Colour Television Chassis RAM1 - … Dali 3122 785 18930 32PFL3605/93 Dali 3122 785 18930...
Transcript of Colour Television Chassis RAM1 - … Dali 3122 785 18930 32PFL3605/93 Dali 3122 785 18930...
Published by ER/MB/CH/WSK 1063 BU TV Consumer Care, the Netherlands Subject to modification EN 3122 785 18930
2010-Mar-12
©Copyright 2010 Koninklijke Philips Electronics N.V.All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips.
Colour Television Chassis
RAM1.0ALA
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Contents Page1. Revision List 22. Technical Specifications, Connections 23. Precautions, Notes, and Abbreviation List 54. Mechanical Instructions 95. Service Modes, Error Codes, and Fault Finding 166. Alignments 297. Circuit Descriptions 318. IC Data Sheets 359. Block Diagrams
Wiring Diagram (32") 41Wiring Diagram (42") 42Block Diagram 43
10. Circuit Diagrams and PWB Layouts Drawing PWBPower Supply Unit 32" (A01) 44 45-46Power Supply Unit 42" (A01) 47 48-49SSB: Power (B01) 50 62-63SSB: AV Input (B02) 51 62-63SSB: VGA Input (B03) 52 62-63SSB: HDMI Input (B04) 53 62-63SSB: RF Tuner (B05) 54 62-63SSB: Keyboard/LED/IR Interface (B06) 55 62-63SSB: MT8222 (B07) 56 62-63SSB: DDR2 DRAM (B08) 57 62-63SSB: LVDS Output (B09) 58 62-63SSB: Audio Amplifier (B10) 59 62-63SSB: TCON (B11) 60 62-63SSB: TCON Power (B12) 61 62-63IR/LED Board (J) 64 65
11. Styling SheetsStyling Sheet 32" - 42" 66
Revision ListEN 2 RAM1.0A LA1.
2010-Mar-12
1. Revision List
Manual xxxx xxx xxxx.0• First release.
2. Technical Specifications, Connections
Index of this chapter:2.1 Technical Specifications2.2 Directions for Use2.3 Connections
Notes:• Figures can deviate due to the different set executions.• Specifications are indicative (subject to change).
2.1 Technical Specifications
For on-line product support please use the links in Table 2-1. Here is product information available, as well as getting started, user manuals, frequently asked questions and software & drivers.
Table 2-1 Described Model Numbers:
2.2 Directions for Use
Directions for use can be downloaded from the following websites:http://www.philips.com/supporthttp://www.p4c.philips.com
Model Number Styling Published in
32PFL3605/67 Dali 3122 785 18930
32PFL3605/93 Dali 3122 785 18930
32PFL3605/98 Dali 3122 785 18930
42PFL3605/67 Dali 3122 785 18930
42PFL3605/93 Dali 3122 785 18930
42PFL3605/98 Dali 3122 785 18930
Technical Specifications, Connections EN 3RAM1.0A LA 2.
2010-Mar-12
2.3 Connections
Figure 2-1 Connection overview
Note: The following connector colour abbreviations are used (acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, Ye= Yellow.
2.3.1 Side Connections
1, 2 - Cinch: Video CVBS - In, Audio - InYe - Video CVBS 1 VPP / 75 ohm ��Wh - Audio L 0.5 VRMS / 10 kohm ��
Rd - Audio R 0.5 VRMS / 10 kohm ��
3 - S-Video (Hosiden): Video Y/C - In1 - Ground Y Gnd �
2 - Ground C Gnd �
3 - Video Y 1 VPP / 75 ohm �4 - Video C 0.3 VPP / 75 ohm �
4 - USB2.0
Figure 2-2 USB (type A)
1 - +5V �
2 - Data (-) ��3 - Data (+) ��
4 - Ground Gnd �
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2.3.2 Rear Connections
5 - Aerial - In- - IEC-type (EU) Coax, 75 ohm �
6 - Cinch: Audio - OutRd - Audio - R 0.5 VRMS / 10 kohm ��
Wh - Audio - L 0.5 VRMS / 10 kohm ��
7 - Cinch: Video YPbPr - In, Audio - InGn - Video Y 1 VPP / 75 ohm ��
Bu - Video Pb 0.7 VPP / 75 ohm ��Rd - Video Pr 0.7 VPP / 75 ohm ��
Rd - Audio - R 0.5 VRMS / 10 kohm ��
Wh - Audio - L 0.5 VRMS / 10 kohm ��
8 - VGA: Video RGB - In, Mini Jack: Audio - In
Figure 2-3 VGA Connector
1 - Video Red 0.7 VPP / 75 ohm �2 - Video Green 0.7 VPP / 75 ohm �
3 - Video Blue 0.7 VPP / 75 ohm �
4 - n.c. 5 - Ground Gnd �
6 - Ground Red Gnd �
7 - Ground Green Gnd �8 - Ground Blue Gnd �
9 - +5VDC +5 V �
10 - Ground Sync Gnd �11 - n.c. 12 - DDC_SDA DDC data �
13 - H-sync 0 - 5 V �14 - V-sync 0 - 5 V �
15 - DDC_SCL DDC clock �
Wh - Audio L 0.5 VRMS / 10 kohm ��Rd - Audio R 0.5 VRMS / 10 kohm ��
9 - HDMI 1, 2: Digital Video, Digital Audio - In
Figure 2-4 HDMI (type A) connector
1 - D2+ Data channel �
2 - Shield Gnd �
3 - D2- Data channel �4 - D1+ Data channel �
5 - Shield Gnd �
6 - D1- Data channel �7 - D0+ Data channel �
8 - Shield Gnd �
9 - D0- Data channel �10 - CLK+ Data channel �
11 - Shield Gnd �
12 - CLK- Data channel �13 - Easylink/CEC Control channel ��
14 - n.c. 15 - DDC_SCL DDC clock �16 - DDC_SDA DDC data ��
17 - Ground Gnd �
18 - +5V �19 - HPD Hot Plug Detect �
20 - Ground Gnd �
10 - Service Connector (UART)1 - Ground Gnd �
2 - UART_TX Transmit �
3 - UART_RX Receive �
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Precautions, Notes, and Abbreviation List EN 5RAM1.0A LA 3.
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3. Precautions, Notes, and Abbreviation List
Index of this chapter:3.1 Safety Instructions3.2 Warnings3.3 Notes3.4 Abbreviation List
3.1 Safety Instructions
Safety regulations require the following during a repair:• Connect the set to the Mains/AC Power via an isolation
transformer (> 800 VA).• Replace safety components, indicated by the symbol �,
only by components identical to the original ones. Any other component substitution (other than original type) may increase risk of fire or electrical shock hazard. Of de set ontploft!
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 MΩ and 12 MΩ.
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.
3.2 Warnings
• All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD ). Careless handling during repair can reduce life drastically. Make sure that, during repair, you are connected with the same potential as the mass of the set by a wristband with resistance. Keep components and tools also at this same potential.
• 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.
3.3 Notes
3.3.1 General
• Measure the voltages and waveforms with regard to the chassis (= tuner) ground (�), or hot ground (), depending on the tested area of circuitry. The voltages and waveforms shown in the diagrams are indicative. Measure them in the Service Default Mode with a colour bar signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and
picture carrier at 475.25 MHz for PAL, or 61.25 MHz for NTSC (channel 3).
• Where necessary, measure the waveforms and voltages with (�) and without (�) aerial signal. Measure the voltages in the power supply section both in normal operation (�) and in stand-by ( ). These values are indicated by means of the appropriate symbols.
3.3.2 Schematic Notes
• All resistor values are in ohms, and the value multiplier is often used to indicate the decimal point location (e.g. 2K2 indicates 2.2 kΩ).
• Resistor values with no multiplier may be indicated with either an “E” or an “R” (e.g. 220E or 220R indicates 220 Ω).
• All capacitor values are given in micro-farads (μ = × 10-6), nano-farads (n = × 10-9), or pico-farads (p = × 10-12).
• 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 on the Philips Spare Parts Web Portal.
3.3.3 Spare Parts
For the latest spare part overview, consult your Philips Spare Part web portal.
3.3.4 BGA (Ball Grid Array) ICs
IntroductionFor more information on how to handle BGA devices, visit this URL: http://www.atyourservice-magazine.com. Select “Magazine”, then go to “Repair downloads”. Here you will find Information on how to deal with BGA-ICs.
BGA Temperature ProfilesFor BGA-ICs, you must use the correct temperature-profile. Where applicable and available, this profile is added to the IC Data Sheet information section in this manual.
3.3.5 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. 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.
• 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.
Precautions, Notes, and Abbreviation ListEN 6 RAM1.0A LA3.
2010-Mar-12
3.3.6 Alternative BOM identification
It should be noted that on the European Service website, “Alternative BOM” is referred to as “Design variant”.
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.
Identification: The bottom line of a type plate gives a 14-digit serial number. Digits 1 and 2 refer to the production centre (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 example below it is 2006 week 17). The 6 last digits contain the serial number.
Figure 3-1 Serial number (example)
3.3.7 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!
3.3.8 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.
3.4 Abbreviation List
0/6/12 SCART switch control signal on A/V board. 0 = loop through (AUX to TV), 6 = play 16 : 9 format, 12 = play 4 : 3 format
AARA Automatic Aspect Ratio Adaptation: algorithm that adapts aspect ratio to remove horizontal black bars; keeps the original aspect ratio
ACI Automatic Channel Installation: algorithm that installs TV channels directly from a cable network by means of a predefined TXT page
ADC Analogue to Digital ConverterAFC Automatic Frequency Control: control
signal used to tune to the correct frequency
AGC Automatic Gain Control: algorithm that controls the video input of the feature box
AM Amplitude ModulationAP Asia PacificAR Aspect Ratio: 4 by 3 or 16 by 9ASF Auto Screen Fit: algorithm that adapts
aspect ratio to remove horizontal black bars without discarding video information
ATSC Advanced Television Systems Committee, the digital TV standard in the USA
ATV See Auto TVAuto TV A hardware and software control
system that measures picture content, and adapts image parameters in a dynamic way
AV External Audio VideoAVC Audio Video ControllerAVIP Audio Video Input ProcessorB/G Monochrome TV system. Sound
carrier distance is 5.5 MHzBDS Business Display Solutions (iTV)BLR Board-Level RepairBTSC Broadcast Television Standard
Committee. Multiplex FM stereo sound system, originating from the USA and used e.g. in LATAM and AP-NTSC countries
B-TXT Blue TeleteXTC Centre channel (audio)CEC Consumer Electronics Control bus:
remote control bus on HDMI connections
CL Constant Level: audio output to connect with an external amplifier
CLR Component Level RepairComPair Computer aided rePairCP Connected Planet / Copy ProtectionCSM Customer Service ModeCTI Color Transient Improvement:
manipulates steepness of chroma transients
CVBS Composite Video Blanking and Synchronization
DAC Digital to Analogue ConverterDBE Dynamic Bass Enhancement: extra
low frequency amplificationDCM Data Communication Module. Also
referred to as System Card or Smartcard (for iTV).
DDC See “E-DDC”D/K Monochrome TV system. Sound
carrier distance is 6.5 MHzDFI Dynamic Frame Insertion
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32PF9968/10 MADE IN BELGIUM220-240V 50/60Hz
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BJ3.0E LA
Precautions, Notes, and Abbreviation List EN 7RAM1.0A LA 3.
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DFU Directions For Use: owner's manualDMR Digital Media Reader: card readerDMSD Digital Multi Standard DecodingDNM Digital Natural MotionDNR Digital Noise Reduction: noise
reduction feature of the setDRAM Dynamic RAMDRM Digital Rights ManagementDSP Digital Signal ProcessingDST Dealer Service Tool: special remote
control designed for service technicians
DTCP Digital Transmission Content Protection; A protocol for protecting digital audio/video content that is traversing a high speed serial bus, such as IEEE-1394
DVB-C Digital Video Broadcast - CableDVB-T Digital Video Broadcast - TerrestrialDVD Digital Versatile DiscDVI(-d) Digital Visual Interface (d= digital only)E-DDC Enhanced Display Data Channel
(VESA standard for communication channel and display). Using E-DDC, the video source can read the EDID information form the display.
EDID Extended Display Identification Data (VESA standard)
EEPROM Electrically Erasable and Programmable Read Only Memory
EMI Electro Magnetic InterferenceEPG Electronic Program GuideEPLD Erasable Programmable Logic DeviceEU EuropeEXT EXTernal (source), entering the set by
SCART or by cinches (jacks)FDS Full Dual Screen (same as FDW)FDW Full Dual Window (same as FDS)FLASH FLASH memoryFM Field Memory or Frequency
ModulationFPGA Field-Programmable Gate ArrayFTV Flat TeleVisionGb/s Giga bits per secondG-TXT Green TeleteXTH H_sync to the module HD High DefinitionHDD Hard Disk DriveHDCP High-bandwidth Digital Content
Protection: A “key” encoded into the HDMI/DVI signal that prevents video data piracy. If a source is HDCP coded and connected via HDMI/DVI without the proper HDCP decoding, the picture is put into a “snow vision” mode or changed to a low resolution. For normal content distribution the source and the display device must be enabled for HDCP “software key” decoding.
HDMI High Definition Multimedia InterfaceHP HeadPhoneI Monochrome TV system. Sound
carrier distance is 6.0 MHzI2C Inter IC busI2D Inter IC Data busI2S Inter IC Sound busIF Intermediate FrequencyIR Infra RedIRQ Interrupt RequestITU-656 The ITU Radio communication Sector
(ITU-R) is a standards body subcommittee of the International Telecommunication Union relating to radio communication. ITU-656 (a.k.a.
SDI), is a digitized video format used for broadcast grade video. Uncompressed digital component or digital composite signals can be used. The SDI signal is self-synchronizing, uses 8 bit or 10 bit data words, and has a maximum data rate of 270 Mbit/s, with a minimum bandwidth of 135 MHz.
ITV Institutional TeleVision; TV sets for hotels, hospitals etc.
LS Last Status; The settings last chosen by the customer and read and stored in RAM or in the NVM. They are called at start-up of the set to configure it according to the customer's preferences
LATAM Latin AmericaLCD Liquid Crystal DisplayLED Light Emitting DiodeL/L' Monochrome TV system. Sound
carrier distance is 6.5 MHz. L' is Band I, L is all bands except for Band I
LPL LG.Philips LCD (supplier)LS LoudspeakerLVDS Low Voltage Differential SignallingMbps Mega bits per secondM/N Monochrome TV system. Sound
carrier distance is 4.5 MHzMHEG Part of a set of international standards
related to the presentation of multimedia information, standardised by the Multimedia and Hypermedia Experts Group. It is commonly used as a language to describe interactive television services
MIPS Microprocessor without Interlocked Pipeline-Stages; A RISC-based microprocessor
MOP Matrix Output ProcessorMOSFET Metal Oxide Silicon Field Effect
Transistor, switching deviceMPEG Motion Pictures Experts GroupMPIF Multi Platform InterFaceMUTE MUTE LineMTV Mainstream TV: TV-mode with
Consumer TV features enabled (iTV)NC Not ConnectedNICAM Near Instantaneous Compounded
Audio Multiplexing. This is a digital sound system, mainly used in Europe.
NTC Negative Temperature Coefficient, non-linear resistor
NTSC National Television Standard Committee. Color system mainly used 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)
NVM Non-Volatile Memory: IC containing TV related data such as alignments
O/C Open CircuitOSD On Screen DisplayOAD Over the Air Download. Method of
software upgrade via RF transmission. Upgrade software is broadcasted in TS with TV channels.
OTC On screen display Teletext and Control; also called Artistic (SAA5800)
P50 Project 50: communication protocol between TV and peripherals
PAL Phase Alternating Line. Color system mainly used in West Europe (color carrier= 4.433619 MHz) and South America (color carrier PAL M=
Precautions, Notes, and Abbreviation ListEN 8 RAM1.0A LA3.
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3.575612 MHz and PAL N= 3.582056 MHz)
PCB Printed Circuit Board (same as “PWB”)PCM Pulse Code ModulationPDP Plasma Display PanelPFC Power Factor Corrector (or Pre-
conditioner)PIP Picture In PicturePLL Phase Locked Loop. Used for e.g.
FST tuning systems. The customer can give directly the desired frequency
POD Point Of Deployment: a removable CAM module, implementing the CA system for a host (e.g. a TV-set)
POR Power On Reset, signal to reset the uPPSDL Power Supply for Direct view LED
backlight with 2D-dimmingPSL Power Supply with integrated LED
driversPSLS Power Supply with integrated LED
drivers with added Scanning functionality
PTC Positive Temperature Coefficient, non-linear resistor
PWB Printed Wiring Board (same as “PCB”)PWM Pulse Width ModulationQRC Quasi Resonant ConverterQTNR Quality Temporal Noise ReductionQVCP Quality Video Composition ProcessorRAM Random Access MemoryRGB Red, Green, and Blue. The primary
color signals for TV. By mixing levels of R, G, and B, all colors (Y/C) are reproduced.
RC Remote ControlRC5 / RC6 Signal protocol from the remote
control receiver RESET RESET signalROM Read Only MemoryRSDS Reduced Swing Differential Signalling
data interfaceR-TXT Red TeleteXTSAM Service Alignment ModeS/C Short CircuitSCART Syndicat des Constructeurs
d'Appareils Radiorécepteurs et Téléviseurs
SCL Serial Clock I2CSCL-F CLock Signal on Fast I2C busSD Standard DefinitionSDA Serial Data I2CSDA-F DAta Signal on Fast I2C busSDI Serial Digital Interface, see “ITU-656”SDRAM Synchronous DRAMSECAM SEequence Couleur Avec Mémoire.
Color system mainly used in France and East Europe. Color carriers= 4.406250 MHz and 4.250000 MHz
SIF Sound Intermediate FrequencySMPS Switched Mode Power SupplySoC System on ChipSOG Sync On GreenSOPS Self Oscillating Power SupplySPI Serial Peripheral Interface bus; a 4-
wire synchronous serial data link standard
S/PDIF Sony Philips Digital InterFaceSRAM Static RAMSRP Service Reference ProtocolSSB Small Signal BoardSSC Spread Spectrum Clocking, used to
reduce the effects of EMISTB Set Top BoxSTBY STand-BYSVGA 800 × 600 (4:3)
SVHS Super Video Home SystemSW SoftwareSWAN Spatial temporal Weighted Averaging
Noise reductionSXGA 1280 × 1024TFT Thin Film TransistorTHD Total Harmonic DistortionTMDS Transmission Minimized Differential
SignallingTS Transport StreamTXT TeleteXTTXT-DW Dual Window with TeleteXTUI User InterfaceuP MicroprocessorUXGA 1600 × 1200 (4:3)V V-sync to the module VESA Video Electronics Standards
AssociationVGA 640 × 480 (4:3)VL Variable Level out: processed audio
output toward external amplifierVSB Vestigial Side Band; modulation
methodWYSIWYR What You See Is What You Record:
record selection that follows main picture and sound
WXGA 1280 × 768 (15:9)XTAL Quartz crystalXGA 1024 × 768 (4:3)Y Luminance signalY/C Luminance (Y) and Chrominance (C)
signalYPbPr Component video. Luminance and
scaled color difference signals (B-Y and R-Y)
YUV Component video
Mechanical Instructions EN 9RAM1.0A LA 4.
2010-Mar-12
4. Mechanical Instructions
Index of this chapter:4.1 Cable Dressing4.2 Service Positions4.3 Assembly/Panel Removal4.4 Set Re-assembly.
Notes:• Figures below can deviate slightly from the actual situation,
due to the different set executions.
4.1 Cable Dressing
Figure 4-1 Cable dressing (32")
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Figure 4-2 Cable dressing (42")
4.2 Service Positions
For easy servicing of a TV set, the set should be put face down on a soft flat surface, foam buffers or other specific workshop tools. Ensure that a stable situation is created to perform measurements and alignments. When using foam bars take care that these always support the cabinet and never only the display. Caution: Failure to follow these guidelines can seriously damage the display! Ensure that ESD safe measures are taken.
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4.3 Assembly/Panel Removal
4.3.1 Rear Cover
Figure 4-3 Rear cover removal (32")
Figure 4-4 Rear cover removal (42")
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Warning: Disconnect the mains power cord before removing the rear cover.See Figure 4-3 and Figure 4-4.1. Remove the 3 different kind of fixation screws that secure
the rear cover.2. Lift the rear cover from the TV. Make sure that wires and
flat foils are not damaged while lifting the rear cover from the set.
4.3.2 Speakers
Figure 4-5 Speakers, PSU & SSB removal (32")
Figure 4-6 Speakers, PSU & SSB removal (42")
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See Figure 4-5 and Figure 4-6.1. Unplug the speaker connector [1] from the SSB and
remove the wire wrap from this cable.2. Remove the fixation screws from the speakers [2].3. Take the speakers out.When defective, replace the whole unit.
4.3.3 Power Supply Unit (PSU)
Caution: it is mandatory to remount all different screws at their original position during re-assembly. Failure to do so may result in damaging the PSU. See Figure 4-5 and Figure 4-6.1. Unplug all connectors [3] from the PSU.2. Remove all fixation screws [4] from the PSU.3. The PSU can now be taken out of the set.When defective, replace the whole unit.
4.3.4 Small Signal Board (SSB)
Caution: it is mandatory to remount all different screws at their original position during re-assembly. Failure to do so may result in damaging the SSB. See Figure 4-5 and Figure 4-6.1. Release the clips from both the LVDS Flat Foil
connectors [5].Caution: be careful, as these are very fragile connectors! Take the flat foils out of their connectors.
2. Unplug all other connectors [1] and [6].3. Remove grounding screws [7] from the stand support.4. Remove all other fixation screws [8] from the SSB.5. The SSB can now be lifted upwards away from the bottom
shield cover. Caution: be careful not to damage the bottom shielding between the SSB and the plastic stand-off.
4.3.5 Stand support plate
Figure 4-7 Stand support plate (32")
Figure 4-8 Stand support plate (42")
See Figure 4-7 and Figure 4-8.1. Remove the SSB as described earlier.2. Remove the PSU as described earlier.3. Remove shielding fixation screws [1]. See Figure 4-74. Remove stand support plate fixation screws [2].5. Lift up the support plate together with the stand.
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4.3.6 Bezel removal
Figure 4-9 Bezel removal (32")
Figure 4-10 Bezel removal (42")
See Figure 4-9 and Figure 4-10.1. Remove the speakers as described earlier.2. Remove the panel holders [3] (42" version only). 3. Remove the other fixation screws [1] and [2].4. Lift up the LCD panel.
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2
Mechanical Instructions EN 15RAM1.0A LA 4.
2010-Mar-12
4.3.7 IR/LED Board
Figure 4-11 IR/LED Board
1. Remove the bezel as described earlier.2. Unplug the connectors from the IR/LED board.3. Release the clips that hold the board and take it from the
bezel, see Figure 4-11.When defective, replace the whole unit.
4.3.8 Keyboard Control Board
1. Remove the bezel as described earlier.2. Unplug the connector from the Keyboard Control Board.3. Remove the fixation screws from the Keyboard Control
Board and take unit out.When defective, replace the whole unit.
4.3.9 LCD removal
Figure 4-12 Vesa spacer
1. Remove the SSB as described earlier.2. Remove the PSU as described earlier.3. Remove the stand support plate as described earlier.4. Remove the bezel as described earlier.5. Remove the Vesa spacer as shown in Figure 4-12 by using
a 10 m.m. wrench. Note it has been secured with Loctite 2440.
6. Lift the LCD Panel from the bezel.
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 position. See Figure 4-1 and Figure 4-2.
• Pay special attention not to damage the EMC foams on the SSB shields. Ensure that EMC foams are mounted correctly.
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Service Modes, Error Codes, and Fault FindingEN 16 RAM1.0A LA5.
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5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:5.1 Service Modes5.2 Service Tools5.3 Software Upgrading5.4 Error Codes5.5 Fault Finding and Repair Tips
5.1 Service Modes
The Customer Service Mode (CSM) is used for communication between the call centre and the customer, while the Service Alignment Mode (SAM) offers several features for the service technician. The Standard Default Mode (SDM) creates a pre-defined setting.
This chassis also offers the option of using ComPair, a hardware interface between a computer and the TV chassis. It offers the abilities of structured troubleshooting, error code reading, and software version read-out for all chassis.
5.1.1 Service Default Mode (SDM)
Purpose• To create a pre-defined setting, to get the same
measurement results as given in this manual• To start the blinking LED procedure where only Layer 2
errors are displayed (see also Table 5-1).
How to ActivateUse the standard RC transmitter and key in the code “062596”, directly followed by the “MENU” button.
How to ExitSwitch the set to STANDBY.
5.1.2 Customer Service Mode (CSM)
PurposeThe 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 Activate CSMKey in the code “123654” via the standard RC transmitter. Note: Activation of the CSM is only possible if there is no (user) menu on the screen!
