Color Television Chassis LC4.8L LA ME6 H_16980_000.eps 200207 Contents Page 1. Technical Specifications, Connecti
Views 207 Downloads 12 File size 15MB
Color Television
Chassis
LC4.8L LA
ME6
H_16980_000.eps 200207
Contents
Page
1. Technical Specifications, Connections, and Chassis Overview 2 2. Safety Instructions, Warnings, and Notes 4 3. Directions for Use 5 4. Mechanical Instructions 6 5. Service Modes, Error Codes, and Fault Finding 11 6. Block Diagrams, Test Point Overviews, and Waveforms Wiring Diagram 32” 17 Wiring Diagram 37” & 42” 18 Block Diagram Video 19 Block Diagram Audio & Control 20 Test Point Overview SSB (Top Side) 21 I2C Overview 22 Supply Voltage Overview 23 7. Circuit Diagrams and PWB Layouts Diagram SSB: Tuner and IF (B1) 24 SSB: Hercules (B2) 25 SSB: Sync Interface (B3) 26 SSB: Audio Delay Line (PDP Only) (B4) 27 SSB: Audio Processing (B5) 28 SSB: DC-DC Converter (B6) 29 SSB: Scaler (B7) 30 SSB: Scaler (B8) 31 SSB: Scaler Interface (B9) 32 SSB: SDRAM (B10) 33 SSB: Flash / Control (B11) 34 SSB: MUX-Sync Interface (B13) 36 SSB: Digital I/O (B14) 37 SSB: Top Connectors (B16) 38 SSB: Side Connectors (B17) 39 SSB: ADC (B18) 40 SSB: Columbus (B19) 41 SSB: EPLD (B20) 42
Contents
8. 9. PWB 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54 45-54
10. 11.
Page
SSB: EPLD (B21) 43 SSB: Cinch Analog I/O (B23) 44 Class D Audio Amplifier (32”) (C) 55 Layout Side I/O Panel (32”) (Top Side) (D) 57 Side I/O Panel (37” & 42”) (D) 59 Keyboard Control Board (32”) (E) 61 Keyboard Control Board (37” & 42”) (E) 62 IR/LED Panel (32” & 37”) (J) 63 IR / LED Panel (42”) (J) 64 Standby/Audio Panel (37” & 42”): Conn. (SA1) 65 Standby/Audio Panel (37” & 42”): Standby(SA2) 66 Standby/Audio Panel (37” & 42”): Audio (SA3) 67 Alignments 71 Circuit Descriptions, Abbreviation List, and IC Data Sheets 75 Abbreviation List 81 IC Data Sheets 83 Spare Parts List 87 Diversity Table SSB 87 Revision List 93
45-54 45-54 56 58 60 61 62 63 64 68- 70 68- 70 68- 70
© Copyright 2007 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.
Published by WS 0772 BG CD Customer Service
Printed in the Netherlands
Subject to modification
EN 3122 785 16980
EN 2
1.
Technical Specifications, Connections, and Chassis Overview
LC4.8L LA
1. Technical Specifications, Connections, and Chassis Overview 1.2
Index of this chapter: 1.1 Technical Specifications 1.2 Connection Overview 1.3 Chassis Overview
Connection Overview Note: The following connector color abbreviations are used (acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, and Ye= Yellow.
Notes: • Figures can deviate due to the different set executions. • Specifications are indicative (subject to change).
1.1
Technical Specifications
1.1.1
Vision Display type Screen size Resolution (HxV pixels) Contrast ratio Light output (cd/m2) Response time (ms) Viewing angle (HxV degrees) Tuning system TV Color systems Video playback Supported computer formats
Supported video formats
Presets/channels Tuner bands 1.1.2
LCD, IPS 37” (94 cm), 16:9 42” (107 cm), 16:9 1366 x 768p 800:1 500 8 176x176 PLL PAL N, M NTSC M PAL B/G, D/K, I, M/N NTSC M 640x480 800x600 1024x768 1280x768 640x480i - 1fH 720x576i - 1fH 640x480p - 2fH 720x576p - 2fH 1920x1080i - 2fH 1280x720p - 3fH 125 presets UHF, VHF, S, H
Sound Maximum power (WRMS)
1.1.3
: : : : : : : : : : : : : : : : : : : : : : : : :
U
H_16980_050.eps 200207
Figure 1-1 Rear and side I/O connections 1.2.1
Side I/O connections Mini Jack: Audio Head phone - Out Bk - Head phone 32 - 600 ohm / 10 mW
ot
Cinch: Video CVBS - In, Audio - In Rd - Audio R 0.5 VRMS / 10 kohm Wh - Audio L 0.5 VRMS / 10 kohm Ye - Video CVBS 1 VPP / 75 ohm
jq jq jq
S-Video (Hosiden): Video Y/C - In 1 - Ground Y Gnd 2 - Ground C Gnd 3 - Video Y 1 VPP / 75 ohm 4 - Video C 0.3 VPP / 75 ohm 1.2.2
HDMI: HDMI/PC-D, Digital Video/Audio - In 19 18
: 2 x 15
1 2 E_06532_017.eps 250505
Figure 1-2 HDMI (type A) connector
Power supply: - Mains voltage (VAC) - Mains frequency (Hz)
: 100 - 250 : 50 - 60
Ambient conditions: - Temperature range (°C) - Maximum humidity
: +5 to +40 : 90% R.H.
- Stand-by (W)
H H j j
Rear Connections
Miscellaneous
Power consumption - Normal operation (W)
C
: ≈ 180 (37 inch) : ≈ 230 (42 inch) : 800 VA). • Replace safety components, indicated by the symbol h, 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. Safety regulations require that after a repair, the set must be returned in its original condition. Pay in particular attention to the following points: • Route the wire trees correctly and fix 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. • 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
2.3.2
•
• • • •
• • •
All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD w). 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 the danger of a circuit becoming unstable.
2.3
Notes
2.3.1
General •
Measure the voltages and waveforms with regard to the chassis (= tuner) ground (H), or hot ground (I), depending on the tested area of circuitry. The voltages and waveforms shown in the diagrams are indicative. Measure them in the
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.
BGA (Ball Grid Array) ICs Introduction For 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 “Repair downloads”. Here you will find Information on how to deal with BGA-ICs. BGA Temperature Profiles 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 "Repair downloads". For additional questions please contact your local repair help desk.
Warnings •
Schematic Notes •
2.3.3
Service Default Mode (see chapter 5) with a color 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 (D) and without (E) aerial signal. Measure the voltages in the power supply section both in normal operation (G) and in stand-by (F). These values are indicated by means of the appropriate symbols.
2.3.4
Lead-free Soldering 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 stabilize 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 stabilized 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.
Directions for Use •
2.3.5
LC4.8L LA
MODEL
: 32PF9968/10
Alternative BOM identification PROD.NO: AG 1A0617 000001
Identification: The bottom line of a type plate gives a 14-digit serial number. Digits 1 and 2 refer to the production center (e.g. AG is Bruges), digit 3 refers to the B.O.M. code, digit 4 refers to the Service version change code, digits 5 and 6 refer to the production year, and digits 7 and 8 refer to production week (in
3. Directions for Use You can download this information from the following websites: http://www.philips.com/support http://www.p4c.philips.com
EN 5
example below it is 2006 week 17). The 6 last digits contain the serial number.
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 clear the solder-joint from old tin and re-solder with new tin.
The third digit in the serial number (example: AG2B0335000001) indicates the number of the alternative B.O.M. (Bill Of Materials) that has been used for producing the specific TV set. In general, it is possible that the same TV model on the market is produced with e.g. two different types of displays, coming from two different suppliers. This will then result in sets which have the same CTN (Commercial Type Number; e.g. 28PW9515/12) but which have a different B.O.M. number. By looking at the third digit of the serial number, one can identify which B.O.M. is used for the TV set he is working with. If the third digit of the serial number contains the number “1” (example: AG1B033500001), then the TV set has been manufactured according to B.O.M. number 1. If the third digit is a “2” (example: AG2B0335000001), then the set has been produced according to B.O.M. no. 2. This is important for ordering the correct spare parts! For the third digit, the numbers 1...9 and the characters A...Z can be used, so in total: 9 plus 26= 35 different B.O.M.s can be indicated by the third digit of the serial number.
3.
MADE IN BELGIUM 220-240V ~ 50/60Hz 128W VHF+S+H+UHF
S
BJ3.0E LA E_06532_024.eps 130606
Figure 2-1 Serial number (example) 2.3.6
Board Level Repair (BLR) or Component Level Repair (CLR) If a board is defective, consult your repair procedure to decide if the board has to be exchanged or if it should be repaired on component level. If your repair procedure says the board should be exchanged completely, do not solder on the defective board. Otherwise, it cannot be returned to the O.E.M. supplier for back charging!
2.3.7
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.
EN 6
4.
LC4.8L LA
Mechanical Instructions
4. Mechanical Instructions Index of this chapter: 4.1 Cable Dressing 4.2 Service Positions 4.3 Assy/Panel Removal 4.4 Set Re-assembly
4.1
Notes: • Figures below can deviate slightly from the actual situation, due to the different set executions. • Follow the disassembling instructions in described order.
Cable Dressing
H_16980_051.eps 200207
Figure 4-1 Cable dressing (37” model)
H_16980_055.eps 200207
Figure 4-2 Cable dressing (42” model)
Mechanical Instructions 4.2
4.2.1
LC4.8L LA
Service Positions
4.3
Assy/Panel Removal
For easy servicing of this set, there are a few possibilities created: • The buffers from the packaging (see figure "Rear cover"). • Foam bars (created for Service). • Aluminium service stands (created for Service).
4.3.1
Rear Cover
EN 7
Warning: Disconnect the mains power cord before you remove the rear cover. 1. Remove the screws that secure the rear cover (see next figure “Rear cover screws”): a) T20 “Mushrooms” [1] for securing the stand/wall mount; b) T10 torx screws [2] near the rear I/O panel; c) T10 torx screws [3] that secure the loudspeaker compartments (6 of these screws are in sunken holes [4]) and along the edges of the rear cover. 2. Lift the rear cover from the cabinet cautiously. Make sure that wires and other internal components are not damaged during cover removal.
Foam Bars
1
1
4.
Required for sets 42”
3
3 3 4
3
4
1
3
2 3
3 4
E_06532_018.eps 171106
3
4
3
Figure 4-3 Foam bars F_15420_034.eps 070605
The foam bars (order code 3122 785 90580 for two pieces) can be used for all types and sizes of Flat TVs. See figure “Foam bars” for details. Sets with a display of 42” and larger, require four foam bars [1]. Caution: Ensure that the foam bars are always supporting the cabinet and never only the display. Failure to follow these guidelines can seriously damage the display! By laying the TV face down on the (ESD protective) foam bars, a stable situation is created to perform measurements and alignments. By placing a mirror under the TV, you can monitor the screen. 4.2.2
Aluminium Stands
Figure 4-5 Rear cover screws (photo from 37” model) 4.3.2
Side I/O Panel 1. Refer to next fig. “Side I/O panel“. 2. Disconnect the cable [1] from the panel. 3. Remove the fixation screw [2] and slide the whole assy to the right (there are fixations brackets at the under side). 4. To remove the PWB from its bracket, you have to lift the catch located on top of the headphone connector and slide the PWB from its bracket. When defective, replace the whole unit.
1 2
E_06532_019.eps 170504
Figure 4-4 Aluminium stands (drawing of MkI) The new MkII aluminium stands (not on drawing) with order code 3122 785 90690, can also be used to do measurements, alignments, and duration tests. The stands can be (dis)mounted quick and easy by means of sliding them in/out the "mushrooms". The new stands are backwards compatible with the earlier models. Important: For (older) FTV sets without these "mushrooms", it is obligatory to use the provided screws, otherwise it is possible to damage the monitor inside!
H_16980_056.eps 210207
Figure 4-6 Side I/O panel (photo from 37” model)
EN 8 4.3.3
4.
LC4.8L LA
Mechanical Instructions 4.3.6
IR/LED Panel
Audio Amplifier Panel 1. 2. 3. 4. 5.
1. Refer to next fig. “IR/LED panel“. 2. Release clip [1] and remove the board. 3. Unplug connector(s). When defective, replace the whole unit.
Remove the rear cover, as described earlier. Refer to next fig. “Audio amplifier panel“. Disconnect all cables from the panel. Remove the fixation screws [1] from the panel. Take the panel out (mind the fixation brackets at the bottom side).
1 1
H_16980_049.eps 200207
Figure 4-7 IR/LED panel (photo from 37” model) 4.3.4
Keyboard Control Panel 1. Remove the three screws that hold the assy. 2. Disconnect the cable from the panel. When defective, replace the whole unit.
4.3.5
Power Supply Panel 1. 2. 3. 4.
Refer to next fig. “Power supply panel“. Disconnect all cables from the panel. Remove the fixation screws [1] from the panel. Take the panel out (mind the fixation brackets at the right side).
1
H_16980_048.eps 200207
Figure 4-8 Power supply panel (photo from 37” model)
H_16980_047.eps 200207
Figure 4-9 Audio amplifier panel (photo from 37” model)
Mechanical Instructions 4.3.7
Small Signal Board (SSB) Note: Depending on the model number, some models come with a shielding around the SSB, others do not. Please refer to the appropriate paragraph below. SSB Shielding removal (when present) 1. Refer to next fig. “SSB Shielding“. 2. Cautiously disconnect the LVDS cable [1] from the SSB. 3. Remove all other cables [2] from the SSB. 4. Remove the fixation screws [3] and remove the SSB shielding with the SSB board inside and the rear connector plate still attached to it. 5. Refer to fig. “Rear connector plate“ below. 6. Remove the connector fixation screws [3] from the connector plate and remove the metal connector plate from the SSB board. 7. Remove the upper part of the shielding from the SSB panel, by unhooking it from its brackets. Be careful not to damage the LVDS connector on the SSB board.
LC4.8L LA
4.
EN 9
SSB removal (if no shielding present) 1. Refer to earlier fig. “Rear connector plate“. 2. Remove the connector fixation screws [3] from the connector plate and remove the metal connector plate from the SSB board. 3. Refer to next fig. “Small Signal Board“. 4. Cautiously disconnect the cables [2] from the SSB. 5. Remove the fixation screws [1]. 6. Remove the SSB panel.
2
2
2
1 2
3 1
2 H_16980_046.eps 200207
3 Figure 4-12 Small Signal Board
F_15420_038.eps 070605
Figure 4-10 SSB shielding
3
3 F_15270_075.eps 260505
Figure 4-11 Rear connector plate
EN 10 4.3.8
4.
Mechanical Instructions
LC4.8L LA
LCD Panel
1 3
4 3 4 3 2
1
H_16980_045.eps 200207
Figure 4-13 LCD panel fixation (37” model) To remove the LCD-panel, carry out the following steps: 1. Refer to fig. “LCD panel fixation“. 2. Disconnect the cables from the “L” and the “R” loudspeakers and remove them from their cable clamps. 3. Important: Unplug the LVDS connector [3] on the LCD panel. Be careful, as this is a very fragile connector! 4. Release the Side I/O assy, the IR/LED panel, and the Keyboard Control assy from the front cabinet. 5. Remove the T10 torx screws [1] from the LCD panel. 6. Remove the T20 torx screws [2] from the LCD panel. 7. Unplug the two LCD Inverter cables [4]. For easy access, it might be necessary to remove the two metal brackets that cover these connectors. 8. Lift the metal frame (together with all PWBs) from the cabinet. Important: Take care that the LVDS cable [4] is unplugged at the LCD panel. 9. After removal of the metal frame, you can lift the LCD panel [1] from the TV (see next figure “LCD panel removal”).
F_15420_047.eps 210705
Figure 4-14 LCD panel removal
4.4
Set Re-assembly To re-assemble the whole set, execute all processes in reverse order. Notes: • While re-assembling, make sure that all cables are placed and connected in their original positions. See Figure "Cable dressing". Be careful with the fragile LVDS cable.
Service Modes, Error Codes, and Fault Finding
LC4.8L LA
5.
EN 11
5. Service Modes, Error Codes, and Fault Finding – –
Index of this chapter: 5.1 Test Points 5.2 Service Modes 5.3 Service Tools 5.4 Error Codes 5.5 The Blinking LED Procedure 5.6 Fault Finding and Repair Tips
5.1
– – – –
Test Points In the chassis schematics and layout overviews, the test points (Fxxx) are mentioned. In the schematics, test points are indicated with a rectangular box around “Fxxx” or “Ixxx”, in the layout overviews with a “half-moon” sign. As most signals are digital, it will be difficult to measure waveforms with a standard oscilloscope. Several key ICs are capable of generating test patterns, which can be controlled via ComPair. In this way it is possible to determine which part is defective. Perform measurements under the following conditions: • Service Default Mode. • Video: Color bar signal. • Audio: 3 kHz left, 1 kHz right.
5.2
Hotel / hospital mode. Auto shut off (when no “IDENT” video signal is received for 15 minutes). Skipping of non-favorite presets / channels. Auto-storage of personal presets. Auto user menu time-out. Auto Volume Levelling (AVL).
How to Enter To enter SDM, use one of the following methods: • Press the following key sequence on the remote control transmitter: “062596” directly followed by the MENU button (do not allow the display to time out between entries while keying the sequence). • Short "Service" jumpers on the TV board during cold start and apply mains (see Figure "Service jumpers"). Then press the mains button (remove the short after start-up). Caution: Entering SDM by shorting "Service" jumpers will override the +8V-protection. Do this only for a short period. When doing this, the service-technician must know exactly what he is doing, as it could damage the television set. • Or via ComPair.
Service Modes Service Default mode (SDM) and Service Alignment Mode (SAM) offers several features for the service technician, while the Customer Service Mode (CSM) is used for communication between the call centre and the customer.
1
This chassis also offers the option of using ComPair, a hardware interface between a computer and the TV chassis. It offers the possibilities of structured troubleshooting, error code reading, and software version readout for all chassis. Minimum requirements for ComPair: a Pentium processor, a Windows OS, and a CD-ROM drive (see also paragraph "ComPair"). 5.2.1
Service Default Mode (SDM)
F_15270_053.eps 180505
Figure 5-1 Service jumpers
Purpose • To create a predefined setting for measurements to be made. • To override software protections. • To start the blinking LED procedure. • To inspect the error buffer. • To check the life timer.
After entering SDM, the following screen is visible, with SDM in the upper right corner of the screen to indicate that the television is in Service Default Mode. See next paragraph “Service Alignment Mode (SAM)” for an explanation.
LLLLL AAAABCD X.YY/EEEEEE F.GG ERR 0 0 0 0 0
Specifications
SDM
OP 000 057 140 032 120 128 000 Table 5-1 SDM default settings Region
Freq. (MHz)
Default syst.
Europe (except France), AP-PAL/-Multi
475.25
PAL B/G
France NAFTA, AP-NTSC LATAM • • •
SECAM L 61.25 (channel 3) NTSC M PAL M
All picture settings at 50% (brightness, color contrast, hue). Bass, treble, and balance at 50%; volume at 25%. All service-unfriendly modes (if present) are disabled. The service unfriendly modes are: – Timer / Sleep timer. – Child / parental lock. – Blue mute.
F_15420_029.eps 070220
Figure 5-2 SDM menu
EN 12
5.
Service Modes, Error Codes, and Fault Finding
LC4.8L LA
How to Navigate Use one of the following methods: • When you press the MENU button on the remote control, the set will switch on the normal user menu in the SDM mode. • On the TV, press and hold the VOLUME DOWN and press the CHANNEL DOWN for a few seconds, to switch from SDM to SAM and reverse. How to Exit Switch the set to STANDBY by pressing the mains button on the remote control transmitter or the television set. If you turn the television set off by removing the mains (i.e., unplugging the television) without using the mains button, the television set will remain in SDM when mains is re-applied, and the error buffer is not cleared. 5.2.2
Service Alignment Mode (SAM) Purpose • To change option settings. • To display / clear the error code buffer. • To perform alignments. Specifications • Operation hours counter (maximum five digits displayed). • Software version, Error codes, and Option settings display. • Error buffer clearing. • Option settings. • AKB switching. • Software alignments (Tuner, White Tone, Geometry & Audio). • NVM Editor. • ComPair Mode switching. How to Enter To activate SAM, use one of the following methods: • Press the following key sequence on the remote control transmitter: “062596" directly followed by the OSD/ STATUS/INFO(I+) button (do not allow the display to time out between entries while keying the sequence). • Or via ComPair. After entering SAM, the following screen is visible, with SAM in the upper right corner of the screen to indicate that the television is in Service Alignment Mode.
LLLLL AAAABCD X.YY/EEEEEE F.GG ERR 0 0 0 0 0 OP xxx xxx xxx xxx xxx xxx xxx
. Clear . Options . Tuner . White Tone . Audio . NVM Editor . SC NVM Editor
Clear ?
. ComPair Mode
Off
SAM
F_15420_030.eps 070220
Figure 5-3 SAM menu
Menu Explanation 1. LLLLL (e.g. 00035). This represents the run timer. The run timer counts normal operation hours, but does not count standby hours. 2. AAAABCD-X.YY (e.g. LC4XEF1-1.15). This is the software identification of the main microprocessor: – A= the project name (LC04.x). – B= the region: E= Europe, A= Asia Pacific, U= NAFTA, L= LATAM. – C= the software diversity: • Europe: T= 1 page TXT, F= Full TXT, V= Voice control. • LATAM and NAFTA: N= Stereo non-dBx, S= Stereo dBx. • Asian Pacific: T= TXT, N= non-TXT, C= NTSC. • ALL regions: M= mono, D= DVD, Q= Mk2. – D= the language cluster number. – X= the main software version number (updated with a major change that is incompatible with previous versions). – Y= the sub software version number (updated with a minor change that is compatible with previous versions). 3. EEEEEE-F.GG (e.g. S4XPVX-1.23). This is the software identification of the Scaler: – EEEEEE= the scaler sw cluster – F= the main sw version no. – GG= the sub-version no. 4. SAM. Indication of the Service Alignment Mode. 5. Error Buffer (ERR). Shows all errors detected since the last time the buffer was erased. Five errors possible. 6. Option Bytes (OP). Used to set the option bytes. See “Options” in the Alignments section for a detailed description. Seven codes are possible. 7. Clear. Erases the contents of the error buffer. Select the CLEAR menu item and press the MENU RIGHT key. The content of the error buffer is cleared. 8. Options. Used to set the option bits. See “Options” in the Alignments section for a detailed description. 9. Tuner. Used to align the tuner. See “Tuner” in the Alignments section for a detailed description. 10. White Tone. Used to align the white tone. See “White Tone” in the Alignments section for a detailed description. 11. Audio. No audio alignment is necessary for this television set. 12. NVM Editor. Can be used to change the NVM data in the television set. See table “NVM data” further on. 13. SC NVM Editor. Can be used to edit Scaler NVM. 14. ComPaIr. Can be used to switch on the television to In System Programming (ISP) mode, for software uploading via ComPair. Caution: When this mode is selected without ComPair connected, the TV will be blocked. Remove the AC power to reset the TV. How to Navigate • In SAM, select menu items with the MENU UP/DOWN keys on the remote control transmitter. The selected item will be highlighted. When not all menu items fit on the screen, use the MENU UP/DOWN keys to display the next / previous menu items. • With the MENU LEFT/RIGHT keys, it is possible to: – Activate the selected menu item. – Change the value of the selected menu item. – Activate the selected submenu. • In SAM, when you press the MENU button twice, the set will switch to the normal user menus (with the SAM mode still active in the background). To return to the SAM menu press the MENU or STATUS/EXIT button. • When you press the MENU key in while in a submenu, you will return to the previous menu.
Service Modes, Error Codes, and Fault Finding
5.2.3
Customer Service Mode (CSM) Purpose The Customer Service Mode shows error codes and information on the TV’s operation settings. The call centre can instruct the customer (by telephone) to enter CSM in order to identify the status of the set. This helps the call centre to diagnose problems and failures in the TV set before making a service call. The CSM is a read-only mode; therefore, modifications are not possible in this mode. How to Enter To enter CSM, press the following key sequence on the remote control transmitter: “123654” (do not allow the display to time out between entries while keying the sequence). Upon entering the Customer Service Mode, the following screen will appear (example):
1 00035
LC4XET1 1.15/S4XPVX 1.23
CSM
2 CODES 0 0 0 0 0 3 OP xxx xxx xxx xxx xxx xxx xxx
5.
EN 13
How to Exit To exit CSM, use one of the following methods: • Press the MENU, STATUS/EXIT, or POWER button on the remote control transmitter. • Press the POWER button on the television set.
How to Store SAM Settings To store the settings changed in SAM mode, leave the top level SAM menu by using the POWER button on the remote control transmitter or the television set. How to Exit Switch the set to STANDBY by pressing the mains button on the remote control transmitter or the television set. If you turn the television set “off” by removing the mains (i.e., unplugging the television) without using the mains button, the television set will remain in SAM when mains is re-applied, and the error buffer is not cleared.
LC4.8L LA
5.3
Service Tools
5.3.1
ComPair Introduction ComPair (Computer Aided Repair) is a Service tool for Philips Consumer Electronics products. and offers the following: 1. ComPair helps you to quickly get an understanding on how to repair the chassis in a short and effective way. 2. ComPair allows very detailed diagnostics and is therefore capable of accurately indicating problem areas. You do not have to know anything about I2C or UART commands yourself, because ComPair takes care of this. 3. ComPair speeds up the repair time since it can automatically communicate with the chassis (when the uP is working) and all repair information is directly available. 4. ComPair features TV software upload possibilities. Specifications ComPair consists of a Windows based fault finding program and an interface box between PC and the (defective) product. The (new) ComPair II interface box is connected to the PC via an USB cable. For the TV chassis, the ComPair interface box and the TV communicate via a bi-directional cable via the service connector(s). The ComPair fault finding program is able to determine the problem of the defective television, by a combination of automatic diagnostics and an interactive question/answer procedure. How to Connect This is described in the chassis fault finding database in ComPair.
4 xxPFxxxx/xx 5 xxxx 6 NOT TUNED
TO TV
7 PAL TO I2C SERVICE CONNECTOR
8 Stereo 9 CO 50 0 AVL Off
CL 50
OR
TO UART SERVICE CONNECTOR
BR 50 ComPair II RC in
RC out
Multi function
Optional Power Link/ Mode Switch Activity
I2C
RS232 /UART
E_15420_031.eps 070220
PC
Figure 5-4 CSM menu (example) Menu Explanation 1. Indication of the decimal value of the operation hours counter, Software identification of the main microprocessor (see "Service Default or Alignment Mode" for an explanation), and the service mode (CSM = Customer Service Mode). 2. Displays the last five errors detected in the error code buffer. 3. Displays the option bytes. 4. Displays the type number version of the set. 5. Reserved item for P3C call centres (AKBS stands for Advanced Knowledge Base System). 6. Indicates the television is receiving an "IDENT" signal on the selected source. If no "IDENT" signal is detected, the display will read "NOT TUNED" 7. Displays the detected Color system (e.g. PAL/NTSC). 8. Displays the detected Audio (e.g. stereo/mono). 9. Displays the picture setting information. 10. Displays the sound setting information.
ComPair II Developed by Philips Brugge
HDMI I2C only
Optional power 5V DC
G_06532_036.eps 260107
Figure 5-5 ComPair II interface connection Caution: It is compulsory to connect the TV to the PC as shown in the picture above (with the ComPair interface in between), as the ComPair interface acts as a level shifter. If one connects the TV directly to the PC (via UART), ICs will be blown!
EN 14
5.
LC4.8L LA
Service Modes, Error Codes, and Fault Finding
How to Order ComPair II order codes: • ComPair II interface: 3122 785 91020. • ComPair32 CD (update): 3122 785 60160. • ComPair interface cable: 3122 785 90004. • ComPair interface extension cable: 3139 131 03791. • ComPair UART interface cable: 3122 785 90630. Note: If you encounter any problems, contact your local support desk 5.3.2
5.4
The error code buffer contains all errors detected since the last time the buffer was erased. The buffer is written from left to right. When an error occurs that is not yet in the error code buffer, it is displayed at the left side and all other errors shift one position to the right. 5.4.1
Introduction This Service tool (also called “ComPair Assistant 1“) may help you to identify, in case the TV does not show any picture, whether the Small Signal Board (SSB) or the display of a Flat TV is defective. Thus to determine if LVDS, RGB, and sync signals are okay.
How to Connect Connections are explained in the user manual, which is packed with the tool. Note: To use the LVDS tool, you must have ComPair release 2004-1 (or later) on your PC (engine version >= 2.2.05). For every TV type number and screen size, one must choose the proper settings via ComPair. The ComPair file will be updated regularly with new introduced chassis information. How to Order • LVDS tool (incl. two LVDS cables: 31p and 20p): 3122 785 90671. • LVDS tool Service Manual: 3122 785 00810. • LVDS cable 31p/FI -> 31p/FI (standard with tool): 3122 785 90662.
How to Read the Error Buffer You can read the error buffer in 3 ways: • On screen via the SAM (if you have a picture). Examples: – ERROR: 0 0 0 0 0 : No errors detected – ERROR: 6 0 0 0 0 : Error code 6 is the last and only detected error – ERROR: 9 6 0 0 0 : Error code 6 was detected first and error code 9 is the last detected (newest) error • Via the blinking LED procedure (when you have no picture). See “The Blinking LED Procedure”. • Via ComPair.
LVDS Tool
When operating, the tool will show a small (scaled) picture on a VGA monitor. Due to a limited memory capacity, it is not possible to increase the size when processing high-resolution LVDS signals (> 1280x960). Below this resolution, or when a DVI monitor is used, the displayed picture will be full size.
Error Codes
5.4.2
How to Clear the Error Buffer The error code buffer is cleared in the following cases: • By using the CLEAR command in the SAM menu: – To activate SAM, press the following key sequence on the remote control transmitter: “062596” directly followed by the OSD/STATUS button (do not allow the display to time out between entries while keying the sequence). – Make sure the menu item CLEAR is highlighted. Use the MENU UP/DOWN buttons, if necessary. – Press the MENU RIGHT button to clear the error buffer. The text on the right side of the “CLEAR” line will change from “CLEAR?” to “CLEARED” • If the contents of the error buffer have not changed for 50 hours, the error buffer resets automatically. Note: If you exit SAM by disconnecting the mains from the television set, the error buffer is not reset.
Service Modes, Error Codes, and Fault Finding 5.4.3
5.5
Error Codes In case of non-intermittent faults, write down the errors present in the error buffer and clear the error buffer before you begin the repair. This ensures that old error codes are no longer present. If possible, check the entire contents of the error buffer. In some situations, an error code is only the result of another error and not the actual cause of the problem (for example, a fault in the protection detection circuitry can also lead to a protection).
Device
Error Description
Check Item
Diagram
0
-
No error
-
-
1
-
Mismatch of Hercules and Scaler SW
-
-
4
Genesis Scaler I2C error while communicating with Flash-ROM the Genesis Scaler and/or Flash-ROM is faulty/empty
7801
B7 + B8
7C00
B11 B6
5
Scaler supply
+5V protection
7752
6
-
General I2C error
1102, 7L04, 7M00 B1 + B18 + B19
7
ADC
I2C error
7L04
B18
8
Scaler NVM
I2C error while communicating with the Scaler NVM
7C01
B11
9
Hercules NVM
7207 I2C error while communicating with the Hercules NVM. Remark: when the Hercules NVM is defective, the Hercules should operate with its default values.
10
Tuner
I2C error while communicating with the PLL tuner
1102, F102, F104, B1 F107
11
Columbus
I2C
error while communicating with the 2D/3D combfilter Columbus
7M00
B19
13
HDMI Receiver I2C error while (when present) communicating with the iBoard HDMI Panellink Receiver/ Decoder (only in NAFTA and AP sets)
7D03
B12
14
Scaler SDRAM
Read-write error with the Scaler SDRAM
7B01
B10
16
EPLD
I2C
error while communicating with EPLD
7N02
B20 + B21
17
Digital Module (only on Digital sets)
I2C error while communicating with the Digital Module
Digital Module
5.
EN 15
The Blinking LED Procedure Using this procedure, you can make the contents of the error buffer visible via the front LED. This is especially useful when there is no picture. When the SDM is entered, the front LED will blink the contents of the error-buffer: • The LED blinks with as many pulses as the error code number, followed by a time period of 1.5 seconds, in which the LED is “off”. • Then this sequence is repeated.
Table 5-2 Error code overview Error
LC4.8L LA
Any RC command terminates this sequence. Example of error buffer: 12 9 6 0 0 After entering SDM, the following occurs: • 1 long blink of 5 seconds to start the sequence, • 12 short blinks followed by a pause of 1.5 seconds, • 9 short blinks followed by a pause of 1.5 seconds, • 6 short blinks followed by a pause of 1.5 seconds, • 1 long blink of 1.5 seconds to finish the sequence, • The sequence starts again with 12 short blinks.
5.6
Fault Finding and Repair Tips Notes: • It is assumed that the components are mounted correctly with correct values and no bad solder joints. • Before any fault finding actions, check if the correct options are set.
B2
5.6.1
NVM Editor In some cases, it can be convenient if one directly can change the NVM contents. This can be done with the “NVM Editor” in SAM mode. With this option, single bytes can be changed. Caution: • Do not change the NVM settings without understanding the function of each setting, because incorrect NVM settings may seriously hamper the correct functioning of the TV set! • Always write down the existing NVM settings, before changing the settings. This will enable you to return to the original settings, if the new settings turn out to be incorrect. Table 5-3 NVM editor overview (example) Hex
Dec
0x0000
0
.VAL
0x0000
0
.Store
Store?
.ADR
EN 16 5.6.2
5.
LC4.8L LA
Service Modes, Error Codes, and Fault Finding No Picture Display (blank screen with correct sound output) 1. Check whether the user menu is visible. 2. If the user menu is OK, activate Teletext mode. 3. If teletext is OK, the problem is in the ADC (B18) & Columbus 3D combfilter (B19), if present (depending on model, see also paragraph “Teletext Path” in chapter 9). 4. If the user menu is not visible, check if the LCD panel backlight is ON. 5. If the backlight is OFF, the problem is in the power supply board or LCD panel. Also check pin 12 (LAMP_ON_OFF) of 1J02. It should be HIGH during normal operation.
Load Default NVM Values It is possible to download default values automatically into the NVM in case a blank NVM is placed or when the NVM first 20 address contents are "FF". After the default values are downloaded, it is possible to start-up and to start aligning the TV set. To initiate a forced default download the following action has to be performed: 1. Switch “off” the TV set with the mains cord disconnected from the wall outlet (it does not matter if this is from "Standby" or "Off" situation). 2. Short-circuit the SDM jumpers on the SSB (keep short circuited). 3. Press “P+” or “CH+” on the local keyboard (and keep it pressed). 4. Reconnect the mains supply to the wall outlet. 5. Release the “P+” or “CH+” when the set is “on” or blue LED is blinking. When the downloading has completed successfully, the set should be into Standby, i.e. red LED on.
Note: For faultfinding purposes, it is important to know the following: in Pixel Plus and Digital Crystal Clear models, which have an ADC (B18) and Columbus 3D combfilter (B19), the digital input of the Scaler is used for the digital video path (Hercules output), whereas the analogue RGB input (analogue input of the scaler) is only used for Teletext. This means that no mixed mode (video plus Teletext simultaneously) is possible. If there is sound and Teletext, but no video and user menu (blank screen), the digital path (Hercules - ADC - Columbus - Scaler) is faulty. If there is sound but no Teletext, the back-end part (Scaler - LCD panel) is faulty. In Crystal Clear models, which do not have an ADC and Columbus, the RGB path (analogue input of scaler) is used for both video and teletext.
Alternative method (1): 1. Go to SAM. 2. Select NVM Editor. 3. Set ADR (address) to 0001 (dec, 4 digit). 4. Change the VAL (value) to 170 (dec, 3 digit). 5. Store the value (via CURSOR RIGHT). 6. Do a “hard reset” to make sure new default values took place. Alternative method (2): It is also possible to upload the default values to the NVM with ComPair in case the SW is changed, the NVM is replaced with a new (empty) one, or when the NVM content is corrupted. After replacing an NVM (or with a defective/no NVM), default settings should be used to enable the set to start-up and allow the Service Default Mode and Service Alignment Mode to be accessed. 5.6.3
Tuner and IF No Picture in RF Mode, but there is a Noise Raster 1. Check whether picture is present in AV. If not, go to Video processing troubleshooting section. 2. If picture is present, check if the Option settings are correct. 3. If correct, check if all the supply voltages are present (3.3/ 5/8/12/33 V). 4. Check if the I2C lines are working correctly (3.3 V). 5. Manually store a known channel and check if there is IF output at Tuner pin 11. 6. Check the tuning DC voltage at pin 2 of the Tuner. The DC voltage should vary according to the frequency/channel being chosen. 7. If the tuning voltage is OK, check the tuner output, pin 11. 8. If it has no output, the Tuner may have a defect. Change the Tuner. Required System is not Selected Correctly Check whether a Service jumper (#4204 and 4205, 0805 size) is present (diagram B2, location C9). If yes, remove it.
5.6.4
Video Processing No Power 1. Check +12 V and 3V3 at position 1J02. 2. If no supply, check the connector 1J02. 3. If it is correct, check the Power Supply board. Power Supply is Correct, but no Green LED 1. Check if the connectors 1K00 are properly inserted. 2. If they are inserted correctly, check if the 3V3 is present.
No TV, but PC is Present 1. Check if Hsync_SDTV and Vsync_SDTV are present at pin 1 & pin13 of 7E03. 2. If they are present, check Teletext output. 3. If there is no Teletext output, the IC TDA150xx may be defect. 5.6.5
Power Supply In case the power supply does not work, check (apart from the obvious fuse-check) if the oscillators in IC7001 (in TV sets with 37 inch screens) or in IC7001 and IC7U01 (in TV sets with 42 inch screens) are working. If not, replace the ICs.
Block Diagrams, Test Point Overviews, and Waveforms
LC4.8L LA
6.
17
6. Block Diagrams, Test Point Overviews, and Waveforms Wiring Diagram 32”
WIRING 32” LCD (STYLING ME6)
LCD PANEL
8903
8J02
CLASS D AUDIO AMPLIFIER 8P06
CN01 14P
30P 1P06
1002 9P 8J03
INVERTER
12P 1J02
10P 1J00
LEFT SPEAKER
3P 1J03
INVERTER
9P 1J04
B SSB
8520
SIDE AV
TUNER
12P 1304
X002 2P3
1K02 3P
1K01 12P
D
8K01
E KEYBOARD CONTROL
LCD SUPPLY
4P 1001
12P CN04
8520
RIGHT SPEAKER
1003 3P
C
1K00 6P
14P X521
LVDS 30P
8J04
X200 12P
12P X530
8903
1684 3P
8002
8684
8187
AC INLET
6P 1870
8870
J
LED SWITCH PANEL
H_16980_057.eps 210207
Block Diagrams, Test Point Overviews, and Waveforms
LC4.8L LA
6.
18
Wiring Diagram 37” & 42”
WIRING 37”- 42” LCD (STYLING ME6)
LCD PANEL 8302 8408 8736
3P 1736
8735
3P 1735
SA AUDIO
LVDS
1739 9P
7P 1M02
TO DISPLAY
11P X407
RIGHT SPEAKER
12P X403
14P X404
LEFT SPEAKER 8403
7P X410
10P X406
8406
LCD SUPPLY
8407
12P
8P07 8M01 10P 1J00
3P 1J03
9P 1J04
1K04 11P
D
SIDE AV
1K02 3P
E KEYBOARD CONTROL
B SSB
1M01 3P
INVERTER
TUNER X101 2P3 8M36 6P 1870
8870 8001
11P 1J01
AC INLET
J
LED SWITCH PANEL
8187
30P 1P07
1K00 6P
INVERTER
11P 1M36
14P
8739
H_16980_058.eps 210207
Block Diagrams, Test Point Overviews, and Waveforms
LC4.8L LA
6.
19
Block Diagram Video VIDEO
11 IF-TER
2106
2
TUNER
1104
3
7
VIF1
24
8
VIF2
25
Sound Traps
CVBS1
45MHZ75 5
1
HERCULES RF_AGC
AC
31 DC
SDA
SCL
3104
Video Switch + Control c
AGC Detect
R_OSD
4
Skin Tone U/V Tint Saturation
SAT
QSS/FM
29
QSS Mixer AM Demod. AM
30
RO
85
GO
86
BO
87
SOG
SC1_R_CVI_Pr_IN
25
17 R_PR-ADC
R_PR+
D2
SC1_G_CVI_Y_IN
1
14 G_Y-ADC
G_Y+
C2
SC1_B_CVI_Pb_IN
5
11 B_PB-ADC
B_PB+
B2
7C00 MX29LV040CQC OCMDATA EXTERNAL ROM INTERFACE
B13
FLASH ROM 512Kx8
OCMADDR
B3
SCL_IO
6
SDA_IO
5
NVM_WP_SCALER
7
9
7E02 BINA|Pb
SCALER
12
11
B22
B23 CINCH ANALOGUE IO
13
15
VSYNC
3
4
CVBS_COMB
4R64
9
52 SC2_Y_IN_1
SC2_CVBS_MON_OUT
4R12
51
58
Uint
PAL/NTSC/ SECAM Decoder & Baseband Delay
15
14
RINA|Pr
1
2
Vsync_SDTV
1
V_PC
2
15
5
8 AVSYNC
L3
H_PC
12
14
1
4 AHSYNC
L4
Hsync_SDTV
13
B13 B22
7436-1 HOUT
HOUT
67
1
3
Hsync_SDTV
B13
B3
SD_HD_SEL
10,11
4R70
95
78
79
80
74
75
76
70
71
72
B18 ADC B13
INTF_V_OUT
7L02 EF
INTF_Y_OUT
43
COLUMBUS DIGITAL COMB FILTER
COL_YA(1-8)
48
TXB0-
4N03
TXB0+
4N01
LVDSAn LVDSAp
AE15 AF15
TXB1TXB1+
4N07 4N05
LVDSBn LVDSBp
AE14
TXB2-
4N11
AF14
TXB2+
4N09
LVDSCn LVDSCp
AF12 AF11
TXB3TXB3+
4N15 4N13
LVDSDn
AF13 AE12
TXBCTXBC+
4N19
LVDSCLKn
4N17
LVDSCLKp
SDA
FRONT_YCVBS_IN
2
2
FRONT_YCVBS_IN
B23
FRONT_C_IN
4
4
FRONT_C_IN
B23
56 57 7M01 MSM56V16
B22 DIGITAL IO
B23
SC1_CV1_DMMI_R_Pr_IN
13
B23 B23
SC1_CV1_DMMI_G_Y_IN
1
SC1_CV1_DMMI_B_Pb_IN
3
RINA|Pr GINA|YINA
12 2
BINA|Pb
5
14
1Q01
10
5Q01 5Q06
3
5
15
1 2 13 1
6 11
12 15
5Q11
RINA|Pr H_PC
5Q23
V_PC
5Q21
14
B13
BINA|Pb GINA|YINA
B13 B13 B13 B13
1P05
LVDSDLVDSD+
1P01
LVDSCLKLVDSCLK+
19 18 20 27 26 28 22 21 23
7P02 THC63LVDM83R LVDSAn LVDSAp
TXB0+ TXB0TXB1TXB2+ TXB2-
LVDS INTERFACE RECEIVER
UART INTERFACE
LVDSCp LVDSDn LVDSDp LVDSCLKn LVDSCLKp
7N02 EP1C12F256C8N
B7
LVDSBn LVDSBp LVDSCn
TXBC-
B13 B13 B13
LVDS TRANSMITTER
TXB3+ TXB3TXBC+
SC1_R_CVI_Pr_IN
7E05
VGA CONNECTOR
14 13 15
32” SETS
TXB1+
RGB|CVI_HDA_SEL
SDA_VGA SCL_VGA
LVDSBLVDSB+ LVDSCLVDSC+
LVDSDp
7N04 THC63LVDF84B
15 SC1_G_CVI_Y_IN SC1_B_CVI_Pb_IN 4
9
10 12
OR
7E00
( ) ONLY FOR 32”
1P04
LVDSALVDSA+
COL_YB(1-8)
4
EPLD PIXEL+ PROCESSOR
Only for sets with PIXEL PLUS
H_HDMI
5
8 HDMI_VHS
C14
V_HDMI
1
4 HDMI_VVS
B14
B12 HDMI 7D03 SII9993CTG100
1Q03 1
RX2+
97
3 4 5
RX2RX1+
96 92
6 7
RX1RX0+
91
RX0RXC+
86 84
1 2
HDMI CONNECTOR
RXC-
83
87
8 9 10 11 12 19
DVI/HDMI INPUT PORT
MICRO CONTROLLER
33
2
19 18
( ) ONLY FOR 32”
1P03
1P06 1 11
32” SETS
DRAM 512Kx16x2
3
1P02
VIDEO ZOOM
COL_DQ
SCL
1K04 (1K01)
5 2
DISPLAY TIMING GEN.
AE16 AF16
COL_Do(1-7)
COL_Di(1-7)
A/D CONV.
COL_A
1M36 (1304)
1001 (1301) SVHS
54 7L03 EF
LVDS_VCC
CONNECTIONS
1002 (1302)
1
7M00 T6TU5XBG-0001
31 7L01 EF
INTF_U_OUT
VIDEO IN
(Dig. PAL/NTC Comb)
30
SC1_CV1_DMMI_B_Pb_IN
B17 SIDE
B19 COLUMBUS
7L04 MST9883C
N.C.
B13
SIDE AV
FRAME STORE CONTROL
FSDATA
SDRAM 1Mx32x4
YIN
UIN
VIN
GRAPHIC ZOOM
B10 SDRAM +2V5_DDR
SC1_CV1_DMMI_G_Y_IN
4R69
CVI_Pb_IN
Pb
OR
FSADDR 77
CVI_Y_IN
21 22
37” SETS 42” SETS
B20 EPLD
B7
B13
Y
24 25 26
B22 B22
1R06
D
B7
B9 SCALER
7B01 K4D263238I
VOUT
UOUT
YOUT
B/Pb-3
G/Y3
43
R/Pr-3
SC1_CV1_DMMI_R_Pr_IN
INSSW3
55 4R68
PC_HD_DET
19
1R07
CVI_Pr_IN
LVDSD-
LVDSCLK+
7E04
RGB/Pr Pb Insert YUV Interface
48
Pr
19 20
LVDSCLK-
Vsync_SDTV
B3
Sync Sep H-OSC H-Shift H-Drive
H/V
Vint
4206
VIDEO OUT
17 18
LVDSC+
Chroma
SC2_AV3_Y_IN
B17
7R12 EF
GINA|YINA B22
22
YUV in/out 64
4
SC2|AV2_SIDE_SW
VDRB
7E03 7206
B7
Vertical & East-West Geometry
14 15 16
RGB
FRONT_C_IN
Peaking SCAVEM U/V Delay
RGB
SC2_C_IN
59
SCAVEM on text
OUT BLENDER
1 12
S-VHS 5 2
SC2_AV3_C_IN
14
FRONT_Y_CVBS_IN
B17
3
Yint
BRIGHTNESS/CONTRAST/HUE/SAT
1
cvbs/y
Dig. 2H/4H Combfilter Y Delay Adj.
CVBS/Y
VIDEO IN
2
OSD CONTROLLER
SC2_Y_IN
LVDSBLVDSB+
LVDSD+
7436-2 7R57
1R02
12 13
LVDSC-
4Kx8
1P07 1 11
LVDSALVDSA+
EEPOM ANALOG INPUT PORT
SYNC INTERFACE
YUV
LVDS_VCC
7C01 M24C32
B13 B13
B21 EPLD
B11 FLASH/CONTROL
SCALER
C3
7E01
RGB Matrix Blue & Black Strech Gamma Corr. B_OSD
9
7
B7
7801 GM1501
Fast Blanking
1102 RF UV1338/A 6 IN
B13 MUX-SYNC INTERFACE
HERCULES
7217 TDA15011H
LVDS CONNECTOR TO DISPLAY
+5SW_a +VTUN
LVDS CONNECTOR TO DISPLAY
B2
TUNER & VIF
G_OSD
B1
34
HDMI PANELLINK RECEIVER
INTERNAL RAM HDMI_Y(0-7)
HDMI_CbCr(1-7)
7Q01 HDM1_HOTPLUG_RESET
B7
H_16980_059.eps 210207
Block Diagrams, Test Point Overviews, and Waveforms
LC4.8L LA
6.
20
Block Diagram Audio & Control AUDIO B1 TUNER & IF
B2
IFOUT
IF-TER
11
2106
2
TUNER
1104
1J04
AM 60
QSS Mixer AM Demod. QSS/FM
25
VIF2
8
3
24
VIF1
7
SA AUDIO
4212
4618
AUDOUTLSL
5J01
AUDIO-L
7700 +16V+19V 4,22 TDA7490
1739
1
1
10
AUDIO-L
AD Conv. Std Stereo Decoder
33
5
61
4211
4619
AUDOUTLSR
5J02
AUDIO-R
3
3
18
AUDIO-R
7701÷7707 SOUND-ENABLE_1 B5
POR_AUDIO
8
8
SOUND-ENABLE
9
9
POR-CLASSD
SOUND ENABLE
SC1_COMP_AV1_R_IN
SC1_COMP_AV1_R_IN
35
AV AUDIO IN L/R
SC2_L_IN_1
56
SC2_R_IN
4R63
SC2_R_IN_1
57
7
8
PROT_AUDIOSUPPLY
7
6703 3764 AUDIO SUPPLY 6702 3761 PROT, CIRCUIT
C
CLASS D AUDIO AMPLIFIER
12
AV3_LEFT
AudioIN2L
1
AUDIO-L
3
AUDIO-R
8
SOUND-ENABLE
4 7004 PHASE INVERTER
3Q31 AV3_RIGHT
AV3_R
2
14
AudioIN2R
AUDIO SELECT ADC/DAC
54
1 7D03 SII9993CT
19 18
1 2
1Q01 1 3 4
RX2+ RX2RX1+
6 7
RX1RX0+
96 92 91 87
9
RX0RXC+
86 84
RXC-
83
10 12
HDMI
97
7D04 UDA1334BT
30 SDO WS 31 32 SCK 81 EXT-RES
3 2 1 6
B17 SIDE 36
SC1_L_RF_OUT
37
SC1_R_RF_OUT
DAC DATAI WS BCK SYSCLK
2
1M36 (1304)
1002 (1302)
AUDIO L/R IN
HP_LOUT
3633
OUT_MUTE
1K04 (1K01)
6
6
FRONT_L_IN
49
R_FRONT_IN
8
8
FRONT_R_IN
50
3 4 6
63
OUT_MUTE
HVPI
1736 1
VP
TO 1002 SA SUPPLY
IN+
HVPI
TO J03 B16 SSB
1001 2
5006
1
13
LEFT SPEAKER
5007
3 4
13
RIGHT SPEAKER
SIDE I/O
1M36 (1304) 10
SOUND L-HEADPHONE-OUT
11
11
SOUND R-HEADPHONE-OUT
7
7
DETECT
N.C.
1010 (1303) 2 3 5
HEADPHONE
& &
11
&
1
SOUND_ENABLE
5 9
POWER_DOWN
10 12 13
( ) ONLY FOR 32”
( ) ONLY FOR 32”
2
3629
POR_AUDIO
&
8
( ) ONLY FOR 32”
CONTROL E CONTROL BOARD
1
RIGHT SPEAKER
MUTE
62
L_FRONT_IN
IN+
1K04 (1K01) 10
4K02
HP_ROUT
7602 74HC08PW
( ) ONLY FOR 32”
EXT_MUTE
B23 CINCH ANALOGUE (1FH) B2 B16 B2
3628 +5V
1R07
B17 SIDE CONNECTORS
B2
Channel+ Channel-
HERCULES
7217 TDA15011H/N1CD0
Menu Volume+
1M01 (1684)
VolumePower
KEYBOARD
2
1K02 (1M01) 2
114 KEYBOARD
7202 SEL_IF_SDM 4022
120
( ) ONLY FOR 32”
B1
OUT_MUTE
MUTE
SC2_L_MON_OUT
SC2_L_MON_OUT
SC2_R_MON_OUT
SC2_R_MON_OUT
AUDIO OUT L/R
SC2_L SC2_R
SERVICE SDM
HERCULES
LED PANEL +3V3-STBY 7802 VS
2
7
3632
7606
B16
J
1
N.C. 6
D
CONNECTORS
7601 TS482ID
B7
B17 SIDE CONNECTORS
SIDE I/O
-16 V-19V
-16 V-19V
POWER 7 COMPARATOR 16 OUT 4
14 16
5 2
ONLY FOR 32” SETS
10,11 AV3_HDMI-AUDIO_SEL
HDMI PANELINK RECEIVER
+16 V+19V
VP 7001 TDA8931T 18
53
13
PC AUDIO IN L/R
D
15
1M02 7
+16 V+19V
VP 7000 TDA8931T 18 POWER COMPARATOR 7 16 OUT
1002
7D05 3Q30
LEFT SPEAKER
3
DCPROT
B22 DIGITAL IO B12 HDMI AV3_L
5730
-16V-19V PROT1
I2S Processor 4R62
5702
ONLY FOR 37”- 42” SETS
1R03 SC2_L_IN
23
6
TO SUPPLY
CVI-1 AUDIO IN L/R
3 1735 1
7708÷7711
1R06 34
3718
2,24
1J00
SC1_COMP_AV1_L_IN
1736 1
3717
AUDIO CONTROL Vol/Treb/ Bass Features DACs
B23 CINCH ANALOGUE (1FH) SC1_COMP_AV1_L_IN
PWM
5731
5701
PWM 3
6 stby-mute OSC
SDA
SCL
4
B16 TOP CONN.
