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FILE NO. SERVICE MANUAL LCD-46XZ10FH LCD TV PRODUCT CODE No. 1 682 349 56: PAL-BG(TV) DTV REFERENCE No.:SM0915098 CONTENTS Safety precautions………………………………………………………………………..… 3 Alignment instructions …………………………….…….………………………………… 5 Method of software upgrading…………………………………………………………….. 11 Working principle analysis of the unit……………………………….………….………….15 Block diagram…………………………………..………………………………….…………18 IC block diagram and instruction…………………………………………………………..…… 19 Wiring diagram ……………………………………………………………………………. 23 Troubleshooting guide ………………………………………………………………..…… 24 Schematic diagram………………………………………………………………………… 27 APPENDIX-A: Main assembly list APPENDIX-B: Exploded View Assemble & Disassemble the Pedestal Base Wall mounting instructions Attention: This service manual is only for service personnel to take reference with. Before servicing please read the following points carefully. Safety precautions 1. Instructions Be sure to switch off the power supply before replacing or welding any components or inserting/plugging in connection wire Anti static measures to be taken (throughout the entire production process!): a) Do not touch here and there by hand at will; b) Be sure to use anti static electric iron; c) It’s a must for the welder to wear anti static gloves. Please refer to the detailed list before replacing components that have special safety requirements. Do not change the specs and type at will. 2. Points for attention in servicing of LCD 2.1 Screens are different from one model to another and therefore not interchangeable. Be sure to use the screen of the original model for replacement. 2.2 The operation voltage of LCD screen is 700-825V. Be sure to take proper measures in protecting yourself and the machine when testing the system in the course of normal operation or right after the power is switched off. Please do not touch the circuit or the metal part of the module that is in operation mode. Relevant operation is possible only one minute after the power is switched off. 2.3 Do not use any adapter that is not identical with the TV set. Otherwise it will cause fire or damage to the set. 2.4 Never operate the set or do any installation work in bad environment such as wet bathroom, laundry, kitchen, or nearby fire source, heating equipment and devices or exposure to sunlight etc. Otherwise bad effect will result. 2.5 If any foreign substance such as water, liquid, metal slices or other matters happens to fall into the module, be sure to cut the power off immediately and do not move anything on the module lest it should cause fire or electric shock due to contact with the high voltage or short circuit. 2.6 Should there be smoke, abnormal smell or sound from the module, please shut the power off at once. Likewise, if the screen is not working after the power is on or in the course of operation, the power must be cut off immediately and no more operation is allowed under the same condition. 2.7 Do not pull out or plug in the connection wire when the module is in operation or just after the power is off because in this case relatively high voltage still remains in the capacitor of the driving circuit. Please wait at least one minute before the pulling out or plugging in the connection wire. 2.8 When operating or installing LCD please don’t subject the LCD components to bending, twisting or extrusion, collision lest mishap should result. 2.9 As most of the circuitry in LCD TV set is composed of CMOS integrated circuits, it’s necessary to pay attention to anti statics. Before servicing LCD TV make sure to take anti static measure and ensure full grounding for all the parts that have to be grounded. 2.10 There are lots of connection wires between parts behind the LCD screen. When servicing or moving the set please take care not to touch or scratch them. Once they are damaged the screen would be unable to work and no way to get it repaired. If the connection wires, connections or components fixed by the thermotropic glue need to disengage when service, please soak the thermotropic glue into the alcohol and then pull them out in case of dagmage. 2.11 Special care must be taken in transporting or handling it. Exquisite shock vibration may lead to breakage of screen glass or damage to driving circuit. Therefore it must be packed in a strong case before the transportation or handling. 2.12 For the storage make sure to put it in a place where the environment can be controlled so as to prevent the temperature and humidity from exceeding the limits as specified in the manual. For prolonged storage, it is necessary to house it in an anti-moisture bag and put them altogether in one place. The ambient conditions are tabulated as follows: Temperature Humidity Scope for operation 5 ~ +35 oC Scope for storage -15~ +45 oC Scope for operation 20% ~ 80% Scope for storage <= 80% 2.13 Display of a fixed picture for a long time may result in appearance of picture residue on the screen, as commonly called “ghost shadow”. The extent of the residual picture varies with the maker of LCD screen. This phenomenon doesn’t represent failure. This “ghost shadow” may remain in the picture for a period of time (several minutes). But when operating it please avoid displaying still picture in high brightness for a long time. 3. Points for attention during installation 3.1 The front panel of LCD screen is of glass. When installing it please make sure to put it in place. 3.2 For service or installation it’s necessary to use specified screw lest it should damage the screen. 3.3 Be sure to take anti dust measures. Any foreign substance that happens to fall down between the screen and the glass will affect the receiving and viewing effect 3.4 When dismantling or mounting the protective partition plate that is used for anti vibration and insulation please take care to keep it in intactness so as to avoid hidden trouble. 3.5 Be sure to protect the cabinet from damage or scratch during service, dismantling or mounting. Alignment instructions Test equipment VG-848 (VGA, YPbPr signal generator) VG-849 (HDMI digital video signal generator) CA210 (color analyzer) 1 Alignment flow 1.1 Voltage of power supply test According to the wiring diagram “9232KE6302JL”, connect power board, digital board, IR board correctly; then power on and press key “standby” . a) Test voltage of socket X801 each pin in turn listed as Table 1. Table 1 X801 Pin1 2 3 Voltage of X801 each pin 4 5 6 7 、8 9 、10 11 12 13 3.2V~ 4.9V~ 3.4V 5.1V 8.55 Voltage >2.5 V 0 4.85 V ~ 5.35 V 0 4.85 5.35 V V ~ V~ 9.45 0 11.4 V ~ 12.6 V V b) Test voltage of socket XV03 each pin in turn listed as Table 2. Table 2 Voltage of XV03 each pin XV03 Pin1、2 3、4、5 Voltage 23.8 V~25.2 V 0 0 1.2 Adjustment flow chart as Fig.1 Check if DDC、、HDCP KEY and FLASH have been burned. combination adjustment for general assembly white balance adjustment Connect to central signal source, check if Check accessories and packing. TV functions are normal -omitted channel, analog parameters control, etc; check if output of earphone and speaker are setup before leaving factory normal. Input HDMI signal,check if the display is normal; Input AV/SVIDEO/SCART signal,check if check if every function is normal –analog functions of every channel are normal. parameter control, horizontal/vertical center, etc. Input high-definition component signal Input VGA signal,check if the display is normal; (mode), check if every YPbPr function is check if every function is normal -analog normal. parameter control, horizontal/vertical center, etc. Fig.1 Adjustment flow chart 2 Alignment instruction 2.1 Unit adjustment 2.1.1 According to the wiring diagram “9232KE5201JL”, connect power board, main board, IR board, key board correctly; then power on, check if the display is normal. 2.1.2 a) b) Using method of factory menu First press key “SOURCE”,then press number key “2、5、8、0” in turn to enter into initial factory menu; Press keys “CH+” and “CH-” can move cursor to each page of initial factory menu, then press d) key “OK” can enter into adjustment menu of each page; Press keys “CH+” and “CH-” can move cursor upwards and downwards within one adjustment page; Move cursor to one adjustment item, then press keys “VOL-” and “VOL+” can adjust it; e) f) g) Press key “MENU” can exit adjustment menu of one page to its superior factory menu; Press key “EXIT” can exit factory menu at any time; Press key “OK” can enter into inferior factory menu; c) h) Factory menu item “ADC Calibrate” is used to correct ADC of VGA and Component channel; i) j) Factory menu item “W/B ADJUST” is used to adjust white balance; Factory menu item “POWER MODE” is used to set power-on mode, “Standby” means the set will be in standby state after power-on; “MEM” means the set will be in the state before the last power-off; “ForceOn” means the set will be working automatically after power-on, this mode is also used for factory-machine-aging; default setting should be “Standby” mode unless specified by customer requirement; k) Factory menu item “ISP MODE” is used to upgrade unit software from VGA port when the item is set as “ON” and the set is connected to ISP adjustment equipment; DDC function of VGA port will be recovered when the item is set as “OFF”; the value of the item can not be kept in the memory, that is to say the item is reset as “OFF” after power-on again; l) Factory menu item “RESET ALL” is used to reset factory menu data and user menu data; after execute the item, the set will be started up again and the startup guided picture will be displayed; m) Factory menu item “FACTORY CHANNEL PRESET” is used to preset factory programs data; it is necessary to connect to central signal source for DTV searching programs. Now digital frequency of central signal CH28(529.5 MHz) and CH33(564.5 MHz) are distributed to Australia programs. Primary preset programs would not be modified along with the changing of central signals, so please select item DTV in menu Channel to manual search digital programs, the process will spend about 15s; n) Factory menu