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Colour Television Chassis LC8.2HA LA ME8 I_17760_000.eps 040208 Contents Page Revision List 2 Technical Specifications and Connections 2 Precautions, Notes, and Abbreviation List 5 Mechanical Instructions 9 Service Modes, Error Codes, and Fault Finding 15 Alignments 26 Circuit Descriptions 29 IC Data Sheets 31 Block Diagrams Wiring Diagram 32" (ME8) 39 Wiring Diagram 42" (ME8) 40 Block Diagram Video 41 Block Diagram Audio 42 Block Diagram Control & Clock Signals 43 SSB: Test Points (Overview Bottom Side) 44 I2C IC Overview 49 Supply Lines Overview 50 10. Circuit Diagrams and PWB Layouts Diagram Main Power Supply (42"): Part 1 (A1) 51 Main Power Supply (42"): Part 2 (A2) 52 SSB: DC/DC +3V3, +1V2, & +VTUN (B01A) 55 SSB: DC/DC +5V, +1V8, & +2V5 (B01B) 56 SSB: Tuner IF & Demodulator (B02) 57 SSB: Micro Processor (B03) 58 SSB: Trident WX69 (B04A) 59 SSB: DDR Interface (B04B) 60 SSB: FPGA Interface (B04C) 61 SSB: FPGA I/O Banks (B04D) 62 SSB: LVDS Connector (B04E) 63 SSB: Audio Processor Micronas (B05A) 64 SSB: Audio Class-D (B05B) 65 SSB: YPbPr & SVHS (B06A) 66 SSB: I/O Cinch 1 & 2 (B06B) 67 SSB: VGA, PC Audio, ComPair, UART (B06C) 68 Contents 1. 2. 3. 4. 5. 6. 7. 8. 9. Page SSB: HDMI Switch SSB: HDMI Main SSB: MJC MT8280 LVDS SSB: MJC MT8280 DDR SSB: MJC MT8280 Power SSB: SRP List Explanation SSB: SRP List IR / LED Panel iBoard iBoard (B07A) 69 (B07B) 70 (B08A) 71 (B08B) 72 (B08C) 73 74 75 (J) 86 (HC01) 88 (HC02) 89 76-85 76-85 76-85 76-85 76-85 87 90-91 90-91 PWB 53-54 53-54 76-85 76-85 76-85 76-85 76-85 76-85 76-85 76-85 76-85 76-85 76-85 76-85 76-85 76-85 © Copyright 2009 Koninklijke Philips Electronics N.V. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips. Published by JA/CC 0964 BU TV Consumer Care, the Netherlands Subject to modification EN 3122 785 18510 2009-Apr-10 EN 2 1. LC8.2HA LA Revision List 1. Revision List Manual xxxx xxx xxxx.0 • First release. 2. Technical Specifications and Connections Index of this chapter: 2.1 Technical Specifications 2.2 Directions for Use 2.3 Connections 2.4 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 CTN Styling Published in: 32HFL5530/93 ME8 3122 785 18510 32HFL5530/97 42HFL5580/93 42HFL5580/97 2.2 Directions for Use You can download this information from the following websites: http://www.philips.com/support http://www.p4c.philips.com 2009-Apr-10 Technical Specifications and Connections 2.3 LC8.2HA LA 2. EN 3 Connections 17 16 6 15 HDMI 1 AUX AUDIO OUT 1 AUX AUDIO OUT 2 HDMI 2 HDMI 3 10 DIGITAL VOLUME 8 CONTROL DATA 2 (RJ45) DATA 1 (RJ12) SMARTPLUG RS 232 AUDIO IN SPDIF OUT VGA SERV. C 12 13 14 11 5 R 9 L 7 Y VIDEO Pr 75X TV ANTENNA 4 VIDEO L L L R R R CVI 3 AV OUT 2 8 AV IN 1 18510_001_090406.eps 090406 Figure 2-1 Connection overview Note: The following connector colour abbreviations are used (according to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, Ye= Yellow. 2.3.1 Rear and Side Connections 1 - AV In: Cinch: Video CVBS - In, Audio - In Ye - Video CVBS 1 VPP / 75 Ω Wh - Audio L 0.5 VRMS / 10 kΩ Rd - Audio R 0.5 VRMS / 10 kΩ jq jq jq 2 - AV Out: Cinch: Video CVBS - Out, Audio - Out Ye - Video CVBS 1 VPP / 75 Ω Wh - Audio L 0.5 VRMS /10 kΩ Rd - Audio R 0.5 VRMS / 10 kΩ kq kq kq 3 - CVI: Cinch: Video YPbPr - In, Audio - In Gn - Video Y 1 VPP / 75 Ω Bu - Video Pb 0.7 VPP / 75 Ω Rd - Video Pr 0.7 VPP / 75 Ω Wh - Audio L 0.5 VRMS / 10 kΩ Rd - Audio R 0.5 VRMS / 10 kΩ jq jq jq jq jq 4 - Aerial - In - - IEC-type (EU) Coax, 75 Ω 5 - Service Connector (ComPair) 1 - SDA-S I2C Data (0 - 5 V) 2 - SCL-S I2C Clock (0 - 5 V) 3 - Ground Gnd 7 8 9 10 11 12 13 14 15 16 17 18 19 20 - D0+ - Shield - D0- CLK+ - Shield - CLK- n.c. - n.c. - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground Data channel Gnd Data channel Data channel Gnd Data channel DDC clock DDC data Gnd Hot Plug Detect Gnd jk j H 6 - HDMI1, 2 and 3 (optional): Digital Video, Digital Audio In 1 - D2+ Data channel j 2 - Shield Gnd H 3 - D2Data channel j 4 - D1+ Data channel j 5 - Shield Gnd H 6 - D1Data channel j j jk H j j H 7 - PC: VGA: Video RGB - In, Cinch: Audio - In 1 D j H j j H j 5 10 6 15 11 E_06532_002.eps 171108 Figure 2-2 VGA Connector 1 - Video Red 2 - Video Green 3 - Video Blue 4 - n.c. 5 - Ground 6 - Ground Red 7 - Ground Green 8 - Ground Blue 9 - +5VDC 10 - Ground Sync 11 - n.c. 12 - DDC_SDA 13 - H-sync 14 - V-sync 15 - DDC_SCL Wh - Audio L Rd - Audio R 0.7 VPP / 75 Ω 0.7 VPP / 75 Ω 0.7 VPP / 75 Ω j j j Gnd Gnd Gnd Gnd +5 V Gnd H H H H j H DDC data 0-5V 0-5V DDC clock 0.5 VRMS / 10 kΩ 0.5 VRMS / 10 kΩ j j j j jq jq 2009-Apr-10 EN 4 2. LC8.2HA LA Technical Specifications and Connections 8 - S-Video (Hosiden): Video Y/C - In 1 - Ground Y Gnd 2 - Ground C Gnd 3 - Video Y 1 VPP / 75 Ω 4 - Video C 0.3 VPPP / 75 Ω 8 - Cinch: Video CVBS - In, Audio - In Ye - Video CVBS 1 VPP / 75 Ω Wh - Audio L 0.5 VRMS / 10 kΩ Rd - Audio R 0.5 VRMS / 10 kΩ H H j j jq jq jq 13 - RJ12 DATA1 (HM-Link - In/Out) 1 - LED-in_SCL < 0.3 V, active low 2 - IR-in_SDA < 0.3 V, active low 3 - MODE_HP-DET Vcc 4 - TV Power Status 4.5 to 5 V: TV “On” < 0.3 V: TV “Stdby” High impedance: TV “Off” 5 - Gnd Gnd 6 - IR-out Signal j j j k H k 14 - iBoard Service Connector (RS232-UART) 9 - Head phone - Out Bk - Head phone 32 - 600 Ω / 10 mW 1 rt Figure 2-4 RS232 Connector 1 2 E_06532_017.eps 250505 Figure 2-3 HDMI (type A) connector 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 - D2+ - Shield - D2- D1+ - Shield - D1- D0+ - Shield - D0- CLK+ - Shield - CLK- n.c. - n.c. - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground j H j j H j j H j j H j Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel DDC clock DDC data Gnd Hot Plug Detect Gnd 11 - Cinch: S/PDIF - Out Bk - Coaxial 0.4 - 0.6VPP / 75 ohm 12 - RJ45 DATA2 (Xpress Box - In/Out) 1 - +12V +12V/1W 2 - Gnd Gnd 3 - TXD Send 4 - RXD Receive 5 - TXD232 Send 6 - RXD232 Receive 7 - SDA3_IR-OUT Signal 8 - POR (*) Signal 9 - CVBS-terr Signal 10 - Gnd Gnd j jk H j j H kq k H k j k j k k k H (*) POR= Power On Reset 2.4 Chassis Overview Refer to chapter “Block Diagrams” for PWB/CBA locations. 2009-Apr-10 9 E_06532_005.eps 171108 10 - HDMI: Digital Video, Digital Audio - In 19 18 5 6 1 2 3 4 5 6 7 8 9 - n.c. - RXD232 - TXD232 - n.c. - Gnd - n.c. - n.c. - n.c. - n.c. Receive Send j k Ground H 15 - Mini Jack: Bathroom speaker (8 W / 1 W - Output) 1 - Control Signal OUTko 2 - Control Signal OUT+ ko 3 - Control Signal OUT+ ko 16 - Mini Jack: Digital Volume Control 1 - Control Signal Up/Down 2 - Vcc +5V_AUD 3 - Ground Gnd jo ko Ho 17 - Mini Jack: AUX1 Audio - Out 1 - Ground Gnd 2 - Control Signal HP-DETECT 3 - Audio R 0.2 - 2 VRMS / 10 kohm 4 - Audio L 0.2 - 2 VRMS / 10 kohm Ho ko ko ko 17 - Mini Jack: AUX2 Audio - Out 1 - Ground Gnd 2 - Control Signal HP-DETECT 3 - Audio R 0.2 - 2 VRMS / 10 kohm 4 - Audio L 0.2 - 2 VRMS / 10 kohm Ho ko ko ko Precautions, Notes, and Abbreviation List LC8.2HA LA 3. EN 5 3. Precautions, Notes, and Abbreviation List Index of this chapter: 3.1 Safety Instructions 3.2 Warnings 3.3 Notes 3.4 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 h, only by components identical to the original ones. Any other component substitution (other than original type) may increase risk of fire or electrical shock hazard. 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 w). Careless handling during repair can reduce life drastically. Make sure that, during repair, you are connected with the same potential as the mass of the set by a wristband with resistance. Keep components and tools also at this same potential. 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 (H), or hot ground (I), depending on the tested area of circuitry. The voltages and waveforms shown in the diagrams are indicative. Measure them in the Service Default Mode with a colour bar signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and 3.3.2 Schematic Notes • • • • • • 3.3.3 picture carrier at 475.25 MHz for PAL, or 61.25 MHz for NTSC (channel 3). Where necessary, measure the waveforms and voltages with (D) and without (E) aerial signal. Measure the voltages in the power supply section both in normal operation (G) and in stand-by (F). These values are indicated by means of the appropriate symbols. 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. Spare Parts For the latest spare part overview, consult your Philips Spare Part web portal. 3.3.4 BGA (Ball Grid Array) ICs Introduction For 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 Profiles For 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. 2009-Apr-10 EN 6 3.3.6 3. LC8.2HA LA Precautions, Notes, and Abbreviation List 3.4 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. MODEL : 32PF9968/10 PROD.NO: AG 1A0617 000001 MADE IN BELGIUM 220-240V ~ 50/60Hz 128W VHF+S+H+UHF S BJ3.0E LA 10000_024_090121.eps 090121 Abbreviation List 0/6/12 AARA ACI ADC AFC AGC AM AP AR ASF ATSC ATV Auto TV AV AVC AVIP B/G BLR BTSC 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. B-TXT C CEC CL CLR ComPair CP CSM CTI CVBS DAC DBE DDC D/K DFI DFU DMR DMSD DNM 2009-Apr-10 SCART switch control signal on A/V board. 0 = loop through (AUX to TV), 6 = play 16 : 9 format, 12 = play 4 : 3 format Automatic Aspect Ratio Adaptation: algorithm that adapts aspect ratio to remove horizontal black bars; keeps the original aspect ratio Automatic Channel Installation: algorithm that installs TV channels directly from a cable network by means of a predefined TXT page Analogue to Digital Converter Automatic Frequency Control: control signal used to tune to the correct frequency Automatic Gain Control: algorithm that controls the video input of the feature box Amplitude Modulation Asia Pacific Aspect Ratio: 4 by 3 or 16 by 9 Auto Screen Fit: algorithm that adapts aspect ratio to remove horizontal black bars without discarding video information Advanced Television Systems Committee, the digital TV standard in the USA See Auto TV A hardware and software control system that measures picture content, and adapts image parameters in a dynamic way External Audio Video Audio Video Controller Audio Video Input Processor Monochrome TV system. Sound carrier distance is 5.5 MHz Board-Level Repair Broadcast Television Standard Committee. Multiplex FM stereo sound system, originating from the USA and used e.g. in LATAM and AP-NTSC countries Blue TeleteXT Centre channel (audio) Consumer Electronics Control bus: remote control bus on HDMI connections Constant Level: audio output to connect with an external amplifier Component Level Repair Computer aided rePair Connected Planet / Copy Protection Customer Service Mode Color Transient Improvement: manipulates steepness of chroma transients Composite Video Blanking and Synchronization Digital to Analogue Converter Dynamic Bass Enhancement: extra low frequency amplification See “E-DDC” Monochrome TV system. Sound carrier distance is 6.5 MHz Dynamic Frame Insertion Directions For Use: owner's manual Digital Media Reader: card reader Digital Multi Standard Decoding Digital Natural Motion Precautions, Notes, and Abbreviation List DNR DRAM DRM DSP DST DTCP DVB-C DVB-T DVD DVI(-d) E-DDC EDID EEPROM EMI EPLD EU EXT FDS FDW FLASH FM FPGA FTV Gb/s G-TXT H HD HDD HDCP HDMI HP I I2 C I2 D I2 S IF IR IRQ ITU-656 Digital Noise Reduction: noise reduction feature of the set Dynamic RAM Digital Rights Management Digital Signal Processing Dealer Service Tool: special remote control designed for service technicians Digital Transmission Content Protection; A protocol for protecting digital audio/video content that is traversing a high speed serial bus, such as IEEE-1394 Digital Video Broadcast - Cable Digital Video Broadcast - Terrestrial Digital Versatile Disc Digital Visual Interface (d= digital only) 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. Extended Display Identification Data (VESA standard) Electrically Erasable and Programmable Read Only Memory Electro Magnetic Interference Erasable Programmable Logic Device Europe EXTernal (source), entering the set by SCART or by cinches (jacks) Full Dual Screen (same as FDW) Full Dual Window (same as FDS) FLASH memory Field Memory or Frequency Modulation Field-Programmable Gate Array Flat TeleVision Giga bits per second Green TeleteXT H_sync to the module High Definition Hard Disk Drive 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. High Definition Multimedia Interface HeadPhone Monochrome TV system. Sound carrier distance is 6.0 MHz Inter IC bus Inter IC Data bus Inter IC Sound bus Intermediate Frequency Infra Red Interrupt Request 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, ITV LS LATAM LCD LED L/L' LPL LS LVDS Mbps M/N MIPS MOP MOSFET MPEG MPIF MUTE NC NICAM NTC NTSC NVM O/C OSD OTC P50 PAL PCB PCM PDP PFC PIP PLL POD POR PTC PWB LC8.2HA LA 3. EN 7 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. Institutional TeleVision; TV sets for hotels, hospitals etc. 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 Latin America Liquid Crystal Display Light Emitting Diode Monochrome TV system. Sound carrier distance is 6.5 MHz. L' is Band I, L is all bands except for Band I LG.Philips LCD (supplier) Loudspeaker Low Voltage Differential Signalling Mega bits per second Monochrome TV system. Sound carrier distance is 4.5 MHz Microprocessor without Interlocked Pipeline-Stages; A RISC-based microprocessor Matrix Output Processor Metal Oxide Silicon Field Effect Transistor, switching device Motion Pictures Experts Group Multi Platform InterFace MUTE Line Not Connected Near Instantaneous Compounded Audio Multiplexing. This is a digital sound system, mainly used in Europe. Negative Temperature Coefficient, non-linear resistor 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) Non-Volatile Memory: IC containing TV related data such as alignments Open Circuit On Screen Display On screen display Teletext and Control; also called Artistic (SAA5800) Project 50: communication protocol between TV and peripherals Phase Alternating Line. Color system mainly used in West Europe (color carrier= 4.433619 MHz) and South America (color carrier PAL M= 3.575612 MHz and PAL N= 3.582056 MHz) Printed Circuit Board (same as “PWB”) Pulse Code Modulation Plasma Display Panel Power Factor Corrector (or Preconditioner) Picture In Picture Phase Locked Loop. Used for e.g. FST tuning systems. The customer can give directly the desired frequency Point Of Deployment: a removable CAM module, implementing the CA system for a host (e.g. a TV-set) Power On Reset, signal to reset the uP Positive Temperature Coefficient, non-linear resistor Printed Wiring Board (same as “PCB”) 2009-Apr-10 EN 8 3. PWM QRC QTNR QVCP RAM RGB RC RC5 / RC6 RESET ROM RSDS R-TXT SAM S/C SCART SCL SCL-F SD SDA SDA-F SDI SDRAM SECAM SIF SMPS SoC SOG SOPS SPI S/PDIF SRAM SRP SSB STBY SVGA SVHS SW SWAN SXGA TFT THD TMDS TXT TXT-DW UI uP UXGA V VESA VGA VL VSB WYSIWYR WXGA XTAL XGA 2009-Apr-10 LC8.2HA LA Precautions, Notes, and Abbreviation List Pulse Width Modulation Quasi Resonant Converter Quality Temporal Noise Reduction Quality Video Composition Processor Random Access Memory Red, Green, and Blue. The primary color signals for TV. By mixing levels of R, G, and B, all colors (Y/C) are reproduced. Remote Control Signal protocol from the remote control receiver RESET signal Read Only Memory Reduced Swing Differential Signalling data interface Red TeleteXT Service Alignment Mode Short Circuit Syndicat des Constructeurs d'Appareils Radiorécepteurs et Téléviseurs Serial Clock I2C CLock Signal on Fast I2C bus Standard Definition Serial Data I2C DAta Signal on Fast I2C bus Serial Digital Interface, see “ITU-656” Synchronous DRAM SEequence Couleur Avec Mémoire. Color system mainly used in France and East Europe. Color carriers= 4.406250 MHz and 4.250000 MHz Sound Intermediate Frequency Switched Mode Power Supply System on Chip Sync On Green Self Oscillating Power Supply Serial Peripheral Interface bus; a 4wire synchronous serial data link standard Sony Philips Digital InterFace Static RAM Service Reference Protocol Small Signal Board STand-BY 800x600 (4:3) Super Video Home System Software Spatial temporal Weighted Averaging Noise reduction 1280x1024 Thin Film Transistor Total Harmonic Distortion Transmission Minimized Differential Signalling TeleteXT Dual Window with TeleteXT User Interface Microprocessor 1600x1200 (4:3) V-sync to the module Video Electronics Standards Association 640x480 (4:3) Variable Level out: processed audio output toward external amplifier Vestigial Side Band; modulation method What You See Is What You Record: record selection that follows main picture and sound 1280x768 (15:9) Quartz crystal 1024x768 (4:3) Y Y/C YPbPr YUV Luminance signal Luminance (Y) and Chrominance (C) signal Component video. Luminance and scaled color difference signals (B-Y and R-Y) Component video Mechanical Instructions LC8.2HA LA 4. EN 9 4. Mechanical Instructions Index of this chapter: 4.1 Cable Dressing 4.2 Service Positions 4.3 Assy/Panel Removal ME8 Styling 4.4 Set Re-assembly 4.1 Notes: • Figures below can deviate slightly from the actual situation, due to the different set executions. • Follow the disassemble instructions in described order. Cable Dressing 18510_206_090407.eps 090407 Figure 4-1 Cable dressing 32-inch sets 2009-Apr-10 EN 10 4. LC8.2HA LA Mechanical Instructions 18510_205_090407.eps 090407 Figure 4-2 Cable dressing 42-inch sets 2009-Apr-10 Mechanical Instructions 4.2 4.2.1 LC8.2HA LA 4. Service Positions 4.3 Assy/Panel Removal ME8 Styling For easy servicing of this set, there are a few possibilities created: • The buffers from the packaging. • Foam bars (created for Service). 4.3.1 Rear Cover EN 11 Warning: • Disconnect the mains power cord before you remove the rear cover. • The speakers (located in the rear cover) should never be (dis)connected when the set is playing! This can damage the amplifiers on the SSB. Foam Bars 1 Note: it is not necessary to remove the stand while removing the rear cover. 1 Removal sequence: 1. Remove all screws of the rear cover. 2. Lift the rear cover from the TV. Make sure that wires and flat coils are not damaged while lifting the rear cover from the set. Required for sets 42" 4.3.2 Woofers (in rear cover) Refer to next figure for details. 1. Remove the screws [1] and [2] and lift the whole unit from the rear cover. Take the speakers out together with their casing. When defective, replace the whole unit. 2 3 10000_018_090121.eps 090121 Figure 4-3 Foam bars The foam bars (order code 3122 785 90580 for two pieces) can be used for all types and sizes of Flat TVs. See figure Figure 4-3 for details. Sets with a display of 42" and larger, require four foam bars [1]. Ensure that the foam bars are always supporting the cabinet and never only the display. Caution: Failure to follow these guidelines can seriously damage the display! By laying the TV face down on the (ESD protective) foam bars, a stable situation is created to perform measurements and alignments. By placing a mirror under the TV, you can monitor the screen. 1 3 H_17740_023.eps 230108 Figure 4-4 Woofer 4.3.3 Tweeters (if present) Refer to next figure for details. Warning: The speakers should never be connected or disconnected when the set is playing! This can damage the amplifiers on the SSB. 1. Release the connectors [1]. 2. Remove the screws [2] and lift the whole unit from the set. When defective, replace the whole unit. 1 2 H_17650_095.eps 180108 Figure 4-5 Tweeter 2009-Apr-10 EN 12 4.3.4 4. LC8.2HA LA Mechanical Instructions 4.3.6 IR & LED Board Display Supply Panel Refer to next figure for details (is for 42” set, for other screensizes the process might slightly deviate): 1. Unplug connectors [1]. 2. Remove the fixation screws [2]. 3. Take the board out. Refer to next figure for details. 1. Unplug connectors [1]. 2. Use a flat screw driver to release the clip by pushing it in the indicated direction [2]. 3. Lift the board and take it out of the set. When defective, replace the whole unit. 2 1 1 1 2 2 2 1 2 2 2 H_17650_098.eps 180108 1 Figure 4-6 IR & LED Board 4.3.5 2 2 H_17740_021.eps 230108 Key Board Refer to next figure for details. 1. Unplug connectors. 2. Remove the screws [1]. 3. Lift the unit and take it out of the set. When defective, replace the whole unit. Figure 4-8 Display Supply Panel (42” set) 4.3.7 iBoard Refer to next figure for details. 1. Unplug connectors. 2. Remove the screws [1]. 3. Lift the unit and take it out of the set. When defective, replace the whole unit. 1 1 18510_209_090409.eps 090409 H_17650_094.eps 180108 Figure 4-9 iBoard Figure 4-7 Key Board 2009-Apr-10 Mechanical Instructions 4.3.8 LC8.2HA LA 4. EN 13 Small Signal Board (SSB) 4. The SSB can now be taken out of the set, together with the front shield and the side cover. 5. To remove the shield, remove the screws [4] and lift it of while releasing clips [5]. 6. Remove screw [6] and slide the cover sidewards from the SSB. Refer to next figure for details. Caution: it is mandatory to remount all screws at their original position during re-assembly. Failure to do so may result in damaging the SSB. 1. Unplug the LVDS connector(s) [1]. Caution: be careful, as this is a very fragile connector! 2. Unplug the connectors [2]. 3. Remove the screws [3]. 1 3 3 2 (2x) 3 5 4 4 4 6 4 3 4 4 4 4 2 (4x) 3 3 3 18510_207_090407.eps 090407 Figure 4-10 Small Signal Board 2009-Apr-10 EN 14 4.3.9 4. Mechanical Instructions LC8.2HA LA 5. Unplug the Speaker cables at the “rim contacts” [5]. 6. Remove the screws [6] that hold the complete subframe to the front cabinet. 7. Remove the screws [7] that mount the subframe to the LCD panel. In some sets some of these screws are hidden and require further dismantling of the boards. This is for instance the case with the screws hidden by the iBoard and the SSB in the 32” sets. 8. If all these steps are taken, lift the complete subframe from the set together with all panels. 9. The LCD panel can now be lifted from the front cabinet. LCD Panel Refer to next figures for details. Note that this description is for the 32” model numbers. For other screensizes the process might slightly deviate. 1. Remove the stand. 2. Unplug the LVDS connector(s)[1] and remove the adhesive tape. Caution: be careful, as this is a very fragile connector! 3. Unplug the IR/LED Panel [3] connectors and remove the adhesive tapes. 4. Unplug the Inverter connector [4]. 6 6 7 7 6 6 2 4 6 6 3 7 1 5 5 6 6 7 1 6 5 5 6 18510_208_090408.eps 090408 Figure 4-11 LCD Panel removal (32” sets) 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 4-1and Figure 4-2. • Pay special attention not to damage the EMC foams in the set. Ensure that EMC foams are mounted correctly. 2009-Apr-10 Service Modes, Error Codes, and Fault Finding LC8.2HA LA 5. EN 15 5. Service Modes, Error Codes, and Fault Finding Index of this chapter: 5.1 Test Points 5.2 Hotel mode 5.3 Service Modes 5.4 Service Tools 5.5 Error Codes 5.6 The Blinking LED Procedure 5.7 Software Upgrading 5.8 Fault Finding and Repair Tips 5.1 Test Points In the chassis schematics and layout overviews, the test points (Fxxx) are mentioned. In the schematics, test points are indicated with a rectangular box around “Fxxx” or “Ixxx”, in the layout overviews with a “half-moon” sign. As most signals are digital, it will be difficult to measure waveforms with a standard oscilloscope. Several key ICs are capable of generating test patterns, which can be controlled via ComPair. In this way it is possible to determine which part is defective. Perform measurements under the following conditions: • Service Default Mode. • Video: Colour bar signal. • Audio: 3 kHz left, 1 kHz right. 5.2 Hotel mode Display Option Code Selection When after an SSB or display exchange, the display option code is not set properly, it will result in a TV with “no display”. Therefore, it is required to set this display option code after such a repair. To do so, press the following key sequence on a standard RC transmitter: “062598” directly followed by MENU and “xxx”, where “xxx” is a 3 digit decimal value of the panel type: see column “Display code” in table 6-3 Option code overview, or see sticker on the side/bottom of the cabinet. When the value is accepted and stored in NVM, the set will switch to Stand-by, to indicate that the process has been completed. Display Option Code 39mm PHILIPS 27mm Before the service modes can be activated, the set first needs to be switched into normal consumer mode (MTV-Mode). Use an iTV setup remote control (type: RC2573/01, 12nc: 3139 228 88782) to key in the code ‘024995’ (slowly) directly followed by the MENU 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. 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. Software Identification, Version, and Cluster The software ID, version, and cluster will be shown in the main menu display of SDM, SAM, and CSM. The screen will show: “AAAAABCD X.YY”, where: • AAAAA is the chassis name: LC82H. • B is the region indication: E= Europe, A= AP/China, U= NAFTA, L= LATAM. • C is the display indication: L= LCD, P= Plasma. • D is the language/feature indication: 1= standard, H= 1080p full HD. • X is the main version number: this is updated with a major change of specification (incompatible with the previous software version). Numbering will go from 1 - 9 and A - Z. – If the main version number changes, the new version number is written in the NVM. – If the main version number changes, the default settings are loaded. • YY is the sub version number: this is updated with a minor change (backwards compatible with the previous versions) Numbering will go from 00 - 99. – If the sub version number changes, the new version number is written in the NVM. – If the NVM is fresh, the software identification, version, and cluster will be written to NVM. 040 MODEL: 32PF9968/10 PROD.SERIAL NO: AG 1A0620 000001 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 also section ComPair). 5.3.1 (CTN Sticker) E_06532_038.eps 240108 Figure 5-1 Location of Display Option Code sticker During this algorithm, the NVM-content must be filtered, because several items in the NVM are TV-related and not SSBrelated (e.g. Model and Prod. S/N). Therefore, “Model” and “Prod. S/N” data is changed into “See Type Plate”. In case a call centre or consumer reads “See Type Plate” in CSM mode, he needs to look to the side/bottom sticker to identify the set, for further actions. General Some items are applicable to all Service Modes or are general. These are listed below. Life Timer During the life time cycle of the TV set, a timer is kept. It counts the normal operation hours (not the Stand-by hours). The actual value of the timer is displayed in SDM and CSM in a decimal value. Every two soft-resets increase the hour by +1. 2009-Apr-10 EN 16 5.3.2 5. Service Modes, Error Codes, and Fault Finding LC8.2HA LA Service Default Mode (SDM) Purpose Set the TV in SDM mode in order to be able to: • Create a pre-defined setting for measurements to be made. • Override software protections. • Start the blinking LED procedure. • Read the error buffer. • Check the life timer. On Screen Menu After activating SDM, the following screen is visible, with SDM in the upper right corner of the screen to indicate that the television is in Service Default Mode. S D M HHHHH A A A A B C D - X . Y Y E R R X X X X X X X X X X O P X X X X X X X X X X X X X X X X X X Specifications Table 5-1 SDM default settings Region Freq. (MHz) Default syst. Europe (except France), AP-PAL/-Multi 475.25 PAL B/G France SECAM L NAFTA, AP-NTSC 61.25 (channel 3) NTSC M LATAM • PAL M Set linear video and audio settings to 50%, but volume to 25%. Stored user settings are not affected. All service-unfriendly modes (if present) are disabled, since they interfere with diagnosing/repairing a set. These service unfriendly modes are: – (Sleep) timer. – Blue mute/Wall paper. – Auto switch “off” (when there is no “ident” signal). – Hotel or hospital mode. – Child lock or parental lock (manual or via V-chip). – Skipping, blanking of “Not favourite”, “Skipped” or “Locked” presets/channels. – Automatic storing of Personal Preset or Last Status settings. – Automatic user menu time-out (menu switches back/ OFF automatically. – Auto Volume levelling (AVL). • How to Activate To activate SDM, use one of the following methods: • Press the following key sequence on the remote control transmitter: “062596” directly followed by the MENU button (do not allow the display to time out between entries while keying the sequence). • Short (one of) the “Service” jumpers on the TV board during cold start (see Figure “Service jumper”). Then press the mains button (remove the short after start-up). Caution: Activating SDM by shorting “Service” jumpers will override the DC speaker protection (error 1), the General I2C error (error 4), and the Trident video processor error (error 5). When doing this, the service-technician must know exactly what he is doing, as it could damage the television set. Figure 5-3 SDM menu Menu explanation: • HHHHH: Are the operating hours (in decimal). • AAAABCD-X.YY. See paragraph Software Identification, Version, and Cluster for the SW name definition. • SDM: The character “SDM” to indicate that the TV set is in Service mode. • ERR: Shows all errors detected since the last time the buffer was erased. Five errors possible. • OP: Used to read-out the option bytes. See Option Bit Overview for a detailed description. Seven codes are possible. How to Navigate As this mode is read only, there is not much to navigate. To switch to other modes, use one of the following methods: • Command MENU from the user remote will enter the normal user menu (brightness, contrast, colour, etc...) with “SDM” OSD remaining, and pressing MENU key again will return to the last status of SDM again. • To prevent the OSD from interfering with measurements in SDM, command “OSD” (“STATUS” for NAFTA and LATAM) from the user remote will toggle the OSD “on/off” with “SDM” OSD remaining always “on”. • Press the following key sequence on the remote control transmitter: “062596” directly followed by the OSD/ STATUS/INFO/i+ button to switch to SAM (do not allow the display to time out between entries while keying the sequence). How to Exit Switch the set to STANDBY by pressing the mains button on the remote control transmitter or on the television set. If you switch the television set “off” by removing the mains (i.e., unplugging the television), the television set will remain in SDM when mains is re-applied, and the error buffer is not cleared. The error buffer will only be cleared when the “clear” command is used in the SAM menu. Note: • If the TV is switched “off” by a power interrupt while in SDM, the TV will show up in the last status of SDM menu as soon as the power is supplied again. The error buffer will not be cleared. • In case the set is in Factory mode by accident (with “F” displayed on screen), pressing and hold “VOL-” and “CH-” together will leave Factory mode. SDM I_17760_046.eps 030308 Figure 5-2 Service jumper (SSB component side) 2009-Apr-10 G_16860_030.eps 260107 Service Modes, Error Codes, and Fault Finding 5.3.3 Service Alignment Mode (SAM) Specifications • Operation hours counter (maximum five digits displayed). • Software version, error codes, and option settings display. • Error buffer clearing. • Option settings. • Software alignments (Tuner, White Tone, and Audio). • NVM Editor. • ComPair Mode switching. • Set the screen mode to full screen (all contents on screen are viewable). How to Activate To activate SAM, use one of the following methods: • Press the following key sequence on the remote control transmitter: “062596” directly followed by the OSD/ STATUS/INFO/i+ button (it depends on region which button is present on the RC). Do not allow the display to time out between entries while keying the sequence. • Or via ComPair. After entering SAM, the following screen is visible, with SAM in the upper right corner of the screen to indicate that the television is in Service Alignment Mode. S A M C O T R N C S l p u G V o W e t n B M m a r i o n e r A l E d p a i E V E A A A A B C D - X . Y Y X X X X X X X X X X X X X X X X X X X X s i g n i t o r r N T S > > > > > > > 5. EN 17 Caution: When this mode is selected without ComPair connected, the TV will be blocked. Remove the AC power to reset the TV. 12. SW Events. Only to be used by development to monitor SW behaviour during stress test. Purpose • To change option settings. • To display / clear the error code buffer. • To perform alignments. L L L L L E R R X X O P X X X LC8.2HA LA X X X Y e s G_16860_031.eps 260107 Figure 5-4 SAM menu Menu explanation: 1. LLLLL. This represents the run timer. The run timer counts normal operation hours, but does not count Stand-by hours. 