmitter

UBE Ultra Bass Enhancement

uC Micro controller

UI User Interface

UOC Ultimate One Chip

uP Microprocessor

UV Colour difference signals

V V_sync

V_100 V from Feature Box

V_2FH Vertical sync input for the 2fH source.

V_A50 Vertical Acquisition 1fH

V_AMP Vertical Amplitude DAC output

V_BAT Main supply for deflection (usually 141 V)

V_D100 Vertical Drive 2fH: vertical sync pulse from deflection

V_DNEG One of the symmetrical drive signals for the DC frame output

stage.

V_DPOS One of the symmetrical drive signals for the DC frame output

stage.

V_OSD Vertical OSD

VA Vertical Acquisition

VBI Vertical Blank Interval

V-chip Violence chip

VCR Video Cassette Recorder

VD Vertical Drive: vertical sync pulse coming from the feature box

VDS Virtual Dolby Surround

VERT Vertical Output pulse

VESA Video Electronics Standards Association

VGA Video Graphics Array: 640x480 (4:3)

VGND Video ground

VGUARD Vertical guard voltage

VIF Video Intermediate Frequency

VL Variable Level out: processed audio output toward external

amplifier

VMEM Voltage supplied for EEPROM

VMICRO Power supply for micro controller

VOL Volume

VSYNC Pulse derived of 530 s-circuit behind the HOP, to vertically

synchronize the Painter

WD Watch Dog

WE-NVM NVM write enable control line.

WS Wide Screen

WSS Wide Screen Signaling, used by broadcasters to transmit e.g.

PALPLUS and Aspect Ratio

WST World System Teletext

WXGA 1280x768 (15:9)

WYSIWYR What You See Is What You Record: record selection that follows

main picture and sound

XGA Extended Graphics Array: 1024x768 (4:3)

XTAL Quartz crystal

Y Luminance signal

YC (or Y/C) Luminance (Y) and Chrominance (C) signal (analogue video

encoding format)

YPbPr Component video (Y= Luminance, Pb/ Pr= Colour difference

signals)

YUV Component video

Abbreviation Description

Spare Parts List

EN 108 A02E10.

10. Spare Parts List

Large Signal Panel [A]

