Upload
jim-harmke
View
733
Download
10
Embed Size (px)
Citation preview
Published by CC/CC 1063 BU Hospitality Customer CarePrinted in Singapore Subject to modification EN 3122 785 18731
2010-Mar-05
©Copyright 2010 Koninklijke Electronics Philips N.V.All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips.
Color Television Chassis
PB52.2HULA
H_16770_000.eps 190207
ME7ME7
18440_000_090205.eps090226
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 206. Alignments 397. Circuit Descriptions 428. IC Data Sheets 459. Block Diagrams
Wiring Diagram 26" (ME7 styling) 57Wiring Diagram 32" (PnS styling) 58Wiring Diagram 37" & 42" (PnS styling) 59Wiring Diagram 52" (PnS styling) 60Block Diagram Video 61Block Diagram Audio 62Block Diagram Control & Clock Signals 63I2C IC Overview 64
10. Circuit Diagrams and PWB Layouts Drawing PWBSSB: DC / DC (B01) 66-68 113-114SSB: Pro:iDIOM (B02A) 69 113-114SSB: PNX 85xx: Power (B03) 71-77 113-114SSB: TCON Pwr. & Backl. Contr. (B04A) 78 113-114SSB: Audio Left / Right (B05) 79-80 113-114SSB: SPDIF/Debug/RS232 Int. (B06) 81-83 113-114SSB: Analog Externals (B07) 84-86 113-114SSB: USB 2.0 (B08) 87-89 113-114SSB: PNX85xx: Video Streams (B09) 90-94 113-114SSB: Pacific 3: LVDS (B10) 95-97 113-114SSB: Control STI7100 (B11) 98-105 113-114SSB: i-Board (B12) 106-107 113-114SSB: Supply (B13A) 108 113-114SSB: SRP List Explanation 109SSB: SRP List Part 1 110SSB: SRP List Part 2 111
SSB: SRP List Part 3 112Side Facing Side AV 26" (D) 115 116Side Facing Side AV 37" - 52" (D) 117 118Tuner LN: Chnl. Dec. (xxHFLxxxxL/xx) (T01A) 119 123Tuner LN: Main Tuner (xxHFLxxxxL/xx) (T01B) 120 123Tuner LN: Control (xxHFLxxxxL/xx) (T02A) 121 123Tuner LN: Video (xxHFLxxxxL/xx) (T02B) 122 123Tuner Std: Chnl. Dec. (xxHFLxxxxD/xx) (T01A) 124 126Tuner Std: Main Tuner (xxHFLxxxxD/xx) (T01B) 125 126
Revision ListEN 2 PB52.2HU LA1.
2010-Mar-05
1. Revision ListManual xxxx xxx xxxx.0• First release.
Manual xxxx xxx xxxx.1• Chapter 2: added new models according to Table 2-1.• Chapter 6: added new option codes according
to Table 6-4.
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:
26HFL5561L/27 ME7 3122 785 18731
26HFL5561V/27 ME7 3122 785 18731
32HFL4441D/27 P&S 3122 785 18731
32HFL4461F/27 P&S 3122 785 18731
32HFL5561L/27 P&S 3122 785 18730
32HFL5561V/27 P&S 3122 785 18731
37HFL4481F/27 P&S 3122 785 18731
37HFL5581D/27 P&S 3122 785 18730
37HFL5581L/27 P&S 3122 785 18730
37HFL5581V/27 P&S 3122 785 18731
42HFL5581L/27 P&S 3122 785 18731
42HFL5581V/27 P&S 3122 785 18731
52HFL5581L/27 P&S 3122 785 18731
52HFL5581V/27 P&S 3122 785 18731
Technical Specifications and Connections EN 3PB52.2HU LA 2.
2010-Mar-05
2.3 Connections
Figure 2-1 Connection overview
Note: The following connector color abbreviations are used (acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, Ye= Yellow.
2.3.1 Rear Connections
1 - RJ12: SmartPort In/Out1 - SPI Clock TTL out �2 - SPI Data in TTL in �
3 - +5V Vcc �
4 - SPI Data out TTL out �5 - GND Gnd �
6 - IR_data TTL out �
2 - Aerial - In- - F-type (US) Coax, 75 ohm �
3 - AV1: Cinch: Video CVBS - In, Audio - InYe - Video CVBS 1 VPP / 75 ohm ��Wh - Audio L 0.5 VRMS / 10 kohm ��
Rd - Audio R 0.5 VRMS / 10 kohm ��
4 - CVI: Video YPbPr - In; Audio - InGn - Video Y 1 VPP / 75 ohm ��
Bu - Video Pb 0.7 VPP / 75 ohm ��
Rd - Video Pr 0.7 VPP / 75 ohm ��Rd - Audio - R 0.5 VRMS / 10 kohm ��
Wh - Audio - L 0.5 VRMS / 10 kohm ��
5 - Cinch: S/PDIF - OutBk - Coaxial 0.4 - 0.6 VPP / 75 ohm ��
6 - External Control Connector (RS232-UART) Out - In
Figure 2-2 9-pin Sub-D Connector
1 - DCD Carrier Detect �2 - RxD Receive �
3 - TxD Transmit �
4 - DTR Data Terminal Ready �5 - Gnd Ground �
6 - DSR Data Set Ready �
7 - RTS Request To Send �8 - CTS Clear To Send �
9 - RI Ring Indicator �
7 - VGA OUT: Video RGB - In, Out
Figure 2-3 VGA Connector
1 - Video Red 0.7 VPP / 75 ohm ��
2 - Video Green 0.7 VPP / 75 ohm ��
3 - Video Blue 0.7 VPP / 75 ohm ��4 - n.c. 5 - Ground Gnd �
6 - Ground Red Gnd �7 - Ground Green Gnd �
8 - Ground Blue Gnd �
18730_001_090914.eps091002
1 2 3 4 5 7 9
6 8
10
11
12
13
14
1
6 9
5
10000_005_090121.eps090121
1
610
11
5
15
10000_002_090121.eps090127
Technical Specifications and ConnectionsEN 4 PB52.2HU LA2.
2010-Mar-05
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 ��
8 - Mini Jack: Bathroom Speaker outBk - Audio - + 8 ohm �Bk - Audio - - 8 ohm �
9 - Service Connector (UART)1 - UART_TX Transmit �2 - Ground Gnd �
3 - UART_RX Receive �
10 - HDMI 1, 2 & 3: Digital Video, Digital Audio - In
Figure 2-4 HDMI (type A) connector
1. - D2+. Data channel. �2. - Shield. Gnd. �
3. - D2-. Data channel. �
4. - D1+. Data channel. �5. - Shield. Gnd. �
6. - D1-. Data channel. �
7. - D0+. Data channel. �8. - Shield. Gnd. �
9. - D0-. Data channel. �
10. - CLK+. Data channel. �11. - Shield. Gnd. �
12. - CLK-. Data channel. �
13. - Easylink/CEC. Control channel. ��14. - n.c.. . 15. - DDC_SCL. DDC clock. �
16. - DDC_SDA. DDC data. ��
17. - Ground. Gnd. �18. - +5V. . �
19. - HPD. Hot Plug Detect. �
20. - Ground. Gnd. �
2.3.2 Side Connections
11 - USB 2.0
Figure 2-5 USB (type A)
1. - +5V. . �2. - Data (-). ��
3. - Data (+). ��
4. - Ground. Gnd. �
12 - Mini Jack: Audio Head phone - OutBk. - Head phone. 32 - 600 ohm / 10 mW. ��
13 - Cinch: Video CVBS - In, Audio - InYe. - Video CVBS. 1 VPP / 75 ohm. ��
Wh. - Audio L. 0.5 VRMS / 10 kohm. ��
Rd. - Audio R. 0.5 VRMS / 10 kohm. ��
14 - S-Video (Hosiden): Video Y/C - In1. - Ground Y. Gnd. �
2. - Ground C. Gnd. �3. - Video Y. 1 VPP / 75 ohm. �
4. - Video C. 0.3 VPP / 75 ohm. �
2.4 Chassis Overview
Refer to chapter Block Diagrams for PWB/CBA locations.
10000_017_090121.eps090428
19 1
18 2
1 2 3 4
10000_022_090121.eps090121
Precautions, Notes, and Abbreviation List EN 5PB52.2HU LA 3.
2010-Mar-05
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 PB52.2HU LA3.
2010-Mar-05
3.3.6 Alternative BOM identification
It should be noted that on the European Service website, “Alternative BOM” is referred to as “Design variant”.
The third digit in the serial number (example: AG2B0335000001) indicates the number of the alternative B.O.M. (Bill Of Materials) that has been used for producing the specific TV set. In general, it is possible that the same TV model on the market is produced with e.g. two different types of displays, coming from two different suppliers. This will then result in sets which have the same CTN (Commercial Type Number; e.g. 28PW9515/12) but which have a different B.O.M. number.By looking at the third digit of the serial number, one can identify which B.O.M. is used for the TV set he is working with.If the third digit of the serial number contains the number “1” (example: AG1B033500001), then the TV set has been manufactured according to B.O.M. number 1. If the third digit is a “2” (example: AG2B0335000001), then the set has been produced according to B.O.M. no. 2. This is important for ordering the correct spare parts!For the third digit, the numbers 1...9 and the characters A...Z can be used, so in total: 9 plus 26= 35 different B.O.M.s can be indicated by the third digit of the serial number.
Identification: The bottom line of a type plate gives a 14-digit serial number. Digits 1 and 2 refer to the production centre (e.g. AG is Bruges), digit 3 refers to the B.O.M. code, digit 4 refers to the Service version change code, digits 5 and 6 refer to the production year, and digits 7 and 8 refer to production week (in example below it is 2006 week 17). The 6 last digits contain the serial number.
Figure 3-1 Serial number (example)
3.3.7 Board Level Repair (BLR) or Component Level Repair (CLR)
If a board is defective, consult your repair procedure to decide if the board has to be exchanged or if it should be repaired on component level.If your repair procedure says the board should be exchanged completely, do not solder on the defective board. Otherwise, it cannot be returned to the O.E.M. supplier for back charging!
3.3.8 Practical Service Precautions
• It makes sense to avoid exposure to electrical shock. While some sources are expected to have a possible dangerous impact, others of quite high potential are of limited current and are sometimes held in less regard.
• Always respect voltages. While some may not be dangerous in themselves, they can cause unexpected reactions that are best avoided. Before reaching into a powered TV set, it is best to test the high voltage insulation. It is easy to do, and is a good service precaution.
3.4 Abbreviation List
0/6/12 SCART switch control signal on A/V board. 0 = loop through (AUX to TV), 6 = play 16 : 9 format, 12 = play 4 : 3 format
AARA Automatic Aspect Ratio Adaptation: algorithm that adapts aspect ratio to remove horizontal black bars; keeps the original aspect ratio
ACI Automatic Channel Installation: algorithm that installs TV channels directly from a cable network by means of a predefined TXT page
ADC Analogue to Digital ConverterAFC Automatic Frequency Control: control
signal used to tune to the correct frequency
AGC Automatic Gain Control: algorithm that controls the video input of the feature box
AM Amplitude ModulationAP Asia PacificAR Aspect Ratio: 4 by 3 or 16 by 9ASF Auto Screen Fit: algorithm that adapts
aspect ratio to remove horizontal black bars without discarding video information
ATSC Advanced Television Systems Committee, the digital TV standard in the USA
ATV See Auto TVAuto TV A hardware and software control
system that measures picture content, and adapts image parameters in a dynamic way
AV External Audio VideoAVC Audio Video ControllerAVIP Audio Video Input ProcessorB/G Monochrome TV system. Sound
carrier distance is 5.5 MHzBDS Business Display Solutions (iTV)BLR Board-Level RepairBTSC Broadcast Television Standard
Committee. Multiplex FM stereo sound system, originating from the USA and used e.g. in LATAM and AP-NTSC countries
B-TXT Blue TeleteXTC Centre channel (audio)CEC Consumer Electronics Control bus:
remote control bus on HDMI connections
CL Constant Level: audio output to connect with an external amplifier
CLR Component Level RepairComPair Computer aided rePairCP Connected Planet / Copy ProtectionCSM Customer Service ModeCTI Color Transient Improvement:
manipulates steepness of chroma transients
CVBS Composite Video Blanking and Synchronization
DAC Digital to Analogue ConverterDBE Dynamic Bass Enhancement: extra
low frequency amplificationDCM Data Communication Module. Also
referred to as System Card or Smartcard (for iTV).
DDC See “E-DDC”D/K Monochrome TV system. Sound
carrier distance is 6.5 MHzDFI Dynamic Frame Insertion
10000_024_090121.eps100105
MODEL :
PROD.NO:
~
S
32PF9968/10 MADE IN BELGIUM220-240V 50/60Hz
128WAG 1A0617 000001 VHF+S+H+UHF
BJ3.0E LA
Precautions, Notes, and Abbreviation List EN 7PB52.2HU LA 3.
2010-Mar-05
DFU Directions For Use: owner's manualDMR Digital Media Reader: card readerDMSD Digital Multi Standard DecodingDNM Digital Natural MotionDNR Digital Noise Reduction: noise
reduction feature of the setDRAM Dynamic RAMDRM Digital Rights ManagementDSP Digital Signal ProcessingDST Dealer Service Tool: special remote
control designed for service technicians
DTCP Digital Transmission Content Protection; A protocol for protecting digital audio/video content that is traversing a high speed serial bus, such as IEEE-1394
DVB-C Digital Video Broadcast - CableDVB-T Digital Video Broadcast - TerrestrialDVD Digital Versatile DiscDVI(-d) Digital Visual Interface (d= digital only)E-DDC Enhanced Display Data Channel
(VESA standard for communication channel and display). Using E-DDC, the video source can read the EDID information form the display.
EDID Extended Display Identification Data (VESA standard)
EEPROM Electrically Erasable and Programmable Read Only Memory
EMI Electro Magnetic InterferenceEPG Electronic Program GuideEPLD Erasable Programmable Logic DeviceEU EuropeEXT EXTernal (source), entering the set by
SCART or by cinches (jacks)FDS Full Dual Screen (same as FDW)FDW Full Dual Window (same as FDS)FLASH FLASH memoryFM Field Memory or Frequency
ModulationFPGA Field-Programmable Gate ArrayFTV Flat TeleVisionGb/s Giga bits per secondG-TXT Green TeleteXTH H_sync to the module HD High DefinitionHDD Hard Disk DriveHDCP High-bandwidth Digital Content
Protection: A “key” encoded into the HDMI/DVI signal that prevents video data piracy. If a source is HDCP coded and connected via HDMI/DVI without the proper HDCP decoding, the picture is put into a “snow vision” mode or changed to a low resolution. For normal content distribution the source and the display device must be enabled for HDCP “software key” decoding.
HDMI High Definition Multimedia InterfaceHP HeadPhoneI Monochrome TV system. Sound
carrier distance is 6.0 MHzI2C Inter IC busI2D Inter IC Data busI2S Inter IC Sound busIF Intermediate FrequencyIR Infra RedIRQ Interrupt RequestITU-656 The ITU Radio communication Sector
(ITU-R) is a standards body subcommittee of the International Telecommunication Union relating to radio communication. ITU-656 (a.k.a.
SDI), is a digitized video format used for broadcast grade video. Uncompressed digital component or digital composite signals can be used. The SDI signal is self-synchronizing, uses 8 bit or 10 bit data words, and has a maximum data rate of 270 Mbit/s, with a minimum bandwidth of 135 MHz.
ITV Institutional TeleVision; TV sets for hotels, hospitals etc.
LS Last Status; The settings last chosen by the customer and read and stored in RAM or in the NVM. They are called at start-up of the set to configure it according to the customer's preferences
LATAM Latin AmericaLCD Liquid Crystal DisplayLED Light Emitting DiodeL/L' Monochrome TV system. Sound
carrier distance is 6.5 MHz. L' is Band I, L is all bands except for Band I
LPL LG.Philips LCD (supplier)LS LoudspeakerLVDS Low Voltage Differential SignallingMbps Mega bits per secondM/N Monochrome TV system. Sound
carrier distance is 4.5 MHzMHEG Part of a set of international standards
related to the presentation of multimedia information, standardised by the Multimedia and Hypermedia Experts Group. It is commonly used as a language to describe interactive television services
MIPS Microprocessor without Interlocked Pipeline-Stages; A RISC-based microprocessor
MOP Matrix Output ProcessorMOSFET Metal Oxide Silicon Field Effect
Transistor, switching deviceMPEG Motion Pictures Experts GroupMPIF Multi Platform InterFaceMUTE MUTE LineMTV Mainstream TV: TV-mode with
Consumer TV features enabled (iTV)NC Not ConnectedNICAM Near Instantaneous Compounded
Audio Multiplexing. This is a digital sound system, mainly used in Europe.
NTC Negative Temperature Coefficient, non-linear resistor
NTSC National Television Standard Committee. Color system mainly used in North America and Japan. Color carrier NTSC M/N= 3.579545 MHz, NTSC 4.43= 4.433619 MHz (this is a VCR norm, it is not transmitted off-air)
NVM Non-Volatile Memory: IC containing TV related data such as alignments
O/C Open CircuitOSD On Screen DisplayOAD Over the Air Download. Method of
software upgrade via RF transmission. Upgrade software is broadcasted in TS with TV channels.
OTC On screen display Teletext and Control; also called Artistic (SAA5800)
P50 Project 50: communication protocol between TV and peripherals
PAL Phase Alternating Line. Color system mainly used in West Europe (color carrier= 4.433619 MHz) and South America (color carrier PAL M=
Precautions, Notes, and Abbreviation ListEN 8 PB52.2HU LA3.
2010-Mar-05
3.575612 MHz and PAL N= 3.582056 MHz)
PCB Printed Circuit Board (same as “PWB”)PCM Pulse Code ModulationPDP Plasma Display PanelPFC Power Factor Corrector (or Pre-
conditioner)PIP Picture In PicturePLL Phase Locked Loop. Used for e.g.
FST tuning systems. The customer can give directly the desired frequency
POD Point Of Deployment: a removable CAM module, implementing the CA system for a host (e.g. a TV-set)
POR Power On Reset, signal to reset the uPPSDL Power Supply for Direct view LED
backlight with 2D-dimmingPSL Power Supply with integrated LED
driversPSLS Power Supply with integrated LED
drivers with added Scanning functionality
PTC Positive Temperature Coefficient, non-linear resistor
PWB Printed Wiring Board (same as “PCB”)PWM Pulse Width ModulationQRC Quasi Resonant ConverterQTNR Quality Temporal Noise ReductionQVCP Quality Video Composition ProcessorRAM Random Access MemoryRGB Red, Green, and Blue. The primary
color signals for TV. By mixing levels of R, G, and B, all colors (Y/C) are reproduced.
RC Remote ControlRC5 / RC6 Signal protocol from the remote
control receiver RESET RESET signalROM Read Only MemoryRSDS Reduced Swing Differential Signalling
data interfaceR-TXT Red TeleteXTSAM Service Alignment ModeS/C Short CircuitSCART Syndicat des Constructeurs
d'Appareils Radiorécepteurs et Téléviseurs
SCL Serial Clock I2CSCL-F CLock Signal on Fast I2C busSD Standard DefinitionSDA Serial Data I2CSDA-F DAta Signal on Fast I2C busSDI Serial Digital Interface, see “ITU-656”SDRAM Synchronous DRAMSECAM SEequence Couleur Avec Mémoire.
Color system mainly used in France and East Europe. Color carriers= 4.406250 MHz and 4.250000 MHz
SIF Sound Intermediate FrequencySMPS Switched Mode Power SupplySoC System on ChipSOG Sync On GreenSOPS Self Oscillating Power SupplySPI Serial Peripheral Interface bus; a 4-
wire synchronous serial data link standard
S/PDIF Sony Philips Digital InterFaceSRAM Static RAMSRP Service Reference ProtocolSSB Small Signal BoardSSC Spread Spectrum Clocking, used to
reduce the effects of EMISTB Set Top BoxSTBY STand-BYSVGA 800 × 600 (4:3)
SVHS Super Video Home SystemSW SoftwareSWAN Spatial temporal Weighted Averaging
Noise reductionSXGA 1280 × 1024TFT Thin Film TransistorTHD Total Harmonic DistortionTMDS Transmission Minimized Differential
SignallingTS Transport StreamTXT TeleteXTTXT-DW Dual Window with TeleteXTUI User InterfaceuP MicroprocessorUXGA 1600 × 1200 (4:3)V V-sync to the module VESA Video Electronics Standards
AssociationVGA 640 × 480 (4:3)VL Variable Level out: processed audio
output toward external amplifierVSB Vestigial Side Band; modulation
methodWYSIWYR What You See Is What You Record:
record selection that follows main picture and sound
WXGA 1280 × 768 (15:9)XTAL Quartz crystalXGA 1024 × 768 (4:3)Y Luminance signalY/C Luminance (Y) and Chrominance (C)
signalYPbPr Component video. Luminance and
scaled color difference signals (B-Y and R-Y)
YUV Component video
Mechanical Instructions EN 9PB52.2HU LA 4.
2010-Mar-05
4. Mechanical Instructions
Index of this chapter:4.1 Cable Dressing4.2 Service Positions4.3 Assy/Panel Removal4.4 Set Re-assembly
Notes:
• Disassembly instructions for the ME7 styling below are based on the 32” model (chassis PB52.1HU LA), but is comparable for all other models with the ME7 styling.
• Disassembly instructions for the PnS styling below are based on the 37” model (chassis PB52.2HU LA), but is comparable for all other models with the PnS styling.
• Figures below can deviate slightly from the actual situation, due to the different set executions.
4.1 Cable Dressing
Figure 4-1 Cable dressing 26HFL5561D/27 (ME7 styling)
18730_212_090930.eps091002
Mechanical InstructionsEN 10 PB52.2HU LA4.
2010-Mar-05
Figure 4-2 Cable dressing 32HFL5561D/27 (PnS styling)
Tape only the HV cable
Tape IR cable onto Speaker
18730_201_090915.eps090915
Mechanical Instructions EN 11PB52.2HU LA 4.
2010-Mar-05
Figure 4-3 Cable dressing 32HFL5561L/27 (PnS styling)
Tape only the HV cable
Tape IR cable onto Speaker
18730_202_090915.eps090915
Mechanical InstructionsEN 12 PB52.2HU LA4.
2010-Mar-05
Figure 4-4 Cable dressing 37HFL5581D/27 (PnS styling)
18730_203_090915.eps090915
Mechanical Instructions EN 13PB52.2HU LA 4.
2010-Mar-05
Figure 4-5 Cable dressing 37HFL5581L/27 (PnS styling)
18730_204_090915.eps090915
Mechanical InstructionsEN 14 PB52.2HU LA4.
2010-Mar-05
Figure 4-6 Cable dressing 42HFL5581D/27 (PnS styling)
18730_205_090915.eps090915
Mechanical Instructions EN 15PB52.2HU LA 4.
2010-Mar-05
Figure 4-7 Cable dressing 42HFL5581L/27 (PnS styling)
18730_206_090915.eps090915
Mechanical InstructionsEN 16 PB52.2HU LA4.
2010-Mar-05
Figure 4-8 Cable dressing 52HFL5581D/27 (PnS styling)
4.2 Service Positions
For easy servicing of a TV set, the set should be put face down on a soft flat surface, foam buffers or other specific workshop tools. Ensure that a stable situation is created to perform measurements and alignments. When using foam bars take care that these always support the cabinet and never only the display. Caution: Failure to follow these guidelines can seriously damage the display! Ensure that ESD safe measures are taken.
4.3 Assy/Panel Removal
4.3.1 Rear Cover
Warning: Disconnect the mains power cord before you remove the rear cover.Note: it is necessary to remove the stand before removing the rear cover.
1. Remove all screws from the back cover.2. Lift the back 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
1. Remove the speaker connector on the SSB.2. Remove the screws that hold the speaker and take the
speaker out.When defective, replace the whole unit.
4.3.3 IR & LED Board
1. Unplug the connectors that lead to the SSB and the Key Board Control Panel.
2. Remove the screws.3. Lift the board and take it out of the set.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 the connectors.2. Remove the fixation screws.3. Take the board out.When defective, replace the whole unit.
18730_210_090916.eps090916
Mechanical Instructions EN 17PB52.2HU LA 4.
2010-Mar-05
4.3.6 Small Signal Board (SSB) and Tuner Bolt-on
Refer to next figures for details.Caution: it is mandatory to remount all different screws at their original position during re-assembly. Failure to do so may result in damaging the SSB.1. Unplug the LVDS connector [1].
Caution: be careful, as this is a very fragile connector! See figure 4-9 SSB cover.
2. Unplug the connectors [2].3. Remove the screws [3] and remove the top shielding of the
SSB.4. Remove the screws [4] that hold the subframe of the SSB.
The subframe can now be taken out of the set, together with the SSB and tuner bolt-on.
5. To remove the tuner bolt-on, release the connectors [5] and remove the cables.
6. Remove the screws [6] and lift the tuner bolt-on from the SSB.
7. Remove the locknuts [7] and screws [8] from the SSB connector plate and take the SSB from the subframe.
Figure 4-9 SSB cover
Figure 4-10 SSB
Figure 4-11 SSB connector plate
18730_207_090915.eps090915
1 22
3 3
3
3
18730_208_090916.eps090916
5
4
6
18730_209_090916.eps090916
7
8
Mechanical InstructionsEN 18 PB52.2HU LA4.
2010-Mar-05
4.3.7 LCD Panel ME7 styling
Figure 4-12 LCD Panel ME7 styling
Refer to Figure 4-12 for details. This particular photo is taken from another chassis with different boards but with a similar construction.1. Unplug the LVDS connector [1].
Caution: be careful, as this is a very fragile connector!2. Unplug the connectors [2].3. Remove the fixation screws [3] and [4].4. Lift the subframe from the set.5. The LCD panel can now be lifted from the front cabinet.
I_17500_064.eps091002
12
2
4
4
4
4
3 3 3
3 3
3 3 33
Mechanical Instructions EN 19PB52.2HU LA 4.
2010-Mar-05
4.3.8 LCD Panel PnS Styling
Figure 4-13 LCD Panel PnS styling
Refer to Figure 4-13 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 another chassis with different boards but with a similar construction.1. Remove the Main Supply Panel and Small Signal Board as
earlier described and remove their subframes.2. Unplug the connectors to and from the Speakers, IR & LED
Board and Key Board Control Panel.3. Remove the speaker boxes.4. Remove the stand [1].5. Release the subframe from the stand [2].6. Remove the brackets [3] that secure the LCD Panel.7. The LCD panel can now be lifted from the front cabinet.
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 to Figure 4-8.
• Pay special attention not to damage the EMC foams on the SSB shields. Ensure that EMC foams are mounted correctly.
18440_103_090223.eps090709
12
3 3
3
32
Service Modes, Error Codes, and Fault FindingEN 20 PB52.2HU LA5.
2010-Mar-05
5. Service Modes, Error Codes, and Fault Finding
Index of this chapter:5.1 Test Points5.2 Hotel mode5.3 Service Modes5.4 Stepwise Start-up5.5 Service Tools5.6 Error Codes5.7 The Blinking LED Procedure5.8 Protections5.9 Fault Finding and Repair Tips5.10 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: Color bar signal.• Audio: 3 kHz left, 1 kHz right.
5.2 Hotel mode
Before the service modes can be activated, the set needs to be switched into normal consumer mode (MTV-Mode) first. Use an iTV setup remote control (type: RC2753/01, 12nc: 3139 228 88782) to key in the code ‘024995’ directly followed by the MENU (“M”) button. The text messages “TV Is Now In MTV Mode” and “Please Do A Cold Start!” appears on the screen. Disconnect the set for a few seconds from the mains supply, reconnect the set to the mains supply again. The set is now in the normal consumer mode (MTV-Mode). After repair, place the set into hotel mode (iTV-Mode) again. Key-in the same code on the remote control as described above, followed by the MENU (“M”) button. The text message “TV Is Now In ITV Mode” appears. A cold start must be performed as described above. The set is now in the hotel mode (iTV-Mode) again.
5.3 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 division 5.5.1 ComPair.
5.3.1 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 stepwise start up). See paragraph “Stepwise Start Up”.
• To override SW protections detected by MIPS. See also paragraph “Error codes”.
• To start the blinking LED procedure (not valid for protections detected by standby software).
Specifications
Table 5-1 SDM default settings
• Tuning frequency 61.25 MHz for NTSC: The TV shall tune to physical channel 3 only if channel 3 is an analog channel or if there is no channel 3 installed in the channel map. If there is a digital channel installed in channel 3, then the frequency to which the set will tune, would be as specified in the channel map and could be different from the one corresponding to the physical channel 3.
• All picture settings at 50% (brightness, color, contrast).• All sound settings at 50%, except volume at 25%. • All service-unfriendly modes (if present) are disabled, like:
– (Sleep) timer.– Blue mute/Wall paper.– Auto switch “off” (when there is no “ident” signal).– Hotel or hospital mode.– Child lock or parental lock (manual or via V-chip).– Skipping, blanking of “Not favorite”, “Skipped” or
Locked” presets/channels.– Automatic storing of Personal Preset or Last Status
settings.– Automatic user menu time-out (menu switches back/
OFF automatically.– Automatic volume levelling (AVL).
How to Activate SDMFor this chassis there is one kinds of SDM: an analogue SDM Tuning will happen according table “SDM Default Settings”.• Analogue SDM: use the standard RC-transmitter and key
in the code “062596”, directly followed by the “MENU” button. Note: It is possible that, together with the SDM, the main menu will appear. To switch it “off”, push the “MENU” button again.
• Analogue SDM can also be activated by shorting for a moment the two solder pads on the SSB, with the indication “SDM”. Activation can be performed in all modes, except when the set has a problem with the Stand-by Processor.
After activating this mode, “SDM” will appear in the upper right corner of the screen (if you have picture).
How to NavigateWhen you press the “MENU” button on the RC transmitter, the set will toggle between the SDM and the normal user menu (with the SDM mode still active in the background).
How to Exit SDMUse one of the following methods:• Completely remove the power by removing the power plug.
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
NAFTA, AP-NTSC,LATAM
61.25 (ch 3) NTSC M
Service Modes, Error Codes, and Fault Finding EN 21PB52.2HU LA 5.
2010-Mar-05
5.3.2 Service Alignment Mode (SAM)
Purpose• To perform (software) alignments.• To change option settings.• To easily identify the used software version.• To view operation hours.• To display (or clear) the error code buffer.
How to Activate SAMVia a standard RC transmitter: key in the code “062596” directly followed by the “INFO” button. After activating SAM with this method a service warning will appear on the screen, you can continue by pressing the red button on the RC.
Contents of SAM:• Hardware Info.
– A. SW Version. Displays the software version of the main software (example: P52U1_1.6.12.0 = AAAAB_X.Y.W.Z). • AAAA= the chassis name.• B= the region: A= AP, E= EU, L= LatAm, U = US.
For AP sets it is possible that the Europe software version is used.
• 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 maximal 10 errors). The most recent error is displayed at the upper left (for an error explanation see paragraph “Error Codes”).
• Reset Error Buffer. When you press “cursor right” (or the “OK button) and then the “OK” button, the error buffer is reset.
• Alignments. This will activate the “ALIGNMENTS” sub-menu.
• Dealer Options. Extra features for the dealers.• Options. Extra features for Service. For more info
regarding option codes, see chapter 8 “Alignments”.Note that if you change the option code numbers, you have to confirm your changes with the “OK” button before you store the options. Otherwise you will loose your changes.
• Initialize NVM. The moment the processor recognizes a corrupted NVM, the “initialize NVM” line will be highlighted. Now, you can do two things (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 you have a corrupted NVM, or you have replaced the NVM, there is a high possibility that you will not have picture anymore because your display code is not correct. So, before you can initialize your NVM via the SAM, you need to have a picture and therefore you need the correct display option. Refer to chapter 8 for details. To adapt this option, you can 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” button and “XXX”, where XXX is the 3 digit decimal display code (see table “Option code overview” in chapter 8 “Alignments”, or sticker on the side/bottom of the cabinet). 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 5-1 Location of Display Option Code sticker
• Store. All options and alignments are stored when pressing “cursor right” (or the “OK” button) and then the “OK”-button.
• SW Maintenance.– SW Events. Not useful for Service purposes. In case
of specific software problems, the development department can ask for this info.
– HW Events. Not useful for Service purposes. In case of specific software problems, the development department can ask for this info.
• Test settings. For development purposes only.• Upload to USB. To upload several settings from the TV to
a USB stick, which is connected to the Side I/O. The items are “Channel list”, “Personal settings”, “Option codes”, “Display-related alignments” and “History list”. First you have to create a directory “repair” in the root of the USB stick.To upload the settings you have to 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 your 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 you have a picture. 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 info.
10000_038_090121.eps090819
PHILIPSMODEL:32PF9968/10
PROD.SERIAL NO:
AG 1A0620 000001
040
39mm
27m
m
(CTN Sticker)
Display OptionCode
Service Modes, Error Codes, and Fault FindingEN 22 PB52.2HU LA5.
2010-Mar-05
How to Navigate• In SAM, you can select the menu items with the “CURSOR
UP/DOWN” key on the RC-transmitter. The selected item will be highlighted. When not all menu items fit on the screen, move the “CURSOR UP/DOWN” key to display the next/previous menu items.
• With the “CURSOR LEFT/RIGHT” keys, it is possible to:– (De) activate the selected menu item.– (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:• Press the “MENU” button on the RC-transmitter.• Switch the set to STAND-BY via the RC-transmitter.
5.3.3 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 in this chassis CSM is activated, a color bar test pattern will be visible for 5 seconds. This test pattern is generated by the Pacific3. So if you see this test pattern you can determine that the back end video chain (Pacific3, LVDS, and display) of the SSB is working. In case of a set with DFI panel, an extra test picture is generated. So you will see the Pacific3 test picture for 3 seconds and then the DFI EPLD test picture for another 3 seconds. With this extra test picture you can determine if the DFI board is working properly.Also new in this chassis: when you activate CSM 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 your USB stick. This info can be handy if you do not have picture. Another new item in this chassis is when CSM is activated, the complete error-buffer content will be shown via the blinking LED procedure.
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 on the RC-transmitter, you can navigate through the menus.
Contents of CSM• 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.
• Code 1. Gives the last five errors of the error buffer. As soon as the built-in diagnose software has detected an error, the buffer is adapted. The last occurred error is displayed on the leftmost position. Each error code is displayed as a 2-digit number. When less than 10 errors
occur, the rest of the buffer is empty (00). See also paragraph “Error Codes” for a description.
• Code 2. Gives the first five errors of the error buffer. See also paragraph “Error Codes” for a description.
• 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 consists of 14 characters and is built up as follows:- Seven last characters of the 12NC of the SSB itself.- the serial number of the SSB, which consists of seven digits. Both can be found on a sticker on the PWB of the SSB itself. The format of the identification number is then as follows: <last seven characters of 12NC of SSB><serial number of SSB> (total fourteen characters).
• Installed date. Indicates the date of the first installation of the TV. This date is acquired via time extraction.
• Pixel Plus. Gives the last status of the Perfect Pixel HD setting, as set by the customer. Possible values are “ON” and “OFF”. See DFU on how to change this item.
• DNR. Gives the last status of the Noise reduction setting, as set by the customer. Possible values are “OFF”, “MINIMUM”, “MEDIUM” and “MAXIMUM”. See DFU on how to change this item.
• Noise Figure. Gives an indication of the signal quality for the selected transmitter. Possible values are “BAD”, “AVERAGE”, “GOOD” and “DIGITAL”. In case of a digital channel, this item will never indicate: “BAD”, “GOOD” or “AVERAGE” but only displays “DIGITAL”.
• 12NC Display. Shows the 12NC of the display.• MPEG 4 (blue to toggle). Shows the status of the MPEG 4
module. On or Off. See DFU on how to change this item.• Headphone Volume. Gives the last status of the
headphone volume, as set by the customer. The value can vary from 0 (volume is minimum) to 100 (volume is maximum). See DFU on how to change this item.
• Surround Mode. Indicates the by the customer selected sound mode (or automatically chosen mode). Possible values are “STEREO” and “VIRTUAL DOLBY SURROUND”. It can also have been selected automatically by signalling bits (internal software). See DFU on how to change this item.
• AVL. Indicates the last status of AVL (Automatic Volume Level) as set by the customer: See DFU on how to change this item.
• Delta Volume. Indicates the last status of the delta volume for the selected preset as set by the customer: from “-12” to “+12”. See DFU on how to change this item.
• Volume. Indicates the last status of the volume for the selected preset as set by the customer: from “0” to “100”. See DFU on how to change this item.
• Balance. Indicates the last status of the balance for the selected preset as set by the customer: from “-10” to “+10”. See DFU on how to change this item.
• Preset Lock. Indicates if the selected preset has a child lock: “LOCKED” or “UNLOCKED”. See DFU on how to change this item.
• Lock after. Indicates at what time the channel lock is set: “OFF” or e.g. “18:45” (lock time). See DFU on how to change this item.
• TV ratings lock. Only applicable for US.• Movie ratings lock. Only applicable for US.• V-Chip TV status. Only applicable for US.• V-Chip movie status. Only applicable for US.• Region rating status (RRT). Only applicable for US.• Region rating enabled. On of Off.• Table channel changed. Yes or No.• On timer. Indicates if the “On timer” is set “ON” or “OFF”
and when it is set to “ON”, also start time, start day and
Service Modes, Error Codes, and Fault Finding EN 23PB52.2HU LA 5.
2010-Mar-05
program number is displayed. See DFU on how to change this item.
• Location. Gives the last status of the location setting as set via the installation menu. Possible values are “SHOP” and “HOME”. If the location is set to “SHOP”, several settings are fixed. So for a customer location must be set to “HOME”. Can be changed via the installation menu (see also DFU).
• HDMI key validity. Indicates if the HDMI keys (or HDCP keys) are valid or not. In case these keys are not valid and the customer wants to make use of the HDMI functionality, the SSB has to be replaced.
• TV System. Gives information about the video system of the selected transmitter.– BG: PAL BG signal received– DK: PAL DK signal received– L/La: SECAM L/La signal received– I: PAL I signal received– M: NTSC M signal received– ATSC: ATSC signal received
• 12NC one zip SW. Displays the 12NC number of the one-zip file as it is used for programming software in production. In this one-zip file all below software versions can be found.
• Initial main SW. Displays the main software version which was initially loaded by the factory.
• 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: Q582E_1.2.3.4.
• Flash utils SW. Displays the software version of the software which contains all necessary components of the download application. To program this software, EJTAG tooling is needed. Example: Q582E_1.2.3.4.
• Standby SW. Displays the built-in stand-by processor software version. Upgrading this software will be possible via ComPair or via USB (see chapter Software upgrade). Example: STDBY_3.0.1.2.
• MOP SW. Only applicable for US. At the time of release of this manual, there was still a problem with this item, and some rubbish was displayed. Ignore this.
• Pacific 3 Flash SW. Displays the Pacific 3 software version.
• NVM version. Displays the NVM version as programmed by factory.
• Display parameters. For development purposes only.• Private PQ parameters. For development purposes only.• Public PQ parameters. For development purposes only.• Ambilight parameters. For development purposes only.• Acoustics parameters. For development purposes only.• DFI software (if applicable). Displays the DFI EPLD
software.• DFI ambilight software (if applicable). Displays the DFI
ambilight EPLD software.• MPEG4 software. Displays the MPEG4 software version.
How to Exit CSMPress “MENU” on the RC-transmitter.
5.4 Stepwise Start-up
There are two possible situations: one for protections detected by the stand-by software and one for protections detected by the main software.When the TV is in a protection state due to an error detected by stand-by software (and thus blinking an error) and SDM is activated via short-circuiting the pins on the SSB, the TV starts up until it reaches the situation just before protection. So, this is a kind of automatic stepwise start-up. In combination with the start-up diagrams below, you can see which supplies are present at a certain moment. Important to know is, that if e.g. the 3V3 detection fails (and thus error 8 is blinking) and the TV is restarted via SDM, the Stand-by Processor will enable the 3V3, but 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 7U08 is done, you can destroy all ICs supplied by the +3V3, due to overvoltage. It is recommended to measure first the FET 7U08 on short-circuit before activating SDM via the service pads.When the TV is in protection state due to an error detected by main software (MIPS protection) and SDM is activated via short-cutting the service pads on the SSB, the TV starts up and ignores the error.In this chassis, only error “63” (power-ok) is a MIPS protection and already displays the failure via blinking LED.
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.
Service Modes, Error Codes, and Fault FindingEN 24 PB52.2HU LA5.
2010-Mar-05
Figure 5-2 Transition diagram
H_17650_093.eps180108
On
Active Semi St by
St by (Off St by)
Off
Mains on
Mains off
GoToProtection
- WakeUp requested - Acquisition needed
- No data Acquisition required and no POD present - tact SW pushed
- St by requested - tact SW pushed
WakeUp requeste
d
Protection
WakeUp requeste
d
GoToProtection
POD St by
No data Acquisition
required and POD present - POD Card removed
- tact SW pushed
GoToProtection
- WakeUp requested - Acquisition needed
For POD should be read Common Interface (CI)
Service Modes, Error Codes, and Fault Finding EN 25PB52.2HU LA 5.
2010-Mar-05
Figure 5-3 “Off” to “Semi Stand-by” flowchart (part 1)
All I/O lines have a High default state:- Switch PNX85xx in reset (active LOW).
- Keep the Audio-reset high.- NVM power line is high, no NVM communication possible.
Off
Standby Supply starts running.All standby supply voltages become available .
st-by µP resets
action holder: MIPS
autonomous action
action holder: St-by
Stand by or Protection
Mains is applied
- Switch Audio-Reset high.It is low in the standby mode if the standby
mode lasted longer than 10s.
No
Yes
SP
“5V 12V supply” errordetect-5V-12V received within2900 ms after POD-mode I/O
line toggle?
No
SPYes
Detectionreceived within
250 ms after enable-3V3 toggle?
+5V, and +12V are switched on
NoSUPPLY-FAULT I/O line is High?
Switch ON Platform and display supply by switching LOW the POD-MODE and the ON-MODE I/O lines.
Initialise I/O pins of the st-by µP, start keyboard scanning, RC detection. Wake up reasons are off.
If the protection state was left by short circuiting the SDM pins, detection of a protection condition during startup will stall the startup. Protection conditions in a playing set will be ignored. The protection mode will
not be entered.
PDPGO line is high (either HW wise in a non FHP set or because of the stby µP reset in an FHP set) which will start the
FHP PDP.
Wait 50ms and then start polling the detect-5V-12V every 40ms.
The availability of the supplies is checked through detect signals going to the st-by µP. These signals are available
for +12V and +5V (combined as AND function, called detect-5V-12V) and for +1V2 and +3V3 (combined as
AND function, called detect-1V2-2V5-3V). A low to high transition of the signals should occur within a certain time after toggling the standby line. If an observer is detected
before the time-out elapses, of course, the process should continue in order to minimize start up time.
No separate enable is present for the +1V8 supply in the TV522.
Only one detect line is present in the TV522: it detects +1V2 and +3V3
100ms is recommended by the PNX85xx spec
.
The supply fault line is an OR function of DCDC, DCDC5050 and POD/CI supply switch.
Display supply is switched on through the ON-mode I/O line
activate +5V/+12V supplydetection algorithm. See CHS protections.
Off/Stby to Semi
Enable the +1V2 supply (ENABLE-1V2)
Wait 100ms
Enable the supply for +1.8V and +3.3V (ENABLE-3V3)
Start polling the detect-1V2-2V5-3V3 every 40ms
1V2 2V5 3V3 DCDC error
Activate supply detection algorithms for DC-DC outputs
Wait 20ms
Supply fault error
H_17650_094a.eps090826
Service Modes, Error Codes, and Fault FindingEN 26 PB52.2HU LA5.
2010-Mar-05
Figure 5-4 “Off” to “Semi Stand-by” flowchart (part 2)
MIPS reads the wake up reasonfrom standby µP.
3-th try?
No
EJTAG probe connected ?
No
Yes
Bootscript readyin 1250 ms?
Yes
No
Enable Alive check mechanism
Wait until AVC starts to communicate
SW initialization succeededwithin 20s?
No
Switch POD-MODE and ON-MODE I/O line high.
Release AVC system resetFeed warm boot script
Cold boot?
Yes
No
RPC start (comm. protocol)
Set I²C slave address of Standby µP to (A0h)
Set I²C slave address of Standby µP to (60h)
Yes
Enable the supply fault detection algorithm
No
Yes
SP
SUPPLY-FAULT I/O line is High?
Disable all supply related protections and switch off the +2V5, +3V3 DC/DC converter.
switch off the remaining DC/DC converters
Wait 5ms
Switch AVC PNX85xx in reset (active low)
Wait 10ms
Switch the NVM reset line HIGH.
Flash to Ram image transfer succeeded
within 30s?
No
Yes
Code = 53
Code = 5
The supply fault line is an OR function of DCDC, DCDC5050 and POD/CI supply switch.
An EJTAG probe (e.g. WindPower ICE probe) can be connected for Linux Kernel debugging purposes.
Switch LOW the RESET-NVM_WP-NANDFLASH line. Add a 2ms delay before trying to address the NVM to allow correct NVM initialization.
This will allow access to NVM and NAND FLASH and can not be done earlier because the FLASH needs to be in Write Protect as long as the supplies are not available.
Reset the Pacific by pulling LOW the Pacific hardware reset line during 100ms. No
Supply fault error
Detect EJTAG debug probe(pulling pin of the probe interface to ground by inserting EJTAG probe)
Release AVC system resetFeed cold boot script
Release AVC system resetFeed initializing boot scriptdisable alive mechanism
Boot process of the PNX5050 also starts at this point.
No
Power-ok display high ?
In case of an LCD set, check the Power-OK display line
No
Yes
Log power-ok error and enter protection
MP H_17650_094b.eps090826
Service Modes, Error Codes, and Fault Finding EN 27PB52.2HU LA 5.
2010-Mar-05
Figure 5-5 “Off” to “Semi Stand-by” flowchart (part 3)
Yes
Semi-Standby
initialize tuner , Master IF and channel decoder
Initialize video processing IC 's :- PNX5050 in /82- scaler EPLD
Initialize source selection
initialize AutoTV by triggering CHS AutoTV Init interface
3-th try?
Blink Code as error code
SP
Switch POD-MODE and ON-MODE I/O line high.
switch off the remaining DC/DC converters
Do not enter semi-standby state in case of an LPL scanning backlight LCD set before 4s preheating timer has elapsed.
Initialize Ambilight with Lights off .
Initialize Pacific or EPLD related Ambilight settings (if applicable)
Pacific acknowledges?
Ping the Pacific through I²C
Reset the Pacific by pulling LOW the Pacific hardware reset line during 100ms.
Release Pacific reset and wait 200ms
Third Pacific boot retry?No
No
Yes
Log Pacific error
Yes
Enable the Pacific output by sending the PanelConfig.PanelOn to the Pacific in case of a DFI set
This is needed here because the Pacific has to deliver an output clock towards the DFI. Otherwise the DFI cannot deliver ambilight functionality in the lampadaire mode. The presence of the DFI can be determined via the display option.
Downloaded successfully?
Download firmware into the channel decoder
Third try? No
No
Yes
Log channel decoder error
Yes
Channel decoderTDA 10048? YesNo
- Channeldecoder type TDA10060 cannot be reloaded without reset of the channeldecoder.- Channeldecoder type TDA10048 can be reloaded without reset. Initialize audio according FMS information:
Start 4 seconds preheating timer in case of an LPL scanning backlight LCD set.
Init Pacific according use case :- lvds or CMOS input and output- panel config…
to be discussed with Stefan / SW if we will put this here or in the display excel overview of Stefan or in …..
Power-ok display high ? No
Yes
Log power-ok error and enter protection
MP
Wait until Cpipe delivers a stable output clock
Reset EPLD
Wait 100ms
Reset Pacific clock
EPLD and Pacific should be reset when a stable input clock becomes available at their input.
H_17650_094c.eps090826
Service Modes, Error Codes, and Fault FindingEN 28 PB52.2HU LA5.
2010-Mar-05
Figure 5-6 “Semi Stand-by” to “Active” flowchart
H_16770_110.eps290307
Active
Semi Standby
action holder: AVC
autonomous action
action holder: St-by
Initialize audio and video processing IC's and functions according needed use case.
Assert RGB video blanking and audio mute
Wait until previous on-state is left more than 2 seconds ago. (to prevent LCD display problems)
Switch Audio-Reset low and wait 5ms
Restore dimming backlight feature, PWM output and unblank the video.
Wait until valid and stable audio and video , corresponding to the requested output is delivered by the AVC AND the
backlight PWM has been on for 1second.
The higher level requirement is that audio and video should be demuted without transient effects and that the
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 audio handling is done (e.g. volume change)
wait 250ms (min. = 200ms)
Switch on LCD backlight
Switch off the dimming backlight feature and make sure PWM output is set to 100%
Switch on the display by sending the PanelConfig.PanelOn (I²C) command to the Pacific
Rewrite Pacific register 0x03 (output format) : this command is sometimes not processed properly by the
Pacific at initialisation time , resending it here solves the issue.
Service Modes, Error Codes, and Fault Finding EN 29PB52.2HU LA 5.
2010-Mar-05
Figure 5-7 “Active” to “Semi Stand-by” flowchart
H_16770_112.eps260307
Semi Standby
Active action holder: AVC
autonomous action
action holder: St-by
Wait 250ms (min. = 200ms)
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 the PanelConfig.PanelOff (I²C) command to the Pacific
switch off ambient light
Set main amplifier mute (I/O: audio-mute)
Wait 100ms
Service Modes, Error Codes, and Fault FindingEN 30 PB52.2HU LA5.
2010-Mar-05
Figure 5-8 “Semi Stand-by” to “Stand-by” flowchart
H_16770_114.eps260307
transfer Wake up reasons to the Stand by µP.
Stand by
Semi Stand byaction holder: MIPS
autonomous action
action holder: St-by
Disable all supply related protections and switch off the +1V8 and the +3V3 DC/DC converter
Switch OFF all supplies by switching HIGH the POD -MODE and the ON-MODE I/O lines.
Switch AVC system in reset state
Important remark:release reset audio 10 sec after entering standby to save power
switch off the +1V2 DC/DC converters
Wait 5ms
For PDP this means CPUGO becomes low.
Wait 10ms
Switch the NVM reset line HIGH.
Delay transition until ramping down of ambient light is finished. *)
If ambientlight functionality was used in semi -standby (lampadaire mode), switch off ambient light
*) If this is not performed and the set is switched to standby when the switch off of the ambilights is still ongoing , the lights will switch off abruptly when the supply is cut.
Switch Memories to self-refresh (this creates a more stable condition when switching off the power).
Service Modes, Error Codes, and Fault Finding EN 31PB52.2HU LA 5.
2010-Mar-05
Figure 5-9 “Protection” flowchart
H_16770_115.eps290307
Protection
action holder: MIPS
autonomous action
action holder: St-by
Redefine wake up reasons for protection state and transfer to stand-by µP.
Log the appropriate error andset stand-by flag in NVM
MP
Ask stand-by µP to enter protection state
Flash the Protection-LED in order to indicate protection state*. (*): This can be the standby LED or the ON LED
depending on the availability in the set under discussion .
SP
Switch off LCD lamp supply
Wait 250ms (min. = 200ms)
Switch off LVDS signal
Switch off 12V LCD supply within a time frame of min. 0.5ms to max. 50ms after LVDS switch off.
Disable all supply related protections and switch off the +1V8 and the +3V3 DC/DC converter.
Switch OFF all supplies by switching HIGH the POD -MODE and the ON-MODE I/O lines.
Switch AVC in reset state
switch off the +1V2 DC/DC converter
Wait 5ms
Wait 10ms
Switch the NVM reset line HIGH.
Service Modes, Error Codes, and Fault FindingEN 32 PB52.2HU LA5.
2010-Mar-05
5.5 Service Tools
5.5.1 ComPair
IntroductionComPair (Computer Aided Repair) is a Service tool for Philips Consumer Lifestyle products. and offers the following:1. ComPair helps you to quickly get an understanding on how
to repair the chassis in a short and effective way.2. ComPair allows very detailed diagnostics and is therefore
capable of accurately indicating problem areas. You do not have to know anything about I2C or UART commands yourself, because ComPair takes care of this.
3. ComPair speeds up the repair time since it can automatically communicate with the chassis (when the uP is working) and all repair information is directly available.
4. ComPair features TV software up possibilities.
SpecificationsComPair consists of a Windows based fault finding program and an interface box between PC and the (defective) product. The (new) ComPair II interface box is connected to the PC via an USB cable. For the TV chassis, the ComPair interface box and the TV communicate via a bi-directional cable via the service connector(s).
How to ConnectThis is described in the ComPair chassis fault finding database.
Figure 5-10 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: 312278591020.• Software is available via the Philips Service web portal.• ComPair RS232 cable: 310431112742 (to be used with
chassis Q52x). Note: If you encounter any problems, contact your local support desk.
5.6 Error Codes
5.6.1 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. Basically there are three kinds of errors:• Errors detected by the Stand-by software. These errors
will always lead to protection and an automatic start of the blinking LED for the concerned error (see paragraph “The Blinking LED Procedure”). In these cases SDM can be used to start up (see chapter “Stepwise Start-up”). Note that it can take up to 90 seconds before the TV goes to protection and starts blinking the error (e.g. error 53)
• Errors detected by main software that lead to protection. In this case the TV will go to protection and the front LED should also blink the concerned error. See also paragraph “Error Codes” -> “Error Buffer” -> “Extra Info”. For this chassis only error 63 is a protection error detected by main software.
• Errors detected by main software that do not lead to protection. In this case the error will be logged into the error buffer and can be read out via ComPair, via blinking LED method, or in case you have picture, via SAM.
5.6.2 How to Read the Error Buffer
Use one of the following methods:• On screen via the SAM (only if you have a picture). E.g.:
– 00 00 00 00 00: No errors detected– 06 00 00 00 00: Error code 6 is the last and only
detected error– 09 06 00 00 00: Error code 6 was first detected and
error code 9 is the last detected error• Via the blinking LED procedure (when you have no
picture). See next paragraph.• Via ComPair.• Via CSM. when CSM is activated the blinking LED
procedure will start and the CSM content will be written to a USB stick (if present).
5.6.3 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.
5.6.4 Error Buffer
In case of non-intermittent faults, clear the error buffer before you begin the repair (before clearing the buffer, write down the content, as this history can give you 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
10000_036_090121.eps091118
TOUART SERVICECONNECTOR
TOUART SERVICECONNECTOR
TOI2C SERVICECONNECTOR
TO TV
PC
HDMII2C only
Optional power5V DC
ComPair II Developed by Philips Brugge
RC outRC in
OptionalSwitch
Power ModeLink/Activity I2C
ComPair IIMulti
function
RS232 /UART
Service Modes, Error Codes, and Fault Finding EN 33PB52.2HU LA 5.
2010-Mar-05
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 PNX85xx.• Via a “not acknowledge” of an I2C communication.
Take notice that some errors need more than 90 seconds 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 Error code overview
Note1) Where applicable.
Extra Info• 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 paragraph “Stand-by software upgrade). You will see that the loggings which are generated by the main software keep continuing. In this case (rebooting) diagnose has to be done via ComPair.
• Error 3 (I2C bus 3 blocked). At the time of release of this manual, this error was not working as expected (error 3 is logged and can be read out). Current situation: 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 (e.g. read out the NVM content). Instead of error “3” it is possible you will see error “2” in the error buffer.
• Error 5 (PNX85xx 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 PNX85xx (supplies not OK, PNX 8535 completely dead, I2C link between PNX and Stand-by Processor broken, etc...). When error 5 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-SLAVE, SDA-SLAVE, SCL-2 or SDA-2.
• Error 11 (I2C MUX1). Indicates a blocked (short circuited) I2C-MUX1 bus. At the time of release of this manual, this error was not working as expected. Current situation: when this error occurs the TV will constantly reboot due to the blocked bus. The best way for further diagnosis, is to use ComPair (e.g. read out the NVM content).
• Error 12 (I2C MUX2). Indicates a blocked (short circuited) I2C-MUX2 bus. At the time of release of this manual, this error was not working as expected. Current situation: when this error occurs the TV will constantly reboot due to the blocked bus. The best way for further diagnosis, is to use ComPair (e.g. read out the NVM content).
• Error 24 (I2C switch). As a side effect of error 24 it is possible that error 47(no existing error) will also be logged.
• Error 28 (DFI Ambilight MOP). It can take up to 2 minutes or more before this error is logged. So if you suspect that this MOP is defective: clear the error buffer, restart the TV and wait for about 2 minutes before checking the error buffer.
• Error 37 (Channel decoder). When this error occurs, there probably will be no picture and sound from tuner input. As a side effect of error 37 it is possible that error 4 (no existing error) is also logged.
• Error 46 (Pacific 3). When there is an actual problem with or around the Pacific during start-up, you will have no picture and error 46 will be blinked via the blinking LED procedure. For further diagnosis you can always dump the CSM content on USB stick (see CSM) or use ComPair.
• Error 53. This error will indicate that the PNX85xx has read his bootscript (if this would have failed, error 5 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 error 53.
• Error 63 (POWER OK). When this error occurs, it means that the POWER-OK line did not became “high”. This error is only applicable for TV’s with an LCD display. For PDP displays there will be no protection during a POWER-OK line failure, but error 63 will be logged in the error buffer. Caution: in case a PDP TV ends up into power-ok protection, it can indicate that the display option code is set to “LCD”. To change the display option code to “PDP” you need to activate SDM via the service pads (see figure “Service mode pads”). Then change the display option code blindly via a standard RC: key in the code “062598” directly followed by the “MENU” button and “XXX” (where XXX is the 3 digit decimal display option code as mentioned in figure “Display option code overview”).
• Error 65 (DFI EPLD error). When this error occurs it means that there is a problem with the I2C communication towards the EPLD (picture processing EPLD, not the Ambilight EPLD) on the DFI panel.
• Error 75 - 77. These errors are introduced specifically for the iTV part of these sets.
Error DescriptionError/Prot
Detected by Device Result
3 I2C3 E MIPS PNX85xx Error logged.
5 PNX85xx does not boot (HW cause)
E Stby P PNX85xx Error blinking.
6 5V, 12V supply P Stby P / Protection + Error blinking.
8 1V2, 1V4, 2V5, 3V3 supply
P Stby P / Protection + Error blinking.
9 Supply fault P Stby P / Protection + Error blinking.
11 I2C-MUX1 E MIPS PCA9540 Error logged.
12 I2C-MUX2 E MIPS PCA9540 Error logged.
22 PNX5050 E MIPS PNX5050 Error logged.
23 HDMI mux E MIPS AD8190/AD8191
Error logged.
24 I2C switch E MIPS PCA9540 Error logged.
26 Master IF E MIPS TDA9898/9897/9890
Error logged.
28 MOP (Ambilight MOP on DFI panel)1)
E MIPS EP2CXXF484C7N
Error logged.
34 Tuner E MIPS TD1716 Error logged.
37 Channel decoder E MIPS TDA10060/TDA10048
Error logged.
38 MPEG4 E MIPS STi71xx Error logged.
46 Pacific3 E MIPS T6TF4 Error blinking + Error logged.
53 PNX85xx does not boot (SW cause)
E Stby P PNX85xx Error blinking.
63 Power OK E/P MIPS / Error logged in case of a PDP set. Protection in case of an LCD set.
65 DFI (EPLD on DFI panel)1)
E MIPS / Error blinking + Error logged.
75 iBoard n.a. n.a. n.a. n.a.
76 Pro:Idiom n.a. n.a. n.a. n.a.
77 DMSD n.a. n.a. n.a. n.a.
Service Modes, Error Codes, and Fault FindingEN 34 PB52.2HU LA5.
2010-Mar-05
5.7 The Blinking LED Procedure
5.7.1 Introduction
The blinking LED procedure can be split up into two situations:• In case of a protection. In this case the error is
automatically blinked. This will be only one error, namely the one that is causing the protection. Therefore, you do not have to do anything special, just read out the blinks. A long blink indicates the decimal digit, a short blink indicates the units.
• In the “on” state. Via this procedure, you can make the contents of the error buffer visible via the front LED. This is especially useful for fault finding, when there is no picture.
When the blinking LED procedure is activated in the “on” state, the front LED will show (blink) the contents of the error-buffer. Error-codes > 10 are shown as follows:1. “n” long blinks (where “n” = 1 - 9) indicating decimal digit,2. A pause of 1.5 s,3. “n” short blinks (where “n”= 1 - 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 s,6. The sequence starts again. Example: Error 12 8 6 0 0. After activation of the SDM, the front LED will show: 1. 1 long blink of 750 ms (which is an indication of the decimal
digit) followed by a pause of 1.5 s,2. 2 short blinks of 250 ms followed by a pause of 3 s,3. 8 short blinks followed by a pause of 3 s,4. 6 short blinks followed by a pause of 3 s,5. 1 long blink of 3 s to finish the sequence,6. The sequence starts again.
5.7.2 How to Activate
Use one of the following methods:• Activate the SDM or CSM. The blinking front LED will
show the entire contents of the error buffer (this works in “normal operation” mode).
• 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.
5.8 Protections
5.8.1 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,
+1V2, +1V4, 2V5 and +3V3.• Protections related to breakdown of the safety check
mechanism. E.g. since the protection detections are done by means of software, failing of the software will have to initiate a protection mode since safety cannot be guaranteed any more.
Remark on the Supply ErrorsThe detection of a supply dip or supply loss during the normal playing of the set does not lead to a protection, but to a cold reboot of the set. If the supply is still missing after the reboot, the TV will go to protection.
Protections during Start-upDuring TV start-up, some voltages and IC observers are actively monitored to be able to optimize the start-up speed, and to assure good operation of all components. If these monitors do not respond in a defined way, this indicates a malfunction of the system and leads to a protection. As the observers are only used during start-up, they are described in the start-up flow in detail (see paragraph “Stepwise Start-up”).
5.8.2 Hardware Protections
The only real hardware protection in this chassis is (in case of an audio problem) the audio protection circuit that will switch “off” immediately the supply of the SSB. The supply will buzz during the protection and +12VS drops to approximately 5V5 and +5V Stand-by to approximately to 1V9. Other indication of the audio protection is that the red LED lights up with an intensity of 50%.
Repair Tips• It is also possible that you have an audio DC protection
because of an interruption in one or both speakers (the DC voltage that is still on the circuit cannot disappear through the speakers). Caution: (dis)connecting the speaker wires during the ON state of the TV at high volume can damage the audio amplifier.
5.9 Fault Finding and Repair Tips
Read also paragraph “Error Codes” -> “Error Buffer” -> “Extra Info”.
5.9.1 Ambilight
Due to a degeneration process of the AmbiLight, it is recommended to change all ambilight units in case one unit needs to be repaired.
5.9.2 CSM
When you activate CSM 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 your USB stick. If this mechanism works you can conclude that a large part of the operating system is already working (MIPS, USB...)
5.9.3 Exit “Factory Mode”
When an “F” is displayed in the screen’s right corner, this means that the set is in “Factory” mode, and it normally happens after a new SSB has been mounted. To exit this mode, push the “VOLUME minus” button on the TV’s keyboard control for 5 seconds and restart the set.
Service Modes, Error Codes, and Fault Finding EN 35PB52.2HU LA 5.
2010-Mar-05
5.9.4 SSB Replacement
Follow the instructions in the flowchart in case you have to exchange the SSB. See figure “SSB replacement flowchart”.
Refer to section 7.1.2 Service Attention Points for further details.
Figure 5-11 SSB replacement flowchart [1/2]
H_16771_007a.eps091119
STAR T
C onnect the U SB s tick to the set, go to SAM and save the current TV settings via “Upload to USB”
Set is s till operating?
Yes
1. D isconnect the WiF i module from the PC I connector (only for Q549.x SSB)2. Replace the SSB by a Service SSB.3. Place the WiFi module in the PCI connector.4. Mount the Service SSB in the set.
Set behaviour?
Yes
No
N o
Instruction note SSB replacem ent Q543.x - Q548.x - Q549.x
Before starting:- prepare a USB memory stick with the latest software- download the latest Main Software (Fus) from www.p4c.philips.com- unzip this file- create a folder ”upgrades” in the root of a USB stick (size > 50 MB) and save the autorun.upg file in this "upgrades" folder.Note: it is possible to rename this file, e.g."Q54x_SW_version.upg"; this incase there are more than one "autorun.upg" files on the USB stick.
No picture displayed Picture displayedSet is starting up without software upgrade menu appearing on screen
Picture displayedSet is starting up with software upgrade menu appearing on screen
Due to a possible wrong display option code in the received ServiceSSB (NVM), it’s possible that no picture is displayed. Due to this the download application will not be shown either. This tree enables you to load the main software step-by-step via the UART logging on the PC(this for visual feedback).
Start-up the set
1) Start up the TV set, equiped with the Service SSB, and enable the UART logging on the PC.
2) The TV set will start-up automatically in the download application if main TV software is not loaded.
3) Plug the prepared USB stick into the TV set. Follow theinstructions in the UART log file, press “Right” cursor key to enter
the list. Navigate to the “autorun.upg” file in the UART loggingprintout via the cursor keys on the remote control. When the
correct file is selected, press “Ok”.
4) Press "Down" cursor and “Ok” to start flashing the mainTV software. Printouts like: “L: 1-100%, V: 1-100% and P: 1-100%” should be visible now in the UART logging.
5) Wait until the message “Operation successful !” is logged inthe UART log and remove all inserted media. Restart the TV set.
1) Plug the USB stick into the TV set and select the “autorun .upg” file in the displayed browser.
2) Now the main software will be loaded automatically,supported by a progress bar.
3) Wait until the message “Operation successful !” is displayedand remove all inserted media. Restart the TV set.
Set the correct “Display code” via “062598 -HOME- xxx” where“xxx” is the 3 digit display panel code (see sticker on the side
or bottom of the cabinet)
After entering the “Display Option” code, the set is going to Standby
(= validation of code)
Restart the set
Connect PC via the ComPair interface to Service connector.
Start TV in Jett mode (DVD I + (OSD))Open ComPair browser Q54x
Program set type number, serial number, and display 12 NCProgram E - DFU if needed.
Go to SAM and reload settingsvia “Download from USB” function.
In case of settings reloaded from USB, the set type,serial number, display 12 NC, are automatically storedwhen entering display options.
- Check if correct “display option” code is programmed.- Verify “option codes” according to sticker inside the set.- Default settings for “white drive” > see Service Manual.
Q54x.E SSB Board swap – VDSUpdated 19-08-2009
If not already done:Check latest software on Service website.
Update main and Stand-by software via USB.
Check and perform alignments in SAM according to theService Manual. Option codes, colour temperature, etc.
Final check of all menus in CSM.Special attention for HDMI Keys and Mac address.
Check if E - D F U is present.
End
Attention point for Net TV: If the set type and serial number are notfilled in, the Net TV functionality will not work. It will not be possibleto connect to the internet.
Saved settingson USB stick?
Service Modes, Error Codes, and Fault FindingEN 36 PB52.2HU LA5.
2010-Mar-05
Figure 5-12 SSB replacement flowchart [2/2]
H_16771_007b.eps091119
Restart the set
Set is start ing up in Factory m ode
Set is starting up in Factory mode?
Noisy picture with bands/lines is visible and theRED LED is continuous on.
An “F” is displayed and the HDMI 1 input is displayed.
- Press the “volume minus” button on the TVs local keyboard for 10 seconds
- Press the “SOURCE” button for 10 seconds until the “F” disappearsfrom the screen or the noise on the screen is replaced by “blue mute”
The noise on the screen is replaced with the blue mute or the “F” is disappeared!
Unplug the mainscord to verify the correctdisabling of the factory-mode.
Program display option code via “062598 MENU”, followed by
the 3 digits code of the display(this code can be found
on a sticker inside the set).
After entering “display option” code, the set is going in stand-by mode (= validation of code)
Service Modes, Error Codes, and Fault Finding EN 37PB52.2HU LA 5.
2010-Mar-05
5.9.5 Display option code
Caution: In case you have replaced the SSB, always check the display option code in SAM, even if you have picture. With a wrong display option code it is possible that you have picture, but that in certain conditions you have unwanted side-effects.
5.9.6 Upgrade EDID NVM
To upgrade the EDID NVM you must short circuit pin 7 of the EDID NVM to ground. Therefore some test points (EDID1 and EDID2) are foreseen near the HDMI connectors, see ComPair for further instructions.
5.10 Software Upgrading
5.10.1 WARNING - Flashing iBoard and/or NVM
When flashing iBoard and/or NVM, always check that you have the correct software (PB52.2/.3 HU LA). No software version check is implemented in this chassis. Accidental software flashing from earlier chassis will cause the set to be inoperative!
5.10.2 Introduction
The set software and security keys are stored in a NAND-Flash, which is connected to the PNX85xx 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, ...).Perform the following actions after SSB replacement:1. Set the correct option codes (see sticker inside the TV).2. Update the TV software (see the DFU for instructions).3. Perform the alignments as described in chapter 8 (section
“Reset of Repaired SSB”).4. Check in CSM if the HDMI keys are valid.
5.10.3 Main Software Upgrade
The software image resides in the NAND-Flash, and is formatted in the following way, see table 5-3 NAND-Flash content.
Table 5-3 NAND-Flash content
• The above overview of the NAND Flash shows the content of the different partitions. It also shows which part of the one-zip file erases and programs which part of the NAND Flash.
• Remark: the above does not mean that you can reprogram your HDMI keys with the “UpgradeAll.upg” file from the one zip file. This can only be done in a secure environment (e.g. the factory).
• The “UpgradeAll.upg” file is only used in the factory.• The “FlashUtils.upg” file is only used by service centers
which 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. 3104 337 03801 _FUS _Q582E_ 0.37.0.0_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 your USB stick.How to upgrade:1. Copy “AUTORUN.UPG” to the root of your USB stick.2. Insert USB stick in the side I/O while the set is in ON
MODE. The set will restart and the upgrading will start automatically. As soon as the programming is finished, you will get the message that you can remove your USB stick and restart the set.
Manual Software UpgradeIn case that the software upgrade application does not start automatically, you can also start it 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 DVD RC-6 remote
control (it is also possible to use the 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 that you have started the download application manually, the “autorun.upg” will maybe not be recognized.What to do in this case:1. Create a directory “UPGRADES” on your 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 your USB stick.
3. Copy the renamed “upg” file into this directory.4. Insert USB stick in the side I/O.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, you can try to activate the “back-up software upgrade application”.
How to start the “back-up software upgrade application” manually:
Nand Flash content FUS UPG Upgrade All UPG Flash Utils UPG
Partition Content erase program erase program erase program
JFFS2 partition 1 (application read write data) Channel table, EPG data x x x
JFFS2 partition 0 (Application read only once data) HDMI keys, back up display file x x
JFFS2 partition 0 (Application read only upgradeable data) wizard pictures, display file, cabinet file, upgrade assistant x x x
SQUASHFS partition Main software (MIPS) Linux structure (root file system) x x x x
BFFS partition 2 (DVD OK) Default software upgrade application TriMedia software boot batch file 2
x x x x
BFFS partition 1 (DVD cursor down) Back up software upgrade application boot batch file 1 Linux kernel JETT: needed for ComPair
x x x x
BFFS partition 0 Jaguar Boot loader boot batch file 0 x x
Block 0 BTM partition table x
Service Modes, Error Codes, and Fault FindingEN 38 PB52.2HU LA5.
2010-Mar-05
1. Disconnect the TV from the Mains/AC Power.2. Press the “CURSOR DOWN” button on a Philips DVD RC-
6 remote control (it is also possible to use the TV remote in “DVD” mode). Keep the “cursor down” button pressed while reconnecting the TV to the Mains/AC Power.
3. The software upgrade application will start.
5.10.4 Stand-by Software Upgrade
There are two methods now to upgrade stand-by software:
Upgrade via USBIn 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 your USB stick.2. Copy the Stand-by software (part of the one-zip file, e.g.
StandbySW_CFT01_9.0.0.0.upg) into this directory.3. Insert the USB stick into the TV.4. Start the download application manually (see paragraph
“Manual start of the Software Upgrade Application”.5. Select the appropriate file and press the “red” button to
upgrade.
Upgrade via PC and ComPair interfaceIt will be possible to upgrade the Stand-by software via a PC and the ComPair interface. Check paragraph “ComPair” on how to connect the interface. To upgrade the Stand-by software, use the following steps:1. Disconnect the TV from the Mains/AC Power.2. Short circuit the SPI pins [2] on the SSB (see figure
“Service mode pads” earlier in this chapter).3. Keep the SPI pins shorted while connecting the TV to the
Mains/AC Power.4. Release the short circuit after approximately two seconds.
5. Start up Hyper Terminal (can be found in every Windows application via Programs -> Accessories -> Communications -> Hyper Terminal). Use the following settings: – COM1– Bits per second = 38400 (9600)*– Data bits = 8– Parity = none– Stop bits = 1– Flow control = None
6. Press “Shift U” on your PC keyboard. You should now see the following info:– PNX2015 Loader V1.0– 19-09-2003– DEVID=0x05– Erasing– MCSUM=0x0000– =
7. If you do not see the above info, restart the above procedure, and check your Hyper Terminal settings and the connections between PC and TV.
8. Via “Transfer” -> “Send text file ...”, you can send the proper upgrade file to the TV (e.g. *.hex).
9. After successful programming, you must see the following info (this can take several minutes!):– DCSUM=0xC67E– :Ok– MCSUM=0xC67E– Programming– PCSUM=0xC67E– Finished
10. If you do not see this info, restart the complete procedure.11. Close Hyper Terminal.12. Disconnect and connect Mains/AC Power again.(*) When having problems with upgrading, use the values between brackets.
Alignments EN 39PB52.2HU LA 6.
2010-Mar-05
6. Alignments
Index of this chapter:6.1 General Alignment Conditions6.2 Hardware Alignments6.3 Software Alignments6.4 Option Settings
Note: The Service Default Mode (SDM) and Service Alignment Mode (SAM) are described in chapter 5. Menu navigation is done with the CURSOR UP, DOWN, LEFT or RIGHT keys of the remote control transmitter.
6.1 General Alignment Conditions
Perform all electrical adjustments under the following conditions:• Power supply voltage (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 heatsinks as ground.
• Test probe: Ri > 10 Mohm, 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 paragraph “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
There are no hardware alignments foreseen for this chassis, but below find an overview of the most important DC voltages on the SSB. These can be used for checking proper functioning of the DC/DC converters, see table 6-1 SSB DC Voltages.
