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Transcript of Philips q543.1e La Chassis Lcd
Published by ER/TY 0963 BU TV Consumer Care, the Netherlands Subject to modification EN 3122 785 18540
2009-Mar-27
©Copyright 2009 Koninklijke Philips Electronics N.V.All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips.
Colour Television Chassis
Q543.1ELA
18440_000_090205.eps090226
P&SP&S
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 136. Alignments 317. Circuit Descriptions 368. IC Data Sheets 459. Block Diagrams
Wiring Diagram 32" (P&S) 53Wiring Diagram 37" (P&S) 54Wiring Diagram 47" (P&S) 55Block Diagram Video 56Block Diagram Audio 57Block Diagram Control & Clock Signals 58Block Diagram I2C 59Supply Lines Overview 60
10. Circuit Diagrams and PWB LayoutsSSB: DC/DC +3V3 +1V2 (B01A) 61 84SSB: DC/DC +3V3 +1V2 Standby (B01B) 62 84SSB: Front End (B02A) 63 84SSB: PNX8543 - Power (B03A) 64 84SSB: PNX8543 - Video Streams/LVDS Output
(B03B) 65 84SSB: PNX8543 Audio Amplifier (B03C) 66 84SSB: PNX8543 Audio (B03D) 67 84SSB: PNX8543 Analog AV (B03E) 68 84SSB: PNX8543 SDRAM (B03F) 69 84SSB: PNX8543 Control MIPS/Flash/PCI (B03G) 70 84SSB: PNX8543 Standby Control/Debug (B03H) 71 84SSB: Bolt-on (B04A) 72 84SSB: Analog IO - Scart 1 & 2 (B04B) 73 84SSB: YPbPr / Side I/O / S-video (B04C) 74 84SSB: HDMI (B05A) 75 84
SSB: Ethernet (B05B) 76 84SSB: PCMCIA (B05C) 77 84SSB: Class-D (B06A) 78 84SSB: Display Interface (Common) (B07A) 79 84SSB: Display Supply (B07B) 80 84SSB: SRP List Explanation 81SSB: SRP List Part 1 82SSB: SRP List Part 2 83
Revision ListEN 2 Q543.1E LA1.
2009-Mar-27
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:
32PFL5404H/12 P & S 3122 785 18540
37PFL5604H/12 3122 785 18540
47PFL5604H/12 3122 785 18540
Technical Specifications and Connections EN 3Q543.1E LA 2.
2009-Mar-27
2.3 Connections
Figure 2-1 Connection overview
Note: The following connector colour 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 Connections
1 - Cinch: Audio - InRd - Audio R 0.5 VRMS / 10 k٠��Wh - Audio L 0.5 VRMS / 10 k٠��
2 - Cinch: Video CVBS - InYe - Video CVBS 1 VPP / 75 ٠��
3 - S-Video (Hosiden): Video Y/C - In1 - Ground Y Gnd �2 - Ground C Gnd �
3 - Video Y 1 VPP / 75 Ω �
4 - Video C 0.3 VPP / 75 Ω �
4 - Head phone (Output)Bk - Head phone 32 - 600 ٠/ 10 mW ��
5 - Common Interface68p- See diagram B05C SSB: PCMCIA ��
18440_001_090217.eps090217
Back connectors
EXT 2(RGB/CVBS)
EXT 1(RGB/CVBS)
SPDIFOUT
AUDIO
VGA
TV ANTENNA
HDMI 3
AUDIO IN:LEFT / RIGHTHDMI 1 / DVIHDMI 2 / DVIHDMI 3 / DVI
VGA
EXT 3
11
12
13
10 9
14 15 16
HDMI 2 HDMI 1
OUT
1
2
6
34
5
7
8
26-52”
19-22”
Side connectors
Technical Specifications and ConnectionsEN 4 Q543.1E LA2.
2009-Mar-27
6 - USB2.0
Figure 2-2 USB (type A)
1 - +5V �
2 - Data (-) ��3 - Data (+) ��
4 - Ground Gnd �
7 - HDMI: Digital Video, Digital Audio - In (see connector 15)
8 - Service Connector (UART)1 - Ground Gnd �
2 - UART_TX Transmit �3 - UART_RX Receive �
2.3.2 Rear Connections
9 - EXT1 & 2: Video RGB - In, CVBS - In/Out, Audio - In/Out
Figure 2-3 SCART connector
1 - Audio R 0.5 VRMS / 1 kΩ �
2 - Audio R 0.5 VRMS / 10 kΩ �
3 - Audio L 0.5 VRMS / 1 kΩ �4 - Ground Audio Gnd �
5 - Ground Blue Gnd �
6 - Audio L 0.5 VRMS / 10 k٠�7 - Video Blue 0.7 VPP / 75 ٠��
8 - Function Select 0 - 2 V: INT4.5 - 7 V: EXT 16:99.5 - 12 V: EXT 4:3 �
9 - Ground Green Gnd �
10 - n.c. 11 - Video Green 0.7 VPP / 75 Ω �
12 - n.c. 13 - Ground Red Gnd �14 - Ground P50 Gnd �
15 - Video Red 0.7 VPP / 75 Ω �
16 - Status/FBL 0 - 0.4 V: INT1 - 3 V: EXT / 75 Ω �
17 - Ground Video Gnd �
18 - Ground FBL Gnd �19 - Video CVBS/Y 1 VPP / 75 Ω �
20 - Video CVBS 1 VPP / 75 Ω �
21 - Shield Gnd �
10 - Cinch: S/PDIF - OutBk - Coaxial 0.4 - 0.6VPP / 75 ٠��
11 - Cinch: Audio - OutRd - Audio - R 0.5 VRMS / 10 k٠��Wh - Audio - L 0.5 VRMS / 10 k٠��
12 - 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 �
13 - Mini Jack: Audio - InWh - Audio L 0.5 VRMS / 10 k٠��
Rd - Audio R 0.5 VRMS / 10 k٠��
14 - EXT3: 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��
Rd - Audio - R 0.5 VRMS / 10 k٠��
Wh - Audio - L 0.5 VRMS / 10 k٠��
15 - HDMI 1, 2 & 3: Digital Video, Digital Audio - In
Figure 2-5 HDMI (type A) connector
1 - D2+ Data channel �
2 - Shield Gnd �3 - D2- Data channel �
4 - D1+ Data channel �
5 - Shield Gnd �
6 - D1- Data channel �7 - D0+ Data channel �
8 - Shield Gnd �
9 - D0- Data channel �10 - CLK+ Data channel �
11 - Shield Gnd �
12 - CLK- Data channel �13 - Easylink 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 �
16 - Aerial - In- - IEC-type (EU) Coax, 75 Ω �
2.4 Chassis Overview
Refer to chapter 9. Block Diagrams for PWB/CBA locations.
1 2 3 4
10000_022_090121.eps090121
21
20
1
2
10000_001_090121.eps090121
1
610
11
5
15
10000_002_090121.eps090127
19 1
18 2
E_06532_017.eps250505
Precautions, Notes, and Abbreviation List EN 5Q543.1E LA 3.
2009-Mar-27
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 Q543.1E LA3.
2009-Mar-27
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 MHzBLR 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 amplificationDDC See “E-DDC”D/K Monochrome TV system. Sound
carrier distance is 6.5 MHzDFI Dynamic Frame InsertionDFU Directions For Use: owner's manualDMR Digital Media Reader: card readerDMSD Digital Multi Standard DecodingDNM Digital Natural Motion
10000_024_090121.eps090121
MODEL :
PROD.NO:
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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 7Q543.1E LA 3.
2009-Mar-27
DNR Digital Noise Reduction: noise reduction feature of the set
DRAM 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 InterferenceEPLD 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 MHzMIPS 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 LineNC 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 DisplayOTC On screen display Teletext and
Control; also called Artistic (SAA5800)P50 Project 50: communication protocol
between TV and peripheralsPAL Phase Alternating Line. Color system
mainly used in West Europe (color carrier= 4.433619 MHz) and South America (color carrier PAL M= 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 uPPTC Positive Temperature Coefficient,
non-linear resistorPWB Printed Wiring Board (same as “PCB”)
Precautions, Notes, and Abbreviation ListEN 8 Q543.1E LA3.
2009-Mar-27
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 BoardSTBY STand-BYSVGA 800x600 (4:3)SVHS Super Video Home SystemSW SoftwareSWAN Spatial temporal Weighted Averaging
Noise reductionSXGA 1280x1024TFT Thin Film TransistorTHD Total Harmonic DistortionTMDS Transmission Minimized Differential
SignallingTXT TeleteXTTXT-DW Dual Window with TeleteXTUI User InterfaceuP MicroprocessorUXGA 1600x1200 (4:3)V V-sync to the module VESA Video Electronics Standards
AssociationVGA 640x480 (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 1280x768 (15:9)XTAL Quartz crystalXGA 1024x768 (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 9Q543.1E LA 4.
2009-Mar-27
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
Figure 4-1 Cable dressing 32PFL5404H/12
18540_100_090327.eps090327
Mechanical InstructionsEN 10 Q543.1E LA4.
2009-Mar-27
Figure 4-2 Cable dressing 37PFL5604H/12
Figure 4-3 Cable dressing 47PFL5604H/12
18540_101_090327.eps090327
18540_102_090327.eps090327
Mechanical Instructions EN 11Q543.1E LA 4.
2009-Mar-27
4.2 Service Positions
For easy servicing of this set, there are a few possibilities created:• The buffers from the packaging.• Foam bars (created for Service).
4.2.1 Foam Bars
Figure 4-4 Foam bars
The foam bars (order code 3122 785 90580 for two pieces) can be used for all types and sizes of Flat TVs. See figure Figure 4-4 for details. Sets with a display of 42" and larger, require four foam bars [1]. Ensure that the foam bars are always supporting the cabinet and never only the display.Caution: Failure to follow these guidelines can seriously damage the display!By laying the TV face down on the (ESD protective) foam bars, a stable situation is created to perform measurements and alignments. By placing a mirror under the TV, you can monitor the screen.
4.3 Assy/Panel Removal
4.3.1 Rear Cover
Warning: Disconnect the mains power cord before you remove the rear cover.Note: it is not necessary to remove the stand while removing the rear cover.1. Remove all screws of the rear cover.2. Lift the rear cover from the TV. Make sure that wires and
flat coils are not damaged while lifting the rear cover from the set.
4.3.2 Speakers
Each speaker unit is mounted with two screws. A sticker on the the unit indicates if it is the right (“R”) or left (“L”) box, seen from the backside of the set, and a arrow points to the bottom of the set.When defective, replace the whole unit.
4.3.3 IR & LED Board
1. Unplug the connectors leading to the SSB and IR & LED Board.
2. Lift the board and take it out.When defective, replace the whole unit.
4.3.4 Key Board Control Panel
1. Unplug the key board connector from the IR & LED board.2. Release the clamp on the topside using a screwdriver.3. Lift the unit and take it out of the set.When defective, replace the whole unit.
4.3.5 Main Supply Panel
1. Unplug all connectors.2. Remove the fixation screws.3. Take the board out.When defective, replace the whole unit.
4.3.6 Small Signal Board (SSB)
Caution: It is mandatory to remount screws at their original position during re-assembly. Failure to do so may result in damaging the SSB.1. Unplug all connectors.2. Remove all screws that secure the board.3. The SSB can now be taken out of the set, together with the
side cover.4. To remove the side cover, push the clamp with a
screwdriver in the middle of the cover and pull the cover sidewards from the SSB.
E_06532_018.eps171106
1
Required for sets42"
1
Mechanical InstructionsEN 12 Q543.1E LA4.
2009-Mar-27
4.3.7 LCD Panel
Refer to Figure 4-5 for details. As every screen size has a (slightly) different mechanical construction (some have the boards directly mounted on the LCD display, others use brackets), we only describe one model. Disassembly method of other LCD panels is similar to the one described below. This particular photo is taken from a set with the timing controller (TCON) located on the SSB.
1. Remove the Main Supply Panel and Small SIgnal Board as earlier described.
2. Unplug the connectors to and from the Speakers, IR & LED Board and Key Board Control Panel.
3. Remove the stand [1].4. Release the subframe of the stand [2].5. Remove the brackets [3] that secure the LCD Panel.6. The LCD panel can now be lifted from the front cabinet.
Figure 4-5 LCD Panel removal
4.4 Set Re-assembly
To re-assemble the whole set, execute all processes in reverse order.
Notes:• While re-assembling, make sure that all cables are placed
and connected in their original position. See Figure 4-1, Figure 4-2 and Figure 4-3
• Pay special attention not to damage the EMC foams in the set. Ensure that EMC foams are mounted correctly.
18440_103_090223.eps090226
12
3 3
3
32
Service Modes, Error Codes, and Fault Finding EN 13Q543.1E LA 5.
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5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:5.1 Test Points5.2 Service Modes5.3 Step by step Start-up5.4 Service Tools5.5 Error Codes5.6 The Blinking LED Procedure5.7 Protections5.8 Fault Finding and Repair Tips5.9 Software Upgrading
5.1 Test Points
As most signals are digital, it will be difficult to measure waveforms with a standard oscilloscope. However, 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: Colour bar signal.• Audio: 3 kHz left, 1 kHz right.
5.2 Service Modes
Service Default mode (SDM) and Service Alignment Mode (SAM) offers several features for the service technician, while the Customer Service Mode (CSM) is used for communication between the call centre and the customer.
This chassis also offers the option of using ComPair, a hardware interface between a computer and the TV chassis. It offers the abilities of structured troubleshooting, error code reading, and software version read-out for all chassis. (see also section 5.4.1 ComPair).
Note: For the new model range, a new remote control (RC) is used with some renamed buttons. This has an impact on the activation of the Service modes. For instance the old “MENU” button is now called “HOME” (or is indicated by a “house” icon).
5.2.1 Service Default Mode (SDM)
Purpose• To create a pre-defined setting, to get the same
measurement results as given in this manual.• To override SW protections detected by stand-by
processor and make the TV start up to the step just before protection (a sort of automatic step by step start up). See section 5.3 Step by step Start-up.
• To start the blinking LED procedure where only layer 2 errors are displayed (see also section 5.5 Error Codes).
Specifications
Table 5-1 SDM default settings
• All picture settings at 50% (brightness, colour, contrast).• All sound settings at 50%, except volume at 25%.
• All service-unfriendly modes (if present) are disabled, like: – (Sleep) timer.– Child/parental lock.– Picture mute (blue mute or black mute).– Automatic volume levelling (AVL).– Skip/blank of non-favourite pre-sets.
How to Activate SDMFor 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, on the SSB, shorting for a moment the solder pads SDM [1] (see Figure 5-1).
Figure 5-1 Service mode pads
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 set will toggle between the SDM and the normal user menu (with the SDM mode still active in the background).
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.
Region Freq. (MHz)Default system
Europe, AP(PAL/Multi) 475.25 PAL B/G
Europe, AP DVB-T 546.00 PID Video: 0B 06 PID PCR: 0B 06 PID Audio: 0B 07
DVB-T
1SDM
1SDM
18440_200_090225.eps090306
Service Modes, Error Codes, and Fault FindingEN 14 Q543.1E LA5.
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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” or “I+” button. After activating SAM with this method a service warning will appear on the screen, continue by pressing the red button on the RC.
Contents of SAM (see also Table 6-5):• Hardware Information
– A. SW Version. Displays the software version of the main software (example: Q5431-0.26.2.0= AAAaB_X.Y.W.Z). • AAAA= the chassis name, where “a” indicates the
chip version: e.g. TV543/32= Q543, TV543/82= Q548, Q543/92= Q549.
• B= the SW branch version. This is a sequential number (this is no longer the region indication, as the software is now multi-region).
• 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. SBY PROC 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 5.5 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. Alignments.
• Dealer Options. Extra features for the dealers. See Table 6-5.
• Options. Extra features for Service. For more information regarding option codes, see chapter 6. Alignments.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. Refer to chapter 6. Alignments for details. To adapt this option, it’s advised to use ComPair (the correct HEX values
for the options can be found in chapter 8 “Alignments”) 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 6-4). 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 information.
– HW Events. Not useful for Service purposes. In case of specific software problems, the development department can ask for this information.
• 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 from USB. To download several settings from the USB stick to the TV. Same way of working 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 information.
How to Navigate• In SAM, the menu items can be selected with the
“CURSOR UP/DOWN” key (or the scroll wheel) on the RC-transmitter. The selected item will be highlighted. When not
PHILIPSMODEL:32PF9968/10
PROD.SERIAL NO:
AG 1A0620 000001
040
39mm
27m
m
(CTN Sticker)
Display OptionCode
E_06532_038.eps240108
Service Modes, Error Codes, and Fault Finding EN 15Q543.1E LA 5.
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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 (or the scroll wheel), 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 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)
PurposeWhen a customer is having problems with his TV-set, he can call his dealer or the Customer Helpdesk. The service technician can then ask the customer to activate the CSM, in order to identify the status of the set. Now, the service technician can judge the severity of the complaint. In many cases, he can advise the customer how to solve the problem, or he can decide if it is necessary to visit the customer.The CSM is a read only mode; therefore, modifications in this mode are not possible.When CSM is activated, the layer 1 error is displayed via blinking LED. Only the latest error is displayed. (see also section 5.5 Error Codes).
When CSM is activated and there is a USB stick connected to the TV, the software will dump the complete CSM content to the USB stick. The file (Csm.txt) will be saved in the root of the USB stick. This information can be handy if no information is displayed.
Only for Q548.1:When in the Q548.1 chassis CSM is activated, a test pattern will be displayed during 5 s.: 1 s. blue, 1 s. green, and 1 s. red, then again 1 s. blue and 1 s. green. This test pattern is generated by the PNX5120. So if this test pattern is shown, it could be determined that the back end video chain (PNX5120, LVDS, and display) of the SSB is working. For LED backlight TV sets, the test pattern is build as follows: 1 s. blue, 1 s. green, 1 s. red (generated by the PNX5120) and further on with 3 seconds RGB pattern from the LED Dimming Panel.
How to Activate CSMKey in the code “123654” via the standard RC transmitter. Note: Activation of the CSM is only possible if there is no (user) menu on the screen!
How to NavigateBy means of the “CURSOR-DOWN/UP” knob (or the scroll wheel) on the RC-transmitter, can be navigated through the menus.
Contents of CSMThe contents are displayed on three pages: General, Software versions, and Quality items. However, these 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.Remark: the content here can also be a part of the 12NC of the SSB in combination with the serial number.
• 12NC display. Shows the 12NC of the display• 12NC supply. Shows the 12NC of the supply.• 12NC “fan board”. Shows the 12NC of the “fan board”-
module (for sets with LED backlight). • 12NC “LED Dimming Panel”. Shows the 12NC of the
LED dimming Panel (for sets with LED backlight).
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 upgradeable, it will also be published on the Internet.Example: Q5431E_1.2.3.4.
• Stand-by SW. Displays the built-in stand-by processor software version. Upgrading this software will be possible via ComPair or via USB (see section Software Upgrading).Example: STDBY_1.2.3.4.
• MOP ambient light SW. Displays the MOP ambient light EPLD SW.
• MPEG4 software. Displays the MPEG4 software (for sets with MPEG4).
• PNX5120 boot NVM. Displays the SW-version that is used in the PNX5120 boot NVM (for sets with PNX5120).
• LED Dimming SW. Displays the LED dimming EPLD SW (for sets with LED backlight).
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 of the HDMI keys (or HDCP keys) are valid or not. In case these keys are not valid and the consumer wants to make use of the HDMI functionality, the SSB has to be replaced.
• Ethernet MAC address. Not applicable.• Wireless MAC address. Not applicable.• BDS key. Indicates if the “BDS level 1” key is valid or not.• CI slot present. If the common interface module is
detected the result will be “YES”, else “NO”.• HDMI input format. The detected input format of the
HDMI.• HDMI audio input stream. The HDMI audio input stream
is displayed: present / not present.• HDMI video input stream. The HDMI video input stream
is displayed: present / not present.
How to Exit CSMPress the “MENU” (or HOME) button twice on the RC-transmitter.
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5.3 Step by step Start-up
When the TV is in a protection state due to an error detected by stand-by software (error blinking is displayed) and SDM is activated via short cutting the pins on the SSB, the TV starts up until it reaches the situation just before protection. So, this is a kind of automatic step by step start-up. In combination with the start-up diagrams below, it is shown which supplies are present at a certain moment. Important to know is, that if e.g. the 3V3 detection fails and thus layer 2 error = 18 is blinking while the TV is restarted via SDM, the Stand-by Processor will enable the 3V3, but the TV set will not go to protection now. The TV will stay in this situation until it is reset (Mains/AC Power supply interrupted). Caution: in case the start-up in this mode with a faulty FET 7101-1 is done, all ICs supplied by the +3V3 could be destroyed, due to over voltage (12V on 3V3-line). It is recommended to measure first the FET 7101-1 or others FETs on short-circuit before activating SDM via the service pads.
The abbreviations “SP” and “MP” in the figures stand for:• SP: protection or error detected by the Stand-by
Processor.• MP: protection or error detected by the MIPS Main
Processor.
Figure 5-3 Transition diagram
18440_215_090227.eps270209
ActiveSemiSt by
St by
Mainson
Mainsoff
GoToProtection
- WakeUp requested- Acquisition needed- Tact switch pushed
- stby requested andno data Acquisitionrequired
- St by requested- tact SW pushed
WakeUprequested
Protection
WakeUprequested
(SDM)
GoToProtectionHibernate
- Tact switch pushed- last status is hibernateafter mains ON
Tact switchpushed
Service Modes, Error Codes, and Fault Finding EN 17Q543.1E LA 5.
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Figure 5-4 “Off/Stand-by” to “Semi Stand-by” flowchart (part 1)
18440_216a_090227.eps270209
No
EJTAG probeconnected ?
No
Yes
Release AVC system resetFeed warm boot script
Cold boot?
Yes
No
Set I²C slave addressof Standby µP to (A0h)
An EJTAG probe (e.g. WindPower ICE probe) can beconnected for Linux Kernel debugging purposes.
This will allow access to NVM andNAND FLASH and can not be doneearlier because the FLASH needs tobe in Write Protect as long as thesupplies are not available.
Detect EJTAG debug probe(pulling pin of the probe interface toground by inserting EJTAG probe)
Release AVC system resetFeed cold boot script
Release AVC system resetFeed initializing boot scriptdisable alive mechanism
Initialise I/O pins of the st-by µP:- Switch reset-AVC LOW (reset state)- Switch WP-NandFlash LOW (protected)- Switch reset-system LOW (reset state)- Switch reset-5100 LOW (reset state)- Switch reset-Ethernet LOW (reset state)- keep reset-NVM high, Audio-reset and Audio-Mute-Up HIGH
Off
Standby Supply starts running.All standby supply voltages become available.
st-by µP resets
Stand by orProtection
Mains is applied
- Switch Audio-Reset high.It is low in the standby mode if the standby
mode lasted longer than 10s.start keyboard scanning, RC detection. Wake up reasons are
off.
If the protection state was left by short circuiting theSDM pins, detection of a protection condition during
startup will stall the startup. Protection conditions in aplaying set will be ignored. The protection mode will
not be entered.
Switch LOW the RESET-NVM line to allow access to NVM. (Add a2ms delay before trying to address the NVM to allow correct NVMinitialization, this is no issue in this setup, the delay is automatically
covered by the architectural setup)
Release Reset-PNX5100.PNX5100 will start booting.
This 10ms delay is still present to give some relaxationto the supplies. (The PCI arbiter on the PNX5100 isnever used and is not the reason anymore)
Switch HIGH the WP-NandFlash toallow access to NAND Flash
This enables the +3V3 and +5V converter. As aresult, also +5V-tuner, +2V5, +1V8-PNX8541 and+1V8-PNX5100 (if present) become available.
Confirmation received from NXP that there does not need tobe a delay between the rise of the +1V2 and the +3V3. Onlyrequirement is to have the +1V2 before or at the same timeas the +3V3. 150ms delay is deleted.
Delay of 50ms needed because of the latency ofthe detect-1 circuit. This delay is also needed forthe PNX5100. The reset of the PNX5100 shouldonly be released 10ms after powering the IC.
Detect2 should be polled on the standard 40msinterval and startup should be continued whendetect2 becomes high.
+12V, +24Vs, AL and Bolt-on poweris switched on, followed by the +1V2 DCDC converter
Enable the supply detection algorithm
No
Yes
Detect-1 I/O lineHigh?
Switch ON Platform and display supply by switchingLOW the Standby line.
Enable the DCDC converter for +3V3 and+5V. (ENABLE-3V3)
Voltage output error:Layer1: 2Layer2: 18
NoDetect2 high received
within 2 seconds?
Power-OK error:Layer1: 3
Layer2: 16
Enter protectionYes
Wait 50ms
Enter protection
Yes
NoDetect-2 I/O line
High?Disable 3V3, switch standbyline high and wait 4 seconds
Delay 1.5 second before checking detect2 lineif the detect2_delay_flag is set
Set detect2_delay_flag
Reset detect2_delay_flag
Carefull we don’t hit this error directly if the delay flag is set.
Wait fixed time of 15ms
Detect2 high?
Yes
No
Detect-1 I/O lineHigh?
Wait 50ms
No
Yes
If the supply is hicking, the first detect2 couldbe positive (12V still present), followed by
negative Supply-fault (already low). Adding afixed delay brings us behind this delay gap.
These checks prevent the set from going in tostandby on the false error condition where the
first 3V3 is negative because of a hickup,although the 12V was about to reappear.
Because of this reappearance, the 12V checkis OK which would cause protection. If we wait
50ms, the 3V3 should be back as well.
Detect-2 I/O lineHigh?
Yes
No
Reset detect2_delay_flag
Only usefull in case of PNX5100 present. To avoiddiversity in standby µP, the reset-PNX5100 will still beswitched by the standby µP.
To: 18440_216b_090227.epsTo: 18440_216b_090227.eps
Wait 10 ms
Service Modes, Error Codes, and Fault FindingEN 18 Q543.1E LA5.
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Figure 5-5 “Off/Stand-by” to “Semi Stand-by” flowchart (part 2)
18440_216b_090227.eps270209
Yes
MIPS reads the wake up reasonfrom standby µP.
Semi-Standby
Initialize tuner and Multi Standard decoder
Initialize video processing IC's :
- local contrast FPGA- PNX5100 (if present)
Initialize source selection
Initialize AutoTV
3-th try?
Blink Code aserror code
Bootscript readyin 1250 ms?
Yes
No
Enable Alive check mechanism
Wait until AVC starts tocommunicate
SW initializationsucceededwithin 20s?
No
Switch Standby I/O line highand wait 4 seconds
RPC start (comm. protocol)
Set I²C slave addressof Standby µP to (60h)
Yes
Disable all supply related protections andswitch off the +3V3 +5V DC/DC converter.
switch off the remaining DC/DCconverters
Wait 5ms
Switch AVC PNX8543in reset (active low)
Wait 10ms
Switch the NVM resetline HIGH.
Flash to Ramimage transfer succeeded
within 30s?No
Yes
Code =Layer1: 2
Layer2: 53
Code =Layer1: 2Layer2: 15
Initialize Ambilight with Lights off.
Timing need to be updated ifmore mature info is available.
Timing needs tobe updated if moremature info isavailable.
Timing needs to beupdated if moremature info isavailable.
Initialize audio
Enter protection
Reset-system is switched HIGH by theAVC at the end of the bootscript
AVC releases Reset-Ethernet when theend of the AVC boot-script is detectedThis cannot be done through the bootscript,
the I/O is on the standby µP
Reset-system is connected to theMicronas MultiStandard decoder.
Reset-Audio and Audio-Mute-Up areswitched by MIPS code later on in the
startup process
Reset-system is switched HIGH by theAVC at the end of the bootscript
AVC releases Reset-Ethernet when theend of the AVC boot-script is detected
Reset-Audio and Audio-Mute-Up areswitched by MIPS code later on in the
startup process
Switch on the display in case of a LED backlightdisplay by sending the TurnOnDisplay(1) (I²C)
command to the PNX5100
In case of a LED backlight display, a LED DIM panel is presentwhich is fed by the Vdisplay. To power the LED DIM Panel, theVdisplay switch driven by the PNX5100 must be closed. Thedisplay startup sequence is taken care of by the LED DIMpanel. Secondly, this cmd will also enable the LVDS output ofthe 5100 towards the LED DIM panel.
Enable the PWM output towards the display LVDScable in case of a LED Backlight set.
(CTRL4-PNX5100)
In case of a LED backlight display, the PWM-dimming signalneeds to be routed to the LVDS cable. This routing is notallowed in non-LED sets (see also display configuration)
Wake up reasoncoldboot & not semi-
standby?
5100 SW start
MIPS sends display parameters andBitmap to 5100
Startup screen cfg filepresent?
MIPS triggers 5100 to display thestartup screen
Startup screen visible
yes
yes
To keep this flowchart readable, the exact display turn ondescription is not copied here. Please see the Semi-standbyto On description for the detailed display startup sequence.During the complete display time of the Startup screen, thepreheat condition of 100% PWM is valid.No
No
Startup screen shall only be visible when there is a coldbootto an active state end situation. The startup screen shall notbe visible when waking up for reboot reasons or waking up tosemi-standby conditions.
The first time after the option turn on of the startup screen orwhen the set is virgin, the cfg file is not present and hencethe startup screen will not be shown.
From: 18440_216a_090227.epsFrom: 18440_216a_090227.eps
Service Modes, Error Codes, and Fault Finding EN 19Q543.1E LA 5.
2009-Mar-27
Figure 5-6 “Semi Stand-by” to “Active” flowchart
Active
Semi Standby
Initialize audio and videoprocessing IC's and functionsaccording needed use case.
Assert RGB video blankingand audio mute
Wait until previous on-state is left more than 2seconds ago. (to prevent LCD display problems)
The assumption here is that a fast toggle (<2s) canonly happen during ON->SEMI ->ON. In these states,
the AVC is still active and can provide the 2s delay. Atransition ON->SEMI->STBY->SEMI->ON cannot be
made in less than 2s, because the standby state willbe maintained for at least 4s.
Switch Audio-Reset low and wait 5ms
Constraints taken into account:- Display may only be started when valid LVDS output clock can be delivered by the AVC.- To have a reliable operation of the backlight, the backlight should be driven with a PWM duty cycle of 100%during the first seconds. Only after this first one or two seconds, the PWM may be set to the required output level(Note that the PWM output should be present before the backlight is switched on). To minimize the artefacts, thepicture should only be unblanked after these first seconds.
Restore dimming backlight feature, PWM and BOOST outputand unblank the video.
Wait until valid and stable audio and video, corresponding to therequested output is delivered by the AVC
ANDthe backlight has been switched on for at least the time which is
indicated in the display file as preheat time.
The higher level requirement is that audio and videoshould be demuted without transient effects and thatthe audio should be demuted maximum 1s before or
at the same time as the unblanking of the video.
Release audio mute and wait 100ms before any other audiohandling is done (e.g. volume change)
CPipe already generates a valid outputclock in the semi-standby state: display
startup can start immediately when leavingthe semi-standby state.
Switch on LCD backlight (Lamp-ON)
Switch off the dimming backlight feature, setthe BOOST control to nominal and make sure
PWM output is set to 100%
Switch on the display by sending theTurnOnDisplay(1) (I²C) cmd to the PNX5100
Switch on the Ambilight functionality according the last statussettings.
The higher level requirement is that theambilight functionality may not be switched onbefore the backlight is turned on in case the
set contains a CE IPB inverter supply.
Delay Lamp-on with the sum of the LVDS delay andthe Lamp delay indicated in the display file
PNX5100 present?
YesSwitch on the display power byswitching LCD-PWR-ON low
Wait x ms
Switch on LVDS output in 8543
No
The exact timings toswitch on thedisplay (LVDS
delay, lamp delay)are defined in the
display file.
Start POK line detectionalgorithm
return
The complete algorithm description isremoved here.
Only the start of the algorithmis mentioned here as reminder.
The sum of the LVDS delay and the Lamp delay needsto be used because the Lamp delay is specified with
the appearance of the LVDS on the display asreference. This moment is not known by ceplf, only the
switch on of the LCD power is known. The deltabetween both is the LVDS delay.
Display already on?(splash screen)
No
Yes
Display cfg file presentand up to date, according
correct display option?
Startup screen Optionand Installation setting
Photoscreen ON?
Yes
No
Prepare Start screen Display configfile and copy to Flash
No
Yes
18440_217_090227.eps270209
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Figure 5-7 “Active” to “Semi Stand-by” flowchart
18440_219_090227.eps270209Semi Standby
Active
Wait x ms (display file)
Mute all sound outputs via softmute
Mute all video outputs
Switch off LCD backlight
Force ext audio outputs to ground(I/O: audio reset) and wait 5ms
Switch off the display by sending:- TurnOnDisplay(0) (I²C) command to the PNX5100- or sending OUTPUT-ENABLE(0) to the LED DIMpanel in case of a LED BL set.
Switch off Ambilight
Set main amplifier mute (I/O: audio-mute)
Wait 100ms
Wait until Ambilight has faded out: Output powerObserver on PNX5100 should be zero
The higher level requirement is that thebacklight may not be switched off before the
ambilight functionality is turned off in case theset contains a CE IPB inverter supply.
PNX5100 present?
Yes
No
Switch off the display power byswitching LCD-PWR-ON high
Wait x ms
Switch off LVDS output in 8543
The exact timings toswitch off thedisplay (LVDS
delay, lamp delay)are defined in the
display file.
Switch off POK line detectionalgorithm
Service Modes, Error Codes, and Fault Finding EN 21Q543.1E LA 5.
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Figure 5-8 “Semi Stand-by” to “Stand-by” flowchart
18440_220_090227.eps270209
Transfer Wake up reasons to the Stand by µP.
Stand by
Semi Stand by
Disable all supply related protections and switch offthe DC/DC converters (ENABLE-3V3)
Switch OFF all supplies by switching HIGH theStandby I/O line
Switch AVC system in reset state (reset-system andreset-AVC lines)
Switch reset-PNX5100 LOWSwitch Reset-Ethernet LOW
Important remarks:
release reset audio 10 sec after enteringstandby to save power
Also here, the standby state has to bemaintained for at least 4s before starting
another state transition.
Wait 5ms
Wait 10ms
Switch the NVM reset line HIGHSwitch WP-Nandflash LOW
Delay transition until ramping down of ambient light isfinished. *)
If ambientlight functionality was used in semi-standby(lampadaire mode), switch off ambient light
*) If this is not performed and the set isswitched to standby when the switch off ofthe ambilights is still ongoing, the lights willswitch off abruptly when the supply is cut.
Switch Memories to self-refresh (this creates a morestable condition when switching off the power).
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5.4 Service Tools
5.4.1 ComPair
IntroductionComPair (Computer Aided Repair) is a Service tool for Philips Consumer Electronics products. and offers the following:1. ComPair helps to quickly get an understanding on how to
repair the chassis in a short and effective way.2. ComPair allows very detailed diagnostics and is therefore
capable of accurately indicating problem areas. No knowledge on I2C or UART commands is necessary, because ComPair takes care of this.
3. ComPair speeds up the repair time since it can automatically communicate with the chassis (when the uP is working) and all repair information is directly available.
4. ComPair features TV software up possibilities.
SpecificationsComPair consists of a Windows based fault finding program and an interface box between PC and the (defective) product. The ComPair II interface box is connected to the PC via an USB cable. For the TV chassis, the ComPair interface box and the TV communicate via a bi-directional cable via the service connector(s).The ComPair fault finding program is able to determine the problem of the defective television, by a combination of automatic diagnostics and an interactive question/answer procedure.
How to ConnectThis is described in the chassis fault finding database in ComPair.
Figure 5-9 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.• Software is available via the Philips Service web portal.• ComPair serial interface cable for Q52x.x.
(using 3.5 mm Mini Jack connectors): 3138 188 75051. Note: When having problems, please contact your local support desk.
5.5 Error Codes
5.5.1 Introduction
The error code buffer contains all detected errors since the last time the buffer was erased. The buffer is written from left to right, new errors are logged at the left side, and all other errors shift one position to the right. When an error 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 can be 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– LAYER 2 errors are two digit errors.
• In protection mode.– From consumer mode: LAYER 1.– From SDM mode: LAYER 2.
• Fatal errors, if I2C bus is blocked and the set re-boots, CSM and SAM are not selectable.– From consumer mode: LAYER 1.– From SDM mode: LAYER 2.
Important remark: For all errors detected by MIPS which are fatal => rebooting of the TV set (reboot starts after LAYER 1 error blinking), one should short the solder paths at start-up from the power OFF state by mains interruption and not via the power button to trigger the SDM via the hardware pins.
• 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– In “Display error mode”, set 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.
Basically there are three kinds of errors:• Errors detected by the Stand-by software which lead to
protection. These errors will always lead to protection and an automatic start of the blinking LED LAYER 1 error.(see section 5.6 The Blinking LED Procedure).
• Errors detected by the Stand-by software which not lead to protection. In this case the front LED should blink the involved error. See also section Extra Information. Note that it can take up several minutes before the TV starts blinking the error (e.g. LAYER 1 error = 2, LAYER 2 error = 15 or 53).
• Errors detected by main software (MIPS). In this case the error will be logged into the error buffer and can be read out via ComPair, via blinking LED method LAYER 1-2 error, or in case picture is visible, via SAM.
E_06532_036.eps150208
TOUART SERVICECONNECTOR
TOUART SERVICECONNECTOR
TOI2C SERVICECONNECTOR
TO TV
PC
HDMII2C only
Optional power5V DC
ComPair II Developed by Philips Brugge
RC outRC in
OptionalSwitch
Power ModeLink/Activity I2C
ComPair IIMulti
function
RS232 /UART
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5.5.2 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 5.5.3 How to
Clear the Error Buffer.• Via ComPair.
5.5.3 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.
5.5.4 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).
There are several mechanisms of error detection:• Via error bits in the status registers of ICs.• Via polling on I/O pins going to the stand-by processor.• Via sensing of analogue values on the stand-by processor
or the PNX8543.• Via a “not acknowledge” of an I2C communication.
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 code overview (multi chassis overview)
Table 5-3 Error code overview (multi chassis overview)
LAYER 1 codes
SSB 2
Display supply 3
Platform supply 4 Only for display option 196 and 197
Fan 7
AmbiLight or DC/DC or 3D LED dim panel 8
Des
crip
tio
n
LA
YE
R 1
err
or
LA
YE
R 2
err
or
Mo
nit
ore
d
Med
ium
Err
or/
Pro
t.
EB
: in
Err
or
Bu
ffer
BL
: B
linki
ng
LE
D
Dev
ice
Def
ecti
ve b
oar
d
Sp
ecia
l Rem
arks
Main NVM 2 0 MIPS I2C1 E x STM24C128 SSB TV shut down with red LED blinking 2.
Temp. protection 3 12 MIPS I2C4 P BL/EB Supply
I2C3 2 13 MIPS I2C3 E BL/EB SSB SSB TV is rebooting endlessly with red LED blinking “2”.
I2C2 2 14 MIPS I2C2 E BL/EB SSB SSB
PNX does not boot (HW cause) PNX 5100 does not boot
2 15 St-by µP I2C1 P BL SSB SSB TV is rebooting endlessly with red LED blinking “2”
12V 3 16 St-by µP I/O P BL Supply TV shut down with red LED blinking “3”.
12V 3 16 St-by µP I/O P BL Platform Supply
Inverter or display supply 3 17 Mips I/O E EB Supply TV still in normal operation mode, but without backlights. Enter CSM Layer 1 red LED blinking “3”.
Only for display option 196 and 197 4 17 Mips I/O E EB Display Supply
1V2, 1V2, 3V3, 5V to low 2 18 St-by µP I/O P BL SSB TV shut down with red LED blinking “2”.
PNX 5100 2 21 MIPS I2C3 E EB PNX 5100 SSB TV is rebooting endlessly, with red LED blinking “2” (shown every 20 second).
HDMI MUX 2 23 MIPS I2C3 E EB TDA9996 SSB Activate CSM red LED blinking “2”.
I2C switch 2 24 Mips I2C2 E EB PCA9540 SSB
Boot-NVM PNX5120 2 25 MIPS I2C3 E EB STM24C08 SSB TV is rebooting endlessly, with red LED blinking “2” (shown every minute).
Multi Standard demodulator (Micronas IF) 2 27 MIPS I2C3 E EB DRX3616KDRX3626K
SSB TV is in normal operation but without video displayed (RF).
ARM (AL) 8 28 MIPS I2C3 E EB NXP LPC2103 AL mod. or DC/DC TV is in normal operation but without AMBILIGHT “on”.
FPGA (Local contrast) 2 29 MIPS I2C3 E EB Altera SSB
Tuner1 2 34 MIPS I2C3 E EB UV1783SHD1816
SSB TV is in normal operation but without video displayed (RF).
FAN I2C expander 7 41 MIPS I2C2 E EB PCA 9533 FAN mod.
T× sensor 7 42 MIPS I2C2 E EB LM 75 T×sensor
FAN 1 7 43 MIPS I2C2 E EB FAN
FAN 2 7 44 MIPS I2C2 E EB FAN
MIPS does not boot (SW cause) 2 53 St-by µP I2C1 P BL PNX8543 SSB TV is rebooting endlessly with white LED blinking.
Display 5 64 MIPS I2C2 E BL/EB Altera Display
FPGA LED dim 2D 2 65 MIPS I2C3 E EB Xilinx SSB
FPGA LED dim 3D 8 65 MIPS I2C2 E EB Altera SSB
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Extra Information• Rebooting. When a TV is constantly rebooting due to
internal problems, most of the time no errors will be logged or blinked. This rebooting can be recognized via a ComPair interface and Hyperterminal (for Hyperterminal settings, see section 5.8.6 UART Logging). It’s shown that the loggings which are generated by the main software keep continuing. In this case diagnose has to be done via ComPair.
• Main NVM. When there is no I2C communication towards the main NVM, LAYER 1 error = “2” will be displayed via the blinking LED procedure. In SDM, LAYER 2 error can be “19”. Check the logging for keywords like “I2C bus blocked”.
• Error 13 (I2C bus 3 blocked). When this error occurs, the TV will constantly reboot due to the blocked bus. The best way for further diagnosis here, is to use ComPair.
• Error 15 (PNX8543 doesn’t boot). Indicates that the main processor was not able to read his bootscript. This error will point to a hardware problem around the PNX8543 (supplies not OK, PNX 8541 completely dead, I2C link between PNX and Stand-by Processor broken, etc...). When error 15 occurs it is also possible that I2C2 bus is blocked (NVM). I2C2 can be indicated in the schematics as follows: SCL-UP-MIPS, SDA-UP-MIPS, SCL-2 or SDA-2.Other root causes for this error can be due to hardware problems with: NVM PNX5120, PNX5120 itself, or DDRs.
• Error 16 (12V). This voltage is made in the power supplyand results in protection (LAYER 1 error = “3”). When SDM is activated we see blinking LED LAYER 2 error = “16”.
• Error 17 (POK). The display is switched “on” with the signal “Lamp On”. If the inverter starts (or 24V display is OK) the POK line becomes “high”. If the POK line is not “high”, the set backlight will be switched “off” and “on” again for 3 times (start-up). If the set POK line becomes “high” after the retries, no error is logged; if the POK stays “low”, error is logged: LAYER 1 error = “3”, LAYER 2 error = “17”. No protection is required, the start-up goes on.
• Error 18 (1V2-3V3-5V too low). All these supplies are generated by the DC/DC supply on the SSB. If one of these supplies is too low, protection occurs and blinking LED LAYER 1 error = “2” will be displayed automatically. In SDM this gives LAYER 2 error = “18”.
• Error 21 (PNX5120). When there is no I2C communication towards the PNX5120 after start-up (power “off” by disconnection of the mains cord), LAYER 2 error will blink continuously via the blinking LED procedure in SDM. (start-up the TV with the solder paths short to activate SDM).
• Error 23 (HDMI). When there is no I2C communication towards the HDMI multiplexer after start up, LAYER 2 error = “23” will be logged and displayed via the blinking LED procedure if SDM is switched “on”.
• Error 25 (Boot-NVM PNX5120). When there is no I2C communication towards the PNX5120 NVM after start-up, TV is rebooting endlessly with blinking LAYER 1 error = 2 (shown every minute). When SDM is activated we see blinking LED LAYER 2 error = “25”.
• Error 27 (Multi Standard demodulator). When there is no I2C communication towards the Multi Standard demodulator after start up, LAYER 2 error = “27” will be logged and displayed via the blinking LED procedure when SDM is switched “on”.
• Error 28 (FPGA ambilight). When there is no I2C communication towards the FPGA ambilight after start up, LAYER 2 error = “28” will be logged and displayed via the blinking LED procedure if SDM is switched “on”. Note that it can take up several minutes before the TV starts blinking LAYER 1 error = “2” in CSM or in SDM, LAYER 2 error = “28”.
• Error 34 (Tuner). When there is no I2C communication towards the tuner after start up, LAYER 2 error = “34” will be logged and displayed via the blinking LED procedure when SDM is switched on.
• Error 53. This error will indicate that the PNX8543 has read his bootscript (when this would have failed, error 15 would blink) but initialization was never completed because
of hardware problems (NAND flash,...) or software initialization problems. Possible cause could be that there is no valid software loaded (try to upgrade to the latest main software version). Note that it can take up to 2 minutes before the TV starts blinking LAYER 1 error = “2” or in SDM, LAYER 2 error = “53”.
5.6 The Blinking LED Procedure
5.6.1 Introduction
The blinking LED procedure can be split up into two situations:• Blinking LED procedure LAYER 1 error. In this case the
error is automatically blinked when the TV is put in CSM. This will be only one digit error, namely the one that is referring to the defective board (see table 5-3 Error code overview (multi chassis overview)) which causes the failure of the TV. This approach will especially be used for home repair and call centres. The aim here is to have service diagnosis from a distance.
• Blinking LED procedure LAYER 2 error. Via this procedure, the contents of the error buffer can be made visible via the front LED. In this case the error contains 2 digits (see table 5-3 Error code overview (multi chassis overview)) and will be displayed when SDM (hardware pins) is activated. This is especially useful for fault finding and gives more details regarding the failure of the defective board.
Important remark: For all errors detected by MIPS which are fatal (rebooting of the TV set, with reboot starts after LAYER 1 error blinking), one should short the SDM solder paths at start-up from the power OFF state by mains interruption and not via the power button, to trigger the SDM via the hardware pins.