2. AAAABCD-X.YY. See paragraph Software Identification, Version, and Cluster for the SW name definition. 3. SAM. Indication of the Service Alignment Mode. 4. ERR (ERRor buffer). Shows all errors detected since the last time the buffer was erased. Five errors possible. 5. OP (Option Bytes). Used to read-out the option bytes. See Option Bit Overview for a detailed description. Seven codes are possible. 6. Clear. Erases the contents of the error buffer. Select the CLEAR menu item and press the MENU RIGHT key. The content of the error buffer is cleared. 7. Options. Used to set the option bits. See Option Bit Overview for a detailed description. 8. Tuner. Used to align the tuner. See 6.3.1 Tuner Adjustment (RF AGC Take Over Point) for a detailed description. 9. RGB Align. Used to align the White Tone. See 6.3.2 RGB Alignment for a detailed description. 10. NVM Editor. Can be used to change the NVM data in the television set. See also 5.8 Fault Finding and Repair Tips further on. 11. ComPaIr. Can be used to switch the television to “In Application Programming” mode (IAP), for software uploading via ComPair. See also 5.4.1 ComPair. How to Navigate • In the SAM menu, select menu items with the MENU UP/ DOWN keys on the remote control transmitter. The selected item will be indicated. When not all menu items fit on the screen, use the MENU UP/DOWN keys to display the next / previous menu items. • With the MENU LEFT/RIGHT keys, it is possible to: – Activate the selected menu item. – Change the value of the selected menu item. – Activate the selected sub menu. • When you press the MENU button twice while in top level SAM, the set will switch to the normal user menu (with the SAM mode still active in the background). To return to the SAM menu press the MENU button. • Command OSD/STATUS/INFO/i+ button from the user remote will toggle the OSD “on/off” with “SAM” OSD remaining always “on”. • Press the following key sequence on the remote control transmitter: “062596” directly followed by the MENU button to switch to SDM (do not allow the display to time out between entries while keying the sequence). How to Store SAM Settings To store the settings changed in SAM mode (except the OPTIONS settings), leave the top level SAM menu by using the POWER button on the remote control transmitter or the television set. How to Exit Switch the set to STANDBY by pressing the mains button on the remote control transmitter or the television set. Note: • When the TV is switched “off” by a power interrupt while in SAM, the TV will show up in “normal operation mode” as soon as the power is supplied again. The error buffer will not be cleared. • In case the set is in Factory mode by accident (with “F” displayed on screen), pressing and hold “VOL-” and “CH-” together will leave Factory mode. 2009-Apr-10 EN 18 5.3.4 5. Service Modes, Error Codes, and Fault Finding LC8.2HA LA Customer Service Mode (CSM) Purpose The Customer Service Mode shows error codes and information on the TV’s operation settings. A call centre can instruct the customer (by telephone) to enter CSM in order to identify the status of the set. This helps them to diagnose problems and failures in the TV before making a service call. The CSM is a read-only mode; therefore, modifications are not possible in this mode. Specifications • Ignore “Service unfriendly modes”. • Line number for every line (to make CSM language independent). • Set the screen mode to full screen (all contents on screen are viewable). • After leaving the Customer Service Mode, the original settings are restored. • Possibility to use “CH+” or “CH-” for channel surfing, or enter the specific channel number on the RC. How to Activate To activate CSM, press the following key sequence on the remote control transmitter: “123654” (do not allow the display to time out between entries while keying the sequence). Upon entering the Customer Service Mode, the following screen will appear: C S M 1 M O D E 2 P R O D 3 S W I 4 O P 5 C O D E 6 S S B 7 N V M 8 F l a s 9 D I S P PAGE DOWN L : 4 2 S / N: : L C : X X S : X X : 3 1 : X X h Da t L A Y : D P F L 7 4 0 A G1 A 0 8 8 2 A L 1 X X X X X X X X 3 9 1 2 3 X X X X X X a : X X . X xxxx xxx xxxxx 3 1 1 X / 2 . X X 6 9 1 x X X 3 3 2 3 x X X 4 9 4 5 6 X X X 1 X X X X X X X X X X . X X . X X B y I_17760_026a.eps 120208 Figure 5-5 CSM menu -1- (example) C S M 1 0 T U 1 1 S Y 1 2 S O 1 3 H D 1 4 F O 1 5 DFR 1 6 F P 1 7 : 1 8 : PAGE UP N E R : S T E M: U N D : A U : R M A T : SW ID : G A FW : : WE A K / P A L / N MO N O / YES/NO X X X X X (*) xx.xx.xx G OOD / S T R ONG T S C / S E C A M S T E R E O/ NI C A M X X X B y (*) referring to bolt-on DFI SW ID Figure 5-6 CSM menu -2- (example) 2009-Apr-10 I_17760_026b.eps 120208 Menu Explanation 1. MODEL. Type number, e.g. 32PFL7762D/05. (*) 2. PROD S/N. Product serial no., e.g. AG1A0712123456. (*) 3. SW ID. Software cluster and version is displayed. 4. OP. Option code information. 5. CODES. Error buffer contents. 6. SSB. Indication of the SSB factory ID (= 12nc). (*) 7. NVM. The NVM software version no. 8. Flash Data. PQ (picture quality) and AQ (audio quality) data version. This is a sub set of the main SW. 9. DISPLAY. Indication of the display ID (=12 nc). 10. TUNER. Indicates the tuner signal condition: “Weak” when signal falls below threshold value, “Medium” when signal is at mid-range, and “Strong” when signal falls above threshold value. 11. SYSTEM. Gives information about the video system of the selected transmitter (PAL/SECAM/NTSC). 12. SOUND. Gives information about the audio system of the selected transmitter (MONO/STEREO/NICAM). 13. HDAU. HDMI audio stream detection. “YES” means audio stream detected. “NO” means no audio stream present. Only displayed when HDMI source is selected. 14. FORMAT. Gives information about the video format of the selected transmitter (480i/480p/720p/1080i). 15. DFR SW ID. Referring to bolt-on SW ID. 16. FPGA FW. Only applicable to sets with an FPGA. 17. Reserved. 18. Reserved. (*) If an NVM IC is replaced or initialised, the Model Number, Serial Number, and SSB Code Number must be re-written to the NVM. ComPair will foresee in a possibility to do this. How to Exit To exit CSM, use one of the following methods: • Press the MENU button twice, or POWER button on the remote control transmitter. • Press the POWER button on the television set. Service Modes, Error Codes, and Fault Finding LC8.2HA LA 5.4 Service Tools 5.5 Error Codes 5.4.1 ComPair 5.5.1 Introduction Introduction ComPair (Computer Aided Repair) is a Service tool for Philips Consumer Electronics products. and offers the following: 1. ComPair helps you to quickly get an understanding on how to repair the chassis in a short and effective way. 2. ComPair allows very detailed diagnostics and is therefore capable of accurately indicating problem areas. You do not have to know anything about I2C or UART commands yourself, because ComPair takes care of this. 3. ComPair speeds up the repair time since it can automatically communicate with the chassis (when the uP is working) and all repair information is directly available. 4. ComPair features TV software up possibilities. The last errors, stored in the NVM, are shown in the Service menu’s. This is called the error buffer. The error code buffer contains all errors detected since the last time the buffer was erased. The buffer is written from left to right. When an error occurs that is not yet in the error code buffer, it is displayed at the left side and all other errors shift one position to the right. An error will be added to the buffer if this error differs from any error in the buffer. The last found error is displayed on the left. An error with a designated error code may never lead to a deadlock situation. This means that it must always be diagnosable (e.g. error buffer via OSD or blinking LED procedure, ComPair to read from the NVM). In case a failure identified by an error code automatically results in other error codes (cause and effect), only the error code of the MAIN failure is displayed. How to Connect This is described in the ComPair chassis fault finding database. Example: In case of a failure of the I2C bus (CAUSE), the error code for a “General I2C failure” and “Protection errors” is displayed. The error codes for the single devices (EFFECT) is not displayed. All error codes are stored in the same error buffer (TV’s NVM) except when the NVM itself is defective. TO TV ComPair II RC in RC out TO I2C SERVICE CONNECTOR TO UART SERVICE CONNECTOR Multi function 5.5.2 Optional Power Link/ Mode Switch Activity I 2C How to Read the Error Buffer RS232 /UART You can read the error buffer in 3 ways: • On screen via the SAM/SDM/CSM (if you have a picture). Example: – ERROR: 0 0 0 0 0: No errors detected – ERROR: 6 0 0 0 0: Error code 6 is the last and only detected error – ERROR: 9 6 0 0 0: Error code 6 was detected first and error code 9 is the last detected (newest) error • Via the blinking LED procedure (when you have no picture). See 5.6 The Blinking LED Procedure. • Via ComPair. PC ComPair II Developed by Philips Brugge HDMI I2C only EN 19 Error codes are required to indicate failures in the TV set. In principle a unique error code is available for every: • Activated protection. • Failing I2C device. • General I2C error. • SDRAM failure. Specifications ComPair consists of a Windows based fault finding program and an interface box between PC and the (defective) product. The (new) ComPair II interface box is connected to the PC via an USB cable. For the TV chassis, the ComPair interface box and the TV communicate via a bi-directional cable via the service connector(s). TO UART SERVICE CONNECTOR 5. Optional power 5V DC E_06532_036.eps 150208 Figure 5-7 ComPair II interface connection 5.5.3 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 Order ComPair II order codes: • ComPair II interface: 3122 785 91020. • Software is available via the Philips Service web portal. • ComPair I2C interface cable: 9965 100 07325 (to be used for upgrading the Main software). Error Codes In case of non-intermittent faults, write down the errors present in the error buffer and clear the error buffer before you begin the repair. This ensures that old error codes are no longer present. If possible, check the entire contents of the error buffer. In some situations, an error code is only the result of another error and not the actual cause of the problem (for example, a fault in the protection detection circuitry can also lead to a protection). Note: If you encounter any problems, contact your local support desk. 5.4.2 LVDS Tool Support of the LVDS Tool has been discontinued. 2009-Apr-10 EN 20 5. Service Modes, Error Codes, and Fault Finding LC8.2HA LA Table 5-2 Error code overview Error code1) Description 0 No error. 1 DC Protection of speakers. 2 +12V protection error. 3 Reserved. 4 General I2C error. 5 Trident Video Processor communication error. 6 Item no. Remarks 5.6.1 Introduction The software is capable of identifying different kinds of errors. Because it is possible that more than one error can occur over time, an error buffer is available, which is capable of storing the last five errors that occurred. This is useful if the OSD is not working properly. note 2 7C01 I2C error while communicating 7L23 with the NVM. 7 I2C error while communicating 1101 with the Tuner. 8 I2C error while communicating 7113 with the IF Demodulator. 9 I2C error communicating with 7411 the Sound Processor. 10 SDRAM defective. 11 I2C error while communicating 7N01 with the HDMI IC. 12 Brazil/China/Hong Kong ISDTV digital bolt-on module communication failure When Trident IC is defective, error 10 and 14 might also be reported. Trident communicates via parallel bus, not via the I2C bus. The I2C bus of Trident is only used in ComPair mode. Errors can also be displayed by the blinking LED procedure. The method is to repeatedly let the front LED pulse with as many pulses as the error code number, followed by a period of 1.5 seconds in which the LED is “off”. Then this sequence is repeated. The TV will not start-up due to critical data not available from the NVM, but the LED will blink the error code. Example (1): error code 4 will result in four times the sequence LED “on” for 0.25 seconds / LED “off” for 0.25 seconds. After this sequence, the LED will be “off” for 1.5 seconds. Any RC5 command terminates the sequence. Error code LED blinking is in red colour. Example (2): the content of the error buffer is “1 2 9 6 0 0” After entering SDM, the following occurs: • 1 long blink of 5 seconds to start the sequence, • 12 short blinks followed by a pause of 1.5 seconds, • 9 short blinks followed by a pause of 1.5 seconds, • 6 short blinks followed by a pause of 1.5 seconds, • 1 long blink of 1.5 seconds to finish the sequence, • The sequence starts again with 12 short blinks. 7D01 13 Reserved 14 SDRAM defective. 15 Reserved 16 Reserved 17 I2C error while communicating 7700 or with FPGA external 7D02 5.6.2 18 Reserved (iTV) (iTV) 19 I2C error while communicating with bolt-on DFI 1080p 100Hz sets only 20 Reserved 21 I2C error while communicating 7M07 with the HDMI mux IC 22 Reserved. 23 Reserved. How to Clear the Error Buffer The error code buffer is cleared in the following cases: • By using the CLEAR command in the SAM menu: – To enter SAM, press the following key sequence on the remote control transmitter: “062596” directly followed by the OSD/STATUS/INFO/i+ button (do not allow the display to time out between entries while keying the sequence). – Make sure the menu item CLEAR is selected. Use the MENU UP/DOWN buttons, if necessary. – Press the MENU RIGHT button to clear the error buffer. The text on the right side of the “CLEAR” line will change from “CLEAR?” to “CLEARED” • If the contents of the error buffer have not changed for 50 hours, the error buffer resets automatically. Note: If you exit SAM by disconnecting the mains from the television set, the error buffer is not reset. 2009-Apr-10 The Blinking LED Procedure 12V missing or “low”. Notes 1. Some of the error codes reported are depending on the option code configurations. 2. This error means: no I2C device is responding to the particular I2C bus. Possible causes: SCL/SDA shorted to GND, SCL shorted to SDA, or SCL/SDA open (at uP pin). The internal bus of the Trident platform should not cause the entire system to halt as such an error can be reported. 5.5.4 5.6 Displaying the Entire Error Buffer Additionally, the entire error buffer is displayed when Service Mode “SDM” is entered. In case the TV set is in protection or Stand-by: The blinking LED procedure sequence (as in SDMmode in normal operation) must be triggered by the following RC sequence: “MUTE” “062500” “OK”. In order to avoid confusion with RC5 signal reception blinking, this blinking procedure is terminated when a RC5 command is received. To erase the error buffer, the RC command “MUTE” “062599 “OK” can be used. 5.7 Software Upgrading In this chassis, the following SW “stack” is used: • TV main SW (processor and processor NVM). 5.7.1 TV Main SW Upgrade For instructions on how to upgrade the TV Main software, refer to ComPair. Service Modes, Error Codes, and Fault Finding 5.8 Fault Finding and Repair Tips 5.8.3 Notes: • It is assumed that the components are mounted correctly with correct values and no bad solder joints. • Before any fault finding actions, check if the correct options are set. 5.8.1 LC8.2HA LA 5. EN 21 Start-up/Shut-down Flowcharts On the next pages you will find start-up and shut-down flowcharts, followed by a trouble shooting flowchart, which might be helpful during fault finding. Please note that some events are only related to PDP sets, and therefore not applicable to this LCD chassis. NVM Editor In some cases, it can be convenient if one directly can change the NVM contents. This can be done with the “NVM Editor” in SAM mode. With this option, single bytes can be changed. Caution: • Do not change the NVM settings without understanding the function of each setting, because incorrect NVM settings may seriously hamper the correct functioning of the TV set! • Always write down the existing NVM settings, before changing the settings. This will enable you to return to the original settings, if the new settings turn out to be incorrect. Table 5-3 NVM editor overview Hex Dec. Description 0x000A 10 Existing value .VAL 0x0000 0 New value .Store Store? .ADR 5.8.2 Load Default NVM Values It is possible to download default values automatically into the NVM in case a blank NVM is placed or when the NVM first 20 address contents are “FF”. After the default values are downloaded, it is possible to start-up and to start aligning the TV set. To initiate a forced default download the following action has to be performed: 1. Switch “off” the TV set with the mains cord disconnected from the wall outlet (it does not matter if this is from “Stand-by” or “Off” situation). 2. Short-circuit the SDM jumpers on the SSB (keep short circuited). 3. Press “P+” or “CH+” on the local keyboard (and keep it pressed). 4. Reconnect the mains supply to the wall outlet. 5. Release the “P+” or “CH+” when the set is “on” or blue LED is blinking. When the downloading has completed successfully, the set should be into Stand-by, i.e. red LED on. Alternative method (1): 1. Go to SAM. 2. Select NVM Editor. 3. Select ADR (address) to 1 (Dec.). 4. Change the VAL (value) to 170 (Dec.). 5. Store the value. 6. Do a hard reset to make sure new default values took place. Alternative method (2): It is also possible to upload the default values to the NVM with ComPair in case the SW is changed, the NVM is replaced with a new (empty) one, or when the NVM content is corrupted. After replacing an EEPROM (or with a defective/no EEPROM), default settings should be used to enable the set to start-up and allow the Service Default Mode and Service Alignment Mode to be accessed. 2009-Apr-10 EN 22 5. Service Modes, Error Codes, and Fault Finding LC8.2HA LA AC ON V1.0 21 Aug 2007 LC08R Start Up +3V3STBY Available M16C POR by +3VSTBY STANDBY = HIGH 160ms InitCold Component: 1. Check SDM port. - If SDM pin = LOW and NVM first 20Byte = 0xFF, reload Software default NVM value. 2. Check Panel port. - If Panel Pin = LOW and check slave address 0x65 = 0xA5, Enter Panel Mode. Error 6 - NVM [Protection] No Last status is ON? User wake up the sets in DVB recording mode Yes Read NVM completed. STOP I²C activities. Standby Normal Mode No LCD_PWR_ON = HIGH (Same function as CTRL-DISP2) SDI PDP => CTRL_DISP1 = LOW BL_On_Off=HIGH (PDP only) Yes LED = WHITE for Normal mode LED = RED for Recording mode Disable Audio Mute Standby Soft Mode (NO LED) Standby Normal Mode (RED LED) Port Assignment in STANDBY Disable Audio Mute Port Assignment in STANDBY BLOCK RC Key (SVP_Trident) SVPWX_RST = LOW HDMI_RX_BUF_RST = LOW HDMI_MUX_RST =LOW AUD_RST = LOW Enable Audio Mute Yes Wait for RC key or Wake up event Wait for Power Local Key Wait for 20 ms 20ms Switch ON LVDS Signal Wait for 50ms 1000ms to 1500ms Init. Warm Component (For software) LCD_PWR_ON = LOW SDI PDP => CTRL_DISP1 = LOW BL_On_Off = HIGH (PDP only) STANDBY = LOW For LCD: BL_ON_OFF = HIGH * BL_ADJ keep 100% for 3000ms before dimming. Wait for 100ms For PDP: 3000ms delay 100ms Error 2 [Protection] Wait for 100ms Time out = 2000ms No 300ms Is Power Down = HIGH? Blank Picture Picture Mode Setup & Detection Wait for 300ms (SVP_Trident) SVPWX_RST = HIGH DTV_RESET_N = LOW PRST = LOW PWN = HIGH Notes: --------1.Initialise HDMI MUX IIC address ( EDID,CEC) 2. Enable Mute mean ANTI_PLOP= LOW, MUTEn=HIGH 3. Disable Mute mean ANTI_PLOP = HIGH, MUTEn=LOW 300ms unBlank Picture & UnMute Audio Wait for 300ms End (SVP_Trident) M16C SVPWX_RST = LOW HDMI_RX_BUF_RST= HIGH HDMI_MUX_RST = HIGH AUD_RST = HIGH DTV_RESET_N = HIGH PRST = HIGH No 300ms Enable Power Down INT Enable DC_PROT INT 1700ms Initialise Trident WX KMNPLL Latch data need 50us setup time BL_ADJ = HIGH (100% Duty Cycle) first!! DPTVInit( ) Error 7 Initialise Tuner Error 8 Initialise IF Demodulator, Afric TDA9886T Error 9 Initialise Micronas Mute Audio Error 11 Initialise HDMI Receiver, Sil 9125 Error 21 Initialise HDMI Mux, Sil 9185 Error 5 - Trident [Protection] Error 10 – SDRAM 7C04 [Protection] Error 14 – SDRAM 7C05 [Protection] For DVB Sets only (Semistandby) Recording mode SDI PDP => CTRL_DISP1 = HIGH FHP PDP => CTRL_DISP4 = LOW BL_On_Off=LOW (PDP only) Recording Mode finished Software Shutdown: WP for NVM Yes Error 3 [Protection] Error 19 Port Assignment in STANDBY AmbiLight Set Only Initialise AmbiLight Error 17 – AmbiLight Initialise FHP Panel (Provision) * For FHP PDP Sets only Error 18 – iTV Initialise MT8280 or 100Hz Bolt on Enable RC Key STANDBY = LOW Standby Normal Mode DVB recording mode Figure 5-8 Start-up flowchart 2009-Apr-10 I_17760_047.eps 030308 Service Modes, Error Codes, and Fault Finding LC8.2HA LA 5. EN 23 STANDBY / TACT SWITCH STANDBY Start Mute Audio Send Standby command to Digital Module Wait for 2s BL_ADJ (PWM duty cycle 100%) Ack received from Digital Module or > 2s BL_ON_OFF = LOW (ANTI_PLOP=LOW) (MUTEn =HIGH) Wait 300ms 300ms Switch OFF LVDS 20ms Wait 20ms LCD_PWR_ON = LOW Software Shutdown: LED = RED No Standby using “power key” For DVB Sets only (Semistandby) Yes Wait for 3000ms Except power tact switch LED = NO LED for Standby soft mode SDI PDP => CTRL_DISP1 = HIGH FHP PDP => CTRL_DISP4 = LOW Disable Power Down INT & DC_PROT_INT Off Air Downloading/ Recording Mode BL_ADJ = LOW (PWM duty cycle 0%) IBOZ send shut down command WP for NVM Enable Audio Mute Port Assignment in STANDBY 40ms STANDBY = HIGH (ANTI_PLOP =HIGH) (MUTEn = LOW) Sets go to standby here Blocking for the next start up to ensure power supply discard properly. Total = 360ms Wait for 3000ms Disable Audio Mute End (ANTI_PLOP =HIGH) (MUTEn = LOW) I_17760_048.eps 030308 Figure 5-9 Stand-by / Tact Switch Stand-by flowchart 2009-Apr-10 EN 24 5. LC8.2HA LA Service Modes, Error Codes, and Fault Finding Start Power Down INT: AC OFF or Transient INT Avoid false trigger No Poll the Power Down INT for 5 times Yes End Notes: 1. Power Down INT will based on fall edge triggering 2. +3V3STBY will stay for 15ms, software must perform WP for NVM within 15ms. Mute Audio & VIdeo WP for NVM STANDBY = HIGH Wait 5000 ms Re-start: Start up End DC_PROT INT Start Avoid false trigger No is DC_PROT = LOW for 3 sec? Yes End Error 1 [Protection] Mute Audio & VIdeo Log Error Code WP for NVM STANDBY = HIGH End Figure 5-10 Power Down & DC_PROT flowchart 2009-Apr-10 I_17760_027.eps 180908 Service Modes, Error Codes, and Fault Finding LC8.2HA LA 5. EN 25 Code I_17760_049.eps 030308 Figure 5-11 Troubleshooting flowchart 2009-Apr-10 EN 26 6. LC8.2HA LA Alignments 6. Alignments 6.3 Index of this chapter: 6.1 General Alignment Conditions 6.2 Hardware Alignments 6.3 Software Alignments 6.4 Option Settings Note: Figures below can deviate slightly from the actual situation, due to the different set executions. With the software alignments of the Service Alignment Mode (SAM) the Tuner and RGB settings can be aligned. To store the data: Use the RC button “Menu” to switch to the main menu and next, switch to “Stand-by” mode. 6.3.1 General: The Service Default Mode (SDM) and Service Alignment Mode (SAM) are described in chapter 5. Menu navigation is done with the CURSOR UP, DOWN, LEFT or RIGHT keys of the remote control transmitter. 6.1 6.2 Tuner Adjustment (RF AGC Take Over Point) Purpose: To keep the tuner output signal constant as the input signal amplitude varies. This chassis comes with the UV13x6(x) tuner. No alignment is necessary, as the AGC alignment is done automatically (standard value: “15”). However in case of problems use the following method (use multi meter and RF generator): • Apply a vision IF carrier of 38.9 (China: 38.0) MHz (105 dBμV = 178 mVrms) to test point F143 (input via 50 Ω coaxial cable terminated with an RC network of series 10 nF with 120 Ω to ground). • Measure voltage on test point F116 with a FET probe. • Adjust AGC (via SAM menu: TUNER -> AGC), until voltage on test point F116 is 3.3 +0.5/-1.0 V. • Store settings and quit SAM. 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 MΩ, Ci < 20 pF. • Use an isolated trimmer/screwdriver to perform alignments. Software Alignments 6.3.2 RGB Alignment • • Set “Active control” to “Off” (if present). Choose “TV menu”, “Picture” and set picture settings as follows: Picture Setting Brightness 50 Colour 50 Contrast 100 Hardware Alignments Tint (for NTSC) 0 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. White Tone Alignment: • Activate SAM mode. • Select “RGB Align.” -> “White Tone” and choose a colour temperature. • Use a 100% white screen as input signal and set the following values: – All “White point” values initial to “256”. – All “BlackL Offset” values to “0”. Specifications (V) Description Test Point +12V_DISP FP12 11.4 12.0 12.6 B01A_DC-DC +VTUN FP11 30 +3V3_STBY FP10 3.20 3.30 3.40 B01A_DC-DC +3V3+SW FP20 3.13 3.3 +1V2_SW FP24 1.18 1.25 1.31 B01A_DC-DC +5V_SW FQ05 4.85 5.10 5.35 B01B_DC-DC +1V8_SW FQ06 1.72 1.82 5.25 B01B_DC-DC +2V5_SW FQ03 2.38 2.5 2.62 B01B_DC-DC +5V_IF F129 4.75 5 5.25 B02_TUNER_IF +5VS F131 4.75 5 5.25 B02_TUNER_IF +5V_TUN F146 4.75 5 5.25 B02_TUNER_IF +1V2_ADC FC04 1.14 1.2 1.26 B04A_TRIDENT +1V2_PLL FC05 1.14 1.2 1.26 B04A_TRIDENT +1V2_CORE FC06 1.14 1.2 1.26 B04A_TRIDENT +2V5_VDDM FD01 Q 2.38 2.5 2.62 B04B_DDR Min. Typ. Max. Diagram 33 36 B01A_DC-DC 3.46 B01A_DC-DC In case you have a colour analyser: • Measure with a calibrated contact less colour analyser (e.g. Minolta CA-210) 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 “256”) 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. • Repeat this step for the other colour Temperatures that need to be aligned. • When finished return to the SAM root menu and press STANDBY on the RC to store the aligned values to the NVM. Table 6-1 White D alignment values +VDISP FR10 11.4 12.0 12.6 B04E_LVDS Value Cool (11000 K) Normal (9000 K) Warm (6500 K) +8V F401 7.60 8.00 8.40 B05A_AUDIOPR OCESSOR x 0.278 0.289 0.314 y 0.278 0.291 0.319 2009-Apr-10 Alignments If you do not have a colour analyser, you can use the default values. This is the next best solution. The default values are average values coming from production (statistics). • Set the RED, GREEN and BLUE default values per temperature according to the values in the “Tint settings” table. • When finished return to the SAM root menu and press STANDBY on the RC to store the aligned values to the NVM. 6.4 Option Settings 6.4.1 Introduction 32" 42" WARM_RED 256 128 WARM_GREEN 241 120 WARM_BLUE 189 110 NORMAL_RED 251 125 NORMAL_GREEN 256 128 NORMAL_BLUE 120 220 COOL_RED 243 110 COOL_GREEN 256 118 COOL_BLUE 233 140 Black Level Offset Alignment • Activate SAM. • Select “RGB Align.” -> “BlackL Offset” and choose a colour. • Set all “BlackL Offset” values to “0”. • When finished return to the SAM root menu and press STANDBY on the RC to store the aligned values to the NVM. Note: For models with “Pixel Plus”, the “Black Offset” (black level offset) should NOT be changed in SAM. These offset values of RGB should be set to “0”, and should NOT be adjusted. Any adjustment of these values will affect the low light white balance. 6. EN 27 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. Table 6-2 Tint settings Alignment LC8.2HA LA Notes: • After changing the option(s), save them with the STORE command. • The new option setting becomes active after the TV is switched “off” and “on” again with the mains switch (the EAROM is then read again). 6.4.2 How To Set Option Codes When the NVM is replaced, all options will require resetting. To be certain that the factory settings are reproduced exactly, you must set all option numbers. You can find the correct option numbers in table “Option Codes OP1...OP7” below. How to Change Options Codes An option code (or “option byte”) represents eight different options (bits). When you change these numbers directly, you can set all options very quickly. All options are controlled via seven option bytes (OP1... OP7). Activate SAM and select “Options”. Now you can select the option byte (OP1 to OP7) with the CURSOR UP/ DOWN keys, and enter the new 3 digit (decimal) value. For the correct factory default settings, see the next table “Option codes OP1...OP7“. For more detailed information, see the second table “Option codes at bit level“. If an option is set (value “1”), it represents a certain decimal value. When all the correct options (bits) are set, the sum of the decimal values of each Option Byte (OP) will give the option code. Table 6-3 Option code overview ADC YPbPr Gray Scale Alignment When the grey scale is not correct, use this alignment: • Activate SAM. • Select “NVM Editor”. • Enter address “26(dec)” (ADR). • Set value (VAL) to “197(dec) ± 25”. • Store (STORE) the value. Display Code CTN Option Code 32HFL5530/93 192 029 226 249 073 197 131 069 32HFL5530/97 128 029 234 249 073 196 131 069 42HFL5580/93 192 029 226 249 073 197 129 130 42HFL5580/97 128 029 234 249 073 196 129 138 2009-Apr-10 EN 28 6. LC8.2HA LA Alignments Option Bit Overview Below find an overview of the Option Codes on bit level. Table 6-4 Option codes at bit level (OP1-OP7) Option Byte & Bit Dec. Value Option Name Description Bit 7 (MSB) 128 BBE ON = BBE is available; OFF = BBE is not available Bit 6 64 CHINA ON = SW is for CHINA only; OFF = SW is for Non-China AP cluster Bit 5 32 DTV_CHINA ON = DTV_CHINA will be available (Reserved); OFF = DTV_CHINA will not be available Byte OP1 Bit 4 16 DTV_EU ON = DTV will be available; OFF = DTV will not be available Bit 3 8 UK_PNP ON = UK PNP is available (for analogue TV only); OFF = UK PNP is not available (for analogue TV only) Bit 2 4 VIRGIN_MODE ON = Virgin Mode (PNP) is available; OFF = Virgin Mode (PNP) is not available Bit 1 2 ACI ON = ACI is available; OFF = ACI is not available Bit 0 (LSB) 1 ATS ON = ATS is available; OFF = ATS is not available Bit 7 (MSB) 128 1080P ON = 1080p is available; OFF = 1080p is not available Bit 6 64 LIGHT_SENSOR ON = Light Sensor is available; OFF = Light Sensor is not available Bit 5 32 AMBILIGHT ON = Ambilight Feature will be available; OFF = Ambilight Feature will not be available Bit 4 16 BACKLIGHT_DIMMING ON = Backlight Dimming is available; OFF = Backlight Dimming is not available Bit 3 8 HUE ON = Hue is available; OFF = Hue is not available Bit 2 4 2D3DCF ON = 3D Comb Filter is available; OFF = 2D Comb Filter is available Bit 1 2 WSSB ON = WSS is available; OFF = WSS is not available Bit 0 (LSB) 1 WIDE_SCREEN ON = TV is 16x9 set; OFF = TV is 4x3 set Byte OP2 Byte OP3 Bit 7 (MSB) 128 CVI1 ON=CVI1 (YPbPr) (For ROW) Bit 6 64 HDMI3 ON = HDMI3 (rear) is available; OFF = HDMI3 (rear) is not available Bit 5 32 HDMI4 ON = HDMI4 (side) is available; OFF = HDMI4 (side) is not available Bit 4 16 VCHIP ON = VChip is available; OFF = VChip is not available Bit 3 8 VIDEO_TEXT ON = Video-TXT is available; OFF = Video-TXT is not available Bit 2 4 STEREO_DBX ON = Stereo DBX detection is available (LATAM); OFF = Stereo DBX detection is not available Bit 1 2 STEREO_NICAM_2CS ON = Stereo NICAM 2CS detection is available (EU/AP/China); OFF = Stereo NICAM 2CS detection is not available Bit 0 (LSB) 1 LIP_SYNC ON = Lip Sync is available; OFF = Lip Sync is not available Bit 7 (MSB) 128 HDMI2 ON = HDMI2 is available; OFF = HDMI2 is not available Bit 6 64 HDMI1 ON = HDMI1 is available; OFF = HDMI1 is not available Bit 5 32 VGA ON = VGA is available; OFF = VGA is not available Bit 4 16 SVHS3 ON = SVHS3 is available; OFF = SVHS3 is not available Bit 3 8 AV3 ON = AV3 is available; OFF = AV3 is not available Bit 2 4 CVI ON = CVI is available; OFF = CVI is not available Bit 1 2 SVHS2 ON = SVHS2 is available; OFF = SVHS2 is not available Bit 0 (LSB) 1 AV2 ON = AV2 is available; OFF = AV2 is not available Bit 7 (MSB) 128 NVM_CHECK ON = NVM (range) checking is available; OFF = NVM (range) checking is not available Bit 6 64 DNM ON = DNM is available; OFF = DNM is not available Bit 5 32 SUBWOOFER ON = Sub woofer is available; OFF = Sub woofer is not available Bit 4 16 MP_ALIGN ON = Using multi-point alignment for Gamma & White Point; OFF = Using old way for Gamma (predefined) & WP alignment Byte OP4 Byte OP5 Bit 3 8 SYS_RECVRY ON = System Recovery is available; OFF = System Recovery is not available Bit 2 4 ED_HD_DNM ON = DNM not available on ED and HD signal; OFF = DNM available on ED and HD signal Bit 1 2 HOTEL ON = Hotel/BDS is available; OFF = Hotel/BDS is not available Bit 0 (LSB) 1 SS_DEMO ON = Split Screen Demo is available; OFF = Split Screen Demo is not available Bit 7 (MSB) 128 BACKLIGHT_BOOST ON = iLAB Backlight boost feature is available; OFF = iLAB Backlight boost feature is not available Bit 6 64 STATIC _DIMMING ON = iLAB Static Dimming feature is available; OFF = iLAB Static Dimming feature is not available Bit 5 32 CEC ON = CEC feature available; OFF = CEC feature not available Bit 4 16 AUTO_HDMI ON = Auto HDMI feature available; OFF = Auto HDMI feature not available Bit 3 8 TUNER PROFILE Bit 2 4 Bit 1 2 Bit 0 (LSB) 1 0 = ATV_EU_PHILIPS UV1318S/AIH-3; 1 = ATV_EU_Panasonic EN57K28G3F; 2 = DTV_EU_PHILIPS TD1316AF/IHP-2; 3 = Not Used (Reserved); 4 = ATV_AP_PHILIPS UV1316E/ AIH-4; 5 = ATV_CHINA_PHILIPS UV1356; 6 = ATV_CHINA_ALPS TEDE9-286B; 7 = ATV_CHINA_Tuner2 (Reserved); 8 = ATV_LATAM_PHILIPS UV1338/AIH-4; 9 = ATV_LATAM_PHILIPS UV1336; 10 = DTV_CHINA_Tuner1 (Reserved); 11 = DTV_CHINA_Tuner2 (Reserved); 12 = Not Used (Reserved); 13 = Not Used (Reserved); 14 = Not Used (Reserved); 15 = Not Used (Reserved) ON = Volume Up key will unmute the TV; OFF = Volume Up key will not unmute the TV Byte OP6 Byte OP7 Bit 7 (MSB) 128 OPC_VOL_UP_UNMUTE Bit 6 64 Reserved Not Used (Reserved) Bit 5 32 OPC_DTV_LATAM ON = Brazil Digital available; OFF = Brazil Digital not available Bit 4 16 CABINET PROFILE 0 = All flat response; 1 = ME8 42/47/52 Basic; 2 = ME8 42/47/52 AMBL; 3- 16 = Reserved Bit 3 8 Bit 2 4 Bit 1 2 Bit 0 (LSB) 1 2009-Apr-10 Circuit Descriptions LC8.2HA LA 7. EN 29 7. Circuit Descriptions The hospitality-specific features comprise: • Advanced Hotel mode (volume lock, front control lock out, guest menu, welcome message, etc.) • External loudspeaker connection. • Time synchronisation via Teletext • Channel protection • Energy saving features • Multimedia Player (Philips Connectivity Panel). • Wireless SmartLoader for fast cloning. • SmartPlug Xpress and Serial Xpress Control interfaces. Index of this chapter: 7.1 Introduction 7.2 iBoard Notes: • Only new circuits (circuits that are not published recently) are described. • Figures can deviate slightly from the actual situation, due to different set executions. • For a good understanding of the following circuit descriptions, please use the 9. Block Diagrams and 10. Circuit Diagrams and PWB Layouts. Where necessary, you will find a separate drawing for clarification. 