Table 6-1 SSB DC Voltages
6.3 Software Alignments
Put the set in SAM mode (see Chapter 5 “Service Modes, Error Codes and Fault Finding”). The SAM menu will now appear on the screen. Select ALIGNMENTS and go to one of the sub menus. The alignments are explained below.
The following item can be aligned:• Whitepoint.
To store the data:• Press OK on the RC before the cursor is moved to the left.• In main menu select “Store” and press OK on the RC.• Press MENU on the RC to switch back to the main menu.• Switch the set to stand-by mode.
For the next alignments, supply the following test signals via a video generator to the RF input:• EU/AP-PAL models: a PAL B/G TV-signal with a signal
strength of at least 1 mV and a frequency of 475.25 MHz• US/AP-NTSC models: an NTSC M/N TV-signal with a
signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3).
• LATAM models: an NTSC M TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3).
• DVB-T models: see table “SDM default settings” in chapter 5.
6.3.1 White Point
• Set “Active control” to “Off”. • Choose “TV menu”, “TV Settings” and then “Picture” and
put:– “Dynamic contrast” to “Off”.– “Color enhancement” to “Off”.– “Light sensor” to “Off” where applicable.– “Clear LCD” to “On” where applicable.– “Brightness” to “50”.– “Color” to “0”.– “Contrast” to “100”.
• Go to the SAM and select “Alignments”-> “Whitepoint”.
White point alignment LCD screens:• Use a 100% white screen as input signal and set the
following values: – “Color temperature”: “Normal”.– All “Whitepoint” values to: “127”.– “Red BL offset” values to “8”.– “Green BL offset” values to “8”.
In case you have a color analyzer:• Measure with a calibrated (phosphor- independent) color
analyzer 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 “White D alignment values”). Tolerance: dx: ± 0.004, dy: ± 0.004.
Description Test Point SupplyMin. Typ. Max.
- Audio power FU15 -11.40 -12.00 -12.60 PSU
+ Audio power FU16 +11.40 +12.00 +12.60 PSU
+5V-standby FU18/FM25 +5.14 +5.20 +5.46 PSU
+12V FU19/FM26 +11.40 +12.00 +12.60 PSU
+1V2 FU06 +1.20 +1.25 +1.30 DC-DC
+3V3 FU07 +3.15 +3.30 +3.45 DC-DC
+1V8 IHZ3 t.b.d. +1.80 t.b.d. DC-DC
+5V-ON FU80 +4.95 +5.00 +5.30 DC-DC
+3V3-PI t.b.d. t.b.d. +3.30 t.b.d. Pro:idiom
+3V3-standby FU86 +3.15 +3.30 +3.45 DC-DC
+1V2-standby FU85 +1.20 +1.25 +1.30 DC-DC
+3V3-MP4 FAK5 +3.15 +3.30 +3.45 ST
+2V6-MP4 FAKC +2.50 +2.60 +2.70 ST
+1V1 FAK1 +1.05 +1.10 +1.15 ST
+12V1 F230 +11.40 +12.00 +12.60 I-board
Description Test Point SupplyMin. Typ. Max.
AlignmentsEN 40 PB52.2HU LA6.
2010-Mar-05
• Repeat this step for the other color 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 6-2 White D alignment values
If you do not have a color analyzer, you can use the default values. This is the next best solution. The default values are average values coming from production (statistics).• Select a COLOUR TEMPERATURE (e.g. COOL,
NORMAL, or WARM).• Set the RED, GREEN and BLUE default values according
to the values in the “Tint settings” table.• When finished press OK on the RC, then press STORE (in
the SAM root menu) to store the aligned values to the NVM.• Restore the initial picture settings after the alignments.
Table 6-3 Tint settings
6.4 Option Settings
6.4.1 Introduction
The microprocessor communicates with a large number of I2C ICs in the set. To ensure good communication and to make digital diagnosis possible, the microprocessor has to know which ICs to address. The presence / absence of these specific ICs (or functions) is made known by the option codes. Notes: • After changing the option(s), save them 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.x
• 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 Opt. No. (Option numbers)
Select this sub menu to set all options at once (expressed in two long strings of numbers).An option number (or “option byte”) represents a number of different options. When you change these numbers directly, you can set all options very quickly. All options are controlled via eight option numbers.When the NVM is replaced, all options will require resetting. To be certain that the factory settings are reproduced exactly, you must set both option number lines. You can find the correct option numbers on a sticker inside the TV set and in Table “Option code overview”.
Example: The options sticker gives the following option numbers:• 57768 03076 08515 13923• 59272 00068 00000 00000
The first line (group 1) indicates hardware options 1 to 4, the second line (group 2) indicates 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 tables “Option code overview” for the options.
Value Cool (11000 K)Normal (9000 K) Warm (6500 K)
x 0.278 0.289 0.314
y 0.278 0.291 0.319Colour Temp. R G B
Cool t.b.d. t.b.d. t.b.d.
Normal t.b.d. t.b.d. t.b.d.
Warm t.b.d. t.b.d. t.b.d.
Alignments EN 41PB52.2HU LA 6.
2010-Mar-05
6.4.3 Option Code Overview
Table 6-4 Option 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!
CTN Display type Display code
Group 1 Group 2
OB1 OB2 OB3 OB4 OB5 OB6 OB7 OB8
26HFL5561D/27 LPL - LC260WXE-SBB1 214 33160 35877 41423 46707 30678 00102 00000 00000
26HFL5561H/27 LPL - LC260WXE-SBB1 214 33160 35877 41423 46707 30678 00102 00000 00000
26HFL5561L/27 LPL - LC260WXE-SBB1 214 33160 35877 41423 46707 30678 00102 00000 00000
26HFL5561V/27 LPL - LC260WXE-SBB1 214 33160 35877 41423 46707 30678 00102 00000 00000
32HFL5561D/27 LPL - LC320WXE-SBA1 213 33160 35883 41423 30677 63419 00102 00000 00000
32HFL5561H/27 LPL - LC320WXE-SBA1 213 41352 35883 41423 46707 30677 00102 00000 00000
32HFL5561L/27 LPL - LC320WXE-SBA1 213 41352 35883 41423 46707 30677 00102 00000 00000
32HFL5561V/27 LPL - LC320WXE-SBA1 213 41352 35883 41423 46707 30677 00102 00000 00000
32HFL4441D/27 LPL - LC320WXE-SBA1 213 41352 35883 41423 46707 30677 00098 00000 00000
32HFL4461F/27 LPL - LC320WXE-SBA1 213 41352 35883 41423 46707 30677 00102 00000 00000
37HFL5581D/27 LPL - LC370WUE-SBA1 201 49546 35883 41423 46707 30665 00102 00000 00000
37HFL5581L/27 LPL - LC370WUE-SBA1 201 57738 35883 41423 46707 30665 00102 00000 00000
37HFL5581V/27 LPL - LC370WUE-SBA1 201 57738 35883 41423 46707 30665 00102 00000 00000
37HFL4481F/27 LPL - LC370WUE-SBA1 201 57738 35883 41423 46707 30665 00102 00000 00000
42HFL5581D/27 LPL - LC420WUE-SBA1 205 57738 35883 41423 46707 30669 00102 00000 00000
42HFL5581H/27 LPL - LC420WUE-SBA1 205 57738 35883 41423 46707 30669 00102 00000 00000
42HFL5581L/27 LPL - LC420WUE-SBA1 205 57738 35883 41423 46707 30669 00102 00000 00000
42HFL5581V/27 LPL - LC420WUE-SBA1 205 57738 35883 41423 46707 30669 00102 00000 00000
52HFL5581D/27 SRP - LK520D3LA53 187 57738 35883 41423 46707 30651 00102 00000 00000
52HFL5581D/27 SRP - LK520D3LA53P 209 57738 35883 41423 46707 30673 00102 00000 00000
52HFL5581L/27 SRP - LK520D3LA53 187 57738 35883 41423 46707 30651 00102 00000 00000
52HFL5581L/27 SRP - LK520D3LA53P 209 57738 35883 41423 46707 30673 00102 00000 00000
52HFL5581V/27 SRP - LK520D3LA53 187 57738 35883 41423 46707 30651 00102 00000 00000
52HFL5581V/27 SRP - LK520D3LA53P 209 57738 35883 41423 46707 30673 00102 00000 00000
Circuit DescriptionsEN 42 PB52.2HU LA7.
2010-Mar-05
7. Circuit Descriptions
Index of this chapter:7.1 Introduction7.2 Main Supply
Notes: • Only new circuits (circuits that are not published recently)
are described. For a description of most circuitry, refer to the Q528.1E LA Service Manual.
• Figures can deviate slightly from the actual situation, due to different set executions.
• For a good understanding of the following circuit descriptions, please use the wiring, block (chapter 6) and circuit diagrams (chapter 7). Where necessary, you will find a separate drawing for clarification.
7.1 Introduction
This chassis (member of the “TV522” platform) is a derivative from the PB52.1HU LA chassis with the same Pro:Idiom® technology and iBoard functionality. It comes with the ME7 styling for the 26" and the PnS styling for all other sets.
Difference with the previous PB52.1HU LA chassis is the implementation of the “LodgeNet” tuner board on the SSB.
7.1.1 Features
The main features for this chassis are: • The introduction of a module referred to as “Light Guide” on
the front side of the set (in some sets).
• Support of DVB-C reception (in some sets).• For hospitality TV this chassis is provided with Pro:Idiom®
technology.• For all other features: refer to the Q528.1E LA/LB and
PB52.1HU LA/LB Service Manual.
7.1.2 Service Attention Points
• One SSB version is to be used in different sets. So if a SSB is installed in a TV-set, the technician has to make sure the options are set correctly. Section 5.9.4 SSB Replacement describes the way to do a board exchange.
• The ComPair connection to the set for this platform is made to a headphone jack on the back of the sets which carry's a RS232 level connection to communicate. For this, the in chapter 5 paragraph “ComPair” mentioned RS232 cable is needed.
• The repair workshop repairing the SSBs on component level must load the latest set and NVM software in the SSB before sending the boards back in the pool. This to make sure that the board is working in a proper way when it is mounted in a "to repair" set.
• In the CSM menu, the 12nc of the display will be mentioned.
7.1.3 PB522 Architecture Overview
For details about the chassis block diagrams refer to chapter “Block diagrams, Test Point Overview, and Waveforms”. An overview of the PB522 architecture can be found in Figure 7-1.
Figure 7-1 Architecture of PB522 platform
I_17500_001.eps100305
Matrix HD@60Hz FHD@60Hz
EP2C8ALT00FPGA
PCI/XIO
32
EPROM
NXP PNX8541
USB2.0FLASH64MB
Pac3
ADI8191 HDMI switch
Decoder TDA10060
Master IF
Pro:Idiom LGDT1128
FLASH8
STi7101 MPEG4 HD
32
DDR1 64MB
AmbiLight 2
Discreetamp
YUV20 RGB30 HDMI 1(rear) HDMI 2(rear) HDMI 3(MPEG4)
Hybrid Tuner Saw
PB Micro UPSD3333D
BR/Pend
SAA7113 encoder
TS CVBS
32
DDR-II64MB
Circuit Descriptions EN 43PB52.2HU LA 7.
2010-Mar-05
7.1.4 Pro:Idiom® Technology
This chassis is equipped with the second generation Pro:Idiom® decryption device for the hospitality television receiver market. The LGDT1128A/29 device family includes enhanced electrostatic protection as well as adding MPEG 4
decrypting ability in the LGDT 1129 series. Pro:Idiom® is the leading content protection technology in the hospitality industry and the LGDT 1128A/29 device family makes integration of this technology into televisions and set top boxes simple and cost efficient. This device is mounted on the SSB.
Figure 7-2 Architecture of Pro:Idiom
7.1.5 SSB Cell Layout
Figure 7-3 SSB top view
I_17500_003.eps170408
Receiver Block Diagram LGDT 1128A/29 Signal Description
LGDT 1128A/29
Inputs: Data [7..0] Start of Packet Data Valid TS Clock
Outputs: Data [7..0] Start of Packet Data Valid TS Clock
27 MHz
I2C[3..0]
Reset
I2C
• Control Tuner for RF Channel Selection
Tuner Pro:IdiomDecryption
ATSCDemodulator
MPEGDecoder
Receivermicro
• Control Sub-Program selection in multiplexed MPEG transport stream
Consumer Remote Control
Micro Bus
ConditionalAcces
Display
PNX8541
STI7100
Pro:Idiom
HDMISWITCH
DD
RS
DR
AM
DD
RS
DR
AM
DDR2SDRAM
DDR2SDRAM
CLASS - D
SYSTEM INTERFACE
DC - DC CONVERSION
I_17500_071.eps070408
Circuit DescriptionsEN 44 PB52.2HU LA7.
2010-Mar-05
7.2 Main Supply
Below find an overview of the PSUs that are used:
Table 7-1 Supply diversity
They are a black-box for Service. When defective, a new panel must be ordered and the defective panel must be sent for repair, unless the main fuse of the panel is broken. Always replace a defective fuse with one with the correct specifications! This part is available in the regular market.
7.2.1 PLHL-T847A (26"), PLHL-T827B (32"), PLHL-T846A (37"), PLHL-T828B (42")
Connector Pin Assignment
7.2.2 DPS-331AP-2A B (52")
Connector Pin Assignment
Rise-and-Fall Sequence
Figure 7-4 Rise-and-fall sequence 52"
Supplier PSU Model Input Voltage Range
LGInnotek PLHL-T847A 26" Universal (90 to 270 VAC)
LGInnotek PLHL-T827B 32" Universal (90 to 270 VAC)
LGInnotek PLHL-T846A 37" Universal (90 to 270 VAC)
LGInnotek PLHL-T828B 42" Universal (90 to 270 VAC)
Delta Elec. DPS-331AP-2A B 52" Universal (90 to 270 VAC)
Pin no.
Connector
CN1 CN2, CN3 CN4 CN5 CN6
1 N HV +3V3Stdby +12V +12V
2 L HV Stdby +12V +12V
3 - HV GND GND n.c.
4 - - GND GND GND
5 - - GND INV_ON GND
6 - - +12V DIM -
7 - - +12V Boost -
8 - - +12V GND -
9 - - +12V(audio) - -
10 - - GND_audio - -
11 - - -12V(audio) - -
12 - - - - -
13 - - - - -
14 - - - - -
Pin no.
Connector
CN1 CN2 CN3 CN4 CN5 CN6
1 N 24Vinv 24Vinv 12Va 12Va -12V(audio)
2 L 24Vinv 24Vinv 12Va 12Va +12V(audio)
3 - 24Vinv 24Vinv GND1 GND1 GND2(audio)
4 - 24Vinv 24Vinv GND1 GND1 5V2Stdby
5 - 24Vinv 24Vinv - - 5V2Stdby
6 - GND3 GND3 - - 5V2Stdby
7 - GND3 GND3 - - GND1
8 - GND3 GND3 - - GND1
9 - GND3 GND3 - - GND1
10 - GND3 GND3 - - -
11 - Vbri n.c. - - -
12 - on/off n.c. - - -
13 - PWM - - - -
14 - GND1 - - - -
Pin no.
Connector
CN7 CN8
1 BL_ADJUST 12Va
2 Power OK n.c.
3 BL_ON_OFF GND1
4 GND1 -
5 Boost -
6 STANDBY(PS_ON) -
7 n.c. -
8 +12Vssb -
9 - -
10 - -
18730_211_090922.eps090922
IC Data Sheets EN 45PB52.2HU LA 8.
2010-Mar-05
8. IC Data Sheets
This section shows the internal block diagrams and pin configurations of ICs that are drawn as “black boxes” in the electrical diagrams (with the exception of “memory” and “logic” ICs).
8.1 Diagram B03, B09, PNX85xx (IC 7H00)
Figure 8-1 Internal block diagram & pin configuration
Block Diagram
Pin Configuration
H_16800_128.eps230707
PNX85xx
MIPS32@240MHzTV control, Pixel OSDSource select3D-CombDigital color decoderAudio decodingFull audio processing, inc SRSMPEG-2 HD/SD decodeMA DI8-bit video processingEnhanced PQ processingSingle LVDS outputHDMI / DVICA option
FLASH16 MB
USB2 Option
TDA10060Channel
TD1736OFTuner
TDA9897IF
TDA8933TAudio Amp.
16
LCDMatrix Display
1368 × 768
8/16
A/V INPUTS
VGA
HDMISPDIF Out
DDR-II32 MB
16
DDR-II32 MB
PNX85xx
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
IC Data SheetsEN 46 PB52.2HU LA8.
2010-Mar-05
8.2 Diagram B05A, TDA8932 (IC 7D10)
Figure 8-2 Internal block diagram and pin configuration
Block Diagram
Pin Configuration
G_16860_045.eps300107
2
8130128
29
27
3
12
TDA8932
OSCILLATOR
26
BOOT1
VDDP1
OUT1
VSSP1
PWMMODULATOR
DRIVERHIGH
DRIVERLOW
CTRL
MANAGER
CTRLPWM
MODULATOR
PROTECTIONS:OVP, OCP, OTP,
UVP, TF, WPSTABILIZER 11 V
STABILIZER 11 V
REGULATOR 5 V
MODE
VDDA
15
14
IN1P
VOICSOFERCSO DDA
VSSD
IN1N
INREF
IN2P
IN2N
6POWERUP
4DIAG
7CGND
21
20
22
23
BOOT2
VDDP2
OUT2
25 STAB1
24 STAB2
18
11
DREF
HVPREF
30 HVP1
19 HVP2
VSSP2
DRIVERHIGH
DRIVERLOW
VDDA
VSSP1
VSSP2
VSSD
VDDA
VSSA
HALF SUPPLY VOLTAGE
5ENGAGE
13
9
TEST
VSSA
1, 16, 17, 32
VSSD(HW)
TDA8932T
VSSD(HW) VSSD(HW)
OICSOP1NI
1PVHN1NI
VGAID DDP1
1TOOBEGAGNE
1TUOPUREWOP
VDNGC SSP1
VDDA STAB1
VSSA STAB2
OSCREF VSSP2
2TUOFERPVH
2TOOBFERNI
VTSET DDP2
2PVHN2NI
FERDP2NI
VSSD(HW) VSSD(HW)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
18
17
20
19
22
21
24
23
26
25
32
31
30
29
28
27
IC Data Sheets EN 47PB52.2HU LA 8.
2010-Mar-05
8.3 Diagram B05C, TPA4411RTJ (IC 7HV0)
Figure 8-3 Internal block diagram and pin configuration
20 19 18 17 16
15
14
13
12
11
109876
5
4
3
2
1
NC
PV
DD
SD
L
SG
ND
NC
C1P
PGND
C1N
NC
PVSS
INR
SDR
INL
NC
OUTR
NC
SV
SS
NC
OU
TL
SV
DD
NC − No internal connection
(TOP VIEW)
TERMINAL FUNCTIONSTERMINAL
I/O DESCRIPTIONNAME QFN WCSP(1)
C1P 1 A4 I/O Charge pump flying capacitor positive terminalPGND 2 B4 I Power ground, connect to ground.C1N 3 C4 I/O Charge pump flying capacitor negative terminal
4, 6, 8, 12,NC B3, C3 No connection16, 20PVSS 5 D4 O Output from charge pump.SVSS 7 D3 I Amplifier negative supply, connect to PVSS via star connection.OUTL 9 D2 O Left audio channel output signalSVDD 10 D1 I Amplifier positive supply, connect to PVDD via star connection.OUTR 11 C2 O Right audio channel output signalINL 13 C1 I Left audio channel input signalSDR 14 B1 I Right channel shutdown, active low logic.INR 15 A1 I Right audio channel input signalSGND 17 A2 I Signal ground, connect to ground.SDL 18 B2 I Left channel shutdown, active low logic.PVDD 19 A3 I Supply voltage, connect to positive supply.
Exposed pad must be soldered to a floating plane. Do NOT connect to power orExposed Pad - ground.
_
+
_+
SVDD
SVSSSVDD
SVSS
ChargePumpBias
Circuitry
TPA4411
SGND
Av = −1.5 V/V
Audio Out − R
Audio Out − L
C1P
C1N
PVSS
Audio In − R
Audio In − L
SDx
ShortCircuit
Protection
FunctionalPinning Block Diagram
I_17500_004.eps180408
IC Data SheetsEN 48 PB52.2HU LA8.
2010-Mar-05
8.4 Diagram B06C, AD819xA (IC 7J00)
Figure 8-4 Internal block diagram and pin configuration
Block Diagram
Pin Configuration
H_17650_080.eps150108
0647
1-00
1
Figure 1.
TYPICAL APPLICATION
04:20
PP_O
TOA
UX_
A0
AU
X_A
1A
UX_
A2
AU
X_A
3D
VEE
AU
X_B
0A
UX_
B1
AU
X_B
2A
UX_
B3
AU
X_C
OM
0A
UX_
CO
M1
AU
X_C
OM
2A
UX_
CO
M3
AU
X_C
0A
UX_
C1
AU
X_C
2A
UX_
C3
AM
UXV
CC
AU
X_D
0A
UX_
D1
AU
X_D
2A
UX_
D3
PP_E
QPP
_EN
26I2
C_A
DD
R0
27I2
C_A
DD
R1
28I2
C_A
DD
R2
29D
VEE
30PP
_CH
031
PP_C
H1
32D
VCC
33O
N0
34O
P035
VTTO
36O
N1
37O
P138
DVC
C39
ON
2
2IN_B03IP_B04AVEE
7VTTI
6IP_B1
5IN_B1
1AVCC
8IN_B29IP_B2
10AVEE
12IP_B313AVCC14IN_A015IP_A016AVEE17IN_A118IP_A119VTTI20IN_A221IP_A222AVCC23IN_A324IP_A325AVEE
11IN_B3
74 IP_C3AVCC
73 IN_C372 AVEE
69 VTTI
70 IN_C2
71 IP_C2
75
68 IP_C167 IN_C166 AVEE
64 IN_C063 AVCC62 IP_D361 IN_D360 AVEE59 IP_D258 IN_D257 VTTI56 IP_D155 IN_D154 AVCC53 IP_D052 IN_D051 AVEE
65 IP_C0
40O
P241
VTTO
42O
N3
43O
P344
RES
ET45
PP_P
RE0
46PP
_PR
E147
DVC
C48
PP_O
CL
49I2
C_S
CL
50I2
C_S
DA
100
99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76
PIN 1 INDICATOR
AD8197TOP VIEW
(Not to Scale)
IC Data Sheets EN 49PB52.2HU LA 8.
2010-Mar-05
8.5 Diagram B09, EP2C5F256C7N (IC 7F90)
Figure 8-5 Internal block diagram and pin configuration
Block Diagram
I_18020_137.eps190908
PLL PLLIOEs
LLPLLP IOEs
IOEs LogicArray
LogicArray
LogicArray
LogicArray
IOEs
M4K BlocksM4K Blocks
EmbeddedMultipliers
IC Data SheetsEN 50 PB52.2HU LA8.
2010-Mar-05
8.6 Diagram B10C, T6TF4HFG (IC 7GE2)
Figure 8-6 Internal block diagram and pin configuration
Block Diagram
Pin Configuration
G_16840_099.eps090207
LVD
Sde
code
r
PLL2
LVD
Sde
code
r
PLL1
CM
OS
inpu
t
Input Proc
MVL manager
Video Q meterNoise estimator
ContentDetection
SharpnessContr. enhance
H LTIHistogram
Text enhanceColor processing
Contr, Brightness&
White-point corr
Contrast Reserve&
Clip Measure
Color LUT& Dithering
Output buffering
80C51
32kBROM
16kBXRAM
IC2_1
UART
IC2_2
Controlreg. IF
Interruptcontr
LVD
S/C
MO
S R
GB
IN
I2C
_1
2
30
LVD
S/C
MO
S R
GB
OU
T2N
D C
MO
S R
GB
OU
T /
P F
LAS
H A
ND
UA
RT
30
256BMRAM
I2C
_2
ADDR/DATA/RDN/WRN/PSEN/TXD/RXD
RS
TN
INT_
N
SY
NC
6
Timingcontrol
Unit
CM
OS
outp
utLV
DS
enco
der
LVD
Sen
code
r
3
PW
M
inp_sync
PWM
3
SY
NC
T1
Testcontrol BST
GP
IO
TDO
CLK
_IN
CLK
_OU
T
TCK
TDI
TMS
TRS
T
AmbiLight
60 M
HZ
RE
S
I2C
_3
SPI TRIG
OU
T
SI
SO
SC
K
CS
PW
M
6
30
Patgen
Color gamutmapping
PACIFIC3-N2
123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99
100101102103104105106107108
162161160159158157156155154153152151150149148147146145144143142141140139138137136135134133132131130129128127126125124123122121120119118117116115114113112111110109
216
215
214
213
212
211
210
209
208
207
206
205
204
203
202
201
200
199
198
197
196
195
194
193
192
191
190
189
188
187
186
185
184
183
182
181
180
179
178
177
176
175
174
173
172
171
170
169
168
167
166
165
164
163
LVD
S -o
inpu
tLV
DS-
e in
put
R d
ata
inpu
tG
dat
a in
put
B d
ata
inpu
tsy
nc i
JTA
G
JTAG I2Cs0I2Cm SPI 6 X GPIO PWM OSC
F da
ta o
utpu
tE
data
out
put
D d
ata
outp
utPr
oc d
ata
bus
Proc
add
ress
bus
sync
o
B data outputA data outputAmbi-PWM LVDS-o output LVDS-e output
UA
RT
Interrupt test reset
clko
C data output
I2Cs1SPI
IC Data Sheets EN 51PB52.2HU LA 8.
2010-Mar-05
8.7 Diagram B11, STI710x (IC 7A00)
Figure 8-7 Internal block diagram and pin configuration
Block Diagram
H_16780_085.eps070907
32
CP
ST40 core 266 MHz
UDI 16 K Icache
MMUInt. control
32 K Dcache
LMI
Digitalvideo input
DEI
S/PDIF
2-chPCM in
SDvideo in
TMDS main video
DENC
3xSSCs
4xUARTsILC
2x I/FSmCard
6x GPIO
PWMMAFE
interfaceIR
Tx/Rx
STBus
Main videodisplay
FDMA
AudioL
TSmerger/router
Displaycompositor
2D gammablitter
DACs
DVI-HDCPHDMI
Output stage
Main videooutput (HD)
YPbPr
Aux videooutput (SD)YC/CVBS
USB
AudioR
2 x PDES
Clockgenerator
5 x 2-chPCM out
Peripheral I/Oand external interrupts
TSIN0NRSS-A
TSIN1 TS I/O
and systemservices
DACs
CUR 3 x GDP
Aux videodisplay
Audio decoderand interfaces
AudioDACs
PTI
output (HD)
Video decoderH264/MPEG-2
2.0
SerialATA
interface
LMI
32
SDRAMDDR
Video
System
ST231core
ST231core
Ethernet,MII/RMII
MII/RMII for 100BT Ethernet
EMI
Flashor companion chip
EMPIPTI
IC Data SheetsEN 52 PB52.2HU LA8.
2010-Mar-05
8.8 Diagram B12A, TDA1517ATW/N1 (IC 7111)
Figure 8-8 Internal block diagram and pin configuration
18731_300_100305.eps100305
Block diagram
Pinning information
1
2
3
4
5
6
7
8
9
PV
OUT2
SGND
INV1
INV2
TDA1517
OUT1
M/SS
SVRR
PGND
mute/stand-byswitch input
output 1
15 kΩ
15 kΩ
x 1
VA
stand-byswitch
VP
muteswitch
stand-byreferencevoltage
18 kΩ
18 kΩ
2kΩ
60kΩ
mute switch Cm
power stage
4
8
mute switch
VA
VA
Cm
2kΩ
60kΩ
power stage
6
2 7 5
SGND
signalground
PGND
output 2non-invertinginput 2
9
supply voltageripple rejection
output
3
1
TDA1517
mutereferencevoltage
inputreference
voltage
VP
powerground(substrate)
non-invertinginput 1
IC Data Sheets EN 53PB52.2HU LA 8.
2010-Mar-05
8.9 Diagram T01A, TDA10060 (IC7T18)
Figure 8-9 Internal block diagram and pin configuration
Block Diagram
Pin Configuration
PSC/SPI SLAVEINTERFACE
IN-BAND AFEPGA
12-bit A/DAGC CONTROL
OUT-OF-BANDAFE PGA6-bit A/D
AGC CONTROLVCO
OUT-OF-BANDQPSK
RECEIVER
DVS-167 FECDVS-178 FEC
ACQUISITIONPROCESSOR
JTAGINTERFACE
EIA/CEA-909INTERFACE
GPIO/GPOINTERFACE
PSC MASTERINTERFACE
ATSC 8/16 VSBADVANCEDRECEIVER
MASTERPLL
IN-BANDOUTPUT
INTERFACE
OUT-OF-BANDOUTPUT
INTERFACE
ATSC FEC
TDA10060
ATSC 8/16 VSBADVANCEDRECEIVER
ITU-T J.83ANNEX
A/B/C FEC
internal busto all blocksHAB
PSC/SPI hostinterface
54 MHzthird overtonecrystal
MPEGtransport
out-of-bandtransportfor CableCard/POD
interrupt
in-band tuner
out-of-band tuner
out-of-band AGC
out-of-band VCO
tuner/peripheralcontrol
GPIO GPO antennacontrol
JTAGcontroller
in-band AGT
in-band AGI
in-band AFT
TDA10060HL
108
37 72
144
109
73
1
36
H_16800_028.eps111007
IC Data SheetsEN 54 PB52.2HU LA8.
2010-Mar-05
8.10 Diagram T01B, TDA989xHL (IC 7T57)
Figure 8-10 Pin configuration
Block Diagram
Pin Configuration
H_16800_029.eps111007
A
B
C
D
E
F
G
H
TDA9897
I2C-BUS
SIF AGC
PEAKAGC
TUNER
VIF PLLAND
ACQUISITIONHELP
VIFAFC
NYQUISTFILTER
sideband
I
Q
VIF AGC
AM average
23
36AGCDIN
IF3A
IF3B
SDA
3
4
IF2A
IF2B
9
10
2, 5, 18, 371NYSFLFIVFL2POT
3111
i.c.
TAGC
45
47
IF1A
IF1B
6
7
FM peak
24
SCL
14
i.c.
SYNTHESIZERAND VCO
SYNTHESIZERAND VCO
standard
1LFSYN2
25
ADRSEL
32
BVS
22
GNDD
38
SIDEBANDFILTER
sideband
Q
I
SOUNDCARRIER
TRAP
trap reference
GROUPDELAY
EQUALIZERDECODER I2C-BUS
TOPNEG
n.c.optional tunerAGC TOP forIF based tunerAGC andradio signalstrength detectoronset
CTAGC8
I2C-BUS TOP2AND RSSI
RSSIDETECTOR
ANDIF BASED
TUNERAGC
GND48
A
B
C
D
E
F
G
H
TDA9897
FM CARRIER AGC
FM
VIF AGC
portI2C-bus
AM
AM DEMODULATORAND
FM NARROW-BAND PLL
LFFM19
4 MHz FREQUENCYREFERENCE
46 39
SUPPLY
BP on/offOUTPUTSWITCH
FM SWITCH
AM
26
27
21
43, 44VP
33
12
40, 41 15
+3 dB
GNDA EXTFILO
FMAMPLIFIER
BAND-PASSFILTER
20
34
28
31
16
29OUT2A
OUT2B
OUT1A
OUT1B
EXTFMI
MPP2
CVBS
MPP1
CAF2
CDEEM
CAF1AUD
30
17EXTFILI
4 MHz referenceinput
R(2)
R(2)
OPTXTALFREF
EXTERNAL SOUNDBAND-PASS FILTER(1)
SIF AGCTAGC
FM AGCAFC
35, 42
n.c.
TDA9897HLTDA9898HL
NIDCGA2NYSFL
.c.n.c.n
2FACA3FI
SBVCB3FI
CIFAGC(1) BVS
DUAA1FI
B2TUOB1FI
A2TUOCGATC
1FACA2FI
B1TUOB2FI
A1TUO2POT
LESRDA1PPM
DN
GFI
VFL
CG
AT.c .i
FE
RFOLIFT
XE
.c .i2
PP
M
VILI FT
XE
P
V.c .n
P
.c.nMFFL
AD
NG
ME
ED
C
AD
NG
IM FT
XE
LA T
XTP
OD
DN
G
SD
A
SC
L
LFS
YN
1
n.c.
1
2
3
4
5
6
7
8
9
10
11
12
36
35
34
33
32
31
30
29
28
27
26
25
13 14 15 16 17 18 19 20 21 22 23
48 47 46 45 44 43 42 41 40 39 38 3724
IC Data Sheets EN 55PB52.2HU LA 8.
2010-Mar-05
8.11 Diagram T01B, TD1736F/FHFXP (IC 1T04)
Figure 8-11 Pin configuration
Block Diagram
Pin Configuration
18710_300_090827.eps090827
5V
33V PLL
AGC 5V IIC bus5V Antenna power
RF input (F)
12 3 75 6 89 11
RF out
4MHz
4
FM-trap
Terminal TD1736(O)F/FHFXP Remark
1 Antenna power option Max. permissible current: 100mA
2 RF Pin Output Full band output (53MHz - 865MHz) (only available in “O” type)
3 External RF-gain control voltage (0.5V - 4.0V) Source impedance limited to 1kohms
seton noitacilppa eeS part MF 4
5 PLL chip address select (I2 seton noitacilppa ees )renut / C
6 SCL (I2 )renut / C
7 SDA (I2 )renut / C
tuptuo ecnerefeR zHM 4 8
9 +5V ± 5% supply voltage (VTU) Tuner supply
dnuorG 01
delpuoc CA tuptuo - FI lacirtemmys-A 11
IC Data SheetsEN 56 PB52.2HU LA8.
2010-Mar-05
Personal Notes:
10000_012_090121.eps090121
Block Diagrams EN 57PB52.2HU LA 9.
2010-Mar-05
9. Block Diagrams
Wiring Diagram 26" (ME7 styling)
WIRING DIAGRAM 26" (ME7)
INLET
TOBACKLIGHT
MAIN POWER SUPPLYIPB 26 PLHL-T847B B (1005)
IR LED PANEL (1112)
J23P
KE
YB
OA
RD
CO
NTR
OL
(111
4)
J18P
FUSE
18730_400_090923.eps091005
Board Level Repair
Component Level RepairOnly For Authorized Workshop
LCD DISPLAY (1004)
SSB(1150)B
1G50
(B10
A)
1. S
DA
-I2C
4-D
ISP
2. S
CL-
I2C
4-D
ISP
. . 38. V
DIS
P39
. VD
ISP
40. V
DIS
P41
. VD
ISP
1U00
(B01
A)
1. +
3V3-
STA
ND
BY
2. S
ATA
ND
BY
n3.
GN
D4.
GN
D5.
GN
D6.
+12
V7.
+12
V8.
+12
V9.
+A
UD
IO-P
OW
ER
10. G
ND
11. -
AU
DIO
-PO
WE
R
1D12
(B05
A)
1. L
EF
T +
2. G
ND
SN
D3.
GN
DS
ND
4. R
IGH
T -
1N51
(B08
C)
1. L
IGH
T-S
EN
SO
R2.
GN
D3.
RC
4. L
ED
2-O
UT
5. +
3V3-
STA
ND
BY
6. L
ED
1-O
UT
7. K
EB
OA
RD
8. +
5V-O
N
TUNER
1C00 (B02A)20. GND19. GND18. RESET-SYSTEM-DETECT17. GND16. SDA-SSB15. SCL-SSB14. GND13. TUN-FE-ERR..1. TUN-FE-DATA7
1C02 (B02A)5. IF-N4. GND3. IF-P2. GND1. CVBS-BO
1C01
(B02
A)
8. S
CL-
SS
B-M
UX
27.
SD
A-S
SB
-MU
X2
6. +
1V2
5. +
1V2
4. G
ND
3. +
3V3
2. G
ND
1. +
12V
1T11
(T01
A)
5p1T
13 (T
01A
)20
p
8T01T TUNER BOARD
1N30 (B08B)4. GND 3. USB20-2-DP 2. USB20-2-DM 1. OUTB
1E90 (B07B)12. SIDEIO-DETECT11. AUDIO-HDPH-R-AP10. AUDIO-HDPH-L-AP9. GND8. FRONT-AIN5-R7. AUDIO MUTE6. FRONT-AIN5-L5. GND4. FRONT_C3. GND2. FRONT_Y_CVBS1. GND
CN31. HV12. N.C.3. HV1D
AN
GE
RO
US
HIG
H V
OLT
AG
E
CN21. HV12. N.C.3. HV1D
AN
GE
RO
US
HIG
H V
OLT
AG
E
1T12 (T01A)8p
LVDS CONN.30p
CN12. L1. N
1304
11P
1309
4P
DS
IDE
I/O
(115
2)
8T03
8T02
81098204
8207
8G50
8301
8302
8303
8308
1B28
(B13
A)
1. +
12V
TC
ON
2. +
12V
TC
ON
3. G
ND
4. G
ND
5. L
AM
P-O
N-O
UT
6. B
AC
KLI
GH
T-O
UT
7. B
AC
KLI
GH
T-B
OO
ST
8. G
ND
CN
411
. -V
audi
o10
. GN
Dau
dio
9. +
Vaud
io8.
+12
.3V
7. +
12.3
V6.
+12
.3V
5. G
ND
14.
GN
D1
3. G
ND
12.
ST
BY
1. 3
V3
ST
BY
CN
58.
PW
M D
IM7.
BO
OS
T6.
DIM
5. B
L_O
N_O
FF
4. G
ND
13.
GN
D1
2. +
12.3
V1.
+12
.3V
8316
RIGHT SPEAKER (5213)
+ -
LEFT SPEAKER (5214)
+ -
8M01
EN 58PB52.2HU LA 9.Block Diagrams
2010-Mar-05
Wiring Diagram 32" (PnS styling)
KE
YB
OA
RD
CO
NTR
OL
(111
4)
WIRING DIAGRAM 32" (P & S)
INLET
TOBACKLIGHT
TOBACKLIGHT
MAIN POWER SUPPLYIPB 32 PLHL-T827C B (1005)
IR LED PANEL (1112) J2
3PJ18P
FUSE
RIGHT SPEAKER(5213)
LEFT SPEAKER(5213)
18730_401_090923.eps091006
Board Level Repair
Component Level RepairOnly For Authorized Workshop
* Only for TV sets with LodgeNet Tuner Board
LCD DISPLAY (1004)
SSB(1150)B
1G50
(B10
A)
1. S
DA
-I2C
4-D
ISP
2. S
CL-
I2C
4-D
ISP
. . 38. V
DIS
P39
. VD
ISP
40. V
DIS
P41
. VD
ISP
1U00
(B01
A)
1. +
3V3-
STA
ND
BY
2. S
ATA
ND
BY
n3.
GN
D4.
GN
D5.
GN
D6.
+12
V7.
+12
V8.
+12
V9.
+A
UD
IO-P
OW
ER
10. G
ND
11. -
AU
DIO
-PO
WE
R
1D12
(B05
A)
1. L
EF
T +
2. G
ND
SN
D3.
GN
DS
ND
4. R
IGH
T -
1N51
(B08
C)
1. L
IGH
T-S
EN
SO
R2.
GN
D3.
RC
4. L
ED
2-O
UT
5. +
3V3-
STA
ND
BY
6. L
ED
1-O
UT
7. K
EB
OA
RD
8. +
5V-O
N
*TUNER
1C00 (B02A)20. GND19. GND18. RESET-SYSTEM-DETECT17. GND16. SDA-SSB15. SCL-SSB14. GND13. TUN-FE-ERR..1. TUN-FE-DATA7
1C02 (B02A)5. IF-N4. GND3. IF-P2. GND1. CVBS-BO
1C01
(B02
A)
8. S
CL-
SS
B-M
UX
27.
SD
A-S
SB
-MU
X2
6. +
1V2
5. +
1V2
4. G
ND
3. +
3V3
2. G
ND
1. +
12V
*1241 (B12A)9. GND8. PS-LNA7. IR_OUT_LN6. SPI_DATA_OUT_IB5. IR-IN_DATA_OUT_IB4. SPI_CLK_LN3. SPI_DATA_OUT_IB2. IR-IN_DATA_INRXD_SDA1_IB1. SPI_CLK_IB
1T11
(T01
A)
5p1T
13 (T
01A
)20
p
8T01
T TUNER BOARD
1N30 (B08B)4. GND 3. USB20-2-DP 2. USB20-2-DM 1. OUTB
1E90 (B07B)12. SIDEIO-DETECT11. AUDIO-HDPH-R-AP10. AUDIO-HDPH-L-AP9. GND8. FRONT-AIN5-R7. AUDIO MUTE6. FRONT-AIN5-L5. GND4. FRONT_C3. GND2. FRONT_Y_CVBS1. GND
CN
31.
HV
12.
N.C
.3.
HV
1DANGEROUS
HIGH VOLTAGE
CN
21.
HV
12.
N.C
.3.
HV
1
DANGEROUSHIGH VOLTAGE
*1T32 (T01A)9p
1T12 (T01A)8p
LVDS CONN.30p
CN
12.
L1.
N
1304
12P
1309
4P
DS
IDE
I/O
(115
2)
8T03
8T02
*8T
04
81098204
8207
8G50
8301
83028316
8319
8308
1B28
(B13
A)
1. +
12V
TC
ON
2. +
12V
TC
ON
3. G
ND
4. G
ND
5. L
AM
P-O
N-O
UT
6. B
AC
KLI
GH
T-O
UT
7. B
AC
KLI
GH
T-B
OO
ST
8. G
ND
CN411. -Vaudio10. GNDaudio9. +Vaudio8. +12.3V7. +12.3V6. +12.3V5. GND14. GND13. GND12. STBY1. 3V3 STBY
CN58. PWM DIM7. BOOST6. DIM5. BL_ON_OFF4. GND13. GND12. +12.3V1. +12.3V
Block Diagrams EN 59PB52.2HU LA 9.
2010-Mar-05
Wiring Diagram 37" & 42" (PnS styling)
WIRING 37"- 42" (P&S)
KE
YB
OA
RD
CO
NT
RO
L(1
114)
INLET
TOBACKLIGHT
TOBACKLIGHT
MAIN POWER SUPPLYIPB 37 PLHL-T846A BIPB 42 PLHL-T828B B (1005)
IR LED PANEL (1112) J2
3PJ18P
FUSE
RIGHT SPEAKER(5313)
LEFT SPEAKER(5313)
18730_402_090923.eps091006
Board Level Repair
Component Level RepairOnly For Authorized Workshop
* Only for TV sets with LodgeNet Tuner Board
CN411. -Vaudio10. GNDaudio9. +Vaudio8. +12.3V7. +12.3V6. +12.3V5. GND14. GND13. GND12. STBY1. 3V3 STBY
CN58. GND7. BOOST6. DIM5. BL_ON_OFF4. GND13. GND12. +12.3V1. +12.3V
CN
31.
HV
12.
N.C
.3.
HV
1
DANGEROUSHIGH VOLTAGE
CN
21.
HV
12.
N.C
.3.
HV
1DANGEROUS
HIGH VOLTAGE
LCD DISPLAY (1004)
LVDS CONN.51p
CN
12.
L1.
N
1304
12P
1309
4P
DS
IDE
I/O
(115
2)
SSB(1150)B
1G50
(B
10A
)1.
SD
A-I
2C4-
DIS
P2.
SC
L-I2
C4-
DIS
P. . 38
. VD
ISP
39. V
DIS
P40
. VD
ISP
41. V
DIS
P
1U00
(B01
A)
1. +
3V3-
STA
ND
BY
2. S
ATA
ND
BY
n3.
GN
D4.
GN
D5.
GN
D6.
+12
V7.
+12
V8.
+12
V9.
+A
UD
IO-P
OW
ER
10. G
ND
11. -
AU
DIO
-PO
WE
R
1D12
(B05
A)
1. L
EF
T +
2. G
ND
SN
D3.
GN
DS
ND
4. R
IGH
T -
1N51
(B08
C)
1. L
IGH
T-S
EN
SO
R2.
GN
D3.
RC
4. L
ED
2-O
UT
5. +
3V3-
STA
ND
BY
6. L
ED
1-O
UT
7. K
EB
OA
RD
8. +
5V-O
N
*TUNER
1C00 (B02A)20. GND19. GND18. RESET-SYSTEM-DETECT17. GND16. SDA-SSB15. SCL-SSB14. GND13. TUN-FE-ERR..1. TUN-FE-DATA7
1C02 (B02A)5. IF-N4. GND3. IF-P2. GND1. CVBS-BO
1C01
(B02
A)
8. S
CL-
SS
B-M
UX
27.
SD
A-S
SB
-MU
X2
6. +
1V2
5. +
1V2
4. G
ND
3. +
3V3
2. G
ND
1. +
12V
*1241 (B12B)9. GND8. PS-LNA7. IR_OUT_LN6. SPI_DATA_OUT_IB5. IR-IN_DATA_OUT_IB4. SPI_CLK_LN3. SPI_DATA_OUT_IB2. IR-IN_DATA_INRXD_SDA1_IB1. SPI_CLK_IB
1T11
(T01
A)
5p1T
13 (T
01A
)20
p
8T01
T TUNER BOARD
1N30 (B08B)4. GND 3. USB20-2-DP 2. USB20-2-DM 1. OUTB
1E90 (B07B)12. SIDEIO-DETECT11. AUDIO-HDPH-R-AP10. AUDIO-HDPH-L-AP9. GND8. FRONT-AIN5-R7. AUDIO MUTE6. FRONT-AIN5-L5. GND4. FRONT_C3. GND2. FRONT_Y_CVBS1. GND
*1T32 (T01A)9p
1T12 (T01A)8p
8T03
8T02
*8T
04
81098204
8207
8G51
8301
8302
8316
8319
8308
1B28
(B13
A)
1. +
12V
TC
ON
2. +
12V
TC
ON
3. G
ND
4. G
ND
5. L
AM
P-O
N-O
UT
6. B
AC
KLI
GH
T-O
UT
7. B
AC
KLI
GH
T-B
OO
ST
8. G
ND
EN 60PB52.2HU LA 9.Block Diagrams
2010-Mar-05
Wiring Diagram 52" (PnS styling)
WIRING 52" (P&S)
KE
YB
OA
RD
CO
NT
RO
L(1
114)
INLET
MAIN POWER SUPPLYGPSU 4752 DEL LC08 (1005)
IR LED PANEL (1112) J2
3PJ18P
RIGHT SPEAKER(5313)
LEFT SPEAKER(5313)
18730_403_090923.eps091008
Board Level Repair
Component Level RepairOnly For Authorized Workshop
LCD DISPLAY (1004)
LVDS CONN.51p
1304
12P
1309
4P
DS
IDE
I/O
(115
2)
SSB(1150)B
1G50
(B
10A
)1.
SD
A-I
2C4-
DIS
P2.
SC
L-I2
C4-
DIS
P. . 38
. VD
ISP
39. V
DIS
P40
. VD
ISP
41. V
DIS
P
1U00
(B01
A)
1. +
3V3-
STA
ND
BY
2. S
ATA
ND
BY
n3.
GN
D4.
GN
D5.
GN
D6.
+12
V7.
+12
V8.
+12
V9.
+A
UD
IO-P
OW
ER
10. G
ND
11. -
AU
DIO
-PO
WE
R
1D12
(B05
A)
1. L
EF
T +
2. G
ND
SN
D3.
GN
DS
ND
4. R
IGH
T -
1B28
(B13
A)
1. +
12V
TC
ON
2. +
12V
TC
ON
3. G
ND
4. G
ND
5. L
AM
P-O
N-O
UT
6. B
AC
KLI
GH
T-O
UT
7. B
AC
KLI
GH
T-B
OO
ST
8. G
ND
1N51
(B08
C)
1. L
IGH
T-S
EN
SO
R2.
GN
D3.
RC
4. L
ED
2-O
UT
5. +
3V3-
STA
ND
BY
6. L
ED
1-O
UT
7. K
EB
OA
RD
8. +
5V-O
N
TUNER
1C00 (B02A)20. GND19. GND18. RESET-SYSTEM-DETECT17. GND16. SDA-SSB15. SCL-SSB14. GND13. TUN-FE-ERR..1. TUN-FE-DATA7
1C02 (B02A)5. IF-N4. GND3. IF-P2. GND1. CVBS-BO
1C01
(B02
A)
8. S
CL-
SS
B-M
UX
27.
SD
A-S
SB
-MU
X2
6. +
1V2
5. +
1V2
4. G
ND
3. +
3V3
2. G
ND
1. +
12V
1T11
(T01
A)
5p1T
13 (T
01A
)20
p
8T01
T TUNER BOARD
1N30 (B08B)4. GND 3. USB20-2-DP 2. USB20-2-DM 1. OUTB
1E90 (B07B)12. SIDEIO-DETECT11. AUDIO-HDPH-R-AP10. AUDIO-HDPH-L-AP9. GND8. FRONT-AIN5-R7. AUDIO MUTE6. FRONT-AIN5-L5. GND4. FRONT_C3. GND2. FRONT_Y_CVBS1. GND
1T12 (T01A)8p
8T03
8T02
81098204
8207
8G51
8301
8302
8308
INVERTER
CN312. N.C.11. N.C.10. GND39. GND38. GND37. GND36. GND35. 24Vinv4. 24Vinv3. 24Vinv2. 24Vinv1. 24Vinv
CN214. PDIM_Select13. PWM12. On/Off11. Vbri10. GND39. GND38. GND37. GND36. GND35. 24Vinv4. 24Vinv3. 24Vinv2. 24Vinv1. 24Vinv
INV
ER
TE
RC
ON
NE
CTO
RIN
VE
RT
ER
CO
NN
EC
TOR
8209
8208
CN
11.
N2.
L
FUSE
CN411. -Vaudio10. GNDaudio9. +Vaudio8. +12.3V7. +12.3V6. +12.3V5. GND14. GND13. GND12. STBY1. 3V3 STBY
CN58. GND7. BOOST6. DIM5. BL_ON_OFF4. GND13. GND12. +12.3V1. +12.3V
Block Diagrams EN 61PB52.2HU LA 9.
2010-Mar-05
Block Diagram Video
B06B HDMI
B06C HDMI SWITCH
T01B MAIN TUNER
T01A CHANNNEL DECODER
B03 PNX8541B02A PRO: IDIOM
B11H I2C ADDRESS = 4A (WRITE)
B11B FLASHB11C DRAMSTI7100
B07A ANALOGUE EXTERNALS
B07C VIDEO EXTERNALS
B10A PACIFIC 3: LVDSB10C PACIFIC 3B09B PNX8541: DIGITALVIDEO OUT/LVDS
B09E FPGA 1080p: I/0 BANKS
B09C FPGA 1080p: INTERFACE
B03F PNX8541: FLASH
B03E PNX 8541: SDRAM
D SIDE I/O
B07B SIDE I/O
7AA1
7J00AD8191ASTZ
HDMISWITCH
33ON0
RXC+
RXC-
RX0+
RX0-
RX1+
RX1-
RX2+RX2-
34
36
37
39
40
4243
23
24
20
21
17
18
1415
OP0
ON1OP1
ON2OP2
ON3OP3
191
182
1
1JA0
3
4
7
910
12
15
6
16
19
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
ARX-DCC-SCL
ARX-DCC-SDA
ARX-HOTPLUG
HDMI 2CONNECTOR
191
182
1
1JB0
3
4
7
910
12
15
6
16
19
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
BRX-HOTPLUG
HDMI 3CONNECTOR
BRX-DCC-SCL
BRX-DCC-SDA
7JA2
HOT-PLUG
7JB2
HOT-PLUG
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
B03G
B03G
A10
A9
B7
B6
A8
A7
B9
B8
13 CEC-HDMI
13 CEC-HDMI B03B
B03B
RESET-SYS-DETECT B03C44
74
73
71
70
68
67
65
64
DRX2+
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-
P33
P34
R33
R34
T33
T34
U33
U34
12
11
9
8
6
5
3
2
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
62
61
59
58
56
55
53
52
15
4
1T061T04TD1736F/FHFXP
MAINTUNER
11
15
4
1T55
3
IF-OUT
SAW 44MHz
IF-OUT
4-MHZ
ERF-GAIN
V2
9VTU
SAW 45M75
IF-FILTP1
IF-FILTN1
IF-FILTP3
IF-FILTN3
7T57TDA9897HL/V2
IFPROCESSING
7
6
3
4
47TUN-AGC
8 464-MHz
IF1-B
IF1-A
IF3-A
IF3-B
TAGC
FREF
FM-TRAP-SWITCH
7T56FM-TRAP 4
33 CVBS-BO CVBS-BO
CVBS-BO
EF7T59
CVBS
26 TDA-IF-IN-NOUT1-A
27 TDA-IF-IN-P
TDA-IF-IN-N
TDA-IF-IN-P
OUT1-B
IF-N
IF-P
IF-N
IF-P
3T59
3T58
7T18TDA10060HL
DTVRECEIVER
142AGCT_CTL
XTAL-P
XTAL-N
7IF-P
8IF-N
DATA
36AGC-DIN
TDA-IF-AGC
TUN-FE-DATA(0-7) FE-DATA(0-7)
IF-OUT 10 IF2-B
16 TUN-AGC-MONMPP-2
115GPIO-2
7T06
3
40
GPIO-0
141AGCT-CTL
1T6954M
21
20
4
J3
M1
M2
B03C
1T11 1C02
1 1
3 3
5 5
1T13 1C001
18
13
RESET-SYS-DETECT
7B01LGDT1129
CONTROL
VIDEO
7A00ST-7101BWC
7AD1SAA7113H/V2
TUN-FE-DATA(0-7)
DVID(0-7)
DIGITALINTERFACE
7A50M29W640
EEPROM8Mx84Mx16
EMI-D
EMI-A
LMI-D
LMI-A
7AA2
DDRSDRAM16Mx16
18730_404_090923.eps091005
7H00PNX8541E
PNX8541
7HG0EDE2516ACSE
DDR2SDRAM8Mx16x4
7HG1EDE2516ACSE
DDR2SDRAM8Mx16x4
DDR2-D(0-15)
DDR2-A(0-12)
(16-31)
(0-12)
1E30
CVI-Y
CVI-PB
CVI-PR
PB
PR
Y
AV1
CV1
AV1-CVBS
28
27
1G50
TXEC+
TXEC-
25
24TXECLK+
TXECLK-
22
21TXED+
TXED-
20
19TXEE+
TXEE-
17
16TXOA+
TXOA-
15
14TXOB+
TXOB-
13
12TXOC+
TXOC-
10
9TXOCLK+
TXOCLK-
7
6TXOD+
TXOD-_
5
4TXOE+
TXOE-
TXEA+
TXEA-
30
29TXEB+
TXEB-
32
31
7GE2T6TF4HFG
80
81
83
84
86
87
89
90
92
93
95
96
98
99
100
101
102
103
106
107
74
75
77
78
35
34
39
38
41D1340
45
44
29
28
32
31
7GE1M25P05
512KFLASH
7HA0NAND512W3A2CN6E
PCI --> NAND
NANDFLASH512Mx8
SWITCH/ADC/MUX/SRC
MSPVMPGMPEG
DEMUXAND
DECODING
VIDEC, 3D COMB AND VBICAPTURING
HDMI
LVDS
VID_OUT_TTLGFX LAYERSTILL
MPEG/PC
VIDEOLAYER
GFX OSDLAYER
CP
IPE
-TV
MBVP-TVSNR/TNR
EDDIHV SCALER
MEMORYCONTROLLER
MAINVIDEO OUT
ANALOGUE AVB03H
K3
R1
G1
J1
VIDEO STREAMS
B09A
VIDEOSTREAMS
B09A
CONTROLB03D
DIGITALVIDEO OUT/LVDS
B09B
RxP3eC+_G2
RxP3eC-_G3
RxP3eCLK-_G1
RxP3eCLK+_G0
RxP3eD+_R8
RxP3eD-_R9
RxP3eE+_R6
RxP3eE-_R7
RxP3eA+_G6
RxP3eA-_G7
RxP3eB+_G4
RxP3eB-_G5
16
15
20
19
23
22
26
25
10
9
14
13
A6
B6
A5
B5
A4
B4
A3
B3
B7
A7
C6
D6
A13
B13
A12
B12
D10
D11
A10
B10
A14
B14
C12
C13
TX8535oC+
TX8535oC-
TX8535oCLK+
TX8535oCLK-
TX8535oD+
TX8535oD-
TX8535oE+
TX8535oE-
TX8535oA+
TX8535oA-
TX8535oB+
TX8535oB-
AH22
AG22
AK23
AJ23
AH23
AG23
AK24
AJ24
AK21
AJ21
DV-HSAG15
D15DV-VSAH15
AK22
AJ22
RxP3oC+_B4
RxP3oC-_B5
RxP3oCLK-_B2
RxP3oCLK+_B3
RxP3oD+_B0
RxP3oD-_B1
RxP3oE+_G8
RxP3oE-_G9
RxP3oA+_B8
RxP3oA-_B9
RxP3oB+_B6
RxP3oB-_B7
TXFPGAeC+_G2
TXFPGAeC-_G3
TXFPGAeCLK-_G1
TXFPGAeCLK+_G0
TXFPGAeD+_R8
TXFPGAeD-_R9
TXFPGAeE+_R6
TXFPGAeE-_R7
TXFPGAeA+_G6
TXFPGAeA-_G7
TXFPGAeB+_G4
TXFPGAeB-_G5
TXFPGAoC+_B4
TXFPGAoC-_B5
TXFPGAoCLK-_B2
TXFPGAoCLK+_B3
TXFPGAoD+_B0
TXFPGAoD-_B1
TXFPGAoE+_G8
TXFPGAoE-_G9
TXFPGAoA+_B8
TXFPGAoA-_B9
TXFPGAoB+_B6
TXFPGAoB-_B7
SDRAMB03E
DDR
PCI XIO
DUAL LVDS ONLY1080P ONLY
LVDSCONNECTORTO DISPLAY
1
1002-2
2
3
14
13
K4PC_R
VGA_R
G2PC_G
VGA_G
R2PC_B
VGA_B
F3HSYNC_IN
ITV-VGA-H
T4VSYNC_IN
ITV-VGA-V
1 610
11
5
15
VGACONNECTOR
7005
1
854
FRONT_C
FRONT_Y-CVBS J2
P2
9-BITVIDEO INPUTPROCESSOR
S VIDEO
1
5
24
3
1301
1302
VIDEO1304 1E90
2 2
4 4FRONT_C_IN
FRONT_Y-CVBS
B11A CONTROL STI7100
(CONTROL)
(CONTROL)
191
182
1
1J40
3
4
7
910
12
15
6
16
19
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
CRX-DCC-SCL
CRX-DCC-SDA
CRX-HOTPLUG
HDMI 1CONNECTOR
7J42
HOT-PLUG B03G
13 CEC-HDMI B03B(CONTROL)
(CONTROL)
(CONTROL)
(CONTROL)
(CONTROL)
(CONTROL)
AVINTERFACE
B11D
B11C B11B
PACIFIC3PICTURE
ENHANCEMENT
7F90EP2C5F256C7N
CYCLONE IIFPGA1080P
9F35-9F46
DV-xx_Y(0-9)
DV-xx_UV(0-9)
10 BIT YUV
FPGA BY-PASS
ONLY FOR 1080P SETS
5G02
5G03
5G04
5G05
5G06
5G07
5G08
5G09
5G10
5G11
5G00
5G01
FE-DATA(0-7)
1E10
EN 62PB52.2HU LA 9.Block Diagrams
2010-Mar-05
Block Diagram Audio
B07A ANALOGUE EXTERNALS
B03F PNX8541: FLASH
B06C HDMI SWITCH
B03E PNX8541: SDRAM
B05A AUDIO LEFT / RIGHTB03G PNX8541: AUDIO
B03B PNX8541: STANDBY CONTROLLER
B07B SIDE I/OB05C PNX8541: AUDIO
B12A IBOARD
B06A SPDIF
T01B MAIN TUNER
T01A CHANNNEL DECODER
B03 PNX8541B02A PRO: IDIOM
D SIDE I/0
B11H I2C ADDRESS = 4A (WRITE)
B11B FLASHB11C DRAMSTI7100
D SIDE I/O
B06B HDMI
B07B SIDE I/O
7AA1
1E30
18730_405_090923.eps091005
7H00PNX8541E
PNX8541
7HG0EDE2516ACSE
DDRSDRAM 1
8Mx16x4
7HG1EDE2516ACSE
DDRSDRAM 2
8Mx16x4
DDR2-D(0-15)
DDR2-A(0-12)
(16-31)
(0-12)
FRONT-AIN5-R
FRONT-AIN5-L
CVI-AIN3-L
CVI-AIN3-R
33
RXC+
RXC-
RX0+
RX0-
RX1+
RX1-
RX2+RX2-
34
36
37
39
40
4243
23
24
20
21
17
18
1415
7HA0NAND512W3A2BN6E
PCI --> NAND
NANDFLASH512Mx8
ADC
HDMI
SPDIF OUTDELAYED
ANALOGUE AVB03H
AJ4
AK4
AH5
AJ5
AUDIO-IN1-L
AUDIO-IN1-R
AJ6
AK6
AJ15
A10
A9
B7
B6
A8
A7
B9
B8
VIDEOSTREAMS
B09A
CONTROLB03D
SDRAMB03E
DDR
PCI XIO
AUDIO INL+R
+DIGITAL
AUDIO OUT
LEFT+
RIGHT-
AUDIO-PROT
AJ13
AK12
1D121
2
Speaker L3
4
Speaker R
+AUDIO-L
-AUDIO-R
5D12 5D16ADAC(1)
ADAC(2)
AUDIOB03G
AUDIO-MUTE
DV-B3_AUDIO-MUTE
AUDIO-RESET
AH16
V4
ADAC(4)
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-APADAC(3)
HEAD_PH_L
HEAD_PH_R
FRONT-DETECT
A-PLOP-HDPH
EXTERNALLOUDSPEAKER
AH11
AH10
ADAC(6)
ADAC(5)AJ10
AK91122-1
5
6
7HV0TPA4411RTJ
HEADPHONEDRIVER
9
1113
15
18
14
AUDIO-RESET
7D13
7111TDA1517ATW/N1
POWERAMPLIFIER
9
83 OUT1A
OUT1B18
MUTE_iB
LED2-3V3 17
SPI-OUT SPDIF-OUT
7J50
4
2
1&
AUDIOB03G
9HM1
9HM2
DIGITAL VIDEOOUT / LVDS
B09B
1302
L_FRONT_IN
R_FRONT_IN
AUDIO INL+R
1E10
AUDIO INL+R
AV3
AV1
DEMDEC
EPICS
DAC
DAC
DACMEMORYCONTROL
SPDIF DECODING,MULTICHANNEL,
DOWNMIX AND SRC
STANDBYCONTROLLER
B03B
7HV1
RESET-SYS-DETECTB03C44
DRX2+
DRX2-
DRX1+
DRX1-
DRX0+
DRX0-
DRXC+
DRXC-
P33
P34
R33
R34
T33
T34
U33
U34
14
5
1T061T04TD1736F/FHFXP
MAINTUNER
11
14
5
1T55
3
IF-OUT
SAW 44MHz
IF-OUT
4-MHZ
ERF-GAIN
V2
9VTU
SAW 45M75
IF-FILTP1
IF-FILTN1
IF-FILTP3
IF-FILTN3
7T57TDA9897HL/V2
IFPROCESSING
7
6
3
4
47TUN-AGC
8 464-MHz
IF1-B
IF1-A
IF3-A
IF3-B
TAGC
FREF
FM-TRAP-SWITCH
7T56FM-TRAP 4
33 CVBS-BO CVBS-BO
CVBS-BO
EF7T59
CVBS
26 TDA-IF-IN-NOUT1-A
27 TDA-IF-IN-POUT1-B
IF-N
IF-P
IF-N
IF-P
3T59
3T58
7T18TDA10060HL
DTVRECEIVER
142AGCT_CTL
XTAL-P
XTAL-N
7IF-P
8IF-N
DATA
36AGC-DIN
TDA-IF-AGC
TUN-FE-DATA(0-7) FE-DATA(0-7)
IF-OUT 10 IF2-B
16 TUN-AGC-MONMPP-2
115GPIO-2
7T06
3
40
GPIO-0
141AGCT-CTL
1T6954M
21
20
4
J3
M1
M2
B03C
1T11 1C02
1 1
3 3
5 5
1T13 1C001
18
13
RESET-SYS-DETECT
7B01LGDT1129
CONTROL
VIDEOSTREAMS
B09A
6HW0
6HW1
AUDIO
1304 1E906 6
8 8
7A00STI7101BWC
7AD1SAA7113H/V2
TUN-FE-DATA(0-7)
DVID(0-7)
DIGITALINTERFACE
7A50M29W640
EEPROM8Mx84Mx16
EMI-D
EMI-A
LMI-D
LMI-A
7AA2
DDRSDRAM16Mx16
TDA-IF-IN-N
TDA-IF-IN-P
(OPTIONAL)
13032
3
4
1
1E90 130410 10
7 7
11 11
HEADPHONE
AVINTERFACE
B11D
B11C B11B
B11A CONTROL STI7100
(CONTROL)
B12B(CONTROL)
4
PEND_IR
GALVANICSEPARATION
4120
Only for HealthCare
Only for HealthCare
(CONTROL)
FE-DATA(0-7)
MUTE
7J00AD8191ASTZ
HDMISWITCH
ON0OP0
ON1OP1
ON2OP2
ON3OP3
191
182
1
1JA0
3
4
7
910
12
15
6
16
19
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
ARX-DCC-SCL
ARX-DCC-SDA
ARX-HOTPLUG
HDMI 2CONNECTOR
191
182
1
1JB0
3
4
7
910
12
15
6
16
19
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
BRX-HOTPLUG
HDMI 3CONNECTOR
BRX-DCC-SCL
BRX-DCC-SDA
7JA2
HOT-PLUG
7JB2
HOT-PLUG
ARX2+
ARX2-
ARX1+
ARX1-
ARX0+
ARX0-
ARXC+
ARXC-
BRX2+
BRX2-
BRX1+
BRX1-
BRX0+
BRX0-
BRXC+
BRXC-
B03G
B03G
13 CEC-HDMI
13 CEC-HDMI B03B
B03B
74
73
71
70
68
67
65
64
12
11
9
8
6
5
3
2
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
62
61
59
58
56
55
53
52
(CONTROL)
(CONTROL)
191
182
1
1J40
3
4
7
910
12
15
6
16
19
CRX2+
CRX2-
CRX1+
CRX1-
CRX0+
CRX0-
CRXC+
CRXC-
CRX-DCC-SCL
CRX-DCC-SDA
CRX-HOTPLUG
HDMI 1CONNECTOR
7J42
HOT-PLUG B03G
13 CEC-HDMI B03B(CONTROL)
(CONTROL)
(CONTROL)
(CONTROL)
7D10TDA8932BTW
CLASS DPOWER
AMPLIFIER
27
22
5
14
2
5D13 5D17
DC-DETECTIONB01A
STANDBY B01B
7100
MODE
IN1+
IN2-
B03B
B12B
5121
9-BITVIDEO INPUTPROCESSOR
5124
Block Diagrams EN 63PB52.2HU LA 9.
