LCT B85TDU22H Service Manual

LH19/22S85D SERVICE MANUALINDEX: PART 1：Brief Introduction Of The LH19/22S85D ◆Schematic ◆ Printed Diagram Block Circuit PART 2: Exploded view IC Introduction PART 3 ： PART 4: Detailed Circuit PART 5: Components List PART6: Debug Instruction Part1: 5 4 3 2 1 Schematic Diagram PANEL KEY&IR BOARD D D J3 KEY&IR CONNECTOR CON8 INVERTER BOARD INVERTER CONNECTOR 12V 12V EN ADJ GND GND LVDS CONNECTOR J14 AMPLIFER CONNECTOR GND R GND L 5V IR GND K0 R G GND K1 K2 K3 K4 K5 K6 K7 C C J4 SPV7100 B B A DC12V HDMI PC AV YUV SCART PCMCIA SVHS USB PC Earphone AUDIO IN TUNER A 5 4 3 2 1 Printed Circuit TV Main Board (Top View) TV Main Board （Bottom view） Part2: Exploded view 25V Oscillator Thermal Shuntdown 3 36KΩ 500Ω 0. 2007 . 360KHz Programmable Soft-Start function (SS) Short Circuit Shutdown and Auto Re-start function(ARSCP) Built-in P-MOSFET for 3A loading capability Package: SOP8 Features „ Pin Configuration Top View 1 2 3 4 OCP2030 8 7 6 5 Name VCC SS/SCP INFB GND LX No.5V (2%) Wide supply voltage operating range: 3.22.9 Rev. an internal dead-time controller and oscillator for controlling the maximum duty cycle and PWM frequency. 1. high precision reference (0. 1 2 3 4 5 6 7 8 Status P I I O P O Description IC Power Supply (PMOS Source) Connecting with a Soft-start & ARSCP timing capacitor Error Amplifier Inverting Input Error Amplifier Compensation Output IC Ground PMOS High Current Output „ Block Diagram 1 Reference Regulator 1.6 to 20V Low current consumption: 3mA Internal fixed oscillator frequency: Typ.P Circuits 5 6 2 7 8 Page 1 . The OCP2030 includes a high current P-MOSFET.5V) for comparing output voltage with feedback amplifier.C. General Description „ z z z z z z z z Precision feedback reference voltage: 0.5V 0.8V Output drive control circuits 4 Soft start&Auto Re-start S. and has power-on programmable soft start time and short circuit PMOS turn-off and auto re-start protection functions.1 May.Part3: IC Introduction OCP2030 SWITCHING BUCK REGULATOR „ The OCP2030 is a buck topology of switching regulator for wide operating voltage applications field. philipslogic. The CBT3257 is characterized for operation from -40 to +85 °C. 3B2 4B1. GND SA00533 PIN DESCRIPTION PIN NUMBER 1 2. 9.com/packaging. 12 8 15 16 SYMBOL S 1B1. 13. 10. 3A. 6. Output Enable (OE) and select-control (S) inputs select the appropriate B1 and B2 outputs for the A-input data. 1B2. 2B2 3B1. 2B1. 2A. 11. 4B2 1A. 5. 7. . The low on resistance of the switch allows inputs to be connected to outputs without adding propagation delay or generating additional ground bounce noise.Philips Semiconductors Product data Quad 1-of-2 multiplexer/demultiplexer CBT3257 FEATURES • 5 Ω switch connection between two ports • TTL-compatible input levels • Minimal propagation delay through the switch • Latch-up protection exceeds 500 mA per JESD78 • ESD protection exceeds 2000 V HBM per JESD22-A114. 14 4. 200 V MM per JESD22-A115 and 1000 V CDM per JESD22-C101 PIN CONFIGURATION S 1B1 1B2 1A 2B1 2B2 2A 1 2 3 4 5 6 7 8 16 VCC 15 OE 14 4B1 13 4B2 12 4A 11 3B1 10 3B2 9 3A DESCRIPTION The CBT3257 is a quad 1-of-2 high-speed TTL-compatible multiplexer/demultiplexer. 4A GND OE VCC NAME AND FUNCTION Select-control input B outputs A inputs Ground (0 V) Output enable Positive supply voltage ORDERING INFORMATION PACKAGES 16-pin plastic SO 16-pin plastic SSOP 16-pin plastic SSOP (QSOP) 16-pin plastic TSSOP TEMPERATURE RANGE -40 to 85 °C -40 to 85 °C -40 to 85 °C -40 to 85 °C ORDER CODE CBT3257D CBT3257DB CBT3257DS CBT3257PW TOPSIDE MARK CBT3257D CT3257 CBT3257 CBT3257 DWG NUMBER SOT109-1 SOT338-1 SOT519-1 SOT403-1 Standard packing quantities and other packaging data is available at www. 3. 2.4 . b.0.4.5 V ID (A)b .2.100 @ VGS = .5-V (G-S) MOSFET PRODUCT SUMMARY VDS (V) .8 A Continuous Source Current (Diode Conduction)b Power Dissipationb Operating Junction and Storage Temperature Range .6 0.9 0.4 .5 V 0. Tstg 5 sec .20 rDS(on) (W) 0.150 @ VGS = . t v 5 sec. Surface Mounted on FR4 Board. c.57 Steady State Unit V . Pulse width limited by maximum junction temperature.55 to 150 W _C THERMAL RESISTANCE RATINGS Parameter Maximum Junction-to-Ambientb Maximum Junction-to-Ambientc RthJA Symbol Typical 120 140 Maximum 145 175 Unit _C/W Notes a.1.2.9 .10 . Surface Mounted on FR4 Board.45 .72 0.2.Si2301BDS Vishay Siliconix P-Channel 2.0.2.0 TO-236 (SOT-23) G 1 3 D Ordering Information: Si2301BDS-T1 S 2 Top View Si2301 BDS (L1)* *Marking Code ABSOLUTE MAXIMUM RATINGS (TA = 25_C UNLESS OTHERWISE NOTED) Parameter Drain-Source Voltage Gate-Source Voltage Continuous Drain Current (TJ = 150_C)b Pulsed Drain Currenta TA= 25_C TA= 70_C Symbol VDS VGS ID IDM IS TA= 25_C TA= 70_C PD TJ.1.7 0.2 .20 "8 . . 3.3V. TO263. 5. AP1084 is guaranteed to have lower than 1.3V/5A C2 100uF Vin Vout Adj Tab is Vout R1 121Ω R2 121Ω C2 100uF 2.5V 18 = 1. AP1084 is also well suited for other applications such as VGA cards.8V 25 = 2.0V to 3.7 to 12V input supply.5V/5A Adjustable Regulator C1 100uF Note: Vo = VREF ∗ (1+ R2 ) R1 .0V • Fast transient response • Good noise rejection • Package : TO252.5V. 2.3V with 4. „ Ordering Information AP1084 X X X X Low Dropout Regulator Package D : TO252-3L K : TO263-3L T : TO220-3L Vout Blank : Adj 15 = 1. 1.8V. TO220 • • „ General Description AP1084 is a low dropout positive adjustable or fixedmode regulator with minimum of 5.0V Lead Free Packing Blank : Normal Blank : Tube L : Lead Free Package A : Taping „ Typical Circuit 5.3V Fixed Mode Regulator 5V 5V C1 100uF Vin Vout GND Tab is Vout 3.AP1084 5A Low Dropout Positive Adjustable or Fixed-Mode Regulator „ Features 1.3V logic supply.5V 33 = 3.3V 50 = 5.5V.4V dropout at full load current making it ideal to provide well-regulated outputs of 1.0A output current capability. The product is specifically designed to provide well-regulated supply for low voltage IC applications such as high-speed bus termination and low current 3.25 to 3.4V maximum dropout at full load current Built-in thermal shutdown • Output current limiting • Adjustable output voltage or fixed 1. 0V 5V Typical Circuit 5V C1 100uF Vin Vout GND Tab is Vout 3.0V General Description AP1117 is a low dropout positive adjustable or fixed-mode regulator with minimum of 1A output current capability.Good noise rejection .4V to 12V input supply. 2. AP1117 is also well suited for other applications such as VGA cards. 3.5V/1A C2 100uF ( 5V/3.Built-in thermal shutdown .9V 25 : 2.Communication Ordering Information AP 1117 X XX X X Low Dropout Regulator Package E : SOT223-3L K : TO263-3L D : TO252-3L T : TO220-3L Y : SOT89-3L Vout Lead Free Packing Blank : Tube A : Taping Blank : ADJ Blank : Normal 15 : 1.3V logic supply.3V 50 : 5.5V L : Lead Free Package 18 : 1.1.AP1117 1A Low Dropout Positive Adjustable or Fixed-Mode Regulator Features . Applications .5V.4V maximum dropout at full load current .9V. TO220.8V 19: 1.3V fixed output ) ( 5V/2.Fast transient response .PC peripheral .3V/1A C2 100uF C1 100uF Vin Vout Adj Tab is Vout R1 121 Ω R2 121 Ω Vo 2.0 with 6.Output current limiting .5V ADJ output ) Note: Vo = VREF ∗ (1+ R2 ) R1 .8V. 1.5V. TO252. 1.5V 33 : 3.3V.25 to 5. The product is specifically designed to provide well-regulated supply for low voltage IC applications such as high-speed bus termination and low current 3. SOT89 .Packages: SOT223.3-Terminal Adjustable or Fixed 1. AP1117 is guaranteed to have lower than 1. TO263. 5.4V dropout at full load current making it ideal to provide well-regulated outputs of 1. AP9435M Advanced Power Electronics Corp. low on-resistance and cost-effectiveness.5 0.3 -4. ruggedized device design. The SO-8 package is universally preferred for all commercial-industrial surface mount applications and suited for low voltage applications such as DC/DC converters.3A ID SO-8 S S S Description The Advanced Power MOSFETs from APEC provide the designer with the best combination of fast switching.02 -55 to 150 -55 to 150 Units V V A A A W W/ ℃ ℃ ℃ Total Power Dissipation Linear Derating Factor Storage Temperature Range Operating Junction Temperature Range Thermal Data Symbol Rthj-amb Parameter Thermal Resistance Junction-ambient 3 Value Max.7 -20 2. 50 Unit ℃/W . ▼ Simple Drive Requirement ▼ Low On-resistance ▼ Fast Switching D D D D P-CHANNEL ENHANCEMENT MODE POWER MOSFET BVDSS RDS(ON) G -30V 50mΩ -5. D G S Absolute Maximum Ratings Symbol VDS VGS ID@TA=25℃ ID@TA=70℃ IDM PD@TA=25℃ TSTG TJ Parameter Drain-Source Voltage Gate-Source Voltage Continuous Drain Current Continuous Drain Current Pulsed Drain Current 1 3 3 Rating -30 ± 20 -5. power MOSFET gate drivers. ___________________________________________________________________________________________ D G D G S TO-92 2N7000 S (TO-236AB) 2N7002/NDS7002A Absolute Maximum Ratings Symbol Parameter TA = 25°C unless otherwise noted 2N7000 2N7002 NDS7002A Units VDSS Drain-Source Voltage 60 60 V V V VDGR VGSS Drain-Gate Voltage (RGS < 1 MΩ) Gate-Source Voltage . These products are particularly suited for low voltage.5 625 417 °C/W . and fast switching performance.Continuous . Voltage controlled small signal switch. Junction-to-Ambient 312. They can be used in most applications requiring up to 400mA DC and can deliver pulsed currents up to 2A.Continuous . Rugged and reliable.TSTG TL Maximum Drain Current . high cell density. High saturation current capability.2 -55 to 150 300 115 800 200 1. These products have been designed to minimize on-state resistance while provide rugged. 1/16" from Case for 10 Seconds o mA mW mW/°C °C °C THERMAL CHARACTERISTICS RθJA Thermal Resistance.Pulsed Maximum Power Dissipation Derated above 25 C Operating and Storage Temperature Range Maximum Lead Temperature for Soldering Purposes. DMOS technology.Non Repetitive (tp < 50µs) ±20 ±40 200 500 400 3. and other switching applications. low current applications such as small servo motor control. reliable.November 1995 2N7000 / 2N7002 / NDS7002A N-Channel Enhancement Mode Field Effect Transistor General Description These N-Channel enhancement mode field effect transistors are produced using Fairchild's proprietary. Features High density cell design for low RDS(ON).4 -65 to 150 ID PD TJ.6 280 1500 300 2. 