item “CUSTOM CHANNEL PRESET” : first delete all DTV/ATV programs for factory adjustment, then preset ATV channel data according to customer order requirements; please execute the item to clear out all programs for factory adjustment before leaving factory; o) Factory menu item “MST Debug” :default setting “OFF” is used for engineering models whose RS232 functions can measure up to design specifications; setting “ON” is convenient for debugging by developing tools; the value of the item can not be kept in the memory, that is to say the item is reset as “OFF” after power-on again; p) Factory menu item “BACKLIGHT” is used to adjust backlight brightness, adjust the item and test voltage of X801-12# (PWM) to measure up to the maximum PWM voltage in panel specification; q) Factory menu item “SSC ADJUST” is used to adjust expended functions of frequency content, the software having been preset according to model need not be adjusted again; r) Factory menu item “AUDIO Curve” is used to adjust audio curve; without special customer requirements, the software having been preset according to model need not be adjusted again; If the software has been upgraded or EEPROM has data already, please execute item “RESET ALL” before adjustment for the first time. ADC calibration ADC calibration of VGA channel Switch to VGA channel; Press key “SOURCE”, then press number keys “2、5、8、0” to enter into initial factory menu; Move cursor to item “ADC ADJUST” and press key “OK” to enter into interior factory menu; Input VGA signal (VG-848 Timing:856(1024×768/60 Hz),Pattern 920 Gray 8 step(H)), 2.1.3 a) b) c) d) move cursor to item “MODE”,press keys “▲” and “▼” to select item “RGB”, then move cursor to item “AUTO ADC” and press key “OK” to begin adjustment automatically until adjustment completion. ADC calibration of YPbPr channel a) Switch to YPbPr channel; b) Press key “SOURCE”,then press number keys “2、5、8、0” to enter into initial factory menu; c) Move cursor to item “ADC ADJUST” and press key “OK” to enter into interior factory menu; d) Input YPbPr signal (VG848 Timing 976(720P),Pattern 918 SMPTE Color Bar), move cursor to item “MODE”,press keys “▲” and “▼” to select item “YPbPr(HD)”, then move cursor to item “AUTO ADC” and press key “ENTER” to begin adjustment automatically, a prompt “success” displayed under “AUTO ADC” means auto-adjustment completed successfully; e) Input YPbPr signal (VG848 Timing 968(408I),Pattern 918 SMPTE Color Bar), move cursor to item “MODE”,press keys “▲” and “▼” to select item “YPbPr(SD)”, then move cursor to item “AUTO ADC” and press key “ENTER” to begin adjustment automatically, a prompt “success” displayed under “AUTO ADC” means auto-adjustment completed successfully; 2.2 White balance adjustment Unless specified by customer, default COOL color temperature is 12000K, chromaticity coordinates is ( 272 、 278 ) ; default Normal color temperature is 9300K, chromaticity coordinates is(285、293); default Warm color temperature is 6500K, chromaticity coordinates is (323、329). 2.3 White balance adjustment processes The set should be working above 30 minutes before white balance adjustment for it would be in a stabler state. Use white balance apparatus CA-210 and switch to any channel have checked. a) Switch to HDMI channel; b) Press key “SOURCE”, then press number keys “2、5、8、0” in turn to enter into initial factory menu; c) d) e) f) g) h) i) Move to item “W/B ADJUST” and press key “OK” to enter into interior factory menu; Input DVI/HDMI signal (VG-848 Timing: 856(1024×768/60 Hz),Pattern:921 16 step Gray), move cursor to item “MODE”, press keys “▲” and “▼” to select item “HDMI1” or other HDMI channels, then move cursor to item “TEMPERTURE”, press keys “▲” and “▼” to select item “COOL”; Adjust items “R GAIN、G GAIN、B GAIN” to set chromaticity coordinates of the 14th step is (272、278); Adjust item “R Offset、G Offset、B Offset” to set chromaticity coordinates of the 4th step is (272、278); During adjustment , make sure that color temperature of bright step is (X=272±10 Y=278±10) and color temperature of dark step is (X=272±10 Y=278±10); Then move cursor to item “COPY ALL” to copy white balance data to the other channels except DTV channel; Check if color temperature of HDMI NORMAL and WARM meet requirements as below: bright step: allowable error is ±10, dark step: allowable error is ±10; otherwise adjust items “R_GAIN /B_GAIN/R_OFF/B_OFF” to meet requirements and then save data; j) k) l) Switch to other channels ATV, AV,COMPONENT and D-SUB , check if color temperature of COOL,NORMAL and WARM meet requirements; otherwise adjust them respectively with 16 step Gray signal and the same adjustment method as HDMI channel’s; exit menu “W/B ADJUST” after adjustment and the data would be saved automatically; DTV channel adjustment: switch to DTV channel, input 16 step Gray signal, enter into factory menu, then begin adjustment followed by steps “e, f, g”; Adjustment rules for reference as below: adjust B gun: adjust B gun value downwards , then coordinates of X、Y will rise; adjust B gun value upwards , then coordinates of X、Y will descent; adjust R gun will effect the coordinate of X , and effect the value of Lv a little: adjust R gun value upwards , then coordinate of X will rise; adjust R gun value downwards , then coordinate of X will descent; adjust G gun will effect the coordinate of Y , and effect the value of Lv a lot: adjust G gun value upwards , then coordinate of Y will rise; adjust G gun value downwards , then coordinate of Y will descent; note: default color temperature for SANYO customer is Normal; change to picture mode Dynamic, adjust chromaticity coordinates of color temperature Normal and Cool; only adjust chromaticity coordinates of color temperature Cool for other customers when picture mode is Dynamic. 3 Performance check 3.1 TV functions Connect RF port to central signal source, first enter into menu CHANNEL, then search programs automatically, check if there is any omitted program, check if the output of speakers is normal, check if the picture is normal. 3.2 AV/S-Video port Input AV/S-Video signal respectively, check if the picture, the sound and other functions are normal; 3.3 VGA port Input VGA signal from signal generator VG-848 with VGA formats as Table 5 respectively, check if the display and the sound are normal; if there is any deviation of line or field, enter into main menu, select and execute items “Picture->Screen->Auto Adjusting” in turn to correct them automatically. Table 5 No. Definition VGA receiving signal formats Horizontal Vertical Dot-pulse frequency frequenvy frequency (kHz) (Hz) (MHz) Remark 1 640×480 31.469 59.94 25.175 IBM 2 720×400 31.469 70.086 28.322 IBM 3 640×480 37.861 72.809 31.5 VESA 4 640×480 37.5 75 31.5 VESA 5 800×600 35.156 56.25 36 VESA 6 800×600 37.879 60.317 40 VESA 7 800×600 48.077 72.188 50 VESA 8 800×600 46.875 75 49.5 VESA 9 1024×768 48.363 60.004 65 VESA 10 1024×768 56.476 70.069 75 VESA 11 1024×768 60.023 75.029 78.75 VESA 12 1152×864 67.5 75 108 VESA 13 1280×960 60 60 108 VESA 14 1280×1024 63.98 60.02 108 VESA 15 1280×1024 80 75 135 SXGA 16 1440×900 - 60 - - 17 1680×1050 - 60 - - 18 1360×768 47.7 60 85.5 - 3.4 HDMI port Input HDMI signal from signal generator VG-849 with the formats as Table 4 and Table 5 respectively, check if the display and the sound(32 KHz、44.1 KHz、48 KHz)are normal under the circumstances of power-on/off, switching channel, switching signal format, etc. 3.5 Other functions check a) Check if the functions are normal —timing turn-on/off 、 turn-off of sleeping time 、 picture/sound mode、OSD、stereo and digital audio interface, etc.; b) c) d) Check if audio only digital programs (RADIO) are normal; For UK models, check if MHEG function of digital programs are normal; Check if common interface(CI:Common Interface)is normal; e) For New Zealand models, check if function of logic channel number (LCN) is normal, check if function of Over Air Download(OAD)is normal; f) For France, UK and Italy models, check if function of logic channel number (LCN) is normal. 4 User menu setup before leaving factory Enter into page “LOCK” of user menu, select submenu item “Restore Factory Default” to preset items before leaving factory as below: a) Clear out all programs information; b) c) Clear out information of parental control (VCHIP); Default setup of user analog data; d) e) Set Menu Language as English; Set Power on MODE as Off. Method of software upgrading Instruction of factory software burning as Table 6 Table 6 No. Part No. Instruction of factory software burning Part type Instruction of Burned software before function SMT Burning method burned N111 5272564002 EN25Q64-104HIP FLASH Yes with program ALL11, write-protect setup, refer to Note 1 in detail N108 5272404002 AT24C04 HDMI KEY Yes burned with program ALL11 NA04 5272402002 AT24C02 HDMI EDID Yes burned with program ALL11 NA05 5272402002 AT24C02 HDMI EDID Yes burned with program ALL11 Yes burned with program ALL11 Yes burned with program ALL11 HDMI EDID NA06 5272402002 AT24C02 (supporting the 3rd HDMI) N106 5272402002 AT24C02 VGA EDID Note 1: Write-protect setup method Enter into burning interface of program ALL-100, select item “Config”, press item “config Setting”, set item “Protect” as “All Protect”; be sure to select item “Config” before burning software, and write-protect must be re-set after burning program ALL-100 startup every time. Note 2: Burning and upgrading software method with burning tool ISP 1) Main board upgrading: connect the cable of burning tool ISP to Debug port(location No. X807) of main board; Unit upgrading: connect both VGA ports between burning tool ISP and main board, then enter into factory menu and set item “ISP Mode” as “ON”; 2) Use on-line burning tool of Mstar, enter into menu “Device”, select item “WP Pin pull to high during ISP” as Fig. 2; for the normal erasing process, make sure hardware write-protect of Flash is canceled; 3) Fig. 2 Write-protect setup Select menu “Connect”, a dialog “Device Type is EN25Q64” will be displayed as Fig. 3 , that is Fig. 3 Device EN25Q64 successful connection If failing to connecting, select the first menu “Device” and select item “EN25Q64” manually, then press key “Connect”. 