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Published by BB 0564 TV Service Printed in the Netherlands Subject to modification EN 3122 785 15040
©Copyright 2005 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
ES1EAA
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Contents Page Contents Page1. Technical Specifications, Connections, and Chassis
Overview 22. Safety Instructions, Warnings, and Notes 43. Directions for Use 74. Mechanical Instructions 85. Service Modes, Error Codes, and Fault Finding 106. Block Diagrams, Testpoint Overviews, and
WaveformsWiring Diagram 15Block Diagram LSP Supply and Deflection 16Testpoint Overview LSP 17Block Diagram 1 Audio & Video 18Block Diagram 2 Audio & Video 19Block Diagram 3 Audio & Video 20Testpoint Overview SSB 21I2C Overview 22Supply Lines Overview 23
7. Circuit Diagrams and PWB Layouts Diagram PWBLSP: Power Supply (A1)24 31-36LSP: Deflection (A2)25 31-36LSP: Class D Audio Amplifier (Res) (A3)26 31-36LSP: Audio Amplifier (A4)27 31-36LSP: Tuner IF (A5)28 31-36LSP: Interfacing (A6)29 31-36LSP: SCART I/O (A7)30 31-36SSB: If & SAW Filter (B1)37 53-62SSB: Video Source Selection & Data Link (B2)38 53-62SSB: Audio Source Select (B3)39 53-62SSB: MPIF-Supply, E/W, & Control (B4)40 53-62SSB: Video Decoder (B5)41 53-62SSB: Feature Box (B6)42 53-62SSB: RGB Processing (B7)43 53-62SSB: Sync & Deflection Processing (B8)44 53-62SSB: Protection (B9)45 53-62
SSB: Audio Processing (B10)46 53-62SSB: Control (B11)47 53-62SSB: Control-Memory Interface (EBIU) (B12)48 53-62SSB: Control-Memory Interface (SDRAM) (B13)49 53-62SSB: ADOC Supply (B14)50 53-62SSB: Low Voltage Supply ADOC (B15)51 53-62SSB: Connector Interface (B18)52 53-62Side I/O Panel (FL9) (D)63 64Side I/O Panel (SL5/PV2) (D)65 66Front Control Panel (E)67 68Top Control Panel (PV2) (E)69 70Top Control Panel (FL9) (E)71 72CRT Panel (F)73 74Mains Switch Panel (FL9) (M)75 76Mains Switch Panel (SL5) (M)77 78Front Interface Panel (PV2) (Q1)79 80
8. Alignments 819. Circuit Descriptions, Abbreviation List, and IC Data
Sheets 88Abbreviation List 93IC Data Sheets 96
10. Spare Parts List 9711. Revision List 103
Technical Specifications, Connections, and Chassis OverviewEN 2 ES1E1.
1. Technical Specifications, Connections, and Chassis Overview
Index of this chapter:1.1 Technical Specifications1.2 Connection Overview1.3 Chassis Overview
Note: Data 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, DV, RFScreen size : 28” (70 cm), 4:3
: 28” (70 cm), 16:9: 29” (72 cm), 4:3: 32” (82 cm), 16:9
Tuning system : PLLTV Colour systems : PAL B/G, D/K, I
: SECAM B/G, D/K, L/L’Video playback : NTSC M/N 3.58, 4.43
: PAL B/G: SECAM L/L’
Presets/channels : 100/125 presetsTuner bands : VHF
: UHF: S-band: Hyper-band
1.1.2 Sound
Sound systems : FM-mono: AM-mono: FM-stereo B/G: NICAM B/G, D/K, I, L: AV Stereo
Maximum power (WRMS) : 2 x 10
1.1.3 Miscellaneous
Power supply:- Mains voltage (VAC) : 230
- Mains frequency (Hz) : 50 / 60
Ambient conditions:- Temperature range (°C) : -5 to +40- Maximum humidity : 95% R.H.
Power consumption- Normal operation (W) : ≈ 160- Stand-by (W) : < 1
Dimensions (WxHxD cm) : ?x?x?
Weight (kg) : ?
1.2 Connection Overview
Note: The following connector colour abbreviations are used (acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, and Ye= Yellow.
1.2.1 Front / Side Connections
Figure 1-1 Front and top control, side I/O connections
Cinch: Video CVBS - In, Audio - InYe - Video CVBS 1 VPP / 75 ohm Wh - Audio L 0.5 VRMS / 10 kohm
Rd - Audio R 0.5 VRMS / 10 kohm
SVHS (Hosiden): Video Y/C - In1 - Ground Y Gnd
2 - Ground C Gnd
3 - Video Y 1 VPP / 75 ohm 4 - Video C 0.3 VPPP / 75 ohm
Mini Jack: Audio Headphone - OutBk - Head phone 32 - 600 ohm / 10 mW
1.2.2 Rear Connections
Figure 1-2 Rear connections
Aerial - In- - IEC-type (EU) Coax, 75 ohm
Cinch: Video CVBS - Out, Audio - OutYe - Video CVBS 1 VPP / 75 ohm Wh - Audio L 0.5 VRMS /10 kohm
Rd - Audio R 0.5 VRMS / 10 kohm
Service Connector (ComPair)1 - SDA-S I2C Data (0 - 5 V)
2 - SCL-S I2C Clock (0 - 5 V)
3 - Ground Gnd
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EXTERNAL 2
EXTERNAL 1
Technical Specifications, Connections, and Chassis Overview EN 3ES1E 1.
EXT1: Video RGB - In, CVBS - In/Out, Audio - In/Out
Figure 1-3 SCART connector
1 - Audio R 0.5 VRMS / 1 kohm 2 - Audio R 0.5 VRMS / 10 kohm
3 - Audio L 0.5 VRMS / 1 kohm
4 - Ground Audio Gnd 5 - Ground Blue Gnd
6 - Audio L 0.5 VRMS / 10 kohm
7 - Video Blue/U 0.7 VPP / 75 ohm 8 - Function Select 0 - 2 V: INT
4.5 - 7 V: EXT 16:99.5 - 12 V: EXT 4:3
9 - Ground Green Gnd
10 - n.c. 11 - Video Green/Y 0.7 VPP / 75 ohm 12 - n.c. 13 - Ground Red Gnd
14 - Ground FBL Gnd 15 - Video Red/V 0.7 VPP / 75 ohm
16 - Status/FBL 0 - 0.4 V: INT1 - 3 V: EXT / 75 ohm
17 - Ground Video Gnd
18 - Ground Video Gnd
19 - Video CVBS 1 VPP / 75 ohm 20 - Video CVBS 1 VPP / 75 ohm
21 - Shield Gnd
EXT2: Video YC - In, CVBS - In/Out, Audio - In/Out
Figure 1-4 SCART connector
1 - Audio R 0.5 VRMS / 1 kohm 2 - Audio R 0.5 VRMS / 10 kohm
3 - Audio L 0.5 VRMS / 1 kohm
4 - Ground Audio Gnd 5 - Ground Blue Gnd
6 - Audio L 0.5 VRMS / 10 kohm
7 - C-FRONT 0.7 VPP / 75 ohm 8 - Function Select 0 - 2 V: INT
4.5 - 7 V: EXT 16:99.5 - 12 V: EXT 4:3
9 - Ground Green Gnd
10 - Easylink P50 0 - 5 V / 4.7 kohm
11 - n.c. 12 - n.c. 13 - Ground Red Gnd
14 - Ground Data Gnd 15 - C 0.7 VPP / 75 ohm
16 - n.c. 17 - Ground Video Gnd 18 - Ground FBL Gnd
19 - Video CVBS 1 VPP / 75 ohm
20 - Video CVBS/Y 1 VPP / 75 ohm 21 - Shield Gnd
1.3 Chassis Overview
Figure 1-5 PWB location
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LARGE SIGNAL PANEL ASMALL SIGNAL BOARDB
CRT/SCAVEM PANELF
FRONT INTERFACE PANEL (PV2) Q
MAINS SWITCH PANEL (FL9 & SL5) M
TOP CONTROL PANEL ESIDE I/O PANELD
Safety Instructions, Warnings, and NotesEN 4 ES1E2.
2. Safety Instructions, Warnings, and Notes
Index of this chapter:2.1 Safety Instructions2.2 Maintenance Instructions2.3 Warnings2.4 Notes
2.1 Safety Instructions
Safety regulations require the following during a repair:• Connect the set to the Mains (AC Power) via an isolation
transformer (> 800 VA).• Replace safety components, indicated by the symbol ,
only by components identical to the original ones. Any other component substitution (other than original type) may increase risk of fire or electrical shock hazard.
• Wear safety goggles when you replace the CRT. Safety regulations require that after a repair, the set must be returned in its original condition. Pay in particular attention to the following points: • General repair instruction: as a strict precaution, we advise
you to re-solder the solder connections through which the horizontal deflection current flows. In particular this is valid for the:1. Pins of the line output transformer (LOT).2. Fly-back capacitor(s).3. S-correction capacitor(s).4. Line output transistor.5. Pins of the connector with wires to the deflection coil.6. Other components through which the deflection current
flows.Note: This re-soldering is advised to prevent bad connections due to metal fatigue in solder connections, and is therefore only necessary for television sets more than two years old.• Route the wire trees and EHT cable correctly and secure
them with the mounted cable clamps.• Check the insulation of the Mains (AC Power) lead for
external damage. • Check the strain relief of the mains (AC Power) cord for
proper function, to prevent the cord from touching the CRT, hot components, or heat sinks.
• Check the electrical DC resistance between the Mains (AC Power) plug and the secondary side (only for sets that have a Mains (AC Power) isolated power supply): 1. Unplug the Mains (AC Power) cord and connect a wire
between the two pins of the Mains (AC Power) plug. 2. Set the Mains (AC Power) switch to the "on" position
(keep the Mains (AC Power) cord unplugged!). 3. Measure the resistance value between the pins of the
Mains (AC Power) plug and the metal shielding of the tuner or the aerial connection on the set. The reading should be between 4.5 Mohm and 12 Mohm.
4. Switch "off" the set, and remove the wire between the two pins of the Mains (AC Power) plug.
• Check the cabinet for defects, to prevent touching of any inner parts by the customer.
2.2 Maintenance Instructions
We recommend a maintenance inspection carried out by qualified service personnel. The interval depends on the usage conditions:• When a customer uses the set under normal
circumstances, for example in a living room, the recommended interval is three to five years.
• When a customer uses the set in an environment with higher dust, grease, or moisture levels, for example in a kitchen, the recommended interval is one year.
• The maintenance inspection includes the following actions:1. Perform the “general repair instruction” noted above.
2. Clean the power supply and deflection circuitry on the chassis.
3. Clean the picture tube panel and the neck of the picture tube.
2.3 Warnings
• In order to prevent damage to ICs and transistors, avoid all high voltage flashovers. In order to prevent damage to the picture tube, use the method shown in figure “Discharge picture tube”, to discharge the picture tube. Use a high voltage probe and a multi-meter (position VDC). Discharge until the meter reading is 0 V (after approx. 30 s).
Figure 2-1 Discharge picture tube
• All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD ). Careless handling during repair can reduce life drastically. Make sure that, during repair, you are connected with the same potential as the mass of the set by a wristband with resistance. Keep components and tools also at this same potential. Available ESD protection equipment: – Complete kit ESD3 (small tablemat, wristband,
connection box, extension cable and earth cable) 4822 310 10671.
– Wristband tester 4822 344 13999. • Be careful during measurements in the high voltage
section. • Never replace modules or other components while the unit
is switched "on". • When you align the set, use plastic rather than metal tools.
This will prevent any short circuits and prevents circuits from becoming unstable.
2.4 Notes
2.4.1 General
• Measure the voltages and waveforms with regard to the chassis (= tuner) ground (), or hot ground (), depending on the tested area of circuitry. The voltages and waveforms shown in the diagrams are indicative. Measure them in the Service Default Mode (see chapter 5) with a colour bar signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and picture carrier at 475.25 MHz for PAL, or 61.25 MHz for NTSC (channel 3).
• Where necessary, measure the waveforms and voltages with () and without () aerial signal. Measure the voltages in the power supply section both in normal operation () and in stand-by ( ). These values are indicated by means of the appropriate symbols.
• The semiconductors indicated in the circuit diagram and in the parts lists, are interchangeable per position with the semiconductors in the unit, irrespective of the type indication on these semiconductors.
V
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Safety Instructions, Warnings, and Notes EN 5ES1E 2.
• Manufactured under license from Dolby Laboratories. “Dolby”, “Pro Logic” and the “double-D symbol”, are trademarks of Dolby Laboratories.
2.4.2 Schematic Notes
• All resistor values are in ohms, and the value multiplier is often used to indicate the decimal point location (e.g. 2K2 indicates 2.2 kohm).
• Resistor values with no multiplier may be indicated with either an "E" or an "R" (e.g. 220E or 220R indicates 220 ohm).
• All capacitor values are given in micro-farads (µ= x10-6), nano-farads (n= x10-9), or pico-farads (p= x10-12).
• Capacitor values may also use the value multiplier as the decimal point indication (e.g. 2p2 indicates 2.2 pF).
• An "asterisk" (*) indicates component usage varies. Refer to the diversity tables for the correct values.
• The correct component values are listed in the Spare Parts List. Therefore, always check this list when there is any doubt.
2.4.3 Rework on BGA (Ball Grid Array) ICs
GeneralAlthough (LF)BGA assembly yields are very high, there may still be a requirement for component rework. By rework, we mean the process of removing the component from the PWB and replacing it with a new component. If an (LF)BGA is removed from a PWB, the solder balls of the component are deformed drastically so the removed (LF)BGA has to be discarded.
Device RemovalAs is the case with any component that is being removed, it is essential when removing an (LF)BGA, that the board, tracks, solder lands, or surrounding components are not damaged. To remove an (LF)BGA, the board must be uniformly heated to a temperature close to the reflow soldering temperature. A uniform temperature reduces the risk of warping the PWB.To do this, we recommend that the board is heated until it is certain that all the joints are molten. Then carefully pull the component off the board with a vacuum nozzle. For the appropriate temperature profiles, see the IC data sheet.
Area PreparationWhen the component has been removed, the vacant IC area must be cleaned before replacing the (LF)BGA. Removing an IC often leaves varying amounts of solder on the mounting lands. This excessive solder can be removed with either a solder sucker or solder wick. The remaining flux can be removed with a brush and cleaning agent. After the board is properly cleaned and inspected, apply flux on the solder lands and on the connection balls of the (LF)BGA. Note: Do not apply solder paste, as this has been shown to result in problems during re-soldering.
Device ReplacementThe last step in the repair process is to solder the new component on the board. Ideally, the (LF)BGA should be aligned under a microscope or magnifying glass. If this is not possible, try to align the (LF)BGA with any board markers.So as not to damage neighbouring components, it may be necessary to reduce some temperatures and times.
More InformationFor more information on how to handle BGA devices, visit this URL: www.atyourservice.ce.philips.com (needs subscription, not available for all regions). After login, select “Magazine”, then go to “Workshop Information”. Here you will find Information on how to deal with BGA-ICs.
2.4.4 Lead-free Solder
Philips CE is producing lead-free sets (PBF) from 1.1.2005 onwards.
Identification: The bottom line of a type plate gives a 14-digit serial number. Digits 5 and 6 refer to the production year, digits 7 and 8 refer to production week (in example below it is 1991 week 18).
Figure 2-2 Serial number example
Regardless of the special lead-free logo (which is not always indicated), one must treat all sets from this date onwards according to the rules as described below.
Figure 2-3 Lead-free logo
Due to lead-free technology some rules have to be respected by the workshop during a repair:• Use only lead-free soldering tin Philips SAC305 with order
code 0622 149 00106. If lead-free solder paste is required, please contact the manufacturer of your soldering equipment. In general, use of solder paste within workshops should be avoided because paste is not easy to store and to handle.
• Use only adequate solder tools applicable for lead-free soldering tin. The solder tool must be able:– To reach a solder-tip temperature of at least 400°C.– To stabilise the adjusted temperature at the solder-tip.– To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature of around 360°C - 380°C is reached and stabilised at the solder joint. Heating time of the solder-joint should not exceed ~ 4 sec. Avoid temperatures above 400°C, otherwise wear-out of tips will increase drastically and flux-fluid will be destroyed. To avoid wear-out of tips, switch “off” unused equipment or reduce heat.
• Mix of lead-free soldering tin/parts with leaded soldering tin/parts is possible but PHILIPS recommends strongly to avoid mixed regimes. If this cannot be avoided, carefully clean the solder-joint from old tin and re-solder with new tin.
• Use only original spare-parts listed in the Service-Manuals. Not listed standard material (commodities) has to be purchased at external companies.
• Special information for lead-free BGA ICs: these ICs will be delivered in so-called "dry-packaging" to protect the IC against moisture. This packaging may only be opened shortly before it is used (soldered). Otherwise the body of the IC gets "wet" inside and during the heating time the structure of the IC will be destroyed due to high (steam-) pressure inside the body. If the packaging was opened before usage, the IC has to be heated up for some hours (around 90°C) for drying (think of ESD-protection!).Do not re-use BGAs at all!
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Safety Instructions, Warnings, and NotesEN 6 ES1E2.
• For sets produced before 1.1.2005, containing leaded soldering tin and components, all needed spare parts will be available till the end of the service period. For the repair of such sets nothing changes.
In case of doubt whether the board is lead-free or not (or with mixed technologies), you can use the following method:• Always use the highest temperature to solder, when using
SAC305 (see also instructions below).• De-solder thoroughly (clean solder joints to avoid the
mixing of two alloys).Caution: For BGA-ICs, you must use the correct temperature-profile, which is coupled to the 12NC. For an overview of these profiles, visit the website www.atyourservice.ce.philips.com (needs subscription, but is not available for all regions).You will find this and more technical information within the "Magazine", chapter "Workshop information".For additional questions please contact your local repair help desk.
2.4.5 Practical Service Precautions
• It makes sense to avoid exposure to electrical shock. While some sources are expected to have a possible dangerous impact, others of quite high potential are of limited current and are sometimes held in less regard.
• Always respect voltages. While some may not be dangerous in themselves, they can cause unexpected reactions that are best avoided. Before reaching into a powered TV set, it is best to test the high voltage insulation. It is easy to do, and is a good service precaution.
Directions for Use EN 7ES1E 3.
3. Directions for Use
You can download this information from the following websites:http://www.philips.com/supporthttp://www.p4c.philips.com
Mechanical InstructionsEN 8 ES1E4.
4. Mechanical Instructions
Index of this chapter:4.1 Service Connector (for ComPair)4.2 Set Disassembly4.3 Service Positions4.4 Assy / Board Removal4.5 Set Re-assembly Note: Figures below can deviate slightly from the actual situation, due to the different set executions.
4.1 Service Connector (for ComPair)
For service diagnostics with ComPair, it is not necessary to disassemble the set. You only have to connect the ComPair interface box, via the appropriate cable, to the service connector (on the rear of the set, see figure 1-2), and start the program (see also chapter 5 "Service Modes, Error Codes, and Fault Finding ").
4.2 Set Disassembly
Follow the disassemble instructions in described order.
4.2.1 Rear Cover Removal
Warning: disconnect the mains power cord before you remove the rear cover. 1. Remove all the fixation screws of the rear cover. 2. Now the rear cover can be removed.
4.3 Service Positions
This chassis has several predefined service positions, for better accessibility. They are explained below in more detail.
4.3.1 Large Signal Panel (LSP)
Component Side LSPFor better accessibility of the LSP, do the following (see Figure “Service position 1”):1. Simultanuously do the following: a) pull the two plastic
locking handles at the mid left and mid right side of the bracket gently backwards to unlock the bracket, and b) loosen the bracket from the bottom tray, by pulling it backwards. N.B.: You do not need to pull the other two locking handles backwards.
2. Remove the LSP-bracket from the bottom tray by lifting it upwards.
3. Hook the bracket in the first row of fixation holes of the bottom tray. In other words, reposition the bracket from [1] to [2].
Figure 4-1 Service position 1
Solder Side LSPTo get access to the bottom side (solder side) of the LSP, do the following (see figure 4-1):1. Remove the connector of the mains cable (coming from the
mains switch-module) from the LSP.2. Remove the cable (connector) from the side I/O panel.3. Release some wiring from their fixation clamps, in order to
get room for repositioning the LSP.4. Flip the LSP 90 degrees clockwise [2], and place it in the
fixation hole at the left side of the bottom tray [3].5. Push the LSP forward to fix it. (Alternatively, the LSP may
also be placed on your work bench without being positioned in its fixation hole, or it may even be removed from the bracket for better accessibility, see “Assy / Board Removal: Large Signal Panel (LSP)” on the next pages.)
Figure 4-2 Service position 2
4.3.2 Small Signal Board (SSB)
In fact, there is no predefined service position for the SSB. Most test points are located on the A-side (side that is facing the tuner). If you have to replace ICs, you must take the complete SSB module out of the SIMM-connector. Notes: • For better access to the SSB, it is possible to order an
“extension tool” with cables. You can use this service extension tool to connect a Small Signal Board (SSB) of an ES1E, A02, A10, or EMG (EMx) chassis, via two “IDE” cables to the SIMM connector in the set. In this way, you can service the SSB more easily outside the TV set. You can order this tool under 12nc: 9965 000 14526.
• If necessary for the measurement, you can put the LSP in “service position 2” (as described above).
4.4 Assy / Board Removal
Sometimes, it can be necessary to swap a complete assy or Printed Wiring Board (PWB). How that can be done is explained below.
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Mechanical Instructions EN 9ES1E 4.
4.4.1 Top Control Assy/Panel
Figure 4-3 Top control panel
1. Remove the two fixation screws that hold the panel.2. Pull the board backwards (i.e., release it from the front
hinge). 3. The board can be lifted out of the bracket after releasing
the two fixation clamps at the connector side.
4.4.2 Side I/O Assy and Panel
Figure 4-4 Side-I/O panel
1. The complete side I/O-assembly can be removed by unscrewing the two fixation screws.
2. The board can be lifted out of the bracket after releasing the two fixation clamps.
4.4.3 Mains Switch Assy/Panel
4.4.4 Accessing the Mains Switch/LED panel
Figure 4-5 Mains Switch/LED panel
1. Release the two fixation clamps (1) by pushing them upward.
2. At the same time, the complete assy must be pulled backward (2).
3. If the board has to be removed, release the two clamps at the sides of the bracket and lift the panel out (3).
4.4.5 Small Signal Board (SSB)
Figure 4-6 SSB removal
1. Push the top of the SSB towards the LOT [1]. 2. Due to the pressure, the two metal clamps at both sides of
the SIMM-connector will release [2].3. Take the complete SSB out [3].
4.4.6 Large Signal Panel (LSP)
1. Remove the SSB (see paragraph “Small Signal Board (SSB)” above).
2. Remove the two fixation screws from the large plastic bracket on the right hand side of the LSP (above the EHT shield), and remove the bracket, after releasing the EHT cable and the CRT cables from the fixation clamps on this bracket.
3. Disconnect the other cables (loudspeaker, mains, etc.) from the LSP, and release some cables from their fixation clamps.
4. Press the fixation clamp on the left front side of the LSP-bracket (close to the white arrow/loudspeaker connector) to unlock the LSP, and tilt it upwards (the board hinges at the right side).
5. Remove the board from the bracket by unhooking it from its fixation clamps on the right side.
4.5 Set Re-assembly
To re-assemble the whole set, do all processes in reverse order. Be sure that, before the rear cover is mounted:• The mains cord is postioned correctly in its guiding
brackets (make sure that the strain relief will function correctly!).
• All wires/cables are returned in their original positions. This is very important, in view of the “hot” and “EHT” areas of the set.
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Service Modes, Error Codes, and Fault FindingEN 10 ES1E5.
5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:5.1 Test Points5.2 Service Modes5.3 Problems and Solving Tips (related to CSM)5.4 ComPair5.5 Error Codes5.6 The Blinking LED Procedure5.7 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 for measurement purposes.• 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 SDMUse 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. 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: A2EU04-5.10 = 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 between the full SDM screen or a screen with only the text "SDM" displayed on it. This mode is useful when performing measurements, then the OSD info will not generate interference.
How to Exit SDMUse 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.
Specifications• Operating hours counter.• Software version.
Service Modes, Error Codes, and Fault Finding EN 11ES1E 5.
• Option settings.• Error buffer reading and erasing.• Software alignments.• Disable service unfriendly modes.
How to Activate SAMUse 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. 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 ID. Displays the software version of the ROM example: A2EU04-5.10 = 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”).
• OPTIONS. Extra features for Service.• CLEAR ERRORS. When you press the “OK” button, the
error buffer is reset.• AKB. Disable (off) or enable (on) the "black current loop"
(AKB= Auto Kine Bias). For Vg2 alignment.• 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 SAMUse 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)
PurposeWhen 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 CSMUse 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 NavigateBy means of the “CURSOR-DOWN/UP” knob on the RC-transmitter, you can navigate through the menus.
Contents of CSMThe 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. SET TYPE. Type/model number (if present) according to
the Philips standard (example: 28PW8720/12).2. SOFTWARE. Software version AAABBC-X.YY.3. HOURS ON. Operating hours (in hexadecimal code).4. CODE1. Shows the contents of the error buffer (the word
“error” may not be used on this screen, instead “code1” and “code2” is used).
5. CODE2. Idem.6. OPTION1. Option code information.7. OPTION2. Idem.8. OPTION3. Idem.9. OPTION4. Idem.10. SIGNAL. "Ident" signal present or not present (VID status
bit in MPIF) on selected source.11. TIMER. Timer is activated (in "FEATURE" menu) or
deactivated. 12. CHANNEL. Child Lock (if present) is activated or
deactivated (i.e. when local keyboard is locked). 13. PRESET. (If present). Current channel is defined as
skipped or non-preferred.14. HOTELMODE. Shows if the HOTEL mode is activated or
deactivated (only for Europe and AP).15. SOURCE. Selected source before entry of CSM; XXX
(channel no.), external source name (i.e. AV1, CVI, EXT1, etc...).
Service Modes, Error Codes, and Fault FindingEN 12 ES1E5.
16. SOUND. Selected SOUND mode; "XX"= MONO, NICAM, STEREO, L1 (Language 1), L2 (Language 2), SAP, VIRTUAL, or DIGITAL prior entry to CSM.
17. VOLUME. Volume level before entry of CSM (typ. 00..100).18. BALANCE. Balance level before entry of CSM (typ. -
50..50).19. BRIGHTNESS. Brightness level before entry of CSM (typ.
00..100).20. COLOUR. Colour level before entry of CSM (typ. 00..100).21. CONTRAST. Contrast level before entry of CSM (typ.
00..100).22. HUE (if present). Hue level before entry of CSM (typ. -
50..100).
How to exit CSMUse 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: The problems described below 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 Dark1. 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 Bright1. 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 (> 50) or the value of line CONTRAST is high (> 50), decrease the “Brightness” or the “Contrast” value.
White Line Around Picture Elements and Text1. 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 PictureCheck in CSM line 10 (SIGNAL). In case this line shows NO SIGNAL, check the aerial cable/aerial system.
Blue PictureNo proper signal is received. Check the aerial cable/aerial system.
Blue Picture and/or Unstable PictureA scrambled or coded signal is received.
Black and White PictureCheck 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 Picture1. 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 Enough1. 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 SpeakerCheck 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 SpeakerCheck 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. The ComPair faultfinding program is able to determine the problem of the defective television. ComPair can gather diagnostic information in two ways:• Automatically (by communicating with the television set):
ComPair can automatically read out the contents of the
Service Modes, Error Codes, and Fault Finding EN 13ES1E 5.
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 and from the micro controller of the television set. 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): This option is helpful, because automatic diagnosis is only possible if the micro controller of the television is working correctly (also, the diagnostic possibilities of automatic diagnosis are more limited). When you choose manual diagnosis, 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 by 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. a piece of 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. Besides 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 How To Order
ComPair order codes:• 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
The function of error codes is to indicate failures in the TV set. In principle a unique error code 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).
Service Modes, Error Codes, and Fault FindingEN 14 ES1E5.
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 (by blinking) 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
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 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.
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 Highbeam protection
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 1232 I2C failure UV13xx
17 3D Y/C 7823 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 status bit in ADOC)
Block Diagrams, Testpoint Overviews, and Waveforms 15ES1E AA 6.
6. Block Diagrams, Testpoint Overviews, and Waveforms
Wiring Diagram
F_15040_054.eps250405
SIDE I/O PANELD
0240
CRT PANEL(COMPONENT VIEW)F
TOP CONTROL PANELE
A
B
1340
RED
WHITE
EHT
1361
1336
1335
1351
HEADPHONE
SVHS
RIGHT (RED)
LEFT (WHITE)
CVBS (YELLOW)
0215
0203
1951
1502
1505
1911
1404
1620
1401
TU
NE
R
1943Compair
connector
LOT
FRONTINTERFACEPANEL
Q1
MMAINS
SWITCH
SPEAKER LSPEAKER R
CRT PANELF
SCAVEMCOIL
AQUADAG
DEGAUSSING COIL
ROTATINGCOIL
CRT
LSP(LARGE SIGNAL PANEL)
1645
TU
NE
R
0201
MAINSCORD
0202
CRTSOCKET
7p
3p13822p
7p
3p
2p
2p
2p
80p
SCART2p
CINCH
2p
7p
5p
2p
3p
2p2p
11p
4p
3p
1624
5p
1629
5p
1452
3p
11p
SSBSMALL SIGNAL BOARDB
16ES1E AA 6.Block Diagrams, Testpoint Overviews, and Waveforms
Block Diagram LSP Supply and Deflection
POWER SUPPLY1504
24
3
9
8
4
17
18
13
145
6
3
2
1
F508
3575
3576
6511
7517
2511
A1
FRONT INTERFACEM Q1
DegaussingCoil
1503
5512
7541
7511TEA1507
DRAIN
DRIVER
SENSE
DEMAG
CONTROLIC
CTRL
ENERGIZINGCIRCUIT(optional)
AC
DC
65005500 :5502
10
11,12
1
2
4
3
1500
T4E
2505
0201
105110311951
MAINSSWITCH
+Vaudio
+3V3
F563
F561
-Vaudio
+Vaudio
+9VA
5551
5552
5561 6562
5562 6563
Vbatt
A6STANDBY
7571
REFERENCECIRCUIT
7573
STANDBYCIRCUIT
7513TCET1103
2Vcc
3513
3522
3514
3516
751214
11
9
35177
D
SG
I511
1505
02021
2
1
2
3518
3571
or
1
2 3523
VDC
3519
6551
6
4
14
8
9
10
5
2
1
3545
3544
5504
12
11
1
2
3
4
1532
A4STANDBY
7542
REFERENCECIRCUIT
STANDBYCIRCUIT
7516TCET1103
VDC
3536
3526
7510
SUPPLYCONTROL
14
7525
11
7
9
2
6
HOT GROUND COLD GROUND
3598
7532
3527
6581
13
5505 +9VA6536
5564 +5V26535
7545
+5V
3546 STANDBYCIRCUIT
7535
3537
+Vaux
6469
F_15040_060.eps290405
LINE + FRAME DEFLECTION
LINE
FRAME
A2
F453
SVM_ROT
-14V
VideoSupply
Vbatt
+5V
+12V_LOT
7405BU4508DX5402
LINEOUTPUTCIRCUIT
+E/W
CORR.
7404
14041
2
HOR.DEFL.COIL
14521
3
VER.DEFL.COIL
5450
3
1
FOCUS G2
EHT TOCRT
1401
7
6
5
4
3
10
7
B1
TO 1351
CRT
F
5
8
9
12
6461
6465
3471
3450
F459
F466
7455TDA4863J
7INP
6INN
5V-OUT
+13V
6452
6453 3458
11
6
3485
3456
Filament
EHTinfo
0230
32
34
167026
28
29
31
SYNC & DEFLECTION PROCESSINGB8
3350
3374
L1
R1
L3
R2
T2
7300-FADOC
3354
N3
HDROUT
VDRP
VDRN
EWP
HFB
EHT
HFB_XRAY_PROT
LINEDRIVE1
FRAMEDRIVE+
FRAMEDRIVE-
EW_DRIVE
INTERFACINGA6
34772477 HFB
+12V_LOT
Vbatt
EHTinfo
VideoSupply
Filament 2
1
HDRIVE
EW_DRIVE
EW_DRIVE
3358
+5V
3375
7361+5V
7365+8V
N2BCL
EHT-INFO
HFB_XRAY_PROT
HDRIVE
INN
INP
EW_DRIVE
EHT-INFO
3353
SSB CONNECTORINTERFACE
B18
7300-DADOC
EWVIN
EWIOUT
MPIF-SUPPLY, E/W &CONTROLB4
36
37
32
34
26
28
29
31
4GND
VP11 3
VP2
Block Diagrams, Testpoint Overviews, and Waveforms 17ES1E AA 6.
Testpoint Overview LSP
3139 123 5895.4 F_15040_010.eps
220305
F232 A8F233 A8F234 A9F235 A10F241 A10F242 A10F243 A10
F246 B8F247 A8F248 A8F249 A7F250 A6F401 D6F402 E7
F404 F8F416 G6F418 G7F419 G8F451 F9F452 G10F453 C7
F455 C7F456 G10F457 G10F458 D8F459 G7F462 F9F464 F6
F465 F6F466 D9F469 D9F472 C8F475 C8F476 D8F478 D9
F481 E9F482 C8F483 D8F500 D1F501 F2F502 E2F503 G1
F504 F1F506 G1F507 G1F508 F3F509 G4F535 C3F537 C5
F541 D3F542 D3F552 E5F561 D4F562 D5F563 D5F573 D6
F574 D4F575 F5F576 C4F578 C4F580 D6F581 C4F582 C3
F583 E5F620 C8F627 A5F628 A5F629 B8F630 B8F631 B8
F632 B8F672 A6F673 B8F674 C6F675 B6F676 B6F677 B9
F678 C6F679 C7F701 D9F702 D10F703 D10F704 D10F705 C9
F706 C10F708 C10F710 C10F711 B10F712 C10F713 C9F714 B10
F715 B9F716 B10F717 C10F718 B9F719 B10F720 B10F721 B9
F722 B10F723 B10F724 B10F901 B4F903 A4F904 B3F905 C3
F910 B3F911 B4F912 A5F913 B2F950 A5F951 B5F952 A4
F955 B4F956 C3F958 A5F959 A5I232 A9I239 A9I240 A9
I241 A6I242 A6I247 A6I248 B8I249 A7I253 A7I254 A7
I255 A7I256 B6I259 A7I260 A9I261 A9I402 G9I410 F10
I413 D6I414 C7I415 D7I418 G6I419 G6I420 E6I423 D7
I428 F7I432 E8I435 D8I436 D8I437 D6I438 D9I439 E8
I440 E8I442 E10I443 F9I445 D7I446 D7I447 D6I448 D6
I449 D6I450 F6I453 G9I455 F9I457 F8I458 F8I459 F9
I460 D8I462 G7I463 G10I464 F10I466 E8I468 E8I469 E9
I470 D8I473 E7I475 F9I476 D9I480 D9I481 D9I482 G10
I487 D7I488 G6I489 G7I490 D7I491 D7I492 E9I493 G10
I494 E8I495 D9I496 E7I497 F6I499 D7I500 F3I501 G3
I502 G2I503 G1I504 G1I506 F3I507 E2I509 F4I510 E3
I511 G5I512 E4I513 F5I514 F5I515 F5I516 G5I517 G5
I518 F5I519 G5I520 F6I521 G5I522 D6I523 F6I525 E3
I526 F3I527 G6I528 E4I529 D4I530 F3I531 E3I532 E3
I533 E4I534 F2I536 E3I537 E3I538 D4I539 D3I540 D3I542 D2I543 C3I544 E4I545 C3I546 F5I547 C4I548 F5I550 E3I551 E5I552 E5I553 F3I554 F3I555 E4I557 E2I558 D4I559 G2I560 F4I561 E4I562 E4I563 E2I564 F6I565 D4I566 D4I568 D3I569 D5I570 D5I571 E6I572 F1I573 D5I574 D6I575 E6I577 C4I578 E6I579 E5I580 D5I581 D4I582 G5I583 F1I586 E5I587 D4I588 C4I589 D5I590 D4I591 D4I592 D4I593 D4I596 D6I597 D5I599 D5I602 A9I603 C6I604 B7I605 C7I606 C6I608 C6I609 C9I610 B9I611 C9I612 A7I616 B8I621 A6I622 A6I623 A5I624 A5I625 A5I626 A5I627 C6I628 C6I629 C6I630 B6I631 C6I632 A8I633 B8I634 C7I635 A7I636 B8I637 B8I638 C8I639 C8I640 B7I650 C7I672 B8I674 A7I677 B7I678 B9I680 B7I685 B6I686 B6I687 B6I688 B7I689 B7I690 B7I691 A5I693 C7I694 C7I695 B7I696 A6I701 D9I702 D10I703 C9
I704 D10I705 C9I707 C10I708 C10I709 C9I710 C9I711 B9I712 B10I713 B10I714 B10I715 B10I716 B10I717 C10I719 D9I720 C9I721 D9I722 C10I723 B9I724 B9I725 B9I726 C9I727 A10I728 B10I729 A10I731 D9I732 D9I733 C9I734 C9I735 C9I736 B10I737 B9I738 C10I739 D10I740 C10I741 C10I901 B4I902 C2I903 A3I904 A3I908 A3I909 A3I913 A4I914 A4I915 B4I916 B4I918 B4I920 C4I921 A3I922 B3I924 B3I925 A3I926 B3I927 A3I928 B4I930 B4I934 B4I935 C3I936 A3I938 B3I941 A3 I943 A3I945 B4I948 A3I951 B5I952 B5I953 A5I954 B5I956 B4I957 B5I958 C5I959 B4I960 B5I962 B5I963 B4I964 C4I965 B5I967 C4
18ES1E AA 6.Block Diagrams, Testpoint Overviews, and Waveforms
Block Diagram 1 Audio & Video
A
SoundTraps
+5Vb
1232
+5V
SDA
SCL
0230
7,3 9
4 5 1
11 13
154849
SC
L0
SD
A0
1113
1114(1)
1112(2)
SEL-IF-LL
VIFINP
TUNER_AGC
107
110
120
116
7131
SIF_MAIN
TUNER
IF-TER
7100-C
7
7
7
8
8
8
QSS MixerAM Demod.
14108VIFINN
99
100SIFINP
SIFINN
105
3132AGC
6101
6102
3102
3101
+8VaLPF
2
3
2
3
2
3
SIF A/D
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
+
YUV
RGB
Source
Switch
CLAMP LPF
DataLink
2
Yyuv
U
V
CLAMP
LPFCLAMP
A
D
LPFDataLink
1
A
D
DataLink
3
CVBS-outA
STROBE1N
STROBE1P
DATA1N
DATA 1P
CVBS/Y prim
C prim
CVBS sec
Yyuv2Fh
SIFA/D
LR primDig
Yyuv2Fh
STROBE3N
STROBE3P
DATA3N
DATA 3P
STROBE2N
STROBE2P
DATA2N
DATA 2P
U,V
LPF
A
D
A
D
TimingCircuit
CLP primCLP 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-FRO NT-IN
C-FRONT-IN
YOUT-C OMB
COUT-COMB
R-SC1_V-IN
G-SC1-IN_Y-IN
B-SC1-IN_U-IN
70637100-B
MPIF VIDEO SWITCH
MPIF IF + QSS
19
60
61
63
62
50
51
53
54
55
56
57
58
46
45
7060
123
126
9
8
5
4
1
15
16
25
26
27
+5V49
64
CVBS_SC2_MON_OUT
STROBE1N
STROBE1P
DATA1N
DATA 1P
STROBE3N
STROBE3P
DATA3N
DATA 3P
STROBE2N
STROBE2P
DATA2N
DATA 2P
HV_PRIM
HV_SEC
Mono Sec.Dig.
+
LRprimA/D
MonosecA/D
LRLine
LRScart
AUDIOAMPs
LPFA
D
LPFA
D
LPFA
D
L prim
R prim
Mono sec
LR primDig
Mono secDig
AMInt
AM EXT
L1
R1
L2
R2
L3
R3
L4
R4
DSNDL1
DSNDR1
DSNDL2
DSNDR2SCART1L
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
L-FRONT-IN
R-FRONT-IN
DSNDL1
DSNDR1
DSNDL2
DSNDR2
17
86
85
84
83
82
81
80
79
74
73
72
75
+5V91,77
98,88
R-SC1_AV-O UT
L-SC1_AV-O UT
L-CL_VL-OUT
R-CL_VL-OUT
L-SC2-OUT
R-SC2-OUT
AV3L
R
3242
SVHS 2
3242
4
10
7
2
6
8
11
4
10
7
2
6
8
11
INTER-FACING
HP
SIDE IO PANEL
64
62
63
65
66
1620
1936
OR
024
0
43
44
7101//7104
Ident
27/54 MHz
54MHz
54MHz
I2C
IRQ 42 MPIF-IRQ
4107
4108
CVBS-SC3
CVBS_TER_OUT
2101
EWV
I
EWVIN
EWIOUT
SCL
SDA
SCL1
SDA1
EW_MPIF
EW-DRIVE
F_REF
VIDEO SOURCE SELECT & DATA LINK
AUDIO SOURCE SELECT
7100-A
IF & SAW FILTER
MPIF-SUPPLYEW & CONTROL
XREF 40
36
37
C
Y
12
Supply+
Ref.
7150-A
3151
3150
7150-B
3153
3152
+5V
+5V
2
3
20
21
VREF_AUD_POS
VREF_DEFL
4152 CVBS-DTV
B10
B10
B11
B8
B5
B11
HEADPH-R
HEADPH-L
B18
C-FRONT-IN
Y-CVBS-FRO NT-IN
FRONT- DETECTB11
AUD-L1
SIMM CONN
B18
0230
0230
B17
D A6 B18
(PIP/DW)
2062
7100-D
(1) Present for China only
(2) Present for AP-Multi, China & EU only
HV-PRIM
HV-SEC
VTUN
6200
SIMMCONN
B18
+8V
4101
4102
4103
4104
122 125 118
+5Va +5Vd
66
65SCART2R
SCART2L
AUDIO-OUT ORMONITOR-OUT
2ND SCART
1ST & 3RD SCART
VCC-DIG
VCC-I2D
CVBS
L-FRONT-IN
R-FRONT-IN
AUD_L2
AUD_R2
L5
R5
127
128
+5V14,28,35
EUROPE ONLY
AM Int
7062
CVBS-outB22
EF
C-SC2_SVHS-IN
SEL-SVHS-RR_STATUS2
Y-CVBS-SC2_AV2-IN
CVBS-SC1_AV1-IN
L-SC1_AV1-IN
R-SC2_AV2-IN
CVBS-SC2_MON-OUT
G-SC1-IN_Y-IN
B-SC1-IN_U-IN
R-SC1-IN_V-IN
L-SC1_AV-O UT
7
19
6
10
52
60
53
58
2
1
3
56
61 R-SC1_AV-O UT
L-SC2_AV2-IN
R-SC1_AV1-IN
9
INPUTS/OUTPUTS SIMM CONNECTOR
4 FBL-SC1-IN
CVBS_TER_OUT
B11
B2
R-CL_VL-OUT
69
70
B5
L-CL_VL-OUT
0230
B11COMM_LINE
12
2021
AUDIO-L OUT
AUDIO-R OUT
12
2021
SCART 2
SCART 1
R-OutR-In
L-Out
L-InB-In
Status
G-In
R-InFBL-In
TER-OutCVBS-In
1
1 22
3
3
4
4
5
5STATUS1_PIP-AFT-5 0-60HZ18
B11
6
6
7
7
8
8
9
9
10
10
R-Out
L-OutR-In
L-InC-Out
Status
P50
C-In
MON-OutY/CVBS-In
L-SC2-OUT
R-SC2-OUT59
55
11
11
12
12
13
13
14
14
15
15
16
16
17
17
AUDIO-SL OUT AUDIO-SURR B1072
20
A5
B18
B1 B2
B3 B4
A11
F_15040_055.eps250405
Block Diagrams, Testpoint Overviews, and Waveforms 19ES1E AA 6.