7.1 The chassis supports these basic application types: • Stand-alone • Interactive via SmartCard (Serial Xpress or SmartPlug Xpress add-on box) • Interactive via 3rd-party set-top box. Introduction The LC8.2HA LA is the Hospitality version of the LC8.2A LA chassis. Refer to the Service Manual of the LC8.2A LA chassis for a description of all circuits outside the iBoard scope. Refer to figure “LC08R Architecture” for details. DDR DDR 32 32 DDR 32 SiI9185 Switch SVP-WX69 SiI9125 HDMI Digital Colour Decoder MADI (4-field) HD-DNM 1080P Through FPGA (optional) 2C5 FPGA (optional) AmbiLight DFI FHD 100Hz AmbiLight2 IIS Matrix Matrix HD@50Hz HD@50Hz FHD@50Hz FHD@50Hz FHD@100Hz FHD@100Hz DFI Bolt-on Analogue inputs FLASH 8 Renesas uP TV control Bolt-on module iBoard L/R MSP4450L Tuner IF SAW TDA8932T Class D ITV Bolt-on HP Audio Out SPDIF 18510_202_090407.eps 090407 Figure 7-1 LC08R Architecture 2009-Apr-10 EN 30 7.2 7. LC8.2HA LA Circuit Descriptions iBoard RS232 in/out RS232 12V out CVBS IR in/out 18510_203_090407.eps 090407 Figure 7-2 iBoard block diagram The iBoard intercepts the information from the IR Receiver and has full control over its interpretation and processing. It may also relay the same commands to the TV or send different IR commands to the TV. The IR signal could also be in another encoding format and bit rate, e.g. RC6MM. The iBoard also has full control over the LED. This makes it possible to implement within the iBoard features such as Wireless SmartLoading, Message Blinking, power status indication, etc. These features are implemented without additional software in the TV Microprocessor. The iBoard communicates with the TV in I2C (but other protocol is also possible). The iBoard is the I2C slave device and the TV is the I2C master. Functionally, the iBoard controls the TV and it is the master of the TV. The CVBS_ter signal is used as a monitor signal for automatic channel installation, which is controlled by the microprocessor. 18510_204_090407.eps 090407 Figure 7-3 iBoard cell layout 2009-Apr-10 IC Data Sheets LC8.2HA LA 8. EN 31 8. IC Data Sheets 8.1 IC Data Sheets This section shows the internal block diagrams and pin layouts of ICs that are drawn as “black boxes” in the electrical diagrams (with the exception of “memory” and “logic” ICs). 8.1.1 Diagram B03, Type TDA9886T (IC7113), IF-PLL demodulator Block Diagram external reference VIF-PLL filter CVAGC pos TOP TAGC 9 14 VAGC 4 MHz or (1) AFC REF VPLL 19 16 21 15 CBL CAGC neg TUNER AGC crystal DIGITAL VCO CONTROL RC VCO VIF-AGC AFC DETECTOR VIF2 2 17 CVBS video output 2 V (p-p) [1.1 V (p-p) without trap] VIDEO TRAPS VIF-PLL VIF1 1 4.5 to 6.5 MHz TDA9885 TDA9886 8 AUD AUDIO PROCESSING AND SWITCHES SINGLE REFERENCE QSS MIXER/ INTERCARRIER MIXER AND AM-DEMODULATOR SIF2 24 SIF1 23 5 DEEM de-emphasis network MAD SUPPLY SIF-AGC OUTPUT PORTS NARROW-BAND FM-PLL DETECTOR I2C-BUS TRANSCEIVER 6 AFD CAF CAGC 20 18 13 3 22 11 10 7 VP AGND n.c. OP1 OP2 SCL SDA DGND SIOMAD 12 4 FMPLL sound intercarrier output and MAD select (1) Not connected for TDA9885. FM-PLL filter Pin Configuration VIF1 1 24 SIF2 VIF2 2 23 SIF1 OP1 3 22 OP2 FMPLL 4 21 AFC 20 VP DEEM 5 AFD 6 DGND 7 TDA9885 TDA9886 19 VPLL 18 AGND AUD 8 17 CVBS TOP 9 16 VAGC(1) SDA 10 15 REF SCL 11 14 TAGC SIOMAD 12 13 n.c. G_16510_059.eps 090325 Figure 8-1 Internal block diagram and pin configuration 2009-Apr-10 EN 32 8.1.2 8. LC8.2HA LA IC Data Sheets Diagram B07A, Type SIL9185 (IC7M07), HDMI switch Block Diagram H_17370_074.eps 100807 Figure 8-2 Internal block diagram 8.1.3 Diagram B07B, Type SIL9125 (IC7N01), HDMI receiver Block Diagram H_17370_075.eps 100807 Figure 8-3 Internal block diagram 2009-Apr-10 IC Data Sheets 8.1.4 LC8.2HA LA 8. EN 33 Diagram B04A, Type SVP WX69 (IC7C01), Trident Video processor Block Diagram NTSC/PAL/ SECAM 3D Comb Decoder/ Motion Adaptive Deinterlacing CVBS1 CVBS1 S-Video Luma Deinterlacer 3:2/2:2 pull down ICSC BMNR NR Cubic4 Scalar Auto Color Adjustment ME/MC Frame Buffer Controller YPbPr SXGA RGB (1280x1024/ 60) Hsync/ Vsync Auto Mode/Auto Tune/Auto Phase Gamma LUT chroma Deinterlace Cubic4 scalar ICSC Chroma Key VM Control 30-bit Digital RGB H&V Voltage Protection HDMI Differential Signals HDMI CRTC/DPLL H Sync V Sync Clock PLL Crystal VBI/OSD/ TELETEXT HDCP Display I2C 8 bit Add/Data LVDS Blender Frame Rate Converter ICSC Dual 10 bit LVDS CPU & OSD Interface I2S SPDIF Pin Configuration I_17760_036.eps 260208 Figure 8-4 Internal block diagram and pin configuration 2009-Apr-10 EN 34 8.1.5 8. IC Data Sheets LC8.2HA LA Diagram B05A, Type MSP4450P (IC7411), Micronas Sound Processor Demodulator ADC Sound IF1 Loudspeaker Sound Processing Preprocessing internal / external Audio Delay I2S5 12 / 16 / 2 I S1 I2 S I2S2 I2 S I2S3 I2S4 I2 S (2..8-channel) Source Select Sound IF2 DAC/ HighResolution PWM L R SL SR Center Subwoofer Headphone Sound Processing DAC Headphone S/PDIF Prescale I2S Surround Processing SCART1 SCART4 Prescale SCART3 DAC SCART DSP Input Select ADC SCART2 SCART1 DAC SCART Output Select SCART2 SCART5 SCART3 G_16860_041.eps 300107 Figure 8-5 Internal block diagram 2009-Apr-10 Loudspeaker Block Diagram IC Data Sheets 8.1.6 LC8.2HA LA 8. EN 35 Diagram B05B, Type TDA8932T (IC7A01), Audio Amplifier Block Diagram OSCREF OSCIO 10 VDDA 31 8 28 IN1P 2 OSCILLATOR 29 DRIVER HIGH PWM MODULATOR VSSD IN1N INREF IN2P CTRL 26 DRIVER LOW 3 12 21 MANAGER 20 15 DRIVER HIGH PWM MODULATOR IN2N 27 22 CTRL 23 DRIVER LOW 14 PROTECTIONS: OVP, OCP, OTP, UVP, TF, WP VDDP1 OUT1 VSSP1 BOOT2 VDDP2 OUT2 VSSP2 VDDA STABILIZER 11 V DIAG BOOT1 4 25 STAB1 VSSP1 VDDA STABILIZER 11 V CGND POWERUP 7 6 REGULATOR 5 V 18 DREF 5 VDDA 11 30 TEST STAB2 VSSD MODE ENGAGE 24 VSSP2 VSSA TDA8932 13 19 HVPREF HVP1 HVP2 HALF SUPPLY VOLTAGE 9 VSSA 1, 16, 17, 32 VSSD(HW) Pin Configuration VSSD(HW) 1 32 VSSD(HW) IN1P 2 31 OSCIO IN1N 3 30 HVP1 DIAG 4 29 VDDP1 ENGAGE 5 28 BOOT1 POWERUP 6 27 OUT1 CGND 7 VDDA 8 VSSA 9 26 VSSP1 TDA8932T 25 STAB1 24 STAB2 OSCREF 10 23 VSSP2 HVPREF 11 22 OUT2 INREF 12 21 BOOT2 TEST 13 20 VDDP2 IN2N 14 19 HVP2 IN2P 15 18 DREF VSSD(HW) 16 17 VSSD(HW) G_16860_045.eps 300107 Figure 8-6 Internal block diagram and pin configuration 2009-Apr-10 EN 36 8.1.7 8. LC8.2HA LA IC Data Sheets Diagram HC01, Type ST3232C (IC7107), RS232 Driver PIN CONFIGURATION PIN DESCRIPTION PlN N° SYMBOL 1 C1+ Positive Terminal for the first Charge Pump Capacitor 2 3 V+ C1- Doubled Voltage Terminal Negative Terminal for the first Charge Pump Capacitor 4 C2+ Positive Terminal for the second Charge Pump Capacitor 5 C2- Negative Terminal for the second Charge Pump Capacitor 6 VT2OUT 7 NAME AND FUNCTION Inverted Voltage Terminal Second Transmitter Output Voltage 8 R2IN 9 R2OUT Second Receiver Output Voltage 10 T2IN Second Transmitter Input Voltage 11 T1IN First Transmitter Input Voltage 12 R1OUT First Receiver Output Voltage 13 R1IN 14 T1OUT 15 GND VCC 16 Second Receiver Input Voltage First Receiver Input Voltage First Transmitter Output Voltage Ground Supply Voltage 18510_301_090410.eps 090410 Figure 8-7 Internal block diagram and pin configuration 2009-Apr-10 IC Data Sheets 8.1.8 LC8.2HA LA 8. EN 37 Diagram HC01, Type NCP303LSN45 (IC7103), Voltage Detector Block Diagram Pin Configuration NCP303LSNxxT1 Open Drain Output Configuration NCP302xSNxxT1 Complementary Output Configuration 2 2 Input Vref Gnd 5 Vref 3 CD Reset Output RD 1 Reset Output 3 1 Gnd 5 Reset Output 1 Input 2 Ground 3 CD 4 N.C. xxx = 302 or 303 Y = Year W = Work Week * Inverter for active low devices. * Buffer for active high devices. 5 CD xxxYW RD Input This device contains 28 active transistors. (Top View) F_15400_133.eps 100405 Figure 8-8 Internal block diagram and pin configuration 8.1.9 Diagram HC01, Type ST1S10 (IC7125), Stepdown Regulator Block Diagram Pin Configuration DFN8 (4x4) PowerSO-8 I_18010_083.eps 130608 Figure 8-9 Internal block diagram and pin configuration 2009-Apr-10 EN 38 8. LC8.2HA LA IC Data Sheets Personal Notes: 10000_012_090121.eps 090121 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 39 9. Block Diagrams Wiring Diagram 32" (ME8) WIRING 32" ( ME8) 8508 8D11 1110 (HC01) 1109 (HC01) 8P 9P LCD DISPLAY (1004) 10P 1205 (HC02) 8509 8CN8 LVDS INPUT 30P 1209 (HC02) SSB (1150) 1. HP_AUDIO_OUT_L 2. GND 3. HP_AUDIO_OUT_R B (1184) 1509 (B06B) iBOARD 1508 (B06B) 1. GND 2. BOLT_0N _UART_RXD 3. BOLT_0N _UART_RXD 4. +3V3_STBY 5. ITV_I2C_SCL 6. ITV_I2C_SDA 7. REMOTE 8. DTV_IRQ 9. STANDBY 10. SCI_CVBS_RF_OUT HC 1R01(B04E) 1. ITV_I2C_SDA 2. TV_I2C_SDA . . 40. +VDISP 41. +VDISP INVERTER 8R01 3P 1108 (HC01) 3P 14. PDIM_Select 13. PWM 12. On/Off 11. Vbri 10. GND3 9. GND3 8. GND3 7. GND3 6. GND3 5. 24Vinv 4. 24Vinv 3. 24Vinv 2. 24Vinv 1. 24Vinv MAIN POWER SUPPLY (1005) CN6 J1 8M01 CN8 1. 12V_PBS 2. SGND 3. CTRL_PBS 1. 3V3Vstdby 2. Standby 3. GND1 4. GND1 5. GND1 6. +12V 7. +12V 8. +12V 9. +12V (audio) 10. GND2 11. -12V (audio) ANA-DIG_DIM_SELECT BACKLIGHT_BOOST PWM_DIMMING BACKLIGHT_ON_OFF GND GND +12Vdisp +12Vdisp 1320 (B03) +12V +12V GND1 GND1 BL_ON_OFF DIM Boost ANALOG/PWM dimming 9. 8. 7. 6. 5. 4. 3. 2. 1. 8P02 KEYBOARD +5V_SW KEYBOARD LED1 +3V3STBY LED2 IR GND LIGHT_SENSOR 1A35 (B05B) 2. L 1. N 4. 3. 2. 1. RIGHT+ GND GND LEFT- 8A35 CN1 1P02 (B01A) 8. 7. 6. 5. 4. 3. 2. 1. 8P01 CN7 1. 2. 3. 4. 5. 6. 7. 8. 8308 INLET (1112) LIGHT-SENSOR GNDSND RC LED2 +3V3-STANDBY LED1 KEYBOARD +5V KEYBOARD IR LED PANEL 1P10 J 1. 2. 3. 4. 5. 6. 7. 8. 9. GND KEYBOARD +3V3STBY TACT_SWITCH_INT 8109 1. 2. 3. 4. GND KEYBOARD +3V3STBY INTERRUPT 1P11 1. 2. 3. 4. 1P01 (B01A) 11. -12VAudio 10. GNDSND 9. +12VAudio 7. +12VS 6. +12VS 5. GND 4. GND 3. GND 2. STANDBY 1. +3V3STBY 14P CONTROL E KEYBOARD (0025) 8418 CN2 Board Level Repair + - Component Level Repair Only For Authorized Workshop RIGHT SPEAKER (5212) ME8 IN BACK COVER + - LEFT SPEAKER (5211) ME8 IN BACK COVER 18510_400_090408.eps 090410 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 40 Wiring Diagram 42" (ME8) WIRING DIAGRAM 42" ( ME8) 8402 1212 (HC02) 4P HC 8R01 9P 8509 3P LVDS INPUT 50P 1109 (HC01) 8P 1108 (HC01) 8508 LCD DISPLAY (1004) 1110 (HC01) 10P 1205 (HC02) 8D11 iBOARD (1184) CONTROL E KEYBOARD (0025) A (1005) CN5 1205 (B04C) 1. 2. 3. 4. 4. 3. 2. 1. +12Vb +12Vb GND GND 8CN8 6. 5. 4. 3. 2. 1. CN6 GND_24V +24V_BOLT-ON GND_24V +24V_BOLT-ON B 1. HP_AUDIO_OUT_L 2. GND 3. HP_AUDIO_OUT_R 1509 (B06B) SSB (1150) 11. -12VAudio 10. GNDSND 9. +12VAudio 7. +12VS 6. +12VS 5. GND 4. GND 3. GND 2. STANDBY 1. +3V3STBY 8P01 1P02 (B01A) 8M01 12Vssb 12Vssb GND GND INV_ON DIM BOOST GND 8P02 1320 (B03) 9. 8. 7. 6. 5. 4. 3. 2. 1. INLET 1. N 2. L TUNER 4. 3. 2. 1. RIGHT+ GND GND LEFT- + - Board Level Repair + - LEFT SPEAKER RIGHT SPEAKER Component Level Repair Only For Authorized Workshop 1. 2. 3. 4. 5. 6. 7. 8. 9. (1112) LIGHT-SENSOR GNDSND RC LED2 +3V3-STANDBY LED1 KEYBOARD +5V KEYBOARD IR LED PANEL 1P10 GND KEYBOARD +3V3STBY TACT_SWITCH_INT KEYBOARD +5V_SW KEYBOARD LED1 +3V3STBY LED2 IR GND LIGHT_SENSOR 1A35 (B05B) 8A35 CN1 8308 8109 1. 2. 3. 4. ANA-DIG_DIM_SELECT BACKLIGHT_BOOST PWM_DIMMING BACKLIGHT_ON_OFF GND GND +12Vdisp +12Vdisp TO BACKLIGHT 8. 7. 6. 5. 4. 3. 2. 1. CN7 1. 2. 3. 4. 5. 6. 7. 8. J GND_24V +24V_BOLT-ON GND_24V +24V_BOLT-ON GND_24V +24V_BOLT-ON 1P01 (B01A) 1. 3V3ST 2. Standby 3. GND 4. GND 5. GND 6. 12Vssb 7. 12Vssb 8. 12Vssb 9. +12Vaud 10. GND_aud 11. -12Vaud TO BACKLIGHT GND KEYBOARD +3V3STBY INTERRUPT 1P11 1. 2. 3. 4. MAIN POWER SUPPLY 1206 (B04C) 1M01 3P J1 7. GND 6. +3V3_SW 5. +3V3_FPGA 4. GND 3. AMBI_SDA 2. GND 1. AMBI_SCL 1508 (B06B) 1202 (B04C) 1R01(B04E) 1. ITV_I2C_SDA 2. TV_I2C_SDA . . 40. +VDISP 41. +VDISP CN2 1. HV2 2. N.C. 3. HV2 DANGEROUS HIGH VOLTAGE 1. HV1 2. N.C. 3. HV1 CN3 DANGEROUS HIGH VOLTAGE 1. GND 2. BOLT_0N _UART_RXD 3. BOLT_0N _UART_RXD 4. +3V3_STBY 5. ITV_I2C_SCL 6. ITV_I2C_SDA 7. REMOTE 8. DTV_IRQ 9. STANDBY 10. SCI_CVBS_RF_OUT 8401 (5215) TWEETER (5211) WOOFER IN BACK COVER (5215) TWEETER (5212) WOOFER IN BACK COVER 18510_401_090408.eps 090410 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 41 Block Diagram Video VIDEO B04A TRIDENT - WX69 TUNER IF & DEMODULATOR SAW_SW 10 *1105 5 1 1101 UV1316E/ABH *UV1356/ABHN 4 7113 TDA9886T/V4 +5VS 20 IF_OUT3 IF_ATV 2 5 1 VIF1 1 4 2 VIF2 SUPPLY 1103 5 SIF1 4 SIF2 1 38MHz9 *38MHz RF_AGC DC_PWR 1 TAGC DIDITAL VCO COTROL VIF-PLL SOUND TRAPS 4.5 to 6.5 Mhz 7114 EF B14 TXFPGAe_0n A14 TXFPGAe_0p DEMODULATOR B15 TXFPGAe_1n SINGLE REFERENCE QSS MIXER INTERCARRIER MIXER AND AM-DEMODULATOR A15 TXFPGAe_1p B16 TXFPGAe_2n A16 TXFPGAe_2p B17 TXFPGAe_CLKn A17 TXFPGAe_CLKp B18 TXFPGAe_3n A18 TXFPGAe_3p B19 TXFPGAe_4n A19 TXFPGAe_4p CVBS 17 CVBS_RF Y4 CVBS1 LVDS OUT MAD TUNER AGC I2C-BUS TRANSCEIVER VIF AGC (I2C) *ONLY FOR CHINA HC01 IBOARD HC02 IBOARD 40 38 10 BIT DUAL LVDS RC VCO SIF AGC 41 39 15 REF 38MHz9 TUNER VDISP SDA 1102 7C01 WX69-7569-LF 1104 4M0 38MH 11 B04E LVDS CONNECTOR 1R01 7109 SAW_SW B03 (CONTROL) SCL B2 B06B I/O - CINCH 1 & 2 ANALOG VIDEO 1R02 32 31 1R03 30 29 1R04 28 27 1R05 25 24 1R06 22 21 1R07 20 19 LVDS CONNECTOR TO DISPLAY 1502 VIDEO IN SC2_Y_CVBS_IN 15 W6 Y_G1 1504 7503-7504 VIDEO out 1107 9 7215-7217 CVBSterr 1205 SC1_CVBS_RF_OUT 10 1508 10 SC1_RF_OUT_CVBS 15 W2 CVBS_OUT1 WX69 VIDEO PROCESSOR SC1_CVBS_RF_OUT RJ45 B07A HDMI SWITCH B06A YPBPR & SVHS B20 TXFPGAo_0n A20 LTXFPGAo_0p D19 TXFPGAo_1n C20 TXFPGAo_1p E19 TXFPGAo_2n D20 TXFPGAo_2p F19 TXFPGAo_CLKn E20 TXFPGAo_CLKp G19 TXFPGAo_TXo3n F20 TXFPGAo_TXo3p H19 TXFPGAo_TXo4n G20 TXFPGAo_TXo4p 1R08 17 16 1R09 15 14 1R10 13 12 1R11 10 9 1R12 7 6 1R13 5 4 1 2 1M02 1 RX2_B+ 3 RX2_BRX1_B+ 19 18 4 6 7 HDMI B CONNECTOR XTALI RX1_BRX0_B+ 1615 RXC_B+ 12 RXC_B- 1 2 RX2_C+ 3 RX2_CRX1_C+ 19 18 RXC_C+ SVHS_Y_CVBS_IN Y6 12 RXC_C- SVHS_C_IN V9 HDMI_SIDE_RX2+ 3 HDMI_SIDE_RX2HDMI_SIDE_RX1+ 4 6 7 HDMI_SIDE_RX1HDMI_SIDE_RX0+ 9 10 HDMI_SIDE_RXC+ 12 HDMI_SIDE_RXC- SIDE I/O 3 4 D18 +1V2_PLL 10 1 VGA_R_IN 2 VGA_G_IN VGA_B_IN HDMI_SIDE_RX2HDMI_SIDE_RX1+ RX1_CRX0_C+ 24 22 R0X 64 62 HDMI_SIDE_RX1HDMI_SIDE_RX0+ 61 HDMI_SIDE_RX0- 59 HDMI_SIDE_RXC+ 58 HDMI_SIDE_RXC- RX0_C- 21 RXC_C+ 19 RXC_C- 18 RX2_B+ 48 RX2_BRX1_B+ 47 45 RX1_BRX0_B+ R2X HDMI SWITCH RX0_B- 41 RXC_B+ 39 RXC_B- 38 58 57 HDMI_MUX_TX0HDMI_MUX_TX1+ 61 66 HDMI_MUX_TX1HDMI_MUX_TX2+ 65 1 2 HDMI_MUX_TX2- 69 8 4 5 HDMI_MUX_RST U8 PC_R Y7 PC_G W10 PC_B VGA_H 1 VGA_V 5 4 V10 AIN_H 8 U10 AIN_V 7N01 SII9125CTU HDMI_MUX_TXC+ HDMI_MUX_TXCHDMI_MUX_TX0+ 13 DDR_VREF 7C03 B07B HDMI MAIN 7 TX 3 13 14 VGA CONNECTOR 10 11 44 42 R1X 6 5 67 65 C +2V5_VDDMQ L16 +3V3_SW 1E01 1 HDMI_SIDE_RX2+ 27 25 SUPPLY B06C VGA & PC AUDIO & COMPAIR & UART 11 68 RX2_CRX1_C+ B4 Y_G3 K3 7M07 SII9185ACTU 28 PB_B1 C14 +1V2_CORE 1601 1 SVHS 5 HDMI_SIDE_RX0- RX2_C+ Y_G1 2 2 1 1C24 24MHz PR_R1 VIDEO RX0_C- 9 10 15 1 2 W9 Y1 1602 RX1_CRX0_C+ 1M01 19 18 HD_PB_IN Pb 1 4 6 7 HDMI (SIDE) CONNECTOR V6 9 1M03 HDMI C CONNECTOR Y8 HD_Y_IN 12 Y CVI-1 HD_PR_IN 7 Pr RX0_B- 9 10 XTALO W1 62 70 HDMI_CR(0-9) DIGITAL VIDEO B04B DDR INTERFACE HDMI_Y(0-9) HDMI MAIN 7D01 EDD1216AJTA HDMI_CB(0-9) B4C (0-11) 19 18 1 2 1N03 HDMI A CONNECTOR 1 TX2_A+ 3 TX2_ATX1_A+ 4 6 7 HDMI_H HDMI_V HDMI_DE 19 5 HDMI_VCLK 20 21 52 51 SDRAM V20 DPA_HS Y19 DPA_VS Y20 DPB_DE W20 DPA_CLK MEMORY WX_MD (0-15) 7D02 EDD1216AJTA 48 TX1_ATX0_A+ 47 44 9 10 TX0_A- 43 TXC_A+ 40 12 TXC_A- 39 WX_MA (0-11) SDRAM (16-31) 18510_402_090408.eps 090410 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 42 Block Diagram Audio AUDIO B02 TUNER IF & DEMODULATOR 1101 +VTUN UV1316E/ABH *UV1356/ABHN 9 2117 5 1 VIF1 4 VIF2 2 VIF2 5 SIF1 23 SIF1 4 SIF2 24 SIF2 SUPPLY 1 TUNER 1103 SINGLE REFERENCE QSS MIXER INTERCARRIER MIXER AND AM-DEMODULATOR 1 MAD SIF AGC 3111 14 TAGC RF_AGC TUNER AGC VIF AGC 63 67 15 I2C-BUS TRANSCEIVER 1104 4M0 7A01 TDA8932BTW/N2 ANA-IN1+ XTALIN DACM-L DACM-R 27 AUDIO_LS_L 3A03 26 AUDIO_LS_R 3A11 14 68 XTALOUT 1411 18M432 SOUND PROCESSOR (I2C) B06A YPBPR & SVHS AUDIO L/R IN SIDE_AUDIO_IN_L 48 SIDE_AUDIO_IN_R 49 SC4-IN-L SC4-IN-R 1615 5 3 LEFT SPEAKER 3 4 RIGHT SPEAKER 5 12 SUPPLY 3621 8 CVI AUDIO L/R IN 3A26 ENGAGE 3623 2 22 5A04 1602 5 1A35 1 27 5A03 2 CLASS D POWER AMPLIFIER 13 7A05÷7A07 SUP_D 39 +8V 61 SUP_A B03 (CONTROL) DC_PROT DC-DETECTION 62 3607 COMP_AUDIO_IN_L 50 3611 COMP_AUDIO_IN_R 51 SC3-IN-L B03 (CONTROL) SC3-IN-R MUTEn MUTE B06A YPBPR & SVHS B06B I0 - CINCH 1& 2 1502 AV IN AUDIO L/R IN 6 3512 2 3506 SC2_AUDIO_IN_L 52 SC2_AUDIO_IN_R 53 SC2-IN-L 7A51 SC2-IN-R DACA-L 1504 SC1_AUDIO _MUTE_L 3507 6 AV OUT AUDIO L/R OUT 3503 2 B05B SC1_AUDIO _OUT_L 37 SC1_AUDIO _OUT_R SC1_AUDIO _MUTE_R 36 DACA-R CVI-1 AUDIO L/R IN 2 3E23 VGA_AUDIO_IN_L 57 - RX0 HP_ROUT 1 2 TX + - HP_DETECT B03 (CONTROL) VGA_AUDIO_IN_R 58 SC5-IN-R HP_AUDIO_OUT_R + RXx_SIDE HDMI SIDE - HEADPHONE SC1_AUDIO _MUTE_R ANTI_PLOP SC1_AUDIO _MUTE_L B06B 1509 1 HC01 IBOARD 1108 1 2 2 3 3 7131 2 1 LEFT 7 RIGHT 6 7123 EF 7124 EF 7121 TDA8551T/N1 4 8 AUDIO AMPLIFIER DIG. VOL. 5 CONTROL 1113 2 3 EXTERNAL SPEAKER 1 1 HDMI SCK MAIN WS SD0 86 HDMI_I2S_SCK 17 85 HDNI_I2S_WS 18 81 HDMI_I2S_SD 20 Volume Control CL3 7130 EF 1114 4 WS3 7127 EF DA-3 HDMI A 3 2 AUDIO L/R OUT 1 HDMI_MUX_TX AUD_RST B03 (CONTROL) 1M01 3 4 1 19 18 - R1X TXx_A 19 18 + 1 2 1 2 19 18 7 1603 2 SC5-IN-L 7N01 SII9125CTU HDMI SWITCH RXx_B 6 B07B HDMI MAIN + HDMI B HP_AUDIO_OUT_R B06B I0 - CINCH 1& 2 1N03 1M02 23 HP_AUDIO_OUT_L 7M07 SII9185ACTU RXx_C HP_LOUT ANTI_PLOP B03 (CONTROL) 1E07 B07A HDMI SWITCH HDMI C 1 SC1-OUT-R PC / DVI AUDIO 1M03 2 B05B 1E02 3E21 HP_AUDIO_OUT_L SC1-OUT-L B06C VGA & PC AUDIO & COMPAIR & UART 2 24 19 7110 DA-3 HC02 7111 HC02 R2X 1105 4 HP_DET2 1 2 1 SIOMAD 12 SIF M0DE_HP_DET 3 2 AUDIO L/R OUT 1 19 18 DC_PWR CVBS SOUND TRAPS 4.5 to 6.5 Mhz VIF-PLL SDA 11 IF-ATV 7411 MSP4450P-VK-E8 000 Y DEMODULATOR VIF1 B05B AUDIO - CLASS D 20 SCL IF1 1102 B05A AUDIO PROCESSOR - MICRONAS +5VS 7113 TDA9886T/V4 18510_403_090408.eps 090408 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 43 Block Diagram Control & Clock Signals CONTROL & CLOCK SIGNALS B04A TRIDENT - WX69 B04B DDR INTERFACE B04D FPGA I/O BANKS 7700 EP2C5F256C7N 70 71 (RESERVED) 7C01 WX69-7569-LF 7D01 EDD1216AJTA G17 W1 SDRAM BL_ADJUST_PWM CONTROL B01A WX_MD(0-31) 1C24 24MHZ VIDEO PROCESSOR WX_MA(0-11) SDRAM CYCLONE II AMBI-LIGHT TxFPGAe_CLKn J16 TxFPGAe_CLKp J15 F4 H4 TxFPGAo_CLKn H15 TxFPGAo_CLKp H16 C3 F1 (ONLY FOR AMBI-LIGHT) SDA TO AMBI-LIGHT SCL 1204 (I2C) CLK_OSC1 7201 EPCS4SI8 nCSO 1 DCLK 6 SCD ASDO 5 DATA0 27M 2 B04E LVDS CONNECTOR Y1 44 7D02 EDD1216AJTA H2 FPGA 7C02 7C04 B04C FPGA INTERGACE 1R01 B17 TxFPGAe_CLKn TxLVDSe_CLKn 25 A17 TxFPGAe_CLKp TxLVDSe_CLKp 24 F19 TxFPGAo_CLKn TxLVDSo_CLKn 10 E20 TxFPGAo_CLKp TxLVDSo_CLKp 9 TO DISPLAY (LVDS) DUAL LVDS WX_MCLK 44 B03 MICROPROCESSOR B12 7311 M30300SAGP AD(0-7) B07B HDMI MAIN A(0-7) 7310 M29W800DT 1 2 7N01 SII9125CTU HDMI_VCLK 5 W20 HDMI MAIN 19 18 7M07 SII9185ACTU EPROM 1 2 HDMI CONNECTOR + - A(0-19) R0X + RXx_B CE 48 12 CPU_RST 10 11 28 HDMI_MUX_TX 7312 BD45275G HDMI_Cr(0-7) R1X 5 36 95 + RXx_C - R2X 94 16 HDMI CONNECTOR TO HDMI A CONNECTOR E CS 45 J19 WR 44 J20 J18 RD ALE_EMU 42 38 F18 SVPWX_RST 4 76 HDMI_HOTPLUG_RST 100 HDMI_RX_BUF_RST 36 HDMI_INT_MUX 73 HC J1 2 4 1P11 2 IR/LED PANEL 4 1P10 3P11 6P11 +5V_SW 9 7209 UPSD3333D AV1-STATUS 34 STANDBY 52 39 37 HP_DET2 27 MODE_HP_DET HC01 AUDIO FROM CN5 PSU 1109 9 9 KEYBOARD 7 7 6 6 AUD_RST HP_DETECT 78 MUTEn 74 ANTI_PLOP 75 BL_ON_OFF 22 BL_BOOST 19 DDC_RST 23 SAW_SW B01A B06B 1P01.2 1508-9 B05A B05B B05B AUDIO B01A B01A SUPPLY 35 B07B B07A HDMI CONNECTORS B02 VIDEO DC_PROT 31 +3V3_STBY MCU FROM 1508 SSB 1209 CTRL_12VPBS 2 TACT_SWITCH_INT 1110 25 HC01 3L56 4301 SDM 1320 40 N.C. KEYBOARD 7 7 KEYB 93 6 6 LED1 95 4 4 LED2 87 3 3 REMOTE 18 1 1 LIGHT_SENSOR 92 7P11 LED1 WHITE 3P10 6P10 +5V_SW 1205 8 B06A AUDIO B05B AUDIO IBOARD STANDBY 5 HDMI_MUX_RST KEYBOARD CONTROL 3 88 89 35 ON / OFF J J17 13 CHANNEL + CHANNEL MENU VOLUME VOLUME + 1301 10M 11 4 2,3 1N02 28M322 19 18 HPD_RST_C VOUT (3V3) 1 2 HPD_RST_B MICRO PROCESSOR +3V3_STBY 19 18 - 13 26 1 2 HPD_RST_SIDE 56 1Mx8 512Kx16 HDMI_Y(0-7) B04E AD(0-7) HDMI_Cb(0-7) HDMI SWITCH 19 18 RXx_SIDE LCD_PWR_ON 99 RXx_B 3L79 B07A HDMI SWITCH LED1 LED1_OUT 7P10 LED2 RED 32 LED2 4 4 LED2-OUT 3 3 RC_IR 1 1 LED1 10 31 1 28 25 1203 24M LED2 35 7207 7P14 3P16 IR +3V3STBY CONTROL IR_IN_TV IR SENSOR N.C. LIGHT_SENSOR 18510_404_090408.eps 090410 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 44 SSB: Test Points (Overview Bottom Side) A115 A116 A124 A125 D4 D3 E4 D4 F101 F112 F114 F115 D5 D5 D4 E5 F116 F117 F118 F119 E4 E5 E5 E5 F120 F121 F128 F129 E4 D4 D4 D4 F130 F131 F133 F134 D4 D4 E4 E5 F140 F142 F143 F146 D4 D5 D4 E5 F201 F202 F203 F204 A5 A6 A5 A6 F205 F207 F208 F210 A5 A5 C3 C8 F211 F222 F223 F224 B8 A5 A6 A6 F225 F227 F228 F229 A5 A6 A5 A5 F236 F237 F238 F239 A5 A5 E7 B8 F240 F302 F303 F305 B8 A3 A2 A5 F309 F310 F311 F312 A4 B4 B4 B3 F313 F314 F315 F316 B4 B3 A4 B3 F317 F318 F319 F320 B4 B3 B4 B3 F321 F322 F323 F324 B4 B3 A3 B4 F325 F326 F327 F328 Part 1 I_17760_022a.eps B3 B4 B3 B4 F329 F330 F331 F332 B4 A3 B4 B4 F333 F334 F335 F336 B4 B4 B4 B4 F337 F338 F339 F340 B4 B4 B4 B4 F341 F345 F346 F347 B4 C2 A8 A2 F348 F349 F350 F351 A4 A4 C3 F8 F352 F353 F354 F356 A4 A4 A7 C3 F357 F360 F361 F362 E8 E7 A4 A4 F363 F364 F365 F366 A4 A5 A5 B4 F367 F368 F369 F380 A4 B3 B3 A4 F381 F382 F383 F384 A3 E8 E8 E8 F385 F386 F387 F388 Part 2 I_17760_022b.eps Part 4 I_17760_022d.eps Part 3 I_17760_022c.eps I_17760_022.eps 300708 3139 123 6349.1 2009-Apr-10 A4 A4 A4 B4 F401 F402 F403 F404 F510 F511 F512 F513 F514 F515 F516 F517 F518 F519 F520 F521 F522 F523 F524 F525 F526 F527 F528 F529 F530 F531 F532 F534 F535 F536 F537 F538 F539 F540 F541 F542 F543 F544 F601 F602 F604 F605 F607 F608 F609 F610 F611 F612 F613 F614 F615 F616 F617 F618 F619 F620 F701 F702 F703 F704 F705 F706 F733 F734 F901 F904 FA04 FA05 FA06 FA07 FA08 FA09 FA10 FA11 FA12 FA13 FA32 FB10 FB11 FB12 FB13 FB14 FB15 FB16 FB17 FC01 FC02 FC03 FC04 FC05 FC06 FC07 FC08 FC09 FC10 FC11 FD01 FD02 FE10 FE11 FE12 FE13 FE14 FE15 FE16 FE17 FE18 FE19 FE20 FE21 FE22 FE23 FE24 FE25 FE26 FE27 FE28 FE29 FE30 FE31 FE32 FE33 FE34 FF10 FF11 FF12 FF13 FF14 FG10 FG11 FG12 FG13 FG14 E4 F3 E4 F5 E1 F2 E2 E2 E1 E2 D2 D3 E2 E2 E3 E2 E2 E1 E2 D3 D2 D2 D2 D1 D2 E2 E2 A3 A3 E2 E2 E2 E2 E2 E2 D2 E1 E1 E1 E1 D3 E3 E3 E3 E3 D1 D1 C1 C3 D6 E2 C1 C1 B2 C2 A2 A5 A5 A5 A5 A5 A5 A5 A5 D2 D2 F6 F6 D2 F8 F8 E6 F7 F7 F5 F6 F7 B7 B7 B7 B7 C7 B7 B7 B7 C4 C4 C4 C4 B5 B4 C4 C4 B5 C4 C4 B6 C5 C2 C2 C2 C5 C5 C6 D6 D6 C2 C2 D6 D6 C1 C1 C5 C1 C5 C1 C5 D2 C2 C3 C3 C3 C3 D7 D7 D7 C7 C7 B8 B7 C8 C8 B7 FG15 FG16 FG17 FG18 FG19 FG20 FG21 FG22 FG23 FG24 FG25 FG26 FG27 FG28 FG29 FM01 FM02 FM05 FM06 FM07 FM08 FM09 FM10 FM11 FM12 FM13 FM15 FM17 FM18 FM19 FM24 FM25 FM26 FN10 FN11 FN12 FN13 FN14 FN15 FN16 FN17 FN18 FP10 FP11 FP12 FP13 FP14 FP15 FP16 FP17 FP18 FP19 FP20 FP21 FP22 FP23 FP24 FP26 FP27 FP28 FP29 FP30 FQ03 FQ05 FQ06 FQ08 FQ35 FQ40 FR10 FR11 FR12 FR13 FR14 FR15 FR16 FR17 FR18 FR19 FR20 FR21 FR22 FR23 FR24 FR25 FR26 FR27 FR28 FR29 FR30 FR31 FR32 FR33 FR34 FR35 FR36 FR37 FR38 FR39 FR40 FR41 FR42 FR43 FR44 FR45 FR46 FR47 FR48 FR49 FR50 FR51 FR52 FR53 FR54 FR55 FR56 FR57 FR58 FR59 FR60 FR61 FR62 FR63 FR64 FR65 FR66 FR67 FR68 FR69 I102 I103 I104 I111 I113 B7 B7 B7 C7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B6 C6 B1 B1 B1 C3 B1 B1 A3 B1 B2 B2 B2 B2 A2 B2 B2 B1 B2 C1 B3 B3 C2 B3 B2 B3 E3 B3 B2 E8 D8 A6 F8 D8 F8 F7 D8 E8 B5 D8 C6 E8 E8 E7 E7 C8 D6 A6 E6 D6 E5 D6 E7 E6 E6 A8 B8 B8 A7 B8 A7 B8 A7 B8 A7 B8 A7 B8 A7 B8 A7 B8 A7 B8 A7 A8 A7 A8 A8 A7 A8 A7 A7 A7 A8 A7 A8 A7 A8 A7 A8 A7 A7 A8 A8 A7 A7 A7 A8 A8 A7 A8 A7 A8 A7 A8 A7 A8 A7 A7 A8 A7 B8 A7 A8 E4 E4 D4 E5 D4 I114 I118 I120 I121 I123 I124 I125 I126 I127 I128 I129 I130 I131 I133 I135 I136 I138 I139 I141 I142 I143 I144 I145 I146 I147 I148 I149 I150 I151 I201 I205 I206 I207 I209 I212 I213 I232 I233 I234 I301 I302 I303 I306 I307 I308 I309 I310 I311 I312 I313 I315 I316 I318 I319 I320 I321 I322 I323 I324 I326 I327 I328 I329 I330 I331 I332 I333 I335 I336 I337 I338 I339 I340 I341 I342 I344 I345 I347 I349 I350 I351 I352 I353 I354 I356 I357 I358 I359 I360 I361 I362 I363 I364 I365 I366 I367 I368 I369 I370 I372 I373 I374 I375 I376 I380 I384 I387 I390 I393 I396 I397 I398 I412 I413 I414 I415 I416 I417 I418 I419 I420 I421 I422 I423 I424 I425 I429 I430 I432 I436 I437 I438 I439 E4 E4 E4 E5 E5 D4 D4 D4 D4 D3 D4 D3 D3 D4 D4 D3 D4 D4 E4 D4 D4 D4 E5 D5 D5 D4 D4 D4 E5 A6 A6 B8 B8 B8 B8 B8 A6 B8 B8 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 A5 A4 A4 A4 A4 A4 A4 A4 F5 A4 A4 A7 A4 A8 A4 A4 A4 A4 B4 A4 A3 A4 A4 A4 A4 C3 A4 A4 A4 A4 A3 A4 A4 A3 A4 A4 C4 D4 A4 E5 A4 A4 A4 A4 A4 C3 C3 A5 E8 E8 F8 E8 B3 A4 A4 A4 B3 A4 A4 A4 F4 F4 E4 E4 E4 E4 E4 E4 F3 F3 F3 F4 F3 E3 E4 E4 E4 F4 F4 F4 F4 I440 I441 I442 I443 I444 I445 I446 I510 I512 I517 I520 I528 I530 I533 I541 I543 I544 I545 I548 I549 I550 I551 I552 I553 I554 I556 I557 I558 I563 I564 I565 I567 I568 I570 I571 I572 I573 I574 I575 I576 I577 I578 I610 I611 I615 I616 I620 I621 I622 I623 I624 I627 I631 I632 I634 I635 I705 I712 I713 I728 I729 I730 IA10 IA11 IA12 IA13 IA14 IA15 IA16 IA17 IA18 IA19 IA20 IA21 IA22 IA23 IA24 IA25 IA26 IA27 IA28 IA29 IA30 IA31 IA32 IA33 IA34 IA35 IA36 IA37 IA38 IA39 IA40 IA41 IA42 IA43 IA44 IA45 IA46 IA47 IA48 IA49 IA50 IA51 IA52 IA53 IA54 IA55 IA56 IA57 IA58 IA59 IA60 IA61 IA62 IA63 IA64 IA65 IA66 IA67 IA68 IA69 IA70 IA71 IA72 IA73 IA74 IA75 IA76 IC10 IC11 IC13 IC14 F4 F4 E4 E4 E4 E4 F4 E4 E1 E1 E1 D1 D1 E1 E2 D1 D1 E1 E1 E1 E1 D1 D1 E1 D1 A3 E1 D1 E2 F1 A3 A3 A3 A3 A3 A4 A4 A4 A2 A2 E1 D1 E3 F3 E1 E3 E3 E1 E3 E3 E1 E3 E1 E3 E2 E2 C8 B8 B8 B8 A5 A5 F8 D8 F7 F6 F7 F7 F7 D2 D1 F5 D2 D2 D2 F8 F7 D2 D2 F6 F6 F7 F5 C1 F7 D2 D2 F6 F6 F7 E6 F7 E6 E6 E6 F6 F6 F6 F7 F7 F5 F7 F7 F6 F8 F7 F5 F7 F6 F5 F8 F5 F6 F8 F7 F5 F5 F5 F5 F5 F5 A4 F5 F5 F5 F5 F5 F5 F5 C4 B4 B4 B4 IC15 IC16 IC17 IC18 IC19 IC20 IC21 IC22 IC23 IC24 IC25 IC26 IC27 IC28 IC29 IC30 IC31 IC32 IC33 IC35 IC36 ID01 ID05 ID06 ID07 IE10 IE11 IE12 IE13 IE14 IE15 IE16 IE17 IE18 IE19 IE20 IE21 IE22 IE23 IE24 IE25 IE26 IE27 IE28 IE29 IE30 IE31 IE32 IF01 IG10 IG11 IG12 IG13 IG14 IG15 IL25 IL30 IL32 IL33 IL34 IL35 IL37 IL38 IL39 IL40 IL41 IL42 IL43 IM01 IM02 IM03 IM04 IM07 IM08 IM09 IM10 IM12 IM13 IM14 IM15 IM27 IM35 IM36 IM37 IM38 IM39 IM40 IM41 IM42 IM43 IM44 IM45 IM46 IM47 IM48 IM49 IM50 IN10 IN11 IN12 IN13 IN14 IN15 IN16 IN17 IN18 IN19 IN20 IN21 IN22 IN23 IN24 IN25 IN26 IN27 IN28 IN29 IN30 IN31 IP01 IP02 IP04 IP05 IP06 IP07 IP08 IP09 IP10 IP11 IP12 IP14 IP15 IP16 B5 C4 B4 C4 B5 B5 B4 B4 C4 C4 B4 C6 C6 C4 C5 C5 C6 C4 C4 C4 C4 C5 B5 C6 C6 C2 C6 C6 C2 D6 C3 D5 C2 C1 C1 D2 D2 D2 D2 D3 D3 D3 D3 C3 D3 F3 D3 F3 D7 B7 B6 C7 B7 C6 C7 A4 A4 A4 A4 E8 E8 F8 A3 A3 A4 B3 A4 F8 B1 B1 B1 B1 C1 B1 B2 B2 A2 A1 A2 A2 A2 A1 A2 B1 C1 C1 B1 B1 C1 B2 B2 C2 A2 A1 A1 A1 A1 A3 B3 A3 A3 A3 A2 A3 B3 A2 B3 B3 A3 B3 B2 A3 A3 A3 A3 B3 B2 B2 B2 E7 E7 E8 E8 E8 E8 E8 E7 E8 E8 E7 D8 D8 E7 IP17 IP25 IP26 IP27 IP28 IP29 IP31 IP32 IP33 IP36 IP37 IP38 IP39 IP40 IP41 IP42 IP43 IP44 IP45 IP55 IP56 IP57 IP59 IQ01 IQ02 IQ03 IQ04 IQ05 IQ06 IQ07 IQ08 IQ09 IQ10 IQ11 IQ12 IQ16 IQ17 IQ23 IQ24 IQ25 IQ26 IQ27 IQ28 IQ29 IQ31 IQ32 IQ36 IQ37 IQ39 IQ40 IQ41 IQ42 IQ43 IQ44 IQ45 IQ55 IQ56 IQ57 IQ59 IR01 IR02 IR04 IR06 IR08 IR10 E8 E8 E7 E7 E8 E7 E8 E7 E8 E7 E8 E8 E7 E7 E8 E7 E7 E7 E7 E7 E8 E8 E7 E6 E6 E7 E7 E7 E7 D7 D7 D6 E7 E7 E6 E6 E7 D6 D6 E7 E6 E6 D6 D6 E6 E6 E6 E7 E6 E6 D7 E6 D6 D6 E6 E6 E7 D7 E6 A6 A6 A6 A6 A6 A7 Block Diagrams LC8.2HA LA 9. EN 45 SSB: Test Points (Part 1 Bottom Side) Part 1 I_17760_022a.eps 300708 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 46 SSB: Test Points (Part 2 Bottom Side) Part 2 I_17760_022b.eps 300708 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 47 SSB: Test Points (Part 3 Bottom Side) Part 3 I_17760_022c.eps 300708 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 48 SSB: Test Points (Part 4 Bottom Side) Part 4 I_17760_022d.eps 300708 2009-Apr-10 Block Diagrams LC8.2HA LA 9. EN 49 I2C IC Overview I²C B04C MICROPROCESSOR FPGA INTERFACE B04D B03 FPGA I/O BANKS B02 MICROPROCESSOR +3V3_STBY 5 6 5 10 11 3410 3411 3152 4 3151 IIC_SCL 5121 7 ERR 04 MICRO PROCESSOR AUDIO PROCESSOR - MICRONAS IIC_SDA 5120 6 2 3359 3 3355 3L76 27 IIC_SDA_up IIC_SCL_up 3L54 3 2 +3V3_STBY NVM_WC 7 7310 M29W800DT 7411 MSP4450L TUNER IF DEMODULATOR AUDIO PROCESSOR ERR 06 ERR 07 ERR 08 ERR 09 EPROM 6 2 7 IIC_SDA_SIDE IIC_SDA_SIDE IIC_SCL_SIDE IIC_SCL_SIDE 7700 EP2C5F256C7N 3E11 15 10 5 F4 H4 C3 F1 15 DCLK ASDO DATA0 1 6 5 2 7201 EPCS4SI8N ERR 10 SCD 7D02 EDD1216AJTA DRAM RES +3V3_FPGA H18 14 26 15 7C01 WX69-7569 7M07 SII9185ACTU VIDEO PROCESSOR HDMI SWITCH ERR 05 ERR 21 +5V_SW 27 33 7N01 SII9125CTU 34 HDMI MAIN ERR 11 5 6 VGA CONNECTOR N2 AMBI_SDA 