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SERVICE MANUAL 8M79B CHASSIS Design and specifications are subject to change without prior notice. (Only Referrence) Description: SERVICE MANUAL 8M79B MODEL. Brand Name: SKYWORTH JOB NO. Engineering Dept: SIZE:A5 Artwork By: Date: Checked By: Date: Approved By: Date: 2012-02-04 Content-------------------------------------------------------------------------------2 Technical Specification-----------------------------------------------------------3-13 8M79 Block Diagram -------------------------------------------------------------14 List of key parts---------------------------------------------------------------------15 IC BLOCK Diagram----------------------------------------------------------------16-29 MAIN PCB-TOP--------------------------------------------------------------------30 MAIN PCB-BOT--------------------------------------------------------------------31 Circuit Diagrams--------------------------------------------------------------------32-40 -2- LCD 8M79B chassis. -3- 4. 65 For 32LED 120 For 42LED Base on different order 5. 93 95 97 93 95 97 -4- 400 FOR 32LED 450 FOR 42LED For 42LED For 42LED 9800 12500 8 8 10 -5- 15 12500(266, 276) 9800(280, 290) 6500(313, 329) 24 40 40 3 2 1 4.2 50 0.5 12000 80 40 6 -6- 1080 For 42LED 1920 For 42LED 40 uv NO YES 8 6 46 uv 46 NO Standard Standard 20 English Base on different order No Middle -7- "Low" in some status 4 -8- DTV-PRODUCTOINS SPECIFICATION 42"~55" Model # Country( West Eu./East Eu./Russia/AP/US/S.A./Japan/…) Brazil & Argentina Brand Skyworth/ODM Category (Monitor/TV/Combo/Portable TV…) TV Panel technology (LCD / PDP) LED Market Position (High/Mid/Access,,,) Class Cabinet Design (Example: 01,23 series ) E72 Product Nb - Chassis solution MSD309 + ISDB-T Demod Chassis name 8M79B Chassis PCB Standard Skyworth RGB New Standard Predecessor (replace) - MP date requested (ETD) 2011.8 MP date confirmed by supplier (ETD/ETA) - Status( Pre./Finish ) Regional requirement - Homologation (Gostandard/CE/MPTT/CB/…) CB RoHS Yes Power supply(100-240V AC +/-10%/...) 100-240V AC (-20%,+10%) Power consumption working / Annual - Power consumption standby <1W Power plug(VDE/UL/BS/…) UCIEE/2pins Picture display Screen size : diagonale (inch) 42", 47",55" Aspect ratio (16/9 // 4/3 // 15/9) 16:9 1st panel supplier : panel suppliers LG 1st panel supplier : panel reference Panel Display Type(MVA/PVA/IPS/…) TFT LCD 1st panel supplier : resolution 42/47/55:1920x1080 Dynamic contrast ratio >10000:1 Video signal process Comb Filter (2D/3D) 3D Noise Reduction (adaptative/3D/…) 3D Picture improvement ( LTI/CTI,BLE,WLE,...) LTI/CTI Color process (Gama correction/Skin correction /... ) Follow main IC Colour preset (Cool/Normal/Warm/Personal) Neutral, Cool, Warm and Personal in PC mode Picture control ( Bright/Con./Sharpness/Color/Tint/…) Yes Picture presets : Standard / Bright / Soft / User Normal / Soft / Personal / Bright -9- Picture freeze Yes Multi picture : PIP ( AV )/POP(AV) No Dynamic Backlight Control No LED Backlight Yes Deinterlacer (No/linerar/motion adaptive/motion compensative) 3D motion adaptive Film mode / reverse 3:2/2:2 pull down Yes / Yes Full HD support ( 1080P ) Yes Single scan / Dual scan ( 120HZ ) Single scan Zoom type : 4/3 format Yes Zoom type : 14/9 Zoom Yes Zoom type : 16/9 Zoom 16/9 ZOOM 1 Zoom type : 16/9 Zoom up/down 16/9 ZOOM 2 Zoom type : Cinerama Yes Zoom type : 16/9 Format Yes Zoom type : Auto ( by SCART Pin8 and WSS ) Yes Picture Auto adjustment (PC mode) Yes 3D Panel Type(PR / SG) PR 3D Mode Left/Right, Up/Down, Frame Sequence 3D To 2D (Y/N) Yes 2D To 3D (Y/N) Yes Left / Right Swap (For PR Panel) Yes Sound Sound type ( Mono/AV stereo/Stereo ) stereo Music Power (Watt)/RMS Power (Watt) 2 x 8W Tone control ( Bass&Treble / Graphic Equalizer ) Bass&Treble Special sound effect ( AVL / WIDE / Pseudo /… ) AVL Suround system ( Dolby / VD / SRS / BBE / … ) Built-in Surround Sound control ( Volume , Balance , Mute ) Volume, Balance, Mute Sound presets (User/Speech/News/Standard) Standard / Music / Film / News / Personal Headphone volume control ( Separated / linked ) Yes(Linked) Sound quality ( High / Mid / Low ) Mid Reception and Decoding capability RF range(ATV) 54MHz~864MHz VHF 177-213 MHZ, UHF 473-803 MHZ RF range(DTV) Color System (PAL/SECAM/NTSC/PAL M,N ) PAL M,PAL N,NTSC M Audio Standard ( B/G/H/D/K/K'/I/L/L' ) M,N Stereo audio system ( Nicam,MTS,A2,….) BTSC,SAP Video standard NTSC 3.58 / 4.43 (AV)/PAL 60 NTSC 3.58/4.43 , PAL DTV SD support (DVB-T/S/C , ATSC , QAM , … ) ISDB-T DTV HD Support MPEG2,MPEG4,H.264 MHEG5 No HD capability with YPbPr PC capability (up to maximum format) Yes (720p; 1080i; 1080p@24/50/60Hz; 480i/p; 576i/p) Up to 1280X1024 60Hz Up to 1080P 24/50/60HZ HDMI capability (AV/PC Format) Compatible video format if DVD/USB: DviX/VCD/SVCD/JPEG/AVI/MPEG2/WMV- HD/SD JPEG/MPEG2/MPEG4/H.264/DivX (depending on license) -10- Compatible audio format if DVD/USB: MP3/WMA/AAC/MPEG1/… Playable Discs (CD/CD-R(RW)/CD-ROM/DVD+R/+RW/R/-RW) Card reader format compatibility Macrovision PVR MP3/WMA(depending on license) No No Yes Yes(FOR USB) No Network User convenience OSD Language* OSD Positioning OSD Transparency Adjust OSD Timeout Adjust Customer Brand name(LOGO) IB languages ATV Program Numbers (example: 99+3AV input ) English/Spanish/Portuguese/French No No No Yes English 99+7AV DTV Program Numbers 370 Program edit ( naming , sorting , skip , swap …. ) Skip / Delete Auto Naming/Auto Sorting No TV Guide(DTV EPG) EPG(next Seven-day) Favorite program Number of buttons on cabinet (Power; Vol+/-; Pr+/-, Menu ) Main switch button (yes/No) Yes Vol+/-; CH+/-, Menu ,Source,Standby(optional) Yes Yes/No CCD(Closed Caption)/V-CHIP Text Standard: (Top, FLOF,,,) No Teletext Level: 2.5 / 1.5 - Pages for teletext - Teletext character sets **** - DVB-T teletext - Real clock From DTV Sleep timer 10-240 Min. Timer Turn On / Off, Program Switch Parent Control -Source and Channel lock (Input code for certain channel) Yes Parent Control - Child lock (set the lock of the keyboard, only the RCU can control the TV) No Parent Control - Kid pass (preset the ontime, channel for each day of the week) No Parent Control - Channel lock (For digital transmission and DVD program, to filter some programms) Calendar / Games Yes No No program auto switch off 15 mins. Hotel mode (Y/N) T.B.D DVD player (No/slot/tray) No Tuner FM (yes/No) No software download(RS232/CI/USB/OAD) USB Factory reset Yes -11- Screen saver Yes Blue Back No LED indicator(Power on/Standby) Blue / Red Connectors -Rear RF Input (Antenna): Air/ Cable/ 2in1 Air+Cable Scart : CVBS in&out / RGB / S-VIDEO No CINCH video in / out(AV1) CINCH audio in / out (No volumpe control on Audio out/can be jack 3,5mm) S-video in No Component Video Input (YCrCb/YPrPb) No Component Audio Input (YCrCb/YPrPb) No No No VGA in / Audio L/R in / Jack audio in 3.5mm VGA + dia. 3.5mm for audio in HDMI 2 DVI No Audio input for DVI No CINCH subwoofer out / Coaxial out (S/PDIF) No Headphone output connector (mm) No CINCH subwoofer out / Coaxial out (S/PDIF) S/PDIF out ( Coaxial ) No RS232 ( Y/N , VGA or DB9 port …) Card Readers USB slot (No/1.1/2) No 1 (Software update, JPEG, MP3, WMA, RMVB, DivX) Multimedia depends on license DVB-CI (common interface) No External power converter input No Connectors -Side HDMI 1 AV-IN 1 AV-OUT No Component Video Input (YCrCb/YPrPb) 1 Component Audio Input (YCrCb/YPrPb) 1 (Share with AV audio in) Headphone output connector (dia.mm) 1(3.5mm) No CINCH subwoofer out / Coaxial out (S/PDIF) USB slot (No/1.1/2) 1 (Software update, JPEG, MP3, WMA, RMVB, DivX) Multimedia depends on license DVB-CI (common interface) No DLNA No UI/RC UI design (font/pixel, 2D/3D graphic engine..) SOD Standard RC Model YK76B3 ( Toshiba code) RC system RGB Standard RC # of keys Accessories included Carton (English/French/Spanish) English -12- IB English Circuit diagram No Batteries Yes Product registration Card Yes(English) 1.8m AC Cable Length Audio Cord (Jack 3.5mm) No VGA Cord No Wallmount frame Optional Antenna Cable No 6 in 1( YPbPr & CVBS) cable adapter No 3D Glasses Yes (2 Sets) General Data Size (W x H x D, with stand) in mm - Size (W x H x D, without stand) in mm - Package Size (W x H x D, without stand) in mm - Net Weight in kg - Gross Weight in Kg - Design / Mechanical Wallmount VESA compatible (standard reference) Adaptor for VESA wallmount compatibility (accessory ref) Yes Yes Desktop Stand (included/optionnal + ref/No) included Panel Tilt (Fowards/Backwards/Rotation) No Swivel function desktop stand (yes/No) + motorized? No Docking station (yes/No) No Floor Stand (included/optionnal + ref/No) No Glass shield (yes/No) No Finish on Front - Finish on side - Finish on back - Finish on stand - number of colors on carton box 2 Brand logo Customer Inlet Other logo No External AC/DC Power with DC power cord (yes/No) No Handle (yes/No) No Detachable speaker (yes/No) No Rating Label langages English -13- SYSTEM POWER SUPPLY KEY PAD, IR Receiver ,Ambient Sensor Uplayer1 Optional PIXELWORKS 3D Processor FLASH Motion Engine PA131DG HDMI1 DDRII DVB-T&ATV Demo d PR MSD309PX-LF-SB DVB-T & IF Demo. Build in PB MPEG1/2/4 /H.264 