2010-Mar-05
Block Diagram Control & Clock Signals
CONTROL + CLOCK SIGNALS
B08C IR LED
B09E FPGA 1080P: I/O BANKSB09D FPGA 1080P:POW + CONTR
T02A
B08A USB 2.0B08B USB 2.0
B03D PNX8541: CONTROL
B13A SUPPLY
D SIDE I/O
T01A CHANNEL DECODER
T01B MAIN TUNER
B03E PNX 8541: SDRAM
B03D PNX 8541: CONTROL
B03C PNX 85xx: CONTROL
B06C HDMI SWITCH
B03B PNX 8541: STANDBY CONTROLLER
B03F PNX 8541: FLASH
B10C PACIFIC 3
B10B PACIFIC 3: DISPLAY-INTERFACING
B03B PNX 8541: STANDBY CONTROLLER
B11B FLASH B11H I2C ADDRESS - 4A (WRITE)
B12B IBOARD
B12A IBOARD
B11A CONTROL STI7100 B11C DRAM STI7100
B03 PNX85xx B02A PRO: IDIOM
B12B IBOARD
1308
3
1
4
2
1HF
0
27M
AG2
AG1
FE-DATA(0-7) TUN-FE-DATA
1N51
6 LED1-3V3
KEYBOARD
U5
AF4
W1
AK17
DETECT-5V-12V
AA3
AC3RESET-SYS-DETECT
U1 ENABLE-3V3
PNX85xx
7H00PNX8541E
U4 RESET-NVM_WP-NANDFLASH
4 AA1LED2-3V3
LED1-OUT
LED2-OUT
U3 ENABLE-1V2
B03D CONTROL
1HF
0
27M
AG2
AG1
STANDBY CONTROLLERB03B
3
2
RC AA2
1 LIGHT-SENSOR AF3
KEYBOARD
RC
IR-out-iB
LIGHT-SENSOR
+12VTCON
V5 CTRL1-STBY_LAMP-ON
V4 AUDIO-RESET
AH16 DV-B3_AUDIO-MUTE
Y3CTRL3-STBY_POWER-OK-DISP
6SPI-CLK 512KFLASH
7H02M25P05-AVMN6P
AD13SPI-WPAE41SPI-CSBAE35SPI-SDOAD42SPI-SDIAE1
W3 ON-MODE
7
7N00ISP1564HL
PCIHOST
CONTROLLER
USB20-OC1
USB20-OC2
78
USB20-PWE1 79
USB20-PWE2 88
87
USB20-2-DMUSB20-2-DP
90
92
PCI-CLK-USB20
DV-CLK-PLL
7
5
H4
F1
5
RESET-SYS-DETECT
5
3
4
1B281
BACKLIGHT-OUT
BACKLIGHT-BOOST
7T18TDA10060HL
DVB-TCHANNELDECODER
FE-CLK 56
B04E
PCI-CLK-OUTAK26
PCI-CLK-USB20
PCI-CLK-PNX8535
B03C CONTROL
A21 PCI-CLK-PNX8535
RESET-SYS-DETECTAJ26 B08A B03B
B03C
IRQ-PCIT3
B10BCTRL1-MIPS_LCD-PWR-ONT2
B08A
7HC4
7HA3
EEPROM(8Kx8)
7HC3M24C64-WDW6P
RESET-NVM_WP-NANDFLASH-INV
NANDFLASH
(512Mx8)
7HA0NAND512W3A2CN6E
19
8
B01A
V3 UART-SWITCHB03B
B01A
B10B
B12B
6
7
B01B
W2 RESET-PIB02A
AC4 RESET-ST7101B11A
V25 SENSE+1V2-PNX8541B01A
B05B
B05A
B10B
LAMP-ON-OUT
SPI_CLK_IB 6
55
58
52
53
4
5IR_OUT
SPI_DATA_IN_IB
SPI_DATA_OUT_IB
SPI_DATA_OUT_LN
SPI_CLK_LN
IR-IN_DATA_IN_RXD_SDA_LN
B10B
2
7HD0 NCP303LSN
2IN
1RST
+3V3-STANDBY
3 GND
B03C
B03E SDRAM
B03G VIDEO STREAMS
7J00 AD8197AASTZ
HDMISWITCH
RESET-SYS-DETECT 44
FE-VALID
63FE-SOP
TUN-FE-CLK
TUN-FE-VALID
TUN-FE-SOP 57
R11
R8R9
B2
H1
B8
B9
G1
B03B
RESET-SYS-DETECT
E22PCI-REQ-USB20
E20PCI-GNT-USB20
9
4
8
E14
J2
H16
H2
N9
B03D CONTROL
PCI-AD(24-31) --> NAND-AD(0-7)
7HG0EDE2516ACSE
7HG1EDE2516ACSE
SDRAM
DDR2-A(0-12)
DDR2-D(0-31)
DDR2-CLK_P
DDR2-CLK_N
N28
C5
D5C4
N29
M8
N8
TOPOWER SUPPLY
TO 1241
SSB
41
5 +3V3_STANDBY+3V3_STANDBY
8 +5V-ON
7A50M29W640F
FLASHEPROM
8Mx84Mx16
WP-FLASH-ST
7AA1EDD2516AETA
LMI-D(0-31)
LMI-A(0-12)
LMI-CLKLMI-CLKnot
LMI-CLKEN
DDRSDRAM
16Mx16
7AA2EDD2516AETA
U1
U2
Y5
EMI-D(0-15)
EMI-A(1-22)
FE-DATA(0-7)
DRX
AH30
CLK_REF
(AUDIO)
(AUDIO)
AF5 17
7A12
E27
27M
27MHZ-3V3
D19RESET-ST7101
CPU-27MHZ C11
7A10-3
STI7100
Only for MPEG4
AUDIO-MUTE
B05C
B01C
AB2DETECT-1V2-2V5-3V3B03B
AB4CEC-HDMIB06B
D10
HO
T-P
LUG
B03B
B03C
AD2 CTRL5-STBY_BACKLIGHT-BOOSTB10B
B01BRESET-STBY
3HF4
PCI-CLK-PNX5050_CLK-MOPB09E
3HF5
1N01
12M
75
1
3
2
4
74
B09B POWER
B09B DIGITALVIDEO OUT/LVDS
B03H DIGITALVIDEO OUT/LVDS
RESET-PI
SDM 9H01
SDM
SPI-PROGAE2
AC1
9H03
SPI-PROG
3HF2
7XIO-ACK
9XIO-SEL-NAND
AUDIO
1T04TD1736F/FHFXP
TUNER
7T57TDA9898HL
IFPROCESSING
4-MHz8 46B11B FLASH
B11D AV
B11C DRAM STI7100
7A00ST-7101BWC
B11C7AD1SAA7113H/V2
DIGITALAUDIO/VIDEO
18730_406_090923.eps091008
B06
B
PCI-AD(0-31)
A11
B11
7N30RYC8620
OUTB
B03B
7GE2 T6TF4HFG
PACIFIC 3172
6191
188
194192193
512KFLASH
7GE1M25P05-AVMN6P
3
15
2
BACKLIGHT-CONTROL CONTROL BACKLIGHT-OUTB09A
7G587G59
7G547G55
168
B05CRxP3CLK7
CTRL4-P3
178
1GE1
60M165
164
AD3 CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
Y4 CTRL4-STBY_SELECT-PWM-ANA
B03B
DVID(0-7)
9-BITVIDEO INPUTPROCESSOR
1AD
1
24M
576
31
32
7220UPSD3354DV
MCU
1205
24M
31
32
34
48
46
5
2
13
12
3
5
1
2
13
16
35
B12B
B12B
LED1-OUT
LED2-OUTB08C
B08C
B12A
B12A
B12B
B12B
B12B
LED1-3V3
LED2-3V3
B03B
B03B
1
IR-out-iBB08C
49
28
25
26
1T69
54M
20
21
1C04
7B01LGDT1129
CONTROL
B03B
B03G
POR 44
MUTE_iBB12A
51
LN_PWRB12A
52
6
4
15
14
1514
4
&
7262
7261
RC_IN_MICRO
IR_OUTRC
PEND_IR
B09E
B12A
8
12501
2
3
4
5
6RJ12SMARTPLUG
SPI_CLK_RJ
IR-IN_DATA_IN_RXD_SDA1_RJ
SPI_DATA_OUT_RJ
GND
IR_OUT
SPI_DATA_OUT_LN
SPI_DATA_OUT_IB
SPI_DATA_OUT_IB
SPI_CLK_LN
SPI_CLK_IB
SPI_CLK_IB
IR-IN_DATA_IN_RXD_SDA1_LNIR-IN_DATA_IN_RXD_SDA1_IB
CO
NT
RO
L
POR
TV_POR
F103
I103
POWERON RESET
B12B
B12B
TV-POR 40
7269
1C00 1T13
10 10
1 1
8 8
12 12
18 18
11 11
1309 1N301 1
3 34 4
2 2
43
21
USB 2.0CONNECTOR
7F90EP2C5F256C7N
CYCLONE II1080PFPGA
7T71MC9S12XS64CAE
MICROCONTROLLER
DV-CLK
PCI-CLK-PNX5050_CLK-MOP7FA3EPCS1SI8N
SCDDCLK
DATA0
6
2
CONTROL
+12VTCON
VDISP
5
3
4
1T321
6
7
2
Only for LodgeNet Tuner board
TO IR/LED PANEL
722174HC4053
+3V3-STANDBYMDX
72A174HC4053
MDX
4
1241
2
3
1
5
6
42AA
42AB
Only for LodgeNet Tuner board
42AB
EN 64PB52.2HU LA 9.Block Diagrams
2010-Mar-05
I2C IC OverviewI²C
PNX8541: CONTROLB03C PACIFIC 3B10C FPGA 1080P: I/O BANKSB09E
PNX8541: STANDBY CONTROLLERB03B
I2C ADDRESS = 4A (WRITE)B11H
PACIFIC 3: DISPLAY-INTERFACINGB10B
SUPPLYB09A
SPDIF DEBUG / RS232 INTERFACEB06A
HDMI SWITCHB06C HDMIB06B
PRO: IDIOMB02A
VIDEO EXTERNALSB07C
IBOARDB12B
IBOARDB12A
CHANNEL DECODERT01A
PACIFIC 3: LVDSB10A
T01B MAIN TUNER
CONTROL STI7100B11ADEBUGB11G
1
8
I2C1SDA
I2C1-SCLAK27
SDA1
SCL1
SDA-SLAVE
SCL-SLAVE
3HPE
3HPD
SDA-SSB
SCL-SSB
AJ27
7H00PNX8541
AJ28
+3V3-PER
3HP
M
3HP
K
3HPJ
3HPH
191
182
191
182
7JA1M24C02
EEPROM
5 6
3JA
8
3JA
7
5 6
3JB
8
3JB
7
7JB1M24C02
EEPROM
85
86
93
94
98
99
ARX-DDC-SDA
ARX-DDC-SCL
BRX-DDC-SDA
BRX-DDC-SCL
PARX-DDC-SDA
PARX-DDC-SCL
PBRX-DDC-SDA
PBRX-DDC-SCL
I2C3-SDA
I2C3-SCL
I2C2-SDA
I2C2-SCL
ERR53
ERR5
3JA0
3JB1
3JB0
SDA3
SCL3
AK28
AK29
SDA2
SCL2
SDA-UP-MIPS
SCL-UP-MIPS
AH27 9HP6
9HP5
9HP8
9HP7
3HPG
3HPF
SDA-2
SCL-2
198 200
7GE2-2T6TF4AFG
PACIFIC 3
3GG
2
3GG
3
23 24
7AD1SAA7113H
VIDEO INPUTPROCESSOR
3AD
F
3AD
G
C1 C2
7F90EP2C5F256C7N
CYCLONE IIFPGA 1080P
3F95
3F98
AH3
AG4
3H41
3H38
B03B+3V3-STANDBY
3H03
3H02
+3V3-STANDBY
3H58
3H60
5 6
7HC3M24C64
EEPROM(MAIN NVM)
RESET-NVM_WP-NANDFLASH
E10
C9
DDC-SDA
DDC-SCL
CPU-I2C-SDA
CPU-I2C-SCL
I2CuP-SDA
I2CuP-SCL
RXD
TXD
AB1
AC5
3H59
3H61
RXD-UP
TXD-UP
RXD
TXD
E27
D28
RXD-MIPS
TXD-MIPS
7HC074HC4066PW
9
2
RXD
TXD
10
3
3HC3
3HC6 10
9 R2-OUT
T2-IN
7 RXD_PCT2-OUT
7JE2ST3232C
UARTSERVICE
CONNECTOR
UART3DEVELOPMENT
ONLY
11
12R1-OUT
T1-IN
13
14T1-OUT
R1-IN
50 49
7J00AD8197AASTZ
HDMISWITCH
ERR23
ERR46
ERR28
3J01
3J00
90
89
1JA016
15
1JB016
15
AIN-5V
3JA
6
3JA
5
BIN-5V
3JB
6
3JB
5
5 6
3J48
3J47
7J41M24C02
EEPROM
CIN-5V
3J46
3J45
191
182
3x HDMICONNECTOR
80
81
CRX-DDC-SDA
CRX-DDC-SCL
PCRX-DDC-SDA
PCRX-DDC-SCL
3J41
3J40
1J4016
15
7H02M25P05
512KFLASH
U4
UART-SWITCH UART-SWITCHn
DDC-SDA
DDC-SCL
B09AHDMI
STANDBYCONTROL
4
11
RS232INTERFACE
18730_407_090923.eps091008
ERR3
V3
7HC4
7HC1
8
3JA1
UARTLEVEL ADAPTER
14
13 R1-IN
T1-OUT
12
11T1-IN
R1-OUT
9
10
AD31
AC30
AB33
AA34
T2-IN
R2-OUT
7AM0ST3232C
RS232INTERFACE
5
12
1 610
11
5
15 3010
3008
EEPROM
256x8
VGACONNECTOR
SDA_VGA
SCL_VGA
RSRX
RSTX
RSRX
RSTX
RXD0
TXD0
RXD0
TXD0
5
6
1002-2
12
15
1002-1
2
3
DDC-5V 7020M24C02
1 6
5 10 5002
5003
1HP0
3
1
2
1
2
SDA-SSB-MUX1
SCL-SSB-MUX1
+3V3-STANDBY
3HP
X
3HP
Z
3HPS
3HPR
4
5
7HP5PCA9540BDP
9G53
9G54
SDA-I2C4-DISP
SCL-I2C4-DISP
1G50
1
2
3G25
3G24
LVDSCOONECTORTO DISPLAY
SDA-SSB-MUX2
SCL-SSB-MUX2
+3V3-STANDBY
3HP
Y
3HP
C
3HPU
3HPW
7
8
3HPA
3HPB
ERR11
ERR12
ERR24
2 CHANNELI2C
MULTIPLEXER
29 30
7220UPSD3354DV
MCU
3241
3242
23
24
11
2E14 D14
7B01LGDT1129
PRO IDIOM
PI-SDA
PI-SCL
1C01 1T127 7
8 8
1C00 1T1316 5
15 6
70 69
7T18TDA10060HL
DTVRECEIVER
ERR37
3T38
3T37
SDA-SSB
SCL-SSB
SDA-SSB1
SCL-SSB1
SDA-SSB-MUX2
SCL-SSB-MUX2
23 24
7T57TDA9898HL
IFPROCESSING
ERR26
3T57
3T56
7 6
1T04TD1736F/FH
TUNER
ERR34
3T77
3T53
5 6
7280M24C32
EEPROM4Kx8
SDA1_iB
SCL1_iB
42
48
SDA_I2C
SPI_CLK
3HPT
3HPQ
AJ31 AJ30
7A00ST-7101BWC
MPEG4
3A12
3A11
PDRX-DDC-SDA
PDRX-DDC-SCL
AD30
AD32
RXD_ASC2
TXD_ASC2
RXD_ASC3
TXD_ASC3
1AM0
3
1 3A12
3A11
8 TXD_PCR2-IN
3J11
3J12
ERR38
ERR76
ERR75
9A11
9A10
3218
3219
3280
3281
+3V3A
3205
3212
5VA
3C01
3C00
9T16
9T15
9T51
9T52
3A11
3A12
3JC
4
3JC
5
+3V3-ANA
9A15
9A14
3JE2
3JE3
3JE1
3JE0
1122-2
2
3
1
(OPTIONAL)
Block Diagrams EN 65PB52.2HU LA 9.
2010-Mar-05
Supply Lines OverviewSUPPLY LINES OVERVIEW
A
MAINPOWER SUPPLY
B01A DC / DC
B13A SUPPLY
B09E FPGA 1080P: I/O BANKS
B07C VIDEO EXTERNALS
B08A USB 2.0
B08B USB 2.0
B06A SPDIFB06A SPDIF DEBUG / RS232 INTERFACE
B09A VIDEO STEAMS
B09B PNX8541: DIGITAL VIDEO OUT / LVDS
B06C HDMI SWITCH
B03C PNX8541: CONTROL
B03F PNX8541: FLASH
B05A AUDIO LEFT / RIGHT
B03G PNX8541: VIDEO STREAMS
B03H PNX8541: ANALOGUE AV
B03E PNX8541: SDRAM
B03A PNX8541: POWER
B11A CONTROL STI7100
B11E POWER STI7100
B11F SUPPLY
B11C DRAM STI7100
B11B FLASH
B11D INTERFACE STI7100
B09D FPGA 1080P: POWER + CONTROL
B03B PNX8541: STANDBY CONTROLLER
B03D PNX8541: CONTROL
B10B PACIFIC 3: DISPLAY-INTERFACEB06B HDMI
B01B DC / DC
B01C DC / DC
B02A PRO: IDIOM
B10A PACIFIC 3: LVDSB11G DEBUG
B11H I2C ADDRESS = 4A (WRITE)
B10C PACIFIC 3
B12A iBOARD
B12B iBOARD
T01A CHANNEL DECODER
T01B MAIN TUNER
T02A MAIN TUNER
T02B MAIN TUNER
B08C IR LED
B05C AUDIO HEADPHONE
1120
250mA
1 1
6 6
7 7
2 2
3 3
4 4
5 5
8 8
1U00
7U037U00NCP5422
+12VF
7U08
+1V2
1416
15
7U01
7U06 +3V3
+1V8
5U01
1
2
+1V2-STANDBY
12V/3V3COVERSION
12V/1V2COVERSION
5U00
+1V2-STANDBY
+5V-ON+5V-ON
7HP0
IN OUTCOM
VDDA-AUDIO
+3V3+3V3
+3V3-STANDBY+3V3-STANDBY
+3V3+3V3
+3V3-STANDBY+3V3-STANDBY
+3V3+3V3
+3V3+3V3
+5V-ON+5V-ON
DDC-5V
+5V-ON+5V-ON
+3V3+3V3
+3V3-FPGA+3V3-FPGA
1V2-PLL1V2-PLL
1V2-FPGA1V2-FPGA
+2V5out-FPGA+2V5out-FPGA
+Vin-FPGA+Vin-FPGA
+3V3+3V3
5FA6 +3V3-FPGA
5FA8 +Vin-FPGA
7FA5
IN OUTCOM
+1V2-STAB
7FA4
IN OUTCOM
+2V5-STAB
5FA7 +2V5out-FPGA
BIN-5V1JB018
CIN-5V1J4018
HDMI 3CONNECTOR
HDMI 1CONNECTOR
HDMI 2CONNECTOR
+5V-CON
+3V3-STANDBY+3V3-STANDBY
+3V3+3V3
3U01
18730_408_090923.eps091005
5U02
+3V3+3V3
+1V8
+3V3-PER +3V3-PER
+12V +12V
+3V3-NAND5HA0
+AUDIO-POWER+AUDIO-POWER
VDDA
VDD
VDDVDD
AUDIO-VDD5HM0
VSSVSS
AUDIO-VEE5HM1
+1V8
DDR2-VREF-CTRL
DDR2-VREF-DDR
AIN-5V1JA018
6JA
3
6JB
3
6J43
+3V3+3V3
+3V3-ANA
5JCA +3V3-DIG
+5V-ON+5V-ON
+5V-CON
+5V-MUX
+12V
9 9
10 10
+AUDIO-POWER
+3V3-STANDBY+2V5+2V5
+3V3+3V3
+3V3-STANDBY+3V3-STANDBY
+5V-ON+5V-ON
+5V-STANDBY+5V-STANDBY
+12V+12V
+3V3-PER+3V3-PER
+3V3-PER+3V3-PER
+3V3-STANDBY+3V3-STANDBY
+3V3+3V3
+1V2+1V2
B01a
B01a
+3V3+3V3
VDDA-LVDS
+3V3-PER
5HY1
RREF-PNX8535
VDDA-AUDIOVDDA-AUDIO
VDDA-DAC5HY4
VDDA-ADC5HY7
B01b
B01a
B01a
B01a
B01a
DualOut-of-PhaseSynchronous
Buck Controller
+5V-ON
+3V3+3V3
+12VTCON+12VTCON
VDISP7G54
+5V-ON
5G56
5G55
6J00
5JCF
STANDBYn B01B
7U27
IN OUTCOM
5U03
+3V3-STANDBY
+5V-STANDBY
+3V3-STANDBY
+1V2-STANDBY7U87
7U86
+1V2STAB.
+12V+12V
+3V3
+3V3-PI
+3V3
+1V2+1V2
1C011
3
5
5C00
5HK3
5HYA
+1V8+1V8
+1V2+1V2
+3V3-STANDBY+3V3-STANDBY
+1V2-STANDBY+1V2-STANDBY
3HJ1
3HJ3
3D14
3J07
+3V3+3V3
+2V6-MP4+2V6-MP4
V_LVC04
+1V2-FPGA
5FB1 5FA2 +1V2-PLL
5FB2
VDISPVDISP
+3V3+3V3
+3V3+3V3
6G51
+3V3+3V3
5GE2 +3V3-P3
7GE3
IN OUTCOM
+2V5-PF
+2V5-P3
7GE5
IN OUTCOM
+1V5
5GE6 +1V5-RX
5GE3 +1V5-P3
5GE4
5GE5 +1V5-TX
+1V5-PLL
6GE76GE6
5GE0
+2V5-PLL5GE1
LMI-VREF-ST
LMI-VREF
5A10
+1V1+1V1
+1VTMDS5AE8
+3V3+3V3
+2V6-MP4
+2V6-MP4+2V6-MP4
+2V5-CLKGENA5AE7
VDDE-2V55AE4
+3V3+3V3
VDDE-3V35AE0
+3V3TMDS5AE2
+2V6-MP4+2V6-MP4
2V5-LMI5AA0
+3V3+3V3
+3V3+3V3
+3V3TMDS+3V3TMDS
2V5-LMI2V5-LMI
3AAN
3AAA
7AKC
IN OUTCOM
+12V+12V
+1V17AK1
IN OUTCOM
5AK0 5AK25AK1
+5V-STANDBY+5V-STANDBY
+3V3-STANDBY+3V3-STANDBY
+3V3A
+12VIB
5291
VCC
RTS_Change
5T81
5TA4
+12V+12V
PS-LNA
PS-RF
PS-LNA
+3V3+3V3
+5V-TUNER5T55
V15T53
+12V1T12
1
3
+1V25
+3V3
+2V5-TUN
+3V3-ATSC
7T20
IN OUTCOM
9T14
7T55
IN OUTCOM
7T54
IN OUTCOM
1 1
6 6
7 7
2 2
3 3
4 4
5 5
8 8
LAMP-ON-OUT
1B28
+12VTCON1B29
T3A
BACKLIGHT-OUT B10B
B10B
BACKLIGHT-BOOST B10B
T01b
B12b
B12b
B12a
T01b
T02b
T01a
B01b
PS-LNAPS-LNAB12a
B12b
+3V3-STANDBY+3V3-STANDBY
PS-LM
+12V+12V
+3V3A+3V3A
+12VIB
PS-LNA
B01a
B01a
B01a
+12VIBB12a
B01a
B01a
T01a
T02a
T01a
+5V-TUNER+5V-TUNERT01b
TO 1C01
SSBB02A
TO 1241
SSBB12B
PS-LNA1T32
8
B10b
B01b,B03a,b,c,B05c,B06a,b,B08c,B12a,b
B10a
B11e
B11d
B11a,c,e
B11e
B01a
B01a
B01a
B01a
B01a
B01a
B01a
B01a
B13a
B10b
B01c
B11c
B11f
B11f
B11f
+12V+12V
+8V2-PASB01a
B11f
B11e
6006
B09e
B09e
B09e
B09e
B09e
B09d
B09d
B09d
B09d
B09d
B01a
B01a
B01a
B01c
B01c
B01c
B01a
B01a
B01a
B01a
B01a
B01a
+3V3+3V3
RREF-PNX8535RREF-PNX8535
VDDA-LVDSVDDA-LVDS
B01a
B03g
B01a
B01b
B01b
B01a
B01a
B01a
B01a
B01a
B01a
+3V3 +3V3B01a
B03a
B05a
B05a
B01c
B01a
B01a
B01a
B01c
B01b
B01a
B03a
B03a
N.C.
B01a
B03a
B03g
B03g
B03c,d,j
B03h
B03g
B03a,e
B03b,B12b
B02a,B03a,c
B01a,B3a
B05a
11 11 -AUDIO-POWER
B05a
B01c,B02a,B03b,h,B10b,B11f,B12a
B02a,B03a,b,c,f,g,B05a,c,B06a,c,B07c,B08a,B09a,d,e,B10b,c,B11a,b,d,e,f,g,h
T01ATO 1T12
TUNER
CN5
CN4
RES
3U91 3U935U80 5U816006
+12V+12V
7U07
IN OUTCOM
+5V-ON
B01a
B03b,g,B06c,B07c,B08b,c,B10b
3012
5D14
5D11
-AUDIO-POWER-AUDIO-POWER
VSSA
VSS
3D155D15
5D10
+3V3-STANDBY+3V3-STANDBY
1N515
8IR/LEDPANEL
B01a
+5V-ON+5V-ONB01c
B03a
B03a
5N57
5N50
3GC4
4121
7116
LN_PWR
12411
3
TO 1T32
TUNERT02A
3294
3296
3TC2
RSS3TD4
+3V3+3V3
+3V3-STANDBY+3V3-STANDBY
B01a
B01a
EN 66PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
10. Circuit Diagrams and PWB Layouts
SSB: DC / DC
COM
OUTIN
VC
C
L2
+1-1
1
2
+2-2
2VFB
GATE
IS
COMP
GATE
GN
D
1
BST
ROSC
H2
L1
H1
C
IU68 G2
I
P
13
IU91 D12IU92 D12
IU34 C6IU35 C4
IU93 D12IU95 C7
IU9C E12IU9G F13
IU39 C4IU40 C5IU41 E4IU43 D6
P
N
IU48 D5IU50 D7IU51 D11IU52 D7
4
IU58 E3IU59 E11IU60 E8IU61 D4
F
IU08 B5IU11 B2
1716
M
1514
1312
H
J
IU90 E8
3
B
IU12 B2IU13 B5
IU96 C11
IU98 D9IU9A E12IU9B E12
IU21 B5IU26 C5IU27 C8IU28 C4
FU16 B11FU17 B11
18 1917
A
18
16
O
N
IU44 D1IU45 D3IU46 D5IU47 D10
I
12V UNDER-VOLTAGE DETECTION
18
G
IU53 D8
IU54 E6IU56 E4IU57 E10
FU24 B11IU00 A11IU01 A7IU02 A5
IU62 E3IU63 E6
IU64 E7IU67 F87U15-2 E10
7U27 E13
8
N
16
E
11102
113
9U03 G11
IU16 B6IU17 B7IU18 B8
IU20 B6
FU02 B3
FU03 B4FU05 D7FU06 D12
IU30 C5IU31 C4IU32 C2IU33 C6
3UA8 B63UA9 B5
0V
7
IU36 C5IU37 C6IU38 C3
0V
5U00 A105U01 B85U02 D8
M
17
H
6U08 F76U10 E47U00 B47U01 A5
M
FU18 B11FU19 B11FU20 B117U07 E7
7U08 C67U09 C37U10-1 E3
IU03 A4IU05 A2
IU06 A1IU07 B3
3U72 D10
3U73 F13
81
15149
L
D
5
E
20
FM24 B11FM25 A11FM28 B13FU01 B7
3U78 B13UA1 E73UA2 D83UA3 B8
FU07 E12FU11 F12FU12 F12FU15 A11
3U38 D13U39 D3
4
20
P
J
K
C
3U40 D63U41 D113U43 D5
5U03 E12
6U00 A36U04 D76U06 E7
3U48 D73U49 D43U50 D113U52 E4
7U03 B67U05-1 C2
7U05-2 D37U06 B5
3U61 E33U62 E73U63 E83U64 E11
7U10-2 E47U13-1 B27U13-2 A2
7U15-1 D113U13 B33U14 B3
L
J
11
B
6
H
12V/1V2 CONVERSION
3U17 B83U19 B63U20 B53U23 C6
3U74 G13U75 G13U77 F13
3U30 D43U31 C63U32 C43U33 C5
3UA4 B5
3UA5 C63UA6 B53UA7 B5
2U92 D92U94 B9
G
F
191
L
O
I
O
3
3U44 D103U45 D73U46 D7
3U47 E8
K
A
6
O
3U55 D83U58 E103U59 E113U60 E3
3U01 A43U02 A33U03 A53U05 B1 3U68 F8
3U69 F83U70 F113U71 F92U26 E7
2U27 E7
14
B
12V/3V3 CONVERSION
017 20
106
I
3U15 B5
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A2U28 E72U29 E6
3U24 C83U26 C6
3U27 C73U28 D2
2U36 G22U37 G22U39 E14
2U40 D8
3U34 D13U35 D33U36 D5
3U37 D6
C
D
BOOSTER
12
E
D
15
B
5
E
D
152
D
H
owne
r.
2U04 A52U05 B42U07 B82U08 B8
C
2U97 B13B23 B13
3U00 A2
2U17 C1
2U18 C52U19 C32U20 D5
3U06 B53U07 B33U08 B73U12 B1
10 11
191
14
C
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
J
13
2
C
8
12
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 2 3 4
2U32 E132U33 E122U34 G22U35 G8
9 10 11 12
2U41 E132U53 C22U90 D92U91 D92B25 A13
2U00 A2
138 16
M
N
18
3V3
54
2U01 A52U02 A102U03 A10
17
G
K
1
2U09 B82U13 B72U15 B62U16 C7
2 3 4 5
2U21 D92U22 D122U23 E82U24 D8
1211
A
K
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
DC / DC
109
G
12 13 14
0V
E
F
5 6 7 8
D
E
F
G
13 14
A
B
G
A
7
P
4
owne
r.
B
C
1B24 B121B25 A12
32 9
9
1U00 A112B24 B13
76
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
5
1
2019
6 7 8 9
IU35
F
L
F
IU53
68R
3U45
4R7
3UA5
2U28
1n0
GND-SIG
4K7
3U68
100n
2U23
1B25
1K0
3U24
7U05-1BC847BS
2
6
1
39K
3U32
3U62
470R
22R
3UA
2
10R
3U41
3U63
1K0
1K03U49
IU05
7U01
5 6
22R
3UA
9
FDS4488
2U02
22u
3U20
22R
IU40
+12VF
IU43
2U24
3n3
4R7
3U23
1n0
2U16
FDS44885 6
FU11
7U06
IU50
IU07
4R7
3U15
IU57
GND-SIG
3U75
IU64
4K7
PDZ9.1-B6U10
2U91
22u
3U72
10R
3U34
33K
2U97
10u
FU17
IU34
IU44
IU17
3U01
10R
BAS316
6U04
FU02
2U21
47u
IU30
IU9C
3n3
2U08
100n
2U19
IU13
1K0
3U36
1u0
2U29
3U55
6K8
2
6
17U13-1BC847BPN
IU91
6U06
BA
S31
6
10K
3U35
3K3
3U59
22R
3UA
3
100n
2U00
IU93
10R
3UA8
4R7
3UA
6
5U02
10u
10n2B25
+1V2
10K
IU20
3K3
3U13
FU06
3U403U
38
33K
6.3V
330u2U
22
IU01
3U30
330R
FM28
3U08
22R
3U02
10K
FDS44887U03
5 6
3U73
10R
IU45
3U47
220R
1%
100n
5U01
10u
IU96
2U17
IU98
IU06
7U15-2 5
3
4
BC847BS
7U08
FDS4488
5 6
1K0
3U70
10K
1%
10R
3U44
3U03
2
3U60
100K
7U27LD1117DT18
1
3
IU61
GND-SIG
IU54
+1V2
470n
2U35
2
6
1
IU33
BC847BS7U15-1
FU19
2U34
100p
10K
3U61
FU20
22R
3U06
+1V8
1u0
2U40
22u
2U01
2K2
3U64
+3V3
IU92
22K
3U71
IU60
RES
100n
2U53
470R3U
74
1%
+1V2
14
7
10
GND-SIG
GND-SIG
16
2
15
3
6
11
5
1213
Φ4
8
9
1
NCP5422ADR2G7U00
47u
2U09
+3V3-STANDBY
100n
2U18
6K8
3U31
1011
23456789
1U001
IU58
IU63
FU16
IU67
+1V2-STANDBY
IU39
IU31
10K
3U00
100R
3U07
GND-SIG
IU16
2U92
22u
GND-SIG
3U05
FU03
10K
3U39
22K
IU08
2U15
3n3
PCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
1
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A2
BDS MODULES
3U27
6K8
10V
330u2U
33
IU51
FM24
IU95
FU24
10n2B24
3B23
100R
22R
3UA
4
3K3
IU28
3U43
3U48
68R
GND-SIG
IU47
2U04
GND-SIG
9U03
3n3
IU38
6U08
PD
Z18
-B
IU9A
120R
3U77
3UA1
470R
FU18
IU59
IU12
IU9B
10R
3U19
1K0
3U50
6K8
3U37
IU52
IU9G
IU36
5U00
10u
IU26
2U41
100u
4V
5
3
47U13-2BC847BPN
GND
FU01
GND-SIG
22R
3U46
2U37
100n
2
6
1
7U10-1BC857BS
3U26
3K3
GND-SIG
BAS316
6U00
IU62
1K0
3U69
1%
IU32
2U20
100n
3K3
3U28
RE
S
-AUDIO-POWER
6K8
3U33GND-SIG
IU46
+AUDIO-POWER
100p
2U362U
27
IU56
1n05
3
4
2U07
100n
7U10-2BC857BS
2U39
10u
10V
IU37
10K
3U58
IU90
IU41
2U32
1u0
3
4BC847BS7U05-25
25V
220u2U
03
6K8
3U17
GND-SIG
3U78
10K
GND-SIG
FU05
+12V
3U521K0
2U13
1n0
5U03
10u
7U09BC847BW
FU15
RES
1u0
2U05
IU18
FU07
IU02
7U07BC817-25W
2U94
22u
2U90
22u
IU27
IU48
100n
2U26
3U12
10K
IU11
IU03
IU68
FM25
3U14
22K
IU21
IU00
1B24
10R
3UA7
GND-SIG
+12V
STANDBYn
FU12
SENSE+1V2-FPGA
AUDIO-PROT
SENSE+1V2-PNX8535
ENABLE-1V2
SUPPLY-FAULT
ENABLE-3V3
DC_BST
18730_500_090918.eps090918
Circuit Diagrams and PWB Layouts EN 67PB52.2HU LA 10.
2010-Mar-05
SSB: DC / DC
NC
NC
A
RE
F
K
C
FU81 B4FU82 B3
FU83 B4FU84 B4
FU85 C8
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
2
2 11
109875
A
B
1
FU86 B8FU87 B5FU88 C5
IU85 C6IU86 D7
E
11
6
7U81 C27U86 D67U87 C8
C
D
AA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
par
ts
I
H
138
F
B
1312
1
J
A
9
98
12
1
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
5U80 A45U81 B4
6U80 B46U81 B3
7U80 C1
5
J
A
2 3
3 4 5 10
I
98 11
owne
r.
J
F
1
6
7
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
B
12
10
8 9
A
B
C
D
A
6
J
12 13
2U87 C72U88 C8
4
H
G
J
C
H
3U90 B43U91 A3
F
7U88 C5FU80 A4
D
C
1 2 3 4
11
3
E
D
C
B
Aow
ner.
owne
r.
I
4
F
10
5
2
4
2 6
3 4
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
7
DC / DC
2U60 B42U61 B3
2U80 B12U83 B7
2U84 B42U85 B7
2U86 B8
I
J
5
C
6 7
11
B2U89 B4
3U81 B13U82 B2
74
3U92 B33U93 B34U80 C2
9 10
F
B
10
13
5 6 71
I
G G
8
1332
6 7 8
4 5
G
123
5 6 7
D
11
G
F
E
D
C
E
D
A
D
H
E
3
H
G
3U85 B63U86 C7
3U87 D7
E4U80RES
128
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
9
9
1 2
1
13
B
C
10K
3U81
RE
S FU86
2U80
1u0
FU88
5U80
68u
+1V2-STANDBY
IU85
RE
S
68K
3U86
FU81
FU80
IU86
3U91
47R
100n
2U61
2U86
5U81
6u8
10u
+3V3-STANDBY
7U80PDTC114EU
2U83
22u
3U82
5V-DRIVE
10K
1u0
2U88
CHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
-- -- --
2009-07-282
03101
+3V3-STANDBY
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
2
3PC333
43
SETNAME
4
FU85
TS431AILT7U86
5
3 1
2
3U92
4K7
3U87
1K0
1u0
2U85
22u2U
89
FU87
35V
FU84FU83FU82
3U85
2K2
PDTC114EU7U81
1n0
2U87
7U87BC817-25W
1
3
2
1n0
2U60
1K0
3U90
+5V-STANDBY
7U88BC817-25
BZ
X38
4-C
5V1
6U81
100R
3U93
BAS316
6U80
STANDBYn
2U84
220n
ON-MODE
STANDBY
18730_501_090918.eps090918
EN 68PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: DC / DC
GND
VIN
HSPA
INH
SYNC
SW
VFB
A
SW
VIA
COM
OUTIN
C
J
D
3U83 B53U88 D43UC1 B5
1U21 D32U70 B22U71 B22U72 B22U73 B5
2
RES
C
D
8
1 2
D
E
F
G
H
6 7
A
B
C
1
7U0Z-1 A37U0Z-2 B4FU50 B6
I
10 11 12
IU24 B4IU25 B5
3 4
A
B2U74 C3
I
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts 7U0W A4
7U0X D3
A
B
12 13
8
C
DC / DC
3UC2 B53UC3 D35U0A B25U0B B4
C
D
2 3 4 5
763 4 5
F
E
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
4 7 8
13
321
J
9
2U82 B62U93 B52U95 B52U96 B6
5 6 7 8
65
9
10 11
A
B
FU52
3U80 B3
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1
owne
r.
H
G
FU51 D6FU52 B5IU22 B2IU23 B3
7
35
1 6ST1S10PH
7U0Z-1
4 9
2
8
33K
RE
S
3U80
100K
3UC
3
FU517U0X
BC847BW
RES1
3
22U
74
100n
220u
25V
16V
22u2U
82
2U96
RE
S2U
73
4n7
1K0
RE
S3U
C1
10u
2U70
10u 2U
95
10u
2U71
33R
5U0A
2U72
10u 10
u
2U93
CHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
-- -- --
2009-07-282
03101
+5V-ON
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
3
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATE
2
1 3
7U0WL7805CD2T
1U21
3U83
18K
1%
7U0Z-2ST1S10PH
10 11
+12V
RES
33K
3U88
1%
3UC
2
100K
5U0B
10u
FU50
IU25
IU23IU22
ENABLE-3V3
IU24
18730_502_090918.eps090918
Circuit Diagrams and PWB Layouts EN 69PB52.2HU LA 10.
2010-Mar-05
SSB: Pro:iDIOM
NC61NC62NC63NC64
NC69NC70NC71
NC54NC55NC56NC57
NC50
NC47NC48NC49
NC32NC33NC34NC35
NC28NC29NC30NC31
NC36NC37NC38
NC21NC22NC23NC24
NC77NC78NC79
NC72NC73NC74NC75
NC80NC81NC82
NC65NC66NC67NC68
NC9
NC14NC15NC16
NC4NC5
NC0NC1NC2NC3
NC83
NC88NC87NC86NC85NC84
NC96NC95
NC51NC52NC53
NC58NC59NC60
NC43NC44NC45NC46
NC39NC40NC41NC42
NC108NC107NC106NC105NC104
NC117NC116NC115NC114NC113NC112NC111
NC124NC123NC122NC121NC120NC119
NC17NC18NC19NC20
NC25NC26NC27
NC10NC11NC12NC13
NC6NC7NC8
NC137NC136NC135
FTM3FTM2FTM1
FPROGFSERAFMASEFMUXENBFTMRFFMEFHILO
FADDR1FADDR0FAEF0EFIFREN1
NC94NC93NC92NC91NC90
NC103NC102NC101NC100NC99NC98NC97
NC110NC109
FIFREN2FNVSTR
SCAN_ENTEST_MODEFADDR5FADDR4FADDR3FADDR2
TEST_REQFLASH_SEL
NC76
NC89
NC118
NC127NC126NC125
NC134NC133NC132NC131NC130NC129NC128
FTM0
NC139NC138
MP_TS_DVMP_TS_SOP
MP_TS_CLK
CPT_TS3CPT_TS2CPT_TS1
CPT_TS6CPT_TS5CPT_TS4
CPT_TS7
TRI_EN
SB1OUT
CPT_TS_CLKCPT_TP_DV
27MHZ
CPT_TS0
RST
CPT_TS_SOP
SB2OUT
SB2INSB1IN
SIDOK
MP_TS6MP_TS7
12C_ADDR112C_ADDR0
SDASCL
MP_TS4MP_TS5
MP_TS2MP_TS3
MP_TS0MP_TS1
C
3.3V GND
J
H
G
E
18
1110
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
D
20
C
O
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
O
N
M
B
A
9 10
L
C
18
FC0E B5
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
E
15
MULTI 12NC : 3139_283_30162BD 12NC : 3139_283_30172
E
IC0G D2IC0H E3IC0J D8IC0K D8
IC0L D8
11 12 13 14
17
owne
r.
K
A A
10 11 125
B
D
L
P
5 6
M
N
FC04 F3FC05 F3FC06 F3FC07 H3
FC08 G3
IC0S G12IC0T G13
2
TO TUNER PCB
K
I
13
16 17
B FC0F C5
FC0G C5FC0H C5FC0J C5
A
B
FROM
FC0Q D5FC0R D5IC0E E6IC0F E6
F
J
I
H
IC0M D8IC0N B12IC0P B12
IC0Q B12IC0R G12
6 7 8 91
N
7
3C21 G135C00 F5
C
D
2 3 4
FC00 C3FC01 C3FC02 D5FC03 D53C00 B3
3C01 C33C03 B53C04 E33C10 E8
FC09 H3FC0A H3FC0B H3
FC0C B3FC0D C3
18 198
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
19
20
C
TO TUNER PCB
TS TO PNX8541AND ST7101
P
FC0K C5
FC0L C5FC0M D5FC0N D5FC0P D5
21
1
O
2C15 G7
2C16 G72C17 G72C18 G72C19 H7
G
3C17 B113C18 B133C19 G11
3C20 G11
131291
G
H
I
15
N
O
P
5C04 D2
7B01-1 C77B01-2 F97B01-3 B129C01 G3
J
P
2C25 G32C26 G3
5 6 7 8
3C11 E83C12 E93C13 E93C15 B11
3C16 B11
19 20
CHANNEL
7
F
E
D
4
F
14
F
16 17
2C11 F7
2C12 G72C13 G72C14 G7
9 10 11 12 13
2C20 H72C21 H72C22 H72C23 H7
2C24 G31C01 F21C02 G21C04 E3
M
4 165 119 20
L L
K
ITV ProIdiom
DECODER
PRO:IDIOM
9 10 11 12 13
8
M
63 15 16
15
18
2C00 G52C04 E22C10 F7
5 6 7 8
B
C
D
E
F
14
1 2 3 4
F
G
H
1C00 A4
G
H
A
B
C
D
E
1413102 73 12
19
14
1 2 3 4
H
I
J
8 17
3 4 5 6
G
14
A
IC0S
+3V3
FC07
2C26
100n
FC0A
+3V3-PI
IC0N
RES9C01
FC0R
FC09
FC0P
IC0M
FC0B
FC0N
2C11 100n
3K3
3C10
3u3
5C04
FC01
100n2C20
FC05
2C19 100n
FC0E
FC0D
+3V3-PI
FC
08
100n
2C25
IC0R
+3V3
3C19 1K0
+1V2
47R
3C04
100n2C23
2C17 100n
3C01
3K33C15
1K0
FC0F
3C18
2C13 100n
+12V
IC0F
2C04
10u
FC0KFC0J
2
3
FC03
A2
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
4
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
13010
2 2009-07-28
-- -- --
2009-05-15
R11
R14R3
R8R9
IC0H
G1
H1
L5
P10P11P12
P5P6P7P8P9
C12
C5C6C7C8C9
D14D15D16
E14
E5
EP2C5F256C7N7B01-1
B14
B2
B3
B8B9
C10C11
IC0P
ΦCONTROL
IC0K
R7
T11T13T15
T2T4T6T8T9
P4
R1
R10R12
R13
R15R16
R2R4R5R6
N4N5N6N7N8N9
P13P14P15
P2P3
N1
N10
N11N12N13N14N15N16
N2N3
M14M15M16
M2M3M4M5M6M7M8M9
L15
L16
L2L3L4
M1
M10M11M12M13
K14K15K16
K2K3K4K5
L1
L12L13L14
J1J13J14J15J16
J2J3J4
K1
K12K13
H12H13H14H15H16
H2H3H4H5H6
F5
G12G13G14G15G16
G2G3G4G5
H11
E8E9
F1
F12F13F14F15F16
F2F3F4
E10E11E12E13E15E16
E2E3E4E6E7
D13
D2D3D4D5D6D7D8D9
E1
B7
C13C14C15
C2C3C4
D1
D10D11D12
A9
B1
B10B11B12B13B15B16
B4B5B6
Φ7B01-3
EP2C5F256C7N
A11A13A15
A2A4A6A8
NC
100n2C16
1K03C20
FC0H
IC0J
100n2C12
2C15 100n
+3V3
89
3C11
3K3
171819
2
20
34567
1
10111213141516
1C00
FC00
FC02
FC06
3K3
3C12
FC04
33R
3C03
+3V3-PI
RES
27M02
1 4
3
IC0G
DSO751SV1C04
3C00
2C00
10u
100n2C18
100n2C10
3C21
1K0
FC0G
T7
IC0E
L9P1P16
T1
T10 T12T14 T16
T3T5
K10K11
K6K7K8K9
L10
L11
L6L7L8
H8
H9
J10J11J12
J5J6J7
J8J9
F7
F8F9
G10
G11
G6
G7
G8
G9
H10
H7
A14
A16A3
A5
A7
C1C16
F10
F11
F6
POWERΦ
A1
A10
A12
3C13
3K3
7B01-2EP2C5F256C7N
+3V3-PI
FC0C
FC0Q
5678
9 10
1234
FC0M
1C01
FC0L
5C00
30R
1C0212345
IC0L
2C24
100n
3K33C17
2C22 100n
2C21 100n
IC0T
IC0Q3C16 3K3
TUN-FE-SOP
TUN-FE-SOP
TUN-FE-CLK
TUN-FE-CLK
TUN-FE-DATA7
TUN-FE-DATA7
100n2C14
TUN-FE-DATA2
TUN-FE-DATA2
TUN-FE-DATA3
TUN-FE-DATA3
TUN-FE-DATA4
TUN-FE-DATA4
TUN-FE-DATA5
TUN-FE-DATA5
TUN-FE-DATA6
TUN-FE-DATA6
RESET-SYS-DETECT
PI-SDAPI-SCL
TUN-FE-ERRTUN-FE-VALID
TUN-FE-VALID
CVBS-AM
CVBS-BO
TUN-FE-DATA0
TUN-FE-DATA0
TUN-FE-DATA1
TUN-FE-DATA1
FE-ERR
RESET-PI
IF-P
IF-N
SCL-SSB-MUX2SDA-SSB-MUX2
SCL-SSBSDA-SSB
FE-DATA7
PI-SDA
FE-DATA6FE-DATA5FE-DATA4FE-DATA3FE-DATA2FE-DATA1FE-DATA0
FE-CLK
FE-SOPFE-VALID
PI-SCL
18730_503_090918.eps090918
EN 70PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: PNX 85xx: Power
C
VS
S
VS
SV
SS
VS
S
VS
S
VS
S
VS
S
VS
S
VS
S
VS
SA
AU
DIO
VS
SA
VID
EO
VS
SA
DD
R D
LL
VS
SA
VID
EO
DLL1
DLL0
3V3 LVDS
3V3A AUDIO
1V2A DDR
3V3A DDR
1V2A HDMI
3V3A HDMI
3V3 PER
3V3 SB PER
1V2 SB CORE
NC
3V3A LVDS
3V3A LVDS PLL
1V2A CAB
3V3A 1.7 MCAB
1V2 CORE
3V3 HDMI
DAC
BIAS
PLLCCO
ADC
REF
PLL
1V2A VIDEO ADC
EQ
1V2A AUDIO ADC
DLL2
PLL
1V8_2V5 DDR
DLL3
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
M
5HY7 C4
18172
A
B
16
IHY5 E8
IHY6 E8IHY7 E8
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
17 18 19 20
65
O
2HZJ G7
1615141343
E
F
IHY9 F8IHYA F8
IHYB F8IHYC F8IHYD F4IHYE D10IHZ0 A3
IHZ1 B3IHZ2 C3IHZ3 D3
5HY5 C55HY6 G7
2HYG E11
1817
2HYH E112HYJ E112HYK E122HYN E12
20
C
1
311
K
L
M
N
111097
IHY3 D8IHY4 D82HZG D4
2HZH B3
D
108 9
10 11
P
G
7 8 9 10
C
B
AIHY8 E8
5HY3 A55HY4 B4
2HYE E112HYF E11
4
14 15
19 20
P
O
2HYP E122HYR E12
B
A
C
2
L
4 5 6
G
F
E
D
21
IHY1 C8IHY2 D82HZE D3
2HZF D3
B
C
2HK9 E3
5 6 7
2 12 13
19 20
H
I
J
15141312
C
D
J
5HY1 A45HY2 H7
2HYC E102HYD E10
2 3
N
M
L
K
F
I
G
4 11
2HYS C102HYT C10
98
D
E
J
I
H
O
N
B
83
CHY1 D10IHY0 C82HZC D3
2HZD D3
H
A
2HK7 E42HK8 E4
11
12
16
PNX 8541 : POWER
1 2 3 4 5
3 4
2HZN F72HZP A3
P
O
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
K
H
I
5HKC D5
5HY0 B5
2HYA G7
2HYB G7
14
1 5 6 7 8 9 10 11 12 13 14
A
2HYU C11
2HYV C11
76
F
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
P
7H00-11 C97H00-12 G142HZA G7
2HZB D3
F
G
2HK5 E32HK6 F5
13125
2HKA C62HKB C62HKC D62HKD D62HY0 B6
2HY1 B62HY2 B62HY3 B62HY4 H72HY5 H7
8 9
2HZR A32HZS A3
N
M
L
J
G
5HK6 E35HKA B5
2HY8 C62HY9 C6
12 13
D
E
6 7
2HYW C112HYY C112HYZ C112HZ0 C12
2HZ1 C122HZ2 D102HZ3 D102HZ4 D112HZ7 E10
B
C
2HK1 D62HK2 F6
5HY8 F75HY9 F7
5HYA D122HZ8 E102HZ9 E11
D
E
2HK3 F42HK4 F5
1514
H
E
F
G
H
2HK0 D6 2HZT F72HZU A32HZV C35HK0 D55HK1 E5
5HK2 F35HK3 F3
2HY6 A62HY7 A6
10 11
18 1916 17
+1V2
2HY
Y
100n
2HY
8
100n
5HY7
30R
5HK3
120R
2HY
2
100n
100n
2HY
1
2HZ
E
10n
IHYA
100n
2HY
N
2HK
8
100n
2HZ
C
1u0
+1V2
2HY
S
1u0
IHYE
VDDA-DAC
2HZ
1
100n
+1V2
2HY
3
1u0
100n
2HY
K
1u0
2HZ
T
2HY
V
1u0
+3V3-PER
2HZ
J
1u0
IHY0
IHYB
2HZ
P
100n
10u
2HK
3
2HZ
0
100n
1u0
2HZ
B
+1V8
22u
2HK
0
100n
2HY
H
+3V3
100n
2HZ
V
2HZ
9
100n
100n
2HZ
8
1u0
2HZ
7
30R
5HK0
5HY9
30R+1V2
CHY1
2HZ
4
100n
VDDA-ADC
2HY
6
100n
30R
5HKC
2HY
P
100n
100n
2HK
5
10n
2HZ
D
120R
5HK2+3V3-PER
+3V3-PER
2HZ
A
100n
100n
2HY
W
IHY9
100n
2HZ
R
5HKA
30R
2HY
0
100n
IHZ0
+1V2-STANDBY
100n
2HY
4
+3V3
2HY
D
10u
2009-07-282
03101
IHY2
ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
5
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
100n
2HK
C
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV
+3V3-PER
2HK
7
1u0
IHZ1
2HZ
G
10n
30R
5HY4
2HY
9
1u0
5HY3
30R
1u0
2HY
T
2HY
5
IHY8
1u0
5HK1
120R
RREF-PNX8535
+3V3-PER
+1V8
2HY
F
10u
+1V2
2HY
G
100n
100n
5HK6
2HZ
S
IHY7
30R
+1V2
+3V3-STANDBY
2HY
J
100n
100n
2HY
A
IHY4
30R
5HY6
IHY1
+3V3
VDDA-ADC
100n
2HK
6
VDDA-LVDS
30R
5HY2
IHY6
5HYA
220R
IHY5
D1
D2
D3
E1
E2
E3
F4
F5
G5
H3
H4
H5
N5
N6
C1
C2
U6
AE
15A
E16
AE
9A
F9
AB
26W
26F
26J25
B1
E4
T29
T5
T6
U13
U14
U15
U16
U17
T13
T14
T15
T16
T17
T25
AE
25
T26
R13
R14
AE
24
R15
R16
R17
R25
N27
N30
P13
P14
P15
P16
P17
P25
N13
N14
N15
N16
N17
N18
N25
AD
6
F19
G30
H26
H27
AD
5
K27
K29
M25
D9
AB
29
E25
E26
E9
F12
F13
F18
AJ3
0A
K25
AK
30B
29C
28D
27D
8
AH
26A
H28
AH
29A
H30
AJ1
AB
25
AJ2
5
AJ2
9
AG
28A
G29
AA
27
AG
3A
G30
AH
2A
H21
AH
25
AF
26A
F27
AF
28A
F29
AF
30A
G25
AG
26A
G27
AE
5A
F12
AF
13A
F21
AF
22A
F24
AF
25
AA
26
V17
V18
V27
W29
Y26
Y27
AE
29A
E30
7H00-12AA
25
AE
28
V13
V14
V15
V16
VS
S
PNX8535
2HK
B
100n
1u0
2HZ
U
10u
2HY
C
100n
2HY
Z
IHY3
1u0
2HY
U
IHYD
+3V3-PER
1u0
2HY
7
+1V25HY1
220R
IHYC
100n
2HK
A
100n
2HK
2
5HY5
30R
2HY
B
2HK
4
1u0
100n
100n
2HZ
N
30R
5HY8
330u2H
K9
VDDA-AUDIO
6.3V
2HK
1
VDDA-LVDS
100n
2HZ
3
100n
+1V25HY0
30R
IHZ2
2HK
D
100n
IHZ3
1u0
2HZ
2
VDDA-AUDIO
2HZ
H
100n
10n
2HZ
F
100n
2HY
R
E24K25K26
W6
AD25
Y5
AG11AG13
AH1AH13
E23
G6
AC27AD26AE17AE18AE19
F14F15F16
V6W5
AE21
E8
AG24AH24AF23
AC26
F17F24F25F6
G25
R6
AE6
AF8
AF7
W27F27
G26
F7
E7
AE22
F9U25V25
AA5AA6AB5AB6
P18R18T18U18
C8
J5J6K6
AE12
W25
AE13AE14
F10F21F22
AE7
P6
AB27
J26
D7
VDDA-DAC
VDD
7H00-11PNX8535
10u
2HY
E
SENSE+1V2-PNX8535
18730_504_090918.eps090918
Circuit Diagrams and PWB Layouts EN 71PB52.2HU LA 10.
2010-Mar-05
SSB: PNX 85xx: Standby Controller
NC
GNDRST
IN
CD
C
NC
GNDRST
IN
CD
1
X11
1
X11
NC
GNDRST
IN
CD
1
X11
NC
GNDRST
IN
CD
D
C
S
W
HOLD
VSS
Q
VCC
SCLADR
012SDA
WC
543
P1
P5
P3
P2
SDISDO
SDA
CSBCLK
RESET_IN
4
ALE
I2C uP
PWM
SCL
10
PSEN
21
4
76543210
7321
SPI
5P6
I
OXTAL
0
765
EA
3210
P0
3210
0
1
X11
NC
GNDRST
IN
CD
NC
GNDRST
IN
CD
2H07 E22H08 H122H10 A132H11 G12
2H90 E122H91 F12
B
543
N
M
761
1 2
N
19
C
D
E
A
B
3 4 5 6 7 8
O
P
20
D
E
F
1918
13 14
1
G
H
1HB0 G91HF0 A42H00 B22H01 D2
8 9 10 11 12 13
2H05 D92H06 D2
B
C
D
E
F
G
2HC0 F82HC1 E52HD0 B12HF0 A4
K
A
L
18
3
H
8 17169
RES
1 2
3H01 B113H02 B11
3H03 B113H04 B113H05 B113H06 B11
9 10 11 12
201918
2 3 4 5 6 7
17
I
14
A
3H11 C133H12 C123H16-1 B13H16-2 B13H16-3 B13H16-4 B1
H
A
B
C
10
ITV CONTROL connector
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
8
F
G
3H27-4 C13H29 F123H32 A113H33 G12
3H35 D53H36 E4
2HF1 A43H00 B11
3H41 B73H42 C13H43 C53H44 B73H46 C13H47 C5
3H07 B113H08 B113H10-1 B13H10-2 B1
M
N
10
H
14 15
L
1615
K
J
3H58 D1
3H59 D53H60 D13H61 D53H63 D53H64 D1
3H10-3 B13H10-4 B1
3H67 D13H68 D53H69 D1
3H70 D13H71 D53H72 D5
3H18 F113H21-1 C13H21-2 C13H21-3 C1
20
P
O
N
M
L
3H21-4 C13H22 G113H25 F133H27-1 C13H27-2 C13H27-3 C1
5
I
J
D
E
3H79 H11
3H38 B73H39 B1
3H82 D93H83 C73H84 E103H85 C83H86 H123H87 D12
3H48 C13H49 C53H50 B73H51 C1
H
118 9 10 20
3H52 C53H53 B73H54 C73H56 C73H57 B5
D
3H92 H123H93 D73H94 E123H95 D83H96 F10
3H65 D53H66 D5
3H99 C53HB0-1 H83HB0-2 H8
3HB0-3 G83HB0-4 G83HB1 H8
3H73 D53H74 D53H77 G113H78 G13
F
1512
AA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
par
ts
18
F
C
2
G
4
3HC3 E2
3HC4 F23HC5 F33HC6 G33HC7 G33HC8 H4
3H80 C73H81 C9
3HD2 A23HD3 A13HF1 A5
3HW0 H24HD0 A16H00 D11
3H88 D73H89 E113H90 D83H91 E12
6 7 15
I
J
7H00-6 A67H02 B13
13
E
7H22 C117H90 D137H91 F137H92 G137H93 F11
7HB0 H6
3H97 F113H98 F12
7HC0-3 G47HC0-4 G47HC1 H27HC2 H47HC3 F77HC4 E8
3HB2 H83HB3 H83HB4 H63HC0 E7
C
11
1211 12
19
16 17
G
3HC1 E93HC2 E7
9HB2 H89HC0 E89HC1 E89HC2 F9FH00 E2FH01 E2
3HC9 F93HD0 A1
FHB1 G8FHB2 H8FHB3 H8FHB4 H8FHB5 H8FHB6 H8
6H01 D86H05 F116HW0 H26HW1 H2
14
146
FHC3 F8FHC5 F2FHC6 G2FHC7 G2FHD0 A2
7H03 C10
7H04 H137H14 G117H16 D77H18 D87H21 D13
FHDB C5FHDC C5FHDE C5FHDF D5FHF0 H2IH15 H2
7HC0-1 E47HC0-2 F4
IH20 F12IH21 G11IH22 G12IH70 G12IH71 H11IH72 H12
7HD0 A2
9H01 E29H03 E29H07 C12
O
P
MAIN NVM
76
F
9
D
9HB0 H6
17
3 4 5 11 12
FH23 G12FHB0 G8
IH85 D7IH86 D8IH90 D11IH91 D11IH92 E12IH93 E12FHB7 H8
FHC0 E7
FHC1 F7FHC2 F7
13
FHD1 A5FHD2 B5FHD3 B5
FHD4 B5FHD5 C5FHDA C5
IHC3 F9IHC5 E3IHC6 F3IHC7 F3
IHC8 G3IHD0 B2
IH16 C13
IH17 C12
O
521
1 2
IH73 H12IH80 C8IH81 C9
IH82 D9
E
8
IHD1 A5IHD2 B5IHD3 C5IHD4 C5IHD6 D5
C
MULTI 12NC : 3139_283_30162
1413
owne
r.
16
IHDM C7IHDN C7IHF1 B8IHF2 B8IHF3 C8IHF4 C8
IH83 D8IH84 D7
BB
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
H
G
IH95 F11
IH96 F11IH97 F12IH98 F12
A
K
owne
r.
I
J
13
M
7
IHC0 E8IHC1 E8IHC2 F8
K
IHF5 A12
IHF6 B12IHF7 B12IHF8 B12IHF9 A13
3
P
PNX 8541 : STANDBY CONTROLLER
4
109
IHD7 D5IHDG B7IHDH B7
IHDJ B7IHDK B7IHDL B7
L
BD 12NC : 3139_283_30172
FH00
FHC3
47R3H383H
D2
10K
3HF1
1
100R
NCP303LSN10T17H03
5
3
2
4
+5V-ON
180K
3H33
+3V3-STANDBY
3H63
FHD1
100R
100R3H49
2H91
100n
IH98
10K3H42
FHDA
3H39 10K
3H21-110K3H21-210K
100R
3H21-4 10K
3H65
3H52 100R
FHC6
100R
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
03101
3H47
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
6
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
9HC0
9H03
100K
3HC
1
IH82
27M
1HF
0
IHF7
10K
3HC
0
FHDB
3HC4 100R
2H11
100n
3H27-1 10K10K3H27-2
3H27-3 10K
+3V3-STANDBY
3H77
100K
100n
2H90
13
714
12
7HC0-174HC4066PW
+2V5
9H01
2H08
100n
1
NCP303LSN10T17HD0
5
3
2
4
+3V3-STANDBY
3H41 47R
IH83
4K73H02
10K
IH81
3H27-4
3H10-3 10K10K3H10-4
PDTC114EU7H21
RES
+3V3-STANDBY
6HW1
BAS316
100p2H07
5
714
43
7HC0-274HC4066PW
IH21
100R3H99
68K
3H81
100p2H06
100R3H43
100R3H72
4
1
7H04NCP303LSN10T1
5
3
2
IHF5
IH91
+3V3-STANDBY
+3V3-STANDBY
3H46 27K
3H68 100R
3H97
47K
3HC6
100R
2HF1
27p
10K
3H84
3HC2
10K
IHDHFHD4
100K
3H85
7HC1PDTC114EU
1
3
2
IHC7
FHC1
+3V3-STANDBY
FHD3
IH73
IHF22H00 1n0
IHDJ
BC857BW7HC4
+3V3-STANDBY10K3H21-3
1
BAS316
6H01
NCP303LSN10T17H90
5
3
2
4
6H05
BAS316
IH97
10K3H48
12
714
1110
7HC0-474HC4066PW
3H01 10K
+3V3-STANDBY
+3V3-STANDBY
FHDE
100K
3H83
4
3
FHDC
Φ6
5
7
2
1
8
512KFLASH
M25P05-AVMN67H02
FHDF
+3V3-STANDBY
IH85
100R
3HC5
FHD2
+3V3-STANDBY
FHD0
100R3H71 +12V
IHDG
3H29
4K7
BAS316
6H00
IH80
100R3H44
10K
3H93
100R3HC3
+3V3-STANDBY
75R3H56
IHF9
IHC2
3H03 4K7
3H51 10K
10K3H00
3HD0
1K2
+3V3-STANDBY
IHF4
27p
2HF0
10K
3H95
+3V3-STANDBY
IH16
IH22
IHC1
100R3H66
FHC2
IHC3
10K3H36
IHDK
IHF1
IHC6
+3V3-STANDBY
10K3H05
RES
100K
10K3H04
3H70
3H69 10K
100n
2HC1
3H50 100R3H16-1 10K
IHC5
IH90
10K3H58
100R3H35
IH17
BC847BW7H14
+3V3-STANDBY
3HC
8
10K
FHC0
IH20
AD3AD2
AA3
AE1AD4
AD1AE3
AG1
AG2
AC1
AF4AF3AF2AF1
AE2AE4
Y1
W1Y4Y3
AB1AC5AC4AC3AC2
AB4AB3AB2
V2V1W4W3W2
U3U2U1V5V4V3
AA2AA1
STANDBY CONTROL
Y2
AA4
AG4AH3
U5U4
7H00-6PNX8535
100K
3H89
3H08
+3V3
FH23
7
10K
123
6
5
84
M24C64-WDW67HC3
EEPROM
Φ(8Kx8)
100n
2HC0
3H60 10K
7H93BC847BW
22K
3H82
IHDL
3H18
100K
+3V3-STANDBY
IHD0
100n
2H05
10K3H07
3H06 10K
2H01
100n
96
714
8
FHC5
7HC0-374HC4066PW
3H86
4K7
9HC
2
IHF8
3HD
3
2K2
RES
9HC1
100K
3H80
2HD0
100n
47K
3HW0
3H64 10K
IHDM
+3V3-STANDBY
IHD1
75R3H57
3H78
10R
3H88
1K0
7H22PDTC114EU
IH71
10K
3HC
9 3
2
4
1
IH95
7H91NCP303LSN10T1
5
3H54 100R
3H73 100R
3H96
8K2
IHDN
BAS316
6HW0
IH84
22K
3H91
3HC
7
10K
100n
2H10
100R3H53
IH92
3H10-1 10K3H10-2
3HB2 100R
10K
+3V3-STANDBY
100R3HB3
IH96
IH15
7H18BC847BW
IHC0
+3V3-STANDBY
3H94
68K
3H92
180K
IHF3
3HB1 100R
IHF6
68K
10K
3H22
3H16-2
68K
3H87
3H11
100R
FHB6
IH70
FHB5FHB4
IH93
10K
3HB
4
10K3H67
IH86
7H16BC847BW
FHB1
3HB0-1
FHB0
100R
3H12
10K
FHD5
IHD4
IHD6
2
+3V3-STANDBY
7HC2PDTC114EU1
3
10K3H16-410K3H16-3
100R
IH72
3H74
4
1
3H32 10K
NCP303LSN10T17H92
5
3
2
IHD2
FHC7
IHD3
FH01
100R3HB0-2
3HB0-3 100R100R3HB0-4
9HB2
27K
3H90
IHC8
9H07
3456789
1112
1
10
2
FHB7
1HB0
3H79
68K
FHB3
9HB0
FHB2
7HB0PDTC114EU
IHD7
FHF0
4HD0
3H98
22K
3H59 100R
+5V-STANDBY
+3V3-STANDBY
+3V3-STANDBY
100R3H61
10R
DV-B0_UART2-RX
RESET-STBY CVBS-AMON-MODE
3H25
RC
SCL-SSB-MUX1SDA-SSB-MUX1
DV-B1_UART2-TX
EA
ALE
PSEN
CTRL5-STBY_BACKLIGHT-BOOSTCTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
SDA-UP-MIPSSCL-UP-MIPS
SPI-WPSPI-PROG
ON-MODE
BOLT_ON_SCLBOLT_ON_SDA
SPI-WP
SPI-CSB
SPI-SDISPI-SDO
SPI-CLK
SPI-SDI
LED2-3V3RC
UART-SWITCHAUDIO-RESETCTRL1-STBY_LAMP-ONENABLE-3V3REGIMBEAU_CVBS-SWITCHENABLE-1V2RESET-NVM_WP-NANDFLASHLED1-3V3
SENSE+1V2-PNX8535
DETECT-1V2-2V5-3V3
TXD-UPRXD-UP
CTRL3-STBY_POWER-OK-DISPCTRL4-STBY_SELECT-PWM-ANADETECT-5V-12VRESET-PI
RESET-PI
AV1-BLKEJTAG-DETECTDV-B2_DEBUG-BREAK
DETECT-1V2-2V5-3V3
SDMAV2-BLKRESET-SYS-DETECT
SUPPLY-FAULTCEC-HDMI
SPI-SDOSPI-SDI
SPI-CSBSPI-CLK
LIGHT-SENSORKEYBOARDKEYBOARD
SDMAV2-BLK
RESET-SYS-DETECT
TXD-UPRXD-UP
DETECT-1V2-2V5-3V3SUPPLY-FAULT
CEC-HDMILED2-3V3
RC
CTRL1-STBY_LAMP-ONENABLE-3V3
REGIMBEAU_CVBS-SWITCHENABLE-1V2
RESET-NVM_WP-NANDFLASHLED1-3V3
EA
ALE
PSEN
CTRL5-STBY_BACKLIGHT-BOOSTCTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
SDA-UP-MIPSSCL-UP-MIPS
DC_PROT
CTRL3-STBY_POWER-OK-DISPCTRL4-STBY_SELECT-PWM-ANA
DETECT-5V-12VRESET-PI
ON-MODEAV1-BLK
EJTAG-DETECTDV-B2_DEBUG-BREAK
UART-SWITCHAUDIO-RESET
SPI-PROG
RESET-STBY
SPI-WP
POWER_DOWN
RESET-ST7101
TXD-MIPS
RXD-UP
RXD-MIPS
TXD-UP
SDM
UART-SWITCH
UART-SWITCHn
RXD
UART-SWITCHn
TXD
POWER-OK-DISPLAY
CTRL3-STBY_POWER-OK-DISP
SPI-PROG
DETECT-5V-12V
+1V2-FPGA
DETECT-1V2-2V5-3V3
DETECT-1V2-2V5-3V3
DETECT-1V2-2V5-3V3
DV-B3_AUDIO-MUTE
AUDIO-MUTEAUDIO-RESET
SDA-UP-MIPS
SCL-UP-MIPS
RESET-NVM_WP-NANDFLASH
18730_505_090918.eps090918
EN 72PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: PNX 85xx: Control
GPIO
I2C1
I2C2
I2C3
EJTAG
SDASCL
TDOTRSTTMSTCKTDI
SCLSDASCLSDA
VPP_ID
012345
27MHz_OUT
RESET_SYS
-BUSCTRLFIL
I 2 CINP
C
3HF4 B7
H
C
D
E
1HFG B51HP0 E32HF2 B1
3HFQ C8
B
G
9
109
6
H
10
A
B
C
D
E
A
E
D
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
C
B
EAll
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
3HF5 B73HF9 A83HFG B63HFJ C63HFK C6
7HP5 E6
3HFL C7
109
EJT
AG
FO
R P
NX
8541
6
11
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
1 22HF3 E52HF4 E42HP1 D53HF0 A53HF2 B73HF3 A7
2 3 4 5 6 7 8
43
8
3HFM B83HFN B83HFP C8
FHP4 B3
3HFY C2
12
F
A
G
H
I
J
2 3 4 5
J
MULTI 12NC : 3139_283_30162BD 12NC : 3139_283_30172
3HPW D63HPX D83HPY D83HPZ D76HF0 A77H00-4 A4
IHP1 C3
9HF1 B2
2
B
H
32 5
C
3 4 5 6 7 8
1
1
F
G
11 12 13
9HPC D29HPD D2FHP0 E4FHP1 E4FHP2 E4FHP3 B3
FHP5 B3
13
E
F
G
5
0R
11
0R
3HPA E43HPB E43HPC D8
1
I
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 76
3HPM D43HPQ E53HPR D63HPS D63HPT D53HPU E6
FHPN D7IHF0 A4IHFA A7IHFB B7IHFC B7IHFD B7
IHP2 C3
4
IHP5 D2
D
13
8
C
B
A
F
E
9HP5 D29HP6 D29HP7 D29HP8 D29HPA D29HPB D2
877
6 7 1312
4
3
FHP6 B3FHP7 B3FHP8 B3
FHP9 B5
3HPD D23HPE E23HPF E23HPG E23HPH E23HPJ E23HPK D4
FHPG C5FHPH C5FHPI C6FHPK D7FHPL D7FHPM E7
21
J
I
FHPA B5FHPB B5FHPC C5FHPD C5FHPE C5FHPF C5
D
C
B
A
9
A
9HF2 C29HF3 C2
5
PNX8541 : CONTROL
121110
DIHP6 E2IHP7 E2IHP8 E2IHP9 D5IHPA E5
8
+3V3-PER
+3V3
IHP9
FHPD
9HF
3R
ES
AJ27
AJ26AJ2AK1
AK2
AK3AJ3
AE27
T2T3G27E27D28
AK27AH27AK29AK28AJ28
7H00-4PNX8535
AK26
T1
MIPS C0NTROL
3HP
C
4K7
100R
3HFJ
FHPA
9HP5
10K3HFP
10K3HFN
FHP8
FHP6
IHP6
+3V3
47R3HPJ
100R3HPW
9HP7
9HPD
6HF0
SML-310 3HF9
330R
3HF0
IHP1
9HPB
100n
2HF
2
FHPC
47R3HPQ
FHPE
9HF1
FHP7
3HPD 47R
3HPH
IHFD
47R
3HPF 47R
IHPA
3HF
3
10K
FHP9
47R3HPE
100R3HPR
FHPF
9HF2
FHPH
9HP8
FHPG
100p
2HP1
9HPCFHPK
+3V3-STANDBY
+1V2
10K
3HF
K
IHFB
4K7
3HP
Z
47R3HPG
9HPA
IHFC
FHPL
4K7
3HP
X
100R
IHF0
2K2
3HP
M
3HPS
SDA
3
VDD
6
VSS
5SC0
8SC1
1 SCL 4SD0
7SD12
FHP5
7HP5PCA9540B
3HF4FHP3
22R
56789
15 16
1
1011121314
234
1HFG
9HP6
IHP8
IHFA
IHP5
FHPB
3HP
B
47R
10K3H
FL
3HP
Y
4K7
22R
3HF5
FHP4
47R3HPT
FHPN
FHPM
FHPI
IHP2
3HPU
43
3PC333
7
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
100R
13010
2 2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
3HF
Q
100K
+3V3-STANDBY
3HF2
100n
2HF
4
FHP2FHP1
+3V3-PER
FHP0
10K3HFM
+3V3
IHP7
47R3HFG
2HF
3
100n
3HP
K
2K2
+3V3-PER
47R
123
4 5
3HP
A
10K
3HFY
1HP0
SCL-SSB
SCL-SSB
SDA-2
EJTAG-TDI
PCI-CLK-OUT
PCI-CLK-PNX5050_CLK-MOP
SDA-SSB
EJTAG-TRSTN
EJTAG-TDO
EJTAG-TMS
EJTAG-TCK
SDA-SSB SDA-SSB-MUX2
SDA-SSB-MUX1
SDA-SSB-MUX2
SCL-SSB-MUX1
SCL-SSB-MUX2
EJTAG-TDI
TXD-MIPS
PCI-CLK-USB20
PCI-CLK-PNX8535
SCL-SLAVE SCL-UP-MIPSSDA-SLAVE SDA-UP-MIPSSCL-2 SCL-UP-MIPS
SDA-UP-MIPS
SCL-SSB SCL-SSB-MUX1SCL-SSB-MUX2
SDA-SSB SDA-SSB-MUX1
SDA-SSB
CA-CTRLEN_BOOTMODE
EJTAG-DETECT
RESET-STBY
EJTAG-TRSTN
EJTAG-TMS
RESET-SYS-DETECT
SCL1 SCL-SLAVE
SDA1 SDA-SLAVE
SCL2 SCL-2
SDA2 SDA-2
SCL3 SCL-SSB
SDA3
IRQ-PCICTRL1-MIPS_LCD-PWR-ONCA-CTRLEN_BOOTMODE
PCI-CLK-OUT
RESET-SYS-DETECT
SCL1
SCL2
SCL3
SDA1
SDA2
SDA3
EJTAG-TCKEJTAG-TDI
EJTAG-TDO
EJTAG-TMSEJTAG-TRSTN
RXD-MIPSCA-INT
18730_506_090918.eps090918
Circuit Diagrams and PWB Layouts EN 73PB52.2HU LA 10.
2010-Mar-05
SSB: PNX 85xx: Control
C
XIO
26252423222120191817161514131211109876543210
PCI AD
PCI AD
INTA_OUT
GNT_BREQ_B
GNTREQ
SERRPERR
PARIDSELSTOPTRDYIRDY
FRAME
0123
PCI_CLK
DEVSEL3210
AD25ACK
3130292827
CBE
PCI CTRL
XIO SEL
2
101 7
98
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
F
E
F
E
C
B
I
1211
3 4
I
H
E
2 13
A
4
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
D
C
G
F
1211
109
C
B
11
B
A
98
13
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
5
3HET C7
1 765
H
G
65
G
H
7 8
IHE4 C4IHE5 C5IHE6 C5
5 6 71
D
321
J
IHEJ C7
132
5
G
1110
D
8
1312
3
PNX 8541 : CONTROL
12
3 4
3HEB-4 B73HEC B73HED B73HES C7
2
3HEU C43HEV B23HEW C77H00-5 A3
J
A
B
C
DIHE1 B2IHE2 B2IHE3 B2
6
8
A
B
C
D
IHEA B7IHEB B7IHEC B7IHED B7
4
IHEF B7IHEG B7IHEH B7IHEI C7
1 2 3 4
J
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
owne
r.
A
I
H
C
D
3HEA B7
9HE1 B79HE2 C79HE3 C79HE4 C7IHE0 B2
3 4
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
3HEB-1 B73HEB-2 B73HEB-3 B7
9 10
1
10K3HEW
6 7
IHEE B7
5 6 7 8
A
B
F
E
9HE3
10K3HEB-4
IHEID16
B16E17
B11C11D11E11
E12
A19B19C19D19E19A18
A21
C16
D21
E22
D14C14B14A14E13D13C13B13
D20
A13
D18E18A17B17E15D15C15B15
C20
A15E14
C17
E21
E20
B21
C21
D17
E16
A20B20
B18C18
PCI XIO
A11B10
D12C12B12A12
A16
7H00-5PNX8535
3HEA 10K
IHEH
10K3HEB-1
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
-- -- --
2009-07-282
03101
+3V3-PER
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
8
3PC333
43
+3V3-PER
+3V3-PER
10K3HEB-3
3HES 10K
+3V3-PER
3HEU 100R
10K3HED
10K3HEC
IHEB
IHE5
9HE4
IHE1
IHEDIHEC
3HEB-2 10K
IHEJ
IHEG
IHEA
IHE0
IHE6
IHE4
IHE3
3HEV
100R
9HE1
10K3HET
9HE2
IHE2IHEF/PCI-PERRPCI-PERR
PCI-DEVSEL
PCI-SERR
PCI-REQ-PNX8535
PCI-GNT
PCI-GNT-PNX8535
PCI-AD24
PCI-GNT-B
IHEE
PCI-PARPCI-PERR
PCI-REQ
PCI-REQ-B
PCI-SERR
PCI-STOPPCI-TRDY
PCI-STOP/PCI-TRDYPCI-TRDY
/PCI-FRAMEPCI-FRAME/PCI-IRDYPCI-IRDY
PCI-AD1PCI-AD2PCI-AD3PCI-AD4
PCI-AD0
PCI-CLK-PNX8535
PCI-DEVSELPCI-FRAME
PCI-GNT
PCI-GNT-B
PCI-INTA-OUT
PCI-IRDY
PCI-AD17PCI-AD18PCI-AD19PCI-AD20PCI-AD21PCI-AD22
PCI-AD5PCI-AD6PCI-AD7PCI-AD8PCI-AD9PCI-AD10PCI-AD11PCI-AD12PCI-AD13
XIO-SEL-NAND
PCI-AD23PCI-AD24PCI-AD25PCI-AD26PCI-AD27PCI-AD28PCI-AD29PCI-AD30PCI-AD31
PCI-AD14PCI-AD15PCI-AD16
PCI-CBE0PCI-CBE1PCI-CBE2PCI-CBE3
XIO-ACKXIO-AD25
PCI-REQ-B PCI-REQ-USB20
PCI-GNT-USB20
PCI-REQ
18730_507_090918.eps090918
EN 74PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: PNX 85xx: SDRAM
101112131415
VREF
L
2
VDDL
VSSDL
DQSCKERASCASWE
UL
U
L
11
RFU
NC
10
01
CKCS
9876543210
12
CK
ODT
U
VSS
7
VDDQ
VSSQ
VDD
DQ
A
1
DM
0
4
65
BA
32
89
101112131415
VREF
L
2
VDDL
VSSDL
DQSCKERASCASWE
UL
U
L
11
RFU
NC
10
01
CKCS
9876543210
12
CK
ODT
U
VSS
7
VDDQ
VSSQ
VDD
DQ
A
1
DM
0
4
65
BA
32
89
C
DQ
DQ
30
0123456789
10111213141516
2526272829
NPNPN
IREFVREF
31
NC1211109876543
DQS0
DQS1
DQS2
DQS3
CLK
BA
DQM
A
210
01
CASBRASBCSBWEBCKEODT
PN
0123
PNP
1718192021222324
D
C
H
14131211
G
H
9 10 19
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
3HJB C13HJC D1
D
E
N
O
P
20191110
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
F
D
C
F
E
G
3HJD D13HJE G33HJF G9
2019
F
E
3HHM G123HHN G12
1615987 12
P
B
A
K
owne
r.