AUDIO PROCESSING
7217 TDA15021H
1102 UV1338/A
RF IN
B5
HERCULES
GND
OUT
3
1870 RC
1
3
LIGHT-SENSOR
6801-1 Red
7801
3802
7803
3801
7804
6801-2 Green
1
STATUS_1
119
STATUS_2
102
EXT_MUTE
111
SOUND-ENABLE
122
SC_STANDBY
127
AV2_DMMI_SW
1K00 3
IR
97
7808 +3V3-STBY
116
1
2
2
5
5
LIGHT_SENSOR
B3
115
B1 B1 B5 B5 B6 B6
SYNC INTERFACE 3431
+3V3-STBY
+3V3STBY
+3v3STBY 7430 6430 +5VSW
LED_SEL
4
4
LED_SEL
PC-TV-LED
6
6
PC-TV-LED
10
107
1202 11
H_16980_060.eps 210207
Block Diagrams, Test Point Overviews, and Waveforms
LC4.8L LA
6.
21
Test Point Overview SSB (Top Side) F201 F202 F203 F204 F205 F206
A2 A2 A2 B3 B2 B2
F207 F208 F211 F212 F214 F215
B2 B2 A2 A2 A2 A2
3139 123 6145.4
F216 F218 F220 F221 F223 F224
B3 A2 A3 A3 A2 A2
F225 F226 F228 F229 F230 F231
A3 A3 A3 B2 A3 A2
F232 F233 F234 F235 F236 F238
B3 B3 B3 B3 C3 B2
F240 F241 F243 F244 F245 F246
B2 B3 B2 B2 A2 B2
F248 F250 I201 I202 I203 I204
B2 B3 A2 A2 B2 B2
I205 I206 I208 I209 I210 I211
B2 B2 B2 B2 A3 A3
I212 I213 I214 I215 I216 I217
A3 A2 B2 A2 B2 B3
I218 I219 I220 I221 I222 I223
B3 B3 B3 A2 A2 A2
I224 I225 I226 I227 I228 I229
A3 A2 B2 B2 B3 B2
I230 I231 I232 I233 I234 I235
B3 B2 A2 B2 B2 B2
I236 I237 I238 I239 I240 I242
B2 B2 A2 A3 A3 A2
I243 I244 I246 I247 I254 I256
A3 B3 A3 A3 C3 B3
I257 I258 I259 I264 I265 I266
B3 B2 B3 A2 B3 B3
I267 I268 I270 I271 I272 I273
B3 B3 B3 A3 B3 C3
I277 I278 I283 I284 I288 I289
A3 A3 B3 B3 B3 A2
I290 I291 I292 I293 I294 I297
A2 A2 A2 A2 A2 A1
I298
B3
H_16980_063.eps 220207
Block Diagrams, Test Point Overviews, and Waveforms
LC4.8L LA
6.
22
I2C Overview I²C B8
HERCULES
B1
SCALER
B19
TUNER & IF
B18
COLUMBUS
ADC
3902
SDA
7221 7220
N1
5
4
7
1102 UV1338/A
EEPROM NVM
SCALER
TUNER
ERR 9
ERR 4
3125
7801 GM1501-LF
SDA SCL
+3V3STBY
ERR 10
B7
SCALER UART_TX 3122
M2
UART_RX 3123
3L19
57
7M00 T6TU5XBG
1101 1 2 3
M1
B15
A15
3120
3249
104 NVM_WP_HERC
7207 M24C16
3M15
3M14
3101
3102
N2
3124
6
+3V3STBY
3121
5
3903
3904
ERR 6
HERCULES SET PROCESSOR
3247
3248
SCL
SERVICE CONNECTOR COMPAIR 1107 1
3L20
108
3901
+3V3STBY
3232
109
3233
+3V3STBY
7217 TDA15011H
56
7L04 MST9883C
+3V3SW
COLUMBUS CTRL
ANALOG INTERFACE
ERR 11
ERR 07
2
B6
DC-DC CONVERTER
3
SERVICE CONNECTOR UART +3V3SW
NVM_WP_SCALER
7
B23
1F02 7D01 7D02
77
5
ADDRESS
OCMADDR
3D03
DOC_SDAA 16
3D04
DOC_SCLA 15
7C00 MX29LV040
+3V3SW
12
SDA
2
SCL
4
FOR DEVELOPMENT USE ONLY (N.S.)
ERR 16
1F02
+3V3SW 1N02 1
3
EPLD PIXEL+ PROCESSOR
HDMI CONNECTOR
EEPROM 256x8
R2
7N02 EP1C12F256C8N
6
7D00 M24C02
ERR 13
DMMI
T2
3N47
76
HDMI PANELLINK RECEIVER
ERR 8
SCL_PF3
3N46
7D03 SII9993CTG
EEPROM
4N22
1 2
7C01 M24C32 AF5
74
75
SDA_PF3
19 18
6
5
4N21
+3V3SW
10
SCL_IO
EPLD
15
P4
B20
DIGITAL IO
5
SC_STANDBY
3D01
122
3D09
SDA_IO
B22
HDMI
3D06
P3 7756
B12
3D05
FLASH / CONTROL
3817
3818
3759
B11
+3V3SW
3750
7758
+3V3STBY
ERROM
+3V3STBY
SW_I2C_SCL
2
B10
Reserved for DMMI
3837
113
SW_I2C_SDA
1R01 1
3838
112
3235
+3V3_IO
AF7
JTAG_TDI_SDA
AD6
JTAG_CLK_SCL
FSADDR
FSDATA
EEPROM 256x8
6
SCL_VGA
15 1
SDA_VGA
6
5
SCALER INTERFACE
VGA CONNECTOR
(Only For 37” - 42” Sets)
B21
EPLD
7A00 PCA9515ADP
1P07
1
7B01 K4D263238I SDRAM
DATA
B9
1802 2
JTAG I2C ADDRESS
SDRAM
7Q25 M24C02
11
OCMDATA
DATA
3234
B2
ERR 14
3
6
SDA_DMA_BUS1_DISP
31
2
7
SDA_DMA_BUS1_DISP
30
TO DISPLAY
RES 4A01 4A00
FOR PDP ONLY (Depending on screen manufacturer)
H_16980_061.eps 210207
Block Diagrams, Test Point Overviews, and Waveforms
LC4.8L LA
6.
23
Supply Voltage Overview SUPPLY LINE OVERVIEW B16 TOP CONNECTORS SUPPLY PANEL 26”- 32” (PSU)
B1
+5VSW
+5VSW
B16
1J03 VP 1 +3V3STBY
3 4
5102
+5VSW_a
5103
+5VSW_b
B6,B16
7 POWER_DOWN STANDBY BACKLIGHT_CTRL LAMP_ON_OFF
10 11 12
5752
5753 5754
+5VSWI
B6
HERCULES
B8
5733
PWR REG
6735 +VTUN
B16 B6
+3V3STBY
+3V3STBY
B11
B4,B9,B13, B19,B22
FLASH / CONTROL
+3V3_IO
+3V3_IO
+3V3SW
+3V3SW
B19
HDMI
+1V8_A
7215
7754
5700 3264
LVDS_VCC
B6
7216-1
+5VHDMI
+5VHDMI
+3V3SW
+3V3SW
B6
3263
B20 B13
HERCULES
7710 IN OUT COM
N.C.
4 5
1J07
B16
+12VUFD
+5VSW
1J08
7
+5V_UFD
5J04
+5V
B3,B5, B6,B9
9 10
N.C.
11
(FOR ITV ONLY)
N.C.
B3 UFD CONTROL
LAMP_ON_OFF
B9
N.C.
8 9 10
+3V3STBY
B6 STANDBY PROTECT_AUD
+3V3SW
+3V3SW
+5VSW
+5VSW
+5V
+5V
+12VSW
+12VSW
B8 B6 B16
N.C.
5501
X410
AUDIO PROCESSING
+3V3SW
+3V3SW
3V3_PLL
-Vf21
5707
-Vf11
5901
3V3_ADC
5902
3V3_DVI
5903
3V3_IO
5904
3V3_LBADC
5905
3V3_LVDSA
5906
3V3_LVDSB
5907
3V3_LVDS
+3V3STBY
+3V3STBY
IN OUT COM
5711
-Vf1
7712
+5VSW
+5VSW
B16
+5V
+5V
Vp
B7
IN OUT COM
6710
B9
6711
2797
+2V5_DDR
+2V5_DDR
+3V3SW
+3V3SW
B8
3760
Vm
+3V3_IO
+3V3_IO
+3V3_PLL
+3V3_PLL
B8
7713 B8
3Q17
3Q18
5P02
1V5-PLL
5P03
1V5-INT
DDC_5V
+5VSWI
B6
SCART ANALOG IO
D
+1V8_DV1
5911
+1V8_CORE
SCALER INTERFACE
1304 7
1K01 B17
+5VSW
(Only For 32” Sets)
B17
SIDE CONNECTORS
J +3V3STBY
+3V3STBY
B7,B10 B18
5K00
+3V3STBY_1
5K01
+5VSW_1
IR / LED / LIGHT-SENSOR
1870 5
1K00 5
+3V3STBY
+5VSW
+5VSW
+1V8_ADC
5910
SIDE-AV
+5VSW
B7,B11, B20
B6
5909
LVDS_VCC
B6
1K01 7
1304 D
C
CLASS D AUDIO AMPLIFIER
B7 1003 3
5001
VP
3001
VP_SGN
(Only For 32” Sets)
B6
-16V-19V
10
5Q16
+1V8
B8
2798
6Q16
1V5
IN OUT COM
B12
3Q16
+3V3-IO
7P01
1J03 B16 +1V8_CORE
+3V3SW
5P01
+5VSW
B6,B16
SCALER
+1V8_CORE
EPLD
+5VHDMI
1870 9
B23
+2V5_DDR
5908
7901
B6
3759
+16V+19V
5723
B16 B6
+3V3-IO
DIGITAL IO
B7
B6
-16V-19V
2
+3V3-IO B8
B6
+5VSWI
B6
+3V3SW
5900
7900 +16V+19V
1
X101
+5VD
AUDIO
1M02
+3V3SW
B21 B22
+5VSWI
B6
B5
+3V3STBY
+3V3SW
B6
+5VSWI
+3V3SW B6
LVDS_VCC
+3V3STBY
B16
5
+5VSWI
SCALER
B4
6
+5VSWI
B3,B5,B7, B8,B9,B11 B12,B13, 1Q03 B19,B20, 18 B21 HDMI
+3V3SW
VGA
B9
N.C.
SA3
7758
+3V3STBY
+3V3STBY
B16
7
+3V3SW
B1,B2,B3,B5, B9,B8,B17
SYNC INTERFACE
B6
B8
N.C.
6
IN OUT COM
B6
4 5
+3V3STBY
SC_STANDBY
4J01
BACKLIGHT_CTRL
3
B6
MUX-SYNC INTERFACE
+3V3SW
B6
B6 B16
1 2
B6
+3V3SW N.C.
1J00 (1M03)
5712
+5V
+8VSW_TV
N.C.
EPLD
7708 5704
+8VSW_TV
(Only For 37”- 42” Sets)
+5V
+5VSW
B6
N.C.
6 8
X406
7216-2
B18
+1V8_B
1 2 3
X407
3262
37”/42” SETS
7217
+5VSWIA
B21
PANEL-PWR-CTL
1J01 (1M46)
+5VSWI
+5VSWI
5M04
PAN_VCC
5757
+3V3SWA
5M03
B1,B2,B3, B5,B17,B23
(Only LCD)
+3V3SW
B6
B12
B22
3265
SUPPLY PANEL 37”/42” (PSU)
COLUMBUS
+3V3SW
B6
5737 +5VSW
B9 B9 B9
+3V3SWB
IN OUT COM
B6
7730 B6
B2
FSVREF
B3
B2
DC/DC Converter
5730
5709
5J03 +12VUNREG
8
+3V3STBY
+3V3STBY
+5VSWIA
7L05
+8VSW_TV
IN OUT COM
7752
6708
B6
6
B19
3B01
ADC
+5VSWIA
7738
+VTUN
+VTUN
+2V5_DDR
B8
5738
B1,B2,B3, B5,B8,B9, B17
B18
SDRAM
+2V5_DDR
+12VUNREG +12VSW
1003 C
5
9
B10
DC-DC CONVERTER
+12VUNREG
B6
32” SETS 1J02 1 2
X200
B6
TUNER & IF
B6 B6 B16 B6
+3V3SW
+3V3SW
+3V3STBY
+3V3STBY
+5VSWI
+5VSWI
+5V
+5V
B16
(Only For 37”/42” Sets)
H_16980_062.eps 210207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
24
7. Circuit Diagrams and PWB Layouts SSB: Tuner and IF
1
2
3
4
5
6
7
8
9
B1 TUNER & IF * *
EUROPE CHINA AP(PAL) NA/LA/AP(NTSC)
A
1102 UV1318ST/AIH-MK3 F101
B1
IDTV SD2 STANDARD SD2 FM RADIO SD2 UV1318S/AI H N3 UV1318SD/A CPHN 3 UR1316S/A I H3 UR1316S/A I H3 UV1318SI/AI C H3 UV1316E/A I H4 UR1316S/A I H3 UV1338/A F SH4 UR1336/A F I S H3
12
TUNER
13
15
4115 RES
16
4116 RES
5102 5VSW_a
+5VSW
6u8
2101 100u 16V
5VSW_b
AGC TU AS SCL SDA NC1 5V ADC 33V NC2 IFOUT
2113 100u 16V
17
EU Y --Y Y Y ----
AP Y -Y -Y -Y ---
CHINA NAFTA -Y Y ---Y -Y Y --Y --Y -Y
F108
C
4
F104
3125 100R
5
SCL SDA
I113
6101 BZX384-C6V8
600R RES 600R RES 100R 100R
6103
3104
*
NonEU EU 3104 0R 10K 6103 - Yes
*
3106 RES
1 2 3 4 6
2 3
I110
2109 22u 16V
7101 BC847BW F109
3111
I104
I105 0V
I106
22K 2114 1u0
0V
3114 47K
3112 18K
5
SEL_IF_SDM
4109 4110 4111 4112 3117 820R I108 3115
3120 10K
FROM SCALER
*
I111
2110
I107
7103 BFS20
1n0
SERVICE
3121 10K
EUROPE & AP PAL-MUTLI ONLY
1n0
I109
UART F115 F116 F117
100R
38M
NC
D
11 12 16 17
GND
5
4
3118 150K
1 2 3
3119 560R
* *
1 4 5 6 9 10 13 14 15 18
*
I ISWI
2
E
5106 RES O1 O2
7 8
SIF1 SIF2
F112
F113
NC
11 12 16 17
GND
F
4114
2112 1n0
40M4 F114
6107
FOR FM RADIO ONLY
H_16980_001.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
C
SSIF
6106
BZX384-C6V8
100R BZX384-C6V8
3123
F111
7 8
O1 O2
I1 I2
1106 OFWK9656L
*
2111
1107
UART_RX
NC
VIF2
**
2 3
4113
3116 100K
3122
5105 RES 11 12 16 17
F110
GND
+5VSW
UART_TX
VIF1
FOR I93 ONLY
+3V3STBY
F
38M9
1 4 5 6 9 10 13 14 15 18
7102 BC847BW
22K
1103
For ITV Only
E
1105 OFWK3955L
3113
2108 2u2 50V
2107 47n
100R 100R
3109 2K2
F107
1K0
SCL 3126 SDA 3127 +3V3STBY
*
BAS316
3103 10K
3105
7 8
O1 O2
10n
2105 22p
10K +VTUN
I1 I2 1 4 5 6 9 10 13 14 15 18
6105 1SS356
I103
2106
I101 2104 22p
F106
RF_AGC
D
6104 1SS356
5VSW_a
6102 BZX384-C6V8
* *
F105
*
2 3
**
4104 4105
3110 2K2
3108 2K2
F103
5107 5108 3102 3101
* For LATAM see footnote
1104 OFWK3953L 4102 4103
I102
3107 6K8
I112
A
4107 4108
5101 390n
4106
1 2 3
F102
3124 100R
1106 OFWK9656L OFWK9361L OFWK9352L --
IF-TER
5VSW_a
1101
1105 --OFWK9355L --
2103 10n
5VSW_b
SERVICE COMPAIR
1104 OFWK3953L OFWK7265L OFWK3956L OFWM1967L
*
EUROPE AP CHINA NAFTA
B
1V7 1 2 NC 5V3 3 2V6 4 2V6 5 6 5V3 7 NC 8 7V1 9 0V 10 0V 11
B
4102 4103 4104 4106 4110 4111 4113 4107 4108
5103 6u8
14
*
2102 10n
3
4
5
6
7
8
9
1101 C1 1102 A1 1103 D2 1104 B8 1105 D8 1106 E8 1107 F3 2101 A6 2102 A6 2103 B6 2104 C3 2105 C3 2106 C5 2107 D2 2108 D2 2109 D4 2110 F5 2111 F6 2112 F6 2113 B6 2114 D6 3101 C1 3102 C1 3103 D2 3104 D3 3105 D1 3106 D2 3107 C5 3108 C6 3109 D5 3110 C7 3111 D4 3112 E5 3113 D6 3114 D6 3115 F5 3116 E6 3117 E6 3118 F6 3119 F6 3120 F2 3121 F2 3122 F1 3123 F1 3124 C1 3125 C1 3126 E1 3127 E1 4102 B7 4103 B7 4104 C7 4105 C7 4106 C7 4107 C9 4108 C9 4109 E7 4110 E7 4111 E7 4112 E7 4113 F8 4114 F7 4115 A3 4116 B3 5101 B4 5102 A5 5103 B5 5105 C9 5106 E9 5107 C1 5108 C1 6101 C1 6102 C1 6103 D3 6104 C6 6105 C7 6106 F2 6107 F2 7101 D5 7102 D7 7103 F6 F101 A1 F102 C1
F103 C2 F104 C1 F105 C3 F106 D1 F107 D2 F108 B4 F109 D4 F110 B9 F111 C9 F112 E9 F113 E9 F114 F7 F115 F3 F116 F3 F117 F3 I101 C2 I102 B6 I103 C5 I104 D5 I105 D5 I106 D6 I107 F5 I108 F6 I109 F6 I110 D7 I111 F5 I112 C1 I113 C1
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
25
SSB: Hercules 1
3
7
8
220n I223 F228 100n I224 220n 220n
2242
100n
F229
+8VSW_TV
B3/B18
B3/B15/B17/B23 2227 1n0
8
B3 VSYNC
INTF_V_OUT ITV_IR_SW_RESET I270
I271
4K7
4
220K
B9
B18 4K7 RES
10K
3246
3245
3243 2293
I215
F216 3242
3n3 I214 2226
+3V3STBY
B6/B15/ B23 100R
I272
3241
3240 2225
3236
INTF_U_OUT
SC_STANDBY
B17 LIGHT_SENSOR B15 STATUS_1 STATUS_2 1K0 1% B15 +3V3STBY 1n0 B17 KEYBOARD B8
B15/ B23 +3V3STBY 4K7
B15/ B23
3235
3234
3K3 3233
4K7 +3V3STBY 3229
BAT54 COL 6206 RES
BAT54 COL
6205
74
23 22 76
65 75
39
6204
I213 115 116 0V 119 0V 120 I225
111 3V2 112 113 114 0V 122 3V2 123
98 99 126 107 127 128 3V2 108 109
105 104 103 102 97
106
FOR SERVICE 4204 RES 4205 RES 3237 RES 3238 100R F214 F215 100R I241 3239
B8
B8
+3V3STBY +3V3STBY SCL +3V3STBY
3226 3230 3231 3232 3222 100R I210 3V2 I278 10R 3223 3227 100R I211 2224 1u0 3224 +3V3STBY 4K7 RES 3V1 I212 F211 0V
SDA SOUND_ENABLE B5 4K7 +3V3STBY SW_I2C_SDA 4K7 +3V3STBY SW_I2C_SCL
B7 B7 TV_IRQ TV_SC_COM PC-TV-LED B17
100R I275 10K I274 2K2 3K3
B15/B17 IR
+3V3STBY
I297 3225
3290 RES RES 3283 3284 I209
I298
67 48
66
F208 21
43
I216
F247
1 68
C
GND1
95 12
D
92 GNDA 81 GND3 40 GND2 18 GND1 GNDIF
28 F249
5
+8VSW_TV 100n 2279
POWER-DOWN_BOLT-ON
I268
B6/B7 POWER_DOWN
100R
Y_NOTCH B7
B18
INTF_Y_OUT
RES
2276
7218 BC847BW
3279
0V 8p2
RES
E
3278 68K
8V
I266
2282 2283 2284 3277
2271 2272 2273 5216 2274 8p2
27p I267
2278
RES
1202 24M576
100n
5215 47u
+3V3STBY
2275
3276 1m0
2269 2270
1V9 1V9 I264
2u2 50V 2268
2260 3295 3281 2263
10u 50V 2264 470n10V 2265 1u0 10V I262 2266 100n
100n 2259
2262
I231
100R
10u 16V F244 100n I232 I233 10u 100K 39K I259 6n8 I234 I235 4K7 1K0 I236 390R I237 220n I226 2256 2257
3275
100n 100n 2254 2255 F243
I229 F242
F245
100n 100n
24 75R 25 8 6 470u 16V 9 100n I238 5 100u 16V 7 100n I239 91 89 220n I240 90 150n F246 26 1V4 10 1V4 11 71 RES 70 RES RES 72 1K5 2277 100n 73
30 1V9
13
29 1V9
20 14 38 118 32 77 27 17 16 41 19 42
51
58
100n 2252
2286 2253
F241
2292 I265
F
0R
G 2287 RES
LCD-TV LC04SD2 MULTIPLE 12NC :- 3139_123_61403_01 / 61442_01 LCD-TV LC04SD2 SINGLE 12NC :- 3139_123_61413_01 / 61452_01 CELL 12NC :- 8239_125_11403 H_16980_002.eps 230207
"200"~"399"
4
F219
5217
RES
3
52 55
10u 25V I228 2251
I230
RES
100R
RES
3139 123 6145.4 * For LATAM diversity see table in chapter 10
83 84 59
78 1n0
3285 3286
2288
2
44
87 86 85 64
31 2V4 62 63 60 61 36 37 33 0V 2u2 50V
2209 10u 16V CVBS_COMB
1
1 2 3
B15/B23
2208 1u0 50V
SIF2
+1V8_A +1V8_B F231
G
AGCOUT AUDOUTHPL AUDOUTHPR AUDOUTLSL AUDOUTLSR AUDOUTSL AUDOUTSR AVL SWO SSIF REFO REFIN BO GO RO CVBSO PIP DVBO FMRO DVBO IFVO FMRO EWD AVL FBISO CSY HOUT IFVO SVO CVBSI I2SDI1 O I2SDO1 I2SDO2 I2SCLK I2SWS INT0 P0 INT1 T0 INT2 T1 RX TX SCL SDA P1 TPWM PWM0 PWM1 PWM2 PWM3 PWM4 P2 ADC0 ADC1 ADC2 ADC3 P3 QSSO AMOUT AUDEEM SVM UOUT INSSW2 VDRA VDRB VOUT SWO1 YOUT 46 53
F230
2285 100n
SIF1
1V9
RES
CVBS_COMB
1
F248 I255
B15/B23 DMMI_RGB_SW B1 VIF1 B1 VIF2 5214 +3V3STBY
1V9
I258
B1
SC2_OUT_SW
4
I257
100n 100R
B1
7216-2 BC847BS
7215 BCP69-25
6
2 2 4
5 2V5
I256
100n 100n
B15/B23 SC2_Y_IN_1
3
3
2207 220n
I217
VSSA1
B15/B23 SC1_CVBS_IN
1
2V1
2V8 2V 7216-1 BC847BS 1
2V7
0 1 2
B
VSSADC
B15/B23 SC2_AV3_C_IN
3
3265 3R9
5K6 2258 10u
3264 22K
2u2
3293 3294
3263 3R9 7214 BCP69-25
RES
3262 22K
7
8
VSS VEE
F235
+3V3STBY
4u7
3 5 9
2244 2245 2246 3268
4201 4202 4203 SC1_CVI_DMMI_G_Y_IN 4213 SC1_CVI_DMMI_R_Pr_IN 4214 SC1_CVI_DMMI_B_Pb_IN 4215 SC1_FBL_IN_1
2290
VDDA_1.8
45 VCC8V 8V
5K6
3267 1 2 10
4
F232 F233 F234 3266
3282 150R
2206
15
1K0
2205
1 2 4X1 4X2
SC2_CVBS_MON_OUT
13 12 11
7211 BC847BW
2 4
B15/B23 F210 14
6
I242
RES RES
MDXG4
RES
4206
2291 7219 RES 16 VDD
3254
RES RES
5218 RES
VDDA1
Φ
10u 16V
ES10.3B RESET (RESERVED) +1V8_B
+5VSW
3291 3292
E
2243
BAS321
3260 330R
88
SC1_G_CVI_Y_IN SC1_R_CVI_Pr_IN SC1_B_CVI_Pb_IN
3259 330R
4 VDDA3_3.3 94 VDDA2_3.3
B13 B13 B13 B15/B23 B15/B23 B15/B23 B15/B23
3258 330R
VDDADC_1.8
+3V3STBY
1R0
7207 M24C16-WMN6
3V2
2 VSSC4 125 VSSC3 101 VSSC2 121 VSSC1|P
HERCULES TDA15021H/N1A11
79
6201 +5VSW
96
93
5213 2241
F207
F212 F226
3 VDDC4 124 VDDC3 100 VDDC2 117 VDDC1
A
4K7
3V2 (2Kx8) NVM_WP_HERC WC EEPROM 2V9 7 3247 100R 6 SCL 3248 100R ADR 5 SDA +3V3STBY 2V8
VSSCOMB
VIDEO SIGNAL PROCESSOR
F225
+3V3STBY F218 3249
POWER_DOWN_BOLTON_P50 I269
VDDCOMB
F240
+1V8_A 3280
B13 R_SDTV B13 B_SDTV B13 G_SDTV
220n 220n
F213
I277
3270 3271 2250
4209 RES 3257 0R
I222
I273
B2
VDDP_3.3
B15/B23 SC1_COMP_AV1_R_IN
4208 RES 3256 0R
69
F239
4207 RES 3255 0R
100n I220 10u 16V
54 56 57 49 50 34 35 80
I221 5208 220n +1V8_B 2236 +1V8_A 5209 F227 2237 5210 +3V3STBY 2238 5211 +3V3STBY 2239 5212 +3V3STBY 2240
100R
B7
11
VSSP2
I254 F236 F237 F238
D
110
Φ
I218
220n F224
220n
+3V3STBY
AGC2SIF AUDIOIN2L SSIF AUDIOIN2R AUDIOIN3L AUDIOIN3R AUDIOIN4L AUDIOIN4R AUDIOIN5L AUDIOIN5R B PBIN3 G YIN3 R PRIN3 BCLIN BLKIN C2 C3 C4 CVBS2 Y2 CVBS3 Y3 CVBS4 Y4 DECBG DECDIG DECSDEM DECV1V8 EHTO INSSW3 IREF PH1LF PH2LF PLLIF SECPLL SIFAGC DVBAGC SIFIN1 DVBIN1 SIFIN2 DVBIN2 VGUARD SWIO VIFIN1 VIFIN2 VREF_NEG_HPL+HPR VREF_NEG_LSL+HPL VREF_POS_HPR VREF_POS_LSL VREF_POS_LSR+HPR VREFAD VREFAD_NEG VREFAD_POS VSC XTALIN XTALOUT UIN VIN YIN YSYNC
3252 100R 3253
100n
B12/B14 AudioIN2L B12/B14 AudioIN2R B15/B23 SC2_L_IN_1 B15/B23 SC2_R_IN_1 FRONT_L_IN B17 FRONT_R_IN B17 SC1_COMP_AV1_L_IN RES 2248 B15/B23 RES 2249
F221
7208 BC847BW
I247
100R
5206 2234 5207 2235
+1V8_B
3251
F220
+5VSW GND1
GND
2230 5204 2231 5205 2232 2233
I227
+1V8_A
7210 BC847BW
2203 10u 16V
7209 BC847BW
F
10
7217
82 VP3 F222 47 VP2 F223 15 VP1
2247
I246
100R
+3V3STBY
2229 10u RES
2228 100n
RES RES RES
3228 3244 3289
I248
RESERVED INTF_V_OUT INTF_Y_OUT INTF_U_OUT +5VSW 3250
4K7 100p
B4 B4 B5
HOUT RES
F250 SANDCASTLE RES RES 3287 3288
47K 3220
2220
3V9
I219
2223
B4 I2SDI1
I2SDO1 I2SCLK EXT_MUTE
B3
B15 5203
F209 3 RES O I208 100R 3219
I244 1K0
100K
3217
100u 16V
1
2
I
GND
3215
330R
7206 BC857B
2221 +5VSW
SC1_CVBS_RF_OUT
2218 100n
B15
B15
SC1_L_RF_OUT
1V6
I207 7203-2 PUMH7
3V9
I243
C
9
3272 3273 3274 2267
3V9 7202-1 PUMH7
7201-2 PUMH7 3V9
3207
0V Const_L_OUT Const_R_OUT 3V9 7202-2 7203-1 PUMH7 PUMH7
220n 2210
5202
3296
5201
7205-1 BC857BS
680R
+5VSW+5VSW
2V2
3218
100R
I294
7205-2 BC857BS
I293
I206
RES
1201 SFSKA 4M5 RES
3214 680R
*3206
* 1u0
SC1_R_RF_OUT CVBS_COMB 3216 330R
MAIN_OUTL
4212
I292 4u7 100R 2202
2219
MAIN_OUTR
+8VSW_TV +8VSW_TV
OUT_MUTE
B
B1
B1
B1
I201
7204-2 BC857BS
3205
F203 F204
3V9
7204-1 BC857BS
I291
I202
2281 3204
F201 F202
AUDOUTLSL
I290
4211
SSIF
3203
+5VSW
I203 2211 10n I288 3208 100R I285 3209 100R I284 3210 100R I283 3211 100R I204 2214 1n0 100R 3212 F205 2216 1n0 *EMC 100R F206 I205 *EMC 3213
Const_R_OUT Const_L_OUT SC2_L_MON_OUT SC2_R_MON_OUT
SC1_L SC1_R SC2_L SC2_R
2280 3201
7201-1 PUMH7
B5
6
RF_AGC
I289 4u7 100R 2201 1u0
B15/B23
*
*
AUDOUTLSR
B5
+8VSW_TV
+8VSW_TV
3202
HETV MTV (15W) (5W) 3203 5K6 820R 3202 5K6 10K 3206 5K6 820R 3205 5K6 10K
A
5
AV2_DMMI_SW SEL_IF_SDM
B15 / B23
AUDIO PROCESSING B5
4
HERCULES B15 B15
B2
2
6
7
8
9
10
11
1201 A6 1202 F9 2201 A3 2202 A3 2203 C2 2205 F3 2206 F4 2207 F4 2208 G3 2209 G4 2210 B5 2211 B5 2214 B5 2216 B6 2218 A6 2219 A6 2220 B6 2221 A7 2223 A8 2224 B8 2225 A9 2226 B9 2227 A10 2228 C4 2229 C4 2230 C4 2231 C4 2232 C4 2233 C4 2234 D3 2235 D3 2236 D4 2237 D4 2238 D4 2239 D4 2240 D4 2241 D4 2242 E4 2243 E4 2244 E5 2245 E5 2246 E5 2247 F5 2248 F6 2249 F6 2250 F6 2251 F6 2252 F6 2253 F7 2254 F7 2255 F7 2256 F7 2257 F7 2258 F4 2259 F7 2260 F7 2262 F7 2263 F7 2264 F7 2265 F7 2266 F8 2267 F8 2268 F8 2269 F9 2270 F9 2271 F9 2272 F9 2273 F9 2274 F9 2275 F9 2276 F9 2277 E9 2278 E10 2279 F11 2280 A2 2281 A2 2282 F9 2283 F9 2284 F9 2285 F5 2286 F6 2287 G6 2288 G6 2290 F2 2291 E1 2292 E10 2293 B10 3201 A2 3202 A3 3203 A3 3204 A2 3205 A3 3206 A4 3207 B5
3208 B5 3209 B5 3210 B5 3211 B5 3212 A5 3213 A6 3214 B6 3215 A6 3216 A6 3217 B6 3218 B6 3219 B7 3220 B7 3222 B8 3223 B8 3224 B8 3225 A8 3226 A8 3227 B8 3228 C2 3229 B8 3230 A8 3231 A8 3232 A8 3233 A8 3234 A8 3235 A9 3236 A9 3237 B9 3238 B9 3239 B9 3240 A9 3241 A9 3242 B9 3243 B10 3244 C2 3245 B10 3246 B10 3247 B10 3248 B10 3249 A10 3250 C1 3251 C3 3252 D3 3253 D3 3254 E3 3255 D1 3256 D2 3257 D2 3258 E1 3259 E2 3260 E2 3262 F2 3263 F3 3264 F3 3265 F3 3266 E4 3267 F4 3268 E5 3270 F6 3271 F6 3272 F7 3273 F8 3274 F8 3275 F8 3276 F8 3277 F9 3278 E10 3279 F10 3280 D4 3281 F7 3282 F2 3283 B7 3284 B7 3285 G6 3286 G5 3287 B7 3288 B7 3289 C2 3290 A7 3291 F2 3292 F2 3293 F2 3294 F2 3295 F7 3296 B4 4201 F4 4202 F4 4203 F4 4204 B9 4205 B9 4206 E2 4207 D1 4208 D2
4209 D2 4211 A4 4212 A4 4213 F4 4214 F5 4215 F5 5201 B4 5202 B5 5203 A7 5204 C4 5205 C4 5206 C3 5207 D3 5208 D4 5209 D4 5210 D4 5211 D4 5212 D4 5213 D4 5214 F8 5215 E10 5216 F9 5217 G6 5218 E1 6201 E3 6204 C11 6205 C11 6206 C11 7201-1 B1 7201-2 B1 7202-1 B2 7202-2 B2 7203-1 B2 7203-2 B3 7204-1 A3 7204-2 A3 7205-1 A4 7205-2 B3 7206 B6 7207 A10 7208 D1 7209 D1 7210 C2 7211 E3 7214 F2 7215 F3 7216-1 F3 7216-2 G2 7217 C5 7218 F10 7219 E1 F201 A2 F202 A2 F203 B2 F204 B2 F205 A6 F206 A6 F207 B7 F208 C7 F209 A7 F210 F1 F211 B8 F212 B7 F213 B9 F214 B9 F215 B9 F216 B9 F218 A10 F219 B11 F220 C2 F221 D2 F222 C5 F223 C5 F224 C4 F225 D4 F226 D4 F227 D3 F228 D4 F229 E4 F230 G4 F231 G4 F232 E4 F233 E4 F234 E4 F235 E5 F236 E5 F237 F5 F238 F5 F239 F6 F240 F6 F241 F6 F242 F7 F243 F7 F244 E7
F245 F8 F246 E9 F247 C10 F248 E7 F249 E10 F250 A7 I201 A4 I202 A4 I203 B5 I204 B5 I205 B6 I206 A6 I207 B6 I208 B6 I209 B7 I210 B8 I211 B8 I212 B8 I213 C9 I214 B9 I215 B9 I216 C10 I217 C10 I218 D2 I219 C5 I220 C4 I221 D4 I222 D4 I223 D4 I224 D4 I225 C9 I226 E8 I227 E5 I228 E6 I229 E7 I230 E6 I231 E7 I232 E7 I233 E7 I234 E7 I235 E7 I236 E8 I237 E8 I238 E9 I239 E9 I240 E9 I241 B9 I242 E3 I243 C3 I244 B6 I246 C2 I247 D3 I248 D3 I254 E5 I255 E6 I256 E6 I257 E6 I258 E6 I259 E7 I262 F8 I264 E8 I265 E10 I266 F10 I267 E10 I268 F10 I269 B10 I270 A10 I271 A10 I272 A10 I273 B8 I274 A8 I275 A8 I277 B8 I278 B8 I283 B5 I284 B5 I285 B5 I288 B5 I289 A2 I290 A2 I291 A3 I292 A2 I293 B2 I294 A3 I297 A8 I298 B7
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
26
SSB: Sync Interface
1
3
4
5
6
7
9
8
SYNC INTERFACE
A
B3 +3V3STBY
B3
2
+5VSW
+3V3STBY
A
4436 RES +3V3SW
6430 BZX384-C2V7
3451 4K7
3431 1K0
7436-1 74LVC14APW 14
I453
3453
I443
HOUT
TO SIDE CONNECTORS
100R
6431 1N4148
B
LED_SEL
I454
7430 0V PDTC114ET
2
1
3454
Hsync_SDTV
100R
7
B
I430 3432
ITV_IR_SW_RESET
RES
3V1
4437 RES +3V3SW
7436-2 74LVC14APW 14
C VSYNC
3463
I440
3455 100R
RES +3V3SW
3458
5
100R
D
H_DELAY
7
3456
C
Vsync_SDTV
100R
7436-4 74LVC14APW 14
14 4440
4
+3V3SW
7436-3 74LVC14APW COL_HREF
3
6
8
9
1440
H_1FH
1 2 3 4 5 7
SC1_CVBS_RF_OUT
100R
7
7
3459
I449 I450
4438 RES
&
D 6
BM05B-SRSS-TBT
+3V3SW
+3V3SW
2449 7436-6 7436-5 74LVC14APW74LVC14APW 14 14 COL_VA
E
3461
4441
100R Vsync_SDTV
13
12 7
11
100n 10
7
5431 +12VSW
3462
2447 10p
V_1FH
1441 I451 +5V I452 2448 10p
1 2 3 5
4
B3B-PH-SM4-TBT(LF)
100R
4439 RES
FOR ITV ONLY
H_16980_003.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
2
3
4
5
6
7
8
9
E
1440 D9 1441 E9 2447 E8 2448 E9 2449 E4 3431 A3 3432 B3 3451 A5 3453 B6 3454 B7 3455 C6 3456 C7 3458 D2 3459 D4 3461 E2 3462 E4 3463 C4 4436 A6 4437 B6 4438 D2 4439 E2 4440 D2 4441 E2 5431 E8 6430 A3 6431 B3 7430 B3 7436-1 A6 7436-2 C7 7436-3 D3 7436-4 D4 7436-5 E4 7436-6 E3 I430 B3 I440 C6 I443 B5 I449 D8 I450 D8 I451 E9 I452 E9 I453 B3 I454 B2
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
27
SSB: Audio Delay Line (PDP Only)
1
B4
2
3
4
5
6
7
8
9
10
AUDIO DELAY LINE (LIPSYNC)
B4
A
A
F501
5501 1u0
+5VSWI
+5VD
+5VD
14
C2
4
0 32k-1
2EN
9 5V3
14
2C1 G2
1+ (CT=255)Z4 CT=0
D
15 1
2V6
2
2V6
3
2V6
4
2V6
5
2V6
6
2V6
7
7505 74HC573PW
27 20
2D 3
LATCH
2504
LATCH
100n
7506 74HC573PW
5V3 20 2V3
1 11
2505
5V3
EN C1
2V3
2 2V6 1D 3 4 5 6 7 8 9
C
+5VD
+5VD
F502 22
11 2V3 10 5V3
5V3
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14
+5VD
2502 100n
A
28 CTR8
21 23 24 25 26 1 2 3 4 5 6 7 8 9 10
C
7502 CY62256LL-70ZC
+5VD
12 G1
2V3
16
VCC
RAM 32kx8
13 2V3
100n
A A,1D
EN3
2501
11 2V5
7501 M74HC590T
2V5 2V5 2V5 2V5 2V5 2V5 2V5
B
COUNTER
12 13 15 16 17 18 19
B
19 18 17 16 15 14 13 12
1 11 2 3 4 5 6 7 8 9
100n 20
EN C1 19 18 17 16 15 14 13 12
1D
2V6
4507 4508 4509 4510 4511 4512 4513 4514
RES RES RES RES RES RES RES
D F503
I2SDI1
2V6 10
10
GND 8
2506 330p
+5VD 2503 14 EN3
G1
1+ (CT=255)Z4
4
9
CT=0
2D 3
F
15
2V6
1
2V6
2
2V6
3
2V6
4
I503
5
I504
6
I505
4501
GND 8 7503 M74HC590T
F +5VD
2V6
4502
2V6
4503 *
2V6
7
G
*
LCD PDP 4503 N Y N 4504 Y
*
3501 470R I501 2V3
7504 BC847BW 0V2
COUNTER
I502 2508 82p
3502 47K
2509 82p
F505
2
3
I2SCLK
H_16980_004.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
E
CTR8
4506 RES
12 5V3 11 +5VD 2V3 10 5V3
C2
I2SDO1 2507 470p
5V3
4505 RES
E
F504
4504
13
100n
16 VCC
4
5
6
7
8
9
10
G
2501 B2 2502 C2 2503 E2 2504 C8 2505 C9 2506 D10 2507 E10 2508 G6 2509 G7 3501 F6 3502 G7 4501 F2 4502 F2 4503 F2 4504 G3 4505 G3 4506 G3 4507 D9 4508 D9 4509 D9 4510 D9 4511 D9 4512 D9 4513 D9 4514 D9 5501 B1 7501 B1 7502 B3 7503 G1 7504 G6 7505 C7 7506 C8 F501 B2 F502 C2 F503 D10 F504 E10 F505 G10 I501 G6 I502 G6 I503 F2 I504 F2 I505 F2
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
28
SSB: Audio Processing
1
B5
2
3
4
5
6
7
8
9
AUDIO PROCESSING
B5
FROM HERCULES
3605
A
4609
22K
AUDOUTLSL
2615
I604
3604
HPIC_LIN
I618
22K
1u0
2u2
F603
2604 470p
4618
F602
AUDOUTLSR
2V6 2 2V6 3
I602
HPIC_LOUT
**
2V6 1
2605
RES
4611
RES
7601-1 TS482IDT
4
F601
I608
3612
4610
22K I605
2618 3610 100K I610 HPIC_RIN
3609 22K
1u0
2u2
2609 470p
4612 RES
4619 RES
F604 F605
3611 100K
2610 1u0
2611 100u 16V
7601-2 TS482IDT
4
2608
2617
AUDIO-R
2V6 6 2V6 5
I603
HPIC_ROUT +5VSW
2V6 7
+5VSW
I607
3
RES 3V3
I611
3615
3V2
10K
7607 BC847BW
7602-2 74HC08PW 14 4 I612
6
2
4601 RES
3626 10K
4606
5
7604 BC847BW
7
7
3619
SOUND_ENABLE_1
3618 22K
RESERVED FOR UFD
C +3V3STBY
3617 1K0
I619
10K
4613
HP_DET_R_DC
D
4617
4616 ITV ONLY
+5VSW
2613 1u0 10V
+3V3SW
3V4
SOUND_ENABLE
3.2 TO 4.3V
+3V3STBY
7602-1 74HC08PW 14 I606 1
**
B HP_ROUT
4605 RES
2614 100n 4602
C
39R
5V3
3625 3K3 +3V3SW
3633
470u 16V
8
B
4604 RES
5V3
1u0
AUDIO-L
3627 22K
D
+5V
14 POWER_DOWN
3628 RES
7602-3 74HC08PW 8
9 I613
EXT_MUTE
7602-4 14 74HC08PW
I614
12 11
3616 1K0 POR_AUDIO
7
3629 RES
7603 BC847BW 0V
+5V +5VSW
E 4621 RES 4620
3630
7605 PDTA143ET 6601 BZX384-C3V3
3620 10K
7606-1 BC847BS
470R
I616 3621
E
2612 1u0 10V
RES
5V2
I615
0V
5V
I617
0V
4603
3631
7606-2 BC847BS
470R 2619 47u
F
+3V3STBY
RESERVED FOR UFD
13
10 7
3623 47K
4614
F
RES
4615 RES
OUT_MUTE
H_16980_005.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
2
A
8
2603
HP_LOUT
39R
470u 16V 2616
3632
3
4
5
6
7
8
9
2603 A5 2604 A6 2605 B6 2608 B5 2609 B6 2610 B6 2611 B6 2612 E9 2613 C8 2614 B8 2615 A8 2616 A4 2617 B4 2618 B8 2619 F5 3604 A6 3605 A7 3609 B6 3610 B6 3611 B6 3612 B7 3615 C7 3616 E9 3617 C9 3618 C8 3619 D8 3620 E8 3621 E8 3623 F5 3625 C6 3626 D2 3627 D2 3628 D5 3629 E5 3630 E5 3631 F5 3632 A9 3633 B9 4601 D2 4602 C8 4603 F8 4604 A9 4605 B9 4606 C7 4609 A9 4610 B9 4611 B4 4612 B4 4613 D2 4614 F8 4615 F8 4616 C4 4617 C5 4618 A4 4619 B4 4620 E5 4621 E5 6601 E4 7601-1 A7 7601-2 B7 7602-1 C4 7602-2 C5 7602-3 D5 7602-4 D6 7603 E8 7604 D8 7605 E4 7606-1 E6 7606-2 F6 7607 C7 F601 A4 F602 B4 F603 A6 F604 B6 F605 B6
I602 A8 I603 B8 I604 A9 I605 B9 I606 C4 I607 C4 I608 A5 I610 B5 I611 C7 I612 C6 I613 E3 I614 E4 I615 E4 I616 E8 I617 F5 I618 A6 I619 D8
Circuit Diagrams and PWB Layouts
SSB: DC-DC Converter 1
B6 A
2
3
LC4.8L LA
7.