Various

0080 4822 492 70789 Transistor clamp

0136 3104 301 24181 Spring for Bracket

0137 3104 301 24181 Spring for Bracket

0138 4822 255 41371 Transistor clamp

0139 4822 492 62076 Transistor clamp

0261 3104 304 10661 Cable clamp

0262 3104 304 10722 Cable clamp

0320 4822 255 41371 Transistor clamp

0341 4822 492 70788 IC clamp

0389 4822 492 70789 Transistor clamp

0395 4822 492 70789 Transistor clamp

0396 4822 492 70789 Transistor clamp

1205 2422 025 17242 Connector 80p f

1417 4822 265 20723 Connector 2p m

1424 2422 025 11244 Connector 7p m

1491 4822 267 10973 Connector 1p m

1498 2422 025 04849 Connector 2p m

1499 2422 025 04849 Connector 2p m

1501 4822 070 35002 Fuse 5A

1502 4822 267 10774 Connector 2p m Rd

1503 4822 070 12502 Fuse 2.5A

1505 2422 025 16374 Connector 2p m

1511 4822 265 11253 Fuse holder 2p

1512 4822 265 11253 Fuse holder 2p

1550 2422 132 07411 Relay 1p 5V 5A

1590 4822 252 60151 Sparkgap dsp501

1591 4822 252 60151 Sparkgap dsp501

1601 2422 086 10919 Fuse 65V 125mA

1620 4822 267 10735 Connector 3p m

1625 2422 025 16382 Connector 3p m

1735 4822 267 10565 Connector 4p

1901 4822 267 10771 Socket 2 x SCART

1902 4822 267 10982 Connector 2p

1936 2422 025 12485 Connector 11p m

1940 2422 025 12485 Connector 11p m

1943 4822 267 10748 Connector 3p m

1945 4822 267 10735 Connector 3p m

1947 4822 267 10734 Connector 5p m

8000 3104 311 03272 Cable 640mm EHT

8193 4822 320 20216 Focus cable 364 mm

8194 4822 320 20189 Cable HT-focus 44cm Rd

8417 3104 311 04561 Cable 2p3/400/2p3

8424 3104 311 02991 Cable 7p/560/7p Wh

8625 3104 311 03101 Cable 3p/560/3p Bk

8625 3104 311 06261 Cable 2p/560/2p3 HR BK

INS

8936 3104 311 04121 Cable 11p/680/11p INS

8936 4822 320 12514 Cable 11p 680mm

8940 3104 311 01161 Cable 11p/340/11p Bk

8940 4822 323 10458 Cable 11p 480mm HR

WH

g

2100 4822 126 13841 1nF 20% 250V

2101 4822 121 51598 2.2nF 5% 400V

2102 4822 124 40248 10µF 20% 63V

2103 2020 552 94427 100pF 5% 50v 0603

2104 4822 123 14025 2200µF 20% 16V

2105 2020 552 94427 100pF 5% 50v 0603

2107 4822 121 43855 3.3nF 5% 400V

2108 4822 121 70162 10nF 5% 400V

2109 4822 126 14472 1µF 10% 10V 0805

2110 4822 126 14472 1µF 10% 10V 0805

2111 4822 121 43526 47nF 5% 250V

2112 5322 126 11583 10nF 10% 50V 0603

2115 4822 124 40764 22µF 100 V

2116 4822 126 13682 100pF 5% 1kV

2118 4822 124 80061 1000µF 20% 25V

2119 4822 123 14025 2200µF 20% 16V

2120 4822 126 13862 1.5nF 10% 2kV

2126 4822 123 14025 2200µF 20% 16V

2130 5322 126 11583 10nF 10% 50V 0603

2131 4822 126 13881 470pF 5% 50V

2132 4822 126 10206 2.2nF 10% 500V

2140 4822 124 40248 10µF 20% 63V

2141 4822 124 40248 10µF 20% 63V

2143 4822 126 10206 2.2nF 10% 500V

2144 4822 126 14472 1µF 10% 10V 0805

2145 4822 126 13881 470pF 5% 50V

2147 3198 017 31530 15nF 20% 50V 0603

2148 4822 126 13599 3.3nF 10% 500V

2149 4822 126 14472 1µF 10% 10V 0805

2150 5322 126 11583 10nF 10% 50V 0603

2153 5322 126 11582 6.8nF 10% 63V

2154 4822 126 14549 33nF 16V 0603

2161 2020 558 90556 680pF 10%b 1kV

2161 4822 126 14152 680pF 10% 1kV

2163 2222 338 22104 100nF 20% 275V

2200 4822 124 40248 10µF 20% 63V

2201 4822 126 13879 220nF 20% 16V

2202 4822 126 13473 220nF 80-20% 50V

2203 4822 124 41584 100µF 20% 10V

2400 4822 124 11936 47µF 20% 160V

2401 4822 121 42077 6.8nF 10% 400V

2402 4822 124 12373 47µF 20% 250V

2403 2238 916 15641 22nF 10% 25V 0603

2404 2238 916 15641 22nF 10% 25V 0603

2405 4822 126 13841 1nF 20% 250V

2412 3198 024 44730 47nF 50V 0603

2413 4822 124 12255 10µF 20% 50V

2414 3198 024 44730 47nF 50V 0603

2415 4822 126 13883 220pF 5% 50V

2417 4822 126 14076 220nF 25V. 20%

2419 4822 126 14237 470pF 10% 2kV

2420 4822 121 70581 1.5nF 5% 2kV

2420 4822 121 70594 1nF 5% 2kV

2421 2038 301 00312 1.2µF 5% 250V

2421 4822 121 42634 560nF 5% 250V

2425 4822 121 10526 9.1nF 5% 2kV

2425 4822 121 70435 10nF 5% 2kV

2426 4822 121 10653 22nF 5% 630V

2430 4822 126 10206 2.2nF 10% 500V

2431 4822 126 10206 2.2nF 10% 500V

2433 2022 333 00087 510nF 5% 250V

2433 2022 333 00163 360nF 5% 250V

2440 2020 552 96448 1µF 10% 16V

2443 9965 000 09661 470pF 50V 10%

2448 5322 122 32268 470pF 5% 63V

2450 4822 121 42408 220nF 10% 50V

2450 5322 121 42578 100nF 5% 250V

2451 2020 012 93757 1000µF 20% 10V

2454 3198 017 31530 15nF 20% 50V 0603

2455 5322 126 11578 1nF 10% 50V 0603

2457 4822 126 13188 15nF 5% 63V

2458 4822 126 14241 330pF 50V 0603

2460 4822 124 81144 1000µF 16V

2461 4822 122 31169 1.5nF 10% 500V

2461 4822 126 11524 1.5nF 10% 1kV

2462 4822 124 11767 470µF 20% 25V

2463 4822 122 31177 470pF 10% 500V

2464 4822 124 11767 470µF 20% 25V

2465 4822 122 31177 470pF 10% 500V

2466 2238 586 59812 100nF 20-80% 50V 0603

2468 4822 122 31177 470pF 10% 500V

2480 5322 126 11582 6.8nF 10% 63V

2482 3198 017 34730 47nF 16V 0603

2483 3198 017 31530 15nF 20% 50V 0603

2490 4822 124 41584 100µF 20% 10V

2491 4822 124 81151 22µF 50V

2492 4822 124 41584 100µF 20% 10V

2494 2238 780 15654 220nF 10% 16V

2495 2238 780 15654 220nF 10% 16V

2496 2238 586 59812 100nF 20-80% 50V 0603

2497 4822 126 12105 33nF 5% 50V

2498 2020 552 96448 1µF 10% 16V

2499 5322 126 11579 3.3nF 10% 63V

2501 4822 126 13449 1nF 10% 2KV

2501 4822 126 14053 1nF 10% 2kV

2503 5322 121 42489 33nF 5% 250V

2504 2238 916 15641 22nF 10% 25V 0603

2505 2020 554 90169 470pF 20% 250V

2507 2222 338 22474 470nF 20% 275V

2508 4822 124 11913 22nF 20% 275V

2509 4822 124 11913 22nF 20% 275V

2510 4822 126 12263 220pF 10% 2kV

2512 4822 124 12056 1000µF 20% 35V

2513 4822 126 13881 470pF 5% 50V

2514 4822 126 14238 2.2nF 50V 0603

2515 4822 124 80096 47µF 200V

2516 2222 057 36221 220µF 20% 400V 057

2518 4822 122 31211 100pF 10% 500V

2519 4822 126 10206 2.2nF 10% 500V

2524 5322 126 11583 10nF 10% 50V 0603

2525 4822 126 14247 1.5nF 50V 0603

2526 2020 558 90571 2.2nF 10% 1kV

2527 4822 126 14237 470pF 10% 2kV

2528 4822 126 14472 1µF 10% 10V 0805

2530 4822 126 14472 1µF 10% 10V 0805

2531 4822 122 31175 1nF 10% 500V

2532 4822 126 14472 1µF 10% 10V 0805

2533 2020 557 90732 4.7nF 10% 250V

2535 4822 126 13193 4.7nF 10% 63V

2537 4822 124 11913 22nF 20% 275V

2538 4822 122 33177 10nF 20% 50V

2540 4822 124 21913 1µF 20% 63V

2541 4822 122 31211 100pF 10% 500V

2544 4822 126 14238 2.2nF 50V 0603

2547 2222 338 22104 100nF 20% 275V

2601 2238 586 59812 100nF 20-80% 50V 0603

2603 4822 126 13883 220pF 5% 50V

2604 4822 126 13473 220nF 80-20% 50V

2605 4822 126 13883 220pF 5% 50V

2620 4822 126 13473 220nF 80-20% 50V

2621 2238 586 59812 100nF 20-80% 50V 0603

2622 4822 124 40255 100µF 20% 63V

2623 4822 126 14238 2.2nF 50V 0603

2624 4822 121 51252 470nF 5% 63V

2625 4822 121 51252 470nF 5% 63V

2627 5322 124 40641 10µF 20% 100V

2628 4822 124 40255 100µF 20% 63V

2630 4822 126 14491 2.2µF -20+80% 10V 0805

2631 4822 126 14491 2.2µF -20+80% 10V 0805

2633 5322 126 11579 3.3nF 10% 63V

2635 2238 586 59812 100nF 20-80% 50V 0603

2642 4822 124 40255 100µF 20% 63V

2653 2238 586 15628 2.7nF 10% 50V 0603

2653 5322 126 11579 3.3nF 10% 63V

2656 2238 916 15641 22nF 10% 25V 0603

2657 2238 916 15641 22nF 10% 25V 0603

2659 2238 916 15641 22nF 10% 25V 0603

2660 5322 126 11578 1nF 10% 50V 0603

2701 4822 126 14043 1µF 20% 16V

2702 3198 016 31020 1nF 10% 25V 0603

2703 4822 126 14043 1µF 20% 16V

2704 3198 016 31020 1nF 10% 25V 0603

2707 4822 126 14043 1µF 20% 16V

2708 4822 124 11767 470µF 20% 25V

2709 3198 026 51020 1000µF 50V 20%

2710 4822 126 14585 100nF 10% 50V

2711 4822 124 80061 1000µF 20% 25V

2712 3198 017 34730 47nF 16V 0603

2713 3198 017 34730 47nF 16V 0603

2714 4822 124 80061 1000µF 20% 25V

2715 3198 017 34730 47nF 16V 0603

2716 3198 017 34730 47nF 16V 0603

2722 4822 124 40255 100µF 20% 63V

2914 4822 124 40248 10µF 20% 63V

2915 4822 124 40248 10µF 20% 63V

2918 4822 126 14585 100nF 10% 50V

2940 4822 124 41584 100µF 20% 10V

2941 4822 126 14585 100nF 10% 50V

2942 4822 126 14585 100nF 10% 50V

2943 4822 126 14585 100nF 10% 50V

2945 4822 126 14491 2.2µF -20+80% 10V 0805

2946 4822 126 14491 2.2µF -20+80% 10V 0805

2947 4822 124 40769 4.7µF 20% 100V

2950 5322 126 11583 10nF 10% 50V 0603

2951 5322 126 11583 10nF 10% 50V 0603

2987 5322 122 31863 330pF 5% 63V

2989 5322 122 31863 330pF 5% 63V

2990 5322 122 31863 330pF 5% 63V

2991 4822 051 20333 33kΩ 5% 0.1W

2991 5322 122 32531 100pF 5% 50V

2992 5322 122 31863 330pF 5% 63V

2993 4822 051 20333 33kΩ 5% 0.1W

2993 5322 122 32531 100pF 5% 50V

2994 5322 122 31863 330pF 5% 63V

2995 5322 122 31863 330pF 5% 63V

2996 5322 122 31863 330pF 5% 63V

2997 5322 122 31863 330pF 5% 63V

2998 4822 051 20333 33kΩ 5% 0.1W

2998 5322 122 32531 100pF 5% 50V

2999 4822 051 20333 33kΩ 5% 0.1W

2999 5322 122 32531 100pF 5% 50V

f

3101 4822 053 20475 4.7MΩ 5% 0.25W

3102 4822 050 21002 1kΩ 1% 0.6W

3103 4822 050 21002 1kΩ 1% 0.6W

3104 4822 116 52195 47Ω 5% 0.5W

3105 4822 050 11002 1kΩ 1% 0.4W

3106 4822 116 52256 2.2kΩ 5% 0.5W

3107 4822 116 52256 2.2kΩ 5% 0.5W

3108 2122 101 01363 2.2Ω 5%

3111 4822 053 10152 1.5kΩ 5% 1W

3113 4822 116 52186 22Ω 5% 0.5W

3114 4822 116 52219 330Ω 5% 0.5W

3115 4822 116 52257 22kΩ 5% 0.5W

3116 4822 116 52257 22kΩ 5% 0.5W

3117 4822 116 52195 47Ω 5% 0.5W

Spare Parts List EN 109A02E 10.