E
F
7 8
17 18
3HJ5 A43HJA C1
3HHE F123HHF F12
15 16 17 18
1817
3HJV B43HJW C4
G
H
I
M
N
O
P
G
3HHJ G123HHK G12
3HH2 G73HH3 G7
19 20
L
65 17 18
O
N
M
6 7 8 9
5 6
15 16
3HJ3 B123HJ4 C12
3HHC F123HHD F12
3HGT F73HGU F7
C
A
2HGR F92HGS F102HGT F102HGU E82HGV E82HGW E92HGX B10
1615
3HJY A43HJZ B1
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
A
B
C
J
K
L
M
3HHG G123HHH G12
3HH0 G73HH1 G7
3HG8 D43HG9 D4
12 13
1
K
J
43
3HHP G12
L
J
I
H
10 11 12 13 14
3HJ1 B10
3HJ2 C10
3HHA H73HHB F12
3HGR F73HGS F7
A
B2HGP F9
PNX 8541 : SDRAM
85 6
109
2HGY E92HGZ E9
1413
7H00-2 A57HG0 F47HG1 F10IHG0 A4IHG1 C10IHG2 C12
13 14 201211
3HGY G73HGZ G7
3HG6 D43HG7 D4
10 11
B
RES
D
E
F
G
H
I
2HG0 F2
2 3
I
K
21
3HHR G123HHS G123HHT G123HHU G123HHV G123HHW G123HHY H123HHZ H123HJ0 C1
3HH8 G73HH9 H7
3HGN C43HGP F7
H
I
2HG7 F32HG8 F42HG9 F62HGA F62HGB F62HGC F62HGD F72HGE F72HGF F72HGG F72HGH F8
P
O
2HH0 E92HH1 E10
1 2 3 4 5
1 2 3 4
3HGV G73HGW G7
3HG4 D43HG5 D4
I
7
1 2 3 4 5 6 7 2HG1 F22HG2 F2
4 5
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
4321
3HH4 G73HH5 G73HH6 G73HH7 G7
3HGK C43HGM C4
2HG5 F32HG6 F3
8 9 10 11 12 13
A
B
C
D
E
F
G
2HGJ F82HGK F8
N
M
2HH2 E102HH3 D11
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
B
C
D2HGM F92HGN F9
L
J
2HH4 A32HH5 A52HHA F62HHK E52HHM E52HHN D112HHP D112HHQ D103HG1 D43HG2 D43HG3 D4
8 92HG3 F22HG4 F3
6 7
3HGA D43HGB C43HGC C43HGD C43HGE C43HGF C43HGG C43HGH C43HGJ C4
22R3HGG
2HG
4
100n
330u
6.3V
2HG
X
2HG
K
100n
33R3HHT
10K3HJB
33R3HHS
100n
2HH
1
22R3HG9
3HHG 33R
820R
3HJY
10K3HJD
3HHB 33R
2HG
P
100n
3HGN 22R
100n
2HG
Y
100n
2HG
3
2HG
D
100n
L8E2
E8
G2
G8
H7 J2 J8 L2
N3
K3
K7
M2
D3
H3
M3
T1
U9
M7
D7
V1
M1
D9
K9
F1
F3
F7
F9
H9
K1
N7
V3V7
E3
E7D8
D1
H1
M9
R9
AA8AA9
A2A8A9D2H2V8
AA1AA2
N9
L3L1L9J1J9F8F2
J3
J7H8
A1
P8
K8K2
G7G3G1G9E1E9
L7
T7U2U8U3
P2P3P1
P7
M8
N2
N8
R8R3
R2U7V2
R7T2T8T3
7HG1MT47H32M16BT-37E
ΦDDR2
SDRAM8MX16X4
J2 J8 L2
N3
U9
M7
D7 L8E2
E8
G2
G8
H7
K3
K7
M2
D3
H3
M3
T1
D9
K9
F1
F3
F7
F9
H9
K1
D8
D1
H1
M9
R9
V1
M1
AA1AA2
N9
N7
V3V7
E3
E7
AA8AA9
A2A8A9D2H2V8
J1J9F8F2
J3
J7H8
A1
G1G9E1E9
L7L3L1L9
M8
N2
N8P8
K8K2
G7G3
T7U2U8U3
P2P3P1
P7
R3
R2U7V2
R7T2T8T3 8MX16X4
SDRAM
DDR2Φ
MT47H32M16BT-37E7HG0
R8
100n
2HH
4
33R3HHH33R3HGW
DDR2-VREF-DDR
220R3HJE
3HGH 22R
100R
3HJ0
33R3HHW
3HJA 10K
3HJC 10K
BDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
03101
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
9
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LN
100n
2HG
R
2HG
1
100n
100n
2HG
E
100n
2HG
A
100n
2HG
0
33R3HHY
33R3HHP
2HH3
2HG
W
100n
100n
3HHR 33R
3HH0 33R
3HG7 22R22R3HG8
100n
2HG
2
22R3HG2
3HG5 22R
1K0
3HJZ
+1V8
100n
DDR2-VREF-CTRL
2HG
F
3HHN 33R
2HG
8
100n
DDR2-VREF-DDR
2HG
V
100n
33R3HH1
33R3HGT
22R3HGA
33R3HGZ
3HG1 22R
22R3HJW
100n2HHA
100n
2HG
T
3HGB 22R
3HJ2
560R
6.3V
330u2H
HN
100n
2HG
7
2HG
S
100n
1u0
2HH
M
33R3HH5
33R3HHF
560R
3HJ4
33R3HGR
2HH
5
100n
560R
3HJ1
2HH
0
100n
3HJ5
5K6
3HH4 33R
3HJ3
560R
100n
2HG
5
3HGV 33R
2HH
P
1u0
3HGS 33R
3HGY 33R
IHG2
IHG0
33R3HHU
3HH2 33R
2HG
M
100n
22R3HG4
33R3HHA
2HH
K
330u
6.3V
+1V8
+1V8
3HHZ 33R
100n
2HG
Z
3HH7 33R
+1V8
22R3HGM
2HG
6
100n
100n
2HG
H
22R3HGK
3HGP 33R
2HH
Q
100u
22R3HGC
33R3HH8
22R
DDR2-VREF-CTRL
3HG3
2HG
9
100n
IHG1
33R3HHV
33R3HH6
T30
R28
J30F28
AD29V29
AD27V28W30
AC30
AE26
P27
P29 E29L27E28F30K30H30K28L30F29
AB30
AD30W28
AC29Y30E30L28J29J28
AB28
L29
Y29Y28
H29H28
G29G28
V30AD28
AA30AC28
U26
N29N28
P28
U29U30M30M29
AA29AA28
U28M26R27M27V26M28R26
T27R29
P30
PNX85357H00-2
DDR
P26R30
T28L26U27J27
N26
2HG
B
100n
3HGD 22R
100n
2HG
N
+1V8
3HJF 220R
3HHJ 33R
22R3HG6
3HHE 33R
33R3HHK
100n
2HG
J
3HHM 33R
33R3HHD
3HH9 33R
3HGE 22R
22R3HGJ
33R3HGU
100n
2HG
C
DDR2-VREF-DDR
22R3HGF
3HHC 33R
22u
2HG
G
3HJV 22R
33R3HH3
22u
2HH
2
100n
2HG
U
DDR2-D29
DDR2-D31
DDR2-DQS3_PDDR2-DQS3_N
DDR2-CLK_NDDR2-CLK_P
DDR2-D16
DDR2-D20DDR2-D21DDR2-D22DDR2-D23DDR2-D24DDR2-D25
DDR2-D28
DDR2-D6DDR2-D7DDR2-D8
DDR2-D12DDR2-D13
DDR2-D15
DDR2-DQS1_PDDR2-DQS1_N
DDR2-D0DDR2-D1
DDR2-D4DDR2-D5
DDR2-CKE
DDR2-DQS0_N
DDR2-DQS1_N
DDR2-DQS2_N
DDR2-DQS3_N
DDR2-WE
DDR2-CLK_P
DDR2-CLK_N
DDR2-DQM2
DDR2-DQS2_PDDR2-DQS2_N
DDR2-ODT
DDR2-RAS
DDR2-DQM3
DDR2-D18DDR2-D19
DDR2-D17
DDR2-D26DDR2-D27
DDR2-D30
DDR2-A4DDR2-A5DDR2-A6DDR2-A7DDR2-A8DDR2-A9
DDR2-BA0DDR2-BA1
DDR2-CAS
DDR2-CLK_P
DDR2-CKE
DDR2-CLK_NDDR2-CS
DDR2-DQS3_NDDR2-DQS3_P
DDR2-ODT
DDR2-RAS
DDR2-WE
DDR2-A0DDR2-A1
DDR2-A10DDR2-A11DDR2-A12
DDR2-A2DDR2-A3
DDR2-D9DDR2-DQM0DDR2-DQM1DDR2-DQM2DDR2-DQM3
DDR2-DQS0_NDDR2-DQS0_P
DDR2-DQS1_NDDR2-DQS1_P
DDR2-DQS2_NDDR2-DQS2_P
DDR2-D3
DDR2-D27DDR2-D29
DDR2-D4DDR2-D5DDR2-D6
DDR2-D7DDR2-D8
DDR2-D17DDR2-D19DDR2-D18
DDR2-D2
DDR2-D22DDR2-D23DDR2-D20DDR2-D21DDR2-D24DDR2-D30DDR2-D26DDR2-D25DDR2-D28DDR2-D31
DDR2-D1
DDR2-D10DDR2-D11DDR2-D12DDR2-D13DDR2-D14DDR2-D15DDR2-D16
DDR2-A3DDR2-A4DDR2-A5DDR2-A6DDR2-A7DDR2-A8DDR2-A9
DDR2-BA0DDR2-BA1
DDR2-CAS
DDR2-CKE
DDR2-CLK_NDDR2-CLK_P
DDR2-CS
DDR2-D0
DDR2-DQS0_PDDR2-DQS0_N
DDR2-ODT
DDR2-RAS
DDR2-DQM1
DDR2-WE
DDR2-A0DDR2-A1
DDR2-A10DDR2-A11DDR2-A12
DDR2-A2
DDR2-D14
DDR2-D2DDR2-D3
DDR2-D9
DDR2-DQM0
DDR2-A0DDR2-A1
DDR2-A10DDR2-A11DDR2-A12
DDR2-A2DDR2-A3DDR2-A4DDR2-A5DDR2-A6DDR2-A7DDR2-A8DDR2-A9
DDR2-BA0DDR2-BA1
DDR2-CAS
DDR2-CKEDDR2-CS
DDR2-D10DDR2-D11
18730_508_090918.eps090918
Circuit Diagrams and PWB Layouts EN 75PB52.2HU LA 10.
2010-Mar-05
SSB: PNX 85xx: Flash
C
BRWP
VCC
VSS
IO
NC
01234567
CLEALECEREWE
F
E
D
A
B
C
G
2HA0 A82HA1 A83HA0 B23HA2 D23HA3 D33HA4-1 B33HA4-2 B33HA4-3 B33HA4-4 B33HA5-1 B33HA5-2 B33HA5-3 B33HA5-4 C33HAC C33HAD C33HAE C33HAF C35HA0 B27HA0 B67HA3 D29HA0 D3FHA1 B6FHA2 B6FHA3 B6FHA4 B6
H
1
B
2
1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
A
B
C
D
A
B
C
D
2 1312111098
1312
J
I
J
43
FHA5 B6FHA6 B6FHA7 B6FHA8 C6FHA9 C6FHAA C6FHAB C6FHAC C6FHAD C6FHAE C6FHAF C6IHA0 B3
431
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
Aow
ner.
IHA1 B3IHA2 B3IHA3 B3IHA4 B3IHA5 B3IHA6 C3IHA7 C3IHA8 C3IHA9 C3IHAA C3IHAB A7IHAC D3IHAD D3
987654321
5 6 7
C
B
A
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
111098765
32 13
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
G
C
D
C
B
Aow
ner.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 7654 8
1312
1211109
F
E
D
1110
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
J
I
H
G
F
E
D
H
G
F
E
100n
2HA
0
3HA5-2 100R
+3V3-NAND
FHAE
100R3HA4-3
+3V3-NAND
IHA0
FHA5
FHA3
3HAC 100R
IHAB
+3V3-NAND
IHA3
RE
S
9HA
0
IHA2
FHA7
FHA1
100R3HAD
3HAE 100R
IHA4
FHAB
FHAF
7HA3PDTC114EU
1
3
2
3HA4-4 100R
100R3HA4-1
+3V3-NAND
+3V3
+3V3-NAND
FHA2
3HA5-3 100R
30R
5HA0
IHAC
IHA6
FHAA
100R3HA5-4
FHAC
IHA1
DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
10
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK
3HA4-2 100R10
K
3HA
2
3HA5-1 100R
FHAD
IHAD
IHA7IHA8
100n
2HA
1
1114
8
7
12 37
13 36
1819
4045464748
3456
10
25262728
2
3334353839
424344
1
152021222324
7HA0NAND512W3A2CN6
Φ[FLASH]512Mx8
179
16
2930313241
IHAA
3HA0
10K
FHA8
3HA3
IHA5
2K2
FHA6
100R
FHA4
3HAF
FHA9
IHA9
NAND-ALENAND-CLE
PCI-AD1PCI-AD0
PCI-AD24PCI-AD25
PCI-AD29
NAND-AD(1)NAND-AD(2)NAND-AD(3)NAND-AD(4)
NAND-AD(6)NAND-AD(7)
NAND-REnNAND-WEn
PCI-CBE2PCI-CBE1
NAND-REn
XIO-ACK
NAND-WEnRESET-NVM_WP-NANDFLASH-INV
PCI-AD28
PCI-AD30
PCI-AD27PCI-AD26
PCI-AD31
NAND-AD(5)
NAND-AD(0)
XIO-ACK
RESET-NVM_WP-NANDFLASH
RESET-NVM_WP-NANDFLASH-INV
NAND-ALEXIO-SEL-NAND
NAND-CLE
NAND-AD(1)NAND-AD(2)NAND-AD(3)NAND-AD(4)NAND-AD(5)NAND-AD(6)NAND-AD(7)
NAND-AD(0)
XIO-SEL-NAND
18730_509_090918.eps090918
EN 76PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: PNX 85xx: Audio
GND1
ADAC4
ADAC3
ADAC2
ADAC1
POS
NEGPOSLR
LR
AOUT1RES_REF
SPDIF_IN
21
WSSCK
OSCLK
SPDIF_OUT
87654321
RL
AIN1
AIN2
AIN3
AIN4
AIN5
AADCVREF
AADC1_VR
SD
ADAC
DAC_CAP
ADAC6
ADAC5
3V3A_AUDIO_DAC1VSSA_AUDIO_DAC1
NPNPNPNPN
LRLRLRLR
PNP
NEG
VCOM_ADC1
OUT IN
INHBP
COM
C
13
E
D
14
1 2 3 4 5 6 7
B
C
B
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
owne
r.
K
D
E
F
G
A
B
19
2HME B112HMF B112HMG A5
2HMH B52HMJ B122HMK C122HML D122HP4 E12
1 2 3 4 5
1
H
BD 12NC : 3139_283_30172
2HP6 E112HP7 E112HP8 E102HPA E13
G
L
J
MULTI 12NC : 3139_283_30162
2HRB D72HRC E32HRD D72HRE E42HRF D72HRG E7
2HRH E72HRJ E7
9 10 11 12 13 14
A
2 3 4
C
D
E
F
G
2HM3 B1
B
C
H
C
2HRM F62HRN F62HRP F7
2HRQ F13
6
18176
RES
1615
2HRS F132HRT F142HRU F62HRV F6
E
7 8 9 10 11 12 13
3HME A103HMF B113HMJ C103HMK C11
3HML C123HMT C33HMU B23HMV C2
8
13
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
181716
3HMY B2
3HP0 E113HP1 F113HP2 F11
M
P
20
A
2HM8 C12HMD A11
3HR0 C6
3HR1 C53HR2 C63HR3 C53HR7 D63HR8 D53HR9 D6
3HRA D5
2HP5 E11
12
A
10
3HRC F33HRD G23HRE F33HRF G7
2HPB E122HR0 C7
2HR1 C72HR2 C72HR3 C72HR8 D72HR9 D72HRA D7
5HP2 D115HRR F25HRS F25HRT F2
5HRZ E57H00-1 D97HM2-1 B37HM2-2 C3
2HRK E7
O
F
14
2 3 4 5
K
7HMD-2 C12
7HP0 D127HRR-1 G37HRR-2 G39HM1 B29HM2 C2FHMD A13
1098
1 8
FHRR F2FHRS F2FHRT F2IHMD A10
IHME A9IHMF A10IHMG A10IHMH B10
2HRR F13
I
11
O
IHMK C11
IHML C11IHN2 D4IHN3 D4IHN4 C8IHN5 C8
2HRW G72HRX F42HRY G72HRZ F43012 D133013 E13
3HMA B33HMD A9 IHNE D11
IHNF D13IHNG D13IHNH A5IHNJ B5
IHNN C3IHNP C2IHNQ B3
3HMW C2
P
N
M
L
N
RES
6 1211
I
9
3HP3 F113HP4 F113HP5 F11
3HP6 F113HP7 F113HP8 F113HP9 F113HPN F11
IHR5 E5INHR C6INHS C6
INHT D6INHU D6INHV E6INHW E6
3HRB G4
14
7
7
5 19 20
IHN6 D8
IHN7 D83HRH E63HRJ E53HRK E63HRL E53HRM G73HRN G8
5HM0 A55HM1 B5 IHN8 E8
IHN9 E8IHNA F8IHNB F8IHNC F8
IHND F8
15
7HMD-1 A11
G
F
D
J
RES
5K6
3HMD
FHMJ C13FHN0 C8FHN1 D8FHN2 D8FHN3 D8FHN4 D12
FHNA B3FHNB C3
IHMJ C9
220R
5HM0
220R5HRS
AK14
100n
2HR
U
AG7
AJ14
AH14AG14
AK15
AJ15
AH6
AK7AJ7
AE10
AJ4AK4
L5
M6
AF6
AG8
AH7
AF14
AH8
L3
AG6
AK8AJ8
AJ6AK6
AF5AG5
AH5AJ5
AK5AH4 AF10
AK10AG9
AJ9AH9
AJ13AK12AH11AH10AJ10AK9
AUDIO
AF11
AK13AG12
AJ12AH12
AJ11AK11
AG10
PNX85357H00-1
2HP
B
10n
3HM
T
10K
FHRR
2HME
100n
1u02HRZ
VSS
2HR
W
100n
IHN7
3HRB
10K
3n3
2HR
TR
ES
INHU
3HP5 33R
2HML
33p
3HRH 12K
100n
2HR
M
10u
2HP
A
1u0
2HRK
33R3HP2
5HP2
30R4
2
1
3
5
7HP0LD2985BM33R
1
8
4
7HMD-1LM358D
3
2
10K
3HRD
220R5HRT
IHMK
33p2HR2
2HRH
1u0
FHN0
FHRS
2HR
N
100n
3HR
N
4K7
2HR
V
100n
33p
2HR
C
3
4
12K3HR7
BC847BS7HM2-25
IHN6
VDDA-AUDIO
AUDIO-VDDIHNH
AUDIO-VDD
2HP
4
10u
3HM
Y
10K
1u0
2HR3
33p2HRA
3n3
2HR
Q
IHNA
2HR
Y
10u
22K
3HR3
22K
3HRA
FHN4
3HR9 12K
2HRD
1u0
IHMJ
IHNB
INHS
AUDIO-VDD
2HMJ
100n
AUDIO-VEE
FHMJ
IHML
FHMD
2HP
8
100n
IHMD
IHNC
IHN4
3HP9 33R RES
5HRZ
30R
3HMV
5K6
IHNJ
FHNB
5
6 7
8
4
7HMD-2LM358D
75R
3HR
F
33R3HP6
12K3HR0
VDDA-AUDIO
AUDIO-VEE
FHN1
2HP
5
100n
AUDIO-VDD
33R3HP4
100n
2HMD
IHN9
3012
22K
IHNN
3HP0 33R
22K
3HRJ
9HM2
2HR1
1u0
9HM1
3HR8
22K
5HM1
220R
7HRR-1 7HRR-2BC847BSBC847BS
10K
3HM
W
VDD
4K7
3HR
M
GND
3HP3 33R
2HR
S
3n3
RE
S
GND
GND
100n
2HMK
FHN3
IHMH
IHMF
IHMG
IHME
AUDIO-VEE
IHNE
INHV
GND
FHN2
2HRX 1u03HPN 68R
IHN5
IHN8
INHR
2HM
G
1u0
IHR5
3n3
IHN2
2HR
R
2HMF
33p3HMJ
5K6
GND
AUDIO-VEE
10K
3HM
A
INHW
FHNA
2HR0 33p
12K3HRK
AUDIO-VEE
22K
3013
2HR
E
33p
2HR8 33p
5K6
3HMU
100n
2HP
6
33R3HP8 RES
3HR1
22K
150R3HRE
2HP
7
100n
3HR2 12K
+3V3
3HP7
10u
2HR
P
33R
GND
10K
3HMK
3HML
10K
IHNQ
IHNF
IHN3 2HRF
IHNP
1u0
6
1
3HRL
22K
7HM2-1BC847BS
2
AUDIO-VDD
33p2HRJ
3HRC 150R
IHNG
IHND
2HR9
1u0
33R3HP1
3n3
2HM
8
3HME
10K
1u0
2HRB
10K
3HMF
33R5HRR
+5V-ON
FHRT
2HM
3
3n3
43
3PC333
11
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A2
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
2HRG 33p
1u0
2HM
H
Audio-out-R
A-PLOP
INHT
Audio-out-RADAC(8)
Card_Aud_out_R
Card_CVBS_out CVBS_MON_OUT
Card_Aud_out_L Audio-out-L
ADAC(1)
VGA-AIN4-L
Audio-out-LADAC(7)
VGA-AIN4-R
ADAC(1)
-AUDIO-R
ADAC(2)
+AUDIO-L
ADAC(7)ADAC(8)
ADAC(7)ADAC(8)
ADAC(6)ADAC(5)
AUDIO-IN1-L
CVI-AIN3-R
CVI-AIN3-L
FRONT-AIN5-L
FRONT-AIN5-R
ADAC(5)ADAC(4)ADAC(3)ADAC(2)
AUDIO-IN1-R
SPDIF-OUT
ADAC(8)ADAC(7)ADAC(6)
18730_510_090918.eps090918
Circuit Diagrams and PWB Layouts EN 77PB52.2HU LA 10.
2010-Mar-05
SSB: PNX 85xx: Analog A/V
ADC2
ADC3
ADC4
ADC4
DAC1
DAC2
CVBS1_Y
CVBS2_C
Pb4_B4Pb3_B3Pb2_B2Pb1_B1
CVBS2_Y2_YC2
SPARE40
REF3
CVBS4CVBS3_Y3_YC3
Y3_G3Y4_G4
REF1
SPARE20
Pr1_R1Pr2_R2Pr3_R3Pr4_R4
REF2
SPARE30
CVBS1_Y1_YC1
Y2_G2
REF4
IF_NIF_P
SPARE52SPARE53
FM_PFM_N
SPARE60C4
C1|YC1C2|YC2C3|YC3
REF6
PN
PN
HSYNC_INVSYNC_IN
AGC
3V3_VIDEO_DACVDAC_BIAS
3V3_TEST_DAC3V3_VIDEO_REF
VSYNC_OUT SPARE10Y1_G1
ADC1
ADC2
C
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
18
1312
12
K
3 7654 11
IHRR E7IHRS F7IHRT G6
IHTJ B5IHUL I7
151098
11
D
14
J
IHTG A5IHTH B5
FHR7 G3FHRA A7FHRG C7
IHUN H8IHUP I8
3 4
IHUM I8
C
B
A
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
12 13
IHR8 G3
101 19 20
IHUS I9IHUT I9IHUU I10IHUV H5
IHRP E7IHRQ E8
5HR5 C85HR6 G45HR7 G4
IHRU G7IHRV F3
I
H
N
P
1714
IHTC B3IHTD A4IHTE B4IHTF B4
FHR5 G3FHR6 G3
3HSV F73HT3 G73HT4 G8
IHR1 C3IHR2 D3
62
D
E
F
G
141 11
IHR6 F3IHR7 F3
3HUL I7
IHRA A8IHRB A6IHRC A7IHRD B6
19 20
IHUQ I8IHUR H9
IHRK C7IHRL C8IHRM D6IHRN D7
5HR2 A85HR3 D8
3HRW D83HRY D73HS1 C8
5HRC C85HRG E8
M
54
PNX 8541 : ANALOGUE AV
8 13
19 20
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
IHTA A3IHTB B3
7HUR-1 I87HUR-2 I97HUX I10FHR4 F3
3HSN E73HST F8
2HTU E72HTV E82HUB G7
3HTA A43HTB B4
F
EE
D
B
A
F
IHR3 E3IHR4 F3
3HU5 I93HU6 I8
2HUL F4
3HUM I73HUN I83HUP H83HUR H8
IHRE B7IHRF B8IHRG C6IHRH C8IHRJ C6
3HUZ H53HVA H63HVB F35HR0 B8
3HRU A83HRV A7
2HT4 G42HT5 D32HT6 E3
3HS2 D73HS3 G8
109
C
D
K
owne
r.
I
J
P
93 4 5
5HTA A4
5HTB B45HTC B45HUX H117H00-9 C1
3HS9 E83HSH C83HSJ C73HSM E8
2HTP C72HTR C8
H
I
A
2HUC I72HUK F4
1
1
L
M
2
3HTE B53HTF B5
I
J
2HSJ C7
2HUN E32HUP E32HUQ I62HUR I8
3HUT I93HUU H93HUW I93HUX I103HUY I10
3HRP B73HRR B83HRS A83HRT B7
2HT2 G42HT3 C3
2 3 4
2HT7 D32HT8 E7
5 6
C
B
A
G
H
B
7
19
O
N
2HT9 F32HTA A4
3HS4 H83HS5 G33HS6 F33HS7 F33HS8 F7
2HTG A32HTH B32HTJ B32HTK E3
F
G
2HS8 A72HS9 A82HSA E7
B
C
1615
K
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
3HTC C43HTD A5
O
L
2HSE D8
I
2HSK D72HSM D82HSP F72HSR G8
2HUW H102HUX H102HUY I102HUZ D33011 G3
2HSY F32HSZ H32HT0 H42HT1 H4
12
1
8
O 5 6
1615
A
C
12 13
6 1817
7 8
2HTB B42HTC C42HTD A42HTE B42HTF C4
B
C
D
E
2HS4 A72HS7 A7
2HS2 B72HS3 B8
E
2HSC D72HSD D7
7 8
G
H
2
L
16 17
H
G
1 2
2HSS H82HST E32HSU G72HSV F32HSW F3
8 9 10 11
P
O
2 20
3 4 5 6 7
16157
P
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
10 11
L
J
TO ITV Monitor
17 189
E
M
N
D
9 10 11 12
A
F
G
H
I
2004 C72HS1 B7
183
14
Connector
F
N
M
30R
5HR6
IHUT
IHUU
IHUR
IHUP
IHUN
2HU
Y
100p
3HUY
68R
2HU
W
100n
3HU5
330R
3HU
R
1K0
7HUR-2BC847BPN
IHR4
FHRG
560p
2HU
C10
0p
2HS
2
100p
2HT
U
2HS
3
100p
22n
2HS1
75R
3HU
L
22n2HT9
IHRS
IHTC
22n2HUN
3HSM
27R
100p
2HT
F
47R
3HR
P
12p
2HS
U
27R
3HTF
3HRR
27R
2HT8
22n
2HT
2
100n
5HTA
330n
22n
2004
3HR
Y
47R
IHTG
3HRU
27R
100p
2HT
C
47R
3HT
C
IHUQ
IHUS
IHUM
IHR7
IHRP
IHUL
1u0
2HUR
IHRT
22n
2HTH
+3V3-PER
3HU
X
560R
3HUW
100R
7HUXBC847BW
2HT
B
100p
3HTE
27R
3HT
B
47R
2HU
X
1u0
+12V5HUX
220R
2HS
E
100p
3HU
6
330R
3HU
U
33R
IHTE
IHRE
47R
3HUM
3HS
2
47R
2HT
P
100p
2HUK 270p
330n
5HR3
2HSV 22n
IHTF
3HS
N
47R
3HSH
27R
IHRQ
3HS
J
47R
IHRB
2HU
Q
22n
47R
270p2HUL
3HR
T100p
2HT
A
2HS7
22n
47R
3HT
A
5HTC
330n
2HT
1
10u
+3V3-PER
7HUR-1BC847BPN
3HU
N
47K
2HSS
100n
2HT
R
100p
100n
2HS
Z
22n2HUP
IHR2
FHR7
IHRV
3HS9
100R
IHTB
2HS4
22n
330n
5HTB
2HT
E
100p
3HRW
27R
IHR1
FHRA
3HT
3
47R
2HUB
IHRC
22n
IHRK
FHR4
FHR6
3HS3
390R
3HS
8
220R
IHRA
22n2HT7
IHRF
2HT
0
22n
2HSA
22n
3HS
V
220R
2HT
V
100p
330n
5HR5IHRJ
2HT5 22n
IHRU
22n2HSW
IHTJ
2HSJ
22n
IHRM
IHTA
3HU
P
82K
10K
3HU
T
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
03101
IHR8
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
12
3PC333
43
IHRH
47R
3HR
V
22n2HSY
IHUV
IHRN
2HS
M
100p
IHR6
N2
C3
T4
R5F2G1G2G3G4
J4
L2
R4
P3
F1
H1
K1
P4
M3M4
F3
M1M2
P5R1R2R3
K2K3K4L1
H2
B3A3
B2A2
J1J2J3
N1M5
PNX8535
L4
D4
K5
A1
N4P1P2
N3
VIDEO ANALOGUE
7H00-9
30R
5HR7
3HS1
27R
3HT4
27R
2HT
4
10u
390R
3HS4
2HT3 22n
2HS
D
100p
FHR5
22n
2HSP
2HS
K
100p
3011 4K7
IHRR
330n
5HRC
22R
3HVA
330n
5HRG
100p
2HS
8
IHR3
47R
3HU
Z
2HUZ 22n
100p
2HS
9
IHRL
75R3HVB
100p
2HT
D
3HST
100R
27R
3HTD
330n
5HR0
4K73HS5
100n
2HSR
22n
2HSC
IHTD2HTG
22n3HRS
27R
IHRG
IHRD
75R3HS7
2HTJ
22n
IHTH
3HS6 75R
22n2HT6
2HTK 22n
22n2HST
5HR2
330n
AV1-CVBS
CVBS_MON_OUT
VGA_G
VGA_R
VGA_B
IF-P
IF-N
CVI-PB
FRONT_Y-CVBS
AV1-Y
CVI-PR
CVI-Y
CARD-PR
CARD-PB
CVBS-BO
FRONT_C
ITV-VGA-V ITV-VGA-V
ITV-VGA-HITV-VGA-H
CARD-Y
18730_511_090918.eps090918
EN 78PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: TCON Pwr. & Backl. Contr.
C
1 2
132
5 6
Panel TCON Power & Backlight control
RES D
C
B
A
A
B
C
B
E
32
I
H
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
131211109
3 4
F
6 7
1 2 3 4
Aow
ner.
3 4 5 6
A
B
C
1211109
G
J
1 4
5 6 71 8
E
D
C
3G90 B49G90 B39G91 C3IG90 B4
F
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
G
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
-- -- --
2009-07-282
03101
5 8
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
13
3PC333
43
SETNAMECHN
CLASS_NO
3G90
100R
9G90
IG90
9G91
BACKLIGHT-OUT
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
CTRL4-STBY_SELECT-PWM-ANA
LAMP-ON-OUT
CTRL1-STBY_LAMP-ON
18730_512_090918.eps090918
Circuit Diagrams and PWB Layouts EN 79PB52.2HU LA 10.
2010-Mar-05
SSB: Audio Left / Right
C
IN1P
VSSD|HW
IN1N
IN2P
IN2N
INREF
OSCREF
OSCIO
HVPREF
DREF
ENGAGE
POWERUPVIA
TEST
GN
D_H
S
VDDP
VSSP
VDDA
STAB2STAB1
BOOT2BOOT1
HVP2
HVP1
DIAG
OUT2
OUT1
CGND VSSA
*
L
H
18
MULTI 12NC : 3139_283_30162
1
6K8
F
9
*
K K
5
N
M
7
I
P
9
O
H
16
J
19 201754
20
E
F
M
L
E
H
G
14
K
E
I
NC
3D25
J
18
J
3D243D23
-2V6
3D21
20
157
K K
(DC-DC)
5 6 15
L
6
owne
r.
192
O
32
N
13
10
2 14
M
N
D
E
F
15
K
10
cDA0 E2
L
I
J
9
N
21
11
O
N
A
B
C
11 1211
G
32 6 20
P
13 20
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
ID40 G12ID41 G6ID42 G6ID43 G9
6
FD30 G4ID17 C12
L
I
17
1918
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
19
I
6
54
ID44 G10ID45 G11ID46 G6
3
ID48 G6ID49 G9ID50 G10ID51 G2ID52 H4ID53 H5
ID27 F5ID28 F7ID29 F5ID30 F9
C
M
FD13 B12FD16 B8
-7V6
12
6K810K
J
32
191
F
D
ID31 F4
1
ID33 F5ID34 F6ID35 F6ID36 F7ID38 F7ID39 G7
FD24 F11FD25 F4FD26 F11FD27 F7FD28 F4FD29 G12
5D13 F95D14 B7
12
20
16
18
G
F
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
owne
r.
10
14 15
ID18 C8
ID47 G11
ID20 E11ID22 E4ID23 E5ID24 E9ID25 E7ID26 F4
7D11 F127D12 G117D13 G37D15 G127D16 H47D71 G13
3D39 G23D40 G4
A
J
I
119
C
-12V2
GNDSND
D
2
C
D
E
10
13
J
ID32 F4
P
FD19 B11FD20 B8FD21 E4FD22 F11FD23 F11
3D45 H44D02 H14D03 H15D10 C115D11 C85D12 E9
3D21 E53D22 F4
7151413121
4
-1V3
-2V8
-2V8
-2V8
1
P
O
7
32
ID19 E10
K 5D15 B115D16 F115D17 F116D01 G47D10 E6
3D33 G123D34 G53D35 G123D36 G113D37 G23D38 G11
2D54 H112D55 H7
H
I
B
TO SPEAKERS
18
A A
B
G
EMC
F
15
P
O
D
L
8
N
3D41 G43D42 G103D43 H43D44 H5
2D74 D23D14 B83D15 B113D18 E113D19 E93D20 E4
2D41 F102D42 F5
*
12V2
D
-12V2
17
3
11
1
A
F
8V9
B
E
4
I
18
B
C
3D23 F43D24 F53D25 F43D27 F53D28 F123D29 G9
2D48 G72D49 G92D50 G102D51 G62D52 G52D53 G9
F
G
12
GNDSND
19
20
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
O
3D20
M
3D22
11 127
B
3
H
9
M
18
-8V2
M
2D56 H72D57 F112D58 E112D5F H11
2D35 F82D36 F62D37 F92D38 F92D39 F52D40 F9
A
B
14
16
1 5
AUDIO LEFT/RIGHT
104
-2V8
O
C
B
10K
8
12K
2D43 F52D44 F82D45 F82D46 G102D47 G5
H
A
B
C
D
E
6 7
168
J
13
*
9
4
P
K
LEFT +*
5
E
2D29 E102D30 E52D31 E92D32 E62D33 F52D34 F5
8 9 10 11 12 13
12 13
P
GG
8 157 20
9
10
12V2
DC-DETECTION
10K
3V2
C
D
E
F
G
1 2 3 4 5
7 8
10K
1 7 14
PDPLCD
C
3
7
4
5
H
6 1716
L
18
P
8
9 10 11 2D10 B82D11 B122D12 B72D14 B102D16 C92D17 C122D24 E10
B
D
4
EMC
22K
13
12
H
16
10
G
4V7
19
11
C
1413
G
8
F
17161514
A
L
1 2 3 4
H
19
22K12K
8
12
A
6K8
1716
M
RIGHT -
E
H
1D12 E12
3V9
13
A
7
O
1110
BD 12NC : 3139_283_30172
65
*
17
*
2D25 E102D26 E62D27 E72D28 E9
2V6
8 9
N
D
6K8
7D12BC847BW
5 6
N
6
VSSA 39K3D27
ID52
ID51
VSSA
ID18
GNDSND
100n2D47
ID47
ID40
6D01
BA
S31
6
2D52
470n
GNDSND
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
14
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A2
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
2D39 1u0
ID30
ID24
FD29
100n
GNDSND
2D43
ID48
ID36
GNDSND
10u
5D15
VDDA
GNDSND
2n22D58
3D43
10K
2D45 15n
2D11
100n
2D28
470n
2D5F
10u
2D381n0
GNDSND
PDTC114ET7D16
ID50
GNDSND
5D13
22u
2D57 2n2220R5D17
GNDSND
3226 23
5D16 220R
363738394041
9 1 16 17
22
6
2524
13
8 29 20
3435
19
11
3
2
14
15
12
31
10
27
7D10TDA8932BTW
AMPLIFIERPOWERCLASS D
Φ
2821
7
4
18
5
33
30
GNDSND
2D26
100n
2D10
100n
ID43
2D74
RES
ID20
ID39
GNDSND
GNDSND
ID38
2D55
100n
3D41
47K
GNDSND
FD21
5D14
10u
+3V3
2D12
1n0
22u
VSSA
5D12
FD23
ID45
FD24FD26
22R
3D18
10R3D29
100n
GNDSND
2D42
ID31
ID33
ID29
cDA0
ID27
FD16
FD28
FD30
ID53
3D45
12K
ID25
ID41
ID28
GNDSND
FD20 FD19
VSS
VSS
ID26
10K
ID22
3D25
GNDSND
FD22
2D36220p
VDDA
VS
SA
2D30 1u0
3D35
10K
GNDSND
ID44
2D311n0
GNDSND
2D56
100n
3D28
47K
VDD
1n02D37
2D48100n
GNDSND
25V220u2D16
ID49
3D36
220K
2D54
1u0
3D38
220K
10R3D14
ID23
2D14
1n0
10K3D22
220n
2D46
GN
DS
ND
ID35
2D351n0
ID32
10K3D23
GNDSND
GNDSND
3D39
22K
VSS
ID19
FD27
ID42
ID46
5D10 30R5D11 30R
10K
3D40
2D50
2D17220u 25V
220n
3D42
22R
2D24
220n
4D02
VDDA
7D15BC847BW
4K7
GNDSND
3D34
3D1910R
GNDSND GNDSND
GNDSND
2D511n0
STANDBY
+3V3
220n
2D25
GNDSND
1n02D53
10K
3D37
10K
GNDSND
3D20
3D2412K
100n
2D27
1n02D41
1D12
1735446-4
1234
7D13BC847BW
BC857BW7D11
4D03
10R
2D44 15n
3D15
3D33
47K
ID34
1u02D33 1u02D34
GNDSND
ID17
FD13
2D491n0
-AUDIO-POWER
FD25
+AUDIO-POWER
2D291n0
470n2D40
7D71PDTC114ET
10K
12K
VDD
3D44
GNDSND
3D21 2D32220p
GNDSND
GNDSND
VSSA
ON-MODE
ENABLE-3V3
AUDIO-PROT
DETECT-1V2-2V5-3V3
A-STDBY
AUDIO-MUTE
MUTE
+AUDIO-L
-AUDIO-R
18730_513_090918.eps090918
EN 80PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: Audio Headphone
VIAVIA
PVDD
P
VSS
S P
GND DNC
R
L
OUT
S
C1
IN
SVDD
N
L
R
SDRNC
HEATSINK
SDL
P
C
IHVH D8
10987
8
131211
A
H
G
IHV1 A3IHV2 C2IHV3 C2
3
3
E
D
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
1
FHV1 B4
FHV2 C4FHVA C9IHV0 D2
IHV7 C3IHVA B6IHVB B7
IHVC B73HV3 B73HV4 B83HV7 B8
2 1312
IHVD B8IHVE B8
IHVF B9IHVG D7
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
64
2 1311109
G
H
I
9
1 2
F
1
C
RESERVED
J
54
7HV1 D87HVA-1 B7
7HVA-2 B99HV1 D3
H
G
5 121110
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
E
43
IHV4 C2IHV5 C2IHV6 C3
2HVD C12HVE C12HVG C7
Aow
ner.
6
3HV8 D73HVN C43HVP B4
3HVR C43HVX C63HVY C8
3HVZ C85HV0 A3
C
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
J
F
J
E
D
B
owne
r.
F
5 6 7 8
A
D
I
3 4 5 6
B7HV0-1 B2
7HV0-2 D4
A
B
C
D
2HV6 C12HV7 B92HV9 C2
2HVA C12HVB B32HVC B3
2
E
D
C
H
1332
G
F
10
AUDIO HEADPHONE
54
129
3HVS C43HVT C8
3HVW B6
1186
8
1 2 3 4
D
2HV2 C42HV3 D22HV4 C4
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 7
C
B
6
1
J
I
5
7
A
B
C
7 8 9
22K
7
9
B
3HV
4
22K
3HV7
IHVB
IHV4
3HVS
33R
3n3
2HV
A +3V3-STANDBY+3V3
22K
3HVWIHVA
1n0
2HV
G
33R
3HVN
5
3
4
BC847BPN7HVA-2
IHVF
IHV1
3HV3
22K
TPA4411RTJ7HV0-2
VIA2223
2425
3HVR
33R2H
VB
10u
IHV5
IHV2
IHV3
2HV
6
3n3
2HV
3
2HV9
10u
10u
RE
S
3HV
Z
47K
47K
3HV
Y
FHV1
26
1
7HVA-1BC847BPN
3HV
X
22K
IHVE
IHVH
9HV
1
12K
3HVT
7HV1
1
3
2 BC847BW
2HV
7
100n
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
1513010
2
1n0
2HV
42H
V2
1n0
17
10
7
IHV6
1620
9
11
2
19
5
18
14
3
1
21
13
15
468
12
HEADPHONEΦ
DRIVER
7HV0-1TPA4411RTJ
FHVA
+3V3-STANDBY
IHVG
22K
3HV8
IHVC
IHV7
IHVD
1u02HVE
1u02HVD
FHV2
+3V3
33R
3HVP
5HV
0
30R
100n
2HV
C
IHV0
AUDIO-HDPH-L-AP
A-PLOP-HDPHA-PLOP-HDPH
ADAC(4)
ADAC(3)
AUDIO-HDPH-R-AP
AUDIO-RESET A-PLOP
18730_514_090918.eps090918
Circuit Diagrams and PWB Layouts EN 81PB52.2HU LA 10.
2010-Mar-05
SSB: SPDIF/Debug/RS232 Int.
C
V+
V-
VCC
C1+
C1-
C2+
T2T1
IN
IN OUT
OUT
GN
D
T1
C2-
R2R1
T2
R1R2
7
5 6 7
A
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
3
JJ
IJEE C7IJEF C5
1
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
5 8
131211
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
4 5
UARTSERVICE
F
E
IJEC C7
IJE7 B6
H
I
IJEA B7IJEB C6
G
4
owne
r.
53
1 76
10
7J50 B27JE2 A6FJ11 D2
FJ12 D2FJ13 D1
21
IJ53 B2IJ54 A2
J
IJED C6
IJ58 B2
IJE1 B6 IJE4 B7IJE5 B6IJE6 B6
SPDIF
H
G
owne
r.
4
6
B
C
D
C
8 9
2JE1 A7
2JE2 B52JE3 B7
CONNECTOR
A
3J11 D33J12 D3
D
3J53 B3
3JE0 D5IJE8 B7IJE9 B6
3JE3 C86J11 D36J12 C3
G
1110
E
C
B
F
98
A
4 13
D
C
FJEC A6
IJ12 D42J11 D1
B
IJ56 B3IJ57 B3
I
H
IJE2 B7IJE3 B62J12 D2
2J61 B32J62 B2
I
1
F
DEBUG / RS232 INTERFACE
10 11 12 13
9 10
1 2 3 4 5 6
2JE4 B7
2JE5 B5
9
6
3J50 A23J51 B3
8 13
3JE1 C53JE2 B8
7
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
12
6 7
2 3
A
B
C
D
A
B
C
D
1J10 D21J11 D11JEA D4
1JEB D51JEC D61JED D7
1JEH C91JEE D81JEF D9
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
1JEG D9
G
119
E
D
RSRX
2
A
12
E
F
B
1 2 3
7 8
2 3
4 5 8 9
IJE9
IJ54
100n
2J62
3J53
3J11
120R
100R REF EMC HOLE1JEC
REF EMC HOLE1JEA
+3V3-STANDBY
3J12100R
3J50
2R2
IJE6
REF EMC HOLE1JEF
FJ11
IJE1
FJ13
100R
3JE0
5
4
+3V3-STANDBY
7J5074HCT1G08GW
1
2
3
1J10
SETNAME
43
3PC333
16
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
CHN
6J11BAV99 COL
13
2
IJEF
IJ53
100n
2J61
IJED
REF EMC HOLE1JEB
IJ58
IJE3
2JE1
100n
100p
2J12
100p
2J11
REF EMC HOLE1JED
6J12BAV99 COL
1
3
2
701
2
6
16
5
15
213198
4111
RS232Φ
7JE2
1
3
4
ST3232C
1JEGREF EMC HOLE
IJEC
1JEHREF EMC HOLE
100n2JE4
+3V3-STANDBY
IJ56
IJ12
220R
3J51
2JE2
100n2JE3 100n
RSTXIJEB
+3V3
IJ57
IJE7 IJE8
3JE3
100R
3JE2
100R
IJEE
FJ12
IJE4
3JE1
100R
IJE5
IJE2
FJEC
IJEA
REF EMC HOLE1JEE
100n
2JE5
1J11
RXD_PC
TXD_PC
RXD0
RXD
TXD0
TXD
SPDIF-OUTSPI-OUT
18730_515_090918.eps090918
EN 82PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: HDMI
C
SCLADR
012 SDA
WC
SCLADR
012 SDA
WC
SCLADR
012 SDA
WC
2J40 F4
20
P
2 3 4 5 6 7 8 9 10 11
2
M
9 10
13
E
F
513111
A
B
C
D
1J41 F41J42 F41J43 F41J44 H5
1J45 A8
B
1JA0 A11JA1 B31JA2 B41JA3 B4
1JA4 D5
MULTI 12NC : 3139_283_30162
52 3
1JB0 A91JB1 B111JB2 B111JB3 B11
EDID NVM
1JB4 D12
HDMI 3
19
I
J
13
12 13 14 15
1
G
H
N
8
P
18
11 12
14
3 4 5 6 7
H
1J40 E1
10
O
12
10
14
O
EDID NVM
10
M
HDMI
E
F
G
H
A
L
D
E
4
BD 12NC : 3139_283_30172
15 16 17
C
D
1
G
I
HDMI CONNECTOR 3
H
I
HDMI CONNECTOR 2
RES
3JA8 C63JA9 D4
G
8
2J41 F5
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
4 5
7
3
2JA4 D62JB0 B11
2JB1 B122JB2 D122JB3 D13
8 9
3J44 F6
96
N
4 5 15
8
9 10 116
5JA0 B43J45 F63J46 F63J47 G6
12
D
C
B
A
3J4E E10
3J4F E123J4G F123JA0 A73JA1 A7
E
F
EDID NVM
HDMI 2
H
K
L
B
C
M
76
3JA6 B63JA7 C6
3JAB D43JAC C43JAD C6
2J42 H52J43 H6
2JA0 B42JA1 B52JA2 D4
3JB7 C133JB8 C13
3JB9 D113JBB D123JBC C12
3J40 E73J41 E7
7 11
F
3
RES
RES
12
F
J
1514
5JB0 B126J41 H46J42 H4
3J48 G6
3J49 H43J4B H43J4C G53J4D G6
6JB2 D11
6JB3 D117J41 F47J42 G57J4A E11
3JA4 B6
3JA5 B6
HDMI CONNECTOR 1
C
D
2
F
E
15
L
K
D
HDMI 1
N
7JB1 B127JB2 D129J40 F23JB0 A14
3JB1 A14
3JB4 B133JB5 B133JB6 B14
9JA0 B2
9JA1 B99JA2 A99JA4 B2
A
3JBD D145J40 F5
G
E
17
1
A
O
P
19181716
2019
13 14
9JA5 B26J43 H4
6JA1 D46JA2 D46JA3 D46JB1 D11
FJ43 F2
FJ44 G2FJ45 G1FJ4A E4
K
7JA1 B4
7JA2 C5
B
J
L
H
Ais
pro
hibi
ted
with
out t
he w
ritte
n co
nsen
t of t
he c
opyr
ight
16 17
J
19
IJ40 F2
IJ4A E7
G
FJ4B E49J41 F2
9J42 F29J43 E19J44 A19J4G E11
FJA5 C2
FJA6 C1FJA7 C1FJAA A4
B
86
2
9 14
13 20
N
O
18
FJAB A4FJAC C69JA6 B9
9JA7 B9FJ40 F2FJ41 F2FJ42 F2
FJB5 C9FJBA A11FJBB A11FJBC C13
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1
IJAD C5
I
IJAF C5
IJAH C6IJAJ C6IJBA A15
IJBB A15IJBC B12
18
K
owne
r.
IJBD B13
1
1
IJBE C13IJBF C13FJ4C G6
FJA0 B2FJA1 B2FJA2 B2FJA3 B2
IJBG C12IJBH D13IJ4B E7
IJ4C F5IJ4D F6
C
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
5
IJ4E G6
7
IJ4F G6
16
IJ4G G5IJ4H G6IJ4J E10IJA0 B2
IJAA A7IJAB A7IJAC B5
12114
P
M
FJB0 B9FJB1 B9FJB2 B9FJB3 B9FJB4 C9
32
20
IJAE C5
IJAG C5
BIN-5V
IJ4H
9JA6
3J4F
1R0100R
3J4E
FJA5
IJAJ
IJ4G
3JA
6
47K
IJ4E
IJBF
100K
3J4B
AIN-5V
+5V-CON
3J48 22R
FJA7
3JA
9
1K0
22R
22R
3J41
IJAH
3J40
BC847BW7JA2
22R3JA8
IJ4B
EEPROM123
6
5
84
7
Φ(256x8)
M24C02-WDW67JB1
9J4G
30R
IJ4A
5J40
7JB2BC847BW
3JB
5
47K
2009-07-282
03101
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
17
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
BA
T54
CO
L
3
2
2009-07-31
YiPing Guo
3JA0
6JB3
22R
IJ40
1K0
3J49
22R
2JA
0
100n
FJB5
3JAC
IJ4D
FJA0
IJAG
22R3JA7
IJA0
9JA2
9J44
AIN-5V
BA
S31
6
6J42
100n
2J40
2J43 10
n
BIN-5V
BA
S31
6
6JA
2
IJBC
2J42
4n7
9J41
10K
3JB
4
FJA1
FJ45
1J43
1J44
+3V3-STANDBY
FJA6
2223
FJB4
19
23456789
2021
1
101112131415161718
1J40
3JB
9
CIN-5V
1K0
22R3JB0FJBA
FJ4A
+5V-CON
AIN-5V
47K
3J46
3JB
6
47K
6J43
BA
T54
CO
L
9JA0
IJ4F
1J42
FJ43
CIN-5V
22R3JB7
IJAC
1JA
2
IJ4J
1J41
9J43
9JA4
FJ4C
47K
IJBE
3J47 22R
3J45
BA
S31
6
6J41
FJ40
FJA2
IJBG
20212223
1819
23456789
1
1011121314151617
IJBH
1JA0
3JBD
10K
2JB
3
10n
2JB
2
4n7
6JB
1
BA
S31
6
2J41
100n
9J40
9JA79JA5
3JB1 22R
22R
3J4C
IJAF
1JA
4
3JA
B
100K
3JAD
10K
FJ4B
FJB0
IJBB
CIN-5VFJ44
FJ42
1JB
3
0001
-001
5
1JA
3
5JA0
30R
BC847BW7J4A
100K
3JB
B
3J44
10K
FJAA
9J42
4n7
2JA
2
M24C02-WDW6
123
6
5
84
7
7
7JA1
EEPROM
Φ(256x8)
7J41
123
6
5
84
M24C02-WDW6
(256x8)Φ
EEPROM
7J42BC847BW
FJ41
IJBDFJB3
FJB1
9JA1
0001
-001
5
1JB
2
+5V-CON
1JB
4
BA
S31
6
6JB
2
1JB
1
0001
-001
5
22R3JA1
10K
3JA
4
3JA
5
47K
22R3JB8
BA
S31
6
FJAC
6JA
1B
AT
54 C
OL
BIN-5VIJAD
6JA3
789
20212223
141516171819
23456
1
10111213
1JB0
FJB2
IJAB
3JBC
22R
IJ4C
FJBB
10n
2JA
4
26272829
IJAE
456789
22232425
141516171819
2
2021
3
1J451
10111213
3J4G
180K
100n
2JB
1
FJAB
FJA3
IJAA
FJBC
2JB
0
100n
IJBA
30R
5JB0
100n
2JA
1
10K
3J4D
1JA
1
CRX2+
BRX-HOTPLUG
CEC-HDMI
PCEC-HDMI
CRXC-
CRX-HOTPLUG
CRX1+
CRX0+
CRX0-
BRX2+
CRX2-
CRX1-
PARX-DDC-SDA
PARX-DDC-SCL
ARX-HOTPLUG
CRXC+
BRX1-BRX0+
BRX0-
BRX-DDC-SCL
BRX-DDC-SDA
ARX0+
ARX0-BRXC+
BRXC-
BRX2-BRX1+
ARX2+
ARXC+
ARXC-
ARX-HOTPLUG
ARX2-ARX1+
ARX1-
PCRX-DDC-SDA
PCEC-HDMI
CRX-DDC-SCLCRX-DDC-SDA
CRX-HOTPLUG
HOT-PLUG
HOT-PLUG
HOT-PLUG
CRX-DDC-SDA
CRX-DDC-SCL PCRX-DDC-SCL
ARX-DDC-SDA
ARX-DDC-SCL
PCEC-HDMI
ARX-DDC-SCLARX-DDC-SDA
PCEC-HDMI
BRX-HOTPLUG
PBRX-DDC-SCL
PBRX-DDC-SDA
BRX-DDC-SCLBRX-DDC-SDA
18730_516_090918.eps090918
Circuit Diagrams and PWB Layouts EN 83PB52.2HU LA 10.
2010-Mar-05
SSB: HDMI Switch
12
01
01
PP_CH
PP_PRE
OCLENEQ
PP
INIPINIPINIPINIP
C0
C1
C2
C3
INIPINIPINIPINIP
D0
D1
D2
D3
C3C2C1C0
AUX
D3D2D1D0
AUX
OTO
I2C
ON3
COM0COM1COM2COM3
AMUXVCCDVCC
ON1
IP
RESET
A2
A3
INIPINIPINIPIN
I2C_ADDR
A0
A1
SDASCL
DVEE
IPINIPINIPINIPIN
A3A2A1A0
B3B2B1B0
AVEE
0
B2
B1
OP2ON2
OP3
B0
B3
AUX
AUX
VTTI
VTTO
AUX
OP0ON0
OP1
AVCC
C
FJCF C10IJC0 B6
1
J
8
D
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
12 13
F
C
B
A
J
1
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
5 6 7
9
65
2
HDMI SWITCH
F
71 12
A
E
A
4 5 6
FJ08 D5FJ09 D4
2 3
D
1110
8
G
9 10 113 10
H
G
F
11 12
I
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
11
3J07 B73JC1 B83JC2 D5
104 9
FJ10 D4FJC0 B8
FJCA C89J00 B2
FJ00 B2
B
C
owne
r.
C
E
13
G
TO ST7101
1 2 3
2JCJ C82JCK C8
2JCL C82JCM C8
H
BB
4
FJ01 B2FJ02 B2FJ07 C53J01 B2
3J02 A2
G
I
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
4
7 8 9
D
E
A
B
13
8
12
E
D
C
3JC3 D53JC4 D5
3JC5 D55JCA C7
5JCF C76J00 A7
7J00 A4
B
C
D
F
32
2JCH C7
E
1
4 5 6 7 8 9 10
1 2 3 4 5 6
2JCN C92JCP C9
2JCQ C92JCR C9
2JCS C92JCT C10
3J00 B2
7 8
32
H H
I
J
7
MULTI 12NC : 3139_283_30162BD 12NC : 3139_283_30172
Aow
ner.
13
65
9 10
A
2JCB C72JCC C72JCD C8
2JCE C82JCF C7
2JCG C7
C
D
E
2JC0 B72JC1 B7
2JCA C7
+3V3
2JC
L
1n0
47R
47R
3J00
3J01
FJ09
+3V
3-D
IG
FJ08
+3V3-DIG
+5V-ON
1n0
2JC
M
+5V-CON
FJCA
9J00
100n
2JC
R
2JC
P
1n0
+3V3-ANA
+3V
3-A
NA
FJ00
FJ07
2JC
A
10u
FJ02FJ01
+3V3-ANA
47K
3JC5
+3V3-ANA3JC4
47K
3JC
1
100K
RE
S
3J07
1K0
10K
3J02
+5V-MUX
2JC
G
100n
FJCF
220R
5JCF
2JC
Q
100n
2JC
F
10u
1n0
2JC
T
IJC0 FJC0
2JC
J
100n
+5V
-MU
X
6J00
BA
T54
CO
L
3JC3 22R3JC2 22R
2JC
1
41+5V-CON
1n0
48100
4546
447
195769
35
39
42
34
37
40
43
3031
7677
12
65
68
71
74
53
56
59
62
33
36
52
55
58
61
15
18
21
24
3
6
9
20
23
2
5
8
11
64
67
70
73
47
29 95
262728
4950
14
17
4 10 16 25 51 60 66 72
3238
81807978
11322546375
939291
86858483
90898887
7J00
8299989796
94
Φ
AD8191ASTZ
2JC
0
100n
1n0
2JC
S
FJ10
2JC
B
100n
2JC
D
100n
2JC
N
1n0
+3V3-ANA
1n0
2JC
C2J
CH
100n
YiPing Guo
2009-07-31
2
3
2JC
K
100n
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
18
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
13010
2 2009-07-28
5JCA
220R
2JC
E
PBRX-DDC-SDAPBRX-DDC-SCL
PDRX-DDC-SCLPDRX-DDC-SDA
1n0
CRXC-
PCRX-DDC-SCLPCRX-DDC-SDA
RXC+
DDC-SDADDC-SCL
RX2-RX2+
RX1-RX1+
RX0-RX0+
RXC-
DRX2-DRX2+
DRXC-DRXC+
PARX-DDC-SDAPARX-DDC-SCL
ARX2+
ARXC-ARXC+
DRX0-DRX0+DRX1-DRX1+
BRXC-BRXC+
ARX0-ARX0+ARX1-ARX1+ARX2-
CRX2+
CRXC+
BRX0-BRX0+BRX1-BRX1+BRX2-BRX2+
CRX0-CRX0+CRX1-CRX1+CRX2-
SCL-SSB
SDA-SSB
RESET-SYS-DETECT
18730_517_090918.eps090918
EN 84PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: Analog Externals
C
8 17
H
P
O
C
7
BD 12NC : 3139_283_30172
P
20
G
E
SPDIF OUT
1552
I
J
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
C
D
M
541
N
ANALOGUE EXTERNALS
E
L
D
6
L
M
1615
B
D
A
F
B
C
17
9 18
O
3E44 H44E20 C3
FE26 E2FE30 D3FE34 E3FE38 F3 J
G
F
C
E
D
3
H
WHITE
RED
H
1 2
GREEN
19
N
J
A
B
2E40 H42E41 H42E44 H33E10 B4
3
6E38 G46E40 H46E44 H4
2
4
K
11
148 9 16
8 9 10
MULTI 12NC : 3139_283_30162
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
B
A
10
13
3 4
M
6
4E21 C35E20 C85E21 B85E22 C8
FE40 G3FE44 H3FR36 F3IE10 A6
17
KIE30 D4
(L)
Y
19
B
A
18
E
F
G
H
3 4
C
D
E
F
3E12 B43E13 C43E14 C43E15 C4
FE10 A3FE11 B3FE12 C3FE20 B9
IE41 G4
F
FE23 C9
P
O
7
K
O
E
43
10
1 2
1E45 E31E46 F3
5 6 7 8
P
20
2E20 C82E21 B8
5E38 G46E10 B46E12 C46E14 C4
IE11 B6IE12 C6
6E36 F4
I
AV3
13 14
G
A
B
C
D
15 16
1 2
F
L
5 6 7 8
G
9
7
3E17 D73E27 C73E30 D43E34 E4
FE21 B9FE22 B9
3E40 G4
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
owne
r.
115 14
M
1E30-1 G21E30-2 E21E39 B41E44 H3
2E10 B32E12 C4
J
K
L
9
RES
6
2E22 D82E30 D42E31 D42E34 E3
6E30 D46E34 E4
2E39 G4
N
12
CARD SLOT Y Pb Pr INTERFACE
11
N
10
19
BLACK
143 4 5 20
9
G
H
I
12
I
12
AV1
3E36 F43E38 B7
2E15 C5
owne
r.
7 8
6
1E10-1 A21E10-2 B21E10-3 C21E21 B10
18
1E47 G31E50 H31E51 D3
1011 C3
13
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
1
1
12 13
2E36 F32E38 G4
17
10 11
2
15 1610
2E13 C52E14 C4
18 19 20
PR
H
1010 C3
75R
3E10
FE44
1E39
6E10
PE
SD
5V0S
1BA
IE41
FE21
FE40
4E20
1E30-1
9
7
8
100p
2E31
2E34
100p
3E38
FE12
75R
1n0
2E14
100R
5E21
3E30
33R
5E22
33R
1E50
6
3
4
1
2
5
1E30-2
IE30
1E10-1
YELLOW
MTJ-032-37BAA-432 NI
1
2
2E20
100p
4E21
100p
2E44
2E12
1n0
PE
SD
5V0S
1BA
6E14
3E15
100K
100p
BDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
03101
2E10
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
19
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LN
FR36
FE30
100R
3E12
1E47
75R
3E36
100p
2E21
3E14
100R
FE20FE22
75R
6E44
PE
SD
5V0S
1BA
3E27
IE12
1E45
3E13
100K
6E36
PE
SD
5V0S
1BA
30R
5E38
FE10
6E38
PE
SD
5V0S
1BA
PE
SD
5V0S
1BA
6E30
6E34
IE10
PE
SD
5V0S
1BA
100p
2E13
2E41
100p
FE23
2E22
100p
1E44
FE26
1011
3E40
100R
6E12
PE
SD
5V0S
1BA
75R
3E44
1n0
2E30
75R
3E34
1n0
2E40
3E17
75R
1E46
IE11FE11
100p
2E39
22p
2E38
5E20
1010
33R
WHITE
1E10-2
64
5
97
8
MTJ-032-37BAA-432 NI
MTJ-032-37BAA-432 NI
RED
1E10-3
2E15
100p
1E51
345678
910
1E21
BM08B-SRSS-TBT
12
FE38
100p
2E36
FE34
6E40
PE
SD
5V0S
1BA
Card_Aud_out_RCard_Aud_out_L
CVI-Y
CVI-PR
CVI-AIN3-L
CVI-PB
AV1-CVBS
CARD-PB
CARD-PR
CARD-Y
AUDIO-IN1-L
AUDIO-IN1-R
SPI-OUT
CVI-AIN3-R
18730_518_090918.eps090918
Circuit Diagrams and PWB Layouts EN 85PB52.2HU LA 10.
2010-Mar-05
SSB: Side I/O
C
FE9C A1
FE9E B5
FE9G C5
IE90 A6
IE93 B6
98
A
21
J
I
H
G
MULTI 12NC : 3139_283_30162
F
5E74 A2
E
5E76 B1
D
5E78 B2
12
5E80 B25E81 B25E90 B55E91 C59E90 A59E91 A5FE90 A2FE91 A2FE92 A2FE93 B2FE94 B2FE95 B2FE96 B2FE97 B2
H
G
F
E
I
FE98 A5FE99 A5FE9A A5FE9B A6
FE9D A1
FE9F B5
10
FE9H B3
C
IE91 A6
Aow
ner.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 76
7
A
B
7
BD 12NC : 3139_283_30172
5
5E75 A2
3
5E77 B2
5E79 B2
1 2 3 4 5 6 7
1 2 3 4 5 6
13
8 12 132
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
C
A
11
B
D
C
B
1E90 A22E90 B42E91 B42E92 B42E93 B52E94 C52E95 C53E92 A53E93 A53E96 B15E70 A25E71 A25E72 A25E73 A2
SIDE I/O
FE97
64
C
9 10 113 4 5
B
220R5E735E72 220R
IE93
100p
2E94
5E76
220R
220R5E80
FE92
3E92
100R
5E77 220R
220R5E75
47R
3E96
100p
2E95
FE91
5E91
30R
FE9A
FE99
FE9H
FE9F
5E81 220R12
23456789
1E901
1011
EMANTESNHC
43
3PC333
20
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
IE91
13010
2 2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
100p
2E90
5E70 220R
5E74 220R
FE96
IE90
FE94
100p
2E91
3E93
FE90
100R
5E71 220R 9E91
5E90
30R
9E90
2E93
1n0
FE9B
FE9E
1n0
2E92
FE98
FE9G
220R5E785E79 220R
FE9DFE9C
FE95
FE93
AUDIO-HDPH-R-AP
AUDIO-MUTE
SIDEIO-DETECT
FRONT_C
FRONT-AIN5-R
FRONT_Y-CVBS
FRONT-AIN5-L
AUDIO-HDPH-L-AP
18730_519_090918.eps090918
EN 86PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: External Video
SCLADR
012 SDA
WC
C
1 2
9
5
I
H
F
C
E
A
G
2 3
H
B
E
10
D
2 10
C
D
1002-1 A11012 A21013 A21014 B3
1116 A31121 B3
71
114
2030 D1
C
B
A
J
E
D
C
B
A
3 4 5 6 7 8 9
1 2 3
A
J
8
13
J
9
876
B
C
G
4
3
D
12 13
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 98
A
11
2 3
E
13
1123 C31124 D3
2002 D12007 D82011 C3
B
2 7
C
9
3
H
I
87
A
F
E
D
E
5
owne
r.
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
6
6
2031 D22073 A72074 D52075 C5
4 5 6 7 8
3029 C8
91
10 11
BD 12NC : 3139_283_30172
10
B
12 133
B
21
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
E
J
12
5
J
1
3055 A4
A
B
C
D
A
3067 C4
6
FE02 B1
FE03 B1FE04 C1FE05 C1
D
9 10
10
4 11 12 132
F
A
D
3068 D43069 A83070 A8
5002 A15003 A15005 A45008 C4
5013 A43008 A93010 A93020 C53026 D5
3027 D8
6008 B3
J
IE03 B5IE04 C4IE05 C3IE06 C4
IE07 D4
MULTI 12NC : 3139_283_30162
1312
3
11
I
F
II
3
1
C
B
6013 C3
6014 B36015 C36016 D37005-1 C6
7005-2 C7
3056 B4
3057 B43064 C33065 C53066 D5
FE01 B1IE08 C5IE09 D5IE0A C6
IE0B D6IE0C C8
12 13
8
11 12
765
9
7
H
J
4 5 6 9
FE06 C1
FE07 C15014 B45015 C45016 D4
6006 C56007 A3
IE01 A5IE02 A5
109
432
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1
I
H
G
F
112
8
5 87654
I
7005-3 D67005-4 D77005-5 D6
7005-6 D77020 A7
G
H
G
F
D
C
6
IE0D D8
G
F
5
H
G
F
4
131211101
FE08 C1FE09 D1FE0A A1
FE0B A1FE0C A8
E
D
C
B
A
G
H
7
4
8
+3V3
3056
75R
100p
2074
1121
IE05
150R
3064
IE06
IE03
1
714
2
3026
100R
7005-174LVC14APW
FE05
3010
DDC-5V
4K7
DDC-5V
FE04
100R
FE09
3027
74LVC14APW
13
714
12
FE06
FE08
7005-63068
2K2
4K7
3008
3066
220R
8B9B
16171819
12B13B14B15B
2B3B4B5B6B7B
1B
10B11B
IE04
BZ
X38
4-C
6V8
6008
100R
3029
IE0D
2073
100n33
0p
2030
ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
21
2009-05-15
13010
2
1124
5016
220R
BZ
X38
4-C
6V8
6015
FE01
FE0B
1012
6016
BZ
X38
4-C
6V8
3069
10K
3070
10K
6006
BAS316
5014
33R
A0EI80EI
100n
2011
9
714
8
6007
BZ
X38
4-C
6V8
74LVC14APW7005-4
5
84
7(256x8)Φ
EEPROM
7020M24C02-WDW6
123
6
FE03
100R
IE01
3020
DDC-5V
IE0C
1013
1116
220R5003
6014
BZ
X38
4-C
6V8
5008
220R
1014
220R5002
DDC-5V
5005
33R
75R
3057
220R
3065
FE02
IE0B
5015
2u2
75R
3055
2031
330p
IE09IE07
74LVC14APW
3
714
4
7005-2
100n
200710
FE0C
74LVC14APW7005-5
11
714
6013
BAS316
+5V-ON
100p
1123
2075
FE0A
FE07
2002
330p
5
714
6
74LVC14APW7005-3
7A8A9A
5013
33R
1A2A3A4A5A6A
1002-1
IE02
2K2
3067
VGA_B
VGA_G
VGA_R
SDA_VGA
SCL_VGA
RSRXRSTX
SDA_VGA
SCL_VGA
ITV-VGA-H
ITV-VGA-V
VGA_H
VHA_V
18730_520_090918.eps090918
Circuit Diagrams and PWB Layouts EN 87PB52.2HU LA 10.
2010-Mar-05
SSB: USB 2.0
PCICLK
GNTIDSEL
FRAME
IRDY
TRDY
DEVSEL
STOP
CLKRUN
PERRPAR
RREF
OC1
15
121314
2726252423222120
VDDA
3V3
VAUX
XTAL
ATX2
ATX1
BE1
BE0
GNDA GNDA
BE3
VCCIO
1V8
AD
C2BE2
AD
C3
GNDD
17
11
16
10987
AUX
18
PWE1
SCLSDA
RST
6543210
C0
REQ
INTA
C1
VREG1V8
PME
3031
2829
OC2PWE2DM2DP2
SERR
1
2
VREG3V3
19
DM1DP1
AUX 1 2
C
815141
3 201716137654
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
D
owne
r.
8 9 10 11 12
A
K
D
E
F
G
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
K
G
F
E
D
C
B
8 1918151498
P
1110
L
J
I
H
4 5
IN13 G5
21
76321
E
D
16 17
C
19 20
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
A
B
C
M
N
O
P
H
I
14
5
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
B
C
E
H
I
12
O
N
M
IN06 C8IN08 G5IN09 D8IN10 D9IN11 G5IN12 C8
N
IN14 A6IN17 B6IN19 F2
G
F
13
B
J
K
L
IN03 B6IN04 C6IN05 D5
16
H
155 131211109
2
4
3N01 E13N03 G53N12 E53N13 F53N14 G1
3N16 G13N17 G13N18 F13N19 G13N20 G1
5N01 B45N02 B45N03 C4
FN01 E2FN02 F4IN00 F5
O
10
M
L
J
I
O
5131 14
2N07 A52N08 C5
2N10 C52N11 C52N12 C62N13 D92N14 B5
2N16 C52N17 C52N18 C6
IN01 E5IN02 C8
C
D
E
2N19 C82N20 D82N21 D82N22 D5
1
USB 2.0
3
3 4
3 4 5 6 7 8
3N15 G1
10 11 12
1 2
5N00 A4
2
16
L
K
J
3 4 5 6
5N04 A47N00 D6FN00 D5
G
11 12
17
P
1211
18 19 20
P
A
B
2N09 C5
9876
F
C
D
E
F
G
A2N15 B6
N
G
F
7 8 9
1
2N23 D52N25 E9
1 62
M
19 20
7
1817
9 1N01 D52N04 C82N05 C82N06 C9
B
10
30R
5N03
IN01
+3V3
FN02100R3N13
30R
5N01
2N15
100n
2N09
100n
IN19
30R
5N04
IN11
FN01
IN13
IN06 IN12
2N14
100n
IN03
IN02
2N11
100n
FN00
IN05
2N07
100n
15K
IN14
3N17
2N12
100n
100n
75
2N08
71 77 98 100
86 93
184358
16
74
45
4138
2 73311 25 40 55
47
7
44
99
79
88
9
81
5
9697
64 76 94 95
8244
37
78
87
46 61 72 80 82 84 896 19 32 49
23
39
83
90
85
92
36
1 9117
10
666563625957
42
60
48
35
2726222120151413
67
12
52515034333130
68
2928
PCIHOST
CONTROLLER
Φ
ISP1564HL7N00
7069
565453
2N04
100n
3N18 10K
3N12 4K7
IN17
2N20
V3.6V3.6
u2 222
u2N19
2N21
100n
3N19 10K
3N03 11K
5N00
30R
3N20 10K
100n2N25
2N18
100n
12M
1N01
27p
2N22
2N10
100n
2N13
100n
IN08
2N23
27p
15K3N14
2N16
100n
2N17
100n
15K3N16
DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
22
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A2
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK
+3V3
IN09
IN00
5N02
30R
10K3N01
IN04
15K3N15
+3V3
+3V3
IN10
100n
2N06
2N05
100n
+3V3
PCI-SERR
USB20-2-DMUSB20-2-DP
USB20-OC1
USB20-1-DMUSB20-1-DP
USB20-OC2
USB20-2-DMUSB20-2-DP
PCI-GNT-USB20
IRQ-PCI
USB20-1-DP
USB20-OC2USB20-PWE2
PCI-REQ-USB20PCI-GNT-USB20
PCI-CLK-USB20
PCI-CBE0
PCI-CBE1
PCI-CBE2
PCI-CBE3
IRQ-PCIPCI-FRAME
PCI-IRDY
PCI-TRDY
PCI-DEVSEL
PCI-STOP
PCI-PERRPCI-PAR
USB20-OC1USB20-PWE1USB20-1-DM
PCI-AD20PCI-AD21PCI-AD22PCI-AD23PCI-AD24PCI-AD25PCI-AD26PCI-AD27PCI-AD28PCI-AD29PCI-AD30PCI-AD31
PCI-AD4PCI-AD5PCI-AD6PCI-AD7PCI-AD8PCI-AD9
PCI-AD10PCI-AD11PCI-AD12PCI-AD13PCI-AD14PCI-AD15PCI-AD16PCI-AD17PCI-AD18PCI-AD19
PCI-AD22
RESET-SYS-DETECT
PCI-AD0PCI-AD1PCI-AD2PCI-AD3
18730_521_090918.eps090918
EN 88PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: USB 2.0
C
OUTBENB_
IN
GND
OUTA
FLGB
FLGA
ENA_
2 3
C
owne
r.A
B
E
D
10 11
C
A
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
USB 2.0C
1
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
F
J
5 6
13
I
32 12
4 105
4
1
FN30 B2
DFN32 B2FN33 B2FN34 B4FN35 B4FN36 C2FN37 C2FN38 C2FN39 C5FN40 C5FN41 C5FN42 C5IN30 A3IN31 B4
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
13
8
10 11
F
G
7
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
G
E
D
G
10
TO SIDE AV USB
832
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
2N30 A32N31 A32N32 B52N33 B42N34 B55N30 B45N33 B47N30 B39N30 B3
5
2 12
H
G
7 98
5
FN31 B2
J
I
H
1 2 3 4 5 6 7
1 2
B
A
I
H
E
4
H
76
I
J
1
F
6
9
A
3 4 5 6 7
A
B
C
A
B
C
1N30 C6
7 13
8 9 12 13
11 12
owne
r.