Decoder Y 3D Comb filter Video Decoder JPEG MP3 Decoder TPA3121 R/L 10W + 10W R L Toshiba TC90517 DTV ATV Video ISDB-T Demod SAW P/S IF (ATV) IF+/- Uplayer2 Side Terminals HDMI2 HDMI3 PC PC Audio Tuner Rear Terminals S/PDIF -14- List of key parts No. 1 Name IR Position Type U29 Bass 2 3 P/N HS0038B4 5300-140038-0010 SL-R3018H-3E 5600-106154-0060 Speaker Treble YDG3040-2 5600-708254-00 Y2 49U3H 4900-125453-R000 Y1 HC-49U/S 4900-124053-R000 Crystal 4 Tuner U10 VA1P1BF8405 5202-45733D-7H10 5 Saw U30 F4401 4900-744015-0X00 U3 MP1482DS 476A-M14820-0080 U5 MP1482DS 476A-M14820-0080 U50 MP1482DS 476A-M14820-0080 U51 MP1482DS 476A-M14820-0080 U9 W9751G6JB-25 4737-W97511-0840 U15 W9751G6JB-25 4737-W97511-0840 U24 EN25F32-100HIP 471R-N25321-0080 U55 TC90517FG 4701-T90510-0640 U37 AS1117L-3.3 47B6-A11170-03 U38 AS1117L-3.3 47B6-A11170-03 N1 AS1117L-3.3 47B6-A11170-03 N2 AS1117L-1.2 47B6-A11175-0300 U54 TPA3121D2PWPR 4722-T31210-0240 U2 MSD309PX-LF-Z1-SB 475C-M30900-5230 6 IC -15- IC Block Diagram Pin Configurations---AS1117L-3.3 V OUT V OUT L Package U Package (SOT-223) (SOT-89) 3 INPUT 2 OUTPUT 1 ADJ/GND V OUT INPUT 2 OUTPUT 1 ADJ/GND T Package R Package (TO-220) (TO-252) 3 INPUT 2 OUTPUT 1 ADJ/GND V OUT S Package (TO-263) V OUT 3 3 INPUT 2 OUTPUT 1 ADJ/GND -16- 3 INPUT 2 OUTPUT 1 ADJ/GND IC Block Diagram Pin Configurations---AS1117L-ADJ L Package (SOT-223) V OUT 3 INPUT 2 OUTPUT 1 ADJ/GND PIN ASSIGNMENT The package of AX3113 is SOP-8L; the pin assignment is given by: Name Description FB Feedback pin Power-off pin HΚnormal operation(Step-down) LΚStep-down operation stopped (All circuits deactivated) Add an external resistor to set max switch output current. ( Top View ) FB 1 EN 2 Ocset Vcc 3 AX3113 4 SOP–8L 8 Vss 7 Vss 6 SW 5 SW EN OCSET VCC SW VSS -17- IC power supply pin Switch pin. Connect inductor & diode here. GND pin external IC Block Diagram LM4558 MP1482DS TOP VIEW BS 1 8 SS IN 2 7 EN SW 3 6 COMP GND 4 5 FB -18- IC Block Diagram . W25X40BVSNIG PWP (TSSOP) PACKAGE (TOP VIEW) PVCCL SD PVCCL MUTE LIN RIN BYPASS AGND AGND PVCCR VCLAMP PVCCR 1 2 3 4 5 6 7 8 9 10 11 12 24 23 22 21 20 19 18 17 16 15 14 13 PGNDL PGNDL LOUT BSL AVCC AVCC GAIN0 GAIN1 BSR ROUT PGNDR PGNDR PAD CONFIGURATION WSON 6X5-MM PIN CONFIGURATION SOIC 150-MIL / 208-MIL PIN CONFIGURATION PDIP 300-MIL -19- IC Block Diagram EN25F32 Figure.1 CONNECTION DIAGRAMS 8 - LEAD SOP / DIP 8 - CONTACT VDFN 16 - LEAD SOP -20- IC Block Diagram EN25F32 Figure 2. BLOCK DIAGRAM -21- IC Block Diagram EN25F32 SIGNAL DESCRIPTION Serial Data Input (DI) The SPI Serial Data Input (DI) pin provides a means for instructions, addresses and data to be serially written to (shifted into) the device. Data is latched on the rising edge of the Serial Clock (CLK) input pin. Serial Data Output (DO) The SPI Serial Data Output (DO) pin provides a means for data and status to be serially read from (shifted out of) the device. Data is shifted out on the falling edge of the Serial Clock (CLK) input pin. Serial Clock (CLK) The SPI Serial Clock Input (CLK) pin provides the timing for serial input and output operations. ("See SPI Mode") Chip Select (CS#) The SPI Chip Select (CS#) pin enables and disables device operation. When CS# is high the device is deselected and the Serial Data Output (DO) pin is at high impedance. When deselected, the devices power consumption will be at standby levels unless an internal erase, program or status register cycle is in progress. When CS# is brought low the device will be selected, power consumption will increase to active levels and instructions can be written to and data read from the device. After power-up, CS# must transition from high to low before a new instruction will be accepted. Hold (HOLD#) The HOLD pin allows the device to be paused while it is actively selected. When HOLD is brought low, while CS# is low, the DO pin will be at high impedance and signals on the DI and CLK pins will be ignored (don’t care). The hold function can be useful when multiple devices are sharing the same SPI signals. Write Protect (WP#) The Write Protect (WP#) pin can be used to prevent the Status Register from being written. Used in conjunction with the Status Register’s Block Protect (BP0, BP1and BP2) bits and Status Register Protect (SRP) bits, a portion or the entire memory array can be hardware protected. Table 1. PIN Names Symbol Pin Name CLK Serial Clock Input DI Serial Data Input DO Serial Data Output CS# Chip Enable WP# Write Protect HOLD# Hold Input Vcc Supply Voltage (2.7-3.6V) Vss Ground -22- IC Block Diagram CONFIDENTIAL 2. TC90517FG Toshiba products specification [Tentative] Configuration All functions required for ISDB-T demodulation and error correction are built into the TC90517. The input signals to be supported are a low IF (intermediate frequency) signal and direct IF signal. Baseband IQ signals can also be input. The output signal is an MPEG-2 transport stream (TS) in serial format. Note that a TS in parallel format can be output by setting registers. Tuner AGC control External AGC input AGC distortion signal 2 Tuner I C• • 2 Host I C Crystal (reference clock) 2 IC control Synchroni zation Layer isolation Clock PLL Frequency deinterleaving Memory Time deinterleaving Control Frequency CPE FFT FFT window control CVI (CW interference detection) Pilot extraction Adaptive interpolation filter CSI Equalization RS decoding Error detection Synchronization flag Output control TS output (reliability detection) TMCC demodulation Demapping CSI processing Demapping CSI processing Demapping CSI processing Viterbi decoding Energy despreading Energy despreading Energy despreading Fig. 2.1 TC90517FG Block Diagram -23- TS multiplex SW Interpolation ISIC (unguarded phase preecho/postecho suppression) correction Byte deinterleaving ADC Filter AGC• • Bit deinterleaving• • AGC control output Quadrature detection AFC ADC Modulation division IF input or IQ input IC Block Diagram CONFIDENTIAL 3. TC90517FG Toshiba products specification [Tentative] Pin Assignment (Top view) -24- IC Block Diagram 4. Pin Functions This specification indicates pins and their signals in upper case letters and registers and their signals in lower case letters. Pin Pin name 1 2 TSMD0 XSEL1 3 XSEL0 4 5 6 7 8 9 VSS SLADRS1 SLADRS0 AGCI S_INFO AGCCNTI 10 AGCCNTR (Note4) (Note5,7) I - I/O I/O I I I/O Crystal frequency division ratio 0 PD I/O Digital GND Slave address 1 Slave address 0 External AGC input Pin for pre-shipment test IF_AGC control output PD 11 CKI I - 12 TNSCL I/O OD 13 VDDS - - 14 TNSDA I/O OD 15 16 17 VSS VDDC PLLVSS - - 18 XO O - 19 XI I 20 PLLVDD FIL O 21 22 AD_AVDD 23 AD_AVSS 24 AD_VREFP 25 AD_VREFN 26 AD_VREF - (Note 3) Function PU/PD Shut down Crystal frequency division ratio 1 I/O I I - - 27 ADQ_AIN I - 28 ADQ_AIP I - 29 ADI_AIN I - 30 ADI_AIP I - Remarks(Note 2 and 6) 0: Normal operation 1: Shut down Set according to crystal frequency. Set according to crystal frequency. Connects to DGND. Set according to slave address. Set according to slave address. Connects to DGND when not used. Connects to DGND. Connects to tuner IF_AGC control input pin. Connects to tuner RF_AGC control input pin. RF_AGC control output Open, fixed to L when not used. Pin for pre-shipment test Connects to DGND. Connects to tuner I2C clock pin. I2C clock output (Pull-up performed outside IC.) I/O power supply Connects to digital +3.3 V typ. Connects to tuner I2C data pin. I2C data I/O (Pull-up performed outside IC.) Digital GND Connects to DGND. Digital +1.2 V power supply Connects to digital +1.2 V typ. Clock PLL GND Connects to AGND. Connects to crystal. Crystal output ixosl="1" and open when an external reference clock is input. Connects to crystal. Crystal or reference clock input The amplitude (p-p) is 0.5 V to PLLVDD when an external reference clock is input. Clock PLL power supply Connects to analog +2.5 V typ. PLL filter output Connects to AGND via 1500 pF. ADC analog power supply Connects to analog +2.5 V typ. ADC analog GND Connects to AGND. ADC reference voltage output +1.75 V typ. Connects to AGND via PC. ADC reference voltage output +0.75 V typ. Connects to AGND via PC. ADC reference voltage output +1.25 V typ. Connects to AGND via PC. Single-ended IF: Connects to AGND via PC. Differential IF: Connects to AGND via PC. Q signal (differential negative side) Single-ended IQ: Connects to AGND via PC. input Differential IQ: Connects to tuner Q (-) output after the DC component was cut. Single-ended IF: Connects to AGND via PC. Differential IF: Connects to AGND via PC. Q signal (differential positive side) Single-ended IQ: Connects to tuner Q output after input the DC component was cut. Differential IQ: Connects to tuner Q (+) output after the DC component was cut. Single-ended IF: Connects to AGND via PC. Differential IF: Connects to tuner IF (-) output after IF signal (differential negative side) the DC component was cut. input or I signal (differential Single-ended IQ: Connects to AGND via PC. negative side) input Differential IQ: Connects to tuner I (-) output after the DC component was cut. Single-ended IF: Connects to tuner IF output after the DC component was cut. IF signal (differential positive side) Differential IF: Connects