Figure 5-1 CSM Menu [1/3]
Figure 5-2 CSM Menu [2/3]
Figure 5-3 CSM Menu [3/3]
How to NavigateToggling between menus CSM1, -2 and -3 can be done by means of the “CURSOR-DOWN/UP” knob.
CSM1• Set Type Philips Model type number (16 characters
maximum)• Production code Displays the production serial number of
the TV. Note that if an NVM is replaced or is initialized after corruption, this production code has to be re-written to NVM. ComPair will foresee a in possibility to do this.
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Service Modes, Error Codes, and Fault Finding EN 17RAM1.0A LA 5.
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• Installation date Installation date.• Option code Displays the option code.• Codes Displays the latest 5 error codes status.
Refer to 5-1 Error codes.• SSB Displays the 12NC of the SSB (Small Signal Board).• Display Displays the 12NC of the display (LCD Panel).• PSU Displays the 12NC of PSU (Power Supply Unit).
CSM2• Current Main SW Main software version.• Standby SW Standby software version.• SW version of other uP Other uP software version if
applicable.• NVM-version NVM version.
CSM3• Signal Quality/Present Digital percentage and analog
Yes/No.• Child lock Child lock active/non-active.• HDCP keys Detect and display HDCP keys: Valid/Non-
valid.• HDMI audio format input stream Indication of HDMI
audio input stream format e.g. Dolby TrueHD, DTS-HD Master Audio, MPCM.
• HDMI video format input stream Indication of HDMI video input stream format e.g. 576i50Hz, 576p50Hz, 720p50Hz, 1080i50Hz, 1080p50Hz.
How to Exit CSMPress “MENU” on the RC-transmitter.
5.1.3 Service Alignment Mode (SAM)
How to enterTo enter the factory mode, use the following method:• Press the following key sequence on the remote control
transmitter: “062596” directly followed by the “INFO” button.
After entering the service alignment mode, the following screen is visible (refer to Figure 5-4).
Figure 5-4 Example of SAM
How to NavigateThe up/down cursor keys can be used to navigate through the menu, while with the Left/Right cursor the values can be changed.
How to StoreChoose “DO”, and press the “OK” button.
How to go one level up in the menuPress the MENU button.
How to ExitGo up in the menu to the root and switch the set to STANDBY.
5.2 Service Tools
5.2.1 ComPair
IntroductionComPair (Computer Aided Repair) is a Service tool for Philips Consumer Electronics products. and offers the following:1. ComPair helps 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. No knowledge on I2C or UART commands is necessary, 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 upgrade possibilities.
SpecificationsComPair consists of a Windows based fault finding program and an interface box between PC and the (defective) product. The 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 ConnectThis is described in the chassis fault finding database in ComPair.
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 damaged!
How to OrderComPair II order codes:• ComPair II interface: 3122 785 91020.• Programming software can be downloaded from the Philips
Service portal. • ComPair UART interface cable for RAM1.1x xx.
3138 188 75051. Note: While having problems, contact the local support desk.
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10000_036_090121.eps091118
TOUART SERVICECONNECTOR
TOUART SERVICECONNECTOR
TOI2C SERVICECONNECTOR
TO TV
PC
HDMII2C only
Optional power5V DC
ComPair II Developed by Philips Brugge
RC outRC in
OptionalSwitch
Power ModeLink/Activity I2C
ComPair IIMulti
function
RS232 /UART
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5.3 Software Upgrading
5.3.1 Introduction
Philips continuously tries to improve its products, and we recommend that you update the TV software when updates are available. Software update files can be obtained from your dealer or can be downloaded from the following website:http://www.philips.com/support
Preparing a portable memory for software upgradeYou require the following:1. A personal computer connected to the Internet.2. An archive utility that supports the ZIP-format (e.g.
“WinZip” for Windows or “Stufflt” for Mac OS).3. A USB flash drive (preferably empty).
Note:1. Only FAT/DOS-formatted flash drives are supported.2. Only use software update files that can be found on the
Philips Service Portal.
5.3.2 Check the current TV software version
Before starting the software upgrade procedure, it is advised to check the current TV software version:1. Press the “Menu” button on your remote control.2. Select “Setup” and press “OK”, then select [Software
update] > [Current software].If the current software version of your TV is the same as the latest update file found on the Philips Service Portal, it is not necessary to update the TV software.
5.3.3 Download the latest software
1. Point your web browser to the Philips Service Portal.2. Find information and software related to your TV.3. Select the latest software update file and download it to
your PC.4. Insert a USB flash drive into one of the USB ports of your
PC.5. Decompress the downloaded ZIP file and copy the
“autorun.upg” to the root directory of the USB flash drive.
5.3.4 Update the TV software
1. Power off your TV and disconnect all memory devices.2. Insert the USB flash drive that contains the software
update file.3. Switch on your TV, and TV will display the Main Menu upon
detection of USB portable. 4. Select [Setup] and press OK. See Figure 5-6.
Note: If the USB flash drive is not detected after power up, disconnect it and re-insert it.
5. Select [Software update] > [Local updates] and press OK. See Figure 5-7 and Figure 5-8.
6. When prompted, select [Cancel] or [OK] and press OK. See Figure 5-9.
7. To proceed, In next menu select [Start] and press OK to start software updates. See Figure 5-10.
8. Upgrading will now begins and the status of the updating progress will be displayed. See Figure 5-11.
9. When the TV software is updated, the TV automatically restarts and the TV starts up with the new software.
Figure 5-6 Update the TV software 1
Figure 5-7 Update the TV software 2
Figure 5-8 Update the TV software 3
Figure 5-9 Update the TV software 4
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Figure 5-10 Update the TV software 5
Figure 5-11 Update the TV software 6
Note:• Do not remove the USB flash drive during the software
update.• If a power failure occurs during the update, do not remove
the USB flash drive from the TV. The TV will continue the software update as soon as power comes back.
• If an error occurs during the update retry the procedure or contact your dealer.
• We do not recommend downgrading to an older version.• Once the upgrade is finished, use your PC to remove the
TV software from your USB portable memory.
5.4 Error Codes
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.
Table 5-1 Error codes
Notes:1. x = layer 1 error indication, yy = layer 2 error indication.
5.5 Fault Finding and Repair Tips
5.5.1 Speakers
Make sure that the volume is set to minimum during disconnecting the speakers in the ON-state of the TV. The audio amplifier can be damaged by disconnecting the speakers during ON-state of the set!
5.5.2 Tuner
Attention: In case the tuner is replaced, always check the tuner options.
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Error Code x yy1 EventError blinking
Defective boardin SDM in CSM spontaneous
0 00 no error n.a. n.a. n.a. n.a.
2 13 I2C bus error layer 2 layer 1 layer 1 SSB
3 16 12V sensing of platform supply
- - layer 1 platform supply
4 18 false POK-line display or inverter
layer 2 layer 1 layer 1 display supply/inverter
2 27 multi-standard demodulator (IF)
layer 2 layer 1 - SSB
2 34 tuner layer 2 layer 1 - SSB
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5.5.3 Power failure
For trouble shooting, following reference voltages are given:• After power-up• After power-down (switched to standby).
Table 5-2 Reference voltages
Signal name
Location (testpoint, item + pin no.)
Voltage (± 5%)
after power-up
after power-down(standby)
5VIN FB1 5 V 5 V
5VSB R29 5 V 5 V
3V3SB FB18 3.3 V 3.3 V
1V0SB C6 1.1 V 1.1 V
5VSW Q28 pin 7,8 5 V 0 V
VGA_5V U6 pin 8 4.8 V 4.8 V
REG3V3 U38 pin 4 3.3 V 3.3 V
3V3SW Q28 pin 5, 6 3.3 V 0 V
1V2SB U3 pin 3 1.2 V 1.2 V
VDD33 FB8 3.3 V 3.3 V
3V3DRV FB15 3.3 V 0 V
1V8SW U1 pin 4 1.8 V 0 V
B3V3SW FB20 3.3 V 0 V
12VIN FB2 12 V 0 V
12VSW R34 12 V 0 V
PANEL_VDD Q22 pin 5 to 8 12 V 0 V
TUNER_VCC U9 pin 3 5 V 0 V
12VAMP C454 12 V 0 V
REG5V U39 pin 3 5 V 0 V
H_VDD C363 8 V 0 V
3V3TC C419 3.3 V 0 V
VGL R587 -5 V 0 V
VGH C392 28.5 V 0 V
16VTC C359 16.5 V 0 V
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5.5.4 Trouble shooting diagrams
Set is in PC mode, no image
Figure 5-12 Trouble shooting diagram - set is in PC mode, no image
No
Yes
Yes
Yes
No
No
No
Start
LED is lighted
1. Is Power Core available? 2. Is SSB J1-Pin 6, 7, 8 - 5V available? 3. Is SSB J3-Pin 4 - 0~0.8V (Low level) available? 4. Is SSB J2-Pin9 - 0~0.8V (Low level) available?
LED ON to OFF
1. Is SSB J3 Pin 4 - 2.5~3.3V (Hi level) available?
Is backlight on?
Is Display Normal?
END
1. D-sub cable is OK? 2. Check whether J2 -Pin 6 PWM is normal. 3. Is P2 video input signal normal? 4. Check whether U36 input/output of video signal is normal. 5. Check whether J10,J11 video signal is normal. 6. Is Connection of J10 and J11 FFC cable OK?
1. Is SSB J1 PIN 9, J2-Pin1, 2 Voltage 12V available? 2. Check if J1 Pin 2 - 2.5~3.3V(Hi Level) is available? 3. Check if J2 Pin 5 - 2.5~3.3V(Hi Level) is available?
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Set is in TV/Composite video mode, no image
Figure 5-13 Trouble shooting diagram - set is in TV/Composite video mode, no image
No
No
No
No
Yes
Yes
Yes
Start
LED is lighted
1. Is Power Core available? 2. Is SSB J1-Pin 6, 7, 8- 5V available? 3. Is SSB J3-Pin 4-0~0.8V (Low level) available? 4. Is SSB J2-Pin9-0~0.8V (Low level) available?
LED ON to OFF 1. Is SSB J3 Pin 4-2.5~3.3V (Hi level) available?
Is backlight on?
Is Display Normal?
END
1. Axial RF/AV Composite /S-Video cable are OK? 2. Check whether J2 -Pin 6 PWM is normal. 3. Is T1/P3 video input signal normal? 4. Check whether U36 input/output of video signal is normal. 5. Check whether J10,J11 video signal is normal 6. Is Connection of J10 and J11 FFC Cable OK?
1. Is SSB J1-PIN9, J2-Pin1, 2 Voltage 12V available? 2. Check if J1-Pin 2-2.5~3.3V(Hi Level) is available. 3. Check if J2, Pin 5-2.5~3.3V(Hi Level) is available.
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Set is in Component video mode, no image
Figure 5-14 Trouble shooting diagram - set is in Component video mode, no image
No
No
No
No
Yes
Yes
Yes
Start
LED is lighted
1. Is Power Core available? 2. Is SSB J1-Pin 6, 7, 8- 5V available? 3. Is SSB J3-Pin 4 - 0~0.8V (Low level) available? 4. Is SSB J2-Pin 9 - 0~0.8V (Low level) available?
LED ON to OFF 1. Is SSB J3 Pin 4 - 2.5~3.3V (Hi level) available?
Is backlight on?
Is Display Normal?
END
1. Component Cable is OK? 2. Check whether J2 -Pin 6 PWM is normal. 3. Is P1/P2 video input signal normal? 4. Check whether U36 input/output of video signal is normal. 5. Check whether J10,J11 video signal is normal 6. Is Connection of J10 and J11 FFC Cable OK?
1. Is SSB J1-PIN9, J2-Pin1, 2 Voltage 12V available? 2. Check if J1-Pin 2-2.5~3.3V(Hi Level) is available 3. Check if J2, Pin 5-2.5~3.3V(Hi Level) is available
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Set is in HDMI mode, no image
Figure 5-15 Set is in HDMI mode, no image
No
No
No
No
Yes
Yes
Yes
Yes
Start
LED is lighted
1. Is Power Core available? 2. Is SSB J1 - Pin 6, 7, 8- 5V available? 3. Is SSB J3 - Pin 4-0~0.8V (Low level) available? 4. Is SSB J2 - Pin 9-0~0.8V (Low level) available?
LED ON to OFF
1. Is SSB J3 Pin 4-2.5~3.3V (Hi level) available?
Is backlight on?
Is Display Normal?
END
1. HDMI Cable is OK? 2. Check whether J2 -Pin 6 PWM is normal. 3. Is P8/P9 video input signal normal? 4. Check whether U36 input/output of video signal is normal. 5. Check whether J10,J11 video signal is normal 6. Is Connection of J10 and J11 FFC Cable OK?
1. Is SSB J1-PIN9, J2-Pin1, 2 Voltage 12V available? 2. Check if J1-Pin 2-2.5~3.3V(Hi Level) is available. 3. Check if J2, Pin 5-2.5~3.3V(Hi Level) is available.
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Service Modes, Error Codes, and Fault Finding EN 25RAM1.0A LA 5.
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DC/DC converter
Figure 5-16 DC/DC converter [1/2]
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
The voltage is about +12V while power switch on 1. J1/J2 connection good 2. Check power board
The voltage is about +5V while power switch on 1. Check Q27-Gate B
No
No
No
No
No
No
No
No
No
No
No
Start
J1 PIN6, 7, 8
J1 PIN 9, J2 PIN 1/2
The voltage is about +5V 1. Check power board 2. Check power cable connection J1
Q28 PIN 7, 8
U4 PIN 5, 6 The voltage is about +3.3V 1. Check U4 PIN2 EN
U2 PIN 5, 6 The voltage is about +1.0V
U3 PIN 3 The voltage is about +1.2V
U1 PIN2,4 The voltage is about +1.8V
U38 PIN 2, 4 The voltage is about +3.3V
U9, U39 PIN 3 The voltage is about +5V
T CON-U35 PIN 3 The voltage is about +3.3V
T CON-U32 PIN2 The voltage is about +12V
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Figure 5-17 DC/DC converter [2/2]
No
No
No
No
No
Yes
Yes
Yes
Yes
Yes
Yes
T CON-U35 PIN 2,4 The voltage is about +1.8V
T CON-R556
The voltage is about +16V
END
T CON-D24 PIN 3
T CON-R587
The voltage is about +27.1V
The voltage is about -5V
T CON-L8 The voltage is about +8V
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DDC reading
Figure 5-18 DDC reading
No
No
Yes
Yes
Yes
Start
Analog DDC OK?
Support DDC1/2B 1. VGA cable ok? 2. Check signal (U6 to PIN5, 6) 3. Check U6- PIN8 5 V 4. Is input signal compliant to protocol?
HDMI DDC OK?
Support DDC1/2B 1. HDMI cable ok? 2. Check signal (U15 to Pin5, 6) 3. Check signal (U16 to Pin5, 6) 4. Is input signal compliant to protocol?
END
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No audio
Figure 5-19 No audio
Yes
Yes
Yes
Yes
No
No
No
No
Start
Input signal good? 1. Check Audio source 2. Check the player of source
Output Source OK?
1. Check Speaker 2. Audio Output of J6 Audio
Signal
Check amplifier OK?
END
Check signal correct? 1. Check MT8222 Audio In/Out 2. U37 AUDIO In/Out
1. Check U23 Audio Signal In/OUT
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6. Alignments
Index of this chapter:6.1 General Alignment Conditions6.2 Hardware Alignments6.3 Software Alignments6.4 Display Option Settings6.5 Reset of Repaired SSB
Note: The Service Alignment Mode (SAM) are described in chapter 5. Service Modes, Error Codes, and Fault Finding. Menu navigation is done with the CURSOR UP, DOWN, LEFT or RIGHT keys of the remote control transmitter.
6.1 General Alignment Conditions
Perform all electrical adjustments under the following conditions:• Power supply voltage: 120 - 230 VAC, 50 ± 10 Hz.• 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 MΩ, Ci < 20 pF.• Use an isolated trimmer/screwdriver to perform
alignments.
6.1.1 Alignment Sequence
Set the correct options:• In SAM, select “Options” and then “Option numbers”• Fill in the option numbers for “Group 1” and “Group 2”
according to the set sticker (see also section 6.4 Display Option Settings).
• Press “OK” on the remote control before the cursor is moved to the left
• In submenu “Option numbers” select “Store” and press OK on the RC, or
• In main menu, select “Store” again and press OK on the RC• Switch the stand to standby.Warm the set up for >15 minutes.
6.2 Hardware Alignments
Not applicable.
6.3 Software Alignments
Put the set in SAM mode (see chapter 5. Service Modes, Error Codes, and Fault Finding). The SAM menu will now appear on the screen. Select “RGB Align” and go to one of the sub menus. The alignments are explained below.The following item can be aligned:• White point. To store the data:• Press OK on the RC before the cursor is moved to the
left.• In main menu select “Store” and press OK on the RC.• Press MENU on the RC to switch back to the main menu.• Switch the set to stand-by mode. For the next alignments, supply the following test signals via a video generator to the RF input:• EU/AP-PAL models: a PAL B/G TV-signal with a signal
strength of at least 1 mV and a frequency of 475.25 MHz
• US/AP-NTSC models: an NTSC M/N TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3).
• LATAM models: an NTSC M TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3).
• DVB-T models: a DVB-T signal with the following specifications:- frequency: 546.00 PID- video: 0B 06 PID- PCR: 0B 06 PID- Audio: 0B 07.
6.3.1 White Point
• Choose “TV menu”, “TV Settings” and then “Picture” and set “Smart Picture” to “Vivid” mode.
White point alignment LCD screens:• Use a 100% white screen as input signal and set the
following values:– “Colour temperature”: “Normal”.– All “White point” values to: “127”.– “Red BL offset” value to “240” for HDMI source.– “Green BL offset” value to “240” for HDMI source.– “Red BL offset” value to “0” for VGA source.– “Green BL offset” value “0” for VGA source.
In case you have a colour analyser:• Measure with a calibrated contactless (max. 25 mm) colour
analyser in the centre of 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 127) by means of decreasing the value of one or two other white points to the correct x, y coordinates (see Table 6-1). Tolerance: dx: ± 0.004, dy: ± 0.004.
• Repeat this step for the other colour temperatures that need to be aligned.
• When finished press “OK” on the RC and then press STORE (in the SAM root menu) to store the aligned values to the NVM.
• Restore the initial picture settings after the alignments.
Table 6-1 White D alignment values
If you do not have a colour analyser, you can use the default values. This is the next best solution. The default values are average values coming from production.• Select a “COLOUR TEMPERATURE” (e.g. “COOL”,
“NORMAL”, or “WARM”).• Set the White point “RED”, “GREEN” and “BLUE” default
values according to the values in Table 6-2.• When finished press OK on the RC, then press STORE (in
the SAM root menu) to store the aligned values to the NVM.• Restore the initial picture settings after the alignments.
Value Cool (11000K) Normal (9000K) Warm (6500K)
x 0.276 0.287 0.313
y 0.282 0.296 0.329
AlignmentsEN 30 RAM1.0A LA6.
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Table 6-2 White tone default settings 32" & 42" Dali sets
(3xxx series)
6.4 Display Option Settings
Table 6-3 Display code overview
6.5 Reset of Repaired SSB
A very important issue towards a repaired SSB from a service repair shop implies the reset of the NVM on the SSB.A repaired SSB in service should get the service Set type “00PF0000000000” and Production code “00000000000000”.Also the virgin bit is to be set. To set all this, you can use the ComPair tool.
White Tone 32" 42"Black level offset
Colour Temp R G B R G B R G
Normal t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d.
Cool t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d.
Warm t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d. t.b.d.
CTN_ALT BOM# Panel Type Display code in SAM
32PFL3605/67 LGD LC320WUY-SCA1-8R1 009
32PFL3605/93 LGD LC320WUY-SCA1-8R1 004
32PFL3605/98 LGD LC320WUY-SCA1-8R1 001
42PFL3605/67 LGD LC420WUY-SCA1-7R1 010
42PFL3605/93 LGD LC420WUY-SCA1-7R1 005
42PFL3605/98 LGD LC420WUY-SCA1-7R1 002
Circuit Descriptions EN 31RAM1.0A LA 7.
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7. Circuit Descriptions
Index of this chapter:7.1 Introduction7.2 Power Architecture7.3 MT8222 Video/Audio processor
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 (seechapter 9. Block Diagrams) and circuit diagrams (see chapter 10. Circuit Diagrams and PWB Layouts). Where necessary, you will find a separate drawing for clarification.
7.1 Introduction
The RAM1.0A LA chassis is using the MT8222 video and audio processor.
7.1.1 Implementation
Key components of this chassis are:• MT8222 scaler• HFT-8/125H (China/AP)/HFT-8-13F2 (Argentina) tuner• K3953M/K9362M (China/AP)/
M3953M/M9370M (Argentina) saw filter• TDA9885TS IF demultiplexer• TPA3101D2 audio amplifier• TL2428MC T-CON IC
7.1.2 RAM1.0A LA Architecture Overview
• For details about the chassis diagrams refer to chapter 10. Circuit Diagrams and PWB Layouts. An overview of the RAM1.0A LA architecture can be found in Figure 7-1.
Figure 7-1 Architecture of RAM1.0A LA
18930_210_100310.eps100310
M AINP OW E RS UP P LY BLOCK
LCD PANEL (1920 × 1080 )
S ca ler ch ipMTK
MT8222AMMU for FHD
Ana logTuner
12 V D C
M ini-LVDS
P/I boa rd
5 V D C
DDR2 256Mb × 2NT5TU32M 16 CG-25C
A udio A mpC lass-D
(T PA 3101D 2)D C/DC
conversion
M a in boa rd
BL boost
POK
PWM
BL on/off
Co
mp
os
iteS
-Vid
eo
HD
MI2
L R
CV
BS
Au
dio
ou
t
SPI FLASH (4MB)MX25L3205DM
3V3
EDIDEDIDEDID
1V8
1V2
Power
Analogue Audio
Video &control signal
5V
5V0
IF
R /L
H/P
ou
t(O
ptio
na
l)
S A WFilter
S A WFilter
IF Decoder
TD A 9885CVBS
S IF VIF
S IF
D-S
UB
Co
mp
on
ent
B /L IN V E R TE R
DUS
B
-SU
B
Au
dio
in
Co
mp
on
ent
Au
dio
in
Co
mp
os
iteS
-Vid
eo
Au
dio
in
X1X2
X1
TCO NTL2428MC
HD
MI1
EEPRO M24C04
EEPRO M
24C32
KEY PAD I.R. REC EIVER
Audio sw itchHEF4052
Circuit DescriptionsEN 32 RAM1.0A LA7.
2010-Mar-12
7.1.3 SSB Cell Layout
Figure 7-2 SSB layout cells (top view)
18930_211_100310.eps100310
DC - DC CONVERSIONTCON
DDR2 Scaler
Audio Amplifier
INPUT/OUTPUT CONNECTORS
ServiceConnector
TUNER
Circuit Descriptions EN 33RAM1.0A LA 7.
2010-Mar-12
7.2 Power Architecture
Refer to figure Figure 7-3 for the power architecture of this platform. For trouble shooting, refer to section 5.5.3 Power failure.
Figure 7-3 Power Architecture RAM1.0A LA platform
18930_212_100310.eps100315
PowerBoard
U4
AP1534SG
12VIN
U2
Q28_1
MOS_SSG4953
AP1534SG
IR/LED BD
BS0V1BSV5 DVDD10
3V3SB
U21
RESET_MAX809STRG
TJ3965D
U31V2SB
AVDD33_CVBS
AVDD33_XTAL
AVDD33_ADAC
AVDD33_USB
AVDD33_AADC
AVDD33_LVDS
AVDD33_SIF AVDD33_DIG
AVDD33_REFP_AADC
AVDD33_VGA
AVDD33_HDMI
FB183V3SW
U1
AP1084KL1V8SW
U26
DRV602PWR
U20
AT24C32CN
AVDD12_PLL
AVDD12_LVDS
AVDD12_USB
AVDD12_DIG_RGB
AVDD12_MEMPLL
AVDD12_RGB
AVDD12_VPLL
AVDD12_HDMI
U22
DDR_NT5TU32M16CG
VCC2IO_1
VCC2IO_2
VCC2IO_3
RVREF0
5VIN5VSB
12 VSW
MOS_RSS075P03
Q22PANEL_VDD
FB165VSW
U8Q28_2
U7
USB_TPS2041BDR
D5
BAT54C
VGA_5VU6
MOS_SSG4953
AT24C02BN
PI5C3257QE
Audio_SW_CD 4052BNSR
U5
AZ7805T
U9TUNER_VCC_5V
U23
AUDIO_AMP_TPA3101D2PHPR
MAX17113ETL
U34
U32
RT8250GSP
H_VDD
FB18
VGL
VGH
U35
Gamma_MAX9668
AP1117EL
1V8TC TL2428_V183V3TC
16VTCU30
I ≈ 725 mA
I ≈ 2.16 A
I ≈ 843 mA
TL2428_V18
T1
HFT-8B/125FB5
FB16
U10
TDA9885TS
GPIO25
GPIO5
R233
R266
F2
125V/3A
C8710uf/10V
R236
R235
+ CE16100uf/25V
+ CE17100uf/25V
F3
63V/2A
R232
R224
R231
R266
R237
R228
R226
+ CE8220uf/25V
+ CE26220uf/25V
R225
+ CE7220uf/25V
R234F1
125V/3A
+ CE4220uf/25V
+ CE7220uf/25V
C8710uf/10V
+ CE3220uf/25V
R227
+ CE6220uf/25V
R229+ CE7220uf/25V
R230
+ CE27100uf/25V
Circuit DescriptionsEN 34 RAM1.0A LA7.