3118 2122 101 01363 2.2Ω 5%

3120 4822 051 20109 10Ω 5% 0.1W

3123 4822 116 52176 10Ω 5% 0.5W

3124 4822 116 52199 68Ω 5% 0.5W

3125 4822 116 52182 15Ω 5% 0.5W

3126 4822 050 21003 10kΩ 1% 0.6W

3127 4822 116 52289 5.6kΩ 5% 0.5W

3130 4822 051 30479 47Ω 5% 0.062W

3131 4822 051 20471 470Ω 5% 0.1W

3132 4822 051 20479 47Ω 5% 0.1W

3133 4822 117 12925 47kΩ 1% 0.063W 0603

3134 4822 051 30102 1kΩ 5% 0.062W

3135 4822 051 30101 100Ω 5% 0.062W

3136 4822 051 30109 10Ω 5% 0.062W

3137 4822 050 24702 4.7kΩ 1% 0.6W

3138 4822 051 20105 1MΩ 5% 0.1W

3140 4822 051 20223 22kΩ 5% 0.1W

3141 4822 116 52263 2.7kΩ 5% 0.5W

3142 4822 051 30332 3.3kΩ 5% 0.062W

3143 4822 051 30101 100Ω 5% 0.062W

3144 4822 053 10221 220Ω 5% 1W

3150 4822 117 11373 100Ω 1% 0805

3151 4822 051 30109 10Ω 5% 0.062W

3152 4822 051 30102 1kΩ 5% 0.062W

3153 4822 051 20472 4.7kΩ 5% 0.1W

3155 4822 051 30101 100Ω 5% 0.062W

3156 5322 117 13017 100Ω 1% 0.063W 0603

3157 4822 051 30103 10kΩ 5% 0.062W

3158 2322 704 61801 180Ω 1% 0603

3158 5322 117 13061 180Ω 1% 0.063W 0603

3159 4822 051 30103 10kΩ 5% 0.062W

3160 4822 051 30102 1kΩ 5% 0.062W

3161 4822 052 10101 100Ω 5% 0.33W

3164 4822 117 13632 100kΩ 1% 0.62W 0603

3165 2322 704 61801 180Ω 1% 0603

3165 5322 117 13061 180Ω 1% 0.063W 0603

3168 4822 051 20472 4.7kΩ 5% 0.1W

3171 4822 116 52297 68kΩ 5% 0.5W

3172 4822 116 52297 68kΩ 5% 0.5W

3200 4822 051 20229 22Ω 5% 0.1W

3201 4822 051 20229 22Ω 5% 0.1W

3250 4822 117 10833 10kΩ 1% 0.1W

3261 4822 117 11373 100Ω 1% 0805

3262 4822 117 11373 100Ω 1% 0805

3400 4822 052 11108 1Ω 5% 0.5W

3401 4822 053 12279 27R00 5% 3W

3402 4822 053 10121 120Ω 5% 1W

3403 4822 116 52175 100Ω 5% 0.5W

3404 4822 051 30471 470Ω 5% 0.062W

3406 4822 117 11373 100Ω 1% 0805

3407 4822 051 30103 10kΩ 5% 0.062W

3409 4822 050 11002 1kΩ 1% 0.4W

3410 4822 051 20479 47Ω 5% 0.1W

3411 2122 101 02111 39Ω 5% 0,5W

3412 4822 117 11817 1.2kΩ 1% 0.062W

3414 4822 051 30331 330Ω 5% 0.062W

3415 3198 012 31590 15Ω 5% 3W

3417 4822 116 52176 10Ω 5% 0.5W

3418 4822 050 25603 56kΩ 1% 0.6W

3419 4822 051 30474 470kΩ 5% 0.062W

3420 4822 051 30332 3.3kΩ 5% 0.062W

3421 4822 051 30474 470kΩ 5% 0.062W

3422 4822 051 30332 3.3kΩ 5% 0.062W

3423 4822 053 10688 6.8Ω 5% 1W

3425 4822 116 52176 10Ω 5% 0.5W

3426 4822 116 52176 10Ω 5% 0.5W

3427 4822 051 30683 68kΩ 5% 0.062W

3427 4822 117 13632 100kΩ 1% 0.62W 0603

3428 4822 051 30684 680kΩ 5% 0.062W

3429 4822 051 30103 10kΩ 5% 0.062W

3429 4822 051 30223 22kΩ 5% 0.062W

3430 4822 051 30123 12kΩ 5% 0.062W

3430 4822 051 30223 22kΩ 5% 0.062W

3431 2306 207 03151 150Ω 5% 0.5W

3440 4822 051 30102 1kΩ 5% 0.062W

3441 4822 051 30223 22kΩ 5% 0.062W

3442 4822 051 30474 470kΩ 5% 0.062W

3443 4822 051 30684 680kΩ 5% 0.062W

3447 4822 117 11373 100Ω 1% 0805

3449 4822 052 10101 100Ω 5% 0.33W

3450 4822 050 21003 10kΩ 1% 0.6W

3451 4822 050 21003 10kΩ 1% 0.6W

3454 4822 051 20108 1Ω 5% 0.1W

3455 4822 117 12902 8.2kΩ 1% 0.063W 0603

3455 5322 117 13056 8.2kΩ 1% 0.063W 0603

3456 4822 117 12903 1.8kΩ 1% 0.063W 0603

3457 4822 051 30152 1.5kΩ 5% 0.062W

3458 4822 051 30471 470Ω 5% 0.062W

3459 4822 051 30272 2.7kΩ 5% 0.062W

3460 4822 052 10108 1Ω 5% 0.33W

3461 4822 052 10108 1Ω 5% 0.33W

3462 4822 052 11108 1Ω 5% 0.5W

3463 4822 052 11108 1Ω 5% 0.5W

3464 4822 052 11108 1Ω 5% 0.5W

3465 4822 052 11108 1Ω 5% 0.5W

3466 4822 051 30472 4.7kΩ 5% 0.062W

3467 4822 117 13632 100kΩ 1% 0.62W 0603

3472 4822 051 30393 39kΩ 5% 0.062W

3474 4822 051 30563 56kΩ 5% 0.062W

3475 4822 051 30472 4.7kΩ 5% 0.062W

3476 4822 116 83874 220kΩ 5% 0.5W

3478 4822 116 52175 100Ω 5% 0.5W

3479 4822 052 10478 4.7Ω 5% 0.33W

3480 4822 052 10478 4.7Ω 5% 0.33W

3480 4822 052 10688 6.8Ω 5% 0.33W

3481 2322 750 61001 100Ω 5% 1206

3482 4822 051 30221 220Ω 5% 0.062W

3483 4822 117 12903 1.8kΩ 1% 0.063W 0603

3485 4822 051 30471 470Ω 5% 0.062W

3486 2322 704 67502 7.5kΩ 1% 0,5W

3487 5322 117 13056 8.2kΩ 1% 0.063W 0603

3488 4822 050 21005 1MΩ 1% 0.6W

3489 4822 051 30103 10kΩ 5% 0.062W

3490 4822 051 30332 3.3kΩ 5% 0.062W

3491 4822 117 12925 47kΩ 1% 0.063W 0603

3492 4822 116 52175 100Ω 5% 0.5W

3493 4822 050 21504 150kΩ 1% 0.6W

3495 4822 050 21503 15kΩ 1% 0.6W

3496 4822 051 30272 2.7kΩ 5% 0.062W

3497 4822 051 30333 33kΩ 5% 0.062W

3501 2120 103 90057 100Ω 20% 0.5W

3504 4822 051 30222 2.2kΩ 5% 0.062W

3505 4822 116 52257 22kΩ 5% 0.5W

3506 4822 051 30562 5.6kΩ 5% 0.063W 0603

3507 4822 050 21604 160kΩ 1% 0.6W

3508 4822 116 52182 15Ω 5% 0.5W

3509 2122 550 00158 VDR 1mA 612V

3510 5322 117 12487 1kΩ 1% 0.125W

3511 4822 053 11222 2.2kΩ 5% 2W

3512 4822 117 12891 220kΩ 1% 0.063W 0603

3513 4822 116 52272 330k 5% 0.5W

3514 2322 193 53397 0.39Ω 5% 0.6W

3515 2322 193 53397 0.39Ω 5% 0.6W

3517 4822 117 10834 47kΩ 1% 0.1W

3518 4822 116 52234 100kΩ 5% 0,5W

3519 4822 051 30102 1kΩ 5% 0.062W

3520 4822 053 11333 33kΩ 5% 2W

3521 4822 053 21155 1.5Ω 5% 0.5W

3522 4822 117 11507 6.8kΩ 1% 0.1W

3523 4822 051 20105 1MΩ 5% 0.1W

3524 4822 051 30333 33kΩ 5% 0.062W

3525 4822 051 30479 47Ω 5% 0.062W

3527 4822 117 11951 2kΩ 1% 0.1W

3528 4822 051 30103 10kΩ 5% 0.062W

3529 4822 051 30472 4.7kΩ 5% 0.062W

3530 4822 051 30102 1kΩ 5% 0.062W

3531 4822 117 11507 6.8kΩ 1% 0.1W

3532 4822 117 12925 47kΩ 1% 0.063W 0603

3533 4822 116 52182 15Ω 5% 0.5W

3534 4822 117 12925 47kΩ 1% 0.063W 0603

3535 4822 051 30479 47Ω 5% 0.062W

3536 4822 051 30152 1.5kΩ 5% 0.062W

3537 4822 052 10102 1kΩ 5% 0.33W

3540 4822 050 23303 33k 1% 0.6W

3541 4822 116 52186 22Ω 5% 0.5W

3543 4822 050 24708 4.7Ω 1% 0.6W

3547 4822 051 30008 Jumper 0603

3549 4822 051 30393 39kΩ 5% 0.062W

3550 2122 663 00018 PTC 4.7Ω 20%

3552 4822 051 30222 2.2kΩ 5% 0.062W

3553 4822 051 30103 10kΩ 5% 0.062W

3610 4822 051 30223 22kΩ 5% 0.062W

3611 4822 051 30222 2.2kΩ 5% 0.062W

3620 4822 050 21808 1.8Ω 1% 0,6W

3620 4822 116 80176 1Ω 5% 0.5W

3621 4822 116 80176 1Ω 5% 0.5W

3622 4822 116 81154 2.2Ω 5% 0.5W

3622 5322 116 53564 3.3Ω 5% 0.5W

3623 4822 116 52251 18kΩ 5% 0.5W

3624 4822 052 10158 1.5Ω 5% 0.33W

3625 4822 116 52206 120Ω 5% 0.5W

3625 4822 116 52219 330Ω 5% 0.5W

3626 4822 116 52175 100Ω 5% 0.5W

3626 4822 116 52219 330Ω 5% 0.5W

3627 4822 051 20223 22kΩ 5% 0.1W

3630 4822 051 30333 33kΩ 5% 0.062W

3631 4822 051 30222 2.2kΩ 5% 0.062W

3632 4822 051 30393 39kΩ 5% 0.062W

3633 4822 051 30563 56kΩ 5% 0.062W

3634 4822 116 83882 39kΩ 5% 0.5W

3635 4822 116 52219 330Ω 5% 0.5W

3636 4822 051 30223 22kΩ 5% 0.062W

3637 4822 051 30103 10kΩ 5% 0.062W

3638 4822 051 30474 470kΩ 5% 0.062W

3639 4822 051 30563 56kΩ 5% 0.062W

3640 4822 051 30222 2.2kΩ 5% 0.062W

3641 4822 116 83883 470Ω 5% 0.5W

3642 4822 101 11193 47kΩ 30% 0.1W

3643 4822 051 30334 330kΩ 5% 0.062W

3644 4822 051 30221 220Ω 5% 0.062W

3645 4822 116 52245 150kΩ 5% 0.5W

3646 4822 117 12925 47kΩ 1% 0.063W 0603

3647 4822 051 20228 2.2Ω 5% 0.1W

3652 4822 051 20479 47Ω 5% 0.1W

3653 4822 051 20223 22kΩ 5% 0.1W

3655 4822 051 30123 12kΩ 5% 0.062W

3656 4822 117 11817 1.2kΩ 1% 0.062W

3657 4822 051 30223 22kΩ 5% 0.062W

3658 4822 051 30223 22kΩ 5% 0.062W

3659 4822 051 30222 2.2kΩ 5% 0.062W

3660 4822 051 30562 5.6kΩ 5% 0.063W 0603

3661 4822 116 52226 560Ω 5% 0.5W

3662 4822 051 30152 1.5kΩ 5% 0.062W

3681 4822 116 52207 1.2kΩ 5% 0.5W

3682 4822 117 13632 100kΩ 1% 0.62W 0603

3683 4822 051 30103 10kΩ 5% 0.062W

3684 4822 051 30682 6.8kΩ 5% 0.062W

3685 4822 051 30273 27kΩ 5% 0.062W

3686 4822 051 30563 56kΩ 5% 0.062W

3687 4822 116 52207 1.2kΩ 5% 0.5W

3688 4822 051 20684 680kΩ 5% 0.1W

3690 4822 051 30109 10Ω 5% 0.062W

3701 4822 051 30103 10kΩ 5% 0.062W

3701 4822 117 12925 47kΩ 1% 0.063W 0603

3702 4822 051 30223 22kΩ 5% 0.062W