When one of the blinking LED procedures is activated, the front LED will show (blink) the contents of the error-buffer. Error codes greater then 10 are shown as follows:1. “n” long blinks (where “n” = 1 to 9) indicating decimal digit2. A pause of 1.5 s3. “n” short blinks (where “n”= 1 to 9)4. A pause of approximately 3 s,5. When all the error codes are displayed, the sequence
finishes with a LED blink of 3 s6. The sequence starts again. Example: Error 12 8 6 0 0. After activation of the SDM, the front LED will show: 1. One long blink of 750 ms (which is an indication of the
decimal digit) followed by a pause of 1.5 s2. Two short blinks of 250 ms followed by a pause of 3 s3. Eight short blinks followed by a pause of 3 s4. Six short blinks followed by a pause of 3 s5. One long blink of 3 s to finish the sequence6. The sequence starts again.
5.6.2 How to Activate
Use one of the following methods:• Activate the CSM. The blinking front LED will show only
the latest layer 1 error, this works in “normal operation” mode or automatically when the error/protection is monitored by the stand-by processor. At the time of this release, this layer 1 error blinking was not working as expected.In case no picture is shown and there is no LED blinking, read the logging to detect whether “error devices” are mentioned. (see section 5.8.6 UART Logging).
• Activate the SDM. The blinking front LED will show the entire contents of the layer 2 error buffer, this works in “normal operation” mode or when SDM (via hardware pins) is activated when the tv set is in protection.
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Important remark: For all errors detected by MIPS which are fatal => rebooting of the TV set (reboot starts after LAYER 1 error blinking), one should short the solder paths at start-up from the power OFF state by mains interruption and not via the power button to trigger the SDM via the hardware pins.
• Transmit the commands “MUTE” - “062500” - “OK” with a normal RC. The complete error buffer is shown. Take notice that it takes some seconds before the blinking LED starts.
• Transmit the commands “MUTE” - “06250x” - “OK” with a normal RC (where “x” is a number between 1 and 5). When x = 1 the last detected error is shown, x = 2 the second last error, etc.... Take notice that it takes some seconds before the blinking LED starts.
5.7 Protections
5.7.1 Software Protections
Most of the protections and errors use either the stand-by microprocessor or the MIPS controller 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, +5V,
+3V3 and 1V2.• 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 optimise 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. As the observers are only used during start-up, they are described in the start-up flow in detail (see section 5.3 Step by step Start-up).
5.7.2 Hardware Protections
The only real hardware protection in this chassis appears in case of an audio problem e.g. DC voltage on the speakers. The audio protection circuit pulls the “supply-fault” low and the tv set will blink LAYER 1 error = 2 or in SDM, LAYER 2 error = 19. Be very careful to overrule this protection via SDM (not to cause damage to the Class D audio amplifier). Check audio part first before activating via SDM. In case one of the speakers is not connected, the protection can also be triggered.
Repair Tips• It is also possible that the set has 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 speakers during the ON state of the TV can damage the audio amplifier.
5.7.3 Important remark regarding the blinking LED indication
As for the blinking LED indication, the blinking LED of layer 1 error displaying can be switched “off” by pushing the power button on the keyboard.This condition is not valid after the set was unpowered (via mains interruption). The blinking LED starts again and can only be switched “off” by unplugging the mains connection.This can be explained by the fact that the MIPS can not load the keyboard functionality from software during the start-up and does not recognise the keyboard commands at this time.
5.8 Fault Finding and Repair Tips
Read also section “5.5 Error Codes, 5.5.4 Error Buffer, Extra Information”.
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5.8.1 Ambilight
Due to degeneration process of the AmbiLights, there can be a difference in the colour and/or light output of the spare ambilight module in comparison with the originals ones contained in the TV set. Via ComPair, the light output can be adjusted.
5.8.2 CSM
When CSM is activated and there is a USB stick connected to the TV, the software will dump the complete CSM content to the USB stick. The file (Csm.txt) will be saved in the root of the USB stick. If this mechanism works it can be concluded that a large part of the operating system is already working (MIPS, USB...)
5.8.3 Exit “Factory Mode”
When an “F” is displayed in the screen’s right corner, this means the set is in “Factory” mode, and it normallyhappens after a new SSB is mounted. To exit this mode, push the “VOLUME minus” button on the TV’s local keyboard for 10 seconds (this disables the continuous mode).Then push the “SOURCE” button on the TV’s local keyboard for 10 seconds until the “F” disappears from the screen.
5.8.4 DC/DC Converter
Introduction• The best way to find a failure in the DC-DC converters is to
check their starting-up sequence at “power-on via the mains cord”, presuming that the stand-by microprocessor is operational.
• If the input voltage of DC-DC converters is around 12.7 V (measured on decoupling capacitors 2107 and 2123 and the enable signals are “low” (active), then the output voltages should have their normal values. The +12V and +5VPOD supplies start-up first (enabled by PODMODE signal from the stand-by microprocessor). There is a supplementary condition for 12V to start-up: if the +5V-POD does not start up due to a local defect, then +12V will not be available as well. The +5V-ON supply is enabled by the ONMODE signal (coming also from the stand-by microprocessor). The +1V2 supply starts up when the +12V appears, then at least 100 ms later, the +3V3 will be activated via the ENABLE-3V3 signal from the stand-by microprocessor. If the +12V value is less than 10 V, the last enumerated voltages will not show up due to the under-voltage detection circuit 7105-1 + 6101 and surrounding components. Furthermore, if the +12V is less than 8 V, then also the +1V2 will not be available. The +5V5-TUN generator 7202 (present only for the analogue version of China platforms) will start to operate as soon as the 12V (PSU) is present.
• The consumption of controller IC 7103 is around 19 mA (that means almost 200 mV drop voltage across resistor 3108).
• The current capability of DC-DC converters is quite high (short-circuit current is 7 to 10 A).
• The DETECT1 signal (active “low”) is an internal protection (error 18) of the DC-DC convertor and will occur if the output voltage of any DC-DC convertor is out of limits (10% of the normal value).
Fault Finding• Symptom: +1V2 not present (even for a short while ~10
ms)– Check 12 V availability (resistor 3108, MOS-FETs
7101 and 7102), value of +12 V, and surrounding components)
– Check the voltage on pin 9 (1.5 V),– Check for +1V2 output voltage short-circuit to GND that
can generate pulsed over-currents 7...10 A through coil 5103.
– Check the over-current detection circuit (2106 or 3131 interrupted).
• Symptom: +1V2 present for about 100ms, +3V3 not rising.– Check the ENABLE-3V3 signal (active “low”),– Check the voltage on pin 8 (1.5 V),– Check the under-voltage detection circuit (the voltage
on collector of transistor 7105-1 should be less than 0.8 V),
– Check for output voltages short-circuits to GND (+3V3) that can generate pulsed over currents 7...10 A through coil 5101,
– Check the over-current detection circuit (2105 or 3127 interrupted).
• Symptom: +1V2 OK, +3V3 present for about 100 ms. Possible cause: SUPPLY-FAULT line stays “low” even though the +3V3 and +1V2 is available - the stand-by microprocessor is detecting that and switching “off” all supply voltages.– Check the drop voltage across resistor 3108 (they
could be too high, meaning a defective controller IC or MOS-FETs),
– Check if the boost voltage on pin 4 of controller IC 7103 is less than 14 V (should be 19 V),
– Check if +1V2 or +3V3 are higher than their normal values - that can be due to defective DC feedback of the respective DC-DC convertor (ex. 3152, 3144).
• Symptom: +1V2 and +3V3 show a high level of ripple voltage (audible noise can come from the filtering coils 5101, 5103). Possible cause: instability of the frequency and/or duty cycle of a DC-DC converter or stabiliser.– Check the resistor 3164, capacitors 2102 and 2103,
input and output decoupling capacitors.– Check AC feedback circuits (2120, 2129, 3141, 3153,
2110, 2114 and 3135).• Symptom: +1V2, +3V3 ok, no +5V5-TUN (analogue sets
only). Possible cause: the “+5V5-TUN GENERATOR” circuit (7202 and surroundings components) is defective: check transistor 7202 (it has to have gate voltage pulses of about 10 V amplitude and drain voltage pulses of about 35 V amplitude) and surrounding components. A high consumption (more than 6 mA) from +5V5-TUN voltage can cause also +5V5-TUN voltage to be too low or zero.
Note: when a pair of power MOSFETs (7101 or 7102) becomes defective, the controller IC 7103 should be replaced as well.
5.8.5 Fan self test (only for sets with LED backlight)
In case fans are present, a softest can be done by pushing the red coloured button on the remote control while the TV set is in CSM. Exit CSM and check the status of the fans in the error buffer by entering SAM (062596 + info button on the RC). In case of failure (fully red screen) more detailed information is available in the error buffer (error 41, 42, 43, 44).
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5.8.6 UART Logging
When something is wrong with the TV set (f.i.the set is rebooting) checking the UART logging using hyperterminal can be done to find more information. Hyperterminal is a standard Windows application. It can be found via Programs, Accessories, Communications, Hyperterminal. Connect a “ComPair UART”-cable (3138 188 75051) from the Service connector in the TV set, via the ComPair interface (this is compulsory, otherwise ICs are blown in the PC), to the “COMx”-port of the PC. After start-up of 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 = none5. 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 reboot, it is possible to check for “error devices” in the logging (LAYER 2 error). This can be very helpful to determine the failure cause of the reboot. For protection state, there is no logging.
5.8.7 Loudspeakers
Make sure that the volume is set to minimum during disconnecting the speakers in the “on” state of the TV. The audio amplifier can be damaged by disconnecting the speakers during “on” state of the set! Sometimes the set can go into protection, but that is not always the case.
5.8.8 Tuner
Attention: In case the tuner is replaced, always check the tuner options!
5.8.9 Display option code
Attention: In case the SSB is replaced, always check the display option code in SAM, even when picture is available. Performance with the incorrect display option code can lead to unwanted side-effects for certain conditions. See also Table 6-4 for the code.
5.8.10 Upgrade HDMI EDID NVM
To upgrade the HDMI EDID, see ComPair for further instructions.
5.8.11 Upgrade VGA EDID NVM
To upgrade the VGA EDID NVM, pin 7 of the EDID NVM [2] has to be short circuited to ground. See ComPair for further instructions.
Figure 5-10 VGA EDID NVM
1SDM
2EDID
18440_201_090225.eps090306
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5.8.12 SSB Replacement
Follow the instructions in the flowchart in case a SSB has to be exchanged. See Figure 5-11.
Figure 5-11 SSB replacement flowchart
START
Create “repair” directory on USB stick andconnect USB stick to TV-set
Go to SAM mode (062596 i+) andsave the TV settings via “Upload to USB”.
Set is stilloperating?
- Replace SSB board by a Service SSB.- Make the SSB fit mechanically to the set.
Go to SAM mode, and reload settingsvia “Download from USB”.
Saved settingson USB stick?
Program “Display Option” code via 062598MENU/HOME, followed by 3 digits code (thiscode can be found on a sticker inside the set).
Check and perform alignments in SAMaccording to the Service Manual.
E.g. option codes, colour temperature...
Connect PC via ComPair interface to Serviceconnector.
END
Yes
After entering “Display Option” code, set isgoing to Standby (= validation of code).
Restart the set.
In case of settings reloaded from USB, the set type,serial number, Display 12NC, are automatically storedwhen entering display options.
No
- Check if correct “Display Option” code isprogrammed.- Verify “Option Codes” according sticker inside the set.- Default settings for White drive ...see Service Manual
No
Set is starting up & display is OK.
If not already done;Check latest software on Service website.
Update Main and Standby software via USB.
Q52xE SSB Board swap – v5.1VDS/JA Updated 18-03-2009(changes are indicated in red)
Instruction note: SSB replacement Q528.x, Q522.x, Q529.x, Q54x.x
Set is starting up but no display.
Final check of all menus in CSM.Special attention for HDMI Keys.
Program “set type number”, “serial number”,and “display 12NC”.
Update main software in this step, by using“autorun.upg” file.
Start TV in Jett mode (DVD i+/OSD)Open ComPair browser Q52x.
Noisy picture with bands/lines is visible and thered LED is continuous “on”
(sometimes also the letter “F” is visible).
Press 5 s. the “Volume minus” button on the localcntrl until the red LED switches “off”, and then
press 5 s. the MENU (*) button of the local cntrl.(* in some chassis this button is named SOURCE)
The picture noise is replaced by blue mute!
Unplug the mainscord to verify the correctdisabling of the factory-mode.
Program “Display Option” code via 062598 MENU/HOME, followed by 3 digits code (this code can be
found on a sticker inside the set).
After entering “Display Option” code, set is goingto Standby (= validation of code).
Restart the set.
Set is starting up in “Factory” mode.
Start-up set.Set behaviour?
Set is going into protection after replacing the SSB
(blinking LED, error 2).
Take care that speakers are connected!In some sets, the speakers are in the rearcover, and when the set is switched “on”without speakers, it is possible that the Audioprotection is triggered.
Advise: remount rear cover before switching“on” (see also SCC_71772).
Q54x.x
H_16771_007.eps090318
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5.9 Software Upgrading
5.9.1 Introduction
The set software and security keys are stored in a NAND-Flash, which is connected to the PNX8543 via the PCI bus.
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, ...). It is not possible anymore to replace the NAND-Flash with another one from a scrap-board.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 section Reset of
Repaired SSB.4. Check in CSM if the HDMI keys are valid.For the correct order number of a new SSB, always refer to the Spare Parts list, available on the Philips Spare Part web portal.
5.9.2 Main Software Upgrade
• The “UpgradeAll.upg” file is only used in the factory.• The “FlashUtils.upg” file is only used by Service centres
that are allowed to do component level repair on the SSB.
Automatic Software UpgradeIn “normal” conditions, so when there is no major problem with the TV, the main software and the default software upgrade application can be upgraded with the “AUTORUN.UPG” (FUS part of the one-zip file: e.g. FUS _Q5431E_ 1.25.5.0_commercial.zip). This can also be done by the consumers themselves, but they will have to get their software from the commercial Philips website or via the Software Update Assistant in the user menu (see DFU). The “autorun.upg” file must be placed in the root of the USB stick.How to upgrade:1. Copy “AUTORUN.UPG” to the root of the USB stick.2. Insert USB stick in the set while the set is in ON MODE.
The set will restart and the upgrading will start automatically. As soon as the programming is finished, a message is shown to remove the USB stick and restart the set.
Manual Software UpgradeIn case that the software upgrade application does not start automatically, it can also be started manually.How to start the software upgrade application manually:1. Disconnect the TV from the Mains/AC Power.2. Press the “OK” button on a Philips TV remote control or a
Philips DVD RC-6 remote control (it is also possible to use a TV remote in “DVD” mode). Keep the “OK” button pressed while reconnecting the TV to the Mains/AC Power.
3. The software upgrade application will start.
Attention!In case the download application has been started manually, the “autorun.upg” will maybe not be recognized.What to do in this case:1. Create a directory “UPGRADES” on the USB stick.2. Rename the “autorun.upg” to something else, e.g. to
“software.upg”. Do not use long or complicated names, keep it simple. Make sure that “AUTORUN.UPG” is no longer present in the root of the USB stick.
3. Copy the renamed “upg” file into this directory.4. Insert USB stick into the TV.
5. The renamed “upg” file will be visible and selectable in the upgrade application.
Back-up Software Upgrade ApplicationIf the default software upgrade application does not start (could be due to a corrupted boot 2 sector) via the above described method, try activating the “back-up software upgrade application”.How to start the “back-up software upgrade application” manually:1. Disconnect the TV from the Mains/AC Power.2. Press the “INFO”-button on a Philips remote control or
“CURSOR DOWN” button on a Philips DVD RC-6 remote control (it is also possible to use a TV remote in “DVD” mode). Keep the “INFO”-button (or “cursor down” button) pressed while reconnecting the TV to the Mains/AC Power.
3. The software upgrade application will start.
5.9.3 Stand-by Software Upgrade via USB
In this chassis it is possible to upgrade the Stand-by software via a USB stick. The method is similar to upgrading the main software via USB.Use the following steps:1. Create a directory “UPGRADES” on the USB stick.2. Copy the Stand-by software (part of the one-zip file, e.g.
StandbySW_CFT69_84.0.0.0.upg) into this directory.3. Insert the USB stick into the TV.4. Start the download application manually (see
section Manual Software Upgrade.5. Select the appropriate file and press the “red” button to
upgrade.
5.9.4 Content and Usage of the One-Zip Software File
Below the content of the One-Zip file is explained, and instructions on how and when to use it.
File name Description
907.5_PnSEsticker.zip Contains the E-sticker data. Not to be used by Service technicians.
cabinet_TV543_x.x.x.x.zip Contains acoustic parameters per cabinet. Not to be used by Service technicians.
ceisp2padll_P2PAD_x.x.x.x.zip Not to be used by Service technicians. For ComPair development only.
display_TV543_x.x.x.x.zip Not to be used by Service technicians.
EJTAGDownload_Q5431_x.x.x.x.zip Only used by service centra which are allowed to do Component Level Repair.
Factory_Q5431_x.x.x.x.zip Only for production purposes, not to be used by Service technicians.
FlashUtils_Q5431_x.x.x.x.zip Not to be used by Service technicians.
FUS_Q5431_x.x.x.x.zip Contains the “autorun.upg” which is needed to upgrade the TV main software and the software download application.
HDMI_FHD_EDID_Q5431_x.x.x.x.zip Contains the EDID content of the different (FHD) HDMI NVM’s. See ComPair for further instructions.
HDMI_HD_EDID_Q5431_x.x.x.x.zip Contains the EDID content of the different (HD) HDMI NVM’s. See ComPair for further instructions.
lightGuide_TV543_x.x.x.x.zip Not to be used by Service technicians.
OAD_Q5431_x.x.x.x.zip Not to be used by Service technicians.
Pgamma_xxxxxxxx_Q5431_x.x.x.x.zip Contains NVM data for the specific display control board. Not to be used by Service technicians.
PQ_Q5431_x.x.x.x.zip Not to be used by Service technicians.
processNVM_Q5431_x.x.x.x.zip Default NVM content. Must be programmed via ComPair.
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StandbySW_CFT69_x.x.x.x.zip Contains the Stand-by software in “upg” and “hex” format.
- The “StandbySW_xxxxx_prod.upg” file can be used to upgrade the Stand-by software via USB.
- The “StandbySW_xxxxx.hex” file can be used to upgrade the Stand-by software via ComPair.
- The files “StandbySW_xxxxx_exhex.hex” and “StandbySW_xxxxx_dev.upg” may not be used by Service technicians (only for development purposes).
Tcon_xxxxxxxx_Q5431_x.x.x.x.zip Contains NVM data for the specific display control board. Not to be used by Service technicians.
UpgradeAll_Q5431_x.x.x.x.zip Only for production purposes, not to be used by Service technicians. Caution: Never try to use this file, because it will overwrite the HDCP keys!
UpgradeExe_Q5431_x.x.x.x.zip Only for production purposes, not to be used by Service technicians.
VGA_FHD_EDID_TV543_x.x.x.x.zip Contains the EDID content of the different (FHD) VGA NVM. See ComPair for further instructions.
VGA_HD_EDID_TV543_x.x.x.x.zip Contains the EDID content of the different (HD) VGA NVM. See ComPair for further instructions.
File name Description
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6. Alignments
Index of this chapter:6.1 General Alignment Conditions6.2 Hardware Alignments6.3 Software Alignments6.4 Option Settings6.5 Reset of Repaired SSB6.6 Total Overview SAM modes
6.1 General Alignment Conditions
Perform all electrical adjustments under the following conditions:• Power supply voltage (depends on region):
– AP-NTSC: 120 VAC or 230 VAC / 50 Hz (± 10%).– AP-PAL-multi: 120 - 230 VAC / 50 Hz (± 10%).– EU: 230 VAC / 50 Hz (± 10%).– LATAM-NTSC: 120 - 230 VAC / 50 Hz (± 10%).– US: 120 VAC / 60 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 heat sinks as ground.
• Test probe: Ri > 10 MΩ, Ci < 20 pF.• Use an isolated trimmer/screwdriver to perform
alignments.
6.1.1 Alignment Sequence
• First, set the correct options:– In SAM, select “Options”, and then “Option numbers”.– Fill in the option settings for “Group 1” and “Group 2”
according to the set sticker (see also section Option Settings).
– Press OK on the remote control before the cursor is moved to the left.
– In submenu “Option numbers” select “Store” and press OK on the RC.
• OR:– In main menu, select “Store” again and press OK on
the RC.– Switch the set to Stand-by.
• Warming up (>15 minutes).
6.2 Hardware Alignments
Not applicable.
6.3 Software Alignments
Put the set in SAM mode (see chapter 5. Service Modes, Error Codes, and Fault Finding). The SAM menu will now appear on the screen. Select ALIGNMENTS and go to one of the sub menus. The alignments are explained below.The following items can be aligned:• Tuner AGC.• White point. To store the data:• Press OK on the RC before the cursor is moved to the
left.• In main menu select “Store” and press OK on the RC.• Press MENU on the RC to switch back to the main menu.• Switch the set to stand-by mode. For the next alignments, supply the following test signals via a video generator to the RF input:
• EU/AP-PAL models: a PAL B/G TV-signal with a signal strength of at least 1 mV and a frequency of 475.25 MHz
• US/AP-NTSC models: an NTSC M/N TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3).
• LATAM models: an NTSC M TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3).
6.3.1 Tuner AGC (RF AGC Take Over Point Adjustment)
Purpose: To keep the tuner output signal constant as the input signal amplitude varies.No alignment is necessary, as the AGC alignment is done automatically (standard value: “64”). Store settings and exit SAM.
6.3.2 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:– “Colour temperature”: “Normal”.– All “White point” values to: “127”.– “Red BL offset” values to “7”.– “Green BL offset” values to “7”.
In case you have a colour analyser:• Measure with a calibrated contactless colour analyser in
the centre of the screen. Consequently, the measurement needs to be done in a dark environment.
• Adjust the correct x, y coordinates (while holding one of the White point registers R, G or B on 127) by means of decreasing the value of one or two other white points to the correct x, y coordinates (see Table 6-1). Tolerance: dx: ± 0.004, dy: ± 0.004.
• Repeat this step for the other colour temperatures that need to be aligned.
• When finished press OK on the RC and then press STORE (in the SAM root menu) to store the aligned values to the NVM.
• Restore the initial picture settings after the alignments.
Table 6-1 White D alignment values
If you do not have a colour analyser, you can use the default values. This is the next best solution. The default values are average values coming from production.• Select a COLOUR TEMPERATURE (e.g. COOL,
NORMAL, or WARM).
Picture Setting
Dynamic backlight Off
Dynamic Contrast Off
Colour Enhancement Off
Picture Format Un scaled
Light Sensor Off
Brightness 50
Colour 0
Contrast 100
Value Cool (11000K) Normal (9000K) Warm (6500K)
x 0.278 0.289 0.314
y 0.278 0.291 0.319
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• Set the RED, GREEN and BLUE default values according to the values in Table 6-2and Table 6-3.
• When finished press OK on the RC, then press STORE (in the SAM root menu) to store the aligned values to the NVM.
• Restore the initial picture settings after the alignments.
Table 6-2 White tone default settings 32" and 37" sets
Table 6-3 White tone default settings 47" and 52" sets
6.3.3 LCD Panel Flicker Alignment
Note: This is only necessary for Forward Integration models (sets that have the LCD Timing Controller (TCON) located on the SSB) - not applicable to sets in this chassis.
See ComPair for further instructions.
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 PNX5120 ICs (back-end advanced video picture improvement IC which offers motion estimation and compensation features (commercially called HDNM) plus integrated Ambilight control) is made known by the option codes. Notes:• After changing the option(s), save them by pressing the OK
button on the RC before the cursor is moved to the left, select STORE in the SAM root menu and press OK on the RC.
• The new option setting is only active after the TV is switched “off” / “stand-by” and “on” again with the mains switch (the NVM is then read again).
6.4.2 Dealer Options
For dealer options, in SAM select “Dealer options”.See Table 6-5.
6.4.3 (Service) Options
Select the sub menu's to set the initialisation codes (options) of the model number via text menus. See Table 6-5.
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 6-4.Example: The options sticker gives the following option numbers:• 08192 00133 01387 45160• 12232 04256 00164 00000The first line (group 1) indicates hardware options 1 to 4, the second line (group 2) indicate software options 5 to 8.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 6-4 for the options.
DiversityNot all sets with the same Commercial Type Number (CTN) necessarily have the same option code!Use of Alternative BOM An alternative BOM number usually indicates the use of an alternative display or power supply. This results in another display code thus in another Option code. For the power supply there is no difference. Refer to Chapter 3. Precautions, Notes, and Abbreviation List.
6.4.5 Option Code Overview
Table 6-4 Option and display code overview
Important: after having edited the option numbers as described above, you must press OK on the remote control before the cursor is moved to the left!
6.5 Reset of Repaired SSB
A very important issue towards a repaired SSB from a service repair shop implies the reset of the NVM on the SSB.A repaired SSB in service should get the service Set type “00PF0000000000” and Production code “00000000000000”.Also the virgin bit is to be set. To set all this, you can use the ComPair tool.In case of a display replacement, reset the “Operation hours” to “0”, or to the operation hours of the replacement display.
White Tone 32" 37" Black level offset
Colour Temp R G B R G B R G
Normal 125 127 106 127 101 88 7 7
Cool 121 127 119 127 106 105 7 7
Warm 127 121 74 127 92 51 7 7
White Tone 47" 52" Black level offset
Colour Temp R G B R G B R G
Normal 127 116 100 tbd tbd tbd 7 7
Cool 127 121 118 tbd tbd tbd 7 7
Warm 127 107 62 tbd tbd tbd 7 7
CTN(Alt. BOM#)
Options Group 1 Options Group 2 Disp.code
32PFL5404H/12 08192 00133 01387 45160 10194 12448 00164 00000 210
37PFL5604H/12 08192 00133 01387 45160 10185 12448 00164 00000 201
47PFL5604H/12 08192 00135 01387 45160 10187 12448 00164 00000 203
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6.5.1 SSB identification
Whenever ordering a new SSB, it should ne noted that the correct ordering number (12nc) of a SSB is located on a sticker on the SSB. The format is <12nc SSB><serial number>. The ordering number of a “Service” SSB is the same as the ordering number of an initial “factory” SSB.
Figure 6-1 SSB identification
6.6 Total Overview SAM modes
Table 6-5 SAM mode overview
18310_221_090318.eps090319
Main Menu Sub-menu 1 Sub-menu 2 Sub-menu 3 Description
Hardware Information A. SW VERSION e.g. “Q5431_0.26.10.0” Display TV & Stand-by SW version and CTN serialnumber. B. Stand-by processor version e.g. “STDBY_84.69.0.0”
C. Production code e.g. “See type plate”
Operation hours Displays the accumulated total of operation hours.TVswitched “on/off” & every 0.5 hours is increase one
Error Displayed the most recent error.
Reset error buffer Clears all content in the error buffer.
Alignment Tuner AGC RF-AGC Take over point adjustment (AGC defaultvalue is 64)
White point Colour temperature Normal 3 difference modes of colour temperature can be se-lectedWarn
Cool
White point red LCD White Point Alignment. For values,see Table 6-1.White point green
White point blue
Red black level offset
Green black level offset
Dealer options Picture mute Off/On Select Picture mute On/Off. Picture is muted / notmuted in case no input signal is detected at input con-nectors.
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 (USP’s on-screen)
Auto store mode None Autostore mode disabled (not in installation menu)
PDC/VPS Autostore mode via ATS (PDC/VPS) enabled
TXT page Autostore mode via ACI enabled
PDC/VPS/TXT Autostore mode via ACI or ATS enabled
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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
Display Screen 201 / LCD LGD WUE SBA1 37" Displayed the panel code & type model.
LightGuide Off/On Select LightGuide On/Off
Display fans Not present/Present Select Display fans Present/Not present.
Temperature sensor No sensor N.A
Temperature LUT 0 N.A
E-box & monitor Off/On Select E-box & monitor On/Off
Video reproduction Picture processing None/PNX5120 Select Picture processing None/PNX5120 (Q543.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 HD (used in Q543.xE)
Pixel Precise HD (used in Q548.1E)
Ambilight None, Select type of Ambilight modules use.
2 sided 2/2 For 8400 series only
2 sided 4/4
3 sided 2/3/2
3 sided 4/3/4
3 sided 4/5/4
4 sided 4/3/4/3
Ambilight technology LED/Future use Ambilight technology LED is in use.
MOP ambilight Off/On Select MOP ambilight On/Off
Audio reproduction Acoustic system Cabinet design used for setting dynamic audio pa-rameters.
Source selection EXT1/AV1 type SCART CBVS 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 CBVS 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
Main Menu Sub-menu 1 Sub-menu 2 Sub-menu 3 Description
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Miscellaneous Region Europe/AP-PAL-MULTI/Australia Select Region/country.
Tuner type HD1816-MK1/TD1716-MK4/TD1716-MK3/HD1816-MK2
Select type of Tuner used.
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.
Option number Group 1 e.g. “08192.02181.01387.45160” The first line (group 1) indicates hardware options 1to 4.
Group 2 e.g. “10185.12448.00164.00000” The second line (group 2) indicates software options5 to 8.
Store Store after changing.
Initialise NVM N.A
Store Select Store in the SAM root menu after making any changes.
Software maintenance Software events Display Display information is for development purposes.
Clear
Test reboot
Test reboot is to restart the TV.
Hardware events Display Display 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, thisone does keeps up the lifetime of the display itself(mainly to compensate the degeneration behaviour).
Test setting Digital information QAM modulation: 64-QAM Display information is for development purposes.
Symbol rate: 23:29
Original network ID: 12817
Network ID:12817
Transport stream ID: 2
Service ID: 3
Hierarchical modulation: 0
Selected video PID: 35
Selected main audio PID: 99
Selected 2nd audio PID: -1
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
Development file ver-sions
Development 1 file version Display parameters DISPT 4.0.8.11 Display information is for development purposes.
Acoustics parameters ACSTS 3.0.6.1
PQF - Fixed settings 1 “4.54.34.32.34”
PQS - Profile set 1 “4.57.34.32.34”
PQU - User styles 1 “4.56.34.32.34”
Development 2 file version 12NC one zip software Display information is for development purposes.
Initial main software
NVM version Q5431_0.4.3.0
Flash units SW Q5431_0.16.48.24
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 alignment
Main Menu Sub-menu 1 Sub-menu 2 Sub-menu 3 Description
Circuit DescriptionsEN 36 Q543.1E LA7.
2009-Mar-27
7. Circuit Descriptions
Index of this chapter:7.1 Introduction7.2 Power Supply7.3 DC-DC Converter7.4 Front-End7.5 HDMI7.6 Video and Audio Processing - PNX85437.7 Common Interface CI+
Notes: • Only new circuits (circuits that are not published recently)
are described. • Figures can deviate slightly from the actual situation, due
to different set executions.• For a good understanding of the following circuit
descriptions, please use the wiring, block (see chapter 9. Block Diagrams) and circuit diagrams (see chapter 10. Circuit Diagrams and PWB Layouts).Where necessary, you will find a separate drawing for clarification.
7.1 Introduction
The Q543.1E LA chassis (platform name TV543/32) is a derivative from the Q543.3E LA chassis.
Main difference with the previous chassis is the absence of the Timing Controller (TCON) on the SSB; it comes together with the LCD Panel instead.
7.1.1 Implementation
Key components of this chassis are:• PNX8543 Digital Colour Decoder• HD1816AF Hybrid Tuner• DRX3926K Demodulator• TDA9996 HDMI Switch• TPA3123D2PWP Class D Power Amplifier.
7.1.2 TV543 Architecture Overview
• For details about the chassis block diagrams refer to chapter 9. Block Diagrams. An overview of the TV543 architecture can be found in Figure 7-1.
Figure 7-1 Architecture of TV543/32 platform
18540_200_090327.eps090327
Optional for Q548 chassis
Circuit Descriptions EN 37Q543.1E LA 7.
2009-Mar-27
7.1.3 SSB Cell Layout
Figure 7-2 SSB layout cells (top view)
18540_201_090327.eps090327
Circuit DescriptionsEN 38 Q543.1E LA7.
2009-Mar-27
7.2 Power Supply
All power supplies described below are a black box for Service. When defective, a new board must be ordered and the defective one must be returned, unless the main fuse of the board is broken. Always replace a defective fuse with one with the correct specifications! This part is available in the regular market.Consult the Service Spare Parts website for the order codes of the boards.
7.2.1 Specifications
The only type of power supply used in the TV543 platform is the Integrated Power Board (IPB) - incl. inverter.
In this Service Manual, no detailed information is available because of design protection issues.
7.2.2 Diversity
Below find an overview of the different PSUs that are used:
Table 7-1 Supply diversity
7.2.3 Application
An application diagram can be found below:
Figure 7-3 Application Integrated Power Board
7.2.4 Power Supply Timing
The STANDBY signal controls the on-mode voltages +12V, +Vsnd and +24V. During chassis cold start from AC mains, +12V can be expected to be stable within 1.0 seconds, while for a warm start, i.e. wake up from stand-by power state, this timing becomes 0.5 seconds maximum. During AC switch off, stand-by power +3V3-STANDBY decay is at least 20 ms but not more than 5.0 seconds compared to +12V. Refer to Figure 7-4:
Figure 7-4 PSU Timing Diagram
7.2.5 Power Supply Protection
Power supply protection is implemented via the stand-by controller of the PNX8543 via the following signals:• POWER-OK: signal from PSU to indicate if the supply
output from the IPB is normal• DETECT1: signal to indicate if the +5V, +3V3 and +1V2
voltages on the chassis are present• DETECT2: signal to indicate if the +12V voltage on the
chassis is present.
7.3 DC-DC Converter
Input power is obtained from the IPB module via the following voltages:• +3V3-STANDBY (stand-by-mode only)• +12V (on-mode)• +Vsnd (audio power) (on-mode)• +24V (bolt-on power) (on-mode).Control is achieved by the PNX8543 controller via the STANDBY signal.
Audio power is specifically for audio supply usage only and does not go through any DC conversion.
Below find a block diagram of the on-board DC-DC converters.
Figure 7-5 DC-DC converters
Supplier PSU Model Input Voltage Range
LGIT PLHL-T807A 32" High Mains (198 to 265 VAC)
LGIT PLHL-T845A 37" High Mains (198 to 265 VAC)
Delta DPS-298-2ACP 47" High Mains (198 to 265 VAC)
Vo=400V
+3V3_STANDBY
+12V
Audio Supply (+12V)
To Lamps
AC Input
Non- Isolated/Hot Isolated/Cold
PFC
Flyback
STANDBY(HIIGH=OFF, LOW=ON)
RELAY
Inverter
+24V
18440_208_090226.eps090327
18440_209_090226.eps090227
Vin AC
STANDBY
+3V3-STANDBY
+12V, +Vsnd, +24V
Max 1.0sec Max 0.5 secMin 20 msecMax 5.0 sec
+3V3-STANDBY
+12V
+1V2-PNX8543
+3V3
+1V8-PNX8543
+1V8-PNX5100
ENABLE-3V3
+5V_+5V5-TUN
+1V2-PNX5100
18440_210_090227.eps090227
+1V2-STANDBYLD3985M(Linear Regulator)
ST1S10(Sync Power IC)
LD1117(Linear Regulator)
LD1117(Linear Regulator)
NCP5422 + 2xSi4936
(Sync DualController
+ Dual FETs)
ST1S10(Sync Power IC)
Circuit Descriptions EN 39Q543.1E LA 7.
2009-Mar-27
7.4 Front-End
The Front-End consist of the following key components:
• Tuner HD1816AF• IF demodulator DRX3926K• AGC amplifier UPC3221GV• SAW filter 36M125.
Below find a block diagram of the front-end application.
Figure 7-6 Front-End block diagram
The DRX3926K is a multi-standard demodulator supporting DVB-C, DVB-T and analogue standards. The demodulated digital stream is fed into the parallel transport stream data ports of the PNX8543. The demodulated analogue signal in the form of CVBS is connected to the analogue video CVBS/Y input channel, while the SIF is connected via the SSIF2 positive input port.
7.5 HDMI
In this platform, the TDA9996 HDMI multiplexer is implemented. The EDID contents are no longer stored in a separate EEPROM, but directly in the multiplexer. Each input has its own physical sub address: the first 253 bytes are common, where the last 3 bytes define the specific input. The EDID contents are, at +5V power-up, downloaded to RAM. The following figures show the HDMI input configuration and EDID control.
Figure 7-7 HDMI input configuration
Figure 7-8 EDID control (embedded EDID)
Some delta’s w.r.t. TDA9996 compared to earlier chassis/platforms are:• +5V detection mechanism• stable clock detection mechanism• integrated EDID• RT control• HPD control• TMDS output control• CEC control• new hot-plug control for PNX8543 for 5th HDMI input• new EDID structure: EDID stored in TDA9996, therefore
there are no EDID pins on the SSB. Only in the event of a 5th HDMI input, an additional EEPROM is foreseen, as was implemented in previous platforms.
Some delta’s with respect to PNX8543 compared to earlier chassis/platforms are:• 2 HDMI inputs (A & B)• HDMI deep colour RGB/YCbCr 4:4:1 10/12 bit detection.
After replacement of the TDA9996 HDMI multiplexer, the default I2C address should be reprogrammed from C0 to CE, and the HDMI EDIDs should be reprogrammed as well. Both actions should be executed via ComPair.
18440_211_090227.eps090227
I2C-TUNERIF-AGC
NXP HybridTuner
SAWFilter
IF Amplifier DRX3926K PNX8543
I2C-SSB
CVBS
2nd SIF
TS
TDA9996
1P06
1P04
1P03
1P02
1P05
H D M IA-R X
AR X
BR X
C R X
D R XH D M IB-R X
PNX8543
D
C
A
B
Out
1M 96
A B
H D M I 2
H D M I Side (optional)
H D M I 3(optional ) H D M I 1
H D M I 4 (optional )
E d id
18440_213_090227.eps090227
18440_214_090227.eps090227
TDA 9996CPUIIC
Pla tfo rm w ith em b ed d ed ED ID
4 * H D M I inputs
253 com m on B ytes+ 1B subaddres o f
S ource P hys ica l A ddress+3B fo r inpu t A+3B fo r inpu t B+3B fo r inpu t C+3B fo r inpu t D
E D ID : 253B
3B 3B 3B 3B
Circuit DescriptionsEN 40 Q543.1E LA7.
2009-Mar-27
7.6 Video and Audio Processing - PNX8543
The PNX8543 is the main audio and video processor (or System-on-Chip) for this platform. It is a member of the PNX85xx SoC family (described in earlier chassis) with the addition of the MPEG4 functionality; the separate STi710x MPEG4 decoder is no longer implemented in this platform.
The PNX8543 handles the digital and analogue audio- and video decoding and processing. The processor is a MIPS32 general purpose CPU and a 8051-based TV controller for power management and user event handling.
• For a functional diagram of the PNX8543, refer to Figure 7-9.
Figure 7-9 PNX8543 functional diagram
18440_202_090226.eps090226
TS out/in for
TS in from
CVBS, Y/C,
LVDS for
analog CVBS
analog audio
I2SDual SPDIF
Low-IF
SSIF, LR
Dual HDMI
SPDIF
CI/CAMPEG
PRIMARYLVDS
VIDEOSECONDARY
MEMORY
VIDEO3D COMB
DIGITAL IF
AUDIO DEMOD
AUDIO IN
HDMI
SCALER,
AUDIO DSP
AUDIO DACS
AUDIO OUT
300 MHz
300 MHz
I2C PWM GPIO IR ADC UART I2C GPIO Flash
SYSTEM
USB 2.0 CA
PNX8543x
DV INPUTDV-ITU-656
AV-PIP
SPI
MPEG/H.264
I2S
RECEIVER
(8051)CONTROLLER
AND DECODE
DECODER
channel decoder
PCMCIA
RGB
PROCESSORSYSTEM
CONTROLLER
DECODERVIDEO
CPUMIPS32 4KEc
01 x22 x
AV-DSP
REDUCTIONAND NOISE
DE-INTERLACE
OUTPUTVIDEO
SUB-PICTURE
ENCODER
OUTPUTVIDEO
channel)(single or dualflat panel display
DRAWINGENGINE
DMA BLOCK
PCI 2.2
Circuit Descriptions EN 41Q543.1E LA 7.
2009-Mar-27
7.6.1 Video Subsystem
Refer to Figure 7-10 for the main video interfaces for the PNX8543 and the video signal flow between blocks and memory.
Figure 7-10 PNX8543 video flow diagram
The Video Subsystem consist of the following blocks:• Analogue Front-End (AFE) block• Video and PC Capture (VPC/PC) pipe• HDMI Receiver interface• Memory-Based Video Processor MBVP)• Video Composition Pipe (CPIPE)• Memory Based Video Processor (MBVP) VO-1• Memory Based Video Processor (MBVP) VO-2• Video Composition Pipe (CPIPE)• Dual Flat Panel Display-LVDS (FPD-LVDS)• Digital Encoder (DENC)• Digital Video VIP• 2D graphics block.
18440_203_090226.eps090226
VMSP
HDMI_UIP
PC_RX
AFE(ADC)
DAC
LVDS_BUFLVDS_TX
CPIPE_L2QTV
CPIPE_L2VO
MCU-DDR
DM
A B
US
DDR2-SDRAM
PNX8543x
VCP_UIP
DENCDAC
VCP_WIFD
HDMI_RX
MBVP_L2VO2
MBVP_L2QTV
MBVP_L2VO1
A
A
GFX2
PIP
CVBS1/Ymonitor
main
CVBS2/Cmonitor
HDMI
VCP/PC
LOW IF
CVBS
RGB
Dual HDMI
FPD-LVDS1LCD panel
MUX
VCP_RX
2D_DE
VIP(ITU-656)
PC_UIP
GFX1
FPD-LVDS2LCD panel
CVBS/Y
C
CAI
TS
TSDOTSDICMD
PCMCIA
TSI
MSVD
DV (includingITU-656)
YPbPr
VGA
Circuit DescriptionsEN 42 Q543.1E LA7.
2009-Mar-27
7.6.2 Audio Subsystem
Refer to Figure 7-11 for the main audio interfaces for the PNX8543 and the audio signal flow between blocks and memory.
Figure 7-11 PNX8543 audio flow diagram
The Audio Subsystem consist of the following blocks:• Analogue Audio Front End (AAFE) used to capture
Baseband Audio Inputs and to sample Secondary Sound IF (SSIF) directly or via Low-IF input
• HDMI Receiver interface block• SPDIF input block• Audio Input (AI) block• Audio Output (AO) block• Demodulation & Decoding (ASDEC) DSP for decoding all
analogue terrestrial TV sound standards• Audio Post-Processing (APP) block• Digital Audio decoder.
18440_204_090226.eps090226
VMSP
ADC
MCU
DDR2-SDRAM
PNX8543x
HDMI_RX
CAI
SPDIF-IN
I2S
SPDIF
DigIFASDEC
(DEMODULATIONAND DECODING)
TM2270(MPEG, AC-3, MP3
DECODER)
SPDIF-OUT
AOAI
APP - AUDIO DSP(POST PROCESSING)
2DAC
2DAC
2DAC
2DAC
DM
A B
US
I2S-OUT-SD3I2S-OUT-SD4
I2S-OUT-WSI2S-OUT-SCKI2S-OUT-OSC
Main L, R
HP L, R
SCART2 L, R
SCART1 L, R
HDMI
SPDIF-IN1
IFSSIF
L, R
TS-IN
SPDIF-OutSPDIF-IN2
I2S-OUT-SD1I2S-OUT-SD2
I2S-IN-SD3I2S-IN-SD4
I2S-IN-WSI2S-IN-SCKI2S-IN-OSC
I2S-IN-SD1I2S-IN-SD2
SPDIF
ADC
4
4 × I2S
4
4 × I2S
XB3
XB4
fromXB4
fast SPDIF
XB1
XB2
4 × I2S
Circuit Descriptions EN 43Q543.1E LA 7.
2009-Mar-27
7.6.3 Connectivity and Compute Subsystem
Refer to Figure 7-12 for the connectivity and compute subsystem.
Figure 7-12 PNX8543 connectivity and compute subsystem
The Connectivity Subsystem consists of:• PCI/XIO interface• USB2.0 interface• Three 2-wire UARTs• Four Master/Slave I2C interfaces• Common Interface/Conditional Access Interface.
The Computing Subsystem consists of:• 32-bit MIPS RISC core• Enhanced JTAG (EJTAG) block inside the MIPS• JTAG_MMIO blocks• TV controller• Audio/Video DSP (AV_DSP)• Memory Control Unit (MCU).
7.6.4 Service Notice - FLASH RAM / PNX8543 exchange
The FLASH RAM (item 7M00) and/or PNX8543 (item 7600) can only be exchanged by an authorised central workshop with dedicated programming tools. Due to the presence of (CI+) keys in the components, unauthorised exchange of these components will always result in a defective board.
18440_205_090226.eps090226
JTAG_MMIO
UART2
UART1
IIC2_DMA
IIC3_DMA
MIPS4KEc
SYSTEMCONTROLLER
80C51
PCI_XIO
CAI
MCU_DDR
DM
A B
US
DC
S-N
ET
WO
RK
DDR2-SDRAM
I2C-2
I2C-3
EJTAG
PNX8543x
UART-1
UART-2
I2C-MC
UART-3
PWMs
GPIOs
CI/CA
PCI/XIO
EJTAG
USB2.0USB
AVDSP
IIC4_DMAI2C-1
Circuit DescriptionsEN 44 Q543.1E LA7.
2009-Mar-27
7.7 Common Interface CI+
Together with this platform, an extension to the Common Interface (CI) Conditional Access system is added, called CI+.
CI+ or Common Interface Plus is a specification that extends the Common Interface (DVB-CI) as described in the digital broadcasting standard DVB.
The weakness of the conventional CI module used in a Conditional Access system was the absence of a Copy Protection mechanism, as decrypted content could be sent over the PCMCIA interface unscrambled. With the CI+ extension, a form of copy protection is established between the Conditional Access Module (CAM) and the Integrated Digital Television (IDTV). The security mechanisms in CI+ are derived/copied from POD (with the exception of Out Of Band (OOB) used in US CA systems). For more information about conventional CA systems using a CI module, refer to the BJ3.0E L/PA or BL2.xU Service Manual.
The CI+ standard is downwards compatible with the existing CI standard.
The following figure shows the implementation of the CI+ Conditional Access system in the TV543 platform.