to tuner IF (+) output after input or I signal (differential the DC component was cut. positive side) input Single-ended IQ: Connects to tuner I output after the DC component was cut. Differential IQ: Connects to tuner I (+) output after the -25- IC Block Diagram CONFIDENTIAL 31 32 33 34 35 36 37 38 39 40 41 42 43 44 AD_DVSS AD_ DVDD VSS DR1VDD VDDS VDDC VSS STSFLG1 DTCLK DTMB TSMD1 SYRSTN DR2VDD VSS 45 I I I I/O - PD PD PU OD - ADC digital GND ADC digital power supply Digital GND Digital +1.2 V power supply I/O power supply Digital +1.2 V power supply Digital GND Status flag 1 output Pin for pre-shipment test Pin for pre-shipment test Pin for pre-shipment test System reset input Digital +2.5 V power supply Digital GND SCL I/O OD I2C clock input for host CPU 46 SDA I/O OD I2C data I/O for host CPU 47 48 49 50 51 VSS DR1VDD VDDS VSS STSFLG0 I/O PD Digital GND Digital +1.2 V power supply I/O power supply Digital GND Status flag 0 output Synchronization completion (sequence 8 or higher) flag RS decoding error flag output RS decoding error free flag output TS error flag output Digital +1.2 V power supply Digital GND TS valid flag output TS synchronization byte flag output Serial TS data output TS serial clock output Digital GND Digital +1.2 V power supply I/O power supply 52 53 54 55 56 57 58 59 60 61 62 63 64 SLOCK Note 4 Note 5 Note 6 Note 7 O O RERR RLOCK RSEORF VDDC VSS PBVAL SBYTE SRDT SRCK VSS VDDC VDDS Note 2 Note 3 - TC90517FG Toshiba products specification [Tentative] O O O O O O O - - DC component was cut. Connects to DGND. Connects to digital +2.5 V typ. Connects to DGND. Connects to digital +1.2 V typ. Con nects to digital +3.3 V typ. Connects to digital +1.2 V typ. Connects to DGND. Open, fixed to L when not used. Open or connects to DGND. Open or connects to digital +3.3 V typ. Connects to DGND. Inputat specified timing at power ON. Connects to digital +2.5 V typ. Connects to DGND. Connects to I2C clock bus. (Pull-up performed outside IC.) Connects to I2C data bus. (Pull-up performed outside IC.) Connects to DGND. Connects to digital +1.2 V typ. Con nects to digital +3.3 V typ. Connects to DGND. Open, fixed to L when not used. Open, fixed to L when not used. Open, fixed to L when not used. Open, fixed to L when not used. Open, fixed to L when not used. Connects to digital +1.2 V typ. Connects to DGND. Open, fixed to L when not used. Open, fixed to L when not used. Connects to DGND. Connects to digital +1.2 V typ. Con nects to digital +3.3 V typ. AGND is the abbreviation for analog GND, and DGND is the abbreviation for digital GND. The test dedicated pin is used for the pre-shipment test only. Make sure that processing is performed as indicated in the "Remarks" column. Any other method will lead to malfunction or failure. I/O indicates the type of the cell used. It may be different from the pin function because a test is conducted concurrently. PU indicates an I/O with a pull-up resistor (50 k typ.) and PD indicates an I/O with a pull-down resistor (50 k typ.). Pulling down the PU pin or pulling up the PD pin outside the IC sometimes changes the electric potential to the midpoint, resulting in instability. Caution is required. The unused output pins must be open and fixed to L by setting the output enable control register of each pin for noise reduction or to set the output OFF state. OD indicates an open drain I/O. To use the pin for output, pull up the resistance outside the IC. * The following pins are added with the upgrade from TC90507 to TC90517 (except the changes of power supply and GND pins): Pin Number 21 27 28 7 52 Pin Name Description FIL ADQ_AIN ADQ_AIP AGCI SLOCK Added to the PLL loop filter. Added for IQ input (differential). Added for IQ input. Added to passthrough the AGC control signal of other ICs. Changed from conventional FLOCK. -26- IC Block Diagram PRELIMINARY W9751G6JB 4. B A L L C O N FIG U R A TIO N 1 2 3 VD D NC VSS A VSSQ U D Q S VD D Q UDM B U D Q S VSSQ D Q 15 DQ9 VD D Q C VD D Q DQ8 VD D Q D Q 12 V S S Q D Q 11 D D Q 10 V S S Q D Q 13 D Q 14 V S S Q VD D Q 4 5 6 7 8 9 VD D NC VSS E V S S Q LD Q S V D D Q DQ6 VSSQ LD M F LD Q S V S S Q DQ7 VD D Q DQ1 VD D Q G VD D Q DQ0 VD D Q DQ4 VSSQ DQ3 H DQ2 VSSQ DQ5 VD D L VR EF VSS J VSSDL C LK VD D C KE W E K RAS C LK ODT BA0 BA1 L CAS CS A 10/A P A1 M A2 A0 A3 A5 N A6 A4 A7 A9 P A 11 A8 A 12 NC R NC NC NC VSS VD D -27- VD D VSS IC Block Diagram PRELIMINARY W9751G6JB 5. BALL DESCRIPTION BALL NUMBER SYMBOL FUNCTION DESCRIPTION Provide the row address for active commands, and the column address and Auto-precharge bit for Read/Write commands to select one location out of the memory array in the respective bank. Row address: A0−A12. Column address: A0−A9. (A10 is used for Auto-precharge) BA0−BA1 define to which bank an ACTIVE, READ, WRITE or PRECHARGE command is being applied. M8,M3,M7,N2,N8,N3 ,N7,P2,P8,P3,M2,P7 ,R2 A0−A12 Address L2,L3 BA0−BA1 Bank Select G8,G2,H7,H3,H1,H9 ,F1,F9,C8,C2,D7,D3, D1,D9,B1,B9 DQ0−DQ15 Data Input / Output K9 ODT On Die Termination Control ODT (registered HIGH) enables termination resistance internal to the DDR2 SDRAM. LOW Data Strobe Data Strobe for Lower Byte: Output with read data, input with write data for source synchronous operation. Edge-aligned with read data, center-aligned with write data. LDQS corresponds to the data on LDQS, F7,E8 LDQS DQ0−DQ7. LDQS is only used when differential data strobe mode is enabled via the control bit at EMR (1)[A10 EMRS command]. UDQS, B7,A8 UDQS Bi-directional data bus. UP Data Strobe Data Strobe for Upper Byte: Output with read data, input with write data for source synchronous operation. Edge-aligned with read data, center-aligned with write data. UDQS corresponds to the data on DQ8−DQ15. UDQS is only used when differential data strobe mode is enabled via the control bit at EMR (1)[A10 EMRS command]. All L8 CS Chip Select commands are masked when CS is registered HIGH. CS provides for external bank selection on systems with multiple ranks. CS is considered part of the command code. K7,L7,K3 RAS , CAS , Command Inputs RAS , CAS and WE (along with CS ) define the command being entered. Input Data Mask DM is an input mask signal for write data. Input data is masked when DM is sampled high coincident with that input data during a Write access. DM is sampled on both edges of DQS. Although DM pins are input only, the DM loading matches the DQ and DQS loading. WE B3,F3 J8,K8 UDM LDM CLK, CLK Differential Clock Inputs CLK and CLK are differential clock inputs. All address and control input signals are sampled on the crossing of the positive edge of CLK and negative edge of CLK . Output (read) data is referenced to the crossings of CLK and CLK (both directions of crossing). K2 CKE Clock Enable J2 VREF Reference Voltage A1,E1,J9,M9,R1 VDD Power Supply A3,E3,J3,N1,P9 A9,C1,C3,C7,C9,E9, G1,G3,G7,G9 VSS Ground VDDQ DQ Power Supply VSSQ DQ Ground A7,B2,B8,D2,D8,E7, F2,F8,H2,H8 A2,E2,L1,R3,R7,R8 NC No Connection J7 VSSDL DLL Ground J1 VDDL DLL Power Supply CKE (registered HIGH) activates and CKE (registered LOW) deactivates clocking circuitry on the DDR2 SDRAM. VREF is reference voltage for inputs. Power Supply: 1.8V ± 0.1V. Ground. DQ Power Supply: 1.8V ± 0.1V. DQ Ground. Isolated on the device for improved noise immunity. No connection. DLL Ground. DLL Power Supply: 1.8V ± 0.1V. -28- IC Block Diagram PRELIMINARY W9751G6JB 6. BLOCK DIAGRAM CLK CLK DLL CLOCK BUFFER CKE CONTROL CS SIGNAL RAS GENERATOR COMMAND CAS DECODER WE A10 COLUMN DECODER COLUMN DECODER CELL ARRAY BANK #0 CELL ARRAY BANK #1 MODE REGISTER A0 SENSE AMPLIFIER SENSE AMPLIFIER A9 A11 A12 BA0 BA1 ADDRESS BUFFER ODT PREFETCH REGISTER DQ DATA CONTROL BUFFER CIRCUIT REFRESH COLUMN COUNTER COUNTER ODT CONTROL DQ0 | DQ15 LDQS LDQS UDQS UDQS LDM UDM COLUMN DECODER COLUMN DECODER CELL ARRAY BANK #2 CELL ARRAY BANK #3 SENSE AMPLIFIER SENSE AMPLIFIER NOTE: The cell array configuration is 8192 * 1024 * 16 -29- MAIN PCB-TOP -30 - MAIN PCB-BOT -31- 5 4 3 Power Input 2 1 DC-DC Module 1.32V DC-DC 1.32V 3.3VU 5VA 1k 5VU 12VA 24VA R342 PWR-ON/OFF C105 1n R319 2 D 2 H:ON L:OFF STB 100R C178 0.1u PB-ADJUST PB-ON/OFF CA54 + 100uF/16V 14 13 12 11 10 9 8 7 6 5 4 3 2 1 U50 MP1482 VCC 10k 1482EN 1482COMP 7 6 EN COMP C116 0.1u C14 1n 8 SS 1482OUT 3 OUT R52 1 BST 22uH 12VA 4 GND R55 4.7K 5 FB C1 For MCU CA17 470uF/16V 2 R53 CA12 100uF/16V + C396 10u 12-24 NC/FB 4 GND 6 COMP 7 EN 5VA SW 3 BS 1 FB 5 C383 C11 3.3nF R40 5.6K 8 SS L3 C3 10nF 22uH C2 C386 1nF nc R14 43K_1% R18 2K_1% R12 10K_1% C4 10u C6 CA2 + D 0.1uF 470uF/16V 47NF 5V DC-DC 5VA L116 Low ESR IN 1.8VA Note: C103,C104 close to CON6 for EMI FB C114 0.1u 2 1.8V DC-DC CON25-J25-14 L108 CA1 0.1uF 100uF 2010-3-14 C118 0.1u 12VA 24VA R41 100K + + C123 CON6 U3 MPS1482 L2 FB R57 2.2K 1482FB 0.1u R29 4.7k L37 C122 0.1u U51 MP1482 VCC 7 6 EN COMP C15 1n 8 SS 1482OUT18 L38 3 OUT 10k 1482EN18 1482COMP18 1 BST R60 10K_1% 1482FB18 0.1u R30 4.7k 22uH C127 0.1u + CA18 470uF/16V R58 10K_1% Low ESR C128 4 GND 5 FB C389 0.1u For DDR C C MST Power supply PANEL POWER 12VA OUT IN 1 2 3 4 ADJ U37 AMS1117-3.3V 150mA 3.3VA C377 0.1u C380 0.1u 1.32V 1100mA C407 NC/0.1u C394 NC/0.1u C410 NC/0.1u 110mA 1.8VA C412 0.1u C399 0.1u C400 0.1u 