3703 4822 051 30103 10kΩ 5% 0.062W

3703 4822 117 12925 47kΩ 1% 0.063W 0603

3704 4822 051 30223 22kΩ 5% 0.062W

3707 4822 051 30103 10kΩ 5% 0.062W

3708 4822 117 12925 47kΩ 1% 0.063W 0603

3710 4822 117 12925 47kΩ 1% 0.063W 0603

3711 4822 051 30103 10kΩ 5% 0.062W

3713 2322 702 81828 8.2Ω 5% 0.1W 0603

3714 2322 702 81828 8.2Ω 5% 0.1W 0603

3716 4822 050 21003 10kΩ 1% 0.6W

3719 4822 051 30103 10kΩ 5% 0.062W

3720 4822 052 10108 1Ω 5% 0.33W

3721 4822 052 10108 1Ω 5% 0.33W

3725 4822 116 52251 18kΩ 5% 0.5W

3726 4822 050 21003 10kΩ 1% 0.6W

3904 4822 052 10688 6.8Ω 5% 0.33W

3905 4822 051 30101 100Ω 5% 0.062W

3912 4822 051 30008 Jumper 0603

3928 4822 051 30101 100Ω 5% 0.062W

3929 4822 051 30103 10kΩ 5% 0.062W

3930 4822 051 20561 560Ω 5% 0.1W

3938 4822 117 11373 100Ω 1% 0805

3939 4822 051 30103 10kΩ 5% 0.062W

3940 4822 051 20561 560Ω 5% 0.1W

3941 4822 052 10688 6.8Ω 5% 0.33W

3959 4822 117 10353 150Ω 1% 0.1W

3960 4822 117 10353 150Ω 1% 0.1W

3961 4822 117 10353 150Ω 1% 0.1W

3962 4822 117 10353 150Ω 1% 0.1W

3965 4822 117 10353 150Ω 1% 0.1W

3966 4822 117 10353 150Ω 1% 0.1W

3967 4822 116 52201 75Ω 5% 0.5W

3968 4822 116 52201 75Ω 5% 0.5W

3969 4822 051 20008 Jumper 0805

3969 4822 117 11373 100Ω 1% 0805

3970 4822 051 20008 Jumper 0805

3970 4822 117 11373 100Ω 1% 0805

3971 4822 116 52201 75Ω 5% 0.5W

3972 4822 116 52201 75Ω 5% 0.5W

3973 4822 116 52201 75Ω 5% 0.5W

3974 4822 116 52201 75Ω 5% 0.5W

3975 4822 116 52201 75Ω 5% 0.5W

3976 4822 117 11373 100Ω 1% 0805

3977 4822 051 20008 Jumper 0805

3977 4822 117 11373 100Ω 1% 0805

3978 4822 051 20008 Jumper 0805

3978 4822 117 11373 100Ω 1% 0805

3979 4822 116 52201 75Ω 5% 0.5W

3980 4822 051 20008 Jumper 0805

3980 4822 117 11373 100Ω 1% 0805

3981 4822 051 10102 1kΩ 2% 0.25W

3981 4822 117 10833 10kΩ 1% 0.1W

3982 4822 051 20392 3.9kΩ 5% 0.1W

3982 4822 051 20393 39kΩ 5% 0.1W

3983 4822 116 52175 100Ω 5% 0.5W

3984 4822 051 10102 1kΩ 2% 0.25W

3984 4822 117 10833 10kΩ 1% 0.1W

3985 4822 116 52201 75Ω 5% 0.5W

3986 4822 116 52276 3.9kΩ 5% 0.5W

3986 4822 116 83882 39kΩ 5% 0.5W

3987 4822 116 52175 100Ω 5% 0.5W

3988 4822 051 10102 1kΩ 2% 0.25W

3988 4822 117 11373 100Ω 1% 0805

3989 4822 050 11002 1kΩ 1% 0.4W

3989 4822 116 52175 100Ω 5% 0.5W

3990 4822 117 10353 150Ω 1% 0.1W

3991 4822 117 10353 150Ω 1% 0.1W

Spare Parts List

EN 110 A02E10.

3992 4822 117 10353 150Ω 1% 0.1W

3993 4822 116 83868 150Ω 5% 0.5W

3994 4822 051 10102 1kΩ 2% 0.25W

3994 4822 117 11373 100Ω 1% 0805

3995 4822 051 10102 1kΩ 2% 0.25W

3995 4822 117 11373 100Ω 1% 0805

3996 4822 117 10353 150Ω 1% 0.1W

3997 4822 117 10353 150Ω 1% 0.1W

4xxx 4822 051 30008 Jumper 0603

9xxx 4822 051 20008 Jumper 0805

9xxx 4822 051 30008 Jumper 0603

b

5100 3104 308 20431 Transformer BS25126-03

5101 4822 526 10704 Bead 45Ω at 50MHz

5102 2422 535 94639 10µH 20%

5103 4822 526 10704 Bead 45Ω at 50MHz

5104 4822 157 11411 Bead 83Ω at 100MHz

5105 2422 535 94632 1µH 30%

5106 4822 157 11716 Bead 30Ω at 100MHz

5107 4822 157 11716 Bead 30Ω at 100MHz

5108 4822 526 10704 Bead 45Ω at 50MHz

5110 4822 526 10704 Bead 45Ω at 50MHz

5111 4822 157 11411 Bead 83Ω at 100MHz

5113 4822 157 11411 Bead 83Ω at 100MHz

5130 4822 157 11411 Bead 83Ω at 100MHz

5400 4822 157 11869 33µH 10%

5401 2422 536 00059 12µH 10%

5402 3198 018 21510 150µH 10%

5410 3128 138 39091 Transformer CE165T

5411 4822 157 71097 0.56µH 10%

5421 3104 308 20471 Linearity coil 28"/29”

5421 3104 308 20591 Linearity coil 32"

5422 2422 531 02357 Bridge coil W7132-004Y

29”

5422 4822 146 11137 Bridge coil W7131-003

28”/32”

5423 4822 157 71097 0.56µH 10%

5425 4822 157 11411 Bead 83Ω at 100MHz

5426 4822 157 11411 Bead 83Ω at 100MHz

5430 3104 308 20491 LOT 1392.9014A

5461 4822 157 11411 Bead 83Ω at 100MHz

5463 4822 157 11411 Bead 83Ω at 100MHz

5465 4822 157 11411 Bead 83Ω at 100MHz

5467 4822 157 11411 Bead 83Ω at 100MHz

5469 4822 157 11411 Bead 83Ω at 100MHz

5503 2422 549 44877 Filter 45mH DMF2845H

5505 4822 157 11411 Bead 83Ω at 100MHz

5506 2422 531 02575 Transformer SMT

BS30029-01

5506 2422 531 02635 Transformer SMT

SS30327-01 B

5507 4822 157 11411 Bead 83Ω at 100MHz

5511 3104 308 20511 Filter mains 40mH

5515 4822 157 11869 33µH 10%

5517 4822 157 11411 Bead 83Ω at 100MHz

5518 4822 526 10704 Bead 45Ω at 50MHz

5519 4822 157 11716 Bead 30Ω at 100MHz

5520 4822 157 11411 Bead 83Ω at 100MHz

5620 4822 157 11771 0.09µH 10%

5621 3104 308 20571 Transf. S13974-03

5901 4822 157 11299 10µH 5%

5902 3198 018 71010 100µF 10%

5903 4822 157 10359 33µH 10%

5904 4822 157 11411 Bead 83Ω at 100MHz

d

6080 4822 130 11397 BAS316

6082 4822 130 80622 BAT54

6103 4822 130 41601 BYV95A

6104 9340 548 67115 PDZ22B

6105 4822 130 34281 BZX79-B15

6106 3198 010 52290 BZX79-B22

6108 4822 130 80622 BAT54

6109 4822 130 31083 BYW55

6110 4822 130 41487 BYV95C

6111 9322 161 78682 SB360L-7024

6112 4822 130 11551 UDZS10B

6115 4822 130 80622 BAT54

6120 4822 130 30621 1N4148

6121 4822 130 30621 1N4148

6122 3198 010 53980 BZX79-B3V9

6130 4822 130 11596 BYW29EX-200

6132 9322 171 80685 BZX384-B6V8

6133 4822 130 11397 BAS316

6134 4822 130 11397 BAS316

6141 4822 130 11522 UDZ15B

6142 4822 130 80622 BAT54

6144 4822 130 11397 BAS316

6147 4822 130 34278 BZX79-B6V8

6148 5322 130 31938 BYV27-200

6149 4822 130 11397 BAS316

6200 9340 548 71115 PDZ33B

6202 4822 130 11397 BAS316

6400 4822 130 41601 BYV95A

6402 4822 130 11397 BAS316

6405 4822 130 34383 BZX79-B47

6406 4822 130 11397 BAS316

6407 4822 130 11397 BAS316

6408 4822 130 41601 BYV95A

6421 4822 130 10753 BY359X-1500

6422 4822 130 10218 BY229X-800

6442 4822 130 11522 UDZ15B

6455 4822 130 11397 BAS316

6456 5322 130 34337 BAV99

6457 9322 102 64685 UDZ2.7B

6458 3198 020 55680 BZX384-C5V6

6460 4822 130 41487 BYV95C

6462 9340 559 53112 BYW95C-24

6464 9340 559 53112 BYW95C-24

6480 4822 130 31607 RGP10D

6481 4822 130 11522 UDZ15B

6482 4822 130 11397 BAS316

6483 4822 130 80622 BAT54

6493 4822 130 80622 BAT54

6499 4822 130 11551 UDZS10B

6505 4822 130 34281 BZX79-B15

6506 4822 130 80622 BAT54

6509 4822 130 11397 BAS316

6510 4822 130 61219 BZX79-B10

6511 4822 130 11397 BAS316

6512 4822 130 11397 BAS316

6514 5322 130 31932 BZT03-C200

6515 4822 130 33657 BZV85-C6V8

6516 4822 130 11397 BAS316

6517 4822 130 80622 BAT54

6525 3198 010 10640 Bridge cell GBU4K

6530 4822 130 41487 BYV95C

6534 9322 165 72687 DTV1500MFP

6535 4822 130 11572 STPS8H100F

6537 4822 130 11397 BAS316

6538 4822 130 11397 BAS316

6614 4822 130 80622 BAT54

6615 4822 130 11397 BAS316

6616 4822 130 11397 BAS316

6617 4822 130 11397 BAS316

6618 4822 130 11397 BAS316

6619 4822 130 31607 RGP10D

6620 5322 130 31938 BYV27-200

6621 4822 130 31607 RGP10D

6623 4822 130 11397 BAS316

6624 4822 130 11397 BAS316

6625 4822 130 11397 BAS316

6626 4822 130 11397 BAS316

6627 4822 130 11397 BAS316

6901 4822 130 11416 PDZ6.8B

6950 4822 130 11416 PDZ6.8B

6951 4822 130 11416 PDZ6.8B

6953 4822 130 11416 PDZ6.8B

6954 4822 130 11416 PDZ6.8B

6955 4822 130 11416 PDZ6.8B

6956 4822 130 11416 PDZ6.8B

6957 4822 130 11416 PDZ6.8B

6958 4822 130 11416 PDZ6.8B

6959 4822 130 11416 PDZ6.8B

6960 9340 548 61115 PDZ12B

6961 4822 130 11416 PDZ6.8B

6962 4822 130 11416 PDZ6.8B

ce

7100 4822 130 44568 BC557B

7101 4822 130 40981 BC337-25

7102 9322 160 34687 FQPF3N60

7103 9322 149 04682 TCET1102

7130 5322 130 60159 BC846B

7131 4822 130 11336 STP16NE06FP

7132 5322 130 60159 BC846B

7133 4822 130 60373 BC856B

7140 5322 130 60159 BC846B

7141 4822 130 11336 STP16NE06FP

7408 5322 130 44647 BC368

7409 5322 130 60159 BC846B

7421 9340 210 30127 BU2520DX

7440 4822 209 70672 LM358N SEL.