4
5
29
6
7
8
9
10
DC-DC CONVERTER
B6 FOR LCD ONLY
FROM TOP CONNECTORS
A
I757
+3V3STBY +12VSW +5VSWI
7
6
I749
5755 RES
I756
+5V
2706 10u 16V
120R
B
2749 10u
I706
I709
1
I708
2
+12VUNREG
C
3709 6K8
1 I747 6V8
3758 15K
4
FROM SCALER
F710 +3V3STBY
5
OUT
CTRL NC
120R TO EPLD
7753 5759 RES L4940D2T12
I759
1
3760 100R
PANEL-PWR-CTL NC
1751 RES
5757
IN
2759 RES
7755 I760 PDTC114ET
OUT
PAN_VCC
3
5700
F700
120R
COM RES
2700 RES
2752 47u 16V
B
LVDS_VCC 11V5
2701 100p
2760 1u0 25V
F755 (0V) 0V6
COM
2709 47u 16V
2708 RES
2751 100n
3
6709 SS14
6708 SS24
IN
I750
7754 SI2301BDS-T1-E3 3 11V5 2
5704 7708 LF33CPT
3708 10K
3755 10K
5756
120R
5758 RES
120R
120R
2704 10u 16V
SS = 4V9
+12VSW
2
F701
120R
+12VUNREG
5 4 3 2 1
FOR UFD ONLY
C
I710
7710 L5973D 8
I711
VCC 3 2 NC SUP_GND2 SUP_GND2 SUP_GND2
D
COMP
10u
3712 5K6 1%
I716
7752 MC34063AD
22n
8
GND GND_HS 6712 SS36
2714 220p
3716 4K7
+12VSW
SUPPLY TO TUNER & HERCULES
I751
4710 RES
5752 10u
6710
E
I752
7730 L5970D
10u
I705 4 2730 10u 25V
2734 22n
3
2733 220p
F
7
VCC COMP INH GND
OUT FB SYNC VREF
6735 BAV99
I733
1
5733 220u
6733 SS14
SUP_GND1
3732 5738 120R
1 2738 47u 16V
IN
OUT COM
SUP_GND1
3 2739 47u 16V
3742 15K
G BZX384-C8V2
3740 1K5
I741 3741 1K5
SUP_GND1
3750 22K
FROM HERCULES
5735 1m0
5754
I754
10u 2757 470u 16V
+3V3STBY
2750 2u2
3759 5737
5V2 8V
+5VSW
F737 F738
0V
+8VSW_TV
TO LIPSYNC
F754
+5VSWI 5V4
2758 470u 16V
F
SUP_GND3 2762 22u 16V
+3V3SW
3V2
3V1
2737 470u 16V
3761 100R
G
2761 1u0 25V
B7 B16
7741 BC847BW
7758 SI9433BDY-T1-E3 SI4433DY
4 I748
7756 PDTC114ET
B5 2731 470u 16V
1K0
SC_STANDBY
F743 POWER_DOWN
2741 220n
TO SCALER CELL
3V2 TO HERCULES CELL
10u
7742 BC847BW
SUP_GND3
4n7
22K I742
+12VUNREG 6740 I740
I732
I736
3K3 1%
3754
2755
3743
+3V3STBY
2
1K0 1%
3733
6751 SS14
E SUP_GND3 4
3K3 1%
SUP_GND1 SUP_GND1
SUP_GND1 SUP_GND1
SUP_GND1 SUP_GND1 SUP_GND1
5753 220u
SUP_GND3 RES SUP_GND3
3735 1K0 SUP_GND1
SUP_GND1
+12VSW
2754 GND
2735 470p
I734
3736 4K7
7738 L78M08CDT
6736 BZX384-C33
2 6
5 1V2
2756 470p
GND
CIN_NEG
I755 I758
SUP_GND3
I735
7735 BC817-25
5
1K0 1%
2736 22u 35V
3
REFERENCE REGULATOR
6 VCC 11V7
I753
3753
2
1 2 3
8
2753 470u 16V
SWE TIMC
5 6 7 8
I731
+VTUN TO TUNER CELL
3734 820R
IPK OSC
32V9 F736
R 7 IS 11V7
3752 1R0
3751 1R0
BZX384-C6V2
5730
D
1 11V7
S Q
SUP_GND2 SUP_GND2 SUP_GND2 SUP_GND2
SUP_GND2
+12VSW
SWC
DCOL
2716 470u 16V
2713 470u 16V
3713 3K3 1%
SUP_GND2
SUP_GND2
FOR UFD ONLY
2715
I715
4
SUPPLY TO SCALER
5713
I713
33u
I714
5
FB SYNC
5712
I712
1
OUT
INH
9
2711 10u
Φ VREF
7
2710 10u
NC
6
5709 10u
FOR UFD ONLY
SUP_GND1 6701
FOR UFD ONLY
BAS316
H_16980_006.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
2
3
4
5
6
7
8
9
10
1751 B9 2700 B10 2701 B10 2704 B2 2706 B2 2708 C2 2709 C2 2710 D1 2711 D1 2713 D4 2714 D3 2715 D3 2716 D5 2730 F1 2731 G4 2733 F2 2734 F2 2735 F5 2736 E5 2737 G5 2738 G1 2739 G2 2741 G2 2749 B7 2750 F8 2751 B8 2752 B9 2753 E7 2754 E7 2755 F8 2756 E9 2757 F10 2758 F10 2759 B8 2760 C8 2761 G8 2762 F8 3708 C1 3709 C2 3712 D4 3713 D4 3716 D4 3732 F3 3733 G3 3734 D10 3735 F4 3736 F2 3740 G1 3741 G1 3742 G2 3743 G3 3750 F8 3751 E7 3752 E7 3753 E7 3754 E8 3755 B8 3758 B7 3759 F7 3760 B8 3761 G8 4710 E5 5700 B10 5704 B3 5709 C1 5712 D3 5713 D4 5730 E1 5733 F4 5735 F4 5737 F4 5738 G1 5752 E7 5753 E10 5754 E10 5755 A8 5756 A8 5757 B9 5758 A7 5759 B8 6701 G7 6708 C1 6709 C2 6710 E5 6712 D3 6733 F4 6735 E5 6736 E6
6740 G1 6751 E10 7708 B3 7710 C2 7730 E3 7735 F4 7738 G1 7741 G2 7742 G3 7752 D8 7753 B9 7754 B8 7755 B7 7756 G7 7758 F9 F700 B10 F701 A3 F710 B5 F736 E5 F737 G5 F738 G5 F743 G5 F754 E10 F755 C7 I705 E2 I706 B3 I708 C3 I709 B3 I710 C1 I711 C2 I712 D3 I713 D4 I714 D3 I715 D3 I716 D4 I731 E1 I732 G3 I733 E4 I734 F4 I735 F5 I736 F4 I740 G1 I741 G2 I742 G3 I747 B8 I748 F8 I749 A9 I750 B9 I751 D7 I752 E7 I753 E7 I754 E8 I755 E9 I756 B8 I757 A8 I758 E9 I759 B8 I760 B7
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
30
SSB: Scaler 1
3
2
4
5
6
7
8
9
B7
FSDATA(0) FSDATA(1) FSDATA(2) FSDATA(29)
3801-4 3801-3 3801-2 3801-1
4 3 2 1
5 6 7 8
22R FSDATAU0 22R FSDATAU1 22R FSDATAU2 22R FSDATAU29
FSDATA(26) FSDATA(7) FSDATA(25) FSDATA(24)
3802-4 3802-3 3802-2 3802-1
4 3 2 1
5 6 7 8
22R FSDATAU26 22R FSDATAU7 22R FSDATAU25 22R FSDATAU24
FSDATA(21) FSDATA(11) FSDATA(10) FSDATA(19)
3803-4 3803-3 3803-2 3803-1
4 3 2 1
5 6 7 8
22R 22R 22R 22R
FSDATAU21 FSDATAU11 FSDATAU10 FSDATAU19
FSDATA(14) FSDATA(18) FSDATA(16) FSDATA(15)
3804-1 3804-2 3804-3 3804-4
1 2 3 4
8 7 6 5
22R 22R 22R 22R
FSDATAU14 FSDATAU18 FSDATAU16 FSDATAU15
FSDATA(17) FSDATA(20) FSDATA(12) FSDATA(13)
3805-4 3805-3 3805-2 3805-1
4 3 2 1
5 6 7 8
22R 22R 22R 22R
FSDATAU17 FSDATAU20 FSDATAU12 FSDATAU13
FSDATA(23) FSDATA(22) FSDATA(9) FSDATA(8)
3806-1 3806-2 3806-3 3806-4
1 2 3 4
8 7 6 5
22R FSDATAU23 22R FSDATAU22 22R FSDATAU9 22R FSDATAU8
FSDATA(5) FSDATA(6) FSDATA(4) FSDATA(3)
3807-4 3807-3 3807-2 3807-1
4 3 2 1
5 6 7 8
22R 22R 22R 22R
FSDATAU5 FSDATAU6 FSDATAU4 FSDATAU3
FSDATA(30) FSDATA(31) FSDATA(27) FSDATA(28)
3808-2 3808-3 3808-4 3808-1
2 3 4 1
7 6 5 8
22R 22R 22R 22R
FSDATAU30 FSDATAU31 FSDATAU27 FSDATAU28
FSDATAU0 E24 FSDATA0 FSDATAU1 E25 FSDATA1 FSDATAU2 E26 FSDATA2 FSDATAU3 G26 FSDATA3 FSDATAU4 G24 FSDATA4 FSDATAU5 H26 FSDATA5 FSDATAU6 H24 FSDATA6 FSDATAU7 J25 FSDATA7 FSDATAU8 T26 FSDATA8 FSDATAU9 R25 FSDATA9 FSDATAU10 P24 FSDATA10 FSDATAU11 P26 FSDATA11 FSDATAU12 N24 FSDATA12 FSDATAU13 N26 FSDATA13 FSDATAU14 M25 FSDATA14 FSDATAU15 L24 FSDATA15 FSDATAU16 L25 FSDATA16 FSDATAU17 M26 FSDATA17 FSDATAU18 M24 FSDATA18 FSDATAU19 N25 FSDATA19 FSDATAU20 N23 FSDATA20 FSDATAU21 P25 FSDATA21 FSDATAU22 R26 FSDATA22 FSDATAU23 R24 FSDATA23 FSDATAU24 K24 FSDATA24 FSDATAU25 J26 FSDATA25 FSDATAU26 H25 FSDATA26 FSDATAU27 G23 FSDATA27 FSDATAU28 G25 FSDATA28 FSDATAU29 F24 FSDATA29 FSDATAU30 F25 FSDATA30 FSDATAU31 F26 FSDATA31
FSADDRU8 FSADDRU7 FSADDRU6 FSADDRU5
3810-1 3810-2 3810-3 3810-4
1 2 3 4
8 7 6 5
22R 22R 22R 22R
FSADDR(8) FSADDR(7) FSADDR(6) FSADDR(5)
FSADDRU4 FSADDRU9 FSADDRU11 FSADDRU10
3811-4 3811-3 3811-2 3811-1
4 3 2 1
5 6 7 8
22R 22R 22R 22R
FSADDR(4) FSADDR(9) FSADDR(11) FSADDR(10)
FSDQMU0 FSDQMU1 FSDQMU2 FSDQMU3
3812-1 3812-3 3812-4 3812-2
1 3 4 2
8 6 5 7
22R 22R 22R 22R
FSDQM(0) FSDQM(1) FSDQM(2) FSDQM(3)
FSWEU FSCASU FSRASU FSCKEU
3813-1 3813-2 3813-3 3813-4
1 2 3 4
8 7 6 5
22R 22R 22R 22R
FSWE FSCAS FSRAS FSCKE
22R 22R
FSBKSEL(0) FSBKSEL(1)
AD25 FSADDRU0 AD26 FSADDRU1 AC24 FSADDRU2 AC25 FSADDRU3 AB26 FSADDRU4 AA24 FSADDRU5 AA25 FSADDRU6 AA26 FSADDRU7 Y24 FSADDRU8 AB25 FSADDRU9 AC26 FSADDRU10 AB24 FSADDRU11
FSBKSEL0 FSBKSEL1
Y25 Y26
FSDQM0 FSDQM1 FSDQM2 FSDQM3
T25 U25 U26 T24
FSDQMU0 FSDQMU1 FSDQMU2 FSDQMU3
FSCKE
W26
FSCKEU
FSWE
V26
FSWEU
FSCAS
V25
FSCASU
FSRAS
V24
FSRASU
FSCLKn
U23
FSCLK-
FSCLKp U24
FSCLK+
FSDQS MSTR_SCL|GPI_03 MSTR_SDA|GPI_04
FSBKSELU0 FSBKSELU1
FSBKSELU0 FSBKSELU1
3814 3815
3816
L26
3817
P4 P3
3818
22R
10K
3820
3839
H
V_1FH
I800
H_1FH
I816
I812
B17
I818
D20
I815
100R
OCMDATA(0) OCMDATA(1) OCMDATA(2) OCMDATA(3) OCMDATA(4) OCMDATA(5) OCMDATA(6) OCMDATA(7) 3825-3 3825-2 3825-1 3826-3 3826-1 3825-4 3826-2 3826-4
SVHSYNC|GPIO_02 SVVSYNC|GPIO_01
C19 B19 A19 D18 C18 B18 A18 C17 B25 A25 D24 C24 B24 A24 C23 B23
FROM MUX-SYNC INTF COL_Do(8)_INV
1801 14M31818 SMD-49
B
F2 VDDD33_PLL
J1
H1
VDDA33_FPLL
VDDD33_SDDS
G1
F4 VDDA33_RPLL
VDDD33_DDDS
C
OCMADDR0 OCMADDR10|GPIO_G11_B2 OCMADDR1 OCMADDR11|GPIO_G11_B3 OCMADDR2 OCMADDR12|GPIO_G11_B4 OCMADDR3 OCMADDR13|GPIO_G11_B5 OCMADDR4 OCMADDR14|GPIO_G11_B6 OCMADDR5 OCMADDR15|GPIO_G11_B7 OCMADDR6 OCMADDR16|GPIO_19 OCMADDR7|GPIO_18 OCMADDR17|GPIO_20 OCMADDR8|GPIO_G11_B0 OCMADDR18|GPIO_21 OCMADDR9|GPIO_G11_B1 OCMADDR19|GPIO_22
OCMADDR(10) OCMADDR(11) OCMADDR(12) OCMADDR(13) OCMADDR(14) OCMADDR(15) OCMADDR(16) OCMADDR(17) OCMADDR(18) OCMADDR(19)
V2 V3 V4 U1 U2 U3 U4 T1 T2 T3
D
TO SCALER INTRF
3 2 1 3 1 4 2 4
6 7 8 6 8 5 7 5
I802 I803
AD4 OCMDATA0 OCM_TIMER1|PWM3|GPIO_13 AF3 OCMDATA1 AE3 OCMDATA2 OCM_UDI|GPIO_27 AD3 OCMDATA3 AF2 OCMDATA4 OCM_UDO|GPIO_26 AE2 OCMDATA5 AD2 OCMDATA6 OCM_INT1|GPIO_30 AF1 OCMDATA7 AE1 OCMDATA8|GPIO_G10_B0 OCM_INT2|GPI_10 AD1 OCMDATA9|GPIO_G10_B1 AC1 OCMDATA10|GPIO_G10_B2 OCM_WE_ AC2 OCMDATA11|GPIO_G10_B3 AC3 OCMDATA12|GPIO_G10_B4 OCM_RE_ AB1 OCMDATA13|GPIO_G10_B5 AB2 OCMDATA14|GPIO_G10_B6 OCM_CS0_|GPIO_23 AB3 OCMDATA15|GPIO_G10_B7 OCM_CS1_|GPIO_24
I804
D25
UART_RX UART_TX
M1
ROM_CS_|GPI_9
TO TUNER
POWER_DOWN
I805
L2
V-CHIP_INT (RESERVED)
L1
TO DC-DC CONVERTER #OCM_WE
R3
#OCM_RE
R2 3827 3828 3829
I806 I807 I808
T4 P1 OCM_CS2_|GPIO_25 P2
FROM HDMI
E
BU_LHT_ADJ1
M2
F
10K 10K 10K
+3V3SW #ROM_CS
R1
B3B-PH-SM4-TBT(LF) SVCLK|GPI_0
D19 VHS_CSYNC|GPIO_04
HDMI_CbCr(0) HDMI_CbCr(1) HDMI_CbCr(2) HDMI_CbCr(3) HDMI_CbCr(4) HDMI_CbCr(5) HDMI_CbCr(6) HDMI_CbCr(7)
I
FROM MUX-SYNC INTF
B20 VODD|HSOUT|GPIO_06
A23 C22 B22 A22 D21 C21 B21 A21
3824 3K3
VCLAMP|GPIO_31 3823
I801
OCM_DATA
TO HDMI
VDV|VSOG|GPIO07
K2
7801-5 GM1501-LF-BD
10K
C20 VVS|GPIO_05
FROM SYNC INTERFACE COL_YB(1) COL_YB(2) COL_YB(3) COL_YB(4) COL_YB(1:8) COL_YB(5) COL_YB(6) COL_YB(7) COL_YB(8) COL_Do(1:7) COL_Do(1) COL_Do(2) COL_Do(3) COL_Do(4) COL_Do(5) COL_Do(6) FROM HDMI COL_Do(7)
AA1 AA2 AA3 Y1 Y2 Y3 W1 W2 W3 V1
TO FLASH CONTROL
VIDEO
10K
ACS_RSET_HD
G4
TO FLASH / CONTROL
TO SCALER INTRF
7801-6 GM1501-LF-BD
COL_DE
VDDA33_SDDS
OCMADDR(0) OCMADDR(1) OCMADDR(2) OCMADDR(3) OCMADDR(4) OCMADDR(5) OCMADDR(6) OCMADDR(7) OCMADDR(8) OCMADDR(9)
TO EPLD
3819 RES
2824 22p XTAL
7801-4 GM1501-LF-BD OCM-ADR
VGRN0|GPIO_G02_B0 VGRN1|GPIO_G02_B1 VGRN2|GPIO_G02_B2 VGRN3|GPIO_G02_B3 VGRN4|GPIO_G02_B4 VGRN5|GPIO_G02_B5 VGRN6|GPIO_G02_B6 VGRN7|GPIO_G02_B7
SVODD|GPIO_00 SVDV|VCOAST|GPIO_03 SVDATA7|GPIO_G00_B7 SVDATA6|GPIO_G00_B6 SVDATA5|GPIO_G00_B5 SVDATA4|GPIO_G00_B4 SVDATA3|GPIO_G00_B3 SVDATA2|GPIO_G00_B2 SVDATA1|GPIO_G00_B1 SVDATA0|GPIO_G00_B0
VRED0|GPIO_G01_B0 VRED1|GPIO_G01_B1 VRED2|GPIO_G01_B2 VRED3|GPIO_G01_B3 VRED4|GPIO_G01_B4 VRED5|GPIO_G01_B5 VRED6|GPIO_G01_B6 VRED7|GPIO_G01_B7
VCLK|GPI_01
D16
RES
C14
HDMI_VHS
B14
HDMI_VVS
A14
HDMI_VCLK
3822
+3V3_IO
TO HDMI
3830 RES
FROM DIGITAL-IO (CINCH)
TO EPLD HDMI_HOTPLUG_RESET
COL_CLKASA FROM COLUMBUS
PIXEL+_RESET (RESERVED FOR CINCH ONLY) CVI_VGA_SEL
AV3_HDMI-AUDIO_SEL
VBLU0|GPIO_G03_B0 VBLU1|GPIO_G03_B1 VBLU2|GPIO_G03_B2 VBLU3|GPIO_G03_B3 VBLU4|GPIO_G03_B4 VBLU5|GPIO_G03_B5 VBLU6|GPIO_G03_B6 VBLU7|GPIO_G03_B7
3831 3832
100R PDP_GO_UP I819 100R VS_ON
POWER_UP_OK 3833 10R RESERVED FROM ANALOG-IO (CINCH)
3840 22R
AD23 GPIO_G04_B0|DOBLU2 AD24 GPIO_G04_B1|DOBLU3 AE24 GPIO_G04_B2|DOBLU4 AF24 GPIO_G04_B3|DOBLU5 AF25 GPIO_G04_B4|DOBLU6 AF26 GPIO_G04_B5|DOBLU7 AE25 GPIO_G04_B6|DOBLU8 AE26 GPIO_G04_B7|DOBLU9
GPIO_G08_B0|JTAG_CLK|DORED0 GPIO_G08_B1|JTAG_MODE|DORED1 GPIO_G08_B2|JTAG_TDI|DOGRN0 GPIO_G08_B3|DVS|DOGRN1 GPIO_G08_B4|JTAG_TDO|DOBLU0 GPIO_G08_B5|JTAG_RESET|DOBLU1 GPIO_G09_B0|DERED0 GPIO_G09_B1|DERED1 GPIO_G09_B2|DEGRN0 GPIO_G09_B3|DEGRN1 GPIO_G09_B4|DEBLU0 GPIO_G09_B5|DEBLU1
NC
AD21 GPIO_G05_B0|DOGRN2 AD22 GPIO_G05_B3|DOGRN5
COL_CLKASB 4801
3837 10K
GPIO HDMI_VDV HDMI_Y(7) HDMI_Y(6) HDMI_Y(5) HDMI_Y(4) HDMI_Y(3) HDMI_Y(2) HDMI_Y(1) HDMI_Y(0)
I817
1802
7801-9 GM1501-LF-BD
100R
A17 D14 A15 B15 C15 D15 A16 B16 C16 A20
FOR SW TESTING (RES)
+3V3_IO
I820 I821 SD_HD_SEL
TO COLUMBUS
A
+3V3_PLL
TO FLASH / CONTROL
+3V3SW
F
2822 100n
2821 100n
FSDQS
10K SCL_IO SDA_IO +3V3SW
G2 VSSD33_PLL
FSADDR(3) FSADDR(2) FSADDR(1) FSADDR(0)
VSSD33_SDDS
22R 22R 22R 22R
FSADDR0 FSADDR1 FSADDR2 FSADDR3 FSADDR4 FSADDR5 FSADDR6 FSADDR7 FSADDR8 FSADDR9 FSADDR10 FSADDR11
K25 VSSA18_DLL
FSVREF
5 6 7 8
K4 VSSD33_DDDS
10K F801 J24 FSVREF1 K26 FSVREFVSS1 2813 2814 100n 100n W25 FSVREF2 W24 FSVREFVSS2
4 3 2 1
CLK-SYN
J4
R4 EXTCLK|GPI_02
3809-4 3809-3 3809-2 3809-1
VSSA33_RPLL
3800
FROM SDRAM
FSADDRU3 FSADDRU2 FSADDRU1 FSADDRU0
7801-11 GM1501-LF-BD
H4 VSSA33_FPLL
B
TO SDRAM
F3
M3 IR0|GPIO_29 M4 IR1|GPIO_28
VSSA33_DDDS
K1 RESET_
#RESET
G3 TCLK
VDDA33_DDDS
FS_2.5
VSSA33_SDDS
SYSTEM
H2
FS_2.5
K23
FROM SDRAM
2823 22p
VDDA18_DLL
P23 M23 L23 J23 H23 F23 E23
AC23 AB23 AA23 Y23 W23 V23 T23 R23
7801-12 GM1501-LF-BD
J3
H3
+1V8_CORE
+2V5_DDR
+2V5_DDR
2820 100n
2816 2817 2818 2819 100n 100n 100n 100n
J2
I813
2815 22u 16V
+3V3_PLL
G
14
F802 2801 2802 2803 2804 2805 2806 2807 2808 2809 2810 2811 2812 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n
100u 16V
E
13
B7
F800
D
12
+3V3_PLL
2800
C
11
SCALER
+2V5_DDR
A
10
HOT_PLUG
TO DIGITAL-IO
AC18 GPIO_G06_B0|DORED2 AD18 GPIO_G06_B1|DORED3 AE18 GPIO_G06_B2|DORED4 AF18 GPIO_G06_B3|DORED5
GPIO_14|DHS GPIO_15|DVS
AE8 GPIO_G07_B0|DERED2 AF8 GPIO_G07_B1|DERED3 AC9 GPIO_G07_B2|DERED4 AD9 GPIO_G07_B3|DERED5 AE9 GPIO_G07_B4|DERED6 AF9 GPIO_G07_B5|DERED7 AD10 GPIO_G07_B6|DERED8 AE10 GPIO_G07_B7|DERED9
GPIO_16|DEN
AD6 I809 AE6 AF6 NC I810 AE7 AF7 I822 AD8 AE4 AF4 AC5 AD5 AE5 AF5
JTAG_CLK_SCL 3834
10K
3835
10K
3836
10K
3838 I811 10K F803 F804
4
3 2 1
PC_HD_SEL
TO MUX-SYNC INTF +3V3_IO
RGB|CVI_HDA_SEL TV_SC_COM TV_IRQ NVM_WP_SCALER
TO FLASH / CONTROL 3841 10K COL_RST
SC2_OUT_SW
AD16
TO ANALOG-IO (SCART)
/
TO HERCULES
TO COLUMBUS
(CINCH)
I
H_16980_007.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10 4
5
6
7
8
9
H
Y_NOTCH
AD7
(SCART)
3
G
JTAG_TDI_SDA
SC2|AV2_SIDE_SW
AF17
5
10
11
12
13
14
1801 B12 1802 G14 2800 A1 2801 A1 2802 A1 2803 A1 2804 A2 2805 A2 2806 A2 2807 A2 2808 A2 2809 A3 2810 A3 2811 A3 2812 A3 2813 B2 2814 B3 2815 A9 2816 A9 2817 A10 2818 A10 2819 A10 2820 A12 2821 A12 2822 A12 2823 A10 2824 A12 3800 B3 3801-1 C1 3801-2 C1 3801-3 C1 3801-4 C1 3802-1 C1 3802-2 C1 3802-3 C1 3802-4 C1 3803-1 D1 3803-2 D1 3803-3 C1 3803-4 C1 3804-1 D1 3804-2 D1 3804-3 D1 3804-4 D1 3805-1 D1 3805-2 D1 3805-3 D1 3805-4 D1 3806-1 D1 3806-2 E1 3806-3 E1 3806-4 E1 3807-1 E1 3807-2 E1 3807-3 E1 3807-4 E1 3808-1 E1 3808-2 E1 3808-3 E1 3808-4 E1 3809-1 B6 3809-2 B6 3809-3 B6 3809-4 B6 3810-1 B6 3810-2 B6 3810-3 B6 3810-4 B6 3811-1 C6 3811-2 C6 3811-3 C6 3811-4 C6 3812-1 C6 3812-2 C6 3812-3 C6 3812-4 C6 3813-1 C6 3813-2 D6 3813-3 D6 3813-4 D6 3814 D6 3815 D6 3816 D6 3817 D6 3818 E6 3819 F2 3820 F1 3822 G5 3823 F5 3824 B12 3825-1 F9 3825-2 F9 3825-3 F9 3825-4 F9 3826-1 F9 3826-2 F9 3826-3 F9 3826-4 F9 3827 F13 3828 F13 3829 F13 3830 H10 3831 I9 3832 I9 3833 I9 3834 G13 3835 G13 3836 G13 3837 G14 3838 G14 3839 G3 3840 I3 3841 H14 4801 H5 7801-11 A11
7801-12 A4 7801-4 C11 7801-5 E11 7801-6 F4 7801-9 G11 F800 A1 F801 B3 F802 A9 F803 G14 F804 G14 I800 G2 I801 B12 I802 F10 I803 F10 I804 E12 I805 E12 I806 F12 I807 F12 I808 F12 I809 G12 I810 G12 I811 G14 I812 F3 I813 A1 I815 G3 I816 G2 I817 H5 I818 F3 I819 I10 I820 I10 I821 I10 I822 G12
Circuit Diagrams and PWB Layouts
SSB: Scaler 1
2
LC4.8L LA
3
7.
4
31
5
6
8
9
10
SCALER
B8
B8 F901
SUPPLY FOR SCALER
2905 100u 16V
+3V3SW
F902 2906 100n
2907 100n
2908 100n
2909 100n
2910 100n
2911 100n
2912 100n
2913 100n
2914 100n
2916 100n
2915 100n
+3V3_IO
5900
7801-14 GM1501-LF-BD
+1V8_CORE
+3V3_IO
A
7
2917 100u 16V
NC A1 2918 100n
2919 100n
2920 100n
2921 100n
2922 100n
2923 100n
2925 100n
2924 100n
2926 100n
2927 100n
2928 100n
2929 100n
NC
C5
NC
A
AC17 NC K3
NC NC
NC D5
NC
F1 NC
+1V8_CORE
7801-13 GM1501-LF-BD
SUPPLY
IO_3.3 5902
B
+3V3_LBADC
CORE_1.8 2940 47u 16V
+3V3_DVI
2941 100n
7801-3 GM1501-LF-BD
5903
ADC
+3V3_IO 5904
KEYBOARD
F900
4900 RES
C12
+3V3_LBADC 5905
D_GND
D_GND
5906
F903 2930 100n
IN
OUT
3
I900
2931 100n
2932 100n
2934 47u 16V
2933 100n D6 D8 D9 D10
7900 LF25CDT +2V5_DDR
TO DIGITAL-IO (SCART ONLY)
2
2901 1n0
2902 470u 16V
D +3V3SW 5909 7901 LD1086D2T18 OUT
2
I902 +1V8
N4 N3
RXC+IN RXC-IN
A6 B6
RX0+IN RX0-IN
A8 B8
RX1+IN RX1-IN
A9 B9
RX2+IN RX2-IN
A10 RX2p B10 RX2n
5910
B11
+1V8_DVI
LBADC_RETURN LBADC_GND
C
2936 100n
2937 100n
2938 100n
2939 100n 7801-10 GM1501-LF-BD
DVI_3.3
DISPLAY PWR
DVI_SCL|GPI_07 DVI_SDA|GPI_08
+3V3_LVDS AD19
RXCp RXCn
AC19 AC20
RX0p RX0n
AC13
RX1p RX1n
AC14 AC15 AD17
LVDSA_GND_1
VDDD33_LVDS
LVDSA_GND_2
LVDSA_3.3_3
LVDSA_GND_3
LVDSA_3.3_2
LVDSB_GND_1
LVDSA_3.3_1
LVDSB_GND_2
LVDSB_3.3_3
LVDSB_GND_3
LVDSB_3.3_2 LVDSB_3.3_1
VSSD33_LVDS
AE17
F905 +3V3_LVDSA
AC22
F906 2945 22u 16V
AC21
2946 100n
2947 100n
2948 100n
2949 100n
D
AD20 +3V3_LVDSB AC12
F907
AD13
2950 22u 16V
2951 100n
2952 100n
AD12
REXT DVI_GND
COM 2903 100n
2904 47u 16V
1
E
IN
SCL_DVI SDA_DVI
LBADC_IN3
5911
E
A7 A11 B5 B7 C7 D7 D11
I901 3
+1V8_ADC
DVI
DVI_1.8
COM 2900 100n
2935 100n
7801-2 GM1501-LF-BD
5908
LBADC_IN2
F904
C11 C10 C9 C8 C6
+3V3_LVDS
+3V3_DVI
+1V8_DVI
LBADC_IN1
D13
5907
1
A12
2942 100n
I905
+3V3SW
B12
(RES)
D12
+3V3_LVDSB
C
(RES)
A13 B13 K12 K13 K14 K15 L10 L12 L13 L14 L15 L17 M10 M11 M12 M13 M14 M15 M16 M17 N10 N11 N12 N13 N14 N15 N16 N17 P10 P11 P12 P13 P14 P15 P16 P17 R10 R11 R12 R13 R14 R15 R16 R17 T10 T12 T13 T14 T15 U12 U13 U14 U15 AD15
+3V3_LVDSA
D_GND
B
C13
+3V3_ADC
LBADC_33
5901
U17 U16 U11 U10 T17 T16 T11 L16 L11 K17 K16 K11 K10
AC10 AC8 AC6 AC4 AB4 AA4 Y4 W4 D23 D22 D17
+3V3_PLL
+1V8_CORE
I906 +3V3STBY
3902 RES
2953 100n
F
HERCULES
FROM DC-DC CONVERTER
7801-7 GM1501-LF-BD
AVSYNC
L3
AHSYNC
L4
SCL SDA
CTRL 3900 3K3 I904 FAN_SPEED
AC16 C26
OEXTR
PPWR|GPIO_08
PWM0|GPIO_10
PBIAS|GPIO_09 DCLK|GPIO_17
HD_FILTER
C25
PWM1|GPIO_11
PWM2|GPIO_12
A26
PANEL-PWR-CTL
B26
LAMP_ON_OFF
AC7
NC I903 BU_LHT_ADJ2 D26 (RES)
G
3903 3904
F909
2954 100n
2955 22u 16V
& TO COLUMBUS
+3V3_ADC
100R 100R
N2 N1
SOG
C3
R_PR+ R_PR-
D2 D1
G_Y+ G_Y-
C2 C1
B_PB+ B_PB-
B2 B1
ADC_1.8 AVSYNC
ANA-IN
3
4
5
6
7
8
2959 100n
ADC_3.3
F
AHSYNC VGA_SCL|GPI_05 VGA_SDA|GPI_06 SOG REDp REDn GREENp GREENn
G
BLUEp BLUEn ADC_DGND A5 B4
C4 D4 E1 E2 E4
2
2958 100n
F910
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
2957 100n
7801-1 GM1501-LF-BD
ADC_AGND
TO TOP CONN.
2956 100n
B3 E3 D3 A2
3901 RES
ADC
+1V8_ADC
A4 A3
TO MUX-SYNC INTERFACE
F908
H_16980_008.eps 230207
9
10
2900 D1 F900 B1 2901 D1 F901 A3 2902 D2 F902 A6 2903 E1 F903 C4 2904 E1 F904 C6 2905 A3 F905 D9 2906 A3 F906 D9 2907 A4 F907 D9 2908 A4 F908 E8 2909 A4 F909 E9 2910 A4 F910 G9 2911 A4 I900 C1 2912 A5 I901 E1 2913 A5 I902 E1 2914 A5 I903 G5 2915 A5 I904 F4 2916 A5 I905 C3 2917 A6 I906 E5 2918 A6 2919 A7 2920 A7 2921 A7 2922 A7 2923 A7 2924 A8 2925 A8 2926 A8 2927 A8 2928 A8 2929 A9 2930 C4 2931 C4 2932 C5 2933 C5 2934 C6 2935 C7 2936 C7 2937 C7 2938 C7 2939 C7 2940 B9 2941 B9 2942 C9 2945 D10 2946 D10 2947 D10 2948 D10 2949 D10 2950 E10 2951 E10 2952 E10 2953 F8 2954 F8 2955 F9 2956 F10 2957 F10 2958 F10 2959 F10 3900 F4 3901 F7 3902 F7 3903 F7 3904 F7 4900 B8 5900 B1 5901 B1 5902 B1 5903 B1 5904 B1 5905 C1 5906 C1 5907 C1 5908 C2 5909 E2 5910 E2 5911 E2 7801-1 F9 7801-10 D9 7801-13 B5 7801-14 A10 7801-2 C5 7801-3 B10 7801-7 F5 7900 C1 7901 E1
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
32
SSB: Scaler Interface
1
B9
2
3
4
5
6
7
8
9
SCALER INTERFACE
A
B9 A
7801-8 GM1501-LF-BD
ACp|GPIO_G06_B6|DORED8 AE20 ACn|GPIO_G06_B7|DORED9 AF20
TO SCALER
A3p|GPIO_G06_B4|DORED6 AE19 A3n|GPIO_G06_B5|DORED7 AF19 A2p|GPIO_G05_B1|DOGRN3 AE21 A2n|GPIO_G05_B2|DOGRN4 AF21 A1p|GPIO_G05_B4|DOGRN6 AE22 A1n|GPIO_G05_B5|DOGRN7 AF22
B
NC
IA07
SHIELD5|DEBLU5 AD14 SHIELD4|DEBLU2 AE13 SHIELD3|DEGRN5 AE11 SHIELD2|DEGRN4 AD11 SHIELD1|DEGRN3 AC11 SHIELD0|DEGRN2 AF10
3A03 RES
IA06
3 7A01 SI2301DS-T1
3A06
BACKLIGHT_DIM
BACKLIGHT CONTROL 5V DC 5V PWM 3V3 DC 3V3 PWM 390R 390R 1K 1K Y Y Y Y 0R 0R 10K 10K 1u 1u -
TO TOP CONNECTORS
C
IA00
BACKLIGHT_CTRL
10K 3A04 1K0
TXB2+ TXB2-
B2p|DEBLU3 AF14 B2n|DEBLU4 AE14
3A05 RES
1
1K0
TXB3+ TXB3-
B3p|DEGRN6 AF11 B3n|DEGRN7 AF12
2
3A02
BU_LHT_ADJ1
TXBC+ TXBC-
BCp|DEGRN8 AE12 BCn|DEGRN9 AF13
2A03 1u0
TXB1+ TXB1-
B1p|DEBLU6 AF15 B1n|DEBLU7 AE15
TXB0+ TXB0-
B0p|DEBLU8 AF16 B0n|DEBLU9 AE16
D
3A03 3A05 3A04 7A01 4A03 3A06 2A03
RES +5VSWI
TO EPLD
B
IA05
4A02 RES
A0p|GPIO_G05_B6|DOGRN8 AE23 A0n|GPIO_G05_B7|DOGRN9 AF23
C
FROM EPLD
RESERVED
4A03
D
LVDS
+3V3STBY
FOR UFD ONLY
FOR PDP ONLY
+3V3SW
+3V3SW
2A00 100n
3A08 10K
+3V3STBY
5A00
2A13 100n
3A13 10K
+5V
E
8
TO EPLD
7A00 PCA9515ADP VCC 3A00
SDA_DMA_BUS1_DISP
6
SDA1
SDA0
3
SDA_IO
7
SCL1
SCL0
2
SCL_IO
EN
5
68R
68R 2A02 100p
1 NC
NC
GND
4A04
BUF_ENABLE
F
7A02 BC847BW
FROM HERCULES
(PDP)
SC_STANDBY
4
2A01 100p
7A03 BC847BW
IA09
3A10
STANDBY
IA03 6A01
3A01
SCL_DMA_BUS1_DISP
3A14 4K7
3A11 4K7
IA08
10K 2A12 10n
4A00 RES 4A01 RES
4A05
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
2
3
4
5
6
BZX384-C3V9
E
3A07 10K
F
H_16980_009.eps 230207
4A06
7
8
9
2A00 E3 2A01 F2 2A02 F2 2A03 C7 2A12 F6 2A13 E8 3A00 E2 3A01 F2 3A02 C5 3A03 C6 3A04 C6 3A05 C6 3A06 C7 3A07 E2 3A08 E2 3A10 F6 3A11 E7 3A13 E8 3A14 E9 4A00 F3 4A01 F3 4A02 B6 4A03 D6 4A04 F4 4A05 F6 4A06 F8 5A00 E3 6A01 F8 7801-8 A2 7A00 E4 7A01 C6 7A02 F6 7A03 E8 IA00 C7 IA03 F6 IA05 B8 IA06 C7 IA07 B6 IA08 E3 IA09 F3
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
33
SSB: SDRAM
1
B10
2
3
4
5
6
7
8
SDRAM
B10
+2V5_DDR
A
A 2B01 47u 16V
2B02 47u 6.3V
2B03 100n
2B04 100n
2B06 100n
2B05 100n
2B07 100n
2B08 100n
2B09 100n
2B10 100n
2B11 100n
2B13 100n
2B12 100n
2B14 100n
2B15 100n
2B16 100n TO/FROM SCALER
+2V5_DDR
TO/FROM SCALER 3B01 10K 1%
B
FB01
FSVREF
2B18
FSDATA(0)
16V 22u 2B17
FSDATA(1)
VREF 28 27 26 25
C
D
3B03 IB03 IB02
150R 1% 55 54 53
FSDQM(0) FSDQM(1) FSDQM(2) FSDQM(3)
23 56 24 57
FSBKSEL(0) FSBKSEL(1)
29 30
FSADDR(0) FSADDR(1) FSADDR(2) FSADDR(3) FSADDR(4) FSADDR(5) FSADDR(6) FSADDR(7) FSADDR(8) FSADDR(9) FSADDR(10) FSADDR(11)
31 32 33 34 47 48 49 50 51 45 36 37 38 39 40 41 42 43
E
93 52
Φ
VDD
CS RAS CAS WE
FSDATA(4)
2 8 14 22 59 67 73 79 86 95
7B01 K4D263238F-UC50
FSRAS FSCAS FSWE FSCLK+ FSCLKFSCKE
B
FSDATA(3)
58 15 35 65 96
3B02 10K 1%
FSDATA(2)
+2V5_DDR
100n
VDDQ
SDRAM 1M X 32 X 4
NC
CK CK CKE 0 1 DM 2 3 D 0 BA 1 0 1 2 3 4 5 A 6 7 8 9 10 11 D
NC
RFU MCL
DQS
FSDATA(5)
97 98 100 1 3 4 6 7 60 61 63 64 68 69 71 72 9 10 12 13 17 18 20 21 74 75 77 78 80 81 83 84
FSDATA(8)
FSDATA(6) FSDATA(7)
C
FSDATA(9) FSDATA(10) FSDATA(11)
FSDATA(12) FSDATA(13) FSDATA(14) FSDATA(15)
D
FSDATA(16) FSDATA(17) FSDATA(18) FSDATA(19)
FSDATA(20) FSDATA(21)
E
FSDATA(22)
94
FSDATA(23)
5 11 19 62 70 76 82 92 99
VSSQ
16 46 66 85
VSS
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
44 87 88 89 90 91
FSDATA(24) FSDATA(25) FSDATA(26)
F
FSDATA(27)
FSDATA(28) FSDATA(29)
FSDQS
FSDATA(30) FSDATA(31)
H_16980_010.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
2
3
4
5
6
7
8
F
2B01 A1 2B02 A1 2B03 A1 2B04 A2 2B05 A2 2B06 A2 2B07 A3 2B08 A3 2B09 A3 2B10 A3 2B11 A4 2B12 A4 2B13 A4 2B14 A5 2B15 A5 2B16 A5 2B17 B4 2B18 B4 3B01 B3 3B02 B3 3B03 C3 7B01 B3 FB01 B3 IB02 C2 IB03 C2
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
34
SSB: Flash / Control
1
B11
2
3
4
5
6
7
FLASH / CONTROL
B11 +3V3_IO
A
A
5C00 TO SCALER
2C00
C
#OCM_RE #OCM_WE #ROM_CS
24 31 22
A
2 1 3 4
7 8 6 5
10K 10K 10K 10K
OCMADDR(12) OCMADDR(15) OCMADDR(16) OCMADDR(18)
3C09-1 3C09-2 3C09-3 3C09-4
1 2 3 4
8 7 6 5
10K 10K 10K 10K
OCMADDR(17) OCMADDR(14) OCMADDR(13) OCMADDR(19)
3C10-1 3C10-2 3C10-3 3C10-4
1 2 3 4
8 7 6 5
10K 10K 10K 10K
OCMDATA(0:7) 13 14 15 17 18 19 20 21
0
DQ
7
OCMDATA(0) OCMDATA(1) OCMDATA(2) OCMDATA(3) OCMDATA(4) OCMDATA(5) OCMDATA(6) OCMDATA(7)
OE WE CE
7
3C08-2 3C08-1 3C08-3 3C08-4
3C18 10K
2
OCMADDR(8) OCMADDR(9) OCMADDR(10) OCMADDR(11)
0 512K-1
8
10K 10K 10K 10K
3C16-2
8 7 6 5
3C16-1
1 2 3 4
1
3C07-1 3C07-2 3C07-3 3C07-4
6
OCMADDR(4) OCMADDR(5) OCMADDR(6) OCMADDR(7)
B
+3V3_IO
10K
10K 10K 10K 10K
10K 3C16-3
8 7 6 5
RES RES RES RES RES
3
1 2 3 4
5
3C06-1 3C06-2 3C06-3 3C06-4
3C16-4
ROM 512Kx8 [FLASH]
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
OCMADDR(0:19) OCMADDR(0) OCMADDR(1) OCMADDR(2) OCMADDR(3)
4
12 11 10 9 8 7 6 5 27 26 23 25 4 28 29 3 2 30 1
OCMADDR(0) OCMADDR(1) OCMADDR(2) OCMADDR(3) OCMADDR(4) OCMADDR(5) OCMADDR(6) OCMADDR(7) OCMADDR(8) OCMADDR(9) OCMADDR(10) OCMADDR(11) OCMADDR(12) OCMADDR(13) OCMADDR(14) OCMADDR(15) OCMADDR(16) OCMADDR(17) OCMADDR(18)
32
7C00 M29W040B-55K1
FC09
FC10
C
FC08
FC07
FC06
D 3C19 RES
16
D
3C11 3C12 3C13 3C14 3C15
10u 16V
B
3C17
100n 2C01
3C05
3C04-1 3C04-2 3C04-3 3C04-4
1 2 3 4
FC00
TO SCALER
10K
8 7 6 5
10K 10K 10K 10K
+3V3_IO
3C20 RES
3C21 RES
+3V3SW +3V3SW
+3V3SW
SDA_IO
3V2
FC02 FC03
Φ
6 5
WC
(4Kx8) EEPROM
SCL ADR SDA
5
7
3C02 1K0
1 2 3
0 1 2
4
1C00 SKQR 1 3
2 4 For Software Development only - (RES)
F
FC04
1 0V
MR
VOUT
FC05 4 3V2
#RESET
2
3
TO HDMI
TO COLUMBUS
3C03 RES
F
3C01 10K
H_16980_011.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
& &
TO SCALER
7C02 PST596J
VCC
3V2
FC01
2C03 100n
GND
SCL_IO
0V
3V2 7C01 8 M24C32-WMN6
SUB
NVM_WP_SCALER
100n
2
3C00 10K
E
3V2
2C02
3
E
4
5
6
7
1C00 F4 2C00 B3 2C01 B3 2C02 E2 2C03 E5 3C00 E2 3C01 F5 3C02 E6 3C03 F6 3C04-1 B6 3C04-2 B6 3C04-3 B6 3C04-4 B6 3C05 B6 3C06-1 B5 3C06-2 B5 3C06-3 B5 3C06-4 B5 3C07-1 C5 3C07-2 C5 3C07-3 C5 3C07-4 C5 3C08-1 C5 3C08-2 C5 3C08-3 C5 3C08-4 C5 3C09-1 C5 3C09-2 C5 3C09-3 D5 3C09-4 D5 3C10-1 D5 3C10-2 D5 3C10-3 D5 3C10-4 D5 3C11 B6 3C12 B6 3C13 B6 3C14 B6 3C15 B6 3C16-1 C7 3C16-2 C7 3C16-3 C7 3C16-4 C6 3C17 C6 3C18 C7 3C19 D7 3C20 D7 3C21 D7 5C00 A3 7C00 B2 7C01 E3 7C02 F5 FC00 B3 FC01 F2 FC02 F2 FC03 F2 FC04 F5 FC05 F6 FC06 D6 FC07 D7 FC08 C7 FC09 C7 FC10 C7
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
35
SSB: HDMI 2D00 B3 2D01 D2 2D02 D3 2D03 G4 2D04 G4 2D05 G4
2D12 B5 2D13 B5 2D14 B5 2D15 C5 2D16 C5 2D17 B6
2D06 G4 2D07 B5 2D08 B5 2D09 B5 2D10 C5 2D11 C5
1
2D18 B6 2D19 B6 2D20 B6 2D21 B6 2D22 B6 2D23 B7
2D24 B7 2D25 B7 2D26 C7 2D27 B8 2D28 B8 2D29 C8
2
B12
2D30 C8 2D31 C8 2D32 F11 2D33 F11 2D34 F12 2D35 F12
2D36 H11 2D37 I11 2D38 H12 2D39 H12 2D40 H12 2D41 H13
3
2D44 G14 2D45 H14 3D00 B2 3D01 B2 3D02 B3 3D03 D2
3D04 D2 3D05 D3 3D06 D4 3D07 D4 3D08 D4 3D09 D5
4
3D10 C5 3D11 G4 3D12 G4 3D15-1 C11 3D15-2 C11 3D15-3 C11
3D15-4 C11 3D16-1 D11 3D16-2 D11 3D16-3 D11 3D16-4 D11 3D17-1 D11
5
3D17-2 D11 3D17-3 D11 3D17-4 E11 3D18-1 E11 3D18-2 E11 3D18-3 E11
6
3D18-4 E11 3D19 E11 3D20 E12 3D21-1 G9 3D21-2 G9 3D21-3 G9
3D21-4 G9 3D22 H9 3D23 H9 3D24 H11 3D25 H11 3D26 H12
3D27 H12 3D30 G14 3D31 G14 3D32 H14 3D33 H14 3D34 H11
7
3D35 H12 4D00 F13 4D01 F13 5D00 B5 5D01 B6 5D02 B6
8
5D03 B6 5D04 B7 7D00 B1 7D01 E3 7D02 E4 7D03 D5
7D04 F11 7D05 G13 FD00 B2 FD01 D2 FD02 D2 FD03 D2
9
FD04 D2 FD05 H2 FD06 H2 FD07 B5 FD08 B6 FD09 B6
FD10 B6 FD11 B7 FD12 G9 FD13 F11 FD14 F12 FD15 G10
10
FD16 F13 FD17 I7 ID00 D2 ID01 D3 ID02 E4 ID03 E4
ID04 G5 ID05 G5 ID06 G5 ID07 G5 ID08 G10 ID09 H11
11
ID10 H12 ID11 H12 ID12 I12 ID13 I12 ID14 I12 ID15 G13
12
ID16 F13 ID17 F13 ID18 G14 ID19 H14 ID20 G14 ID21 G14
ID22 G4
13
14
15
HDMI
B12
A
A FROM SCALER
+3V3SW
+3V3SW
+3V3SW
+3V3SW
+3V3SW
TO SCALER SCL_IO
5D00
SDA_IO 7D00 M24C02-WMN6
Φ (256x8) EEPROM 0 1 2
WC SCL
ADR SDA
7
3D02 4K7
FD09 FD08 FD07 2D17 10u 2D12 22u 6.3V
2D07 22u 6.3V
2D00 100n
FD10 2D20 10u
5
FD11 2D23 22u 6.3V
2D08 100n
2D13 100n
2D18 100n
2D21 100n
2D24 100n
2D09 1n0
2D14 1n0
2D19 1n0
2D22 1n0
2D25 1n0
2D10 1n0
2D15 1n0
2D11 1n0
2D16 1n0
FD00
6
5D04
5D03
B
22u 6.3V
2D27
2D28 100n
2D29 1n0
2D26 1n0
2D30 1n0
4
1 2 3
3D00 3D01 4K7 4K7
8
B
5D02
5D01
HDMI_Y(0:7)
2D31 1n0 8 33R
HDMI_Y(0)
7 33R
HDMI_Y(1)
3D15-33
6 33R
HDMI_Y(2)
3D15-44
5 33R
HDMI_Y(3)
3D16-1 1
8 33R
HDMI_Y(4)
3D16-2 2
7 33R
HDMI_Y(5)
3D16-33
6 33R
HDMI_Y(6)
3D15-1 1 3D15-22
PLLIN 3D10
75 +3V3SW +3V3SW 7D01 BSN20
E
ID02 7D02 BSN20
77
ID03
76 83
RXC-
F
RXC+
84
RX0-
86
RX0+
87
RX1-
91 92
RX1+ RX2-
96
RX2+
97
67
56
47
21
11
14 DACVCCB
6
1
23
80
100
MCLKOUT
CSCL
RSVDL
18 73
RSVDO
19 20
CSDA 0 1 2 3 4 5 6 7 8 9 10 Q 11 12 13 14 15 16 17 18 19 20 21 22 23
DSCL DSDA
RXCRXC+
RX0RX0+
RX1RX1+
RX2RX2+
ANRPR
COMP
2D03
PLLIN
G
10u
2D04
10n
2D05
47n
3D11
ID04
100R
ID05 ID06
ID22 3D12 2D06 10u 3K9
TO MUX-SYNC INTF H_HDMI
FD05
V_HDMI
FD06
9 8 24 25
RSET
ANGY
COMP
ANBPB
PLLIN
SPDIF
PLLOUT SDO
ID07
81 33 34
3 4 NC
WS
EXT-RES
SCK
70 69 68 63 62 61 60 59 58 55 54 53 52 51 50 49 48 44 43 42 39 38 37 36
3D16-44
5 33R
HDMI_Y(7)
3D17-1 1
8 33R
HDMI_CbCr(0)
3D17-2 2
7 33R
HDMI_CbCr(1)
3D17-33
6 33R
HDMI_CbCr(2)
3D17-44
5 33R
HDMI_CbCr(3)
3D18-1 1
8 33R
HDMI_CbCr(4)
3D18-2 2
7 33R
HDMI_CbCr(5)
3D18-3 3
6 33R
3D18-4 4
5 33R
HDMI_CbCr(7)
3D20 1R0
3D19 1R0 2D32
FD14
47u 6.3V 2D33 100n 7D04 UDA1334BT/N2 1
BCK WS
3
DATAI
4
3D21-4 4
5 33R
FD12
30
3D21-33
6 33R
31
3D21-22
7 33R
32
3D21-11
8 33R
35
3D22
33R
46
3D23
33R
ID08
6
SYSCLK
8
MUTE
9
DEEM
10
PCS
14
VOL
DE ODCK
H
ID16
SFOR0
11
SFOR1
7 7D05 HEF4053B
ID15
VREF-DAC
5
2D37 10n
+3V3SW
3D30 RES 14 1V7
1 2 4X1 4X2
15 1V7
ID20
3D31 RES 2D44 ID18
TO HERCULES
G
AudioIN2R
1u0 ID21
3D32 RES 4 NC
NC 3 NC 5 9
3D26 220R 3D27 100R 3D35 100K
3D25
MDX
G4
1V7 1 0V 2 10
2D40 1u0 10V ID11
2D39 100n
1V6 13 0V 12 0V 11
16
12
2D38 47u 6.3V
3D24 220R
GND_HS
78
66
57
45
VSSD
ID10
71 NC
F
3V3
VDD
6
NOISE SHAPER
15
3D34100R 100K
FOR SET WO AV3 +3V3SW
INTERPOLATION FILTER
VSSA
AV3_RIGHT
4D00 4D01
DIGITAL INTERFACE
VOR
ID09
101
DACGNDB
DACGNDG
DACGNDR
OGND
28
13
10
5
2
22
79
PGND
99
65
41
98
GND
16
94
90
88
85
AGND
DACGND
INT
2D36 1u0
AV3_LEFT AV3_HDMI-AUDIO_SEL
VDDD
DE-EMPHASIS
FD15
ID17 FD16
100n
12 NC 15
TO DIGITAL-IO (CINCH ONLY)
47u 6.3V 2D35
13 VDDA
2
AUDIO DAC
2D34
FD13
HSYNC VSYNC
E
HDMI_CbCr(6) +3V3SW
7
29SPDIF (NC)
D
HDMI_CbCr(0:7)
16
74
NC
C
2D45 ID19
AudioIN2L
1u0 3D33 RES
H
VEE VSS
8
ID01
MCLKIN
DACVCCG
3D09 27 33R 26
DACVCC
+3V3SW +3V3SW 3D06 100R 3D07 3D08 4K7 4K7
OVCC1
7
FD04
3D05 100R
2D02 1n0
Φ HDMI PANELLINK RECEIVER
DAC
2D01 10n
VCC
DACVCCR
FD03
AVCC RESET
PVCC2
+5VHDMI
72
#RESET
PVCC1
0R ID00
64
FD02 3D04
40
DOC_SCL
17
0R
95
FD01 3D03
93
DOC_SDA
7D03 SII9993CTG100
89
FROM FLASH/CONTROL
82
FROM DIGITAL-IO (CINCH ONLY)
D
COMP
390R
DAC
C
2D41 10n
FD17
I
ID12 ID13
HDMI_VDV
ID14
HDMI_VCLK FROM SCALER
H_16980_012.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10 1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
I
Circuit Diagrams and PWB Layouts
SSB: MUX-Sync Interface 1 2
B13
3
LC4.8L LA
4
7.