5VA PL5V VCC-PL NC/FB C401 0.1u R37 10K C13 0.1uF + 0.1u VCC-Panel 8 7 6 5 + CEM9435A CA10 100uF/16V R27 1K ON_PANEL 3 C438 0.1u C436 0.1u 2 C452 0.1u CA6 + C391 NC/0.1u C393 0.1u C432 0.1u C445 0.1u C441 0.1u C468 0.1u C443 0.1u C427 0.1u B 5VA 3.3VA 1N4001 100uF/16V CA8 100uF/16V + 300mA_DDR2 Max 1.8VA C429 0.1u R20 10K R19 10K C444 0.1u 2 R21 R24 ON_PBACK 1K 1 For Power Drop C481 3.3nF R43 5.6K C37 0.1uF IN 4 GND 6 COMP SW BS 1 R178 NC/10K 10nF R74 11K 22uH C31 nc 7 EN 8 SS FB 5 C475 0.1uF ON_USB_MOS C495 C29 1nF R42 2K_1% R49 47K_1% + 12VA C34 CA19 470uF/16V 0.1uF D141 9.1V C449 10n HW-RST 2 3 R67 4.7K 1 R68 2.2K Q413 3904 R76 39K D139 4.1V DD31 BAT54 1 1 HW-RST 2 R69 10K 2 DCR-OUT R31 NC/0 2 ADJ-PWM R25 0 R39 NC/0 2 LEDR 3 3 R15 10K R339 10K 5VU 3 10uF R45 100K +5V_USB 2 2 C25 L9 3 U5 MPS1482 L8 FB 5VA 2 USB Power 100R PB-ON/OFF C334 1n 2 L:ON H:OFF Q407 3904 R17 4.7K R16 PB-ADJUST C255 NC/0.1u Note: Left C255 NC if want to output PWM puls DCR-IN 2 Q415 3904 A R46 10K_1% Power Test Point 5V DC-DC +5V_USB Power trace width should be > 40mil 5VU 12VA 3.3VU 3.3VA 2.5VA VCC-PL 1 TP3 1 TP4 1 TP5 1 TP6 1 TP7 1 TP11 5V_TUNER VCC-Panel 1.8VA 1.32V 1 TP22 1 TP12 1 TP8 1 TP9 Title Size A2 Date: 5 0 / 22k Q406 3904 1 2 2 C450 0.1u 3 IN 1 C473 0.1u C104 4 OUT D38 C384 0.1u C442 0.1u Q409 3904 1 Inverter Interface 230mA 2.5VA 3.3VA 0.1u 8 D D D D Q411 3904 1 2 H:ON L:OFF C379 A S S S G 3 NC/0.1u ADJ U38 AMS1117-3.3V 5VA CA4 100uF/16V NC/100K U1 + CA11 100uF/16V C32 NC/0.1uF R44 10K R22 10K C439 0.1u + 1 2 3 4 2 0.1u C387 3 C385 CA7 100uF/16V C378 + 1.8VA 12VA VCC-PL 3.3VU 100uF/16V B R10 NC R203 FB 10n 5VU CA40 380mA 3.3VU PL12V 4 3 2 POWER Document Number 1/10 Rev 0.1 Saturday, July 02, 2011 1 Sheet 1 of 10 5 4 3 2 1 SYSTEM EEPROM MSD309PX AC8 AD9 AC9 AD10 AE10 AC10 AE8 AD8 AE7 AD7 AC7 RXC0N RXC0P RXC1N RXC1P RXC2N RXC2P RXCCLKN RXCCLKP DDCCSCL DDCCSDA HOTPLUGC 6 K5 HDMI-CEC AB4 AB5 AC3 AUVRP AUVAG AUVRM PAD_I2S_OUT_MCK PAD_I2S_OUT_SD PAD_I2S_OUT_WS PAD_I2S_OUT_BCK A6 B5 B6 C6 C30 2.2u PAD_I2S_IN_BCK(USB_OCD) PAD_I2S_IN_SD(LED_ON) PAD_I2S_IN_WS(WARM_LED_ON) C1 H6 G6 I2S_OUT_MCK I2S_OUT_SD C36 2.2u L34 I2S_OUT_BCK FB PAD_CEC PAD_SPDIF_OUT P5 SPDIFO AD16 Y13 Y14 AA13 AC14 AB23 AB20 AB14 AA21 PAD_PCM_IRQA_N PAD_PCM_OE_N PAD_PCM_IORD_N PAD_PCM_CE_N PAD_PCM_WE_N PAD_PCM_CD_N PAD_PCM_WAIT_N PAD_PCM_IOWR_ N PAD-PCM_REG_N 7 Y25 PAD_QP PAD_QM PAD_PCM2_CE_N RGB0_RINRGB0_RIN+ RGB0_GINRGB0_GIN+ RGB0_BINRGB0_BIN+ RGB0-SOG VGA_HSYNC VGA_VSYNC M2 M3 L2 L3 K1 K3 K2 N4 N5 7 7 7 7 7 7 7 RGB1_RRGB1_R+ RGB1_GRGB1_G+ RGB1_BRGB1_B+ RGB1_SOG R3 P2 P3 N2 N3 M1 N1 W6 Y6 PADA_RIN1M PADA_RIN1P PADA_GIN1M PADA_GIN1P PADA_BIN1M PADA_BIN1P PADA_SOGIN1 PAD_HSYNC1 PAD_VSYNC1 7 7 7 7 7 7 7 COMP_RCOMP_R+ COMP_YCOMP_Y+ COMP_BCOMP_B+ COMP_SOG+ U2 U3 T2 T1 R1 R2 T3 V4 PADA_RIN2M PADA_RIN2P PADA_GIN2M PADA_GIN2P PADA_BIN2M PADA_BIN2P PADA_SOGIN2 PAD_HSYNC2 PADA_RIN0M PADA_RIN0P PADA_GIN0M PADA_GIN0P PADA_BIN0M PADA_BIN0P PADA_SOGIN0 PAD_HSYNC0 PAD_VSYNC0 PADA_CVBS0 PADA_CVBS1 PADA_CVBS2 PADA_CVBS3 PADA_CVBS4 PADA_CVBS5 PADA_CVBS_OUT1 PADA_CVBS_OUT2 PADA_VCOM AC5 W4 W5 AA5 W2 W3 7 7 AV4-Vin+ 7 CVBS_OUT V3 AA4 W1 47n CVBS_OUT C82 68R T21 T19 P21 P20 R20 T20 P19 7 TS_D0 TS_D1 TS_D2 TS_D3 TS_D4 TS_D5 TS_D6 TS_D7 TS_CLK TSVALID TSSTART U20 V20 R19 AE13 AC13 Y11 AB11 AB13 Y19 Y23 W20 PAD_PF_ALE PAD_PF_AD[15] PAD_PF_CE0Z PAD_PF_CE1Z PAD_PF_OEZ PAD_PF_WEZ PAD_F_RBZ TS_D0 TS_D1 TS_D2 TS_D3 TS_D4 TS_D5 TS_D6 TS_D7 TS_CLK TSVALID TSSTART 10 10 10 10 10 10 10 10 10 10 10 C171 0.1u C174 0.1u AA3 AA2 U2F VIFP VIFM PAD_SIFP PAD_SIFM AB2 AB3 TV-SIFP TV-SIFM PAD_IFAGC PAD_RFAGC_TAGC AD3 AE3 PAD_TGPIO0(RF_AGC_CTRL) PAD_TGPIO1(DEMOD_RESET) PAD_TGPIO2(TUNER_SCL) PAD_TGPIO3(TUNER_SDA) AC4 AD2 AD4 AE4 E22 F22 E21 F21 G21 H21 E20 F20 G20 G22 R381 R382 2.2K 2.2K DVDD_MIUA DVDD_MIUB J21 AVDD1P2 M8 M9 AVDD2P5_ADC AVDD2P5_ADC N8 N9 AVDD25_REF AVDD25_REF R9 AVDD_AU25 P8 P9 AVDD25_MOD AVDD25_MOD C44 T8 AVDD25_PGA 0.1u U8 AVSS_PGA E9 E10 F9 F10 G9 AVDD_DVI AVDD_DVI AVDD_DVI AVDD_DVI AVDD_DVI G10 AVDD_DMPLL H9 H10 AVDD3P3_ADC AVDD3P3_ADC 2.5VA L35 RF_AGC_SEL SIF_CTL 4 5V_Tuner FB R176 10K R180 10k RF_AGC 4 L41 C166 47n R215 R188 4.7K 4.7K R216 R217 100 100 3.3VU FB 5V_Tuner T_SDA T_SCL T_SDA T_SCL 4,11 4,11 2010-9-10 For IIC selection MSD309PX K9 AVDD_AU33 J9 AVDD_EAR33 3.3VA MSD309PX SAR KEY0 KEY1 10K J5 G4 B4 AA7 R534 SPI-CSN 22R SPI-SCK 22R SPI-SDI22R SPI-SDO 22R PAD_SAR0 PAD_SAR1 PAD_SAR2(POWER_DET) PAD_SAR3 SPI SPI-CSNI R505 SPI-SCKI R506 SPI-SDII R507 SPI-SDOI R508 FLASH_WP C4 A4 A2 B3 A3 B2 PAD_GPIO_PM6(BOOT_FLASH_CS) PAD_SPI_CZ(BACKUP_FLASH_CS) PAD_SPI_CK PAD_SPI_DI PAD_SPI_DO PAD_GPIO_PM8(FLASH_WP) UART/I2CS UART-RX UART-TX P6 N6 DDCA_CK DDCA_DA 10 10 SCL SDA SCL SDA AA23 AA24 C172 39p G5 LVB0N 0RX4 LVB0P LVB1N LVB1P LVB2N 0RX4 LVB2P LVBCN LVBCP LVB3N 0RX4 LVB3P LVB4N LVB4P PADA_OUTP_CH[12](PAD_G_ODD[3]) PADA_OUTN_CH[12](PAD_G_ODD[2]) PADA_OUTP_CH[13](PAD_G_ODD[1]) PADA_OUTN_CH[13](PAD_G_ODD[0]) PADA_OUTP_CH[14](PAD_B_ODD[7]) PADA_OUTN_CH[14](PAD_B_ODD[6]) PADA_OUTP_CH[15](PAD_B_ODD[5]) PADA_OUTN_CH[15](PAD_B_ODD[4]) PADA_OUTP_CH[16](PAD_B_ODD[3]) PADA_OUTN_CH[16](PAD_B_ODD[2]) PADA_OUTP_CH[17](PAD_B_ODD[1]) PADA_OUTN_CH[17](PAD_B_ODD[0]) AC20 AD21 AE20 AD20 AE19 AC19 AC18 AD19 AC17 AD18 AE17 AD17 LVA0P LVA0N LVA1P LVA1N LVA2P LVA2N LVACP LVACN LVA3P LVA3N LVA4P LVA4N LVA0N 0RX4 LVA0P LVA1N LVA1P LVA2N 0RX4 LVA2P LVACN LVACP LVA3N 0RX4 LVA3P LVA4N LVA4P PAD_DDCR_CK PAD_DDCR_DA PAD_IRIN 2 Y1 24MHZ 3 R212 R476 XTAL XTALI AD1 XTALOAE2 1M 0R 1 C173 39p LVB0P LVB0N LVB1P LVB1N LVB2P LVB2N LVBCP LVBCN LVB3P LVB3N LVB4P LVB4N PAD_TCON0 PAD_TCON1(SC1_RE1) PAD_TCON2(FE_ANT5V_MONITOR) PAD_TCON3(TUNER_RESET) PAD_TCON4 PAD_TCON5(SC1_MUTE) PAD_TCON6(PCM_5V_CTL) PAD_TCON7(SIDE_AV_DET) IR IR_SYNC AC24 AC25 AD24 AD25 AE24 AC23 AE23 AD23 AE22 AC22 AC21 AD22 PAD_XTAL_IN PAD_XTAL_OUT E5 C2 B1 AD11 AE11 USB_DP USB_DM USB1_DP USB1_DM RP58 RP53 RP54 RP55 RP56 RXO0RXO0+ RXO1RXO1+ RXO2RXO2+ RXOCRXOC+ RXO3RXO3+ RXO4RXO4+ MIUA_DQ[0:15] 3 MIUA_DQ[0:15] RXE0RXE0+ RXE1RXE1+ RXE2RXE2+ RXECRXEC+ RXE3RXE3+ RXE4RXE4+ R6 Y8 Y9 PAD_TCON15(SC1_DET) T4 EPM_WP PAD_GPIO0(NTP_MUTE) PAD_GPIO1(AMP_RST) PAD_GPIO2(INV_CTL) PAD_GPIO3(PANEL_CTL) PAD_GPIO4(USB_CTL) PAD_GPIO5(ERROR_OUT) PAD_GPIO12(AMD_SCL) PAD_GPIO13(AMP_SDA) PAD_DP_P0 PAD_DM_P0 PAD_DP_P1 PAD_DM_P1 A7 C7 F4 E4 C3 D4 F6 F5 3 MIUA_DQS0 3 MIUA_DQS0B 3 MIUA_DQS1 3 MIUA_DQS1B L_R_INDICATOR LOCAL_DIM Demod_RST 10 3 MIUA_DQM0 3 MIUA_DQM1 HEADPHONE_DET 9 3 MIUA_MCLK 3 MIUA_MCLKZ 3 MIUA_MCKE 3D_EN ON_USB MUTE_HP 8 3 3 3 3 3 3 3 3D_FLAG GPIO PAD_RESET USB 8 8 8 8 AA10 T5 AB10 AB7 AA9 V5 AC11 AA8 PAD_TCON9(COMP_DET) PAD_TCON10(HP_DET) PAD_TCON11(HP_MUTE) RESET HW-RST RP52 GPIO_TCON I2CM B PADA_OUTP_CH[6](PAD_R_ODD[7]) PADA_OUTN_CH[6](PAD_R_ODD[6]) PADA_OUTP_CH[7](PAD_R_ODD[5]) PADA_OUTN_CH[7](PAD_R_ODD[4]) PADA_OUTP_CH[8](PAD_R_ODD[3]) PADA_OUTN_CH[8](PAD_R_ODD[2]) PADA_OUTP_CH[9](PAD_R_ODD[1]) PADA_OUTN_CH[9](PAD_R_ODD[0]) PADA_OUTP_CH[10](PAD_G_ODD[7]) PADA_OUTN_CH[10](PAD_G_ODD[6]) PADA_OUTP_CH[11](PAD_G_ODD[5]) PADA_OUTN_CH[11](PAD_G_ODD[4]) 8 6 4 2 8 6 4 2 8 6 4 2 ADJ-PWM PAD_PWM0 PAD_PWM1 PAD_PWM2 PAD_PWM3 7 5 3 1 7 5 3 1 7 5 3 1 1 AB25 AB24 E6 D6 8 6 4 2 8 6 4 2 8 6 4 2 PWM0 PWM1 MIUA_A[0:13] 3 MIUA_A[0:13] LVDS PWM 7 5 3 1 7 5 3 1 7 5 3 1 U2D 靠近MSD306放置 MUTE_AMP 9 RF_SW1 ON_PBACK ON_PANEL RF_SW2 11 1 1 11 3.3VA R376 4.7K R375 NC/4.7K R371 4.7K R372 4.7K MIUA_WEZ MIUA_RASZ MIUA_CASZ MIUA_BA0 MIUA_BA1 MIUA_BA2 MIUA_ODT PAD_GPIO_PM0(5V_HDMI_3) PAD_GPIO_PM1(5V_HDMI_1) PAD_GPIO_PM4(POWER_ON_OFF) PAD_GPIO_PM5(5V_HDMI_2) PAD_GPIO_PM11(DSUB_DET) PAD_GPIO_PM12(EDID_WP) PAD_GND_EFUSE PAD_TESTPIN MIUB C10 A22 A9 B23 B9 A23 C9 C23 B8 A24 B22 C8 B24 B7 PAD_IO[8](A_A0) PAD_IO[41](A_A1) PAD_IO[5](A_A2) PAD_IO[44](A_A3) PAD_IO[3](A_A4) PAD_IO[43](A_A5) PAD_IO[6](A_A6) PAD_IO[45](A_A7) PAD_IO[4](A_A8) PAD_IO[46](A_A9) PAD_IO[42](A_A10) PAD_IO[2](A_A11) PAD_IO[35](A_A12) PAD_IO[0](A_A13) MIUA_DQ0 MIUA_DQ1 MIUA_DQ2 MIUA_DQ3 MIUA_DQ4 MIUA_DQ5 MIUA_DQ6 MIUA_DQ7 MIUA_DQ8 MIUA_DQ9 MIUA_DQ10 MIUA_DQ11 MIUA_DQ12 MIUA_DQ13 MIUA_DQ14 MIUA_DQ15 C13 A19 A12 B19 C20 B12 C19 A13 B14 C18 C14 A18 B18 B13 B17 C15 PAD_IO[14](A_DQ0) PAD_IO[32(A_DQ1) PAD_IO[15](A_DQ2) PAD_IO[33](A_DQ3) PAD_IO[34](A_DQ4) PAD_IO[13](A_DQ5) PAD_IO[31](A_DQ6] PAD_IO[17](A_DQ7) PAD_IO[18](A_DQ8) PAD_IO[29](A_DQ9) PAD_IO[19](A_DQ10) PAD_IO[30](A_DQ11) PAD_IO[28](A_DQ12) PAD_IO[16](A_DQ13) PAD_IO[27](A_DQ14) PAD_IO[20](A_DQ15) MIUA_DQS0 MIUA_DQS0B MIUA_DQS1 MIUA_DQS1B A16 C16 A15 B15 PAD_IO[23](A_DQS0) PAD_IO[24](A_DQS0B) PAD_IO[21](A_DQS1) PAD_IO[22](A_DQS1B) MIUA_DQM0 MIUA_DQM1 B16 C17 PAD_IO[26](A_DQM0) PAD_IO[25](A_DQM1) MIUA_MCLK MIUA_MCLKZ MIUA_MCKE C12 B11 C21 PAD_IO[12](A_MCLK) PAD_IO[10](A_MCLKZ) PAD_IO[37](A_CKE) MIUA_WEZ MIUA_RASZ MIUA_CASZ MIUA_BA0 MIUA_BA1 MIUA_BA2 MIUA_ODT B20 B10 A10 A21 B21 C22 C11 PAD_IO[36](A_WEZ) PAD_IO[9](A_RASZ) PAD_IO[7](A_CASZ) PAD_IO[39](A_BA0) PAD_IO[38](A_BA1) PAD_IO[40](A_BA2) PAD_IO[11](A_ODT) PAD_IO[55](B_A0) PAD_IO[88](B_A1) PAD_IO[52](B_A2) PAD_IO[91](B_A3) PAD_IO[50](B_A4) PAD_IO[90](B_A5) PAD_IO[53](B_A6) PAD_IO[92](B_A7) PAD_IO[51](B_A8) PAD_IO[93](B_A9) PAD_IO[89](B_A10) PAD_IO[49](B_A11) PAD_IO[82](B_A12) PAD_IO[47](B_A13) E23 U24 D24 V25 D25 V24 D23 W25 C25 W24 V23 C24 W23 B25 MIUB_A0 MIUB_A1 