3206 P3 AMBI_SCL 3205 DDC_SCLA 15 HDMI A BACK 6 7N40 M24C02 HDMI CONNECTOR 29 +5V_SW 1202 S_SDA 3 S_SCL 1 5 6 4 RES 1N03 16 28 EEPROM 256x8 5 DDC_SDAA EEPROM +3V3_FPGA ERR 14 SDA_VGA SCL_VGA 6 nCSO 7E01 M24C02 11 1 12 3E10 DC_5V 1E01 DRAM 3E71 ERR 17 FPGA INTERFACE H17 TO AMBI-LIGHT MODULE (RESERVED) 77 3M15 3M88 3 B04C 7D01 EDD1216AJTA 3M87 COMPAIR SERVICE CONNECTOR CYCLONE II FPGA AMBI-LIGHT 3E70 3204 2 3203 1E04 B04B 1 2 3 HDMI MAIN 19 18 H1 B07B HDMI SWITCH 3N42 PE B07A 3N43 VGA & PC AUDIO & COMPAIR & UART 7303 PCA9515ADP TRIDENT - WX69 3N39 MAIN_SCL B04A +3V3_SW 3N40 MAIN_SDA 3201 3M20 B06C 3202 3M21 1Mx8 512Kx16 3C09 A(0-19) 7113 TDA9886T/V4 NVM EEPROM 3C08 AD(0-7) 1101 UV1316E/ABH UV1356/ABHN 3361 100 7L23 M24C64 3362 SCL2 28 3353 SDA2 B05A TUNER IF & DEMODULATOR +3V3_SW 7302 PCA9515ADP 3360 7311 M30300SAGP 3L75 78 3M14 HDMI_MUX_TSDA HDMI_MUX_TSCL 7 ONLY FOR AMBILIGHT ONLY FOR AMBILIGHT DDC_SCL_SIDE 15 30 DDC_SDAC 1M03 16 31 DDC_SCLC 15 50 DDC_SDAB 1M02 16 51 DDC_SCLB 15 1 2 71 HDMI SIDE 1 2 19 18 1M01 16 19 18 HDMI C BACK 30 RXD0 7209 UPSD3333D 2 5 6 7214 M24C64 12 +5V5 1205 IR-IN_DATA_INSDA1 1 14 LEDIN_CLK_TXD_SCL1 2 15 7107 ST3232C 13 1 14 3120 2 RS232 RJ12 SERVICE CONNECTOR 9 POL SUB_D EEPROM 4Kx8 2009-Apr-10 EEPROM EEPROM EEPROM 6 6 7M17 M24C02 HDMI CONNECTOR 1111 3119 5 SCL1 6 9 3219 2 5 5 6 7M18 M24C02 5 7M16 M24C02 5 1 SDA1 7205 74HC4053PW 16 MDX 6 MCU 11 3203 HDMI B BACK 19 18 TXD0 1 2 29 3355 ERR 19 SCL_SSB 5 3L54 5 3M67 DDC_SDA_SIDE SDA_SSB 3275 ITV_I2C_SDA 1205 6 3274 9 3254 1508 6 3253 ITV_I2C_SDA 3264 XCIN 8 +5V_SW 3M68 IBOARD 3M73 HC02 3M62 IBOARD +3V3_STANDBY 70 XCOUT +5V_SW +5V_SW HC02 3M72 I/O - CINCH 1&2 3M63 B06B 3241 B03 18510_405_090408.eps 090410 Block Diagrams LC8.2HA LA 9. EN 50 Supply Lines Overview SUPPLY LINES OVERVIEW B01A A DC / DC +3V3 & +1V2 & +VTUN B01B B04E DC/DC - 5V &1V8 & 2V5 B08A LVDS CONNECTOR MJC MT8280 - LVDS +3V3_SW 12V SGND1 SGND1 BL-ON MAIN BL-DIM POWER SUPPLY BOOST SGND1 2 3 4 4 5 5 6 6 7 7 +12V_DISP 5Q02 7Q11 NCP5422 Dual 7Q06-2 Out-of-Phase Synchronous 2 Buck Controller B03 (CONTROL) BL_ADJUST_PWM B04A BL_BOOST 5R02 7R05 VDISP 15 1 BL_ON_OFF +12V_DISP B01a 7Q06-1 +5V_SW 5P09 B01a B02,B03,B04a, B05a,b,B06b,c, B07b +3V3_SW 7F03 5F01 B08C +12V_DISP 16 +0V9_VTT 5Q09 +2V6_SW 7Q09 +1V8_SW +8V IN OUT COM B4b MJC MT8280 - POWER +3V3_SW 7410 7Q07-2 +1V8_SW B01b AUDIO PROCESSOR - MICRONAS +12V_DISP B01A 8 MJC MT8280 - DDR IN UT COM 7Q07-1 B03 (CONTROL) B08B 1R01 41 +1V8_SW +3V3_SW B05A 8 +3V3_SW B01a B01a 2 3 +12V_DISP +12V_DISP 1P02 1 3Q20 12V CN7 1 +3V3_SW B01a +1V2_SW +1V2_SW B01a 15 +5V_SW B01b 7G04 +5V_SW 3402 B07a,b,B08b,c 7Q08 1V8 STAB. 5401 SUP_D 5402 SUP_A +1V IN OUT COM +1V8_SW +1V8_SW B01b PSON SGND1 SGND1 CN6 1 1P01 1 B02 +3V3_STBY 2 3 3 4 4 5 5 STANDBY B01b B04A 12V 12V 12VA SGND2 +5V_SW 3133 3141 5114 +5V_IF 5115 +5VS 5122 +3V3_SW 6 6 7 7 8 8 9 9 +12V_DISP B01a B01a,B02, B03,B04e,B05a AUDIO - CLASS D HC01 B01a 5A05 +5V_TUN 5A06 B01a 10 10 GNDSND 11 11 B03 -12V_AUDIO B02 7P14 +3V3_SW +3V3_STBY B01b 1320 8 3P20 TO 1110 HC01 iBOARD 5 Dual 7P06-2 Out-of-Phase Synchronous 2 Buck Controller 7P08 +2V5_SW 7P09 2V5 STAB. B02,B03, B04a,d,e,B06c, B07a,b,B08a,c +1V2_SW B01a B01a 5Q01 +1V2_SW B01a +1V2_SW B01b HC02 +5VA +5VA HC02 +5VB +5VB 1110 5 B04b B04b RES +12V_PBS SGND +1V2_ADC B01a 5C10 +1V2_PLL B01a CTRL_PBS TO 1209 HC02 3 IBOARD 32” 2 B01b B06C 1E01 3E07 6E04 5E01 9 +3V3_STBY +3V3_STBY +3V3_SW +5V_SW +3V3_SW +2V5_VDDMQ DDR_VREF DDR_VREF FPGA_BL_DIMMING FPGA_BL_DIMMING HDMI CONNECTOR DDR INTERFACE +2V6_SW +2V6_SW +2V5_VDDMQ SGND1 SGND1 B04a DDR_VREF CN5 1 B04a B04C B04d +24V +3V3_FPGA +3V3_FPGA TO AMBI-LIGHT UNIT B01a B07B 1M01 18 +5VHDMI_SIDE 5704 J +1V2_SW 5N08 +3V3SWD 5N09 +3V3SWE +2V5_SW 5N01 +1V8SWA 5701 +2V5out_FPGA 5N04 +1V8SWB 5702 +2V5_in-FPGA 5N05 +1V8SWC 5700 +3V3_FPGA +3V3_SW FPGA_BL_DIMMING RES FPGA_BL_BOOST FPGA_BL_BOOST RES B04a 5 +3V3STBY 8 +5V_SW AB09 +5V_SW +5V_SW B01b TO 1109 HC01 iBOARD +1V8_SW +1V8_SW +3V3_SW IR & LED PANEL 1P10 +3V3_SW +1V2-FPGA +2V5_SW HC01 +3V3SWA +3V3SWB +1V2-PLL HC01 HDMI MAIN +3V3_SW B01b FPGA_BL_DIMMING +5VHDMI_MUX_TPWR +3V3SWC 5704 +12VA +5VHDMI_C 5N07 5703 +12V 1211 +5VHDMI_B 5N03 +1V2_SW HC01 +5V_SW FPGA I/O BANKS B01a B01a +1V8_DIG-MUX 5N02 B04D B01a +1V8_ANA-MUX 5M03 3M18 1205 1 HC01 +3V3_ANA_MUX 5M02 1M02 HDMI CONNECTOR 18 (Optional) 1M03 HDMI 18 CONNECTOR FPGA INTERFACE 1206 1 +5VA +5VSSB 1209 1212 1 +1V8_SW +5V_SW B01b TO 1212 HC02 3 IBOARD 42” 4 5203 +3V3_SW +1V8_SW B01b +5VB 1A85 5M01 +2V5_VDDMQ 5202 HDMI SWITCH +3V3_SW B01a +5V_SW DC/DC CONVERTER +5VSSB HC01 TO CN5/CN8 PSU B07A +3V3_STANDBY +5V 7 DC_5V +3V3_STBY 5D03 2 HC02 7229 TPS60111PWP +5V_SW +3V3_STBY +3V3_SW 3D15 +12VB +12VB HC02 IBOARD +3V3_STANDBY HC01 +1V2_CORE +3V3_SW B04B CN8 1 +5VSSB HC02 B04a,d,B08c 15 +3V3_STANDBY 8 VGA & PC AUDIO & COMPAIR & UART +5V_SW B01b 5C09 5C11 16 7P07-2 TRIDENT - WX69 B04d 7P07-1 VSS +5V_SW VGA CONNECTOR 7P06-1 B04A +5VAUD +3V3_STBY +12V_DISP +3V3_SW 5P01 +3V3_SW 5113 +3V3_STBY +5V_SW B01b ONLY FOR ANALOG TUNER 1 7125 I/0 - CINCH 1 & 2 +3V3_STBY B01a +5V_SW +12V_DISP 15 +12VA +3V3_STBY +5V_SW B01a 7P11 NCP5422 +12V +12VA IN OUT COM +5V_SW B06B B01a +12V 5115 TO 1320 B03 SSB B01a +VTUN HC02 VSSA MICROPROCESSOR +3V3_SW B05b 6P03 +5V_SW B01b B05b 5P06 +3V3_STBY B01a HC02 IBOARD -12V_AUDIO 3A02 5A08 +12V_DISP VDDA VDD -12V_AUDIO B01a +VTUN +12V_DISP 3A01 5A07 +3V3_SW +VTUN +12V_AUDIO +12V_AUDIO B01a +12V_AUDIO 5P02 -12VA B05B +5V_SW 3134 SGND1 12V TUNER IF & DEMODULATOR B4a,B05b,B06c,b 2 5206 3.3VSB +5VHDMI_MUX_TPWR B07a HDMI CONNECTOR 1N03 18 +5VHDMI_MUX_TPWR +5VHDMI_A 18510_406_090408.eps 090410 2009-Apr-10 2009-Apr-10 4401 Q601 CT601 100:1 1/2 D606 100/0805 BAV103 R623 R204D 3.01K/1206 SB560 D204 R205D 3.01K/1206 C614 100u/50v R204C 3.01K/1206 D201 SB560 C208 470u/25V C210 0.1u 0.47u C609 CB-3.0-01 L203 C207 470u/25V 2K R504 C625 220P/1KV CB-3.0-01 L202 R506 1K C504 1Kp CY5 1.5KP/250V CB-3.0-01 L201 C953 0.1u C952 1Ku/10V CB-3.0-01 L951 1 C506 1u R509 5.11K PC601 PC123 IC951 APL431 1.25V IC501 APL431 2.5V R954 2k C951 1Ku/10V 1N5917B ZD951 C920 ZD908 P6KE300A A1 DISPLAY SUPPLY (37" & 42"): PART 1 C203 0.1u C955 0.1u R955 1.13K 0.47u C954 C202 220u/35V STPS10H100CFP CR201 R510 2K R952 2k PC901 PC123 10K R953 R201L 7.5k/1206 R503 3.83K 2 R201K 7.5k/1206 R511 C505 1K 1U C956 2.2u BYV26E D909 C921 0.047u/450V SB340 D950 C206 0.1u R502 1K 3.3B ZD602 1/2 C205 220u/35V 100 1 R201J 7.5k/1206 BAS316 D903 EGP10D D608 R512 BAS316 D607 5.1/1206 R916 R201I 7.5k/1206 R201H 7.5k/1206 R201G 7.5k/1206 BAV103 D906 3.5x6 FB902 Z3 TVR10511 EF12.6 T901 R203B 3.01K/1206 CR202 STPS10L60CFP R203A 3.01K/1206 C912 47u/63V ZD902 20A BAS316 D908 R201F 7.5k/1206 R201E 7.5k/1206 R201D 7.5k/1206 C914 0.1u 47P/1KV C916 Q905 FQPF3N80C R926 22 0.1u/275V CX2 Q906 2N7002 1K /1W R904 C211 0.1u D605 R202D 3.01K/1206 3 R202C 3.01K/1206 4 C906 100U/50V R905 5.1K R201C 7.5k/1206 R906 10K 1K R919 R201B 7.5k/1206 40.2K R915 1/2 PC902 PC123 4401 Q901 2/1W R903 R928 1 ZD901 10D R923 R201A 7.5k/1206 100 R205C 3.01K/1206 BAS316 D604 10K R924 1/2 PC901 PC123 ZD906 20A 4 R202B 3.01K/1206 BAS316 D603 C201 470u/35V R634 0.1 FUSIBLE 0.22u C901 R927 1.5K D904 BAS316 R801 100 R917 2K/0805 3 R922 40.2K 0.01U C905 4401 Q904 C918 220p IC901 R204B 3.01K/1206 Q603 2SK3569 ZD900 20A 1Kp MUR460 D805 R205B 3.01K/1206 100 R620 C917 220p ICE3AS02 R202A 3.01K/1206 100 R617 C904 MUR460 D803 C204 1Ku/16V R618 15 D911 1N4007 R204A 3.01K/1206 15 R621 C808 180u/450V 0.22u C903 C813 220P/1KV 220P/1KV C812 Q903 2N7002 C911 0.01u 402K R913 1u C910 F2 FL4 T1AL/250V HFV-CE5085 0.022u/630V C613 511 BAS316 D907 R901 C902 1 FUSIBLE 33u/450V 06J05 R902 R205A 3.01K/1206 C608 1u/0805 R7 D202 SB560 STTH1R06 BD2 S1NB80 200K/1W R605 R631 FB804 FB803 Q801 3.5X6 3.5X6 SPA15N60C3 D801 C626 220P/1KV R810 100 0.1U C907 22 R809 1N4007 D910 D203 SB560 IC601 BAS316 2K/0805 DDA 001B L800A PQ3220 18A R808 51.1K/0805 R624 750K/0805 R803 FB802 FB801 3.5X6 3.5X6 L800B PQ3220 10K R619 R812 51.1K/0805 BAS316 D802 R802 10K 22 R813 10. 10K R622 R816 0.056/3W NC P1606B IC801 R804 750K/0805 Q802 SPA15N60C3 R805 750K/0805 CR-18-LP3009 L801 51.1k DSP-210M GT2 R914 1M 4401 Q902 15 R626 P0102BL SCR211 2M/1206 BAS316 1M R910 D905 R912 R627 BD1 D15XB60 1u/450V C811 L Z2 TVR10511 1u/450V C810 OTC28 FL2 ZD905 7.5B R918 1M R615 121K R811 10K N C809 1u/450V 75/1206 R701 C607 0.1u C802 * R806 750K/0805 R814 10 DSP-210M GT1 R614 19.6K C801 0.1u R909 2M/1206 C606 0.47u 1M/1206 R822 1Kp C612 FL1 R613 3.01K CX1 0.33u/275V 1M R5 HFV- DP722 100 R630 CY3 470P/250V 1M R6 1u/0805 R612 1.5M C807 100p C803 0.47u CR-20-LP2048 R818 * R817 15K 470P/250V CY4 2M/1206 R908 LC8.2HA LA ZD601 1/2 C805 1.2kp C804 0.1u 4.7M R40 835-1A-B-C RL701 C605 2.2u R632 200 C806 1kp NTC1 NTC2 SCK201R0SCK201R0 C610 0.1u 8.06K R628 C703 C611 1Kp D602 BAS316 75/1206 75/1206 R704 R703 R611 15K 2K R629 Z1 TVR14681 T5AH/250V F1 CT601 100:1 18.7K R819 CY1 100P/250V BAV70 D716 C603 1KP R609 100 1M/1206 R821 C108 0.1U R102 1K CY2 100P/250V 4.7M R39 C602 1Kp R602 402K/1206 C107 0.1U R101 1K 1M/1206 R820 R604 402K/1206 402K/1206 R603 R633 PC601 1K 1/2 PC123 L802 R608 3.83K R616 10K C601 1KP PE 10 R601 CN1 R607 25.5K Circuit Diagrams and PWB Layouts EN 51 10. Circuit Diagrams and PWB Layouts Main Power Supply (42"): Part 1 A1 5.1/1206 1KP/1206 R950 C950 3.5X6 FB901 750 R951 4403 Q900 1/2 2 C502 0.047u 100 R815 T1 ER39L 3.5X6 FB201 2SK3569 Q602 3.5X6 FB202 3.5X6 FB203 T5A/125V F201 CB-3.0-01 L204 F200 T5A/125V H_16750_068.eps 260209 0.1u 0.1u C213 C214 0.1u 0.1u 2009-Apr-10 C217 3.01K BAS316 R736 D713 R711 3M LM324 IC703 D707 LL4148 1/4 D708 BAS316 2K R748 10K R739 511 R757 10K R731 C330 33p /6KV 10K R729 4.7M R730 0.47u C710 LM324 BAS316 IC703 D705 1/4 2.55K R733 2K R741 4.7M R732 0.1u C715 D314 BAV99 R221 10K R217 1K C327 33p/6kV R218 200 P0102BL SCR210 R219 10K 40.2 R320 C317 0.01u/1206 C315 0.47u/450V D317 D307 BAV99 BAS316 R344 60.4K C319 0.01u R341 1K R340 1K R327 27/2W R321 27/2W BAV99 D305 BAS316 D304 C311 330P/1KV R319 10K 0.1u/630V C316 * * 0.47u/450V C312 C310 330P/1KV R318 10K D312 R342 C958 1u R963 100K D211 D210 R216 BAS316BAS316 100 R964 5.11K 1/2 PC902 PC123 C957 1u R214 2K R220 1K R213 100/1206 R212 100/1206 D311 BAV99 C314 0.015u R326 10K 33p/6kV C333 C309 0.22u 22 R332 2K C302 1u BAS316 APL431 2.5V IC705 1/4 C326 220p 2 3.01K R749 0.1u R339 22 C329 22p /6KV 1 1K R750 1/4 C325 220p 1/4 BAS316 D212 4401/DIP Q702 LM324 IC703 2N7002 Q707 0.47u C714 20K R737 R343 22 BAV99 D313 C718 1Kp 10K R740 1/2 D306 1u C720 LM324 IC703 C713 0.1u 51.1K R743 2K R744 1/2 1K R215 R745 2K 0.1u T301 UU35 Q703 4401 1u C726 IC702 LM358 13C ZD210 2K R304 D703 BAS316 1/4 R742 2K LM324 IC701 0.015u C313 30.1K R333 CN3 R747 10K C219 10K R325 BAV99 D308 DDA 001A R746 10K CN7 R338 D309 C723 0.1u C218 D715 BAS316 BAS316 D717 STP11NM60 Q302 PC123 PC302 1/2 CN5_1 R720 30.1K R765 4.22K R710 1K C705 0.1U 10 R301 2K R738 0.1u STTH 1R06 100 R316 1u C725 C212 D709 BAS316 LM324 IC701 BAS316 D303 10K R728 CN6 22 R314 STP11NM60 Q301 2N7002 Q304 LM358 IC702 60.4K R753 17.4K R769 R308 5.11K C301 1KP R307 1.3K PC301 1/2 PC123 R329 R328 1M/1206 1M/1206 R337 2K R330 1M/1206 22 R313 2K/1206 R756 20K R726 13K R766 R336 20K 0.47u/0805 C308 100 R315 BAS316 D710 BAS316 D714 R721 200K BAS316 D711 C709 0.01u 20K R708 R709 100K 1/4 R712 20K R331 19.6K C306 2.2u R310 5.11K R311 1M C304 4.7u/0805 R309 20K C318 1KP C305 1KP R312 8.87K C307 1KP R323 30.1K R303 10K C303 0.1U R302 10K D310 BAS316 2K R735 1/4 0.1u C727 1/2 PC123 PC301 R718 4.02K LM324 IC701 R719 1K 34K R707 30.1K R717 1KP C708 D712 BAS316 C704 0.1u 2N7002 Q706 C711 0.01u C724 * R716 * R761 5.11K PC302 PC123 1/2 IC301 10. C716 1Kp CN5_2 R722 10K Q708 R723 * * R768 3.24K 10K R706 LC8.2HA LA R755100K IC701 LM324 887 R705 C321 1u ZD301 5.1A R334 750 1K R306 4403 Q303 0.1u C717 CN4 C707 0.1u BAS316 D702 R714 10K 0.022u C706 R715 6.49K BAS316 D701 R713 100K 0.47u C722 4.7kp C701 100K R702 R335 2K Circuit Diagrams and PWB Layouts EN 52 Main Power Supply (42"): Part 2 A2 DISPLAY SUPPLY (37" & 42"): PART 2 A2 0.1/FUSE RES R317 BAS316 D302 CN2 Q604 4403 LL4148 D704 10K R734 LL4148 D706 4403 Q701 C216 0.1u C215 H_16750_069.eps 260209 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 53 Layout Main Power Supply (42") (Top Side) H_16750_070.eps 110108 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 54 Layout Main Power Supply (42") (Bottom Side) H_16750_071.eps 110108 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 55 SSB: DC/DC +3V3, +1V2, & +VTUN B01A 2 3 4 5 7 6 8 9 10 11 12 DC/DC +3V3 & +1V2 & +VTUN B01A IP02 5P02 IP33 1P01 +12V_DISP 10u FP10 FP27 +3V3_STBY STANDB Y A 1 2 3 4 5 6 7 8 9 10 11 FP30 6P02 PDZ33-B 2P19 2P80 2P81 2P82 2P83 2P79 6P03 BAV99 100p 100n 100n 100n 100n 100n 100n 2P89 100u 16V 1% 1u0 470R 2P90 22n 2P91 NC 1% 3K9 E 680R 1% 3P78 3P77 470R REF NC TS431AILT 2 5 D 4 7P09 1K0 3Q53 2P48 +1V2_SW 2K2 3P50 3K3 3Q52 FP26 1K8 6K8 3Q74 100n 2P42 GNDDC1 3P69 100p 3Q34 IP43 2P84 1n0 1n0 1n0 1n0 2P85 2P86 2P87 2P88 3P76 6P17 BZX384-C4V7 1 3 1 RES 2P46 100u 16V 22u 2P61 180R 1% 3Q51 +3V3_SW 3K3 GNDDC1 RES FOR 5V TCON 100p GNDDC1 GNDDC1 4K7 2P49 RES IP44 3P41 3P72 3P53 3n3 2P43 3P45 6K8 K 2K2 8K2 1n0 3P68 A IP41 +12V_DISP IP59 IP12 IP32 470R 1% 3P52 2P20 1K0 3P38 10R RES 3P61 1n0 RES 2P52 5 6 3P34 1K8 F 100u 16V 2P33 7 8 3P13 12 11 IP39 GNDDC1 GNDDC1 GNDDC1 RES 2P53 1K0 +2 -2 IP17 IP31 C +2V5_SW 3P75 3P79 IS ROSC 7P07-2 SI4936BDY 4 5 6 FP24 100n 2 3P32 IP16 15 10u 2P54 +1 -1 2R2 IP40 3 COMP 5Q01 RES 13 L2 1 39K 100n 2P41 3P40 100n 2P40 IP55 GAT E 1735446-9 3 2 +1V2_SW 3n3 1K2 9 IP29 2 IP27 16 +3V3_SW IP36 2P37 IP26 3P74 8 IP28 H2 IP25 100n IP09 VFB GND 10 2 FP22 B 7P08 PHD38N02LT 3 IP08 L1 1 1 2P39 H1 GAT E 7 1 10R Φ BST 3P26 4 FP17 FP19 FP21 1 2 3 4 5 6 7 8 9 IP07 7P07-1 SI4936BDY 2 2R2 14 VCC FP23 FP16 1735446-8 100n 2P36 1n0 IP11 IP42 1K0 1% 3P51 1n0 RES 7P11 NCP5422ADR2G E 10R RES 3P25 3 7P06-2 SI4936BDY 2P38 +3V3_SW D RES 2P35 5 6 10R 4 1 2 3 4 5 6 7 8 BL_ADJUST_ANA IP57 IP04 GNDDC1 1P03 1P02 BL_ON_OFF BL_ADJUST_PWM BL_BOOST +3V3_SW 22u A 1-1735446-1 GNDSND FP20 1 IP10 3n3 3P23 C 5P01 3P37 6K8 1u0 2P31 IP01 1 2 22u RES 2P59 FP18 2P32 22u 35V 5P06 220u ONLY FOR ANALOG TUNER 3n3 2P34 7P06-1 SI4936BDY 2 6K8 10R 3P20 IP38 FP13 FP14 FP15 +12V_AUDIO GNDSND -12V_AUDIO 22u 22u RES 2P28 2P30 GNDTUN 7 8 22u RES 2P29 7P14 2N7002 1 GNDDC1 B FP12 +12V_DISP 3 6P16 100n IP14 2 2P07 IP05 IP06 BAS316 34V 1K0 1K0 68R FP11 IP15 3P15 3P49 IP37 6P15 3P48 6P13 BZX384-C4V7 BZX384-C18 68R IP56 6P14 BAS316 220R 1u0 3P47 7P05 BC817-25W 3P67 +VTUN 2P78 RES FOR ANALOG DIMMING 1 1P04 FP28 +12V_DISP IP45 GNDDC1 FP29 +5V_TCON GNDDC1 GNDDC1 GNDDC1 F 1 2 3 4 5 1735446-5 G G H H I_17760_001.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 12 1P01 A12 1P02 B11 1P03 B12 1P04 F11 2P07 B4 2P19 A9 2P20 B8 2P28 B5 2P29 B4 2P30 B5 2P31 C2 2P32 C4 2P33 C7 2P34 C8 2P35 C5 2P36 C7 2P37 D5 2P38 C4 2P39 E4 2P40 E2 2P41 E2 2P42 E4 2P43 D7 2P46 D8 2P48 F7 2P49 F2 2P52 D6 2P53 D6 2P54 E7 2P59 C8 2P61 D8 2P78 A4 2P79 B11 2P80 B11 2P81 B11 2P82 B11 2P83 B11 2P84 C11 2P85 C11 2P86 C11 2P87 C11 2P88 C11 2P89 D11 2P90 D11 2P91 D11 3P13 D4 3P15 B7 3P20 B3 3P23 C3 3P25 C5 3P26 D3 3P32 D4 3P34 D4 3P37 C7 3P38 D7 3P40 E2 3P41 E4 3P45 D7 3P47 A4 3P48 A4 3P49 B3 3P50 E7 3P51 D2 3P52 F2 3P53 F2 3P61 D6 3P67 A7 3P68 D5 3P69 E5 3P72 E4 3P74 E4 3P75 D10 3P76 D11 3P77 E11 3P78 E11 3P79 E10 3Q34 E4 3Q51 D7 3Q52 F7 3Q53 E7 3Q74 E4 4P16 B6 5P01 B7 5P02 A9 5P06 A7 5Q01 D7 6P02 A9 6P03 B8 6P13 A5 6P14 A4 6P15 B3 6P16 B6 6P17 D10 7P05 A3 7P06-1 B4 7P06-2 C4 7P07-1 C5 7P07-2 D5 7P08 C10 7P09 E11 7P11 D2 7P14 B7 FP10 A11 FP11 A9 FP12 A11 FP13 A11 FP14 B11 FP15 B11 FP16 B12 FP17 B12 FP18 B6 FP19 B12 FP20 B8 FP21 B12 FP22 C12 FP23 D2 FP24 D8 FP26 E5 FP27 A11 FP28 F10 FP29 F10 FP30 A11 IP01 C3 IP02 A8 IP04 C3 IP05 B4 IP06 B4 IP07 C7 IP08 D2 IP09 D2 IP10 C5 IP11 C5 IP12 D6 IP14 A7 IP15 A8 IP16 D4 IP17 D4 IP25 D3 IP26 D4 IP27 D4 IP28 D2 IP29 E2 IP31 D4 IP32 F3 IP33 A9 IP36 D6 IP37 B3 IP38 B3 IP39 E3 IP40 D4 IP41 D4 IP42 C5 IP43 E4 IP44 E7 IP45 F2 IP55 E2 IP56 A5 IP57 C7 IP59 D7 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 56 SSB: DC/DC +5V, +1V8, & +2V5 1 B01B 2 3 4 6 5 7 8 9 10 11 DC/DC - 5V & 1V8 & 2V5 12 B01B A A 2Q78 5Q02 1u0 3Q47 7Q05 BC817-25W BZX384-C18 3Q49 1K0 IQ37 6Q15 68R 3Q48 IQ05 6Q13 68R 2Q07 IQ06 +12V_DISP 10u IQ56 6Q14 BAS316 BAS316 100n IQ02 22u 22u RES 2Q28 B +2 -2 ROSC IQ17 IQ31 12 11 IQ41 3P70 3Q68 IQ12 3Q50 1K0 10K 2Q48 +2V6_SW 100u 16V RES 2Q59 22u 100u 16V 22u RES 2Q46 2Q61 3n3 680R 1% 470R 1% 1K8 3K3 GNDDC2 GNDDC2 7Q09 PHD38N02LT FQ06 100u 16V 2Q55 3Q77 7Q08 TS431AILT 1u0 2Q73 22n 4 NC 2 5 A REF NC 1 3 K RES 3Q79 1K0 G NC 2Q58 IQ23 +12V_DISP 3Q59 470R 1% GNDDC2 GNDDC2 GNDDC2 1% 1 6Q05 IQ45 3Q78 8K2 F +1V8_SW 3 2 IQ24 G 1K0 +2V6_SW BZX384-C4V7 100p 2K2 2Q49 E FQ35 3Q56 6K8 3Q71 100n 2Q42 GNDDC2 3Q69 3Q54 IQ43 100p 3Q70 GNDDC2 GNDDC2 3P54 3Q64 IQ59 1n0 +5V_SW 3K3 3Q72 3P56 D IQ44 IQ32 120R 1% +2V6_SW 3Q41 1K8 F FQ03 1 2Q43 6K8 3Q45 2Q53 SI4936BDY 6K8 2K2 IQ39 GNDDC2 GNDDC2 GNDDC2 2Q34 3Q37 6K8 RES 1n0 RES 2Q52 5 6 7Q07-2 4 5 6 10R RES 3Q13 10u 2R2 IQ40 3Q32 5Q09 100n IS IQ16 2 3n3 2Q54 2 15 IQ36 2Q37 3 +1 -1 IQ27 1K2 COMP 3Q61 10R 1 2R2 L2 1 39K 100n 2Q41 3Q40 100n 2Q40 IQ55 13 GATE IQ26 3P71 IQ29 2 IQ25 100n 9 H2 2 16 2Q39 8 IQ28 VFB GND 10 IQ09 1 1 IQ07 7Q07-1 SI4936BDY 2 3 IQ08 L1 C 100n 2Q36 IQ11 3Q38 1n0 3Q26 H1 GATE 7 E 14 VCC 470R 1% 3P64 D Φ BST +5V_SW 7 8 3 RES 2Q38 IQ42 4 FQ05 1 22u 1K0 RES 1n0 5 6 2Q35 10R 4 SI4936BDY FQ40 5P09 IQ57 +5V_SW 7Q11 NCP5422ADR2G 2 IQ10 3n3 7Q06-2 IQ04 GNDDC2 10R RES IQ03 3Q23 C 3Q25 2Q32 1u0 2Q31 IQ01 1 FQ08 3n3 7Q06-1 SI4936BDY 2 2Q33 10R 3Q20 7 8 22u RES 2Q29 B 2Q30 GNDDC2 NC H H I_17760_002.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 12 2Q07 B4 2Q28 B5 2Q29 B5 2Q30 B5 2Q31 C2 2Q32 C4 2Q33 C7 2Q34 C9 2Q35 C5 2Q36 C6 2Q37 D5 2Q38 C4 2Q39 E4 2Q40 E2 2Q41 E2 2Q42 E4 2Q43 D7 2Q46 D9 2Q48 F7 2Q49 F2 2Q52 D6 2Q53 D6 2Q54 E7 2Q55 F9 2Q58 G9 2Q59 C9 2Q61 D9 2Q73 G8 2Q78 A4 3P54 F2 3P56 F2 3P64 D2 3P70 D4 3P71 E4 3Q13 D4 3Q20 B3 3Q23 C3 3Q25 C5 3Q26 D4 3Q32 D4 3Q37 C6 3Q38 D6 3Q40 E2 3Q41 E4 3Q45 D7 3Q47 A4 3Q48 A4 3Q49 B3 3Q50 E7 3Q54 E7 3Q56 E8 3Q59 G9 3Q61 D6 3Q64 D8 3Q68 D5 3Q69 E5 3Q70 E4 3Q71 E4 3Q72 E4 3Q77 G9 3Q78 F8 3Q79 G8 5P09 B7 5Q02 A9 5Q09 D7 6Q05 F8 6Q13 A5 6Q14 A4 6Q15 B3 7Q05 A3 7Q06-1 B4 7Q06-2 C4 7Q07-1 C5 7Q07-2 D5 7Q08 G9 7Q09 F8 7Q11 D3 FQ03 D10 FQ05 B10 FQ06 F10 FQ08 B6 FQ35 E5 FQ40 D2 IQ01 C3 IQ02 B5 IQ03 C4 IQ04 C4 IQ05 B4 IQ06 B4 IQ07 C7 IQ08 D2 IQ09 D2 IQ10 C5 IQ11 C5 IQ12 D6 IQ16 D4 IQ17 D4 IQ23 F8 IQ24 G9 IQ25 D3 IQ26 D4 IQ27 D4 IQ28 D2 IQ29 E2 IQ31 D4 IQ32 F3 IQ36 D6 IQ37 B3 IQ39 E4 IQ40 D5 IQ41 D5 IQ42 C5 IQ43 E5 IQ44 E7 IQ45 F2 IQ55 E2 IQ56 A5 IQ57 C7 IQ59 D7 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 57 SSB: Tuner IF & Demodulator 1 B02 2 3 4 5 6 7 8 10 9 12 11 14 13 15 16 17 TUNER IF & DEMODULATOR B02 A A RES 3111 47R 33R PEND NEW 12NC FOR TD1316AF/BHPN-5 TUNER VV1316 2147 1 OUT 3 47R F101 IF_ATV I145 3 COM 4V9 3110 8K2 +5V_TUN 6110 2112 22u 5111 390n 5112 33R 4101 1 10 2 4102 3 8 3118 2K2 SAW_SW I141 3119 I120 IF_ATV I121 120R 4121 5121 E I123 120R 2K2 6103 1 2 4103 24 SIF2 SIF1 2V 23 SINGLE REFERENCE QSS MIXER INTERCARRIER MIXER AND AM-DEMODULATOR 21 17 AUD AUDIO PROCESSING DEEM AND SWITCHES 8 5 F130 2V1 I129 2136 470n 3126 6 +5VS I131 10n 2139 H +5V_SW F114 3133 100R RES IIC_SDA 3152 2141 100R RES I133 I135 22K 390p I113 3194 22K 3134 +5V_IF 2130 10n I150 5115 F131 I +5VS 10u 1R0 2131 22u 2132 22u 3140 150R 7134 BC847B FOR EUROPE ONLY 3141 I151 5122 F146 +5V_TUN +5V_SW 1R0 I136 SIF F129 10u +5V_SW 18K 3151 2140 I149 5114 1R0 5K6 I148 IIC_SCL G CVBS_RF 2137 I130 3127 3193 F 5u6 2129 22u 4 FMPLL 2V3 7 DGND * 3195 1n0 12 SIOMAD 10 SDA 11 SCL 3 OP1 NC 13 2145 J I144 I143 10n AFD F140 5116 RES 2144 2138 NARROW-BAND FM-PLL DEMODULATOR LATAM UV1336 M1971M Y 10n - 4124 I139 I2C-BUS TRANSCEIVER CHINA UV1356 K9352 K6274k Y Y 10n - AP UV1316E K7257M K9362 Y Y 10n - 7114 BC847B 1V5 I138 I128 2133 10n 2V1 +5VS 18 AGND 20 Vp I OUTPUT PORTS 22 OP2 SIF AGC 10n 2128 AFC CVBS MAD SUPPLY 15R 3135 1n0 2143 22p 470n 2127 15 0V REF SOUND TRAPS 4.5 to 6.5 Mhz VIF-PLL SIF1 AFC DETECTOR 15p 2V DIGITAL VCO CONTROL 2135 SIF2 RC VCO I104 15p VIF1 I142 VIF AGC EUROPE UV1316E K3953 K9656M Y Y 22K 22K 18K 150R BC847B 4101 4102 4103 4104 2144 3193 3194 3195 3140 7134 +5VS 4M0 I125 1n5 2134 VIF2 1 D +3V3_SW 3125 2 2V GND OFWK9656M 38M9 150R 2V VIF1 SIF1 SIF2 E RES 7132 BSH111 180R H VIF2 330R 2123 19I127 2126 220n 16 I126 TUNER AGC A125 A124 4122 1101 1102 1103 1105 VPLL G VAGC 9 14 TOP TAGC 22n 7113 TDA9886T/V4 2125 F128 5 4 +3V3_SW 1104 3123 I124 3124 100R RES 2124 7109 BC847B O1 O2 IIC_SCL RES 7131 BSH111 RES 3191 4K7 DEMODULATOR RF_AGC 3 I ISWI +5V_IF 2121 15p F C 3188 18K IIC_SDA +5V_IF RES 3190 4K7 22K 6 7 1103 I118 4104 D 4 5 O1 O2 NC I103 5120 B OFWK6274K 38M 1SS356 3117 +5V_IF 10n 2122 15p VIF1 VIF2 GND I114 2120 2118 22u A116 RES 5117 GND IN ISWI IGND 3113 6K8 F133 2142 10u 50V A115 5 4 1105 3115 39K +VTUN 2119 100n O1 O2 RES 5119 390n I102 3192 1K0 I IGND OFWK3953M 38M9 10n I111 BAS316 2149 2u2 2117 +5V_IF 7 8 9 10 11 5 6 IN 1102 1 2 +5V_IF 2 F134 +5V IF_OUT1 IF_AGC IF_OUT2 IF_OUT3 13 16 MT 12 F120 F121 F142 F143 DC_PWR RF_AGC CS SCL F117 F118 F119 F116 F115 1 2 3 4 C SDA XTAL_OUT TUNER TD1316AF/IHP-2 14 17MT 15 330n * 1101 F112 7133 L78M05CDT SAW FILTERS RF_AGC 5K6 3137 100n +12V_DISP I147 2148 B 5118 I146 3136 J 10u 2151 22u 2152 10n K K L L I_17760_003.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 8 9 2009-Apr-10 10 11 12 13 14 15 16 17 1101 B3 1102 B15 1103 D15 1104 F5 1105 C15 2112 C8 2117 B11 2118 D6 2119 D5 2120 D6 2121 E4 2122 D4 2123 F4 2124 F3 2125 F3 2126 F4 2127 F5 2128 G8 2129 I14 2130 I14 2131 I14 2132 I14 2133 H7 2134 H8 2135 H9 2136 H7 2137 I6 2138 I3 2139 I6 2140 J4 2141 J4 2142 D5 2143 F6 2144 I4 2145 I4 2147 B4 2148 B5 2149 C8 2151 J14 2152 J14 3110 B9 3111 B8 3113 C12 3115 C9 3117 D12 3118 D11 3119 D10 3123 F4 3124 F3 3125 H8 3126 H8 3127 I7 3133 H13 3134 I13 3135 G8 3136 B5 3137 B5 3140 J9 3141 J13 3151 J4 3152 J4 3188 D11 3190 E7 3191 E7 3192 C5 3193 I6 3194 J6 3195 J6 4101 C13 4102 C14 4103 D14 4104 D15 4121 D7 4122 E7 4124 H8 5111 B10 5112 C6 5114 H14 5115 I14 5116 H8 5117 B16 5118 B4 5119 B10 5120 D4 5121 E4 5122 J14 6103 D12 6110 B8 7109 D11 7113 G3 7114 G8 7131 E7 7132 E7 7133 B5 7134 J7 A115 B16 A116 B16 A124 D16 A125 D16 F101 B11 F112 C2 F114 H13 F115 C3 F116 C3 F117 C3 F118 C3 F119 C3 F120 C4 F121 C4 F128 F3 F129 H15 F130 G7 F131 I15 F133 C6 F134 B4 F140 H9 F142 C4 F143 C4 F146 J14 I102 C14 I103 D15 I104 G8 I111 B8 I113 J6 I114 C12 I118 D14 I120 D10 I121 D6 I123 E6 I124 F4 I125 F5 I126 G3 I127 G4 I128 H7 I129 H7 I130 I7 I131 I6 I133 J5 I135 J5 I136 J5 I137 C5 I138 H8 I139 H8 I141 D10 I142 G6 I143 I4 I144 I4 I145 B5 I146 B4 I147 B5 I148 I8 I149 H14 I150 I14 I151 J14 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 58 SSB: Micro Processor 5 6 11 12 13 14 15 5302 43 42 I384 I306 I337 47K 100R 4K7 I329 41 NC 40 39 38 37 10K 3399 1K0 3306 10K 3347 37 27 46 +3V3_STBY +3V3_STBY RES SDM 4301 3L79 2K2 2K2 3L76 3L75 10K +3V3_STBY +3V3_STBY +3V3_STBY +3V3_STBY +3V3_STBY +3V3_SW 3K3 3K3 4K7 3L01 RES PANEL 4313 3K3 3K3 10K +3V3_SW 100K 10K 680R 3310 +3V3_SW 3330 3L96 RES 10K 10K 3349 +3V3_SW +3V3_STBY +3V3_SW 30R 2341 100n +3V3_SW 7302 PCA9515A VCC IIC_SDA_up SDA0 SDA1 2 SCL0 SCL1 5 EN 3 4K7 ITV_I2C_SCL ITV_I2C_SDA 33p 5306 I360 33p 6 IIC_SDA_up F356 33p IIC_SCL_up F350 33p IIC_SCL_up +3V3_SW 30R I351 24 I319 23 I354 3L58 100R 22 I320 3L55 10K 21 I359 36 I321 3L61 100R 35 I336 3L63 100R I322 3L53 I323 3354 100R 100R 3L02 100R 3L56 F305 SAW_SW IL33 RES 3301 I356 100R 7303 PCA9515A VCC 2347 100n FPGA_BL_BOOST NC 3 SDA0 SDA1 6 2 SCL0 SCL1 7 5 EN NC GND 1 I363 IIC_SCL F I369 IIC_SDA_SIDE I370 IIC_SCL_SIDE G NC 4 100R IIC_SDA NC+3V3_SW 5307 I347 HPD_RST_A 26 25 NC GND NC 7 1 3K3 3L62 100R 2343 RES 100R 2344 RES I361 RES 4306 RES 4307 I366 27 3382 3K3 I367 28 34 33 F303 I349 I350 30 29 3L23 3L24 +3V3_SW 4317 4318 UART_0R X UART_0T X UART_1RX UART_1TX MT8280_EN UART_1R X UART_1TX 100R 100R 94 INTO PRST PWN 4326 4325 +3V3_STBY +3V3_STBY +3V3_STBY MJCMT8280 B5 P +3V3_STBY F309 I324 31 0V6 H HP_DETECT +3V3_SW +3V3_STBY I339 32 RES 4304 RES 4305 HDMI_MUX_RST AVSS 12 62 UART_0RX UART_0TX BOLT_ON_UART_TXD BOLT_ON_UART_RXD 7L23 8 M24C64-WMN6 I318 1 2 3 Φ (8Kx8) EEPROM 0 1 2 I F363 7 3V3 F364 3355 6 SCL F365 100R ADR 5 SDA 3L54 4 100R F345 NVM_WC WC IIC_SCL_up I372 IIC_SDA_up RES 4303 LED2 REMOTE I376 IL43 2332 1n0 IL35 K 4309 1n0 LIGHT_SENSOR 2337 2334 J LED1 I374 1n0 47R 1R0 3L10 3391 1n0 47R 220R 47R 47R RES 2339 TO / FROM IR/ LED & KEYBOARD 3389 5304 3390 3394 IL34 9 10 13 14 +3V3_STBY 2335 1n0 EMC 2336 1n0 1n0 1n0 2333 RES 2340 1n0 1n0 1n0 1n0 2328 EMC 2329 EMC 2330 EMC 2331 6319 RES BZX384-C6V8 1313 RES BZX384-C6V8 1310 6312 6311 RES BZX384-C6V8 1309 1308 6310 RES BZX384-C6V8 I375 EMC 2327 10n 4310 BZX384-C6V8 RES 6308 F357 1306 RES 6313 BZX384-C6V8 1312 EMC 2342 10n F360 RES 6309 BZX384-C6V8 3397 3L67 3388 TACT_SWITCH_IN T 3V2 KEYB F382 I373 F383 F384 1307 I396 I397 I398 15 9 8 REMOTE SVPWX_INT DTV_IRQ I358 100R +3V3_STBY 2346 47K 100R RES 100R 2345 RES 3353 3L73 3386 3L95 I368 4K7 VSS K RES CTS0 RTS0 CLK0 SCL1 RXD0 TXD0 SDA0 CTS0 CTS1 RTS1 CLKS1 CLK1 SCL1 RXD1 TXD1 SDA1 P6<0:7> P5<0:7> BM09B-SRSS-TBT 100R 47R 3L18 C P7<0:7> WRL WR WRH BHE RD BCLK HLDA HOLD ALE RDY CLKOUT I F388 3332 3348 2320 NC 22R 3L94 3384 +5V_SW I316 I344 100n 44 A(0) +3V3_SW 10K 3V3 F337 B +3V3_STBY RES 3L14 I365 AD(0) AD(1) AD(2) AD(3) AD(4) AD(5) AD(6) AD(7) D 4316 22R 3L71 +3V3_STBY 9 8 7 6 5 4 3 2 1 +3V3_SW TA3IN P4<0:7> 1320 18 17 16 1K0 F387 CS 16 17 ADDR 18 19 0 1 CS 2 3 NC F312 F314 F316 F318 F320 F322 F325 F327 E RES 4 I302 I303 52 51 50 49 48 47 46 45 8M-1 RB RP WE OE CE BYTE 3362 ADDR 0 A 29 31 33 35 38 40 42 44 30 32 34 36 39 41 43 45 STANDBYn STANDBY DDC_RST 3L22 2 +3V3_STBY 15 12 11 28 26 47 0 1 2 3 4 5 6 7 D 8 9 10 11 12 13 14 15 A-1 NVM_WC LCD_PWR_ON 10K 100R 1K0 8 100n 2323 A(16) A(17) A(18) A(19) 1 +3V3_STBY 3346 3L21 8 9 10 11 12 13 14 15 4 is prohibited without the written consent of the copyright owner. 61 59 58 57 56 55 54 53 P3<0:7> 7 I345 I342 100p 6 ALE_EMU 19 2349 3 RD F340 F341 F366 F367 F369 AD(0:7) I341 20 RES 8 5 WR WR RD CE 4 P2<0:7> A(8) A(9) A(10) A(11) A(12) A(13) A(14) A(15) +3V3_STBY 7323-2 NL27WZ08USG 7323-1 NL27WZ08USG 3350 3350 TA0OU T TXD2 SDA2 TB5IN TA0IN RXD2 SCL2 TA1OU T V CLK2 V TA1IN V CTS2 RTS2 TA2OU T W TA2IN W TA3OU T AN2<0:7> IL25 CPU_RST 8 D<0:7> A(8:19) 3L15 +3V3_SW 3333 RES +3V3_STBY +3V3_STBY 98 P8<0:7> A<0:7> 330R 100n 100n 97 TA4OU T U TA4IN U 0 INT 1 2 ZP NMI XCOUT XCIN 1K0 RES 7322 PDTC114ET I362 IL39 1K0 BZX384-C8V2 RES 4323 CE 100R 100R 3380 3387 P9<0:7> ADDR A EPROM 1Mx8/512Kx16 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 4K7 0 1 2 3 4 5 6 7 I364 I315 10K LED1 KEYB LIGHT_SENSOR SC1_STATUS SC2_STATUS HDMI_HOTPLUG_RST AUD_RST LED2 HDMI_RX_BUF_RST +3V3_SW SVPWX_RST 25 24 23 22 21 20 19 18 8 7 6 5 4 3 2 1 48 17 16 D<0:7> TACT_SWITCH_IN T G 2310 60R DATA I390 99 RES 3396 FOR PDP 2K2 +3V3_STBY 5 4 3 2 1 100 RES 1K5 3358 100p 1K5 220n 3395 2338 3L04 IL41 6318 RES 3356 IL30 RES I393 0V8 70 69 68 67 66 65 64 63 100R 100R 1u0 I340 3L20 15K +12V_DISP 7308 BC847BW CLK3 SIN3 SOUT3 DA0 DA1 CLK4 ANEX0 SOUT4 ANEX1 SIN4 ADTRG INT<3:5> A(0) A(1) A(2) A(3) A(4) A(5) A(6) A(7) I380 7317 BC847BW 2313 8 9 10 11 12 13 14 15 A(0:7) +3V3_SW 3393 RES 6317 BZX384-C3V3 78 77 76 75 74 73 72 71 3329 3L59 2324 RES 3307 +3V3_SW +5V_SW BL_BOOST TBIN<0:4> P1<0:7> POWER_DOWN F I352 I331 I333 I335 I338 F385 I301 F361 3305 10K +3V3_STBY 1 100R 100R 100R 100R 4K7 100R 100R 100R I326 I357 1K0 4K7 IL38 F302 2348 +3V3_STBY BSH111 22K KI<0:3> AN0<0:7> 3L57 3338 3339 3340 3341 3302 3L17 3331 I327 I328 3L86 14 60 1K2 2 7301 P10<0:7> DATA F386 IL42 2 3L16 3L93 IL37 1K0 3300 E 0 1 2 3 4 5 6 7 P0<0:7> I353 I330 I332 3 86 85 84 83 82 81 80 79 27K 3308 D VREF 1 IL32 RES F310 F311 F313 F315 F317 F319 F321 F324 F326 F328 F329 F331 F332 F333 F334 F335 F336 F338 F339 3359 2318 AD(0) AD(1) AD(2) AD(3) AD(4) AD(5) AD(6) AD(7) AD(0:7) +3V3_STBY MUTEn CTRL_DISP1_up CTRL_DISP4_up BL_ON_OFF ANTI_PLOP CEC_INT RESET 330R 100R 330R 100R 100R 100R 100R 330R 100R 3 A(1) A(2) A(3) A(4) A(5) A(8:19) A(6) A(7) A(8) A(9) A(10) A(11) A(12) A(13) A(14) A(15) A(16) A(17) A(18) A(19) 100R RES 3326 3336 100R 100n RES2319 8 10 3313 3315 3317 3320 3322 3303 3L05 3324 3357 I311 I307 I308 I309 I310 I313 F362 95 93 92 91 90 89 88 87 7310 M29W800DT-70N 6 4K7 F381 +3V3_STBY SUB GND 0 1 2 3 AN 4 5 6 7 CNVSS 7314 BC847BW 3L98 7 DC_PROT 100K A(1:7) 4K7 I387 OUT BYTE 3L64 RES FOR BDS RES 3L12 3352 RES FOR BDS RES 3L13 3351 6 IL40 3398 3L72 47K 3L97 CNVSS 3318 F380 RES 3321 XTAL 11 1V5 I312 F323 1301 10M 100R 1K0 10K 2317 100n 1V5 10K 3L19 4 3V3 15p IN 96 3 3316 13 B03 2311 10u 7L10 BC847BW Φ AVCC VCC 100n VOUT 2 10K 3325 Φ ER 10K 6301 VDD F330 1 +3V3_STBY +3V3_STBY +3V3_STBY 5301 15p 2316 3314 +3V3_STBY 3319 100n BAS316 2315 7312 BD45275G 5 C 100n 2312 2314 7311 M30300SAGP 16 F368 60R +3V3_STBY All rights reserved. Reproduction in whole or in parts 10 +3V3_STBY CPU_RST J 9 8 +3V3_SW B H 7 3360 4 MICROPROCESSOR B03 A 3 3361 2 10K 1 L L I_17760_004.