Philips Ch. Lc9.3l La
Transcript of Philips Ch. Lc9.3l La
Published by ER/JY 1063 BU TV Consumer Care Printed in the Netherlands Subject to modification EN 3122 785 18970
2010-Mar-26
©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.
Color Television Chassis
LC9.3LLA
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Contents Page Contents Page1. Revision List 22. Technical Specifications and Connections 23. Precautions, Notes, and Abbreviation List 54. Mechanical Instructions 95. Service Modes, Error Codes, and Fault Finding 176. Alignments 247. Circuit Descriptions 298. IC Data Sheets 369. Block Diagrams
Wiring Diagram 32" - 40" (Picasso) 39Wiring Diagram 32" - 46" (van Gogh) 40Wiring Diagram 32" 46" (Da Vinci) 41Block Diagram Video 42Block Diagram Audio 43Block Diagram Control & Clock Signals 44Block Diagram I2C 45Supply Lines Overview 46
10. Circuit Diagrams and PWB Layouts Drawing PWBAmbilight: Everlight LED Common 1 (AL1A) 47 54Ambilight: Everlight LED Common 2 (AL1B) 48 54Ambilight: 3 LED Everlight (AL2A) 49 54Ambilight: 9 LED Everlight (AL2A) 50 54Ambilight: 9 LED Everlight (AL2B) 51 54Ambilight: 15 LED Everlight (AL2A) 52 54Ambilight: 15 LED Everlight (AL2B) 53 54SSB: DC-DC (B01A) 55 75-76SSB: TUNER & Analog Demodulator (B02) 56 75-76SSB: CLASS-D & Muting (B03) 57 75-76SSB: MTK Power (B04A) 58 75-76SSB: GDDR3 (B04B) 59 75-76SSB: Flash, EJTAG & Display Interface (B04C) 60 75-76SSB: Ambilight Microcontroller (B05) 61 75-76SSB: HDMI & Multiplexer (B06) 62 75-76
SSB: Analog I/O - Audio (B07B) 63 75-76SSB: Analog I/O - YPbPr & Cinch (B07C) 64 75-76SSB: USB (B07D) 65 75-76SSB: VGA (B07E) 66 75-76SSB: Hospitality (B08) 67 75-76SSB: Ambilight CPLD (B13) 68 75-76SSB: TCON Control (B14A) 69 75-76SSB: TCON DC/DC (B14B) 70 75-76SSB: P Gamma & VCOM & Flash (B14C) 71 75-76SSB: MPD (B14D) 72 75-76SSB: Mini LVDS (B14E) 73 75-76SSB: Connectors (B14F) 74 75-76SSB: SRP List Explanation 77SSB: SRP List 78IR/LED Board (J) 79 80Keyboard Control Board (E) 81 82
11. Styling SheetsStyling Sheet 32" - 40" (Picasso) 83Styling Sheet 32" - 46" (van Gogh) 84Styling Sheet 32" - 46" (Da Vinci) 85
Revision ListEN 2 LC9.3L LA1.
2010-Mar-26
1. Revision ListManual xxxx xxx xxxx.0• First release.
2. Technical Specifications and Connections
Index of this chapter:2.1 Technical Specifications2.2 Directions for Use2.3 Connections2.4 Chassis Overview
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
You can download this information from the following websites:http://www.philips.com/supporthttp://www.p4c.philips.com
CTN Styling Published in:
32PFL3805D/78 Picasso 3122 785 18970
32PFL5605D/78 van Gogh 3122 785 18970
32PFL6605D/78 da Vinci 3122 785 18970
40PFL3805D/78 Picasso 3122 785 18970
40PFL5605D/78 van Gogh 3122 785 18970
40PFL6605D/78 da Vinci 3122 785 18970
46PFL5605D/78 van Gogh 3122 785 18970
46PFL6605D/78 da Vinci 3122 785 18970
Technical Specifications and Connections EN 3LC9.3L LA 2.
2010-Mar-26
2.3 Connections
Figure 2-1 Connection overview
Note: The following connector color abbreviations are used (according to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, Ye= Yellow.
2.3.1 Side Connectors
1 - USB2.0
Figure 2-2 USB (type A)
1 - +5V �2 - Data (-) ��
3 - Data (+) ��
4 - Ground Gnd �
2 - HDMI: Digital Video, Digital Audio - In (see HDMI 1 & 2)
2.3.2 Rear Connectors
3 - CVI-1: Cinch: Video YPbPr - In, Audio - InGn - Video Y 1 VPP / 75 ٠��
Bu - Video Pb 0.7 VPP / 75 ٠��
Rd - Video Pr 0.7 VPP / 75 ٠��Wh - Audio - L 0.5 VRMS / 10 k٠��
Rd - Audio - R 0.5 VRMS / 10 k٠��
4 - Service Connector (UART)1 - Ground Gnd �
2 - UART_TX Transmit �
3 - UART_RX Receive �
5 - Cinch: AV IN: 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 ��
6 - Aerial - In (Air and Cable)- - F-type Coax, 75 Ω �
2.3.3 Bottom Connectors
7 - CVI-2: Cinch: Video YPbPr - In, Audio - InGn - Video Y 1 VPP / 75 ٠��Bu - Video Pb 0.7 VPP / 75 ٠��
Rd - Video Pr 0.7 VPP / 75 ٠��
Wh - Audio - L 0.5 VRMS / 10 k٠��
Rd - Audio - R 0.5 VRMS / 10 k٠��
8 - Cinch: S/PDIF - OutBk - Coaxial 0.4 - 0.6VPP / 75 ohm ��
9 - HDMI 1 and 2: Digital Video, Digital Audio - In
Figure 2-3 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 �
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Side connectorsBack connectors
Bottom connectors
1
2
3 4 5 6
7 8 9 10
1 2 3 4
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19 1
18 2
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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 - Mini Jack: DVI/VGA: Audio - InBk - Audio 0.5 VRMS / 10 k٠��
10 - VGA: Video RGB - In
Figure 2-4 VGA Connector
1 - Video Red 0.7 VPP / 75 Ω �
2 - Video Green 0.7 VPP / 75 Ω �
3 - Video Blue 0.7 VPP / 75 Ω �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 �
2.4 Chassis Overview
Refer to chapter 9. Block Diagrams for PWB/CBA locations.
1
610
11
5
15
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Precautions, Notes, and Abbreviation List EN 5LC9.3L 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 LC9.3L LA3.
2010-Mar-26
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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MODEL :
PROD.NO:
~
S
32PF9968/10 MADE IN BELGIUM220-240V 50/60Hz
128WAG 1A0617 000001 VHF+S+H+UHF
BJ3.0E LA
Precautions, Notes, and Abbreviation List EN 7LC9.3L LA 3.
2010-Mar-26
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 LC9.3L 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 9LC9.3L LA 4.
2010-Mar-26
4. Mechanical Instructions
Index of this chapter:4.1 Cable Dressing4.2 Service Positions4.3 Assy/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
4.1.1 32PFL3805, Picasso/Dali Styling
Figure 4-1 Cable dressing 32" (32PFL3805, Picasso/Dali Styling)
Figure 4-2 FFC precautions 32" (32PFL3805, Picasso/Dali Styling)
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FFC Pre-cautions
Proper FFC insertion: Silver line not visible when connector lock is closed
Wrong FFC insertion: Silver line visible when connector lock is closed
Thicker blue FFC supporting tape belong to SSB side
Thinner blue FFC supporting tape belong to Panel side
Panel
SSB
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Mechanical InstructionsEN 10 LC9.3L LA4.
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Figure 4-3 Light leakage solution 32" (32PFL3805, Picasso/Dali Styling)
Figure 4-4 Adding felt on front cabinet 32" (32PFL3805, Picasso/Dali Styling)
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Mechanical Instructions EN 11LC9.3L LA 4.
2010-Mar-26
4.1.2 32PFL6605, Van Gogh/Da Vinci Styling
Figure 4-5 Cable dressing 32" (32PFL6605, Van Gogh/Da Vinci Styling)
Figure 4-6 FFC precautions 32" (32PFL6605, Van Gogh/Da Vinci Styling)
Note : Cable 8M09, 8M59 and 8M83 used in Da Vinci (Ambilight) only18970_100_100323.eps
100323
FFC Pre-cautions
Proper FFC insertion: Silver line not visible when connector lock is closed
Wrong FFC insertion: Silver line visible when connector lock is closed
Thicker blue FFC supporting tape belong to SSB side
Thinner blue FFC supporting tape belong to Panel side
Panel
SSB 100 mm tape x 1 each under speaker on FFC cable
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Mechanical InstructionsEN 12 LC9.3L LA4.
2010-Mar-26
Figure 4-7 Adding felt on front cabinet 32" (32PFL6605, Van Gogh/Da Vinci Styling)
4.1.3 40PFL6605, Van Gogh/Da Vinci Styling
Figure 4-8 Cable dressing 40" (40PFL6605, Van Gogh/Da Vinci Styling)
Add Felt on AmbilightBracket (Da Vinci Only)
Applicable to both Left & Right AL bracket
0443
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Note : 1) Cable 8M09, 8M59 and 8M83 used in Da Vinci (Ambilight) only2) Left (view from front of TV) Tweeter with White cable3) Right (view from front of TV) Tweeter with Red cable + Insulation
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Mechanical Instructions EN 13LC9.3L LA 4.
2010-Mar-26
4.1.4 46PFL6605, Van Gogh/Da Vinci Styling
Figure 4-9 Cable dressing 46" (46PFL6605, Van Gogh/Da Vinci Styling)
Figure 4-10 Adding felt on front cabinet 46" (46PFL6605, Van Gogh/Da Vinci Styling)
1) Cable 8M09, 8M59 and 8M83 used in Da Vinci (Ambilight) only
2) Left (view from front of TV) tweeter with white cable
3) Right (view from front of TV) tweeter with red cable + insulation
Note :
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Add Felts on Front Cabinet
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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.
4.3 Assy/Panel Removal
Instructions below apply to the 32PFL6605D/xx, but will be similar for other models.
4.3.1 Rear Cover
Figure 4-11 Rear cover removal (32")
Warning: Disconnect the mains power cord before removing the rear cover.See Figure 4-11.1. Remove fixation screws [2] and [3] that secure the rear
cover. It is not necessary to remove the stand first [1].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
Tweeters (when applicable)Each tweeter unit is mounted with one screw. When defective, replace the whole unit.
Loudspeaker/subwooferThe loudspeaker/subwoofer is located in the centre of the set, and is fixed with two screws.When defective, replace the whole unit.
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4.3.3 Main Power Supply
Refer to Figure 4-12 for details.
Figure 4-12 Main Power Supply
1. Unplug all connectors [1].2. Remove the fixation screws [2].3. Take the board out.When defective, replace the whole unit. Be aware to (re)place the spacers [3].
4.3.4 Small Signal Board (SSB)
Refer to Figure 4-13 for details.
Figure 4-13 SSB
1. Unplug all connectors [1] and [2].2. Remove the fixation screws [3].3. Take the board out.When defective, replace the whole unit.
4.3.5 Mains Switch
The mains switch assy is mounted below the PSU on the front bezel with two screws. When replacing the switch, remove it from its bracket.
4.3.6 IR & LED Board
Refer to Figure 4-14, Figure 4-15 and Figure 4-16 for details.
Figure 4-14 IR & LED Board -1-
Figure 4-15 IR & LED Board -2-
Figure 4-16 IR & LED Board -3-
1. Remove the stand [1].2. Remove the IR & LED board cover [2].3. Release the clips [3] that secure the IR & LED board.4. Remove the connectors [4] on the IR/LED board.
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4.3.7 Local Control Board
Refer to Figure 4-17 for details.1. Unplug the connector on the IR & LED board that leads to
the Local Control board as described earlier.2. Release the cable from its clamps/tape.3. Release the clip on top of the unit [1] and take the unit out.When defective, replace the whole unit.
Figure 4-17 Local Control board
4.3.8 LCD Panel
Refer to Figure 4-18 for details.1. Remove the Stand and IR/LED board [A] as earlier
described.2. Remove the Speakers/Subwoofer [B] as earlier described.3. Remove the PSU [C] and SSB [D] as earlier described.4. Remove the Mains Switch [E] as earlier described.
5. Remove the Local Control board [F] as earlier described.6. Remove the brackets [1].7. Remove the clamps [2].8. Remove the flare.Now the LCD Panel can be lifted from the front cabinet.
Figure 4-18 LCD Panel removal (based on 32" AL model)
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. • Pay special attention not to damage the EMC foams in the
set. Ensure that EMC foams are mounted correctly.
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5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:5.1 Test Points5.2 Service Modes5.3 Service Tools5.4 Error Codes5.5 The Blinking LED Procedure5.6 Fault Finding and Repair Tips5.7 Software Upgrading
5.1 Test Points
In the chassis schematics and layout overviews, the test points are mentioned. In the schematics, test points are indicated with “Fxxx” or “Ixxx”, in the layout overviews with a “half-moon” sign.As most signals are digital, it will be difficult to measure waveforms with a standard oscilloscope. Several key ICs are capable of generating test patterns, which can be controlled via ComPair. In this way it is possible to determine which part is defective. Perform measurements under the following conditions:• Service Default Mode.• Video: Color bar signal.• Audio: 3 kHz left, 1 kHz right.
5.2 Service Modes
The Service Mode feature is split into four parts: • Service Default Mode (SDM).• Service Alignment Mode (SAM).• Customer Service Mode (CSM).• Computer Aided Repair Mode (ComPair). SDM and SAM offer features, which can be used by the Service engineer to repair/align a TV set. Some features are: • A pre-defined situation to ensure measurements can be
made under uniform conditions (SDM).• Activates the blinking LED procedure for error identification
when no picture is available (SDM).• The possibility to overrule software protections when SDM
is entered via the Service pins.• Make alignments (e.g. White Tone), (de)select options,
enter options codes, reset the error buffer (SAM).• Display information (“SDM” or “SAM” indication in upper
right corner of screen, error buffer, software version, operating hours, options and option codes, sub menus).
The CSM is a Service Mode that can be enabled by the consumer. The CSM displays diagnosis information, which the customer can forward to the dealer or call centre. In CSM mode, “CSM”, is displayed in the top right corner of the screen. The information provided in CSM and the purpose of CSM is to:• Increase the home repair hit rate.• Decrease the number of nuisance calls.• Solved customers' problem without home visit. ComPair Mode is used for communication between a computer and a TV on I2C /UART level and can be used by a Service engineer to quickly diagnose the TV set by reading out error codes, read and write in NVMs, communicate with ICs and the uP (PWM, registers, etc.), and by making use of a fault finding database. It will also be possible to up and download the software of the TV set via I2C with help of ComPair. To do this, ComPair has to be connected to the TV set via the ComPair connector, which will be accessible through the rear of the set (without removing the rear cover).
5.2.1 Service Default Mode (SDM)
PurposeSet the TV in SDM mode in order to be able to:• Create a pre-defined setting for measurements to be
made.• Override software protections.• Start the blinking LED procedure.• Read the error buffer.• Check the life timer.
Specifications
Table 5-1 SDM default settings
• Set linear video and audio settings to 50%, but volume to 25%. Stored user settings are not affected.
• All service-unfriendly modes (if present) are disabled, since they interfere with diagnosing/repairing a set. These service unfriendly modes are:– (Sleep) timer.– Blue mute/Wall paper.– Auto switch “off” (when there is no “ident” signal).– Hotel or hospital mode.– Child lock or parental lock (manual or via V-chip).– Skipping, blanking of “Not favorite”, “Skipped” or
“Locked” presets/channels.– Automatic storing of Personal Preset or Last Status
settings.– Automatic user menu time-out (menu switches back/
OFF automatically.– Auto Volume levelling (AVL).
How to Activate SDM
For this chassis there are two kinds of SDM: an analog SDM and a digital SDM. Tuning will happen according Table 5-1.• Analog SDM: use the standard RC-transmitter and key in
the code “062596”, directly followed by the “MENU” (or HOME) button. Note: It is possible that, together with the SDM, the main menu will appear. To switch it “off”, push the “MENU” (or HOME) button again.
• Digital SDM: use the standard RC-transmitter and key in the code “062593”, directly followed by the “MENU” (or HOME) button.Note: It is possible that, together with the SDM, the main menu will appear. To switch it “off”, push the “MENU” (or HOME) button again.
• Analog SDM can also be activated by grounding for a moment the solder pad on the SSB, with the indication “SDM” (see figure Service mode pad).
Region Freq. (MHz) Default syst.
Europe (except France), AP-PAL/-Multi
475.25 PAL B/G
France SECAM L
NAFTA, AP-NTSC 61.25 (channel 3) NTSC M
LATAM PAL M
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Figure 5-1 Service mode pad
After activating this mode, “SDM” will appear in the upper right corner of the screen (when a picture is available).
How to NavigateWhen the “MENU” (or HOME) button is pressed on the RC transmitter, the TV set will toggle between the SDM and the normal user menu.
How to Exit SDMUse one of the following methods:• Switch the set to STAND-BY via the RC-transmitter. • Via a standard customer RC-transmitter: key in “00”-
sequence.
5.2.2 Service Alignment Mode (SAM)
Purpose• To perform (software) alignments.• To change option settings.• To easily identify the used software version.• To view operation hours.• To display (or clear) the error code buffer.
How to Activate SAMVia a standard RC transmitter: Key in the code “062596” directly followed by the “INFO” button. After activating SAM with this method a service warning will appear on the screen, continue by pressing the “OK” button on the RC.
Contents of SAM (see also Table 6-6)• Hardware Info.
– A. SW Version. Displays the software version of the main software (example: LC93L-1.2.3.4= AAAAB_X.Y.W.Z). • AAAA= the chassis name.• B= the region (A= Asian Pacific, E= Europe, L=
Latam, U= United States).• X.Y.W.Z= the software version, where X is the
main version number (different numbers are not compatible with one another) and Y.W.Z is the sub version number (a higher number is always compatible with a lower number).
– B. Standby Processor Version. Displays the software version of the Stand-by processor.
– C. Production Code. Displays the production code of the TV, this is the serial number as printed on the back of the TV set. 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 in a possibility to do this.
• Operation Hours. Displays the accumulated total of operation hours (not the stand-by hours). Every time the TV is switched “on/off”, 0.5 hours is added to this number.
• Errors (followed by maximum 10 errors). The most recent error is displayed at the upper left (for an error explanation see section “5.4 Error Codes”).
• Reset Error Buffer. When “cursor right” (or the “OK button) is pressed and then the “OK” button is pressed, the error buffer is reset.
• Alignments. This will activate the “ALIGNMENTS” sub-menu. See chapter 6.3 Software Alignments.
• Dealer Options. Extra features for the dealers.• Options. Extra features for Service. For more information
about option codes, refer to 6.4 Option Settings. Note that if the option code numbers are changed, these have to be confirmed with pressing the “OK” button before the options are stored. Otherwise changes will be lost.
• Initialize NVM. The moment the processor recognizes a corrupted NVM, the “initialize NVM” line will be highlighted. Now, two things can be done (dependent of the service instructions at that moment):– Save the content of the NVM via ComPair for
development analysis, before initializing. This will give the Service department an extra possibility for diagnosis (e.g. when Development asks for this).
– Initialize the NVM.
Note: When the NVM is corrupted, or replaced, there is a high possibility that no picture appears because the display code is not correct. So, before initializing the NVM via the SAM, a picture is necessary and therefore the correct display option has to be entered. To adapt this option bit, it is advised to use ComPair (the correct values for the options can be found in Table 6-5) or a method via a standard RC (described below).
Changing the display option via a standard RC: Key in the code “062598” directly followed by the “MENU” (or HOME) button and “XXX” (where XXX is the 3 digit decimal display code as mentioned in Table 6-5). Make sure to key in all three digits, also the leading zero’s. If the above action is successful, the front LED will go out as an indication that the RC sequence was correct. After the display option is changed in the NVM, the TV will go to the Stand-by mode. If the NVM was corrupted or empty before this action, it will be initialized first (loaded with default values). This initializing can take up to 20 seconds.
Figure 5-2 Location of Display Option Code sticker
• Store - go right. All options and alignments are stored when pressing “cursor right” (or the “OK” button) and then the “OK”-button.
• SW Maintenance.– SW Events. Not useful for Service purposes. In case
of specific software problems, the development department can ask for this info.
– HW Events. Not useful for Service purposes. In case of specific software problems, the development department can ask for this info.
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• Operation hours display. Displays the accumulated total of display operation hours. So, this one keeps up the lifetime of the display itself, mainly to compensate the degeneration behavior.
• Test settings. For development purposes only.• Development file versions. Not useful for Service
purposes, this information is only used by the development department.
• Upload to USB. To upload several settings from the TV to an USB stick, which is connected to the SSB. The items are “Channel list”, “Personal settings”, “Option codes”, “Display-related alignments” and “History list”. First a directory “repair\” has to be created in the root of the USB stick. To upload the settings select each item separately, press “cursor right” (or the “OK” button), confirm with “OK” and wait until “Done” appears. In case the download to the USB stick was not successful “Failure” will appear. In this case, check if the USB stick is connected properly and if the directory “repair” is present in the root of the USB stick. Now the settings are stored onto the USB stick and can be used to download onto another TV or other SSB. Uploading is of course only possible if the software is running and if a picture is available. This method is created to be able to save the customer’s TV settings and to store them into another SSB.
• Download to USB. To download several settings from the USB stick to the TV, same way of working needs to be followed as with uploading. To make sure that the download of the channel list from USB to the TV is executed properly, it is necessary to restart the TV and tune to a valid preset if necessary.Note: The “History list item” can not be downloaded from USB to the TV. This is a “read-only” item. In case of specific problems, the development department can ask for this info.
How to Navigate• In SAM, the menu items can be selected with the
“CURSOR UP/DOWN” key on the RC-transmitter. The selected item will be highlighted. When not all menu items fit on the screen, move the “CURSOR UP/DOWN” key to display the next/previous menu items.
• With the “CURSOR LEFT/RIGHT” keys, it is possible to:– (De) activate the selected menu item.– (De) activate the selected sub menu.
• With the “OK” key, it is possible to activate the selected action.
How to Exit SAMUse one of the following methods:• Switch the TV set to STAND-BY via the RC-transmitter.• Via a standard RC-transmitter, key in “00” sequence, or
select the “BACK” key.
5.2.3 Customer Service Mode (CSM)
PurposeThe Customer Service Mode shows error codes and information on the TV’s operation settings. A call centre can instruct the customer (by telephone) to enter CSM in order to identify the status of the set. This helps them to diagnose problems and failures in the TV before making a service call.The CSM is a read-only mode; therefore, modifications are not possible in this mode.
Specifications• Ignore “Service unfriendly modes”.• Line number for every line (to make CSM language
independent).• Set the screen mode to full screen (all contents on screen
is visible).• After leaving the Customer Service Mode, the original
settings are restored.
• Possibility to use “CH+” or “CH-” for channel surfing, or enter the specific channel number on the RC.
How to ActivateTo activate CSM, press the following key sequence on a standard remote control transmitter: “123654” (do not allow the display to time out between entries while keying the sequence).
Contents of CSMThe contents are reduced to 3 pages: General, Software versions and Quality items. The group names itself are not shown anywhere in the CSM menu.
General• Set Type. This information is very helpful for a helpdesk/
workshop as reference for further diagnosis. In this way, it is not necessary for the customer to look at the rear of the TV-set. Note that if an NVM is replaced or is initialized after corruption, this set type has to be re-written to NVM. ComPair will foresee in a possibility to do this.
• Production Code. Displays the production code (the 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.
• Installed date. Indicates the date of the first installation of the TV. This date is acquired via time extraction.
• Options 1. Gives the option codes of option group 1 as set in SAM (Service Alignment Mode).
• Options 2. Gives the option codes of option group 2 as set in SAM (Service Alignment Mode).
• 12NC SSB. Gives an identification of the SSB as stored in NVM. Note that if an NVM is replaced or is initialized after corruption, this identification number has to be re-written to NVM. ComPair will foresee in a possibility to do this. This identification number is the 12nc number of the SSB.
• 12NC display. Shows the 12NC of the display.• 12NC supply. Shows the 12NC of the supply.
Software versions• Current main SW. Displays the built-in main software
version. In case of field problems related to software, software can be upgraded. As this software is consumer upgradable, it will also be published on the Internet.Example: LC92L_1.2.3.4
• Ambilight SW. Displays the Ambilight SW-version.
Quality items• Signal quality. Poor / average /good• Child lock. Not active / active. This is a combined item for
locks. If any lock (Preset lock, child lock, lock after or parental lock) is active, the item shall show “active”.
• HDMI HDCP key. Indicates if the HDMI keys (or HDCP keys) are valid or not. In case these keys are not valid and the customer wants to make use of the HDMI functionality, the SSB has to be replaced.
• Ethernet MAC address. Displays the MAC address present in the SSB.
• BDS key. Indicates if the “BDS level” key is valid or not.
How to Exit CSMPress “MENU” (or HOME) / “Back” key on the RC-transmitter.
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5.3 Service Tools
5.3.1 ComPair
IntroductionComPair (Computer Aided Repair) is a Service tool for Philips Consumer Lifestyle products. and offers the following:1. ComPair helps you to quickly get an understanding on how
to repair the chassis in a short and effective way.2. ComPair allows very detailed diagnostics and is therefore
capable of accurately indicating problem areas. You do not have to know anything about I2C or UART commands yourself, because ComPair takes care of this.
3. ComPair speeds up the repair time since it can automatically communicate with the chassis (when the uP is working) and all repair information is directly available.
4. ComPair features TV software up possibilities.
SpecificationsComPair consists of a Windows based fault finding program and an interface box between PC and the (defective) product. The (new) ComPair II interface box is connected to the PC via an USB cable. For the TV chassis, the ComPair interface box and the TV communicate via a bi-directional cable via the service connector(s).
How to ConnectThis is described in the ComPair chassis fault finding database.
Figure 5-3 ComPair II interface connection
Caution: It is compulsory to connect the TV to the PC as shown in the picture above (with the ComPair interface in between), as the ComPair interface acts as a level shifter. If one connects the TV directly to the PC (via UART), ICs will be blown!
How to OrderComPair II order codes:• ComPair II interface: 3122 785 91020.• ComPair UART interface cable: 3138 188 75051.• Program software can be downloaded from the Philips
Service portal. Note: If you encounter any problems, contact your local support desk.
5.4 Error Codes
5.4.1 Introduction
The error code buffer contains all detected errors since the last time the buffer was erased. The buffer is written from left to right, new errors are logged at the left side, and all other errors shift one position to the right. When an error occurs, it is added to the list of errors, provided the list is not full. When an error occurs and the error buffer is full, then the new error is not added, and the error buffer stays intact (history is maintained).To prevent that an occasional error stays in the list forever, the error is removed from the list after more than 50 hrs. of operation. When multiple errors occur (errors occurred within a short time span), there is a high probability that there is some relation between them. New in this chassis is the way errors are displayed:• There is a simple blinking LED procedure for board level
repair (home repair) so called LAYER 1 errors, next to the existing errors which are LAYER 2 errors (see Table 5-3).– LAYER 1 errors are one digit errors (via CSM).– LAYER 2 errors are 2 digit errors (via SAM/SDM).
• In protection mode:– From consumer mode: LAYER 1.– From SDM mode: LAYER 2.
• In CSM mode: When entering CSM: error LAYER 1 will be displayed by blinking LED. Only the latest error is shown.
• In SDM mode: When SDM is entered via Remote Control code or the hardware pins, LAYER 2 is displayed via blinking LED.
• In the “ON” state: with the RC commands “mute_06250X _OK”, LAYER 2 errors are displayed via blinking LED.
• Error display on screen:– In CSM no error codes are displayed on screen.– In SAM the complete error list is shown.
5.4.2 How to Read the Error Buffer
Use one of the following methods:• On screen via the SAM (only when a picture is visible).
E.g.:– 00 00 00 00 00: No errors detected– 23 00 00 00 00: Error code 23 is the last and only
detected error.– 37 23 00 00 00: Error code 23 was first detected and
error code 37 is the last detected error.– Note that no protection errors can be logged in the
error buffer.• Via the blinking LED procedure. See section 5.4.3 How to
Clear the Error Buffer.• Via ComPair.
5.4.3 How to Clear the Error Buffer
Use one of the following methods:• By activation of the “Reset error buffer” command in the
SAM menu.• With a normal RC, key in sequence “MUTE” followed by
“062599” and “OK”.• If the content of the error buffer has not changed for 50+
hours, it resets automatically.
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5.4.4 Error Buffer
In case of non-intermittent faults, clear the error buffer before starting to repair (before clearing the buffer, write down the content, as this history can give significant information). This to ensure that old error codes are no longer present. If possible, check the entire contents of the error buffer. In some situations, an error code is only the result of another error code and not the actual cause (e.g. a fault in the protection detection circuitry can also lead to a protection). Take notice that some errors need several minutes before they start blinking or before they will be logged. So in case of problems wait 2 minutes from start-up onwards, and then check if the front LED is blinking or if an error is logged.
Table 5-2 Layer 1 error codes
Table 5-3 Error code overview
5.5 The Blinking LED Procedure
5.5.1 Introduction
The software is capable of identifying different kinds of errors. Because it is possible that more than one error can occur over time, an error buffer is available, which is capable of storing the last five errors that occurred. This is useful if the OSD is not working properly. Errors can also be displayed by the blinking LED procedure. The method is to repeatedly let the front LED pulse with as many pulses as the error code number, followed by a period of 1.5 seconds in which the LED is “off”. Then this sequence is repeated. Example (1): error code 4 will result in four times the sequence LED “on” for 0.25 seconds / LED “off” for 0.25 seconds. After this sequence, the LED will be “off” for 1.5 seconds. Any RC5 command terminates the sequence. Error code LED blinking is in red color. Example (2): the content of the error buffer is “12 9 6 0 0” After entering SDM, the following occurs: • 1 long blink of 5 seconds to start the sequence,• 12 short blinks followed by a pause of 1.5 seconds,• 9 short blinks followed by a pause of 1.5 seconds,• 6 short blinks followed by a pause of 1.5 seconds,• 1 long blink of 1.5 seconds to finish the sequence,• The sequence starts again with 12 short blinks.
5.5.2 Displaying the Entire Error Buffer
Additionally, the entire error buffer is displayed when Service Mode “SDM” is entered. In case the TV set is in protection or Stand-by: The blinking LED procedure sequence (as in SDM-mode in normal operation) must be triggered by the following RC sequence: “MUTE” “062500” “OK”.
In order to avoid confusion with RC5 signal reception blinking, this blinking procedure is terminated when a RC5 command is received.
Description Layer 1 code Remarks
SSB 2
Display supply 3 If only one supply is used
Platform supply 4 No separate supply
Ambilight 8
Description Layer 1 Layer 2 Monitoredby
Error/Prot
Error Buffer/Blinking LED
Device Defective Board
I2C Bus related:
I2C bus blocked (front-end) 2 12 ARM E BL/EB SSB SSB
I2C1 bus blocked 2 13 ARM E BL/EB SSB SSB
I2C0 bus blocked 2 14 ARM E BL SSB SSB
System does not boot 2 15 ARM/Stby µP P BL SSB SSB
I2C2 bus blocked (EDID HDMI) 2 18 ARM E BL/EB SSB SSB
Supply related:
DC on speaker 2 11 ARM P BL / SSB
POK (inverter or display supply) 3 17 ADC E EB / Supply
IC related:
HDMI MUX 2 23 ARM E EB ADV3002 SSB
HDMI EDID 2 24 ARM E EB M24C02-WMN6 SSB
ARM (Ambilight) 8 28 ARM E EB NXP LPC2103 AL-module or DC/DC
Tuner (Frontend) 2 34 ARM E EB VA1G5BF8010 SSB
Main NVM 2 35 ARM E / M24C64 SSB
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5.6 Fault Finding and Repair Tips
Notes: • It is assumed that the components are mounted correctly
with correct values and no bad solder joints. • Before any fault finding actions, check if the correct
options are set.
5.6.1 Software Protections
Most of the protections and errors use either the stand-by or the micro processor as detection device. Since in these cases, checking of observers, polling of ADCs, and filtering of input values are all heavily software based, these protections are referred to as software protections.There are several types of software related protections, solving a variety of fault conditions:• Protections related to supplies: check of the 12V.• Protections related to breakdown of the safety check
mechanism. E.g. since the protection detections are done by means of software, failing of the software will have to initiate a protection mode since safety cannot be guaranteed any more.
Remark on the Supply ErrorsThe detection of a supply dip or supply loss during the normal playing of the set does not lead to a protection, but to a cold reboot of the set. If the supply is still missing after the reboot, the TV will go to protection.
Protections during Start-upDuring TV start-up, some voltages and IC observers are actively monitored to be able to optimize the start-up speed, and to assure good operation of all components. If these monitors do not respond in a defined way, this indicates a malfunction of the system and leads to a protection.
5.6.2 Hardware Protections
The only real hardware protection in this chassis is (in case of an audio problem) the audio protection circuit that will trigger the uP to switch “off” the TV.
Repair Tip• It is also possible that you have an audio DC protection
because of an interruption in one or both speakers (the DC voltage that is still on the circuit cannot disappear through the speakers). Caution: (dis)connecting the speaker wires during the ON state of the TV at high volume can damage the audio amplifier.
5.6.3 Logging
When something is wrong with the TV set (f.i.the set is rebooting) you can check for more information via the logging in Hyperterminal. The Hyperterminal is available in every Windows application via Programs, Accessories, Communications, Hyperterminal. Connect a “ComPair UART”-cable (3138 188 75051) from the service connector in the TV to the “multi function” jack at the front of ComPair II box.Required settings in ComPair before starting to log:- Start up the ComPair application.- Select the correct database (open file “Q549.3E LA”, this will set the ComPair interface in the appropriate mode).- Close ComPairAfter start-up of the Hyperterminal, fill in a name (f.i. “logging”) in the “Connection Description” box, then apply the following settings: 1. COMx2. Bits per second = 1152003. Data bits = 84. Parity = none
5. Stop bits = 16. Flow control = noneDuring the start-up of the TV set, the logging will be displayed. This is also the case during rebooting of the TV set (the same logging appears time after time). Also available in the logging is the “Display Option Code” (useful when there is no picture), look for item “DisplayRawNumber” in the beginning of the logging. Tip: when there is no picture available during rebooting you are able to check for “error devices” in the logging (LAYER 2 error) which can be very helpful to determine the failure cause of the reboot. For protection state, there is no logging.
5.6.4 Display option code
Caution: In case you have replaced the SSB, always check the display option code in SAM, even if you have picture. With a wrong display option code it is possible that you have picture, but that in certain conditions you have unwanted side-effects.
5.6.5 Trouble Shooting Tuner section
When there is no picture in analog RF mode:1. Check whether picture is present in AV mode. If not, tuner
section is okay. Check video processing section.2. Check if option settings are correct.3. Check if 5 and 33 V supplies are available.4. Check if the I2C lines are working correctly (3.3 V).5. Manually store a known channel and check if there is IF
output at tuner pin 11. If not, tuner is faulty.6. Feed in 105 dBuV at tuner pin 11 and check whether there
is CVBS output from IF demodulator IC. If not, IF demodulator might be faulty. Check components in this area.
5.7 Software Upgrading
5.7.1 Introduction
It is possible for the user to upgrade the main software via the USB port. This allows replacement of a software image in a stand alone set, without the need of an E-JTAG debugger. A description on how to upgrade the main software can be found in the DFU.
Important: When the NAND-Flash must be replaced, a new SSB must be ordered, due to the presence of the security keys! (copy protection keys, MAC address, ...).Perform the following actions after SSB replacement:1. Set the correct option codes (see sticker inside the TV).2. Update the TV software => see the DFU for instructions.3. Perform the alignments as described in chapter 6.4. Check in CSM if the HDMI key, MAC address.. are valid.For the correct order number of a new SSB, always refer to the Spare Parts list on the Philips Service web portal!
5.7.2 Software Upgrade
SW versions can be divided in three types:• SW that can not crash the working of the set.
– EDID NVM. If the download fails, the set is still running and the download can start again.
– Main NVM: If the download fails the default NVM value can be loaded. NVM can be loaded via USB, be aware PCBA alignments stored in NVM will not be overridden.
• SW that is “fool proof”: There is a backup version, a main interruption during upgrade shall not crash the normal working, a new upgrade can be started. – Main SW image: Upgradable via USB.– Standby SW.– ARM Ambilight (if applicable): Upgradable via USB.
• SW that is not “fool proof”.
Service Modes, Error Codes, and Fault Finding EN 23LC9.3L LA 5.
2010-Mar-26
– Bootloader: Upgradable via USB in SAM (Note: must be done by service personnel).
SW for all model numbers is loaded to the Philips Service portal (P4S) and contains the following software:• Process_NVM_LC09Mxxx.bin: mainly for factory use to
load main NVM. Can be used by service if applicable.• LC09M_VGAxxxx.bin: for loading VGA NVM using
ComPair tool.• LC09M_HDMIxxxx.bin: for loading HDMI NVM via
ComPair (HDMI MUX EDID) tool.• The Autorun.upg file, which is available on P4C (the
consumer web site), contains:– Main SW.– Standby SW.– Bootloader SW (via SAM upgradable).– Ambilight SW (if applicable).
AlignmentsEN 24 LC9.3L LA6.
2010-Mar-26
6. Alignments
Index of this chapter:6.1 General Alignment Conditions6.2 Hardware Alignments6.3 Software Alignments6.4 Option Settings Note: Figures below can deviate slightly from the actual situation, due to the different set executions.
General: The Service Default Mode (SDM) and Service Alignment Mode (SAM) are described in chapter 5. Menu navigation is done with the CURSOR UP, DOWN, LEFT or RIGHT keys of the remote control transmitter.
6.1 General Alignment Conditions
Perform all electrical adjustments under the following conditions:• Power supply voltage: 120 - 230 VAC / 50 Hz (± 10%).• Connect the set to the mains via an isolation transformer
with low internal resistance.• Allow the set to warm up for approximately 15 minutes.• Measure voltages and waveforms in relation to correct
ground (e.g. measure audio signals in relation to AUDIO_GND). Caution: It is not allowed to use heatsinks as ground.
• Test probe: Ri > 10 Mohm, Ci < 20 pF.• Use an isolated trimmer/screwdriver to perform
alignments.
6.2 Hardware Alignments
There are no hardware alignments foreseen for this chassis, but below find an overview of the most important DC voltages on the SSB. These can be used for checking proper functioning of the DC/DC converters.
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 ALIGNMENTS and go to one of the sub menus. The alignments are explained below.
The following item can be aligned:• Whitepoint.
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:• 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).
6.3.1 White Point
• Set “Active control” to “Off”.• Choose “TV menu”, “TV Settings” and then “Picture” and
set picture settings as follows:
• Go to the SAM and select “Alignments”-> “White point”.
White point alignment LCD screens:• Use a 100% white screen as input signal and set the
following values (in SAM mode): – “Color temperature” to “Cool”.– “Whitepoint red”, “Whitepoint green”, and “Whitepoint
blue” values to “127”.– “Red BL offset” and “Green BL offset” values to “7”.
With a color analyzer:Depending on which color analyzer you use (CS-200 or CA-210), and what kind of panel is mounted in the set (CCFL with panel codes 231/232, or LED with panel codes 233/234/236), different values apply. Refer to • Measure with a calibrated, contactless (max. 25 mm
distance) color analyzer in the centre of the screen. Consequently, the measurement needs to be done in a dark environment.
• Adjust one or two registers (so holding one of the White point registers R, G or B on 127) to obtain the “Cool” x,y values (see Table 6-1). Tolerance: dx: ± 0.004, dy: ± 0.004.
• Repeat this step for the “Normal” and “Warm” color temperatures.
• When finished press “OK” on the RC and then press “Store” (in the SAM root menu) to store the aligned values into the NVM.
• Restore the initial picture settings after the alignments.
Table 6-1 White D alignment values, CS-200 color analyzer
all panels
Table 6-2 White D alignment values, CA-210 color analyzer
CCFL panel (panel codes 231/232)
Description Test Point Specifications (V) Diagram
Min. Typ. Max.