MIUB_A2 MIUB_A3 MIUB_A4 MIUB_A5 MIUB_A6 MIUB_A7 MIUB_A8 MIUB_A9 MIUB_A10 MIUB_A11 MIUB_A12 MIUB_A13 PAD_IO[61](B_DQ0) PAD_IO[79](B_DQ1) PAD_IO[62](B_DQ2) PAD_IO[80](B_DQ3) PAD_IO[81](B_DQ4) PAD_IO[60](B_DQ5) PAD_IO[78](B_DQ6) PAD_IO[64](B_DQ7) PAD_IO[65](B_DQ8) PAD_IO[76](B_DQ9) PAD_IO[66](B_DQ10) PAD_IO[77](B_DQ11) PAD_IO[75](B_DQ12) PAD_IO[63](B_DQ13) PAD_IO[74](B_DQ14) PAD_IO[67](B_DQ15) H23 P24 G24 R23 R24 G25 P23 H24 J25 N23 J24 N24 N25 J23 M25 K23 MIUB_DQ0 MIUB_DQ1 MIUB_DQ2 MIUB_DQ3 MIUB_DQ4 MIUB_DQ5 MIUB_DQ6 MIUB_DQ7 MIUB_DQ8 MIUB_DQ9 MIUB_DQ10 MIUB_DQ11 MIUB_DQ12 MIUB_DQ13 MIUB_DQ14 MIUB_DQ15 PAD_IO[70](B_DQS0) PAD_IO[71](B_DQS0B) PAD_IO[68](B_DQS1) PAD_IO[69](B_DQS1B) L24 L23 K24 K25 MIUB_DQS0 MIUB_DQS0B MIUB_DQS1 MIUB_DQS1B PAD_IO[73](B_DQM0) PAD_IO[72](B_DQM1) M23 M24 MIUB_DQM0 MIUB_DQM1 PAD_IO[59](B_MCLK) PAD_IO[57](B_MCLKZ) PAD_IO[84](B_CKE) G23 F25 T23 MIUB_MCLK MIUB_MCLKZ MIUB_MCKE PAD_IO[83](B_WEZ) PAD_IO[56](B_RASZ) PAD_IO[54](B_CASZ) PAD_IO[86](B_BA0) PAD_IO[85](B_BA1) PAD_IO[87](B_BA2) PAD_IO[58](B_ODT) R25 F23 E24 T24 T25 U23 F24 MIUB_WEZ MIUB_RASZ MIUB_CASZ MIUB_BA0 MIUB_BA1 MIUB_BA2 MIUB_ODT MVREF D22 MVERF R373 4.7K IPOD_RX IPOD_TX MIUB_A[0:13] MIUB_A[0:13] 3 E19 F19 G18 VDDP VDDP AVDD_LPLL_MEMPLL 1.8VA MIUB_DQ[0:15] MIUB_DQ[0:15] 3 E17 E18 F17 F18 G17 AVDD_DDRA AVDD_DDRA AVDD_DDRA AVDD_DDRA AVDD_DDRA G16 H16 H17 J16 J17 AVDD_DDRB AVDD_DDRB AVDD_DDRB AVDD_DDRB AVDD_DDRB DVDD_NODIEL10 DVDD_NODIE C52 2.2u MIUB_DQS0 MIUB_DQS0B MIUB_DQS1 MIUB_DQS1B 3 3 3 3 MIUB_DQM0 MIUB_DQM1 3 3 MIUB_MCLK MIUB_MCLKZ MIUB_MCKE 3 3 3 MIUB_WEZ MIUB_RASZ MIUB_CASZ MIUB_BA0 MIUB_BA1 MIUB_BA2 MIUB_ODT 3 3 3 3 3 3 3 N19 M19 L19 K19 N20 M20 L20 K20 N21 M21 L21 K21 N22 M22 L22 K22 J22 H22 GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND AB8 H5 C5 K4 L5 M6 R8 10k MUTE_AMP U18 T18 R18 P18 N18 M18 L18 K18 GND GND GND GND GND GND GND GND LEDR IPOD_RX PWR-ON/OFF 1 R145 IPOD_TX R154 3D_EN R155 3D_FLAG R164 100 I/O 100 MODE NC/100 MVERF R9 10k DCR-IN C39 0.1u GND GND GND AC2 AE1 Y10 GND GND V7 W7 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 GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND V8 W8 V9 W9 J10 K10 M10 N10 P10 R10 T10 U10 V10 W10 D11 G11 H11 J11 K11 L11 M11 N11 P11 R11 T11 U11 V11 W11 D12 E12 F12 G12 H12 J12 K12 L12 M12 N12 P12 R12 T12 U12 V12 W12 D13 E13 F13 GND GND GND GND GND GND GND GND GND GND H13 J13 K13 L13 M13 N13 P13 R13 T13 U13 GND GND GND GND GND GND GND GND GND GND GND GND GND GND D14 E14 F14 G14 H14 J14 K14 L14 M14 N14 P14 R14 T14 U14 GND GND GND GND GND GND GND GND GND GND GND GND GND GND D15 E15 F15 G15 H15 J15 K15 L15 M15 N15 P15 R15 T15 U15 GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND 1.8VA GPIO_PM F11 E11 MIUA MIUA_A0 MIUA_A1 MIUA_A2 MIUA_A3 MIUA_A4 MIUA_A5 MIUA_A6 MIUA_A7 MIUA_A8 MIUA_A9 MIUA_A10 MIUA_A11 MIUA_A12 MIUA_A13 VDDC1.2V VDDC1.2V VDDC1.2V VDDC1.2V VDDC1.2V VDDC1.2V VDDC1.2V VDDC1.2V VDDC1.2V VDDC1.2V H20 J20 4 4 R504 U2A SDA MSD309PX 100 R364 100 C507 C508 NC/100pF NC/100pF 10 C-L10W05-2 C-L10W05-2 10 SCL SDA D I2C-SCL I2C-SDA 2010-5-6 LVDS CONNECTOR CON3 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 I2C-SCL RXO0RXO1RXO2RXOCRXO3RXO41 7 DCR-OUT MODE SG_SYNC RXE0RXE1RXE2RXECRXE3RXE4- DCR-OUT SG R240 0/NC VCC-Panel C75 0.1u 45 43 41 39 37 35 33 31 29 27 25 23 21 19 17 15 13 11 9 7 5 3 1 GND GND SCL SDA GND GND A0A0+ A1A1+ A2A2+ ACACA3A3+ A4A4+ GND GND DCR-IDCR-O MODE I/O SG GND B0B0+ B1B1+ B2B2+ BCBC+ B3B3+ B4B4+ GND GND GND GND VCC VCC VCC VCC I2C-SDA RXO0+ RXO1+ RXO2+ RXOC+ RXO3+ RXO4+ DCR-IN I/O DCR-IN 1 RXE0+ RXE1+ RXE2+ RXEC+ RXE3+ RXE4+ CON46 FLASH C 3.3VU C170 0.1u 1 HOLD 2 VCC 3 NC1 4 NC2 5 NC3 U24 MX25L6445E SOIC8 208mil 6 NC4 SPI-CSN 7 SO16-CS SPI-SDO 8 DO CLK 16 SPI-SCK DI 15 SPI-SDI NC8 14 NC7 13 12 NC6 NC5 11 VSS 10 9 WP/Vpp 100K R224 FLASH_WP C336 0.1u #F_WP KEYBOARD 5VU CON10 B 1 2 3 4 5 6 7 8 9 10 11 12 KEY1-in KEY2-in IR-in LED R496 D131D133D132 LED_R 100 D138 CON20W-J20-12 U16 T16 R16 P16 N16 M16 L16 K16 F16 E16 D16 K17 L17 M17 N17 P17 R17 T17 U17 INPAQ_VPORT INPAQ_VPORT INPAQ_VPORT INPAQ_VPORT 3.3VA 3.3VU R499 NC/0 R500 0 R497 NC/4.7K R493 100 KEY0 KEY0 R492 100 KEY1 KEY1 2010-4-14 3.3VU R495 R489 KEY2-in 8.2K 8.2K KEY1-in DCR-OUT 100 R344 1.32V 靠近MSD306放置 Y3 Y2 AB1 AA1 NAND FLASH AV1-Vin+ SV2-Yin SV2-Cin 3.3VA SCL SDA SCL PAD_VIFP PAD_VIFM MSD309PX CVBS EPM_WP FRONT END PAD_IP PAD_IM SCL SDA I2C address at 0xA0 TS0 PAD_TS0_D[0] PAD_TS0_D[1] PAD_TS0_D[2] PAD_TS0_D[3] PAD_TS0_D[4] PAD_TS0_D[5] PAD_TS0_D[6] PAD_TS0_D[7] PAD_TS0_CLK PAD_TS0_VLD PAD_TS0_SYNC 0.1u 8 7 6 5 VCC WP SCL SDA R248 PAD_VRP PAD_VAG AVSS_VRM_ADC_DAC 靠近MSD309放置 A0 A1 A2 GND R237 9 9 1 2 3 4 R239 AUOUTL2 AUOUTR2 PAD_PCM_A[0] PAD_PCM_A[1] PAD_PCM_A[2] PAD_PCM_A[3] PAD_PCM_A[4] PAD_PCM_A[5] PAD_PCM_A[6] PAD_PCM_A[7] PAD_PCM_A[8] PAD_PCM_A[9] PAD_PCM_A[10] PAD_PCM_A[11] PAD_PCM_A[12] PAD_PCM_A[13] PAD_PCM_A[14] PAD_PCM_RESET Y16 AD14 AD15 AC15 AC16 Y17 AB17 AB19 Y18 AE16 AB16 10K AD5 AE5 Y24 Y22 AB22 AA22 AA20 Y21 AA18 AA19 AA16 AA14 AA12 Y15 AA17 AA15 AE14 Y20 PAD_TS1_D[0] PAD_TS1_D[1] PAD_TS1_D[2] PAD_TS1_D[3] PAD_TS1_D[4] PAD_TS1_D[5] PAD_TS1_D[6] PAD_TS1_D[7] PAD_TS1_CLK PAD_TS1_VLD PAD_TS1_SYNC 4.7K PAD_EARPHONE_OUTL PAD_EARPHONE_OUTR SPDIF RGB C 9 9 I2S PAD_RX0N_C PAD_RX0P_C PAD_RX1N_C PAD_RX1P_C PAD_RX2N_C PAD_RX2P_C PAD_RXCN_C PAD_RXCP_C DDCDC_CK DDCDC_DA PAD_HOTPLUGC U2E 7 7 7 7 7 7 7 7 7 AUOUTL0 AUOUTR0 AUOUTL1 AUOUTR1 PAD_PCM_D[0] PAD_PCM_D[1] PAD_PCM_D[2] PAD_PCM_D[3] PAD_PCM_D[4] PAD_PCM_D[5] PAD_PCM_D[6] PAD_PCM_D[7] 2 6 6 6 6 6 6 6 6 6 6 6 V1 V2 AA6 Y5 7 7 W21 U21 U19 AD12 AC12 AD13 Y12 AA11 1 PAD_RX0N_B PAD_RX0P_B PAD_RX1N_B PAD_RX1P_B PAD_RX2N_B PAD_RX2P_B PAD_RXCN_B PAD_RXCP_B DDCDB_CK DDCDB_DA HOTPLUGB 7 7 24 23 22 21 D2 E3 E2 F3 F2 F1 D3 D1 J6 L6 J4 PAD_LINEOUT_L0 PAD_LINEOUT_R0 PAD_LINEOUT_L3 PAD_LINEOUT_R3 HD-Lin HD-Rin AV1-Lin AV1-Rin VGA-Lin VGA-Rin AV2-Lin AV2-Rin SOP8-VCC SOP8-HOLD SOP8-CLK SOP8-DI RXB0N RXB0P RXB1N RXB1P RXB2N RXB2P RXBCLKN RXBCLKP DDCBSCL DDCBSDA HOTPLUGB R4 R5 T6 U6 V6 U5 AD6 AC6 SOP8-CS SOP8-DO SOP8-WP/Vpp VSS 6 6 6 6 6 6 6 6 6 6 6 PAD_LINEIN_L0 PAD_LINEIN_R0 PAD_LINEIN_L1 PAD_LINEIN_R1 PAD_LINEIN_L2 PAD_LINEIN_R2 PAD_LINEIN_L5 PAD_LINEIN_R5 17 18 19 20 PAD_RX0N_A PAD_RX0P_A PAD_RX1N_A PAD_RX1P_A PAD_RX2N_A PAD_RX2P_A PAD_RXCN_A PAD_RXCP_A DDCDA_CK DDCDA_DA PAD_HOTPLUGA 2 G2 H3 H2 J3 J2 J1 G3 G1 M4 M5 K6 2 RXA0N RXA0P RXA1N RXA1P RXA2N RXA2P RXACLKN RXACLKP DDCASCL DDCASDA HOTPLUGA TS1 2 6 6 6 6 6 6 6 6 6 6 6 C316 PCMCIA HD1-Lin HD1-Rin AV1-Lin AV1-Rin VGA-Lin VGA-Rin HD2-Lin HD2-Rin U21 NC/24C64 1 D AUDIO 2010-3-31 1 HDMI MSD309PX 1 U2B R238 NC/0 MSD309PX 4.7K 3.3VA U2C 20100122 C330 C331 0.1uF 0.1uF 5VU R490 Mode Selection 3D DEBUG PORT 2.2K C309 0.1u 2 C308 2.2u 10K 1 3906 Q41 R249 3 R259 3.3VA 3.3VU DD30 BAV99 R411 R253 100K 2 3 3.3VU 1 A LED R252 100K 100R HW-RST LEDR R347 100R LED_R 1 HW-RST 1 LEDR HW-RST LEDR 10K I2S_OUT_SD NC/10K R350 R35 NC/10K I2S_OUT_MCK 10k R349 R70 10K I2S_OUT_BCK NC/10K R351 CON31 R26 10K PWM1 NC/10K R352 R47 10K PWM0 NC/10K R356 1 2 3 4 10K R494 5VA A IR_SYNC 1K C337 R221 4.7K R222 4.7K 39pF IR_SYNC Close to MSD309 R126 ISP-RXD 22R UART-RX ISP-TXD 22R UART-TX R124 NC/CON4-2.0mm Debug Port C307 1n IR-in 3.3VU R33 C208 39P RESET ISP-TXD ISP-RXD 7 7 Title MSD309 Size Document Number Custom2/10 5 4 3 2 Date: Friday, July 08, 2011 1 Rev 0.1 Sheet 2 of 10 5 75RX4 MA_WEZ MA_CKE MA_BA1 MA_BA0 Close to MSD306 Close to MSD306 MIUA_A[0:13] RP3 22RX4 MIUA_DQ7 MIUA_DQ0 MIUA_DQ2 MIUA_DQ5 RP4 2 4 6 8 1 3 5 7 2 4 6 8 1 3 5 7 2 4 6 8 1 3 5 7 22RX4 1 3 5 7 7 5 3 1 MIUA_DQ15 MIUA_DQ8 MIUA_DQ10 MIUA_DQ13 MA_DQ6 MA_DQ1 MA_DQ3 MA_DQ4 22RX4 MIUA_A5 MIUA_A10 MIUA_A1 MIUA_BA2 RP6 MA_DQ15 MA_DQ8 MA_DQ10 MA_DQ13 MIUA_A12 MIUA_A7 MIUA_A9 MIUA_A3 RP7 MA_DQ7 MA_DQ0 MA_DQ2 MA_DQ5 MIUA_A2 RP18 MIUA_A0 MIUA_CASZ MIUA_RASZ 2 MIUA_BA2 2 MIUA_CASZ 2 MIUA_RASZ MA_A4 MA_A6 MA_A8 MA_A11 75RX4 2 4 6 8 RP2 RP5 MA_A5 MA_A10 MA_A1 MA_BA2 75RX4 1 3 5 7 MIUA_DQ6 MIUA_DQ1 MIUA_DQ3 MIUA_DQ4 MIUA_A4 MIUA_A6 MIUA_A8 MIUA_A11 MA_DQ11 MA_DQ12 MA_DQ9 MA_DQ14 22RX4 2 4 6 8 RP1 MA_A12 MA_A7 MA_A9 MA_A3 75RX4 7 5 3 1 1 3 5 7 MIUA_DQ11 MIUA_DQ12 MIUA_DQ9 MIUA_DQ14 8 6 4 2 MIUA_DQ[0:15] 2 MIUA_DQ[0:15] 8 6 4 2 2 4 6 8 2 MIUA_A[0:13] 75RX4 MIUA_A13 R383 75R MA_A2 MA_A0 MA_CASZ MA_RASZ D3 D1 C2 B1 DQ11 DQ12 DQ9 DQ14 MA_DQ6 MA_DQ1 MA_DQ3 MA_DQ4 F1 G2 H3 H1 DQ6 DQ1 DQ3 DQ4 A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 J1 VddL MA_DQ11 MA_DQ12 MA_DQ9 MA_DQ14 VddQ VddQ VddQ VddQ VddQ VddQ VddQ VddQ VddQ VddQ A1 E1 J9 M9 R1 LDQS LDQS# UDQS UDQS# Vdd Vdd Vdd Vdd Vdd UDM LDM F7 E8 B7 A8 1 2 3 Vdd NC Vss Vref CKE CLK CLK# J2 K2 J8 K8 A_MVERF MA_CKE MA_MCLK MA_MCLKZ DQ15 DQ8 DQ10 DQ13 B9 C8 D7 D9 MA_DQ15 MA_DQ8 MA_DQ10 MA_DQ13 DQ7 DQ0 DQ2 DQ5 F9 G8 H7 H9 MA_DQ7 MA_DQ0 MA_DQ2 MA_DQ5 ODT RAS# CS# CAS# K9 K7 L8 L7 MA_ODT MA_RASZ M8 M7 N8 N7 MA_A0 MA_A2 MA_A4 MA_A6 Vdd A0 A2 A4 A6 A8 A11 WE# P8 P7 K3 MA_A8 MA_A11 MA_WEZ Vss 7 8 VssQ UDQS# VddQ 9 UDQS VssQ DQ15 VddQ DQ8 VddQ DQ10 VssQ DQ13 VssQ LDQS# VddQ LDQS VssQ A B DQ14 VssQ UDM VddQ DQ9 VddQ DQ12 VssQ DQ11 Vdd NC Vss DQ6 VssQ LDM C D E F DQ7 G VddQ DQ1 VddQ DQ4 VssQ DQ3 VddQ DQ0 DQ2 VssQ VddQ H MA_BA1 MA_BA0 L3 L2 BA1 BA0 VddL M3 M2 N3 A1 A10 A5 RFU MA_A9 MA_A12 MA_A7 MA_A3 P3 R2 P2 N2 A9 A12 A7 A3 MA_BA2 R7 L1 R3 RFU RFU