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 8 9 2009-Apr-10 10 11 12 13 14 15 16 1301 C4 1306 J3 1307 K1 1308 K1 1309 K2 1310 K2 1312 J2 1313 K3 1320 J1 2310 B5 2311 A15 2312 B5 2313 B5 2314 C3 2315 C2 2316 C3 2317 C2 2318 D3 2319 C13 2320 I14 2323 G2 2324 B10 2327 J4 2328 K3 2329 K3 2330 K4 2331 K4 2332 K5 2333 K4 2334 K4 2335 K5 2336 K5 2337 K5 2338 F2 2339 K5 2340 K4 2341 F13 2342 J3 2343 F7 2344 F7 2345 F7 2346 F7 2347 G13 2348 I9 2349 I10 3300 D3 3301 G10 3302 E3 3303 C7 3305 E3 3306 B10 3307 B10 3308 D2 3310 C8 3313 C7 3314 C3 3315 C7 3316 C3 3317 C7 3318 C3 3319 C2 3320 C7 3321 C3 3322 C7 3324 C7 3325 D1 3326 C13 3329 D7 3330 C7 3331 E3 3332 E7 3333 E12 3336 C13 3338 E3 3339 E3 3340 E3 3341 E3 3346 E7 3347 C9 3348 E7 3349 C7 3350 C6 3351 C8 3352 C8 3353 I15 3354 H7 3355 I15 3356 D11 3357 D7 3358 D10 3359 F15 3360 F15 3361 G15 3362 G15 3380 E7 3382 F7 3384 H3 3386 I3 3387 E7 3388 F6 3389 J4 3390 J4 3391 J4 3393 F2 3394 J4 3395 F2 3396 D11 3397 F6 3398 B10 3399 A9 3L01 C8 3L02 H7 3L04 F3 3L05 C7 3L10 J5 3L12 C8 3L13 C8 3L14 I13 3L15 G2 3L16 B1 0 3L17 E3 3L18 F7 3L19 I9 3L20 I9 3L21 I10 3L22 I10 3L23 I7 3L24 I7 3L53 H7 3L54 I15 3L55 G7 3L56 G7 3L57 E3 3L58 G7 3L59 D7 3L61 H7 3L62 F7 3L63 H7 3L64 B8 3L67 F6 3L71 H3 3L72 B1 0 3L73 I3 3L75 C9 3L76 C9 3L79 B9 3L86 E1 3L93 B1 0 3L94 I4 3L95 I3 3L96 C7 3L97 E10 3L98 E10 4301 B9 4303 J5 4304 H14 4305 H14 4306 G15 4307 G15 4309 K5 4310 K4 4313 C8 4316 J13 4317 H11 4318 I11 4323 G2 4325 I12 4326 I12 5301 B5 5302 A14 5304 J4 5306 E14 5307 G13 6301 C2 6308 J4 6309 K1 6310 K2 6311 K2 6312 K2 6313 J2 6317 E1 6318 F3 6319 K3 7301 E1 7302 F14 7303 G14 7308 F2 7310 B15 7311 C5 7312 C1 7314 B9 7317 F1 7322 D10 7323-1 H2 7323-2 G2 7L10 A1 0 7L23 I14 F302 C7 F303 H8 F305 G8 F309 H8 F310 B14 F311 B14 F312 B16 F313 B14 F314 B16 F315 B14 F316 B16 F317 B14 F318 B16 F319 B14 F320 B16 F321 B14 F322 B16 F323 C7 F324 B14 F325 B16 F326 B14 F327 B16 F328 C14 F329 C14 F330 C1 F331 C14 F332 C14 F333 C14 F334 C14 F335 C14 F336 C14 F337 C16 F338 C14 F339 C14 F340 C14 F341 C14 F345 J14 F350 F11 F356 F11 F357 J3 F360 J1 F361 E4 F362 C6 F363 I14 F364 I14 F365 I14 F366 C14 F367 C14 F368 A15 F369 D14 F380 C3 F381 C4 F382 J3 F383 J3 F384 J3 F385 E4 F386 D6 F387 H4 F388 J2 I301 E4 I302 H4 I303 H4 I306 I4 I307 C6 I308 C6 I309 C6 I310 C6 I311 C6 I312 C4 I313 C6 I315 E6 I316 E6 I318 I13 I319 G6 I320 G6 I321 H6 I322 H6 I323 H6 I324 I6 I326 D6 I327 E2 I328 E2 I329 H4 I330 E2 I331 E4 I332 E2 I333 E4 I335 E4 I336 H6 I337 I4 I338 E4 I339 H6 I340 D7 I341 E6 I342 E6 I344 E6 I345 I2 I347 G13 I349 I11 I350 I11 I351 G6 I352 D4 I353 D2 I354 G6 I356 G11 I357 D6 I358 E11 I359 H6 I360 E13 I361 F15 I362 D8 I363 F15 I364 D6 I365 H4 I366 F6 I367 F6 I368 H4 I369 G15 I370 G15 I372 I15 I373 J3 I374 J5 I375 J3 I376 J5 I380 F2 I384 I4 I387 C4 I390 D6 I393 F2 I396 F6 I397 F6 I398 F6 IL25 G2 IL30 D7 IL32 B1 0 IL33 G8 IL34 K4 IL35 K5 IL37 C8 IL38 C7 IL39 E8 IL40 B1 0 IL41 F3 IL42 C6 IL43 J5 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 59 SSB: Trident WX69 4K7 3C41 IIC_SDA_SIDE IIC_SCL_SIDE CS 4K7 100R 100R 22R IXXX IXXX IXXX IC16 F 14 3C29 RES 3C08 3C09 3C10 CVBS_RF HD_Y_IN +5V_SW 14 7 7C03-2 74LCX14T 4 3C34 2C33 100n 6 5 C 7C03-5 74LCX14T SC1_R_IN 9 8 3C37 7C03-6 74LCX14T 11 10 14 7C03-4 74LCX14T SC1_G_IN RES 3C36 22R 22R 14 3C33 VGA_V 14 7 7C03-3 74LCX14T SC1_FBL_IN 13 12 7 7 22R PC_VGA_H PC_VGA_V VGA_R_IN VGA_G_IN VGA_B_IN D +3V3_STBY +3V3_SW SVPWX_INT SVPWX_RST RES 3C24 RES BL_ADJUST_ANA 100R RES IC01 10K IC02 IXXX 3C07 100R E 3C23 220R 3C22 4K7 7C04 BC847BW FPGA_BL_DIMMING IXXX 3C25 B PC_VGA_V 3 SC2_C_IN CVBS_IN_DTV IC17 PC_VGA_H 22R SVHS_Y_CVBS_IN SC1_RF_OUT_CVBS SC2_CVBS_MON_OUT SVHS_C_IN HD_PB_IN SC1_B_IN SC1_CVBS_IN HD_PR_IN 1K0 A 22R SC2_Y_CVBS_IN 3C20 3C30 14 7 A(0:7) B04A 7 AD(0:7) 2C81 2n7 2C82 2n7 3C04-1 1 8100R 7100R 3C04-2 2 6100R 3C04-3 3 5100R 3C04-4 4 8100R 3C05-1 1 7100R 3C05-2 2 6100R 3C05-3 3 4 5100R 3C05-4 8100R 3C06-1 1 7100R 3C06-2 2 6100R 3C06-3 3 5100R 3C06-4 4 5100R 3C03-4 4 6100R 3C03-3 3 7100R 3C03-2 2 8100R 3C03-1 1 2 1 22R W1 Y4 2C03 100n XTALI CVBS1 Y1 V6 2C04 100n XTALO Y_G1 U2 W6 2C05 100n MLF1 Y_G2 R4 PLF2 Y_G3 Y6 2C06 100n L17 W2 AD0CVBS_OUT1 L18 V2 AD1CVBS_OUT2 L19 V9 2C07 100n C W9 2C08 100n L20 AD2 AD3 PB_B1 K17 Y9 2C09 100n AD4 PB_B2 K18 Y10 2C10 100n PB_B3 Y8 K19 AD5 2C11 100n AD6 PR_R1 K20 W8 2C12 100n AD7 PR_R2 N17 V8 2C13 100n ADDR0 PR_R3 N18 ADDR1 100n FS1 V4 C? N19 W4 2C15 100n ADDR2 FS2 N20 Y5 ADDR3 FB1 M20 U4 ADDR4 NC FB2 V10 M19 ADDR5 AIN_H U10 M18 ADDR6 AIN_V 100n M17 U8 2C17 ADDR7 PC_R J18 ALE 100n PC_G Y7 2C18 100n J19 W10 2C19 WR_ PC_B J20 F17 3C19 470R RD_TESTMODE H17 F16 V5SF G17 H18 SDA SCL PWM0 G18 J17 CPU_CS INTN F18 4C07 RESET 20 RES 3C31 4K7 TxFPGAe_0p TxFPGAe_0n TxFPGAe_1p TxFPGAe_1n TxFPGAe_2p TxFPGAe_2n TxFPGAe_3p TxFPGAe_3n TxFPGAe_4p TxFPGAe_4n TxFPGAe_CLKn TxFPGAe_CLKp TxFPGAo_CLKn TxFPGAo_CLKp TxFPGAo_4n TxFPGAo_4p TxFPGAo_3n TxFPGAo_3p TxFPGAo_2n TxFPGAo_2p TxFPGAo_0n TxFPGAo_0p TxFPGAo_1n TxFPGAo_1p WX_PAVDD 1 WX_PAVDD 2 AD(0) AD(1) AD(2) AD(3) AD(4) AD(5) AD(6) AD(7) A(0) A(1) A(2) A(3) A(4) A(5) A(6) A(7) ALE_EMU WR RD 19 +3V3_SW 7C03-1 74LCX14T 7C01-1 SVP WX68 3C02 33R 18 +5V_SW 4K7 RES 3C44 4K7 3C40 4K7 4K7 IC15 3C43 4K7 +3V3_SW IC14 RES RES 3C42 3C39 E 2C24 100n 2C25 100n +3V3_SW +3V3_SW A14 B14 A15 B15 A16 B16 A18 B18 A19 B19 B17 A17 F19 E20 H19 G20 G19 F20 E19 D20 B20 A20 D19 C20 18p 33p 100n FC03 WX_REGVCC 2C28 100n 33R WX_AVCC 2C02 17 16 0(LOW) Use Falling Edges of WR#&RD# to latch Address(*) Use Falling Edge of WR# to latch dat a I2C Slave Address=0x7C/7 D 2V05 RES 5C08 2C29 10u 6.3V D +3V3_SW FC02 2C26 100n 33R C L4 IC07M5 PVCC ANTSTO M4 AVCC1 N4 AVCC2 TA1P N5 AVCC3 TA1M WX_AVCC P4 AVCC4 TB1P L2 TB1M NC L1 RXCRXC+ TC1P NC L3 TC1M TMDS_GND1 M3 TD1P N3 TMDS_GND2 TD1M TMDS_GND3 P3 TE1P TMDS_GND4 R1 TMDS_GND5 TE1M M2 RX0- TCLK1M M1 RX0+ TCLK1P N2 RX1- TCLK2M NC N1 P2 RX1+ TCLK2P RX2TE2M P1 RX2+ TE2P WX_REGVCC R5 REGVCC TD2M P5 DGND TD2P T10 NC PWR5V TC2M T11 TC2P DSCL NC U11 TA2M NC U12 DSDA TA2P WS V11 SCDT TB2M NC V12 SD0 TB2P W11 AUDIOCLK NC W12 SPDIF NC Y11 SCK 33p 5C07 2C27 10u 6.3V +3V3_SW 2C22 2C23 10u 6.3V 33R WX_PVCC WX_PVCC 15 VGA_H RES 2V04 FC01 TO FPGA / TO LVDS CONNECTOR +3V3_SW 5C06 14 RES 7C01-3 SVP WX68 B 13 18p 3C01 2C01 1(HIGH) Use ALE to latch Address Use Rising Edge of WR# to latch data(*) I2C Slave Address=0x7E/7F(*) 12 11 3C32 Pin No U12 V12 Y11 10 2C30 100n 2C20 100n Pin Name WS SD0 SCK 9 2C21 100n TRIDENT - WX69 B04A 8 7 24M0 6 5 1M0 A 4 3 2 1C24 1 2C74 22u 7C02 BC847BW F RES 2C73 10u RES +1V2_SW 4C08 FC04 5C11 100n 100n 100n 2C40 2C37 100n 2C39 100n 2C41 H 2C42 22u 6.3V +1V2_PLL 2C38 2C36 FC05 33R BL_ADJUST_PWM G 100n 5C10 2C35 33R 22u 6.3V G 2C34 +1V2_ADC 3V04 100R +3V3_SW 10u 6.3V 5C09 Pin Name DP_HS Pin No P19 1(HIGH) MPU in A/D Multiplix Mode H 0(LOW) MPU in A/D Separate Mode(*) FC06 +1V2_CORE 100n WX_AVDDLLPLL WX_PAVDD 2 WX_AVSS_OUTBUF 2C95 2C97 2C99 10u 6.3V 100n 10u 6.3V 100n 2C60 2C62 2C64 WX_AVSS_ADC4 33R 33R +1V2_ADC 5C22 WX_AVDD_ADC4 WX_LVDS_VSS 33R +1V2_ADC 5C21 10u 6.3V WX_AVSS_ADC3 +1V2_ADC 5C19 IC05 WX_AVDD_ADC3 WX_AVSS_BG_ASS WX_PAVSS1 WX_PAVSS2 WX_AVSS_ADC1 WX_AVSS_ADC2 WX_AVSS_ADC3 WX_AVSS_ADC4 22R +1V2_ADC 5C20 WX_AVDD_ADC2 WX_AVSS_ADC2 22R 3C48 IC04 WX_AVDD_ADC1 WX_AVSS_ADC1 100n 2C96 WX_PAVSS2 IXXX WX_CS0# WX_WE# WX_CAS# WX_RAS# WX_MD31 WX_MD30 WX_MD29 WX_MD28 WX_MD27 WX_MD26 WX_MD25 WX_MD24 WX_MD23 WX_MD22 WX_MD21 WX_MD20 WX_MD19 WX_MD18 WX_MD17 WX_MD16 WX_MD15 WX_MD14 WX_MD13 WX_MD12 WX_MD11 WX_MD10 WX_MD9 WX_MD8 WX_MD7 WX_MD6 WX_MD5 WX_MD4 WX_MD3 WX_MD2 WX_MD1 WX_MD0 WX_MA11 WX_MA10 WX_MA9 WX_MA8 WX_MA7 WX_MA6 WX_MA5 WX_MA4 WX_MA3 WX_MA2 WX_MA1 WX_MA0 3C46 10u 6.3V 100n 2C94 WX_PAVSS1 IXXX 10u 6.3V WX_PAVDD 1 33R WX_AVSSAPLL WX_AVSSLLPLL IC10 IC11 IC12 IC13 I VS P17 HS P19 DPB_HS V19 DPB_VS V20 DPA_HS DPA_VS Y19 Y20 DPB_DE W20 DPA_CLK Y15 DPB_CLK T19 DPA23 Y12 DPA22 U13 DPA21 DPA20 V13 W13 DPA19 Y13 DPA18 Y14 DPA17 W14 DPA16 V14 DPA15 U14 DPA14 DPA13 U15 V15 DPA12 W15 DPA11 Y16 DPA10 W16 DPA9 V16 DPA8 U16 DPA7 DPA6 U17 V17 DPA5 W17 DPA4 DPA3 Y17 Y18 DPA2 W18 DPA1 V18 DPA0 W19 DPB15 U18 DPB14 U19 DPB13 DPB12 U20 T20 DPB11 T18 DPB10 T17 DPB9 R19 DPB8 R20 NC NC NC NC NC NC DP_HS IC18 DP_HS HDMI_H HDMI_V HDMI_DE HDMI_VCLK RES +3V3_SW 4K7 IC09 BA1 BA0 MVREF DQS3 DQS2 DQS1 DQS0 CLKE DQM3 DQM2 DQM1 DQM0 MCK0_ MCK0 CS1_ CS0_ WE_ CAS_ RAS_ MD31 MD30 MD29 MD28 MD27 MD26 MD25 MD24 MD23 MD22 MD21 MD20 MD19 MD18 MD17 MD16 MD15 MD14 MD13 MD12 MD11 MD10 MD9 MD8 MD7 MD6 MD5 MD4 MD3 MD2 MD1 MD0 MA11 MA10 MA9 MA8 MA7 MA6 MA5 MA4 MA3 MA2 MA1 MA0 3C45 2C93 10u 6.3V 33R K4 K3 E3 B2 B6 B9 B12 K2 B1 A6 A9 A12 E1 D1 J3 J4 K1 J1 J2 D3 C3 C2 C1 A1 A2 A3 C5 A4 B5 A5 D6 A7 B7 C7 D7 D8 C8 B8 A8 D9 D10 C10 B10 A10 A11 B11 C11 D12 A13 B13 C13 F1 F2 F3 F4 G4 G3 G2 G1 H1 H2 H3 H4 4K7 2C91 10u 6.3V 100n 100n 2C90 2C92 WX_DQS3 WX_DQS2 WX_DQS1 WX_DQS0 WX_CLKE WX_DQM3 WX_DQM2 WX_DQM1 WX_DQM0 WX_MCK0# WX_MCK0 +3V3_SW 10u 6.3V 100n 2C79 10u 6.3V 2C84 2C85 P WX_LVDS_VD D WX_AVDDAPLL WX_AVDDLLPLL WX_AVSSAPLL 2C83 FC11 WX_AVDDAPLL WX_AVDD3_BG_ASS WX_PAVDD 1 WX_PAVDD 2 WX_AVDD_ADC1 WX_AVDD_ADC2 WX_AVDD_ADC3 WX_AVDD_ADC4 +1V2_PLL WX_AVSS_BG_ASS WX_BA1 WX_BA0 33R +3V3_SW 5C18 IC03 100n 100n 100n 2C77 100n 2C78 FC10 10u 6.3V 33R WX_LVDS_VSS 2C80 +1V2_PLL 5C16 2C75 2C72 10u 6.3V 33R WX_LVDS_VD D NC WX_AVDD3_BG_ASS IXXX 100n WX_AVDD3_ADC1 WX_AVDD3_ADC2 WX_AVDD3_OUTBUF WX_AVSS_OUTBUF 2C98 0R 3C49 100n WX_AVSS_ADC2 WX_AVDD3_OUTBUF 2V01 470p 2C66 470p 2C65 100n 100n 2C63 2C32 100n 2C31 100n 100n 2C61 2C16 100n 2C59 100n 2C57 2C58 100n RES 2C69 WX_AVDD3_ADC2 FC09 +1V2_PLL 5C15 O WX_AVSS_ADC1 IXXX 5C14 33R N 10u 6.3V 2C70 +3V3_SW +3V3_SW WX_AVDD3_ADC1 10u FC08 33R M 10u 6.3V 2C67 +3V3_SW 5C13 2C76 L +2V5_VDDMQ FC07 33R 2C68 +3V3_SW 5C12 2C71 2C56 10u 6.3V K 100n +2V5_VDDMQ C14 B3 VSS1 C6 C15 VDDC1 VDDC2 VSS2 D13 C9 VDDC3 VSS3 D14 C12 VDDC4 VSS4 D15 VDDC5 VSS5 D2 E13 H8 VDDC6 VSS6 E14 H9 VDDC7 VSS7 E15 H10 VSS8 H11 G16 VDDC8 VDDC9 VSS9 H12 H5 VSS10 VDDC10 H13 H16 VSS11 VDDC11 J5 VDDC12 VSS12 J8 J16 J9 VDDC13 VSS13 K5 J10 VDDC14 VSS14 K16 J11 VDDC15 VSS15 R16 J12 VDDC16 VSS16 T14 J13 VDDC17 VSS17 T15 K8 VDDC18 VSS18 B4 VDDM1 VSS19 K9 C4 K10 VDDM2 VSS20 K11 D4 VDDM3 VSS21 D5 K12 VSS22 K13 D11 VDDM4 VDDM5 VSS23 E5 L5 VDDM6 VSS24 E6 L8 VDDM7 VSS25 E9 VDDM8 VSS26 L9 E10 L10 VDDM9 VSS27 E11 L11 VDDM10 VSS28 E12 L12 VSS29 L13 F5 VDDM11 VDDM12 VSS30 G5 M8 VDDM13 VSS31 L16 M9 VDDH1 VSS32 M16 VDDH2 VSS33 M10 N16 M11 VDDH3 VSS34 P16 M12 VDDH4 VSS35 T12 M13 VSS36 N8 T13 VDDH5 VDDH6 VSS37 R17 N9 VDDH7 VSS38 R18 N10 VDDH8 VSS39 P20 NC VSS40 N11 Y3 N12 AVDD3_ADC1 VSS41 U9 N13 AVDD3_ADC2 VSS42 U3 P18 VSS43 T16 E2 AVDD3_OUTBUF VDDR1 VSS44 E8 H20 VDDR2 VSS45 V3 Y2 AVSS_OUTBUF AVDD3_BG_ASS T3 PAVDD1 VSSR1 E4 T4 E7 PAVDD2 VSSR2 U5 W3 AVDD_ADC1 AVSS_BG_ASS T2 U7 PAVSS1 R3 T8 AVDD_ADC2 PAVSS2 AVDD_ADC3 T5 U6 AVSS_ADC1 AVDD_ADC4 T7 D18 AVSS_ADC2 LVDS_VDD P E17 LVDS_VDD A AVSS_ADC3 T9 T6 D16 AVSS_ADC4 LVDS_VDD D E18 C17 LVDS_VSSP LVDS_VDDO1 E16 D17 LVDS_VSSA C16 U1 LVDS_VDDO2 AVDDAPLL LVDS_VSSD R2 C18 AVDDLLPLL LVDS_VSSO 1 C19 V5 LVDS_VSSO 2 VREFN_1 W5 VREFP_1 AVSSAPLL V1 T1 V7 AVSSLLPLL VREFN_2 W7 VREFP_2 2V02 100n 2C55 100n 100n 2C54 100n 2C52 2C53 100n 2C51 100n 100n 2C49 J 2C50 100n 2C48 100n 2C47 2C46 10u 6.3V 2C45 10u 6.3V +1V2_CORE 2V03 I 7C01-2 SVP WX68 DDR_VREF +3V3_SW 5C17 3C47 7C01-4 SVP WX68 100n 2C44 2C43 22u 6.3V 33R J HDMI_Cr(9) HDMI_Cr(8) HDMI_Cr(7) HDMI_Cr(6) HDMI_Cr(5) HDMI_Cr(4) HDMI_Cr(3) HDMI_Cr(2) HDMI_Cb(9) HDMI_Cb(8) HDMI_Cb(7) HDMI_Cb(6) HDMI_Cb(5) HDMI_Cb(4) HDMI_Cb(3) HDMI_Cb(2) HDMI_Y(9) HDMI_Y(8) HDMI_Y(7) HDMI_Y(6) HDMI_Y(5) HDMI_Y(4) HDMI_Y(3) HDMI_Y(2) K L M HDMI_Cb(1) HDMI_Cb(0) HDMI_Cr(1) HDMI_Cr(0) HDMI_Y(1) HDMI_Y(0) N "C00-"C99" & "V00 - V99" MULTI 12NC : 3139_123_63481 SINGLE 12NC : 3139_123_63491 100p 100p 2C87 100p 2C89 100p 2C86 100p 2C88 100p P I_17760_005.eps 180208 3139 123 6349.1 1 2 O WX_AVSSLLPLL 3 4 5 6 7 8 9 10 2009-Apr-10 11 12 13 14 15 16 17 18 19 20 1C24 B7 2C01 A6 2C02 B6 2C03 B9 2C04 B9 2C05 C9 2C06 B9 2C07 B9 2C08 B9 2C09 B9 2C10 B9 2C11 B9 2C12 C9 2C13 B9 2C15 C9 2C16 H3 2C17 C9 2C18 C9 2C19 C9 2C20 D9 2C21 D9 2C22 B2 2C23 B2 2C24 B2 2C25 B2 2C26 B2 2C27 B2 2C28 C2 2C29 C2 2C30 D9 2C31 H3 2C32 H3 2C33 B15 2C34 E2 2C35 E2 2C36 F3 2C37 F4 2C38 F4 2C39 F4 2C40 F4 2C41 F2 2C42 F2 2C43 F2 2C44 F2 2C45 G2 2C46 G2 2C47 G2 2C48 G3 2C49 G3 2C50 G3 2C51 G3 2C52 G3 2C53 G3 2C54 G3 2C55 G4 2C56 H2 2C57 H2 2C58 H3 2C59 H3 2C60 I8 2C61 H3 2C62 J8 2C63 H3 2C64 K8 2C65 H4 2C66 H4 2C67 I2 2C68 I2 2C69 I4 2C70 I2 2C71 I2 2C72 J2 2C73 E10 2C74 D12 2C75 J2 2C76 J2 2C77 J3 2C78 K2 2C79 K2 2C80 K2 2C81 B7 2C82 B7 2C83 K2 2C84 K2 2C85 K2 2C86 K3 2C87 L2 2C88 L3 2C89 L2 2C90 G7 2C91 G8 2C92 G7 2C93 G8 2C94 H7 2C95 H8 2C96 H7 2C97 H8 2C98 I7 2C99 I8 2V01 I7 2V02 J7 2V03 K7 2V04 D7 2V05 D8 2V06 C9 3C01 B7 3C02 B7 3C03-1 C7 3C03-2 C7 3C03-3 C7 3C03-4 C7 3C04-1 B7 3C04-2 B7 3C04-3 B7 3C04-4 B7 3C05-1 B7 3C05-2 B7 3C05-3 B7 3C05-4 C7 3C06-1 C7 3C06-2 C7 3C06-3 C7 3C06-4 C7 3C07 D10 3C08 C7 3C09 C7 3C10 D7 3C19 C9 3C20 C9 3C22 D11 3C23 D11 3C24 D12 3C25 D9 3C29 A13 3C30 A15 3C31 A13 3C32 B13 3C33 B13 3C34 B15 3C36 B15 3C37 C15 3C39 D2 3C40 D2 3C41 D3 3C42 D2 3C43 D2 3C44 D3 3C45 G13 3C46 H8 3C47 H13 3C48 H8 3C49 I3 3V04 E12 4C07 D9 4C08 E11 5C06 B2 5C07 B2 5C08 C2 5C09 E2 5C10 F2 5C11 F2 5C12 I2 5C13 I2 5C14 J2 5C15 J2 5C16 K2 5C17 G8 5C18 G8 5C19 I8 5C20 I8 5C21 J8 5C22 J8 7C01-1 B8 7C01-2 F11 7C01-3 B4 7C01-4 F5 7C02 E11 7C03-1 A14 7C03-2 B14 7C03-3 B14 7C03-4 C14 7C03-5 C16 7C03-6 C16 7C04 D11 FC01 B2 FC02 B2 FC03 C2 FC04 E2 FC05 F2 FC06 F2 FC07 I2 FC08 I2 FC09 J2 FC10 J2 FC11 K2 IC10 B4 IC11 C8 IC13 C8 IC14 D8 IC15 D9 IC16 D2 IC17 D3 IC18 D3 IC19 D11 IC20 D11 IC21 D10 IC22 E9 IC23 G8 IC24 G8 IC25 G13 IC26 H10 IC27 H10 IC28 H8 IC29 H10 IC30 H10 IC31 H10 IC32 H8 IC33 I8 IC35 J4 IC36 J8 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 60 SSB: DDR Interface 1 B04B 2 3 4 5 6 7 8 9 10 11 12 DDR INTERFACE B04B A A +2V5_VDDMQ 5D03 +2V5_VDDMQ 1K0 +2V5_VDDMQ B WX_BA0 WX_BA1 19 50 26 27 3D38 3D40 20 47 2_DDQS2 16 2_DDQS3 51 15R 15R WX_WE# WX_CAS# WX_RAS# 21 22 23 470p 100n 61 2D39 2D60 15 2D38 9 55 10n 100n 10n 3 33 2D58 2D59 470p 10n 2D57 2D43 1 18 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 VREF CS_ CK CK_ CKE NC1 NC2 NC3 NC4 NC5 NC6 BA0 BA1 LDM UDM LDQS UDQS DNU1 DNU2 WE_ CAS_ RAS_ 14 17 25 43 53 42 2_DQ16 2_DQ17 2_DQ18 2_DQ19 2_DQ20 2_DQ21 2_DQ22 2_DQ23 2_DQ24 2_DQ25 2_DQ26 2_DQ27 2_DQ28 2_DQ29 2_DQ30 2_DQ31 3D43-1 3D43-2 3D43-3 3D43-4 3D44-4 3D44-3 3D44-2 3D44-1 3D47-4 3D47-3 3D47-2 3D47-1 3D48-1 3D48-2 3D48-3 3D48-4 1 2 3 4 4 3 2 1 4 3 2 1 1 2 3 4 8 7 6 5 5 6 7 8 5 6 7 8 8 7 6 5 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R WX_MD20 WX_MD21 WX_MD22 WX_MD23 WX_MD18 WX_MD16 WX_MD17 WX_MD19 WX_MD31 WX_MD30 WX_MD28 WX_MD29 WX_MD24 WX_MD25 WX_MD26 WX_MD27 D E NC 19 50 F VSSQ 12 VSS 2 4 5 7 8 10 11 13 54 56 57 59 60 62 63 65 64 ID06 VDDQ A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10|AP A11 58 NC 24 45 46 44 VDD C ID05 ID07 10n 2D14 100n 49 DDR_VREF WX_CS0# WX_MCK0 WX_MCK0# WX_CLKE ID01 G 2D37 29 30 31 32 35 36 37 38 39 40 28 41 52 WX_MA0 WX_MA1 WX_MA2 WX_MA3 WX_MA4 WX_MA5 WX_MA6 WX_MA7 WX_MA8 WX_MA9 WX_MA10 WX_MA11 VSSQ 12 VSS 10u 2D46 100n 2D03 55 61 100n 470p 2D12 2D10 9 15 10n 3 2D09 2D08 10n 10n 2D04 33 18 DNU1 DNU2 WE_ CAS_ RAS_ 6 51R 1% WX_MD4 WX_MD5 WX_MD6 WX_MD7 WX_MD3 WX_MD2 WX_MD1 WX_MD0 WX_MD15 WX_MD14 WX_MD12 WX_MD13 WX_MD9 WX_MD8 WX_MD10 WX_MD11 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R WX_DQM2 WX_DQM3 WX_DQS2 WX_DQS3 LDM UDM LDQS UDQS 34 51R 1% 3D10 3D14 8 7 6 5 5 6 7 8 5 6 7 8 8 7 6 5 6 20 47 1_DDQS0 16 1_DDQS1 51 21 22 23 WX_WE# WX_CAS# WX_RAS# F 15R 15R BA0 BA1 14 17 25 43 53 42 1 2 3 4 4 3 2 1 4 3 2 1 1 2 3 4 66 3D11 3D09 NC1 NC2 NC3 NC4 NC5 NC6 66 WX_DQM0 WX_DQM1 WX_DQS0 WX_DQS1 CS_ CK CK_ CKE 3D06-1 3D06-2 3D06-3 3D06-4 3D05-4 3D05-3 3D05-2 3D05-1 3D02-4 3D02-3 3D02-2 3D02-1 3D01-1 3D01-2 3D01-3 3D01-4 48 26 27 VREF 1_DQ0 1_DQ1 1_DQ2 1_DQ3 1_DQ4 1_DQ5 1_DQ6 1_DQ7 1_DQ8 1_DQ9 1_DQ10 1_DQ11 1_DQ12 1_DQ13 1_DQ14 1_DQ15 34 WX_BA0 WX_BA1 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 2 4 5 7 8 10 11 13 54 56 57 59 60 62 63 65 64 24 45 46 44 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10|AP A11 58 WX_CS0# WX_MCK0 WX_MCK0# WX_CLKE 7D02 K4D261638K VDDQ 52 49 DDR_VREF E VDD 48 D 29 30 31 32 35 36 37 38 39 40 28 41 470p 1 7D01 K4D261638K WX_MA0 WX_MA1 WX_MA2 WX_MA3 WX_MA4 WX_MA5 WX_MA6 WX_MA7 WX_MA8 WX_MA9 WX_MA10 WX_MA11 2D11 2D02 10u 2D18 C +2V5_VDDMQ 100n +2V5_VDDMQ 22n 2D73 1K0 3D16 100n 100n 2D34 100n RES 2D31 B 2D32 DDR_VREF 2D78 100n RES FOR EMC FD02 22n 10n 2D72 2D71 22u 6.3V 33R 2D33 +2V5_VDDMQ 3D15 FD01 +2V6_SW G H H I_17760_006.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 12 2D02 C3 2D03 C4 2D04 C3 2D08 C4 2D09 C4 2D10 C4 2D11 C3 2D12 C4 2D14 G2 2D18 C3 2D31 B4 2D32 B4 2D33 B5 2D34 B5 2D37 C9 2D38 C9 2D39 C10 2D43 C9 2D46 C8 2D57 C9 2D58 C9 2D59 C9 2D60 C10 2D71 B2 2D72 B3 2D73 B10 2D78 B11 3D01-1 E5 3D01-2 E5 3D01-3 E5 3D01-4 E5 3D02-1 E5 3D02-2 E5 3D02-3 D5 3D02-4 D5 3D05-1 D5 3D05-2 D5 3D05-3 D5 3D05-4 D5 3D06-1 D5 3D06-2 D5 3D06-3 D5 3D06-4 D5 3D09 F2 3D10 G2 3D11 F2 3D14 G2 3D15 B5 3D16 B5 3D38 F7 3D40 F7 3D43-1 D11 3D43-2 D11 3D43-3 D11 3D43-4 D11 3D44-1 D11 3D44-2 D11 3D44-3 D11 3D44-4 D11 3D47-1 E11 3D47-2 E11 3D47-3 D11 3D47-4 D11 3D48-1 E11 3D48-2 E11 3D48-3 E11 3D48-4 E11 5D03 B2 7D01 D3 7D02 D9 FD01 B3 FD02 B4 ID01 G3 ID05 G9 ID06 E8 ID07 G2 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 61 SSB: FPGA Interface 1 3 4 5 6 7 8 FPGA INTERFACE B04C B04C +3V3_FPGA A +3V3_FPGA 5202 30R 5201 30R I201 1204 DSO751SV 1 4 I205 Φ SCD 2 DATA CS_ DCLK ASDI +3V3_FPGA F222 1 I232 3 3236 47R +3V3_FPGA CLK_OSC1 B F237 2 VCC 27M0 2214 10u 7201 EPCS4SI8 8 B 7 3 2211 10n nCSO F223 6 DCLK 3231 1K0 F224 5 ASDO RES 3232 1203 GND 4 TMS_FPGA TDI_FPGA TDO_FPGA TCK_FPGA F227 F204 F228 F202 F225 3246 3240 3235 3234 100R 100R 100R 100R DATA0 +3V3_FPGA C 3238 RES F203 F236 F205 F201 F229 JTAG_TMS JTAG_TD I JTAG_TD O JTAG_TC K 1 2 3 4 5 6 F238 1K0 1735446-6 IIC_SCL_up IIC_SDA_up +3V3_FPGA 3204 1K5 AMBI_SCL AMBI_SDA I209 3205 F211 3206 S_SCL 100R 2203 1n0 RES 2202 100p 2 CONNECTORS OVERLAPPING 7PIN +3V3_FPGA +3V3_FPGA 3247 3222 3224 3225 3207 3248 1n0 2208 100R 100R 100R 100R 100R 100R I233 I234 ambi_pwm(0) ambi_pwm(1) ambi_pwm(2) ambi_pwm(3) ambi_pwm(4) ambi_pwm(5) 2210 1n0 1n0 2207 2209 1n0 1n0 I213 2206 2216 2217 2218 2219 100n 100n 100n 100n 4204 1735446-7 F239 F240 I212 1n0 2215 100n F I2S_SEL2 1 2 3 4 5 6 7 2205 4201 I206 RES 4203 RES 4202 I2S_SEL1 I207 E RES FOR PWM AL DRIVER 1202 4205 MAIN_SCL MAIN_SDA D S_SDA +3V3_FPGA E C 3203 1K5 100R 2204 1n0 RES 2201 100p TO DRIVE IC AL DRIVERS 4206 D F207 F208 100R 100R 3201 3202 SOFTWARE DEBUGGER FOR PROGRAMMING FPGA (FOR DEVELOPMENT) A 2 1205 F210 1 2 3 4 1206 +24V 1 2 3 4 5 6 1735446-4 GNDDC24V 1735446-6 GNDDC24V F AMBILIGHT ONLY I_17760_007.eps 180208 3139 123 6349.1 1 2 3 4 5 2009-Apr-10 6 7 8 1202 E3 1203 C6 1204 B5 1205 E7 1206 E8 2201 D5 2202 D6 2203 E2 2204 E1 2205 F4 2206 F4 2207 F4 2208 F4 2209 F4 2210 F5 2211 B1 2214 B4 2215 F2 2216 F2 2217 F2 2218 F2 2219 F3 3201 C5 3202 D5 3203 D2 3204 D1 3205 D1 3206 D1 3207 F5 3222 E5 3224 E5 3225 E5 3231 B4 3232 B4 3234 C4 3235 C4 3236 B5 3238 C4 3240 C4 3246 C4 3247 E5 3248 F5 4201 E2 4202 E1 4203 F2 4204 F3 4205 F1 4206 E3 5201 A1 5202 A5 7201 B1 F201 C6 F202 C4 F203 C6 F204 C4 F205 C6 F207 C6 F208 D6 F210 E7 F211 D1 F222 B2 F223 B2 F224 B2 F225 C4 F227 C2 F228 C4 F229 C6 F236 C6 F237 B6 F238 E4 F238 C6 F239 E4 I201 A4 I205 B1 I206 F2 I207 F2 I209 D1 I212 E4 I213 F4 I232 B5 I233 E5 I234 F5 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 62 SSB: FPGA I/O Banks 1 2 B04D 3 4 5 6 8 7 9 11 10 12 13 14 15 16 17 FPGA I/O BANKS B04D A A B +3V3_SW 5700 +3V3_FPGA F701 TxFPGAo_3p 3747 TxFPGAo_3n 3749 TxFPGAo_1p 22R 3738 TxFPGAo_1n 3740 TxFPGAo_0p 22R 3735 TxFPGAo_0n 3737 TxFPGAo_2p 3741 TxFPGAo_2n 3743 TxFPGAo_4p 22R 3744 22R 30R 2702 10n 2701 1u0 2703 10n 2704 10n 2705 10n 22R +2V5_SW 5701 +2V5out-FPGA F702 30R C 2708 10n 2707 10n 2706 4u7 2709 10n 2710 10n 2711 10n 2712 10n 2713 10n 2714 10n 22R 2715 10n B 3748 180R 3720 3721 180R 5702 F703 22R 30R 2718 10n 2717 4u7 2719 10n 2720 10n 2721 10n D 22R TxFPGAo_4n +1V2_SW +1V2-FPGA 5703 3746 INPUT BANK 2725 10n TxFPGAe_3n 3723 7700-5 EP2C5F256C7N 3724 180R Φ BANK4 3736 180R M11 IO_M11|LVDS43p IO_T7|LVDS54p L11 IO_L11|LVDS43n IO_R7|LVDS54n T14 IO_T14|LVDS44p IO_T5|LVDS55p R14 IO_R14|LVDS44n IO_R5|LVDS55n T13 IO_T13|LVDS45p IO_T4|LVDS56p R13 IO_R13|LVDS45n IO_R4|LVDS56n T12 IO_T12|LVDS46p IO_P5|LVDS57p R12 IO_R12|LVDS46n IO_P4|LVDS57n P12 IO_P12|LVDS47p IO_T3|LVDS58p P13 IO_P13|LVDS47n IO_R3|LVDS58n K11 IO_K11|LVDS48p IO_N9|LVDS59p K10 IO_K10|LVDS48nIO_N10|LVDS59n R10 IO_R10|LVDS49p IO_L7|LVDS60p T10 IO_T10|LVDS49n IO_L8|LVDS60n L9 IO_L9|LVDS50pIO_N11|VREFB4N0 L10 IO_L10|LVDS50nIO_N8|VREFB4N1 T11 IO_L12 IO_T11|LVDS51p R11 IO_P11 IO_R11|LVDS51n T9 IO_T6 IO_T9|LVDS52p R9 IO_R9|LVDS52n T8 IO_T8|LVDS53p R8 IO_R8|LVDS53n 3742 180R 3745 180R 22R 30R 2724 47u 4V 22R 3722 22R 3739 180R 22R +2V5in-FPGA TxFPGAe_3p 2726 10n TxFPGAe_2p 22R 3725 3726 3727 180R TxFPGAe_1p 22R 3728 TxFPGAe_1n 22R 3729 3730 180R TxFPGAe_0p D 22R 3731 TxFPGAe_0n 22R 7700-6 EP2C5F256C7N 3732 3733 180R 30R +1V2-PLL 5705 F704 F705 TxFPGAe_4p B1 G3 K3 R1 22R 3734 TxFPGAe_4n A15 A2 C10 C7 E10 E7 2730 10n +3V3_FPGA VCCIO1 +2V5out-FPGA 22R 30R 2729 1u0 Φ POWER +3V3_FPGA E 5704 C TxFPGAe_2n 22R T7 R7 T5 R5 T4 R4 P5 P4 T3 R3 N9 N10 L7 L8 N11 N8 L12 P11 T6 B16 G14 K14 R16 +3V3_FPGA F GND VCCIO2 GND VCCIO3 +2V5in-FPGA 7700-1 EP2C5F256C7N Φ CONTROL CLK_OSC1 7700-2 EP2C5F256C7N ASDO nCSO MAIN_SDA C3 F4 P1 P2 N1 N2 L1 L2 K4 K5 K1 K2 E1 E2 D3 D4 FPGA_BL_BOOST AMBI_SDA H FPGA_BL_DIMMING ambi_pwm(5) ambi_pwm(2) ambi_pwm(3) I728 I713 Φ BANK1 IO_C3|ASDO IO_E3|LVDS7 p IO_F4|CSO_ IO_P1|LVDS0 p IO_E4|LVDS7 n IO_P2|LVDS0 n IO_D5|LVDS8 p IO_N1|LVDS1 p IO_E5|LVDS8 n IO_N2|LVDS1 n IO_C1|LVDS9 p IO_L1|LVDS2 p IO_C2|LVDS9 n IO_L2|LVDS2 IO_L4|PLL1_OUTp n IO_K4|LVDS3IO_M4|PLL1_OUTn p IO_K5|LVDS3 nIO_F3|VREFB1N0 IO_K1|LVDS4 nIO_J4|VREFB1N1 IO_K2|LVDS4 p IO_L3 IO_M1 IO_E1|LVDS5 p IO_M2 IO_E2|LVDS5 n IO_M3 IO_D3|LVDS6 p IO_P3 IO_D4|LVDS6 n TxFPGAe_CLKn 3753 22R 3714 22R 22R 180R 3751 3752 MAIN_SCL 22R 3713 TxFPGAo_CLKn TxFPGAe_CLKp G 3750 NC 180R TxFPGAo_CLKp H2 H1 J2 J1 H16 H15 J15 J16 F1 H4 DATA0 E3 E4 NC D5 I712 E5 C1 I705 C2 L4 M4 F3 J4 NC L3 M1 M2 M3 P3 3703 10K 0 1 2 3 4 CLK 5 6 7 CONFIG CONF_DONE DATA0 DCLK TCK TMS TDO TDI CE STATUS MSEL 0 1 3700 10K 3701 10K M10 M7 P10 P7 T15 T2 4700 G5 M13 F706 J5 L13 F734 J13 K12 F733 F2 G1 G2 H5 VCCIO4 GND +1V2-FPGA I729 G9 H10 H7 J7 I730 TCK_FPGA TMS_FPGA TDO_FPGA TDI_FPGA 4701 RES L6 F11 3702 10K E F VCCINT +1V2-PLL M5 E12 A1 A16 B15 B2 C8 C9 E8 E9 G8 H14 H3 H8 H9 J14 J3 J8 J9 K9 M8 M9 P8 P9 R15 R2 T1 T16 1 VCCA_PLL 2 1 VCCD_PLL 2 GND_PLL1 L5 N5 GND_PLL2 D12 F12 GNDA_PLL 1 2 G M6 E11 DCLK ambi_pwm(4) RES 2734 1n0 ambi_pwm(0) ambi_pwm(1) H OUTPUT BANK AMBI_SCL 7700-3 EP2C5F256C7N Φ BANK2 RES 2700 1n0 I NC J C4 C5 G7 G6 F9 F10 E6 F6 A3 B3 A4 B4 A5 B5 C6 D6 A6 B6 F8 F7 B7 A7 IO_C4|LVDS10p IO_B9|LVDS21p IO_C5|LVDS10n IO_A9|LVDS21n IO_G7|LVDS11p IO_D10|LVDS22p IO_G6|LVDS11n IO_D11|LVDS22n IO_F9|LVDS12p IO_A10|LVDS23p IO_F10|LVDS12nIO_B10|LVDS23n IO_E6|LVDS13p IO_G11|LVDS24p IO_F6|LVDS13n IO_G10|LVDS24n IO_A3|LVDS14p IO_A12|LVDS25p IO_B3|LVDS14n IO_B12|LVDS25n IO_A4|LVDS15p IO_A13|LVDS26p IO_B4|LVDS15n IO_B13|LVDS26n IO_A5|LVDS16p IO_C12|LVDS27p IO_B5|LVDS16n IO_C13|LVDS27n IO_C6|LVDS17p IO_A14|LVDS28p IO_D6|LVDS17n IO_B14|LVDS28n IO_A6|LVDS18pIO_D8|VREFB2N1 IO_C11|VREFB2N0 IO_B6|LVDS18n IO_A8 IO_F8|LVDS19p IO_F7|LVDS19n IO_A11 IO_B11 IO_B7|LVDS20p IO_A7|LVDS20n B9 A9 D10 D11 A10 B10 G11 G10 A12 B12 A13 B13 C12 C13 A14 B14 D8 C11 A8 A11 B11 7700-4 EP2C5F256C7N NC NC IO_D13|LVDS29p IO_M16|LVDS38p M16 M15 IO_C14|LVDS29n IO_M15|LVDS38n N16 IO_D16|LVDS30p IO_N16|LVDS39p N15 IO_D15|LVDS30n IO_N15|LVDS39n P16 IO_G13|LVDS31p IO_P16|LVDS40p P15 IO_G12|LVDS31n IO_P15|LVDS40n N14 IO_N14|LVDS41p IO_H11|LVDS32p N13 IO_J11|LVDS32n IO_N13|LVDS41n M12 IO_F16|LVDS33p IO_M12|LVDS42p N12 IO_F15|LVDS33n IO_N12|LVDS42n M14 IO_G15|LVDS34p IO_M14|VREFB3N1 H13 IO_G16|LVDS34n IO_H13|VREFB3N0 E14 IO_E14|PLL2_OUTp D14 IO_J12|LVDS35p IO_D14|PLL2_OUTn IO_H12|LVDS35n E16 IO_E16 IO_K15|LVDS36p L14 IO_K16|LVDS36n IO_L14 P14 IO_L16|LVDS37p IO_P14 IO_L15|LVDS37n I 7700-7 EP2C5F256C7N Φ BANK3 D13 C14 D16 D15 G13 G12 H11 J11 F16 F15 G15 G16 J12 H12 K15 K16 L16 L15 Φ NC NC NC B8 C15 C16 D1 D2 D7 D9 E13 E15 F13 F14 F5 G4 NC NC H6 J10 J6 K13 K6 K7 K8 N3 N4 N6 N7 P6 R6 NC J K K L L I_17760_008.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 8 9 2009-Apr-10 10 11 12 13 14 15 16 17 2700 I2 2701 B2 2702 B4 2703 B4 2704 B5 2705 B5 2706 C2 2707 C3 2708 C3 2709 C3 2710 C4 2711 C4 2712 C4 2713 C5 2714 C5 2715 C5 2717 D2 2718 D3 2719 D3 2720 D3 2721 D4 2724 E3 2725 E3 2726 E4 2729 F3 2730 F3 2734 H8 3700 F10 3701 F11 3702 G11 3703 F10 3713 G7 3714 G7 3720 B11 3721 B11 3722 B11 3723 C11 3724 C11 3725 C11 3726 C11 3727 C11 3728 D11 3729 D11 3730 D11 3731 D11 3732 E11 3733 E11 3734 E11 3735 C7 3736 C7 3737 C7 3738 B7 3739 C7 3740 C7 3741 D7 3742 D7 3743 D7 3744 D7 3745 D7 3746 D7 3747 B7 3748 B7 3749 B7 3750 G7 3751 G7 3752 G7 3753 G7 4700 F11 4701 G11 5700 B2 5701 C2 5702 D2 5703 D2 5704 E2 5705 E3 7700-1 F9 7700-2 G4 7700-3 H12 7700-4 I14 7700-5 C9 7700-6 E15 7700-7 I16 F701 B2 F702 C2 F703 D2 F704 E3 F705 F2 F706 G10 F733 G10 F734 G10 I705 H5 I712 H5 I713 H3 I728 H3 I729 G10 I730 G11 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 63 SSB: LVDS Connector 1 B04E 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 B04E LVDS CONNECTOR A A B B RES FOR DISPLAY I2C CONTROL FR11 1108 BZX384-C6V8 FR12 6R05 60 61 58 59 56 57 54 55 52 53 4R36-3 1R11 4R33-1 1R12 4R33-2 4R33-3 TxFPGAo_4p 4R33-4 4 FR50 FR52 LVDSo_2p FR55 FR57 FR59 FR61 FR64 LVDSo_CLKp ITV_I2C_SCL ITV_I2C_SDA LVDSo_3p LVDSo_4n 1R13 LVDS_B_TXo4n LVDS_B_TXo4p 5 3R25 3R26 100R FR66 100R FR68 4R02 4R03 4R04 100n 2R12 220u 25V 2R11 2R10 VDISP-SWITCH 3R13 47K IR04 7R07 PDTC114ET +12V_DISP +5V_TCON Y Y Y Y Y Y 4R02 4R03 4R04 4R10 4R11 4R12 IR06 1u0 0V 3V2 F LCD RES RES 4K7 4K7 4K7 4K7 3R50 3R51 3R57 RES RES 4K7 3R35 CTRL_DISP1_up 3R49 RES +3V3_SW * LVDSo_1p LVDSo_3n LVDS_B_TXo3n LVDS_B_TXo3p TxFPGAo_3p FR34 FR36 FR37 FR38 FR40 FR42 FR44 FR47 LVDSo_CLKn 4R36-4 TxFPGAo_4n FR29 FR31 LVDSo_0p IR02 47R G FR46 CTRL_DISP1 100R SINGLE LVDS LCD_PWR_ON IR10 FR51 3R52 CTRL_DISP2 100R FR56 3R53 STANDBY CTRL_DISP3 100R CTRL_DISP4_up 3R35 3R52 3R53 3R54 4R05 4R06 4R07 4R08 LCD ----Y Y Y Y 3R54 FR63 100R FR67 PDP 100R 100R 100R 100R ----- CTRL_DISP4 H LVDS_SEL * 4R43 TxFPGAo_3n FR25 FR27 E BZX384-C5V6 3R12 100p TxFPGAo_CLKp LVDSe_4p 47K 6R02 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 2R29 TxFPGAo_CLKn DLW21S 4R36-2 TxFPGAo_2p FR13 FR15 FR17 FR19 FR21 FR23 LVDSo_2n LVDS_B_TXo2n LVDS_B_TXo2p 4R22 4R24 4R26 4R27 33R IR01 3R10 3R48 4R36-1 TxFPGAo_2n +VDISP * DLW21S 4R35-4 TxFPGAo_1p LVDSe_3p LVDSe_4n LVDSo_1n LVDS_B_TXo1n LVDS_B_TXo1p DLW21S DLW21S 4R35-3 TxFPGAo_1n CTRL_DISP1 CTRL_DISP2 CTRL_DISP3 CTRL_DISP4 LVDSo_0n 4R35-2 TxFPGAo_0p FI-RE51S-HF 12V1 * 4R35-1 LVDS_B_TXo0n LVDS_B_TXo0p FR10 33R * DLW21S 4R34-4 TxFPGAo_0n LVDSe_CLK p 100p 4R34-2 4R34-3 LVDS_B_TXe4n LVDS_B_TXe4p TxFPGAe_4p 48 46 47 44 45 42 43 LVDSe_3n LVDS_B_TXe3n LVDS_B_TXe3p TxFPGAe_3p TxFPGAe_4n 1R01 FX15SC-41S-0.5SH LVDSe_2p 100p 4R34-1 DLW21S 4R32-4 33R 5R03 LVDSe_CLK n DLW21S TxFPGAe_CLKp RES 5R02 * * * * TxFPGAe_CLKn 4R32-3 LVDS_B_TXeCLK n LVDS_B_TXeCLK p TxFPGAe_3n LVDSe_1p 4R05 100p 2R20 4R06 100p 2R21 4R07 100p 2R23 4R08 100p 2R24 DLW21S 4R32-2 TxFPGAe_2p 5R01 IR08 7R05 SI4835BDY LVDSe_2n LVDS_B_TXe2n LVDS_B_TXe2p D +12V_DISP * 4R32-1 TxFPGAe_2n +5V_TCON +VDISP 4R10 4R11 4R12 5 DLW21S 4 LVDSe_0p LVDSe_1n RES 2R01 4R31-4 TxFPGAe_1p LVDSe_0n DLW21S 6 LVDS_B_TXoCLK n LVDS_B_TXoCLK p 1R24 LVDS_A_TXe4p 2 3 LVDS_B_TXe1n LVDS_B_TXe1p LVDS_A_TXe4n H 4R31-3 7 RES 2R02 LVDS_A_TXe3p 8 1R02 DLW21S DLW21S DLW21S DLW21S DLW21S 1R22 1R23 LVDS_A_TXeCLKp LVDS_A_TXe3n TxFPGAe_0p DLW21S LVDS_A_TXe2p LVDS_A_TXeCLKn G FR69 4R31-2 TxFPGAe_1n DLW21S LVDS_A_TXe1p LVDS_A_TXe2n +VDISP 1 DLW21S 1R25 1R20 1R21 LVDS_A_TXe0p LVDS_A_TXe1n FR58 FR60 FR62 FR65 4R31-1 TxFPGAe_0n LVDS_B_TXe0n LVDS_B_TXe0p DLW21S LVDS_A_TXo4p LVDS_A_TXe0n F FR53 FR54 FROM FPGA DLW21S 1R19 LVDS_A_TXo3p LVDS_A_TXo4n FR39 FR41 FR43 FR45 FR48 FR49 100n 1R18 LVDS_A_TXoCLKp LVDS_A_TXo3n 2R28 1R17 E FR30 FR32 FR33 FR35 DLW21S LVDS_A_TXo2p LVDS_A_TXoCLKn FR26 FR28 DLW21S 1R16 LVDS_A_TXo1p LVDS_A_TXo2n DLW21S 1R15 LVDS_A_TXo0p LVDS_A_TXo1n FR14 FR16 FR18 FR20 FR22 FR24 DLW21S 1R14 LVDS_A_TXo0n FROM MJC-LVDS 8280 1R03 CTRL_DISP1 LVDS_SEL CTRL_DISP2 CTRL_DISP3 CTRL_DISP4 D C 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 LVSD3_SDA_DISP LVDS3_SCL_DISP 1R04 22R 22R 1R05 10p 3R55 3R56 1R06 2R26 1R07 ITV_I2C_SDA ITV_I2C_SCL 1R10 C 1R08 2R25BZX384-C6V8 10p 1R09 6R04 PDP LVDSo_4p I I J J LGE 1080p * CTRL-DISP1 K FHP SDI RESET Semi standby : H Normal and off : L DISPEN CTRL-DISP2(LCD_PWR_on) On time : H Off time : Don’t care CPU-GO On time : H Off time : Don’t care CTRL-DISP3(Rev_Standby) PDWIN On time : H Off time : Don’t care CTRL-DISP4 PDP-GO On time : H MAIN_RESET Semi standby : L Off time : Don’t care 1R02 1R03 1R04 1R05 1R06 1R07 1R08 1R09 1R10 1R11 1R12 1R13 8 Bit Single LVDS ------Y Y Y Y Y -- 10 Bit Single 8 Bit Dual LVDS LVD S -Y -Y Y --Y Y ---Y Y Y Y Y Y Y Y Y Y -Y 10 Bit Dual LVD S Y Y Y Y Y Y Y Y Y Y Y Y K L L I_17760_009.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 8 9 2009-Apr-10 10 11 12 13 14 15 16 17 1108 C6 1R01 E13 1R02 D10 1R03 D10 1R04 E10 1R05 E10 1R06 F10 1R07 F10 1R08 G10 1R09 G10 1R10 G10 1R11 H10 1R12 H10 1R13 I10 1R14 D3 1R15 D3 1R16 E3 1R17 E3 1R18 E3 1R19 F3 1R20 F3 1R21 G3 1R22 G3 1R23 H3 1R24 H3 1R25 F3 2R01 I13 2R02 I13 2R10 F15 2R11 E16 2R12 E16 2R20 I15 2R21 I15 2R23 I16 2R24 I16 2R25 C3 2R26 C3 2R28 G6 2R29 I16 3R10 E14 3R12 F14 3R13 F15 3R25 H12 3R26 H12 3R35 G15 3R48 G15 3R49 G15 3R50 G16 3R51 G16 3R52 H15 3R53 H15 3R54 H15 3R55 C3 3R56 C3 3R57 G16 4R02 D14 4R03 D14 4R04 D14 4R05 H15 4R06 H15 4R07 H15 4R08 H16 4R10 D14 4R11 D14 4R12 D14 4R22 F13 4R24 F13 4R26 F13 4R27 F13 4R31-1 D9 4R31-2 D9 4R31-3 D9 4R31-4 E9 4R32-1 E9 4R32-2 E9 4R32-3 E9 4R32-4 E9 4R33-1 H9 4R33-2 H9 4R33-3 I9 4R33-4 I9 4R34-1 F9 4R34-2 F9 4R34-3 F9 4R34-4 F9 4R35-1 F9 4R35-2 G9 4R35-3 G9 4R35-4 G9 4R36-1 G9 4R36-2 H9 4R36-3 H9 4R36-4 H9 4R43 H16 5R01 D16 5R02 D16 5R03 E16 6R02 E14 6R04 C3 6R05 C3 7R05 D15 7R07 F15 FR10 D16 FR11 C4 FR12 C4 FR13 F12 FR14 D5 FR15 F12 FR16 D5 FR17 F12 FR18 D5 FR19 F12 FR20 D5 FR21 F12 FR22 D5 FR23 F12 FR24 D5 FR25 F12 FR26 D5 FR27 F12 FR28 D5 FR29 G12 FR30 E5 FR31 G12 FR32 E5 FR33 E5 FR34 G12 FR35 E5 FR36 G12 FR37 G12 FR38 G12 FR39 E5 FR40 G12 FR41 E5 FR42 G12 FR43 E5 FR44 G12 FR45 E5 FR46 G16 FR47 G12 FR48 E5 FR49 E5 FR50 G12 FR51 H16 FR52 H12 FR53 F5 FR54 F5 FR55 H12 FR56 H16 FR57 H12 FR58 F5 FR59 H12 FR60 F5 FR61 H12 FR62 F5 FR63 H16 FR64 H13 FR65 F5 FR66 H13 FR67 H16 FR68 H13 FR69 F6 IR01 E15 IR02 F14 IR04 F15 IR06 F15 IR08 D15 IR10 H15 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 64 SSB: Audio Processor Micronas 2 1 4 5 9 10 11 12 B 470p 1n5 2444 220p 2443 2413 120R F403 470p 5402 1R0 2410 A I412 I413 100R 100R 100p 100p 2 3 79 4 5 I429 I430 HDMI_I2S_SCK HDMI_I2S_WS 17 18 E 8 9 10 11 7 16 20 21 I432 HDMI_I2S_SD 6 F SIF ** 2448 4448 G * * * ** 2432 3416 5403 5404 2449 56p 470R 22u 12u 180p I420 * * * 330p 56p 56p I421 I422 I423 63 64 65 2436 10u I424 56 2445 100n 2433 2434 2435 SC1_AUDIO_IN_R SC1_AUDIO_IN_L 55 54 SC2_AUDIO_IN_R SC2_AUDIO_IN_L 53 52 COMP_AUDIO_IN_R COMP_AUDIO_IN_L 51 50 SIDE_AUDIO_IN_R SIDE_AUDIO_IN_L 49 48 VGA_AUDIO_IN_R VGA_AUDIO_IN_L 58 57 SR SL CL DA I2C ADR_SEL DACA CL WS M CAPL A IN OUT DEL I2S CL WS DCTR_IO I SC1_OUT R L SC2_OUT R L SC3_OUT R L DA_OUT IN1+ IN- ANA IN2+ +8V 40 2420 10u 16V 38 I414 2423 10u 16V R SC1_IN L NC R SC2_IN L R SC3_IN L 2422 330p E 78 77 76 36 37 I416 I417 2424 2425 10u 10u I442 I443 3417 3418 100R 100R SC1_AUDIO_OUT_R SC1_AUDIO_OUT_L 33 34 I418 I419 2426 2427 10u 10u I444 I445 3419 3420 100R 100R SC2_AUDIO_OUT_R SC2_AUDIO_OUT_L 41 42 2428 100p 2429 100p 1 22 32 46 47 71 72 73 74 75 2430 100p F 2431 100p +5V_SW R SC5_IN L Φ SPST SWITCH S2 AH D 59 60 43 44 14 15 G I437 IN 1 D S1 VREF A 7412 ADG719BRTZ VDD 6 I440 5 I438 4 I441 R SC4_IN L I425 2421 330p +5V_SW VREFTOP 45 2432 2433 2434 2435 2448 2449 3416 4448 5403 5404 0 1 SPDIF_OUT 1 2 DA 3 4 AGNDC EU 56p 330p 56p 56p ---Y 22u -- D HP_AUDIO_OUT_R HP_AUDIO_OUT_L 23 24 I415 VSS LA AP CH 33p 56p 56p 47p 330p 330p 47p 56p 56p 47p 56p 56p 150p --180p ---2K2 -Y Y --- 22u 22u -12u -- 2417 330p 30 31 CL3 WS3 H * R L 2418 330p 29 4K7 3410 3411 RES 2446 RES 2447 SUB 28 3427 100n C DACM RESETQ STNDBYQ TESTEN TP H GND 1 2 3 19 80 66 69 SOUND PROCESSOR OUT C AUDIO_LS_R AUDIO_LS_L 26 27 2 100R XTAL R L 100n 68 IN 70 2451 IIC_SCL IIC_SDA XTALOUT AUD_CL_OUT MULTISTANDARD 4403 D 2419 67 RES 4401 SUP_A XTALI N 35 25 2416 3p3 DVSUP Φ 1411 18M432 3428 AH SUP 3p3 AUD_RST 12 13 MSP4450L-VK-E8 000 2415 C 61 62 7411 2414 10u 39 SUP_A +3V3_SW RES 4402 I436 2437 10u I439 3423 2438 100n 1K2 SPDIF_OUT 2450 RES I446 33p SPDIF_IN I "400-499" J MULTI 12NC: 3139 123 63421 SINGLE 12NC: 3139 123 63431 I_17760_010.eps 180208 3139 123 6349.1 1 A SUP_D SUP_A 2412 RES 3403 470p 2 2411 10u 13 B05A F402 1n5 2442 5401 120R 1R0 100n 2439 SUP_D +5V_SW 220u 25V 2440 BAS316 3402 OUT COM 2408 IN 330u 16V 1n5 F404 6402 J 8 7 +8V F401 1 2409 7410 L78L08ACU 3 +12V_DISP B 6 AUDIO PROCESSOR - MICRONAS 220p 2441 A B05A 3 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 12 13 1411 C4 2408 B5 2409 B5 2410 B5 2411 B3 2412 B4 2413 B6 2414 B3 2415 B3 2416 C3 2417 C8 2418 C8 2419 C3 2420 D7 2421 D8 2422 D8 2423 D7 2424 D8 2425 D8 2426 E8 2427 E8 2428 E7 2429 E7 2430 E8 2431 E8 2432 E3 2433 E4 2434 E4 2435 E4 2436 E4 2437 G5 2438 G5 2439 B4 2440 B4 2441 B5 2442 B5 2443 B6 2444 B7 2445 E4 2446 C3 2447 D3 2448 E2 2449 E3 2450 G9 2451 F7 3402 B2 3403 B2 3410 C3 3411 C3 3416 E3 3417 D9 3418 D9 3419 E9 3420 E9 3423 G8 3427 E8 3428 C3 4401 F7 4402 G7 4403 F7 4448 E3 5401 B2 5402 B2 5403 E3 5404 E3 6402 A3 7410 A4 7411 B5 7412 F8 F401 A5 F402 B5 F403 B6 F404 A4 I412 C4 I413 C4 I414 D7 I415 D7 I416 D7 I417 D7 I418 E7 I419 E7 I420 E3 I421 E4 I422 E4 I423 E4 I424 E4 I425 G5 I429 D3 I430 D3 I432 D3 I436 G7 I437 F8 I438 F7 I439 G9 I440 F7 I441 F7 I442 D9 I443 D9 I444 E9 I445 E9 I446 G8 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 65 SSB: Audio Class-D 2A24 D8 2A25 D10 2A26 D12 2A27 D10 2A28 D12 2A29 D8 2A30 E10 2A17 C12 2A18 C10 2A19 D8 2A20 D7 2A21 C11 2A22 D8 2A23 D12 1 2A31 E11 2A32 E8 2A33 F9 2A34 F9 2A35 D11 2A36 E11 2A37 C13 2 2A61 F2 2A62 A4 2A63 A4 2A64 A8 2A65 A9 2A66 A2 2A67 A3 2A54 C4 2A55 C3 2A56 C4 2A57 C2 2A58 C4 2A59 D2 2A60 E1 2A38 E12 2A40 E8 2A41 E14 2A45 C12 2A51 B3 2A52 B2 2A53 B4 3 2A68 A3 2A69 A7 2A70 A7 2A71 D13 2A72 D13 3A01 A5 3A02 A9 3A11 D7 3A13 D8 3A14 E12 3A17 D11 3A19 E7 3A26 E8 3A27 E13 3A03 C7 3A04 C8 3A05 C13 3A06 C7 3A07 C7 3A08 D8 3A09 C11 4 5 3A59 C5 3A60 D3 3A61 E2 3A62 E2 3A63 F2 3A68 D4 3A69 E4 3A52 B5 3A53 B2 3A54 B5 3A55 C3 3A56 C3 3A57 C5 3A58 C2 3A28 E13 3A29 D14 3A30 D14 3A31 E15 3A32 D7 3A33 E7 3A51 B3 6 7 8 