Figure 7-13 CI+ Conditional Access implementation
C A M
P N X 8543
TS -IN P U T
Transport S tream s
C A-C ontro l
CA-
MD
I
CA-
MD
O
CA-
CTR
L
PCI/X
IO
P roprietary C A scram bling
C I + S tandard ised C C S scram bling
D E S /AE Sdescram bler
MH
EG M
MI
appl
icat
ion
M atrixM atrixtuner channe ldecoder
DES
/AES
scra
mbl
er
CA
clie
nt
M H E G C I+
decoderdem ux
(S C )
C om m andin te rface
Transport s treamin te rface
18440_221_090227.eps090227
IC Data Sheets EN 45Q543.1E LA 8.
2009-Mar-27
8. IC Data Sheets
This chapter shows the internal block diagrams and pin configurations of ICs that are drawn as “black boxes” in the
electrical diagrams (with the exception of “memory” and “logic” ICs).
8.1 Diagram SSB: DC/DC +3V3 +1V2 B01A, NCP5422AD (IC 7103)
Figure 8-1 Internal block diagram and pin configuration
Block Diagram
Pin Configuration
F_15400_129.eps240505
VCC
SetDominant
IS+1
PWMComparator 1
PWMComparator 2
ResetDominant
CURRENTSOURCE
GEN
BST
FAULT
BIAS
FAULT
R
S
R
S
R
S
RAMP1
GATE(H)1
5.0 A
0.425 V
0.25 V
COMP1
−+
−
+
− +
−+ −
+
−
+
−
+
−
+
−
+
COMP2VFB1
RAMP2
FAULT
FAULTResetDominant
GATE(L)1
GATE(H)2
GATE(L)2
GND
VCC
BST
VCC
RAMP1 RAMP2
CLK1
CLK2OSC
0.425 V
1.0 VE/A2
E/A OFF
E/A1
E/A OFF
ROSC
Q
1.2 mA
VFB2
1.0 V
VCC
−
+
−
+
IS−1
IS+2
IS−2− +
− +
8.6 V
70 mV
70 mV
BST7.8 V
FAULT
FAULT
non−overlap
non−overlap
A = Assembly LocationWL = Wafer LotY = YearWW = Work Week
VFB1COMP1
IS+1
GATE(H)1GATE(L)1
GNDBST
IS−1
1 16GATE(H)2GATE(L)2VCCROSCIS+2IS−2VFB2COMP2
WW
YLW
AA2
245
PC
N
SO−16
IC Data SheetsEN 46 Q543.1E LA8.
2009-Mar-27
8.2 Diagram SSB: DC/DC +3V3 +1V2 Standby B01B, ST1S10PH (IC 7202/7222)
Figure 8-2 Internal block diagram and pin configuration
PowerSO-8DFN8 (4x4)I_18010_083.eps
130608
Block Diagram
Pin Configuration
IC Data Sheets EN 47Q543.1E LA 8.
2009-Mar-27
8.3 Diagram SSB: DC/DC +3V3 +1V2 Standby B01B, LD3985M (IC 7201)
Figure 8-3 Internal block diagram and pin configuration
G_16290_084.eps020206
Pin Configuration
Block Diagram
TSOT23-5L/SOT23-5L Flip-Chip
IC Data SheetsEN 48 Q543.1E LA8.
2009-Mar-27
8.4 Diagram SSB: Front End B02A, DRX3926K (IC 7303)
Figure 8-4 Pin configuration
Block Diagram
Pin Configuration
18440_300_090303.eps090303
DVB-T/QAM/ATVDemodulator
Stereo Decoder
System Controller
SAW
MainTuner
PresawSense
DVB-T/QAMFEC
DAC
DAC
MPEG-2TS
CVBS
SIF
I2S Audio
I2C
GPIO
IF AGC
RF AGC
Integrated Tuner
I2C
ADCIF AMP
49XI
50XO
51VSSAH_OSC
52VDDAH_OSC
53VDDH
54VSSH
55VSSL
56VDDL
57TDO
58TMS
59TCK
60TDI
61I2C_SDA2
62I2C_SCL2
63I2S_CL
64I2S_DA
RSTN32
SAW_SW31
GPIO230
VSYNC29
VSSL28
VDDL27
VDDH26
VSSH25
I2C_SDA124
I2C_SCL123
MD722
MD621
MD520
MD419
VDDH18
VSSH17
PDP
VDDAL_AFE2
VSSAL_AFE2
SIF
CVBS
VDDAH_CVBS
VSSAH_CVBS
PDN
INP
INN
VSSAH_AFE1
VDDAH_AFE1
VDDAL_AFE1
VSSAL_AFE1
IF_AGC
RF_AGC
VDDL
VSSL
GPIO1
MSTRT
MERR
VSSH
VDDH
I2S_WS
MCLK
MVAL
MD0
MD1
MD2
MD3
VSSL
VDDL
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
DRXK
IC Data Sheets EN 49Q543.1E LA 8.
2009-Mar-27
8.5 Diagram SSB: PNX8543 - Power B03A, PNX8543 (IC7600)
Figure 8-5 Internal block diagram and pin configuration
Block Diagram
Pin Configuration
18440_301_090303.eps090303
TS out/in for
TS in from
CVBS, Y/C,
LVDS for
analog CVBS
analog audio
I2SDual SPDIF
Low-IF
SSIF, LR
Dual HDMI
SPDIF
CI/CAMPEG
PRIMARYLVDS
VIDEOSECONDARY
MEMORY
VIDEO3D COMB
DIGITAL IF
AUDIO DEMOD
AUDIO IN
HDMI
SCALER,
AUDIO DSP
AUDIO DACS
AUDIO OUT
300 MHz
300 MHz
I2C PWM GPIO IR ADC UART I2C GPIO Flash
SYSTEM
USB 2.0 CA
PNX8543x
DV INPUTDV-ITU-656
AV-PIP
SPI
MPEG/H.264
I2S
RECEIVER
(8051)CONTROLLER
AND DECODE
DECODER
channel decoder
PCMCIA
RGB
PROCESSORSYSTEM
CONTROLLER
DECODERVIDEO
CPUMIPS32 4KEc
01 x22 x
AV-DSP
REDUCTIONAND NOISE
DE-INTERLACE
OUTPUTVIDEO
SUB-PICTURE
ENCODER
OUTPUTVIDEO
channel)(single or dualflat panel display
DRAWINGENGINE
DMA BLOCK
PCI 2.2
PNX8543xEH
Transparent top view
1 9 17 253 11 19 277 15 235 13 21 2942612 10 18 264 12 22 308 20 286 14
T
AD
H
AK
P
AB
F
AH
M
Y
D
AF
K
V
BA
J
R
AC
G
AJ
N
AA
E
AG
L
W
C
AE
U
ball A1index area
3132
3334
ALAM
ANAP
IC Data SheetsEN 50 Q543.1E LA8.
2009-Mar-27
8.6 Diagram SSB: Ethernet B05B, DP83816 (IC7N04)
Figure 8-6 Internal block diagram and pin configuration
Block Diagram Pin Configuration
F_15710_167.eps230905
MAC/BIU
Interface
SRAM
25 MHz Clk
MII RXMII TXMII Mgt
BIOS ROM CntlBIOS ROM Data
EE/
MO
RB
PCI AD
PCI CNTL
PCI CLK
3V DSP Physical Layer
Logic
RX-2 KB
SRAMTX-2 KB
TPRDP/M
EEPROM/LEDs
XT IIM
XR II
M
tgM I I
M
ni at ad t seT
tuo atad tseT
X T IIM
XR II
M
t gM I I
M
TPTDP/M
DP83816
rddA xT
ata d rw xT
rddA x
R
atad rw x
R
atad dr xR
atad dr xT
RAMBISTLogic
SRAMRXFilter
.5 KB
121122123124125126127128129130131132
998979695949392919099888786858483828180897877767574737
6665646362616059585756555453525150494847464544434241
123456789011121314 1516 171819102122232425262728203132333 92
IdentificationPin1
37383940
120119118117116115114113112
110109
111
NLE
SV
ED
NY
DR T
NY
DRI
NE
MA
RF
2N
EB
C6 1
DA7 1
DA81
DA
NP
OTSN
RR
EP
NR
RE
SR
AP1
NE
BC
51DA
41DA
31DA
21DA
11DA
01DA
AD9
SSV
AD8
91DA
02DA
12DA
22D A
32DA
LE
SDI
SSV
DD
VIC
P
CN
DD
V IC
P
CN
SS
V
DD
V IC
P
3N
EB
C42
DA52
DA
AD26
CBEN0
VSSAUXVDD
RESERVEDVREF
PCIVDDAD29
AD31VSS
REQNGNTNRSTNINTAN
AD28
PCICLK
AD30
PMEN/CLKRUNN
VSS
VSS
TPTDPTPTDM
REGENIAUXVDD
VSS
TPRDPTPRDM
VSS
AD27
AD7AD6
AD5VSS
MA1/LED10NMA2/LED100N
ID
EE/3
AM
KLC
EE/4
AM
5A
M
MWRN
MD4/EEDO
MD3
EESEL
AD0AD1AD2AD3
AD4
MD0
MCSN
MD1/CFGDISNMD2
MD5MD6MD7MA0/LEDACTN
PCIVDD
SS
V
1C
NCNC
AUXVDDVSS
OID
MC
DM
KLC X
R6
AM/0
D XR
7A
M/1DX
R8
AM/2
DXR
9A
M/3D X
RE
OXR
01A
M/R
EXR
11A
M/V
DXR
51A
M/3D
XT
61A
M/LO
CS
RC
NE
XTKL
CXT
41A
M/2D
XT31
AM/1
DXT
21A
M/ 0D
XT
SS
VD
DV
XU
A
SS
VD
DV
XU
A
2X
1X
DP83816 NC
SS
VD
DV
XU
A
NC
3VAUX
63 53 43
676869707172
0011012013014015 016 017 018 01
144143142141140139138137136135134133
VSSIAUXVDD
PWRGOOD
MRDN
AUXVDD
CN
SS
V
SS
VD
DV
XU
A
NC
RESERVED
CN
NC
RESERVEDVSS
IC Data Sheets EN 51Q543.1E LA 8.
2009-Mar-27
8.7 Diagram SSB: Class-D B06A, TPA3123D (IC 7L10)
Figure 8-7 Internal block diagram and pin configuration
Block Diagram
Pin Configuration
18440_302_090303.eps090303
1 F
SD
PVCCL
PVCCR
VCLAMP
GAIN1
BYPASS
1 F
1 F
0.22 F
AGND
} Control
ShutdownControl
LIN
RIN
BSR
BSL
PGNDR
PGNDL
0.22 F
22 H
22 H
0.68 F
470 F
0.68 F
1 F
470 F
GAIN0
AVCC
MUTE
ROUT
LOUT
123456789101112
242322212019181716151413
PVCCLSD
PVCCLMUTE
LINRIN
BYPASSAGNDAGND
PVCCRVCLAMP
PVCCR
PGNDLPGNDLLOUTBSLAVCCAVCCGAIN0GAIN1BSRROUTPGNDRPGNDR
TERMINALI/O/P DESCRIPTION24-PINNAME (PWP)
Shutdown signal for IC (low = disabled, high = operational). TTL logic levels with compliance toSD 2 I AVCCRIN 6 I Audio input for right channelLIN 5 I Audio input for left channelGAIN0 18 I Gain select least-significant bit. TTL logic levels with compliance to AVCCGAIN1 17 I Gain select most-significant bit. TTL logic levels with compliance to AVCC
Mute signal for quick disable/enable of outputs (high = outputs switch at 50% duty cycle, low =MUTE 4 I outputs enabled). TTL logic levels with compliance to AVCCBSL 21 I/O Bootstrap I/O for left channelPVCCL 1, 3 P Power supply for left-channel H-bridge, not internally connected to PVCCR or AVCCLOUT 22 O Class-D 1/2-H-bridge positive output for left channelPGNDL 23, 24 P Power ground for left-channel H-bridgeVCLAMP 11 P Internally generated voltage supply for bootstrap capacitorsBSR 16 I/O Bootstrap I/O for right channelROUT 15 O Class-D 1/2-H-bridge negative output for right channelPGNDR 13, 14 P Power ground for right-channel H-bridge.PVCCR 10, 12 P Power supply for right-channel H-bridge, not connected to PVCCL or AVCCAGND 9 P Analog ground for digital/analog cells in coreAGND 8 P Analog ground for analog cells in core
Reference for preamplifier inputs. Nominally equal to AVCC/8. Also controls start-up time viaBYPASS 7 O external capacitor sizing.AVCC 19, 20 P High-voltage analog power supply. Not internally connected to PVCCR or PVCCL
Connect to ground. Thermal pad should be soldered down on all applications to properlyThermal pad Die pad P secure device to printed wiring board.
Block Diagrams EN 53Q543.1E LA 9.
2009-Mar-27
9. Block Diagrams
Wiring Diagram 32" (P&S)K
EY
BO
AR
D C
ON
TR
OL
(111
4)
1M99 (B01B)12. GND11. SDA-SET10. SCL-SET9. POWER-OK8. GND7. BACKLIGHT-BOOST6. BACKLIGHT-OUT5. LAMP-ON-OUT4. GND3. GND2. +12VD1. +12VD
1M95 (B01B)11. N.C10. GNDSND9. +AUDIO-POWER8. +12V7. +12V6. +12V5. GND4. GND3. GND2. STANDBY1. +3V3-STANDBY
CN411. NC10. GND_SND9. +VSND8. +12V7. +12V6. +12V5. GND14. GND13. GND12. STANDBY1. 3V3_ST
CN512. NC11. NC10. NC9. INV_OK8. A/P_DIM7. BOOST6. DIM5. BL_ON_OFF4. GND13. GND12. +12V1. +12V
CN11. N2. L
1M20 (B03G)8. +5V7. KEYBOARD6. LED15. +3V3-STANDBY4. LED23. RC2. GND1. LIGHT-SENSOR
1736 (B06A)3. RIGHT-SPEAKER2. GNDSND1. LEFT-SPEAKER
1735 (B06A)4. RIGHT-SPEAKER3. GNDSND2. GNDSND1. LEFT-SPEAKER
8308
WIRING DIAGRAM 32" (P&S)
SSB(1150)B
INLET
MAIN POWER SUPPLYIPB 32 PLHL-T807A (1005)
IR LED PANEL (1112)
LCD DISPLAY (1004)
J23P
J18P
FUSE
8M20
8M95
8M99
LEFT SPEAKER(5213)
RIGHT SPEAKER(5213)
1R50 (B07B)1. +VDISP-OUT_A3. +VDISP-OUT_A5. +VDISP-OUT_A7. +VDISP-OUT_A.........30. GND
8R50
18540_400_090311.eps090310
Board Level Repair
Component Level RepairOnly For Authorized Workshop
EN 54Q543.1E LA 9.Block Diagrams
2009-Mar-27
Wiring Diagram 37" (P&S)
KE
YB
OA
RD
CO
NT
RO
L(1
114)
1M99 (B01B)12. GND11. SDA-SET10. SCL-SET9. POWER-OK8. GND7. BACKLIGHT-BOOST6. BACKLIGHT-OUT5. LAMP-ON-OUT4. GND3. GND2. +12VD1. +12VD
1M95 (B01B)11. N.C10. GNDSND9. +AUDIO-POWER8. +12V7. +12V6. +12V5. GND4. GND3. GND2. STANDBY1. +3V3-STANDBY
CN411. NC10. GND_SND9. +VSND8. +12V7. +12V6. +12V5. GND14. GND13. GND12. STANDBY1. 3V3_ST
CN512. NC11. NC10. NC9. INV_OK8. A/P_DIM7. BOOST6. DIM5. BL_ON_OFF4. GND13. GND12. +12V1. +12V
CN
11.
N2.
L
1M20 (B03G)8. +5V7. KEYBOARD6. LED15. +3V3-STANDBY4. LED23. RC2. GND1. LIGHT-SENSOR
1736 (B06A)3. RIGHT-SPEAKER2. GNDSND1. LEFT-SPEAKER
1735 (B06A)4. RIGHT-SPEAKER3. GNDSND2. GNDSND1. LEFT-SPEAKER
8308
WIRING DIAGRAM 37" (P&S)
SSB(1150)B
INLET
MAIN POWER SUPPLYIPB 37 PLHL-T845A (1005)
TOB
AC
KLI
GH
T
CN
21.
HV
12.
N.C
.3.
HV
1
DANGEROUSHIGH VOLTAGE
CN
31.
HV
22.
N.C
.3.
HV
2
DANGEROUSHIGH VOLTAGE
IR LED PANEL (1112)
LCD DISPLAY (1004)
J23P
J18P
FUSE
8316
8319
8M20
8M95
8M99
8Z01
LEFT SPEAKER(5213)
RIGHT SPEAKER(5213)
TOBACKLIGHT
1G52 (B07B)1. +VDISP-OUT_A2. +VDISP-OUT_A3. +VDISP-OUT_A4. +VDISP-OUT_A.........51. GND
18540_401_090311.eps090312
Board Level Repair
Component Level RepairOnly For Authorized Workshop
Block Diagrams EN 55Q543.1E LA 9.
2009-Mar-27
Wiring Diagram 47" (P&S)
18540_402_090311.eps090312
KE
YB
OA
RD
CO
NT
RO
L(1
114)
1M99 (B01B)12. GND11. SDA-SET10. SCL-SET9. POWER-OK8. GND7. BACKLIGHT-BOOST6. BACKLIGHT-OUT5. LAMP-ON-OUT4. GND3. GND2. +12VD1. +12VD
1M95 (B01B)11. N.C10. GNDSND9. +AUDIO-POWER8. +12V7. +12V6. +12V5. GND4. GND3. GND2. STANDBY1. +3V3-STANDBY
CN
11.
N2.
L
1G52 (B07B)1. +VDISP-OUT_A2. +VDISP-OUT_A3. +VDISP-OUT_A4. +VDISP-OUT_A.........51. GND
1M20 (B03G)8. +5V7. KEYBOARD6. LED15. +3V3-STANDBY4. LED23. RC2. GND1. LIGHT-SENSOR
1736 (B06A)3. RIGHT-SPEAKER2. GNDSND1. LEFT-SPEAKER
1735 (B06A)4. RIGHT-SPEAKER3. GNDSND2. GNDSND1. LEFT-SPEAKER
8308
WIRING DIAGRAM 47" (P&S)
SSB(1150)B
INLET
MAIN POWER SUPPLYIPB DPS-298CP-2A (1005)
CN
21.
HV
12.
N.C
.3.
HV
1
DANGEROUSHIGH VOLTAGE
CN
31.
HV
22.
N.C
.3.
HV
2
DANGEROUSHIGH VOLTAGE
IR LED PANEL (1112)
LCD DISPLAY (1004)
J23P
J18P
F1 T8.0A
SPEAKER WOOFER (5213)
8316
8319
8736
8M20
8M95
8M99
8G52
CN411. NC10. GND_SND9. +VSND8. +12V7. +12V6. +12V5. GND14. GND13. GND12. STANDBY1. 3V3_ST
CN512. NC11. NC10. NC9. INV_OK8. A/P_DIM7. BOOST6. DIM5. BL_ON_OFF4. GND13. GND12. +12V1. +12V
RIGHT SPEAKER
(5214)
LEFT SPEAKER
(5214)
TOB
AC
KLI
GH
T
TOBACKLIGHT
- +
Board Level Repair
Component Level RepairOnly For Authorized Workshop
EN 56Q543.1E LA 9.Block Diagrams
2009-Mar-27
Block Diagram Video
B02A FRONT END B03 PNX8543 B07B DISPLAY INTERFACE
B04B ANALOG IO - SCART 1&2B05A HDMI
B04C YPBR / SIDE IO / S-VIDEO
B03F PNX8543 - SDRAM
B03G PNX8543 - CONTROL MIPS/FLASH/PCI
B05C PCMCIA
+VDISP-OUT_A
TO DISPLAY> 32" FHD
TO DISPLAY32" HD
1G22
SDRAM
7B01EDE1116AEBG
SDRAM
7B00EDE1116AEBG
IF-AGC
RF-AGC
4302
4303
5
4
1303
SAW 36M125
23652364
2367
2306
2307
2368
3305
33AA3306
33AC
3303
3304
5311
1301HD1816AF/BHXP
IF-OUT1
RF-AGC
+5V-TUNER
IF-OUT2
MAIN HYBRIDTUNER
11
10
2
3
4
7
6
34
50
39
40
49
47
48
PDP
IF-N
44 SIF
IF-P
PDN
3
1
2
7303DRX3926K
DEMODULATOR
+3V3A
+5V-TUNER
7302UPC3221GV
AGC AMPLIFIER
IN
VCC
OUT
AGC CONTROL
1
3311
43
8,18,26,53
CVBS
CVBS-TER-OUT
3348
4315
43147345
3301
33
130427M
7600PNX85433EH/M2A
TUN_CAB03B
LVDSB03B
ANALOG VIDEOB03E
HDMI_DVB05A
MEMORYB03F
CONROLB03G
VDDB03A
PCIB03G
F2
H3
1
5SVHS IN
24
3
1G37
1G20
CVBSFRONT-Y_CVBS
FRONT-C
AV3-PB
AV3-Y
AV3-PR
PB
PR
Y
EXT 1
CVBS2EXT 2
EXT 3
SIDEI/O
1F01
7
1F02
20
2021
1
7
11
1516
2021
1
7
11
1516
SCART1
SCART2
AV1_STATUS8
AV2-PB_SC2-B
AV2-PR_SC2-R15
11 AV2-Y_SC2-G
7F0274HC4053PW
14
1
5
Y_CVBS-MON-OUT-SC
CVBS-TER-OUT
197F03
197F04
REGIMBEAU_CVBS-SWITCH9,10,11
1
1G30
2
3
14
13
R-VGA
G-VGA
B-VGA
H-SYNC-VGA
V-SYNC-VGA
1 610
11
5
15
VGACONNECTOR
H2
M1
P1
K1
G1
T2
T1
M4
P4
K4
H1
N3
J3
L3
B03HAV1_BLK16
7F06
AV2-STATUS8
16 AV2-BLK_LCD-SDA7F05
B03HCONTROL
B03HCONTROL
B03HCONTROL
B03HCONTROL
3 RXC-
RX0+
RX0-RX1+
RX1-
RX2+
RX2-
2
100
99
97
96
94
93
RXC+
7F07-7F08Y-CVBS-MON-OUT
15
7
11
20
J2
A3
L2
N2
G4
SC1-B
SC1-R
SC1-G
CVBS1
A13
B11
B12
C16
A12
B14
A15
A14
B13
HDMI_RX1_B_P
HDMI_RX2_B_N
HDMI_RX2_B_P
HDMI_RREF
HDMI_RX1_B_N
HDMI_RX0_B_P
HDMI_RXC_B_P
HDMI_RXC_B_N
HDMI_RX0_B_N
7H11TDA9996
HDMISWITCH
C_-C_+
VDDx_1V8
RXDRXC
RXB
RXA
D0_-
D0_+
D1_-D1_+
D2_-
D2_+
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
72
71
69
68
66
65
63
62
42
41
39
39
36
35
33
32
23
22
20
19
17
16
14
13
DRX2+
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-
90
89
87
86
84
83
81
80
191
182
1
1H03
3
4
7
910
12
6
DRX2+
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-HDMI SIDECONNECTOR
191
182
1
1H01
3
4
7
910
12
6
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-HDMI 1CONNECTOR
1
1H00
3
4
7
910
12
6
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
1
1H02
3
4
7
910
12
6
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
191
182
HDMI 2CONNECTOR
191
182
HDMI 3CONNECTOR
RES
AP18AN18AL18AK18AP19AN19AP20AN20AM20AL20AM19AL19
AP22
RX51001A+RX51001A-RX51001B+RX51001B-
RX51001C+RX51001C-RX51001D+RX51001D-RX51001E+RX51001E-
RX51001CLK+RX51001CLK-
RX51001B+RX51001B-
RX51001C+RX51001C-RX51001D+RX51001D-RX51001E+RX51001E-
RX51001CLK+RX51001CLK-
RX51002A+RX51002A-RX51002B+RX51002B-
RX51002C+RX5100C-
RX51002D+RX51002D-RX51002E+RX51002E-
RX51002CLK+RX51002CLK-
AN22AL22AK22AP23AN23AP24AN24AM24AL24AM23AL23
PNX8543
H264USB 2.0
7M00NAND01GW3B2BN6F
NANDFLASH
1G
18540_403_090311.eps090313
PCI-AD<->NAND-AD
FE-DATA(0-7)
(0-12)
DDR2-D(0-15)
(16-31)
DDR2-A(0-12)
43
21
USB20-DMUSB20-DP
USB 2.0CONNECTOR SIDE
SW UPLOADJPEGMP3
1M09
3
1
4
2
AL16
AN16
AP16
USB-OC
VIDEO
PCMCIA
CONDITIONALACCESS
CA-MDO(0-7)MDO(0-7)
CA-MDI(0-7)
7
12
9
2
7F01
RF_AGC
IF_AGC
XI
XO
PD_N
PD_P
+3V3BVDDH
SIF
CVBS
2,16,27,56+1V2
20+3V3
VDDL37
+3V3AVDDAH_AFE142
+3V3EVDDAH_CVBS52
+3V3DVDDAH_OSC36,46
+1V2A
16+5V
VDDAL_AFEAK19
A_P
CA_MD0
CA_MDI
AI51
AI44
CVBS1Y_P
AI23
AI33
AI13
AI42
AI43
AI54
PC3_AI3
VSYNCIN
PC1_AI3
PC2_AI3
PC3_AI1
PC1_AI1
PC2_AI1
AI32
AI22
AI12
AI41
TNR_TSDI
A_NB_PB_NC_PC_ND_PD_NE_PE_N
CLK_PCLK_N
LOUT2_A_PLOUT2_A_NLOUT2_B_PLOUT2_B_NLOUT2_C_PLOUT2_C_NLOUT2_D_PLOUT2_D_NLOUT2_E_PLOUT2_E_N
LOUT2_CLK_PLOUT2_CLK_N
IREF_LVDS VDDA-LVDS
HSYNCIN
J2DDR2-VREF-DDRVREF
VREFJ2
DDR2-VREF-DDR
J1+1V8-PNX85XX
12,37+3V3-NAND
VDDL
VCC
AB32DDR2-VREF-CTRL
AA31+1V8-PNX85XX
USB_FAULT
USB_DPUSB_DM
M_VREF
M_DQ
M_A
M_IREF
VDDLJ1
+1V8-PNX85XX
3B03
AM17+3V3-PERUSB_RPU
3M21
AN17+3V3-PERUSB_VBUS
PCI
3M23
AJ21+3V3-PERVDD_3V3_PER
AG301V8-PMNX85XXVDD_1V8_DDR
AJ12+1V2-PNX85XXVDD_1V2_CORE
AC6+3V3-STANDBYVDD_3V3_SBPER
F16RREF-PNX85XXVDDA_HDMI_3V3_BIAS
AK20VDDA-LVDS
AK12VDDA-ADC
AJ6VDDA-DAC
VDD_3V3_LVDS
VDDA_3V3_ADAC
VDDA_3V3_AADC
AF51V2-STANDBYVDD_1V2_SBCORE
+5V
3M31
+T
MDX
RREF-PNX85XX3H64
8,45,91,24,75,95
VDD_1V8VDDO_3V3
4VDDO_3V3
VDDx_3V346,55
VDDS_3V3
VDDH_3V3
15,21,34,40,64,70,85,88
VDDH_3V3
7K04-7K0574LVC245APW
BUFFER
3351
52
18
17
1K00
68P
PCMCIA-VCC-VPP+VDISP-OUT_A
1R50
3
1
5
7
242612
614
82
184
20
30
1G52
2
1
3
4
121114
2013
1922
2421
2317
28
16
2730
3629
35383740
3339
32
51
Block Diagrams EN 57Q543.1E LA 9.
2009-Mar-27
Block Diagram Audio
B02A FRONT END B05C PCMCIA B03 PNX8543
B05A HDMI B03C PNX8543 - AUDIOAMPLIFIER
B06A CLASS-D
B03C PNX8543 - AUDIO AMPLIFIER
B04C YPBR / SIDE IO / S-VIDEO
B04B ANALOG - SCART 1&2
B03F PNX8543 - SDRAM
B03G PNX8543 - CONTROL MIPS/FLASH/PCI
B04C YPBR / SIDE IO / S-VIDEO
1G25
6
2
4
7H00PNX85439EH/M2
TUNER_CAB03B AUDIOB03D
STANDBYB03H
ANALOG VIDEOB03E
DIGITAL VIDEO INB04H
AUDIOB03D
HDMIB-RXC-
HDMIB-RX0+
HDMIB-RX0-HDMIB-RX1+
HDMIB-RX1-
HDMIB-RX2+
HDMIB-RX2-
HDMIB-RXC+
A13
B11
B12
A12
B14
A15
A14
B13
PNX8543
H264USB 2.0
18540_404_090311.eps090326
AN14
AP13
17351
2
SPEAKER L3
4
SPEAKER R
SUBWOOFER(OPTIONAL)
ADAC(1)
ADAC(2)
AUDIO-RESETAD1
AC5
ADAC(4)
HP_LOUT
HP_ROUTADAC(3)
HEADPHONEOUT 3.5mm
AM12
AM11
7830TPA6111A2DGN
HEADPHONEAMPLIFIER
1
7IN-1
SHUTDOWN
IN-2
2
6
5AUDIO-RESET
A-PLOP B04B
7L10TPA3123D2PWP
CLASS DPOWER
AMPLIFIER
OUT-L
PVCC_L
PVCC_R
OUT-R
5
6
22
15
IN-R
IN-L
MUTE
SD
MUTE 4
2
AUDIO-MUTE
A-STBY
A-STBY
B04C
STANDBY &PROTECTION
7L03
LEFT-SPEAKER
RIGHT-SPEAKER
AUDIO-IN5-L
AUDIO-IN5-R
AL9
AL8
AN7
AP7
AK6
AL6
AN5
AP5
1G20
AUDIO INL+R
AUDIO-OUT-R
AUDIO-OUT-L AN11
AP10
AUDIO OUTL+R
V1DIGITALAUDIO
OUTADAC(5)
ADAC(6)
SPDIF-OUT-1
8
14
10
12
7G00A-PLOP
B03C
SIDEI/O
EXT 3
AUDIO-CL-L
A-PLOP
1
7
3
1G22
3
5
5
8
5
ADAC(7)
ADAC(8)
AUDIO-IN3-L
AUDIO-IN3-R
AM6
AN6AUDIO IN
L+R
ADAC2
PO_7
PO_6
ADAC3
ADAC4
ADAC1
1G21
2
3
1
7807-1 7807-2
EF7G01
17361
2
3
1
1F013
6
AP-SCART-OUT-L
AP-SCART-OUT-R
2
EXT 1
EXT 2
1
1F02
3
2
6
AP-SCART-OUT-L
AP-SCART-OUT-R
AUDIO-IN2-R
AUDIO-IN2-L
2021
1
7
11
1516
SCART1
SCART2
A-PLOP
7F00A-PLOP B03C
2021
1
7
11
1516
7803-3/4
7803-1/2
AUDIO-CL-R3F02
3F00
AUDIO
AUDIO-IN1-L
AUDIO-IN1-R
SDRAM
7B01EDE1116AEBG
SDRAM
7B00EDE1116AEBG
MEMORYB03F
CONROLB03G
PCIB03G7M00NAND01GW3B2BN6F
NANDFLASH
1GPCI-AD24<->NAND-AD
(0-12)
DDR2-D(0-15)
(16-31)
DDR2-A(0-12)
43
21
USB20-DMUSB20-DP
USB 2.0CONNECTOR SIDE
SW UPLOADJPEGMP3
1M09
3
1
4
2
AL16
AN16
AP16
USB-OC
IF-AGC
RF-AGC
4302
4303
5
4
1303
SAW 36M125
23652364
2367
2306
2307
2368
3305
33AA3306
33AC
3303
3304
5311
1301HD1816AF/BHXP
IF-OUT1
RF-AGC
IF-OUT2
MAIN HYBRIDTUNER
11
10
2
3
4
7
6
34
50
39
40
49
47
48
PDP
IF-N
44 SIF
IF-P
PDN
3
1
2
7303DRX3926K
DEMODULATOR
+3V3A
+5V-TUN
7302UPC3221GV
AGC AMPLIFIER
IN
VCC
OUT
AGC CONTROL
1
3311
43 CVBS3348 43147345
33
130427M
F2
H3
FE-DATA(0-7)
3L17
5L10
5L09
8,18,26,53
RF_AGC
IF_AGC
XI
XO
PD_N
PD_P
+3V3BVDDH
SIF
CVBS
2,16,27,56+1V2VDDL
37+3V3AVDDAH_AFE1
42+3V3EVDDAH_CVBS
52+3V3DVDDAH_OSC
36,46+1V2AVDDAL_AFE
3305
+3V3A
PCMCIA
CONDITIONALACCESS
CA-MDO(0-7)MDO(0-7)
CA-MDI(0-7)
20+3V3
CA_MD0
CA_MDI
TNR_TSDI
7K04-7K0574LVC245APW
BUFFER
3351
52
18
17
1K00
68P
PCMCIA-VCC-VPP
32
100
99
97
96
94
93
7H11TDA9996
HDMISWITCH
C_-C_+
VDDx_1V8
RXDRXC
RXB
RXAD0_-
D0_+
D1_-D1_+
D2_-
D2_+
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
72
71
69
68
66
65
63
62
42
41
39
39
36
35
33
32
23
22
20
19
17
16
14
13
DRX2+
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-
90
89
87
86
84
83
81
80
191
182
1
1H03
3
4
7
910
12
6
DRX2+
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-HDMI SIDECONNECTOR
191
182
1
1H01
3
4
7
910
12
6
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-HDMI 1CONNECTOR
1
1H00
3
4
7
910
12
6
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
1
1H02
3
4
7
910
12
6
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
191
182
HDMI 2CONNECTOR
191
182
HDMI 3CONNECTOR
8,45,91,24,75,95
VDD_1V8VDDO_3V3
4VDDO_3V3
VDDx_3V346,55
VDDS_3V3
VDDH_3V3
15,21,34,40,64,70,85,88
VDDH_3V3
C16
HDMI_RX1_B_P
HDMI_RX2_B_N
HDMI_RX2_B_P
HDMI_RREF
HDMI_RX1_B_N
HDMI_RX0_B_P
HDMI_RXC_B_P
HDMI_RXC_B_N
HDMI_RX0_B_N
RREF-PNX85XX3H64
J2DDR2-VREF-DDR
J2DDR2-VREF-DDR
J1+1V8-PNX85XX
J1+1V8-PNX85XX
8+3V3
+5V
3M31
+T
1,3
10,12+AUDIO-POWER
5L07
5L08
AADC
VREF_POS
AN8
AM9VDDA-AUDIO
VDDA_3V3_DACAK9
VDDA-DAC
5902
5900
VDD
VO_1
VO_2
12,37+3V3-NAND
AB32DDR2-VREF-CTRL
AA31+1V8-PNX85XX
M_VREFM_IREF
3B03
USB_FAULT
USB_DPUSB_DM
AM17+3V3-PERUSB_RPU
3M21
AN17+3V3-PERUSB_VBUS
3M23
M_DQ
M_A
PCI
AI44
AP6
AM5
AUDIO-IN4-L
AUDIO-IN4-RAUDIO IN
DVI -> HDMI
1G18
2
3
1
AIN_4_L
AIN_4_R
ADAC7
ADAC8
AIN_1_R
AIN_2_L
AIN_2_R
AIN_3_L
AIN_5_L
AIN_5_R
AIN_3_R
SPDIF_OUT
ADAC5
ADAC6
AIN_1_L
AI51
RES FOR /32
EN 58Q543.1E LA 9.Block Diagrams
2009-Mar-27
Block Diagram Control & Clock SignalsCONTROL + CLOCK SIGNALS
B03G PNX8543 - CONTROL MIPS/FLASH/PCI
B01B DC / DC +3V3-STANDBY_+1V2-STANDBY
B02A FRONT END
B03F PNX8543 - SDRAM
B03G PNX8543 - CONTROL MIPS/FLASH/PCI B07B DISPLAY SUPPLY B07A DISPLAY INTERFACE (COMMON)
B03H PNX8543 - STANDBY-CONTROL / DEBUG
B05C PCMCIA
B03H PNX8543 - STANDBY-CONTROL / DEBUG
B03H
B05A HDMI
B03 PNX8543 B07B DISPLAY INTERFACE
1M01
1
3
4
2FOR
FACTORY USEONLY
1M99
7
6
5
1M952
LED1 AJ3
AN2
AD3DETECT2
AF3
AG4
RESET-STBY
4x HDMICONNECTOR
AH3RESET-SYSTEM
AE4 ENABLE-3V3
PNX8543
7600PNX85433EH/M2A/
43
21
USB20-DMUSB20-DP
USB 2.0CONNECTOR
SIDE
TO IR/LED PANELAND kEBOARD CONTROL
AC1 RESET-NVM
AJ2LED2
B03G PCI
1D00
27M
W2
W1
1M09
3
1
4
CONTROLB03G
STANDBYB03H
HDMI_DVB05A
AH1AV1-BLK
AD5 STANDBY
2
AF2
AN3KEYBOARD
RC
LIGHT-SENSOR
AF1 REGIMBEAU_CVBS-SWITCH
AD1 AUDIO-RESET
AC5 AUDIO-MUTE
AP2AV1-STATUS
6SPI-CLK 512KFLASH
7D09M25P05-AVMN6P
AJ1
3SPI-WPAK4
1SPI-CSBAK35SPI-SDOAJ4
2SPI-SDIAK1
AL16
AN16AP16
BACKLIGHT-OUT
BACKLIGHT-BOOST
7303DRX3926K-XK-A3
DEMODULATOR
FE-CLK9
PCI-CLK-OUTAP28
PCI-CLK-PNX8543A30
RESET-SYSTEMAN28
U3
B02A
B04C
B03H
WC-EEPROM-PNX5100_SPI-DI
7D07
EEPROM(8Kx8)
7D06M24C64-WDW6P
WP-NANDFLASH
NANDFLASH
(1G)
7M00NAND01GW3B2BN6F
19
8
B04B
B01A
AE5 POWER-OK
B06A
B07A
N.C.
7D05 NCP303LSN30G
2INP
1OUTP
+3V3-STANDBY
3 GND
B03G
B03F MEMORY
B03B TUN_CA
7H11 TDA9996
HDMISWITCH
FE-VALID10FE-SOP5
B04B
1K001
68
RESET-SYSTEMB03G
PCMCIA
CONDITIONALACCESS
7B00EDE1116AEBG
7B01EDE1116AEBG
SDRAMDDR2-CLK_P
DDR2-CLK_N
AB34
B10 TNR_MICLKLOUT2_CLK_N
LOUT2_CLK_P
CLK_N
CLK_P
M_DQ
M_A
M_CLK_P
M_CLK_N
PLL_OUT
TRDY_CLK
BL_PWM
RESET_SYS
GPIO_2
GPIO_6
GPIO_4
GPIO_5
UA_RX_0
UA_TX_1
P1_7
P6_4
P0_1
P2_2
P2_7
P1_1
P2_6
P0_6
P0_7
P2_3
XTAL_I
XTAL_O
SPI_CLK
SPI_CSBSPI_SDOSPI_SDI
P6_5
TNR_MIVALTNR_MISTRT
CA_MICLK
CA_MDI
CA_VSN_0
CA_MOCLK
CA_MDO
CA_DATA_DIRCA_DATA_EN
CA_ADD_EN
CA_RDY
PCI_AD
XIO_ACK
XIO_SEL_0
GPIO_3
USB_FAULT
USB_DMUSB_DP
P0_5
CADC_1
CADC_0
P2_5
P2_4
P3_3
P3_5
P3_4
CADC_2
CADC_3
RESET_IN
P1_2
HDMI_RX
P1_0
PWM_1
PWM_0
TNR_TSDI
C10B9
AB33
J8
K8
7K03
7K007K01
CA-DATADIR
CA-ADDEN
CA-DATAEN
CA-MICLK H32
D31A31
B31
TOPOWER SUPPLY
B04B
AH2AV2-BLK_LCD-SDAB04B
32
CO
MM
ON
INT
ER
FAC
E
7K04-7K05
USB-OC
TOPOWERSUPPLY
+3V3-STANDBY
+5V
B03C
B01B
AD4DETECT1B01A
B01B
4D00
4D09
SDM 2D08
SDM
SPI-PROGAK2
AG2
2D07
SPI-PROG
3M46
7 XIO-ACK
9 XIO-SEL-NAND
18540_405_090311.eps090313
A20
B20
RXD-UP
TXD-UP
L32
L31UART
SERVICECONNECTOR
AG1
AH5
RXD-MIPS
TXD-MIPS
RX51002CLK-AL23
RX51002CLK+AM23
RX51001CLK-AL19
RX51001CLK+AM19
FE-DATA(0-7)
DDR2-D(0-31)(0-15)
DDR2-A(0-12)
1
2
3
4
5
6
7
8
1M20
7M81
RC_uP
ARX-DDC-CLK
1M04
7P05-7P06
2
3
1
PCMCIA-A(0-14)
NAND-AD(0-7) <-- PCI-AD(24-31) PCI-AD(0-31)
PCMCIA-D(0-7) PCI-AD(24-31)
CA-MDI(0-7)
MDO(0-7) CA-MDO(0-7)
CA-MOCLK_VS2 H31
A34MOCLKA
DETECT-12V
AP1AV2-STATUS B04B
J34
L34
AD2
IRQ-CA
IRQ-CA
AE1 LAMP-ON-OUT
BOOTMODE_PNX8543-BL-CTRL BACKLIGHT-IN BACKLIGHT-OUTAP27
V2 B07BPNX8543-LCD-PWR-ON_SPI-DI
9
RX12BRX-DDC-CLK
CRX-DDC-CLK 61
DRX-DDC-CLK 79
31
CEC
CEC-HDMI
57
1 2
19
18
CONTROL
1304
27M
50
49
3P16CONTROL B01B
RES
1H03-151H01-15
1H00-151H02-15
1H03-131H01-131H00-131H02-13TO PIN:
7H09
1G52
33
32
16
17
1R50
20
18
TO DISPLAY> 32" FHD
TO DISPLAY32" HD
PCI-AD(0-14)
Block Diagrams EN 59Q543.1E LA 9.
2009-Mar-27
Block Diagram I2CI²C
PNX8543 - CONTROL MIPS/FLASH/PCI B03G
PNX8543 - SDRAMB03F
HDMIB05A FRONT ENDB02A
YPBR / SIDE IO / S-VIDEOB04C
PNX8543 - STANDBY - CONTROL / DEBUGB03H
DC / DC +3V3-STANDBY_+1V2-STANDBY B01B
PNX8543 - CONTROL MIPS/FLASH/PCIB03G
BOLT-ONB04A
PNX8543 - CONTROLMIPS/FLASH/PCI
B03G
1M01
1
3
4
2
FOR FACTORY USE
ONLY
FLASH1G
7M00NAND01GW3B2
7B01EDE1116AEBG
SDRAM
7B00EDE1116AEBG
7D09M25P05
512KFLASH
1M99
1 610
11
5
15
VGACONNECTOR
DATA-SDA
CLK-SCL
WC-EEPROM-PNX5100_SPI-DI 7
1G30
12
15
7600PNX85433EH/M2A
PNX8543
B33
D32SDA 2
SCL 2
3M91
3M90
AK5
AL5
AC1
MC_SDA
MC_SCL
PO_1
3D46
3D45
5 6
7D06M24C64
EEPROM(NVM)
83D56
-2
+3V3-PER
RESET-NVM 3D56-1
SDA-UP-MIPS
SCL-UP-MIPS
3D39
3D38
+3V3-STANDBY
RES
RES
SDA2
SCL2
SDA-SET
SCL-SET
3M25
3M24
+3V3-PER
G32
D33
SDA 3
SCL 3
3M19
3M18
49 50
7H11TDA9996
HDMIMUX
3H66
3H65
24 23
7303DRX3926K-XK
DEMODULATORMICRONAS
3399
3398
SDA3
SCL3
SDA-SSB
SCL-SSB
3M27
3M26
+3V3-PER
L32
L31
GPIO_4
GPIO_5
3M09
3M10
+3V3-PER
H33
F33
SDA 1
SCL 1
3M15
3M14
SDA1
SCL1
SDA-UP-MIPS
SCL-UP-MIPS
3M93
3M92
+3V3-PER
STANDBY
HDMI_DV
PCI
MEMORY
UARTSERVICE
CONNECTOR
3G63
7D07
61
62
3388
3365
+3V3B
SDA-TUNER
SCL-TUNER
AG1
AH5
UA_RX_0
UA_TX_1
RXD-UP
TXD-UP
3D21
3D22
+3V3-STANDBY
RXD-MIPS
TXD-MIPS
RXD
TXD
D15
C15
DDC_SDA_B
M_DQ
PCI_AD
M_A
DDC_SCL_B
DDC-SDA
DDC-SCL
5 6
7G31M24C02
EEPROM256x8
3G60
3G56
+5V
10
11
HDMICONNECTOR 3
1H02
16
15
RES
TO POWERSUPPLY
3H08
3H07
ARX-5V
11
12
HDMICONNECTOR 2
1H00
16
15
3H10
3H09
BRX-5V
30
31
HDMICONNECTOR 1
1H01
16
15
3H14
3H13
CRX-5V
60
61
HDMICONNECTOR
SIDE
1H03
16
15
3H12
3H11
DRX-5V3H
01
3H02
+5V
78
79
6
5
ARX-DDC-DAT
ARX-DDC-CLK
BRX-DDC-DAT
BRX-DDC-CLK
CRX-DDC-DAT
CRX-DDC-CLK
DRX-DDC-DAT
DRX-DDC-CLK
4E18
4E19
3M74
3M73
3M76
3M75
STANDBY BUS400 kHz
SET BUS100 kHz
SSB BUS400 kHz
TUNER BUS400 kHz
1M04
3
2
1
18540_406_090311.eps090327
3G61
3G58
+3V3
4202
4201
7 6
1301HD1816AF
MAINTUNER
3317
3316
7G32B03G
RES
RES
ERR53
ERR23
ERR27
ERR34
ERR13
ERR14
B03H
B03G
B05A
B03F
DDR2-D
DDR2-A
PCI-AD
EN 60Q543.1E LA 9.Block Diagrams
2009-Mar-27
Supply Lines Overview SUPPLY LINES OVERVIEW
MAINPOWER SUPPLY
B01A DC / DC +3V3_+1V2
B01B DC / DC +3V3-STANDBY_+1V2-STANDBY B03F PNX8543 - SDRAM
B02A FRONT END
B03B PNX8543 - VIDEO STREAMS/LVDS OUTPUT
B03A PNX8543 - POWER
B07A DISPLAY INTERFACING (COMMOM)
B07B DISPLAY SUPPLY
B06A CLASS-D
B03C PNX8543 - AUDIO AMPLIFIER
B03G PNX8543 - CONTROL MIPS/FLASH/PCI
B03H PNX8543 - STANDBY-CONTROL/DEBUG
B04A BOLT-ON
B04B ANALOG IO - SCART 1&2
B04C YPBR / SIDE IO / S-VIDEO
B05A HDMI
B05B ETHERNET
B05C PCMCIA
B03D PNX8543 - AUDIO
CN4
1 1
6 6
7 7
8 8
1M95+3V3-STANDBY
7103NCP5422ADG
+12V
+12VF
+3V3
14
1
2
+1V2-PNX85XX5103
16
15
+12V
12V/1V2COVERSION
12V/3V3COVERSION
5104
5105 +3V3F
+1V2-STANDBY
+1V8-PNX85XX+1V8-PNX85XX
3B48 DDR2-VREF-DDR
+3V3-NAND
DDR2-VREF-CTRL
TO DISPLAY
TO DISPLAY
18540_407_090311.eps090324
CN21
2
3
CN31
2
3
HV2
N.C.