61
-- -- --
2009-07-282
03101
9
F
E
D
43 11
C
BB
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
23
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
3
2
2009-07-31
FN31
IN31FN30
FN38
IN30
6.3V47u
2N32
FN36FN37
9N30*
+5V-ON
100n
2N30
2N33
47u
6.3V
5N33
220R
25V
220u2N
31
FN39
1
4
2
3
67
8
5
*LM3526MX-LNOPB7N30
1N301234
RE
S 25V
220u2N
34
FN41FN42
FN40
220R
5N30 FN35
FN32
FN33
FN34USB20-OC2
USB20-OC1
USB20-PWE2
USB20-PWE1
USB20-2-DPUSB20-2-DM
USB20-1-DPUSB20-1-DM
18730_522_090918.eps090918
Circuit Diagrams and PWB Layouts EN 89PB52.2HU LA 10.
2010-Mar-05
SSB: IR LED
C
I
6
B
10 117
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
G
E
109
E
D
E
6
8
HH
11
G
1
I
AA
32 1312
A
B
5 6
13
H
G
3 4 5
6
J
74
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
9
J
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
E
D
C
J
7
2N52 C4
A
B
C
A
B
C
1N51 B22N51 C4
2N54 C3
C
1098
F
D
121099
J
5N57 B2
132
3
C
H
13
I
H
2 3
4
5 6 7
1 2 3 4 5
3N52-2 B5
1 2
9
12
D
B
75
FN59 C2
J
FN61 C2
3N52-3 C53N52-4 C53N53 C65N50 B35N51 B35N52 C35N53 C35N54 C3
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
7
76543
5
2N53 C3
TO
LE
D P
AN
EL
11
54
E
I
F
G
13
1
6
8
1
FN50 B3FN51 C3FN52 C3FN53 C3FN54 C3FN55 C3FN56 C2FN57 B2
4
1
F
2 9
A
2N55 C33N51 B53N52-1 B5
owne
r.
11
F
C
7 11
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
64 5
FN60 C2
FN62 C2FN63 C2IN50 B5IN51 B5IN52 B5IN53 C5IN54 C5
I
5N55 C3
H
1
1211
G
H
F
432
F
B
D
1086 7
1 5
E
G
I
E
12 13
C
2 128 9
IR LED
FN58 B2
I
J
10
10 1110
A
B
D
131211
3
1 13
D
C
B
F
E
C
12
A
J
G
F
876
G
21
J
H
D
C
B
A
8
32
I
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
FN57
3
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
owne
r.
A
B
84
FN63
FN62
FN60
FN61
FN59
IN53
+5V-ON
12345678
1N51
5N57
220R
5N55 220R
DC398881
YiPing Guo
2009-07-31
2
3
FN52
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
24
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
13010
2 2009-07-28
100p
FN56
2N53
5N52 220R
+3V3-STANDBY
2N55
FN55
100p
FN54
3N51
220R5N50
FN58
IN51
IN52
FN50
IN54
FN53
2N54
100p
5N54 220R
5N53 220R
100p
2N52
IN50
2N51
100p
FN515N51 220R
5
3N53 100R
100R
4
3N52-3
100R
36
3N52-4
27
3N52-1 18
3N52-2
100R
100R
RC
LIGHT-SENSOR
LED2-OUT
LED1-OUT
IR-out-iB
KEYBOARD
18730_523_090918.eps090918
EN 90PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: PNX85xx: Video Streams
RX_0
RX_1
RX_2
RX_C
DDC
PNP
NPNPN
CECSCLSDARREF
HOT_PLUG
C
MICLKMISTRT
MIVAL
765
0
43210
7
MOVALMOSTRTVS2_MOCLK_CI
VS112
01234567
FEVALFESOPFECLKFEERR
VPPENVCCEN
ADD_ENOOB_EN
DATA_ENDATA_DIR
RST
CA_MDO
CD
FEDATA TNR_TSDI
CA_MDI
654321
C
A
B
C
I
B
C
1 5
1
VIDEO STREAMS
1 2
1
E
32
G
F
I
H
G
7
1 2 3
F
E
4
4
A
5 6 7
D
87
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
owne
r.
A
D
9
10
F
7
A
B
PNX 8535 : DIGITAL VIDEO IN
3HW1 C53HW2 C17H00-10 A3
H
BD 12NC : 3139_283_30171
I
H
13
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
J
4 11 12
6543
3 4 5 6
7
4 5 6
765
owne
r.
11109
E
D
C
B
111098 98
13106
C
B
A
7H00-3 B69HW0 C1IHW1 C6
MULTI 12NC : 3139_283_30161
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
J
I
H
12
G
2 131211
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1
G
F
32 1312
J
832
E
D
C
B
A
E10C7
B9B8
A8A7
B7B6
A10A9
C9
PNX85357H00-3
C10
D10
HDMI
12K
3HW1
C24
A29
B28B30B25
D25A24
C22
B24
A23D24
A30
D26C26B26
C25D23C23C29C30D30A28
E6A5B5
A6
C4D5
A26C27B27A27A25
D29B23
D22A22
C5
E5A4B4C6D6
VIDEO STREAMS
PNX85357H00-10
B22
9HW
0
+3V3
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
-- -- --
2009-07-282
03101
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
25
3PC333
43
SETNAMECHN
CLASS_NO
3HW
2
4K7
IHW1RREF-PNX8535
RX0+RX0-
DDC-SCLDDC-SDA
RXC+RXC-
RX2+RX2-
HOT-PLUG
RX1+RX1-
FE-ERRFE-CLKFE-SOPFE-VALID
FE-ERR
FE-DATA0FE-DATA1
FE-DATA2FE-DATA3FE-DATA4FE-DATA5FE-DATA6FE-DATA7
18730_524_090918.eps090918
Circuit Diagrams and PWB Layouts EN 91PB52.2HU LA 10.
2010-Mar-05
SSB: PNX85xx: Dig. Video Out / LVDS
C
E
D
C
CLK
B
A
N
PNP
NP
NP
NP
NP
IREF
VSYNCHSYNC
B_OUT
G_OUT
R_OUT
R6_Y8
AUX2
CLK
B7_Y1B6_Y0
B5_UV1B4_UV0
B3_GPIOB2_GPIOB1_UARTB0_UART
G7_UV9G6_UV8G5_UV7G4_UV6
R3_Y5R2_Y4R1_Y3R0_Y2
R5_Y7R4_Y6
G3_UV5G2_UV4G1_UV3G0_UV2
R7_Y9
IHWJ C6IHWK C6
J
I
B
C
A
B
43
I
E
D
7
FHF1 D2FHF2 D2FHF3 D2
IHWM C6IHWN C6
H
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
1312
MULTI 12NC : 3139_283_30162
J
IHWE C6IHWF C6IHWG C6IHWH C6
3HWV D33HWX D3
F
IHW5 B4IHW6 B4IHW7 C3IHW8 C3IHWA B6
1 2 5
4
H
6
G
132 11
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
12
3HWY D37H00-7 B57H00-8 A2
3HWM C33HWN C3
6
PNX8541 : DIGITAL VIDEO OUT / LVDSC
8
IHWL C6
13
BD 12NC : 3139_283_30172
B
G
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
3 4 5
G
J
E
7
IHWB B6IHWC B6IHWD C6
3HWR C33HWS C33HWT C33HWU C3
C
D
6
H
E
F
A
D
7
F
7 86 13
J
A
11 12
1
3HWC B33HWD B33HWE B3
B
C
3
3HWI B33HWJ C33HWK C33HWL C3
A
B
C
4
Aow
ner.
88
12
G
C
3HW9 B33HWA B33HWB B3
3 9
6 7
1 2
3HWO C33HWP C33HWQ C3
11
1 2
1 2
I
10
1
D
10
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
5
5 6 7
A
B
4 5 9
F
E
D
11109
3HW7 B33HW8 B3
2 3
3HWF B33HWG B33HWH B3
9 10
D
1H10 D23HW5 B63HW6 B3
5
22R3HWS
3 4
IHWK3HWN 22R
IHWAVDDA-LVDS
3HW5
12K3HWH 22R
3HWU
3HWQ 22R
IHWG
3HWY3HWX3HWV
3HWT 22R
3HWE 22R
22R3HWR
IHW6
3HWJ 22R22R3HWI
3HWB 22R
IHWB
22R3HWP
22R3HWM
FHF3
FHF2
IHWL
IHWJIHWH
3HW9 22R
22R3HW7
3HWD 22R3HWC 22R
3HWO 22R
IHW8
22R3HW8
3HW6 22R
IHW7
22R3HWA
IHWC
AK19
AG15
AJ19AH19AG19AF19AK20AJ20AH20AG20
AH15
AF16AJ17AH17
AK17
AG17AF17AK18AJ18AH18AG18AF18
AF20
AF15AK16AJ16AH16AG16
VID_OUT_TTL
PNX85357H00-8
22R3HWL3HWK 22R
22R3HWF
AG22AH22
AG23AH23
AJ24AK24
AG21
AJ21AK21
AJ22AK22
AJ23AK23
LVDS
PNX85357H00-7
22R3HWG
IHWN
2009-07-282
03101
IHWM
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20082009-05-15
26
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
-- -- --
IHW5
3
2
2009-07-31
YiPing Guo
DC398881
123
4 5
1H10
FHF1
IHWFIHWE
DV-B1_UART2-TX
IHWD
DV-CLKDV-VSDV-HS
DV-FF_DE
DV-B0_UART2-RX
DV-G6_UV8DV-G5_UV7DV-G4_UV6
DV-B7_Y1DV-B6_Y0
DV-B5_UV1DV-B4_UV0
DV-B3_AUDIO-MUTEDV-B2_DEBUG-BREAK
DV-B1_UART2-TX
DV-R2_Y4
DV-R7_Y9DV-R6_Y8DV-R5_Y7DV-R4_Y6
DV-B0_UART2-RX
DV-G3_UV5DV-G2_UV4DV-G1_UV3DV-G0_UV2
DV-G7_UV9
TX8535oE-TX8535oE+
TX8535oC-TX8535oC+
DV-R0_Y2DV-R1_Y3
DV-R3_Y5
TX8535oB+
TX8535oCLK+TX8535oCLK-
TX8535oA-
TX8535oB-
TX8535oD-TX8535oD+
TX8535oA+
18730_525_090918.eps090918
EN 92PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: FPGA 1080p: Interface
C
3
9
B
C
D
C
D
E
3F37 B2
131211
98
32
H
G
F
10985 54
J
G
1 76
A
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
G
I
7
1254
2
13
H
I
118
3F38 C23F39 C23F40 C2
I
J
21
018
A
B
12
3 4
A
6 7 8
E
3F35 B23F36 B2
2
121110
D
FPGA -dual even LVDS-output
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
E
F
5
E
321
8
76
G
B
C
D
H
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
3
76
1
7
43 12
A
F
E
J
3F41 C23F42 C2
3F43 C23F44 D2
1
3F48 D2
32 13
3F52 E23F53 B53F54 B5
5
3F56 C53F57 C53F58 C5
9 10
1
3F62 D5
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
B
921
B
D
J
9F36 B99F37 B9
4
H
G
3F63 D5
J
I
FPGA 1080p : INTERFACE
3F67 D5
6
4
5
D
12
B
Aow
ner.
4 5 6
C
F
10
owne
r.
J
H
E
C
G
F
E
3F45 D23F46 D2
3F47 D2 9F35 B93F49 D23F50 E2
3F51 E2
32
3F55 B5 3F59 C53F60 C5
3F61 C5
II
13
C
132 13
4
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1
9F38 C99F39 C99F40 C9
9F41 C93F64 D5
3F65 D53F66 D5
9F45 D9
1 5
H
C C
D
B
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
A
B
1
D
H
I
2 121110
13
9F46 D93F68 E53F69 E53F70 E5
654 75
F
A
B
C
H
8A
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
par
ts
9 101098
G
9 10 11
76
7 8
9F42 C99F43 C99F44 D9
12
JJ
3
1110
G
13
A
9
3 94
6
8
A
FPGA - bypassFPGA -single/dual odd LVDS-output
11
E
76
11
D
E
F9F45
120R
3F63
120R
3F36
3F50
270R
3F48
120R
3F70
270R
270R
3F59
3F62
9F43
270R
270R
3F41
270R
3F35
270R
3F47
270R
3F55
270R
3F56
3F61
270R
270R
3F46
270R
3F64
9F40
3F52
270R
270R
3F68
3F44
270R
3F43
270R
9F38
9F37
3F39
120R
270R
3F40 9F393F57
120R
270R
3F37
270R
3F65
9F36
9F42
3F49
270R
3F45
120R
120R
3F66
3F42
3F38
120R
270R
120R
3F54
3F53
270R 9F35
3F67
2
3
270R
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
27
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
3F58
13010
2 2009-07-28
-- -- --
2009-05-15
270R
120R
3F60
120R
9F44
3F69
9F46
9F41
120R
3F51
RxP3oB+_B6
Tx8535oD- RxP3oD-_B1
Tx8535oD+ RxP3oD+_B0
Tx8535oE- RxP3oE-_G9
Tx8535oE+ RxP3oE+_G8
Tx8535oCLK- RxP3oCLK-_B2
Tx8535oA- RxP3oA-_B9
Tx8535oA+ RxP3oA+_B8
Tx8535oB- RxP3oB-_B7
Tx8535oB+
RxP3eC+_G2
RxP3eA-_G7
RxP3eA+_G6
Tx8535oC- RxP3oC-_B5
Tx8535oC+ RxP3oC+_B4
Tx8535oCLK+ RxP3oCLK+_B3
RxP3eB-_G5
RxP3eB+_G4
RxP3eE-_R7
RxP3eE+_R6
RxP3eD-_R9
RxP3eD+_R8
RxP3eCLK+_G1
RxP3eCLK-_G0
RxP3eC-_G3
TxFPGAeB-
TxFPGAeE+
TxFPGAeE-
TxFPGAeD+
TxFPGAeD-
TxFPGAeCLK-
TxFPGAeCLK+
TxFPGAeC+
TxFPGAeC-
TxFPGAeA+
TxFPGAeA-
TxFPGAoCLK+
TxFPGAoCLK-
TxFPGAoD-
TxFPGAoD+
TxFPGAoE-
TxFPGAoE+
TxFPGAeB+
RxP3oD-_B1
RxP3oE+_G8
RxP3oE-_G9
TxFPGAoA-
TxFPGAoA+
TxFPGAoB-
TxFPGAoB+
TxFPGAoC-
TxFPGAoC+
RxP3oA+_B8
RxP3oA-_B9
RxP3oB+_B6
RxP3oB-_B7
RxP3oC+_B4
RxP3oC-_B5
RxP3oCLK-_B2
RxP3oCLK+_B3
RxP3oD+_B0
18730_526_090918.eps090918
Circuit Diagrams and PWB Layouts EN 93PB52.2HU LA 10.
2010-Mar-05
SSB: FPGA 1080p: Power & Control
OUTIN
INH BP
COM
C
DATA
GND
ASDI
DCLK
CS_VCC
COM
OUTIN
J
C
B
43
2FA0 B2
2FA2 B2
2FA4 B3
1
MULTI 12NC : 3139_283_30162BD 12NC : 3139_283_30172
12
J
1010 11
B
1
2 3
J
owne
r.
A
D
9
JTA
G
E
1 2 3
10
5
E
7
7
9
2
6
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
5
A
4 9
RES
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
D
C
A
B
4 5 6 7 8 9
A
B
C
E
1FA0 E4
A
2FA1 B2
C
2FA3 B3
E
2FA5 C5
3
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
2
I
3
G
2FA6 C62FA7 C62FA8 F22FA9 B22FB0 B22FB1 B22FB2 B32FB3 B32FB4 B32FB5 B32FB6 B32FB7 B42FB9 B22FC0 B22FC1 D82FC2 F32FD0 C2
4
2FD2 C2
6
2FD4 C3
8
2FD6 C3
1
2FD8 C2
3
A
H
G
H
I
12 13
E
D
E
B
2FE0 D22FE1 D22FE2 D22FE3 D22FE4 D32FE5 D32FE6 D32FE7 C42FF0 D22FF1 A52FF2 A52FF3 D2D2FF5 B4
F
2FF7 D3
B
3FA1 B8
D
3FA3 E6
F
13
8
1
E
D
Aow
ner.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 7654
65
13121110
2FD1 C2
8
2FD3 C2
3FA6 E5
2FD5 C3
3FA8 F5
2FD7 C4
3FB8 F5
2FD9 C3
F
118 9
FPGA 1080P : POWER + CONTROL
7
G
2
13
5 11
RES
3FC6 B83FC7 C83FC8 D85FA1 A75FA2 B15FA6 C15FA7 D15FA8 D15FB1 B15FB2 B1
2FF4 D2
6FA6 E1
2FF6 D2
7FA0 C8
3FA0 B8
7FA3 A6
3FA2 B8
7FA5 E2
3FA4 E6
72 6
owne
r.
F
9FA2 E1FFA0 A3FFA1 B4FFA2 C4FFA3 D3FFA4 E4FFA5 E4FFA6 F4FFA7 C8FFA8 F4FFA9 F4FFAA C9FFB0 D3FFB1 E3FFB2 D7IFA1 A6IFA2 A6IFA3 A6
9
IFA7 C8
3FA5 E5
IFB1 B1
3FA7 E5
1
3FB2 C8
I
3FB9 F6
G
J
D
C
B
A
IFB2 C6IFB3 E2
12 13
8
6FA0 B8
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
6FA7 F1
H
7FA1 B9
F
7FA4 B6
9FA1 E1
2
H
1211109876543
76541
C
13121110
IFA6 B8
9
IFA9 B6
42
F
J
I
H
F
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
G
F
E
D
C
J
C
B
8
I
G
3
100K
3FA
2
+3V
3-F
PG
A
FFAA
2FB
7
2FA
0
10n
1u0
3FB8 100R
10n
2FE
7
+3V3
100R3FA8
10n
2FD
8
STPS2L30A
6FA7
100K
3FC6
4
2
1
3
5
10n
2FE
4
+3V3-FPGA
LD3985M257FA4
11 12
IFB3
1
10
23456789
1FA0
+2V5-STAB
10n
2FB
2
10n
2FF
7
+3V3-FPGAIFB2
+3V
3-F
PG
A
BC847BW7FA1
10n
FFA0
2FE
6
3FB
2
10K
10n
2FE
5
1K0
3FB
9
2FB
5
10n
FFB1
5FA7
30R
2FF
3
10n
+1V2-STAB
7FA0BC847BW
1
3
2
IFA6
FFA2
FFA8
IFB1
2FD
42F
B3
10n
10n
FFA7
10n
2FA
7
1u0
2FF
0
2FA
4
10n
IFA7
IFA3
+3V3-FPGA
5FA8
30R
100n
2FA
8
1K0
3FA
5
+3V3-FPGA
2FB
4
10n
10n
FFB0
2FF
1
RE
S
2FD
2
22u
2FF
5
10n
10n
2FA
1
3FA
0
3K3
1u0
2FC
2
FFA1
10n
2FB
1
2FE
1
10n
30R
5FA6
2FB
0
1u0
3FA7 100R
100R3FA6
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
28
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
6FA6
STPS2L30A
2FD
7
10n
100K
3FC7
IFA2
30R
5FA1
+2V5
2FA
2
10n
FFA3
220R
5FB2
10n
2FF
2
FFA5
1u0
2FA
6
10n
+1V2-STAB
2FE
24u
7
2FA
9
10n
2FA
3
9FA2
3FA
3
1K0
2FD
6
RE
S
10n
10n
2FD
5
6FA
0
SM
L-31
0
10n
2FB
6
1u0
2FC
1
3FA
1
FFA9
+3V3
10K
1u0
2FB
9
4u7
2FD
0
2FE
3
10n
2FD
9
10n
3FA
4
1K0
FFA4
5FA
2
220R
+3V3
+2V5-STAB
9FA1
2FD
1
+3V
3-F
PG
A
+3V3
10n
4u7
FFA6
2FE
0
2FA
5
100n
2FD
3
10n
3FC
8
100K
+3V3
IFA1
10n
5FB1
220R
3 2
2FF
4
LD1117DT127FA5
1
IFA9
1
2 6
4
3 7 8 EPCS4SI87FA3
SCDΦ
5
2FC
0
220u
25V
2FF
6
10n
FFB2
+1V2-FPGA
+Vin-FPGA
DATA0
+3V3
ASDO
nCSO
DCLK
nCONFIG
ON-MODE
CONF-DONE
FPGA_TCK
FPGA_TDI
FPGA_TDO
FPGA_TMS
+2V5out-FPGA
+1V2-PLL
18730_527_090918.eps090918
EN 94PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: FPGA 1080p: I/O Banks
C
VCCA_PLL
VCCD_PLLGNDA_PLL
GND
GND
GND
VCCIO4
VCCINT
12
12
21
GND_PLL2
GND_PLL1
VCCIO3
VCCIO2
VCCIO1
CLK
MSEL6543210
7
DATA0DCLK
TDITDOTMSTCK
10
CONF_DONECONFIG
STATUSCE
NCNC
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
3F93 C73F94 C7
3F95 B93F98 B9
7F90-1 A3
5
9F91 B49F92 C13
2
2 3
8
4
P
O
2
G
3F75 B23F76 B4
3F77 A2
1 151413
1
B
C
D
E
F
G
10 11
7
J
19
K
owne
r.
B
C
181716
M
N
O
3F78 C27F90-3 D87F90-4 A12
7F90-5 D127F90-6 D3
7F90-7 F139F90 B2
5 6
H
G
F
31
1 2
NN
M
18 19
F
J
K
19
4 5 6 7 8 9
8 9
G
H
I
B
K
10
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
D
E
F
6 17 18 19
7F90-2 A8
13 14
1 2 3 4 14
A
H
4
L
M
9F98 B11FF90 B4FF91 B9
5
I
1211109
3
FPGA 1080P : I/O BANKS
109
7
I
9F93 E14
20
F
E
D
7
A
8 9
2
4
B
C
D
E
N
G
20
12
P
20
10 11 12 13
9F96 B119F97 B11
A
16
5
5
C
13 14 15
FF92 B9FF93 C7
FF94 C7IF73 B9
IF74 D9IF75 D9 IF78 C13
IF81 E12IF82 E12
IF83 E12IF84 E13
187
L
J
IF90 B2IF91 B2IF92 B2
IF93 C7
113
6
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
17
14
12
IF94 B9IF95 B9IF96 B2
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
H
L
M
6
11
O
4
171615
9F94 B59F95 B5
12
IF85 F13IF86 F12
IF87 G12IF88 G12
6 7
L
J
I
11 16 20
O
P
E
D
IF76 B13 IF89 B4
C
B
A
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
81 13 14 15
G
3
1312
P
1098
3F76 10K
9F97
+1V2-FPGA
RES9F98
3F78
RES
1K0
1K0
RE
S3F
77
9F91
P10P7T15T2
FF93
A2C10C7E10E7
B16G14K14R16
M10M7
L6F11
G9H10H7J7
B1G3K3R1
A15
E9G8
M6E11
L5N5
D12F12
M5E12
P9R15
R2T1
T16
B15B2C8C9E8
H8H9
J14J3J8J9K9M8
A16
M9P8
ΦPOWER
A1
H14H3
EP2C5F256C7N7F90-6
+1V2-FPGA
+1V2-PLL
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
03101
IF86
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
29
3PC333
43
SETNAMECHN
CLASS_NO
+3V3-FPGA
3F75
47R
FF91
3F94 47R
IF73
K12
M13
F2
H5G2G1
J2J1H16H15J15J16
J5L13
F1H4
J13
7F90-1EP2C5F256C7N
G5H2H1
IO_T4|LVDS56pT4
IO_T5|LVDS55pT5
IO_T6T6
IO_T7|LVDS54pT7
IO_T8|LVDS53pT8
IO_T9|LVDS52pT9
CONTROLΦ
IO_R8|LVDS53nR8
IO_R9|LVDS52nR9
IO_T10|LVDS49nT10
IO_T11|LVDS51pT11
IO_T12|LVDS46pT12
IO_T13|LVDS45pT13
IO_T14|LVDS44pT14
IO_T3|LVDS58pT3
IO_R11|LVDS51nR11
IO_R12|LVDS46nR12
IO_R13|LVDS45nR13
IO_R14|LVDS44nR14
IO_R3|LVDS58nR3
IO_R4|LVDS56nR4
IO_R5|LVDS55nR5
IO_R7|LVDS54nR7
IO_N8|VREFB4N1N8
IO_N9|LVDS59pN9
IO_P11P11
IO_P12|LVDS47pP12
IO_P13|LVDS47nP13
IO_P4|LVDS57nP4
IO_P5|LVDS57pP5
IO_R10|LVDS49pR10
IO_L11|LVDS43nL11
IO_L12L12
IO_L7|LVDS60pL7
IO_L8|LVDS60nL8
IO_L9|LVDS50pL9
IO_M11|LVDS43pM11
IO_N10|LVDS59nN10
IO_N11|VREFB4N0N11
7F90-5EP2C5F256C7N
IO_K10|LVDS48nK10
IO_K11|LVDS48pK11
IO_L10|LVDS50nL10
IF89
BANK4Φ
IF83IF82
IF95
IF96
+1V2-PLL
+Vin-FPGA+1V2-FPGA
9F93
+2V5out-FPGA
FF90
F6
IO_F7|LVDS19nF7
IO_F8|LVDS19pF8
IO_F9|LVDS12pF9
IO_G10|LVDS24nG10
IO_G11|LVDS24pG11
IO_G6|LVDS11nG6
IO_G7|LVDS11pG7C5
IO_C6|LVDS17pC6
IO_D10|LVDS22pD10
IO_D11|LVDS22nD11
IO_D6|LVDS17nD6
IO_D8|VREFB2N1D8
IO_E6|LVDS13pE6
IO_F10|LVDS12nF10
IO_F6|LVDS13n
B5
IO_B6|LVDS18nB6
IO_B7|LVDS20pB7
IO_B9|LVDS21pB9
IO_C11|VREFB2N0C11
IO_C12|LVDS27pC12
IO_C13|LVDS27nC13
IO_C4|LVDS10pC4
IO_C5|LVDS10nA9
IO_B10|LVDS23nB10
IO_B11B11
IO_B12|LVDS25nB12
IO_B13|LVDS26nB13
IO_B14|LVDS28nB14
IO_B3|LVDS14nB3
IO_B4|LVDS15nB4
IO_B5|LVDS16n
A13
IO_A14|LVDS28pA14
IO_A3|LVDS14pA3
IO_A4|LVDS15pA4
IO_A5|LVDS16pA5
IO_A6|LVDS18pA6
IO_A7|LVDS20nA7
IO_A8A8
IO_A9|LVDS21n
7F90-3EP2C5F256C7N
IO_A10|LVDS23pA10
IO_A11A11
IO_A12|LVDS25pA12
IO_A13|LVDS26p
BANK2Φ
47R3F98
+3V3-FPGA
+1V2-FPGA
9F96
+3V3-FPGA
+1V2-PLL
RES
9F94
+1V2-PLL
+3V3
N7P6R6
C16D1D2D7D9E13E15
H6J10
J6K13
K6K7
C15
K8N3N4N6
7F90-7EP2C5F256C7N
B8
F13F14F5G4
NCΦ
IF94
IF88
IF92
9F90
FF94
IF93
3F93 47R
IF75
3F95 47R
IF87
N15IO_N16|LVDS39p
N16
IO_P14P14
IO_P15|LVDS40nP15
IO_P16|LVDS40pP16
IO_L16|LVDS37pL16
IO_M12|LVDS42pM12
IO_M14|VREFB3N1M14
IO_M15|LVDS38nM15
IO_M16|LVDS38pM16
IO_N12|LVDS42nN12
IO_N13|LVDS41nN13
IO_N14|LVDS41pN14
IO_N15|LVDS39n
H12
IO_H13|VREFB3N0H13
IO_J11|LVDS32nJ11
IO_J12|LVDS35pJ12
IO_K15|LVDS36pK15
IO_K16|LVDS36nK16
IO_L14L14
IO_L15|LVDS37nL15
E16
IO_F15|LVDS33nF15
IO_F16|LVDS33pF16
IO_G12|LVDS31nG12
IO_G13|LVDS31pG13
IO_G15|LVDS34pG15
IO_G16|LVDS34nG16
IO_H11|LVDS32pH11
IO_H12|LVDS35n
IO_C14|LVDS29nC14
IO_D13|LVDS29pD13
IO_D14|PLL2_OUTnD14
IO_D15|LVDS30nD15
IO_D16|LVDS30pD16
E14IO_E14|PLL2_OUTp
IO_E16
BANK3Φ
7F90-4EP2C5F256C7N
RES9F92
IF74
IF78
+1V2-FPGA
IF91IF90
IF85
+1V2-FPGA
M2IO_M2
M3IO_M3
M4IO_M4|PLL1_OUTn
N1IO_N1|LVDS1p
N2IO_N2|LVDS1n
P1IO_P1|LVDS0p
P2IO_P2|LVDS0n
P3IO_P3
K2IO_K2|LVDS4p
K4IO_K4|LVDS3p
K5IO_K5|LVDS3n
L1IO_L1|LVDS2p
L2IO_L2|LVDS2n
L3IO_L3
L4IO_L4|PLL1_OUTp
M1IO_M1
E1
IO_E2|LVDS5nE2
E3IO_E3|LVDS7p
E4IO_E4|LVDS7n
E5IO_E5|LVDS8n
F3IO_F3|VREFB1N0
F4IO_F4|CSO_
J4IO_J4|VREFB1N1
K1IO_K1|LVDS4n
C1IO_C1|LVDS9p
C2IO_C2|LVDS9n
C3IO_C3|ASDO
D3IO_D3|LVDS6p
D4IO_D4|LVDS6n
D5IO_D5|LVDS8p
IO_E1|LVDS5p
7F90-2EP2C5F256C7N
BANK1Φ
FF92
IF81
IF76
RE
S
9F95
+3V3-FPGA
+1V2-FPGA
IF84
+1V2-PLL
SCL-SSBSDA-SSB
PCI-CLK-PNX5050_CLK-MOP
MSEL1
DV-B0_UART2-RX
SDA-AMBI-3V3SCL-AMBI-3V3
DV-B1_UART2-TX
DV-B2_DEBUG-BREAKDV-B3_AUDIO-MUTE
DV-CLK-PLL
DV-CLK-PLL
SD1-A6SD1-A7SD1-A1
SD1-A10SD1-A11SD1-A0
MP-LED5
SD1-CAS
SD1-DQ8
SD1-DQ6
SD1-DQ5
SD1-DQ4
SD1-DQ1
SD1-RAS
SD1-WE
SD1-DQ7
SD1-DQ3
SD1-DQ2
CTRL1-FPGA
CTRL3-FPGA
MP-LED1
MP-LED3
SD1-A3SD1-A2
CTRL2-FPGA
CTRL4-FPGA
MP-LED2
MP-LED4
DV-R4_Y6DV-R3_Y5
DV-R7_Y9DV-G6_UV8DV-G5_UV7
DV-R2_Y4
DV-R1_Y3DV-R0_Y2
DV-R6_Y8DV-R5_Y7
DV-G0_UV2
DV-G1_UV3DV-G2_UV4
DV-G4_UV6DV-G3_UV5 DV-G7_UV9
DV-HS
DV-VS
DV-CLK-PLL
DV-B4_UV0DV-B5_UV1
DV-B6_Y0DV-B7_Y1
TxFPGAoD+TxFPGAoD-
TxFPGAeB-
+1V2-FPGA
DV-FF_DE
TxFPGAoA-
TxFPGAeE-
TxFPGAeD-
TxFPGAeCLK-
TxFPGAeC-
TxFPGAeA+
TxFPGAoB+TxFPGAoB-
TxFPGAeB+
TxFPGAoC+
TxFPGAoA+
TxFPGAeE+
TxFPGAeD+
TxFPGAeCLK+
TxFPGAeC+
TxFPGAeA-
TxFPGAoE-
TxFPGAoCLK-
TxFPGAoC-
SD1-DQ12SD1-A8
SD1-DQ10SD1-A5
SD1-DQ9SD1-CS
SD1-A4
TxFPGAoE+
TxFPGAoCLK+
SD1-DQ16
SD1-DQMSD1-CKE
SD1-DQ13SD1-DQ14
SD1-A9
SD1-CLK
SD1-DQ11FPGA_TDIFPGA_TDOFPGA_TMS
ASDOnCSO
SD1-DQ15
DV-CLKnCONFIG
CONF-DONE
DATA0DCLK
MSEL1
FPGA_TCK
18730_528_090918.eps090918
Circuit Diagrams and PWB Layouts EN 95PB52.2HU LA 10.
2010-Mar-05
SSB: Pacific 3: LVDS
C
M
N
20
P
3G07 C23G08 C23G09 D23G10 D23G11 E23G24 D93G25 D9
14
BD 12NC : 3139_283_30172
2
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
3111
3
9 10
F
E
P
15 19
9 13 14 1510 11
Dual LVDS input only
D
C
16
OO
20
K
L
2 31
1
4 5 6 171612
3G05 H23G06 B2
1817
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
I
J
K
G
5G00 B65G01 C6
MULTI 12NC : 3139_283_30162
A
D
C
B
C
D
E
F
1413 19
E
F
13124 5 6 7
LVD
S C
ON
NE
CT
OR
7 8
B
A
N
M
1
8743
3G03 G23G04 H2
1 2
G
Single / Dual LVDS input only
6521
P
H
owne
r.
5G02 C65G03 D6
H
I
J
F
E
C
B
C
D
F
1
4 5 6 7 8 12
G
Dual LVDS only
18
2 3
K
owne
r.
L
B
3G01 F23G02 G2
10 11
2G11 E62G12 F6
L
J
I
H
G
15 16 17 18
3 4
5G04 D65G05 E6
FG11 C10FG12 C10
A
K
I
H
E
D
A
B
O
P
20
8 9 10 11 1817161514
2
12
2G13 F6
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
FG03 B10
FG20 D10FG21 D10FG22 D10FG23 D10FG24 D10FG25 D10FG26 D10
G
2G25 E103G00 F2
8 9
2G09 E62G10 E6
N
M
1G50 A11
5 6 7 8 9 10 11
A
B
C
D5G06 F65G07 F6
FG13 C10FG14 C10FG15 C10FG16 D10FG17 D10FG18 D10FG19 D10
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
G
H
M
N
PACIFIC 3 : LVDS
19
9
19 20
2G14 F62G15 F62G16 G62G17 G62G18 G62G19 G62G20 H62G21 H62G22 H6
4 5
2G05 D6
FG04 B10FG05 C10FG06 C10FG07 C10FG08 C10FG09 C10FG10 C10
2G23 H62G24 E10
6 7
2G07 D62G08 D6
2G02 C6
O
2G04 C6
H
2G06 D6
2G00 B62G01 B6
3
2G03 C6
5G08 G65G09 G65G10 H65G11 H6FG00 A10FG01 B10FG02 B10
E
FJ
L
1110
100R3G25
100R
3G06
4p72G05
5G03
1 2
4 3D
LW21
S
100R
3G01
3G00
100R
4p72G15
1 2
4 3
5G10
DLW
21S
FG14
1 2
4 3D
LW21
S
5G08
2G03 4p72G02
1 2
4 3
4p7
4p7
DLW
21S
5G01
2
4 3
2G04
DLW
21S
5G02
1
FG06
2G01 4p7
1 2
4 3
2G00 4p7
5G00
DLW
21S
FG22
FG20
FG21
FG19
2G19
2G17 4p7
50
4p7
89
42
51
4344 4546 4748 49
36373839
4
4041
567
26272829
3
303132333435
171819
2
202122232425
1
10111213141516
1G50
4p72G09 4p7
1 2
4 3
2G08
5G04
DLW
21S
3G11
100R
2
03101
ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
30
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
2009-07-28
FG10
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV
100R
3G05
100R
3G03
100R
20G3
40G3
100R
FG00
FG01
1 2
4 3
4p72G10
DLW
21S
5G05
DLW
21S
1 2
4 3
5G06
4p7
FG11
2G072G06 4p7
FG02
FG05
FG03FG04
FG26FG25
FG09
FG12
FG08FG07
1 2
4 3
3G24 100R
5G11
DLW
21S
4p72G234p72G22
2G21 4p7
100R
3G10
4p7
100R
2G18
3G08
3G09
100R
2G25
100p
100p
2G24
2G11 4p7
FG18
2G20 4p7
1 2
4 3D
LW21
S
5G09
DLW
21S
1 2
4 3
5G07
VDISP
FG13
3G07
100R
2G16 4p7
FG15FG16FG17
2G14 4p7
FG24
4p72G13
FG23
4p72G12
RxP3oCLK-_B2
RxP3oC-_B5
RxP3oC+_B4
RxP3oB-_B7
RxP3oB+_B6
RxP3oA-_B9
RxP3oA+_B8
RxP3oE-_G9
RxP3oE+_G8
RxP3oD-_B1
RxP3oD+_B0
RxP3oCLK+_B3
CTRL-DISP3CTRL-DISP4
CTRL-DISP1CTRL-DISP2
RxP3eE+_R6
RxP3eE-_R7
RxP3eB+_G4
RxP3eB-_G5
SCL-I2C4-DISPSDA-I2C4-DISP
RxP3eA+_G6
RxP3eA-_G7
RxP3eC+_G2
RxP3eC-_G3
RxP3eCLK-_G0
RxP3eCLK+_G1
RxP3eD+_R8
RxP3eD-_R9
TXECLK+
TXECLK-
TXED+
TXED-
TXEE+
TXEE-
TXEB+
TXEB-
TXOD+
TXOD-
TXOE+
TXOE-
TXEA+
TXEA-
TXEC+
TXEC-
TXOA+
TXOA-
TXOB+
TXOB-
TXOC+
TXOC-
TXOCLK+
TXOCLK-
18730_529_090918.eps090918
EN 96PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: Pacific 3: Display Interfacing
C
9G53 I39G54 I3
IG81 H5IG82 B12IG83 C11IG84 C12IG85 B11
FG83 B8FG84 A7
K
owne
r.
C C
FG59 F2FG80 A8
3
6G55 D137G50 H27G51 D9
FGB1 D13IG51 B1IG52 B2IG53 C2IG54 C3
IGA5 H12IGA6 H12IGB1 D9IGB2 E9IGB3 E10IGB4 E10IGB5 E11
F
E
1716
IG65 F3IG70 H3
9G50 H49G52 A2
IG74 H3IG80 A12
D
E
O
IG63 F2
9G48 H109G49 H10
3GC3 I123GC4 D123GC8 I115G50 G2
9G55 D109G56 E129G59 B129G60 C129G77 B1
IGA1 H10IGA2 H10
IGB6 E11IGB7 F10IGB8 E12IGB9 G10IGBA G11
N
M
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
D
EFG81 B8FG82 B8
IGA3 H11IGA4 H11
E
D
B
FG58 E2
1 2
3G95 B113G96 F23G98 G33G99 G4
7G52 B27G53 E107G54 B37G55 C47G56 F10
IG55 C4IG56 C4
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
A
B
C
K
A
B
C
6 7
IG71 H2IG72 H3
H
G
5
P
IG62 F2
7G66-2 H12
3GC1 H103GC2 I11
3G62 E103G63 C23G64 C33G65 F11
5G51 H25G55 A45G56 B46G50 C36G51 B4
9G78 B19G79 B1
K
16
L
K
8
F
G
11 12
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
F
GG
F
TO DISPLAY
A
FG57 E5
1
3G93 F33G94 F4
2G68 B112G69 B72G70 B82G71 B8
3GA0 B123GA1 B113GA2 B113GA3 B123GA4 G10
7G57 F47G58-1 E12
13
F
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
VDISP-SWITCH
D
17
B
A
N
M
L
J
I
7 16
IG59 E2IG61 E2
7G66-1 H12
3GC0 H10
3G60 D33G61 E10
C
B
5 6
3G66 F123G67 C43G68 C43G69 F93G70 F10
6G52-1 H56G52-2 H6
6 10
RESET
J
I
20
N
M
L
J
I
H PDP-GO
FG55 D5FG56 E5
2
3G92 A11
2G66 E52G67 A11
2G72 B92G75 D122G76 B42G78 H102G79 I11
3GA5 D93GA6 E11
B
C
181 0271
15
J
RES
1110 11
NOTE : CAN BE
IG57 C5IG58 D4
7G61-2 B12
7G65 H10
3GB9 H11
3G59 B2
K
CPU-GO
7 8 9 10 11
3G71 D23G72 D43G73 F93G76 D4
98
6
RES
H
I
H
18 199 10
FG52 B4FG54 D5
43
3G91 F3
2G65 E5
14131211
3018 E93G50 H43G51 H43G54 D10
14
E
1912
20
7 16
G
8
15
L
7G59-2 G107G61-1 A12
3GB7 H123GB8 H11
3G58 D10
O
10
8 9
12 13
A
B
3G77 D53G78 D5
74
14
1514
9G80 C19G82 I12FG50 A4FG51 B3
5
3G88 E33G89 F3
2G64 E5
19
N
15
E
F
G
H
109876
3G55 D113G56 B4
5
O
2
H
I
J
M
7G58-2 E117G59-1 G10
3GB0 B93GB5 A7
18
9 1816
A
L
M
10 11 12 13
C
D
3G79 D5
RES
E
20
D
1312
PDWN
19
3G85 E33G86 E2
2G60 C42G63 E4
O
17
C
D
F
G
H
I
A
K
L
5
2 3 4
3G57 E10
86
D
12
3GA7 A93GA8 B73GA9 B9
12
19
4 19
18
I
1G70 A7
2 131 2
P
G
1 2
ERESERVED
4
CAPACITOR OR
P
O
3G80 D33G81 D33G84 E3
2G58 G112G59 F11
16
PP
20
B
15
2G57 C2
J
2G50 G42G51 H3
5 6
4
FHP
8
173
14
20
SDI
13
O
5
9 7141312
3
1
541
3 4
11
18
3
3
N
1
P
6
11
7
9 10
H
I
15
M
2G54 B42G55 E9
7
I2C-BUFFER
PACIFIC 3 : DISPLAY-INTERFACING
IRQ
F
A
WIRE BRIDGE
N
2G65
100p
47K
3GB
7
IG52
+3V
3
4K7
3GA
212
K
3GB
8
3018
4K7
4K7
3G54
4K7
33K
3GC
2
3G94
10K
10K
3G51
3GA1
10K
3G79
IGA3
9G49
7G58-2BC847BPN5
3
4
SDA03 SDA1 6
VCC
8
+3V3-STANDBY
7G50PCA9515A
EN5GND
4
NC1
SCL02 SCL1 7
RES9G80
1K0
+5V-ON
3GC
3
RE
S
6G55
BZ
X38
4-C
8V2
9G50
+12V
3G66
1K0
3GB0 100RFG83
3G60
100R
IGB9
6G50
BZX384-C5V6
3G89
47R
FGB1
FG51
FG80
IGA2IGA1
2G78
470p
3G88
IG83
47R
2G67
470p
5G55
2G54
220R
+3V3
100n
3G96
47R
2G59
27K
3G57
+12VTCON
RE
S1u
0
2G68
470p
IG61
RES9G79
3G67
10K
3G69
10K
RESPDTC114EU7G56
3G73
47K
+3V3
47R
3G81
+3V3
IGA5
10K
3GA
5
FG54
3G92
IGA6
10K
IGB8
IGB2
4
+5V-ON
7G61-2BC847BS
5
3
3G68
10K
1K0
3G62
1R0
3GC
4
+3V3
IG63
IG85
RES
9G59
IGB5
6G51
SML-310
100R
3GB5
15K
3G65
RES
47R
FG59
3G77
3G64
BC847BW
1
3
2
47K
7G65
FG57
FG58
12K
3GA6
IG74
4K7
3G72
FG56
2K2
3GA
0
IG59
9G53
47R
3G91
RE
S1u
02G75
IG51
7G54
9G55
SI3441BDV
100p
2G70
03101
IGB7
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
31
3GC8
RES
2G58
1u0
1K0
2
6
1
7G66-1BC847BPN
3G95
4K7
120R
5G51
2G55
470p
2G50
3G71
100R
100n
FG52
IG55
RE
S2K
2
100K
3G98
3GC
1
VDISP
2K2
3G61
RE
S
IGB4
+3V3
IG80
IG57
IG53
22K
+8V2-PAS
RE
S
3G70
10K
3GB9
IG70
BC847BPN2
6
1
7G58-1
+8V2-PAS
RE
S16
V10
u
2G76
IG56
2
61
BC847BS7G61-1
SI4835BDY7G52
RES
1
32
IGB3
7G51BC847BW
7G59-2BC847BS
5
3
4
BC847BW7G57
3G80
47R
IG82
2
6
1
+5V-ON
BC847BS7G59-1
5G50
120R
2G72
100p
1u0
2G79
100R3GA9
3G85
IG84
47R
3G86
47R
9G54
RES
IG62
9G52
3G99
100K
IG81
9G56
RES
100p
2G69
9G60
RES
3G50
10K
+3V3
3G58
4K7
7G66-2BC847BPN5
3
4
RES9G48
10K
3GA
4
IGBA
2G63
100p
3GA7 1K0
9G77
FG84
2G71
100p
5G56
220R
100n
2G60
100n
2G51
IG72
47K
3G55
IGB1
9G78
FG55
3G93
47R
+5V-ON
3GA8
100R
2G57
1u0
FG81
+5V-ON
IGB6
100p
2G66
IG54
3G84
47R
IGA4
IG58
IG71
3G63
47R 7G55BC847BW
13
2
BAV99S6G52-2
4
3
5
FG82
100p
2G64
3G78
47R
1G7012345
RE
S
1735446-5
FG50
47K
3G59
4K7
3GC0
+3V3
3G76
+3V3
RE
S47
R
3GA
3
2K2
6G52-1BAV99S
1
6
2
2K2
3G56
IG65
9G82
RES
BC847BW1
3
2
+3V3
7G53
CTRL1-MIPS_LCD-PWR-ON
LAMP-ON-OUTCTRL-DISP3
CTRL5-STBY_BACKLIGHT-BOOST
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
BACKLIGHT-BOOST
SCL-I2C4-DISP
SDA-I2C4-DISP
P3-VSBACKLIGHT-OUT
CTRL4-STBY_SELECT-PWM-ANA
SCL-AMBI-3V3
SDA-AMBI-3V3
CTRL1-STBY_LAMP-ON
SCL-AMBI
SDA-AMBI
CTRL4-P3
BACKLIGHT-OUT
BACKLIGHT-CONTROL
CTRL1-FPGA
CTRL3-STBY_POWER-OK-DISP
CTRL5-STBY_BACKLIGHT-BOOST
CTRL1-STBY_LAMP-ON
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
CTRL4-STBY_SELECT-PWM-ANA
ON-MODE
CTRL1-MIPS_LCD-PWR-ON
CTRL-DISP4
CTRL-DISP2
CTRL-DISP1
CTRL2-FPGA
CTRL3-FPGA
CTRL4-FPGA
SCL-I2C4-DISP
SDA-I2C4-DISP
SCL-SSB-MUX1
SDA-SSB-MUX1
18730_530_090918.eps090918
Circuit Diagrams and PWB Layouts EN 97PB52.2HU LA 10.
2010-Mar-05
SSB: Pacific 3
VIA
GN
D_H
S
SSCG_GND
PLL2_GNDAPLL1_GNDA
PLL2_GNDDPLL1_GNDD
PLL1_VCCA_2V5
SSCG_VCC_1V5
PLL2_VCCD_1V5
PLL2_VCCA_2V5
VD
D_1
V5
SU
PP
LYVD
D_3
V3
VDD_2V5
PLL1_VCCD_1V5
GN
D
COM
OUTIN
6543210
321
SCLSDA
0
PWM
GPIOA<19:0>
PD
PE
PE<7:9>
PF<0:9>
D
0
TRIGOUT
2
T1
TRSTTMS
TDITCK
MINTN
DEO
10
HSO
MSDAMSCL
SSDA
000102030405
VSOCLKO
TDO
1234567
TXDRDNRXD
987654
PSENWRN
SSCL
OSC_Z
OSC_CLK_I
RSTN
SISCKSOCS
VSI
C
OUTIN
INH BP
COM
D
C
S
W
HOLD
VSS
Q
VCC
1ACMPREFCMP1T1
1
6
INTCIN
SDAT0
P1<0:7>
CLKOUT
7
CMP2
X1
1B2A2B
VDD
RST
0
SCLRXDTXD
VSS
P0<0:7>
X2
P2<0:1>
VD
D_T
X_3
V3
3
GND
N
N
PN
PN
P
N
7654
ECLK
ERX4
VD
D_R
X_1
V5
B<9:0>
G<9:0>
R<9:0>
PWM
PA<0:9>
OTX0
N
PN
P
CLKI
NP
OTX1
NOTX2
HSI
N
OTX3
P
NP
PN
P
NP
NP
ETX1NP
PB<0:9>
ETX3NP
ETX2N
NP
PC<0:9>
N
ERX3
P
VD
D_T
X_1
V5
N
PP
ETX4NP
ETX5
ORX0
ORX1
ORX2
OCLK
ORX3
ORX4
ERX0
ERX1
ERX2
P
VD
D_R
X_3
V3
8
P
NP
OTX4
NP
OTX5
ETX0NP
2GH5 D6
2019
1
21018654321
2GG6 B6
20
F
P
1514
E
M
4 5 6 7
3GE7 C13
B
C
0186
8 9 10 11
E
2GE1 A42GE2 A42GE3 A42GE4 A52GE5 A52GE6 A52GE7 A52GE8 A62GE9 A62GF0 A62GF1 A6
3GG9 H13
MULTI 12NC : 3139_283_30162BD 12NC : 3139_283_30172
2GH6 E42GH7 E52GH8 E52GH9 E52GJ0 B122GJ1 G122GJ2 H112GJ3 G112GJ4 G112GJ5 E12GJ6 E22GJ7 E22GK0 B2
2GF2 A62GF3 A72GF4 B42GF5 B5
12 13 14
1 2 3
L
J
19
P
6GE2 H8
H
I
J
B
C
D
3GE8 C133GE9 E103GF0 C103GF1 C113GF2 D133GF3 D113GF4 D13
E
F
D
F
G
H
I
U16 A71GE0 G111GE1 B112GE0 A4
I
A
B
C
D
7GE2-3 E2
I
H
G
C
D
3GH0 H103GH2 I8
1 2 3 4 5 6 7 8 9 10 11
2GG1 D22GG2 D22GG3 A12GG4 A22GG5 A2
7GE5 B2
PACIFIC 3
Ais
pro
hibi
ted
with
out t
he w
ritte
n co
nsen
t of t
he c
opyr
ight
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
K
M
O
20
P
7
O
9
N
11
M
12 13 14
A
B
C
D
E
F
G
H
2GH0 B72GH1 D42GH2 D52GH3 D52GH4 D5
FGE7 D9
1615
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
14
owne
r.
K
18
2GF6 B52GF7 B52GF8 B52GF9 B62GG0 D2
3GE2 B83GE3 B113GE4 B113GE5 B83GE6 B8
FGG3 H11
17 18 19 20
B
AA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
par
ts
J
124 103
H
12
2GG7 C42GG8 C52GG9 C5
3GG3 E103GG4 H103GG5 H103GG6 H133GG7 H13
IGEA C13
1175
I
13
RESERVED FOR AMBILIGHT
1
1 2
FGE8 D9FGE9 D9FGEA D9FGEB C11FGEC D9
2GK1 B32GK2 B32GK3 C32GK4 B62GK5 B62GK6 B62GL1 A42GL2 B102GL3 B103GE0 A123GE1 A10
5GE4 C45GE5 D45GE6 D46GE0 G86GE1 H10
IGH1 D2
151413121110965 18 19
O
N
16
J3GF5 D113GF6 D133GF7 D113GF8 D113GF9 D113GFA C103GFB C103GFC C103GG0 D103GG1 D103GG2 E10
6GE7 B27GE0 G117GE1 C77GE2-1 E47GE2-2 B12
A
16 17 1813
L
11
N
985
I
H
M
3GH3 B33GH4 C23GH5 C23GH7 G103GH8 G103GH9 D104G10 C85GE0 C25GE1 A15GE2 A35GE3 B4
14
7GE3 D2
IGH8 B2IGH9 C1
87432
15 16 1713
L
E
D
C
G
F
E
owne
r.6GE3 H86GE6 B1
FGE1 A2FGE2 C11FGE3 C11FGE5 D9FGE6 E9
N
O
G
IGEB E13IGEC E13IGED E13IGEE B4IGEF C6IGEG D5IGF1 H9IGF2 H10
IGH7 B1
2 3 4 9
FGER D11FGES B6FGET C5FGG1 H13FGG2 H11
IGF8 H12IGF9 H12IGFA H12IGH0 B2
K
L
17
FGH0 C2FGH1 B3FGH2 D2IGE0 B10IGE1 C11IGE2 C11IGE3 D11IGE4 D11
G
F
P
6 7
B
A
K
9GE0 B139GE2 G12FGE0 C2
IGE5 E11IGE6 E11IGE7 E11IGE8 C13IGE9 C13
FGED D11FGEF D11FGEG D11FGEH E11FGEJ E11FGEK E11FGEL C13FGEM C13FGEN D13FGEP D13FGEQ D13
IGF3 H11
FGE6
2GG
8
10n
22R3GF7
4G10
220221222223224225
3GH
810
K
233234235
218
236237238239240241
219
150158
217
226227228229230231232
180184196201210
113118124130138144
3943657285
6166
110
167174
136147156176182190
21
197209
2433
57
54
56
59
58
12
94105111119
203208211216199
242
213
215
212
214
55
142152157163171175181186189195
5108112125131
10K
3GF
B
7GE2-3T6TF4HFG-0002
10n
FGEC
2GF
1
+3V3
IGF1
4K7
4K73GE7RES
3GF6
10n
2GH
3
2GH
0
100n
+3V3
1u0
2GH
6
47R3GG5
IGE2
+2V5-PF
600R
5GE1
FGE3
FGEJ
10n
2GG
610
n
2GE
8
IGF2
FGER
FGEQ
2GH
9
GND-RX
FGEP
10n
3GE1
100R
100n
2GJ1
5GE0
600R
1u0
2GG
3
10n
2GE
3
RES
3GF2 4K7
10p
2GJ4
2GE
5
10n
13043
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
10
2GG
2
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
32
3PC333
2062
4
115
10n
172
191193
192
204202
17320732051
153154155159160161162
168169170
135137139140141
143145146
148149151
120121122123126127128129132
133134
185187188
116
177
200198
164
165
117
MISC
7GE2-2
109
194
114
178179183
T6TF4HFG-0002
10n
2GE
9
2GL1
10n
2GF
4
4u7
IGF8
2GE
7
10n
3IN
2
OUT
10n
2GH
7
LD1117DT7GE5
GND
1
3GF9 100RFGE9
3GG0 100RRES
3GE9 100R
RES
2GE
0
1u0
+2V5-PFFGE1
2GH
8
FGEL
10n
15
5
47R3GG3
121110
98432
7
6
7GE0
120191817161413
4Kb OTP
ΦuC
P87LPC764BDH
FGE0
8
4
3
1u0
2GG
7
Φ512K
FLASH
M25P05-AVMN67GE1
6
5
7
2
1
10n
2GF
2
IGE6
IGED
220R
5GE4
3GF3
1
3
5
100R
LD3985M257GE3
4
2
FGE5
2GJ2
10n
FGEF
IGH1
FGG1
100n
2GK
0 3GE
24K
7
10n
2GK
5
79 91 64 73 88 104
484746
11 30 42 18 5063 70
9089
616266676869
535249
26
7574
7877
8180
8483
8786
19
910
1314
1516
2223
25
17 27 36 51 60 71 76 82 97
8
20
92
9695
9998
101100
103102
107106
29
3132
3435
4041
4445
93
7GE2-1T6TF4HFG-0002
LVDS
7
3837
28
2GJ3
10p
RES
10n
2GH
5
FGEM
FGEH
+3V3
GND-RX
10p
2GL2
10n
RES
3GE
0
47K
2GE
1
RE
S
IGEG5GE6
220R
2GK
3
1u0
10n
+3V3
+2V5-PF
2GF
0
IGH0
3GF
C
10K
GND-TX
FGH2
FGH1
5GE5
220R
60M 1G
E12
13
FGED
GND-TX
120R
5GE2
220R
5GE3
47R3GG4
2GF
5
10n
FGES
+3V3
2GF
9
10n
4K7
3GE
6
3GF
A
10K
10K
3GF
0
IGEB
10n
2GE
6
GND-RX
U16
3GH
3
1K0
FGET
GND-RX
2GG
5
10n
FGEB
10n
2GH
2
FGG3
IGEE
4u7
2GJ0
2GG
1
10n
120R
3GH
5
2GL3
10p RES
10n
2GF
8
10M 1G
E0
1M0
3GE
3
3GH9
10K
RES
3GE8 4K7
FGE7
IGEC
+3V3
10n
2GE
2
2GF
7
10n
IGEA
10n
2GJ7
10n
RE
S
2GE
4
9GE
0
3GH0
2K2
9GE
2
3GH
2
4K7
IGH9
10n
2GG
4
2GK
1
100n
2GF
3
10n
BA
V70
W6GE
0
120R
3GH
4
IGE0
IGF3
IGE3
6GE
2
BA
V70
W
FGEK
1u0
2GJ6
FGH0
6GE1
BAS316
100n
GND-TX
IGEF
2GJ5
FGE2
IGH8
1u0
2GH
1
2GF
6
10n
10K
3GH
7
FGEN
FGG2
2GG
9
100R
10n
3GF8
3GF5 100R
IGE1
IGE7
3GG1 4K7
4K73GF4FGE8
6GE7
STPS2L30A
3GF1 1K0
2GK
4
10n
GND-TX
3GE4
47R
STPS2L30A
6GE6 IGH7
FGEA
IGE8
RES
3GG7
4K7
IGE9
GND-RX
10n
IGE5
2GK
6
2GH
4
10n
FGEG
3GE
54K
7
47u2G
K2 4V
4K7 RES
3GG9
IGE4
GND-TX
IGF9
BA
V70
W6GE
3
1u0
2GG
0
GND-TX
47R3GG2
3GG6
1K0
IGFA
+2V5-PLL
+3V3-P3
P3-JTAG-TMS
P3-JTAG-TCK
+3V
3
+3V
3
P3-JTAG-TD-CON-PACIFIC
CTRL4-P3CTRL4-P3
PWM-3
PWM-OR
PWM-3
+3V3-P3
+3V
3
+3V
3
P3-JTAG-TRST
+3V3
+1V5
PWM-ORSDA-AMBI-3V3SCL-AMBI-3V3
+1V5-RX
+1V5-TX
CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3
+3V3-P3
P3-JTAG-TD-PACIFIC-PNX5050
SCL-SSBSDA-SSB
BACKLIGHT-CONTROL
+3V3-P3
+1V5-RX +1V5-TX
TXOA-
TXOB+TXOB-
TXOC+TXOC-
TXOCLK+TXOCLK-
TXOD+TXOD-
TXOE+TXOE-
TXEB+TXEB-
TXEC+TXEC-
TXECLK+TXECLK-
TXED+TXED-
TXEE+TXEE-
TXOA+
+1V5-PLL
+2V5-P3
TXEA+TXEA-
+1V5 +1V5-P3
RxP3oE-_G9RxP3oE+_G8
RxP3R0RxP3R1RxP3R2RxP3R3RxP3R4RxP3R5
+3V3-P3
+3V3-P3
RxP3HS_DE
RxP3oCLK+_B3RxP3oCLK-_B2
RxP3oA-_B9RxP3oA+_B8
RxP3oB-_B7RxP3oB+_B6
RxP3oC-_B5RxP3oC+_B4
RxP3oD-_B1RxP3oD+_B0
RxP3eA-_G7RxP3eA+_G6
RxP3eB-_G5RxP3eB+_G4
RxP3eC-_G3RxP3eC+_G2
RxP3eD-_R9RxP3eD+_R8
RxP3eE-_R7RxP3eE+_R6
RxP3VS
P3-VS
+2V5-PLL
+1V5-PLL
+1V5-P3
+2V5-P3
+3V3-P3
RxP3CLK
RxP3eCLK+_G1RxP3eCLK-_G0
RxP3FF
18730_531_090918.eps090918
EN 98PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: Control STI7100
C
1
1
1
SYSBSYSA
TXPTXNRXPRXNREF
ATA
CLKIN
DPDM
REF
C1AC2A
BYTECLKBYTECLKVALID
PACKETCLKERROR
BYTECLKBYTECLKVALIDERRORPACKETCLK
TSIN1
TSIN1DATA
01234567
BYTECLKBYTECLKVALIDERRORPACKETCLK
TSIN2
TSIN2DATA
4567
PIO5
01234567
PIO4
012345
TRIGGER
SYSITRQ
TSIN0
TSIN0DATA
01234567
01234567
PIO1
01234567
PIO0
USB
DAA
01234567
0123
SYSBCLKOSCSYSBCLKINALTSYSCLKOUTRTCCLKINTMUCLKRSETINWDOGRSTOUTASEBRK
INOUT
0123
NMI
TDITMSTCKTRSTTDO
67
PIO3
01234567
PIO2
11
1
A
L
11
C
MODE[7:4]
C
B
MODE[15]
STx71000 master/slave mode
EMI banks port size at boot
98
IA31 H9
5
Mode pin
MODE[16]
2 3
N
7
87
11
M M
EMIADDR[15]
PCMOUT4MODE[10]
D
C
B
A
IA21 D4
B
103
D
J
I7A12 C49A10 D11
H
MODE[14]
PLL0 startup configuration
9 10
9A21 C49A22 B8
IA22 D5IA23 B9IA24 B11IA25 F11IA26 F11IA27 G11IA28 C9IA29 C5IA30 H9
IA18 B7
4
H
G
F
E
D
1413
A
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
EMIADDR[2:1]
EMIADDR[13:12]
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
owne
r.
H
G
4
Reserved
E
O
IA19 A3IA20 B7
7A10-3 C5
18
O
K
J
1110
7A10-4 C27A10-5 C27A10-6 D2
13 17
9A11 D119A12 D119A13 E119A14 E119A15 E119A20 D4
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
FA10 C6FA11 C9IA10 D9IA11 C9IA12 C9IA13 C9IA14 C9IA15 B9IA16 B8IA17 C4
7A10-2 C4
EMIADDR[10:9]
PCMOUT3
O
P
201918171615
3A25-3 C83A25-4 C8
Purpose
125 6
3A29-4 E33A30-1 F3
1615
65
J
4 5
L
3A35 H3
K
15143
MODE[3:2]
MODE[1:0]
EMIADDR[4:3]
EMIADDR[14]
MODE[12:11]
1 21 2 3 8
A
3A36 G33A37 D113A38 D123A39 G93A40-1 H33A40-2 H33AM0 A75A10 A27A00-4 B107A10-1 B2
20
3A17 C8
M
N
3A20-2 A83A20-3 A93A20-4 A93A21 A83A22 C83A23 C73A25-1 C83A25-2 C8
PLL1 startup configuration
Long resetout mode
3A26 C53A27 B73A28 B73A29-1 E33A29-2 D33A29-3 E3
MODE[9:8]
3A10-1 A8
3A30-2 F33A30-3 F33A30-4 E33A31-2 G33A31-3 F13A31-4 H33A32-1 G33A32-3 H33A33 B113A34 F11
13 14
Reserved
RES
17 18 19 206 71 2
5 6
9
P
O
N
A
B
14
3A13 C83A14 B83A15 D83A16 A6
19
F
I
1
P
3A18 B73A19 H1
F
G
RES
PCMOUT2
126 7
MODE[13]
Reserved
I
H
7 8
3A10-2 A53A10-3 A53A10-4 A53A11 H93A12 H9
I
9 10 11 12
G
F
15 16
CONTROL STI7100
EMI pin
2 3 4
C
D
7 8 9 10 11 12
2A19 A22A20 A3
C
D
E
F
G
B
C
D
E
P
13
Reserved
M
N
1 2 3 4 5 6
2A25 G11
MULTI 12NC : 3139_283_30162
9 10 11 12
1
4
BD 12NC : 3139_283_30172
J
K
2A21 C62A22 B7
16 17
A
B
L
E
F
G
H
1A10 B72A18 A2
V_LVC04
18 19 20
8
L
12
Reserved
EMIADDR[8:5]
E
H
2A23 B72A24 G11
IA20
IA19
10K
3A30-2RES
2 7
IA12
IA17
IA13
IA10
2A20
1n0
1K5
3A33
3A30-1
10K
RES1 8
9A14
10K3A10-3
3A30-4RES
4 5
10K
IA28
IA18
100n
2A19
10K
81
RES
4 5
3A10
-1
3A31-4
10K
3A26
RE
S
68R
15p
2A21
RES
1 8
14
12
10K
3A32-1
7A10-6
13
7
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
03101
74LVCU04APW
+3V3
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
33
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
IA15
IA23
2A24
10n
9A11
3A20
-22
7
10K
470R
3A34
RES
1 8
2 7
3A40-1
10K
10K
3A40-2RES
3A25-1
FA11
10K
RES
2 73A29-2
10K
10K
3A29-1RES
1 8
3A21
10K
27M
1A10
IA29
10K3A10-4
3A29-3
10K
RES
3 6 9A15
3A11
47R
10K
3A16
V_LVC04
3A17 10K+3V3
9A22
10K
3A15
IA16
10K
45
3A20
-4
47R
3A12
4
3
9A1027M
7A12
2
1
+3V3
2560TK
10K
3A36RES
10
IA30
7A10-5
117
1474LVCU04APW
560R
3A28
RES3A35
10K
3A39
10K
V_LVC04
+2V6-MP4
2A25
10n
22R3A14
33R3AM0
2A23
18p
3A18 10K
6
IA26
5
714
+3V3
74LVCU04APW7A10-3
RES
3 6
10K
3A32-3
3A27
1M0
3A37 100R
IA14
RES
10K
3A31-3
3A38
10K
74LVCU04APW7A10-2
3
7
14
4 FA10
RES
3 63A30-3
10K
IA25
IA11
AL1AL3
AP2AP3
AP25AN25
AM25
E19
AA4
AE4AF4
AM3AN3
AP1AN2AN1AM2AM1AL2
AJ4
AG5AF5
AE5AD4AD5AC4AC5AB4AB5
AK6AJ5
AH5AG4AK1AK2AJ1AJ2AH1AH2
AH4
AK25AK26AK27AK28
D21
D22
E22
E21
E18
D17D18
Y33AA31
Y30Y31
D16
C1AP27
E27AN27
E17
AD30AD31AC30AC31AB30AB31AA30
AB33AA34AA33
Y34
AE31AE30
AE32AE34AE33AD34AD33AC34AC33AB34
AD32
AJ34AJ33AH34AH33
AJ30AJ31AH30AH31AG30AG31
AP33AN33AP34AN34AM33AM34AL32
AL34AL33AK34AK33
AP31AN31AP30AN30
AN5AP5
E16
E20
D19
D20
AM32
INTERFACEDIGITAL
ΦSTI7100YWC
7A00-4
AM30
10K
3A19RES
9A12
RES
4 5
RES
3A29-4
10K
3A31-2
10K
RES
2 7
+3V3
10K3A13
3A23 47R
3A25-4 10K
+3V3
9A20
RES9A21
10K3A25-2
18p
2A22 IA24
IA27
5A10
220R
IA22
3A22
10K
IA21
+3V3
IA31
10K3A25-3
3A10-2 10K
7A10-174LVCU04APW
1
714
2
7A10-474LVCU04APW
9
714
8
36
10K
3A20
-3
2A18
100n
RES9A13
CPU-27MHZTMUCLKCPU-notRESET
RESET-ST7101
V_LVC04
JTAG-TRSTn
CPU-27MHZ
TRIG-IN
27MHZ-3V3
PCMOUT2
PCMOUT3
WP-FLASH-ST
CPU-I2C-SDA
SCL-SSB CPU-I2C-SCL
EMI-A(13)
EMI-A(12)
EMI-A(14)
EMI-A(15)
EMI-A(4)
EMI-A(1)
EMI-A(2)
CPU-I2C-SCLCPU-I2C-SDA
PDRX-DDC-SCLPDRX-DDC-SDA
SDA-SSB
27MHZ-3V3
EMI-A(14)
JTAG-TDIJTAG-TMSJTAG-TCK
JTAG-TDO
EMI-A(3)
EMI-A(8)
EMI-A(7)
EMI-A(6)
EMI-A(5)EMI-A(10)
EMI-A(9)
PCMOUT4
FE-DATA7
FE-SOP
CPU-I2C-SCLCPU-I2C-SDA
ASEBRKn
TRIG-OUT
RXD-ASC2TXD-ASC2
FE-VALID
FE-DATA0FE-DATA1FE-DATA2FE-DATA3FE-DATA4FE-DATA5FE-DATA6
CLK_REF
DVID0DVID1DVID2DVID3DVID4DVID5DVID6DVID7
TXD-ASC3RXD-ASC3
JTAG-TCK
JTAG-TDI
JTAG-TDO
JTAG-TMS
FE-CLK
18730_532_090918.eps090918
Circuit Diagrams and PWB Layouts EN 99PB52.2HU LA 10.
2010-Mar-05
SSB: Flash STI7100
C
2
EMIDATA
EMIBUSEMI
EMI
EMI
EMI
EMIADDR
EMIDMAREQ01
REQGNT
151617181920212223
EMIFLASHCLK
5
NCNC
76543210
RDNOTWR
READYORWAIT
BAALBA
CSACSBCSCCSDCSE
BE0BE1
OE
89101112131415
1
6
1413121110
987
34
21
2
CE
76
WERP
10
BYTE
3
64M-1
5
89
101112131415
A-1
10
4
9876
0
0A
D
5
11
21
17
OE
12131415
VPP/WP_
201918
16
RB
43
1197
2 1312111098
1 2 3 4 5 6 7 8 9
J
2
1
4
A
D
C
132 3 4
8
6543
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 76
3A53-1 B93A53-2 B9 3A53-4 C6
8
3A55 B5
6
I
FLASH
F
H
B
C
D
E
5432 321
3A56 B63A57 C6
3A58 C67A00-2 A7
7A50 B29A51 C6
FA50 D3FA51 D4
1
IA51 C6
3
IA53 C6
E E
F
G
H
A
B
C
DD
C
B
A
J
I
H
G
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
IA54 C6IA55 B8
3A53-3 B9IA57 B8
3A54 C5
F
B
Aow
ner.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 7
7654
12111098
131211109
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
FA52 D1
E
IA52 C6
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
1312
5 6 7 8 9
A
B
C
D
A
B
C
D
2A50 A33A50 D3
3A51 B53A52 C1
H
G
5
IA56 B8
10
I
G
F
J2009-07-282
03101
ROYAL PHILIPS ELECTRONICS N.V. 20082009-05-15
34
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
-- -- --
10K
3A54
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV
IA52
47R
3A56
10K
3A55
IA55
3A58 47R
AP10
47R
3A57
L31AM31
AP21
AP11AN11
AK9AL8AM8AP8AK8
AP22
AN21
AN10
AK22
G5AM5AL6AP9
AN9A29C30
AN12
AP18AP17AP15AP14AP13AP12AN20AN19
AN22AL22
AK13AL13
AM21AM20
AP20AP19
AN18AN17AN15AN14AN13
AK10
AK20AL20AK21AL21
AL10AK11AL11AK12AL12
AL9
AK14AL14AK15AL15AK17AL17AK18AL18AK19AL19
11
7A00-2STI7100YWC
ΦEMI
42443032
28
1512
37
14
27 46
31
343639414345
33353840
222120191887
4726
29
3214817169
23
1013
EPROM8Mx8/4Mx16
2524
654
7A50M29W640FT70N6F
+3V3
+3V3
+3V3
+3V3
6 310K3A53-3
3A51
10K
IA56
IA51
+3V3
FA52
+3V3
FA51
10K3A53-44 5
IA54
2A50
100n
3A53-1 10K8 1
9A51
10K
3A52
7 23A53-2 10K
+3V3
FA50
IA57
IA53
10K
3A50
EMI-A(12)EMI-A(11)EMI-A(10)
EMI-A(9)EMI-A(8)EMI-A(7)EMI-A(6)EMI-A(5)EMI-A(4)EMI-A(3)EMI-A(2)EMI-A(1)
EMI-RB
EMI-D(8)EMI-D(7)EMI-D(6)EMI-D(5)EMI-D(4)EMI-D(3)EMI-D(2)EMI-D(1)EMI-D(0)
EMI-WRnot
EMI-OEnot
EMI-A25EMI-A26
EMI-FLASH-CSnot
EMI-A(23)EMI-A(22)EMI-A(21)EMI-A(20)EMI-A(19)EMI-A(18)EMI-A(17)EMI-A(16)EMI-A(15)EMI-A(14)EMI-A(13)
FLASH-notRESET
EMI-A(20)EMI-A(19)EMI-A(18)EMI-A(17)EMI-A(16)EMI-A(15)EMI-A(14)EMI-A(13)EMI-A(12)EMI-A(11)EMI-A(10)EMI-A(9)EMI-A(8)EMI-A(7)EMI-A(6)EMI-A(5)EMI-A(4)EMI-A(3)EMI-A(2)EMI-A(1)
EMI-D(15)EMI-D(14)EMI-D(13)EMI-D(12)EMI-D(11)EMI-D(10)EMI-D(9)
FLASH-notRESET
EMI-A(22)EMI-A(21)
EMI-RB
EMI-D(11)EMI-D(12)
EMI-D(4)
EMI-D(15)EMI-D(14)EMI-D(13)
EMI-D(10)EMI-D(9)EMI-D(8)EMI-D(7)EMI-D(6)EMI-D(5)
EMI-D(3)EMI-D(2)EMI-D(1)EMI-D(0)
EMI-FLASH-CSnotEMI-OEnotEMI-WRnot
WP-FLASH-ST
18730_533_090918.eps090918
EN 100PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: DRAM STI7100
D
A
DQSLU
11
456
123
CK
DMUL
VREF
10
CK
4
BA
CS
512
2
CASWE
15
RAS
0
CKE
VSS
9
1413
VSSQ
VDDQVDD
710
NC
6
12
8
10
1011
AP
3
789
LMISYSDATASTROBE10
LMISYS
VREFCLKEN
REFGNDBCOMP
LMIVID
56789
0
121314
161718192021222324252627
1516171819
01234567891011
01
LMIVIDBKSEL
89
101112
0123456
12
10
3
2928
01234
CASWE
CLKCLK
1112131415
25262728293031
LMISYSDATA
LMIVIDDATA
LMIVIDDATASTROBE
32
10
3031
0123
VREFCLKEN
REFGNDBCOMP
CS0CS1RAS
34567
LMISYS
CLKCLKCS0CS1RASCASWE
LMIVID
012
789
101112
LMISYSADD
LMIVIDADD
LMISYSDATAMASK
0123
LMIVIDDATAMASK
LMIVIDBKSEL
2021222324
C
D
A
DQSLU
11
456
123
CK
DMUL
VREF
10
CK
4
BA
CS
512
2
CASWE
15
RAS
0
CKE
VSS
9
1413
VSSQ
VDDQVDD
710
NC
6
12
8
10
1011
AP
3
789
1 2 9
21
J
K
L
M
F
G
3 4 5
E
J
I
H
G
10
F
E
32
P
O
N
D
C
J
I
H
G
10 113 4 5 6 7 8 19 20
B
43
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
FAA2 H12FAA3 H12
IAA3 F10IAA4 F11IAA5 F10
1 2
A
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
14131211 1576
3AA7-4 F7
LMI DDR SDRAM SYS
1
3AA8-2 F83AA8-3 F83AA8-4 F8
B
3AAB B43AAC B93AAD H113AAG F113AAH F113AAK G8
18
F
E
D
C
3ABN F11
7AA1 A57AA2 A10
3AA1-1 D7
13
IAA0 D1
171110
H
I
3AA1-4 D73AA2-1 D83AA2-2 E83AA2-3 E83AA2-4 E83AA3-1 E7
2019181716
3AA6-1 F8
98
3AA6-4 F83AA7-1 F7
54
E
3AA8-1 F8
16
P
20
M
L
N
18
12 13 14 1512 13 14 15 16 17
3AAS I113AAT I113ABK F113ABL F113ABM F11
2AB7 E4
5AA0 D17A00-3 D9
2ABA H122ABB A12
FAA0 B3FAA1 C2
E
A
12
D
E
IAA6 I11IAA7 I10
H
I
B
C
D
N
O
P
2AB2 E32AB3 E32AB4 E42AB5 E42AB6 E4
G
3AA6-2 F83AA6-3 F8
A
B
3AA7-2 F73AA7-3 F7
2AAB I122AAE D2
2 3 4
3AA9 G73AAA H11
7 8 9 10 11 12
3AAL G73AAM G83AAN B23AAP C23AAQ D133AAR I11
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
owne
r.