Block Diagram 2 Audio & Video
DAC
DDEP
DownMix
Preprocessing SRCDematrix
and Select
LevelAdj.
I/PX-
Bar
I2SOUT
O/PX-
Bar
Noi
se S
hape
r
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 PROCESSING7433
7432
DRIVEADJUST
CDAC
BLENDERCONTROL
ADC
LEAKAGECOMPASATOR
7310
7330
R-CRT
G-CRT
B-CRT
CUTOFF
ROUTP
GOUTP
BOUTP
DRIVEADJUST
CDAC
RGBCUTOFF
RGBGAIN
BLENDERCONTROL
ADC
LEAKAGECOMPASATOR
FIXEDBEAM
CURRENTSWITCH
OFF
GFX ROUTP
BOUTP
IBC
IBCRANGE
ADOC RGB
7300-H
R
G
B
7320
3
7307
3
1
2 8
9
7
CRT
5
R
G
B
SCAVEMPROC.
SCAVEMCOIL
CUTOFF
200V
+141V
3307
TO/F
RO
M 1
4O
F L
SP
2
4
1
2
3
5
1
2
3
5
CRT PANEL
INTER-FACE
EHT- INFO
25
24
23
21
25
24
23
21
76
75
AUDIO-R
AUDIO-L
HEADPHONE-R
HEADPHONE-L
EHTFO
CU
SA
FO
CU
SB
FROM LOT
VG
2
3
1
MIPS EBIU
SRAM128KB
PI-PIBRIDGE
GFXGEN
GPIO
I2C
A/DADC
TIMER
GFX
FAST PI_BUS
SLOW PI_BUS
1581
2582
2581
KEYBOARD
FRONT- DETECT
STATUS1_PIP-AFT-5 0-60HZ
SEL-SHVS-RR_STATUS2
LIGHT-SENSOR
RC5
SDA0
SCL0
SDA1
SCL1
ON-OFF-LED
ON-OFF-LED
SEL-IF-LL
SOUND-ENABLE
SEL-2FH-SRC_STATU S3
DEGAUSS
STANDBY
VDDCO VDDE
MPIF-IRQ
W
E
G
VDDE7790 VDDE
CONTROL
SEL-2FH-SRC_STATU S3
DTV_EXPENSION
COMM_LINE (SCART)
F_REF
ADOC-uP & CONTROL
POR_FLASH
EXT. STER EO
EXT. MONO
79
37
78
77
79
37
78
77
36
80
51
KEYBOARD
RC5
LIGHT-SENSOR
TOP CONTROL
2
1091~4
3
4 1002
1008
INTERFACING
STANDBY
DEGAUSSING
VOL_MUTE
7990
4
RIGHT
LEFT
1
SOUNDENABLE
7
6
4
9
1
10
VREF_AUD_POS
AUDIO PROCESSING
POR
POR_FLASH
50
36
80
51
50
RGB PROCESSING
B3
HEADPH-R
HEADPH-L
B3
7651
Vgate
Vfb
Vc
Vcc
Gnd
8 1
6 5
4
3651
3652
+1V8+5V2
+3V3
7650
LOW VOLTAGE SUPPLY - ADOC
B8
B4
B18
B4
A3
A1
B4
(FROM 0223)
A3
B18
B1
B10
B15
E MAINS SWITCHPANEL
M FRONTINTERFACE
Q1
7300-A,C,E & K
6651
7300-x
7300-B
2
1
3
1+5V2
4
+Vaudio
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
EBIU BUS
A1.
.A21
D0.
.D15
A2
A2
200V
6
3306
FROM
VDD
MEMORY INTERFACE
B6
B7
B11
CD
AC
2-
VD
DA
CD
AC
1-
VD
DA
B5
SD
AC
1-V
DD
A
SD
AC
1-3
V3
BLE
ND
ER
BLA
NK
ING
SCAVEM
SVMP
+5V
7480
2
6
1
7
8
VREF_AUD_NEGB4
2447
VDDCO5600
9,37
VDDQ43
FLASH
RESET_
FLASH_RST
FLASH_RST16RP
ADC2
VDDE
VDDCO
ADC-VDDA
XVDD
5570
5583
7525
WC_
5
6
7
VDDE
8
P1-5
SCL
SDA NVM
VPP
SDM
7346
7356
TILTB8
DecimationFilter
I2SIN
WS PLL
Audio Processing DSP
SD
I
SC
KI
WS
I
SD
02
SC
K02
WS
02
4565
4564
RES
2651
N.C. N.C.
SYSTEMRESET(50ms)
7581
VDDE
+5V2
3582
3590
3583
3586
1
5
4
SCART I/OINTERFACING
15
RB
RB
RB53
P0-2
N.C.
1
DC_FILAMMENT
1629 1340
1351
5
6
7
9 12
+8V_+12VSVM_ROT
+141V
+8V_+12V
SCAVEMPROC.
ROTATIONCOIL
3
1
1361
TDA8941P7366
IN-3
IN+5
5OUT-
OUT+ 5
1382
0230 1670
02151645
02150215
7991
1911
16700230
16700230
1705-1
1705-2
1705-3AUDIO-SURROUND
AUDIO-R
AUDIO-L
SSB CONNINTERFACE
69
72
0230
70
023070
69
72
1670
1670 1620
1254
02401936
0230
A6 A7
SIDE I/OD
68
67
68
67
11
10
11
10
B18
F_15040_056.eps250405
B7 A6 F
AUDIOAMPLIFIERA4
A6SSB CONNINTERFACE
B18
B11 B12
20ES1E AA 6.Block Diagrams, Testpoint Overviews, and Waveforms
Block Diagram 3 Audio & Video
STROBE1N
STROBE1P
DATA1N
DATA 1P
STROBE3N
STROBE3P
DATA3N
DATA 3P
STROBE2N
STROBE2P
DATA2N
DATA 2P
HV_PRIM
HV_SEC
I2D1
I2D3
I2D2FAST-BLANK
FIFO
DMSD
CHR.MUX
DE-MUX
FASTBLANK
SWITCH
FOR-MATER
SYNC2Fh HV
INFO
HVSYNC
ADOC VIDDEC (PRI & SEC)7300-J
DAT
A S
YNC
SA
MP
LE R
ATE
CO
NV
ERT
ER
AG
C_A
MP
Hor. TIMEBASE GEN.DTO & CONTROL LOOP
SLOW START/STOP
L0W POWER STARTUP
1stCONTROL
LOOP
SDAC
HIRES.TIMINGGEN.
HOR. TIMEBASE GEN.DTO & CONTROL LOOP
SLOW START/STOP
L0W POWER STARTUP
1stCONTROL
LOOP
SDAC
HIRES.TIMINGGEN.
ADC
2ndCONTROL
LOOP
VERT.WAVEFORM
EAST-WESTWAVEFORM
VERT.SAWTOOTH
VERT.DRIVER
HDROUT
HFB
EHT
BCL
FBCIN
EWP
VDRP
VDRN
6365
3368
3367
ADOC DOP
PRI
SEC
SSIF
VIDDEC1
VIDDEC2
HVSYNC
SKINTONE
CONTROL
BLUESTRETCH
GREENENHANCE
RGBMATRIX
FRAMEPROC.
PANO-RAMA
DCTI
SHARPNESS
MEASURELTI
DYN.PEAKING
FILTER
LUMINANCE SHARPNESS
COLOUR FEATURES
Y
UV
Y
UV
U
V
Y Y
UV
R
G
B
ADOC BEF
HOR.COMPRESS
HOR.COMPRESS
MAINCH.
SUBCH.
VERT.COMPRESS
SUBFIFO
CACHE
NOISESHAPER
MAINFIFO
CACHE
NOISESHAPER DNR
MEMORYBUS
DEVICEINTERF.
UNDI-THER
UNDI-THER
SCANRATE
CONVERT
OUTPUTMUX.UNDI-
THER
DISPLAY CONTROLMODE CONTROL
SDRAM
ADOC MBF
Y
UV
INPUTSWITCHMATRIX
BLACKSTRETCH
BLACKSTRETCH
HISTOG.MODIFY
HISTOG.MEAS.
BLACKBAR DET.
BLACKLEVEL DET
NOISEMEAS.
MEASUREMENTBLOCKS
VIDDEC1
VIDDEC2
MAINCH.
SUBCH.
ADOC FEF 13.5 / 27 MHz@ 720 ppl
27 / 54 MHz@ 1440 ppl
LINEDRIVE1
HFB_X-RAY-PROT
FRAMEDRIVE+
FRAMEDRIVE-
VDDE
7730
7382
73933398 6397
6381
6382
6385
FLASHX-PROT
+8V
EW_MPIF
(YUV)
(YUV)
(YUV)
(YUV)
ExtSyn
cMux
SRC forHFB1/H-Sync
SyncMux.
H-2FH
V-2FH
FBL-SC1-IN
VDDCO
VDDE
VIDEO DECODER
POR_FLASH
EXT. STEREO
EXT. MONO
3380
3385
1,14,27
3,9,43,49VDDE
VREF_DEFL
FEATURE BOX
SYNC & DEFLECTION PROCESSING
+5V2
+5V
+8V
+3V3
40
43
45
26
34
2829
PROTECTION
B18
B2
B4
B7
B4
B11
31EW-DRIVE
FROM1116
B 5
B 6
B 8
B 9
3346
BPA
SDAC-VDDA
DOP-DTC-VDDA
DOP-DTC-VDD3
IMEAS-VDDA
SDAC-3V3
7300-I
TO BLOCKDIAGRAM
DEFLECTION
2455
EHT-
INFO
A3
A4
A4
FROMBLOCK
DIAGRAMSTAND-BYSUPPLY
A2
A8
0230
INTERFACINGA 6
VDD
VDDQ
FIELD MEMORY & TXT PG
DLINK-VDDA
DLINK-VDDD
VID1-DTC-VDDA
PLLVDDA
VID1-DTC-VDD3
7300-F
SAM
PLE
RATE
CO
NVE
RTER
MEMORYCTRL/SWI.
MM
I BU
S SA0...SA11SD0...SD15
DTL I/F
B6
B5
B8
B5
B7TO
47
46
44
MEMORY INTERFACE
3350
7300 73007300
6353
3353
3354
+3V3
6367
7365
3372
TILT
VDDE
3340 3341
SEL2FH
VDDE
3387
3384
7383-B
7383-A+8V
KEYBOARD
6384
A535
FROMTUNERSIMM
CONN.
TOROTATIONCIRCUITRY
5601VDDE
B7
2397
73613364
3361
6368
+8V
3373
+5V
2361
VDDCO
B13
DMSD=Digital Multi Standard Decoder
DCTI=Digital ColorTransient Imrpovement
+3V3
EHT-INFO
EHT-INFO
F_15040_059.eps290405
Block Diagrams, Testpoint Overviews, and Waveforms 21ES1E AA 6.
Testpoint Overview SSB
S1
100mV / div DC20µs / div
S4
100mV / div DC20µs / div
S3
100mV / div DC20µs / div
S2
100mV / div DC20µs / div
F014
1 V / div DC1ms / div
F015
1 V / div DC1ms / div
F016
500mV / div DC1ms / div
F017
500mV / div DC1ms / div
F060
500mV / div DC20µs / div
F080
500mV / div DC20µs / div
F064
500mV / div DC20µs / div
F088
1 V / div DC20µs / div
F089
1 V / div DC20µs / div
F150: 3V2 DC
F152: 3V2 DC
F281: 3V2 DC
F381: 0V DC
F382: 0V DC
F383: 0V DC
F480
100mV / div AC1ms / div
F481
100mV / div AC1ms / div
F509
1 V / div DC200µs / div
F508
1 V / div DC500µs / div
F601: 1V8 DCF650: 3V2 DCF651: 1V8 DC
F652
500mV / div DC500ns / div
F911
500mV / div DC20µs / div
F913
500mV / div AC10µs / div
F967
200mV / div AC1ms / div
F941
2 V / div DC20µs / div
F931
1 V / div DC5ms / div
F929
500mV / div DC5ms / div
F928
500mV / div DC5ms / div
F926
1 V / div DC10µs / div
F925
1 V / div DC10µs / div
F969
500mV / div AC1ms / div
F968
200mV / div AC1ms / div
F970
500mV / div AC1ms / div
F923
1 V / div DC10µs / div
F924
1 V / div DC10µs / div
I310
200mV / div DC10µs / div
I308
200mV / div DC10µs / div
I306
200mV / div DC10µs / div
I437
20mV / div AC200µs / div
I438
100mV / div AC1ms / div
I436
20mV / div AC500µs / div
S5
500mV / div DC50ns / div
CL 36532058_008.eps211103
I442 A4I443 A5I444 A5I445 A5I446 A5I447 A6I448 A6I501 C4I502 C6I601 B5I651 C7
I381 C3I382 C3I431 A4I432 A4I433 A3I434 A3I435 A4I436 A4I437 A4I438 A4I439 A3I440 A4I441 A4
I308 D4I309 C4I310 D4I341 B5I342 C5I343 C5I344 C5I345 C6I346 C5I347 C5I348 C5I349 C5I350 C5
I108 B2I151 B1I152 B1I153 B2I154 B2I281 C2I301 C4I302 C4I303 C4I304 C4I305 C4I306 C4I307 C4
I009 B2I010 A2I061 C2I062 B1I063 C1I064 B1I101 C2I102 B2I103 B2I104 C2I105 B2I106 B3I107 B2
F976 D7F977 D6F978 D7F979 D7F980 D7I001 C1I002 A2I003 A2I004 B2I005 B1I006 A2I007 A2I008 A2
F962 D5F963 D6F964 D6F965 D6F966 D6F967 D6F968 D6F969 D6F970 D6F972 D7F973 D6F974 D6F975 D7
F947 C5F948 D5F949 D5F950 D5F951 D5F952 D5F953 D5F955 D5F956 D5F958 D5F959 D5F960 D5F961 D6
F929 D3F931 D3F932 D3F933 D4F935 D3F936 D3F937 D3F938 C4F939 D2F940 D4F941 D4F943 D4F944 D4
F910 D2F911 D2F913 C2F915 D2F918 D2F919 D3F920 D3F921 D3F923 D3F924 D3F925 D3F926 D3F928 D3
F794 C5F795 C5F797 C6F798 C6F799 C6F901 D1F902 D1F903 D1F904 D2F905 D2F906 D2F907 C2F909 D2
F551 B3F570 A5F582 B6F584 A7F601 B5F650 C6F651 B6F652 C6F730 B5F790 C5F791 B5F792 B5F793 C5
F527 C2F532 B3F533 B4F534 B4F537 C4F538 B4F539 B4F540 B4F541 B4F542 B4F543 B4F544 B4F550 B3
F512 B3F513 B3F514 B3F515 A7F516 B4F517 B4F518 B4F519 B3F520 B4F521 B3F522 B3F523 B3F524 C4
F390 C3F391 C3F437 B4F438 B3F439 B4F448 B4F449 B4F480 A5F481 A5F508 B4F509 B4F510 A3F511 B3
F351 C4F354 C3F355 C5F357 D5F358 C5F381 C3F382 C4F383 C3F384 C3F385 C3F386 C4F387 C3F389 C3
F134 B2F135 B2F137 C2F138 C2F139 B2F150 A1F152 C1F159 A2F281 B4F282 A4F341 C4F346 C4F348 A1
F064 B1F074 A2F075 A2F076 A1F077 B1F078 A1F080 B1F088 A2F089 A2F114 C2F115 D2F116 C1F132 C1
1009 A2F014 A3F015 A3F016 A4F017 A4F020 C1F021 A2F041 A1F042 A1F045 A1F046 B1F047 B1F060 C2
2583
2582S5
S463 62 61 60
S3 S2 S1SIDE A SIDE B
3139 123 5536.2
22ES1E AA 6.Block Diagrams, Testpoint Overviews, and Waveforms
I2C Overview
CONTROL
MEMORYINTERFACE
ADOC
A7SSB.CONN.B1
I2C Overview
SDA0
SCL0
AF6
7300-C
AE6
35113513
3523
3581
3515
SDA1
F-REF
0291
0290
IRQ-MPIF
SCL1
+5V2 +5V2
VDDE
VDEE
VDDE
3509 3510
AF7
3512AD6
AF8
A26
AF2
WC
B11
7025M24C64(NVM)
EEPROM
7790
M58LW032A
RAM
FLASHCONN.DATA
FLASHCONN.
ADDRESS
ERR13
ERR14
ERR11
5
7
6
3239
5 4
3240 3241 3242
1232TUNERTEDE9
1205
SDA-S
SCL-S
0230
48
49
1
2
3
1241
COMPAIRCONNECTORFOR SERVICE(REACHABLE VIAHOLE IN REARCOVER)
F_15040_057.eps250405
A6 TUNERA7A5B18
MPIFB1B4
F509
F508
DATA
ADDRESS
B12
7100-DMPIF
43
40
42
44
DIGITALBLOCK
7300-E
7300-k
Block Diagrams, Testpoint Overviews, and Waveforms 23ES1E AA 6.
Supply Lines Overview
8x
4x
B5
VDDE 5283To 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
VDDCOVDDCO
VDEEVDDE
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
7650CS51033YDR8
LOW VOLTAGE SUPPLY-ADOC
+5V2 +1V8
+3V3
+1V8
VDDEVDDCO
5654 5651
+3V3 5659CONTROL
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 SOURCESELECTION
+5V
3018
3019 3010
3011
B2
To 64 7100-B (MPIF)
To 49 7100-B (MPIF)
+5V
VIDEO SOURCESELECTION
+5V
5060
5061
+8Vc
+8Va+8V
3134
(For PIP D/W Only)
F601
7651STS5PF30L
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
F_15040_058.eps290405
POWER SUPPLY
9
8
4
17
18
13
145
3
2
3575
3576
A1
FRONT INTERFACEM Q1
5512
SUPPLYPRIMARY
SIDE
10
11,12
1
2
4
3
0201
105110311951
MAINSSWITCH
+3V3
F563
F561
-Vaudio
+Vaudio
+9VA
5551
5552
5561 6562
5562 6563
Vbatt
A6STANDBY
7571
REFERENCECIRCUIT
7573
STANDBYCIRCUIT
7513TCET1103
1505
02021
2
1
2
SUPPLY LINES OVERVIEW
3571
or
VDC
6551
6
4
14
8
9
10
5
2
1
3545
3544
5504
12
11
1
2
3
4
1532
A4STANDBY
7542
REFERENCECIRCUIT
STANDBYCIRCUIT
7516TCET1103
VDC
SUPPLYCONTROL
7525
HOT GROUND COLD GROUND
13
5505 +9VA6536
5564 +5V26535
7545+5V
3546 STANDBYCIRCUIT
7535
3537
+Vaux
LINE + FRAME DEFLECTIONA2+Vbatt
A5
Vbatt
VideoSupply
VideoSupply
Filament
EW_DRIVEA5
-14V
+12V_LOT
SVM_ROT
+14V
74055402
LINEOUTPUTCIRCUIT
+E/W
CORR.
7404
14041
2
HOR.DEFL.COIL
5450
3
1
FOCUS VG2
EHT TOCRT
14011
2Filament
3
4
5
6
710
6
B1
6453
6467
6456
645212
8
9
5
6461
3458
3485
3450
HD
+33V
+33V
EHTinfo
3455
3401
A5
3456
CRTF
Filament
5
4
3
2
11351
SVM_ROT
+141V
+12V_LOT
+200VA+200V3351
EHTinfo
7
6
+9VAA3
+Vaudio 5913Vaudio+
-V
Vaudio-
CLASS D - AUDIO AMP (RES)
-Vaudio 5914
5910
A4
+Vaudio
AUDIO AMPLIFIER
-Vaudio-Vaudio
+Vaudio
A5
+33V
TUNER / IF
+5V+5V
+33V
A6 INTERFACING
+9VA7674
VI VO
VDIS+5V
+8VS
3670
+8V
+5V27673
IN OUT
+5V
+3V3
9686
9675
5681
A7 SCART I/O
+8VS+8VS
24ES1E AA 7.Circuit Diagrams and PWB Layouts
7. Circuit Diagrams and PWB Layouts
LSP: Power Supply
+t
+t
KA
RE
F
+T
Rs
Rh
Vcc
Gnd
Ctrl
START-UP
CURRENT SOURCE
VALLEY
START-UP
CURRENT SOURCE
CURRENTSENSING
OUTPUTDRIVER
OVERPOWER
LOGIC
CONTROL
CIRCUIT
MAXIMUMON-TIME
PROTECTION
VOLTAGECONTRLLEDOSCILLATOR
OVERTEMPERATUREPROTECTIOM
POWER-ONRESET
SUPPLY
MANAGEMENT
FREQUENCY
PROTECTION
CONTROL
INPUTCONTROLCIRCUIT
BURSTDETECTOR
Drain
HVS
Sense
Demag
Driver
-T
KA
RE
F
V
Vcc
Gnd
Ctrl
START-UP
CURRENT SOURCE
VALLEY
START-UP
CURRENT SOURCE
CURRENTSENSING
OUTPUTDRIVER
OVERPOWER
LOGIC
CONTROL
CIRCUIT
MAXIMUMON-TIME
PROTECTION
VOLTAGECONTRLLEDOSCILLATOR
OVERTEMPERATUREPROTECTIOM
POWER-ONRESET
SUPPLYMANAGEMENT
FREQUENCY
PROTECTION
CONTROL
INPUTCONTROLCIRCUIT
BURSTDETECTOR
Drain
HVS
Sense
Demag
Driver
I519
I557
I579
*
D
43
*
*
*
1
HOT GROUND
1500 B21501 B21502 B2
POWER SUPPLY
2
13
A1,A6
FOR MAINS 120V AC 170V (177V)
6
6578 H56581 H16582 F67510 G27511 D27512 D57513 E77516 H77517 C57525 G57532 H27535 G10
F537 G11F541 A8F542 B8F552 B9F561 C10F562 C9F563 B10F573 D10F574 B7F575 C7
3505 C33507 A4
2540 G92541 B82542 B72543 H92544 F72546 F102551 B92552 B92553 A112561 C92562 C92563 B92564 E92565 B92570 D7
220R
3523 A4
S
3524 I4
*
2505 B6
1 2 3 4 5 6 7 8 9 10 11 12
9
*
2506 B5
* 6V5
7V4
3587 H83588 H53589 E113590 H113591 H113592 F73593 I33594 I33595 I43596 I43597 H53598 D24550 E115500 C45501 C3
6550 C96551 A96562 C96563 B96564 E96565 E96567 F46574 I116575 E66576 H11
10R - PTC
(..V..) Standy Mode
2538 F92539 F9
7
0V
2571 D9
3V4
I
A
B
C
D
E
F
G
H
I
1M5
*
0V
14
2572 D11
*
D
*
9532 B10
*
*
*
2
9
TEA1507
330K
6549 B9
9501 B39502 B4
9503 C39504 C49506 B69507 F109511 B59512 G109513 A12
2V5
0V
I592 H8
15V
I538 F9I539 G8I540 F8I542 A7I543 A8I544 H3I545 G10I546 G2I547 G10I548 E9I550 H6
I591 H9
I580 I11I581 I9I582 C6I583 C4I586 B8I587 E9I588 E9I589 I10I590 H9
0V
1V
G
0V5
13V
300V
300V
3
5V
5V
D
*
*OR
I569 D12I570 G11I571 E8I572 B4I573 H11I574 D10I575 E8I577 E10I578 D10I579 B8
S
7
*
15V
for ITV only
F576 D9F578 F10F580 F11F581 I11F582 F10F583 B9I500 I1I501 A6I502 C6
MAINS230V AC
G
SS25113-00
I532 G6I533 G7I534 B4I536 F6I537 F7
1V5
3525 H53526 G5
2577 I122578 H92579 I102580 F72582 H12583 I42584 F102585 H12586 H12587 D92588 G72589 G102590 I122591 H123501 C4
*
COLD GROUND
3546 F10
3544 H10
0V
*
470U
3545 G10
220V AC 309V (317V)
*
3543 H9
5511 D65512 C7
3549 C63550 C63551 D113552 D123553 H103554 G123563 E83565 E103566 G103567 F53568 F43571 C83573 D93574 E93575 D9
0V
SMPS CONTROL
6533 H66535 F96536 F96537 G96538 D16539 G16541 A86548 F9
1V5
COLD GROUND
3585 H123586 H11
3527 G23528 D13529 C13530 G53531 G63532 H63533 H63534 G63535 E73536 F53537 G103538 H63540 F113541 A8
3542 H8
3
"$"
5504 F75505 F105506 C4
*
5502 A6
*
FRONT INTERFACE
11
*
TEA1507
7571 D87573 D107575 I97576-1 I117576-2 I107583-1 I117583-2 I127584 I129500 C2
I503 B2I504 C2I506 A5I507 C5I509 G2I510 G2I511 D2I512 I2I513 D5I514 C6
1n5
2
HOT GROUND
3547 G133548 H8
3508 B63509 A43510 B53511 E63512 F23513 C63514 D53515 D63516 E63517 E53518 F33519 E13520 E63521 I23522 D5
330K
330p
1N53
92
315m
A
4m7
*
*3584 I10
3576 E103579 D93580 G13581 I123583 H10
5 6
1505 C11506 A131532 E71538 E121542 B81543 B81544 B81550 F61551 F81552 F92500 C32501 A32502 C52503 B62504 B6
8V5
7V4
16V16V
TO1246 OF
TUNER/IF
*
*
DEGAUSSING COIL
S
*
G
5532 F75551 A85552 B105561 C85562 B85564 F105565 A125566 B105567 C106500 B66509 H26511 E26512 E106514 D66532 H6
7541 A87542 H87545 F117547 G127548 H137549-1 I37549-2 I47561 E117562 E117567 F4
*
2575 I92576 H11
2509 H22510 G22511 D22512 F22513 E52514 D62515 D72516 E52517 E22519 H62520 H52521 I32522 G72523 G62524 F11
*
3503 B4
T4E.250V
*
3502 B4
33R
3504 C2
1503 A71504 A2
0V
2V9
2V9
0V
0V
300V
1V5
11
*
7V4
..V.. Normal Operation
14
ATSC
9533 C109553 A12F500 A2F501 A2F502 A5F503 C2F504 C2F506 B3F507 C3F508 B7F509 B7F535 F10
I521 D6I522 I12I523 E7I525 F5I526 G5I527 F2I528 I5I529 I7I530 H5I531 G6
6
2507 B72508 C5
7 8 9 10 11 12 13
A
B
C
D
E
F
G
H
2528 D1
10R - PTC
*
5V4
2535 F9
2537 G92536 F10
2526 E6
*
I593 H9I596 G12
300V
0V6
0V
8V6
0V5
0202 OFFROM
0V
0V
I562 C8I563 A4I564 E1I565 H1I566 E11I568 F6
I597 I10I599 I12
"$"
*
6V6
0V
0V
0V70V7
0V
TO1506 OF
INTERFACING
*
SMPS CONTROL
A6
*
1V
14V
OR
PANELMAINS SWITCH
FROM 0220 OF
A1
I515 D7I516 D6I517 D5I518 D6I519 E5I520 E5
I551 B8I552 B9I553 C1I554 D1I555 H5I557 F7I558 F8I559 A5I560 I4I561 D8
15V
1V
13V
12V
0V
2
+5.2V
2506
33n
7562BC847BW
13
TCET1103(G)
14
3 2
3535
4R7
7516
I547
3598
I537
Vaux_GND
9532
3588
470K
Vaux_GND
I596
Vaux_GND
F578
3504
1M5
AUDIO_GND1
1501PFC5000
I587
Vaux_GND
I563
9553
2523
I503
Vaux_GND
F561
6511
RG
P10
D25
17
1n0
SB260
6536
BA
V21
WS
6533
3519
15K
I550
I523
2m2
2562
1n0
2515
F581
15K
3573
PDTC114ET7547
+5V
I516
2572
10n
I500
I532
3574180K
3M3
3501
I580
F537
I559
BYV29X-500
6550
22u
2510
6565
I522
3532
5511
+9VA
F509
F508
9503
I566BAS316
6512
5552
27u
AUDIO_GND1
I526
I592
7512
2542
Vaux_GND
35761K5
I583
1n0
2509
2n2
2501
RG
P10
D
6509
6564
BAS316
3590
82K
I515
2565
1n0
68K
3566
3538
3507
1505
12
3593
3568
47K
3502
10K
5562
25372m2
1
3
2
5567
BC847BW7561
3K3
3524
9506
Vaux_GND
7532BC857B
6562
SB360L
F583
Vaux_GND
2519
470p
I521
5561
3K3
3550
6581
BA
V21
WS
9512
25871n0
I568
3529
+Vaudio
F500
3
6
78
9
I511
10
11
12
13
14
17
18
2
5512
10K
3543
330u
2507
I545
I501
5565
I502
I581
9502
7576-1IMX1
53
4
2522
470p
I565
10u
2577
6538
BA
S31
6
3530
6574
56K
I589
BA
W56
W
3592
33K
3591
10K
I518
-Vaudio
Vaux_GND
BA
S31
665
67
100n2520
1 4
2 3
470p2539
5501DMF2405H60
I528
AUDIO_GND2
Vaux_GND
I571
22u
I509
2524
2K2
47K
3549
I525
3545
9501
Audio_Gnd
2526100p
4
2 3
5500
DMF28
1
7584PDTC114ET
4550
1542 I586
1543
F506
1K03531
+5V
47n2521
220K
3580
I551
6563
SB360L
220R
3508
AUDIO_GND1
I506
I534
BA
S31
6
6578
Vaux_GND
3547
3596
10K
Vaux_GND
4K7
BC847B7517
I520
100n
2591
STPS10L60D
6548
82K
3575
2552
100u
953330
0K35
17
3514
3587
2K2
2516
100nI548
I529
9507
2m2
2563
3
21
2
Vaux_GND
T890-B60-A1103523
4R5
4R5
SI2305DS7545
3
1
100n
I527
21
3
2543
F504
TL4
31C
Z-A
P75
71
2579
47n
Vaux_GND
356527K
7567BC847B
DSP-301N
3503
I588
25442n2
PFC50001502
7511
Vaux_GND1
I553
7583-2IMX1
470p2513
1551HEATSINK
1 2
Vaux_GND
I562I504
Vaux_GND
3533
6
8
9
Vaux_GND
1
10
11
12
13
14
2
4
5
5504
7541BC857B
7573PDTC114ET
5566F563
100n
2508
15001 23 4
3525
300K
220R
3563
I538
I507
65823536
I512
LKS1AF1503
56K
3585
F507
1K0
3548
3537
68K
3528
1M0
F501
3567
3K3
3516
I558
7525
2571
15n
9500
Vaux_GND1
35211K2
I555
2511
22u
4
+Vaudio
I575
IMX17549-1
5
3
470u
2584
+5.2V
Vaux_GND
3513
2K2F575
Vaux_GND
I574
+5.2V
HEATSINK1550
1 2
Vaux_GND
1u0
2585
I554
68K3546
1n52514
3571
680R
Vaux
I590
5532
10n
2575
6575
2564
2
AUDIO_GND2
+9VA
100n
15041
F503
6514
BA
S31
6
2588
3541
47K
Vaux_GND
I517
5551
3534
3510
4R7
3551
+9VA
1532
22K
T
3594
22K
I536
2n2
2578
6549
BYV29X-500
F535
2
6
1
I513
F552
IMX17549-2
F582 F580
I531
2535
Vaux_GND
I530
I599
2505
I552
1n0
2561
3540
68K
3597
220K
Vaux_GND1
I542
25381n0
7542
21
3
3595
100K
3 2
TL431CZ-AP
7513TCET1103(G)
14
Vaux_GND
+9VA
I514
3586
5K6
3526
1K2
3512
I593
I540
3520
I573
45
81
F574
SP48012-005502
I591
3522
56K
F573
7548PDTC114ET
5u6
5505
I564
I546
3515
1K0
47K
Vaux_GND
I570
3527
3583
5K6
Audio_Gnd
6541
BZ
X38
4-C
12
AUDIO_GND2
2540
1n0
2500
+9VA
470n
I544
Vaux_GND
3584 10K
I578
3552
10K
9513
Vaux_GND
1m0 2536
2582
1u0
1 2
I577
2570
HEATSINK
1552
2512
100n
F576
1 4
2 3
Vaux_GND1
DMF355506
3589
7510
2553
82p
10K
3554
10K
4R7
6532
BA
V21
WS
3511
3579
2K2
53
4
Vbatt
+5.2V
7583-1IMX1
I560
Audio_Gnd
680R
3542
6500
2
3
1 4
I533
GBU4J
I572
I582
3505
2589
2u2
7575BC847B
2n2
2503
9511
Vaux_GND
1544
6576
SB340L-70106535
10u
2583
3581
22K
Vaux_GND1
Vaux_GND
6539
UDZS-13B
I543
3509
1n0
2551
6537
STPS10L60D
5564
2n2
2580
3
1
2
F542
SI2307DS7535
100n
2576
BYT286551
3544
2K2
2504
2n2
7576-2IMX1
2
6
1
9504
F502
11
234567
89
1538
B11B-PH-K
1
10
2502
2u2
2546
3553
27K
2586
I561
330p
F541
I569
I539
Vaux
2528
470n
Audio_Gnd
2590
10u
3518 3K3
F562
47u
2541
I510
Vaux_GND
RT-01T-1.0B
1506
I597
STANDBY
STANDBY
POWER_DOWN
A1A1
F_15040_001.eps2303053139 123 5895.4
Circuit Diagrams and PWB Layouts 25ES1E AA 7.
LSP: Deflection
EHT
SCREEN
FOCUS
INP
INN
GND
VP1
V-OUT
VP2
VFB
NC
A2A2
F_15040_002.eps2203053139 123 5895.4
RES
K
A2
DEFLECTION
0V
A
B
C
D
E
F
G
A
B
C
D
E
F
G
1401 A11402 B11403 B71404 B41405 B71406 B71452 E92402 B22403 B22404 A42405 B12406 B22407 C4
FROM LOT
*
5450
27VD
G
S
G2V3
HORIZONTAL
*
DEFLECTION
1 2 3 4 5 6 7 8 9 10
1 2 3 4 5 6 7 8 9 10
220K
*
12n
A6
-15V2
12V2
150R
3V
L.LIN
2409 E22410 E42411 D32412 D42413 D42414 D32416 D42417 D52418 D52419 D42422 G12425 G32427 A42431 B42432 E92437 G22448 D72449 D82450 B92451 B82452 F72453 F72454 C2
FRAME
*
2457 E52458 C22459 E52460 E62461 E82462 F62463 F62464 F82465 G82466 C92468 F82469 C82470 E82471 E62473 F72476 C92477 C92478 E32479 F62487 B102488 D22489 B102490 D92492 C72493 C32494 B32495 F52496 G22497 D12498 F8F483
140VLINE
*
0V
*
10K
A
2499 F83401 A13402 D13403 C33408 D13412 B43414 E2
6V6
11V
S
*
*
6V6
D
0V
3415 E23416 D33417 F53418 F23419 E33421 E23422 F13423 F13424 F13425 F33426 G33432 E33433 A53434 F33435 F13436 G43437 G1
3443 D103450 D83451 E43452 F83453 B83455 E63456 C4
A2,A6
3458 C23459 E93460 D93461 F63462 C93463 F63465 D93466 F83467 F83468 F83469 D83470 G73471 G63472 G63473 F53474 C103476 F63477 C93479 D53480 B73485 B103486 C83487 D83488 F43490 D23491 B73492 B93493 E43499 F25401 B45402 D2
0V
A2
*
COIL
A6
TO PICTURE TUBE
4V8
5406 C45408 D45409 C45410 A55411 D55450 A65452 B15453 E85455 A25456 B16403 E56404 D46405 D56424 F16425 F26426 G26427 F46452 C36453 C36456 E56457 E76458 E76459 E96461 D76464 D2
COIL
TO 1351 OF
RE
S
*
8n2
6465 E36466 C76469 B96471 F36474 C106476 C86478 B86480 C97403 E47404 D17405 D37406 F37407 D97408 C97455 E77456 E107486 E109401 C49402 B59410 A59411 B39412 D59447 C7F401 A1F402 A1F404 B1F416 B4
220K
0V
F418 D3F419 D3F451 G6F452 C2F453 B1F455 B1F456 E6F457 E8F458 F10F459 A3F462 B10F464 B4F465 C5F466 E8F469 F9F472 C10F475 D1F476 F1F478 D10F481 C8F482 F6F483 F6I402 B2I410 E3I413 D1I414 D1I415 F3I418 D2I419 D2I420 E2
DEFLECTION
*
*
*
*
I423 F3I428 D5I432 A5I435 E9I436 E10I437 E8I438 F8I439 C8I440 C9I442 E4I443 E4I445 F1I446 F2I447 G2I448 E4I449 E5I450 B4I453 C3I455 C5I457 B3I458 B7I459 D7I460 C10I462 E2I463 E3I464 E4I466 C2
*
E/W
*
A6
I468 B10I469 C8I470 B2I473 D4I475 E5I476 E7I480 F8I481 F8I482 F7I487 B8I488 D2I489 B4I490 F3I491 G1I492 D7I493 E5I494 C9I495 E8I496 F2I497 F5I499 F3
*
A2,A6
*
A6
A2
A6
48V
0V
50V
0V
12V2
*
CRT BOARD
*
A6
A2
FRAME
J
13V5
1R
3485
7405BU2520DX
9412
GND_HOR
6n8
2427
2K2
CRT_GND
6
-14V
3434
PSD10-204B
54021
3
5
GND_DEF
GND_HOR
7404BSH103
10u
5452
F462
I435
1K0
3403
3490
I428
100n
2499
2498
100n
3452
5R6
2479
I497
GND_DEF
2413
3419I410
F466
I450
I448
GND_DEF
3472
F418
5
6
7
89
JF01015450
1
10
11
12
3
3488
GND_EW
220K
BZ
X79
-C5V
6
6426
3415
3422
100K
2418
6404
DM
V15
00M
I455
2K2
3436
6453RGP10G
I419
GND_DEF
2437
15n
341647R
1 2
4 3
I495
5408
3128
1383
4922
I418
470p2448
6480
GND_DEF
BZX79-B3324
11
1K0I432
3433
GND_HOR
9410
RGP10D6471
F455
VideoSupply
150R3412
5411
560n
MainSupplyGnd
I463
2459 470p
F401
F416
+13V
GND_EW
1402
I499
F469
1R0
8K23460
3486
I453
2414
2n2
I460
6459
BZX384-C18
BYV29X-500
6469
2461
10u
GND_HOR
2477
3476
3421
15R
2419
2425
4
GND
6
7 5
2
1 3GND_DEF
7455TDA4863J
BYG10
I481
6461
F464
3470
150K
3417
2468
100n
2402
2412
I438
I443BYG10
6403 2460
3408
100K
1m0
2417
100p
2457
GND_DEF
7406
470p 2493
GND-LINEDRIVE
GND_EW
2462
220n
F475
220p
2497
BZ
X38
4-C
27
6464
F482
3418
1K0
GND_HOR
+33V
100n2464
I475
I457
GND_DEF
2463
220n
6456
RGP10G
5456
12u
+5V
5410
100n
2495
F457
3426
3R3
2473 2n2
9447
GND_DEF
22K3437
2454470u
GND_HOR
I414
F472
GND_DEF
I494
F481
330R
3402
10K
3491
GND_DEF
I439
100n2422
BC857B7408
2453
GND_EW
2n2
14041
2
1R03455
B2P-VA-BF
I402
10n
2496
I446
3493
1R0
9402
I415
GND-LINEDRIVE
F476
2409
33n
10n
2476
BZX384-C27
CRT_GND
6458
1K0
3453
3487
GND_HOR
I473
2451
100n
2410
GND_HOR
F402
7486PDTC143ZT
3477820R
I469
100n2458
4R7 3458
I442
F451
PDTC144ET7456
GND_DEF
3479
1K0
I490
BAS316
6405
+12V_LOT
680K3435
47u2404
2432100n
PDTC144ET7407
I464
F452
I459
6474
CRT_GND
BZ
X79
-C22
3471
34698K2
6466
8K23465
234567
3473
1401
1
1406
I440
GND_DEF
GND_DEF
6425
BAS316
+12V_LOT
3461
1K5
I496
7
9 9
82K3425
5455CD25405-00
1
22
44
5
7
2465
100n
2487
RGP10D
3492
6452
I468
6476
BZ
V85
-C6V
8
GND_DEF
Vbatt
6424
BZX384-C6V8
GND_DEF
3423680K
F419
6K83462
1403
F453
470p 2494
1 2
4 35409
3128
1383
1423
330p
2478 BAW56W
6465
470p2492
7403BC557B
I413
GND_HOR
3443
100K
2403
F458
I420
MainSupplyGnd
GND_DEF
GND_DEF
1u02488
6478
BZX384-C27
CRT_GND
9411
47u2490
CRT_GND
I423
F404
470p
2406
I492
I437
3463
1K5
GND_DEFI449
34501R0
3451
BYV27-200-TAP6457
47K3401
GND_EW
CRT_GND
3499
1M0
I482
2489
4u7
I488
220R
3467
1
2
3
4
CRT_GND
C94
8
5406
3424 22K
3
54531452
12
2416
3432
I436
GND_DEF
6427
220R
3468
BAS316
2405
470p
I445
I491
F459
F456
2n2
2431
GND_DEF
5R6
3466
1405
Vbatt
470p
2466
GND_EW
1R03456
I470
2469
10u
I480
1K0
3459
3480
10K
24702n2
I487
9401
I466
GND_DEF
I489
F465
I462
CRT_GND
F478
24712n2
2449470u
GND_DEF
5401
I458
I493
GND_HOR
3414
2450
3474
3K9
I447
GND_DEF
GND_EW
I476
2407
VideoSupply
2452
2n2
HFB_X-RAY-PROT
EHT-INFO
Filament
Frame_FB
INN
Filament
HDRIVE
VGUARD
+12V_LOT
SVM-ROT
INP
-14V
EHT-INFO
EW_DRIVE
EHT-INFO
+13V
26ES1E AA 7.Circuit Diagrams and PWB Layouts
LSP: Class D Audio Amplifier (Res)
V
DIAG
VSS2
POWERUP
EN2REL2
VDD1
SW2
VDD2
VSS1
BOOT2
OUT2
SW1
EN1
STAB
BOOT1REL1
OUT1
V
5914 B86904 E36905 B66906 A66962 C37901-1 A37901-2 E37902 C5
3935 B3
PA
SS
IVE
9917 B1
3952 C6
3942 B43943 C4
9918 E1
3936 E2
7904 C2
3947 C33949 C4
7903 D3
I922 D4I924 A5I925 E2I926 B8I927 B8I928 A5I930 A6
LM393N
F905 D9F910 F1
LM393NF901 C1
A3,A6
A3,A6
R
A6
*
L
F904 C9F903 D9
2948 B52949 B52950 A52951 A52952 C62953 D62954 D7
2 5
For
ITV
2970 D7
2961 A5
3
2965 B7
1 4
2963 B62964 A7
1 2 3 4
F912 B4F913 D5I901 A5I902 A8I903 F2I904 E3I908 B2
5913 A8
I914 B3
3962 C1
I909 A2I913 B2
A3
5901 C75902 D75910 B8
4931 E1
A3
6 7 8 9
A
B
C
A6
2934 B22935 E2
2933 B2
SU
BW
OO
FE
R
2938 F22936 D2
2983 E82984 E83930 B23931 A23932 B23933 B23934 B3
2945 D5
2947 B5
3940 F3
2946 D5
3941 F3
2930 B2
2942 C4
2931 A2
3939 F2
2939 E2
3938 F23937 E2
D
E
F
A
B
C
D
E
F
1901 C91902 D91904 F12911 A82913 B82914 A3
65 8 97
3953 D63955 C73956 C83958 A53959 C33960 B53961 C3
4930 A1
2979 B8
3974 C4
2960 C4
2971 D7
Fro
m H
ybrid
boa
rd
2982 C8
3972 E83973 A3
2977 A42978 B8
3971 D7
2955 C72957 C8
I915 C3
I920 C2
*
I918 D2
I921 C4
And
A3,A6
I934 C6I935 C7I936 C7I938 D6I941 A3I943 D7I945 D4I948 F3
CLASS D - AUDIO AMP(RES)
A3
I916 B4
A3
A4
680p
2971
F905
47n
2979
5913
3K9
3959
F904
3938
1K0
I901
Audio_Gnd
3956
I903
220K
3931
5914
3942
2K2
7901-2
5
67
8
4
2955
680pAudio_Gnd
Audio_Gnd
I928
100n
2914
F903
BC857B7904
2961
10u
Audio_Gnd
100K
Audio_Gnd
3960
6
3943
2K2
12345
B6B-PH-K
1904
470u
2949
P0102DA6905
1
2
3
I918
2939
3n3
39K
3952
5910
2960
22u
3K9
I930
I925
3934
I922
I941
Audio_Gnd
220n
2946
2950
47n
Audio_Gnd
F910
2964
100n
2K2
3958
Audio_Gnd
2983
15n
6n8
2938
2931
3n3
I938
100n
2913
2970
680p
13
8 10
9917
15
2
16
9
1
17
5
6
12
3
4
14
7
11
22K
ΦAMPLIFIERCLASS-D
TDA8925J7902
Audio_Gnd
3949
I914
3961
470R
3n3
2934
2977
22u
15n
2982
2942
100n
3971
4R7
Audio_Gnd100n
2965
I936
3935
120R
3933
10K
I916
GND-AUD
470n
2984
F912
2945
470u
3973
10K
3
21
8
4
7901-1
BZX384-C33
6962
3974
4K7
Audio_Gnd
3953
39K
1234
Audio_Gnd
1902
BZX384-C27
6904
Audio_Gnd
100n
2935
BAV99
6906
5902
33u
I920
I927
I913
I909
4R7
3955
7903PDTC143ZT Audio_Gnd
I915
I948
I934
3947
39K
2933
6n8
22u
2978
F901
100n
2911
4931
3932
9918
1K0
3937
220K
33u
5901
I924
I945
I926
3936
3K9
33K
3962
3941
10K
2953
1u0
3K9
3940
680p
2954
F913
I935
47n
2951
Audio_Gnd
3972
47n
2947
Audio_Gnd
1u0
2952
1901
123
I902
B3B-EH-A
2963
I921
I904
10p
Audio_Gnd
I908
2930
100n
2957
470n
Audio_Gnd
3n3
2936
Audio_Gnd
3K9
3930
Audio_Gnd
I943
22u
2948
3939
100R
4930
Vaudio+
Vaudio-
Vaudio-
AUDIO-L
VOL_MUTE
+Vaudio
AUDIO-C
AUDIO-C
VOL_MUTE
SUB_MUTE
-Vaudio
Audio_Gnd
-V
AUDIO-R
AUDIO-R
Vaudio-
-Vaudio
Vaudio-
AUDIO-SW
AUDIO-L
AUDIO-SW
-V
Vaudio-
-V
Vaudio-
Vaudio-
Vaudio+
Vaudio+
Vaudio+
Vaudio-
Vaudio+
Vaudio-
Vaudio+
Vaudio-
-V
+Vaudio
Vaudio+
A3A3
F_15040_003.eps2303053139 123 5895.4
Circuit Diagrams and PWB Layouts 27ES1E AA 7.