2010-Mar-12
7.3 MT8222 Video/Audio processor
Refer to figure Figure 7-4 for the power architecture of this platform.
Figure 7-4 MT8222 Video/Audio system application
7.3.1 Signal paths
RGBAnalogue RGB signals are transferred by the MT8222 to a digital signal by the internal A/D converter. The MT8222 generates an LVDS signal to the TL2428 on-chip TCON which drives the LCD display.
HDMIHDMI signals are further processed digitally by the MT8222. The MT8222 generates an LVDS signal to the TL2428 on-chip TCON which drives the LCD display.
Component InputComponent signals are processed by the MT8222. The MT8222 generates an LVDS signal to the TL2428 on-chip TCON which drives the LCD display.Audio is separately processed by the MT8222 and further processed by the CS4344 and then the audio amplifier.
RF InputRF input signals are demodulated by the TDA9885 IF demodulator and further processed by the MT8222. The signal is then split into an video and an audio part.
The video signal is further processed by the MT8222 which generates an LVDS signal to the TL2428 on-chip TCON which drives the LCD display.The audio signal is further processed by the MT8222 and split into two parts. One part drives the Stereo Line Driver “AUDIO OUT” chain, the other part drives the CS4344 and the audio amplifier.
18930_213_100310.eps100310
PRST#
U19
MX25L3205DM2I-12G
NT5TU32M16CG-25C
Amp R+
Audio Amp
U23
TPA3101D2PHPR
U22
DATA
Amp L-
Amp L+
Amp R-
IR_
DATA
ADIN 0
TDA9885TSV5 U10
Y1 4 MHz
REF
LED 2
ADIN 0
AT24C32CN-SH-TEEPROM
U29
TCONLVDS
U36TL2428MC
VIF(K3953M30) SAW1
VIF
SIF(K9650M30) SAW2
SIF
TCVBS-N&P
AT24C02
AT24C02
VGA EDID EEPROM
Data Bus 2
Data Bus 1
OPWR0 5V H1
HDMI DDC I2C
T-CON I2C
HDMI DDC I2C
OPWR0 5V H2 U16
U15
U6
RGB & H/V SYNC
o
o o
o
EEPROM
EEPROM
AV1 L/R IN
VGA L/R IN
VGA I2C VGA I2C
SC1 IN
SY1 IN
AV1 IN
Y1 IN
YPBPR1 L/R IN
PR1 IN
PB1 IN
AL2 & AR2 OUT
MT8222
U17
Tuner
Line OUT
VGA Audio Input
AV1 Input
CVI-1 Input
VGA Input
PB2 IN
Y2 IN
YPBPR2 L/R IN
PR2 IN
CVI-2 Input
HDMI1
HDMI2
USB
DRV602PWR U26
LINE OUT R/L
CS4344
U37
I2S DACIF Tuner
AGC Tuner
Tuner SCL/SDA
U7
Channel Switch74HC4052PW Channel 2
Channel 3
Channel 1
USB DM
Debug PORT RXTX
USB DP
Y227MHz
KE
Y B
D
Reset Circuit
LCD PANELT CON SIGNAL
DDR
Flash
Y6CSTCE10M0G55
IR BD
I2S
10MHz
DAC L
DAC R
T-CON I2C
Scaler UART
IC Data Sheets EN 35RAM1.0A LA 8.
2010-Mar-12
8. IC Data Sheets
This section shows the internal block diagrams and pin configurations of ICs that are drawn as “black boxes” in the electrical diagrams (with the exception of “memory” and “logic” ICs).
8.1 Diagram B05, TDA9885 (IC U10)
Figure 8-1 Internal block diagram and pin configuration
18930_300_100308.eps100308
Block diagram
Pinning information
1
2
3
4
5
6
7
8
9
10
11
12
24
23
22
21
20
19
18
17
16
15
14
13
TDA9885T
n.c.
VIF2
OP1
FMPLL
DEEM
AFD
DGND
AUD
TOP
SDA
SCL
SIOMAD
SIF2
SIF1
OP2
AFC
VP
VPLL
AGND
CVBS
VAGC
REF
TAGC
n.c.
DIGITAL VCO CONTROL AFC DETECTORRC VCO
VIF-PLL
VIF-AGCTUNER AGC
SUPPLY SIF AGC
AUDIO PROCESSINGAND SWITCHES
NARROW-BANDFM-PLL DEMODULATOR
SINGLE REFERENCE QSS MIXERINTERCARRIER MIXER
AND AM DEMODULATOR
SOUND TRAPS4.5 to 6.5 MHz
TAGC
CVAGC(pos)
CAGC(neg) CBL
VAGC(1)TOP
14
VPLL
19 121561 9
41011 1218 20
2
117
8
5
6
external reference signalor 4 MHz crystal
REF AFC
AUD
CVBS
audio output
video output: 2 V (p-p)[1.1 V (p-p) without trap]
CAF
SIOMADSDASCL
MAD
VP
CAGC
13
n.c.AGND
7
DGND
OUTPUTPORTS I2C-BUS TRANSCEIVER
223
LLPMF2PO1PO
DEEM
AFD
sound intercarrier outputand MAD select
FM-PLLfilter
VIF-PLLfilter
de-emphasisnetwork
VIF2
n.c.
24
23
SIF2
SIF1
TDA9885
IC Data SheetsEN 36 RAM1.0A LA8.
2010-Mar-12
8.2 Diagram B07, MT8222TMMU/A (IC U17)
Figure 8-2 Internal block diagram
18870_300_100211.eps100305
Block diagram
CVBS / SV (8 ×)
Analog Front End
ADC 3D TVD 8032
Main Path (Customer) External Switches
YPbPr (2 ×)
VGA
ADC
ADC
ADC
HDTVD
VGAD
MDDi
PIP Path
DS
HDMIx3
Digital Path
MDDi DS
OSD
Control Signal (GPIO,...)
LVDS LVDS Tx
Merge
Gamma
Dithering
Color
Color
US
US
DSP
DR
AM
MU X
IC Data Sheets EN 37RAM1.0A LA 8.
2010-Mar-12
Figure 8-3 Pin configuration
18870_301_100211.eps100305
Pinning information
IC Data SheetsEN 38 RAM1.0A LA8.
2010-Mar-12
8.3 Diagram B10, TPA3101D (IC U23)
Figure 8-4 Internal block diagram and pin configuration
18930_301_100309.eps100309
Block diagram
Pinning information
325
2710
2512
PVCCRRINPPGNDRAGND
AC
CV
CN
ET
UM
PY
BV
PT
UO
RP
TU
OL
CN
CN
NR
SB
NL
SB
NT
UO
LN
TU
ORF
LU
AT
GE
RV
NW
OD
TU
HS
DN
GA
CN
CS
OR
PR
SB
PL
SB
PT
UO
RN
TU
OR
NT
UO
LP
TU
OL
PVCCR
Exposed
RINNNCNC
NCNC
PGNDRLINPVCLAMPRLINNVCLAMPLNCPGNDLGAIN0PGNDLGAIN1PVCCLMSTR/SLVPVCCLSYNC
334
289
2611
343
298
352
307
361
316
44
17
38
23
43
18
37
24
45
16
39
22
46
15
40
21
47
14
41
20
48
13
42
19
Biasesand
References
StartupProtection
Logic
VREGok
RINP
RINN
RampGenerator
ROSC
VCCok
AVCC
VREG
PWMLogic
GainControl
GainControl
LINP
LINN
SHUTDOWN
VBYP
VBYP
MSTR/SLV
PWMLogic
SYNC
AVCC
AVCC
AVCC
GainControl
GAIN0GAIN1
8
T Adj.
MUTE
FAULT
VREG
AGND
VBYPVBYP
VREGVBYP
VClampGen PVCCR
GateDrive
GateDrive
VClampGen
GateDrive
Thermal
SCDetect
PVCCR
GateDrive
BSLN
VCLAMPLPVCCL
PVCCL
BSLP
LOUTN
BSRN
VCLAMPR
PVCCRPVCCR
ROUTN
BSRP
ROUTP
PGNDR
PVCCL
PVCCL
PGNDL
LOUTP
Gain
Gain
Gain
Gain
TLL InputBuffer
TLL InputBuffer
IC Data Sheets EN 39RAM1.0A LA 8.
2010-Mar-12
8.4 Diagram B11, TL2428MC (IC U36)
Figure 8-5 Internal block diagram and pin configuration
18850_305_100107.eps100223
Block diagram
Pinning information
RLV0~6P/M
OPC + ODCTCON
mini-LVDS
TFT LCD ARRAY
SourceDriver 1
SourceDriver 2
SourceDriver 5
SourceDriver 8
InternalSSIC
VST
SOE,POL2
1RxA~E
2RxA~E
1RxCLK
2RxCLK
LVDSInput
Frame MemorySDRAM(16Mbit)
EEPROM(LUT)16Kbitor 32Kbit
SC
L
SD
A
LLV0~6P/M
14
14
GateDriver
1
GateDriver
2
GateDriver
n
Gate inpanel
1
Gate inpanel
2
Gate inpanel
n
CL
K1(
FLK
),…
,GC
LK
3(G
SC),
…,G
CL
K6
GIP
_ EN
MP
VSS
MP
VDD
RLV
0+R
LV0-
MLV
DD
RLV
1+
RL V
1-M
L VS
SR
LV2+
RLV
2-R
LV3
+R
LV3
-M
LVD
DR
LV4+
RLV
4-R
LV5+
RLV
5-
ML V
SS
RLV
6+R
LV6-
MLV
DD
LLV0
+LL
V0-
ML V
SS
L LV
1+LL
V1-
LLV
2+LL
V2-
MLV
DD
LLV
3+LL
V3-
LLV
4+LL
V4-
MLV
SS
LLV5
+LL
V5-
LLV
6+LL
V6-
MLV
DD
MLV
SS
RM
LVD
SM
PVS
SM
PVD
D
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98 97 96 95 94
93
92 91 90 89XIN 133 88 TESTB
XOUT 134 87 TESTAEOVDD 135 86 CGNDEOVSS 136 85 CVDDOPT_N 137 84 EEP_SIZE
H_CONV 138 83 NCEOVDD 139 82 GCLK6EOVSS 140 81 GCLK5
POL 141 80 NCSOE 142 79 NC
CVDD 143 78 OGNDCGND 144 77 OVDD
EOVDD 145 76 GCLK4(OPT_P)EOVSS 146 75 GCLK3CVDD 147 74 GCLK2CGND 148 73 GCLK1(GSP_R)EIVSS 149 72 CGNDEIVDD 150 71 CVDD
I2C_EN 151 70 VDD_EVEN(GOE)NC 152 69 VDD_ODD(GSC)WP 153 68 VST(GSP)
EOVSS 154 67 EIVSSEOVDD 155 66 EIVDD
OVDD 156 65 FLK1OGND 157 64 DPMCVDD 158 63 CGNDCGND 159 62 CVDD
WPWM 160 61 EIVSSREFMODE 161 60 EIVDD
LEDON 162 59 RESETEOVDD 163 58 EIVSSEOVSS 164 57 EIVSS
REVERSE 165 56 VCORESCVDD 166 55 TEST DCGND 167 54 TEST COVDD 168 53 OGNDOGND 169 52 OVDDEOVSS 170 51 CGNDEOVDD 171 50 CVDD
SDA 172 49 EIVDDSCL 173 48 EIVSS
DISM 174 47 ODC_BYPASSOVDD 175 46 MODE[ 1]OGND 176 45 MODE[ 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 32 33 34
35 36 37 38 39
40
41 42 43 44OG
ND
OV
DD
PW
M_ T
INP
WM
_ TO
UT
OP
C_ E
NC
VD
DC
GN
DL G
ND
LVD
DR
1AM
R1A
PR
1 BM
R1B
PL V
DD
R1
CM
R1C
PR
1CLK
MR
1CLK
PLG
ND
R1
DM
R1
DP
R1 E
MR
1 EP
R2A
MR
2 AP
R2
BM
R2
BP
L VD
DR
2CM
R2C
PR
2CLK
MR
2C
LKP
LGN
DR
2 DM
R2 D
PR
2EM
R2 E
PC
GN
DC
VD
DB
IT _SEL
FS
EL
RB
FO
VD
DO
GN
D
IC Data SheetsEN 40 RAM1.0A LA8.
2010-Mar-12
Personal Notes:
10000_012_090121.eps090121
Block Diagrams EN 41RAM1.0A LA 9.
2010-Mar-12
9. Block Diagrams
Wiring Diagram (32")
9P11
CN
4
8P12
CN
5
1319
1P3
1316
1P3
J6 4P
J2
8P12
J1
9P11
J10
60P
J11
60P
J3 6P8
8Z02
8Z01
CN2 CN1
3P J1
SSB(1150)B
MAIN POWER SUPPLYIPB PLHF-A961A(1005)
LCD DISPLAY(1004)
TO B
AC
KLI
GH
T
TO B
AC
KLI
GH
T
KE
YB
OA
RD
CO
NT
RO
L(1
114)
IR / LED BOARD (1112)
8561
8M20
8560
WIRING DIAGRAM 32" DALI
18930_400_100310.eps100310
HIGH VOLTAGE
Board Level Repair
Component Level RepairOnly For Authorized Workshop
J2
3P
J1
6P8
CN5 (B03C)1. +12V2. +12V3. GND14. GND15. BL ON OFF6. DIM7. Boost8. N.C.9. POK10. N.C.11. N.C.12. N.C.
CN41. N.C.2. PS ON/OFF3. GND4. GND5. GND6. +5V7. +5V8. +5V9. +12V10. GND11. N.C.
J2 (B01)1. 12VIN2. 12VIN3. GND4. GND5. BL_ON6. BL_DIM7. BL_BOOST8. N.C.9. POK10. N.C.11. N.C.12. N.C.
J1 (B01)1. N.C.2. 12VIN3. GND4. GND5. GND6. 5VIN7. 5VIN8. 5VIN.9. 12VIN10. GND11. N.C.
J6 (B10)1. L+2. L-3. R-4. R+
J3 (B06)1. ADIN32. GND3. IR4. LED25. 5VSB6. LED17. ADIN08. 5VSW
J11 (B11)1. GND| 36. 3V3TC37. 3V3TC38. GND39. H_VDD40. H_VDD41. 16VTC42. 16VTC|60. GND
J10 (B11)1. GND| 19. 16VTC20. 16VTC21. H_VDD22. H_VDD23. GND24. 3V3TC25. 3V3TC|60. GND
MAINS CORD
8191
LOUDSPEAKER RIGHT(5213)
LOUDSPEAKER RIGHT(5213)
USB
SVH
S
TUN
ER
HD
MI
HD
MI
VG
A
SHIELDING
CN1
EN 42RAM1.0A LA 9.Block Diagrams
2010-Mar-12
Wiring Diagram (42")
9P11
CN
4
8P12
CN
5
CN
2
1P3
CN
3
1P3
J6 4P
J2
8P12
J1
9P11
J10
60P
J11
60P
J3 8P
8Z01
8Z02
CN2 CN1
4P J1
SSB(1150)B
MAIN POWER SUPPLYIPB PLHF-A962A (1005)
LCD DISPLAY (1004)
TO B
AC
KLI
GH
T
TO B
AC
KLI
GH
T
MA
INS
CO
RD
KE
YB
OA
RD
CO
NT
RO
L(1
114)
IR / LED BOARD (1112)
8561
8126
8560
WIRING DIAGRAM 42" DALI
18930_401_100310.eps100310
CN5 (B03C)1. +12V2. +12V3. GND14. GND15. BL ON OFF6. DIM7. Boost8. N.C.9. POK10. N.C.11. N.C.12. N.C.
CN41. N.C.2. PS ON/OFF3. GND4. GND5. GND6. +5V7. +5V8. +5V9. +12V10. GND11. N.C.
J2 (B01)1. 12VIN2. 12VIN3. GND4. GND5. BL_ON6. BL_DIM7. BL_BOOST8. N.C.9. POK10. N.C.11. N.C.12. N.C.
J1 (B01)1. N.C.2. 12VIN3. GND4. GND5. GND6. 5VIN7. 5VIN8. 5VIN.9. 12VIN10. GND11. N.C.
J6 (B10)1. L+2. L-3. R-4. R+
J3 (B06)1. ADIN32. GND3. IR4. LED25. 5VSB6. LED17. ADIN08. 5VSW
HIGH VOLTAGE
Board Level Repair
Component Level RepairOnly For Authorized Workshop
USB
SVH
S
TUN
ER
HD
MI
HD
MI
VG
A
J2
4P
J1
8P
LOUDSPEAKER RIGHT(5213)
LOUDSPEAKER RIGHT(5213)
8126
SHIELDING
CN1
8191
J11 (B11)1. GND| 36. 3V3TC37. 3V3TC38. GND39. H_VDD40. H_VDD41. 16VTC42. 16VTC|60. GND
J10 (B11)1. GND| 19. 16VTC20. 16VTC21. H_VDD22. H_VDD23. GND24. 3V3TC25. 3V3TC|60. GND
Block Diagrams EN 43RAM1.0A LA 9.
2010-Mar-12
Block Diagram
18930_402_100311.eps100311
M AINP OW E RS UP P LY BLOCK
LCD PANEL (1920 × 1080 )
S ca ler ch ipMTK
MT8222AMMU for FHD
Ana logTuner
12 V D C
M ini-LVDS
P/I boa rd
5 V D C
DDR2 256Mb × 2NT5TU32M 16 CG-25C
A udio A mpC lass-D
(T PA 3101D 2)D C/DC
conversion
M a in boa rd
BL boost
POK
PWM
BL on/off
Co
mp
os
iteS
-Vid
eo
HD
MI2
L R
CV
BS
Au
dio
ou
t
SPI FLASH (4MB)MX25L3205DM
3V3
EDIDEDIDEDID
1V8
1V2
Power
Analogue Audio
Video &control signal
5V
5V0
IF
R /L
H/P
ou
t(O
ptio
na
l)
S A WFilter
S A WFilter
IF Decoder
TD A 9885CVBS
S IF VIF
S IF
D-S
UB
Co
mp
on
ent
B /L IN V E R TE R
DUS
B
-SU
B
Au
dio
in
Co
mp
on
ent
Au
dio
in
Co
mp
os
iteS
-Vid
eo
Au
dio
in
X1X2
X1
TCO NTL2428MC
HD
MI1
EEPRO M24C04
EEPRO M
24C32
KEY PAD I.R. REC EIVER
Audio sw itchHEF4052
EN 44RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
10. Circuit Diagrams and PWB Layouts
Power Supply Unit 32"
18930_560_100315.eps100315
32" Power Supply UnitA01 A01
2010-02-10
PLHC-A961A32" PSU
!
!
!
!
!
!
!
! !
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
NeutralLive
3V3 stdby
Standby
GND
GND
GND
DIM
BL_ON_OFF
NC
Boost
5V5V
GND
5V
12V
NC
+12V+12V
GND1
GND1
POK
NC
NC
NC
COLD
COLD
85
10
9
6
2
1
7
4
HOTCOLD
:
Current F/B
LED Block:
I_Down
I_Up
FreqUpFreq
Up
CX1020.68uF/275V
C6010.47UF/500V
1
2AC1
3AC2
4
BD601
RS205M
12
CN1(1308)
AC-inlet
F101T3.15AH 250V
C607
47uF/450V/WL
TH1013ohm 15D
1
2
3
4
LF101CV335022SS
1
2
3
4
LF102SQE2020
CX101
0.22uF/275V
D6011N5397
R61
9
680K
/201
2
R603
3.3K
C60
5
102
C60
6
102
C60
4
473
C602104
C60
3
104/
2012 R62
0
56K
/201
2
R605
33K
R60
4
10K
R613
0.36/2W
R615
2M/2012
R61
010
KS
G
D
Q602TK5P50D
R609100/2012
R60810/2012
D6031N4148W
1
2
3
4
5
6
7
8
9
10
11
CN4(1M95)
1
2
3
4
5
6
7
8
9
10
11
12
CN5(1M99)
CY
101
100p
F
CY
102
100p
F
CY103
330pF/250V
CY104
330pF/250V
D602
SUR460
R6162M/2012
R617
2M/2012
R6182M/2012
C6085pF
VA101TVR14621KSY
R10
112
0/1W
s
SA
101
TS
A60
1MA
1
C61
047
0pF
/1K
V
GND_PFC
GND_BD601
1
2
3
4
LF103SQE2020
3 25 14
6 7 8 9 10
L601
EE2020
13
FH101FB58 FUSE HOLDER
1
FB
2
CT
3
CT
RL
4
CS
5
ZC
D
6
GN
D
7D
RV
8
VC
C
U60
1
SCY99102
C60
9
102
C607A
10nF/1kV
1DRAIN
2
GND
3VCC4
VFB
5 SYNC
6VSTR
U101FSQ0465R
C1022.2nF/630V
R10347K/3W
D101UF4007
R10836K
R10712K
C109474
C10
7
105/
2012
ZD1037.5V
U201
KIA431A
R210100K
C211104
R20851
1
23
4
PC101EL817MCDT
R209560
R211240R
R2122.7K
R2132.4K
R10447K/3W
C108
56pF
R214100R
1
23
4
PC102
EL817MCDT
R1092.2K
ZD10216V
Q101KST2222AR110
10K R215470
R10510-1/2W fusible
D102UF4007
C10547uF/50V/MK
R1061K/2012
C10422uF/50V/WL
D1031N4148W
C212104
Q203KST2222A
R216220K
D104NC
R101A100K/1W
C10110nF/1kV
D202MBR20100CT
C207470pF/1KV
R20724/1W
C2082200uF/10V/WL
C210470uF/10V/MK
T201EE2821
C2021000uF/25V/WB
L2010.6UH
C205470uF/25V/MK
C2092200uF/10V/WL
C2031000uF/25V/WB
Q201
FQPF13N06
D220US1J C220
10uF/50V/WL U202KIA431BM
R2259.1K/2012R2261.6K/2012
R2272.7K/2012
R224180R
R221100K
R22220K
ZD22015V
C221104R220
33/3216
E
B
C
Q220KST2222A
C22
2
104
R228100K
E
B
C
Q221KST2222A
C223104
R22
9
220K
R230100K
R2310R0
R219150K
R23391K
R238100K/2012
CY201680pF/250V
D2221N4148W
D221
1N4148W
R2411K
1
2 3
4
PC103
EL817MCDT
ZD
104
18V
R1115.6K
R50
227
0K/2
012
R50
327
0K/2
012
R50
427
0K/2
012
R50556K
R50610K
D5021N4148W
ZD501NC
C502
NC
R50782K
S
G
D
Q5012N7002A
C503101
S
G
D
Q5032N7002A
R508560K
S
G
D
Q5042N7002A
R50
124
0K/2
012
S
G
DQ502
2N7002A
R509100K
C504105/2012C501
1uF/50V/WL
D501UF4007
R5104.7K
D503NC
C505105/2012
Q130KST2907A
Q13
1K
ST
2222
A
ZD13024V
R133
2.2K
C131
104
R130
2.2K
C130
104
R1310R0 R132
0R0
D201
SB3200
D203SB3200
R2174.7K
R20124/1W
C201470pF/1KV
C206225/2012 25V
L10.6UH
R72310K
R756680
ZD70324V
Q708
TK
5P50
D
D7531N4148W
R70768
1
10
7
6
5
4
T701
UU2758
ZD70724V
R71010K
R752680
ZD70124V
D7511N4148W
R70168
ZD70524V
R72610K
R762680
ZD70424V
D7571N4148W
R71168
ZD70824V
R71310K
R759680
ZD70224V
D7551N4148W
R70468
ZD70624V
Q706
TK
5P50
D
Q709
TK
5P50
D
Q707
TK
5P50
D
C40654pF/6.3KV
C404103
1
CN2
B03B PASK 1
1
CN3
B03B PASK 1
C405N.C
C40154pF/6.3KV
C402103
C403N.C
A
C
AC
D403BAV99
A
C
AC
D404
BAV99
R4254.7K
R4263K
C426225
S
G
D
Q4312N7002A
R42330K
R42415K
C423104
R426A1M
D426
1N4148W
KA
D431LTST-C930TBKT-LG
S
G
D
Q4322N7002A
R4342.2M
C435225/2012
D4341N4148W
D430
1N4148W
R435180R/2012
R432180R/2012
R436180R/2012
R437180R/2012
4
1
5
6
7
8
T702
UU1116
4
1
5
6
7
8
T703
UU1116
C431
105/25V/2012
C430105/25V/2012
R4676.2K
C419102
L490100uH/2012
D491
1N4148W
C490102 R491
9.1KR49030K
C491102
R490A330D492
1N4148W
S
G
D
Q410KST2222A
R4941K
R49947K
R499A0R0
C492473
B
EC
Q411KST2907A
R4960R0
A
C
AC
D402BAV99
A
C
AC
D401BAV99
E
B
CQ418KST2222A
C409103
C410103
R4061M
1 VCC
2ENA
3 VREF
4UVLS
5PWM
6 NC
7 STATUS
8 GNDA
9 CT
10RT1
11PROT
12VSEN
13ISEN
14SSTCMP
15TIMER
16GNDP
17LDR2
18HDR2
19HDR1
20LDR1
U401OZ9977B_1
R408S
27K
R415470K
R431A20K
R4312K
R42010K
R480100K
R420A200K
R4293.6K
R42
7
10K
R4122R2/2012
C431A103
C413104/50VC420A
103
C412105/2012
C412A105/2012
C418473 C418A
223
C415475/2012
C411105/2012
C407104
Q4672N7002A
R467B
1M
C467225/2012
D4671N4148W
R467A10K
R467C
0R0
R4080R0
R405120K
R410120K
R4110R0
R414120K
R413120K
D4051N4148W
D4061N4148W
R4011M
R409220K
C4082.2uF
S
G
D
Q4022N7002A
D4131N4148W
S
G
D
Q402A2N7002A
C408A2.2uF
R409B4.7K
C70
010
5/50
V/3
216
C70
110
5/50
V/3
216
C70
210
5/50
V/3
216
C70
310
5/50
V/3
216
C70
410
5/50
V/3
216
C70
510
5/50
V/3
216
C70
610
5/50
V/3
216
C70
710
5/50
V/3
216
R44147R 2012
R44247R 2012
R44347R 2012
R44447R 2012
R44547R 2012
R44647R 2012
R44747R 2012
R44847R 2012
R44947R 2012
R45347R 2012
R45447R 2012
R45547R 2012
R45647R 2012
R45747R 2012
R45847R 2012
R43847R 2012
R43947R 2012
R44047R 2012
R417A
2.7K
R417
68K
R418C0R0
R418ENC
R418D300
R418F820R
R418820R
R418G300R
R417B
0R0
R417C
NC
R4021M
R421A3.9K
R42120K
R408F82K
R408ENCR408C
0R0
R408D9.1K
R408A0R0
R408B180K
C421181/COG
C421A221/COG
C421B271/COG
R23210k
FB601
BFS3550A
C103100pF/1kV
R102
750K/1W
C206A
225/2012 25V
FB606BFS3550R
FB607BFD3565R
CY105100pF/250V
CY202220pF/250V
FB201BFD3565R
CY203220pF/250V
C110100pF/1KV
FB
605
BF
S35
50A
FB
608
BF
S35
50A
C611
47uF/450V/WL
R10
4A47
K/3
W
R506A10K
FB102
BFS3550A
FB101
BFS3550A
FB
103
BF
D35
65R
FB
104
BF
D35
65R
VCC
ST3V3
STANDBY
ADIM
DIM
INV_ON/OFF
STATUS
HOT_GND
PFC-OUTPUT
12V
5V
VCC
+5V
+12V
+5V
5VS
DRIVE
DRIVE
5VS
OVP
AC_DET STANDBY
HOT_GNDHOT_GND
HS2HS1
1GH2GH
1GL2GL
ISEN
VREFIM
STATUS
VREF+12V
HG2
HS2
HG1
HS1
LG1
LG2
LDR1
HDR1
HDR2
LDR2
IM
IS
UVLS
SSTCMP
VREF
12V
LDR1
HDR1
HDR2
LDR2
INV_ON/OFF
VREF
UVLS
DIM
CTISEN
VREF
DIM1
PROT
VREF
PROT
DIS-ARC
12V
ENA
DIS-ARC
COLD_GND COLD_GND
IS
IM
VREF
CT
STANDBY
MULTI_400
PFC-OUTPUT
SSTCMP
Circuit Diagrams and PWB Layouts EN 45RAM1.0A LA 10.