HV2
HV1
N.C.
HV1
3V3_ST
+12V
5101
B07a
B01a,B02a,B04a
B03a
B03a,g,h,B04a,B05a,
B02a,B03d,g,h,B04a,b,c,B05a,c,B07a
B03h
B03c,B06a
CN5
1 1
6 6
7 7
2 2
3 3
4 4
5 5
8 8
LAMP-ON-OUT
1M99
BACKLIGHT-BOOST
+12VD
BACKLIGHT-OUT B07A
B03H
+12V
+12V
GND1
GND1
BL-ON_OFF
A/P_DIM
DIM
BOOST
+12V
+5V
+5V5-TUN
9 9 +AUDIO-POWER
10 10
SENCE+1V2-PNX5100N.C.
B01b
SENCE+1V2-PNX5100
SENSE+1V2-PNX85XXB03a
SENSE+1V2-PNX85XX
+1V2
+3V3+3V3
+1V2-PNX5100
+12V
+12V
+VSND
GND_SND
CONTROL
CONTROL
N.C.
B03HCONTROL
9 9INV_OK
POWER-OK
2 2
3 3
4 4
5 5
STANDBYB03HSTANDBY
GND1
GND1
GND1
CONTROL
7201
IN OUTCOM
11 11
7308
IN OUTCOM
RES
3B47
DualSynchronousStep-DownController
7102-2
7102-1
7U01-2
7101-1
VDDA-LVDSVDDA-LVDS
5615 VDDA-LVDS
VDDA-AUDIOVDDA-AUDIO
5622 VDDA-ADC
5621 VDDA-DAC
+1V2-PNX85XX
+1V2-STANDBY
+1V2-PNX85XX
+3V3-STANDBY+3V3-STANDBY
+3V3F
+1V2-STANDBY
+3V3+3V3
5612 +3V3-PER
RREF-PNX85xx5600
+1V8-PNX85XX
+5V+5V
+3V3+3V3
+12VD
+VDISP-IN
+12VD
+AUDIO-POWER+AUDIO-POWER
3V3E5305
+1V2A5304
3V3A5307
3V3D5306
B03a,h
B03a
B03a
B02a
B01a
+5V-TUNER
+5V5-TUN+5V5-TUN
7307
IN OUTCOM
B01b
ANTENNA-SUPPLY
+12V+12VB01b
3V3B
+5V+5V
7309
IN OUTCOM
B01b
+3V3F
7601
IN OUTCOM
B01a
B03a
B01a
B01a
B03d
B01b
B01b
+3V3-PER+3V3-PERB03a
+3V3+3V3B03a
B03d
B03b
B01a
B01b
B01b
B01b
N.C.N.C.
7202VOLT.REG.
7222VOLT.REG.
52045203
5221
6217
3108
7315 3389
+AUDIO-POWER+AUDIO-POWER
AUDIO-VDD78013819
CONTROL
4801
7802
RES
B01b
+3V3+3V3
+3V3-PER+3V3-PER
+3V3-STANDBY+3V3-STANDBY
+5V+5V
B01a
B03a
B01b
B01b
5M00
1M20
8
5TO
IR/LEDPANEL
5M84
5M88
+3V3+3V3
+3V3-STANDBY+3V3-STANDBY
+3V3-PER+3V3-PER
+5V+5V
+1V2-PNX5100+1V2-PNX5100
+1V2-PNX8541+1V2-PNX85XX
B01bB03a
B01a
B01b
B01b
B01a
+12V+12V
+5V+5V
+3V3-STANDBY+3V3-STANDBY
RES
+3V3+3V3
+5V+5V
B01a
B01b
B01b
B01b
B01b
+3V3+3V3
+5V+5VB01b
CRX-5V
1H0018HDMI 2
CONNECTORBRX-5V
1H0318HDMI SIDE
CONNECTOR
ARX-5V
1H0118HDMI 1
CONNECTOR
+3V3-STANDBY+3V3-STANDBY
+1V8-PNX85XX+1V8-PNX85XX
+3V3+3V3
VDDH_3V3
DRX-5V
1H0218HDMI 3
CONNECTOR
VDD_1V8
VDDO_3V35H01
VDDS_3V35H06
5H03
5H00
B01a
B03a
B01b
B01a
+5V+5V
B05a
B03b,g,h
B03f,B05a
SENSE+1V2-PNX85XXB01A
+5V+5VB01b
RREF-PMX85XXRREF-PMX85XXB03a
5N07 +3V3-ET-ANA
+3V3+3V3
5N06 +3V3-ET-DIGB01a
+5V+5V
PCMCIA-VCC-VPP3K00
+T
B01b
+3V3+3V3
+3V3_BUFB01a
5K00
4P26
4P28
4P39
4P29
4P30
4P31
RES
+VDISP-OUT
+VDISP-IN+VDISP-IN
+3V3+3V3
7P03PNX8543-LCD-PWR-ON_SPI-DI
7P02
B07b
B07a
B01a
B02a,B03a,c,d,g,h,B04b,c,B05a,b,c,B07a,b,
+5V+5V
7900
IN OUTCOM
VDDA-AUDIO
+3V3+3V3
VDDA-DACVDDA-DAC
B01a
B01b
B03a
B03a
RES
Circuit Diagrams and PWB Layouts EN 61Q543.1E LA 10.
2009-Mar-27
10. Circuit Diagrams and PWB Layouts
SSB: DC/DC +3V3 +1V2
VC
C
L2
+1-1
1
2
+2-2
2VFB
GATE
IS
COMP
GATE
GN
D
1
BST
ROSC
H2
L1
H1
C
RES
RES
19
I115 C5I116 D5I117 D5I118 D6I119 D6I120 D6I121 C6
I122 E5I124 E4I125 F3I126 F5I127 F2I128 D1I129 E6
I130 F7I131 E8I132 E8I133 F8I134 F8I136 E9I137 E11
I138 F11I141 H2I143 C8I144 C8I146 E5I147 F7I148 C8
" X100 ~ X199 "
18
7106 F77107-1 E107107-2 F10
F100 C4F101 C7F102 D6F103 D6F104 E7F105 F4F106 C2
F107 B7F108 D10F109 E10F110 F10F111 E12F112 D9F113 F7
F114 D4F115 D4I100 B3I101 B1I102 C1I103 B4I106 D4
I107 D3I108 D4I109 C2I111 D5I112 B5I113 C5I114 D8
3V3
3154 F83155 F83156 F73157 F7
3158 F33159 H13160 H13164 D45100 B85101 C85102 E8
5103 E85104 B115105 E116100 E66101 F56102 G76103 F7
6104 B27100-1 C27100-2 B17101-1 B57101-2 C67102-1 C77102-2 D6
7103 C47104 D27105-1 E37105-2 E4
RES
Round screw hole of 4.5mm
15
L
12V/3V3 CONVERSION
K
Oval screw hole of
B
3135 D83136 D7
3137 D63138 E93139 E73140 E83141 E83142 E63143 E6
3144 F83145 E113146 E103147 F113148 F103149 F113150 F11
3151 G113152 G113153 F8
RESRES
Round screw hole of 4.02mm
H
G
14
7
3117 D13118 E13119 E43120 E43121 E4
3122 F23124 C63125 D63126 D63127 D63128 D53129 D5
3130 E53131 E63132 C73133 C83134 C8
13
MULTI 12NC : 3139_123_64421 / 64541 / 64561
16
J
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht12
M
2135 H2
2140 C92141 C93100 B23101 B23102 C23103 C13105 C1
3106 C23107 C33108 B43109 C53110 C53113 C53114 C5
3115 C63116 C5
19
DC / DC +3V3_+1V2
6
RE
S
0V
1714
A2117 E92118 E92119 E92120 E8
2121 E82122 B112123 B112124 C122125 E122127 E122128 F7
2129 F82130 F72131 F72132 F52133 H22134 H2
92
17
L
1
1
M
O
N
H
A
B
C
D
E
F
G
H
N
16
12V/1V2 CONVERSION
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
F
E
D
J
84
G
11
11
C
133
11 12 13 14
A
B
C
D
E
F
G
5 10
KBOOSTER
B
C
20
E
3
RE
S
I
RE
S
F
RE
S
1 2 3 4 5 6 7 8 9 10
6 18
5ow
ner.
H
P
BD 12NC : 3139_123_64431 / 64551 / 64571
20
10
P
1 2 3 4 5 6 7 8 9 10 11 12 13 14
CELL 12C : 8239_125_14871
4
I
12V UNDER-VOLTAGE DETECTION
5mm x 4.02mm
2
A
987
2100 B22101 B42102 D12103 D42104 B62105 D62106 E5
2107 B62108 B52109 C62110 C82111 C82112 C92113 C7
2114 C82115 D72116 E9
D
15
O
6K8
3136
12
2127
220u
25V
GND-SIG
5105
22u
I107
3n3
2109
I118
2117
10u
I111
3124
4R7
100p
2134
5
3
4
I115
7107-2BC847BS
F113
I141
+12VF
3160
4K7
I117
I128
22R
3116
I126
F112
3140
22R
RE
S
I137
3145
100R
I106
F109
REF EMC HOLE1X05
F115
RE
S
3109
22R
RE
S
3133
22R
22R
3132
3122
10K
2K2
3131
2115
1n0
RE
SGND-SIG
RE
S
1n0
2113
7102-1FDS6930B
7 82
1
6102
PD
Z18-
B
2
6
1
3148
10K
GND-SIG
7107-1BC847BS
7101-1
FDS6930B7 8
2
1
1K0
3153
6K8
3141
1%
3159
470R
10u
5104
F103
2129
100n
10u
2119
REF EMC HOLE1X06
REF EMC HOLE1X03
I101
I102
10u
2116
3150
2K2
10K
3146
I132
I144
5 64
3
5103
FDS6930B
7102-2
10u
6101
PD
Z9.1
-B
330R
3119
I127
GND-SIG
10u
3139
22R
RE
S
5100
GND-SIG
5102
10u
2110
3n3
2
2108
3n3
BC847BW7104
1
3
100n
2102
I130
I143
I148
3135
1K0
RE
S
1X12REF EMC HOLE
RE
S
1n0
2130
4
2128
1n0
BC847BPN7100-2 5
3
BC847BPN7100-12
6
1
6.3V
330u21
25
3114
4R7
I108
F105
GND-SIG
F104
100K
3158
3152
3156
470R
GND-SIG
1%120R
100n
2114
10u
5101
100n
2106
3100
22K
3102
100R
I146
I122
3149
3K3
7105-2
5
3
4BC857BS
REF EMC HOLE1X07
REF EMC HOLE1X08
2107
22u
3129
1K0
2K7
3130
I124
22K
3107
REF EMC HOLE1X02
3115
22R
2100
100n
4R7
I129
3113
2124
220u
25V
RE
S
1K0
3126
3128
2K7
2105
100n
I116
I119
I134
+3V3F
SENSE+1V2-PNX85XX
F108
I114
*
10R
3138
2121
1u0
F101
I147
10R
3108
13
14
7
10
9
1
16
2
15
3
6
11
5
12
Φ
7103NCP5422ADR2G
4
8
GND-SIG
33K
3117
F114
2112
22u
3110
22R
4R7
3125
F102
3103
10K
+12VF
22K
3101
2111
22u
+12V
120R
3144
1%
I125
1u0
F106
2101
10u
2104
GND-SIG
10K
3105
3154
15K
3n3
2120
100n
2135
F110
RE
S
I138
22u
2141
22u
2140
10K
3106
BAS316
6104
5 64
3 FDS6930B7101-2
1
3147
1K0
BC857BS7105-1
2
6
3118
33K
GND-SIG GND-SIG
100p
2133
3155
1K0
3164
39K
1%
3120
1K0
470R
31572132
1u0
3134
6K8
3127
2K2
10u
2118
F100
BAS316
6100
2131
100n
I109
I100
F111
I136
2122
10u
RE
S
1K0
3121
2103
100n
F107
68R
3143
2123
22u
I120
3142
68R
I103
+3V3
I131
I133
6103
+1V2-PNX85XX
BA
S31
6
+1V2-PNX85XX
********EMANTESNHC
25
3PC332
01
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Kailash
2009-01-16
2
3
13010
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK DATE
NAME
1
SUPERS.
1
CLASS_NO
I113
I112
2
I121
BC817-25W7106 1
3
3137
6K8
1%
GND-SIG
3151
1K0
ENABLE-3V3
PROT-DC
DETECT1
3V3-ST
VSW
18440_500_090223.eps090224
EN 62Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: DC/DC +3V3 +1V2 Standby
GND
VIN
HSPA
INH
SYNC
SW
VFB
A
SW
OUTIN
INH BP
COM
VIA
GND
VIN
HSPA
INH
SYNC
SW
VFB
A
SW
C
VIA
I203 B9I204 B10I205 B11I206 B14I207 D11
I210 F9I212 C5I213 D5I214 D4I215 E5
I216 D5I217 D6I218 C6I219 C6
17
F208 D1
F210 D1F216 E1F217 E1
F218 B6F219 B12F220 B14F221 D14F222 F12
F223 B1
MULTI 12NC : 3139_123_64421 / 64541 / 64561
CELL 12C : 8239_125_14871
B
DC / DC
BD 12NC : 3139_123_64431 / 64551 / 64571
F224 B1
G
F225 C1
RES
F226 C1
1
F227 D6
F228 B1F229 B12F230 B15F231 F12I202 B6
7224-1 E67224-2 C7F201 B1F202 B1
F203 B1F204 B1F205 B1F206 B1
RES
6
owne
r.
16
209
J
7 13
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
F207 D1
3233 E4F209 D1
4201 B2F211 D1F212 D1
F213 D1F214 E1F215 E1
6217 B126225 D47201 A67202-1 B107202-2 C10
7203 B147204 D107222-1 E10
2
11
H
64
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
K
3212 B14
F
3214 C13
A
7222-2 F107223-1 D5
7223-2 C6
3225 C5
3226 C53227 C63228 D63229 D63230 D6
3231 D63232 D4
L
FRO
M P
SU
P
K
G
C
A
F
193
M
15
3234 E5
4202 C25203 B95204 B115221 F95222 F11
2236 C22237 C23200 B1
3201 B13204 D23207 B103208 C113210 C12
B
M
12
191
164
DC / DC +3V3-STANDBY_+1V2-STANDBY
O
3211 C12
2217 B12
3213 B132219 C10
3215 C14
3221 G123222 G123223 F133224 F12
2225 F122226 F132227 F13
2228 F132229 F132230 E22231 C12232 C2
D
E
L
I
12
5
9
2201 C1
14
2203 C2
102
2233 B62235 C32209 B5
2210 B62211 D42212 B9
2213 B92214 B92215 B122216 C13
11
18
10" X200 ~ X299 "
18
9
N
11
20
13
2218 B12
15
2220 D22221 F92222 F9
2223 F92224 F12
6 7 8 9 10 11 12 13
E
7 8
O
N
13
D
H
1M99 B1
H
2202 C2
2204 D22205 D32206 E12207 E2
2208 E2
1 2 3 4 5 6 7
P
I
14
J
C
3 1715
4121018
5
1 2 3 4 5 14 15
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
1M95 D1
2200 C1
FRO
M P
SU
DC / DC
8
4201
4n7
F225
GNDSND
2225
F224
1u0
2209
3K9
3213
BC847BPN(COL)2
6
1
7223-1
6217SS36
1u0
2211
25V
220u22
18
4202
RES
100K
3207
10K
32128
7
35
1 6
7202-1ST1S10PH
4 9
2
3232
1K0
22K
+3V3
3234
3208
100K2231
100p
1%470R
3223
100p
2201
4K7
3221
F215
456789
PD
Z8.2
-B62
25
1M99
1-1735446-2
1
101112
23
RE
S22
08
100n
I215
10K
3230
F206
4
2
1
3
5
7201LD3985M122
I203
1%18
K3211
I205
F210
I202
SENSE+1V2-PNX5100
5203
33R
+5V5-TUN
2u0
52225221
I213
33R
I212
22u
2224
2202
100p
3231
3K3
F213
3227
220K
5
3
4 7223-2BC847BPN(COL)
RE
S
I218
22u
2228
I217
2226
22u
3222
1K0
1%10
0K1%
+1V2-STANDBY
RE
S32
24
100p
2203
10u
2212
I214
I204
3204 68R
F219
2204
1n0
RE
S
F228
F207
89
5204
10u
1
1011
234567
1-1735446-1
1M95
10n
2235
4n7
2216RES
F226
+12V
2200
100p
10K
3233F214
F205
F218
F209
10u
2214
+3V3-STANDBY
1K0
3215
F211
F202
2223
10u
F222
I207
2215
10u
3
4
RE
S32
29
10K
BC847BPN(COL)7224-2
5
F223
F204
F221
+12V
1
F231
BC847BPN(COL)7224-1
2
6
3228
6K8
10u
2222
+AUDIO-POWER
2206
100n
2227
220u
25V
RE
S
RE
S
100n
2207
I216
2205
1n0
RE
S
F229
F227
68R3201
100p
2203
2203
100p
+3V3-STANDBY
68R3200
2219
100n
F201
2229
22u +1V2-PNX5100
F216
RE
S
F208
GNDSND
1K0
RE
S
+1V2-STANDBY
+5V
3210
2220
1n0
RE
S
+12VD
F230
F212
10u
2217
3214
1%100K
7222-2ST1S10PH
10 11
7203BC847BW
I210
I206
2213
10u F220
10 11
ST1S10PH7202-2
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Kailash
2009-01-16
2
3
2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
0213010
1
2221
10u
F203
1n0
2230
3226
+12V
RE
S
10K
+12V
3225
10K
100p
2232
7
35
1 6ST1S10PH7222-1
4 9
2
8
7204PDTC144EU
F217
RES
I219
2233
1u0
100n
2210
BACKLIGHT-BOOST
POWER-OK
3V3-ST
DETECT-12V
SCL-SETSDA-SET
ENABLE-3V3
PROT-DC
STANDBY
LAMP-ON-OUTBACKLIGHT-OUT
18440_501_090223.eps090224
Circuit Diagrams and PWB Layouts EN 63Q543.1E LA 10.
2009-Mar-27
SSB: Front End
TCKTDITDOTMS
GPIO1GPIO2
VIA
MSTRTMERRMCLKMVAL
01234567
RF_AGCIF_AGC
SIF
CVBS
DACL
WS
VSYNC
VIA
MD
I2S
I2C
I2C
PD
VDDH VDDL
VSSH VSSLVS
SA
H_A
FE1
VS
SA
H_C
VB
S
VS
SA
H_O
SC
VS
SA
L_A
FE1
VS
SA
L_A
FE2
GN
D_H
S
VD
DA
H_A
FE1
VD
DA
H_C
VB
S
VD
DA
H_O
SC
VD
DA
L_A
FE1
VD
DA
L_A
FE2
XI
XO
PN
SCL2
SDA1
RSTN
SAW_SW
SCL1
SDA2
C
IO2IGNDO1
GND
COM
OUTIN
RF-
IN
MT
MT
SHDN BP
COM
OUTIN
RF-
IN
MT
MT
MT
MT
SHDN BP
COM
OUTIN
AGC CONTROL
I313 D7I314 D7I318 G6I319 G6I321 H8I322 F11I323 F11I324 B11I325 G16I326 H9I327 H11I328 I10I329 J10I331 I9
I306 I15
N
C
2352
20
Y
B
owne
r.
15
4303
7
I307 H14Y
N
L
4304
Y
N
2361
Y
*
YY
A
E
I308 H15
F324 E2
16
*
Pend new 12nc
*
4313
17
4306
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
LGI
Y
1
19
10
Y
F325 E2F327 E5F332 E5F333 E5F334 E5F335 F5F336 G10F337 I11F338 J8F339 E14I301 F14I303 F15
F304 D11
2350
*
2362
RES
7
*
TUNER BOUNDARY SCAN
N
N
*
F305 D11F306 B3F308 B15F309 C15F310 C15F311 D15F312 F10F313 F10F314 J16F315 I16F316 H8F317 E2F318 E2F319 E2F320 E2F321 E2F322 E2F323 E2
7312-1 G15
19
9
N
12
N
Y
10
7312-2 G167314-1 I157314-2 J167315 H97316-1 I117316-2 J117345-1 I157345-2 H15A310 E2A311 F2A312 F1A322 E5A323 F5A324 G7A325 F6A326 G7A327 G6A328 E4A329 F4F301 D11F302 D11F303 D11
5306 C12
*
*
M
4307
4317
RESERVED
6
1301
Y
NN
5
*
Y
RFS
5307 D145308 B115309 B35310 D45311 H45313 B106301 H96302 H107302 G57303 E127307 B27308 B117309 B9
4314 I15
Y
8
N
O
*
O
N
Y
Y
Y
N
4315 J154316 E24317 F74318 F74319 F104320 H44321 H54322 I54323 G34324 G74325 G74326 F14327 F15301 D35302 G35303 G85304 B145305 C12
3396 E14
**
2
*
G
4302
N
*
2302
MK2
Y
N
Y
18
N
3397 E14
3398 F113399 F1133AA H533AB H533AC H54302 E24303 F24304 F34306 E54307 F44308 F54312 E54313 F5
3372 I10
4
N
N
Y4318
4312
1300
F
N
12
**
2360
3373 J103374 J103375 J103376 I113377 H103386 B23387 H103388 E103389 H103391 I153392 I163393 E143394 E143395 E14
3357 G14
L
15
2349
Y
2359
4308
*
N
D
2351
*
17
*
Y N
* I…C ADRESS C0
3358 G153359 G153360 I163361 I163362 I153363 J153364 H93365 E103366 G103367 I103368 I93369 I103370 I113371 I10
3318 C12
NNY
Y
H
63
NR
ES
3345 I143346 H153347 I153348 H153349 I143350 D103351 D103352 D103353 D103354 D113355 F153356 F15
3309-1 F15
1
11
RES
3
*
132
8
C
5
" X300 ~ X399 "
3309-2 F153309-3 E153309-4 E153310-1 F153310-2 F153310-3 F153310-4 F153311 G153312 H73313 H73316 D73317 D7
2364 H4
J
E
13
K
14
K
J
20
2365 H62366 H62367 H42368 H62369 C32370 G72371 C82372 C92373 C93301 C43302 E103303 G73304 G73305 H73306 H33307 H33308-1 E153308-2 E153308-3 E153308-4 E15
2344 C11
M
A
P
2358
18
P
14
2345 H152346 H142347 G102348 G102349 E52350 E52351 F52352 F52353 F142354 G162355 H102356 H92357 H82358 E22359 E22360 E22361 F52362 E52363 E2
K
9
not in Arch2K8
TDI
11
HD1816 MK1
*
*
4
TCK
2318 C142319 C142320 C142321 C132322 C132323 C132324 C132325 D132326 D132327 D132328 D132329 D142330 D142331 E112332 E112334 F112335 H72336 C22337 C22341 E72342 E7D
F
H
I
0R05
I
16
E
F
G
H
I
J
K
L
A
B
C
D
E
F
G
H
I
J
9 10 11 12 13 14 15 16
1 2 3 4 5 6 7
*
BD 12NC : 3139_123_64431 / 64551 / 64571
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
8 9 10 11 12 13 14 15 16
A
B
C
2302 E22304 D32305 D32306 G42307 G42308 G72309 G82310 G82311 C122312 C122313 C122314 C132315 C132316 C132317 C13
N
CELL 12C : 8239_125_14871
TDO
MULTI 12NC : 3139_123_64421 / 64541 / 64561
1 2 3 4 5 6 7 8
LG1
G
B
FRONT END
D
TMS
L
1300 E61301 D11303 G31304 E111306 F12300 F62301 C4
5311
820n
+3V3B
2364
10n
2317
100n
F306
3307
510R
RE
S
30R
5306
F315
4321
RE
S
I313
4325
2315
100n
RE
S
220K
3XX
X22
K
3XX
XR
ES
4XX
XR
ES
4XX
XR
ES
4K7
3375
A329
+5V-TUNER
3308-2 2 7 47R
5305
30R
5310
30R
RES
I329
49
50
3305
6K8
45 7 17 25 54 3 15 28 55
29
101
697071727374
38 41 51 35
91929394
68
9596979899
1008283
8467 85
8687888990
16 27 56
66
75767778798081
37 42 52 36 46 8 18 26 53 2
4847
33
32
31
44
59605758
1112131419202122
65
10
62
24
61
6364
1
34
3940
9
7303DRX3926K-XK-A3
DEMODULATORΦ
43
65
430
23
F323F324
47R3398
+5V-TUNER
18K
10u
5307
3355
220R
3369
+5V-TUNER
7
RE
S10
K33
95
3309-2 47R2
+5V-TUNER
10K
3370
RES
F327
4304
+3V3B
10n
2367
2358 4n7
F332
+1V
2A
560R
33AC
3371
27K
3306
150R
3359
100n
2319
2361
100n
3
21
84
7316-1LM393PT
2332
12p
10K
3393
16V
47u23
05 2u2
3310-3 47R3 6
2328
4314
BC847BPN7312-12
6
1
+12V
A328
+5V-TUNER
TV543_2K9 3139 123 6443
CHECK DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
03
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Wang Bing Bing
2009-01-16
2
3
4303
13010
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
4320
4323
47R3310-1 1 8
2345
22u
+3V
3E
F321F320
+1V
2
F310
3302
10K
F309
A325
+3V
3A
150R
3361
RE
S
I314
4317
10K
F305
3351
+3V3A
A323
10K
3357
4324RES
2318
100n
+1V2-PNX85XX
3311 100R
4319
RES 2334 100n
4312
10K
3308-3 47R3 6
3350
A312
10n2306
2322
2u2
3348
18K
4307
+5V
+3V3D
F322
+3V3A
4302
2366
100n
RE
S
10n
2365
4u7RES
F325
2363
100n
2323
+1V2A
A324
3362RES
100R
5304
10u
I326
+3V3B
SIF-GND
F334
100n
2356
+5V5-TUN
+5V-TUNER
I328
I322
ANTENNA-SUPPLY
2360 10n
+3V3
I303
2312
10u
3303
220R
4n72359
I319
5301
30R
F337
4313
4K7
3365
47R3316
+3V3
03
+5V-TUNER
A326
4322
RE
S
3394
10K
RE
S
3
12
54
36M125
1303
OFWX6966M
BZX
384-
C6V
8
I321
6302
3349
150R
100n2349
3354
22R
F339
47R3310-4 4 5
3p3
3 6
2354
47R3309-3
2313
10u
I308
F318
+5V
680n
5303
F314
+3V
3B
I324
A322
27K
3372
3367
2R2
3301
6K8
2350 100n
27M
1304
F301
4
2301
22n
7345-2BC847BPN(COL)
5
3
I327
RES5
3
4
F336
BC857BS7314-2
3366
4K7
4318
10K
3376
F319
I306
3345
10K
+3V
3D
+5V-TUNER
30R
RE
S
F308
5313
4K7
3364
+3V3B
4315
F316
F312
4308
2336
1u0
2u2
2320
2314
I331
100n
3318
120R
RE
S
ANTENNA-SUPPLY
3317
+12V
47R
10K3373
2353 100n
1
3 2
+3V3E
7308LD1117DT12
3368
220R
4306
F338
F311
I325
5
+5V-TUNER
3309-4 47R4
3360
150R
RE
S
I307
100n
2316
2351
100n
100p
2310
100n
2337
RE
S53
09
4u7
BC847BPN7312-25
3
4
25
33A
B
470R
6301
BAS316
F3033352 10K
2373
2u2
1u0
2371
100K
3377
RE
S
2321
100n
3396
10K
18R
3391
2302
4n7
+1V2
2307 10n
150R
3358
NC1
NC2RF_AGC
SCLSDA
XTAL_OUT
1XXXHD1816
TUN
ER
+5V
AS
DC_PWR
IF_OUT1IF_OUT2
I323
470R
3356
3389
2R2
2357
22n
22p
2308
100n
2344
2u2
2369
I318
3309-1 47R1 8
I301
F333
3387
100K
2346
22u
3353 10K
RES2
6
1
2368
10n
7314-1BC857BS
100p
2309
2329
2u2
2 43
2330
100n
7315BCP56
1
100n
2300
NC
RF_AGCSCLSDA
VTU_TP
AIF
ANT_PWRB1
B2
DIF1DIF2IF_AGC
TUN
ER
TDTC-G321D1XXX
A327
NC1
NC2RF_AGC
SCLSDA
XTAL_OUT+5V
AS
DC_PWR
IF_OUT1IF_OUT2
1XXX
TUN
ER
2335
22n
F304
+5V-TUNER
2325
100n
33AA
560R
100n
2326
RES3363
100R
LK112M33TR
3
2
5 4
1
7309
820n
5302RES
A310
3392
10u
68R
2311
RE
S23
4818
p
2u2
2327
100n
2304
100n
2352
+12V
150R
3347
3388
4K7
+3V3B
12p
2331
F313
4316
A311
RE
S
3346
470R
18p
2342
2K73374
5
67
84
7316-2LM393PT
47R3399
2
6
1
2u2
2324
7345-1BC847BPN(COL)
10K
3397
RE
S
3304
220R
F317
F335
5G
ND
2
2 INPUT1
3 INPUT2
7OUTPUT1
6OUTPUT2
4 VAGC
1V
CC
7302UPC3221GV-E1
8G
ND
1
5
RES 30R5308
47R3308-4 4
47R3308-1 1 8
2 7 47R3310-2
4R7
3386
2355
100n
2362 100n
2370
F302
2p2
2341
18p
18p
2347
2372
100n2
5 4
1
RE
S
LK112SM507307
3
RF-AGC
IF-AGC
IF-AGC
MCLK
MD0MD1MD2MD3MD4MD5MD6MD7
MERRMSTRT
MVAL
RF-AGC
PDN
ANTENNA-CTRL
PDP
FE-DATA(6)FE-DATA(5)FE-DATA(4)
FE-DATA(7)
FE-DATA(2)FE-DATA(1)FE-DATA(0)
FE-DATA(3)
CVBS
FE-CLK
FE-SOP
FE-VALID
SIF
CVBS-TER-OUT
ANTENNA-CTRL
SDA-TUNERSCL-TUNER
SCL-TUNERSDA-TUNER
IF-NIF-P
FE-DATA(0:7)
RESET-SYSTEM
PDP
PDN
SDA-SSBSCL-SSB
IF-P
IF-N
18440_502_090223.eps090224
EN 64Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: PNX8543 - Power
COM
OUTIN
VDD_1V2_HDMI_1
VPP_ID_8543
VDDA_1V2_HDMI_EQVDD_3V3_HDMI_TERM_2VDDA_HDMI_3V3_BIAS
VDDA_3V3_VID_4
VDDA_3V3_MCAB
VDD_3V3_LVDS
VDD_3V3_PER
VDD_3V3_SBPER VDDA_3V3_USB
1
VDDA_1V2_USB_PLL
GNDA_USB
0
VDDA_1V2_ADC4A
VDDA_1V2_CAB
VDD_1V8_DDR
VDD_1V2_SBCORE
VDDA_1V2_DLL
VDDA_3V3_DDRPLL0
VDD_1V2_DDRPLL0
74
VSS_DDRPLL
VDDA_3V3_VIDOUT
JTAG_VSST1
VSSA_DLL
VDDA_3V3_VID_1_2VDDA_3V3_VID_1_1
VDDA_3V3_HDMI_PLL_2
VDDA_3V3_DCSCCOVDDA_1V2_DCS_A
VDD_1V2_HDMI_2
VPP_ID_8542
VDDA_1V2_AADC
VDD_1V2_CORE
VDDA_1V2_LVDS_PLL
VDDA_3V3_ADAC
VSSA_DDRPLL0
VDDA_3V3_AADC
VDDA_3V3_LVDS
VDDA_3V3_ACT
VSS_CL
VDDA_3V3_HDMI_PLL_1VDD_3V3_HDMI_TERM_1VDDA_1V2_HDMI_EQ
VDDA_1V2_VID
C
VSSVSS
VSS
VSS
VSS
COM
OUTIN
8 1513
1
F
D
F619 D14F620 E14F621 E15F622 F15F623 G15F624 G15F625 D8F626 H15I600 C3I613 B14I614 B13I615 G4I616 C8
M
1812
K
G
17
112
F611 A15F612 B15F615 C16F616 C14F617 D15F618 D15
" X600 ~ X699 "
1864
P
H
F
A
B
5627 C77600-10 G27600-9 B97601 B37602 D5C600 E3F600 C4F601 E2F602 C8F603 D8F604 E8F605 E6F606 F6F607 E7F608 F8
F609 F7F610 G8
O
16
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
16
Ais
pro
hibi
ted
with
out t
he w
ritte
n co
nsen
t of t
he c
opyr
ight
3
C
5610 F85611 G75612 A155613 B165614 C165615 D165616 C155617 B155618 B145619 D165620 D155621 E155622 E155623 F155624 G155625 G155626 E5
2
D
19
L
H
G
20
M
17
2699 C726A1 E726A2 D726A3 C726A4 C73601 D65600 C25601 D75602 C75603 D45604 D75605 E55607 F55608 E65609 F6
I
C
E
K
2678 G142679 G152680 H142681 H152682 H122683 H122684 H132685 H132686 H142687 H142688 H142689 H142690 H152691 B62692 B62693 B72694 H132695 H132696 H132697 D5
19
J
5
N
P
1
J
2657 C132658 C142659 C152660 B162661 B162662 C162663 C152664 D142665 D142666 D142667 D142668 D142669 D142670 D162671 D162672 F152673 F142674 F142675 F142676 F142677 F15
10
20
14
6CELL 12C : 8239_125_14871BD 12NC : 3139_123_64431 / 64551 / 64571
12
2634 F52635 F52636 F72637 F72638 F82639 F82640 G72641 G72642 G82643 G82644 B122645 B132646 B132647 B132648 B132649 B132650 B142651 B142652 B142653 B142654 B15
144 15
owne
r.
2655 B152656 B15
2610 A62611 A62612 A72613 A72614 A72615 A72616 A72617 A82618 A82619 A82620 A82621 B62622 B62623 C72624 C72625 C72626 E72627 C72628 D72629 D72630 E7
7
I
L
MULTI 12NC : 3139_123_64421 / 64541 / 64561
2631 D72632 E52633 E5
7 8 9 10 11 12 13 14 15 16 17
A
B
C
D
E
F
G
H
I
J
9
B
N
PNX8543 - POWER
13
2609 A6
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
1 2 3 4
53
9
5 6
L
A
B
C
D
E
F
G
H
I
J
K
L
2600 C42601 C22602 C42603 C22604 D22605 D32606 D22607 E22608 A6
1110
E
87
O
F603
K
F604
I616+3V3
10u
26A
4
26A
3
I600
+3V3F
100n
+1V2-PNX85XX
RE
S26
5110
0n
+3V3
RE
S10
0n26
50
4
LD11177602
1
32
10u
2697
F607
1u0
2621
100n
2692
RE
S
26A
2
10u
100n
2649
RE
S
2648
100n
RE
S
33R
56276.
3V33
0u2606
+3V3
N30AE30
AM3
T6
AA30
1u0
2637
F23F24F28
AC6AD6
AJ26F17
AD30
W30AK30
AJ21
F6H29J29J6
W6
AJ22AJ27AJ28AJ8F10
T21
T30
U21
V21
W21
E13
E17
AK20AK21AK24AL21
C17
AF5AF6AG5AG6
AG
30
Y21
AH
30R
21R
30
V6
AJ13AJ14AJ20AJ23F18F19F20F25
AB30
C13
P6R6H5
F16
AJ12
F26F9K30L30U30V30
AK8AK12
T5
AC30E14
E16
AJ19
AB6
AJ17
D4
AJ30P30
AF30D14
D16
AJ18
AK17
L6M6N6
AJ6
7600-9PNX85439E
VDD
AJ16
AJ7
K6
AA6
T3
Y30
3601
100R
33R
5623
100n
2627
SENSE+1V2-PNX85XX
26A
1
22u
C600
5601
33R
100n
2641
2678
100n
RES
33R
5626
2689
1u0
2610
100n
+3V3-PER
100n
2644
RE
S
F625
100n
2633
2600
10u
+3V3-STANDBY
100n
2622
2664
100n
+1V2-PNX85XX
RE
S
33R5622
RE
S
100n
2667
2699
10u
VDDA-LVDS
+1V2-PNX85XX
+1V2-PNX85XX
2665
100n
2675
100n
100n
2618
100n
2620
100n
2612
33R
5602
100n
2613
RE
S
+3V3
2656
1u0
+3V3
F616
F608
+1V2-PNX85XX
100n
2625
22u
2602
100n
2624
2676
100n
2660
100n
04
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Vincent Yap / Lee CW
2009-01-16
2
3
2659
1u0
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
2679
1u0
13010
2696
100n
2674
100n
1u0
+3V3
2690
+1V2-PNX85XX
2671
100n
+3V3
+1V2-PNX85XX
+3V3
F621
F624 5625
33R
2632
100n
RE
S
1u0
2670
100n
2668
+1V2-PNX85XX
F606
F609
+1V2-PNX85XX
2677
100n
+1V2-PNX85XX
2661
1u0
5617
33R
2614
100n
RE
S
2688
100n
5605
33R
2623
RE
S
100n
1u0
2684
+3V3-PER
2604
1u0
100n
2654
5619
33R
2617
100n
RE
S
33R
5604
F622
100n
2673
2630
100n
2681
100n
2682
100n
100n
2662
VDDA-AUDIO
33R
5616
+1V2-PNX85XX
2605
100n
100n
2601
I614
+3V3
+1V8-PNX85XX
F611
VDDA-ADC
F620
2694
T18T19T20
100n
R15R16R17
AA5
R18R19R20T14T15T16T17
P16P17
AA21 P18P19P2
P20P21P33R14
G5
G6
AA20
H6
K2
L33
L5M2N5
P14P15
E4
F21
AA19
F22
F27
F29
F30 F5 F7 F8
G29
AP
34
AA18
B34
D12
D13
D17
D18
E12
E18 E3
AA17
AM
31A
M32
AM
33A
M34
AN
1A
N32
AN
33A
N34
AP
33
AA16
AK25AL1AL2AL3AL30AM1AM18
AM
2A
M21
AM
22
AA15
AJ15AJ24AJ25AJ29AJ33AJ5AJ9AK10AK13AK23
Y20
Y33
Y5
Y6
AC33AE6AF33AG31AH29AH6
W17
W18
W19
W20
Y14
Y15
Y16
Y17
Y18
Y19
AC31
V14
V15
V16
V17
V18
V19
V20
W14
W15
W16
AB5
U14U15U16U17U18U19U20U33
U6
AB4
PNX85439E
AA14
AB31
T31
100n
2615
RE
S
7600-10
1u0
2669
100n
2687
2636
100n
2685
100n
33R
5609
100n
2695
2607
330u
6.3V
5612
33R
+1V2-PNX85XX
+3V3
2653
100n
100n
2631
5614
33R
F617
2608
1u0
33R
5603
VDDA-DAC
2680
100n
5621 33R
5613
33R
+1V2-PNX85XX
I615
+1V2-PNX85XXRREF-PNX85XX
2626
F618
10u
33R
5615
2616
100n
RE
S
100n
+3V3
2628
1u0
2638
2686
100n
2635
100n
5607
33R
33R
5620
100n
2663
5608
33R
2643
100n
100n
2666
+3V3
100n
2611
100n
2634
33R
5610
F615
F623
RE
S
1u0
2642
F619
F626
VDDA-AUDIO
F612
5618
33R
100n
2609
5611
33R
RREF-PNX85XX
F600 +1V8-PNX85XX
10u
2603
LD1117DT187601
1
3 2
2655
100n
F610
100n
2652
+3V3
+3V3
+1V2-STANDBY
2657
100n
+1V8-PNX85XX
RE
S26
91
100n
33R
5624
F601
100n
2639
RE
S10
0n26
47
2646
100n
1u0
RE
S
2640
2645
100n
RE
S
33R
5600
10u
F602
2629
2658
100n
2619
100n
I613
2672
100n
2693
100n
RE
S
100n
F605
2683
18440_503_090223.eps090224
Circuit Diagrams and PWB Layouts EN 65Q543.1E LA 10.
2009-Mar-27
SSB: PNX8543 - Video Streams/LVDS Output
C
CA_RST
1
DIR
CA_MOCLK
CA_RDY
4
01
0
10
2
10
TNR_MIVAL
TNR_MISTRT
CA_MDO3
765432
7654
TNR_MICLK
TNR_ERROR
CA_MDI
CA_MISTRT
ENTNR_TSDI
CA_VCCEN
CA_VPPEN
CA_MIVAL
CA_MOSTRT
CA_MOVAL
CA_OOB_EN
3210
CA_ADD_EN
567
CA_VSN
CA_MICLK
CA_DATA
CA_CDN
N
IREF_LVDS
NP
B
CLK
NPC
NPD
NPE
LOUT2_A
NPLOUT2_B
LOUT2_CLK NP
LOUT2_C NP
LOUT2_D NP
LOUT2_E NP
PN
PA
NP
NC
NC NC
NC
F704 D7F705 D7F706 D7F707 D7F708 D7F709 D7F710 D7F711 D7F712 D7F713 E7
3710 G73711 H13714 H24700 H64701 H24702 G47600-11 B27600-12 F5
K
181615
6
7600-5 B5F700 B6F701 H2F702 C7F703 C7
E
F
3707-2 F63707-3 F63707-4 F63708-1 F63708-2 F63708-3 F63708-4 F63709-1 F83709-2 G83709-3 F6
L
M
8
C
B
3709-4 G6
G
H
N
O
P
20
I
17
NC
3
O
20
K
A
B
P
9 1413
G
I
8 9
2
19
H
11
J
1
" X700 ~ X799 "
7
D
7
G
5
10 11 12
A
B
C
D
E
F
5 6ow
ner.
8
A
9
N
18
M
L
1413
NC
7 8 9 10 11 12
1 2 3 4 5 6 7
3700 B63707-1 F6
C
19
BD 12NC : 3139_123_64431 / 64551 / 64571
106
D
J
F
543
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
MULTI 12NC : 3139_123_64421 / 64541 / 64561
CELL 12C : 8239_125_14871
I
171615
2
4
1 2 3 4
PNX8543 - VIDEO STREAMS / LVDS OUTPUT
E
12
H
10 11 121
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
A
B
C
D
E
F
G
H
I
3710 33R
3708-1 1 83 6
47R
CHECK
3708-3 47R
03101
3
2
2009-01-16
DC343514
2009-01-16
SV
**** *** *****
ROYAL PHILIPS ELECTRONICS N.V. 20082008-10-17
05
3PC332
25
********SETNAMECHN
CLASS_NO
1
SUPERS.
1
NAME
DATE
Vincent Yap / Lee CW
3139 123 6443TV543_2K9
PCB SB SSB BD
A2
2008-10-17
-- -- --
2008-12-161
3709-4 47R45
36
4700
3709-3 47R
AM24
AN22AP22
AK22AL22
AL23AM23
AN23AP23
AN24AP24
AL24
AP18
AK18AL18
AL19AM19
AN19AP19
AN20AP20
AL20AM20
PNX85439E7600-5
AK19
AN18
LVDS
4702
C11D11E11A10
A33
J32A34
C12
B10
B9
C10
D10E10A9A11
H30J33
J31
E32
E34
D34
C31
J34
C34
C33
H34F34F32F31G34
E33C32B32J30K34K33
B31
K32A32
D31A31
H32H31
G33G31G30
TUN_CA
7600-12PNX85439E
F700
2 7
4 5
47R3708-2
F701
3707-4 47R
8 13709-1 47R
VD
DA
-LV
DS
4K7
3711
2 7 47R3707-2
3 6
1 8
47R3707-3
3707-1 47R
K31
W5F11F12
AF2
9A
G29
AM
30
R5
AN
30A
P30
AN
31A
P31
AP
32M
30
T29U29V29
W4
W29
Y29
AA
29A
B29
AC
29A
D29
AE
29
AL29AM29
T4
AN29K29L29M29N29P29R29
AM
26A
N26
AP
26
R4
Y4
AM
27A
N27
AK28AL28AM28AK29
AK15
AL1
7A
N21
C4
AP
21A
L25
AM
25A
N25
AP
25A
K26
AL2
6
7600-11PNX85439E
R2
F13F14F15C14AJ11AL12
NC
3700
12K
4701
7 2
RE
S
47R3709-2
10K37
14
4 53708-4 47R
F712
F711
F709
F710
F704
F703
F713
F702
F708
F707F706
F705
RX51001CLK+
RX51001C-RX51001C+
RX51001D-RX51001D+
RX51001E-RX51001E+
CA-MDI2
CA-MDI6
RX51002B-
CA-MISTRT
CA-MIVAL
CA-MDO(7)
+3V3-PER FE-ERR FE-ERR
RX51001A+RX51001A-
RX51001CLK-
CA-MDO(1)CA-MDO(2)CA-MDO(3)CA-MDO(4)CA-MDO(5)CA-MDO(6)
CA-MOSTRT
CA-CD1CA-CD2
CA-VS1
CA-MOCLK_VS2
IRQ-CA
CA-MOCLK_VS2
FE-DATA(0:7)FE-DATA(0)FE-DATA(1)FE-DATA(2)FE-DATA(3)FE-DATA(4)FE-DATA(5)FE-DATA(6)FE-DATA(7)
CA-MDO(0:7)CA-MDO(0)
CA-RST
CA-DATADIRCA-DATAEN
CA-ADDEN
FE-CLK
FE-SOP
FE-VALID
CA-MDI0CA-MDI1
CA-MDI3CA-MDI4CA-MDI5
CA-MDI7
CA-MICLK
CA-MOVAL
RX51002A-RX51002A+
RX51002B+
RX51002C-RX51002C+
RX51002D-RX51002D+
RX51002E-RX51002E+
RX51002CLK-RX51002CLK+
RX51001B-RX51001B+
18440_504_090223.eps090224
EN 66Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: PNX8543 Audio Amplifier
VIAGND_HS
VOIN-
VDD
1
SHUTDOWN
BYPASS
2
GND
2
1
C
I819 B3I821 C2I822 C3I823 C3I833 A7I835 B7I836 D7I837 E7I839 C12I840 C13I845 H6I846 H6I847 H7I848 H7I849 H7
I850 H9I851 H9
RES
PNX8543 - AUDIO AMPLIFIER
7830 G7F800 G1F801 G2F802 G2F803 B9F804 D9F805 E9F808 C11F809 A9F811 C14F812 B4I810 F2I811 F3
CELL 12C : 8239_125_14871
K
16
I
9
10
I812 F4I813 F3I814 A7I815 B7I816 D7I817 E7I818 B2
5
3835-4 H63839 H73840 D93841 C114801 A36801 B27801 B47802 C37803-1 A87803-2 B87803-3 D87803-4 E87807-1 C127807-2 C147808 F27809 F3
L
11
N
104
owne
r.