36
5
6
7
8
9
10
11
MUX-SYNC INTERFACE
B13 5E02
+5VSWI
2E15
IE08
VDD FROM HERCULES 3E00 3E01 3E02
56R 56R 56R
IE17 IE29 IE30 2E21
+5VSWI 1u0 1u0 1u0
IE35 IE36
IE37
5E01
+5VSWI 3E17 330R
3E18 330R
FE06
5E00
IE00
+5VSWI
3E06
3E08
3E07
3E52
7E00 ADG733BRU 16 VDD 3E09 3E10 3E11
IE13 IE14 IE15
4u7
Φ EN
47K 47K 47K
IE16
A0 A1 A2 12 13
2E34
GINA|YINA
4u7
2 1
4u7 IE18
FROM DIGITAL-IO
/
3
47K
47K
5 47K
2E35
BINA|Pb
S1A D1
14
3E12 10K
22 26
RGB|CVI_HDA_SEL
3E19
3V2
FE03
2E08
IE25
56R
2E07 33p
IE20
4u7
25 27
IE19
SC1_R_CVI_Pr_IN
2 IE26 2E10
56R
SC1_G_CVI_Y_IN
15
23
2E09 33p
IE22
100n
1 3 6
S3A D3
4
2E12
3E21
IE21
SC1_B_CVI_Pb_IN
56R
S3B
3E55
3E54
3E53
(CINCH)
6 11 10 9
S2B
VSS GND 7 8
(SCART)
FE04
3V2
9
SD_HD_SEL
3E20
D2
IE02
4E03 RES
S1B S2A
I_PC_HD_SEL
TO HERCULES
D
2E11 33p
IE23
4u7
IE03
HD_FILTER
FE05
3E22
0V
5 7
IE04
TO SCALER
4E12 RES 4E13 RES 4E14 RES
2E33
RINA|Pr
4u7 4u7 4u7
3E51
3E50 2E00 2E01 2E02
SC1_CVI_DMMI_R_Pr_IN SC1_CVI_DMMI_G_Y_IN SC1_CVI_DMMI_B_Pb_IN
18 0V
100n
FROM ANALOG-IO
C
2E03
IE01
20 21
VCC DISABLE
Φ
47u 6.3V
2E23
4u7IE07
2E37 2E38 2E39
15p 15p 15p
4u7IE06
NC1 NC2
GINA|UINA GOUT|UOUT
IN4
BOUT|VOUT
7
GND_HS GND FE09
3E24
1K5
TO SCALER
2E24 2E40
47n 22p
IE33
SOG
17
R-PR-ADC
FE10 FE11
3E25 3E26
39R 22R
IE32 2E25 100n 2E26 100n
R_PR+ R_PR-
14
G-Y-ADC
FE12
3E27 3E28
39R 22R
2E27 100n 2E28 100n
G_Y+ G_Y-
11
B-PB-ADC
FE13
3E29 3E30
39R 22R
IE34 2E29 100n 2E30 100n
B_PB+ B_PB-
GINB|UINB GSB1
9
B
RINB|YINB ROUT|YOUT
FE08
17 3V3
IN3
28
NC3
GSG1
3V2
8
RINA|YINA
PC_HD_SEL
19
IN1
IN2
TO SCALER
D4
4
GSR1
A
6 8 10
NC
12 S3 0V4 11 D3 2V7 4 S4 5
MUXSEL
C
BINA|VINA BINB|VINB RFC VFC GND
2E14 33p
2E22
THROUGH
100K 2E13 1u0
100n 100n 100n 100n
7E01 SM5301BS-G
VCC
3E23 820R
D
GND_HS
16 13 10 19
47K
47K
47K
/
47K
47K
B
(CINCH)
47K
FROM SCALER (SCART)
24
3E16 330R
2E16 2E17 2E18 2E19 2E20
NC
2 S1 0V6 1 D1 2V7 14 S2 0V8 15 D2
21
2E04 2E05 2E06
330R 330R 330R
12
3E13 3E14 3E15
7E02 ADG781BCP
29 30
RESERVED
FE00 FE01 FE02
15
R_SDTV G_SDTV B_SDTV
4u7IE05
Φ
SPST SWITCH
16 18 20
3
A
13
100n 5V4
FE07
+3V3SW
5E03 100n
SYNC INTERFACE
MDX
/ (CINCH)
100R
V_HDMI
14
7E04-4 74LVC14APW 14
3E41
1
100R
2
3
4
7
2
3E44
IE31
HDMI_VVS
100R
7
3 5 9
6
9
8
4
7E05-3 74LVC14APW
7E05-4 74LVC14APW 14
IE24 AVSYNC
H_HDMI
3E42
5
100R
100R
7
7
TO SCALER 3E38
14 6
8
9
7
3E45
HDMI_VHS
100R
7
F
6E03 VEE VSS
4E11 RES
7E04-5 74LVC14APW COL_Di(8) 3E37 22R
3E49 22R
14 11
10 7
7E04-6 74LVC14APW 14 12
13
COL_Di(8)_INV COL_Do(8)
7E05-5 74LVC14APW
7E05-6 74LVC14APW 14
IE28
COL_Do(8)_INV
3E43
PC_HD_SEL
7
14 10
11
100R
12
13 7
7
3E46 (NC) 100R
I_PC_HD_SEL
H_16980_013.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
E
14
14
IE27 AHSYNC
100R
7
5 IE12
4
3
7
7E04-3 74LVC14APW
FROM ADC
IE11
6E02
2
3E39
7E05-2 74LVC14APW
7E05-1 74LVC14APW
FROM HDMI
3E36 15
SD_HD_SEL 3V2
(SCART)
1
100R
8
FROM DIGITAL-IO
14
1 2 10
6E01
3E35
2E36 100n
100n 7E04-2 74LVC14APW 14
14
1 2 4X1 4X2
7
F
100R 100R BZX384-C2V7
Vsync_SDTV 3E33 V_PC 3E34
13 12 11
IE10
6E00
G4
+3V3SW
2E32
7E04-1 74LVC14APW
VDD
IE09
BZX384-C2V7
100R 100R BZX384-C2V7
Hsync_SDTV 3E31 H_PC 3E32
+3V3SW
16
7E03 CD74HC4053M96 6
BZX384-C2V7
E
4E10 RES
2E31
3
4
5
6
7
8
9
10
11
2E00 B2 2E01 B2 2E02 C2 2E03 B5 2E04 A7 2E05 A7 2E06 A7 2E07 C7 2E08 C7 2E09 C7 2E10 C7 2E11 D7 2E12 C7 2E13 D7 2E14 D7 2E15 A10 2E16 A8 2E17 A8 2E18 B8 2E19 B8 2E20 B8 2E21 A9 2E22 A9 2E23 B9 2E24 C10 2E25 C10 2E26 C10 2E27 C10 2E28 C10 2E29 C10 2E30 C10 2E31 E3 2E32 E6 2E33 C2 2E34 C2 2E35 C2 2E36 E10 2E37 B9 2E38 B9 2E39 B9 2E40 C10 3E00 A2 3E01 A2 3E02 A2 3E06 B3 3E07 B3 3E08 B3 3E09 B4 3E10 B4 3E11 C4 3E12 B5 3E13 A6 3E14 A6 3E15 A6 3E16 B6 3E17 B6 3E18 B7 3E19 C6 3E20 C6 3E21 C6 3E22 D6 3E23 D7 3E24 C10 3E25 C10 3E26 C10 3E27 C10 3E28 C10 3E29 C10 3E30 C10 3E31 E2 3E32 E2 3E33 F2 3E34 F2 3E35 E5 3E36 F5 3E37 F4 3E38 F7 3E39 E7 3E41 E9 3E42 F9 3E43 F9 3E44 E11
3E45 F11 3E46 F11 3E49 F6 3E50 B3 3E51 B3 3E52 B3 3E53 D3 3E54 D3 3E55 D3 4E03 B6 4E10 E2 4E11 F3 4E12 D5 4E13 D5 4E14 D5 5E00 B4 5E01 B8 5E02 A10 5E03 E3 6E00 F2 6E01 F3 6E02 F2 6E03 F3 7E00 B4 7E01 B8 7E02 A10 7E03 E3 7E04-1 E5 7E04-2 E6 7E04-3 F5 7E04-4 F6 7E04-5 F5 7E04-6 F6 7E05-1 E9 7E05-2 E10 7E05-3 F9 7E05-4 F10 7E05-5 F9 7E05-6 F10 FE00 A2 FE01 A2 FE02 A2 FE03 C5 FE04 B7 FE05 D7 FE06 B8 FE07 D8 FE08 B11 FE09 C10 FE10 C10 FE11 C10 FE12 C10 FE13 C10 IE00 B4 IE01 B7 IE02 B7 IE03 D6 IE04 D7 IE05 A9 IE06 A9 IE07 B9 IE08 A10 IE09 E2 IE10 E2 IE11 F2 IE12 F2 IE13 B3 IE14 C3 IE15 C3 IE16 C3 IE17 A10 IE18 C3 IE19 C6 IE20 C7 IE21 C6 IE22 C7 IE23 C7 IE24 F7 IE25 C7 IE26 C7 IE27 E7 IE28 F7
IE29 A10 IE30 A10 IE31 E11 IE32 C10 IE33 C11 IE34 C10 IE35 A7 IE36 A7 IE37 B7
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
37
SSB: Digital I/O
1
2
3
4
5
6
7
8
9
DIGITAL IO
B14
B14
AV3: VGA + 2fHYPbPr
TO PCHD-MUX
1Q01
VGA Connector
A
B
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
5Q01
FQ01 FQ02 FQ03 FQ04
IQ01
FQ05 FQ06
17 16
RINA|Pr
B13
GINA|YINA
B13
120R
+5VSWI
5Q06
10K 2Q06 RES
3Q06 75R
120R
B
1285-15S-064-98F
5Q11 120R 2Q17 330p
A
100R
3Q18
FQ07 FQ08 FQ09 FQ10
SCL_VGA
3Q01 75R
3Q41
3Q17 IQ03 1K0
SDA_VGA
DDC_5V
5Q16 120R
6Q16 IQ02 BAS316
3Q16 150R 2Q16 100n
2Q01 RES
2Q18 330p
2Q11 RES
BINA|Pb
B13
3Q11 75R
C
C 5Q21
3Q22
120R
220R
DDC_5V
3Q21 2K2
IQ23
H_PC
B13
IQ21
V_PC
B13
2Q21 100p
DDC_5V 2Q25 7Q25 M24C02-WMN6
D
5Q23 120R
Φ
(256x8) EEPROM 0 1 2
3Q24
100n
FQ25 7
WC
6
SCL ADR
3Q25
3Q26 10K
3Q27 10K
3Q23 2K2
220R
2Q23 100p TO SCALER
10K
D
5
SDA 4
1 2 3
8
IQ25
HDMI - (NAFTA & AP ONLY) TO HDMI
FROM CINCH ANALOG
FQ31
3Q30
2Q32
10K 2Q30 180p
S081
3Q31
IQ30
AV3_LEFT
3Q32 15K
2Q33
10K 2Q31 180p
2u2
2u2
IQ31
AV3_RIGHT
3Q33 15K
F
TO HDMI
1Q03 DC1R019JDA
HDMI CONNECTOR
AV3_R
S080
AV3_L
PC AUDIO IN
E
FQ30
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
FQ40
RX2+
FQ41 FQ42 FQ43
RX2RX1+
FQ44 FQ45
RX1RX0+
FQ46 FQ47
RX0RXC+
FQ48
RXC-
E
NC (CEC) FQ49 FQ50
DOC_SCL DOC_SDA
FQ51 FQ52
+5VHDMI 3Q40
1K0
3Q34
2K2
F
21 20 23 22 7Q01 BC847BW
HDMI_HOTPLUG_RESET
H_16980_014.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
2
3
4
5
6
7
8
9
1Q01 A1 1Q03 E6 2Q01 A4 2Q06 B4 2Q11 B4 2Q16 A2 2Q17 B1 2Q18 B2 2Q21 C5 2Q23 D5 2Q25 D2 2Q30 E3 2Q31 E3 2Q32 E3 2Q33 E3 3Q01 A5 3Q06 B5 3Q11 B5 3Q16 A2 3Q17 B2 3Q18 B3 3Q21 C4 3Q22 C5 3Q23 D4 3Q24 D5 3Q25 D2 3Q26 D3 3Q27 D3 3Q30 E2 3Q31 E2 3Q32 E3 3Q33 E3 3Q34 F7 3Q40 F7 3Q41 A5 5Q01 A5 5Q06 B5 5Q11 B5 5Q16 A3 5Q21 C4 5Q23 D4 6Q16 A3 7Q01 F7 7Q25 D1 FQ01 A2 FQ02 A2 FQ03 A2 FQ04 A2 FQ05 A1 FQ06 B2 FQ07 B2 FQ08 B2 FQ09 B2 FQ10 B2 FQ25 D2 FQ30 E1 FQ31 E1 FQ40 E6 FQ41 E6 FQ42 E6 FQ43 E6 FQ44 E6 FQ45 E6 FQ46 F6 FQ47 F6 FQ48 F6 FQ49 F6 FQ50 F6 FQ51 F6 FQ52 F6 IQ01 A2 IQ02 A3 IQ03 B2 IQ21 D8 IQ23 C8 IQ25 D1 IQ30 E4 IQ31 E4 S080 E2 S081 F2
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
38
SSB: Top Connectors
1
3
4
6
7
A
FOR UFD ONLY
IJ01 IJ02 IJ03 IJ04
POR (NC)
FROM AUDIO LAMP_ON_OFF_1 5J05
FAN_SPEED
RES
TEMP_SENSOR (NC) IJ05 STANDBY_1
PROTECT_AUD
PROTECT_AUD IJ06 IJ07
NC POWER_UP_OK_1
RES
RES
RES
RES
2J33
2J20
2J34
POWER_UP_OK
RES
3J06
2J16
4J02 RES
AUDIO-L
120R 5J01
AUDIO-R
5J02
1 2 3 4 5 6 7 8 9
FJ11 FJ12
120R
IJ12
AUDIO-SW (NC)
FROM SCALER 3V3 3V3
SOUND_ENABLE_1 POR_AUDIO
FJ13 FJ14 2J27 2J28 100p 100p
2J36 1n0
2J29 100p
B9B-PH-K-S(LF)
(1M46) 1J01 FJ00
B
C TO DC-DC CONVERTER
100p
100p 2J09
D
2J08
FJ18 FJ19 FJ20 100p
B_RT_PWM G_RT_PWM R_RT_PWM
2J07
4J01
FJ15 FJ16 FJ17
2J31 1n0
NC
120R
B_LT_PWM G_LT_PWM R_LT_PWM
100p
+33V_TUN(NC) FJ05
AMBIENT LIGHT (TOP)
1J05 +5V
5J04
100p
3A T 1J08 +5V_UFD
2J05
5V(NC) FJ03 FJ04
FROM EPLD
1J07 +12V_UFD
100p
(NC)
2J04
FJ01 FJ02
UFD SUPPLY
1 2 3 4 5 6 7 8 9 10 11
(1M52) 1J04 FJ10
2J06
UFD CONTROL
1 2 3 4 5 6 7 8 9 10
TO/FROM 1002 OF CLASS-D AUDIO AMPLIFIER
FROM SCALER INTERFACE FROM SCALER
2J26 100p
C
8
B16
(1M03) 1J00
B
5
TOP CONNECTORS
B16 A
2
1 2 3 4 5 6 7 B7B-PH-K-S(LF)
D
100p
100p
100p
2J13
2J14
2J15
3V2
IJ13
100p
3V1
100p
3J07
FJ24 FJ25 FJ26
2J12
1K2
2J22 2J23 2J21
B_RB_PWM G_RB_PWM R_RB_PWM
2J11
100p 100p 100p
2J18 2J19 2J17
FJ21 FJ22 FJ23
100p
1n0 1n0 100p 100p 1n0
STANDBY BACKLIGHT_CTRL LAMP_ON_OFF
2J02 2J35
68R 68R 68R
FROM SCALER INTERFACE
B_LB_PWM G_LB_PWM R_LB_PWM
2J10
5J03 POWER_DOWN 120R 3J05 3J03 3J04
FROM SCALER
1n0
TO/FROM 1003 OF CLASS-D AUDIO AMP (+18V / +24V)
+3V3STBY
11V6 +12VUNREG
FJ07 IJ08 IJ09 IJ10 IJ11
B12P-PH-K-S(LF)
F
1J06 3V2
1 2 3 4 5 6 7 B7B-PH-K-S(LF)
(BOTTOM)
VP GND_AUDIO FJ06
2J30
TO/FROM PSU (SUPPLY FOR LCD)
E
1 2 3 4 5 6 7 8 9 10 11 12
AMBIENT LIGHT
1J02
RESERVED
1J03 B3B-PH-K-S(LF) FJ08 3 2 1
F
VP
FJ09 2J03 1n0 GND_AUDIO GND_AUDIO
H_16980_016.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
E
2
3
4
5
6
7
8
1J00 B1 1J01 C1 1J02 D1 1J03 F1 1J04 B8 1J05 C8 1J06 E8 1J07 C2 1J08 C2 2J02 F2 2J03 F2 2J04 D7 2J05 D7 2J06 D7 2J07 D7 2J08 D7 2J09 D7 2J10 E7 2J11 E7 2J12 E7 2J13 E7 2J14 E7 2J15 E7 2J16 C2 2J17 F3 2J18 F3 2J19 F3 2J20 C3 2J21 F3 2J22 F3 2J23 F3 2J26 C6 2J27 C7 2J28 C7 2J29 C7 2J30 F2 2J31 D2 2J33 C3 2J34 C3 2J35 F2 2J36 C7 3J03 E3 3J04 E3 3J05 E3 3J06 B3 3J07 F3 4J01 D2 4J02 C2 5J01 B7 5J02 B7 5J03 E2 5J04 C2 5J05 B3 FJ00 C1 FJ01 C1 FJ02 C1 FJ03 C1 FJ04 C1 FJ05 D1 FJ06 E2 FJ07 E2 FJ08 F2 FJ09 F2 FJ10 B7 FJ11 B8 FJ12 B7 FJ13 B7 FJ14 C7 FJ15 C7 FJ16 C7 FJ17 D7 FJ18 D7 FJ19 D7 FJ20 D7 FJ21 E7 FJ22 E7 FJ23 E7 FJ24 E7
FJ25 E7 FJ26 E7 IJ01 B1 IJ02 B1 IJ03 B1 IJ04 B1 IJ05 B1 IJ06 B1 IJ07 B1 IJ08 E2 IJ09 E2 IJ10 E2 IJ11 E2 IJ12 B4 IJ13 E4
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
39
SSB: Side Connectors
1
4
5
6
7
8
B17 4K01 RES
FOR DISC/ ARCH CABINET RESERVED 1K03
TO/FROM 1540 OF IR/ LED
4K03 RES
A
1K00 (1M21)
LIGHT_SENSOR
2K24 100p
2K23 100p
2K22 100p
2K01 1n0
2K21 100p
3K13
+3V3STBY_1
68R
2K00 1n0
PC-TV-LED_1
IK01 IK02
+3V3STBY_1 LED_SEL_1 IR_1
IK03
LIGHT_SENSOR_1
6 5 4 3 2 1 B6B-PH-K
6K01
IR
4K05
IK00
BZX384-C3V9
5K00 5K02 3K12
4K04
2K26 100p
+3V3STBY LED_SEL
68R 1u0 IK16 1u0 68R
2K25 100p
3K11
PC-TV-LED
20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
B
9
SIDE CONNECTORS
2K28 100p
A
3
2K27 100p
B17
2
FK11
B
PC-TV-LED_1 LED_SEL_1
+3V3STBY_1 4K06 4K07 RES +5VSW_1
LIGHT_SENSOR_1 IR_1 KEYBOARD ITV_IR_SW_RESET
/ C
3K00 100R 2K02 10p
2K03 10p
3K01
FRONT_C_IN
100R 2K04 10p
D
E
2K05 10p
IK17
3K02
RES 1K04 1 2 3 4 5 6 7 8 9 10 11
10K 2K06 100p
TO/FROM 1304 OF SIDE I/O 1K01 (1M06) 1 FK00 2 3 FK01 4 5 FK02 6 FK03 7 FK04 8 FK10 9 FK05 10 FK06 11 FK07 12
2K08
1u0 2K19 1n0
3K03 15K +5VSW
2K20 1n0
FRONT_C_IN_1 2K12
3K05
FRONT_L_IN_1 +5VSW_1 FRONT_R_IN_1
3V3
HP_LOUT_1 HP_DET_R_DC_1 HP_ROUT_1
3V3
IK18
10K 2K10 100p
2K11 100p
*
2K13 100p
/
UFD 10p 10p 10p 10p 10R 10R
/
TOP/SIDE KEYBOARD FK08 FK09
KEYBOARD FRONT_R_IN
2K18 100p
*
* 3K09 39R
2K16 100p
3
E
HP_LOUT
*
2K14 100p
HP_DET_R_DC
F HP_ROUT
*
2K17 100p
H_16980_017.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
2
B3B-PH-K-S(LF)
68R 2K15 100p
4K02 RES
1
1K02 (1M01) 1 2 3
3K06 15K
3K08
F
*
2K13 2K14 2K16 2K17 3K07 3K09
2u2
3K07
* 39R
D
FRONT_L_IN
2u2 2K07 100p
5K01 FRONT_Y_CVBS_IN_1
C
FRONT_Y_CVBS_IN
4
5
6
7
8
9
1K00 A9 1K01 E1 1K02 E9 1K03 A1 1K04 E1 2K00 B7 2K01 B6 2K02 C3 2K03 C4 2K04 D3 2K05 D4 2K06 D3 2K07 D4 2K08 D4 2K10 E3 2K11 E4 2K12 E4 2K13 F3 2K14 F4 2K15 F3 2K16 F3 2K17 F4 2K18 E9 2K19 E3 2K20 E3 2K21 B6 2K22 B7 2K23 B7 2K24 B7 2K25 B7 2K26 B8 2K27 B8 2K28 B8 3K00 C3 3K01 D3 3K02 D3 3K03 D4 3K05 E3 3K06 E4 3K07 E3 3K08 F3 3K09 F3 3K11 A7 3K12 B7 3K13 B7 4K01 A8 4K02 F2 4K03 A8 4K04 A8 4K05 A8 4K06 B2 4K07 B2 5K00 A7 5K01 E3 5K02 A7 6K01 B8 FK00 E1 FK01 E1 FK02 E1 FK03 E1 FK04 E1 FK05 E1 FK06 E1 FK07 E1 FK08 E9 FK09 E9 FK10 E1 FK11 B9 IK00 A8 IK01 A8 IK02 B8 IK03 B8 IK16 A7 IK17 D4 IK18 E4
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
40
SSB: ADC
1
2
3
4
5
6
7
8
9
ADC
B18
B18 7L05 LD1117DT33 3
+5VSWIA
IN
+3V3SWB IL16
2
OUT
3V3
+3V3SWB
COM
5L02
5L01 2L30 10u 16V
1
A
+3V3SWB
A
IL18 +3V3SWB
TO HERCULES +5VSWIA
5L00 3L01 RES IL04
INTF_V_OUT
3L00
2L03 100n
2L04 100n
2L05 100n
2L06 100n
2L07 10u
2L08 100n
2L09 100n
2L10 100n
2L11 100n
2L27 10u 16V
IL19
5V4
1V5
1K0 2L35 RES
B
2L02 10u
7L01 BC847BW 3L04
3L03 RES
0V9
3L33
2L29 16V 10u
220R 3L05 150R
0R
2L33 100n
2L34 100n
2L28 10u 16V
IL17 2L22 10u
2L23 100n
B
2L24 100n
+5VSWIA 4L04 RES
C
INTF_Y_OUT
4L02
IL05 3L06
2L38
0R
3L09 RES
7L08 RES
5L03 10u
3L10 330R
FROM SYNC INTERFACE
RES
0R
2L37 68p 5L04
3L11 150R
3L34
3L38 2L39 82p
7L04 AD9985KSTZ 9883(MSTAR) 2L13
47n IL01
2L26
220n
0R
3L08 RES
0H
4L00 RES 4L01 RES
54 48 43
3L21 2K2
30
3L22 2K2
31
2L15
D
IL02 IL03
IL08
Hsync_SDTV Vsync_SDTV
49
RES
3L23
RES
38
3L24
2K2
29
+5VSWIA
3L13 RES INTF_U_OUT
3L12
IL06
1K0 2L36 RES
5V4
1V5
7L03 BC847BW 3L16
3L15 RES
2L20
100n
58
2L21
100n
37
2L18 82n
0V9
3L35
IL09
220R 3L17 150R
0R
E
2L19
2L17
3L18 2K7
33
8n2
57 56
47n
55 2L31 100u 16V
2L32 100u 16V
VD RAIN
Φ VDD
PVD
ANALOG INTERFACE FOR FLAT PANEL DISPLAY
GAIN BAIN
0 1 2 3 RED 4 5 6 7
HSYNC 0 1 2 3 GREEN 4 5 6 7
VSYNC
SOGIN CLAMP COAST
0 1 2 3 BLUE 4 5 6 7
REF_BYPASS MIDSCV FILT SDA SCL
DATACK A0 HSOUT VSOUT
+3V3SWB
+3V3SWB FROM HERCULES
SOGOUT
9 8 7 6 5 4 3 2
IL13 IL14 IL15
3L27-4 3L27-3 3L27-2 3L27-1 3L28-4 3L28-3 3L28-2 3L28-1
22R 22R 22R 22R 22R 22R 22R 22R
COL_Di(1) COL_Di(2) COL_Di(3) COL_Di(4) COL_Di(5) COL_Di(6) COL_Di(7)
C
COL_YA(1:8) COL_YA(1) COL_YA(2) COL_YA(3) COL_YA(4) COL_YA(5) COL_YA(6) COL_YA(7) COL_YA(8)
19 18 17 16 15 14 13 12 COL_CLKASA
COL_CLKASA
66
3L30
22R
COL_HREF
COL_HREF
64
3L31
22R
COL_VA
COL_VA
65
3L32
2K2
67
7L07 BSN20
F
H_16980_018.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
2
E
SYNC INTF
+3V3SWB
1
D
TO SCALER
1
1
F
22R 22R 22R 22R 22R 22R 22R
150R 150R
2
3 7L06 BSN20
3L25-1 3L25-2 3L25-3 3L25-4 3L26-1 3L26-2 3L26-3
1 10 20 21 24 25 28 32 36 40 41 44 47 50 53 60 61 63 68 80 3L20
2
IL10 IL11 IL12
CLAMP_ADC
3L19
SDA SCL
3
COL_Di(1:7) 77 76 75 74 73 72 71 70
GND
3L37 3K3
3L36 3K3
TO COLUMBUS
COL_Di(8)
IL07
3L39 RES
26 27 34 35
+5VSWIA
3L07 RES 7L02 BC847BW
11 22 23 69 78 79
4L03 RES
39 42 45 46 51 52 59 62
CVBS_COMB
4L05
3
4
5
6
7
8
9
2L02 A7 2L03 A7 2L04 A7 2L05 A8 2L06 A8 2L07 B7 2L08 B7 2L09 B7 2L10 B8 2L11 B8 2L13 C4 2L15 D4 2L17 E3 2L18 E4 2L19 E4 2L20 D4 2L21 D4 2L22 B5 2L23 B5 2L24 B5 2L26 C4 2L27 A8 2L28 B9 2L29 B4 2L30 A3 2L31 E4 2L32 E5 2L33 B8 2L34 B8 2L35 B2 2L36 E1 2L37 C3 2L38 C3 2L39 C3 3L00 B2 3L01 B2 3L03 B2 3L04 B3 3L05 B3 3L06 C1 3L07 C2 3L08 C3 3L09 C2 3L10 C2 3L11 C2 3L12 E1 3L13 D2 3L15 E2 3L16 E2 3L17 E3 3L18 E4 3L19 F3 3L20 F3 3L21 C4 3L22 D4 3L23 D4 3L24 D4 3L25-1 C7 3L25-2 C7 3L25-3 C7 3L25-4 C7 3L26-1 C7 3L26-2 C7 3L26-3 C7 3L27-1 D7 3L27-2 D7 3L27-3 D7 3L27-4 D7 3L28-1 D7 3L28-2 D7 3L28-3 D7 3L28-4 D7 3L30 E7 3L31 E7 3L32 E7 3L33 B3 3L34 C4 3L35 E3
3L36 E2 3L37 E3 3L38 C3 3L39 C4 4L00 D3 4L01 D3 4L02 C1 4L03 C1 4L04 B3 4L05 B3 5L00 B4 5L01 A5 5L02 A6 5L03 C3 5L04 C3 7L01 B3 7L02 C2 7L03 E2 7L04 C5 7L05 A2 7L06 F2 7L07 F3 7L08 C3 IL01 C5 IL02 C5 IL03 C5 IL04 B1 IL05 C1 IL06 E1 IL07 C4 IL08 C4 IL09 E3 IL10 C7 IL11 C7 IL12 C7 IL13 D7 IL14 D7 IL15 D7 IL16 A2 IL17 B4 IL18 A5 IL19 B6
Circuit Diagrams and PWB Layouts
SSB: Columbus 1
2
3
LC4.8L LA
4
7.
5
6
7
8
10
11
B19 COL_DE
3M89
COL_CLKASA
H1 B13
22R COL_YA(1:8)
0R
3M26 COL_YA(1) COL_YA(2) COL_YA(3) COL_YA(4) COL_YA(5) COL_YA(6) COL_YA(7) COL_YA(8)
D
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11
IM03 IM04 IM06 IM07
YA0 / Di9 YA1 YA2 YA3 YA4 YA5 YA6 YA7 YA8
A13 A14
COL_Di(1:7)
FROM ADC COL_Di(8)_INV
3M27 COL_Di(1) COL_Di(2) COL_Di(3) COL_Di(4) COL_Di(5) COL_Di(6) COL_Di(7) 3M90
0R
22R
Interface
CLKASA WEA / DAVA
B7 B9 A9 B10 A10 B11 A11 B12 A12
COL_VA COL_HREF
Memory
656 Decod
656 Encod
1 2 3 4 1 2 3 4 4 3 2 1 4 3 2 1
8 7 6 5 8 7 6 5 5 6 7 8 5 6 7 8
COL_DQ1 COL_DQ2 COL_DQ3 COL_DQ4 COL_DQ5 COL_DQ6 COL_DQ7 COL_DQ8 COL_DQ9 COL_DQ10 COL_DQ11 COL_DQ12 COL_DQ13 COL_DQ14 COL_DQ15 COL_DQ16
68R 68R 68R 68R 68R 68R 68R 68R 68R 68R 68R 68R 68R 68R 68R 68R
3M88 22R
G1 A1 G2 F2 E2 E1 D2 D1 C2 C1 B1
YB0 / Do9 YB1 YB2 YB3 YB4 YB5 YB6 YB7 YB8
IM08 A2 B3 A3 B4 A4 B5 A5 B6 A6
UVA0 / Di0 UVA1 / Di1 UVA2 / Di2 UVA3 / Di3 UVA4 / Di4 UVA5 / Di5 UVA6 / Di6 UVA7 / Di7 UVA8 / Di8
UVB0 / Do0 UVB1 / Do1 UVB2 / Do2 UVB3 / Do3 UVB4 / Do4 UVB5 / Do5 UVB6 / Do6 UVB7 / Do7 UVB8 / Do8
MUX
3M29 3M08-1 1 3M08-2 2 3M08-3 3 3M08-4 4 3M09-1 1 3M09-2 2 3M09-3 3
M2 M1 L2 L1 K2 K1 J2 J1 H2
COL_RAS COL_CAS COL_WE
10K 10K 10K
4M05
H14 4K7
3M11
47R 47R 47R 47R 47R
4M06 RES 4M16
3M58 10K
A7 D15 F15 E15 E14 F14 A8 F1 H3
3M51 10K
B8 +3V3SWA
3M12
RES
RES 8 22R 7 22R 6 22R 5 22R 8 22R 7 22R 6 22R
3V2 3 OUT
100n
2u2 2M21
IN
44
38
VSSQ
VSS
DQM
U L
COL_DQ1 COL_DQ2 COL_DQ3 COL_DQ4 COL_DQ5 COL_DQ6 COL_DQ7 COL_DQ8 COL_DQ9 COL_DQ10 COL_DQ11 COL_DQ12 COL_DQ13 COL_DQ14 COL_DQ15 COL_DQ16
36 14
COL_DQM
C
COL_Do(1) COL_Do(2) COL_Do(3) COL_Do(4) COL_Do(5) COL_Do(6) COL_Do(7)
E TO/FROM SYNC INTERFACE 1
IM09
1V5
COM 2
100u 16V 2M56
2M20
100n 2M19
100n
100n
2M17
2M18
100n
100n 2M15
2M16
100n
100n 2M14
C8 C7 D3 C11 H13 E13 N6 N9 K3
2M13
100n
100n 2M12
2M11 C4 C12 G3 G13 L13 M3 N3 N8 N11 N14 P13
100u 16V 2M31
100n
100n
CLK CKE CS RAS CAS WE
2M22 100n
+5VSWIA
5M00
+5VSWIA
RESET
AVD
CLKSEL
AVS SNDA
CLKEXT COLUMBUS_CTRL
SNCL
A0IIC
SNRST
656SEL TCK TDI TDO TMS TRST
SDA SCL
N1
2M23 100u 16V
1 2
Hsync_SDTV
3M69 10K 9 10
13 2M60 1n0
2M24
IM11
7M14-1 74HCT221D VCC
3M68 15K
5M01
VDDC
+5VSWIA +5VSWIA
+3V3SWA
3 14 15
R CX CX|RX
100n
5 2M61 1n0
GND
11 6 7
+5VSWIA P1 C14
+5VSWIA 1K0 +3V3SWA
3M78
D14
4M08
C15
4M09
R CX CX|RX
12
H_DELAY
F
GND
7M15-1 74HCT221D VCC
3M71 2K7 1 2
FROM HERCULES
7M14-2 74HCT221D
VCC
4
8
H15
35 4K7 34 18 17 16 15
3M16 COL_YB(1) COL_YB(2) COL_YB(3) COL_YB(4) COL_YB(5) COL_YB(6) COL_YB(7) COL_YB(8)
2 3 5 6 8 9 11 12 39 40 42 43 45 46 48 49
13
A15
3M14
100R
SDA
B15
3M15
100R
SCL
2M62 1n0
3 14 15
R CX CX|RX
4
GND
G
8
100p RES
2M33 3M10
3M56 3M52 3M50
3M53 3M54 3M55 3M57 3M59
2M10
100n G15
G14
FM01 FM02 FM03 FM04 FM05
2M09
100n 2M07
2M08
100n
100n 2M06
2M05
100n
100n
100n 2M04
2M03
2M02
100n
100n 2M01
2M00
+3V3SWA
VDDS
4M04 RES
A11 D
4M17
FROM SCALER
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
B
33 37
COL_Do(8)
IM01
#RESET
NC
D
5M02
F
19
7M01
VDD VDDQ Φ 0 DRAM 1 512K X 16 X 2 2 3 4 0 5 A 512K-1 6 7 8 MSM56V16160F-7T3 9 10
VA HREF
+3V3SWA
7M00-2 COLUMBUS
COL_A11
COL_CLK
RES 8 22R 7 22R 6 22R 5 22R 8 22R 7 22R 6 22R 5 22R
3M28 3M06-1 1 3M06-2 2 3M06-3 3 3M06-4 4 3M07-1 1 3M07-2 2 3M07-3 3 3M07-4 4
7M03 LF15ABDT
COL_RST
21 22 23 24 27 28 29 30 31 32 20
COL_CLKASB IM00
IM10
E
FROM FLASH/ CONTROL
COL_A0 COL_A1 COL_A2 COL_A3 COL_A4 COL_A5 COL_A6 COL_A7 COL_A8 COL_A9 COL_A10
+3V3SWA
CLKASB WEB / DAVB
MUX
MUX
3M01-1 3M01-2 3M01-3 3M01-4 3M02-1 3M02-2 3M02-3 3M02-4 3M03-4 3M03-3 3M03-2 3M03-1 3M04-4 3M04-3 3M04-2 3M04-1
16
C
P6 R6 P5 R5 R1 R2 R3 P3 R4 P4 R7 P7
P12 R12 P11 P10 R10 P9 P8 R8 R13 R14 R15 P15 N15 M14 M15 L15
DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16
8
COL_A0 COL_A1 COL_A2 COL_A3 COL_A4 COL_A5 COL_A6 COL_A7 COL_A8 COL_A9 COL_A10 COL_A11
DQM RAS_ CAS_ CLK WE_
2M30 100n
47
470R 470R 470R 470R
2M29 100n
2M28 100n
41
8 7 6 5
L14 K15 K14 J14 J15
4M00 4M01 4M02 4M03
2M27 100n
4
1 2 3 4
COL_DQM COL_RAS COL_CAS COL_CLK COL_WE
2M68 100u 16V
2M26 100n
CLAMP_ADC
3M05-1 3M05-2 3M05-3 3M05-4
+5VSWIA
2M67 100n
2M25 100n
1
5V3
3D Comb
5M04 +5VSWI
2M32 100u 16V
COLUMBUS_IO
10
3M00 RES
13
7M00-1 COLUMBUS
7
0R
25
3M87
16V
16
100u
26
7M17 RES
2M66
A
5M05
16
2M65 100n
TO SCALER
4M10
3V2
+3V3SW
3M86 RES
3M79 3K3
+3V3SWA
SWAN 3D Noise Reduct
5M03
+3V3SWA
+3V3SWA
50
+3V3SWA
A
G
9
COLUMBUS
B19
B
41
TO ADC
TST1 TST2 TST3
NC_2 NC_3
D4 N2
BISTEN VSS B2 C3 C5 C6 C13 D13 C9 M13 C10 N4 N12 N13 P2 P14 B14 E3 F3 F13 J3 J13 K13 L3 N5 N7 N10 R9 R11
3M13 4K7
H
H
H_16980_019.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
2
3
4
5
6
7
8
9
10
11
2M00 F2 2M01 F2 2M02 F2 2M03 F2 2M04 F2 2M05 F2 2M06 F2 2M07 F3 2M08 F3 2M09 F3 2M10 F3 2M11 F4 2M12 F4 2M13 F5 2M14 F5 2M15 F5 2M16 F6 2M17 F6 2M18 F6 2M19 F6 2M20 F6 2M21 F7 2M22 E7 2M23 F8 2M24 F7 2M25 A9 2M26 A9 2M27 A9 2M28 A9 2M29 A11 2M30 A11 2M31 F3 2M32 A8 2M33 F2 2M56 F6 2M60 F9 2M61 F10 2M62 G9 2M65 A1 2M66 A2 2M67 B2 2M68 B2 3M00 B4 3M01-1 B7 3M01-2 B7 3M01-3 B7 3M01-4 B7 3M02-1 B7 3M02-2 B7 3M02-3 B7 3M02-4 B7 3M03-1 C7 3M03-2 C7 3M03-3 C7 3M03-4 B7 3M04-1 C7 3M04-2 C7 3M04-3 C7 3M04-4 C7 3M05-1 B1 3M05-2 B1 3M05-3 B1 3M05-4 B1 3M06-1 C7 3M06-2 C7 3M06-3 D7 3M06-4 D7 3M07-1 D7 3M07-2 D7 3M07-3 D7 3M07-4 D7 3M08-1 D7 3M08-2 D7 3M08-3 D7 3M08-4 E7 3M09-1 E7 3M09-2 E7 3M09-3 E7 3M10 F2 3M11 G2 3M12 H2 3M13 H3 3M14 G6 3M15 G6 3M16 C9 3M26 C4 3M27 D4 3M28 C7 3M29 D7 3M50 G2 3M51 G2 3M52 G2 3M53 G1 3M54 G1 3M55 G1 3M56 G2 3M57 G1 3M58 G2 3M59 G1 3M68 E9
3M69 F10 3M71 F9 3M78 F6 3M79 A4 3M86 A5 3M87 A5 3M88 C7 3M89 C4 3M90 E4 4M00 B4 4M01 B4 4M02 B4 4M03 B4 4M04 F2 4M05 F2 4M06 G2 4M08 G6 4M09 G6 4M10 D9 4M16 G2 4M17 F2 5M00 E8 5M01 F6 5M02 E1 5M03 A1 5M04 B1 5M05 A9 7M00-1 A6 7M00-2 F3 7M01 B11 7M03 E7 7M14-1 E9 7M14-2 F11 7M15-1 F9 7M17 A4 FM01 G1 FM02 G1 FM03 G1 FM04 G1 FM05 G1 IM00 C7 IM01 E6 IM03 C4 IM04 C4 IM06 C4 IM07 C4 IM08 D4 IM09 E7 IM10 C7 IM11 F6
Circuit Diagrams and PWB Layouts
SSB: EPLD 1
2
4
9
10
11
10K
30R
5N01
3N14
RES
RES
RES
RES 2N14
B
3N11
30R
47R
3N20
IN12
47R
2N04
1n0
FN10
+3V3-IO
5N03
5N04
30R
30R
100n
2N08
100n
+3V3SW
IN13
IN14
TO SCALER
2N09
IN07
10
100R
TXB0-
9
TXB1+
12 3N22
100R
TXB1-
11
LCD PANEL INTERFACE RECEIVER
RB+ RB-
3N23
100R
TXB2-
15
TXB3+
20 3N24
100R
TXB3-
19
TXBC+
18 3N25
100R
TXBC-
17 25 FN25
26
RC+ RC-
0 1 2 RC 3 4 5 6
RD+ RD-
RCLK+ 0 1 2 RD 3 4 5 6
RCLKPDWN CLKOUT
8 14 21
LVDSGND
GND
4N21
3N46
100R
4N22
3N47
100R
6
7N02-2 EP1C12F256C8 27 29 30 32 33 35 37
FN11 R_IN(0) R_IN(1) R_IN(2) R_IN(3) R_IN(4) R_IN(5) FN12 G_IN(0)
38 39 43 45 46 47 51
G_IN(1) G_IN(2) G_IN(3) G_IN(4) G_IN(5) FN13 B_IN(0) B_IN(1)
53 54 55 1 3 5 6
B_IN(2) B_IN(3) B_IN(4) B_IN(5) FN14 HS_IN FN15 VS_IN FN16 DE_IN
7 34 41 42 49 50 2
R_IN(6) R_IN(7) G_IN(6) G_IN(7) B_IN(6) B_IN(7) PARITY_IN FN17
R_IN(1) R_IN(2) R_IN(0)
R_IN(5) R_IN(7) G_IN(1) G_IN(0) G_IN(3) G_IN(7) R_IN(3) R_IN(4) G_IN(2) G_IN(6) G_IN(4)
N4 P3 P2 R1 L4 K5 N3 M4 L5 M3 N2 M2 N1 M1 L2 L1 K1 L3 K2 J1
IO_40 IO_39 IO_38 IO_37 IO_36 IO_35 IO_34 IO_33 IO_32 IO_31 IO_30 IO_29 IO_28 IO_27 IO_26 IO_25 IO_24 IO_23 IO_22 IO_21
BANK
Φ
IN15 IN16 IN17 IN18
7N02-5 EP1C12F256C8 IO_20 IO_19 IO_18 IO_17 IO_16 IO_15 IO_14 IO_13 IO_12 IO_11 IO_10 1 IO_9 IO_8 IO_7 IO_6 IO_5 IO_4 IO_3 IO_2 IO_1 CLKUSR INIT_DONE
H5 F1 G2 E1 F2 G3 F3 D1 E2 D2 E3 F5 E4 D3 F4 G5 B1 C2 C3 D4
B_IN(7) B_IN(0) G_IN(5) B_IN(4) R_IN(6) B_IN(6) B_IN(1) PARITY_IN DE_IN B_IN(5) VS_IN B_IN(3)
LVDS_PWR_DWN
B21
HS_IN B_IN(2)
+3V3-IO PIXEL+_RESET IN19 3N28 180R
6N01
LED_OUT FN20
R2 T2 R3 P4 R4 T4 R5 P5 M5 M6 N5 N6 P6 R6 M7 T6 R7 P7 N7 R8 T8 M8 N8 P8
IO_41 IO_42 IO_43 IO_44 IO_45 IO_46 IO_47 IO_48 IO_49 IO_50 IO_51 IO_52 IO_53 IO_54 IO_55 IO_56 IO_57 IO_58 IO_59 IO_60 IO_61 IO_62 IO_63 IO_64
Φ
BANK 4
2
3
D
TO SCALER INTERFACE IO_65 IO_66 IO_67 IO_68 IO_69 IO_70 IO_71 IO_72 IO_73 IO_74 IO_75 IO_76 IO_77 IO_78 IO_79 IO_80 IO_81 IO_82 IO_83 IO_84 IO_85 IO_86 IO_87 IO_88
M10 R9 T9 P9 N9 R10 T11 N10 P10 R11 P11 N11 N12 M9 M11 M12 P12 R12 T13 R13 R14 P13 T15 R15
3N29 100R
BACKLIGHT_DIM 2N16 TO TOP CONN. 100p
3N30 3N31 3N32 3N33 3N34 3N35 3N36 3N37 3N38 3N39 3N40 3N41 3N42 3N43 3N44 3N45
B_LT_PWM G_LT_PWM R_LT_PWM B_RT_PWM G_RT_PWM R_RT_PWM B_LB_PWM G_LB_PWM R_LB_PWM B_RB_PWM G_RB_PWM R_RB_PWM FN21 FN22 FN23
100R 100R 100R 100R 100R 100R 100R 100R 100R 100R 100R 100R 100R 100R 100R 100R
E
1N03
FN24
TLMG3100
7
6
1 2 3 4 5
BM05B-SRSS-TBT RES
PLLGND
H_16980_020.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
5
1 FOR DEVELOPMENT 2 USE ONLY 3 4
22 24
16
4 28 36 44 52
TXB2+
0 1 2 RA 3 4 5 6 0 1 2 RB 3 4 5 6
E
SCL_IO FN19
7N04 THC63LVDF84B
PLLVCC
Φ
RA+ RA-
23
LVDSVCC
VCC 3N21
13
31 48 40 56
3N26 4K7
TXB0+
3N27 47R
100n
1N02 B4B-PH-SM4-TBT(LF)
SDA_IO FN18
2N19 100p
100n
2N07
1 2N10 100n
2N20 100p
2N06
1N05 14M31818
2N18 100p
5N02
OC
2N17 100p
100n
30R
LVDSCLKn 4N20
2N05
C
4 +3V3SW
2
+3V3SW
FN35
4N18
+3V3SW
3
4N19
4N17
FN34
4N16
LVDSCLKp
LVDSDn 4N15
4N14 FN32
FN33
LVDSDp
LVDS IN
4N13
FN31
4N12
LVDSCn
4
4N11
LVDSCp 4N10 FN30 4N09
4N08 FN29 4N07
LVDSBp 4N06 FN28 4N05
LVDSAn 4N04 4N03
FN27
4N02 FN26
LVDSBn
7N03-2 BC847BS
TO EPLD
FN07
FN03
7N03-1 BC847BS 1
2
FN09
FN06
1 2 3 4 5 6 7 8 9 10
2N15 100p
3N19
10K
1u0 2N03 3N10
3N08
33K 3N07
IN06
5
4N01
CLK_REF
3N09 1K0
3
IN09
C
FN02
6
33K
100n 2N02
IN08
H4 CEO G1 0 H1 1 G16 CLK 2 H16 3
1N01 RES FN08
FN05
2N13
IN11
+3V3-IO
47R 47R 47R 47R
A
FOR DEBUGGING
FN04 3N15 3N16 3N17 3N18
H14 TDI H15 TDO J14 TCK J15 TMS
2N12
IN10
SCAN
+3V3-IO
2N11
4
FN01
IN05
IN04
LVDSAp
8
10K
10K
IN02
5
CONTROL
DATA0 DCLK CSO ASDO 0 MSEL 1 CONF_DONE STATUS CONFIG CE
3N13
3N06
3N05
3N04 IN03
6
DCLK
Φ
H2 K4 G4 K3 J3 J2 K13 J13 H3 J4
3N12
10K
10K
10K
10K 3N03
3N02 IN01
7N02-1 EP1C12F256C8
GND
F
7
+3V3-IO +3V3-IO
5N05
SCD
1
CS_
ASDI
D
6
10K
DATA
3N01
8
7
3
Φ
TO SCALER INTERFACE
5
+3V3-IO
7N01 EPCS4SI8 VCC
2
10K
10K
+3V3-IO
2N01 100n
FOR NONPIXEL+ SETS
42
B20
+3V3-IO
B
7.
EPLD
B20 A
3
LC4.8L LA
4
5
6
7
8
9
10
11
F
1N01 A8 1N02 D10 1N03 F11 1N05 C5 2N01 A1 2N02 C1 2N03 C1 2N04 C2 2N05 D3 2N06 D3 2N07 D4 2N08 D4 2N09 D4 2N10 C5 2N11 B6 2N12 B6 2N13 B6 2N14 B7 2N15 B8 2N16 D10 2N17 F10 2N18 F11 2N19 F11 2N20 F11 3N01 A2 3N02 A2 3N03 A2 3N04 A2 3N05 A3 3N06 A3 3N07 C1 3N08 C2 3N09 B3 3N10 C1 3N11 C4 3N12 A4 3N13 A5 3N14 A5 3N15 A6 3N16 A6 3N17 B6 3N18 B6 3N19 B5 3N20 C5 3N21 D2 3N22 E2 3N23 E2 3N24 F2 3N25 F2 3N26 D3 3N27 D6 3N28 F8 3N29 D10 3N30 E10 3N31 E10 3N32 E10 3N33 E10 3N34 E10 3N35 E10 3N36 E10 3N37 E10 3N38 E10 3N39 E10 3N40 F10 3N41 F10 3N42 F10 3N43 F10 3N44 F10 3N45 F10 3N46 D9 3N47 D9 4N01 D1 4N02 D1 4N03 D1 4N04 D1 4N05 D1 4N06 D1 4N07 D1 4N08 D1 4N09 D2 4N10 D2 4N11 D2
4N12 D2 4N13 D2 4N14 D2 4N15 D2 4N16 D2 4N17 D2 4N18 D2 4N19 D2 4N20 D2 4N21 D8 4N22 D8 5N01 A7 5N02 C3 5N03 C4 5N04 C4 5N05 C5 6N01 F8 7N01 A2 7N02-1 A4 7N02-2 D6 7N02-5 D9 7N03-1 C2 7N03-2 C1 7N04 D4 FN01 B3 FN02 B5 FN03 C5 FN04 A7 FN05 A7 FN06 B7 FN07 B7 FN08 A8 FN09 B7 FN10 B8 FN11 D5 FN12 E5 FN13 E5 FN14 F5 FN15 F5 FN16 F5 FN17 F5 FN18 D8 FN19 D8 FN20 F8 FN21 F11 FN22 F11 FN23 F11 FN24 F11 FN25 F3 FN26 D1 FN27 D1 FN28 D1 FN29 D1 FN30 D1 FN31 D2 FN32 D2 FN33 D2 FN34 D2 FN35 D2 IN01 A2 IN02 B2 IN03 A2 IN04 B2 IN05 B3 IN06 C2 IN07 D3 IN08 C1 IN09 C1 IN10 B3 IN11 B3 IN12 C4 IN13 D4 IN14 D4 IN15 D10 IN16 D10 IN17 D10 IN18 D10 IN19 F8
Circuit Diagrams and PWB Layouts
SSB: EPLD 1
2
LC4.8L LA
3
7.
4
43
5
6
7
8
5P01
FP02
+3V3-IO 100n
100n
100n 2P14
100n 2P11
2P13
100n 2P10
2P12
100n
100n 2P09
2P07
2P08
100n
100n
2P06
100n
100n 2P05
100n 2P03
2P04
2u2
100n
2P01
30R
2P02
FP01
+1V5
5P02
FP04
COM 2
2u2
30R 2P17 2u2
+1V5-PLL
2P21 100n
FP03
2P20 100n
3
2P19 100n
2P16 100n
OUT
2P18
B
2P15 100u 16V
IN
N.C.
7P01 LF15ABDT
5P03
FP05
+1V5-INT
BANK
D8 E8 A8 B8 D7 C7 B7 A6 E7 B6 C6 D6 D5 E6 E5 C5 B5 A4 B4 C4 B3 A2 B2
IO_157 2 IO_158 IO_159 IO_160 IO_161 IO_162 IO_163 IO_164 IO_165 IO_166 IO_167 IO_168 IO_169 IO_170 IO_171 IO_172 IO_173 IO_174 IO_175 IO_176 IO_177 IO_178 IO_179 DEV_OE DEV_CLR
Φ
C1 G6 P1 A14 F10 F7 A3 P16 K11 C16 T3 L7 L10 T14
+3V3-IO
BANK1
POWER
BANK2 VCCIO BANK3 GND BANK4
A7 A10 G8 G10 H7 H9 J8 J10 K7 K9 T7 T10
+1V5-INT
100n
100n
Φ
VCCINT
PLL1 PLL2 PLL1 GNDG PLL2 GNDA
H6 PLL1 VCCA H11 PLL2
+1V5-PLL
2P30
2P29
100n
100n 2P28
2P27
100n 2P26
100n
100n 2P25
2P24
2P23
2P22
2u2
100n
30R
IO_132 IO_133 IO_134 IO_135 IO_136 IO_137 IO_138 IO_139 IO_140 IO_141 IO_142 IO_143 IO_144 IO_145 IO_146 IO_147 IO_148 IO_149 IO_150 IO_151 IO_152 IO_153 IO_154 IO_155 IO_156
N.C.