2010-Mar-12
Layout Power Supply Unit 32" (Top Side)
18930_561_100312.eps100312
2010-02-170
PLHC-A961APower Supply Unit 32"
Top
EN 46RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
Layout Power Supply Unit 32" (Bottom Side)
2010-02-170
PLHC-A961APower Supply Unit 32"
Bottom
Circuit Diagrams and PWB Layouts EN 47RAM1.0A LA 10.
2010-Mar-12
Power Supply Unit 42"
18930_550_100312.eps100315
42" Power Supply UnitA01 A01
2010-02-254
PLHF-A962A42" PSU
!
!
! !
!
!
!
! !
!
!
!
!
!
!
!
!
!
!
!
!
!
!
!
NeutralLive
COLD
COLD
3V3 stdby
PS_ON/OFF
GND
GND
GND
DIM
BL_ON_OFF
NC
Boost
5V5V
GND
5V
12V
NC
+12V+12V
GND1
GND1
POK
NC
NC
NC
EE2821HOT COLDSTATUS Block
LED Block
Current F/B
I_Down
I_Up
FreqFreqDown Up
Fusible Res
CX1020.68uF/275V
C6010.47uF/500V
1
2AC1
3AC2
4
BD601
TS4B05G
12
CN1(1308)
AC-SOCKET
C60768uF/450V/WL
TH101
3ohm 15D
1
2
3
4
LF102SQE2424
CX1010.22uF/275V
D601S3V60
32 51 4
10 9 8 7 6
L601EE2520
R61947K
R6031K
C60
5
102
C606102C
604
104
C602104
C60
3
105/
2012
R6204.7K
R605
39K
R60
4
6.8K
R6130.22/2W
R615
2M/2012
R61
010
KS
G
D
Q602TK8A50R609
200/2012
R60810/2012
D6031N4148W
CY
101
100p
F
CY
102
100p
F
CY103330pF/250V
CY104330pF/250V
D602
BYV25X-600
R616
2M/2012
R617
2M/2012
R618
2M/2012
C6085pF
VA101
TVR14621KSY
R10
212
0/1W
s SA
101
TS
A60
1MA
1
C610470pF/1KV
1
2
3
4
LF103SQE2424
C607A100pF/1kV
1
2
3
4
5
6
7
8
9
10
11
CN4(1M95)
1
2
3
4
5
6
7
8
9
10
11
12
CN5(1M99)
C60
9
221
1
FB
2
CT
3
CT
RL
4
CS
5
ZC
D
6
GN
D
7D
RV
8
VC
C
U60
1
SCY99102
1DRAIN
2
GND
3VCC4
VFB
5SYNC
6VSTR
U101FSQ0465R
C1022.2nF/630V
R10333K/3W
D101UF4007
R108 36K
R10715K
C109474
C107
105/2012
ZD1037.5V
U201
KIA431A
R210100K
C211224
R20851
1
23
4
PC101EL817MCDT R209
560
R211240R
R2122.7K
R2132.4K
R10433K/3W
C108
56pF
R214100R
1
23
4
PC102
EL817MCDT
R1092.2K
ZD10216V
Q101KST2222AR110
10K R215470
R10510/1W
D102UF4007
C10547uF/50V/MK
R106330/2012
C10422uF/50V/WL
D1031N4148W
C212104
Q203KST2222A
R216220K
D104NC
R101A100K/1W
C10110nF/1kV
C215NC
D202MBRF20U65CT
C207471/1KV
R20724/1W
C2082200UF/10V/WL
C210470uF/10V/MK
L2011.6UH
C205470uF/25V/MK
C2092200UF/10V/WL
Q201
QPF13N06
D220US1J C220
10uF/50V/WLU202KIA431BM
R2259.1K/2012
R2261.6K/2012
R2272.7K/2012
R224180R
R221100K
R22220K
ZD22015V
C221104
R22033/3216
E
B
C
Q220KST2222A
C22
2
104
R228100K
2012
E
B
C
Q221KST2222A
C223104
R22
9
220K
R230100K
R2310R0
R219150K
R23362K
R238100K/2012
CY202220pF/250V
D2221N4148W
D221
1N4148W
R2411K
1
2 3
4
PC103
EL817MCDT
ZD
104
18V
R1115.6K
R502270K/2012
R503240K/2012
R504270K/2012
R50556K
R50611K
D5021N4148W
ZD501NC
C502NC
R50782K
S
G
D
Q5012N7002A
C503101
S
G
D
Q5032N7002A
R508560K
S
G
DQ504
2N7002A
R501270K/2012
S
G
DQ502
2N7002A
R509100K
C504105/2012
C5011uF/50V/WL
D501UF4007
R5104.7k
D503NC
C505105/2012
Q130KST2907A
Q13
1K
ST
2222
A
ZD13024V
R133
3.3K
C131104
R130
3.3K
C130
104
R1310R0
R1320R0
R101
750K/1W
1
2
3
4
5 6
7
8
9
10
T201
D201SB3200
D203SB3200
C2021000uF/25V/WB
C2031000uF/25V/WB
FB603
BFD3565R
FB201BFD3565R
R20124/1W
C201471/1KV
F101
T3.15AH 250V
13
FH101FB58 FUSE HOLDER
R72310K
R756680
ZD703NC
Q708
2SK
3868
D7531N4148W
R70768
1
10
7
6
5
4
T701
UU2758
ZD707NC
R71010K
R752680
ZD701NC
D7511N4148W
R70168
ZD705NC
R72610K
R762680
ZD704NC
D7571N4148W
R71168
ZD708NC
R71310K
R759680
ZD702NC
D7551N4148W
R70468
ZD706NC
Q706
2SK
3868
Q709
2SK
3868
Q707
2SK
3868
C406100pF/6KV/J
C404103/UJ
1
CN2
B03B PASK 1
R441 22R/2012
1
CN3
B03B PASK 1
C405103/UJ
C401100pF/6KV/J
C402103/UJ
C403103/UJ
R442 22R/2012
R443 22R/2012
R444 22R/2012
R445 22R/2012
R446 22R/2012
R447 22R/2012
R448 22R/2012
R449 22R/2012
A
C
AC
D403BAV99
R453 22R/2012
R454 22R/2012
R455 22R/2012
R456 22R/2012
R457 22R/2012
R458 22R/2012
R438 22R/2012
R439 22R/2012
R440 22R/2012
A
C
AC
D404
BAV99
R4256.8K
R42630K
C426225
S
G
D
Q4312N7002A
R42330K
R42415K
C423104
R426A1M
D426
1N4148W
KA
D431LTST-C930TBKT-LG
S
G
D
Q4322N7002A
R4342.2M
C435225/2012
D4341N4148W
D430
1N4148W
R435180R/2012
R432180R/2012
R436180R/2012
R437180R/2012
C206225/2012/25V
L2020.6UH
R250
1K
R2560R0
C406A39pF/6.3KV/J
C401A39pF/6KV/J
4
1
5
6
7
8
T702
UU1116
4
1
5
6
7
8
T703
UU1116
C431
105/25V/2012
C430105/25V/2012
R4676.2K
C419102
L490
100uH/2012
D491
1N4148W
C490102 R491
9.1K
R49030K C491
102
R490A330D492
1N4148W
S
G
D
Q410KST2222A
R4941K
R49947K
R499A0R0
C492222
B
EC
Q411KST2907A
R4960R0
A
C
AC
D402BAV99
A
C
AC
D401BAV99
E
B
CQ418KST2222A
C40910nF
C41010nF
R4061M
1 VCC
2ENA
3 VREF
4 UVLS
5 PWM
6 NC
7STATUS
8 GNDA
9 CT
10 RT1 11PROT
12VSEN
13ISEN
14SSTCMP
15TIMER
16GNDP
17LDR2
18HDR2
19HDR1
20LDR1
U401OZ9977B_1
R408S
24K
R4151M
R431A20K
R4312K
R42010K
R480100K
R420A200K
R4293.6K
R42
7
10K
R4122R2/2012
C431A103
C413104/50VC420A
103
C412105/2012
C412A105/2012
C418473 C418A
223
C415225/2012
C411105/2012
C407104/2012
Q4672N7002A
R467B
1M
C467225/2012
D4671N4148W
R467A15K
R467C
0R0
R408100K
R40551K
R4100R0
R411100K
R41451K
R4130R0
D4051N4148W
D4061N4148W
R4013K
R409220K
C4082.2uF
S
G
D
Q4022N7002A
D4131N4148W
S
G
D
Q402A2N7002A
C408A2.2uF
R409B4.7K
C70
010
5/50
V/3
216
C70
110
5/50
V/3
216
C70
210
5/50
V/3
216
C70
310
5/50
V/3
216
C70
410
5/50
V/3
216
C70
510
5/50
V/3
216
C70
610
5/50
V/3
216
C70
710
5/50
V/3
216
CY201680pF/250V
R421A3K
R42120K
R408F68K
R408ENC
R408C0R0
R408D12K
R408A0R0
R408B82K
C421181/COG
C421A221/COG
C421B271/COG
R417B
2.2K
R417
47K R418C0R0
R418ENC
R418D750R R418R
820R
R4181.5K
R418G240R
R417C
0R0
R417A
NC
R506A12K
CY203220pF/250V
R103A33K/3W
C62010nF/1K Ceramic cap
FB604
BFS3550A
F201JUMP
C103100pF/1KV
FB
605
BF
S35
50A
FB606BFS3550R
FB607BFD3565R
CY105100pF/250V
C206A225/2012/25V
1
2
3
4
LF101CV335022SS
FB101
BFS3550A
FB102
BFS3550A
FB
103
BF
D35
65R
FB
104
BF
D35
65R
C61168uF/450V/WL
VCC
HOT_GND
PFC-OUTPUT
STANDBY
ADIM
DIM
INV_ON/OFF
STATUS
+12V
+5V
VCC
+5V
+12V
+5V
5VS
DRIVE
DRIVE
5VS
OVP
AC_DET
AC_DET
COLD_GND COLD_GND
HOT_GNDHOT_GND
HS2
HS1
HG2
PFC-OUTPUT
HG1
1GL2GL
IMISEN
IS
VREFIM
STATUS
VRE +12V
STANDBY
HG2
HS2
HG1
HS1
LG1
LG2
LDR1
HDR1
HDR2
LDR2
IM
IS
UVLS
SSTCMP
VREF
12V
LDR1
HDR1
HDR2
LDR2
INV_ON/OFF
VRE
UVLS
DIM
CTISEN
VREF
DIM1
PROTVREF
PROT
DIS-ARC
12V
ENA
DIS-ARC
VREF
CT
MULTI_400
SSTCMP
MULTI_400
EN 48RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
Layout Power Supply Unit 42" (Top Side)
18930_551_100312.eps100312
2010-02-254
PLHF-A962APower Supply Unit 42"
Top
Circuit Diagrams and PWB Layouts EN 49RAM1.0A LA 10.
2010-Mar-12
Layout Power Supply Unit 42" (Bottom Side)
18930_552_100312.eps100312
2010-02-254
PLHF-A962APower Supply Unit 42"
Bottom
EN 50RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
SSB: Power
18930_500_100301.eps100301
PowerB01 B01
2010-01-052
0171 2271 3203Power
BL_BOOST
BL_DIM
BL_ON
PWM_TIN BL_DIM
BL_ONBL_DIMBL_BOOST
5VIN
3V3SB
3V3SW
1V2SB
5VSB
5VSW
5VSB
1V8SW
3V3SW
3V3SW
1V0SB
3V3SB
12VIN 12VSW 3V3SW
3V3SB
3V3SB
3V3SW
5VSB
12VIN
5VSB
3V3SB
3V3SB
3V3SB
5VIN
12VIN
5VSW 5VSW 5VSW
UP358
PWM_TOUT12
GPIO258
PWM18
PWM_TIN 12
PWM08
POK 8
UP34 8
R2 1K5_FR2 1K5_F
TP57TP57
R9 5K6R9 5K6
C80.1uF/25VC80.1uF/25V
FB280 ohm/4AFB280 ohm/4A
R13 4K7R13 4K7
R62K7_FR62K7_F
TP11TP11
TP9TP9
R29NC_1K1206R
R29NC_1K1206R
R4 1K0402R
R4 1K0402R
C5 NC_0.1uF/16VC5 NC_0.1uF/16V
CE26470uF_25V
ECD10
CE26470uF_25V
ECD10
R304 00402RR304 00402R
R2971KR2971K
R191K47_F
R191K47_F
C70.1uF/16VC70.1uF/16V
TP25TP25
F2125V/5AF2125V/5A
R21NC_4K7R21NC_4K7
FB2180 ohm/4AFB2180 ohm/4A
C4560.1uF/16V0402C
C4560.1uF/16V0402C
1234567891011
J12R00-LOCK-11M
W200_11
J12R00-LOCK-11M
W200_11
1 2 3 4 5 6 7 8
S2NC_SCREW-HOLE_8S2NC_SCREW-HOLE_8
TP7TP7
R18 4K7R18 4K7
TP41TP41
FB180 ohm/4AFB180 ohm/4A
FB1680 ohm/4AFB1680 ohm/4A
C1NC_0.1uF/16VC1NC_0.1uF/16V
TP475TP4751 2 3 4 5 6 7 8
S6NC_SCREW-HOLE_8S6NC_SCREW-HOLE_8
R7NC_4K7R7NC_4K7
R290 4K7R290 4K7
C4570.1uF/16V0402C
C4570.1uF/16V0402C
TP5TP5
2
13
Q3MMBT3904LT1GQ3MMBT3904LT1G
C12NC_0.022uF/16V
C12NC_0.022uF/16V
C60.1uF/16VC60.1uF/16V
TP39TP39
CE2470uF_25V
ECD10
CE2470uF_25V
ECD10
TP6TP6
R2981K
R2981K
TP21TP21
R8 100KR8 100K
RV38
EGA1-0603-V05-B
RV38
EGA1-0603-V05-B
R16 4K7_F0603R
R16 4K7_F0603R
TP19TP19
1 2 3 4 5 6 7 8
S7NC_SCREW-HOLE_8S7NC_SCREW-HOLE_8
TP473TP473
TP29TP29
1 2 3 4 5 6 7 8
S1NC_SCREW-HOLE_8S1NC_SCREW-HOLE_8
CE7470uF_25V
ECD10
CE7470uF_25V
ECD10
EN2
VCC4
OCSET3
Output 5
FB1
Output 6
Vss 7
Vss 8
U2AP1534SGU2AP1534SG
C258330pF/50VC258330pF/50V
TP2TP2
TP22TP22
C18330pF/50VC18330pF/50V
C100.1uF/16V
C100.1uF/16V
TP56TP56
TP27TP27
TP370TP370
R14K70402R
R14K70402R
+CE4220uF/25V
+CE4220uF/25V
R331KR331K
TP37TP37
C4620.1uF/25V
0603C
C4620.1uF/25V
0603C
1 2 3 4 5 6 7 8
S5NC_SCREW-HOLE_8S5NC_SCREW-HOLE_8
R357 NC_100R357 NC_100
1
2
3
4 5
6
7
8SS
PM
OS
Q28SSG4953
SS
PM
OS
Q28SSG4953
TP33TP33
R32 100R32 100
R15 100R15 100
C171uF/25VC171uF/25V
TP13TP13
GND 8
GND 5BP 6
ADJ4
GND 7
VOUT3VIN2EN1
U3TJ3965D-ADJU3TJ3965D-ADJ
FB1880 ohm/4AFB1880 ohm/4A
FB2280 ohm/4AFB2280 ohm/4A
C20.1uF/16V
C20.1uF/16V
TP12TP12
1 2 3 4 5 6 7 8
S3NC_SCREW-HOLE_8S3NC_SCREW-HOLE_8
R121K0402R
R121K0402R
C30.1uF/16VC30.1uF/16V
R245NC_1KR245NC_1K
2
13
Q1NC_MMBT3904LT1G
Q1NC_MMBT3904LT1G
TP38TP38
R26 100R26 100
C110.1uF/16V
C110.1uF/16V
TP31TP31
R11NC_1KR11NC_1K
+CE6220uF/25V
+CE6220uF/25V
1 2
L122 uH/1.7AL122 uH/1.7A
TP8TP8
TP42TP42
C25610uF/10V0805C
C25610uF/10V0805C
R28910K0402R
R28910K0402R
2
13
Q2MMBT3904LT1GQ2MMBT3904LT1G
R341KR341K
TP24TP24
R241KR241K
R288470KR288470K
R17 1K5_F0603R
R17 1K5_F0603R
C13NC_0.1uF/16VC13NC_0.1uF/16V
D1NC_RED KPH-1608ECD1NC_RED KPH-1608EC
21
S10
SCREW-H2
S10
SCREW-H2
R28610KR28610K
C200.1uF/16VC200.1uF/16V
C14 NC_0.1uF/16VC14 NC_0.1uF/16V
R590 0R590 0
R301KR301K
TP51TP51
C90.1uF/16VC90.1uF/16V
R23 5K6R23 5K6
TP40TP40
R2911KR2911K
123456789101112
J22R00-LOCK-12M
W200_12
J22R00-LOCK-12M
W200_12
R22 100KR22 100K
TP1TP1
2
13
Q27MMBT3904LT1GQ27MMBT3904LT1G
R2944K7R2944K7
CE3470uF_25V
ECD10
CE3470uF_25V
ECD10
D231N4148WS-7-F
D231N4148WS-7-F
TP424TP424
TP32TP32
R144K70402R
R144K70402R
TP4TP4
21
S9
SCREW-H2
S9
SCREW-H2
TP30TP30
TP474TP474
R101K2_FR101K2_F
R2921KR2921K
D3B340A-13-FD3B340A-13-F
TP26TP26
TP472TP472
1 2 3 4 5 6 7 8
S4NC_SCREW-HOLE_8S4NC_SCREW-HOLE_8
C40.1uF/16VC40.1uF/16V
R27 4K7R27 4K7
C4630.1uF/25V0603C
C4630.1uF/25V0603C
TP34TP34
R31 1KR31 1K
TP10TP10
R2015K_F0603R
R2015K_F0603R
EN2
VCC4
OCSET3
Output 5
FB1
Output 6
Vss 7
Vss 8
U4AP1534SGU4AP1534SG
TP471TP471
C160.1uF/16VC160.1uF/16V
C4550.1uF/16V0402C
C4550.1uF/16V0402C
23
1
4
TO263
IN OUT
ADJ
ADJ
U1AP1084KL-13
TO263
IN OUT
ADJ
ADJ
U1AP1084KL-13
TP3TP3
TP18TP18
+CE8220uF/25V
+CE8220uF/25V
F1125V/3AF1125V/3A
TP20TP20
+CE12NC_100uF/25V
+CE12NC_100uF/25V
C2570.1uF/25V
C2570.1uF/25V
R53K92_F
R53K92_F
C150.1uF/16VC150.1uF/16V
21
S8
SCREW-H2
S8
SCREW-H2
D2B340A-13-FD2B340A-13-F
1 2
L222 uH/1.7AL222 uH/1.7A
TP28TP28
TP36TP36
R25NC_4K7R25NC_4K7
R28NC_1K1206R
R28NC_1K1206R
C191uF/25VC191uF/25V
Circuit Diagrams and PWB Layouts EN 51RAM1.0A LA 10.