K
A
2AAP D4
11
2AB8 H112AB9 H12
A
B
2ABC A72ABG D2
9 10
B
3AA1-2 D73AA1-3 D7
K
J
F
G
H
I
16 17 18 19
LMI DDR SDRAM SYS
2AB1 E3
6 7 8 9
F
2AA2 A10
H
I
2AA7 C22AA8 C3
C
D
3AA5-2 E73AA5-3 E7
2AAF D22AAG D2
2AAS D42AAT D4
19
O
2AAW E52AAZ E32AB0 E3
14 15
2AAH D3
P
O
N
M
L
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
1 13
1 2 12 135 6
C
D
C
20
2AA0 A62AA1 A6
10 11
F
G
7 8
M
L
6 7
5
8 9
3AA3-2 E73AA3-3 E73AA3-4 E73AA4-1 E8
2AA3 A112AA6 C2
3AA4-2 E83AA4-3 E8
2AA9 C82AAA D1
3AA4-4 E83AA5-1 F7
3AA5-4 E7
2AAR D4
2AAU D52AAV E4
5 6
2AA
6
10u
2AAJ D32AAK D32AAL D32AAM D32AAN D4
DRAM STI7100
3 4
100n
2AA
N
22R3AAK
3AAT 120K
LMI-VREF-ST
1n0
2AB
6
2V5-LMI
3AA5-2 22R7 2
10u
2AB
8
3ABM
1K0
3AA
N
1%
2AA
P
100n
3AAG
4
22R
22R5
22R3AA4-1 8 1
3AA4-4
2AA
W
1n0
3AA2-1 1 8
52 58 64
21
22R
15 55 61
49
34 48 66 6 12
435053
23
47
51
1 18 33 3 9
11135456
20
16
14171925
4
575960626365
578
10
3940
2627
22
4544
46
24
2
2930
284142
313235363738
7AA2EDD2516AETA-6B-E
DDRΦ
16Mx16SDRAM
3 22R3AA4-3 6
220R
5AA0
2AA
K
3
100n
22R3AA6-3 6
4 53AA7-4 22R
1n0
2AB
7
IAA0
100n
2AA
G
100n
2AA
J
100n
2AA
L
2AA
7
1n0
2AB
4
1n0
2AA
H
100n
100n
2AB
G
8 13AA3-1 22R
3AAH 120K
100n
2AA
B
2AA
8
100n
2V5-LMI
2AB
5
1n0
IAA7
3AA7-2 22R2 7
D15
B13D11E11E14
E15
B7
B11B12
C11
J4
U2L4M5K5
J5
A17B17A1B2
B18B6
A19A6
A18A5B19
B8A8B9A9B10
B15
A10A11
A16B16
B5A20B20A21B21
A15
A22B22A23B23A7
D14E13
A13
D13
A14B14
A2B3A3B4A4
E8D7
E9D9D6E6D5E5D4E7
K2
AB1J2AC2K1
R2R1
H5
E10D10
D8
P2P1
Y1Y2AA1AA2E2E1
AB2J1
AC1
AF2AG1AG2L2L1M2M1N2N1
W2
F1G2G1H2H1AD1AD2AE1AE2
W1
AF1
V4W5W4U5
K4L5
U1
Y5
V1V2
F2
ΦLMI
M4N5
P4T5T4
N4P5U4V5
STI7100YWC7A00-3
22R3AAL
2AA3
22u22u
2AA2
IAA3
3AA
P
1K0
1%
5 43AA5-4 22R
33AA3-3 22R6
2AA
9
LMI-VREF
1n0
2 7
2
3AA8-2 22R
3AA6-2 22R7
3ABN
2AB
1
1n0
1K0
3AA
S
2AB
C
2V5-LMI
22u
2AA
R
100n
LMI-VREF-ST
2V5-LMI
8 1 22R3AA5-1
22R3AA6-1 8 1
3AAM 22R
1 8 22R3AA8-1
3AA
R
1K0
2V5-LMI
3AAC 390R
2AB
0
1n0
IAA4
2009-07-31
2
3
2009-05-15
A2
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
35
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
22R3 6
13010
2 2009-07-28
-- -- --
3AA2-3
3AA1-4 4 5
FAA2
22R
3AA
A
1K0
1%1%
1K0
3AA
D
FAA1
FAA0
3AA6-4 22R5 4
2V5-LMI
IAA6
2AA
E
100n
3 6 22R3AA7-3
2 73AA2-2 22R
LMI-VREF
+2V6-MP4
3AA4-2 22R7 2
48 66 6 12 52 58 64
21
18 33 3 9 15 55 61
49
34
14171925435053
23
47
51
1
578
1011135456
20
16
4544
46
24
24
575960626365
32353637383940
2627
22
SDRAM16Mx16
Φ2930
284142
31 DDR
EDD2516AETA-6B-E7AA1
2AB
B
22u
2AA
T
100n
3AAB 390R
1 8 22R3AA7-1
1n0
2AB
3
22R3AA5-3 6 3
120R
3AAQ
3ABL
1n0
2AB
9
3AA9 22R
100n
2AA
S
IAA56 22R3AA8-3 3
FAA3
3AA1-3 22R3 6
1 83AA1-1 22R
2AB
2
1n0
1n0
2AA
Z
100n
2AA
U
3AA8-4 22R4 5
2AA
F
3AA2-4 4 5
100n
22R
7 2 22R3AA3-2
3ABK
2AA0
22u
1n0
2AA
V
22R3AA1-2 2 7
2AA
M
100n
100n
2AB
A
3AA3-4 5 4 22R
2AA1
22u
100n
2AA
A
LMI-CLK
LMI-CLKnotLMI-CLKnot
LMI-A(6)LMI-A(5)LMI-A(4)LMI-A(3)LMI-A(2)LMI-A(1)LMI-A(0)
LMI-D(13)LMI-D(12)LMI-D(11)LMI-D(10)LMI-D(9)LMI-D(8)
LMI-DQS3LMI-DQS1
LMI-WEnotLMI-CASnotLMI-RASnotLMI-CSnotLMI-CLKENLMI-CLKLMI-CLKnot
LMI-DQM3LMI-DQM1
LMI-BA1LMI-BA0
LMI-A(12)LMI-A(11)LMI-A(10)LMI-A(9)LMI-A(8)LMI-A(7)
LMI-D(31)LMI-D(30)LMI-D(29)LMI-D(28)LMI-D(27)LMI-D(26)LMI-D(25)LMI-D(24)LMI-D(15)LMI-D(14)
LMI-A(1)LMI-A(0)
LMI-WEnot
LMI-RASnot
LMI-DQM0LMI-DQM1LMI-DQM2LMI-DQM3
LMI-VREF2-ST
LMI-A(9)LMI-A(8)LMI-A(7)LMI-A(6)LMI-A(5)LMI-A(4)LMI-A(3)LMI-A(2)
LMI-BA1LMI-BA0
LMI-A(12)LMI-A(11)LMI-A(10)
LMI-CLK
LMI-CLKENLMI-D(25)
LMI-DQS0LMI-DQS1LMI-DQS2LMI-DQS3
LMI-D(30)LMI-D(31)LMI-D(28)LMI-D(29)LMI-D(26)LMI-D(27)LMI-D(24)
LMI-D(21)LMI-D(20)LMI-D(19)LMI-D(18)LMI-D(17)LMI-D(16)
LMI-D(14)LMI-D(13)LMI-D(12)LMI-D(11)LMI-D(10)LMI-D(9)LMI-D(8)LMI-D(23)LMI-D(22)
LMI-D(4)LMI-D(3)LMI-D(2)LMI-D(1)LMI-D(0)LMI-D(15)
LMI-CASnot
LMI-CSnot
LMI-D(7)LMI-D(6)LMI-D(5)
LMI-D(6)LMI-D(7)
LMI-D(16)LMI-D(17)
LMI-DQM0
LMI-DQS0LMI-RASnot
LMI-DQM2
LMI-DQS2
LMI-WEnot
LMI-A(0)LMI-A(1)
LMI-A(10)LMI-A(11)LMI-A(12)
LMI-A(2)LMI-A(3)LMI-A(4)LMI-A(5)LMI-A(6)LMI-A(7)LMI-A(8)LMI-A(9)
LMI-BA0LMI-BA1
LMI-CASnot
LMI-CLKLMI-CLKEN
LMI-CLKnot
LMI-CSnot
LMI-D(0)LMI-D(1)
LMI-D(18)LMI-D(19)LMI-D(20)LMI-D(21)LMI-D(22)LMI-D(23)
LMI-D(2)LMI-D(3)LMI-D(4)LMI-D(5)
18730_534_090918.eps090918
Circuit Diagrams and PWB Layouts EN 101PB52.2HU LA 10.
2010-Mar-05
SSB: Interface STI7100
C
R0OUTG0OUTB0OUT
IDUMPR0
VIDDIGOUT
VIDDIGOUTYC
AUDANA
AUDANAOUT
AUDOUT
IDUMPY1
REXT0REXT1
GNDAREXT0GNDAREXT1
VIDANA
VIDANA
VIDANA
VIDANA
VIDANA
VIDANA
TMDS
AUDDIGAUDPCMOUT
TX0PTX0NTX1PTX1NTX2PTX2N
TMDSREF
DATAINDSTRBIN
DLRCLKIN
012
HSYNC
VBGFILIREF
SCLKLRCLKPCMCLK
4
SPDIF
PLEFTMLEFT
PRIGHTMRIGHT
VSYNC
0123456789101112131415
IDUMPG0IDUMPB0
C1OUTCV1OUT
Y1OUT
IDUMPC1IDUMPCV1
3
TXCPTXCN
I
IAC3 D4IAC4 D2IAC5 D2
F
H
7 12
8
I
H
I
H
G
J
3
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
owne
r.
6
3AC5 D43AC6 B6
D
C
IAC2 C4
1 7
1
H
G
FAC2 C7FAC3 C6FAC4 C6FAC5 C6IAC1 C7
4
3
2
5
1
65
3AC7 C63AC8 C7
B
A
J
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
111098
D
I
1110987
75
A
G
F
G
F
13
E
98
1312
2AC3 C7
6543
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 765
2
F
4
J
43
3AC9 E43ACA C63ACB C63ACC E4
7AC0 C6FAC0 E4FAC1 B6
12
8
A
B
C
E
A
B
C E
D
C
B
A
4
C
6
B3AC4 D4
6543
E
D
C
B
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
10
E
2AC0 D22AC1 B62AC2 C6
1110
COMPENSATION RESISTOR
RES
D
1
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
E
21
J
2 3
3AC1 D13AC2 C4
7A00-1 B3
98
13
7
3AC3 C4
A
11
D
2
2 1312
FAC4
3AC3
22K
100R
3ACC
1K0
3AC
7
2K2
3AC
BIAC2
IAC3
FAC5
IAC5
+3V3TMDS
03101
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A3
2009-05-15
-- -- --
2009-07-282
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
36
2AC0 1u0
12K
3AC2
1K2
3AC
6
+3V3
180R
3AC
A
7AC0BC847BW
IAC4
22K
3AC5
12K
3AC4
H33U30T31
R31R30P31P30N31
K34K33J34J33H34
D33
B33
D34
A31A32
B34
M33M34
L34L33
T30
E34
A34C34
F34
B31B32
E33
A33C33
F33
E24D24
T32
T34T33
R34R33
P34P33
U34U33
C28
D29
E28D28
E26D26
A25B25C25D25E25
C27
B27
B28
A27
A28
INTERFACEAVΦ
7A00-1STI7100YWC
100n
2AC2
FAC2
FAC1
FAC3
3AC1 470R
FAC0
IAC12AC3
100n68R
3AC8
+3V3
100R
3AC9
+3V3
1u0
2AC1
PCMOUT2PCMOUT3PCMOUT4
DRXC+DRXC-DRX0+DRX0-DRX1+DRX1-DRX2+DRX2-
18730_535_090918.eps090918
EN 102PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: Power STI7100
USB2
SATA-I
TMDS
VDAC
ADAC
CLOCKGENA
CLOCKGENB
CLOCKGENC
LMI
ANALOG
LMISYSDLL_VDD
LMISYSVDDE2V5
CKGB_4FS1_VDDDVDDE2V5_4FS_ANAAVDDPLL80v0DVDDPLL80v0VDDE2V5_PLL80_ANA
FS0_VCCAFS0_VDDDVDDE2V5_FS0_ANA
LMIVIDVDDE2V5
TMDSVDD
CKGB_4FS0_VDDDCKGB_4FS0_VCCA
CKGA_PLL_VDDE2V5CKGA_PLL2_DVDDPLL1V0CKGA_PLL2_AVDDPLL2V5CKGA_PLL1_DVDDPLL1V0CKGA_PLL1_AVDDPLL2V5
VDDE2V5_AUD_ANAAUD_VCCA
VDDE2V5_VID_ANADA_SD_0_VCCADA_HD_0_VCCA
TMDSVDDE3V3TMDSVDDD
CKGB_4FS1_VCCA
TMDSVSSCKTMDSVSSC2TMDSVSSC1TMDSVSSC0
SATAVSSDLLSATAVSSOSCSATAVSSREF
SATAVSSRSATAVSST
USBVSSPUSBVSSP2V5
USBVSSBSUSBVSSC2V5
LMIVIDDLL_VDD
USBVDDBC2V5USBVDDBSUSBVDDP2V5USBVDDP
SATAVDDT0SATAVDDT1SATAVDDR0SATAVDDR1SATAVDDREFSATAVDDOSC2V5SATAVDDOSCSATAVDDDLL
TMDSVDDC0TMDSVDDC1TMDSVDDC2TMDSVDDCKTMDSVDDPTMDSVDDXTMDSVDDSL
GND_ANA2GND_ANA1
LMIVIDDLL_VSSLMISYSDLL_VSS
GNDE_FS0_ANAFS0_GNDDFS0_GNDA
GNDE_PLL80_ANADGNDPLL80v0AGNDPLL80v0
GNDE_4FS_ANACKGB_4FS1_GNDDCKGB_4FS1_GNDACKGB_4FS0_GNDDCKGB_4FS0_GNDA
CKGA_PLL2_DGNDPLL1V0CKGA_PLL2_AGNDPLL2V5CKGA_PLL1_DGNDPLL1V0CKGA_PLL1_AGNDPLL2V5
GNDE_AUD_ANAAUD_GNDAS
AUD_GNDA
GNDE_VID_ANADA_SD_0_GNDADA_HD_0_GNDA
TMDSGNDETMDSVSSD
TMDSVSSSLTMDSVSSXTMDSVSSP
GNDE 3V3
GNDE
VDDE 2V5
VDDE 3V3
C
VDD
GND
H
D
C
B
A
5AE0 E11
A
B
7A00-5 A10
J
K
11
E
F
G
H
B
L
M
N
8
2AE1 B2
15
P
O
2
IAE5 E14
4 5
13121110
G
2AGN F32AGP H11
2AGT G4
43
5AE2 D1
5 6
5AE9 G4
6 7
7A00-6 A137A00-7 A6IAE1 C2
IAE2 D2
N
M
L
J
12 13 14
A
20
IAE8 G52AE9 H9
G
H
2
2
2AE2 C22AE3 F4
IAE3 E4IAE4 D2
7 8
IAE6 B12AE8 C2
C
D
O
P
2019
I
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
765 16
C
F
1
1 2 3
K
L
8 9 10 11 12 13 14 15
I
18
F
E
10987
K
O
1
1
2AF5 D22AFE F122AFF F12
9
P
181714
B
A
K
owne
r.
9
D
E
10 15 16
M
2AG4 F2
917161
181712 13543
9
N
20
12
3 4 5 6
3 4
2AFG F132AFH F13
O
N
M
L
J
I
H
G
D
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
B2AE7 C2
19 20
2AEA H9
G
H
I
J
2AEF B2
2AEG B2
17 18
2AG5 F2
2AG6 F22AG7 F22AG8 F3
2AG9 F32AGA F32AGB F3
2AGC E2 2AGH H4
11
5AE4 E15AE5 H45AE7 E1
5AE8 C1
6 15 16
P
11
2AEP B32AER H11
01H 8FA29H TEA22AFB F122AFC F12
2AFD F12
2AEZ H9
2AF0 H102AEH G42AEJ B3 2AFJ F13
2AFK F132AFL H102AFN B3
2AFP B42AFQ B42AFR B4
2AFS H11
F
E
2AFY F2
C
2AEE B2
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
2AEK B3
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
2AEM H10
2AEN B3
H
A
11 12 13 14
C
D
E
2AF4 D2
D
E
F
G
1 2 3 4
2AGD E22AGG H4
F
19
2AEL H9
14
6 7 8
B
13 14
1 2
POWER STI7100
7 8 9 10
5
2AFT H112AFW F1
C
10
2AE4 F42AE5 H82AE6 H8
2AEU H102AEB C22AEC F11
2AED B2
2AF
Q
1n0
2AF
R
1n0
1n0
2AG
8
2AF
T
100n
2AE
C
1n0
+1V1
100n
2AF
K
VDDE-2V5
1n0
2AE
P
22u
2AF
8
100n
2AE
3
2AE
H
100n
IAE1
+2V5-CLKGENA
100n
2AF
0
2AE
6
1n0
+2V6-MP4
+3V3
2AE
U
100n
1n0
2AF
C
1n0
2AG
H
VDDE-3V3
100n
2AF
H
VDDE-2V5
+1V1
+2V5-CLKGENA
VDDE-2V5
10u2A
E1
2AE
Z
1n0
10V
VDDE-3V3
1n0
2AE
B
1n0
2AF
P
+1VTMDS
100n
2AE
M
1n0
2AG
T
1n0
2AE
9
1n0
2AE
5
30R5AE9
VDDE-2V5
2AG
G
100n +1V1
2AF
J
100n
2AF
Y
100n
+1V1
+3V3TMDS
2AG
9
1n0
100n
2AE
7
IAE45AE7
30R
2AF
D
1n0
2AG
B
100n
220R
5AE4
2AG
7
+3V3
1n0
2AE
4
VDDE-2V5
E31
E29
H32
VDDE-2V5
22u
AL24AM24AL25
AP24AN24
AL23AN23
AP23AM23
G32
D31
AC32
AA32W33
N34N33V34V32
N32
P32
U32V33
AM27
AP28
R32V31
W31Y32W34W32
AB32W30
AL29AL26AM26
AM29AL28AL30
AN29AP29
AM28AL27
AN28
C12
C4
E12
C5C6C7C8C9C10C13D12
AC3
T2U3V3W3Y3Y4AA3AA5
A12
F31
E32
F32
K32
J32
D27M32
H4
G3T1
AB3
H30
C32D30F30E30
K31K30
C31G31
C29G30
E3E4C3
M31J31M30
J30 L32H31L30
D32
A30B30
B29
N30
D1B1D3F3D2C2
ΦPOWER (MISC)
STI7100YWC7A00-7
2AE
R
100n
100n
2AF
F
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
2009-05-15
-- -- --
2009-07-282
03101
3
2
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
37
3PC333
43
1u0
2AE
D
IAE2
2AF
G
100n
2AE
2
100n
100n
2AF
5
2AE
J
100n
2AE
A
100n
+1V1
+1V1
1n0
2AG
C
G34AF31AF32AF33AF34
AM10AM11AM12AM13AM14AM15AP7
B26
AN8
C26G33
C16C17C18C19C20
AK3AK7
A26
AK23AK24AM9
AP6
AG32AG33AG34AJ32AK32AH32
U31V30
C15
AE3AF3AG3
C14
AH3AJ3
AM4AM6AN4AN6AP4
K3L3M3
B24
N3P3R3R4R5T3
AD3
A24
C21C22C23C24D23E23
J3
(2V5, 3V3)POWER
Φ7A00-6
STI7100YWC
100n
2AF
S
100n
2AG
D
2AG
6
1n0
1n0
2AG
5
2AE
K
100n
100n
2AG
N
100n
2AF
L
100n
2AG
A
VDDE-3V3
IAE6
2AE
8
1n0
+3V3TMDS
IAE3IAE5
2AE
F
100n
2AF
B
1n0
+2V6-MP4
2V5-LMI
+1V1
220R
5AE0
AM17AM18AM19AN7
N17
AN16AP16
N18N19P17P18
AB17AB18AB19AF30
N16
AK16AL7AB16AL16AM7AM16
W14W21W22
G4
Y13Y17Y18Y22AA17AA18
T22U13U14
F5
U21U22V13V14V21V22W13
V20
P13P14
F4
R13R17R18R22T13T14T21
AK31
N22
AL4AL5
AL31AM22AN26AN32AP26AP32
AB13
N21
AB14AB15AB20AB21AB22
AK4AK5
AK29AK30
Y20
N20
Y21AA13AA14AA15AA16AA19AA20AA21AA22
N15
W16W17W18W19W20Y14Y15Y16Y19
N14
U17U18U19U20V15V16V17V18V19W15
N13
R20R21T15T16T17T18T19T20U15U16
P15P16P19P20P21P22R14R15R16R19
ΦPOWER
(1V0)
STI7100YWC7A00-5
H3
2AE
N
1n0
100n
2AG
P
1n0
2AE
T
30R
5AE2
+1V1
+1VTMDS
2AE
E
1u0
IAE8
100n
2AE
G
2AE
L
1n0
1n0
2AF
E
5AE8
220R
2AF
W
1n0
2AF
N
1n0
2V5-LMI
2AF
4
1n0
2AG
4
1n0
30R5AE5
VDDE-2V5
18730_536_090918.eps090918
Circuit Diagrams and PWB Layouts EN 103PB52.2HU LA 10.
2010-Mar-05
SSB: Supply
GND
VIN
HSPA
INH
SYNC
SW
VFB
A
SW
NC
GNDRST
IN
CD
NCINH
ADJ
GND
OUTIN
C
3AK2 D53AKA C7
I
H
4 5
C
D
E
B
Aow
ner.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
C
9AK4 D8FAK1 D6
108 92
1 2 3 4 5
3015 B93AK0 D4
3AK1 E4
6 7 8 9
1 2
8765432
IAK2 D5IAKA C7
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
G
F
E
D
C
B
6
7AKC A87AKF E99AK2 C8
1
J
D
1 7 12
D
E
2013 C72AK0 D22AK1 D2
113
2AK3 D52AK4 D62AK5 D6
2AK6 D52AKA B62AKB B6
2AKC A72AKD A92AKE A9
3009 C8FAKK E8IAK0 D4
IAK1 D43AKB C7
3 4 5 6 7 8 9
A
B
13
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
FAKH D2
FAKJ E9
3AKH E8
3AKJ D94AK0 D34KA1 D5
5AK0 D15AK1 D45AK2 D5
7AK1-1 D37AKA C77AKB C8
FAKA C7FAKB C9FAKC A9FAK5 B6
E
A
B
C
109
F
11 12 13
FAKF E8FAKG B8
G
AIAKB C8
3AKC B83AKD A8
3AKF E83AKG E8
ST1S10PHR
RES
SUPPLY
IAKA
3AK
D
56K
RES
7AKBPDTC114EU
FAKB4A
K0
3AK
B
1K2
7
5 3
1 6
7AK1-1
4 9
2
8
+3V3
FAKA
5AK2
3u6
FAKK
FAKJ
FAKG
4KA1
2AK
4
100n
2
1
4
IAKB
7AKCLD29150PT
5
3
10n
2AK
B
3AKC 47K
IAK0
3AK
2
47K
5
3
2
4
1
FAKF
NCP303LSN10T17AKA
3AKF
100R
FAK5
+3V3
2AK
6
22u
3AK
1
22K
IAK1
2AK
C
1u0
+3V3
FAKC
2013
100n
3AK
A
2K2
2AK
D
10u
10V
IAK2
9AK4
+1V1
3AKH
+12V
22K
+3V3
10K
3AK
J
FAKH5AK0
10u+12V
2AK5 22u
+3V3
3009
10K
100n
2AK
1
FAK1
10K
3AK
G
100n
2AK
E
9AK2
22u
2AK
0
5AK1
3u6
38
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
BC847BW7AKF
2 2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
13010
10V
330u2A
KA
+2V6-MP4
+3V3
10V
330u2A
K3
RES3015
100R
EN_1S10
3AK
0
12K
MPEG4_PWR
EN_1S10
INH_5973
BUF-RST-TARGETn
FLASH-notRESET
CPU-notRESET
18730_537_090918.eps090918
EN 104PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: Debug
V+
V-
VCC
C1+
C1-
C2+
T2T1
IN
IN OUT
OUT
GN
D
T1
C2-
R2R1
T2
R1R2
C
9AM0 D4
UART3
G
12
I
B
B
4
E
C
B
D
E
1AM0 B6
1
B
D
A
FOR DEVELOPMENT ONLY
3AM6 C33AM7 D43AM8 E47AM0 A47AM1-1 D37AM1-2 E4
FAM6 D6
ST
40 D
EB
UG
LIN
K
13
A
87653
A
4 5
D
E
3 76
1AM1 C6
1 2
C
DIAM9 B5
H
7
J
9
C
11
A
111098
1312
8
13
C
1 2 3 4 5 6 7 8
1 2
FAM1 B6FAM2 B6FAM3 D6FAM4 D6FAM5 D6
FAM7 D6
119
F
E
FAM8 D6
1AM2 D62AM0 A52AM1 A32AM2 B52AM3 B52AM4 B33AM1 B33AM2 B53AM3 B53AM4 C53AM5 C5
IAM4 B3IAM5 B3IAM6 B5IAM7 B5IAM8 B5
IAMA B3IAMB B3
8
B
10
12
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
G
F
121110987
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
9AM1 D39AM2 E4FAM0 B6
13
E
10
C
3
J
21
J
I
H
G
F
FAM9 D6FAMA D6FAMB E6FAMC C6FAMD C6FAME E6FAMJ D6IAM0 A3IAM1 B3IAM2 B3IAM3 B3
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
G
D
4
F
2
A
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
UART4
DEBUG
5 64 5 6
E
D
C
B
Aow
ner.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1 765432
9AM2
3
9
4111701
2
6
16
RES
1
3
4
5
15
21318
ΦRS232
ST3232C7AM0
IAM4
3
RES9AM0
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
39
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
13010
2 2009-07-28
-- -- --
2009-05-15
A3
74LVC07APW7AM1-1
1
7
142
IAM0
100n
2AM0
FAM2
FAM9
FAM7
FAMJ
+3V3
9AM1
+3V3
FAM5
FAME
FAMA
100R3AM4
FAM6
3AM6
100R
10K
3AM7
3AM1 100R
IAM7
3AM2 100R
2AM2 100n
IAM3
100R3AM3
6789
1516
1
1011121314
2345
1AM2
BM14B-SRSS-TBT
RES
IAM2
IAM1
2AM4
100n
FAMD
FAM3
3AM8
10K
2AM3
100n
345
FAM4
1AM112
FAMC
+3V3
IAM6
IAM5
FAMB
IAMA
FAM1
FAM8
FAM0
100n
2AM1
1AM0123
45
3AM5 100R
144
+3V3
+3V3
IAM8
74LVC07APW7AM1-2
3
7
IAM9
IAMB
RST-TARGETn
ASEBRKn
RXD-ASC3
TXD-ASC2
BUF-RST-TARGETn
JTAG-TDIJTAG-TDO
JTAG-TRSTn
TRIG-OUTTRIG-IN
JTAG-TMS
JTAG-TCK
RXD-ASC2
TXD-ASC3
18730_538_090918.eps090918
Circuit Diagrams and PWB Layouts EN 105PB52.2HU LA 10.
2010-Mar-05
SSB: I2C Busses
C
G
F
I
J
K
L
M
1918
I
J
43
10 11
N
O
P
2087
O
C
B
L
K
A
B
P
G
F
E
D
1
P
O
N
E
D
IADS C9IADT C9
6 7 8 9
H
G
H
3AD5 F33AD6 F33AD7 F33AD8 F33AD9 F33ADB H63ADC H6
1716
12 13
5432
18 19 20
M
L
J
IADA E4IADB H5
19
11 12
I
C
10
C
B
15141312
IADQ C9IADR C9
IAD5 C4
F
3AD3 C43AD4 F3
2AD3 B3
BD 12NC : 3139_283_30172
1 2 3 4 5
3ADD H73ADE F9
1110
M
N
14 15 16 17
L
J
I
H
IADU C9
IAD8 C4IAD9 D4
FAD4 F4
17 187 14 158 1265
13
H
E
F
A
K
A
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
IADN B9IADP C9
IAD3 B4IAD4 C4
3AD2 B2
I2C ADDRESS = 4A(WRITE)
2AD1 B32AD2 B3
10 11
1 2 3 4 5 6 7
3ADF E83ADG E8
96
4 5 6 7 8 9
IAD7 B2
FAD2 F4FAD3 F4
E
16114
15
2AD4 C32AD5 C32AD6 C32AD7 D42AD8 E32AD9 E32ADA H52ADB H5
E
G
IADC G7
owne
r.
D
IADL C8IADM B9
IAD1 B4IAD2 B4
2ADG F83AD1 B2
H
1AD1 F88 9
3ADH-1 C83ADH-2 C83ADH-3 B83ADH-4 B83ADJ-1 C83ADJ-2 C83ADJ-3 C83ADJ-4 C83ADK G33AN6 G23AN7 H2
10 11
52 2019181716
O
P
7AD1 A5FAD1 F4
C
D
MULTI 12NC : 3139_283_30162
13
14
8 9
D
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
B
C
FAD5 G6FAD6 G6FAD7 E8
2ADC H52ADD H6
D
E
IADD B8IADE B8IADF C8IADG C8IADH C8IADJ C8IADK C8
FAD8 E8FAD9 F4
2ADE H72ADF E8
F
G
6 7
F
G
IADE
H
A
B
C
1
1 2 3
M
N
5AD1 D35AD2 E3
A
B
2031 2 9 10
+3V3
2AD8 100n
5AD2 3u3
IADP
3AD
D
10K
IAD5
+3V3
56R
3AD
2
FA
D6
3ADJ-3 33R
24.576M1AD1
FAD92A
DB
100n
3AN6
4K7
47n2AD1
RES
FAD8
47n2AD4
RES
3ADF 33R
3AN7
4K7
4K73AD5
16V
22u2A
DD
100n2AD9
47n2AD6
IADC
IADQ
1K0
3AD
K
2
41 VSSA2
28 VSSD1
VS
SD
A30
VS
SD
E1
16
VS
SD
E2
35
XTAL 31
XTALI 32
21
VP2 20
VP3 19
VP4 15
VP5 14
VP6 13
VP7 12
VS
SA
011
VSSA1
3
VDDA242
VDDD129
VD
DD
A33
VD
DD
E1
18
VD
DD
E2
34
VP0 22
VP1
24
SDA 23
TCK37
TDI38
TDO36
TMS39
8 TRST
VD
DA
010
VDDA1
AI2D44
AOUT9
CE
40
LLC 17
RT
CO
25
RT
S0
26
RT
S1
27
SCL
TESTCONTROL
6 AGND
AI114
AI127
AI1D5
AI2143
AI221
ANDA/D
BOUNDARYSCANAND
SCAN
OUTPUTFORMATTER
I2
CONTROL/INTERFACE
CLOCKS
C-BUS
CLOCKGENER’N
POWER
CONTROLON
SYNCHRONIZATION
ANALOGPROCESSING
CONTROL
CHROMINANCEBRIGHTNESS
SATURATIONCONTRAST
BYPASSUPSAMPLING
FILTER
LUMINANCE
CONVERSION
CIRCUIT
DATA SLICERMULTI-STANDARD
VBI DATA
7AD1SAA7113
TEST
ANALOGPROCESSING
10p
2ADG
FAD1
+3V3
IADM
2AD5 47n
IAD3
IADD
IADR
IADN
4K7
3AD
9
3AD8 4K7
IAD2
3AD
3
75R
FAD2
10V
22u2A
D7
3ADJ-1 33R
3AD7 100R
100R3AD6
3u35AD1
IADB
FAD4
FA
D5
4K7
3AD
C
33R3ADH-1
3AD
44K
7
100n
2AD
E
2009-05-15
-- -- --
2009-07-282
03101
FAD7
2009-07-31
YiPing Guo
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
40
3PC333
43
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3017PCB SB PB522_LNBDS MODULES
A2
IAD7
3
2
IADL
3ADE
33R
IADS
IADK
33R3ADJ-4
3AD
B4K
7
IADG
IAD1
+3V3
3ADH-2 33R
IADT
2ADF
10p
IAD4
33R3ADH-3
IADH
3ADH-4 33R
+3V3
33R3ADJ-2
2AD2 47n
2AD3 47n
100n
2AD
A
IADF
+3V3
3AD1
18R
IADU
IAD8
2AD
C10
0n
IAD9
FAD3
33R3ADG
IADA+3V3
IADJ
SDA-SSB
SCL-SSB
DVID0
DVID2
DVID3
DVID4
DVID5
DVID6
DVID7
DVID1
SDA-SSB
SCL-SSB
CVBS-BO
CLK_REF
18730_539_090918.eps090918
EN 106PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: i-Board
C
GND PGND
CLK
COM
SKIP
IN
C1+
C1-
ENABLE
SYNC
C2+
C2-
VIA
FB
OUT
GN
D_H
S
PGNDHS
OUT2BOUT2A
OUT1BOUT1A
SGND 1 2
NC
VP1 VP2
SVRR
MODE
IN2-
IN1+
NC
3
2120 D72121 D72122 E82123 E92127 A62128 A6
1120 D71122-1 E11
4
4 5
B
C
D
E
3128 A9
P
20
1
12
1
7
E
9 10 11
A
B
C
D
F
G
7
POWER ON RESET
17
5
7
3107 D23108 E4
2
10
2115 C52116 D52117 D5
118
4 5 6 7 8 9 10
I
0R
J
F
2 6 7
N
G
3129 B73130 B73131 B7
2134 C10
8
2136 B22137 B3
2138 B42139 B43100 G33101 G3
6
2111 E62112 F62113 C42114 D4
1122-2 E111125 E91135 A72100 G22101 G32102 G4
2103 F2
1
IBOARD
B
C
D
4
6
7116 B54114 D34115 D34116 D33109 E4
2118 D5
3111 E63112 E53113 C4
3114 D43115 D43116 D5
2129 A8
11
1 2 3
3 13 18
C
8
A
E
4 5
M
F
D
16
6112 D86114 B9
3132 B82135 B1
3134 A103135 B10
3136 C93137 D103138 C113139 D9
3102 F4
E
F
G
A
5 13
76
7115 B2
I111 C4
F103 F4F105 C3F106 D34118 F83110 F5
4120 D84121 A3
4122 B84123 C84124 B45121 E83117 D5
2130 A82131 B102132 B102133 B10
I
17
*
13 1918
K
1211
16
H
5
G
I126 D116115 A11
3133 B11 7100 E57101 G37102 G4
7104 F37107 E27111 D6
3141 B53103 F33104 F33105 E2
3106 D2
F
E
MULTI 12NC : 3139_283_30162
owne
r.
D
19 20
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
EM
C
I110 E6
2
I112 C5I113 E6
I114 D4
F110 E94119 C8
F112 B2
F113 B3F114 B2F115 B3F116 C2F117 C35122 E93122 D8
3125 A73126 A73127 A8
1098
14
1
11 129
20
J
8
O
I125 C10
I127 D10I128 C11I129 B11
I130 A11
6116 C10
3
I100 G2I101 G2I102 G3I103 F4I104 F3
7112-1 A7
3142 B53143 B93144 C9
4113 C3
13
H
C
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
10
K
O
9
J
17
N
12
L
I115 D5
F111 E9
I117 D7I118 E7I119 E7I120 E8I121 D9
I122 E9
F118 D95123 A95124 E85125 B1
5126 B3
1716
F
B
A A
G
I124 D9
15
3126312741224123
I131 A8
19
I132 B9I133 B8I134 A8I136 A7I137 A7I138 B7I105 F2
7112-2 B87113-1 B87113-2 C97114 C10
16
15
A
15
B
C
14
H
M
N
K
432
I
B
6
1
P
I123 D9
F119 D2F120 E2
F121 A5F122 B5
L
M
O
I
P
L
1918
20
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
D
1K5 560R560R 1K5NC 0R00R0 NC
I139 B7
*
14
18
J
E
I106 F2
I108 E5I109 E6
G
P
M
N
L
9
10
* HC NON HC
11 1514
BD 12NC : 3139_283_30172
2
I116 E6
*
*
*
H4113
O
3
I107 E5
1125
1u0
2113
F116
100R
3117
RE
S
3113
10K
I120
1120
250m
A
3116
100R
RE
S
+3V3-STANDBY
5V-DRIVE
1u0
2116
I128
F121
1
3
2
16V
100u21
39
BC857BW7104
I104I105
I119
3
2
I121
BC847BW7101
1
560R
3139
3132
F105
1K0
10R
3133
2134
1u0
GND-ISO
2133
1u0
2132
1m0 6.3V
2u2
2121
100n
2102
+3V3A
2131
100p
+12VIB
I106
1K0
3130
I125
3112
47K
3143
10K
5
15 16
3137
1K0
1920
89
1213
10 114 21
3
18
171267
14
POWERAMPLIFIER
Φ
TDA1517ATW7111
16
9 10 11 12
17
2
2223
19
18
3
4
1 20 21
714
5
ΦDC/DC
CONVERTER
TPS60111PWP7115
6
8
15
13
3108
10K
I103
1BC857BS7112-12
6
DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
41
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A2
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK
+3V3-STANDBY
4124
180R
3138
2127
330u
10V
I107
3103
47K
2118
100p
F119
F115
F117
4118
1K5
3126
2128
100n
2122
220u 16V
I101
I109
F111
10K
3109
3101
47K
6u8
5121
GND-ISO
3136
1K0
6u8
5125
6114
BA
S31
6
560R
3127
BZ
X38
4-C
3V3
6112
2K2
3135
I110
MSJ-035-39D B PC1122-1
5
46
4123
3122
100R
4122
3144
2K2
3106
12K
10K
3105
71073
12
BSH111
3107
10K
I102
F122
F120
6u8
5126
3141
10K
5
3
4BC857BS7112-2
I137
2137
1u0
1u0
2115
RES 4115
3104
1K0
6116
BZX384-C5V1
BA
S31
6
6115
F106
I100
I118
4119
I116
4114
I108
I111
I123
7113-1BC847BS
2
6
1
1K8
3128
I129
RE
S31
10
47K
2123
1n0
2100
1u0
I138
I112
3142
PS-LN
10K
F112
F114
F113
2K2
3131
3114
10K
I124
2103
1u0
I122
+12V+3V3A
F118
5122
220R
2117
1K0
3102
470p
GND-ISO
+12V
5CD
3
GND
2INP
4
NC
1OUTP
+12V
7102NCP303LSN30
I133
I131
I126
F110
I115
4121
I132
I117
BC807-257116
7114
TCMT1103
14
23
F103
2130
4n7
16V
100u21
12
1135
10u
2111
I134
3
P14
P21
S1 5
S2 8
SD16613-015124
2
I127
I130
5K6
3125
3100
47K
22u
2138
47K
3111
2129
22u
I113
3134
1K0
220u
16V
I114
2120
BC847BW
3115
7100
2101
1122-2MSJ-035-39D B PC
2
13
I136
5K6
3129
+3V3-STANDBY
9
7
1u0
2114
5123EEH116
1 5
2
4
4120
PS-LN
1u0
2136
+3V3A
6.3V
22u21
35
+3V3-STANDBY
PS-LNA
RES 4116
I139
3
4BC847BS
7113-2 5
PEND_IR
POR
RXD_PCTXD_PC
POR1
LN_PWR
MUTE_iB
TV_POR
ADAC(3)
LED2-3V3
ADAC(6)ADAC(5)
ADAC(4)
18730_540_090918.eps090918
Circuit Diagrams and PWB Layouts EN 107PB52.2HU LA 10.
2010-Mar-05
SSB: i-Board
SCLADR
012SDA
WC
+T
PD1
AVCC
RESET_IN
DEBUG
ADC<0:7>
SCLSDA
C1C0
TG1TG0
TXD0
SPIRXDSPICLK
TXD1RXD1
T2XT2
P4 <0:7>
TCM<0:5>
PCACLK 0:1
5
34
3V3VCC
X2T2T2
P1 <0:7>
XTAL1
TMSTDOTDI
76
SPISEL
VDD
SPITXD
PC7
PC <2:4>
TCK
JTAG
CLKIN
SPIRXD
RXD1TXD1
SPICLK
GND
210
PB
VSTBY
TERRTSTAT
RXD0
P3 <0:7>
EXINT 0:1
SPISELSPITXD
4X1
G4
4X2
12
VDD
VEE VSS
&
C
4X1
G4
4X2
12
VDD
VEEVSS
K
17
1
7
L
A
B
C
J
K
L
1200 A31205 C81230 B111231 B121240 D3
14
M
O
P
12
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
L
G
13
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
6 127
D
1 2 3
17
K
C
P
F
15
14
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
E
H
B
20
6 7 8 9 10 11 12 13 14 15 16 17
2223 D10
2 3 4 5 6
D
E
F
G
H
I
13
B
E
19
9 10 11 12 13 14 15 16 17
A
B
C
3202 B5
E
F
G
H
I
4 5
1
K
19
D
9
3
A
1241 H31250 K12200 C102201 B102202 C92203 C82204 C82205 C82206 C82207 D82218 E82219 E72220 E82221 C102222 C10
3225 D11
2224 D102229 E122230 E122231 B122232 L7
7 8
M
F
J
2011
G
I
9
C
RJ12
2269 G112276 G72280 G142291 B82292 H222A1 D1422A2 C1322A3 H1122A4 E322A5 K33200 B53201 B5
3238-4 F11
3203 B53204 B53205 C73206 F73207 F8
J
K
1
J
RES
P
1085
C
3210 F73211 C73212 C73213 C73214 E63215 E63216 E73217 E73218 E83219 E83220 E73221 C103222 C113224 D11
3294 H4
3226 D113227 D113230 K83231 K83232 K7
2243 E22250 K3
14
9
I
105
10
1918
L
14
IBOARDA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
par
ts
3235 K93236 L93237-1 E113237-2 E113237-3 E113237-4 E113238-1 F113238-2 F113238-3 F11
32AM K5
3239 C103240 E113241 E113242 E113243 D5
3208 F83209 D7
202 15 19
16
3246 C103253 G83255 D83256 G93263 G103264 F103269 G113280 G133281 G133293 F9
42AF L5
3296 H43297 H432A0 D1332A1 C1332A2 C13
3233 K93234 K9
N
1
N
O
15
M
32A5 F932A6 I432A7 J432AC J932AD K232AE K232AF K232AG K232AH K232AJ D432AK I432AL L4
6206 B4
4230 B124231 B124251 D44253 D442A0 D14
3244 D73245 C7J
7
O
8
174
SYSTEM
L
1813
42A6 K442A7 F442A8 G442A9 H1042AA J1042AB J1042AC I342AD F442AE L5
7232 K9
5201 B95230 D35240 D35241 D35242 D3
32A3 D1332A4 D14
RES
B
1
3
7
H
5250 K25251 K35252 K3
5253 K35291 B75293 H25294 K46201 B36202 B36203 B46204 B46205 B4
F203 B3
6230 K76250 K46251 J36252 J36253 K2
42A1 I342A2 J4
C
6
E
4
I
P
F
164
owne
r.
6270 G136272 F962A0 C1462A1 C57208 F87220 F97221 H107230 K87231 K7
F245 D3
7261 G97262 G107269 G107280 H1372A1 F2
5243 D35244 D3
M
2
118
126 20
A
N
3
E
72A4 J472A5 J472A6 I472A7 K572A8 H3F200 B3F201 B3F202 B3
F269 K4
F204 B3F205 B3F206 B3F210 D3F212 D3
6254 K36255 C7
4
D
8 9
G
13
I
17
122
F220 B7F222 B8F223 D8F230 B12F231 B11F235 C11F236 C11F240 D4F241 D4F242 D3F243 D4
I216 E5
F248 D3F249 D3F251 G9F252 H3F254 H3
72A2 K472A3 D14
2 11
N
53
D D
RES
16
1811
K
F259 H3F260 H3F261 H3F262 H5F263 I3F265 I3F267 J3F268 J4
I263 E10
F270 K2F271 K2F273 K3F280 G13F281 H13
F213 K2F214 K2
PANEL MODE
16
J
10
L
15
B
6
I201 B5I202 B5I203 B5I204 K8I205 K8I206 K8I207 K7I208 K7I210 K9I211 D3I212 K2
I222 D8I224 C8I225 C8I226 E8I227 E8I228 E8
F256 H3F258 H3
H
18
JTAG
I231 F8I235 G9I236 G10I237 G10I238 F11I240 C9I241 C9I242 B9I243 B9I245 C9I250 D10I251 D10I252 D10I253 D10I254 E10I255 E10I256 E10I260 E10I261 E10I262 E10
I229 E6I230 F7
F288 H13I200 B5LODGENET
owne
r.
RES
I264 E10I265 E10I266 E10I267 F10I270 F12I272 F12I278 F13I279 F13
G
H
5
F
A
O
AA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
par
ts
I217 E5I220 D8I221 D8
2232
100n
I238
RE
S
BZ
X38
4-C
6V8
F267
6251
F269
1
3
2
1n0
2250
I222
7208BC847BW
2276
220p
42A0
BZ
X38
4-C
6V8
6204
2206
22p
RES
F258
2230 27p
7
1231
1850mA
7280M24C64-WMN6
123
6
5
8
4
(8Kx8)Φ
EEPROM
6201
27p
2243
BZ
X38
4-C
6V8
I260
F202
+3V
3-S
TA
ND
BY
I229
F288
2204 100n
F223
10K
32A
M
I245
62A1
BZX384-C3V3
4K7
3281
100R3203
+3V
3A
+3V
3A
+3V
3-S
TA
ND
BY
I206
I227
10K
3297
BC847BW72A8 1
3
2
BC857BW
1
3
2
18K
RES7230
32A
0
I217
I263
+3V3A
10K
RE
S32
26
3245
10K
6205
BZ
X38
4-C
6V8
10n
2220
+3V3A
100R3201
100R32AH
100R32AF 10R32AG
+3V
3A
3238-1 10K
42A
1
42A8
3212
10K
+12VI
I255
3253
100R
RE
S
4K7
3236
5252
220R
3
1
2
+3V3-STANDBY
BSH11172A7
F280
BA
S31
6
62A
0
2219
27p
3206
10K
+3V3-STANDBY
22A
2
220p
3208
10K
F212
6272
BZ
X38
4-C
2V7
3263
1K0
I226
10K
3246
BZ
X38
4-C
18
6253
42A7
5243 220R
42AA
+3V3A
F268
6254
BZ
X38
4-C
6V8
I251
I243
10n2207
3220
100R
1
44
8 33
31
32
51504948464342
111072
30
2221201817161514
524041
23242526272829
12
4313
343536373839
647
5
9 19 45
3200
ΦMCU
UPSD3354DV-407220
BZ
X38
4-C
6V8
100R
6252
3209
100R
I252
2291
SIDEIO-DETECT
+3V3A
220u
16V
F260
6270PESDXL2BT
+3V3A
10K
3211
F251
I225
100R32AE
7261BC847BW
1
3
2
3218 I254
RSRX
5201
6u8
3294 4K7
I241
2205
22p
F256
32A
4
220R
10n2224
F263
I202
I250
F262
F220
F261
42A
2
+3V3A
3224
10K
+5V-STANDBY
27K32A2
100n
I211
2200
2218
27p
10K
32A6
5
14
15
4
42A6
9
167 8
13
1
3
12
2
722174HC4053PW
6
11
10
22A1
MDX
47K
330p+12VA
32A1
I262
10K3238-4
+3V3A
10K
3221
100R3243
RSTX
I242
I216
F271
PS
-LN
A
F214
I256
I212
3233
+3V
3A
RES
100R
3244 100R
3296 4K7
I200
4251
F259
3237-4 10K
100n
2231
F243
PS-LNA
7232
1
3
2
3202
RES
BC857BW
100R
470K
32A5
3280
4K7
220R
F235
F203
5250
+3V3A
16V22
92 100u
3205
10K
I236
I220
3
12
42A
C 72A6BSH111
3456
2K2
32AK
1250
12
10K
43249-6101
3
12
3238-2
6u8
BSH11172A4
5291
+3V3A
220R5242
I266
6203
BZ
X38
4-C
6V8
+3V3-STANDBY
F270
72A5BSH1113
12
5294
220R
72A3BC847BW
32AJ 100R
4K7
3230
RE
S
2203 100n
RE
S
10K
3234
I235
F241
I207
F205 100R3204
100K
3216
220R524462
02
+12VA
+3V3A
BZ
X38
4-C
6V8
10n
2221
F222
I210
24M
1205
42AB
+5V-STANDBY
+3V3-STANDBY
3225
10K
3207
10K
100u
2201
16V
I272
F281
10K3237-33237-2 10K
5240
+3V3-STANDBY
F254
220R
22A4
100n
3232
100K
RES
3 2
32AL
4K7
BC857BW72A2
1
3222
100K
100R
7231
1
3
2
3213
RES
BC847BW
3293
10n2223
100R
I230
10K3237-1
4253
4230
3235
RES
2K2
3231
RE
S
10K
4231
2269
100n
I2085253
220R
I221
BZ
X38
4-C
6V8
6206
10K
456789
10 11
3239
502382-0970
1241123
100n
22A3
I270
6230
3255 100R
+3V
3-S
TA
ND
BY
RES
BAS316
I228
F210
+3V3-STANDBY
F230
I253
I261
32AD 100R
RE
S
1
3
2
3227
10K
5
4
7262BC847BW
7269
2
1
3
5293
74HCT1G00GW
RES
+3V3-STANDBY
6u8
2229 27p
F252
F248
F249
F231
I231
+12VIB
2202
100n
3238-3 10K
+3V3-STANDBY
10n
2222
I278
F206
F200
3219
5251
220R
I204
F213
2
3
42A9
A2
BDS MODULESPCB SB PB522_LN 3139 283 3017
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
42
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
13010
2 2009-07-28
-- -- --
2009-05-15
I267
F201
47R3242
+5V-STANDBY
100K
3215
+3V3-STANDBY
23
I203 12301
456789
+3V3A
12401
101112
23
BAT54 COL
6255
+3V3-STANDBY
3264
10K
I279
F236
I240
+3V
3A
+3V3-STANDBY
3241 47R
100R
3210
100K
3214
3217
100K
I205
F240
+3V3A
220R524162
50
BZ
X38
4-C
6V8
10K
3269
32AC
10K
F242
42AE
42AF
F273
3240 100R
2
5
14
15
4
42AD
11
10
9
16
78
13
1
3
12
72A174HC4053PW
MDX 6
9 10
I237
12345678
1200
32A3
100K
I265I264
2K2
32A7
5230 220R
100n
I201
22801K0
3256
22u
22A
5
F265
+3V
3A
I224
F245
F204
IR_OUT_LN
IR-IN_DATA_IN_RXD_SDA1_IB
SPI_DATA_OUT_RJ1
SPI_DATA_OUT_IB
SPI_CLK_IB
LN_PWR
IR-IN_DATA_IN_RXD_SDA1_IB
IR-IN_DATA_IN_RXD_SDA1_IB
SPI_CLK_IB
SPI_DATA_OUT_IB
LN_PWR
ENABLE_12V_SUPP
ENABLE_12V_SUPP
SPI_DATA_OUT_RJ
RC
SPI_CLK_RJ
SPI_DATA_IN_IB
SDA_I2C
IR-IN_DATA_IN_RXD_SDA1_RJ
SPI_CLK_RJ1
SPI_NO_LOGNET
SPI_CLK_IB
IR-IN_DATA_IN_RXD_SDA1_LN
SPI_CLK_LN
SPI_DATA_OUT_LNSPI_DATA_OUT_IB
SPI_DATA_OUT_RJ1
IR-IN_DATA_IN_RXD_SDA1_RJ
SPI_CLK_RJ
SPI_DATA_OUT_RJ
SPI_CLK_RJ1
IR_OUT
IR_OUT_LN
IR-IN_DATA_IN_RXD_SDA1_RJ
SPI_DATA_IN_IB
IR_OUT
RXD0
CEC-HDMI
IR-out-iB
Card_CVBS_out
SPI_CLK_LNIR-IN_DATA_IN_RXD_SDA1_LN
SPI_DATA_OUT_LN
TCK_iBTMS_iBTDO_iB
TDI_iB
LED1-OUT
MUTE_iB
POR
POR
SCL1_iB
RC_IN_MICRO
LED1-3V3LED2-3V3
TV_POR
TXD0RXD0
IR_OUT
RSRX
RSTX
CVI_75R
POR1
RC_IN_MICRO
TXD0
NVM_LOAD
DATA_OUT1
SCL1_iB
SDA1_iB
LED2-OUTSDA1_iB
PEND_IR
TMS_iBTCK_iBTDI_iB
TDO_iB
IR-IN_DATA_IN_RXD_SDA1_IB
RC_IN_MICRO
SPI_CLK_IB
SDA_I2CPEND_IR
NVM_LOAD
SPI_DATA_OUT_IB
SCL-SSB-MUX1SDA-SSB-MUX1
LN_PWR
CEC_IN
CEC_IN
CEC_OUT
CEC_OUT
SPI_NO_LOGNET
18730_541_090918.eps090918
EN 108PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: Supply
C
A
B
C
D
A
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1098
32 10
D
5 6 7 8
1
TO
3B60 A83B61 B85B10 C4
5B11 D45B12 D45B13 D4
5B14 D49B10 D6
6 7 8
3
TO
DISPLAY
owne
r.
H
G
2
T 3A 452
9
1B26 B41B28 A2
1B29 B6 9B15 C49B16 C49B17 D4
9B18 D49B19 D4FB28 B3
FB40 D5FB41 D52B20 A5
2B22 A5
2B23 B52B26 B52B27 B8
2 3 4
6
13
SUPPLY
1
J
2B54 D52B56 D53B20 A5
BD 12NC : 3139_283_30172MULTI 12NC : 3139_283_30162
E
J
1
FB44 D6FM20 A3
FM22 A3FM23 B3FM26 B3
IB40 D7IB41 D7IM20 A8
B
C
1
C
B
RES
A
5 76
2 3 4 5
11 12 13
AMBILIGHT
54
8
B
C
D
1B10 D21B20 A41B22 A4
1B23 B4
FB42 D5
FB43 D6
I
H
3B22 A53B26 B53B56 C6
3B57 C53B58 D63B59 D6
D
E
F
A
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
7
RES
11 124
SUPPLY
9B11 D5
F
G
FM23
1B26
9B18 RES FB44
10K
10K
3B61
RE
S3B
60
2B26100p
+3V3-STANDBY
1B22
2B2310n
RES
2B20 1n0
120R
5B13
9B17
3B59 47R
100R
3B57120R
5B10
1u0
2B27
2B56
100p
9B10
FB42
FB40
9B11
3B56
100R
5B11
100R
120R
3B26
5B14
120R
100R3B22
FM20
5B12
120R
FM26
FM22
2345
3B20 100R
1B101
9B19 RES
9B16 RES
1B20
9B15 RES
FB43
T3.0A
1B29
78
FB28
1B28
123456
47R3B58IB40
10n2B22
100p
2B54
IM20
+5V-ON
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
43
3PC333
43
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
YiPing Guo
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-05-15
A3
BDS MODULESPCB SB PB522_LN 3139 283 3017
IB41FB41
1B23
POWER-OK-DISPLAY
SCL-AMBI
+12VTCON
LAMP-ON-OUT
BACKLIGHT-OUT
BACKLIGHT-BOOST
SDA-AMBI
18730_542_090918.eps090918
Circuit Diagrams and PWB Layouts EN 109PB52.2HU LA 10.
2010-Mar-05
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 110PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: SRP List Part 1
3139 283 3017.218730_600_090921.eps
090921
Netname Diagram
+12V B01A (2x)+12V B01C (1x)+12V B02A (1x)+12V B03B (1x)+12V B03H (1x)+12V B10B (1x)+12V B11F (2x)+12V B12A (3x)+12VA B12B (2x)+12VF B01A (1x)+12VI B12B (1x)+12VIB B12A (1x)+12VIB B12B (1x)+12VTCON B10B (1x)+1V1 B11E (8x)+1V1 B11F (1x)+1V2 B01A (6x)+1V2 B02A (1x)+1V2 B03A (8x)+1V2 B03C (1x)+1V2-FPGA B09E (14x)+1V2-PLL B09E (9x)+1V2-STAB B09D (2x)+1V2-STANDBY B01A (1x)+1V2-STANDBY B01B (1x)+1V2-STANDBY B03A (1x)+1V5 B10C (2x)+1V5-P3 B10C (2x)+1V5-PLL B10C (2x)+1V5-RX B10C (2x)+1V5-TX B10C (2x)+1V8 B01A (1x)+1V8 B03A (2x)+1V8 B03E (5x)+1VTMDS B11E (2x)+2V5 B03B (1x)+2V5 B09D (1x)+2V5-CLKGENA B11E (2x)+2V5out-FPGA B09E (2x)+2V5-P3 B10C (2x)+2V5-PF B10C (4x)+2V5-PLL B10C (2x)+2V5-STAB B09D (3x)+2V6-MP4 B11A (1x)+2V6-MP4 B11C (1x)+2V6-MP4 B11E (2x)+2V6-MP4 B11F (1x)+3V3 B01A (1x)+3V3 B02A (3x)+3V3 B03A (3x)+3V3 B03B (1x)+3V3 B03C (3x)+3V3 B03F (1x)+3V3 B03G (1x)+3V3 B05A (2x)+3V3 B05C (2x)+3V3 B06A (1x)+3V3 B06C (1x)+3V3 B07C (1x)+3V3 B08A (5x)+3V3 B09A (1x)+3V3 B09D (5x)+3V3 B09E (1x)+3V3 B10B (10x)+3V3 B10C (6x)+3V3 B11A (7x)+3V3 B11B (7x)+3V3 B11D (3x)+3V3 B11E (2x)+3V3 B11F (6x)+3V3 B11G (5x)+3V3 B11H (7x)+3V3A B12A (3x)+3V3A B12B (18x)+3V3-ANA B06C (5x)+3V3-DIG B06C (2x)+3V3-FPGA B09D (9x)+3V3-FPGA B09E (6x)+3V3-NAND B03F (5x)+3V3-P3 B10C (7x)+3V3-PER B03A (6x)+3V3-PER B03C (3x)+3V3-PER B03D (4x)
+3V3-PER B03H (2x)+3V3-PI B02A (4x)+3V3-STANDBY B01A (2x)+3V3-STANDBY B01B (2x)+3V3-STANDBY B03A (1x)+3V3-STANDBY B03B (24x)+3V3-STANDBY B03C (2x)+3V3-STANDBY B05C (2x)+3V3-STANDBY B06A (3x)+3V3-STANDBY B06B (1x)+3V3-STANDBY B08C (1x)+3V3-STANDBY B10B (1x)+3V3-STANDBY B12A (4x)+3V3-STANDBY B12B (14x)+3V3-STANDBY B13A (1x)+3V3TMDS B11D (1x)+3V3TMDS B11E (2x)+5V-CON B06B (3x)+5V-CON B06C (2x)+5V-MUX B06C (2x)+5V-ON B01C (1x)+5V-ON B03B (1x)+5V-ON B03G (1x)+5V-ON B06C (1x)+5V-ON B07C (1x)+5V-ON B08B (1x)+5V-ON B08C (1x)+5V-ON B10B (5x)+5V-ON B13A (1x)+5V-STANDBY B01B (1x)+5V-STANDBY B03B (1x)+5V-STANDBY B12B (3x)+8V2-PAS B10B (2x)+AUDIO-L B03G (1x)+AUDIO-L B05A (1x)+AUDIO-POWER B01A (1x)+AUDIO-POWER B05A (1x)+Vin-FPGA B09E (2x)27MHZ-3V3 B11A (2x)2V5-LMI B11C (6x)2V5-LMI B11E (2x)5V-DRIVE B01B (1x)5V-DRIVE B12A (1x)ADAC(1) B03G (2x)ADAC(2) B03G (2x)ADAC(3) B03G (1x)ADAC(3) B05C (1x)ADAC(3) B12A (1x)ADAC(4) B03G (1x)ADAC(4) B05C (1x)ADAC(4) B12A (1x)ADAC(5) B03G (2x)ADAC(5) B12A (1x)ADAC(6) B03G (2x)ADAC(6) B12A (1x)ADAC(7) B03G (4x)ADAC(8) B03G (4x)AIN-5V B06B (3x)ALE B03B (2x)A-PLOP B03G (1x)A-PLOP B05C (1x)A-PLOP-HDPH B05C (2x)ARX0- B06B (1x)ARX0- B06C (1x)ARX0+ B06B (1x)ARX0+ B06C (1x)ARX1- B06B (1x)ARX1- B06C (1x)ARX1+ B06B (1x)ARX1+ B06C (1x)ARX2- B06B (1x)ARX2- B06C (1x)ARX2+ B06B (1x)ARX2+ B06C (1x)ARXC- B06B (1x)ARXC- B06C (1x)ARXC+ B06B (1x)ARXC+ B06C (1x)ARX-DDC-SCL B06B (2x)ARX-DDC-SDA B06B (2x)ARX-HOTPLUG B06B (2x)ASDO B09D (1x)ASDO B09E (1x)ASEBRKn B11A (1x)ASEBRKn B11G (1x)
AUDIO-HDPH-L-AP B05C (1x)AUDIO-HDPH-L-AP B07B (1x)AUDIO-HDPH-R-AP B05C (1x)AUDIO-HDPH-R-AP B07B (1x)AUDIO-IN1-L B03G (1x)AUDIO-IN1-L B07A (1x)AUDIO-IN1-R B03G (1x)AUDIO-IN1-R B07A (1x)AUDIO-MUTE B03B (1x)AUDIO-MUTE B05A (2x)AUDIO-MUTE B07B (1x)Audio-out-L B03G (2x)Audio-out-R B03G (2x)-AUDIO-POWER B01A (1x)-AUDIO-POWER B05A (1x)AUDIO-PROT B01A (1x)AUDIO-PROT B05A (1x)-AUDIO-R B03G (1x)-AUDIO-R B05A (1x)AUDIO-RESET B03B (3x)AUDIO-RESET B05C (1x)AUDIO-VDD B03G (5x)AUDIO-VEE B03G (5x)AV1-BLK B03B (2x)AV1-Y B03H (1x)AV2-BLK B03B (2x)BACKLIGHT-BOOST B10B (1x)BACKLIGHT-BOOST B13A (1x)BACKLIGHT-CONTROL B10B (1x)BACKLIGHT-CONTROL B10C (1x)BACKLIGHT-OUT B04A (1x)BACKLIGHT-OUT B10B (2x)BACKLIGHT-OUT B13A (1x)BIN-5V B06B (3x)BRX0- B06B (1x)BRX0- B06C (1x)BRX0+ B06B (1x)BRX0+ B06C (1x)BRX1- B06B (1x)BRX1- B06C (1x)BRX1+ B06B (1x)BRX1+ B06C (1x)BRX2- B06B (1x)BRX2- B06C (1x)BRX2+ B06B (1x)BRX2+ B06C (1x)BRXC- B06B (1x)BRXC- B06C (1x)BRXC+ B06B (1x)BRXC+ B06C (1x)BRX-DDC-SCL B06B (2x)BRX-DDC-SDA B06B (2x)BRX-HOTPLUG B06B (2x)BUF-RST-TARGETn B11F (1x)BUF-RST-TARGETn B11G (1x)CA-CTRLEN_BOOTMODE B03C (2x)CA-INT B03C (1x)Card_Aud_out_L B03G (1x)Card_Aud_out_L B07A (1x)Card_Aud_out_R B03G (1x)Card_Aud_out_R B07A (1x)Card_CVBS_out B03G (1x)Card_CVBS_out B12B (1x)CARD-PB B03H (1x)CARD-PB B07A (1x)CARD-PR B03H (1x)CARD-PR B07A (1x)CARD-Y B03H (1x)CARD-Y B07A (1x)CEC_IN B12B (2x)CEC_OUT B12B (2x)CEC-HDMI B03B (2x)CEC-HDMI B06B (1x)CEC-HDMI B12B (1x)CIN-5V B06B (3x)CLK_REF B11A (1x)CLK_REF B11H (1x)CONF-DONE B09D (1x)CONF-DONE B09E (1x)CPU-27MHZ B11A (2x)CPU-I2C-SCL B11A (3x)CPU-I2C-SDA B11A (3x)CPU-notRESET B11A (1x)CPU-notRESET B11F (1x)CRX0- B06B (1x)
CRX0- B06C (1x)CRX0+ B06B (1x)CRX0+ B06C (1x)CRX1- B06B (1x)CRX1- B06C (1x)CRX1+ B06B (1x)CRX1+ B06C (1x)CRX2- B06B (1x)CRX2- B06C (1x)CRX2+ B06B (1x)CRX2+ B06C (1x)CRXC- B06B (1x)CRXC- B06C (1x)CRXC+ B06B (1x)CRXC+ B06C (1x)CRX-DDC-SCL B06B (2x)CRX-DDC-SDA B06B (2x)CRX-HOTPLUG B06B (2x)CTRL1-FPGA B09E (1x)CTRL1-FPGA B10B (1x)CTRL1-MIPS_LCD-PWR-ON B03C (1x)CTRL1-MIPS_LCD-PWR-ON B10B (2x)CTRL1-STBY_LAMP-ON B03B (2x)CTRL1-STBY_LAMP-ON B04A (1x)CTRL1-STBY_LAMP-ON B10B (2x)CTRL2-FPGA B09E (1x)CTRL2-FPGA B10B (1x)CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3 B03B (2x)CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3 B04A (1x)CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3 B10B (2x)CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3 B10C (1x)CTRL3-FPGA B09E (1x)CTRL3-FPGA B10B (1x)CTRL3-STBY_POWER-OK-DISP B03B (3x)CTRL3-STBY_POWER-OK-DISP B10B (1x)CTRL4-FPGA B09E (1x)CTRL4-FPGA B10B (1x)CTRL4-P3 B10B (1x)CTRL4-P3 B10C (2x)CTRL4-STBY_SELECT-PWM-ANA B03B (2x)CTRL4-STBY_SELECT-PWM-ANA B04A (1x)CTRL4-STBY_SELECT-PWM-ANA B10B (2x)CTRL5-STBY_BACKLIGHT-BOOST B03B (2x)CTRL5-STBY_BACKLIGHT-BOOST B10B (2x)CTRL-DISP1 B10A (1x)CTRL-DISP1 B10B (1x)CTRL-DISP2 B10A (1x)CTRL-DISP2 B10B (1x)CTRL-DISP3 B10A (1x)CTRL-DISP3 B10B (1x)CTRL-DISP4 B10A (1x)CTRL-DISP4 B10B (1x)CVBS_MON_OUT B03G (1x)CVBS_MON_OUT B03H (1x)CVBS-AM B02A (1x)CVBS-AM B03B (1x)CVBS-BO B02A (1x)CVBS-BO B03H (1x)CVBS-BO B11H (1x)CVI-AIN3-L B03G (1x)CVI-AIN3-L B07A (1x)CVI-AIN3-R B03G (1x)CVI-AIN3-R B07A (1x)CVI-PB B03H (1x)CVI-PB B07A (1x)CVI-PR B03H (1x)CVI-PR B07A (1x)CVI-Y B03H (1x)CVI-Y B07A (1x)DATA0 B09D (1x)DATA0 B09E (1x)DC_PROT B03B (1x)DCLK B09D (1x)DCLK B09E (1x)DDC-5V B07C (4x)DDC-SCL B06C (1x)DDC-SCL B09A (1x)DDC-SDA B06C (1x)DDC-SDA B09A (1x)DDR2-A0 B03E (3x)DDR2-A1 B03E (3x)
DDR2-A10 B03E (3x)DDR2-A11 B03E (3x)DDR2-A12 B03E (3x)DDR2-A2 B03E (3x)DDR2-A3 B03E (3x)DDR2-A4 B03E (3x)DDR2-A5 B03E (3x)DDR2-A6 B03E (3x)DDR2-A7 B03E (3x)DDR2-A8 B03E (3x)DDR2-A9 B03E (3x)DDR2-BA0 B03E (3x)DDR2-BA1 B03E (3x)DDR2-CAS B03E (3x)DDR2-CKE B03E (4x)DDR2-CLK_N B03E (4x)DDR2-CLK_P B03E (4x)DDR2-CS B03E (3x)DDR2-D0 B03E (2x)DDR2-D1 B03E (2x)DDR2-D10 B03E (2x)DDR2-D11 B03E (2x)DDR2-D12 B03E (2x)DDR2-D13 B03E (2x)DDR2-D14 B03E (2x)DDR2-D15 B03E (2x)DDR2-D16 B03E (2x)DDR2-D17 B03E (2x)DDR2-D18 B03E (2x)DDR2-D19 B03E (2x)DDR2-D2 B03E (2x)DDR2-D20 B03E (2x)DDR2-D21 B03E (2x)DDR2-D22 B03E (2x)DDR2-D23 B03E (2x)DDR2-D24 B03E (2x)DDR2-D25 B03E (2x)DDR2-D26 B03E (2x)DDR2-D27 B03E (2x)DDR2-D28 B03E (2x)DDR2-D29 B03E (2x)DDR2-D3 B03E (2x)DDR2-D30 B03E (2x)DDR2-D31 B03E (2x)DDR2-D4 B03E (2x)DDR2-D5 B03E (2x)DDR2-D6 B03E (2x)DDR2-D7 B03E (2x)DDR2-D8 B03E (2x)DDR2-D9 B03E (2x)DDR2-DQM0 B03E (2x)DDR2-DQM1 B03E (2x)DDR2-DQM2 B03E (1x)DDR2-DQM3 B03E (2x)DDR2-DQS0_N B03E (3x)DDR2-DQS0_P B03E (2x)DDR2-DQS1_N B03E (3x)DDR2-DQS1_P B03E (2x)DDR2-DQS2_N B03E (3x)DDR2-DQS2_P B03E (2x)DDR2-DQS3_N B03E (3x)DDR2-DQS3_P B03E (2x)DDR2-ODT B03E (3x)DDR2-RAS B03E (3x)DDR2-VREF-CTRL B03E (2x)DDR2-VREF-DDR B03E (3x)DDR2-WE B03E (3x)DETECT-1V2-2V5-3V3 B03B (6x)DETECT-1V2-2V5-3V3 B05A (1x)DETECT-5V-12V B03B (3x)DRX0- B06C (1x)DRX0- B11D (1x)DRX0+ B06C (1x)DRX0+ B11D (1x)DRX1- B06C (1x)DRX1- B11D (1x)DRX1+ B06C (1x)DRX1+ B11D (1x)DRX2- B06C (1x)DRX2- B11D (1x)DRX2+ B06C (1x)DRX2+ B11D (1x)DRXC- B06C (1x)DRXC- B11D (1x)DRXC+ B06C (1x)
DRXC+ B11D (1x)DV-B0_UART2-RX B03B (1x)DV-B0_UART2-RX B09B (2x)DV-B0_UART2-RX B09E (1x)DV-B1_UART2-TX B03B (1x)DV-B1_UART2-TX B09B (2x)DV-B1_UART2-TX B09E (1x)DV-B2_DEBUG-BREAK B03B (2x)DV-B2_DEBUG-BREAK B09B (1x)DV-B2_DEBUG-BREAK B09E (1x)DV-B3_AUDIO-MUTE B03B (1x)DV-B3_AUDIO-MUTE B09B (1x)DV-B3_AUDIO-MUTE B09E (1x)DV-B4_UV0 B09B (1x)DV-B4_UV0 B09E (1x)DV-B5_UV1 B09B (1x)DV-B5_UV1 B09E (1x)DV-B6_Y0 B09B (1x)DV-B6_Y0 B09E (1x)DV-B7_Y1 B09B (1x)DV-B7_Y1 B09E (1x)DV-CLK B09B (1x)DV-CLK B09E (1x)DV-CLK-PLL B09E (3x)DV-FF_DE B09B (1x)DV-FF_DE B09E (1x)DV-G0_UV2 B09B (1x)DV-G0_UV2 B09E (1x)DV-G1_UV3 B09B (1x)DV-G1_UV3 B09E (1x)DV-G2_UV4 B09B (1x)DV-G2_UV4 B09E (1x)DV-G3_UV5 B09B (1x)DV-G3_UV5 B09E (1x)DV-G4_UV6 B09B (1x)DV-G4_UV6 B09E (1x)DV-G5_UV7 B09B (1x)DV-G5_UV7 B09E (1x)DV-G6_UV8 B09B (1x)DV-G6_UV8 B09E (1x)DV-G7_UV9 B09B (1x)DV-G7_UV9 B09E (1x)DV-HS B09B (1x)DV-HS B09E (1x)DVID0 B11A (1x)DVID0 B11H (1x)DVID1 B11A (1x)DVID1 B11H (1x)DVID2 B11A (1x)DVID2 B11H (1x)DVID3 B11A (1x)DVID3 B11H (1x)DVID4 B11A (1x)DVID4 B11H (1x)DVID5 B11A (1x)DVID5 B11H (1x)DVID6 B11A (1x)DVID6 B11H (1x)DVID7 B11A (1x)DVID7 B11H (1x)DV-R0_Y2 B09B (1x)DV-R0_Y2 B09E (1x)DV-R1_Y3 B09B (1x)DV-R1_Y3 B09E (1x)DV-R2_Y4 B09B (1x)DV-R2_Y4 B09E (1x)DV-R3_Y5 B09B (1x)DV-R3_Y5 B09E (1x)DV-R4_Y6 B09B (1x)DV-R4_Y6 B09E (1x)DV-R5_Y7 B09B (1x)DV-R5_Y7 B09E (1x)DV-R6_Y8 B09B (1x)DV-R6_Y8 B09E (1x)DV-R7_Y9 B09B (1x)DV-R7_Y9 B09E (1x)DV-VS B09B (1x)DV-VS B09E (1x)EA B03B (2x)EJTAG-DETECT B03B (2x)EJTAG-DETECT B03C (1x)EJTAG-TCK B03C (2x)EJTAG-TDI B03C (3x)EJTAG-TDO B03C (2x)EJTAG-TMS B03C (3x)
EJTAG-TRSTN B03C (3x)EMI-A(1) B11A (1x)EMI-A(1) B11B (2x)EMI-A(10) B11A (1x)EMI-A(10) B11B (2x)EMI-A(11) B11B (2x)EMI-A(12) B11A (1x)EMI-A(12) B11B (2x)EMI-A(13) B11A (1x)EMI-A(13) B11B (2x)EMI-A(14) B11A (2x)EMI-A(14) B11B (2x)EMI-A(15) B11A (1x)EMI-A(15) B11B (2x)EMI-A(16) B11B (2x)EMI-A(17) B11B (2x)EMI-A(18) B11B (2x)EMI-A(19) B11B (2x)EMI-A(2) B11A (1x)EMI-A(2) B11B (2x)EMI-A(20) B11B (2x)EMI-A(21) B11B (2x)EMI-A(22) B11B (2x)EMI-A(23) B11B (1x)EMI-A(3) B11A (1x)EMI-A(3) B11B (2x)EMI-A(4) B11A (1x)EMI-A(4) B11B (2x)EMI-A(5) B11A (1x)EMI-A(5) B11B (2x)EMI-A(6) B11A (1x)EMI-A(6) B11B (2x)EMI-A(7) B11A (1x)EMI-A(7) B11B (2x)EMI-A(8) B11A (1x)EMI-A(8) B11B (2x)EMI-A(9) B11A (1x)EMI-A(9) B11B (2x)EMI-A25 B11B (1x)EMI-A26 B11B (1x)EMI-D(0) B11B (2x)EMI-D(1) B11B (2x)EMI-D(10) B11B (2x)EMI-D(11) B11B (2x)EMI-D(12) B11B (2x)EMI-D(13) B11B (2x)EMI-D(14) B11B (2x)EMI-D(15) B11B (2x)EMI-D(2) B11B (2x)EMI-D(3) B11B (2x)EMI-D(4) B11B (2x)EMI-D(5) B11B (2x)EMI-D(6) B11B (2x)EMI-D(7) B11B (2x)EMI-D(8) B11B (2x)EMI-D(9) B11B (2x)EMI-FLASH-CSnot B11B (2x)EMI-OEnot B11B (2x)EMI-RB B11B (2x)EMI-WRnot B11B (2x)EN_1S10 B11F (2x)ENABLE_12V_SUPP B12B (2x)ENABLE-1V2 B01A (1x)ENABLE-1V2 B03B (2x)ENABLE-3V3 B01A (1x)ENABLE-3V3 B01C (1x)ENABLE-3V3 B03B (2x)ENABLE-3V3 B05A (1x)FE-CLK B02A (1x)FE-CLK B09A (1x)FE-CLK B11A (1x)FE-DATA0 B02A (1x)FE-DATA0 B09A (1x)FE-DATA0 B11A (1x)FE-DATA1 B02A (1x)FE-DATA1 B09A (1x)FE-DATA1 B11A (1x)FE-DATA2 B02A (1x)FE-DATA2 B09A (1x)FE-DATA2 B11A (1x)FE-DATA3 B02A (1x)FE-DATA3 B09A (1x)FE-DATA3 B11A (1x)FE-DATA4 B02A (1x)FE-DATA4 B09A (1x)
Circuit Diagrams and PWB Layouts EN 111PB52.2HU LA 10.