4) Press key “Read”,select burning file (for example MERGE.bin) as Fig. 4. Fig. 4 Burning file 5) Select menu “Auto”, then select items “All chip”, “program” and other configuration as Fig. 5 Fig. 5 Burning Configuration 6) Press key “Run” as Fig. 4 to begin burning software, there are two steps for the process: Erase and Program normal burning steps are as follows: the first step “Erasing…,Flash Status: 03” will be lasting for a moment, otherwise skipping over means unsuccessful erasing; please confirm process (2) and then burn software again; the following step “Programming…,Flash Status:00” will be done until a prompt “Pass” is displayed. 7) A prompt “Pass” will be displayed beside the key “Run” for successful burning as Fig. 6 Fig. 6 A prompt “Pass” beside the key “Run” for successful burning 8) Need not exit ISP burning interface and only repeat the process 3)and 5)to go on burning software for other sets. Note 3: On-line burning and upgrading method from USB port 1) Be sure to format a U disk as FAT32; 2) Copy program file to the U disk with the name “Merge.bin”; 3) Power on, be sure to switch to ATV or DTV channel and not to display OSD interface; insert the U disk into a USB port, then USB upgrading process will begin automatically; 4) Upgrading processes: A、Reading data from the U disk: A prompt “Searching USB” is displayed and an indicating light of U disk is twinkling; B、Burning Flash: A prompt “Updating! Please don’t power off!!!” is displayed and an indicating bar is showing upgrading schedule; the set will be in Standby mode after the burning process completed; 5) Start up the set again, enter into factory menu to verify software version and time parameters; then execute item “RESET ALL” to complete the whole burning process. *** Method of burning from USB could not be sure to be suitable for all kinds of U disks, so please try other U disks if necessary. Working principle analysis of the unit 1、 PAL/SECAM signal flow PAL/SECAM signal from antenna is inputted into TUNER FQD1116 which is an analog-digital-integrative model, the analog RF signal is demodulated by the TUNER, then CVBS signal and SIF(sound intermediate frequency) signal are outputted. TUNER FQD1116 is controlled by main chip MSD209(with embedded CPU) through I2C bus. TV CVBS signal is inputted into main chip MSD209 directly to be processed by modules “VIDEO DECODER、DEINTERLACE and SCALER”, then LVDS signal is outputted to drive LCD panel. SIF audio signal is inputted into main chip MSD209 directly and processed by modules of demodulation, pre-amplification, acoustic effect processing and volume control, then the audio signal are inputted into left and right sound tracks of earphone amplifier BH3547F to be amplified and then are divided to two signals, one is outputted to earphone jack, the other is inputted into class D audio power amplifier R2A15112 to be amplified and then be outputted to speakers. 2、 DVB-T signal flow DVB-T signal from antenna is inputted into TUNER FQD1116 to be tuned, RF amplified, IF amplified and SAW FILTER inside, then IF signal is outputted to demodulating chip CE6353 to be demodulated and then be inputted into main chip MSD209 with format of standard serial or parallel TS stream for demultiplexing and decoding. Video route: demultiplexed video signal is decoded by main chip MSD209 and then digital video signal is outputted; in the end LVDS signal is outputted to drive LCD panel after a series of digital processes and OSD addition within main chip MSD209. Audio route: demultiplexed audio signal is decoded into Dolby AC-3 signal or MPEG multi-sound-track digital audio signal by inner decoder of main chip MSD209, then one is outputted through SPDIF directly; after the process of “sub-transform and DAC”, the other is outputted as analog audio signal, the analog audio signal is inputted into the rear part of main chip MSD209 for acoustic effect processing and volume control, then inputted into left and right sound tracks of earphone amplifier BH3547F respectively to be amplified, now the audio signal is divided into two, one is outputted to earphone jack directly, the other is inputted into class D audio power amplifier R2A15112 to be amplified and then outputted to speakers. 3、 AV signal flow After processed by impedance matching, AV video signal is inputted into main chip MSD209 directly and processed by modules of “VIDEO DECODER、 DEINTERLACE and SCALER”, then LVDS signal is outputted to drive LCD panel. AV audio signal is processed by circuits of “voltage divided, impedance matching and AC coupling”, then inputted into main chip MSD209 directlyfor acoustic effect processing and volume control, then inputted into left and right sound tracks of earphone amplifier BH3547F respectively to be amplified, now the audio signal is divided into two, one is outputted to earphone jack directly, the other is inputted into class D audio power amplifier R2A15112 to be amplified and then outputted to speakers. 4、 PC/YPbPr signal flow After processed by impedance matching, PC/YPbPr video signal is inputted into main chip MSD209 to be processed by modules of “A/D transform, digital video processing and OSD addition”, then LVDS signal is outputted to drive LCD panel. PC/YPbPr audio signal is processed by circuits of “voltage divided, impedance matching and AC coupling”, then inputted into main chip MSD209 directly for acoustic effect processing and volume control, afterwards the audio signal is inputted into left and right sound tracks of earphone amplifier BH3547F directly to be amplified, now the audio signal is divided into two, one is outputted to earphone jack directly, the other is inputted into class D audio power amplifier R2A15112 to be amplified and then outputted to speakers. 5、 HDMI signal flow HDMI video signal is inputted into main chip MSD209 to be processed by modules of “digital video processing and OSD addition”, then LVDS signal is outputted to drive LCD panel. HDMI audio signal is decoded into Dolby AC-3 signal or MPEG multi-soundtrack digital audio signal by inner decoder of main chip MSD209, then one is outputted through SPDIF directly; after the process of “sub-transform and DAC”, the other is outputted as analog audio signal, the analog audio signal is inputted into the rear part of main chip MSD209 for acoustic effect processing and volume control, then inputted into left and right sound tracks of earphone amplifier BH3547F respectively to be amplified, now the audio signal is divided into two, one is outputted to earphone jack directly, the other is inputted into class D audio power amplifier R2A15112 to be amplified and then outputted to speakers. 6、 Brief instruction on unit functions MPEG-2 MP@HL、H.264 Main and High profile up to Leve4.0 Decoding MPEG、Dolby Digital(AC-3)、AAC Digital Audio Decoding 3D comb filter Wide-range power supply、low consumed power in standby mode(≤1W) Class D audio power amplifier with HI-FI acoustic effect output High quality transformation from interleaved scanning to progressive scanning Realizing integrative functions really - build integration - integrative TUNER(integrating analog with digital) - integrative searching-program function - integrative OSD interface Main parts of the unit: 46 inch LCD panel(1920X1080) Main chip:MStar MSD209FG-LF Demodulating chip:Intel CE6353 TUNER:NXP FQD1116ME/IV DDR:SAMSUNG K4T51163QC-HCF7 Class D audio power amplifier:RENESAS R2A15112 FLASH :EN25Q64-104HIP External ports of the unit: Two groups of Video input and RCA L/R input One group of S-VIDEO input Three groups of HDMI input One group of VGA input One group of audio input for VGA and DVI(Mini Phone Jack) Two groups of YPBPR input and RCA L/R input One group of RF One group of RS232(Mini Phone Jack) One group of audio output(Mini Phone Jack) One group of Video output and RCA L/R output One group of SPDIF(coaxial)output One group of USB(for upgrading) Block diagram PANEL LVDS TUNER TS TS DEMODULATOR 1080P CE6353 SIF HP AMP BH3547 CVBS HDMI1 HDMI2 MSD209 HDMI1.3 X3 HDMI3 VIDEO SIGNALS FLASH 8MB VGA YPbPr AUDIO SIGNALS DDR2 512MbitX2 SV AV USB USB2.0 AV OUT AMP R2A15112 IC block diagram and instruction 1、 Main chip MSD209FG-LF: GENERAL DESCRIPTION The MSD209FG is a highly integrated controller IC for LCD/PDP DTV applications with resolutions up to full-HD (1920 x 1080). It is configured with an integrated triple-ADC/PLL, a multi-standard TV video and audio decoder, a motion adaptive video de-interlacer, a scaling engine, the MStarACE-3 color engine, an advanced 2D graphics engine, a transport processor, a high-definition (HD) MPEG video decoder, a 24-bit DSP for MPEG audio decoding, a DVI/HDCP/HDMI receiver, and a peripheral control unit providing a variety of HDTV control functions. For digital TV application, the MSD209FG comprises an MPEG-2 transport processor with advanced section filtering capability, an MPEG-2 (MP@HL profile) video decoder, an MPEG layer I and II digital audio decoder with analog audio outputs that are designed to support existing and future DVB-T programs while handling conditional access. Furthermore, it is also possible to decode MPEG-4, JPEG, MP3 formats from external sources such as USB interfaces. For analog TV, the MSD209FG includes NTSC/PAL/SECAM multi-standard video decoder comprising a 3-D motion adaptive comb filter and time-based correction, and a NICAM/A2 audio decoder to support worldwide television standards. The MSD209FG is also configured with a VBI processor to decode digital information such as Close Caption / V-chip / teletext / WSS / CGMS-A / VPS. In addition, the MStar advanced LCD TV processor enhances video quality, motion adaptive de-interlacer, picture quality adjustment units, and MStarACE-3 color engine. By integrating peripherals including two USB 2.0 host controllers, UARTs, IR, SPI, I2C, and PWM, the MSD209FG fulfills all requirements in advanced DTV sets. To further reduce system costs, the MSD209FG