LSP: Audio Amplifier
RES
R
A6
A6
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
1910 B8
A6
1911 A82975 B12976 C22981 B22985 B22986 A62987 A52988 D52989 B32990 B32991 A52992 C32993 C32994 B62995 C62996 B72997 C72998 D53957 C73985 B23988 B33989 B73991 C23992 C33993 C74984 B27962 D27990 A47991 D49916 B2F911 D2
L
RESERVE
F950 B2F951 C2F952 A7F955 B7F956 B7F958 C4F959 D2I951 B4I952 C4I953 B3I954 C3I956 B7I957 C7I958 C6I959 B6I960 C6I962 B4I963 C7I964 D6I965 D5I967 A6
0V
15V7
-15V6
RES
+15V9
AUDIO AMPLIFIER
A6
+15V9
RES
A3
*
*
*
I951
VP
-
V|GND3
Audio_Gnd
Audio_Gnd
+Vaudio
INV128
9 INV2-
MUTE
2
OUT1 4
OUT2 6
7V
P+
5
7990TDA2616Q
1 INV1- I959
I960
220n
2989
220n
2992
I962
2986
100n
I967
I956
I957
3988
12K
Audio_Gnd
Audio_Gnd
220p
2976
2975
220p
4984
I965 I964
45
47n
2994 123
7962BC857B
1910
Audio_Gnd
47n
2995
F952
1n0
2990
47n
2996
3989
10R
F911
2993
1n0
2997
47n
Audio_Gnd
Audio_Gnd
3957
39K
2985
7991PDTC124ET
3991
Audio_Gnd
F95810K
2981
2988
100n
Audio_Gnd
2987
F959
100n
Audio_Gnd
Audio_Gnd
47u
2998
47u
2991
10R
3993
Audio_Gnd
F956
I958
I954
I952
Audio_Gnd
Audio_Gnd
Audio_Gnd
Audio_GndF951
10K
3985
3992
12K
-Vaudio
F950 I953
34
Audio_Gnd
I963
B4B-EH-A
1911
12
9916
AmpOutR
F955
AUDIO-L
+Vaudio
SUB_MUTE
AmpOutL
AUDIO-SW
AUDIO-R
VOL_MUTE
A4A4
F_15040_004.eps2303053139 123 5895.4
"985" ~ "999"
1911 USED USED USED USED1910 NOT USED NOT USED NOT USED NOT USED
4984 NOT USED NOT USED NOT USED NOT USED7962 NOT USED NOT USED NOT USED NOT USED9916 USED USED USED USED
A66ERF172X044ITEM
For Europe
29RFA68ERF182X044
SIZE/TUBE
28WSRFA66ERF172X044
28BLDA66EAK075X054
32WSRF
28ES1E AA 7.Circuit Diagrams and PWB Layouts
LSP: Tuner IF
+33V
+33VA6
B
D
33V
8 9
0V
*
A
10
5V
3239 B43240 C4
E
C
1V7
2 4 7
CONNECTOR
A5
6
5V
3
3 4
*For PP Europe
5
1270 B6
8 9 10
1
4V9
5248 B3
33V
5250 B55249 C3
PIP PANEL
COMPAIR
3241 B4
3242 C44220 E15247 C10
F250 B7I232 C4
I242 C4
Aut
osca
vem
CR
T
I247 E2I248 D4
FROM 1542 OF
A
B
C
POWER SUPPLY
I255 E2
I256 A31241 B61243 B8
1245 D2I259 C10I260 B5
I261 B55251 B56234 D36238 C2
6239 C29230 E19231 E1
9233 E19234 E1
4V9
F233 B2
F234 C3F235 C3
*
A5
F246 B7
F247 D2F248 A2
5V
I239 B4
I240 B4I241 B4
5 6 7I249 A8
I253 E2I254 E2
A5,A6
A6
A5,A6
5V
A6
*
TUNER
2
1V7
D
E
1232 B2
TUNER / IF
1
1246 D21268 B6
1269 B1
*
*0V
*
2236 D3 3238 D2
A6
2251 C32247 C92248 D32250 C3
2268 C7
TO 1937
TUNER
2232 C4
2233 D42235 D3
9235 E1
9646 E1F232 B2
F241 B5
F242 B5F243 B5
F249 A2
9646
**
*
I256
F247
5250
I2425249
220n2232
I239
F249
+5.2V
6238
F248
+5V
+5V
RT-01T-1.0B1269
F235
I240
10n
2268
1m02250
100R3241
9235
I253
123
F233
678
S3B-EH
1241
1245
B8B-EH-A
12345
F243
I260
+33V
4SCL
5SDA
9TU2
MB1
7MB2
1213
1415
2NC1
8NC2
10NC3
TEDE9-031A1232
1AGC
3AS
11IF1
6
I259
47n2233
I249
BZ
X38
4-C
3362
34
F246
10K
3238
6239
F234
223568u
F241
456789
10
1268
06JL-BT-E
123
+33V
5248
2247220n
3242100R
I254
I248
1246
I247
I241
SIN-21T-1.8S(B)
F250F242
47u
2248
4220
F232
9234
+8V
+5V 5247
I255
5u6
10
4SCLSDA
5
TU29
2251
4n7
11
MB16MB27
1213
1415
NC12 NC28 NC3
1243TEDE9-031A
AGC1
AS3IF1
2236
10n
5251I261
92319230
I232
B3B-EH-A
123
127022R3240
3239 22R
9233
IF-TER
SCL-S
SCL-S
SDA-S
SDA-S
SCL-SSDA-S
AGC
IRQ-DIGITAL
AUDIO-SL
A5A5
F_15040_005.eps2203053139 123 5895.4
NOT USED NOT USED NOT USED NOT USED
9235 NOT USED NOT USED NOT USED NOT USED
UV1316E/A1-4 UV1316E/A1-4 UV1316E/A1-4NOT USED NOT USED NOT USED NOT USED
NOT USED NOT USED NOT USED NOT USEDBAS316BAS316 BAS316
For Europe
29RFA68ERF182X044
SIZE/TUBE
28WSRFA66ERF172X044
28BLDA66EAK075X054
32WSRFA66ERF172X044
12431232 UV1316E/A1-4
1245 NOT USED NOT USED NOT USED NOT USED1268 NOT USED NOT USED NOT USED NOT USED1270
9230USED USED USED USED
6238 BAS316
9231
ITEM
Circuit Diagrams and PWB Layouts 29ES1E AA 7.
LSP: Interfacing
VOVI
VDIS
GND
COM
OUTINR
ES
RES
RES
RES
B
C
D
E
F
G
H
I
J
K
A
B
C
D
E
F
G
H
I
J
K
1607 H11608 I11620 A131621 A91623 B21624 C21625 D2
RES
TO 0215 OF
POWER SUPPLY
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
RES
RES
SIDE I/O PANEL
PANELMAINS SWITCH
TO 0242/0247 OFOR
PANEL
1629 C121630 C121631 D131635 D121645 E131646 F131669 H31670 I11683 F121684 E22663 H112666 B122667 B122669 B122670 B122671 B122672 B122673 B132674 C72675 E122676 H72677 H72678 H72679 H6
0V
TO A10
2V5
3V5
4V5
2680 H82681 H72682 H62688 E62689 E72690 E82691 C82692 C52693 H92694 H92695 H102696 H112697 H112698 H63623 B33624 B33625 C33626 C33627 H63628 H63629 A53630 A53670 D73677 H63683 C53685 D63686 G6
0V
A6
0V0V
A3
A6
0V
A6
3687 H63688 G64624 D34625 D34683 H124684 F94694 A115680 H85681 E85682 C75683 H125684 H125685 H105686 H105687 H25688 H36681 G96682 H96683 C66684 H56685 H67673 E77674 B67675 A6
CRT PANEL
TO SSB PANEL
3V5
INTERFACING
3V5
3rd
SC
AR
T H
DM
I
0V
A6,
A7
*
*
A7
TO 1936 OR 0240 OF
5n6
TO 1340 OF
0V
A6
7676 B59620 A109621 A109626 A119664 C39669 E39670 E39671 F39672 F39674 C39675 E69686 E69691 H4
A5
A5
A6
3V5
A6,
A7
A6
SC
AR
T S
ET
ON
LY
0V
A6
0V
A6
A6
F620 A13F627 B12F628 B12F629 C12F630 C12F631 C12F632 B12F672 C12F673 C7F674 I12F675 I12F676 I12F677 H3F678 E6F679 E7I602 E12
PANEL
A7
A6
A6
A7
A7
3V 5V1
I603 E12I604 H7I605 B5I606 D6I608 B2I609 D3I610 F2I611 B11I612 B13
A3,
A4
SC
AR
T S
ET
ON
LY
A6
0V
A6
A7
A5,
A6
*
A7
SC
AR
T S
ET
ON
LY
0V4V
A6
A5,
A7
A6
TO A10
RE
S
0V8
I616 D3I621 A12I622 A12I623 A12I624 A12I625 A12I626 A12I627 C3I628 C3I629 C2I630 C3I631 C2
270K
A5,
A6
0R
A2,
A6A7
A6
A6 A6
4V1
A6
A6,
B1
0V
A2,
A6
A6
A6
A6
A6
0R
I632 E2I633 F2
I634 C5I635 A10I636 C7I637 I4I638 H6I639 H6I640 I6I650 H9I672 H3I674 H4I677 H7I678 H1
A7
1V1
A2
0V
SC
AR
T S
ET
ON
LY
SC
AR
T S
ET
ON
LY
0V
A7
A6
2FH
PA
NE
L,
5n6
A7
SC
AR
T S
ET
ON
LY
2T PIP DW
*
4V3
*
A6
3V3
A6
A6
A2,
A6
I680 H8I685 B3I686 C3I687 C3I688 H9I689 H6I690 I7I691 I10I693 B7I694 C6
0V
*
1V6
0V 3V6
A6
A6
A6,
A7
0V0V
A6,
A7
0V
A6
A6
A6
A6
A6
A6,
B1
I695 E8I696 H10
0V
5n6
*
0V
A2,
A6
5n6
A6,
A7
A6
A3,
A4
A3,
A4A7
2T PIP DW
SC
AR
T S
ET
ON
LY
PANEL
2V3
A1,
A6
A2,
A6 A3
A6A6
3V5
0V 0V
A2,
A6
A2,
A6
0V
A7
TOP CONTROL
2V8
0V
A6
A6,
B1
1V4
A6
ITV
0V
*
2V7
0V
A6
2T PIP DW
FRONT INTERFACE
2V7
TO
0V0V 3V2
5V 0V
0V
0V
A6
3V
TO PIXEL PLUS
0V 0V
PANEL
A7
4V5
8V1
5n6
TO A10
A7
0V0V6V3V
A7
0V9
FROM 1506 OF
A6A6
A6A6
0V
TO 0203 OF
A6
A6
A6
A6FRONT INTERFACE
A1,
A6
A5 A6A7
0V
A7
A6 A7
0V5V5V2
*
PANEL
0V0V
*
0V5V7
2T PIP DW
3V1
4683
9691
9664
3685
1K0
5687
I688
2666
2667
Vaux_GND
11
23456789
1620
1
10
3
+8V
1683
B3B-EH-A
12
2678
100n
9675
Vaux_GND
I635
26911u0
3670
6R8
I685
SUP_GND
7675SI2305DS I624
5688
789
16 17
18 19
101112131415
23456
15JL-BT-E
1631
1
I632
9672
+8V
2694
1n0
10u
Vaux_GND
+5.2V
2689
5680
GND-LINEDRIVE
F629
5681
I691
SUP_GND
F67
6
1n0
2695
RT-01T-1.0B
F672
F631
1646
GN
D-L
INE
DR
IVE
I637
2696
1n0
2677
SUP_GND
+3V3
3686
Vaux_GND
+3V3
3456
SUP_GND
B6B-EH-A
1623
12
I677
9674
I640
RT
-01T
-1.0
B16
69
Vaux_GND
I634
2670
2673
15p
15p
2672
F67
4
I621
I625
SU
P_G
ND
F673
100p
2682
100R
3688
SUP_GND
3626
100n
2681
BZ
X38
4-C
6V2
6684
I696
3687100R
F67
5
I622
100n
2680
2697
220p
123
+5.2V
B3B-EH-A
1684
2345
I687
B5B-EH-A
1608
1
5682
3629
68K
7674KA78R08
3
4
12
3624
+5.2V
Φ10K
5686
I672
5685
I638
+5.2V
I695
BC847BW7676
+9VA
I690
2663
220p
BZ
X38
4-C
5V1
6685
45
I631
B5B-EH-A
1635
123
F632
I680
F679
12345
9626
1629
697 70 71 72 73 74 75 76 77 78 798 8094 40 41 42 43 44 45 46 47 48 495 50 51 52 53 54 55 56 57 58 596 60 61 62 63 64 65 66 67 6810 11 12 13 14 15 16 17 18 192 20 21 22 23 24 25 26 27 28 293 30 31 32 33 34 35 36 37 38 39SIMM1670 1
26751n0
I626
I612
4625
12345
B5B-EH-A
1621
2671
I627
I623
I636+8VS
Vaux_GND
Vaux_GND
I605
I611
F627
+5V
9670
I604
268847u
I694
1234
9686
F620
B4B-EH-A
1607
8K23623
+8V
Vaux_GND
I633
2690
789
1u0
1
10
23456
9669
B10B-EH-A1630
6682
2698
47n
BZ
X38
4-C
3V3
I609
I693
1
3 2
LD1117V337673
3625
3456789
1625
12
9671
B9B-EH-A
2676
4u7
F677
123
Vaux_GND
1645
1n0
2693
3683
1K0
I610
+5V
I608
3677
PO
WE
R_D
OW
N
+3V3
10K
9620
9621
+8VI603
+9VA
4684
I606
+5V
12345
1624
I650
68K
3630
1n0
2679
I674
5683
6u8
4624
+8V
+5.2V
SUP_GND
I628
F628
10u2674
47u2692
I686
+5V
I629
BA
V70
12
3
I602
6681
6u8
5684
I678
I630
2669
BAS316
I689
6683
3628
100R10
0R36
27
F678
I639
I616
+3V3P
4694
F630
SDA-S
CU
TO
FF
EW
_DR
IVE
RC
L-S
C2_
AV
2-IN
EH
T-I
NF
O
Y_C
VB
S-F
RO
NT
-IN
Y_C
VB
S-S
C2_
AV
2-IN
CV
BS
-SC
1_A
V1-
IN
SCL-S
HEADPH-R
R-FRONT-INFRONT-DETECTL-FRONT-IN
C-FRONT-IN
Y_CVBS-FRONT-IN
SV
M-R
OT
G-S
C1-
IN_Y
-IN
B-S
C1-
IN_U
-IN
CVBS-PIP_TUN1-2-CVBS-IN
CVBS-TER-OUT
PIP-MONO
KEYBOARD
INP
INN
ST
AN
DB
Y
R-S
C1_
V-I
N
FB
L-S
C1-
IN
SVM-ROT
INN
EW_DRIVE
EHT-INFOHFB_X-RAY-PROT
STANDBY
B-CRT
G-CRT
R-CRT
CV
BS
-SC
2_M
ON
-OU
T
HDRIVEINP
POWER_DOWN
VGUARD
C-FRONT-IN
Y_CVBS-FRONT-IN
G-C
RT
B-C
RT
SE
L-S
VH
S-R
R_S
TA
TU
S2
AU
DIO
-R
AU
DIO
-L
C-F
RO
NT
-IN
SC
L-S
SD
A-SAG
C
CV
BS
-PIP
_TU
N1-
2-C
VB
S-I
N
PIP
-MO
NO
IF-T
ER
GND-AUD
R-C
L_V
L-O
UT
C-S
C2_
SV
HS
-IN
L-C
L_V
L-O
UT
HEADPH-L
R-S
C1_
AV
-OU
T
R-S
C2-
OU
T
R-S
C2_
AV
2-IN
L-S
C1_
AV
-OU
T
L-S
C2-
OU
T
HF
B_X
-RA
Y-P
RO
T
HD
RIV
E
R-C
RT
L-S
C1_
AV
1-IN
R-S
C1_
AV
1-IN
KEYBOARD
KEYBOARD
KE
YB
OA
RD
ON
-OF
F-L
ED
RC
LIGHT-SENSOR
LIG
HT
-SE
NS
OR
CV
BS
-TE
R-O
UT
AU
DIO
-SW
AU
DIO
-C
AU
DIO
-SL
ON-OFF-LED
CUTOFF
CVBS-SC1_AV1-IN
C-SC2_SVHS-IN
Y_CVBS-SC2_AV2-IN
VO
L_M
UT
E
SC
1-S
TA
TU
S
P50
DY
N-P
H
TIL
T
IRQ
-DIG
ITA
L
Y-S
CA
VE
M
FR
ON
T-D
ET
EC
T
L-F
RO
NT
-IN
R-F
RO
NT
-IN
HE
AD
PH
-L
HE
AD
PH
-R
GN
D-A
UD
--
4624
SALSA
JMP
JMPJMP
9674
9626
USED USED USED USED
USED USED USED USED
NOT USED NOT USED NOT USED NOT USED
--
9675
JMP
--JMP
--
PIXEL PLUS --
968646259664
--JMP
USED USED1625 NOT USED NOT USED NOT USED NOT USED1645
46944683
9620NOT USED NOT USED NOT USED NOT USED
9621 USED USED USED USED
NOT USED NOT USED NOT USED NOT USED
USED USED USED USED
USED USED USED USED
ITEM
For Europe
29RFA68ERF182X044
SIZE/TUBE
28WSRFA66ERF172X044
28BLDA66EAK075X054
32WSRFA66ERF172X044
16231620
1624 USED USED
A6 A6
F_15040_006.eps2504053139 123 5895.4
30ES1E AA 7.Circuit Diagrams and PWB Layouts
LSP: SCART I/O
AUDIO -SURROUNDOUT
A6
A6
G
1701-1 A7
1701-2 A3
1703 B3
1704 C7
1705-1 D2
1705-2 D1
1705-3 D2
2703 B2
2704 B2
2705 B6
2706 B6
2708 B4
2710 C8
2711 C5
2712 D7
2713 E3
2714 E2
2715 F2
2716 E6
2717 B8
2718 B8
2719 B4
2720 B4
2721 F6
1 2 3 4 5 6 7
OUT
SCART I/O
INPUTs
2V1
RES
RES
8
1 2 3 4 5 6 7 8
A
B
C
D
E
F
G
A
B
C
D
E
F
A6
0R
A7
2722 E7
3701 A1
3702 A2
3703 A5
3704 A6
3705 A3
3706 A7
3707 A1
3708 A2
3709 A5
3710 A6
3711 B3
3712 B7
3713 B1
3714 B3
3715 B2
3716 B4
3717 B6
3718 B7
3719 C8
3720 C3
3721 C3
3722 C3
3723 C7
3724 C4
3725 C7
3726 D3
3727 D3
A6
0R
0R
3728 D1
3729 D5
3730 D4
3731 D7
3732 D3
3733 D7
3734 E2
3735 E3
3736 E7
3737 E2
3738 E3
3739 E6
3740 E7
3741 F2
3742 F3
3743 B3
3744 B7
3745 B7
3746 B4
3747 F6
3748 F5
3749 F6
5704 E7
5705 F6
5706 E2
5707 F2
A6
(SCART1)
A6
5708 F2
6701 B2
6702 B5
6703 C5
6704 C8
6705 C4
6706 C8
6707 D3
6708 D4
6709 D1
6710 D5
6711 D3
6712 D8
7701-1 E6
7701-2 F6
9701 E6
9702 B1
9703 C3
9704 C3
9705 D4
9706 D7
F701 A2
F702 A6
F703 A3
F704 A7
RES
0R
RES
(SCART2)
A6
A6
AUDIO - L
F705 A2
F706 B6
F708 B7
F710 B7
F711 B2
F712 C6
F713 C3
F714 C6
F715 C3
F716 C7
F717 C3
F718 D2
F719 D6
F720 D3
F721 D7
F722 E1
F723 E2
F724 E2
I701 A2
I702 A6
I703 A2
I704 B6
I705 B4
1V6
A6
OUT
A6
A6
I707 B2
I708 B6
I709 B4
I710 B8
I711 D5
I712 E3
I713 E7
I714 E6
I715 E2
I716 F2
I717 F2
I719 A1
I720 B1
I721 A4
I722 B3
I723 C4
I724 C4
I725 C4
I726 D4
I727 E4
I728 E4
I729 F4
I731 A5
I732 A8
RES
A6
A6
I733 A5
I734 B8
I735 B6
I736 C8
I737 D8
I738 D6
I739 D6
I740 D6
I741 B31V6
2V7
*
*
*
A6 A6
A7
A7
A6
A6
A7
0R
A6
A6
A6
A6
*
*
A6
AUDIO - R
8V1
8V1
0R
*
*
A6
*
A6
I741
2716
1u0
3715
75R 00
01
1703
560R3747
3720
2720
1n0
3713
3725
75R
I710
3745
33K
3710
150R
2713
1n0
F718
F710
F722
3742
150R
3n3
2714
75R
3733
F719
I728
1704
0001
6
3
F704
2705
1705-3
6B
7B
8B
9B
1n0
16B
17B
18B
19B
2B
20B
21B
3B
4B
5B
1B
10B
11B
12B
13B
14B
15B
F706
ROW_B1701-2
PPTV/90
I729
3727
75R
I721
I712
3730
3702
150R
F711
150R
3708
1n0
1705-14
1
2718
390p
2711
39K
37183717
100R
PD
Z6.
8-B
6702
1n0
2717
3712
100R
PD
Z6.
8-B
6711
9706
5706
2704
1n0
I714
I704
3719
10K
3731
I717
I702
F720
6703
PD
Z6.
8-B
150R
3707
75R
3721
F714
F713
33K
3743
9701
150R
3734
F716
I737
I7363722
9703
6708
PD
Z6.
8-B
I724
47p
2721
100R
3748
I707
I713
PD
Z6.
8-B
6706
75R
3729
I708
3714
39K
100R
3706
75R
3726
150R
3738
3746
33K
3735
150R
I739
2710
I723 330p
3723
F712
5708
4u7
5705
PD
Z6.
8-B
6709
3740
10K
3736
100R
I731
I733
1n0
2715
F701
2706
1n0
IMX1
7701-15
3
4
10K
3749
I734
I732
7701-2
26
1
6704
BZ
X38
4-C
12
IMX1
I726
3701
150R
I711
I705
F721
F715
3705
100R
I719
1n0
F703
I709
2703
F705
I722
I725
I715
I738
I740
6701
PD
Z6.
8-B
1705-25
2
F708
9702
6707
PD
Z6.
8-B
330p
2708
I727F724
I735
33K
3744
560R
3739
1u0
2712
21A
3A
4A
5A
6A
7A
8A
9A
12A
13A
14A
15A
16A
17A
18A
19A
2A
20A
ROW_A1701-1
PPTV/90
1A
10A
11A
2722
47p
3716
10K
I703
PD
Z6.
8-B
6705
F717
1n0
2719
75R
3728
3703
150R
3732
75R
150R
3741
9704
9705
I720
F702
F723
I716
150R
3709
150R
3704
5707
PD
Z6.
8-B
6710
3711
100R
3737
150R
5704
4u7
100R
3724
6712
PD
Z6.
8-B
CVBS-TER-OUT
R-SC2-OUTI701R-SC1_AV-OUT
L-SC1_AV-OUT
R-CL_VL-OUT
AUDIO-SL
L-CL_VL-OUT
R-SC2_AV2-IN
L-SC2_AV2-IN
FBL-SC1-IN
C-SC2_SVHS-IN
P50
L-SC2-OUT
SC1-STATUS
L-SC1_AV1-IN
SEL-SVHS-RR_STATUS2
B-SC1-IN_U-IN
SC2-CVBS_MON-OUTTER-CVBS-OUT
R-SC1_AV1-IN
C-FRONT-IN
TER-CVBS-OUT
SC2-CVBS_MON-OUT
G-SC1-IN_Y-IN
R-SC1_V-IN
CVBS-SC1_AV1-INY_CVBS-SC2_AV2-IN
CVBS-SC2_MON-OUT
+8VS
+8VS
A7 A7
F_15040_007.eps2203053139 123 5895.4
A66EAK075X05428BLD
USED USED
29RFA68ERF182X044
SIZE/TUBE
28WSRFA66ERF172X044
32WSRFA66ERF172X044
9702 USED USED USED USED3725
970397049705 USED USED USED USED9706 USED USED USED USED
USED USED USED USED
USED USED USED USEDUSED USED
ITEM
For Europe
Circuit Diagrams and PWB Layouts 31ES1E AA 7.
Layout LSP (Top Side)
F_15040_008.eps2203053139 123 5895.4
1232 E71241 E71243 E61245 E51246 E71268 E51269 E71270 E5
1401 C51402 A61404 B41452 C61500 A11501 A11502 A11503 C2
1504 C11505 A11506 D31532 B21538 D41542 B31543 B31544 B3
1550 B21551 C21552 C31607 D61608 D61620 E41621 E61623 D4
1624 D41625 D41629 D61630 D61631 D61635 D61645 D41646 E4
1669 D61670 E51683 E41684 E61701 D71705 E71901 D21902 D2
1904 E41910 E31911 E32235 E62248 E62250 E62402 A62403 A7
2404 C52405 A62406 A62407 B42411 A52412 A52413 B52414 A5
2416 B52417 B52418 B52419 B52431 A52449 B72450 A72451 A7
2454 A72458 C62460 A72461 C62468 C62469 C62488 A52489 C6
2490 C62500 A12501 C12502 C12503 A32504 A32505 A32506 B2
2507 A32508 C12510 C32511 A42514 A42523 B22524 D32528 B3
2535 C32536 C32537 D22539 C32540 C22541 C22542 B32544 B2
2551 B42552 C42561 C32562 C32563 C42565 C32570 B32580 C2
2584 D32588 C32674 D52676 D52688 D52689 D42692 D52945 D2
2948 D32949 D32957 D22960 E22977 E22978 E22984 D22991 D4
2998 D43240 E63401 C53402 D53403 B43412 A53414 A53415 A5
3418 C53419 B73421 C43422 C53425 C53426 C53432 B73433 B6
3434 C53450 B73451 B73455 A73456 A73458 B63462 C63466 C7
3467 C63468 C63469 C63470 C63471 C63472 C63473 C53477 B6
3485 B63486 B73487 B63488 C53490 A43492 C53499 C53501 C1
3502 A13503 B13504 A13505 A13507 C13508 B23509 C13510 B2
3511 B43513 A43514 A43515 A43516 A33519 B33520 A33523 C2
3524 B33525 B33529 B23531 B23535 B23536 B23550 A43563 C3
3566 D33571 C43575 B43579 C43587 C33592 B23598 B23627 D6
3628 D63670 E63683 D53687 D63701 C73703 C73713 D73714 D7
3717 D73720 D73722 D73724 D73725 D73726 D73728 D73729 D7
3730 D73731 D73930 E23933 E33936 E23955 E33957 D33959 D3
3971 E25247 E55401 A55402 A55406 B45408 B55409 B55410 B5
5411 B55450 B65452 C65453 C75455 A55456 C65500 B15501 B1
5502 A25504 C25505 D35506 B15511 A35512 B45532 B25551 B4
5552 B45561 B35562 B35564 D25565 D35566 D45567 D35680 E5
5681 D55682 D55683 D45684 D45901 D35902 D25913 D25914 D26404 B56426 C56452 A76453 B66456 A76457 C66469 B66471 C56474 C66476 B66480 C66500 A36509 C36511 A46535 C26536 C36537 C26548 C26549 B46550 C36551 C46562 C36563 B36575 A36582 C26905 E37403 C47405 A57406 C57455 C67512 A47513 B47516 C37525 B27542 C37571 B47673 D57674 D57902 E27990 E49230 E59231 E59233 E59234 E59235 E59401 B49402 A59410 B59411 A59412 B59413 C69415 C69417 C79422 C69423 D69424 C59425 C69426 C69427 C59429 A59434 C49435 C69436 C69437 C59438 C59440 C59441 C69442 B59443 C79444 B59447 C69500 A19501 B19502 B19503 B19504 B19506 A29507 D39511 B29512 D39513 D39514 B39524 D39527 C49530 C49532 D49533 D39535 B39539 D49540 B39543 A39544 A39547 B39548 A49549 C49552 D39553 D39554 C49555 C39556 C39557 C4
9560 C49561 D49562 D49570 A29574 B29620 E49621 E49622 D49623 D59624 D49625 E69626 E49627 D59628 D59629 D49630 D59631 E49632 E49633 E69634 D49635 D59636 E49637 D49641 E49642 D49644 D69646 E59650 D59653 D69654 D69655 E49656 D49658 D69659 D69660 E69661 D59662 D59663 D69665 D69666 D69667 D49668 E59669 E59670 E69671 E69672 E59673 D49674 D49675 D59677 E49680 D49681 E49682 E49683 E49685 E49686 D59687 E59688 E59689 E69690 E49691 E59692 E59693 E59694 E69695 E69696 E59699 D69702 D79703 D79704 D79705 D79706 D79720 D79721 C79722 D79723 E69903 E39904 D39905 D49906 D49907 D29908 E29909 E39910 D49916 E49917 E49918 E49942 D39949 E29951 E29952 E49953 D39990 D3
32ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout LSP (Overview Bottom Side)
F_15040_009.eps2203053139 123 5895.4
Part 1F_15040_009a.eps
Part 2F_15040_009b.eps
Part 4F_15040_009d.epsPart 3
F_15040_009c.eps
2232 A72233 A62236 A72247 A52251 A62268 A52409 E4
2410 D72422 C52425 C52427 D52432 C62437 C52448 D7
2452 C72453 C72457 D72459 E72462 C62463 C62464 C6
2465 C72466 D62470 C62471 C62473 C72476 D62477 D6
2478 C42479 C62487 D62492 D62493 E72494 D62495 C5
2496 C52497 C42498 B62499 C62509 D32512 E42513 E4
2515 D42516 E42517 E42519 D22520 D32521 D32522 C3
2526 E42538 C22543 C32546 C42553 C32564 C32571 D4
2572 C42575 C32576 C42577 C42578 C32579 C42582 C3
2583 D32585 C32586 C32587 D42589 B32590 C42591 C4
2663 B42666 A42667 A42669 A42670 A42671 A42672 A4
2673 A42675 B62677 B52678 B52679 B52680 A52681 A5
2682 B52690 B52691 B52693 A52694 A52695 A52696 B5
2697 B42698 A52703 C72704 B72705 C72706 C72708 B6
2710 B72711 A72712 A72713 A72714 A72715 A72716 A7
2717 B72718 C72719 C72720 B72721 A72722 A72911 B2
2913 B22914 A22930 A22931 A22933 A32934 A22935 A2
2936 A22938 A22939 A22942 A22946 B22947 A22950 B3
2951 A22952 A32953 A22954 A32955 A22961 A32963 A3
2964 B32965 B32970 A22971 A22975 B42976 B42979 A2
2981 A32982 B22983 B22985 B32986 A42987 A32988 A4
2989 A32990 A42992 B32993 B32994 A32995 A32996 A3
2997 A33238 A63239 A73241 A73242 A63408 C43416 E5
3417 C53423 C53424 C53435 C53436 C53437 C53443 C6
3452 C63453 E73459 C63460 C63461 C63463 C63465 C6
3474 D63476 C63479 C53480 C53491 C53512 E43517 E4
3518 E43521 D33522 E43526 D23527 D33528 D23530 D3
3532 D23533 D23534 C33537 B33538 D23540 C43541 C2
3542 C33543 C33544 C33545 B33546 C43547 C43548 C3
3549 E43551 C33552 C33553 C33554 C43565 C33567 D3
3568 D33573 D43574 D43576 D43580 D33581 C43583 C4
3584 C43585 C43586 C43588 D33589 C33590 C43591 C4
3593 D33594 D33595 D33596 D33597 D33623 B43624 B4
3625 B43626 B43629 B53630 B53677 B53685 B53686 B53688 B53702 C73704 C73705 C73706 C73707 B73708 B73709 C73710 C73711 B73712 B73715 B73716 B73718 B73719 B73721 B73723 B73727 B73732 B73733 B73734 A73735 A73736 A63737 A73738 A73739 A73740 A73741 A73742 A73743 C73744 C73745 C73746 B73747 A73748 A73749 A73931 A23932 A23934 A33935 A33937 A23938 A23939 A23940 A23941 A23942 A23943 A23947 A23949 A23952 A33953 A23956 B33958 A33960 A33961 A33962 B33972 B23973 A23974 A23985 A33988 A33989 A33991 B33992 B33993 A34220 A54403 D74420 B54421 C64501 E44550 C34624 B44625 B44626 A64628 A54630 A64683 B44684 A54694 A44695 B54720 B74721 C74722 B74723 B74905 B34930 A44931 A44973 A24974 A34984 A45248 A75249 A75250 A75251 A75685 A45686 A45687 B65688 B65704 A75705 A75706 A7
5707 A75708 A75910 A26234 A66238 A66239 A66403 D76405 C56424 C56425 C56427 C56458 C66459 C66461 D76464 C46465 C46466 D66478 C56512 C36514 E46532 D26533 D26538 D36539 D36541 C26564 C36565 C36567 D36574 C46576 C46578 D36581 C36681 B56682 B56683 B56684 B66685 B56701 B76702 C76703 B66704 B76705 B66706 B76707 B76708 A76709 B76710 A76711 B76712 B66904 A26906 A36962 B37404 C47407 C67408 C67456 C67486 C67510 D37511 E47517 E47532 D37535 B37541 C27545 C47547 C47548 C47549 D37561 C37562 C37567 D27573 C47575 C37576 C47583 C47584 C47675 B57676 B57701 A77901 A27903 B37904 B37962 B37991 A39664 B49701 A7
Circuit Diagrams and PWB Layouts 33ES1E AA 7.
Layout LSP (Part 1 Bottom Side)
Part 1
F_15040_009a.eps310305
34ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout LSP (Part 2 Bottom Side)
Part 2
F_15040_009b.eps310305
Circuit Diagrams and PWB Layouts 35ES1E AA 7.
Layout LSP (Part 3 Bottom Side)
Part 3
F_15040_009c.eps310305
36ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout LSP (Part 4 Bottom Side)
Part 4
F_15040_009d.eps310305
Circuit Diagrams and PWB Layouts 37ES1E AA 7.
SSB: If & SAW Filter
NCMT
NCMT
NCMT
AGC
HPF
IF PLLCALIBRATOR
VCO
LPF
SIF
I/V
BPF
LPF
LPFAGC
DET
VSWTO
VIDEOLPF
LPF
AFC AFAAFB
LOCK
TRAPGROUPDELAY
LPF2ndSIF A/D
SLPM
PMOD
QSS QSSOUT
DSIF,DDIF
ST1...0 GD
VAI, VA1...0
AUDIO SWITCHTO AM INTERNAL
LOCK
SOUND
2nd SIF
AGCDET
PMOD,AGC O/IGATING
FFI,IFO IFA/B/C,IFLH
F138
5101 C1
C
D
B
5102 A1
100MHZ/220R
A
5112 B2
91113-B A10
1114-A B51114-B A101115 D10
4 5 6 7 8 9 10
A
I108 E62132 B10
6101 C2
6102 C4
2134 A2
2136 C10
2135 B1
2137 B22133 B1
E
1112-A A41112-B A10
2101 C1
2102 A12103 D22115 D52119 B2
2126 A62127 A62128 C6
B
C
D
E
7100-C A6
2130 E7
IF & SAW FILTER
3132 D74104 B3
4102 A33116 D63112 D3
3131 D7
NC
4103 B33133 E7
B18-5
4101 A33104 B33105 D3
3106 D1
4108 A34107 A3
1
TO
/FR
OM
111
5 O
F P
IP P
AN
EL
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 C43103 B3
B2-12
3137 C103138 A6
3134 B13135 B9
5 6 7 8
7101 D27104 D4
7131 B10F114 E10
2138 A25128 B6
2V
2V
2V
2V2
2V
FOR PIP/DWONLY
5129 B6
I101 B1I102 A4
I103 A4I104 B6I105 B6I106 C6
I107 C9
F115 D10F116 E10
F132 E10F134 D6F135 A9F137 D3
F138 B4F139 A8
1 2 3 4
1113-A B45134 A25135 A2
4V9
0V
FOR /93 ONLY
1V9
1V9
1V97V9
2K2
3104
213510u
1415 11
1216
17
4107
OFWK3955L1114-B
1184
56
910
13
45
69
1013
1415 11
1216
17
1617
1113-BOFWK3953L
118
1184
56
910
1314
15 1112
+5Vd
OFWK9656L1112-B
+8Vc
+8Vc
+8V +8Va
+8Va
213210n
7101
3106
27K
3137
1K
BC847BW
211910n100n
2133
5112
313410R
100R3135
7131BC847BW
100n
2127
6102
+5V
2K23101
1SS356
21031n
22n2130
I102
+5V
I101
789
2136
10u
123456
F139
1115
1u05128
2126
100p
3
7
8
+8Va
F137
3138
390R
OFWK3955L1114-A
2
10n
2101
3132100R
+5Vd
+5Va
+5Vb
+5Vb
15K3133
4102
+5Va
4108
21282u2
6K8
5101
0u82
5102
3103
100n2138
100u2137
I108
I107
4101
I106
I105
3
7
8
4104
I104
2
3
7
8
OFWK9656L1112-A
2
2115
10n
1113-AOFWK3953L
313110K
51291u0
I1034103
F135
5134
2134100n
210210n
47K3112
BC847BW7104
3105
31022K2
22K
5135
1SS356
220R
3116
+8Va
6101
SIFAGC101
SIFINN100
SIFINP99
TE
ST
PIN
1
124
TUNERAGC105
VC
C-I
F
110
VCC-SUP 118
VCC1-VSW 122
VCC2-VSW 125
VIFINN108
VIFINP107
VIFPLL111
F134
2NDSIFAGC 114
2NDSIFEXT113
CVBSOUTIF 120
DTVIFAGC 102
DT
VIF
INN
104
DT
VIF
INP
103
DT
VIF
PLL
109
DTVOUTN 117
DTVOUTP 116
FUSE4106
FU
SE
5
119
GN
D-S
UP
121
GN
D1-
IF
112
GN
D2-
IF
115
7100-CMPIF
+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.eps2111033139 123 5536.2
38ES1E AA 7.Circuit Diagrams and PWB Layouts
SSB: Video Source Selection & Data Link
VIM
CVBS/Y PRIM
C- PRIMCLPPRIM
LPF
SEC 3...0CVO 3...0
CVBS SEC
CLAMP LPF
CLPSEC
A
D
ICPL
DM 1...0
PRIMLR
DIG2FhYyuv
MHz54
DATALINK
3
MHz54
SIF2nd
A/DHV-P/STEST
DIG
DATALINK
3
RGB
SOURCE
SWITCH
CLAMP
HDTVCLONCLPS
LEVELADAPT
INVERSEPAL
MATRIX
LPF
LPF
LPF
A
D
A
D
DM 1...0
SECMONO
DIG
U,VU
V
Yyuv
DVDMAT
CLPyuv
ICPL
ICPL
RSEL
DATALINK54MHz
DM 1...0 297MHz
Yyuv2Fh
PLL
CIRCUIT
CLP PRIMCLP SECCLP yuv
CLPS
YUV
CLKPLL
27MHz
TIMING
ROK
IDENTVID CVBS-OUTA
CLAMP LPF
A
D
+
PRI 3...0
DATALINK
1
BC857B7062
100n
2085
B1-12
876543
D
B1-4
F
B5-25
2060 A32062 B42063 C2
2064 C22065 C22066 D22067 D2
21 9
F078 E1F080 B4
F088 F7F089 F7I061 C3I062 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 E22079 F42074 E2
2075 E2
2076 E22078 E3
100MHz/220R
B3-15
1 2 3 4 5 6 7
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 F35063 A87060-A A3
7060-B B27062 B87063 B7
2081 F3 7100-B B4
2083 C4F060 B1
2085 D3
2086 D42087 C22088 A83060 A2
3061 A83062 B33063 B33064 C2
3065 C23066 A83067 B73068 B7
3070 B13071 B33072 E33073 E3
3074 E34062 E24152 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 D22069 D22070 D22071 D2
2072 E2
B5-39
B5-41
B18-16
100HZ/220R
B5-42
B18-23
TO/FROM 1002 OF 2Fh IO PNL
ORTO/FROM 1103 OF 3RD SCART PNL
(CONNECT TO 3D COMB FILTER)
B18-24
2V8
2V22V2
1V6
1V4
1V9
0V3
0V3
0V3
0V3
0V3
0V4
F064 B7F074 E2F075 F1
F076 E1F077 E1
3072 100R
150R3065
2K23066
S1 S2
2078100n
100n2083
S3 S4
2084100n
F080
F078
F076
F077
100n2063
7060-BBC847BPN
+5V
100n
100n2075
100n2073
2074
2072 100n
F089
100n2069
F088
3063180R
7060-ABC847BPN
2u22088
1K03068
1K03067
100n2067
4152
100n2070
4062
3064150R
+5V
100n2087
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
MPIF7100-B
27 B|PB|U-1
B|PB|U-232
5 C-3
9 C-4
16 C-COMB
126 CVBS-1
1 CVBS-2
12 CVBS-DTV
123 CVBS-IF
5061
100R3070
100R3074
3073 100R
5060
2079100n
2081100n
2076
+5V
30602K2
30612K2
100n
100n2064
100n2071
I062
3062180R
2066 100n
I061
234567
+5V
1116
1
2086100n
F074
F064
F075
7063BC857B
F060
I063
I064
2u22082
2062 100n
+5V
2060100n
5062
YOUT-COMB
FBL
H-2FHV-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.eps030903
3139 123 5536.2
S1
100mV / div DC20µs / div
S2
100mV / div DC20µs / div
S3
100mV / div DC20µs / div
S4
100mV / div DC20µs / div
Circuit Diagrams and PWB Layouts 39ES1E AA 7.