5% RL = 4 Ω.Philips Semiconductors Product specification 2 × 6 W stereo power amplifier FEATURES • Requires very few external components • High output power • Fixed gain • Good ripple rejection • Mute/standby switch • AC and DC short-circuit safe to ground and VP • Thermally protected • Reverse polarity safe • Capability to handle high energy on outputs (VP = 0 V) • No switch-on/switch-off plop • Electrostatic discharge protection.4 40 0. 14. 18. THD = 0.1 − − 5 6 − − 20 50 − MAX. 6.5 80 100 40 − − − − − 21 − 150 UNIT V A mA µA µA kΩ W W dB dB dB µV °C ORDERING INFORMATION TYPE NUMBER TDA1517 TDA1517P PACKAGE NAME SIL9MPF HDIP18 DESCRIPTION plastic single in-line medium power package with fin. 9 leads plastic heat-dissipating dual in-line package.0 2.0 − TYP. 18 leads VERSION SOT110-1 SOT398-1 . TDA1517P GENERAL DESCRIPTION The TDA1517 is an integrated class-B dual output amplifier in a plastic single in-line medium power package with fin (SIL9MPF) and a plastic heat-dissipating dual in-line package (HDIP18). MIN. The device is primarily developed for multi-media applications. THD = 10% fi = 100 Hz to 10 kHz CONDITIONS − − − − 50 − − 48 40 19 − − TDA1517. QUICK REFERENCE DATA SYMBOL VP IORM Iq(tot) Isb Isw |ZI| Po SVRR αcs Gv Vno(rms) Tc PARAMETER supply voltage repetitive peak output current total quiescent current standby current switch-on current input impedance output power supply voltage ripple rejection channel separation closed loop voltage gain noise output voltage (RMS value) crystal temperature RL = 4 Ω. Fig. Fig. TDA1517P DESCRIPTION supply voltage ripple rejection output output 1 power ground output 2 supply voltage mute/standby switch input non-inverting input 2 ndbook.Philips Semiconductors Product specification 2 × 6 W stereo power amplifier PINNING SYMBOL −INV1 SGND SVRR OUT1 PGND OUT2 VP M/SS −INV2 PIN 1 2 3 4 5 6 7 8 9 non-inverting input 1 signal ground TDA1517. . The gain of each amplifier is fixed at 20 dB. halfpage INV1 SGND SVRR OUT1 1 2 3 4 5 6 7 8 9 MLC353 18 17 16 15 TDA1517P 14 13 12 11 10 TDA1517 PGND OUT2 VP M/SS INV2 Pins 10 to 18 should be connected to GND or floating. A special feature of the device is the mute/standby switch which has the following features: • Low standby current (<100 µA) • Low mute/standby switching current (low cost supply switch) • Mute condition. halfpage INV1 SGND SVRR OUT1 PGND OUT2 VP M/SS INV2 1 2 3 4 5 6 7 8 9 MLC352 ndbook.2 Pin configuration for SOT110-1.3 Pin configuration for SOT398-1. FUNCTIONAL DESCRIPTION The TDA1517 contains two identical amplifiers with differential input stages. 8-lead JEDEC SOIC and 8-lead TSSOP packages. 2048 × 8 (16K). Write protect pin for hardware data protection.5V • FT24C02A/04A/08A/16A: VCC = 1. These devices are available in standard 8-lead PDIP. Industrial temperature range (-40o C to 85o C). filtered inputs for noise protection. 16 bytes page write mode.8V to 5. A standard 2-wire serial interface is used to address all read and write functions. 1024 × 8 (8K). Partial page write operation allowed.06µA @ 1. They are organized as 256/512/1024/2048 words of 8 bits (1 byte) each. High reliability: typically 800.5V to 5.5V) devices enables wide spectrum of applications. Standard 8-pin PDIP/SOIC/TSSOP Pb-free packages. Our extended VCC range (1. Self-timed programming cycle (5ms maximum). The devices are fabricated with proprietary advanced CMOS process for low power and low voltage applications.5V Maximum Standby current < 1µA (typically 0.8V and 5. 512 × 8 (4K).000 cycles endurance. commonly known as EEPROM. and DESCRIPTION The FT24C02/04/08/16 series are 2048/4096/8192/16384 bits of serial Electrical Erasable and Programmable Read Only Memory. PIN CONFIGURATION Pin Name A2. FEATURES ‰ FT24C02 / 04 / 08 / 16 FT24C02A / 04A / 08A / 16A ‰ ‰ ‰ ‰ ‰ ‰ ‰ ‰ ‰ ‰ ‰ ‰ ‰ Low voltage and low power operations: • FT24C02/04/08/16: VCC = 2.5V respectively). A0 SDA SCL WP NC Pin Function Device Address Inputs Serial Data Input / Open Drain Output Serial Clock Input Write Protect No-Connect All three packaging types come in conventional or Pb-free certified. Automatic erase before write operation.Fremont Micro Devices.8V to 5. 100 years data retention. Schmitt trigger. . Internally organized: 256 × 8 (2K).02µA and 0. Standard 2-wire bi-directional serial interface. Inc. A1. 6V Operation +0.5-3-3) * X means speed grade ** Lead-free product *ROHS (Restriction Of Hazardous Substances) Rev.2V for DDR400 and 400Mbps/pin product) All inputs and outputs are compatible with SSTL_2 interface Fully differential clock inputs (CK.data transaction aligned to bidirectional data strobe (DQS) x16 device has two bytewide data strobes (UDQS.0. 2006 3 .217.5V Operation +/. /CK) operation Double data rate interface Source synchronous . LDQS) per each x8 I/O Data outputs on DQS edges when read (edged DQ) Data inputs on DQS centers when write (centered DQ) On chip DLL align DQ and DQS transition with CK transition DM mask write data-in at the both rising and falling edges of the data strobe • • • • • • • All addresses and control inputs except data.728-bit CMOS Double Data Rate(DDR) Synchronous DRAM. This Hynix 128Mb DDR SDRAMs offer fully synchronous operations referenced to both rising and falling edges of the clock.4V min ~ 2.03 /Jun.5 Remark 400Mbps/pin (maximum Date rate) DDR400B (3-3-3) DDR400 (3-4-4) DDR333 (2.5-3-3) DDR333 (3-3-3) DDR266A (2-3-3) DDR266B (2.5 & @CL3 [email protected] for DDR266.3V min ~ 2. While all addresses and control inputs are latched on the rising edges of the CK (falling edges of the /CK).1/. ideally suited for the main memory applications which requires large memory density and high bandwidth.HY5DU281622FT(P) Series DESCRIPTION The HY5DU281622FT(P) is a 134.65mm pin pitch Lead free (*ROHS Compliant) • • • • • • • • • • ORDERING INFORMATION Part No.5 (DDR266. 333) and 3 (DDR400 and 400Mbps/pin product) supported Programmable burst length 2/4/8 with both sequential and interleave mode Internal four bank operations with single pulsed /RAS Auto refresh and self refresh supported tRAS lock out function supported 4096 refresh cycles/64ms JEDEC standard 400mil 66pin TSOP-II with 0. 333) VDD. VDDQ = 2.7V max (Typical 2. data strobes and data masks latched on the rising edges of the clock Programmable CAS latency 2/2. HY5DU281622F(L)TP-X* OPERATING FREQUENCY Grade -5 -D43 -D4 -J -K -H Configuration Package 400mil 8Mx16 66pin TSOP-II** Clock Rate 200MHz@CL3 200MHz@CL3 200MHz@CL3 133MHz@CL2 133MHz@CL2 100MHz@CL2 166MHz @CL2. The data paths are internally pipelined and 2-bit prefetched to achieve very high bandwidth. Data.5 133MHz@CL2. VDDQ = 2.7V max (Typical 2. FEATURES • • VDD.0. Data strobes and Write data masks inputs are sampled on both rising and falling edges of it. 0. All input and output voltage levels are compatible with SSTL_2. 0.A8 Bank Address : BA0.65mm pin pitch ROW AND COLUMN ADDRESS INFORMATION • • • • • • Organization : 2M x 16 x 4banks Row Address : A0 . BA1 Auto Precharge Flag : A10 Refresh : 4K Rev. 2006 4 .HY5DU281622FT(P) Series PIN CONFIGURATION VDD DQ0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 VSS DQ15 VSSQ DQ14 DQ13 VDDQ DQ12 DQ11 VSSQ DQ10 DQ9 VDDQ DQ8 NC VSSQ UDQS NC VREF VSS UDM /CK CK CKE NC NC A11 A9 A8 A7 A6 A5 A4 VSS VDDQ DQ1 DQ2 VSSQ DQ3 DQ4 VDDQ DQ5 DQ6 VSSQ DQ7 NC VDDQ LDQS NC VDD NC LDM /WE /CAS /RAS /CS NC BA0 BA1 A10/AP A0 A1 A2 A3 VDD 400mil x 875mil 66pin TSOP-II 0.A11 Column Address : A0 .03 /Jun. permissible current: 100mA Source impedance limited to 1kohms see application notes AC coupled AC coupled max. gain at 3V min.MODEL：CDT-9DT33C-00 DEFINITION OF TERMINALS / SUPPLY DATA CDT-9DT33C-00. .output 'narrowband' IF .5V 4.CDT-9DT23C-00 . 5 4 3 2 1 Terminal 1 2 3 4 5 6 7 8 9 10 11 Function DC-power option for tuners with P-extension External RF-gain control voltage (0.output IF-gain control voltage 'narrowband' IF . CDT-9DT13C-00 .output 2 Remark Max. +5V r 5% supply tuner (VTU) 'broadband' IF . 11 10 9 8 7 6 . gain at 0V (see application notes) AC coupled AC coupled 4 . .0V) PLL chip address select (I2C / tuner) SCL (I C / tuner) SDA (I2C / tuner) 4MHz reference frequency output. The common channel select logics include two digital select inputs (pins S0 and S1) and an active LOW enable input (pin E). The analog inputs/outputs (pins nY0 to nY3 and nZ) can swing between VCC as a positive limit and VEE as a negative limit. VEE is connected to GND (typically ground). 7A. • Specified from −40 °C to +85 °C and −40 °C to +125 °C. For operation as a digital multiplexer/demultiplexer. S1 L L H H X S0 L H L H X nY0 and nZ nY1 and nZ nY2 and nZ nY3 and nZ none . APPLICATIONS • Analog multiplexing and demultiplexing • Digital multiplexing and demultiplexing • Signal gating. VCC − VEE may not exceed 10. 7A • ESD protection: – HBM EIA/JESD22-A114-B exceeds 2000 V – MM EIA/JESD22-A115-A exceeds 200 V. FUNCTION TABLE INPUT(1) CHANNEL BETWEEN E L L L L H Note 1. They are specified in compliance with JEDEC standard no. demultiplexer FEATURES • Wide analog input voltage range from −5 V to +5 V • Low ON-resistance: – 80 Ω (typical) at VCC − VEE = 4. DESCRIPTION 74HC4052. 