RFU MA_A1 MA_A10 MA_A5 MA_A13 DQ5 J Vref Vss VssDL CK Vdd RAS# CK# ODT CAS# CS# A2 A0 A6 A4 A11 A8 RFU NC K CKE WE# BA0 BA1 L M A10 A1 A3 A5 N Vss P A7 A9 A12 RFU D R23 R71 100R 100R C430 47n Close to DRAM MA_CASZ R Vdd VssQ VssQ VssQ VssQ VssQ VssQ VssQ VssQ VssQ VssQ VssDL MIUA_WEZ RP15 MIUA_MCKE MIUA_BA1 MIUA_BA0 MIUA_WEZ MIUA_MCKE MIUA_BA1 MIUA_BA0 MA_ODT 75R A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 J7 2 2 2 2 R13 B3 F3 MA_DQS0 MA_DQSB0 MA_DQS1 MA_DQSB1 Vss Vss Vss Vss Vss MIUA_ODT MA_DQM1 MA_DQM0 NC NC NC MA_DQM1 MA_DQM0 1 1.8VA R8 A2 E2 1 3 5 7 22RX4 2 4 6 8 RP12 MIUA_DQM1 MIUA_DQM0 MA_MCLK MA_MCLKZ U9 W9751G6IB-25 2 MIUA_ODT 2 MIUA_DQM1 2 MIUA_DQM0 2 A3 E3 J3 N1 P9 MA_DQS1 MA_DQSB1 Close to DRAM D 1 3 5 7 2 MIUA_MCLK 2 MIUA_MCLKZ 2 4 6 8 22RX4 RP57 MA_DQS0 MA_DQSB0 8 6 4 2 2 4 6 8 1 3 5 7 22RX4 3 RP39 22RX4 7 5 3 1 MIUA_DQS1 MIUA_DQS1B RP50 2 4 6 8 2 MIUA_DQS1 2 MIUA_DQS1B MIUA_DQS0 MIUA_DQS0B 1 3 5 7 2 MIUA_DQS0 2 MIUA_DQS0B 4 MA_A13 Close to DRAM Close to MSD309 1.8VA C C R107 10k A_MVERF R116 10k 2 4 6 8 2 4 6 8 1 3 5 7 1 3 5 7 7 5 3 1 8 6 4 2 MIUB_A12 MIUB_A7 MIUB_A9 MIUB_A3 RP10 MB_DQ7 MB_DQ0 MB_DQ2 MB_DQ5 MIUB_A2 RP19 MIUB_A0 MIUB_CASZ MIUB_RASZ 2 MIUB_BA2 2 MIUB_CASZ 2 MIUB_RASZ 75RX4 75RX4 MIUB_A13 R396 75R MB_A5 MB_A10 MB_A1 MB_BA2 MB_A12 MB_A7 MB_A9 MB_A3 MB_A2 MB_A0 MB_CASZ MB_RASZ MB_A13 MB_DQ6 MB_DQ1 MB_DQ3 MB_DQ4 F1 G2 H3 H1 DQ6 DQ1 DQ3 DQ4 MB_BA1 MB_BA0 L3 L2 BA1 BA0 VddL M3 M2 N3 A1 A10 A5 RFU MB_A9 MB_A12 MB_A7 MB_A3 P3 R2 P2 N2 A9 A12 A7 A3 MB_BA2 R7 L1 R3 RFU RFU RFU J1 A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 VddQ VddQ VddQ VddQ VddQ VddQ VddQ VddQ VddQ VddQ DQ11 DQ12 DQ9 DQ14 VddL A1 E1 J9 M9 R1 D3 D1 C2 B1 Vdd Vdd Vdd Vdd Vdd MB_DQ11 MB_DQ12 MB_DQ9 MB_DQ14 1 2 3 Vdd NC Vss Vref CKE CLK CLK# J2 K2 J8 K8 B_MVERF MB_CKE MB_MCLK MB_MCLKZ DQ15 DQ8 DQ10 DQ13 B9 C8 D7 D9 MB_DQ15 MB_DQ8 MB_DQ10 MB_DQ13 DQ7 DQ0 DQ2 DQ5 F9 G8 H7 H9 MB_DQ7 MB_DQ0 MB_DQ2 MB_DQ5 ODT RAS# CS# CAS# K9 K7 L8 L7 MB_ODT MB_RASZ M8 M7 N8 N7 MB_A0 MB_A2 MB_A4 MB_A6 Vdd A0 A2 A4 A6 A8 A11 WE# P8 P7 K3 MB_A8 MB_A11 MB_WEZ Vss 7 8 VssQ UDQS# VddQ 9 UDQS VssQ VddQ DQ8 VddQ DQ10 VssQ DQ13 VssQ LDQS# VddQ LDQS VssQ A B DQ14 VssQ VddQ DQ9 VddQ DQ12 VssQ UDM DQ11 Vdd NC Vss DQ6 VssQ LDM DQ15 C D E F DQ7 G VddQ DQ1 VddQ DQ4 VssQ DQ3 VddQ DQ0 VddQ DQ2 VssQ DQ5 H MB_A1 MB_A10 MB_A5 J Vref Vss VssDL CK Vdd RAS# CK# ODT CAS# CS# A2 A0 A6 A4 A11 A8 RFU NC K CKE WE# BA0 BA1 L M A10 A1 A3 A5 N Vss P A7 A9 A12 RFU R378 100R B R379 100R C433 47n Close to DRAM MB_CASZ R Vdd VssQ VssQ VssQ VssQ VssQ VssQ VssQ VssQ VssQ VssQ VssDL RP20 22RX4 MB_DQ15 MB_DQ8 MB_DQ10 MB_DQ13 75RX4 LDQS LDQS# UDQS UDQS# A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 J7 MIUB_DQ7 MIUB_DQ0 MIUB_DQ2 MIUB_DQ5 RP9 2 4 6 8 RP21 22RX4 MIUB_A5 MIUB_A10 MIUB_A1 MIUB_BA2 MB_A4 MB_A6 MB_A8 MB_A11 75RX4 2 4 6 8 MIUB_DQ15 MIUB_DQ8 MIUB_DQ10 MIUB_DQ13 MB_DQ6 MB_DQ1 MB_DQ3 MB_DQ4 RP8 8 6 4 2 2 4 6 8 RP14 22RX4 MIUB_A4 MIUB_A6 MIUB_A8 MIUB_A11 MB_DQ11 MB_DQ12 MB_DQ9 MB_DQ14 UDM LDM F7 E8 B7 A8 Vss Vss Vss Vss Vss Close to MSD306 7 5 3 1 1 3 5 7 MIUB_DQ6 MIUB_DQ1 MIUB_DQ3 MIUB_DQ4 2 4 6 8 RP11 22RX4 1 3 5 7 MIUB_DQ11 MIUB_DQ12 MIUB_DQ9 MIUB_DQ14 MB_WEZ MB_CKE MB_BA1 MB_BA0 MIUB_A[0:13] 2 MIUB_A[0:13] MIUB_DQ[0:15] MB_ODT B3 F3 MB_DQS0 MB_DQSB0 MB_DQS1 MB_DQSB1 A3 E3 J3 N1 P9 MIUB_WEZ RP17 MIUB_MCKE MIUB_BA1 MIUB_BA0 MIUB_WEZ MIUB_MCKE MIUB_BA1 MIUB_BA0 75R 75RX4 MB_DQM1 MB_DQM0 NC NC NC 2 2 2 2 Close to MSD306 2 MIUB_DQ[0:15] 1.8VA R8 A2 E2 MB_DQM1 MB_DQM0 R380 8 6 4 2 MIUB_ODT 7 5 3 1 1 3 5 7 22RX4 2 4 6 8 RP13 MIUB_DQM1 MIUB_DQM0 MB_MCLK MB_MCLKZ U15 W9751G6IB-25 2 MIUB_ODT 2 MIUB_DQM1 2 MIUB_DQM0 2 4 6 8 MB_DQS1 MB_DQSB1 Close to DRAM B 1 3 5 7 2 MIUB_MCLK 2 MIUB_MCLKZ 1 3 5 7 1 3 5 7 RP40 22RX4 MB_DQS0 MB_DQSB0 1 3 5 7 22RX4 2 4 6 8 1 3 5 7 RP60 MIUB_DQS1 MIUB_DQS1B 2 MIUB_DQS1 2 MIUB_DQS1B 22RX4 2 4 6 8 RP59 MIUB_DQS0 MIUB_DQS0B 2 MIUB_DQS0 2 MIUB_DQS0B C428 47n MB_A13 Close to DRAM Close to MSD309 1.8VA A A R310 10k B_MVERF R377 10k C431 47n Title Size C 5 4 3 2 Date: MEMORY Document Number 3/10 Tuesday, May 17, 2011 Rev 0.1 1 Sheet 3 of 10 5 4 3 2 ISDB-T TUNER 1 TUNER POWER U11 VA1P1BF8401 Q604靠近tuner RFAGC脚放置 4 U10 RF AGC Switch VA1P1BF8402 U23 T_RF_AGC T_IFAGC IF_OUT #IF_OUT C474 1 0.1u 5V_TUNER 3 RF_AGC 2 D 3.3VA R409 10K C446 R415 10K + 3 0.1u 470uF/16V + R422 100K 5V_B L40 FB CA5 100uF/16V IF_TV 10,11 10,11 10,11 2,11 2,11 CA57 T_SCL T_SDA 2 1 Body Body NC RFAGC_M 2 1 14 13 SCL AS NC IFD_OUT2 IFD_OUT1 IF_AGC IFA_OUT VCC_5V SDA 8 7 6 5 4 3 T_RF_AGC 2,11 2,11 5V_TUNER RF_AGC 2 Q604 3906 Q403 3904 靠近tuner放置 10,11 10,11 10,11 1 R400 10K RF_AGC_SEL 2 2 T_IFAGC IF_OUT #IF_OUT 11 10 9 Body Body 15 12 Body Body NC RFAGC_M 2 1 14 13 SCL AS NC 5 4 3 IFA_OUT VCC_5V SDA 8 7 6 IFD_OUT2 IFD_OUT1 IF_AGC 11 10 9 15 12 IF_TV 10,11 IF_AGC_DVB 5V_B T_SCL T_SDA 3 LM7805 OUT T_RF_AGC GND 5V_B C509 47pF C510 47pF 12VA IN Body Body D T_IFAGC C C SAW Drive 5V_TUNER B B C465 47n R429 NC/390R A U30 1 IN SAWOUT2 5 L42 2 ING F4401 GND R456 22R OUT1 C87 0.1u VIFP VIFP 2 C89 0.1u VIFM VIFM 2 2.2uH 4 A 3 IF_TV close together Close to MSD309 Title TUNER Size Document Number Custom4/10 5 4 3 2 Date: Thursday, July 28, 2011 Rev 0.1 1 Sheet 4 of 10 5 4 3 2 1 HDMI Input 22 23 21 DATA2+ 20 DATA2 SHIELD DATA2DATA1+ DATA1 SHIELD DAT1ADATA0+ DATA0 SHIELD DATA0CLK+ CLK SHIELD CLK22 CEC 23 NC SCL SDA DDC/CEC GND +5V POWER HOT PLUG DB2+ 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 DB1DB0+ DB0CLKB+ 10R 10R 10R 10R 10R 10R 10R 10R 10R 10R RXB2P RXB2N RXB1P RXB1N RXB0P RXB0N RXBCLKP RXBCLKN DDCBSDA DDCBSCL 21 CLKBcec 20 1K R152 10K R153 10K DB2+ 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 21 DATA2+ DATA2 SHIELD DATA2DATA1+ DATA1 SHIELD DAT1ADATA0+ DATA0 SHIELD DATA0CLK+ CLK SHIELD CLK22 CEC 23 NC SCL SDA DDC/CEC GND +5V POWER 20 HOT PLUG HDMIB_5V R157 HDMI CEC P1A 22 23 DDCBSCL1 DDCBSDA1 HOTPLUGB1 HDMI_H R133 R135 R137 R136 R139 R140 R141 R142 R143 R146 DB2DB1+ ESD-0402 D P1 ESD-0402 21 20 DB2DB1+ 3.3VU DB1DB0+ 2 2 2 2 2 2 2 2 2 2 DB0CLKB+ CLKBcec DDCBSCL1 DDCBSDA1 HDMIB_5V RXB0N RXB0P RXB1N RXB1P RXB2N RXB2P RXBCLKN RXBCLKP DDCBSCL DDCBSDA RXB0N RXB0P RXB1N RXB1P RXB2N RXB2P RXBCLKN RXBCLKP DDCBSCL DDCBSDA cec R324 NC/33K R389 100R HDMI-CEC 2 D HOTPLUGB1 HDMI_V 1K R161 HOTPLUGB HOTPLUGB DB2+ DB2- NC/ESD-0402 DD83 <=0.6pF DD82 <=0.6pF DD81 <=0.6pF NC/ESD-0402 DB1+ NC/ESD-0402 DB1- DD80 NC/ESD-0402 DB0+ NC/ESD-0402 <=0.6pF DD79 DB0- NC/ESD-0402 <=0.6pF DD78 CLKB+ DD72 <=0.6pF 2 2 1 <=0.6pF DD73 10K R353 3 Q412 3904 R354 NC/10K <=0.6pF R353 must pull up to HDMI_5V NC/ESD-0402 5VA NC/ESD-0402 CLKB- DD55 DD50 HDMIB_HP HDMIB_5V DD54 ESD-0402 <20pF 22 23 P2 21 DATA2+ 20 DATA2 SHIELD DATA2DATA1+ DATA1 SHIELD DAT1ADATA0+ DATA0 SHIELD DATA0CLK+ CLK SHIELD CLK22 CEC 23 NC SCL SDA DDC/CEC GND +5V POWER HOT PLUG C DA2+ 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 DA1DA0+ DA0CLKA+ 10R 10R 10R 10R 10R 10R 10R 10R 10R 10R RXA2P RXA2N RXA1P RXA1N RXA0P RXA0N RXACLKP RXACLKN DDCASDA DDCASCL 21 CLKAcec P2A 21 DATA2+ DATA2 SHIELD DATA2DATA1+ DATA1 SHIELD DAT1ADATA0+ DATA0 SHIELD DATA0CLK+ CLK SHIELD CLK22 CEC 23 NC SCL SDA DDC/CEC GND +5V POWER 20 HOT PLUG 22 23 DDCASCL1 DDCASDA1 HDMIA_5V R162 HOTPLUGA1 HDMI_H R134 R172 R151 R163 R144 R149 R148 R173 R150 R147 DA2DA1+ ESD-0402 21 20 ESD-0402 C 20 1K R158 10K R183 10K DA2+ 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 DA2DA1+ DA1DA0+ 2 2 2 2 2 2 2 2 2 2 DA0CLKA+ CLKAcec DDCASCL1 DDCASDA1 HDMIA_5V RXA0N RXA0P RXA1N RXA1P RXA2N RXA2P RXACLKN RXACLKP DDCASCL DDCASDA HOTPLUGA1 HDMI_V Q416 3904 1K HOTPLUGA HOTPLUGA DA2+ DA2- NC/ESD-0402 B DD91 <=0.6pF DD90 <=0.6pF DD89 <=0.6pF NC/ESD-0402 DA1+ NC/ESD-0402 DA1- NC/ESD-0402 <=0.6pF DD88 NC/ESD-0402 <=0.6pF DD87 DA0+ NC/ESD-0402 <=0.6pF DD86 DA0- CLKA+ NC/ESD-0402 <=0.6pF DD84 NC/ESD-0402 CLKAR186 <=0.6pF 2 2 1 R357 NC/10K 3 R355 10K R353 must pull up to HDMI_5V DD85 DD51 DD66 5VA HDMIA_5V DD67 B HDMIA_HP ESD-0402 <20pF DC1DC0+ DC0CLKC+ RXC2P RXC2N RXC1P RXC1N RXC0P RXC0N RXCCLKP RXCCLKN DDCCSDA DDCCSCL 10R 10R 10R 10R 10R 10R 10R 10R 10R 10R RXC2P RXC2N RXC1P RXC1N RXC0P RXC0N RXCCLKP RXCCLKN DDCCSCL DDCCSDA 2 2 2 2 2 2 2 2 2 2 CLKCcec DDCCSCL1 DDCCSDA1 HDMIC_5V 10K 1 R358 Q417 3904 1K R191 NC/ESD-0402 DC2+ <=0.6pF A <=0.6pF DD99 DC2- NC/ESD-0402 DC1+ NC/ESD-0402 <=0.6pF DD98 <=0.6pF DD97 DC1- NC/ESD-0402 <=0.6pF DD96 NC/ESD-0402 <=0.6pF DD95 DC0+ NC/ESD-0402 <=0.6pF DD94 DC0- CLKC+ <=0.6pF 5VA R359 NC/10K DD69 <20pF NC/ESD-0402 1K DD92 10K CLKC- 10K R197 NC/ESD-0402 R193 DD93 R190 ESD-0402 ESD-0402 HDMIC_5V DD52 A R174 R182 R171 R181 R160 R169 R165 R185 R170 R166 DC2DC1+ HOTPLUGC1 ESD-0402 HDMI_H DC2+ 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 3HDMIC_HP 21 DATA2+ 20 DATA2 SHIELD DATA2DATA1+ DATA1 SHIELD DAT1ADATA0+ DATA0 SHIELD DATA0CLK+ CLK SHIELD CLK22 CEC 23 NC SCL SDA DDC/CEC GND +5V POWER HOT PLUG DD68 22 23 P3 2 21 20 HOTPLUGC Title HOTPLUGC 2 Size A2 R358 must pull up to HDMI_5V Date: 5 4 3 2 HDMI Document Number 6/10 Rev 0.1 Thursday, July 28, 2011 1 Sheet 6 of 10 5 4 3 VGA INPUT HD1-Y R119 R167 ISP-TXD 2 VGA-HS R113 100R DDC-SDA DDC-SCLIN R118 100R DDC-SCL 2 RGB0_BIN+ DD16 DD17 2 DD18 R92 33R C58 47n RGB0_RIN+ 2 ESD-0402 DD24 DD25 ESD-0402 ESD-0402 R117 68R C90 47n RGB0_BIN- 