2010-Mar-12
SSB: AV Input
18930_501_100301.eps100301
AV InputB02 B02
2010-01-052
0171 2271 3203AV Input
LINEOUTR
LINEOUTL COMP0_L
LINEOUTL
LINEOUTR
COMP1_L
COMP1_RCOMP0_R
AV0_L
AV0_R
MUX_CTLB
COMP0_RCOMP1_R
MUX_CTLB
MUX_CTLA
AV0_L
COMP0_L
COMP1_L
MUX_CTLA
AV0_R
LINEOUTL
LINEOUTR
12VSW
12VSW
12VSW
3V3DRV
3V3DRV
3V3DRV3V3SW
REG3V3
3V3SB3V3SB
12VSW
12VSW
VGA_L4
SOY0 8
AIN_R 8
Y1P 8
AR28
IR_OUT 7
Y0P 8
COM1 8
AL2 8
VGA_R4
CVBS1P 8
COM0 8
PB1P 8
CVBS3P 8
PB0P 8
AIN_L 8
PR1P 8
SOY1 8
CVBS2P 8
PR0P 8
INT0_8
PWM38
LINE_MUTE11
IR_ 7,8
TP222TP222
R4574K7R4574K7
R406 68K_F0603R
R406 68K_F0603R
R408 20K_F0603R
R408 20K_F0603R
TP234TP234
R407 68K_F0603R
R407 68K_F0603R
C621000pF/50VC621000pF/50V
TP248TP248
C481000pF/50V
C481000pF/50V
R8647KR8647K
C27810uF/10VC27810uF/10V
R6274K7R6274K7
TP
251
TP
251
TP238TP238
RV15EGA1-0603-V05-BRV15EGA1-0603-V05-B
2
13
Q38MMBT3904LT1GQ38MMBT3904LT1G
R6068R1_FR6068R1_F
C3515pF/50VC3515pF/50V
R73 1KR73 1K
C380.01uF/25VC380.01uF/25V
TP227TP227
R7647KR7647K
C290.01uF/25VC290.01uF/25V
TP241TP241
R5280 ohm/0.4AR5280 ohm/0.4A
R405 20K_F0603R
R405 20K_F0603R
D381N4148WS-7-F
D381N4148WS-7-F
5
2
13
4
W-RP4W-RP4
TP
261
TP
261
C230.01uF/25VC230.01uF/25V
R3980 ohm/0.4AR3980 ohm/0.4A
D211N4148WS-7-F
D211N4148WS-7-F
TP287TP287
TP283TP283
TP211TP211
TP285TP285
TP
230
TP
230
R4475_FR4475_F
R42100_FR42100_F
R5575_FR5575_F
R57 0R57 0
C3615pF/50VC3615pF/50V
123
P1
P2
45
J8NC_1R25_5MW125s_5A
J8NC_1R25_5MW125s_5A
TP
232
TP
232
C2751uF/25V
C2751uF/25V
C6110uF/10VC6110uF/10V R88 20K_F
0402RR88 20K_F
0402R
RV5EGA1-0603-V05-BRV5EGA1-0603-V05-B
R78 NC_100R78 NC_100
TP280TP280
TP237TP237
C4510uF/10VC4510uF/10V
RV3EGA1-0603-V05-BRV3EGA1-0603-V05-B
R924K7R924K7
TP264TP264
TP258TP258
C4215pF/50VC4215pF/50V
R97NC_47KR97NC_47K
C28415pF/50VC28415pF/50V
C4310uF/10VC4310uF/10V
TP271TP271
2
13
Q31MMBT3904LT1GQ31MMBT3904LT1G
TP273TP273
TP340TP340
TP606TP606
TP282TP282
R79 100R79 100
R66 1KR66 1K
R104NC_47KR104NC_47K
TP209TP209
C28515pF/50VC28515pF/50V
R8910KR8910K
C27710uF/10VC27710uF/10V
R58100_FR58100_F
C6410uF/10VC6410uF/10V
TP267TP267
TP290TP290
TP220TP220
C4047pF/50VC4047pF/50V
R103NC_47KR103NC_47K
R91 20K_F0402R
R91 20K_F0402R
C650.1uF/25V
C650.1uF/25V
D33MMSZ5234B-7-FD33MMSZ5234B-7-F
R9010KR9010K
C4600.1uF/25V0603C
C4600.1uF/25V0603C
R404 4K7R404 4K7
RV16EGA1-0603-V05-BRV16EGA1-0603-V05-B
RV14EGA1-0603-V05-BRV14EGA1-0603-V05-B
R8447KR8447K
C224700pF/50VC224700pF/50V
FB19NC_120 ohm/0.5A
0805LFB19NC_120 ohm/0.5A
0805L
TP394TP394
TP275TP275
TP244TP244
R6180 ohm/0.4AR6180 ohm/0.4A
R8547KR8547K
R95 10KR95 10K
R5980 ohm/0.4AR5980 ohm/0.4A
TP207TP207
TP350TP350
TP225TP225
C320.01uF/25VC320.01uF/25V
R3768R1_FR3768R1_F
R6375_FR6375_F
C681000pF/50VC681000pF/50V
TP
249
TP
249
TP
246
TP
246
TP203TP203
R403 100R403 100
R8047KR8047K
R8747KR8747K
C4610uF/10VC4610uF/10V
TP607TP607
TP201TP201
RV10EGA1-0603-V05-BRV10EGA1-0603-V05-B
R99NC_47KR99NC_47K
R106 4K7R106 4K7
TP288TP288
R7047KR7047K
TP235TP235
2
13
Q4MMBT3904LT1GQ4MMBT3904LT1G
TP277TP277
R94 10KR94 10K
C571000pF/50VC571000pF/50V
RV11EGA1-0603-V05-BRV11EGA1-0603-V05-B
RV12EGA1-0603-V05-BRV12EGA1-0603-V05-B
+INR1
-INR2
OUTR3
SGND4
EN5
VDD6
CN7 CP 8
PVDD 9
PGND 10
NC 11
OUTL 12
-INL 13
+INL 14
U26DRV602PWRU26DRV602PWR
TP343TP343
TP345TP345
TP
239
TP
239
TP228TP228
TP205TP205
C551000pF/50VC551000pF/50V
R47 1R47 1
R5475_FR5475_F
TP233TP233
R4375_FR4375_F
C28115pF/50VC28115pF/50V
R5368R1_FR5368R1_F
TP242TP242
RV1EGA1-0603-V05-BRV1EGA1-0603-V05-B
TP348TP348
C591000pF/50VC591000pF/50V
TP
240
TP
240
R41 0R41 0
C6610uF/25V1206C
C6610uF/25V1206C
R49100_FR49100_F
R101NC_47KR101NC_47K
C390.01uF/25VC390.01uF/25V
TP262TP262
R4004K7R4004K7
R105NC_100R105NC_100
TP265TP265
TP218TP218
R401 1KR401 1K
C370.047uF/25VC370.047uF/25V
C4115pF/50VC4115pF/50V
R593 1KR593 1K
R6575_FR6575_F
C2761uF/25VC2761uF/25V
C283150pF/50V
C283150pF/50V
C4581000pF/50V0402C
C4581000pF/50V0402C
TP272TP272
TP212TP212
R48 0R48 0
TP278TP278
TP260TP260
R398 1K6R398 1K6
TP274TP274
RV9EGA1-0603-V05-BRV9EGA1-0603-V05-B
R5168R1_FR5168R1_F
2
13
Q5MMBT3904LT1GQ5MMBT3904LT1GR67 1KR67 1K
TP270TP270
X012
X114
X215
X311
Y01
Y15
Y22
Y34
EN6
A10
B9
X 13
Y 3
VDD16 GN
D8
VEE7
U5CD4052BNSRU5CD4052BNSR
TP279TP279
1012
9
67
4
13
8
5
11
2
P2G-B-R-W-RP2G-B-R-W-R
TP223TP223
R46 1R46 1
RV13EGA1-0603-V05-BRV13EGA1-0603-V05-B
TP221TP221
R40968K_F0603R
R40968K_F0603R
RV7EGA1-0603-V05-BRV7EGA1-0603-V05-B
R7147KR7147K
R934K7R934K7
C2615pF/50VC2615pF/50V
TP
259
TP
259
TP268TP268
C214700pF/50VC214700pF/50V
R6475_FR6475_F
1011
13
G1
35
8
246
91
12
7
G2
GG
CY
P3
RCA(YWR)+S
GG
CY
P3
RCA(YWR)+S
R35 1R35 1
R7547KR7547K
C6710uF/10VC6710uF/10V
TP210TP210
R8147KR8147K
TP250TP250
TP247TP247
D391N4148WS-7-FD391N4148WS-7-F
C720.1uF/25VC720.1uF/25V
C5410uF/10VC5410uF/10V
C2791uF/25VC2791uF/25V
TP397TP397
TP286TP286
TP226TP226
RV8EGA1-0603-V05-BRV8EGA1-0603-V05-B
C28215pF/50V
C28215pF/50V
R36 1R36 1
TP284TP284
C300.01uF/25VC300.01uF/25V
TP281TP281
C3447pF/50VC3447pF/50V
RV6EGA1-0603-V05-BRV6EGA1-0603-V05-B
C280150pF/50VC280150pF/50V
RV4EGA1-0603-V05-BRV4EGA1-0603-V05-B
R7747KR7747K
TP339TP339
2
13
Q6MMBT3906LT1GQ6MMBT3906LT1G
R107 100R107 100
R102NC_47KR102NC_47K
C501000pF/50V
C501000pF/50V
TP208TP208
TP351TP351
C240.01uF/25VC240.01uF/25V
R68 1KR68 1K
TP204TP204
R96 4K7R96 4K7
TP231TP231
TP
229
TP
229
TP
236
TP
236
C2715pF/50VC2715pF/50V
C330.01uF/25VC330.01uF/25V
R41068K_F0603R
R41068K_F0603R
C250.047uF/25VC250.047uF/25V
R399 56KR399 56K
RV2EGA1-0603-V05-BRV2EGA1-0603-V05-B
TP342TP342
TP393TP393
TP
263
TP
263
C5210uF/10VC5210uF/10V
TP344TP344
TP276TP276
TP245TP245
R74 1KR74 1K
R5080 ohm/0.4AR5080 ohm/0.4A
R8247KR8247K
TP206TP206
R3880 ohm/0.4AR3880 ohm/0.4A
TP219TP219
C6310uF/10VC6310uF/10V
R72 1KR72 1K
R4575_FR4575_F
TP346TP346
TP
266
TP
266
TP202TP202
R5675_FR5675_F
C4591000pF/50V0402C
C4591000pF/50V0402C
C5310uF/10VC5310uF/10V
1012
9
67
4
13
8
5
11
2
P1G-B-R-W-RP1G-B-R-W-R
R98NC_47KR98NC_47K
R100NC_47KR100NC_47K
TP349TP349
TP200TP200
TP289TP289
R8347KR8347K
R6268R1_FR6268R1_F
TP
243
TP
243
RV17EGA1-0603-V05-BRV17EGA1-0603-V05-B
TP341TP341
TP395TP395
TP
269
TP
269
C2847pF/50VC2847pF/50V
TP224TP224
C441000pF/50VC441000pF/50V
R6947KR6947K
R4068R1_FR4068R1_F
FB15120 ohm/0.5A
0805LFB15120 ohm/0.5A
0805L
C310.047uF/25VC310.047uF/25V
EN 52RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
SSB: VGA Input
18930_502_100301.eps100301
VGA InputB03 B03
2010-01-052
0171-2271-3203VGA Input
VGA_SDAVGA_SCL
VGA_WP
WP2TC
HSYNC_IN
VGA_SDA_IN
VGA_SCL_IN
VSYNC_IN
VGA_SCL_IN
VGA_PIN4
HSYNC_IN
VSYNC_IN
VGA_PIN11
VGA_PIN4
VGA_PIN11
VGA_SDA_EDID
VGA_SDA_EDID
VGA_SCL_EDID
VGA_SCL_EDID
VGA_SDA_IN
VGA_5V
5VSW
3V3SW
VGA_5V
5VSW 5VSB
VGA_5V
VGA_5V
VGA_5V
GPIO24 8
USB_DM0 8
GPIO108
USB_DP0 8
HDMI_WP_EN 5
VSYNC 8
VGA_SCL 8VGA_SDA 8
VGA_SDA_TCON12
VGA_SCL_TCON12
WP2TC12
HSYNC 8
RP 8
SOG 8
GP 8
BP 8
COM 8
GPIO9 8
VGA_L 3
VGA_R 3
RXD0R7
TXD0R7
suggest by MTK toconnect to 5VSB
LChannel
HL 3
1L
LH
B0
H
HL
L2
X
H
X
AL
/EN
L
none
N/AT-CON I2CScaler UARTVGA EDID
Function
TP257TP257
TP173TP173
TP162TP162
RV19RV19
TP196TP196
TP185TP185
1
23
D4BAT54CD4BAT54C
C820.01uF/25VC820.01uF/25V
TP189TP189
TP256TP256
TP213TP213
FB380 ohm/4AFB380 ohm/4A
TP389TP389
R6231KR6231K
R6251KR6251K
R145 22R145 22
C840.01uF/25VC840.01uF/25V
R117NC_4K7R117NC_4K7
RV27RV27
R13075_FR13075_F
C920.1uF/16VC920.1uF/16V
D6MMSZ5237B-7-FD6MMSZ5237B-7-F
2
13
Q36MMBT3904LT1GQ36MMBT3904LT1G
C7922pF/50VC7922pF/50V
TP172TP172
TP192TP192
TP194TP194
TP215TP215
C900.1uF/16V
C900.1uF/16V
R137 510R137 510
C731000pF/50V
C731000pF/50V
RV18EGA1-0603-V05-BRV18EGA1-0603-V05-B
C850.01uF/25VC850.01uF/25V
R12575_FR12575_F
TP187TP187
TP160TP160
TP254TP254
R127 80 ohm/0.4AR127 80 ohm/0.4A
C8022pF/50VC8022pF/50V
TP183TP183
OUT8
OC5
OUT6EN 4
OUT7IN 3
IN 2
GND 1
U8TPS2041BDRU8TPS2041BDR
2
13
Q7MMBT3904LT1GQ7MMBT3904LT1G
1
2
3
45
R
L
P5WTJ-035-28ZSA0PH_2SJ1535
R
L
P5WTJ-035-28ZSA0PH_2SJ1535
R11875_FR11875_F
R115 80 ohm/0.4AR115 80 ohm/0.4A
2
13
Q8MMBT3904LT1GQ8MMBT3904LT1G
RV21EGA1-0603-V05-BRV21EGA1-0603-V05-B
C7010uF/10VC7010uF/10V
R108 1KR108 1K
TP166TP166
TP599TP599
R124 100_FR124 100_F
R132 100R132 100
X012
X114
X215
X311
Y01
Y15
Y22
Y34
EN6
A10
B9
X 13
Y 3
VDD16 GN
D8
VEE7
U774HC4052PW
TSSOP16
U774HC4052PW
TSSOP16
R624 4K7R624 4K7
R11347KR11347K
TP199TP199
R121 4K7R121 4K7
TP
190
TP
190
R126 100_FR126 100_F
C775pF/50VC775pF/50V
RV22EGA1-0603-V05-BRV22EGA1-0603-V05-B
R622 100R622 100
TP186TP186
R142 0R142 0
C4530.1uF/16V
C4530.1uF/16V
RV28RV28
TP171TP171
R6214K7R6214K7
R11410KR11410K
C2595pF/50VC2595pF/50V
R1294K7R1294K7
R128 100_FR128 100_F
TP197TP197
TP596TP596
12
2_54
JP1
2R54-1x2M2_54
JP1
2R54-1x2M
RV26EGA1-0603-V05-BRV26EGA1-0603-V05-B
TP168TP168
R1392K2R1392K2
TP158TP158
R602NC_0R602NC_0
R11247KR11247K
RV25EGA1-0603-V05-BRV25EGA1-0603-V05-B
C865pF/50VC865pF/50V
C890.1uF/16VC890.1uF/16V
R116 100_FR116 100_F
TP216TP216
RV20RV20
TP390TP390
C780.1uF/16VC780.1uF/16V
R143 0R143 0
1234
5
6
VCC
DATA-
DATA+
GND
P1
P2P7USB-A
VCC
DATA-
DATA+
GND
P1
P2P7USB-A
TP396TP396
TP598TP598
TP195TP195
TP253TP253
R6030R6030
8
CE27 100uF_25VSMDECF8
CE27 100uF_25VSMDECF
TP159TP159
R141 4K7R141 4K7
C6910uF/10VC6910uF/10V
R356 4K7R356 4K7
TP161TP161
TP184TP184
TP157TP157
TP
163
TP
163
R122 1R122 1
TP188TP188
TP255TP255
TP597TP597
R144 510R144 510
TP191TP191
C711000pF/50V
C711000pF/50V
P1
P2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
P6ZDAFA1-C5L0-4F
DSUB_15V
P6ZDAFA1-C5L0-4F
DSUB_15V
TP600TP600
C8710uF/10V
0805C
C8710uF/10V
0805C
TP170TP170
C4520.1uF/16VC4520.1uF/16V
D37MMSZ5237B-7-FD37MMSZ5237B-7-F
R123 80 ohm/0.4AR123 80 ohm/0.4A
TP174TP174TP193TP193
TP
603
TP
603
R109 1KR109 1K
R133 4K7R133 4K7
R138 22R138 22
C915pF/50VC915pF/50V
1
23
D19BAT54CD19BAT54C
RV24EGA1-0603-V05-BRV24EGA1-0603-V05-B
TP214TP214
TP164TP164
TP182TP182
R11047KR11047K
C750.1uF/16VC750.1uF/16V
R119 100R119 100
TP252TP252
TP391TP391
R11147KR11147K
TP156TP156
8CE15100uF_25VSMDECF
8CE15100uF_25VSMDECF
C935pF/50VC935pF/50V
R1311KR1311K
C814700pF/50VC814700pF/50V
R1341KR1341K
TP169TP169
TP165TP165
R1462K2R1462K2
TP601TP601
TP167TP167
VCC 8
SDA 5SCL 6
GND4
WP 7
A23A12A01
U6AT24C02BN-SH-TU6AT24C02BN-SH-T
RV23EGA1-0603-V05-BRV23EGA1-0603-V05-B
TP
602
TP
602
R135 100R135 100
TP217TP217
R140 4K7R140 4K7
R120 100R120 100
TP198TP198
TP392TP392
R136100R136100
TP112TP112
1
23
D5BAV99D5BAV99
C880.1uF/16V0402C
C880.1uF/16V0402C
C760.01uF/25VC760.01uF/25V
Circuit Diagrams and PWB Layouts EN 53RAM1.0A LA 10.
2010-Mar-12
SSB: HDMI Input
18930_503_100302.eps100302
HDMI InputB04 B04
2010-01-052
0171-2271-3203HDMI Input
CEC_IN
CEC_IN
HDMI1_SCL
CEC_IN
HDMI2_SDAHDMI1_SDAHDMI2_SCL
HDMI2_SCLHDMI_SCL1HDMI2_SDAHDMI_SDA1
HDMI1_WPHDMI_SCL2HDMI_SDA2 HDMI1_SDA
HDMI1_SCLHDMI2_WP
5VSW5VSWHDMI2_5VHDMI1_5V
3V3SB
HDMI2_5VHDMI1_5V
RX1_1 8
RX2_0 8
UP33 8
RX1_2B 8
RX1_C 8
PWR5V_28
RX2_1B 8
UP30 8
RX1_2 8
RX1_0B 8
HDMI_CEC 8
RX2_0B 8
RX2_C 8
RX1_1B 8
RX2_CB 8
RX1_0 8
RX1_CB 8
RX2_2 8
RX2_1 8
PWR5V_18
RX2_2B 8
HDMI_WP_EN 4
HDMI_SCL18HDMI_SDA18HDMI_SDA28
HDMI_SCL28
HDMI 1 HDMI 2
MTK suggestion
for layout
RV34 EGA1-0603-V05-BRV34 EGA1-0603-V05-B
TP151TP1512
13
Q14MMBT3904LT1GQ14MMBT3904LT1G
C1230.1uF/16VC1230.1uF/16V
C12747pF/50VC12747pF/50V
C13022pF/50VC13022pF/50V
12345678910111213141516171819
P3
P2
P1
P9P9RV31 EGA1-0603-V05-BRV31 EGA1-0603-V05-B
TP153TP153
TP140TP140
C1220.1uF/16VC1220.1uF/16V
RV32 EGA1-0603-V05-BRV32 EGA1-0603-V05-B
RV29EGA1-0603-V05-BRV29EGA1-0603-V05-B
2
13
Q15MMBT3904LT1GQ15MMBT3904LT1G
R19047KR19047K
C1240.1uF/16VC1240.1uF/16V
RV33 EGA1-0603-V05-BRV33 EGA1-0603-V05-B
VCC 8
SDA 5SCL 6
GND4
WP 7
A23A12A01
U15AT24C02BN-SH-TU15AT24C02BN-SH-T
R19747KR19747K
TP148TP148
R200 100R200 100
R18947KR18947K
R605 NC_0R605 NC_0
R188 1KR188 1K
TP146TP146
1
23
D13BAV99D13BAV99
R184 100KR184 100K
TP180TP180
R199 100R199 100
L11
NC12
Vcc3
L34 NC3 7GND 8
L2 9NC4 10
NC25 L4 6
U12
RClamp0524P
ESD_SLP2510P8
U12
RClamp0524P
ESD_SLP2510P8
RV35EGA1-0603-V05-BRV35EGA1-0603-V05-B
VCC 8
SDA 5SCL 6
GND4
WP 7
A23A12A01
U16AT24C02BN-SH-TU16AT24C02BN-SH-T
TP152TP152
TP177TP177
TP181TP181
1
23
D12BAT54CD12BAT54C
TP143TP143
R19110KR19110K
C12922pF/50VC12922pF/50V
R1821KR1821K
TP155TP155
C12522pF/50VC12522pF/50V
TP142TP142
12345678910111213141516171819
P3
P2
P1
P8P8
R3004K7R3004K7
R185 NC_4K7R185 NC_4K7
TP149TP149
L11
NC12
Vcc3
L34 NC3 7GND 8
L2 9NC4 10
NC25 L4 6
U14
RClamp0524P
ESD_SLP2510P8
U14
RClamp0524P
ESD_SLP2510P8
R195 100R195 100
RV30EGA1-0603-V05-BRV30EGA1-0603-V05-B
R183 100KR183 100K
R192 100R192 100
TP141TP141
L11
NC12
Vcc3
L34 NC3 7GND 8
L2 9NC4 10
NC25 L4 6
U13
RClamp0524P
ESD_SLP2510P8
U13
RClamp0524P
ESD_SLP2510P8
TP147TP147
1
23
D14BAV99D14BAV99
R19327KR19327K
1
23
D11BAT54CD11BAT54C
R3014K7R3014K7
TP150TP150
TP178TP178
TP144TP144
R604 NC_0R604 NC_0
R194 100R194 100
C1280.1uF/16VC1280.1uF/16V
TP145TP145
TP154TP154
R186 NC_4K7R186 NC_4K7
L11
NC12
Vcc3
L34 NC3 7GND 8
L2 9NC4 10
NC25 L4 6
U11
RClamp0524P
ESD_SLP2510P8
U11
RClamp0524P
ESD_SLP2510P8
R187 1KR187 1K
R1811KR1811K
C12622pF/50VC12622pF/50V
TP179TP179
R19810KR19810K
R19647KR19647K
123
D15BAT54CD15BAT54C
1
23
D16BAT54CD16BAT54C
EN 54RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
SSB: RF Tuner
18930_504_100302.eps100302
RF TunerB05 B05
2010-01-052
0171-2271-3203RF Tuner
AGC_TUNER
SCL_TUNER
SCL_TUNER
IF_TUNER
SDA_TUNER
SCL_TUNER
SDA_TUNER
IF_TUNER
IF_TUNER
SDA_TUNER
AGC_TUNER
TUNER_VCC
3V3SW
TUNER_VCC
TUNER_VCC
TUNER_VCC
B3V3SW
TUNER_VCC
TUNER_VCC
TUNER_VCC
B3V3SW
B3V3SW
12VSW
TUNER_VCC
TUNER_VCC
TCVBS_P 8
MPX18
HW_SDA8
MPX2_P8
MPX2_N8
TCVBS_N 8
HW_SCL8
I2C ADDRESS:READ is 0XC1WRITE is 0XC0
I2C ADDRESS:READ is 0X87WRITE is 0X86
XUGUAUNG suggest NC
XUGUAUNG suggest 22pF ---> 47pF
China
AP
Argentina
Video IF
Sound IF
K3953-M100
K9362-M100
Sound IF
Video IF
Sound IF
Video IF
K3953-M100
K9362-M100
M3953-M100
M9370-M100
SAW FilterTuner
HFT-8-125H098001041220
HFT-8-125H098001041220
HFT-8-13F2098001041230
2
13
Q13NC_MMBT3904LT1GQ13NC_MMBT3904LT1G
R617 1000402R
R617 1000402R
R169 33R169 33
TP322TP322
C1020.01uF/25V
C1020.01uF/25V
FB5120 ohm/0.5AFB5120 ohm/0.5A
R168 1KR168 1K
R155NC_220KR155NC_220K
TP326TP326
C4470.1uF/16V
0402C
C4470.1uF/16V
0402C
C99NC_0.1uF/16VC99NC_0.1uF/16V
R174 33R174 33
C10847pF/50VC10847pF/50V
TP300TP300
R167 NC_10R167 NC_10
TP304TP304
R285 NC_10R285 NC_10
R172 100_FR172 100_F
C1180.01uF/25VC1180.01uF/25V
C4460.1uF/16V
0402C
C4460.1uF/16V
0402C
R149NC_6K8
R149NC_6K8
C940.01uF/25VC940.01uF/25V
R150NC_6K8R150NC_6K8
C96NC_0.1uF/16VC96NC_0.1uF/16V
TP334TP334
TP303TP303
TP336TP336
TP382TP382
2
13
Q10NC_MMBT3904LT1GQ10NC_MMBT3904LT1G
C1040.01uF/25V
C1040.01uF/25V
C111 1000pF/50VC111 1000pF/50V
TP294TP294
TP332TP332
D101N4148WS-7-FD101N4148WS-7-F
R164 470_FR164 470_F
TP297TP297
C1090.47uF/16VC1090.47uF/16V
TP292TP292
TP309TP309
TP320TP320
D9NC_1SS356D9NC_1SS356
TP321TP321
8
CE19100uF_25V
SMDECF
8
CE19100uF_25V
SMDECF
C113 0.47uF/16VC113 0.47uF/16V
R158 47KR158 47K
2
13
Q29NC_MMBT3904LT1G
Q29NC_MMBT3904LT1G
R60700402R
R60700402R
2
13
Q12MMBT3904LT1GQ12MMBT3904LT1G
TP313TP313
C1120.1uF/16VC1120.1uF/16V
C970.1uF/25V
C970.1uF/25V
TP338TP338
8
CE20100uF_25VSMDECF
8
CE20100uF_25VSMDECF
12
3
54
SAW2SIF(K9362-M100)
12
3
54
SAW2SIF(K9362-M100)
AGC 9
AS 4
SCL 6
SDA 5
NC 3
+5V 7
IF 2
TH1TH1
TH2TH2
TH3TH3
TH4TH4
NC 8
NC 10
NC 11
NC 12
HF
T-8B
T1HFT-8B
HF
T-8B
T1HFT-8B
6.3
CE1847uF_25VSMDECD
6.3
CE1847uF_25VSMDECD
R179 1R179 1
C11547pF/50VC11547pF/50V
R161 330R161 330
TP331TP331
R180NC_75_FR180NC_75_F
R160 33R160 33
Y14MHzY14MHz
TP329TP329
TP316TP316
TP305TP305
R460 33R460 33
TP307TP307
R175 100R175 100
R618 1000402R
R618 1000402R
C100NC_1000pF/50VC100NC_1000pF/50V
R156NC_680KR156NC_680K
3
2
1
S
Q92N7002
S
Q92N7002
TP401TP401
TP335TP335
R284NC_6K8R284NC_6K8
C1070.1uF/16VC1070.1uF/16V
C11047pF/50VC11047pF/50V
R458 33R458 33D8
NC_1SS356D8
NC_1SS356
R171NC_33KR171NC_33K
TP327TP327
TP311TP311
TP296TP296
TP380TP380
R177100_FR177100_F
C1200.01uF/25VC1200.01uF/25V
C1190.01uF/25VC1190.01uF/25V
C950.01uF/25VC950.01uF/25V
R178NC_75_FR178NC_75_F
TP325TP325
R152NC_22KR152NC_22K
C260NC_10uF/10VC260NC_10uF/10V
C980.1uF/16VC980.1uF/16V
TP323TP323
R461 33R461 33
TP301TP301
R151NC_10KR151NC_10K
R6060R6060
TP347TP347
TP319TP319
FB20120 ohm/0.5A
0805LFB20120 ohm/0.5A
0805L
C1050.22uF/25VC1050.22uF/25V
TP293TP293
R159100KR159100K
R459 33R459 33
R165NC_4K7R165NC_4K7
R303 NC_10KR303 NC_10K
C103390pF/50V
C103390pF/50V
C101NC_0.1uF/16VC101NC_0.1uF/16V
R173 100_FR173 100_FC114 4.7pF_50V
0402CC114 4.7pF_50V
0402C
TP315TP315
TP302TP302
R176NC_75_FR176NC_75_F
C269 NC_1000pF/50VC269 NC_1000pF/50V
OP13
FMPLL4
VIF11
DEEM5
DGND7
VIF22
AUO8
TOP9
AFD6
SIOMAD12 NC 13
SDA10
SCL11 TAGC 14
REF 15
VAGC 16
CVBS 17
AGND 18
VPLL 19
VP 20
AFC 21
OP2 22
SIF1 23
SIF2 24
U10TDA9885TSV5U10TDA9885TSV5
R463 33R463 33
TP333TP333
R147NC_4K7R147NC_4K7
R601NC_12KR601NC_12K
3
2
1
S
Q112N7002
S
Q112N7002
TP299TP299
+CE16100uF/25V
+CE16100uF/25V
R598 0R598 0
D20NC_1SS356D20NC_1SS356
1 2
L3NC_10 uH/140mAL3NC_10 uH/140mA
C1061500pF/50VC1061500pF/50V
TP379TP379
31
2
TO252
IN OUT
GND
FIX
U9KIA7805AF
TO252
IN OUT
GND
FIX
U9KIA7805AF
R280NC_680KR280NC_680K
TP298TP298
R163 33R163 33
R157 24KR157 24K
TP306TP306
R462 33R462 33
TP312TP312
R153NC_4K7R153NC_4K7
R170NC_220
R170NC_220
C11622pF/50V
C11622pF/50V
TP318TP318
TP337TP337
TP317TP317
FB4120 ohm/0.5AFB4120 ohm/0.5A
+CE17
100uF/25V
+CE17
100uF/25V
TP308TP308
R281NC_220KR281NC_220K
TP310TP310
R1544K7R1544K7
R465 33R465 33
TP324TP324
TP295TP295
TP314TP314
D7NC_1SS356D7NC_1SS356
C11722pF/50VC11722pF/50V
TP330TP330
R1625K6R1625K6
TP328TP328
12
3
54
SAW1VIF(K3953-M100)
12
3
54
SAW1VIF(K3953-M100)
R283NC_10KR283NC_10K
+
CE21NC_100uF/25Vsmdecd
+
CE21NC_100uF/25Vsmdecd
C1210.01uF/25VC1210.01uF/25V
R166NC_75_FR166NC_75_F
R1484K7R1484K7
R464 33R464 33
Circuit Diagrams and PWB Layouts EN 55RAM1.0A LA 10.