+12VS F118 11.70 12.30 12.91 B01_DC-DC
+3V3_STBY F113 3.20 3.30 3.40 B01_DC-DC
+3V3_SW F127 3.17 3.34 3.5 B01_DC-DC
+1V2_SW F139 1.18 1.25 1.31 B01_DC-DC
+5V_SW F130 4.98 5.25 5.51 B01_DC-DC
+1V8_SW F101 1.74 1.83 1.92 B01_DC-DC
+1V0_SW F124 0.99 1.05 1.10 B01_DC-DC
+8V_SW F126 7.6 8.0 8.4 B01_DC-DC
+5VS F232 4.94 5.2 5.46 B02_Tuner_IF
+1V2SW F220 1.14 1.2 1.26 B02_Tuner_IF
+2V5_SW F208 2.38 2.5 2.62 B02_Tuner_IF
+3V3_SW F209 3.14 3.3 3.46 B02_Tuner_IF
+5VTUN_DIGITAL
F203 4.75 5 5.25 B02_Tuner_IF
VLS_15V6 FKFD 14.82 15.6 16.38 B14B_TCON_DC/DC
VGH_35V FKFA 33.25 35.0 36.75 B14B_TCON_DC/DC
VGL_-6V FKFK -6.32 -6.02 -5.72 B14B_TCON_DC/DC
VCC_3V3 FKFB 3.14 3.3 3.47 B14B_TCON_DC/DC
VCC_1V2 FKDD 1.14 1.2 1.26 B14A_TCON_CONTROL
Picture Setting
Dynamic backlight Off
Dynamic Contrast Off
Colour Enhancement Off
Picture Format Unscaled
Light Sensor Off
Brightness 50
Colour 0
Contrast 100
Value Cool (11000 K) Normal (9000 K) Warm (6500 K)
x 0.276 0.287 0.313
y 0.282 0.296 0.329
Value Cool (10100 K) Normal (8510 K) Warm (6250 K)
x 0.280 0.290 0.317
y 0.287 0.300 0.333
Alignments EN 25LC9.3L LA 6.
2010-Mar-26
Table 6-3 White D alignment values, CA-210 color analyzer
LED panel (panel codes 233/234/236)
Without a color analyzer, you can use below default values. This is the next best solution. The default values are average values coming from production (statistics).• Select a “Color Temperature” (e.g. “Cool”, “Normal”, or
“Warm”).• Set the “Whitepoint Red”, “- Green” and “- Blue” default
values according to the values in the “Tint settings” table.• When finished press “OK” on the RC, then press “Store” (in
the SAM root menu) to store the aligned values into the NVM.
• Restore the initial picture settings after the alignments.
Table 6-4 Tint settings (default values)
6.4 Option Settings
6.4.1 Introduction
The microprocessor communicates with a large number of I2C ICs in the set. To ensure good communication and to make digital diagnosis possible, the microprocessor has to know which ICs to address. The presence/absence of these specific ICs (or functions) is made known by the option codes. Notes: • After changing the option(s), save them with the STORE
command.• The new option setting becomes active after the TV is
switched “off” and “on” again with the mains switch (the EAROM is then read again).
6.4.2 Dealer Options
For dealer options, in SAM select “Dealer options”.See Table 6-6.
6.4.3 (Service) Options
Select the sub menu's to set the initialization codes (options) of the model number via text menus.See Table 6-6.
6.4.4 Opt. No. (Option numbers)
Select this sub menu to set all options at once (expressed in two long strings of numbers).An option number (or “option byte”) represents a number of different options. When you change these numbers directly, you can set all options very quickly. All options are controlled via eight option numbers.When the NVM is replaced, all options will require resetting. To be certain that the factory settings are reproduced exactly, you must set both option number lines. You can find the correct option numbers on a sticker inside the TV set and in Table “Option code overview”.
Example: The options sticker gives the following option numbers:• 25604 00386 00235 56068 • 08395 05120 00000 00000
The first line (group 1) indicates hardware options 1 to 4. Example: option no. “2” contains the “cabinet type”. The second line (group 2) indicates software options 5 to 8. Example: option no. “5” contains the “display code”.Every 5-digit number represents 16 bits (so the maximum value will be 65536 if all options are set).When all the correct options are set, the sum of the decimal values of each Option Byte (OB) will give the option number.See Table 6-5 for the options. Always refer to the sticker in the TV-set as leading.
DiversityNot all sets with the same Commercial Type Number (CTN) necessarily have the same option code!
Use of Alternative BOMAn alternative BOM number usually indicates the use of an alternative display. This results in another Display Code thus in another Option code. Refer to chapter 3. Precautions, Notes, and Abbreviation List.
6.4.5 Option code overview
Table 6-5 Option code overview (subject to change)
6.5 Total Overview SAM modes
Table 6-6 SAM mode overview (usage is model dependent)
Value Cool (9330 K) Normal (7940 K) Warm (6060 K)
x 0.282 0.293 0.320
y 0.298 0.313 0.346
Colour Temp. R G B
32-inch
Cool tbf tbf tbf
Normal tbf tbf tbf
Warm tbf tbf tbf
40-inch
Cool tbf tbf tbf
Normal tbf tbf tbf
Warm tbf tbf tbf
46-inch
Cool tbf tbf tbf
Normal tbf tbf tbf
Warm tbf tbf tbf
Model Number Option Codes Displ. Code
32PFL3805D/78 01028 00385 00171 56068 08423 04096 00000 00000 231
32PFL5605D/78 09220 08578 00171 56068 08425 04096 00000 00000 233
32PFL6605D/78 09252 08578 00171 56068 08425 04096 00000 00000 233
40PFL3805D/78 01028 00385 00171 56068 08424 04096 00000 00000 232
40PFL5605D/78 09220 08579 00171 56068 08426 04096 00000 00000 234
40PFL6605D/78 09268 08579 00171 56068 08426 04096 00000 00000 234
46PFL5605D/78 09220 08579 00171 56068 08428 04096 00000 00000 236
46PFL6605D/78 09284 08579 00171 56068 08428 04096 00000 00000 236
Main Menu Sub-menu 1 Sub-menu 2 Sub-menu 3 Description
Hardware Info A. SW VERSION e.g. “QL92L_1.33.0.0” Displays TV & Standby SW version and CTN serialnumber. B. Standby processor version e.g. “STDBY_88.68.0.0”
C. Production code e.g. “VN010935123456”
Operation hours Displays the accumulated total of operation hours.TVswitched “on/off” & every 0.5 hours is increase one
Errors Displayed the most recent errors.
AlignmentsEN 26 LC9.3L LA6.
2010-Mar-26
Reset error buffer Clears all content in the error buffer.
Alignment Tuner AGC RF-AGC Take over point adjustment (AGC defaultvalue is 80)
White point Colour temperature Normal 3 different modes of colour temperature can be se-lectedWarn
Cool
White point red LCD White Point Alignment. For values, see Table 6-4.White point green
White point blue
Red black level offset
Green black level offset
Dealer options Personal options Picture mute Off/On Select Picture mute On/Off. Picture is muted / notmuted in case no input signal is detected at inputconnectors.
Virgin mode Off/On Select Virgin mode On/Off. TV starts up / does not start up (once) with a language selection menu after the mains switch is turned “on” for the first time (virgin mode)
E-sticker Off/On Select E-sticker On/Off (USPs on-screen)
Auto store mode None
PDC/VPS
TXT page
PDC/VPS/TXT
Options Digital broadcast DVB Off/On Select DVB On/Off
DVB - T installation Off/On or Country dependent Select DVB T installation On/Off or by country
DVB - T light Off/On Select DVB T light On/Off
DVB - C Off/On Select DVB C On/Off
DVB - C installation Off/On or Country dependent Select DVB C installation On/Off or by country
Over the air download Off/On or Country dependent Select Over the air download On/Off or by country
8 days EPG Off/On Select 8 day EPG On/Off
Digital features USB Off/On Select USB On/Off
Ethernet Off/On Select Ethernet On/Off
Wi-Fi Off/On Select Wi-Fi On/Off
DLNA Off/On Select DLNA On/Off
On-line service Off On-line service is Off
PTP (Picture Transfer Protocol) Off/On Select PTP On/Off
Update assistant Off/On Select Update assistant On/Off
Internet software update Off Internet software update is Off
Data EPG Off/On Select EPG On/Off
TvTv EPG Off/On Select TvTv EPG On/Off
Display Screen e.g. “130 - LGD WUE SAA1 42"“ Displayed the panel code & type model.
Dimming backlight Off/On Select Dimming Backlight On/Off
LightGuide Off/On Select LightGuide On/Off
Display fans Not present/Present Select Display fans Present/Not present.
Temperature sensor Sensor present in display (only for21:9)
N.A.
Temperature LUT 0 N.A
E-box & monitor Off/On Select E-box & monitor On/Off
Video reproduction Picture processing None/PNX5100 Select Picture processing None/PNX5100 (Q549.xEchassis).
MOP local contrast Off/On Select MOP local contrast On/Off
Light sensor Off/On Select Light sensor On/Off
Light sensor type 0/1/2/3 Select Light sensor type form 0 to 3 (for differencestyling).
Pixel Plus type Pixel Plus HD Select type of picture improvement.
Perfect Pixel HD
Pixel Precise HD
Pixel Plus Off/On Select Pixel Plus On/Off
Ambilight Off/Mono/Stereo/Triple/Quad/Pixe-lated quad
Select type of Ambilight modules use.
Ambilight technology CCFL/LED Select Ambilight technology.
Ambilight driver Pacific 3/MOP/DFI Select Ambilight driver.
Pacific 3 Not present/Present Select Pacific 3 presence.
MOP Not present/Present Select MOP presence.
MOP ambilight Off/On Select MOP ambilight On/Off
Main Menu Sub-menu 1 Sub-menu 2 Sub-menu 3 Description
Alignments EN 27LC9.3L LA 6.
2010-Mar-26
Audio reproduction Acoustic system Cabinet design used for setting dynamic audio pa-rameters
Source selection EXT1/AV1 type SCART CVBS RGB LR Select input source when connected with externalequipment
CVBS Y/C YPbPr LR
CVBS Y/C YPbPr HV LR
(CVBS) YPbPr LR
EXT2/AV2 type SCART CVBS RGB LR Select input source when connected with externalequipment
CVBS Y/C LR
(CVBS) YPbPr LR
CVBS Y/C LR
EXT3/AV3 type None Select input source when connected with externalequipment
CVBS
CVBS LR
YPbPr
YPbPr LR
YPbPr HV LR
VGA Off/On Select VGA On/Off
SIDE I/O Off/On Select SIDE I/O On/Off
HDMI 1 Off/On Select HDMI 1 On/Off
HDMI 2 Off/On Select HDMI 2 On/Off
HDMI 3 Off/On Select HDMI 3 On/Off
HDMI 4 Off/On Select HDMI 4 On/Off
HDMI side Off/On Select HDMI side On/Off
HDMI CEC Off/On Select HDMI CEC On/Off
HDMI CEC RC pass through Off/On Select HDMI CEC RC pass through On/Off
HDMI CEC Pixel Plus link Off/On Select Pixel Plus link On/Off
USB version USB 1.0/USB 2.0 Select USB version
S/PDIF inputs None/1 connector Select no. of inputs
Miscellaneous Region Europe/AP-PAL-MULTI/Australia Select Region/country
ATSC/DVB-T Off/On Select feature On/Off
Over the air download (AOD) Off/On Select feature On/Off
DVB-T installation Off/Country dependent/On Select feature On/Off
DVB-C Off/On Select feature On/Off
DVB-C installation Off/Country dependent/On Select feature On/Off
MPEG4 Off/On Select feature On/Off
Tuner type HD1816-MK1/TD1716-MK4/etc. Select type of Tuner used
Nyquist SAW filter Off/On Select feature On/Off
I2C configuration With PCA9540/9515/channel dec. Select configuration
Channel decoder TDA10048/etc. Select channel decoder
Remote control assistant Off/On Select feature On/Off
System RC support Off/On Select System RC support On/Off
Embedded user manual Off/On Select Embedded user manual On/Off
Start-up screen Off/On Select Start-up screen On/Off
Wallpaper Off/On Select Wallpaper On/Off
Hotel mode Off Hotel mode is Off
Video playback Off/On Select feature On/Off
Update assistant Off/On Select feature On/Off
Board identifier TV520/82 / TV520/82M Select chassis
Light guide Off/On Select feature On/Off
Option number Group 1 e.g. “08192.02181.01387.45160” The first line (group 1) indicates HW options 1 - 4
Group 2 e.g. “10185.12448.00164.00000” The second line (group 2) indicates SW options 5 - 8
Store Store after changing
Initialise NVM N.A.
Store Select Store in the SAM root menu after making any changes
SW maintenance Software events Display Displayed information is for development purposes
Clear
Test reboot
Hardware events Display Displayed information is for development purposes
Clear
Operation hours display 0003 In case the display must be swapped for repair, youcan reset the “”Display operation hours” to “0”. So,this one does keeps up the lifetime of the display it-self (mainly to compensate the degeneration behav-iour)
Test settings Digital info Displayed information is for development purposes.
Install start frequency 000 Install start frequency from “0” MHz
Install end frequency 999 Install end frequency as 999 MHz
Default install frequency
Installation Digital only Select Digital only or Digital + Analogue before instal-lation.Digital + Analogue
Main Menu Sub-menu 1 Sub-menu 2 Sub-menu 3 Description
AlignmentsEN 28 LC9.3L LA6.
2010-Mar-26
Development file ver-sions
Development 1 file version Display parameters DISPT 3.26.8.7 Displayed information is for development purposes.
Acoustics parameters ACSTS 3.6.6.5
PQ - PRFPP 1.26.10.4
Ambilight parameters PRFAM 2.6.1.3
Development 2 file version 12NC one zip software Displayed information is for development purposes.
Initial main software
NVM version Q5492_0.4.0.0
Flash units SW Q5492_0.26.15.0
Upload to USB Channel list To upload several settings from the TV to an USBstickPersonal settings
Option codes
Display-related alignment
History list
Download from USB Channel list To download several settings from the USB stick tothe TV. Personal settings
Option codes
Display-related alignments
Main Menu Sub-menu 1 Sub-menu 2 Sub-menu 3 Description
Circuit Descriptions EN 29LC9.3L LA 7.
2010-Mar-26
7. Circuit Descriptions
Index of this chapter:7.1 Introduction7.2 Power Architecture
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 chapter 9. Block Diagrams and 10. Circuit Diagrams and PWB Layouts. Where necessary, you will find a separate drawing for clarification.
7.1 Introduction
The LC9.3L LA chassis is based on the LC9.2L LA chassis with added TCON and Ambilight circuitry integrated on the SSB. For all other circuitry, refer to the LC9.1/LC9.2L LA Service Manual.
7.1.1 Architecture Overview
For details about the chassis block diagrams refer to chapter Block Diagrams. An overview of the architecture can be found in Figure 7-1 and Figure 7-2.
Figure 7-1 Architecture LC9.3L LA chassis - general
18970_201_100325.eps100325
GDDR3128MB
TunerSHARP NIM
MediaTekMT5392Digital Colour Decoder10-bit video4-field HD MADI(MPEG2/MPEG4)HD-DNMFRC 100/120Hz
FLASH128MB
TDA8932CLASS D
2 Ch Audio Amp
SPDIF
RF in (Antenna)RF in (Cable)
CVBS
SIF
TS in
ADV3002MUX
HDMI 1
HDMI 2
HDMI 3(Reserved)
HDMI SideGDDR3128MB
32
Reserved
LPC2103
Sharp DFRTiming Control
DFR PanelLED / CCFL
2K10Ambilight
Module
USB2.0
Circuit DescriptionsEN 30 LC9.3L LA7.
2010-Mar-26
Figure 7-2 Architecture LC9.3L LA chassis - detailed
18970_202_100325.eps100325
CVI1/2+Audio L/R
AV IN Audio L/R
OFDMdemod
CVBS
2 × CVI
Quad LVDS1920 × 1080p@ 100Hz
HDMI v1.3
USB2.0- JPEG- MP3- MPEG4
SPDIF out
2pcs 32 M × 32 (1Gbit)GDDR3
DC-DC12V
3V3stby
Serial TS
SPDIF
5V3V3
1V051V81V2
Sharp
4:1 Mux(ADV3002)
8V
audio
DVI Audio
5V
I/O:PWM/BacklightTcon/PSU/.. controlsuP
MuxADC
Video/Audio processor
Pixel processing
/Scaler
MT5392
1.8V
5V3V3
3.3V
Ambilight
1 Gbit NAND
VGA
EDID
EDID
Power amplifier
Circuit Descriptions EN 31LC9.3L LA 7.
2010-Mar-26
7.1.2 SSB Cell Layout
Figure 7-3 SSB cell layout
7.2 Power Architecture
For an overview of the output voltages of the Power Supplies, refer to the wiring diagrams in chapter Block Diagrams.
Refer to Figure 7-4 for the power architecture.
18970_209_100326.eps100326
S P D IF
G P IO
LVD S
A udio
VA1
G5B
F801
0
Ser ial T S
LVDS 51PMiniLVDS LEFT
LVDS 41PMiniLVDS RIGHT
TIMING CONTROLLERQFP200, 0.5mm
D C /D Can d
C lass-DQuad -Eth e rn e t
/N AN D
G -
I²S
D A C
IN
JTA ST
m mA nalog A udio
C o m p o n e n t V id e o
C V B SY C
Tu n er
M T5392 U F M J
Pitch :1 .00
DD
R In
terfa
ceU
SB
STB Y
GP
IO
HDM
I
NVM
GAM
MA
Am bi LPC2103F
T C O N D C /D C1P81 1M 59 1P80
1M95
1735
1M99
1M20
1736
LR P r P b Y
SPD IF Ou tp u t
SVC R L Y H PAD V3 0 0 2
VGA A u d io
U SB2.0
V GA
GD D R 3
N AN D F lashEth e rn e t
Tra n sce ive r
Circuit DescriptionsEN 32 LC9.3L LA7.
2010-Mar-26
Figure 7-4 Power architecture
7.3 Front-end
Refer to Figure 7-5 for the front-end architecture.
Figure 7-5 Front-end architecture
Below find an explanation of the signals that are used:• RF_SW: switching signal between cable and antenna:
- 0 V: antenna- 3V3: cable
• GAIN_SW: Low-Noise Amplifier (LNA)- “On”: antenna- “Off”: cable
• AFT: Frequency Fine Tuning; for analog use only• SIF_OUT: audio for analog channel• VIDEO_OUT: video for analog channel• SYRSTN: reset for tuner
• SDA/SCL: communication between tuner and MT5392• SBYTE: transport stream for digital channel inputs• SPBVAL: transport stream for digital channel inputs• SRDT: transport stream for digital channel inputs• SRCK: transport stream for digital channel inputs.
18970_203_100325.eps100325
DCDC3.34 V +/−0.16 V
MT5392EEPROM
Flash
NVM
HDMI MUX
1.05 V +/−0.05 V
1.83 V +/−0.05 V
5.0 V+/−0.25 V
Tuner Circuitry
USB2.0
GDDR3 × 2
1.25 V +/-0.06 V
VS = +12 VRegulator 8.0 V +/−0.40 V
Regulator
5.25 V +/−0.26 V Regulator
coil
5.20 V+/−0.26 V
2.50 V+/−0.12 V
Regulator
DCDC
18970_204_100325.eps100325
VA1G5BF8010
RF_SWGAIN_SW
BB(5 V)B1(5 V)
AFTSIF_OUT
VIDEO_OUTB2(2.5 V)B3(3.3 V)B4(1.2 V)SYRSTN
SDASCL
RSEORFSBYTE
SPBVALSRDTSRCK
+2V5_SW
+3V3_SW
+1V2_SW
+5 V TUN_DIGITAL
MT5392
GPIO
ADIN
AUDIO IN
VIDEO IN
TransistorBuffer
I2CI2C
TransportstreamInput
Transport Stream
MT5392
Circuit Descriptions EN 33LC9.3L LA 7.
2010-Mar-26
7.4 HDMI
Refer to Figure 7-6 for the HDMI architecture.
Figure 7-6 HDMI architecture
Below find an explanation of the signals that are used:• DDC: EDID information is read through the I2C lines and is
used for the HDCP authentication process as well• CEC: connected to MT5392 and all HDMI input ports
directly• EDID_WC: used to disable the write protection pin of the
EEPROM; when updating the EEPROM, pull this pin LOW• TMDS: signal that contains video and audio• HOTPLG: to initiate the source device for EDID reading
and HDCP authentication
• 5V: to indicate the presence of the source device for the acknowledgement of the MT5392.
7.5 USB
Refer to Figure 7-7 for the USB architecture.
Figure 7-7 USB architecture
Below find an explanation of the signals that are used:• USB_OC:
– normal operation signal level is “HIGH” (logic “1”)– when the 5V supply to the USB device exceeds a
current limit of 700 mA, the RT9715HGS will pull the signal level to “LOW” state (logic “0”), which will restart the set
– if the die temperature exceeds 120 degrees C, the signal will be “LOW” (logic “0”), which will restart the set
• USB_PWR_EN: to enable or disable the USB power switch RT9715HGS; to enable, this signal must be set to logic “0”
• USB_DM, USB_DP: USB differential signal.
18970_205_100325.eps100325
MT5392
HDMIConnector 1
HDMIConnector 2
HDMIConnector
side
ADV3002
TMDS
DDC
TMDS
DDC
TMDS
DDC
5 V
HOTPLUG
HOTPLUG5 V
5 V
HOTPLUG
TMDS
DDC
Local I2C
CEC
Reset
EDID E2PROM
EDID I2C
EDID_WC
18970_206_100325.eps100325
MT5392
GPIO 1
GPIO 2
USB_PWE
USB_OCRT9715HGS
USB DM
USB DP
VIN
VOUT USBconnector
5V
EN_
FLG_
+5V_SW
USB _DM
USB _DP
1D03
7D007400
Circuit DescriptionsEN 34 LC9.3L LA7.
2010-Mar-26
7.6 I2C
Refer to Figure 7-8 for the I2C architecture.
Figure 7-8 I2C architecture
7.7 TCON
The Timing Controller is integrated in the SSB (“Forward Integration” concept). Refer to Figure 7-9 for the TCON system block diagram.
Figure 7-9 TCON system block diagram
18970_207_100325.eps100325
MT5392
NVM7605
10
k
+3V3_SW
10
k
22R
22R
OSDA0 (J30)
OSCL0 (J29)
SDA-MAIN
SCL-MAIN
AmbilightμController
7801
100R
100R
4k7
+3V3_SW
4k7
47
48AMBI_SDA
AMBI_SCL
OSDA1 (K30)
OSCL1 (K29)
HDMIMUX7900
22RDDC_SCL
DDC_SDAOSDA2 (AJ10)
OSCL2 (AK10) 67
68
40
27
10
0R
ForDebugging
10
0R
10K
10K+3V3_SW
4k7
+3V3_SW
4k7
1R
1R
TUNER_SDA
TUNER_SCL
100RFRONTEND_SDA
FRONTEND_SCL 100R15p
15p
TUNER1205
12
13
L28
L29
47p
5
6
10p 10p
18920_209_100318.eps100319
EEPROM
TFT – LCD Panel
Mini - LVDS
Control Signals
+3V3+ 1V2
VGH (+35V)VGL ( − 6V)
+12V
LVDS (10bit)
Timing Controller
Power Block
GammaReference Voltage
Source Drive IC
Gate D
rive IC
MT
K
LCD Panel
TCONMain Platform
SSB
+ 15.6V
Circuit Descriptions EN 35LC9.3L LA 7.
2010-Mar-26
7.8 Ambilight
Refer to Figure 7-10 for the Ambilight architecture.
Figure 7-10 Ambilight architecture
The MTK5392 outputs through an I2C bus. The data is then captured by the LPC2103 microprocessor which converts the RGB input data (I2C) into RGB output through an SPI bus, which is further transmitted to the Ambilight LED board via an SPI interface (SPI + extra signals).
18970_208_100325.eps100325
MTK 5392 μPLP C2103I2C A MB I-S P I
+24V
+ 3V 3
1M724P 2.0mm
1M59
1M094P 2.0mm
4p
1M83
25p FFC
A mb i l ight B oard 1
Temp sensor
MTK S S B
P S U
1M84
25p FFC
LEDdriv er
T LC 5946
EEPR O M
1M83
A mb i l ight B oard 2
1M84
LEDdriv er
T LC 5946
EEPR O M
IC Data SheetsEN 36 LC9.3L LA8.
2010-Mar-26
8. IC Data Sheets
This section shows the internal block diagrams and pin layouts of ICs that are drawn as "black boxes" in the electrical diagrams (with the exception of "memory" and "logic" ICs).
8.1 Diagram B03 SSB: CLASS-D & Muting, Type TDA8932BT (IC7311), Audio Amplifier
Figure 8-1 Internal block diagram and pin configuration
G_16860_045.eps100326
Block diagram
Pinning information
TDA8932T
VSSD(HW) VSSD(HW)
OICSOP1NI
1PVHN1NI
VGAID DDP1
1TOOBEGAGNE
1TUOPUREWOP
VDNGC SSP1
VDDA STAB1
VSSA STAB2
OSCREF VSSP2
2TUOFERPVH
2TOOBFERNI
VTSET DDP2
2PVHN2NI
FERDP2NI
VSSD(HW) VSSD(HW)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
18
17
20
19
22
21
24
23
26
25
32
31
30
29
28
27
2
8130128
29
27
3
12
TDA8932
OSCILLATOR
26
BOOT1
VDDP1
OUT1
VSSP1
PWMMODULATOR
DRIVERHIGH
DRIVERLOW
CTRL
MANAGER
CTRLPWM
MODULATOR
PROTECTIONS:OVP, OCP, OTP,
UVP, TF, WPSTABILIZER 11 V
STABILIZER 11 V
REGULATOR 5 V
MODE
VDDA
15
14
IN1P
VOICSOFERCSO DDA
VSSD
IN1N
INREF
IN2P
IN2N
6POWERUP
4DIAG
7CGND
21
20
22
23
BOOT2
VDDP2
OUT2
25 STAB1
24 STAB2
18
11
DREF
HVPREF
30 HVP1
19 HVP2
VSSP2
DRIVERHIGH
DRIVERLOW
VDDA
VSSP1
VSSP2
VSSD
VDDA
VSSA
HALF SUPPLY VOLTAGE
5ENGAGE
13
9
TEST
VSSA
1, 16, 17, 32
VSSD(HW)
IC Data Sheets EN 37LC9.3L LA 8.
2010-Mar-26
8.2 Diagram B04A SSB: MTK Power, Type MT5392 (IC7400), CPU / Demodulator / Decoder
Figure 8-2 Internal block diagram
18700_302_090828.eps100326
Block diagram
DRAM Bus
IO Bus
UART PWMPVR
Audio DSP Watchdog
Audio I/F
SPDIF, I2S
RTC
2-D Graphic
Vplanescaler
OSDscaler
VADCx4
TSDemux
TVDecoder
HDMI In I/F
LVDS
Audio Input
MJC and Post Processing
DDRDRAM
Controller
BIMARM11
HDMI Rx Panel
VDO-In
NAND FlashAudio DAC
CKGEN
AudioDemod
De-interlace
Audio In
DTDAudioADC
Serial Flash Servo ADC
BScan
JTAG USB2.0I2CIrDA
CVBS/YC Input
Video Decoder
SDIO Ethernet MAC
T8032
Tuner In
ComponentAnalogInput
Tuner In
DDR2GDDR3
CEC
IC Data SheetsEN 38 LC9.3L LA8.
2010-Mar-26
8.3 Diagram B06 SSB: HDMI & Multiplexer, Type ADV3002 (IC7900), HDMI MUX
Figure 8-3 Internal block diagram and pin configuration
18700_301_090828.eps100326
Block diagram
Pinning information
2IN_B_CLK+3HPD_B4IN_B_DATA0–
7IN_B_DATA1–
6HPD_A
5IN_B_DATA0+
1IN_B_CLK–
8IN_B_DATA1+9AVCC
10IN_B_DATA2–
12SEL013IN_A_CLK–14IN_A_CLK+15SEL116IN_A_DATA0–17IN_A_DATA0+18AVCC19IN_A_DATA1–20IN_A_DATA1+
11IN_B_DATA2+
59
58
57
54
55
56
60
53
52
IN_C_DATA2–HPD_CIN_C_DATA1+
IN_C_DATA0+HPD_DIN_C_DATA1–
IN_C_DATA2+
IN_C_DATA0–AVCC
51 IN_C_CLK+
49 I2C_ADDR048 IN_D_DATA2+47 IN_D_DATA2–46 AVEE45 IN_D_DATA1+44 IN_D_DATA1–43 AVCC42 IN_D_DATA0+41 IN_D_DATA0–
50 IN_C_CLK–
21
AVEE
22
IN_A
_DAT
A2–
23
IN_A
_DAT
A2+
24
TX_E
N
25
OU
T_D
ATA
2+
26
OU
T_D
ATA
2–
27
I2C
_SC
L
28
OU
T_D
ATA
1+
29
OU
T_D
ATA
1–
30
AVEE
31
OU
T_D
ATA
0+
32
OU
T_D
ATA
0–
33
AVC
C
34
OU
T_C
LK+
35
OU
T_C
LK–
36
RES
ETB
37
IN_D
_CLK
–
38
IN_D
_CLK
+
39
I2C
_AD
DR
1
40
I2C
_SD
A
80
P5V_
A
79
P5V_
B
78
P5V_
C
77
P5V_
D
76
DD
C_S
DA
_A
75
DD
C_S
CL_
A
74
DD
C_S
DA
_B
73
DD
C_S
CL_
B
72
DD
C_S
DA
_C
71
DD
C_S
CL_
C
70
DD
C_S
DA
_D
69
DD
C_S
CL_
D
68
DD
C_S
DA
_CO
M
67
DD
C_S
CL_
CO
M
66
CEC
_IN
65
CEC
_OU
T
64
AM
UXV
CC
63
EDID
_EN
AB
LE
62
EDID
_SD
A
61
EDID
_SC
L
PIN 1
ADV3002TOP VIEW
(Not to Scale)
SERIAL
I2C_SDAI2C_SCL
I2C_ADDR[1:0]AVCC
AVCC
CEC_IN
IN_x_CLK+IN_x_CLK–
IN_x_DATA2+IN_x_DATA2–IN_x_DATA1+IN_x_DATA1–IN_x_DATA0+IN_x_DATA0–
DDC_xxx_ADDC_xxx_BDDC_xxx_CDDC_xxx_D
P5V_AP5V_BP5V_CP5V_D
HPD_AHPD_BHPD_CHPD_D
HOT PLUG DETECT
EDID
DDC/CEC
TMDS
EDID EEPROM INTERFACE
ADV3002
44
2
444
22
22
2
2
44
+–+–+–+–
+–+–+–+–
AVCC
AVCC
AVCC
AVEE
OUT_CLK+OUT_CLK–OUT_DATA2+OUT_DATA2–OUT_DATA1+OUT_DATA1–OUT_DATA0+OUT_DATA0–
DDC_SCL_COM,DDC_SDA_COM
CEC_OUT
EDID_ENABLEEDID_SCL,EDID_SDA
AMUXVCC
BIDIRECTIONAL
SEL[1:0] TX_EN RESETB
CONFIGINTERFACE
CONTROLLOGIC
LOS
EQ
SWITCHCORE
SWITCHCORE
3.3V 3.3V
REPLICATORCONTROL
5VCOMBINER
HPDCONTROL
PARALLEL
Block Diagrams EN 39LC9.3L LA 9.
2010-Mar-26
9. Block Diagrams
Wiring Diagram 32" - 40" (Picasso)
11P
1M95
9P
1M99
2P3
1308
1735
4P
1M95
11P
1M99
9P
1KA2
80P
1KA1
80P
1M20
8P
MA
INS
CO
RD
8191
TO DISPLAY TO DISPLAY
3P J1
SSB(1150)B
MAIN POWER SUPPLYIPB 32 PLHC-P984A B IPB 40 PLHE-P986A B (1005)
LCD DISPLAY(1004)
8M99
8M95
WIRING DIAGRAM 32"- 40" PICASSO
18970_400_100325.eps100326
1M99 (B01A)1. +12VDISP2. +12VDISP3. GND4. GND5. LAMP-ON-A6. PWM-DIMMING7. BACKLIGHT-BOOST-A8. GND9. POWER-OK-A
1M95 (B01A)1. +3V3STDBY2. STANDBY3. GND4. GND5. GND6. +12VS7. +12VS8. +12VS9. +24VAUDIO10. GNDSND11. N.C.
1735 (B03)1. SPEAKER_LEFT+2. SPEAKER_LEFT-3. SPEAKER_RIGHT+4. SPEAKER_RIGHT-
1M20 (B14F)1. LIGHT-SENSOR2. GND3. RC4. LED-25. +3V3-STANDBY6. LED-17. KEYBOARD8. +5V
1KA2 (B14E)1. GND| 11. VLS_15V612. VLS_15V6| 33. VCC_3V334. VCC_3V3|78. VGH_35V79. VGL_-6V80. GND
1KA1 (B14E)1. GND| 11. VLS_15V612. VLS_15V6| 33. VCC_3V334. VCC_3V3|78. VGH_35V79. VGL_-6V80. GND
LN
Board Level Repair
Component Level RepairOnly For Authorized Workshop
USB
HD
MI
TUN
ER
PHO
NE
SPD
IF
HDMIHDMI VGA
LOUDSPEAKER(5213)
8M20
8KA2
J2
3P
J1
8P
8KA1
1319
1P3
1316
1P3
HIGH VOLTAGE
TO B
AC
KLI
GH
T
TO BACKLIGHT
32"
40"
TO B
AC
KLI
GH
T
8319
8316
IR/LED BOARD(1112)J
KE
YB
OA
RD
CO
NT
RO
L(1
114)
E
EN 40LC9.3L LA 9.Block Diagrams
2010-Mar-26
Wiring Diagram 32" - 46" (van Gogh)
1735
4P
1M95
11P
1M99
9P
1KA2
80P
1KA1
80P
1M20
8P
1M59
25P
1M72
4P
SSB(1150)B
USB
HD
MI
TUN
ER
PHO
NE
SPD
IF
HDMIHDMI VGA
TWEETER(5217)
TWEETER(5216)
MAINSSWITCH
(8311)
11P
1M95
9P
1M99
2P3
1311
2P3
1308
1319
32"-
6P
1316
32"-
12P
1319
40"-
10P
46"-
10P
1316
40"-
10P
46"-
10P
MA
INS
CO
RD
8191
TO DISPLAY TO DISPLAY3P J1
MAIN POWER SUPPLY32"- FSP124-3MS02 B 40"- DPS-206CP-1 A B 46"- FSP173-3MS02 B (1005)
LCD DISPLAY(1004)
8M99
8M95
RED WIRE WHITE WIRE
WIRING DIAGRAM 32"- 46" VAN GOGH
18970_401_100325.eps100326
LN
Board Level Repair
Component Level RepairOnly For Authorized Workshop
LOUDSPEAKER(5213)
8M20
TO B
AC
KLI
GH
T
8KA2
NOT FOR 32" TV-SETS NOT FOR 32" TV-SETS J2
3P
J1
8P
8KA1
1M09
4P
1M99 (B01A)1. +12VDISP2. +12VDISP3. GND4. GND5. LAMP-ON-A6. PWM-DIMMING7. BACKLIGHT-BOOST-A8. GND9. POWER-OK-A
1M95 (B01A)1. +3V3STDBY2. STANDBY3. GND4. GND5. GND6. +12VS7. +12VS8. +12VS9. +24VAUDIO10. GNDSND11. N.C.
1735 (B03)1. SPEAKER_LEFT+2. SPEAKER_LEFT-3. SPEAKER_RIGHT+4. SPEAKER_RIGHT-
1M72 (B13)1. +24V2. +24V3. GND4. GND
1M09 (PSU)1. +24V2. +24V3. GND4. GND
1M20 (B14F)1. LIGHT-SENSOR2. GND3. RC4. LED-25. +3V3-STANDBY6. LED-17. KEYBOARD8. +5V
1KA2 (B14E)1. GND| 11. VLS_15V612. VLS_15V6| 33. VCC_3V334. VCC_3V3|78. VGH_35V79. VGL_-6V80. GND
1KA1 (B14E)1. GND| 11. VLS_15V612. VLS_15V6| 33. VCC_3V334. VCC_3V3|78. VGH_35V79. VGL_-6V80. GND
1M59 (B13)1. AMBI-SPI-CLK-OU2. AMBI-SPI-SDO-OUT3. AMBI-SPI-SDI-OUT-GI4. GND5. AMBI-PWM-CLK_B26. V-AMBI7. AMBI-SPI-CS-OUTn_R28. AMBI-LATCH1_G29. GND10. AMBI-PROG_B111. AMBI-BLANK_R112. V-AMBI13. AMBI-LATCH2_DIS14. AMBI-SPI-CS-EXTLAMPSn
15. AMBI-TEMP16. GND17. GND18. GND19. GND20. GND21. +24V22. +24V23. +24V24. +24V25. +24V
IR/LED BOARD(1112)J
KE
YB
OA
RD
CO
NT
RO
L(1
11
4)
E
Block Diagrams EN 41LC9.3L LA 9.
2010-Mar-26
Wiring Diagram 32" 46" (Da Vinci)
1735
4P
1M95
11P
1M99
9P
1KA2
80P
1KA1
80P
1M20
8P
1M59
25P
1M72
4P
SSB(1150)B
USB
HD
MI
TUN
ER
PHO
NE
SPD
IF
HDMIHDMI VGA
TWEETER(5217)
TWEETER(5216)
MAINSSWITCH
(8311)
11P
1M95
9P
1M99
2P3
1311
2P3
1308
1319
32"-
6P
1316
32"-
12P
1319
40"-
10P
46"-
10P
1316
40"-
10P
46"-
10P
MA
INS
CO
RD
8191
TO DISPLAY TO DISPLAY3P J1
MAIN POWER SUPPLY32"- FSP124-3MS02 B 40"- DPS-206CP-1 A B 46"- FSP173-3MS02 B(1005)
LCD DISPLAY(1004)
8M99
8M95
RED WIRE WHITE WIRE
WIRING DIAGRAM 32"- 46" DA VINCI
18970_402_100325.eps100326
LN
Board Level Repair
Component Level RepairOnly For Authorized Workshop
LOUDSPEAKER(5213)
8M20
TO B
AC
KLI
GH
T
8KA2
NOT FOR 32" TV-SETS NOT FOR 32" TV-SETS J2
3P
J1
8P
8KA1
AM
BIL
IGH
T M
OD
UL
E 2
4 L
ED
(1161)
AL
25P
1M83
AM
BIL
IGH
T M
OD
UL
E 2
4 L
ED
(1161)
AL
1M84
25P
1M83
25P
1M09
4P
8M59
8M838M83
8M09
8M83
1M99 (B01A)1. +12VDISP2. +12VDISP3. GND4. GND5. LAMP-ON-A6. PWM-DIMMING7. BACKLIGHT-BOOST-A8. GND9. POWER-OK-A
1M95 (B01A)1. +3V3STDBY2. STANDBY3. GND4. GND5. GND6. +12VS7. +12VS8. +12VS9. +24VAUDIO10. GNDSND11. N.C.
1735 (B03)1. SPEAKER_LEFT+2. SPEAKER_LEFT-3. SPEAKER_RIGHT+4. SPEAKER_RIGHT-
1M72 (B13)1. +24V2. +24V3. GND4. GND
1M09 (PSU)1. +24V2. +24V3. GND4. GND
1M20 (B14F)1. LIGHT-SENSOR2. GND3. RC4. LED-25. +3V3-STANDBY6. LED-17. KEYBOARD8. +5V
1KA2 (B14E)1. GND| 11. VLS_15V612. VLS_15V6| 33. VCC_3V334. VCC_3V3|78. VGH_35V79. VGL_-6V80. GND
1KA1 (B14E)1. GND| 11. VLS_15V612. VLS_15V6| 33. VCC_3V334. VCC_3V3|78. VGH_35V79. VGL_-6V80. GND
1M38 (AL1A)1. +24V2. +24V3. +24V4. +24V5. +24V6. GND7. GND8. GND9. GND10. GND11. TEMP-SENSOR12. N.C.13. N.C.
14. +3V315. BLANK16. PROG17. GND18. LATCH19. SPI-CS20. +3V321. PWM-CLOCK22. GND23. SPI-DATA-RETURN24. SPI-DATA-IN25. SPI-CLOCK
1M48 (AL2A)1. SPI-CLOCK-BUF2. SPI-DATA-OUT3. SPI-DATA-RETURN4. GND5. PWM-CLOCK-BUF6. +3V37. SPI-CS8. LATCH9. GND10. PROG11. BLANK12. +3V313. N.C.