2 R114 68R C91 47n RGB0_GIN- 2 R111 68R C92 47n RGB0_RIN- 2 DD22 ESD-0402 VGA-HS ESD-0402 VGA-VS ESD-0402 7 76 6 5 54 4 3 1 3 2 1 DDC-SCLIN ESD-0402 ESD-0402 VGA_TX 3 VGA_RX 1 HD1-Pb HD1-Pr 2 HD1-Pr YPbPr IN P16A DDC-SDAIN ESD-0402 HD1-Y HD1-Pb RCA2-R 34 4 RCA2-L 12 2 RCA2-R R331 DD76 P18A RCA2-L NC/ESD-0402 R330 DD77 P13 10K R332 12K C69 200p R329 12K C67 200p 10K NC/ESD-0402 C125 2.2u HD-Rin HD-Rin 2 C126 2.2u HD-Lin HD-Lin 2 D48 BAT54C PHONEJACK STEREO SW 180d 6100-020100-0410 DDC-SCL DDC-SDA 12 13 14 R125 10k 15 17 If U6=24C01/24C02,solder R125 and left R120 float 100R VGA_HSYNC 2 VGA-VS R105 100R VGA_VSYNC 2 R108 R103 C66 VGA-Lin1 VGA-B VGA 3 VGA-VS 4 DDC-SDAIN 2 Videoin 2 3 2 Videoin R94 C68 200p C71 200p DD102 R101 10K C63 DD20 R106 12K 33R R95 75R NC/ESD-0402 2.2u VGA-Lin 2 C101 47n AV4-Vin+ 2 HD1-Y HD1-Pb HD1-Pr C43 R79 0R 1n COMP_SOG+ 2 R84 33R C49 47n COMP_Y+ 2 R81 33R C45 47n COMP_B+ R83 33R C48 47n COMP_R+ R104 68R C76 47n COMP_Y- 2 R102 68R C81 47n COMP_B- 2 R100 68R C88 47n COMP_R- 2 2 2 C65 200p ESD-0402 P5A 6100-020000-0410 VGA AUDIO 1 VGA-HS 1 VGA-Rin 1 P5 R115 12K 2.2u D RCA1 ESD-0402 VGA-Rin1 VGA_RX VGA_5V CON7 10 8 6 4 2 GND GND GND GND GND SG 5V V L R 9 7 5 3 1 SG SG 5VA 2 AVOUT-V LINEOUTL LINEOUTR CON46 AV Out DDC-SCLIN 10K R109 VGA-G VGA_TX VGA-HS 10K VGA-R 1 6 2 7 3 8 4 9 5 10 2 NC NC NC GND 11 3 NC/24C02 VCC 8 VCLK 7 SCL 6 SDA 5 16 U6 10K DD19 4 1 2 3 4 10K C73 0.1u R120 NC 10K 3 VGA-5V R112 P4A 6100-266010-1500 R122 R121 VGA-5V DD74 DD65 DD75 NC/ESD-0402 NC/ESD-0402 NC/ESD-0402 2 DDC-SDAIN RGB0_GIN+ DD14 DD21 DD23 VGA-VS 5VA 47n 2 R242 VGA-R 0R 0R 33R C57 RGB0-SOG R254 R91 47n 2 VGA VGA_TX 33R C56 1n R241 VGA-B ISP-RXD C62 75R 0R R128 0R R168 R129 D VGA-B VGA_RX R156 R110 17 15 75R 14 R90 75R 13 VGA-G VGA-G 75R 12 0R 75R 16 R97 VGA-R 1 6 2 7 3 8 4 9 5 10 75R VGA_5V 11 1 1 Analog Video & Audio in P4 C 2 C FOR UN-USED PORTS VIDEO_OUT 5VA 2010-4-22 C271 + R54 4.7k Q632 3906 1 3 CVBS_OUT 2 2 1 2 R56 220R R66 10K Q414 3904 R59 R63 75R 100R 1 0.1u 2.2u 3 C41 C94 R62 75R AVOUT-V H17 TPAD 2010-4-22 100uF/16V2010-4-22 RGB1_SOG 2 R131 33R C46 47n RGB1_G+ 2 Pr R130 33R C96 47n RGB1_B+ 2 R132 33R C51 47n RGB1_R+ C97 2 75R 75R 75R 0R R88 R138 R87 1n Pb R86 Y B R48 33R C42 47n SV2-Yin 2 R51 33R C77 47n SV2-Cin 2 R99 68R C59 47n RGB1_B- 2 R98 68R C60 47n RGB1_G- 2 R96 68R C61 47n RGB1_R- 2 B SPDIF_Coaxial Out P12 FOR UN-USED PORTS RCA1 1 2 3 SPDIFO A DD15 P12A 3 2 SPDIF C27 NC R346 NC/100R R50 33R C47 47n SV2-Yin 2 R64 33R C78 47n SV2-Cin 2 2 R78 330R A ESD-0402 CLOSED TO MSD309 1 Title AV IN & OUT Size A1 Document Number 7/10 Date: 5 4 3 2 Thursday, July 28, 2011 1 Rev 0.1 Sheet 7 of 10 5 4 3 2 1 +5V_USB D R189 4.7K D CA110 100uF/16V + 3.3VA close to USB connector 3 ON_USB_MOS 1 ON_USB R61 ON_USB 4.7K 1 Q434 3904 +5V_USB 2 2 C USB1_DMO USB1_DPO 2 2 USB_DP USB_DM R297 0R DD44 USB_DMO USB_DPO DD58 <=2pF NC/ESD-0402 B 1 2 3 4 P9 1 2 3 4 1 2 3 4 USB_A 5 5 6 C 6 +5V_USB USB_DPO USB_DMO R282 0R P8 1 2 3 4 USB_A 5 5 6 6 <=2pF NC/ESD-0402 B +5V_USB 2 2 USB1_DP USB1_DM R298 0R USB1_DPO USB1_DMO R287 0R DD46 P9A 1 2 3 4 USB_DPO USB_DMO 1 2 3 4 USB_A 5 5 6 6 DD64 2010-3-3 <=2pF NC/ESD-0402 A <=2pF NC/ESD-0402 A Title Size A 5 4 3 Date: USB Document Number 8/10 Thursday, July 28, 2011 2 Rev 0.1 Sheet 8 1 of 10 5 4 3 2 1 Power Down MUTE AMPLIFIER AUDIO pre-ap HeadPhone Out 12VA 12-24 12-24 2 R460 TL062 33K C497 CA464 R397 100uF/16V 10R R404 R405 330R AMP-PLout AMP-PLout D126 ESD AMP-PRout R441 C345 C179 NC/200P 1nF 10K 6 - R461 C496 TL062 33K NC/2.2K 3 2 R295 MUTE_TDA3121 MUTE_TDA3121 : HEADPHONE_DET 2 2 R398 100uF/16V 10R R406 330R mute 2.2K R293 MUTE_AMP 10K MUTE_AMP : LOW = 1 CA81 47uF/16V MUTE 3 2.2K C392 2N2 AMP-PRout mute Q16 1 R299 100K 1 NPN_3904 Q424 3904 AMP_LIN U19 p23051 5VA 2 2010-4-2 R438 OP_VCC1 3 470 D127 ESD R407 HIGH = MUTE + Q433 3904 AMP_RIN 3 2.2uF CA465 R336 mute 47K R303 100K 1 Q445 3904 100pF R300 100K mute R301 47K 2 AUOUTR2 C343 R335 1 AUOUTR2 4 2 0 1N4148 U45B 2 8 OP_VCC1 7 NC/2.2K D41 R334 100pF 5 + R337 5VA 47K 10k R333 R443 24K R280 10K 1 1nF 1 2 - D 3 NC/200P 10K 4.7K D39 1N4148 2 C342 R288 3 3 + R439 C344 3 R286 NC/10K R374 47K 2 R442 24K 2 2.2uF Place close to OP PWD_MT 220uF/35V 1 AUOUTL2 C340 4 AUOUTL2 3906 Q622 12-24 mute 12-24 + CA55 U45A 2 8 470uF/16V 2 C270 1uF/35V NC/1N4148 D37 D40 SHUTDOWN Q447 3904/NC 1 10k/NC 4 3 OP_VCC1 100 C341 CA83 + 0.1uF 33K 1 R416 2 P6 33K R306 1uF C248 + R418 R296 24K 1N4148 R437 100uF/16V CA84 D R283 10K R294 NC/24K PHONEJACK STEREO SW 180d 5VA 1 6VBuf1 C C 2010-5-8 Close to MSD309PX TDA3121 C250 1u AMP_RIN R401 330R C251 1u R369 10K C243 C244 R360 10K 1nF 1nF 12-24 C257 C263C267 12-24 R361 10K R367 10K GAIN0 R366 NC/10K C264 1uF 1uF 1uF 1uF PVCCL SD PVCCL MUTE LIN RIN BYPASS AGND AGND PVCCR VCLAMP PVCCR TPA312X PGNDL PGNDL LOUT BSL AVCC AVCC GAIN0 GAIN1 BSR ROUT PGNDR PGNDR 24 23 22 21 20 19 18 17 16 15 14 13 3 3 CA99 220uF R370 1.5K C262 2 CA97 220uF C258 0.22uF GAIN0 GAIN1 CON2 + C269 10uH/Inductor 1 0.68uF + 1 SHUTDOWN 2 3 MUTE_TDA3121 4 5 6 7 8 9 10 11 12 2 1 0.68uF L6 1uF 5 330R + CA100 220uF 4 R395 AMP_LIN 0.1uF 5 C253 4 C266 + 220uF/35V 12K 10n CA82 + THERMAL B CA80 220uF/35V + U54 R317 C236 100R 10n AUOUTR0 C237 2 C254 4.7u R316 CA85 220uF/35V + 10uH/Inductor 1 C268 1 CON5 CON5 0.22uF B 25 CA86 220uF/35V 100R 12K C252 4.7u R278 AUOUTL0 R320 2 CON4 2 + R365 1.5K L5 2 CA98 220uF CA96 220uF + 12-24 TPA3121 MUTE PIN LOW:OPERATING HIGH:MUTE GAIN1 R368 NC/10K Near MST.IC Ground in the middle of the L/R HOLE H1 5 8 4 8 3 7 3 7 3 7 2 6 2 6 10 2 6 NC L1 9 1 9 4 1 5 8 1 9 H18 LOC-HOLE 1 H3 1 H5 4 5 H19 LOC-HOLE NC NC 4 3 2 1 5 6 CON2_1 EMI Cover 7 H14 TPAD H15 TPAD 6 H13 TPAD H16 TPAD H12 TPAD H11 TPAD 1 2 H10 TPAD NC H2 TPAD H7 TPAD 1 3 6 1 7 1 NC 8 1 2 A 9 1 3 6 4 1 7 NC 8 1 2 4 5 1 3 8 H8 9 1 4 5 1 H4 9 1 5 1 H6 A H9 TPAD Title Size A2 Date: 5 4 3 2 AUDIO Document Number 9/10 Rev 0.1 Thursday, August 04, 2011 1 Sheet 9 of 10 5 4 60mA 3.3V_Demod 2.5V_Demod B3_3.3V L406 FB0603 3 2 1 DR2VDD L407 FB0603 3.3V_Demod D R509 C883 NC/10p RP62 33RX4 B4_1.2V B3_3.3V closed to Demod SLOCK RERR RLOCK RSEORF VDDC VSS PBVAL 59 60 61 SBYTE SRDT SRCK 62 VSS 63 64 VDDC VDDS B4_1.2V 10K B4_1.2V B3_3.3V 38 37 36 35 34 33 10K 10K R515 R512 R514 100R SDA SCL 52 53 54 55 56 57 58 TC90517FG 3.3V_Demod AD_DVDD AD_DVSS ADI_AIP ADI_AIN ADQ_AIP ADQ_AIN AD_VREF AD_VREFN AD_VREFP 32 31 30 29 28 27 26 25 24 AD_AVSS AD_AVDD 23 22 AD_AVDD FIL 21 C881 1500pF PLLVDD X1 20 19 X0 18 PLLVSS 17 AD_DVDD L409 NC L0603 C864 1u C865 1u C866 R517 0R C0402 NC R518 0R #IF_OUT #IF_OUT 4,11 IF_OUT IF_OUT 4,11 C870 0.1u C872 0.1u C873 0.1u PLLVDD R519 1M C882 18p Y2 25.4MHz C 3 R520 C884 18p 1K2 2 TS_D7 2 TS_D6 R521 NC/33R R522 NC/33R R531 1K B4_1.2V R530 1K B3_3.3V C896 100nF C0402 C897 100uF/16V R529 10K + 10K 10K 15K 2.5V_Demod R526 R527 R528 L10 FB 2.5VA STSFLG0 1 C 51 2 C887 0.1u B4_1.2V VSS VDDC RP61 33RX4 VDDS 50 16 TSVALID TSSTART TS_D0 TS_CLK 7 5 3 1 C885 1u 0.1u 2 2 2 2 L412 FB0603 8 6 4 2 C888 PLLVDD 7 5 3 1 C886 1u 2.5V_Demod TS_D4 TS_D3 TS_D2 TS_D1 8 6 4 2 AD_DVDD L411 FB0603 2 2 2 2 49 STSFLG1 VSS VDDC VDDS DR1VDD VSS R516 33R TS_D5 closed to Demod 2.5V_Demod U55 B3_3.3V 2 100R DR2VDD R511 C871 0.1u CKI TNSCL VDD33 TNSDA VSS 1u 11 12 13 14 15 C869 0.1u 0.1u 39 C880 0.1u DTCLK C877 C878 C879 0.1u AGCCNTR C876 0.1u B4_1.2V AD_AVDD L408 FB0603 46 45 44 43 42 41 40 C874 C875 1u 0.1u 2.5V_Demod 120mA 48 47 B4_1.2V L410 FB220/300mA 4.7k 100R 10K 10K 10K 1.2V_Demod R510 SCL SDA 10 Demod_RST 2 2 R513 2 closed to Demod SLADRS0 AGC I S_INFO AGCCNTI 0.1u 6 7 8 9 C868 1u SDA SCL VSS DR2VDD SYRSTN TSMD1 DTMB C867 0.1u 0.1u DR1VDD VSS C863 0.1u TSMDO XSEL1 XSEL0 VSS SLADRS1 C861 C862 0.1u 1 2 3 4 5 C860 R523 R524 R525 C859 1u D IF_AGC ADJ OUT IN 2 3 N1 AMS1117-3.3V 1 4 C893 100nF C0402 3.3V_Demod B B 5VA + C894 100uF/16V C856 0.1u C855 1u + C857 100uF/16V C858 0.1u 5VA 3.3V_Demod 4 R532 NC/1K IF_AGC T_IFAGC C895 100nF T_IFAGC 4,11 AGC CIRCUIT 3 2 1 IN OUT ADJ N2 AMS1117-1.2V R533 Close to tuner NC/1K R535 1K 1.2V_Demod 3.3V_Demod C890 0.1u C889 1u + C891 100uF/16V C892 0.1u A A Title ISDB-TC90517FG Size A2 Date: 5 4 3 2 Document Number Rev 1.0 Demodulator Tuesday, May 17, 2011 1 Sheet 10 of 15 SKYWORTH R&D CENTER Power Supply Service Manual : 168P-P32EWM-K0 PART NO. DESCRIPTION : VERSION NO. : 1.0 PAGE : 13 DESCRIBED : Zhou Cong CHECKED : Hu xiangfeng APPROVED : Bao xiaojie Released Date: 2012-07-21 168P-P32EWM-K0 Service manual Modification record Edition Modification date Record Described Checked Approved 1.0 2012-7-21 First record Zhou Cong Hu Xiangfeng Bao Xiaojie I 168P-P32EWM-K0 Service manual Contents NO. Main contents Page 1 General Description 1 2 General Introduction of Circuit 2 3 The main chip description 4 4 PCB TopOverlay or BottomOverlay 9 5 Maintenance instructions 11 6 The information of power supply designer 14 7 Schematic diagram 14 II 168P-P32EWM-K0 Service manual Warning This manual is only used for the experienced service person , and does not apply to the general consumer。The manual does not have warnning or alert for the potential hazards caused of the non-technical personnel attempting to repair this product . Electrical products should be an experienced professional and technical personnel for maintenance and repair ,any other person attempts to maintain and repair the products covered by this manual will likely be seriously hurt or even life-threatening. 