GNDSND GNDSND 11 IA35 C7 IA36 C8 IA37 C10 IA38 C8 IA39 C11 IA40 D7 IA41 D7 IA28 C8 IA29 C11 IA30 C5 IA31 C4 IA32 C10 IA33 C1 IA34 C2 IA21 B1 IA22 B2 IA23 C13 IA24 C13 IA25 C4 IA26 C4 IA27 C7 12 IA42 D8 IA43 D8 IA44 D8 IA45 D10 IA46 D10 IA47 D10 IA48 D4 13 IA56 E8 IA57 E3 IA58 E14 IA59 E4 IA60 E8 IA61 E12 IA62 E11 IA49 D14 IA50 D8 IA51 D8 IA52 D12 IA53 D11 IA54 E2 IA55 E14 IA63 E5 IA64 E4 IA65 F5 IA66 F4 IA67 F2 IA68 F2 IA69 F1 14 15 2A61 IA68 3A63 1u0 F IA67 IA70 6A51 BAS316 4K7 7A53 BC857BW 0V 3A73 IA721 1K0 RESERVED 3A74 IA741 1K0 BAS316 0V 6A52 10K RES 3A75 +3V3_STBY 10K IA63 3A76 IA76 10K 1n0 29 20 8 OSCREF BOOT1 OSCIO BOOT2 HVPREF STAB1 STAB2 DREF SC1_AUDIO_MUTE_L 7A57 BC847BW 2 IA71 3 GNDSND 2A45 1n0 POWERUP TEST CGND VSSA VSSP 1 2 3 4 2A35 1n0 19 GNDSND 2A25 28 8V9 IA45 2A27 21 3V9 IA46 25 IA47 VDD 2A28 2A23 470n 1n0 15n 15n GNDSND GNDSND GNDSND 5A04 22u 3A17 10R 2A26 220n 2A30 100n VSS VSSD|HW D 7A05 BC857BW IA49 24 -1V3 IA53 IA52 2A31 1n0 2A38 220n IA62 IA61 220K 3A28 2A36 1n0 3A14 22R 220K 7A06 IA55 BC847BW DC_PROT FA32 3A27 IA58 VSS GNDSND GNDSND 7A07 BC847BW E GNDSND GNDSND GNDSND DC-DETECTION GNDSND GNDSND SC2_AUDIO_MUTE_R F 7A58 BC847BW 2 IA73 3 SC2_AUDIO_MUTE_L 7A59 BC847BW 2 * 3A03 3A04 3A06 3A07 3A08 3A11 7A60 BC847BW 3A77 22K LCD 10K 12K 10K 10K 12K 10K PDP 6K8 22K 6K8 6K8 22K 6K8 G I_17760_011.eps 180208 3139 123 6349.1 1 LEFT + GND GND RIGHT - 1735446-4 30 ENGAGE SC1_AUDIO_MUTE_R 7A56 BC847BW 2 IA65 3 IA39 VSSA ENGAGE IA75 4K7 11 -8V2 18 4V7 IA51 5 3V2 IA56 6 -2V6 IA60 13 EMC 2A32 1n0 HVP2 INREF VSSA 3A72 IA661 1K0 3A26 31 HVP1 IA50 470n 3A70 4A51 3A62 4K7 100n 3A19 7A55 BC847BW 2 3 3A71 IA641 1K0 +3V3_STBY 2A29 2A40 3A69 IA59 1 1K0 10K 1u0 6.3V IA57 0V 7A52 BC857BW RES 3A33 3V3 VSSA FA12 FA13 STANDBYn 3 GNDSND 47K 3A32 7A54 BC847BW 2 12K 3A68 IA48 1 1K0 IA54 4K7 IA69 NC 3 ENGAGE ANTI_PLOP RES VDDA IN2N IA37 EMC 2A18 4 2V6 FA04 1n0 2A41 MUTING CIRCUIT DIAG FA07 FA08 FA10 FA11 2A21 1n0 IA32 22 10K VSSA 100n 100n 39K OUT2 IN2P 27 3A31 FA09 1u0 2A22 2A24 3A13 IN1N C 1A35 OUT1 47K IA41 2A20 Φ CLASS D POWER AMPLIFIER IN1P 3A29 3A08 2 2A12 220p -2V8 3 -2V8 15 2A19 -2V8 220p 14 IA42 -2V8 IA43 12 -7V6 IA44 10 IA29 RES TO SPEAKERS 2A14 2A17 470n 1n0 GNDSND VDDP 47K IA40 IA36 IA38 1735446-3 22R GNDSND 3A30 1u0 1u0 220n 1u0 3A11 IA35 2A15 2A16 220n 1 2 3 NC 1n0 FA06 33R 5V3 +3V3_STBY 10n 2A65 100n 6.3V 47u AUDIO_LS_R 3A61 1n0 10n 2A10 7 3A04 3A06 3A07 2A37 IA24 3A05 1n0 2V6 3A60 100K GNDSND VDDA FA05 33R 3A59 7A01 TDA8932BTW IA28 1u0 3A09 10R 2A13 IA23 2A71 2V6 5 HPIC_ROUT 2A58 2A11 5A03 22u 2A72 47K 2A59 470n 7A51-2 TS482IDT IA27 3A03 AUDIO_LS_L 33 2V6 6 HP_ROUT 2A33 100n 2A34 100n F904 IA30 3A57 23 HPIC_RIN 3A58 470n RES IA31 2 3 4 B 1A02 IA26 2A56 220n 4 IA34 TO SUBWOOFER OUT VDD 100n 8 120K 8 2A57 VDDA 2A54 220n 3A56 100K HP_AUDIO_OUT_R IA33 GNDSND HP_LOUT 9 C 33p VSS 2A08 220u 25V IA25 2A55 3A55 30R IA16 -12V2 5A06 GNDSND GNDSND GNDSND 33R 6.3V 47u 5V3 IA19 VSSA A VDD 33R 3A54 2A53 HPIC_LOUT +5V_SW RES 3A52 IA14 -12V2 GNDSND 12V2 2A09 2V6 1 3 IA70 F3 IA71 F5 IA72 F4 IA73 F5 IA74 G4 IA75 G3 IA76 G4 2A02 100n GNDSND 7A51-1 TS482IDT 2V6 10R 3A02 1 26 2V6 2 F901 IA12 7 IA20 HPIC_LIN 3A53 47K IA22 470n 4 2A52 5A08 GND_HS 33p 120K IA18 2A60 IA14 A10 IA15 A5 IA16 A10 IA17 B4 IA18 B5 IA19 B5 IA20 B3 FA12 E6 FA13 E6 FA32 D15 IA10 A4 IA11 A8 IA12 A9 IA13 A5 1 16 17 32 2A51 B MUTEn FA05 C6 FA06 C6 FA07 C15 FA08 C15 FA09 D6 FA10 C15 FA11 C15 10 22u 2A04 220u 25V IA17 3A51 2 -12V_AUDIO 2A69 100n HP_AUDIO_OUT_L IA21 GNDSND 30R IA15 5A05 GNDSND VDDA 2A01 100n 2A66 GNDSND 11V9 IA11 1n0 RES 10n 2A63 1n0 2A62 RES 10n 2A67 A 2A68 22u G 7A57 F4 7A58 F4 7A59 G4 7A60 G4 F901 B3 F904 C3 FA04 D10 9 2A64 10RIA13 3A01 +12V_AUDIO POWER_DOWN 7A51-1 B3 7A51-2 C3 7A52 E2 7A53 F2 7A54 D4 7A55 E4 7A56 E4 5A08 A8 6A51 F3 6A52 G3 7A01 C9 7A05 D15 7A06 E14 7A07 E14 B05B IA10 5A07 E 3A77 G4 4A51 E3 5A03 C11 5A04 D11 5A05 A5 5A06 A9 5A07 A4 AUDIO - CLASS D B05B D 3A70 E3 3A71 E4 3A72 F4 3A73 F4 3A74 G4 3A75 G3 3A76 G4 2A70 2A10 C9 2A11 C7 2A12 C8 2A13 C12 2A14 C12 2A15 C7 2A16 C7 1A02 B1 5 1A35 C15 2A01 A5 2A02 A1 0 2A04 A5 2A08 B1 0 2A09 C9 5 6 7 8 2009-Apr-10 9 10 11 12 13 14 15 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 66 SSB: YPbPr & SVHS 3 4 5 6 YPBPR & SVHS DTV_IRQ BOLT_ON_UART_RXD BOLT_ON_UART_TXD B06A F618 I634 I635 SPDIF_IN SC1_AUDIO_IN_L SC1_AUDIO_IN_R 4605 4606 F619 (near to 1504 ) SVHS_Y_CVBS_IN SVHS_C_IN HP_LOUT HP_ROUT 1-1735446-1 CVBS_IN_DTV SVHS HD_PR_IN_ITV HD_Y_IN_ITV HD_PB_IN_ITV 1601 MDC-013V1-B HD_Y_IN_ITV 3617 3601 75R 33p 1609 RES 2625 SVHS_Y_CVBS_IN 33p 3622 33K 33p RES 2626 I620 SIDE_AUDIO_IN_R 220n D I622 2623 3623 I624 2624 1n0 150R 3624 33K SIDE_AUDIO_IN_L 220n E HEADPHONE 3605 75R 1603 33R 5 4 2 F616 4603 HP_DETECT HP_LOUT F617 3 7 8 1 MSJ-035-10A B AG PPO 4604 HP_ROUT HD_PB_IN 2613 22n F 2614 22n 2615 10n 2616 10n 3613 10K 3614 10K F 3 1 6615 DF3A6.8 1 3 6616 DF3A6.8 RES 2606 I632 1618 PESD5V0S1BA 1610 1608 HD_PR_IN HD_PB_IN_ITV RES 6612 RES 6622 33R 3619 F607 C I631 2 PESD5V0S1BA 1606 2602 I616 2621 I621 2622 1n0 150R F611 HD_PR_IN_ITV RES RES 6621 WHITE 1602-2 4 6 5 MTJ-032-37BAA-432 NI F605 SVHS_C_IN 2627 RES 33R RES 2609 3621 33p PESD5V0S1BA RES 6611 1607 HD_Y_IN RES 2603 RES 6606 PESD5V0S1BA F610 1616 3618 I615 100R 2 MTJ-032-37BAA-432 NI RED 1602-3 7 9 8 MTJ-032-37BAA-432 NI 3603 75R E COMP_AUDIO_IN_L 220n 3609 75R 3608 33K 2608 1n0 F614 6610 RES 3604 75R 3602 PESD5V0S1BA 2607 I623 150R F604 D I610 2 9 10 11 12 CVBS RES 2600 YELLOW 1602-1 1 1617 PESD5V0S1BA RES 6613 3600 100R 1620 Green 1611 8 Blue 3612 220n 33K 2612 1n0 3607 F608 7 F615 1619 5 I627 150R COMP_AUDIO_IN_R 4601 4602 PESD5V0S1BA RES 6614 I611 2610 3611 F609 6 RED F601 4 2 1613 White 5 For DTV onl y 4 C F602 3 BM14B-SRSS-TBT RED B 1 F620 16 A SIDE_AUDIO_IN_L HP_DETECT SIDE_AUDIO_IN_R 6604 RES 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1 2 3 9 1 2 3 4 5 6 7 8 9 10 11 PESD5V0S1BA A 1615 MSP-636H1-01 8 RES 1605 1621 B 7 PESD5V0S1BA B06A 2 2628 RES 1 I_17760_012.eps 180208 3139 123 6349.1 1 2 3 4 5 2009-Apr-10 6 7 8 9 1601 B6 1602-1 C6 1602-2 D6 1602-3 D6 1603 E5 1605 A6 1606 E2 1607 D3 1608 C7 1609 C7 1610 F2 1611 C2 1613 C2 1615-1 D1 1615-2 E1 1615-3 C1 1616 D6 1617 E6 1618 F6 1619 F6 1620 F6 1621 A3 2600 C7 2602 E3 2603 D4 2606 E3 2607 C4 2608 C3 2609 C8 2610 C4 2612 C3 2613 F7 2614 F8 2615 F8 2616 F8 2621 D8 2622 D7 2623 D8 2624 E7 2625 C8 2626 C8 2627 D7 2628 E7 3600 B8 3601 E3 3602 C8 3603 D3 3604 C8 3605 F3 3607 C3 3608 C4 3609 C6 3611 C3 3612 C4 3613 F8 3614 F9 3617 E4 3618 D4 3619 E3 3621 D7 3622 D8 3623 D7 3624 E8 4601 D6 4602 D6 4603 E8 4604 F8 4605 B4 4606 B4 6604 C7 6606 C7 6610 E2 6611 D3 6612 F2 6613 C2 6614 C2 6615 F7 6616 F7 6621 D7 6622 E7 F601 B7 F602 B7 F604 D3 F605 E2 F607 E2 F608 C2 F609 C2 F610 D6 F611 D7 F614 C1 F615 C6 F616 E6 F617 E6 F618 A4 F619 B4 F620 B3 I610 C4 I611 C4 I615 B8 I616 E4 I620 D8 I621 D7 I622 D8 I623 C3 I624 E7 I627 C3 I631 C8 I632 E4 I634 A3 I635 B3 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 67 SSB: I/O Cinch 1 & 2 1 2 1508 1 2 3 4 5 6 7 8 9 10 4 5 6 7 8 10 9 12 11 13 IO - CINCH 1 & 2 B06B A 3 RES ITV_Connector A: F346 F347 F349 F348 F353 F351 F352 F354 RES ITV-Connector C RES ITV-Connector B BOLT_ON_UART_RX D BOLT_ON_UART_TXD +3V3_STBY B06B 1507 1112 1 2 3 4 5 6 7 8 9 1011 SC1_B_IN SC1_G_IN SC1_R_IN SC1_FBL_IN 1 2 3 4 5 6 7 8 9 ITV_I2C_SCL ITV_I2C_SDA REMOTE DTV_IRQ STANDB Y SC1_CVBS_RF_OUT RES ITV-Connector D 1506 I563 SC1_AUDIO_OUT_L I564 SC1_AUDIO_OUT_R I565 SC2_Y_CVBS_IN_ITV SC2_C_IN_ITV I567 I568 A 1505 1 2 3 4 5 6 SC2_AUDIO_IN_L SC2_AUDIO_IN_R SC2_CVBS_MON_OUT_ITV I570 I571 RES ITV Connector E SC2_AUDIO_OUT_R SC2_AUDIO_OUT_L I572 I573 I574 HD_PR_IN_ITV HD_Y_IN_ITV HD_PB_IN_ITV 1509 1 2 3 VGA_H VGA_V F612 F613 I576 HP_AUDIO_OUT_L I575 HP_AUDIO_OUT_R 45 7 8 3559 10 75R B B SC1_AUDIO_MUTE_R 17 F541 3528 SC1_R_IN CVBS_out 19 Video/YC-Y_in 20 100R F542 3535 RES 2535 1K0 I550 68R 2502 330p 330p 2506 33K 1n0 2512 3508 PESD5V0S1BA I520 SC2_AUDIO_IN_L 33K 1n0 2520 220n 3513 RES 6522 RES 6523 PESD5V0S1BA PESD5V0S1BA RES 6501 PESD5V0S1BA I545 27K SC2_STATUS SC2_C_IN_ITV I557 SC2_C_IN 100R RES 2524 3553 75R F +5V_SW 3519 15R 3538 4K7 2536 I551 2525 I543 220n SC1_FBL_IN 220n 3522 68R RES 2526 5V2 I530 3V 3525 1K0 I552 RES 4502 3V7 7500 BC847B I544 3521 I528 SC2_CVBS_MON_OUT I556 SC2_CVBS_MON_OUT_ITV 68R RES 2538 3546 75R SC1_CVBS_IN 3529 100R RES 2530 SC2_Y_CVBS_IN_ITV I533 100R 3531 75R SC2_Y_CVBS_IN H +5V_SW 15R F530 G 1K0 7502 BC857BW 3555 3545 E 6K8 3551 RES 6524 2518 F544 21 3532 SC2_AUDIO_IN_R F529 MTJ-505H-01 NI LF RES 2531 PESD5V0S1BA 1514 F527 I517 220n 3552 RES 6509 100R C D PESD5V0S1BA 16 18 RES 2529 RES 6505 1500 2508 330p 2514 1501 1503 1533 PESD5V0S1BA PESD5V0S1BA 330p SC1_G_IN 2509 3524 1524 H F540 I577 TO BE REMOVED FOR ITV 4506 F523 RES 6525 1523 1522 G RGB-R_out/YC-C_in 3523 15 PESD5V0S1BA 4510 1520 MTJ-505H-01 NI LF 13 14 RES 2527 1513 12 RES 6510 1519 21 F 3518 27K SC1_STATUS PESD5V0S1BA F528 F539 SC2_AUDIO_OUT_L SC2_AUDIO_MUTE_L F543 3506 3550 11 1518 20 1510 10 1521 Video_in F532 8 9 1515 19 Function_Sw 4505 RES FOR ROW Terr_CVBS_out F526 SC1_B_IN 100R 6512 F525 18 F538 SC2_AUDIO_OUT_R I512 3502 150R 3512 1N4148 RES 17 F524 150R F518 6 Audio-L_in 6513 RGB-BL_in 16 F531 F514 F516 4 1N4148 RES 15 1517 RGB-R_in 3 7 RES 2528 150R I510 150R 5 3515 33K 75R 14 E 2 Audio-L_out I541 3516 3517 1516 13 Audio-R_in F512 6K8 1512 2523 1n0 F510 SC1_AUDIO_IN_L 220n 3520 F522 150R 1 Audio-R_out 2521 F537 75R 12 1535 3511 33K 2517 1n0 3526 RGB-G_in 11 1511 10 1502 220n 3514 9 AV IN SC1_AUDIO_IN_R 1K0 F521 CODE 2422 025 20251 IN ECM 2515 150R 75R 8 SC1_AUDIO_OUT_L SC1_AUDIO_MUTE_L F536 3530 Function_Sw SC2_AUDIO_MUTE_R 3500 3510 75R F520 SC1_AUDIO_OUT_R F535 3533 7 3507 3536 RGB-B_in F534 150R PESD5V0S1BA PESD5V0S1BA PESD5V0S1BA F519 PESD5V0S1BA PESD5V0S1BA PESD5V0S1BA PESD5V0S1BA PESD5V0S1BA 6 RES 6507 D Audio-L_in 1531 1532 5 RES 6514 F517 RES 6520 F515 4 RES 6515 3 RES 6516 Audio-L_out RES 6521 F513 RES 6517 2 RES 6511 Audio-R_in 4509 Audio-R_out RES 6504 F511 1 RES 6519 1504 C PESD5V0S1BA 1534 4508 CVI-2 / AV OUT RES 6518 3503 150R 3540 4K7 2534 I553 2533 I548 220n I 220n 7503 BC847B I549 RES I558 4504 3537 7504 BC857BW 3554 I554 1 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 SC1_RF_OUT_CVBS SC1_CVBS_RF_OUT 68R RES FOR ITV 3139 123 6349.1 I578 1K0 I_17760_013.eps 180208 12 13 I 1500 C9 1501 C9 1502 D7 1503 D9 1504 C1 1505 A8 1506 A5 1507 A4 1508 A1 1509 A11 1510 E9 1511 D2 1512 E2 1513 E8 1514 E9 1515 F8 1516 E2 1517 E2 1518 G9 1519 F2 1520 G2 1521 H9 1522 G2 1523 H2 1524 H2 1531 C2 1532 D2 1533 E9 1534 C2 1535 D2 2502 C10 2506 C10 2508 B3 2509 D11 2512 D10 2514 C3 2515 C4 2517 D4 2518 D11 2520 E10 2521 D4 2523 D4 2524 F10 2525 G10 2526 G9 2527 F3 2528 E3 2529 F3 2530 H10 2531 G3 2533 I10 2534 I10 2535 H3 2536 G9 2538 H3 3500 B10 3502 C10 3503 B3 3506 D10 3507 C3 3508 D10 3510 C3 3511 D4 3512 D10 3513 E10 3514 D3 3515 D4 3516 E4 3517 E3 3518 E3 3519 G10 3520 E3 3521 G12 3522 G9 3523 F4 3524 I11 3525 G10 3526 F3 3528 F4 3529 H10 3530 G3 3531 H10 3532 G4 3533 G3 3535 H3 3536 H4 3537 I12 3538 G11 3540 I11 3545 H3 3546 H3 3550 E10 3551 E10 3552 F10 3553 F10 3554 I12 3555 H12 3559 B7 4502 G11 4504 I12 4505 F8 4506 F9 4508 C2 4509 C2 4510 G2 6501 D9 6504 D3 6505 E9 6507 D3 6509 F9 6510 H9 6511 H3 6512 G4 6513 G4 6514 E3 6515 F3 6516 G3 6517 H3 6518 C3 6519 C3 6520 E3 6521 G3 6522 C9 6523 C9 6524 E9 6525 G9 7500 G10 7502 G11 7503 I10 7504 I11 F346 A2 F347 A2 F348 A2 F349 A2 F351 A2 F352 A2 F353 A2 F354 B2 F510 D8 F511 C2 F512 D8 F513 C2 F514 D8 F515 C2 F516 D8 F517 C2 F518 D8 F519 D2 F520 D2 F521 D2 F522 D2 F523 F9 F524 E2 F525 E2 F526 F2 F527 F8 F528 F2 F529 F8 F530 H5 F531 E2 F532 E9 F534 B4 F535 C4 F536 C4 F537 D4 F538 E5 F539 E5 F540 F5 F541 F5 F542 G5 F543 C10 F544 D10 F612 B9 F613 B9 I510 B10 I512 C10 I517 D11 I520 D11 I528 G12 I530 G10 I533 H12 I541 D5 I543 G10 I544 G11 I545 E10 I548 I11 I549 I11 I550 G4 I551 G10 I552 G11 I553 I10 I554 I12 I556 H12 I557 F11 I558 I12 I562 A4 I563 B4 I564 B4 I565 A6 I567 A6 I568 A6 I570 B6 I571 B6 I572 A9 I573 A9 I574 A9 I575 A11 I576 A11 I577 F8 I578 I12 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 68 SSB: VGA, PC Audio, ComPair, UART 1 3 2 4 5 6 7 8 11 12 13 B06C +3V3_STBY 3E86 3E87 FE15 A VCC Φ Y1 2 INH 1 Y2 COM GND 6 IE16 7 6 FE16 UART_0R X UART_0TX UART_1RX UART_1TX 3 4 Y2 COM GND 1 7 4E11 Y1 INH TO MJC 8 8 Φ 5 4E12 IE14 UART_TX 7E03 SN74LVC2G53DCU VCC 3 4 6E10 6E09 A 2 BZX384-C6V8 BZX384-C6V8 1106 5 100n FE17 B FE20 FE21 MICROP B03 COMPAI R SDA 0 1 2 IE22 VGA_H 2 2 D E DIGITIAL AUDIO OUT +5V_SW 3E79 RES 6E05 PESD5V0S1BA 3E14 220R 3E15 2K2 IIC_SCL_up 3 FE28 1 2 3 IIC_SDA_up 100R 33p 5E71 RES 2 7E71 BC847BW IE26 30R FE31 100n 6E72 FE32 560R 68R 100n 1 IE25 3E69 2E77 IE27 3E78 3E77 IE24 2E76 SPDIF_OUT 100n F IE28 3E67 2E79 1E06 MTJ-032-21B-43 NI NE LF 3E68 SPDIF OUTPUT VGA_V 180R 3E18 220R 3E20 2K2 BZX384-C5V1 IE23 1K0 ADR 100R 3E71 1K0 SCL 3E70 1 5 1 FE24 FE26 6E08 PESD3V3L1BA 6 WC 4 FE25 FE27 7 Φ (256x8) EEPROM 1E19 FE23 1E04 MSJ-035-29D PPO (PHT) 2 100n 1 10K 7E01 M24C02-WMN6 SDA_VGA RES 6E06 UART_0TX +5V_SW SCL_VGA 120R UART_0RX C WR_EN 120R UART_1R X MT8280_EN DC_5V DC_5V PESD5V0S1BA 1E14 7E02 SN74LVC2G53DCU 2E14 IE12 60R 5E14 1E15 F 30R UART_1TX IE19 5E01 5E13 2E10 100p 3E83 4K7 A 30R 5E16 IE11 UART_RX FE22 2E07 FE30 +3V3_SW 100n MT8280_EN 3E11 10K 2E09 100p 30R FROM VPbPr & SVHS 3E09 FE29 5E15 FROM ANALOG-IOs 330p 2E06 330p 2E05 E +3V3_SW 5E18 VGA_B_IN 10K D 2E13 30R 33R 33R 33R 3E06 75R RES +3V3_STBY 5E17 4E13 4E14 IE15 DC_5V 3E10 10K 1107 1 RES 2E78 1n0 3E05 3E84 3E85 3 FE18 RES 2E03 10p FE13 FE14 2 VGA_G_IN 6E07 PESD3V3L1BA 3E08 IE20 IE13 33R 3E04 75R BAS316 2E04 100n IE21 1K0 2E12 3E03 RES 2E02 10p 8 2E11 1n0 C 3E82 4K7 UART (SERVICE) 1311 MSJ-035-29D PPO (PHT) 6E04 IE18 150R VGA_R_IN 33R 3E02 75R RES +3V3_STBY RES +3V3_SW 1E18 IE17 3E07 IE10 1E21 1226-00B-15S-FAE-02 RES 6E03 1E13 FE19 RES 2E01 10p 3E12 17 RES 6E02 1E12 FE12 3E01 PESD5V0S1BA PESD5V0S1BA PESD5V0S1BA 1 9 2 10 3 11 4 12 5 13 6 14 7 15 8 FE11 1E11 16 RES FE10 RES 6E01 1E01 4K7 4K7 VGA B 10 VGA, PC AUDIO, COMPAIR, UART B06C A 9 RES PC / DVI AUDIO G G 1E02 1 33K 220n 3n3 3E22 IE29 2E20 IE30 2E21 3E21 150R 220n 33K IE31 2E22 IE32 3n3 3E24 3E23 150R 2E23 H FE34 1E17 2 YKB11-3001V RED PESD5V0S1BA PESD5V0S1BA 1E16 1E07 1 RES 6E21 FE33 RES 6E22 2 YKB11-3002V WHITE 5mm x 4.02mm Slot Screw Hole VGA_AUDIO_IN_L 1E90 4.02mm Round Screw Hole EMC REF HOLE 1E96 EMC REF HOLE 1E92 EMC REF HOLE 1E93 EMC REF HOLE 1E94 EMC REF HOLE 1E95 EMC HOLE VGA_AUDIO_IN_R H I_17760_014.eps 180208 3139 123 6349.1 1 1E97 EMC REF HOLE 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 12 13 1106 B7 1107 B7 1311 A6 1E01 A1 1E02 G1 1E04 C6 1E06 F6 1E07 H1 1E11 A2 1E12 B2 1E13 B2 1E14 E2 1E15 F2 1E16 G2 1E17 H2 1E18 D7 1E19 D7 1E21 F7 1E90 G7 1E92 G10 1E93 G11 1E94 G11 1E95 G12 1E96 G8 1E97 G13 2E01 A3 2E02 B3 2E03 B3 2E04 C3 2E05 D2 2E06 D2 2E07 D5 2E09 E2 2E10 F2 2E11 C2 2E12 C2 2E13 A10 2E14 A11 2E20 G3 2E21 G3 2E22 H3 2E23 H3 2E76 F10 2E77 F8 2E78 F7 2E79 F7 3E01 A4 3E02 A3 3E03 B4 3E04 B3 3E05 B4 3E06 B3 3E07 C2 3E08 C2 3E09 C3 3E10 D2 3E11 D3 3E12 D4 3E14 E4 3E15 E3 3E18 F4 3E20 F3 3E21 G3 3E22 G3 3E23 H3 3E24 H3 3E67 F9 3E68 F8 3E69 F9 3E70 D7 3E71 D7 3E77 F8 3E78 F8 3E79 F9 3E82 A8 3E83 A8 3E84 A7 3E85 B7 3E86 A8 3E87 A8 4E11 B10 4E12 B10 4E13 B12 4E14 B12 5E01 C3 5E13 E3 5E14 F3 5E15 A9 5E16 A11 5E17 A9 5E18 A11 5E71 F7 6E01 A3 6E02 B3 6E03 B3 6E04 C3 6E05 E3 6E06 F3 6E07 D7 6E08 D7 6E09 B7 6E10 B7 6E21 H2 6E22 H2 6E72 F7 7E01 D4 7E02 A9 7E03 A11 7E71 F8 FE10 A2 FE11 A2 FE12 A2 FE13 A7 FE14 A7 FE15 B11 FE16 B12 FE17 B12 FE18 B6 FE19 B2 FE20 B12 FE21 B9 FE22 D5 FE23 D4 FE24 D7 FE25 D4 FE26 D7 FE27 D4 FE28 D6 FE29 E2 FE30 F2 FE31 F7 FE32 F6 FE33 G2 FE34 H2 IE10 A4 IE11 A10 IE12 A11 IE13 B4 IE14 B9 IE15 B4 IE16 B9 IE17 C2 IE18 C3 IE19 C3 IE20 C3 IE21 C2 IE22 E3 IE23 F3 IE24 F9 IE25 F9 IE26 F8 IE27 F8 IE28 F9 IE29 G3 IE30 G4 IE31 H3 IE32 H4 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 69 SSB: HDMI Switch 1 B07A 2 3 4 5 6 7 9 8 10 12 11 13 14 15 16 HDMI SWITCH 17 B07A A A RES 4K7 47K 47K 2M46 6 WR_EN +5V_SW 4K7 47K 47K H 3M66 3M67 3M68 4M54 6 SCL DDC_SCLB 5 SDA DDC_SDAB FM26 4 2 7 WC 2M47 8 BAT54 CO L 7M17 Φ M24C02-WMN6 (256x8) EEPROM 1 0 2 1 ADR 3 FM11 FM12 RES RES 3M39 3M40 47K 47K RX0_CRXC_C+ RXC_CHDMI_CEC_A +5VHDMI_C 33p 33p 2M57 6 17 29 37 49 57 69 23 43 55 63 3M19 4K7 4K7 75 19 18 22 21 25 24 28 27 39 38 42 41 45 44 48 47 RXC_B+ RXC_BRX0_B+ RX0_BRX1_B+ RX1_BRX2_B+ RX2_B- 59 HDMI_SIDE_RXC+ 58 HDMI_SIDE_RXC62 HDMI_SIDE_RX0+ 61 HDMI_SIDE_RX065 HDMI_SIDE_RX1+ 64 HDMI_SIDE_RX168 HDMI_SIDE_RX2+ 67 HDMI_SIDE_RX2+1V8_ANA-MUX 3M10 IM46 12 470R RES 3M11 D I2CADDR TPWR I2CSEL INT RSVDL 0 DSCL 1 2 0 DSDA 1 2 C+ C0+ 0R0X 1+ 12+ 2- 0 RPWR 1 2 0 HPD 1 2 HPDIN C+ C0+ 0R1X 1+ 12+ 2- TSCL TSDA 54 53 82K C+ C0+ 0TX 1+ 12+ 2- 2M21 100n 2M19 100n 2M20 100n 2M06 100n 2M05 100n 2M03 100n 2M17 100n 2M09 100n 10u 2M04 100n 2M02 10u 2M01 10u 2M10 100n BAT54 CO L DDC_SCLC DDC_SCLB DDC_SCL_SIDE DDC_SDAC DDC_SDAB DDC_SDA_SIDE 31 51 71 RES 6M16 30 50 70 4M31 RES 6M17 RES 6M13 4M29 RES 6M18 32 52 72 RES 6M14 4M30 RES 6M15 16 36 56 76 78 77 4M05 RES 4M06 IM27 IM14 IM15 C+ C0+ 0R2X 1+ 12+ 2- +3V3_ANA-MUX 3M14 3M15 100R 100R BAT54 CO L BAT54 COL BAT54 CO L BAT54 CO L +5V_SW +5VHDMI_C BAT54 CO L +5V_SW BAT54 COL +5VHDMI_SIDE HPD_RST_C HPD_RST_B HPD_RST_SIDE HDMI_HOTPLUG_RST HPD_RST_MUX H HDMI_MUX_TSCL HDMI_MUX_TSDA HDMI_MUX_TXC+ HDMI_MUX_TXCHDMI_MUX_TX0+ HDMI_MUX_TX0HDMI_MUX_TX1+ HDMI_MUX_TX1HDMI_MUX_TX2+ HDMI_MUX_TX2- 10 11 7 8 4 5 1 2 I EXT_SWING 3M87 AGND G +5V_SW +5VHDMI_B DGND +5V_SW 47K 3M88 47K 1K0 DDC_SCLC DDC_SDAC 2M54 10p RES 2M55 10p 3M13 100R FM25 IM10 3M31 DDC_RST 3M84 +5VHDMI_C 1K0 7M09 7M22 IM43 2K2 BC847BW BC847BW IM44 3M85 RES HDMI_HOTPLUG_RST 4M40 2K2 IM09 4M41 HPD_RST_C 21 20 23 22 25 24 26 J EEPROM 4K7 47K 47K WC SCL ADR SDA 7 6 DDC_SCLC 5 DDC_SDAC 4 0 1 2 3M71 3M72 3M73 8 BAT54 CO L 7M18 Φ M24C02-WMN6 (256x8) 1 2 3 K IM45 +5V_SW 6M23 BAT54 CO L +5VHDMI_C 6M24 L 35 A CEC F RES RES 3M32 IM13 6M08 RES 4M01 FM13 DC1R019WBER220 K RX2_CRX1_C+ RX1_CRX0_C+ NC 79 3M09 LSDA EPSEL0 EPSEL1 LSCL RES 4M12 DVCC18 Φ HDMI SWITCH 100K J RX2_C+ FM15 3M86 I WR_EN HDMI C 1M03 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 15 RXC_C+ RXC_CRX0_C+ RX0_CRX1_C+ RX1_CRX2_C+ RX2_C- IM42 6M21 +5VHDMI_B 6M22 BAT54 CO L 14 IM12 AVCC18 RESET 3 9 20 26 40 46 60 66 80 3M83 DC1R019WBER220 IIC_SCL_SIDE IIC_SDA_SIDE HDMI_MUX_RST E AVCC33 13 4K7 2M52 10p RES 2M53 10p 3M07 100R IM04 IM03 3M08DDC_RST 3M81 +5VHDMI_B 7M04 1K0 BC847BW 7M21 IM40 2K2 BC847BW RES IM41 3M82 4M38 HDMI_HOTPLUG_RST 2K2 IM08 4M39 HPD_RST_B FM10 +5V_SW RES 3M18 DDC_SCLB DDC_SDAB SWITCH 1 7M07 SII9185CTU 4K7 47K 47K 100R 100R +3V3_ANA-MUX +1V8_ANA-MUX +1V8_DIG-MUX RX0_BRXC_B+ RXC_BHDMI_CEC_A +5VHDMI_B FM07 FM08 21 20 23 22 25 24 26 HDMI D BOLT ON DTV RES 3M34 4M52 4M53 RES 3M37 RES 3M38 NC D +3V3_ANA-MUX RX1_BRX0_B+ +5VHDMI_MUX_TPWR IM49 IM50 RX2_BRX1_B+ 100n 4M50 4M51 CEC_INT 100n 4M49 IM47 IM48 C 2M48 4M47 4M48 RX2_B+ 2M56 HDMI B FM06 1M04 FI-RE21S-HF-R1500 G 2M07 DDC_SDA_SIDE 4M32 RES 33 73 5 SDA 100K 3 2 DLW21S 4M45 4M46 FM19 DDC_SCL_SIDE 4 3 2 DLW21S 4 1M08 1 4 1M06 1 3 2 DLW21S 4 1M07 1 2 3 DLW21S NC 4M43 4M44 +3V3_ANA-MUX 4M20 34 74 SCL ADR 1M02 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 33R +3V3_ANA-MUX 3M20 3M21 4M42 IM36 5M01 4M10 HDMI_CEC_A FM09 4 1M09 1 F +3V3_SW B +1V8_DIG-MUX FM18 4K7 7 WC 3M61 3M62 3M63 Φ (256x8) EEPROM 0 1 2 2M16 100n RES RES 3M33 3M80 1 2 3 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 33R FM17 IM39 8 7M16 M24C02-WMN6 29 28 27 26 25 24 23 22 5M03 1-1735446-0 IM02 3M78 +5VHDMI_SIDE IM01 3M04 DDC_RST 1K0 7M02 7M20 IM37 2K2 BC847BW BC847BW RES IM38 3M79 4M36 HDMI_HOTPLUG_RST 2K2 IM07 HPD_RST_SIDE 4M37 2120 2322 +5V_SW 6M19 +5VHDMI_SIDE BAT54 CO L 6M20 BAT54 CO L E DDC_RST DDC_SCL_SIDE DDC_SDA_SIDE 2M50 10p 2M51 10p 3M03 100R FM24 33R +3V3_SW +1V8_SW +5V_SW HDMI_HOTPLUG_RST 2M15 47K 47K FM01 FM02 +1V8_ANA-MUX IM35 5M02 4M02 +1V8_SW 10u RES 3M35 RES 3M36 NC HDMI_SIDE_RX0HDMI_SIDE_RXC+ HDMI_SIDE_RXCHDMI_CEC_A +5VHDMI_SIDE IIC_SCL_SIDE IIC_SDA_SIDE HDMI_RX_BUF_RST 10u HDMI_SIDE_RX2HDMI_SIDE_RX1+ HDMI_SIDE_RX1HDMI_SIDE_RX0+ C D 1 2 3 4 5 6 7 8 9 10 HDMI_SIDE_RX2+ 100n B 1M05 HDMI SIDE FM05 100K 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 2M08 1M01 DC1R019JBAR190 WR_EN L I_17760_015.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 8 9 2009-Apr-10 10 11 12 13 14 15 16 17 1M01 A5 1M02 E5 1M03 I5 1M04 G2 1M05 A9 1M06 E3 1M07 E3 1M08 F3 1M09 F3 2M01 B13 2M02 B13 2M03 B13 2M04 B13 2M05 B13 2M06 B13 2M07 C13 2M08 C13 2M09 C13 2M10 C13 2M15 B13 2M16 B13 2M17 B13 2M19 B14 2M20 B14 2M21 B14 2M46 D7 2M47 H7 2M48 K7 2M50 C7 2M51 C7 2M52 F7 2M53 F7 2M54 J7 2M55 J7 2M56 E10 2M57 E10 3M03 C7 3M04 C8 3M07 F7 3M08 G8 3M09 G9 3M10 I9 3M11 I9 3M13 J7 3M14 H12 3M15 H12 3M18 F9 3M19 F9 3M20 E10 3M21 E10 3M31 J8 3M32 F12 3M33 D10 3M34 G9 3M35 B7 3M36 B7 3M37 F7 3M38 F7 3M39 J7 3M40 J7 3M61 D7 3M62 D7 3M63 D7 3M66 H7 3M67 H7 3M68 H7 3M71 K7 3M72 K7 3M73 K7 3M78 C6 3M79 C7 3M80 C6 3M81 G6 3M82 G7 3M83 G6 3M84 J6 3M85 K7 3M86 K6 3M87 I13 3M88 I13 4M01 F12 4M02 B12 4M05 H12 4M06 H12 4M10 C12 4M12 F12 4M20 D12 4M29 G12 4M30 H12 4M31 G12 4M32 D7 4M36 C7 4M37 C7 4M38 G7 4M39 G7 4M40 K7 4M41 K7 4M42 E4 4M43 E4 4M44 E4 4M45 F4 4M46 F4 4M47 F4 4M48 F4 4M49 F4 4M50 F4 4M51 F4 4M52 F4 4M53 F4 4M54 H7 5M01 C12 5M02 B12 5M03 B12 6M08 F13 6M13 G12 6M14 G12 6M15 H12 6M16 G12 6M17 G12 6M18 G12 6M19 D5 6M20 D5 6M21 G6 6M22 G5 6M23 K5 6M24 K5 7M02 C7 7M04 G7 7M07 F10 7M09 J7 7M16 D6 7M17 H6 7M18 K6 7M20 C6 7M21 G6 7M22 J6 FM01 B6 FM02 C6 FM05 B6 FM06 E6 FM07 F6 FM08 F6 FM09 E2 FM10 F6 FM11 J6 FM12 J6 FM13 J6 FM15 I6 FM17 B14 FM18 B14 FM19 C14 FM24 C6 FM25 J7 FM26 H7 IM01 C7 IM02 C7 IM03 G7 IM04 F7 IM07 C7 IM08 G7 IM09 K7 IM10 J7 IM12 F9 IM13 F12 IM14 H12 IM15 H12 IM27 H12 IM35 B12 IM36 C12 IM37 C6 IM38 C6 IM39 D6 IM40 G6 IM41 G6 IM42 G6 IM43 J6 IM44 K6 IM45 K6 IM46 I9 IM47 F4 IM48 F4 IM49 F4 IM50 F4 Circuit Diagrams and PWB Layouts 6 FN10 86 HDMI_I2S_WS IN33 3N20 33R 85 HDMI_I2S_SD IN34 3N21 81 33R NC H 3N52 2K2 78 75 MCLK HSYNC SCK VSYNC WS EVNODD SD ODCK 33R 20 3N14 33R 3N15 21 22 5 33R IN27 IN28 IN29 HDMI_V IN16 HPD_RST_A 7N01-3 SII9125CTU 146 147 148 149 150 151 152 100n 100n 2N16 2N20 100n 2N18 2N17 1n0 1n0 2N15 1n0 1n0 1n0 1n0 1n0 1n0 1n0 1n0 100n 100n 2N25 2N28 2N31 2N61 2N26 2N29 2N32 2N62 2N27 2N30 100n 2N33 100n 2N36 100n 100n 100n 2N35 2N40 2N37 100n 100n 2N44 1n0 2N46 +1V8_SW +3V3_SW 5N08 +3V3_SW 120R IN15 +3V3SWE 4N14 HDMI_HOTPLUG_RST 4N15 1n0 IN30 HDMI_VCLK 3N16 2N65 33p MUTEOUT 5N07 NC 33R SPDIF 2N66 100n HDMI_H RES HDMI A 2N50 HDMI_DE 100n 33R 3N13 5N06 F 100n 3N19 19 D +1V8_SW E IN14 +3V3SWD 2N56 IN32 DE 97 2N53 HDMI_I2S_SCK NC IN36 7N44 BC847BW 89 XTAL OUT REGVCC 1n0 1M0 1N02 28M322 33R GND_HS 100n IN08 7N43 BC847BW 94 3N22 IN 145 2N64 3N48 100R 100K IN35 18p NC DDC_RST 3N49 2K2 3N24 2N14 95 + R1X2 - 5N05 120R 1n0 IN17 HDMI_HOTPLUG_RST1 DC1R019WBER220 18p +1V8_SW 120R IN13 +3V3SWC 2N49 10p RES 10p 2XXX +5VHDMI_A 1K0 3N51 2N13 DDC_SCLA DDC_SDAA 3N50 G 70 69 HDMI_MUX_TX2+ HDMI_MUX_TX2- +5VHDMI_A RES FN07 47K 47K 2XXX F 3N46 3N47 1 2 3 4 1 2 3 4 6 18 32 74 88 104 113 125 137 2N58 TXC_A- RES RES NC + R1X1 - HDMI_Cr(0) HDMI_Cr(1) HDMI_Cr(2) HDMI_Cr(3) HDMI_Cr(4) HDMI_Cr(5) HDMI_Cr(6) HDMI_Cr(7) HDMI_Cr(8) HDMI_Cr(9) 1n0 66 65 3N09 3N10 3N11-1 3N11-2 3N11-3 3N11-4 3N12-1 3N12-2 3N12-3 3N12-4 1n0 HDMI_MUX_TX1+ HDMI_MUX_TX1- 33R 33R 8 33R 7 33R 6 33R 5 33R 8 33R 7 33R 6 33R 5 33R NC NC 2N55 TX0_ATXC_A+ + R1X0 - 2N43 62 61 1n0 HDMI_MUX_TX0+ HDMI_MUX_TX0- 4 17 31 73 87 103 112 124 136 2N52 TX1_ATX0_A+ + R1XC - 5N04 120R IN12 1n0 58 57 1n0 HDMI_MUX_TXC+ HDMI_MUX_TXC- 12 24 25 80 91 107 119 131 143 2N41 TX2_ATX1_A+ HDMI_Y(0) HDMI_Y(1) HDMI_Y(2) HDMI_Y(3) HDMI_Y(4) HDMI_Y(5) HDMI_Y(6) HDMI_Y(7) HDMI_Y(8) HDMI_Y(9) IN11 +1V8SWC 92 1n0 E + R0X2 - 33R 33R 833R 733R 633R 533R 833R 7 33R 6 33R 5 33R +3V3_SW 120R 96 2N39 52 51 1 2 3 4 1 2 3 4 DVCC18 IN10 2N59 TX2_A+ FN08 + R0X1 - 3N05 3N07 3N04-1 3N04-2 3N04-3 3N04-4 3N06-1 3N06-2 3N06-3 3N06-4 XTALVCC 1n0 TX2_A+ TX2_A- 1XXX + R0X0 - DGND 1n0 48 47 11 23 79 90 106 118 130 142 120R C +1V8SWB 2N48 TX1_A+ TX1_A- Q NC NC 93 38 42 46 50 56 60 64 68 2N45 44 43 + R0XC - 36 41 45 49 53 59 63 67 71 1n0 FN09 TX0_A+ TX0_A- R0PWR5V R1PWR5V HDMI_Cb(0) HDMI_Cb(1) HDMI_Cb(2) HDMI_Cb(3) HDMI_Cb(4) HDMI_Cb(5) HDMI_Cb(6) HDMI_Cb(7) HDMI_Cb(8) HDMI_Cb(9) 1n0 40 39 HDMI_CEC_A SCDT 33R 33R 8 33R 7 33R 6 33R 533R 8 33R 7 33R 6 33R 5 33R 2N54 35 30 3N01 3N03 3N02-1 1 3N02-2 2 3N02-3 3 3N02-4 4 3N08-1 1 3N08-2 2 3N08-3 3 3N08-4 4 2N63 101 4N08 +5VHDMI_MUX_TPWR TXC_A+ TXC_A- 4N07 CI2CA 4K7 NC NC 1n0 NC +5VHDMI_A D 105 4K7 16 15 14 13 10 9 8 7 3 2 1 144 141 140 139 138 135 134 133 132 129 128 127 126 123 122 121 120 117 116 115 114 111 110 109 108 2N34 3N34 2N70 33p 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 1n0 2N69 33p CSCL CSDA 37 54 72 2N38 27 26 100R 100R 3N33 99 1n0 3N39 3N40 AVCC18 IIC_SCL_SIDE IIC_SDA_SIDE RSVDL AVCC33 DDC_SDAA DSCL1 DSDA1 CVCC18 5 29 28 FN02 B IN09 +3V3SWB IOVCC33 HDMI_MUX_TSDA +3V3_SW 5N03 7N01-2 SII9125CTU POWER SDA DDC_SCLA 5N02 A 120R NC AGND ADR 6 RSVDNC DSCL0 DSDA0 +1V8_SW 5N09 +3V3_SW G 120R 166 167 168 169 170 SCL RESET 55 76 77 82 83 84 98 CGND 8 WC EEPROM 0 1 2 FN01 HDMI_MUX_TSCL 4 C 1 2 3 34 33 MAIN INT IOGND 100 WR_EN 7 IN06 +3V3SWA 102 Φ (256x8) IN07 5N01 120R 2N42 4N06 1n0 FN04 2N51 4N05 DDC_SDAA 7N01-1 SII9125CTU FXXX 13 1n0 FN03 2N68 3N42 3N43 3N41 6N42 BAT54 COL 12 2N60 RES 4K7 3N38 3N37 4K7 DDC_SCLA +5VHDMI_A 7N40 M24C02-WMN6 11 +1V8SWA RES 4K7 BAT54 COL B 10 9 8 7 +3V3_ANA-MUX IN31 6N41 EN 70 HDMI_RX_BUF_RST 100n +5V_SW 5 4 HDMI MAIN B07B 47K 47K A 3 10. 2N47 SSB: HDMI Main 1 2 LC8.2HA LA VIA VIA VIA VIA H 159 160 161 162 163 164 165 VIA I 153 154 155 156 157 158 I "N00 ~ N99" J MULTIPLE 12NC : 3139_123_63481 SINGLE 12NC : 3139_123_63491 J I_17760_016.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 12 13 1N02 E5 1N03 D2 2N13 E5 2N14 E5 2N15 A10 2N16 A10 2N17 A10 2N18 A10 2N20 A10 2N25 B10 2N26 B10 2N27 B11 2N28 B10 2N29 B10 2N30 B11 2N31 B10 2N32 B11 2N33 C11 2N34 C10 2N35 D11 2N36 C11 2N37 D11 2N38 D10 2N39 D10 2N40 D11 2N41 D10 2N42 D10 2N43 D10 2N44 D11 2N45 D10 2N46 D11 2N47 D11 2N48 D10 2N49 E11 2N50 E11 2N51 E10 2N52 E10 2N53 E11 2N54 E10 2N55 E11 2N56 E11 2N58 E11 2N59 E10 2N60 F10 2N61 B10 2N62 B11 2N63 E10 2N64 F11 2N65 F8 2N66 C10 2N68 B3 2N69 C5 2N70 C5 2N71 E3 2N72 E3 3N01 C7 3N02-1 C7 3N02-2 C7 3N02-3 C7 3N02-4 C7 3N03 C7 3N04-1 D7 3N04-2 D7 3N04-3 D7 3N04-4 D7 3N05 D7 3N06-1 D7 3N06-2 D7 3N06-3 D7 3N06-4 D7 3N07 D7 3N08-1 C7 3N08-2 C7 3N08-3 C7 3N08-4 C7 3N09 D7 3N10 D7 3N11-1 E7 3N11-2 E7 3N11-3 E7 3N11-4 E7 3N12-1 E7 3N12-2 E7 3N12-3 E7 3N12-4 E7 3N13 E7 3N14 E7 3N15 E7 3N16 F7 3N19 E5 3N20 F5 3N21 F5 3N22 E5 3N24 E5 3N33 B8 3N34 C6 3N37 A5 3N38 A5 3N39 C5 3N40 C5 3N41 B2 3N42 B2 3N43 B3 3N46 E2 3N47 E2 3N48 F2 3N49 F3 3N50 E2 3N51 F2 3N52 F3 4N05 A5 4N06 B5 4N07 C6 4N08 C6 4N14 F3 4N15 F3 5N01 A12 5N02 A12 5N03 B12 5N04 C12 5N05 C12 5N06 D12 5N07 D12 5N08 E12 5N09 F12 6N41 A2 6N42 B2 7N01-1 B7 7N01-2 B9 7N01-3 F9 7N40 B2 7N43 F3 7N44 F2 FN10 A5 FN11 B5 FN12 B3 FN13 B5 FN14 B5 FN15 C3 FN16 D2 FN17 E2 FN18 F4 IN10 A12 IN11 A2 IN12 A12 IN13 B12 IN14 C12 IN15 C12 IN16 D12 IN17 D12 IN18 E12 IN19 E8 IN20 E8 IN21 E5 IN22 E8 IN23 E3 IN24 E5 IN25 F5 IN26 F8 IN27 F12 IN28 F2 IN29 F3 IN30 F3 IN31 F3 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 71 SSB: MJC MT8280 LVDS 1 B08A 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 MJC MT8280 - LVDS 17 B08A A A B B C C 100n 100n 10u 2B37 2B38 +3V3_SW D 2B27 5B17 2B36 1u0 FB17 30R 1u0 10n 10u 5B13 2B26 100n 2B24 2B25 10n 10u 2B23 100n 2B21 2B34 FROM LVDS 2B22 FB16 30R 100n 5B16 FB13 2B35 10u 16V 1u0 2B19 +1V2_SW +3V3_SW FB12 30R 2B20 1u0 1u0 2B33 5B12 +3V3_SW +3V3_SW 2B18 10n 10u 2B17 100n 2B15 2B16 10u 30R 2B32 10u 5B15 100n 100n 2B30 30R 2B31 10n 100n 10u 16V 10u 2B14 2B13 2B12 2B11 2B10 5B11 FB15 FB14 2B29 30R FB11 FB10 1u0 5B14 +3V3_SW 30R 2B28 D 1u0 5B10 +3V3_SW 30R +3V3_SW FROM LVDS AA11 AB11 Φ LVDS_RX N ROCLK P RECLK N P AA14 AB14 AA15 AB15 AA16 AB16 AA18 AB18 AA19 AB19 TxFPGAe_0n TxFPGAe_0p TxFPGAe_1n TxFPGAe_1p TxFPGAe_2n TxFPGAe_2p TxFPGAe_3n TxFPGAe_3p TxFPGAe_4n TxFPGAe_4p AA17 AB17 TxFPGAe_CLKp TxFPGAe_CLKn AA7 NC AB7 NC W11 W9 W10 W8 N CLKGEN_CK P AVSS33 LVDS RXE RXO CLKGENPLL VIPLL Y12 Y13 B15 A15 B16 A16 B17 A17 B19 A19 B20 A20 LVDS_A_TXeCLK n LVDS_A_TXeCLK p B18 A18 LVDS_A_TXo0n LVDS_A_TXo0p LVDS_A_TXo1n LVDS_A_TXo1p LVDS_A_TXo2n LVDS_A_TXo2p LVDS_A_TXo3n LVDS_A_TXo3p LVDS_A_TXo4n LVDS_A_TXo4p B9 A9 B10 A10 B11 A11 B13 A13 B14 A14 LVDS_A_TXoCLK n LVDS_A_TXoCLK p B12 A12 0N 0P 1N 1P 2N 2P 3N 3P 4N 4P VPLL Φ LVDS_TX BE N AECK P 0N 0P 1N 1P 2N 2P 3N 3P 4N 4P 0N 0P 1N 1P 2N 2P 3N 3P 4N 4P BECK BO AO N AOCK P C20 E A22 D20 E20 F20 G20 H20 TXB AVDD33 AE AVSS12 G LVDS_A_TXe0n LVDS_A_TXe0p LVDS_A_TXe1n LVDS_A_TXe1p LVDS_A_TXe2n LVDS_A_TXe2p LVDS_A_TXe3n LVDS_A_TXe3p LVDS_A_TXe4n LVDS_A_TXe4p C9 C10 C11 C12 C13 C14 D19 Y11 0N 0P 1N 1P 2N RE 2P 3N 3P 4N 4P TXA BECK TXA AVSS33 TXB N P 0N 0P 1N 1P 2N 2P 3N 3P 4N 4P N P TN2 TP2 J21 J22 K21 K22 L21 L22 N21 N22 P21 P22 LVDS_B_TXe0n LVDS_B_TXe0p LVDS_B_TXe1n LVDS_B_TXe1p LVDS_B_TXe2n LVDS_B_TXe2p LVDS_B_TXe3n LVDS_B_TXe3p LVDS_B_TXe4n LVDS_B_TXe4p M21 M22 LVDS_B_TXeCLK n LVDS_B_TXeCLK p C21 C22 D21 D22 E21 E22 G21 G22 H21 H22 LVDS_B_TXo0n LVDS_B_TXo0p LVDS_B_TXo1n LVDS_B_TXo1p LVDS_B_TXo2n LVDS_B_TXo2p LVDS_B_TXo3n LVDS_B_TXo3p LVDS_B_TXo4n LVDS_B_TXo4p F21 F22 LVDS_B_TXoCLK n LVDS_B_TXoCLK p B21 A21 F G NC NC VPLL B22 TxFPGAo_CLKn TxFPGAo_CLKp 0N 0P 1N 1P 2N RO 2P 3N 3P 4N 4P AVDD12 AA8 AB8 AA9 AB9 AA10 AB10 AA12 AB12 AA13 AB13 7G01-3 MT8280 VIPLL J20 K20 L20 M20 N20 P20 F TxFPGAo_0n TxFPGAo_0p TxFPGAo_1n TxFPGAo_1p TxFPGAo_2n TxFPGAo_2p TxFPGAo_3n TxFPGAo_3p TxFPGAo_4n TxFPGAo_4p RXE RXO LVDS AVDD33 C15 C16 C17 C18 C19 CLKGENPLL Y9 Y10 Y8 E Y14 Y15 FROM LVDS 7G01-4 MT8280 FROM LVDS H H I I J J K K L L I_17760_017.