14. N.C.15. TEMP-SENSOR16. GND17. GND18. GND19. GND20. GND21. +24V22. +24V23. +24V24. +24V25. +24V
1M59 (B13)1. AMBI-SPI-CLK-OU2. AMBI-SPI-SDO-OUT3. AMBI-SPI-SDI-OUT-GI4. GND5. AMBI-PWM-CLK_B26. V-AMBI7. AMBI-SPI-CS-OUTn_R28. AMBI-LATCH1_G29. GND10. AMBI-PROG_B111. AMBI-BLANK_R112. V-AMBI13. AMBI-LATCH2_DIS14. AMBI-SPI-CS-EXTLAMPSn
15. AMBI-TEMP16. GND17. GND18. GND19. GND20. GND21. +24V22. +24V23. +24V24. +24V25. +24V
IR/LED BOARD(1112)J
KE
YB
OA
RD
CO
NT
RO
L(1
11
4)
E
EN 42LC9.3L LA 9.Block Diagrams
2010-Mar-26
Block Diagram Video
B02 TUNER & ANALOG DEMOD B14A TCON CONTROL
B14C P GAMMA &VCOM & FLASH
B14D MPD B14E MINI LVDSB04 MT5392:
B06 HDMI & MUX
B06C ANALOG I/O - CINCH
B07E VGA
B04B GDDR3
B04C FLASH & EJTAG & DISPLAY INTERFACE
B07D USB
7400MT5392RHMJ
LVDSB04D
AVIB07B
CVBS_SPDIF_USBB07D
PM_DEMODB04A
GPIOB04C
HDMI_XTAL_LDOB06
DREAM_IFB04B
CVBS-SPDIF_USBB07D
FLASH_IFB04C
PB
PR
Y
35 RXC-
RX0+
RX0-RX1+
RX1-
RX2+
RX2-
34
32
31
29
28
26
25
RXC+
AJ8
AK9
AJ9
AK8
AJ7
AJ6
AK6
AK7
RX0_1B
RX0_2
RX0_2B
XTAL1
XTALO
RX0_1
RX0_0B
RX0_CB
RX0_C
RX0_0
7900ADV3002BSTZ01
HDMISWITCH
OUT_CLK_-OUT_CLK_+
IN_C
IN_B
IN_A
OUT_DATAD0_-
OUT_DATAD0_+
OUT_DATAD1_-OUT_DATAD1_+
OUT_DATAD2_-
OUT_DATAD2_+
60
59
57
56
54
53
51
50
23
22
20
19
17
16
14
13
191
182
1
1902
3
4
7
910
12
6
DRX2+
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-HDMI 1 CONNECTOR
191
182
1
1904
3
4
7
910
12
6
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-HDMI 2CONNECTOR
1
1903
3
4
7
910
12
6
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
191
182
HDMI SIDECONNECTOR
MT5392
7603NAND01GW3B2CN6F
FLASH1G
18970_403_100325.eps100325
43
21
USB_DM0
TO7D00-6
USB_DP0
USB 2.0CONNECTOR SIDE
SW UPLOADJPEGMP3
AJ5
AK5
VIDEO
MPX0_P
1C11
CVBSCVBS_AV3 AE302
CVBS_3
1C12
SC1_B
SC1_G SY0P
SPB0P
SPR0P
SPBR0N
AJ19
AJ21
7
12
9
SC1_CVBS_OUT AH22PR0P
Y0P
PB0P
AK22PBR0N
1
1G16
2
3
14
13
VGA_R
VGA_G
VGA_Rp
VGA_Rn
VGA_Gn
VGA_Bn
RN
GN
BN
VGA_Gp
VGA_B
H-SYNC
V-SYNC
VGA_Bp
HSYNC
VSYNC
RP
GP
BP
1 610
11
5
15
VGACONNECTOR
AJ14
AK14
AH15
AJ15
AJ16
AJ17
AK16
AK17 RP
VSYNC
GP
BP
HSYNC
BN
RN
GN
USB_DP0USB_DM0
RDQ
RA
PDD
190027M
W30
W29
1D031
2
4
3
SIF_OUT_1 SIF_OUT
1205VA1G5BF8010
TUNER
6SIF_OUT
AB27
RF-SW
3216
CVBS_0CVBS0T CVBS_RF
GND_CVBS_RF
7VIDEO_OUT
AD29
CVBS_NAD28
EF7200
GPIO_11RF_SW1 D29
GAIN-SW GPIO_12GAIN_SW2 E27
AFT ADIN_6AFT5 AK28
SYRSTN GPIO_4DEMOD_RESET11 G29
SBYTE TSO_SYNCTSO_SYNC15 C30
SPBVAL TSO_VALIDTSO_VALID16 A30
SRCK TSO_CLKTSO_CLK18 B30
SRDT TSO_DATATSO_DATA017 C29
PB
PR
Y
1C13
PB1P_SC2
SY1P_SC2 Y1P
PB1P
PR1P
Y1N
PBR1N
SY1P
SPB1P
SPR1P
SY1N
SPBR1N
AJ19
AJ18
7
12
9
PR1P_SC2 AH19PR1P
Y1P
PB1P
AH18
AK19PBR1N
Y1N
SY0N
Y0P
PB0P
PR0P
PBR0N
Y0N AH21SOY0
7KUFISL24016IRTZ
PX1
PX2
TO DISPLAY(TCON ON SSB)
TO DISPLAY(TCON ON SSB)
1KA2
72
81
61
50
13
33
34
12
11
1KA181
72
79
78
61
2
10
1
1
7KAAUPD809900F1
7KQAISL24837IRZ
VL/VH
VH
REFVOLTAGE
GEN
7KUEMAX17079GTL
LEVELSHIFTER
LEVELSHIFTER
CS(1U-12U)CS(1-12)
CS(1-6)
VLS_15V6
VCC_3V3
12
11VLS_15V6
7KQBM25P32
FLASH32K
SDI
SDOSCS
SCK
VGL_-6V
VGH_35V
2
10
INTERFACEB14A
PX3
PX4
33
34
VCC_3V3
50
13L_LV(A-B)
R_LV(A-B)
79
78VGL_-6V
VGH_35V
VL
VH
VL
32"
42"
2212
2C15
2C16
2C17
2C06
2C05
2C04
2C07
2E09
2E08
NAND_PDD(0-7)
48
47
45
44
42
41
38
37
A2A2
+1V8_SW
SDRAM1G
7501H5RS1H23MFR
SDRAM1G
7500H5RS1H23MFR
VD
D
VD
D
DQ(0-31)
RA(0-12)
5C05
5C02
5C01
5C05
5C04
5C03
3B08
SOY0 AH20SOY0
3B11
3B10
3B07
3B09
3B06
SOY1 AH17SOY1
SOG1 AH16SOG
3B00
3B02
3B05
3B03
3B04
3B01
3E03
CVI-1
CVI-2
AVIN
Block Diagrams EN 43LC9.3L LA 9.
2010-Mar-26
Block Diagram Audio
B02 TUNER & ANALOG DEMOD B03 CLASS-D & MUTINGB04 MT5392:
B07B ANALOG I/O - AUDIO
B07C ANALOG I/O - YPbPr & CINCH
B04B GDDR3
B04C FLASH & EJTAG & DISPLAY INTERFACE
B06 HDMI & MUX
B07D USB
1B01
1
ALI_ADACB06B
ALI_DACB07B
MT5392
18970_404_100325.eps100325
AUDIO
1B02
2
3
1
J28 ASPDIF_OUTASPDIF_OUT
DVI_AUL_IN
DVI_AUR_IN
1C13
U27
U26
V30 AIN1_L
V29AIN_1_R
V28 AIN_0_L
V27AIN_0_R
AV INAUDIO
L/R
AV INAUDIO
L/R AIN1_R
AIN1_L
U29
U28
AIN_2_L
AIN_2_R
AV3_L_IN
AV3_L_IN
1C11
AV INAUDIO
L/R
5
8
5
3
1C12
5
3
M30
M29
PGA_2OUTL
PGA_2OUTR
AOUTL
AOUTR
SPEAKER_LEFT+
SPEAKER_LEFT-
SPEAKER_RIGHT+
SPEAKER_RIGHT-
7510TDA8932BTW/N2
CLASS DPOWER
AMPLIFIER
2
14
27
22
MUTE 5
1
2
1735
3
4
DC-DETECTIONSW_MUTE
STANDBYn 6
MUTEn
POWER_DOWN
B04A
B04A
B04A
B04A
DC_PROTB04C
7312÷7314
(CONTROL)
(CONTROL) (CONTROL)ANTI_PLOP
MUTE
7310
AIN_3_L
AIN_3_R
AIN0_R
AIN0_L
AIN1_R-SC1
AIN1_L-SC1
AIN0_R-SC2
AIN0_L-SC2
7400MT5392RHMJ
AVIB07B
PM_DEMODB04A
GPIOB04C
MPX0_PSIF_OUT_1 SIF_OUT
1205VA1G5BF8010
TUNER
6SIF_OUT
AB27
RF-SW
3216
3B28
3B27
3B30
3B29
SIF_OUT_GNDMPX0_N
AB26
GPIO_11RF_SW1 D29
GAIN-SW GPIO_12GAIN_SW2 E27
CVBS_SPDIF_USBB07D
AFT ADIN_6AFT5 AK28
SYRSTN GPIO_4DEMOD_RESET11 G29
SBYTE TSO_SYNCTSO_SYNC15 C30
SPBVAL TSO_VALIDTSO_VALID16 A30
SRCK TSO_CLKTSO_CLK18 B30
SRDT TSO_DATATSO_DATA017 C29
CVBS_0CVBS0T CVBS_RF
GND_CVBS_RF
7VIDEO_OUT
AD29
CVBS_NAD28
EF7200
2212
DREAM_IFB04B
FLASH_IFB04C7603NAND01GW3B2CN6F
FLASH1G
RDQ
RA
PDD NAND_PDD(0-7)
A2A2
+1V8_SW
SDRAM1G
7501H5RS1H23MFR
SDRAM1G
7500H5RS1H23MFR
VD
D
VD
D
DQ(0-31)
RA(0-12)
AVIN
CVI-2
CVI-1
HDMI_XTAL_LDOB06
35 RXC-
RX0+
RX0-RX1+
RX1-
RX2+
RX2-
34
32
31
29
28
26
25
RXC+
AJ8
AK9
AJ9
AK8
AJ7
AJ6
AK6
AK7
RX0_1B
RX0_2
RX0_2B
XTAL1
XTALO
RX0_1
RX0_0B
RX0_CB
RX0_C
RX0_0
7900ADV3002BSTZ01
HDMISWITCH
OUT_CLK_-OUT_CLK_+
IN_C
IN_B
IN_A
OUT_DATAD0_-
OUT_DATAD0_+
OUT_DATAD1_-OUT_DATAD1_+
OUT_DATAD2_-
OUT_DATAD2_+
60
59
57
56
54
53
51
50
23
22
20
19
17
16
14
13
191
182
1
1902
3
4
7
910
12
6
DRX2+
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-HDMI 1 CONNECTOR
191
182
1
1904
3
4
7
910
12
6
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-HDMI 2CONNECTOR
1
1903
3
4
7
910
12
6
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
191
182
HDMI SIDECONNECTOR
190027M
W30
W29
48
47
45
44
42
41
38
37
CVBS-SPDIF_USBB07D
43
21
USB_DM0
TO7D00-6
USB_DP0
USB 2.0CONNECTOR SIDE
SW UPLOADJPEGMP3
SPEAKERLEFT
SPEAKERRIGHT
AJ5
AK5USB_DP0USB_DM0
1D031
2
4
3
EN 44LC9.3L LA 9.Block Diagrams
2010-Mar-26
Block Diagram Control & Clock SignalsCONTROL + CLOCK SIGNALS
B04B GDDR3
B04C FLASH & EJTAG & DISPLAY INTERFACE
B07D USB
B06 HDMI & MUX
B04C FLASH & EJTAG
B14F CONNECTORS
GPIOB04C
DREAM_IFB04B
FLASH_IFB04C
TO IR/LED PANELAND
KEYBOARD CONTROL
+5V_SW
+3V3STBY
3
2
6
4
5
1
7
8
1M20
MT5392
7400MT5392RHMJ
PM_DEMODB04A OPWRSB
SPIO_UART_IICB04C
AJ13
AK13UART
SERVICECONNECTOR
UART_RX
UART_TX
UART_RX
UART_TX
1603
3
2
1
AH14 STANDBYnB03
B01STANDBY
OPWM_2
U0RX
U0TX
C5 PWM-DIMMIB01
AH5GPIO_0
GPIO_16
GPIO_15
GPIO_14AK2
RCLK1n
RCLK1p
M3
M2
EDID_WCB06 B07E
GPIO_20B28 LCD-PWR-ONn_A
B04C
GPIO_24D28 LAMP-ON-A
B01A
DC_PROTB03
D29GPIO_11
RF_SWB02
D29GPIO_11
GAIN_SWB02
AG6
AJ2
AJ1
GPIO_1USB_PWE
B06DAF7
GPIO_2USB_OC
B07DG29
GPIO_4
AK11OIRI
DEMOD_RESETB02
AJ29ADIN_3
CVBS_SPDIF_USBB07DLIGHT-SENSOR
AK29ADIN_4
POWER-OK-AB01A
AJ28ADIN_5
KEYBOARD
AK28ADIN_6
AFTB02
RC
OPCTRL_0AJ12 HDMI_CEC
B06
OPCTRL_2AG12LED-1
OPCTRL_3AG11 MUTEn
B03
OPCTRL_4AF13 SW_MUTE
B03
B04C
B04C
OPCTRL_5AF12 POWER_DOWN
B03
LED-2
2608
SDM2607
PANEL
43
21
USB20-DM0
OPCTRL_8AH13
USB_DM0AJ5
USB_DP0AK5 USB20-DP0
USB 2.0CONNECTOR
SIDE
1F21
3
4
2
1
USB_PWE
7D00TPS2041BD
USB_OCENOUTOC
18970_405_100325.eps100325
7401
7603NAND01GW3B2CN6F
FLASH1G
PDD NAND_PDD(0-7)
RDQ
RA
CLK
CLK
J11J11 J10J10
SDRAM1G
7501H5RS1H23MFR
SDRAM1G
7500H5RS1H23MFR
DQ(0-31)
RCLK0n
RCLK0p
M3
M2
V9 V9
CLK
CLKNV
RRESETRRESET
RA(0-12)
HDMI_XTAL_LDOB06
XTAL1
XTALO
190027M
W30
W29
Block Diagrams EN 45LC9.3L LA 9.
2010-Mar-26
Block Diagram I2CI²C
HDMI & MUXB06
VGAB07E
TCON CONTROLB14A P GAMMA & VCOM & FLASHB14C
TUNER & ANALOG DEMODB02MTK POWERB04A
FLASH & EJTAGB04CCONTROLLERB04
AMBILIGHT MICROCONTROLLERB05
GDDR3B04B
7400MT5392RHMJ
OSDA0
OSCL0
GPIO-18
PM_DEMOD
SPIO_UARTIIC
L28
L28 7
68
67
J29
J30
L29
TUNER_SDA
TUNER_SCL
FRONTEND_SDA
FRONTEND_SCL
SYS_EEPROM_WE
SDA-MAIN
SCL-MAIN
3417
3418
+3V3_SW
3619
3618
+3V3_SW
3617
3616
+3V3_SW
3665
3666
+3V3_SW
UA0RX
UA0TX
CLK
DATA
18970_406_100325.eps100325
12 13
1205VA1G5BF8010
MAINTUNER
5 6
7812M24C64
EEPROM(NVM)
3839
3838
AJ10
AK10
DDC-SDA
DDC-SCLOSCL2
OSDA2
K30
K29
AMBI_SDA
AMBI_SCL
AJ13
AK13
UART_RX
UART_TX
OSCL1
OSDA1
3644
3632
363336
36
3637
+3V3STBY
UARTSERVICE
CONNECTOR
3638
3639
1813
3
2
1
1505
3
1
4
6
23667
3668
FOR DEBUGGING ONLY
3888
3889
+3V3STBY
1812
3
1
4
66
23890
3891
3219
3218
FOR DEBUGGING ONLY
ERR34
B04A
B04C
ERR35
7600
40 27
7900ADV3002BSTZ01
HDMIMUX
3904
3905
VDDO_3V3
RES
62
61
EDID_SDA
EDID_SCL
3944
3945
+5V_COMBINED
5 6
7901M24C02
EEPROM(EDID)
7EDID_WC7906
HDMICONNECTOR 1
1903
16
15
3940
3941
ARX-5V
3925
3924
+5V_COMBINED
76
75
HDMICONNECTOR 2
1904
16
15
3937
3938
CRX-5V
72
71
HDMICONNECTOR
SIDE
1902
16
15
3936
3935
DRX-5V
70
69
ARX-DDC-DAT
ARX-DDC-CLK
CRX-DDC-DAT
CRX-DDC-CLK
DRX-DDC-DAT
DRX-DDC-CLK
1 610
11
5
15
VGACONNECTOR
1G16
12
15
3E21
3E22
DC_5V
VGA-SDA-EDID-TCON
VGA-SCL-EDID-TCON
5 6
7E00M24C02
EEPROM
ERR23
ERR24
4E03
4E02
7EDID_WC7E01
B04C
B04C
MT5392
B04B
DREAM_IF
3222
3223
48 47
7801LPC2103FBD48
AMBILIGHTCONTROLLER
3820
3821
1KQB
DEBUG ONLYRES
4
2
13KT
U
3KT
V
VCC_3V3
BYPASS_MODE
SDA-TCON
SCL-TCON
E19 E20
K21
K20 1
27KAA
UPD809900F1
CONTROL
12 13
7KQAISL24837IRZ
VOLTAGEGENERATOR
7 8
7KQHPCA9540BDP
I2CSWITCH
2
1
7KAB LM75BDP
TEMPSENSOR
7KQBM25P32
FLASH32K
SDI
SDA
SCL
SDOSCS
SCK TCONSW
Programmable via USBSW
SW
SW
Programmable via ComPair
Pre-programmed device
EDIDSW
EDIDSW
ERR28
ERR14
ERR18
ERR12
ERR13
7603NAND01GW3B
FLASH1GNAND_PDD(0-7)
SDRAM1G
7501H5RS1H23MFR
SDRAM1G
7500H5RS1H23MFR
DQ(0-31)
RA(0-12)
MAINSW
MAIN NVMSW
EN 46LC9.3L LA 9.Block Diagrams
2010-Mar-26
Supply Lines Overview SUPPLY LINES OVERVIEW
MAINPOWERSUPPLY
B01A DC / DC B04E AMBILIGHT
B02 TUNER & ANALOG DEMOD
B04C FLASH & EJTAG & DISPLAY INTERFACE
B03 CLASS-D & MUTING
B04A MTK POWER
B04B GDDR3
B07D USB
B07E VGA
B08 HOSPITALITYHOSPITALITY
B06 HDMI & MUX
B07B DIGITAL IO - ETHERNET (PROVISIONAL)
B14A TCON CONTROL
B13 AMNILIGHT CPLD
B14C P GAMMA & VCOM & FLASH
B14D MPD
B14E MINI LVDS
B14F CONNECTORS
B14B TCON DC/DC
1M95
1 1
6 6
7 7
8 8
1M95+3V3STBY
+1V2-STANDBY
18970_407_100325.eps100325
1M09
1
2
34
+3V3_STDBY
+12V
B04c
B03,B04a,B08
B03,B04a,c,B07d,B08
B04a
B04a
B04a
B04a,b
B14f
B02
B02,B04a,c,B06,B07d,e,B08B02,B04a,c,e,B06,B07b,d
B03
1M99
1 1
6 6
7 7
2 2
3 3
4 4
5 5
8 8
LAMP-ON-A
1M99
BACKLIGHT-BOOST-A
+12VDISP
PWM-DIMMING B04C
B04C
+12V
+12V
GND1
GND1
BL-ON_OFF
A/P_DIM
DIM
BOOST
+12VS
+8V_SW
9 9 +24VAUDIO
B04aSENSE+1V0_MTK5392
10 10
+5VS
+5V_SW+5V_SW
+5V_SW
+5V
+3V3_SW
+1V2_SW
+12V
+12V
+VSND
GND_SND
CONTROL
CONTROL
B04CCONTROL
B07DCONTROL
9 9INV_OK
POWER-OK-A
2 2
3 3
4 4
5 5
STANDBY
GNDSND
B04ASTANDBY
GND1
GND1
GND1
CONTROL
7201
IN OUTCOM
11 11
7103TPS54386PWP
NonSynchronous
Converter
+24VAUDIO+24VAUDIO
+3V3_SW
+1V8UP
+1V8UP
+3V3_SWB01a
B01a
B01a
B01a
B01a
B01a
B01a
+3V3STBY+3V3STBY
+12VS+12VS
B01a
B01a
N.C.
+24Vb
+24Vb
GND
GND
5107 5109
+3V3_SW+3V3_SWB01a
+3V3STBY+3V3STBYB01a
+5V_SW+5V_SWB01a
+5V_SW+5V_SWB01a
DC_5V
B01a
VDD
VDDA
+3V3_SW+3V3_SWB01a
CRX-5V
190218HDMI 1
CONNECTOR
ARX-5V
190418
1E05
HDMI 2CONNECTOR
VGACONNECTOR
+1V2_SW+1V2_SW
+5V_SW+5V_SW
+3V3_SW+3V3_SW
DRX-5V
190318HDMI SIDE
CONNECTOR
+5V_COMBINED
VDDO_3V35901
B01a
B01a
B01a
+3V3STBY+3V3STBYB01a
5106
31,14
127105
IN OUTCOM
7104
IN OUTCOM
5205
+2V5_SW5204
5300
3342
+1V0_SW+1V0_SW
+3V3_SW+3V3_SW
B01a+3V3_SW+3V3_SW
B01a+3V3STBY+3V3STBY
B01a+5V_SW+5V_SW
B01a +1V2_SW+1V2_SW
B01a
+3V3STBY+3V3STBY
+1V8_SW+1V8_SW
+8V_SW+8V_SW
+12VS+12VS
B01a+5V_SW+5V_SW
SENCE+1V0_MT5392
+3V3-STANDBY
+3V3
B01a+1V8_SW+1V8_SW
B01a+5V5_TUN+5V5_TUN
B01a+3V3_SW+3V3_SW
B01a+5V5_TUN+1V2_SW
+5VTUN_DIGITAL
1M20
8
5 TOIR/LEDPANEL
6901
6G13
+3V3STBY+3V3STBY
B01a +5V_SW+5V_SW
B01a +12VS+12VS
B01a
B13,B14f
B14f
B14b
B01a
B14f+12V
+5V5_TUN
7302
IN OUTCOM
7201
IN OUTCOM
5207
5206
2142
6100
7100-17102TPS53126
7100-2
+1V0_SW
31
23
7106-1
7106-2 +1V8_SW5102
12
14
12V/1V0CONVERTER
12V/1V8CONVERTER
5101
5104
5103Step DownConverter
+VDISP-INT
+12VDISP+12VDISP
7608LCD_PWR_ONn_A
7607B01a
5605
5606
5607
7802
IN OUTCOM
1800
1A
5800
9 59013E13
+24V1M72
1M59
AMBILIGHTCONNECTOR
1
VCC_3V3VCC_3V3B14b
+VDISP+VDISPB14b
VDDQ5KAF
VDD335KAE
+3V3+3V3B04a
VIO5HA1
VINT5HA0
SSCG_AVDD5KAD
mini_AVDD5KAC
LVDS_AVDD5KAB
VDD125KAA
VCC_1V2
32
7KAC
IN OUTCOM
5KAG
VREF_15V2
7KQAISL24837IRZ
VOLTAGEGENERA-
TOR+VDISP+VDISP
B14b
B14d
VCC_3V3VCC_3V3B14b
VLS_15V6VLS_15V6B14b
VLS_15V6VLS_15V6B14b
+VDISP+VDISPB14b
VCC_3V3VCC_3V3B14b
VREF_15V2VREF_15V2B14c
VLS_15V6VLS_15V6B14b
B14a,c,d
B14a,c,d
B14a,c,d,e
B14c,d,e
B14e
B14e
VGH_35VVGH_35VB14b
VCC_3V3VCC_3V3B14b
VGL_-6VVGL_-6VB14b
+12V+12VB01a
+5V+5VB01a
+3V3+3V3B04c
+3V3-STANDBY+3V3-STANDBYB04c
+VDISP
VLS_15V6_B
VLS_15V6
+VDISP-INT+VDISP-INT
7KFAISL97653
10
21
B04c
VCC_1V2VCC_1V2B14a
1KFA
3.0A 5KFA7KFE
VGL_-6V3KFJ 3KFP
VGH_35V
3,4 VCC_3V35KFD
6KFF 9KFE
9KFC
LCDSUPPLY
1HA0
1.5A25 TO
AMBILIGHTMODULE
TO 1M72
SSBB13
Circuit Diagrams and PWB Layouts EN 47LC9.3L LA 10.
2010-Mar-26
10. Circuit Diagrams and PWB Layouts
Ambilight: Everlight LED Common 1
18770_670_100212.eps100219
Everlight 15 LED CommonAL1A AL1A
8204 000 9059AL 2K10 Everlight15 LED Common
2009-11-272
2009-11-031
BLUE
GREEN
RED
BLUE
GREEN
RED
OUT
1211
GSCLKIREFMODESCLKSINSOUT
XERRXHALFXLAT 10
NC
98
VCC
01234567
BLANK
131415
GND GND_HS
BLUE
GREEN
RED
BLUE
GREEN
RED
S
GND
Q
HOLDW
VCC
C
D
VIA
VIA
VIA
VIA
BLUE
GREEN
RED
BLUE
GREEN
RED
-T
FB07 B1FB08 B1
FB15 C1
3B37 G143B39-1 E13
3B34 D13
3B36 G14
7003 G107004 G11
7B30 D13FB01 A1
3B02-2 E53B03-1 H14
3B03-4 H143B07-1 F3
FB41 E13
FB03 B1FB04 B1FB05 B1
3B03-3 H14
7005 G137B06 D3
FB12 B2FB13 C1
7B20-1 D87B20-2 E8
7B07 D4
3B30-1 D93B30-4 E9
2B04-4 B72B08 E12
3B35 G14
2B10 F92B11 A92B17 D8
3B39-2 D123B39-3 D137000 G57001 G7
FB20 B7FB30 G3
3B31 B10
FB35 A8FB40 D12
7B23-1 F4
7B25 H37B26-1 A87B26-2 C9
3B01-2 D73B02-1 E3
D
E
3B03-2 H14
G
H
I
3B07-2 G33B07-3 H33B07-4 G33B11 E12
FB06 B2
FB10 B2FB11 B1
3B18 A83B21 B73B22 B8
5 6
2B09 E12
8 9 10
2B20 D43004 E123B00-1 A63B00-2 B6
7002 G8
FB16 C1
FB31 H3FB32 I3
7B23-2 G4
3B00-4 B63B01-1 E7
B
C
F
8 9 10
A
B
C
D3B13-3 H33B13-4 I3
3 4 7 11 12 13 14
3B00-3 B6
H
I
1M83 C1
2B02 E9
2B00 E8
11 12 13 14
E
4 5 6 73
1
1 2
F
A
2
G
2B01 F8
2B03 I142B04-1 B72B04-2 B62B04-3 B8
FB32
65
21
43
+3V3
99-235/RSBB7C-A24/2D7005
+3V3
10n
2B09
2K0
3B31
4
+3V3
1
2
35
7B0674LVC1G32GW
FB40
18
2B20
100n
10K
3B07
-1
FB20
FB30
8
3B21150R
3B30-1
220R
1
B002
+3V3
FB08
3B07
-3
10K
36
45
+3V3
FB31
10K
3B13
-4
1
43
+3V3
700299-235/RSBB7C-A24/2D
65
2
2532
FB35
910111415
1223
27
22
5
161718192021
678
31
30 33
24263
12132829
4
TLC5946RHB7B26-1
FB10
FB11
65
21
43
6
700499-235/RSBB7C-A24/2D
3B03-3
1K5
3
FB01
27
4 5
3B07
-2
10K
+24V
220R
3B30-4
100n
2B03
100n
2B11
3B01-1
100R
1 8
2B08
10n
2 7
1K5
3B03-2
3B36
270R
1K5
1%
36
3B39
-22
7
3B39
-3
5
6
+24V
1%1K
5
7B20-174LVC2G17
1
2
2
6
1
1
3
4
52
BC847BS(COL)7B23-1
LMV331IDCK
7B30
3B35
270R
3B37
68R5
3
4
B001
3 6
BC847BS(COL)7B23-2
150R3B00-3
2B17
100n
2B04
-4
100p
45
36
37 38 39
404142
7B26-2TLC5946RHB
3435
4
7
2
1
8
3+3V3
M95010-WDW67B07
(64K)Φ
6
5
7B25BC847BW
1
3
2
36
3B18
1K8
+3V3
3B13
-3
10K
33p
2B01
100R
3B01-22 7
+24V
100p
2B02
65
21
43
+3V3
+3V3
700199-235/RSBB7C-A24/2D
4 5
FB16
1K5
3B03-4
FB05
FB07
FB044
5
10K
3B07
-4
7003
65
21
43
99-235/RSBB7C-A24/2D
3
25
4
+3V3
1 8
74LVC2G177B20-2
150R
3B00-1
33p
2B00
1 8
+3V3
18
3B03-1
1K5
2B04
-1
100p
10K
3B02-2
27
1K5
1%
81
1 8
3B39
-1
FB03
3B02-1
10K
FB13
2B10
100p
3B34
RES100K
150R
3B00-44 5
56789
2627
1819
2
202122232425
34
1M83
FH12-25S-0.5SH(55)
1
1011121314151617
FB12
B007
FB15
10K30
04 RE
S
FB06
+3V3
3B11 10
K
150R
3B00-22 7
+24V
2B04
-2
100p
27
36
43
+3V3
2B04
-3
100p
99-235/RSBB7C-A24/2D7000
65
21
+24V
10K3B22
FB41
TEMP-SENSOR
BLANKPROG
SPI-CS
PWM-CLOCK
SPI-DATA-RETURNSPI-DATA-INSPI-CLOCK
LATCH
PWM-CLOCK
BLANK
SPI-DATA-IN-BUF
PWM-R1
PWM-G1PWM-R1
PWM-G3PWM-R3PWM-R2
PWM-B2PWM-G2
DATA-SWITCH
TEMP-SENSOR
PWM-G4PWM-R4PWM-B4
PWM-R5PWM-G5PWM-B5
SPI-CLOCK-BUF
SPI-DATA-IN-BUF
SPI-DATA-RETURN
SPI-CS
DATA-SWITCH
LATCH
SPI-DATA-INSPI-DATA-OUT
PWM-CLOCK-BUF
SPI-CLOCK-BUFPROG
SPI-CLOCK-BUF
PWM-CLOCK-BUF
SPI-CLOCK
PWM-G1
PWM-B1
PWM-B1
PWM-B3
EN 48LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
Ambilight: Everlight LED Common 2
18770_671_100212.eps100212
Everlight 15 LED Common 2AL1B AL1B
2009-11-272
2009-11-031
8204 000 9059AL 2K10 Everlight15 LED Common
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
3B57-3 C3
FC03 H311 12
A
B
C
7104 B67105 B5F
G
3B55-2 B33B55-3 A3
E
7200 F8
3B55-4 A3
7C20-2 F3
8
1 2
3B53-4 C73B55-1 C3
11 12
FC02 G3
3
3B57-2 D3
4
3C15-3 G43C15-4 G4
9 10
7102 B97103 B7
3C10 F4
7C20-1 E3
3B50 B7
D
9 10
7201 F97202 F10
7B51 C3
FB71 C3FB72 D3FC01 F3
3C11 F43C12 F4
C
D
E
H
2B50 C11
3C15-1 G43C15-2 G4
7100 B117101 B10
3C00-4 E3
7C22 G3FB70 B3
3 4
3B51 B7
7
3B52 B73B53-1 B7
5
3C00-1 G33C00-2 F33C00-3 F3
7B50-1 A37B50-2 B3
A
B
3B53-2 C73B53-3 C7
1
F
G
H
3C06-1 G33C06-2 H3
5 6
6 7 8
5
3
4 +24V
2
45
BC847BS(COL)7B50-2
7
10K
3B55
-4
3B57
-2
10K
2
21
43
99-235/RSBB7C-A24/2D7105
65
BC847BS(COL)
2
6
1
65
21
43
7B50-1
99-235/RSBB7C-A24/2D7100
65
21
43
1
43
710199-235/RSBB7C-A24/2D
99-235/RSBB7C-A24/2D
65
2
10K
3C06
-11
8
7200
1
43
+24V
99-235/RSBB7C-A24/2D7201
65
2
10K
3B55
-33
6
100n
2B50
4
FC01
7C20-2BC847BS(COL)
5
3
270R
3C101 2
270R
1 2
10K
3B55
-11
8
3C11
3B52
68R
21
43
710499-235/RSBB7C-A24/2D
65
3
2
FB71
7B51BC847BW
1
3B51
270R
270R
3B50
1K5
3B53-44 5
1K5
3B53-33 6
3B53-22 7
1 8
1K5
1K5
3B53-1
27
FC02
36
10K
3C06
-22
73C
00-3
10K
83C
00-2
10K
53C
00-1
10K
13C
00-4
10K
4
+24V
3 6
4 5
3C15-3
1K5
3C15-4
1K5
2
3C12
68R
BC847BW7C22
1
3
36
+24V
+24V
3B57
-3
10K
FB72
FB70
FC03
10K
3B55
-22
765
21
43
3
710399-235/RSBB7C-A24/2D
99-235/RSBB7C-A24/2D7202
65
21
4
1 8
2 7
3C15-1
1K5
3C15-2
1K5
2
6
1+24V
+24V
BC847BS(COL)7C20-1
65
21
43
PWM-R2
PWM-G2
99-235/RSBB7C-A24/2D7102
PWM-B2
PWM-R3
PWM-G3
PWM-B3
Blue
Green
Red
Circuit Diagrams and PWB Layouts EN 49LC9.3L LA 10.
2010-Mar-26
Ambilight: 3 LED Everlight
18770_650_100212.eps100219
3 LED EverlightAL2A AL2A
8204 000 90613104 313 64201
3 LED Everlight AL 2K10
2009-11-271
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
3
5 6 7 8
1 4 5 6
A
B
C
D
A
B
7203 A37204 A47205 A5
1 10
2
2 3 4 9
7 8 9 10
C
D
1M84 A102C15 B6
B003
+3V3
2C15
100n
+3V3
789
26 27
+24V
202122232425
3456
10111213141516171819
2
1M84
FH12-25S-0.5SH(55)
1
5
21
43
+24V
3
720599-235/RSBB7C-A24/2D
6
99-235/RSBB7C-A24/2D7204
65
21
443
99-235/RSBB7C-A24/2D7203
65
21
TEMP-SENSOR
BLANKPROG
LATCHSPI-CS
PWM-CLOCK-BUF
SPI-DATA-RETURNSPI-DATA-OUTSPI-CLOCK-BUF
Blue
Green
Red
EN 50LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
Ambilight: 9 LED Everlight
18770_640_100212.eps100219
9 LED EverlightAL2A AL2A
8204 000 90603104 313 64191
9 LED Everlight AL 2K10
2009-11-031
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
51 6 7
3 8 9
A
B
C
4 8
7203 A3
2 10
421
3
B
C
D
10
1M84 A102D01 B6
7204 A4
D
9
5 6 7
A7205 A5
B003
100n
2D01
+3V3
+3V3
26 27+24V
22232425
3456789
13141516171819
2
2021
1
101112
FH12-25S-0.5SH(55)
1M84
43
+24V
99-135/RSGBB7C-A24/2D7205
65
21
5
21
43
720499-135/RSGBB7C-A24/2D
665
21
43
720399-135/RSGBB7C-A24/2D
B004
TEMP-SENSOR
BLANKPROG
LATCHSPI-CS
PWM-CLOCK-BUF
SPI-DATA-RETURNSPI-DATA-OUTSPI-CLOCK-BUF
Blue
Green
Red
Circuit Diagrams and PWB Layouts EN 51LC9.3L LA 10.
2010-Mar-26
Ambilight: 9 LED Everlight
18770_641_100212.eps100212
9 LED EverlightAL2B AL2B
2009-11-031
8204 000 90603104 313 64191
9 LED Everlight AL 2K10
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
3D13-2 C12
FD03 D1FD04 D1
3D05-3 C13D05-4 C13D10 A123D11 B123D12 B123D13-1 B12
3D13-3 C123D13-4 C127300 B57301 B67302 B77303 B87304 B107305 B117D01-1 A27D01-2 B2
FD01 A1
4 5 6 7 8 9 10 12
7 8 9 10 11 12 13
1
7D02 C2
3
FD02 C1
4 5
13
A
B
C
D
11
6
A
B
C
D
2D10 C133D02-1 A13D02-2 A13D02-3 B13D02-4 B1
36
2
1 2 3
3D02
-3
K01K01
3D02
-22
7
1
43
+24V
730099-135/RSGBB7C-A24/2D
65
2
3D101 2
270R
+24V
68R
3D12
2
6
1
FD01
7D01-1BC847BS(COL)
3D02
-44
5
FD02
10K
1K5
3D13-33 6
FD04
4 5
FD03
3D13-4
1K5
7D01-2BC847BS(COL)
5
3
4
21
43
730599-135/RSGBB7C-A24/2D
6565
21
4343
99-135/RSGBB7C-A24/2D7304
99-135/RSGBB7C-A24/2D7301
65
21
1
3
2
18
BC847BW7D02
3D02
-1
10K
+24V
45
2D10
100n
36
3D05
-4
10K
10K
3D05
-3
1K5
3D13-11 8
270R
3D111 2
2 7
1
43
3D13-2
1K5
99-135/RSGBB7C-A24/2D
65
2
65
21
43
7303+24V
99-135/RSGBB7C-A24/2D7302
PWM-B4
PWM-R4
PWM-G4
EN 52LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
Ambilight: 15 LED Everlight
18770_660_100212.eps100219
15 LED EverlightAL2A AL2A
8204 000 90623104 313 64211
15 LED Everlight AL 2K10
2009-11-271
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
A
B
C
D
A
B
C
765421
7205 A5
9 108
987643 10
3
1M84 A102D01 B67203 A37204 A4
FD18 C7
1 2 5
D
FD18
43
+24V
99-235/RSBB7C-A24/2D7205
65
2121
43
720499-235/RSBB7C-A24/2D
6565
21
43
720399-235/RSBB7C-A24/2D
B004 B005B003
100n
2D01
+3V3
+3V356789
26 27+24V
1819
2
202122232425
34
1
1011121314151617
1M84
TEMP-SENSOR
BLANKPROG
LATCHSPI-CS
PWM-CLOCK-BUF
SPI-DATA-RETURNSPI-DATA-OUTSPI-CLOCK-BUF
Blue
Green
Red
Circuit Diagrams and PWB Layouts EN 53LC9.3L LA 10.