also integrates intelligent power management control capability for green-mode requirements and spread-spectrum support for EMI management. MSD209FG Features: Analog RGB Compliant Input Ports Three analog ports support up to 1080P Supports PC RGB input up to SXGA@75Hz Supports HDTV RGB/YPbPr/YCbCr Supports Composite Sync and SOG (Sync-on-Green) separator Automatic color calibration VIF Input Support Multi-standard analog TV receiver applications Digital low IF architecture Stepped-gain PGA with 25 dB tuning range and 1 dB tuning resolution Maximum IF gain of 37 dB Programmable TOP to accommodate different tuner gain to optimize noise and linearity performance DVI/HDCP/HDMI Compliant Input Port Three DVI/HDCP/HDMI input ports support up to 225MHz @ 1080P 60Hz with 12-bit deep-color resolution Single link on-chip DVI 1.0 compliant receiver High-bandwidth Digital Content Protection (HDCP) 1.1 compliant receiver High Definition Multimedia Interface (HDMI) 1.3 compliant receiver with CEC (Consumer Electronics Control) support Long-cable tolerant robust receiving High-Performance Scaling Engine Fully Programmable shrink/zoom capabilities Nonlinear video scaling supports various modes including Panorama Auto-Configuration/Auto-Detection Auto input signal format and mode detection Auto-tuning function including phasing, positioning, offset, gain, and jitter detection Sync Detection for H/V Sync Video Processing & Conversion 3-D motion adaptive video de-interlacers with edge-oriented adaptive algorithm for smooth low-angle edges Automatic 3:2 pull-down & 2:2 pull-down detection and recovery MStar 3rd Generation Advanced Color Engine (MStarACE-3) automatic picture enhancement gives: Brilliant and fresh color Intensified contrast and details Vivid skin tone Sharp edge Enhanced depth of field perception Accurate and independent color control sRGB compliance allows end-user to experience the same colors as viewed on CRTs and other displays 10-bit internal data processing Programmable 12-bit RGB gamma CLUT 3-D video noise reduction MPEG artifact removal including de-blocking and mosquito noise reduction Frame rate conversion MFC (Motion Frame Conversion) supports: Judder-free motion video Output frame rate 50/60/100/120 f/sec Up to 60Hz full HD or 120Hz HD panels Output Interface Supports up to 10-bit dual LVDS full-HD (1920 x 1080) panel interface Supports 2 data output formats: Thine & TI data mappings Compatible with TIA/EIA With 6/8 bits optional dithered output Spread spectrum output frequency for EMI suppression CVBS Video Output Supports two CVBS bypass output ports 2D Graphics Engine Point draw, line draw, rectangle draw/fill and text draw BitBlt and stretch BitBlt Raster Operation (ROP) Miscellaneous DRAM controller to support up to 32-bit DDR2 interface Supports Common Interface for conditional access SPI bus for external flash Two ports of USB 2.0 host controller with the flexibility for connecting external storage devices 375-ball LFBGA package Operating at 1.26V (core), 1.9V (DDR2), and 3.3V (I/O and analog) 2、 Digital demodulating chip CE6353 The chip comprises 8MHz bandwidth SAW and supports demodulation of 6MHz, 7MHz and 8MHz, 2K/8K carrier and supports both serial and parallel TS stream output. 3、 Audio power amplifier RENESAS R2A15112 R2A15112FP is a Digital Power Amplifier IC developed for TV. R2A15112FP has a maximum power of 15W(typ) × 2ch. (VD = 24V,THD = 1%, SE) at a 4 Ω load. It is possible to replace a conventional analog amplifier with a digital amplifier easily. ●Maximum power out put (No external heat sink) (note) These apply when the thermal pad is soldered to the printed-circuit board directly. Recommended Power Condition SE operation mode :15Wx2ch(VD=24V,4Ω load,THD+N:1%) BTL operation mode:30Wx1ch(VD=21V,8Ω load,THD+N:10%) ●Highly efficient, low noise, and low distortion ●Popless ●Built-in protection - Overcurrent, overheat, and undervoltage ●Built-in Mute and Standby function ●The gain can be changed to four settings by two terminals. ●Power supply voltage : 11V to 25V ●Speaker Impedance : from 4 to 8Ω GAIN1 GAIN2 HB1 L IN1 A IN2 R ♪♪ HB2 A Oscillator Under Voltage Detection VD2 PWM Gen. ROSC MUTEL STBYL OUT1 VS1 SE/BTL Selector CBIAS CLOCK VD1 PWM Gen. OUT2 VS2 10V Control Logic PROT Over Current 5V Detection Over Temp. Detection DVDD AVCC VREF GND 4、 Tuner:FQD1116ME/IV The FQD1116 belongs to the new family of highly-featured hybrid frontends, which are designed to meet a wide range of RF applications. The FQD1116 combines the functions of a DVB-T digital tuner and a multi-standard TV IF demodulation unit for both positive and negative modulated TV systems. The unit includes a 7 MHz digital SAW filter with an IF AGC amplifier for connection to the DVB-T channel decoder. The FQD1116 is intended for CCIR L/L’ (France), B/G, I and D/K systems and DVB-T broadcast. The frontends have a built-in digital (I2C) PLL tuning system. A DC-DC converter circuit is built into the FQD1116 to synthesize the tuning voltage required, thus making the frontend a true 5V device. ♪♪ WIRING DIAGRAM BACKLIGHT SPEAKER PANEL POWER BOARD MAIN BOARD POWER SWITCH KEY BOARD IR BOARD Troubleshooting guide LCD-32XZ10 1.Panel is dark. Power on main power supply, check if the red indicator light in STANDBY mode is bright ? Yes Press key “POWER” of remote control or the unit to power on,check what color of indicator light is? No Check if the voltage of X801-3# (STB) on main board is Red Blue inputted 5V ? Check if the voltage of X801-13# on main board is high level ? No Check if STANDBY circuits on power board are normal ? Yes No Check if backlight circuits on power board and backlight board are normal ? Check if circuits about backlight control on main board are normal? Check if the voltage of X801-1 # on main board is high level? Yes Check if power board assembly is normal ? 2.Backlight is normal, but there is no picture Check if operations of remote control or keys on the unit are normal ? Yes Check if OSD menu is displayed normally after pressing key “menu”? Yes No No Yes No Enter有into factory menu , initialize EEPROM, then power off and power on again, check if there is picture ? Yes Adjust main board again Change another main board Check if there is noTV picture of all channels ? No 3.There is picture but no sound. No sound Check if the voltage of NV02-4/5/32/33# is 24V ? Yes Check if the voltage Yes of NV02-10/27# is high level ? No No Check 24V power supply circuits on power board and power supply circuits from XV03 to NV02 on main board are normal ? Check voltage if No the of NS01-F16/H16# is low level? Yes No Check if circuits from NS01-F6/H16# NV02-10/27# normal? Check if there is Yes Change another sound from earphones? NV02 Touch CV04 and CV05 with probe, check if there is sound from earphones? Check if audio output Yes circuits of main chip are normal? No to Check if circuits about earphone amplifier are normal ? are Change another NS01 B C D E F G H XM01 PCMCIA-0070210PA8C +VCC_CARD 17 51 18 52 NS01 E MSD209FG 22uH C104 100u 10V R103 10K TS_MICLK TS_MIVAL TS_MISTRT +5V_TUNER2 R104 10K 100n C215 003:D4 75 R108 R279 GND-A 330 R102 10K R280 330 L103 STBH2012-501PT R105 C219 10p R106 PCM_IORD_N/CI_RD/GPIO87 PCM_IOWR_N/CI_WR/GPIO88 PCM_OE_N/GPIO89 PCM_WE_N/GPIO90 PCM_REG_N/CI_CLK/GPIO91 PCM_CE_N/CI_CS/GPIO92 PCM_IRQA_N/CI_INT/GPIO93 PCM_WAIT_N/CI_WACK/GPIO94 PCM_RESET/GPIO95 PCM_CD_N/GPIO96 GND-A 330 TV_SIFP 002:D3;003:C4 330 TV_SIFM 002:D3;003:C4 GND-A SGMI2012-2R2KT SGMI2012-2R2KT L107 L108 TUNER_SCL TUNER_SDA R107 0 PCM_A0/CI_A0/GPIO63 PCM_A1/CI_A1/GPIO64 PCM_A2/CI_A2/GPIO65 PCM_A3/CI_A3/GPIO66 PCM_A4/CI_A4/GPIO67 PCM_A5/CI_A5/GPIO68 PCM_A6/CI_A6/GPIO69 PCM_A7/CI_A7/GPIO70 PCM_A8/CI_A8/GPIO71 PCM_A9/CI_A9/GPIO72 PCM_A10/CI_A10/GPIO73 PCM_A11/CI_A11/GPIO74 PCM_A12/CI_A12/GPIO75 PCM_A13/CI_A13/GPIO76 PCM_A14/CI_A14/GPIO77 TV_IF_AGC TV_FAT_IFP TV_FAT_IFN C101 10n +5V L104 GND-A 22uH C102 100u 10V PCM_D0/CI_D0/GPIO79 PCM_D1/CI_D1/GPIO80 PCM_D2/CI_D2/GPIO81 PCM_D3/CI_D3/GPIO82 PCM_D4/CI_D4/GPIO83 PCM_D5/CI_D5/GPIO84 PCM_D6/CI_D6/GPIO85 PCM_D7/CI_D7/GPIO86 GND-A +3.3V_DE GND-D GND-D 12 15 16 17 18 44 30 +3.3V_DE +1.8V_ADE 42 41 28 29 32 33 34 1K RJ07 VIN MICLK VIN MOCLK MDO0 MDO1 MDO2 MDO3 MDO4 MDO5 MDO6 MDO7 MOVAL MOSTRT TV_IF_AGC RJ06 1K NJ01 CE6353 +1.8V_PDE GND-A GND-A GND-A +3.3V_DE 21 26 22 61 49 50 51 52 53 56 57 58 48 47 11 GPP3 IRQ CLK2/GPP0 DATA2/GPP1 INPACK IOIS 10K 10K 10K CI_IREQ# CI_WAIT# PC_RST PC_REG# CI_CE# 0 RM40 0 RM41 RM22 33 RM21 33 CI_CE2# CI_CD# 0 RM14 +3.3AVDD A Vcc B 4 20 19 46 PC_C_DETECT1# CI_VS1# CI_IREQ# CI_WAIT# CI_CE1# PC_REG# CI_OE# CI_WE# CI_IORD# CI_IOWR# PC_RST 36 43 16 59 7 61 9 15 44 45 58 CI_DATA[0] CI_DATA[1] CI_DATA[2] CI_DATA[3] CI_DATA[4] CI_DATA[5] CI_DATA[6] CI_DATA[7] 30 31 32 2 3 4 5 6 CI_ADDR[0] CI_ADDR[1] CI_ADDR[2] CI_ADDR[3] CI_ADDR[4] CI_ADDR[5] CI_ADDR[6] CI_ADDR[7] CI_ADDR[8] CI_ADDR[9] CI_ADDR[10] CI_ADDR[11] 29 28 27 26 25 24 23 22 12 11 8 10 TS_MDO[0] TS_MDO[1] TS_MDO[2] TS_MDO[3] TS_MDO[4] TS_MDO[5] TS_MDO[6] TS_MDO[7] 64 65 66 37 38 39 40 41 TS_MOCLK TS_MOVAL TS_MOSTRT 57 62 63 IOIS CI_CE2# PC_C_DETECT2# INPACK 33 42 67 60 1 PC_C_DETECT2# 2 PC_C_DETECT1# CI_ADDR[12] CI_ADDR[13] CI_ADDR[14] 21 13 14 3 Y GND GND-D NM01 SN74LVC1G32DCKR MCLK(A15) MVAL(A16) MISTRT(A17) CD1 VS1 IREQ WAIT CE1 REG OE WE IORD IOWR RESET D0 D1 D2 D3 D4 D5 D6 D7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 CI_CE1# CI_DATA[0] CI_DATA[1] CI_DATA[2] CI_DATA[3] CI_DATA[4] CI_DATA[5] CI_DATA[6] CI_DATA[7] TS_MICLK TS_MDI[0] TS_MDI[1] TS_MDI[2] TS_MDI[3] TS_MDI[4] TS_MDI[5] TS_MDI[6] TS_MDI[7] TS_MIVAL TS_MISTRT 1 34 35 68 GND-D GND-D MD0(D8) MD1(D9) MD2(D10) MD3(D11) MD4(D12) MD5(D13) MD6(D14) MD7(D15) VS2/MCLKO MOVAL(SPKR) MOSTRT(STSCHG) IOIS_16 CE2 CD2 INPACK A12 A13 A14 GND GND1 GND2 GND3 GND-D 4.7K 4.7K 0 +3.3AVDD RJ20 +3.3V_DE RJ21 +3.3AVDD RJ22 6 8.2K RJ23 SDA 003:D2;003:D2;007:C3 GND-D 5 4 9 RJ26 RJ27 100 100 SDA 003:D2;003:D2;007:C3 SCL 003:D2;003:D2;007:C3 Vss Vss Vss Vss Vss Vss Vss Vss Vss Vss Vss 15p CJ08 +3.3V_DE NM02 TPS2211AIDBR 1 RM09 4.7K 2 +3.3AVDD LM01 STBH2012-221PT +5V LM02 STBH2012-221PT 100n CJ09 3.3V_3 VPPD1 3.3V_4 AVCC_13 5V_5 AVCC_12 5V_6 AVCC_11 13 12 5 10 7 GND AVPP GND-D 9 8 OC 12V CM05 100n 33p CJ07 CM03 220u 16V 11 6 RM11 100 +VCC_CARD 14 4 CARD_OC CARD_SHDN# VPPD0 3 +3.3AVDD RST_6353 002:D4 GND-D SHDN 15 VCCD1 RM12 100 RM42 100 16 VCCD0 GND-D GND-D GJ01 20.48MHz 33p CJ06 CARD_3.3VEN RM10 4.7K CI_VS1# RJ08 2.2M 5 CARD_5VEN RJ28 10K SCL 003:D2;003:D2;007:C3 RJ33 TS_MICLK TS_MDI[0] 33 TS_MDI[1] TS_MDI[2] TS_MDI[3] TS_MDI[4] 33 TS_MDI[5] TS_MDI[6] TS_MDI[7] RJ16 TS_MIVAL RJ17 TS_MISTRT 1 3 8 14 20 25 38 40 46 55 60 0 33 33 RJ15 0 RJ09 TUNER_SDA RJ32 23 0 24 TUNER_SCL DATA1 CLK1 RESET OSCMODE RJ02 43 35 36 XTI 100 RJ25 1K 1K RM35 RM36 RM37 +VCC_CARD SLEEP XTO TUNER_SDA RJ24 RM33 RM34 5 BKERR STATUS 27 RJ01 33 10K CI_VS1# 10K PC_C_DETECT1# 10K PC_C_DETECT2# TS_MICLK TS_MIVAL TS_MISTRT 62 PLLVdd PLL1TEST PLLGnd GND-D 4.7K RJ04 4.7K RJ03 100 +VCC_CARD CI_ADDR[0] RM24 CI_ADDR[1] CI_ADDR[2] 33 CI_ADDR[3] CI_ADDR[4] RM23 CI_ADDR[5] CI_ADDR[6] 33 CI_ADDR[7] CI_ADDR[8] RM16 CI_ADDR[9] 33 CI_ADDR[10] CI_ADDR[11] CI_ADDR[12] RM15 CI_ADDR[13] 33 CI_ADDR[14] 63 10 TUNER_SCL PCM_D[0] PCM_D[1] PCM_D[2] PCM_D[3] PCM_D[4] PCM_D[5] PCM_D[6] PCM_D[7] RM30 RM31 RM32 PC_RST CI_CD# 4.7K RM06 22n CJ03 4 AGC1 AGC2/GPP2 AVdd AGnd AGnd Vdd33 RFLEV PCM_A[0] PCM_A[1] PCM_A[2] PCM_A[3] PCM_A[4] PCM_A[5] PCM_A[6] PCM_A[7] PCM_A[8] PCM_A[9] PCM_A[10] PCM_A[11] PCM_A[12] PCM_A[13] PCM_A[14] CI_VS1# +3.3AVDD CI_DECT RJ29 10K RJ05 10K RM17 RM18 RM19 RM20 RM13 +3.3AVDD 15p CJ10 +5V RM25 100 100 100 100 0 GND-D GND-D 31 TV_FAT_IFN R11 R10 P9 R9 T9 U9 U8 U7 100 CI_WE# CI_IOWR# CI_IORD# CI_OE# CI_IORD# CI_IOWR# CI_OE# CI_WE# PC_REG# CI_CE# CI_IREQ# CI_WAIT# CJ35 10p RJ12 0 SADD4 SADD3 SADD2 SADD1 SADD0 SMTEST CVdd CVdd CVdd CVdd CVdd CVdd Vdd Vdd Vdd Vdd 22p CJ05 GND-A CJ02 100n 220 RJ31 7 19 37 39 59 64 2 13 45 54 56p CJ34 LJ05 39nH 330nH 22p CJ04 TV_FAT_IFP V13 U13 T13 R13 V12 U12 T12 R12 U11 V9 T11 T10 U10 V8 V7 33 RM03 1u CM02 +1.8V_CORE RJ11 10K U18 T18 V18 V17 U17 T17 R17 R18 P17 N17 TS_MDO[0] TS_MDO[1] TS_MDO[2] TS_MDO[3] TS_MDO[4] TS_MDO[5] TS_MDO[6] TS_MDO[7] 33 RM02 CM01 100n +3.3V_DE CJ01 100n 220 RJ30 RJ10 10K TS_PD[0] TS_PD[1] TS_PD[2] TS_PD[3] TS_PD[4] TS_PD[5] TS_PD[6] TS_PD[7] TS_MICLK TS_MIVAL TS_MISTRT +VCC_CARD MDI0(A18) MDI1(A19) MDI2(A20) MDI3(A21) MDI4(A22) MDI5(A23) MDI6(A24) MDI7(A25) GND-D GND-D CM08 100n 3 V4 U5 U6 R7 R8 T7 T8 V5 TS_MOCLK TS_MOSTRT TS_MOVAL RM01 RM05 RM04 47 48 49 50 53 54 55 56 VCC1 VCC2 VPP1 VPP2 4.7K RM43 +5V_TUNER2 TS_PCLK 33 TS_PSTRT 33 TS_PVAL 33 TS_MDI[0] TS_MDI[1] TS_MDI[2] TS_MDI[3] TS_MDI[4] TS_MDI[5] TS_MDI[6] TS_MDI[7] CM07 100n AS ADDRESS 0-0.5V C0/C1 1-1.5V/OPEN C2/C3 2-3V C4/C5 4.5-5V C6/C7 Y7 W5 V6 CM06 100n GND-D GND-A TS0_D0/GPIO29 TS0_D1/GPIO30 TS0_D2/GPIO31 TS0_D3/GPIO32 TS0_D4/GPIO33 TS0_D5/GPIO34 TS0_D6/GPIO35 TS0_D7/GPIO36 TS_MICLK TS_MISTRT TS_MIVAL TS_MDI[0] 4.7K RM07 MOPLL I2C ADDRESS SELECTION L102 STBH2012-501PT 100n C217 2.2u C216 GND-A TS0_CLK/GPIO39 TS0_SYNC/GPIO38 TS0_VLD/GPIO37 TS0 GND-A CVBS_TUNER 2 RM52 TS_MOCLK RM53 TS_MOVAL RM54 TS_MOSTRT GND-A R101 10K L101 STBH2012-501PT 33 33 33 TS1_CLK/GPIO43 TS1_SYNC/GPIO42 TS1_VLD/GPIO41 TS1_DO/GPIO40 N18 P18 L17 M17 4.7K RM08 2.2u C214 GND-A TS_MICLK TS_MIVAL TS_MISTRT TS1 TS_MDI[0] TS_MDI[1] TS_MDI[2] TS_MDI[3] TS_MDI[4] TS_MDI[5] TS_MDI[6] TS_MDI[7] GND-D 10K RM38 L106 PCMCIA/CI 10K RM28 +5V_TUNER1 ADDRESS 86/87 84/85 RM44 RM45 RM46 RM47 RM48 RM49 RM50 RM51 10K RM39 +5V 33 33 33 33 33 33 33 33 10K RM27 AS_IF 0 5V 19 20 21 22 23 24 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 RF Ant_Pwr GND3 NC4 RF_AGC GND6 VP(TUN) VT GND9 NC10 As SCL SDA REF IF_AGC DIF1 DIF2 Wout +5V_IF 2ndIF/Low_DIF1 2ndIF/Low_DIF2 NC AS_IF CVBS FQD1116ME/IV TS_MDO[0] TS_MDO[1] TS_MDO[2] TS_MDO[3] TS_MDO[4] TS_MDO[5] TS_MDO[6] TS_MDO[7] TS_MDI[0] TS_MDI[1] TS_MDI[2] TS_MDI[3] TS_MDI[4] TS_MDI[5] TS_MDI[6] TS_MDI[7] 10K RM26 TUNER1 TS_MDI[0] TS_MDI[1] TS_MDI[2] TS_MDI[3] TS_MDI[4] TS_MDI[5] TS_MDI[6] TS_MDI[7] IF PART I2C ADDRESS SELECTION 10K RM29 1 CJ36 10p 100n CM04 A GND-D GND-D GND-D +1.8V_DE +1.8V_CORE GND-D GND-D 100n CJ18 100n CJ16 100n CJ25 100n CJ23 100n CJ21 100n CJ19 100n CJ17 100n CJ15 100n CJ14 +1.8V_ADE LJ03 4.7u CJ13 +1.8V_DE LJ02 2.2u CJ11 100n CJ27 100n CJ26 100n CJ24 100n CJ22 100n CJ20 GND-D +1.8V_PDE LJ01 4.7u CJ12 +1.8V_DE +3.3V_DE TITLE: DWG NO. 9232KE5201DL GND-D TUNER+IF+PCMCIA 6 1.0 REV. DRAWN BY APPROVED BY Sheet 1 to 10 XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. B C D E F G H X103 AV13-06-526 A AV1 X105 JY-3541L-01-030 R113 10K VGA_LIN +3.3VDD NC3 SCL R168 200 R169 33 TXD_UPDATE 007:F2 V104 BC847AW 5 VSS SDA AV_LIN R184 10K AV_RIN R185 10K BC847AW V105 C159 47p R146 0 GND-D VCLK: 0=READ ONLY VGA_B_IN 003:C3 7 2 11 6 1 R277 R122 75 R127 75 NS01 B MSD209FG VGA_R_IN 003:C3 Z103 470MHz AUDIO SIF_INP SIF_INM 6 5 4 LINE_IN_0L LINE_IN_0R LINE_IN_1L LINE_IN_1R LINE_IN_2L LINE_IN_2R LINE_IN_3L LINE_IN_3R LINE_IN_4L LINE_IN_4R LINE_IN_5L LINE_IN_5R N101 PESD5V0L5UY 1 2 3 GND-D 1 R117 10K YUV_RIN Y2 W2 P5 P6 R3 R4 Y3 Y4 R5 R6 T3 T4 T5 T6 C127 2.2u 100n C144 TV_SIFP 001:C2;003:C4 100n C145 TV_SIFM 001:C2;003:C4 C137 2.2u 2.2u C139 2.2u 2.2u C140 C141 C132 C133 2.2u 2.2u C134 C135 2.2u 2.2u R265 8.2K SCRTR2_FS Z109 R199 10MHz 10K SC2_RIN R200 10K 5 6 7 Z113 10MHz 8 9 R263 2.2K AV_LIN AV_RIN SC2_LIN SC2_RIN SC1_LIN SC1_RIN VGA_LIN VGA_RIN YUV_LIN YUV_RIN AV2_LIN AV2_RIN 2.2u C131 2.2u 2.2u GND-D SC2_FS 007:B3 SC2_FS SC2_LIN C142 C143 AV_OUTL GND-D N110 PESD5V0L5UY 10 AV_OUTR GND-D 11 GND-D GND-D 003:C4 External_CVBS 12 SCART2 GND-D GND-D AV2_VIN 3 W1 L1 4 AV_OUTR 0 GND-D 3 GND-D SC2_VOUT VGA_G_IN 003:C3 GND-D R119 75 AV_OUTL 2 3 0 Z102 470MHz R278 1 SC2_C SC1_IN_R SC2_Y/CVBS R2 12 X108 TJC10S-12A SC1_IN_L Z112 10MHz R198 10K SC1_RIN 12K R187 Z101 470MHz SC2_VOUT Z111 10MHz R197 10K SC1_LIN GND-D GND-D GND-D 3 AV_R_IN Y 8 0 Z117 470MHz R276 0 4 Z108 10MHz 75 R204 13 Z116R275 470MHz Z107 10MHz 47K R261 2 9 5 C160 47p 12K R193 14 10 12K R192 15 W1 ISP_EN R165 470 6 4 0 R164 470 V103 BC847AW R150 4.7K R1 3 R138 GND-D 22K R149 4.7K 12K R188 R274 VCLK R145 4.7K GND-D AV_R_IN 47K R259 R126 22K 7 NC2 33 VCC 2 GND-D 100n C120 8 NC1 100n C106 VCC-VGA X104 HC1038-15F-3.08 D101 MMBD1204 1 R273 75 R167 10K R160 33 Y2 N106 24LC21A/SN N103 PESD5V0L5UY R154 6 5 4 1 2 3 External_CVBS 003:C4 External_CVBS RXD_UPDATE 007:F2 +5V VCC-VGA W2 VGA_HSYNC 003:C3 100n C228 VGA_VSYNC 003:C3 33 1 2 3 33 R141 6 5 4 R140 12K R183 C119 47p R155 12K R137 12K R121 GND-D C114 47p Y1 VGA_RIN G 12K R182 R114 10K R 33 L 1 GND-D R153 AV2_RIN R202 10K GND-D HJK-3.5-401 X101 232_TXD 007:D4 232_RXD 007:D3 SPI_CZ2 R R134 0 External_YIN 003:C4 R109 10K R112 8.2K 10u C130 100n C108 PESD5V0L5UY GND-D L113 BG2012D151T 100p C223 SCART1_B 100n C221 2 GND-D 100p C224 GND-D R295 1 3 4 5 100K R203 1n C164 47 R196 R191 8.2K 75 R178 TV_OUTL GND-D Z106 10MHz C156 2.2u 1n C158 TV_OUTR V106 MMBT3904 TITLE: DWG NO. 9232KE5201DL GND-D GND-D AUDIO IN/OUT GND-D 0 1.0 REV. SCART1_R R292 75 Z115 10MHz C162 2.2u GND-D GND-D GND-D 16V R195 4.7K GND-D RCA-103A-OR X106 100K R181 R174 10K OR GND-D V107 MMBT3904 GND-D 100n C157 16V R179 4.7K AV_OUTR SC1_ROUT 100K R157 16V 4.7u C121 100n C123 Z105 10MHz C122 2.2u R186 10K SC1_LOUT 47 R180 0 R144 8.2K R2 SC2_ROUT R291 75 GND-D V102 MMBT3904 1n C126 R142 10K 47 R148 SCART1_G R143 47K R147 4.7K 100n C105 B2 100p C222 0 R290 75 L112 BG2012D151T 4.7u C155 +12V L110 BG2012D151T R110 47 R132 75 +12V GND-D R294 200 Pr_INPUT 003:C3 GND-D N102 PESD5V0L4UG GND-D R293 R175 100n C149 R190 47K R172 10K SPDIF_OUT R176 47K 100p C112 008:C3 R177 8.2K 100p C111 @pinCo 1 3 4 5 MUTE_AMP Pb_INPUT 003:C3 100n C163 +5V 0 AV_OUTL GND-D R131 75 GND-D R133 AV_OUTL GND-D 4.7u C161 100p C110 @pinCo B R L111 SGMI2012M1R0KT @pinCo G G1 B1 R1 GND-D Z104 10MHz C109 2.2u +3.3VDD R269 10K AV3-14WD X102 G2 GND-D V101 MMBT3904 SC2_LOUT N104 GND-D GND-D Y_INPUT 003:C3 100n C113 External_CIN 003:C4 AV_R_IN AV_OUTR 16V 0 R135 75 100K R139 R123 75 1n C115 G 47 R116 1u C124 Y +12V 0 W L109 BG2012D151T 4.7u C107 R136 C G R128 75 GND-D R130 GND-D G S GND-D 2 6 GND-D +12V G 0 12K R194 12K R189 GND-D V2 N5 N4 U3 X111 HJR-613/PB-1 R129 Z114 10MHz R C150 2.2n Z110 10MHz X109 RCA-302A-01 GND-D C148 2.2n R173 13K R171 13K R170 13K R166 13K GND-D C147 2.2n L 33 GND-D 5 GND-D 001:D5 RST_6353 008:C3 MUTE_AMP ISP_EN STANDBY_AMP 008:C1 GND-D E16 F16 E12 E11 E10 C146 2.2n R201 10K R115 4.7K AU_COM(VIM0) AUVRM AUVRP AUVAG C226 47p G16 H16 G15 C138 2.2n GND-D AV2_LIN R111 47K 12K R299 SC1_LIN C129 2.2n PRIM_AUD_OUT_R 008:C5 PRIM_AUD_OUT_L 008:C4 SC1_ROUT SC1_LOUT SC2_ROUT SC2_LOUT C154 C153 1 2 3 GND-D F15 E14 2.2u 2.2u C152 C151 6 5 4 RCA-410A-10 X112 R297 10K I2S_OUT_MCK/GPIO50 I2S_OUT_WS/GPIO49 I2S_OUT_BCK/GPIO51 I2S_OUT_SD/GPIO52 I2S_OUT_MUTE/LHSYNC2/GPIO13 C225 47p 2.2u 2.2u 100 100 R161 13K I2S_IN_BCK/GPIO45 I2S_IN_WS/GPIO44 I2S_IN_SD/GPIO46 100 100 100n C136 100n C118 SC1_RIN 12K R298 R2 R2 6 SPDIF_IN/GPIO47 SPDIF_OUT/GPIO48 GND-D R296 10K GND-D 5 C117 47p R152 R151 100n C128 2 1 2 3 L2 W2 4 YUV_LIN 12K R125 6 5 4 GND-D R163 R162 100 100 R159 R158 4.7u C125 R118 10K W4 Y6 U4 V3 W3 Y5 R156 13K 12K R124 R1 LINE_OUT_0R(DACO_R) LINE_OUT_0L(DACO_L) LINE_OUT_1R(DACO_S) LINE_OUT_1L LINE_OUT_2R LINE_OUT_2L C116 47p 4 R1 N105 PESD5V0L5UY DRAWN BY GND-D N109 PESD5V0L4UG APPROVED BY Sheet 2 to 10 XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. A B C D E F G H 100K R267 +3.3VDD +3.3VDD A1 SCL A2 SDA GND 100n C213 2 GND-D 3 SPI_CZ2 SPI_CK SPI_DI SPI_DO SPI_CZ1 100 R241 353.24512-00 +3.3VDD Y8 W8 Y9 W9 Y10 W10 Y11 W11 T14 R14 N15 AO SCL 100 R242 GND-D 2 WP A1 SCL A2 L7 M7 J5 N2 N1 M2 M1 L2 L1 SDA SDA G7 G8 H4 H3 H5 H6 C188 C189 C190 C191 C192 C193 C194 1n 47n 47n 47n C169 C170 C171 C172 470 10 10 10 R229 R207 R208 R209 1n 47n 47n 47n C166 100n C173 C174 C175 C176 470 10 10 10 R230 R210 R211 R212 6 10 7 NC6 NC11 GND-D 13 12 11 10 S GND 8 9 SO/SIO1 W/ACC GND-D 353.24040-10 GND-D N115 EN25B32-100HIP 8 1 VCC CS# 7 2 HOLD# SO SCLK WP# SI GND 6 3 4 Pb_INPUT 002:B3 Y_INPUT 002:B3 Pr_INPUT 002:B3 VGA_HSYNC 002:C1 VGA_VSYNC 002:C1 VGA_B_IN 002:B2 VGA_G_IN 