7441 4822 130 60373 BC856B

7442 4822 130 60373 BC856B

7443 5322 130 60159 BC846B

7445 5322 130 60159 BC846B

7450 5322 209 61472 LM393M

7455 4822 209 73852 PMBT2369

7480 4822 130 11417 STP3NB60FP

7482 4822 130 11418 TCDT1102G

7486 5322 130 60159 BC846B

7487 5322 130 60159 BC846B

7501 5322 130 60159 BC846B

7502 4822 130 40959 BC547B

7504 9322 194 20687 STP5NK50ZFP

7506 4822 209 14933 TL431IZ

7507 9322 149 04682 TCET1102

7528 4822 130 40981 BC337-25

7529 4822 130 44461 BC546B

7530 5322 130 60159 BC846B

7611 5322 130 60159 BC846B

7612 5322 130 60159 BC846B

7613 4822 209 81397 TL431CLPST

7614 5322 130 60159 BC846B

7620 4822 209 90009 TDA8177

7641 5322 130 60159 BC846B

7652 5322 130 60159 BC846B

7653 5322 130 60159 BC846B

7654 4822 130 60373 BC856B

7680 4822 209 60956 TDA7052/N2

7681 5322 130 60159 BC846B

7682 5322 130 44647 BC368

7701 9322 166 94682 TDA7495S

7710 5322 130 60159 BC846B

7711 5322 130 60159 BC846B

7901 5322 130 60159 BC846B

7902 5322 130 60159 BC846B

7910 9322 152 53687 LD1086V33

7912 5322 209 86445 LM7805CT

Small Signal Board [B]

Various

1112 2422 549 44369 SAW 38.9MHz K9656L

1113 2422 549 44372 SAW 38.9MHz K3953L

1581 2422 543 01359 Xtal 13.5MHz 12pF

NX8045

g

2002 2020 552 96507 10µF 10V

2003 2020 552 96507 10µF 10V

2005 2020 552 96618 1nF 10% 50V 0402

2006 2020 552 96618 1nF 10% 50V 0402

2008 2020 552 96618 1nF 10% 50V 0402

2012 3198 017 44740 470nF 10V 0603

2013 3198 035 04710 470pF 50V 0402

2014 3198 035 71040 100nF 10% 16V 0402

2015 3198 035 04710 470pF 50V 0402

2016 3198 017 44740 470nF 10V 0603

2018 3198 035 04710 470pF 50V 0402

2019 3198 017 44740 470nF 10V 0603

2021 3198 035 04710 470pF 50V 0402

2022 3198 017 44740 470nF 10V 0603

2024 3198 035 04710 470pF 50V 0402

2025 3198 017 44740 470nF 10V 0603

2027 3198 035 04710 470pF 50V 0402

2028 3198 017 44740 470nF 10V 0603

2030 2020 552 96618 1nF 10% 50V 0402

2031 2020 552 96618 1nF 10% 50V 0402

2032 2020 552 96618 1nF 10% 50V 0402

2033 2020 552 96618 1nF 10% 50V 0402

2037 2020 552 96507 10µF 10V

2038 2020 552 96507 10µF 10V

2039 2020 552 96507 10µF 10V

2040 2020 552 96507 10µF 10V

2045 3198 030 82280 2.2µF 20% 50V

2046 5322 124 41945 22µF 20% 35V

2047 4822 124 23002 10µF 20% 16V

2048 3198 035 71040 100nF 10% 16V 0402

2049 3198 035 71040 100nF 10% 16V 0402

2050 3198 035 71040 100nF 10% 16V 0402

2051 3198 035 71040 100nF 10% 16V 0402

2060 3198 035 71040 100nF 10% 16V 0402

2062 3198 035 71040 100nF 10% 16V 0402

2063 3198 035 71040 100nF 10% 16V 0402

2065 3198 035 71040 100nF 10% 16V 0402

2066 3198 035 71040 100nF 10% 16V 0402

2067 3198 035 71040 100nF 10% 16V 0402

2068 3198 035 71040 100nF 10% 16V 0402

2071 3198 035 71040 100nF 10% 16V 0402

2072 3198 035 71040 100nF 10% 16V 0402

2073 3198 035 71040 100nF 10% 16V 0402

2078 3198 035 71040 100nF 10% 16V 0402

2079 3198 035 71040 100nF 10% 16V 0402

2081 3198 035 71040 100nF 10% 16V 0402

2082 4822 126 14491 2.2µF -20+80% 10V 0805

2083 3198 035 71040 100nF 10% 16V 0402

2084 3198 035 71040 100nF 10% 16V 0402

2085 3198 035 71040 100nF 10% 16V 0402

Spare Parts List EN 111A02E 10.