2010-Mar-12
SSB: Keyboard/LED/IR Interface
18930_505_100302.eps100302
Keyboard/LED/IR InterfaceB06 B06
2010-01-052
0171-2271-3203Keyboard/LED/IR Interface
LED1LED1
LED2
LED2
5VSW
3V3SB
12VIN 3V3SB
3V3SB
5VSB
3V3SB
5VSB 3V3SB3V3SB
3V3SB
3V3SB
REG3V3
ADIN0 8
ADIN3 8
RXD0 8
TXD0 8
RXD1 8
TXD1 8
RXD0 8TXD0 8
PWR_DOWN 8
IR_OUT 3
IR_ 3,8
GPIO238
GPIO208
TXD0R 4RXD0R 4
D17MMSZ5237B-7-FD17MMSZ5237B-7-F
R205 100R205 100
TP63TP63
R615 NC_1000603R
R615 NC_1000603R
R456 10KR456 10K
C1331000pF/50V
C1331000pF/50V
TP605TP605
R2024K7R2024K7
2
13
Q37MMBT3904LT1GQ37MMBT3904LT1G
R21315K0402R
R21315K0402R
TP23TP23
R206 100R206 100
R614 NC_1000603R
R614 NC_1000603R
R203 4K7R203 4K7
R448NC_10KR448NC_10K
C1341000pF/50V
C1341000pF/50V
TP426TP426
R6134K70402R
R6134K70402R
TP416TP416
TP68TP68
2
13
Q18MMBT3904LT1GQ18MMBT3904LT1G
R209 100R209 100
FB7120 ohm/0.5AFB7120 ohm/0.5A
C1371000pF/50V
C1371000pF/50V
TP59TP59
TP175TP175
R210 100R210 100
TP15TP15R220 1000603R
R220 1000603R
R222 1000603R
R222 1000603R
R454NC_10KR454NC_10K
TP17TP17
TP69TP69
TP423TP423
FB6120 ohm/0.5A
FB6120 ohm/0.5A
R2184K70402R
R2184K70402R
R207 4K7R207 4K7
C1380.22uF/25VC1380.22uF/25V
TP16TP16
TP421TP421
TP64TP64
TP415TP415
R6264K7R6264K7
R452NC_10KR452NC_10K
TP354TP354
TP425TP425
R221 22R221 22
TP67TP67
1
2
3
45
R
L
P10WTJ-035-28ZSAPH_2SJ1535
R
L
P10WTJ-035-28ZSAPH_2SJ1535
TP60TP60
TP356TP356
R443NC_10KR443NC_10K
C299NC_0.1uF/16VC299NC_0.1uF/16V
R223 22R223 22
2
13
Q17MMBT3904LT1G
Q17MMBT3904LT1G
TP58TP58
2
13
Q16MMBT3906LT1GQ16MMBT3906LT1G
C1351000pF/50V
C1351000pF/50V
RV36EGA1-0603-V05-B
0603VAR
RV36EGA1-0603-V05-B
0603VAR
C296NC_0.1uF/16VC296NC_0.1uF/16V
R2014K7R2014K7
TP604TP604
TP62TP62
R212 100R212 100
TP176TP176
C1361000pF/50V
C1361000pF/50V
2
13
Q33NC_MMBT3904LT1G
Q33NC_MMBT3904LT1G
R214 681_FR214 681_F
R204 0R204 0
R2161KR2161K
TP420TP420
C1321uF/25VC1321uF/25V
2
13
Q35MMBT3904LT1GQ35MMBT3904LT1G
12345678
J32R00-LOCK-8M
W200_8
J32R00-LOCK-8M
W200_8
TP66TP66
RV37EGA1-0603-V05-B0603VAR
RV37EGA1-0603-V05-B0603VAR
D18NC_MMSZ5226BD18NC_MMSZ5226B
TP14TP14R2151KR2151K
R441NC_10KR441NC_10K
TP353TP353
TP71TP71
TP61TP61
R20815K0402R
R20815K0402R
1234
J42R00_1X4MJ42R00_1X4M
R211 100R211 100
TP291TP291TP65TP65
TP70TP70
TP355TP355
C1311uF/25VC1311uF/25V
R2174K70402R
R2174K70402R
R6124K70402R
R6124K70402R
EN 56RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
SSB: MT8222
18930_506_100302.eps100302
MT8222B07 B07
2010-01-052
0171-2271-3203MT8222
SPI_CS0R
XTALO
SPI_SIR
VMID
SPI_WP
PWM2
HW_SDA
XTALI
PW
M2
RDQ4
RBA1
SPI_SCK
GP
IO6
PR
ST
#
RDQ5
RDQ13
SPI_SCKR
SPI_SIR
RA8
RA5RA4
RDQ15
RA11
RRAS#
RBA0
XTALO
I2S_AOSDATA0
SP
I_S
I
RDQM0
RDQ12
VMID
SPI_WP
RDQS1
RCAS#
RA3
GPIO6
RDQ7
RDQ10
RDQS0
RDQ14
RDQ6
RDQ9
SPI_CS0R
SPI_SCK
RA9
XTALI
SPI_WP
RDQ0
RDQ11
RCKE
SP
I_S
O
RCLK0
RA10RA0RA1
RA2
SPI_SCK
SP
I_C
S0
RDQ8
RA7
SPI_SOR
SP
I_S
CK
RA12
AVICM
SPI_SI
RDQ1
RDQ3
RDQM1
RCLK0#
RA6
SPI_SI
SPI_SO
RDQ2
RWE#
RCS#
SPI_CS0
HW_SCL
PRST#
AVICM
SPI_SCKRSPI_SOR
AVDD33_ADAC
VDD33
AVDD33_REFP_AADC
AVDD33_SIF
VDD33
1V0SB
VDD33
VD
D33
AVDD12_PLL
AVDD33_DIG
3V3SB
1V0SB
3V3SW
AVDD33_LVDS
AVDD33_ADAC
1V0SB
3V3SB
AVDD33_SIF AVDD33_AADC
3V3SB AVDD33_CVBS AVDD33_XTAL
AVDD33_REFP_AADCAVDD33_DIG
3V3SB
1V2SB
AVDD33_USB
AVDD33_HDMI
1V2SB3V3SB
AVDD12_MEMPLL
AVDD12_PLL
1V8SW
VDD333V3SB
RVREF0
AVDD12_USB
AVDD12_RGB
AVDD12_VPLL
1V2SB
1V2SB
AVDD33_VGA
AVDD12_LVDS
3V3SB
AVDD12_HDMI
AVDD12_DIG_RGB1V2SB 1V2SB
1V8SW
1V0SB
1V0SB
AV
DD
33_U
SB
AVDD33_CVBS
AVDD33_AADC
AVDD33_XTAL
1V0S
B
1V0S
B
1V8SW
1V8SW
1V0SB
AV
DD
12_R
GB
1V8SW
1V8SW
1V8SW
1V8SW
1V8SW
AV
DD
33_L
VD
S
AV
DD
12_V
PLL
AV
DD
12_H
DM
I
AV
DD
33_V
GA
1V8SW
AVDD12_MEMPLL
AV
DD
12_U
SB
1V8SW
3V3SB
AV
DD
12_L
VD
S
1V8SW
RVREF0
AV
DD
33_H
DM
I
AV
DD
12_D
IG_R
GB
1V0SB
1V0S
B
1V8SW
AV
DD
33_L
VD
S
REG3V35VSB
REG3V3
REG3V3
REG3V3
VDD33
AVDD33_ADAC
VD
D33
HS
YN
C4
I2S_AOMCLK 11
UP
335
GPIO23 7
E2P
10
CO
M0
3
O4N
10
RX
2_C
5
RP
4
E2N
10
RX
1_2B
5
HW_SDA 6
GP
4
RX
1_2
5
VS
YN
C4
GP
IO2
12
GPIO21 11O
CK
N10
UP
352
US
B_D
P0
4
HD
MI_
SD
A1
5
AL2 3
RX
2_2B
5
GP
IO4
10
O2P
10
INT
0_3
GP
IO0
10PWM0 2
CO
M4
RX
1_0B
5
TCVBS_N 6
PB
0P3
EC
KN
10
E4N
10
I2S_AOSDATA0 11
IR_
3,7
OC
KP
10
UP
342
E4P
10
O1P
10
TXD1 7
AR1 11
GP
IO10
4
HW_SCL 6
O3N
10
E1N
10
E3N
10
RX
2_0B
5
O3P
10
Y1P
3
HD
MI_
SD
A2
5
UP
305
EC
KP
10
GPIO20 7
US
B_D
M0
4
AL1 11
SO
G4
I2S_AOLRCK 11
O2N
10
O4P
10
PW
R5V
_25
PW
M3
3
E0N
10
PWM1 2R
X2_
CB
5
HD
MI_
SC
L15
RX
2_2
5
RX
1_C
B5
HD
MI_
SC
L25
E3P
10
BP
4
RX
2_1
5
RX
1_C
5I2S_AOBCLK 11
RX
1_0
5R
X1_
1B5
RX
1_1
5
PW
R5V
_15
O1N
10R
X2_
1B5
PR
1P3
PR
0P3
E0P
10
GPIO25 2
Y0P
3
TCVBS_P 6
CO
M1
3
PWR_DOWN 7
SO
Y1
3
SO
Y0
3
E1P
10
PB
1P3
RDQS[0:1] 9
RDQ[0:15] 9
RCS# 9
RWE# 9RCKE 9
RBA[0:1] 9
RRAS# 9
RCLK0 9
RCAS# 9
RA[0:12] 9
RCLK0# 9
RDQM[0:1] 9
ADIN3 7
MPX2_N 6MPX1 6
GPIO24 4
RXD1 7
CVBS1P 3
AR2 3
CVBS2P 3CVBS3P 3
AIN_L 3AIN_R 3
ADIN0 7
MPX2_P 6
PO
K2
GP
IO9
4
O0P
10O
0N10
HD
MI_
CE
C5
RX
2_0
5
GPIO6R 11
VGA_SDA
VGA_SCL
RX
D0
7T
XD
07
33V / BOOST
AMP MUTE
NVRAM /TUNER
BL ON
DIMMING
EDIDWP
DTV
R242 100R242 100
C1470.1uF/16VC1470.1uF/16V
C1940.1uF/16V
C1940.1uF/16V
TP371TP371TP373TP373
C1690.1uF/16VC1690.1uF/16V
C1800.1uF/16V
C1800.1uF/16V
C19810uF/10VC19810uF/10V
TP362TP362
R237 0R237 0
TP55TP55
TP50TP50
C1610.1uF/16VC1610.1uF/16V
C1530.1uF/16VC1530.1uF/16V
R255 100R255 100
TP381TP381
TP429TP429
R243 100R243 100
R224 0R224 0
TP376TP376
R619NC_1000402R
R619NC_1000402R
TP407TP407
R2621KR2621K
C1550.1uF/16VC1550.1uF/16V
CVBS_SC1 1CVBS_SY1 2CVBS_SC0 3CVBS_SY0 4
CVBS3P 5CVBS2P 6CVBS1P 7CVBS0P 8CVBS0N 9
CVBS_BYPASS0 10CVBS_BYPASS1 11
AVDD33_CVBS 12AVDD33_SIF 13
MPX2_P 14MPX2_N 15
MPX1 16AVDD33_DIG 17
ADIN0 18ADIN1 19ADIN2 20ADIN3 21ADIN4 22ADIN5 23
AVDD33_XTAL 24XTALO 25XTALI 26
AVDD12_DMPLL 27AVDD12_PSPLL 28
AVDD12_ADCPLL 29AVDD12_SYSPLL 30
AVDD12_APLL 31AVDD33_AADC 32
VMID 33AIN_L 34AIN_R 35
AVDD33_REFP_AADC 36AVDD33_ADAC 37
AL3 38AR3 39AL2 40AR2 41
AVICM2 42AL1 43AR1 44
DVDD10_3 45VDD33_1 46
I2S_AOMCLK 47I2S_AOLRCK 48I2S_AOBCLK 49
I2S_AOSDATA0 50I2S_ADIN 51
GPIO20 52GPIO21 53GPIO22 54GPIO23 55GPIO24 56GPIO25 57
HW_SDA 58HW_SCL 59
RXD1 60TXD1 61
SPDIF_OUT 62PWM0 63PWM1 64
VGA_SCL192VGA_SDA191VDD33_2190DVDD10_2189RVREF0188VCC2IO_1187RA3186RA2185DVDD10184RA1183RA0182RA10181RBA1180RBA0179RCS#178RRAS#177RCAS#176RWE#175RA4174RA5173RA6172RA7171RA8170RA9169VCC2IO_2168RA11167RA12166RCKE165VCC2IO_2164RCLK0163RCLK0#162VCC2IO_1161AVDD12_MEMPLL_1160RDQ15159RDQ14158RDQ13157VCC2IO_2156RDQ12155RDQ11154RDQ10153VCC2IO_2152RDQ9151RDQ8150VCC2IO_2149RDQS1148VCC2IO_2147RDQM1146DVDD10_2145RDQM0144VCC2IO_2143RDQS0142VCC2IO_3141RDQ7140RDQ6139RDQ5138VCC2IO_2137RDQ4136RDQ3135RDQ2134VCC2IO_2133RDQ1132RDQ0131DVDD10_2130DVDD10_2129
AV
DD
12_R
GB
256
AV
DD
12_D
IG_R
GB
255
PR
0P25
4P
B0P
253
CO
M0
252
Y0P
251
SO
Y0
250
PR
1P24
9P
B1P
248
CO
M1
247
Y1P
246
SO
Y1
245
AV
DD
33_V
GA
244
RP
243
CO
M24
2G
P24
1S
OG
240
BP
239
HS
YN
C23
8V
SY
NC
237
AV
DD
12_H
DM
I_3
236
RX
0_2
235
RX
0_1
233
RX
0_2B
234
RX
0_1B
232
RX
0_0
231
RX
0_C
229
RX
0_0B
230
RX
0_C
B22
8H
DM
I_S
CL0
227
HD
MI_
SD
A0
226
PW
R5V
_022
5R
X1_
222
4
RX
1_1
222
RX
1_2B
223
RX
1_1B
221
RX
1_0
220
RX
1_C
218
RX
1_0B
219
RX
1_C
B21
7A
VD
D33
_HD
MI
216
HD
MI_
SC
L121
5H
DM
I_S
DA
121
4P
WR
5V_1
213
RX
2_2
212
RX
2_1
210
RX
2_2B
211
RX
2_1B
209
RX
2_0
208
RX
2_C
206
RX
2_0B
207
RX
2_C
B20
5H
DM
I_S
CL2
204
HD
MI_
SD
A2
203
PW
R5V
_220
2H
DM
I_C
EC
201
DV
DD
1020
0U
SB
_DP
119
9U
SB
_DM
119
8A
VD
D12
_US
B19
7U
SB
_VR
T19
6A
VD
D33
_US
B19
5U
SB
_DP
019
4U
SB
_DM
019
3
PW
M2
65P
WM
366
ICE
67P
RS
T#
68S
PI_
CS
069
SP
I_S
O70
SP
I_S
I71
SP
I_S
CK
72S
PI_
CS
173
INT
0_74
IR_
75R
XD
076
TX
D0
77U
P30
78U
P31
79U
P33
80U
P34
81U
P35
82V
DD
33_1
83D
VD
D10
_484
AV
DD
12_V
PLL
85T
P86
E4P
87E
4N88
E3P
89E
3N90
EC
KP
91E
CK
N92
AV
DD
33_L
VD
SB
93E
2P94
E2N
95E
1P96
E1N
97E
0P98
E0N
99A
VD
D12
_LV
DS
100
O4P
101
O4N
102
O3P
103
O3N
104
OC
KP
105
OC
KN
106
AV
DD
33_L
VD
SA
107
O2P
108
O2N
109
O1P
110
O1N
111
O0P
112
O0N
113
DV
DD
10_3
114
DV
DD
10_3
115
VD
D33
_211
6G
PIO
011
7G
PIO
111
8G
PIO
211
9G
PIO
312
0G
PIO
412
1G
PIO
512
2G
PIO
612
3G
PIO
712
4G
PIO
812
5G
PIO
912
6G
PIO
1012
7G
PIO
1112
8
EPAD_GND257
MT8222AMMU/AU17MT8222AMMU/AU17
TP388TP388
C1640.1uF/16VC1640.1uF/16V
1 2
Y227MHZY227MHZ
R230 0R230 0
C1710.1uF/16VC1710.1uF/16V
C1490.1uF/16VC1490.1uF/16V
R228 0R228 0
C19522pF/50VC19522pF/50V
R2641KR2641K
R244 100R244 100
C1870.1uF/16VC1870.1uF/16V
C1740.1uF/16VC1740.1uF/16V
C192 0.047uF/25VC192 0.047uF/25V
TP360TP360
C1660.1uF/16VC1660.1uF/16V
TP
419
TP
419
C1974.7uF/10VC1974.7uF/10V
TP405TP405
23
1
4
SOT223
ADJ
IN OUT
ADJ
U38AP1117EL-13
SOT223
ADJ
IN OUT
ADJ
U38AP1117EL-13
TP368TP368
C1590.1uF/16VC1590.1uF/16V
C19622pF/50VC19622pF/50V
TP352TP352
TP
418
TP
418
R241 100R241 100
R231
0
R231
0
+CE24
100uF/25V
+CE24
100uF/25VTP384TP384
C16510uF/10V
C16510uF/10V
C1460.1uF/16VC1460.1uF/16V
C2030.1uF/16VC2030.1uF/16V
TP378TP378
C18912pF_50V0603C
C18912pF_50V0603C
C1510.1uF/16VC1510.1uF/16V
R261 NC_0R261 NC_0
TP53TP53
TP383TP383
R258NC_10KR258NC_10K
TP374TP374
C1440.1uF/16VC1440.1uF/16V
C1580.1uF/16VC1580.1uF/16V
3
2
1
S
Q202N7002
S
Q202N7002
C18815pF_50V0603C
C18815pF_50V0603C
TP398TP398
TP372TP372
R26047KR26047K
C191 NC_22pF/50VC191 NC_22pF/50V
R227 0R227 0
C1630.1uF/16VC1630.1uF/16V
R232 0R232 0
TP367TP367
C1600.1uF/16VC1600.1uF/16V
+CE36100uF/25V
+CE36100uF/25V
C1540.1uF/16VC1540.1uF/16V
TP361TP361
R229 0R229 0
C1824.7uF/10VC1824.7uF/10V
C193 1uF/25VC193 1uF/25V
C2024.7uF/10V
C2024.7uF/10V
R279 100R279 100
TP402TP402
C1790.1uF/16VC1790.1uF/16V
2
13
Q21MMBT3904LT1GQ21MMBT3904LT1G
R226 0R226 0
R2659K1_FR2659K1_F
C14810uF/10VC14810uF/10V
C1620.1uF/16VC1620.1uF/16V
R2565K11_FR2565K11_F
TP358TP358
TP410TP410
R235 0R235 0
TP406TP406
C1760.1uF/16VC1760.1uF/16V
TP412TP412
C1724.7uF/10VC1724.7uF/10V
TP408TP408
R247 NC_10KR247 NC_10K
R25910KR25910K
TP
417
TP
417
R257 10KR257 10K
Shield1
Shield2
Shield3 Shield 5
Shield 6
Shield 4
Shield 7
U17H2NC_SMALL SHIELDINGU17H2NC_SMALL SHIELDING
C1560.1uF/16VC1560.1uF/16V
C1840.1uF/16VC1840.1uF/16V
C1750.1uF/16VC1750.1uF/16V
TP387TP387
R248 0R248 0
C1700.01uF/25VC1700.01uF/25V
C2010.1uF/16VC2010.1uF/16V
TP385TP385
R278 NC_10KR278 NC_10K
TP377TP377
GND1
nRESET2VCC 3
U21NC_MAX809STRGU21NC_MAX809STRG
TP428TP428
TP375TP375
TP414TP414
R236 0R236 0
R250 0R250 0R249 68R249 68
R238 820KR238 820K
TP359TP359
C1780.1uF/16VC1780.1uF/16V
R263 0R263 0
C1410.1uF/16VC1410.1uF/16V
TP363TP363
TP400TP400
C1770.1uF/16VC1770.1uF/16V
VCC 8
SDA 5SCL 6
GND4
WP 7
A23A12A01
U20AT24C32CN-SH-TU20AT24C32CN-SH-T
R246 NC_10KR246 NC_10K
C1684.7uF/10VC1684.7uF/10V
R25310KR25310K
TP366TP366
C20010uF/10VC20010uF/10V
TP404TP404
C1830.1uF/16VC1830.1uF/16V
C1520.1uF/16VC1520.1uF/16V
C1430.1uF/16VC1430.1uF/16V
TP386TP386
C1810.1uF/16VC1810.1uF/16V
R610180_F0603R
R610180_F0603R
2
13
Q19MMBT3904LT1GQ19MMBT3904LT1G
C1400.1uF/16VC1400.1uF/16V
C1860.1uF/16VC1860.1uF/16V
CS_1
SO2
W_3
GND4 SI 5SCK 6
HOLD_ 7VCC 8
U19MX25L3205DM2I-12GU19MX25L3205DM2I-12G
R25110KR25110K
C2550.01uF/25VC2550.01uF/25V
TP365TP365
R234 0R234 0
C1500.1uF/16VC1500.1uF/16V
R609110_F0603R
R609110_F0603R
R239NC_100R239NC_100
TP409TP409
C1674.7uF/10VC1674.7uF/10V
C1990.1uF/16VC1990.1uF/16V
C1734.7uF/10VC1734.7uF/10V
C13910uF/10VC13910uF/10V
+CE35
100uF/25V
+CE35
100uF/25V
R25210KR25210K
C1900.1uF/16V
C1900.1uF/16V
TP399TP399
R233 0R233 0
TP357TP357
R240 10KR240 10K
C1570.1uF/16VC1570.1uF/16V
C1850.1uF/16VC1850.1uF/16V
C1450.1uF/16VC1450.1uF/16V
TP369TP369
TP413TP413
TP54TP54
R225 0R225 0
TP427TP427
TP411TP411
TP403TP403
C1420.1uF/16VC1420.1uF/16V
R620NC_1000402R
R620NC_1000402R
FB8120 ohm/0.5AFB8120 ohm/0.5A
R254 100R254 100
Circuit Diagrams and PWB Layouts EN 57RAM1.0A LA 10.