74HCT4052 The 74HC4052 and 74HCT4052 are high-speed Si-gate CMOS devices and are pin compatible with the HEF4052B. independent of pins S0 and S1.Philips Semiconductors Product specification Dual 4-channel analog multiplexer.0 V for 74HC4052 and 4. Each multiplexer has four independent inputs/outputs (pins nY0 to nY3) and a common input/output (pin nZ).0 V to 10. S1.0 V • Logic level translation: to enable 5 V logic to communicate with ±5 V analog signals • Typical “break before make” built in • Complies with JEDEC standard no. When pin E = HIGH. When pin E = LOW. and E).5 V to 5. The 74HC4052 and 74HCT4052 are dual 4-channel analog multiplexers or demultiplexers with common select logic. one of the four switches is selected (low-impedance ON-state) with pins S0 and S1.5 V – 70 Ω (typical) at VCC − VEE = 6.0 V – 60 Ω (typical) at VCC − VEE = 9. The VCC to GND ranges are 2. VCC and GND are the supply voltage pins for the digital control inputs (pins S0.5 V for 74HCT4052. all switches are in the high-impedance OFF-state.0 V. H = HIGH voltage level L = LOW voltage level X = don’t care. 0 compliant receiver „ HDCP 1. The chip could support LCD TV up to 1080P input resolution and 1080p output resolution.1 compliant receiver „ Support DTV (480i/576i/480p/576p/720p/1080i/1080p) „ S/PDIF output supports PCM. 3D motion adaptive de-interlacing. video on graphic PIP/POP.3. DTS digital audio with bypass mode „ Four I2S audio outputs to SSD(Stereo Sound Decoder) with bypass mode „ Auto audio error detection with programmable soft mute „ Build-in OTP for HDCP key 2. FEATURES 2. TV decoder with 3-D comb filter. High Quality Video Scaling Engine „ Advanced third-generation scaling engine „ Support 4:3 / 16:9 with non-linear scaling „ Support Moiré Canceling . HDMI PanelLink TM 2. PAL-M.4.G. PAL I (B. Note: PanelLink is the Trade Mark of Silicon Image Inc. WSS. embedded CPU and a dual channels LVDS transmitter. 2-pair Audio Line-Out. Dolby Digital.5. V-chip) overlay display Cinema receiver. SDRAM/DDR controller. PAL-N „ Enhanced NTSC/PAL/SECAM auto detection „ 4 analog inputs and one analog video output „ Cross-color reduction for NTSC by 3-line comb filtering „ Cross-color reduction for PAL by 5-line comb filtering „ Motion adaptive 3D Y/C separation comb filter for NTSC/PAL system „ Multi-standard VBI data decoder.5. processor for separate. XGA. TTX2.Preliminary SPV7100A HIGHLY INTEGRATED LCD TV PROCESSOR 1.D. both YCbCr to RGB and RGB to resolutions YCbCr „ Build-in temporal/spatial color dithering „ 10-bit video/image processing 2. SVGA. 2:2/3:2 film mode detection. SXGA@75Hz (135MHz) „ Build-in sync. WXGA.C. sRGB color management. Closed-caption and V-chip „ Macrovision detection „ VBI data (C.2 compliant and DVI 1. Graphics and Video Input Port „ Integrate 150MHz 10-bit ADC/PLL „ Dual CCIR656 digital video ports to support 2 input or 1 input/1 output „ Support SDTV at 480i/576i and 480p/576p „ Support HDTV at 720p and 1080i and1080p „ Support PC graphics VGA.GENERAL DESCRIPTION The SPV7100A is a highly integrated solution for the mainstream LCD TV applications. 3D Video Decoder „ NTSC/PAL/SECAM video decoder „ 3D comb filter for NTSC. Teletext 2.1. The SPV7100A provides on-chip functions including a high-speed triple-ADC and PLL. color management control. composite or sync on Y/G „ Support Video/Graphics PIP/DW „ Channel swap for any source input „ Image Format Detection/Auto Image Positioning/Auto Phase Detection „ Full SCART support including RGB fast blank 2.H. bitmap-based and font-based OSD engine. HDMI „ HDMI 1.N). VPS.5.2. one SIF demodulator and audio decoder. 2. High Quality Video Processing „ Enhanced Pixel-based 3D motion adaptive de-interlacing (SDTV/HDTV) „ Enhanced 2:2/3:2 film mode detection „ Support Graphics mode frame rate conversion „ Support Video mode frame rate conversion „ 2D Edge enhancement „ Dynamic Peaking Filter „ Enhanced Digital Luminance Transient Improvement (DLTI) „ Digital Color Transient Improvement (DCTI) „ Black/White Level Expansion and Dynamic Contrast „ RGBYMC color adjustment „ Dark and Gray area UV Suppression „ Enhanced 3D motion adaptive noise reduction „ De-blocking and de-mosquito filters „ Color management/Color temperature adjustment „ Brightness/Contrast/hue/Saturation adjustment „ Support sRGB color correction „ Build-in three 256-point gamma tables with 10 bits resolution „ Color space conversion. 4-pair Audio Line-In. 1 . SECAM. 23.6. EIAJ. C. Misc „ Build-in TV remote control 1 infra-red receiver interface „ 2-channels 6-bits ADC for key scan function „ Build-in pattern generator for auto testing „ 256-pin LQFP for LCD application 2. Embedded OSD and VBI Controller „ Build-in programmable OSD engine for two OSD windows (bit map OSD) „ 1. A2/Zweiton.11. Proprietary & Confidential 5 MAR. Aux1. Programmable Digital Output for LCD „ Support output sequence mapping for TI and Thine „ Build-in dual channels 8-bit LVDS Tx or single channel 10-bit LVDS Tx „ Support display output up to 1920x1200 @60Hz (165Mhz WUXGA reduced blanking) „ Support Power Down Sequence „ 4-ch PWM backlight intensity control 2.8. R. NICAM. S.12. WOW. 3D Sound) (support by SPV7100 AxS) 2.band Equalizer „ 3-D surround sound „ Bass management „ Volume control „ Support sub-woofer output „ Sample rate conversion „ SSD could output up to 3 sources „ Virtual Dolby Surround (VDSII 422 and 423) (support by SPV7100AxD) „ SRS TruSurround (XT.4 and 8-bit per pixel (bit-map OSD) „ Support hardware cursor „ Support programmable 512 font-based OSD and graphics-based OSD „ Support VBI decoder (CC.7. Multi-standard TV Sound Decoder „ Field proven TV sound decoder „ Support BTSC.9. Ltd. Sub.V-Chip and Teletext) „ Support VBI CC/TTX/Menu with more than 1000 char-fonts 2. 2007 Preliminary Version: 0.10. 2 and 3 @ 32 kHz „ 5. Embedded DDR/SDRAM Controller „ Integrated DDR/SDRAM controller with DLL (DDR) „ Support 32-bit DRAM bus with memory size from 16Mb (limited functions) to 256Mb 2.Preliminary SPV7100A 2.2. CPU „ Powerful 32-bit RISC CPU „ Simple memory management stub (SMMU) © Sunplus Technology Co.. FM stereo „ Automatic TV-standard detection (ASD) „ Non-standard carrier compatible „ SAP decoding where applicable „ Auto fallback from NICAM where applicable „ MIPS-I instruction with DSP instruction set extension „ 2K bytes 2-way instruction cache „ 4K bytes direct-mapped data cache „ 8K bytes data memory for DMA operation „ EJTAG interface „ One UART up to 115200 baud rate „ Four 24-bit up/down timers „ 3K Bytes IMem for power saving mode 2. Audio Processor „ Support SPDIF input „ Support SPDIF output (signal could come from SPDIF input or SSD) „ Support up to 8 channels I2S I/O „ 4 channels audio DAC output „ 4 channels audio ADC input „ Channel: L. 3.1.3. List of Packages and Pins 4.LQFP Package Figure 4-1 SPV7100A Pin Configuration .SPV7100A 4. 256. USB Full Speed : 12Mbit/sec. reproduced or disclosed in whole or in part without prior written permission of MediaTek Inc 2 1 .0. It integrates the MediaTek 3 generation front-end digital RF amplifier and the Servo/MPEG AV decoder. portable DVD players or any other home entertainment audio/video devices. USB 2.0 High speed will support for high-speed devices. MS/SD/MMC reader. Built-in 6ch audio DACs and 2ch audio ADCs could give the variable function solutions.0 High Speed supports old USB 1. World-Leading Technology: Based on MediaTek’s world-leading DVD player SOC architecture. feature-rich DVD players. the rd MT1389L is the New generation of the DVD player SOC.1 software and peripherals.0 High Speed RF/Servo/MPEG Integration DivX Home Theater Level MPEG4 ASP Video decoder Support Nero-Digital Support DivX Ultra High Performance Audio Processor Progressive Scan 108MHz/12-bit. The 108MHz/12-bit video DAC provides users a whole new viewing experience. The MT1389L provides the interface for the 3-in-1 card reader. we adopt USB2. USB2. offering impressive and even better compatibility to customers Key Features DVD PUH Module CVBS. and shall not be distributed. to connect with the mainstream digital camera FLASH cards. The MT1389L enables consumer electronics manufacturers to build high quality. and MultiMediaCard. SUBJECT TO CHANGE WITHOUT NOTICE MT1389L Desktop DVD Player SOC MTK CONFIDENTIAL. USB 2. Y/C.0 High Speed (Host/Device) 3-in-1 MS/SD/MMC reader Front-panel Remote DRAM Applications Standard DVD Players DVD Player System Diagram Using MT1389L DivX is a trademark of DivXNetworks USB High Speed : 480Mbit/sec. the MT1389 equips a simplified MPEG-4 advanced simple profile (ASP) video decoder to fully support the DivX1 Home Theater profile. which supports Memory-Stick. It makes the MT1389-based DVD player be capable of playback MPEG-4 content which become more and more popular.V1. High Performance Memory Storage Device: As the core of Portable DVD players need more capability to support current multimedia contents. USB 2. In addition. Rich Feature for High Valued Product: Incredible Audio/Video Quality: The progressive scan of the MT1389L utilized advanced motion-adaptive de-interlace algorithm to achieve the best movie/video playback. For the USB application.0 High Speed is suitable for high-performance devices such as high-density storage devices. Component MT1389L Desktop FLASH SDPIF Analog Audio Output USB 2. high quality TV encoder and state-of-art de-interlace processing. 4 CH TV Encoder Internal 6CH Audio DAC Internal 2CH Audio ADC USB2. Secure Digital Memory Card. 4 All information contained herein is the exclusive property of MediaTek Inc. NO DISCLOSURE 5 Function 5-1 General Description MediaTek MT1389L is a cost-effective DVD system-on-chip (SOC) which incorporates advanced features like MPEG-4 video decoder.0/1.5 PRELIMINARY. To enrich the feature of DVD player. It also supports a 3:2 pull down algorithm to give the best film effect.0 High speed specification to reach rich-contents transference. NO DISCLOSURE 6 Pin Assignment FS DACVSSC CVBS DACVDDB DACVDDA G B R AADVSS AKIN2 / GPIO19 / Audio_mute ADVCM / GPIO20 / AKIN1 / GPIO21 / Audio_mute AADVDD APLLVDD APLLCAP ADACVSS2 ADACVSS1 ARF / LFE / GPIO ARS / GPIO AR / GPIO0 AVCM AL / GPIO1 ALS / GPIO ALF / CENTER / GPIO ADACVDD1 ADACVDD2 AVDD18_1 AGND18 RFIP RFIN / OPOUT / RFG / OPINP / RFH / OPINN / 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 VREF DACVDDC GPIO13 SPDIF / GPIO12 GPIO11 GPIO10 DVDD18 GPIO9 GPIO8 GPIO7 / CKE RA3 RA2 DVDD33 RA1 RA0 RA10 BA1 DVSS18 BA0 RAS# CAS# RWE# RA4 RA5 RA6 RA7 RA8 RA9 DVDD33 RA11 RCLK DQM1 RFA RFB RFC RFD RFE RFF AVDD18_2 AVDD33_1 XTALI XTALO AGND33 V20 V14 REXT MDI1 MDI2 LDO1 LDO2 AVDD33_2 DMO FMO TRAY_OPEN TRAY_CLOSE TRO FOO FG / GPIO2 USB_DP USB_DM VDD33_USB VSS33_USB PAD_VRT VDD18_USB Audio DAC INT RF Audio ADC Video DAC USB MT1389L Desktop 20 All information contained herein is the exclusive property of MediaTek Inc. reproduced or disclosed in whole or in part without prior written permission of MediaTek Inc 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 