2088 4822 126 14491 2.2µF -20+80% 10V 0805

2101 3198 035 71030 10nF 16V 0402

2102 3198 035 71030 10nF 16V 0402

2119 3198 035 71030 10nF 16V 0402

2126 2238 869 15101 100pF 5% 50V 0402

2127 3198 035 71040 100nF 10% 16V 0402

2128 3198 030 82280 2.2µF 20% 50V

2130 3198 035 71030 10nF 16V 0402

2134 3198 035 71040 100nF 10% 16V 0402

2135 4822 124 23002 10µF 20% 16V

2136 4822 124 23002 10µF 20% 16V

2137 4822 124 12095 100µF 20% 16V

2138 3198 035 71040 100nF 10% 16V 0402

2150 3198 035 71040 100nF 10% 16V 0402

2151 3198 030 82280 2.2µF 20% 50V

2152 3198 035 71040 100nF 10% 16V 0402

2154 4822 124 23002 10µF 20% 16V

2155 3198 035 71040 100nF 10% 16V 0402

2156 3198 035 71040 100nF 10% 16V 0402

2157 3198 035 71040 100nF 10% 16V 0402

2281 3198 035 71040 100nF 10% 16V 0402

2282 3198 035 71040 100nF 10% 16V 0402

2284 3198 035 71040 100nF 10% 16V 0402

2285 3198 035 71040 100nF 10% 16V 0402

2300 3198 035 71040 100nF 10% 16V 0402

2305 3198 017 41050 1µF 10V 0603

2307 2238 869 15101 100pF 5% 50V 0402

2308 2238 869 15101 100pF 5% 50V 0402

2310 4822 124 23002 10µF 20% 16V

2311 3198 035 71030 10nF 16V 0402

2317 2238 869 15101 100pF 5% 50V 0402

2318 2238 869 15101 100pF 5% 50V 0402

2321 3198 035 71030 10nF 16V 0402

2324 2238 869 15101 100pF 5% 50V 0402

2325 2238 869 75829 82pF 5% 50V 0402

2327 2238 869 15101 100pF 5% 50V 0402

2328 2238 869 15101 100pF 5% 50V 0402

2331 3198 035 71030 10nF 16V 0402

2341 3198 035 71040 100nF 10% 16V 0402

2342 3198 035 71040 100nF 10% 16V 0402

2343 3198 035 71040 100nF 10% 16V 0402

2344 3198 035 71040 100nF 10% 16V 0402

2345 3198 035 71040 100nF 10% 16V 0402

2346 3198 035 71040 100nF 10% 16V 0402

2350 4822 124 12095 100µF 20% 16V

2351 2238 869 15109 10pF 5% 50V 0402

2352 2238 869 15109 10pF 5% 50V 0402

2358 2238 869 15101 100pF 5% 50V 0402

2359 3198 035 71040 100nF 10% 16V 0402

2360 2238 869 15101 100pF 5% 50V 0402

2361 4822 126 14491 2.2µF -20+80% 10V 0805

2363 2238 869 15101 100pF 5% 50V 0402

2364 4822 126 14491 2.2µF -20+80% 10V 0805

2365 2238 869 15101 100pF 5% 50V 0402

2366 4822 126 14491 2.2µF -20+80% 10V 0805

2371 2020 552 96618 1nF 10% 50V 0402

2372 2020 552 96618 1nF 10% 50V 0402

2377 2020 552 96623 2.2nF 10% 50V 0402

2379 2020 552 96623 2.2nF 10% 50V 0402

2380 3198 035 04710 470pF 50V 0402

2384 2020 552 96618 1nF 10% 50V 0402

2386 2238 869 15109 10pF 5% 50V 0402

2395 3198 035 71030 10nF 16V 0402

2397 3198 035 71040 100nF 10% 16V 0402

2432 2020 552 96618 1nF 10% 50V 0402

2433 2020 552 96618 1nF 10% 50V 0402

2434 3198 017 44740 470nF 10V 0603

2435 3198 017 44740 470nF 10V 0603

2438 3198 017 44740 470nF 10V 0603

2439 3198 017 44740 470nF 10V 0603

2440 2020 552 96618 1nF 10% 50V 0402

2441 2020 552 96618 1nF 10% 50V 0402

2442 2020 552 96618 1nF 10% 50V 0402

2443 2020 552 96618 1nF 10% 50V 0402

2444 2020 552 96618 1nF 10% 50V 0402

2445 2020 552 96618 1nF 10% 50V 0402

2447 4822 124 12095 100µF 20% 16V

2450 3198 035 71030 10nF 16V 0402

2452 3198 035 71030 10nF 16V 0402

2454 4822 126 14491 2.2µF -20+80% 10V 0805

2457 4822 126 14491 2.2µF -20+80% 10V 0805

2461 3198 017 44740 470nF 10V 0603

2462 3198 017 44740 470nF 10V 0603

2480 3198 017 44740 470nF 10V 0603

2481 3198 017 44740 470nF 10V 0603

2483 2020 552 96618 1nF 10% 50V 0402

2484 4822 124 23002 10µF 20% 16V

2485 2020 552 96618 1nF 10% 50V 0402

2486 3198 035 71040 100nF 10% 16V 0402

2487 4822 124 23002 10µF 20% 16V

2488 4822 124 12095 100µF 20% 16V

2489 4822 124 12095 100µF 20% 16V

2514 2238 869 15189 18pF 5% 50V 0402

2516 2238 869 15189 18pF 5% 50V 0402

2525 3198 035 71040 100nF 10% 16V 0402

2546 3198 035 71040 100nF 10% 16V 0402

2557 2238 869 15101 100pF 5% 50V 0402

2571 3198 035 71040 100nF 10% 16V 0402

2581 4822 126 14519 22pF 5% 50V 0402

2582 4822 126 14519 22pF 5% 50V 0402

2583 3198 035 71040 100nF 10% 16V 0402

2584 3198 035 71040 100nF 10% 16V 0402

2600 3198 035 71040 100nF 10% 16V 0402

2601 3198 035 71040 100nF 10% 16V 0402

2604 3198 035 71040 100nF 10% 16V 0402

2607 3198 035 71040 100nF 10% 16V 0402

2609 3198 035 71040 100nF 10% 16V 0402

2611 3198 035 71040 100nF 10% 16V 0402

2612 3198 035 71040 100nF 10% 16V 0402

2615 3198 035 71040 100nF 10% 16V 0402

2618 3198 035 71040 100nF 10% 16V 0402

2620 3198 035 71040 100nF 10% 16V 0402

2622 3198 035 71040 100nF 10% 16V 0402

2623 3198 035 71040 100nF 10% 16V 0402

2628 3198 035 71040 100nF 10% 16V 0402

2629 3198 035 71040 100nF 10% 16V 0402

2630 3198 035 71040 100nF 10% 16V 0402

2633 3198 035 71040 100nF 10% 16V 0402

2634 3198 035 71040 100nF 10% 16V 0402

2638 3198 035 71040 100nF 10% 16V 0402

2644 5322 124 41945 22µF 20% 35V

2645 4822 124 23002 10µF 20% 16V

2651 2020 021 91679 100µF 20% 6.3V

2652 2020 552 96507 10µF 10V

2654 2020 552 96507 10µF 10V

2655 2020 552 96507 10µF 10V

2656 3198 035 71040 100nF 10% 16V 0402

2657 2238 869 15101 100pF 5% 50V 0402

2659 4822 126 13879 220nF 20% 16V

2730 3198 035 71040 100nF 10% 16V 0402

2731 3198 035 71040 100nF 10% 16V 0402

2732 3198 035 71040 100nF 10% 16V 0402

2733 3198 035 71040 100nF 10% 16V 0402

2734 3198 035 71040 100nF 10% 16V 0402

2792 3198 035 71040 100nF 10% 16V 0402

2793 3198 035 71040 100nF 10% 16V 0402

2918 2238 869 15101 100pF 5% 50V 0402

2919 2238 869 15101 100pF 5% 50V 0402

2920 2238 869 75829 82pF 5% 50V 0402

2932 2238 869 15101 100pF 5% 50V 0402

2933 2238 869 15101 100pF 5% 50V 0402

2935 2238 869 15101 100pF 5% 50V 0402

2936 2238 869 15101 100pF 5% 50V 0402

2938 2238 869 15101 100pF 5% 50V 0402

2948 2238 869 15189 18pF 5% 50V 0402

2949 2238 869 15189 18pF 5% 50V 0402

2950 2238 869 15101 100pF 5% 50V 0402

2951 2238 869 15101 100pF 5% 50V 0402

2962 2238 869 15101 100pF 5% 50V 0402

2967 2020 552 96618 1nF 10% 50V 0402

2968 2020 552 96618 1nF 10% 50V 0402

2975 2020 552 96793 4.7nF 10% 50V 0402

2976 2020 552 96793 4.7nF 10% 50V 0402

2977 2238 869 15101 100pF 5% 50V 0402

2978 2238 869 15101 100pF 5% 50V 0402

2979 2238 869 15101 100pF 5% 50V 0402

f

3002 3198 031 04730 47Ω 5% 0402

3003 3198 031 04730 47Ω 5% 0402

3004 3198 031 04730 47Ω 5% 0402

3005 3198 031 04730 47Ω 5% 0402

3006 3198 031 04730 47Ω 5% 0402

3007 3198 031 04730 47Ω 5% 0402

3010 4822 117 13605 Jumper 0402

3011 4822 117 13605 Jumper 0402

3018 4822 117 11152 4.7Ω 5% 0.062W

3019 5322 117 11726 10Ω 5%

3022 3198 031 04730 47Ω 5% 0402

3024 3198 031 04730 47Ω 5% 0402

3026 3198 031 04730 47Ω 5% 0402

3027 3198 031 04730 47Ω 5% 0402

3060 4822 117 13602 2.2kΩ 5% 0.01W 0402

3061 4822 117 13602 2.2kΩ 5% 0.01W 0402

3062 3198 031 01810 180Ω 5% 0402

3063 3198 031 01810 180Ω 5% 0402

3066 4822 117 13602 2.2kΩ 5% 0.01W 0402

3067 4822 117 13548 1kΩ 5% 0402

3068 4822 117 13548 1kΩ 5% 0402

3101 4822 117 13602 2.2kΩ 5% 0.01W 0402

3103 3198 031 06820 6.8kΩ 5% 0.01W 0402

3104 4822 117 13602 2.2kΩ 5% 0.01W 0402

3106 3198 031 02730 27kΩ 5% 0402

3131 3198 031 04720 4.7kΩ 5% 0402

3132 4822 117 13545 100Ω 1% 0402

3138 3198 031 03910 390Ω 1% 0402

3150 3198 031 01820 1K8 5% 0402

3151 3198 031 01220 1K2 5% 0402

3152 3198 031 01820 1K8 5% 0402

3153 3198 031 01220 1K2 5% 0402

3154 3198 031 04730 47Ω 5% 0402

3155 3198 031 08210 820Ω 5% 0,5W

3281 4822 117 13548 1kΩ 5% 0402

3282 4822 117 13548 1kΩ 5% 0402

3283 4822 117 13548 1kΩ 5% 0402

3284 4822 117 13548 1kΩ 5% 0402

3302 3198 031 01220 1K2 5% 0402

3303 3198 031 06820 6.8kΩ 5% 0.01W 0402

3304 4822 117 13597 330Ω 5% 0402 0.01W

3305 4822 117 13548 1kΩ 5% 0402

3306 3198 031 03390 33Ω 1% 0402

3307 2322 705 87189 18Ω 5% 0402

3309 4822 051 30331 330Ω 5% 0.062W

3310 3198 031 01220 1K2 5% 0402

3311 3198 031 03390 33Ω 1% 0402

3312 3198 031 01220 1K2 5% 0402

3313 4822 117 13597 330Ω 5% 0402 0.01W