2010-Mar-12
SSB: DDR2 DRAM
18930_507_100302.eps100302
DDR2 DRAMB08 B08
2010-01-052
0171-2271-3203DDR2 DRAM
A4R
RCLK0#
WE#R
BA0R
RA7
A12R
A8R
RA6
RA11
RRAS#
RDQM1RDQM0
A1R
CS#R
A2R
CAS#R
CKERRA3
RODT
A3R
A10R
A4R
A9R
RA12
WE#R
A5R
RDQ6
A11R
RBA0
A5R
A2R
RDQS1
CS#R
RDQ4A1R
RA0
A3R
RA4
A6R
RCLK0
BA0R
RDQ0
RDQ2
RDQ7RDQ3
RODTCAS#R
RDQ1
A10R
A0R
RWE#
A12R
BA1R
RDQ14RDQ9
RDQ15
RCKE
A0R
RDQ12
RDQ8
BA1R
RA8
A7R
RA2
RDQ10
RA5A6R
RA1
RCAS#
A9R
RAS#R
CLK0R
RA10
A7R
RAS#R
RBA1
RA9
RCS#
A8R
CLK0#RRDQS0
RDQ13
RDQ11
A11R
CKER
RDQ5
CLK0R
CLK0#R
1V8SW
1V8SW
RVREF0
RVREF0
1V8SW
1V8SW
RCKE 8
RDQS[0:1] 8
RDQ[0:15] 8
RWE# 8
RA[0:12] 8
RCAS# 8
RCLK0# 8
RDQM[0:1] 8
RCS# 8RRAS# 8
RBA[0:1] 8
RCLK0 8
RN2 22RN2 22
C2163300pF/50VC2163300pF/50V
C2183300pF/50VC2183300pF/50V
RN4 22RN4 22
C2090.1uF/16VC2090.1uF/16V
C2200.1uF/16VC2200.1uF/16V
RN1 22RN1 22
C2173300pF/50VC2173300pF/50V
C21910uF/10VC21910uF/10V
C2070.1uF/16VC2070.1uF/16V
R271 22R271 22
VDDA1
NCA2
VSS A3
VSSQ A7
UDQSA8
VDDQA9
DQ14B1
VSSQ B2
UDMB3
UDQSB7
VSSQ B8
DQ15B9
VDDQC1
DQ9C2
VDDQC3
VDDQC7
DQ8C8
VDDQC9
DQ12D1
VSSQ D2
DQ11D3DQ10D7
VSSQ D8
DQ13D9
VDDE1
NCE2
VSS E3
VSSQ E7
LDQSE8
VDDQE9
DQ6F1
VSSQ F2
LDMF3
LDQSF7
VSSQ F8
DQ7F9
VDDQG1
DQ1G2
VDDQG7
DQ0G8
VDDQG9
DQ4H1
VSSQ H2
DQ3H3DQ2H7
VSSQ H8
DQ5H9
VDDLJ1
VREFJ2
VSS J3
VSSDL J7
CK J8
VDDJ9
CKEK2 WE K3RAS K7
CK K8
ODT K9
NC/BA2 L1
BA0 L2
BA1 L3
CAS L7CS L8
A10/AP M2
A1 M3
A2 M7
A0 M8
VDDM9 VSS N1
A3 N2
A5 N3
A6 N7
A4 N8
A7 P2
A9 P3
A11 P7
A8 P8
VSS P9VDDR1
A12 R2
NC/A14 R3
NC/N15 R7
NC/A13 R8
VDDQG3
U22
NT5TU32M16CG-25C
U22
NT5TU32M16CG-25C
C2153300pF/50VC2153300pF/50V
RN3 22RN3 22
C2050.1uF/16VC2050.1uF/16V
C2213300pF/50VC2213300pF/50V
RN5 22RN5 22
R2661K_FR2661K_F
R268NC_1KR268NC_1K
C20410uF/10VC20410uF/10V
C2080.1uF/16VC2080.1uF/16V
R272100_FR272100_F
C2060.1uF/16VC2060.1uF/16V
R273 22R273 22
C2123300pF/50VC2123300pF/50V
R270 22R270 22
C2100.1uF/16VC2100.1uF/16V
C2143300pF/50VC2143300pF/50V
R2671K_FR2671K_F
R2691KR2691K
C2133300pF/50VC2133300pF/50V
C2110.1uF/16VC2110.1uF/16V
EN 58RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
SSB: LVDS Output
18930_508_100302.eps100302
LVDS OutputB09 B09
2010-01-052
0171-2271-3203LVDS Output
O4P
O1N
E2P
O3P
E1N
E3P
O3N
E0N
ECKP
OCKN
O2N
E2N
O2P
O0P
E0P
E3N
E4N
O4N
LVDS15
E1P
ECKN
E4PLVDS19
O1P
OCKP
O0N
LVDS13LVDS17
LVDS13
LVDS17LVDS19
LVDS15
PANEL_VDD
PANEL_H
12VIN
PANEL_H
PANEL_VDD
PANEL_VDD
PANEL_H PANEL_H
PANEL_H
5VIN
3V3SW
PANEL_VDDPANEL_VDD
O1PTC 12
E0NTC 12E0PTC 12
E2PTC 12
E1NTC 12
O0NTC 12
O3PTC 12
E2NTC 12
OCKPTC 12
O2NTC 12
E3NTC 12
E4PTC 12
E1PTC 12
ECKNTC 12
O1NTC 12
E4NTC 12E3PTC 12
GPIO48
O4PTC 12
ECKPTC 12
O4NTC 12
O3NTC 12
OCKNTC 12
O0PTC 12
O2PTC 12GPIO0 8
O0N8O0P8O1N8O1P8
O2P8O2N8
OCKP8OCKN8
O4N8O4P8
O3P8O3N8
E0P8E0N8
E1N8E1P8
E2P8
ECKP8ECKN8
E2N8
E4N8E3P8
E4P8
E3N8
O0NTC12
O0PTC12 O1PTC 12
O1NTC 12
O2NTC12
O2PTC12 OCKPTC 12
OCKNTC 12
O3NTC12
O3PTC12 O4PTC 12
O4NTC 12
E0NTC12
E0PTC12 E1PTC 12
E1NTC 12
E2NTC12
E2PTC12 ECKPTC 12
ECKNTC 12
E3NTC12
E3PTC12 E4PTC 12
E4NTC 12
TP468TP468
FB10NC_80 ohm/4AFB10NC_80 ohm/4A
R312NC_0R312NC_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
P1
P2
31 32
33 34
35 36
37 38
39 40
J51R25_2x20MJ51R25_2x20M TP457TP457
TP35TP35
R310NC_1KR310NC_1K
+CE28NC_100uF/25V
+CE28NC_100uF/25V
RN7
0
RN7
0
TP460TP460
TP444TP444
TP465TP465
R313 NC_0R313 NC_0
R316NC_4K7R316NC_4K7
TP443TP443
TP451TP451
TP470TP470
TP448TP448
TP454TP454
2
13
Q23MMBT3904LT1GQ23MMBT3904LT1G
R277470KR277470K
TP459TP459
C2240.1uF/25VC2240.1uF/25V
R318NC_0R318NC_0
+CE29NC_220uF/25V
+CE29NC_220uF/25V
R308NC_4K7R308NC_4K7
TP462TP462
R2741KR2741K
TP442TP442
TP467TP467
R315NC_4K7R315NC_4K7
TP447TP447
TP47TP47
RN6
0
RN6
0
TP456TP456TP45TP45
TP450TP450
TP48TP48
R296 22R296 22
RN11
0
RN11
0
TP464TP464
1234 5
678
S D
G
Q22RSS075P03
S D
G
Q22RSS075P03
TP441TP441
TP445TP445
R311NC_0R311NC_0
R317NC_0R317NC_0
TP469TP469
TP453TP453
C2221uF/25V0805C
C2221uF/25V0805C
TP458TP458
RN10
0
RN10
0
TP422TP422
R2761KR2761K
TP461TP461
TP44TP44
TP52TP52TP466TP466
RN8
0
RN8
0
TP452TP452
RN9
0
RN9
0
TP446TP446
TP455TP455
R27510KR27510K
R309NC_4K7R309NC_4K7
TP46TP46
R28710KR28710K
TP449TP449
C225NC_0.1uF/16VC225NC_0.1uF/16V
FB980 ohm/4AFB980 ohm/4A
C2230.1uF/25V
C2230.1uF/25V
R282 4K7R282 4K7
TP463TP463
D221N4148WS-7-FD221N4148WS-7-F
R295NC_4K7R295NC_4K7
F32A_63V
1206F
F32A_63V
1206F
R314NC_1KR314NC_1K
TP43TP43
Circuit Diagrams and PWB Layouts EN 59RAM1.0A LA 10.
2010-Mar-12
SSB: Audio Amplifier
18930_509_100302.eps100302
Audio AmplifierB10 B10
2010-01-052
0171-2271-3203Audio Amplifier
ROUTN
LOUTN
R+R-
L+
ROUTP
LOUTN
ROUTN
L-
ROUTP
DAC_AR
LOUTP
LOUTP
RINP
LINP
LINN
RINN
MUTE_AMP
MUTE_AMP
DAC_AR
DAC_AL
R-
L+
L-
R+
DAC_AL
12VAMP
REG5V
REG5V
12VAMP
3V3SB
3V3SB
12VSW 12VAMP
12VSW
12VAMP
I2S_AOSDATA08I2S_AOBCLK8
AL18
I2S_AOLRCK8
AR18
I2S_AOMCLK8
GPIO218
LINE_MUTE 3GPIO6R8
VREG
GND
TP136TP136
C2391000pF/50VC2391000pF/50V
R329NC_0R329NC_0
R3494K70402R
R3494K70402R
C2660.1uF/16VC2660.1uF/16V
TP83TP83
TP100TP100
TP106TP106
R342 0R342 0C242 1uF/25VC242 1uF/25V
R333100KR333100K
TP81TP81
C2500.22uF/25VC2500.22uF/25V
C245NC_470pF/50V
C245NC_470pF/50V
CE39470uF_25VECD10
CE39470uF_25VECD10
TP92TP92
C2440.1uF/25V
C2440.1uF/25V TP79TP79
1 2
L622 uH/2.5AL622 uH/2.5A
TP86TP86
C26310uF/10V
C26310uF/10V
TP133TP133
TP121TP121
R343 0R343 0
+CE33100uF/25V
+CE33100uF/25V
R328 NC_20R328 NC_20
TP364TP364
TP119TP119
C26810uF/10V0805C
C26810uF/10V0805C
C230NC_470pF/50V
C230NC_470pF/50V
C4434.7pF_50V0402C
C4434.7pF_50V0402C
C4440.1uF/16V
0402C
C4440.1uF/16V
0402C
TP108TP108
R32147K_F0402R
R32147K_F0402R
R344 0R344 0
TP116TP116
C2980.1uF/16VC2980.1uF/16V
TP125TP125
R324 00402R
R324 00402R
TP77TP77
R616 1K0402R
R616 1K0402R
C2671uF/25VC2671uF/25V
2
13
Q26MMBT3906LT1GQ26MMBT3906LT1G
FB1480 ohm/4AFB1480 ohm/4A
C4540.1uF/25V
0603C
C4540.1uF/25V
0603C
C249
0.22uF/25V
C249
0.22uF/25V
SDIN1
DEM/SCLK2
LRCK3
MCLK4
VQ5 FILT+ 6AOUTL 7
GND 8VA 9
AOUTR 10
U37CS4344U37CS4344
R630 2001206R
R630 2001206R
R325
NC_2K21_F
0402RR325
NC_2K21_F
0402R
C2412700pF_50V
0402C
C2412700pF_50V
0402C
TP138TP138
+ CE38100uF/25VECD6
+ CE38100uF/25VECD6
TP90TP90C229 2.2uF/16VC229 2.2uF/16V
C26110uF/10VC26110uF/10V
TP135TP135
C2381uF/25VC2381uF/25V
TP98TP98
TP113TP113
C2471000pF/50VC2471000pF/50V
R3310
R3310
TP124TP124
TP76TP76
TP72TP72
FB1280 ohm/4AFB1280 ohm/4A
C2620.1uF/16VC2620.1uF/16V
TP132TP132
R35910KR35910K
C240 1uF/25VC240 1uF/25V
C226
0.22uF/25V
C226
0.22uF/25V
C2271uF/25V
C2271uF/25V
TP118TP118
TP74TP74
1
23
D35BAT54CD35BAT54C
C248
1uF/25V
C248
1uF/25V
R351 33R351 33
R339100KR339100K
FB17120 ohm/0.5A
FB17120 ohm/0.5A
TP105TP105
TP130TP130
PAD_11
RINN2
RINP3
AGND_44
LINP5
LINN6
GAIN0_77
GAIN0_88
GAIN19
MSTR/SLV#10
SYNC11
PAD_1212 PAD 25
PVCCL_26 26
PVCCL_27 27
PGNDL_28 28
PGNDL_29 29
VCLAMPL 30
VCLAMPR 31
PGNDR_32 32
PGNDR_33 33
PVCCR_34 34
PVCCR_35 35
PAD_36 36
PA
D_1
313
RO
SC
14
VR
EG
15
VB
YP
16
AG
ND
17
BS
LP18
LOU
TP
_19
19
LOU
TP
_20
20
LOU
TN
_21
21
LOU
TN
_22
22
BS
LN23
PA
D_2
424
PA
D_3
737
BS
RN
38
RO
UT
N_3
939
RO
UT
N_4
040
RO
UT
P_4
141
RO
UT
P_4
242
BS
RP
43
SH
UT
DO
WN
#44
MU
TE
45
FA
ULT
46
AV
CC
_47
47
AV
CC
_48
48
The
rmal
49U23TPA3101D2PHPRU23TPA3101D2PHPR
C2541uF/25VC2541uF/25V
+CE37
100uF/25VECD6
+CE37
100uF/25VECD6
TP87TP87
R346 10KR346 10K
TP103TP103
TP107TP107
FB1380 ohm/4AFB1380 ohm/4A
TP82TP82
TP89TP89
TP111TP111
R352 33R352 33
TP96TP96
R599 470_F0402R
R599 470_F0402R
TP127TP127
C4481000pF/50V
0402C
C4481000pF/50V
0402C
+CE30
220uF/25V
+CE30
220uF/25V
C4424.7pF_50V
0402C
C4424.7pF_50V
0402C
TP129TP129
1 2
L722 uH/2.5AL722 uH/2.5A
R3300R3300
31
2
TO252
IN OUT
GND
FIX
U39KIA7805AF
TO252
IN OUT
GND
FIX
U39KIA7805AF
R323
NC_2K21_F
0402RR323
NC_2K21_F
0402R
C264 10uF/10VC264 10uF/10V
C2461uF/25VC2461uF/25V
TP91TP91
TP102TP102
TP85TP85
C4610.1uF/25V0603C
C4610.1uF/25V0603C
TP126TP126
TP99TP99
R332NC_0R332NC_0
R632 2001206R
R632 2001206R
TP80TP80
TP122TP122
1
23
D34BAT54CD34BAT54C
R3484K7R3484K7
1234
J62R00-LOCK-4MW200_4
J62R00-LOCK-4MW200_4
C4404.7pF_50V
0402C
C4404.7pF_50V
0402C
C2350.1uF/25V
C2350.1uF/25V
TP78TP78
R320
100KR
320100K
R62847K0402R
R62847K0402R
R326 00402R
R326 00402R
C2332700pF_50V
0402C
C2332700pF_50V
0402C
R36010KR36010K
TP139TP139 TP134TP134
R629 2001206R
R629 2001206R
C236 2.2uF/16VC236 2.2uF/16V
R319NC_10K
R319NC_10K
TP93TP93
TP109TP109
TP128TP128
1 2
L422 uH/2.5AL422 uH/2.5A
TP115TP115R6084K70402R
R6084K70402R
R350 33R350 33
C2321000pF/50VC2321000pF/50V
C265 10uF/10VC265 10uF/10V
R335 NC_20R335 NC_20
1 2
L522 uH/2.5AL522 uH/2.5A
TP95TP95
R341 0R341 0
C4491000pF/50V
0402C
C4491000pF/50V
0402C
C2311uF/25VC2311uF/25V
C251NC_470pF/50V
C251NC_470pF/50V
TP73TP73
TP137TP137
C4500.33uF_50V
0805C
C4500.33uF_50V
0805C
R322 NC_20R322 NC_20
C2280.22uF/25VC2280.22uF/25V
TP84TP84
+
CE31220uF/25V
+
CE31220uF/25V
FB1180 ohm/4AFB1180 ohm/4A
R35510K0402R
R35510K0402R
C2531000pF/50VC2531000pF/50VR338 NC_20R338 NC_20
R345 0R345 0
C2521uF/25VC2521uF/25V
TP75TP75
TP88TP88
R631 2001206R
R631 2001206R
TP123TP123
TP117TP117
C243 2.2uF/16VC243 2.2uF/16V
+CE32220uF/25V
+CE32220uF/25V
TP131TP131
R61110K0402R
R61110K0402R
C237NC_470pF/50V
C237NC_470pF/50V
R32747K_F0402R
R32747K_F0402R
TP94TP94
TP97TP97
C4510.33uF_50V
0805C
C4510.33uF_50V
0805C
C4414.7pF_50V0402C
C4414.7pF_50V0402C
R334NC_0R334NC_0
R353 33R353 33
TP101TP101TP104TP104
R336 100KR336 100K
R347 0R347 0
R600 470_F0402R
R600 470_F0402R
C234 2.2uF/16VC234 2.2uF/16V
TP110TP110
EN 60RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
SSB: TCON
18930_510_100302.eps100302
TCONB11 B11
2010-01-052
0171-2271-3203TCON
SC
LTC
FSEL
FSEL
VC
OR
ES
I2C
_EN
VCOM_FB
OPC_EN
VCOM_PG
RBF
RBF
REVERSE
DIS
M
GMA15
OP
T_N
VCORES
RE
VE
RS
E
SD
AT
C
OD
C_B
YP
AS
S
GMA6
H_C
ON
V
GMA3
C10S8
WP
2
SCLTC
GMA4
GMA13
I2C_EN
GMA12
DISM
PO
L_A
C10S8
GMA7
GIP_EN
SO
E_A
EE
P_S
IZE
ODC_BYPASS
GMA16
SOE_A
H_CONV H_CONV_IN
OPC_EN
POL_A
SOE
POL
SDATC
GMA13
POL
RNLV4P
GMA1
LNCLKN
RNLV3P
LNLV1P
GMA15
RNLV1N
GMA13
LNLV3N
RNCLKP
VCOMR
RNLV0N
H_CONV_IN
GMA7
LNLV4P
GMA6
LNLV0P
GMA3
GMA10
OPT_N
RNCLKN
GMA4
GMA18
OPT_N
GMA15
GMA6
Z_OUT
SOE
RNLV2N
VCOMLFB
H_CONV_IN
RNLV2P
GMA10
VCOML
LNLV3P
LNCLKP
SOE
RNLV0P
GMA1
RNLV1P
GMA4
GMA16
LNLV4N
GMA12
RNLV5P
GMA9
VST
LNLV5N
RNLV5N
GMA12
GMA16
RNLV4N
LNLV0N
GMA3
RNLV3N
VCOMRFB
GMA7
LNLV5P
GMA9
Z_OUT
LNLV1NLNLV2P
GMA18
POL
LNLV2N
VCOM_OP
VCOM_OP
VCOM_PGVCOM_FB
RNLV5P
RNLV1P
LNLV1N
LNLV5N
RNLV0P
LNLV3P
RNLV4N
RNLV2N
RNLV3P
LNLV3N
RNLV2P
LNLV1P
RNLV1N
LNCLKP
LNLV0P
LNLV2PLNLV2N
LNLV0N
RNCLKN
RNLV5N
LNCLKN
RNCLKP
RNLV0N
RNLV3N
GIP_EN
LNLV5P
RNLV4P
LNLV4PLNLV4N
VCOML
VCOMLFB
VCOM_OP
VCOM_PG
VCOMRFB
VCOM_FB
VCOMR
SCLTCSDATC
WP2
EEP_SIZE
TC_SDATC_SCL
WP2TC
TC_WP2
1V8TC
3V3TC
3V3TC
1V8TC
1V8TC
3V3TC
3V3TC
16VTC
3V3TC
3V3TC
3V3TC
H_VDD
3V3TC 16VTC
H_VDD
16VTC 3V3TC
PANEL_VDD
3V3TC
O4NTC10
GC
LK5T
C 13
OCKNTC10
O2NTC10
GC
LK4T
C 13
ECKPTC10
E3PTC10
GV
ST
TC 13
GV
DD
_EV
EN
TC 13
O0PTC10
ECKNTC10
GC
LK3T
C 13
O0NTC10
E0NTC10
GC
LK1T
C 13
PWM_TOUT2
O3PTC10
PWM_TIN2
O1PTC10
RE
SE
TT
C 13
E1NTC10
VGA_SDA_TCON4
E1PTC10
GPIO28
O1NTC10
GC
LK2T
C 13G
CLK
6TC 13
VGA_SCL_TCON4
E0PTC10
O3NTC10
E2PTC10
E3NTC10
FLK
TC 13
GV
DD
_OD
DT
C 13
DP
MT
C 13
E4NTC10
O4PTC10
O2PTC10
E2NTC10
E4PTC10
OCKPTC10
CLK5TC13
VGL_ITC13
VDD_ODDTC13
CLK1TC13
VGI_PTC13
VDD_EVENTC13
VGI_NTC13
VGL_ITC13
VDD_ODDTC13
CLK4TC13CLK3TC13CLK2TC13
CLK5TC13
VSTTC13
CLK6TC13
CLK6TC13
VGI_PTC13
CLK4TC13
CLK1TC13
VDD_EVENTC13
CLK2TC13
VST_IN13
VGI_NTC13
VSTTC13
VST_IN13
CLK3TC13
WP2TC 4
RIGHTLEFT
32" 42"22KR486 24K
ITEM 47"24K
R591NC_4K7R591NC_4K7
TP593TP593
C3040.1uF/16V
C3040.1uF/16V
C3110.1uF/16V
C3110.1uF/16V
R480 100_FR480 100_F
GND_11
VCC_22
PWM_TIN3
PWM_TOUT4
OPC_EN5
V18_66
GND_77
R1AM10
R1AP11
R1BM12
R1BP13
V18_1414
R1CM15
R1CP16
R1CLKM17
R1CLKP18
GND_1919
R1DM20
R1DP21
R1EM22
R1EP23
R2AM24
R2AP25
R2BM26
R2BP27
V18_2828
R2CM29
R2CP30
R2CLKM31
R2CLKP32
GND_3333
R2DM34
R2DP35
R2EM36
R2EP37
GND_3838
V18_3939
C10S840
FSEL41
RBF42
VCC_4343
GND_4444
VC
C_4
545
VC
C_4
646
OD
C_B
YP
AS
S47
GN
D_4
848
VC
C_4
949
V18
_50
50
GN
D_5
151
VC
C_5
252
GN
D_5
353
NC
_54
54
NC
_55
55
VC
OR
ES
56
GN
D_5
757
GN
D_5
858
RE
SE
T59
VC
C_6
060
GN
D_6
161
V18
_62
62
GN
D_6
363
DP
M64
FLK
65
NC
_87
87
NC
_88
88
R_MLVDS 89V18_90 90
GND_91 91GND_92 92V18_93 93
LNL_V0P 94LNL_V0N 95LNL_V1P 96LNL_V1N 97GND_98 98
LNL_V2P 99LNL_V2N 100LNCLKP 101
GIP_EN 132
GND_131 131
V18_130 130
RNL_V5N 129
RNL_V5P 128
V18_127 127
RNC_V4N 126
RNC_V4P 125
GND_124 124
RNC_V3N 123
RNC_V3P 122
RNCLKN 121
RNCLKP 120
V18_119 119
RNL_V2N 118
RNL_V2P 117
RNL_V1N 116
RNL_V1P 115
GND_114 114
RNL_V0N 113
RNL_V0P 112
V18_111 111
LNL_V5N 110
LNL_V5P 109
GND_108 108
LNL_V4N 107
LNL_V4P 106
LNL_V3N 105
LNL_V3P 104
V18_103 103
LNCLKN 102
WP
WM
160
GN
D_1
5915
9
V18
_158
158
GN
D_1
5715
7
VC
C_1
5615
6
VC
C_1
5515
5
GN
D_1
5415
4
WP
215
3
NC
_152
152
I2C
_EN
151
VC
C_1
5015
0
GN
D_1
4914
9
GN
D_1
4814
8
V18
_147
147
GN
D_1
4614
6
VC
C_1
4514
5
GN
D_1
4414
4
V18
_143
143
SO
E_A
142