002:B2 VGA_R_IN 002:B2 T1 K5 N16 M16 GND-D C208 V112 220u BC847AW GND-D SC1_FS R248 4.7K SCART1_B SCART1_G SCART1_R SCART1_B SCART1_G SCART1_R R251 220 GND-D 10V SCART1_B SCART1_G SCART1_R R252 0 TV_CVBS R254 75 SC1_FB R256 0 R266 8.2K 007:B3 SC1_FS R262 0 R260 75 TV_CVBS# R232 15K 100n C200 51 R245 16V R236 220 MMBT3906LT1 V110 GND-D N114 1 2 3 4 4 GND-D GND-D TV_OUT R237 75 V108 MMBT3904 5 3 PESD5V0L5UY GND-D MMBT3906LT1 V109 6 2 SCART1_FS FB_SC1 GND-D C168 10u 1 R283 47K C227 470u SC2_VOUT 16V SCART1_CVBS SC2_VOUT R289 75 820 R205 R272 75 100p C218 GND-D TV_OUT 10V GND-D GND-D R282 47K R253 0 1R_OUT 1R_IN 1L_OUT GND-D GND-D 1L_IN 1B_IN 1FUN_SEL GND-D @pinCo 1G_IN @pinCo GND-D GND-D 1RED_IN 1RGB_SW GND-D GND-D 1TV_OUT 1TV_IN GND-D SCART1 (CVBS+RGB)IN/TVOUT TV_CVBS TV_CVBS# R247 4.7K +5V 10u C198 N3 M6 M5 C204 220u R281 0 CVBS_TUNER 001:D2 R270 R271 10 10 100n C187 25V Y1 W1 AV2_VIN External_CVBS SCART1_CVBS 002:G1 4 5 R217 R218 R219 R220 R221 R222 6 10 10 10 10 10 10 7 C181 C182 C183 C184 C185 C186 5 3 8 47n 47n 47n 47n 47n 47n 2 9 M4 P1 M3 R1 P2 R2 GND-D GND-D SC1_IN_L SC1_IN_R 6 10 L114 BG2012D151T External_YIN 002:B4 External_CIN 002:B5 HJ-2105F X110 1 11 R215 R216 C220 100n 12 10 10 R285 47K 13 C179 C180 R284 47K 100n C206 47n 47n GND-D K3 K4 PESD5V0L5UY N113 SC2_C 14 SC2_Y/CVBS SC2_C SC2_Y/CVBS SC2_C 15 10 10 TV_OUTL TV_OUTR SC2_Y/CVBS GND-D R213 R214 16 C195 C196 C197 C177 C178 17 100n 100n 100n 47n 47n J3 J4 SCART1_B SCART1_G SCART1_R 18 G4 G5 G6 1% 5 NC12 +3.3VDD C199 2.2u CVBS_OUT1 CVBS_OUT2 DACSVM DREXT NC5 14 SC1_FB K6 L5 L3 L4 L6 R231 39K CVBS_OUT VR12 VR27 TAGC NC13 WP: H=READ ONLY R233 R223 R224 R225 R226 R227 R228 470 47 47 47 47 47 47 R234 470 VIF 11 W/ACC 5 R235 75 VIFP VIFM NC4 GND-D GND-D GND-D 10u C167 CVBS0 CVBS1P CVBS2P CVBS3P VCOM1 CVBS0P VCOM0 NC14 5 9 SO/SIO1 NC3 3 GND 8 GND +5V CVBS_IN NC11 S 100 R243 Share VCOM0 Y1(CVBS5P) C1(CVBS7P) NC6 SI/SIO0 4 GND-D 12 15 Vcc GND-D 1n 47n 47n 47n 47n 47n 47n 100n C165 25V S-Video 4 NC12 GND-D SCLK 2 19 Y0(CVBS4P) C0(CVBS6P) NC5 7 R288 75 VCLAMP REFP REFM NC13 13 4 R287 75 VSYNC2 SOGIN2 BIN2P GIN2P RIN2P NC4 14 3 5 R286 75 RGB NC14 5 1% HSYNC1 VSYNC1 SOGIN1 BIN1P GIN1P RIN1P NC3 6 6 AVDD_DM REXT 3 SI/SIO0 3 GND-D 10K R257 Vcc 10K 1 7 HDMI-3_RXC+ HDMI-3_RXCHDMI-3_RX0+ HDMI-3_RX0HDMI-3_RX1+ HDMI-3_RX1HDMI-3_RX2+ HDMI-3_RX2SDA_HDMI-3 SCL_HDMI-3 HOTPLUG_HDMI-3_OUT R206 390 8 R255 HDMI-1_RXC+ HDMI-1_RXCHDMI-1_RX0+ HDMI-1_RX0TO: PAGE6 HDMI-1_RX1+ HDMI-1_RX1HDMI-1_RX2+ HDMI-1_RX2SDA_HDMI-1 SCL_HDMI-1 HOTPLUG_HDMI-1_OUT F5 HSYNC0 VSYNC0 SOGIN0 BIN0P BIN0M GIN0P GIN0M RIN0P RIN0M 15 Vcc 16 HOLD 2 4 G1 G2 H1 H2 J1 J2 K1 K2 F6 G3 F4 1 SCLK HOLD +3.3VDD N108 +3.3VDD 16 1 24C04 +3.3VDD N112 EN25B64 N111 EN25B64 +3.3VDD R258 33 GND-D C212 22p 4 100n C210 5 SDA 20 RXCP2 RXCN2 RX0P2 RX0N2 RX1P2 RX1N2 RX2P2 RX2N2 DDCDC_DA DDCDC_CK HOTPLUGC WP 6 SCL 21 2 AO 7 GND-D 100 R240 CEC 006:D4 HDMI_CEC 006:D4 HDMI-2_RXC+ HDMI-2_RXCHDMI-2_RX0+ HDMI-2_RX0HDMI-2_RX1+ HDMI-2_RX1HDMI-2_RX2+ HDMI-2_RX2SDA_HDMI-2 SCL_HDMI-2 HOTPLUG_HDMI-2_OUT Vcc 2.2K R264 HDMI R238 33 EEP_W_EN 007:B2 RA23 0 C202 100n RXCP0 RXCN0 RX0P0 RX0N0 RX1P0 RX1N0 RX2P0 RX2N0 DDCDA_DA DDCDA_CK HOTPLUGA CEC_PM W7 E3 C1 C2 D1 D2 E1 E2 F1 F2 E4 E6 E5 R249 0 PM_CEC CEC/UART_RX1 RXCP1 RXCN1 RX0P1 RX0N1 RX1P1 RX1N1 RX2P1 RX2N1 DDCDB_DA DDCDB_CK HOTPLUGB 1 C211 22p RA24 47K 1 R268 33K FLASH_WP# 24C512 8 100n C209 NS01 A MSD209FG C201 100n R244 10K N107 +3.3VDD SC2_VOUT GND-D GND-D GND1 GND2 GND3 GND4 1 1 1 1 GND5 GND6 1 1 GND-A GND-A GND-SGND-S GND-D GND-D TITLE: DWG NO. 9232KE5201DL VIDEO IN/OUT 6 1.0 REV. DRAWN BY APPROVED BY Sheet 3 to 10 XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. A C D HYB18TC512160BF-2.5 K3 A-RASZ K7 L7 A-CASZ B-CK/DDR2_B-MCLKZ B-CKN/DDR2_B-MCLK A_UDQSM A_UDQSP A_UDQM A_MDATA8 A_MDATA9 A_MDATA10 A_MDATA11 A_MDATA12 A_MDATA13 A_MDATA14 A_MDATA15 A18 A19 56 RS08 56 F3 B3 K9 F7 DDR2_1V8 A_LDQSP A_LDQSM A_UDQSP A_UDQSM RS09 RS10 RS11 RS12 56 56 56 56 E8 B7 A8 A-MVREF J2 CS08 100n B8 C8 A10 C7 C10 B7 B11 A11 A7 B10 A8 A_LDQM A_UDQM RS07 A-ODT CS07 2.2u A_LDQSM A_LDQSP A_LDQM A_MDATA0 A_MDATA1 A_MDATA2 A_MDATA3 A_MDATA4 A_MDATA5 A_MDATA6 A_MDATA7 RS06 RS05 1 K 1% 1 K 1% A-LDQSM/DDR2_A-UDQS1M A-LDQSP/DDR2_A-UDQS1P A_DQM1/DDR2_A-DQM1 SDR_DQ6/DDR2_A-DQ8 SDR_DQ9/DDR2_A-DQ9 SDR_DQ5/DDR2_A-DQ10 SDR_DQ11/DDR2_A-DQ11 SDR_DQ10/DDR2_A-DQ12 SDR_DQ4/DDR2_A-DQ13 SDR_DQ8/DDR2_A-DQ15 SDR_DQ7/DDR2_A-DQ15 A9 B9 C9 B6 A12 A6 B12 C12 C5 C11 C6 A2 E2 L1 R3 R7 R8 A-BA2 GND-D DDR2_1V8 RS04 1K A-UDQSN/DDR2_A-LDQS0M A-UDQSP/DDR2_A-LDQS0P A-DQM0/DDR2_A-DQM0 SDR_DQ2/DDR2_A-DQ0 SDR_DQ13/DDR2_A-DQ1 SDR_DQ1/DDR2_A-DQ2 SDR_DQ14/DDR2_A-DQ3 SDR_DQ15/DDR2_A-DQ4 SDR_DQ0/DDR2_A-DQ5 SDR_DQ12/DDR_A-DQ6 SDR_DQ3/DDR2_A-DQ7 B_MCLKZ B_MCLK WE RAS VDD1 VDD2 VDD3 VDD4 VDD5 CAS LDM UDM VDDL VSSDL ODT LDQS LDQS VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 UDQS UDQS VREF NC#A2 NC#E2 NC#L1 NC#R3 NC#R7 NC#R8 VSS1 VSS2 VSS3 VSS4 VSS5 B-A8/DDR2_B-CKE B-A7/DDR2_B-WEZ B-A10/DDR2_B-BA0 B-A9/DDR2_B-BA1 DDR2_B-BA2 B-ODT/DDR2_B-RASZ B-A0/DDR2_B-CASZ B-A1/DDR2_B-ADR0 B-A11/DDR2_B-ADR1 B-A2/DDR2_B-ADR2 B-CASZ/DDR2_B-ADR3 B-A3/DDR2_B-ADR4 B-BA1/DDR2_B-ADR5 B-A4/DDR2_B-ADR6 B-RASZ/DDR2_B-ADR7 B-A5/DDR2_B-ADR8 B-BA0/DDR2_B-ADR9 B-A12/DDR2_B-ADR10 B-A6/DDR2_B-ADR11 B-WEZ/DDR2_B-ADR12 B-UDQSM/DDR2_B-LDQS0M B-UDQSP/DDR2_B-LDQS0P B-DQM0/DDR2_B-DQM0 SDR_DQ18/DDR2_B-DQ0 SDR_DQ29/DDR2_B-DQ1 SDR_DQ17/DDR2_B-DQ2 SDR_DQ30/DDR2_B-DQ3 SDR_DQ31/DDR2_B-DQ4 SDR_DQ16/DDR2_B-DQ5 SDR_DQ28/DDR2_B-DQ6 SDR_DQ19/DDR2_B-DQ7 B-LDQSM/DDR2_B-UDQS1M B-LDQSP/DDR2_B-UDQS1P B-DQM1/DDR2_B-DQM1 SDR_DQ22/DDR2_B-DQ8 SDR_DQ25/DDR2_B-DQ9 SDR_DQ21/DDR2_B-DQ10 SDR_DQ27/DDR2_B-DQ11 SDR_DQ26/DDR2_B-DQ12 SDR_DQ20/DDR2_B-DQ13 SDR_DQ24/DDR2_B-DQ14 SDR_DQ23/DDR2_B-DQ15 B_CKE B_WEZ B_BA0 B_BA1 B_BA2 B_RASZ B_CASZ B_MADR0 B_MADR1 B_MADR2 B_MADR3 B_MADR4 B_MADR5 B_MADR6 B_MADR7 B_MADR8 B_MADR9 B_MADR10 B_MADR11 B_MADR12 E18 E19 E20 B19 H18 B18 H19 H20 A20 G20 B20 B_LDQSM B_LDQSP B_LDQM B_MDATA0 B_MDATA1 B_MDATA2 B_MDATA3 B_MDATA4 B_MDATA5 B_MDATA6 B_MDATA7 D19 D20 F18 C20 F20 C19 G19 G18 C18 F19 D18 B_UDQSM B_UDQSP B_UDQM B_MDATA8 B_MDATA9 B_MDATA10 B_MDATA11 B_MDATA12 B_MDATA13 B_MDATA14 B_MDATA15 CS06 10u CS03 1n A_MCLKZ 22 22 56 GND-D GND-D GND-D K3 B-WEZ K7 B-RASZ L7 B-CASZ RS35 56 F3 B3 B_LDQM B_UDQM J1 J7 56 RS36 K9 B-ODT A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 DDR2_1V8 A3 E3 J3 N1 P9 B_LDQSP B_LDQSM B_UDQSP B_UDQSM F7 E8 56 56 56 56 RS37 RS38 RS39 RS40 B7 A8 J2 A2 E2 L1 R3 R7 R8 B-MVREF B-BA2 GND-D CKE CS WE RAS VDD1 VDD2 VDD3 VDD4 VDD5 CAS LDM UDM VDDL VSSDL ODT LDQS LDQS VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 UDQS UDQS VREF NC#A2 NC#E2 NC#L1 NC#R3 NC#R7 NC#R8 VSS1 VSS2 VSS3 VSS4 VSS5 DDR2_1V8 CS28 100n GND-D CS27 100n L8 A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 CS25 100n K2 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 CK CK GND-D A1 E1 J9 M9 R1 J1 J7 A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 A3 E3 J3 N1 P9 GND-D RS46 22 A_MCLK CS05 100n B_ODT RS03 1K J18 D17 J19 E17 K17 B17 A17 C16 F17 D16 G17 B16 H17 D15 J17 A16 K19 J20 C15 K20 K8 J8 GND-D 1% 1% C17 B-CKE/DDR2_B-ODT 150 B-CKE A1 E1 J9 M9 R1 E15 B-VREF RS41 CS26 100n CS B_CLKB_CLK+ CS17 100n B-MDATA15 B-MDATA14 B-MDATA13 B-MDATA12 B-MDATA11 B-MDATA10 B-MDATA9 B-MDATA8 B-MDATA7 B-MDATA6 B-MDATA5 B-MDATA4 B-MDATA3 B-MDATA2 B-MDATA1 B-MDATA0 CS23 100n GND-D A-WEZ CKE DDR2_1V8 B-MDATA15 B-MDATA14 B-MDATA13 B-MDATA12 B-MDATA11 B-MDATA10 B-MDATA9 B-MDATA8 B-MDATA7 B-MDATA6 B-MDATA5 B-MDATA4 B-MDATA3 B-MDATA2 B-MDATA1 B-MDATA0 CS24 100n L8 A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 A12 A11 A10/AP A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 B9 B1 D9 D1 D3 D7 C2 C8 F9 F1 H9 H1 H3 H7 G2 G8 CS22 100n K2 A-CKE VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 CK CK DQ15 DQ14 DQ13 DQ12 DQ11 DQ10 DQ9 DQ8 DQ7 DQ6 DQ5 DQ4 DQ3 DQ2 DQ1 DQ0 BA0 BA1 CS20 10u CS21 100n K8 J8 CS19 100n A_CLKA_CLK+ RS33 A_MADR0 A_MADR1 A_MADR2 A_MADR3 A_MADR4 A_MADR5 A_MADR6 A_MADR7 A_MADR8 A_MADR9 A_MADR10 A_MADR11 A_MADR12 R2 P7 M2 P3 P8 P2 N7 N3 N8 N2 M7 M3 M8 B-MADR12 B-MADR11 B-MADR10 B-MADR9 B-MADR8 B-MADR7 B-MADR6 B-MADR5 B-MADR4 B-MADR3 B-MADR2 B-MADR1 B-MADR0 1 K 1% 1 K 1% CS04 10u CS02 100n RS01 1K CS01 1n GND-D L2 L3 B-BA0 B-BA1 A-MDATA15 A-MDATA14 A-MDATA13 A-MDATA12 A-MDATA11 A-MDATA10 A-MDATA9 A-MDATA8 A-MDATA7 A-MDATA6 A-MDATA5 A-MDATA4 A-MDATA3 A-MDATA2 A-MDATA1 A-MDATA0 CS18 2.2u C3 A15 B3 A13 A3 B14 D6 B13 D5 A14 C14 D4 C13 A_CKE A_WEZ A_BA0 A_BA1 A_BA2 A_RASZ A_CASZ A-MDATA15 A-MDATA14 A-MDATA13 A-MDATA12 A-MDATA11 A-MDATA10 A-MDATA9 A-MDATA8 A-MDATA7 A-MDATA6 A-MDATA5 A-MDATA4 A-MDATA3 A-MDATA2 A-MDATA1 A-MDATA0 RS34 SDR_AD2/DDR2_ADR0 SDR_AD12/DDR2_A-ADR1 SDR_AD3/DDR2_A-ADR2 A-ODT/DDR2_A-ADR3 SDR_AD4/DDR2_A-ADR4 SDR_BA0/DDR2_A-ADR5 SDR_AD5/DDR2_A-ADR6 SDR_CASN/DDR2_A-ADR7 SDR_AD6/DDR2_A-ADR8 SDR_WEN/DDR2_A-ADR9 SDR_BA1/DDR2_A-AD10 SDR_AD7/DDR2_A-ADR11 SDR_RASN/DDR2_A-ADR12 D11 D3 D9 D10 F14 B4 A4 A12 A11 A10/AP A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 B9 B1 D9 D1 D3 D7 C2 C8 F9 F1 H9 H1 H3 H7 G2 G8 CS16 100n SDR_AD9/DDR2_A-CKE SDR_AD8/DDR2_A-WEZ SDR_AD11/DDR2_A-BA0 SDR_AD10/DDR2_A-BA1 DDR2_A-BA2 SDR_AD0/DDR2_A-RASZ SDR_AD1/DDR2_A-CASZ DQ15 DQ14 DQ13 DQ12 DQ11 DQ10 DQ9 DQ8 DQ7 DQ6 DQ5 DQ4 DQ3 DQ2 DQ1 DQ0 BA0 BA1 100n CS11 100n CS12 CS13 100n CS14 100n CS15 100n A-MADR12 A-MADR11 A-MADR10 A-MADR9 A-MADR8 A-MADR7 A-MADR6 A-MADR5 A-MADR4 A-MADR3 A-MADR2 A-MADR1 A-MADR0 1% A_ODT R2 P7 M2 P3 P8 P2 N7 N3 N8 N2 M7 M3 M8 CS09 10u 100n CS10 1% E13 C4 L2 L3 A-BA0 A-BA1 A_MCLKZ A_MCLK RS13 150 A5 B5 SDR_CKE/DDR2_A-ODT 5 H NS03 NS02 A-MVREF/DDR2_A-MVREF 4 G HYB18TC512160BF-2.5 A-CKO/DDR2_MCLKZ A-CKON/DDR2_MCLK 3 F DDR2_1V8 DDR/SDR 2 E NS01 C MSD209FG RS02 1K 1 B RS18 A_CLK+ RS19 A_CLK56 A-MADR1 A-MADR10 A-MADR5 A_MADR9 A_MADR12 A_MADR7 A_MADR3 A_MADR0 A_MADR2 A_MADR4 A_MADR6 A-MADR9 A-MADR12 A-MADR7 A-MADR3 A-MADR0 A-MADR2 A-MADR4 A-MADR6 RS21 56 56 56 56 56 56 56 56 56 56 56 56 RS14 A_MDATA11 A_MDATA12 A_MDATA9 A_MDATA14 A_MDATA4 A_MDATA3 A_MDATA1 A_MDATA6 A_MDATA15 A_MDATA8 A_MDATA10 A_MDATA13 A_MDATA7 A_MDATA0 A_MDATA2 A_MDATA5 B_MADR10 B_MADR1 