RD8 RD9 RD10 RD11 DVSS33 RD12 RD13 RD14 RD15 DQM0 DVDD18 RD7 RD6 RD5 DVDD33 RD4 RD3 RD2 RD1 RD0 IR PRST# ICE UP1_7 / SDA UP1_6 / SCL SF_CK SF_DI SF_DO SF_CS_ GPIO6 GPIO4 GPIO3 / INT# .5 PRELIMINARY. and shall not be distributed. SUBJECT TO CHANGE WITHOUT NOTICE MT1389L Desktop DVD Player SOC MTK CONFIDENTIAL.V1. one 32-Kbyte. using the Page Program instruction.7-3. one sector of 32KB.1 PA typical power down current x Flexible Sector Architecture: .75MHz clock rate x Low power consumption . and thirty one 64-Kbyte sectors x Software and Hardware Write Protection: .Two 4-Kbyte. accessed by a high speed SPI-compatible bus..com. one sector of 8KB and two sectors of 4KB.essi. one 16-Kbyte.8 contact VDFN .16 M-bit/2048 K-byte/8192 pages .All Pb-free packages are RoHS compliant x Commercial and industrial temperature Range GENERAL DESCRIPTION The EN25B16 is a 16M-bit (2048K-byte) Serial Flash memory. The EN25B16 can protect boot code stored in the small sectors for either bottom or top boot configurations. Inc. The device can sustain a minimum of 100K program/erase cycles on each sector.Write Protect all or portion of memory via software .Enable/Disable protection with WP# pin x High performance program/erase speed Byte program time: 7μs typical Page program time: 1.Full voltage range: 2. www. one 8-Kbyte. with advanced write protection mechanisms. Issue Date: 2006/12/22 .8 pins SOP 200mil body width . This device is designed to allow either single Sector at a time or full chip erase operation. one sector of 16KB.5 mA typical active current . ©2004 Eon Silicon Solution. This Data Sheet may be revised by subsequent versions 1 or modifications due to changes in technical specifications. The EN25B16 has thirty six sectors including thirty one sectors of 64KB.6 volt x 16 M-bit Serial Flash . The memory can be programmed 1 to 256 bytes at a time.256 bytes per programmable page x High performance . C.tw Rev.EN25B16 EN25B16 16 Mbit Serial Flash Memory with Boot and Parameter Sectors FEATURES x Single power supply operation .16 pin SOP 300mil body width .5ms typical Sector erase time: 300 to 800ms typical Chip erase time: 18 Seconds typical x Minimum 100K endurance cycle x Package Options . C. www.tw Rev..EN25B16 Figure. 2 ©2004 Eon Silicon Solution. Inc.essi.LEAD SOP 8 .LEAD SOP This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications. Issue Date: 2006/12/22 .CONTACT VDFN 16 .com.1 CONNECTION DIAGRAMS ʳ 8 . .tw Rev.essi. BLOCK DIAGRAM This Data Sheet may be revised by subsequent versions or modifications due to changes in technical specifications.com.EN25B16 Figure 2. 3 ©2004 Eon Silicon Solution. Inc. C. www. Issue Date: 2006/12/22 . / 4 x 1. Ordering Information Part No.3V power supply • LVTTL compatible with multiplexed address • Four banks operation • MRS cycle with address key programs -. fabricated with SAMSUNGcs high performance CMOS technology. Synchronous design allows precise cycle control with the use of system clock I/O transactions are possible on every clock cycle.048. Range of operating frequencies.304 words by 4 bits. programmable burst length and programmable latencies allow the same device to be useful for a variety of high bandwidth.x8) & L(U)DQM (x16) for masking • Auto & self refresh • 64ms refresh period (4K cycle) CMOS SDRAM GENERAL DESCRIPTION The K4S640432H / K4S640832H / K4S641632H is 67.576 words by 16 bits. 4. Burst type (Sequential & Interleave) • All inputs are sampled at the positive going edge of the system clock • Burst read single-bit write operation • DQM (x4. 1. x16) 4M x 4Bit x 4 / 2M x 8Bit x 4 / 1M x 16Bit x 4 Banks SDRAM FEATURES • JEDEC standard 3.5 February 2004 .864 bits synchronous high data rate Dynamic RAM organized as 4 x 4.097. CAS latency (2 & 3) -.SDRAM 64Mb H-die (x4. Burst length (1. K4S640432H-TC(L)75 K4S640832H-TC(L)75 K4S641632H-TC(L)60 K4S641632H-TC(L)70 K4S641632H-TC(L)75 4Mb x 16 Orgainization 16Mb x 4 8Mb x 8 Max Freq. 133MHz(CL=3) 133MHz(CL=3) 166MHz(CL=3) 143MHz(CL=3) 133MHz(CL=3) LVTTL 54pin TSOP(II) Interface Package Organization 16Mx4 8Mx8 4Mx16 Row Address A0~A11 A0~A11 A0~A11 Column Address A0-A9 A0-A8 A0-A7 Row & Column address configuration Rev. 8 & Full page) -. / 4 x 2.108.152 words by 8 bits.194. high performance memory system applications. x8. 2. 1.035 0.16 0.018~0.047 .002 1.002 ( 0.028 r0.45~0.22 0.05 MIN 0.008 r0.030 0.62 MAX 0.75 0.20 0.05 0.400 0.21 0.05 r0.020 11.005+0.0315 54Pin TSOP(II) Package Dimension Rev.875 0.10 0.10 MAX 0.00 0.004 #27 0.002 +0.5 February 2004 10.010 #54 #28 0.20 MAX 0.76r0.30-0.003 -0. x16) Package Physical Dimension CMOS SDRAM 0~8qC 0.001 1.463r0.10 r0. x8.10 r0.039 r0.012  -0.50 ) 0.71 ) 0.075 -0.SDRAM 64Mb H-die (x4.125+0.004 0.25 TYP 0.008 #1 22.004 0.891 22.004 ( 0.80 0. SDRAM 64Mb H-die (x4. x16) FUNCTIONAL BLOCK DIAGRAM CMOS SDRAM I/O Control LWE LDQM Data Input Register Bank Select 4M x 4 / 2M x 8 / 1M x 16 4M x 4 / 2M x 8 / 1M x 16 4M x 4 / 2M x 8 / 1M x 16 4M x 4 / 2M x 8 / 1M x 16 Refresh Counter Output Buffer Row Decoder Sense AMP Row Buffer DQi Address Register CLK ADD Column Decoder Col. Rev. 1. x8.5 February 2004 . Buffer Latency & Burst Length LRAS LCBR LCKE LRAS LCBR LWE LCAS Timing Register Programming Register LWCBR LDQM CLK CKE CS RAS CAS WE L(U)DQM * Samsung Electronics reserves the right to change products or specification without notice. 9. 7. 5. 1uF 0.2 U 26 R 266 2.15 G N D 7 7 A OUT1R A OUT1L A OUT1R A OUT1L SPEAKER OUT S P E A K E R_ROUT S P E A K E R_LOUT GND_A MP J 14 7 D MUTE_AMP MUTE_AMP 1 2 3 4 GND_A MP DIP / P IN4/ 2.8. 5. 4. 2K R442 nc -INV1 SGND SVRR OUT1 PGND OUT2 VP M/SS -INV2 GND GND GND GND GND GND GND GND GND 20 19 18 17 16 15 14 13 12 11 + 12V _IN E C75 3 100uF/ 16V 2 1 4 5 6 7 8 1 R446 1k 7 MUTE_AMP MUTE_AMP 1 2 2 2 C352 1uF 2 Q60 2N3904 R 379 NC H P D_P HONE R 384 6.13. 3. 2.14. 6.5 4 3 2 1 1. 7. 2K R IN 1 9 10 GND sink 22 1 GND GND_A MP TDA 1517P GND_A MP GND_A MP GND_A MP + E C88 47uF16V GND_A MP GND_A MP 6 MUTE_AMP MUTE_AMP GND_A MP MUTE _C GND_AMP C 3 C + 12V _IN R450 470K R451 470 R 467 8.12. 2uF U 27 21 + 12V _IN R 440 NC/ 8.2K Q62 2N3904 R498 220 R 452 2. 4.2 R 453 2. 0 GND_AMP R457 100K +OUT2 VCC MUTE C358 A OUT1L 1uF R 459 47K R460 10K 2 C359 820pF 4 1 + R461 1 0R C 364 1 0uF R 282 1K R 458 1K C O N9 P HONE Stanby IN2 PRE GND IN1 Ripple Filter R463 100K + 12V _IN LA 42102 3 8 G ND_P HONE B P V CC6 P V CC12 R 462 100K C 360 100pF G N D_P HONE C361 A OUT1R 1uF C 362 R 464 47K R466 10K 6 H P D_P HONE 4 8 820pF P V CC6 G ND_P HONE P V CC12 G ND_P HONE GND_A MP G ND_P HONE G ND_P HONE A 5 + 5 U6A NJM4558 - P HONE _OUTR P HONE _OUTL 1 2 3 4 5 B SPEAKER OUT GND_A MP 7 U6B NJM4558 C 365 1 0uF R268 1 0R P V CC12 + 12V _IN R283 P V CC6 75R R465 C366 R284 10uF C 367 10uF 20K 20K G N D_P HONE GND_A MP A 4 3 2 1 . 1uF 0.2 R 265 2. 1uF J 15 R 454 470K 2 1 1 2 3 Q63 R455 2N3906 22K D 60 BAV99 GND_A MP R 456 100K + E1 47uF + E C80 2. 6. 8.8K C 350 1 uF 1.10 G N D C 368 0. 1uF PHONE OUT G ND_P HONE C 357 100pF G N D_P HONE +OUT1 -OUT1 PWR GND -OUT2 1 2 3 4 DIP / P IN4/ 2. 3. 2. 2uF R 449 NC/ 8.2 C 353 C 354 0.9 + 12V _IN 47uF16V + 12V _IN + 12V _IN L43 22uH/ 2A S P E A K E R_ROUT GND GND E C76 220uF/16V GND E C78 220uF/16V A _P OWER A OUT1_L LIN 1 2 sink 1 2 R441 0 C363 2. 4.10 + 12V _IN + 12V _IN + 12V _IN 1. 5. 9. 10.0 D A OUT1L R 443 47k R444 22K MUTE _C S P E A K E R_LOUT R 445 47k C 371 + Q59 2N3904 10uF R 447 100K Q61 2N3904 E C87 1. 1uF GND_AMP 6 6 A OUT1R A OUT1L A OUT1R A OUT1L E C79 470uF/ 16V A OUT1R MUTE _C A OUT1_R R448 0 C 351 2. 2uF NC 13 12 11 10 9 8 7 6 5 4 3 2 1 E C82 47UF/ 16V E C83 47UF/ 16V LIN R IN A _P OWER MUTE _C R 269 47K + 12V _IN C355 C 356 0. 9.6V 10/26 Add R 138 1 00R C4 0.12. 10. 3. 47uF R 320 1K D 33 B340B R 488 100 C385 0.14. 54mm 1 2 1 VCC LX LX GND GND IN FB 8 7 3 4 1 2 2N3904 S OT-23 22uH/ 4A (33uH/4A) C 217 1 uF C 218 0. 3. 10. 0mm +5VSB 1 2 3 4 11/30 Modify R 227 10K F1 5A / 12V + 12V _IN CN3 D C -JA CK -2mm + 12V _power L5 22uH/ 3A / DIP U 21 L20 OCP 2030SA + 5V _DC 3 S TB _CON R 228 4. 13. 1uF 470uF/ 25V 470uF/ 25V R7 100K VSS VSS 3 E C62 E C63 OUTPUT OUTPUT FB 5 6 1 R 439 2K2 C1 1000pF E C21 R 41 390 D3 S K 34/SOP S R34B C 37 3 OUT 2 A DJ 1 2 7 8 + G NDV GND_TMDS G ND_P W R C 77 0. 10. 6. 9.3V 1.14.13 + 5V _DC L19 0R +5VSB + 5V _DC +3V3 Q15 A P 2301 S OT-23 R486 nc +3V3 +1V8 +5V_SW +3V3 +1V8 +3V3 +1V8 GND 2. 11 +5V_SW +5VSB 3. 1uF E C52 470uF/16V R 318 9K1 OFF ON 1 D +5VSB +5VSB1 E C50 E C37 470uF/ 25V 470uF/ 25V 2 SCP R494 1K GND 5 6 S TB _CON C220 0.15 8 2. 11. 8. 1uF IN 4 3 OUT 2 A DJ 1 UP3 A P 1084-3V3/256 TOP -263 + 3.5 4 3 2 1 C O N6 N C_4P IN/ 2. 13. 1uF 7 7 S TB _A C_ON P OW E R_ON S TB _A C_ON P OW E R_ON C222 2200pF R 319 1K1% + 12V _IN +5V_SW +5VSB + 12V _IN +5V_SW +5VSB + 12V _IN 5. 4. 5.5V U1 A X3101 L2 22uH/ 2A +1V8 B + 3V 3_S W7100 4 VCC EN OCSET IN 4 + E C34 100uF/ 16V R 143 2 20R C2 0. 8. 3V Regulator + E C33 100uF/16V 1 2 R6 1K3 + 1V 8_ADCA B FOR SPV7100 ONLY 3. 7.June15. 1uF A 1 2 UP4 1117-A DJ S OT-223 0. 7. 54 IN C 19 0. 4. 1uF R 33 D 41 2K 5. 1uF C221 0.0 1 S heet of 1 5 .8V 2. 2008 1 1.15 2 3 10K R 58 1 Q23 AP2301 2 1 + 3V 3_SW C 369 R 42 10uF Q12 2N3904 R 123 100K P OW E R_ON 3 STANDBY R487 nc + 3V 3_S W7100 R127 10K C 370 STANDBY C 100K P OW E R_ON 10uF Q24 2N3904 C 2 1 Q64 A P 2301 +5VSB1 +2V5 +5VSB UP2 R499 nc C N 11 HE A DE R5-2.15 5. 1uF 3 + E C12 100uF/16V R 501 nc XT4 nc CRIS TA L-B U 28 3 R500 nc 4 OUT 2 ADJ/GND C 393 nc P ICV PP 1 2 1 +5VSB +3V3 + 12V _IN R 438 0ohm-0805 L42 22uH/ 2A R437 NC IR R 503 nc VDD VSS GP5/T1CKI/OSC1/CLKIN GP0/AN0/CIN+/ICSPDAT GP4/AN3/T1G/OSC2/CLKOUT GP1/AN1/CIN-/VREF/ICSPCLK GP3/MCLR/VPP GP2/AN2/T0CKI/INT/COUT P IC12F675 8 7 6 5 A P 1117-25/SOT-223 S OT-223 GND G ND R 504 P ICP GD P ICP GC nc K P D_P OWER R 505 5 4 3 2 1 nc S TB _CON 3 P ICV PP 4 +5VSB R 506 nc M CU_IO C7 0. 1uF 470uF/ 16V A SUNPLUS Title System Power Size C Dat e: 5 4 3 2 Doc ument Number Rev SPTV05-13-V1 S unday. 9. 12.13. 10.7K Q30 2 S TB _A C_ON D 1 2 3 10 9 8 7 6 5 4 3 2 1 CN2 CON10/ 2. 