3316 2322 705 87189 18Ω 5% 0402

3318 3198 031 01220 1K2 5% 0402

3319 4822 051 30331 330Ω 5% 0.062W

3320 3198 031 01220 1K2 5% 0402

3321 3198 031 03390 33Ω 1% 0402

3322 3198 031 01220 1K2 5% 0402

3323 4822 117 13597 330Ω 5% 0402 0.01W

3325 3198 031 04720 4.7kΩ 5% 0402

3326 4822 117 13543 470Ω 5% 0402

3329 4822 051 30331 330Ω 5% 0.062W

3330 3198 031 01220 1K2 5% 0402

3331 3198 031 03390 33Ω 1% 0402

3332 3198 031 01220 1K2 5% 0402

3333 4822 117 13597 330Ω 5% 0402 0.01W

3334 3198 031 03390 33Ω 1% 0402

3335 3198 031 03390 33Ω 1% 0402

3336 3198 031 03390 33Ω 1% 0402

3337 3198 031 03390 33Ω 1% 0402

3338 2322 705 87189 18Ω 5% 0402

3340 4822 117 13548 1kΩ 5% 0402

3343 4822 117 13606 10kΩ 5% 0.01W 0402

3345 3198 031 06820 6.8kΩ 5% 0.01W 0402

3346 4822 117 13548 1kΩ 5% 0402

3347 4822 117 13601 22kΩ 5% 0402

3348 4822 117 13601 22kΩ 5% 0402

3349 3198 031 04730 47Ω 5% 0402

3350 4822 117 13596 220Ω 5% 0.01W 0402

3351 4822 117 13548 1kΩ 5% 0402

3352 3198 031 04730 47Ω 5% 0402

3353 4822 117 13606 10kΩ 5% 0.01W 0402

3354 4822 117 13606 10kΩ 5% 0.01W 0402

3355 4822 117 13601 22kΩ 5% 0402

3356 3198 031 08210 820Ω 5% 0,5W

3357 4822 117 13601 22kΩ 5% 0402

3358 5322 117 11726 10Ω 5%

3361 4822 117 13605 Jumper 0402

3364 2322 705 70124 120kΩ 5% 0402

3365 4822 117 13605 Jumper 0402

3366 4822 117 13602 2.2kΩ 5% 0.01W 0402

3367 4822 117 13548 1kΩ 5% 0402

3368 3198 031 06830 68kΩ 5% 0.01W 0402

3371 4822 117 13548 1kΩ 5% 0402

3372 2322 705 70155 1.5MΩ 5% 0402

3373 4822 117 13606 10kΩ 5% 0.01W 0402

3374 3198 031 02720 2.7kΩ 5% 0.01W 0402

3375 3198 031 02720 2.7kΩ 5% 0.01W 0402

3376 4822 117 13606 10kΩ 5% 0.01W 0402

3377 3198 031 02250 2.2MΩ 5% 0402

3378 3198 031 03340 330kΩ 5% 0402

3380 4822 117 13606 10kΩ 5% 0.01W 0402

3382 4822 117 13548 1kΩ 5% 0402

3384 4822 117 13606 10kΩ 5% 0.01W 0402

3385 3198 031 04730 47Ω 5% 0402

3386 3198 031 02730 27kΩ 5% 0402

3390 4822 117 13548 1kΩ 5% 0402

3391 3198 031 03930 39kΩ 5% 0402

3392 3198 031 04730 47Ω 5% 0402

3393 3198 031 03320 3.3kΩ 5% 0402

3395 4822 117 13606 10kΩ 5% 0.01W 0402

3396 4822 117 13543 470Ω 5% 0402

3397 4822 117 13543 470Ω 5% 0402

3398 4822 117 13545 100Ω 1% 0402

3445 3198 031 04730 47Ω 5% 0402

3446 3198 031 05630 56kΩ 5% 0402

3447 3198 031 05630 56kΩ 5% 0402

3448 3198 031 01220 1K2 5% 0402

3449 3198 031 01520 1.2kΩ 5% 0.01W 0402

3450 3198 031 01220 1K2 5% 0402

3452 3198 031 01220 1K2 5% 0402

3453 3198 031 04730 47Ω 5% 0402

3454 3198 031 05630 56kΩ 5% 0402

3455 3198 031 05630 56kΩ 5% 0402

3456 3198 031 01220 1K2 5% 0402

Spare Parts List

EN 112 A02E10.

3457 3198 031 01520 1.2kΩ 5% 0.01W 0402

3480 3198 031 02720 2.7kΩ 5% 0.01W 0402

3481 3198 031 02720 2.7kΩ 5% 0.01W 0402

3482 3198 031 04720 4.7kΩ 5% 0402

3483 3198 031 08220 8.2kΩ 5% 0.5W

3484 3198 031 04720 4.7kΩ 5% 0402

3485 3198 031 08220 8.2kΩ 5% 0.5W

3501 4822 117 13606 10kΩ 5% 0.01W 0402

3502 4822 117 13606 10kΩ 5% 0.01W 0402

3503 4822 117 13606 10kΩ 5% 0.01W 0402

3504 4822 117 13606 10kΩ 5% 0.01W 0402

3507 4822 117 13606 10kΩ 5% 0.01W 0402

3508 3198 031 04720 4.7kΩ 5% 0402

3509 3198 031 02720 2.7kΩ 5% 0.01W 0402

3510 3198 031 02720 2.7kΩ 5% 0.01W 0402

3511 4822 117 13546 47Ω 5% 0402

3512 4822 117 13546 47Ω 5% 0402

3513 3198 031 02720 2.7kΩ 5% 0.01W 0402

3515 3198 031 02720 2.7kΩ 5% 0.01W 0402

3518 4822 117 13601 22kΩ 5% 0402

3523 4822 117 13606 10kΩ 5% 0.01W 0402

3530 4822 117 11297 100kΩ 5% 0.1W

3547 3198 031 03390 33Ω 1% 0402

3550 3198 031 04720 4.7kΩ 5% 0402

3557 4822 117 13546 47Ω 5% 0402

3563 4822 117 13606 10kΩ 5% 0.01W 0402

3564 4822 117 13606 10kΩ 5% 0.01W 0402

3565 4822 117 13606 10kΩ 5% 0.01W 0402

3570 4822 117 13602 2.2kΩ 5% 0.01W 0402

3571 3198 031 02720 2.7kΩ 5% 0.01W 0402

3572 4822 117 13606 10kΩ 5% 0.01W 0402

3581 4822 117 13545 100Ω 1% 0402

3582 4822 117 13606 10kΩ 5% 0.01W 0402

3583 3198 031 01830 18kΩ 5% 0.01W 0402

3586 4822 117 13601 22kΩ 5% 0402

3590 4822 117 13548 1kΩ 5% 0402

3651 5322 117 13036 1.2kΩ 1% 0.063W 0603

3652 5322 117 13052 2.7kΩ 1% 0.063W 0603

3737 3198 031 03390 33Ω 1% 0402

3904 4822 117 13605 Jumper 0402

3909 4822 117 13545 100Ω 1% 0402

3911 4822 117 13545 100Ω 1% 0402

3918 4822 117 13545 100Ω 1% 0402

3919 4822 117 13545 100Ω 1% 0402

3928 4822 117 13545 100Ω 1% 0402

3929 4822 117 13545 100Ω 1% 0402

3936 4822 117 13545 100Ω 1% 0402

3938 4822 117 13545 100Ω 1% 0402

3950 4822 117 13545 100Ω 1% 0402

3951 4822 117 13545 100Ω 1% 0402

3962 4822 117 13545 100Ω 1% 0402

3963 4822 117 13545 100Ω 1% 0402

3964 4822 117 13545 100Ω 1% 0402

3975 4822 117 13545 100Ω 1% 0402

3976 4822 117 13545 100Ω 1% 0402

3977 4822 117 13545 100Ω 1% 0402

3978 4822 117 13545 100Ω 1% 0402

3979 4822 117 13545 100Ω 1% 0402

3980 4822 117 13545 100Ω 1% 0402

4xxx 4822 117 13605 Jumper 0402

b

5060 2422 549 44197 Bead 220Ω at 100MHz

5061 2422 549 44197 Bead 220Ω at 100MHz

5062 2422 549 44197 Bead 220Ω at 100MHz

5063 2422 549 44197 Bead 220Ω at 100MHz

5101 4822 157 71303 0.39µH 10% 0805

5102 2422 549 44197 Bead 220Ω at 100MHz

5112 2422 549 44197 Bead 220Ω at 100MHz

5134 2422 549 44197 Bead 220Ω at 100MHz

5135 2422 549 44197 Bead 220Ω at 100MHz

5150 2422 549 44197 Bead 220Ω at 100MHz

5151 2422 549 44197 Bead 220Ω at 100MHz

5152 2422 549 44197 Bead 220Ω at 100MHz

5281 2422 549 44197 Bead 220Ω at 100MHz

5282 2422 549 44197 Bead 220Ω at 100MHz

5283 2422 549 44197 Bead 220Ω at 100MHz

5285 2422 549 44197 Bead 220Ω at 100MHz

5300 2422 549 44197 Bead 220Ω at 100MHz

5307 4822 051 20008 Jumper 0805

5317 4822 051 20008 Jumper 0805

5327 4822 051 20008 Jumper 0805

5328 4822 051 20008 Jumper 0805

5342 2422 549 44197 Bead 220Ω at 100MHz

5343 2422 549 44197 Bead 220Ω at 100MHz

5344 2422 549 44197 Bead 220Ω at 100MHz

5345 2422 549 44197 Bead 220Ω at 100MHz

5450 2422 549 44197 Bead 220Ω at 100MHz

5452 2422 549 44197 Bead 220Ω at 100MHz

5480 2422 549 44197 Bead 220Ω at 100MHz

5570 2422 549 44197 Bead 220Ω at 100MHz

5583 2422 549 44197 Bead 220Ω at 100MHz

5600 4822 157 11716 Bead 30Ω at 100MHz

5601 2422 549 44197 Bead 220Ω at 100MHz

5651 2422 535 94134 10µH 20% 0805

5654 4822 157 11258 1µH 20% NLC322522T

5659 4822 157 71334 0.68µH

5730 2422 549 44197 Bead 220Ω at 100MHz

5731 2422 549 44197 Bead 220Ω at 100MHz

5792 2422 549 44197 Bead 220Ω at 100MHz

d

6101 4822 130 11525 1SS356

6301 4822 130 11397 BAS316

6327 9322 102 64685 UDZ2.7B

6341 4822 130 11397 BAS316

6353 5322 130 34337 BAV99

6365 5322 130 34337 BAV99

6367 9340 548 67115 PDZ22B

6368 4822 130 11397 BAS316

6381 5322 130 34337 BAV99

6382 4822 130 11594 BZX284-C47

6384 9340 548 67115 PDZ22B

6385 4822 130 11397 BAS316

6397 9340 548 69115 PDZ27B

6398 4822 130 11397 BAS316

6480 9340 548 61115 PDZ12B

6481 9340 548 61115 PDZ12B

6651 9322 128 70685 SMSS14

ce

7060 9340 425 30115 BC847BPN

7062 4822 130 60373 BC856B

7063 4822 130 60373 BC856B

7100 9352 712 54557 PNX3000HL/N1

7101 3198 010 42310 BC847BW

7150 9340 425 20115 BC847BS

7300 9352 735 54557 PNX3002E/N302

7301 4822 130 60373 BC856B

7302 4822 130 60373 BC856B

7303 4822 130 60373 BC856B

7304 3198 010 42310 BC847BW

7310 9340 425 30115 BC847BPN

7320 9340 425 30115 BC847BPN

7330 9340 425 30115 BC847BPN

7346 4822 130 60373 BC856B

7356 4822 130 60373 BC856B

7365 5322 130 60159 BC846B

7382 4822 130 60373 BC856B

7383 9340 425 30115 BC847BPN

7393 3198 010 42310 BC847BW

7432 9340 425 30115 BC847BPN

7433 9340 425 30115 BC847BPN

7480 4822 209 33165 TDA1308T/N1

7525 9322 130 41668 M24C64-WMN6

7581 9352 691 56115 NE56610-45GW

7650 9322 170 61668 CS51033YDR8

7651 9322 170 87668 STS5PF30L

7730 9322 180 88668 K4S641632F-TC75

7790 9322 199 76668 M58LW032C90N1

Side I/O Panel [D]