2010-Mar-26
Ambilight: 15 LED Everlight
18770_661_100212.eps100212
15 LED EverlightAL2B AL2B
2009-11-271
8204 000 90623104 313 64211
15 LED Everlight AL 2K10
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
BLUE
GREEN
RED
7305 B117400 F5
7403 F87404 F107405 F117D01-1 A2
F
G
H
FD06 H1
7301 B6
3D18-4 G127300 B5
7401 F67402 F7
9 10 11
3D03-4 G23D04-1 F23D04-2 G23D04-3 E2
12
FD04 F1FD05 G1
B
C
D
E
1 2 3 6 7 10 11 12 13
3D02-2 A13D02-3 B13D02-4 B13D03-3 H2
3D15 F12
3D04-4 F23D05-3 C1
13
A
3D11 B123D12 B123D13-1 B123D13-2 C12
7D01-2 B27D02 C27D03-1 E27D03-2 F2
FD02 C1FD03 D1
4 5
1 2
8 9
2D10 C132D11 H133D02-1 A1
3D16 F12
3D18-2 G123D18-3 G12
3D13-3 C123D13-4 C12
F
G
7302 B77303 B87304 B10
3D05-4 D13D10 B12
H
A
B
C
3 4 5 6
7D04 G2FD01 A1
D
E
FD02
7 8
3D17 F123D18-1 G12
45
FD01
3
3D04
-4
10K
99-235/RSBB7C-A24/2D
65
21
4
5
3
4
7403
3D13-22 7
BC847BS(COL)7D01-2
1K5
3 6
100n
2D10
4 5
3D13-3
1K5
45
1K5
3D13-4
43
3D02
-4
10K
740099-235/RSBB7C-A24/2D
65
213
4
+24V+24V
7D03-2BC847BS(COL)
5
3D11
68R
3D18-2
1K5
2 7
RES
65
21
43
18
99-235/RSBB7C-A24/2D7305
1
43
10K
3D04
-1
730199-235/RSBB7C-A24/2D
65
2
7D02BC847BW
1
3
2
10K
3D02
-11
8
10K
3D03
-44
5
65
21
43
45
99-235/RSBB7C-A24/2D7401
10K
3D05
-4
65
21
43
99-235/RSBB7C-A24/2D7300
+24V
RES
68R
3D16
68R
3D15
3D10
68R
5
21
43
730499-235/RSBB7C-A24/2D
6
36
+24V
3D03
-3
10K
FD04
+24V
FD06
10K
36
1 8
3D05
-3
3D13-1
1K5
3D18-4
1K5
4 57D04
1
3
2
2
6
1
BC847BW
7303
65
21
43
BC847BS(COL)7D01-1
1
43
99-235/RSBB7C-A24/2D730299-235/RSBB7C-A24/2D
65
2
7D03-1BC847BS(COL)
2
6
1
10K
3D02
-33
6
2D11
100n
65
21
43
1
43
740599-235/RSBB7C-A24/2D99-235/RSBB7C-A24/2D
7404
65
2
1K5
3D18-33 6
FD05 1K5
3D18-11 827
FD03
63D
04-2
10K
10K
3D04
-33
99-235/RSBB7C-A24/2D7402
65
21
43
3D12
68R
68R
3D17
+24V
+24V+24V
27
PWM-R4
PWM-G4
PWM-B5
3D02
-2
10K
PWM-B4
PWM-G5
PWM-R5
EN 54LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
Layout AmbiLight Everlight
18770_672_100216.eps100325
AmbiLight Everlight
1M83 1M842B
00
2B01
2B02
2B03
2B04
2B08
2B09
2B10
2B112B17
2B20
2B50
2C15
3004 3B
00
3B01
3B02
3B03
3B07
3B11
3B13
3B18
3B21 3B223B
30 3B31
3B34
3B35
3B36
3B37
3B39
3B50
3B51
3B52
3B53 3B55
3B57
3C00
3C063C10
3C11
3C123C157000 7001 7002 7003 7004 7005 7100 7101 7102 7103 7104 7105 7200 7201 7202 7203 7204 72057B06
7B077B207B23
7B25
7B267B30
7B50
7B51
7C20
7C22B00
1
B00
2
B00
3
B00
7
FB01
FB03
FB04
FB05 FB06
FB
07
FB08 FB10
FB11FB12
FB13
FB15FB16FB20
FB30 FB31
FB32
FB35FB40FB41FB70
FB71FB72
FC01
FC02 FC03
1M83 1M84
2B00
2B01
2B02
2B03
2B04
2B08
2B09
2B10
2B112B17
2B20
2B502D01
2D10
3004 3B
00
3B01
3B02
3B03
3B07
3B11
3B13
3B18
3B21 3B223B
30 3B31
3B34
3B35
3B36
3B37
3B39
3B50
3B51
3B52
3B53 3B55
3B57
3C00
3C063C10
3C11
3C123C15
3D023D05 3D10
3D11 3D12
3D13
7000 7001 7002 7003 7004 7005 7100 7101 7102 7103 7104 7105 7200 7201 7202 7203 7204 7205 7300 7301 7302 7303 7304 73057B06
7B077B207B23
7B25
7B26
7B307B50
7B51
7C20
7C22 7D01 7D
02
B00
1
B00
2
B00
3
B00
4
B00
7
FB01
FB03
FB04
FB05 FB06
FB07
FB08 FB10
FB11FB12
FB13
FB15FB16FB20
FB30 FB31
FB32
FB35FB40FB41FB70
FB71FB72
FC01
FC02 FC03
FD01 FD02
FD03
FD04
1M83 1M84
2B00
2B01
2B02
2B03
2B04
2B08
2B09
2B10
2B112B17
2B20
2B50 2D01 2D10
2D11
3004 3B
00
3B01
3B02
3B03
3B07
3B11
3B13
3B18
3B21 3B223B
30 3B31
3B34
3B35
3B36
3B37
3B39
3B50
3B51
3B52
3B53 3B55
3B57
3C00
3C063C10
3C11
3C123C15
3D02 3D03
3D043D05 3D10
3D11
3D12
3D13 3D15
3D16
3D17
3D18
7000 7001 7002 7003 7004 7005 7100 7101 7102 7103 7104 7105 7200 7201 7202 7203 7204 7205 7300 7301 7302 7303 7304 7305 7400 7401 7402 7403 7404 74057B06
7B077B207B23
7B25
7B267B30
7B50
7B51
7C20
7C22 7D01 7D
02
7D03
7D04
B00
1
B00
2
B00
3
B00
4
B00
5
B00
7
FB01
FB03
FB04
FB05 FB06
FB
07
FB08 FB10
FB11FB
12
FB13
FB15FB16FB20
FB30 FB31
FB32
FB35FB40FB41FB70
FB71FB72
FC01
FC02 FC03
FD01 FD02
FD03
FD04
FD05
FD06
FD18
3104 313 6419.1
3104 313 6421.1
3104 313 6420.1
18 LED
24 LED
30 LED
Circuit Diagrams and PWB Layouts EN 55LC9.3L LA 10.
2010-Mar-26
SSB: DC-DC
18970_500_100322.eps100322
DC-DCB01A B01A
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
PVDD1 PVDD2
EN1SW1BOOT1
SW2
FB2EN2
BOOT2
FB1
ILIM2SEQBP
GND GND_HS
VIA2
COM
OUTIN
COM
OUTIN
GND
VIN
HSPA
INH
SYNC
SW
VFB
A
SW
2VFB
12
TRIP
DRVL
12
DRVH
12
SW
12
PGND
12
TEST
12
VREG5V5FILT
12
VIN
GND
VBST
12
EN
12
VO
1
VIA
H
I
J
K
L
1M95 C131M99 A13
2106 D52109 F62110 F62111 B72112 B102113 B10
12V/5V CONVERSION
1 2 3 4 5 6 7 8 9 10 11 12 13
12V/8V CONVERSION
3V
6 7 8 9 10 11 12 13 14
1
3V3
12V
0V
15 16 17
A1X01 K101X02 K81X04 K91X06 K62101 B62102 B62103 D32104 D42105 D4
K
L
A
B
C
D
E
F
G
ROUND 4mm SCREW HOLE
2114 B112115 C112116 C112117 C102118 D102119 D92120 E112121 E11
14 15 16 17
1 2 3 4 5
2131 C142132 C152133 C152134 C152135 C152136 C142137 D152138 C152139 C16
>1.5V6
2140 E152141 E142142 E142143 E142144 E142145 E152146 G152147 G16
B
C
D
E
F
G
H
I
J
2159 H52160 H62161 H62162 I32163 H42164 I32165 I22166 I22167 I2
0V
STBY
2168 J22169 I82170 J82171 F32172 F112173 J122174 J122175 J122176 J152177 I7
2122 E122123 F102124 F102125 G102126 I42127 C142128 C142129 C142130 C14
2187 J162188 J162191 D152192 D152193 F42194 F52195 H142196 H162197 C14
9
RESERVED
1M99
8
2148 G172149 H132150 H132151 J152152 J162154 J162156 I72157 I62158 H5
3101 D83104 D63105 D43106 E23107 E23108 F23109 F33110 E43111 E4
0V
STBY
SLOT SCREW HOLE
2178 E122179 C112180 D162181 H152182 H152183 H162184 H152185 C142186 J15
3114 I33115 J23116 J23117 H63118 I63119 I83120 J83121 G103122 G11
1.5V0V
3123 G113124 F113125 E113126 B14
12V/1V0 CONVERSION
1
2198 E152199 E153100 B7
3131-3 C103131-4 C103133 J143134 J153135 J153136 J73199 J154100 D84101 D7
3V3
4102 I4
0V12V
5
3112 H43113 I2
5108 H45109 I35115 I145116 I125117 H156100 I26101 I66102 I36103 E9
12V/3V3 CONVERSION
7
3127 B14
3128 B143129 C163130-1 F103130-2 F103130-3 F103130-4 F103131-1 C103131-2 C10
7100-2 D87102 D57103 H57104 G167105 H147106-1 B87106-2 C87107-1 I137107-2 J13
0V7
6
F100 A10F101 B11
4103 J45100 A105101 A105102 B105103 E105104 G155105 H135106 I65107 H4
F110 B14F111 B14F112 B14F113 D14F114 D14F115 D14F116 D14F117 D14F118 D14F119 D14F120 D14F121 D14F122 D14F123 D14
9
0V7100-1 C9
0R
0V
3V
0V
F132 F5F133 J5F134 H2F135 I14F137 H16F138 C16
F102 B14F103 B14F104 B14F105 B14F106 B14F107 B14F108 B14F109 B14
PIN
PIN
2
12V
25V
I107 F10I108 G10
F124 E12F125 F12F126 G16F127 I8F128 E10F129 F6F130 I2F131 I16
ON
3V
3V3/1V2 CONVERSION
ROUND 4.02mm SCREW HOLE
1M95
12V
0V
ON
12V/1V8 CONVERSION
I117 H4I118 I4I119 H4I120 I3I121 I3I122 E3I123 E5I124 E5I125 F6
F139 H16I100 B7I101 A11I102 B7I103 D9I104 C10I105 D9I106 F10
8
2
1
I126 E6I127 E6I128 E6I129 E6I130 D6I131 D5I132 E5I133 D4I134 J2I135 I12I136 J15I137 I14I138 H13
I109 F11I110 G10I111 G15I112 J8I113 I6I114 H6I115 I6I116 H5
SI4952DY7100-1
7
2u2
2197
2128
100p
GND-SIG
4u7
2126
F122
36
F121
45
47R
3130
-3
3130
-447
R
22u
2116
3122
1K0
1%
3123
220R
1%
100n
2150
RE
S
GNDSND
10p
2166
100n
2140
2138
2139
100n
100n
100n
2199
2198
100n
2193
10u
2194
1u0
I113
100K
3136
16V
22u21
95
33R
5117
30R
5100
RE
S
10u
2175
RES
+5V_SW
RE
S41
02
F117
2177100u6.3V
5 6
4
3
SI4952DY7106-2
I112
10u
5109
2526
1718192021222324
8
4 15
9
1 14
10
213
16
TPS54386PWP
Φ
312
11
657
RE
S
7103
RE
S
2196
10n
2181
22u
1%18
K3115
2192
10u
3131
-347
R3
6
1u0
2104
F120
F134
4103
10u
2101
4n7
2176
220R
3135
RE
S
RE
S
10u
2109
1%
2183
47u
10n
2184
2134
100p
2
100n
2105
LD1117DT7105
1
3
+8V_SW
+12VS
I105
I103
I138
68R3127
I115
216110u
33R
5105
F123
2127
100p
470p
2162
RE
S21
87
22u
2156
10u
F105
2144
1n0
RES
GND-SIG
5115
2u0
GND-SIG
I121
2115
2191
10u
45
47u
47R
3131
-4
I101
I131
RE
S31
25
10R
I118
I134
I120
+1V8_SW
3109
22K
F116
100p
2133
F114
2129
100p
RE
S
35
1 6
+1V0_SW
4 9
2
8
7
+5V_SW
RES 7107-1ST1S10PH
2
3 1
I135
27
L78L08ACU7104
47R
3130
-2
+1V2_SW
F128
100p
2125
2122
100u
2.0V
RE
S
RE
S
F118F119RES
1n0
2119
F100+12VS
F135
8
I130
3130
-147
R1
10u
2173
1%
RE
S
6
4
3
3107
1K0
SI4952DY7100-2 5
3R3
3100
RE
S
30R
5101
+12VS
10u
5106
3110 18K
RES 3128 68R
1%
3119
1%
4K7
3113
100K
+12VS
6102
SS
34
3111 18K
I114
RE
S
22u
2178
2149
22u
2159
68R3126
100u16V
+12VS
3108
1K0
1%
2174
10u
2141
1n0
RE
S
RE
S
2185
10n
RE
S
10p
2170
1u0
2146
2165 6.
3V10
0u
GNDSND
6100
SS36
215833n
2168
10p
RE
S
I126I127
1u0
2172
+1V8_SW
GND-SIG
20
49
19
2413
717
2116
18
211
58
112
2314
310
6
2215
TPS53126PW7102
RE
S31
01
3R3
3u6
5102
GND-SIG
10u
2112
1u0
2103
1n0
2118
3116
RE
S
F126
1%1K
0
F131RES 5116
33R
3199
1%
RE
S
10p
10K
RE
S21
69
I104
F115
+12VS
F108
GNDSND
RE
S21
3110
0p
10n
2152
RE
S
1011
23456789
1-2041145-1
1M951
1X01REF EMC HOLE
10u
2148
4101
+3V3_SW
47u
2120
+5V5_TUN
GND-SIG
2u0
5103
3120
GNDSND
1%1K
5
GND-SIG
RE
S
F102
2137
1n0
F101
+24VAUDIO
RE
S
1%1K
03134
1X06EMC HOLE
RES
10 11
+5V
16V
100u21
67
I136
ST1S10PH7107-2
1R03117
30R
5107
+3V3_SW
RES 5108
10u
GND-SIG
1u0
2110
10u
2113
2124
1n0
2186
220u
25V
RE
S
RE
S31
33
680R
F110
I110
F137GND-SIG
F104
REF EMC HOLE1X04
10n
2135
2136
1n0
3129
68R
2132
100p
RE
S
SENSE+1V0_MTK5392
RE
S
22u
2182
22u
2121
GND-SIG
I116
1n0
2123
1112
23456789
1M99
1-2041145-2
1
10
3121
1K5
1%
F133
+3V3STBY
F132
1n0
2145
22u
2188
+12V
RE
S
ST
PS
2L30
A
6103
GND-SIG
4100
F139
3114
10R
100n
2142
GND-SIG
I119
+1V0_SW
F125
10u2160
I129
RE
S
F103
F113
100p
2130
GND-SIG
3124
F111F112
27
47R
3131
-2
F109
7 8
2
1
7106-1SI4952DY
I108
RES
1n0
2111
2157
470p
8
1n0
2117
3131
-147
R1
1n0
2180
I107
RE
S
F124
I137
F129
I117
I124I123
10u
2164
100n
2106
SS
34
RE
S
6101
+1V2_SW
2151
22u
22u
2179
RE
S
I132
10R
3118
F130
I100
I106
F107F106
3105
3R3
100p
2171
RE
S
2143
100n
+12VDISP
10u
2102
33n2163
+1V8_SW
1X02REF EMC HOLE
31121R0
GND-SIGGND-SIG
I125
I133
I122
1u0
2114
F127
I109
+5V_SW
GND-SIG
1%330R
3106
2147
F138
100n
I102
I128
22u
RE
S
I111
2154
3104
3R3
30R
5104
POWER-OK-A
LAMP-ON-A
STANDBY
PWM-DIMMINGBACKLIGHT-BOOST-A
EN 56LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: TUNER & Analog Demodulator
18970_501_100322.eps100322
Tuner & Analog DemodulatorB02 B02
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
MT
MT
COM
OUTIN
COM
OUTIN
A
B
C
D
E
1 2 3
D
1205 C1
8 9 10 11 12 13
0R
0R
2215 D11
5 6 7 8 9 10 11
E
A
B
C
3204 B43205 B4
3206 B33207 B62200 A3
4 5 6 7
2205 C32206 C3
2207 C42208 C42209 D42210 E4
2211 B7
1 2 3
1V5
2216 D122217 E102218 E10
4
2223 E112224 E112266 D102267 D11
2268 D22269 C43200 A2
12 13
7203 D33208 B73209 C6
3210 C6
2201 A32202 B3
2203 B32204 B3 3215 D7
3216 D63217 E6
3218 B103219 B103220 C43221 D4
2212 D72213 E72214 D10
FOR DEV. ONLY
F227 D2
3225 D4
3226 D22219 E112220 E112221 E112222 E12
5202 C35203 C45204 C10
5205 E105206 C125207 D126201 D33201 A2
3202 A43203 B4
F228 D2F229 C6
F230 C8F231 D8F232 E11F233 D10
F234 D5 I205 C10I206 E9I207 C11
F200 B1F201 C2F202 C2F203 C2
F204 C23211 C73212 C73213 D6
3214 D7
F207 C2
F208 C2F209 C2F220 C2F221 C2
F222 D2F223 D2
3222 D43223 D43224 D4
F205 C2F206 C2
I208 D11F224 D2F225 D2
F226 D23227 C33228 C35200 B3
5201 B3F235 D5F236 E10I200 C6
I201 D6I202 D6I203 E6I204 D7
7200 C67201 C117202 D11
19-21/G6C-AM2P1B/3T
6201RES
22u
2217
3206
1u0
2218
330R
F203
1R0
3219
I208
RES
75R
3212
I206 F232
I204
F230
10n
2220
F227
F225
BC847B7203RES
F222
I200
+1V2_SW
10n
100n
2215
2211
I207+2V5_SW
RE
S32
14
75R
F226
100n
2216
F235
+3V3_SW
F205
15p
2210
2202 47u
5202
33R
22u2205
2204 100n
100n2203
2200
100n100n
2201
16V
47u22
67
F200
3201
100n
2214
10K
10u
5205
11
VIDEO_OUT7
RSEORFSBYTE
15
SCL1312
SDA
SIF_OUT6
16SPBVAL
SRCK18
SRDT17
SYRSTNB4
BB3
GAIN-SW2
192021 22 23
1RF-SW
14
5AFT
B14
B28
B39
10
RES
1205VA1G5BF8010
TU
NE
R
1K03226
1R0
3218
15p
2213
RE
S
1R0
3217
22u
2221
I205
F231
3211
1R0
1K052011K05200
15R
3208
1R0322410K
32203228RES3227
F224
F209
+5V5_TUN +5VTUN_DIGITAL3223
100R
3209
F236
RE
S
10K
F208
+5VS+5V_SW
+5VS
2222
100n
2209
F228
15p
2219
+3V
3_S
W
22u
RE
S
10K
3200
5204
33R
100n
2268
220R
RE
S
3213
F229
2
F221
LD1117DT257201
1
3
RES
100K
3204
3202
16V100u
2269
10K
I203
22u2223
1R0
3216
18p
2212
F220
1R0
3210
F207
1R0
3215
7200BC847B
3221
1K0
100R
RES
3222
+5V_SW
F233
33R
5207
+5VTUN_DIGITAL
+2V5_SW
33R
RES
5206
1K0
3225
F206
+3V3_SW
F234
200K
3205
3
2208 100n
LD29150DT50R7202
2
1
F223
RES
+3V3_SW
100K
3203
2207 47u
16V
100u22
66
F204
F201F202
+5V
_SW
I202
100n2206
10u
5203
+3V3_SW
222410n
3207
1R0
I201
RE
S
RF_SW
CVBS0T
SIF_OUT_1AFT
GAIN_SW
TSO_DATA0TSO_CLK
TSO_VALIDTSO_SYNC
CVBS0T
SIF_OUT_1
DEMOD_RESET
TUNER_SDA
TUNER_SCL
TUNER_SCL
TUNER_SDA
FRONTEND_SCL
FRONTEND_SDA
GND_CVBS_RF
SIF_OUT_GND
SIF_OUT
CVBS_RF
Circuit Diagrams and PWB Layouts EN 57LC9.3L LA 10.
2010-Mar-26
SSB: CLASS-D & Muting
18970_502_100322.eps100322
Class-D & MutingB03 B03
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
IN1P
VSSD|HW
IN1N
IN2P
IN2N
INREF
OSCREF
OSCIO
HVPREF
DREF
ENGAGE
POWERUPVIA
TEST
GN
D_H
S
VDDP
VSSP
VDDA
STAB2STAB1
BOOT2BOOT1
HVP2
HVP1
DIAG
OUT2
OUT1
CGND VSSA
I312 I6I313 H4I314 J6
I346 G15
I320 E8I321 E8I322 E8I323 E8I324 E9
F318 E16F319 E16F320 G16
I325 E9
I330 E12I331 F11
F342 G4I301 E2I302 D3I303 E3I304 E3
RIGHT -
I332 F11I333 F11I334 D13I335 E13I336 D14I339 D14I340 F14I341 F14I342 G15
I305 F3I306 D4I307 F5I308 F5I310 F6I311 G6
7313 G167314 G177315 J4
I343 G13I344 F13I345 F12
I318 K5I319 J5
F305 E9F306 E9F307 C12F308 E11
F309 F10
24V
F312 I6F313 J7F314 K3F315 H14F316 E16F317 E16
5301 D135302 F135303 E16
I326 F10I327 F10I328 F10
F340 D16F341 D16
7300-2 E37301 E57302 F67304 F57305 F7
7307 H57308 I77309 J77310 K67311 E107312 F16
3320 G153321 G153322 G16
I315 J5I316 J4I317 J3
F303 E8F304 F8
3328 H63329 I63330 I63331 J63332 K5
8V9
-2V8
-7V6
F310 G10F311 H6
3338 G53342 C133344 F143345 D154300 E55300 C13
2342 I62343 G82344 C13
F321 G11F337 C13F338 C13
6304 K47300-1 E2
3303 E23304 E33305 E33308 D53309 F5
0V
-2V8
3V2
3V3 HP MUTING CIRCUIT
7306 G7
3314 E93315 E93316 F93317 D133318 F133319 G15
F300 E2F301 E4F302 E8
3326 G63327 G6
2329 F92330 F92331 F92332 E92333 E9
TO SUBWOOFER OUT
RIGHT+
3333 K53334 J4
3335 J43336 H53337 H5
2336 F82337 F62338 G6
2339 G42340 J32341 H6
2311 F142312 F142313 F13
5304 E166301 F36302 E5
2348 G83302 E2
2319 E122320 F122321 F122322 F122323 E11
24V
3310 E83311 E83312 E83313 F8
EMC
3323 F53324 F63325 F6
2327 G92328 F9
F
G
H
I
J
-8V2
-2V8
NC
LEFT +
2334 E92335 E8
2307 F162308 F162309 G152310 G16
5 6
2345 E32346 E142347 E14
2317 F132318 G13
12 13 14 15 16 17
A
B
C
4 5 6
2324 E112325 E102326 E10
E
12 13 14 15 16 17
1 2 3
DC-DETECTION
3V9
-2V8E
F
G
2314 E132315 E132316 E13
10 11
1735 E171D38 D172300 C132301 D142302 D142303 D162304 D162305 F16
D
RES
2V6
1 2 3 7 8 9 10 11
4
K
A
B
C
D
I308
7 8 9
H
I
J
K
2306 F16
4V7
TO SPEAKERS
-2V6
LEFT-
3337
47K
3336
10K
RES
RE
S
I302
I342
I318
F312
F315
22u5302
22u
F304
5301
GNDSND
2348
100n
5304 220R
470n
2327
GNDSNDRES
220p2325
F302
123
RES
2041145-3
1D38
F319
GNDSND
GNDSND
RE
S
100n
2306
1n0
2324
RE
S23
42
4n7
10K
2332
3311
GNDSND
1u0
I324
I331
RE
SR
ES
2308
1n0
2307
1n0
2333
F310
1u0
GNDSND
25V2347 220u
4u7
2309
3313
100K
3321
10K
2337
4n7
RE
S
2339
100n
3345
22R
100K
3319
GNDSND
10K
3332
47K
3309
15n2321
10K
3
1
2
+3V3STBY 3323
7304BSS84
1K0
3308
3310
10K
1u02331
2329 100n
100n2330
RES39K3316
GNDSND
GNDSNDGNDSND
2313470n
3325
1K0
2336
3330
RES
10n
47K
1u0
2334
VDDA
I333
I332
2323
100n
GNDSND
F311
GNDSND
F305
F318
10K
3312F303
GNDSND
GNDSND
GNDSND
220R5303
F337
F338
GNDSND
AUDIO_GND
GNDSND
2343
47u
25V
100K
3322
7312BC857BW
100K
3320
30R
5300
I327
I326
1n0
2304
RE
S
RE
S23
03
1n0
220u234625V
F342
F316
I323
1
3
2
3342
7302BC857BW
+24VAUDIO
10R
BAS316
6301
F301
F300
I317
I319
F309
I316
I306
I303
4K7
3302
2344220u
3338
10K
35V
1n0
GNDSND
2318
I311
GNDSND
I315
BC857BW
F320
7313
I339
100n2300
GNDSND
VDD
100n
10R
2328
I301
3317
I343
+3V3STBY
2305
1n0
RE
S
I325
BC847BW7310
4n7
2338
47K
3326
RE
S
I310
VDDA
1234
1735
2041145-4
3303
4K7
73062SD2653K
1K0
3327
3324
47K
RES2335
10n
I340
I344
I334
+12VS
GNDSND
GNDSND
1u0
2SD2653K
2340
7309
I307
3331
1K0
26 23
I320
38394041
9 1 16 17 32
6
2524
13
8 29 20
34353637
19
11
3
2
14
15
12
31
10
27
22
2821
7
4
18
5
33
30
CLASS D
POWER
AMPLIFIER
TDA8932BTW7311
Φ
2314470n
3314
GNDSND
12K
3344I345
22R
220n
2301
3305
1K8
I312
16V
470u23
45
F313
331810R
2319
I335
1n0
I336
6304
BA
T54
C
7315BC857BW
GNDSND
3334
4K7
22K
3333
1n02317
I313
I321
I322
220n
2311 I341
2SD2653K7308
3329
F317
1K0
BAT54C6302
1n02315
GNDSND
VDD
F306
3335
4K7
2
+12VS
7301BC847BW
1
3
1
F308
BC857BS(COL)7300-1
2
6
7300-25
3
4
BC857BS(COL)
F314
4300
I328
I330
47K
GNDSND
3328
12K
3315
I304
I305
23161n0
2302
220n
2326
2312
220n
RES
220p
15n2320
100n2322
4u7
2310
F307
F32
1
7314BC847BW
3304
1K0
F341
F340
I314
I346
GNDSND
73052SD2653K
RE
S
4n7
2341
1
3
2AUDIO_GND
SPEAKER_RIGHT-
SPEAKER_LEFT+
RES
BC857BW7307
AOUTL
AOUTRSW_MUTE DC_PROT
AOUTR
SPEAKER_RIGHT+
AOUTL
STANDBYn
HP_ROUT
HP_LOUT
MUTE
SPEAKER_LEFT-
MUTE
MUTEn
POWER_DOWN
EN 58LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: MTK Power
18970_503_100322.eps100322
MTK PowerB04A B04A
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
DVSSDVSS
VCC3IO
VCC2IO
VCCK
OPCTRL
OPWR_5V
TS0
TUNERCLK
DATAIF_AGC
CLKVALIDSYNCDATA
OPWRSB012345678012
AVDD12AVSS12
AVDD33
AVSS33
AVDD80 AVSS80
CVBS1CVBS2CVBS3
DEMOD1DIG
HDMILVDS_1LVDS_2LVDS_3LVDS_4LVDS_5
REF_AADCREGSRVSTB
SYSPLL1SYSPLL2
USB_1USB_2VDAC
VDAC_BGXTAL
ADAC1ADAC2
DVSS12_VGA
DLL1DLL2HDMILVDSALVDSBMEMPLLPLLGRGBADC_1RGBADC_2RGBFESYSPLLUSBVGAPLLVOPLL
XTALVDAC_BGVDACUSB_2USB_1SYSPLL2SYSPLL1STBSRVREGREF_AADC
ADAC1ADAC2
DVDD12_VGA
LVDSDLVDSCLVDSBLVDSAHDMIDIGDEMOD1CVBS3CVBS2CVBS1APLLADAC2ADAC1AADC
DLL1DLL2
LVDSALVDSB
MEMPLLPLLG
RGBADC_1RGBADC_2
RGBFESYSPLL
USBVGAPLL
VOPLL
AADCADAC1ADAC2
APLL
2453 B32454 B32455 B32456 B32457 B3
I409 F7I410 F7
1
2408 A3
4 5
2451 B4
2469 C8
2493 E22494 E22495 E22496 E2
2470 D92471 D92472 D82473 D82474 D8
2439 B82440 B9
E
F
2401 B12402 B2
2432 A5
2434 B82435 B82436 B82437 B82438 B8
C
D
H
2400 B1
2430 A52431 A5
2481 D22482 D22483 D22484 D2
2480 D2
3403 E63404 E63405 E63406 E6
2485 D12486 D12487 D22488 D22489 D2
2458 B22459 B2
I411 F7I412 F7
2409 A32410 A3
6
2452 B3
8 9 10
B
C
11 12
2 3
2464 C22465 C22466 C22467 C22468 C8
3426 H63427 F93428 F93429 F9
2497 F22498 F22499 F124DA F224DB F2
2475 D82476 D8
2441 B9
2413 A4
G
1
2403 B2
2433 A5
2405 B22406 A32407 A3
A
B
2426 A52427 A5
2478 D8
2447 B42448 B42449 B42450 B4
2479 D2
3402 E6
3407 E63408 F73409 F7
F406 F5F407 F9F408 F9I400 D2
3410 F73411 F7
2490 D22491 E2
2460 B2
I413 E2
2411 A3
7 11 12
A
9 10
2461 B22462 C12463 C2
2428 A52429 A5
3425 H6
7402-2 H6F400 C2F401 A3
3430 F94401 G74402 G74403 G75400 B5
24DC G224DD G2
2477 D8
2414 A42415 A4
2
2404 B2
F
G
H
2442 C82443 C82444 C82445 C82446 B4
24DH F93400 D53401 E6
5403 D2
5406 E25407 F25408 F2
I403 E2I404 F2
3412 F73413 F73414 F7
2492 E2
D
2412 A3
I408 H6
2420 A42421 A42422 A42423 A52424 A52425 A5
3419 E93420 G6
3424 H5
7402-1 H5
RES FOR ITV
F402 B4F403 D9
I401 D2
24DE F9
2416 A4
3 4 5 6 7 8
24DF H624DG A3
7400-14 C47400-4 E8
5402 D2
5405 E2
5409 G25410 D9
I405 F2I406 F3
E
2418 A42419 A4
3417 E93418 E9
3422 G63423 G5
7401 E5
F404 H6F405 G5
2417 A4
7400-12 B67400-13 B11
5401 B1
5404 E2
6400 H76401 H4
I407 H5
RE
S F
OR
ITV
3415 F73416 E9
I402 E2
3421 G6
3415 100R
100R3409
3411
+5V
_SW
100R
I409
5
3
4
BC847BS7402-2
3427 47R
F403
F400
3405
10K
2414
F401
100n
3420
10K
100n
2466
1u02491
1K0
3425
RE
S24
DE
100n
100n
I406
2481
2494 100n
I407
5404
30R
+3V3STBY
2495 1u0
100n
2479
100n2496
2483
2482
100n
100n
24D
D
1u0
+1V0_SW
100n
24D
C
44034402
F402
3408 100R100n2498 5407
30R
3429 47R3428 47R
I404
+3V
3_S
W
+3V
3_S
W
100n
2412
2480
100n
100n
2471
100n
100n
2416
2415
I402
2472
100n
+3V3STBY
I401
1u02493
+3V3STBY
100n
2400
3410 100R
2417
100n
F405
I408
2
6
1 +12VS
BC847BS7402-1
4401
2484
100n
2497 1u0
RE
S
1K0
3419
+5V
_SW
RE
S34
16
1K0
4K7
3422
I410
3430 47R
3406
10K
F404
RE
S
7401BC847BW
I403
100n
2409
2440
100n
100n
2464
2465
100n
100n
2467
2413
100n
3413 100R100R3414
30R
5409
4u7
2476
100n
15K
2489
3424
4K7
3403
24D
G
100u
6.3V
I405
RE
S
+3V3_SW
24D
H
100n
RE
S10
K34
21
30R
5406
+3V3STBY
2490 100n
2410
100n
2411
100n
+1V2_SW
5410
30R
100n
2419
2452
100n
100n
2473
2474
100n
6400
BZX384-C8V2
2422
100n
24D
F
1K0
3426
SENSE+1V0_MTK5392
220n
100n
2485
3404
4K7
10K
3401
I412
1u0
2402
I411
2418
100n
+3V3_SW
I413
4K7
3417
AG10AH10
AH14
B30
C29C30A30
L29L28K28
AJ12AF11AG12AG11AF13AF12AG13AH12AH13AH11
Φ
PM_DEMOD
MT5392RHMJ7400-4
2463
100n
C2C3D3D4D5
V18Y11K13AA12AB15
B1
AA10AA14AB13
B2
G6L11L12L15M19
A2
P19P10R11M11R18
AJ3AH4AG5AF6
A1
E4E5E6F5F6
F4G5H6L2L3
E8
F26
G8G25H25
F9
AB5AC4AD2AD3AE6AF5AG4AB3
E3V4
C1
M4N6P6T2
U4U3U5
AB6
D2
Y16
Φ
DIGITAL POWER
MT5392RHMJ7400-12
W13
K5
W14W15W16W17Y10Y12Y13Y14Y15
J6
U18V10V12V13V14V15V16V17W12
J4
T15T16T17U10U12U13U14U15U16U17
H3
R17T11L19L17N19R19T19
T12T13T14
P15P16P17P18R10R12R13R14R15R16
N12N13N14N15N16N17P11P12P13P14
H2
L13L14L16M12M13M14M15M16M17M18
G3
L18AA3AA5AB17AD6AE5AF4AG2AG3
F11
T23T24M10
N18D27E26W11AA15AB14
T18
K12
W22W23W24
Y6Y20Y21Y22Y23Y24T21
W18
U23U24V20V21V22V23V24W20W21
R6
Y18AA4
AA11AA13AA16AA17AA18AB16
U21
R5
U22
7400-13MT5392RHMJ
E1
R4
Y17
3412 100R
DIGITAL GROUND
Φ
2461
100n
1u0
24D
B
2487I400
4u7
2486
100n
100n
2469
2468
100n
30R
5401
30R
+3V3STBY
5405
2401
100n
2444
100n
10K
3407
100n
2429
2430
100n
6401
BZ
X38
4-C
3V3
2432
100n
2420
100n
100n
2421
100n
2453
2454
100n
100n
2475
100n
2431
2457
100n
100n
2458
+3V3STBY
100n
2460
5403
30R
100n2492
+3V3STBY
100n2488
100n
2404
2403
1u0
F407
100n
2425
F406
2426
100n
2456
100n
3418
4K7
2441
4u7
+1V8_SW
2407
100n
2439
100n
100n
2438
100n
2436
2434
AG22Y30
L25K25
AG20 AF20
100n
K18T26
AF16AG26AH26
Y29Y28AG8AG7
AF23
Y27AD26AC27AC26AB28
V26AH8K14K15K16K17
AB18AF17AG17AF19AG24AB11AH25
E20
R25N25P25
AG23AG21W28
L26K26
N10V11E16E23U11
E15E24E21R26AG16AG27AJ27AA28AA27AH6AH7
T25N26P26Y26AD27AC28AC29AC30U25AH9E18
E22T10AB20AF18AG18AG19AH24AB10AJ25E19
7400-14MT5392RHMJ
POWER & GROUND
Φ
N11W10AB12E17
100n
2477
2478
100n
100n
2443
5408
30R
100n
3402
2449
10K
3400
100n
2451
10K
2470
4u7
2446
2428
100n
4u7
5400
30R
30R
5402
100n
2447
2448
100n
100n
2433
100n
2427
2450
100n
100n
2455
2459
100n
+3V3STBY
2408
100n
1K0
3423
2462
4u7
2437
100n
2435
2405
100n
100n
2406
4u7
F408
100n
2423
2424
2442
100n
100n
24D
A
100n
100n
2445
4u7
2499
TSO_CLKTSO_VALIDTSO_SYNC
TSO_DATA0
ARX-5VBRX-5VCRX-5V
LED-2
PO
WE
R_D
OW
N
+8V_SW
SCL-DISP
STANDBY
POWER_DOWN
SDA-DISP
STANDBYn
LED-1
MUTEnSW_MUTE
FRONTEND_SDAHDMI_CECFRONTEND_SCL
Circuit Diagrams and PWB Layouts EN 59LC9.3L LA 10.