+3V3SW
B15 A15 B14 C13 B13 A13 B12 C12 E12 E11 E9 D12 D11 C11 B11 A11 B10 C10 D10 A9 B9 D9 C9 E10 C8
B21
7N02-6 EP1C12F256C8
LVDS TRANSMITTER
FOR MFD ONLY
A1 A16 A5 A12 F6 F8 F9 F11 G7 G9 G11 H8 H10 J7 J9 K6 K8 K10 L6 L8 L9 L11 T1 T5 T12 T16
1P06 LVDS_VCC
*
4P01 4P02
26"/32" 16X9 YES
23" 15X9 LVDS_OPT
NC
J6 J11 J5 J12 32
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
A
TO LCD PANEL (TIMING CONTROL)
EAGLE INTERFACE 7N02-3 EP1C12F256C8
1
10
EPLD
B21 A
9
B
+3V3SW 0-1453230-3
C
5P06 30R 40 LVDSCLKn
34
FP11 FP12 FP13
R(6) R(7) G(6) G(7) B(6) B(7) PARITY_OUT
FP14
50 2 8 10 16 18 25
2
2P39
10p
LVDSB+ LVDSB-
LVDSA-
3
48 LVDSAn
0
FP17
LVDSA+ LVDSA+ TB
6
-
45 LVDSBp 46 LVDSBn
2
DLW21S
TB
2P40
10p
LVDSB+
+3V3SW
2P41 10p LVDSB-
+3V3SW
0 +3V3STBY TC + TC -
6
41 LVDSCp 42 LVDSCn
DLW21S
2P42 10p
4P03 4P04 4P05 4P06 4P07 4P08
+3V3SW
LVDSC+
2P43 10p LVDSC-
3P06 4P09 7P03 BC847BW
3P07 10K
0
2P46 10n DLW21S
TD + TD -
6 5 13 21 29 53
GND
37 LVDSDp 38 LVDSDn
LVDS GND PLL GND
2P44 10p
+3V3SW
4K7
* 4P01 * 4P02
(RESET) 4P12 SC_STANDBY FROM HERCULES
20 22 23 24 27 28 30
-
LVDSC+ LVDSC-
LVDSA+ 2P38 10p
LAMP_ON_OFF
FP10
B(2) B(3) B(4) B(5) HS_OUT VS_OUT DE_OUT
F
6 7 11 12 14 15 19
TA 6
47 LVDSAp
3
G(1) G(2) G(3) R(3) G(4) G(5) R(4) B(0) G(3) B(1)
+
2
R(6) R(0)
DLW21S
TA
3
FP09
R(7)
LVDSCLK+ LVDSCLK-
2
G(0)
LVDSCLK-
0
4 1P02 1
R(5)
2P37 10p DLW21S
51 52 54 55 56 3 4
4 1P03 1
R(2)
2
44
26
9
R(1) G(6) G(2) G(1)
LVDSCLK+
FP16
4P11 LVDS_OPT CTRL_DISP2 CTRL_DISP1 (NC)VDISP_2 (NC) VDISP2
LVDS_VCC
FROM DC-DC CONVERTER
2
3
1P08 33
32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
FI-WE31P-HFE-E1500 FI-TWE31P-VF-E1400
FOR LCD ONLY
LVDSD+
2P45 10p LVDSD-
H_16980_021.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10
1
32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
TO PLASMA PANEL (TIMING CONTROL)
FP08
-
3
R(0) R(1) R(2) R(3) R(4) R(5) G(0)
TCLK
2P36 10p
3
G14 G13 G15 F16 F14 F13 F15 E16 E15 D16 D15 E14 F12 E13 D14 H13 G12 B16 C15 C14 D13
47R
39 LVDSCLKp
1
IO_111 IO_112 IO_113 IO_114 IO_115 IO_116 IO_117 IO_118 IO_119 IO_120 IO_121 IO_122 IO_123 IO_124 IO_125 IO_126 IO_127 IO_128 IO_129 IO_130 IO_131
3P03
+
4 1P04
Φ
BANK 3
FP07
RS PDWN R|F CLKIN
PLL VCC
4 1P05 1
B(3) B(2) G(4) G(5) B(1) B(7) B(0) CLK_OUT G(7)
IO_89 IO_90 IO_91 IO_92 IO_93 IO_94 IO_95 IO_96 IO_97 IO_98 IO_99 IO_100 IO_101 IO_102 IO_103 IO_104 IO_105 IO_106 IO_107 IO_108 IO_109 IO_110
CLK_OUT
1 32 17 31
FP15
SDA_DMA_BUS1_DISP SCL_DMA_BUS1_DISP +3V3SW 4000 RES 3P05 100R 3P04 100R RES 4P10 +3V3SW LVDSD+ LVDSD-
FROM EPLD
33
33 35
B(6)
N13 P14 P15 R16 N15 N16 K12 K14 L12 N14 M13 M14 L13 M15 M16 L14 L15 L16 K16 K15 J16 H12
FP06
LVDS VCC
(1G50) 1P07
7P02 THC63LVDM83R
4 1P01 1
B20 (H=NORMAL) LVDS_PWR_DWN
VCC
36 43 49
PARITY_OUT HS_OUT VS_OUT DE_OUT B(5) B(4)
FROM SCALER INTERFACE
3P01 4K7
7N02-4 EP1C12F256C8
FOR UFD ONLY
100n
+3V3-IO
LVDS OUT
2P35 100n
2P34 100n
2P33
D
5P05 30R
5P04 30R
2P32 100n
E
C
2P31 100n
4
5
6
7
8
9
10
D
E
F
1P01 D6 1P02 E6 1P03 E6 1P04 F6 1P05 F6 1P06 A10 1P07 D10 1P08 D10 2P01 A2 2P02 A2 2P03 A2 2P04 A2 2P05 A2 2P06 A3 2P07 A3 2P08 A3 2P09 A3 2P10 A3 2P11 A3 2P12 A4 2P13 A4 2P14 A4 2P15 B1 2P16 B1 2P17 B1 2P18 B2 2P19 B2 2P20 B2 2P21 B2 2P22 C2 2P23 C2 2P24 C2 2P25 C2 2P26 C2 2P27 C3 2P28 C3 2P29 C3 2P30 C3 2P31 C4 2P32 C4 2P33 C4 2P34 C5 2P35 C6 2P36 D7 2P37 D7 2P38 E7 2P39 E7 2P40 E7 2P41 E7 2P42 F7 2P43 F7 2P44 F7 2P45 F7 2P46 F8 3P01 D4 3P03 D4 3P04 D8 3P05 D8 3P06 F8 3P07 F8 4000 D8 4P01 E9 4P02 E9 4P03 E9 4P04 E9 4P05 E9 4P06 E9 4P07 E9 4P08 F9 4P09 F8 4P10 D8 4P11 E10 4P12 F9 5P01 A2 5P02 B2 5P03 B2 5P04 C5 5P05 C5 5P06 C6 7N02-3 A5 7N02-4 D1 7N02-6 A7
7P01 A1 7P02 D6 7P03 F9 FP01 A1 FP02 A3 FP03 B1 FP04 B2 FP05 B3 FP06 D3 FP07 D3 FP08 D3 FP09 E3 FP10 E3 FP11 F3 FP12 F3 FP13 F3 FP14 F3 FP15 D10 FP16 D10 FP17 E10
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
44
SSB: Cinch Analog I/O 1
2
3
4
S057
10
11
12
2R81 330p
3R89 220K
2R86
2R83 RES
SC2_R_MON_OUT 2R60 10u 16V
10u 16V
DMMI_L_IN
AV1:CVBS+YPbPr+Audio L/R
+5VSW
SC2_R_IN CVI_Pr_IN
DMMI_R_IN
39K
3R61
100R 3R28 75R
CVI_Pb_IN
2R65 4R60 4R61 3R65
2u2
2R66
2u2
1 2 10
15
100n 100n
3 5 9
4
10K
2R62 2R63 3R62 RES
100R
3R64 47K
3R63 47K
3R23 IR22
5R68 30R
1 3R14 RES 4R12
2u2
2
4R41 8
IR40
GND
3R34 FR41
FR34
FR42
0R
2R35 4u7
10R 2R42 RES
100K IR47
4R68
D2
IR60
18
IR59
3R81
17
IR58
100R
S2B
DMMI_CVBS_IN
4R03
2R72 1u0
GND VSS
3R82 47K
3R83 47K
3R84 47K
3R85 47K
FR09 FR08 FR07
1n0
4R13
DMMI_B_Pb_IN
TO HERCULES
+5VSW
3R46 47K 2R41
3R58 47K
FRONT_C_IN
IR20
SC2_Y_IN
4R14 7R57 16 3R10CD74HC4053M96 47K VDD MDX 6 G4
3R77 47K
3R43 47K FROM SCALER 7R47 BC857BW
13 12 11
SC2_C_IN SC2|AV2_SIDE_SW
2R51 IR51
IR50
SC2_L_IN
2u2
FRONT_Y_CVBS_IN
3R53 15K
+5VSW 3R96 47K
2R59
B2
SC2_R_MON_OUT
FR19
B2
SC2_CVBS_MON_OUT
FR20
14 SC2_AV3_C_IN
1 2 4X1 4X2
IR
B2
ITV_IR_SW_RESET
B17 B2
HP_DET_R_DC SC_STANDBY
2
FR23 FR24 +3V3STBY
NC NC
26 27 28 29 30 31 32 33 34
FR25 FR26 FR27
3R98 47K
SC2_R_IN
2R15
4u7
4R15
3R18 47K
3 5 9
FR29
AF732L-N2G1A
I
7
J
SC2_Y_IN 3R56 15K AV2_DMMI_SW 4R16
3
H
VEE VSS
2u2 2R55 180p
G
4
H_16980_015.eps 230207
3139 123 6145.4 * For LATAM diversity see table in chapter 10 1
NC
B2
15 SC2_AV3_Y_IN
1 2 10
FR21
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
3R11 47K
4u7 2R54 IR55
IR54
IR24
2R57 100n
FR14 FR15 FR17 FR18
B2
IR21
4u7
IR18
4u7
2R14 4u7
2R58
3R09 47K IR83
FR13
DMMI_FBL_IN SC2_L_MON_OUT
B2
FROM SIDE CONNECTOR
1R01
FR11
DMMI_R_Pr_IN
10K S062
1u0
DMMI_G_Y_IN
+5VSW
2R50 180p
SC1_CVI_DMMI_B_Pb_IN 2R75
S4B
FR12
IR25
3R51
IR81
D4
3R08 150R
+5VSW
S061
6R65
BZX384-C3V9
TO CINCH DIGITAL
E
19
3R37 47K
10K
BZX384-C3V9 BZX384-C3V9
3
S4A
FR10
+5VSW
3R50
FR54 3R54 6R67
1
FQ32
S2A
4R02
20
DMMI_L_IN
56K
6R68
5
AV3_R
6R66 BZX384-C3V9
6
1u0
FR50
AV3_L
IN4
2R79
+5VSW
IR48
SC1_CVI_DMMI_G_Y_IN
F
SC2_C_IN
9
MSD-244V-01 NIDIP (765A) LF
4
IN2
+5VSW
75R
1u0
IR82
2R33 RES 3R42
2R74
DMMI_R_IN
3R47
2
100R
SC1_COMP_AV1_R_IN
3R40 75R
3R41
FR47 2R47
1R03
S3B
4R69 4R70
10R
FR40
FR46
S1B
RESERVED FOR DMMI
3R35 IR34
3R49 1K0
3R57 2R46 75R RES
7
3R80
IR61
D3
D1
3R78 3R79 47K 47K
+5VSW
I
8
IR64
IR62
14
1u0
2u2
3R36 47K
4R42 RES
S063
7
1R02-3
IR65
1u0
4R01
+5VSW
S060
1R02-2
100R
13
2R73
1n0
4
3R76 2R71
9
TO MUX-SYNC INTF IR63
1n0
6
IR66
5R57
3
1u0
12
15
AV2: SVHS+CVBS+Audio L/R
S059
5
2R70
S3A
NC
2R03 IR03 3R05 15K
2R04 180p
TO MUX-SYNC INTF SC1_CVI_DMMI_R_Pr_IN
SC1_COMP_AV1_L_IN
10
S1A
SW_I2C_SDA SW_I2C_SCL POWER-DOWN_BOLT-ON
1
H
IR68
IN3
2R78
10K
3
11
IN1
DMMI CONNECTOR (V1.1)
3R02 15K
IR02
3R03
S052
6R64
2R01 IR01
2R00 180p
D
2R80
FR03
6R63 BZX384-C3V9
BZX384-C3V9
10K
S051
1
IR00
3R00
2
4
DMMI_RGB_SW
FR85 FR00
3R74 47K
7R68 ADG734BRU
Φ SPDT SWITCH
6
6
NC
100R
SC2_CVBS_MON_OUT
3R15 RES
3R13 1K0
IR67
3R75
SC1_FBL_IN_1
3R20 1K0
68R
3R73 47K
VDD
3R12
4
3R72 47K
3R71 47K 16
SC1_CVBS_IN
RES +5VSW
2
2R69 100n
75R
3R19
IR06
2R68 10u 16V
5
RES 3R06 RES
4R06 RES
1R02-1 MSP-801V1-02-01-A NI LF(PHT)
J
IR69
8
S056
AV1_CVBS_IN
7R12 BC847BW
6R62 6R61 BZX384-C3V9 BZX384-C3V9
MSD-244V-91 NIDIP (765A) LF
3R07
SC2_R_IN_1
RESERVED FOR SET WITH DMMI ONLY +5VSW
2R13 RES
G
B 3R91 560R
4R62 4R63 4R64
120R
S055
CVI_Pr_IN CVI_Pb_IN CVI_Y_IN
CVI_Y_IN
100R 3R22 75R
FR06
F
3R67 47K
SC2_Y_IN_1
SC2_L_IN_1
3R68 3R69 3R70 10K 47K 47K
3
BAS316 2R64 220n
C
D
5
7R61 BC847B
VEE VSS
SC2_AV3_Y_IN FR22
TO HERCULES 6R60
14
1 2 4X1 4X2
75R
S054
C
3R16 75R
G4
13 12 11
7
3R17 IR16
FR16
MDX
3R95
S053
39K
3R60
AV2_DMMI_SW DMMI_RGB_SW
3R29 IR28
FR28
3R66 47K
VDD
6
1 3
2R61 7R60 100n CD74HC4053M96 16
SC2_R SC2_L_IN
IR04
A
RESERVED FOR DMMI
+5VSW
FR83
5
1R06
14
TO HERCULES
SC2_L
75R
FR84
3R90 220K
SC2_L_MON_OUT
10u 16V
DMMI_CVBS_IN
E
13
3R86
2
2R82 330p
3R87 150R
S058
MSD-244V-90 NIDIP (765A) LF
9
B23
2R85
2R84 RES 3R93 0R
B
8
3R94
A
6
7
8
3R88 150R
3R92 0R
4
6
CINCH ANALOGUE IO (1FH)
B23 1R07
5
4
5
6
7
8
9
10
11
12
13
14
1R01 G14 1R02-1 G1 1R02-2 H1 1R02-3 H1 1R03 I1 1R06 E1 1R07 A1 2R00 F3 2R01 F4 2R03 F4 2R04 F3 2R13 D2 2R14 H9 2R15 J8 2R33 H3 2R35 G4 2R41 H4 2R42 H3 2R46 I2 2R47 I2 2R50 J3 2R51 I4 2R54 J4 2R55 J3 2R57 H10 2R58 H8 2R59 I8 2R60 A10 2R61 A11 2R62 B10 2R63 C10 2R64 B12 2R65 B10 2R66 B10 2R68 D10 2R69 D10 2R70 E9 2R71 E9 2R72 F11 2R73 E12 2R74 E12 2R75 E12 2R78 I13 2R79 G12 2R80 I13 2R81 A4 2R82 A4 2R83 A3 2R84 A3 2R85 A5 2R86 A5 3R00 F2 3R02 F3 3R03 F2 3R05 F3 3R06 D2 3R07 D2 3R08 G8 3R09 H9 3R10 I9 3R11 I9 3R12 E3 3R13 E3 3R14 E3 3R15 E3 3R16 C2 3R17 C2 3R18 J9 3R19 D3 3R20 E3 3R22 D2 3R23 C2 3R28 B2 3R29 B2 3R34 G3 3R35 G3 3R36 G4 3R37 H4 3R40 H3 3R41 H2 3R42 H3 3R43 I4 3R46 H4 3R47 I2 3R49 H3 3R50 I2 3R51 I2 3R53 J3 3R54 J2 3R56 J3 3R57 I1 3R58 H8 3R60 B9 3R61 B9 3R62 C9 3R63 C9 3R64 C9 3R65 B10 3R66 A12 3R67 B12 3R68 D9 3R69 D10 3R70 D10 3R71 D11 3R72 D12 3R73 D12 3R74 D12 3R75 E9 3R76 E9 3R77 I8 3R78 F10 3R79 F10 3R80 E12 3R81 E12 3R82 F11 3R83 F12 3R84 F12 3R85 F12 3R86 I13 3R87 A3 3R88 A3 3R89 A4 3R90 A4 3R91 B13 3R92 A2 3R93 A2 3R94 I13 3R95 I13 3R96 I8 3R98 J8 4R01 F7 4R02 E13 4R03 E13 4R06 D3 4R12 E5 4R13 G8 4R14 H9 4R15 J9 4R16 J10 4R41 H1 4R42 H2 4R60 B10 4R61 B10 4R62 C11 4R63 C11 4R64 C11 4R68 E8 4R69 F10
4R70 F10 5R57 H10 5R68 D9 6R60 B12 6R61 F1 6R62 F2 6R63 G2 6R64 F2 6R65 I2 6R66 J2 6R67 J2 6R68 J2 7R12 E3 7R47 I3 7R57 I10 7R60 A11 7R61 B13 7R68 D11 FQ32 J1 FR00 F2 FR03 F2 FR06 D2 FR07 G14 FR08 F14 FR09 F14 FR10 G14 FR11 G14 FR12 G14 FR13 G14 FR14 G14 FR15 H14 FR16 C1 FR17 H14 FR18 H14 FR19 H14 FR20 H14 FR21 H14 FR22 C1 FR23 H14 FR24 H14 FR25 I14 FR26 I14 FR27 I14 FR28 B1 FR29 I14 FR34 G2 FR40 I2 FR41 G2 FR42 H2 FR46 I1 FR47 I2 FR50 I2 FR54 J2 FR83 B1 FR84 B1 FR85 E1 IR00 E3 IR01 E4 IR02 F3 IR03 F4 IR04 B1 IR06 D3 IR16 C2 IR18 H4 IR20 H8 IR21 H8 IR22 C2 IR24 I8 IR25 I8 IR28 B2 IR34 G3 IR40 H1 IR47 I2 IR48 I3 IR50 I3 IR51 I4 IR54 J3 IR55 J4 IR58 E11 IR59 E11 IR60 E11 IR61 E11 IR62 E11 IR63 E11 IR64 E10 IR65 E10 IR66 E10 IR67 E10 IR68 E10 IR69 D10 IR81 E12 IR82 G4 IR83 H9 S051 F2 S052 F2 S053 B1 S054 C1 S055 D1 S056 D1 S057 A2 S058 A2 S059 H2 S060 H2 S061 J2 S062 J2 S063 H1
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
45
Layout SSB (Top Side Overview) 1103 1105 1201 1202 1440 1441 1801 1J07 1J08 1P01 1P02 1P03 1P04 1P05 1P06 1P07 1P08
B6 B7 B6 A6 B5 A5 C3 A4 A3 A1 A1 A1 A1 A1 A1 A1 A1
1Q03 1R01 2203 2205 2206 2207 2208 2209 2210 2211 2214 2216 2218 2221 2223 2224 2226
D1 D4 A5 B6 B6 B6 A6 A6 B5 B6 B6 B6 B5 B6 A5 A5 B6
2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2240 2241 2242 2243 2244 2245
B6 B6 B6 A6 B5 B5 A6 A6 A5 A5 A6 A5 A5 B6 B6 B5 B5
2246 2247 2248 2249 2250 2251 2255 2256 2257 2258 2259 2260 2262 2263 2264 2265 2266
B5 B6 B6 B6 A5 B5 B6 B6 B6 A6 B6 A6 B6 B6 B6 B6 B6
2267 2268 2269 2270 2271 2272 2274 2275 2276 2277 2278 2279 2285 2286 2287 2288 2290
B6 B6 A6 A6 A5 A5 B6 A6 A6 B5 B5 B5 A6 B6 B6 B5 C5
2291 2447 2448 2501 2502 2503 2504 2505 2506 2507 2508 2509 2611 2615 2618 2704 2706
B5 A5 A5 A5 A6 A5 A6 A6 A6 A6 A5 A5 A7 A7 A6 A4 A4
2709 2713 2716 2731 2736 2737 2738 2739 2752 2753 2754 2755 2756 2757 2758 2800 2815
A3 A4 A3 A4 A5 A4 A5 A5 A3 A3 A3 A3 A3 A3 A3 C2 C3
2901 2902 2903 2904 2917 2934 2940 2A00 2A01 2A02 2A12 2A13 2B01 2B02 2B05 2B17 2B18
B1 B1 C4 C3 C2 C3 C3 B3 B2 B2 B4 B3 B1 B1 B1 B1 B1
2D03 2D04 2D05 2D06 2D07 2D12 2D15 2D17 2D20 2D21 2D22 2D23 2D24 2D25 2D26 2D27 2D31
D1 C1 C1 D1 C1 C1 C1 C1 D1 C1 C1 D1 C1 C1 C1 C1 C1
2D32 2D34 2D38 2D41 2E00 2E01 2E02 2E03 2E04 2E05 2E06 2E07 2E08 2E09 2E10 2E11 2E12
C1 D2 C1 C1 D3 D4 D4 D3 D3 D3 C3 D3 D3 C3 D3 C3 C3
2E13 2E14 2E15 2E16 2E17 2E18 2E19 2E20 2E21 2E22 2E23 2E33 2E34 2E35 2J02 2J03 2J04
C3 C3 C4 C3 C3 C3 C3 C3 C3 C4 C4 C4 D4 C4 A4 A6 A1
2J05 2J06 2J07 2J08 2J09 2J10 2J11 2J12 2J13 2J14 2J15 2J16 2J17 2J18 2J19 2J20 2J21
A1 A1 A1 A1 A1 A3 A3 A3 A3 A3 A3 A5 A5 A5 A5 A5 A5
2J22 2J23 2J26 2J27 2J28 2J29 2J30 2J31 2J33 2J34 2J35 2J36 2L02 2L03 2L04 2L05 2L06
A5 A5 A6 A6 A6 A6 A4 A3 A5 A5 A5 A6 B5 B5 B5 B5 B5
2L20 B5 2L21 B4 2L22 B5 2L27 B5 2L28 B4 2L29 B5 2L30 B5 2L31 B5 2L32 B4 2M00 C4 2M01 C4 2M02 C4 2M03 C4 2M04 C4 2M05 C4 2M06 C4 2M07 C4
Part 1 H_16980_023a.eps
Part 3 H_16980_023c.eps
3139 123 6145.4
2M08 C4 2M09 C4 2M10 C4 2M11 C4 2M12 C4 2M13 C4 2M14 C4 2M15 C4 2M16 C4 2M17 C4 2M18 C4 2M19 C4 2M20 B4 2M21 B4 2M22 B4 2M23 B4 2M27 C4
2M28 C4 2M29 C4 2M30 C4 2M31 C4 2M32 C4 2M33 C4 2M56 C4 2M60 C5 2M61 C4 2M62 C5 2M66 B4 2M68 B5 2P15 A2 2P36 A1 2P37 A1 2P38 A1 2P39 A1
2P40 2P41 2P42 2P43 2P44 2P45 2P46 2Q01 2Q06 2Q11 2Q16 2Q17 2Q18 2Q21 2Q23 2Q25 2Q30
A1 A1 A1 A1 A1 A1 A1 D2 D2 D1 D1 D2 D2 D1 D1 D2 D3
2Q31 2Q32 2Q33 2R00 2R01 2R03 2R04 2R13 2R14 2R33 2R35 2R41 2R42 2R46 2R47 2R50 2R51
D3 D3 D3 D5 D5 D6 D6 D5 D3 D4 D3 D4 D4 D3 D3 D3 D3
2R54 2R55 2R57 2R60 2R61 2R62 2R63 2R64 2R65 2R66 2R68 2R69 2R70 2R71 2R72 2R73 2R74
D3 D3 D3 D2 D3 D3 D2 D2 D2 D3 D5 D6 D5 D5 D5 D5 D5
2R75 2R78 2R79 2R80 2R81 2R82 2R83 2R84 2R85 2R86 3126 3127 3207 3214 3215 3216 3217
D5 D4 D5 D4 D4 D5 D4 D5 D4 D4 B6 B6 B6 B6 B5 B5 B5
3222 3223 3224 3225 3226 3227 3230 3231 3234 3235 3236 3242 3244 3245 3262 3263 3264
A5 A5 A5 A5 A5 A5 A6 A6 A6 A6 A6 B5 B5 B6 B6 B6 B6
3265 3266 3267 3268 3270 3271 3272 3273 3274 3277 3278 3279 3280 3281 3282 3285 3286
B6 B6 B6 B5 A5 B5 B6 B6 B6 B5 B5 B5 B6 B6 C5 B6 B5
3291 3292 3293 3294 3295 3501 3502 3734 3751 3752 3753 3754 3801 3802 3803 3804 3805
B5 C5 B5 C5 B6 A5 A5 A3 A3 A3 A3 A3 C1 C2 B2 B2 B2
3806 3807 3808 3809 3810 3811 3812 3813 3814 3815 3816 3819 3A00 3A01 3A07 3A08 3A10
B2 C1 C1 B2 B2 B2 B2 B2 B2 B2 C2 C2 B2 B2 B2 B2 B4
3A11 3A13 3A14 3B01 3B02 3B03 3D05 3D06 3D07 3D08 3D09 3D10 3D12 3D15 3D16 3D17 3D18
B3 B3 B3 B1 B1 B1 C1 C1 C1 C1 C2 C1 C1 C2 C2 C2 C2
3D20 3E00 3E06 3E07 3E08 3E09 3E10 3E11 3E12 3E13 3E14 3E15 3E16 3E17 3E18 3E19 3E20
C2 C4 D4 D4 D3 C3 D4 D4 C4 D3 C3 C3 D3 C3 C3 D3 D3
3E21 C3 3E22 C3 3E23 C3 3E50 C4 3E52 C4 3E53 C4 3E55 C4 3J03 A5 3J04 A5 3J05 A5 3J06 A5 3J07 A5 3L07 B5 3L09 B5 3M12 C4 3M13 C4 3M16 C4
3M26 C4 3M28 C5 3M68 C5 3M69 C5 3M71 C5 3M88 C4 3M89 C5 3M90 C4 3N21 B2 3N22 B2 3N23 B2 3N24 B2 3N25 B2 3N36 A2 3N37 A2 3N38 A2 3N39 A2
3N40 3N41 3P04 3P05 3P06 3P07 3Q01 3Q06 3Q11 3Q16 3Q17 3Q18 3Q21 3Q22 3Q23 3Q24 3Q25
A2 A2 A1 A1 A1 A1 D2 D2 D1 D1 D1 D1 D1 D1 D1 D1 D2
3Q26 3Q27 3Q30 3Q31 3Q32 3Q33 3Q40 3Q41 3R00 3R02 3R03 3R05 3R06 3R07 3R08 3R09 3R10
D2 D2 D3 D3 D3 D3 D1 D2 D5 D5 D5 D6 D5 D5 D3 D3 D3
3R12 3R13 3R14 3R15 3R16 3R17 3R19 3R20 3R22 3R23 3R28 3R29 3R34 3R35 3R36 3R37 3R40
D5 D5 D5 D5 D5 D5 D5 D5 D5 D5 D5 D5 D4 D3 D3 D3 D3
3R41 3R42 3R43 3R46 3R47 3R49 3R50 3R51 3R53 3R54 3R56 3R57 3R60 3R61 3R62 3R63 3R64
D4 D4 D4 D4 D3 D3 D3 D3 D3 D3 D3 D3 D2 D3 D2 D3 D2
3R65 3R66 3R67 3R68 3R69 3R70 3R71 3R72 3R73 3R74 3R75 3R76 3R78 3R79 3R80 3R81 3R82
D2 D2 D2 D5 D5 D5 D5 D5 D5 D5 D5 D5 D5 D5 D5 D5 D5
3R83 3R84 3R85 3R86 3R87 3R88 3R89 3R90 3R91 3R92 3R93 3R94 3R95 4107 4108 4201 4202
Part 2 H_16980_023b.eps
Part 4 H_16980_023d.eps
H_16980_023.eps 230207
D5 D5 D5 D4 D4 D4 D4 D4 D3 D5 D4 D5 D4 B6 B6 B5 B5
4203 B5 4205 C5 4206 C5 4213 B5 4214 B5 4215 B5 4507 A6 4508 A6 4509 A6 4510 A6 4511 A6 4512 A6 4513 A6 4514 A6 4616 A7 4617 A7 4620 A7 4621 A7 4900 B3 4A00 B3 4A01 B3 4A04 B4 4A05 B4 4A06 B3 4E12 C3 4E13 C4 4E14 C4 4J01 A4 4J02 A5 4M04 C4 4M16 C4 4M17 C4 4N01 A2 4N02 A1 4N03 B2 4N04 A1 4N05 A2 4N06 A1 4N07 A2 4N08 A1 4N09 A2 4N10 A1 4N11 A2 4N12 A1 4N13 A2 4N14 A1 4N15 A2 4N16 A1 4N17 A2 4N18 A1 4N19 A2 4N20 A1 4P01 A1 4P02 A1 4P03 A1 4P04 A1 4P05 A1 4P06 A1 4P07 A1 4P08 A1 4P09 A1 4P12 A1 4R06 D5 4R12 D5 4R13 D3 4R14 D3 4R16 D5 4R41 D4 4R42 D4 4R60 D2 4R61 D2 4R62 D2 4R63 D3 4R64 D3 4R68 D5 4R69 D5 4R70 D5 5201 B6 5202 B5 5203 A6 5204 A6 5205 B5 5206 A6 5207 A6 5208 A6 5209 A5 5210 A6 5212 A5 5213 A5 5215 B5 5217 B6 5218 B5 5431 A5 5501 A6 5712 A4 5737 A4 5752 A3 5753 A3 5754 A3 5900 C3 5A00 B2 5D00 C1 5D01 C1 5D02 C1 5D03 D2 5D04 D1 5E00 D4 5E01 C3 5E02 C4 5J01 A6 5J02 A6 5J03 A4 5J04 A4 5J05 A5 5L00 B4 5L01 B4 5L02 B4 5M02 C4 5M05 C4 5Q01 D2 5Q06 D2 5Q11 D2 5Q16 D1 5Q21 D1 5Q23 D1 5R57 D3 5R68 D5 6201 B6
6708 A4 6735 A5 6736 A5 6751 A3 6A01 B3 6K01 A7 6Q16 D1 6R60 D2 6R61 D5 6R62 D5 6R63 D5 6R64 D5 6R65 D3 6R66 D3 6R67 D3 6R68 D3 7206 B5 7214 B6 7215 B5 7216 B6 7218 B5 7219 C5 7501 A6 7502 A6 7503 A6 7504 A5 7505 A6 7506 A6 7752 A3 7801 B2 7901 C4 7A00 B3 7A02 B3 7A03 B3 7B01 B1 7C00 B3 7D01 C1 7D02 C1 7D03 C1 7E00 C4 7E01 C3 7E02 C4 7L05 C5 7M03 B4 7M14 C5 7M15 C5 7N02 A2 7N04 B2 7P02 A1 7P03 A1 7Q25 D2 7R12 D5 7R47 D3 7R57 D3 7R60 D2 7R61 D2 7R68 D5
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
46
Layout SSB (Top Side Part 1)
Part 1
H_16980_023a.eps 230207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
47
Layout SSB (Top Side Part 2)
Part 2
H_16980_023b.eps 230207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
48
Layout SSB (Top Side Part 3)
Part 3
H_16980_023c.eps 230207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
49
Layout SSB (Top Side Part 4)
Part 4
H_16980_023d.eps 230207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
50
Layout SSB (Bottom Side Overview) 1101 1102 1104 1106 1107 1751 1802 1C00 1J00 1J01 1J02 1J03 1J04 1J05 1J06 1K00 1K01 1K02
D2 C2 B1 B1 D2 A5 B6 C5 A3 A5 A4 A2 A2 A7 A5 A1 B1 C1
1K03 1K04 1N01 1N02 1N03 1N05 1Q01 1R02 1R03 1R06 1R07 2101 2102 2103 2104 2105 2106 2107
C1 B1 A7 B7 A7 A7 D6 D4 D5 D3 D4 C1 C1 C2 D1 D1 C2 C1
2108 2109 2110 2111 2112 2113 2114 2201 2202 2219 2220 2225 2227 2239 2252 2253 2254 2273
C1 D1 C2 C2 C2 C2 C2 A2 A2 B2 B2 A2 A2 A3 B3 B2 B2 A3
2280 2281 2282 2283 2284 2292 2293 2449 2603 2604 2605 2608 2609 2610 2612 2613 2614 2616
A2 A2 B3 B3 B3 B3 B2 C3 A1 A1 A2 A2 A1 A2 A2 A1 A2 A1
2617 2619 2700 2701 2708 2710 2711 2714 2715 2730 2733 2734 2735 2741 2749 2750 2751 2759
A1 A2 A6 A6 A5 A4 A4 A5 A5 A4 A3 A3 A3 B3 A6 A5 A6 A5
2760 2761 2762 2801 2802 2803 2804 2805 2806 2807 2808 2809 2810 2811 2812 2813 2814 2816
A5 A5 A5 B6 B6 B6 B6 B6 B6 B6 C6 C6 C6 C6 C6 B6 B6 C5
2817 2818 2819 2820 2821 2822 2823 2824 2900 2905 2906 2907 2908 2909 2910 2911 2912 2913
C5 C5 C5 C5 C5 C5 C5 C5 B7 B5 B5 B5 B5 B5 B5 B5 B5 B5
2914 2915 2916 2918 2919 2920 2921 2922 2923 2924 2925 2926 2927 2928 2929 2930 2931 2932
C6 C6 C6 C5 C5 C6 C6 C6 B6 B6 B6 B6 B5 B5 B5 C5 C5 C5
2933 2935 2936 2937 2938 2939 2941 2942 2945 2946 2947 2948 2949 2950 2951 2952 2953 2954
C5 C5 C5 C5 C5 C5 C6 C5 B6 B6 B6 B6 B6 B5 B6 B6 C5 C5
2955 2956 2957 2958 2959 2A03 2B03 2B04 2B06 2B07 2B08 2B09 2B10 2B11 2B12 2B13 2B14 2B15
C5 C5 C5 C5 C5 C6 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7
2B16 2C00 2C01 2C02 2C03 2D00 2D01 2D02 2D08 2D09 2D10 2D11 2D13 2D14 2D16 2D18 2D19 2D28
B7 B5 B5 B5 B5 C7 D7 D7 C7 C7 C7 C7 C7 C7 C7 C7 C7 C7
2D29 2D30 2D33 2D35 2D36 2D37 2D39 2D40 2D44 2D45 2E24 2E25 2E26 2E27 2E28 2E29 2E30 2E31
C7 C7 C7 C7 C7 C7 C7 C7 C7 C7 C5 C5 C5 C5 C5 C5 C5 C5
2E32 2E36 2E37 2E38 2E39 2E40 2K00 2K01 2K02 2K03 2K04 2K05 2K06 2K07 2K08 2K10 2K11 2K12
C4 D4 C5 C5 C5 C5 A1 A1 B1 B1 B1 B1 B1 B1 B1 B1 B1 B1
2K13 2K14 2K15 2K16 2K17 2K18 2K19 2K20 2K21 2K22 2K23 2K24 2K25 2K26 2K27 2K28 2L07 2L08
B1 B1 B1 C1 C1 C1 B1 B1 A1 A1 A1 A1 A1 A1 A1 A1 B4 B4
2L09 2L10 2L11 2L13 2L15 2L17 2L18 2L19 2L23 2L24 2L26 2L33 2L34 2L35 2L36 2L37 2L38 2L39
B4 B3 B4 B3 B3 B3 B3 B4 B4 B4 B3 B4 B4 B3 B3 B3 B3 B3
2M24 2M25 2M26 2M65 2M67 2N01 2N02 2N03 2N04 2N05 2N06 2N07 2N08 2N09 2N10 2N11 2N12 2N13
C3 C4 C3 B4 B3 A6 A6 A6 A6 A6 A6 B6 B6 B6 A7 A7 A7 A7
2N14 2N15 2N16 2N17 2N18 2N19 2N20 2P01 2P02 2P03 2P04 2P05 2P06 2P07 2P08 2P09 2P10 2P11
A7 A7 A6 A7 A7 A7 A7 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6
2P12 2P13 2P14 2P16 2P17 2P18 2P19 2P20 2P21 2P22 2P23 2P24 2P25 2P26 2P27 2P28 2P29 2P30
A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6
2P31 2P32 2P33 2P34 2P35 2R15 2R58 2R59 3101 3102 3103 3104 3105 3106 3107 3108 3109 3110
A7 A7 A7 A7 A7 D5 D5 D5 D1 D1 D2 D2 C1 D2 C2 C2 C2 C2
3111 3112 3113 3114 3115 3116 3117 3118 3119 3120 3121 3122 3123 3124 3125 3201 3202 3203
C2 C2 C2 C2 C1 C2 C2 C2 C2 D2 D2 D2 D2 D1 D1 A2 A2 A2
3204 3205 3206 3208 3209 3210 3211 3212 3213 3218 3219 3220 3228 3229 3232 3233 3237 3238
A2 A2 A2 B3 B3 B3 B3 B2 B2 B2 B2 B2 B3 A2 A2 A2 A2 A2
3239 3240 3241 3243 3246 3247 3248 3249 3250 3251 3252 3253 3254 3255 3256 3257 3258 3259
A2 A2 A2 A2 A2 A2 A2 A2 A3 A3 A3 A3 A2 B3 A3 A3 B3 A3
3260 3275 3276 3283 3284 3287 3288 3289 3290 3296 3431 3432 3451 3453 3454 3455 3456 3458
A3 A2 A2 B2 B2 B3 B3 B3 B2 A2 A1 A1 B3 B3 B3 B3 B3 B3
3459 3461 3462 3463 3604 3605 3609 3610 3611 3612 3615 3616 3617 3618 3619 3620 3621 3623
B3 C3 C3 B3 A1 A1 A1 A2 A2 A2 B1 A2 A1 A1 A1 A1 A1 A1
3625 3626 3627 3628 3629 3630 3631 3632 3633 3708 3709 3712 3713 3716 3732 3733 3735 3736
B1 B1 B1 A1 A1 A1 A1 A1 A2 A5 A5 A4 A4 A5 A3 A3 A3 A3
3740 3741 3742 3743 3750 3755 3758 3759 3760 3761 3800 3817 3818 3820 3822 3823 3824 3825
B3 B3 B3 B3 A5 A5 A6 A5 A5 A5 B5 B5 B5 C6 C6 C6 C5 B5
3826 3827 3828 3829 3830 3831 3832 3833 3834 3835 3836 3837 3838 3839 3840 3841 3900 3901
B5 B5 B5 B5 B5 B5 B5 B5 B5 B5 B5 B5 B5 C6 C6 B6 B6 B5
3902 3903 3904 3A02 3A03 3A04 3A05 3A06 3C00 3C01 3C02 3C03 3C04 3C05 3C06 3C07 3C08 3C09
B5 B5 B5 C6 C6 C6 C6 C6 B5 B5 C5 C5 B5 B4 B4 B4 B4 B4
3C10 3C11 3C12 3C13 3C14 3C15 3C16 3C17 3C18 3C19 3C20 3C21 3D00 3D01 3D02 3D03 3D04 3D11
B4 B4 B5 B5 B5 B4 B5 B4 B4 B4 B5 B5 C7 C7 C7 D7 D7 C7
3D19 3D21 3D22 3D23 3D24 3D25 3D26 3D27 3D30 3D31 3D32 3D33 3D34 3D35 3E01 3E02 3E24 3E25
C7 C7 C6 C7 C7 C7 C7 C7 C7 C7 C7 C7 C7 C7 D4 C4 C5 C5
3E26 3E27 3E28 3E29 3E30 3E31 3E32 3E33 3E34 3E35 3E36 3E37 3E38 3E39 3E41 3E42 3E43 3E44
C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C4 C5 C5 D5 C5 C4 C5
3E45 3E46 3E49 3E51 3E54 3K00 3K01 3K02 3K03 3K05 3K06 3K07 3K08 3K09 3K11 3K12 3K13 3L00
C5 C4 C4 D4 D4 B1 B1 B1 B1 B1 B1 B1 B1 C1 A1 A1 A1 B3
3L01 3L03 3L04 3L05 3L06 3L08 3L10 3L11 3L12 3L13 3L15 3L16 3L17 3L18 3L19 3L20 3L21 3L22
Part 2 H_16980_022b.eps
Part 1 H_16980_022a.eps
Part 3 H_16980_022c.eps
3139 123 6145.4
Part 4 H_16980_022d.eps
H_16980_022.eps 230207
B3 B3 B3 B3 B3 B3 B3 B3 B3 B3 B3 B3 B3 B3 B3 B3 B4 B4
3L23 3L24 3L25 3L26 3L27 3L28 3L30 3L31 3L32 3L33 3L34 3L35 3L36 3L37 3L38 3L39 3M00 3M01 3M02 3M03 3M04 3M05 3M06 3M07 3M08 3M09 3M10 3M11 3M14 3M15 3M27 3M29 3M50 3M51 3M52 3M53 3M54 3M55 3M56 3M57 3M58 3M59 3M78 3M79 3M86 3M87 3N01 3N02 3N03 3N04 3N05 3N06 3N07 3N08 3N09 3N10 3N11 3N12 3N13 3N14 3N15 3N16 3N17 3N18 3N19 3N20 3N26 3N27 3N28 3N29 3N30 3N31 3N32 3N33 3N34 3N35 3N42 3N43 3N44 3N45 3N46 3N47 3P01 3P03 3Q34 3R11 3R18 3R58 3R77 3R96 3R98 4000 4102 4103 4104 4105 4106 4109 4110 4111 4112 4113 4114 4115 4116 4204 4207 4208 4209 4211 4212 4436 4437 4438 4439 4440 4441 4501 4502 4503 4504 4505 4506 4601 4602 4603 4604 4605 4606
B3 B4 B4 B4 B4 B4 B3 B3 B3 B3 B3 B3 B3 B3 B3 B3 B4 C4 C4 C4 C4 B3 C3 C3 C3 C3 C4 C4 B4 C4 B3 C3 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 B4 B4 B4 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A7 A7 A7 A7 A6 A6 B6 A6 A7 A6 A7 A7 A7 A7 A7 A7 A7 A7 A7 A7 B7 B7 A6 A6 D7 D5 D5 D5 D5 D5 D6 A6 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C3 B3 A3 A3 A2 A2 B3 B3 B3 B3 B3 C3 A2 A2 A2 A2 A2 A2 A1 A1 A2 A1 A2 B1
4609 4610 4611 4612 4613 4614 4615 4618 4619 4710 4801 4A02 4A03 4D00 4D01 4E03 4E10 4E11 4K01 4K02 4K03 4K04 4K05 4K06 4K07 4L00 4L01 4L02 4L03 4L04 4L05 4M00 4M01 4M02 4M03 4M05 4M06 4M08 4M09 4M10 4N21 4N22 4P10 4P11 4R01 4R02 4R03 4R15 5101 5102 5103 5105 5106 5107 5108 5211 5214 5216 5700 5704 5709 5713 5730 5733 5735 5738 5755 5756 5757 5758 5759 5901 5902 5903 5904 5905 5906 5907 5908 5909 5910 5911 5C00 5E03 5K00 5K01 5K02 5L03 5L04 5M00 5M01 5M03 5M04 5N01 5N02 5N03 5N04 5N05 5P01 5P02 5P03 5P04 5P05 5P06 6101 6102 6103 6104 6105 6106 6107 6204 6205 6206 6430 6431 6601 6701 6709 6710 6712 6733 6740 6E00 6E01 6E02 6E03 6N01 7101
A1 A2 A1 A1 B1 A1 A1 A1 A1 A4 C6 C6 C6 C7 C7 D5 C5 C5 A1 C1 A1 A1 A1 B1 B1 B4 B4 B3 B3 B3 B3 C4 C4 C4 C4 C4 C4 C4 C4 C4 B6 B6 A6 A7 D3 D3 D3 D5 C2 C2 C2 B2 B2 D1 D1 A3 A2 A3 A6 A5 A4 A5 A4 A4 A3 A3 A5 A5 A5 A5 A5 C5 C6 B5 C5 B6 B6 B6 B7 C5 C5 C6 B5 C5 A1 B1 A1 B3 B3 B4 C3 B4 B3 A7 A6 B6 B6 A7 A6 A6 A6 A7 A7 A7 D1 D1 D2 C2 C2 D2 D2 A2 A2 A2 A1 A1 A1 B5 A4 A4 A4 A4 B3 C5 C5 C5 C5 A7 C2
7102 7103 7201 7202 7203 7204 7205 7207 7208 7209 7210 7211 7217 7430 7436 7601 7602 7603 7604 7605 7606 7607 7708 7710 7730 7735 7738 7741 7742 7753 7754 7755 7756 7758 7900 7A01 7C01 7C02 7D00 7D04 7D05 7E03 7E04 7E05 7L01 7L02 7L03 7L04 7L06 7L07 7L08 7M00 7M01 7M17 7N01 7N03 7P01 7Q01 S051 S052 S053 S054 S055 S056 S057 S058 S059 S060 S061 S062 S063 S080 S081
C2 C2 A2 A2 A2 A2 A2 A2 B3 A3 A3 A2 B2 A1 C3 A1 A1 A2 A1 A1 A1 B1 A5 A4 A4 A3 A3 B3 B3 A5 A5 A6 A5 A5 B7 C6 B5 C5 C7 C7 C7 C5 C5 C5 B3 B3 B3 B4 C3 C3 B3 C4 C4 B4 A6 A6 A6 D7 D3 D3 D4 D3 D3 D3 D4 D4 D5 D4 D5 D5 D4 D5 D5
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
51
Layout SSB (Bottom Side Part 1)
Part 1
H_16980_022a.eps 230207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
52
Layout SSB (Bottom Side Part 2)
Part 2
H_16980_022b.eps 230207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
53
Layout SSB (Bottom Side Part 3) H_16980_022a.eps 230207
Part 3
H_16980_022c.eps 230207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
54
Layout SSB (Bottom Side Part 4) H_16980_022b.eps 230207
Part 4
H_16980_022d.eps 230207
Circuit Diagrams and PWB Layouts
Class D Audio Amplifier (32”) 1
2
3
LC4.8L LA
4
7.
5
55
6
7
8
9
10
11
12
CLASS D AUDIO AMPLIFIER (26” & 32” ONLY)
C
C
POWER LINE FILTER FROM 1J03 OF SSB BOARD
A
2015 2n2
HVPI-L F001
5001
I027 F008
2012 220u 35V
VP_SGN
10R
B3B-PH-K
2002 100n
2048 100n
2003 100n
2004 220u 35V
3007 47K
2020 220p
2016 2n2
PGND
PGND PGND
PGND
PGND
2u2 EMC
1002 F003 F004 F005
PGND
PGND
AUDIO-R
47n I002
5002
I003
2013
10K 2009 100p
5003 2u2 EMC RES
2006 100p
2051 100p
I004
PGND
CGND PGND
CGND
PGND
3039
6001 RES
3002 5K6
PGND
PGND
PGND I008
5005
SOUND-ENABLE
9V 3 4
100n
I006
5V6 6
I007
3V 7
B
PGND
PGND
PGND
33u / 2.7A
OUT
16
2018 15n
8V5
OVP
2u2 50V 10K
2010 100n
VSSP 15 1 10 1120
I025
2023 470n
2022 220n
3011 2K2
2019 17 I014 19V8 BOOT 14 I015 12V5 STABI 8 I031 12V5 3042 DIAG 13 9V HVP I012 HVPI-L 19 9V HVPI VSSD
G
CGND VSSA 9 2
5006
I013
18 18V2 VDDP
POWERUP
PGND 12 2047 1u0
Φ
POWER COMPARATOR
ININ+
6002 BAT54 COL
4003
3040 10K
I017
C
I030 3014 22R
2024 1m0 25V
2026 220n
PGND
PGND PGND PGND
PGND PGND
D
I009 2028
SD1 ONLY
3044 33K
100n
HVPI-R 2049 4u7
RES
I010
3045
PGND
PGND
220K
3046 1K0
2u2 EMC 2027 100n
I005
10K 3038 68K RES
SD2 ONLY
D
2017
7000 TDA8931 5 17V9 VDDA
2K2
220n
3003 CGND 22K
2007 100p
3009
3008
3013 10K
VP_SGN
2u2 EMC
F006
I029
PGND
RES
3004
2008 100p
2021 220p
PGND
I001
5004
3012 10R
VP
VP_SGN
AUDIO-L
FROM 1J04 OF SSB BOARD
I011
6K8
3K9
F002
2064
C
3005 0R 3010
3037
I028 CGND
2062
1 2 3 4 5 6 7 8 9
VP
VP 3001
2001 220u 35V
A
2014 2n2
3006 1K0
F007
1003
3 2 1
B
HVPI-L
7005 BC847BW
2031 2n2
PGND
RES
10K RES
VP
2030 2n2
3023 1K0
1001
PGND
I033
E I019
4001
VP_SGN
HVPI-R
47n
VP 2029 220u 35V 3034 3K9 2039 10u
10K
10u 1 NC
4 2V5 I043
3 7V7 K
3028 10K
2
7004 TL431ACDBV A
3019
2041
REF
I042
3024 47K
2032 2n2
3020
2033
10K
220n
3025
I020
2K2
5V6 6
I040
3V 7
3033 10K
5
3021 4K7
12 6003 BAT54 COL
3030 10R
100n
ININ+
Φ
8V5
OUT
POWERUP G
2u2 50V 10K
2045 220n I036
PGND
PGND
2055 2n2
L R
E
*Connection Inverted (R_CH)
PGND
2044 100n
3041 10K
RESERVED
2042 470n
F
2060 (Mounting Hole)
I021 2n2 3031 22R
VSSP 15 1 10 11 20
I026
PGND
2054 2n2
+ +
33u / 2.7A
3029 2K2
2038 15n
I016 HVPI-R 19 9V HVPI VSSD
OVP
2036 220p
2053 2n2
1 2 3 4
5007
I023
19V8 I024 17 2037 BOOT I037 1412V5 STABI I038 3043 12V5 8 DIAG 13 9V HVP
PGND
2043 1m0 25V
2061 (Mounting Hole) 2n2
2040 220n
PGND PGND
PGND PGND
CGND I022
PGND
PGND
PGND PGND
3047 1K0
CGND
G
16
2052 2n2
PGND
PGND 18 18V2 VDDP
POWER COMPARATOR
CGND VSSA 9 2
I035
VP 2034
RES
3 4
6K8
3027
7001 TDA8931 5 17V9 VDDA
9V
3026
3K9
220K
CGND 2065
I041
NC
F
I034
2063
RES
3022 22R 3032
F009 F010 F011 F012
LL+ RR+
2035 220p
G
PHASE INVERTER (UNITY GAIN)
H
H
G_16210_025.eps 180106
3139 123 5970.2
1
2
3
4
5
6
7
8
9
10
11
12
1002 C2 1003 A2 2001 B2 2002 B3 2003 B3 2004 B4 2006 C3 2007 C3 2008 C3 2009 C3 2010 C8 2012 A5 2013 B5 2014 A8 2015 A7 2016 A6 2017 B7 2018 C8 2019 C8 2020 A9 2021 B9 2022 C9 2023 C9 2024 C9 2026 C8 2027 D3 2028 D3 2029 F5 2030 D7 2031 E7 2032 F5 2033 F5 2034 E7 2035 E9 2036 E9 2037 F8 2038 F8 2039 F3 2040 G8 2041 F4 2042 F9 2043 F10 2044 G8 2045 F9 2047 C5 2048 B4 2049 D6 2051 C3 2052 E10 2053 E10 2054 E11 2055 E11 2060 F11 2061 F11 2062 B6 2063 E6 2064 B4 2065 F5 3001 A3 3002 C4 3003 C4 3004 B4 3005 B8 3006 A7 3007 B5 3008 B5 3009 B7 3010 B8 3011 C8 3012 B8 3013 C5 3014 C9 3019 F3 3020 F5 3021 G3 3022 E7 3023 E7 3024 F5 3025 F5 3026 E8 3027 E7 3028 F4 3029 F8 3030 E8 3031 F9 3032 E7 3033 F5 3034 F4 3037 B7 3038 C5 3039 C5 3040 C9 3041 F10 3042 C8 3043 F8 3044 D4 3045 D4 3046 D6 3047 G6 4001 E4
5001 A3 5002 C3 5003 C2 5004 B3 5005 D3 5006 C8 5007 F9 6001 C4 6002 C6 6003 F6 7000 C6 7001 F6 7004 F4 7005 D4 F001 A2 F002 B2 F003 C2 F004 C2 F005 C2 F006 C2 F007 A3 F008 A3 F009 E11 F010 E11 F011 E11 F012 E11 I001 B3 I002 B5 I003 B5 I004 C3 I005 C6 I006 C6 I007 C6 I008 D3 I009 D4 I010 D4 I011 B8 I012 C8 I013 C8 I014 C8 I015 C8 I016 F8 I017 C9 I019 E4 I020 F6 I021 F9 I022 G4 I023 F8 I024 F8 I025 D6 I026 G6 IXXX F3 IXXX F4 IXXX F4 IXXX F5 IXXX B6 IXXX E6 IXXX E6 IXXX B7 IXXX A8 IXXX C8 IXXX C8 IXXX E8 IXXX F8 IXXX F8 IXXX F8
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
56
2037 A1
2042 A2
Layout Class D Audio Amplifier (32”) (Top Side) 1001 A2
1002 A3
1003 A3
2001 A2
2004 A3
2012 A4
2019 A4
2023 A3
2024 A4
2029 A1
2043 A2
5006 A3
5007 A2
G_16210_026.eps 180106
3139 123 5970.2
Layout Class D Audio Amplifier (32”) (Bottom Side) 2002 2003 2006 2007 2008 2009 2010
A2 A3 A2 A2 A2 A2 A1
2013 2014 2015 2016 2017 2018 2020
A2 A1 A1 A2 A2 A1 A1
3139 123 5970.2
2021 2022 2026 2027 2028 2030 2031
A1 A2 A1 A3 A3 A4 A4
2032 2033 2034 2035 2036 2038 2039
A4 A4 A4 A3 A4 A4 A4
2040 2041 2044 2045 2047 2048 2049
A4 A3 A3 A3 A2 A3 A3
2051 2052 2053 2054 2055 2060 2061
A2 A3 A3 A3 A3 A1 A4
2062 2063 2064 2065 3001 3002 3003
A1 A4 A2 A4 A3 A1 A1
3004 3005 3006 3007 3008 3009 3010
A2 A1 A1 A2 A2 A1 A1
3011 3012 3013 3014 3019 3020 3021
A1 A1 A2 A2 A3 A4 A3
3022 3023 3024 3025 3026 3027 3028
A4 A4 A4 A4 A3 A4 A3
3029 3030 3031 3032 3033 3034 3037
A4 A4 A3 A4 A4 A3 A1
3038 3039 3040 3041 3042 3043 3044
A2 A2 A3 A3 A1 A3 A2
3045 3046 3047 4001 4003 5001 5002
A2 A2 A3 A4 A2 A3 A2
5003 5004 5005 6001 6002 6003 7000
A2 A2 A3 A1 A2 A3 A1
7001 A4 7004 A3 7005 A2
G_16210_027.eps 180106
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
57
Side I/O Panel (32”)
1
D
2
3
4
5
6
7
8
SIDE-AV
D
3302 10R 2301 RES
EMC 2302 47p
SVHS 1301
A
I301 I303
3
10R 2303 RES
I302
4
S302
3301 75R
5
7
S301
2
6
3303
6301 RES
6303 RES
I305
I309
6302 RES
6304 RES
EMC 2304 47p
75R
1
3304
A
B
B I307 +5VSW
1302-1 1 2
3305 10K
I320 S303
YELLOW
I319
2305 RES
75R
(1M06) 1304
+5VSW
2310
3309
C
3307 1K0
BC857B 7301
1u0 3310 8K2
FRONT_Y__CVBS_IN
1302-2 3
FRONT_C_IN
4
L_FRONT_IN
L WHITE
S304
6305 RES
R_FRONT_IN 3306 15K
2306 330p
HEAD_PH_L HP_DET_R_DC1 HEAD_PH_R
I318
6307 RES
D
C
D
I308
1302-3 5
R
1 2 3 I311 4 5 I304 6 I312 7 I306 8 I313 9 I314 10 I315 11 I316 12 I310
TO 1K01/1K04 OF SSB BD
CVBS
6 RED S305
6306 RES
3308 15K
2307 330p +5VSW
I317
6308 RES
S309
E S308
TC38-103-01
4 2 7 1 6 3 5
S307
1303
S306
HEADPHONE
E
3311 10K
2308 10n
2309 10n
G_16160_008.eps 040706
3139 123 5956.2
1
2
3
4
5
6
7
8
1301 A1 1302-1 B1 1302-2 C1 1302-3 D1 1303 E1 1304 C8 2301 A4 2302 A4 2303 A4 2304 A4 2305 C2 2306 D3 2307 D3 2308 E3 2309 E3 2310 C3 3301 A2 3302 A4 3303 A4 3304 B3 3305 C3 3306 D3 3307 C3 3308 D3 3309 C2 3310 C3 3311 E3 6301 A3 6302 B3 6303 A3 6304 B3 6305 D2 6306 D2 6307 D2 6308 E2 7301 C3 I301 A2 I302 A2 I303 A3 I304 C8 I305 B3 I306 D8 I307 B1 I308 D3 I309 B3 I310 C8 I311 C8 I312 C8 I313 D8 I314 D8 I315 D8 I316 D8 I317 E2 I318 D2 I319 C3 I320 C2 S301 A2 S302 A2 S303 C2 S304 D2 S305 D2 S306 E2 S307 E2 S308 E2 S309 E2
Circuit Diagrams and PWB Layouts
Layout Side I/O Panel (32”) (Top Side) 1301 A1 1302 A3 1303 A4
1304 A2
LC4.8L LA
9390 A3
7.