SSB: Audio Source Select
MIC
1
AM
LPF
LPF
LPF
AD
AD
AD
DLINK2MIC1/L2/PIPM
MIC2/R2
AUDIO SWITCH( ANALOG OUT )
AD
MICAMPS
AUDIO SWITCH( DIGITAL OUT )
AM
SO
UN
D
LPF
DLINK1
L1/AM-INT
R1/AM-EXT
AUDIOAMPS
6.75 MHz
I009
I010
I005
6030BAS316
10u
2006 A82007 B22008 B2
TO
/FR
OM
110
4 O
F
87
OR
3 4 5 621 9
3026 C93027 D93028 A10
3031 D103032 D10
B18
B18
3019 A13022 D93024 E9
3030 C103029 A10
3008 E33009 E3
3010 A23011 B23012 E33013 E33016 A13018 A1
B3-59
B10-65
B10-64
B10-63
B18-66
B18-61
B18-49
B3-58
0R
B18-67
B10-62
2039 D92040 D92041 E4
2042 E42043 E32044 E32045 A22046 A22047 A2
2048 A22049 A22050 A22051 B23002 D23003 C2
3004 C23005 C23006 A93007 A9
D
4 5 6
AUDIO SOURCE SELECT
B2-21
7 8 9 10
A
B
C
2 3
10
1
B10
I010 D9
0R
B1-3
B3-58
B2-15
B18-60
B18-57
B18-56
2005 A8
2004 C12003 A92002 A9
TO/FROM 1062 OF 2Fh IO PNL
TO/FROM 1102 OF 3RD SCART PNL
1118 B91117 E11009 A8
E
A
B
C
D
E
7V9
7V9
3V6
3V63V6
3V6
3V6
3V6
3V6
3V6
3V6
3V6
3033 E106029 A10
6030 A107029-1 A97029-2 A97030-1 C97030-2 D97031-1 D9
7031-2 E97100-A A4F014 E8F015 E8F016 E8F017 E8
F020 E8F021 E8F041 E2F042 E2F045 B10F046 E2
F047 E2I001 B3I002 E3I003 E3I004 E3I005 E3
I006 A8I007 C9I008 C9I009 D9
5V
4V9
B18-54
B18-51
B18-50
B18-52
B11-53
NC
B18-48
2009 C12010 C1
2011 D12012 B22013 C22014 C32015 C22016 C2
2018 C22019 C22021 D22022 D22024 D22025 D2
2027 E22028 E22029 A102030 D92031 C92032 E9
2033 D92037 C92038 C9
3RD
SC
AR
T P
NL
B3-59
1K8
3029
BC847BS7029-2
47K3027
100n2049
F014
470p2018
2028470n
2014100n
2011100p
100p2010
2009100p
100p2004
BC847BS7031-2
20061n
2038
F045
10u
I001
1K8
3033
2024470p
20392021470p
10u
1n
1n2033
I004 2042
I008
BAS3166029
1u02029
3028
1K87029-1
BC847BS
200310u
200210u
1117
1234567
100R
F047
3013
F046
1009
I007
47K3024
+5V
3016220R
3030
1K87030-1BC847BS
1K8
3031
BC847BS7030-2
3032
1K87031-1BC847BS
30103019
10R
302647K
47K
2037
10u
3007
47K
3006
470n2019
2016470n
1118
12345
20411n
I003I002
47K
2015
47K3002
3003
2013470p
470p
2040
F015
3008 100R
100n2050
100R3012
I006
2007470n
20081n
20321n
20301n
20311n
470n
3018
4R7
2012
16V10u2047
3011
+5V
+8V
F042F041
20441n
300447K
300547K
1n2043
F020
2027
204550V2u2
470p
VAADCP91
VAADCREF89
VCC-AADC77
VCC1-ASW98
VCC2-ASW88
2048100n
LIN
EL
68LI
NE
R67
MIC1N94MIC1P95
MIC2N92MIC2P93
R1
85
R2
83
R3
81
R4
79
R5
128
SC
AR
T1L
70S
CA
RT
1R69
SC
AR
T2L
66S
CA
RT
2R65
VAADCN90
AM
EX
T
17
DS
ND
L175
DS
ND
L273
DS
ND
R1
74
DS
ND
R2
72
FUSE196
FUSE278
FUSE371
GND-AADC76
GND1-ASW97
GND2-ASW87L1
86
L284
L382
L480
L512
7
MPIF7100-A
470n2025
470n2022
204622u 16V
100n
3022
F021
2051
1n
47K
F017
2005
100R3009
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.eps211103
3139 123 5536.2
F014
1 V / div DC1ms / div
F015
1 V / div DC1ms / div
F016
500mV / div DC1ms / div
F017
500mV / div DC1ms / div
40ES1E AA 7.Circuit Diagrams and PWB Layouts
SSB: MPIF-Supply, E/W, & Control
BAND GAP
EW
I
V
DIGITAL
BLOCK
SUPPLY
&
REFERENCE
BAND GAP
7150-A
BC847BS
I153
100n
100n2156
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
5 8
B18-71
F
I154 C3
7
A
B
3152 B5
3154 B4
6
I152 B3I153 B3
1
2155 D5
2150 A5
B11-72
B11-73
B
E
C
2151 C4
2
3
1
2152 C42154 C5
3V9
1V3
2V
2V5
3V2
3V2
3V2
0V8
7150-B B5F150 A8
7150-A A5
F152 C8
3 4
4
100MHZ/220R
100MHZ/220R
100MHZ/220R
2157 E5
3155 E4
3151 B53150 A5
2156 D5
5152
+5V
3V3
1V3
5151
215410u 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
MPIF7100-D
+5V
VREF_AUD_POS
3V2 DC
3V2 DC
+5V
2150100n
47K
3154
5150
2155
2152100n
I154
I152
2151
100n2157
2u2
820R3155
1K23151
1K83152
1K23153
1K83150
BC847BS
7150-B
F159
F152
I151
+5V
F150
VREF_DEFL
EW-DRIVE
EW_MPIF
IRQ_MPIF
F_REF
SCL1
SDA1
CL 36532058_025.eps2111033139 123 5536.2
Circuit Diagrams and PWB Layouts 41ES1E AA 7.
SSB: Video Decoder
2I D3
2I 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
INCRINCROVERFL.DAV.
INCR
CVBS-YYC-DELTA+DAV
UV-DELTA
+DAV
SYNC-GAIN
PRF-SYNC-2FH SYNC-MODULE-
2FH
EXT-SYNC
HSYNC-FBL+DELTAHSYNC+DELTA
FBL+DELTA
COMB
YC DET
DEMUX
FBLANK
SWITCH
DMSD
FO
RM
AT
TE
R
HV-INFO
Y
SYNC
FORMAT
H/V
REGISTERAND
PI INTERF
BANDOUTSVIDDEC-INT
PI-A
PI-D
EXT MAIN STEREO CHANNEL
I 2
DATASYNC
PRI DECODER
EXTSYNC-
MUX
SRC-YYC
SRC
DELTAGEN
FREQ-SELECT
DTO
ITS
DEC
FBLANK
FIFO
DELAY AND FAST-BLANK
’SRC’ FOR HFB1/H-SYNC
UV
D1
5283100Mhz / 220R
B
5282 C95281 A9 I281 D23284 D2 5285 D95283 D9
2 3 4 5
B2-44
7 83282 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
6 7 9
A
2281 A9 2282 C9
B
DAE3PLLVSSA
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
ADOC7300-J
F23DLINK-VDDA
D26DLINK-VDDD
G26DLINK-VSSA
J23DLINK-VSSD
H25 DLINK1DN
32831K
100n2282
100n
VDDCO
2281
5282
VDDCO
VDDCO
5285
100n2285
1K3284
F282
1K3281
32821K
VDDE
I281
2284100n
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.eps2111033139 123 5536.2
3V2 DC
42ES1E AA 7.Circuit Diagrams and PWB Layouts
SSB: Feature Box
MAIN CHANNELTO MBF
CONTROL INTERFACE
PI-DTL MMIO ADAPTER
YUV
YUV
YUV
YUV
FRONT END PROCESSING
MEMORY BASED PROCESSING
BACK END PROCESSING7300
7300
7300
COLOUR FEATURES
Y
U
V
COLOUR
SPACE
CONVERSION
FRAME
PROCESSING
R
G
B TO
DO
P
FR
OM
MB
F
LUMINANCE SHARPNESS
CONTROL INTERFACE
PI-DTL MMIO ADAPTER
SUB
SHAPE
R
G
B
HORIZONTALCOMPRESSION
CHANNELSUB
YUV VERTICALCOMPRESSION
NOISE
FEATURE BOX
COMPENSATION DELAY
DCTI
Y
UV
Y
U
V
PANORAMA
Y
U
V
FILTERS
COMPENSATION DELAY
SHARPNESSMEASURE
DYNAMICPEAKING
LTI
256
Y
U
V
SKIN
TONE
CONTROL
BLUE
STRETCH
GREEN
ENHANCE
FIFO CACHE
HORIZONTALCOMPRESSION
CHANNELMAIN
YUVNOISESHAPE
MAINFIFO CACHE
DNR
MEMORY BUSDEVICE
INTERFACE
UNDITHER
UNDITHER
UNDITHER
SCAN RATECONVERSION
DISPLAY CONTROLLERMODE CONTROL
OUTPUT
MULTIPLEXER
DTL INTERFACE
SDRAMVIAMMI
TO BEFYUV
CONTROL INTERFACE
MMIO ADAPTER
DTL MMIO
PI-BUS
MEMORY BASED FEATURES
SAMPLE RATECONVERTER
SAMPLE RATECONVERTER
VIDDEC2FROM
VIDDEC1FROM
BLACKSTRETCH
BLACKSTRETCH
HISTOGRAMMODIFY
HISTOGRAMMEASURE
BLACKLEVELDETECTION
BLACKBARDETECTION
NOISEMEASURE
Y
Y
INPUT
SWITCH
MATRIX MEASUREMENT BLOCKS
SUB CHANNELTO MBF
CL 36532058_027.eps0209033139 123 5536.2
Circuit Diagrams and PWB Layouts 43ES1E AA 7.
SSB: RGB Processing
RGBB
LAN
KIN
G
CTRLSCAVEM
FIXEDBEAM
CURRENTSWITCH OFF
CD
AC
RGBGAIN
RGBCUTOFF
LEAKAGECOMPENSATORRGB
PO
WE
RS
OU
RC
E
GFXB
LEN
DE
R
DR
IVE
AD
JUS
T
BLENDER
ADC
RGB PROCESSING
B18-75
B18-76
B18-77
B18-78
B18-79
100Mhz / 220R
B18-112
RESRES
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 B12305 E62307 A62308 A52310 A9
2311 A92317 B62318 B52319 A82321 B9
2324 D42325 C52326 C62327 B62328 B5
2329 B82331 C92339 D82346 E53302 B1
3303 D73304 D73305 E73306 E73307 A8
3308 A53309 A83310 A83311 A83312 A8
3313 A83316 B83317 A53318 D53319 B8
3320 B83321 C83322 C83323 C83324 D5
3326 D43328 C53329 C83330 C83331 D8
3332 D83333 D83334 A43335 B43336 B4
3337 B43338 D83339 B53343 E43345 E5
3347 D63348 D63349 C63356 E55300 A1
5307 A55317 B55327 B55328 C56301 E7
6326 D46327 E57300-H A17301 A87302 C8
7303 D87304 D77310-A A87310-B A97320-A B8
7320-B B97330-A D87330-B D97346 D57356 E5
I301 C5I302 C6I303 D4I304 D5I305 A5
I306 A6I307 A5I308 A6I309 B5I310 B6
2307
2327
2317
2326
2305
1u0
2339100p
7303BC857B
100p2329
2319100p
BC857B7302
82p2325
7301BC857B
33R3306
BC847BW7304
BAS3166301
1K23305
330R3304
+8V
6K83303
I309 I310
I307 I308
I306
I303
I305
I304
+3V3
I301 I302
6326BAS316
47K3324
+5V
7346BC857B
22K3348
+8V
22K3347
47K3349
332833R
3339
3338
3316
3317
3307
3308
PDZ-2.7B6327
1K23318
100n2346
+8V
33456K8
820R
3356
BC857B7356
10K3343
16V10u2310
3335
33R
33R
3334
33R
3336
333133R
3337
33R
2328
33R3321
2318220p
220p
W4 CDAC2-VDDA
Y3 CDAC2-VSSA
V2COUTN
V3GOUTP
N1IBC
AA2IBCRANGE
U2ROUTN
U3ROUTP
Y1SVMN
Y2SVMP
220p2308
ADOC7300-H
W2BOUTN
W3BOUTPU1 CDAC-REF
V1 CDAC1-VDDA
U4 CDAC1-VSSA
10n2331
232110n
10n2311
2324100p
53282u2
1K23302
7330-ABC847BPN
7320-ABC847BPN
7330-BBC847BPN
7320-BBC847BPN
7310-ABC847BPN
7310-BBC847BPN
VDDE
100n2300
4K7
5300
+8V
3326
3332 1K2
33301K2
3333330R
53272u2
3329330R
+8V
1K23322
3320
330R3323
53172u2
1K2
+8V
330R3319
3313
3312 1K2
33R
1K23310
330R
2u25307
3311
330R3309
R-CRT
G-CRT
B-CRT
TILT
CUTOFF
Y-SCAVEM
CL 36532058-083.eps2111033139 123 5536.2
I310
200mV / div DC10µs / div
I308
200mV / div DC10µs / div
I306
200mV / div DC10µs / div
44ES1E AA 7.Circuit Diagrams and PWB Layouts
SSB: Sync & Deflection Processing
DRIVE
CTRLLOOP
PH1-2
SECONDCTRLLOOP
PH1-2
SLOW STARTAND
SLOW STARTLOW POWER
SUPPLY
HIRESTIMING
GENERATOR
1/64 CLOCK
HORIZONTAL TIME BASE GEN.DTO AND CONTROL LOOP
EWWAVEFORM
VERTICALSAWTOOTH
VERTICALWAVEFORM
VERTICALDRIVER
VERT.
DRIVE
HOR.FIRST
ADC
SDAC
GEOMETRY
22K
+8V
3353
5344
2343 C22344 C12345 C1 F341 C3
F346 E3
B
C
D
E
100Mhz /220R
B4-69
2364 C8 3355 C63354 A10
4
3374 E9
220R 220R
2371 D92372 D92377 E10
2379 E10
8 9 10
1 2 3
RES
6353 A96361 B96365 C96367 C9
F348 D10F351 E6F354 A9F355 B8
2361 C82362 B92363 B7 I342 C6
I343 C6
I344 C7
3373 C83341 B23346 D23350 A8
2360 C6
3353 A93352 A93351 A7
3340 A2
5 6
I350 E103375 E93376 D8
5345 C1
6341 C1
220R
B18-84
SYNC & DEFLECTION PROCESSING
10
AB18-83
B18-82
100Mhz /
RES
1 2 3 4 5 6 7
RES
I346 B8I347 C8I348 C9
I349 E10
7 8 9
3361 B83362 B9 4361 C9
3378 B83377 C8
0R
5342 C22342 C22341 B2 4363 B8
5343 C25344 C1
3357 C73358 A63360 B8
I345 B9
RES
3363 B93364 B93365 C83366 C9
D
E
2366 C93372 C8
B
A
C
5
100Mhz /
2365 D8
I341 C6F358 C9F357 C8
2359 C6
B4-70
B18-87
B18-89
B18-88NC
3367 B10
3368 C103371 D9
7365 C87361 B87300-F B36368 C9
100Mhz /
2350 A72351 A82352 A92358 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
BC847B7365
10K
10K3354
23662u2
1K3371
1K03341
3374
2K7F346 F351
F357
336327K
3362100K
23792n2
3355
3361
3365
15K
6361BAS316
23711n
100p2360
+3V3
2344100n
2M23377
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-FADOC
AUXP T3
BCL N2
BPAAC1
DAFP Y4
DOP-DTC-VDD3L2
DOP-DTC-VDDAM1
DOP-DTC-VSSAM2
EHT N3
EWP T2
FBCIN
336015K
3346
5343
1K0
+5V
2345100n
337610K
VDDE
100p2365
F355
100u2350
16V
VDDE
I347
I348I343 I344
I342
BAV996353
23721n
3375
2K7
I346
I345
4363
5345
335247K
6368BZX384-C6V8
I350
3372330K
337310K
5342
23612u2
33401K0
2343100n 22K
3357
BAS3166341
33781M2341
100nVDDEVDDE
100n2342
+8V
VDDE
33662K2
10n
2u22364
2363100p
2362
I349
235210p
BAV996365
1K
8K23368
63673367
4361
BZX384-C22
3358
10R
+8V
1K3350220R
3351
VDDCO
I341
23772n2
2358100p
100n2359
3364 68K
F354
7361BC847B
FRAMEDRIVE+
FRAMEDRIVE-
HFB_X-RAY-PROT
POR_FLASH
EW_MPIF
VREF_DEFL
LINEDRIVE1
EHT-INFO
CL 36532058_029.eps0309033139 123 5536.2
Circuit Diagrams and PWB Layouts 45ES1E AA 7.
SSB: Protection
PROTECTION
2397100n
F391
33933K3
I382
1
7393 D5F381 C6F382 C6
F383 C6
3
6382 A36384 B3
7300-G C6
I382 C46398 C3
E
D
7
D
E
C
A
F387 E4
B18-91
RES
F384 A4F389 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 C52386 B5
3 4 5 6
3386 B5
A
B
C
7383-B E52397 D3
75 6
3397 C4
43380 B2
3382 A43384 E53385 B5
3398 C26381 A3
3388 C53391 E4
6385 A4
6397 C33392 E33393 D5
7382 A47383-A E6
3394 D43395 E5
1 2
3396 D4
2
239510n
7V9
0V
0V DC
0V DC
0V DC
0V
0V
0V
1K03390
F389 F390
7383-BBC847BPN
BAS316
6398 BZX384-C27
BC847BPN
6397
FLASHAB1
VGUARDW1
XPROTAB2
VDDE
+3V3
7383-A
7300-GADOC
339510K
3392 47K
6381BAV99
F383
7382
338010K
33821K
BC857B
339139K
3396470R
7393
BC847BW
3397
470R
+8V
338547K
338627K
3384
10K
10K3394
33881K0
F382
23841n
100R
2380470p
F386
3398
F384
238610p
BAS3166385
6382BZX284-C47
F381
+8V
F387
I381
6384BZX384-C22
HFB_X-RAY-PROT
KEYBOARD
EHT-INFO
F385
CL 36532058_030.eps2111033139 123 5536.2
46ES1E AA 7.Circuit Diagrams and PWB Layouts
SSB: Audio Processing
PROCESSING INPUTX-BAR
WS PLL
NOISESHAPER
I2SOUT
I2SIN
DAC
5D/A
2D/A
4D/A
FROM AUDIO DEMDEC & DD-DSP
AUDIO DSP
LEVELADJ IN
PU
TX
-BA
R
2u2
VREF_AUD_NEG
344756K
34601K2
5 6 7 8 9 10
FOR DPL SET
PROVISION FOR DVD INTERFACE
2439 B9
REMOVE FOR DVD
D
E
A
B
C
D
E
2430 C72431 C62432 C62433 C52434 C52435 C62436 C6
2437 C72438 B9
21 3 4
REFER TO SHT B10a
2440 D72441 D72442 D82443 E7
2444 E72445 E72447 D12450 C42451 A8
3453 A23454 A33455 B33456 B33457 A33458 A5
2453 A7
2454 A42457 A22458 C6
10
A
B
C
2452 C42462 E92461 E9
2465 A52467 C6
2468 B62480 C82481 E82483 C9
1 2 3 4 5 6 7 8 9
2V7
UAB 12 NEED TO BE RAISE :AE25 : AUD-SPKR-R-VRNEGAF26 : AUD-SPKR-R-VRPOS
7V3
4V
I437 C6I438 C6
I439 C6I440 C7I441 D5I442 D5I443 E5I444 E5I445 C8
I446 D8I447 D10I448 E10
100MHZ / 220R 100MHZ / 220R
REMOVE FOR DVDALL STRAPS TO BEREFER TO SHT B10a
B18-100
PROVISION FOR DVD INTERFACE
PREPROCESSING
7V3
2V7
4V
1K8
B3
1V6
4V9
4V9
2V5
2V5
2V5
2V52V5
2V5
ALL STRAPS TO BE
4451 A104452 A104453 A104480 C84481 E8
5450 C4
2484 D82485 E92486 C9
2487 C92488 D102489 D103433 B93434 B83435 A8
AE25 : AUD-SPKR-R-VRNEGUAB 12 NEED TO BE RAISE :
3436 A8
3437 A83439 A73440 A73441 A73442 B73443 B73444 A7
3445 A43446 A43447 B43448 B43449 A53450 A43452 A3
7434-A A67434-B A67480-A D97480-B E97486-A D107486-B E10
3459 A5
3460 A63461 B53462 B63463 A63465 A93468 B63480 C8
3481 E8
100MHZ / 220R
SRC
3482 D83483 C93484 D93485 E93486 D103487 E10
4430 B34431 B44432 B64433 B74434 B84435 E34436 E3
4437 E34450 A10
PROCESSING
B18-95
I433 A5I434 A7I435 A8I436 C5
5452 C45480 C86480 D106481 E107300-B C27430-A A8
7430-B A97431-A A77431-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 A47432-B A47433-A A37433-B A3
FORSUBWOOFERSET
1V6
1V6
1V6
F437 E4
F438 E4F439 E4F448 C4F449 C4F480 C7F481 E8I431 A2
I432 A4
AUDIO DEMODULATION
B3-65
DEMATRIX AND
AUDIO PROCESSING
TO AUDIO
B18-99
FILTER
FR
OM
VID
DE
C
B3-64
HEADPHONE AMPLIFIER
B18-94
B3-63
FOR DPL SET
A_ADC3A_ADC4
B3-62
DOWNMIX
7486-B
3487
7486-ABC847BS
BC847BS
4453
4452
343556K
2454
343456K
2437470n
F438
2436470n
F437
3439
470n2480
7431-BBC847BPN
47K
100u2488
7432-ABC847BPN
I448
24421n
24431n
24411n
100R3468
I438 I439
+8V
34621K2
3463
1K5
2481
470n
8K23485
3481
2K7
4480
I436
4481
I434 I435I432 I433
BC847BPN7433-B
2467470n
+8V
1K83486
SDAC1-3V3
AD
22
SDAC1-VDDA
AE
22
SDAC1-VSSA
AF
16
SD
I
AE
17
SD
O1
AD
17
SD
O2
AD
16
WS
I
AE
19
WS
O1
WS
O2
AD
19
2450
10n
AUD-SPKR-C-VRPOS
AD25AUD-SPKR-LAD26 AUD-SPKR-L-VRNEGAD24 AUD-SPKR-L-VRPOS
AE26AUD-SPKR-RAF26 AUD-SPKR-R-VRNEGAE25 AUD-SPKR-R-VRPOS
AB23AUD-SPKR-SLAB24 AUD-SPKR-SL-VRNEGAA26 AUD-SPKR-SL-VRPOS
AE24AUD-SPKR-SWAF24 AUD-SPKR-SW-VRNEGAF25 AUD-SPKR-SW-VRPOS
SC
KI
AE
16
AE
18
SC
KO
1
AD
18
SC
KO
2
AC
22
AUD-DAC1-R-VRNEGY24 AUD-DAC1-R-VRPOS
W26AUD-DAC2-LW25 AUD-DAC2-L-VRNEGY23 AUD-DAC2-L-VRPOS
W23AUD-DAC2-RW24 AUD-DAC2-R-VRNEGV26 AUD-DAC2-R-VRPOS
AB26AUD-HP-LAC23 AUD-HP-L-VRNEGAB25 AUD-HP-L-VRPOS
AC25AUD-HP-RAUD-HP-R-VRNEGAC24AC26 AUD-HP-R-VRPOS
AE23AUD-SPKR-CAD23 AUD-SPKR-C-VRNEGAF23
ADOC7300-B
AUD-DAC1-L AA24AA23 AUD-DAC1-L-VRNEGAA25 AUD-DAC1-L-VRPOS
Y25AUD-DAC1-RY26
24401n
4434
F448
F439
F449
344356K
34331K2
7434-A
BC847BPN
1K23442
345956K
+8V
2435470n
7430-ABC847BPN
10n
2452
24532u2
3456
24512u2
56K3455
1K2
345456K
24331n
2434470n
24581n
24572u2
1n2444
I444
I443
I440
4451
2K7
3480
+5V
6480BZX384-C12
I437
345847K
34501K2
344656K
7432-BBC847BPN3445
47K
F481
F480
TDA1308T7480-A
3
2
1
8
4
4450
5450 5452
24652u2
BC847BPN7433-A
346156K
2486100n
248710u16V
344156K
VDDE VDDCO
34401K2
2462 470n
2461 470n
I447VREF_AUD_POS
I445
I446
3452345347K 1K2
2439 470n
2447
100u
470n2438
I442
I441
4432 4433
7434-BBC847BPN
2489100u
3449
1K5
BZX384-C126481
34481K2
I431
3483 8K2
1n2445
5
6
7
8
4
1n2483
3457
1K5
TDA1308T7480-B
4430 4431
5480
4437
24311n
24321n
4436
34371K2
1n2468
4435
+8V
343647K
3444
1K5
+8V
7430-BBC847BPN
3465
1K5
BC847BPN
7431-A
16V10u2484
3484
4K7
2485 1n
4K73482
HEADPHONE-L
SO
UN
D-E
NA
BLE
_2
24301n
AUDIO-L
AUDIO-R
AUDIO-SW
DSNDR2
DSNDL2
DSNDR1DSNDL1
AUDIO-C
AU
DS
PK
R_R
AU
DS
PK
R_L
AU
DS
PK
R_C
AU
DS
PK
R_S
R
AUDIO-SURR
C_TV_IN
SW_TV_IN
L_TV_IN
R_TV_IN
HEADPHONE-R
CL 36532058_031.eps2111033139 123 5536.2
F480
100mV / div AC1ms / div
F481
100mV / div AC1ms / div
I437
20mV / div AC200µs / div
I438
100mV / div AC1ms / div
I436
20mV / div AC500µs / div
Circuit Diagrams and PWB Layouts 47ES1E AA 7.
SSB: Control
XTAL & RESET
UA
RT
E-J
TA
G
DE
BU
GG
ING
INT
ER
FA
CE
ANALOG TODIGITAL
CONVERTER
SLOW PI-BUS
A/D
PI-PIBRIDGE
MIP
S-
FAST PI-BUS
SRAMCTRL
SRAM 96KB
SUB-SYSTEM
PR
1910
GEN CLKBLOCK
MMI SDRAM
DCU
EBIU E-JTAG
UART GRAPHICS GEN.
SLAVE GROUP INTERFACE
TIMER I2C GPIO ADC
F538
35801K0
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 B7F542 B7
F532 D2F533 B7
F537 A4
EEPROM
F538 B3
100Mhz / 220R
F534 B3
F527 A1
B18-109
M24C64
B18-119
4570 E94571 E9
F524 A4
NC
B17-??
F512 C10
F513 C103570 E83571 E93572 E93573 E83580 C3
3581 C43582 E43583 E63586 E63590 D6
A
B
C
D
E
A
B
C
D
3515 B23518 A3
7 8 9 10
1 2 3 4 5 6
3550 A93557 C9
9 10
I502 E6
I501 A1
B4-73
F582 E5F570 E7
F584 D6
F509 B1F510 C10F511 C10
CONTROL
F551 B3F514 B10F515 B10F516 B9F517 B9F518 B9
F519 C10F520 A9F521 A9F522 A9F523 A9
3V2
3V20V
4V94V9
3V2
3V2
3V2
0V
0V9
0V9
3V2
2V6
0V
3V2
1V
0V
3V2
B12
6
7
B18-107
B1-7
1 2 3 4 5
(TO CONNECTOR 0222)
B18-113
7300-D A8
TO 3D
F508 B1
FILTER
B18-111
B8-121
B18-120
7300-C A47300-A E8
F544 B7
F550 B9
B18-115
7581 E56589 C10
4573 E95570 E75583 D4
3561 D8
B18-110
SDM
B18-108
7525 D2
3510 B33511 B13512 B1
3513 B2
7300-K C63563 D83523 C33530 E33541 A10
3542 A93543 B93544 A93546 B93547 C93548 B9
3549 B9
B12
B3-53
100Mhz / 220R
B4-72
B18-106
0202 A101581 C51582 E42514 B1
3564 D9
3565 D82546 C92557 C92571 E72581 C42582 C4
2583 D52584 D53501 A33502 A43503 A2
4501 E9
4560 D83508 B23509 B3
10K
F511
VDDE
F534
3501
F523
F52
4
3507 10K
4K73508
F551
5570
F5333515 4K7
F582
VDDCO
2571100n
2581 22p F519
3509 4K7
CP15C1581
F508
100n2584
S5S6
3563 10K
18p
2516
3510 4K7
F532
F550 19
2
20
3 4
5 6
7 8
9
TYPE0201
1
10
11 12
13 14
15 16
17 18F542
F541
F540
VDDE
33R3548
VDDE
F521
4570
SKQR1582
5583
3590
F509
1K0
4501
F515
3549 33R
F514
2582 22p
+5V2
F513
VDDE
251418p
TD1
AF18TMS
AF17TRST_
AF20VDDE-JTAG
7300-D
AE20DCLK
AD14P3-4|RTS
AF15P3-5|CTS
AE15P3-6|RXD
AD15P3-7|TXD
AE21PCST0
AD21PCST1
AD20PCST2
AF21TCK
AF22TD0
AF19
ADOC
22K3586
33R3547
3581 1K0
I501
I502
VDDE
F517
VDDE
10K3582
F520
3557
+5V2
47R
3512 100R
4K73513
J26
ADC-VDDA
L25
ADC-VSSA
K23ADC0
K24ADC1
K25ADC2
K26ADC3
L23ADC4
L24ADC5
1MR
2S
UB
5V
CC
4VOUT
ADOC7300-A
NE56610-457581
3G
ND
35702K73571
2K2
33R
+5V2
10K
+5V2
3543
F512
3544
+5V
P3-3
3565 10K
AD7 P1-4|GPT0-CNTAF8 P1-5|GPT0-GATEAE8 P1-6|GPT0-CAPAD8 P1-7|GPT0-PWM
AF9P2-0|GPT1-CNT0AE9P2-1|GPT1-CNT1AF10P2-2|GPT1-GATEAE10P2-3|GPT1-CAP0AF11P2-4|GPT1-CAP1AE11P2-5|GPT1-PWMAF12P2-6|RCINAE12P2-7|RCOUTAF13P3-0|RCRXPWRAE13P3-1|RCCARDETAD13P3-2AF14
AC3 P0-0|INT0AD1 P0-1|INT1AD2 P0-2|INT2AD3 P0-3|INT3AE1 P0-4|INT4AE2 P0-5|INT5AF1 P0-6|INT6AF2 P0-7|MPIF-INTAF6 P1-0|SDA0AE6 P1-1|SCL0AF7 P1-2|SDA1AD6 P1-3|SCL1
ADOC7300-C
VDDE
10K3518
33R3546
10K3573
4573
100n2583
10K
+5V2
10K3542
3541
F584
F518
VDDE
F543
10K3564
BA
T25
465
89
F527
+5V2
358318K
100n2546
F537
10
2
3 4
5 6
7 8
9
0202 TYPE1
4K73550
10K3502
F570
10K3561
2525100n
3530100K
4560
A26 MPIFCLK
AB3
RESET-SEL
AC2
RESET_AF5 XGND
AE4 XIN
AD4 XOUT
AF4 XVDD
F5393511 100R
ADOC7300-K
10K
10K3572
4571
VDDE
VDDE
352310K
F510
F516
E01
E12
E23
SCL6
SDA5
VCC
8
VSS
4
WC_7
2557
100p
7525
F522
SEL-2FH-SRC_STATUS3
DEGAUSS
RESET_3D
SDA1
SCL0
SDA1
SCL1SDA0
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.eps2111033139 123 5536.2
S5
500mV / div DC50ns / div
F509
1 V / div DC200µs / div
F508
1 V / div DC500µs / div
48ES1E AA 7.Circuit Diagrams and PWB Layouts
SSB: Control-Memory Interface (EBIU)
EBIU
W
VPP
VD
DQ
VS
SQ
VD
D
R
RB
VS
S
1918
15
12345678D
0
91011121314
34
1
E
G
RP
0
2
1716151413
2048k-1121110987
5
A
6
L
K
2021
F794
3 5
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 B42793 B6
0290 B7
9
0291 B9
B
5792 A44791 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)
8 9
1 2 3 4 5 6 7 8
F799
F798
F792
F793
F791
F790
B7
EBIU-D14C5
EBIU-D15C4
EBIU-D2A7
EBIU-D3A9
EBIU-D4C10
EBIU-D5C8
EBIU-D6B6
EBIU-D7C7
EBIU-D8A4
EBIU-D9A6
EBIU-ENH|BAAA11
EBIU-ENL|LBAK2
EBIU-OE_A3
EBIU-WE_K1
EBIU-A5E3
EBIU-A6F2
EBIU-A7G1
EBIU-A8G3
EBIU-A9H1
EBIU-BOOT8C9
EBIU-CLK-OUTB11
EBIU-CS0_A2
EBIU-CS1_C6
EBIU-CS2_D3
EBIU-D0B4
EBIU-D1A5
EBIU-D10A8
EBIU-D11A10
EBIU-D12B9
EBIU-D13
EBIU-A1A1
EBIU-A10G2
EBIU-A11F3
EBIU-A12F1
EBIU-A13E1
EBIU-A14D1
EBIU-A15C1
EBIU-A16B1
EBIU-A17B3
EBIU-A18H3
EBIU-A19J2
EBIU-A2C3
EBIU-A20J1
EBIU-A21J3
EBIU-A3C2
EBIU-A4D2
7300-EADOC
EBIU-A0|A22K3
5792
59
6
60
789
2793100n
474849
5
505152535455565758
3536373839
4
40414243444546
23242526272829
3
3031323334
1213141516171819
2
202122
0290TYPE
1
1011
F797
2792100n
VDDE
F795
4791
4790
9 37 43
15
21 48 42
55
31
29
1303256
2
53
1652
3840444649513436
14
54
222019
3335
3941454750
8765
27
43
26252423
2Mx16
28
181713121110
RAM
M58LW032A7790
5859
6
60
7 89
4647 4849
5
5051 5253 5455 5657
3435 3637 3839
4
4041 4243 4445
2223 2425 2627 2829
3
3031 3233
11 1213 1415 1617 1819
2
2021
A(2)
A(12)
0291TYPE
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.eps2111033139 123 5536.2
Circuit Diagrams and PWB Layouts 49ES1E AA 7.
SSB: Control-Memory Interface (SDRAM)
1M x 16
1M x 16
1M x 16
1M x 16
BANKSELECT
OU
TP
UT
BU
FF
ER
VSS VSSQ
TIM
ING
RE
GIS
TE
R
NC
AD
DR
ES
S R
EG
IST
ER
LCKEBURST LENGTH
LATENCY &
DECODERCOLUMN
LWCBRLCA
S
LWE
REGISTER
CO
L. B
UF
FE
R
LQDM
RO
W D
EC
OD
ER
RE
FR
ES
H C
OU
NT
ER
RO
W B
UF
FE
R
LDQM
LWE
I/O C
ON
TR
OL
SE
NS
E A
MP
LRA
S
VDD VDDQ
LCB
R
DATA INPUT
REGISTERPROGRAMMINGLRAS
LCBR
SDRAM
2733100n
F730 D27730 B6
N.C.
2734 B73737 E45730 A65731 A7
B
C
D
E
F
2730 B62731 B62732 B5
7 8
A7300-I B2
1 3 4 52
F
A
220R
E
CONTROL-MEMORY INTERFACE (SDRAM)
6
762733 B7
1
B
C
D
4
8
5
100Mhz /220R
32
100Mhz /
2731100n
5730
2732
VDDE
100n 100n2734
52
16 WE_
3737
33R
RAS_
39 UDQM
1 14 27 3 9 43 49
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 4018
26
A429
A530
A631
A732
A833
A934
20 BA0
BA121
17 CAS_
CKE37
CLK38
CS_19
2DQ0
4DQ1
DQ10 45
DQ11
SDRAM-RASN
A14SDRAM-UDQM
A23SDRAM-WEN
7730
K4S641632D
A023
A124
22 A10|AP
A1135
A225
A3
SDRAM-D10
B15SDRAM-D11
C15SDRAM-D12
C16SDRAM-D13
A16SDRAM-D14
A17SDRAM-D15
C26SDRAM-D2
A25SDRAM-D3
C24SDRAM-D4
B24SDRAM-D5
A24SDRAM-D6
C23SDRAM-D7
B14SDRAM-D8
C14SDRAM-D9
B23SDRAM-LDQM
A22
SDRAM-A3
C18SDRAM-A4
B18SDRAM-A5
A18SDRAM-A6
C17SDRAM-A7
B17SDRAM-A8
C11SDRAM-A9
B21SDRAM-BS0
A21SDRAM-BS1
C22SDRAM-CASN
C12SDRAM-CKE
C13SDRAM-CLK-IN
A13SDRAM-CLK-OUT
C21SDRAM-CSN
B26SDRAM-D0
C25SDRAM-D1
A15
ADOC7300-I
B20SDRAM-A0
A20SDRAM-A1
C20SDRAM-A10
A12SDRAM-A11
B12SDRAM-A12
C19SDRAM-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.eps0309033139 123 5536.2
50ES1E AA 7.Circuit Diagrams and PWB Layouts
SSB: ADOC Supply
SUPPLY
NC
NC
2601
100n
VDDE
+1V830R
5600
2607
100n2609
7300-L B65600 C12649 C2 5601 D7 7300-M A1
9
RES
F601 C12629 C6
100Mhz /
2628 C72612 C92615 C8
2618 C82620 C8
2644 D72645 C1
A
NCNC
10
I601 D8
4 5 6 7 8
2600 C102601 C10
2604 C10
2 3
2611 C9
1 2 3 4
2622 C7 2630 C62633 C6
2634 C62638 C22607 C9
2609 C9
100Mhz/
1
1095 6
2623 C7
7 8
C
B
ADOC SUPPLY
D
A
B
C
D
2633100n100n
2634 2622100n
100n
2623
2615
2629
100n
100n100n2630
2628
100n
VDDCO
264510u 16V
+3V3
100u2649
F601
100n26002611
100n
2604
100n
100n2612
264422u 16V
100n
100n2638
2618100n100n
2620
L4
U24
U23
T25
T24
T23
P4
V4
F26
G23
R24
R25 V25
U25
D7
VS
SIS
18
K4
VS
SIS
2
AD
5V
SS
IS3
AE
5V
SS
IS4
AC
7V
SS
IS5
AD
9V
SS
IS6
AD
10V
SS
IS7
AD
12V
SS
IS8
AC
15V
SS
IS9
ADOC7300-M T
14V
SS
E54
T15
VS
SE
55
T16
VS
SE
56
B10
VS
SE
6
B8
VS
SE
7
B5
VS
SE
8
B2
VS
SE
9
G4
VS
SIS
1
M24
VS
SIS
10
M25
VS
SIS
11
L26
VS
SIS
12
D23
VS
SIS
13
D20
VS
SIS
14
D18
VS
SIS
15
D14
VS
SIS
16
D12
VS
SIS
17
B16
VS
SE
4
P12
VS
SE
40
P13
VS
SE
41
P14
VS
SE
42
P15
VS
SE
43
P16
VS
SE
44
R11
VS
SE
45
R12
VS
SE
46
R13
VS
SE
47
R14
VS
SE
48
R15
VS
SE
49
B13
VS
SE
5
R16
VS
SE
50
T11
VS
SE
51
T12
VS
SE
52
T13
VS
SE
53
L15
VS
SE
25
L16
VS
SE
26
M11
VS
SE
27
M12
VS
SE
28
M13
VS
SE
29
B19
VS
SE
3
M14
VS
SE
30
M15
VS
SE
31
M16
VS
SE
32
N11
VS
SE
33
N12
VS
SE
34
N13
VS
SE
35
N14
VS
SE
36
N15
VS
SE
37
N16
VS
SE
38
P11
VS
SE
39
E2
VS
SE
10
H2
VS
SE
11
T4
VS
SE
12
AE
7V
SS
E13
AD
11V
SS
E14
AE
14V
SS
E15
AC
20V
SS
E16
AC
21V
SS
E17
V24
VS
SE
18
T26
VS
SE
19
B22
VS
SE
2
J24
VS
SE
20
L11
VS
SE
21
L12
VS
SE
22
L13
VS
SE
23
L14
VS
SE
24
D8
VD
DE
7
D5
VD
DE
8
D4
VD
DE
9
J4V
DD
I1
D15
VD
DI1
0
D11
VD
DI1
1
D9
VD
DI1
2
AB
4V
DD
I2
AC
9V
DD
I3
AC
12V
DD
I4
AC
14V
DD
I5
R26
VD
DI6
M23
VD
DI7
D24
VD
DI8
D21
VD
DI9
B25
VS
SE
1
H4
VD
DE
11
AC
4V
DD
E12
AC
5V
DD
E13
AC
6V
DD
E14
AC
11V
DD
E15
AC
17V
DD
E16
AC
18V
DD
E17
AC
19V
DD
E18
V23
VD
DE
19
D22
VD
DE
2
U26
VD
DE
20
J25
VD
DE
21
D19
VD
DE
3
D16
VD
DE
4
D13
VD
DE
5
D10
VD
DE
6
ADOC7300-L
F4
VD
DC
O1
AC
8V
DD
CO
2
AC
10V
DD
CO
3
AC
13V
DD
CO
4
AC
16V
DD
CO
5
M26
VD
DC
O6
D17
VD
DC
O7
D6
VD
DC
O8
D25
VD
DE
1
E4
VD
DE
10
560130R
I601
CL 36532058_035.eps0309033139 123 5536.2
1V8 DC
Circuit Diagrams and PWB Layouts 51ES1E AA 7.