1.General Description 1.1 General description of power supply This power apply to 32-inch universal standard power interface; the total standby power consumption less than 1W (5V DC the Load 50mA); protection functions; low cost; mature power supply structure; the voltage range is 90-264V and wide supply voltage input,.For 32” LED panel, supplies 4 channels, each channel nominal current value is 130mA。 1.2 Main technical specifications 1.2.1 Input Electrical Characteristics Input voltage range 90Vac to 264Vac Rated voltage range 100Vac to 240Vac 50Hz/60Hz±5% Frequency range 0.85Amax at 100Vac input & full load condition Max input ac current 70Atyp peak Inrush current (cold start) 80%min @ 100Vac,Full Load Efficiency(full load) Harmonic current Meet GB17625.1-1998/IEC61000-3-2 class D Leakage Current Less Than 0.75mA, 230Vac input ≦1W, 240Vac input, 50mA Load Standby Power Loss T3.15A L/250Vac Input Fuse 1.2.2 of 5V Output Electrical Characteristics Output Voltage Regulation Min. current Rated current Peak current +24V +24V±5% 0.1A 2.0A 2.5A +12V +12V±5% 0.1A 2.0A 3.0A +5VSB +5V±5% 0.1A 0.5A 0.8A Note:* pulse width within 100ms . 1 168P-P32EWM-K0 Service manual 1.2.3 Output ripple and noise Output Voltage Ripple & Noise (Max.) +24V 240mVp-p@25℃; 350mVp-p@-10℃ +12V 120mVp-p@25℃; 200mVp-p@-10℃ +5VSB 100mVp-p@25℃; 200mVp-p@-10℃ Note: 1) Measurements shall be made with an oscilloscope with 20MHz bandwidth. 2) Outputs shall be bypassed at the connector with a 0.1uF ceramic capacitor and a 10uF electrolytic capacitor to simulate system loading. 2.Circuit description 2.1 The power circuit diagram 2.2 Each part of the circuit description 2.2.1 the main part of the circuit:NXP TEA1733P 2 168P-P32EWM-K0 Service manual 2.2.2 the LED driver of the circuit:MICRO ELECTRONICS OZ9967 3 168P-P32EWM-K0 Service manual 3. The main chip description 3.1 The main chip 3.1.1 The main chip general description The main chip of power supply is the TEA1733P which is produced by NXP corporation. The operating mode is CCM (continuous conduction mode), and the operating frequency is 65KHz. 3.1.2 The chip pin information 3.1.3 The chip block diagram 4 168P-P32EWM-K0 Service manual 3.1.4 The IC pin description 3.2 The DC-DC chip 3.2.1 General description The DC-DC used for standby chip, using SY8172Y, double synchronous rectification,and operating frequency is 700KHz. 3.2.2 The chip block diagram 5 168P-P32EWM-K0 Service manual 3.2.3 The chip pin information 3.2.4 The pin description and the voltage 6 168P-P32EWM-K0 Service manual 3.3 The LED driver chip 3.3.1 General description The OZ9967 is an LED controller that drives a number of LEDs connected in serial or parallel configuration. 3.3.2 The chip block diagram 3.3.3 The chip pin information 7 168P-P32EWM-K0 Service manual 3.3.4 The pin description and the voltage 8 168P-P32EWM-K0 Service manual 4. PCB TopOverlay and BottomOverlay 4.1 The power supply TopOverlay 4.2 The power supply BottomOverlay 9 168P-P32EWM-K0 Service manual 5. Maintenance instructions 5.1 Common Fault Analysis and Notes 1.No +5VSB output voltage If there is no +5VSB output voltage , we should focus on checking the DC-DC IC(IC301) and judge whether the IC is operating . Monitor its VIN pin and check voltage is normal or abnormal . If it is normal , firstly , check the DC-DC IC peripheral circuit . Secondly, check DC-DC IC(IC301)and judge it has broken or not. If the VIN pin voltage is abnormal, you need to check the IC100 power circuits. 2.+5VSB output is normal ,+12V output is abnormal First, check +12 V voltage of the MOS transistor(Q300) S pole is normal or abnormal , if it is normal,please check the MOS transistor(Q300) peripheral circuit is normal or not. If the +12 V voltage of the MOS transistor(Q300) S pole is abnormal, please check the IC100 circuits. 3.+5VSB is abnormal Check the +5 VSB feedback loop , and the reference voltage of the IC301 is normal or not. 10 168P-P32EWM-K0 Service manual 5.2 Service process NO +5VSB Check+5V output,Whether the short-circuit Y Examine the reason N Is IC301 damaged? Y Change the damaged component N Examine the positive voltage of C312: 11.8V-12.2V? Y Check the peripheral circuit of IC301 N Is IC100 damaged? Y Change the damaged component N Check the peripheral circuit of IC100 Y N Examine overvoltage detection circuit:Q304 ZD304 ZD302 ZD303 & Change the damaged component 11 Examine the reason a n d Change the damaged component 168P-P32EWM-K0 Service manual 5.2 Port and the connection defined 5.2.1 PIN10 CN400 Connection And Function NO. Pin Connection Function 1 LED- LED- 2 LED- LED- 3 LED- LED- 4 LED- LED- 5 NC NC 6 NC NC 7 60V LED+ 8 60V LED+ 9 60V LED+ 10 60V LED+ Note: CN400 TYPE : 2.0mm 5.2.2 PIN14 CN300 Connection And Function NO. Pin Connection Function 1 +24V +24V DC OUTPUT 2 +24V +24V DC OUTPUT 3 GND GND 4 GND GND 5 +12V +12V DC OUTPUT 6 +12V +12V DC OUTPUT 7 GND GND 8 GND GND 9 +5VSB +5VSB DC OUTPUT 10 GND GND 11 ON/OFF POWER_ON/OFF 12 GND GND 13 ADJ BL_ADJUST 14 ENA BL_ON/OFF Note: CN300 TYPE : 2.5mm 12 168P-P32EWM-K0 Service manual 5.3 Key components and service parts list Material NO. Position Material number Substitute Function models number TEA1733P IC100 Main chip SY8172Y IC301 DC-DC chip 476K-Z99671-0280 OZ9967GN IC400 4 4655-P27610-00 AOTF10N65 Q201 Main MOS 5 4666-M15N10-0S00 ME15N10-G/TO252 Q412 Boost MOS 6 D301 Secondary 451F-210200-0000 HBR10200HF D302 Schottky 1 4706-B17330-0080 2 47EC-S81721-0080 3 LED driver chip 7 5132-064955-0000 SANHE-42-102 T101 transformer 8 47AH-P817C0-04 BPC-817C0 IC101 Optocoupler 5.4 Remark Material Storage, transportation and using conditions 5.4.1 Package Box must have the product name, model, identification,quality inspection department certification,the date of manufacture and so on. 5.4.2 Transportation The productor adapted to cars, boats, aircraft transport .Transportation should be covered, prevented sunshine and loading lightly. 5.4.3 Storage Products should be stored in a box if it is not used .The storehouse environment temperature is from -40 ℃ to -55 ℃, relatived humidity is from 10% to -95%. The storehouse must not allow any harmful gases, flammable ,explosive and corrosive product chemicals, and must not allow strong mechanical vibration, shock and strong magnetic field. Boxes should be at least 20cm high from the ground .The distance from the wall, heat source, windows or air enter is at least 50cm. The storage period is about two years, more than two years should be re-tested under the regulation . 13 168P-P32EWM-K0 Service manual 6.Information of Power supply designers Team Ⅱ Power Supply,R&D Center Hu Xiangfeng and Zhou Cong Email: [email protected] [email protected] 7. Schematic diagram C301 R301 C210 + 1 R210 D101 L301 D102 2 3 + C103 + +24V/2A D301 C104 + C303 C302 + C304 R309 R310 D205 T101 D104 4 - D103 C307 C102 R306 9 Q201 C101 C305 R303 R207 4 R202 R202A R204 R203 IC100 TEA1733 5 C202 6 7 VDR101 VDR102 ZD204 8 C203 Protect Driv er CTRL GND Optimer VCC R211 4 C206 +12V/2A D302 15 R212 + 16 C309 3 C208 2 R213 5 C312 + Q300 C314 ZD302 C310 C311 + + R326 1 1 D303 C323 ZD303 D207 CX102 11 R215 ZD201 2 12 13 + C209 C205 C204 IC301 R313 R206 IN CY 105 D201 R319 EN 2 8 2 3 4 5 4 6 1 BST L303 +5V/0.5A SW FB GND D202 1 D304 R317 C207 R205 CY102 CY 101 ZD301 L302 ZD205 Visense Isense R300 R304 R209 R208 ZD202 3 R106 R105 2 R308 R307 C306 R302 R203A LF102 PS_ON 7 8 Q302 R305 10 D206 1 Q303 Q301 C321 C322 + C332 R319 R311 R312 C327 C328 LF101 IC101 A1 R323A A2 R103 R104 4 1 R101 R102 3 2 R323 ZD304 R314 D305 C320 R201 R315 Q304 CX101 R327 SPECIFICATION IC300 C330 TNR101 INPUT: 90-264V AC F101 TH101 5.0 R316 R328 R316A OUTPUT: +24V/2A FUSE T3.15A L 250VAC 3 2 1 +12V/2A +5VSB/0.5A N L CN101 D402 +24V 100V/5A L401 VOUTB D401 68uH/5A 100V/5A ON/OFF + C401 100V/22uF + C401A 100V/22uF Q412 R401 R401 150V/10A DRVB DRVB 150V/10A 10 R412 10K 1 2 3 4 5 6 7 8 9 10 LEDB1 LEDB2 LEDB3 LEDB4 NC NC R418 1M Q411 VSEN 10 R419 C411 47K R403 C405 0.47 10nF R404 R405 0.47 0.47 R405A CN400 NC ZD402 0.47 R406 12V 100 R408 1M C408 10nF R414 220K 17 R409 18 12V 100K C404 19 2.2uF/50V C405 1nF C407 PWM R416 R413 1K 100nF 10K DIM R411 DIM 10nF R417 C410 100K VSEN VREF 14 GNDA DRV 13 GNDP 12 ISW COMP6 11 VIN ISEN6 20 SSTCMP COMP5 21 LCT ISEN5 22 UVLS COMP4 23 DIM ISEN4 24 STATUS COMP3 TIMER ISEN3 26 27 28 100nF CT ENA 25 C409 22K 10nF LEDB3 LEDB4 LEDB5 LEDB2 OVP COMP2 RANGLED ISEN2 ISEN1 COMP1 5V DRVB C402 2.2uF R425 COMPB6 10 ISENB6 9 COMPB5 8 ISENB5 R429 COMPB1 COMPB2 5.1K Q400 R422 R426 ISENB2 ISENB3 COMPB4 1K 6 ISENB4 R423 R424 R427 R428 5 5.1 4.7 5.1 4.7 COMPB3 4 ISENB3 3 COMPB2 2 ISENB2 1 COMPB1 ISENBI OZ9967 R420 510K R421 220K 14 Q403 50V/0.5W 50V/0.5W R434 ISENB4 5.1 5.1K Q404 50V/0.5W R438 ISENB5 Q405 50V/0.5W R442 ISENB6 1K 1K R431 R445 COMPB6 5.1K Q402 1K 1K COMPB5 5.1K R430 7 R441 R437 COMPB4 5.1K Q401 50V/0.5W 50V/0.5W ISENB1 R433 COMPB3 5.1K 5V C412 LEDB6 47K 15 16 R410 LEDB1 C413 1uF IC400 C403 220pF 10 ZD401 NC R407 R415 5V 1K R432 R435 R436 R439 R430 4.7 5.1 4.7 5.1 4.7 R443 R444 5.1 4.7