2010-Mar-05
SSB: SRP List Part 2
3139 283 3017.218730_601_090921.eps
090921
Netname Diagram
FE-DATA4 B11A (1x)FE-DATA5 B02A (1x)FE-DATA5 B09A (1x)FE-DATA5 B11A (1x)FE-DATA6 B02A (1x)FE-DATA6 B09A (1x)FE-DATA6 B11A (1x)FE-DATA7 B02A (1x)FE-DATA7 B09A (1x)FE-DATA7 B11A (1x)FE-ERR B02A (1x)FE-ERR B09A (2x)FE-SOP B02A (1x)FE-SOP B09A (1x)FE-SOP B11A (1x)FE-VALID B02A (1x)FE-VALID B09A (1x)FE-VALID B11A (1x)FLASH-notRESET B11B (1x)FLASH-notRESET B11F (1x)FPGA_TCK B09D (1x)FPGA_TCK B09E (1x)FPGA_TDI B09D (1x)FPGA_TDI B09E (1x)FPGA_TDO B09D (1x)FPGA_TDO B09E (1x)FPGA_TMS B09D (1x)FPGA_TMS B09E (1x)FRONT_C B03H (1x)FRONT_C B07B (1x)FRONT_Y-CVBS B03H (1x)FRONT_Y-CVBS B07B (1x)FRONT-AIN5-L B03G (1x)FRONT-AIN5-L B07B (1x)FRONT-AIN5-R B03G (1x)FRONT-AIN5-R B07B (1x)GND-ISO B12A (3x)GND-RX B10C (5x)GND-SIG B01A (15x)GNDSND B05A (31x)GND-TX B10C (6x)HOT-PLUG B06B (3x)HOT-PLUG B09A (1x)IF-N B02A (1x)IF-N B03H (1x)IF-P B02A (1x)IF-P B03H (1x)IR_OUT B12B (3x)IR_OUT_LN B12B (2x)IR-IN_DATA_IN_RXD_SDA1_IB B12B (4x)IR-IN_DATA_IN_RXD_SDA1_LN B12B (2x)IR-IN_DATA_IN_RXD_SDA1_RJ B12B (3x)IR-out-iB B08C (1x)IR-out-iB B12B (1x)IRQ-PCI B03C (1x)IRQ-PCI B08A (2x)ITV-VGA-H B03H (1x)ITV-VGA-H B07C (1x)ITV-VGA-V B03H (1x)ITV-VGA-V B07C (1x)JTAG-TCK B11A (2x)JTAG-TCK B11G (1x)JTAG-TDI B11A (2x)JTAG-TDI B11G (1x)JTAG-TDO B11A (2x)JTAG-TDO B11G (1x)JTAG-TMS B11A (2x)JTAG-TMS B11G (1x)JTAG-TRSTn B11A (1x)JTAG-TRSTn B11G (1x)KEYBOARD B03B (2x)KEYBOARD B08C (1x)LAMP-ON-OUT B04A (1x)LAMP-ON-OUT B10B (1x)LAMP-ON-OUT B13A (1x)LED1-3V3 B03B (2x)LED1-3V3 B12B (1x)LED1-OUT B08C (1x)LED1-OUT B12B (1x)LED2-3V3 B03B (2x)LED2-3V3 B12A (1x)LED2-3V3 B12B (1x)LED2-OUT B08C (1x)
LED2-OUT B12B (1x)LIGHT-SENSOR B03B (1x)LIGHT-SENSOR B08C (1x)LMI-A(0) B11C (3x)LMI-A(1) B11C (3x)LMI-A(10) B11C (3x)LMI-A(11) B11C (3x)LMI-A(12) B11C (3x)LMI-A(2) B11C (3x)LMI-A(3) B11C (3x)LMI-A(4) B11C (3x)LMI-A(5) B11C (3x)LMI-A(6) B11C (3x)LMI-A(7) B11C (3x)LMI-A(8) B11C (3x)LMI-A(9) B11C (3x)LMI-BA0 B11C (3x)LMI-BA1 B11C (3x)LMI-CASnot B11C (3x)LMI-CLK B11C (4x)LMI-CLKEN B11C (3x)LMI-CLKnot B11C (4x)LMI-CSnot B11C (3x)LMI-D(0) B11C (2x)LMI-D(1) B11C (2x)LMI-D(10) B11C (2x)LMI-D(11) B11C (2x)LMI-D(12) B11C (2x)LMI-D(13) B11C (2x)LMI-D(14) B11C (2x)LMI-D(15) B11C (2x)LMI-D(16) B11C (2x)LMI-D(17) B11C (2x)LMI-D(18) B11C (2x)LMI-D(19) B11C (2x)LMI-D(2) B11C (2x)LMI-D(20) B11C (2x)LMI-D(21) B11C (2x)LMI-D(22) B11C (2x)LMI-D(23) B11C (2x)LMI-D(24) B11C (2x)LMI-D(25) B11C (2x)LMI-D(26) B11C (2x)LMI-D(27) B11C (2x)LMI-D(28) B11C (2x)LMI-D(29) B11C (2x)LMI-D(3) B11C (2x)LMI-D(30) B11C (2x)LMI-D(31) B11C (2x)LMI-D(4) B11C (2x)LMI-D(5) B11C (2x)LMI-D(6) B11C (2x)LMI-D(7) B11C (2x)LMI-D(8) B11C (2x)LMI-D(9) B11C (2x)LMI-DQM0 B11C (2x)LMI-DQM1 B11C (2x)LMI-DQM2 B11C (2x)LMI-DQM3 B11C (2x)LMI-DQS0 B11C (2x)LMI-DQS1 B11C (2x)LMI-DQS2 B11C (2x)LMI-DQS3 B11C (2x)LMI-RASnot B11C (3x)LMI-VREF B11C (2x)LMI-VREF-ST B11C (2x)LMI-WEnot B11C (3x)LN_PWR B12A (1x)LN_PWR B12B (3x)MPEG4_PWR B11F (1x)MP-LED1 B09E (1x)MP-LED2 B09E (1x)MP-LED3 B09E (1x)MP-LED4 B09E (1x)MP-LED5 B09E (1x)MSEL1 B09E (2x)MUTE_iB B12A (1x)MUTE_iB B12B (1x)NAND-AD(0) B03F (2x)NAND-AD(1) B03F (2x)NAND-AD(2) B03F (2x)NAND-AD(3) B03F (2x)NAND-AD(4) B03F (2x)NAND-AD(5) B03F (2x)NAND-AD(6) B03F (2x)
NAND-AD(7) B03F (2x)NAND-ALE B03F (2x)NAND-CLE B03F (2x)NAND-REn B03F (2x)NAND-WEn B03F (2x)nCONFIG B09D (1x)nCONFIG B09E (1x)nCSO B09D (1x)nCSO B09E (1x)NVM_LOAD B12B (2x)ON-MODE B01B (1x)ON-MODE B03B (3x)ON-MODE B05A (1x)ON-MODE B09D (1x)ON-MODE B10B (1x)P3-JTAG-TCK B10C (1x)P3-JTAG-TD-CON-PACIFIC B10C (1x)P3-JTAG-TD-PACIFIC-PNX5050 B10C (1x)P3-JTAG-TMS B10C (1x)P3-JTAG-TRST B10C (1x)P3-VS B10B (1x)P3-VS B10C (1x)PARX-DDC-SCL B06B (1x)PARX-DDC-SCL B06C (1x)PARX-DDC-SDA B06B (1x)PARX-DDC-SDA B06C (1x)PBRX-DDC-SCL B06B (1x)PBRX-DDC-SCL B06C (1x)PBRX-DDC-SDA B06B (1x)PBRX-DDC-SDA B06C (1x)PCEC-HDMI B06B (4x)PCI-AD0 B03D (1x)PCI-AD0 B03F (1x)PCI-AD0 B08A (1x)PCI-AD1 B03D (1x)PCI-AD1 B03F (1x)PCI-AD1 B08A (1x)PCI-AD10 B03D (1x)PCI-AD10 B08A (1x)PCI-AD11 B03D (1x)PCI-AD11 B08A (1x)PCI-AD12 B03D (1x)PCI-AD12 B08A (1x)PCI-AD13 B03D (1x)PCI-AD13 B08A (1x)PCI-AD14 B03D (1x)PCI-AD14 B08A (1x)PCI-AD15 B03D (1x)PCI-AD15 B08A (1x)PCI-AD16 B03D (1x)PCI-AD16 B08A (1x)PCI-AD17 B03D (1x)PCI-AD17 B08A (1x)PCI-AD18 B03D (1x)PCI-AD18 B08A (1x)PCI-AD19 B03D (1x)PCI-AD19 B08A (1x)PCI-AD2 B03D (1x)PCI-AD2 B08A (1x)PCI-AD20 B03D (1x)PCI-AD20 B08A (1x)PCI-AD21 B03D (1x)PCI-AD21 B08A (1x)PCI-AD22 B03D (1x)PCI-AD22 B08A (2x)PCI-AD23 B03D (1x)PCI-AD23 B08A (1x)PCI-AD24 B03D (2x)PCI-AD24 B03F (1x)PCI-AD24 B08A (1x)PCI-AD25 B03D (1x)PCI-AD25 B03F (1x)PCI-AD25 B08A (1x)PCI-AD26 B03D (1x)PCI-AD26 B03F (1x)PCI-AD26 B08A (1x)PCI-AD27 B03D (1x)PCI-AD27 B03F (1x)PCI-AD27 B08A (1x)PCI-AD28 B03D (1x)PCI-AD28 B03F (1x)PCI-AD28 B08A (1x)PCI-AD29 B03D (1x)PCI-AD29 B03F (1x)PCI-AD29 B08A (1x)
PCI-AD3 B03D (1x)PCI-AD3 B08A (1x)PCI-AD30 B03D (1x)PCI-AD30 B03F (1x)PCI-AD30 B08A (1x)PCI-AD31 B03D (1x)PCI-AD31 B03F (1x)PCI-AD31 B08A (1x)PCI-AD4 B03D (1x)PCI-AD4 B08A (1x)PCI-AD5 B03D (1x)PCI-AD5 B08A (1x)PCI-AD6 B03D (1x)PCI-AD6 B08A (1x)PCI-AD7 B03D (1x)PCI-AD7 B08A (1x)PCI-AD8 B03D (1x)PCI-AD8 B08A (1x)PCI-AD9 B03D (1x)PCI-AD9 B08A (1x)PCI-CBE0 B03D (1x)PCI-CBE0 B08A (1x)PCI-CBE1 B03D (1x)PCI-CBE1 B03F (1x)PCI-CBE1 B08A (1x)PCI-CBE2 B03D (1x)PCI-CBE2 B03F (1x)PCI-CBE2 B08A (1x)PCI-CBE3 B03D (1x)PCI-CBE3 B08A (1x)PCI-CLK-OUT B03C (2x)PCI-CLK-PNX5050_CLK-MOP B03C (1x)PCI-CLK-PNX5050_CLK-MOP B09E (1x)PCI-CLK-PNX8535 B03C (1x)PCI-CLK-PNX8535 B03D (1x)PCI-CLK-USB20 B03C (1x)PCI-CLK-USB20 B08A (1x)PCI-DEVSEL B03D (2x)PCI-DEVSEL B08A (1x)PCI-FRAME B03D (2x)PCI-FRAME B08A (1x)PCI-GNT B03D (2x)PCI-GNT-B B03D (2x)PCI-GNT-PNX8535 B03D (1x)PCI-GNT-USB20 B03D (1x)PCI-GNT-USB20 B08A (2x)PCI-INTA-OUT B03D (1x)PCI-IRDY B03D (2x)PCI-IRDY B08A (1x)PCI-PAR B03D (1x)PCI-PAR B08A (1x)PCI-PERR B03D (2x)PCI-PERR B08A (1x)PCI-REQ B03D (2x)PCI-REQ-B B03D (2x)PCI-REQ-PNX8535 B03D (1x)PCI-REQ-USB20 B03D (1x)PCI-REQ-USB20 B08A (1x)PCI-SERR B03D (2x)PCI-SERR B08A (1x)PCI-STOP B03D (2x)PCI-STOP B08A (1x)PCI-TRDY B03D (2x)PCI-TRDY B08A (1x)PCMOUT2 B11A (1x)PCMOUT2 B11D (1x)PCMOUT3 B11A (1x)PCMOUT3 B11D (1x)PCMOUT4 B11A (1x)PCMOUT4 B11D (1x)PCRX-DDC-SCL B06B (1x)PCRX-DDC-SCL B06C (1x)PCRX-DDC-SDA B06B (1x)PCRX-DDC-SDA B06C (1x)PDRX-DDC-SCL B06C (1x)PDRX-DDC-SCL B11A (1x)PDRX-DDC-SDA B06C (1x)PDRX-DDC-SDA B11A (1x)PEND_IR B12A (1x)PEND_IR B12B (2x)PI-SCL B02A (1x)PI-SDA B02A (1x)POR B12A (1x)POR B12B (2x)POR1 B12A (1x)
POR1 B12B (1x)POWER_DOWN B03B (1x)POWER-OK-DISPLAY B03B (1x)POWER-OK-DISPLAY B13A (1x)PSEN B03B (2x)PS-LN B12A (2x)PS-LNA B12A (1x)PS-LNA B12B (2x)PWM-3 B10C (2x)PWM-OR B10C (2x)RC B03B (3x)RC B08C (1x)RC B12B (1x)RC_IN_MICRO B12B (3x)REGIMBEAU_CVBS-SWITCH B03B (2x)RESET-NVM_WP-NANDFLASH B03B (3x)RESET-NVM_WP-NANDFLASH B03F (1x)RESET-NVM_WP-NANDFLASH-INV B03F (2x)RESET-PI B02A (1x)RESET-PI B03B (3x)RESET-ST7101 B03B (1x)RESET-ST7101 B11A (1x)RESET-STBY B03B (2x)RESET-STBY B03C (1x)RESET-SYS-DETECT B02A (1x)RESET-SYS-DETECT B03B (2x)RESET-SYS-DETECT B03C (2x)RESET-SYS-DETECT B06C (1x)RESET-SYS-DETECT B08A (1x)RREF-PNX8535 B03A (1x)RREF-PNX8535 B09A (1x)RSRX B06A (1x)RSRX B12B (2x)RST-TARGETn B11G (1x)RSTX B06A (1x)RSTX B12B (2x)RX0- B06C (1x)RX0- B09A (1x)RX0+ B06C (1x)RX0+ B09A (1x)RX1- B06C (1x)RX1- B09A (1x)RX1+ B06C (1x)RX1+ B09A (1x)RX2- B06C (1x)RX2- B09A (1x)RX2+ B06C (1x)RX2+ B09A (1x)RXC- B06C (1x)RXC- B09A (1x)RXC+ B06C (1x)RXC+ B09A (1x)RXD B03B (1x)RXD B06A (1x)RXD_PC B06A (1x)RXD_PC B12A (1x)RXD0 B06A (1x)RXD0 B12B (1x)RXD-ASC2 B11A (1x)RXD-ASC2 B11G (1x)RXD-ASC3 B11A (1x)RXD-ASC3 B11G (1x)RXD-MIPS B03B (1x)RXD-MIPS B03C (1x)RXD-UP B03B (3x)RxP3CLK B10C (1x)RxP3eA-_G7 B09C (1x)RxP3eA-_G7 B10A (1x)RxP3eA-_G7 B10C (1x)RxP3eA+_G6 B09C (1x)RxP3eA+_G6 B10A (1x)RxP3eA+_G6 B10C (1x)RxP3eB-_G5 B09C (1x)RxP3eB-_G5 B10A (1x)RxP3eB-_G5 B10C (1x)RxP3eB+_G4 B09C (1x)RxP3eB+_G4 B10A (1x)RxP3eB+_G4 B10C (1x)RxP3eC-_G3 B09C (1x)RxP3eC-_G3 B10A (1x)RxP3eC-_G3 B10C (1x)RxP3eC+_G2 B09C (1x)RxP3eC+_G2 B10A (1x)RxP3eC+_G2 B10C (1x)RxP3eCLK-_G0 B09C (1x)
RxP3eCLK-_G0 B10A (1x)RxP3eCLK-_G0 B10C (1x)RxP3eCLK+_G1 B09C (1x)RxP3eCLK+_G1 B10A (1x)RxP3eCLK+_G1 B10C (1x)RxP3eD-_R9 B09C (1x)RxP3eD-_R9 B10A (1x)RxP3eD-_R9 B10C (1x)RxP3eD+_R8 B09C (1x)RxP3eD+_R8 B10A (1x)RxP3eD+_R8 B10C (1x)RxP3eE-_R7 B09C (1x)RxP3eE-_R7 B10A (1x)RxP3eE-_R7 B10C (1x)RxP3eE+_R6 B09C (1x)RxP3eE+_R6 B10A (1x)RxP3eE+_R6 B10C (1x)RxP3FF B10C (1x)RxP3HS_DE B10C (1x)RxP3oA-_B9 B09C (2x)RxP3oA-_B9 B10A (1x)RxP3oA-_B9 B10C (1x)RxP3oA+_B8 B09C (2x)RxP3oA+_B8 B10A (1x)RxP3oA+_B8 B10C (1x)RxP3oB-_B7 B09C (2x)RxP3oB-_B7 B10A (1x)RxP3oB-_B7 B10C (1x)RxP3oB+_B6 B09C (2x)RxP3oB+_B6 B10A (1x)RxP3oB+_B6 B10C (1x)RxP3oC-_B5 B09C (2x)RxP3oC-_B5 B10A (1x)RxP3oC-_B5 B10C (1x)RxP3oC+_B4 B09C (2x)RxP3oC+_B4 B10A (1x)RxP3oC+_B4 B10C (1x)RxP3oCLK-_B2 B09C (2x)RxP3oCLK-_B2 B10A (1x)RxP3oCLK-_B2 B10C (1x)RxP3oCLK+_B3 B09C (2x)RxP3oCLK+_B3 B10A (1x)RxP3oCLK+_B3 B10C (1x)RxP3oD-_B1 B09C (2x)RxP3oD-_B1 B10A (1x)RxP3oD-_B1 B10C (1x)RxP3oD+_B0 B09C (2x)RxP3oD+_B0 B10A (1x)RxP3oD+_B0 B10C (1x)RxP3oE-_G9 B09C (2x)RxP3oE-_G9 B10A (1x)RxP3oE-_G9 B10C (1x)RxP3oE+_G8 B09C (2x)RxP3oE+_G8 B10A (1x)RxP3oE+_G8 B10C (1x)RxP3R0 B10C (1x)RxP3R1 B10C (1x)RxP3R2 B10C (1x)RxP3R3 B10C (1x)RxP3R4 B10C (1x)RxP3R5 B10C (1x)RxP3VS B10C (1x)SCL1 B03C (2x)SCL1_iB B12B (2x)SCL2 B03C (2x)SCL-2 B03C (2x)SCL3 B03C (2x)SCL-AMBI B10B (1x)SCL-AMBI B13A (1x)SCL-AMBI-3V3 B09E (1x)SCL-AMBI-3V3 B10B (1x)SCL-AMBI-3V3 B10C (1x)SCL-I2C4-DISP B10A (1x)SCL-I2C4-DISP B10B (2x)SCL-SLAVE B03C (2x)SCL-SSB B02A (1x)SCL-SSB B03C (4x)SCL-SSB B06C (1x)SCL-SSB B09E (1x)SCL-SSB B10C (1x)SCL-SSB B11A (1x)SCL-SSB B11H (2x)SCL-SSB-MUX1 B03B (1x)SCL-SSB-MUX1 B03C (2x)SCL-SSB-MUX1 B10B (1x)
SCL-SSB-MUX1 B12B (1x)SCL-SSB-MUX2 B02A (1x)SCL-SSB-MUX2 B03C (2x)SCL-UP-MIPS B03B (3x)SCL-UP-MIPS B03C (2x)SD1-A0 B09E (1x)SD1-A1 B09E (1x)SD1-A10 B09E (1x)SD1-A11 B09E (1x)SD1-A2 B09E (1x)SD1-A3 B09E (1x)SD1-A4 B09E (1x)SD1-A5 B09E (1x)SD1-A6 B09E (1x)SD1-A7 B09E (1x)SD1-A8 B09E (1x)SD1-A9 B09E (1x)SD1-CAS B09E (1x)SD1-CKE B09E (1x)SD1-CLK B09E (1x)SD1-CS B09E (1x)SD1-DQ1 B09E (1x)SD1-DQ10 B09E (1x)SD1-DQ11 B09E (1x)SD1-DQ12 B09E (1x)SD1-DQ13 B09E (1x)SD1-DQ14 B09E (1x)SD1-DQ15 B09E (1x)SD1-DQ16 B09E (1x)SD1-DQ2 B09E (1x)SD1-DQ3 B09E (1x)SD1-DQ4 B09E (1x)SD1-DQ5 B09E (1x)SD1-DQ6 B09E (1x)SD1-DQ7 B09E (1x)SD1-DQ8 B09E (1x)SD1-DQ9 B09E (1x)SD1-DQM B09E (1x)SD1-RAS B09E (1x)SD1-WE B09E (1x)SDA_I2C B12B (2x)SDA1 B03C (2x)SDA1_iB B12B (2x)SDA2 B03C (2x)SDA-2 B03C (2x)SDA3 B03C (2x)SDA-AMBI B10B (1x)SDA-AMBI B13A (1x)SDA-AMBI-3V3 B09E (1x)SDA-AMBI-3V3 B10B (1x)SDA-AMBI-3V3 B10C (1x)SDA-I2C4-DISP B10A (1x)SDA-I2C4-DISP B10B (2x)SDA-SLAVE B03C (2x)SDA-SSB B02A (1x)SDA-SSB B03C (4x)SDA-SSB B06C (1x)SDA-SSB B09E (1x)SDA-SSB B10C (1x)SDA-SSB B11A (1x)SDA-SSB B11H (2x)SDA-SSB-MUX1 B03B (1x)SDA-SSB-MUX1 B03C (2x)SDA-SSB-MUX1 B10B (1x)SDA-SSB-MUX1 B12B (1x)SDA-SSB-MUX2 B02A (1x)SDA-SSB-MUX2 B03C (2x)SDA-UP-MIPS B03B (3x)SDA-UP-MIPS B03C (2x)SDM B03B (3x)SENSE+1V2-FPGA B01A (1x)SENSE+1V2-PNX8535 B01A (1x)SENSE+1V2-PNX8535 B03A (1x)SENSE+1V2-PNX8535 B03B (1x)SIDEIO-DETECT B12B (1x)SPDIF-OUT B03G (1x)SPDIF-OUT B06A (1x)SPI_CLK_IB B12B (4x)SPI_CLK_LN B12B (2x)SPI_CLK_RJ B12B (2x)SPI_CLK_RJ1 B12B (2x)SPI_DATA_IN_IB B12B (2x)SPI_DATA_OUT_IB B12B (4x)SPI_DATA_OUT_LN B12B (2x)SPI_DATA_OUT_RJ B12B (2x)
EN 112PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
SSB: SRP List Part 3
3139 283 3017.218730_602_090921.eps
090921
Netname DiagramSPI_DATA_OUT_RJ1 B12B (2x)SPI_NO_LOGNET B12B (2x)SPI-CLK B03B (2x)SPI-CSB B03B (2x)SPI-OUT B06A (1x)SPI-OUT B07A (1x)SPI-PROG B03B (3x)SPI-SDI B03B (3x)SPI-SDO B03B (2x)SPI-WP B03B (3x)STANDBY B05A (1x)STANDBYn B01A (1x)STANDBYn B01B (1x)SUPPLY-FAULT B01A (1x)SUPPLY-FAULT B03B (2x)TCK_iB B12B (2x)TDI_iB B12B (2x)TDO_iB B12B (2x)TMS_iB B12B (2x)TMUCLK B11A (1x)TRIG-IN B11A (1x)TRIG-IN B11G (1x)TRIG-OUT B11A (1x)TRIG-OUT B11G (1x)TUN-FE-CLK B02A (2x)TUN-FE-DATA0 B02A (2x)TUN-FE-DATA1 B02A (2x)TUN-FE-DATA2 B02A (2x)TUN-FE-DATA3 B02A (2x)TUN-FE-DATA4 B02A (2x)TUN-FE-DATA5 B02A (2x)TUN-FE-DATA6 B02A (2x)TUN-FE-DATA7 B02A (2x)TUN-FE-ERR B02A (1x)TUN-FE-SOP B02A (2x)TUN-FE-VALID B02A (2x)TV_POR B12A (1x)TV_POR B12B (1x)TX8535oA- B09B (1x)TX8535oA- B09C (1x)TX8535oA+ B09B (1x)TX8535oA+ B09C (1x)TX8535oB- B09B (1x)TX8535oB- B09C (1x)TX8535oB+ B09B (1x)TX8535oB+ B09C (1x)TX8535oC- B09B (1x)TX8535oC- B09C (1x)TX8535oC+ B09B (1x)TX8535oC+ B09C (1x)TX8535oCLK- B09B (1x)TX8535oCLK- B09C (1x)TX8535oCLK+ B09B (1x)TX8535oCLK+ B09C (1x)TX8535oD- B09B (1x)TX8535oD- B09C (1x)TX8535oD+ B09B (1x)TX8535oD+ B09C (1x)TX8535oE- B09B (1x)TX8535oE- B09C (1x)TX8535oE+ B09B (1x)TX8535oE+ B09C (1x)TXD B03B (1x)TXD B06A (1x)TXD_PC B06A (1x)TXD_PC B12A (1x)TXD0 B06A (1x)TXD0 B12B (1x)TXD-ASC2 B11A (1x)TXD-ASC2 B11G (1x)TXD-ASC3 B11A (1x)TXD-ASC3 B11G (1x)TXD-MIPS B03B (1x)TXD-MIPS B03C (1x)TXD-UP B03B (3x)TXEA- B10A (1x)TXEA- B10C (1x)TXEA+ B10A (1x)
TXEA+ B10C (1x)TXEB- B10A (1x)TXEB- B10C (1x)TXEB+ B10A (1x)TXEB+ B10C (1x)TXEC- B10A (1x)TXEC- B10C (1x)TXEC+ B10A (1x)TXEC+ B10C (1x)TXECLK- B10A (1x)TXECLK- B10C (1x)TXECLK+ B10A (1x)TXECLK+ B10C (1x)TXED- B10A (1x)TXED- B10C (1x)TXED+ B10A (1x)TXED+ B10C (1x)TXEE- B10A (1x)TXEE- B10C (1x)TXEE+ B10A (1x)TXEE+ B10C (1x)TxFPGAeA- B09C (1x)TxFPGAeA- B09E (1x)TxFPGAeA+ B09C (1x)TxFPGAeA+ B09E (1x)TxFPGAeB- B09C (1x)TxFPGAeB- B09E (1x)TxFPGAeB+ B09C (1x)TxFPGAeB+ B09E (1x)TxFPGAeC- B09C (1x)TxFPGAeC- B09E (1x)TxFPGAeC+ B09C (1x)TxFPGAeC+ B09E (1x)TxFPGAeCLK- B09C (1x)TxFPGAeCLK- B09E (1x)TxFPGAeCLK+ B09C (1x)TxFPGAeCLK+ B09E (1x)TxFPGAeD- B09C (1x)TxFPGAeD- B09E (1x)TxFPGAeD+ B09C (1x)TxFPGAeD+ B09E (1x)TxFPGAeE- B09C (1x)TxFPGAeE- B09E (1x)TxFPGAeE+ B09C (1x)TxFPGAeE+ B09E (1x)TxFPGAoA- B09C (1x)TxFPGAoA- B09E (1x)TxFPGAoA+ B09C (1x)TxFPGAoA+ B09E (1x)TxFPGAoB- B09C (1x)TxFPGAoB- B09E (1x)TxFPGAoB+ B09C (1x)TxFPGAoB+ B09E (1x)TxFPGAoC- B09C (1x)TxFPGAoC- B09E (1x)TxFPGAoC+ B09C (1x)TxFPGAoC+ B09E (1x)TxFPGAoCLK- B09C (1x)TxFPGAoCLK- B09E (1x)TxFPGAoCLK+ B09C (1x)TxFPGAoCLK+ B09E (1x)TxFPGAoD- B09C (1x)TxFPGAoD- B09E (1x)TxFPGAoD+ B09C (1x)TxFPGAoD+ B09E (1x)TxFPGAoE- B09C (1x)TxFPGAoE- B09E (1x)TxFPGAoE+ B09C (1x)TxFPGAoE+ B09E (1x)TXOA- B10A (1x)TXOA- B10C (1x)TXOA+ B10A (1x)TXOA+ B10C (1x)TXOB- B10A (1x)TXOB- B10C (1x)TXOB+ B10A (1x)TXOB+ B10C (1x)TXOC- B10A (1x)TXOC- B10C (1x)
TXOC+ B10A (1x)TXOC+ B10C (1x)TXOCLK- B10A (1x)TXOCLK- B10C (1x)TXOCLK+ B10A (1x)TXOCLK+ B10C (1x)TXOD- B10A (1x)TXOD- B10C (1x)TXOD+ B10A (1x)TXOD+ B10C (1x)TXOE- B10A (1x)TXOE- B10C (1x)TXOE+ B10A (1x)TXOE+ B10C (1x)UART-SWITCH B03B (3x)UART-SWITCHn B03B (2x)USB20-1-DM B08A (2x)USB20-1-DM B08B (1x)USB20-1-DP B08A (2x)USB20-1-DP B08B (1x)USB20-2-DM B08A (2x)USB20-2-DM B08B (1x)USB20-2-DP B08A (2x)USB20-2-DP B08B (1x)USB20-OC1 B08A (2x)USB20-OC1 B08B (1x)USB20-OC2 B08A (2x)USB20-OC2 B08B (1x)USB20-PWE1 B08A (1x)USB20-PWE1 B08B (1x)USB20-PWE2 B08A (1x)USB20-PWE2 B08B (1x)V_LVC04 B11A (4x)VDD B03G (1x)VDD B05A (2x)VDDA B05A (3x)VDDA-ADC B03A (2x)VDDA-AUDIO B03A (2x)VDDA-AUDIO B03G (2x)VDDA-DAC B03A (2x)VDDA-LVDS B03A (2x)VDDA-LVDS B09B (1x)VDDE-2V5 B11E (7x)VDDE-3V3 B11E (3x)VDISP B10A (1x)VDISP B10B (1x)VGA_B B03H (1x)VGA_B B07C (1x)VGA_G B03H (1x)VGA_G B07C (1x)VGA_R B03H (1x)VGA_R B07C (1x)VSS B03G (1x)VSS B05A (3x)VSSA B05A (5x)WP-FLASH-ST B11A (1x)WP-FLASH-ST B11B (1x)XIO-ACK B03D (1x)XIO-ACK B03F (2x)XIO-AD25 B03D (1x)XIO-SEL-NAND B03D (1x)XIO-SEL-NAND B03F (2x)
Circuit Diagrams and PWB Layouts EN 113PB52.2HU LA 10.
2010-Mar-05
Layout Small Signal Board (Top side)
3139 283 3017.2 18730_543_090921
090921
1002
1014 11
1611
21
112211231124
1125
1200
12051230
1240
1241
1250
1A10
1AD1
1AM
0
1AM
1
1AM2
1B10
1B20
1B22
1B23
1B26
1B28
1B29
1C00
1C01
1C02
1D12
1E10
1E21
1E30
1E44
1E45
1E46
1E471E
50
1E51
1E90
1G501G70
1GE
0
1GE
1
1H10
1HB0
1HF
G1H
P0
1J101J11
1J401J41
1J44
1J45
1JA01JA
1
1JA4
1JB01JB
11JEA
1JEB
1JE
C
1JED
1JEE
1JEF
1JEG
1N01
1N30
1N51
1Q67
1Q70
1Q75
1Q76
1Q79
1Q84
1Q88
1Q89
1U00
2004
2013
2100
2101
2102
2111
2112 2120
21222123
2127
21312132
2133
2134
2135
2136
2137
2138
2139
2201
2207
2224
22292230
2291
2292
22A5
2A18
2A19
2A20
2A21
2A22
2A23
2AD
D
2AD
F2AD
G
2AEA
2AEM
2AEU
2AK
32AK
6
2AK
C
2AKD 2AK
E
2AM
1
2AM
2
2AM
3
2AM
4
2D10
2D11
2D12
2D14
2D162D172D
26
2D27
2D28
2D29
2D30
2D33
2D34
2D38
2D39
2D40
2D41
2D44
2D45
2D47
2D48
2D51
2D55
2D56
2D57
2E362E38
2E39
2FC
0
2FE
0
2FF0
2G242G25
2G51
2G55
2G58
2G59
2G67
2G68
2G75
2G76
2GE
0
2GE1
2GE
2
2GE
3
2GE42GE5 2GE6
2GE
72G
E8
2GE
92G
F0
2GF
12G
F2
2GF3
2GF
4
2GF
52G
F6
2GF
72G
F8
2GF9
2GG
1
2GG2
2GG
4
2GG
6
2GG
7
2GG8
2GG
9
2GH1
2GH2 2GH32GH42GH5
2GH
6
2GH
7
2GH
8
2GH
9
2GJ0
2GJ1
2GJ2
2GJ3
2GJ4
2GJ5
2GJ6
2GJ7
2GK
2
2GK
42G
K5
2GK
6
2GL1
2GL2 2GL3
2H07
2H10
2HD
0
2HGX
2HM
32HMG
2HM
H
2HP1
2HR
0
2HR1
2HR
2
2HR3
2HR
8
2HR9
2HR
A2HRB
2HR
D
2HR
F
2HR
G
2HRH
2HR
J
2HRK
2HRQ2HR
R
2HS
1
2HS
2
2HS
3
2HS4
2HS7 2HS
8
2HS9
2HSA
2HSC
2HS
D
2HS
E
2HSJ
2HS
K
2HSM
2HSP
2HT
8
2HT9
2HTA
2HTB
2HTC2HT
G
2HT
H
2HT
J
2HT
P
2HTR
2HT
U
2HTV
2HUB
2HU
Z
2HV
9
2HVB2HV
C
2HV
G
2J11 2J12
2JE1
2N14
2N15
2N16
2N17
2N31
2N32
2N33
2N34
2U02
2U03
2U09
2U33
2U41
2U82
2U89
2U94
2U96
2U97
3018
305630
57
3064
3065
3067
3069 3070
31003101
3102
3122
3133
3134
3135
3139
3141
3142
3201
3202
3205
3209
3214
3215
3216
3217
3224
3225
32373238
32413242
32AL32AM
3A14
3A18
3A21
3A26
3A27
3A28
3A33
3A34
3A51
3A53
3A55
3A56
3A57
3AA
13A
A2
3AA
33A
A4
3AA
53A
A6
3AA
73A
A8
3AA
9
3AA
B
3AA
C
3AA
K
3AA
L
3AA
M
3AB
K
3AB
L
3AB
M
3AB
N
3AD4
3AD
5
3AD6
3AD7
3AD8
3AD9
3ADD
3AKA
3AKB
3AK
C3A
KD
3AKF
3AK
G
3AK
H
3AK
J
3AM
4
3B60
3B61
3D14
3D15
3D20
3D22
3D23
3D25
3D34
3D36
3D37
3D38
3D39
3D40
3D413D43
3D443D45
3E36
3F35 3F363F37
3F38 3F393F40
3F41 3F423F43
3F44 3F453F46
3F47 3F483F49
3F50 3F513F52
3F53 3F543F55
3F56 3F573F58
3F59
3F60
3F61
3F62 3F633F64
3F65
3F66
3F67
3F68
3F69
3F70
3F953F98 3G00
3G01
3G02
3G03
3G04
3G05
3G06
3G07
3G08
3G09
3G10
3G11
3G24
3G25
3G51
3G55
3G57
3G61
3G62
3G65
3G70
3G73
3G92
3G95
3GA
0
3GA1
3GA
2
3GA
3
3GA
63G
C4
3GE
0
3GE1
3GE
2
3GE3
3GE
4
3GE5
3GE6
3GE
7
3GE8
3GE
9
3GF
0
3GF1
3GF
2
3GF3
3GF4
3GF
5
3GF6
3GF
7
3GF
9
3GFA
3GF
C
3GG
0
3GG1
3GG
2
3GG
3
3GG
4
3GG
5
3GG
6
3GG7
3GG9
3GH0
3GH
2
3GH
7
3GH
8
3GH
9
3H01
3H73
3H74
3H85
3H88
3H90
3H93
3H95
3HC3
3HC4
3HC5
3HC6
3HC7
3HC8
3HD
0
3HD
3
3HF
9
3HFJ
3HF
M
3HJ0
3HJE
3HMU
3HM
V
3HP
3
3HP
4
3HP
5
3HP
6
3HP
7
3HP
8
3HP
9
3HR
0
3HR
1
3HR
2
3HR
33H
R7
3HR
83H
R9
3HR
A
3HR
H
3HR
J
3HR
K
3HR
L
3HR
P
3HRR
3HRS
3HR
T
3HRU
3HR
V
3HR
W3HR
Y
3HS1
3HS
2
3HS
8 3HS9
3HSH
3HS
J
3HSM
3HS
N
3HST
3HS
V
3HT3
3HT4
3HT
A
3HTB
3HTC
3HU
Z
3HV
8
3HV
A
3HV
B
3HV
W
3HV
X
3HW
6
3HW
7
3HW
A
3HW
B
3HW
G
3HW
H
3HW
I
3HW
J
3HW
K
3HW
L
3HW
O
3HW
S
3HW
T
3HWU
3HW
V
3HW
X
3HW
Y
3J11
3J12
3J50
3JE2
3JE
3
3N14
3N15
3N19
3U17
3U27
3U52
3U61
4120
4121
4124
42A
7
42A
E
42A
F4AK0
4D02
4D03
4G10
4HD
0
5002 5008
5014
5121
5122
5123 512451
25
5126
5294
5A10
5AD
1
5AK
1
5D10
5D11 5D
12
5D13
5D14
5D15
5D17
5E38
5FA
7
5FA
8
5G00
5G01
5G02
5G03
5G04
5G05
5G06
5G07
5G08
5G09
5G10
5G11
5GE2
5GE
3
5GE45GE5
5HM0
5HM1
5HR0
5HR2
5HR3
5HR5
5HRC
5HR
G
5HT
A
5HT
B
5HT
C
5HV0
5N01
5N02
5U00
5U015U02
6007
6008
6013
6014 6015
6112
6116
6255
6D01
6E36
6E38
6G51
6GE
0
6GE1
6GE
2 6GE3
6HF
0
6J00
6J11
6J12
6U10
71017102
7111
7113 7114
71157116
72A2
72A7
7A00
7A10
7A12
7AA1 7AA2
7AK
1
7AK
A
7AK
F
7B01
7D10
7D13
7D16
7D71
7F90
7FA
5
7G50
7G53
7G56
7G58
7G59
7G61
7GE0
7GE1
7GE
3 7GE
5
7H00
7H02
7H18
7HC0 7HC
1
7HC2
7HG0
7HG1
7HM2
7HV0
7HV
1
7J00
7JE
2
7N00
7U01
7U03
7U06
7U08
7U10
9A20
9A21
9A22
9F92
9F94
9F95
9F96
9F97
9F98
9G54
9G59
9G60
9G90
9G91
9GE
0
9GE
2
9H01
9H03
9HV1
C051
CHY1
IA18
IAC1
IG80
IG83
IGE5
IGF
1
IGF8
IGF9
IGFA
IGH1
IGH9
IHRC
IHRE
IHRK
IHRN
IHR
P
IHRR
IHRS
IHRU
IHTD
IHTE
IHTF
IJ4D
IJAD
IJBD
1JEH
EN 114PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
Layout Small Signal Board (Bottom side)
3139 283 3017.2 18730_544_090921090921
10101011
1012
1013
1120
1135
1231
1B24
1B25
1C04
1E39
1FA0
1HF
0
1J42
1J43
1JA2
1JA
3
1JB2
1JB
3
1JB4
1U21
2002
2007
2011
2030 2031
2073
2074
2075
2103
2113
2114
2115
2116
2117
2118
2121
2128
2129
2130
2200
2202
2203
2204
2205
2206
2218
2219
2220
2221
2222
2223
2231
2232
2243
2250
2269
2276
2280
22A122A2
22A3
22A4
2A24
2A25
2A50
2AA
0
2AA
1
2AA
2
2AA
3
2AA
6
2AA
7
2AA
8
2AA9
2AA
A
2AA
B
2AA
E2A
AF
2AA
G2A
AH
2AA
J2A
AK
2AAL
2AA
M2A
AN
2AA
P2A
AR
2AA
S
2AA
T2A
AU
2AA
V
2AA
W
2AA
Z
2AB
0
2AB
1
2AB
2
2AB3
2AB4
2AB
5
2AB
6
2AB
7
2AB8
2AB
9
2AB
A
2AB
B 2AB
C
2AB
G
2AC
0
2AC
12A
C2
2AC
3
2AD
12A
D2
2AD
3
2AD
4
2AD
5
2AD
6
2AD
7
2AD8
2AD9
2ADA
2ADB
2AD
C
2AD
E
2AE
1
2AE
2
2AE
3
2AE
4
2AE5
2AE6
2AE
7
2AE
8
2AE9
2AE
B
2AE
C
2AED
2AEE
2AEF
2AEG
2AEH
2AE
J
2AE
K
2AEL
2AE
N
2AE
P
2AER
2AE
T
2AE
Z
2AF0
2AF
4
2AF
5
2AF
8
2AF
B
2AF
C 2AF
D
2AF
E
2AF
F
2AFG
2AFH
2AFJ
2AFK
2AF
L
2AF
N
2AF
P
2AF
Q
2AF
R
2AF
S
2AFT
2AF
W
2AF
Y
2AG
4
2AG
5
2AG6
2AG
7
2AG8
2AG9
2AGA
2AGB
2AGC
2AGD
2AG
G
2AG
H
2AGN
2AG
P
2AG
T
2AK
0
2AK
1
2AK4
2AK5
2AK
A2AK
B
2AM0
2B202B222B232B242B252B26
2B27
2B54
2B56
2C00
2C04
2C10
2C11
2C12
2C13
2C14
2C15
2C16
2C17
2C18
2C19
2C20
2C21
2C22
2C23
2C24
2C25
2C26
2D24
2D25
2D31
2D32
2D35
2D36
2D37
2D42
2D43
2D46
2D49
2D50
2D52
2D53
2D54
2D58
2D5F
2D74
2E10
2E12
2E132E14
2E15
2E20
2E21
2E22
2E30
2E312E34
2E40
2E412E44
2E90
2E91
2E92
2E93
2E94
2E95
2FA
0
2FA1
2FA
2
2FA32FA
4
2FA
5
2FA6
2FA
7
2FA8
2FA
9
2FB
0
2FB
12FB2
2FB
3
2FB
4
2FB
5
2FB
6
2FB7
2FB
9
2FC
1
2FC2
2FD
0
2FD
1
2FD2
2FD3
2FD4
2FD5
2FD6
2FD
7
2FD
8
2FD
9
2FE
1
2FE2
2FE
3
2FE
4
2FE
5
2FE6
2FE7
2FF1
2FF2
2FF3
2FF
4
2FF5
2FF6
2FF7
2G00
2G01
2G02
2G03
2G04
2G05
2G06
2G07
2G08
2G09
2G10
2G11
2G12
2G13
2G14
2G15
2G16
2G17
2G18
2G19
2G20
2G21
2G22
2G23
2G50
2G54
2G57
2G60
2G63
2G64
2G65
2G66
2G69
2G70
2G71
2G72
2G78
2G79
2GG
0
2GG3
2GG5
2GH
0
2GK
0
2GK1
2GK
3
2H00
2H01
2H05
2H06
2H08
2H11
2H90
2H91
2HA
0
2HA
1
2HC0
2HC
1
2HF
02H
F1
2HF2
2HF
32H
F4
2HG
02HG
1
2HG
2
2HG3
2HG4
2HG
5
2HG
6
2HG
7
2HG
8
2HG
9
2HG
A
2HG
B
2HGC
2HGD
2HGE
2HGF
2HGG
2HG
H
2HG
J
2HGK
2HGM
2HG
N
2HG
P
2HG
R
2HG
S
2HG
T
2HG
U
2HG
V
2HGW
2HGY
2HGZ
2HH
0
2HH1
2HH2
2HH
3
2HH
4
2HH5
2HH
A
2HHK2HHM
2HH
N2H
HP
2HH
Q
2HK
0
2HK1
2HK2
2HK3
2HK4
2HK5
2HK6
2HK
7
2HK8
2HK9
2HK
A2H
KB
2HKC
2HK
D
2HM8
2HMD
2HME
2HMF
2HMJ
2HMK
2HML
2HP
4 2HP
52H
P6 2H
P7
2HP
8
2HP
A
2HP
B
2HRC 2HRE
2HR
M2H
RN
2HRP
2HRS2HR
T
2HRU
2HR
V
2HR
W
2HR
X
2HRY
2HR
Z
2HS
R
2HS
S
2HS
T
2HS
U
2HS
V
2HS
W
2HS
Y
2HS
Z
2HT
0
2HT1
2HT
2
2HT
3
2HT
4
2HT
5
2HT6
2HT
7
2HTD
2HTE
2HTF
2HT
K
2HU
C
2HU
K
2HUL
2HU
N
2HU
P
2HUQ
2HUR
2HU
W
2HU
X
2HUY
2HV
2
2HV
3
2HV
4
2HV
6
2HV7
2HV
A
2HVD
2HVE
2HY0
2HY
1
2HY
2
2HY
32H
Y4
2HY
52H
Y6
2HY
7
2HY8
2HY9
2HY
A
2HY
B
2HYC
2HYD
2HYE
2HYF
2HYG
2HY
H
2HYJ
2HY
K
2HYN
2HY
P
2HY
R
2HY
S
2HYT
2HYU
2HY
V
2HYW
2HY
Y
2HYZ
2HZ
0
2HZ1
2HZ2
2HZ3
2HZ4
2HZ7
2HZ
82H
Z9
2HZ
A
2HZB
2HZC2HZD
2HZE
2HZF
2HZG
2HZ
H
2HZ
J
2HZ
N
2HZP
2HZR
2HZS
2HZT
2HZ
U
2HZ
V
2J40
2J41
2J42
2J43
2J61
2J62
2JA
0
2JA1
2JA
2
2JA
4
2JB
02JB1
2JB
2
2JB
3
2JC
0
2JC
1
2JC
A
2JC
B
2JC
C
2JCD
2JCE
2JC
F
2JC
G
2JCH
2JCJ
2JC
K
2JC
L
2JCM
2JC
N
2JC
P
2JC
Q
2JC
R
2JCS
2JC
T
2JE2
2JE
3
2JE
4
2JE5
2N04
2N05
2N06
2N07
2N08
2N09
2N10
2N11
2N12
2N13
2N18
2N19
2N202N21
2N22
2N23
2N25
2N30
2N51
2N52
2N53
2N54
2N55
2U00
2U01
2U04
2U05
2U07
2U08
2U13
2U15
2U16
2U17
2U18
2U19
2U20
2U21 2U22
2U23
2U24
2U26
2U27
2U28
2U29
2U32
2U34
2U35
2U36
2U37
2U39
2U40
2U53
2U60
2U61
2U70
2U71
2U72
2U73
2U74
2U80
2U83
2U84
2U85
2U86
2U87
2U88
2U90
2U91
2U92
2U93
2U95
3008
3009
3010
3011
3012
3013
3015
3020
3026
3027
3029
3055
3066
3068
3103
3104
3105
3106
3107
3108
3109 31103111 3112
3113
31143115
3116
3117
3125
3126
3127
3128
31293130
3131
3132
3136 31
37
3138
3143
3144
3200
3203
3204
3206
3207
3208
3210
3211
3212
3213
3218
3219
3220
3221
3222
32263227
3230
3231
3232
3233
3234
3235
3236
3239
3240
3243
3244
3245
3246
3253
3255
3256
3263
3264
3269
3280
3281
3293
329432
9632
97
32A032A1
32A2
32A3
32A4
32A5
32A
632A
7
32A
C
32A
D
32A
E
32AF32AG32AH
32A
J
32AK
3A10
3A11
3A12
3A13
3A15
3A16
3A17
3A19
3A20
3A22
3A23
3A25
3A29
3A30
3A31
3A32
3A35
3A36
3A37
3A38
3A39
3A403A50
3A52
3A54
3A58
3AA
A
3AA
D
3AAG
3AAH
3AA
N
3AA
P
3AA
Q
3AA
R
3AA
S
3AA
T
3AC1
3AC
2
3AC
33A
C4
3AC
5
3AC
6
3AC7
3AC
8
3AC
9
3AC
A
3AC
B
3AC
C
3AD1
3AD2
3AD
3
3AD
B
3AD
C
3ADE
3ADF
3ADG
3AD
H3A
DJ
3AD
K
3AK
0
3AK
1
3AK
2
3AM
0
3AM1
3AM2
3AM3
3AM5
3AM6
3AM
7
3AM8
3AN
6
3AN7
3B203B223B23 3B26
3B56
3B57
3B58
3B59
3C00
3C01
3C03
3C04
3C10
3C11
3C12
3C13
3C15
3C16
3C17
3C18
3C19
3C20
3C21
3D18
3D19
3D21
3D24
3D27
3D28
3D29
3D33
3D35
3D42
3E10
3E12
3E13
3E14
3E15
3E17
3E27
3E303E34
3E38
3E403E44
3E92
3E93
3E96
3F75
3F76
3F77
3F78
3F93
3F94
3FA0
3FA1
3FA2
3FA
3
3FA
4
3FA
53FA
6
3FA
7
3FA
8
3FB2
3FB
83FB
9
3FC6
3FC
7
3FC
8
3G50
3G54
3G56
3G58
3G59
3G60
3G63
3G64
3G66
3G67
3G68
3G69
3G71
3G72
3G76
3G77
3G78
3G79
3G80
3G81
3G84
3G85
3G86
3G88
3G89
3G903G91
3G93
3G94
3G96
3G98
3G99
3GA4
3GA5
3GA73GA8
3GA9
3GB0
3GB5
3GB7
3GB8
3GB9
3GC
03G
C1
3GC2
3GC
3
3GC8
3GF8
3GFB
3GH3
3GH
4
3GH
5
3H00
3H02
3H03
3H04
3H05
3H06
3H07
3H08
3H10
3H11
3H12
3H16
3H18
3H21
3H22
3H25
3H27
3H29
3H32
3H33
3H35
3H36
3H38
3H39
3H41
3H42
3H43
3H44
3H46
3H47
3H48
3H49
3H50
3H51
3H52
3H53
3H54
3H56
3H57
3H58
3H59
3H60
3H61
3H63
3H64
3H65
3H66
3H67
3H68
3H69
3H70
3H71
3H72
3H77
3H78
3H79
3H80
3H81
3H823H83
3H84
3H86
3H87
3H89
3H91
3H92
3H94
3H96 3H97
3H98
3H99
3HA
03H
A2
3HA
3
3HA
43H
A5
3HA
C
3HA
D
3HAE
3HAF
3HB0
3HB1
3HB
2
3HB3
3HB
4
3HC
0
3HC1
3HC
2
3HC
9
3HD2
3HE
A
3HEB
3HE
C3H
ED
3HE
S3HET
3HE
U
3HE
V
3HE
W
3HF0
3HF
1
3HF
2
3HF3
3HF
4
3HF5
3HFG
3HF
K
3HF
L
3HF
N
3HF
P
3HF
Q
3HFY
3HG
1
3HG2
3HG
3
3HG
4
3HG5
3HG6
3HG
7
3HG8
3HG
9
3HGA
3HGB
3HGC
3HGD
3HG
E
3HGF
3HGG 3HGH
3HGJ
3HGK
3HGM
3HGN
3HG
P
3HG
R
3HGS
3HGT
3HG
U3H
GV
3HG
W
3HG
Y3HG
Z
3HH0
3HH
1
3HH2
3HH
33H
H4
3HH
53H
H6
3HH
7
3HH
8
3HH9
3HHA
3HH
B
3HH
C
3HHD
3HHE
3HH
F3H
HG
3HH
H3H
HJ
3HHK
3HH
M
3HHN
3HH
P
3HH
R
3HH
S
3HH
T
3HHU
3HH
V3H
HW
3HHY
3HHZ
3HJ1
3HJ2
3HJ3
3HJ4
3HJ5
3HJA
3HJB
3HJC
3HJD
3HJF
3HJV
3HJW
3HJY
3HJZ
3HM
A
3HMD
3HME
3HMF
3HMJ
3HM
K 3HML
3HMT
3HM
W
3HMY
3HP
0 3HP1
3HP2
3HPA
3HPB
3HP
C
3HP
D
3HPE
3HPF
3HPG
3HP
H
3HPJ
3HPK
3HPM
3HP
N
3HPQ
3HP
R
3HP
S
3HPT
3HP
U
3HP
W
3HP
X
3HP
Y3HP
Z
3HRB
3HR
C
3HRD
3HRE
3HR
F
3HR
M
3HR
N
3HS3
3HS4
3HS5 3HS6
3HS7
3HT
D
3HT
E
3HT
F
3HU5
3HU63HUL
3HUM
3HU
N3H
UP
3HU
R
3HUT3HUU
3HUW
3HU
X3H
UY
3HV3
3HV
4
3HV
7
3HV
N
3HV
P
3HV
R
3HV
S
3HVT
3HVY 3HV
Z
3HW0
3HW1
3HW2
3HW5
3HW
8
3HW
9
3HW
C
3HWD
3HW
E
3HWF
3HW
M
3HWN
3HW
P
3HWQ
3HW
R
3J00
3J01
3J02
3J07
3J40
3J41
3J44
3J45
3J46
3J47
3J48
3J49
3J4B
3J4C
3J4D
3J4E
3J4F
3J4G
3J51
3J53
3JA
0
3JA
1
3JA
4
3JA
5
3JA
6
3JA
7
3JA
8
3JA
9
3JA
B
3JA
C
3JA
D
3JB0
3JB1
3JB
4
3JB
5
3JB
6
3JB
7
3JB
8
3JB
9
3JB
B
3JB
C
3JB
D
3JC
1
3JC
2
3JC
3
3JC
4
3JC
5
3JE0
3JE
1
3N01
3N03
3N123N13
3N16
3N17
3N18
3N20
3N51
3N52
3N53
3U00
3U01
3U02
3U03
3U05
3U06
3U07
3U08
3U12
3U13
3U14
3U15
3U19
3U20
3U23
3U24
3U26
3U28
3U30
3U31
3U32
3U33
3U34
3U35
3U36
3U37
3U38
3U39
3U40
3U41
3U43
3U44
3U45
3U46
3U47
3U48
3U49
3U50
3U55
3U58
3U59
3U60
3U62
3U63
3U64
3U68
3U69 3U
70
3U71
3U72
3U73
3U74
3U75
3U77
3U78
3U80
3U81 3U82
3U83
3U85
3U86
3U87
3U88
3U90
3U91
3U92
3U93
3UA1
3UA
2
3UA
3
3UA
43U
A5
3UA6
3UA
7
3UA8
3UA
9
3UC1
3UC
2
3UC3
4113
4114
4115
4116
4118
4119
4122
4123
4230
4231
42514253
42A0
42A
1
42A
2
42A
6
42A
8
42A9
42A
A
42AB
42A
C
42AD
4E20
4E21
4KA
1
4U80
5003
5005 5013
5015 5016
5201
5230
5240
5241
5242
5243
5244
5250
5251
5252
5253
5291
5293
5AA0
5AD
25AE0
5AE
2
5AE4
5AE
5
5AE
7
5AE
8
5AE9
5AK0 5AK2
5B10
5B115B12
5B13
5B14
5C00 5C04
5D16
5E20
5E21
5E22
5E70
5E71
5E72
5E73
5E74
5E75
5E76
5E77
5E78
5E79
5E80
5E81
5E90
5E91
5FA
1
5FA
2
5FA6
5FB
1
5FB
2
5G50
5G51
5G55
5G56
5GE0
5GE1
5GE
65HA0
5HK0
5HK1
5HK2
5HK
3
5HK
6
5HKA
5HKC
5HP2
5HR6 5HR7
5HR
R
5HRS
5HRT
5HR
Z
5HU
X
5HY
0
5HY1
5HY2
5HY3
5HY
4
5HY5
5HY
6
5HY7
5HY
8
5HY
9
5HYA
5J40
5JA
0
5JB0
5JC
A
5JCF
5N00
5N03
5N04
5N30
5N33
5N50 5N51
5N52
5N53
5N54
5N55
5N57
5U03
5U0A
5U0B5U80
5U81
6006
6016
6114 6115
6201
6202
6203
6204
6205
6206
6230
6250
6251
6252
625362
54
6270
627262A0
62A1
6E10
6E126E
14
6E30
6E34
6E40
6E44
6FA
0
6FA66FA7
6G50
6G52
6G55
6GE66GE7
6H00
6H01
6H05
6HW
0
6HW
1
6J41
6J42
6J43
6JA
1
6JA2
6JA3
6JB
1
6JB26JB3
6U00
6U04
6U06
6U08
6U80
6U81
7005
7020
7100
7104
7107
7112
7208
7220
7221
7230
7231
7232
7261 7262
7269
7280
72A1
72A3
72A4
72A572A6
72A8
7A50
7AC
0
7AD1
7AK
B
7AKC
7AM0
7AM
17D11
7D12
7D15
7FA
0
7FA
1
7FA
3
7FA
4
7G51
7G52
7G547G
55
7G57
7G65
7G66
7GE2
7H03
7H04
7H14
7H16
7H21
7H22
7H90
7H91
7H92
7H93
7HA0
7HA3
7HB0
7HC3
7HC4
7HD0
7HMD
7HP0
7HP
5
7HR
R
7HUR7HUX
7HVA
7J41
7J42
7J4A
7J50
7JA1
7JA
2
7JB1
7JB
2
7N30
7U007U05
7U07
7U09
7U0W
7U0X
7U0Z
7U13
7U15
7U27
7U80
7U81
7U86
7U87
7U88
9A10
9A11
9A12
9A13
9A14
9A15
9A51
9AK
2
9AK4
9AM0
9AM
1
9AM2
9B10
9B11
9B15
9B16
9B17
9B18
9B19
9C01
9E90
9E91
9F359F369F379F389F399F409F419F429F439F449F459F46
9F90
9F919F93
9FA1
9FA2
9G48
9G49
9G50 9G
52
9G53
9G55
9G56
9G77
9G78
9G79
9G80
9G82
9H07
9HA0
9HB0
9HB
2
9HC0
9HC
1
9HC2
9HE
1
9HE
2
9HE
3
9HE
4
9HF
1
9HF2
9HF3
9HM
1
9HM2
9HP
5
9HP6
9HP
7
9HP8
9HPA
9HPB
9HPC
9HPD
9HW0
9J00
9J40
9J41
9J42
9J439J44
9J4G
9JA
0
9JA1 9JA2
9JA
4
9JA
5
9JA
6
9JA
7
9N30
9U03
CD
A0
F103
F105
F106
F110
F111
F112
F113F114 F115
F11
6
F117
F118
F119
F120
F121
F122
F20
0
F201
F202
F203
F204
F205
F206
F21
0
F212
F213
F214
F220
F222
F223
F23
0
F231
F235
F23
6
F240
F241
F242
F243
F245
F248
F249
F251
F252 F254
F256
F25
8
F259
F260
F261
F262
F263F265
F267
F268
F269
F270
F271F273
F280
F281
F288
FA10
FA11
FA50
FA51 FA52
FAA0
FAA1
FA
A2
FAA3
FAC0
FAC1FAC2
FAC3
FA
C4
FAC5
FAD1
FAD2
FAD3
FAD4
FA
D5
FA
D6
FAD7
FAD8
FAD9
FAK1
FAK5
FAKA
FAKB
FAKC
FAKF
FAKG
FAKH
FAKJ
FAKK
FAM0
FAM1
FAM2
FAM3
FAM4FAM5
FAM6
FAM7 FAM8
FAM9
FAMA
FAMB
FAMC
FAMD
FA
ME
FAMJ
FB28
FB40
FB41
FB42FB43FB44
FC00
FC01
FC02
FC03
FC04
FC05
FC06
FC07
FC08
FC09
FC0A
FC0B
FC0C
FC0D
FC0E
FC0F
FC0GFC0H
FC0J
FC0K
FC0L
FC0M
FC0N
FC0P
FC0Q
FC0R
FD13
FD16
FD19
FD20
FD21
FD22
FD23
FD24
FD
25
FD26
FD27
FD
28
FD29
FD30
FE01
FE02 FE03
FE04
FE
05
FE06
FE07
FE08
FE09
FE0A
FE0B
FE
0C
FE10
FE11
FE12
FE20
FE21
FE
22
FE23
FE26
FE30
FE34
FE38 FE40
FE44
FE90
FE91
FE92
FE93
FE94
FE95
FE
96
FE97
FE98
FE99
FE9A
FE9B
FE9C
FE9DFE9E
FE9F
FE9G
FE9H
FF90
FF91
FF
92
FF93
FF94
FFA0
FF
A1
FFA2
FFA3
FFA4 FFA5
FF
A6
FF
A7
FFA8
FF
A9
FFAA
FFB0
FFB1
FFB2
FG00
FG01
FG02
FG03
FG04
FG05
FG06
FG07
FG08
FG
09
FG10
FG
11
FG12
FG
13
FG14
FG
15
FG16
FG17
FG18
FG
19
FG20
FG
21
FG22
FG
23
FG24
FG25
FG
26
FG50
FG
51
FG52
FG54
FG55
FG56
FG57
FG
58
FG
59
FG80
FG81
FG82 FG83 FG84
FGB1
FGE0
FGE1
FG
E2
FGE3
FGE5 FGE6
FGE7
FG
E8
FGE9
FGEA
FG
EB
FGEC
FGED
FGEF
FGEG
FG
EH
FG
EJ
FG
EK
FGEL
FGEM FGEN
FGEP
FGEQ
FGER
FGES
FGET
FGG1
FGG2
FGG3
FGH0
FGH1
FGH2
FH00
FH01
FH23
FHA1
FHA2
FH
A3
FHA4
FHA5
FHA6FHA7
FHA8
FHA9FHAA
FHAB
FHAC
FHAD
FHAE
FHAF
FHB0FHB1FHB2
FHB3
FH
B4
FH
B5
FHB6
FH
B7
FHC0
FHC1
FH
C2
FHC3
FHC5
FHC6
FHC7
FHD0
FHD1
FHD2
FHD3
FHD4
FHD5
FH
DA
FHDB
FHDC
FHDE
FHDF
FHF0
FHF1
FHF2
FH
F3
FHMD
FHMJ
FHN0
FHN1
FHN2FHN3
FHN4FHNA
FHNB
FHP0
FHP1
FHP2
FHP3
FHP4
FHP5
FHP6
FHP7
FHP8
FHP9
FHPA
FHPB
FHPC
FHPD
FHPE
FHPF
FHPG
FHPH
FHPI
FHPK
FHPL
FHPMFHPN
FHR4
FHR5
FH
R6
FHR7
FH
RA
FHRG
FHRR
FHRS
FHRT
FHV1
FH
V2
FHVA
FJ00
FJ01
FJ02
FJ07
FJ08
FJ09FJ10
FJ11FJ12
FJ13
FJ40
FJ41
FJ42
FJ43
FJ44
FJ45
FJ4A
FJ4B
FJ4C
FJA0
FJA1
FJA
2
FJA3
FJA5
FJA6FJA7
FJA
A
FJAB
FJA
C
FJB0
FJB1
FJB
2
FJB3
FJB
4
FJB5
FJBA
FJBB
FJBC
FJC0
FJCA
FJCF
FJEC
FM20
FM22
FM23FM24
FM25
FM26
FM28
FN00
FN01
FN02
FN30
FN31
FN32
FN33
FN34
FN
35
FN36
FN37
FN38
FN39
FN40
FN41
FN42
FN
50
FN51
FN52
FN53
FN54
FN55
FN56
FN57
FN58
FN59
FN60
FN61 FN62
FN63
FR36
FU01
FU02
FU03
FU05
FU06
FU07
FU11
FU12
FU15FU16FU17FU18FU19
FU20
FU24
FU50
FU51
FU52
FU
80
FU
81
FU82
FU83
FU84
FU85
FU86
FU87
FU88
I100
I101
I102
I103
I104
I105
I106
I107
I108I109
I110
I111
I112 I113
I114
I115
I116
I117
I118
I119
I120
I121
I122
I123
I124
I125
I126
I127
I128
I129
I130
I131
I132
I133
I134 I136
I137
I138
I139
I200I201
I202
I203
I204I205
I206
I207
I208
I210
I211
I212
I216
I217
I220I221
I222
I224
I225
I226
I227
I228
I229
I230
I231
I235
I236
I237I238
I240
I241
I242
I243
I245
I250
I251
I252
I253
I254
I255
I256
I260
I261
I262 I263 I264 I265 I266
I267
I270
I272
I278
I279
IA10
IA11
IA12
IA13
IA14
IA15
IA16
IA17
IA19
IA20
IA21
IA22
IA23
IA24
IA25
IA26
IA27
IA28
IA29
IA30
IA31
IA51
IA52
IA53
IA54
IA55
IA56
IA57
IAA0
IAA3
IAA4
IAA5
IAA6
IAA7
IAC
2
IAC3
IAC4
IAC5
IAD1
IAD2IAD3 IAD4
IAD5
IAD7
IAD8
IAD9
IADA
IADB
IADC
IADD
IADE
IADF
IADG
IAD
H
IADJ
IADK
IADL
IADM
IADN
IADP
IADQ
IADR
IADSIADT
IADU
IAE1
IAE2
IAE3
IAE4
IAE5
IAE6
IAE8
IAK0
IAK1
IAK2
IAKA IAKB
IAM0
IAM1
IAM
2
IAM3
IAM4
IAM5
IAM6IAM7
IAM8
IAM9
IAMA
IAMB
IB40
IB41
IC0EIC0F
IC0G
IC0H
IC0J
IC0K
IC0L
IC0M
IC0N
IC0P
IC0Q
IC0R
IC0S
IC0T
ID17
ID18
ID19
ID20
ID22
ID23
ID24
ID25
ID26
ID27
ID28
ID29
ID30
ID31
ID32
ID33 ID34
ID35
ID36
ID38
ID39
ID40
ID41
ID42
ID43
ID44
ID45
ID46
ID47
ID48
ID49
ID50
ID51
ID52ID53
IE01
IE02IE03
IE04
IE05
IE06
IE07
IE08
IE09
IE0A
IE0B
IE0C
IE0D
IE10
IE11
IE12
IE30
IE41
IE90
IE91
IE93
IF73
IF74
IF75
IF76
IF78
IF81
IF82
IF83
IF84
IF85
IF86
IF87
IF88
IF89
IF90
IF91
IF92
IF93
IF94
IF95
IF96
IFA1
IFA2
IFA
3
IFA6
IFA7
IFA9
IFB1
IFB2
IFB
3
IG51
IG52IG53IG54
IG55
IG56
IG57
IG58
IG59
IG61
IG62
IG63
IG65
IG70
IG71
IG72
IG74
IG81
IG82
IG84
IG85
IG90
IGA1 IGA2IGA3
IGA4
IGA
5
IGA6
IGB1
IGB2
IGB3
IGB4
IGB5
IGB6
IGB
7
IGB8
IGB
9
IGBA
IGE0
IGE1
IGE2 IGE3
IGE4IGE6
IGE7IGE8
IGE9
IGEA
IGEB
IGEC
IGED
IGEE
IGEF
IGEG
IGF2
IGF3
IGH0
IGH7
IGH8
IH15
IH16
IH17
IH20
IH21
IH22
IH70
IH71
IH72
IH73
IH80
IH81
IH82
IH83
IH84
IH85
IH86
IH90
IH91
IH92
IH93
IH95 IH96
IH97
IH98
IHA0
IHA1
IHA2
IHA3
IHA4
IHA
5
IHA6
IHA7IHA8
IHA9
IHAA
IHAB
IHAC
IHAD
IHC
0
IHC1
IHC2
IHC3
IHC5
IHC6
IHC7
IHC8
IHD0
IHD1
IHD2
IHD3
IHD4
IHD6
IHD7
IHDG
IHDH
IHDJ
IHDK
IHDL
IHDM
IHDN
IHE
0
IHE1
IHE2
IHE3
IHE4
IHE5
IHE6
IHEA
IHEB
IHEC
IHED
IHEE
IHEF
IHEG
IHEH
IHEI
IHE
J
IHF0
IHF1
IHF2
IHF3
IHF4
IHF
5
IHF6
IHF7
IHF8
IHF9
IHFA
IHFB
IHFC
IHFD
IHG0
IHG1
IHG2
IHMD
IHME
IHMF
IHM
G
IHMH
IHMJ IHMK
IHML
IHN
2
IHN3
IHN4
IHN5
IHN6
IHN
7
IHN8
IHN9
IHN
A
IHNBIHNC
IHND
IHNE
IHNF
IHNG
IHNH
IHNJ
IHNN
IHN
P IHNQ
IHP1
IHP2
IHP5
IHP6
IHP7
IHP8
IHP9
IHPA
IHR1
IHR2
IHR3
IHR4
IHR5
IHR
6
IHR7
IHR8
IHRA
IHRB
IHRD
IHRF
IHRG
IHRH
IHRJIHRL
IHRM
IHRQ
IHRT
IHRV
IHTAIHTB
IHTC
IHTG
IHTH
IHTJ
IHUL
IHUM
IHUN
IHUP
IHUQ
IHUR
IHUSIHUT
IHU
U
IHUV
IHV0
IHV1
IHV2
IHV3
IHV
4
IHV5
IHV6
IHV7
IHVA
IHVB
IHVC
IHV
D
IHVEIHVF
IHVG
IHVH
IHW1
IHW5
IHW6
IHW7
IHW8
IHWA
IHWB
IHWC
IHWD
IHWE
IHWF
IHWG
IHWH
IHWJ
IHW
K
IHWL
IHWM
IHWN
IHY0
IHY1
IHY2
IHY3
IHY4
IHY
5
IHY6
IHY7
IHY8
IHY9
IHYA
IHYB
IHYC
IHYD
IHYE
IHZ0
IHZ1
IHZ2
IHZ3
IJ12
IJ40
IJ4A
IJ4B
IJ4C
IJ4E
IJ4FIJ4G
IJ4H
IJ4J
IJ53
IJ54
IJ56
IJ57
IJ58
IJA0
IJAA
IJAB
IJAC
IJAEIJAF
IJAG
IJAH
IJA
J
IJB
A
IJBB
IJBC
IJBE
IJBF
IJBG
IJBH
IJC0
IJE1IJE2
IJE3
IJE4
IJE5
IJE6
IJE7
IJE8
IJE9
IJEA
IJEB
IJE
C
IJED
IJEE
IJEF
IM20
IN00
IN01
IN02
IN03
IN04
IN05
IN06
IN08
IN09
IN10
IN11
IN12
IN13
IN14
IN17
IN19
IN30
IN31
IN50
IN51
IN52
IN53
IN54
INHR
INHS
INHT
INH
U
INHV
INHW
IU00
IU01
IU02
IU03IU05
IU06
IU07
IU08
IU11
IU12
IU13
IU16
IU17
IU18
IU20
IU21
IU22
IU23
IU24
IU25
IU26
IU27
IU28
IU30
IU31
IU32
IU33
IU34
IU35
IU36
IU37
IU38
IU39
IU40
IU41
IU43
IU44
IU45
IU46
IU47
IU48
IU50
IU51
IU52
IU53
IU54
IU56
IU57
IU58
IU59
IU60
IU61
IU62
IU63
IU64
IU67
IU68
IU85
IU86
IU90
IU91
IU92
IU93
IU95
IU96
IU98
IU9A
IU9B
IU9C
IU9G
U16
Circuit Diagrams and PWB Layouts EN 115PB52.2HU LA 10.