10.7K A SCL AS DA +5V_HDMI_A R323 N C/10K R160 4. DSUB 15Pin-3/Female +5V_DDC +5V_VGA 3 C212 N C/22pF C213 N C/22pF C214 N C/22pF 1 BAT 54C +5V_DDC G N D _ADC R251 2K2 R254 2K2 1 1 G N D _ADC G N D_ADC 16 17 G N D_ADC G N D_ADC G N D_ADC 22R R263 R264 D 13 5.10.14.4.3.8.7.6V TXD RXD G N D_ADC 7.11.12.15 D 2 3 1 5 v_hdmi R158 10K RXM1 RXP0 RXM0 RXCP RXCM R159 4.15 G ND 1.13.9.3.9 C184 1uF +5V_DDC U19 2 R327 R328 A NC/33 33 22R 2 1 2 3 4 A0 A1 A2 GND VCC WP SCL SDA 8 7 6 5 SCL_VGA2 SDA_VGA2 R252 R253 100 SCL_VGA 100 S DA_VGA D12 5.6.01uF R _ IN B G N D_ADC SCL_VGA2 V S_VGA H S_VGA R208 R199 100 100 SDA_VGA2 C149 C150 NC NC D27 nc D11 nc 15 10 14 9 13 8 12 7 11 6 5 3 3 3 4 3 2 1 D30 BAV99L D31 BAV99L D32 BAV99L G N D _ADC P C-BIN P C-GIN P C -RIN G N D_ADC VG A_BIN VG A_GIN VG A _RIN 1 R207 510 R206 510 B 2 1 2 1 2 1 2 2 PC DDC D29 +5V_DC 2 VGA Con.0 2 Sheet of 1 5 5 4 3 2 .13.9.6V G N D_ADC G N D _ADC 1 24C02 D D C EDID Data SOP 8Pin A G N D_ADC G N D _ADC 1 SUNPLUS Title G ND_CASE G N D_ADC GND_TMDS Size C u stom Date: GND_CASE GND_TMDS HDMI Switch Document Number R ev SPTV05-13-V1 Thursday.10.01uF G _ IN R309 G N D_ADC G N D _ADC G N D_ADC +5V_DC +5V_DC +5V_DC NC 2 P C -RIN D28 nc R300 R301 R302 75R 75R 7 5R R211 100R C153 0. June 12.3.7 7 7 7 +5V_DC +3V3 +5V_DC 1.14.9 7.7.13 +3V3 1.01uF B _IN GND_TMDS VGA Analog Input +5V_VGA C N5 VG A/CON R311 10K ISP_T RAP H PD_PC P C-GIN R210 100R C152 0. 2008 1 1.7K / WP U14 24C02 W P# 9 8 7 6 5 VCC A0 WP A1 SCK A2 SDA VSS C105 1 uF 1 2 3 4 GND_TMDS GND_TMDS GND_TMDS GND_TMDS GND_TMDS +3V3 10/25 Modify R114 100K HOLD_FLASH GND_TMDS GND_TMDS 5 v_hdmi ISP_T RAP R105 10K 3 GND_TMDS R298 nc H OLD_FLASH 7 2 1 Q22 2N3904 C A SCL R324 33 SCL_HDMI 7 R313 100K C R297 1K R296 1K R326 nc AS DA R325 33 S D A_HDMI 7 G N D_ADC ISP FROM VGA G N D_ADC 2 R136 7 H PD_HDMI H PD_HDMI 1K 3 2 Q34 Si2302 1 3 Q35 Si2302 P C-BIN R209 100R 1 C151 0.9.5.8.5 4 3 2 1 HDMI Input CN4 EDID Defult: NOT write protect RXP2 RXM2 RXP1 RXM1 A SCL Layout Note differential impedance 100ohm RXP0 RXM0 RXP1 RXM1 RXP2 RXM2 RXCP RXCM DM10 NC SOG_IN INPUT1 5 v_hdmi DM8 NC DM4 NC DM7 NC DM3 NC RXP0 RXM0 RXP1 RXM1 RXP2 RXM2 RXCP RXCM 7 7 7 7 7 7 7 7 SCL_VGA S DA_VGA V S_VGA H S_VGA H PD_PC / WP SCL_VGA S DA_VGA VS_VGA H S_VGA H PD_PC / WP 7 7 7 7 7 7 20 21 D 22 23 G ND_CASE SHELL1 SHELL2 D2+ D2 Shield D2D1+ D1 Shield D1D0+ D0 Shield D0CK+ CK Shield CKCE Remote NC DDC CLK DDC DATA GND +5V SHELL3 HPD SHELL4 HDMI CON-SMT 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 RXP2 RXM2 RXP1 D6 BAT 54C GND_TMDS +5V_DC +5V_HDMI_A DM6 NC DM2 NC DM5 NC DM1 NC DM9 NC RXP0 RXM0 GND_TMDS RXCP GND_TMDS RXCM GND_TMDS GND_TMDS AS DA B _IN G _ IN R _ IN SOG_IN B _IN G _IN R _ IN +5V_DC +3V3 3. 12.9 a v_1_in D 25 5.4K S OY 2_IN G N D _A DC + 5V _DC G NDV C 326 Y 2 _IN 2. 12.8K 2 D T V _Y _IN1 L29 120ohm/ 100MHz DTV _P b_IN1 L30 120ohm/ 100MHz DTV _P r_IN1 L31 120ohm/ 100MHz R 304 R 274 R 270 7 5R 7 5R 7 5R R 329 22K C 238 10uF U 18 C223 1uF G NDV R 213 0R C 131 1000pF C 165 0. 2008 1 1.14. 5.8K ISP FROM SCART 7 8 9 10 11 12 13 14 15 16 7 Y 8 1 A V _V IN Pb 3 S C2_A U_LIN 11/28 Modify A V _V IN CV B S 0_IN C 215 220pF D 20 5. 2uF C-0603 P B 2_IN 7 3 S C1_GIN CN7 G N DV SHILED VIN VOUT GNDVI GNDVO RGBSW RIN GNDSW GNDR N. 4.C.2V R 129 NC/ 100K S CA RT_IS P _TRAP R 128 10K S CA RT_IS P _TRAP 13 1 1 3 2 1 Q21 2N3904 R 104 1 00R C C Y Pr Pr CVBS CN9 S C1_A U_LIN S C 1_A U_RIN A U_A IN1L A U_A IN1R R190 R312 A U_A IN1L A U_A IN1R 10K 10K 4 4 R 314 6.2V R 292 47K R 230 47K S CA RT_ISP S C1_A U_ROUT C327 1 uF C328 1 uF A OUT0L A OUT0R 1 +3V3 D 18 9. 8uH Y 2 _ IN 7 C 237 220pF 2 2 2 R 303 7 5R S C1_GIN D 24 5. 7.0-1.C. 13. 2uF C-0603 11/28 Modify P R 2_IN 7 2 1 G N DV G NDV C 325 2 CV B S 2_IN C 199 220pF L14 1. 01uF C 155 S OY 1_IN R 305 6.4v 5-8v: 16:9 AV -> 1.6V 1 G N DV G N D _A DC + 5V _DC G NDV R245 R 244 R 242 7 5R 7 5R 7 5R S C1_FS S C1_B IN S C1_A U_LIN 1 G N DV G NDV S C1_A U_LOUT S C 1_A U_RIN S C1_A U_ROUT S C1_A U_LOUT G N DV G N DV G NDV S C1_A U_ROUT S C1_A U_LOUT D 19 9. 4.15 +5V_SW 1. 8uH CV B S 0_IN 7 C 207 220pF R 259 7 5R S C2_A U_LIN R 306 R 308 10K 10K A U_A IN2L A U_A IN2R A U_A IN2L A U_A IN2R 1 G N DV G NDV G NDV S C 2_A U_RIN A U_A IN2L A U_A IN2R 4 4 12 13 Y G NDV R 307 + 5V _S W _4052 R 412 1 0R 6. 7.4v BAV99L D 15 1 C 234 220pF L22 1.8K 14 Pb 4 15 16Pr 6 A V 1-3X2 R 243 1 00R C 158 0.6V D SCART1 AV+RGB 7 BAV99L D 16 C 232 220pF L21 1. 8uH C 233 220pF C 324 P R2_IN 2.6V 9 Pr 5 S C 2_A U_RIN 10 11 2 L17 1.15 G N D 3 +5V_SW +5V_SW S C1_B IN 11/28 Modify TXD_1003 RXD_1003 TXD_1003 RXD_1003 2. 9. 01uF C 179 0.6v 9. 10.8K A U_A IN1L A U_A IN1R 7 7 A OUT0L A OUT0R A OUT0L A OUT0R GND R 186 6.5-12v: 4:3 AV -> 1.9 2. 11. 2uF C-0603 S C1_FB S C 1_RIN S CA RT_ISP 3 S C 1_RIN S OG_IN S OY 2_IN 7 7 BAV99L D 14 C 236 220pF L23 1. 8uH C 235 220pF D 2 1 G N DV a v _1_out a v_1_out 3 S OG_IN R-0603 R 286 N C / 0R R-0603 2 1 RXD_1003 R 287 N C / 0R 2 1 TXD_1003 R 289 10K D 17 nc / 15V R216 2.M ay 01.0 3 S heet of 1 5 . 8. 01uF Y 1 _IN Y 1 _IN 7 VCC B A V 99L B A V 99L BAV99L D 23 D22 D 21 DTV _P b_IN1 DTV _P r_IN1 16 B 3 3 3 D T V _Y _IN1 S OY 1_IN 7 B 2 1 2 1 2 1 G N D _A DC R 330 13 13 13 D V D _Y _IN D V D_P B _IN D V D_P R_IN G NDV 22K 2 5 11 14 3 6 10 13 P I5V 330 1A 1B 1C 1D 2A 2B 2C 2D A B C D 4 7 9 12 R 246 1 00R R 257 1 00R P B 1_IN P B 1_IN 7 P R1_IN P R1_IN 7 11/28 Modify VSS EN S 15 1 S W _HD S W _HD 7 N C / 10pF + 5V _DC G N D_A DC G N D_A DC G N D _A DC + 5V _DC + 5V _DC 8 G N D_A DC 11/30 G N D_A DC Modify G NDV A A SUNPLUS Title Input-2 Video Size C Dat e: 5 4 3 2 Doc ument Number Rev SPTV05-13-V1 T hursday.9-2. 6. 2.13.5 4 3 2 1 1. GIN N. GNDG FunSel BIN AIL GNDB GNDA AOL AIR AOR S CA RT Connec tor G NDV G NDV 2 2 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 FS -> SOY2 / SARIN1 0-2v: TV M ode -> 0-0. 8uH C 185 220pF R 258 7 5R CV B S 2_IN G N D _A DC + 5V _DC P B 2_IN 2. 7. 2 .1 1 .0 of 15 S heet 4 .CVBS 4052 ch2:PC output 4052 ch3:TV MONO D 5 4 3 2 1 P HONE S t e re o A u d i o In R 2 78 10K A IN 0L R 2 76 10K A IN0 R A U _ A IN 1 R C 3 30 R275 6 .9 .8K R277 6 . 3 . 5 . 6 . 2008 1 1.1 3 .1 3 .1 4 .1 2 .5 4 3 2 1 + 5V_SW_4052 4052 ch0:SCART PC-->SPV7100 :NC DVD-->SPV7100 :CH1 4052-->SPV7100 :CH2 DVB-->SPV7100 :CH3 D PC Audio Input C N6 A U _ A I N1 L C 3 2 9 1uF R198 4 7K R187 4 7K 4052 ch1:YPrPr. 2 . 1 2 . 7 .1 uF Stereo Audio Connector Top Diagram A U _ A IN 2 R C 3 3 2 1 uF 12 14 15 11 1 5 2 4 R173 4 7K R273 4 7K + 5V_SW_4052 A U_ S W0 A U_ S W1 1Y0 1Y1 1Y2 1Y3 2Y0 2Y1 2Y2 2Y3 S0 S1 IE 7 4 H C 4052 1Z 2Z 3 A IN2 R 13 D V B _ A L _ OUT A IN 3L A IN3 R 13 D V B _ A R_ OUT 10 9 6 VEE GND 7 8 C A UDIO _ E N A IN 2L A IN2 R A IN 2L A IN2 R 7 7 R196 4 7K R181 4 7K 12 C A IN 3L A IN3 R A IN 3L A IN3 R 7 7 A IN 0L C 3 33 1uF 1 . 8 .8 .1 5 +3 V 3 + 5 V_SW + 3V3 + 5 V _SW + 3V3 A U_ S W0 A U_ S W1 A U _ A I N1 L A U_ A IN1 R A U_S W 0 A U_S W 1 A U _ A I N1 L A U_ A IN1 R 7 7 3 3 A IN0 R C334 1uF 1 . 7 . 3 .1 3 .8K 1uF + 5 V_SW_4052 R192 4 7K R180 4 7K (to SPV7100 & SCART-2) U16 + 5 V_SW_4052 1 5 R-Pho 3 L-Out 2 L-Pho R177 4 7K R191 4 7K 4 R-Out VCC A U _ A I N2 L C 3 3 1 1 u F 16 13 A IN 2L C239 0 . May 01. 3 .1 0 .9 .1 5 GND A U _ A I N2 L A U_ A IN2 R A U _ A I N2 L A U_ A IN2 R 3 3 R200 4 7K GNDV R188 4 7K B + 5 V_SW_4052 B R 3 31 47K R 3 32 47K A IN 1L C 3 3 5 1 uF A IN 1L A IN1 R A IN1 L A I N1R 5 5 A IN1 R C 3 3 6 1 uF R 3 33 47K R 3 34 47K A A SUNPLUS T itle Input-3 Audio and DTV S ize A3 Da te : 5 4 3 2 D o c u m e n t N u mb e r R ev SPTV05-13-V1 Thursday.1 5 + 5 V _ S W 1 .1 4 .1 0 . 15 +5V_SW +5V_SW +5V_SW 2 1.9.7.3. 2008 1.5 4 3 2 1 C N8 1 2 D 4 3 4 2 1 3 s-c s-y C313 D55 NC/220pF nc L37 3.3.0mm DTV_Pr_IN2 13 DVD_PR_IN 13 R294 R234 DVD_EN IR_DVD 10K 10K AIN1L AIN1R 7 9 R233 6.15 G ND GNDV 1 GNDV GNDV GNDV GNDV C C NC R472 DTV_Y_IN2 13 DVD_Y_IN 13 2 D63 5.2.0 5 Sheet 1 of 15 4 3 2 .8uH DVD_PB_IN C342 220pF GNDV GNDV NC R474 R366 75R 13 A 1 2 3 4 5 6 7 8 9 10 11 CON11/2. May 01.8.4.13.3uH C2_ IN 2 CVBS1_IN C314 330pF R426 75R C2_ IN AIN1L AIN1R CVBS1_IN C2_IN AIN1L AIN1R 4 4 7 7 D 7 6 5 S_VIDEO GNDV 1 GNDV C315 D56 220pF nc L38 1.10.8uH C340 220pF GNDV R365 75R 1 GNDV GND_ADC NC B R473 DTV_Pb_IN2 DTV_Pb_IN2 13 B C341 220pF GNDV CON7 Y GND PB GND PR GND LEFT RIGHT GND EN IR L40 1.12.8uH GNDV GNDV CVBS1_IN C316 220pF R427 75R 1.8K C343 220pF GNDV R295 6.6V C339 220pF GNDV L39 1.4.6.8uH C344 220pF GNDV R367 75R DVD_EN IR_DVD GNDV Title SUNPLUS Input-2 Video Size A Date: Document Number R ev A GNDV GNDV 5 GNDV SPTV05-13-V1 Thursday.12.13.11.14.8K L41 1. ..15] SDRAM Data Bus +2V5 +2V5 MD8 MD9 MD10 MD11 MD12 7 D MA[0.1uF *add MA11 MA9 MA8 MA7 MA6 MA5 MA4 GNDM C These components close to DDR W EN CA SN RA SN MD13 MD14 GNDM R103 22K +2V5 CKE R86 10R CK ER +2V5 +1.0 6 1 Sheet of 15 .. June 12.11] BA0 BA1 MA[0.25V *Short these ground planes on PCB GNDM CLOSE TO 7100 +2V5 A SUNPLUS C21 C36 1000pF 10uF/10V C18 0. 2008 1.15] MD[0.25V 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 R99 47R VDD DQ0 VDDQ DQ1 DQ2 VSSQ DQ3 DQ4 VDDQ DQ5 DQ6 VSSQ DQ7 NC VDDQ LDQS NC VDD NC LDM WE CAS RAS CS NC BA0 BA1 AP/A10 A0 A1 A2 A3 VDD VSS DQ15 VSSQ DQ14 DQ13 VDDQ DQ12 DQ11 VSSQ DQ10 DQ9 VDDQ DQ8 NC VSSQ UDQS NC VREF VSS UDM CK CK CKE NC NC/A12 A11 A9 A8 A7 A6 A5 A4 VSS 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 MD0 MD1 MD2 MD3 MD4 MD5 MD6 +2V5 D +2V5 C 8Mx16 DDR-SDRAM-TSOP GNDM GNDM R93 10R S DCLKP MCLKP All traces must have the same length HY5DU281622ETP(128Mb/2Mx16x4B) B R335 75R CLOSE TO DDR GNDM B R94 10R SDCLKN MCLKN R95 47R +1.11] BA0 BA1 +2V5 7 7 7 7 7 W EN CASN RASN MD15 +2V5 MD7 +2V5 R70 7 7 7 7 7 7 7 CKE SDCLKP SDCLKN DQS0L DQS0H DQM0L DQM0H CKE S DCLKP SDCLKN DQS0L DQ S0H DQM0L DQM0H DQ S0H DQS0L +1.7K +2V5 DQM0H W EN CA SN RA SN C SN BA0 BA1 MA10 MA0 MA1 MA2 MA3 DQM0L MCLKN MCLKP CK ER R87 4.1uF Title A DDR PART Size A Document Number R ev GNDM Date: 5 4 3 2 SPTV05-13-V1 Thursday.7K C35 0..5 4 3 2 1 U5 7 MD[0.25V 4. 7K R 132 4.2uF 2.5 4 3 2 1 Crystal Circuit C L K IN X1 R 150 27MHz 30ppm 20P X'TAL + 5V _DDC R 149 D IO Trap <Trap0> + 3V 3_LVDS 2 2R C LK OUT + CV DD R90 DQS0H DQM0H R98 Memory I/O Close to 7100 0R <Trap1> <Trap2> + CV DD TX0M0 TX0P0 TX0M1 TX0P1 TX0M2 TX0P2 TXCLK0M TXCLK 0P TX0M3 TX0P3 TX1M0 TX1P0 TX1M1 TX1P1 TX1M2 TX1P2 TXCLK1M TXCLK 1P TX1M3 TX1P3 CKE (Pin-164) R 85 4.2uF 2. 