SSB: 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
+1V81u
5654
RES
RES
F652 D2
1
RES
5
with star point groundCompts. Close to each other
LOW VOLTAGE SUPPLY - ADOC
I651 A2
2
F
A
B
6651 A35659 C2
C
D
E
F
2651 A41 2
5652 A4
7650 C27651 B3
2657 D2
2655 A22656 E2
F651 A5F650 C3
2652 A42654 A2
4V9 1V7
2V9
1V9
2V5
1V3
2658 D5
E
3 4 5
A
B
C
D
3 4
3651 D53652 D53653 D55651 A4
2659 C2
5654 A210u
5651
265510u
36511K2
5652
10u
+5V2
100n2658
+3V3
2K73652
6u85659
220n2659
100p2657
100u2651
SS146651
10u2652
100n2656
I651
F652
F650
F651
36532K7
12
3
10u2654
VGATE 1
7651
STS5PF30L
56
78
4
CS51033YDR87650
COSC3
7 CS
GND
4
PGND 2
VC 8VCC
6
VFB 5
CL 36532058_036.eps2111033139 123 5536.2
1V8 DC
F652
500mV / div DC500ns / div
3V2 DC
52ES1E AA 7.Circuit Diagrams and PWB Layouts
SSB: Connector Interface
1975
1920
ON-OFF-LED
RC5
KEYBOARD
DEGAUSS
PIP_AUDIO
2951 G13
B11-116
2950 G13
2968 E13
2962 F13F941 F8F943 F8F944 F8F947 F8F948 E8
F949 E8F950 E8F951 E8
2967 F13
2972 E13
2937 H2
2938 H22941 H132948 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 C51902 A5
B3-66
B2-24
4 5 6 7
1962 F131953 G10
1958 F101959 F10
1961 E101918 B2
B3-61
B3-54
B3-52
B3-51
B3-57
1956 F10
1960 E10
2935 G22936 H21950 G13
1951 G13
1952 H10
2915 E52918 B22919 B2
2904 A2
2973 E13
F902 A7F903 A7F904 A7F905 A7F906 B7
F907 B7F909 B7F910 B7
3911 D43918 A2
1974 D131975 D131976 C131977 C131931 G6
1979 B131980 B13
MP
IF
B8-83
1921 C2
B10-99
1924 D2
B11-118
1919 B21920 B2
1923 C2
1925 D2 2920 B22932 F22933 F21948 H13
1949 H131910 D51911 D51913 D51915 E5
3
F936 F7
B11-115
F965 C8
SSB-CONNECTOR INTERFACEB5-45
B10-98
B10-97
B10-96
F966 C8F960 D8
F962 C8
F964 C8F963 C8
B11-113
B8-89
F955 D8
F956 D8F958 D8F959 D8
3975 D13
F961 D8
B3-67
F937 F7F938 F7F939 F7
F940 G8
B2-19
B2-20
F901 A7
3980 A133979 B13
3977 C133978 B13
3976 C13
F952 E8F953 E8
3964 D113972 E133973 D133974 D13
2949 H13
B11-107
B10-95
1937 H21936 H2
B3-50
2974 D13
2975 D132976 C132977 C132978 C132979 B133904 A2
3909 C4
1972 E13
1973 E13
B3-56
1926 E21928 E21929 E2
9
1932 F2
1933 F21934 G21935 G2
B
AD
OC
B11-121
B2-22
BB11-119
E
F
G
B2-16
1938 H2
1939 H61941 H13
D
C
H
B9-91
1 2
B2-23
B3-49
B11-111
F923 D7F929 E7F928 E7
B8-82
F935 F7F933 E7
F932 E7
B7-75
F924 D7
F925 D7F926 D7
F967 C8F968 C8F915 C7
F918 C7F919 C7F920 D7
3937 H23938 H2
B7-76
B7-77
3951 G13
B3-60
1978 C13
B11-114
MP
IF
3962 F133963 D11
B8-88
3950 G133939 H5 F911 B7
F913 C73919 B23928 E23929 E2
3936 G2
AD
OC
14
A
B9-92
B11-106
1963 D101964 D101965 C10
1966 C101967 F131968 E131969 B101970 B10
B3-48
B10-94
5 6 7 8
1901 A5
10 11 12 13
B1-9
F978 A8F977 A8F976 A8
F931 E7
F969 B8F970 B8
F979 A8F980 A8
F921 D7F972 B8F973 B8F974 B8F975 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
3 4
F
G
H
0230 A8
B2-17
B11-110
1972
11 12 13 14
1 2
D
E
A
B8-84
1934
1901
1913
1918
F961
1970
F964
3972
100R
1n2972
F973
F974
1936
1973
1921
1965
F947
2950100p
1915
1950
1906
100R
3980
3928
1980
1928100R
1937
3962
100R
1961
1923
100p2919
100p2933
3975
100R
29751n
100R
3976
1n2976
1978
100R3909
3979
100R
1953
1956
1938
1959
1960
2949100p
100R
2935100p
F919
3963
F920
1966
2978100p
1952
F939
29511n
1958
100p2938
1962
F967
2918100p
F966
100p2904
3904
100R
3978
100R
1n2968
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-EDGE0230
1
10
11
12
13
14
15
16
17
F909
1941
F977
F978
F923
F921
F924
F925
F931
F929
3951
100R
F938
F959
F960
1n2962
F958
F975
+3V3
2937100p
292082p
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
19322932
1n
19672967
19681929
1969
3936
+5V2
100R
3973
+8V
100R
1n2974
1963
1951
1964
2977100p
F933
F932
1909
100R
3929
1907
100R
1n2973
3938
+5V
1903
1904
2948100p
F970
1933
F969
F944
100R
3950
1979
1931
1955
3937
100R
F979
1919
3964
1911
100R
100p2979
1977
F953
3911100R
1910
F963
1925
F962
1924
1902
F972
F935
F943
F936
100p2941
F937
F951
F952
F950
F955
F956
100p2915
F906
F904
100p2936
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_1SOUND-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.eps2111033139 123 5536.2
F911
500mV / div DC20µs / div
F913
500mV / div AC10µs / div
F967
200mV / div AC1ms / div
F941
2 V / div DC20µs / div
F931
1 V / div DC5ms / div
F929
500mV / div DC5ms / div
F928
500mV / div DC5ms / div
F926
1 V / div DC10µs / div
F925
1 V / div DC10µs / div
F969
500mV / div AC1ms / div
F968
200mV / div AC1ms / div
F970
500mV / div AC1ms / div
F923
1 V / div DC10µs / div
F924
1 V / div DC10µs / div
Circuit Diagrams and PWB Layouts 53ES1E AA 7.
Layout SSB (Overview LOT Side)
CL 36532058_038.eps030903
Part 1CL 36532058_38a.eps
Part 2CL 36532058_38b.eps
Part 3CL 36532058_38c.eps
Part 4CL 36532058_38d.eps
3139 123 5536.2
1113 C21116 B11118 A11581 C31582 A62002 A32006 A22014 B22015 B22016 B32021 B2
2022 B32031 A22032 B22033 B22038 A32039 B32040 A32043 B22044 B22045 B22046 A2
2047 B22048 B22049 B22050 B22051 B22060 C12062 B12078 A22079 A22081 A22082 B1
2088 A12101 C22102 C22103 C22115 C22119 B22126 B22127 B22128 B32130 B22132 C2
2133 C22134 B22135 C22136 B22137 B22138 B22150 B12151 B12152 B12154 C12155 B2
2156 A22157 A22281 B52282 B42284 B52285 C42300 B42305 C52310 C42324 C52325 C4
2326 D42341 C42342 C52343 C52344 C42345 C42346 C42350 C52351 C52352 C52358 C5
2359 C52360 C52371 C42372 C42377 C42379 C42430 A42431 A42432 A42433 A42434 A4
2435 A42436 A32437 A52438 A42439 A42440 A42441 A42442 A42443 A42444 A42445 A4
2447 A32450 B42451 A42452 B42453 A32454 A42457 A42458 A42461 A52462 A42465 A3
2467 A42468 A32480 A52481 A52483 A62484 A52485 A62486 A62487 A62488 A62489 A7
2514 B42516 C42525 B32546 B42557 B42571 A52581 C32582 C32583 C42584 A72600 B5
2601 B42604 B42607 B42609 C42611 C52612 C52615 B52618 B52620 B52622 B52623 B5
2628 B52629 B52630 B42633 B42634 C52638 B42644 B42645 B52649 B52651 B62652 B6
2654 C62655 C62656 C72657 C72658 C62659 C62730 A62731 A62732 A72733 A62734 B6
2792 C62793 B62904 D22915 D22918 D22919 D22920 D32937 D32938 C42941 C42948 C3
2949 C32950 C42951 C42962 C62967 C72968 C72972 D72973 D72974 D72975 D72976 D7
2977 C42978 C32979 D63002 B33004 B33006 A33010 B23011 B23012 B23013 B13016 B2
3018 A23019 B33024 A33026 A33027 B33060 C13061 A13062 C13063 C13066 B13067 B1
3068 A23070 A13101 C23102 C23103 C23104 C23105 C23106 C23112 C23116 B23131 B23132 B23133 B23134 C23135 B23137 C23138 B23150 B13151 B13152 B13281 A53282 A53283 A53284 A53302 C43303 D53304 D43305 C53306 C43318 C43324 C43326 C43328 C43334 C43335 C43336 C43337 C43340 C43341 C43343 C43346 C43347 C43348 C43349 D43350 C53351 C53352 C53355 C53357 C53358 C53371 C43374 C43375 C43388 C43390 C43433 A53434 A53435 A43436 A43437 A43439 A33440 A33441 A33442 A33443 A33444 A33445 A43446 A43447 A4
3448 A43449 A43450 A43452 A43453 A43454 A43455 A43456 A43457 A43458 A33459 A43460 A33461 A43462 A43463 A43465 A53468 A43480 A63481 A53482 A53483 A63484 A53485 A53501 C43502 C43503 C43504 C43507 C43508 C43511 B43512 C43513 B33515 B33518 C43523 B33530 B43541 A73542 B33543 B43544 B33546 B43547 B43548 B43549 B43550 A33557 B43561 B43563 B43564 B43565 B43570 A53571 A53572 A53573 A53580 A53581 A53582 B73583 B73586 A73590 B73651 C63652 C63653 C63737 B53904 C23909 D23911 D23918 C23919 C2
3928 C53929 C53937 D33938 C43950 C43951 C43962 C63963 D23964 D23972 D73973 D73974 D73975 D73976 D73977 C43978 C33979 D63980 C34062 B14108 B34153 B14430 A44431 A44432 A44433 A34434 A44435 B44436 B44437 B44450 A74451 A74452 A74453 A74480 A54481 A54560 B44570 A54571 A54573 A54790 B64791 B65060 A25061 A25062 A25063 B15101 C25102 C25112 B25128 C25134 B25135 B25150 B25151 A25152 A25281 B55282 B45283 B55285 B45300 C45328 C45342 C55343 B55344 B45345 B45450 B45452 B45480 A65570 A55583 B4
5600 B65601 C55651 B75652 B75654 C65659 C65730 A65731 A65792 C66101 C26102 C26301 C56326 C46327 C46341 C46480 A66481 A56589 A76651 B67060 C17062 A17063 B17101 C27104 C27131 C27150 B17304 D57346 C47430 A47431 A37432 A47433 A47434 A47480 A67525 B37581 B77650 C77651 C7
54ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout SSB (Part 1 LOT Side)
CL 36532058_38a.eps030903
Part 1
Circuit Diagrams and PWB Layouts 55ES1E AA 7.
Layout SSB (Part 2 LOT Side)
CL 36532058_38b.eps030903
Part 2
56ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout SSB (Part 3 LOT Side)
CL 36532058_38c.eps030903
Part 3
Circuit Diagrams and PWB Layouts 57ES1E AA 7.
Layout SSB (Part 4 LOT Side)
CL 36532058_38d.eps030903
Part 4
58ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout SSB (Overview Tuner Side)
CL 36532058_039.eps0309033139 123 5536.2
CL 36532058_038.eps030903
Part 1CL 36532058_39a.eps
Part 2CL 36532058_39b.eps
Part 3CL 36532058_039c.eps
Part 4CL 36532058_039d.eps
0201 B50202 B50290 C20291 B21112 B51114 C61115 A71117 B7
1901 D71902 D71903 D71904 D61906 D61907 D61909 D61910 D6
1911 D61913 D61915 D61918 D61919 D61920 D51921 D51923 D5
1924 D51925 D51926 D51928 D51929 D51931 D51932 D51933 D5
1934 D51935 D51936 D41937 D41938 D41939 D41941 D41948 D3
1949 D31950 D31951 D31952 D31953 D31955 D31956 D31958 D3
1959 D31960 D31961 D31962 D31963 D21964 D21965 D21966 D2
1967 D21968 D21969 D21970 D21972 D21973 D21974 D21975 D2
1976 D21977 D21978 D21979 D11980 D12003 A52005 A62007 C7
2008 B72012 B52013 B62018 B62019 B52024 B62025 B52027 B6
2028 B52030 A62037 A52041 A72042 A72063 C72064 C72065 B7
2066 B72067 B72068 B72069 C72070 B72071 B72072 A72073 A7
2074 A72075 A72076 A72083 B72084 B72085 B72086 B72087 B7
2307 C32308 C42311 C42317 C42318 C42319 C42321 D42327 C4
2328 C42329 C42331 D42339 C42361 C32362 C32363 C32364 C3
2365 C32366 D32380 C52384 C52386 C42395 C52397 C52932 C5
2933 C52935 D52936 D53003 B53005 B53007 A53008 A73009 A7
3022 A53064 C73065 B73071 C73072 A73073 A73074 A73153 B7
3154 B73155 A73307 C33308 C43309 D33310 D43311 C33312 C3
3313 C33316 C43317 C43319 D43320 D43321 C43322 C43323 C43329 D43330 D43331 C43332 C43333 C43338 C43339 C43345 C63353 C53354 C53356 D53360 C33361 C33362 D33363 C33364 C33365 D33366 D33367 C33368 D33372 D33373 C33376 C33377 D33378 D33380 C53382 C43384 C53385 C53386 C43391 C53392 C53393 C53394 C53395 C53396 C53397 C53398 C53509 C53510 C53936 D63939 D64101 C64102 C64103 C64104 C64107 C64152 C74361 D34363 C24501 A25129 B55307 C45317 C45327 C46353 C56361 C26365 C36367 C36368 C36381 C56382 D56384 C56385 C4
6397 C56398 C57100 B67300 B37301 C37302 C47303 C47310 D37320 D47330 D47356 C57361 C27365 D37382 C47383 C57393 C57730 A27790 C2
Circuit Diagrams and PWB Layouts 59ES1E AA 7.
Layout SSB (Part 1 Tuner Side)
CL 36532058_39a.eps030903
Part 1
60ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout SSB (Part 2 Tuner Side)
CL 36532058_39b.eps030903
Part 2
Circuit Diagrams and PWB Layouts 61ES1E AA 7.
Layout SSB (Part 3 Tuner Side)
CL 36532058_39c.eps030903
Part 3
62ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout SSB (Part 4 Tuner Side)
CL 36532058_38d.eps030903
Part 4
Circuit Diagrams and PWB Layouts 63ES1E AA 7.
Side I/O Panel (FL9)
3139 123 6007.2F_15040_015.eps
230305
6808 B2
I814 C3I815 D3I816 E3I817 A3I818 B4I819 D2I820 E2I821 D2
F011 A6F013 A8F014 C9F015 A8F016 C6
3999 F6
F017 C8F018 B8F019 C7F020 F9F021 F9F022 F9F023 F6F024 F7
SOUND R-HEADPHONE-OUT
Y
I803 A4
I809 B5I810 B5I811 B4I812 C4I813 B3
5801 F35802 F36801 B36802 C26803 C36804 D26805 D36806 E26807 A3
L
7811 B47812 B57813 A59800 F69810 A69811 A69812 F99820 C3
I822 F5I823 F6
1936
R
F006 D2F007 D2F008 E2F009 E2F010 E2
9829 F3F001 A2F002 B2F003 B2F005 C2
3830 F43835 D53842 E53845 A33846 A43847 A43848 A53849 A53850 A4
2811 B5
4800 D24801 D24803 F54804 C64805 A34806 F84808 F94809 E8
I801 B3I802 A3
I804 A4I805 A3I806 A4I807 A5I808 B5
Y
4812 F84830 E34831 F3
SOUND R-HEADPHONE-OUT
3806 D33808 A43809 A33810 C43811 C43812 B43813 B53814 C5
9821 D39827 E5
3826 E53827 E53828 F33829 F3
1806 A21936 C92803 C32804 C42805 D42806 D32807 A32810 B4
2
2813 C62832 E62834 F42840 F22841 F23801 A33802 C33803 C3
4810 F84811 F8
CVBS
DETECT
C
R
1327 E11328 B11344 F91346 E91800 E21801 C21802 F21803 F2
3815 C33816 B3
SIDE I/O PANEL
1
*
SOUND L-HEADPHONE-OUT
CVBS
3 4 5 6 7 8 9
A
3804 D33805 C3
SVHS
1326-3 D1
RES
RES
L
HEADPHONE-OUT
N.C
OF
R
1804 E31805 B2
**
5 6 7 8 9
**
L
SOUND L-HEADPHONE-OUT
N.C
1 2 3 4
OR
FROM 1620 OF
INTERFACING
E
F
B
C
D
*
*
* DIVERSITY
FROM/TO
A
B
C
D
E
F
1326-1 C11326-2 C1
*
*
*
*
c/ 16/9
680p
2806
4830
4831
4809
F005
680K
3810
4808
1K0
3804
F019
BC857B7812
5
7
6
I804
1328
12 34
6808
YKF51-5304
4800
BZ
X38
4-C
6V8
I806
GND_AUD
2K2
3814
150K
3812
F020
4801
4803
33n
2810
F006
GND_AUD
10K
3846
F013
47K
3806
100R
I810
3809
GND_AUD
I805
4805
F001
9810
F018
I813
GNDB
I807
1805
1K8
3850
F007
I815
1804
I823
120R3829
GND_AUD
5K6
3848
123
GNDB
1346
75R
3802
1K0
3803
3K9
3813
4806
4810
10K
3847
9800
GNDB
F016
9811
I818
F014
BC857B7811
F009
9821
GNDB
2840
100p
1326-2
64
5
GND_AUD
4K7
3845
1803
GND_AUD
F008
F002
I819
I817
2841
100p
120R3826
100p
2805
GNDB
9827
I812I814
1801
I808
GNDB
BZ
X38
4-C
10
6803
F003
F017
GNDB
GNDB
F015
680p
2803
F011
120R3827
9812
BZ
X38
4-C
10
6805
10K
3842
GNDB
150R
3999
GNDB
I822
3808
I821
3K9
3835
98295802
F022
39R
3816
F021
GND_AUD
10n
2807
1802
GNDB
GNDB
9820
F010
123
1344
I811
I802
BZ
X38
4-C
10
6806
3K3
3849
BZ
X38
4-C
6V8
6807
89
F023
1011
234567
1936
1
39K
3811
5801
3828
39R
3815
120R
F024
100p
2804
2
BZ
X38
4-C
10
6804
1326-1
1
I816
1326-3
97
8
GND_AUD
BC847B7813
4812
GND_AUD
150n
2834
5
78
75R
3801
1
2
3
4
YKB21-5101A1327
I820
2u2
2813
150n
2832
10K
3830
4804
RE
S (
SD
M-E
MG
_S)
100u
2811
I801
BZ
X38
4-C
6V8
6801
BZ
X38
4-C
6V8
6802
I803
4811
GNDB
1806
I809
1800
47K
3805
+8V6
+8V6
+8V6
D D
64ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout Side I/O Panel (FL9) (Top Side)
3139 123 6007.2F_15040_016.eps
230305
1326 D21327 C21328 E21344 A21346 C11936 B12811 D12813 B13802 E23803 D13804 C23826 A23827 A23828 B23829 B23830 B23835 B23842 A23850 E13999 A19800 C19802 B19803 C19804 C19805 D19806 A29810 B19811 D19812 A29820 D19821 C29827 A29829 B2
Layout Side I/O Panel (FL9) (Bottom Side)
3139 123 6007.2F_15040_017.eps
230305
2803 D12804 D12805 C12806 D12807 E12810 E22832 A22834 A22840 B12841 B13801 E23805 D13806 C13808 D23809 E23810 E23811 D23812 E23813 D23814 C23815 E13816 E23845 E23846 E23847 E23848 E23849 E24800 C14801 C24802 B24803 B24804 C24805 E14806 C24808 C24809 C24810 B14811 A14812 A24813 B14830 B14831 B15801 B15802 B16801 E26802 E16803 D16804 D16805 C16806 D16807 E26808 E27811 D27812 D27813 E2
Circuit Diagrams and PWB Layouts 65ES1E AA 7.
Side I/O Panel (SL5/PV2)
3
H
B
SIDE I/O PANEL
B
C
D
4 5
5
C
6
F
D
E
G
1
1
S_VHS
HEADPHONE
62
E
2 3
RES
VIDEO IN
A
Y
4
RIGHT
LEFT
G
H
C
FROM 1620 OF
INTERFACING
F
RES
A
4201
I209
T6291
47K3294
4202
6293
T
6296 T
2292470p
1257
I222
I218
32911K0
1262
I217
10K3296
2288100p
I201
1258
I206
I219
1259
I221
5292
5291
3286100R
2294
3288
470p
I205
100R
105
1
94
116
YKF51-53471256
2
7
3
8
I203
3456789
02401
1011
2
1260
75R3285
T
I204
6292
1264
328775R
6295
T
32891K8
1K03293
10K3297
1261
2286100p
I213
I211
150n2297
2
I208
YKC21-5599
31
1255-1
8
YKC21-55991255-3
97
1
2
3
45
78
1254YKB21-5101A
150n2296
32953K9
I202
T 6294
329247K
6297 T
YKC21-55991255-2
64
5
I210
4292
I215
4291
1263
I220
R_FRONT_INFRONT_DETECT
HP_OUT_L
HP_OUT_R
Y_CVBS_FRONT
C_FRONT_IN
L_FRONT_IN
D D
3139 123 6009.2F_15040_019.eps
300305
Personal Notes:
66ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout Side I/O Panel (SL5/PV2) (Top Side)
Layout Side I/O Panel (SL5/PV2) (Bottom Side)
F_15040_020.eps3003053139 123 6009.2
0240 A31254 A41255 A3
1256 A22286 A22288 A1
2292 A22294 A32296 A4
2297 A43285 A23286 A2
3287 A13288 A13289 A1
3291 A33293 A33295 A2
9231 A39232 A4
F_15040_021.eps3003053139 123 6009.2
3292 A33294 A23296 A1
3297 A14201 A34202 A4
4241 A34242/2243 A14243 A2
4291 A14292 A15291 A1
5292 A16291 A26292 A1
6293 A16294 A16295 A3
6296 A36297 A3
Circuit Diagrams and PWB Layouts 67ES1E AA 7.
Front Control Panel
B
0215 A11091 A2
MENU BUTTON FOR
TO 1645 OF
INTERFACING
2K*
PLUG&PLAY MENU
A
1092 A3
1093 A41094 B41095 A4
2010 A1
5 KEYS CONFIGURATION
V-
V+
1 2 3 4
1 2 3 4
A
B
FRONT CONTROL PANEL
3087 B43088 B3
3089 B33090 B23091 A2
I009 A4I012 B3I021 A4
*
C+ C-
3092 A23093 A33094 A3
3095 A43096 B43098 B3
6091 A4I001 A1I002 A2
I003 A3I004 A4I005 A4
I006 A2I007 A2I008 A3
I006 I002I001
BAT54 COL
6091
3096
1K5
3094
270R
560R30933092
390R3091560R
I007
2010
10n
I008
1091
I012
I021
3095
3K3
3088
10941K1
3089
620R
3090
123
0215
1092
3K3
3098
10931095
200R
3087
I009
I004 I005
I003
E E
3139 123 5570.2F_15040_023.eps
310305
Personal Notes:
68ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout Front Control Panel (Top Side)
3139 123 5570.2F_15040_024.eps
310305
0215 A11091 C11092 C11093 B11094 B11095 B1
Layout Front Control Panel (Bottom Side)
3139 123 5570.2F_15040_025.eps
310305
2010 A13087 B13088 B13089 C13090 C13091 A13092 C13093 C13094 C13095 B13096 B13098 B16091 B1
Circuit Diagrams and PWB Layouts 69ES1E AA 7.
Top Control Panel (PV2)
MIC V+
444E
13.7
K
EXTMIC V+
AMP
100K
4
RES
*
*3096
V+TO 1945 OF
Painter based
(EM1)
FRONT
1
TO 1645OF
INTER-FACING
3092
1094
4 Keys
C-
2010ArtistIC based
MICROPHONE
3 4
1 2 3
1094 B41095 B42010 A22011 D22012 D32013 E22014 E32015 E22016 E32017 E42018 E42019 D3
A
B
C
D
E
0215 A10216 E10217 D11090 D21091 B2
3095
60911091
OF
5 KEYS CONFIGURATION
1093
3010 D23011 D23012 E23086 A43087 B43088 B33089 B33090 B23091 A23092 A2
2
TOP CONTROL PANEL
PLUG&PLAY
TO 0215
MENU
*
**30883089
308730864089
1092 B31093 B4
3094 A33095 A43096 B43097 B33098 B34089 B34090 B2
2020 E2
10921093
4094
1093
60931091
10911092
1094
40924093
*30963095
RES
(RES)
4093 A34094 A36091 B46092 B46093 B47091 D3F001 D2F002 E2F003 E2F004 E3I001 A2I002 A2
3093 A330943093
*
C+
5 Keys
1095
1095
2010
1094
**
3091
I006 A2I007 B2I008 B3I009 B4I010 D3I011 D2I012 C3I013 D2I016 D3I017 E3I019 E4I020 E4
4091 A21092
30943093
30973098
3090
4090
Painter based
(A10)
4092 A2
**
3092
MENU BUTTON FOR
I003 A3
VOICE CONTROL
FRONT
V-
4091
I004 A4I005 A4
I021 B4
40894090
(LSP)
RES
3091
100n
2013
1090
2017
1u0
3098
3K3
3097
1K5
6
AMPNFB
7AMPOUT
2 EXTMICV+
4
GND
1 MICV+
8
V+
3 VIN+
5 VIN-
NJM2110M7091
470R
3012
4R7
3010
4094
F004
I017
47u2015
F002
2014
1n0
I002 270R
3094
I008
3K3
3095
1234
I001
0216
BA
T54
CO
L
6093
3093560R
I007
I009
I005
I012
I004
I011
3086
390R123
I010
0215
10n
2010
3087
200R
1u0
2018
F001
4092
F003
1092
20192012100n
1093
3088
2K0
I006
I016
1n02016
3011
4089
1K8
3089
1K1
3090
620R
1095
47u2011
I013
I019
I020
4090
1091
4091
1094
I003
I021
3091560R
4093
6091
BAT85
123
1K5
3096
0217
390R3092
2020
6092
BAT54 COL
GND
3V3
OUT1
3139 123 5440.6F_15040_027.eps
310305
E E
Personal Notes:
70ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout Top Control Panel (PV2) (Top Side)
3139 123 5440.6F_15040_028.eps
310305
0215 A10216 F10217 D11090 F11091 B11092 C11093 D11094 E11095 C12011 F12015 E16091 B1
Layout Top Control Panel (PV2) (Bottom Side)
3139 123 5440.6F_15040_029.eps
310305
2010 A12012 E12013 D12014 D12016 D12017 E12018 F12019 F12020 E13010 F13011 E13012 D13086 C13087 D13088 C13089 B13090 B13091 A13092 B13093 B13094 B13095 C13096 D13097 D13098 C14010 E14011 F14089 B14090 B14091 A14092 B14093 B14094 B16092 D16093 C17091 D1
Circuit Diagrams and PWB Layouts 71ES1E AA 7.
Top Control Panel (FL9)
V+A
B
A
B
0215 A1
1091 A2
1092 A3
1093 A4
1094 B4
1095 A3
2010 A1
3091 A2
3092 A2
3093 A2
TO 1645 OF
INTERFACING
C-C+
V-
1 2 3 4
1 2 3 4
(LSP)
TO 0215
MENUPLUG&PLAY
MENU
3094 A3
3095 A4
3096 B4
3099 B1
6091 A4
6092 B3
F001 B1
F002 B1
I001 A1
I002 A2
I003 A2
I004 A3
I005 A4
I006 A4
I007 B2
I008 B3
I009 A4
FRONTOF
F001 1K5
3096
3K3
3095
270R
30943093
560R390R
3092
560R
3091
0215123
I008I007
10n
2010
1092
1094
1093
1091
1095
6092
BA
T54
CO
L
I009
I005 I006I004I002 I003I001
6091
BAT54 COL
3099
1K0
F002
TOP CONTROL PANEL
3139 123 5699.2F_15040_031.eps
310305
E E
Personal Notes:
72ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout Top Control Panel (FL9) (Top Side)
3139 123 5699.2F_15040_032.eps
310305
0215 C2 1091 B2 1092 B1 1093 C1 1094 A1 1095 B1
Layout Top Control Panel (FL9) (Bottom Side)
3139 123 5699.2F_15040_033.eps
310305
2010 C1 3091 C1 3092 C1 3093 B1 3094 B1 3095 B2 3096 A2 3099 C2 6091 A2 6092 B1
Circuit Diagrams and PWB Layouts 73ES1E AA 7.
CRT Panel
Blue
Green
Red
Vcc
TEMPERATUREPROTECTION
ANDSHORT CIRCUIT
20K
20K
STANDBY/MUTE LOGIC
V
3V1
11 12 13 14 15 16
A
B
C
D
E
F
G
H
I
J
K
A
B
C
D
E
F
G
H
I
J
K
1316 A151317 E1
*
0V
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
1 2 3 4 5 6 7 8 9 10
3V1
1330 A81331 D81334 G81335 F111336 J161340 E11351 J61354-A I121354-B J131354-C H121354-D J141354-E H121354-F I121354-G I121354-H G121354-I I121354-J J121354-K I121361 A161382 D161388 B12313 K92317 J152319 J102324 J152332 C52333 B9
CRT PANEL
FROM 1401 OF
3V4
*
Bleeder Gun
112V
*
*
3V4
2336 D72338 A62339 D62340 G62343 E82344 F52346 F72347 D32352 I52353 H82354 B42355 C42356 I72357 C122358 F32359 F42360 G22361 A122362 H22363 A132364 A13R
otat
ion
Coi
l
CRT
TO
R-CRT
2365 C132367 D132368 B132369 C82370 D132371 B42372 E42373 G32374 A112375 C112376 A142377 C152381 A102382 C112383 B152384 A132385 B132386 C132387 C122388 D102389 E142390 C153305 D23306 I93307 I93317 C8
1V2
3V2
3V4
3V6
*
50V
LOT
*
3318 B153319 C163320 D123321 D123322 F143325 A43331 G93332 G103333 H93334 H103335 H93336 H103337 A63338 B43339 B53340 C43341 D63342 F43343 E43344 E53345 J9
*R
ST
AT
IC F
OC
US
EHT
3347 J153348 J133349 J93350 D123351 K83352 G43353 H33354 H43355 H43356 K83357 J103358 A103359 B103360 C113361 A113362 A123363 A133364 A143365 A133366 B133367 B133368 C13
* *
*
*
*
3370 C153371 B153372 B153373 A113374 C123375 C113377 C113378 C103379 B113380 B93381 D93382 B123385 C133386 B23387 B23388 B23389 C23392 A153393 B123394 C133395 B103396 D12
*
SC
AV
EM
CO
IL
VG
2
TO3R3
3998 G14301 B124302 J114303 B44304 C44305 F3
4306 F34307 F24308 G24309 C34310 C124311 D74312 E84313 F74314 H84315 I74316 C104386 B14387 B14388 B14389 D35303 E35304 I10
114V
*
6VB-CRT
*
6V
200V
3R3
5308 D25339 B125340 B45341 C45342 F35343 F35344 F25345 G25346 I65347 G95348 H95349 H95361 B156307 C86325 A46331 F106332 G106333 G106334 D126335 A116336 A116361 B116362 B116386 B2
117V
VG
1
117V
118V
*
3V4
3V4
6387 B26388 B26390 A146391 C137330 A57331 C107332 A147333 C147340 D57350 G57361 A127362 B127363 B147364 B147365 B117366 C149301 B99302 I119324 J6F330 D3F331 K6F332 E3F334 E2
TO
B
EHT-INFO
F335 F2F336 F2F337 F2F338 H11F339 H11F340 K7F341 G11F342 K15F345 F11F346 K7F347 J15F348 J7F352 K6F354 K8F361 A15F362 B15F381 D16F382 D16
G
AQUADAG
*
*
F383 K7F398 G1F399 G2I301 B1I302 B1I303 B1I304 B2I305 B2I306 B2I307 B3I308 A4I309 B4I310 C4I311 E4I312 F3I313 G3I314 A14I315 C14I316 C14I317 B16I318 B12I319 D12
G-CRT
*
3V4
3V4
115V
115V
112V
112V
DC_Filament
4V6
3V9
*
*
7V2
4V6
4V
112V
I320 D13I321 A11I322 K9I323 K9I324 F11I325 C10
*
I326 B11I327 K6I328 H5I329 H5I330 H9I331 H9I332 G9I333 H10I334 H10I335 G10I336 D3I342 C8I346 E8I347 H8I348 J10I350 I10I351 K9I360 A13I361 A11I362 A12I364 C13I365 B14I366 B13I367 A13I368 A14I369 B14I370 B10I371 C14I373 I11I374 E14
*
I376 J13I377 J14I378 C2I379 D2I380 D14I381 D13I386 A10
I389 A5I390 A7I391 B8I392 B5I393 D7I394 E8I395 E5I396 E5I397 G7I398 H8
*
6334
BZ
X38
4-C
3V3
3370
3R3
1599
2K7
0V7
FROM 1629 OF
INTERFACING *
*
5V3
w/o bleeder
112V
TDA8941P
3V1
2R7
4V3
ROTATION FOR WIDE SCREEN ONLY
SCAVEM
B1
DEFLECTION
DY
N F
OC
US
*
*
*
*
*
114V
6V
B1
B1
B1
112V
GND_RGB
GND_LS1
I368
5
GND_RGB
4305
1340
1234
I391
GND_RGB
I348
+12A1
I396
22K
3320
I323
GND_RGB
2381
47u
I395680p2343
GND_RGB
1354-F
H19
F335
2356
33n
3344
100n
2340
1K0
3336
6390
470R
6307
3348
1K0
GND_RGB
F340
4312
2371
I364
GND_RGB
I346
I302
2352
4n7
3345
10R
2382
47n
I334
5308
5u6
2364
4n7
3377
3339
2K7
3322
1354-KSG2
2
150K
BAV21WS
6331
5345
I333
GND_RGB
+141V
+12V_SVM
GND_RGB
820p
F345
2324
GND_RGB
+200A
I310
5303
5u6
I316
3363
560R
680K
3321
F354
F331+8V_+12V
GND_RGB
5
560R
3372
B5B-PH-K
1234
I376
1317
I331
GND_RGB
CR
1354-E8
GND_LS1
I386
I342
GND_RGB
1330
270R
4306
3385
5
I347
G1
1354
-B
I306
1K5
3373
I305 3379
3337
100K
18K
3305
1R0
I350
5u6
5349
4301
2354
GND_RGB
4p7
GND_RGB
I379
3353
2K2
2374
123
1382
9301
3360
2369
330p I320
I321
+3V
2387
GND_RGB
680p
18p
F398
2353
1354-G
H210
2K7
3342
GND_RGB
+200A
I325
I369
I393
5347
5u6
GND_RGB
3392
270R
220p
2373
2383
2K2
3343
3364
6336B
AV
99
GND_RGB
BA
V9963
35
3371
560R
BC327-257332
2319
10n
HEATSINK1316
13361
F338
4n7
2388
680p
2386
3358
GND_RGB
I373
+200A
GND_RGB
BC847B7361
GND_RGB
4316
3368
560R
2339
100n
GND_RGB
I322
4p7
2362
I380
F361
3366
68K
3380
2K2
GND_RGB
2K2
3381
3352
100K
GND_RGB
5342
GND_RGB
7365
I374
3354
BC847B
4308
2K7
4309
5346
6333
BA
V21
WS
3332
470R
GND_RGB
4313
1
33R
3349
I315
SG11354-A
+12A
F399
3382
330R
100n
3393
56R
GND_RGB
2361
2385
100n
I307
GND_RGB
GND_RGB
F337
F332
22u
2368
F341
10u
2390
3318
10R
1K8
4
4315
3325
B4B-PH-K
1388
123 F362
5304
+3V
5340
I366
4388
GND_RGB
4387
F342
4303
4p7
+3V
4310
2359
I308
GND_RGB
I394
100n
2338
5344
3335
470R
I309
I314
GND_RGB
I335
GND_RGB
100n
2370+8V_+12V
+200A
F334
I390
10n
2357
KTB631K7363
I313
I327
1VOC 8
GND_RGB
GND_RGB
I360
4
GN
D
5IOM
VCN 7
VD
DH
6
2V
DD
L
VF
B
9
VIN3
VIP
TDA6111Q7340
MIRROR
MIRROR
DIFFERENTIALSTAGE
MIRROR
MIRROR
V BIAS
CURRENT SOURCE
3365
GND_RGB
4K7
I330
I397
I392
I371
GND_LS1
3361
470R
I377
5343
2372
I389
4n7
2344
100K
3341
I361
GND_LS1
3338
2K2I303
I304
I370
3378
1K2
22u
2363
3340
1K0
2333
680p
1334
1331
I336
VOC 8
F339
4
IOM 5
VCN 7
VD
DH
6
2V
DD
L
9V
FB
3 VIN
VIP1
MIRROR
MIRROR
DIFFERENTIALSTAGE
MIRROR
MIRROR
V BIAS
CURRENT SOURCE
7330TDA6111Q
GN
D
I351
330R
3388
F347
3362
10R
F330
100R
3374
5u6
5348
3359
I365
11
F346
CB
1354-H
10R
3389
1335
GND_RGB
4307
3396
1K8
3334
470R
2375
47n
3375
1K0
6362
BA
S31
6
7364KTD600K
150K
3319
2360
4p7
3317
1K0
+12A1
33n
2346
5361
BC857B7331
3333
470R
4389
3998
1K2
2347
470u
6391
I317
+12V_SVM
CG
1354-C6
+200A
3356150R
9302
3367
68K
2332
4n7
3347
1K5
I328
9324
GND_RGB
BA
S31
6
6361
GND_RGB
3306
2365
4n7
IN-
MODE4
OUT+ 2
OUT- 7
SVR6
VCC
1
F381
7366
8GND
3 IN+
5
F348
I301
6325
I312
BZ
X38
4-C
3V3
3307
I311
10K
3350
2336
33n
GND_LS1
330R
3387
2389
100n
1361
123
F382
I318
4p7
2358
I319
I329
F336
F352
I398
GND_RGB
GND_RGB
4386
2376
47u
2377
2313
7333BC337-25
4567
1351
123
GND_RGB
5341
I378
150R3351
GND_RGB
GND_RGB
GND_RGB
I367
4p7
GND_RGB
2355
3355
GND_RGB
4304
GND_RGB
1K0
6332
BA
V21
WS
I362
GND
1354-I12
GND_RGB
4311
3395
3357
330R
G2
7
2384
100n
13
4302
1354
-D
+12V_SVM
1354-J
GND-BL
3 VIN
VIP1VOC 8
I381
GN
D
4
IOM 5
VCN 7
VD
DH
6
VD
DL
2
VF
B
9
MIRROR
MIRROR
DIFFERENTIALSTAGE
MIRROR
MIRROR
V BIAS
CURRENT SOURCE
7350TDA6111Q
+3V
GND_LS1
GND_LS1
4314
GND_RGB
2367
100n
5339
GND_LS1
I332
LTL-10224WHCR6388
I324
LTL-10224WHCR6386
2317
4n7
3331
470R
6387 LTL-10224WHCR
I326
5K1
3394
3386
F383
GND_RGB
330R
BC857B7362
+12A1
SVM_ROT
CUT_OFF
+12A1
SVM_ROT
+141V
+12A1
CUT_OFF
FF
3139 123 5817.4 F_15040_011.eps290405
5R65R6 5R6
SIZE/TUBE
28WSRF
5R63R3
NON-DAF SOCKET DAF SOCKET NON-DAF SOCKET
A66ERF172X04428BLD
A66EAK075X05432WSRF
A66ERF172X044
33063307
A68ERF182X044ITEM
For Europe
29RF
DAF SOCKET1354
6R85R65R6
63906391
NOT USEDNOT USED NOT USED NOT USEDNOT USEDNOT USED NOT USED NOT USED
USEDUSED USED USED9324
Rotation crt USEDNOT USED USED NOT USED
9302
USED USED4310 USEDUSED USED USED4311 NOT USEDNOT USED NOT USED NOT USED4312 NOT USEDNOT USED NOT USED NOT USED4313 NOT USEDNOT USED NOT USED NOT USED6335 BAV99BAV99 BAV99 BAV996336 BAV99BAV99 BAV99 BAV99
NOT USEDNOT USED NOT USED NOT USED4303 USEDUSED USED USED4304 USEDUSED USED USED4305 USEDUSED USED USED4306 USEDUSED USED USED4307 USEDUSED USED USED4308 USEDUSED
5.6pF2373 5.6pF5.6pF 5.6pF 5.6pF2374
3358
330nF330nF 330nF 330nF
4K74K7 4K7 4K73359 6K86K8 6K8 6K8
3360 220R220R 220R 220R4301 NOT USEDNOT USED NOT USED NOT USED4302
NOT USEDNOT USED NOT USED NOT USED
23712372
5.6pF5.6pF 5.6pF 5.6pF5.6pF5.6pF 5.6pF
74ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout CRT Panel (Top Side)
3139 123 5817.4F_15040_012.eps
230305
1316 B41317 E21330 D31331 D41334 D41335 B1
1336 D11340 E21351 A11354 C11361 A41382 B1
1388 D22313 C42317 D12319 C12324 C12338 D4
2339 D32340 D32347 D22363 A42368 A42381 B2
2390 B13305 A23306 A23307 A13317 E33318 B1
3331 D33332 D23333 D43334 C33335 D23336 D2
3337 D33341 D43344 E43345 C43347 D13348 C1
3349 D33350 A23351 C43352 D43356 C43361 B3
3367 A33371 A43372 A43373 A33395 A25303 B2
5304 C35308 B25339 A35346 B35347 D35348 D4
5349 D25361 B46386 E16387 E16388 E27330 D3
7332 B47333 B47340 D47350 D47363 B47364 B4
7366 A19301 D39302 C39324 B39328 C39330 E4
9331 A29332 D29333 E39334 C1
Layout CRT Panel (Bottom Side)
3139 123 5817.4F_15040_013.eps
230305
2332 D22333 D22336 D22343 D12344 E12346 D12352 E1
2353 D12354 E32355 E32356 D12357 B22358 E32359 E3
2360 E32361 B32362 E32364 B22365 B22367 A42369 D2
2370 A42382 A22383 A12384 A12385 B12386 B22387 B2
2388 A32389 A43319 A43320 B43321 A43322 B43325 E2
3339 D23340 E23342 D13343 E13354 E13355 E13357 B4
3362 A23363 A23364 A13365 A13366 A13368 B13370 B2
3377 B23378 A33379 A23380 A33381 A33386 D43387 D4
3388 D33392 A13394 B13396 B43999 B34302 C34303 E3
4304 E34305 E34306 E34307 E34308 E34309 D34311 D3
4312 D14313 D14314 D14315 D24321 E14330 A34386 D3
4387 D34388 D34389 D35340 E35341 E35342 E35343 E3
5344 E35345 E36307 D26308 A36325 E26331 D26332 D3
6333 D16334 B46361 B27331 A37361 A27362 A27365 B2
Circuit Diagrams and PWB Layouts 75ES1E AA 7.