9391 A2
58
9392 A2
G_16160_009.eps 040706
3139 123 5956.2
Layout Side I/O Panel (32”) (Bottom Side) 2301 A3 2305 A3 2309 A1 3303 2302 A3 2306 A2 2310 A2 3304 2303 A3 2307 A1 3301 A3 3305 2304 A3 2308 A1 3302 A3 3306
9393 A3
A4 A2 A2 A2
3307 3308 3309 3310
A2 A2 A3 A3
3311 4301 6301 6302
A1 A3 A4 A4
6303 6304 6305 6306
A4 A4 A2 A1
6307 A2 6308 A1 7301 A2
4301
3139 123 5956.2
G_16160_010.eps 040706
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
59
Side I/O Panel (37” & 42”) 1
3
4
5
SIDE I/O
6
7
5000
3
1
9
F002
1112
A
1H01 OR 1M60
TO 1H01
1005 1 2 3 4
VIPER 3004
5 I009 6003
F003
F015
1050
F016
F017 5
DLW31S
5
6
1 2 3 4
USB CONNECTOR
B
TO 1M36
PDZ6.8-B
B
6
F014
75R
PDZ6.8-B
6002
1102
F020
1001
D
F013
75R
3000 PDZ6.8-B
4
I004 6001
Y / CVBS
A
6000
F001
C
PDZ6.8-B
F012
2
8
JAGUAR ONLY 1101
D
2
1 1002-1 YELLOW
1M36
2
F022
3009
GND_AUD
9003
1u0
2003
RES
13
GNDB
B11B-PH-SM3-TBT
SSB EMGT OR TO 1M36 C
SCART 3 EMGT OR TO 1M36
100p
33K
2006
3013
1K0
PDZ6.8-B
I003
6006
9
1108
9005
8
D
F023
1 2 3 4 5 6 7 8 9 10 11 12
3012
680p
F006
7 1002-3 RED
GND_AUD
2007
6005
GND_AUD
PDZ6.8-B
I001
3K9
I002
2K2
9004
6
3008
100p
2005
33K
F021
3011
5
3010
F005
680p
C
2004
GND_AUD
1K0
PDZ6.8-B
1106
F004
6004
4 1002-2 WHITE
1M37 1 2 3 4 5 6 7 8 9 10 11
SSB JAGUAR D
6007
GND_AUD
PDZ6.8-B
I010 GND_AUD
1109
GNDB
GNDB
E
I008
F025
10n
2011
9010 I014
10K
6010
3020
1111
PDZ6.8-B
GNDB
GNDB
GNDB
I006
10n
2009
10K
I011
I013 GNDB 6009
F018
F
3999
9007
150R
I012
2
3
F009 E2 F010 F8 F011 F9
1108 D3 1109 E3 1110 F3 1111 E3 1112 A7 1H01 A6
F012 A6 F013 A7
1M36 B8 1M37 B8 2003 C5
F018 F7 F019 F2 F020 B4
2004 C3 2005 C4 2006 D3
F021 C6 F022 C6 F023 C6
2007 D4
F024 E6
2008 F2 2009 F5
F025 E6 I001 C2
2010 E2
I002 C3
2011 E5 3000 A4
I003 D2 I004 A3
3004 B3
I005 F4
3008 C5 3009 C4 3010 C4
I006 F4 I007 E4 I008 E4
3011 C5 3012 D4 3013 D4
I009 B3 I010 D3 I011 F7
3016 F5 3020 E5
I012 F8 I013 F3
3999 F9
I014 E3
6005 C3 6006 D3 6007 D3 6008 F3
GNDB
F010
GND_AUD
9005 D2 9006 F7 9007 F8 9008 F4 9009 F4 9010 E4
GNDB F011
9011 E4
GNDB
3104 313 6008.5 1
9008
3016
6008
9006
PDZ6.8-B
GNDB
PDZ6.8-B
1110
22n
2008
GNDB
I005
1101 A3 1102 B3 1106 C3
9003 C6 9004 C2
GNDB
9009
F
F005 C2 F006 D2 F007 E2 F008 E2
6009 F3 6010 E3 6011 F3
GNDB
GNDB F019
6011
F009
I007
PDZ6.8-B
3 7 8 1
F008
22n
5 4 2
2010
9011 1010
1002-3 D1 1005 A8 1010 E1 1050 A7
6002 B3 6003 B3 6004 C3
F024
E
F002 A2 F003 B2 F004 C2
5000 A7 6000 A3 6001 A3
GND_AUD
F007
1001 B2 1002-1 B1 1002-2 C1
G_16210_031.eps 210706
4
5
6
7
8
9
F001 A2
F014 A6 F015 A7 F016 A6 F017 A7
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
60
Layout Side I/O Panel (37” & 42”) (Top Side)
Layout Side I/O Panel (37” & 42”) (Bottom Side)
1001 1002 1005 1010 1050 1H01 1M36 1M37 5000
3104 313 6008.5
G_16210_032.eps 180106
2003 2004 2005 2006 2007 2008 2009 2010 2011 3000 3004 3008 3009 3010 3011 3012 3013 3016 3020 3999 6000 6001 6002 6003 6004 6005 6006 6007 6008 6009 6010 6011 9003 9004 9005 9006 9007 9008 9009 9010 9011
B1 A1 A1 A1 A1 A1 B1 B1 A1
3104 313 6008.5
G_16210_033.eps 180106
A1 A1 A1 A1 A1 A1 A1 A1 A1 B1 B1 A1 A1 A1 A1 A1 A1 A1 A1 B1 B1 B1 B1 B1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 B1 A1 A1 A1 A1
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
61
Keyboard Control Board (32”)
1
Layout Keyboard Control Board (26” & 32”) (Top Side)
2
3
1309 A1
4
KEYBOARD CONTROL
E
E
1684 KEYBOARD
I304
I305
I303
F311
6309
3999
RES
CH+
6310
1309 SKQNAB
Diversity Resistor
F310
3320 1K8
1310 SKQNAB CH-
1314 SKQNAB MENU
B
3321 820R
I306
I307
I308
I309
C
RES
3324 560R
1311 SKQNAB VOL+
6312
3319 390R
RES
3318 150R
RES
C
RES
6311
F308
3317
RES
S3B-PH-K
BZX384-C4V7
F309
6314
1 2 3
6306
B
A
TO 1K02 OF SSB BD
A
1312 SKQNAB
1313 SKQNAB
VOL-
ON / OFF
RES
G_16160_011.eps 040706
3139 123 6185.1
1
2
3
4
1309 C2 1310 C2 1311 C3 1312 C4 1313 C4 1314 C3 1684 B1 3317 B2 3318 B2 3319 B2 3320 B3 3321 B4 3324 B3 3999 C1 6306 B1 6309 C2 6310 C2 6311 C3 6312 C4 6314 C3 F308 B1 F309 B1 F310 C1 F311 C1 I303 B3 I304 B2 I305 B2 I306 B3 I307 B4 I308 C3 I309 C4
1310 A3
1311 A5
1312 A7
1313 A8
1314 A4
1684 A1
G_16160_012.eps 040706
3139 123 6185.1
Layout Keyboard Control Board (26” & 32”) (Bottom Side) 3317 A8 3318 A7
3319 A7 3320 A4
3139 123 6185.1
3321 A3 3324 A5
3999 A2 6306 A8
6309 A7 6310 A7
6311 A4 6312 A3
6314 A6
G_16160_013.eps 040706
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
62
Keyboard Control Board (37” & 42”)
1
Layout Keyboard Control Board (37” & 42”) (Top Side)
2
3
4
KEYBOARD CONTROL
E
1011 A5
E A
A
D
4001
270R
BZX384-C3V9
6012 SKQNAB
ON / OFF 1016
SKQNAB
1015 VOLUME+
C
D
Diversity Resistor
F310
3099
F311
RES
H_16980_052.eps 230207
3139 123 6191.1
1
B
6013
F001
I110
SKQNAB
1014 VOLUME-
6011 BZX384-C3V9
BZX384-C3V9
I115
470p RES 5001
2001
1K8
S3B-PH-K
0R
3017
0R
3012
3014
820R
560R
3011
1 2 3
F002
I118
SKQNAB
1013
SKQNAB
CHANNEL-
1012
SKQNAB
1011 CHANNEL+
I114
I117
I116
C
3016
I113
MENU
3010
390R
I112
0R
I111
3015
B
150R
3013
KEYBOARD
1M01
2
3
4
1011 C1 1012 C1 1013 C2 1014 C2 1015 C2 1016 C3 1M01 A4 2001 B3 3010 B1 3011 B2 3012 B2 3013 B1 3014 B2 3015 B1 3016 B2 3017 B2 3099 D1 4001 B4 5001 B4 6011 B3 6012 C3 6013 B3 F001 B4 F002 B3 F310 D1 F311 D1 I110 B3 I111 B1 I112 B1 I113 B2 I114 B2 I115 B2 I116 C1 I117 C2 I118 C2
1012 A6
1013 A3
1014 A2
1015 A1
1016 A7
3139 123 6191.1
1M01 A8
H_16980_053.eps 200207
Layout Keyboard Control Board (37” & 42”) (Bottom Side) 2001 A1 3011 A6 3013 A5 3015 A3 3017 A7 4001 A1 6011 A2 6013 A1 6015 A3 6017 A6 3010 A4 3012 A8 3014 A7 3016 A6 3099 A8 5001 A1 6012 A3 6014 A4 6016 A5 6018 A8
3139 123 6191.1
H_16980_054.eps 200207
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
63
IR/LED Panel (32” & 37”) 1870 B1 2801 D4 2802 D4 2803 E3 3801 B3
3802 A4 3803 C4 3804 B3 3805 C4 3807 E2
3808 E3 3809 E4 3810 E4 3811 E4 3812 D4
1
J
Layout IR/LED Panel (32” & 37”) (Top Side) 4806 E4 4807 E3 4808 D3 4809 D4 6801-1 B4
6801-2 B4 6802 E4 6803 C3 6809 D3 7801 B4
7802 C3 7803 B4 7804 C4 7805 B3 7807 E3
2
7808 E4 F801 C1 F802 C1 F803 B1 F804 B1
F805 C1 F806 B1 I801 B3 I802 B4 I803 B3
I804 C4 I805 A4 I806 B4 I809 E3 I810 E4
3
1870 A1
I811 E4
6801 A1
7802 A1
7808 A1
4
IR/LED/LIGHT-SENSOR
J +3V3STBY
A
A 3802 330R
I805
7805 BC847B
7801 7803 BC857B BC847B
1 2 3 4 5 6
F806
LIGHT-SENDOR-SDM
F804 F805 F802 F801
IR LED_SEL +3V3STBY PC-TV-LED
3804 0R
3801 3K3
F803
B
I802 3
1870
6801-2 GREEN SPR-325MVW
2
TO 1K00 OF SSB BD
C
I803
1
B
2
I801
I806
6801-1 RED SPR-325MVW
+3V3STBY
7804 BC847B
6803 BZX384-C3V9
3805 0R
C
3803 220R I804
3V5 1 6809 RES
2
Layout IR/LED Panel (32” & 37”) (Bottom Side) 2801 2802 2803 3801
A1 A1 A1 A1
3802 3803 3804 3805
A1 A1 A1 A1
3807 3808 3809 3810
A1 A1 A1 A1
3811 3812 4806 4807
A1 A1 A1 A1
4808 4809 4815 6802
A1 A1 A1 A1
6803 6809 7801 7803
A1 A1 A1 A1
7804 A1 7805 A1 7807 A1
7802 VS
2801 10u 6.3V
OUT
2802 10u
GND TSOP34836LLIB
D
4808 (ITV ONLY)
D
+3V3STBY
+3V3STBY
4809
3V5 3
3812 220R
3808 RES 7807 RES
6808 (ITV ONLY)
TSAL4400-MS21
I810
E
G_16210_068.eps 190106
3139 123 6171.1
(ITV ONLY) 3810 RES
7808 BPW34 4806
E
6802
I809
I811
3807 RES
RES 2803 1u0
3809 2M2
3811 RES
4807
G_16210_067.eps 190106
3139 123 6171.1
1
2
3
4 3139 123 6171.1
G_16210_069.eps 190106
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
64
IR / LED Panel (42”) 1870 B1 2801 D4 2802 D4 2803 E3 3801 B3
3802 A4 3803 C4 3804 B3 3805 C4 3807 E2
3808 E3 3809 E4 3810 E4 3811 E4 3812 D4
1
J
Layout IR / LED Panel (42”) (Top Side) 4806 E4 4807 E3 4808 D3 4809 D4 6801-1 B4
6801-2 B4 6802 E4 6803 C3 6809 D3 7801 B4
7802 C3 7803 B4 7804 C4 7805 B3 7807 E3
2
7808 E4 F801 C1 F802 C1 F803 B1 F804 B1
F805 C1 F806 B1 I801 B3 I802 B4 I803 B3
I804 C4 I805 A4 I806 B4 I809 E3 I810 E4
3
I811 E4 1870 6801 7802 7808
4
IR/LED/LIGHT-SENSOR
A1 A1 A1 A1
J +3V3STBY
A
A 3802 330R
I805
7805 BC847B
7801 7803 BC857B BC847B
1 2 3 4 5 6
F806
LIGHT-SENDOR-SDM
F804 F805 F802 F801
IR LED_SEL +3V3STBY PC-TV-LED
3804 0R
3801 3K3
F803
B
I802 3
1870
6801-2 GREEN SPR-325MVW
2
TO 1K00 OF SSB BD
C
I803
1
B
2
I801
I806
6801-1 RED SPR-325MVW
3139 123 6213.1 +3V3STBY
7804 BC847B
6803 BZX384-C3V9
G_16160_039.eps 250706
3805 0R
C
3803 220R
Layout IR / LED Panel (42”) (Bottom Side)
I804 GP1UE270RKVF
RES
3
2801 10u 6.3V
OUT
2802 10u
GND
+3V3STBY 7802
D
4808 (ITV ONLY)
D +3V3STBY
3812 220R
7807 RES
E
6808 (ITV ONLY)
TSAL4400-MS21
I810
3808 RES
2801 2802 2803 3801 3802 3803 3804 3805 3807 3808 3809 3810 3811 3812 4806 4807 4808 4809 4815 4898 4899 6802 6803 6809 7801 7803 7804 7805 7807
4809
6809
VS
4
3V5 1
5
3V5 2
(ITV ONLY) 3810 RES
7808 BPW34 4806
E
6802
I809
I811
3807 RES
RES 2803 1u0
3809 2M2
3811 RES
4807 G_16160_038.eps 250706
3139 123 6213.1
1
2
3
4 3139 123 6213.1
G_16160_040.eps 250706
A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
65
Standby/Audio Panel (37” & 42”): Conn.
1
SA1
2
3
4
5
6
7
8
9
CONNECTIONS
SA1
A
A +5V_SW
+5V_SW
I551
GND-SSP DIM_CONTROL SA1 (3x) ON_OFF SA1 (3x)
9103
F104
SA2 STANDBY
F121
3120
560R
1K0
9012
6516
I525
C
+12V_+24V 1304 1 2 3
470R
9004
GND-SSP
F101 I524
3526
BAS316
F122
DRIVE_AMBILIGHT SA2
3.15A F
1500
3 2 4
VTUN
6515
BZX384-C15
B3P-VH
B14B-PH-K
+5V2-RELAY-IO2_PWM GND-SSP
BSP030 7515
GND-SSP
PROT_AUDIOSUPPLY F139
+5V_SW
I550 9122
B10P-PH-K-S
SA2,SA3 (2x) 3119
+5V_SW
1 2 3
1
4
9018
GND-SSP
9113
B4B-PH-K
1320
3520
+5V_SW
B12P-PH-K
GND-SSP
B
F110
B4P-VH
3525
GND-SSP F115
1 2 3 4
100K
GND-SSP
1M10
F140
F103
4u7 50V 220K
RES
B6B-PH-K
1 2 3 4 5 6 7 8 9 10
F113
9014
POR SA2 ON_OFF SA1 (3x)
9015
SA1 (3x)
F138
1M03
F111
DIM_CONTROL SA1 (3x)
1303 1 2 3 4
2517
RES
SA1 (3x)
SA1 (3x) DIM_CONTROL
F137
GND-SSP F105
9101 9102
9009
1 2 3 4 5 6
+24V_2 1 2 3 4 5 6 7 8 9 10 11 12 13 14
ON_OFF
ON_OFF
9013
B12P-PH-K
1318
9003
9104 9105
B14B-PH-K
C
9008
1 2 3 4 5 6 7 8 9 10 11 12
1319
DIM_CONTROL SA1 (3x)
9016
1 2 3 4 5 6 7 8 9 10 11 12
1 2 3 4 5 6 7 8 9 10 11 12 13 14
9002
B
1317
RES
1316
1322
TO DISPLAY
TO DISPLAY
TO DISPLAY
F108 +12V_A
B4P-VH
5018
D
100R
3527
9010
9007
9006
68u
D
F120 GND-SSP GND-SSP
9005 F119
5019
E
TO DISPLAY 1314 1 2 3 4 5 6 7 8 9 10
F
B10P-PH-K-S
+8V6 +12V
1315
GND-SSP
F135
+5V_SW 1 2 3 4 5 6 7 8 9 10
GND-SSP VTUN F114
GND-SSP F136 F109 +5V2
F132
+12V 9001
F117
1K2
1K2 3192
1M46
F131
TO DISPLAY
1K2 3191
9011
3190
68u
1 2 3 4 5 6 7 8 9 10 11
E
GND-SSP 1M63 1309
+5V_SW
1 2
F112
1 2 3
B2B-PH-K GND-SSP
B3P-VH GND-SSP
B11B-PH-K 1D42
1D40 0002
0001
B10P-PH-K-S
GND screw
1
GND screw
1
GND-SSP
GND-SSP
1M49
0003 GND screw
1 2 3 4
1
GND-SSP
1K49 I552 I553 I554 I555
B4B-PH-K
1 2 3 4 B4B-PH-K
1 2 3 4 5 B5B-PH-K
I556 I557 I559 I560
F
1 2 3 4 5 B5B-PH-K
G_16210_095.eps 180506
3104 313 6064.7
1
2
3
4
5
6
7
8
9
0001 F4 0002 F4 0003 F5 1303 B7 1304 C8 1309 E7 1314 E1 1315 E2 1316 B1 1317 B2 1318 B3 1319 B6 1320 B7 1322 B1 1500 B8 1D40 F7 1D42 F8 1K49 F6 1M03 B5 1M10 B9 1M46 E4 1M49 F6 1M63 E6 2517 C7 3119 C2 3120 C3 3190 E7 3191 E7 3192 E7 3520 C8 3525 C7 3526 C7 3527 D7 5018 D6 5019 D6 6515 B8 6516 C7 7515 B8 9001 F3 9002 C3 9003 C3 9004 C6 9005 D6 9006 D7 9007 D7 9008 B3 9009 B3 9010 D6 9011 E6 9012 B5 9013 C5 9014 C6 9015 B5 9016 B8 9018 C9 9101 C1 9102 C1 9103 C1 9104 C2 9105 C2 9113 C4 9122 C6 F101 C9 F103 B7 F104 C3 F105 C2 F108 C9 F109 E3 F110 B8 F111 B4 F112 E7 F113 B5 F114 E3 F115 C4 F117 F3 F119 D6
F120 D6 F121 C4 F122 C5 F131 E3 F132 E3 F135 E3 F136 E3 F137 B3 F138 B3 F139 C4 F140 B8 I524 C8 I525 C7 I550 C6 I551 C4 I552 F6 I553 F6 I554 F6 I555 F6 I556 F7 I557 F8 I559 F8 I560 F7
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
66
Standby/Audio Panel (37” & 42”): Standby 10 I511
PDZ6.8-B
2522
GND
HOT GROUND
2
2
9121 4K7
3530
4R7
3562
BZX384-C22
3507
10K
3508 2K2
3540
2K2
3541
2n2
BAT54 COL
6540 3544
10K
15n 3176
2509
3K9
3561
2533
BZX384-C15
6531
BZX384-C5V6
6149 3141 12K
470R
6148
BAS316
100R
10K 2140
470R
22K
2n2
3543
2537
1K5
3533
3 1u0
1u0 2534
2539
3175
470n
GND-SSP
GND-SSP
GND-SSP
5V3 (5V3)
Prot-OVV
G
9110
I189
3506
3539
POR
SA1
470R GND-SSP
7508 BC847BW RES F134
COLD GROUND
I182 7509 BC847BW
3542
470R
10K 2540
PROT_AUDIOSUPPLY
10K RES
3536
10K
3534
SA3(2x), SA1
I192
1K0
BC857BW 7505
+5V2
I512
3999
I179
10n
+12V
F133
I506 +5V2
10n
SA2
GND-SSP
GND
220R
GND-SSP GND-SSP
F
GND-SSP
H
GND-SSP
2K2 RES
GNDHOT
7510 BC847BW
I505
+5V2
GND-SSP GND-SSP GND-SSP
3537
F130
GND-SSP
3510
I178
GND-SSP
3 TCET1102(G)
I507
2544
3535
2
I152
I504
GND-SSP
4
1
2154
BAS316
10u 50V 3142
10R
470n
+11V
BZX384-C9V1 RES
7150
F129
2149
I176
6121
47R
GND-SSP
BAS316
SA2
I170
3K3 RES
BAS316
Prot-OVV
0V8 (0V8)
GND-SSP
7140 BC847BW
B3B-EH-A
I151
GND-SSP GND-SSP
I168
RES
6508
2150 F128
3158
I163
10n
B4P-VH
F127
I159
2538
1 2 3 4
I186
6153 BZD27C200P
H
22K
1307
3147
50V 10u
4K7
220u 25V 6156
3145
2124
BYV27-200-TAP
I190
I184
1K0
I191 10K
GNDHOT 6114
3156
3157 22K
390R
I183
2109
3123 6120
GND-SSP
GND-SSP
1305
E
I150
7560 BC817-25W
6562
1
D
GND-SSP
1 2 3 F126
6K8
GND-SSP
I164 I165
I181
BZX384-C33
GND-SSP GND-SSP
I139
3560
I161
TCET1102(G)
BZD27C200P
GND-SSP
+5V_SW
2 4
I148
9024
15K
2503 7531 BSP030
GND-SSP
33R
I503
3
3155
GND-SSP
I158
3124
I180
6151
3532
2132
220u 16V
22n
2131
10n
11V7 (11V7)
3538
I501 I502
220R
100R
3128 4R7
1
2
6150
GND-SSP
+5V2
1m0 25V
2512
9112
I160
4
3114
I185
PDZ3.9-B
6122 I157 7501
I171
I175
3146
PDZ22-B
7100 BC857BW
3100
6108
BAT54 COL
1u0
2110
25V 100u
2163
390R
3110
I177
5K6
2153
I174
6106
390R
3109
I173
6n8
6116
GNDHOT 3127 I172
BZX384-C5V6
I169
3112
47R
STPS8H100FP 6505
3159
1n0 RES
I149
47R
10K
3126
15R
3125
6142
BAT54 COL
1u0
2144
2102
390R
3107
25V 100u
I167
10K
5V3 (5V3)
15u RES
PDZ2.7-B
GND-SSP
GND-SSP
SB360
I166
3503
1K0
STANDBY SA1 0V2 (0V2)
GND-SSP
100u 25V
RES
2m2 10V
390R
10K 2123
6107
2115
100n
G
GND-SSP
3504
6510
I517
3531
GND-SSP
5508
80R
2n2
I514
1K0
I156
BC857BW 7105
GND-SSP
220R
I515
5506
I162
F
4K7
2n2
6132
PDZ6.8-B
0V7 (0V6)
7532 BC847BW
I138
2513
50R 3115
I154
3149
2536
470R
3171
100R
3135
330R
7503 BC847BW
10n
220u 25V
2511 470R
3512
BAS316 3502
1u0 50V
I516
I121
100R
GND-SSP
GND-SSP
7507 I117 BC847BW
3529
7506 BC847BW
I187
22R 2510
I155
I115
BAS316
F125
3113
GNDHOT
I116 1K0
C
I109
GND-SSP
GND-SSP 5103 I137
47R
GNDHOT
47n
3106
E
GNDHOT 2111
6532
I112 33K
SA1
DRIVE_AMBILIGHT 0V (0V)
I106
GND-SSP
F100
GNDHOT
3148
I147
3524
4K7
22u 50V
220n
2518 3137
100K 22K 22K
I197
10n
I153
+8V6
GND-SSP GND-SSP 3172 3134
3132
2141
12K
33K 2535
+11V
BAS316 2160
BZX384-C12
6513
3153
6134
6503
5105
BZG05C6V8
I198
BYW36
BZX384-C12 3161
8V9 (8V8)
I128
2n2
GND-SSP
+5V2
9120
I104
6130
33K 3513
I129
80R
+12V
9017
1K0
BAS316 3152
50R
5108 4R7 6147
47R 2145 6144
1M0 6104
470p RES 3138
1K0 2159
I146 1K0 2112
BAS316
2143
6140 GNDHOT
I126
I125
I199
3160
6133
BYW29EX-200 5112 470p
470p
3117 BZX384-C27
7101 BC817-25W
I143
I188
2118
100R 3108
4M7
470p RES 3101
3150
47R
3104
1K0
3103 2103
100p
220R 2162
100p
50R
3102
2105
I144
6113
2506
BAT54 COL
I145
I133
I141
I142
I513
6115
I135
I136
3105
1K5
3111
D
1n0
I124
I132
BZX384-C15
I108
I107
B
15u
7131 STP16NF06FP
11V9 (11V8) I103
68K
GND-SSP
I134
3511
100p
10
GND-SSP
+5V2-RELAY-IO2_PWM
11V5 (12V)
GND-SSP
GND-SSP
2507
I123
A
+12V_A
6125 I127
GND-SSP
7102 STP6NK60Z
I130
3139
9
1310 HEATSINK
5507
3121
I120
1311 HEATSINK
GND-SSP
GND-SSP
1m0 35V
9020
80R
SB340
30R
6117
BZX384-C33 RES
2n2
22u
5106
7 3
1
6105
9111 RES
I114
8
I131
I140
5102
I118
5104
I119
GND-SSP 5115
47R
+12Vstby
2508
BZX384-C33 I111 BZX384-C33 RES RES
6
2
2101
6103
5
80R
BYV27-200-TAP
C
5500
I113
I519
3521
22u 100V
GNDHOT
I110
I122
GNDHOT
10n 6119
GND-SSP
GND-SSP GND-SSP
470n
GNDHOT
I520
I105
3122
2152
9021 9023 6118
2129
10u
PDZ22-B
3 BSP030 7513
470R
5505
RES 80R
5501
2
1
I100
10u
33u
F123 B2P-VA-BF-BK
9022
B
I518
6514
5110
1 2
GND-SSP
BYV27-600
450V 2108
GND-SSP
PDZ6.8-B
100R
470R
5504
F124
80R
1306
2 4
I102
450V 2107 10u
1301 HEATSINK
1
100K
3518 6504
I101
6110 GND-SSP
3519
(289V) 275V
3522
100K 6109
2523
I521
3523
22K
6517
BAS316
2K2
3509
COLD GROUND
3514
HOT GROUND
A
470R
I508 3515
SA2
22K
I523 3
13
3517
7512 PMSTA42
7514 PMSTA42
1
12
1
4K7 I522
11
I510
3516
BZX384-C12
7511 BST82
RES
27K 9019
2
3116
I509
6511
34V (34V)
VTUN
3118
SA2
9
4K7
STANDBY
8
1
7
3528
6
15K
5
2n2
4
2n2
3
2515
2
100R
1
GND-SSP
I
I
G_16210_096.eps 180506
3104 313 6064.7 1
2
3
4
5
6
7
8
9
10
11
12
13
1301 B1 1305 D13 1306 B3 1307 H3 1310 A13 1311 A12 2101 C1 2102 F1 2103 D2 2105 D2 2107 B4 2108 B4 2109 F7 2110 G2 2111 E2 2112 E3 2115 E6 2118 D7 2123 E4 2124 H2 2129 B6 2131 C10 2132 C10 2140 G8 2141 D7 2143 D7 2144 F2 2145 D3 2149 G7 2150 H5 2152 B4 2153 F5 2154 G9 2159 E2 2160 C9 2162 D2 2163 G1 2503 D10 2506 D5 2507 C6 2508 C6 2509 G13 2510 E7 2511 B9 2512 E9 2513 E7 2515 A10 2518 A8 2522 A9 2523 A9 2533 F11 2534 E8 2535 D9 2536 D11 2537 D13 2538 H9 2539 E8 2540 H12 2544 G12 3100 G3 3101 D2 3102 E2 3103 D2 3104 D3 3105 D2 3106 E1 3107 F1 3108 D4 3109 F1 3110 G1 3111 D1 3112 G1 3113 E7 3114 F6 3115 E6 3116 A7 3117 D3 3118 A7 3122 B6 3123 F7 3124 F7 3125 F3 3126 F3 3127 F3 3128 F6 3132 D9 3134 C10 3135 C9 3137 B8 3138 E2 3139 B8 3140 C8 3141 F9 3142 G8 3145 G2 3146 F4 3147 H2 3148 E4 3149 E4 3150 D4 3152 E3 3153 C8 3155 G4 3156 G5 3157 G5 3158 G6 3159 E8 3160 D3 3161 C9 3171 C9 3172 C10 3175 G8 3176 G9 3502 C9 3503 D11 3504 D11
3506 G11 3507 F13 3508 G13 3509 A7 3510 F12 3511 C8 3512 C9 3513 D9 3514 A7 3515 A8 3516 A9 3517 A11 3518 A7 3519 A8 3521 B7 3522 A9 3523 A9 3524 A10 3528 C11 3529 C11 3530 D13 3531 C13 3532 C12 3533 D12 3534 H9 3535 H9 3536 H10 3537 H9 3538 F8 3539 H10 3540 G12 3541 G12 3542 H12 3543 D12 3544 G12 3560 E11 3561 F12 3562 E12 3999 H7 5102 E1 5103 E6 5104 C5 5105 D5 5106 D1 5108 D4 5110 B6 5112 D6 5115 B8 5500 B5 5501 B3 5504 B3 5505 B4 5506 E8 5507 B10 5508 E9 6103 C1 6104 E2 6105 D3 6106 F2 6107 E7 6108 G2 6109 A8 6110 A8 6113 C7 6114 G1 6115 D3 6116 F4 6117 C2 6118 C2 6119 C3 6120 G7 6121 G7 6122 F7 6125 B8 6130 C9 6132 C9 6133 D8 6134 C9 6140 D6 6142 F2 6144 E3 6147 D4 6148 F8 6149 F9 6150 G4 6151 G4 6153 H5 6156 G5 6503 D9 6504 B6 6505 E7 6508 H9 6510 C13 6511 A8 6513 A8 6514 B7 6517 A7 6531 F10 6532 C11 6540 F12 6562 F12 7100 F3 7101 D3 7102 C4 7105 F4 7131 B9 7140 G10 7150 G5 7501 F6 7503 D10 7505 G12 7506 C11 7507 C12 7508 H10 7509 H12 7510 F13
7511 A8 7512 A10 7513 B7 7514 A9 7531 E10 7532 D9 7560 E12 9017 E11 9019 A7 9020 C3 9021 B3 9022 B3 9023 C2 9024 D13 9110 H9 9111 D1 9112 E9 9120 B11 9121 B12 F100 D4 F123 B3 F124 B3 F125 D12 F126 E12 F127 H3 F128 H4 F129 H4 F130 H4 F133 H7 F134 H8 I100 B4 I101 B6 I102 B6 I103 C9 I104 C9 I105 B6 I106 C10 I107 C8 I108 C8 I109 C11 I110 C2 I111 C3 I112 C9 I113 C4 I114 C6 I115 C11 I116 C10 I117 C12 I118 C5 I119 C4 I120 C6 I121 C12 I122 C1 I123 C6 I124 C5 I125 D8 I126 D9 I127 B8 I128 D7 I129 D7 I130 C3 I131 C2 I132 D4 I133 D4 I134 D2 I135 D3 I136 D2 I137 E7 I138 E7 I139 E12 I140 C1 I141 D2 I142 D2 I143 D2 I144 D2 I145 D3 I146 D4 I147 E1 I148 E10 I149 E7 I150 E12 I151 E12 I152 E12 I153 E1 I154 E4 I155 E3 I156 E4 I157 F6 I158 F7 I159 F8 I160 F7 I161 F9 I162 E1 I163 F8 I164 F7 I165 G7 I166 F3 I167 F3 I168 G9 I169 F1 I170 G7 I171 F5 I172 F2 I173 F2 I174 F2 I175 F4 I176 G7 I177 F1 I178 G13 I179 G12 I180 G4 I181 G1 I182 G12 I183 G5 I184 G5 I185 F3
I186 G6 I187 D11 I188 D9 I189 H10 I190 G1 I191 G4 I192 H9 I197 C9 I198 D7 I199 D4 I501 F6 I502 F6 I503 F6 I504 G12 I505 F12 I506 F13 I507 F13 I508 A8 I509 A9 I510 A9 I511 A10 I512 H9 I513 D1 I514 E6 I515 E9 I516 D9 I517 C13 I518 B7 I519 B8 I520 A8 I521 A8 I522 A9 I523 A9
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
67
Standby/Audio Panel (37” & 42”): Audio 2715 F4 2716 B3 2717 G4 2718 E3 2719 F5 2720 F4 2721 C1 2722 D1 2723 F8 2725 F6
2780 E5 2781 E5 2782 D12 2783 D7 2784 D13 2785 B13 2786 B4 2787 C5 2788 D1 2789 D2
2758 G9 2759 F8 2762 E13 2764 B2 2766 A4 2768 E5 2769 E5 2777 D1 2778 C5 2779 E2
2726 E2 2727 E2 2728 B3 2729 F3 2741 F11 2743 F13 2753 E13 2754 D11 2755 D11 2756 G12
1
3701 E6 3702 B6 3703 A6 3704 B6 3705 E4 3706 E6 3707 D6 3708 F6 3709 F5 3710 B3
2790 E2 2791 C7 2792 C8 2793 D13 2794 C9 2795 D13 2796 C10 2797 D8 2798 E8 2799 D13
2
3722 C1 3723 C1 3724 F1 3725 B4 3726 F1 3727 F5 3729 G9 3730 F7 3741 F11 3743 F3
3711 E4 3712 E3 3713 D7 3714 C6 3715 B6 3716 B6 3717 F3 3718 G4 3720 F7 3721 C1
3
3755 B10 3756 F3 3757 G3 3758 C10 3759 D8 3760 E8 3761 B12 3762 B12 3763 C12 3764 C12
3744 G11 3746 C6 3747 C6 3748 C5 3749 A7 3750 G3 3751 G8 3752 B8 3753 G8 3754 C8
4
3765 C12 3766 C14 3767 B12 3768 B13 3790 B4 3791 C2 3792 B3 3793 B4 3794 D11 3795 C5
5
5711 E6 5712 E4 5720 F9 5722 D13 5723 D13 5730 F2 5731 G2 5732 G8 6701 C6 6702 B12
3796 E11 3797 C5 3798 D6 5701 F4 5702 F2 5703 B5 5704 F7 5705 F6 5707 D1 5708 E1
6
7
10
I753 F4 I754 E2 I755 F4 I756 C1 I757 D2 I758 G12 I759 F12 I760 C5 I761 F8 I762 D11
I743 C12 I744 E6 I745 B4 I746 E13 I747 D11 I748 F4 I749 E4 I750 B12 I751 A12 I752 E13
11
I763 C6 I764 D13 I765 D13 I766 G9 I767 F2 I768 G3 I769 F3 I770 G2 I771 G3 I772 F8
I783 B2 I784 F4 I785 B4 I786 B4 I787 C4 I788 C7 I790 F3 I791 B12 I792 B13 I793 B13
I773 G9 I774 F9 I775 F7 I776 E4 I777 D2 I778 E2 I779 E2 I780 E13 I781 C13 I782 C13
12
I794 B12 I795 F6 I796 C12 I797 C12 I798 E5 I799 E3
13
14
3
4
SA1,SA2,SA3 6702
BZX384-C10
9718
2785
2K2 2K2
100u 16V
3762 3763
PROT_AUDIOSUPPLY
DCPROT
SA3
SA3
3758
6703
-16V-19V I742
4
I743
10R
I782
100K
I781 7709 BC847BW
7708 BC847BW
C
100u
2793
220n
2782
-16V-19V
D
+16V+19V 100u
220n 2799
-Vf21
2755
220n
2753
E -Vf21
I746
33n
2743
I752
13
11
12
9
5
I774
10
6
2759
1
VCCPOWn1 VCCPOWn2
I780
VCCPOWp
VCCSIGNp
VCCSIGNn
SGN_GND VREG
OUT
BOOT
BOOTDIODE
IN
FREQ
FEEDCAP
3K3
7702 TDA7482
ST_BY|MUTE
NC
2K7 BC857BW 7713
HEATSINK
220n
2762
8 7
I741
14 15
2
1
3
0044
1n0 3796
4
220n
2798
10K
3794
F718
Vm 6711
2784
220n
2797
6710
BZX384-C15 BZX384-C15
5722
I765
I747 Vp
3760
10K
I761
5723
220n
3720
2723
I764
2795
I740
I736
3701
2u2
2754
I762 7712 BC847BW
4K7
3706
BZX384-C10
3764 I796
6 8K2
22K
3754
1u0
I797 7715-2 LM833D 7
-16V-19V 56K
3708
100u
220n 2769
220n 2781
100u 2780
2768
-Vf1
5712
+16V+19V
8 5
3K3
3713
3759
2783
3795 220K
3797
3798 3707
68K
I701
-16V-19V
5
100K
470p
2756
G SA3(3x)
PROT1
2K2
2K2 3751
3753
CENTERWOOFER
I759
I734 22p 3744
15W/8 POR-CLASSD
I773
I758
I766
2741
5732
SA3
SOUND-ENABLE
SA3
AUDIO-R
AUDIO-L
SA3
SA3
AUDIO-SW
SA3
PROT_AUDIOSUPPLY
SOUND-ENABLE
I708
B3B-PH-K F749
10K
4 1
2
F720 F731
SA1,SA2,SA3
SA3
POR-CLASSD
B9B-PH-K
F736
PLT09H
680n
F737
3
2758
B2B-PH-K 1738 I772 3 2 F741 1
3741
68u
1 2
F747 F748
F
1737
100p
5720
2725
1n0
1n0
3729
I795
I730
100K
5705
5704
220R
220R 3709
3727
220R
F751
SA3(3x)
SA3(3x)
2
4
I728
I733
-Vf21
220n
2712
120K 3718
FTV 2.X BL 2.X JL 2.X LC 4.C
1 2 3 4 5 6 7 8 9
3104 313 6064.7 1
1u0
2796
3766 100K 3765
+16V+19V
470p
I705
1739
PROT1
680n
2717
4 PLT09H
B
Vm
220R 3730
SA3
220n
3
-Vf11
I768 I771 1
7711 BC847BW
Vm
39K
-18V
TO 1M52
PROT1
F739
5731
5701
I753
2K2
I770
3757
B3B-PH-K
F710 F721 2
2K2
1 2 3
3750
1736
15W/8 L
2
I788
I710
1n0
-Vf1
100K
4 PLT09H
B3B-PH-K
3705
8R2
3717
I769
2719
I792
3767
I775
100K
F738 I767 3
1
2K2
2720 68u
5730
I784
I755
680n
15W/8 R
I790 F722 F708 2
2715 1n0
2729
1735
I776
I748
220n
68u
5702
3756 2K2 3743
-Vf11
1 2 3
1u0
2709 470p 2710
I798
2794
I763
25 12 4 22
6
17 19
18
10
22p
2718
I719
-18V
F
I714
7715-1 LM833D 1
47K
I744 I700
2708
1n0
10K
2727
220R
220R 3724
3726
1n0
3712
I754
1u0
8
3
I735
3711
220n
2779
100u
2790
I799 2711
3747
3746
GND VREG -VCCSIGNSUB +5V -5V +VCCPOW1 -VCCPOW1 +VCCPOW2 -VCCPOW2
FEED3 FEED4
STBY-MUTE
NC1
OUT2 BOOT2 T2 IN2
T1 BOOT1 OUT1
47K
I778
I749 I721
I725
I737
BC847BW
I720
2792
33n
I707
I731
3755 470R Vp
3714
5711
E
-16V-19V
Vp
2726
I779
+16V+19V
100K
100K
I723
330R
2791 6701
2778 3748
470R
13 1 16 2 24
20
15
23 21
I738
220n
7 9
14 8
220n
2789
I724
7710 I793 BC847BW
I791
B7B-EH-A
7703
I706
5708
+16V+19V
F744
3752
+16V+19V
I777
2788
2777
IN1
5707
D
FEED1 FEED2
I757
-Vf11
CURREF OSC
TDA7490L
7700 470p
2722
I756
3768
F743
47K
7714 BC847BW BC857BW 7706
1u0 I760
I729
68K
100u
11 5 3
470p
2721
56K
3723
3722
-16V-19V
I709
I794
10R
I739
15K
2707
2787
I750
F742
3716 47K
I732
7707 BC847BW
33n 2714
7701 BC847BW
I751
3761 +16V+19V
7 6 5 4 3 2 1
LCD SUPPLY 30"/37"/42"
I703
10K
F745
1M02
TO 1M02
A
3715
I718
2K7
I726
470n
7705
BC847BW
I787
I716
6704 3702
F714
1n0 3790 2K7
100n
3725
2728 22K
330p
3721
4K7
F713
1n0 3791
BAS316
470n 2713
BAS316
I711
2704
2705 470R
BC847BW 2702
I722 -Vf1
10K 3793
I745
10K I717 7704
I702
33K
3704
9717
I786
100n 2706
2716
22n
I727
120K
10K
5703
I713
3792
2
1
3710
330p
B
I783
2786 22K
HEATSINK
2u2
2764
0045
G
I733 C10 I734 F12 I735 D8 I736 E8 I737 C6 I738 C6 I739 B6 I740 D9 I741 E9 I742 C12
I715
3749 3703
I704
1K2
2u2
2766
I712
F712
AUDIO-R
I785
C
9
AUDIO-SW
DCPROT
SA3
SA3 (3x) PROT1
F711
AUDIO-L
-Vf1
SA3
8
I723 B9 I724 E2 I725 E1 I726 C2 I727 B5 I728 C9 I729 C5 I730 F7 I731 B11 I732 C6
I713 B3 I714 C8 I715 A7 I716 C3 I717 B5 I718 B5 I719 F3 I720 C8 I721 E4 I722 B2
I703 B6 I704 A6 I705 D6 I706 D5 I707 E3 I708 F11 I709 C3 I710 F5 I711 B4 I712 A5
SA3
4u7
SA3
F743 B9 F744 B9 F745 A9 F747 G5 F748 G5 F749 G6 F751 F6 I700 E6 I701 E6 I702 A6
F720 G8 F721 G2 F722 F2 F731 G8 F736 G7 F737 G6 F738 F2 F739 G2 F741 G8 F742 B9
7715-2 C11 9717 B5 9718 B13 F708 F2 F710 G2 F711 A2 F712 B2 F713 C2 F714 B5 F718 D10
7706 C6 7707 C5 7708 C13 7709 C13 7710 B13 7711 B13 7712 D9 7713 E9 7714 C5 7715-1 C9
AUDIO
SA3 A
6703 C12 6704 B6 6710 D8 6711 E8 7700 C3 7701 B7 7702 E11 7703 C7 7704 B5 7705 B6
2
2705 A7 2706 B4 2707 B4 2708 G4 2709 D6 2710 D6 2711 E2 2712 E5 2713 B7 2714 C3
22u 16V
0044 D14 0045 B1 1735 F2 1736 G2 1737 F7 1738 F7 1739 F5 1M02 A9 2702 B5 2704 C2
G_16210_097.eps 180506
6
7
8
9
10
11
12
13
14
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
68
Layout Standby/Audio Panel (37” & 42”) (Top Side) 0001 0002 0003 0044 0045 1301 1303
G4 F4 D4 D1 E1 C1 E4
1304 1305 1306 1307 1309 1310 1311
D4 A3 A1 A2 D4 A3 B4
1314 1315 1316 1317 1318 1319 1320
G4 F4 G4 F4 F4 F4 E4
1322 1500 1735 1736 1737 1738 1739
G4 D4 G1 G1 G3 G2 F3
1D40 1D42 1K49 1M02 1M03 1M10 1M46
G4 G4 G4 G3 A4 D4 A4
1M49 1M63 2101 2102 2107 2108 2111
G4 A3 B2 B1 A1 A1 A1
2118 2124 2132 2140 2150 2152 2160
B3 B2 A4 C3 A2 D2 B4
2163 2506 2507 2508 2510 2511 2512
B1 B2 D3 D3 D4 D4 C4
2517 2522 2533 2717 2729 2758 2768
D4 B3 A4 F1 G2 E3 F1
2769 2778 2783 2785 2788 2790 2793
F1 E1 G1 E3 F2 E2 E3
2799 3101 3102 3103 3108 3111 3115
E3 C1 B1 B2 C2 B1 C4
3139 3155 3190 3191 3192 3509 3711
Layout Standby/Audio Panel (37” & 42”) (Overview Bottom Side) B3 A2 E3 E3 E3 D4 F1
3713 3747 5018 5019 5102 5103 5104
F3 E1 E4 E4 B2 C4 C2
5106 5108 5110 5112 5115 5500 5501
B2 C2 C3 C3 B3 C3 A1
5504 5505 5506 5507 5508 5701 5702
A1 B1 C4 D4 C4 F2 F2
5704 5707 5708 5711 5712 5720 5722
E2 G2 G3 F1 E1 E2 E3
5723 5730 5731 5732 6103 6107 6113 6114 6125 6140 6504 6505 7102 7131 7150 7501 7700 7702 9001 9004 9005 9006 9007 9010 9011 9016 9018 9022 9040 9043 9045 9051 9052 9053 9054 9055 9056 9057 9058 9059 9060 9061 9062 9063 9064 9065 9066 9067 9068 9069 9070 9071 9072 9073 9074 9075 9101 9112 9113 9721 9722 9723 9724 9725 9726 9727 9728 9729 9730 9731 9732 9733 9734 9735 9736 9738 9739 9740 9741 9742 9743 9744 9745
E3 G2 G1 G3 B2 C4 B3 B2 A3 C3 D3 C4 C1 B4 A2 B2 F2 D2 A4 E4 E4 E4 E4 E4 E4 D4 D4 A1 G4 B3 D4 C4 F4 B1 B1 C2 A4 A3 A4 B4 A3 A4 A4 A4 A3 A4 A4 C4 C4 A4 A4 F4 F4 B4 B4 F4 G4 C4 A4 G2 G3 G1 F1 E3 D2 D3 E2 D2 E1 F3 G3 G3 F1 F3 F1 F3 F2 E1 E1 E1 G3 F3 G3
2103 2105 2109 2110 2112 2115 2123 2129
B4 B4 B2 B4 C4 C1 C4 C2
2131 2141 2143 2144 2145 2149 2153 2154
A1 C2 B2 A4 C3 B2 B3 A2
2159 2162 2503 2509 2513 2515 2518 2523
B3 B3 B1 A2 C1 B1 B2 B2
2534 2535 2536 2537 2538 2539 2540 2544
A2 A1 B2 A2 A1 A2 A2 A2
2702 2704 2705 2706 2707 2708 2709 2710
F4 F3 G2 F3 F3 F3 G3 F3
2711 2712 2713 2714 2715 2716 2718 2719
G3 F4 G2 F4 F4 F3 F3 F4
2720 2721 2722 2723 2725 2726 2727 2728
F3 G3 G3 E3 F2 G3 G3 F3
2741 2743 2753 2754 2755 2756 2759 2762
D3 E3 D3 E2 E3 E3 E3 E2
2764 2766 2777 2779 2780 2781 2782 2784
F2 F2 F3 F3 F4 F4 E2 E3
2786 2787 2789 2791 2792 2794 2795 2796
F4 E3 F3 F2 D2 D2 E3 D2
2797 2798 3100 3104 3105 3106 3107 3109
D2 D3 A3 C4 B4 B4 B4 B4
3110 3112 3113 3114 3116 3117 3118 3119
B3 B3 B2 B3 C2 C4 C2 F1
3120 3121 3122 3123 3124 3125 3126 3127
F1 B1 C2 B2 B3 A3 A3 B3
3128 3132 3134 3135 3137 3138 3141 3142
B3 B1 A1 A1 B2 C4 A2 C2
3145 3146 3147 3148 3149 3150 3152 3153
B3 B3 B3 C4 C4 C4 C3 B1
3156 3157 3158 3159 3160 3161 3171 3172
Part 1 G_16210_099a.eps
Part 2 G_16210_099b.eps
3104 313 6064.7
3104 313 6064.7
G_16210_098.eps 180506
G_16210_099.eps 180506
A3 A3 A2 B2 C4 B1 B1 A1
3175 3176 3502 3503 3504 3506 3507 3508 3510 3511 3512 3513 3514 3515 3516 3517 3518 3519 3520 3521 3522 3523 3524 3525 3526 3527 3528 3529 3530 3531 3532 3533 3534 3535 3536 3537 3538 3539 3540 3541 3542 3543 3544 3560 3561 3562 3701 3702 3703 3704 3705 3706 3707 3708 3709 3710 3712 3714 3715 3716 3717 3718 3720 3721 3722 3723 3724 3725 3726 3727 3729 3730 3741 3743 3744 3746 3748 3749 3750 3751 3752 3753 3754 3755 3756 3757 3758 3759 3760 3761 3762 3763 3764 3765 3766 3767 3768 3790 3791 3792 3793 3794 3795 3796 3797 3798 3999 5105 5703 5705 6104 6105 6106 6108 6109 6110 6115 6116 6117 6118 6119 6120 6121 6122 6130 6132 6133 6134 6142 6144 6147
C2 A2 B1 B1 B1 A2 A2 A2 A2 B1 B1 B1 B2 C1 C1 B1 B2 B2 E1 B2 B2 B2 B2 C1 B1 E1 A1 B2 A1 A1 A2 B2 A1 A1 A1 A1 A2 A1 A2 A2 A2 A2 A2 A2 A3 A3 F2 G2 G2 G2 F3 G3 F3 F3 F4 F3 F4 E4 E3 G2 G4 G4 E3 F3 G3 G3 G3 F3 G3 F4 G3 E3 D3 G3 E3 G2 F4 E3 G4 G3 D2 G3 D2 D2 G3 G4 D3 D2 D3 F2 F2 E2 F2 E2 F2 E2 F2 F4 F3 F3 F4 E3 E3 E3 E3 G2 D2 C3 F4 F2 C4 C4 A3 B3 C2 C2 C4 B3 B4 C4 C4 A2 B2 B2 B1 B1 B1 B1 B3 C3 C3
6148 6149 6150 6151 6153 6156 6503 6508 6510 6511 6513 6514 6515 6516 6517 6531 6532 6540 6562 6701 6702 6703 6704 6710 6711 7100 7101 7105 7140 7503 7505 7506 7507 7508 7509 7510 7511 7512 7513 7514 7515 7531 7532 7560 7701 7703 7704 7705 7706 7707 7708 7709 7710 7711 7712 7713 7714 7715 9002 9003 9008 9009 9012 9013 9014 9015 9017 9019 9020 9021 9023 9024 9041 9042 9044 9076 9077 9080 9081 9102 9103 9104 9105 9110 9111 9120 9121 9122 9717 9718 9737
B2 A2 A3 A3 A3 A3 B1 A1 A1 C1 B2 B2 D1 B1 C2 A2 A1 A2 A3 G2 E2 F3 G2 D2 D3 A3 C4 B4 A2 B1 A2 B1 A2 A1 A2 A2 C1 B1 B2 B2 D1 A2 B1 A3 G2 G2 E4 E4 E4 E4 F2 F2 F2 F2 D2 D3 E3 D2 F1 F1 F1 F1 F1 G1 F1 F1 A2 C1 B4 C4 C4 A1 A2 A2 A2 A2 F1 A1 A1 G1 G1 G1 G1 A1 B3 A1 A1 F1 E4 E2 F4
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
69
Layout Standby/Audio Panel (37” & 42”) (Part 1 Bottom Side)
Part 1
G_16210_099a.eps 180506
Circuit Diagrams and PWB Layouts
LC4.8L LA
7.