047uF C C IR656-CLK VGA/YUV Input A Video Input Audio Input Audio Output A I N2L_IN A I N 2R_IN A I N3L_IN A I N 3R_IN R359 R360 R361 R362 200K 200K 200K 200K + 3V 3_AUO A UO_1L R 414 10K A OUT1L C 309 0.2uF AIN2L_IN C190 2. 7] R 203 8.M ay 01. 047uF Title G N D _A DCGND_TMDS G N DP G ND_A UO GNDM *Short these ground planes on PCB SPV7100 Part-1 Size C Dat e: Doc ument Number Rev SPTV05-13-V1 T hursday. 12. 1uF < A s s embly> DQM0H D QS 0H DQM0L DQS 0L S DCLK N DQM0H D QS 0H DQM0L DQS 0L S DCLK N 6 6 6 6 6 G NDM Default Pull Setting +3V3 + S V DD +3V3 +3V3 +3V3 C R 153 10K + CV DD I 2C_S W R 475 R 152 R 476 R 162 1K 1K 1K 1K I 2C_S W S W _HD P OW E R_ON MUTE_AMP I 2C_S W R 368 1K S W _HD2 I 2C_S W B L_ON R 142 10K R 154 10K R317 10K MUTE_AMP P OW E R_ON 11/27 ADD +3V3 HDMI Input 12 R369 10K R 164 1K D V D_E N + CV DD + DV DD C C I R656-D0 C C I R656-D1 C C I R656-D2 C C I R656-D3 C C I R656-D4 C C I R656-D5 C C I R656-D6 C C I R656-D7 C C IR656-CLK /WP /WP 2 S W _HD P A NE L_ON P OW E R_ON B L_A DJ B L_ON MUTE_AMP S W _HD P A NE L_ON P OW E R_ON B L_A DJ B L_ON MUTE_AMP S W _HD 3 10 1 10 10 11 +3V3 R370 10K S W _HD2 B S CL_M SDA_M C 118 C 113 5 pF C 389 56pF 5pF 10/24 Add S W _HD2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 3 5 3 12 CV B S 0_IN CV B S 1_IN CV B S 2_IN CV B S 3_IN H P D_HDMI H P D_P C Close to 7100 MIDS CV C 124 1 uF GND_TMDS H P D_HDMI H P D_P C 2 2 + 1V 8_ADCA G N D _A DC R235 180R R 236 8.13 9.2uF A I N 3R_IN VCM_AUI VCM_AUO V R P _SIF VCM_SIF V R N _SIF A UO_0L AUO_1L AUO_1R G ND_A UO C172 0. 15] TX0M0 TX0P0 TX0M1 TX0P1 TX0M2 TX0P2 TXCLK0M TXCLK0P TX0M3 TX0P3 TX1M0 TX1P0 TX1M1 TX1P1 TX1M2 TX1P2 TXCLK1M TXCLK1P TX1M3 TX1P3 H OLD_FLA S H 2 CKE S DCLKP 6 6 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 + 3V 3_LVDS LVDS Output TX1M0 TX1P0 TX1M1 TX1P1 TX1M2 TX1P2 TXCLK1M TXCLK1P TX1M3 TX1P3 CKE SDCLKP SDCLKN DQM0L DQS0L MD0 MD1 MD2 MD3 MD4 MD5 MD6 MD7 WEN CASN RASN MD8 MD9 MD10 MD11 MD12 MD13 MD14 MD15 C 91 33pF C 99 33pF R 299 10K H P D_P C G NDP TX0M0 TX0P0 TX0M1 TX0P1 TX0M2 TX0P2 TXCLK0M TXCLK0P TX0M3 TX0P3 4.9 2. .1uF C159 CVBS1_IN C160 C2_IN C166 C180 CVBS2_IN CVBS3_IN C181 1K A OUT0L A OUT0R A OUT1L A OUT1R A OUT0R C CIR656-D[ 0. 1uF C-0603 C 242 1 0uF C-0805 C 140 0.7K C 64 0.0 7 S heet of 1 5 5 4 3 2 . 7] 13 C C IR656-CLK 13 C164 0.9 9 9 9 R XD TXD I R_DA T S D1_FLA SH S D0_FLA SH R XD T XD C-0603 I R_DA T S D1_FLA SH S D0_FLA SH CE N_FLA S H S CK _FLA SH S TB _A C_ON I R_DA T MPU & SPI C 49 22pF Memory I/O R XD T XD RE S E TN B L_A DJ M CU_IO 3 3R 3 3R 3 3R UART_RX AVSS33_LVDS AVDD33_LVDS TX0M[0] TX0P[0] TX0M[1] TX0P[1] TX0M[2] TX0P[2] TXCLK0M TXCLK0P TX0M[3] TX0P[3] AVSS33_LVDS AVDD33_LVDS TX1M[0] TX1P[0] TX1M[1] TX1P[1] TX1M[2] TX1P[2] TXCLK1M TXCLK1P TX1M[3] TX1P[3] PVSS33_LVDS PVDD33_LVDS DVDD18 CKE CLKP CLKN DQM0L DQS0L SVDD25 SVSS25 MD[0] MD[1] MD[2] MD[3] MD[4] MD[5] MD[6] MD[7] SVDD25 SVSS25 MD[8] MD[9] MD[10] MD[11] MD[12] MD[13] MD[14] MD[15] SVDD25 SVSS25 DQS0H DQM0H WEN CASN RASN DVDD18 DVSS18 VSSR_0 VREF_0 RE S E TN C-0603 C 47 C-0603 56pF C 46 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 These components close to SPV7100 G NDM CE N_FLA S H 9 S CK _FLASH 9 S TB _A C_ON 1 S D1_FLA SH R 107 S D0_FLA SH R 121 CE N_FLA S H S CK _FLA SH R 106 HOLD_FLA S H 9 L E D_C L E D_C + DV DD B L_ON C 76 56pF C 63 + CV DD P A NE L_ON L E D_C /WP S TB _A C_ON H P D_HDMI S DA _VGA S CL_VGA S DA _HDMI S CL_HDMI C 61 56pF C 2 2 2 2 S DA _VGA S CL_V GA S DA _HDMI S CL_HDMI S DA _VGA S CL_VGA S DA _HDMI S CL_HDMI 56pF + 3V 3_XTAL C L K IN C LK OUT + 1V 8_AUD 2 2 2 2 2 2 2 2 R XCM R XCP RXM0 RXP 0 RXM1 RXP 1 RXM2 RXP 2 R XCM R XCP RXM0 RXP 0 RXM1 RXP 1 RXM2 RXP 2 + 3V 3_TMDS R XCM R XCP RXM0 RXP 0 2 2 2 2 3 2 3 3 3 3 3 3 3 3 HS _VGA VS_VGA B _IN G _ IN S OG_IN R_IN Y 1 _IN S OY 1_IN P B 1_IN P R1_IN Y 2 _IN S OY 2_IN P B 2_IN P R2_IN HS _V GA VS_VGA B _IN G _ IN S OG_IN R_IN + 3V 3_ADCP Y 1 _IN S OY 1_IN P B 1_IN P R1_IN Y 2 _IN S OY 2_IN P B 2_IN P R2_IN RXM1 RXP 1 RXM2 RXP 2 + CV DD C 117 390pF+-5% F ILT AVDD18_ADC BIN GIN SOG RIN AVSS18_ADC AVDD18_ADC Y1 SOY1 PB1 PR1 AVSS18_ADC VCM AVDD18_ADC Y2 SOY2 PB2 PR2 AVSS18_ADC BVSS33_ADC BVDD33_ADC AVDD18_ADC CVBS0 C1 CVBS1 C2 CVBS2 CVBS3 AVSS18_ADC CVBSOUT DVSS18 DVDD18 SARIN0 SARIN1 AVDD33_SAR AVSS33_SAR AIN0L AIN0R AIN1L AIN1R AIN2L AIN2R AIN3L AIN3R VCM_AUI AVDD33_AUI AVSS33_AUI AVSS33_SIF AVDD33_SIF VRP_SIF VCM_SIF VRN_SIF SIFAIN0 SIFAIN1 AOUT0L AOUT0R AVDD33_AUO VCM_AUO AVSS33_AUO AVSS33_AUO AOUT1L AOUT1R CLK24P CLK24N/EXINT0 B C 123 R 170 8200pF+-5% 5.1uF 0..13 4 4 1 1/30 Note 9 S A RIN0 B_IN G_IN SOG_IN R_IN S A RIN0 VCM C 157 1uF C-0603 G N D_A DC VCM 0.2K A UO_0R SARIN0 C169 CVBS0_IN C 137 A IN3L A I N3R 0.11] MA10 MA0 MA1 MA2 MA3 MA4 MA5 MA6 FB 10 R 126 120/ 100M 4.13 RE S E TN 56pF 2.2K R336 1K R337 1K R338 1K R339 1K C189 2. 15] WEN CASN RASN MA [ 0. . .11] BA0 BA1 6 6 6 6 6 6 6 W EN C ASN R ASN MA [ 0.2uF 2.7K 0R +1V25 + MV DD <Trap3> <Trap4> <Trap5> D U9A 9. 1uF C-0603 C 243 10uF C-0805 12 S IFA IN0 S IFA IN0 G N D_A UO + 3V 3_ADCB + CV DD + 3V 3_IN + 3V 3_IN + 3V 3_IN S I FAIN0 4 4 A IN3L A I N3R + 3V 3_AUO R413 2K AU_SW0 AU_SW1 AIN2L AIN2R AIN3L AIN3R 4 4 A IN2L A I N2R A IN2L A I N2R V CM_A UI V CM_A UO C142 C CIR656-D[ 0. 047uF A OUT0L R 229 8.2uF A I N 2R_IN C167 2. . 047uF 10/25 Add A * change C200-203 nets R415 2K A UO_1R R 179 10K A OUT1R SUNPLUS C 310 0.2uF AIN3L_IN C168 2.2uF SCL_M SDA_M A U_S W0 A U_S W1 9.2K A OUT0L A OUT0R A OUT1L A OUT1R 3 3 11 11 C170 56pF R183 C138 R218 180R R 219 8. 12.2uF 2. 6K+-1% H P D_P C HS _V GA VS_VGA MIDS CV 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 These components close to SPV7100 CV B S 0_IN CV B S 1_IN CV B S 2_IN CV B S 3_IN UART_TX RESETN PWM3/EXINT1 PWM2/WP_FLASH IR_DAT SD1_FLASH SD0_FLASH CEN_FLASH SCK_FLASH HOLD_FLASH TESTMODE DVSS33 I2SDA3/SPDIFO I2SDA2/SPDIFI I2SMCLKA/JCLK I2SDA1/JTMS I2SDA0/JTDO DVDD33 I2SCLKA/JTDI I2SWSA/JRSTN DVDD18 HPD_HDMI SDA_VGA SCL_VGA SDA_HDMI SCL_HDMI PWM1//EXINT2 PWM0 DPLLVSS33 DPLLVDD33 AVDD33_REG AVDD33_XTL XTALI XTALO PVSS18_AUD PVDD18_AUD PVSS33_TMDS PVDD33_TMDS AVDD33_TMDS RXCM RXCP AVSS33_TMDS AVDD33_TMDS RXM[0] RXP[0] AVSS33_TMDS AVDD33_TMDS RXM[1] RXP[1] AVSS33_TMDS AVDD33_TMDS RXM[2] RXP[2] AVSS33_TMDS DVSS18_TMDS DVDD18_TMDS PVDD33_ADC FILT PVSS33_ADC HSYNC1 VSYNC1 HSYNC0 VSYNC0 MIDSCV S P V 7100A -LQFP256 CAFE BA0 BA1 SVDD25 SVSS25 MA[10] MA[0] MA[1] MA[2] MA[3] MA[4] MA[5] MA[6] SVDD25 SVSS25 MA[7] MA[8] MA[9] MA[11] DLLVSS18 DLLVDD18 MPLLVDD33 MPLLVSS33 VSSR_1 VREF_1 GPIO/DQM1L GPIO/DQS1L I2SWSB/MD[16] I2SCKB/MD[17] I2SDB0/MD[18] I2SDB1/MD[19] SVDD SVSS I2SMCLKB/MD[20] I2SDB2/MD[21] I2SDB3/MD[22] PWM2/MD[23] DVDD18 VDO[0]/MD[24] VDO[1]/MD[25] VDO[2]/MD[26] VDO[3]/MD[27] SVDD SVSS VDO[4]/MD[28] VDO[5]/MD[29] VDO[6]/MD[30] VDO[7]/MD[31] VCLKO/DQS1H GPIO/DQM1H DVDD18 DVSS DVDD33 VD[0] VD[1] VD[2] VD[3] VD[4] VD[5] VD[6] VD[7] VCLK SCL_M SDA_M DVDD18 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 BA0 BA1 DDR VREF +1V25 + MV DD MD[ 0.2K AUO_0L AUO_0R S CL_M SDA_M A U_S W0 A U_S W1 5 C 2 _IN C 2 _IN G N D _A DC Y1_IN SOY1_IN PB1_IN PR1_IN Y2_IN SOY2_IN PB2_IN PR2_IN 2. 2008 1 1.7K D V D_E N BA0 BA1 D V D_E N 5 MA7 MA8 MA9 MA11 + 1V 8_DLLVDD + 3V 3_MPLL R141 4.1uF 0.7K HOLD_FLA S H G NDM CKE S DCLK P MD[ 0. . +1V8_AUD Ground Plane: GND.1uF 120/100M C79 C62 D XTAL POWER/GND (3.+AVDD_ADC Power Line : +12V.015 . GND_ADC.5.1uF +2V5 FB5 120/100M + MVDD P in116 P in126 P in139 P in149 P in159 G ND _AUO C253 10uF C52 0.1uF C53 0.7.9. +1V8_TMDSP. GNDP. Z=75/100MHz .2R C378 EC85 10uF 470uF/16V C379 0.2.1uF C121 0. +1V8_TMDS.10.8V/3. May 01. GNDM. Z=120/100MHz .2 . ND_LVDS. +3V3_SPV .3V) +1V8 + CVDD SARADC/SIF/AUDIO POWER/GND (3.35 .1uF C66 0. Idc=500mA ~ MCB2012S301H FB_L : Rdc=0.14.3. Z=300/100MHz .1uF C135 0.8V) TMDS AUD PLL POWER/GND (1.12.1uF 10uF D ADC POWER/GND (1.1uF C250 10uF C109 G NDP 0. GNDV.3V) +1V8_ADCA Ferrite Beed Spec: FB : Rdc=0. +3V3_ADCP .7.8V) +1V8 FB17 0R +1V8_AUD C244 +3V3 FB8 C93 0.8V/2.11.1uF C101 0.1uF G ND_ADC 11/30 Modify GND_T MDS SPV7100 E-Pad U9B B SOURCE POWER/GND (1.1uF C247 10uF C130 0.3V) Close to 7100 10/25 ADD +3V3_SW7100 LVDS POWER/GND (3.1uF C111 0.10.+3V3_MC.1uF C133 0. Idc=6000mA ~ MHC3216S121W FB_S : Rdc=0.1uF 0. +2V5.4.1uF 100uF/16V 0.1uF C307 10uF 1uF 0.1uF +3V3 G ND_ADC +3V3_LVDS FB3 120/100M +3V3_TMDS C26 10uF /10V 120/100M C34 0. +3V3.1uF Power Plane : +5V. +3V3_ADCB. +VCC_PNL.3V/1. +1V8_DLLVDD.1uF G ND _ADC G ND _AUO G ND M G NDP GND_T MDS G ND _ADC +3V3 FB24 C 11/30 Modify *Short these ground planes on PCB +3V3_ADCP P in249 C248 10uF C120 0.2.1uF 11/30 Modify CAP100 EC84 470uF/16V 0.1uF 120/100M 120/100M C254 10uF *add C80 0.3V) +3V3_XTAL +3V3 FB13 120/100M +3V3_MPLL .9.1uF C40 0.13.1uF 120/100M C252 10uF C139 0. Idc=300mA ~ MCB1608U750F P in1 P in7 P in14 C95 0.1uF 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad Epad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad EPad 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 T itle B A E-Pad SPV7100A-LQFP256 SUNPLUS SPV7100 Part-2 Size C u stom Date: Document Number Rev SPTV05-13-V1 Thursday. 2008 1 1 .14.15 +3V3 1 +1V8 +3V3 +1V8 +3V3 +1V8 PLL POWER/GND (3.8V/3.3.1uF C380 C381 P in32 + EC54 C50 P in65 P in79 P in92 P in132 P in165 P in213 C39 0. +3V3_DPLL .1uF +3V3 FB15 + S VDD G ND _AUO G NDM +3V3 FB22 A + DVDD P in77 C58 0. GND_AUO.5V/3.15 G ND C67 0. +3V3_MPLL .1uF 120/100M TMDS POWER/GND (1.3V) 10/25 ADD +3V3_SW7100 +3V3_SW7100 + 3V3_IN +3V3_AUO FB26 FB33 2.1uF C54 0. GND_TMDS.0 8 Sheet of 15 5 4 3 2 .1uF 0.6.5 4 3 2 1 1. GND_AMP +1V8 FB12 0R +1V8_DLLVDD P in22 C122 C308 C246 10uF /10V C68 10uF /10V 0.1uF C41 0.13.+1V8.3V) C P in231 P in235 P in239 P in243 +3V3_SW7100 +3V3_ADCB FB25 FB21 P in21 120/100M C251 10uF C134 0. +5VSB. 3.11.2K KPD1 R17 2K KPD2 7 KPD3 +5VSB R13 47R R19 3.12.13.14.13 SDA_M 7 SD0_FLASH 7 SD1_FLASH 7 SCK_FLASH 7 CEN_FLASH 7 IR_DAT 2 WP# EN25T80/DIP <Assembly > DIP8 Flash Interface 11/05 Add RXD TXD 2.6K R8 10K R14 R20 IR 6.15 GND HOLD# SCK_FLASH SD1_FLASH 0. June 12.1uF +3V3 R67 1K CEN_FLASH SD0_FLASH 1 2N3904 1 R120 R119 10K 10K U8 1 2 WP# 3 4 CE# SO WP# GND VDD HOLD# SCK SI 8 7 6 5 R171 2K2 B KPD6 R22 NC SARIN0 RESETN +5VSB 7 7. 