2010-Mar-26
SSB: GDDR3
18970_504_100322.eps100322
GDDR3B04B B04B
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
15161718192021222324
RA
RDQ
RCLK1
RDQM
RBA
RDQS
WDQS
RCLK0
10
2
RCKERCS
RRASRCAS
RWE
0123
0
6789101112012
1
23
0123
RVREFRRESETREXTDN
34567891011121314
RCS1
RCAS1
25262728293031
012345
VDDQ
VREF
VDD
VSSQ
VSS
A
1516
19202122232425262728293031
0123
ZQ
012
SEN
14
34
CK
4
CKECS0
RASCASWE
0123
3210
012
56789
10111213
1718
DM
0123
WDQS
BA
AP
RDQS
DQ
567891011
RESETMF
A
1516
19202122232425262728293031
0123
ZQ
012
SEN
14
34
CK
4
CKECS0
RASCASWE
0123
3210
012
56789
10111213
1718
DM
0123
WDQS
BA
AP
RDQS
DQ
567891011
RESETMF
VDDQ
VREF
VDD
VSSQ
VSS
7501-1 E87501-2 E12
F500 B10I500 C65500 C6
5501 E10
5502 E107400-5 A47500-1 E4
7500-2 E143505 C63506 C63507 E7
3508 E73509 E103510 E10
3511 E113512 E113513 H9
3514 H52543 C132544 C13
2545 C142546 C142547 E10
2548 E102549 E102550 E10
2551 C103500 E33501 E3
3502 D53503 D53504 C5
2519 B152520 B10
2521 B112522 B112523 B11
2524 B112525 B122526 B12
2527 B122528 B122529 B13
2530 B132531 B132532 B13
2533 B132534 B142535 B14
2536 B142537 B142538 B15
2539 C122540 C132541 C13
2542 C13
6 7 8 9 10 11 12 13 14 15
2510 B132511 B13
2512 B132513 B142514 B14
2515 B142516 B142517 B14
2518 B152500 C52501 C62502 B11
2503 B112504 B122505 B12
2506 B122507 B122508 B12
2509 B13
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
1 2 3 4 5
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
100n
2540
2539
100n
2531
2527
100n
100n
100n
2526
100n
2525
2524
100n
100n
2503
+1V8_SW
2502
100n
30R
5502
100n
2549
F500
AC2G2
I500
AB1AC3
G1
AG1
N2
N4V5
U1
J2AB2
M6M5L4L5AA1Y2
K4AB4AC5
H1
J3
AE1AE3H5J5G4H4F2E2
K3
F3D1
W5Y4Y5AD5AA6AE4AD4
K2
AD1AE2
M2M3
AF2AF3
T5W2
K1L1
AA2Y3W4
V1U2T3V2T1
P3W1W3
N5P4
N1
P2P5
N3R2R3
P1T4V3
7400-5MT5392RHMJ
DRAM_IF
Φ
100n
2537
2536
100n
100n
2535
2534
100n
2533
2530
100n
100n
2529
100n
+1V8_SW
5500
30R
30R
150R
1%
5501
3502
3513
280R 1%
62R
3500
+1V8_SW
1%1% 62R
3501
+1V8_SW
3514
280R 1%
2K435
11 1%
2547
100n
1%1K0
3509
100n
2548
2519
100n
100n
2518
100n
2517
100n
100n
2515
2516
100n
2513
2514
100n
2512
100n
+1V8_SW+1V8_SW
D10P10
P3
V9
V4
D2D11P11P2
H9
A4
T3
E2F3F2G3
B11B10
A9
J3RAR|CS1_|A12
H3
D3
T11T10M2L3N2M3R2R3
C3
T2
E11F10F11G10M11L10N11M10
C2
R11R10
H4
J10
F9
E3E10N10N3
B2B3
C11C10
H11K10L9K11M9
G4G9H10
F4
J11
K4H2
K2L4J2
A12|RAR|RFU
K3M4K9
7500-1
ΦMAIN
H5RS1H23MFR-11C
T9
B4
T12
B9B12D1D4D9
D12G2
V3
B1
G11L2
L11P1P4P9
P12T1T4
H1H12
A3
V10
A10G1
G12J1
J12L1
L12
R12V1V12
C1C4C9C12E1E4E9
J4J9N1N4N9N12R1R4R9
A12
A11F1F12K1K12M1M12V2
A1
E12
7500-2H5RS1H23MFR-11C
POWER
Φ
A2
V11
+1V8_SW
3507
62R 1%
100n
2511
2510
100n
100n
2509
2508
100n
100n
2507
100n
100n
2505
2506
2504
100n
3503
2K2
2538
100n
RE
S35
05
47K
100u
6.3V
+1V8_SW
+1V8_SW
2551
1%
1%
3512
2K4
3510
1K0
2550
100n
B12D1D4D9
D12G2
P1P4P9
P12T1T4T9
B4
T12
B9
G1G12
J1J12L1
L12V3
B1
G11L2
L11
C4C9C12E1E4E9
H1H12
A3
V10
A10
N9N12R1R4R9
A12
R12V1V12
C1
K12M1M12V2
A1
E12J4J9N1N4
A2
V11
A11F1F12K1
P2
H9
A4
ΦPOWER
H5RS1H23MFR-11C7501-2
J3RAR|CS1_|A12
H3
D3D10P10P3
V9
V4
D2D11P11
C3
T2T3
E2F3F2G3
B11B10
A9
C2
R11R10T11T10M2L3N2M3R2R3
B3
C11C10E11F10F11G10M11L10N11M10
F4
J11
H4
J10
F9
E3E10N10N3
B2
A12|RAR|RFU
K3M4K9H11K10L9K11M9
G4G9H10
H5RS1H23MFR-11C
K4H2
K2L4J2
7501-1
MAIN
Φ
100n
2528
2546
100n
100n
2545
2544
100n
100n
2543
2542
100n
100n
2541
100n
2523
2522
100n
100n
2521
2520
100n
100n
2532
1%
3508
62R
1%
3504
2K4 10
0n
2501
3506
1K0 1%
2500
100n
DQ3DQ2DQ1DQ0
RRESET
DQ19DQ18DQ17DQ16DQ15DQ14DQ13DQ12DQ11DQ10DQ9DQ8DQ7DQ6DQ5DQ4
DQ30DQ29DQ28DQ27DQ26DQ25DQ24DQ23DQ22DQ21DQ20
DQ31DQ16DQ17DQ18DQ19DQ20DQ21
DQ11
DQ22DQ23
DQ12DQ13DQ14DQ15
DQ0DQ1
RBA2
RDQS1RDQS0RDQS3RDQS2RA(12)
WDQS1WDQS0WDQS3WDQS2
RCKE
RRAS
RCS1
RCLK0p
RWE
RCLK0n
CAS1
RDQM1RDQM0RDQM3RDQM2
DQ8DQ9
DQ2DQ3DQ4DQ5DQ6DQ7
DQ24DQ25DQ26DQ27
DQ10
DQ28DQ29DQ30
DQ20
CAS1
RCS1
RA(4)RA(5)
RA(8)RA(7)
RA(6)RA(9)RA(0)RA(1)RA(2)RA(11)RA(10)RA(3)
RBA1RBA0
DQ4DQ5DQ6DQ7DQ8DQ9DQ10DQ11DQ12DQ13DQ14DQ15DQ16DQ17DQ18DQ19
WDQS1WDQS0
RDQM2RDQM1RDQM0
RBA1RBA0
RRESET
DQ3
RCS
RDQM3
RDQS0
RRAS
RWE
WDQS3
RDQS1RDQS2RDQS3
WDQS2
RA(5)RA(6)RA(7)RA(8)RA(9)RA(10)RA(11)
RBA2
RCAS
RCKE
RDQM2RDQM3
RBA1RBA2
RA(3)RA(4)RA(5)RA(6)RA(7)RA(8)RA(9)RA(10)RA(11)RA(12)
RA(0)RA(1)RA(2)RA(3)RA(4)
RWE
WDQS0
RA(12)
D_RVREF2
RDQS1RDQS2RDQS3
WDQS1WDQS2WDQS3
DQ21DQ22DQ23DQ24DQ25DQ26DQ27DQ28DQ29DQ30DQ31
DQ31
RCLK0n
RDQM1
RA(0)RA(1)RA(2)
RBA0
RCAS
RCKE
RCLK0p
RCLK1pRCLK1n
RCS
DQ0DQ1DQ2
RDQM0
RDQS0
RRAS
RRESET
D_RVREF0
D_RVREF1
RCLK1p
RCLK1n
EN 60LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: Flash, EJTAG & Display Interface
18970_505_100322.eps100322
Flash, EJTAG & Display InterfaceB04C B04C
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
AO BO
AE BE
3N4P4N
CKPCKN
0P0N1P1N2P2N3P3N4P4N
CKPCKN
0P0N1P1N2P2N3P
4NCKPCKN0P0N1P1N2P2N3P3N4P4NCKPCKNTP_VPLLTN_VPLL
0P0N1P1N2P2N3P3N4P
SCLADR
012SDA
WC
GPIOGPIO
14151617181920212223242526
13
0123456789101112
POCE
PDD
PDD
ONDA
ONDD
ONDCE
101112131415ONDOE01
01234567891011121389
34567
01
POOE01
POWEPALEPCLEPARB
2
12
CLKCMD0123
U0RXU0TXU2RXU2TXU2CTSU2RTS
DSDIO
OPWM
OIRI
OSDA0OSCL0OSDA1OSCL1OSDA2OSCL2
0
SUB
ER
GND
VOUT
VDD
EVSS
JTMSJTDIJTDOJTCKJTRST
ORESETTN_0TP_0TN_1TP_1TN_2TP_2
TN_HDMITP_HDMITN_VGATP_VGA
TN_PLLGTP_PLLG
BRWP
VCC
VSS
IO
NC
01234567
CLEALECEREWE
2609 D8
9 10 11 12 13 14 15 16 17
1
1
0
0
1
Normal mode
1
K
L
1600 H81601 I41603 H61604 I41605 I82607 B72608 B7
12 13 14 15 16 17
A
B
C
2610 E62611 E72612 F92613 G72614 G52615 H152616 H162617 H16
PDWNC Normal
1 2 3 4 5 6 7 8
FT MODE
1
1
L
A
B
1 2 3 4 5 6 7 8
11
XTAL 48MHZ
0
TRAP3
NORMAL
0
1
9 10 11
2618 D152619 D152620 L62621 K33600 B33601 B33603 B3
D
E
F
G
H
I
J
K
ONDA[ 2 ]
0
0NAND Boot
0
SD
M
1
1
3617 D53618 D53619 D63620 D63621 D63622 D63623 D7
C
D
E
F
G
H
I
J
1
0
Large NAND Boot (1G bit)
XTAL 60MHZ0
0
ONLY
TRAP1
FOR DEBUGGING
FRONT CONTROL
3634 G23635 G23636 H33637 H33638 H33639 I33640 G43641 G43642 G5
3604 B33605 B33606 A73607 A73608 B73609 C53610 C63616 D5
PCLE(0)
1
OLT Mode
3651 F73652 F73653 G73654 F83655 F93656 I83657 I93658 I9
3624 D83625 E63626 E63627 E53628 E53629 E43632 F23633 G2
PA
NE
L
OPWM2 (0) OPWM1 (0)
0
FOR DEBUGGING
Serial Boot
3671 H163672 H153673 F153674 G143675 G143676 E153677 E153678 E153679 D11
3643 G53644 F53645 H53646 G63647 H63648 G73649 G73650 F7
OLT TEST MODE
0
0
1
3687 L73688 J43689 J43690 J33691 K2
3692 K23693 K34620 H124621 F5
3659 G93660 G103661 E113662 E113663 E113664 H113665 I73666 I7
UART (SERVICE)
PALE(0)
1
0
CPU model mode3667 I63668 J63669 H143670 H14
5605 K75606 K75607 K76600 I36601 I46602 H156603 H166604 H66605 K6
3680-1 G103680-2 G103680-3 G103680-4 G103682 K63684 L73685 L63686 J10
0
RES
0
TRAP0
F600 B4F601 B6F602 B6F603 C5F612 D7F613 D6F614 E7F615 E6F616 E6
4623 J54624 J54625 J64626 J64627 J64628 J64629 J74630 J7
TP0
0TEST MODE
0
4631 K74632 J115603 D85604 D14
F630 H15F631 L9F632 B2F633 B2F635 F5F636 K8F638 G7F639 G7I600 B4
7400-1 H137400-2 D127400-3 F47400-6 A147400-8 B47600 E67601 F87602 G67603 D167604 H167605 D77606 L87607 K77608-1 K47608-2 K37609 J5
0
OneNAND Boot
I614 F3I615 H5I616 G6
F617 E6F618 F5F619 F5F620 F5F621 F3F622 G3F623 G2F624 H5
ONDA[ 0 ]
TRAP2 TN0
F625 H4F626 I4F627 I5F628 I7F629 J7
PWM DIMMING
ONDA[ 1 ]
I627 F15I628 D16I629 H16I630 I14I631 J7I632 K6
I601 B4I602 B4I603 C4I604 C4I605 C4I606 C4I607 B8I613 E6ICE mode
0
01
01
PDWNC SCAN
OPCTRL8(0) I617 G7I620 F8I621 F8I622 E11I623 E11I624 E13I625 F14I626 F14
XTAL 27MHZ
1
SCAN mode
XTAL 54MHZ
I633 L6I634 L6I635 L8I636 K7I637 J4I638 K4I639 K3I640 K2
TRAP4
ONLY
RE
S
0
100n
2607
3456789
12 13
BM11B-SRSS-TBT
1600
1
1011
2
RES
5
3
4
2
6
1BC847BS7608-2
BC847BS7608-1
220n
2621
F628
3667 100RF629
D25C25
D23C23
B20A20
B24A24
D20C20
D21C21
D22C22
D24C24
D17C17
B21A21
B22A22
B23A23
B25A25
B26A26
D14C14
D15C15
D16C16
D18C18
D19C19
B15A15
B16A16
B18A18
B19A19
B17A17
MT5392RHMJ
LVDS
Φ
B14A14
I627
7400-6
4K73636
3640 1R03641 1R0
10K
3603
1K0
3655
3664
RES
33R
3656
10K
1K0
3692
3691
1K0
3621
5
84
7
10K
M24C64-RDW
123
6
7605
EEPROM
Φ(8Kx8)
47p
2614
3647
1K0
RE
S
F620
4K7
3679
3687
47K
1
3
2
F636
7609BC857BW
4625
RE
S
4K7
RE
S36
61
2612
1u0
RE
S
I605
362210K
RES
+3V3STBY
3684
47K
10K
3688+3V3STBY
3689
10K3690
15K
3657
10K
10K
3658
PDTC114ET7606RES
3680
-110
K
3670 4K7
I635
I620
4626
4627
1R0
3648RES
30R
5607
4K7
3666
I628
4621
4K7
3643
F603
RE
S
+3V3_SW
I630
3
2
2610
10p
RES
BC847BW76011
F602
F621
4624
RE
S 4628
4u7
2617
F28 D30D28E28H29
AH2G29AH1E29F29F30
AK2AJ1AJ2G30H28A28
AF7
B28A29B29
AH5AG6
G28D29E27AH3
I601
7400-8MT5392RHMJ
GPIO
Φ
F631
+3V3_SW
7602BC847BW
F622
+5V_SW
F635
I625
+3V3_SW
3625 22R
3638 33R
5606
30R
5605
220R
30R
5604
3660
10K
+3V3_SW
47K
3674
4K7
3682
4K7
3616
100n2609
RES3628
1R0
I623
1K0
3608RES
F633
F632
I633
4K7
3676
4632
I617
4K7
3662
+3V3_SW +3V3
F625
+3V3_SW
I616
10K
3619
1K0
3659
3678
10K
2618
I631
100n
22R3626
6601
BZ
X38
4-C
6V8
100n
I615
2608
4620
47R
I629
3685
3624
4K7
100R3604
AJ13AK13
H27G27
H26G26
I613
AK10
J30
K30
AJ10
F8D7F7E9D6E7
AK11
AJ11K27C5
J29
K29
4u7
2616
Φ
SPIO_UART_IIC
MT5392RHMJ7400-3
I634
3668 100R
+3V3_SW
22R3644
B12
E10B10
B9
E14
3618
10K
C4
C12
A3B13
B11A13
C10A11C13A10C11
C6B3
D11E11F12E12E13D10
D13F13
F10A4B4
B7D8B5B6A8B8C9C8
7400-2MT5392RHMJ
FLASH_IFA5C7
A7
+3V
3_S
W
Φ
+3V
3_S
W
I621
1234
56
RES
BM04B-PASS-TFT
1605
680R
3646
F623
3680
-410
K
33R
3623
3645
I602
100R
678
4
123
1601
SI4835DDY7607
5
F626
BA
S31
6
6603
4629 RES4630 RES
10K
+3V3_SW
3620 F613
560330R
100R3609
F600
3675
3673
4K7
RE
S
4K7
I600
+3V3_SW
3634
4K7
F624
4K73669
I636I632
2619
+3V3_SW
100n
100R3632
+3V
3_S
W
+VDISP-INT
1604
+3V3-STANDBY
6605
BZX384-C6V8
+3V3STBY
I626
4623
RE
S
3680
-310
K10
K36
80-2
3663
4K7
100R3633
3686
4K7
3601
+3V3_SW
10K
BZ
X38
4-C
6V8
6600
+3V3_SW
I603
I624
4
+3V3STBY
1
3 25
Φ
7604BD45292G
4K7
3642
RE
S
10K
BA
S31
6
6602
RES3652
4K7
3606
+3V3_SW
4K7
3650
F616
F62
7
3629
I614
1R0
F639F638
3617
4K7
3639 33R
F612
BC847BW7600
3610
4K7
1R0
3653RES
F619
AF14
AE27
L6
AC6
AG9
AK26
AG14
AF8
B27
C26A27
C27
D26
AK27AF27
K6
AB7
AF9
AJ26
7400-1MT5392RHMJ
MISC_JTAG
Φ
3651
4K7
1R0
3627
3671
RES
100n2615
100K
1K0
3672
RE
S
2
13
F630
MSJ-035-29D PPO
1603
I606
F618
+3V3_SW
RE
S36
54
1K0
F614
3600
10K
10p
2611
F601
I607
F615
36374K7
I622
F617
3649
4K7
3665
4K7
+3V3_SW
+3V3_SW
I604
RES
4K7
3607
4631
3677
330R
37
13 36
1819
3456
101114
8
7
12
2
33343538394045464748
15202122232425262728
16
2930313241424344
1
7603NAND01GW3B2CN
Φ
[FLASH]
1G
179
RE
S
10K
3693
4K7
3635
6604
BA
S31
6 2u2
2613
3605 100R
I637
I639
I638
I640
+3V3_SW
+3V3_SW
+12VDISP
1u0
2620
BYPASS
BYPASSLAMP-ON-A
LCD-PWR-ONn_A
CTRL-DISP
PX3E-
LCD-PWR-ONn_A
PX4CLK+PX4CLK-
PX2A+
PX4C-
SDA-MAIN
PX4B-PX4C+
PX4D+PX4D-PX4E+PX4E-
PX2D-PX2E+PX2E-
PX2CLK+PX2CLK-
PX4A+PX4A-PX4B+
PX2A-PX2B+PX2B-
PX2C+PX2C-PX2D+
PX3E+
PX3CLK+PX3CLK-PX1A+
PX3C-
PX3A+PX3A-PX3B+PX3B-PX3C+
PX3D+PX3D-
PX1D+PX1D-PX1E+PX1E-PX1CLK+
PX1CLK-
PX1A-PX1B+PX1B-PX1C+PX1C-
DDC-SCL
SCL-MAIN
RC1
RC2
HDMI_RESET
DRX-5V
UART_TX
UART_RX
DC_PROT
UART_TXUART_RX
USB_OC
DDC-SDA
HP_DET
ORESET
PWM-DIMMING
BACKLIGHT-BOOST-A
USB_PWE
DEMOD_RESET
AMBI_SDAAMBI_SCL
GAIN_SWRF_SW
PBS_SPI_DI
BOOST_CONTROL
BACKLIGHT_CONTROL
EDID_WC
RC
PBS_SPI_CLK
HP_DETECTDDC_RESET
LCD-PWR-ONn_A
SDA-MAINSCL-MAIN
SYS_EEPROM_WE
JTMS
JTCKJTRST
JTDO
JTRSTJTDIJTMSJTCK
JTDI
NAND_PDD(3)NAND_PDD(4)NAND_PDD(5)NAND_PDD(6)NAND_PDD(7)
JTDO
NAND_POOENAND_PDD(0)NAND_PDD(1)
NAND_POWENAND_PALENAND_PCLENAND_PARB
NAND_PDD(2)
NAND_PCLENAND_PALE
NAND_POWE
NAND_POCE
NAND_PARB
NAND_PDD(0)NAND_PDD(1)NAND_PDD(2)NAND_PDD(3)NAND_PDD(4)NAND_PDD(5)NAND_PDD(6)NAND_PDD(7)
NAND_POOE
NAND_POCE
Circuit Diagrams and PWB Layouts EN 61LC9.3L LA 10.
2010-Mar-26
SSB: Ambilight Microcontroller
18970_506_100322.eps100322
Ambilight MicrocontrollerB05 B05
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
OUTIN
INH BP
COM
X2
RTXC1RTXC2
RTCK
VBAT
DBGSEL
RST
VSS VSSA
VDDAVDD_3V3VDD_1V8
X1
G
A
B
1 2 6 7 8
DEBUG ONLY
A
B
C
D
E
F
D
E
F
G
1800 A31801 C51802 G10
2809 C62817 G42818 G42819 G52820 G52821 G83800 E1
3 4 5 21019
1 2 3 4 5 6 7 8 9 10 11 12
3811 F53812 F63813 F63814 G93815 G93816-1 G93816-2 G9
C
1803 D31804 F92800 E12801 E22802 B12803 B22804 B32805 B32807 C52808 C6
3819 E103820 E103821 E103822 F83823-1 C73823-2 C63823-3 C6
11
3801 E23802 E33804 C83805-1 C73805-2 C73805-3 C73805-4 C73806 B53807 B63808 C53809 C6
3827-2 C73827-3 C73827-4 C73828-1 C73828-2 C73828-3 C73828-4 C7
DEBUG
3816-3 G93816-4 G93817-1 F93817-2 F93817-3 F93817-4 F93818-1 F93818-2 F93818-3 F93818-4 F9
7802 A27803 E2F800 A3F801 A3F814 C5F815 C5F816 C5
DEBUG
3823-4 C63824-1 C83824-2 C83824-3 C73824-4 C83825-1 D93825-2 D93825-3 D9
3825-4 D93826-1 D93826-2 D93826-3 D93826-4 D93827-1 C7
F828 G10F829 G10F830 G10F831 G10F832 G10F833 G10F834 G10
3829-1 C83829-2 C83829-3 C83829-4 C84800 D44801 E44802 E44803 F55800 A27801 D4
I804 D5I805 D6I806 D5I807 D5I808 E5I809 E5I810 E5I811 E5
DEBUG ONLY
DE
BU
G O
NLY
F817 E4F818 E4F819 E6F821 F9F822 F9F824 F6F825 F6F826 G5F827 F8
45
F835 G10F836 B2F837 D4F838 F8I800 E1I801 E1I802 A2I803 B2
3805
-11
8
10K
3828
-4
18
10K
10K
3823
-1
F815
F800
30R
27
5800
10K
27
3824
-210
K
18
3829
-2
3829
-110
K10
K38
29-3
36
10K
36
10K
36
3824
-3
3805
-3
10K
18
3828
-1
100R
3822RES
3809
100R
4 5
F826
RES 100R3816-4
100n
2817
I801
F838
+1V8UP
2818
100n
+3V3_SW
F829
F827
45
100n
2821
3829
-410
K
RE
S38
02
10K
100R1 8
3827
-210
K2
7
3818-1
F828
+3V3_SW
RE
S
36
100n
2804
10K
3823
-3
3826-4 100R4 5
I803
2 7 100R3826-2
+3V3_SW
F830
F837
+3V3_SW
3815 100RRESRES
3814 100R
3813
10K
I811I810I809I808
I805
I807I806
36
I804
10K
3828
-3
+3V3_SW
3 6
3801
10K
3817-3 10K
RES 4802
3821 100R3820 100R
100R3825-2 2 7+
1V8U
P
2805
1u0
3825-4 100R4 5
10n
2803
27
1u0
2802
10K
3823
-2
12
1
10
23456789
11
7
502382-1070
1802RES
100R3818-2 2
3826-1 100R1 8
5
F817
3824
-410
K4
3805
-44
5
3816-3 100R3 6
10K
100p
2807
RES
45
RE
S
3823
-410
K
100n
2801
+3V
3_S
W
3811 10R
16M
9
1803
F834F835
RES 1 8
+3V3_SW
3816-1 100R
3819 100R
I802
I800
RES
12
34
4800
+3V3_SW
RES1804
SKHU
RES 4801
F814
F831
3 6
+3V3_SW
+3V3_SW
100R3826-3
2820
100n
100n
2819
5CD
3GND
INP2
4NC
OUTP1
3 6
NCP303LSN287803
100R3825-3
10K3817-4 4 5
3812
10K
100p
2808
3806
10K
3807
10K
3825-1 100R1 8
100R
3808
T 63V1.0A
1800
3800
1K0
V-AMBI
+3V3_SW
2 73817-2 10K
3818-3 100R3 6
10p
2809
RES 100R3816-2 2 7
3817-1 1 8
31
11
12
10K
26
2025
4
425 17 40
7 19 43
P0.3|SDA0|MAT0.021
P0.4|SCK0|CAP0.122
P0.5|MISO0|MAT0.123
P0.6|MOSI0|CAP0.224
P0.7|SSEL0|MAT2.028
P0.8|TXD1|MAT2.129
P0.9|RXD1|MAT2.230
6
P0.25|AD0.638
P0.26|AD0.739
P0.27|TRST|CAP2.08
P0.28|TMS|CAP2.19
P0.29|TCK|CAP2.210
P0.2|SCL0|CAP0.018
P0.30|TDI|MAT3.315
P0.31|TDO16
P0.19|MAT1.2|MISO11
P0.1|RXD0|MAT3.214
P0.20|MAT1.3|MOSI12
P0.21|SSEL1|MAT3.03
P0.22|AD0.032
P0.23|AD0.133
P0.24|AD0.234
P0.11|CTS1|CAP1.1|AD0.436
P0.12|DSR1|MAT1.0|AD0.537
P0.13|DTR1|MAT1.141
P0.14|DCD1|SCK1|EINT144
P0.15|RI1|EINT245
P0.16|EINT0|MAT0.246
P0.17|CAP1.2|SCL147
P0.18|CAP1.3|SDA148
27
P0.0|TXD0|MAT3.113
P0.10|RTS1|CAP1.0|AD0.335
7801LPC2103FBD48
Φ
CTRLMICRO-
4
2
1
3
5
4803
LD2985BM18R7802
F824
F825F822
F818
3805
-22
7
F821
10K
18
10K
10K
3828
-22
7
3824
-1
363
4 5
10K
3827
-3
1801
B3B-PH-SM4-TBT
RES
12
100n
F836
2800
F832
F833
F816
F801
5
3804
10K10
K38
27-4
4
10K
18
F819
3827
-1
100R4 53818-4
AMBI_SCLAMBI_SDA
UPJTAG_TRST
UPJTAG_TCK
UPJTAG_TDI
UP_RESETUP_RTCK
UPJTAG_TDOUPJTAG_TDI
UP_RESETUP_RTCK
UPJTAG_TCK
UPJTAG_TMS
UPJTAG_TRST
AMBI-SPI-CS-EXTLAMPSnAMBI-LATCH2_DIS
AMBI-SPI-SDI-OUT_G1AMBI-SPI-CLK-OUT
AMBI-BLANK_R1AMBI-PROG_B1
AMBI-LATCH1_G2AMBI-SPI-CS-OUTn_R2
AMBI-PWM-CLK_B2
AMBI-SPI-SDO-OUT
UPJTAG_TMS
AMBI-TEMP
UPJTAG_TDO
EN 62LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: HDMI & Multiplexer
18970_507_100322.eps100322
HDMI & MultiplexerB06 B06
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
-+
OUT_DATA0
-+
OUT_CLK
DDC_SCLDDC_SDA
D
DDC_SCLDDC_SDA
COM
OUT_DATA1
-+
OUT_DATA2
HPD
ABCD
PSV
AVEE
AVCC
DATA1
ENABLE
AMUXVCC
TX_EN
D
-+
ABC
SCLSDA
DDC_SCLDDC_SDA
-
INOUT
RESETB
01
SCLSDA
01
IN_C
-+
+
CLK
DATA0
-+
DATA2-+
-
DATA1IN_D
-+
+
CLK
DATA0
-+
DATA2-+
EDID
A
DDC_SCLDDC_SDA
B
DDC_SCLDDC_SDA
C
CEC
SEL
I2C
I2C_ADDR
IN_A
-+
+
CLK
DATA0
-+
DATA2-+
-
DATA1IN_B
-+
+
CLK
DATA0
-+
DATA2-+
-
DATA1
SCLADR
012SDA
WC
RX0
LDO
XTALIXTALOVCXO
STB_SCANVOUT12_STB
ACT_SCANVOUT12_ACT
SCAN_MAINVOUT10
CCB00B11B22B
11 12
1902 A11903 A81904 A32900 D6
2903 A112904 A122905 F12
HDMI CONNECTOR 1
1 5
1 2 3 6 10 13
A
B
7 8 9
1900 F131901 A6
2902 D6
C
D
E
2906 G122907 H7
H
HDMI CONNECTOR SIDE
2908 H72909 A113900 E33901 E4
62 3 4 311101
3910 E53911 E53912 F5
4 5
3915 C83916 C83917 D93918 D11
C
G
H
2901 D6
B
3927 F113928 F133929 H12
F
G3932 H73933 H73934 G63935 F83936 F83937 F83938 F73939 F7
3902 E3
7 8 9
3906 E43907 E5
12
3909 E5
3948 F84900 C95900 H12
3913 F53914 C7
6901 H77400-7 F117900 E67901 D9
3919 D11
D
E
F
3923 E113924 E10
A
3926 E11
F903 B6F904 B6F905 B6
3930 H83931 H7
F908 B1
3940 E7
3903 E43904 E43905 E4
3944 D73945 D7
3908 E5
3947 D6
I906 H9I907 H9I908 F12
5901 A126900 D3
F920 C8
NC
RES
F921 D8F922 D8F923 F12
7902 D11
3920 D113921 E113922 E11
7906 C8F900 A6
3925 E10
F902 B6
F925 G12F926 H6F927 B4
F906 B1F907 B1
RES FOR HDMI 3HDMI CONNECTOR 2
F932 B3F933 E5F934 H7F935 D8I900 E5I901 E5I902 F5
3941 E73942 E73943 E7
F909 B1F910 B1F911 B1F912 B8
3946 D7
I905 F9
F913 B9F914 B9F915 B9F916 B9F917 B9F918 A12F919 C8
I909 G12I910 H7
F930 B4F931 B4
F924 G12
7903 E117904 E117905 F11
F928 B4F929 B4
F901 B6
I903 F5I904 F9
3917
6K8
RES
4900
F924
+5V_SW
I906
7906BC847BW
F934
F933
I902
100R
3926
100R3909
3946
1K0
F919
I900
+3V3_SW
1%2K
03904
RE
S
3900
1R0
100R
3920
2K2
3927
3947
6K8
RES
RE
S
6K8
3901
3914
10K
10K
+5V_COMBINED
391310K3912
27K
3902 10
K
3943
I907
47K3938
10K3911
1K03931
3910 10K
3939 47K
I910
F935
1215
24
+5V_COMBINED
32
2829
2526
80797877
36
37
4241
4544
4847
3435
31
1110
5150
5453
5756
6059
38
2019
2322
21
54
87
5855
4939
2740
1413
1716
76
74
72
68
70
636162
63
52
21 30 46
6665
75
73
71
67
69
Φ
7900ADV3002BST
64
9 18 33 43
33R
+5V_COMBINED
3916
+1V2_SW
F925
F920
3918
100R
7903BC847BW
2K2
3923
F922
F921
+3V3STBY
RE
S
+5V_COMBINED
3K339
03
3944
3K3
I901
2K039
05R
ES
VDDO_3V3
F926
1%
+5V_COMBINED
10n
2907
BA
T54
6901
RES 1R03908RES
3935 47K
1R03907
3930 1K0
47K 3948
3906
10K
3934 1K0
5
84
7 (256x8)Φ
EEPROM
7901M24C02-WMN6
123
6
5900
30R
10K
3942
BC847BW7902
3921
2K2
BC847BW7904
F9237905
BC847BW
I903
3945
3K3
+3V3_SW
BA
T54
6900
47K 3936
393747K
3932 1K0
47K 3940
3933 10K
+5V_COMBINED10K
3915
F928
2K2
3924
+5V_COMBINED
3919
2K2
F914
VDDO_3V3
F916
100R
3922
+5V_COMBINED
9
20212223
16171819
2345678
19021
101112131415
20212223
DC1R019JB1E400
1819
23456789
1
1011121314151617
DC1R019JB1E400
1904
2223
1u0
2908
23456789
2021
1
10111213141516171819
DC1R019JB1E400
1903
I905
47K3941
F930
F932 F912
VDDO_3V3
F915
F917
F904
F911
F909
F907
I904
6.3V
100u29
09
F931
F927
2K2
3925
F913F905F906
F900
F908
56789
20212223
1213141516171819
234
DC1R019JB1E400
19011
1011
RES
I909
AE26
J27
AF15
W27
AF26
W29W30
HDMI_XTAL_LDO
W26
AG15
AK7AJ7AK8AJ8AK9AJ9
AK6AJ6
7400-7MT5392RHMJ
Φ
F929
2902
1n0
F918
2901
10n
1u0
2904
2903
470n
F902
F903F910
I908
4K7
3929
820K
3928
30R
5901
F901
27p
2906
1900
27M
0
2905
27p
100n
2900
EDID_WC
HDMI_RESET
ARX-DDC-CLK
BRX-DDC-CLK
CRX-DDC-CLK
DRX-DDC-CLK
DDC_RESETSDA-MAIN
CECHDMI_CEC
SCL-MAIN
RX1+
RX2+RX1-
RX2-
EDID_SCLEDID_SDA
DDC-SCL
DDC-SDADDC-SCL
ARX-DDC-CLKARX-DDC-DAT
ARX-HPD
BRX-DDC-CLKBRX-DDC-DAT
BRX-5V
BRX-HPD
CRX-DDC-CLKCRX-DDC-DAT
CRX-5V
CRX-HPD
DRX-DDC-CLKDRX-DDC-DAT
DRX-5V
DRX-HPD
DDC-SDA
ARX1+
CEC
DRX-DDC-CLKDRX-DDC-DAT
DRX-5VDRX-HPD
BRX-DDC-CLKBRX-DDC-DAT
BRX-5VBRX-HPD
ARX-DDC-CLKARX-DDC-DAT
ARX-5VARX-HPD
CRX-DDC-CLKCRX-DDC-DAT
CRX-5VCRX-HPD
ARX-5V
DRX2-
DRXC-
DRXC+DRX0-
DRX0+DRX1-
DRX1+
CEC
ARX2+
ARX2-
ARXC-
ARXC+ARX0-
ARX0+ARX1-
BRX2-
BRXC-
BRX1+
BRX1-BRX0+
BRX0-BRXC+
CEC
CRX2+
CRX2-
CRXC-
CRXC+CRX0-
CRX0+CRX1-
CRX1+
CEC
DRX2+
DRX0+DRX0-
DRX1+DRX1-
DRX2+DRX2-
DRXC+DRXC-
BRX2+
RXC+
CRX0+CRX0-
CRX1+CRX1-
CRX2+CRX2-
CRXC+CRXC-
ARXC+ARXC-
RX0-RX0+
RX1-RX1+
RX2-RX2+
RXC-
BRX2-
BRXC+BRXC-
ARX0+ARX0-
ARX1+ARX1-
ARX2+ARX2-
XTALI
XTALORXC+
RX0+RXC-
RX0-
BRX0+BRX0-
BRX1+BRX1-
BRX2+
Circuit Diagrams and PWB Layouts EN 63LC9.3L LA 10.
2010-Mar-26
SSB: Analog I/O - Audio
18970_508_100322.eps100322
Analog I/O - AudioB07B B07B
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
234N
AFPN
D2SDC_DEMOD
N_DEMOD
RPRNSOGGPGNBPBNSOY0Y0PY0NPB0PPBR0NPR0PSOY1Y1PY1NPB1PPBR1NPR1P
P_DEMODHSYNCVSYNC
01
01201201
SY
SC
CVBS
MPX0
ADCIN
FB
SYNCSCT0SCT1
AIN
PGA
ALI_ADACADAC_VCM
VCMCOUPLE0OUTR0OUTL1OUTR1OUTL2OUTR2OUTL
HPOUTRHPOUTL
Φ
5_R5_L6_R6_LVMID_AADC
0_R0_L1_R1_L2_R2_L3_R3_L4_R4_L
FB12 E5
FB13 D14IB00 F3IB01 F3IB02 F4IB03 G4
IB04 F6IB05 G6IB06 F8IB07 F8IB08 B6
IB09 A11IB10 G3IB11 G3
AUDIO IN
7400-9 A10FB00 F1FB01 G1FB02 E5
FB03 D11FB04 D12FB05 F13FB06 F13FB07 F13
FB08 F14FB09 F1FB10 E5FB11 E5
3B24 G83B27 E43B28 E43B29 E43B30 E4
3B31 F33B32 F23B33 G23B34 G34B00 G12
4B01 F126B00 F26B01 G26B02 F126B03 G12
7400-11 F7
RIGHT
3B10 B63B11 B63B12 B12
3B13 B123B14 B123B15 D113B16 D113B17 E11
3B18 E113B20 F133B21 F123B22 F123B23 G8
SPDIF
NC
2B35 F32B36 F2
2B37 G32B38 G32B39 G22B40 G52B41 G5
2B42 G82B43 G73B00 C23B01 C23B02 C2
3B03 C23B04 C23B05 D23B06 B63B07 B6
3B08 B63B09 B6
2B14 B112B15 B122B16 B12
2B17 B122B18 C112B19 D132B20 D112B21 E12
2B22 F112B23 G112B24 F72B25 F82B26 F8
2B27 F82B28 E82B29 E82B30 E32B31 E3
2B32 E32B33 E32B34 F3
HEADPHONE
LEFT
1B03 F11B04 G1
1B05 D121B06 F131B07 G132B00 C22B01 C2
2B02 C22B03 C22B04 C22B05 D22B06 B7
2B07 B72B08 B72B09 B72B10 B72B11 B7
2B12 B112B13 B11
5 6 7 8 9 10 11 12 13 14
A
B
C
D
E
1 2 3 4 5 6 7 8 9 10 11 12 13 14
1 2 3 4
RES
RES
F
G
A
B
C
D
E
F
G
1B00 F141B01 D141B02 F1
6B01
PE
SD
5V0S
1BA
RE
S
100n
2B40
IB05
+3V3_SW
RE
S
22K
3B18
2K03B20RES
10n2B10
100R3B12
10n2B11
IB03
IB00
30K
3B34
4n7
2B003B00
1R0
2B05
10n
2B03
10n
68R
3B01 2B01
10n
3
45
78
1B02
MSJ-035-10A B AG PPO
1
2
2B04
10n
1B05
PE
SD
5V0S
1BA
6B00
RE
S
1B03
220R3B15
10u
2B41
2B37
2B34
10u
10u
10u
2B29
RES 6.3V220u2B42
IB09
10n2B172B16 10n
3B28
30K
IB01
AH18AJ18
IB02
AJ20
AH16
AH20
AH17
AF30AG29AH30
AJ14
AH21AJ21
AJ19
AK22
AK19
AH22
AH19
AJ17AK17
AF29AG28AH29
AH23
AF28AD28
AJ30
AJ23AK20
AJ16AK16
AK14
AB26AB27
AJ22
AB30AB29AA29
AA26
AJ15AH15
AD29AE28AE29AE30
AVI
Φ
7400-9MT5392RHMJ
3B31
30K
10n
2B023B02
100R
2B24 10u
IB07IB06
IB04
RES 3B13 100R
6B03
PE
SD
5V0S
1BA
RE
S
FB07
1B06
1B07
2B21
1n0
RE
S
1n0
2B23
FB05
RE
S
RES3B22
1R0
RE
S
1n0
2B22
1R03B06 3B14 100R
IB08
47n2B14
100R3B10
2B31
10u
30K
3B292B32
10u
33p2B20
10u2B25
10n2B09
2B06 4n7
3B09 68R100R3B08
RES
1R0
3B21
2B07
IB10
10n
IB11
12345
RES
LGM1019-0100F
1B00
30K
3B27
1B04
FB08
FB03
RE
S
PE
SD
5V0S
1BA
6B02
2B26
10u
3B33
1R0
10n2B083B07 68R
RES
1R0
3B17
10u
2B30
RE
S
1n0
2B36
2B33
10u
2
1
FB02
YKB11-0946V
CON_JACK1B01
2B38
1n0
RE
S
1n0
2B35
RE
S
68R
3B03
3B32
1R0
2B19
33p
RE
S2B
39
1n0
30K
3B30
2B27
100n
FB13
68R
3B05
100R
3B04
FB00
FB01
3B16 100R
2B18
100n
47n2B13RES
M29
P29
T27
3B11 68R
R29
R28T28
M28M27
N30N29
N27N28
M30
V28V27
V30V29
U29U28
U27U26
T30T29
R30
7400-11MT5392RHMJ
P28
4B01
RE
S
RES 33R3B24RES3B23 33R
FB11
FB12
FB10
FB09
FB04
FB06
RE
S4B
00
100n
2B28
2B43 220u6.3VRES
2B15 1u0
2B12 47n
AV3_L_IN
AIN1_RAIN1_L
AIN0_RAIN0_L
L_MON_OUTR_MON_OUT
DVI_AUR_INDVI_AUL_IN
AV3_R_IN
HP_ROUT
RC2RC1
HP_DET
SY0NSY0N Y0NSPB0PSPB0P
SOY0
PR0PSPR0PSPR0PPBR0NSPBR0NSPBR0N
HP_LOUT
AIN0_R-SC2
AIN0_L-SC2
AIN1_R
AIN1_L
AIN1_R-SC1
AIN1_L-SC1
PB0P
Y0PSY0P SY0P
AOUTRAOUTL
CVBS_AV3
AIN0_R
AIN0_L
HP_ROUTHP_LOUT
CVBS_RF
SOY0
VSYNC
Y0NY0P
GND_CVBS_RF
SIF_OUTSIF_OUT_GND
PB0PPBR0N
PR0P
RNRP
SOG
PBR1N
S0Y1
SY1N Y1N
BNBPGNGP
HSYNC
Y1P
PB1P
PR1P
SY1P
SPB1P
SPR1P
ASPDIF_OUT
SPBR1N
EN 64LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: Analog I/O - YPbPr & Cinch
18970_509_100322.eps100322
Analog I/O - YPbPr & CinchB07C B07C
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
2
E
F
G
H
I I
1C00 B51C01 C5
11 12
2C12 I32C13 I42C14 I4
8 9
A
B
C
1C08 E11
4 5
1C02 D5
1C04 E51C05 G2
1C03 E5
1C11-2 H11C11-3 G11C12 C121C13 C6
1C10 D111C11-1 I1
1C14 A111C15 C11
3 4 5 6 7
2C05 E42C06 E4
A
B
C
1
E
F
G
H
CVBS
(RED)
(WHITE)
2C15 E102C16 E10
10 11 12
1 2
3C00 A43C01 C4
6 7 8 10
1C06 H21C07 I2
1C09 E11
6C09 E106C10 E106C19 B10
2C00 B42C01 B42C02 C42C03 C4
D
3C12 A103C13 C10
2C07 G32C08 G42C09 H4
D
2C11 H3
RIGHT
2C17 D102C18 C102C19 C102C20 A10
3
5C02 E55C03 D10
3C02 D43C03 D43C04 E4
9
3C06 F4
6C04 E56C05 G2
6C07 I26C08 D10
6C20 C10FC00 I2
3C07 G33C08 G33C09 H33C10 H4
2C04 D4
FC06 E6FC07 D6
3C14 D103C15 D10
3C16 E10
2C10 H4
3C18 F10
AV1
(YELLOW)
AV3
3C19 I45C00 D5
2C21 A10
FC14 E11FC15 D11
5C04 E105C05 E106C00 B5
3C05 E4
6C02 D5
LEFT
AV2
6C03 E5
6C06 H2
IC05 H4IC06 H4
FC01 I2FC02 H2FC03 G2FC04 D5
3C11 I3
FC08 D6FC09 C6
3C17 E10
FC12 D11
IC00 D2IC01 A4IC02 C4
5C01 E5
FC13 D11
IC07 I4IC08 I4IC09 A9
6C01 C5
IC03 D4IC04 G4
IC14 E10IC15 E2
IC12 D9IC13 E9
5C03
IC16 I5
FC05 D6
FC10 C12FC11 D11
IC10 C9IC11 D9
60R
5C04
60R
75R
3C14
RE
S
PE
SD
5V0S
1BA
6C02
75R
3C08
1R0
3C09
60C1
70C1
FC05
1C02
2C17
15p
2C16
15p
FC10
60R
5C00
PE
SD
5V0S
1BA
RE
S
FC00
IC00
6C10
RE
SR
ES
6C06
PE
SD
5V0S
1BA
RE
S
PE
SD
5V0S
1BA
6C05
2C12
1n0
FC09
15p
2C15
5C05
60R
FC01
1n0
2C10
RE
S
1C14
30K
3C19
IC01
FC14
FC11
6C01
PE
SD
5V0S
1BA
RE
S
1C10
3C16
75R
75R
3C17
5C01
60R1C
01
2C20
1n0
RE
S
6C03
RE
S
PE
SD
5V0S
1BA
15p
2C08
RE
S
3C11
1R0
FC08
12
23
4
5
6
7
8
9
1C121
1011
2C02
1n0
RE
S
MSP-636H1-01
1C03
FC06
FC12
IC06
1n0
2C00
RE
S
3C02
75R
3C03
1R0
IC03
0001
1C00
3C15
1R0
1C05
75R
3C04
2C04
15p
3C07
1R0
RE
S
10u
2C14
2C13
1n0
RE
S
PE
SD
5V0S
1BA
6C00
2C03
1n0
RE
S
6C09
RE
S
IC12
PE
SD
5V0S
1BA
3C00
1R0
1C04
1n0
2C21
RE
S
MSP-305H-BBB-432-03 NI
WHITE1C11-2
3
4
FC03
2C18
1n0
RE
S
6C04
RE
S
RE
S
PE
SD
5V0S
1BA
1n0
70C2
11C2
47p
IC02
IC09
IC07
IC04
15p
2C05
FC04
1C09
1R0
3C18
IC15 5C02
60R
IC05
6C08
RE
S
PE
SD
5V0S
1BA
IC08
2C09
10u
IC14
IC13
PE
SD
5V0S
1BA
RE
S6C
19
1C15
1R0
3C13
3C12
1R0
IC11
IC10
PE
SD
5V0S
1BA
6C20
RE
S
1R0
FC13
3C06
3C01
1R0
FC02
RE
S
1C08
2
1n0
2C19
MSP-305H-BBB-432-03 NI
YELLOW1C11-3
1
MSP-305H-BBB-432-03 NI
RED1C11-1
5
6
6C07
RE
S
PE
SD
5V0S
1BA
IC16
FC15
3C05
75R
2C06
15p
FC07
2C01
1n0
RE
S
7
8
9
1
101112
23
4
5
6
1C13MSP-636V1-01
3C10
30K
AV3_R_IN
AV3_L_IN
CVBS_AV3
AIN1_R-SC1
AIN1_L-SC1
AIN0_R-SC2
AIN0_L-SC2
PB1P_SC2
SPBR1N
SC1_B
SY1N
SPB1P
PR1P_SC2
SPR1P
SY0N
SPB0P
SPBR0N
SY1P_SC2
SY1P
SC1_G
SC1_CVBS_OUT
SPR0P
SY0P
Circuit Diagrams and PWB Layouts EN 65LC9.3L LA 10.