O
20
J
5
D
BD 12NC : 3139_123_64431 / 64551 / 64571MULTI 12NC : 3139_123_64421 / 64541 / 64561
3819-1 B33819-2 B33819-3 C33819-4 C33820 C23821 G13822 G13830-1 B133830-2 C133830-3 C113830-4 C113831 A93832 C93833 B123834 E93835-1 H63835-2 G73835-3 F7
F
RESERVED FOR ITV
17
O
G
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
15
3810 F23811 F33812 F33813 F43814 G23815 G33816-1 B83816-2 B73816-3 C73816-4 C83817-1 D73817-2 D83817-3 F73817-4 F83818 B2
F
4
B
C
2
122 3
191311
1918
2824 G22825 G22826 A72827 B72830 D72831 E72832 H62833 H62834 G82835 G72836 G72837 H6
139
17
6
J
RE
S
P
RE
S
M
P
H
10 11 12 13 14
A
B
C
D
E
F
G
H
A
B
A
H
G
K
20
BATHROOM SPEAKER
L
8
7
1
1
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rtsA
6
RE
S
M
6 7 8 9
EM
C
N
18
E
15
0R
4 5 6 7 8 9 10 11 12 13 14
1 2 3 4 5
14
D
14
RE
S
E
EM
C
B
C
D
E
F
G
H
1800 G12800 B22806 A82808 C82809 E82810 F82811 D72812 E72822 C122823 B8
1 2 3
" X800 ~ X899 "
16
C
3 12
I
8
7
2824
1n0
220p
2831
I847
538
19-4
22K
4
4 5 F811
22K
3830-4
1u0
2822
RE
S
I817
3841I822
I850
1K0
3832
I835
I83712
1314
4
11
LM3247803-4
220p
2827
3833
10K
I823
I821
3839
10K
3831
1K0
+AUDIO-POWER
F805
2825
1n0
3835-1 22K1 8
22K3835-4 4 5
10
98
4
11
LM3247803-3
I836
7801BC807-25W
BC847BW7802
3816-4
10K
5 4
F812
AUDIO-VDD
3n3
2812
F801
I810
BC847BW7808
2808
33p
AUDIO-VDD
63
3818
4R7
3830
-3
22K
I814
I851
10K
3811
2836 33p
33p2835
I812
I813
1u0
2800
3810
10K
I816
I815
5K6
3813
4801
I839
3 6
3820
10K
10K
3817-3
1
7
F804
3
4 9
2
6
5
8
1011
7830TPA6111A2DGN
AMPLIFIERΦ
F800F802
2810
33p
10K
3816-11 8
33p
2823
I840
10K
1 83817-1
+3V3
33p
2809
3812
5K6
DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
06
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Hor Siew Lee
2009-01-16
2
3
13010
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK
I849
I846
2830
220p
LM3247803-13
21
4
11
23
4 5
502382-0370
1800
1
2826
220p
AUDIO-VDD
AUDIO-VDD
6801
BZX
384-
C6V
8
1u0
2834
3814
470R
2 7
3840
1K0
22K3835-2
18
AUDIO-VDD
1
AUDIO-VDD
3819
-1
22K
7807-1BC847BPN(COL)
2
6
I818
18
1u02837
3830
-1
22K
I8481u02832
7
4
11
LM3247803-25
6
3835-3 22K3 6
1K0
3834
7
I811
3816-2
10K
2
100R3822
27
3819
-2
22K
470R
3815
7809BC847BW
F808
AUDIO-VDD
F809
3830-2 27
22K
10K
3817-22 7
2811
3n3
3821 100R
I845
I819
I833
2833 1u0
4
100n
2806
3817-4
10K
5
4
F803
BC847BPN(COL)7807-2
5
3
3816-33 6
3 6
10K
+AUDIO-POWER
3819-3
22K
AUDIO-RESET
ADAC(3)
ADAC(4)
HP_ROUT
HP_LOUT
A-STBY
ADAC(7)
AUDIO-OUT-L
AUDIO-OUT-R
ADAC(5)
ADAC(6)
AUDIO-CL-L
AUDIO-CL-RADAC(8)
A-PLOPAUDIO-RESET
ADAC(3)
ADAC(4)
18440_505_090223.eps090224
Circuit Diagrams and PWB Layouts EN 67Q543.1E LA 10.
2009-Mar-27
SSB: PNX8543 Audio
SPDIF_IN
ADAC7BUFADAC8BUF
PNADAC5
PNADAC4
PN
P
AOUT
ADAC6 N
RESREF
VCOM_ADC
P
OSCLK
VSSA_ADAC
7
PN
R AIN_5
SPDIF_OUT
ADAC1
AGND1
NEG
RL
I2S_OUT_WS
VRNEG
VREF
I2S_OUT
I2S_OUT_SD
ADAC
VREF_AADC
AADCAADC
POS
8
I2S_IN_WS
SD4SD3SD2SD1
4
OSCLKSCK I2S_IN
I2S_IN
321
LR
12
AIN_1
LR AIN_2
LR AIN_3
LR AIN_4
L
ADAC3
VDDA_3V3_DAC
SCK
NADAC2
OUT IN
INHBP
COM
C
2900 B5
5
3
BD 12NC : 3139_123_64431 / 64551 / 64571MULTI 12NC : 3139_123_64421 / 64541 / 64561
X
100KX
P
10
22K
3927
X X
4
18
10
11 12
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
2910-1 B72910-2 B7
16
X
CELL 12C : 8239_125_14871
33K33K
A
FLAVORS 22"
1 2 3 4 5 6 7 8 9 10 11 12
1 2 3 4 5 6 7 8 9
2921 C112922 E11
3925
X
100K
X
PNX8543 - AUDIO
owne
r.
4903 & 4904
16
M
33K
87
P
E
33K33K
15K
3924
2901 B52902 B52903 C52904 C52905 D52906 D52907 E52908 E52909 E5
2935 E42936 E11
4905 & 4906
33K
X
33K
XOTHERS
YES X
F
X
4901 & 4902
G
21
2910-3 C72910-4 C72912 C72915-1 C92915-2 C92915-3 C92915-4 C92919 C102920 C10
3903-2 C23903-4 C2
33K
X3926
17
I3923
B
FLAVORS 32"/42"
17
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
YES
33K
YESX
2923 E112924 G52925 G62926 A42927 B42928 B42929 C42930 C42931 C42932 D42933 D42934 E4
3912-1 E93912-2 E9
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
220K
1
C
33K
5
X 33K
33K
L
22K
13
J
G
33K33K
X33K
2937 E112938 E112939 E123900-1 B23900-2 B33900-3 A33900-4 A2
3925-1 D33925-2 E3
PnS SSRES
3904
K
RES
D
9 15
J
3
8
3904-3 C23904-4 B23905-3 C33905-4 B33906 G63907 G63908 G63909 C113910 C113911-1 F93911-2 F93911-3 D93911-4 D9
4906 D45900 B7
11
10
RES
I
N
C
X
O
6
N
3912-3 E93912-4 D93913 F93914 F93915 F93923-1 D33923-4 C33924-1 D23924-2 D2
I906 C4I907 D4
RES
F
33K
A
15
YES
11 20199
3926-1 E23926-2 E23927-1 E33927-2 E33932 F63933 F64901 B44902 C44903 D34904 E44905 C4
I917 F7I918 F7
12 13
H
12
K
3903
2
" X900 ~ X999"
X
18
5901 C105902 B76900 E26901 D27600-7 C77900 B11F901 C10F902 F10I901 A4I902 B4I903 B4I904 C4
I905 C4
M
I919 G7I920 F9I921 B7I922 C10
4
L
B
7
H
2019
E
14
6
D
3905
I908 D4I909 E4I910 E4I911 C9I913 C11I914 C7I916 B7
4904
X
O
14
4903
3926-1 33K1 8
I918
I908
33p
2907
RE
S
F902
1u02929
RES
I909
3914 33R
27
I920
3925
-2
33K
I916
27
2931 1u0
5
33K
3900
-2
100n
2915
-44
2915
-3
100n
36
45 33R3911-4
36
45
3911-3 33R
33R3912-4
4906
27
4905
8
100n
2915
-2
2915
-1
100n
1
AN8
AJ10
U5C19
V1
AM7
AK9AK7AL7
AM8AM9
AP8
AM15AL15
AM14AA2
Y2
Y3AA1AA3AA4
Y1
B1
AM6AN6
AP6AM5
AN5AP5
C1
AN15AL14
AK14AP15
AM10
AL9
AP9
AL8
AN9
D3
AN7AP7
AK6AL6
AM12AN12AP12
AM11AL11AK11
AN11AP11AL10
AP10AN10
AN14AP14AL13
AP13AN13AM1333K2 7
AUDIOPNX85439E
7600-7
3924-2
4K7
3906
1u02932
5900
33R
27
4 5
33R3911-2
3900-4 33K
5901
33R
1u02933
2910
-4
100n
45
100n
2910
-33
6
27
18
2910
-2
100n
100n
2910
-1
27 33R3912-2
3905
-4
33K
45 VDDA-AUDIO
36
33K
3905
-3
AUD_GND
I921
VDDA-AUDIO
3n3
2923
2922
3n3
4 5 33K3903-4
F901
2927 1u0
I919
33R
5902
RE
S33
p29
09
2919
10u
3912-3 33R36
3915 68R
4901
4902 4
2
1
3
5
I901
I914
LD2985BM33R7900
I922
I904
I902
1u02926
4 5
3904-3 3 6
3904-4 33K
33K
3908
75R
183912-1 33R
33K3924-1 1 8
1u02935R
ES
33p
2904
I903
I917
33p
2903
RE
SR
ES
2901
I911
33p
33K3926-2 2 7
3903-2 33K2 7
RE
S29
0233
p
45
2928 1u0
8
33K
3923
-4
3911-1 33R1
I905
2908
33p
RE
S
I906
22K
3910
3909
22K
2921
10u
RE
S33
p29
00
AUD_GND
DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
07
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Hor Siew Lee
2009-01-16
2
3
13010
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK
33R3913 RES
33K
3925
-11
8
2924
100n
2934 1u0
36
3900
-3
33K
I913
3907
4K7
I910
2905
10u
2912
VDDA-AUDIO33
pR
ES
3933
VDDA-AUDIO
33p
47K
RE
S29
06
47K
3932
10u
2925
I907
+5V
3927
-27
28
1
33K
3927
-1
33K
3923
-2
33K
27
+3V3
VD
DA
-DA
C
10n
2920
6900
CD
S4C
12G
TA12
V
2930 1u0
AUD_GND AUD_GND
3900-1 1 8 33K
6901
CD
S4C
12G
TA12
V
3n3
3n3
2938
2939
3n3
2936
2937
3n3
ADAC(4)ADAC(3)ADAC(2)ADAC(1)
ADAC(5)
ADAC(7)
ADAC(4)
ADAC(3)
ADAC(8)
ADAC(8)ADAC(7)
ADAC(7)ADAC(8)
SPDIF-IN
AUDIO-IN5-R
AUDIO-IN4-R
AUDIO-IN3-R
AUDIO-IN5-L
AUDIO-IN3-L
AUDIO-IN2-L
AUDIO-IN2-R
AUDIO-IN1-L
AUDIO-IN4-L
AUDIO-IN1-R
ADAC(1)
ADAC(2)
SPDIF-OUT-1
ADAC(6)
18440_506_090223.eps090224
EN 68Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: PNX8543 Analog AV
DAC
AI11
SYNC_IN_2
CVBS1Y
PC3_AI3PC3_AI2PC3_AI1
N
PC2_AI3
AI54AI53AI52
AI2P_IFAI2N_IF
HSYNCIN
VSYN
AGC
AI33REF 3
REF 5
AI43AI42AI41
SYNC_IN_1
AI4N
AI44
AI31
AI23
PN
AI22AI21
PC1_AI1
PC2_AI2PC2_AI1
CVBS2CP
BIAS
AI51
REF 4
AI32
REF 2
REF 1
GND_A3_TG
PC1_AIDPC1_AI3PC1_AI2
OUTIN
AI5N
CURREF
PC3_AID
PC2_AID
AI1P_IFAI1N_IF
AI13AI12
C
IA29 A6IA30 G12IA33 F12IA35 E3IA43 E13IA44 D13IA45 H11
IA46 H12IA13 G6IA14 H5IA15 H5IA16 H5IA17 C12IA18 C13
A
B
Y
3A33
27R
A
E
N
O
FOR CINCH
20
2A11
19
FOR CINCH
IA19 F13
IA20 E12IA21 F12IA22 C12IA24 D12IA25 F12IA27 H12IA28 A6
FA11 C6FA13 B6FA14 D3IA03 E3
IA04 E3IA05 F3
56R
*
CINCH
O
M
F
L
3A29
J
owne
r.
Y
Y
IA06 F3IA07 F3IA09 F6IA11 G6IA12 G53A56 D5
4A01 D124A02 E124A03 E124A04 E54A05 E5
5
2A44
FOR SCART
N
4A06 F55A00 C12
5A01 B125A02 C125A03 F125A04 E125A05 D125A06 B65A07 C6
5A08 D67600-1 D3CA01 H10
7
** *
3A47 H123A49 H11
13
I
N
N2A672A662A65
YN
Y
N
H
Y
18
56R
C
3A50 D33A51 F33A52 E23A53 E23A54 B53A55 C5
SCART
1
N
17
C
15
E
3A29 F123A30 E133A31 E123A32 D133A33 D123A34 G14
3A35 G123A36 G143A37 G123A38 H143A39 H123A40 A63A41 A6
3A42 B63A43 B73A44 A63A45 B73A46 G14
Y
42
CINCH
56R27R
3A32
3A08 E33A09 F33A10 F23A11 F23A13 D3
3A14 B53A15 C63A16 C53A17 C63A18 D53A19 D63A20 F14
3A21 F123A22 C133A23 C123A24 B133A25 B123A26 C133A27 C12
3A28 F13
G
3
N
2A41
11 12
121
M
47R
47R
D
18R
8
27R
Y
*
2A68 F112A69 F112A70 E10
2A71 G62A72 C52A73 C62A74 C52A75 C62A76 D52A77 D6
3A06 E33A07 E3
15
P
K
16
YYN
*
4
2A41 F112A42 F122A43 F122A44 E11
2A45 E122A46 E122A47 D112A48 D122A49 D122A50 F112A51 G6
2A52 G112A53 H112A54 A72A55 B72A56 A72A57 G112A59 H12
2A60 H112A65 E92A66 E102A67 E10
K
F
2A47
D
*
**
7
FOR SCART
FOR CINCH
FOR SCART
1716
SCART
18
HY
PNX8543 - ANALOG AV
2A70
2A32 C112A33 C122A34 C122A35 B112A36 B122A37 B12
2A38 C112A39 C122A40 C12
2A10
2A12
*
3A31
N
20
L
YN
13
14
19
GN
105
I
2A20 F62A21 F62A22 G62A23 G6
2A24 G62A25 G62A26 H62A27 H62A28 H62A29 H62A30 H6
2A31 F12
J
9
*
**
2A692A68
3A30
6
2A03 E32A04 F22A06 B62A07 C62A08 D62A09 D5
2A10 E112A11 E112A12 D112A13 E62A14 E62A15 E62A16 E6
2A17 F62A18 F62A19 F6
N
N
18R
MULTI 12NC : 3139_123_64421 / 64541 / 64561
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
CELL 12C : 8239_125_14871
B
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
15
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
A
B
**
47R
D
E
F
G
H
2A02 D3
6
18R
10
4111
*
1 2 3 4 5 6 7 8 9 10 11 12 13 14
" XA00 ~ XA99 "
3A28
32
SCART
9
BD 12NC : 3139_123_64431 / 64551 / 64571
P
8
**
C
D
E
F
G
H
A
B
C
IA25 3A34 27R2A50 22n
22n
2A06
100n2A59
2A17 22n
IA06
3A23
47R
3A25
47R
22n2A30
3A33
2A20
IA46
22n2A21 22nRES
56R
3A15
2A23 22n
3A29
3A35
47R
1u85A05
2A57 22n
22n2A53
27R3A20
IA21
3A10
3A28
RES 75R
27R
3A24
22n2A52
3A49 390R
IA24
2A33
150p
3A26
27R
2A40
150p
27R3A36
3A31
3A06
10n2A13
10K
180R3A51
IA12
18R
3A18
3A07 4K7
3A53 100R
18R
IA07
3A44
IA11
22n
2A31
47R
3A47
IA14
5A031u8
22n
2A69
IA18
IA20
2A5522n
2A16 22n
27R3A38
FA13
IA33
2A27 22n
2A5422n
180R
3A50
2A47 22n
IA45
22n
2A07
2A71 100p
22n2A03
IA17
150p
2A49
22n2A19
180R3A09
IA29
56R
3A45
3A13
180R
3A22
27R
3A30
4A04
IA05
IA28
RES 270p2A04
2A29 22n
47R
3A37
1u8
5A02
2A39
150p
18R
3A14
100R3A52
22n2A22
FA14
2A34
150p
150p
2A46
22n
2A65
22n
2A08
SIF-GND
2A10 22n
150p
CA01
2A48
2A43
150p
IA04
2A32
22n
SIF-GND
3A27
47R
3A19
IA22
56R
3A4218R
22n2A28
1u8
4A06
5A01
4A05
IA15
4K73A08
2A15 22nRES
2A09
10n
3A16
18R
FA11
IA30
56R
IA35
3A41
IA09
150p
2A45
5A041u8
J4
H4
G2
R1R3
T2U1
M1M3M4M5
K1K3K4K5
N4
L4
B3A3
B2A2
C3
J5
T1 P1P3P4P5
H1H2H3
G3
F2F3F4G1
F1
A1
D2D1
L1L2L3
E2E1
J1J2J3
G4
PNX85439E7600-1
C2
N1N2N3
IA19
ANALOG_VIDEO
IA27
2A25 22n
IA16
3A32
150p
2A42
3A43
56R
4A02
22n2A14
2A70
22n
22n
2A68
47R
3A39
22n 2A56
3A46 27R
22n2A26
22n2A41
3A21
47R
2A37
4A03
150p
IA03
330n
5A063A54
18R
RESRES
5A00
1u8
2A18 22nRES
2A77
100p
100p
2A76
RE
S
2A36
150p
RE
S
22n
2A35
3A11RES 75R
2A12 22n
22n2A11
56R
3A17
RE
S
2A66
22n
2A02
270p
100p
2A72
RE
S2A
73
100p
IA44
RE
S
4A01
RE
S
100p
2A75
2A74
100p
RE
S
5A07
330n
RES3A55RES
18R
22n2A44
330n
5A08
IA13
RESRES 3A56
18R
2A24 22n
2A51 22n
IA43
2A67
22n
2A60 12p
18R 3A40
22n
2008-12-161
03101
2A38
**** *** *****
ROYAL PHILIPS ELECTRONICS N.V. 20082008-10-17
08
3PC332
25
********SETNAMECHN
CLASS_NO
1
SUPERS.
1
NAME
DATECHECK
3139 123 6443TV543_2K9
PCB SB SSB BD
A2
2008-10-17
-- -- --
SC1-B
AV2-PB_SC2-B
SC1-G
AV2-Y_SC2-G
R-VGA
H-SYNC-VGA
AV3-Y
AV3-PB
AV3-PR
3
2
2009-01-16
Vincent Yap / Lee CW
DC343514
2009-01-16
SV
B-VGA
G-VGA
AV2-PR_SC2-R
SC1-R
CVBS1
Y_CVBS-MON-OUT
V-SYNC-VGA
SIF
CVBS2
FRONT-C
FRONT-Y_CVBS
CVBS
18440_507_090223.eps090224
Circuit Diagrams and PWB Layouts EN 69Q543.1E LA 10.
2009-Mar-27
SSB: PNX8543 SDRAM
M_DQ
M
M_A
M_BA
M_CLK
M_DQM
M_DQS0
NP M_DQS1
NP M_DQS2
NP M_DQS3
P
0123456789101112
012
M_CASB
M_CKE
NP
M_CSB
0123
N
RASB
ODT
IREF
3130
89
1011121314151617181920212223242526272829
VREF
WEB
01234567
1211109876543
0123456789101112
CK
VD
DL
VREF
VS
SD
L
14
VDDQ
QSSVSSV
BA
A
LDQS
UDQS
NC
DQ
CKEWE
ODT
RAS
1
CS
CAS
0012
VDD
LDMUDM
15
131211109876543
0123456789101112
CK
VD
DL
VREF
VS
SD
L
14
VDDQ
QSSVSSV
BA
A
LDQS
UDQS
NC
DQ
CKEWE
ODT
RAS
1
CS
CAS
0012
VDD
LDMUDM
15
13
C
J
12
4
3B37 G123B38 G123B39 G123B40 G123B41 H123B42 H123B43 H123B44 H123B45 H123B46 H123B47 B103B48 B123B49 B103B50 B127600-2 A57B00 F107B01 F3FB00 B11
O
P
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
FB01 B10FB02 C6
H
J
17
CELL 12C : 8239_125_14871
H
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
10
3B27 H83B28 H93B29 H83B30 H93B31 G123B32 G123B33 G123B34 G123B35 G123B36 G12
K
M
F
5121
13
O
2
14
" XB00 ~ XB99 "
13
3B12 G63B13 G63B14 G63B15 G63B16 G63B17 G63B18 G63B19 G63B20 H63B21 H63B22 H63B23 H63B24 H63B25 H63B26 H8
L
7
1918
M
19
20
N
2B37 F122B38 F122B39 F122B40 F122B41 F132B42 H123B00 C33B03 C73B04 D73B05 H23B06 H23B07 H33B08 H23B09 H33B10 G63B11 G6
863
2B17 F62B18 F62B19 F62B20 F72B21 H62B22 B102B23 E102B24 E102B25 F82B26 F82B27 F82B28 F82B29 F82B30 F92B31 F92B32 F92B33 F92B34 F112B35 F112B36 F12
owne
r.
L
161
20
K
C
F
3
B
D
I
4
2B08 F22B09 F22B10 F32B11 F32B12 F32B13 F52B14 F52B15 F62B16 F6
BPNX8543 - SDRAM
A
G
I
1 2
G
16
6
BD 12NC : 3139_123_64431 / 64551 / 64571MULTI 12NC : 3139_123_64421 / 64541 / 64561
1514
A
B
C
D
E
F
G
H
I
P
E
10 18
11
2 3 4 5 6 7 8 9 10 11 12 13
1 2 3 4 5 6 7 8 9 10 11 12 13
A
D
C
E
9
17
A
B
C
D
E
F
G
H
I
2B00 D72B01 D62B02 E52B03 E52B04 F12B05 F22B06 F22B07 F2
N
115
1
85
RE
S
9
7
1%1%
1K0
3B50
3B48
1K0
3B1233R
330u2B
22
N31N32
AA31
V31
V32
AB32
AE32
6.3V
AK31
AJ34AJ31R34R31
AG33AG34
AH31AH32
N34N33
U32M31
AL34
R32M32
AL33AE34AK34AF34AG32
R33U34
AH33
V34M33T33M34P31T32P32U31
W31
AH34AK33
AJ32AL32AL31AF31AK32AF32
P34T34
AC32W34Y31
AC34AD33AA32
W32
AE31
AB33AB34
MEMORYAA34AE33
AD34V33Y32
AA33AD31Y34AD32W33
PNX85439E7600-2
3B1933R
+1V8-PNX85XX
33R
3B25
33R3B30
3B2933R
3B05220R
RES
3B3233R
33R
3B31
3B0933R
FB02
FB01
2B05
100n
100n
2B04
33R3B11
33R3B08
F8 H2
K3
220R3B00
P9 J7 A7
H8
B2
B8
D2
D8
E7 F2
C7
C9
E9
G1
G3
G7
J2
A3
E3 J3 N1
A1
E1
J9 M9
R1
J1 A9
G9
C1
C3
L1R3R7R8
K9
K7
B3
B7A8
H1H9F1F9C8C2
F3F7E8
A2E2
G8G2
D7D3D1D9B1B9
H7H3
N7P2P8P3
L2L3
L7
J8
K2
K8
L8
M8M3
M2P7R2
M7N2N8N3
7B00HYB18TC512160B2F-3S
ΦSDRAM
100n
2B36
2B35
100n
3B0633R
3B46
33R
33R3B45
3B10
33R
+1V8-PNX85XX
100n2B01
1u0
2B03
2B02
330u
6.3V
RE
S
33R3B20
3B03
5K6
100n
2B33
2B42100n
+1V8-PNX85XX
33R3B18
3B1733R
3B28
33R
33R3B27
FB00
820R
3B04
100n
2B06
3B3433R
100n
2B09
2B08
100n
2B30
100n
100n
2B29
2B13
100n
+1V8-PNX85XX
100n
2B38
RE
S
2B37
100n
RE
S
3B1433R
33R3B13
2B27
100n
100n
2B26
33R3B40
3B3933R
CHECK
3139 123 6443TV543_2K9
PCB SB SSB BD
A2
2008-10-17
-- -- --
2008-12-161
03101
3
2
2009-01-16
Vincent Yap / Lee CW
DC343514
2009-01-16
SV
**** *** *****
ROYAL PHILIPS ELECTRONICS N.V. 20082008-10-17
09
3PC332
25
********SETNAMECHN
CLASS_NO
1
SUPERS.
1
NAME
DATE
3B49
1K0
1%1%
1K0
3B47
B8
D2
D8
E7 F2 F8 H2
K3G
7
J2
A3
E3 J3 N1
P9 J7 A7
H8
B2
R1
J1 A9
G9
C1
C3
C7
C9
E9
G1
G3
K9
K7
B3
B7A8
A1
E1
J9 M9
C2
F3F7E8
A2E2L1R3R7R8
D9B1B9
H7H3H1H9F1F9C8
L3
L7
J8
K2
K8
L8
G8G2
D7D3D1
P7R2
M7N2N8N3N7P2P8P3
L2
SDRAMΦ
HYB18TC512160B2F-3S7B01
M8M3
M2
2B11
100n
2B10
100n
100n
2B34
33R
3B07
2B15
100n
100n
2B14
100n2B21 DDR2-VREF-DDR
2B12
100n
2B28
100n
2B32
100n
100n
2B31
RE
S
RE
S
2B20
22u
100n
2B18
2B17
100n
RE
S10
0n
2B16
RE
S
33R3B42
3B4133R
33R3B16
3B1533R
3B2433R
3B2333R
33R3B22
3B2133R
100n
2B07
3B3633R
33R3B35
100n
2B25
33R3B33
RE
S
RE
S
22u
2B41
2B39
100n
DDR2-VREF-CTRL
RES220R
3B2633R
3B443B4333R
DDR2-VREF-CTRL
+1V8-PNX85XX
DDR2-VREF-DDR
RE
S2B
19
100n
33R3B38
3B3733R
RE
S
DDR2-VREF-DDR
100n
2B40
2B24
1u06.
3V33
0u2B23
RE
S
2B00
100n
DDR2-BA2
DDR2-ODT
DDR2-RAS
DDR2-WE
DDR2-CLK_N
DDR2-D18DDR2-D19
DDR2-BA2 DDR2-BA2DDR2-WEDDR2-CKE
DDR2-CLK_N
DDR2-CS
DDR2-D16DDR2-D17
DDR2-D26DDR2-D25DDR2-D28DDR2-D29DDR2-D27DDR2-D31
DDR2-D20DDR2-D21DDR2-D22DDR2-D23DDR2-D24DDR2-D30
DDR2-DQM2DDR2-DQS2_PDDR2-DQS2_N
DDR2-ODT
DDR2-RAS
DDR2-DQM3
DDR2-DQS3_PDDR2-DQS3_N
DDR2-D7DDR2-D8DDR2-D9
DDR2-DQM0DDR2-DQM1DDR2-DQM2DDR2-DQM3
DDR2-DQS0_NDDR2-DQS0_P
DDR2-DQS1_NDDR2-DQS1_P
DDR2-DQS2_NDDR2-DQS2_P
DDR2-DQS3_NDDR2-DQS3_P
DDR2-A0DDR2-A1
DDR2-A10DDR2-A11DDR2-A12
DDR2-A2DDR2-A3DDR2-A4DDR2-A5DDR2-A6DDR2-A7DDR2-A8DDR2-A9
DDR2-BA0DDR2-BA1
DDR2-CAS
DDR2-CLK_P
DDR2-CKE
DDR2-CLK_P
DDR2-CS
DDR2-D0DDR2-D1
DDR2-D10DDR2-D11DDR2-D12DDR2-D13DDR2-D14DDR2-D15DDR2-D16DDR2-D17DDR2-D19DDR2-D18
DDR2-D2
DDR2-D22DDR2-D23DDR2-D20DDR2-D21DDR2-D24DDR2-D30DDR2-D26DDR2-D25DDR2-D28DDR2-D31
DDR2-D3
DDR2-D27DDR2-D29
DDR2-D4DDR2-D5DDR2-D6
DDR2-D6DDR2-D7DDR2-D8DDR2-D9
DDR2-DQM0DDR2-DQS0_PDDR2-DQS0_N
DDR2-ODT
DDR2-RAS
DDR2-DQM1
DDR2-DQS1_PDDR2-DQS1_N
DDR2-WE
DDR2-A0DDR2-A1
DDR2-A10DDR2-A11DDR2-A12
DDR2-A2DDR2-A3DDR2-A4DDR2-A5DDR2-A6DDR2-A7DDR2-A8DDR2-A9
DDR2-BA0DDR2-BA1
DDR2-CAS
DDR2-A0DDR2-A1
DDR2-A10DDR2-A11DDR2-A12
DDR2-A2DDR2-A3DDR2-A4DDR2-A5DDR2-A6DDR2-A7DDR2-A8DDR2-A9
DDR2-BA0DDR2-BA1
DDR2-CAS
DDR2-CLK_P
DDR2-CKE
DDR2-CLK_N
DDR2-CS
DDR2-D0DDR2-D1
DDR2-D10DDR2-D11DDR2-D12DDR2-D13DDR2-D14DDR2-D15
DDR2-D3DDR2-D2DDR2-D4DDR2-D5
18440_508_090223.eps090224
EN 70Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: PNX8543 Control MIPS/Flash/PCI
C
CLKI
GND
VDD3.3V
1Y
CLKO
3
2
1
0
-BUSCTRLFIL
I 2 CINP
BRWP
VCC
VSS
IO
NC
01234567
CLEALECEREWE
TRDY
XIO_SEL293031
012345678910111213141516171819202122
IDSELINTA_OUT
IRDYPAR
PERR
REQ
REQ_B
SERRSTOPTRDY
PLL_OUT
XIO_ACKXIO_AD25
0123
0123
CLKDEVSELFRAME
GNT
GNT_B
232425262728
PCI_AD
PCI_CBE
USB_RPU
RREF
SCLSDA
SCLSDA
UA2_TXUA2_RX
EJTAG
USB_VBUS
2
1SCL1
2
3
SDA
USB
TRSTN
CLK_27_OUT
RESET_SYS
TCKTDITDO
3SMT
BL_PWM
FAULTDPDM
USB_ID
PWR_EN
+T
BD 12NC : 3139_123_64431 / 64551 / 64571
PNX8543 - CONTROL MIPS/FLASH/PCI
1 2 3 4 5 6 7 8 9
D
E
F
6 7 8 9 10 11 12 13 14 15 16 17
A
B
G
H
I
J
K
L
1M01 J41M03 J171M04 K41M09 D101M20 J111P09 I122M00 C82M01 C82M02 C92M03 C92M04 C9
C
2M05 D92M10 C162M11 C172M12 G152M16 D92M17 G10
10 11 12 13 14 15 16 17
CELL 12C : 8239_125_14871
MULTI 12NC : 3139_123_64421 / 64541 / 64561
1 2 3 4 5
" XM00 ~ XM99 "
3M01-1 C23M01-2 B23M01-3 B23M01-4 B23M05 C23M06 B43M07 C23M08 C23M09 C23M10 C23M11 C23M12 D23M13 D23M14 D4
C
D
E
F
G
H
I
J
K
L
A
B
3M26 E63M27 E63M29 G63M30 G113M31 C83M32 D83M33 D83M34 F63M35 H73M36-1 E8
2M18 G102M19 H112M20 H112M21 H112M86 K92M87 K92M88 J92M89 J92M90 I92M91 I92M92 K22M93 K32M95 I83M00 B4
3M44-1 I143M44-2 I143M44-3 I143M44-4 I143M45 K143M46 G113M47 K153M54-1 F133M54-2 F133M54-3 F133M54-4 F13
3M15 D43M16 D43M17 E43M18 E43M19 E43M20 C63M21 D63M22 D63M23 D63M24 D63M25 D6
3M76 K33M77 C23M78 C23M79 I63M80 J63M81 K6
3M36-2 E83M36-3 E83M36-4 E83M37-2 F93M37-3 F93M37-4 F93M38-2 G83M38-3 G83M39 H113M40 H93M41 H113M42 H113M43 G11
3M97 K73M98 K93M99 J84M02 B54M03 C44M05 H154M06 H154M83 K74M84 J74M88 J95M00 C135M01 C95M80 J105M81 J105M82 J10
3M58-1 D133M58-2 D133M58-3 D133M58-4 D133M59-1 D133M59-2 D133M59-3 D133M59-4 D133M66 D133M67 E133M68 C133M70 J143M71 J153M72 K143M73 J33M74 J33M75 K3
7M00 C157M01 G157M02 G107M80 J87M81 K8FM00 J10FM01 J10FM02 J10FM03 J10FM04 J10FM05 J10
3M82 I83M83 I83M84 J73M85 C23M86 I93M87 I93M88 J83M89 K93M90 E43M91 E43M92 E63M93 E63M94 C73M95 C73M96 J8
FM28 B4FM33 C15FM34 E6FM35 E6FM36 D8FM37 J4FM38 E9FM39 B4FM40 C5FM41 C5FM42 C5
5M83 J105M84 J10
5M85 J105M87 J105M88 J106M00 K46M01 J36M02 J46M03 K36M04 E86M05 E97600-3 E67600-8 B5
IM28 H6IM31 H10IM32 H11IM33 H11IM34 H11IM35 I12IM84 K7IM85 J7IM86 I8IM87 I8IM88 J8IM89 K8IM90 K8
/32
RE
S
FM06 J10FM07 J10FM08 E9FM09 E9FM10 E9FM11 J16FM12 J16FM13 J16FM14 J16FM15 J16FM16 J16FM17 J16FM21 J4FM22 J3FM23 K3FM24 K3FM25 K4
27RN.S.27R
3M463M433M30
/82
USB
FLASH
20
RESERVED FOR DISPLAY
RES
RESERVED
FOR LIGHT GUIDE
0R FOR /82
FM43 C5FM45 E14IM07 F7IM08 G6IM13 E15IM14 E15IM18 C8IM19 D5IM20 F6IM21 C5IM23 C6IM24 D6IM25 D6IM26 D6
I
J
K
L
M
N
O
N
M
L
J
I
H
G
F
RES
RESERVED
USB
FOR BOUNDARY SCAN
RE
S
RE
S
RE
S
USE ONLYFOR FACTORY
FOR FACTORY USE ONLY
*
*
**
0RN.S.N.S.
O
P
19181716151413121110987
TO LED PANEL
RES
RESRES
FOR UART SERVICE CONNECTOR
P
DEBUG / RS232 INTERFACEE
MC
EM
C
EM
C
EM
C
EM
C
CONNECTOR
E
F
G
H
12 13 14 15 16 17 18 19 20
54321
1
E
D
C
B
A
K
owne
r.
2 3 4 5 6 7 8 9 10 11
6
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
htA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
parts
A
B
C
D
2009-01-16
DC343514
She King Chuang
2009-01-16
2
3
13010
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
10
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
3M43
10K3M38-2 27
+3V3-PER
3M38-3 36 10K
+3V3
3M30
+3V3
10K
3M81
FM39
100p
100p
2M92
10
2M93
12345678
9
53261-0871
1M03
4M054M06
10K
34
56
3M07
RES1M01
S4B-PH-SM4-TB(LF)
12
10K3M01-1 1 810K3 6
RES
4 5RES 3M01-3
7K01SER 3M01-4
RES 3M01-2 10K2
FM43
IM35
FM45
FM40
FM42FM41
3M41 33R
5M80 30R
10K
FM37
3M96
10K
3M99
+3V3-STANDBY
RE
S
4M88
4M84IM85
10K
3M84 7M80RES
+3V3 +3V3-STANDBY
BC847BW
RES
+3V3
3M80
10K
3M79
100K
10R
3M98
RES4M83IM84
3M97
10K
+5V
+3V3-STANDBY
BC847BW7M81
1
2
3
45
78
1M04
MSJ-035-10A B AG PPO
34
56
RES4M03
1P09
12+5V
502382-0470
3M46
100R
3M90
10p
2M21
2M20 15p
2M19
10p
3M42
33R3M39
33R
2M18
100n
2M17
10n
IM33
33R
3M40
IM34
IM32
IM25
IM31
IM28
IM23
IM26
IM24
IM21 15K3M94 15K3M95
+3V3-PER3M93
4K7
3M82
10K
3M83
RE
S
RE
S
5M88
10K
30R5M87 30R5M85 30R5M84 30R5M83 30R5M82 30R
30R
220R
5M81 FM01
3M87
FM00
IM86
2M86
100p
234
3M86
100R
1M09
292303-4
1
6M04NUP1301ML3
6M05NUP1301ML3
100p
2M88
2M87
100p
IM90
IM89
+5V
IM88
FM06
IM87
FM07
FM05
3M89
100R
FM04
3M88 100R
FM03
81
4
6
+3V3-PER
7M02CDCVF2505
3
2
5
7
12345678
1735446-8
1M20
47n
2M95
100p
2M90
100p
2M91
2M89
100p
100R
3M92
4K73M91
10K
3M70
100R3M58-4 4 5100R3M58-3 3 6100R3M58-2 2 7
1 8
FM25
100R3M58-1
FM24
FM21
FM23
FM22
6M00 CD
S4C
12G
TA
6M03 CD
S4C
12G
TAR
ES
6M02
CD
S4C
12G
TA
RE
S6M
01
CD
S4C
12G
TA
3M85 10K10K3M7810KRES 3M77
100R3M54-1 1 8100R3M54-4 4 5
100R3M54-2 2 7
4 53 6
100R3M59-4100R3M59-3100R3M59-2 2 7100R1 8
7
12 37
13 36
1819
3M59-1
48
3456
101114
8
2728
2
333435383940454647
1
1520212223242526
179
16
2930313241424344
7M00NAND01GW3B2BN6F
Φ[FLASH]
1G
10n
FM28
2M16
4M02
27R
3M29
IM20
+3V3
FM02
IM19
8
SCL1 4SD0
SD1 7SDA2
VDD
3
VSS
6
7M01
SC0 5
SC1
2M04
PCA9540B
10n
2M03
10n
10n
10n
2M01
2M02
FM36
10n
2M00
10K
3M71
3M45
3M47
10K
45
100K
3M44
-4
18
+3V3
3M44
-2
27
3M44
-1
+3V3
FM16
FM14
FM15
FM12FM13
FM11
100R3M76
3M75
3M74
100R
100R3M73
100R
6
+3V3
2M12
100p
10K
3M44
-3
3
+3V3+3V3
AM16
AN17
22R
3M72
B33
G32
AL27AK27
AN16AP16AL16
AP17
AK16
AM17
L31 GPIO_5GPIO_6V2
GPIO_7V3
GPIO_8V4
GPIO_9V5
AN28
F33
D32
D33
H33
AP4AM4AL4
U2 GPIO_0U3 GPIO_1U4 GPIO_2L34 GPIO_3L32 GPIO_4
7600-8PNX85439E
CONTROLAP27
AP29
AN4AP3
+3V3-PER
IM08
3M35
100R
10K3M37-4 5 4
IM07
18
3M34 100R
36
3M36-1 10K
10K3M37-3
3M36-2 2710K3610K
45
3M36-3
2710K3M36-4
E20
3M37-2 10K
D30
E31
D25B25E26
AP28
A20B19
B20C20D20
A21
A30A25C26
E30
E29
B30C30D26E25C25
E21
A28B28C28D28E28A27
D21C21B21
E23D23C23B23A23E22D22C22B22
D29
A22
C27D27E27A26B26E24D24C24B24
C29
A24
7600-3PNX85439E
A29B29
B27
PCI
+5V
3M33
100K
56K
3M31
3M32
FM10
0R4
47u2M
05
FM08
IM18
6.3V
FM09
30R
5M01
FM38
10K3M11
+3V3-PER
FM17
+3V3-NAND
10K10K3M23
3M2210K3M13RES
+3V3-PER10KRES 3M12
3M10 10K10K
+3V3-PER
3M09
10KRES 3M05
+3V3-PER
3M20 12K
2K7
3M252K7
3M24
3M00
10K
+3V3-PERFM35
+3V3-PER
10K3M08
FM34
10K
3M06
1K2
3M271K2
3M26
3M19
100R
3M18
100R
100R
3M17RES
3M16RES
100R
100R
3M15
3M14
100R
3M67
10K
IM13
FM33
IM14
3 6
+3V3-NAND
+3V3-NAND
+3V3-NAND
100R3M54-3
33R
5M00+3V3-NAND
10K
+3V3
3M68
2K2
3M66
100n
2M11
100n
+3V3-PER
+3V3-PER
2M10
1K53M21
PCI-AD20PCI-AD19PCI-AD18PCI-AD17PCI-AD16PCI-AD15PCI-AD14
PCI-AD31PCI-AD30PCI-AD29PCI-AD28PCI-AD27PCI-AD26PCI-AD25PCI-AD24PCI-AD23
PCI-CBE3PCI-CBE2PCI-CBE1PCI-CBE0
PCI-DEVSELPCI-CLK-PNX8543
PCI-AD0
PCI-AD4PCI-AD3PCI-AD2PCI-AD1
PCI-AD13PCI-AD12PCI-AD11PCI-AD10PCI-AD9PCI-AD8PCI-AD7PCI-AD6PCI-AD5
PCI-AD22PCI-AD21
SDA2
SDA1
SCL3
SCL2
SCL1
IRQ-CA
PCI-CLK-OUT
XIO-ACK
XIO-SEL-NAND
PCI-SERR
PCI-AD24
PCI-DEVSEL
PCI-PERR
PCI-IRDYPCI-FRAME
PCI-TRDYPCI-STOP
PCI-TRDYPCI-STOPPCI-SERRPCI-PERR
PCI-PARPCI-IRDY
PCI-FRAME
IRQ-CA
SDA-SSB
SCL-SSB
SDA-SSBSDA3
SCL-SSBSCL3
SDA-UP-MIPSSDA2
SCL-UP-MIPSSCL2
SDA-UP-MIPSSDA1
SCL-UP-MIPSSCL1
RESET-SYSTEM
WC-EEPROM-PNX5100_SPI-DI
RXD-MIPSTXD-MIPS
EJTAG-TRSTNEJTAG-TMSEJTAG-TDOEJTAG-TDIEJTAG-TCK
SDA3
PCI-AD27PCI-AD26PCI-AD25PCI-AD24
RXD-MIPS2TXD-MIPS2
TXD-MIPSRXD-MIPS
EJTAG-TRSTNEJTAG-TMSEJTAG-TDOEJTAG-TDI
EJTAG-TCK
SCL-UP-MIPS
SDA-UP-MIPS
USB-OCUSB20-DPUSB20-DM
RXD-MIPS2TXD-MIPS2
PBS-I2C-SCL
BOOTMODE_PNX8543-BL-CTRL
NAND-AD(1)
NAND-CLE
XIO-SEL-NANDNAND-ALE
NAND-REnNAND-WEnNAND-ALENAND-CLE
PCI-CBE2PCI-CBE1PCI-AD1PCI-AD0
NAND-AD(7)NAND-AD(6)NAND-AD(5)NAND-AD(4)NAND-AD(3)NAND-AD(2)NAND-AD(1)NAND-AD(0)
PCI-AD31PCI-AD30PCI-AD29PCI-AD28
EJTAG-TDO
EJTAG-TDI
EJTAG-TCK
USB-OC
USB20-DMUSB20-DP
WP-NANDFLASH
XIO-ACK
XIO-SEL-NAND
NAND-AD(0)
WP-NANDFLASHNAND-WEn
XIO-ACK
NAND-REn
NAND-AD(7)NAND-AD(6)NAND-AD(5)NAND-AD(4)NAND-AD(3)NAND-AD(2)
PCI-CLK-PNX5100
PCI-CLK-PNX8543
PCI-CLK-OUT
SPI-DO_I2C-SDA
KEYBOARD
LED1
LED2
RC
LIGHT-SENSOR
RXD
TXD
RXD-UP
TXD-UP
EJTAG-TRSTNEJTAG-DETECT
EJTAG-TMS
PCI-GNTPCI-REQPCI-REQ
PCI-GNT
IRQ-PCIIRQ-PCI
LED1
LED2
LIGHT-SENSOR
PBS-I2C-SCL
PNX8543-BL-BOOST_SPI-CLK PNX8543-BL-BOOST_SPI-CLK
BOOTMODE_PNX8543-BL-CTRL
SDA-SET
SCL-SET
SDA2
SCL2
SDA-SET
SCL-SET
SDA-DISP
SCL-DISP
SCL-SET
SDA-SET
PNX8543-LCD-PWR-ON_SPI-DI
PNX8543-LCD-PWR-ON_SPI-DISPI-DO_I2C-SDA
PCI-CLK-ETHERNET
18440_509_090223.eps090224
Circuit Diagrams and PWB Layouts EN 71Q543.1E LA 10.