2 .5.13 +5VSB 2 Q10 SARIN0 RESETN 1.10.4.13 +5VSB 1 .0 2N3904 1 GND Flash Interface FB4 120/100M +3V3L-0805 1 2 +3V3_FLASH C255 KPD4 10uF 47K 2 3 Q4 2N3904 1 R49 +5VSB GND 47K 3 IR_DAT EEPROM C25 +3V3 R68 10K R69 10K U15 C94 1 2 3 4 A0 A1 A2 GND VCC WP SCL SDA 24LC32 SOP8 8 7 6 5 R172 2K2 0.13 SCL_M 7.0 of 15 Sheet 9 .12. 2008 Rev 1.1uF R420 1K 7 LED_C Q54 2N3904 R425 +5VSB 47K IR_DVD 5 R424 10K R82 2 1 NC/1K R-0603 3 2 3 R77 10K R-0603 2 2 D4 1N4148 1 D-1206 RESETN KPD0 +5VSB Q18 NC/AP1701F 1 1 R423 10K Q52 2N3904 + EC74 47uF/16V R18 2.7 2.54 RXD TXD 7.1uF SCL_M SDA_M C388 C387 390pF 390pF JP2 2 JP2/2.4K +5VSB R24 1K 2 Q55 CON14-2.7.5.6.5 4 3 2 1 D D C C +5VSB +5V_DC D34 BAV99L 3 1 +3V3 R421 1K R416 1K 2 Q56 2N3906 R422 1K Hardware Reset +3V3 1 2 3 LED_G_ON LED_R_ON R468 10K CON8 CH + CH SEL MENU V + V MUTE GND GREEN RED POWER GND REMOTE 5V 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1 KPD_POWER KPD6 2 KPD5 3 KPD4 4 KPD3 5 KPD2 6 KPD1 7 8 9 LED_G_ON 10 LED_R_ON KPD0 11 12 IR 13 IR 14 SARIN0 R16 1.54 EN25T80/SOP <Assembly > SOP8\300mil GND SCL_M SDA_M SD0_FLASH SD1_FLASH SCK_FLASH CEN_FLASH IR_DAT CEN_FLASH SD0_FLASH WP# 1 2 3 4 +3V3_FLASH U7 CE# SO WP# GND VDD HOLD# SCK SI 8 7 6 5 HOLD# SCK_FLASH SD1_FLASH RS-232 Interface +5V_DC J6 1 2 3 4 DIP/PIN4/2.8.10.7 A A SUNPLUS Title MCU Interface Size D Date: 5 4 3 2 1 D ocument Number SPTV05-13-V1 Thursday.12.2K KPD5 R21 11K B C8 0. 15 +5V_SW +12V_IN +5V_SW +12V_IN +5V_SW C-0603 56pF 2 2 B Q17 2N3904 C257 C-0805 1uF R66 75R 1 +VCC_PNL 5 6 7 8 C13 0.12.2.0 DIODE1N4001 DIODE1N4001 R51 47K R50 2K2 R12 100 R32 2 3 2 1 Q11 NC R54 47K 2 1 1K 3 Q7 2N3904 1 2 3 +5V_DC R56 R55 NC R57 NC BL_ON 1K JP1 SIP3/2. 2008 1.5 4 3 2 1 7 7 BL_ADJ BL_ON BL_ADJ BL_ON 11/06 For layout change +5VSB +12V_power 2 EC86 FB2 GNDP 470uF/25V L44 22uH/2A 1 6 5 4 3 2 1 J4 7 7 12V 7 12V BRI_ON/OFF 7 TXCLK0M BRI_ADJ 7 GND 7 GND 7 7 7 TXCLK1M 7 GNDP TX0M0 TX0M0 TX0M1 TX0M1 TX0M2 TX0M2 GNDP 1 R47733 2 TX0M3 TX0M3 TX1M0 TX1M0 TX1M1 TX1M1 TX1M2 TX1M2 GNDP R479 33 2 1 TX1M3 TX1M3 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 D +VCC_PNL 120/100M R28 NC R29 NC D R5 47K R3 1K BL_ADJ 2 1 R30 10K 3 TX0P0 TX0P1 TX0P2 TX0P3 TX1P0 TX1P1 TX1P2 TX1P3 Q6 2N3904 C9 1uF C-0603 R31 nc R4 NC C151 = 1uF ~ 10uF +5VSB 11/06 For layout change GNDP ODD TX0P0 7 (1st pixel) TX0P1 7 TX0P2 7 GNDP 1 R478 33 2 TXCLK0P TX0P3 7 EVEN TX1P0 7 (2nd pixel) TX1P1 7 TX1P2 7 GNDP 1 R480 33 2 TXCLK1P TX1P3 7 7 7 C D64 D65 J3 1N4002 1N4002 15x2PIN/2.4.4.1uF EC11 100uF/16V GNDP 1.3.7.8.3. May 01.0 1 0 Sheet 1 of 1 5 .13.54 R496 0ohm-0805 R497 NC L1 NC R62 47K Q13 NDS9435A/SO 4 3 2 1 +12V_IN C +3V3 +3V3 B 3 1 R61 7 PANEL_ON 1 10K C23 1.15 GND A 1 2 3 G1 3_5mm_8via 7 6 1 2 3 G2 3_5mm_8via 7 6 1 2 3 9 8 9 8 GNDP G3 3_5mm_8via 7 6 SUNPLUS Title 9 8 A Panel Output Size Custom Date: 3 2 4 5 4 5 GND_PWR GND_TMDS 5 4 4 5 Document Number Rev SPTV05-13-V1 Thursday.12.6.5.9.5.11 +12V_IN 1.13.11.14. 1uF L-0805 SAW R409 75 0. 2008 1 1.B.8K R381 22K GNDTA Q47 2N3904 1 2 3 1 R383 75 CVBS_TV1 9 8 7 6 D 3 G NDV 2 R389 560K C291 0.2AX DTV_CVBS 1A 1B 1C 1D 2A 2B 2C 2D VCC A B C D GNDTA GNDTA TUNER_RF_AGC VSS 1 C372 10uF 2 C174 0.47uF TUNER_4MHz GNDTA R435 75R C346 100pF ATV_SCART 4 5 D 20 5V_ANT + T5V_IF 20 1 R380 6.01uF C-0603 7.3V +T5V_IF C206 0.B.5K R398 D48 GNDTA nc nc RF_AGC EC73 2.7K R-0603 +5V_SW_4052 TU_SCART C345 10uF 3 2 Q58 2N3904 1 Q57 2N3906 R430 68R 3 av_1_out 3 B D-1206 U22 D37 1N4148 +5V_SW R431 220R R432 12K R433 220R R434 220R GNDTA 2 16 2 2 5 11 14 3 6 10 13 4 7 9 12 1 TUNER_SCL TUNER_SDA TU_SCART 2 13 +5V_SW L4 10uH L0.C=H ===> ATV R350 10K GNDTA 8 R352 10K AUDIO_EN 4 R353 100K 2 Q41 2N3904 Title A 1 1 3 10uH 2 EC47 1000uF/6.1uF GNDTA C296 100pF L36 10uH L-0805 C297 0.1uF EC51 C-0603 1000uF/6.01uF C-0603 7 I2C_SW R351 1K 2 Q40 2N3904 3 L6 1 2 SUNPLUS TUNER PART Size B D ate: Document Number R ev 1 IFAGC_ONOFF 1 SPTV05-13-V1 Thursday.01uF C298 0.6K GNDTA These components close to SPV7100 CVBS3_IN CVBS3_IN 7 G NDTD GNDTA GNDTA 3 GNDTA R316 0R GNDTA GNDTA GNDTA B Q65 2N3904 Close to 2nd_IF NET Close to Close to Close to Close to CN9 FB37 FB12 3 Close to IFAGC NET 2 R495 100K IFAGC_ONOFF R428 27K +5V_DC R429 470R 1 R157 0R R155 0R R156 0R R267 0R R281 0R 1 1 GNDTD 1 2 1 1 GNDTA GNDTD G NDV R169C383 10pF C-0603 T_SCL T_SDA 1 GNDTA XT1 2 2 TU_SCL TU_SDA 2 R176 2 2 1 33R R-0603 1 33R R-0603 C384 10pF C-0603 T_SCL T_SDA C278 0.3V GNDTA 2 C173 0.1uF 12 C-0603 12 C279 10uF C-0805 1 GNDTA R168 4.8uH 7 C192 330pF L8 1 uH C186 220pF G NDV 1 2 3 4 5 6 7 8 9 10 11 12 R260 75R 3 G NDV G NDV G NDV C304 C305 GNDTA R410 5.13 SCL_M 7.47uF 10nF R403 R405 R407 C300 0 100 SCL_M 100 SDA_M 0.13 SDA_M 1 ATV_SCART RF_AGC EN S 15 1 +5V_SW 2 2 PI5V330 +5V_SW GNDTA A GNDTA A.9.2AX +T5V_BOOSTER +TUN_5V L13 10uH L0.8K 1 SAW 5 4 24 23 22 21 20 19 18 17 16 15 14 13 1 2 5 4 3 IFD1 IFD2 9.01uF GNDTA R395 6.01uF D59 BA277 +T5V_IF 330 22 ADDRESS 2 22 3 Q48 2N3904 3 21 21 RF_AGC 2 TUNER_RF_AGC C290 1uF GNDTA R386 180K CVBS_TV1 R387 220 +T5V_IF GNDTA C293 0.22uF R390 R396 7.8K GNDTA GNDTA D57 BA277 Z1 K9456D C292 C294 0.7K R-0603 2 R175 4.01uF Z2 K3953 GNDTA (to SPV7100) CVBS3_IN L7 1 uH C C 390pF GNDTA FB30 C301 120/100M 0. May 01.2uF R399 1.9.3V 1 2 1 C201 0.2uF EC89 2.5 4 3 2 1 CDT-9DT33C-00 T1 +T5V_IF G4 3_5mm_8via 1500pF 23 24 25 26 27 28 29 30 GND GND SCL SDA REF_4MHz 5VCC IF_OUT IF_AGC IF_OUT1 IF_OUT2 GND GND GND GND GND GND GND GND 1 23 24 25 26 27 28 29 30 4 5 6 7 8 9 10 11 R388 33 R391 33 R394 33 TUNER_SCL TUNER_SDA TUNER_4MHz +T5V_BOOSTER IF_OUT D58 BA277 C295 0.0 12 Sheet of 15 5 4 3 2 .1uF R406 39K GNDTD IF_OUT +TUN_5V 1 2 1 2 1 2 5 4 5 4 C302 C303 0.1K R402 R404 1K 13 13 IFAGC C386 220pF 13 2 SIF2 SIF1 OP2 AFC VP VPLL AGND CVBS VAGC REF TAGC NC U25 TDA9886 R400 47K Tuner TO SPV7100 GNDTA CVBS_TV1 CVBS_TV C193 220pF C187 470pF 10/25 Add VIF1 VIF2 OP1 FMPLL DEEM AFD DGND AUD TOP SDA SCL MAD 3 R401 22K GNDTA C299 GNDTA 0.1uF C-0603 C205 0.1uF R408 220 31 32 19 18 17 16 15 14 13 12 SIFAIN0 C194 470pF L9 1 .C=L ===> DTV A.1uF EC41 1000uF/6. 0 UART_ISP1 PIN5. 1uF C 69 0. 8uH 2 1 1 CCLK_OUT1 + A V DDRX R137 R-0603 G N D _U DM 12K DP R139 2 4. 9. 12 7.8 GND XT2 32.9 7. 1uF C-0603 2 FB18 C 96 NC NC L-0603 C-0603 1 +T3V3A +T3V3 GND + P LL_DEMOD + P LL_V CC3 P LLGND X OUT XI N R 144 2 40R R-0603 G N D _U L3 1.14] ROM_A0 ROM_A1 ROM_A2 ROM_A3 ROM_A4 ROM_A5 ROM_A6 ROM_A7 ROM_A8 ROM_A9 ROM_A10 ROM_A11 ROM_A12 ROM_A13 ROM_A14 ROM_D0 ROM_D1 ROM_D2 ROM_D3 ROM_D4 ROM_D5 ROM_D6 ROM_D7 FLA S H_WE R E S E TN_CI ROM_OE FLA S H_WE 15 2 + 3V 3_SW C281 10uF C 282 0. 1uF C-0603 0. 7. 7] 7 C C IR656-CLK C C IR656-CLK 1 2 C C I R656-D0 8 1 00R C C I R656-D1 6 C C I R656-D2 4 C C I R656-D3 2 C C I R656-D4 8 C C I R656-D5 6 C C I R656-D6 4 C C I R656-D7 2 RA -S MD-Y C16B T_S CL RA -S MD-Y C16B T_S DA R 167 11/05 Add 7 5 3 1 7 5 3 1 RN1 100R RN2 100R + 5V _S W_USB R411 +5V_SW 12 12 T_S CL T_S DA C R_W P JP3 usb 1 DM DP NC R-0603 C306 10uF 2 10/31 Modify C 116 15pF 12 I F A GC 5 6 7 8 GND 1 2 3 4 5 6 7 8 + V CCO3 I FA GC + V CCK 1.8 +VCCO3 GND_A V + V V CC3 S TB _AR 2 1 1 UART_TX UART_RX GND_AV GND_AV +VCCO3 TV_DAC0 R 356 2K2 R357 100 Q42 2S C9014 R358 10K D 38 1N4148 C 347 1 uF C 280 0.8 TXD_1003 RXD_1003 RE S E TN TXD_1003 RXD_1003 RE S E TN 2. 9. 1uF C 57 0.8 S CA RT_IS P _TRAP S CA RT_IS P _TRAP 3 15 ROM_D[ 0.8 GND 1 1 3 5 7 9 11 13 15 1 3 5 7 9 11 13 15 2 4 6 8 10 12 14 16 2 4 6 8 10 12 14 16 C R_W P C R _CMD C R _D0 C R _D2 GND S MC_IO S MC_CLK S MC_P RES S MC_RSTB S MC_V CCB ROM_CS 2 15 +VCCO3 +VCCO3 GND C 390 56pF C 391 5 6pF 2 2 2 GND GND 15 C I I N _CD1 15 C I I N _CD2 1 Card Reader Connector 10pF C-0603 15 C I_P W R_E N 15 C I_RE G 15 C I _RE A DY C I _RE A DY R 363 10K R-0603 SUNPLUS Title SPHE1003 Size C us t om Dat e: Doc ument Number Rev SPTV05-13-V1 S unday. 1uF C161 0.PIN4 SHORT USB_ISP2 PIN1. . 7. . 768K GND + RTC3V3 GND GND B C 115 15pF 1 1 1 2 1 1 12 C 104 1 uF C-0603 12 I F D1 C 97 C106 1uF C-0603 C 103 1uF C-0603 G ND GND G ND I F D2 1 1 L11 BEAD 2 1 C 89 0. 1uF C 144 0..0 1 3 S heet of 1 5 5 4 3 2 . 1uF GND_A V DRA M_A4 DRA M_A5 DRA M_A6 1 /DQM0 /M_WE /CAS /RAS L28 120ohm/ 100MHz / M_CS0 /BA0 /BA1 DRA M_A10 DRA M_A0 DRA M_A1 DRA M_A2 DRA M_A3 + A UDV CC3 R483 0R R-0603 R 484 0R R-0603 C264 G ND_A V 10pF GND_A V TV _DA C2 L25 1 uH DTV _P b_IN2 DTV _P b_IN2 3 S TB _AR C 338 1 uF DV B _A R_OUT 4 C 265 62pF C266 75pF 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 R 249 C 183 270K 47pF C267 GND_A V 10pF TV _DA C3 L26 1 uH DTV _P r_IN2 DTV _P r_IN2 3 C GND AOUT_L VSS VREF VDDDA AOUT_R VBSP RSET TV_DAC0 AVDD1 AVSS1 AVDD2 TV_DAC1 TV_DAC2 TV_DAC3 AVSS2 VCC_IO UART_RX UART_TX M_DQM3 M_D24 M_D25 M_D26 M_D27 M_D28 M_D29 M_D30 M_D31 VCC_K M_D16 M_D17 M_D18 M_D19 M_D20 M_D21 M_D22 M_D23 M_DQM2 M_DQM0 M_WE M_CAS M_RAS GND M_CS M_BA0 M_BA1 M_A10 M_A0 M_A1 M_A2 M_A3 VCC_IO M_A4 M_A5 M_A6 G ND_A V C 268 GND C R _RS T C R _CLK C R _CMD C R _D0 C R _D1 C R _D2 C R _D3 C CIR656-D[ 0.8 DRA M_D4 DRA M_D5 DRA M_D6 DRA M_D7 S CA RT_IS P _TRAP P A NE L_SCL P A NE L_CSB TS O_D0 TS O_D1 TS O_D2 TS O_D3 TS O_D4 TS O_D5 GND TS O_D6 TS O_D7 TS O_VAL TS O_STA TS O_CLK TS O_E RR TS I_D0 TS I_D1 TS I_D2 TS I_D3 TS I_D4 TS I_D5 TS I_D6 TS I_D7 TS I_VAL TS I_STA TS O_D0 TS O_D1 TS O_D2 TS O_D3 TS O_D4 TS O_D5 15 15 15 15 15 15 15 15 15 15 15 62pF G ND_A V / CK E M_CLK / DQM1 15 15 15 J 12 + 3V 3_SW +5V_SW 1 2 3 4 5 6 7 8 S MC_IO S MC_CLK S MC_P RES S MC_RSTB S MC_V CCB GND HE A DE R8-2. .7] 2 15 ROM_A [ 0. 1uF C163 0.7K + A V DDTX R-0603 G N D_U XT1 27MHz 30ppm 20P X'TAL 15 15 15 15 15 15 15 15 15 15 11/06 For layout change + 3V 3_SW R115 R116 R 117 10K 10K 10K R-0603R-0603R-0603 2 2 2 1 1 2 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 GND SPDIF A_DATA0 A_DATA1 A_DATA2 A_LRCLK A_BCK A_XLK VO_VSYNC VO_HSYNC VO_CLK VO_D0 VO_D1 VO_D2 VO_D3 VO_D4 VO_D5 VO_D6 VO_D7 INT1 RF_I2C_SCL RF_I2C_SDA OTP_VPP VCC_IO IF_AGC RF_AGC VCC_K X32KI X32KO RTC_VSS RTC_VCC RSSI ADC_GND1 ADC_GND2 VCM VRB VRT IFP IFN V33A V33D VSSD VCC_PLL_D VCC_PLL PLL_GND XOUT XIN USB_REXT USB_AVDDRX USB_AVSS USB_DM USB_DP AVDDTX AVSSTX U 13 2 2 2 S P HE 1003-216 M_A7 M_A8 M_A9 M_A11 M_CKE GND M_CLK M_DQM1 M_D8 M_D9 M_D10 M_D11 M_D12 M_D13 M_D14 M_D15 VCC_IO M_D0 M_D1 M_D2 M_D3 VCC_K M_D4 M_D5 M_D6 M_D7 IR IN /UART_ISP /USB_ISP1 /USB_ISP2 TSO_D0 TSO_D1 TSO_D2 TSO_D3 TSO_D4 TSO_D5 GND TSO_D6 TSO_D7 TSO_VAL TSO_STA TSO_CLK TSO_ERR TSI_D0 TSI_D1 TSI_D2 TSI_D3 TSI_D4 TSI_D5 TSI_D6 TSI_D7 TSI_VAL TSI_STA VCC_K 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 DRA M_A7 DRA M_A8 DRA M_A9 DRA M_A11 / CK E GND M_CLK / DQM1 DRA M_D8 DRA M_D9 DRA M_D10 DRA M_D11 DRA M_D12 DRA M_D13 DRA M_D14 DRA M_D15 + V CCO3 DRA M_D0 DRA M_D1 DRA M_D2 DRA M_D3 + V CCK 1. 