2010-Mar-26
SSB: USB
18970_510_100322.eps100322
USBB07D B07D
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
USB
ADIN
DAC
CVBS_SPDIF_USBFS
VREFOUT1OUT2
VRTDP0DM0DP1DM1
Φ
ASPDIF_OUT
0123456
1
2IN
1
2
3
OUT
1D01 C36C 41D23C 20D1
2D15 B5
D
3D01 B4
3D02 B43D03 B43D04 B4
2 3
USB
3D05 A73D06 B7
4 5 6
6 7
7400-10 A6
7 8
8
FD00 C2FD01 C3
FD02 C35C 21D23C 00D12D13 A7
B
C
FD07 A7
0R
1D03 C24A 00D35A 01D2 ID04 C5
1
3D07 D5
3D08 D5
5421
3D11 A4 6D01 D46D02 D3 FD03 C3
FD04 C5
A
B
2D11 C4
5D 50DF5B 00D7FD06 B7
C
ID00 A7ID01 B7
D
A
ID02 D6
ID03 D6
0R
3D09 D53D10 D5
3
5D00 C46D00 C3
3D09
RE
S
15K
RE
S
15K
3D10
16V100u2D14
ID03
+3V3STBY
3456
3D11
6K8
1%
1D03
USB-01-PBT-B-30-CU2
12
NU
P13
01M
L3
6D02
AJ4
AK5
AK4
AK3
10u
2D11
AJ29AK29AJ28AK28
J28 AF22
AJ24AK24
AF21
AJ5
7400-10MT5392RHMJ
AH28AH27AK30
FD05
FD02
FD04ID04
2D12100n
BZ
X38
4-C
6V8
6D00
NU
P13
01M
L3
6D01
FD00
100R3D02
FD01
FD03
+5V_SW
1%5K
1
3D06
10n
2D15RES
RES
100n
2D13
3D05
560R
3D08
3D01 100R
GN
D
2
3
5OC_
6
7
8
7D00TPS2041BD
EN_4
1
ID02
ID00
FD07
1R03D04100R3D03
3D073D
00
+3V3_SW
10K
1D01
FD06
ID01
5D00
30R
2D10
100n
1D00
1D02
POWER-OK-AKEYBOARD
LIGHT-SENSOR
AFT
ASPDIF_OUT
USB_DP0
DP
USB_PWE
USB_OC
DM
5V
USB_DM0
EN 66LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: VGA
18970_511_100322.eps100322
VGAB07E B07E
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
SCLADR
012SDA
WC
A
B
C
D
E
F
A
B
C
E
1E00 B7
1E02 D71E03 E61E04 F61G16 D82E00 B32E01 C3
1 2 3 4 5 6 7 8 9 10 11
1 3 5 7 8 9 10 11 12
2E02 C32E03 C32E04 C32E05 D32E06 D32E07 B62E08 C62E09 D62E10 E62E11 E62E12 E52E13 F52E14 E92E15 E102E16 D11
D
3E01 C4
F
3E03 C4
1E01 C7
3E05 D43E06 D43E07 B53E08 C53E09 C53E10 C53E11 D53E12 D53E13 D63E14 D63E15 C63E16 B63E17 E63E18 F63E19 E93E20 E103E21 D9
12
3E23 D10
2
3E25 A8
64
4E00 D94E01 D94E02 D94E03 E94E04 D115E00 B65E01 C65E02 D65E03 D55E04 E55E05 F56E00 B76E01 C7
3E00 B4
6E03 E6
3E02 C4
6E05 D5
3E04 C4
7E00 D117E01 A9FE00 A8FE01 B8FE02 C8FE03 E8FE04 E8FE05 E8FE06 E8FE07 F8FE08 D10FE09 E10FE10 D10FE11 E5FE12 F5FE13 E11FE14 C12
3E22 D10
IE01 A9
3E24 D11
IE03 D9
3E26 A10
6E02 D7
6E04 F6
6E06 A11
IE00 A9
IE02 D5
IE04 E94E03
FE13
FE07
FE11
FE09
FE10
FE00
IE04
IE02IE03
IE01
10K
3E25
9
16 17
60R
5E01
12131415
2345678
MDS-15P-V-05-B-8.5-U4-ZN
1G161
1011
2E14
330p
DC_5V
3E21
10K
FE14
FE12
100n
2E16
5p6
2E09
123
6
5
8
4
7
M24C02-WMN67E00
EEPROM
Φ
(256 × 8)
1%6K2
3E24RES
5E03
60R
4E04
150R
3E13
1%6K
23E19
RE
SFE04
RE
S
RE
S
4E01
3E18
4E00
2K2
4E02
1E04
FE05
1R0
3E10
3E07
1R0
2E11
1n0
1R0
FE08
3E11
6E01
PE
SD
5V0S
1BA
RE
SR
ES
6E02
PE
SD
5V0S
1BA
3E08
1R0
3E04
100R
6E00
PE
SD
5V0S
1BA
RE
S
2E01
10n
DC_5V
BC847BW7E01
33R
3E23
3E26
10K
+5V_SW
1E00
60R
5E00
5E02
FE03
60R
2E06
10n 1R0
3E12
68R
3E05
330p
2E15
10n
2E05
3E22
75R
3E14
10K
4n7
2E03
6E06
BAS316
DC_5V
1E02
0001
6E05
BAS316
6K23E
20R
ES
2K2
1%
3E17
2E12
15p
1E03
5E05
30R
PE
SD
5V0S
1BA
RE
S6E
04
15p
2E02
10n
2E13
3E03
FE06
1R0 3E15
75R
5p6
2E07
2E08
5p6
FE01
FE02
IE00
5E04
30R
3E06
100R
10n 68R
2E00 3E00
75R
3E16
68R
3E02 3E09
1R0
10n
2E04
100R
3E01
100n
2E10
1E01
0001
PE
SD
5V0S
1BA
RE
S
EDID_SDA
VGA-SCL-EDID-TCON
VGA-SDA-EDID-TCON
6E03
EDID_WC
VGA_R
VGA_G
EDID_SCL
SCL_VGA
V_SYNCVSYNC
HSYNC
SDA_VGA
VGA_Gp
VGA_Rp
VGA_Gn
SOG
RP
RN VGA_Rn
GN
H_SYNC
BP
BN
VGA_BVGA_Bp
VGA_Bn
GP
Circuit Diagrams and PWB Layouts EN 67LC9.3L LA 10.
2010-Mar-26
SSB: Hospitality
18970_512_100322.eps100322
HospitalityB08 B08
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
5F00 A2 FF00 A2 FF02 B2FF03 B2 FF11 B5
FF12 A5
DMMC2
A
2B 10F56B 10F2 2B 10FF2B 10F3 3F03 C2FF04 B1
FF05 C1FF06 C1
FF07 C1
2
B
3 4 5 6
FF13 B5
C
1F01 A51F02 C12F00 B5 3F00 B2 3F02 C2
1 2 3 4 5 6 7
DMMC3DMMC1
FF08 C1FF09 C1FF10 C1
1 7
A
B
C
1F00 A1
6 7
502382-0570
1F0012345
RES
3F01100R
RES 100R
+12VS
RES 3F00FF00
RES 30R5F01
FF07
+5V_SW
+3V3STBYFF13
FF12
FF10
FF06
FF11
RE
S2F
01
1n0
34 5
FF05
1F01
502382-0370
12
RES
1n0
2F00
22R3F03
RE
S
3F02RESRES 22R
RES 5F00 30R
89 10
1234567
FF02
RES1F02
502382-0870
FF01
FF09FF08
FF04
SDA-MAINSCL-MAIN
RC1RC2
FF03
AOUTL
AOUTR
PBS_SPI_DIPBS_SPI_CLK
SDA_CLOCKSCL_CLOCK
SDA-DISPSCL-DISP
EN 68LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: Ambilight CPLD
18970_513_100322.eps100322
Ambilight CPLDB13 B13
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
TMSTDOTDITCK
GND
VCCINT VCCIO
G3
12
3EN23EN1
C
D
E
F
G
HH
A
B
1H35 F21HA0 E111M59 F111M72 E11
5 6 7
11 12 13 14
1 2 3 4
3H10-3 D53H10-4 D53H11-1 D5
*
14
A
B
C
D
E
F
G
3HA2-4 F23HE0-1 C133HE0-2 C11
1X07 F132H10 E22H11 E2
1 2 3 4 5 6 7 8 9 10
2HA5 B22HA6 G122HA7 G92HA8 G102HA9 H112HE0 B103H10-1 D53H10-2 D5
5HA1 B27HA0 C47HE0 B11
BUFFER
AMBILIGHT CONNECTOR
8 9 10 11 12 13
3H14 D23H15 E23H70 G103HA0 C33HA1 D53HA2-1 F23HA2-2 F23HA2-3 F2
9HE0-1 D109HE0-2 C109HE0-3 C10
2H12 E22H13 E62H14 E62H15 E72H16 E72H17 E72H18 E72H19 E72H70 G102HA0 B22HA1 B22HA2 B32HA3 B22HA4 F2
3HE1-1 C123HE1-2 C133HE1-3 C133HE1-4 C123HE2 B113HE3 C123HE4 C125HA0 A2
FH77 G11FH78 G11FH79 G11
***
3H11-2 D53H11-3 D33H11-4 D33H12 D63H13 D6
7HE1 B129HA0 C69HA1 C5
FHA4 E4FHA5 E4FHA6 E4
DEBUG ONLY
AMBILIGHT CPLD
3HE0-3 C133HE0-4 B11
9HE3 D10FH70 F11FH71 F11FH72 F11FH73 F11FH74 G11FH75 G11FH76 G11
IHA7 D4IHE0 B11IHE1 D10
*
FH80 G11FH81 G11FH82 H11FHA0 A3FHA1 B3FHA2 F2FHA3 E4
DIRECT
9HE0-4 D109HE1 D109HE2 D10
IHA0 C6IHA1 D4IHA2 D4IHA3 C4IHA4 C4IHA5 D4IHA6 D4
*
* FOR TV550 ONLY * FOR TV550 ONLY
ROUND SCREW HOLE 4mm
SPI BUFFER
100n
2HA
4R
ES
VIOFHA1
FH74
22n
2HA
6
1HA0
1.5A 63VT
2410
15 35 26
20
IXO4_2121
IXO4_2222
IXO4_2323
IXO4_2727
IXO4_2828
119
14
IXO3_16 16
IXO3_1818
IXO3_55
IXO3_66
IXO3_77
IXO3_88
IXO4_1919
IXO4_20
IXO2_33|GSR33
IXO2_34|GTS234
IXO2_36|GTS136
IXO2_3737
IXO2_3838
IXO3_12 12
IXO3_1313
IXO3_14
41
IXO1_4242
IXO1_43|GCK143
IXO1_44|GCK244
IXO2_2929
IXO2_3030
IXO2_3131
IXO2_3232
4 17 25
IXO1_1|GCK31
IXO1_22
IXO1_33
IXO1_3939
IXO1_4040
IXO1_41
XC9572XL-10VQG44C7HA0
Φ
1 87 2
3H11-1 100R
3H10-3 3 6
100R3H11-2
7100R
3H10-2 100R2
10p
2H14
FH76
+3V3
RE
S
5
FH75
3HE0-4 47R4
10K
3H15
+3V3
7
VIO
100R3HA2-2 2
RE
S2H
19
10p
RE
S
10p
2H18
RES 4 5 47R3HE1-4
47R3HE1-2 2 7
V-AMBI
100R3HA2-4 4 53 6
FH78
3HA2-3 100R
IHA5
2HA9 22n
+24V
10p
2H10
3H14
RE
S
3H12 10R
100R
1 83HA2-1 100R
3456789
26 27
1819
2
202122232425
1
1011121314151617
IHA1
FH12-25S-0.5SH(55)
1M59
IHA7
FH80
FHA0
+3V3
9HE0-11 8
69HE0-22 79HE0-33
RE
S2H
15
10p
RE
S
FHA3
2HA
8
470p
470p
2HA
7R
ES
9HE3
+3V3
9HA1
FH70
FH72FH71
IHE1
FH73
FH82
1234
VINT
2HA
2
2041145-4
1M72
100n
RE
S
10p
2H12
RE
S2H
11
10p
100n
2HE
0
9HA0
4 5
FH79
3H10-4 100R
+3V3
1
10
19
20
FH81
89
18
17161514131211
2
34567
7HE074LVC245A
3456
7 8
1H35
BM06B-SRSS-TBT
12
+24V
2H17
10p
RE
S10
p
2H16
RE
S
VINT
FH77
3HE4 47R
FHA5
RES
3HA1 47R
IHE0
4 5
PDTC114EU7HE1
100R3H11-41 8
+3V3
100R3H10-1
47R3HE1-3 3 6
100n
2HA
5
3HA0 47R
2H13
10p
RE
S
IHA4IHA3
100n
2HA
1
FHA4
3HE0-2 47R2 7
10K
V-AMBI
3HE
2
EMC HOLE1X07
RES3HE3 47R
100n
2H70
3H70 100R
FHA2
3HE0-3 47R3 6
FHA6
1 83HE0-1 47R
8
IHA2
IHA0
47R3HE1-1RES 1
3 6
IHA6
3H11-3 100R3H13 100R
9HE2
5HA1
30R
9HE1
30R
2HA
05HA0
1u0
9HE0-44 5
1u0
2HA
3
AMBI-LATCH2_DIS
AMBI-PROG_B1AMBI-BLANK_R1
AMBI-SPI-CS-EXTLAMPSn
AMBI-SPI-SDO-OUT
AMBI-SPI-SDO-OUT-R
BACKLIGHT-PWM_BL-VS
AMBI-SPI-SDI-OUT_G1-RAMBI-SPI-CLK-OUT-R
AMBI-TEMP
AMBI-SPI-CS-OUTn_R2
AMBI-SPI-SDI-OUT_G1
AMBI-SPI-CLK-OUTAMBI-SPI-SDI-OUT_G1
AMBI-SPI-CS-OUTn_R2AMBI-LATCH1_G2
AMBI-BLANK_R1
AMBI-SPI-SDO-OUT-R
AMBI-SPI-CS-OUTn_R2-RAMBI-PWM-CLK_B2
PNX-SPI-SDI
PNX-SPI-SDO
AMBI-PROG_B1
BL-SPI-SDO
BL-SPI-CLK
AMBI-SPI-CLK-OUT-R
PNX-SPI-CLK BL-SPI-CLK
BL-SPI-SDO
BL-SPI-SDI PNX-SPI-SDI
PNX-SPI-CS-BLn BL-SPI-CSn
PNX-SPI-CS-AMBIn AMBI-SPI-CS-OUTn_R2-R
BACKLIGHT-PWM
BACKLIGHT-PWMBACKLIGHT-PWM_BL-VS
PNX-SPI-CLK
PNX-SPI-SDO
AMBI-SPI-SDI-OUT_G1-R
BL-SPI-SDI
PNX-SPI-CSBn
GSRGTS2GTS1
CPLED3CPLED2
BL-SPI-SDOBL-SPI-SDI
BL-SPI-CSn
BL-SPI-CLK
PNX-SPI-CSBn
CPLED1
PXCLK54
GCK3
PNX-SPI-CS-AMBInPNX-SPI-CS-BLnPNX-SPI-SDOPNX-SPI-SDIPNX-SPI-CLK
GCK2
AMBI-SPI-CLK-OUT
AMBI-LATCH2_DISAMBI-SPI-CS-EXTLAMPSnAMBI-TEMP
AMBI-SPI-SDO-OUT
AMBI-PWM-CLK_B2
AMBI-LATCH1_G2
Circuit Diagrams and PWB Layouts EN 69LC9.3L LA 10.
2010-Mar-26
SSB: TCON Control
18970_514_100322.eps100322
TCON ControlB14A B14A
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
MINI_AGND12
SSCG_AGND
GND
LVDS_AGND
GND
GND
GND
GND
GND
GND
GND
GND
GND
DGND
DGND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
MINI_AGND34
789
101112
VSV8
DATACLKLATCH
IN
OUT
GAM_LUTOS_LUT
SCLSDA
SDISDOSCSSCK
SDISDOSCSSCK
VPOL
READY
SSCLK
H_TOTAL
EXCLK
DBG
SLAVE
BIT
OUT
DAC
CS
GCK
RL
GCE
12
GPS
RL
LS
GSLOP
RL
321
G_LBR_INVG_LBR
FS
REV
456
MILVC_N3MILVC_P4MILVC_N4MILVC_P5MILVC_N5MILVC_P6MILVC_N6MILVC_P7MILVC_N7
MILVCLKC_PMILVCLKC_N
MILVD_P0MILVD_N0MILVD_P1MILVD_N1MILVD_P2MILVD_N2MILVD_P3MILVD_N3MILVD_P4MILVD_N4MILVD_P5MILVD_N5MILVD_P6MILVD_N6MILVD_P7MILVD_N7
MILVCLKD_PMILVCLKD_N
MILVA_N5MILVA_P6MILVA_N6MILVA_P7MILVA_N7
MILVCLKA_PMILVCLKA_N
MILVB_P0MILVB_N0MILVB_P1MILVB_N1MILVB_P2MILVB_N2MILVB_P3MILVB_N3MILVB_P4MILVB_N4MILVB_P5MILVB_N5MILVB_P6MILVB_N6MILVB_P7MILVB_N7
MILVCLKB_PMILVCLKB_N
MILVC_P0MILVC_N0MILVC_P1MILVC_N1MILVC_P2MILVC_N2MILVC_P3
MILVA_P0MILVA_N0MILVA_P1MILVA_N1MILVA_P2MILVA_N2MILVA_P3MILVA_N3MILVA_P4MILVA_N4MILVA_P5
RC4_PRC4_NRD4_PRD4_NRE4_PRE4_NRCLK4_PRCLK4_N
TENDMATMC1TMC2
TRSTTEST_L_0TEST_L_1TEST_L_2TEST_C
SS_OUTROM_ACCRESETSELLVDS
HSCANVSCAN
TEMP_0TEMP_1TEMP_2
MODE_0MODE_1MODE_2
RE1_PRE1_NRCLK1_PRCLK1_N
RA2_PRA2_NRB2_PRB2_NRC2_PRC2_NRD2_PRD2_NRE2_PRE2_NRCLK2_PRCLK2_N
RA3_PRA3_NRB3_PRB3_NRC3_PRC3_NRD3_PRD3_NRE3_PRE3_NRCLK3_PRCLK3_N
RA4_PRA4_NRB4_PRB4_N
RA1_PRA1_NRB1_PRB1_NRC1_PRC1_NRD1_PRD1_N
GND VIAGND_HS
SWCOMP
EN
VIN
SS FB
BS
MINI_AVDD34
MINI_AVDD12
VDD12
SSCG_AVDD
DVCC
DVCC
VDD12
LVDS_AVDD
DVCC
VDD12
VDD12
VDD12
VDD12
VDDQ
VDDQ
VDD33
VDD33
VDD33
VDDQ
VDDQ
FKCE G7FKCF G7FKCG G7FKCH G7FKCJ H7FKCK H7FKCL E6FKCM E6FKCN E6
FKBW F7FKBY G7
FKBL F7FKBM F7FKBN F7FKBP F7FKBQ F7FKBR F7FKBT F7FKBU F7FKBV F7
FKAL C7FKAM C7FKAN C7FKAP C7FKAQ C7FKAR C7FKAT D7FKAU D7FKAV D7
FKBZ G7FKCA G7FKCB G7FKCC G7FKCD G7
FKBC E7FKBD E7FKBE E7FKBF E7FKBG E7FKBH E7FKBJ E7FKBK F7
3KBW J53KBY I33KBZ E83KCA E23KCB G25KAA A35KAB B35KAC B35KAD C35KAE A65KAF B65KAG I45KAH B55KAJ C55KAK C57KAA-1 E57KAA-2 C11
FKAA A3FKAB B3FKAC B3FKAD C3FKAE A7FKAF B7FKAH J9FKAJ J9FKAK C7
3KBB G83KBC G83KBD G83KBE G83KBF G83KBG G93KBH H103KBJ-1 J93KBJ-2 J10
FKAW D7FKAY D7FKAZ D7FKBA D7FKBB E7
3KBL E123KBM E123KBN F123KBP G123KBQ G123KBR H123KBT I123KBU I23KBV I5
3KAE F33KAF E53KAG C83KAH C83KAJ C83KAK C83KAL C83KAM C93KAN D8
7KAA-3 A167KAA-4 E167KAB I87KAC I39KAA H10
3KAQ D83KAR D83KAT D83KAU D93KAV E83KAW E83KAY E83KAZ E83KBA E9
2KCK I52KCL I32KCM B122KCN A82KCP A92KCQ A92KCR A102KCT A142KCV A14
3KBJ-3 J103KBJ-4 J10
3KBK D12
2KCZ B132KDA B132KDB B132KDC F22KDD F23KAA E33KAB E33KAC E33KAD E3
2KBQ B112KBR B112KBT B112KBU B122KBV B122KBW B122KBY A122KBZ A122KCA A13
3KAP D8
2KCB A132KCC A132KCD A132KCE I82KCF I32KCG I52KCH J32KCJ I4
2KAR B72KAT A72KAU A82KAV A82KAW A82KAY A82KAZ A92KBA A92KBB A10
2KCW B122KCY B13
2KBF A112KBG A112KBH A112KBJ A112KBK B102KBL B102KBM B102KBN B112KBP B11
J
K
A
B
C
D
E
F
2KAP A72KAQ B7
6 7 8 9 10 11 12 13 14
2KBC A102KBD A102KBE A11
A
B
C
D
E
F
G
H
I
1 2 3 4 5 6 7 8 14 15 16 17
1 2 3 4 5
NC
G
H
I
J
K
15 16 17
2KAB A22KAC A32KAD A32KAE B32KAF B32KAG C32KAH C32KAJ C32KAK C32KAL A62KAM A62KAN A7
FKCP E6FKCQ F6FKCR F6FKCT F6FKCU F6FKCV F6FKCW F6FKCY F6FKCZ F6FKDA F7FKDB B2FKDC C7FKDD I5FKDE D7cKAA J4
9 10 11 12 131KAA E22KAA A2
6.3V
47u2K
CG
VDD12
3KBM
FKDD
100R
3KBN100R
1n0
2KA
R
2KA
G
10u
VDD33
VCC_1V2
5KAF
30R
3KB
D10
0R
H9
RES3KAF
2K2
R9R13R14R15
E14E13E10E9
V9
V13
H18E18E15E12
AB8
E11E8J8K8P8R8
V5V8
V15
AB1
V18T18R18N18M18J18
D18D15D12
AA1
D11D8D5E5H5J5T5
W14W15W18
Y1
W19V19
T19R19N19M19D19
R4T4
W1
V4W4W5W8W9W10W13
W20M20
D1
C17C12C11C6D4H4J4M4
M21G21
C1
F21E21B17B12B11B6Y8Y15
B22
B1
A22A17A12A11A6AA8AA15W21
L11M11M12L12
AA22Y22W22M22G22D22C22
P13P14J13L10
AB22
M10N10N11N12K13
K14J14
A1
AB15
P15H15H14
J9K9P9
K4N4K5N5
K15J15H13
7KAA-4UPD809900F1-S11-KNB-A
GNDFKCRFKCQ
2KB
R
1u0
1u0
2KB
P
2KB
A
100n
3KB
B10
0R
3KBT100R
2KA
D
VDDQ
1n0
FKDC
FKDB
FKCJ
100n
2KA
U
SSCG_AVDD
FKAE
FKAD
30R
5KAA
2KA
Z
10n
VDDQ
2KB
N
100n
100n
2KB
L
3KA
P10
0R
100R
3KA
G
2KB
K
1u0
H20
H21H19
E20E19
E1
H3
R3R2
V2V3
J2
J3J1
P2
V1
J22
J21J20
F22
E22
U1
U2U3
T2T3
T1R1
P3
N3M1M2M3L1L2L3
H1G1
H2
G20F20
G19F19
N1
K1K2K3
N2
CONTROL
7KAA-1UPD809900F1-S11-KNB-A
FKBB
60R
5KAC
1n0
2KA
H
FKAZ
FKCN
VDD12
2KB
T
100n
100n
2KB
Q
FKBV
FKBT
FKAT
FKAV
2KB
C
100n
FKAA
LVDS_AVDD
2KCJ
10n
1n0
2KA
K
3KB
A10
0R
FKCF
cKAA
SGND2
2KB
B
10n
VDD33
FKBY
FKCA
10u
2KA
L
3KB
Y
100K
3KBR100R
10u
2KA
C
10u
2KA
A
FKAP
100n
2KB
E
FKCL
3KA
U10
0R
3KA
T10
0R
10u
2KA
N
F4
G2
L22
FKCC
F2
K21K20K19
G4
F1
E2E3E4
F3
A18B18
A13B13
A7B7
A2B2
P1H22
J19
B3A3
C19C18
C14C13
C8C7
C3C2
B15
A9B9
A4B4
B19A19
B14A14
B8A8
C21C20
C16C15
C10C9
C5C4
A20B20
A15
L20L19
B21A21
B16A16
B10A10
B5A5
P20
N22
V22
U20
U21
T22
R20
P22
N20
N21
L21
Y19
AB20
Y21
AA21
V21
V20
U22
T21
T20
P21
Y16
AB17
AA18
Y18
AA20
Y20
AB21
AB16
Y17
AA17
AB18
AA14
AB5AA5
AB12AA12
AB19AA19
R22R21
AA16
Y11
AA13
Y13
AB14
AB9
Y10
AA10
AB11
Y12
AB13
Y14
Y3
AA3
AB4
Y5
AB6
Y7
AA7
AA9
Y9
AB10
AA11
K22
AA2
Y2
AB3
AA4
Y4
AA6
Y6
AB7
AB2
7KAA-2UPD809900F1-S11-KNB-A
INTERFACE
G3
8
SGND2
FKAB
3KB
J-1
10K
1
3KA
Z10
0R
FKCE
FKCG
FKCD
3KA
M10
0R
FKCV
FKCU
2K2
3KB
HR
ES
FKAU
FKAW
3KA
N10
0R
3n3
2KC
H
FKBZ
10K3KAD
10K
3KAE
3KA
V
3KB
C
100R
100R
VDD33
FKAN
100R3KBK
+VDISP
6
7
5
4 9
8
3
10 11
2MP2301ENE-LF7KAC
Φ 1
FKCB
100n
2KB
J
2KB
G
100n
10n
2KB
H
2KA
Q
10u
VDD12
VDD33
2KC
D
100n
2KC
C
10n
2KB
F
10n
FKAK
FKCK
VDD33
FKDE
VDD12
FKAM
FKDA
mini_AVDD
1n0
2KA
F
1n0
2KA
M
FKCT
FKAQ
FKCW
FKAR
2KB
U
1u0
10K3KAC
FKBJ
3KB
Z10
0R
3KA
W10
0R
10K
3KB
J-4
45
60R
5KAB
100n
2KC
B30R
5KAE
3KA
K10
0R
10u
2KA
J
100R
RE
S
VDD12
3KC
B
2KA
B
VCC_3V3
1n0
1K0
3KAB
3KBQ100R
10n
2KB
D
2KD
D
100n
RE
SR
ES
100n
2KD
C
100R
3KC
A
5KAK
RE
S
60R
5KAJ
60R
mini_AVDD
60R
5KAH
FKBW
FKBU
5KAD
60R
3KA
Y10
0R
SSCG_AVDD
LVDS_AVDD
FKBE
mini_AVDD
FKBD
2KC
T
2KC
V
100n
VDD33
100n
100n
2KD
A10
0n
2KC
Z
100n
2KC
W
2KC
Y
100n
100n
2KC
R
100n
2KC
P
2KC
Q
100n
VCC_3V3
10u
2KA
E
A16
A25
GN
D4
OS3
SCL2
SDA1
7KABLM75BDP
+V
S8
A07
LVDS_AVDD
4u7
2KC
F
36
13
10K
3KB
J-3
24M
1KA
A
2
FKCH
2KB
M
1u0
FKBF
4n7
2KCL
3KB
E10
0R
100R3KBP
2KD
B
100n
1u0
2KB
W
10n
2KC
A
2KA
P
1n0
100R
3KB
F
100n
2KC
M
2KB
V
100n
FKBN
FKAF
3KB
V
7K5
SSCG_AVDD
FKCZ
FKAH
FKCY
FKAJ
3KA
H10
0R
SGND2
3KB
G10
0R
3KBU
1K8 0.5%
100R
3KA
Q
3KA
R
FKBQ
100R
FKBR
FKBHFKBG
SGND2
3KB
W
15K
9KAA
D21D3W3D20W7W11W12
D16D7V7V11V12V16U18
W2
P18E16E7
W17D17D6F5G5V6V17
D2
W16U19P19
H10
U4
K18G18F18E17E6L18U5
W6
N13M13L13K12K11
N8R10R11R12N15H11
M9N9
P10P11P12N14J12J11J10
M8
K10
L14
D14D13D10D9
V10
V14
H8
L8
L9
L4
P5L5
P4M5R5
M15L15H12M14
7KAA-3UPD809900F1-S11-KNB-A
POWER
3KBL100R
2KCE
100n
3KA
L10
0R
FKCM
3KA
J
VDDQ
100R
FKBP
2KB
Y
10n
10n
2KA
T
2KA
V
10n
10n
2KC
N
73K
BJ-
210
K2
FKBM
2KC
KR
ES
FKBK
22u
5KAG
4u5
FKBC
FKBA
FKAL
FKAY
VCC_3V3
FKBL
100n
2KA
Y
2KA
W
100n
FKAC
VCC_1V2
FKCP
1M0
3KA
A
LVDS_AGND
MINI_AGND
2KB
Z
100n
LVDS_AGND
MINI_AGND
SSCG_AGND
LVDS_AGND
MINI_AGND
SSCG_AGND
SDI
SSCG_AGND
GCK_RGCK_L
R_LU_D
BIT_SDO
CS12CS11CS10
CS9CS8CS7CS6CS5CS4CS3CS2CS1
GSLOP
G_LBR_INVG_LBR
GSP2GSP1
GOE_RGOE_L
MODE2
SCKSCSSDOSDI
BIT_SCK
BIT_SDI
SDA-TCONSCL-TCON
BIT_SCS PX3C+PX3C-PX3D+PX3D-PX3E+PX3E-
OS_ON-OFF100Hz_120Hz
PX4A-PX4A+
PX3CLK-PX3CLK+
PX3A+PX3A-PX3B+PX3B-
PX4D-PX4D+PX4C-PX4C+PX4B-PX4B+
PX1A+PX1A-
PX4CLK-PX4CLK+PX4E-PX4E+
PX1E-PX1E+PX1D-PX1D+PX1C-PX1C+PX1B-PX1B+
PX2D-PX2D+PX2C-PX2C+PX2B-PX2B+PX2A-PX2A+
SELLVDSRESETEN
PX1CLK-PX1CLK+
PX2CLK-PX2CLK+PX2E-PX2E+
R_LVB4-R_LVB5+R_LVB5-
R_LVCKB+R_LVCKB-
R_LVB0-R_LVB1+R_LVB1-R_LVB2+R_LVB2-
R_LVB3+R_LVB3-R_LVB4+
R_LVA3-R_LVA4+R_LVA4-R_LVA5+R_LVA5-
R_LVCKA+R_LVCKA-
R_LVB0+
L_LVCKB-
R_LVA0+R_LVA0-R_LVA1+R_LVA1-R_LVA2+R_LVA2-
R_LVA3+
L_LVB2-
L_LVB3+L_LVB3-L_LVB4+L_LVB4-L_LVB5+L_LVB5-
L_LVCKB+
L_LVA5-
L_LVCKA+L_LVCKA-
L_LVB0+L_LVB0-L_LVB1+L_LVB1-L_LVB2+
L_LVA1-L_LVA2+L_LVA2-
L_LVA3+L_LVA3-L_LVA4+L_LVA4-L_LVA5+
FS
LS_LLS_R
L_LVA0+
REV
L_LVA0-L_LVA1+
LVDS_AGND
EN 70LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: TCON DC/DC
18970_515_100322.eps100322
TCON DC/DCB14B B14B
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
DRNCOM
VREFFBN
NOUT
CB12
FBL
LDO-CTLLDO-FB
TEMP
FBP
C1
PN C2
LX
LXL
PGND
PVINSUPP
SU
PN
AG
ND
GN
D_H
S
COMP
HVS
ENPROT
PN
CTLCDEL
VL
CM2
12
FBB
RSET
POUT
VIA VIA
VIA
VIA
FKFK E16cKFA F8
9KFB-3 A109KFB-4 B109KFC-1 A12
9KFE-2 I139KFE-3 I139KFE-4 I139KFF L5FKFA J14FKFB E15FKFC B4
5KFB B25KFC B25KFD E14
FKFD B14FKFE C5FKFG H5
DISPLAY INTERFACING - VDISP
FKFH I5FKFJ L5
7KFB J137KFC J137KFD B127KFE B107KFF F99KFB-1 A109KFB-2 A10
3KFQ F163KFR B43KFT J13
9KFC-2 A129KFC-3 A129KFC-4 B129KFD F79KFE-1 I13
3KGB K53KGC L53KGD F73KGE D73KGF E63KGG I125KFA B10
2KHP B72KHQ B72KHR B7
6KFA B116KFB F146KFC E166KFD J136KFE B46KFF I67KFA-1 D87KFA-2 G8
3KFH D123KFJ E113KFK E93KFL E93KFM F143KFN F143KFP E15
2KGK C82KGL C92KGM E13
3KFU J143KFV J133KFW I123KFY I93KFZ I93KGA K6
2KGW E152KGY B22KGZ B32KHG B112KHH L52KHK B132KHN B6
G
H
I
2KHW J123KFA B93KFB C93KFC C113KFD C113KFE B123KFF C123KFG D10
2KGC F82KGD E72KGE E72KGF E72KGG E72KGH E72KGJ D7
8 9 10
2KGN F142KGP F142KGQ F152KGR F152KGT F162KGU F152KGV F9
17
A
B
C
D
E
F
2KFG B122KFH B132KFK B132KFL B13
2KHT B72KHU B8
2KFR E112KFT E112KFU F102KFV F102KFW F102KFZ J122KGA I102KGB I10
1 2 3 4 5 6 7
FOR DEBUG ONLY
11 12 13 14 15 16
D
E
F
G
H
I
J
K
L
1KFA B31KFB B32KFA B9
1 2 3 4 5
2KFM C122KFN C122KFP E102KFQ E11
2KFB B92KFC B92KFD B102KFE B11
6 7 8 9 10 11 12 13 14 15 16 17
J
K
L
A
B
C
75K
3KGA
10u
RE
S2K
HT
RE
S
+VD
ISP
2KH
N
100n
2KFM
1n0
750K
3KFZ
PM
EG
1030
EJ
6KFD
2KH
U
47u
16V
RE
S
9KFE-33 6
VGH_35V
RE
S
0.5%
13K
3KG
D
10u
2KH
KR
ES
2KGG 100n
36
38 1
28
12
31
9
10
3435
34
13
32 33 5 6 14
21
23
26
29
8
11
20
41
27
4039
37
1615
1817
225
7
22
30
24
7KFA-1ISL97653AIRZ
Φ
20K
3KFM
2KFU
2u2
VCC_3V3
RE
S
RE
S2K
GU
22u
16V
240K3KFP
3KFB
RES 4 5
10K
3KFW
RE
S
9KFB-4
2K2
2K2
3KFQ
3KFR
FKFE
2K2
6KFE
LTST-C190KGKT
FKFC
FKFB
2KH
G
10u
2KFQ 220n
RE
S
3
5
42
39K
3KFE
RB550EA6KFC
1
RE
S
RES
2KH
P
10u
VCC_1V2
3KFH
2K2
RES
T 32V3.0A
1KFB
30R
RES 5KFC
VLS_15V6
SGND1
RE
S
3K6
3KFV
3KFU
10K
FKFK
VGH_35V
2KFZ
100n
RE
S
2KGD 220n
3 6
SGND1
VLS
_15V
6_B
RES 2 79KFB-3RES9KFB-2
RE
S2K
HH
100n
3
2KG
C
2u2
KTA1718D7KFF
12
SGND1
VLS_15V6_B
RES
2KGE 4u7
2KG
T 22u
16V
SS34
6KFA
2K23KFK
SGND1
RES
RES 2KFP 100n
SGND1
SGND1
RE
S2K
FL
2u2
2KG
Q
22u
VCC_3V3
VGL_-6V
RE
S
100K
3KFF
16K
3KG
C
2 7
9KFD
9KFE-2
cKFA
5KFD
4u5
2 7
100p
9KFC-2
27K
3KFY
2KGW
SGND1
SGND110K
3KGE
2KFW
22u
16V
2u2
2KFV
RE
S
RE
S RE
S2K
GP
1n0
RE
S
3KG
B
75K
4 5
2KFK
10u
9KFE-4
VCC_3V3
+VDISP
2KG
R
2u2
5
42
RE
S
RB550EA6KFF
1
3
1 8
FKFJ
9KFE-1
0.5%
13K
RES
3KG
GR
ES
+VDISP
3KFL 2K2
RE
S
1n0
2KFN
39K
3KFC
6KFB
SS
24
4
123
2KFE
10u
5678
30R
7KFEFDS9435A
8
+VDISP-INTRES 5KFB
9KFB-1RES 1
2KFR 820p
VLS_15V6
+VDISP
2N70027KFC
3
1
2
RES
RE
S
10u
2KH
R
10u
2KH
QR
ES
2KFB
10u
RE
S
2KFA
2u2
1n0
2KG
N
2KFH
47u
25V
2KH
W
4u7
9KFC-11 8
VLS_15V6
2KG
L
4u7
RE
S2K
FG
10n
RE
S3K
FT
0.5%
13K
2KGJ
4n7
3KGF
2K2
RES
6u8
5KFA
2KGF 4n7
SGND1
SGND1
2KGM
1u0
12K
3KFN
47 48 49
50
SGND1
515253
54555657
434445
46
ISL97653AIRZ7KFA-2
VIA42
2KG
Z
100n
2KFT 220n
FKFD
FKFG
FKFH
678
4
123
5
RES 7KFDFDS9435A
5
2 3
9KFC-44
RES2SB17677KFB
1
2KGH 100n
2KG
V
10n
2KG
Y
22u
SGND1
RE
S
3K3
3KFD
RE
S2K
GA
100n
2K2
3KFA
RE
S10
0n
2KFC
1KFA
T 32V3.0A
RES
2K2
3KFG
39K3KFJ
VG
L_-6
V
SGND1
2KG
K
2u2
3 6
2KG
B
100p
9KFC-3
9KFF
FKFA
2KFD
2u2
VGL_FB
VGH_FB
VLS_FB
GSLOP
RESET
GSLOP
Circuit Diagrams and PWB Layouts EN 71LC9.3L LA 10.