70
Layout Standby/Audio Panel (37” & 42”) (Part 2 Bottom Side)
Part 2
G_16210_099b.eps 180506
Alignments
LC4.8L LA
8.
EN 71
8. Alignments Index of this chapter: 8.2 Hardware Alignments 8.3 Software Alignments
• • • •
General: The Service Default Mode (SDM) and Service Alignment Mode (SAM) are described in chapter 5. Menu navigation is done with the Cursor Up, Down, Left or Right keys of the remote control transmitter.
•
8.1
General Alignment Conditions
8.2
Hardware Alignments
Perform all electrical adjustments under the following conditions:
8.3
There are no hardware alignments foreseen for this chassis.
Software Alignments To store the data: Use the RC button “Menu” to switch to the main menu and next, switch to ‘Stand-by’ mode.
With the software alignments of the Service Alignment Mode (SAM) the Tuner, White Tone, and Audio settings can be aligned. 8.3.1
Power supply voltage: 120 - 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 15 minutes. Measure voltages and waveforms in relation to correct ground (e.g. measure audio signals in relation to AUDIO_GND). Caution: It is not allowed to use heatsinks as ground. Test probe: Ri > 10 Mohm, Ci < 20 pF.
SAM Menu
SAM
SDM 00035 LC4XEP1 1.15/S4XPVX 1.23 ERR 0 0 0 0 0 OP 000 057 140 032 120 128 000
00035 LC4XEP1 1.15/S4XPVX 1.23 ERR 0 0 0 0 0
. OP1 . OP2 . OP3 . OP4 . OP5 . OP6 . OP7
0 57 140 32 120 128 0
SAM . Delta Cool Red -3 . Delta Cool Green -1 . Delta Cool Blue 5
SAM
SAM
SAM
OP 000 057 140 032 120 128 000 . Clear . Options . Tuner . White Tone . Audio . NVM Editor . SC NVM Editor . Test Pattern . ComPair Mode
. IFPLL . AGC . AGCL'
Clear ?
32 30 255
. Normal Red . Normal Green . Normal Blue
32 35 41
On
SAM
SAM
CSM 1 00035 LC4XEP1 1.15/S4XPVX 1.23 2 CODES 0 0 0 0 0 3 OP 000 057 140 032 120 128 000 4 5 6 NOT TUNED 7 PAL 8 STEREO 9 CO 50 CL 50 BR 50 0 AVL Off
. Cool . Normal . Warm
. Delta Warm Red 2 . Delta Warm Green -3 . Delta Warm Blue -13
SAM . QSS Off . FMI Off . NICAM Alignment 63 . Lip Sync Off . DBE Off
SAM .ADR .VAL .Store
0x0000 0x0000 Store ?
0 0
SAM .ADR .VAL .Store
0x0000 0x0000 Store ?
0 0
F_15420_032.eps 070221
Figure 8-1 Overview SAM menu (example, shown values are not representative!).
Alignments
LC4.8L LA
Table 8-3 Tint settings for Pixel-Plus sets (37” and 42”)
Tuner Purpose: To keep the tuner output signal constant as the input signal amplitude varies. AGC (RF AGC Take Over Point) alignment: • Activate the SAM menu. • Go to the sub-menu “Tuner”. • Select the “AGC” sub-menu. • Set the “AGC” value to “27” (default). • Set the “IFPLL” value to “32” (default). • Switch the set to “Stand-by” to store the data.
Temp (K)
R - offset
G - offset
B - offset
Warm
6500
Rnorm + 8
Gnorm + 0
Bnorm - 34
Normal
9300
240 (37”) 251 (42”)
248 (37”) 251 (42”)
232 (37”) 251 (42”)
Cool
11000
Rnorm - 13
Gnorm - 10
Bnorm + 0
Tolerance
10%
0.008
0.008
0.008
Audio No adjustments necessary.
White Tone
8.3.5
Before alignment, set: • “Brightness” to “60”. • “Color” to “50”. • “Contrast” to “60”. • “Contrast+” to “Off”. • “Active CTR” to “Off” (via RC). • “Auto Picture” to “Soft”
ADC Gain and Grey Scale Alignment The table below shows a number of NVM settings used for each model of TV set. Be sure to use the correct editor in the SAM menu (NVM Editor or SC NVM Editor), because the first one is used for the Hercules NVM, and the second one for the SCALER (SC) part of the TV set.
Table 8-1 White D alignment values
Table 8-4 ADC and Grey Scale gain alignment
Setting
Hercules NVM Address (decimal value)
42PFL7312
SDTV ADC Gain settings: Use the “NVM Editor” in SAM
NVM_ADC_GAIN_R
006
145
145
145
NVM_ADC_GAIN_G
007
185
185
185
NVM_ADC_GAIN_B
008
165
165
165
SDTV Greyscale settings: Use the “SC NVM Editor” in SAM Setting
Scaler NVM Address (decimal value)
42PFL7312
In case you have a color analyzer: • Measure with a calibrated (phosphor- independent) color analyzer (e.g. Minolta CA-210) in the centre of the screen (for LCD the analyzer may not touch the screen). Consequently, the measurement needs to be done in a dark environment. • Adjust the correct x,y coordinates (while holding one of the White point registers R, G or B on the initial value) by means of decreasing the value of one or two other white points to the correct x,y coordinates (see table “White D alignment values”). • Repeat this step for the other color Temperatures that need to be aligned. • When finished return to the SAM root menu and press STANDBY on the RC to store the aligned values to the NVM.
37PFL7312
Alignment: • Activate SAM. • Select “White Tone” and choose a color temperature. • Use a 100% white screen as input signal and set the following values: All “White point” values initial to “180” for Non-Pixel-Plus sets and “245” for Pixel-Plus sets.
Caution: • Do not change the NVM settings without understanding the function of each setting, because incorrect NVM settings may seriously hamper the correct functioning of the TV set! • Always write down the existing NVM settings, before changing the settings. This will enable you to return to the original settings, if the new settings turn out to be incorrect.
37PFL7312
8.3.3
8.3.4
Tint
32PFL5312
8.3.2
8.
32PFL5312
EN 72
ADC_RED_OFFSET2
338
80
32
32
ADC_GRN_OFFSET2
339
80
30
30
ADC_BLU_OFFSET2
340
80
36
36
Tint
Temp (K)
x
y
ADC_RED_GAIN
341
70
71
71
Warm
6500
0.310
0.328
ADC_GRN_GAIN
343
70
75
75
Normal
9300
0.283
0.290
ADC_BLU_GAIN
345
70
68
68
Cool
11000
0.273
0.280
0.004
0.004
Tolerance
If you do not have a color analyzer, you can use the default values. This is the next best solution. The default values are average values coming from production (statistics). • Set the RED, GREEN and BLUE default values per temperature according to the values in the “Tint settings” table. • When finished return to the SAM root menu and press STANDBY on the RC to store the aligned values to the NVM. Table 8-2 Tint settings for Non Pixel-Plus sets Tint
Temp (K)
R - offset
G - offset
B - offset Bnorm - 25
Warm
6500
Rnorm + 5
Gnorm + 0
Normal
9300
200 (32”)
200 (32”)
192 (32”)
Cool
11000
Rnorm - 10
Gnorm - 8
Bnorm + 0
Tolerance
10%
0.008
0.008
0.008
PC Greyscale settings: Use the “SC NVM Editor” in SAM ADC_RED_OFFSET2
325
70
66
66
ADC_GRN_OFFSET2
326
70
65
65
ADC_BLU_OFFSET2
327
70
68
68
ADC_RED_GAIN
328
215
219
219
ADC_GRN_GAIN
330
215
231
231
ADC_BLU_GAIN
332
215
227
227
HD Greyscale settings: Use the “SC NVM Editor” in SAM ADC_RED_OFFSET2
351
64
64
64
ADC_GRN_OFFSET2
352
75
78
78
ADC_BLU_OFFSET2
353
64
64
64
ADC_RED_GAIN
354
160
153
153
ADC_GRN_GAIN
356
160
157
157
ADC_BLU_GAIN
358
160
139
139
Alignments 8.3.6
Options 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: The new option setting becomes active after the TV is switched "off" and "on" again with the mains switch (the EAROM is then read again). When the NVM is replaced, all options will require resetting. To be certain that the factory settings are reproduced exactly, you must set all option numbers. You can find the correct option numbers in table “Option Codes OP1...OP7“ below. How to Change an Option Byte An option code (or “option byte”) represents eight different options (bits). When you change these numbers directly, you can set all options very quickly. All options are controlled via seven option numbers (OP1... OP7). Activate SAM and select “Options”. Now you can select the option byte (OP1.. OP7) with the CURSOR UP/ DOWN keys, and enter the new 3 digit (decimal) value. For the correct factory default settings, see the table “Option codes OP1...OP7“ below. For more detailed information, see the second table “Option codes at bit level“. If an option is set (value “1”), it represents a certain decimal value. When all the correct options (bits) are set, the sum of the decimal values of each Option Byte (OP) will give the option code. Leaving the “Option” submenu saves the changes in the Option Byte settings. Some changes will only take effect after the set has been switched “off” and “on” with the AC power switch (cold start). Table 8-5 Option codes OP1...OP7 Option Byte
32PFL5312 37PFL7312 42PFL7312
OP1
128
128
OP2
005
005
OP3
013
077
OP4
098
098
OP5
252
252
OP6
090
090
OP7
016
016
How to Change Options at Bit Level If you wish to know which features or settings of the HERCULES are changed via OP1...OP7, or if you want to change each option or feature Bit by Bit, use the more detailed table “Option codes overview” table. Note: the next table “Option codes at bit level) contains only that part of the NVM settings that can be changed.
LC4.8L LA
8.
EN 73
EN 74
8.
LC4.8L LA
Alignments
Table 8-6 Option codes at bit level Option Byte Option Bit (decimal value) OP1
Description of feature/option to be switched ON (= 1) or OFF (= 0)
Bit 7 (128)
PHILIPS_TUNER
1
1
1
Bit 6 (64)
FM_RADIO
0
0
0
Bit 5 (32)
LNA
0
0
0
Bit 4 (16)
ATS (only for EU)
0
0
0
Bit 3 (8)
ACI
0
0
0
Bit 2 (4)
UK_PNP
0
0
0
Bit 1(2)
VIRGIN_MODE
0
0
0
Bit 0 (1)
CHINA
0
0
0
128
128
128
Total DEC Value OP2
Bit 7 (128)
SC
0
0
0
Bit 6 (64)
IBEX
0
0
0
Bit 5 (32)
CHANNEL_NAMING
0
0
0
Bit 4 (16)
LTI (Lum Transcient Improvmt)
0
0
0
Bit 3 (8)
TILT
0
0
0
Bit 2 (4)
FINE_TUNING
1
1
1
Bit 1(2)
PIP_PHILIPS_TUNER
0
0
0
Bit 0 (1)
HUE
1
1
1
5
5
5
Total DEC Value OP3
Bit 7 (128)
EW_FUNCTION
0
0
0
Bit 6 (64)
PIXEL_PLUS
0
1
1
Bit 5 (32)
PIP_SPLITTER
0
0
0
Bit 4 (16)
SPLITTER
0
0
0
Bit 3 (8)
VIRTUAL_DOLBY
1
1
1
Bit 2 (4)
WIDE_SCREEN
1
1
1
Bit 1(2)
WSSB
0
0
0
Bit 0 (1)
ME5 (5/6 local buttons implementation)
1
1
1
13
77
77
Total DEC Value OP4
Bit 7 (128)
LIP_SYNC
0
0
0
Bit 6 (64)
HD
1
1
1
Bit 5 (32)
ULTRA_BASS
1
1
1
Bit 4 (16)
DELTA_VOLUME
0
0
0
Bit 3 (8)
TAIWAN_KOREA
0
0
0
Bit 2 (4)
VOLUME_LIMITER
0
0
0
Bit 1(2)
STEREO_DBX
1
1
1
Bit 0 (1)
STEREO_NICAM_2CS
0
0
0
98
98
98
Total DEC Value OP5
Bit 7 (128)
AV1
1
1
1
Bit 6 (64)
AV2
1
1
1
Bit 5 (32)
AV3
1
1
1
Bit 4 (16)
CVI
1
1
1
Bit 3 (8)
SVHS2
1
1
1
Bit 2 (4)
SVHS3
1
1
1
Bit 1(2)
HOTEL_MODE
0
0
0
Bit 0 (1)
SIMPLY_FACTORY = BTSC_AV STEREO
0
0
0
252
252
252
Total DEC Value OP6
Bit 7 (128)
PERSONAL_ZAPPING
0
0
0
Bit 6 (64)
SMART_SURF
1
1
1
Bit 5 (32)
FMTRAP
0
0
0
Bit 4 (16)
COMBFILTER
1
1
1
Bit 3 (8)
ACTIVE_CONTROL
1
1
1
Bit 2 (4)
VIDEO_TEXT
0
0
0
Bit 1(2)
LIGHT_SENSOR
1
1
1
Bit 0 (1)
TWIN_TEXT
0
0
0
90
90
90
Total DEC Value OP7
32PFL5312 37PFL7312 42PFL7312
Bit 7 (128)
TIME_WIN1
0
0
0
Bit 6 (64)
DVB_USB = MALAY
0
0
0
Bit 5 (32)
AMBILIGHT
0
0
0
Bit 4 (16)
COLUMBUS
1
1
1
Bit 3 (8)
DUMMY6
0
0
0
Bit 2 (4)
DUMMY7
0
0
0
Bit 1(2)
WEST_EU
0
0
0
Bit 0 (1)
MULTI_STANDARD_EUR
0
0
0
16
16
16
Total DEC Value
Circuit Descriptions, Abbreviation List, and IC Data Sheets
LC4.8L LA
9.
EN 75
9. Circuit Descriptions, Abbreviation List, and IC Data Sheets Notes: • Only new circuits (circuits that are not published recently) are described. • Figures can deviate slightly from the actual situation, due to different set executions. • For a good understanding of the following circuit descriptions, please use the wiring, block (chapter 6) and circuit diagrams (chapter 7). Where necessary, you will find a separate drawing for clarification.
Index of this chapter: 9.1 Introduction 9.2 Block Diagram 9.3 Input/Output 9.4 Tuner and IF 9.5 Video: TV Part (Diagrams B1, B2, and B3) 9.6 Columbus 9.7 Video: Scaler Part (Diagram B7, B8 and B9) 9.8 Audio Processing 9.9 Control 9.10 Abbreviation List 9.11 IC Data Sheets
Introduction The architecture consists of a TV and Scaler panel, I/O panel, Side I/O, Local Keyboard panel and Power Supply panel. The functions for video/audio processing, microprocessor (uP), and CC/TXT decoder (country dependent) are all combined in one IC (TDA150xx, item 7217), the so-called third generation Ultimate One Chip (UOC-III) or “Hercules”. This chip has the following features: • Control, small signal, mono/stereo, and extensive Audio/ Video switching in one IC. • Upgrade with digital sound & video processing. • Alignment free IF, including SECAM-L/L1 and AM. • FM sound 4.5/5.5/6.0/6.5, no traps/bandpass filters. • Full multi-standard color decoder. • One Xtal reference for all functions (microprocessor, RCP, TXT/CC, RDS, color decoder, and stereo sound processor).
The LC4.8 is a global LCD TV chassis. It is the successor of the LC4.6 LCD TV and has screen sizes of 32 inch to 42 inch (in 16:9 ratio). There are two different picture qualities available, depending on the model: Pixel Plus and Digital Crystal Clear. The block diagram below (see Figure “Block diagram”) shows the Pixel Plus architecture; the architecture of the Digital Crystal Clear model is shown in the block diagram on the next page (see Figure “Block diagram of the internal building blocks”). Note: Because this is a global chassis, this manual has a “general” set-up. Therefore, some parts might not be applicable for some regions (e.g. SCART, SECAM, or Teletext for nonEurope countries). Please take this into account when reading it.
Block Diagram
SDRAM
IF CVBS
CVBS,U,V
Y C
A/D AD9945 601 INTERF.
COLUMBUS
601 INTERF. SCALER
HERCULES INTERNAL LIP SYNC CKT
HDMI
SCART/ CINCH I/O
EPLD
LVDSRx
TUNER
NVM FLASH DDR
LCD PANEL
601 INTERFACE
SM5301 DVI TMDS
9.2
LVDSRx
9.1
ComPair NVM HP
TO AUDIO AMP
DMMI
HDMI
DVI-I
AUDIO AMPLIFIER
F_15270_007.eps 200505
Figure 9-1 Block Diagram
EN 76
9.
Circuit Descriptions, Abbreviation List, and IC Data Sheets
LC4.8L LA
The PLL tuner UV1316E/1318SD/TEDE9 delivers the IFsignal, via audio & video SAW-filters, to the Video Signal Processor and FLASH embedded TEXT/Control/Graphics Micro Controller TDA120x1 (item 7011, also called Hercules). This IC has the following functions: • Analogue Video Processing • Sound Demodulation • Audio Interfaces and switching • Volume and tone control for loudspeakers • Reflection and delay for loudspeaker channels • Micro Controller • Data Capture • Display The Hercules has one input for the internal CVBS signal and a video switch with three external CVBS inputs and a CVBS output. All CVBS inputs can be used as Y-input for Y/C signals. However, only two Y/C sources can be selected because the circuit has two chroma inputs. It is possible to add an additional CVBS(Y)/C input (CVBS/YX and CX) when the YUV interface and the RGB/YPRPB input are not needed. There are two rear analogue video inputs: AV is for SVHS in and video (CVBS) in, and CVI-1 is meant for RGB/YUV in). The rear VIDEO OUT cinch connector can be used for monitoring purposes: WYSIWYR (What you see is what you record). Depending on the model of the TV set, the Hercules delivers its RGB signals either directly to the Scaler IC or indirectly, via a Columbus chip (for 2D/3D comb filtering and spatial/temporal noise reduction, for its description: see further down in this text). The EPLD, which is present in the Pixel Plus models discussed in this manual, provides additional sharpening to the picture. For a general outline, see the table and the block diagrams below, in which the architectures of the various models are given, together with their electronic building blocks.
The Hercules, and EEPROM are supplied with 3.3 V, which is also present during STANDBY. The EEPROM, or NVM (Non Volatile Memory) is used to store the settings. The sound part is built up around the Hercules. The Source Selection, Decoding and Processing are all done by the Hercules. Power supply input are several DC voltages coming from a supply panel.
9.3
Input/Output The I/O is divided over two parts: Rear I/O and Side I/O. The rear has two AV inputs with CVBS, Y/C and YUV, a PC (VGA) input, and an HDMI input. The side has a CVBS and Y/C (SVHS) input. The selection of the external I/O's is controlled by the Hercules. AV1 / CVI-1: The input of AV1 / CVI-1 is CVBS + YUV + L/R. AV2: The input of AV2 is Y/C + CVBS + L/R. PC-VGA/CVI-2: This input is directly going to the Scaler IC. See paragraph “Video: Scaler Part”. HDMI in / PC-D: This input is directly going to the Scaler IC. See paragraph “Video: Scaler Part”.
9.4
Tuner and IF The VIF/SIF signals are decoded by the Hercules. Tuning is done via I2C.
Table 9-1 Models and picture quality 9.4.1 Model
Picture quality
42PF7312/77, /78
Pixel Plus
37PF7312/77, /78
Pixel Plus
32PF5312/77, /78
Digital Crystal Clear
PIXEL PLUS
HERCULES
DIGITAL CRYSTAL CLEAR
HERCULES
CRYSTAL CLEAR
HERCULES
CVBS Pb, Pr
CVBS Pb, Pr
R, G, B
ADC
COLUMBUS
SCALER
ADC
COLUMBUS
SCALER
Video IF Amplifier The IF-filter is integrated in a SAW (Surface Acoustic Wave) filter. One for filtering IF-video (item 1104, in some models: 1105) and one for IF-audio (item 1106). For LATAM however, one combined filter is used for filtering IF-video and audio (item 1104). The type of the SAW filter depends on the standard(s) that has(have) to be received.
EPLD
LVDS
LVDS
SCALER
LVDS F_15270_008.eps 240505
Figure 9-2 Block diagram of the internal building blocks The Genesis GM1501 Malibu Scaler IC can receive the following video input signals: SDTV (directly from Hercules or via Columbus), DVI (from an external DVI source), or PC (from external computer). After the video processing, the digital data is sent via a Low Voltage Differential Signalling bus to the LCD panel. LVDS is used to improve data speed and to reduce EMI significantly. There are two I2C lines and two interrupt and communication lines (TV_IRQ and TV_SC_COM) for the Scaler control. The Scaler communicates with the Hercules as a slave device. To avoid buffer overflow at the Scaler side, the TV_SC_COM line provides the necessary hardware flow control. To allow bidirectional communication, the Scaler can initiate a service interrupt-request to the Hercules via the TV_IRQ line.
The output of the tuner is controlled via an IF-amplifier with AGC-control. This is a voltage feedback from pin 31 of the Hercules to pin 1 of the tuner. The AGC-detector operates on top-sync and top-white level. AGC take-over point is adjusted via the Service Alignment Mode ’Tuner' - 'AGC’. If there is too much noise in the picture, then it could be that the AGC setting is wrong. The AGC-setting could also be mis-aligned if the picture deforms with perfect signal; the IF-amplifier amplifies too much.
Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.5
Video: TV Part (Diagrams B1, B2, and B3) The video processing is completely handled by the Hercules • IF demodulator. • Chrominance decoder • Sync separator. • Horizontal & vertical drive. • RGB processing. • CVBS and SVHS source select. It has also built-in features like: • CTI. • Black stretch. • Blue stretch. • White stretch. • Slow start up. • Dynamic skin tone correction etc. Further, it also incorporates sound IF traps and filters, and requires only one crystal for all systems.
9.6
Columbus
9.6.1
Introduction The Columbus is a combination of: • A 2D/3D Comb filter for both PAL and NTSC, and • A spatial/temporal noise reduction system for both color and luminance signals. The Columbus 3D Comb filter uses digitalized CVBS, U, and V (or C) signals and can be used with or without an external 16 Mbit SDRAM. Without external 16Mbit SDRAM, 3D comb filtering and temporal noise reduction are not possible. The noise reduction part of the Columbus is controlled by the FBX software using the SNERT interface. The 2D/3D Comb filter part is controlled by the Main software using the I2C bus.
9.6.2
•
•
•
•
LC4.8L LA
9.
EN 77
the burst. The part that is not in relation with the burst can become very blurred when combed by the Columbus Comb filter. Such a signal must be bypassed. Notch mode is not even an option since e.g. in double window, one part can be a PAL signal while the other part is NTSC or SECAM. In cases where a SECAM signal is presented to the Columbus Comb filter; both the luminance and UV path must be bypassed. The PAL delay line inside the Columbus cannot be used for SECAM signals so it must also be bypassed. The luminance path must have luminance at its input instead of CVBS. A chroma delay line outside Columbus must be used for SECAM signals. Reason for this: the Columbus PAL delay line halves the output of the chroma signals in case of SECAM. Y/C, YPbPr, and RGB signals do not have to be combed. So both the luminance and UV path must be bypassed. The PAL delay line will also be bypassed. In cases where the Columbus Comb filter does not receive a CVBS signal with burst at the right place according to the standard (this includes black and white signals without burst), phase correction results become unpredictable and the Comb filter must be set in bypass (= luminance path bypassed, UV path bypassed, PAL delay line bypassed) VCR signals cannot be combed and must be processed in notch mode, or bypassed.
Columbus Modes The several modes of the Columbus 3D Comb filter are: • Bypass mode. • Band-Pass-Notch mode. • 2D Comb filter modes. – Simple median. – Median. • Field Comb filter mode. • Frame Comb filter mode. Bypass Mode The 3D Comb filter can be set in bypass mode. In this mode, the CVBS, U and V signals are just bypassed to the output.
2D/3D Comb Filter Introduction The “3D Comb filter Columbus” is a combined 2D/3D Comb filter function that is part of the Columbus chip (circuit diagram B19, item 7M00). It is a comb filter for both PAL and NTSC. The 3D Comb filter is used to separate chroma and luminance components out of a CVBS signal. It is of no use when the CVBS signal is a SECAM signal (SECAM signals cannot be combed) The Columbus chip can be used with or without 16 Mbit external SDRAM (circuit diagram B10, item 7B01). When an external SDRAM is connected to the IC, the Comb filter function can work in combined 2D/3D processing (depending on the detected pixel based motion). When no external SDRAM is connected, only 2D Comb filtering is possible. The Columbus can comb the following standard signals: • PAL B, PAL G, PAL H, PAL I, PAL D, PAL K: Color standard PAL, Color carrier at 4.43 MHz, field frequency: 50 Hz • PAL M: Color standard PAL, Color carrier at 3.58 MHz, field frequency: 60 Hz • PAL N: Color standard PAL, Color carrier at 3.58 MHz, field frequency: 50 Hz • NTSC M: Color standard NTSC, Color carrier at 3.58 MHz, field frequency: 60 Hz For NTSC signals, the PAL delay line must always be bypassed. The following signals CANNOT be combed: • Double Window signals or Multi PIP. For these signals, only one part or even no part of the signal is in relation with
Band-Pass-Notch Mode This is a mode where no Comb filtering is applied. A “Band Pass Filter” is used to filter the chroma information out of the CVBS signal. A “Notch Filter” is used to subtract the sub carrier out of the CVBS in order to make a luminance signal without chroma sub carrier. In terms of cross color and cross luminance, this mode has the worst performance of all. It is only used on these signals where no comb filtering can be applied (non-standard signals and most VCR signals for example). 2D Comb Filter Modes A Comb filter does an action on a current pixel and a delayed pixel. When the delayed pixel is a line-delayed pixel, we talk about a “Spatial or 2D Comb Filter” (for NTSC the delay must be 1 line, for PAL it must be 2 lines). Spatial or 2D Comb filters show problems on vertical color transients and on single colored lines. For these situations, extra hardware is added in the Columbus chip to avoid these kinds of problems. However even with these extra measures, there are still situations where the 2D Comb filter does not perform optimally (diagonal resolution and single lines with equal luminance content). In order to restrict the working area of the 2D Comb filter to the frequencies where the sub carrier is present, a horizontal band pass filter always precedes a 2D Comb filter. When a 2D Comb filter has no extra hardware to avoid problems at vertical color transients (or this extra hardware is switched “off”), the Comb filter is called a “simple median filter”. When there is extra hardware to avoid these kinds of problems, the filter is called a “median filter”.
EN 78
9.
Circuit Descriptions, Abbreviation List, and IC Data Sheets
LC4.8L LA
on the signals used for temporal (Frame or Field) Comb filtering (called the temporal phase corrector).
Field Comb Filter Mode A Comb filter does an action on a current pixel and a delayed pixel. When the delayed pixel is a field-delayed pixel, we talk about a “Field Comb Filter”. Field Comb filters are only for PAL of commercial interest. Field Comb filters show also problems on vertical color transients and on motion. For the vertical transients, a hanging dots detector has been added, however the performance on vertical transients of the field Comb filter, even with this hanging dots detector, is worse than the performance of the 2D Comb filter. On motion, the field Comb filter performs very badly. A motion detector must detect the pixels where there is motion and on these pixels, the Comb filter must be forced back to 2D Comb filter mode. This switching back is not implemented with a hard switch, but with a motion controlled fader. When there is a lot of motion, the fader will take a lot of the 2D Comb filter output, when there is less motion, more fieldcombed signal will be taken. A field Comb filter is also called a “vertical-temporal filter” because it filters in the vertical and temporal direction.
The offset block receives the motion dependant 2D/3D Comb filtered signal as input. The black level of the luminance signal is restored and the result is output. The black level restoration is corrected continuously. However, on VCR signals, this restoration can become unstable. Therefore, on VCR signals, a fixed black level restoration value must be forced. A horizontal dynamic peaking can be done on the luminance signal. This peaking is adaptive in order not to amplify any cross luminance distortion. It detects where there could be left over sub carrier in the luminance signal and reduces the peaking over there. The detection of the left over cross luminance is different depending on the pre-filter or post-filter mode. The amount of peaking and coring can be chosen. The peaking algorithm behind it is a simplified copy of the luminance peaking of picnic. After the peaking block, the signal is output as clean luminance.
Frame Comb Filter Mode A Comb filter does an action on a current pixel and a delayed pixel. When the delay is a frame, we talk about a “Frame Comb Filter”. For NTSC we need a delay of one frame, for PAL however the delay must be two frames. Frame Comb filters have the best performance, but just like the Field Comb filter, they perform very badly on motion. A motion detector will have to detect motion and on these motion pixels, 2D Comb filtering will have to be applied. A frame Comb filter is a pure “temporal filter”. The Columbus needs an external memory connected to it, before it can do a temporal or vertical-temporal Comb filter action. When no external memory is connected, field or frame Comb filtering is impossible. Block Diagram In the next block diagram, two main parts of the Columbus 2D/ 3D Comb filter can be seen: • The upper part is what is called the luminance Comb filter. It tries to make an as clean as possible luminance signal out of the CVBS signal at the input. • The lower part receives U and V signals (sequentially) that are normally only band pass filtered in front of the 3D Comb filter. It filters all left over luminance signals out of it, in order to make an as clean as possible U and V signal.
CVBS-IN
LUMINANCE COMB FILTER
FIELD/FRAME DELAY
UV-IN
UV COMB FILTER
OFFSET
The bypass switches have the obvious purpose of bypassing the input signal, in case no Comb filtering is wanted. A PAL delay line is added in the UV path. This is done because a delay line in front of the 3D Comb filter does need an extra vertical filter action on the UV signals. This vertical filtering deteriorates the vertical transient performance for colors. The Columbus Comb filter cannot undo this. However, this reduction in performance can be omitted by putting the PAL delay line after the 3D Comb filter block. For PAL signals, the PAL delay line in front of the Columbus 3D Comb filter is bypassed and the Columbus delay line is switched “on”. In cases where the delay line in front of Columbus cannot be bypassed, the Columbus PAL delay line is bypassed. For NTSC signals, the PAL delay line is bypassed as usual. 9.6.3
The noise reduction function is a sophisticated successor of the noise reduction module from the PICNIC-chip, also known as “LIMERIC”. Besides the noise reduction part, the Columbus noise reduction module also comprises a noise estimator. This noise estimator (the LORE-noise estimator) is a new design with the ambition of more accuracy and with less control complexity than the existing noise estimators.
Y-OUT
HORIZONTAL DYN PEAKING
9.7
(EXTERNAL SDRAM)
UV-OUT
PAL DELAY LINE
E_14600_043.eps 230304
Figure 9-3 Columbus 2D/3D Comb Filter block diagram The Comb filter has two inputs. One is the CVBS where clean luminance (Y) will be extracted from; the other one is UV where a clean U and V signal will be extracted. Both input signals are digital signals. The field or frame delay is used for the Field and Frame Comb filter mode. An external memory connected to the Columbus IC provides this delay. Phase correction is done at the inputs of both the Comb filter blocks. There is a phase correction for spatial filtering (called the spatial phase corrector) and a separate phase correction
Noise Reduction and Noise Estimator
Video: Scaler Part (Diagram B7, B8 and B9) The Genesis gm1501 Scaler is a dual channel graphics and video processing IC for LCD monitors and televisions incorporating Picture in Picture, up to SXGA output resolutions. The Scaler controls the display processing in an LCD TV, e.g. like the deflection circuit in a CRT-based TV. It controls all the view modes (e.g. like "zooming" and "shifting"). Features like PC (VGA) or HD inputs, are also handled by this part.
Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.7.1
CC/Teletext Path (if present) In Pixel Plus and Digital Crystal Clear models, which have an ADC (B18) and Columbus 3D combfilter (B19), the digital input of the Scaler is used for the digital video signal (Columbus output), whereas the analogue RGB input of the Scaler is used for CC/Teletext. This means that no mixed mode (video plus CC/Teletext simultaneously) is possible. In Crystal Clear models, which do not have an ADC and Columbus, the analogue RGB input of Scaler is used for both video and CC/ Teletext (generated by the Hercules). The digital input of the Scaler is not used in Crystal Clear TV sets. See also the block diagrams at the beginning of this chapter. When faultfinding, checking the CC/Teletext path may be useful: if there is sound and CC/Teletext, but no video and user menu (blank screen), the digital path (Hercules - ADC - Columbus - Scaler) is faulty. If there is sound but no CC/Teletext, the back-end part (Scaler - LCD panel) is faulty.
9.8
9.
Hercules
AUDIO-LSL AUDIO-LSR
SIF
SIF Input
FM
SSIF Input
Tuner
AUDIO-IN5L AUDIO-IN5R
Is used on the DMMI => No SCART2/AV2 for Bolt-on
Constant Level Out *Europe only
Amplifier AV2 in *AP/USA/Latam
Side in *All region
9.7.4
The Display Output Port provides data and control signals that permit the Scaler to connect to a variety of display devices using a TTL or LVDS interface. The output interface is configurable for single or dual wide TTL/LVDS in 18, 24 or 30bit RGB pixels format. All display data and timing signals are synchronous with the DCLK output clock. The integrated LVDS transmitter is programmable to allow the data and control signals to be mapped into any sequence depending on the specified receiver format.
Monitor out * Not available
AUDIO-OUTHPL AUDIO-OUTHPR
SCART2 out *Europe only
AUDIOI-N4L AUDIO-IN4R
HEF4053 PC in
3X SPDT AUDIO-IN2L AUDIO-IN2R
HDMI
I2S
AUDIO-OUTSL AUDIO-OUTSR
SCART1 out *Europe only
DAC
P0.0/I2SDO1
P0.0/I2SDI1
106
105
Lip Sync Circuit
103
E_14490_061.eps 121104
Figure 9-4 Block diagram audio processing The audio decoding is done entirely via the Hercules. The IF output from the Tuner is fed directly to either the Video-IF or the Sound-IF input depending on the type of concept chosen. There are mainly two types of decoder in the Hercules, an analogue decoder that decodes only Mono, regardless of any standards, and a digital decoder (or DEMDEC) that can decode both Mono as well as Stereo, again regardless of any standards.
Inputs
Output
Headphone
For iTV only AUDIO-IN3L AUDIO-IN3R
SCART2 in *Europe only
The Scaler provides several key IC functions: • Scaling. • Auto-configuration/ Auto-Detection. • Various Input Ports: – Analogue RGB. – Video Graphics. • Integrated LVDS Transmitter. • On-chip Micro-controller
PC (VGA) Input The VGA input is processed by the VGA block of the Scaler. The Scaler supports pixel frequencies up to 165MHz. YpbPr format is also supported via the VGA interface and covers a resolution of 480p/560p/720p/1080i.
2x Stereo Speaker
SCART1 in *Europe only
Features
Analogue RGB The RGB input is fed to pins B2, C2 and D2 of the Scaler IC (Genesis GM1501, item 7801, see circuit diagram B8). This input consists of either the Hercules RGB output or the RGB/ YpbPr input of the VGA connector. The Scaler can switch between the two signals via the PC_HD_SEL signal and selection IC SM5301 (see circuit diagram B13).
2x Amplifier
AV1 in *AP/USA/Latam
P0.3/I2SCLK
9.7.3
EN 79
Audio Processing
PC_HDMI_AUD_SEL (From Scaler, GPIO_G07_B0)
9.7.2
LC4.8L LA
In this chassis, the analogue decoder is used in two cases: • It is used for AM Sound demodulation in the Europe SECAM LL’ transmission. • It is used for all FM demodulation in AV-Stereo sets. 9.8.1
Diversity The diversity for the Audio decoding can be broken up into two main concepts: • The Quasi Split Sound concept used in Europe and some AP sets. • The Inter Carrier concept, used in NAFTA and LATAM. The UOC-III family makes no difference anymore between QSS- and Intercarrier IF, nearly all types are softwareswitchable between the two SAW-filter constructions. Simple data settings are required for the set to determine whether it is using the Inter Carrier or the QSS concept. These settings are done via the “QSS” and “FMI” bit found in SAM mode. Due to the diversity involved, the data for the 2 bits are placed in the NVM location and it is required to write once during startup. On top of that, it can be further broken down into various systems depending on the region. The systems or region chosen, will in turn affect the type of sound standard that is/are allowed to be decoded. • For the case of Europe, the standard consists of BG/DK/I/ LL’ for a Multi-System set. There are also versions of Eastern Europe and Western Europe set and the standard for decoding will be BG/DK and I/DK respectively. FM Radio is a feature diversity for the Europe sets. The same version can have either FM Radio or not, independent of the system (e.g. sets with BG/DK/I/LL’ can have or not have FM radio). • For the case of NAFTA and LATAM, there is only one transmission standard, which is the M standard. The diversity then will be based on whether it has a dBx noise reduction or a Non-dBx (no dBx noise reduction). • For the case of AP, the standard consists of BG/DK/I/M for a Multi-System set. The diversity here will then depend on
EN 80
9.
LC4.8L LA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
the region. AP China can have a Multi-System and I/DK version. For India, it might only be BG standard.
IIC BUS1
Tuner
9.8.2
The features available in the Hercules are as follows: • Treble and Bass Control. • Surround Sound Effect that includes: – Incredible Stereo. – Incredible Mono. – 3D Sound (not for AV Stereo). – TruSurround (not for AV Stereo). – Virtual Dolby Surround, VDS422 (not for AV Stereo). – Virtual Dolby Surround, VDS423 (not for AV Stereo). – Dolby Pro-Logic (not for AV Stereo). • Bass Feature that includes: – Dynamic Ultra-Bass. – Dynamic Bass Enhancement. – BBE (not for AV Stereo). • Auto-Volume Leveler. • 5 Band Equalizer. • Loudness Control. All the features stated are available for the Full Stereo versions and limited features for the AV Stereo 9.8.3
9.8.4
127 P1.4 114 P2.3
Status1
Sound Amp
NVM
Sound_Enable
NVM_WP
111 P2.0
104 P0.2
93 NVRAM _SDA
SDA SCL
SCL 108
115 ADC0
Light Sense
92 NVRAM _SCL
72
71
194 193 187 85 (GPIO4) 88 (GPIO5)
SCALER
TV_SC_COM 81 GPIO0
P1.1 99
POWER_DOWN 90 GPIO7 97 INT0
102 P0.4
122 P2.4
128 P1.5
LAMP_ON_OFF
67 (PPWR)
PANEL_PWR_CTL
111 103 106 107 108 GPIO23 5
126 INT2
ROM_DATA0-7 6
7
98 (GPIO11/ PWM0)
ROM_ADD0-17
MUX
+3V3STBY
Standby TV_IR
EXT_MUTE
HIGH or LOW level input
POWER DOWN
Flash ROM E_14490_062.eps 160904
Figure 9-5 Micro Controller block diagram 9.9.3
Basic Specification The Micro Controller operates at the following supply voltages: • +3.3 VDC at pins 4, 88, 94, and 109. • +1.8 VDC at pins 93, 96, and 117. • I2C pull up supply: +3.3VDC.
9.9.4
Pin Configuration and Functionality The ports of the Micro Controller can be configured as follows: • A normal input port. • An input ADC port. • An output Open Drain port. • An output Push-Pull port. • An output PWM port. • Input/Output Port The following table shows the ports used for the LC04 control:
Pin
Name
Description
97
INT0/ P0.5
IR
INT0
98
P1.0/ INT1
TV_IRQ
INT2
99
P1.1/ T0
TV_SC_COM
P1.1
Hercules The System Board has two main micro-controllers on board. These are: • On-chip x86 micro-controller (OCM) from Genesis LCD TV/ Monitor Controller. • On-chip 80C51 micro-controller from Philips Semiconductor UOCIII (Hercules) series. Each micro-controller has it own I2C bus which hosts its own internal devices. The Hercules is integrated with the Video and Audio Processor. For dynamic data storage, such as SMART PICTURE and SMART SOUND settings, an external NVM IC is being used. Another feature includes an optional Teletext/Closed Caption decoder with the possibility of different page storage depending on the Hercules type number. Block Diagram The block diagram of the Micro Controller application is shown below.
HD_FILTER
BACK_LIGHT_ADJ1
RC
No Lip Sync adjustments are necessary in this model.
9.9.1
PC_HD_SEL
68 (PBIAS)
Table 9-2 Micro Controller ports overview
Control
SD_PCHD_SEL
99 (PWM1)
Keyboard
ADC3 120 123 P2.5
P50_LINE_ITV_IR_SW
+3V3STBY
PC_DET
89 (GPIO6)
77 DDC_SCL_VGA
82 GPIO1
INT1 98
83 GPIO2
78 DDC_SDA_VGA
TV_IRQ
HERCULES
1407 1406 1405
NVM_WP
SDA 109
116 ADC1
GPROBE for Debug or ComPair(Scaler)
NVM
Audio: Lip Sync
9.9
9.9.2
HREC RST Sel IF/ SDM
Audio Amplifier The audio amplifier part is very straightforward. It uses two integrated TDA8931T power amplifiers for the L and R channels; each amplifier IC is able to deliver a maximum output of 20 WRMS continuously in a 4-6 ohm speaker without needing a heatsink. The operating supply for the amplifier may range from 12 V to 32 V; in the LC04x TV set, depending on the model, supply voltages of 18 V (for the 5 W / 8 ohm version) or 24 V (for the 15 W / 4 ohm version) are used. Muting is done via the SOUND_ENABLE line connected to pins 7 of both amplifier-ICs, which comes from the Hercules.
IIC BUS 2
ComPair
Functionality
Configuration
102 P0.4/ I2SWS
EXT_MUTE
P0.4
103 P0.3/ I2SCLK
Lip Sync
I2SCLK
104 P0.2/ I2SDO2 NVM_WP
P0.2
105 P0.1/ I2SDO1 Lip Sync
I2SDO1
106 P0.0/ I2SDI/O Lip Sync
I2SDI/O
107 P1.3/ T1
PC-TV_LED
P1.3
108 P1.6/ SCL
SCL
SCL
109 P1.7/ SDA
SDA
SDA
111 P2.0/ TPWM
SOUND_ENABLE
P2.0
112 P2.1/ PWM0
(for future use)
-
113 P2.2/ PWM1
(for future use)
-
114 P2.3/ PWM2
SEL_IF
P2.3
115 P3.0/ ADC0
Light Sensor - SDM
ADC0
116 P3.1/ ADC1
STATUS_1
ADC1
119 P3.2/ ADC2
STATUS_2
ADC2
120 P3.3/ ADC3
KEYBOARD
ADC3
122 P2.4/ PWM3
STANDBY
P2.4
123 P2.5/ PWM4
(for future use)
-
126 P1.2/ INT2
(for future use)
-
127 P1.4/ RX
HERC_RESET
-
128 P1.5/ TX
POWER_DOWN
P1.5
Circuit Descriptions, Abbreviation List, and IC Data Sheets The description of each functional pin is explained below: • LED. This signal is used as an indication for the Standby, Remote and Error Indicator. Region diversity: – During protection mode, the LED blinks and the set is in standby mode. – During error conditions it blinks at a predefined rate. – After receiving a valid RC-5 or local keyboard command it flashes once. – For sets with error message indication, the LED blinks when message is active and the set is in standby mode. • SCL. This is the clock wire of the two-wire single master bidirectional I2C bus. • SDA. This is the data wire of the two-wire single master bidirectional I2C bus. • STANDBY. The Hercules generates this signal. This can enable the power supply in normal operation and disable it during Standby. It is of logic “high” (3.3 V) under normal operation and “low” (0 V) during Standby. • IR. This input pin is connected to an RC5 remote control receiver. • SEL-IF. This is an output pin to switch the Video SAW filter between M system and other systems. – 0: NTSC M (default) – 1: PAL B/G, DK, I, L • NVM_WP. The global protection line is used to enable and disable write protection to the NVM. When write to the NVM is required, pin 7 of the NVM must be pulled to logic ‘0’ first (via Write_Protect of the micro-controller pin) before a write is performed. Otherwise pin 7 of NVM must always be at logic “1” – 0: Disabled – 1: Enabled (default) • SOUND_ENABLE. This pin is used to MUTE the audio amplifier. It is configured as push pull. • STATUS_1. This signal is used to read the status of the SCART 1 input. • STATUS_2. This signal is used to read the status of the SCART 2 input. • HERC_RESET. This pin is used to switch the +1.8V supply. • POWER_DOWN. The power supply generates this signal. Logic “high” (3.3 V) under normal operation of the TV and goes “low” (0 V) when the Mains input voltage supply goes below 70 VAC. • KEYBOARD. Following are the Keyboard functions and the step values (8 bit) for it.
1080i 1080p 2CS 480i 480p ADC AFC
AGC
AM
AP or A/P AR ASD AV B/G
CBA CL CLUT COLUMBUS
ComPair
CSM CVBS
DAC DBE DFU DNR
DRAM Function
Step values (8 bit)
NAFTA Standby
0
0-6
Ch +
0.43
Exit Factory (Ch- and Vol-) 0.69
7 - 33 34 - 53
Ch -
0.93
54 - 73
Menu (Vol - and Vol +)
1.19
74 - 96
Vol -
1.49
97 - 121
DVD Eject
1.8
122 - 147
Vol +
2.12
148 - 169
• • •
TV_IRQ. This signal is the interrupt from the Scaler IC. TV_SC_COM. This signal is used for the communication with the Scaler IC. EXT_MUTE. This signal is used to reduce the Switch-off plop.
9.
EN 81
9.10 Abbreviation List
Table 9-3 Local keyboard values Voltage (VDC)
LC4.8L LA
DSP EEPROM EPG
EU EXT FBL
FM
FRC FRONT-C
1080 visible lines, interlaced 1080 visible lines, progressive scan 2 Carrier Sound (or 2 Channel Stereo) 480 visible lines, interlaced 480 visible lines, progressive scan Analogue to Digital Converter Automatic Frequency Control; Control signal used to tune and lock to the correct frequency Automatic gain control (feedback) signal to the tuner. This circuit ensures a constant output amplitude regardless of the input amplitude Amplitude Modulation; A "data encoding to a carrier" method, such that the carrier amplitude is proportional to the data value Asia Pacific Aspect Ratio: 4 by 3 or 16 by 9 Automatic Standard Detection External Audio Video Monochrome TV system. Sound carrier distance is 5.5 MHz. B= VHFband, G= UHF-band Circuit Board Assembly (also called PCB or PWB) Constant Level: audio output to connect with an external amplifier Color Look-Up Table Color LUMinance Baseband Universal Subsystem. IC performing noise reduction and 2D/3D comb filtering Computer aided rePair. A tool for diagnosing a TV through a PC controlled interface Customer Service Mode Composite Video and Blanking Signal; A single video signal that contains luminance, color, and timing information Digital to Analogue Converter Dynamic Bass Enhancement: extra low frequency amplification Directions For Use: Owner's manual Dynamic Noise Reduction / Digital Noise Reduction; Noise reduction feature of the set Dynamic RAM; dynamically refreshed RAM Digital Signal Processing Electrically Erasable and Programmable Read Only Memory Electronic Program Guide: system used by broadcasters to transmit TV guide information (= NexTView) Europe EXTernal (source), entering the set by SCART or by cinches (jacks) Fast BLanking; DC signal accompanying RGB signals. To blank the video signal when it is returning from the right side of the screen to the left side. The video level is brought down below the black video level Field Memory; A memory chip that is capable of storing one or more TV picture fields / Frequency Modulation; A technique that sends data as frequency variations of a carrier signal Frame Rate Converter Front input chrominance (SVHS)
EN 82
9.