2009-Mar-27
SSB: PNX8543 Standby Control/Debug
D
C
S
W
HOLD
VSS
Q
VCC
SCLADR
012 SDA
WC
C
OXTAL
ALE
EA
67
01237
012345
P6
P0
P1
P2
P3
PWM
67
01234
VSS_XTAL
UA_RXUA_TX
5
PSEN
MC
SPI
012345
01
RESET_IN
SCLSDA
CLKCSBSDI
SDO
0123
45
CADC
I
" XD00 ~ XD99 "
RE
S
A
4
D
FD17 B9FD18 H14FD19 B4FD20 B4FD21 C4FD22 D2ID17 F4ID18 F3ID19 F4ID20 G3ID22 H4ID23 H3ID31 F12ID40 A1ID44 F8ID45 F8ID46 F9ID47 F2ID49 G2ID50 H2ID51 H4ID52 B4
N
FOR DEBUG
A
7D00-2 G47D01 F57D02-1 H47D02-2 H47D05 C127D06 E127D07 E137D08 I117D09 A107D10 F7FD00 A4FD02 C14FD03 C11FD04 E12FD05 E11FD06 F13FD07 F14FD08 F13FD09 H13FD10 I13FD11 E13FD12 E7FD13 B9
FD14 B11FD15 B9FD16 B9
3
O
FOR DEVT PURPOSE
TSTPOINT
11
42
J
11
1510
F
4D06 C114D07 C114D08 H44D09 E76D00 H116D01 G36D02 F97600-6 A57D00-1 F4
N
P
PNX8543 - STANDBY-CONTROL / DEBUG
8
E
6
5
M
RES FOR ITV
16
FOR DEBUG
9
BD 12NC : 3139_123_64431 / 64551 / 64571CELL 12C : 8239_125_14871
MULTI 12NC : 3139_123_64421 / 64541 / 64561
3D57 H113D58 C133D62 H23D63 F73D64 F93D65 F83D66 F83D67 I34D00 A24D01 A24D02 A2
RES
6
RESERVED
13
3D36 H23D37 A73D38 A73D39 A73D40 A73D41 A73D42 A83D43 A83D44 A83D45 B73D46 B73D47 B73D48 B73D49 B73D50 C73D51 C73D52 C43D56-1 E123D56-2 E123D56-3 E123D56-4 E13
12
B
13
1710
RES
RES
FOR /82
B
L FOR DEBUG
15
H
3
L
3D26 E23D27 E23D28-1 F43D28-2 F53D29 F33D30 F33D33 G33D34 G33D35 H3
205
7
K
H
3D09 C23D10 C23D11 C23D12 C23D13 C23D14 C23D15 C23D16 C23D17 C23D18 C23D19 C23D20 C23D21 D23D22 D23D23 D23D24 D23D25 D2
171614
F
K
M
G
C
18
9
GND
DEBUG
I
2D07 H142D08 I142D09 B32D14 B72D15 F82D16 F92D17 B73D00 B23D01 B23D02 B23D03 B23D04 B23D05 B23D06 B23D07 B23D08 B2
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rtsis
pro
hibi
ted
with
out t
he w
ritte
n co
nsen
t of t
he c
opyr
ight
J
19
SPI-PROG
D
19
TSTPOINT
4 5 6 7 8 9 10 11 12 13 14
A
B
C
D
E
F
G
14
owne
r.
MAIN NVM
SDM
18
E
1 2 3 4 5 6 7 8 9 10 11 12 13 14
1 2 3
C
12
O
2
G
H
I
A
B
C
D
E
F
G
H
I
1D00 A31D01 H132D00 A32D01 A32D02 D22D03 G52D04 A102D05 C122D06 E13
1 8
P
TSTPOINT
1
7
FOR
/32
I
20
+1V2-PNX85XX4K7
3D62
7D07BC857BW
3
4D02
6
5
7
2
1
84
Φ512K
FLASH
M25P05-AVMN67D09
FD05
FD031
+3V3-STANDBY
10K
3D35
ID23
3D48
1D00
100R
27M
10K3D19RES100KRES 3D18
FD00
3D25 100K
100R3D45
2D07
100p
RES
7D02-2BC847BS(COL)
5
3
4
+3V3-PER
3D30
FD07
18K
RES
3D67
10K
3D01 10K
10K
3D34
3D33
33K
FD13
3D10 27K
100n
2D02
+3V3-STANDBY
100R3D51
3D50 100R
ID22
7D08
4D09
PDTC114EU
FD17
1
3
2
7D01PDTC114EU
100K3D11
8
RES
10K
3D28
-11
3D15 10K
FD11
ID31
ID49
RES3D24 10K
10K3D09
FD04
3D29
10KRES
33K
FD16
3D04
ID18
+3V3-STANDBY
ID17
2D03
1u0
4D07
123
6
5
84
7(8Kx8)Φ
EEPROM
7D06M24C64-WDW6
10K
FD12
3D12
+3V3
+3V3-STANDBY
RES 10K3D05
+3V3-STANDBY
2D091n0
+3V3-STANDBY
10K3D2210K3D21
1 8
10K
3D56-1
12
34
SK
HU
1D01
3D26 10K
DC343514
She King Chuang
2009-01-16
2
3
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
11
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
13010
1 2008-12-16
10K
3D41
4D08
FD15
6D01
BA
S31
6
10K3D07
3D08 10K +3V3-STANDBY
FD20
FD19
FD09
4K7
3D66
ID20+5V
10K
3D63
10K3D27
2D15
100n
10K
27
3D28
-2
10K
3D58
+3V3-STANDBY
3D52 100R
+3V3-STANDBY
ID45
10K
3D56
-44
5
ID52
4
NC
1 OUTP
7D10NCP303LSN30
5CD
3
GND
2INP
2D01
22p
4K7
3D38
ID46
RE
S
7D02-1BC847BS(COL)
2
6
1
27
10K
3D56
-2
10K3D20
3D03 10KRES
10K3D16
+3V3-PER
3D06 4K7
BAS316
3D64
10K
6D02
100n2D14
10K
3D37
FD18
10K
3D44
4
+3V3-PER
BC847BS(COL)7D00-25
3
2
6
1BC847BS(COL)7D00-1
100R3D46
ID44
3D42
10K
10KRES 3D00
3D57
330R
FD10
3D49 100R
FD02
36
ID40
10K
3D56
-3
+3V3-STANDBY
RES 10K3D23
100R3D47
6D00
SM
L-31
0
100KRES 3D17
+3V3-STANDBY
+3V3-STANDBY
4K7
RE
S
2D04 100n
3D39
RES
FD08
FD21
FD22
10K
3D43
4D06
FD06
2D06
100n
+1V2-PNX5100
RES
10K3D1410KRES 3D13
3D40
RE
S10
K
GND
INP2
4
NC
OUTP 1
100n
2D05
7D05
5 CD
3
ID47
NCP303LSN30
FD14
22p
2D00
100p
2D08
4D01
RES
4D00
100n
2D16
ID50
ID51
3K3
3D65
AK1AJ4
W3
W1
W2
11
AH1
AK2AK4
AE2
AJ3AJ2
AF3
AL5AK5
AJ1AK3
AD5AD4AD3AE5AE4
AG1AH5AH4AH3AH2
AD2AD1AC5
AF2AF1AG4AG3AG2
AC4AC3AE1
AN3AN2AP2AP1
AF4
AC2AC1AB3AB2AB1
STANDBY
7600-6PNX85439E
AE3
3D36
4K7
ID19
2D17 100n10K3D02RES
AV2-STATUS
RESET-ETHERNETRESET-ETHERNET
DETECT2
SCL-UP-MIPS
SDA-UP-MIPS
LED1
DETECT1DETECT-12V
RC2
RESET-SYSTEM
RC_uP RC
RC1
RESET-STBY
SPI-PROGSPI-WP
BOLT-ON-TS-ENn
UART-SWITCH
SPI-PROG
SDM
SPI-CSB
SPI-WP
SPI-WPSPI-PROG
BOLT-ON-IO
RESET-NVM
LCD-SCLEJTAG-DETECTLAMP-ON-OUT
STANDBYDETECT1DETECT2
POWER-OKENABLE-3V3
AV1-STATUS
RESET-STBY
SPI-CLK
SPI-SDO SPI-SDI
RESET-SYSTEM
KEYBOARD
SCL-UP-MIPSSDA-UP-MIPS
LED2
PSEN
ALE
EA
RESET-NVMRESET-PNX5100
WP-NANDFLASHAUDIO-RESETAUDIO-MUTE
SPI-CLKSPI-CSBSPI-SDI
SPI-SDO
KEYBOARDLIGHT-SENSOR
RC_uPREGIMBEAU_CVBS-SWITCH
CEC-HDMIPI_3SDM
RXD-UPTXD-UP
BOLT-ON-TS-ENnRESET-NVMRESET-PNX5100
UART-SWITCHWP-NANDFLASHAUDIO-RESETAUDIO-MUTE
RC_uPREGIMBEAU_CVBS-SWITCHCEC-HDMIPI_3SDM
LCD-SCLEJTAG-DETECTLAMP-ON-OUTSTANDBYDETECT1DETECT2POWER-OKENABLE-3V3
RXD-UPTXD-UPBOLT-ON-IO
RESET-SYSTEMAV2-BLK_LCD-SDAAV1-BLK
18440_510_090223.eps090224
EN 72Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: Bolt-on
1
X11
C
1
X11
1
X11
1
X11
2 20
RESERVED FOR ITV / DVS-S BOLT ON
13
11
RESERVED FOR ITV
9
E
18
G
L
M
K
G
F
A
10
FE51 D9IE31 B9IE37 C5IE38 C5IE39 D8
178 164" XE00 ~ XE99 "
5
19
FOR FLAVORS
RESERVED FOR ITV
D
M
N
FE40 B11FE41 B11FE42 B11FE43 B11FE44 B11FE45 B11FE47 C11FE48 B7FE49 C7FE50 C9
3
B
A
D
I
6
13
H
O
11
FE18 C2FE19 C2FE25 B1FE26 C8FE27 E7FE29 B2FE30 C2FE37 B11FE38 B11FE39 B11
J
4E10 B54E11 C54E12 C54E18 B74E19 D74E20 G54E21 G5
17
BOLT-ON
5
P
5E02 B15E03 B15E04 B25E05 B95E06 B17E07-1 B87E07-2 C87E07-3 C87E07-4 D87E08 E97E09 E8FE11 B1FE12 B2FE14 B1FE15 C2FE17 C2
3E43 B123E44 B123E45 B123E46 B123E47 B123E48 B123E49 B123E50 B124E09 B5
C
N
4 14
14 15
owne
r.is
pro
hibi
ted
with
out t
he w
ritte
n co
nsen
t of t
he c
opyr
ight
C
F
16
72
15
3E19 B23E20 C23E21 C23E22 C23E23 C23E24 C23E38 B13E39 B13E40 C8
3
18
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
O
6
BD 12NC : 3139_123_64431 / 64551 / 64571
19 20
H
10
3E41 D93E42 B12
6 7 8 9 10
129
1
1
K
12
J
P
1E04 G12E08 C12E09 C22E10 C22E11 C12E12 C22E13 C22E22 B92E23 A22E24 B23E18 B2
G
H
1E00 B111E01 A11E02 B1
8
E
RESERVED FOR ITV
1 2 3 4 5 6 7 8 9 10 11 12 13
1 2 3 4 5
B
7
CELL 12C : 8239_125_14871
MULTI 12NC : 3139_123_64421 / 64541 / 64561L
I
11 12 13
A
B
C
D
E
F
G
H
A
B
C
D
E
F
4E21
4E20
3E41
10K
3E40
10K
12
714
1110
74HC4066PW7E07-4
FE30
100R3E423E38 100R
+12V
+3V3-STANDBY
FE12
100p
2E09
+5V
33R5E02
89 10
1234567
502382-0870
1E04
100R
IE38
3E192E
1110
0pFE29
+3V3-STANDBY
3E47 100R
2E23
100n
+3V3
FE11
2E24
100n
456789
15 16
1
1011121314
23
502382-1470
1E00
FE18
FE38
100R3E45
5E05
33R
FE37
IE39
3E46 100R
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
12
******** 2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Vincent Yap / Lee CW
2009-01-16
2
3
13010
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK DATE
NAME
FE19
100R3E39
RES33R5E06
IE37
100R3E44
100R3E48
3E49 100R
3E50 100R
FE43
FE27
4E19
FE26
+3V3-STANDBY
3E24
FE17
100R
100p
2E10
FE25
100R3E18
FE50
FE51
FE48
FE49
PDTC144EU7E08
PDTC144EU7E09
4E11
4E10
100R3E213E22 100R
4E18
14
892E
1310
0p
74HC4066PW7E07-3
6
7
5
714
43
13
714
12
74HC4066PW7E07-2
74HC4066PW7E07-1 FE41
FE42
2E08
100p
89
11 12
FE15
1
10
234567
56 7
1E02
1E01
1234
3E43 100R
FE14
100R3E23
5E04 33R
4E12
FE45
FE44
FE39
100p
2E12
IE31
3E20 100R
4E09
5E03 33R
FE47
FE40
TXD-MIPS
100n
2E22
SPI-DO_I2C-SDAPBS-I2C-SCL
RC1RC2
PBS_SPI_DIWC-EEPROM-PNX5100_SPI-DI
PNX8543-LCD-PWR-ON_SPI-DI
PBS-I2C-SCLBOLT-ON-IO
RXD-BOLT-ONTXD-BOLT-ON
RXD-UP
RXD-MIPS
TXDTXD-UP
STANDBY
SC1-RSC1-GSC1-B
SPDIF-INAV1-BLK-BOAUDIO-IN1-RAUDIO-IN1-L
CVBS1
PBS_SPI_DIPNX8543-BL-BOOST_SPI-CLK
AV2-BLK_LCD-SDA
RXD
CVBS-OUT-SC1-PBS
SCL-SSBSDA-SSB
RC
STANDBYAV1-STATUS
RXD-BOLT-ONTXD-BOLT-ON RXD-BOLT-ON
TXD-BOLT-ON
RXD-MIPS
TXD-MIPS
RXD-UP
TXD-UP
LCD-SCL
18440_511_090223.eps090224
Circuit Diagrams and PWB Layouts EN 73Q543.1E LA 10.
2009-Mar-27
SSB: Analog IO - Scart 1 & 2
4X1
G4
4X2
12
VDD
VEEVSS
C
FF38 E4FF39 I14IF00 B4IF01 C4IF02 B3IF03 C3IF04 E3IF06 F3IF12 I2IF14 J2IF16 I7IF25 I14IF26 I11IF27 I10IF28 J11IF29 J12IF30 J9IF31 J10IF32 J11
FF17 E16FF18 E16FF19 E16FF20 F16FF21 F16FF22 F16FF23 G16FF24 G16FF25 G16FF26 B4FF27 I3FF28 J3FF29 C6FF30 D6FF31 F6FF32 H6FF33 I6FF34 H13FF35 F13FF36 D13FF37 C13
" XF00 ~ XF99 "
F
H
G
I
SCART
BD 12NC : 3139_123_64431 / 64551 / 64571MULTI 12NC : 3139_123_64421 / 64541 / 64561
CELL 12C : 8239_125_148717F00-1 B37F00-2 C37F01 E47F02 E2
7F03 I27F04 K27F05 I77F06 I147F07-1 J117F07-2 J107F08 J9FF00 C4FF01 B8FF02 C8FF03 C8FF04 E7FF05 E8FF06 F8FF08 F8FF09 G8FF10 G8FF11 G8FF12 G8FF13 G8SCART
E
FOR SCART
FF14 D16FF15 D16FF16 E16
4F06 J134F07 H65F00 I96F00 B76F01 C76F02 C76F03 D76F04 E76F05 F76F06 G76F07 H76F08 I76F09 J66F10 K66F11 B156F12 C156F13 C156F14 D156F15 E156F16 F156F17 G156F18 H156F19 I156F20 J15
16
O
FOR
CIN
CH
N
FOR SCART
6F21 K15
3F29 C143F31 C143F32 C133F33 D143F36 F143F37 F143F40 I143F41 I153F42 I153F44 J143F45 I113F46 I113F47 I123F48 J103F49 J113F50 J113F51 J113F52 J93F53 J124F00 J34F01 J94F03 D84F04 E84F05 H13
15
SCART2
C
M
owne
r.is
pro
hibi
ted
with
out t
he w
ritte
n co
nsen
t of t
he c
opyr
ight
(AV2)
G
3F03 C23F04 D33F05 I23F06 I23F07 J23F08 K23F09 B63F10 B63F11 C63F13 C63F14 D63F15 D63F18 F63F19 F63F20 H43F22 I73F23 I73F24 I83F26 J53F27 B143F28 B13
EM
C
SCART
12
2F25 C142F26 D152F27 D142F28 E152F29 F132F30 G152F31 H152F33 I142F34 J152F35 I92F36 I102F37 I102F38 J92F39 J122F42 F152F43 F72F44 K72F45 K163F00 B33F01 B23F02 C3
20
D
147
H
E
I
2F04 I32F05 J32F06 B82F07 B62F08 C82F09 C62F10 C72F11 D62F12 D72F13 D62F14 E62F15 F62F16 G62F17 H62F18 I72F19 J72F20 B152F21 B142F22 C152F23 C142F24 C15
15
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
8 13
1
9
SCART1
14
1F14 D151F15 E141F16 F141F17 G141F18 H141F19 I151F20 J161F21 K161F22 C71F23 D72F00 D32F01 B42F02 C42F03 E2
4 10
C FLAVORS
A
B
FOR
CIN
CH
19
P
F
J
K
L
A
B
C
D
E
F
G
H
I
10 11
L L
16
ANALOG IO - SCART 1 & 2
N
5
18
9 10 11 12 13 14 15 16 17
A
B
C
D
E
F
G
H
I
17
5
J
19
(AV1)
K
D
O
3
FOR
CIN
CH
6
15 16 17
1 2 3 4 5 6 7 8
SCART
SCART
6
J
119
2
M
P
1713
4
1 2 3 4 5 6 7 8 9 10 11 12 13 14
A
7
SCART
18
SCART
82 3
B
FOR CINCH OUT
1 20
K
J
K
L
1E32 C111F00 B71F01 D171F02 D91F03 D71F04 E71F05 F71F06 G71F07 H71F08 I81F09 J71F10 K71F11 B151F12 C151F13 C15
SCART
+3V3
12
IF31
FF32
IF16
2
6
1
+5V
7F07-1BC847BPN(COL)
2F36
1u0
IF04
2F06
1n0
2F35
1n0
RE
S
CD
S4C
12G
TA
6F05
FF05
FF22
FF23
2
7F06BC847BW
1
3IF25
12
2
5
14
15
4
6
11
10
9
1678
13
1
3
MDX
7F0274HC4053PW
+5V
1F03
0001
3F15
1K0
RE
S
CD
S4C
12G
TA
6F04
+5V
4F05
4F06
3F36
75R
8K2
3F24
2
3F33 1K0
1
3
IF06
PDTC114EU7F01
4K7
3F40
FF36
FF34
RE
S2F
11
100p
2F01
FF31
10u
IF26
100R
3F05
2F37
100n
5F00
30R
1K0
3F11
0001
2F28
100p
1F06
FF25
RE
S
CD
S4C
12G
TA
6F15
FF24
FF19
100p
2F14
IF28
3F13
470R
6F20
CD
S4C
12G
TA
RE
S
SUPERS.
1
NAME
DATECHECK
3139 123 6443TV543_2K9
PCB SB SSB BD
A2
2008-10-17
-- -- --
2008-12-161
03101
3
2
2009-01-16
Vincent Yap / Lee CW
DC343514
2009-01-16
SV
**** *** *****
ROYAL PHILIPS ELECTRONICS N.V. 20082008-10-17
13
3PC332
25
********SETNAMECHN
CLASS_NO
1
100n
2F03
8K2
3F04
0001
1F07
0001
1F12
IF30
1F04
0001
FF04
330p
2F15
FF03
3F52
560R
1F20
+3V3
0001
330p
2F29
0001
1F22
1n0
2F12
RE
S6F
19
CD
S4C
12G
TA
3F41
10K
+3V3
100K
RE
S3F
14
6F06
CD
S4C
12G
TA
RE
S
100p
2F13
IF29
RE
S
100n
2F04
1F16
0001
2F22
1n0
3F31 470R
RES
2F25
100p
0001
1F10
1F14
0001
0001
3F27
1F11
470R
FF20
4K7
3F22
IF03
IF00
IF02
RE
S
CD
S4C
12G
TA
6F21
FF29
68R
3F44
470R
3F09
100p
2F07 RES
FF17
0001
1F17
+5V
FF18
RE
S6F
01
CD
S4C
12G
TA
10u
2F02
+5V
1F21
0001
100n
2F00
4F00
RE
S
FF10
FF11 21
3
4
5
6
7
8
9
12
13
14
15
16
17
18
19
2
20
1F01
MRC-021H-09 PC
1
10
11
BC847BW7F04
IF01
1
3
2
FF30
7F05BC847BW
4F03
FF28
4F04
IF14
0001
1F19
75R
FF02
3F42
RE
S
CD
S4C
12G
TA
6F16
3F10
100K
IF32
RES
FF09
FF27
2F18
100n
22K
3F47
FF06
BC847BW7F03
3F06
390R
1n0
2F24
3F03
6K8
RE
S
CD
S4C
12G
TA
6F08
10K
3F23
IF12
5
3
4
6
1
7F00-2BC847BS(COL)
7F00-1BC847BS(COL)
2
1K03F29
2F23
100p
0001
RE
S
FF35
1F23
100p
2F21
FF21
RE
SR
ES
2F27
100p
CD
S4C
12G
TA
6F07
RE
S
RE
S
CD
S4C
12G
TA
6F18
3F48
FF16
100R
FF33
3F53
18K
4F07
1F05
0001
100p
2F30
2F10
1n0
1F18
0001
6F14
CD
S4C
12G
TA
6F13
RE
SR
ES
CD
S4C
12G
TA2F
31
100p
100p
2F19
100n
2F05
2F44
100p
FF08
100n
2F38
3F00
150RFF26
FF00
+5V
RE
S6F
03
CD
S4C
12G
TA
FF13
1n0
2F20
FF12
100p
2F09
1F00
RES
1F09
0001
0001
CD
S4C
12G
TA
FF38
RE
S6F
09
2F43
100p
IF27
1F08
0001
FF15
4F01
FF14
RES
3F01
6K8
3F08
390R
FF37
RE
S6F
00
CD
S4C
12G
TA
3F50
10K
3F20
68R 2F17
3F46
1K0
100p
2F26
1n0
8K2
3F18
RE
S6F
02
CD
S4C
12G
TA
FF01
5
3
47F07-2BC847BPN(COL)
RE
S6F
10
CD
S4C
12G
TA
6F17
CD
S4C
12G
TA
RE
S
56789
4142
2F42
100p
3233343536373839
4
40
23242526272829
3
3031
13141516171819
2
202122
1
101112
100K
1E32CON_STND_MAL_N40_M2
RE
S3F
28
2F39
4u77F08
1
3
2
BC847BW3F49
3F51
330R
330R
3F02
150R
100p
2F34
0001
1F13
68R3F26
3K3
3F19
2F33
100n
RES
100K
3F32
3F07
100R
3F45
33R
1F15
3K3
3F37
9
0001
19
2
20
21
3
4
5
6
7
8
1
10
11
12
13
14
15
16
17
18
MRC-021H-09 PC
1F02
RE
S6F
12
CD
S4C
12G
TA
RE
S
CD
S4C
12G
TA
6F11
1n0
2F08
FF39
2F45
100p
100p
2F16
CVBS-OUT-SC1
SC1-RAV1-BLK-BO
AP-SCART-OUT-L
CVBS1
Y_CVBS-MON-OUT-SC
CVBS-OUT-SC2
AP-SCART-OUT-L
AP-SCART-OUT-R
CVBS1AV2-PB_SC2-B
AV2-Y_SC2-GAV2-PR_SC2-R
SC1-G
AV2-BLK_LCD-SDAAP-SCART-OUT-LAP-SCART-OUT-R
CVBS2
AUDIO-IN2-LAUDIO-IN2-RAV2-STATUS
CVBS-OUT-SC2SPDIF-OUT
AUDIO-IN1-LAUDIO-IN1-RAV1-STATUS
Y_CVBS-MON-OUT
Y_CVBS-MON-OUT-SC
SC1-B
AP-SCART-OUT-R
AUDIO-CL-L
AUDIO-CL-R
A-PLOP
REGIMBEAU_CVBS-SWITCH
CVBS-TER-OUT
CVBS-OUT-SC1-PBS
CVBS-OUT-SC1
AP-SCART-OUT-L
AUDIO-IN2-L
AV2-STATUS
AV2-Y_SC2-G
AV2-PR_SC2-R
CVBS2
AV2-BLK_LCD-SDA
CVBS-OUT-SC1
AV1-BLK
AV2-PB_SC2-B
AP-SCART-OUT-R
AUDIO-IN2-R
SC1-G
SC1-R
AV1-BLK-BO
SC1-B
AP-SCART-OUT-R
AUDIO-IN1-R
AP-SCART-OUT-L
AUDIO-IN1-L
AV1-STATUS
18440_512_090223.eps090224
EN 74Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: YPbPr / Side I/O / S-video
C
SCLADR
012 SDA
WC
IG01 D4IG02 G6IG03 H6IG04 I7IG05 I7IG10 C10IG11 D10IG12 A13IG13 A13IG14 C13IG15 C13IG16 B13IG17 C13IG18 D13IG19 E15IG20 D12IG21 E14IG22 E13IG32 J15
FG25 C14FG27 C2FG28 E16FG29 H9FG31 H12FG32 H12FG33 H12FG34 H12FG35 I12FG36 I12FG37 I12FG38 I12FG39 I12FG41 E15FG42 J3FG43 I16FG44 J16FG45 J16FG46 I15FG47 E12
4
13
FOR /32 & /82
10
17FO
R F
LAVO
RS
14
IG00 C4
7G32 I16FG00 C3FG01 D3FG02 E3FG03 F3FG04 F3FG05 G4FG06 H4FG07 H3FG08 I4FG09 J4FG10 J3FG11 J5FG12 A9FG13 B9FG14 C9FG15 C8FG16 D8FG17 G8FG18 G8
EDID NVM VGA
VGACONNECTOR
12
FG19 G9FG20 G8FG21 H9FG22 I9FG23 I9FG24 B14
6G07 J46G08 J56G09 A96G10 B96G11 C9
6G12 C96G13 D96G14 B146G15 C146G16 E156G17 F136G18 G136G19 G136G20 H136G31 I146G32 J146G33 I176G34 J176G35 H136G36 H12
C
FOR ITV
M
6G37 F47G00-1 B137G00-2 C137G01 D137G31 I15
3G60 I173G61 J163G62-1 J63G62-2 J63G62-3 J63G62-4 J63G63 I154G00 J34G04 F94G05 G94G07 J34G08 E124G09 I165G00 I95G01 I95G02 E155G31 I135G32 I136G00 C36G01 D3
5 20
H
SIDE IO
11
B
6G02 E46G04 G46G05 H46G06 I4
3G21 B143G22 B123G24 C133G25 C143G26 C123G27 H83G28-1 D133G28-3 E133G28-4 D123G29 E143G30 E133G31 E153G41 D93G42 D103G43 H83G44 H83G45 H83G49 H143G50 H143G56 I14
" XG00 ~ XG99"
O
A
6
RIGHT
3G58 J153G59 I16
2G42 G142G43 G142G44 H142G45 H142G46 I132G47 I142G48 H132G49 F42G50 I72G51 I73G00 C43G02 D43G06 G53G08 H53G10 I43G11 J43G12 J53G13 G93G14 G93G18 C9
2
7
018
L
J
YPBR / SIDE IO / S-VIDEO
3G19 C103G20 B13
FOR ITV
K
(RED)
2G24 I92G25 B122G26 B132G27 B142G28 C122G29 C132G30 C142G31 D132G32 D122G33 D122G34 E142G35 E142G36 E152G37 I92G41 F14
O
F
7
P
N
11
A
2G04 E42G06 G52G07 G52G08 H52G09 H52G10 J42G11 J62G12 A102G13 B102G14 C102G15 C82G16 C102G17 D82G18 D102G19 G82G20 G82G21 G92G22 G9
FOR
ITV
18
Y/CVBS
6
G
1G25-1 D161G25-2 A151G25-3 C151G30 H111G31 F131G32 G131G33 G131G34 H131G35 H131G36 F41G37 F21M36 G92G00 D42G01 C32G02 C42G03 D3
TO SIDE I/O
RESERVED
3
P
J
I
HEADPHONE
(YELLOW)
(WHITE)LEFT
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1G04 F31G05 G41G06 H41G07 I41G08 J41G09 J51G10 A91G11 B91G12 C91G13 C91G14 D91G15 B151G16 C151G17 E161G18 C21G20-1 G31G20-2 G31G20-3 H31G21 I21G22 A7
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
B
RES
16
H
173
D
CVBS
14
L
RIGHT
5
LEFT
13 14 15 16 17
A
B
C
D
E
F
G
H
I
FOR ITV
9
E
D
SVHS IN
4
owne
r.
M
F
1915 16
DVI AUDIO INPUT
12
18
1 2 3 4 5 6 7 8 9 10 11 12
N
1
CELL 12C : 8239_125_14871
MULTI 12NC : 3139_123_64421 / 64541 / 64561BD 12NC : 3139_123_64431 / 64551 / 64571
15
1 8
13
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
C
K
9 19
2
G
20
E
RE
S
J
K
L
A
B
C
D
E
F
G
H
I
J
K
L
1G00 C31G01 D31G02 E3
I
C
3G63
22K
RE
S
FG39
3G27
100R
IG01
FG38
FG37
4G07
RE
S
2G29
100p
FG02
470R
3G25
33R3G62-1 1 8
1G15
+3V3
BAT54
6G36
47R3G43
FG46
4 53G62-4 33R
8
9
16
17
13
14
15
2
3
4
5
6
7
1
10
11
12
FG27
1G30
1226-02B-15S-FAE-02
1G13
1G14 2G32
10p1G
05
FG28
3G49
4K7
2G45
47p
FG47
RE
S
5G02
33R
5G01
30R
FG05
100R
3G58
RE
S
45
78
CD
S4C
12G
TA
6G02
MSJ-035-10A B AG PPO1
2
3
1G21
2G48
100n
1G11
5G31
600R
6G20
RE
S
CD
S4C
12G
TA
FG11
3G21
470R
1K0
3G06
FG32
1G07
3G60
4K7
4G04
1n0
2G10
FG19
1K0
3G12
IG20
MTJ-032-37BAA-432 NI
YELLOW1G20-1 1
2
1G02
100n
2G33
1G16
33R2 7
5
1
3
4
2
3G62-2
1G37MDC-013V1-B
6G32
BA
S32
1
FG06
FG34
1G06
6G13
RE
S
CD
S4C
12G
TA
1K0
3G00
1K0
3G41
6G09
CD
S4C
12G
TA
81
RE
S
4K7
3G28
-1
100R
3G10
1G001n
02G
01
FG24
RE
S6G
35
CD
S4C
12G
TA
3G22
6K8
IG00
FG13
FG44RES
100p
2G12
4G09
RE
S
CD
S4C
12G
TA
RE
S6G
06
FG10
RE
S
CD
S4C
12G
TA
6G17
RE
S
1n0
2G08
2G09
100p
3 6 33R3G62-3
FG09
RE
S2G
27
1n0
1G17
FG41
IG05
2G16
100p
RE
S
CD
S4C
12G
TA
6G11
RE
S
FG17
CD
S4C
12G
TA
6G00
100R3G13
RE
S
8
9
101112
23
4
5
6
7
MSP-636H2-01
1G22
1
+5V
3G20
150R
FG33
47p
2G43
RE
SR
ES
2G41
47p
IG19
FG15 IG10
3G31
120R
FG45
RE
S
FG01
1n0
2G17
1K0
3G11
6G04
CD
S4C
12G
TA
FG23
RE
S
FG20
IG04
CD
S4C
12G
TA
6G05
FG07
RE
SBC847BW7G01
2G06
1n0
1G04
100p
2G19
1n0
2G15
RE
S
1n0
2G30
1G10
FG12
4K7
3G56
SUPERS.
1
NAME
DATECHECK
3139 123 6443TV543_2K9
PCB SB SSB BD
A2
2008-10-17
-- -- --
2008-12-161
03101
3
2
2009-01-16
Vincent Yap / Lee CW / Hor SL
DC343514
2009-01-16
SV
**** *** *****
ROYAL PHILIPS ELECTRONICS N.V. 20082008-10-17
14
3PC332
25
********SETNAMECHN
CLASS_NO
1
2G35
22p
RE
S
FG31
600R
5G32
IG02
3G61
100R
2G22
100p
3G14
100R
1G25-3RED
MSP-303H-BBB-132-03
5
6
1G25-2WHITE
MSP-303H-BBB-132-03
3
4
1G25-1BLACK
MSP-303H-BBB-132-03
1
2
2G47
4u7
IG03
FG00
RE
S
CD
S4C
12G
TA
6G10
6G33
BA
S32
1
47K
3G59
BA
S32
1
6G34
FG16
3G19
100K
RE
S
1n0
2G11
RE
S
CD
S4C
12G
TA
6G07
6G08
CD
S4C
12G
TA
6G37
CD
S4C
12G
TA
RE
S
3G02
RE
S
1K0
FG36
RE
S
1G34
100p
2G07
12p
2G36
FG03
2G28
1u0
7
IG32
123
6
5
84
7G31M24C02-WDW6
Φ
EEPROM(256x8)
30R
5G00
FG14
100n
2G46
1G08
IG22
1G011n
0
2G20
2G03
100p
FG04
4G05
IG16
FG35
1G35
IG13
2G24
100p
6G15
CD
S4C
12G
TA
RE
SR
ES
CD
S4C
12G
TA
6G14
IG17
IG15
BA
S32
1
6G31
100p
1G12
RE
S2G
00
MSJ-035-29D PPO (PHT)
2
13
1G18
7G00-2BC847BS(COL)
5
3
4
RE
S
CD
S4C
12G
TA
6G16
4V10
0u2G51
6G19
6G18
CD
S4C
12G
TA
RE
S
CD
S4C
12G
TA
RE
S
RE
S2G
42
47p
1G32
IG14
2G49
100p
FG29
1G09
FG18
FG43
IG21
2G13
100p
RE
S
FG08
IG12
47R3G44
1G36
7G32BC847BW
100p
2G26
FG21
RE
S
FG22
1K0
3G08
2G50
100u
4V
IG11
1G31
100n
2G34
3G18
1K0
+3V3
100K
3G42
RE
S
100p
2G14
RE
S
RE
S
47p
2G44
6K8
3G26
3G30
180R
2G25
1u0
7
8MTJ-032-37BAA-432 NI
RED1G20-3
9
3G29
47R
4K7
3G50
6
1
47R3G45
7G00-1BC847BS(COL)
2
23456789
1M36
1-1735446-1
1
1011
4G08
1G33
3G28
-3
4K7
36
2G18
RE
S
2 7
100p
4K7
3G28-2
6G01
CD
S4C
12G
TA
RE
S
100p
2G04
FG42 4G00
MTJ-032-37BAA-432 NI
WHITE1G20-2
64
5
100p
2G21
150R
3G24
100p
2G02
RE
S
RE
S6G
12
CD
S4C
12G
TA
FG25
100p
2G37
2G31
100n
IG18
FRONT-C
FRONT-Y_CVBS
CVBS-OUT-SC2
WC-EEPROM-PNX5100_SPI-DI
R-VGA
DATA-SDA
H-SYNC-VGA
V-SYNC-VGA
CLK-SCL
G-VGA
B-VGA
SPDIF-OUT
+5VDCOUT
A-PLOP
AUDIO-OUT-L
AUDIO-OUT-R
HP_ROUT
HP_LOUT
LCD-SCL
AUDIO-IN4-L
AUDIO-IN4-R
AUDIO-OUT-L
AUDIO-OUT-RAUDIO-MUTE
AUDIO-IN5-L
AUDIO-IN5-R
FRONT-C
FRONT-Y_CVBS
AUDIO-IN5-L
AUDIO-IN5-R
RC1
RC2
AV3-PR
AV3-Y
AV3-PB
AUDIO-IN3-L
AUDIO-IN3-R
SPDIF-OUT-1
18440_513_090224.eps090224
Circuit Diagrams and PWB Layouts EN 75Q543.1E LA 10.
2009-Mar-27
SSB: HDMI
COM
OUTIN
C
XTAL
01
I2C
SEL
HP_CTRL
C
RXAD0
+ D1-+ D2-
RXB
C
+- D0
+- D1
+- D2
+-
RXC
C
+- D0
+- D1
+- D2
+-
RXD
C
+- D0
+- D1
+- D2
OUT
C
+-D0
+-D1
+-D2
DDC
RXA DDC
5VCLKDATHPD
RXB DDC
5VCLKDATHPD
RXC DDC
5VCLKDATHPD
RXD DDC
CDEC
VD
DC
_1V
8 VDDH_3V3
VSS
VD
DS
_3V
3
VD
DO
_3V
3
VD
DO
_1V
8
VD
DH
_1V
8
VD
DC
_3V
3
5VCLKDATHPD
NC
DDCSTBY
CEC
TEST
+-
R12K
PD
DATCLK
MODE
+-+-
+-
OUT
IN
SCLSDA
INT
N
PN
PN
PN
PN
PN
3
4
2
PDV
0
HDMI_RX0_BDV_VALID
9
HDMI_RX1_B
8
FID
HDMI_RX2_B
7
DDC_SDA_B
HDMI_RXC_B
DDC_SDA_A
DV_VS
DDC_SCL_A
HDMI_RX0_A
HDMI_RX1_A
HDMI_RX2_A
HDMI_RXC_A
HDMI_RREF
DDC_SCL_B
5
0
CLK
HOT_PLUG_A
1
2
N
1
65
DV_YIN
HOT_PLUG_B
HS
3
78
4DV_UVIN
9
6
PN
P
K
HDMI 1HDMI 2
HORIZONTALFLAVORS 2+0 22"
18
10 11 12 13 14 15 16
RES
RES
Y
A
1413
HDMI PNS 2+1
1 9
N
12 13
HDMI CONNECTOR SIDE
HDMI6
RES
HDMI CONNECTOR 3
N
5
HDMI-ITV
4 5 6 7 8
N
18
K
VERTICAL
G
J
I
2H00 B52H01 B82H02 B62H03 D72H04 D72H05 B102H06 B9
17
9 10 111H03 F31H04 D21H05 H21H06 D51H07 D7
BD 12NC : 3139_123_64431 / 64551 / 64571
C
N
15
Y
F
87
1H00
For FLAVORS
For FLAVORS
2H18 C112H19 C11
J
19
P
4
HDMI 3
N
HDMI 2
E
B
10
VERTICAL
Y
11
2H36 B112H37 A72H38 A62H39 A72H40 A52H42 B112H43 B82H44 H112H45 H112H47 B53H01 E12
2H07 A11
L
NN
H
I
J
K
L
1H00 D31H01 H31H02 A3
J
11
I
M
16
H
3
3H20 E73H58 J103H59 J12
2H20 C12
20
L
1
" XH00 ~ XH99 "
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
htA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
parts
N
15
17
1 2 3
N
4H02-1 I24H02-2 I24H02-3 I24H02-4 H24H03-1 D24H03-2 D24H03-3 D24H03-4 D24H04-1 D24H04-2 D24H04-3 D24H04-4 D24H08 J11
3H02 E13
12 13 14 15 16 17
1 2 3
Y
ITEM NO
CELL 12C : 8239_125_14871
HDMI FRAME 3+1
owne
r.
Y
O
RES
6 7
YY
M
2
D
C
9
6H01 G127600-4 H167H01 A6
3H60 J10
HDMI CONNECTOR 1
B
Y
4 5 6 7 8 9
4
1H02N
FH17 E4FH18 E4FH19 E4FH20 E4FH21 E3FH22 B4FH23 C4FH24 C4FH25 C4FH26 C3FH27 C3FH28 I4FH29 I4FH30 I4
4H10 J10
A
B
C
D
E
F
G
H
I
RES
MULTI 12NC : 3139_123_64421 / 64541 / 64561
HDMI 11H03
N
N
D
E
O
19
N
5
FH44 G11FH46 F11FH47 H11FH48 I15FH49 E11FH50 E11IH34 J11
7H09 J11
K
L
A
B
C
D
E
F
G
HORIZONTAL
CONNECTOR
NY
N
N
VERTICAL
FH16 D4
P
FH09 G3FH15 J13
FH32 I3FH33 I3FH36 H9FH37 E8FH38 A7FH40 B11FH41 B11FH42 H11FH43 G11
F
FH31 I4
2H09 D82H10 D82H11 D82H12 D82H13 C102H14 C102H15 C112H16 C112H17 C11
14
N
10
Y
N
HDMI PNS 1+1
HORIZONTAL
12
7H10 J107H11 D8FH00 B8FH01 A11FH04 G4FH05 G4FH06 G4FH07 G4FH08 G3
Y
IH48 J11
2H21 D102H22 D112H23 D102H25 G112H26 F112H27 F112H28 G112H34 H122H35 H12
Y
HDMI CONNECTOR 2
Y
16
1H051H04
G
4H11 J104H12 J124H19 D85H00 B65H01 A105H03 B105H04 A75H06 B105H07 H11
8
RES
2
3H07 C43H08 C43H09 E43H10 E43H11 G43H12 G43H13 I43H14 I43H15 F11
20
A
HDMI SIDE
3
1H01
3 2
VDD_1V8
RESERVED
3H64 I153H65 E73H66 E73H67 H113H68 H124H01-1 H24H01-2 H24H01-3 H24H01-4 H2
FLAVORS 2+1 32"_42"
Y
17
H
LD1117DT187H01
1
2H00
DRX-5V
470n
2H47
100n
47K
3H09
22232425
26
23456789
2021
1
10111213141516171819
DC1R019WBER220
1H01
100n
2H34
2H42
1u0
47K
3H12
3H65 100R
FH50FH21
22K
3H60
30R
5H04
100n
100n
2H13
2H12
FH33
ARX-5V
CRX-5V
100n
2H22
3H07
47K
100n2H26
FH36
5H03
30R
100n
FH29
2H14
FH38
2 7
100n
2H38
4H04-2
100n
VDDH_3V3
VDDS_3V3
2H27
4H04-44 5
1 8
+3V3
4H02-1
FH49
CRX-5V
4H02-44 5
+3V3
4H19
BSH1117H09
3
1
2
BRX-5V
2H10
100n
FH47
100n2H28
3H01
1K8
3H58 100R
VDDH_3V3
1K8
3H02
1u0
2H36
242526
ARX-5V
3456789
20212223
1213141516171819
2
DC1R019WBER220
1H02
1
1011
FH24
1K0RES 3H20
BC847BW7H10
3H14
47K
+3V3-STANDBY
+3V3
100n
2H03
3H59 100R
5H01
30R
FH25
FH26
FH01
FH19
VDDS_3V3
FH22FH23
130
FH31
25
********SETNAMECHN
CLASS_NO
1
SUPERS.
1
NAME
DATECHECK
3139 123 6443TV543_2K9
PCB SB SSB BD
A2
2008-10-17
-- -- --
2008-12-161
10
23
3
2
2009-01-16
Dave Tan YH
DC343514
2009-01-16
SV
**** *** *****
ROYAL PHILIPS ELECTRONICS N.V. 20082008-10-17
15
3PC332
3456789
202122
10111213141516171819
2
DC1R019JBAR190
1H03
1
232425
26
2H25 100n
23456789
202122
10111213141516171819
DC1R019WBER220
1H001
4H08
4H12
100n
2H11
FH32
FH28
CRX-5V
3H68
4R7
4H10
2H35
100n
BRX-5V
FH27
FH43
4H03-11 8
470n
2H06
4H04-33 6
5H06
30R
FH07
1n0
2H44
2H19
100n
2H09
100n
2H01
1u0
18 26 37 43 56 67 73
51
52
82 8895 4 55
1 85 92 987
45 91 4624 75 15 21 34 40 64 70
869089
8180
797876
27
8
69687271
616058
77
848387
4241
313028
5963626665
221211
9
29
333236353938
6
48
74
10
14131716201923
25
23
99100
96979394
5
Φ
4454
57
5049
53
47
ARX-5V
TDA99967H11
2H21
100n
16V
22u2H
02
4H11
2H20
FH40
100n
3 6
FH46
4H02-3
VDD_1V8
100n
2H23
BAT54 COLRES
FH44
6H01
2H43
22u
VDDO_3V3
4H01-11 8
+1V8-PNX85XX
47K
3H13
VDDO_3V3
100n
2H04
B11
B16
B12
A18
A14
A19
A15
D19E15 C6
C16
B17
B13
B18
B14
A16
A12
A17
A13
B15
A8E9
B4A4E5D5C5B5A5E6D6
B6A6E7D7C7B7A7E8D8C8
7600-4PNX85439E
C18
C15
E19
D15
B8C9D9
HDMI_DV
3H15 12K 1%
BRX-5V
2H17
100n
9
20212223
FH16
16171819
2345678
1
101112131415
DC1R019JBAR190
1H04
47K
3H08
212223
1819
23456789
20
DC1R019JBAR190
1
1011121314151617
1H05
4H03-22 7
FH08
4 5
FH18
1H07
502382-0370
123
DRX-5V
10u
2H40
3 6
FH06
4 5
4H01-3
4H01-4
33R
5H07
100n
2H18
4H02-22 7
IH48
FH05FH04
5H00
30R
2H37
10u
DRX-5V
2526 2728 29
3456789
22 2324
13141516171819
2
2021
1H06
FI-RE21S-VF-R1300
1
101112
3H66
100R
2H05
220u
4H03-44 5
25V
RREF-PNX85XX 3H64 FH48
2H16
1%12K
100n
2H15
FH42
100n
FH41
3H11
47K
100n
2H45
1u0
+5V
2H07
3H10
47KFH20
3H67
100K
4H04-11 8
RE
S
VDDH_3V3
FH15
FH30
FH00
FH37
+5V
2 74H01-2
FH09
22u
2H39
IH34
FH17
4H03-33 6
ARX2-ARX1+
ARX1-ARX0+
ARX0-
CEC-HDMI
BRX2-
BRX1-
BRX0-
BRXC-CEC
BRX-HPDBRX-5V
BRX-DDC-DATBRX-DDC-CLK
BRXC+
CRX2+
CRX2-
CRXC-
CRXC+CRX0-
CRX0+CRX1-
CRX1+
CRX-DDC-CLKCRX-DDC-DAT
CRX-HPD
CEC
ARX2+
ARXC+
ARXC-CEC
ARX-DDC-CLKARX-DDC-DAT
ARX-HPD
BRX1+
BRX0+
CEC
BRX2+
DRX-DDC-CLKDRX-DDC-DAT
CRX-DDC-CLKCRX-DDC-DAT
CRX-HPD
DRX-DDC-CLKDRX-DDC-DAT
DRX-HPD
SDA-SSBSCL-SSB
DDC-SCLDDC-SDA
DDC-SDADDC-SCL
CEC
DRX0+DRX1-
DRX1+
CEC
RX2-RX2+
RX1-RX1+
RX0-RX0+
RXC-RXC+
DDC-SCLDDC-SDA
BRX-DDC-CLKBRX-DDC-DAT
BRX-HPD
DRX-HPD
ARX-DDC-CLKARX-DDC-DAT
ARX-HPD
BRX-DDC-CLKBRX-DDC-DAT
BRX-HPD
DRXC-DRXC+
BRX2+
BRX2-
BRXC-
BRX1+
BRX1-BRX0+
BRX0-BRXC+
CEC
DRX2+
DRX2-
DRXC-
DRXC+DRX0-
CRX1-CRX1+
CRX2-CRX2+
CRXC-CRXC+
DRX0-DRX0+
DRX1-DRX1+
DRX2-DRX2+
RX1-RX1+
RX2-RX2+
RXC-RXC+
CRX0-CRX0+
ARX0-ARX0+
ARX1-ARX1+
ARX2-ARX2+
ARXC-ARXC+
RX0-RX0+
BRX0-BRX0+
BRX1-BRX1+
BRX2-BRX2+
BRXC-BRXC+
Remark for service:
Replacing the TDA 9996Requires reprogrammingof its I2C address from 0xC0 to 0xCE
I2C Address = 0xCE
18440_514_090224.eps090303
EN 76Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: Ethernet
C
VSS
10
C1
REGE
INTA
PCICLK
PMEM
TPRDM
X1
MWR
MRD
12
COL
CRS
0
3
0
EEDO
1
RXDV
AD<0:31>
32
LED100LNK
RXOE
TXE
3
PCIVDD
TXD
LED10LNK
GNT
DEVSEL
TPRDP
CLKRUN
PWRGOOD
3VAUX
IAUXVDD
RXD
TXCLK
RESERVED
MDC
VREF
X2
TPTDM
TPTDP
MDIO
RXCLK
EESEL
MCS
IDSEL
2
MA5
0
LEDACT
AUXVDD
MD<0:7>
EECLK
RXER
FRAME
SERR
0
STOP
RST
REQ
PAR
IRDY
TRDY
PERR
EEDI
7
MA<0:15>
CFGDIS
DATA
BECMD/
31
11 12 13
18
C
4
owne
r.