B_MADR3 B_MADR12 B_MADR9 B_MADR7 B_MADR5 B_MADR0 B_MADR2 B_MADR4 B_MADR6 RS47 22 RS48 B-MADR10 B-MADR1 B-MADR3 B-MADR12 B-MADR9 B-MADR7 B-MADR5 B-MADR0 B-MADR2 B-MADR4 B-MADR6 RS49 56 RS50 56 RS22 RS23 RS24 RS25 RS26 RS27 RS28 RS29 RS30 RS31 RS32 A-MADR8 A-MADR11 A-WEZ A-CKE A-ODT A-CASZ A-RASZ A-BA0 A-BA1 A-BA2 B_MADR8 B_MADR11 B_WEZ B_CKE B_ODT B_CASZ B_RASZ B_BA0 B_BA1 B_BA2 56 56 RS15 56 RS16 RS17 B_CLK- B_MCLKZ RS20 A_MADR1 A_MADR10 A_MADR5 A_MADR8 A_MADR11 A_WEZ A_CKE A_ODT A_CASZ A_RASZ A_BA0 A_BA1 A_BA2 B_CLK+ B_MCLK 56 A-MDATA11 A-MDATA12 A-MDATA9 A-MDATA14 A-MDATA4 A-MDATA3 A-MDATA1 A-MDATA6 A-MDATA15 A-MDATA8 A-MDATA10 A-MDATA13 A-MDATA7 A-MDATA0 A-MDATA2 A-MDATA5 56 56 56 56 56 56 56 56 56 56 RS42 B_MDATA11 B_MDATA12 B_MDATA9 B_MDATA14 B_MDATA4 B_MDATA3 B_MDATA1 B_MDATA6 B_MDATA15 B_MDATA8 B_MDATA10 B_MDATA13 B_MDATA7 B_MDATA0 B_MDATA2 B_MDATA5 RS51 RS52 RS53 RS54 RS55 RS56 RS57 RS58 RS59 RS60 56 56 RS43 56 RS44 RS45 B-MADR8 B-MADR11 B-WEZ B-CKE B-ODT B-CASZ B-RASZ B-BA0 B-BA1 B-BA2 B-MDATA11 B-MDATA12 B-MDATA9 B-MDATA14 B-MDATA4 B-MDATA3 B-MDATA1 B-MDATA6 B-MDATA15 B-MDATA8 B-MDATA10 B-MDATA13 B-MDATA7 B-MDATA0 B-MDATA2 B-MDATA5 56 TITLE: DWG NO. 9232KE5201DL DDR2 MEMORY 6 1.0 REV. DRAWN BY Sheet 4 APPROVED BY to 10 XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. A B C D E F G H R876 10K N805 MP1410-C019 D801 B140-13-F L810 +5V_STB +5V_STB GND-D C898 10u 16V 4.7K GND-D R877 10K +5V_STB GND-D N804 MP1410-C019 EN SW COMP GND 1% FOR PDP ONLY 1 D803 B240-13-F GND-D 3 AVDD_MPLL D14 AVDD_MEMPLL AVDD_MEMPLL_3.3V P7 AVDD_VIF ADD_VIF_3.3V P8 AVDD_AUSDM AVDD_AUSDM F8 AVDD_OTG AVDD_OTG G14 G13 G12 G11 H14 AVDD_DDR_1.8V AVDD_DDR_1.8V AVDD_DDR_1.8V AVDD_DDR_1.8V AVDD_DDR_1.8V DDR2_1V8 AVDDL_DVI G10 GND-D R822 10K FB GND-D L811 SLF10145T-470M1R4-PF AVDD_LPLL N7 AVDD_MPLL_3.3V VDDC 5 GND-D GND-D K18 AVDD_LPLL_3.3V AVDDL_DVI_1.2V 6 4 AVDD_ADC H7 J6 J7 K7 AVDD_ADC_3.3V AVDD_ADC_3.3V AVDD_ADC_3.3V AVDD_ADC_3.3V GND-D 1.5n C835 IN N8 N12 P11 P12 VDDP_3.3V VDDP_3.3V VDDP_3.3V VDDP_3.3V +5V_PANEL GND-D 2 C897 10u 16V GND-D C833 10u 16V H9 H10 J15 K15 L15 M15 N10 N11 P10 VDDC_1.2V VDDC_1.2V VDDC_1.2V VDDC_1.2V VDDC_1.2V VDDC_1.2V VDDC_1.2V VDDC_1.2V VDDC_1.2V 100p C839 C817 10u 16V GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND 7 100n C837 C830 10u 16V C406 100n 8 N/C 2 3 C811 100n 10M R805 1 BS L809 STPB3216-380PT 100n C820 G D S 47K R804 SI2315BDS V802 V801 BC847AW C823 10n +12V 15K 4.7n R824 C831 +5V C899 100n 200K R802 C804 1u R801 10K 16V 2 PWR_ON/OFF 007:C3 R807 47K R803 2 VDDC R808 10K V803 BC847AW B15 D7 D8 D12 D13 J9 J10 J11 J12 J13 K9 K10 K11 K12 K13 L9 L10 L11 L12 L13 L19 L20 M9 M10 M11 M12 M13 W6 +3.3VDD 1 TJC3S-13A X801 GND-D 1 1% GND-D C802 220u 16V 4.7K R806 2 10u C822 16V 100n C821 C819 10u GND-D C801 100n FB GND-D L812 SLF10145T-470M1R4-PF GND-D C881 220u 16V 5 3 VDDP R823 10K 5 GND GND-D C807 220u 16V 6 4 6 4 R821 220 C806 100n GND-D 33.2K 7 COMP 3 D804 B240-13-F 8 +5V 9 SW 7 1.5n C836 C869 220u 25V C848 100n +5V 10 EN NS01 F MSD209FG C405 100n 8 N/C IN 2 11 100p C840 BG2012D151T BS 100n C838 D802 B140-13-F +12V 1 15K 4.7n R825 C832 C824 10n R820 33K 1 +12V @xrefL PWM 12 +5V_STB 10u C834 +12V @xrefL BLK 13 AVDD_DM P13 AVDD_DM_3.3V L815 +5V_USB STPB3216-380PT (DVI) GND-D VDDC C845 1u C850 100n C856 100n C861 100n C866 100n C871 100n C875 100n C879 100n GND-D AVDDL_DVI L823 STBH2012-221PT C855 100n GND-D DDR2_1V8 +3.3AVDD 4 AVDD_MEMPLL L824 STBH2012-221PT AVDD_ADC L816 STBH2012-221PT L817 STBH2012-221PT AVDD_DM C853 100n C841 4.7u AP1117-ADJ L813 STPB3216-310PT OUT GND-D C876 100n C843 4.7u C849 100n C854 100n C859 100n C864 100n C877 100n GND-D GND-D AVDD_AUSDM AVDD_OTG AVDD_VIF 100n CJ32 10V GND-D GND-D GND-D C870 100n 1n C880 C857 100n 2.2u C874 C847 100n 2.2u C862 2.2u C844 +1.8V_DE 100u CJ33 100u CJ31 AVDD_DM 2.2u C873 +3.3V_PS121 L822 STBH2012-221PT NJ03 AS1117-1V8 IN OUT LJ04 STBH2012-221PT 100n CJ30 10V NJ02 AS1117-3V3 IN OUT 100u CJ29 10V VDDP 100u C809 100n C805 100n C808 L804 STBH2012-221PT 100n CJ28 10V AVDD_MPLL L803 STBH2012-221PT +3.3V_DE +3.3AVDD C872 100n GND-D AVDD_LPLL +5V C868 100n AVDD_OTG L821 STBH2012-221PT 1% 5 +3.3VDD C865 100n C860 4.7u AVDD_ADC 2.2u C852 R819 402 10V 220u C818 100n C816 10V C814 2.2u L820 AVDD_AUSDM STBH2012-221PT 1% GND-D 5271117010 N801 L1117DG-2.5 IN OUT C846 100n AVDD_VIF L819 STBH2012-221PT GND-D 100n C828 IN ADJ +5V_STB C896 100n VDDP 1n C851 2.2u C842 3.3VDDR 100u C827 L808 STPB3216-310PT DDR2_1V8 N802 2W M R813 4.7 2W M R818 909 L807 STPB3216-310PT C867 100n GND-D AVDD_MPLL +5V C863 100n L818 AVDD_LPLL STBH2012-221PT R880 4.7 +5V_STB C858 100n 2.2u C895 +3.3VDD C878 100n GND-D AVDD_MEMPLL L805 STBH2012-221PT GND-D GND-D TITLE: DWG NO. 9232KE5201DL POWER 6 1.0 REV. DRAWN BY APPROVED BY Sheet 5 to 10 XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. A B C 5V_HDMI-3_IN D DA03 MMBD1204 E F G H CA03 100n WP: H=READ ONLY RA11 10K NA03 HOTPLUG_HDMI-3 5 SDA GND 4 6 SCL A2 3 7 WP A1 2 8 Vcc AO 1 PESD5V0L4UG 2 1 NA06 24C02N-10SI27 RA06 10K RA04 10K +5V 3 1 16 17 18 19 4 5 RA12 0 12 13 14 15 SDA_HDMI-3 SCL_HDMI-3 10 11 HDMI-3_RXC- 9 HDMI-3_RXC+ 7 6 HDMI-3_RX0+ 5 8 HDMI-3_RX0- HDMI-3_RX1HDMI-3_RX1+ 3 4 2 2 HDMI-3_RX2- 1 HDMI-3_RX2+ XA03 HDMI-FIX +5V CA01 100n NA04 24C02N-10SI27 RA07 10K MMBD1204 DA01 HOTPLUG_HDMI-1 RA03 10K 3 WP: H=READ ONLY RA01 10K 5V_HDMI-1_IN NA01 3 1 4 0 18 19 5 2 PESD5V0L4UG 5 SDA GND 4 6 SCL A2 3 7 WP A1 2 8 Vcc AO 1 15 16 17 RA08 SDA_HDMI-1 SCL_HDMI-1 13 14 RA13 100 003:B1 9 10 11 12 HDMI_CEC HDMI-1_RXCHDMI-1_RXC+ 6 7 8 HDMI-1_RX0HDMI-1_RX0+ 4 5 HDMI-1_RX1HDMI-1_RX1+ 5V_HDMI-1_IN +3.3VDD RA14 1K 1 2 HDMI-1_RX2HDMI-1_RX2+ HOTPLUG_HDMI-1 VA01 BC847AW XA01 HDMI-FIX RA17 10K 5V_HDMI-2_IN 17 18 3 1 5 SDA GND 4 6 SCL A2 3 7 WP A1 2 8 Vcc AO 1 HOTPLUG_HDMI-3 VA03 BC847AW RA19 10K 003:B2 HOTPLUG_HDMI-2_OUT +3.3VDD 003:B3 HOTPLUG_HDMI-3_OUT 0 RA10 SDA_HDMI-2 SCL_HDMI-2 HDMI-2_RXCHDMI-2_RXC+ 9 10 11 12 13 14 4 19 2 PESD5V0L4UG 5 RA16 1K NA02 5 RA18 10K 5V_HDMI-3_IN RA09 10K RA05 10K RA02 10K HOTPLUG_HDMI-2 NA05 24C02N-10SI27 VA02 BC847AW RA22 10K HOTPLUG_HDMI-2 CA02 100n DA02 MMBD1204 +5V RA21 10K +3.3VDD RA15 1K 5V_HDMI-2_IN 16 003:B2 HOTPLUG_HDMI-1_OUT 003:B1 CEC 15 RA20 10K 3 4 TITLE: 7 HDMI-2_RX1HDMI-2_RX1+ DWG NO. 9232KE5201DL HDMI 6 1 2 3 4 6 HDMI-2_RX0+ 5 8 HDMI-2_RX0- HDMI-2_RX2HDMI-2_RX2+ 1.0 REV. XA02 HDMI-FIX DRAWN BY Sheet 6 APPROVED BY to 10 XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. A B C D E F G H PANEL_POWER X401 PHB-2x20-2.0 5V_USB0 FU801 SMD1206P075TF 2 B0_RXE4+ B1_RXE4B2_RXE3+ B3_RXE3B4_RXEC+ B5_RXECB6_RXE2+ B7_RXE2- KEY CARD_OC CI_VS1# FLASH_WP# 003:H2 SC2_FS 003:G4 SC1_FS 003:G5 R16 P16 T16 U16 T15 R15 R809 1K 4.7K R866 R405 33 33 W16 Y16 W17 Y17 W18 Y18 W19 Y19 TXOUT4E+ TXOUT4ETXOUT3E+ TXOUT3ETXCLKOUTE+ TXCLKOUTETXOUT2E+ TXOUT2E- C2+ R1IN C2- R1OUT V- T1IN T2OUT T2IN R2IN R2OUT 5 31 34 33 36 35 38 37 40 39 10K R422 10K R420 GND-D 29 31 33 35 37 39 GND-D 12 11 9 X402 @2.36X14B 10 8 GND-D R858 100 GND-D 002:A4 232_RXD L806 +5V +5V_USB STPB3216-380PT 100 002:A4 232_TXD R859 47K USB0_SW 007:B4 4.7K V805 BC847AW C829 100n N401 AO4803A L401 1 STPB3216-380PT FOR THE 12V POWER PANEL +12V D2_8 R838 4.7K ADJ_PWM 5 G1 SCL +3.3AVDD 5 6 C404 100n R415 +5V_STB R408 4.7K +3.3VDD +3.3VDD 2 4.7K R862 100 R846 1K R849 330 +5V V808 BC847AW 1 R851 4.7K LED1 MISC+LVDS X805 GND-D GND-D BLK_ON GND-D DWG NO. 9232KE5201DL 100n C893 10K R868 GND-D R830 4.7K TITLE: KEY 2 1 X803 GND-D SDA R848 GND-D BC847AW 7.5K R413 PANEL_ON/OFF GND-D V402 V401 BC847AW SCL R883 33 0 3 C403 100n R412 10K 0 1K R882 33 IR_SYNC D805 LL4148 D1_5 47K 1u 100u C826 16V 4 SDA 5 4.7K R401 B140-13-F D806 PANEL_POWER 6 R414 C402 1u C401 R879 33 D1_6 R860 R878 33 D2_7 S1 +5V_STB GND-D 7 G2 4 +3.3VDD TJC10S-07A 7 3 L402 STPB3216-380PT GND-D 8 S2 2 +3.3AVDD R839 0 5V_USB0 C825 100n GND-D +5V_PANEL 4 10K R829 32 27 R817 10K R867 R833 1K C883 4.7u 29 008:C5 6 0 R827 30 25 38 R814 1K R828 100 20K R826 27 34 GND-D @xrefL PWM C882 100n 28 SDA 001:D5 SCL 001:D5 33 R417 23 40 3 V806 BC847AW 25 13 2 1 23 26 36 1 X802 24 32 R409 6 21 30 X809 +5V 2 22 R416 33 LVDS_SDA LVDS_SCL LVDS_IO1 LVDS_IO2 T1OUT +3.3VDD 3 19 21 7.5K R815 TXOUT1E+ TXOUT1ETXOUT0E+ TXOUT0ETXOUT4O+ TXOUT40TXOUT3O+ TXOUT3O- GND-D 19 17 33 1u Y20 W20 V19 V20 U19 U20 T19 T20 +5V 17 20 28 C815 TXCLKOUTO+ TXCLKOUTOTXOUT2O+ TXOUT2OTXOUT1O+ TXOUT1OTXOUT0O+ TXOUT0O- V807 BC847AW 15 18 26 R881 0 @xrefL BLK 16 24 R407 PANEL_ON/OFF +5V R816 R19 R20 P19 P20 N19 N20 M19 M20 5 13 15 18 R406 GND-D GND-D 008:G5 CARD_5VEN CARD_3.3VEN 13 16 14 C892 100n MUTE_PH LED1 ADJ_PWM PH_DECT 14 9 11 14 R404 33 TXD_UPDATE 002:E2 R865 W12 Y12 V14 U15 V15 V16 4.7K R863 GND 6 N808 11 12 RXD_UPDATE 002:D1 R864 R843 0 12 7 10K R423 100n C812 10V SCL 001:D5 SDA 001:D5 USB0_SW 005:D4 BLK_ON PANEL_ON/OFF PWR_ON/OFF 005:B2 9 10K R421 R875 10K 1u C887 V+ 7 F3 N6 P3 P4 +3.3VDD C894 100n 15 C1- C890 100n 33 Vcc 2 +3.3VDD R841 R842 7 10 8 R410 LVDS R861 16 4 33 33 DEBUG PORT 4 N809 MAX3232CSE C1+ CARD_SHDN# USB0_OC 2 GND-D 1 +3.3VDD 8 3 5 10 TXOUT0ETXOUT0E+ TXOUT1ETXOUT1E+ TXOUT2ETXOUT2E+ TXCLKOUTETXCLKOUTE+ TXOUT3ETXOUT3E+ TXOUT4ETXOUT4E+ 3 C891 100n 3 W15 Y15 33 R411 ? G0_RXE1+ G1_RXE1G2_RXE0+ G3_RXE0G4_RXO4+ G5_RXO4G6_RXO3+ G6_RXO3- TXD_UPDATE P14 P15 E9 4 R857 DP0 DM0 LVSYNC2/GPIO14 R0_RXOC+ R1_RXOCR2_RXO2+ R3_RXO2R4_RXO1+ R5_RXO1R6_RXO0+ R7_RXO0- 33 C889 100n T2 U2 R403 4.7K PWM0/GPIO5 PWM1/GPIO6 PWM2/GPIO7 PWM3/GPIO8 PWM4/GPIO160 PWM5/GPIO161 PWM R836 R837 RXD_UPDATE UART_TX 0 SAR0/GPIO126 SAR1/GPIO127 SAR2/GPIO128 SAR3/GPIO129 SAR4/GPIO149 SAR5/GPIO150 SAR 33 33 R856 0 GPIO TCON_EXT0/GPIO16 GPIO_A1/GPIO144 GPIO_A2/GPIO145 GPIO_A3/GPIO146 E8 E7 B1 B2 33 C888 100n I2C_SCL(DDCR_CLK) I2C_SDA(DDCR_DAT) R834 R835 UART_RX 2 I2C 33 33 5 22 GND-D IR_SYNC EEP_W_EN 003:D2 A1 A2 6 5 3 UART_RX2/GPIO147 UART_TX2/GPIO148 V10 M18 33 X807 GND-D SPI_CZ1 SPI_CK SPI_DI SPI_DO 3 20 1 W14 Y13 W13 Y14 R402 +5V_STB GND-D 3 UART GND-D 4 UART_RX(DDCA_CLK) UART_TX(DDCA_DAT) USB3112 X806 1 USB2.0-P1_VBUS USB2.0-P1_CID USB2.0-P1_DP USB2.0-P1_DM USB2.0 4 R847 1K USB2.0-P0_DP USB2.0-P0_DM C885 20p R845 4.7K IRIN IRIN2/GPIO9 V1 U1 3 GND-D 1K R832 SPI_CZ1 SPI_CK1 