2010-Mar-05
Side Facing Side AV 26"
C
13
E
F
5
D
J
3 4 5
4
A
11
D
C
B
I
"300" ~ "399"
83
LC06D ME7 LCD SIDE-IO SINGLE : 3139_123_62291_02
1110
G
SIDE FACING SIDE AV
G
F
E
1 2
LC06D ME7 LCD SIDE-IO MULTIPLE : 3139_123_62281_02
7
A
6
12
9
136 7
B
C
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
12
H
J
2 10981
H
I
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
CLASS_NO
1
SUPERS.
1
NAME
DATE
2006-09-051
03101
LC07D
3
2
2006-11-10
Agnes Chong
2006-11-10
SV
**** *** *****
ROYAL PHILIPS ELECTRONICS N.V. 20062006-06-07
1
3PA120
1
CHECK
3139 123 6229PCB SB SIDE-IO ME7 LCD
A3
2006-09-05
-- -- --
18730_555_091002.eps091002
A
SVHS
B
C
D
E
F
A
B
C
D
E
1302-3 E11303 E1
1301 A11302-1 C11302-2 D1
3302 A43303 A4
TO 1M36 OF BJ/EBJ SSB
1 2 3 4 5 6 7 8 9
1 2 3 4
TO 1H01 OF BJ SSB /
3315 E44301 D2
1304 B91308 D91309 D71310 C92301 A42302 A42303 A22304 B42305 D52306 E52307 F42308 F42309 F42310 F42311 C2
F
2313 D32314 E33301 B2
6306 F36307 F3
TO 1M60 OF EBJ SSB
3304 A53305 B43306 B53307 C53308 C43309 D43310 D4
5
3312 F53313 F53314 D4
I319 C7I320 C7
4302 D24303 E84304 A54306 B54307 C54308 E44309 F44310 D74311 D75300 D76301 B3
2312 D8
6303 C36304 D36305 E3
100K NA100K NA
** ****
**
L
CVBS
USB
I303 A3I306 C2I308 C2I309 D2I311 E2I312 F2I314 B7
3311 E4
I316 B7I317 B7I318 B7
2314331433153308
HE
AD
PH
ON
E
331033093311
EBJ 2K7
I321 B9I325 D8I326 D8I327 D8I328 D8I330 D7I331 D7
I332 D7S301 A2
6302 B3
680pNA 680pNA 33KNA 33K
100R 1K100R 1K
** ****
**
S302 A2S303 C2S304 D2S305 E2S306 F2S307 F2S308 F2S310 E8S311 E8S312 E8
R
2313
DIVERSITY TABLE**I315 B7
LC07
1n1n
150R150R33K33K
**
**
23052306
100p 100p100p 100p
1n1n
NANA
BJ 2K7
NA
2310
I330
10n
2345
B5B-PH-K
1309
1
3
45
78
YKB21-5101A
1303
1
2
4306
4304
I317
I319
I3213306
100R
S31
2
S31
1
100R
3307
S31
0
75R3302
S30
1
S30
3
I332
331210K 10K
3313
2313 3314
33152314
47p2304
230910n
4309
4308
3310
3308
4301
4310
I306
2305
4302
I314S
302
YKF51-5564
5
1
3
4
2
I331
1301
100R
3304
1302-1
YELLOW
1
2
4307
1310
B3B-PH-K
123
2312 100u16V
22p2311
2
4311
DF
3A6.
863
01
3
1
34
5 6
292303-4
1308
12
6789
1
1011
2345
1304
230822n
4
I328
1302-2
WHITE
3
3311
S30
5
3
21
22n2307
6302
DF
3A6.
8
S30
7
S30
8
I318
I316
75R
3301
5300 220R
47p23022301
47p
6306
DF
3A6.
8
3
21
I303
230322p
10R
5
6
3303
1302-3
RED
3305
10R
3309
S30
4
2306
S30
6
DF
3A6.
863
04
3
21
I326I309
I325
I308
I311
2
I312
DF
3A6.
863
07
3
1
6305
DF
3A6.
8
3
21
DF
3A6.
83
21
I327
6303
4303
I315
I320
C
Y_CVBS
FRONT_DETECT
FRONT_C_IN
L_FRONT_IN
R_FRONT_IN
HEAD_PH_RHEAD_PH_L
FRONT_Y_CVBS_IN
EN 116PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
Layout Side Facing Side AV 26"
13011302
1303
1304
1308
13091310
2301
2302
2303
230423052306
2307
2308
2309
2310
23112312
2313
2314
3301
3302
3303
3304
3305
3306
3307
3308 3309
3310 331133
1233
13 3314
3315
4301 4302
4303
4304
4306
4307
4308
4309
43104311
5300
6301
63026303
63046305
6306
6307
I303
I306I308I309
I311
I312
I314
I315I316
I317
I318I319
I320
I321
I325
I326
I327
I328
I330I331
I332
S30
1
S30
2
S30
3
S30
4
S30
5
S30
6
S30
7
S30
8
S310S311S312
3139 123 6229.1 18730_556_091002.eps091002
Circuit Diagrams and PWB Layouts EN 117PB52.2HU LA 10.
2010-Mar-05
Side Facing Side AV 37" - 52"
C
2311 C22312 D82313 D32314 E32315 A7
**
NANA
BJ 2K7
1
SIDE FACING SIDE AV
**
"300" ~ "399"
****
100p
1 2 3 4 5 6 7 8
1303 E11304 C91308 D91309 D72301 A42302 A4
B
C
33K
D
E
F
1301 A11302-1 C11302-2 D11302-3 E1
2316 B93301 B23302 A4
2303 A22304 B42305 D52306 E52307 F42308 F42309 F42310 F4
3311 E43312 F5
R
33K33K
150R
USB
2314
2 3 4 5 6 7 8 9
100R
1n
1K
100KNA
**
3313 F53314 D4
9
A
B
C
D
E
F
A
4303 E84304 A5
3314
CVBS
3315
HE
AD
PH
ON
E
33K
3308
TO IN30 OF PB522
4310 E74311 E75300 D76301 B36302 B36303 C36304 D36305 E3
3303 A43304 A53305 B43306 B53307 C53308 D43309 D43310 D4
I311 E2I312 F2
2313
** DIVERSITY TABLE
100p1n100p
3310
PCB SB SIDE-IO PnS PBS : 3139_283_30152
150R
******
NA
1K
2305
**
3315 E43316 B73317 A73318 A73319 A83320 B84301 D24302 D2
680pNA
NA100K
4306 B54307 C54308 F44309 F4
SVHS
PCB MB SIDE-IO PnS PBS : 3139_283_30142
LC07
1n1n
2306
EBJ 2K7
L
6306 F36307 F36308 A87300 A7I303 A3I306 C2I308 D2I309 D2
I334 A4I337 A8I338 A7I339 B4S301 A2S302 A2S303 C2S304 D2
**
TO 1M36 OF BJ/EBJ SSB
100RNA
100p
I314 C7I315 C7
321
J
I
H
G
F
680p
D
C
B
A
D
C
B
Aow
ner.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
I316 C7I317 C7I318 C7I319 C7
I320 C7I321 C9I325 D8
NA
1 76543
33093311
I326 E8I327 E8I328 E8I330 D7I331 E7I332 E7
8
1312111098765
S305 E2S306 F2S307 F2S308 F2S310 E8S311 E8S312 E8
4
E
J
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
I
H
G
F
E
I306
2 131211109
3
21 63
01D
F3A
6.8
331310K
I327
2315
100n
33142313
3315
S31
0
I318
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3015PCB SB SIDE-IO PnS PBS
A3
2009-05-15
-- -- --
2009-06-122
03101
3
2
2009-07-31
Agnes
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
1
3PA120
1
SETNAMECHN
BAS316
6308
BC847B7300
1234
5 6
1308
292303-4
I320
I315
75RS30
1 3302
I331
231010n
I330
230247p47p
2301
I325I309
1112
23456789
1304
1-1735446-2
1
10
3304
100R
S31
1
234
1735446-4
1309
1
3
21
I314
2
DF
3A6.
863
05D
F3A
6.8
6303
31
1
2
3
45
78
1303
YKB21-5101A
3305
10R
3309
22p2303
I303
I321
100R
3306
230447p
10n2309
4309
S30
5
5300
4
5
220R
WHITE
1302-26
10R
3303
4303
I308
I312
I311
2314
3307
100R
4310
10K
3319
S30
8
I316
S30
2
I337
3311
I317
470K
3320
22n
I328
3
21
2307
DF
3A6.
863
02
S30
7
S31
2
4308
3310
3308
5
1
3
4
2
YKF51-55641301
3
21 D
F3A
6.8
6306
I332
I319
331210K
16V100u2312
231122p
4311
S30
3
4K7
3318
68K
3316
220K
3317
2316
10u
4307
YELLOW
1302-1 1
2
97
8
RED
1302-3
S30
4
4301
22n2308
I338
I334
I3393301
75R43
02 230563
07D
F3A
6.8
3
21
2306
3
21
S30
6
6304
DF
3A6.
8
I326
4304
4306
+5V-IO
SideIO_detect
+5V-IO
FRONT_Y_CVBS_IN
HEAD_PH_L
R_FRONT_IN
FRONT_C_IN
HEAD_PH_R
FRONT_DETECT
FRONT_Y_CVBS_IN
FRONT_Y_CVBS_IN
SideIO_detect
Y_CVBS
C
18730_545_090921.eps090921
EN 118PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
Layout Side Facing Side AV 37" - 52"
3139 283 3015.2 18730_546_090921.eps090921
13011302
1303
1304
1308
1309
2301 2302
2303
2304
2305
2306
2307
2308
2309
2310
231123
12
2313
23142315
2316
3301
3302
3303
3304
3305 33
063307
3308 33093310 33
11
3312
3313
3314
3315
3316
33173318
33193320
4001
4301 43024303
430443
064307
4308
4309
43104311
5300
6301 63
02
63036304
6305
6306
6307
6308
7300
I303
I306I308
I309
I311
I312
I314
I315
I316
I317
I318I319
I320
I321
I325
I326I327
I328
I330I331
I332
I334
I337
I338
I339
S30
1
S30
2
S30
3
S30
4S30
5
S30
6
S30
7
S30
8
S310S311S312
Circuit Diagrams and PWB Layouts EN 119PB52.2HU LA 10.
2010-Mar-05
Tuner LN: Chnl. Dec. (xxHFLxxxxL/xx)
GPIO
GPO
DATA
IFXTAL
IF
CB
AUD
MISC
CS
ANT
HOST
JTAG
MAST
AGCI_CTLAGCT_CTL01234567ERRSYNCVALID
2301
NC
2345
76
10
IRQ_OUT10
RESET
LN_LRLP_DATA
RN_MCLKRP_SCLK
VCONVCOP
SDATACLKAGC
NPP
N
DETRX_DATATX_DATA
SCK_SCLSPI_BSCMISO_ADDR1MOSI_SDASSB_ADDR0
TCKTDITDOTMS
SCLSDA
PNPS_CLKADC_CLKADC_F1B
COM
OUTIN
C
1P2
VSSO
AVDDO1P2
DS_AGND
2P5
AVSSVSSODVSSAVSSDVSSVSS
XTAL 1P2 D
VDDO
VDDP_2P53P32P5VDDC_1P2AVDD VDD
DS
AUD_VDDDVDD DVDDAVDD
OB
DIGPLL
XTAL OB AUD DIGPLL
PLLP 2P5
VSSC
IT49 B9IT50 B9
Channel decoder
97 86 7
18
F
G
F
20
IT35 B3IT36 B2IT37 C6IT38 C6IT39 C5IT40 C5
IT31 B7IT32 A3
ITA5 C9ITA6 C9
17
P
G
F
12
1815 16
IT27 B7IT28 B7
14
97 13
D
2
1413 20171
1 2 3 177
P
9
ITA3 C9ITA4 C9
1 10
K
18
H
122
IT09 D7IT10 E5
J
L
ITA7 G8ITA8 G8ITA9 F10
11
17
I
543
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
1
FT09 C5
A
111110
E
16
A
8
15
E E
13
FT24 F1FT25 F1
19 20
A
6
IT44 B9IT48 B9
MULTI 12NC : 3139 283 30182
1919
14137 16
C
E
8 9
E
D
C
J
5
owne
r.
FT32 G1IT01 C7
F
E
D
20
FT05 G6FT06 C5
IT33 B3IT34 A3
M
N
K
L
12
owne
r.
K
15
2
6
FT10 E1FT11 E1
12 13
10
FT18 F1FT19 F1
IT15 C7IT16 C7IT17 E5IT26 B7
5T09 B35T31 F9
IT29 B7IT30 B7
D
B
16
4
P
O
017
K
F
7T06-2 E4
P
C
FT30 G1FT31 G1
9T12 D59T13 D5
IT02 C7IT05 C7IT06 C7IT07 C7
3T45 D73T46 D7
IT11 D4IT12 D5
B
C
3 15
8
12
H
5 18
FT12 E1FT13 E1
86
FT16 E1FT17 E1
3T90 D53T91 D4
FT20 F1FT21 F1FT22 F1FT23 F1
3T25 B93T29 C6
FT26 G1FT27 G1
A
1
4 5 17 183 16
9
6
J
I
L
M
7T18-1 A87T18-2 G8
6
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
9T10 C5
9T11 C5
3T38 B73T40 D7
9T15 B59T16 B5FT00 D11FT04 G4
3T17 D73T18 B9
FT07 C5FT08 C5
13124 5
11
13
O
N
O
L
8 19 20
N
11
14
A
L
J
N
H
3T92 E53T93 E53T94 F45T02 F10
3T03 C43T05 D5
5T32 F97T06-1 F5
1818 1916
14
O
P
I
17
H
G
3T32 A63T33 C10
B
FT28 G1
3T36 C93T37 B7
3T11 B63T12 B3
3T41 D73T42 D73T43 D73T44 D7
14
G
3T47 D73T48 C11
2 3
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
P
O
M
E
21
18
M
J
B
76
N
O
FT14 E1FT15 E1
L
J
2T32 D102T33 E11
3T21 B93T22 D73T23 D73T24 D7
2T26 G32T27 A3
3T30 A73T31 A6
8
D
N
17
1 16
A
201912
1614
I
2
J
7T20 D119T06 E4
3T09 C63T10 B6
I
3T13 A33T14 C73T15 C73T16 C7
3T19 C63T20 B9
E
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
6
9
P
1
A
F
G
K
7 8
C
D
54
10
BD 12NC : 3139 283 30192
D
C
2T20 G52T21 G4
2T35 B102T36 B102T37 B103T01 C4
B
C
3T07 A33T08 B3
12
O
11
15
2T05 G82T06 E5
M
7
I
15
1
H
B
N
L
3T34 C93T35 C10
G
H
B
19
3111
3 4
2T30 G82T31 C7
F
B
4 5
9
15
G
H
I
4 10
1T69 B21T96 H3
9 10
3
2T15 G6
M
2T18 G52T19 G5
D
E
2T22 G42T23 G42T24 G42T25 G3
2T03 B22T04 A2
2T28 B32T29 D5
142
98
2T01 G22T02 G2
13
A
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
K
2T11 F102T12 G7
2 3
D
20
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
10 11
20
C
19
2T13 G72T14 G6
F
G
J
6 7 8 9
H
1T11 H11T12 G11T13 F1
L
C
1715
11 12
3
M
B
C
10
F
G
H
A
D
E
54
1110
3
1T99 H52T00 G1
2T16 G62T17 G6
H
I
O
N
P
F
4 5
K
5 6
1T97 H61T98 H4
12 13
1 2
2T07 E52T08 G72T09 F102T10 F11
G
K
B
M
FT00
IT06
IT30
2T14
100n
3T37 47R
2
6
1
100n
2T17
7T06-1BC847BPN
20
21
IT33
97
3965
3231
3534
66
40121120
127
130131
8990919293949596
113
6970
68116
67
41
128126129
3140115114
75767778828384
5554515049484342645763
106102101
142141
117118
87
56
7T18-1
TDA10060HL/C1
134136135
107
DTV RECEIVERΦ
5T02
220R
IT27
IT09
+3V3
+3V3
FT27
+3V3
2T20
100n
IT44
3T10
4K7
1K0
3T93
+12V
2u7
5T09
10n
2T09
8p2
2T04
FT28
FT26
3T23 33R
3T13
18R
FT18
IT34
IT37
330R
3T08
FT08
33R3T46
ITA7
18R
3T12
4K7
3T48
3T16 3K3
+2V5-TUN
IT05
100K
3T91
3K33T36
+3V3
9T13
3T30
3K3
100n
2T29
+3V3
+1V2
1T98REF EMC HOLE
2T32
100n
33R3T09
FT302T
05
10n
1
3 2
FT20
7T20LD1117DT25
IT11
FT07
FT12
+3V3
10n
2T08
10K
3T92
+1V2
100n
2T12
456789
141516171819
2
20
3
1T13
20FLT-SM2-TB(LF)(SN)
1
10111213
1K0
3T90
3T17 1K0
3T35 3K3
1K03T25
3T21
33R
+3V3
2T03
8p2
33R3T44
FT25
IT01
3T31
3K3
IT39
3T03
1K2
3K3
3T32
100n
2T19
FT32
IT36
IT38
IT07
+2V5-TUN
3T38 47R
IT17
33R3T24
FT05
FT15
ITA4
REF EMC HOLE1T99
+3V3
IT26
+3V3
ITA3
3K3
IT16
3T15
+2V5-TUN
FT10
10n
2T07
4K7
3T11
FT04
22n
2T06
100R
IT40
3T20
3T45 33R
FT22
FT21
2T35 10n10n2T36
IT49IT48
3T14 33R
+3V3
2T10
10n
2T02
100n
IT35
2T26
100n
2T37 100n
33R3T40
10K9T11
+2V5-TUN
FT318
9 10
33R3T42
1T12
502382-0870
1234567
+5V-TUNER
220R
+1V2
IT10
5T32
5
3
4
100n
2T23
7T06-2BC847BPN
EMANTESNHC
4
3PC332
1
2009-06-01 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
Nirmalya
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-06-01
A2
BDS MODULESPCB SB PB522_LN TUNER 3139 283 3019
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
FT11
FT13
IT15
IT29
33R3T22
10K
9T12
FT23
FT24
FT19
ITA6
IT50
FT16
ITA8
10K
3T94
REF EMC HOLE1T96
IT02
FT14
+1V2
100n
2T25
IT32
2T33
22u
IT28
+2V5-TUN
3K33T34
1K2
3T01
FT06
100n
2T21
9T10
2T22
100n
1
2T13
100n
TAG_LARGE1T97
390R3T19390R3T29
15p
2T27
9T06
9T16
3T05
10K
3T41 33R
79 86 111
181922 12
3 1
124
133
14437 46 52 62 73
137
5
13926 45 59 72 87 99 109
38 47 53 61 74 80 85 112
60 119
58 71 88 98 110
122
81 2 125
132
143
33 2930 36
2827
4 138
25 44
24 6 11 15 16
9 10 12 13 1417
SUPPLYDTV RECEIVER
108
100
104
105
103
23
+3V3
Φ
TDA10060HL/C17T18-2
IT31
5T31
220R
FT09
9T152T28
15p
2T16
100n
IT12
100n
2T01
2T31 3p3
2T18
100n
54M
1T69
100R3T18
3T33 3K3
3T43 33R
FT17
2T24
100n
ITA9
100n
2T15
3T47 33R
2T00
100n
ITA5
+3V3
3T07
330R
6 7
2T30
10n
S5B-PH-SM4-TB
1T11
12345
10n
2T11
TUN-FE-VALIDTUN-FE-ERR
SCL-SSBSDA-SSB
RESET-SYS-DETECT
TUN-FE-DATA7TUN-FE-DATA6TUN-FE-DATA5TUN-FE-DATA4TUN-FE-DATA3TUN-FE-DATA2TUN-FE-DATA1TUN-FE-DATA0
TUN-FE-CLKTUN-FE-SOP
CVBS-BO
IF-P
IF-N
SDA-SSB-MUX2SCL-SSB-MUX2
TUN-AGC-MON
SCL-SSB1SDA-SSB1
TUN-FE-DATA7
SDA-SSBSCL-SSB
TDA-IF-IN-PTDA-IF-IN-N
JTAG-TDO-FE
TDA-IF-AGC
TUN-FE-DATA5TUN-FE-DATA6
TUN-FE-DATA2TUN-FE-DATA3TUN-FE-DATA4
TUN-FE-DATA0TUN-FE-DATA1
TUN-TDA-SCLTUN-TDA-SDA
RESET-SYS-DETECT
TUN-FE-CLK
TUN-FE-SOPTUN-FE-ERR
TUN-FE-VALID
JTAG-TMS-FE
JTAG-TCK-FEJTAG-TDI-FE
FM-TRAP-SWITCH
18730_547_090921.eps090921
EN 120PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
Tuner LN: Main Tuner (xxHFLxxxxL/xx)
C
CTAGCCIFAGC
TAGCAUDCVBS
12
MPP
EXTFILO
CDEEM
IC
LF
SYN2
FM
VIF
AB
EXT
IF1
CAF2
B
ADRSEL
AGCDIN
TOP2
FMI
FILI
FREF
A
VP
GND GNDA
BVSSCLSDA
SYN1
A
GNDD
NC
CAF1
IF2
BA
IF3
OPTXTAL
BOUT1
AB
OUT2
COM
OUTIN
IO2IGNDO1
GND
IO2IGNDO1
GND
3 4 5
2T61 C1
11
N
2T90 E13
2T63 F10
13 14
1
9
14 15
C
10 11
G
2T97 F102T98 E9
8 9
AA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
par
ts
10 11
C
D
B
I
J
L
E
F
owne
r.
I
D
O
8
L
H
1
MULTI 12NC : 3139 283 30182
13 14
A
1T04 A11T06 B61T55 A62T45 E12
2
2T48 D122T51 D122T53 B1
6
2T62 B2
8 9 10
15 16
13
A
1716
N
E
2T91 E8
2T64 B22T65 F102T75 B1
12
2TA1 D13
2TA2 F102TA3 D13
2 3 4 5
B
C
D
E
E
C
11
10
H
6 12
M
6
B
C
A
ANALOGUE VIDEO
7
2T59 D32TB6 E123T50 E13
12
3T54 E93T55 F93T56 D12
2T80 E10
2T81 E92T82 F102T83 F10
2T46 D10 2T85 E122T86 E72T87 D8
6
7
O
4121
P
5
K
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
O
J
D
2T92 F13
3T77 C32T99 A12
3T82 E13
3T83 F83T84 F8
2TA4 C122TA5 C12
2TA6 A82TA7 A11
B
2TA9 A8
2TB1 E82TB2 D2
F
91 12
2
N
5
L
FT80 A10
FT81 A10
M
2TB5 E127T54 A117T55 A9
3T53 C3
7T59 F89T51 C49T52 C4
3T57 D13
3T58 D73T59 D73T64 F7
2T84 D1
3T69 D23T70 C13T74 F9
2T88 D9
7
8 13
N
5
K
P
2019
owne
r.
IT79 F12
IT80 D4
MAIN TUNER
BD 12NC : 3139 283 30192
3T81 E13
987
3T98 E83TA1 A10
3TA2 B103TA3 B8
2TA8 A85T54 B3
5T55 A105T60 A7
2TB3 B12
A
F
G
1
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
B
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
I
J
17
FT82 A87000 C12
FT84 A8
IT60 F11
7T56 D2IT63 F9IT65 E11
IT66 F9
9T57 E7
9T63 E109T67 C49T68 C4
3T68 D2
AT57 D13AT58 E14AT59 E14
3T75 F9
2T89 D9
21
7
F
E
D
11
H
I
K
I
2 3
IT83 F9
IT87 D1
IT88 D2
IT90 C3IT91 C3
IT92 D12FT53 C4FT56 E12FT57 F8
FT60 A5
5T53 B11 FT72 F8FT73 E7
FT74 E7
5T61 B42TB4 A12
A
1065 9
4
1816
1918
ATSC
FT83 A10
1514
IT62 E11
2
O
IT67 F8IT68 E12IT69 E13
IT71 D12
AT56 D13IT74 E11IT75 F9
IT76 C4
AT62 A4
3T76 D12
1
C
10
P
M
11
IT77 F11IT78 C4
8
IT84 F11
J
IT89 B2
L
M
16
IT93 B12
4
FT70 C12
203
G
F
6T01 A10
B
4
FT75 E10FT76 E10
20
17 18 19
19
3 7
13 181763
IT73 E10FT52 C4
4
20
1312
E
F
K
D
H
G
1514
P
FT53
2T59
150p
3T75
2K7
IT68
+12V
7T59BC847BW
2T45
10n
AT57
220R
5T54
9T57
2T87
3p3
47R
3T82 220R
3T53
2TB
2
FT56
150p
2T88
10n
220R
3T84
DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
4
3PC332
2
2009-06-01 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
Nirmalya
2009-07-31
2
3
13010
2 2009-07-28
-- -- --
2009-06-01
A2
BDS MODULESPCB SB PB522_LN TUNER 3139 283 3019
CHECK
FT
83
7T56BC847BW
FT81
IT74
FT73
IT79
5T53
220R
1n5
2T92
IT60
75R
3T64
AT62
IT77
10n
2T75
10V
1m02T
A7
100n2T97
2TB
3
22u
220n
2T803T54 330R
FT72
3T69
100K
1u5
5T60
IT83
100n2T63
47R3T56
2T98 1n5
3T57 47R
IT672n2
2T82
2T48 100p
2TB5 10n
47R
3T77
2423
47
11
43 44
16
218353742
39
2627
2930 9
10
34
19381
13
12
1521
46
48 404122
1445
67
36
31
32
28
3420
58
33
17
ΦPROCESSING
IF
TDA9898HL/V2/S17T57
25
10n
2T89
V2
3T58
390R
3TA
1
10K
FT80
IT88
2T53
10n
2T90 10n
IT90
FT74
IT89
8K2
3T55
10n2T85
9T51
2T51 10n
IT75
100n
2TA
4
3T68
4K7
IT71
390R
3T59
IT76
+5V-TUNER
1
3 2
3T76 3K3
7T54LD1117DT50C
RES
22n
2TA
9
2T46
9T67
FT76
10n
SD
A7
VT
U9 10
GN
D11
IF-O
UT 12
1314
15
PLL
5
RF
-OU
T2
SC
L6 8
4MH
Z
AP
O1
ER
F-G
AIN
3
FM
-TR
AP
4
IT92
1T04TD1736F/FHFXP
TUNER
3T83
39R
3
12
45
44M
1T55X6931D
10n
2TB6
+5V-TUNER
V2
100n
2T62
3TA
2
2K2
IT87
6T01
SS
24
2T83
4n7
IT91
IT73
IT66
9T63
IT65
+5V-TUNER
9T52
2T84
10n
AT56
IT69
IT93
10n2TA1
+3V3
1T06M1867D45M75
4K7
3T70
IT80
3T98
100R
5T61
270n
AT58
220p
2TA
8
FT75
V1
9T68RES
47p
2T81
470n2T65
100n
2T61
IT63
3TA
3
4K7
FT70
FT57
100p2TA3
FT52
IT78
FT
84
10u
2TA
6
V1
IT84
3T74
470R
3T81 1K5
2TB
1
100n
FT60
100n
2TB
4
AT59
SYNC2
VCC8
VREF6
2T64
22u
COMP4
FB5
GND7
INH3
OUT1
7T55L5970D
3T50 100K
5T55
IT62
22u
3p3
2T86
22p
2TA
2
22u
2TA
5
100n
2T91
FT82
2T99
220u
16V
TUN-AGC-MON
TDA-IF-AGC
TDA-IF-IN-P
TDA-IF-IN-N
4-MHz
TUN-AGC
IF-OUT
CVBS-BO
IF-P
IF-OUT
IF-FILTP3IF-FILTN3
TUN-AGC
IF-OUT
IF-FILTN1IF-FILTP1
TUN-AGC
FM-TRAP-SWITCH
TUN-TDA-SCL
TUN-TDA-SDA
IF-FILTN3
IF-FILTP3
SDA-SSB-MUX2
SCL-SSB-MUX2
IF-OUT
IF-N
SDA-SSB1SCL-SSB1
IF-FILTP1IF-FILTN1
4-MHz
18730_548_090921.eps090921
Circuit Diagrams and PWB Layouts EN 121PB52.2HU LA 10.
2010-Mar-05
Tuner LN: Control (xxHFLxxxxL/xx)
C
MODC
PA
PB
VSSA
VSSX2VSSX1
VSSPLLVSS3
VSS2VSS1
VDDX2VDDX1
BKGD
VDDRVDDPLL
VDDFVDDA
VDD
EXTAL012
650
3
7
XTAL
VRLVRHTESTRESET
A
2TD7 B42TD8 B4
E
A
8 9
A
B
B
12
A2TE9 E72TF1 B7
C
D
E
D
3TC8 A83TC9 B9
2 3
5
5 12
1
G
3
5 6 7
4
9
I
3TD8 D8
3TD9 D53TE1 D33TE2 D73TE3 D8
7
1
2TD1 A7
2TD2 A72TD3 A32TD4 A32TD5 A4
2TD6 B4 4T02 E74T03 C7
2TD9 C1
2TE1 D3
B
C
D
E
C
D
C
F
2
B
FTA1 B1
FTA2 B1FTA3 B1FTA4 B1FTA5 C8
2TF2 E62TF3 E8
3TC1 A83TC2 A23TC3 B83TC4 B8
3TC5 B13TC6 B2
FTB7 B9FTB8 B3
133
4 5 6 7
H
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
2 3 4
3TD5 C13TD6 C33TD7 D1
1
FTB9 B8FTC1 B9
FTC2 D33TE4 D83TE5 C83TE6 B73TE7 C6
3TE8 C63TE9 C93TF1 C74T01 E7
FTDA E7FTDB E4
2TE2 D32TE3 E72TE4 E8
2TE5 E91T32 C91T33 D31T34 B1
7T71 B47T72 D77T73 C6
FTDC D8
10
MULTI 12NC : 3139 283 30182
FTA6 C8FTA7 C8FTA8 C8FTA9 C8
FTB1 C8FTB2 C8FTB3 D9FTB6 B7
owne
r.
F
J
10
4
8 9
1
H
I
11
8
8
J
0R
13
FTD2 C2FTD3 C2FTD4 D3
FTD5 C3FTD6 C3FTD7 A2FTD8 A4
FTD9 D5
4T04 C64T05 E6
4T06 E85T81 A65T82 A35T83 E7
5T84 E72TE6 E92TE7 E92TE8 E9
6
9
E
3TE
4R
ES
5T85 E65T86 E86T31 B2
BD 12NC : 3139 283 30192
G
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
2
11
76
3TD1 C23TD2 C23TD3 C83TD4 C2
10K
18p
2TE
1
3TE
3
10K
RE
S
VCC
VCC
GND_LN
3TE
910
K
SETNAMECHN
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3019PCB SB PB522_LN TUNERBDS MODULES
A3
2009-06-01
-- -- --
2009-07-282
03101
3TC
8
3
2
2009-07-31
Nirmalya
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-06-01
3
3PC332
4
100K
2TE
2
18p
RE
S3T
D2
33K
10K
3TC3
GND_LN
4T02RES RES
100n
2TF3RES
4T06
RES
GND_RF GND_LN
5T86
10u
4T05RES
2TF2
100n
RES10u
5T85
GND_LN
TxD
RES
VCC
3TF1
GN
D_L
N
100n
2TD
9
PS-LNA
VCC
VCC
GND_LN
3TD
8
1M0
100n
2TD
2
FTB3
FTD2
GND_LN
GND_LN
VCC
VCC
GND_LN
FTB7
10u
5T83
3TC4
10K
10K
3TC
5
1234
RxD
GND_LN
1T34
1735446-4
PS-LNA
VCC
RTS_Charge
GND_LN
VCC
2TD
6
220n
2TD3
10u 16V
1M0
3TE1
10K
RES
FTA4
3TE2
2TD
8
220n
5T84
10u
FTD6
20K
3TD
5
FTA7
GND_LN
3TD6
10K
GND_LN
VCC
VCC
GND_LN
VCC
FTA3
VCC
GND_LN
RES
FTA2
4T01
10K
3TD
9
3TD
1
10K
GND_LN
FTB1
1T33
4M0
FTB9
GND_LN
FTC1
100n
GND_LN
FTB2
2TE
8
VCC
VCC
GND_LN
GND_RF
16V
10u2T
D4
2TE
7
100n
100n
2TE
43T
D3
100K
GND_LNGND_LN
4T04RES
2TF1
100n
3TE
6
10K
7T73
5T81
10u
BC847B
5T82
10u
FTD5
FTA5
FTC2
FTB8
GND_LN
VCC
FTA6
PS-LNA
GND_LN
FTB6
10K 3TC9
FTD3
BZ
X38
4-C
3V3
6T31
220n
2TD
7
10K
4T03
3TC
6
RSS
GND_LN
VCC
GND_LN
FTA1
GND_LN
10K
4K7
3TE7
7T72BC847B
RES
3TE
8
2TD
1
47u
6.3V
2TE
5
100n
FTD8
3TD
4
100K
FTD9
3TD7
RES
200K
RES 2TE9
100n100n
2TE3
100n
2TE
6
1011
2TD
5
100n
123456789
22
29
502382-0970
1T32
25 62 23
4849
10 38 26 27 61
PT5|IOC5|PWM5|VREG_API12
PT6|IOC6|PWM613
PT7|IOC7|PWM714
2454
37 47 9 30
PS1|TXD051
PS2|RXD152
PS3|TXD153
PT0|IOC05
PT1|IOC16
PT2|IOC27
PT3|IOC38
PT4|IOC4|PWM411
PM5|SCK055
PP0|KWP0|PWM0|IOC0|RXD14
PP1|KWP1|PWM1|IOC13
PP2|KWP2|PWM2|IOC2|TXD12
PP3|KWP3|PWM31
PP5|KWP5|PWM564
PP7|KWP7|PWM763
PS0|RXD050
PE1|IRQ_31
PE4|ECLK21
PE7|XCLKS_|ECLKX220
PM0|RXCAN0|RXD160
PM1|TXCAN0|TXD159
PM2|MISO058
PM3|SS057
PM4|MOSI056
43
PAD05|AN0544
PAD06|AN0645
PAD07|AN074616171819
PE0|XIRQ_32
33343536
PAD00|AN0039
PAD01|AN0140
PAD02|AN0241
PAD03|AN0342
PAD04|AN04
7T71MC9S12XS64CAE
15
28
FTDB
FTDA
3TC
1
100K
FTD7
FTA8
FTDC
FTA9
10K
3TC
2
FTD4
3TE
5
SPI_DATA_OUT_IB
IR-IN_DATA_IN_RXD_SDA1_LN
IR_OUT
10K
SPI_DATA_IN_IB
SPI_DATA_OUT_LN
SPI_CLK_LN
SPI_CLK_IB
18730_549_090921.eps090921
EN 122PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
Tuner LN: Video (xxHFLxxxxL/xx)
C
EN
BD
1A2A
2C
2D
S
S
S
S
1D
A
IN
VCC
GND
1C
D
1B2B
C
RFINOSCEOSCCLIN
LBIAS
QBIASQIN
MODO
+COMP-COMP
SQSTSQC
BODF
IFVCCRFVCC
RFGND GND
NC
O
GND
I
2TH7 B52TH8 B82TH9 B5
E
1T41 A5
G
RES
G
6
H
1 2 3 7 8 9
2 3 4 5
owne
r.2TL3 E8
10
1
6
B
3 12
6 7 8 9 10
A
B
C
D
E
A
2TG6 A22TG7 A32TG8 A9
2TG9 A92TH1 A102TH2 A102TH3 A3
B
C
D
11
3TG1 A52TJ1 B22TJ2 B32TJ3 B42TJ4 B3
2TJ5 B42TJ6 B52TJ7 B42TJ8 C10
H
RES
I
RES
1
J
13
2TL2 D7
A
12 13
4
4 5 6
J
2TL4 E82TL5 E92TL6 E92TL7 E10
2TL8 E102TL9 E22TM1 E52TM2 E1
8
1T42 B41T43 C11T44 D11T45 E11T46 E42TG1 A2
2TG2 A32TG3 A32TG4 A42TG5 A2
2TN9 E3
2
10
F
BD 12NC : 3139 283 30192
2TH4 A72TH5 A52TH6 A7
A3TG2 B83TG3 B63TG4 B83TG5 B8
3TG6 B103TG7 B93TG8 C83TG9 C8
2TJ9 C52TK1 C52TK2 C5
2TK3 C82TK4 C92TK5 C22TK6 C42TK7 C22TK8 C72TK9 D2
2TL1 D33TJ4 E7
E
10
D
9
MULTI 12NC : 3139 283 30182
5
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
FTF3 B6FTF4 B5FTF5 B6
C
3TJ5 D93TJ6 D83TJ7 E83TJ8 C65TA1 A2
5TA2 A3
2TM3 E32TM4 E12TM5 E2
2TM6 E32TM7 E42TM8 C62TN4 C102TN5 D82TN6 D42TN7 D2
2TN8 E1
5TB5 E9
4
7
11
RES
1
5TB6 E9
5TB7 E105TB9 A75TC1 C105TC2 C75TC3 D43TH1 C5
3TH2 C83TH3 D8
3TH4 D33TH6 E23TH7 E43TH8 E13TH9 E43TJ1 E23TJ2 E5
3TJ3 E5
FTF1 A9
72 53
I
9ITB3 A3ITB4 A3ITB5 A3
FTF6 B7FTF7 B7FTF8 B6FTF9 B7FTG1 B6FTG2 B7FTG3 B6
FTG4 B35TA3 A35TA4 A95TA5 B55TA6 B25TA7 B45TA8 B3
5TA9 B25TB1 B35TB2 C65TB3 C25TB4 E9
FTH9 D8
C
B
8
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
FTJ1 D6
FTJ2 E8FTJ3 E10FTJ5 D6FTJ6 D7FTJ7 D7FTJ8 E2FTJ9 E4
5TC4 D26T51 B9
6T52 C96T53 C97T91 B67T92 D67T93 E77T94 E27T95 E4
7T96 E67T97 D8
FTK1 E1FTK2 E1FTK3 E3FTK4 E4FTK5 B7ITB1 A2ITB2 A3
E
D
FTF2 A10
FTG5 B3FTG6 B4FTG7 B6FTG8 B7FTG9 B3FTH2 C2
FTH3 C1FTH5 C5FTH6 D2FTH7 D3FTH8 D1
F100n
2TK8
7T97PMBT2369
GND_RF
2TL7
120p
9p0
2TH
7
680n
5TA
5
GND_RF
2TN
8
10p
100n
2TL3GND_RF
2TG
5
56p
10K
3TG
7
GND_RF
RE
S
GND_RFF
TF
5
3TG
9
10K
FTG7
GND_RF
56p
2TM62TM
5
39p
6K8
3TG
2
RxD
RSS
GND_RF
GND_RF
FT
F4
100n
2TH6
2TK
4
100n
10K
RE
S
FTK3
RTS_Charge
3TJ1
RES
2TK
147
0p
PS-RF
2TJ4
10p
33p
2TM
8R
ES
120p
2TL6
FTJ8
FTK2
5TC2
10u
RF_TX_OUT
GND_RF
GND_RF
2TN4
100n
16V
10u2T
G8
18K
3TH
9
TxD
GND_RF
RF_TX_OUT
GND_RF
FTK4
FTH2
GND_RF
1T45
22M75
PS-RF
PS-RF
FTG9
GND_RF
RE
S
2TG3
12p
GND_RF
10K
3TJ2
2TJ2
560p
RE
S
FTH5
GND_RF
PS-RF
SETNAME
4
3PC332
4
2009-06-01 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
Nirmalya
2009-07-31
2
3
2TH4
100n
13010
2 2009-07-28
-- -- --
2009-06-01
A3
BDS MODULESPCB SB PB522_LN TUNER 3139 283 3019
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
CHN
2TH
9
15p
100p
2TL8
2TL5
120p
GND_RF
10u
5TA4
ITB2
2TN7
100n
FTG2
GND_RF
FTK5
FTF6FTF7
22K
3TH
2
6T51
1N4148
PS-RF
75R
3TH
4
FTK1
2TL1
1p5
RES3TG6
2K2
22M75
2TN
9
10p
ITB1
GND_RF
100p
GND_RF
RES
GND_RF
2TL4
10n
2TM1
2TJ7
100n
2TH
2
47u
6.3V
GND_RF
FTG8
12
5
11
14
3
6
10
13
16TS3V330PW7T92
4
7
9
12
15
8
VIDEO SWΦ
5TC3
10u
56p
2TG
6
GND_RF
FTG6
GND_RF
3TG
3
2K0
10p
2TJ5RES
2K2
PS-RF
PS
-RF
3TH
6
RES
FTH9
GND_RF
22u
5TA9
22M25
FTJ9
234
1
390p
2TJ1
RE
S
YAS11-0057N1T43
GND_RF
FTJ2 FTJ3
7T95BC847B
FT
F3
GND_RF
1N4148
6T53GND_RF
3TG5 560K
FTG3
22M25
47p
2TM3
GND_RF
3TJ7
22K
680n
5TA
2
FTJ7
2TH
3
22p
2K49
3TH
1
10u
5TC4
2TK
3
150p
FTF9
FTH6
FT
H7
FTH8
5TB7
1u0
2TM4
56p
1011
1
20
4
1415
2TN6
100n
1312
18
19
6
89
7
5
32
ML3356-6P7T91
1716
GND_RF
FTF2
10K
3TJ4
3TJ3
10K
GND_RF
BC847B7T93
ITB
5
BC847B7T96
5TA
7
3u3
FT
F8
22M25
100n
2TJ6
2TL9
10n
RES
1K0
3TJ8
3TH
7
22M75
1T46
22M25
2K2
2TK5
150p
FTG5
2TG
9
10n
2TK6
4n7
2TG1
100n
FTJ6
FTH3
100n
2TH8
2TG4
18p
RES
FTG4
3TH
8
18K
3TJ5
470R
PS-RF
10n
2TH
1
PS
-RF
FTJ5
3TG
8
22K
68p
2TG
7
BC847B7T94
39M
3216
FTF1
1T41
5TB5
1u0
3TJ6
390R
100n
2TN
5
3TG1
PS-RF
FTG1
1K0
5TA
3
1u0
5TC1
10u
PS-LNA
2TK
9
1p5
180p
2TK
2
2TJ8
100p
GND_RF
RE
S
RE
S
39p
2TM
7
2TJ3
390p
4
1
330n
5TB
2
1T44
23
15p
2TG2
RCA-07-SL-Y-NI-FE
1p5
2TK
7
22M75
GND_RF
2
5TA
8
680n
RE
S
4
1
3
6p0
10M7
1T42
SFSCE
1u05T
A6
RE
S
2TH
5
PS-RF
5TB9
10u
ITB
4
ITB3
RES
2TL2
100n
GND_RF
5TB1
22u
4 6
PS-RF
GND_RF
GND_RF
123
4n7
2TJ9
A903130115TB3
FTJ1
220n
5TA1
2TM2
47p
2K2
3TG4
6T52
1N41
48
3TH
3
RE
S
5TB4
27K
0u10u1
5TB6
18730_550_090921.eps090921
Circuit Diagrams and PWB Layouts EN 123PB52.2HU LA 10.
2010-Mar-05
Layout Tuner LN (xxHFLxxxxL/xx)
3139 283 3019.2 18730_551_090922.eps091002
1T04
1T06
1T11
1T12
1T13
1T321T
33
1T341T
41
1T42
1T43
1T44
1T45
1T46
1T55
1T69
1T97
2T00
2T01
2T02
2T05
2T08
2T09
2T10 2T11
2T12
2T13
2T14
2T15
2T16
2T17
2T18
2T19 2T20
2T21
2T22
2T23 2T
24
2T25
2T26
2T30
2T31
2T32
2T33
2T35
2T36
2T37
2T51
2T53
2T59
2T61
2T62
2T63
2T64
2T75
2T80
2T84
2T87
2T88
2T92
2T98
2T99
2TA1
2TA4
2TA5
2TA7
2TB
2
2TB
32TB5
2TB6
2TD
1
2TD2
2TD
3
2TD
42T
E3
2TF3
2TG
1
2TG2
2TG
3
2TG4
2TG52TG
6
2TG7
2TG8 2TH2
2TH3
2TH42TH6
2TH7
2TH
8
2TJ1
2TJ2
2TJ3
2TJ4
2TJ5
2TJ7
2TJ8
2TJ9
2TK1
2TK2
2TK
3
2TK4
2TK5
2TK
6
2TK
72T
K9
2TL2
2TL3
2TL4
2TL52TL6
2TL7
2TL8
2TM
8
2TN
5
3T18
3T19 3T
20
3T25
3T29
3T48
3T50
3T53
3T54
3T56
3T573T
59
3T70
3T77
3T81
3T82
3TC
2
3TD
3
3TD8
3TE
5
3TF
1
3TG
2
3TG
4
3TG
5
3TG
6
3TG
7
3TG
8
3TG
9
3TH
1
3TH
2
3TJ6
3TJ7
3TJ8
4T01
4T06
5T535T54
5T55
5T60
5T61
5T81
5T82
5T83
5T86
5TA1
5TA2
5TA
3
5TA5
5TA
6
5TA
7
5TA85TA
9
5TB1
5TB2
5TB3
5TB4
5TB5
5TB
6
5TB7
6T31
6T516T52
6T53
7T20
7T91
7T93
7T97
2T03
2T04
2T06
2T07
2T27
2T28
2T29
2T45
2T46
2T48
2T65
2T81
2T82
2T83
2T85
2T86
2T89
2T90
2T91
2T97
2TA2
2TA
3
2TA6
2TA8
2TA9
2TB
1
2TB4
2TD
5
2TD
6
2TD
7
2TD
8
2TD9
2TE
12T
E2
2TE4
2TE
52T
E6
2TE
72T
E8
2TE92TF1
2TF
2
2TG
9
2TH1
2TH
5
2TH
92T
J6
2TK8
2TL1
2TL9 2TM1
2TM2
2TM
3
2TM4
2TM5
2TM6
2TM7
2TN
4
2TN6
2TN7
2TN8
2TN9
3T013T03
3T05
3T07
3T08
3T09
3T10
3T11
3T12
3T13
3T14
3T15
3T16
3T17
3T21
3T22
3T23
3T24
3T30
3T31
3T32
3T33
3T34
3T35
3T36
3T37 3T38
3T403T41
3T423T433T443T45
3T463T47
3T55
3T58
3T64
3T68
3T69
3T74
3T75
3T76
3T83
3T84
3T903T91
3T92
3T93
3T94
3T98
3TA1
3TA2 3TA
3
3TC1
3TC3
3TC4
3TC
5
3TC
6
3TC8
3TC9
3TD
1
3TD
2
3TD
4
3TD
5
3TD
6
3TD
7
3TD
9
3TE
1
3TE2
3TE
3
3TE4
3TE6
3TE
7
3TE8
3TE
9
3TG
1
3TG3
3TH
3
3TH
4
3TH6
3TH7
3TH
8
3TH9
3TJ13TJ2
3TJ3
3TJ4
3TJ5
4T02
4T03
4T04
4T05
5T02
5T09
5T31
5T32
5T84
5T85
5TA4
5TB9
5TC1
5TC2
5TC
35TC4
6T01
7T06
7T18
7T54 7T55
7T56
7T577T59
7T71
7T72
7T73
7T92
7T94
7T95
7T96
9T06
9T109T11
9T12
9T13
9T15
9T16
9T51
9T52
9T57
9T63
9T67
9T68
AT
56
AT57
AT
58
AT59
AT62
FT00
FT04
FT05
FT06
FT07
FT
08
FT09
FT10
FT
11
FT12FT13
FT14FT15
FT16FT17
FT18FT19
FT20FT21
FT22
FT23
FT24
FT25
FT26
FT27
FT28FT30
FT31
FT32
FT52
FT53
FT56
FT57
FT60
FT70
FT72
FT
73
FT74
FT75FT76
FT80
FT81
FT82FT83
FT84
FTA1FTA2
FTA3
FTA4
FTA5
FTA6
FTA7
FTA8
FTA9
FTB1
FTB2
FTB3
FTB6
FTB7
FTB8
FTB9FTC1
FTC2
FTD2FTD3
FTD4
FTD5
FT
D6
FTD7
FTD8
FTD9
FTDA
FTDB
FTDC
FTF1
FTF2
FTF3
FTF4
FTF5
FTF6
FTF7
FTF8
FTF9
FTG1
FTG2
FTG3
FTG4
FTG5
FTG6
FTG7
FTG8
FTG9
FT
H2
FTH3
FTH5
FTH6
FTH7
FTH8
FTH9
FTJ1
FTJ2
FTJ3FTJ5
FTJ6FTJ7
FTJ8
FTJ9
FTK1
FTK2 FTK3
FTK4
FTK5
IT01
IT02
IT05
IT06
IT07
IT09
IT10
IT11
IT12
IT15
IT16
IT17
IT26
IT27
IT28
IT29
IT30
IT31
IT32
IT33
IT34
IT35
IT36
IT37
IT38
IT39
IT40
IT44
IT48
IT49
IT50
IT60
IT62
IT63
IT65
IT66
IT67
IT68
IT69
IT71
IT73
IT74
IT75
IT76
IT77
IT78
IT79
IT80
IT83
IT84
IT87
IT88
IT89
IT90
IT91
IT92
IT93
ITA
3 ITA4 ITA5 ITA6
ITA7
ITA8
ITA9
ITB1
ITB
2
ITB3
ITB4
ITB
5
EN 124PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
Tuner Std: Chnl. Dec. (xxHFLxxxxD/xx)
COM
OUTIN
C
1P2
VSSO
AVDDO1P2
DS_AGND
2P5
AVSSVSSODVSSAVSSDVSSVSS
XTAL 1P2 D
VDDO
VDDP_2P53P32P5VDDC_1P2AVDD VDD
DS
AUD_VDDDVDD DVDDAVDD
OB
DIGPLL
XTAL OB AUD DIGPLL
PLLP 2P5
VSSC
GPIO
GPO
DATA
IFXTAL
IF
CB
AUD
MISC
CS
ANT
HOST
JTAG
MAST
AGCI_CTLAGCT_CTL01234567ERRSYNCVALID
2301
NC
2345
76
10
IRQ_OUT10
RESET
LN_LRLP_DATA
RN_MCLKRP_SCLK
VCONVCOP
SDATACLKAGC
NPP
N
DETRX_DATATX_DATA
SCK_SCLSPI_BSCMISO_ADDR1MOSI_SDASSB_ADDR0
TCKTDITDOTMS
SCLSDA
PNPS_CLKADC_CLKADC_F1B
1
14 15 16 17 18 19
A
F
201 20
D
15
K
A
E
F
G
14
L
E
F
191 2 3 18171610
O
N
13
12 13
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
owne
r.
1 10 197 13 14 15
111098
IT11 D4IT12 D4IT15 C7
IT27 B7IT28 B7IT29 B7
3 4 5
A
11 12
11
C
J
I
H
K
D
B
986
141312
B
C
DFXXX E1FXXX E1FXXX E1
121110
FXXX F1FXXX F1FXXX F1
B
C
135 6 7
H
1716
FXXX F1FXXX F1FXXX G1FXXX G1FXXX G1FXXX G1FXXX G1FXXX G1FXXX G1IT05 C7IT06 C7IT07 C7IT09 D7IT10 E4
4XXX B54XXX B55T02 F10
IT16 C7IT17 E5IT26 B7
7T06-1 E57T06-2 E47T18-1 A7
E
7T18-2 G87T20 D11
9T06 D49T10 C49T11 C49T12 D59T13 D5FT00 D11FT03 C5FT04 G4FT05 G6FT06 C5FT07 C5FT09 C5FXXX E1FXXX E1FXXX E1FXXX E1FXXX E1
3T44 D63T45 D63T46 D6
FXXX E1FXXX F1FXXX F1
3T91 D43T92 E53T93 E4
owne
r.
K
A
B
C
D
E
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
6 7 8 9
AA
ll rig
hts
rese
rved
. Rep
rodu
ctio
n in
who
le o
r in
par
ts
B
M
L
J
I
H
G
I
3T94 F4
O
PP
5T09 B35T31 F95T32 F9
3T29 C53T30 A63T31 A6
20
1 84
816111
9
M
14
2019
3T32 A63T33 C103T34 C93T35 C103T36 C93T37 B63T38 B63T40 D63T41 D63T42 D63T43 D6
12
3T15 C63T16 C6
3T47 D63T48 C103T90 D5
3T20 B93T21 B93T22 D6
32
54
J
N
O
I
J
K
L
M
P
C
N
987654
H
P
3T05 D53T07 A33T08 B3
3T23 D63T24 D63T25 B9
3T12 B23T13 A23T14 C6
5 6 7 8 9 10 114 181710 2019181716153 13
2T27 A32T28 B32T29 D5
3T17 C63T18 B93T19 C5
2T35 B92T36 B92T37 B9
14 15
Channel decoder
43 16 175
L
18 19 20
12
O
BD 12NC : 3139 283 30212MULTI 12NC : 3139 283 30202
2XXX G12XXX G12XXX D112XXX G23T01 C33T03 C4
2T05 G72T06 E42T07 E5
3T09 C53T10 B53T11 B6
2T11 F102T12 G72T13 G7
6 10 119
N
7
O
P
2019
2T14 G62T15 G62T16 G62T17 G52T18 G52T19 G52T20 G42T21 G42T22 G42T23 G42T24 G32T25 G32T26 G3
1
1 2
2T30 G82T31 C62T32 D10
6
H
A
141312
N
O
1XXX H41XXX H51XXX H62T03 B22T04 A2
E
D
2T08 G72T09 F102T10 F10
A
F
G
2
L
7 8
16151413
11
G
M
L
J
I
H
1615
2
10 11 12
3 4 5
C
D
E
B
C
D
3
O
P
J
L
M
N
M
21
K
B
N
M
7
I
H
G
F
P
1 2 6 7 8
E
F
G
2
G
H
I
F
P
9 10 11 12 13
1 2 3 4 5 6 7 8 9
E
F
G
13
A
B
1XXX H11XXX B21XXX H3
4 5 6
B
F
2
J
3 17 18 19 20
K
N
AA
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
G
15
O
IXXX C7IXXX C7IXXX B9
3 4 5
IXXX B9IXXX B9IXXX B9
9 10
E
D
C
17
G
F
18
E
D
C
8 12
M
L
K
J
I
H
B
C
D
+1V2
H
1XXX E11XXX G1
IT30 B7IT31 B7IT32 A3IT33 B3IT34 A2IT35 B2IT36 B2IT37 C6IT38 C6IT39 C5IT40 C5ITA3 C9ITA4 C9ITA5 C9ITA6 C9ITA7 G8ITA8 G8ITA9 F10
9T16
10K
3T05
3T40 33R
+2V5-TUN
3K3
2T31
3T36
+2V5-TUN
3p3
IT38
3T42 33R
IT07
3T01
1K2
FT04
IT05
FT25
FT08
3T24 33R
IT17
10K
3T30
FT30
3T07
330R
1T99REF EMC HOLE
3
4
2T23
100n
BC847BPN7T06-2
5
FT12
FT10
3K33T33
47R3T3747R3T38
100n
2T13
3T19 390R
FT05
220R
5T32
IT10
2T11
10n
3T41 33R
6
1
1T69
54M
BC847BPN7T06-12
IT33
2T09
10n
IT37
220R
5T31
ITA7
FT09
10K
3T31
100n
2T14
IT29
+2V5-TUN
+1V2
IT09
33R3T45+5V-TUNER
2T25
100n
9T12
9T15
100n
2T22
1T97TAG_LARGE
1
ITA5
FT31
+3V3
1
3 2
10n
2T30
LD1117DT257T20
FT13
IT28
+3V3
2T08
10n
2T12
100n
+12V
+1V2
100R3T20
IT27
100n
2T02
3T29 390R
9T06
22u
2T33
3T44 33R
+3V3
+3V3
10n
2T10
3T91
100K
IT39
1K2
3T03
FT11
100n2T37
3T22 33R
IT34
3T48
4K7
3T18 100R
8p2
2T03
ITA4
100n
2T32
33R
+3V3
3T09
33R3T47
+2V5-TUN
+3V3
+3V3
FT32
IT32
100n
2T18
3K33T15
1T96REF EMC HOLE
FT28
3T34 3K3
220R
5T02
9T11
+3V3
9T10
22n
2T06
2T01
100n
+1V2
IT35
FT21
100n
2T00
IT02
+3V3
IT01
33R
3T21
1K03T173K33T16
15p
2T28
IT49330R
ITA6
3T08
FT00
IT44
1922
IT30
37 46 52 62 73 79 86 111
18
59 72 87 99 109
123 1
124
133
144
74 80 85 112
60 119
137
5
13926 45
110
122
81 2 125
132
143
38 47 53 612827
4 138
25 44 58 71 88 98
16
9 10 12 13 141733 2930 36
108
100
104
105
103
2324 6 11 15
DTV RECEIVERSUPPLY
7T18-2TDA10060HL/C1
Φ8
9 10
IT36
1T12
502382-0870
1234567
2T17
100n
10n
2T05
2T15
100n
100n
2T16
2T19
100n
FT07
3T93
1K0
ITA3
+3V3
CLASS_NO
1
SUPERS.
2
NAME
DATECHECK
3139 283 3021PB522_NO_LN TUNERPCB SB
A2
2009-05-15
-- -- --
2009-06-122
03101
3
2
2009-07-31
Agnes
DC398881
2009-07-31
SV ROYAL PHILIPS ELECTRONICS N.V. 20092009-05-15
1
3PC332
2
SETNAMECHN
9T13
2T29
100n
+2V5-TUN
2T07
10n
FT16FT17
FT14
3T11
4K7
1K0
3T90 33R3T23
FT20
3K33T35IT40
FT24
FT22
IT48
FT23
IT31
3456789
2122
111213141516171819
2
20
1T13
20FLZ-SM2-TB(LF)(SN)
1
10
IT06
5T09
2u7
100n
2T26
3T32
10K
3T25 1K0
10n2T352T36 10n
2T21
100n
100n
2T24
3T92
10K
FT29
2T27
15p
IT12IT11
120
20
21
9697
3965
3231
3534
66
40121
129127
130131
89909192939495
84113
6970
68116
67
41
128126
63
3140115114757677788283
56
55545150494843426457
107106102101
142141
117118
87
TDA10060HL/C1
7T18-1
ΦDTV RECEIVER
134136135
100n
2T20
REF EMC HOLE1T98
FT15
33R3T43
15R
3T13
3T12
15R
IT16
+3V3
IT15
+3V3
4K7
3T10
FT19FT18
FT27
ITA9
FT26ITA8
3T46 33R
IT50
22R3T14
3T94
10K
IT26
FT06
2T04
8p2
2345
6 7
1T11
S5B-PH-SM4-TB
1
TUN-FE-DATA3TUN-FE-DATA2TUN-FE-DATA1TUN-FE-DATA0
SDA-SSB-MUX2SCL-SSB-MUX2
TUN-FE-DATA7
TUN-FE-CLKTUN-FE-SOP
TUN-FE-VALIDTUN-FE-ERR
SCL-SSBSDA-SSB
RESET-SYS-DETECT
TUN-FE-DATA6TUN-FE-DATA5TUN-FE-DATA4
CVBS-BO
IF-P
IF-N
TUN-AGC-MON
SCL-SSB1SDA-SSB1
TUN-FE-DATA7
SDA-SSBSCL-SSB
TDA-IF-IN-PTDA-IF-IN-N
JTAG-TDO-FE
TDA-IF-AGC
TUN-FE-DATA5TUN-FE-DATA6
TUN-FE-DATA2TUN-FE-DATA3TUN-FE-DATA4
TUN-FE-DATA0TUN-FE-DATA1
TUN-TDA-SCLTUN-TDA-SDA
RESET-SYS-DETECT
TUN-FE-CLK
TUN-FE-SOPTUN-FE-ERR
TUN-FE-VALID
JTAG-TMS-FE
JTAG-TCK-FEJTAG-TDI-FE
FM-TRAP-SWITCH
18730_552_090922.eps090922
Circuit Diagrams and PWB Layouts EN 125PB52.2HU LA 10.
2010-Mar-05
Tuner Std: Main Tuner (xxHFLxxxxD/xx)
C
COM
OUTIN
IO2IGNDO1
GND
IO2IGNDO1
GND
CAF1
IF2
BA
IF3
OPTXTAL
BOUT1
AB
OUT2
TAGCAUDCVBS
12
MPP
EXTFILO
CDEEM
IC
LF
SYN2
FM
VIF
AB
EXT
IF1
CAF2
B
ADRSEL
AGCDIN
TOP2
FMI
FILI
FREF
A
VP
GND GNDA
BVSSCLSDA
SYN1
A
GNDD
NC
IT84 F11IT87 D2IT88 D2
IT89 B3IT90 C3IT91 D3IT92 D12
IT93 B12
RES
E
F
G
1T55 A61XXX A1 2T81 F9
2T82 F102T83 F10
2T84 D12T85 E132T86 E72T87 D8
2T88 D10
1XXX B62T48 D13
2T51 E132T53 B12T59 D3 IT75 F10
IT76 D4
IT77 F11IT78 C4IT79 F12
O
IT80 D4
IT83 F10
19
1
10
BD 12NC : 3139 283 30212
RE
S
MULTI 12NC : 3139 283 30202
E
F
G
A
B
C
D
L
816151 177 8 9 10
O
2T75 B1
2T80 F10
2 3 4 5 6 7 8 9 13 14
1 2 3 4 5 6 7 8
P
20
11 12 13 14
A
B
C
D
9654321
1
2T89 D102T90 E132T91 E8
2T92 F132T98 F10
N
M
2TA2 G102TA3 D132TB2 D32TB5 E12
2TB6 E132XXX C12XXX D102XXX D10
1312 4111
10 11 12
2XXX F13
2XXX B22XXX B22XXX A82XXX B8
2XXX B82XXX F83T50 E133T53 D4
3T54 F10
9 10
3T57 D13
3T58 E83T59 E73T64 F83T68 D2
3T69 D23T70 D23T74 F9
3XXX A103XXX B103XXX B8
3XXX F83XXX E95T53 C125T54 B3
5T60 A75T61 B45XXX A102T99 A12
2TA1 E13
7T59 F87XXX A117XXX D11
7XXX A99T51 C49T52 D49T57 E7
9T63 E10
I
RES
RE
S
RES
2XXX D102XXX F102XXX A112XXX A12
2XXX C122XXX C122XXX C12 FT56 E12
FT57 G8
FT60 A6FT70 C12FT72 F8FXXX E11
FXXX E11FXXX E7FXXX E7IT60 D11
3T55 F93T56 D13 IT65 E11
IT66 F9
IT67 F8IT68 E12IT69 E13IT71 D13
IT73 F10IT74 F11
B
MAIN TUNER
ANALOGUE VIDEO
3T75 F9
3T76 D133T77 C43T81 E133T82 E13
3T84 F8
K
L
M
N
11
6XXX B10
7T56 D2
8 1817161511
2
ATSC
9T67 D49T68 C4AT56 E14
AT57 E14AT58 E14AT59 F14AT62 B4
FT52 C4FT53 C4
2 3 4 5 6 18 19 20
P
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
IT62 F11IT63 F10
C
J
I
H
G
19 20
C
H
Ais
pro
hibi
ted
with
out t
he w
ritte
n co
nsen
t of t
he c
opyr
ight
All
right
s re
serv
ed. R
epro
duct
ion
in w
hole
or
in p
arts
A
B
C
D
E
F
G
H
I
J
15141312
4
109
O
7654 14131232
3
87
6 7 8 9 10 11 12 13 14 15 16 17
A
K
owne
r.
is p
rohi
bite
d w
ithou
t the
writ
ten
cons
ent o
f the
cop
yrig
ht
E
A
B
J
I
H
G
F
D
C
B
D
E
I
K
owne
r.
J
K
L
M
N
O
P
F
G
F
E
D
2019181716
5
P
3T83
1
1
N
M
L
39R
IT84
100n
2T62
FT75
8
VREF6
22u
2TA
5
COMP4
FB5
GND7
INH3
OUT1
SYNC2
VCC
7T55L5970D
IT73
2T98 1n5
RES9T67
3p3
2T86
220R
5T54
9T57
100n2T63
2T59
150p
3T75
2K7
2T83
4n7
FT72
+12V
IT74
IT71
IT77
3T53
47R
FT56
9T51
9T52
100R3T56
IT76
3T57 100R
75R
3T64
2T87
3p3
220R
3T84
220n
2T803T54 330R
BC847BW7T56
10n
2TB6
2T89
V2
5
RF
-OU
T2
SC
L6
SD
A7
VT
U9
10n
ER
F-G
AIN
3
FM
-TR
AP
4 10G
ND
11IF
-OU
T 12
1314
15
PLL
1T04TD1736F/FHFXP
TUNER
84M
HZ
AP
O1
3TA
2
2K2
+5V-TUNER
3TA
1
100R
FT73
FT74
5T53
220R
AT62
IT90
IT91
IT89
IT60
2T51 10n
10n
2T75
10V
1m02T
A7
150p
2TB
2
3T77
+5V-TUNER
47R
IT93
45M75
1T06M1867D
4K7
3T70
3T69
100K
3T68
4K7
BC847BW7T59
IT80
IT83
3 2
+5V-TUNER
7T54LD1117DT50C
1
3T76 3K3
IT68
IT67
3T82 180R
2n2
2T8247p
2T81
IT92
2009-07-31
2
3
2T48 100p
2009-05-15
A2
PCB SBPB522_NO_LN TUNER 3139 283 3021
CHECK DATE
NAME
2
SUPERS.
1
CLASS_NO
EMANTESNHC
2
3PC332
2
2009-05-15 ROYAL PHILIPS ELECTRONICS N.V. 2009SV
2009-07-31
DC398881
Agnes 13010
2 2009-06-12
-- -- --
45
2TB5 10n
X6931D
3
12
V2
44M
1T55
V1
22n
2TA
9
220p
2TA
8
IT88
IT87
2T53
10n
9T63
FT60
3TA
3
4K7
FT70
2TB
4
100n
100n
2TA
4
11
43 44
+3V3
100n
2T91
3742
39
2627
2930
2423
47
381
13
1216
2581835
22
1445
67
910
34
19
3420
33 17
15
21
46
48 4041
25
36
31
32
28
ΦPROCESSING
IF
TDA9897HL/V2C7T57
2T88
10n
3T58
390R
390R
3T59
3T81 3K9
2T90 10n
1n5
2T92
IT798K2
3T55
2T46 10n
470n2T65
2T84
10n
2T64
22u
IT78
100n2T97
2T99
220u
16V
5T61
270n
1u5
5T60
FT53
1210
u
2TA
6
6T01
SS
24
100n
2T61
2T85
2T45
10n
IT66
10n
IT65
IT63
IT62
FT52
3T50 100K
IT75
AT56
IT69
22u
5T55
10n2TA1
22p
2TA
2
3T74
470R
2TB
1
100n
3T98
100R
AT58
AT57
AT59
RES
V1
9T68
FT76
FT57
100p2TA3
2TB
3
22u
IF-P
TDA-IF-IN-P
TDA-IF-IN-N
TUN-AGC
TUN-AGC-MONTUN-AGC
CVBS-BO
IF-OUT
TDA-IF-AGC
IF-OUT
IF-OUT
IF-FILTP3IF-FILTN3TUN-AGC
IF-OUT
IF-FILTN1IF-FILTP1
4-MHz
FM-TRAP-SWITCH
TUN-TDA-SCL
TUN-TDA-SDA
IF-FILTN3
IF-FILTP3
SDA-SSB-MUX2
SCL-SSB-MUX2
IF-N
SDA-SSB1SCL-SSB1
IF-FILTP1IF-FILTN1
4-MHz
18730_553_090922.eps090922
EN 126PB52.2HU LA 10.Circuit Diagrams and PWB Layouts
2010-Mar-05
Layout Tuner Std (xxHFLxxxxD/xx)
3139 283 3021.2 18730_554_090922.eps091002
1T04
1T06
1T11
1T12
1T13
1T55
1T69
1T97
2T002T01
2T02
2T05 2T08 2T
09
2T102T11
2T12
2T13
2T14
2T15
2T16
2T17
2T18
2T19
2T20
2T21
2T22
2T23
2T24
2T25
2T26
2T30
2T31
2T32
2T33
2T35
2T36
2T37
2T51
2T53
2T59
2T61
2T62
2T63
2T64
2T75
2T80
2T84
2T87
2T88
2T92
2T98
2T99
2TA1
2TA4
2TA5
2TA
7
2TB
2
2TB
3
2TB4
2TB5
2TB6
3T18 3T
19
3T20
3T25
3T29
3T483T
503T
53
3T54
3T56
3T59
3T70
3T77
3T81
3T82
5T535T54
5T55
5T60
5T617T20
2T03
2T04
2T06
2T07
2T27
2T28
2T29
2T45
2T46
2T48
2T65
2T81 2T
82
2T83
2T85
2T862T
89
2T90
2T91
2T97
2TA2
2TA
3
2TA6
2TA8
2TA9
2TB
1
3T013T03
3T05
3T07
3T08
3T09
3T10
3T11
3T12
3T13
3T14
3T15
3T16
3T17 3T21
3T22
3T233T24
3T30
3T31
3T32
3T33
3T34
3T35
3T36
3T37
3T38
3T403T413T423T433T443T453T463T47
3T55
3T57
3T58
3T64
3T683T69
3T74
3T75
3T76
3T83
3T84
3T903T91
3T92
3T93
3T94
3T98
3TA1
3TA2
3TA
3
5T02
5T09
5T31
5T32
6T01
7T06
7T18
7T547T55
7T56
7T57 7T59
9T06
9T109T11
9T12
9T13
9T15
9T16
9T51
9T52
9T57
9T63
9T67
9T68
AT56
AT57
AT58
AT
59
AT62
FT00
FT04
FT05
FT06
FT07
FT08
FT09
FT10
FT11FT12
FT13
FT14
FT15
FT
16
FT17
FT18FT19
FT20
FT21
FT22
FT23
FT24
FT25
FT26 FT27
FT28 FT29
FT30
FT31
FT32
FT52
FT53
FT56
FT57
FT60
FT70
FT72
FT73
FT74
FT
75
FT76
IT01
IT02
IT05
IT06
IT07
IT09
IT10
IT11
IT12
IT15
IT16
IT17
IT26
IT27
IT28
IT29
IT30
IT31
IT32
IT33
IT34
IT35
IT36
IT37
IT38
IT39
IT40
IT44
IT48
IT49
IT50
IT60
IT62
IT63
IT65
IT66
IT67
IT68
IT69
IT71
IT73
IT74
IT75
IT76
IT77
IT78
IT79
IT80
IT83
IT84
IT87
IT88
IT89
IT90
IT91
IT92
IT93
ITA3
ITA
4
ITA
5
ITA
6
ITA7
ITA8
ITA
9