G
18
6
2
1553
O
J
15
N
D
6N00 F86N01 F87N04-1 B37N04-2 H7IN01 C3IN05 B10IN06 B10IN07 B10IN08 B10IN09 C11IN0A F9IN0B F9IN0C E3IN0K E7IN0M C7IN0N H3IN0P A9IN0T C8IN0V C8IN0W F7IN0Y F7IN0Z F7IN10 F8IN15 B10IN16 B10IN17 C11IN18 D11IN19 D1
10 16
ETHERNET CONNECTOR
G
N
O
2N1C H33N0F C73N0G D33N0H C73N0J F83N0K F93N0L-1 A83N0L-2 A93N0L-3 A83N0L-4 A83N0N-1 A93N0N-2 A93N0N-3 A93N0N-4 A93N0T-1 C93N0T-2 C93N0T-3 C9
CELL 12C : 8239_125_14871
MULTI 12NC : 3139_123_64421 / 64541 / 64561
3N0T-4 C93N0V C83N0W E83N0Y E1
13
5N06 C105N07 D10
2N0L D82N0M E32N0N H42N0P D112N0Q D102N0R B92N0S C82N0T B102N0U B92N0V E102N0W E112N0Y D132N0Z D132N10 D122N11 D122N12 D122N13 D122N14 D122N15 D112N16 D112N17 D112N1B H3
H
C
A
BD 12NC : 3139_123_64431 / 64551 / 64571
P
1 2 3 4 5 6 7 8 9 10 11 12 13
A
B
C
D
E
F
K
16
2N0K D8
7 14
2 3 4 5 6 7 8 9 10 11 12 133
M
L
A
12
L
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
K
I
7 17
2021 11
E
20
H
17
61
19
B
1
B
54
M
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
htETHERNET
10
G
H
I
A
B
C
D
E
F
G
H
I
1N00 B111N02 D8
F
E
8 9
8
D
F
1 8
19
P
9
I
14
100n
33R
3N0N-11 8
2N0R
3N0L-1
22R
+3V3-ET-DIG
IN10
+3V3-ET-ANA
+3V3-ET-ANA
IN0Z
2N11
100n
100n
2N10
100n
2N0Z
2N0Y
100n
100n2N0U 2N0T
100n
3139 123 6443TV543_2K9
PCB SB SSB BD
A2
2008-10-17
-- -- --
2008-12-161
03101
3
2
2009-01-16
Dave Tan YH
DC343514
2009-01-16
SV
**** *** *****
ROYAL PHILIPS ELECTRONICS N.V. 20082008-10-17
16
3PC332
25
********SETNAMECHN
CLASS_NO
1
SUPERS.
1
NAME
DATECHECK
100n
2N0S
3N0T
-2
100R
27
2N1B
10u
IN07
IN05IN06
33R
3N0N-44 5
33R
3 6
7 2
3N0N-3
3 6
3N0N-2
33R
4 5
22R
3N0L-3
3N0L-4
22R
RES
BAS316
6N01
RES
BAS316
6N00
220R
3N0K
+3V3-ET-ANA
RES
3N0H
IN0T
10K
IN0P
100n
2N16
22p
2N0L
22p
2N0K
IN0C
IN0A
IN08
IN09
IN17
7 2
8
3N0L-2
22R
3N0T
-1
100R
1
3N0JRES
270R
1K0
3N0W
10K
3N0Y
567813 14
1N00
1840420-1
1234
+3V3-ET-ANA
+3V3-ET-DIG
100R
3N0G
3N0F
470R
2N17
100n
2N14
100n
2N13
100n
100n
2N15
IN0Y
IN0W
1M0
3N0V
IN16
IN15
IN0M
IN19
220R
5N06
IN18
2N0Q
12
100n 6.
3V4u
72N0P
100R
3N0T
-36
3
54
+3V3-ET-DIG
3N0T
-4
100R
2N0N
100n
1u0
16V
10u2N
1C
IN0B
2N0M
20 26 32 35 38 44 49
17
18
52 55 57 65 77 90 103
114
136
16
96
45
46
53
54
93
31
30
40
8 51
123
48
64
41
50
127
62
6
13
98
130
131
99
60
69 80 94 107
117
97
59
129
132133134135138139140141
5
4
25
143144
1237
101112
39 47
76
61
92
142
1415222324
28
29
1111008975
95
128
91
63
112110109
9 21 27 33 56 58 137
19
72717068
118
6766
116115113
878683
119
828179787473
122
121120
10810610510410210188
MacPhyter II10/100 Mb/s
DP83816AVNG7N04-1
IN01
1N02
25M
IN0V
2N0W
100n
12
4u72N
0V
220R
5N07+3V3
IN0N
NC9
+3V3
36 NC237 NC342 NC443 NC5
84NC6 85NC7 124NC8 125
7N04-2DP83816AVNG
34 NC1
126NC10
IN0K
2N12
100n
RESET-ETHERNET
PCI-AD27PCI-AD28PCI-AD29PCI-AD30PCI-AD31
PCI-AD23
PCI-AD14PCI-AD13
PCI-AD15PCI-AD16PCI-AD17PCI-AD18PCI-AD19PCI-AD20PCI-AD21PCI-AD22PCI-AD23PCI-AD24PCI-AD25PCI-AD26
PCI-TRDY
PCI-AD0PCI-AD1PCI-AD2PCI-AD3PCI-AD4PCI-AD5PCI-AD6PCI-AD7PCI-AD8PCI-AD9PCI-AD10PCI-AD11PCI-AD12
PCI-PAR
PCI-CLK-ETHERNET
PCI-PERR
PCI-REQ
RESET-ETHERNET
PCI-SERR
PCI-STOP
PCI-CBE0PCI-CBE1PCI-CBE2PCI-CBE3
PCI-DEVSEL
PCI-FRAME
PCI-GNT
IRQ-PCI
PCI-IRDY
18440_515_090224.eps090224
Circuit Diagrams and PWB Layouts EN 77Q543.1E LA 10.
2009-Mar-27
SSB: PCMCIA
G3
12
3EN23EN1
G3
12
3EN23EN1
G3
12
3EN23EN1
C
G3
12
3EN23EN1
G3
12
3EN23EN1
G3
12
3EN23EN1
+T
K
17
IK46 D11IK47 H11
G
1813
P
3
MULTI 12NC : 3139_123_64421 / 64541 / 64561BD 12NC : 3139_123_64431 / 64551 / 64571
IK07 D5IK08 D5IK09 D5IK10 D5IK11 D5IK12 D5IK13 E5IK14 E5IK15 E5IK16 E5IK17 D3IK18 A9IK41 B11IK45 B11
PCMCIA
M
1
O
19
F
4 12
7K02 C127K03 A127K04 A87K05 C8FK00 G3FK02 D3FK04 F4IK00 C5IK01 C5IK02 C5IK03 C5IK04 C5IK05 C5IK06 C5
11 16
20
" XK00 ~ XK99 "
19
H
L
16
B
CELL 12C : 8239_125_14871
6
A
3K24-4 C93K25-3 C93K25-4 C93K26 B93K27 D83K28 D53K29 A73K30 B75K00 A97K00 F127K01 H12
14
17
D
A
CABLE CARD INTERFACE
II
(POD IS THE EQUIVALENT OF COMMON INTERFACE)
3K14 E83K15 C113K16 D33K17 E83K18 H113K19 F43K20 E113K21 G113K22 C113K23-1 B93K23-2 B93K23-3 A93K23-4 A93K24-1 C93K24-2 C93K24-3 C9
159
L
3
H
N
10
3K07 C53K08 D53K09 D53K10-1 D53K10-2 D53K10-3 D53K11-1 E53K11-2 E53K11-3 E53K11-4 E53K12-1 D83K12-2 D83K12-3 E83K12-4 E83K13-1 D83K13-2 D83K13-3 D83K13-4 D8
65
8
112 14
G
F
E
205 9
2K07 A92K08 A72K09 B73K00 B13K01 C53K02 C53K03 C53K04 C53K05 C53K06 C5
102
1
3 4 5 6 7
M
15
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
POD : SUPPLY / CONTROL
7
8 9 10 11 12 13
A
B
C
D
E
C
E
J
2K02 A102K03 E122K04 G122K05 C122K06 A13
18
J
D
RESERVED
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
4 12
N
1 2 3 4 5 6 7 8 9 10 11 12 13
1 2
2 7
O
owne
r.
C
7 8
B
13
P
K
F
G
H
A
B
C
D
E
F
G
H
1K00-A B21K00-B D22K00 B12K01 E10
47R3K24-23K24-1 47R1 8
3 63K25-3 47R
3K26 1 2
3K23-2 2 7
47R3K23-1 1 8
47R3 6
47R
3K23-3 47R
IK15
3K21
10K
+3V3
10K
6
3K28
3K13-3 47R3
19
20
18
17161514131211
1
10
2
3456789
4 5
74LVC245A7K05
63K24-4 47R3K24-3 47R3
3K25-4 47R4 5
47R3K12-1 1 8
4 5
10
19
20
47R3K13-4
18
17161514131211
1
2
3456789
7K0474LVC245A
100n
2K09
3K15
10K
100n
2K08
10K3K09
1514131211
1
10
19
20
2
3456789
18
1716
74LVC245A7K03
3K23-4 47R4 5
+3V3
2K04
100n
27
10K
3K22
3K11-2 10K
2K06
100n
IK06
47R1 23K27
2
IK04
3K17 47R1
47R3K13-2 2 7
100n
2K03
10K3K01
FK00
IK10
IK09
17
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Li LingHuan
2009-01-16
2
3
IK03
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
PCMCIA-VCC-VPP
13010
4 5 47R3K12-4
3K19
100K
PCMCIA-VCC-VPP
10u
2K01
IK47
FK04
IK07
3K18
10K
47R2 73K12-2
36
1 8
10K3K11-3
3K13-1 47R
IK16
FK02
IK08
3K07 10K
IK01
18 VPP1
15 WE|P
WP|IOIS1633
6 D7
1 GND1
GND23469 70
9 OE
16 RDY|BSY
17 VCC1
CE1
30 D0
31 D1
32 D2
2 D3
3 D4
4 D5
5 D6
A226 A325 A424 A523 A622 A7
12 A811 A9
7
28 A1
8 A10
10 A11
21 A12
13 A13
14 A14
20 A1519 A16
27
1K00-AROW_A
MPC-01 PBT
29 A0
+5V
453K11-4 10K
+3V3_BUF
2K05
100n
IK45
+3V3
IK41
PCMCIA-VCC-VPP
IK02
3K04 10K
PCMCIA-VCC-VPP
10u
2K02
PCMCIA-VCC-VPP
10K
3K02 10K
3K08
10K
3K20
10K
3K16
IK46
2K00
22u
IK17
IK05
363K10-3 10K
+3V3_BUF
1810K3K11-1
IK00
161514131211
1
10
19
20
2
3456789
18
17
74LVC245A7K01
+3V3_BUF
3K00
0R4
27IK11
10K3K10-2
131211
1
10
19
20
456789
18
17161514
74LVC245A7K00
2
3
3 6 47R3K12-3
1514131211
1
10
19
20
3456789
18
1716
74LVC245A7K02
2
IK14
10K3K03
IK12
+3V3_BUF
10K
3K22
3K22
10K
VS257
WAIT59
IORD44 IOWR45
71 72
REG61
RESET58
VCC251 VPP252
VS143
39 D1440 D1541
D864 D965
GND335
GND468
INPACK60
BVD2|SPKR62
CD136
CD267
CE242
D1066
D1137 D1238 D13
A1948 A2049 A2150
A225354 A23
A2455 A2556
BVD1|STSCHG63
MPC-01 PBT
ROW_B1K00-B
A1746 A1847
10K3K06
3K05 10K
IK13
IK18
47R3K14 1 2
10u
2K07
+3V3_BUF
5K00
33R
3K10-1 10K18
CA-MDO(3)
CA-MDO(7)
CA-MOCLK_VS2
CA-MDO(0)
CA-MDO(2)CA-MDO(1)
CA-MOVAL
CA-MDO(3)
CA-MOSTRT
CA-MOSTRT
CA-MOVAL
CA-MOCLK_VS2
MDO7
MOCLKA
MDO0
MDO2MDO1
MOVALA
MOSTRTA
CA-MDO(7)
CA-MDO(5)CA-MDO(6)
CA-MDO(4)
CA-MDO(5)CA-MDO(6)
CA-MDO(2)MDO2
CA-MDO(0:7)
MDO3
MDO3
MDO4
MDO6MDO5
PCMCIA-A9
PCMCIA-A14
PCMCIA-A1PCMCIA-A0
PCMCIA-A3PCMCIA-A2
PCMCIA-A4PCMCIA-A5PCMCIA-A6
PCMCIA-A7
CA-MDO(0)
CA-MDO(1)
CA-MDO(4)
PCI-AD12PCI-AD11
PCI-AD9
PCI-AD0PCI-AD1PCI-AD2PCI-AD3
PCMCIA-A10PCMCIA-A11
PCMCIA-A13PCMCIA-A12
PCMCIA-A8
CA-REG
PCI-AD18
CA-ADDEN
PCI-AD7
PCI-AD6PCI-AD5PCI-AD4
PCI-AD14
PCI-AD13
CA-ADDEN
PCI-AD10
PCI-AD8
CA-DATADIR
CA-WAIT
PCI-CBE2PCI-CBE1
PCI-AD16PCI-AD17
PCI-AD23
PCI-AD19PCI-AD22
CA-ADDEN
CA-CE1CA-CE2CA-OECA-WE
CA-IOWRCA-IORD
CA-RST
PCMCIA-D3
PCMCIA-D7
PCMCIA-D5PCMCIA-D6
PCMCIA-D4
PCMCIA-D0
PCMCIA-D1
PCMCIA-D2
CA-DATAEN
PCI-AD29PCI-AD30PCI-AD31PCI-AD24
MOCLKA
MOSTRTA
MOVALA
MDO0
MDO1
MDO4MDO5MDO6MDO7
PCI-AD26
PCI-AD25PCI-AD27PCI-AD28
CA-INPACK
MOCLKA
CA-CD1
IRQ-CA
CA-WAIT
PCMCIA-D3PCMCIA-D4PCMCIA-D5PCMCIA-D6PCMCIA-D7
PCMCIA-A10
PCMCIA-A11
PCMCIA-A13
PCMCIA-A12
PCMCIA-A3PCMCIA-A2PCMCIA-A1PCMCIA-A0PCMCIA-D0PCMCIA-D1PCMCIA-D2
CA-MISTRT
PCMCIA-A4
PCMCIA-A8PCMCIA-A9
CA-IOWR
MOCLKA
PCMCIA-A14
CA-CD2
CA-CE1
CA-OE
CA-WEIRQ-CA
CA-MIVALCA-MICLK
PCMCIA-A7PCMCIA-A6PCMCIA-A5
MOSTRTA
MOVALA
MDO0
MDO1
MDO2
MDO3
MDO4
MDO5
MDO6
MDO7
CA-INPACK
CA-VS1
CA-CD2
CA-CD1MDO3MDO4MDO5MDO6MDO7
CA-CE2CA-VS1
CA-IORD
CA-MDI0CA-MDI1CA-MDI2CA-MDI3
CA-MDI4CA-MDI5CA-MDI6CA-MDI7
CA-RSTCA-WAIT
CA-REGMOVALA
MOSTRTAMDO0MDO1MDO2
18440_516_090224.eps090224
EN 78Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: Class-D
VIA VIA
VIA
VIA
VCLAMP
MUTE
IN
BSL
SD
R
AVCC
L
BSR
GND_HS
L
PGNDAGND L R
L
OUT
R
BYPASS
1
R
0
PVCC
GAIN
C
6 7 8
1735 E8
2L08 B42L09 C42L10 B4
1L51 E71L52 F71L53 E41L54 F42L01 D32L02 E22L05 B22L06 B2
B
9
0R
G
D
4 73
2 3 4
F
6 7 8
1 2 3 4 5
A
B
C
D
2L11 C62L12 B62L13 F72L14 E72L16 C22L17 C22L19 B4
1L50 E7
TO SUBWOOFER
F
G
1
C
8
H
2L07 A4
7
A
2L20 A42L21 D62L22 B62L23 C22L24 B22L25 E72L26 B62L27 D62L28 B22L29 C22L33 F42L35 F4
5
NOT FOR FLAVORS 22"
F
12
E
IL41 D2
10
10
NOT FOR FLAVORS 22"
H
CLASS-D
55
9
B
13
3L06-4 D13L09 A13L10-1 D63L10-2 D53L10-3 D53L10-4 D53L11-1 F63L11-2 F63L11-3 E63L11-4 E63L14-1 B63L14-2 B5
E
F
A
B
C
D
1736 E5
I
2
J
FOR FLAVORS 22"
11
4L03 B25L01 C55L02 B55L04 C65L05 B65L07 A35L08 A35L09 E75L10 F47L03-1 A27L03-2 D37L10-1 B3
2L36 E42L37 C22L38 D23L03 D33L06-1 D23L06-2 D2
14
CELL 12C : 8239_125_14871
MULTI 12NC : 3139_123_64421 / 64541 / 64561BD 12NC : 3139_123_64431 / 64551 / 64571
11
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
J
122
3
FL05 E8FL06 E8FL07 E8FL08 A4FL09 B4FL14 A2FL15 B2FL16 C2FL17 C2FL18 C2FL19 C2FL20 C2
3L14-3 B53L14-4 B53L16 B23L17 D13L18 C24L01 C1
E
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
IL05 C5IL06 B5IL07 C6IL08 B6IL09 C4IL10 B4
4L02 C2
"XL00-XL99"
D
owne
r.
86
TO SPEAKERS
6
1
IL12 B2IL16 C1IL31 C4IL32 B4
FL03 D2
7L10-2 D4CL10 D3CL11 C1
CL12 D3FL01 E5FL02 F5
3L06-3 E1
C
IL36 B1
IL11 B1
A
13
I
E
18
IL31
1K5
3L11
-1
1L50
FL05
1L51
7
2L27
220n
3L10
-215
K2
CL10
IL32
GNDSND
CL11
5
3
4BC847BS(COL)7L03-2 3L03
100R3 10 12
615
2
11
2n2
2L13
25
522
4
23 24 13 14
1
8 919 20
21
16
7
1817
AUDIO AMP
ΦCLASS-D
TPA3123D2PWP7L10-1
2L36
10n
FL08
CL12
45
GNDSND
3L10
-415
K
220n
2L19
220n
2L21
5L05
220R
29
30 31 32 33
34
26
353637
383940
2728 VIA
TPA3123D2PWP7L10-2
1u02L24
35V
220u2L
08
AUD_GND
25V 470u
2L11
2L12
470u25V
30R
5L07
220R
5L04
2n2
2L33
RE
S
220R5L10
18
FL17
4L01
15K
3L10
-1
GNDSND
DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
18
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Hor Siew Lee
2009-01-16
2
3
13010
1 2008-12-16
-- -- --
2008-10-17
A3
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK
4
1L53
1K5
3L11
-45
220n
2L26
3L09+AUDIO-POWER
IL11
4R7
15K
18
3L14
-1
2L05
10u
35V
RE
S
GNDSND
IL07
4L03
3L16
22K
2L01
GNDSND
10n
FL06
10n
2L25
1L52
GNDSND
FL02
FL01
FL03
27
IL09
63
3L11
-21K
53L
11-3
1K5
3L06-3
100K
6 3
AUD_GND
45
GNDSND
3L06-4
100K
FL15
2L22
220n
22u
5L02
2L14
2n2
1u0
3L06-22 7
2L23
100K
10n
2L35
GNDSND
1L54
GNDSND
220R
5L09
2L16
FL14
1u0
2L29 100p
100p2L28
IL08
IL05
FL19
IL41
5L01
22u
2L20
220u
35V
+AUDIO-POWER
GNDSND
IL12
GNDSND
FL18
GNDSND
10u
2L02
FL20
220n
2L06
36
5L08
30R
15K
3L10
-3
GNDSND FL07
2L09 220n
220nIL36
2L10
2
6 1
GNDSND
BC847BS(COL)7L03-1
IL16
RE
S
GNDSND
GNDSND
GNDSND
1u0
2L38
2L37
1u0
RE
S3L18
FL16
15K
3L14
-22
7
IL10
36
3L14
-315
K
15K
3L14
-44
5
4L02
1735
1735446-4
1234
220n
2L07
1 8
2L17 1u0
3L06-1
100K
3L17
4K7
IL06
GNDSND
23
GNDSND
GNDSND
1735446-3
1736
1
FL09
A-STBY
RIGHT-SPEAKER
LEFT-SPEAKER
MUTE
LEFT-SPEAKER
LEFT-SPEAKER
LEFT-SPEAKER
RIGHT-SPEAKER
RIGHT-SPEAKER
RIGHT-SPEAKER
MUTE
ADAC(1)
ADAC(2)
AUDIO-MUTE
A-STBY
18440_517_090224.eps090224
Circuit Diagrams and PWB Layouts EN 79Q543.1E LA 10.
2009-Mar-27
SSB: Display Interface (Common)
C
" XP00 ~ XP99 "
C
D
owne
r.
H
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
8 9
RESERVED
G
9
E
1110
2P82 B12P88 C2
3P36 D43P37 D54P26 A14P28 B1
E
F
76
RESERVED FOR +5V TCON
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
432
D
A
1211
DISPLAY INTERFACE (COMMON)
C
FROM
7
1
I
12
1
B
7P08-2 C4FP84 A1FP99 A2
FROM
A
13
13
018
C
D
E
A
B
C
D
E
7 8 9
1 2 3
4P29 B14P30 B14P31 B14P38 D8
G
F
IP19 C3IP20 D2
J
2
65
BD 12NC : 3139_123_64431 / 64551 / 64571
B
H
3P30 C33P31 C43P32 C23P33 C33P34 D33P35 C4
4 5 6 7
IP10 C9IP11 D9IP12 D8IP16 C4IP17 C4IP18 C3
J
8 9
A
B
TO
1 2 3 4 5 6
IP12
4P39 B14P40 D47P05 C97P06 D87P07 C37P08-1 C5
3
I
4 5
CELL 12C : 8239_125_14871
MULTI 12NC : 3139_123_64421 / 64541 / 64561
2P89 D33P17 C83P18 C93P29 C3
IP18IP17
25
3PC332
19
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Vincent Yap / Lee CW
2009-01-16
2
3
13010
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
IP16
4P38RES
4P40RES
+12VD
IP11
3P31
12K
RE
S3P
33
470p
2P88 2K2
FP84+5V
4P30
+12VD
3P30
27K
FP85
4P39
+VDISP-IN
22u
2P82
220R
4K7
3P17
3P18
1K0
3P37
3P35
47K
3P29
10K
RE
S
IP19
IP20
1u0
2P89
15K
3P36
7P06BC847BW
7P05BC847BW
BC847BPN(COL)7P08-25
3
4 BC847BPN(COL)7P08-12
6
1
IP10
7P07
1K0
RES
BC847BW
3P34
3P32
4K7
+3V3
+3V34P31
4P26
4P28
BACKLIGHT-OUT
4P29
BACKLIGHT-BOOST-IN
BACKLIGHT-IN
BACKLIGHT-BOOST
18440_518_090224.eps090224
EN 80Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: Display Supply
C
FP69 D13FP70 D13FP71 D13
FP72 D13FP73 E13FP74 E13FP75 E13FP76 E13FP77 E13FP78 E13FP79 E13
FP80 E13FP81 E15FP83 E4FP85 B10FP86 C14FP87 F14FP88 E10FP89 E10
FP48 E9FP49 E9FP50 E9FP51 E9FP52 E9FP53 E9FP54 E9FP55 B14
FP56 B14FP57 C13FP58 C13FP59 C13FP60 C13FP61 C13FP62 C13FP63 D13
FP64 D13FP65 D13FP66 D13
TXD-
4
F
17
G
5
RES FOR DEVT PURPOSE
FP67 D13FP68 D13FP28 A4
FP29 B9FP30 B10FP31 C9
FP32 C9FP33 C9FP34 C9FP35 C9FP36 D9FP37 D9FP38 D9FP39 D9
FP40 D9FP41 D9FP42 D9FP43 D9FP44 D9FP45 D9FP46 E9FP47 E9
1_TXD-
1_TXCLK+1_TXCLK-
1_TXC+
2_TXCLK+
2_TXD-
1_TXC-
FOR /32
D
7P11 F1FP01 B1FP02 D1FP15 C4
FP16 C4FP17 C4FP18 C4FP19 D4FP20 D4FP21 D4FP22 D4FP23 D4
FP24 D4FP25 D4FP26 D4FP27 A4
1_TXA+1_TXA-
H
CELL 12NC : 8239_125_14781
1_TXE-1_TXD+
I
20
1_TXB+1_TXB-
FOR /82
SIN
GLE
LVD
S
2_TXE+2_TXE-2_TXD+
4P35 H84P36 A44P37 E4
5P01 A25P02 A25P05 B95P06 B95P07 E145P08 F146P01 F46P02 G2
7P01 F27P02 F37P03 G47P04 F1
8 15
NC
4
4P06 C24P07 C24P08 C24P09 B24P10 B24P11 B44P12 B4
4P13 B44P14 B44P15 C104P16 C104P17 C104P18 C104P19 B154P20 C15
4P22 C154P23 C154P24 C154P25 F154P34 G8
2_TXCLK-
A
J
FOR /82
FOR /32
BD 12NC : 3139_123_64431
A
12
3P10 F23P12 H43P13 F43P14 H23P15 H23P16 H73P20 E9
3P21 E93P24 H73P25 G33P26 H74P01 D24P02 D24P03 B24P04 C2
4P05 C2
2_TXC+
RES
BDISPLAY INTERFACE
VDISP-SWITCH
11
K
12
N
2_TXA-2_TXA+2_TXB-2_TXB+2_TXC-
2P90 D102P91 B42P92 D152P93 E102P94 C42P95 F3
3000 H73P01 A43P02 A43P07 B133P08 B133P09-1 F33P09-2 F23P09-3 H5
3P09-4 H4
Round screw hole of 4.5mm
E
O
L
K
P
2P67 D122P68 E12
2P69 E122P70 E122P71 E122P72 F122P73 F122P74 F122P75 F122P76 G12
2P77 G122P78 B142P79 B142P80 B142P81 F142P83 F42P84 F22P85 H4
2P86 F102P87 F10
85
M
J
15
" XP00 ~ XP99 "Common Test-Jig
1_TXE+
16
1
M
2P50 F82P51 G82P52 G8
2P53 C92P54 A122P55 A122P56 A122P57 B122P58 B122P59 B122P60 B12
2P61 B122P62 C122P63 C122P64 C122P65 C12
MULTI 12NC : 3139_123_64421
9 10
N
3 19
2P66 D12
TO
FOR /32 HD
FOR /82
14
2P35 B82P36 C8
2P37 C82P38 C82P39 C82P40 D82P41 D82P42 D82P43 E82P44 E8
2P45 E82P46 E82P47 F82P48 F82P49 F8
2
IF 1G51 NOT USED
6
O
TXCLK-
FOR /32
EMC SPRING
6
10 11 12 13 14 15
A
B
C
D
E
F
G
H
A
B
C
D
E
F
19
F
2
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
htow
ner.
FOR /32 FHDC
RES
P
16
1
14
I
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or i
n pa
rts
8 9 10 11 12 13 14 15
1 2 3 4 5 6 7 8
RES
20
18
18
FOR /32
H
RES
9
9
11
TXC-
TXC+
13
RES
FOR /82
TXD+
TXA-
NC
13
1 2 3 4 5 6 7B
L
TO DISPLAY
TXA+
C
G
TXB-
TXB+
7
D
TXCLK+
FROM
7
3 10
TO DISPLAY
E
G
H
1G50 B101G51 B151G52 A31R50 B12P01 B12P02 E42P03 B42P04 B4
2P29 A82P30 A82P31 B82P32 B82P33 B82P34 B8
17
NC
4p7RES
NC
2P55
FPD32P
8710
pR
ES
FJ99
6P02
BZX384-C5V6
4P08
FP80
2P95
RES
RE
S
25V
220u
2P90 10n
FV13
3P21 100RRES
FP71
4P11
FPC7
4p7
FPD6
4p7
2P40RES
2P50RES
10n2P94 RES
RE
S
4p7RES
10p
2P79
2P63
FPF8
FPE6
RES 4P24
FY04
FT06FT07
DATE
NAME
1
SUPERS.
1
CLASS_NO
********EMANTESNHC
25
3PC332
20
2008-10-17 ROYAL PHILIPS ELECTRONICS N.V. 2008
**** *** *****
SV
2009-01-16
DC343514
Vincent Yap / Lee CW
2009-01-16
2
3
13010
1 2008-12-16
-- -- --
2008-10-17
A2
PCB SB SSB BD
TV543_2K9 3139 123 6443
CHECK
10n2P92RES
585960
FPF2
789
52
61
5354555657
444546474849
5
5051
6
343536373839
4
40414243
2526272829
3
30313233
1516171819
2
2021222324
FI-RE51S-HF1G52
1
1011121314
FPD2
4p72P71
4p7
RES
RES2P49
2P48RES4p7
FP27
RES2P46 4p7
FV11FV12
FT02
FP37
FT01
4P19
FPD9
FPE1
FPD5
FJA3
FU11
FJA2
4546 4748 4950
4041
56789
42
51
4344
313233343536373839
4
212223242526272829
3
30
111213141516171819
2
20
1G50FI-RE41S-HF
1
10
+VDISP-OUT
FPG1
FP76
FY05
FP86
FP67
RES4p72P76
RES4p72P77
FP79
+VDISP-OUT_A
16V
10u2P
83
10p
RE
S
FP54
2P78
FT03FT04
2P70 4p7RES
FP66
3P08 100RRES
FP43
RES 4P20
FJA1
10n
2P85
FP49
FP81
4P37
FPC6
RES
RES
FP754p72P44
FP02
FP23
FP25
4p7RES
2P29
RES4p72P38
33R
33R
5P08
5P07
RES4p72P34
FPF0
FPC4
FP58
2K2
3P13
1X01REF EMC HOLE
4p7RES
2P60
FP16
FP55
FPA9
FPA7
FPB9
10n2P91 RES
RES 4P17
FP48
FP38
100n
+VDISP-OUT_A
2P02
2P81
100n
100R3P20
2P31 4p7RES
RES
3P15
100R
2P33 4p7RES
RES4p72P32
FP85
FP64
4p7
FP63
RES2P37
FPD0
+VDISP-IN
FP17
FP51
FP31
FP20
4p72P62RES
FPC0
RES4p7
FPA8
2P58
30R
5P05
RES
FP88
4p72P36
BMIC-004-SN1CAA
RES
FP24
47R
4P35
3P10
53P09-4
47K
4
FPF7FPF6
RES2P03 10p
47K
8 13P09-1
4p7RES
2P59
2P67 4p7RES
4P03
4P04
FP41
+VDISP-OUT
FP52
4p7RES
2P69
FP78
RES
4P06
3P01 100R100R3P02 RES
FP69
FP68
FP36
FP59
2P39RES4p7
FPF9
2P01
RES2P41
100n
4p7
FP65
4P36
4P34
10p2P04 RES
2P75 4p7RES
4P18
RES4p7
RES
2P35
FP26
47K
3P09-36 3
FP35
FP30
FP60
FP40
RES4p72P45
4P07
FPC3
2 7
FPB1
3P09-2
47K
FPE8
RES4p72P56
SI4835BDY7P01
RES
4P23RESRES 4P22
FP15
FP28
3P24
10K
FP21
4P15
25
FPC2
RES
FPE7
FPE5
4P12
FPG3
4p7RES
2P68
FP18
FP53
FP22
2K2
3P12
4p7RES
2P51
2P57 4p7RES
FPE0
FPE9
FPG5FPC5
4p72P30RES
FPD8
FP01
FPA4FPA3 FPG4
2P53
RES2P64
100n
4p7 FP61
FP39
32
FP44
29
3
30
456789
31
19
2
202122232425262728
1
101112131415161718
DF13-30DP-1.25V
1R50
RES 4P16
4P10
FPG6FPA6
4p7RES
2P73
4p7RES
2P61
56 5758 5960
5051
6789
52
61
5354 55
414243444546474849
5
313233343536373839
4
40
2223242526272829
3
30
1213141516171819
2
2021
FI-RE51S-HF1G51
1
1011
RES4p72P42
FPF5
4p72P43RES
RES4p72P66
FPA5
FP77
FP34
FPC1FPE2
FP19FP62
FP89
RES4p72P47
FPB8
FP56
FP42
+3V3
FP83 FP74
FPA0 FPB0
5P06
30R
4P13
FP50
4P14
FPF1
FPE4
+VDISP-OUT
4P05
4P02
FPE3
FP46
FP87
10K
3P16
RE
S2P
8010
n
FPB6FPB7
+VDISP-OUT
FP70
20
4P09
FJ07
RES 2P93 10n
RES 100R3P07
FP57
FPD7
BC847BW
13
2
7P03
FPD1
+3V3
4p7RES
2P65
RES4p72P74
6P01
SML-310
RE
S
10K
3P26
4P25
4P01
RES
FP47
FP45
7P05PDTC114EU
7P04PDTA114EU
RES4p72P54
FP72FP73
FP29
FPB4FPB5
FPB3
FP33
FPB2
FPD4
FP32
30R
5P01
FPA1
2P84
1u0
4p7RES
2P52
FPA2R
ES
10p
2P86 4p7
RES2P72
30R
5P02
3P25
47K
RES
RE
S30
00
10K
FJA4
FJ14FJ63FJA5
SI3441BDV7P02
+3V3+3V3
100R
3P14
BOOTMODE_PNX8543-BL-CTRL
PNX5100-BL-CTRL
RX51001C+
RX51001C-
RX51001B-
RX51001B+
RX51001D+
RX51001D-
RX51001CLK+
RX51001CLK-
RX51001E-
RX51001E+
RX51001B-RX51001B+
RX51001A-RX51001A+
RX51001CLK-RX51001CLK+
RX51001E-RX51001E+
RX51001D-RX51001D+
RX51001C-RX51001C+
RX51002C+
RX51002B-RX51002B+
RX51002A-RX51002A+
RX51002D-RX51002D+
RX51002CLK-RX51002CLK+
RX51002C-
RX51002E-RX51002E+
PNX5100-BL-BOOST
BACKLIGHT-BOOST-IN
BACKLIGHT-IN
TX2D-TX2D+TX2E-
SCL-DISPSDA-DISP
PNX8543-BL-BOOST_SPI-CLK
TX2E+
TX2A+TX2A-
TX2B+TX2B-
TX2C+TX2C-
TX2CLK+TX2CLK-
PNX5100-LCD-PWR-ON
PNX8543-LCD-PWR-ON_SPI-DI
TX2E+
TX2E-
TX2D-
TX2D+
TX2CLK-
TX2CLK+
TX2C-
TX2C+
TX2B-
TX2B+
TX2A-
TX2A+
SDA-DISP
SDA-DISPSCL-DISP
TX3A-
TX3CLK-TX3CLK+
TX3D-TX3D+
TX4C+TX4C-
SCL-DISP
TX4A+TX4B-TX4B+
TX3A+TX3B-TX3B+TX3C-TX3C+
TX4D+TX4E-TX4E+
TX3E-TX3E+
TX4A-
TX3C-
TX3C+
TX3CLK+
TX3CLK-
TX3D-
TX3D+
TX3E-
TX3E+
TX4A-
TX4A+
TX4B-
TX4B+
TX4C-
TX4C+
TX4CLK+
TX4CLK-
TX4D-
TX4D+
TX4E+
TX4E-
TX4CLK-TX4CLK+
TX4D-
TX1CLK-
TX1D+TX1D-
TX1E-TX1E+
TX1B+TX1B-
TX3A-
TX3A+
TX3B-
TX3B+
TX1A+
TX1A-
TX1C+
TX1C-
TX1CLK+
TX1CLK-
TX1D+
TX1D-
TX1E-
TX1E+
TX1B+
TX1B-
TX1A+TX1A-
TX1C+TX1C-
TX1CLK+
18440_519_090224.eps090224
Circuit Diagrams and PWB Layouts EN 81Q543.1E LA 10.
2009-Mar-27
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. Some of the PW B schematics w ill use SRP while others w ill sti ll use the manual refe rences. Either there w ill be an SRP r e fer ence list for a schematic, or ther e w ill be pr inted r e ferences in the schematic.
1.2. No n - SRP Schematics
There a r e severa l different signals available in a schematic:
1.2.1. Po w e r Supply Lines
All pow er suppl y lines are available in t he suppl y line overview (see chapter 6). I n th e schematics (se e chapter 7) is n o t indicated w h e r e supplies are coming from or going to. It is how ever indi cated if a supply is incoming (created elsew h e r e), o r outgoing (cr eat ed or adapt ed in the current sche m atic).
+5 V +5 V
Outgoing Incoming
1.2.2. Normal Signals
For no rmal signals, a schematic r e ference (e. g . B1 4b) is placed next to the signals.
si gnal _nam e B 14b
1.2.3. Grounds
For no rmal and s pecial grounds (e .g. GN DH OT o r GND3V3 etc.), n o thing is indicate d.
1.3. SRP Schematics
SRP is a tool, w h ich automatically creates a list w i th signal reference s , indicating on which sc hematic t he signals are used. A reference is cr eated for all signals indicat ed w i th an SRP s y mbol, these s y mbols are:
+5 V +5 V Power suppl y li ne.
na m e na m e Stand alone signal or sw itching li ne (used as less as possible).
na m e na m e
Signal line into a w i re tree.
na m e na m e
Sw itching line into a w i re tre e .
na m e
Bi-directional lin e (e.g. SDA ) into a w i r e tree.
na m e
Signal line into a w i r e tree, its dir e ction depends on t he circuit (e.g. ingoing for PD P, outgoing for L C D sets).