2010-Mar-26
SSB: P Gamma & VCOM & Flash
18970_516_100322.eps100322
P Gamma & Vcom & FlashB14C B14C
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
SI
SO
CS
HOLD
WP
SCK
INPCOM|DVR_OUT
REFIN_INN
REFIN
SET
SCLSDA
SET_COMP
V_THERM
BANKSEL
GND_HS
VIA
GND
OUT10
OUT11
OUT12
OUTCOM
INNCOM
AVDDOUT1
OUT2
OUT3
OUT4
OUT5
INN5
OUT6
INN6
OUT7
INN7
OUT8
INN8
OUT9
VSD
-BUSCTRLFIL
I 2 CINP
FKYE F10FKYF F10FKYG E12FKYH D12cKQB F5
NC
DEBUG ONLY
*
*
*
* 32 INCH
FKQP J9FKQQ F4FKQR D3FKQT D3FKQU F14
40/46/52 INCH3KQA3KQC3KQE 3K9
FKMF C10FKMG D10
100K6K210K
39K2K7
FKQB E14FKQC F14FKQD F14FKQE F14FKQF G13
NC
VCOM BUFFER
I2C SWITCH (VGA VCOM)
ASIC OPTIONS
FKQM C15
9KQH G129KQJ G129KQK H12FKLY G2FKLZ C10
FKQW D3FKYA E10FKYB E10FKYC E10FKYD E10
3KYJ G143KYK C13
FKMH D10FKMJ D10FKMK E10FKML E10FKQA E14
7KQA B47KQB J87KQC H47KQD G47KQH D13
FKQG B15FKQH B15FKQJ B15FKQK B15FKQL B15
3KTN K93KTP D33KTQ E3
9KQF F99KQG-1 F49KQG-2 F49KQG-3 F49KQG-4 F4
3KTY C123KTZ C123KYA B123KYB B133KYC B13
FKMA C10FKMB C10FKMC C10FKMD C10FKME C10
3KRH G53KRJ G43KRK G43KRL-1 E83KRL-2 E8
3KYM G23KYN H23KYP G63KYQ G66KQA H6
3KRM-4 G73KTD I63KTE I73KTF I93KTG K9
9KQA C99KQB C99KQC D99KQD E99KQE E9
NC
3KQG B53KQH-1 C83KQH-2 C8
3KTR G83KTT K103KTU B113KTV B113KTW B12
3KQM C93KQN C93KQP C93KQQ C93KQR D9
3KYD B143KYE C133KYF C143KYG C143KYH G14
3KRA E93KRB E93KRC E93KRD F93KRE F93KRF F93KRG G4
2KQT G72KQU G82KQW G82KQY G42KQZ G3
3KRL-3 E73KRL-4 E73KRM-1 G83KRM-2 G83KRM-3 G7
2KRM C132KRN C142KRQ D132KRT G53KQA B2
3KTH K73KTJ K73KTK I93KTL I103KTM K9
11 12 13 14 15
3KQH-3 C73KQH-4 C73KQJ C93KQK C93KQL C9
D
E
F
G
H
3KQT D93KQU D93KQW E93KQY E93KQZ E9
2KQJ D82KQK D82KQM E72KQN E72KQP E82KQQ E82KQR G7
2 3 4 5 6
2KRA G42KRB G52KRH I82KRJ C122KRL C13
12 13 14 15
3KQB B33KQC B23KQD C33KQE C23KQF D3
NC
5 6 7 8 9 10
B
C
D
E
A
B
C
K
1KQA E151KQB G152HRK C12
I
J
K
A
2KQF B52KQG D72KQH D7
1 7 8 9 10 11
NC
F
1 2 3 4
3KQ
H-1
10R
18
G
H
I
J
2KQA B22KQB B22KQC B32KQD B42KQE B4
2KQ
K
100n
1u0
FKQE
2KQ
A
3KT
D
2K2
2K2
3KQ
UR
ES
2KQ
B
1u0
FKQG
FKQM
FKQH
2K2
3KT
U
VCC_3V3
2K0
3KY
G
100n
2KQ
G
2KQ
H
100n
100R3KQZRES
RES 100R3KQY
100R
2HR
K
RES 3KQT
FKQK
RE
S
1n0
3KY
F
2K2
FKQJ
2K0
3KY
DR
ES
RE
S
2K2
CY
K3E
YK3
2K0
VREF_15V2
RE
S3K
YQ
10K
10K
3KY
PR
ES
RE
S2K
RT
100n
100R3KQKRES
RES 3KQL 100R
100R3KQJRES
100n
2KQ
M
0.5%3K3
3KQF
VLS_15V6
10K
3KY
NR
ES
VREF_15V2
RE
S3K
YM
10K
4u7
2KR
H
3KT
Y
2K2
RES 3KQW 100R9KQD
3KT
V
2K2
16V
2KQ
Z
22u
0.5%
10K
3KQ
E
0.5%
2K2
3KQ
G
9KQ
G-2
27
MS
S1P
4
6KQ
A
2K2
3KT
KR
ES
100R3KRFRES
45
100n
2KQ
J
36
10R
3KQ
H-4
27
3KQ
H-3
10R
10R
3KQ
H-2
5
3KY
A
2K2
3KR
M-4
10R
4
100n
2KQ
W
9KQE
3KRC 100R3KRBRES
RES100R
2KQ
Y
10u
68p
VCC_3V3
2KR
B
2KQ
C
100n
3KQ
A
0.5%
100K
VLS_15V6VLS_15V6
9KQC100R3KQRRES
0.5%
22K
3KQ
B
0.5%
6K2
3KQ
C
10R
3KR
M-1
18
RES 100R3KQNRES 3KQM 100R
9KQA
7KQCPBSS5330X
PBSS4540X7KQD
3KT
WR
ES
2K0
0R51
3KR
G
0.5%750R
3KRJ
0.5%
1K0
3KR
H
FKQU
2KQ
F
10u
3KY
K
2K2
3KRE 100RRES
2K2
3KT
R
VCC_3V3
3KT
Q
10K
10K
3KT
PR
ES
100n
2KQ
E
VLS_15V6
2KQ
D
100n
3KRA 100R
100n
RES
3KR
L-1
10R
18
RE
S2K
RA
27
10R
36
10R
3KR
L-2
45
3KR
L-3
10R
3KR
L-4
41
29
31
2KQ
Q
100n
1312
28
30
34353637383940
7
8
10
16
18
19
25
32
1
15
17
26
27
2
22
23
24
3
4
5 21
14
6 20 33
9
11
7KQAISL24837IRZ-T13
4
7
6
5
2
8
3
FKQP
(32K)Φ
FLASH
7KQBAT25DF321-SU
1
100n
2KQ
T
0.5%
18K
3KQ
D
3KRD 100R
2KQ
R
100n
RES
RE
S2K
RJ
1n0
9KQ
G-3
36
100R3KQQRES3KQP 100R
9KQKRES
RES
RE
S
VCC_3V3
3KY
H
10K
10K
3KY
JR
ES
18
VCC_3V3
0R51
9KQ
G-1
3KR
K
FKLZ
FKMB
FKQF
FKMH
1KQBRES
1234
56
502382-0470
FKQT
2K2
3KT
NR
ES
9KQF+VDISP
2K2
3KT
ER
ES
VCC_3V3
RE
S3K
TL
2K2
2K2
3KT
HR
ES
2KQ
N
100n
100n
2KQ
P
3KT
F
4K7
VREF_15V2
RE
S3K
TG
2K2
2K0
3KY
B
27
RE
S
3KR
M-2
10R
RE
S
45
2KR
N
1n0
36
9KQ
G-4
RES10
R
3KR
M-3
9KQH
FKQDFKQC
11
FKQAFKQB 2
3456789
10
502382-0970
1KQARES
1
SDA2
VDD
3
VSS6
FKMA
RES
SC0 5
SC1 8
SCL 40DS1
SD1 7
RES
PCA9540B7KQH
9KQJ
FKMF
FKMG
FKMD
FKME
FKQR
cKQ
B
RE
S3K
TJ
2K2
1n0
2KR
M
RE
S
RE
S
2KR
L
1n0
FKQL
FKYH
FKQW
FKYG
FKQQ
FKYF
2KQ
U
100n
2K2
3KT
M
FKYAFKML
FKMJ
FKMK
RE
S
FKMC
2KR
Q
100n
RE
S
2K0
3KT
Z
2K2
3KT
TR
ES
FKLY
9KQB
FKYE
FKYCFKYD
VCC
EN
OUTCOM
OUTCOM
FKYB
SDA-TCON
EN
BYPASS_MODE
SCKSDOSCSSDIWPVCC
SCL-TCON
SDA-TCON
CTRL-DISP
SDA-DISP
SCL-DISP
VGA-SDA-EDID-TCON
SDA-TCON
SCL-TCON
VGA-SCL-EDID-TCON
SCL-TCON
BYPASS_MODE
SDO
VL255
SCS
VCOM
SDI
SCK
SELLVDSR_L
WP
MODE2
SCL-TCONSDA-TCON
100HZ_120HZOS_ON-OFF
U_D
INNCOM
VL31
VL159
VL63VL95
VL0
VH0
VL247VL191VL159VL127
VH247
VH159VH191
VH95
VH159VH127
VH191
VH95VH63
VL95
VL127
VH127
VH255
CS_L
CS_H
INNCOM
OUTCOM
SCL-TCONSDA-TCON
VH63
VH31
VL63
VL191
EN 72LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: MPD
18970_517_100322.eps100322
MPDB14D B14D
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
EP
NC
V+
-
+
V-
VIAVIA
VH1 VH2
VC
OM VL2 VL1 VLS
OA3
OB3
OA4
OB4
OA5
OB5
OA6
OB6
OA7
OB7
VIA
GND_HSDGNDAGND
A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
EN
CH
ST|NC
VCC
OA1
OB1
OA2
OB2
EP
NC
V+
-
+
V-
VIAVIA
VIA VIA
VIA VIA
EP
NC
V+
-
+
V-
EP
NC
V+
-
+
V-
OUT2
OUT3
OUT4
OUT5
OUT6
OUT7
+
REFLREFH
7654321
AVDD
VIA
-
GND_HS GND
NC
OUTB
OUTA-
INA
+INB
IN
OUT1
2KUK Y Y2KUM Y Y2KUN
YY Y
2KUQ Y Y2KUT Y Y2KUV Y Y2KWC Y Y3KUF Y
3KUU
Y3KUJ Y Y3KUK Y Y
Y Y3KVA Y Y3KWK Y Y7KUB Y Y7KUC Y Y7KUE Y Y
ITEM NO 40 INCH 46/52 INCH2KUA
ITEM NO 40 INCH 46/52 INCH
N Y2KUF N Y2KUH N2KUW N Y2KUY N Y2KWA N Y3KUA N Y3KUB N Y3KUC N Y3KUD N Y
Y3KUG Y
7KUD N Y
N Y2KUB
7KUA N Y
13
1
412111019876
A
2KUB B12KUC B22KUD B32KUE B42KUF B42KUG B42KUH B52KUJ D3
2 3 4 5 6 7 8 9 10
FOR 32 INCH
NC
NCNC
11 12 13 14
1 2 3 4 5
2KWM I132KWN I122KWP I122KWQ I122KWR I122KWT I112KWU I112KWW I11
FOR 40 / 46 / 52 INCH
B
C
D
E
F
G
H
I
A
B
C
D
E
F
G
H
I
2KUA B1
3KUQ-3 I113KUQ-4 I113KUR B123KUT B133KUU D13KUW A143KUY B133KUZ B14
2KUK D42KUL D42KUM D52KUN E52KUP D22KUQ B62KUR B62KUT B72KUU B72KUV A52KUW D82KUY D62KUZ D62KWA D72KWB D72KWC E62KWD B122KWE B122KWF A142KWG C132KWH C132KWJ I132KWK B82KWL I13
FKUE G11FKUF G11FKUG G11FKUH G11FKUK H11FKUL H11FKUM H11FKUN I11
2KWY I112KWZ I103KUA B13KUB B13KUC B13KUD C13KUE B33KUF C13KUG D13KUH D33KUJ B93KUK B93KUL B73KUM D73KUN-1 I123KUN-2 I133KUN-3 I133KUN-4 I133KUP-1 I113KUP-2 I123KUP-3 I123KUP-4 I123KUQ-1 I103KUQ-2 I11
3KVA B97KUA-1 B27KUA-2 C27KUB-1 C27KUB-2 E27KUC-1 B87KUC-2 C87KUD-1 C87KUD-2 E87KUE E57KUF B127KUG B147KUH A12FKUA E11FKUB F11FKUC F11FKUD F11
FKUM
FKUN
3KU
P-1
18
2KW
P
100n
10R
FKUL
FKUG
FKUK
FKUH
FKUF
FKUE
100n
2KW
M
2KW
L
100n
2KW
J
100n
10R
18
3KU
N-2
10R
27
3KU
N-1
1
2
3
36
7KUH2SC5886A
45
3KU
N-3
10R
3KU
N-4
10R
FKUD
FKUB
FKUA
2KW
Z
100n
100n
2KW
Y
27
36
3KU
Q-2
10R
45
3KU
Q-3
10R
3KU
Q-4
10R
2KW
T
100n
2KW
R
100n
2KW
Q
100n
27 6
10R
3KU
P-2
3KU
P-3
10R
3
10R
45
100n
3KU
P-4
2KW
N
100n
2KU
V
VREF_15V2
3KU
K
4K3
0.5%
0.5%
11K
3KU
J
FKUC
2KW
W
100n
2KW
U
100n
10R
18
3KU
Q-1
RE
S
2K0
3KU
E
1n0
2KU
JR
ES
2KU
D
1n0
RE
S
16V
22u2K
UE
RE
S
16V
22u2K
UK
2KW
A
22u
16V
100n
2KW
K
15161718
10
19
11121314
58
6
7
4
7KUD-2MAX9650ATA
VIA
9
3
2
1
+VDISP
MAX9650ATA7KUD-1
10K
3KVA
0.5%
0.5%
10K
3KUU
VREF_15V2
3KU
Z
11K
3KU
W
13K
1
34
52
0.5%
NJM2125F7KUG
2KU
W
470n
2KW
F
100n
4950
1716 36
54555657
434445464748
21
19
33
38 1834 35
42
515253
28
26
24
22
20
31
29
27
25
23
10
12
14
40
15
39
41
32
30
3
5
7
9
11
13
37
2
4
6
8
7KUEMAX17079GTL
1
VCC_3V3
2KW
E 16V
22u10
0n
RE
S2K
WD
2KU
F
22u
16V
2KU
H
100n
VLS_15V6
100n
2KU
M
100n
2KW
C
RE
S1n
0
RE
S
2KW
H
1n0
2KW
G
0.5%
12K3K
UG
3KU
F 0.5%
0.5%
16K
121314
15161718
39K3K
UD VIA
MAX9650ATA7KUC-2
10
19
11
+VDISP
+VDISP
+VDISP
3KUY
0.5%62R33R 0.5%
3KU
R
1R0
3KUT
58
6
7
4
MAX9650ATA
93
2
1
3KU
L
2K0
7KUC-1
1n0
2KU
UR
ES
RE
S
2K0
3KU
MR
ES
2KW
B
1n0
RE
S
RE
S2K
UR
100n
100n
2KU
Z
2KU
L
100n
RE
S
RE
S
100n
2KU
GR
ES
11
343536373839404142
8192021222324
18
17
10
1516
9
1234567
1233
32313029272625
1314
ISL24016IRTZ7KUF
28
2KU
Y
100n
9
3
2
1 5 8
6
7
4
6
74
7KUB-1MAX9650ATA
9
3
2
1 5 8
3KU
H
MAX9650ATA7KUA-1
2K0
RE
S
VREF_15V2
1K03K
UC 0.5%
3KU
B
56K
0.5%
100n
2KU
PR
ES
0.5%
91K3K
UA
2KU
C
100n
15161718
RE
S
7KUA-2MAX9650ATA
VIA
10
19
11121314
121314
15161718
MAX9650ATA7KUB-2
10
19
11
+VDISP
+VDISP
VIA
2KU
T
22u
16V
100n
2KU
Q
2KU
N
100n
2KU
B
100n
VREF_15V2
2KU
A
4u7
CS1U
CS11U
CS12U
CS10U
CS9U
CS8U
CS7U
CS6U
CS5U
CS4U
CS3U
CS2U
CS1U
CS8
CS2
CS7
CS1
VCOM
RESET
CS11U
CS12U
CS10U
CS9U
CS8U
CS7U
CS6U
CS5U
CS4U
CS3U
CS2U
CS_L
CS_H
CS12
CS6
CS11
CS5
CS10
CS4
CS9
CS3
CS5CS6
CS_HCS_L
CS12UCS11UCS10UCS9UCS8UCS7UCS6UCS5UCS4UCS3UCS2UCS1U CS1
CS2CS3CS4
Circuit Diagrams and PWB Layouts EN 73LC9.3L LA 10.
2010-Mar-26
SSB: Mini LVDS
18970_518_100322.eps100322
Mini LVDSB14E B14E
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL8 9
A
B
C
D
E
F
G
H
I
A
B
G
H
I
1KA1 B41KA2 B9
1 2 3 4 5 6 7
3 4 5 6 7
2KLA H32KLB H42KLD H82KLE H83KLA A23KLB A13KLC A23KLD A2
C
D
E
F
3KLJ B23KLK B23KLL B23KLM B23KLN B2
3KMU B73KMV B73KMW B73KMZ B7
3KLP B23KLQ B13KLR-1 C33KLR-2 C33KLR-3 C33KLR-4 C33KLT-1 F33KLT-2 F3
8 9
1 2
3KLW H23KLY I23KLZ I23KMA I13KMB I2
3KNM I73KNN I73KNP I73KNQ I73KNR I73KNV I79KLA A2
3KMC I23KMD I23KME I23KMF I23KMG I23KMH I2
3KLE A23KLF B23KLG B23KLH B2
3KMN A63KMP B73KMQ B73KMR B73KMT B7
FKND E1FKNE E1FKNF E1FKNG F1FKNH F1
3KNA B73KNB B63KNC-1 C83KNC-2 C83KNC-3 C83KNC-4 C83KND-1 F83KND-2 F8
3KLT-3 F33KLT-4 F33KLU H23KLV H2
3KNG H73KNH I7
3KNJ I73KNK I73KNL I6
FKPD E6FKPE E6FKPF E6FKPG E6FKPH E6FKPJ E6FKPK E6FKPL E6FKPM F6FKPN F6FKPP F6
9KLB A7FKLA G6FKLB G6FKLC I4FKLE G6FKLF G6FKLG E1FKLH G1
3KMJ A73KMK A73KML A73KMM A7
FKMY E1FKMZ E1FKNA E1FKNB E1FKNC E1
FKNJ F1FKNK F1FKNL F1FKNM F1FKNN F1FKNP F1FKNQ G1FKNR G1
3KND-3 F83KND-4 F83KNE H73KNF H7
FKNY G1FKNZ E6FKPA E6FKPB E6FKPC E6
FKPQ F6FKPR F6FKPT F6FKPU F6FKPV F6FKPW G6FKPY G6FKPZ G6
FKLK G6FKMU E1FKMV E1FKMW E1
RES
FKNT G1FKNU G1FKNV G1FKNW G1
3KLA 2K0
2K03KLZRES3KMB 2K0RES
VGL_-6V
3KMMRES
3KNC-4 100R4 5
2K0
100R3 63KNC-3
RES 3KLV 2K0
FKNW
3KMR 2K0
2K0
RES
RES3KMN
3KMQRES3KMP 2K0
2K0RES
8
8
3KNC-1 100R1
3KLT-1 100R13KLT-2 100R2 7
3KMKRES
RES
2K0
2K03KMC
FKNT
3KLY 2K0RES
2 73KNC-2 100R
2K03KNFRES
FKNU
RES 3KMF 2K0
RES
VLS_15V6
RES
2K0
3KLB
2K03KLL
2K03KLJRES
FKNP
100R3KND-2 2 7
3KLURES 2K0
3KLE 2K02K03KLDRES
RES
RES 2K03KMG
RES3KLQ
2K0
RES 2K03KLW
2K0RESRES 3KMD
2K03KME
3KLM 2K0
RES
RES
2K03KLHRES 3KLG 2K0
RES 3KLK 2K0
2K0
3KNBRES
3KMV 2K0RES
RES 3KMT 2K0
RES
FKNM
2K03KMWRES 3KMZ 2K0
9KLA
FKNN
FKNL
VCC_3V3
RES 2K03KNA
RES
2K0
3KNL
3KNR 2K0RES
RES 3KLC 2K0
777879
8
80
9
81 82
676869
7
70717273747576
5859
6
60616263646566
4849
5
5051525354555657
3839
4
4041424344454647
2829
3
3031323334353637
19
2
2021222324252627
1
101112131415161718
196250-80041
1KA1
3KNG 2K0RES
2K0RES 3KMH
2K03KLNRES
2K03KLFRES
RES 2K03KMJ
2K03KMURES
VGL_-6V
VLS_15V6
3KMA
2K0
RES
RES 3KNE 2K0
2K03KNVRES
2K03KNQRES
3KNP 2K0
VCC_3V3
RES
RES 3KNM 2K0
3KNJ 2K03KNHRES
RES
1 8
2K0
3KND-1 100R
VGH_35V
FKLC
RES 3KML 2K0
4 5
FKNK
3KLT-4 100R 3 63KND-3 100R
4 5 100R3KND-4
2K03KNNRES
2K03KNKRES
FKPA
8
22n
2KLE
100R3KLR-1 1
25V
47u2K
LD
VGH_35V
9KLB
FKPB
FKPE
RES 3KLP 2K0
FKNV
FKND
3 63KLT-3 100R
2KLA
47u
25V
FKMU
FKMYFKMZ
FKNR
FKPF
FKNZ
FKPU
FKPC
FKPZFKPY
FKNH
FKPD
22n
2KLB
2 7
FKPL
3 6100R3KLR-2
4 5100R3KLR-3
81 82
100R3KLR-4
73747576777879
8
80
9
63646566676869
7
707172
53545556575859
6
606162
43444546474849
5
505152
343536373839
4
404142
2526272829
3
30313233
1516171819
2
2021222324
1KA2
196250-80041
1
1011121314
FKPT
FKPJ
FKNY
FKPH
FKPN
FKLH
FKLA
FKLG
FKLFFKLE
FKPKFKNF
FKNC
FKLK
FKPM
FKPW
FKNJ
FKPV
FKLB
FKPG
FKNG
FKMW
FKNQ
FKNBFKNA
FKNE
FKMV
FKPQFKPP
FKPR
R_LVA2+
R_LVA1-R_LVA1+
R_LVA0-R_LVA0+
R_LVA4+
R_LVA3-R_LVA3+
R_LVA2-
R_LVB0-R_LVB0+
R_LVCKA-R_LVCKA+
R_LVA5-R_LVA5+
R_LVA4-
R_LVB4-R_LVB4+
R_LVB3-R_LVB3+
R_LVB2-R_LVB2+
R_LVB1-R_LVB1+
BIT_SDI
BIT_SCK
R_LVCKB-R_LVCKB+
R_LVB5-R_LVB5+
VL191
SCS
VL159VL127
VL247
BIT_SCS
VH127VH95VH63VH31
BIT_SDI
SDI
VL95
BIT_SDO
VL63VL31
SDO
VL31
VL191VL159
BIT_SDO
SDO
VH95VH63
SCK
VH191VH159
BIT_SCK
VH159VH127
SDI
VH31
SCK
VL127
SCS
BIT_SCS
VL95VL63
LS_L
FSREV
G_LBRG_LBR_INV
LS_R
FSREV
G_LBR
VH191
CS8UCS7UCS6UCS5UCS4UCS3UCS2UCS1U
GOE_RGCK_RGSP1GSP2
G_LBR_INV
CS2UCS1U
GOE_LGCK_LGSP1GSP2
VL0
VL255
VH0
VH247VH255VCOMCS12UCS11UCS10UCS9U
VH247VH255VCOMCS12UCS11UCS10UCS9UCS8UCS7UCS6UCS5UCS4UCS3U
L_LVCKB+
L_LVB3-L_LVB3+L_LVB4-L_LVB4+L_LVB5-L_LVB5+VH0
L_LVB0-L_LVB0+L_LVB1-L_LVB1+L_LVB2-L_LVB2+
L_LVCKB-
L_LVA4-L_LVA4+L_LVA5-L_LVA5+
VL247
L_LVA2+
VL255
L_LVCKA-L_LVCKA+
L_LVA3-L_LVA3+
VL0
L_LVA0-L_LVA0+L_LVA1-L_LVA1+L_LVA2-
EN 74LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: Connectors
18970_519_100322.eps100322
ConnectorsB14F B14F
2009-11-161
3139 123 6481LC10 PCB SB SSB DIGITAL
* FOR TV550 ONLY
SENSOR
5 6 7 8 9
A
B
C
1F53 D9
* *
1 2 1K85 D2
3 4
1M20 B91M71 D11P12 B41X03 F31X05 F41X08 F52K76 A82K77 B8
D
E
F
A
B
C
D
E
F
2K87 D82K88 D8
2D DIMMING
2K89 E8
3 4 5 6 7 8 9
1 2
3K76 A73K77 B7
OVAL SCREW HOLE
2K78 B82K79 B82K80 C82K81 B92K82 C82K83 D22K84 D22K85 E12K86 C8
3K86 D73K87 F7
Dummy testlands for common jig
*
3K88-1 F73K88-2 E73K88-4 E73K89 B53K90 C33K91 D23K92 D23K93 C35K53 E35K54 E39K50 E8
2K90 E82K91 F82K92 F82K93 C42K94 C52K95 B73K71 E73K74 A73K75 A7
FK5A F1FK5B F1
*
* *
*
LED PANEL
FK88 B9FK89 B9FK90 B9FK91 B9
FK92 B9FK93 B9FK94 B9FK96 D1FK97 D1FK98 D1FK99 D1FKZA A1
3K78 B73K79 C73K80 D23K81 D23K82 D23K83 D23K84 C73K85 D7
**HOTEL TV
TEMPERATURE
*
FKZC A1FKZD A2FKZE A1FKZF A1FKZG B1FKZH B1FKZJ B1
ROUND SCREW HOLE 4.5mm
FK50 B4FK51 B9FK52 D9FK53 D9FK54 D9FK55 D9FK56 D9FK57 D9FK58 E9
LIGHT STRIP
ROUND SCREW HOLE 4mm
FK5C F1FK5D F1FK5E F1FK5F F1FK60 E9
FK96
FKZB A1
+3V3
FK93FK94
FK91
RES
30R
5K54
100p
2K79
FKZBFKZA
9K50
+3V3
10K
3K93
RE
S
100R3K92
+3V3
RES
RE
S3K
90
10K
3K91 100RRES
1 8
FKZC
3K88-4
100R
4 5
3K88-1
100R
FK88
1X05EMC HOLE
FK57
+12V
+3V3
FK58
FK562K84
100p
FK5C
FK5AFK5B
100p
2K91
2K92
1n0
2K83
100p
100R
3K87
1234
5 6
502382-0470
1P12
100R
3K78
100R
3K77
100R
3K76
FK92
+5V
2K76
100p
2K82
100p
100p
2K80
2K78
100p
3K86
100R
100R
3K85
FK51
2 7
2K93
100n
100R
3K88-2
FK50
1X03REF EMC HOLE
1234
3K82 100R
2041145-4
1M71
RES100R3K83 FK55
FK54
78
FK52
123456
2041145-8
1M20
FKZGFKZF
FKZD
FKZE
FK5EFK5D
FK5F
FK97
100K
3K74
FK98
10R
3K79
FK53FK99
2K90
100p
100p
2K89
100R
3K75
100n
2K81
2K88
100p
100p
2K77
3K80
RES3K81
100R
10p
2K87
100R
89
15 16
1011121314
234567
1F53
502386-1470
1
5K53
30R
RES
2K86
10p
FKZJ
2K94
100p
100R
3K89
T 63V1.0A
1K85
1X08EMC HOLE
2K95
47n
RE
S
2K85
1u0
FK89FK90
+3V3-STANDBY
FK60
3K71
FKZH
RES 100R
3K84 100R
+5V
FAN-CTRL2
BACKLIGHT-PWM-ANA-DISP
FAN-CTRL1
LIGHT-SENSOR
LED-2
LED-1
KEYBOARD
LED-1
BL-SPI-SDOFAN-DRV
SDA-BL
TACH02
SCL-BL
TACH01
BACKLIGHT-PWM_BL-VS
BL-SPI-CSn
BL-SPI-SDI
BL-SPI-CLK
SCL-BL
SDA-BL
RC
Circuit Diagrams and PWB Layouts EN 75LC9.3L LA 10.
2010-Mar-26
Layout Small Signal Board (Top Side)
1205
1600
1601
1603
1604
1605
1735
1801
1802
1803
1804
1900
19011902
1903
19041B
00
1B01 1B02
1B05
1C00
1C01 1C02 1C03 1C04
1C051C
06
1C07
1C08
1C09
1C10 1C111C12
1C13
1C14
1C15
1D01
1D03
1D38
1E03
1E04
1F00
1F011F02
1F53
1G16
1H35
1HA
0
1KA11KA2
1KAA
1KFA
1KFB
1KQA
1KQ
B
1M20 1M591M71 1M72
1M95
1M99
1P12
2101
2102
2112
21132114
21152116
2117
2118
21222123
2124
2151
2152
2154
215921
6021
61
2164
2165
2166
2167
2177
2179
21862214
2266
2267
2269
2314
2315
2316
2317
2318
2320
2321
2322
2323
2324
2325
2326
2328
2331
2332
2333
2334
2335
2336
2337
2338
2339
2341
2342
2343
2344
2345
2346
2347
2348
2410
2417
2419
2420
2421
2425
24DG25
20
2521
2522
2524
2525
2526
2527
2528
2529
2531
2532
2535
2536
2537
2538
2539
2540
2542
2543
2544
2545
2551
2607
2608
2609
2610
2611
2619
2801
28022803
2804
2805
2809
2817
2818
28192820
2821
2905
2906
2909
2B00
2B01
2B02
2B03
2B04
2B05
2B06
2B07
2B08 2B09
2B10 2B11
2B12
2B13
2B14
2B15
2B16
2B172B
19
2B20
2B21
2B42
2B43
2C00
2C01
2C02
2C03 2C
04
2C05
2C06
2C152C
162C17
2C18
2C19
2C20
2C21
2D10
2D11
2D122D14
2D15
2E00
2E01
2E02
2E03
2E04
2E05
2E06
2E14
2E15
2F002F01
2H10
2H11
2H12
2H13
2H14
2H15
2H16
2H17
2H18
2H19
2H70
2HRK
2KC
E
2KC
F
2KC
G
2KC
H
2KCJ
2KC
K
2KC
L
2KD
C2K
DD
2KFA2KFB
2KF
C
2KFD
2KFE
2KF
H
2KF
M
2KFN
2KF
P
2KFT
2KGC
2KG
D
2KGG
2KGH
2KG
J
2KGK
2KGL 2KG
M
2KGN
2KGP
2KG
Q
2KG
R
2KGU
2KG
V
2KG
Y
2KGZ
2KHG
2KH
N
2KHP
2KH
Q
2KH
R
2KH
T2KHU
2KLA2KLB2KLD2KLE
2KQ
A
2KQ
B
2KQ
C
2KQ
F
2KQG
2KQH
2KQJ
2KQK
2KQ
M
2KQ
N
2KQ
P
2KQ
Q
2KQR
2KQT
2KQU
2KQW
2KQ
Y
2KQZ
2KR
A
2KRB
2KRJ
2KRN2KR
Q
2KR
T
2KU
H
2KUJ
2KUK
2KUM
2KUP
2KWD
2KWE
2KW
G
2KW
H
2KW
J
2KW
L
2KW
M
2KW
N
2KW
P
2KW
Q2K
WR
2KW
T
2KW
U2K
WW
2KW
Y
2KW
Z
3113
3130
3131
3310
3311
331233133314
3315
3317
3318
3324 3325
3326
3327
3328
3330
3338
3400
3401
3402
3408
3412
34163417
3418 3419
3427
3428
3429
3430
3500
3501
3502
3503
3507
3508
3513
3606
3607
3608
3616
3617
3618
3619
3620
3621
3622
3623
3624
3625
3626
3627
3628
3629
3635
3636363736383639
3656
3657
3673
3674
3675
3676
3677
3678
3801
3802
3804
3805
3811
3812
3813
3814
3815
3816
3817
3818
3819
3820
3821
3822
3825
3826
3827
3828
3928
3B00
3B01
3B02
3B03
3B04
3B05
3B06
3B07 3B08
3B09
3B10
3B11
3B12
3B13
3B14
3B15
3B16
3B17
3B18
3B20
3B23
3B24
3C00
3C01 3C
02
3C03
3C04
3C05
3C06
3C12
3C13
3C14
3C15
3C16
3C17
3C18
3D00
3D01
3D02
3D03
3D04
3D06
3D11
3E00
3E01
3E02
3E03
3E04
3E05
3E06
3E19
3E21
3E22
3F00
3F01
3H10
3H11
3H12
3H13
3H14
3H15
3H70
3KA
A
3KAB
3KAG 3KAH
3KAJ3KAK
3KAL
3KAM
3KAN 3KAP
3KAQ3KAR
3KAT
3KAU 3KAV 3KAW
3KAY
3KAZ
3KBA
3KBB 3KBC
3KBD3KBE
3KBF
3KBG
3KB
U3K
BV
3KB
W3K
BY
3KBZ
3KC
A
3KCB
3KF
A
3KFB
3KF
C
3KFD
3KF
G
3KF
H
3KFM
3KFN
3KFR
3KF
W
3KGD
3KG
E
3KG
F
3KLA
3KMJ
3KNC
3KQA
3KQ
B
3KQC
3KQ
D
3KQE
3KQ
F
3KQG
3KQ
H
3KQJ3KQ
K
3KQM
3KQN
3KQP
3KQQ
3KQR
3KQT
3KQU
3KQZ
3KRA
3KRD
3KRE
3KRF
3KRG
3KRH
3KRJ
3KR
K
3KRL
3KR
M
3KTL
3KT
M
3KT
N
3KTT
3KTW3KTY
3KTZ
3KUF
3KUG
3KUH
3KUN 3KUP
3KUQ 3KU
R 3KUT
3KUU
3KUY
3KYA
3KYD
3KYF
3KYG
3KYH
3KY
J
3KYM3KYN
4621
4800
4801
4802
4803
51005101
51025103
5106
51075108
5109
5115
5301
5302
5603
5604
5C00 5C01
5C02
5C03 5C04 5C05
5F00
5F01
5KAG
5KFA
5KF
B
5KF
C
5KF
D
61006101 6102
6103
6600
6601
6C00 6C01 6C02 6C03 6C04
6C08 6C09 6C106C19
6C20
6D00
6KF
A
6KFB
6KFE
7100
7103
7106
7201
7304
7305
7306
7308
7309
7311
7400
7401
7501
7600
7603
7605
7801
7802
7900
7D00
7HA0
7KAA7KAB
7KAC7KFA
7KF
E
7KQ
A
7KQ
C
7KQD
7KQ
H
7KUE
7KU
H
9KF
B
9KFD
9KLA
9KLB
9KQ
A
9KQB9KQC
9KQE
9KQF
9KQ
G
CKAA
CKFA
CK
QB
U1
18970_800_100325.eps100325
3139 123 6481.1
EN 76LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
Layout Small Signal Board (Bottom Side)
1800
1B03
1B04
1B06
1B07
1D00
1D02
1E00
1E011E02
1K85
2103
2104
2105
2106
21092110
2111
2119
21202121
2125
2126
2127
2128
2129
2130
2131
2132
2133
2134
2135
2136
2137
2138
2139
2140
2141
2142
2143
2144
2145
2146
2147
2148
2149
2150
2156
2157
2158
2162 2163
2168
2169
2170
2171
2172
21732174
2175
21762178
2180
2181
2182
2183
2184
2185
2187
2188
2191
2192
2193
2194
2195
2196
2197
21982199
2200
2201
2202
2203
2204
22052206
2207
2208
2209
2210
2211
2212
2213
2215
2216
2217
2218
221922
20
2221
2222
2223 22
24
2268
2300
23012302
2303
2304
2305
2306
2307
2308
2309
2310
2311
2312
2313
2319
2327
2329
2330
2340
2400
2401
2402
2403
2404
2405
2406
2407
2408
2409
2411
2412
2413
2414
2415
2416
2418
2422
2423
2424
2426
2427
2428
24292430
2431
2432
2433
2434
2435
2436
2437
2438
2439
2440
2441
2442
2443
2444
2445
2446
2447
2448
2449
2450
2451
2452
2453
2454
2455
2456
2457
2458
2459
2460
2461
2462
2463 2464
2465
2466
2467
2468
2469
24702471
2472
2473
24742475
2476
2477
2478
2479
2480
2481
2482
2483
2484
2485
2486
2487
2488
2489 24
90
2491
2492
2493
249424
95
2496
2497
2498
2499
24D
A
24DB
24DC24DD
24DE
24D
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2500
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2502
2503
2504
2505
2506
2507
2508
2509
2510
2511
2512
2513
2514
2515
2516
2517
2518
2519
2523
2530
2533
2534
2541
2546
2547
2548
2549
2550
2612
2613
261426
15
2616
2617
2618
2620
2621
2800
2807
2808
2900
2901
2902
2903
2904
2907
2908
2B18
2B22
2B23
2B24
2B25
2B26 2B27
2B28
2B29
2B30
2B31
2B32
2B33
2B34
2B35
2B36
2B372B38
2B39
2B40
2B41
2C07
2C08 2C092C10
2C11 2C12
2C13
2C14
2D13
2E07 2E08 2E09
2E10
2E11
2E12
2E13
2E16
2HA
0
2HA
1
2HA
2
2HA3
2HA
4 2HA5
2HA6
2HA7
2HA8
2HA9
2HE0
2K76
2K77
2K78
2K79
2K80 2K
81
2K82
2K83
2K84 2K85
2K86
2K87
2K88
2K89
2K90
2K91
2K92
2K93
2K94
2K95
2KA
A
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2KA
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A
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2KB
C
2KB
D
2KB
E
2KB
F
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G
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3100
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3200
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3210
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3212
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3215
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32203221
3222
3223
3224
3225
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3302
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3679
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3682
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F116
F117
F118
F119
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4
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F130
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3
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8
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F200
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4
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F206
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F208
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F229
F230F231
F232
F233
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F235
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F403
F404
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F406
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F408
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F600
F601
F602
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F612F613
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F901 F902
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F904
F905F906
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1
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F925
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7
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F933
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FB01
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02
FB
03
FB04
FB05
FB06 FB07
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FB10
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11
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FB13
FC
00
FC01FC02FC03
FC04FC05FC06 FC07
FC08
FC09
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FC11
FC12
FC13FC14 FC
15
FD00
FD01
FD02
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03
FD04
FD
05
FD
06
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FE00
FE01 FE02 FE03
FE
04
FE05
FE06
FE
07
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FE09
FE10
FE
11
FE12
FE13
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FF00
FF01FF02
FF03
FF04
FF05
FF06
FF07 FF08
FF09
FF
10
FF11
FF
12
FF13
FH70FH71
FH72
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FH75
FH76 FH77
FH78
FH
79
FH80
FH81 FH82
FHA0
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FHA2FHA3
FHA4
FHA5
FHA6
FK50
FK51
FK52 FK53
FK54
FK55
FK56FK57
FK58
FK5A
FK5B
FK5C
FK5D
FK5E
FK5F
FK60
FK88
FK89
FK
90
FK
91
FK
92
FK93
FK94
FK96 FK97FK98 FK99
FKAA
FKAB
FKAC
FKAD
FKAE
FKAF
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FKAL FKAM
FKAN
FKAP
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FKBB
FKBC
FKBD FKBE
FKBF
FKBG FKBH
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FK
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FK
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FK
CB
FKCC
FKCD
FKCE FKCF
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FKCH FKCJ
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FK
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I100
I101
I102
I103
I104
I105
I106I107
I108
I109
I110
I111
I112
I113
I114
I115
I116
I117
I118
I119
I120
I121
I122
I123
I124
I125
I126
I127
I128
I129
I130 I131
I132
I133
I134
I135
I136
I137
I138
I200
I201
I202 I203
I204
I205
I206
I207
I208
I301
I302
I303
I304
I305
I306
I307
I308
I310
I311
I312I313
I314
I315
I316 I317
I318
I319
I320
I321
I322
I323
I324
I325
I326I327
I328
I330
I331
I332
I333
I334
I335
I336
I339
I340
I341
I342
I343
I344
I345
I346
I400
I401
I402
I403
I404
I405
I406
I407
I408
I409
I410
I411 I412I413
I500
I600
I601
I602 I603
I604
I605
I606
I607
I613
I614
I615
I616I617
I620 I621
I622
I623
I624
I625
I626
I627
I628
I629
I630
I631
I632
I633
I634
I635
I636I637
I638
I639
I640
I800
I801
I802
I803
I804
I805
I806
I807
I808
I809
I810
I811
I900I901
I902
I903
I904
I905
I906
I907
I908
I909
I910
IB00
IB01
IB02
IB03
IB04IB05
IB06
IB07
IB08
IB09
IB10
IB11
IC00 IC01
IC02
IC03
IC04 IC05IC
06IC07
IC08
IC09IC10
IC11IC12IC13
IC14
IC15
IC16
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ID01
ID02
ID03
ID04
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IE01
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IHA
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3
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IHA6
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U3
U5
U6
U7
18970_801_100325.eps100325
3139 123 6481.1
Circuit Diagrams and PWB Layouts EN 77LC9.3L LA 10.
2010-Mar-26
SSB: SRP List Explanation
1 . 1 . Introduction
Example
SRP (Service Re ference Protocol) is a softw are too l that creates a list w i th all refer e n c es to signal lines. The list contains references to the signals w i thin all schemat ics of a PWB. It replaces the text refe r ences currentl y p r inted next t o the signal names in the schematics. These printed refe rences are created man ually an d are t h e r efore n o t guar an teed to be 100 % correct. In additio n , in the current crowded schema t ics there is often none or ver y little pl ace for these references. Either there will be an SRP reference list for a schematic, or there will be printed references in the schematic.
1.2. Non-SRP Schematics
There are several different signals available in a schematic:
1.2.1. Power Supply Lines
All power supply lines are available in the supply line overview (see chapter 9). In the schematics (see chapter 10) is notindicated where supplies are coming from or going to. It is however indicated if a supply is incoming (created elsewhere), or outgoing (created or adapted in the current schematic).