Various

0240 2422 025 12485 Connector 11p m

0241 4822 267 10734 Connector 5p m

0242 4822 267 10734 Connector 5p m

1254 4822 267 31014 Socket headphone

1255 4822 265 11606 Connector 3p

1256 2422 026 04926 Socket SVHS 4p f

g

2286 4822 122 33642 150pF 5% 50V

2288 4822 122 33642 150pF 5% 50V

2292 5322 122 32311 470pF 10% 100V

2294 5322 122 32311 470pF 10% 100V

2296 4822 122 30103 22nF 80% 63V

2297 4822 122 30103 22nF 80% 63V

f

3285 4822 116 52201 75Ω 5% 0.5W

3286 4822 116 52176 10Ω 5% 0.5W

3287 4822 116 52201 75Ω 5% 0.5W

3288 4822 116 52176 10Ω 5% 0.5W

3289 4822 116 52249 1.8kΩ 5% 0.5W

3291 4822 050 11002 1kΩ 1% 0.4W

3292 4822 117 10834 47kΩ 1% 0.1W

3293 4822 050 11002 1kΩ 1% 0.4W

3294 4822 117 10834 47kΩ 1% 0.1W

3295 4822 116 52276 3.9kΩ 5% 0.5W

3296 4822 117 10833 10kΩ 1% 0.1W

3297 4822 117 10833 10kΩ 1% 0.1W

4xxx 4822 051 20008 Jumper 0805

d

6291 9340 548 61115 PDZ12B

6292 9340 548 61115 PDZ12B

6293 9340 548 61115 PDZ12B

6294 9340 548 61115 PDZ12B

6296 9340 548 61115 PDZ12B

6297 9340 548 61115 PDZ12B

Top Control Panel [E]

Various

0135 3104 311 04671 Cable 3p/1200/3p

0215 2422 025 16601 Connector 3p m

1091 4822 276 13775 Switch

1092 4822 276 13775 Switch

1093 4822 276 13775 Switch

1094 4822 276 13775 Switch

g

2010 4822 122 33177 10nF 20% 50V

f

3088 4822 051 30008 Jumper 0603

3089 4822 051 30008 Jumper 0603

3091 4822 051 30561 560Ω 5% 0.062W

3092 4822 051 30391 390Ω 5% 0.062W

3093 4822 051 30561 560Ω 5% 0.062W

3094 4822 051 30271 270Ω 5% 0.062W

3095 4822 051 30332 3.3kΩ 5% 0.062W

3096 4822 051 30152 1.5kΩ 5% 0.062W

4092 4822 051 30008 Jumper 0603

d

6092 4822 130 10654 BAT254

CRT Panel [F]

Various

0032 4822 492 70788 IC clamp

1298 2422 500 80063 Connector CRT 10p f

1424 2422 025 11244 Connector 7p m

1434 4822 267 10973 Connector 1p m

1483 4822 267 10735 Connector 3p m

1940 2422 025 12485 Connector 11p m

8483 3104 311 03111 Cable 3p/340/3p ferrite

g

2300 4822 124 40764 22µF 100 V

2301 4822 124 40196 220µF 20% 16V

2304 4822 121 41856 22nF 5% 250V

2306 2238 586 59812 100nF 20-80% 50V 0603

2307 4822 121 41856 22nF 5% 250V

2309 3198 017 42230 22nF 50V

2313 4822 124 12373 47µF 20% 250V

2315 5322 126 11583 10nF 10% 50V 0603

2316 4822 121 40518 100nF 10% 250V

2318 5322 122 32654 22nF 10% 63V

2319 4822 122 30043 10nF 80% 63V

2320 2238 586 59812 100nF 20-80% 50V 0603

2324 5322 121 44356 4.7nF 5% 2kV

2325 2238 586 59812 100nF 20-80% 50V 0603

2330 4822 126 13879 220nF 20% 16V

2338 2238 786 19856 330nF 16V 0603

2409 4822 051 30008 Jumper 0603

2410 3198 017 44740 470nF 10V 0603

2411 4822 126 14585 100nF 10% 50V

2420 4822 051 30008 Jumper 0603

f

3300 4822 052 10109 10Ω 5% 0.33W

3301 4822 053 12103 10K00 5% 3W

3302 4822 051 30681 680Ω 5% 0.062W

Spare Parts List EN 113A02E 10.

3303 4822 051 30682 6.8kΩ 5% 0.062W

3304 4822 051 10102 1kΩ 2% 0.25W

3306 4822 117 13608 4.7Ω 5% 0603 0.62W

3307 4822 051 30109 10Ω 5% 0.062W

3308 4822 051 30563 56kΩ 5% 0.062W

3310 4822 051 10102 1kΩ 2% 0.25W

3311 4822 051 30181 180Ω 5% 0.062W

3312 4822 051 30222 2.2kΩ 5% 0.062W

3316 4822 051 30563 56kΩ 5% 0.062W

3318 4822 117 12971 15Ω 5% 0.62W 0603

3319 4822 051 30102 1kΩ 5% 0.062W

3323 4822 050 24708 4.7Ω 1% 0.6W

3324 4822 051 30221 220Ω 5% 0.062W

3329 4822 050 24708 4.7Ω 1% 0.6W

3334 4822 050 11002 1kΩ 1% 0.4W

3335 4822 051 30271 270Ω 5% 0.062W

3336 4822 051 30271 270Ω 5% 0.062W

3337 4822 051 30271 270Ω 5% 0.062W

3338 3198 013 01020 1kΩ 2% 0.5W

3339 3198 013 01020 1kΩ 2% 0.5W

3340 3198 013 01020 1kΩ 2% 0.5W

3341 2306 207 03151 150Ω 5% 0.5W

3342 4822 116 83883 470Ω 5% 0.5W

3345 4822 116 52191 33Ω 5% 0.5W

3347 3198 013 01520 1.5kΩ 2% 0.5W

3349 3198 013 01020 1kΩ 2% 0.5W

3350 4822 116 83883 470Ω 5% 0.5W

3351 4822 116 83883 470Ω 5% 0.5W

3352 4822 116 83883 470Ω 5% 0.5W

3354 4822 051 30222 2.2kΩ 5% 0.062W

3355 4822 117 13608 4.7Ω 5% 0603 0.62W

3356 4822 051 10102 1kΩ 2% 0.25W

3357 4822 117 13608 4.7Ω 5% 0603 0.62W

3370 4822 117 13016 VDR 1mA/50V

3371 4822 051 30472 4.7kΩ 5% 0.062W

3401 4822 116 52175 100Ω 5% 0.5W

3403 4822 052 11228 2R20 5% 0,5W

3404 4822 052 11228 2R20 5% 0,5W

3410 4822 051 30103 10kΩ 5% 0.062W

3411 4822 051 30103 10kΩ 5% 0.062W

3412 2322 750 61509 15Ω 5% 1206 fusible

3413 4822 051 30181 180Ω 5% 0.062W

3414 4822 051 30109 10Ω 5% 0.062W

3417 4822 051 30109 10Ω 5% 0.062W

3418 4822 051 30181 180Ω 5% 0.062W

3420 4822 051 30008 Jumper 0603

3427 4822 051 30008 Jumper 0603

3999 4822 051 30152 1.5kΩ 5% 0.062W

9402 4822 051 20008 Jumper 0805

9405 4822 051 30008 Jumper 0603

b

5300 3104 308 20571 Transf. S13974-03

5400 4822 157 11869 33µH 10%

5401 4822 157 71334 0.68µH

d

6300 4822 130 83757 BAS216

6301 4822 051 20008 Jumper 0805

6305 9340 553 52115 BAS321

6306 9340 553 52115 BAS321

6307 9340 553 52115 BAS321

6310 4822 130 11397 BAS316

6311 4822 130 11397 BAS316

6312 4822 130 11397 BAS316

6313 4822 130 11397 BAS316

6314 4822 130 11397 BAS316

ce

7300 5322 130 42718 BFS20

7301 5322 130 42718 BFS20

7302 5322 130 62804 BCP53

7303 5322 130 63033 BCP56

7304 4822 130 60383 BF824

7307 9352 561 40112 TDA6108

7308 5322 130 60159 BC846B

DC Shift Panel [G]

Various

0317 4822 265 20723 Connector 2p m

0318 4822 265 20723 Connector 2p m

1430 2422 086 10581 Fuse 400mA 65V

8317 3104 311 01421 Cable 2p3/220/2p3 Wh

g

2430 4822 122 31177 470pF 10% 500V

2431 4822 122 31177 470pF 10% 500V

b

5430 3128 138 38911 DC-shift coil CU15

d

6432 9340 317 00133 BYD33V

6433 9340 317 00133 BYD33V

DAF + 2nd order [I]

Various

0034 3104 304 23041 DAF bracket EMGS

1417 4822 265 20723 Connector 2p m

1418 2422 025 16374 Connector 2p m

1419 4822 265 20723 Connector 2p m

1497 4822 267 10973 Connector 1p m

8418 3104 311 01951 Cable 2p3/560/2p4 Bk

g

2800 2222 375 90498 470pF 5% 2kV

2821 2222 479 90166 68nF 5% 400V

2890 2222 375 90276 220pF 5% 2kV

f

3898 4822 116 21211 VDR 420V

3899 4822 116 21211 VDR 420V

b

5800 2422 531 02437 Transformer S21975-03

5801 2422 531 02435 Transformer C948-02

5801 8228 001 34391 Driver Transformer CU15

Front Interface Panel [J]

Various

0157 3104 311 02421 Cable 5p/480/5p

0177 3104 311 03011 Cable 2p/340/2p Bk

0201 2422 025 16268 Connector 2p m

0202 2422 025 16268 Connector 2p m

0203 2422 025 06353 Connector 5p m

1910 9322 127 54667 TSOP1836UH1

1951 2422 128 02972 Mains switch

g

2930 4822 124 41584 100µF 20% 10V

f

3957 4822 053 21335 3.3MΩ 5% 0.5W

3966 4822 053 21335 3.3MΩ 5% 0.5W

3978 4822 051 30008 Jumper 0603

3981 4822 051 30681 680Ω 5% 0.062W

3982 4822 116 52219 330Ω 5% 0.5W

4903 4822 051 30008 Jumper 0603

d

6901 9322 050 99682 LTL-10224WHCR

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