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 8 9 2009-Apr-10 10 11 12 13 14 15 16 17 2B10 D3 2B11 D3 2B12 D4 2B13 D4 2B14 D4 2B15 D6 2B16 D6 2B17 D6 2B18 D7 2B19 D10 2B20 D11 2B21 D11 2B22 D11 2B23 D11 2B24 D13 2B25 D13 2B26 D13 2B27 D14 2B28 E3 2B29 E4 2B30 E4 2B31 E6 2B32 E6 2B33 E7 2B34 E11 2B35 E11 2B36 E13 2B37 E13 2B38 E13 3B01-1 E4 3B01-2 E4 3B01-3 E4 3B01-4 E4 3B02-1 F4 3B02-2 F4 3B02-3 E4 3B02-4 F4 3B03-1 F4 3B03-2 F4 3B03-3 F4 3B03-4 F4 3B04-1 E6 3B04-2 E6 3B04-3 E6 3B04-4 E6 3B05-1 E6 3B05-2 F6 3B05-3 F6 3B05-4 F6 3B06-1 F6 3B06-2 F6 3B06-3 F6 3B06-4 F6 5B10 D3 5B11 D7 5B12 D11 5B13 D14 5B14 D3 5B15 D7 5B16 D11 5B17 D14 7G01-3 E12 7G01-4 E5 FB10 D4 FB11 D6 FB12 D11 FB13 D13 FB14 D4 FB15 D6 FB16 D11 FB17 D13 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 72 SSB: MJC MT8280 DDR 1 2 B08B 3 4 5 6 7 8 9 10 12 11 MJC MT8280 - DDR B08B +1V8_SW +1V8_SW 5F01 30R 2F59 2F60 2F61 P4 P5 RCLK0 DQ RVREF RCLK1 DQM 0 1 2 3 BA 0 1 DQS0 DQS1 DQS2 DQS3 RODT UP REXT DN 3F31 3F32 3F33 3F34 22R 22R 22R 22R A2 B1 Y1 AB1 MJC_RDQM0 MJC_RDQM1 MJC_RDQM2 MJC_RDQM3 N2 N1 MJC_RBA0 MJC_RBA1 A3 B3 C2 C1 W1 W2 AA2 AB2 MJC_RDQS0n MJC_RDQS0 MJC_RDQS1n MJC_RDQS1 MJC_RDQS2n MJC_RDQS2 MJC_RDQS3n MJC_RDQS3 MJC_RODT G2 A6 B7 3F37 3F38 33R 33R +1V8_SW 22n 2F88 22n 2F87 22n 2F86 22n 22n 2F85 2F84 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 6 47R 47R 8 47R 7 47R 5 47R 6 47R 7 47R 8 47R 4u7 2F65 2F66 2F67 2F68 2F69 2F70 2F71 2F72 2F73 2F74 2F75 2F76 2F77 6 47R 3 K9 K2 K3 L8 K7 L7 MJC_RBA0 MJC_RBA1 MJC_RA(0:12) MJC_RA(0) MJC_RA(1) MJC_RA(2) MJC_RA(3) MJC_RA(4) MJC_RA(5) MJC_RA(6) MJC_RA(7) MJC_RA(8) MJC_RA(9) MJC_RA(10) MJC_RA(11) MJC_RA(12) 3F35 MJC_RCLK0 MJC_RCLK0n L2 L3 M8 M3 M7 N2 N8 N3 N7 P2 P8 P3 M2 P7 R2 100R J8 K8 MJC_RDQS0 MJC_RDQS0n F7 E8 MJC_RDQS1 MJC_RDQS1n B7 A8 1 2 4 3 2 1 3 ODT CKE WE CS RAS CAS SDRAM NC 0 BA 1 0 1 2 3 4 5 6 A 7 8 9 10 11 12 DQ CK 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 UDM LDM LDQS VREF A3 E3 J3 N1 P9 VSS 22n 2F93 22n 2F92 22n 2F91 22n 22n 2F89 A2 E2 L1 R3 R7 R8 G8 G2 H7 H3 H1 H9 F1 F9 C8 C2 D7 D3 D1 D9 B1 B9 B3 F3 J2 NC NC NC NC NC NC MJC_RDQ(0:31) MJC_RDQ(0) MJC_RDQ(1) MJC_RDQ(2) MJC_RDQ(3) MJC_RDQ(4) MJC_RDQ(5) MJC_RDQ(6) MJC_RDQ(7) MJC_RDQ(8) MJC_RDQ(9) MJC_RDQ(10) MJC_RDQ(11) MJC_RDQ(12) MJC_RDQ(13) MJC_RDQ(14) MJC_RDQ(15) MJC_RDQM1 MJC_RDQM0 MJC_VREF MJC_RODT MJC_RCKE MJC_RWEn MJC_RCSn MJC_RRASn MJC_RCASn K9 K2 K3 L8 K7 L7 MJC_RBA0 MJC_RBA1 MJC_RA(0:12) MJC_RA(0) MJC_RA(1) MJC_RA(2) MJC_RA(3) MJC_RA(4) MJC_RA(5) MJC_RA(6) MJC_RA(7) MJC_RA(8) MJC_RA(9) MJC_RA(10) MJC_RA(11) MJC_RA(12) 3F36 MJC_RCLK1 MJC_RCLK1n L2 L3 M8 M3 M7 N2 N8 N3 N7 P2 P8 P3 M2 P7 R2 100R VDD ODT CKE WE CS RAS CAS 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n C D VDDQ Φ SDRAM NC 0 BA 1 0 1 2 3 4 5 6 A 7 8 9 10 11 12 J8 K8 CK MJC_RDQS2 MJC_RDQS2n F7 E8 LDQS MJC_RDQS3 MJC_RDQS3n B7 A8 UDQS VSSQ 2F28 2F32 2F34 2F36 2F38 2F40 2F42 2F44 2F46 2F48 2F50 2F52 2F54 2F56 2F58 A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 7F02 EDE2516ACSE-6E-E VDDQ Φ UDQS 2F90 3F13-3 3F40 3F12-1 3F12-2 3F14-4 3F14-3 3F14-2 3F14-1 3F11-3 3F09-2 3F11-4 3F13-1 3F12-3 VDD J1 7F01 EDE2516ACSE-6E-E MJC_RODT MJC_RCKE MJC_RWEn MJC_RCSn MJC_RRASn MJC_RCASn FF14 2F26 VDDL MJC_RCSn MJC_RRASn MJC_RCASn MJC_RWEn MJC_RCKE MJC_RCLK0n MJC_RCLK0 MJC_RCLK1n MJC_RCLK1 100u 16V 4u7 A1 E1 J9 M9 R1 J4 H1 H3 P1 R2 F1 F2 AA6 AB6 2F31 DQ 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 UDM LDM A2 E2 L1 R3 R7 R8 G8 G2 H7 H3 H1 H9 F1 F9 C8 C2 D7 D3 D1 D9 B1 B9 MJC_RDQ(0:31) MJC_RDQ(16) MJC_RDQ(17) MJC_RDQ(18) MJC_RDQ(19) MJC_RDQ(20) MJC_RDQ(21) MJC_RDQ(22) MJC_RDQ(23) MJC_RDQ(24) MJC_RDQ(25) MJC_RDQ(26) MJC_RDQ(27) MJC_RDQ(28) MJC_RDQ(29) MJC_RDQ(30) MJC_RDQ(31) B3 F3 MJC_RDQM3 MJC_RDQM2 J2 MJC_VREF VREF VSS NC NC NC NC NC NC E F VSSQ A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 MJC_VREF 100n 4u7 100n RCS RAS CAS RWE CKE 2F24 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n VSSDL F RA 2F27 2F30 2F33 2F35 2F37 2F39 2F41 2F43 2F45 2F47 2F49 2F51 2F53 2F55 2F57 J7 E 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 K3 L1 L2 M2 L3 P3 K2 M3 J2 N4 L4 J1 R3 FF13 2F25 A3 E3 J3 N1 P9 D C7 B4 D5 A5 B6 C5 C4 D6 G3 E3 D2 E4 D3 E1 F4 H4 U3 U1 U4 T2 T1 T4 V3 V2 Y4 AA3 AB5 Y3 W4 AA5 W5 AB4 0 1 2 3 4 5 6 7 8 9 10 11 12 +1V8_SW A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 Φ DRAM MJC_RA(0:12) MJC_RA(0) MJC_RA(1) MJC_RA(2) MJC_RA(3) MJC_RA(4) MJC_RA(5) MJC_RA(6) MJC_RA(7) MJC_RA(8) MJC_RA(9) MJC_RA(10) MJC_RA(11) MJC_RA(12) 100u 16V 4u7 A1 E1 J9 M9 R1 2F29 J1 7G01-2 MT8280 MJC_RDQ(0:31) MJC_RDQ(0) MJC_RDQ(1) MJC_RDQ(2) MJC_RDQ(3) MJC_RDQ(4) MJC_RDQ(5) MJC_RDQ(6) MJC_RDQ(7) MJC_RDQ(8) MJC_RDQ(9) MJC_RDQ(10) MJC_RDQ(11) MJC_RDQ(12) MJC_RDQ(13) MJC_RDQ(14) MJC_RDQ(15) MJC_RDQ(16) MJC_RDQ(17) MJC_RDQ(18) MJC_RDQ(19) MJC_RDQ(20) MJC_RDQ(21) MJC_RDQ(22) MJC_RDQ(23) MJC_RDQ(24) MJC_RDQ(25) MJC_RDQ(26) MJC_RDQ(27) MJC_RDQ(28) MJC_RDQ(29) MJC_RDQ(30) MJC_RDQ(31) 47R 47R 47R 47R 7 5 8 6 2 4 1 3 47R 47R 47R 47R 6 7 5 8 3 2 4 1 2F23 MJC_VREF C B RES FOR EMC +1V8_SW VDDL TO MJC-DDR MJC_RBA1 MJC_RBA0 MJC_RWEn MJC_RCKE MJC_RCASn MJC_RRASn MJC_RCSn MJC_RODT VSSDL +1V8_SW 75R 1% 3B19 RES J7 FF12 MJC_RA(0:12) MJC_RA(0) MJC_RA(1) MJC_RA(2) MJC_RA(3) MJC_RA(4) MJC_RA(5) MJC_RA(6) MJC_RA(7) MJC_RA(8) MJC_RA(9) MJC_RA(10) MJC_RA(11) MJC_RA(12) +1V8_SW A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 GND 1 2F81 4 VREF 100u 16V 4u7 100n 3F09-3 3F11-2 3F12-4 3F11-1 VSENSE PVIN 5 7 8 5 47R 47R 47R 47R 3 AVIN 100n B 2F64 2F79 2F80 75R 1% 6 +1V8_SW +0V9_VTT FF11 3F41 RES 7 8 VTT SD_ 1u0 100n 2 7F03 LP2996M 4 2 1 4 5 IF01 4K7 A 100n 2F82 2F83 3F39 2F63 4F01 RES +1V8_SW FF10 100u 16V VDDQ 2F62 +0V9_VTT 3F09-4 3F13-2 3F09-1 3F13-4 A MEM_VREF G DDR #1 G DDR #2 H H I_17760_018.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 12 2F23 C6 2F24 C10 2F25 C7 2F26 C10 2F27 C7 2F28 C10 2F29 C6 2F30 C7 2F31 C10 2F32 C10 2F33 C7 2F34 C10 2F35 C7 2F36 C10 2F37 C7 2F38 C10 2F39 C7 2F40 C10 2F41 C7 2F42 C10 2F43 D7 2F44 D10 2F45 D7 2F46 D10 2F47 D7 2F48 D10 2F49 D7 2F50 D10 2F51 D7 2F52 D10 2F53 D7 2F54 D10 2F55 D7 2F56 D10 2F57 D7 2F58 D10 2F59 F2 2F60 F2 2F61 F2 2F62 A2 2F63 A3 2F64 B3 2F65 B7 2F66 B7 2F67 B7 2F68 B7 2F69 B7 2F70 B7 2F71 B7 2F72 B7 2F73 B7 2F74 B7 2F75 B7 2F76 B8 2F77 B8 2F79 B3 2F80 B3 2F81 B2 2F82 C3 2F83 C4 2F84 A10 2F85 A10 2F86 A11 2F87 A11 2F88 A11 2F89 B10 2F90 B10 2F91 B11 2F92 B11 2F93 B11 3B19 B4 3F09-1 B5 3F09-2 B6 3F09-3 B6 3F09-4 B5 3F11-1 B6 3F11-2 B6 3F11-3 B6 3F11-4 B6 3F12-1 B9 3F12-2 B9 3F12-3 B6 3F12-4 B6 3F13-1 B6 3F13-2 B5 3F13-3 B9 3F13-4 B6 3F14-1 B9 3F14-2 B9 3F14-3 B9 3F14-4 B9 3F31 E4 3F32 E4 3F33 E4 3F34 E4 3F35 F5 3F36 F9 3F37 F4 3F38 F4 3F39 B2 3F40 B9 3F41 C4 4F01 B3 5F01 A3 7F01 D6 7F02 D10 7F03 A3 7G01-2 C2 FF10 A2 FF11 A3 FF12 B4 FF13 C7 FF14 C10 IF01 B2 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 73 SSB: MJC MT8280 Power 1 2 B08C 3 5 4 6 8 7 9 10 11 12 MJC MT8280 - POWER B08C +3V3_SW A A 5G10 30R FLASH E DVSS 30R FG20 FG19 820K 1G01 27M0 TO FLASH&NVM PRST PWN G 2G70 1n0 FB SS PG GND_HS 3 2G69 1u0 EN GND 7 OUT BIAS 11 5 7 FG14 IG15 4K7 9 3G10 1 100n 4u7 100n 4u7 100n 4u7 2G35 2G36 2G37 2G38 2G56 UART_0RX UART_0TX 2 DU W HOLD FG11 B NC 7G03 PDTC114ET 10 VSS FG16 100n 7G01-5 MT8280 U20 22p 2G60 22p 3G16 3G17 3G19 10K 0R 0R 3G30 3G33 S SF_DO 100R 100R 100R 100R D TO Microp V21 3G23 3G24 C 3 4 5 6 11 12 13 14 W18 Y18 W15 IG10 IG11 IG12 IG13 AB21 AA20 Y6 Y7 Y16 W16 W17 V16 AVDD33 XTAL AVDD12 AVSS33 I NS_XTAL O Φ PHERIPHERAL PRST PWN EFUSE SFCS SFCK SFDI SFDO JTMS JTRST JRTCK JTCK JTDI JTDO RXD TXD 0 1 2 3 4 5 SCL SDA INT0 GPIO TN0 TP0 IIC_SCL_up IIC_SDA_up Y19 AB20 3G12 3G13 100R 100R A7 D8 B8 A8 3G14 3G15 4K7 RES 4K7 3G18 3G20 3G21 3G22 4K7 RES 4K7 10K RES 10K 3G27 3G29 3G31 3G32 4K7 4K7 RES 0R 10K RES Y22 W21 AA22 Y21 W20 AA21 FG23 FG24 FG25 FG26 FG27 FG28 V17 U21 NC U22 NC +3V3_SW E +3V3_SW +3V3_SW +3V3_SW INT0 +3V3_SW AVSS_PLL R20 R21 R22 F 9 IN 6 2 SF_CS0 8 FG21 30R 7G04 TPS74801DRCR Φ 16 C V22 DVDD10 UART_1RX 1 FG13 Φ Q 2Mx8 FLASH D TO Microp V20 3G11 BL_ON_OFF LCD_PWR_ON +1V2_SW SF_CK +3V3_SW T20 SYSPLL T22 MJCPLL T21 DMPLL DVDD10 5G15 5G16 +3V3_SW UART_1TX F 10K 3G38 DVSS 30R 2G49 DVSS +1V2_SW 5G14 2G33 2G34 DVDD18 +1V2_SW 30R 10u DVSS DVDD18 DVDD10 15 FG17 5G12 10u 16V 1u0 DVDD18 +1V2_SW 2G31 DVSS FG22J10 J13 J14 K9 K11 K12 K14 L10 L13 M10 M13 N9 N11 N12 N14 P10 P13 P14 FG12 FLASH_MJC_WE A4 B5 C3 D1 D4 E2 J3 J9 J11 J12 K1 K4 K10 K13 L9 L11 L12 L14 M9 M11 M12 M14 N10 N13 P2 P9 P11 P12 R1 R4 T3 W6 Y2 Y5 AA1 2G32 DVDD33 FG18 A1 B2 C6 D7 F3 G1 G4 H2 M1 M4 N3 U2 V1 V4 W3 AA4 AB3 SF_S0 +3V3_SW 2G48 D VCC POWER 10u +1V +1V +1V Φ C8 D9 W7 W19 Y20 1u0 C 7G01-1 MT8280 2G46 +1V8_SW FG15 2G47 +3V3_SW B 30R 4u7 100n 100n 100n 100n 100n 1u0 30R 4u7 100n 100n 100n 100n 100n 100n 100n 100n 10n 10n 10n 10n 10n 10n 10n 1u0 1u0 30R 30R 30R 4u7 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 100n 10n 10n 1u0 1u0 1u0 100n FG10 7G02 M25P16-VMF +3V3_SW 5G11 2G11 2G12 2G13 2G14 2G15 2G16 2G17 5G13 2G18 2G19 2G20 2G21 2G22 2G23 2G24 2G25 2G26 2G27 2G28 2G29 2G30 2G39 2G40 2G41 2G42 2G43 5G17 5G18 5G19 2G44 2G45 2G50 2G51 2G52 2G53 2G54 2G55 2G57 2G58 2G59 2G61 2G62 2G63 2G64 2G65 2G66 2G67 2G10 FG29 10 +1V 8 4 3G36 680R 1% +5V_SW TRAP MODE JTDO TEST_CPUM X (1) NORM ( ) DEFAULT MODE 2G68 22u 6.3V JTRST 0 (0) SFCK 1 (1) SFDO 1 (1) IG14 3G35 2K2 5% 2G71 1u0 G 3G34 10K H H I_17760_019.eps 180208 3139 123 6349.1 1 2 3 4 5 6 7 2009-Apr-10 8 9 10 11 12 1G01 E6 2G10 A11 2G11 B2 2G12 B2 2G13 B2 2G14 B2 2G15 B2 2G16 B2 2G17 B2 2G18 C2 2G19 C2 2G20 C2 2G21 C2 2G22 C2 2G23 C2 2G24 C2 2G25 C2 2G26 C2 2G27 C2 2G28 C2 2G29 C2 2G30 C2 2G31 C6 2G32 C6 2G33 C7 2G34 C7 2G35 C7 2G36 C7 2G37 C7 2G38 C7 2G39 D2 2G40 D2 2G41 D2 2G42 D2 2G43 D2 2G44 D2 2G45 D2 2G46 D6 2G47 D6 2G48 D7 2G49 D7 2G50 D2 2G51 D2 2G52 D2 2G53 D2 2G54 E2 2G55 E2 2G56 E7 2G57 E2 2G58 E2 2G59 E2 2G60 E7 2G61 E2 2G62 E2 2G63 E2 2G64 E2 2G65 E2 2G66 E2 2G67 E2 2G68 G5 2G69 G2 2G70 G2 2G71 G4 3G10 B10 3G11 E6 3G12 E9 3G13 E9 3G14 E9 3G15 E9 3G16 E7 3G17 E7 3G18 E9 3G19 E7 3G20 E9 3G21 E9 3G22 E9 3G23 E7 3G24 E7 3G27 F9 3G29 F9 3G30 F7 3G31 F9 3G32 F9 3G33 F7 3G34 G4 3G35 G4 3G36 G4 3G38 B8 5G10 A11 5G11 B2 5G12 C6 5G13 C2 5G14 C6 5G15 C6 5G16 D6 5G17 D2 5G18 D2 5G19 D2 7G01-1 B3 7G01-5 D8 7G02 A11 7G03 B10 7G04 F3 FG10 A11 FG11 B12 FG12 B10 FG13 B10 FG14 B10 FG15 B3 FG16 B10 FG17 B7 FG18 C3 FG19 C7 FG20 C7 FG21 D7 FG22 D3 FG23 E9 FG24 E9 FG25 E9 FG26 E9 FG27 E9 FG28 F9 FG29 F5 IG10 E7 IG11 E7 IG12 F7 IG13 F7 IG14 G4 IG15 B10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 74 SSB: SRP List Explanation Example 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) 1.1. Personal Notes: Introduction SRP (Service Reference Protocol) is a software tool that creates a list with all references to signal lines. The list contains references to the signals within all schematics of a PWB. It replaces the text references currently printed next to the signal names in the schematics. These printed references are created manually and are therefore not guaranteed to be 100% correct. In addition, in the current crowded schematics there is often none or very little place for these references. Some of the PWB schematics will use SRP while others will still use the manual references. Either there will be an SRP reference list for a schematic, or there will be printed references in the schematic. 1.2. Non-SRP Schematics There are several different signals available in a schematic: 1.2.1. Power Supply Lines All power supply lines are available in the supply line overview (see chapter 6). In the schematics (see chapter 7) is not indicated where supplies are coming from or going to. It is however indicated if a supply is incoming (created elsewhere), or outgoing (created or adapted in the current schematic). +5V Outgoing 1.2.2. +5V Incoming Normal Signals For normal signals, a schematic reference (e.g. B14b) is placed next to the signals. B14b 1.2.3. signal_name Grounds For normal and special grounds (e.g. GNDHOT or GND3V3 etc.), nothing is indicated. 1.3. SRP Schematics SRP is a tool, which automatically creates a list with signal references, indicating on which schematic the signals are used. A reference is created for all signals indicated with an SRP symbol, these symbols are: +5V name name +5V Power supply line. name Stand alone signal or switching line (used as less as possible). name Signal line into a wire tree. name name Switching line into a wire tree. name Bi-directional line (e.g. SDA) into a wire tree. name Signal line into a wire tree, its direction depends on the circuit (e.g. ingoing for PDP, outgoing for LCD sets). Remarks: • When there is a black dot on the "signal direction arrow" it is an SRP symbol, so there will be a reference to the signal name in the SRP list. • All references to normal grounds (Ground symbols without additional text) are not listed in the reference list, this to keep it concise. • Signals that are not used in multiple schematics, but only once or several times in the same schematic, are included in the SRP reference list, but only with one reference. Additional Tip: When using the PDF service manual file, you can very easily search for signal names and follow the signal over all the schematics. In Adobe PDF reader: • Select the signal name you want to search for, with the "Select text" tool. • Copy and paste the signal name in the "Search PDF" tool. • Search for all occurrences of the signal name. • Now you can quickly jump between the different occurrences and follow the signal over all schematics. It is advised to "zoom in" to e.g. 150% to see clearly, which text is selected. Then you can zoom out, to get an overview of the complete schematic. PS. It is recommended to use at least Adobe PDF (reader) version 6.x, due to better search possibilities in this version. E_06532_031.eps 230606 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 75 SSB: SRP List Netname Diagram +0V9_VTT +12V_AUDIO +12V_AUDIO +12V_DISP +12V_DISP +12V_DISP +12V_DISP +12V_DISP +12V_DISP +1V2_ADC +1V2_CORE +1V2_PLL +1V2_SW +1V2_SW +1V2_SW +1V2_SW +1V2-FPGA +1V2-PLL +1V8_ANA-MUX +1V8_DIG-MUX +1V8_SW +1V8_SW +1V8_SW +1V8_SW +1V8SWA +1V8SWB +1V8SWC +24V +2V5_SW +2V5_SW +2V5_VDDMQ +2V5_VDDMQ +2V5in-FPGA +2V5out-FPGA +2V6_SW +2V6_SW +3V3_ANA-MUX +3V3_ANA-MUX +3V3_FPGA +3V3_FPGA +3V3_STBY +3V3_STBY +3V3_STBY +3V3_STBY +3V3_STBY +3V3_STBY +3V3_SW +3V3_SW +3V3_SW +3V3_SW +3V3_SW +3V3_SW +3V3_SW +3V3_SW +3V3_SW +3V3_SW +3V3_SW +3V3SWA +3V3SWB +3V3SWC +3V3SWD +3V3SWE +5V_IF +5V_SW +5V_SW +5V_SW +5V_SW +5V_SW +5V_SW +5V_SW +5V_SW +5V_SW +5V_SW +5V_TCON +5V_TCON +5V_TUN +5VHDMI_A +5VHDMI_B +5VHDMI_C +5VHDMI_MUX_TPWR +5VHDMI_MUX_TPWR +5VHDMI_SIDE +5VS +8V +VDISP +VTUN +VTUN -12V_AUDIO -12V_AUDIO A(0) A(0) A(0:7) A(1) A(1) A(1:7) A(10) A(11) A(12) A(13) A(14) A(15) A(16) A(17) A(18) A(19) A(2) A(2) A(3) A(3) A(4) A(4) A(5) A(5) A(6) A(6) A(7) A(7) A(8) A(8:19) A(9) AD(0) AD(0) B08C (2x) B01B (1x) B06A (1x) B01B (4x) B02 (2x) B03 (1x) B04A (1x) B05A (1x) B05B (1x) B04B (5x) B04B (2x) B04B (4x) B01B (2x) B04B (1x) B04E (1x) B08B (1x) B04E (2x) B04E (2x) B07B (3x) B07B (2x) B02 (1x) B07B (2x) B08A (4x) B08C (9x) B08A (1x) B08A (1x) B08A (1x) B04D (1x) B01B (1x) B04E (1x) B04B (2x) B04C (6x) B04E (2x) B04E (2x) B02 (3x) B04C (1x) B07B (5x) B08A (1x) B04D (9x) B04E (4x) B01B (1x) B04A (33x) B04B (1x) B06A (3x) B06C (1x) B07A (3x) B01B (4x) B03 (2x) B04A (17x) B04B (17x) B04E (1x) B05A (1x) B05B (1x) B07A (3x) B07B (2x) B08A (5x) B08B (7x) B08A (1x) B08A (1x) B08A (1x) B08A (1x) B08A (1x) B03 (6x) B02 (3x) B03 (3x) B04A (2x) B04B (2x) B05B (3x) B06A (1x) B06C (2x) B07A (2x) B07B (9x) B08A (1x) B01B (1x) B05A (1x) B03 (2x) B08A (4x) B07B (4x) B07B (4x) B07B (1x) B08A (1x) B07B (4x) B03 (4x) B05B (2x) B05A (3x) B01B (1x) B03 (1x) B01B (1x) B06A (1x) B04A (2x) B04B (1x) B04A (1x) B04A (2x) B04B (1x) B04A (1x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04A (2x) B04A (2x) B04A (2x) B04B (1x) AD(0:7) AD(1) AD(1) AD(2) AD(2) AD(3) AD(3) AD(4) AD(4) AD(5) AD(5) AD(6) AD(6) AD(7) AD(7) ALE_EMU ALE_EMU ambi_pwm(0) ambi_pwm(0) ambi_pwm(1) ambi_pwm(1) ambi_pwm(2) ambi_pwm(2) ambi_pwm(3) ambi_pwm(3) ambi_pwm(4) ambi_pwm(4) ambi_pwm(5) ambi_pwm(5) AMBI_SCL AMBI_SCL AMBI_SDA AMBI_SDA ANTI_PLOP ANTI_PLOP ASDO ASDO AUD_RST AUD_RST AUDIO_LS_L AUDIO_LS_L AUDIO_LS_R AUDIO_LS_R BL_ADJUST_ANA BL_ADJUST_ANA BL_BOOST BL_BOOST BL_ON_OFF BL_ON_OFF BOLT_ON_UART_RXD BOLT_ON_UART_RXD BOLT_ON_UART_RXD BOLT_ON_UART_TXD BOLT_ON_UART_TXD BOLT_ON_UART_TXD CE CLK_OSC1 CLK_OSC1 COMP_AUDIO_IN_L COMP_AUDIO_IN_L COMP_AUDIO_IN_R COMP_AUDIO_IN_R CPU_RST CS CS CTRL_DISP1 CTRL_DISP1_up CTRL_DISP1_up CTRL_DISP2 CTRL_DISP3 CTRL_DISP4 CTRL_DISP4_up CTRL_DISP4_up CVBS_IN_DTV CVBS_IN_DTV CVBS_RF CVBS_RF DATA0 DATA0 DC_5V DC_PROT DC_PROT DCLK DCLK DDC_RST DDC_RST DDC_RST DDC_SCL_SIDE DDC_SCLA DDC_SCLB DDC_SCLC DDC_SDA_SIDE DDC_SDAA DDC_SDAB DDC_SDAC DDR_VREF DDR_VREF DP_HS DTV_IRQ DTV_IRQ DTV_IRQ ENGAGE FPGA_BL_BOOST FPGA_BL_DIMMING FPGA_BL_DIMMING GNDDC1 GNDDC2 GNDDC24V GNDSND GNDSND GNDTUN HD_PB_IN HD_PB_IN HD_PB_IN_ITV HD_PB_IN_ITV HD_PR_IN HD_PR_IN HD_PR_IN_ITV HD_PR_IN_ITV HD_Y_IN HD_Y_IN HD_Y_IN_ITV HD_Y_IN_ITV HDMI_Cb(0) B04A (2x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (1x) B04B (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04A (1x) B06A (1x) B04D (1x) B04E (1x) B04A (1x) B05B (1x) B05B (1x) B06A (1x) B05B (1x) B06A (1x) B01B (1x) B04B (1x) B01B (1x) B04A (1x) B01B (1x) B04A (1x) B04A (1x) B06B (1x) B06C (1x) B04A (1x) B06B (1x) B06C (1x) B04A (1x) B04D (1x) B04E (1x) B05B (1x) B06B (1x) B05B (1x) B06B (1x) B04A (1x) B04A (1x) B04B (1x) B05A (2x) B04A (1x) B05A (1x) B05A (2x) B05A (2x) B05A (2x) B04A (1x) B05A (1x) B04B (1x) B06B (1x) B03 (1x) B04B (1x) B04D (1x) B04E (1x) B07A (3x) B04A (1x) B06A (1x) B04D (1x) B04E (1x) B04A (1x) B07B (5x) B08A (1x) B07B (2x) B08A (2x) B07B (2x) B07B (2x) B07B (2x) B08A (2x) B07B (2x) B07B (2x) B04B (1x) B04C (3x) B04B (2x) B04A (1x) B06B (1x) B06C (1x) B06A (1x) B04E (1x) B04B (1x) B04E (1x) B01B (13x) B02 (13x) B04D (2x) B01B (2x) B06A (27x) B01B (1x) B04B (1x) B06B (1x) B06B (2x) B06C (1x) B04B (1x) B06B (1x) B06B (2x) B06C (1x) B04B (1x) B06B (1x) B06B (2x) B06C (1x) B04B (1x) HDMI_Cb(0) HDMI_Cb(1) HDMI_Cb(1) HDMI_Cb(2) HDMI_Cb(2) HDMI_Cb(3) HDMI_Cb(3) HDMI_Cb(4) HDMI_Cb(4) HDMI_Cb(5) HDMI_Cb(5) HDMI_Cb(6) HDMI_Cb(6) HDMI_Cb(7) HDMI_Cb(7) HDMI_Cb(8) HDMI_Cb(8) HDMI_Cb(9) HDMI_Cb(9) HDMI_CEC_A HDMI_CEC_A HDMI_Cr(0) HDMI_Cr(0) HDMI_Cr(1) HDMI_Cr(1) HDMI_Cr(2) HDMI_Cr(2) HDMI_Cr(3) HDMI_Cr(3) HDMI_Cr(4) HDMI_Cr(4) HDMI_Cr(5) HDMI_Cr(5) HDMI_Cr(6) HDMI_Cr(6) HDMI_Cr(7) HDMI_Cr(7) HDMI_Cr(8) HDMI_Cr(8) HDMI_Cr(9) HDMI_Cr(9) HDMI_DE HDMI_DE HDMI_H HDMI_H HDMI_HOTPLUG_RST HDMI_HOTPLUG_RST HDMI_HOTPLUG_RST HDMI_I2S_SCK HDMI_I2S_SCK HDMI_I2S_SD HDMI_I2S_SD HDMI_I2S_WS HDMI_I2S_WS HDMI_MUX_RST HDMI_MUX_RST HDMI_MUX_TX0HDMI_MUX_TX0HDMI_MUX_TX0+ HDMI_MUX_TX0+ HDMI_MUX_TX1HDMI_MUX_TX1HDMI_MUX_TX1+ HDMI_MUX_TX1+ HDMI_MUX_TX2HDMI_MUX_TX2HDMI_MUX_TX2+ HDMI_MUX_TX2+ HDMI_MUX_TXCHDMI_MUX_TXCHDMI_MUX_TXC+ HDMI_MUX_TXC+ HDMI_RX_BUF_RST HDMI_RX_BUF_RST HDMI_RX_BUF_RST HDMI_SIDE_RX0HDMI_SIDE_RX0+ HDMI_SIDE_RX1HDMI_SIDE_RX1+ HDMI_SIDE_RX2HDMI_SIDE_RX2+ HDMI_SIDE_RXCHDMI_SIDE_RXC+ HDMI_V HDMI_V HDMI_VCLK HDMI_VCLK HDMI_Y(0) HDMI_Y(0) HDMI_Y(1) HDMI_Y(1) HDMI_Y(2) HDMI_Y(2) HDMI_Y(3) HDMI_Y(3) HDMI_Y(4) HDMI_Y(4) HDMI_Y(5) HDMI_Y(5) HDMI_Y(6) HDMI_Y(6) HDMI_Y(7) HDMI_Y(7) HDMI_Y(8) HDMI_Y(8) HDMI_Y(9) HDMI_Y(9) HP_AUDIO_OUT_L HP_AUDIO_OUT_L HP_AUDIO_OUT_L HP_AUDIO_OUT_R HP_AUDIO_OUT_R HP_AUDIO_OUT_R HP_DETECT HP_DETECT HP_LOUT HP_LOUT HP_ROUT HP_ROUT HPD_RST_A HPD_RST_A HPD_RST_B HPD_RST_C HPD_RST_SIDE B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B07B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04A (1x) B07B (5x) B08A (1x) B05B (1x) B08A (1x) B05B (1x) B08A (1x) B05B (1x) B08A (1x) B04A (1x) B07B (1x) B07B (1x) B08A (1x) B07B (1x) B08A (1x) B07B (1x) B08A (1x) B07B (1x) B08A (1x) B07B (1x) B08A (1x) B07B (1x) B08A (1x) B07B (1x) B08A (1x) B07B (1x) B08A (1x) B04A (1x) B07B (2x) B08A (1x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B04B (1x) B08A (1x) B05B (1x) B06A (1x) B06C (1x) B05B (1x) B06A (1x) B06C (1x) B04A (1x) B06B (1x) B06A (1x) B06B (1x) B06A (1x) B06B (1x) B04A (1x) B08A (1x) B07B (2x) B07B (2x) B07B (2x) IF_ATV IIC_SCL IIC_SCL IIC_SCL IIC_SCL_SIDE IIC_SCL_SIDE IIC_SCL_SIDE IIC_SCL_SIDE IIC_SCL_up IIC_SCL_up IIC_SCL_up IIC_SDA IIC_SDA IIC_SDA IIC_SDA_SIDE IIC_SDA_SIDE IIC_SDA_SIDE IIC_SDA_SIDE IIC_SDA_up IIC_SDA_up IIC_SDA_up ITV_I2C_SCL ITV_I2C_SCL ITV_I2C_SCL ITV_I2C_SDA ITV_I2C_SDA ITV_I2C_SDA KEYB LCD_PWR_ON LCD_PWR_ON LED1 LED2 LIGHT_SENSOR LVDS_A_TXe0n LVDS_A_TXe0n LVDS_A_TXe0p LVDS_A_TXe0p LVDS_A_TXe1n LVDS_A_TXe1n LVDS_A_TXe1p LVDS_A_TXe1p LVDS_A_TXe2n LVDS_A_TXe2n LVDS_A_TXe2p LVDS_A_TXe2p LVDS_A_TXe3n LVDS_A_TXe3n LVDS_A_TXe3p LVDS_A_TXe3p LVDS_A_TXe4n LVDS_A_TXe4n LVDS_A_TXe4p LVDS_A_TXe4p LVDS_A_TXeCLKn LVDS_A_TXeCLKn LVDS_A_TXeCLKp LVDS_A_TXeCLKp LVDS_A_TXo0n LVDS_A_TXo0n LVDS_A_TXo0p LVDS_A_TXo0p LVDS_A_TXo1n LVDS_A_TXo1n LVDS_A_TXo1p LVDS_A_TXo1p LVDS_A_TXo2n LVDS_A_TXo2n LVDS_A_TXo2p LVDS_A_TXo2p LVDS_A_TXo3n LVDS_A_TXo3n LVDS_A_TXo3p LVDS_A_TXo3p LVDS_A_TXo4n LVDS_A_TXo4n LVDS_A_TXo4p LVDS_A_TXo4p LVDS_A_TXoCLKn LVDS_A_TXoCLKn LVDS_A_TXoCLKp LVDS_A_TXoCLKp LVDS_B_TXe0n LVDS_B_TXe0n LVDS_B_TXe0p LVDS_B_TXe0p LVDS_B_TXe1n LVDS_B_TXe1n LVDS_B_TXe1p LVDS_B_TXe1p LVDS_B_TXe2n LVDS_B_TXe2n LVDS_B_TXe2p LVDS_B_TXe2p LVDS_B_TXe3n LVDS_B_TXe3n LVDS_B_TXe3p LVDS_B_TXe3p LVDS_B_TXe4n LVDS_B_TXe4n LVDS_B_TXe4p LVDS_B_TXe4p LVDS_B_TXeCLKn LVDS_B_TXeCLKn LVDS_B_TXeCLKp LVDS_B_TXeCLKp LVDS_B_TXo0n LVDS_B_TXo0n LVDS_B_TXo0p LVDS_B_TXo0p LVDS_B_TXo1n LVDS_B_TXo1n LVDS_B_TXo1p LVDS_B_TXo1p LVDS_B_TXo2n LVDS_B_TXo2n LVDS_B_TXo2p LVDS_B_TXo2p LVDS_B_TXo3n LVDS_B_TXo3n LVDS_B_TXo3p LVDS_B_TXo3p LVDS_B_TXo4n LVDS_B_TXo4n LVDS_B_TXo4p B03 (2x) B03 (2x) B04A (1x) B05B (1x) B04A (1x) B04B (1x) B07B (3x) B08A (1x) B04A (1x) B04D (1x) B07A (1x) B03 (2x) B04A (1x) B05B (1x) B04A (1x) B04B (1x) B07B (3x) B08A (1x) B04A (1x) B04D (1x) B07A (1x) B04A (1x) B05A (1x) B06C (1x) B04A (1x) B05A (1x) B06C (1x) B04A (2x) B04A (1x) B05A (1x) B04A (2x) B04A (2x) B04A (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) LVDS_B_TXo4p LVDS_B_TXoCLKn LVDS_B_TXoCLKn LVDS_B_TXoCLKp LVDS_B_TXoCLKp LVDS_SEL MAIN_SCL MAIN_SCL MAIN_SDA MAIN_SDA MEM_VREF MJC_RA(0) MJC_RA(1) MJC_RA(10) MJC_RA(11) MJC_RA(12) MJC_RA(2) MJC_RA(3) MJC_RA(4) MJC_RA(5) MJC_RA(6) MJC_RA(7) MJC_RA(8) MJC_RA(9) MJC_RBA0 MJC_RBA1 MJC_RCASn MJC_RCKE MJC_RCLK0n MJC_RCLK1n MJC_RCSn MJC_RDQ(0) MJC_RDQ(1) MJC_RDQ(10) MJC_RDQ(11) MJC_RDQ(12) MJC_RDQ(13) MJC_RDQ(14) MJC_RDQ(15) MJC_RDQ(16) MJC_RDQ(17) MJC_RDQ(18) MJC_RDQ(19) MJC_RDQ(2) MJC_RDQ(20) MJC_RDQ(21) MJC_RDQ(22) MJC_RDQ(23) MJC_RDQ(24) MJC_RDQ(25) MJC_RDQ(26) MJC_RDQ(27) MJC_RDQ(28) MJC_RDQ(29) MJC_RDQ(3) MJC_RDQ(30) MJC_RDQ(31) MJC_RDQ(4) MJC_RDQ(5) MJC_RDQ(6) MJC_RDQ(7) MJC_RDQ(8) MJC_RDQ(9) MJC_RDQM0 MJC_RDQM1 MJC_RDQM2 MJC_RDQM3 MJC_RDQS0 MJC_RDQS0n MJC_RDQS1 MJC_RDQS1n MJC_RDQS2 MJC_RDQS2n MJC_RDQS3 MJC_RDQS3n MJC_RODT MJC_RRASn MJC_RWEn MJC_VREF MT8280_EN MT8280_EN MUTEn MUTEn nCSO nCSO NVM_WC PC_VGA_H PC_VGA_V POWER_DOWN POWER_DOWN PRST PWN RD RD REMOTE REMOTE RF_AGC RX0_BRX0_B+ RX0_CRX0_C+ RX1_BRX1_B+ RX1_CRX1_C+ RX2_BRX2_B+ RX2_CRX2_C+ RXC_BRXC_B+ RXC_CRXC_C+ SAW_SW SAW_SW SC1_AUDIO_IN_L SC1_AUDIO_IN_L SC1_AUDIO_IN_L SC1_AUDIO_IN_R SC1_AUDIO_IN_R SC1_AUDIO_IN_R SC1_AUDIO_MUTE_L SC1_AUDIO_MUTE_L SC1_AUDIO_MUTE_R B08B (1x) B05A (1x) B08B (1x) B05A (1x) B08B (1x) B05A (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B08C (2x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (3x) B08C (1x) B08C (1x) B08C (3x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (2x) B08C (1x) B08C (2x) B08C (1x) B08C (2x) B08C (1x) B08C (2x) B08C (1x) B08C (2x) B08C (3x) B08C (3x) B08C (3x) B08C (4x) B04A (1x) B07A (2x) B04A (1x) B06A (1x) B04D (1x) B04E (1x) B04A (2x) B04B (2x) B04B (2x) B04A (1x) B06A (1x) B04A (1x) B04A (1x) B04A (1x) B04B (1x) B04A (2x) B06C (1x) B03 (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B07B (2x) B03 (1x) B04A (1x) B05B (1x) B06B (1x) B06C (1x) B05B (1x) B06B (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) SC1_AUDIO_MUTE_R SC1_AUDIO_OUT_L SC1_AUDIO_OUT_L SC1_AUDIO_OUT_R SC1_AUDIO_OUT_R SC1_B_IN SC1_B_IN SC1_CVBS_IN SC1_CVBS_IN SC1_CVBS_RF_OUT SC1_FBL_IN SC1_FBL_IN SC1_G_IN SC1_G_IN SC1_R_IN SC1_R_IN SC1_RF_OUT_CVBS SC1_RF_OUT_CVBS SC1_STATUS SC1_STATUS SC2_AUDIO_IN_L SC2_AUDIO_IN_L SC2_AUDIO_IN_R SC2_AUDIO_IN_R SC2_AUDIO_MUTE_L SC2_AUDIO_MUTE_L SC2_AUDIO_MUTE_R SC2_AUDIO_MUTE_R SC2_AUDIO_OUT_L SC2_AUDIO_OUT_L SC2_AUDIO_OUT_R SC2_AUDIO_OUT_R SC2_C_IN SC2_C_IN SC2_C_IN_ITV SC2_CVBS_MON_OUT SC2_CVBS_MON_OUT SC2_CVBS_MON_OUT_ITV SC2_STATUS SC2_STATUS SC2_Y_CVBS_IN SC2_Y_CVBS_IN SC2_Y_CVBS_IN_ITV SIDE_AUDIO_IN_L SIDE_AUDIO_IN_L SIDE_AUDIO_IN_R SIDE_AUDIO_IN_R SIF SIF SIF1 SIF2 SPDIF_IN SPDIF_IN SPDIF_OUT SPDIF_OUT STANDBY STANDBY STANDBY STANDBY STANDBYn STANDBYn SUP_A SUP_D SVHS_C_IN SVHS_C_IN SVHS_Y_CVBS_IN SVHS_Y_CVBS_IN SVPWX_INT SVPWX_INT SVPWX_RST SVPWX_RST TACT_SWITCH_INT TCK_FPGA TCK_FPGA TDI_FPGA TDI_FPGA TDO_FPGA TDO_FPGA TMS_FPGA TMS_FPGA TX0_ATX0_A+ TX1_ATX1_A+ TX2_ATX2_A+ TXC_ATXC_A+ TxFPGAe_0n TxFPGAe_0n TxFPGAe_0n TxFPGAe_0n TxFPGAe_0p TxFPGAe_0p TxFPGAe_0p TxFPGAe_0p TxFPGAe_1n TxFPGAe_1n TxFPGAe_1n TxFPGAe_1n TxFPGAe_1p TxFPGAe_1p TxFPGAe_1p TxFPGAe_1p TxFPGAe_2n TxFPGAe_2n TxFPGAe_2n TxFPGAe_2n TxFPGAe_2p TxFPGAe_2p TxFPGAe_2p TxFPGAe_2p TxFPGAe_3n TxFPGAe_3n TxFPGAe_3n TxFPGAe_3n TxFPGAe_3p TxFPGAe_3p TxFPGAe_3p TxFPGAe_3p TxFPGAe_4n TxFPGAe_4n TxFPGAe_4n TxFPGAe_4n B06C (1x) B05B (1x) B06C (2x) B05B (1x) B06C (2x) B04B (1x) B06C (2x) B04B (1x) B06C (1x) B06C (2x) B04B (1x) B06C (2x) B04B (1x) B06C (2x) B04B (1x) B06C (2x) B04B (1x) B06C (1x) B04A (1x) B06C (1x) B05B (1x) B06C (2x) B05B (1x) B06C (2x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B05B (1x) B06C (1x) B05B (1x) B06C (1x) B04B (1x) B06C (1x) B06C (2x) B04B (1x) B06C (1x) B06C (1x) B04A (1x) B06C (1x) B04B (1x) B06C (1x) B06C (2x) B05B (1x) B06B (1x) B05B (1x) B06B (1x) B03 (1x) B05B (1x) B03 (2x) B03 (2x) B05B (1x) B06B (1x) B05B (1x) B07A (1x) B01B (1x) B04A (1x) B05A (1x) B06C (1x) B04A (1x) B06A (1x) B05B (3x) B05B (2x) B04B (1x) B06B (1x) B04B (1x) B06B (1x) B04A (1x) B04B (1x) B04A (1x) B04B (1x) B04A (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B04D (1x) B04E (1x) B08A (2x) B08A (2x) B08A (2x) B08A (2x) B08A (1x) B08A (2x) B08A (2x) B08A (2x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) TxFPGAe_4p TxFPGAe_4p TxFPGAe_4p TxFPGAe_4p TxFPGAe_CLKn TxFPGAe_CLKn TxFPGAe_CLKn TxFPGAe_CLKn TxFPGAe_CLKp TxFPGAe_CLKp TxFPGAe_CLKp TxFPGAe_CLKp TxFPGAo_0n TxFPGAo_0n TxFPGAo_0n TxFPGAo_0n TxFPGAo_0p TxFPGAo_0p TxFPGAo_0p TxFPGAo_0p TxFPGAo_1n TxFPGAo_1n TxFPGAo_1n TxFPGAo_1n TxFPGAo_1p TxFPGAo_1p TxFPGAo_1p TxFPGAo_1p TxFPGAo_2n TxFPGAo_2n TxFPGAo_2n TxFPGAo_2n TxFPGAo_2p TxFPGAo_2p TxFPGAo_2p TxFPGAo_2p TxFPGAo_3n TxFPGAo_3n TxFPGAo_3n TxFPGAo_3n TxFPGAo_3p TxFPGAo_3p TxFPGAo_3p TxFPGAo_3p TxFPGAo_4n TxFPGAo_4n TxFPGAo_4n TxFPGAo_4n TxFPGAo_4p TxFPGAo_4p TxFPGAo_4p TxFPGAo_4p TxFPGAo_CLKn TxFPGAo_CLKn TxFPGAo_CLKn TxFPGAo_CLKn TxFPGAo_CLKp TxFPGAo_CLKp TxFPGAo_CLKp TxFPGAo_CLKp UART_1RX UART_1RX UART_1TX UART_1TX VDD VDDA VGA_AUDIO_IN_L VGA_AUDIO_IN_L VGA_AUDIO_IN_R VGA_AUDIO_IN_R VGA_B_IN VGA_B_IN VGA_G_IN VGA_G_IN VGA_H VGA_H VGA_H VGA_R_IN VGA_R_IN VGA_V VGA_V VGA_V VIF1 VIF2 VSS VSSA WR WR WR_EN WR_EN WR_EN WX_AVCC WX_BA0 WX_BA0 WX_BA1 WX_BA1 WX_CAS# WX_CAS# WX_CLKE WX_CLKE WX_CS0# WX_CS0# WX_DQM0 WX_DQM0 WX_DQM1 WX_DQM1 WX_DQM2 WX_DQM2 WX_DQM3 WX_DQM3 WX_DQS0 WX_DQS0 WX_DQS1 WX_DQS1 WX_DQS2 WX_DQS2 WX_DQS3 WX_DQS3 WX_MA0 WX_MA0 WX_MA1 WX_MA1 WX_MA10 WX_MA10 B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04B (1x) B04E (1x) B05A (1x) B08B (1x) B04A (1x) B07A (1x) B04A (1x) B07A (1x) B06A (3x) B06A (3x) B05B (1x) B07A (1x) B05B (1x) B07A (1x) B04B (1x) B07A (1x) B04B (1x) B07A (1x) B04B (1x) B06C (1x) B07A (1x) B04B (1x) B07A (1x) B04B (1x) B06C (1x) B07A (1x) B03 (2x) B03 (2x) B06A (3x) B06A (5x) B04A (1x) B04B (1x) B07A (1x) B07B (1x) B08A (1x) B04B (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) WX_MA11 WX_MA11 WX_MA2 WX_MA2 WX_MA3 WX_MA3 WX_MA4 WX_MA4 WX_MA5 WX_MA5 WX_MA6 WX_MA6 WX_MA7 WX_MA7 WX_MA8 WX_MA8 WX_MA9 WX_MA9 WX_MCK0 WX_MCK0 WX_MCK0# WX_MCK0# WX_MD0 WX_MD0 WX_MD1 WX_MD1 WX_MD10 WX_MD10 WX_MD11 WX_MD11 WX_MD12 WX_MD12 WX_MD13 WX_MD13 WX_MD14 WX_MD14 WX_MD15 WX_MD15 WX_MD16 WX_MD16 WX_MD17 WX_MD17 WX_MD18 WX_MD18 WX_MD19 WX_MD19 WX_MD2 WX_MD2 WX_MD20 WX_MD20 WX_MD21 WX_MD21 WX_MD22 WX_MD22 WX_MD23 WX_MD23 WX_MD24 WX_MD24 WX_MD25 WX_MD25 WX_MD26 WX_MD26 WX_MD27 WX_MD27 WX_MD28 WX_MD28 WX_MD29 WX_MD29 WX_MD3 WX_MD3 WX_MD30 WX_MD30 WX_MD31 WX_MD31 WX_MD4 WX_MD4 WX_MD5 WX_MD5 WX_MD6 WX_MD6 WX_MD7 WX_MD7 WX_MD8 WX_MD8 WX_MD9 WX_MD9 WX_PAVDD1 WX_PAVDD2 WX_PVCC WX_RAS# WX_RAS# WX_REGVCC WX_WE# WX_WE# B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (2x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04C (1x) B04B (1x) B04B (1x) B04B (2x) B04B (1x) B04C (2x) B04B (2x) B04B (1x) B04C (2x) I_17763_001.eps 010807 3104 313 6349.1 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 76 Layout Small Signal Board (Overview Top Side) 1101 1102 1103 1104 1105 1106 1107 1108 1202 1203 1204 1205 E3 E5 E5 D5 E5 D4 C4 A1 B1 A4 A3 C1 1206 1301 1311 1320 1500 1501 1502 1503 1504 1505 1506 1507 C1 A5 D4 E1 E7 E7 E7 E7 E7 A5 A6 A6 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 A5 A7 E7 E7 E7 E7 E7 E7 E7 E7 D7 E7 1520 1521 1522 1523 1524 1531 1532 1533 1534 1535 1601 1602 E7 D7 E7 D7 D7 E7 E7 E7 E7 E7 E8 D8 1603 1605 1606 1607 1608 1609 1610 1611 1613 1615 1616 1617 D8 D8 E6 D6 E8 E8 E6 E6 E6 E6 D8 E8 1618 1619 1620 1621 1A02 1A35 1C24 1E01 1E02 1E04 1E06 1E07 C8 C8 D8 A7 F1 F1 C5 D7 C6 D4 C6 C6 1E14 1E15 1E16 1E17 1E18 1E19 1E21 1G01 1M01 1M02 1M03 1M04 C7 C7 C6 C6 C4 D4 C6 B2 B8 B7 B7 A8 1M05 1M06 1M07 1M08 1M09 1N02 1N03 1P01 1P02 1P03 1P04 1R01 B8 A8 A8 A8 A8 A6 B6 D1 E1 E1 A3 A2 1R02 1R03 1R04 1R05 1R06 1R07 1R08 1R09 1R10 1R11 1R12 1R13 A2 A2 A2 A2 A2 A2 A2 A2 A2 A2 A2 A2 1R14 1R15 1R16 1R17 1R18 1R19 1R20 1R21 1R22 1R23 1R24 1R25 B1 B1 B1 A1 A1 A1 A1 A1 A1 A1 A1 A1 2117 2127 2142 2205 2206 2207 2208 2209 2210 2211 2214 2215 D5 D5 D4 B1 B1 B1 B1 B1 B1 A3 A3 B1 2216 2217 2218 2219 2314 2315 2316 2317 2323 2324 2338 2341 C1 B1 B1 B1 A5 A6 A5 A6 A5 A5 B6 C5 2343 2344 2345 2346 2347 2409 2410 2420 2423 2436 2439 2445 A5 A5 A5 A5 C6 F6 F5 E5 E5 F5 F5 E5 2613 2614 2615 2616 2724 2A01 2A02 2A04 2A08 2A09 2A10 2A11 C8 D8 C8 D8 A4 F2 F2 F2 F2 F2 F2 F3 2A12 2A14 2A15 2A16 2A17 2A18 2A19 2A20 2A22 2A23 2A24 2A28 F3 F1 F3 E3 F1 F3 E3 E3 F3 F1 F3 F1 2A29 2A30 2A32 2A33 2A34 2A40 2A53 2A58 2A62 2A63 2A67 2A68 F2 F2 F3 F2 F2 F3 D8 D8 F1 F2 F2 F2 2A69 2A70 2A71 2A72 2B10 2B19 2B20 2C01 2C02 2C03 2C04 2C05 F2 F2 F1 F1 B2 C1 C1 C5 C5 C5 C5 C5 2C06 2C08 2C09 2C10 2C11 2C12 2C13 2C15 2C17 2C18 2C19 2C78 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 2C79 2C80 2C81 2C83 2C94 2C95 2D31 2D32 2D71 2D72 2E09 2E10 C5 C5 C5 C5 C5 C5 C4 C4 B3 B3 D7 D7 2E13 2E14 2E20 2E21 2E22 2E23 2E76 2E77 2E78 2E79 2F23 2F24 D3 D3 D6 D6 D6 D6 D6 D6 D5 D5 D1 D2 2F62 2F64 2F65 2F66 2F67 2F68 2F69 2F70 2F71 2F72 2F73 2F74 D2 D2 D2 D2 D2 D2 D2 D2 D2 D2 D2 D2 2F75 2F76 2F77 2G10 2G31 2G44 2G56 2G60 2G68 2G69 2G70 2G71 D2 D2 D2 C1 B2 C3 B2 B2 C3 D3 C3 D3 2N13 2N14 2N55 2N68 2N71 2N72 2P19 2P20 2P28 2P29 2P30 2P34 A6 A6 A6 B6 B6 B6 D1 D1 E1 E2 E1 E1 2P46 2P59 2P61 2P84 2P86 2P87 2P88 2P89 2Q28 2Q29 2Q30 2Q34 D2 D1 E2 E1 E1 E1 E1 C3 E2 E2 E3 D3 2Q46 2Q55 2Q58 2Q59 2Q61 2Q73 2R11 2R12 2R28 3207 3222 3224 D3 D3 D3 D2 D3 D3 A1 A2 A1 B1 B1 B1 3225 3231 3232 3234 3235 3236 3238 3240 3246 3247 3248 3301 B1 A3 A3 A3 A3 A3 A3 A3 A3 C1 B1 A5 3303 3306 3307 3313 3314 3315 3316 3317 3318 3319 3320 3321 A5 A5 A5 A5 A5 A5 A5 A5 A5 A6 A5 A5 3322 3324 3325 3329 3332 3346 3347 3351 3352 3354 3356 3357 A5 A5 A6 A5 A5 A5 A5 A5 A5 A5 A5 A5 3358 3359 3360 3380 3382 3386 3387 3388 3395 3396 3398 3399 A5 D5 D5 A5 A5 A5 A5 A5 B6 A6 A5 A5 3537 3540 3554 3559 3613 3614 3713 3714 3720 3721 3722 3723 D8 E8 E8 A6 C8 D8 A4 A4 A4 A4 A4 A4 3724 3725 3726 3727 3728 3729 3730 3731 3732 3733 3734 3735 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 3736 3737 3738 3739 3740 3741 3742 3743 3744 3745 3746 3747 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 A4 Part 2 I_17760_020b.eps Part 1 I_17760_020a.eps Part 3 I_17760_020c.eps Part 4 I_17760_020d.eps I_17760_020.eps 110208 3139 123 6349.1 2009-Apr-10 3748 3749 3750 3751 3752 3753 3A01 3A02 3A03 3A04 3A06 3A07 A4 A4 A4 A4 A4 A4 F2 E2 F3 F3 F3 E3 3A08 3A11 3A13 3A19 3A26 3A32 3A33 3A52 3A54 3A57 3A59 3C01 3C02 3C03 3C04 3C05 3C06 3C29 3C30 3C31 3C32 3C33 3C34 3C36 3C37 3C46 3D01 3D02 3D05 3D06 3D09 3D11 3D38 3D40 3D43 3D44 3D47 3D48 3E14 3E15 3E18 3E20 3E21 3E22 3E23 3E24 3E67 3E68 3E69 3E70 3E71 3E77 3E78 3E79 3E82 3E83 3E84 3E85 3E86 3E87 3F14 3F31 3F32 3F33 3F34 3G10 3G11 3G12 3G13 3G14 3G15 3G23 3G24 3G34 3G35 3G36 3G38 3L01 3L02 3L04 3L05 3L12 3L13 3L15 3L16 3L53 3L55 3L56 3L58 3L59 3L61 3L62 3L63 3L64 3L67 3L72 3L73 3L75 3L76 3L79 3L93 3L94 3L95 3N02 3N03 3N04 3N05 3N06 3N07 3N08 3N10 3N11 3N12 3N13 3N14 3N15 3N22 3N24 3N37 3N38 3N39 3N40 3N41 3N42 3N43 3P15 3P67 E3 E3 F3 F3 F3 F3 F3 C8 C8 D8 D8 C5 C5 B5 B5 B5 B5 C6 C6 C6 C6 C6 C6 B6 B6 C5 B4 C4 B4 B4 B4 B4 C4 C4 C4 C4 C4 C4 D7 D7 D7 D7 D6 D6 D6 D6 D6 D6 D6 C4 D4 D6 D6 D6 D3 D4 C3 D4 D3 D3 D2 C2 C2 C3 C3 C1 B2 B3 B3 C1 C1 B3 B3 C3 C3 C3 C1 A5 A5 B6 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 B6 B6 B6 B6 A6 B6 B6 A6 A6 A6 B6 B6 B6 A6 A6 B7 B7 B6 B6 B6 B6 B6 D1 D1 3Q59 3Q77 3Q78 3Q79 4301 4306 4307 4313 4317 4318 4323 4504 4603 4604 4E11 4E12 4E13 4E14 4M50 4M51 4M52 4M53 4M54 4N05 4N06 4N07 4N08 4R22 4R24 4R26 4R27 4R31 4R32 4R33 4R34 4R35 4R36 5201 5202 5306 5307 5703 5704 5705 5A03 5A04 5A05 5A06 5A07 5A08 5B12 5C15 5C16 5D03 5E13 5E14 5E15 5E16 5E17 5E18 5E71 5G10 5G17 5G18 5G19 5P01 5P02 5P06 5P09 5Q01 5Q02 5Q09 6301 6317 6318 6512 6513 6615 6616 6E05 6E06 6E07 6E08 6E09 6E10 6E21 6E22 6E72 6N41 6N42 6P02 6P03 6P16 6Q05 7113 7201 7302 7303 7311 7312 7314 7322 7323 7504 7700 7A01 7C01 7C03 7D01 7D02 7E01 7E02 7E03 7E71 7F01 7F02 7G01 7G03 7G04 7L10 7M07 7M16 7M17 7M18 7N01 7N40 7P06 D3 D3 D3 D3 A4 D5 D5 A5 A3 A3 A5 D8 C8 D8 D3 C3 D4 D4 A8 A8 A8 A8 C7 B6 B6 B7 B6 A2 A2 A2 A2 B3 A3 A3 