+5V +5V
Outgoing Incoming
1.2.2. Normal Signals
For normal signals, a schematic reference (e.g. B14b) is placed next to the signals.
signal_nameB14b
1.2.3. Grounds
For normal and special grounds (e.g. GNDHOT or GND3V3 etc.), nothing is indicated.
1.3. SRP Schematics
SRP is a tool, which automatically creates a list with signal references, indicating on which schematic the signals are used.A reference is created for all signals indicated with an SRP symbol, these symbols are:
+5V +5V Power supply line.
name name Stand alone signal or switching line (used as less as possible).
name name
Signal line into a wire tree.
name name
Switching line into a wire tree.
name
Bi-directional line (e.g. SDA) into a wire tree.
name
Signal line into a wire tree, its direction depends on the circuit (e.g. ingoing for PDP, outgoing for LCD sets).
Remarks:• When there is a black dot on the “signal direction arrow” it is an SRP symbol, so there will be a reference to the signal
name in the SRP list. • All references to normal grounds (Ground symbols without additional text) are not listed in the reference list, this to keep
it concise. • Signals that are not used in multiple schematics, but only once or several times in the same schematic, are included
in the SRP reference list, but only with one reference.
Additional Tip:
When using the PDF service manual file, you can very easily search for signal names and follow the signal over all the schematics. In Adobe PDF reader: • Select the signal name you want to search for, with the “Select text” tool. • Copy and paste the signal name in the “Search PDF” tool. • Search for all occurrences of the signal name. • Now you can quickly jump between the different occurrences and follow the signal over all schematics. It is advised to
“zoom in” to e.g. 150% to see clearly, which text is selected. Then you can zoom out, to get an overview of the complete schematic.
PS. It is recommended to use at least Adobe PDF (reader) version 6.x, due to better search possibilities in this version.
10000_031_090121.eps100323
Net Name Diagram +12-15V AP1 (4x) +12-15V AP4 (4x) +12-15V AP5 (12x) +12-15V AP6 (4x) +12-15V AP7 (8x) +12V AP1 (4x) +12V_NF AP1 (2x) +12VAL AP1 (2x) +25VLP AP1 (4x) +25VLP AP2 (1x) +3V3-STANDBY AP5 (3x) +400V-F AP1 (2x) +400V-F AP2 (2x) +400V-F AP3 (2x) +5V2 AP1 (6x) +5V2 AP2 (1x) +5V2-NF AP1 (1x) +5V2-NF AP2 (1x) +5V-SW AP1 (6x) +5V-SW AP2 (1x) +8V6 AP1 (3x) +AUX AP1 (2x) +AUX AP2 (1x) +DC-F AP1 (2x) +DC-F AP3 (2x) +SUB-SPEAKER AP5 (1x) +SUB-SPEAKER AP6 (2x) -12-15V AP1 (4x) -12-15V AP4 (6x) -12-15V AP5 (14x) -12-15V AP6 (6x) -12-15V AP7 (8x) AL-OFF AP1 (2x) AUDIO-L AP4 (1x) AUDIO-L AP5 (1x) AUDIO-PROT AP5 (3x) AUDIO-R AP4 (1x) AUDIO-R AP5 (1x) AUDIO-SW AP5 (1x) AUDIO-SW AP7 (1x) BOOST AP1 (2x) CPROT AP4 (2x) CPROT AP5 (1x) CPROT-SW AP5 (1x) CPROT-SW AP6 (2x) -DC-F AP1 (2x) -DC-F AP3 (2x) DC-PROT AP1 (1x) DC-PROT AP5 (2x) DIM-CONTROL AP1 (2x) FEEDBACK+SW AP6 (2x) FEEDBACK-L AP4 (2x) FEEDBACK-R AP4 (2x) FEEDBACK-SW AP6 (2x) GND-AL AP1 (2x) GNDHA AP1 (40x) GNDHA AP2 (20x) GNDHA AP3 (2x) GNDHOT AP3 (2x) GND-L AP1 (2x) GND-L AP4 (4x) GND-L AP5 (34x) GND-LL AP4 (7x) GND-LL AP5 (1x) GND-LR AP4 (7x) GND-LR AP5 (1x) GND-LSW AP5 (1x) GND-LSW AP6 (15x) GND-S AP1 (11x) GND-SA AP4 (8x) GND-SA AP5 (2x) GND-SA AP6 (8x) GND-SA AP7 (6x) GNDscrew AP3 (2x) GNDscrew AP5 (2x) GND-SSB AP5 (3x) GND-SSP AP1 (51x) GND-SSP AP2 (15x) IN+SW AP6 (2x) IN-L AP4 (2x) IN-R AP4 (2x) IN-SW AP6 (2x) INV-MUTE AP4 (1x) INV-MUTE AP5 (1x) INV-MUTE AP6 (1x) LEFT-SPEAKER AP4 (1x) LEFT-SPEAKER AP5 (1x) MUTE AP4 (2x) MUTE AP5 (1x) MUTE AP6 (2x) ON-OFF AP1 (3x) OUT AP6 (1x) OUT AP7 (2x) OUTN AP6 (1x) OUTN AP7 (1x) POWER-GOOD AP1 (2x) POWER-OK-PLATFORM AP1 (2x) RIGHT-SPEAKER AP4 (1x) RIGHT-SPEAKER AP5 (1x) SOUND-ENABLE AP5 (3x) STANDBY AP1 (5x) STANDBY AP2 (1x) -SUB-SPEAKER AP5 (1x) -SUB-SPEAKER AP6 (2x) V-CLAMP AP1 (1x) V-CLAMP AP3 (2x)
Personal Notes:
EN 78LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
SSB: SRP List
18970_520_100322.eps100322
2009-11-161
3139 123 6481SRP LIST PART 1
Netname Diagram
+12V B05 (1 ×)+12V B07B (1 ×)+12VDISP B07B (1 ×)+12VDISP B14A (1 ×)+12VS B07B (6 ×)+12VS B07D (2 ×)+12VS B07E (1 ×)+1V0_SW B07B (2 ×)+1V0_SW B07E (1 ×)+1V2_SW B07B (2 ×)+1V2_SW B07C (1 ×)+1V2_SW B07E (2 ×)+1V2_SW B14C (1 ×)+1V8_SW B07B (3 ×)+1V8_SW B07E (1 ×)+1V8_SW B08 (9 ×)+1V8UP B14B (2 ×)+24V B06 (2 ×)+24VAUDIO B07B (1 ×)+24VAUDIO B07D (1 ×)+2V5_SW B07C (2 ×)+3V3 B05 (4 ×)+3V3 B06 (6 ×)+3V3 B14A (1 ×)+3V3_SW B07B (2 ×)+3V3_SW B07C (5 ×)+3V3_SW B07E (7 ×)+3V3_SW B14A (21 ×)+3V3_SW B14B (11 ×)+3V3_SW B14C (2 ×)+3V3_SW B14D (1 ×)+3V3_SW B14F (1 ×)+3V3-STANDBY B05 (1 ×)+3V3-STANDBY B14A (1 ×)+3V3STBY B07B (1 ×)+3V3STBY B07D (2 ×)+3V3STBY B07E (9 ×)+3V3STBY B14A (4 ×)+3V3STBY B14C (1 ×)+3V3STBY B14F (1 ×)+5V B05 (2 ×)+5V B07B (1 ×)+5V_COMBINED B14C (8 ×)+5V_SW B07B (3 ×)+5V_SW B07C (3 ×)+5V_SW B07E (4 ×)+5V_SW B13 (1 ×)+5V_SW B14A (1 ×)+5V_SW B14C (1 ×)+5V_SW B14F (1 ×)+5V5_TUN B07B (1 ×)+5V5_TUN B07C (1 ×)+5VS B07C (2 ×)+5VTUN_DIGITAL B07C (2 ×)+8V_SW B07B (1 ×)+VDISP B02 (1 ×)+VDISP B03 (4 ×)+VDISP B04A (1 ×)+VDISP B04B (6 ×)+VDISP-INT B03 (1 ×)+VDISP-INT B14A (1 ×)100Hz_120Hz B02 (1 ×)100Hz_120Hz B04A (1 ×)5V B14F (1 ×)AFT B07C (1 ×)AFT B14F (1 ×)AIN0_L B14D (2 ×)AIN0_L-SC2 B14D (1 ×)AIN0_L-SC2 B14E (1 ×)AIN0_R B14D (2 ×)AIN0_R-SC2 B14D (1 ×)AIN0_R-SC2 B14E (1 ×)AIN1_L B14D (2 ×)AIN1_L-SC1 B14D (1 ×)AIN1_L-SC1 B14E (1 ×)AIN1_R B14D (2 ×)AIN1_R-SC1 B14D (1 ×)AIN1_R-SC1 B14E (1 ×)AMBI_SCL B14A (1 ×)AMBI_SCL B14B (1 ×)AMBI_SDA B14A (1 ×)AMBI_SDA B14B (1 ×)AMBI-BLANK_R1 B06 (2 ×)AMBI-BLANK_R1 B14B (1 ×)AMBI-LATCH1_G2 B06 (2 ×)AMBI-LATCH1_G2 B14B (1 ×)AMBI-LATCH2_DIS B06 (2 ×)AMBI-LATCH2_DIS B14B (1 ×)AMBI-PROG_B1 B06 (2 ×)AMBI-PROG_B1 B14B (1 ×)AMBI-PWM-CLK_B2 B06 (2 ×)AMBI-PWM-CLK_B2 B14B (1 ×)AMBI-SPI-CLK-OUT B06 (2 ×)AMBI-SPI-CLK-OUT B14B (1 ×)AMBI-SPI-CLK-OUT-R B06 (1 ×)AMBI-SPI-CS-EXTLAMPSn B06 (2 ×)AMBI-SPI-CS-EXTLAMPSn B14B (1 ×)AMBI-SPI-CS-OUTn_R2 B06 (2 ×)AMBI-SPI-CS-OUTn_R2 B14B (1 ×)AMBI-SPI-CS-OUTn_R2-R B06 (1 ×)AMBI-SPI-SDI-OUT_G1 B06 (2 ×)AMBI-SPI-SDI-OUT_G1 B14B (1 ×)AMBI-SPI-SDO-OUT B06 (2 ×)AMBI-SPI-SDO-OUT B14B (1 ×)AMBI-SPI-SDO-OUT-R B06 (1 ×)AMBI-TEMP B06 (2 ×)AMBI-TEMP B14B (1 ×)AOUTL B07D (2 ×)AOUTL B14D (1 ×)AOUTR B07D (2 ×)AOUTR B14D (1 ×)ARX0- B14C (2 ×)ARX0+ B14C (2 ×)ARX1- B14C (2 ×)
ARX1+ B14C (2 ×)ARX2- B14C (2 ×)ARX2+ B14C (2 ×)ARX-5V B07E (1 ×)ARX-5V B14C (2 ×)ARXC- B14C (2 ×)ARXC+ B14C (2 ×)ARX-DDC-CLK B14C (2 ×)ARX-DDC-DAT B14C (2 ×)ARX-HPD B14C (2 ×)ASPDIF_OUT B14D (1 ×)ASPDIF_OUT B14F (1 ×)AUDIO_GND B07D (2 ×)AV3_L_IN B14D (1 ×)AV3_L_IN B14E (1 ×)AV3_R_IN B14D (1 ×)AV3_R_IN B14E (1 ×)BACKLIGHT-BOOST-A B07B (1 ×)BACKLIGHT-BOOST-A B14A (1 ×)BACKLIGHT-PWM_BL-VS B05 (1 ×)BACKLIGHT-PWM_BL-VS B06 (1 ×)BACKLIGHT-PWM-ANA-DISP B05 (1 ×)BIT_SCK B02 (1 ×)BIT_SCK B04C (2 ×)BIT_SCS B02 (1 ×)BIT_SCS B04C (2 ×)BIT_SDI B02 (1 ×)BIT_SDI B04C (2 ×)BIT_SDO B02 (1 ×)BIT_SDO B04C (2 ×)BL-SPI-CLK B05 (1 ×)BL-SPI-CLK B06 (3 ×)BL-SPI-CSn B05 (1 ×)BL-SPI-CSn B06 (2 ×)BL-SPI-SDI B05 (1 ×)BL-SPI-SDI B06 (2 ×)BL-SPI-SDO B05 (1 ×)BL-SPI-SDO B06 (3 ×)BN B13 (1 ×)BN B14D (1 ×)BP B13 (1 ×)BP B14D (1 ×)BRX0- B14C (2 ×)BRX0+ B14C (2 ×)BRX1- B14C (2 ×)BRX1+ B14C (2 ×)BRX2- B14C (2 ×)BRX2+ B14C (2 ×)BRX-5V B07E (1 ×)BRX-5V B14C (2 ×)BRXC- B14C (2 ×)BRXC+ B14C (2 ×)BRX-DDC-CLK B14C (2 ×)BRX-DDC-DAT B14C (2 ×)BRX-HPD B14C (2 ×)BYPASS B14A (2 ×)BYPASS_MODE B04A (2 ×)CEC B14C (4 ×)CRX0- B14C (2 ×)CRX0+ B14C (2 ×)CRX1- B14C (2 ×)CRX1+ B14C (2 ×)CRX2- B14C (2 ×)CRX2+ B14C (2 ×)CRX-5V B07E (1 ×)CRX-5V B14C (2 ×)CRXC- B14C (2 ×)CRXC+ B14C (2 ×)CRX-DDC-CLK B14C (2 ×)CRX-DDC-DAT B14C (2 ×)CRX-HPD B14C (2 ×)CS_H B04A (1 ×)CS_H B04B (2 ×)CS_L B04A (1 ×)CS_L B04B (2 ×)CS1 B02 (1 ×)CS1 B04B (2 ×)CS10 B02 (1 ×)CS10 B04B (1 ×)CS10U B04B (3 ×)CS10U B04C (2 ×)CS11 B02 (1 ×)CS11 B04B (1 ×)CS11U B04B (3 ×)CS11U B04C (2 ×)CS12 B02 (1 ×)CS12 B04B (1 ×)CS12U B04B (3 ×)CS12U B04C (2 ×)CS1U B04B (3 ×)CS1U B04C (2 ×)CS2 B02 (1 ×)CS2 B04B (2 ×)CS2U B04B (3 ×)CS2U B04C (2 ×)CS3 B02 (1 ×)CS3 B04B (2 ×)CS3U B04B (3 ×)CS3U B04C (2 ×)CS4 B02 (1 ×)CS4 B04B (2 ×)CS4U B04B (3 ×)CS4U B04C (2 ×)CS5 B02 (1 ×)CS5 B04B (2 ×)CS5U B04B (3 ×)CS5U B04C (2 ×)CS6 B02 (1 ×)CS6 B04B (2 ×)CS6U B04B (3 ×)CS6U B04C (2 ×)CS7 B02 (1 ×)CS7 B04B (1 ×)CS7U B04B (3 ×)CS7U B04C (2 ×)CS8 B02 (1 ×)CS8 B04B (1 ×)
CS8U B04B (3 ×)CS8U B04C (2 ×)CS9 B02 (1 ×)CS9 B04B (1 ×)CS9U B04B (3 ×)CS9U B04C (2 ×)CTRL-DISP B04A (1 ×)CTRL-DISP B14A (1 ×)CVBS_AV3 B14D (1 ×)CVBS_AV3 B14E (1 ×)CVBS_RF B07C (1 ×)CVBS_RF B14D (1 ×)CVBS0T B07C (2 ×)DC_5V B13 (3 ×)DC_PROT B07D (1 ×)DC_PROT B14A (1 ×)DDC_RESET B14A (1 ×)DDC_RESET B14C (1 ×)DDC-SCL B14A (1 ×)DDC-SCL B14C (2 ×)DDC-SDA B14A (1 ×)DDC-SDA B14C (2 ×)DEMOD_RESET B07C (1 ×)DEMOD_RESET B14A (1 ×)DM B14F (1 ×)DP B14F (1 ×)DRX0- B14C (2 ×)DRX0+ B14C (2 ×)DRX1- B14C (2 ×)DRX1+ B14C (2 ×)DRX2- B14C (2 ×)DRX2+ B14C (2 ×)DRX-5V B14A (1 ×)DRX-5V B14C (2 ×)DRXC- B14C (2 ×)DRXC+ B14C (2 ×)DRX-DDC-CLK B14C (2 ×)DRX-DDC-DAT B14C (1 ×)DRX-HPD B14C (2 ×)DVI_AUL_IN B14D (1 ×)DVI_AUR_IN B14D (1 ×)EDID_SCL B13 (1 ×)EDID_SCL B14C (1 ×)EDID_SDA B13 (1 ×)EDID_SDA B14C (1 ×)EDID_WC B13 (1 ×)EDID_WC B14A (1 ×)EDID_WC B14C (1 ×)EN B02 (1 ×)EN B04A (2 ×)FAN-CTRL1 B05 (1 ×)FAN-CTRL2 B05 (1 ×)FAN-DRV B05 (1 ×)FRONTEND_SCL B07C (1 ×)FRONTEND_SCL B07E (1 ×)FRONTEND_SDA B07C (1 ×)FRONTEND_SDA B07E (1 ×)FS B02 (1 ×)FS B04C (2 ×)G_LBR B02 (1 ×)G_LBR B04C (2 ×)G_LBR_INV B02 (1 ×)G_LBR_INV B04C (2 ×)GAIN_SW B07C (1 ×)GAIN_SW B14A (1 ×)GCK_L B02 (1 ×)GCK_L B04C (1 ×)GCK_R B02 (1 ×)GCK_R B04C (1 ×)GN B13 (1 ×)GN B14D (1 ×)GND_CVBS_RF B07C (1 ×)GND_CVBS_RF B14D (1 ×)GND-SIG B07B (16 ×)GNDSND B07B (4 ×)GNDSND B07D (27 ×)GOE_L B02 (1 ×)GOE_L B04C (1 ×)GOE_R B02 (1 ×)GOE_R B04C (1 ×)GP B13 (1 ×)GP B14D (1 ×)GSLOP B02 (1 ×)GSLOP B03 (2 ×)GSP1 B02 (1 ×)GSP1 B04C (2 ×)GSP2 B02 (1 ×)GSP2 B04C (2 ×)HDMI_CEC B07E (1 ×)HDMI_CEC B14C (1 ×)HDMI_RESET B14A (1 ×)HDMI_RESET B14C (1 ×)HP_DET B14A (1 ×)HP_DET B14D (1 ×)HP_DETECT B14A (1 ×)HP_LOUT B07D (1 ×)HP_LOUT B14D (2 ×)HP_ROUT B07D (1 ×)HP_ROUT B14D (2 ×)HSYNC B13 (1 ×)HSYNC B14D (1 ×)INNCOM B04A (2 ×)JTCK B14A (2 ×)JTDI B14A (2 ×)JTDO B14A (2 ×)JTMS B14A (2 ×)JTRST B14A (2 ×)KEYBOARD B05 (1 ×)KEYBOARD B14F (1 ×)L_LVA0- B02 (1 ×)L_LVA0- B04C (1 ×)L_LVA0+ B02 (1 ×)L_LVA0+ B04C (1 ×)L_LVA1- B02 (1 ×)L_LVA1- B04C (1 ×)L_LVA1+ B02 (1 ×)L_LVA1+ B04C (1 ×)
L_LVA2- B02 (1 ×)L_LVA2- B04C (1 ×)L_LVA2+ B02 (1 ×)L_LVA2+ B04C (1 ×)L_LVA3- B02 (1 ×)L_LVA3- B04C (1 ×)L_LVA3+ B02 (1 ×)L_LVA3+ B04C (1 ×)L_LVA4- B02 (1 ×)L_LVA4- B04C (1 ×)L_LVA4+ B02 (1 ×)L_LVA4+ B04C (1 ×)L_LVA5- B02 (1 ×)L_LVA5- B04C (1 ×)L_LVA5+ B02 (1 ×)L_LVA5+ B04C (1 ×)L_LVB0- B02 (1 ×)L_LVB0- B04C (1 ×)L_LVB0+ B02 (1 ×)L_LVB0+ B04C (1 ×)L_LVB1- B02 (1 ×)L_LVB1- B04C (1 ×)L_LVB1+ B02 (1 ×)L_LVB1+ B04C (1 ×)L_LVB2- B02 (1 ×)L_LVB2- B04C (1 ×)L_LVB2+ B02 (1 ×)L_LVB2+ B04C (1 ×)L_LVB3- B02 (1 ×)L_LVB3- B04C (1 ×)L_LVB3+ B02 (1 ×)L_LVB3+ B04C (1 ×)L_LVB4- B02 (1 ×)L_LVB4- B04C (1 ×)L_LVB4+ B02 (1 ×)L_LVB4+ B04C (1 ×)L_LVB5- B02 (1 ×)L_LVB5- B04C (1 ×)L_LVB5+ B02 (1 ×)L_LVB5+ B04C (1 ×)L_LVCKA- B02 (1 ×)L_LVCKA- B04C (1 ×)L_LVCKA+ B02 (1 ×)L_LVCKA+ B04C (1 ×)L_LVCKB- B02 (1 ×)L_LVCKB- B04C (1 ×)L_LVCKB+ B02 (1 ×)L_LVCKB+ B04C (1 ×)LAMP-ON-A B07B (1 ×)LAMP-ON-A B14A (1 ×)LCD-PWR-ONn_A B14A (3 ×)LED-1 B05 (2 ×)LED-1 B07E (1 ×)LED-2 B05 (1 ×)LED-2 B07E (1 ×)LIGHT-SENSOR B05 (1 ×)LIGHT-SENSOR B14F (1 ×)LS_L B02 (1 ×)LS_L B04C (1 ×)LS_R B02 (1 ×)LS_R B04C (1 ×)LVDS_AGND B02 (4 ×)LVDS_AVDD B02 (3 ×)MINI_AGND B02 (3 ×)mini_AVDD B02 (3 ×)MODE2 B02 (1 ×)MODE2 B04A (1 ×)MUTE B07D (2 ×)MUTEn B07D (1 ×)MUTEn B07E (1 ×)NAND_PALE B14A (2 ×)NAND_PARB B14A (2 ×)NAND_PCLE B14A (2 ×)NAND_PDD(0) B14A (2 ×)NAND_PDD(1) B14A (2 ×)NAND_PDD(2) B14A (2 ×)NAND_PDD(3) B14A (2 ×)NAND_PDD(4) B14A (2 ×)NAND_PDD(5) B14A (2 ×)NAND_PDD(6) B14A (2 ×)NAND_PDD(7) B14A (2 ×)NAND_POCE B14A (2 ×)NAND_POOE B14A (2 ×)NAND_POWE B14A (2 ×)OS_ON-OFF B02 (1 ×)OS_ON-OFF B04A (1 ×)OUTCOM B04A (3 ×)PB0P B14D (2 ×)PB1P B14D (1 ×)PBR0N B14D (1 ×)PBR1N B14D (1 ×)PBS_SPI_CLK B14A (1 ×)PBS_SPI_DI B14A (1 ×)PNX-SPI-CLK B06 (2 ×)PNX-SPI-CS-AMBIn B06 (1 ×)PNX-SPI-CS-BLn B06 (1 ×)PNX-SPI-SDI B06 (2 ×)PNX-SPI-SDO B06 (2 ×)POWER_DOWN B07D (1 ×)POWER_DOWN B07E (1 ×)POWER-OK-A B07B (1 ×)POWER-OK-A B14F (1 ×)PR0P B14D (2 ×)PR1P B14D (1 ×)PWM-DIMMING B07B (1 ×)PWM-DIMMING B14A (1 ×)PX1A- B02 (1 ×)PX1A- B14A (1 ×)PX1A+ B02 (1 ×)PX1A+ B14A (1 ×)PX1B- B02 (1 ×)PX1B- B14A (1 ×)PX1B+ B02 (1 ×)PX1B+ B14A (1 ×)PX1C- B02 (1 ×)PX1C- B14A (1 ×)PX1C+ B02 (1 ×)
PX1C+ B14A (1 ×)PX1CLK- B02 (1 ×)PX1CLK- B14A (1 ×)PX1CLK+ B02 (1 ×)PX1CLK+ B14A (1 ×)PX1D- B02 (1 ×)PX1D- B14A (2 ×)PX1D+ B02 (1 ×)PX1D+ B14A (1 ×)PX1E- B02 (1 ×)PX1E- B14A (1 ×)PX1E+ B02 (1 ×)PX1E+ B14A (1 ×)PX2A- B02 (1 ×)PX2A- B14A (1 ×)PX2A+ B02 (1 ×)PX2A+ B14A (1 ×)PX2B- B02 (1 ×)PX2B- B14A (1 ×)PX2B+ B02 (1 ×)PX2B+ B14A (1 ×)PX2C- B02 (1 ×)PX2C- B14A (1 ×)PX2C+ B02 (1 ×)PX2C+ B14A (1 ×)PX2CLK- B02 (1 ×)PX2CLK- B14A (1 ×)PX2CLK+ B02 (1 ×)PX2CLK+ B14A (1 ×)PX2D- B02 (1 ×)PX2D- B14A (2 ×)PX2D+ B02 (1 ×)PX2D+ B14A (1 ×)PX2E- B02 (1 ×)PX2E- B14A (1 ×)PX2E+ B02 (1 ×)PX2E+ B14A (1 ×)PX3A- B02 (1 ×)PX3A- B14A (1 ×)PX3A+ B02 (1 ×)PX3A+ B14A (1 ×)PX3B- B02 (1 ×)PX3B- B14A (1 ×)PX3B+ B02 (1 ×)PX3B+ B14A (1 ×)PX3C- B02 (1 ×)PX3C- B14A (1 ×)PX3C+ B02 (1 ×)PX3C+ B14A (1 ×)PX3CLK- B02 (1 ×)PX3CLK- B14A (1 ×)PX3CLK+ B02 (1 ×)PX3CLK+ B14A (1 ×)PX3D- B02 (1 ×)PX3D- B14A (2 ×)PX3D+ B02 (1 ×)PX3D+ B14A (1 ×)PX3E- B02 (1 ×)PX3E- B14A (1 ×)PX3E+ B02 (1 ×)PX3E+ B14A (1 ×)PX4A- B02 (1 ×)PX4A- B14A (1 ×)PX4A+ B02 (1 ×)PX4A+ B14A (1 ×)PX4B- B02 (1 ×)PX4B- B14A (1 ×)PX4B+ B02 (1 ×)PX4B+ B14A (1 ×)PX4C- B02 (1 ×)PX4C- B14A (1 ×)PX4C+ B02 (1 ×)PX4C+ B14A (1 ×)PX4CLK- B02 (1 ×)PX4CLK- B14A (1 ×)PX4CLK+ B02 (1 ×)PX4CLK+ B14A (1 ×)PX4D- B02 (1 ×)PX4D- B14A (2 ×)PX4D+ B02 (1 ×)PX4D+ B14A (1 ×)PX4E- B02 (1 ×)PX4E- B14A (1 ×)PX4E+ B02 (1 ×)PX4E+ B14A (1 ×)R_L B02 (1 ×)R_L B04A (1 ×)R_LVA0- B02 (1 ×)R_LVA0- B04C (1 ×)R_LVA0+ B02 (1 ×)R_LVA0+ B04C (1 ×)R_LVA1- B02 (1 ×)R_LVA1- B04C (1 ×)R_LVA1+ B02 (1 ×)R_LVA1+ B04C (1 ×)R_LVA2- B02 (1 ×)R_LVA2- B04C (1 ×)R_LVA2+ B02 (1 ×)R_LVA2+ B04C (1 ×)R_LVA3- B02 (1 ×)R_LVA3- B04C (1 ×)R_LVA3+ B02 (1 ×)R_LVA3+ B04C (1 ×)R_LVA4- B02 (1 ×)R_LVA4- B04C (1 ×)R_LVA4+ B02 (1 ×)R_LVA4+ B04C (1 ×)R_LVA5- B02 (1 ×)R_LVA5- B04C (1 ×)R_LVA5+ B02 (1 ×)R_LVA5+ B04C (1 ×)R_LVB0- B02 (1 ×)R_LVB0- B04C (1 ×)R_LVB0+ B02 (1 ×)R_LVB0+ B04C (1 ×)R_LVB1- B02 (1 ×)R_LVB1- B04C (1 ×)
R_LVB1+ B02 (1 ×)R_LVB1+ B04C (1 ×)R_LVB2- B02 (1 ×)R_LVB2- B04C (1 ×)R_LVB2+ B02 (1 ×)R_LVB2+ B04C (1 ×)R_LVB3- B02 (1 ×)R_LVB3- B04C (1 ×)R_LVB3+ B02 (1 ×)R_LVB3+ B04C (1 ×)R_LVB4- B02 (1 ×)R_LVB4- B04C (1 ×)R_LVB4+ B02 (1 ×)R_LVB4+ B04C (1 ×)R_LVB5- B02 (1 ×)R_LVB5- B04C (1 ×)R_LVB5+ B02 (1 ×)R_LVB5+ B04C (1 ×)R_LVCKA- B02 (1 ×)R_LVCKA- B04C (1 ×)R_LVCKA+ B02 (1 ×)R_LVCKA+ B04C (1 ×)R_LVCKB- B02 (1 ×)R_LVCKB- B04C (1 ×)R_LVCKB+ B02 (1 ×)R_LVCKB+ B04C (1 ×)RC B05 (1 ×)RC B14A (1 ×)RC1 B14A (1 ×)RC1 B14D (1 ×)RC2 B14A (1 ×)RC2 B14D (1 ×)RESET B02 (1 ×)RESET B03 (1 ×)RESET B04B (1 ×)REV B02 (1 ×)REV B04C (2 ×)RF_SW B07C (1 ×)RF_SW B14A (1 ×)RN B13 (1 ×)RN B14D (1 ×)RP B13 (1 ×)RP B14D (1 ×)RX0- B14C (1 ×)RX0+ B14C (1 ×)RX1- B14C (1 ×)RX1+ B14C (1 ×)RX2- B14C (1 ×)RX2+ B14C (1 ×)RXC- B14C (1 ×)RXC+ B14C (1 ×)S0Y1 B14D (1 ×)SCK B02 (1 ×)SCK B04A (2 ×)SCK B04C (2 ×)SCL-BL B05 (2 ×)SCL-DISP B04A (1 ×)SCL-DISP B07E (1 ×)SCL-MAIN B14A (3 ×)SCL-MAIN B14C (1 ×)SCL-TCON B02 (1 ×)SCL-TCON B04A (5 ×)SCS B02 (1 ×)SCS B04A (2 ×)SCS B04C (2 ×)SDA-BL B05 (2 ×)SDA-DISP B04A (1 ×)SDA-DISP B07E (1 ×)SDA-MAIN B14A (3 ×)SDA-MAIN B14C (1 ×)SDA-TCON B02 (1 ×)SDA-TCON B04A (5 ×)SDI B02 (2 ×)SDI B04A (2 ×)SDI B04C (1 ×)SDO B02 (1 ×)SDO B04A (2 ×)SDO B04C (2 ×)SELLVDS B02 (1 ×)SELLVDS B04A (1 ×)SENSE+1V0_MTK5392 B07B (1 ×)SENSE+1V0_MTK5392 B07E (1 ×)SGND1 B03 (13 ×)SGND2 B02 (4 ×)SIF_OUT B07C (1 ×)SIF_OUT B14D (1 ×)SIF_OUT_1 B07C (2 ×)SIF_OUT_GND B07C (1 ×)SIF_OUT_GND B14D (1 ×)SOG B13 (1 ×)SOG B14D (1 ×)SOY0 B14D (2 ×)SPB0P B14D (1 ×)SPB0P B14E (1 ×)SPB1P B14D (1 ×)SPB1P B14E (1 ×)SPBR0N B14D (1 ×)SPBR0N B14E (1 ×)SPBR1N B14D (1 ×)SPBR1N B14E (1 ×)SPR0P B14D (1 ×)SPR0P B14E (1 ×)SPR1P B14D (1 ×)SPR1P B14E (1 ×)SSCG_AGND B02 (3 ×)SSCG_AVDD B02 (3 ×)STANDBY B07B (1 ×)STANDBY B07E (1 ×)STANDBYn B07D (1 ×)STANDBYn B07E (1 ×)SW_MUTE B07D (1 ×)SW_MUTE B07E (1 ×)SY0N B14D (1 ×)SY0N B14E (1 ×)SY0P B14D (1 ×)SY0P B14E (1 ×)SY1N B14D (1 ×)
SY1N B14E (1 ×)SY1P B14D (1 ×)SY1P B14E (1 ×)TACH01 B05 (1 ×)TACH02 B05 (1 ×)TSO_CLK B07C (1 ×)TSO_CLK B07E (1 ×)TSO_DATA0 B07C (1 ×)TSO_DATA0 B07E (1 ×)TSO_SYNC B07C (1 ×)TSO_SYNC B07E (1 ×)TSO_VALID B07C (1 ×)TSO_VALID B07E (1 ×)TUNER_SCL B07C (2 ×)TUNER_SDA B07C (2 ×)U_D B02 (1 ×)U_D B04A (1 ×)UART_RX B14A (2 ×)UART_TX B14A (2 ×)UP_RESET B14B (2 ×)UP_RTCK B14B (2 ×)UPJTAG_TCK B14B (2 ×)UPJTAG_TDI B14B (2 ×)UPJTAG_TDO B14B (2 ×)UPJTAG_TMS B14B (2 ×)UPJTAG_TRST B14B (2 ×)USB_OC B14A (1 ×)USB_OC B14F (1 ×)USB_PWE B14A (1 ×)USB_PWE B14F (1 ×)V-AMBI B06 (2 ×)V-AMBI B14B (1 ×)VCC B04A (2 ×)VCC_1V2 B02 (2 ×)VCC_1V2 B03 (1 ×)VCC_3V3 B02 (3 ×)VCC_3V3 B03 (3 ×)VCC_3V3 B04A (6 ×)VCC_3V3 B04B (1 ×)VCC_3V3 B04C (2 ×)VCOM B04A (1 ×)VCOM B04B (1 ×)VCOM B04C (2 ×)VDD B07D (2 ×)VDD12 B02 (5 ×)VDD33 B02 (6 ×)VDDA B07D (2 ×)VDDO_3V3 B14C (3 ×)VDDQ B02 (3 ×)VGA-SCL-EDID-TCON B04A (1 ×)VGA-SCL-EDID-TCON B13 (1 ×)VGA-SDA-EDID-TCON B04A (1 ×)VGA-SDA-EDID-TCON B13 (1 ×)VGH_35V B03 (2 ×)VGH_35V B04C (2 ×)VGH_FB B03 (1 ×)VGL_-6V B03 (2 ×)VGL_-6V B04C (2 ×)VGL_FB B03 (1 ×)VH0 B04A (1 ×)VH0 B04C (2 ×)VH127 B04A (2 ×)VH127 B04C (2 ×)VH159 B04A (2 ×)VH159 B04C (2 ×)VH191 B04A (2 ×)VH191 B04C (2 ×)VH247 B04A (1 ×)VH247 B04C (2 ×)VH255 B04A (1 ×)VH255 B04C (2 ×)VH31 B04A (1 ×)VH31 B04C (2 ×)VH63 B04A (2 ×)VH63 B04C (2 ×)VH95 B04A (2 ×)VH95 B04C (2 ×)VINT B06 (2 ×)VIO B06 (2 ×)VL0 B04A (1 ×)VL0 B04C (2 ×)VL127 B04A (2 ×)VL127 B04C (2 ×)VL159 B04A (2 ×)VL159 B04C (2 ×)VL191 B04A (2 ×)VL191 B04C (2 ×)VL247 B04A (1 ×)VL247 B04C (2 ×)VL255 B04A (1 ×)VL255 B04C (2 ×)VL31 B04A (1 ×)VL31 B04C (2 ×)VL63 B04A (2 ×)VL63 B04C (2 ×)VL95 B04A (2 ×)VL95 B04C (2 ×)VLS_15V6 B03 (3 ×)VLS_15V6 B04A (4 ×)VLS_15V6 B04B (1 ×)VLS_15V6 B04C (2 ×)VLS_15V6_B B03 (2 ×)VLS_FB B03 (1 ×)VREF_15V2 B04A (3 ×)VREF_15V2 B04B (4 ×)VSYNC B13 (1 ×)VSYNC B14D (1 ×)WP B04A (2 ×)Y0N B14D (2 ×)Y0P B14D (2 ×)Y1N B14D (1 ×)Y1P B14D (1 ×)
Circuit Diagrams and PWB Layouts EN 79LC9.3L LA 10.
2010-Mar-26
IR/LED Board
18970_530_100323.eps100323
IR/LED boardJ J
2009-12-091
YKJ2035IR/LED
R114.7kΩ / 100Ω
VSS
D1
R7
10kΩ R810kΩ
B2
C1
E3
Q1BC847
VSS
+3.3V
+3.3V+5V
+5V
LED1LED2
LED2
LED1
R9
10kΩ
IR
IR
R1247Ω
VSS
R3100Ω
R46.8kΩ
R60Ω
VSS
+3.3V
VSS
+3.3V
C1 10μF
LIGHT
B2
C3
E1
Q2
BC857
12345678
J1
2.0- 8pin
123
J2
2.0- 3pin
REDWHITE
R10
10kΩ
R22220Ω
D3 IR-outTSML1020
GND1
GND2
VDD3
OUT4U1*
TSOP35236
D4
R234.7kΩ / 100Ω
D5
D2
B 2
C1
E3
Q2*
BC847
GND1
GND2
OUT3
VDD4U1
IRM -H636
VSS
VSS
+5V
B 2
C1
E3
Q3
BC847
R13100kΩ
R173.3MΩR16
10kΩ
LIGHT
R15
8.2kΩ
G1
TEMT6200FX01
ZD1
3.3V
C3
10μF
C4
10μF
R180Ω
R14
200Ω
Keyboard
Keyboard
ALS-PT17-51NB/L369/TR8
C
100μF/10V
VSS
VSSVSS
C2100pF
EN 80LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
Layout IR/LED Board
18970_531_100323.eps100323
2009-12-091
YKJ2035IR/LED
XXXXXX-X000112NC
Layout IR/LED Board (Top Side)
Layout IR/LED Board (Bottom Side)
Circuit Diagrams and PWB Layouts EN 81LC9.3L LA 10.
2010-Mar-26
Keyboard Control Board
18970_540_100323.eps100323
Keyboard Control BoardE E
2009-09-101
SF2035/SF2037SIDE CONTROL
+3.3V
R65.6kΩVSS
R210Ω
C2103
R88.2kΩ
R53.9kΩ
R41.5kΩ
R32.2kΩ
R718kΩ
CH+
ZD14.7V
VSS
CH−
VSS
MENU
VSS
VOL+
VSS
VOL−
VSS
ON/OFF
VSS
VSS VSS VSS VSS
R9 6.8kΩ
123
J1
CON3
EN 82LC9.3L LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-26
Layout Keyboard Control Board
18970_541_100323.eps100323
2009-09-101
SF2035/SF2037SIDE CONTROL
Layout Keyboard Control Board
Styling Sheets EN 83LC9.3L LA 11.
2010-Mar-26
11. Styling Sheets
Styling Sheet 32" - 40" (Picasso)
18970_803_100326.eps100326
PICASSO 32"- 40"
Pos No. Description Remarks0004 Front Cabinet0012 Back Cover 0021 I/O Bracket Side 0024 I/O Bracket Bottom0028 Bottom Flare0045 Speaker bracket 0260 Stand1085 Remote Control Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9 0004
0028
0026
0012
0021
0024
0045
EN 84LC9.3L LA 11.Styling Sheets
2010-Mar-26
Styling Sheet 32" - 46" (van Gogh)
0004
0017
0018
0026
0260
0012
0024
0021
0026
VAN GOGH 32" - 46"
18970_804_100326.eps100326
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
Pos No. Description Remarks0004 Front Cabinet0012 Back Cover0017 Flare Van Gogh0018 Leading Edge Cover 0021 I/O Bracket Side 0024 I/O Bracket Bottom0026 Mounting Bracket 4x For screen size 40” only.0029 Switch Bracket0260 Stand1085 Remote Control Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
Styling Sheets EN 85LC9.3L LA 11.
2010-Mar-26
Styling Sheet 32" - 46" (Da Vinci)
18970_805_100326.eps100326
DA VINCI 32"- 46"
Pos No. Description Remarks
0004 Front Cabinet0012 Back Cover0017 Flare Van Gogh0018 Leading Edge Cover0019 Diffuser Left For screen size 32" & 46" only.0020 Diffuser Right For screen size 32" & 46" only. 0021 I/O Bracket Side0022 Diffuser Left/Right For screen size 40" only.0024 I/O Bracket Bottom0026 Mounting Bracket 4x For screen size 40" only.0029 Switch Bracket0154 Speaker Bracket Not displayed. For screen size 46" only.0260 Stand1085 Remote Control Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
0004
0017
0260
0018
0012
0022
0019
0029
0026
0021
0022
0020
0026
0024