Remarks: • When there is a black dot on the "signal dire ction 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 additi onal text) are not listed in the reference list, this to keep
it concise. • Signals that are not used in multiple schematics, but only onc e 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 sear ch 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 select ed. 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.eps
090121
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 82Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
SSB: SRP List Part 1
3139 123 6443.118540_600_090324.eps
090324
Netname Diagram
+12V B01A (1×)+12V B01B (4×)+12V B02A (3×)+12V B04A (1×)+12VD B01B (1×)+12VD B07A (2×)+12VF B01A (2×)+1V2 B02A (2×)+1V2A B02A (2×)+1V2-PNX5100 B01B (1×)+1V2-PNX5100 B03H (1×)+1V2-PNX5100 B08A (15×)+1V2-PNX5100-CLOCK B08A (3×)+1V2-PNX5100-DDR-PLL1 B08A (2×)+1V2-PNX5100-DLL B08A (3×)+1V2-PNX5100-LVDS-PLL B08A (2×)+1V2-PNX5100-TRI-PLL1 B08A (2×)+1V2-PNX5100-TRI-PLL2 B08A (2×)+1V2-PNX5100-TRI-PLL3 B08A (2×)+1V2-PNX85XX B01A (2×)+1V2-PNX85XX B02A (1×)+1V2-PNX85XX B03A (14×)+1V2-PNX85XX B03H (1×)+1V2-STANDBY B01B (2×)+1V2-STANDBY B03A (1×)+1V8-PNX5100 B08A (2×)+1V8-PNX5100 B08B (5×)+1V8-PNX85XX B03A (3×)+1V8-PNX85XX B03F (5×)+1V8-PNX85XX B05A (1×)+3V3 B01A (1×)+3V3 B01B (1×)+3V3 B02A (2×)+3V3 B03A (14×)+3V3 B03C (1×)+3V3 B03D (1×)+3V3 B03G (11×)+3V3 B03H (1×)+3V3 B04A (1×)+3V3 B04B (3×)+3V3 B04C (2×)+3V3 B05A (3×)+3V3 B05B (2×)+3V3 B05C (3×)+3V3 B07A (2×)+3V3 B07B (4×)+3V3 B08A (7×)+3V3 B08C (13×)+3V3 B08D (2×)+3V3 B08E (3×)+3V3_BUF B05C (5×)+3V3A B02A (3×)+3V3B B02A (6×)+3V3D B02A (2×)+3V3E B02A (2×)+3V3-ET-ANA B05B (4×)+3V3-ET-DIG B05B (3×)+3V3F B01A (2×)+3V3F B03A (1×)+3V3F B08A (1×)+3V3-NAND B03G (5×)+3V3-PER B03A (2×)+3V3-PER B03G (12×)+3V3-PER B03H (3×)+3V3-PNX5100-CLOCK B08A (2×)+3V3-PNX5100-DDR-PLL0 B08A (2×)+3V3-PNX5100-LVDS-IN B08A (2×)+3V3-PNX5100-LVDS-PLL B08A (2×)+3V3-STANDBY B01B (2×)+3V3-STANDBY B03A (1×)+3V3-STANDBY B03G (3×)+3V3-STANDBY B03H (12×)+3V3-STANDBY B04A (3×)+3V3-STANDBY B05A (1×)+5V B01B (1×)+5V B02A (2×)+5V B03D (1×)+5V B03G (4×)+5V B03H (1×)+5V B04A (1×)+5V B04B (6×)+5V B04C (1×)+5V B05A (2×)
+5V B05C (1×)+5V B07A (1×)+5V5-TUN B01B (1×)+5V5-TUN B02A (1×)+5V-TUNER B02A (10×)+AUDIO-POWER B01B (1×)+AUDIO-POWER B03C (2×)+AUDIO-POWER B06A (2×)+VDISP-IN B07A (1×)+VDISP-IN B07B (1×)+VDISP-OUT B07B (4×)+VDISP-OUT_A B07B (4×)3V3-ST B01A (1×)3V3-ST B01B (1×)ADAC(1) B03D (2×)ADAC(1) B06A (1×)ADAC(2) B03D (2×)ADAC(2) B06A (1×)ADAC(3) B03C (2×)ADAC(3) B03D (2×)ADAC(4) B03C (2×)ADAC(4) B03D (2×)ADAC(5) B03C (1×)ADAC(5) B03D (1×)ADAC(6) B03C (1×)ADAC(6) B03D (1×)ADAC(7) B03C (1×)ADAC(7) B03D (3×)ADAC(8) B03C (1×)ADAC(8) B03D (3×)ALE B03H (1×)ANTENNA-CTRL B02A (2×)ANTENNA-SUPPLY B02A (2×)A-PLOP B03C (1×)A-PLOP B04B (1×)A-PLOP B04C (2×)AP-SCART-OUT-L B04B (5×)AP-SCART-OUT-R B04B (5×)ARX0- B05A (2×)ARX0+ B05A (2×)ARX1- B05A (2×)ARX1+ B05A (2×)ARX2- B05A (2×)ARX2+ B05A (2×)ARX-5V B05A (3×)ARXC- B05A (2×)ARXC+ B05A (2×)ARX-DDC-CLK B05A (2×)ARX-DDC-DAT B05A (2×)ARX-HPD B05A (2×)A-STBY B03C (1×)A-STBY B06A (2×)AUD_GND B03D (4×)AUD_GND B06A (2×)AUDIO-CL-L B03C (1×)AUDIO-CL-L B04B (1×)AUDIO-CL-R B03C (1×)AUDIO-CL-R B04B (1×)AUDIO-IN1-L B03D (1×)AUDIO-IN1-L B04A (1×)AUDIO-IN1-L B04B (2×)AUDIO-IN1-R B03D (1×)AUDIO-IN1-R B04A (1×)AUDIO-IN1-R B04B (2×)AUDIO-IN2-L B03D (1×)AUDIO-IN2-L B04B (2×)AUDIO-IN2-R B03D (1×)AUDIO-IN2-R B04B (2×)AUDIO-IN3-L B03D (1×)AUDIO-IN3-L B04C (1×)AUDIO-IN3-R B03D (1×)AUDIO-IN3-R B04C (1×)AUDIO-IN4-L B03D (1×)AUDIO-IN4-L B04C (1×)AUDIO-IN4-R B03D (1×)AUDIO-IN4-R B04C (1×)AUDIO-IN5-L B03D (1×)AUDIO-IN5-L B04C (2×)AUDIO-IN5-R B03D (1×)AUDIO-IN5-R B04C (2×)AUDIO-MUTE B03H (2×)AUDIO-MUTE B04C (1×)AUDIO-MUTE B06A (1×)AUDIO-OUT-L B03C (1×)AUDIO-OUT-L B04C (1×)
AUDIO-OUT-R B03C (1×)AUDIO-OUT-R B04C (1×)AUDIO-RESET B03C (2×)AUDIO-RESET B03H (2×)AUDIO-VDD B03C (7×)AV1-BLK B03H (1×)AV1-BLK B04B (1×)AV1-BLK-BO B04A (1×)AV1-BLK-BO B04B (2×)AV1-STATUS B03H (1×)AV1-STATUS B04A (1×)AV1-STATUS B04B (2×)AV2-BLK_LCD-SDA B03H (1×)AV2-BLK_LCD-SDA B04A (1×)AV2-BLK_LCD-SDA B04B (2×)AV2-PB_SC2-B B03E (1×)AV2-PB_SC2-B B04B (2×)AV2-PR_SC2-R B03E (1×)AV2-PR_SC2-R B04B (2×)AV2-STATUS B03H (1×)AV2-STATUS B04B (2×)AV2-Y_SC2-G B03E (1×)AV2-Y_SC2-G B04B (2×)AV3-PB B03E (1×)AV3-PB B04C (1×)AV3-PR B03E (1×)AV3-PR B04C (1×)AV3-Y B03E (1×)AV3-Y B04C (1×)BACKLIGHT-BOOST B01B (1×)BACKLIGHT-BOOST B07A (1×)BACKLIGHT-BOOST-IN B07A (1×)BACKLIGHT-BOOST-IN B07B (1×)BACKLIGHT-IN B07A (1×)BACKLIGHT-IN B07B (1×)BACKLIGHT-OUT B01B (1×)BACKLIGHT-OUT B07A (1×)BOLT-ON-IO B03H (2×)BOLT-ON-IO B04A (1×)BOLT-ON-TS-ENn B03H (2×)BOOTMODE_PNX8543-BL-CTRL B03G (1×)BOOTMODE_PNX8543-BL-CTRL B07B (1×)BRX0- B05A (2×)BRX0+ B05A (2×)BRX1- B05A (2×)BRX1+ B05A (2×)BRX2- B05A (2×)BRX2+ B05A (2×)BRX-5V B05A (3×)BRXC- B05A (2×)BRXC+ B05A (2×)BRX-DDC-CLK B05A (2×)BRX-DDC-DAT B05A (2×)BRX-HPD B05A (2×)B-VGA B03E (1×)B-VGA B04C (1×)CA-ADDEN B03B (1×)CA-ADDEN B05C (3×)CA-CD1 B03B (1×)CA-CD1 B05C (2×)CA-CD2 B03B (1×)CA-CD2 B05C (2×)CA-CE1 B05C (2×)CA-CE2 B05C (2×)CA-DATADIR B03B (1×)CA-DATADIR B05C (1×)CA-DATAEN B03B (1×)CA-DATAEN B05C (1×)CA-INPACK B05C (2×)CA-IORD B05C (2×)CA-IOWR B05C (2×)CA-MDI0 B03B (1×)CA-MDI0 B05C (1×)CA-MDI1 B03B (1×)CA-MDI1 B05C (1×)CA-MDI2 B03B (1×)CA-MDI2 B05C (1×)CA-MDI3 B03B (1×)CA-MDI3 B05C (1×)CA-MDI4 B03B (1×)CA-MDI4 B05C (1×)CA-MDI5 B03B (1×)CA-MDI5 B05C (1×)CA-MDI6 B03B (1×)CA-MDI6 B05C (1×)
CA-MDI7 B03B (1×)CA-MDI7 B05C (1×)CA-MDO(0) B03B (1×)CA-MDO(0) B05C (1×)CA-MDO(1) B03B (1×)CA-MDO(1) B05C (1×)CA-MDO(2) B03B (1×)CA-MDO(2) B05C (1×)CA-MDO(3) B03B (1×)CA-MDO(3) B05C (1×)CA-MDO(4) B03B (1×)CA-MDO(4) B05C (1×)CA-MDO(5) B03B (1×)CA-MDO(5) B05C (1×)CA-MDO(6) B03B (1×)CA-MDO(6) B05C (1×)CA-MDO(7) B03B (1×)CA-MDO(7) B05C (1×)CA-MICLK B03B (1×)CA-MICLK B05C (1×)CA-MISTRT B03B (1×)CA-MISTRT B05C (1×)CA-MIVAL B03B (1×)CA-MIVAL B05C (1×)CA-MOCLK_VS2 B03B (2×)CA-MOCLK_VS2 B05C (1×)CA-MOSTRT B03B (1×)CA-MOSTRT B05C (1×)CA-MOVAL B03B (1×)CA-MOVAL B05C (1×)CA-OE B05C (2×)CA-REG B05C (2×)CA-RST B03B (1×)CA-RST B05C (1×)CA-VS1 B03B (1×)CA-VS1 B05C (2×)CA-WAIT B05C (3×)CA-WE B05C (2×)CEC B05A (6×)CEC-HDMI B03H (2×)CEC-HDMI B05A (1×)CLK-SCL B04C (1×)CRX0- B05A (2×)CRX0+ B05A (2×)CRX1- B05A (2×)CRX1+ B05A (2×)CRX2- B05A (2×)CRX2+ B05A (2×)CRX-5V B05A (3×)CRXC- B05A (2×)CRXC+ B05A (2×)CRX-DDC-CLK B05A (2×)CRX-DDC-DAT B05A (2×)CRX-HPD B05A (2×)CVBS B02A (1×)CVBS B03E (1×)CVBS1 B03E (1×)CVBS1 B04A (1×)CVBS1 B04B (2×)CVBS2 B03E (1×)CVBS2 B04B (2×)CVBS-OUT-SC1 B04B (3×)CVBS-OUT-SC1-PBS B04A (1×)CVBS-OUT-SC1-PBS B04B (1×)CVBS-OUT-SC2 B04B (2×)CVBS-OUT-SC2 B04C (1×)CVBS-TER-OUT B02A (1×)CVBS-TER-OUT B04B (1×)DATA-SDA B04C (1×)DDC-SCL B05A (3×)DDC-SDA B05A (3×)DDR2-A0 B03F (3×)DDR2-A1 B03F (3×)DDR2-A10 B03F (3×)DDR2-A11 B03F (3×)DDR2-A12 B03F (3×)DDR2-A2 B03F (3×)DDR2-A3 B03F (3×)DDR2-A4 B03F (3×)DDR2-A5 B03F (3×)DDR2-A6 B03F (3×)DDR2-A7 B03F (3×)DDR2-A8 B03F (3×)DDR2-A9 B03F (3×)DDR2-BA0 B03F (3×)
DDR2-BA1 B03F (3×)DDR2-BA2 B03F (3×)DDR2-CAS B03F (3×)DDR2-CKE B03F (3×)DDR2-CLK_N B03F (3×)DDR2-CLK_P B03F (3×)DDR2-CS B03F (3×)DDR2-D0 B03F (2×)DDR2-D1 B03F (2×)DDR2-D10 B03F (2×)DDR2-D11 B03F (2×)DDR2-D12 B03F (2×)DDR2-D13 B03F (2×)DDR2-D14 B03F (2×)DDR2-D15 B03F (2×)DDR2-D16 B03F (2×)DDR2-D17 B03F (2×)DDR2-D18 B03F (2×)DDR2-D19 B03F (2×)DDR2-D2 B03F (2×)DDR2-D20 B03F (2×)DDR2-D21 B03F (2×)DDR2-D22 B03F (2×)DDR2-D23 B03F (2×)DDR2-D24 B03F (2×)DDR2-D25 B03F (2×)DDR2-D26 B03F (2×)DDR2-D27 B03F (2×)DDR2-D28 B03F (2×)DDR2-D29 B03F (2×)DDR2-D3 B03F (2×)DDR2-D30 B03F (2×)DDR2-D31 B03F (2×)DDR2-D4 B03F (2×)DDR2-D5 B03F (2×)DDR2-D6 B03F (2×)DDR2-D7 B03F (2×)DDR2-D8 B03F (2×)DDR2-D9 B03F (2×)DDR2-DQM0 B03F (2×)DDR2-DQM1 B03F (2×)DDR2-DQM2 B03F (2×)DDR2-DQM3 B03F (2×)DDR2-DQS0_N B03F (2×)DDR2-DQS0_P B03F (2×)DDR2-DQS1_N B03F (2×)DDR2-DQS1_P B03F (2×)DDR2-DQS2_N B03F (2×)DDR2-DQS2_P B03F (2×)DDR2-DQS3_N B03F (2×)DDR2-DQS3_P B03F (2×)DDR2-ODT B03F (3×)DDR2-RAS B03F (3×)DDR2-VREF-CTRL B03F (2×)DDR2-VREF-DDR B03F (3×)DDR2-WE B03F (3×)DETECT1 B01A (1×)DETECT1 B03H (3×)DETECT-12V B01B (1×)DETECT-12V B03H (1×)DETECT2 B03H (3×)DRX0- B05A (2×)DRX0+ B05A (2×)DRX1- B05A (2×)DRX1+ B05A (2×)DRX2- B05A (2×)DRX2+ B05A (2×)DRX-5V B05A (3×)DRXC- B05A (2×)DRXC+ B05A (2×)DRX-DDC-CLK B05A (2×)DRX-DDC-DAT B05A (2×)DRX-HPD B05A (2×)EA B03H (1×)EJTAG-DETECT B03G (1×)EJTAG-DETECT B03H (2×)EJTAG-PNX5100-TCK B08C (2×)EJTAG-PNX5100-TDI B08C (2×)EJTAG-PNX5100-TDO B08C (2×)EJTAG-PNX5100-TMS B08C (2×)EJTAG-PNX5100-TRSTn B08C (2×)EJTAG-TCK B03G (3×)EJTAG-TDI B03G (3×)EJTAG-TDO B03G (3×)EJTAG-TMS B03G (3×)
EJTAG-TRSTN B03G (3×)ENABLE-3V3 B01A (1×)ENABLE-3V3 B01B (1×)ENABLE-3V3 B03H (2×)FE-CLK B02A (1×)FE-CLK B03B (1×)FE-DATA(0) B02A (1×)FE-DATA(0) B03B (1×)FE-DATA(1) B02A (1×)FE-DATA(1) B03B (1×)FE-DATA(2) B02A (1×)FE-DATA(2) B03B (1×)FE-DATA(3) B02A (1×)FE-DATA(3) B03B (1×)FE-DATA(4) B02A (1×)FE-DATA(4) B03B (1×)FE-DATA(5) B02A (1×)FE-DATA(5) B03B (1×)FE-DATA(6) B02A (1×)FE-DATA(6) B03B (1×)FE-DATA(7) B02A (1×)FE-DATA(7) B03B (1×)FE-ERR B03B (2×)FE-SOP B02A (1×)FE-SOP B03B (1×)FE-VALID B02A (1×)FE-VALID B03B (1×)FRONT-C B03E (1×)FRONT-C B04C (2×)FRONT-Y_CVBS B03E (1×)FRONT-Y_CVBS B04C (2×)GND-SIG B01A (12×)GNDSND B01B (2×)GNDSND B06A (20×)G-VGA B03E (1×)G-VGA B04C (1×)HP_LOUT B03C (1×)HP_LOUT B04C (1×)HP_ROUT B03C (1×)HP_ROUT B04C (1×)H-SYNC-VGA B03E (1×)H-SYNC-VGA B04C (1×)IF-AGC B02A (2×)IF-N B02A (2×)IF-P B02A (2×)IRQ-CA B03B (1×)IRQ-CA B03G (2×)IRQ-CA B05C (2×)IRQ-PCI B03G (1×)IRQ-PCI B05B (1×)KEYBOARD B03G (1×)KEYBOARD B03H (2×)LAMP-ON-OUT B01B (1×)LAMP-ON-OUT B03H (2×)LCD-SCL B03H (2×)LCD-SCL B04A (1×)LCD-SCL B04C (1×)LED1 B03G (2×)LED1 B03H (1×)LED2 B03G (2×)LED2 B03H (1×)LEFT-SPEAKER B06A (4×)LIGHT-SENSOR B03G (2×)LIGHT-SENSOR B03H (1×)MDO0 B05C (4×)MDO1 B05C (4×)MDO2 B05C (4×)MDO3 B05C (4×)MDO4 B05C (4×)MDO5 B05C (4×)MDO6 B05C (4×)MDO7 B05C (4×)MOCLKA B05C (4×)MOSTRTA B05C (4×)MOVALA B05C (4×)MUTE B06A (2×)NAND-AD(0) B03G (2×)NAND-AD(1) B03G (2×)NAND-AD(2) B03G (2×)NAND-AD(3) B03G (2×)NAND-AD(4) B03G (2×)NAND-AD(5) B03G (2×)NAND-AD(6) B03G (2×)NAND-AD(7) B03G (2×)NAND-ALE B03G (2×)
NAND-CLE B03G (2×)NAND-REn B03G (2×)NAND-WEn B03G (2×)PBS_SPI_DI B04A (2×)PBS-I2C-SCL B03G (2×)PBS-I2C-SCL B04A (2×)PCI-AD0 B03G (2×)PCI-AD0 B05B (1×)PCI-AD0 B05C (1×)PCI-AD0 B08C (1×)PCI-AD1 B03G (2×)PCI-AD1 B05B (1×)PCI-AD1 B05C (1×)PCI-AD1 B08C (1×)PCI-AD10 B03G (1×)PCI-AD10 B05B (1×)PCI-AD10 B05C (1×)PCI-AD10 B08C (1×)PCI-AD11 B03G (1×)PCI-AD11 B05B (1×)PCI-AD11 B05C (1×)PCI-AD11 B08C (1×)PCI-AD12 B03G (1×)PCI-AD12 B05B (1×)PCI-AD12 B05C (1×)PCI-AD12 B08C (1×)PCI-AD13 B03G (1×)PCI-AD13 B05B (1×)PCI-AD13 B05C (1×)PCI-AD13 B08C (1×)PCI-AD14 B03G (1×)PCI-AD14 B05B (1×)PCI-AD14 B05C (1×)PCI-AD14 B08C (1×)PCI-AD15 B03G (1×)PCI-AD15 B05B (1×)PCI-AD15 B08C (1×)PCI-AD16 B03G (1×)PCI-AD16 B05B (1×)PCI-AD16 B05C (1×)PCI-AD16 B08C (1×)PCI-AD17 B03G (1×)PCI-AD17 B05B (1×)PCI-AD17 B05C (1×)PCI-AD17 B08C (1×)PCI-AD18 B03G (1×)PCI-AD18 B05B (1×)PCI-AD18 B05C (1×)PCI-AD18 B08C (1×)PCI-AD19 B03G (1×)PCI-AD19 B05B (1×)PCI-AD19 B05C (1×)
Circuit Diagrams and PWB Layouts EN 83Q543.1E LA 10.
2009-Mar-27
SSB: SRP List Part 2
3139 123 6443.118540_601_090324.eps
090324
Netname Diagram
PCI-AD19 B08C (1×)PCI-AD2 B03G (1×)PCI-AD2 B05B (1×)PCI-AD2 B05C (1×)PCI-AD2 B08C (1×)PCI-AD20 B03G (1×)PCI-AD20 B05B (1×)PCI-AD20 B08C (1×)PCI-AD21 B03G (1×)PCI-AD21 B05B (1×)PCI-AD21 B08C (1×)PCI-AD22 B03G (1×)PCI-AD22 B05B (1×)PCI-AD22 B05C (1×)PCI-AD22 B08C (1×)PCI-AD23 B03G (1×)PCI-AD23 B05B (2×)PCI-AD23 B05C (1×)PCI-AD23 B08C (1×)PCI-AD24 B03G (3×)PCI-AD24 B05B (1×)PCI-AD24 B05C (1×)PCI-AD24 B08C (1×)PCI-AD25 B03G (2×)PCI-AD25 B05B (1×)PCI-AD25 B05C (1×)PCI-AD25 B08C (2×)PCI-AD26 B03G (2×)PCI-AD26 B05B (1×)PCI-AD26 B05C (1×)PCI-AD26 B08C (1×)PCI-AD27 B03G (2×)PCI-AD27 B05B (1×)PCI-AD27 B05C (1×)PCI-AD27 B08C (1×)PCI-AD28 B03G (2×)PCI-AD28 B05B (1×)PCI-AD28 B05C (1×)PCI-AD28 B08C (1×)PCI-AD29 B03G (2×)PCI-AD29 B05B (1×)PCI-AD29 B05C (1×)PCI-AD29 B08C (1×)PCI-AD3 B03G (1×)PCI-AD3 B05B (1×)PCI-AD3 B05C (1×)PCI-AD3 B08C (1×)PCI-AD30 B03G (2×)PCI-AD30 B05B (1×)PCI-AD30 B05C (1×)PCI-AD30 B08C (1×)PCI-AD31 B03G (2×)PCI-AD31 B05B (1×)PCI-AD31 B05C (1×)PCI-AD31 B08C (1×)PCI-AD4 B03G (1×)PCI-AD4 B05B (1×)PCI-AD4 B05C (1×)PCI-AD4 B08C (1×)PCI-AD5 B03G (1×)PCI-AD5 B05B (1×)PCI-AD5 B05C (1×)PCI-AD5 B08C (1×)PCI-AD6 B03G (1×)PCI-AD6 B05B (1×)PCI-AD6 B05C (1×)PCI-AD6 B08C (1×)PCI-AD7 B03G (1×)PCI-AD7 B05B (1×)PCI-AD7 B05C (1×)PCI-AD7 B08C (1×)PCI-AD8 B03G (1×)PCI-AD8 B05B (1×)PCI-AD8 B05C (1×)PCI-AD8 B08C (1×)PCI-AD9 B03G (1×)PCI-AD9 B05B (1×)PCI-AD9 B05C (1×)PCI-AD9 B08C (1×)PCI-CBE0 B03G (1×)PCI-CBE0 B05B (1×)PCI-CBE0 B08C (1×)PCI-CBE1 B03G (2×)
PCI-CBE1 B05B (1×)PCI-CBE1 B05C (1×)PCI-CBE1 B08C (1×)PCI-CBE2 B03G (2×)PCI-CBE2 B05B (1×)PCI-CBE2 B05C (1×)PCI-CBE2 B08C (1×)PCI-CBE3 B03G (1×)PCI-CBE3 B05B (1×)PCI-CBE3 B08C (1×)PCI-CLK-ETHERNET B03G (1×)PCI-CLK-ETHERNET B05B (1×)PCI-CLK-OUT B03G (2×)PCI-CLK-PNX5100 B03G (1×)PCI-CLK-PNX5100 B08C (1×)PCI-CLK-PNX8543 B03G (2×)PCI-DEVSEL B03G (2×)PCI-DEVSEL B05B (1×)PCI-DEVSEL B08C (1×)PCI-FRAME B03G (2×)PCI-FRAME B05B (1×)PCI-FRAME B08C (1×)PCI-GNT B03G (2×)PCI-GNT B05B (1×)PCI-IRDY B03G (2×)PCI-IRDY B05B (1×)PCI-IRDY B08C (1×)PCI-PAR B03G (1×)PCI-PAR B05B (1×)PCI-PAR B08C (1×)PCI-PERR B03G (2×)PCI-PERR B05B (1×)PCI-PERR B08C (1×)PCI-REQ B03G (2×)PCI-REQ B05B (1×)PCI-SERR B03G (2×)PCI-SERR B05B (1×)PCI-SERR B08C (1×)PCI-STOP B03G (2×)PCI-STOP B05B (1×)PCI-STOP B08C (1×)PCI-TRDY B03G (2×)PCI-TRDY B05B (1×)PCI-TRDY B08C (1×)PCMCIA-A0 B05C (2×)PCMCIA-A1 B05C (2×)PCMCIA-A10 B05C (2×)PCMCIA-A11 B05C (2×)PCMCIA-A12 B05C (2×)PCMCIA-A13 B05C (2×)PCMCIA-A14 B05C (2×)PCMCIA-A2 B05C (2×)PCMCIA-A3 B05C (2×)PCMCIA-A4 B05C (2×)PCMCIA-A5 B05C (2×)PCMCIA-A6 B05C (2×)PCMCIA-A7 B05C (2×)PCMCIA-A8 B05C (2×)PCMCIA-A9 B05C (2×)PCMCIA-D0 B05C (2×)PCMCIA-D1 B05C (2×)PCMCIA-D2 B05C (2×)PCMCIA-D3 B05C (2×)PCMCIA-D4 B05C (2×)PCMCIA-D5 B05C (2×)PCMCIA-D6 B05C (2×)PCMCIA-D7 B05C (2×)PCMCIA-VCC-VPP B05C (5×)PDN B02A (2×)PDP B02A (2×)PI_3 B03H (2×)PNX5100-BL-BOOST B07B (1×)PNX5100-BL-BOOST B08C (1×)PNX5100-BL-CTRL B07B (1×)PNX5100-BL-CTRL B08C (1×)PNX5100-DDR2-A0 B08B (3×)PNX5100-DDR2-A1 B08B (3×)PNX5100-DDR2-A10 B08B (3×)PNX5100-DDR2-A11 B08B (3×)PNX5100-DDR2-A12 B08B (3×)PNX5100-DDR2-A2 B08B (3×)PNX5100-DDR2-A3 B08B (3×)PNX5100-DDR2-A4 B08B (3×)PNX5100-DDR2-A5 B08B (3×)PNX5100-DDR2-A6 B08B (3×)
PNX5100-DDR2-A7 B08B (3×)PNX5100-DDR2-A8 B08B (3×)PNX5100-DDR2-A9 B08B (3×)PNX5100-DDR2-BA0 B08B (3×)PNX5100-DDR2-BA1 B08B (3×)PNX5100-DDR2-CAS B08B (3×)PNX5100-DDR2-CKE B08B (3×)PNX5100-DDR2-CLK_N B08B (3×)PNX5100-DDR2-CLK_P B08B (3×)PNX5100-DDR2-CS B08B (3×)PNX5100-DDR2-D0 B08B (2×)PNX5100-DDR2-D1 B08B (2×)PNX5100-DDR2-D10 B08B (2×)PNX5100-DDR2-D11 B08B (2×)PNX5100-DDR2-D12 B08B (2×)PNX5100-DDR2-D13 B08B (2×)PNX5100-DDR2-D14 B08B (2×)PNX5100-DDR2-D15 B08B (2×)PNX5100-DDR2-D16 B08B (2×)PNX5100-DDR2-D17 B08B (2×)PNX5100-DDR2-D18 B08B (2×)PNX5100-DDR2-D19 B08B (2×)PNX5100-DDR2-D2 B08B (2×)PNX5100-DDR2-D20 B08B (2×)PNX5100-DDR2-D21 B08B (2×)PNX5100-DDR2-D22 B08B (2×)PNX5100-DDR2-D23 B08B (2×)PNX5100-DDR2-D24 B08B (2×)PNX5100-DDR2-D25 B08B (2×)PNX5100-DDR2-D26 B08B (2×)PNX5100-DDR2-D27 B08B (2×)PNX5100-DDR2-D28 B08B (2×)PNX5100-DDR2-D29 B08B (2×)PNX5100-DDR2-D3 B08B (2×)PNX5100-DDR2-D30 B08B (2×)PNX5100-DDR2-D31 B08B (2×)PNX5100-DDR2-D4 B08B (2×)PNX5100-DDR2-D5 B08B (2×)PNX5100-DDR2-D6 B08B (2×)PNX5100-DDR2-D7 B08B (2×)PNX5100-DDR2-D8 B08B (2×)PNX5100-DDR2-D9 B08B (2×)PNX5100-DDR2-DQM0 B08B (2×)PNX5100-DDR2-DQM1 B08B (2×)PNX5100-DDR2-DQM2 B08B (2×)PNX5100-DDR2-DQM3 B08B (2×)PNX5100-DDR2-DQS0_N B08B (2×)PNX5100-DDR2-DQS0_P B08B (2×)PNX5100-DDR2-DQS1_N B08B (2×)PNX5100-DDR2-DQS1_P B08B (2×)PNX5100-DDR2-DQS2_N B08B (2×)PNX5100-DDR2-DQS2_P B08B (2×)PNX5100-DDR2-DQS3_N B08B (2×)PNX5100-DDR2-DQS3_P B08B (2×)PNX5100-DDR2-ODT B08B (3×)PNX5100-DDR2-RAS B08B (3×)PNX5100-DDR2-VREF-CTRL B08B (2×)PNX5100-DDR2-VREF-DDR B08B (3×)PNX5100-DDR2-WE B08B (3×)PNX5100-LCD-PWR-ON B07B (1×)PNX5100-LCD-PWR-ON B08C (1×)PNX5100-RST-OUT B08C (2×)PNX8543-BL-BOOST_SPI-CLK B03G (2×)PNX8543-BL-BOOST_SPI-CLK B04A (1×)PNX8543-BL-BOOST_SPI-CLK B07B (1×)PNX8543-LCD-PWR-ON_SPI-DI B03G (2×)PNX8543-LCD-PWR-ON_SPI-DI B04A (1×)PNX8543-LCD-PWR-ON_SPI-DI B07B (1×)POWER-OK B01B (1×)POWER-OK B03H (2×)PROT-DC B01A (1×)PROT-DC B01B (1×)PSEN B03H (1×)RC B03G (1×)RC B03H (1×)RC B04A (1×)RC_uP B03H (2×)RC1 B03H (1×)RC1 B04A (1×)RC1 B04C (1×)RC2 B03H (1×)RC2 B04A (1×)RC2 B04C (1×)REGIMBEAU_CVBS-SWITCH B03H (2×)REGIMBEAU_CVBS-SWITCH B04B (1×)
RESET-ETHERNET B03H (2×)RESET-ETHERNET B05B (2×)RESET-NVM B03H (3×)RESET-PNX5100 B03H (2×)RESET-PNX5100 B08C (1×)RESET-STBY B03H (2×)RESET-SYSTEM B02A (1×)RESET-SYSTEM B03G (1×)RESET-SYSTEM B03H (3×)RF-AGC B02A (2×)RIGHT-SPEAKER B06A (4×)RREF-PNX85XX B03A (2×)RREF-PNX85XX B05A (1×)R-VGA B03E (1×)R-VGA B04C (1×)RX0- B05A (2×)RX0+ B05A (2×)RX1- B05A (2×)RX1+ B05A (2×)RX2- B05A (2×)RX2+ B05A (2×)RX51001A- B03B (1×)RX51001A- B07B (1×)RX51001A- B08D (1×)RX51001A+ B03B (1×)RX51001A+ B07B (1×)RX51001A+ B08D (1×)RX51001B- B03B (1×)RX51001B- B07B (2×)RX51001B- B08D (1×)RX51001B+ B03B (1×)RX51001B+ B07B (2×)RX51001B+ B08D (1×)RX51001C- B03B (1×)RX51001C- B07B (2×)RX51001C- B08D (1×)RX51001C+ B03B (1×)RX51001C+ B07B (2×)RX51001C+ B08D (1×)RX51001CLK- B03B (1×)RX51001CLK- B07B (2×)RX51001CLK- B08D (1×)RX51001CLK+ B03B (1×)RX51001CLK+ B07B (2×)RX51001CLK+ B08D (1×)RX51001D- B03B (1×)RX51001D- B07B (2×)RX51001D- B08D (1×)RX51001D+ B03B (1×)RX51001D+ B07B (2×)RX51001D+ B08D (1×)RX51001E- B03B (1×)RX51001E- B07B (2×)RX51001E- B08D (1×)RX51001E+ B03B (1×)RX51001E+ B07B (2×)RX51001E+ B08D (1×)RX51002A- B03B (1×)RX51002A- B07B (1×)RX51002A- B08D (1×)RX51002A+ B03B (1×)RX51002A+ B07B (1×)RX51002A+ B08D (1×)RX51002B- B03B (1×)RX51002B- B07B (1×)RX51002B- B08D (1×)RX51002B+ B03B (1×)RX51002B+ B07B (1×)RX51002B+ B08D (1×)RX51002C- B03B (1×)RX51002C- B07B (1×)RX51002C- B08D (1×)RX51002C+ B03B (1×)RX51002C+ B07B (1×)RX51002C+ B08D (1×)RX51002CLK- B03B (1×)RX51002CLK- B07B (1×)RX51002CLK- B08D (1×)RX51002CLK+ B03B (1×)RX51002CLK+ B07B (1×)RX51002CLK+ B08D (1×)RX51002D- B03B (1×)RX51002D- B07B (1×)RX51002D- B08D (1×)RX51002D+ B03B (1×)
RX51002D+ B07B (1×)RX51002D+ B08D (1×)RX51002E- B03B (1×)RX51002E- B07B (1×)RX51002E- B08D (1×)RX51002E+ B03B (1×)RX51002E+ B07B (1×)RX51002E+ B08D (1×)RXC- B05A (2×)RXC+ B05A (2×)RXD B03G (1×)RXD B04A (1×)RXD-BOLT-ON B04A (3×)RXD-MIPS B03G (2×)RXD-MIPS B04A (2×)RXD-MIPS2 B03G (2×)RXD-UP B03G (1×)RXD-UP B03H (2×)RXD-UP B04A (2×)SC1-B B03E (1×)SC1-B B04A (1×)SC1-B B04B (2×)SC1-G B03E (1×)SC1-G B04A (1×)SC1-G B04B (2×)SC1-R B03E (1×)SC1-R B04A (1×)SC1-R B04B (1×)SCL1 B03G (2×)SCL2 B03G (3×)SCL3 B03G (2×)SCL-AMBI-3V3 B08C (1×)SCL-AMBI-3V3 B08E (1×)SCL-DISP B03G (1×)SCL-DISP B07B (3×)SCL-SET B01B (1×)SCL-SET B03G (3×)SCL-SSB B02A (1×)SCL-SSB B03G (2×)SCL-SSB B04A (1×)SCL-SSB B05A (1×)SCL-SSB B08C (2×)SCL-TUNER B02A (2×)SCL-UP-MIPS B03G (3×)SCL-UP-MIPS B03H (2×)SDA1 B03G (2×)SDA2 B03G (3×)SDA3 B03G (2×)SDA-AMBI-3V3 B08C (1×)SDA-AMBI-3V3 B08E (1×)SDA-DISP B03G (1×)SDA-DISP B07B (3×)SDA-SET B01B (1×)SDA-SET B03G (3×)SDA-SSB B02A (1×)SDA-SSB B03G (2×)SDA-SSB B04A (1×)SDA-SSB B05A (1×)SDA-SSB B08C (2×)SDA-TUNER B02A (2×)SDA-UP-MIPS B03G (3×)SDA-UP-MIPS B03H (2×)SDM B03H (3×)SENSE+1V2-PNX5100 B01B (2×)SENSE+1V2-PNX5100 B08A (4×)SENSE+1V2-PNX85XX B01A (1×)SENSE+1V2-PNX85XX B03A (1×)SIF B02A (1×)SIF B03E (1×)SIF-GND B02A (1×)SIF-GND B03E (2×)SPDIF-IN B03D (1×)SPDIF-IN B04A (1×)SPDIF-OUT B04B (1×)SPDIF-OUT B04C (1×)SPDIF-OUT-1 B03D (1×)SPDIF-OUT-1 B04C (1×)SPI-CLK B03H (2×)SPI-CSB B03H (2×)SPI-DO_I2C-SDA B03G (2×)SPI-DO_I2C-SDA B04A (1×)SPI-PROG B03H (3×)SPI-SDI B03H (2×)SPI-SDO B03H (2×)SPI-WP B03H (3×)
STANDBY B01B (1×)STANDBY B03H (2×)STANDBY B04A (1×)TX1A- B07B (2×)TX1A- B08D (1×)TX1A+ B07B (2×)TX1A+ B08D (1×)TX1B- B07B (2×)TX1B- B08D (1×)TX1B+ B07B (2×)TX1B+ B08D (1×)TX1C- B07B (2×)TX1C- B08D (1×)TX1C+ B07B (2×)TX1C+ B08D (1×)TX1CLK- B07B (2×)TX1CLK- B08D (1×)TX1CLK+ B07B (2×)TX1CLK+ B08D (1×)TX1D- B07B (2×)TX1D- B08D (1×)TX1D+ B07B (2×)TX1D+ B08D (1×)TX1E- B07B (2×)TX1E- B08D (1×)TX1E+ B07B (2×)TX1E+ B08D (1×)TX2A- B07B (2×)TX2A- B08D (1×)TX2A+ B07B (2×)TX2A+ B08D (1×)TX2B- B07B (2×)TX2B- B08D (1×)TX2B+ B07B (2×)TX2B+ B08D (1×)TX2C- B07B (2×)TX2C- B08D (1×)TX2C+ B07B (2×)TX2C+ B08D (1×)TX2CLK- B07B (2×)TX2CLK- B08D (1×)TX2CLK+ B07B (2×)TX2CLK+ B08D (1×)TX2D- B07B (2×)TX2D- B08D (1×)TX2D+ B07B (2×)TX2D+ B08D (1×)TX2E- B07B (2×)TX2E- B08D (1×)TX2E+ B07B (2×)TX2E+ B08D (1×)TX3A- B07B (2×)TX3A- B08D (1×)TX3A+ B07B (2×)TX3A+ B08D (1×)TX3B- B07B (2×)TX3B- B08D (1×)TX3B+ B07B (2×)TX3B+ B08D (1×)TX3C- B07B (2×)TX3C- B08D (1×)TX3C+ B07B (2×)TX3C+ B08D (1×)TX3CLK- B07B (2×)TX3CLK- B08D (1×)TX3CLK+ B07B (2×)TX3CLK+ B08D (1×)TX3D- B07B (2×)TX3D- B08D (1×)TX3D+ B07B (2×)TX3D+ B08D (1×)TX3E- B07B (2×)TX3E- B08D (1×)TX3E+ B07B (2×)TX3E+ B08D (1×)TX4A- B07B (2×)TX4A- B08D (1×)TX4A+ B07B (2×)TX4A+ B08D (1×)TX4B- B07B (2×)TX4B- B08D (1×)TX4B+ B07B (2×)TX4B+ B08D (1×)TX4C- B07B (2×)TX4C- B08D (1×)
TX4C+ B07B (2×)TX4C+ B08D (1×)TX4CLK- B07B (2×)TX4CLK- B08D (1×)TX4CLK+ B07B (2×)TX4CLK+ B08D (1×)TX4D- B07B (2×)TX4D- B08D (1×)TX4D+ B07B (2×)TX4D+ B08D (1×)TX4E- B07B (2×)TX4E- B08D (1×)TX4E+ B07B (2×)TX4E+ B08D (1×)TXD B03G (1×)TXD B04A (1×)TXD-BOLT-ON B04A (3×)TXD-MIPS B03G (2×)TXD-MIPS B04A (2×)TXD-MIPS2 B03G (2×)TXD-UP B03G (1×)TXD-UP B03H (2×)TXD-UP B04A (2×)UART-SWITCH B03H (2×)USB20-DM B03G (2×)USB20-DP B03G (2×)USB-OC B03G (2×)VDD_1V8 B05A (2×)VDDA-ADC B03A (1×)VDDA-AUDIO B03A (2×)VDDA-AUDIO B03D (4×)VDDA-DAC B03A (1×)VDDA-DAC B03D (1×)VDDA-LVDS B03A (1×)VDDA-LVDS B03B (1×)VDDH_3V3 B05A (3×)VDDO_3V3 B05A (2×)VDDS_3V3 B05A (2×)VSW B01A (1×)V-SYNC-VGA B03E (1×)V-SYNC-VGA B04C (1×)WC-EEPROM-PNX5100_SPI-DI B03G (1×)WC-EEPROM-PNX5100_SPI-DI B04A (1×)WC-EEPROM-PNX5100_SPI-DI B04C (1×)WC-EEPROM-PNX5100_SPI-DI B08C (2×)WP-NANDFLASH B03G (2×)WP-NANDFLASH B03H (2×)XIO-ACK B03G (3×)XIO-SEL-NAND B03G (3×)Y_CVBS-MON-OUT B03E (1×)Y_CVBS-MON-OUT B04B (1×)Y_CVBS-MON-OUT-SC B04B (2×)
EN 84Q543.1E LA 10.Circuit Diagrams and PWB Layouts
2009-Mar-27
Layout Small Signal Board
31391236443.1 18540_550_090311.eps090320
1300
1301
1303
1306
1735
1736
1800
1CE2
1CE
31C
E4
1CJ0
1D00
1D01
1E00
1E01
1E02
1E04
1E32
1F00
1F011F02
1F03
1F04
1F05
1F06
1F07
1F08
1F09
1F10
1F11
1F12
1F13
1F14
1F15
1F16
1F17
1F18
1F19
1F20
1F21
1F22
1F23
1G00
1G01
1G02
1G04
1G05
1G06
1G07
1G08
1G09
1G10
1G111G121G131G14
1G15
1G16
1G17
1G18
1G20
1G21
1G22
1G25
1G30
1G31
1G32
1G33
1G34
1G35
1G361G37
1G50
1G51
1G52
1H00 1H01
1H02
1H03
1H04 1H05
1H06
1H07
1K00
1L50
1L51
1L52
1L53
1L54
1M04
1M09
1M20
1M36
1M59
1M95
1M99
1N00
1P09
1R50
1X01 1X02
1X05
1X06
1X07
1X12
2104
2107
2111
2112 2116
2117
2118
2119
2122
2123
2124
2125
2127
2140
2141
2212
2213
2214
2215
2217
2218
2219
2221
2222
2223
2224
2226
2227
2228
2229
2230
2302
2304
2305
2358
2359
2360
2363
2600
2601
2602
2603
2806
2824
2900
2901
2905
2906 29
08
2909
2926
2927
2931
2932
2934
2935
2A06
2A07
2A08
2A09
2A10
2A11
2A13
2A18
2A21
2A31
2A35
2A36
2A37
2A38
2A39
2A40
2A502A52
2A53
2A55
2A57
2A59
2A60
2A68
2A70
2A71
2A72
2A73
2A74
2A75
2A76
2A77
2C6A
2C93
2C98
2C99
2D00
2D01
2D07
2D08
2D17
2E08
2E09
2E10
2E12
2E13
2F35 2F36
2F37
2F39
2G00
2G01
2G02
2G03
2G50
2G512H
00
2H01
2H02
2H05
2H47
2K08
2K09
2L05
2L06
2L07
2L08
2L09
2L10
2L11
2L12
2L202L23
2L242L28
2L29
2L37
2L38
2M04
2M05
2M10 2M11
2M92
2M93
2N1C2P80
2P82
2P83
2P95
3707 3708 3709
3810
3811
3812
3814 3822
3903 3904
3905
39113912
391339
14
3915
3923
3924
3925 39
26
3927
3A14
3A15
3A16
3A17
3A18
3A19
3A203A21
3A24
3A25
3A263A27
3A343A35
3A363A37
3A383A39
3A42
3A43
3A463A47
3A49
3A52
3A53
3A54
3A55
3A56
3C03
3C05
3C06 3C07
3C08 3C093C11
3C12
3C133C25
3C263C27
3C283C30 3C31
3C32
3CFK 3CFL
3D18 3D20
3D21
3D23
3D25
3D26
3D40
3D42
3D47
3D49
3D57
3E18
3E19
3E20
3E21
3E22
3E23
3F45
3F46
3F47
3F49
3F50
3F51
3F53
3G00
3G02
3G56
3G58
3G59
3G60
3G61
3G63
3K11
3K14
3K17
3K23
3K24 3K25
3K26
3K27
3K29
3K30
3L093L16
3L17
3L18
3M54
3M58
3M59
3M66
3M75
3M76
4316
4901
4902
49034905
4A05
4A06
4E09
4E10
4E11
4E12
4G09
4H01
4H02
4H03
4H04
4L01
4L02
4L03
4P15
4P16
4P17
4P18
4P19
4P20
4P224P234P24
4P26
4P28
4P29
4P30
4P31
4P39
51005101 5102
5103
5104
5105
5203
5204
5221
5222
5301
5302
5310
5A01
5A02
5A06
5A07
5A08
5F00
5H00
5L01
5L02
5L07
5L08
5L10
5M00
6217
6D00
6G00
6G01
6M00
6M03
6P01
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FF00FF01
FF02
FF03
FF04
FF05
FF06
FF08
FF09
FF10
FF11
FF12
FF13
FF14
FF15
FF16
FF17
FF18
FF19
FF20
FF21
FF
22
FF
23
FF24
FF25
FF26
FF
27
FF28
FF29
FF30
FF31
FF32
FF33
FF34
FF35
FF36
FF37
FF38
FF39
FG
00
FG01
FG02
FG03
FG04
FG05
FG06
FG07
FG08
FG
09
FG10
FG11
FG
12
FG13 FG14 FG15
FG16
FG17
FG18
FG19
FG
20
FG21
FG22
FG23
FG24
FG25
FG27
FG28
FG29
FG31
FG32
FG33
FG34
FG35 FG36
FG37
FG38FG39
FG
41
FG42
FG
43
FG44
FG45
FG
46
FG
47
FH00
FH01
FH04
FH05
FH06
FH07
FH08
FH09
FH15
FH16
FH17
FH18
FH19
FH20
FH21
FH22
FH23
FH24FH25
FH26
FH27
FH28
FH29
FH
30
FH31
FH32
FH33
FH36
FH37
FH
38
FH40
FH41
FH42
FH43
FH44
FH46
FH47
FH48
FH
49
FH50
FJ07
FJ14
FJ63
FJ9
9
FJA1FJA2
FJA3
FJA4
FJA5
FK00
FK02
FK04
FL01
FL02
FL0
3
FL05
FL06
FL0
7
FL08
FL09
FL14
FL15FL16
FL17
FL18
FL19FL20
FM00
FM01
FM
02
FM03
FM04
FM05
FM06
FM07
FM08
FM
09
FM10
FM11FM12FM13
FM
14
FM15
FM16
FM17
FM21
FM22
FM23
FM24
FM25
FM28
FM33
FM34
FM35
FM36
FM37
FM38
FM39
FM40
FM41
FM
42
FM43
FM45
FP01
FP02
FP15 FP16
FP17FP18
FP19FP20
FP21FP22
FP23FP24
FP25FP26
FP27
FP28 FP29
FP30
FP31 FP32
FP33 FP34
FP35 FP36
FP37 FP38
FP39 FP40
FP
41
FP
42
FP43 FP44
FP45 FP46
FP47 FP48
FP49FP50
FP51FP52FP53FP54
FP55FP56
FP57 FP58
FP59 FP60
FP
61 FP62
FP63 FP64
FP65 FP66
FP67 FP68
FP69 FP70
FP71 FP72
FP73 FP74
FP
75 FP76
FP77 FP78
FP79 FP80
FP81
FP83
FP84
FP85
FP86
FP87
FP88
FP89
FP99
FPA0
FPA1
FPA2
FPA3
FPA4 FPA5
FPA6 FPA7
FPA8
FPA9 FPB0 FPB1
FPB2
FPB3 FPB4
FPB5
FPB6 FPB7
FPB8
FPB9
FPC0FPC1FPC2FPC3
FP
C4
FPC5
FPC6
FPC7
FPD0
FPD1
FPD2
FP
D3
FPD4
FPD5
FPD6FPD7
FP
D8
FPD9
FPE0
FPE1
FPE2
FPE3
FPE4 FPE5
FPE6
FPE7
FP
E8
FP
E9
FPF0
FPF1
FP
F2
FPF5
FPF6FPF7FPF8FPF9
FP
G1
FPG3
FPG4
FPG5
FPG6
FT01
FT02
FT03
FT04
FT06
FT07
FU11
FV11FV12FV13
FY04
FY05
I100
I101
I102
I103
I106
I107
I108
I109
I111
I112
I113
I114
I115
I116
I117
I118
I119
I120
I121
I122
I124
I125
I126
I127
I128
I129
I130
I131
I132
I133
I134
I136
I137
I138
I141
I143
I144
I146
I147
I148
I202
I203
I204I205
I206
I207
I210
I212
I213
I214
I215
I216
I217
I218
I219
I301
I303
I306
I307I308
I313
I314
I318
I319
I321
I322I323
I324
I325
I326
I327 I328
I329
I331
I600
I613
I614
I616
I810
I811
I812
I813
I814
I815
I816
I817
I818
I819
I821
I822
I823
I833
I835
I836
I837
I839
I840
I845
I846
I847
I848
I849
I850
I851
I901 I902
I903
I904
I905
I906
I907
I908
I909
I910
I911
I913
I914
I916
I917
I918
I919
I920
I921
I922
IA03
IA04
IA05IA06IA07
IA09
IA11 IA12IA13
IA14
IA15
IA16
IA17
IA18
IA19
IA20
IA21
IA22
IA24
IA25
IA27
IA28
IA29
IA30
IA33
IA35
IA43
IA44
IA45 IA46
ID17
ID18
ID19
ID20
ID22
ID23
ID31
ID40
ID44
ID45
ID46
ID47
ID49
ID50
ID51
ID52
IE31
IE37
IE38IE39
IF00
IF01
IF02
IF03
IF04
IF06
IF12
IF14
IF16
IF25 IF26
IF27
IF28
IF29
IF30
IF31
IF32
IG00
IG01
IG02
IG03
IG04
IG05
IG10
IG11
IG12
IG13
IG14
IG15
IG16
IG17IG18
IG19
IG20
IG21
IG22
IG32
IH34
IH48
IK00
IK01
IK02
IK03
IK04
IK05
IK06
IK07
IK08
IK09
IK10
IK11
IK12
IK13
IK14
IK15
IK16
IK17
IK18
IK41
IK45
IK46
IK47
IL05
IL06
IL07
IL08
IL09
IL10
IL11
IL12
IL16
IL31
IL32
IL36
IL41
IM07
IM08
IM13
IM14
IM18
IM19
IM20
IM21
IM23
IM24
IM25
IM26
IM28
IM31
IM32
IM33
IM34
IM35
IM84
IM85
IM86
IM87
IM88
IM89
IM90
IN05IN06IN07
IN08
IN09
IN0A
IN0B
IN0C
IN0K
IN0M
IN0N
IN0P
IN0T
IN0V
IN0W
IN0Y
IN0Z
IN10
IN15
IN16
IN17
IN18
IN19
IP10
IP11
IP12
IP16
IP17IP18
IP19 IP20
U2
U5