Mains Switch Panel (FL9)
NC
E
0201 E2
0202 E7
0247 A7
1010 A2
RE
S
AC
1 2 3 4 5 6 7 8
1
3057 E3
3066 E3
3078 A4
3081 B3
3082 A3
2 8
A
B
C
D
3 4 5 6 7
RC5
E
A
B
C
D
3088 C5
3089 C4
3090 C4
3091 D6
3092 A4
1051 E4
OF
3099 E5
4000 C3
4001 B4
4003 C4
6001 C3
6053 B1
6054 C6
7000 B5
7001 C3
2030 A2
2031 C5
2032 D6
F006 E7
F007 B7
F008 B7
F009 B5
F010 D3
3083 C3
RE
S
TO 0010
ON-OFF-LED
only for AP
MAINS SWITCH PANEL(FL9)
5V2
RC 5 OUT
3084 B1
3085 B5
3086 C5
3087 C7
I003 A4
I004 B3
I005 E3
I006 B6
I007 C5
3093 B3RES
4004 D7
4006 B3
4008 B3
4009 A3
4010 A3
I012 C6
I014 D6
I015 D3
I016 D4
7002 C5
7003 C7
F003 E2
F004 E7
F005 E2
F011 E6
BZ
X28
4-C
3V3
RECEIVER
178 - 250V
MAINS
RE
S
F012 E5
I001 A2
I002 B3
I009 C7
I010 C4
I008 C5
TO 1505 OFOR
POWER SUPPLY
*
* *
* *
TO 1624 OF
INTERFACING
I011 C5
IN
7001BC847BW
3090
100K
100R
3078
6053
I004
3086
220R
12
F009
0201 2456
F007
345
1051SDDF
13
0247
12
4001
3083
1K0
I015
I00240
00
F006
3084
2K2
I001
F010
I003
3081
1K5
1K0
1
3
3099
6001
I012
2031
47u
2GND
1OUT
3VS
3087
220R
4 2
TSOP348361010
TCDT1102G
7002
15
F011F012
1 4
32
3085
100K
7003
TCET1102(G)
1N41
48
6054
I014
I010
I005
3M3
3057
I009
I007
I006
3091
1K0
F003
F008
I016
I011
3088
47R
2032
22n
I008
F004
F005
4004
3089
1K0
3092
10K
4010
3093
6K8
4009
4008
12
4006
0202
330R
3082
3066
4003
3M3
7000BC857BW
100u
2030
3139 123 6041.2F_15040_035.eps
310305
M M
76ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout Mains Switch Panel (FL9) (Top Side)
0201 B30202 A30247 E11010 C11051 B32030 C12031 D22032 C33057 C23066 C23091 C36001 D16054 C37002 C27003 C29100 B2
3139 123 6041.2F_15040_036.eps
310305
Layout Mains Switch Panel (FL9) (Bottom Side)
3139 123 6041.2F_15040_037.eps
310305
4907
4905
3078 E43081 E43082 E43083 D33084 E43085 E43086 D33087 D33088 D33089 D33090 D33092 E43093 E43099 D24000 D34001 D34003 D34004 D34006 C44008 C44009 C44010 C44905 E44907 D36053 D47000 D37001 C3
Circuit Diagrams and PWB Layouts 77ES1E AA 7.
Mains Switch Panel (SL5)
F013 B9
I005 D2I006 B5I009 D3
9017 C5
9019 D49020 E49031 A89032 B8F001 A2F002 A2
CONTROL
POWER
MAINS
I027 A5I028 A6I029 A6I030 B6
* *
*
*
*
* * * *
SUPPLY
TO 1624 OF
INTERFACING
I031 B6
F012 B9
6006 E36007 B66008 A56009 A66022-2 B47001 E37002 A6
KEYBOARD
I002 B7I003 C7I004 A4
*
*I010 C4I011 D4I012 A5I013 D2I016 E3I018 D5I019 D5I020 B4I021 C5I023 C6I024 D6I025 C4I025 C5I026 D6
3031 B73032 C74001 A44002 A44003 A44004 B44005 B4
USA ONLY
RES
LTR
-301
RES
BLU
E L
ED
F003 A2F004 A2F005 A2F007 B2F008 B2F009 B2F010 B7F011 B7
3009 E33010 C23011 C43013 C53014 C53015 C53016 C5
0V
MAINS SWITCH PANEL(SL5)
HOT MAINS SWITCH
RC55V-STANDBY
GND
ON/OFF LED
7003 B69010 C29011 C49013 C59015 C5
8 9
A
B
C
D
E
*
LSP
4006 B54007 A34008 E36001 A46002-1 B56003 C66004 C36005 D3
9
1 2 3 4 5 6
0V
0V5 IN
1505 OFTO
0V
0V
*
BACKLIGHT_TOP
COLD3017 C53018 D63019 C63020 D43021 A53022 A53023 A63030 B8
0242 B21002 D51003 D51004 C61005 D61006 D51031 A81032 C91693 D2
5V3
POWER
2001 D32002 E32003 C42004 B62030 B83001 A43002 A53003 A53004 A43005 B43006 C33007 D33008 E3
C-
V+
FRONTOF
RE
S
3V
*
+8V6 AC
FROM 1693
LIGHT SENSOR
GND KEYBOARD
TO1946
C+
7
A
B
C
D
E
0201 B70202 B90241 A1
V-
1n5
1 2 3 4 5 6 7 8
2003
10n
I029
I027
I030
I028
I031
10K
3008
7001
6006
100R
3022
PDTC114ET7003
21
LTL-
1022
4WH
CR
6007
203030
05
1K0
4K7
3021
3
4
5
6
BZX384-C3V3
6008
9031
1693
1
2
4005
12
4002
0201
I019
345
3016
390R
0242
S5B-EH
12
100R
3004
3006
330R
3007
I011
F012
I013
12
F010
02021
3
56
2
4
1003
SDDF1031
3020
560R
1002
3015
560R
4006
3M3
3032
4001
I026
F004
4004
F005
I012
3002
330R
I006
1004
3014
150R
I004
3030
3M3
F003
3010
9010
1006
OR
AN
GE
-RE
D
TLU
V53
0060
02-1
12
F007
6005
BZ
X38
4-C
3V3
I024
4007
4003
I018
1
I009
6001
LTL-
1022
4WH
CR
2
3003
330R
I003
I002
3M3
3031
1005
BA
S31
6
6009
4n7
2004
270R
3023
PDTA114ET7002
1K5
3018
3011
560R
9020
I010
9032
4008
2001
100u
10V
I021
3017
270R
F001
TSOP18366004
2GND
1OUT
3VS
F009
I020
I016
2002
47n
680K
3009
9017
F002
90159013
BAT85
6003
F013
F008
I017 9011
F011
1032
GR
EE
N
6022
-2T
LUV
5300 3
2
3001
560R
56789
I005
0241
1234
9019
390R
3013
I025
3K3
3019
I023
ON_OFF_LED
5V-STANDBY
LIG
HT
_SE
NS
OR
8V6
5V-STANDBY
RC
5_S
WIT
CH
5V-STANDBY
KEYBOARD
8V6
5V-STANDBY
5V-STANDBY
3139 123 6015.1F_15040_039.eps
310305
M M
78ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout Mains Switch Panel (SL5) (Top Side)
3139 123 6015.1F_15040_040.eps
310305
0201 C40202 B40241 G30242 H31002 J11003 I11004 I11005 H11006 B21031 B31032 D31693 E32001 D12003 H22030 D43001 E23007 D23010 G23011 I23013 I23014 I23015 I23016 I23017 I23018 I13019 H23020 C23030 D43031 C33032 D26001 D16002 D26003 H26004 D16006 E16007 C26022 D29010 H29011 I29013 I29015 I29017 I29019 F39020 C29031 B39032 C39040 E29041 E29043 F29044 F19045 G29046 G29047 G29048 G2
Layout Mains Switch Panel (SL5) (Bottom Side)
3139 123 6015.1 F_15040_041.eps310305
2002 E42004 D33002 E33003 E43004 E33005 D43006 D43008 E43009 E43021 D33022 E33023 D44001 E34002 E34003 E34004 E44005 E44006 D44007 F24008 E44040 G36005 D46008 D36009 D37001 E47002 D47003 D3
Circuit Diagrams and PWB Layouts 79ES1E AA 7.
Front Interface Panel (PV2)
NC
3984 A13985 A5
AC MAINS
TO 0947 OF A
B
C
D
E
0201 D20202 D70203 A61910 A21951 D42930 A12931 C42932 D63957 E33966 E33978 A33981 A33982 A23983 C3
RE
S
RE
S
220V
6 7
1 2 3 4 5 6 7
A
B
C
D
E
RC 5 OUT
RE
S
3986 B53987 B73988 B43989 B43990 C33991 C64900 C34901 B34903 B34904 D7
ON-OFF-LED
*
T4.0AE
6901 B36953 A16954 C67900 B47901 B37902 C57903 D6F903 D3F904 D6F905 D3F906 D6F907 A5F908 A5F909 A5F910 C3I901 A1I902 B3I903 A2I904 B2I905 E3
RES
OR
TO 0010 OF
*
*
I906 B5I907 B4I908 B5I909 C7I910 C4I911 B4I912 C6I913 A5I914 D5I915 E3
FRONT INTERFACE PANEL PV2
*
1 2 3 4 5
INPUT39
85
100K
ORTO 1624 OF
INTERFACING
*
TO 1505 OF
POWER SUPPLY
F908
2
02021
3988
47R
220R
398739
86
220R
7900BC857BW
12345
I905
0203
F905
2932
22n
2GND
1OUT
3VS
1910TSOP34836
3978
470R
1N41
48
6954
4904
I904
F91
0
I903
I911
3981
1K5
6901
2930
100u
I913
F907
F909
3991
1K0
3990
F904
3989
1K0
100K
4903
4
3983
1K0
1
3
5 6
2
SDDF
1951
15
4 2
I902
TCDT1102G7902
4901
I901 3982
330R
32
I910
TCET1101(G)7903
1 4
I907
I912
4900
7901BC847BW
3957
3M3
BZ
X38
4-C
3V3
6953
020112
3M3
3966
I915
F903
F906
I906
I909
2931
47u
I914
3984
2K2
I908
5V2
Q1 Q1
3139 123 5499.3F_15040_043.eps
310305
80ES1E AA 7.Circuit Diagrams and PWB Layouts
Layout Front Interface Panel (PV2) (Top Side)
3139 123 5499.3F_15040_044.eps
310305
0201 D10202 A1
0203 A31910 B4
1951 C22930 A4
2931 A42932 A1
3957 B33966 B3
3982 A33991 A2
6901 B46954 B2
7902 B37903 B3
Layout Front Interface Panel (PV2) (Bottom Side)
3139 123 5499.3F_15040_045.eps
310305
3978 A23981 A2
3983 C13984 B1
3985 A23986 A2
3987 A23988 A2
3989 A13990 A1
4900 C14901 A2
4903 A24904 B1
6953 C17900 A2
7901 A1
Alignments EN 81ES1E 8.
8. Alignments
Index of this chapter:8.1 General Alignment Conditions8.2 Hardware Alignments8.3 Software Alignments8.4 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 VAC / 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: 100 : 1, Ri > 10 Mohm, Ci < 3.5 pF.• Use an isolated trimmer/screwdriver to perform
alignments. Perform all electrical adjustments with the following default settings (for all CRTs):• Choose "Soft" 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.• Set "Contrast value" to 99.
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 (potentiometers in
“midway” positions).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
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. In the SAM mode, set the “Normal Red”, “Normal Green” and “Normal Blue” values to “0” for “White Tone”.
3. Disable the black current loop (via the AKB bit).4. Use the MENU key to enter the "user" menu, select
"Picture", and set "Brightness" and "Contrast" to “0”.5. 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!
6. 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 B1).
7. Measure at test points F338, F339 and F341 on the picture tube socket the DC-level of the measuring pulse (1st full line after the frame blanking) with respect to earth.
8. 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 160 +/- 5 VDC (for all screen sizes).
9. Reset "Contrast" and "Brightness" to their original values.
Figure 8-2 Waveform Vg2 alignment
CL 26532041_060.eps110402
SS
B
V.SHIFTCINCH SCART
TUNER 3642
1502
5430
Focus 2Focus 1
ScreenVG2
LOT
Warning
All alignmentsare on hot-part !
A
B
C
0V Ref.CL 06532130_014.eps
131000
VCUTOFF [VDC]max.
AlignmentsEN 82 ES1E8.
8.2.2 Focus alignment
The LOT has the following outline:– Focus 1 (F1) = Static alignment (red wire).– Focus 2 (F2) = Dynamic alignment (white 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
AGC1. 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 (F235, AGC
pin). 5. Adjust the AGC until the voltage at pin 1 (F235, AGC pin)
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 OFFSETNo 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 mVRMS (60 dBµV) 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.
Alignments EN 83ES1E 8.
Alignment
Figure 8-3 Geometry Alignments
Use the following software regulations to modify the geometry:1. VER. SHIFT (Vertical Shift): Align for the vertical picture
centre, range from -32 to +32.2. VER. AMPL (Vertical Amplitude): 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. VER. U_LIN (Vertical Upper Linearity): Align for linearity of the upper screen, range from -63 to +63.
5. VER. L_LIN (Vertical Lower Linearity): Align for linearity of the lower screen, range from -63 to +63.
6. 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 -63 to +63.
16. HOR. SCOR (Horizontal S-correction): Align for equal height of the blocks on the left, the right and the centre, range from -63 to +63.
17. HOR. IN_PIN (Horizontal Inner Pincushion): Align for the inner straight vertical lines, range from -15 to +15.
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.eps211103
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
AlignmentsEN 84 ES1E8.
AlignmentNormally, no adjustments are needed.If the white tone alignment values used in CSM of the the TV set do not give the required result, use the following alignment method:1. Set the external pattern generator to a 100% white pattern,
and connect its RF output to the aerial input of the TV. Set the amplitude to at least 1 mVRMS (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 "0".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 8-1 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".
• THRESHOLD LEVEL– Over Mod Tresh: "+3dB".– NIC ErrLmt_Hi: "200".– NIC ErrLmt_Lo: "100".– NoiseThres SC2: "+2".– NoiseHyst SC2: "+4".
• EFFECTS LEVEL– BMT CutOffFrq: "50Hz".– Incredible SND: "60%".– VDolby: "100%".
8.3.5 Smart Settings
No adjustments needed.
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 ValuesOption Bytes (OB) makes it possible to set all options very fast. An option byte represents a number of different options. All options are controlled via option bytes (OB1 to OB13; each “OB” number represents 16 bits; bit numbers that are not used are omitted in the second column). Select an Option Byte you want to change with the CURSOR UP/DOWN keys, and key in the new value. See the table for more details. An explanation per option is listed in paragraph "Option Bit Definition".
Changing a Single OptionIt 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 below, you will find the option settings.
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
Alignments EN 85ES1E 8.
Table 8-2 Option bit overview
OptionBytes(OB1...OB13)
Numberof Bits
Decimalvalue
Name Features
32P
W87
20/1
2
28P
W87
20/1
2
32P
W86
20/1
2
28P
W86
20/1
2
29P
T86
40/1
2
29P
T85
20/1
2
28P
T71
20/1
2
28P
W87
20/0
5
32P
W87
20/0
5
32P
W88
20/1
2
32P
W88
20/1
2
32P
W88
20/1
2
32P
W88
20/1
2
1 5 32 RCMX RC for Teletext Mix Mode 0 0 0 0 0 0 0 0 0 0 0 0 0
6 64 EQTO Equalizer/Tone 0 0 0 0 0 0 0 0 0 0 0 0 0
8 256 WSSB Wide Screen Signal Bit 1 1 1 1 0 0 0 1 1 1 1 0 0
12 4096 DGSC Digital Scan 1 1 1 1 1 1 1 1 1 1 1 1 1
14 16384 SSHT Subtitle Shift 1 1 1 1 0 0 0 1 1 1 1 0 0
2 5 32 DBYV Dolby Virtual 1 1 1 1 1 1 1 1 1 1 1 1 1
7 128 SWOF Swoofer** (1st bit) 0 0 0 0 0 0 0 0 0 0 0 0 0
8 256 SWOF Swoofer** (2nd bit) 0 0 0 0 0 0 0 0 0 0 0 0 0
9 512 P50 P50 1 1 1 1 1 1 1 1 1 1 1 1 1
11 2048 QPEAK AV Sound Mode Detection 0 0 0 0 0 0 0 0 0 0 0 0 0
3 0 1 AV3 Side AV Source 1 1 1 1 1 1 1 1 1 1 1 1 1
1 2 SCT3 Scart 3 Input 0 0 0 0 0 0 0 0 0 0 0 0 0
8 256 ASPR Aspect Ratio 1 1 1 1 0 0 0 1 1 1 1 0 0
9 512 ROTI Rotation Tilt 1 1 1 1 0 0 0 1 1 1 1 0 0
4 3 8 PITN Philips tuner*** (1st bit) 1 1 1 1 1 1 1 1 1 1 1 1 1
4 16 PITN Philips tuner*** (2nd bit) 0 0 0 0 0 0 0 0 0 0 0 0 0
5 6 64 AAVL Automatic Volume Leveller 1 1 1 1 1 1 1 1 1 1 1 1 1
6 12 4096 BASF Bass Feature* (1st bit) 1 1 1 1 1 1 1 1 1 1 1 1 1
13 8192 BASF Bass Feature* (2nd bit) 0 0 0 0 0 0 0 0 0 0 0 0 0
8 4 16 PIPC PIP control 0 0 0 0 0 0 0 0 0 1 1 1 1
5 32 PIPT PIP tuner 0 0 0 0 0 0 0 0 0 0 0 0 0
6 64 W4X3 DW 4:3 0 0 0 0 0 0 0 0 0 1 1 1 1
7 128 W169 DW 16:9 0 0 0 0 0 0 0 0 0 1 1 1 1
9 0 1 APC Auto Picture Control (Auto TV) 1 1 1 1 1 1 1 1 1 1 1 1 1
5 32 VMOD Virgin Mode 0 0 0 0 0 0 0 1 1 0 0 0 0
7 128 TIME Timer 1 1 1 1 1 1 1 1 1 1 1 1 1
8 256 DNR Dynamic Noise Reduction 1 1 1 1 1 1 1 1 1 1 1 1 1
9 512 BBD Black Bar Detect 1 1 1 1 0 0 0 1 1 1 1 0 0
10 5 32 UKPNP UK plug and play 0 0 0 0 0 0 0 1 1 0 0 0 0
6 64 DTXT Dual Text 1 1 1 1 0 0 0 1 1 1 1 0 0
7 128 VTXT Video Text 1 1 1 1 0 0 0 1 1 1 1 0 0
8 256 SBNP Auto Standby with no picture 1 1 1 1 1 1 1 1 1 1 1 1 1
9 512 AUSB Auto Standby Auto On 0 0 0 0 0 0 0 0 0 0 0 0 0
10 1024 CZOM Continuous Zoom 1 1 1 1 0 0 0 1 1 1 1 0 0
11 2048 HSHT Heading Shift 1 1 1 1 0 0 0 1 1 1 1 0 0
13 8192 HOSP Hospitality Mode 1 1 1 1 1 1 1 1 1 1 1 1 1
14 16384 CHLK Child Lock 1 1 1 1 1 1 1 1 1 1 1 1 1
11 3 8 SOSD Smart OSD 0 0 0 0 0 0 0 0 0 0 0 0 0
9 512 T1H0 100 Page Text 0 0 0 0 0 0 0 0 0 0 0 0 0
13 8192 FAPG Favorite page 1 1 1 1 1 1 1 1 1 1 1 1 1
14 16384 ACI Automatic Channel Installation 1 1 1 1 1 1 1 1 1 1 1 1 1
12 8 256 PLST Program List 1 1 1 1 1 1 1 1 1 1 1 1 1
12 4096 HPMN Headphone Menu 1 1 1 1 1 1 1 1 1 1 1 1 1
13 0 1 T2H5 250 Page Text 0 0 0 0 0 0 0 0 0 0 0 0 0
2 4 T12H 1200 Page Text 1 1 1 1 1 1 1 1 1 1 1 1 1
7 128 SMCK Smart clock 1 1 1 1 1 1 1 1 1 1 1 1 1
8 256 ATS Automatic Tuning System 1 1 1 1 1 1 1 1 1 1 1 1 1
12 4096 SSD SplitScreenDemo 1 1 1 1 1 1 1 1 1 1 1 1 1
AlignmentsEN 86 ES1E8.
8.4.4 Option Bit Definition
SourcesAV3: 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.
VideoASPR: 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. W4X3: Screen size 4x3.Function: Disable/Enable Screen size 4x3.Values: OFF= Disabled. Screen size 4x3 is not available. ON= Enabled. Screen size 4x3 is available. W169: Screen size 16x9.Function: Disable/Enable Screen size 16x9.Values: OFF= Disabled. Screen size 16x9 is not available. ON= Enabled. Screen size 16x9 is available. 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 (WS = 1; 4 : 3 = 0). CZOM: Continuous Zoom.Function: Disable/Enable Continuous Zoom.Values: OFF=Disabled. ON= Enabled (WS = 1; 4 : 3 = 0). HSHT: Heading Shift.Function: Disable/Enable Heading Shift.Values: OFF=Disabled. ON= Enabled (WS = 1; 4 : 3 = 0). SSHT: Subtitle Shift.Function: Disable/Enable Subtitle Shift.Values: OFF=Disabled. ON= Enabled (WS = 1; 4 : 3 = 0). 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 (WS = 1; 4 : 3 = 0). 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 (WS = 1; 4 : 3 = 0). 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. SSD: Split Screen Demo.Function: Disable/Enable Split Screen Demo.Values: OFF= Disabled. Split Screen Demo is not available. ON= Enabled. Split Screen Demo is available.
AudioAAVL: 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. 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. BASF: Bass Feature.Function: Disable/Enable Bass Feature.Values: OFF= Disabled. Bass Feature is not available. ON= Enabled. Bass Feature is available.Note: For this feature, 2 bits are used: bit 5 and bit 4 of NVM address 21hex. The following combinations are possible:00 = Disable DBE and DUB;01 = Enable DBE (bit 5 @ 21hex = 0; bit 4 @ 21hex= 1);10 = Enable DUB (bit 5 @ 21hex= 1; bit 4 @ 21hex= 0);11 = not used. HPMN: Headphone menu.Function: Disable/Enable Headphone menu.Values: OFF= Disabled. Headphone menu is not available. ON= Enabled. Headphone menu is available. SWOF: Subwoofer.Function: Disable/Enable Subwoofer.Values: OFF= Disabled. Subwoofer is not available. ON= Enabled. Subwoofer is available.Note: For this feature, 2 bits are used: bit 1 of NVM address 19hex and bit 7 of NVM address 18hex. The following combinations are possible:00 = None;01 = Subwoofer (bit 1@19hex = 0; bit 7@18hex = 1);10 = Woox (bit 1@19hex = 1; bit 7@18hex = 0);11 = not used.
TuningPITN: Philips Tuner.Function: Choose the tuner type that is configured in the hardware.Values: OFF= Disabled, Other (non-Philips) tuner is used. ON= Enabled, Philips compatible tuner is used.Note: For this feature, 2 bits are used: bit 4 and bit 3 of NVM address 1Chex. The following combinations are possible:00 = Other tuner;11 = Philips tuner (bit 4 and bit 3@ 1Chex = 1).
InstallationACI: 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.
Alignments EN 87ES1E 8.
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 SelectionPLST: 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 PicturePIPC: PIP Control.Function: Disable/Enable submenu to adjust PIP Picture settingsValues: 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.
ClockSMCK: 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 ServiceDTXT: Dual Text.Function: Disable/Enable Dual Text.
Values: OFF= Disabled. Dual text is not available. ON= Enabled. Dual text is available (WS = 1; 4 : 3 = 0). 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. VTXT: Video Text.Function: Disable/Enable Video Text.Values: OFF= Disabled. Video text is not available. ON= Enabled. Video text is available (WS = 1; 4 : 3 = 0).
Lock FeaturesCHLK: Child Lock.Function: Disable / Enabled function to block/unblock channels.Values: OFF= Disabled. ON= Enabled.
OSD/Menu RelatedSOSD: Smart OSD.Function: Disable/Enable full display of SMART SOUND and SMART PICTURE OSD.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.
MiscellaneousHOSP: Hospitality mode.Function: Disable/Enable Hospitality mode.Values: OFF= Disabled. Hospitality mode is not available. ON= Enabled. Hospitality mode is available. 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. P50: P50 (Easylink).Function: Disable/Enable P50 feature.Values: OFF= Disabled, P50 feature not available. ON= Enabled, P50 feature is available.
Circuit Descriptions, Abbreviation List, and IC Data SheetsEN 88 ES1E9.
9. Circuit Descriptions, Abbreviation List, and IC Data Sheets
Index of this chapter:9.1 Introduction9.2 Deflection9.3 Software Upgrading9.4 Abbreviation List9.5 IC Data Sheets Note: Only new circuits (circuits that have not been published recently) are described. For the other circuits, see the A02E manual.
9.1 Introduction
The ES1E is a flat screen type CRT TV set for the year 2005 - 2006. It is based on the SSB of the A02, but the LSP, called Esplanade, has been redesigned in order to reduce the “hot” part of the chassis. In this chapter, only the deflection circuits, the correction circuits and the X-ray protection circuits are described.
9.1.1 Large Signal Panel
The Esplanade chassis has a full sized LSP, which is has been redesigned with respect to the previous A02 chassis in order to reduce the “hot” parts of the circuit. 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.
9.2 Deflection
Figure 9-1 Deflection Principle
NC9
5455 1
2
4
5
7
DEFLECTIONHORIZONTAL
COIL
1
2
5409
2
1
1
2
3
4
C94
8
5406
* 9412
GND_HOR
2417
2
1
5408
2419
3473
5409
3
4
3
4
5408
K
0V
140V
A
0V
*
*
J
7405BU2520DX
2413
F418
6404
DMV1500M
341647R
2414
2n2
GND_HOR
2412
I473
F419
2416
Vbatt
Deflection Principle Diagram ES1E
S CAP.
DEFLECTION
DAF
27VD
GS 0V
4V8
E/W
2K2
3434
6471
I499
7406
I415
82K3425
EAST WEST MODULATION
2nd ORDER S-CORRECTION
F_15040_051.eps040405
Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 89ES1E 9.
9.2.1 Basic Description.
T0 - T1
Figure 9-2 Deflection T0 - T1
At switch on of the TV set Scap (2417/2418) is charged by Vbatt. At T0 line transistor 7405 starts conducting. Now the current flows as shown in figure (T0 - T1), as a result of which the horizontal deflection will bend the electron beam from the centre of the screen to the right. Note that the deflection current has an almost linear waveform.
T1 - T2
Figure 9-3 Deflection T1 - T2
At T1 line transistor 7405 is switched off and the line fly-back starts. When the line transistor stops conducting, the line current is at its maximum level. The current charges fly-back capacitors 2412 and 2413, and also capacitor 2414. This causes a decrease of line current. (Note that this current has a half-cosine waveform). The deflection position (i.e. the electron beam) is in the middle of the screen now.
NC
7
9
5455 1
2
4
5
DEFLECTIONHORIZONTAL
COIL
1
254
09
2
1
1
2
3
4
C94
8
5406
*
9412
GND_HOR
2417
2
1
5408
2419
3473
5409
3
4
3
4
5408
K
0V
140V
A
0V
*
*
J
7405BU2520DX
2413
F418
6404
DMV1500M
341647R
2414
2n2
GND_HOR
2412
I473
F419
2416
Vbatt
Deflection T0-T1
27VD
GS 0V
4V8
E/W
2K2
3434
6471
I499
7406
I415
82K3425
T
I
T0 T1
F_15040_047.eps040405
Line transistorCONDUCTS
NC9
5455 1
2
4
5
7
DEFLECTIONHORIZONTAL
COIL
1
2
5409
2
1
1
2
3
4
C94
8
5406
*
9412
GND_HOR
2417
2
1
5408
2419
3473
5409
3
4
3
4
5408
K
0V
140V
A
0V
*
*
J
7405BU2520DX
2413
F418
6404
DMV1500M
341647R
2414
2n2
GND_HOR
2412
I473
F419
2416
Vbatt
Deflection T1-T2
27VD
GS 0V
4V8
E/W
2K2
3434
6471
I499
7406
I415
82K3425
T
I
Line transistorOPENS
T0 T1 T2
F_15040_048.eps040405
Circuit Descriptions, Abbreviation List, and IC Data SheetsEN 90 ES1E9.
T2 - T3
Figure 9-4 Deflection T2 - T3
At T2 the deflection current is 0 Amp. The fly-back capacitor (2412/2413/2414) is charged to approximately 1200 V and will discharge now. As a result of this, the deflection current will bend the electron beam to the left of the screen.
T3 - T4
Figure 9-5 Deflection T3 - T4
When the fly-back capacitor (2412/2413/2414) is discharged, the current is at its maximum negative level. This maximum negative current will then charge the fly-back capacitor (2412/2413/2414) with a negative voltage. At this moment, fly-back diode 6404 will start conducting. The voltage at Scap 2418 causes a linear current flow from T3 - T4. This causes a deflection current which bends the electron beam back from the left to the centre of the screen.
9.2.2 Standby and Start Up
In Standby mode, both +5V and Vbatt are not available in order to meet the standby power saving requirement. During the start-up phase, +5V is switched on by STANDBY via 7548/7547/7545 and Vbatt is switched on by STANDBY via 7573. After this, Hdrive is output from the SSB to driver 7404 (see circuit diagram A2), and consequently to the deflection output stage (7405). During the slow start-up phase, the Hdrive duty cycle gradually increases from small to normal. At the
NC
7
9
5455 1
2
4
5
DEFLECTIONHORIZONTAL
COIL
1
2
5409
2
1
1
2
3
4
C94
8
5406
* 9412
GND_HOR
2417
2
1
5408
2419
3473
5409
3
4
3
4
5408
K
0V
140V
A
0V
*
*
J
7405BU2520DX
2413
F418
6404
DMV1500M
341647R
2414
2n2
GND_HOR
2412
I473
F419
2416
Vbatt
Deflection T2-T3
27VD
GS
0V4V8
E/W
2K2
3434
6471
I499
7406
I415
82K3425
T
I
Line transistorOPENFly-back capsDISCHARGE
T0 T1 T2 T3
F_15040_050.eps040405
NC9
5455 1
2
4
5
7
DEFLECTIONHORIZONTAL
COIL
1
2
5409
2
1
1
2
3
4
C94
8
5406
*9412
GND_HOR
2417
2
1
5408
2419
3473
5409
3
4
3
4
5408
K
0V
140V
A
0V
*
*
J
7405BU2520DX
2413
F418
6404
DMV1500M
341647R
2414
2n2
GND_HOR
2412
I473
F419
2416
Vbatt
Deflection T3-T4
27VD
GS
0V4V8
E/W
2K2
3434
6471
I499
7406
I415
82K3425
T
I
DiodeCONDUCTS
T0 T1 T2 T3 T4
F_15040_049.eps040405
Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 91ES1E 9.
beginning of the start-up phase, the driver receives its +5V supply via 3421 and 6465 (see circuit diagram A2). During the slow start-up phase, the LOT 5450 pin9 voltage gradually increases, and finally takes over the supply of the +5V voltage, to supply 5402/7404 via 6403/3493/3451/3419/3432/3415/3414. At the end of the slow start-up phase, the deflection stage is operating at its normal operating condition and all the voltages are stabilized. Then, the +13V volt supply has fully replaced the +5V supply to power the horizontal output stage. At that moment, not only the horizontal deflection, but also the vertical deflection is functioning at its normal operating conditions.
9.2.3 Normal Operation and Horizontal Deflection
In normal operation mode, the Hdrive with its 45/55 duty cycle is switching on and off 7404 (see circuit diagram A2). The driver stage is working in flyback mode: When 7404 is on, 5402 retains its flux energy and also switches off 7405 via its secondary coil during flyback mode. When 7404 is switched off, 5402 releases its energy and turns on 7405. By means of the on-off switching process, a sawtooth yoke deflection current is generated. There are various circuits that are part of the horizontal deflection circuit.These will be discussed below:
Horizontal Output Stage:This a standard circuit (see circuit diagram A2), in which the main horizontal output stage consists of driver 7404/5402, line output transistor 7405, tuning capacitor 2411/2414, Scap 2417/2418 and diode modulator 6404/2413/2416.
Anti-Curtain Effect (Anti-Beta Ringing) Circuit:5410/2427/3433 (see circuit diagram A2) are the anti-beta ringing circuit that is tuned to and suppresses the parasitic ringing frequencies normally occurring in Slot type LOTs to an acceptable level. For Layer type LOTs, these components are not required and 9410 is the jumper alternative for Layer type LOTs. Beta Ringing, if not suppressed, will cause a type of interference which is visible as a curtain effect at the left edge of the screen. This interference is caused by the high amplitude ringing energy being coupled magnetically or via an electrically conducting path from the LOT to the small signal circuit. If the ringing is suppressed to a specific level, the interference will not be visible anymore.
DAF Circuit:5455/2402/2403/2405/2406 (see circuit diagram A2) are the DAF circuit that will be used in DAF or double focus CRT tubes. For single focus tubes, these components are not required; 9411 is the jumper alternative for non-DAF tubes. The DAF circuit is used to improve the dynamic focusing of the tube, particularly in the edge areas. The DC high voltage of constant level which is supplied to the focus electrode is referred to as static focus or single focus. In addition to that, an AC parabolic waveform (derived from the vertical and/or the horizontal deflection voltages) can be superimposed onto the DC static focus voltage; this extra AC focusing voltage will then correct the focus dynamically, corresponding to the scan position at that particular moment. This is what we refer to as DAF (Dynamic Astigmatism and Focusing; a method to keep the electron spot round and focused during the whole scan). Transformer 5455 takes the horizontal deflection current as its input and transfers its energy to the capacitor (2402/2403/2405/2406) on its secondary side. The current in the secondary
coil of the transformer charges the capacitor and this results in a parabolic waveform. The parabolic waveform is fed to connector 1402 of the LOT focus cable and is coupled via an internal 500 pF capacitor inside the LOT and superimposed onto the static focus voltage.
2nd order S-correction circuit:5406/2407/3403 (see circuit diagram A2) are the 2nd order S-correction circuit, which is used mainly in large wide screen tubes, because they are prone to scanning imperfections that need 2nd order S-correction. For 4x3 tubes or relatively small wide screen tubes, these components are not required, and then 9401 is the jumper alternative for them. Due to the relatively wide angle of large wide screen flat tubes, the inner tube surface (which is flat) and the surface scanned by the electron beam (which is spherical) are very far apart, especially at the edges. This is because both areas are nowhere parallel with respect to each other (as they ideally would have to be). The larger and wider the screen size is, the more visible the unwanted phenomenon resulting from this optical misalignment will be. The phenomenon manifests itself, because the horizontal scanning will be wider at the 1/4 and 3/4 position, but narrower at the centre and edge position. Note that this is different from S-correction (correct centre-versus-edge scanning) and Linearity Correction (correct left-versus-right scanning). To carry out the 2nd order S-correction, transformer 5406 takes the horizontal deflection current as its input and transfers it to capacitor 2407 on its secondary side. Together with the yoke coil, capacitor 2407 forms a tuning circuit, and this circuit modifies the yoke current during the 1/4 and 3/4 scanning position. In this way, the modified yoke currect compensates the imperfections that are caused by the CRT geometry. The function of resistor 3403 is to prevent the secondary circuit from floating. It pulls DC components of the correction voltages to gnd.
Dynamic S-correction Circuit (Inner-Pincushion):5408/5409/2419 (see circuit diagram A2) form the dynamic S-correction circuit, which is mainly used in relatively large wide screen tubes. This is, because they are prone to optical inner pincushion distortions. For 4x3 tubes or relatively small wide screen tubes, these components are not required; in that case, 9412 is the jumper alternative for them. As has been explained earlier, due to the relatively wide angle of large wide screen flat tubes, the inner tube surface (flat) and the scanning surface (spherical) can never be perfectly parallel to each other, so optical distortions will be the result, especially at the edges of the screen. The first imperfection that will become visible is the phenomenon called pin-cushion distortion; this can be corrected by the East West circuit for distortions in the proportions of the top/bottom versus centre area (distortions in the proportions in the vertical direction have to be corrected as well, see further down in this text). Additionally, the larger and wider the screen size becomes, the more clearly a second unwanted phenomenon will become visible, called inner pincushion distortion. This happens because, when two corresponding horizontal scanning lines are compared, the top one and the centre one will have different centre-versus-edge scanning length ratios (when the vertical line at the edge of the screen has been corrected by the East West circuit, the vertical lines at the 1/4 and 3/4 positions will still be concave. Note that this phenomenon is different from 2nd-order S-distortion.) To correct the dynamic S-distortion, the East West correction circuit has to generate a deflection current which is higher at the centre scanning position of the screen than at the top/bottom positions. With the Bridge coil 5408/5409, this higher
Circuit Descriptions, Abbreviation List, and IC Data SheetsEN 92 ES1E9.
extra current generates a parabolic waveform across 2419 at the centre scanning position. The parabolic waveform is superimposed (series-added) onto the S-cap voltage (2417/2418); in this way, a more parabolic waveform is obtained which corrects the inner pincushion distortion.
East West correction Circuit:Together with diode modulator 2413/2416/6404, components 6471/7406/3425/2425 form the main East-West correction circuit. The circuit is a current drive circuit driven by MOSFET 7406. 3425 and 2425 function as a simple RC filter with the task of filtering the horizontal pulses in the diode modulator stage. The parabolic current source for the EW-drive comes from the SSB and modulates the diode modulator voltage by means of 7406. Because 7406 is in series with Scap 2417/2418), the diode modulator voltage plus the Scap voltage are always equal to Vbatt. So, by modulating the diode modulator voltage, we are able to modulate the Scap voltage, and so the deflection current and scanning width as well.
EHT-info Compensation:In addition to the EHT-info compensation feedback to the SSB IC, components 3422/3423/6424/3424/3435/6425/3437/2437/2422 are the EHT-info compensation circuit that injects beam information into the East-West correction circuit to achieve better compensation. Waveform "EHT-info" is a voltage source which is derived from Ibeam; the voltage is injected via the EHT-info compensation circuit mentioned above, and modulates the East West circuit.
Beam Current and Horizontal Flyback:The beam current is determined by 3480/3491/3453/3492/6478 (see circuit diagram A2), while 2450/2451 filters out the high frequency info. The horizontal flyback circuit is provided with an X-ray protection function; for this reason the combined circuit bears the name Hfb_Xray_Prot. Hfb is derived from the heater pulses via 2477 and 2476 and clamped by 3477/6474. The protection is realized by 7486. The SSB monitors the Hfb_Xray_Prot voltage and will go into protection mode if this voltage is low without pulses.
9.2.4 Vertical Deflection
IC 7455 (see circuit diagram A2) is the differential vertical deflection amplifier. The amplification gain is determined only by 3461/3476 and 3470/3471/3472. The SSB IC output is a differential vertical current source to 7455 and its signal is amplified and output as a vertical deflection current through the vertical yoke coil. IC 7455 has a separate flyback supply (on its VFB pin) which is tapped from the positive portion of the heater voltage. The flyback heater voltage charges 2461 via 6476/3487 and is clamped by 6458. The vertical scanning voltage (on pin V-OUT of 7455) varies between +13V and -14V. Components 3466/2468 are for pole-zero compensation purposes and suppress oscillation tendencies. Components 3467/3468 suppress horizontal coupling, and also suppress noise. Components 3459/6459 are part of the circuit which protects the CRT tube from burning in, in case someone accidentally unplugs the vertical yoke or disconnects the power supply of 7455. Without this protection, the picture tube neck may be
damaged if the vertical scanning circuit is not working and all the beam energy is concentrated on one spot of the CRT neck. The function of diode 6457 is to isolate the small signal supply from the flyback supply boost up voltages.
9.2.5 Protection
The protections are realized by 7407/7456/7486. All the protection voltages coming from the various protection circuits like: the vertical protection (3459/6459), the bridge coil protection (5411/6405/3479), the X-ray protection (6480/7408/3460/3462/3465/3469) and the East West protection (7403/3473/3488/3417/2495) are combined in 7407/7456/7586. If a protection circuit is triggered, the protection triggering voltage will turn on 7407 and consequently 7486, which will pull the Hfb-Xray_Prot voltage low. The SSB will respond to this triggering signal and will shut down the deflection circuit
9.3 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.
Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 93ES1E 9.