FRONT-Y_CVBS H HA HD HP I
I2 C I2 S IC IF IR IRQ LATAM LCD LED
L/L'
LS LVDS
M/N
MOSFET MSP MUTE NC NICAM
NTSC
NVM
O/C OSD PAL
PC PCB PIP PLL
PWB RAM RC RGB
RGBHV ROM
LC4.8L LA
Circuit Descriptions, Abbreviation List, and IC Data Sheets
Front input luminance or CVBS (SVHS) H_sync to the module Horizontal Acquisition; horizontal sync pulse High Definition HeadPhone Monochrome TV system. Sound carrier distance is 6.0 MHz. VHF- and UHF-band Integrated IC bus Integrated IC Sound bus Integrated Circuit Intermediate Frequency Infra Red Interrupt ReQuest LATin AMerica Liquid Crystal Display Light Emitting Diode; A semiconductor diode that emits light when a current is passed through it Monochrome TV system. Sound carrier distance is 6.5 MHz. L' is Band I, L is all bands except for Band I LoudSpeaker Low Voltage Differential Signalling, data transmission system for high speed and low EMI communication. Monochrome TV system. Sound carrier distance is 4.5 MHz. M= 525 lines @ 60 Hz, N= 625 lines @ 50 Hz Metal Oxide Semiconductor Field Effect Transistor Multi-standard Sound Processor: ITT sound decoder MUTE Line Not Connected Near Instantaneously Companded Audio Multiplexing; This is a digital sound system, mainly used in Europe National Television Standard Committee. Color system used mainly in North America and Japan. Color carrier NTSC M/N = 3.579545 MHz, NTSC 4.43 = 4.433619 MHz (this is a VCR norm, it is not transmitted off-air) Non Volatile Memory; IC containing data such as alignment values, preset stations Open Circuit On Screen Display Phase Alternating Line. Color system used mainly in Western Europe (color carrier = 4.433619 MHz) and South America (color carrier PAL M = 3.575612 MHz and PAL N = 3.582056 MHz) Personal Computer Printed Circuit Board (or PWB) Picture In Picture Phase Locked Loop. Used, for example, in FST tuning systems. The customer can directly provide the desired frequency Printed Wiring Board (also called PCB or CBA) Random Access Memory Remote Control transmitter Red, Green, and Blue color space; The primary color signals for TV. By mixing levels of R, G, and B, all colors (Y/C) are reproduced Red, Green, Blue, Horizontal sync, and Vertical sync Read Only Memory
SAM SC S/C SCART
SCL SD SDA SDRAM SECAM
SIF SMPS SND SOPS S/PDIF
SRAM STBY SVHS SW THD TXT
P VA VL VCR VGA WD WYSIWYR
XTAL Y Y/C
YPbPr
YUV
Service Alignment Mode SandCastle: two-level pulse derived from sync signals Short Circuit 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) Serial CLock Signal on I2C bus Standard Definition Serial DAta Signal on I2C bus Synchronous DRAM 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. Color carriers= 4.406250 MHz and 4.250000 MHz Sound Intermediate Frequency Switched Mode Power Supply SouND Self Oscillating Power Supply Sony Philips Digital InterFace; This is a consumer interface used to transfer digital audio Static RAM STandBY Super Video Home System Software or Subwoofer or Switch Total Harmonic Distortion 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) Microprocessor Vertical Acquisition Variable Level out: processed audio output towards external amplifier Video Cassette Recorder Video Graphics Array; 640x480 (4:3) Watch Dog What You See Is What You Record: record selection that follows main picture and sound Quartz crystal Luminance signal Y consists of luminance signal, blanking level and sync; C consists of chroma (color) signal This is a scaled version of the YUV color space. Y= Luminance, Pb/Pr= Color difference signals B-Y and R-Y, other amplitudes w.r.t. to YUV Color space used by the NTSC and PAL video systems. Y is the luminance and U/V are the color difference signals
Circuit Descriptions, Abbreviation List, and IC Data Sheets
LC4.8L LA
9.11 IC Data Sheets This section shows the internal block diagrams and pin layouts of ICs that are drawn as "black boxes" in the electrical diagrams (with the exception of "memory" and "logic" ICs). 9.11.1 Diagram B2, Type TDA15021H (IC7217, Hercules)
Block Diagram Block diagram of the “AV-stereo” TV processor with audio DSP SSIF QSSO/AMOUT
SCART/CINCH IN/OUT
REFO
SIFIN/DVBIN
DVBO/IFVO/ FMRO DVBO/FMRO
SWITCH QSS SOUND IF AGC QSS MIXER AM DEMODULATOR
LS-OUT
I2S
L
HP-OUT L
R
AUDIO CONTROL VOLUME TREBBLE/BASS FEATURES DACs
AUDIO SELECT
SOUND PLL
ADC/DAC
DEEMPHASIS
R
AM
I/Os RDS
AGCOUT VIFIN
VISION IF/AGC/AFC PLL DEMOD. SOUND TRAP GROUP DELAY VIDEO AMP.
IFVO/SVO/ CVBSI YSYNC CVBS2/Y2
BASE-BAND
μ-PROCESSOR AND TELETEXT DECODER
DECODER
DELAY LINE
DIGITAL SIGNAL PROCESSING FEATURES
REF
YUV IN/OUT
CVBS3/Y3 C2/C3 CVBS4/Y4 C4
PAL/SECAM/NTSC
C DIGITAL 2H/4H COMB FILTER
VIDEO SWITCH VIDEO IDENT. VIDEO FILTERS
Y DELAY ADJ.
SCAVEM ON TEXT
BL R
CON.
PEAKING SCAN VELOCITY MODULATION U/V DELAY
BRI
Y
CVBSO/ PIP H/V SYNC SEP. H-OSC. + PLL 2nd LOOP H-SHIFT H-DRIVE
G
B
CR RO GO
RGB CONTROL OSD/TEXT INSERT CONTR/BRIGHTN CCC WHITE-P. ADJ.
BO BCLIN BLKIN SVM
H/V VERTICAL
RGB/YPRPB INSERT
& EAST-WEST
YUV INTERFACE
SKIN TONE U/V TINT
RGB MATRIX BLUE STRETCH BLACK STRETCH
SATURATION
GEOMETRY
GAMMA CONTROL SAT
Vo Uo Yo Yi Vi Ui
V-DRIVE
EHTO BL
G/Y
R/PR B/PB
EWD
HOUT
B/PB
SWO1 BL
R/PR G/Y (CVBSx/Yx) (Cx)
P1.5/TX 1 P1.4/RX 2 P1.2/INT2 3 VSSC3 4 VDDC3 5 P2.5/PWM4 6 P2.4/PWM3 7 VSSC1/P 8
P0.3/I2SCLK P0.4/I2SWS VSSC2 VDDC2 P1.1/T0 P1.O/INT1 INT0/P0.5
97 EHTO
99 DVBIN2/SIFIN2 98 AGCOUT
IREF GNDIF DVBIN1/SIFIN1
VIFIN1 VIFIN2 VSC
105 104 103 102 101 100
DECBG AVL/EWD
107 VDRB 106 VDRA
PH1LF GND1 SECPLL
DECDIG VP1 PH2LF
115 114 113 112 111 110 109 108
119 XTALIN 118 XTALOUT 117 VSSA1 116 VGUARD/SWIO
122 VREF_POS_LSR+HPL 121 VREF_NEG_HPL+HPR 120 VREF_POS_HPR
87 SIFAGC/DVBAGC 86 DVBO//IFVO/FMRO 85 DVBO/FMRO
11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
84 VCC8V 83 AGC2SIF 82 VP2 81 SVO/IFOUT/CVBSI 80 AUDIOIN4L 79 AUDIOIN4R 78 CVBS4/Y4 77 C4 76 AUDIOIN2L/SSIF 75 AUDIOIN2R 74 73 72 71 70 69 68 67 66 65
QFP-128 0.8 mm pitch “face down version”
CVBS2/Y2 AUDIOIN3L AUDIOIN3R CVBS3/Y3 C2/C3 AUDOUTLSL AUDOUTLSR AUDOUTHPL AUDOUTHPR CVBSO/PIP
HOUT 62 FBISO/CSY 63 SVM 64
P0.2/I2SDO2
88 PLLIF
R/PR-3 51 INSSW3 52 VOUT(SWO1) 53 UOUT(INSW-2) 54 YOUT 55 YSYNC 56 YIN(G/Y-2/CVBS/Y-X) 57 UIN (B/PB-2) 58 VIN(R/PR-2/C-X) 59 VDDcomb 60 VSScomb 61
P1.7/SDA P1.6/SCL P1.3/T1 P0.0/I2SDI1 P0.1/I2SDO1
89 GND2
9 10
VP3 47 GND3 48 B/PB-3 49 G/Y-3 50
P2.1/PWM0 P2.0/PMW VDDP(3.3V)
92 AUDOUTSR 91 DECSDEM 90 AMOUT/QSSO/AUDEEM
VDDA1(3.3V.) 41 BO 42 GO 43 RO 44 BLKIN 45 BCLIN 46
P2.3/PWM2 P2.2/PWM1
AVL/SWO/SSIF/ 96 REFIN/REFOUT 95 AUDIOIN5L 94 AUDIOIN5R 93 AUDOUTSL
GNDA 37 VREFAD 38 VREFAD_POS 39 VREFAD_NEG 40
P3.2/ADC2 DECV1V8 VDDC1(1.8) P3.1/ADC1 P3.0/ADC0
Pin configuration “stereo” and “AV-stereo” versions with Audio DSP
VDDadc(1.8) 33 VSSadc 34 VDDA2(3.3V) 35 VDDA(1.8V) 36
P3.3/ADC3
127 VSSC4 126 VDDC4 125 VDDA3(3.3V) 124 VREF_POS_LSL 123 VREF_NEG_LSL+LSR
128 VSSP2
Pin Configuration
Figure 9-6 Internal block diagram and pin configuration
E_14490_063.eps 240505
9.
EN 83
EN 84
9.
Circuit Descriptions, Abbreviation List, and IC Data Sheets
LC4.8L LA
9.11.2 Diagram B19, Type T6TU5XB (IC7M00, Columbus)
Figure 1 Package outline (top view)
A
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
WEB/ DAVB
UVA0 /Di0
UVA2 /Di2
UVA4 /Di4
UVA6 /Di6
UVA8 /Di8
SEL656
TST1
YA2
YA4
YA6
YA8
VA
HREF
SDA
A
UVA3 /Di3
UVA5 /Di5
UVA7 /Di7
YA 0 /Di9
BISTEN
YA1
YA3
YA5
YA7
WEA/ DAVA
VSS
SCL
B
VSS
VSS
VDDC
VDDC
VSS
VSS
VDDC
VDDS
VSS
SNDA
SNRST
C
VSS
SNCL
TCK
D
B
YB8
VSS
UVA1 /Di1
C
YB7
YB6
VSS
VDDS
D
YB5
YB4
VDDC
N.C.
E
YB3
YB2
VSS
VDDC
TMS
TDO
E
F
TST2
YB1
VSS
VSS
TRST
TDI
F
G
CLKASB
YB0 /Do9
VDDS
VDDS
A0ICC
RESET
G
H
CLKASA
UVB8/ Do8
TST3
VDDC
CLK EXT
CLKSEL
H
J
UVB7 /Do7
UVB6/ Do6
VSS
VSS
CLK
WEN
J
K
UVB5 /Do5
UVB4/ Do4
VDDC
VSS
CASN
RASN
K
L
UVB3 /Do3
UVB2 /Do2
VSS
VDDS
DQM
DQ16
L
M
UVB1 /Do1
UVB0 /Do0
VDDS
VSS
DQ14
DQ15
M
N
AVD
N.C.
VDDS
VSS
VSS
VDDC
VSS
VDDS
VDDC
VSS
VDDS
VSS
VSS
VDDS
DQ13
N
P
AVS
VSS
A7
A9
A2
A0
A11
DQ7
DQ6
DQ4
DQ3
DQ1
VDDS
VSS
DQ12
P
R
A4
A5
A6
A8
A3
A1
A10
DQ8
VSS
DQ5
VSS
DQ2
DQ9
DQ10
DQ11
R
1
2
3
4
5
6
7
8
9
10
11
12
13
14
COLUMBUS TOP-VIEW PPA Version 2.7
15 E_14600_059.eps 200804
Figure 9-7 Pin configuration
Circuit Descriptions, Abbreviation List, and IC Data Sheets
LC4.8L LA
9.
9.11.3 Diagram B7+B8+B9, Type GM1501 (IC7401, Genesis)
Block Diagram 2-wire Serial I/F
Parallel ROM IF/external micro
JTAG GPIO
Low Bandwidth ADC
Pulse Width Modulator
Internal ROM
Internal RAM
Clock Generation
14.318 MHz Crystal Reference
Infra-red Rx
External ROM I/F
X186 Microcontroller
Interface
TTL/ LVDS Tx
DVI-Compliant Input
Ultra-Reliable DVI Rx
DDC2Bi DVI
Analog RGB Input
Display Timing Generator
Image Capture and Measure ment
Triple ADC and PLL
Graphics Zoom Filter
Graphics Shrink Filter
DDC2Bi analog
OSD Controller
Frame Store Control
Test Pattern Generator 8/16/24 bit video (4:4:4/4:2:2/ CCIR656)
Image Capture and Measure ment
8/16 bit video 4:2:2/CCIR656
Panel Data /Control
Color Table RAMs
Motion Adapt.
Video Shrink Filter
RealColorTM
Output Blender
Video Zoom Filter
3:2/2:2 detection
DDR SDRAM I/F
Pin Configuration A
NC
ADC_3.3
ADC_1.8
ADC_1.8
ADC_DGND
RXC+
DVI_GND
RX0+
RX1+
RX2+
B
BLUE-
BLUE+
ADC_3.3
ADC_DGND
DVI_GND
RXC-
DVI_GND
RX0-
RX1-
RX2-
C
GREEN-
GREEN+
SOG
ADC_AGND
NC
DVI_3.3
DVI_GND
DVI_3.3
DVI_3.3
DVI_3.3
DVI_3.3
LBADC_IN1 LBADC_33
D
RED-
RED+
ADC_3.3 ADC_AGND
NC
DVI_1.8
DVI_GND
DVI_1.8
DVI_1.8
DVI_1.8
DVI_GND
LBADC_ LBADC_GND RETURN
E
DVI_GND LBADC_IN3 REXT
LBADC_IN2
D_GND D_GND
ADC_AGNDADC_AGND ADC_3.3 ADC_AGND NC
VDDD33_ PLL
G
VDDA33_ FPLL
VSSD33_ PLL
TCLK
XTAL
H
VDDD33_ SDDS
VSSA33_ SDDS
VDDA33_ SDDS
VSSA33_ FPLL
J
VDDD33_ DDDS
VSSA33_ DDDS
VDDA33_ DDDS
VSSD33_ SDDS
RESETn
ACS_ RSET_HD
NC
VSSD33_ DDDS
D_GND
D_GND
AVSYNC
AHSYNC
D_GND
CORE_1.8
D_GND
D_GND
F
K
VSSA33_ RPLL
VDDA33_ RPLL
CORE_1.8 CORE_1.8
L
OCM_INT2 OCM_INT1
M
OCM_UDO OCM_UDI
IR0
IR1
D_GND
D_GND
D_GND
D_GND
N
VGA_SDA VGA_SCL
DVI_SDA
DVI_SCL
D_GND
D_GND
D_GND
D_GND
OCM_CS1n OCM_CS2n MSTR_SDA MSTR_SCL
D_GND
D_GND
D_GND
D_GND
R
ROM_CSn OCM_REn OCM_WEn
D_GND
D_GND
D_GND
D_GND
T
OCMADDR OCMADDR OCMADDR OCM_CS0n 17 18 19
D_GND
CORE_1.8
D_GND
D_GND
U
OCMADDR OCMADDR OCMADDR OCMADDR 13 14 15 16
CORE_1.8 CORE_1.8
D_GND
D_GND
V
OCMADDR OCMADDR OCMADDR OCMADDR 9 10 11 12
W
OCMADDR OCMADDR OCMADDR 6 7 8
IO_3.3
Y
OCMADDR OCMADDR OCMADDR 3 4 5
IO_3.3
AA OCMADDR OCMADDR OCMADDR 0 1 2
IO_3.3
AB OCMDATA13 OCMDATA14 OCMDATA15
IO_3.3
AC OCMDATA10 OCMDATA11 OCMDATA12
IO_3.3
P
AD
EXTCLK
GPIO_G09_ B2 (DEGRN0)
IO_3.3
OCMDATA9 OCMDATA6 OCMDATA3 OCMDATA0 GPIO_G09_ B3 GPIO_G08_ B0 (DEGRN1) (DORED0)
DCLK DEN
GPIO_G07_ B2 (DERED4)
SHIELD[1] (DEGRN3)
LVDSB_3.3 LVDSB_GND
GPIO_G08_ B5 GPIO_G07_ B3 GPIO_G07_ B6 SHIELD[2] (DOBLU1) (DERED5) (DERED8) (DEGRN4)
LVDSB_3.3 LVDSB_3.3
IO_3.3
IO_3.3
AE OCMDATA8 OCMDATA5 OCMDATA2GPIO_G09_ B0 GPIO_G09_ B4 GPIO_G08_ B1 GPIO_G08_ B3 GPIO_G07_ B0 GPIO_G07_ B4 GPIO_G07_ B7 SHIELD[3] (DERED9)
(DEGRN5)
BC+ (DEGRN8)
SHIELD[4] (DEBLU2)
AF OCMDATA7 OCMDATA4 OCMDATA1GPIO_G09_ B1 GPIO_G09_ B5 GPIO_G08_ B2 GPIO_G08_ B4 GPIO_G07_ B1 GPIO_G07_ B5 SHIELD[0]
B3(DEGRN7)
BC(DEGRN9)
12
13
(DERED0)
1
2
3
(DEBLU0)
(DORED1)
(DOGRN1)
(DERED2)
(DERED6)
(DERED1)
(DEBLU1)
(DOGRN0)
(DOBLU0)
(DERED3)
(DERED7)
(DEGRN2)
B3+ (DEGRN6)
4
5
6
7
8
9
10
11
E_14490_099.eps 241204
Figure 9-8 Internal block diagram and pin configuration
EN 85
EN 86
9.
Circuit Descriptions, Abbreviation List, and IC Data Sheets
LC4.8L LA
9.11.4 Diagram B12, Type S9993CT (IC7D03, HDMI Panellink), Reserved
INT
Block Diagram
RESET#
HDCP Keys EEPROM
Mode Control
MCLKIN SCK WS SD0
DE
RX2±
Video Color Space Converter Up/Down Sampling
control signals
HSYNC VSYNC ODCK 24
Video DAC
SETR
30
Q[23:0] AnGY AnRPr AnBPb
OMPC
control signals
Q14
Q15 Q16 OVCC ODCK
OGND
Q17 Q18 Q19 GND
VCC Q20
Q21 Q22 Q23 DE
VSYNC HSYNC SCK WS SDO
SPDIF OGND MCLKIN MCLKOUT
50
49 48 47 46
45
44 43 42 41
40 39 38 37 36 35
34 33 32 31 30
29 28 27 26
Pin Configuration
Q13
51
25
N/C
Q12
52
24
PLLIN
Q11
53
23
PVCC2
Q10
54
22
PGND2
Q9
55
21
OVCC
OVCC
56
20
RSVDO
57
19
RSVDO
OGND Q8
58
18
RSVDL
Q7
59
17
VCC
Q6
60
16
GND
Q5
61
AnBPb
62
SiI 9993
15
Q4
14
DACVCCB
100-Pin TQFP
13
DACGNDB
12
AnGY
11
DACVCCG
(Top View)
10
DACGNDG
OGND
66
OVCC
67
9
RSET
Q2
68
8
COMP
Q1
69
7
AnRPr
Q0
70
6
DACVCCR
INT
71
5
DACGNDR
RESET#
72
4
N/C
RSVDL
73
3
N/C
CSCL
74
2
DACGND
CSDA
75
1
DACVCC
GND VCC
AGND RX1RX1+ AVCC AGND AVCC RX2-
OGND
PGND1 PVCC1 EXT_RES AVCC RXC-
DSDA DSCL
97 98 99 100
65
86 87 88 89 90 91
GND
76
63 64
77 78 79 80 81
Q3 VCC
RXC+ AGND RX0RX0+ AGND AVCC
RX1±
MCLKOUT
SPDIF
82 83 84 85
RX0±
PanelLink TMDS TM Digital Core
MCLK Gen
Audio Data Decode Logic Block
R_EXT
RXC±
CSCL
Aux Data Logic Block
HDCP Decryption Engine
XOR Mask
CSDA
RX2+ AGND
DSCL
I2 C Slave
Registers ---------------Configuration Logic Block
I2C Slave
92 93 94 95 96
DSDA
Figure 9-9 Internal block diagram and pin configuration
E_14620_149.eps 170305
Spare Parts List
LC4.8L LA
10.
EN 87
10. Spare Parts List 10.1 Spare Parts List Not applicable for this chassis (LFL).
Item
Coordinate
Schematic
32PFL5312/78
37PFL7312/77
42PFL7312/78
Item
Coordinate
Schematic
32PFL5312/78
37PFL7312/77
42PFL7312/78
10.2 Diversity Table SSB
1201
A6
B2
-
X
-
4213
F4
B2
-
X
-
1202
F9
B2
X
-
X
4214
F5
B2
-
X
-
2205
F3
B2
-
X
-
4215
F5
B2
-
X
-
2206
F4
B2
-
X
-
5202
B5
B2
X
-
X
2207
F4
B2
X
-
X
7202
B2
B2
-
X
-
2210
B5
B2
X
-
X
7203
B2
B2
-
X
-
2211
B5
B2
X
-
X
7204
A3
B2
-
X
-
2214
B5
B2
X
-
X
7205
A4
B2
-
X
-
2216
B6
B2
X
-
X
7208
D1
B2
-
X
-
2219
A6
B2
-
X
-
7209
D1
B2
-
X
-
2220
B6
B2
-
X
-
7210
C2
B2
-
X
-
2224
B8
B2
-
X
-
7211
E3
B2
-
X
-
2237
D4
B2
X
-
X
7216
F3
B2
-
X
-
2238
D4
B2
X
-
X
7218
F10
B2
-
X
-
2239
D4
B2
X
-
X
7219
E1
B2
-
X
-
2240
D4
B2
-
X
-
2449
E4
B3
X
-
X
2244
E5
B2
-
X
-
3431
A3
B3
X
-
X
2245
E5
B2
-
X
-
3451
A5
B3
X
-
X
2246
E5
B2
-
X
-
3453
B6
B3
X
-
X
2248
F6
B2
-
X
-
3454
B7
B3
X
-
X
2249
F6
B2
-
X
-
3455
C6
B3
X
-
X
2260
F7
B2
-
X
-
3456
C7
B3
X
-
X
2275
F9
B2
-
X
-
3458
D2
B3
X
-
X
2277
E9
B2
X
-
X
3459
D4
B3
X
-
X
2280
A2
B2
X
-
X
3461
E2
B3
X
-
X
2281
A2
B2
X
-
X
3462
E4
B3
X
-
X
2285
F5
B2
X
-
X
4440
D2
B3
X
-
X
2287
G6
B2
-
X
-
4441
E2
B3
X
-
X
3207
B5
B2
X
-
X
6430
A3
B3
X
-
X
3208
B5
B2
X
-
X
6431
B3
B3
X
-
X
3209
B5
B2
X
-
X
7430
B3
B3
X
-
X
3210
B5
B2
X
-
X
2603
A5
B5
X
-
X
3211
B5
B2
X
-
X
2604
A6
B5
X
-
X
3212
A5
B2
X
-
X
2605
B6
B5
X
-
X
3213
A6
B2
X
-
X
2608
B5
B5
X
-
X
3214
B6
B2
X
-
X
2609
B6
B5
X
-
X
3215
A6
B2
X
-
X
2610
B6
B5
X
-
X
3228
C2
B2
-
X
-
2611
B6
B5
X
-
X
3229
B8
B2
X
-
X
2612
E9
B5
-
-
X
3235
A9
B2
X
-
X
2613
C8
B5
X
-
-
3244
C2
B2
-
X
-
2614
B8
B5
X
-
X
3250
C1
B2
-
X
-
2615
A8
B5
X
-
X
3251
C3
B2
-
X
-
2616
A4
B5
X
-
-
3252
D3
B2
-
X
-
2617
B4
B5
X
-
-
3253
D3
B2
-
X
-
2618
B8
B5
X
-
X
3254
E3
B2
-
X
-
2619
F5
B5
X
-
-
3255
D1
B2
-
X
-
3604
A6
B5
X
-
X
3256
D2
B2
-
X
-
3605
A7
B5
X
-
X
3257
D2
B2
-
X
-
3609
B6
B5
X
-
X
3258
E1
B2
-
X
-
3610
B6
B5
X
-
X
3259
E2
B2
-
X
-
3611
B6
B5
X
-
X
3260
E2
B2
-
X
-
3612
B7
B5
X
-
X
3270
F6
B2
-
X
-
3615
C7
B5
X
-
-
3271
F6
B2
-
X
-
3616
E9
B5
-
-
X
3278
E10
B2
-
X
-
3617
C9
B5
-
-
X
3279
F10
B2
-
X
-
3618
C8
B5
X
-
-
3282
F2
B2
-
X
-
3619
D8
B5
-
-
X
3283
B7
B2
-
X
-
3620
E8
B5
-
-
X
3284
B7
B2
-
X
-
3623
F5
B5
X
-
-
3285
G6
B2
X
-
X
3625
C6
B5
X
-
-
3287
B7
B2
-
X
-
3627
D2
B5
X
-
-
3288
B7
B2
-
X
-
3628
D5
B5
-
-
X
3289
C2
B2
-
X
-
3629
E5
B5
-
-
X
4206
E2
B2
X
-
X
3630
E5
B5
X
-
X
4208
D2
B2
-
X
-
3631
F5
B5
X
-
X
4209
D2
B2
-
X
-
3632
A9
B5
-
-
X
Schematic
42PFL7312/78
Coordinate
37PFL7312/77
Item
32PFL5312/78
42PFL7312/78
3633
B9
B5
-
-
X
3761
G8
B6
-
-
X
4601
D2
B5
-
-
X
4710
E5
B6
X
-
X
4602
C8
B5
X
-
-
5700
B10
B6
X
-
X
4603
F8
B5
X
-
-
5704
B3
B6
-
-
X
4606
C7
B5
-
-
X
5709
C1
B6
-
-
X
4609
A9
B5
X
-
-
5712
D3
B6
-
-
X
4610
B9
B5
X
-
-
5713
D4
B6
-
-
X
4611
B4
B5
X
-
-
5730
E1
B6
X
-
X
4612
B4
B5
X
-
-
5733
F4
B6
X
-
X
4613
D2
B5
X
-
-
5735
F4
B6
X
-
X
4614
F8
B5
-
-
X
5737
F4
B6
X
-
X
4615
F8
B5
-
-
X
5738
G1
B6
X
-
X
4616
C4
B5
X
-
-
5752
E7
B6
X
-
X
4617
C5
B5
-
-
X
5753
E10
B6
X
-
X
4618
A4
B5
-
-
X
5754
E10
B6
X
-
X
4619
B4
B5
-
-
X
5756
A8
B6
X
-
X
4620
E5
B5
X
-
-
5757
B9
B6
X
-
X
4621
E5
B5
-
-
X
6701
G7
B6
-
-
X
6601
E4
B5
X
-
X
6708
C1
B6
-
-
X
7603
E8
B5
-
-
X
6709
C2
B6
-
-
X
7604
D8
B5
-
-
X
6712
D3
B6
-
-
X
7605
E4
B5
X
-
X
6733
F4
B6
X
-
X
7607
C7
B5
X
-
-
6735
E5
B6
X
-
X
2701
B10
B6
X
-
X
6736
E6
B6
X
-
X
2704
B2
B6
X
-
X
6740
G1
B6
-
-
X
2706
B2
B6
-
-
X
6751
E10
B6
X
-
X
2708
C2
B6
-
-
X
7708
B3
B6
-
-
X
2709
C2
B6
-
-
X
7710
C2
B6
-
-
X
2710
D1
B6
-
-
X
7730
E3
B6
X
-
X
2711
D1
B6
-
-
X
7735
F4
B6
X
-
X
2713
D4
B6
-
-
X
7738
G1
B6
X
-
X
2714
D3
B6
-
-
X
7741
G2
B6
-
-
X
2715
D3
B6
-
-
X
7742
G3
B6
-
-
X
2716
D5
B6
X
-
X
7752
D8
B6
X
-
X
Item
37PFL7312/77
Spare Parts List
32PFL5312/78
LC4.8L LA
Schematic
10.
Coordinate
EN 88
2730
F1
B6
X
-
X
7754
B8
B6
X
-
X
2731
G4
B6
X
-
X
7755
B7
B6
X
-
X
2733
F2
B6
X
-
X
7756
G7
B6
X
-
X
2734
F2
B6
X
-
X
7758
F9
B6
X
-
X
2735
F5
B6
X
-
X
1801
B12
B7
X
-
X
2736
E5
B6
X
-
X
2800
A1
B7
X
-
X
2737
G5
B6
X
-
X
2801
A1
B7
X
-
X
2738
G1
B6
X
-
X
2802
A1
B7
X
-
X
2739
G2
B6
X
-
X
2803
A1
B7
X
-
X
2741
G2
B6
-
-
X
2804
A2
B7
X
-
X
2750
F8
B6
X
-
X
2805
A2
B7
X
-
X
2751
B8
B6
X
-
X
2806
A2
B7
X
-
X
2752
B9
B6
X
-
X
2807
A2
B7
X
-
X
2753
E7
B6
X
-
X
2808
A2
B7
X
-
X
2755
F8
B6
X
-
X
2809
A3
B7
X
-
X
2756
E9
B6
X
-
X
2810
A3
B7
X
-
X
2757
F10
B6
X
-
X
2811
A3
B7
X
-
X
2758
F10
B6
X
-
X
2812
A3
B7
X
-
X
2760
C8
B6
X
-
X
2813
B2
B7
X
-
X
2761
G8
B6
-
-
X
2814
B3
B7
X
-
X
2762
F8
B6
-
-
X
2815
A9
B7
X
-
X
3708
C1
B6
-
-
X
2816
A9
B7
X
-
X
3709
C2
B6
-
-
X
2817
A10
B7
X
-
X
3712
D4
B6
-
-
X
2818
A10
B7
X
-
X
3713
D4
B6
-
-
X
2819
A10
B7
X
-
X
3716
D4
B6
-
-
X
2820
A12
B7
X
-
X
3732
F3
B6
X
-
X
2821
A12
B7
X
-
X
3733
G3
B6
X
-
X
2822
A12
B7
X
-
X
3734
D10
B6
X
-
X
2823
A10
B7
X
-
X
3735
F4
B6
X
-
X
2824
A12
B7
X
-
X
3736
F2
B6
X
-
X
3800
B3
B7
X
-
X
3740
G1
B6
-
-
X
3814
D6
B7
X
-
X
3741
G1
B6
-
-
X
3815
D6
B7
X
-
X
3742
G2
B6
-
-
X
3816
D6
B7
X
-
X
3743
G3
B6
-
-
X
3817
D6
B7
X
-
X
3750
F8
B6
X
-
X
3818
E6
B7
X
-
X
3751
E7
B6
X
-
X
3820
F1
B7
X
-
X
3752
E7
B6
X
-
X
3822
G5
B7
X
-
X
3753
E7
B6
X
-
X
3824
B12
B7
X
-
X
3754
E8
B6
X
-
X
3827
F13
B7
X
-
X
3755
B8
B6
X
-
X
3828
F13
B7
X
-
X
3758
B7
B6
X
-
X
3829
F13
B7
X
-
X
3759
F7
B6
X
-
X
3831
I9
B7
X
-
X
3760
B8
B6
X
-
X
3832
I9
B7
X
-
X
Coordinate
Schematic
32PFL5312/78
37PFL7312/77
42PFL7312/78
I9
B7
X
-
X
5904
B1
B8
X
-
X
G13
B7
X
-
X
5905
C1
B8
X
-
X
3835
G13
B7
X
-
X
5906
C1
B8
X
-
X
3836
G13
B7
X
-
X
5907
C1
B8
X
-
X
3837
G14
B7
X
-
X
5908
C2
B8
X
-
X
3838
G14
B7
X
-
X
5909
E2
B8
X
-
X
3839
G3
B7
X
-
X
5910
E2
B8
X
-
X
3840
I3
B7
X
-
X
5911
E2
B8
X
-
X
3841
H14
B7
X
-
X
7900
C1
B8
X
-
X
4801
H5
B7
X
-
X
7901
E1
B8
X
-
X
7801
A11
B7
X
-
X
2A03
C7
B9
-
-
X
2900
D1
B8
X
-
X
2A12
F6
B9
-
-
X
2901
D1
B8
X
-
X
2A13
E8
B9
-
-
X
2902
D2
B8
X
-
X
3A02
C5
B9
X
-
X
2903
E1
B8
X
-
X
3A06
C7
B9
X
-
X
2904
E1
B8
X
-
X
3A10
F6
B9
-
-
X
2905
A3
B8
X
-
X
3A11
E7
B9
-
-
X
2906
A3
B8
X
-
X
3A13
E8
B9
-
-
X
2907
A4
B8
X
-
X
3A14
E9
B9
-
-
X
2908
A4
B8
X
-
X
4A03
D6
B9
X
-
X
2909
A4
B8
X
-
X
4A05
F6
B9
X
-
-
2910
A4
B8
X
-
X
4A06
F8
B9
X
-
-
2911
A4
B8
X
-
X
7A02
F6
B9
-
-
X
2912
A5
B8
X
-
X
7A03
E8
B9
-
-
X
2913
A5
B8
X
-
X
3C08
C5
B11
X
-
X
2914
A5
B8
X
-
X
3C09
C5
B11
X
-
X
2915
A5
B8
X
-
X
3C10
D5
B11
X
-
X
2916
A5
B8
X
-
X
3C11
B6
B11
-
X
-
2917
A6
B8
X
-
X
3C12
B6
B11
-
X
-
2918
A6
B8
X
-
X
3C13
B6
B11
-
X
-
2919
A7
B8
X
-
X
3D11
G4
B12
X
-
X
2920
A7
B8
X
-
X
3D12
G4
B12
X
-
X
2921
A7
B8
X
-
X
3D15
C11
B12
X
-
X
2922
A7
B8
X
-
X
3D16
D11
B12
X
-
X
2923
A7
B8
X
-
X
3D20
E12
B12
X
-
X
2924
A8
B8
X
-
X
5E00
B4
B13
X
-
X
2925
A8
B8
X
-
X
5E01
B8
B13
X
-
X
2926
A8
B8
X
-
X
6E01
F3
B13
X
-
X
2927
A8
B8
X
-
X
5E02
A10
B13
X
-
X
2928
A8
B8
X
-
X
4E03
B6
B13
-
X
-
2929
A9
B8
X
-
X
5E03
E3
B13
X
-
X
2930
C4
B8
X
-
X
6E03
F3
B13
X
-
X
2931
C4
B8
X
-
X
7E03
E3
B13
X
-
X
2932
C5
B8
X
-
X
2E05
A7
B13
-
X
-
2933
C5
B8
X
-
X
2E06
A7
B13
-
X
-
2934
C6
B8
X
-
X
2E07
C7
B13
X
-
X
2935
C7
B8
X
-
X
2E10
C7
B13
X
-
X
2936
C7
B8
X
-
X
2E12
C7
B13
X
-
X
2937
C7
B8
X
-
X
2E13
D7
B13
X
-
X
2938
C7
B8
X
-
X
3E13
A6
B13
-
X
-
2939
C7
B8
X
-
X
3E14
A6
B13
-
X
-
2940
B9
B8
X
-
X
2E15
A10
B13
X
-
X
2941
B9
B8
X
-
X
3E15
A6
B13
-
X
-
2942
C9
B8
X
-
X
2E16
A8
B13
X
-
X
2945
D10
B8
X
-
X
3E16
B6
B13
-
X
-
2946
D10
B8
X
-
X
3E17
B6
B13
-
X
-
2947
D10
B8
X
-
X
2E18
B8
B13
X
-
X
2948
D10
B8
X
-
X
3E18
B7
B13
-
X
-
2949
D10
B8
X
-
X
2E20
B8
B13
X
-
X
2950
E10
B8
X
-
X
2E22
A9
B13
X
-
X
2951
E10
B8
X
-
X
3E23
D7
B13
X
-
X
2952
E10
B8
X
-
X
2E24
C10
B13
X
-
X
2953
F8
B8
X
-
X
3E25
C10
B13
X
-
X
2954
F8
B8
X
-
X
3E27
C10
B13
X
-
X
2955
F9
B8
X
-
X
3E35
E5
B13
X
-
X
2956
F10
B8
X
-
X
2E37
B9
B13
-
X
-
2957
F10
B8
X
-
X
2E38
B9
B13
-
X
-
2958
F10
B8
X
-
X
2E39
B9
B13
-
X
-
2959
F10
B8
X
-
X
2E40
C10
B13
-
X
X
3900
F4
B8
X
-
X
3E49
F6
B13
X
-
X
3901
F7
B8
X
-
X
3E51
B3
B13
X
-
X
3902
F7
B8
X
-
X
3E52
B3
B13
X
-
X
3903
F7
B8
X
-
X
1J00
B1
B16
-
X
X X
Schematic
Item
EN 89
42PFL7312/78
10.
3834
Coordinate
37PFL7312/77
LC4.8L LA
3833
Item
32PFL5312/78
Spare Parts List
3904
F7
B8
X
-
X
1J01
C1
B16
-
X
5900
B1
B8
X
-
X
1J02
D1
B16
X
X
-
5901
B1
B8
X
-
X
1J03
F1
B16
X
-
-
5902
B1
B8
X
-
X
1J05
C8
B16
-
X
-
5903
B1
B8
X
-
X
1J06
E8
B16
-
X
-
32PFL5312/78
37PFL7312/77
42PFL7312/78
Item
Coordinate
Schematic
32PFL5312/78
37PFL7312/77
42PFL7312/78
Spare Parts List
Schematic
LC4.8L LA
Coordinate
10.
Item
EN 90
1J07
C2
B16
-
X
X
5L04
C3
B18
X
-
X
1J08
C2
B16
-
-
X
7L08
C3
B18
-
X
-
2J03
F2
B16
X
-
X
2M00
F2
B19
X
-
X
2J04
D7
B16
-
X
-
2M01
F2
B19
X
-
X
2J05
D7
B16
-
X
-
2M04
F2
B19
X
-
X
2J08
D7
B16
-
X
-
2M05
F2
B19
X
-
X
2J10
E7
B16
-
X
-
2M06
F2
B19
X
-
X
2J11
E7
B16
-
X
-
2M09
F3
B19
X
-
X
2J12
E7
B16
-
X
-
2M10
F3
B19
X
-
X
2J13
E7
B16
-
X
-
2M11
F4
B19
X
-
X
2J14
E7
B16
-
X
-
2M12
F4
B19
X
-
X
2J15
E7
B16
-
X
-
2M13
F5
B19
X
-
X
2J16
C2
B16
-
X
-
2M14
F5
B19
X
-
X
2J20
C3
B16
-
X
-
2M15
F5
B19
X
-
X
2J23
F3
B16
X
-
X
2M16
F6
B19
X
-
X
2J27
C7
B16
X
-
X
2M17
F6
B19
X
-
X
2J28
C7
B16
X
-
X
2M18
F6
B19
X
-
X
2J31
D2
B16
-
X
X
2M19
F6
B19
X
-
X
2J33
C3
B16
-
X
-
2M20
F6
B19
X
-
X
2J34
C3
B16
-
X
-
2M33
F2
B19
-
X
-
2J36
C7
B16
X
X
-
2M60
F9
B19
-
X
-
3J06
B3
B16
-
X
-
2M61
F10
B19
-
X
-
3J07
F3
B16
-
X
X
2M62
G9
B19
-
X
-
4J01
D2
B16
-
X
X
2M68
B2
B19
X
-
X
4J02
C2
B16
-
X
-
3M00
B4
B19
-
X
-
5J01
B7
B16
X
-
X
3M05
B1
B19
-
X
-
5J02
B7
B16
X
-
X
3M06
C7
B19
X
-
X
5J04
C2
B16
-
-
X
3M07
D7
B19
X
-
X
5J05
B3
B16
-
X
-
3M08
D7
B19
X
-
X
1K00
A9
B17
X
-
X
3M10
F2
B19
-
X
-
1K01
E1
B17
X
-
-
3M12
H2
B19
-
X
-
1K03
A1
B17
-
X
-
3M13
H3
B19
X
-
X
1K04
E1
B17
-
X
X
3M14
G6
B19
X
-
X
2K11
E4
B17
X
-
X
3M28
C7
B19
-
X
-
2K15
F3
B17
X
X
-
3M29
D7
B19
-
X
-
3K08
F3
B17
X
X
-
3M50
G2
B19
X
-
X
4K01
A8
B17
-
X
-
3M51
G2
B19
X
-
X
4K02
F2
B17
-
X
X
3M54
G1
B19
X
-
X
4K03
A8
B17
-
X
-
3M55
G1
B19
X
-
X
4K05
A8
B17
X
-
X
3M56
G2
B19
X
-
X
4K06
B2
B17
-
X
-
3M59
G1
B19
X
-
X
5K00
A7
B17
X
-
X
3M78
F6
B19
X
-
X
5K01
E3
B17
X
-
-
3M79
A4
B19
X
-
X
6K01
B8
B17
-
X
X
3M87
A5
B19
X
-
X
2L04
A7
B18
X
-
X
3M89
C4
B19
X
-
X
2L05
A8
B18
X
-
X
3M90
E4
B19
X
-
X
2L15
D4
B18
-
X
-
4M00
B4
B19
X
-
X
2L18
E4
B18
-
X
-
4M01
B4
B19
X
-
X
2L20
D4
B18
X
-
X
4M02
B4
B19
X
-
X
2L21
D4
B18
X
-
X
4M03
B4
B19
X
-
X
2L24
B5
B18
X
-
X
4M04
F2
B19
-
X
-
2L27
A8
B18
X
-
X
4M05
F2
B19
X
-
X
2L34
B8
B18
X
-
X
4M08
G6
B19
X
-
X
2L35
B2
B18
-
X
-
4M16
G2
B19
X
-
X
2L38
C3
B18
-
X
-
4M17
F2
B19
X
-
X
3L01
B2
B18
-
X
-
5M00
E8
B19
X
-
X
3L03
B2
B18
-
X
-
7M14
E9
B19
-
X
-
3L07
C2
B18
-
X
-
7M15
F9
B19
-
X
-
3L08
C3
B18
-
X
-
7M17
A4
B19
-
X
-
3L09
C2
B18
-
X
-
1N05
C5
B20
-
-
X
3L12
E1
B18
X
-
X
2N01
A1
B20
-
-
X
3L16
E2
B18
X
-
X
2N02
C1
B20
-
-
X
3L19
F3
B18
X
-
X
2N03
C1
B20
-
-
X
3L20
F3
B18
X
-
X
2N04
C2
B20
-
-
X
3L21
C4
B18
X
-
X
2N05
D3
B20
-
X
X
3L22
D4
B18
X
-
X
2N06
D3
B20
-
X
X
3L23
D4
B18
-
X
-
2N07
D4
B20
-
X
X
3L25
C7
B18
X
-
X
2N08
D4
B20
-
X
X
3L27
D7
B18
X
-
X
2N09
D4
B20
-
-
X
3L37
E3
B18
X
-
X
2N10
C5
B20
-
X
X
3L39
C4
B18
-
X
-
2N11
B6
B20
-
X
X
4L00
D3
B18
-
X
-
2N12
B6
B20
-
-
X
4L03
C1
B18
-
X
-
2N13
B6
B20
-
-
X
4L04
B3
B18
-
X
-
2N14
B7
B20
-
X
X
4L05
B3
B18
X
-
X
2N15
B8
B20
-
X
X
5L00
B4
B18
X
-
X
2N16
D10
B20
-
-
X
5L01
A5
B18
X
-
X
2N20
F11
B20
-
X
-
5L03
C3
B18
X
-
X
3N01
A2
B20
-
-
X
Spare Parts List
Schematic
32PFL5312/78
37PFL7312/77
42PFL7312/78
Item
Coordinate
Schematic
32PFL5312/78
37PFL7312/77
42PFL7312/78
EN 91
Coordinate
10.
Item
LC4.8L LA
3N02
A2
B20
-
-
X
1P01
D6
B21
X
-
X
3N03
A2
B20
-
-
X
1P02
E6
B21
X
-
X
3N04
A2
B20
-
-
X
1P06
A10
B21
X
X
-
3N05
A3
B20
-
-
X
1P07
D10
B21
-
X
X
3N06
A3
B20
-
X
X
1P08
D10
B21
-
X
-
3N07
C1
B20
-
-
X
2P01
A2
B21
-
X
X
3N08
C2
B20
-
-
X
2P02
A2
B21
-
-
X
3N09
B3
B20
-
X
X
2P03
A2
B21
-
-
X
3N10
C1
B20
-
X
X
2P04
A2
B21
-
-
X
3N11
C4
B20
-
X
X
2P05
A2
B21
-
-
X
3N12
A4
B20
-
X
X
2P06
A3
B21
-
X
X
3N13
A5
B20
-
X
X
2P07
A3
B21
-
-
X
3N14
A5
B20
-
X
X
2P08
A3
B21
-
-
X
3N15
A6
B20
-
X
X
2P09
A3
B21
-
-
X
3N16
A6
B20
-
-
X
2P10
A3
B21
-
-
X
3N17
B6
B20
-
-
X
2P11
A3
B21
-
-
X
3N18
B6
B20
-
X
X
2P12
A4
B21
-
X
X X
3N19
B5
B20
-
X
X
2P13
A4
B21
-
X
3N20
C5
B20
-
X
X
2P14
A4
B21
-
-
X
3N21
D2
B20
-
X
X
2P15
B1
B21
-
X
X
3N22
E2
B20
-
X
X
2P16
B1
B21
-
X
X
3N23
E2
B20
-
X
X
2P17
B1
B21
-
X
X
3N24
F2
B20
-
X
X
2P18
B2
B21
-
-
X
3N25
F2
B20
-
X
X
2P19
B2
B21
-
X
X
3N26
D3
B20
-
X
X
2P20
B2
B21
-
X
X
3N27
D6
B20
-
-
X
2P21
B2
B21
-
-
X
3N28
F8
B20
-
X
X
2P22
C2
B21
-
-
X
3N29
D10
B20
-
-
X
2P23
C2
B21
-
X
X
3N30
E10
B20
-
-
X
2P24
C2
B21
-
X
X
3N31
E10
B20
-
-
X
2P25
C2
B21
-
X
X
3N32
E10
B20
-
-
X
2P26
C2
B21
-
-
X
3N33
E10
B20
-
-
X
2P27
C3
B21
-
-
X
3N34
E10
B20
-
-
X
2P28
C3
B21
-
-
X
3N35
E10
B20
-
-
X
2P29
C3
B21
-
-
X
3N36
E10
B20
-
X
-
2P30
C3
B21
-
X
X
3N37
E10
B20
-
X
-
2P31
C4
B21
-
X
X
3N39
E10
B20
-
X
-
2P32
C4
B21
-
X
X
3N40
F10
B20
-
X
-
2P33
C4
B21
-
X
X
3N41
F10
B20
-
X
-
2P34
C5
B21
-
X
X
3N42
F10
B20
-
X
-
2P35
C6
B21
-
X
X
3N43
F10
B20
-
X
-
2P46
F8
B21
-
X
-
3N44
F10
B20
-
X
-
3P01
D4
B21
-
X
X
3N45
F10
B20
-
X
-
3P03
D4
B21
-
X
X
3N46
D9
B20
-
X
X
3P04
D8
B21
-
X
X
3N47
D9
B20
-
X
X
3P05
D8
B21
-
X
X
4N01
D1
B20
X
-
-
3P07
F8
B21
-
X
-
4N02
D1
B20
X
-
-
4P01
E9
B21
-
X
-
4N03
D1
B20
X
-
-
4P02
E9
B21
-
X
-
4N04
D1
B20
X
-
-
4P04
E9
B21
-
X
-
4N05
D1
B20
X
-
-
4P05
E9
B21
-
X
-
4N06
D1
B20
X
X
-
4P06
E9
B21
-
X
-
4N07
D1
B20
X
X
-
4P07
E9
B21
-
X
-
4N08
D1
B20
X
-
-
4P09
F8
B21
-
X
-
4N09
D2
B20
X
X
-
4P10
D8
B21
-
X
-
4N10
D2
B20
X
X
-
4P11
E10
B21
-
X
-
4N11
D2
B20
X
X
-
4P12
F9
B21
-
X
-
4N12
D2
B20
X
-
-
5P01
A2
B21
-
X
X
4N13
D2
B20
X
-
-
5P02
B2
B21
-
X
X
4N14
D2
B20
X
-
-
5P03
B2
B21
-
X
X
4N15
D2
B20
X
-
-
5P04
C5
B21
-
X
X
4N16
D2
B20
X
-
-
5P05
C5
B21
-
X
X
4N17
D2
B20
X
-
-
5P06
C6
B21
-
X
X
4N18
D2
B20
X
-
-
7P01
A1
B21
-
X
X
4N19
D2
B20
X
-
-
7P02
D6
B21
-
X
X
4N20
D2
B20
X
-
-
7P03
F9
B21
-
X
-
4N21
D8
B20
-
X
X
2Q01
A4
B22
-
X
-
4N22
D8
B20
-
-
X
2Q06
B4
B22
-
X
-
5N01
A7
B20
-
-
X
2Q11
B4
B22
-
X
-
5N02
C3
B20
-
-
X
2Q21
C5
B22
X
-
X
5N03
C4
B20
-
-
X
2Q30
E3
B22
X
-
X
5N04
C4
B20
-
-
X
2Q31
E3
B22
X
-
X
5N05
C5
B20
-
-
X
3Q06
B5
B22
X
-
X
6N01
F8
B20
-
-
X
3Q33
E3
B22
X
-
X
7N01
A2
B20
-
-
X
3Q41
A5
B22
-
X
-
7N02
A4
B20
-
-
X
5Q11
B5
B22
X
-
X
7N03
C2
B20
-
-
X
1R01
G14
B23
-
X
-
7N04
D4
B20
-
-
X
1R06
E1
B23
X
-
X
4000
D8
B21
-
X
-
2R00
F3
B23
X
-
X
-
X
6R63
G2
B23
X
-
X
-
X
-
6R64
F2
B23
X
-
X
2R15
J8
B23
-
X
-
6R65
I2
B23
X
-
X
2R33
H3
B23
-
X
-
6R66
J2
B23
X
-
X
2R42
H3
B23
-
X
-
6R67
J2
B23
X
-
X
2R46
I2
B23
-
X
-
6R68
J2
B23
X
-
X
2R47
I2
B23
-
X
-
7R12
E3
B23
X
-
X
2R60
A10
B23
-
X
-
7R57
I10
B23
X
-
X
2R61
A11
B23
-
X
-
B10
B23
-
X
-
C10
B23
-
X
-
2R64
B12
B23
-
X
-
2R65
B10
B23
-
X
-
2R66
B10
B23
-
X
-
2R68
D10
B23
-
X
-
2R69
D10
B23
-
X
-
2R70
E9
B23
-
X
-
2R71
E9
B23
-
X
-
2R72
F11
B23
-
X
-
2R73
E12
B23
-
X
-
2R74
E12
B23
-
X
-
2R75
E12
B23
-
X
-
2R78
I13
B23
-
X
-
2R79
G12
B23
-
X
-
2R80
I13
B23
-
X
-
2R83
A3
B23
-
X
-
2R84
A3
B23
-
X
-
3R06
D2
B23
-
X
-
3R07
D2
B23
-
X
-
3R08
G8
B23
-
X
-
3R09
H9
B23
-
X
-
3R10
I9
B23
-
X
-
3R11
I9
B23
-
X
-
3R14
E3
B23
-
X
-
3R15
E3
B23
-
X
-
3R18
J9
B23
-
X
-
3R19
D3
B23
-
X
-
3R41
H2
B23
-
X
-
3R47
I2
B23
-
X
-
3R49
H3
B23
-
X
-
3R50
I2
B23
-
X
-
3R56
J3
B23
X
-
X
3R60
B9
B23
-
X
-
3R61
B9
B23
-
X
-
3R62
C9
B23
-
X
-
3R63
C9
B23
-
X
-
3R64
C9
B23
-
X
-
3R65
B10
B23
-
X
-
3R66
A12
B23
-
X
-
3R67
B12
B23
-
X
-
3R68
D9
B23
-
X
-
3R69
D10
B23
-
X
-
3R71
D11
B23
-
X
-
3R72
D12
B23
-
X
-
3R76
E9
B23
-
X
-
3R78
F10
B23
-
X
-
3R81
E12
B23
-
X
-
3R85
F12
B23
-
X
-
3R87
A3
B23
X
-
X
3R91
B13
B23
-
X
-
3R92
A2
B23
X
-
X
3R93
A2
B23
X
-
X
3R95
I13
B23
-
X
-
3R96
I8
B23
X
-
X
3R98
J8
B23
X
-
X
4R12
E5
B23
X
-
X
4R13
G8
B23
-
X
-
4R14
H9
B23
-
X
-
4R42
H2
B23
X
-
X
4R62
C11
B23
X
-
X
4R63
C11
B23
X
-
X
4R64
C11
B23
X
-
X
4R68
E8
B23
X
-
X
4R69
F10
B23
X
-
X
4R70
F10
B23
X
-
X
5R57
H10
B23
X
-
X
6R61
F1
B23
X
-
X
6R62
F2
B23
X
-
X
42PFL7312/78
X
B23
2R63
37PFL7312/77
Coordinate
B23
D2
2R62
32PFL5312/78
Item
F4
2R13
Schematic
42PFL7312/78
2R01
Item
37PFL7312/77
Spare Parts List
32PFL5312/78
LC4.8L LA
Schematic
10.
Coordinate
EN 92
Revision List
11. Revision List Manual xxxx xxx xxxx.0 First release. Model numbers described in this manual are: • 32PFL5312/78 (867000026424) • 37PFL7312/77 (867000030401) • 42PFL7312/78 (867000026423)
LC4.8L LA
11.
EN 93