A3 A3 A3 A3 A3 C5 C6 A4 A4 A4 F2 E2 F2 E2 F1 F1 C1 C5 C5 C3 D7 D7 D3 D3 D3 D3 D6 C1 C3 C3 C3 E1 E2 D1 D2 E2 E3 D3 A6 B6 B6 E8 E8 C8 D8 D7 D7 C4 D4 C3 D4 D6 D6 D5 B6 B6 D1 D1 D1 D3 D5 A3 D5 C6 A5 A6 A5 A6 A5 D8 A4 F3 B5 C6 B4 C4 C8 D3 D3 D6 C2 C3 B2 C1 C3 A5 A7 C8 C7 C7 A6 B6 E1 7P07 7P14 7Q06 7Q07 7Q08 7Q09 7R05 E2 D1 E2 E3 D3 D3 A3 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 77 Layout Small Signal Board (Part 1 Top Side) Part 1 I_17760_020a.eps 110208 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 78 Layout Small Signal Board (Part 2 Top Side) Part 2 I_17760_020b.eps 110208 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 79 Layout Small Signal Board (Part 3 Top Side) Part 3 I_17760_020c.eps 110208 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 80 Layout Small Signal Board (Part 4 Top Side) Part 4 I_17760_020d.eps 110208 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 81 Layout Small Signal Board (Overview Bottom Side) 1306 1307 1308 1309 1310 1312 1313 1411 1E11 1E12 1E13 2112 2118 2119 2120 2121 E8 E8 E8 E8 F8 E8 F8 F4 C2 C2 C2 E5 E5 E5 E5 E5 2122 2123 2124 2125 2126 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 E5 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 2139 2140 2141 2143 2144 2145 2147 2148 2149 2151 2152 2201 2202 2203 2204 2310 D4 D4 D4 D4 D4 D4 D5 E5 E5 E5 E5 C3 C3 B8 B8 A4 2311 2312 2313 2318 2319 2320 2327 2328 2329 2330 2331 2332 2333 2334 2335 2336 A4 A4 A4 A4 B4 A5 E8 F8 F8 E8 E8 E8 E8 F8 F8 E8 2337 2339 2340 2342 2348 2349 2408 2411 2412 2413 2414 2415 2416 2417 2418 2419 E8 E8 E8 E8 D6 C6 E3 E4 F4 E4 F4 F4 F4 E4 E4 F4 2421 2422 2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2437 2438 E4 E4 E4 E4 E4 E4 E4 E4 E4 E4 F3 F3 F3 F3 E3 E3 2440 2441 2442 2443 2444 2446 2447 2448 2449 2450 2451 2502 2506 2508 2509 2512 F5 F3 F3 E4 E4 F4 F4 F3 F3 F4 F4 F1 E1 F2 E1 E1 2514 2515 2517 2518 2520 2521 2523 2524 2525 2526 2527 2528 2529 2530 2531 2533 E2 E2 E2 E1 E1 E2 E2 E1 D1 D1 E2 E2 E2 E1 E2 E1 2534 2535 2536 2538 2600 2602 2603 2606 2607 2608 2609 2610 2612 2621 2622 2623 E1 D2 D1 D2 E1 E3 D3 E3 E3 E3 E1 E3 E3 E1 D1 E1 2624 2625 2626 2627 2628 2700 2701 2702 2703 2704 2705 2706 2707 2708 2709 2710 E1 E1 E1 D1 E1 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 2711 2712 2713 2714 2715 2717 2718 2719 2720 2721 2725 2726 2729 2730 2734 2A13 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 F8 2A21 2A25 2A26 2A27 2A31 2A35 2A36 2A37 2A38 2A41 2A45 2A51 2A52 2A54 2A55 2A56 F7 F6 F8 F7 F7 F7 F7 F8 F8 F8 F8 D2 D2 D2 D2 D2 2A57 2A59 2A60 2A61 2A64 2A65 2A66 2B11 2B12 2B13 2B14 2B15 2B16 2B17 2B18 2B21 D2 D2 F5 F5 F7 F7 D8 B7 B7 B7 B7 B7 B7 B7 B7 B7 2B22 2B23 2B24 2B25 2B26 2B27 2B28 2B29 2B30 2B31 2B32 2B33 2B34 2B35 2B36 2B37 B7 B7 B7 B7 B7 B7 B7 C7 B7 B7 B7 B7 B7 B7 B7 B7 2B38 2C07 2C16 2C20 2C21 2C22 2C23 2C24 2C25 2C26 2C27 2C28 2C29 2C30 2C31 2C32 B7 C4 C4 B4 B4 C4 C4 C4 C4 C4 C4 C4 C4 B5 C5 C4 2C33 2C34 2C35 2C36 2C37 2C38 2C39 2C40 2C41 2C42 2C43 2C44 2C45 2C46 2C47 2C48 C4 C4 C4 B4 C4 B4 B4 B4 B4 B4 B4 B4 C4 C4 B5 B4 2C49 2C50 2C51 2C52 2C53 2C54 2C55 2C56 2C57 2C58 2C59 2C60 2C61 2C62 2C63 2C64 C4 B4 B4 B4 C4 B4 B4 C5 C4 C4 C4 C4 C5 C4 C5 C4 2C65 2C66 2C67 2C68 2C69 2C70 2C71 2C72 2C73 2C74 2C75 2C76 2C77 2C82 2C84 2C85 C4 C4 C4 C4 C5 C4 C4 B5 B4 B5 B4 B4 B5 C4 C4 C4 2C86 2C87 2C88 2C89 2C90 2C91 2C92 2C93 2C96 2C97 2C98 2C99 2D02 2D03 2D04 2D08 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 C4 B5 B5 B6 B5 2D09 2D10 2D11 2D12 2D14 2D18 2D33 2D34 2D37 2D38 2D39 2D43 2D46 2D57 2D58 2D59 B5 B5 B5 B5 C6 B6 C5 C5 C5 C5 C5 C5 C5 C6 C5 C5 2D60 2D73 2D78 2E01 2E02 2E03 2E04 2E05 2E06 2E07 2E11 2E12 2F25 2F26 2F27 2F28 C5 C6 C6 C2 C2 C2 C1 C1 C1 C1 C2 D2 C8 C7 C8 C7 2F29 2F30 2F31 2F32 2F33 2F34 2F35 2F36 2F37 2F38 2F39 2F40 2F41 2F42 2F43 2F44 C8 C7 C6 C7 C7 C7 C7 C7 C8 C7 C8 C7 C8 C7 C7 C7 2F45 2F46 2F47 2F48 2F49 2F50 2F51 2F52 2F53 2F54 2F55 2F56 2F57 2F58 2F59 2F60 C7 C7 C7 C7 C7 C7 C7 C7 C7 C7 C8 C7 C7 C6 C7 C7 2F61 2F63 2F79 2F80 2F81 2F82 2F83 2F84 2F85 2F86 2F87 2F88 2F89 2F90 2F91 2F92 C7 D7 D7 D7 D7 D7 D7 D8 C6 C8 C6 C8 D7 D7 C8 C6 2F93 2G11 2G12 2G13 2G14 2G15 2G16 2G17 2G18 2G19 2G20 2G21 2G22 2G23 2G24 2G25 C8 B6 B7 B7 C7 B7 B7 B6 C6 C7 C7 C7 C7 C7 C7 C7 2G26 2G27 2G28 2G29 2G30 2G32 2G33 2G34 2G35 2G36 2G37 2G38 2G39 2G40 2G41 2G42 C7 C7 C7 C7 C7 B7 B7 B7 B7 B7 B7 B7 C7 B7 B7 C7 2G43 2G45 2G46 2G47 2G48 2G49 2G50 2G51 2G52 2G53 2G54 2G55 2G57 2G58 2G59 2G61 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 B7 2G62 2G63 2G64 2G65 2G66 2G67 2M01 2M02 2M03 2M04 2M05 2M06 2M07 2M08 2M09 2M10 B7 B7 B7 B7 B7 B7 A1 A2 A2 B2 B2 B2 B2 B2 A2 A2 2M15 2M16 2M17 2M19 2M20 2M21 2M46 2M47 2M48 2M50 2M51 2M52 2M53 2M54 2M55 2M56 A2 B2 A2 A2 A2 A2 C1 C2 C2 B1 B1 B1 B1 B2 B2 B2 2M57 2N15 2N16 2N17 2N18 2N20 2N25 2N26 2N27 2N28 2N29 2N30 2N31 2N32 2N33 2N34 B2 A2 B2 A2 B3 A3 B3 A3 A3 B3 A3 B3 A3 A3 A3 A3 2N35 2N36 2N37 2N38 2N39 2N40 2N41 2N42 2N43 2N44 2N45 2N46 2N47 2N48 2N49 2N50 B3 A3 B3 B3 B3 B3 A3 A3 A3 A3 A3 B3 A3 A3 A3 B3 2N51 2N52 2N53 2N54 2N56 2N58 2N59 2N60 2N61 2N62 2N63 2N64 2N65 2N66 2N69 2N70 B3 A3 A3 B3 A3 B3 A3 A3 A3 A3 A3 A3 B3 A3 B3 B3 2P07 2P31 2P32 2P33 2P35 2P36 2P37 2P38 2P39 2P40 2P41 2P42 2P43 2P48 2P49 2P52 Part 2 I_17760_021b.eps Part 1 I_17760_021a.eps Part 4 I_17760_021d.eps Part 3 I_17760_021c.eps I_17760_021.eps 110208 3139 123 6349.1 2009-Apr-10 E8 E7 E8 E8 E8 E8 E7 E8 E8 E8 E7 E7 E7 E7 E8 E7 2P53 2P54 2P78 2P79 2P80 2P81 2P82 2P83 2P85 2P90 2P91 2Q07 2Q31 2Q32 2Q33 2Q35 2Q36 2Q37 2Q38 2Q39 2Q40 2Q41 2Q42 2Q43 2Q48 2Q49 2Q52 2Q53 2Q54 2Q78 2R01 2R02 2R10 2R20 2R21 2R23 2R24 2R25 2R26 2R29 2V01 2V02 2V03 2V04 2V05 2V06 3110 3111 3113 3115 3117 3118 3119 3123 3124 3125 3126 3127 3133 3134 3135 3136 3137 3140 3141 3151 3152 3188 3190 3191 3192 3193 3194 3195 3201 3202 3203 3204 3205 3206 3300 3302 3305 3308 3310 3326 3330 3331 3333 3336 3338 3339 3340 3341 3348 3349 3350 3353 3355 3361 3362 3384 3389 3390 3391 3393 3394 3397 3402 3403 3410 3411 3416 3417 3418 3419 3420 3423 3427 3428 3500 3502 3503 3506 3507 3508 3510 3511 3512 E7 E7 E8 D8 D8 D8 D8 E8 E8 D6 D7 D7 E6 E7 D7 E7 D7 E6 E7 D7 D7 D6 D6 D6 D6 D7 E6 E6 D6 E7 A7 A7 A6 A7 A7 A7 A8 B8 B8 B8 C4 C4 C4 B4 B4 C4 E5 E5 E4 E5 E4 E4 E4 D4 D4 D4 D4 D4 D4 D4 D4 D5 E5 D4 E5 D4 D4 E4 E5 E5 D5 D4 D4 D4 C3 C3 B8 B8 B8 B8 A4 A4 A4 A4 A3 B4 A3 A4 A3 B4 A4 A4 A4 A4 A4 A4 A4 A5 A5 C3 C3 A4 E8 E8 F8 B3 F8 A4 E4 F4 F4 F4 F3 E4 E4 E4 E4 F4 F4 E4 F1 E1 F2 E1 E2 E1 E2 E2 E1 3513 3514 3515 3516 3517 3518 3519 3520 3521 3522 3523 3524 3525 3526 3528 3529 3530 3531 3532 3533 3535 3536 3538 3545 3546 3550 3551 3552 3553 3555 3600 3601 3602 3603 3604 3605 3607 3608 3609 3611 3612 3617 3618 3619 3621 3622 3623 3624 3700 3701 3702 3703 3A05 3A09 3A14 3A17 3A27 3A28 3A29 3A30 3A31 3A51 3A53 3A55 3A56 3A58 3A60 3A61 3A62 3A63 3A68 3A69 3A70 3A71 3A72 3A73 3A74 3A75 3A76 3A77 3B19 3C07 3C08 3C09 3C10 3C19 3C20 3C22 3C23 3C24 3C25 3C39 3C40 3C41 3C42 3C43 3C44 3C45 3C47 3C48 3C49 3D10 3D14 3D15 3D16 3E01 3E02 3E03 3E04 3E05 3E06 3E07 3E08 3E09 3E10 3E11 3E12 3F09 3F11 3F12 3F13 3F35 3F36 3F37 3F38 3F39 3F40 3F41 3G16 E1 E2 E2 E2 E2 E2 D1 E2 D1 D1 E2 E1 E1 E2 E2 E1 E2 E1 E2 E2 D2 D2 D1 D2 D2 E1 E1 E1 E1 D1 E1 E3 E1 D3 E1 E3 E3 E3 E1 E3 E3 D3 D3 E3 D1 E1 E1 E1 A5 A5 A5 A5 F7 F7 F7 F7 F8 F8 F7 F7 F7 D2 D2 D2 D2 D2 D2 F5 F5 F5 F5 F5 F5 F5 F5 F5 F5 F5 F5 F5 D7 B4 B4 B4 B4 B4 B4 B5 B5 B5 B4 C4 C4 C4 C4 C4 C4 B4 B4 C4 C4 C6 C6 C5 C5 C3 C2 C2 C2 C2 C2 C1 D2 D2 C1 C1 C1 D7 D7 D7 D7 C7 C6 B7 C7 D7 D7 D7 B6 3G17 3G18 3G19 3G20 3G21 3G22 3G27 3G29 3G30 3G31 3G32 3G33 3L10 3L14 3L17 3L18 3L19 3L20 3L21 3L22 3L23 3L24 3L54 3L57 3L71 3L86 3L96 3L97 3L98 3M03 3M04 3M07 3M08 3M09 3M10 3M11 3M13 3M14 3M15 3M18 3M19 3M20 3M21 3M31 3M32 3M33 3M34 3M35 3M36 3M37 3M38 3M39 3M40 3M61 3M62 3M63 3M66 3M67 3M68 3M71 3M72 3M73 3M78 3M79 3M80 3M81 3M82 3M83 3M84 3M85 3M86 3M87 3M88 3N01 3N09 3N16 3N19 3N20 3N21 3N33 3N34 3N46 3N47 3N48 3N49 3N50 3N51 3N52 3P13 3P20 3P23 3P25 3P26 3P32 3P34 3P37 3P38 3P40 3P41 3P45 3P47 3P48 3P49 3P50 3P51 3P52 3P53 3P54 3P56 3P61 3P64 3P68 3P69 3P70 3P71 3P72 3P74 3P75 3P76 3P77 3P78 3P79 3Q13 3Q20 3Q23 3Q25 3Q26 3Q32 3Q34 B6 C8 B6 C8 B7 B7 B6 B6 C6 B6 B6 B7 E8 A5 A4 A4 D6 D6 D6 D6 A4 A4 A5 A4 A4 B3 A3 A4 A4 B1 B1 B1 B1 A2 A2 A2 B2 A2 A2 A2 B2 B2 B2 B2 A1 A2 A2 B1 B1 B1 B1 B2 B2 C1 C1 C1 C2 C1 C1 C2 C2 C2 B1 C1 B1 B1 B1 B1 B2 B2 B2 A2 A2 B2 A3 B3 A3 A3 A3 A3 A3 B2 B2 B3 B2 B2 B2 B2 E7 E7 E8 E8 E8 E7 E8 E8 E8 E7 E8 E7 E8 E8 E8 E7 E8 E8 E8 D7 D7 E7 D7 E8 E7 E7 D7 E7 E8 D6 D6 D7 D7 D6 E6 E6 E7 E7 E7 E6 E7 3Q37 3Q38 3Q40 3Q41 3Q45 3Q47 3Q48 3Q49 3Q50 3Q51 3Q52 3Q53 3Q54 3Q56 3Q61 3Q64 3Q68 3Q69 3Q70 3Q71 3Q72 3Q74 3R10 3R12 3R13 3R25 3R26 3R35 3R48 3R49 3R50 3R51 3R52 3R53 3R54 3R55 3R56 3R57 3V04 4101 4102 4103 4104 4121 4122 4124 4201 4202 4203 4204 4205 4206 4303 4304 4305 4309 4310 4316 4325 4326 4401 4402 4403 4448 4502 4505 4506 4508 4509 4510 4601 4602 4605 4606 4700 4701 4A51 4C07 4C08 4F01 4M01 4M02 4M05 4M06 4M10 4M12 4M20 4M29 4M30 4M31 4M32 4M36 4M37 4M38 4M39 4M40 4M41 4M42 4M43 4M44 4M45 4M46 4M47 4M48 4M49 4N14 4N15 4R02 4R03 4R04 4R05 4R06 4R07 4R08 4R10 4R11 4R12 4R43 5111 5112 5114 5115 5116 5117 5118 5119 5120 5121 5122 D7 D7 E6 D7 E6 E7 E7 E7 D6 E7 E7 E7 D6 D6 E6 D6 E7 E6 E6 D6 D6 E7 A6 A6 A6 A7 A7 A7 A7 A7 A8 A8 A7 A7 A7 B8 B8 B8 B5 E4 E4 E4 E4 E5 E5 D4 B8 B8 B8 B8 B8 B8 E8 C3 C3 E8 E8 A5 A4 A4 F4 F4 F4 F3 D1 E1 E1 E2 E2 D2 D1 E1 E2 E2 A5 A5 F5 B4 B4 D7 A1 A1 A2 A2 B2 A1 A1 B1 A2 B2 C1 C1 C1 B1 B1 B2 B2 B1 B1 B1 B1 B1 B1 B1 B1 B2 B2 A6 A6 A6 A7 A7 A7 A7 A6 A6 A6 B8 D5 E5 D4 D4 D4 D3 D5 D5 E5 E5 E5 5301 5302 5304 5401 5402 5403 5404 5700 5701 5702 5B10 5B11 5B13 5B14 5B15 5B16 5B17 5C06 5C07 5C08 5C09 5C10 5C11 5C12 5C13 5C14 5C17 5C18 5C19 5C20 5C21 5C22 5E01 5F01 5G11 5G12 5G13 5G14 5G15 5G16 5M01 5M02 5M03 5N01 5N02 5N03 5N04 5N05 5N06 5N07 5N08 5N09 5R01 5R02 5R03 6103 6110 6308 6309 6310 6311 6312 6313 6319 6402 6501 6504 6505 6507 6509 6510 6511 6514 6515 6516 6517 6518 6519 6520 6521 6522 6523 6524 6525 6604 6606 6610 6611 6612 6613 6614 6621 6622 6A51 6A52 6E01 6E02 6E03 6E04 6M08 6M13 6M14 6M15 6M16 6M17 6M18 6M19 6M20 6M21 6M22 6M23 6M24 6P13 6P14 6P15 6P17 6Q13 6Q14 6Q15 6R02 6R04 6R05 7109 7114 7131 7132 7133 7134 7301 A4 A4 E8 E4 F4 F3 F3 A5 A5 A5 B7 B7 B7 B7 B7 B7 B7 C4 C4 C4 C4 B5 B4 C4 C4 B5 C4 C4 C4 C4 C4 C4 C1 D7 B6 B7 C6 B7 B7 B7 B2 A1 A2 A2 A3 A3 A3 A2 A3 B3 A2 A3 A6 A6 A6 E4 E5 E8 E8 E8 E8 F8 E8 F8 F5 E1 F2 E1 E2 E1 E1 D2 E2 E2 E2 D2 F2 E2 E2 E2 E1 E1 E1 D1 E1 E1 E3 D3 E3 E3 E3 D1 E1 F5 F5 C3 C2 C2 C1 A1 B1 A2 A2 B2 B2 A1 C1 C1 C1 C2 C2 C2 E8 E8 E8 D6 E7 E7 E7 A6 B8 B8 E4 D4 E5 E5 E6 D4 A4 7308 7310 7317 7410 7411 7412 7500 7502 7503 7A05 7A06 7A07 7A51 7A52 7A53 7A54 7A55 7A56 7A57 7A58 7A59 7A60 7C02 7C04 7F03 7G02 7L23 7M02 7M04 7M09 7M20 7M21 7M22 7N43 7N44 7P05 7P08 7P09 7P11 7Q05 7Q11 7R07 B3 B4 B3 F5 F4 F4 D1 D1 E1 F7 F8 F8 D2 F5 F5 F5 F5 F5 F5 F5 F5 F5 B4 B5 D7 B8 A5 B1 B1 B2 C1 B1 B2 B2 B2 E8 D6 D7 E7 E7 E6 A6 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 82 Layout Small Signal Board (Part 1 Bottom Side) Part 1 I_17760_021a.eps 120208 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 83 Layout Small Signal Board (Part 2 Bottom Side) Part 2 I_17760_021b.eps 120208 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 84 Layout Small Signal Board (Part 3 Bottom Side) Part 3 I_17760_021c.eps 120208 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 85 Layout Small Signal Board (Part 4 Bottom Side) Part 4 I_17760_021d.eps 120208 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 86 IR / LED Panel 1 3 2 4 6 5 10 12 11 13 IR 1 3 4 5 "WHITE" 1P09 +5V_SW TO ME8 SSB 1P10 FP10 FP20 FP11 FP12 FP13 FP14 FP15 FP16 FP17 LIGHT_SENSOR 1-F7 3P11 8K2 3P13 270R IP10 IP22 6P11 IP12 4P01 RES IR {KEYBOARD,LED1,LED2,LIGHT_SENSOR,RC,TACT_SWITCH_INT,IR} 1-F7 1-D8 LED2 3P12 270R RES 6P12 IP11 4P02 (RES FOR BDS) IP13 1-D6 LED1 KEYBOARD LED1 IP14 3P15 1-D5 +5V_SW 7P10 BC847BW TACT_SWITCH_INT 10 11 1-C5 3P07 680R RES LED2 3P08 680R RES 1P11 3P28 10K 3P14 10K 3P27 10K FROM ME8 KEYB KEYBOARD C +3V3STBY TACT_SWITCH_INT 6 FP18 LIGHT_SENSOR 5 IR 1 2 3 4 B IP15 7P11 BC847BW 10K +3V3STBY +3V3STBY C 6P10 +3V3STBY BM09B-SRSS-TBT E A 3P10 1K8 SML-512 5 C B "RED" SAME LOCATION WITH 7012 4 BM04B-SRSS-TBT F +5V_SW "LIGHT SENSOR" 1-C5 1-C5 D +5V_SW +5V_SW +3V3STBY 3P16 100R 7P12 3P09 22K 3P18 100K D 3 2 IP16 1 +5V_SW G "IR RECEIVER" 3P19 6K8 7P14 GP1UE260RKVF VS OUT E 4 H RES 2P14 10u 3P17 0R IP17 7P13 BC847BW 2 1 TEMT6000X01 IP18 3P20 IP20 IP19 10K 3 3P22 10K 3P21 270K E 5 GND 2P10 10u 2P12 10u 2P11 10u 3P23 100K 2P13 10u 3P25 39K 3P24 10K A 1P09 A1 1P10 B1 1P11 C1 2P10 E5 2P11 E5 2P12 E6 2P13 E6 2P14 E4 3P07 C3 3P08 C2 3P09 D6 3P10 A7 3P11 A5 3P12 A6 3P13 A6 3P14 B6 3P15 B4 3P16 D4 3P17 E5 3P18 D8 3P19 E4 3P20 E6 3P21 E8 3P22 E8 3P23 E4 3P24 E7 3P25 E6 3P26 E8 3P27 B5 3P28 B6 4P01 B5 4P02 B6 6P10 A7 6P11 A5 6P12 A6 7P10 B7 7P11 B5 7P12 D8 7P13 E7 7P14 E3 FP10 B1 FP11 B1 FP12 B1 FP13 B1 FP14 B1 FP15 B1 FP16 B1 FP17 B1 FP18 C1 FP20 B1 IP10 A5 IP11 A7 IP12 B5 IP13 B7 IP14 B4 IP15 B6 IP16 D4 IP17 E7 IP18 E8 IP19 E7 IP20 E4 IP21 E8 IP22 A6 8 +3V3STBY BM03B-SRSS-TBT RES 1 2 3 4 5 6 7 8 9 7 +3V3STBY TSML1020 1 2 3 D 6 TO ME8 LIGHT GUIDE B A 2 19-113/T7D-CS2T2B2-3T A All rights reserved. Reproduction in whole or in parts is prohibited without the written consent of the copyright owner. 9 8 7 B C D E F G H IP21 3P26 270K I I 1 2 3 4 6 5 CHN DC 319372 7 SETNAME 8 ******** CLASS_NO LC08 3PB310 J 3139 123 63274 PCB MB ME8 IR : 3139_123_63263_02 PCB SB ME8 IR : 3139_123_63273_02 1 2 3 4 5 6 "P00" ~ "P99" 7 -- -- -- 1 2007-09-21 2 2007-10-24 3 SUPERS. CHECK SV 8 DATE 9 2008-08-19 3 2007-11-28 J 3139 123 6327 PCB SB IR NAME Chen Li Min 4 **** *** ***** 1 2007-05-23 10 C 10 130 1 A3 ROYAL PHILIPS ELECTRONICS N.V. 2007 11 12 13 18510_500_090407.eps 090407 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 87 Layout Front IR / LED Panel (Top Side) 1P09 A4 1P10 A5 1P11 A1 2P12 A1 2P13 A1 I_17760_035.eps 090410 3139 123 6327.4 Layout Front IR / LED Panel (Bottom Side) 2P10 2P11 3P07 3P08 A4 A6 A4 A4 3P09 3P10 3P11 3P12 A6 A3 A2 A6 3P13 3P14 3P15 3P16 A6 A2 A2 A4 3P17 3P18 3P19 3P20 A5 A6 A4 A6 3P21 3P22 3P23 3P24 A6 A6 A4 A6 3P25 3P26 3P27 3P28 A6 A6 A2 A3 4P01 4P02 6P10 6P11 A2 A2 A3 A3 6P12 7P10 7P11 7P12 A5 A2 A2 A5 7P13 A6 7P14 A4 I_17760_034.eps 090410 3139 123 6327.4 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 88 iBoard 2 1 3 1 4 3 2 5 6 5 4 7 6 8 9 8 7 10 9 10 11 12 12 11 13 +5VB 5109 C1+ I115 2117 100n T1 IN T2 13 8 100R OUT R1 IN R2 OUT 14 7 T1 T2 12 9 R1 R2 I118 1110 NC C 100R 3178 F147 4121 I177 CHN +5VA H 10K 3172 1u0 2113 47K 3113 3114 1 I174 1K0 I175 4113 MODE_HP_DET 3140 1K0 2179 10K 1120 22K 2180 1n0 1K0 1n0 1119 3137 DC378818 H 1105 LGT1509-0200F Aux Audio out 2 I ITV - - 2009-02-06 2 2009-03-20 3 1 SV 2 3 3 4 4 G SETNAME 1 2009-03-20 1 2009-02-06 J 3139 283 3009 PCB SB IBOARD AP/CH iLC08 NAME Ronnie Tan 2 F 1122 1121 1 4 3 2 7111 BC847BW 3 PCB MB IBOARD : 3129_283_3008_1 PCB SB IBOARD : 3129_283_3009_1 1 G +5VA F146 1n0 10K 3135 Aux Audio out 1 E F162 2182 47u 1n0 2129 1114 1 4 3 2 F I186 3PB310 2 BC857BW 7105 3141 10K 1n0 PESD5V0S1BA 6107 1117 PESD5V0S1BA 6106 +3V3_STANDBY HP_DET2 7110 BC847BW F153 CLASS_NO J PESD5V0S1BA 1125 1116 1115 100n 47u 16V 2163 68R 33R 2128 F180 3196 220R 7130 BC817-25 F145 2 out LGT1509-0200F 2178 47u 3 1 68R 3136 10u 1n0 2162 68R 22K 3170 2171 F144 F152 D 12K 3171 68R 3190 220n 3192 33R 470n 2170 3134 F169 1u0 F133 100n 2155 2154 HP_AUDIO_OUT_L 1u0 2173 100K 3 HP_AUDIO_OUT_R 2172 +12V F177 47u 3193 220n 220R F176 2174 2175 3138 8 3133 100K 7120 BSH111 2181 +5V_AUD 3199 2176 10u 47u D E 6 7 2156 100u 16V 10u 2158 560R 4 F178 7127 BC817-25 F131 4 F157 7 TS482IDT 7131-2 4101 I176 2144 6.3V 330u +5V_AUD 2177 3169 F135 2153 4119 4120 3 3182 3181 12K F156 6 F158 5 C Digital volume control RIGHT LEFT Reset pin F134 1 UPDOWN TXD00 RXD00 SDA3_IR_OUT 120K 47K TOP SIDE NC GND 4 100n 2111 2K2 RES 33p 3132 47K OUTP F155 1 TS482IDT 7131-1 2169 F168 100n 2136 RES +5VA F151 I166 22K 3127 I171 I 470R 1u0 POWER ON RESET INP CD 3 2K2 3183 2K2 7103 NCP303LSN45 2 3123 3131 3111 5 F166 8 2123 MUTE POR +5VA F163 2 F130 BM03B-SRSS-TBT H F154 F167 2112 F 5 3174 BM08B-SRSS-TBT 7122 BC847BW 47K NOT CONNECTED ANYWHERE 4 1u0 2109 +5VSSB 9 10 LED1 I182 HP_AUDIO_OUT_L I183 I184 HP_AUDIO_OUT_R 3191 1112 MSJ-035-29D PPO 2 F149 3 1 1113 MSJ-035-29D PPO 2 Speaker 3 8Ω 1 F150 5 OUT- +5V_AUD 120K F181 1108 1 2 3 OUT+ GND 33p 3112 F165 3130 3157 1K0 1u0 2114 I150 RES 3122 470R 1u0 IR_IN_TV LED2 3158 1K0 F164 IN UP|DOWN MODE SVR 2168 4112 I146 I147 2122 F129 I164 2143 6.3V 330u 8 VP 4 1 2 3 F182 22K 2160 3195 68R 1n0 3188 68R 1n0 2161 68R 3189 RJ45 I181 4102 7121 TDA8551T F160 1u0 +5V_AUD 3197 5450-V01-112-A2 I180 LEFT I188 2157 F161 7123 BC817-25 2 +3V3_STANDBY I144 1u0 G I179 1 100R F141 3128 1110 1 2 3 4 5 6 7 8 100R 3187 RIGHT TO SSB 68R 3194 RES BM09B-SRSS-TBT 3186 7124 BC817-25 2 I187 2110 1u0 4110 10 11 KEYBOARD NC 1 LED1_OUT I142 I143 I178 RXD232 PESD15VS2UT RC_IR LED2_OUT +5V_AUD TXD232 6108 BAT760 PESDXS2UT I140 I141 3 3180 F159 F138 6103 3 F148 560R 2 F137 PESDXS2UT LIGHT_SENSOR PESD12VL2BT 1 10K 1109 1 2 3 4 5 6 7 8 9 6100 F139 F140 PESD15VS2UT 10K 3184 10K 3185 4111 TO IR LED PANEL 1 2 +5V_AUD 3 4 5 6 7 8 9 10 6102 +5V_AUD E POR1 1107 +5VB E CVBSterr 560R 3143 4118 +5V_AUD D B 100R I119 3121 RXD0 DATA 2 RJ45 +12VA 3120 NC 3142 18K 3176 11 10 3119 F172 owner. All rights reserved. Reproduction in whole or in parts is prohibited without the written consent of the copyright 100R 6105 100K 3118 4117 F171 B C2- I117 GND 1K0 RES 3175 100n 2149 3177 TXD0 F170 1-338313-2 F G 1 2 3 4 5 6 7 8 9 RS232 2u2 C D 2159 11 2120 100n 2121 100n 15 F143 VIA 10 F175 2 C2+ 1111 7125-2 ST1S10PH I116 6 V+ 5 A RS232 C1- 4 PESDXL2BT A VCC V- 3 100u 16V 10u 10u 2152 1 6104 TO SSB B Φ 6 SW 3 VFB GND P HS F174 2116 100n +5V_AUD 2151 A 4 B SYNC F142 10u 9 5 5113 I167 7 SW VIN 2150 INH 8 RES 2 10u RES I163 10u 2148 33R 10u 2147 5114 2146 1104 250mA A 33R 1 7125-1 ST1S10PH 16 7107 ST3232C 5115 10u +12VA +12V C 2119 A A F173 6u8 5 5 7 6 6 DATE 8 7 2 SUPERS. CHECK 2008-05-27 10 9 8 10 9 130 1 A3 ROYAL PHILIPS ELECTRONICS N.V. 2009 C 11 10 12 11 13 H 1104 A2 1105 F12 1107 C6 1108 E4 1109 D1 1110 E1 1111 B8 1112 C12 1113 D12 1114 E12 1115 C11 1116 C11 1117 E11 1119 F11 1120 F11 1121 G11 1122 G11 1125 C12 2109 F3 2110 E2 2111 G3 2112 F2 2113 H5 2114 F3 2116 A10 2117 B10 2119 A11 2120 A11 2121 B11 2122 E6 2123 F6 2128 G10 2129 G11 2136 G2 2143 D10 2144 D10 2146 B2 2147 B3 2148 B3 2149 B3 2150 B5 2151 B5 2152 B5 2153 D11 2154 D10 2155 D10 2156 E9 2157 D8 2158 E9 2159 B6 2160 E5 2161 E4 2162 F10 2163 F10 2168 E8 2169 F8 2170 G8 2171 G9 2172 G7 2173 G8 2174 E9 2175 F9 2176 F9 2177 E10 2178 F11 2179 E11 2180 F11 2181 E11 2182 F11 3111 F3 3112 E8 3113 H5 3114 H5 3118 B10 3119 B10 3120 B11 3121 C10 3122 E6 3123 F6 3127 F7 3128 F7 3130 G8 3131 G8 3132 F8 3133 G9 3134 G8 3135 G11 3136 G9 3137 F11 3138 F9 3140 E12 3141 E11 3142 F11 3143 F12 3157 F3 3158 E3 3169 G10 3170 G10 3171 G6 3172 H6 3174 G6 3175 B5 3176 C5 3177 B5 3178 C10 3180 C11 3181 E8 3182 E8 3183 F7 3184 D5 3185 D4 3186 D5 3187 E3 3188 E5 3189 E4 3190 F10 3191 E10 3192 F9 3193 F10 3194 E4 3195 E5 3196 G10 3197 E8 3199 F10 4101 G6 4102 E2 4110 E2 4111 D2 4112 E6 4113 E12 4117 B8 4118 C8 4119 C9 4120 C9 4121 C11 5109 A11 5113 A4 5114 A2 5115 A2 6100 C8 6102 D6 6103 D7 6104 B9 6105 C11 6106 E11 6107 E11 6108 D9 7103 G3 7105 H4 7107 A10 7110 E12 7111 F12 7120 G6 7121 D10 7122 E8 7123 D5 7124 D4 7125-1 A3 7125-2 B3 7127 E10 7130 F10 7131-1 F8 7131-2 F8 F129 E6 F130 F6 F131 E10 F133 H4 F134 G4 F135 G4 F137 D6 F138 D6 F139 D6 F140 D6 F141 D6 F142 A5 F143 B5 F144 F11 F145 G10 F146 G11 F147 C11 F148 C11 F149 C11 F150 D11 F151 D11 F152 F11 F153 E12 F154 F8 F155 F9 F156 F8 F157 F9 F158 F8 F159 C11 F160 D9 F161 D9 F162 F12 F163 G3 F164 E6 F165 E7 F166 F6 F167 F7 F168 G8 F169 G8 F170 B8 F171 B8 F172 C8 F173 A11 F174 A10 F175 B11 F176 E10 F177 E11 F178 E9 F180 G10 F181 E7 F182 E8 I115 B10 I116 A11 I117 B10 I118 B11 I119 C10 I140 D2 I141 D2 I142 D2 I143 E2 I144 E2 I146 E2 I147 E2 I150 E2 I163 A3 I164 D10 I166 D10 I167 A4 I171 G5 I174 H5 I175 H5 I176 G4 I177 G4 I178 D4 I179 D5 I180 E4 I181 E5 I182 E4 I183 E4 I184 F4 I186 H6 I187 E2 I188 E2 12 18510_501_090407.eps 090407 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 89 iBoard 1 2 3 5 4 1 2 6 3 7 4 8 9 5 6 12 11 10 7 13 9 8 15 14 10 17 16 11 12 18 13 A IBOARD +5VA 1200 RXD0 F210 3202 100R 15 IB_IR_OUT1 2 10 HEFSW4 I281 7 8 VSS VEE 3222 4 47K 3251 3249 47K 3252 220R 3250 4211 1K0 2242 ENABLE 2 PGND 100u 16V 2244 1205 1 1 F223 2 F224 3 F238 4 F225 5 F226 6 F228 7 F229 8 F230 9 F239 10 12 11 SCL_SSB SDA_SSB +3V3_STANDBY 10n 22p 10n 10n 2237 2248 2236 22p 2247 3K3 5205 220R +5VSSB 1208 6 I286 100n 7 2250 F236 1 LCD 2 3 Clock 4 5 BM05B-SRSS-TBT 0 1 2 BM10B-SRSS-TBT G 5207 220R F235 +3V3_STANDBY F 4219 4218 AV1-STATUS STANDBY RXD0 4K7 4K7 3277 2220 100n 3207 10K +5VA 2238 3206 4210 LEDIN_CLK_TXD_SCL1 4209 SDA3_IR_OUT 8 SDA 22u 2245 AV1-STATUS-SSB RXD_BOLT_ON TXD_BOLT_ON (4K×8) EEPROM ADR E SSB REMOTE STANDBY 7214 100n M24C32-WMN6 SCL 22 23 21 9 10 11 12 1 1 20 3281 4K7 100R 5 13 F222 Φ WC 15 VIA SYNC GND 1u0 C2- 2243 1u0 22u 6.3V 2241 C2+ C1- GND_HS 1 2219 100u 16V 2 10K 7226 BSH111 3284 3282 C1+ 1 3276 SCL1 3 2 2 1 F234 7 H 1 2 3 3224 4K7 1099 REF EMC HOLE I279 1 7211 BC847BW 1097 REF EMC HOLE 1096 REF EMC HOLE I I280 3 I284 3226 1 1098 REF EMC HOLE 2 3 I282 7210 BC847BW 3 8 FB 3 3225 +5VB 10K PCB MB IBOARD : 3139_283_3008_1 PCB SB IBOARD : 3139_283_3009_1 2 6 5 16 4 OUT IN SKIP BSH111 7225 3 I275 6 HEFSW5 3IB_IR_OUT1 RC+PEND_IR 5 9 HEFSW3 * 1204 use as I2C I293 I294 7 14 17 +3V3_STANDBY 4K7 3279 3 I276 1K0 NOTE: 1K0 3 6u8 4 1 4 RES F258 D CLK 18 F231 F233 150R 10K RES 3288 13 RC_IR 12 RJIR_IN 11 1 2 4X1 4X2 3229 I292 7228 I291 BC847BW 3274 PESDXS2UT 6206 14 2K2 6 10K 16 3298 VDD G4 1 100u 16V 2226 10n +3V3_STANDBY 3280 2213 10K 2239 27p 27p 2212 10K +5VA Φ DC/DC CONVERTER COM 19 4205 2216 3230 3275 2 2204 MDX 1 7213 BC857BW +5VB 3293 +5VB 7207 100n 74HC4053PW M 10K 100R 3227 RJ12 220p 2246 3205 1K2 IR_OUT SDA1 +5VB +5VB 100R RES 7229 TPS60111PWP 5206 I285 RC_IR 4215 RES 560R 2217 47R 3246 3245 3255 10K 3254 10K 1K0 3253 10K 3299 3242 3244 10K 10K 5202 6u8 TXD0 10K 1K0 4220 +5VA +3V3_STANDBY 5203 F216 6u8 F217 F218 IR-IN_DATA_IN_RXD_SDA1 PEND_IR +5VB 3292 SC1_CVBS_RF_OUT 7223 BSH111 10K 10K C I230 +5V 2 STATUS_DATA_OUT_RXD 9 19 45 4212 HEFSW0 100n 1K0 100R 7 2 0R 10K 100R 47 +3V3_STANDBY 10K 10K 3232 3231 3239 5 8 I267 3 RES 2 I269 Smartplug Data 1 PESDXS2UT 3295-4 4 3295-1 1 3295-3 3 6 3295-2 2 3294 STATUS_DATA_OUT_RXD 6205 UPSD3333D-40 1u0 3248 2 7224 3 +5VA 10K 10K 2218 +5VB BSH111 3 4 4214 RES RXD0 4206 PEND_IR 7 10K 4213 I231 LEDIN_CLK_TXD_SCL1 IR-IN_DATA_IN_SDA1 F250 I270 F232 8 CTRL_12VPBS 5 +5VA 1K0 10K 10K 10K +3V3_STANDBY +5VA I290 2224 100n 1 5 7227 74HC1G08 3221 3297 F241 F242 IR_IN_TV 1-1735446-4 VSS VEE 6207 6208 I268 27p 2240 BZX384-C5V6 +3V3_STANDBY 3296-2 2 7 3296-3 3 6 3296-4 4 HEFSW2 I278 DATA_OUT1 3 5 9 I261 +5VB +5VA 4 CVBSterr 100R +5VA 2231 3283 PCACLK 0:1 I277 RJIR_IN HEFSW1 I215 1 220R 4201 CVBSterr 100R MODE_HP_DET 100R LED2_OUT 100R 100R GND RES 3269 3240 3236 3241 3264 10n UPDOWN 1 2 10 3209 F237 F260 TDI TDO JTAG TMS TCK 100R 7215 BC847BW +5VA 10n 22 21 IR_PULLUP_SW I263 20 I264 18 I287 17 16 I288 I289 15 14 T2 T2X RXD1 TXD1 SPICLK SPIRXD SPITXD SPISEL I216 1 3 7217 BC847BW RC+PEND_IR 2232 P4 <0:7> 10n 16 15 3208 10n RXD0 23 TXD0 24 25 RC+PEND_IR 26 RJ_PEND_IR I249 I250 27 I251 28 I252 29 F116 30 EXINT 0:1 13 12 11 HEFSW0 1 2 4X1 4X2 2230 RXD0 TXD0 TG0 TG1 C0 C1 SDA SCL PC <2:4> 1 +5VA P3 <0:7> I227 2 2229 10n +3V3_STANDBY I235 I237 TCM<0:5> 100R CVI_75R 4103 PB HP_DET2 AV1-STATUS LED2 KEYBOARD ADC<0:7> VSTBY TSTAT TERR PC7 PD1 CLKIN 4 3 13 12 2233 6 G4 F247 SDA3_IR_OUT F248 POR1 I260 100n MDX 14 LEDIN_CLK_TXD_SCL1 27p 2203 2215 100R 27p TDI TDO TMS TCK 100R 34 35 36 37 38 39 40 41 F257 3247 1 4221 RC_IR 3228 100K 100K 100K 3272 3220 F227 100R DEBUG 0 1 2 3 4 5 6 7 3 3210 3278 7 3271 3270 100R LED1_OUT I258 10K 3258 100K 1K5 3289 3285 10K F219 3263 8 33 16 10K 3217 10K 3216 20 8 5 2211 T2 T2X RXD1 TXD1 SPICLK SPIRXD SPITXD SPISEL RESET_IN 52 51 50 49 48 46 43 42 10K Φ MCU XTAL 2210 3 100n 10n 7206 74HC4053PW VDD F246 3218 I248 SDA3 2251 2214 DATA_IN_SLOT SCL1 RXD00 TXD00 I F253 100K 3223 +5VA +5VB 95022-2667 N 10K 3287 100n 2 BC857BW 7216 +3V3_STANDBY P1 <0:7> 2 100R F255 11 10 7 F256 3219 2 RC_PULLUP F249 F259 10n +5VA 2221 3V3VCC VDD 1 3203 3 I266 F245 2207 POR SDA1 7221 1 1202 H 22p BAS316 10K 7102 2 BC847BW BC857BW 3257 3256 1207 L AVCC 31 I232 32 IB_IR_OUT LED1 GPIOF220 3200 100K 2200 1 2 SYSTEM is prohibited without the written consent of the copyright owner. I245 +5VA 100n 3259 MODE_HP_DET 3 100R +5VA +12VA All rights reserved. Reproduction in whole or in parts 2K2 3261 1 1 2 3 4 5 6 2206 MUTE 4K7 2 7219 BC857BW 10K K 22p I229 +3V3_STANDBY 3 H G 7209 2205 3 5 9 VSS VEE I224 100n 4203 1735446-4 J 2 44 4 3201 4202 +3V3_STANDBY 1 2 3 4 5 6 7 8 9 10 11 12 13 14 I228 1 2 10 100R +5VB 0R E I F 15 0R F254 1735446-3 1212 G 13 12 11 100n 2209 1 10K I219 16V 100u 10 +T 100R 1 2 3 3260 1209 3286 +12V 1.85A +12VA 1850mA 1211 1 2 3 4 3215 I217 2208 3 I223 I226 1 2 4X1 4X2 TXD0 RXD0 STATUS_DATA_OUT_RXD 3204 CTRL_12VPBS 1735446-4 F D 14 17 16 15 14 13 12 11 F240 F243 100R STANDBY 3234 1210 6 G4 5200 220R 24M 1203 +12V MDX 18 1 2 3 4 5 6 7 8 9 7208 BC847BW 2202 7205 100n 74HC4053PW VDD 2 C 100R CTRL_12VPBS +5VA +5VB 3EN1 3EN2 G3 19 3290 IR_DATA_IN 3214 10K 1 B +5VA +3V3_STANDBY +5VA F252 RES 7230 74LVC245A 1 2 3 4 +5VB +5VA +3V3_STANDBY D E 1 2 3 4 1 2 220R PESDXS2UT PESDXS2UT 6204 6202 6203 4216-1 4216-2 4216-3 4216-4 4217-1 4217-2 8 7 6 5 8 7 5204 BH8B-PH 220R F214 5201 F213 PESDXS2UT TDO 100R I213 I218 TDI 100R TCK 100R I220 I222 TMS 100R 3265 3266 3267 3268 F215 B A TXD0 6 F212 2252 F251 C POR NVM_LOAD F211 100n 1 2 3 4 5 6 7 8 6201 B A I283 1 1K0 2 2 7212 BC847BW 5 6 7 8 9 10 11 12 20 19 1096 I13 1097 I12 1098 I12 1099 I11 1200 A1 1202 G1 1203 C6 1205 E13 1207 F1 1208 G11 1209 D1 1210 C1 1211 D1 1212 D1 2200 E2 2202 C5 2203 F5 2204 H5 2205 C6 2206 C5 2207 D6 2208 C6 2209 C6 2210 C7 2211 C7 2212 E9 2213 E9 2214 F6 2215 F6 2216 H11 2217 B10 2218 C12 2219 D11 2220 G11 2221 C8 2224 G7 2226 D10 2229 D9 2230 D8 2231 E8 2232 E8 2233 F6 2236 G13 2237 G13 2238 G13 2239 E9 2240 G2 2241 E12 2242 E12 2243 E13 2244 D13 2245 D13 2246 H2 2247 G13 2248 G13 2250 H12 2251 E6 2252 B3 3200 E2 3201 D3 3202 A3 3203 E6 3204 D3 3205 H3 3206 F12 3207 F12 3208 F2 3209 F2 3210 C8 3214 C5 3215 C5 3216 C6 3217 B6 3218 D6 3219 E6 3220 E6 3221 G6 3222 I5 3223 D6 3224 I6 3225 I6 3226 I6 3227 H6 3228 D5 3229 H7 3230 H7 3231 C8 3232 C8 3234 C8 3236 E9 3239 C8 3240 E8 3241 E8 3242 D9 3244 D9 3245 C10 3246 C10 3247 C11 3248 C11 3249 B11 3250 C11 3251 B11 3252 C11 3253 D9 3254 D10 3255 D9 3256 E1 3257 E1 3258 F1 3259 E1 3260 D2 3261 E2 3263 E4 3264 E9 F223 F13 F224 F13 F225 F13 F226 F13 F227 F1 F228 F13 F229 F13 F230 F13 F231 H9 F232 H2 F233 H9 F234 H9 F235 G11 F236 H11 F237 G1 F238 F13 F239 F13 F240 C1 F241 G2 F242 G2 F243 D1 F245 F1 F246 F1 F247 G1 F248 G1 F249 G1 F250 G1 F251 A1 F252 B7 F253 D6 F254 D1 F255 E6 F256 E6 F257 C11 F258 D12 F259 G1 F260 G1 I213 A3 I215 B12 I216 B11 I217 B7 I218 A3 I219 B7 I220 A3 I222 A3 I223 C6 I224 C7 I226 C5 I227 C10 I228 C5 I229 C6 I230 C11 I231 C10 I232 C6 I235 D8 I237 D8 I245 E2 I248 D6 I249 D8 I250 E8 I251 E8 I252 E8 I258 E4 I260 E6 I261 E8 I263 E8 I264 E8 I266 F1 I267 G7 I268 G2 I269 H6 I270 H2 I275 H9 I276 H9 I277 F5 I278 G5 I279 I6 I280 I7 I281 I5 I282 I5 I283 I6 I284 I6 I285 G10 I286 H12 I287 E8 I288 E8 I289 F8 I290 F8 I291 H8 I292 H7 I293 H8 I294 H7 3265 A3 3266 A3 3267 A3 3268 A3 3269 G2 3270 D4 3271 D5 3272 D5 3274 H9 3275 H9 3276 G10 3277 G10 3278 F9 3279 F9 3280 E9 3281 E10 3282 E10 3284 E11 3285 E4 3286 D2 3287 D6 3288 I4 3289 D4 3290 B8 3292 G7 3293 H7 3294 H8 3295-1 F8 3295-2 F8 3295-3 F8 3295-4 F8 3296-1 E8 3296-2 E8 3296-3 E8 3296-4 E8 3297 H5 3298 H6 3299 D9 4103 G1 4201 C10 4202 D1 4203 D1 4205 D11 4206 G5 4209 G10 4210 G10 4211 C11 4212 G7 4213 G6 4214 G6 4215 G3 4216-1 B3 4216-2 B3 4216-3 B3 4216-4 B3 4217-1 B3 4217-2 B3 4218 G11 4219 G11 4220 G3 4221 C9 5200 B6 5201 C7 5202 D11 5203 D11 5204 B7 5205 H12 5206 D12 5207 G11 6201 E3 6202 B1 6203 B1 6204 B2 6205 H1 6206 H2 6207 G2 6208 G1 7102 E2 7205 C4 7206 F4 7207 H4 7208 B6 7209 C7 7210 I5 7211 I6 7212 I6 7213 H7 7214 H10 7215 C11 7216 B11 7217 C11 7219 D1 7221 E2 7223 F9 7224 F9 7225 E10 7226 E11 7227 G6 7228 H8 7229 D12 7230 B3 F116 E8 F210 A1 F211 A1 F212 A1 F213 A1 F214 A1 F215 A1 F216 D11 F217 D11 F218 D11 F219 E4 F220 E4 F222 F11 A B C D E F G H I J K L M N 13 O O CHN DC378818 SETNAME CLASS_NO ITV 3PB310 P - - 2009-02-06 2 2009-03-20 3 SV 1 2 3 4 5 6 7 8 9 10 11 12 13 14 SUPERS. CHECK 15 DATE 16 C 17 1 2009-02-06 P 10 2 2008-05-27 2009-03-20 3139 283 3009 PCB SB IBOARD AP/CH iLC08 NAME Ronnie Tan 1 130 2 A2 ROYAL PHILIPS ELECTRONICS N.V. 2009 18 19 20 18510_502_090407.eps 090407 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 90 2181 2177 F134 F135 4103 3269 3231 3234 1203 7121 7122 7210 2204 7207 3181 1108 2155 7230 1112 1113 4220 4113 1202 7127 3239 2229 7212 3205 3284 7211 3225 3288 2158 2156 2144 2143 4216 4217 3208 3283 3242 2231 3244 7213 3254 3253 3193 3190 2163 2136 1096 4120 4119 1107 7103 3197 3182 3128 3127 3183 2157 3192 3191 2178 2182 1111 3169 3136 2171 3138 2176 7130 3199 7131 1105 7111 2150 3142 3143 7107 3209 4118 6108 7225 2252 1200 3140 3141 3226 3286 7110 1114 6201 7206 2152 2151 7205 2202 5113 3282 4214 4206 2149 4209 3292 3296 3229 3227 7226 5206 4210 7227 2224 2146 2148 2147 7229 7125 3175 1104 5114 2241 4213 2245 7209 3203 3228 3224 3272 4205 1210 3232 3257 3256 3285 3220 2233 2214 5200 3222 1209 5202 5203 1212 2215 3219 3271 3270 5201 3223 3295 4102 4111 2109 3158 3206 3207 2238 4110 2219 2210 5207 2220 2248 2247 2237 2110 5205 4218 3277 4219 3276 1205 1208 2236 2250 1098 1207 1109 2112 2169 2168 3132 3112 1110 2226 1099 3196 3170 2128 1211 Layout iBoard (Top side) 1097 18510_550_090408.eps 090409 31392833009.1 2009-Apr-10 Circuit Diagrams and PWB Layouts LC8.2HA LA 10. EN 91 Layout iBoard (Bottom side) F234 I143 I266 I150 3157 I276 I258 I260 F230 F229 F233 I147 F228 I285 2207 I224 I230 F235 3290 2209 I275 3274 3216 I226 F252 4221 3210 3217 7208 I237 I235 I223 3287 2114 7214 I188 F260 3215 I146 2216 F245 I187 F246 3275 F247 F248 F236 F237 I144 I142 F249 F259 I286 F226 F222 F231 I218 F256 I290 3293 2200 3261 I291 3200 3260 3294 I293 I115 F258 3202 F211 I216 7216 3250 3252 F214 F212 1121 F213 6202 6203 6204 2129 F149 3137 3135 6105 6205 F152 F241 I270 F151 2162 3201 F153 2179 2240 F177 F215 F146 1125 6107 1118 3266 3265 F210 F148 1119 I215 3267 F251 4121 1116 2218 3204 6106 3249 2203 3247 4211 I220 F165 1115 2217 4112 I222 I228 I213 F147 1117 3248 3221 2122 F129 3246 3268 2160 F143 F239 I227 I267 I278 F164 3251 F167 3122 3194 3189 3188 I181 I281 3123 3178 3131 F150 3195 3184 7123 F166 2123 F142 3186 2173 2172 I179 2161 F130 3185 F168 2159 3177 3187 I116 I167 3176 7217 3120 4201 F243 I277 I163 2242 F174 I279 F217 F257 F227 I269 7215 7124 I166 I164 I178 I140 I118 2116 3245 I249 2154 F169 3119 3121 I117 I248 2121 I284 2117 I263 F175 F160 F161 I119 2120 3263 3118 3180 I282 F182 F159 3289 F220 4212 I283 2153 F218 5109 F181 I182 5115 2243 F173 I183 2244 2119 I280 3130 4203 3230 3299 I184 3259 4202 I294 F254 3281 I264 I261 F240 3280 7224 I250 3214 I245 7223 3279 3258 I289 7221 I287 4215 3218 F219 7219 3240 2239 F216 3297 I288 2232 I251 F225 F223 7228 3236 I141 3278 I217 7102 I252 3241 F255 3298 2212 I229 2213 2205 3264 F116 2208 2221 I232 2206 F224 F253 I292 3255 2211 2251 I219 5204 F238 2230 I231 1122 F144 F242 F171 6102 6103 F250 F140 F139 3174 F180 I180 6208 F131 I171 I175 3111 2111 2113 F162 I176 I177 4101 3114 F157 2170 3113 I174 F145 I268 F158 F156 3134 F176 7105 3133 6207 3172 2174 4117 F133 3171 2175 F138 F137 7120 F155 F154 6104 2246 F170 2180 6100 6206 F178 1120 F141 F232 F172 F163 I186 18510_551_090408.eps 090409 31392833009.1 2009-Apr-10 www.s-manuals.com
Source Exif Data:
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