9.4 Abbreviation List
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 SoundA2 Commonly known as 2 Carrier Sound
(2CS) systemAC Alternating CurrentACI Automatic Channel Installation:
algorithm that installs TV channels directly from a cable network by means of a predefined TXT page
ADC Analogue to Digital ConverterADOC Analogue Digital One ChipAFC Automatic Frequency Control: control
signal used to tune to the correct frequency
AGC Automatic Gain Control: algorithm that controls the video input of the feature box
AM Amplitude ModulationANC Automatic Noise Reduction; One of
the algorithms of Auto TVAP Asia PacificAR Aspect Ratio: 4 by 3 or 16 by 9ASD Automatic Standard DetectionAUDIO-SL Audio Surround LeftAV Audio VideoAVL Automatic Volume Level controlB-SC1-IN Blue SCART1 inB-SC2-IN Blue SCART2 inB-TXT Blue teletextB/G Monochrome TV system. Sound
carrier distance is 5.5 MHzBBD Black Bar DetectionBCL Beam Current LimiterBC-PROT PROTection signal to the
microprocessor in case of a too high Beam Current.
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 Centre channel (audio) or Chroma; The NTSC/PAL/SECAM video signal contains two parts that make up what we see on the display; the luminance (or intensity) part and the colour (or chroma) part
CBA Circuit Board Assembly (or PWB)CL Constant Level: audio output to
connect with an external amplifierCLUT Colour Look Up TableComPair Computer aided rePairCRT Cathode Ray Tube (or picture tube)CSM Customer Service ModeCTI Colour Transient Improvement;
Manipulation of the steepness of the chroma transients
CVBS Composite Video Blanking and Synchronisation
CVBS-EXT CVBS signal from external source (VCR, VCD, etc.)
CVBS-INT CVBS signal from TunerCVBS-MON CVBS monitor signalCVBS-TER-OUT CVBS terrestrial outCVI Component Video Input
D/K Monochrome TV system. Sound carrier distance is 6.5 MHz. D= VHF-band, K= UHF-band
DAC Digital to Analogue ConverterDAF Dynamic Astigmatism and Focusing; a
method to keep the electron spot round and focused during the whole scan
DBE Dynamic Bass Enhancement; extra low frequency amplification
DC Direct CurrentDCC Dynamic Contrast ControlDC-filament Filament supply voltageDEGAUSS Control line. Logic LOW to enable
CRT degaussing. Logic HIGH to disable the CRT degaussing.
DFU Directions For Use: owner's manualDNR Digital Noise Reduction; Noise
reduction feature of the set / Dynamic Noise Reduction
DNR Digital Noise Reduction; Noise reduction feature of the set / Dynamic Noise Reduction
DOP Digital Output Processor (Part of ADOC which takes care of RGB control and deflection)
DPL Dolby Pro LogicDPL Dolby Pro LogicDRAM Dynamic RAM; dynamically refreshed
RAMDRAM Dynamic RAM; dynamically refreshed
RAMDS Digital ScanDSP Digital Signal ProcessingDST 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 SoundDVD Digital Versatile DiscDVI(-d)(-i) Digital Visual Interface (d= digital only)
(i= integrated); A digital video interface to a display, designed to replace the analogue YPbPr or RGB interface
DW Double WindowDYN-FASE-COR Dynamic phase correction, to correct
the phase of the H-driveEEPROM Electrically Erasable and
Programmable Read Only MemoryEHT Extreme High Tension; the voltage
between the cathode and the shadow mask that accelerates the electrons towards the screen (around 25 kV)
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; Leakage of high-frequency radiation from a transmission medium
EPG Electronic Program Guide; System used by broadcasters to transmit TV guide information (= NexTView)
EPLD Erasable Programmable Logic DeviceEU EUropeEW East West, related to horizontal
deflection of the setEW-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 signalsFBL-SC1-IN Fast blanking signal for SCART1 inFBL-SC2-IN Fast blanking signal for SCART2 in
Circuit Descriptions, Abbreviation List, and IC Data SheetsEN 94 ES1E9.
FBL-TXT Fast Blanking TeletextFBX Feature BoX; Part of the small signal
board /separate module which contains 100 Hz processing, extra features and AutoTV algorithms (FBX6= based on PICNIC, FBX7= based on PICNIC and Eagle, FBX8= based on PICNIC, Eagle, and Columbus)
FE Front End; Tuner and RF part togetherFLASH FLASH memoryField Each interlaced broadcast FRAME is
composed of two Fields, each Field consists of either Odd or Even lines
Filament Filament of CRTFLASH FLASH memoryFM Field Memory / Frequency ModulationFM-Radio Radio receiver that can receive the FM
Band 87.5 - 108 MHzFMR FM RadioFrame A complete TV picture comprising all
lines (625/525)FRAMEDRIVE - Differential frame (vertical) drive signal
(negative)FRAMEDRIVE + Differential frame (vertical) drive signal
(positive)FRC Frame Rate ConverterFRONT-C Front input chrominance (SVHS)FRONT-DETECT Control line for detection of
headphone insertion, Service Mode jumper, power failure detection
FRONT-Y_CVBS Front input luminance or CVBS (SVHS)
FTV Flat TeleVisionG GreenG-SC1-IN Green SCART1 inG-SC2-IN Green SCART2 inG-TXT Green teletextGb/s Giga bits per secondH 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 BoxH-DRIVE Horizontal DriveH-FLYBACK Horizontal FlybackH-OUT H_sync output of the module /
Horizontal Output pulseHA Horizontal Acquisition; horizontal sync
pulseHD High Definition: 720p, 1080i, 1080pHDMI High Definition Multimedia Interface,
digital audio and video interfaceHEADPHONE-L Stereo headphone (Left) signal output.HEADPHONE-R Stereo headphone (Right) signal
output.HFB Horizontal Flyback Pulse; Horizontal
sync pulse from large signal deflectionHP Head PhoneHW HardwareI Monochrome TV system. Sound
carrier distance is 6.0 MHz. VHF- and UHF-band
I2C Inter IC bus (also called IIC)I2S Inter IC Sound busIC Integrated CircuitIDRIVE- Vertical drive -IDRIVE+ Vertical drive +IF Intermediate FrequencyIF-TER IF signal from main tunerIIC Inter IC bus (also called 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/OutIR Infra RedIROM Internal ROM (inside the
microcontroller)IRQ Interrupt ReQuestITV Institutional TVJTAG Joint Test Action Group; Definition for
a standardised serial test interfaceKEYB Front panel keyboardKEYBOARD Input line. Carries the voltage value of
the corresponding tact switch on TOP-control or FRONT-control keypad
L Left audio channelL/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 start-up of the set to configure it according to the customer's preferences
LATAM LATin AMericaLCD Liquid Crystal DisplayL-CL_VLOUT REAR CINCH stereo outputLED Light Emitting DiodeLFE Low Frequency Enhancement audio
channelL-FRONT-IN EXT3 stereo inputLIGHT-SENSOR Ambient light intensity signal.LINE DRIVE Horizontal (line) deflection drive signal
(for the Line transistor)LNA Low Noise Adapter / Low Noise
AmplifierLOT Line Output Transformer (also called
FBT); The transformer in which the EHT is generated
LS Loud SpeakerLs, Rs Left surround and Right surround
channel (audio)LSP Large Signal PanelLt, Rt Left total and Right total in case of a
Dolby ProLogic encoded signal (audio)
LTI Luminance Transient ImprovementLTP Luminance Transient ProcessorLUT Look Up TableLVDS 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. M= 525 lines @ 60 Hz, N= 625 lines @ 50 Hz
Mb/s / Mbps Mega bits per secondMCS Multi Channel Sound: refers to Dolby
Pro Logic Surround in ES1E ADOCMDO Mode control data outputMIPS Microprocessor without Interlocked
Pipeline-Stages; A RISC-based microprocessor
Mips Million instructions per secondMMI Multi Media InterfaceMOSFET Metal Oxide Semiconductor Field
Effect TransistorMPEG Motion Pictures Experts GroupMPIF 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 MultiPleXMSP Multi-standard Sound Processor: ITT
sound decoder
Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 95ES1E 9.
MUTE MUTE LineNAFTA North American Free Trade
Association: Trade agreement between Canada, USA and Mexico
NC Not ConnectedNDF No vertical Deflection; Vertical fly back
protectionNHF No Horizontal deflection; Horizontal fly
back protectionNICAM Near Instantaneously Companded
Audio Multiplexing; This is a digital sound system, mainly used in Europe
NTC Negative Temperature Coefficient, non-linear resistor (resistance decreases if temperature increases)
NTSC National Television Standard Committee. Colour system used mainly 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 alignment values, preset stations
O/C Open CircuitOB Option ByteOC Open CircuitON/OFF LED On/Off control signal for the LEDON/STBY On/StandbyON-OFF-LED Active-LOW control line. Logic LOW =
red LED "on", HIGH = red LED "off"OP Option ByteOSD On Screen DisplayP50 Project 50; Communication protocol
between TV and peripheralsPAL 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 ComputerPCB Printed Circuit Board (or PWB)PCM Pulse Code ModulationPILOT Pilot SignalPIG Picture In GraphicPIP Picture In PicturePLL Phase Locked Loop; Used for e.g.
FST tuning systems. The customer can directly provide the desired frequency
POR Power On Reset; Signal to reset the µP
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 (resistance increases if temperature increases)
PTP Picture Tube PanelPWB Printed Wiring Board (also called PCB
or CBA)PWM Pulse Width ModulationQSS Quasi Split SoundR Right audio channel / RedRAM Random Access MemoryRC Remote Control transmitterRC5 (6) Remote Control system 5 (6), the
signal from the remote control receiver
RDS Radio Data System (European); This is an MPX signal carried in FM radio channels (87.5 … 108 MHz)
RESET RESET signal RF Real Flat (picture tube) or Radio
Frequency RGB Red, Green, and Blue colour space;
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 Instruction Set Computer; A processor architecture based on ultra-high speed processing technology that uses a far simpler set of operating commands than a normal microprocessor does
RMS Root Mean Square valueROM Read Only MemoryS Surround channel or mono surround
channel (audio)SALSA System Application for Low Segment
of Analogue TVSAM Service Alignment ModeSAP Secondary Audio Program; Generally
used to transmit audio in a second language
SAW Surface Acoustic WaveSC SandCastle: two-level pulse derived
from sync signalsSCART Syndicat des Constructeurs
d'Appareils Radiorécepteurs et Téléviseurs; This is a 21-pin connector used in EU, that carries various audio, video, and control signals (it is also called Péritel connector)
SCAVEM Scan Velocity Modulation; Advanced beam control technology, which results in sharper edges on all images for outstanding clarity
SC1-OUT SCART output of the MSP audio ICSC2-B-IN SCART2 Blue inSC2-C-IN SCART2 chrominance inSC2-OUT SCART output of the MSP audio ICS/C Short CircuitSCL Serial Clock signal on I2C busSCL-F Serial CLock signal on Fast I2C busSD Standard DefinitionSDA Serial Data line of I2C busSDA-F Data Signal on Fast I2C busSDM Service Default ModeSDAM Service Default / Alignment ModeSDRAM Synchronous DRAMSECAM SÉquence Couleur Avec Mémoire;
Colour system mainly used in France and East Europe. The chroma is FM modulated and the R-Y and B-Y signals are transmitted line sequentially. Colour carriers= 4.406250 MHz and 4.250000 MHz
SEL-SVHS-RR-STATUS2 SVHS Selection SignalSIF Sound Intermediate FrequencySIMM Single In-line Memory Module; 80-fold
connector between LSP and SSBSL Single In-line Memory Module; 80-fold
connector between LSP and SSBSLDP Smart Local Dooming Prevention (HW
and SW)SMC Surface Mounted ComponentSMPS Switched Mode Power SupplySND SouNDSNDL-SC1-IN Sound left SCART1 inSNDL-SC1-OUT Sound left SCART1 out
Circuit Descriptions, Abbreviation List, and IC Data SheetsEN 96 ES1E9.
SNDL-SC2-IN Sound left SCART2 inSNDL-SC2-OUT Sound left SCART2 outSNDR-SC1-IN Sound right SCART1 inSNDR-SC1-OUT Sound right SCART1 outSNDR-SC2-IN Sound right SCART2 outSNDR-SC2-OUT Sound right SCART2 outSNDS-VL-OUT Surround sound left variable level outSNDS-VR-OUT Surround sound right variable level outSNERT Synchronous No parity Eight bit
Reception and TransmissionSOG Sync On GreenSOPS Self Oscillating Power SupplySOUND-ENABLE Control line to do hardware mute or
un-mute of loudspeakers.SRAM Static RAMSRAM Static RAMSS Small ScreenST-BY STandBYSTANDBY (POR) Signal coming from Main Supply
informing the supply is switching "off"STATUS Status signal from pin 8 of SCART
connectorSTBY STandBYSVHS Super Video Home SystemSW Software or Subwoofer or SwitchTBD To Be DefinedTHD Total Harmonic DistortionTILT PWM Output signal (variable DC level)
to control the picture tilt from the DOP block of the ADOC.
TXT Teletext; TXT is a digital addition to analogue TV signals that contain textual and graphical information (25 rows x 40 columns). The information is transmitted within the first 25 lines during the Vertical Blank Interval (VBI)
TXT-SW Teletext switchU-100 U signal 1fH (after Feature Box)UART Universal Asynchronous Receiver
TransmitterUBE Ultra Bass EnhancementµC MicrocontrollerUI User InterfaceUOC Ultimate One ChipµP MicroprocessorUV Colour difference signalsV V_syncV-100 V_sync from Feature Box (2fH)V-2FH Vertical sync input for the 2fH source.VA50 Vertical Acquisition 1fHV-AMP Vertical Amplitude DAC outputV-BAT Main supply for deflection (usually 141
V)VD-100 Vertical Drive 2fH; vertical sync pulse
from deflectionVD-NEG One of the symmetrical drive signals
for the DC frame output stage.VD-POS One of the symmetrical drive signals
for the DC frame output stageV-OSD Vertical sync OSDVA Vertical AcquisitionVBI Vertical Blanking Interval; Time during
which the video signal is blanked when going from bottom to top of the display
V-chip Violence chip. Adds content filtering capabilities to NTSC video
VCR Video Cassette RecorderVD Vertical Drive; Vertical sync pulse
coming from the Feature BoxVDS Virtual Dolby SurroundVERT Vertical Output pulseVESA Video Electronics Standards
AssociationVGA Video Graphics ArrayVGND Video ground
VGUARD Vertical guard voltageVIF Video Intermediate FrequencyVL Variable Level out; Processed audio
output towards external amplifierVOL (+/-) Volume (+/-)V-SYNC-VGA V_sync on VGA connectorWD Watch DogWE Write Enable control lineWS Wide Screen; Screens with an aspect
ratio of 16:9WSS Wide Screen Signalling; Used by
broadcasters to transmit e.g. PALPLUS and 16:9 Aspect Ratio
WST World System TeletextWXGA 1280x768 (15:9) or 1366x768 (16:9)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 crystalY Luminance signalYPbPr Component video (Y= Luminance, Pb/
Pr= Colour difference signals B-Y and R-Y, other amplitudes w.r.t. to YUV)
Y/C Y consists of luminance signal, blanking level and sync; C consists of chroma (colour) signal
Y-OUT Luminance-signalYUV Colour space used by the NTSC and
PAL video systems. Y is the luminance and U/V are the colour difference signals
9.5 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.
Spare Parts List EN 97ES1E 10.
10. Spare Parts List
Large Signal Panel [A]
Various
0080 4822 492 70789 Transistor clamp0136 3104 301 24181 Spring for Bracket0137 3104 301 24181 Spring for Bracket0138 4822 255 41371 Transistor clamp0139 4822 492 62076 Transistor clamp0261 3104 304 10661 Cable clamp0262 3104 304 10722 Cable clamp0320 4822 255 41371 Transistor clamp0341 4822 492 70788 IC clamp0389 4822 492 70789 Transistor clamp0395 4822 492 70789 Transistor clamp0396 4822 492 70789 Transistor clamp1205 2422 025 17242 Connector 80p f1417 4822 265 20723 Connector 2p m1424 2422 025 11244 Connector 7p m1491 4822 267 10973 Connector 1p m1498 2422 025 04849 Connector 2p m1499 2422 025 04849 Connector 2p m1501 4822 070 35002 Fuse 5A1502 4822 267 10774 Connector 2p m Rd1503 4822 070 12502 Fuse 2.5A1505 2422 025 16374 Connector 2p m1511 4822 265 11253 Fuse holder 2p1512 4822 265 11253 Fuse holder 2p1550 2422 132 07411 Relay 1p 5V 5A1590 4822 252 60151 Sparkgap dsp5011591 4822 252 60151 Sparkgap dsp5011601 2422 086 10919 Fuse 65V 125mA1620 4822 267 10735 Connector 3p m1625 2422 025 16382 Connector 3p m1735 4822 267 10565 Connector 4p1901 4822 267 10771 Socket 2 x SCART1902 4822 267 10982 Connector 2p1936 2422 025 12485 Connector 11p m1940 2422 025 12485 Connector 11p m1943 4822 267 10748 Connector 3p m1945 4822 267 10735 Connector 3p m1947 4822 267 10734 Connector 5p m8000 3104 311 03272 Cable 640mm EHT8193 4822 320 20216 Focus cable 364 mm8194 4822 320 20189 Cable HT-focus 44cm Rd8417 3104 311 04561 Cable 2p3/400/2p38424 3104 311 02991 Cable 7p/560/7p Wh8625 3104 311 03101 Cable 3p/560/3p Bk8625 3104 311 06261 Cable 2p/560/2p3 HR BK
INS8936 3104 311 04121 Cable 11p/680/11p INS8936 4822 320 12514 Cable 11p 680mm8940 3104 311 01161 Cable 11p/340/11p Bk8940 4822 323 10458 Cable 11p 480mm HR
WH
2100 4822 126 13841 1nF 20% 250V2101 4822 121 51598 2.2nF 5% 400V2102 4822 124 40248 10µF 20% 63V2103 2020 552 94427 100pF 5% 50v 06032104 4822 123 14025 2200µF 20% 16V2105 2020 552 94427 100pF 5% 50v 06032107 4822 121 43855 3.3nF 5% 400V2108 4822 121 70162 10nF 5% 400V2109 4822 126 14472 1µF 10% 10V 08052110 4822 126 14472 1µF 10% 10V 08052111 4822 121 43526 47nF 5% 250V2112 5322 126 11583 10nF 10% 50V 06032115 4822 124 40764 22µF 100 V2116 4822 126 13682 100pF 5% 1kV2118 4822 124 80061 1000µF 20% 25V2119 4822 123 14025 2200µF 20% 16V2120 4822 126 13862 1.5nF 10% 2kV2126 4822 123 14025 2200µF 20% 16V2130 5322 126 11583 10nF 10% 50V 06032131 4822 126 13881 470pF 5% 50V2132 4822 126 10206 2.2nF 10% 500V2140 4822 124 40248 10µF 20% 63V2141 4822 124 40248 10µF 20% 63V2143 4822 126 10206 2.2nF 10% 500V2144 4822 126 14472 1µF 10% 10V 08052145 4822 126 13881 470pF 5% 50V2147 3198 017 31530 15nF 20% 50V 06032148 4822 126 13599 3.3nF 10% 500V2149 4822 126 14472 1µF 10% 10V 08052150 5322 126 11583 10nF 10% 50V 0603
2153 5322 126 11582 6.8nF 10% 63V2154 4822 126 14549 33nF 16V 06032161 2020 558 90556 680pF 10%b 1kV2161 4822 126 14152 680pF 10% 1kV2163 2222 338 22104 100nF 20% 275V2200 4822 124 40248 10µF 20% 63V2201 4822 126 13879 220nF 20% 16V2202 4822 126 13473 220nF 80-20% 50V2203 4822 124 41584 100µF 20% 10V2400 4822 124 11936 47µF 20% 160V2401 4822 121 42077 6.8nF 10% 400V2402 4822 124 12373 47µF 20% 250V2403 2238 916 15641 22nF 10% 25V 06032404 2238 916 15641 22nF 10% 25V 06032405 4822 126 13841 1nF 20% 250V2412 3198 024 44730 47nF 50V 06032413 4822 124 12255 10µF 20% 50V2414 3198 024 44730 47nF 50V 06032415 4822 126 13883 220pF 5% 50V2417 4822 126 14076 220nF 25V. 20%2419 4822 126 14237 470pF 10% 2kV2420 4822 121 70581 1.5nF 5% 2kV2420 4822 121 70594 1nF 5% 2kV2421 2038 301 00312 1.2µF 5% 250V2421 4822 121 42634 560nF 5% 250V2425 4822 121 10526 9.1nF 5% 2kV2425 4822 121 70435 10nF 5% 2kV2426 4822 121 10653 22nF 5% 630V2430 4822 126 10206 2.2nF 10% 500V2431 4822 126 10206 2.2nF 10% 500V2433 2022 333 00087 510nF 5% 250V2433 2022 333 00163 360nF 5% 250V2440 2020 552 96448 1µF 10% 16V2443 9965 000 09661 470pF 50V 10%2448 5322 122 32268 470pF 5% 63V2450 4822 121 42408 220nF 10% 50V2450 5322 121 42578 100nF 5% 250V2451 2020 012 93757 1000µF 20% 10V2454 3198 017 31530 15nF 20% 50V 06032455 5322 126 11578 1nF 10% 50V 06032457 4822 126 13188 15nF 5% 63V2458 4822 126 14241 330pF 50V 06032460 4822 124 81144 1000µF 16V2461 4822 122 31169 1.5nF 10% 500V2461 4822 126 11524 1.5nF 10% 1kV2462 4822 124 11767 470µF 20% 25V2463 4822 122 31177 470pF 10% 500V2464 4822 124 11767 470µF 20% 25V2465 4822 122 31177 470pF 10% 500V2466 2238 586 59812 100nF 20-80% 50V 06032468 4822 122 31177 470pF 10% 500V2480 5322 126 11582 6.8nF 10% 63V2482 3198 017 34730 47nF 16V 06032483 3198 017 31530 15nF 20% 50V 06032490 4822 124 41584 100µF 20% 10V2491 4822 124 81151 22µF 50V2492 4822 124 41584 100µF 20% 10V2494 2238 780 15654 220nF 10% 16V2495 2238 780 15654 220nF 10% 16V2496 2238 586 59812 100nF 20-80% 50V 06032497 4822 126 12105 33nF 5% 50V2498 2020 552 96448 1µF 10% 16V2499 5322 126 11579 3.3nF 10% 63V2501 4822 126 13449 1nF 10% 2KV2501 4822 126 14053 1nF 10% 2kV2503 5322 121 42489 33nF 5% 250V2504 2238 916 15641 22nF 10% 25V 06032505 2020 554 90169 470pF 20% 250V2507 2222 338 22474 470nF 20% 275V2508 4822 124 11913 22nF 20% 275V2509 4822 124 11913 22nF 20% 275V2510 4822 126 12263 220pF 10% 2kV2512 4822 124 12056 1000µF 20% 35V2513 4822 126 13881 470pF 5% 50V2514 4822 126 14238 2.2nF 50V 06032515 4822 124 80096 47µF 200V2516 2222 057 36221 220µF 20% 400V 0572518 4822 122 31211 100pF 10% 500V2519 4822 126 10206 2.2nF 10% 500V2524 5322 126 11583 10nF 10% 50V 06032525 4822 126 14247 1.5nF 50V 06032526 2020 558 90571 2.2nF 10% 1kV2527 4822 126 14237 470pF 10% 2kV2528 4822 126 14472 1µF 10% 10V 08052530 4822 126 14472 1µF 10% 10V 08052531 4822 122 31175 1nF 10% 500V2532 4822 126 14472 1µF 10% 10V 08052533 2020 557 90732 4.7nF 10% 250V2535 4822 126 13193 4.7nF 10% 63V
2537 4822 124 11913 22nF 20% 275V2538 4822 122 33177 10nF 20% 50V2540 4822 124 21913 1µF 20% 63V2541 4822 122 31211 100pF 10% 500V2544 4822 126 14238 2.2nF 50V 06032547 2222 338 22104 100nF 20% 275V2601 2238 586 59812 100nF 20-80% 50V 06032603 4822 126 13883 220pF 5% 50V2604 4822 126 13473 220nF 80-20% 50V2605 4822 126 13883 220pF 5% 50V2620 4822 126 13473 220nF 80-20% 50V2621 2238 586 59812 100nF 20-80% 50V 06032622 4822 124 40255 100µF 20% 63V2623 4822 126 14238 2.2nF 50V 06032624 4822 121 51252 470nF 5% 63V2625 4822 121 51252 470nF 5% 63V2627 5322 124 40641 10µF 20% 100V2628 4822 124 40255 100µF 20% 63V2630 4822 126 14491 2.2µF -20+80% 10V 08052631 4822 126 14491 2.2µF -20+80% 10V 08052633 5322 126 11579 3.3nF 10% 63V2635 2238 586 59812 100nF 20-80% 50V 06032642 4822 124 40255 100µF 20% 63V2653 2238 586 15628 2.7nF 10% 50V 06032653 5322 126 11579 3.3nF 10% 63V2656 2238 916 15641 22nF 10% 25V 06032657 2238 916 15641 22nF 10% 25V 06032659 2238 916 15641 22nF 10% 25V 06032660 5322 126 11578 1nF 10% 50V 06032701 4822 126 14043 1µF 20% 16V2702 3198 016 31020 1nF 10% 25V 06032703 4822 126 14043 1µF 20% 16V2704 3198 016 31020 1nF 10% 25V 06032707 4822 126 14043 1µF 20% 16V2708 4822 124 11767 470µF 20% 25V2709 3198 026 51020 1000µF 50V 20%2710 4822 126 14585 100nF 10% 50V2711 4822 124 80061 1000µF 20% 25V2712 3198 017 34730 47nF 16V 06032713 3198 017 34730 47nF 16V 06032714 4822 124 80061 1000µF 20% 25V2715 3198 017 34730 47nF 16V 06032716 3198 017 34730 47nF 16V 06032722 4822 124 40255 100µF 20% 63V2914 4822 124 40248 10µF 20% 63V2915 4822 124 40248 10µF 20% 63V2918 4822 126 14585 100nF 10% 50V2940 4822 124 41584 100µF 20% 10V2941 4822 126 14585 100nF 10% 50V2942 4822 126 14585 100nF 10% 50V2943 4822 126 14585 100nF 10% 50V2945 4822 126 14491 2.2µF -20+80% 10V 08052946 4822 126 14491 2.2µF -20+80% 10V 08052947 4822 124 40769 4.7µF 20% 100V2950 5322 126 11583 10nF 10% 50V 06032951 5322 126 11583 10nF 10% 50V 06032987 5322 122 31863 330pF 5% 63V2989 5322 122 31863 330pF 5% 63V2990 5322 122 31863 330pF 5% 63V2991 4822 051 20333 33kΩ 5% 0.1W2991 5322 122 32531 100pF 5% 50V2992 5322 122 31863 330pF 5% 63V2993 4822 051 20333 33kΩ 5% 0.1W2993 5322 122 32531 100pF 5% 50V2994 5322 122 31863 330pF 5% 63V2995 5322 122 31863 330pF 5% 63V2996 5322 122 31863 330pF 5% 63V2997 5322 122 31863 330pF 5% 63V2998 4822 051 20333 33kΩ 5% 0.1W2998 5322 122 32531 100pF 5% 50V2999 4822 051 20333 33kΩ 5% 0.1W2999 5322 122 32531 100pF 5% 50V
3101 4822 053 20475 4.7MΩ 5% 0.25W3102 4822 050 21002 1kΩ 1% 0.6W3103 4822 050 21002 1kΩ 1% 0.6W3104 4822 116 52195 47Ω 5% 0.5W3105 4822 050 11002 1kΩ 1% 0.4W3106 4822 116 52256 2.2kΩ 5% 0.5W3107 4822 116 52256 2.2kΩ 5% 0.5W3108 2122 101 01363 2.2Ω 5%3111 4822 053 10152 1.5kΩ 5% 1W3113 4822 116 52186 22Ω 5% 0.5W3114 4822 116 52219 330Ω 5% 0.5W3115 4822 116 52257 22kΩ 5% 0.5W3116 4822 116 52257 22kΩ 5% 0.5W3117 4822 116 52195 47Ω 5% 0.5W
Spare Parts ListEN 98 ES1E10.
3118 2122 101 01363 2.2Ω 5%3120 4822 051 20109 10Ω 5% 0.1W3123 4822 116 52176 10Ω 5% 0.5W3124 4822 116 52199 68Ω 5% 0.5W3125 4822 116 52182 15Ω 5% 0.5W3126 4822 050 21003 10kΩ 1% 0.6W3127 4822 116 52289 5.6kΩ 5% 0.5W3130 4822 051 30479 47Ω 5% 0.062W3131 4822 051 20471 470Ω 5% 0.1W3132 4822 051 20479 47Ω 5% 0.1W3133 4822 117 12925 47kΩ 1% 0.063W 06033134 4822 051 30102 1kΩ 5% 0.062W3135 4822 051 30101 100Ω 5% 0.062W3136 4822 051 30109 10Ω 5% 0.062W3137 4822 050 24702 4.7kΩ 1% 0.6W3138 4822 051 20105 1MΩ 5% 0.1W3140 4822 051 20223 22kΩ 5% 0.1W3141 4822 116 52263 2.7kΩ 5% 0.5W3142 4822 051 30332 3.3kΩ 5% 0.062W3143 4822 051 30101 100Ω 5% 0.062W3144 4822 053 10221 220Ω 5% 1W3150 4822 117 11373 100Ω 1% 08053151 4822 051 30109 10Ω 5% 0.062W3152 4822 051 30102 1kΩ 5% 0.062W3153 4822 051 20472 4.7kΩ 5% 0.1W3155 4822 051 30101 100Ω 5% 0.062W3156 5322 117 13017 100Ω 1% 0.063W 06033157 4822 051 30103 10kΩ 5% 0.062W3158 2322 704 61801 180Ω 1% 06033158 5322 117 13061 180Ω 1% 0.063W 06033159 4822 051 30103 10kΩ 5% 0.062W3160 4822 051 30102 1kΩ 5% 0.062W3161 4822 052 10101 100Ω 5% 0.33W3164 4822 117 13632 100kΩ 1% 0.62W 06033165 2322 704 61801 180Ω 1% 06033165 5322 117 13061 180Ω 1% 0.063W 06033168 4822 051 20472 4.7kΩ 5% 0.1W3171 4822 116 52297 68kΩ 5% 0.5W3172 4822 116 52297 68kΩ 5% 0.5W3200 4822 051 20229 22Ω 5% 0.1W3201 4822 051 20229 22Ω 5% 0.1W3250 4822 117 10833 10kΩ 1% 0.1W3261 4822 117 11373 100Ω 1% 08053262 4822 117 11373 100Ω 1% 08053400 4822 052 11108 1Ω 5% 0.5W3401 4822 053 12279 27R00 5% 3W3402 4822 053 10121 120Ω 5% 1W3403 4822 116 52175 100Ω 5% 0.5W3404 4822 051 30471 470Ω 5% 0.062W3406 4822 117 11373 100Ω 1% 08053407 4822 051 30103 10kΩ 5% 0.062W3409 4822 050 11002 1kΩ 1% 0.4W3410 4822 051 20479 47Ω 5% 0.1W3411 2122 101 02111 39Ω 5% 0,5W3412 4822 117 11817 1.2kΩ 1% 0.062W3414 4822 051 30331 330Ω 5% 0.062W3415 3198 012 31590 15Ω 5% 3W3417 4822 116 52176 10Ω 5% 0.5W3418 4822 050 25603 56kΩ 1% 0.6W3419 4822 051 30474 470kΩ 5% 0.062W3420 4822 051 30332 3.3kΩ 5% 0.062W3421 4822 051 30474 470kΩ 5% 0.062W3422 4822 051 30332 3.3kΩ 5% 0.062W3423 4822 053 10688 6.8Ω 5% 1W3425 4822 116 52176 10Ω 5% 0.5W3426 4822 116 52176 10Ω 5% 0.5W3427 4822 051 30683 68kΩ 5% 0.062W3427 4822 117 13632 100kΩ 1% 0.62W 06033428 4822 051 30684 680kΩ 5% 0.062W3429 4822 051 30103 10kΩ 5% 0.062W3429 4822 051 30223 22kΩ 5% 0.062W3430 4822 051 30123 12kΩ 5% 0.062W3430 4822 051 30223 22kΩ 5% 0.062W3431 2306 207 03151 150Ω 5% 0.5W3440 4822 051 30102 1kΩ 5% 0.062W3441 4822 051 30223 22kΩ 5% 0.062W3442 4822 051 30474 470kΩ 5% 0.062W3443 4822 051 30684 680kΩ 5% 0.062W3447 4822 117 11373 100Ω 1% 08053449 4822 052 10101 100Ω 5% 0.33W3450 4822 050 21003 10kΩ 1% 0.6W3451 4822 050 21003 10kΩ 1% 0.6W3454 4822 051 20108 1Ω 5% 0.1W3455 4822 117 12902 8.2kΩ 1% 0.063W 06033455 5322 117 13056 8.2kΩ 1% 0.063W 06033456 4822 117 12903 1.8kΩ 1% 0.063W 06033457 4822 051 30152 1.5kΩ 5% 0.062W3458 4822 051 30471 470Ω 5% 0.062W3459 4822 051 30272 2.7kΩ 5% 0.062W3460 4822 052 10108 1Ω 5% 0.33W3461 4822 052 10108 1Ω 5% 0.33W3462 4822 052 11108 1Ω 5% 0.5W3463 4822 052 11108 1Ω 5% 0.5W3464 4822 052 11108 1Ω 5% 0.5W
3465 4822 052 11108 1Ω 5% 0.5W3466 4822 051 30472 4.7kΩ 5% 0.062W3467 4822 117 13632 100kΩ 1% 0.62W 06033472 4822 051 30393 39kΩ 5% 0.062W3474 4822 051 30563 56kΩ 5% 0.062W3475 4822 051 30472 4.7kΩ 5% 0.062W3476 4822 116 83874 220kΩ 5% 0.5W3478 4822 116 52175 100Ω 5% 0.5W3479 4822 052 10478 4.7Ω 5% 0.33W3480 4822 052 10478 4.7Ω 5% 0.33W3480 4822 052 10688 6.8Ω 5% 0.33W3481 2322 750 61001 100Ω 5% 12063482 4822 051 30221 220Ω 5% 0.062W3483 4822 117 12903 1.8kΩ 1% 0.063W 06033485 4822 051 30471 470Ω 5% 0.062W3486 2322 704 67502 7.5kΩ 1% 0,5W3487 5322 117 13056 8.2kΩ 1% 0.063W 06033488 4822 050 21005 1MΩ 1% 0.6W3489 4822 051 30103 10kΩ 5% 0.062W3490 4822 051 30332 3.3kΩ 5% 0.062W3491 4822 117 12925 47kΩ 1% 0.063W 06033492 4822 116 52175 100Ω 5% 0.5W3493 4822 050 21504 150kΩ 1% 0.6W3495 4822 050 21503 15kΩ 1% 0.6W3496 4822 051 30272 2.7kΩ 5% 0.062W3497 4822 051 30333 33kΩ 5% 0.062W3501 2120 103 90057 100Ω 20% 0.5W3504 4822 051 30222 2.2kΩ 5% 0.062W3505 4822 116 52257 22kΩ 5% 0.5W3506 4822 051 30562 5.6kΩ 5% 0.063W 06033507 4822 050 21604 160kΩ 1% 0.6W3508 4822 116 52182 15Ω 5% 0.5W3509 2122 550 00158 VDR 1mA 612V3510 5322 117 12487 1kΩ 1% 0.125W3511 4822 053 11222 2.2kΩ 5% 2W3512 4822 117 12891 220kΩ 1% 0.063W 06033513 4822 116 52272 330k 5% 0.5W3514 2322 193 53397 0.39Ω 5% 0.6W3515 2322 193 53397 0.39Ω 5% 0.6W3517 4822 117 10834 47kΩ 1% 0.1W3518 4822 116 52234 100kΩ 5% 0,5W3519 4822 051 30102 1kΩ 5% 0.062W3520 4822 053 11333 33kΩ 5% 2W3521 4822 053 21155 1.5Ω 5% 0.5W3522 4822 117 11507 6.8kΩ 1% 0.1W3523 4822 051 20105 1MΩ 5% 0.1W3524 4822 051 30333 33kΩ 5% 0.062W3525 4822 051 30479 47Ω 5% 0.062W3527 4822 117 11951 2kΩ 1% 0.1W3528 4822 051 30103 10kΩ 5% 0.062W3529 4822 051 30472 4.7kΩ 5% 0.062W3530 4822 051 30102 1kΩ 5% 0.062W3531 4822 117 11507 6.8kΩ 1% 0.1W3532 4822 117 12925 47kΩ 1% 0.063W 06033533 4822 116 52182 15Ω 5% 0.5W3534 4822 117 12925 47kΩ 1% 0.063W 06033535 4822 051 30479 47Ω 5% 0.062W3536 4822 051 30152 1.5kΩ 5% 0.062W3537 4822 052 10102 1kΩ 5% 0.33W3540 4822 050 23303 33k 1% 0.6W3541 4822 116 52186 22Ω 5% 0.5W3543 4822 050 24708 4.7Ω 1% 0.6W3547 4822 051 30008 Jumper 06033549 4822 051 30393 39kΩ 5% 0.062W3550 2122 663 00018 PTC 4.7Ω 20%3552 4822 051 30222 2.2kΩ 5% 0.062W3553 4822 051 30103 10kΩ 5% 0.062W3610 4822 051 30223 22kΩ 5% 0.062W3611 4822 051 30222 2.2kΩ 5% 0.062W3620 4822 050 21808 1.8Ω 1% 0,6W3620 4822 116 80176 1Ω 5% 0.5W3621 4822 116 80176 1Ω 5% 0.5W3622 4822 116 81154 2.2Ω 5% 0.5W3622 5322 116 53564 3.3Ω 5% 0.5W3623 4822 116 52251 18kΩ 5% 0.5W3624 4822 052 10158 1.5Ω 5% 0.33W3625 4822 116 52206 120Ω 5% 0.5W3625 4822 116 52219 330Ω 5% 0.5W3626 4822 116 52175 100Ω 5% 0.5W3626 4822 116 52219 330Ω 5% 0.5W3627 4822 051 20223 22kΩ 5% 0.1W3630 4822 051 30333 33kΩ 5% 0.062W3631 4822 051 30222 2.2kΩ 5% 0.062W3632 4822 051 30393 39kΩ 5% 0.062W3633 4822 051 30563 56kΩ 5% 0.062W3634 4822 116 83882 39kΩ 5% 0.5W3635 4822 116 52219 330Ω 5% 0.5W3636 4822 051 30223 22kΩ 5% 0.062W3637 4822 051 30103 10kΩ 5% 0.062W3638 4822 051 30474 470kΩ 5% 0.062W3639 4822 051 30563 56kΩ 5% 0.062W3640 4822 051 30222 2.2kΩ 5% 0.062W3641 4822 116 83883 470Ω 5% 0.5W3642 4822 101 11193 47kΩ 30% 0.1W
3643 4822 051 30334 330kΩ 5% 0.062W3644 4822 051 30221 220Ω 5% 0.062W3645 4822 116 52245 150kΩ 5% 0.5W3646 4822 117 12925 47kΩ 1% 0.063W 06033647 4822 051 20228 2.2Ω 5% 0.1W3652 4822 051 20479 47Ω 5% 0.1W3653 4822 051 20223 22kΩ 5% 0.1W3655 4822 051 30123 12kΩ 5% 0.062W3656 4822 117 11817 1.2kΩ 1% 0.062W3657 4822 051 30223 22kΩ 5% 0.062W3658 4822 051 30223 22kΩ 5% 0.062W3659 4822 051 30222 2.2kΩ 5% 0.062W3660 4822 051 30562 5.6kΩ 5% 0.063W 06033661 4822 116 52226 560Ω 5% 0.5W3662 4822 051 30152 1.5kΩ 5% 0.062W3681 4822 116 52207 1.2kΩ 5% 0.5W3682 4822 117 13632 100kΩ 1% 0.62W 06033683 4822 051 30103 10kΩ 5% 0.062W3684 4822 051 30682 6.8kΩ 5% 0.062W3685 4822 051 30273 27kΩ 5% 0.062W3686 4822 051 30563 56kΩ 5% 0.062W3687 4822 116 52207 1.2kΩ 5% 0.5W3688 4822 051 20684 680kΩ 5% 0.1W3690 4822 051 30109 10Ω 5% 0.062W3701 4822 051 30103 10kΩ 5% 0.062W3701 4822 117 12925 47kΩ 1% 0.063W 06033702 4822 051 30223 22kΩ 5% 0.062W3703 4822 051 30103 10kΩ 5% 0.062W3703 4822 117 12925 47kΩ 1% 0.063W 06033704 4822 051 30223 22kΩ 5% 0.062W3707 4822 051 30103 10kΩ 5% 0.062W3708 4822 117 12925 47kΩ 1% 0.063W 06033710 4822 117 12925 47kΩ 1% 0.063W 06033711 4822 051 30103 10kΩ 5% 0.062W3713 2322 702 81828 8.2Ω 5% 0.1W 06033714 2322 702 81828 8.2Ω 5% 0.1W 06033716 4822 050 21003 10kΩ 1% 0.6W3719 4822 051 30103 10kΩ 5% 0.062W3720 4822 052 10108 1Ω 5% 0.33W3721 4822 052 10108 1Ω 5% 0.33W3725 4822 116 52251 18kΩ 5% 0.5W3726 4822 050 21003 10kΩ 1% 0.6W3904 4822 052 10688 6.8Ω 5% 0.33W3905 4822 051 30101 100Ω 5% 0.062W3912 4822 051 30008 Jumper 06033928 4822 051 30101 100Ω 5% 0.062W3929 4822 051 30103 10kΩ 5% 0.062W3930 4822 051 20561 560Ω 5% 0.1W3938 4822 117 11373 100Ω 1% 08053939 4822 051 30103 10kΩ 5% 0.062W3940 4822 051 20561 560Ω 5% 0.1W3941 4822 052 10688 6.8Ω 5% 0.33W3959 4822 117 10353 150Ω 1% 0.1W3960 4822 117 10353 150Ω 1% 0.1W3961 4822 117 10353 150Ω 1% 0.1W3962 4822 117 10353 150Ω 1% 0.1W3965 4822 117 10353 150Ω 1% 0.1W3966 4822 117 10353 150Ω 1% 0.1W3967 4822 116 52201 75Ω 5% 0.5W3968 4822 116 52201 75Ω 5% 0.5W3969 4822 051 20008 Jumper 08053969 4822 117 11373 100Ω 1% 08053970 4822 051 20008 Jumper 08053970 4822 117 11373 100Ω 1% 08053971 4822 116 52201 75Ω 5% 0.5W3972 4822 116 52201 75Ω 5% 0.5W3973 4822 116 52201 75Ω 5% 0.5W3974 4822 116 52201 75Ω 5% 0.5W3975 4822 116 52201 75Ω 5% 0.5W3976 4822 117 11373 100Ω 1% 08053977 4822 051 20008 Jumper 08053977 4822 117 11373 100Ω 1% 08053978 4822 051 20008 Jumper 08053978 4822 117 11373 100Ω 1% 08053979 4822 116 52201 75Ω 5% 0.5W3980 4822 051 20008 Jumper 08053980 4822 117 11373 100Ω 1% 08053981 4822 051 10102 1kΩ 2% 0.25W3981 4822 117 10833 10kΩ 1% 0.1W3982 4822 051 20392 3.9kΩ 5% 0.1W3982 4822 051 20393 39kΩ 5% 0.1W3983 4822 116 52175 100Ω 5% 0.5W3984 4822 051 10102 1kΩ 2% 0.25W3984 4822 117 10833 10kΩ 1% 0.1W3985 4822 116 52201 75Ω 5% 0.5W3986 4822 116 52276 3.9kΩ 5% 0.5W3986 4822 116 83882 39kΩ 5% 0.5W3987 4822 116 52175 100Ω 5% 0.5W3988 4822 051 10102 1kΩ 2% 0.25W3988 4822 117 11373 100Ω 1% 08053989 4822 050 11002 1kΩ 1% 0.4W3989 4822 116 52175 100Ω 5% 0.5W3990 4822 117 10353 150Ω 1% 0.1W3991 4822 117 10353 150Ω 1% 0.1W
Spare Parts List EN 99ES1E 10.