SPI_DI1 SPI_DO1 SPI 1M R840 12MHz XTAL_2I XTAL_2O APX810-29SAG-7 N807 C884 20p USB1_OC INT2/GPIO10 RESET Vcc GND R831 33 L18 C886 1u V11 INT/PM_CTRL/GPIO4 R844 4.7K Reset RESET GND-D GND-D G801 U14 TXOUT0OTXOUT0O+ TXOUT1OTXOUT1O+ TXOUT2OTXOUT2O+ TXCLKOUTOTXCLKOUTO+ TXOUT3OTXOUT3O+ TXOUT40TXOUT4O+ USB INTEFACE GND-D 100K R855 F7 HWreset IR 2 GND-D TESTPIN 1 6 DM0 DP0 USB1_OC 2 100u C810 R854 100K NS01 D MSD209FG 1 2 4 4 1 100 R418 R850 47K USB0_OC +3.3VDD 1 1 1.0 REV. DRAWN BY Sheet 7 to 10 GND-D GND-D APPROVED BY XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. A B C D F G H +5V +12V RV06 0 RV02 0 100n CV01 1 E RV09 10K DV04 LL4148 RV13 0 GND-D +24V-AMP VV03 BC847AW 2 1 OUT1_1 4 5 6 7 8 3 NC3 VD1_4 VD1_5 NC6 NC7 9 10 48 13 NC48 CBIAS CV02 470u 16V VS1_47 ROSC GND49 15 46 VS1_46 AVCC CV07 10u RV11 33K CV11 10u 45 16 GND16 44 NC17 NV02 R2A15112FP NC18 42 NC19 DVDD NC20 HB2 NC21 2 3 CV28 1000u 4 CV26 35V 470n NC40 39 CLOCK VS2_39 VREF VS2_38 PROT NC37 23 GND-S 38 24 OUT2_36 CV23 100n XV03 LV06 LSDL-035 T J C 3 S - 0 5 A +24V-AMP RV16 100K 36 OUT2_35 35 34 NC34 VD2_33 33 VD2_32 32 NC31 31 NC30 30 NC29 29 NC28 28 27 26 25 IN2 GAIN2 CV12 1u MUTEL 37 GND-D CV29 100n 1 CV30 1000u 35V 2 CV15 1u RV05 4.7K 3 4 +24V-AMP GND-S 5 0 RV14 VV01 BC847AW 100n CV03 3 CV25 35V 470n LV03 A7503AY-150M 40 22 MUTE_AMP 002:D4 CV24 10u 41 21 RV01 10K 22uH NC43 20 +5V 1 43 19 CV09 10u XV02 TJC3S-04A CV27 1000u HB1 18 AMP_R LV02 A7503AY-150M NC45 GND-S 17 AMP_L CV22 100n 47 14 GND-D 2 OUT1_2 DV02 LL4148 NC8 MMBT3906LT1 VV02 NC9 GND-D IN1 RV04 4.7K CV14 1u CV06 100n 11 RV10 6.8K STBYL RV08 10K 12 RV07 2.2K GAIN1 DV01 LL4148 DV03 LL4148 STANDBY_AMP 002:D4 RV03 GND-D 3K GND-D GND-S GND-D +24V-AMP CV16 100n RV15 0 CV17 100n CV18 100n CV19 100n GND-D GND-S GND-S CV04 1u 47u 5 NV01 BH3547F GND-D IN2 BIAS +3.3AVDD CV20 100u L GND IN1 G2 R 16V 4 3 2 1 OUT1 MUTE 16V CV21 100u PRIM_AUD_OUT_R 002:F3 R874 10K PRIM_AUD_OUT_L 002:F3 AMP_L 6 7 VCC OUT2 100n CV10 GND-D 8 100u CV08 10V 4 CV13 16V LV01 +5V AMP_R 5 MUTE_PH 002:D4 PH_DECT 002:D4 ST-113 XV01 GND-D RV12 100 CV05 1u HEADPHONE G5 GND-D TITLE: DWG NO. 9232KE5201DL AUDIO AMP 6 1.0 REV. DRAWN BY APPROVED BY Sheet 8 to 10 XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. A B C D E F G H 1 D[0-7] 2 TP1 D[5] D[4] D[3] D[2] D[1] D[0] D[6] PAD1 D[7] 5V X1 RESERVE LED1 D[0] LED2 SDA VOL- D[1] 7 SCL GND +3.3V 6 SDA GPIO9 20 R10 2K C6 100n AVCC V33 PAD7 1u C4 C3 10u 5V D[0-7] KEY TP2 L1 BG1608B121 N1 AS1117-3V3 IN OUT D[7] V33 100n C8 NC 100n C7 AVCC R3 0 D[6] V33 R14 4.7K DVCC GPIO10 19 GPIO11 18 GPIO12 17 16 R9 20K R12 0 GND LED8 R8 10K 21 R11 1K AVCC C5 100p 5V R 22 R4 100 D[5] R912 3K LED7 AVCC LED5 LED 15 GND 10K R6 V33 31 10K R5 DVSS GPIO4 32 33 GPIO3 34 35 CIN10 AVSS D[3] D[4] 1 LED6 R911 1.1K GPIO2 36 37 ADD1 X903 V901 BC847AW 23 GPIO8 VBIAS LED4 SCL 24 ADD0 CIN9 3 VCC_5V GND 4 25 SCLK CIN8 VSHILD IR SDA SDA 26 SDA 10 14 4 2 GND B GPIO1 38 8 CIN11 22uF 7 D[2] 5.6K R13 27 INT# 9 3K R914 10V C912 6 CIN7 LED3 5 VCC_3.3V R913 47 C911 100n PAD5 PAD6 11 N902 HRM138CB5400 Vout GND Vcc CIN5 CIN6 TJC10S-07AW LED901 GHZRB703D0 NC CIN4 GND SCL GND GPIIO7 4 5 PD GND 28 CIN3 PAD4 CH+ R7 3.3K 29 13 REXT GPIO6 3 R903 100 4 R901 100K GND 5V 5 GPIO5 CIN2 CIN12 SCL CIN1 2 PAD8 CH- 12 SDA GND 3 30 1 MENU SDA 12p C2 VDD 2 R2 NC 0 6 12p C1 6 SDA PAD3 5V D[0-7] C902 100n 10V 22uF C901 1 R902 100 2.7K R905 3 R904 2.7K N901 ISL29001 SCL IT7230AFN N2 +3.3V INPUT KEY R1 NC 0 5 GPIO0 PAD2 4 +3.3V SCL CIN0 3 IRQ GND/THD V33 POWER THD1 2 39 GND 40 1 THD0 VCC VOL+ 5 TITLE: IR + TOUCH KEY 6 IR KEY DWG NO. 9232KE5201DL 1.0 REV. DRAWN BY APPROVED BY Sheet 9 to 10 XOCECO XIAMEN OVERSEAS CHINESE ELECTRONIC CO., LTD. Power Board APPENDIX-A: Main assembly 9246KE5211 NAME NO. MAIN COMPONENT AND IT'S NO. Main board XI6KE0250110 NS01 NS02 NS03 NJ01 TUNER1 NV02 IR board XI635KH00200 Key board XI635KH00201 Power board XI6KH0092010 Remote control XI6010900301 RC-903-0A Panel XI5203468302 T460HW03 VG MSD209FG-LF (5270209001) K4T51163QG-HCF7(5275116301) CE6353 (5276353001) FQD1116ME/I V (5524000029) R2A15112FP (5271511201) APPENDIX-B: Exploded view (LCD-46XZ10FH) PART LIST OF EXPLODED VIEW REF.No. DESCRIPION Front cabinet Display panel 2 3 Key bracket Power switch 4 Wall mounting bracket (left) 5 Back cover 6 Pedestal assembly 7 Standing pole assembly 8 9 Power board assembly 10 Interface baffle (below) 11 Main board assembly Interface baffle (right) 12 Panel holder assembly 13 Wall mounting bracket (right) 14 Touch key board assembly 15 Sound box assembly 16 IR assembly 17 1 Note: design and specification are subject to change without notice. PART LIST LCD-46XZ10FH ver.1.0 REF.No. PARTS No. DESCRIPION Q'TY REMARK XI5Q46521010 Front cabinet XI5203468302 Display panel 1 XI58B0043410 Key bracket XI5293000056 Power switch 1 1 6 XI58A0084100 Wall mounting bracket (left) XI5H4670L020 Back cover 7 XI6151226000 8 XI6156111000 9 XI6HT0232010 10 XI5810F72200 11 XI6KE0250110 12 XI5810F72110 13 XI6153269000 14 XI58A0084200 15 XI6KQ0020510 16 XI6170835000 17 XI6KH0050910 18 XI6010900301 19 XI5944037210 20 XI60Z0000699 21 XI60Z0000706 1 2 3 4 5 Pedestal assembly Standing pole assembly Power board assembly Interface baffle (below) Main board assembly Interface baffle (right) Panel holder assembly Wall mounting bracket (right) Touch key board assembly Sound box assembly IR assembly Remote control User manual AUO Backlight board AUO Logic board Only the parts in above list are used for repairing. Other parts except the above parts can't be supplied. 1 T460HW03 VG 1 1 1 1 1 1 1 1 1 1 1 2 1 1 1 1 1 Assemble & Disassemble the Pedestal Base (Option) If the stand is provided, please read these instructions thoroughly before attempting this installation. Safety Precautions: 1. Please read these instructions thoroughly prior to attempting this installation. 2. Be sure to handle this product very carefully when attempting assembly. If you are unsure of your capability, or the use of tools necessary to complete this activity, refer to a professional installer or service personnel. The manufacturer is not responsible for any damages or injuries that occur due to mishandling or improper assembly/installation. 3. When using a table or bench as an aid to assembly, be sure to put a soft cushion or covering to prevent accidental scratching or damage to the unit's finish. 4. The speaker is not intended to support the weight of this display. Do not move or handle this product from the speaker; which can cause damage to the display not covered under the manufacturer's warranty. To install the stand: 1. Remove the stand from the box and place it on a table or bench. You must pay attention to the direction of the stand. The wide portion of the stand should go towards the front of the TV. 2. Lay your TV flat (screen down) on the edge of a table or bench. Make sure that you put down a soft cushion or cloth so that your TV is not scratched. 3. Put the stand close to the TV back, align the stand with the TV by moving the stand steadily until the Stand Locators align with the locating grooves on the stand. And align the screw holes on the TV back with the holes in the stand, then secure the stand to the TV with provided screws. Locators Stand Secure with four screws Locating grooves To remove the stand from the TV, perform these steps in reverse order. Note The appearance of this product in these illustrations may differ from your actual product, and is for comparative purposes only. 37 WALL MOUNTING INSTRUCTIONS 27 Safety Precautions: 1. Be sure to ask an authorized service personnel to carry out setup. 2. Thoroughly read this instruction before setup and follow the steps below precisely. 3.The wall to be mounted should be made from solid materials. Only use accessories supplied by the manufacturer. 4.Very carefully handle the unit during setup. We are not liable for any damage or injury caused by mishandling or improper installation. 5.Be sure to place the unit on a stable and soft platform which is strong enough to support the unit. 6.Do not uplift the speaker when moving the display. The appearance of the unit may different from the actual ones. 7.Design and specifications are subject to change without notice. 8. Retain these instructions for future reference. X Below we will show you how to mount the Display on the wall using our company’s wall mounting components. Wall Wall 8 Wall Mounting Holder Wall Mounting Connector 200 Take out these parts from the box (Unit:mm) Note: All the wall mounting parts are optional and may be unavailable in your model. Expansion Bolt Wood Screw Combination Screw Wall mounting fix-hole center Fig.1 1. There are three options of wall mounting holder with different specifications :200200,200400,200600. Please check your wall mounting holder for its specification. Rear wall mounting hole center Fig.2 2. Due to the wall mounting fix-groove leaning to the right side, the whole unit will lean to right side after installation, please carefully measure the position of the holes you want to drill, refer to the parameters on Fig.2 when drilling the holes. Fig.3a Fig.3b 3a. Screw 4pcs expansion bolts to fix the wall mounting holder on the wall. 3b. If your wall is a wooden structure, please fix the wall mounting holder on the wall with 16pcs wood screws. Note: The "X" in Fig.2 represents a data. It may be 200mm or 400mm or 600mm. Fig.7 Fig.6 Fig.4 4. Use the 4pcs combination screws to fix the wall mounting connector to the rear of the display unit.(Caution:the direction of the connectors should be strictly confirm to the diagram illustrated above). Fig.5 5. Put the back of the display unit close to the wall mounting holder, insert the four wall mounting connectors into the four calabash-shaped holes on the wall mounting holder. (Fig.5) 6. Let the display unit slowly slide down to the end of the calabash-shaped hole. (Fig.6) 7. Push rightwards carefully until the wall mounting connectors fully slide into the right fix-grooves and be sure the mounting is secure. 8. If you want to dismount the unit do the above steps in reverse order. Apr. /2010