PO
L_A
141
GN
D_1
4014
0
VC
C_1
3913
9
H_C
ON
V13
8
OP
T_N
137
GN
D_1
3613
6
VC
C_1
3513
5
XO
UT
134
XIN
133
RE
F_M
OD
E16
1LE
D_O
N16
2V
CC
_163
163
GN
D_1
6416
4R
EV
ER
SE
165
V18
_166
166
GN
D_1
6716
7V
CC
_168
168
GN
D_1
6916
9G
ND
_170
170
VC
C_1
7117
1S
DA
172
SC
L17
3D
ISM
174
VC
C_1
7517
5G
ND
_176
176
GND_88
V18_99
VC
C_6
666
GN
D_6
767
GV
ST
68
GV
DD
_OD
D69
GV
DD
_EV
EN
70
V18
_71
71
GN
D_7
272
GC
LK1
73
GC
LK2
74
GC
LK3
75
GC
LK4
76
VC
C_7
777
GN
D_7
878
NC
_79
79
NC
_80
80
GC
LK5
81
GC
LK6
82
NC
_83
83
EE
P_S
IZE
84
V18
_85
85
GN
D_8
686
EP
177
TLI TL2428 MC
U36
TLI TL2428 MC
U36
C4320.1uF/16V
C4320.1uF/16V
R594 18R594 18
NC1 5OUT 6VDD 7
NC1
GND4INA+3
NC2 8
INA-2
EP
9
U31NC_MAX9650ATA+U31NC_MAX9650ATA+
R50310KR50310K
C3280.1uF/16V
C3280.1uF/16V
C3080.1uF/16V
C3080.1uF/16V
R501 NC_0R501 NC_0
TP584TP584 C4360.1uF/16V
C4360.1uF/16V
TP506TP506
TP501TP501
C3150.1uF/16V
C3150.1uF/16V
C3240.1uF/16V
C3240.1uF/16V
C33622pF/50VC33622pF/50V
C3090.1uF/16V
C3090.1uF/16V
R46947KR46947K
C3210.1uF/16V
C3210.1uF/16V
C3440.1uF/25VC3440.1uF/25V
R483 100_FR483 100_F
GND60
Z_OUT59
CLK158
CLK257
CLK356
CLK455
CLK554
CLK653
VGI_N52
VGI_P51
VGH_ODD50
VGH_EVEN49
VSS48
VST47
GND46
VCOM_FB45
VCOM_IN44
GND43
VDD42
VDD41
Half_VDD40
Half_VDD39
GND38
VCC37
VCC36
GND35
LLV5-34
LLV5+33
LLV4-32
LLV4+31
P1
P1
P2
P2
LLV3-30
LLV3+29
GND1
VST_IN17
H_CONV16
POL18
GMA12
GMA44GMA65GMA76
OPT_N15
GMA33
GMA97GMA108
GMA1310GMA1511GMA1612GMA1813
GMA129
GND14
SOE19GND20LLV0+21LLV0-22LLV1+23LLV1-24LLV2+25LLV2-26LCLK+27LCLK-28
J11196269-60041J11196269-60041
TP510TP510
C3350.01uF/25V
C3350.01uF/25V
TP581TP581
C4390.1uF/16VC4390.1uF/16V
C3170.1uF/16V
C3170.1uF/16V
C33422pF/50VC33422pF/50V
TP114TP114
R481 100_FR481 100_F
TP509TP509
C4280.1uF/16V
C4280.1uF/16V
TP541TP541
TP542TP542
TP478TP478
R473NC_18KR473NC_18K
R499 NC_1KR499 NC_1K
R490 NC_1KR490 NC_1K
C3270.1uF/25V
C3270.1uF/25V
TP491TP491
R48710KR48710K
TP504TP504
C3020.1uF/16V
C3020.1uF/16V
C3450.1uF/25VC3450.1uF/25V
TP540TP540
R485 100_FR485 100_F
R513NC_0R513NC_0
R493 NC_1KR493 NC_1K
TP588TP588
C3220.1uF/16V
C3220.1uF/16V
R498 1KR498 1K
TP523TP523
TP594TP594
R482 100_FR482 100_F
R471 22R471 22
1234
P1
P2 J7
NC_2R00S_1X4MLJ7NC_2R00S_1X4ML
C3010.1uF/16V
C3010.1uF/16V
R517NC_430R517NC_430
R494 NC_1KR494 NC_1K
C4270.1uF/16V
C4270.1uF/16V
R492 100R492 100
C4340.1uF/16V
C4340.1uF/16V
TP585TP585
C4210.1uF/16VC4210.1uF/16V
R474 100_FR474 100_F R478 100_FR478 100_F
R511 0R511 0
TP496TP496
R484 100_FR484 100_F
C3140.1uF/16V
C3140.1uF/16V
TP591TP591
TP476TP476
R472 22R472 22
C33922pF/50VC33922pF/50V
TP497TP497
R495 NC_1KR495 NC_1K
R595 18R595 18
C34015pF/50VC34015pF/50V
TP492TP492
R491 100R491 100
TP505TP505
TP582TP582
C4454.7pF_50V0402C
C4454.7pF_50V0402C
R518NC_0R518NC_0
R506 100R506 100
TP545TP545
TP49TP49
C3300.1uF/25V
C3300.1uF/25V
C4380.1uF/16V
C4380.1uF/16V
R476 100_FR476 100_F
R516 NC_0R516 NC_0
R508 NC_0R508 NC_0
C3050.1uF/16V
C3050.1uF/16V
R475 100_FR475 100_F
TP494TP494
C3070.1uF/16V
C3070.1uF/16V
C3200.1uF/16V
C3200.1uF/16V
R470 5K6R470 5K6
R510NC_1KR510NC_1K
C4290.1uF/16V
C4290.1uF/16V
R507 100R507 100
C3330.1uF/16V
C3330.1uF/16V
C3310.1uF/16V
C3310.1uF/16V
C3180.1uF/16V
C3180.1uF/16V
R509 0R509 0
TP502TP502
C338 10uF/25VC338 10uF/25V
C30010uF/10V
C30010uF/10V
TP589TP589
C3230.1uF/16V
C3230.1uF/16V
TP586TP586
R48624KR48624K
C31310uF/10V
C31310uF/10V
GND60
GMA159
GMA358
GMA457
GMA656
GMA755
GMA954
GMA1053
GMA1252
GMA1351
GMA1550
GMA1649
GMA1848
GND47
OPT_N46
H_CONV45
VST_IN44
POL43
SOE42
GND41
RLV5-40
RLV5+39
RLV4-38
RLV4+37
RLV3-36
RLV3+35
RCLK-34
RCLK+33
RLV2-32
RLV2+31
P1
P1
P2
P2
RLV1-30
RLV1+29
GND1
VCOM_IN17
VCOM_FB16
GND18
Z_OUT2
CLK24CLK35CLK46
GND15
CLK13
CLK57CLK68
VGI_P10VGH_ODD11VGH_EVEN12VSS13
VGI_N9
VST14
VDD19VDD20Half_VDD21Half_VDD22GND23VCC24VCC25GND26RLV0+27RLV0-28
J10196269-60041J10196269-60041
TP498TP498
R512 0R512 0
TP595TP595
TP544TP544
R521 0R521 0
C4330.1uF/16VC4330.1uF/16V
C4370.1uF/16V
C4370.1uF/16V
C3030.1uF/16V
C3030.1uF/16V
R592 1KR592 1K
C3320.01uF/25V
C3320.01uF/25V
C3100.1uF/16V
C3100.1uF/16V
R488 0R488 0
C348NC_1uF/25VC348NC_1uF/25V
R519NC_0R519NC_0
R496 1KR496 1KR522 NC_0R522 NC_0
C3160.1uF/16V
C3160.1uF/16V
R46710KR46710K
TP592TP592
C4300.1uF/16V
C4300.1uF/16V
TP511TP511
C34222pF/50VC34222pF/50V
TP578TP578
TP481TP481
TP524TP524
TP479TP479
C3190.1uF/16V
C3190.1uF/16V
TP536TP536
TP539TP539
C3430.1uF/16VC3430.1uF/16V
R520NC_00402R
R520NC_00402R
TP580TP580
R46610KR46610K
R479 100_FR479 100_F
TP490TP490
TP477TP477
C3060.1uF/16V
C3060.1uF/16V
C32910uF/25VC32910uF/25V
C337 10uF/25VC337 10uF/25V
C4350.1uF/16V
C4350.1uF/16V
TP548TP548
C34610uF/25VC34610uF/25V
R497 10R497 10
C341NC_15pF/50VC341NC_15pF/50V
R514NC_1KR514NC_1K
TP522TP522
TP583TP583
R468 1MR468 1M
TP503TP503
C32610uF/25VC32610uF/25V
TP480TP480
R477 100_FR477 100_F
C3120.1uF/16V
C3120.1uF/16V
VCC 8
SDA 5SCL 6
GND4
WP 7
A23A12A01
U29AT24C32CN-SH-TU29AT24C32CN-SH-T
C4310.1uF/16V
C4310.1uF/16V
TP543TP543
Y6CSTCE10M0G55
Y6CSTCE10M0G55
TP499TP499
SDA1
A02
DVDD3
AGND_AMP4
VCOM5
VC
OM
_FB
6
AV
DD
_AM
P7
AV
DD
8
N.C
9
GM
A1
10
GMA2 11
GMA3 12
GMA4 13
GAMA5 14
GAMA6 15AV
DD
16
N.C
17
GA
MA
718
GA
MA
819
SC
L20
EP
21
MAX9668
U30
MAX9668
U30
R500 0R500 0
R515 0R515 0
TP495TP495
TP587TP587
R505 0R505 0
C347NC_0.1uF/16VC347NC_0.1uF/16V
TP547TP547
C3250.1uF/16V
C3250.1uF/16V
Circuit Diagrams and PWB Layouts EN 61RAM1.0A LA 10.
2010-Mar-12
SSB: TCON Power
18930_511_100302.eps100302
TCON PowerB12 B12
2010-01-052
0171-2271-3203TCON Power
VGL
VGL
VGL
EN2
VGL
EN1
EN1
DISCHG
EN2
VGL
VGH
VGH
VGHEN2
EN2
VGH
VGH
DISCHG
16VTC
H_VDD
3V3TC
3V3TC
3V3TC
16VTC
PANEL_VDD
3V3TC
PANEL_VDD
3V3TC
PANEL_VDD
3V3TC
16VTC
16VTC
PANEL_VDD
1V8TC
16VTC
VSTTC 12
VST_IN12
FLKTC 12
VGL_ITC 12
DPMTC12
GVDD_ODDTC12 VDD_ODDTC 12
GCLK3TC12CLK2TC 12
VDD_EVENTC 12
CLK4TC 12
VGI_NTC 12
CLK1TC 12
CLK5TC 12
GCLK2TC12
GVSTTC12
GCLK4TC12GCLK5TC12
VGI_PTC 12
RESETTC12
GCLK1TC12
GVDD_EVENTC12
CLK6TC 12
CLK3TC 12
GCLK6TC12
8.0V Output (32")
27.1VOutput(32")
32"R560ITEM
33K 68K42"
150KR571 174K
32"R530ITEM
43K 39K42"
32"143KR586 150K
42"
5V Output (32")
47"143K
39K47"
150K68K47"
C3951uF_50V1206C
C3951uF_50V1206C
R373470_FR373470_F
1 2
L822 uH/1.7AL822 uH/1.7A
FB 5COMP 6
EN 7BOOT1
GND4SW3
SS 8
VIN2
EP
9
U32RT8250GSPU32RT8250GSP
C3890.1uF/25VC3890.1uF/25V
TP550TP550
C3770.1uF/25VC3770.1uF/25V
TP568TP568
R564 100603R
R564 100603R
R5660R5660
R578 0R578 0
TP535TP535
R525150K_F0402R
R525150K_F0402R
+CE10220uF/25V
+CE10220uF/25V
C4240.22uF/25VC4240.22uF/25V
C36510uF/25VC36510uF/25V
R5883K6R5883K6
C420 1uF/25VC420 1uF/25V
R5294K7R5294K7
1
23
D26BAV99D26BAV99
C387150pF/50VC387150pF/50V
C41910uF/25V
C41910uF/25V
TP530TP530
TP507TP507
R565 NC_100603R
R565 NC_100603R
C4011uF/25VC4011uF/25V
R5401KR5401K
C464NC_1000pF/50V0402C
C464NC_1000pF/50V0402C
R582 NC_0R582 NC_0
TP538TP538
C3721500pF/50VC3721500pF/50V
TP
500
TP
500
TP
515
TP
515
R571150K_F0402R
R571150K_F0402R
R587 0R587 0
R551 0R551 0
C3664700pF/50VC3664700pF/50V
R53118K_F0402R
R53118K_F0402R
C3881000pF/50VC3881000pF/50V
C3760.1uF/25VC3760.1uF/25V
C3811500pF/50V
C3811500pF/50V
R573 0R573 0
R3581K_FR3581K_F
C37410uF/25VC37410uF/25V
C3971uF_50V1206C
C3971uF_50V1206C
R536 0R536 0
C399NC_150pF/50V
C399NC_150pF/50V
C3961uF/25VC3961uF/25V
R545 0R545 0
R567NC_0R567NC_0
+CE5220uF/25V
+CE5220uF/25V
R56068K_F0402R
R56068K_F0402R
R575 NC_1KR575 NC_1K
TP485TP485
C34910uF/25VC34910uF/25V
TP552TP552
TP575TP575
R546 0R546 0
R579 NC_0R579 NC_0
TP577TP577
R526NC_18K_F0402R
R526NC_18K_F0402R
TP554TP554
C3680.1uF/16VC3680.1uF/16V
C4101uF/25VC4101uF/25V
TP564TP564
TP484TP484
C3791uF/25VC3791uF/25V
TP571TP571
1
23
D24BAV99D24BAV99
C370 0.1uF/25VC370 0.1uF/25V
R5620R5620
C411
0.1uF/25V
C411
0.1uF/25V
TP562TP562
TP
512
TP
512
C362NC_1500pF/50V
C362NC_1500pF/50V
C3821uF/25VC3821uF/25V
C412
0.1uF/25V
C412
0.1uF/25V
TP
514
TP
514
C3600.01uF/25VC3600.01uF/25V
C3981uF/25V0603C
C3981uF/25V0603C
R570 0R570 0
R535150K_F0402R
R535150K_F0402R
R580 0R580 0
R544 0R544 0
TP549TP549
TP559TP559
R5721K
R5721K
R569 10R569 10
C37510uF/25VC37510uF/25V
TP
533
TP
533
R561NC_68K_F0402R
R561NC_68K_F0402R
TP557TP557
TP520TP520
R583 0R583 0
TP527TP527
C3901uF_50V
1206C
C3901uF_50V
1206C
D28 NC_MMSZ5237B-7-FD28 NC_MMSZ5237B-7-F
TP521TP521
R54310KR54310K
R550 0R550 0
C413150pF/50V
C413150pF/50V
C353NC_1uF/25V
C353NC_1uF/25V
TP525TP525
TP567TP567
R53039K_F0402R
R53039K_F0402R
TP
517
TP
517
R558NC_360R558NC_360
+CE11100uF/25V
+CE11100uF/25V
TP579TP579
+CE13
220uF/25V
+CE13
220uF/25V
R553 2R2R553 2R2
C35010uF/25VC35010uF/25V
TP
516
TP
516
TP546TP546
R585 27K_F0402R
R585 27K_F0402R
R5579K11206R
R5579K11206R
C42510uF/25VC42510uF/25V
R552 0R552 0
TP
531
TP
531
C3931uF_50V
1206C
C3931uF_50V
1206C
C38610uF/25VC38610uF/25V
TP
526
TP
526
D29 NC_MMSZ5237B-7-FD29 NC_MMSZ5237B-7-F
D25B340A-13-FD25B340A-13-F
TP576TP576
TP488TP488
C3831uF/25VC3831uF/25V
R554360R554360
C391NC_1uF/25V0603C
C391NC_1uF/25V0603C
1 2
L922 uH/1.7AL922 uH/1.7A
R53815KR53815K
R555 10R555 10
R556 0R556 0
TP556TP556
TP553TP553
TP486TP486
R559 100603R
R559 100603R
R5765K1R5765K1
TP573TP573
C3731uF/25VC3731uF/25V
D32B340A-13-FD32B340A-13-F
1
23
D30BAV99D30BAV99
TP519TP519
TP483TP483
R549 0R549 0
TP563TP563
TP569TP569
R586 150K_F0402R
R586 150K_F0402R
TP
529
TP
529
C367NC_4700pF/50V
C367NC_4700pF/50V
TP565TP565
C361NC_0.1uF/16VC361NC_0.1uF/16V
R577 0R577 0
C35910uF/25V
C35910uF/25V
C36410uF/25VC36410uF/25V
THR1
DRVP2
GND23
SRC4
GON5
DRN6
MODE7
DLP8
FBP9
CPGND10
CT
L11
DR
VN
12
AG
ND
13
FB
N14
RE
F15
DE
L116
FB
217
BS
T18
LX2
19
LX2
20
OUT 21IN2 22IN2 23VIN 24
FSEL 25EN1 26
DEL2 27VL 28
EN2 29PGND 30
PG
ND
31LX
132
LX1
33S
WI
34S
WO
35F
B1
36C
OM
P37
PG
OO
D38
CR
ST
39A
GN
D40
EP
41
O
U34MAX17113ETL+
O
U34MAX17113ETL+
TP551TP551
IN91
IN82
IN73
IN64
IN55
IN46
IN37
IN2
8
IN1
9
VG
H1
10
VG
L11
VG
H2
12
Y1
13
Y2
14
Y3 15Y4 16Y5 17Y6 18Y7 19Y8 20Y9 21
Dis
char
ge22
GN
D23
RE
24
VS
EN
SE
28
FLK
226
FLK
325
FLK
127
EP
29 U33MAX17119ETI+U33MAX17119ETI+
R5283K3R5283K3
R54218K_F0402R
R54218K_F0402R
C414NC_1uF/25V
C414NC_1uF/25V
R54133K_F0402R
R54133K_F0402R
R53910KR53910K
TP
513
TP
513
TP572TP572
C3631uF/25VC3631uF/25V
TP566TP566
R53215K0402R
R53215K0402R
R581 NC_0R581 NC_0
R584 NC_0R584 NC_0
TP493TP493
C371NC_0.1uF/16VC371NC_0.1uF/16V
TP555TP555
TP574TP574
R548 0R548 0
23
1
4
SOT223
GND
IN OUT
ADJ
U35AP1117EL
SOT223
GND
IN OUT
ADJ
U35AP1117EL
TP561TP561
R633NC_2R20402R
R633NC_2R20402R
1 2
L1022 uH/1.7AL1022 uH/1.7A
R537 3KR537 3K
C394NC_1uF/25V0603C
C394NC_1uF/25V0603C
1
23
D27NC_BAV99D27NC_BAV99
TP570TP570
C40910uF/25VC40910uF/25V
TP518TP518
TP
528
TP
528
R574 10K_F
0402R
R574 10K_F
0402R
R523100R523100
R52447KR52447K
R563 100603R
R563 100603R
C3781uF/25VC3781uF/25V
TP534TP534
TP560TP560
C415NC_1uF/25V
C415NC_1uF/25V
C3924.7uF_50V
1206C
C3924.7uF_50V
1206C
C42210uF/10VC42210uF/10V
C352NC_1uF/25V
C352NC_1uF/25V
R568 100603R
R568 100603R
R533 NC_0R533 NC_0
TP558TP558
TP487TP487
C369 1uF/25VC369 1uF/25V
123
D31BAV99D31BAV99
TP
532
TP
532
TP
590
TP
590
TP489TP489
C38010uF/25VC38010uF/25V
R5279K1_F0402R
R5279K1_F0402R
TP
508
TP
508
R547 0R547 0
C42310uF/10VC42310uF/10V
C4000.1uF/25VC4000.1uF/25V
+CE9
220uF/25V
+CE9
220uF/25V
TP482TP482
R534220K_F0402R
R534220K_F0402R
C351NC_1500pF/50V
C351NC_1500pF/50V
EN 62RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
Layout Small Signal Board (Overview Top Side)
18930_520_100311.eps100311
2009-12-183
0171 2271 3203SSB top
Circuit Diagrams and PWB Layouts EN 63RAM1.0A LA 10.
2010-Mar-12
Layout Small Signal Board (Overview Bottom Side)
18930_521_100311.eps100311
2009-12-183
0171 2271 3203SSB bottom
EN 64RAM1.0A LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-12
IR/LED Board
18930_530_100311.eps100311
LED/IR BoardJ J
2009-10-092
0171 1671 0722IR/LED
5VSWADIN0LED1
LED25VSB
IR_OUT
RI4510RI4510
DI2KPH-1608EC
DI2KPH-1608EC
TP10TP10
CI110uF/10V
CI110uF/10V
RI1 47RI1 47
TP8TP8
UI1
IR-FM6038
UI1
IR-FM6038
GND 1
GND 2VOUT3
VCC4
TP1TP1
CI20.1uF/16VCI20.1uF/16V
TP5TP5
CI50.1uF/16VCI50.1uF/16V
TP2TP2
JI21R25S_1X3MJI21R25S_1X3M
123
P1P2
WRDI1NC_KPTB-1612SURKQWDFWRDI1NC_KPTB-1612SURKQWDF
1 3
2 4RVI1
EGA1-0603-V05-BRVI1
EGA1-0603-V05-B
RI3910RI3910
TP7TP7
TP3TP3
TP6TP6
RI60RI60
TP4TP4
TP9TP9STM
JI11R25S_1X8M
STM
JI11R25S_1X8M
12345678
P1P2
CI60.1uF/16VCI60.1uF/16V
RI2 47RI2 47
Circuit Diagrams and PWB Layouts EN 65RAM1.0A LA 10.
2010-Mar-12
Layout IR/LED Board (Bottom Side)
Layout IR/LED Board (Top Side)
18930_532_100311.eps100311
18930_531_100311.eps100311
Personal Notes:
10000_012_090121.eps090121
EN 66RAM1.0A LA 11.Styling Sheets
2010-Mar-12
11. Styling Sheets
Styling Sheet 32" - 42"
18930_800_100310.eps100310
DALI 32"- 42"
Pos No. Description Remarks0004 FRONT BEZEL(PC+ABS)0010 REAR COVER (PC+ABS )ASSY0169 SSB SIDE COVER0170 SSB GROUND BRACKET 0260 STAND ASSY1085 REMOTE CONTROL NOT DISPLAYED
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
0004
0260
0169
0170
0010