3992 4822 117 10353 150Ω 1% 0.1W3993 4822 116 83868 150Ω 5% 0.5W3994 4822 051 10102 1kΩ 2% 0.25W3994 4822 117 11373 100Ω 1% 08053995 4822 051 10102 1kΩ 2% 0.25W3995 4822 117 11373 100Ω 1% 08053996 4822 117 10353 150Ω 1% 0.1W3997 4822 117 10353 150Ω 1% 0.1W4xxx 4822 051 30008 Jumper 06039xxx 4822 051 20008 Jumper 08059xxx 4822 051 30008 Jumper 0603
5100 3104 308 20431 Transformer BS25126-035101 4822 526 10704 Bead 45Ω at 50MHz5102 2422 535 94639 10µH 20%5103 4822 526 10704 Bead 45Ω at 50MHz5104 4822 157 11411 Bead 83Ω at 100MHz5105 2422 535 94632 1µH 30%5106 4822 157 11716 Bead 30Ω at 100MHz5107 4822 157 11716 Bead 30Ω at 100MHz5108 4822 526 10704 Bead 45Ω at 50MHz5110 4822 526 10704 Bead 45Ω at 50MHz5111 4822 157 11411 Bead 83Ω at 100MHz5113 4822 157 11411 Bead 83Ω at 100MHz5130 4822 157 11411 Bead 83Ω at 100MHz5400 4822 157 11869 33µH 10%5401 2422 536 00059 12µH 10%5402 3198 018 21510 150µH 10%5410 3128 138 39091 Transformer CE165T5411 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 100MHz5426 4822 157 11411 Bead 83Ω at 100MHz5430 3104 308 20491 LOT 1392.9014A5461 4822 157 11411 Bead 83Ω at 100MHz5463 4822 157 11411 Bead 83Ω at 100MHz5465 4822 157 11411 Bead 83Ω at 100MHz5467 4822 157 11411 Bead 83Ω at 100MHz5469 4822 157 11411 Bead 83Ω at 100MHz5503 2422 549 44877 Filter 45mH DMF2845H5505 4822 157 11411 Bead 83Ω at 100MHz5506 2422 531 02575 Transformer SMT
BS30029-015506 2422 531 02635 Transformer SMT
SS30327-01 B5507 4822 157 11411 Bead 83Ω at 100MHz5511 3104 308 20511 Filter mains 40mH5515 4822 157 11869 33µH 10%5517 4822 157 11411 Bead 83Ω at 100MHz5518 4822 526 10704 Bead 45Ω at 50MHz5519 4822 157 11716 Bead 30Ω at 100MHz5520 4822 157 11411 Bead 83Ω at 100MHz5620 4822 157 11771 0.09µH 10%5621 3104 308 20571 Transf. S13974-035901 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
6080 4822 130 11397 BAS3166082 4822 130 80622 BAT546103 4822 130 41601 BYV95A6104 9340 548 67115 PDZ22B6105 4822 130 34281 BZX79-B156106 3198 010 52290 BZX79-B226108 4822 130 80622 BAT546109 4822 130 31083 BYW556110 4822 130 41487 BYV95C6111 9322 161 78682 SB360L-70246112 4822 130 11551 UDZS10B6115 4822 130 80622 BAT546120 4822 130 30621 1N41486121 4822 130 30621 1N41486122 3198 010 53980 BZX79-B3V96130 4822 130 11596 BYW29EX-2006132 9322 171 80685 BZX384-B6V86133 4822 130 11397 BAS3166134 4822 130 11397 BAS3166141 4822 130 11522 UDZ15B6142 4822 130 80622 BAT546144 4822 130 11397 BAS3166147 4822 130 34278 BZX79-B6V8
6148 5322 130 31938 BYV27-2006149 4822 130 11397 BAS3166200 9340 548 71115 PDZ33B6202 4822 130 11397 BAS3166400 4822 130 41601 BYV95A6402 4822 130 11397 BAS3166405 4822 130 34383 BZX79-B476406 4822 130 11397 BAS3166407 4822 130 11397 BAS3166408 4822 130 41601 BYV95A6421 4822 130 10753 BY359X-15006422 4822 130 10218 BY229X-8006442 4822 130 11522 UDZ15B6455 4822 130 11397 BAS3166456 5322 130 34337 BAV996457 9322 102 64685 UDZ2.7B6458 3198 020 55680 BZX384-C5V66460 4822 130 41487 BYV95C6462 9340 559 53112 BYW95C-246464 9340 559 53112 BYW95C-246480 4822 130 31607 RGP10D6481 4822 130 11522 UDZ15B6482 4822 130 11397 BAS3166483 4822 130 80622 BAT546493 4822 130 80622 BAT546499 4822 130 11551 UDZS10B6505 4822 130 34281 BZX79-B156506 4822 130 80622 BAT546509 4822 130 11397 BAS3166510 4822 130 61219 BZX79-B106511 4822 130 11397 BAS3166512 4822 130 11397 BAS3166514 5322 130 31932 BZT03-C2006515 4822 130 33657 BZV85-C6V86516 4822 130 11397 BAS3166517 4822 130 80622 BAT546525 3198 010 10640 Bridge cell GBU4K6530 4822 130 41487 BYV95C6534 9322 165 72687 DTV1500MFP6535 4822 130 11572 STPS8H100F6537 4822 130 11397 BAS3166538 4822 130 11397 BAS3166614 4822 130 80622 BAT546615 4822 130 11397 BAS3166616 4822 130 11397 BAS3166617 4822 130 11397 BAS3166618 4822 130 11397 BAS3166619 4822 130 31607 RGP10D6620 5322 130 31938 BYV27-2006621 4822 130 31607 RGP10D6623 4822 130 11397 BAS3166624 4822 130 11397 BAS3166625 4822 130 11397 BAS3166626 4822 130 11397 BAS3166627 4822 130 11397 BAS3166901 4822 130 11416 PDZ6.8B6950 4822 130 11416 PDZ6.8B6951 4822 130 11416 PDZ6.8B6953 4822 130 11416 PDZ6.8B6954 4822 130 11416 PDZ6.8B6955 4822 130 11416 PDZ6.8B6956 4822 130 11416 PDZ6.8B6957 4822 130 11416 PDZ6.8B6958 4822 130 11416 PDZ6.8B6959 4822 130 11416 PDZ6.8B6960 9340 548 61115 PDZ12B6961 4822 130 11416 PDZ6.8B6962 4822 130 11416 PDZ6.8B
7100 4822 130 44568 BC557B7101 4822 130 40981 BC337-257102 9322 160 34687 FQPF3N607103 9322 149 04682 TCET11027130 5322 130 60159 BC846B7131 4822 130 11336 STP16NE06FP7132 5322 130 60159 BC846B7133 4822 130 60373 BC856B7140 5322 130 60159 BC846B7141 4822 130 11336 STP16NE06FP7408 5322 130 44647 BC3687409 5322 130 60159 BC846B7421 9340 210 30127 BU2520DX7440 4822 209 70672 LM358N SEL.7441 4822 130 60373 BC856B7442 4822 130 60373 BC856B7443 5322 130 60159 BC846B7445 5322 130 60159 BC846B7450 5322 209 61472 LM393M7455 4822 209 73852 PMBT23697480 4822 130 11417 STP3NB60FP7482 4822 130 11418 TCDT1102G
7486 5322 130 60159 BC846B7487 5322 130 60159 BC846B7501 5322 130 60159 BC846B7502 4822 130 40959 BC547B7504 9322 194 20687 STP5NK50ZFP7506 4822 209 14933 TL431IZ7507 9322 149 04682 TCET11027528 4822 130 40981 BC337-257529 4822 130 44461 BC546B7530 5322 130 60159 BC846B7611 5322 130 60159 BC846B7612 5322 130 60159 BC846B7613 4822 209 81397 TL431CLPST7614 5322 130 60159 BC846B7620 4822 209 90009 TDA81777641 5322 130 60159 BC846B7652 5322 130 60159 BC846B7653 5322 130 60159 BC846B7654 4822 130 60373 BC856B7680 4822 209 60956 TDA7052/N27681 5322 130 60159 BC846B7682 5322 130 44647 BC3687701 9322 166 94682 TDA7495S7710 5322 130 60159 BC846B7711 5322 130 60159 BC846B7901 5322 130 60159 BC846B7902 5322 130 60159 BC846B7910 9322 152 53687 LD1086V337912 5322 209 86445 LM7805CT
Small Signal Board [B]
Various
1112 2422 549 44369 SAW 38.9MHz K9656L1113 2422 549 44372 SAW 38.9MHz K3953L1581 2422 543 01359 Xtal 13.5MHz 12pF
NX8045
2002 2020 552 96507 10µF 10V2003 2020 552 96507 10µF 10V2005 2020 552 96618 1nF 10% 50V 04022006 2020 552 96618 1nF 10% 50V 04022008 2020 552 96618 1nF 10% 50V 04022012 3198 017 44740 470nF 10V 06032013 3198 035 04710 470pF 50V 04022014 3198 035 71040 100nF 10% 16V 04022015 3198 035 04710 470pF 50V 04022016 3198 017 44740 470nF 10V 06032018 3198 035 04710 470pF 50V 04022019 3198 017 44740 470nF 10V 06032021 3198 035 04710 470pF 50V 04022022 3198 017 44740 470nF 10V 06032024 3198 035 04710 470pF 50V 04022025 3198 017 44740 470nF 10V 06032027 3198 035 04710 470pF 50V 04022028 3198 017 44740 470nF 10V 06032030 2020 552 96618 1nF 10% 50V 04022031 2020 552 96618 1nF 10% 50V 04022032 2020 552 96618 1nF 10% 50V 04022033 2020 552 96618 1nF 10% 50V 04022037 2020 552 96507 10µF 10V2038 2020 552 96507 10µF 10V2039 2020 552 96507 10µF 10V2040 2020 552 96507 10µF 10V2045 3198 030 82280 2.2µF 20% 50V2046 5322 124 41945 22µF 20% 35V2047 4822 124 23002 10µF 20% 16V2048 3198 035 71040 100nF 10% 16V 04022049 3198 035 71040 100nF 10% 16V 04022050 3198 035 71040 100nF 10% 16V 04022051 3198 035 71040 100nF 10% 16V 04022060 3198 035 71040 100nF 10% 16V 04022062 3198 035 71040 100nF 10% 16V 04022063 3198 035 71040 100nF 10% 16V 04022065 3198 035 71040 100nF 10% 16V 04022066 3198 035 71040 100nF 10% 16V 04022067 3198 035 71040 100nF 10% 16V 04022068 3198 035 71040 100nF 10% 16V 04022071 3198 035 71040 100nF 10% 16V 04022072 3198 035 71040 100nF 10% 16V 04022073 3198 035 71040 100nF 10% 16V 04022078 3198 035 71040 100nF 10% 16V 04022079 3198 035 71040 100nF 10% 16V 04022081 3198 035 71040 100nF 10% 16V 04022082 4822 126 14491 2.2µF -20+80% 10V 08052083 3198 035 71040 100nF 10% 16V 04022084 3198 035 71040 100nF 10% 16V 04022085 3198 035 71040 100nF 10% 16V 0402
Spare Parts ListEN 100 ES1E10.
2088 4822 126 14491 2.2µF -20+80% 10V 08052101 3198 035 71030 10nF 16V 04022102 3198 035 71030 10nF 16V 04022119 3198 035 71030 10nF 16V 04022126 2238 869 15101 100pF 5% 50V 04022127 3198 035 71040 100nF 10% 16V 04022128 3198 030 82280 2.2µF 20% 50V2130 3198 035 71030 10nF 16V 04022134 3198 035 71040 100nF 10% 16V 04022135 4822 124 23002 10µF 20% 16V2136 4822 124 23002 10µF 20% 16V2137 4822 124 12095 100µF 20% 16V2138 3198 035 71040 100nF 10% 16V 04022150 3198 035 71040 100nF 10% 16V 04022151 3198 030 82280 2.2µF 20% 50V2152 3198 035 71040 100nF 10% 16V 04022154 4822 124 23002 10µF 20% 16V2155 3198 035 71040 100nF 10% 16V 04022156 3198 035 71040 100nF 10% 16V 04022157 3198 035 71040 100nF 10% 16V 04022281 3198 035 71040 100nF 10% 16V 04022282 3198 035 71040 100nF 10% 16V 04022284 3198 035 71040 100nF 10% 16V 04022285 3198 035 71040 100nF 10% 16V 04022300 3198 035 71040 100nF 10% 16V 04022305 3198 017 41050 1µF 10V 06032307 2238 869 15101 100pF 5% 50V 04022308 2238 869 15101 100pF 5% 50V 04022310 4822 124 23002 10µF 20% 16V2311 3198 035 71030 10nF 16V 04022317 2238 869 15101 100pF 5% 50V 04022318 2238 869 15101 100pF 5% 50V 04022321 3198 035 71030 10nF 16V 04022324 2238 869 15101 100pF 5% 50V 04022325 2238 869 75829 82pF 5% 50V 04022327 2238 869 15101 100pF 5% 50V 04022328 2238 869 15101 100pF 5% 50V 04022331 3198 035 71030 10nF 16V 04022341 3198 035 71040 100nF 10% 16V 04022342 3198 035 71040 100nF 10% 16V 04022343 3198 035 71040 100nF 10% 16V 04022344 3198 035 71040 100nF 10% 16V 04022345 3198 035 71040 100nF 10% 16V 04022346 3198 035 71040 100nF 10% 16V 04022350 4822 124 12095 100µF 20% 16V2351 2238 869 15109 10pF 5% 50V 04022352 2238 869 15109 10pF 5% 50V 04022358 2238 869 15101 100pF 5% 50V 04022359 3198 035 71040 100nF 10% 16V 04022360 2238 869 15101 100pF 5% 50V 04022361 4822 126 14491 2.2µF -20+80% 10V 08052363 2238 869 15101 100pF 5% 50V 04022364 4822 126 14491 2.2µF -20+80% 10V 08052365 2238 869 15101 100pF 5% 50V 04022366 4822 126 14491 2.2µF -20+80% 10V 08052371 2020 552 96618 1nF 10% 50V 04022372 2020 552 96618 1nF 10% 50V 04022377 2020 552 96623 2.2nF 10% 50V 04022379 2020 552 96623 2.2nF 10% 50V 04022380 3198 035 04710 470pF 50V 04022384 2020 552 96618 1nF 10% 50V 04022386 2238 869 15109 10pF 5% 50V 04022395 3198 035 71030 10nF 16V 04022397 3198 035 71040 100nF 10% 16V 04022432 2020 552 96618 1nF 10% 50V 04022433 2020 552 96618 1nF 10% 50V 04022434 3198 017 44740 470nF 10V 06032435 3198 017 44740 470nF 10V 06032438 3198 017 44740 470nF 10V 06032439 3198 017 44740 470nF 10V 06032440 2020 552 96618 1nF 10% 50V 04022441 2020 552 96618 1nF 10% 50V 04022442 2020 552 96618 1nF 10% 50V 04022443 2020 552 96618 1nF 10% 50V 04022444 2020 552 96618 1nF 10% 50V 04022445 2020 552 96618 1nF 10% 50V 04022447 4822 124 12095 100µF 20% 16V2450 3198 035 71030 10nF 16V 04022452 3198 035 71030 10nF 16V 04022454 4822 126 14491 2.2µF -20+80% 10V 08052457 4822 126 14491 2.2µF -20+80% 10V 08052461 3198 017 44740 470nF 10V 06032462 3198 017 44740 470nF 10V 06032480 3198 017 44740 470nF 10V 06032481 3198 017 44740 470nF 10V 06032483 2020 552 96618 1nF 10% 50V 04022484 4822 124 23002 10µF 20% 16V2485 2020 552 96618 1nF 10% 50V 04022486 3198 035 71040 100nF 10% 16V 04022487 4822 124 23002 10µF 20% 16V2488 4822 124 12095 100µF 20% 16V2489 4822 124 12095 100µF 20% 16V2514 2238 869 15189 18pF 5% 50V 04022516 2238 869 15189 18pF 5% 50V 0402
2525 3198 035 71040 100nF 10% 16V 04022546 3198 035 71040 100nF 10% 16V 04022557 2238 869 15101 100pF 5% 50V 04022571 3198 035 71040 100nF 10% 16V 04022581 4822 126 14519 22pF 5% 50V 04022582 4822 126 14519 22pF 5% 50V 04022583 3198 035 71040 100nF 10% 16V 04022584 3198 035 71040 100nF 10% 16V 04022600 3198 035 71040 100nF 10% 16V 04022601 3198 035 71040 100nF 10% 16V 04022604 3198 035 71040 100nF 10% 16V 04022607 3198 035 71040 100nF 10% 16V 04022609 3198 035 71040 100nF 10% 16V 04022611 3198 035 71040 100nF 10% 16V 04022612 3198 035 71040 100nF 10% 16V 04022615 3198 035 71040 100nF 10% 16V 04022618 3198 035 71040 100nF 10% 16V 04022620 3198 035 71040 100nF 10% 16V 04022622 3198 035 71040 100nF 10% 16V 04022623 3198 035 71040 100nF 10% 16V 04022628 3198 035 71040 100nF 10% 16V 04022629 3198 035 71040 100nF 10% 16V 04022630 3198 035 71040 100nF 10% 16V 04022633 3198 035 71040 100nF 10% 16V 04022634 3198 035 71040 100nF 10% 16V 04022638 3198 035 71040 100nF 10% 16V 04022644 5322 124 41945 22µF 20% 35V2645 4822 124 23002 10µF 20% 16V2651 2020 021 91679 100µF 20% 6.3V2652 2020 552 96507 10µF 10V2654 2020 552 96507 10µF 10V2655 2020 552 96507 10µF 10V2656 3198 035 71040 100nF 10% 16V 04022657 2238 869 15101 100pF 5% 50V 04022659 4822 126 13879 220nF 20% 16V2730 3198 035 71040 100nF 10% 16V 04022731 3198 035 71040 100nF 10% 16V 04022732 3198 035 71040 100nF 10% 16V 04022733 3198 035 71040 100nF 10% 16V 04022734 3198 035 71040 100nF 10% 16V 04022792 3198 035 71040 100nF 10% 16V 04022793 3198 035 71040 100nF 10% 16V 04022918 2238 869 15101 100pF 5% 50V 04022919 2238 869 15101 100pF 5% 50V 04022920 2238 869 75829 82pF 5% 50V 04022932 2238 869 15101 100pF 5% 50V 04022933 2238 869 15101 100pF 5% 50V 04022935 2238 869 15101 100pF 5% 50V 04022936 2238 869 15101 100pF 5% 50V 04022938 2238 869 15101 100pF 5% 50V 04022948 2238 869 15189 18pF 5% 50V 04022949 2238 869 15189 18pF 5% 50V 04022950 2238 869 15101 100pF 5% 50V 04022951 2238 869 15101 100pF 5% 50V 04022962 2238 869 15101 100pF 5% 50V 04022967 2020 552 96618 1nF 10% 50V 04022968 2020 552 96618 1nF 10% 50V 04022975 2020 552 96793 4.7nF 10% 50V 04022976 2020 552 96793 4.7nF 10% 50V 04022977 2238 869 15101 100pF 5% 50V 04022978 2238 869 15101 100pF 5% 50V 04022979 2238 869 15101 100pF 5% 50V 0402
3002 3198 031 04730 47Ω 5% 04023003 3198 031 04730 47Ω 5% 04023004 3198 031 04730 47Ω 5% 04023005 3198 031 04730 47Ω 5% 04023006 3198 031 04730 47Ω 5% 04023007 3198 031 04730 47Ω 5% 04023010 4822 117 13605 Jumper 04023011 4822 117 13605 Jumper 04023018 4822 117 11152 4.7Ω 5% 0.062W3019 5322 117 11726 10Ω 5%3022 3198 031 04730 47Ω 5% 04023024 3198 031 04730 47Ω 5% 04023026 3198 031 04730 47Ω 5% 04023027 3198 031 04730 47Ω 5% 04023060 4822 117 13602 2.2kΩ 5% 0.01W 04023061 4822 117 13602 2.2kΩ 5% 0.01W 04023062 3198 031 01810 180Ω 5% 04023063 3198 031 01810 180Ω 5% 04023066 4822 117 13602 2.2kΩ 5% 0.01W 04023067 4822 117 13548 1kΩ 5% 04023068 4822 117 13548 1kΩ 5% 04023101 4822 117 13602 2.2kΩ 5% 0.01W 04023103 3198 031 06820 6.8kΩ 5% 0.01W 04023104 4822 117 13602 2.2kΩ 5% 0.01W 04023106 3198 031 02730 27kΩ 5% 04023131 3198 031 04720 4.7kΩ 5% 04023132 4822 117 13545 100Ω 1% 04023138 3198 031 03910 390Ω 1% 0402
3150 3198 031 01820 1K8 5% 04023151 3198 031 01220 1K2 5% 04023152 3198 031 01820 1K8 5% 04023153 3198 031 01220 1K2 5% 04023154 3198 031 04730 47Ω 5% 04023155 3198 031 08210 820Ω 5% 0,5W3281 4822 117 13548 1kΩ 5% 04023282 4822 117 13548 1kΩ 5% 04023283 4822 117 13548 1kΩ 5% 04023284 4822 117 13548 1kΩ 5% 04023302 3198 031 01220 1K2 5% 04023303 3198 031 06820 6.8kΩ 5% 0.01W 04023304 4822 117 13597 330Ω 5% 0402 0.01W3305 4822 117 13548 1kΩ 5% 04023306 3198 031 03390 33Ω 1% 04023307 2322 705 87189 18Ω 5% 04023309 4822 051 30331 330Ω 5% 0.062W3310 3198 031 01220 1K2 5% 04023311 3198 031 03390 33Ω 1% 04023312 3198 031 01220 1K2 5% 04023313 4822 117 13597 330Ω 5% 0402 0.01W3316 2322 705 87189 18Ω 5% 04023318 3198 031 01220 1K2 5% 04023319 4822 051 30331 330Ω 5% 0.062W3320 3198 031 01220 1K2 5% 04023321 3198 031 03390 33Ω 1% 04023322 3198 031 01220 1K2 5% 04023323 4822 117 13597 330Ω 5% 0402 0.01W3325 3198 031 04720 4.7kΩ 5% 04023326 4822 117 13543 470Ω 5% 04023329 4822 051 30331 330Ω 5% 0.062W3330 3198 031 01220 1K2 5% 04023331 3198 031 03390 33Ω 1% 04023332 3198 031 01220 1K2 5% 04023333 4822 117 13597 330Ω 5% 0402 0.01W3334 3198 031 03390 33Ω 1% 04023335 3198 031 03390 33Ω 1% 04023336 3198 031 03390 33Ω 1% 04023337 3198 031 03390 33Ω 1% 04023338 2322 705 87189 18Ω 5% 04023340 4822 117 13548 1kΩ 5% 04023343 4822 117 13606 10kΩ 5% 0.01W 04023345 3198 031 06820 6.8kΩ 5% 0.01W 04023346 4822 117 13548 1kΩ 5% 04023347 4822 117 13601 22kΩ 5% 04023348 4822 117 13601 22kΩ 5% 04023349 3198 031 04730 47Ω 5% 04023350 4822 117 13596 220Ω 5% 0.01W 04023351 4822 117 13548 1kΩ 5% 04023352 3198 031 04730 47Ω 5% 04023353 4822 117 13606 10kΩ 5% 0.01W 04023354 4822 117 13606 10kΩ 5% 0.01W 04023355 4822 117 13601 22kΩ 5% 04023356 3198 031 08210 820Ω 5% 0,5W3357 4822 117 13601 22kΩ 5% 04023358 5322 117 11726 10Ω 5%3361 4822 117 13605 Jumper 04023364 2322 705 70124 120kΩ 5% 04023365 4822 117 13605 Jumper 04023366 4822 117 13602 2.2kΩ 5% 0.01W 04023367 4822 117 13548 1kΩ 5% 04023368 3198 031 06830 68kΩ 5% 0.01W 04023371 4822 117 13548 1kΩ 5% 04023372 2322 705 70155 1.5MΩ 5% 04023373 4822 117 13606 10kΩ 5% 0.01W 04023374 3198 031 02720 2.7kΩ 5% 0.01W 04023375 3198 031 02720 2.7kΩ 5% 0.01W 04023376 4822 117 13606 10kΩ 5% 0.01W 04023377 3198 031 02250 2.2MΩ 5% 04023378 3198 031 03340 330kΩ 5% 04023380 4822 117 13606 10kΩ 5% 0.01W 04023382 4822 117 13548 1kΩ 5% 04023384 4822 117 13606 10kΩ 5% 0.01W 04023385 3198 031 04730 47Ω 5% 04023386 3198 031 02730 27kΩ 5% 04023390 4822 117 13548 1kΩ 5% 04023391 3198 031 03930 39kΩ 5% 04023392 3198 031 04730 47Ω 5% 04023393 3198 031 03320 3.3kΩ 5% 04023395 4822 117 13606 10kΩ 5% 0.01W 04023396 4822 117 13543 470Ω 5% 04023397 4822 117 13543 470Ω 5% 04023398 4822 117 13545 100Ω 1% 04023445 3198 031 04730 47Ω 5% 04023446 3198 031 05630 56kΩ 5% 04023447 3198 031 05630 56kΩ 5% 04023448 3198 031 01220 1K2 5% 04023449 3198 031 01520 1.2kΩ 5% 0.01W 04023450 3198 031 01220 1K2 5% 04023452 3198 031 01220 1K2 5% 04023453 3198 031 04730 47Ω 5% 04023454 3198 031 05630 56kΩ 5% 04023455 3198 031 05630 56kΩ 5% 04023456 3198 031 01220 1K2 5% 0402
Spare Parts List EN 101ES1E 10.
3457 3198 031 01520 1.2kΩ 5% 0.01W 04023480 3198 031 02720 2.7kΩ 5% 0.01W 04023481 3198 031 02720 2.7kΩ 5% 0.01W 04023482 3198 031 04720 4.7kΩ 5% 04023483 3198 031 08220 8.2kΩ 5% 0.5W3484 3198 031 04720 4.7kΩ 5% 04023485 3198 031 08220 8.2kΩ 5% 0.5W3501 4822 117 13606 10kΩ 5% 0.01W 04023502 4822 117 13606 10kΩ 5% 0.01W 04023503 4822 117 13606 10kΩ 5% 0.01W 04023504 4822 117 13606 10kΩ 5% 0.01W 04023507 4822 117 13606 10kΩ 5% 0.01W 04023508 3198 031 04720 4.7kΩ 5% 04023509 3198 031 02720 2.7kΩ 5% 0.01W 04023510 3198 031 02720 2.7kΩ 5% 0.01W 04023511 4822 117 13546 47Ω 5% 04023512 4822 117 13546 47Ω 5% 04023513 3198 031 02720 2.7kΩ 5% 0.01W 04023515 3198 031 02720 2.7kΩ 5% 0.01W 04023518 4822 117 13601 22kΩ 5% 04023523 4822 117 13606 10kΩ 5% 0.01W 04023530 4822 117 11297 100kΩ 5% 0.1W3547 3198 031 03390 33Ω 1% 04023550 3198 031 04720 4.7kΩ 5% 04023557 4822 117 13546 47Ω 5% 04023563 4822 117 13606 10kΩ 5% 0.01W 04023564 4822 117 13606 10kΩ 5% 0.01W 04023565 4822 117 13606 10kΩ 5% 0.01W 04023570 4822 117 13602 2.2kΩ 5% 0.01W 04023571 3198 031 02720 2.7kΩ 5% 0.01W 04023572 4822 117 13606 10kΩ 5% 0.01W 04023581 4822 117 13545 100Ω 1% 04023582 4822 117 13606 10kΩ 5% 0.01W 04023583 3198 031 01830 18kΩ 5% 0.01W 04023586 4822 117 13601 22kΩ 5% 04023590 4822 117 13548 1kΩ 5% 04023651 5322 117 13036 1.2kΩ 1% 0.063W 06033652 5322 117 13052 2.7kΩ 1% 0.063W 06033737 3198 031 03390 33Ω 1% 04023904 4822 117 13605 Jumper 04023909 4822 117 13545 100Ω 1% 04023911 4822 117 13545 100Ω 1% 04023918 4822 117 13545 100Ω 1% 04023919 4822 117 13545 100Ω 1% 04023928 4822 117 13545 100Ω 1% 04023929 4822 117 13545 100Ω 1% 04023936 4822 117 13545 100Ω 1% 04023938 4822 117 13545 100Ω 1% 04023950 4822 117 13545 100Ω 1% 04023951 4822 117 13545 100Ω 1% 04023962 4822 117 13545 100Ω 1% 04023963 4822 117 13545 100Ω 1% 04023964 4822 117 13545 100Ω 1% 04023975 4822 117 13545 100Ω 1% 04023976 4822 117 13545 100Ω 1% 04023977 4822 117 13545 100Ω 1% 04023978 4822 117 13545 100Ω 1% 04023979 4822 117 13545 100Ω 1% 04023980 4822 117 13545 100Ω 1% 04024xxx 4822 117 13605 Jumper 0402
5060 2422 549 44197 Bead 220Ω at 100MHz5061 2422 549 44197 Bead 220Ω at 100MHz5062 2422 549 44197 Bead 220Ω at 100MHz5063 2422 549 44197 Bead 220Ω at 100MHz5101 4822 157 71303 0.39µH 10% 08055102 2422 549 44197 Bead 220Ω at 100MHz5112 2422 549 44197 Bead 220Ω at 100MHz5134 2422 549 44197 Bead 220Ω at 100MHz5135 2422 549 44197 Bead 220Ω at 100MHz5150 2422 549 44197 Bead 220Ω at 100MHz5151 2422 549 44197 Bead 220Ω at 100MHz5152 2422 549 44197 Bead 220Ω at 100MHz5281 2422 549 44197 Bead 220Ω at 100MHz5282 2422 549 44197 Bead 220Ω at 100MHz5283 2422 549 44197 Bead 220Ω at 100MHz5285 2422 549 44197 Bead 220Ω at 100MHz5300 2422 549 44197 Bead 220Ω at 100MHz5307 4822 051 20008 Jumper 08055317 4822 051 20008 Jumper 08055327 4822 051 20008 Jumper 08055328 4822 051 20008 Jumper 08055342 2422 549 44197 Bead 220Ω at 100MHz5343 2422 549 44197 Bead 220Ω at 100MHz5344 2422 549 44197 Bead 220Ω at 100MHz5345 2422 549 44197 Bead 220Ω at 100MHz5450 2422 549 44197 Bead 220Ω at 100MHz5452 2422 549 44197 Bead 220Ω at 100MHz5480 2422 549 44197 Bead 220Ω at 100MHz5570 2422 549 44197 Bead 220Ω at 100MHz5583 2422 549 44197 Bead 220Ω at 100MHz
5600 4822 157 11716 Bead 30Ω at 100MHz5601 2422 549 44197 Bead 220Ω at 100MHz5651 2422 535 94134 10µH 20% 08055654 4822 157 11258 1µH 20% NLC322522T5659 4822 157 71334 0.68µH5730 2422 549 44197 Bead 220Ω at 100MHz5731 2422 549 44197 Bead 220Ω at 100MHz5792 2422 549 44197 Bead 220Ω at 100MHz
6101 4822 130 11525 1SS3566301 4822 130 11397 BAS3166327 9322 102 64685 UDZ2.7B6341 4822 130 11397 BAS3166353 5322 130 34337 BAV996365 5322 130 34337 BAV996367 9340 548 67115 PDZ22B6368 4822 130 11397 BAS3166381 5322 130 34337 BAV996382 4822 130 11594 BZX284-C476384 9340 548 67115 PDZ22B6385 4822 130 11397 BAS3166397 9340 548 69115 PDZ27B6398 4822 130 11397 BAS3166480 9340 548 61115 PDZ12B6481 9340 548 61115 PDZ12B6651 9322 128 70685 SMSS14
7060 9340 425 30115 BC847BPN7062 4822 130 60373 BC856B7063 4822 130 60373 BC856B7100 9352 712 54557 PNX3000HL/N17101 3198 010 42310 BC847BW7150 9340 425 20115 BC847BS7300 9352 735 54557 PNX3002E/N3027301 4822 130 60373 BC856B7302 4822 130 60373 BC856B7303 4822 130 60373 BC856B7304 3198 010 42310 BC847BW7310 9340 425 30115 BC847BPN7320 9340 425 30115 BC847BPN7330 9340 425 30115 BC847BPN7346 4822 130 60373 BC856B7356 4822 130 60373 BC856B7365 5322 130 60159 BC846B7382 4822 130 60373 BC856B7383 9340 425 30115 BC847BPN7393 3198 010 42310 BC847BW7432 9340 425 30115 BC847BPN7433 9340 425 30115 BC847BPN7480 4822 209 33165 TDA1308T/N17525 9322 130 41668 M24C64-WMN67581 9352 691 56115 NE56610-45GW7650 9322 170 61668 CS51033YDR87651 9322 170 87668 STS5PF30L7730 9322 180 88668 K4S641632F-TC757790 9322 199 76668 M58LW032C90N1
Side I/O Panel [D]
Various
0240 2422 025 12485 Connector 11p m0241 4822 267 10734 Connector 5p m0242 4822 267 10734 Connector 5p m1254 4822 267 31014 Socket headphone1255 4822 265 11606 Connector 3p1256 2422 026 04926 Socket SVHS 4p f
2286 4822 122 33642 150pF 5% 50V2288 4822 122 33642 150pF 5% 50V2292 5322 122 32311 470pF 10% 100V2294 5322 122 32311 470pF 10% 100V2296 4822 122 30103 22nF 80% 63V2297 4822 122 30103 22nF 80% 63V
3285 4822 116 52201 75Ω 5% 0.5W3286 4822 116 52176 10Ω 5% 0.5W3287 4822 116 52201 75Ω 5% 0.5W3288 4822 116 52176 10Ω 5% 0.5W3289 4822 116 52249 1.8kΩ 5% 0.5W3291 4822 050 11002 1kΩ 1% 0.4W3292 4822 117 10834 47kΩ 1% 0.1W
3293 4822 050 11002 1kΩ 1% 0.4W3294 4822 117 10834 47kΩ 1% 0.1W3295 4822 116 52276 3.9kΩ 5% 0.5W3296 4822 117 10833 10kΩ 1% 0.1W3297 4822 117 10833 10kΩ 1% 0.1W4xxx 4822 051 20008 Jumper 0805
6291 9340 548 61115 PDZ12B6292 9340 548 61115 PDZ12B6293 9340 548 61115 PDZ12B6294 9340 548 61115 PDZ12B6296 9340 548 61115 PDZ12B6297 9340 548 61115 PDZ12B
Top Control Panel [E]
Various
0135 3104 311 04671 Cable 3p/1200/3p0215 2422 025 16601 Connector 3p m1091 4822 276 13775 Switch1092 4822 276 13775 Switch1093 4822 276 13775 Switch1094 4822 276 13775 Switch
2010 4822 122 33177 10nF 20% 50V
3088 4822 051 30008 Jumper 06033089 4822 051 30008 Jumper 06033091 4822 051 30561 560Ω 5% 0.062W3092 4822 051 30391 390Ω 5% 0.062W3093 4822 051 30561 560Ω 5% 0.062W3094 4822 051 30271 270Ω 5% 0.062W3095 4822 051 30332 3.3kΩ 5% 0.062W3096 4822 051 30152 1.5kΩ 5% 0.062W4092 4822 051 30008 Jumper 0603
6092 4822 130 10654 BAT254
CRT Panel [F]
Various
0032 4822 492 70788 IC clamp1298 2422 500 80063 Connector CRT 10p f1424 2422 025 11244 Connector 7p m1434 4822 267 10973 Connector 1p m1483 4822 267 10735 Connector 3p m1940 2422 025 12485 Connector 11p m8483 3104 311 03111 Cable 3p/340/3p ferrite
2300 4822 124 40764 22µF 100 V2301 4822 124 40196 220µF 20% 16V2304 4822 121 41856 22nF 5% 250V2306 2238 586 59812 100nF 20-80% 50V 06032307 4822 121 41856 22nF 5% 250V2309 3198 017 42230 22nF 50V2313 4822 124 12373 47µF 20% 250V2315 5322 126 11583 10nF 10% 50V 06032316 4822 121 40518 100nF 10% 250V2318 5322 122 32654 22nF 10% 63V2319 4822 122 30043 10nF 80% 63V2320 2238 586 59812 100nF 20-80% 50V 06032324 5322 121 44356 4.7nF 5% 2kV2325 2238 586 59812 100nF 20-80% 50V 06032330 4822 126 13879 220nF 20% 16V2338 2238 786 19856 330nF 16V 06032409 4822 051 30008 Jumper 06032410 3198 017 44740 470nF 10V 06032411 4822 126 14585 100nF 10% 50V2420 4822 051 30008 Jumper 0603
3300 4822 052 10109 10Ω 5% 0.33W3301 4822 053 12103 10K00 5% 3W3302 4822 051 30681 680Ω 5% 0.062W
Spare Parts ListEN 102 ES1E10.
3303 4822 051 30682 6.8kΩ 5% 0.062W3304 4822 051 10102 1kΩ 2% 0.25W3306 4822 117 13608 4.7Ω 5% 0603 0.62W3307 4822 051 30109 10Ω 5% 0.062W3308 4822 051 30563 56kΩ 5% 0.062W3310 4822 051 10102 1kΩ 2% 0.25W3311 4822 051 30181 180Ω 5% 0.062W3312 4822 051 30222 2.2kΩ 5% 0.062W3316 4822 051 30563 56kΩ 5% 0.062W3318 4822 117 12971 15Ω 5% 0.62W 06033319 4822 051 30102 1kΩ 5% 0.062W3323 4822 050 24708 4.7Ω 1% 0.6W3324 4822 051 30221 220Ω 5% 0.062W3329 4822 050 24708 4.7Ω 1% 0.6W3334 4822 050 11002 1kΩ 1% 0.4W3335 4822 051 30271 270Ω 5% 0.062W3336 4822 051 30271 270Ω 5% 0.062W3337 4822 051 30271 270Ω 5% 0.062W3338 3198 013 01020 1kΩ 2% 0.5W3339 3198 013 01020 1kΩ 2% 0.5W3340 3198 013 01020 1kΩ 2% 0.5W3341 2306 207 03151 150Ω 5% 0.5W3342 4822 116 83883 470Ω 5% 0.5W3345 4822 116 52191 33Ω 5% 0.5W3347 3198 013 01520 1.5kΩ 2% 0.5W3349 3198 013 01020 1kΩ 2% 0.5W3350 4822 116 83883 470Ω 5% 0.5W3351 4822 116 83883 470Ω 5% 0.5W3352 4822 116 83883 470Ω 5% 0.5W3354 4822 051 30222 2.2kΩ 5% 0.062W3355 4822 117 13608 4.7Ω 5% 0603 0.62W3356 4822 051 10102 1kΩ 2% 0.25W3357 4822 117 13608 4.7Ω 5% 0603 0.62W3370 4822 117 13016 VDR 1mA/50V3371 4822 051 30472 4.7kΩ 5% 0.062W3401 4822 116 52175 100Ω 5% 0.5W3403 4822 052 11228 2R20 5% 0,5W3404 4822 052 11228 2R20 5% 0,5W3410 4822 051 30103 10kΩ 5% 0.062W3411 4822 051 30103 10kΩ 5% 0.062W3412 2322 750 61509 15Ω 5% 1206 fusible3413 4822 051 30181 180Ω 5% 0.062W3414 4822 051 30109 10Ω 5% 0.062W3417 4822 051 30109 10Ω 5% 0.062W3418 4822 051 30181 180Ω 5% 0.062W3420 4822 051 30008 Jumper 06033427 4822 051 30008 Jumper 06033999 4822 051 30152 1.5kΩ 5% 0.062W9402 4822 051 20008 Jumper 08059405 4822 051 30008 Jumper 0603
5300 3104 308 20571 Transf. S13974-035400 4822 157 11869 33µH 10%5401 4822 157 71334 0.68µH
6300 4822 130 83757 BAS2166301 4822 051 20008 Jumper 08056305 9340 553 52115 BAS3216306 9340 553 52115 BAS3216307 9340 553 52115 BAS3216310 4822 130 11397 BAS3166311 4822 130 11397 BAS3166312 4822 130 11397 BAS3166313 4822 130 11397 BAS3166314 4822 130 11397 BAS316
7300 5322 130 42718 BFS207301 5322 130 42718 BFS207302 5322 130 62804 BCP537303 5322 130 63033 BCP567304 4822 130 60383 BF8247307 9352 561 40112 TDA61087308 5322 130 60159 BC846B
DC Shift Panel [G]
Various
0317 4822 265 20723 Connector 2p m0318 4822 265 20723 Connector 2p m1430 2422 086 10581 Fuse 400mA 65V8317 3104 311 01421 Cable 2p3/220/2p3 Wh
2430 4822 122 31177 470pF 10% 500V2431 4822 122 31177 470pF 10% 500V
5430 3128 138 38911 DC-shift coil CU15
6432 9340 317 00133 BYD33V6433 9340 317 00133 BYD33V
DAF + 2nd order [I]
Various
0034 3104 304 23041 DAF bracket EMGS1417 4822 265 20723 Connector 2p m1418 2422 025 16374 Connector 2p m1419 4822 265 20723 Connector 2p m1497 4822 267 10973 Connector 1p m8418 3104 311 01951 Cable 2p3/560/2p4 Bk
2800 2222 375 90498 470pF 5% 2kV2821 2222 479 90166 68nF 5% 400V2890 2222 375 90276 220pF 5% 2kV
3898 4822 116 21211 VDR 420V3899 4822 116 21211 VDR 420V
5800 2422 531 02437 Transformer S21975-035801 2422 531 02435 Transformer C948-025801 8228 001 34391 Driver Transformer CU15
Front Interface Panel [J]
Various
0157 3104 311 02421 Cable 5p/480/5p0177 3104 311 03011 Cable 2p/340/2p Bk0201 2422 025 16268 Connector 2p m0202 2422 025 16268 Connector 2p m0203 2422 025 06353 Connector 5p m1910 9322 127 54667 TSOP1836UH11951 2422 128 02972 Mains switch
2930 4822 124 41584 100µF 20% 10V
3957 4822 053 21335 3.3MΩ 5% 0.5W3966 4822 053 21335 3.3MΩ 5% 0.5W3978 4822 051 30008 Jumper 06033981 4822 051 30681 680Ω 5% 0.062W3982 4822 116 52219 330Ω 5% 0.5W4903 4822 051 30008 Jumper 0603
6901 9322 050 99682 LTL-10224WHCR