1uF C 119 0. 1uF C 162 0. 15] 15 10pF L10 TV _DA C0 1 uH R1 C196 100pF C 195 100pF 7 5R DTV _CVBS DTV _CV BS 12 C 56 0. 1uF C 81 0.0 CON16A GND GND GND C I_CE 1 TS I_CLK TS I_E RR 15 P C _IOR P C_IOW P C_W A IT P C _IOR P C_IOW P C_W A IT 15 15 15 + 3V 3_SW 12/6 Add ROM_A22 ROM_A18 ROM_A22 ROM_A18 15 15 C R _CLK C R _D1 C R _D3 CR_S E NS E2 CR_S E NS E1 C R _RS T 7. .June15. 12 + V CCO3 S DA _M S CL_M R 182 2 R 178 2 1 1 0R R-0603 1 1 0R R-0603 1 C129 C126 10pF C-0603 +VCCK1.9 2. 7] C C IR656-CLK C269 75pF 7 C CIR656-D[ 0. 1uF C 55 0.PIN6 SHORT USB_ISP1 PIN3. .PIN2 SHORT R 111 1 R 112 1 R 113 1 R-0603 R-0603 R-0603 2 N C/ 560R 2 N C/ 560R 2 N C/ 560R CA Interface 11/05 Delete J12 G ND B TS O_D6 TS O_D7 TS O_VAL TS O_STA TS O_CLK TS O_E RR TS I_D0 TS I_D1 TS I_D2 TS I_D3 TS I_D4 TS I_D5 TS I_D6 TS I_D7 TS I_VAL TS I_STA + V CCK 1. 1uF GND G ND C STB_AL RE S E TN_1003 2 2 C 375 10uF TV_DAC1 TV_DAC2 TV_DAC3 R 355 R 436 33 33 C374 10uF C 178 0. 1uF P LLGND SM_IO SM_CLK SM_PRES SM_RST SM_VCCB R_A17 R_A19 R_A10 R_D7 VCC_IO R_D6 R_D5 R_D4 R_D3 VCC_K R_D2 R_D1 R_D0 R_OE R_CS1 R_CS2 R_CS3 R_A0 R_A1 R_A2 GND R_A3 R_A4 R_A5 R_A6 R_A7 R_A18 R_A22 R_A21 R_A20 VCC_IO R_WE R_A8 R_A9 R_A11 R_A12 R_A13 R_A14 R_A15 R_A16 R_IOW R_IOR R_WAIT GND PWM INT0 RESET TSI_ERR TSI_CLK C 78 33pF C-0603 2 TS O_E RR 1 C 70 33pF C-0603 2 R130 0R R-0603 T S I_E RR 1 1 GND A 1 2 3 4 5 6 7 ROM_A10 8 ROM_D7 9 10 ROM_D6 11 ROM_D5 12 ROM_D4 13 ROM_D3 14 15 ROM_D2 16 ROM_D1 17 ROM_D0 18 ROM_OE 19 C I I N_CD1 20 CI _CE 1 21 C I I N_CD2 22 ROM_A0 23 ROM_A1 24 ROM_A2 25 26 ROM_A3 27 ROM_A4 28 ROM_A5 29 ROM_A6 30 ROM_A7 31 ROM_A18 32 ROM_A22 33 C I _ PWR_EN 34 CI_REG 35 36 FL A SH_WE 37 ROM_A8 38 ROM_A9 39 ROM_A11 40 ROM_A12 41 ROM_A13 42 ROM_A14 43 C I _ R EADY 44 R E S ETN_CI 45 PC_IOW 46 PC_IOR 47 PC_WAIT 48 49 CR_SENSE1 50 CR_SENSE2 51 RESETN_100352 TSI_ERR 53 TSI_CLK 54 R E S E TN_CI 15 ROM_OE 15 A J8 HE A DE R8x 2-2. 2008 1 1.9 TV _DA C0 TV _DA C1 TV _DA C2 TV _DA C3 + V CCO3 C182 DRA M_A [ 0. 1uF 2 2 2 2 10/26 Add 10/26 Add GND R 221 R-0603 N C / 0R RXD_1003 2 1 U A RT_RX R 205 N C / 0R TXD_1003 2 1 R-0603 UA RT_TX R 481 R-0603 N C / 0R TS I_D0 GND U A RT_RX 1 1 1 R 225 7 5R R-0603 D R 224 7 5R R-0603 G ND_A V R 223 7 5R R-0603 GND_A V 1 GND_A V GND_A V R222 7 5R R-0603 GND_A V 2 2 R-0603 1 1 R 482 N C / 0R TS I_D1 UA RT_TX / DQM0 / DQM1 /M_WE / CA S / RA S /BA0 /BA1 / M_CS0 / DQM0 / DQM1 /M_WE / CA S / RA S /BA0 /BA1 / M_CS0 15 15 15 15 15 15 15 15 GND_A V C261 DRA M_D0 DRA M_D1 DRA M_D2 DRA M_D3 DRA M_D4 DRA M_D5 DRA M_D6 DRA M_D7 DRA M_D8 DRA M_D9 DRA M_D10 DRA M_D11 DRA M_D12 DRA M_D13 DRA M_D14 DRA M_D15 10pF TV _DA C1 L24 1 uH STB_AL C337 1 uF DV B _A L_OUT 4 D T V _Y _IN2 D TV _Y _IN2 3 D place near 1003 full current & 1/2 current ==>R load =75ohm 1/4 current ==> R load = 150ohm + 5V _DC GND J9 U A RT_RX UA RT_TX 1 2 3 4 DIP / P IN4/ 2.5 4 3 2 1 + V CCK 1. 54 R 226 1K R-0603 + 3V 3_SW L27 N C + ROM_P OWER C 262 62pF C263 75pF R 201 C 148 270K 47pF GND C373 10uF + V V CC3 +VCCK1. 1uF C114 0.11] 15 DRA M_A0 DRA M_A1 DRA M_A2 DRA M_A3 DRA M_A4 DRA M_A5 DRA M_A6 DRA M_A7 DRA M_A8 DRA M_A9 DRA M_A10 DRA M_A11 DRA M_D[ 0. 3.13.4.3V B +3V3_SW GND_AV 1 1.7.1uF C-0603 C84 1uF C-0603 C85 1uF C-0603 + 2 2 2 10uF 2 EC26 220uF/16V CAP220-16V G ND +SDRAM_VCC3_M G ND FB11 FB L-0805 +PLL_VCC3 +PLL_DEMOD SPHE1003 PLL/DEMO PLL 3.4.8V POWER 1 D 2 1 2 1 1 1 C270 C83 0.13.15 +3V3 FB23 FB A 2 1 C377 10uF C59 0.10.5.3.1uF C-0603 D +SDRAM_VCC3 +VCCO3 +5V_SW 1 UP5 C276 0.5 4 3 2 1 PLACE NEAR 1003 SDRAM 3.15 +3V3_SW 1.2.1uF C-0603 1 2 1 C271 C72 1uF C-0603 IN 4 3 2 2 C 10uF C71 1uF C-0603 OUT 2 ADJ/GND 1 2 1 C275 C +5V_SW AP1117-33/SOT-223 D61 1N4002 DIODE1N4001 UP1 +5V_SW_USB C272 PLLGND B 10uF PLLGND F2 FRX110-60/SMD1812P110TF SPHE1003 Audio DAC +VVCC3 &video DAC +3.15 +5V_SW 1.15 GND_U C107 Title 0.3V POWER DEMOD 3. May 01.9.3V POWER +P1V8 +VCCK1.9.1uF C-0603 +5V_SW 1 2 +5V_SW +3V3_SW +3V3_SW +3V3 +3V3 +3V3 G ND +RTC3V3 1.3.12.3V POWER +P1V8 FB16 FB L-0805 +AUDVCC3 1 2 1 C147 1uF C-0603 IN C392 10uF C382 4 10uF 3 C376 10uF OUT 2 ADJ/GND 1 2 GND_AV GND_U G ND 10uF 2 2 C146 1uF C-0603 1 1 C145 1uF C-0603 FB7 FB L-0805 AP1117-18/SOT-252 SOT-252 +AVDDTX +AVDDRX USB TX POWER +3.8.3V POWER 2 C65 0.1uF Size A Date: 5 4 3 2 SUNPLUS SPHE1003 Power Document Number R ev 2 C60 0.10. 2008 1.1uF C-0603 A G ND SPTV05-13-V1 Thursday.12.11.8.8 +3V3_SW FB9 FB L-0805 FB14 FB L-0805 +T3V3 +T3V3A 1 L-0805 FB FB6 2 1 1 SPHE1003 KERNEL 1.0 14 Sheet 1 of 15 .2.13.6.8.7. 5 4 3 2 1 13 ROM_D[0. 2008 1 1 .1uF C319 0..7] T SO_CLK T SO_VAL TSO_STA T SO_D0 T SO_D1 T SO_D2 T SO_D3 T SO_D4 T SO_D5 T SO_D6 T SO_D7 M ICLK M IVAL MISTRT M DI0 M DI1 M DI2 M DI3 M DI4 M DI5 M DI6 M DI7 Connect to Tuner common interface C I_MD0 C I_MD1 C I_MD2 C I_MD3 ROM_D0 ROM_D1 ROM_D2 ROM_D3 ROM_A8 ROM_A9 ROM_A11 ROM_A10 CI_MA8 CI_MA9 CI_MA11 CI_MA10 +ROM_POWER +ROM_POWER ROM_D0 ROM_D1 ROM_D2 ROM_D3 ROM_D4 ROM_D5 ROM_D6 ROM_D7 D T SO_D0 T SO_D1 T SO_D2 T SO_D3 T SO_D4 T SO_D5 T SO_D6 T SO_D7 T SO_VAL TSO_STA T SO_CLK T SO_ERR T SI_D0 T SI_D1 T SI_D2 T SI_D3 T SI_D4 T SI_D5 T SI_D6 T SI_D7 T SI_VAL T SI_STA T SI_CLK T SI_ERR T SO_D0 T SO_D1 T SO_D2 T SO_D3 T SO_D4 T SO_D5 T SO_D6 T SO_D7 T SO_VAL TSO_STA T SO_CLK T SO_ERR T SI_D0 T SI_D1 T SI_D2 T SI_D3 T SI_D4 T SI_D5 T SI_D6 T SI_D7 T SI_VAL T SI_STA T SI_CLK T SI_ERR 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 R364 10K R2 10K +ROM_POWER ROM_A[0.1uF A 0.1uF U3 G ND 1 ROM_A13 ROM_A14 ROM_A12 CI_MA13 CI_MA14 CI_MA12 R11 10K R-0603 10/30 Add D 2 ROM_A6 ROM_A7 ROM_A18 ROM_A22 S PI_CE0 S PI_D0 SPI_CLK1 S PI_D1 S PI_CE0 S PI_D0 S PI_CE D VB_WP 2 1 2 3 4 CE# SO WP# GND VDD HOLD# SCK SI 8 7 6 5 D V B_HOLD SPI_CLK1 S PI_D1 G ND +VCCO3 EN25T 80/DIP D IP8 +ROM_POWER ROM_A18 ROM_A22 13 13 U2 T SI_CLK T SI_VAL T SI_STA T SI_D0 T SI_D1 T SI_D2 T SI_D3 T SI_D4 T SI_D5 T SI_D6 T SI_D7 Connect to SPHE1003 MOCLK MOVAL MOSTRT MDO0 MDO1 MDO2 MDO3 MDO4 MDO5 MDO6 MDO7 C I_MD4 C I_MD5 C I_MD6 C I_MD7 ROM_D4 ROM_D5 ROM_D6 ROM_D7 HW config 2 2 2 2 2 2 R73 R71 10K 10K R-0603R-0603 R74 R75 R125 R72 10K 10K 10K 10K R-0603R-0603 R-0603R-0603 S PI_CE S PI_D0 D VB_WP 1 2 3 4 CE# SO WP# GND VDD HOLD# SCK SI 8 7 6 5 D V B_HOLD SPI_CLK1 S PI_D1 ROM_A0 ROM_A1 ROM_A2 ROM_A3 CI_MA0 CI_MA1 CI_MA2 CI_MA3 F L ASH_WE R E SET N_CI ROM_OE C I_CE1 P C _IOR P C _IOW P C_WAIT F LASH_WE 13 R ESET N_CI 13 ROM_OE 13 ROM_CS2 P C_IOR P C _IOW PC_WAIT 13 13 13 13 G ND EN25T 80/SOP SOP8\300mil ROM_A4 ROM_A5 ROM_A6 ROM_A7 CI_MA4 CI_MA5 CI_MA6 CI_MA7 13 F L ASH_WE F L ASH_WE ROM_A8 ROM_A9 ROM_A11 ROM_A12 ROM_A13 1 1 1 1 1 1 C 13 13 13 13 13 C IIN_ CD1 C IIN_ CD2 C I_ P WR_EN C I_REG C I_ R EADY C IIN_ CD1 C IIN_ CD2 C I_ P WR_EN C I _REG C I_ R EADY C C N10 PCMCIA SOKET (Single) +3V3_SW M ICLK M IVAL MISTRT M DI0 M DI1 M DI2 M DI3 M DI4 M DI5 M DI6 M DI7 R133 MOCLK C I_CE2 47R C I_CE1 P C_WAIT C I_MOCLK MOVAL MOSTRT MDO0 MDO1 MDO2 MDO3 MDO4 MDO5 MDO6 MDO7 C I _REG C I_CE1 C I_CE2 ROM_OE F L ASH_WE P C _IOR P C _IOW C I_ R EADY R59 100K C I_ P WR_EN Q16 2N3904 G ND G ND IC42S16400(8MX16) +SDRAM_VCC3 G ND M_CLK R174 10R SDRAM_CLK +SDRAM_VCC3 G ND C317 G ND A Memory 13 DRAM_A[0.15] 13 R134 10K R109 10K R124 10K R110 47K Connect to SPHE1003 R485 R489 R490 R491 47K 4K7 180 180 Delete Dammping R 13 13 13 13 13 13 13 13 13 /DQM0 /DQM1 /M_WE / CAS / RAS /M_CS0 / CKE /BA0 /BA1 Delete Dammping R 23 24 25 26 29 30 31 32 33 34 22 35 36 15 39 16 17 18 19 37 38 20 21 6 12 46 52 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 A12 LDQM UDQM WE CAS RAS CS CKE CLK BA0 BA1 VSSq VSSq VSSq VSSq D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 NC/RFU VSS VSS VSS VDD VDD VDD VDDq VDDq VDDq VDDq 2 4 5 7 8 10 11 13 42 44 45 47 48 50 51 53 40 28 41 54 1 14 27 3 9 43 49 D RAM_D0 D RAM_D1 D RAM_D2 D RAM_D3 D RAM_D4 D RAM_D5 D RAM_D6 D RAM_D7 D RAM_D8 D RAM_D9 DRAM_D10 DRAM_D11 DRAM_D12 DRAM_D13 DRAM_D14 DRAM_D15 C IIN_ CD1 C IIN_ CD2 R E SET N_CI G ND G ND 20 19 46 47 48 49 50 53 54 55 56 57 62 63 64 65 66 37 38 39 40 41 61 7 42 9 15 44 45 60 16 68 34 35 1 20 19 46 47 48 49 50 53 54 55 56 57 62 63 64 65 66 37 38 39 40 41 61 7 42 9 15 44 45 60 16 68 34 35 1 2 1 4 3 6 5 8 7 10 9 12 11 14 13 16 15 18 17 20 19 22 21 24 23 26 25 28 27 30 29 32 31 34 33 67 65 63 61 59 57 55 53 51 49 47 45 43 41 39 37 35 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 30 31 32 2 3 4 5 6 29 28 27 26 25 24 23 22 12 11 8 10 21 13 14 36 67 43 59 33 18 52 58 51 17 30 31 32 2 3 4 5 6 29 28 27 26 25 24 23 22 12 11 8 10 21 13 14 36 67 43 59 33 18 52 58 51 17 C I_MD0 C I_MD1 C I_MD2 C I_MD3 C I_MD4 C I_MD5 C I_MD6 C I_MD7 +5V_SW_USB CI_MA0 CI_MA1 CI_MA2 CI_MA3 CI_MA4 CI_MA5 CI_MA6 CI_MA7 CI_MA8 CI_MA9 CI_MA10 CI_MA11 CI_MA12 CI_MA13 CI_MA14 C IIN_ CD1 C IIN_ CD2 B +3V3_SW / CKE SDRAM_CLK 2 10K R63 G ND 10K R60 Q19 AP2301 SOT-23 1 +MVCC5 3 P C_WAIT C273 10uF R E SET N_CI +MVCC5 69 70 69 70 C125 NC C318 0..1uF C322 0. May 01.1uF C321 0...1uF C320 0.14] ROM_A0 ROM_A1 ROM_A2 ROM_A3 ROM_A4 ROM_A5 ROM_A6 ROM_A7 ROM_A8 ROM_A9 ROM_A10 ROM_A11 ROM_A12 ROM_A13 ROM_A14 ROM_A18 ROM_A22 +ROM_POWER +ROM_POWER 1 R39 10K R-0603 C6 0.1uF C323 0.0 15 Sheet of 15 .1uF G ND 71 72 G ND 71 72 SUNPLUS T itle Memory And CI Size C u stom Date: 5 4 3 2 Document Number Rev SPTV05-13-V1 Thursday.11] U11 DRAM_A0 DRAM_A1 DRAM_A2 DRAM_A3 DRAM_A4 DRAM_A5 DRAM_A6 DRAM_A7 DRAM_A8 DRAM_A9 DRAM_A10 DRAM_A11 B DRAM_D[0. .1uF/NC 89L_3V3 V18 1 2 3 4 DV33 J4 CON2.1] BA[0.0 10k R23 10k C31 1 2 3 4 5 6 7 8 9 10 11 12 V18 L3 V18 L6 FB RFV18-1 CB1 FB RFV18-2 CB2 0.䴴䖥໪䚼ッষ 5 4 3 2 IR/VFD + ASPDIF AR AL AUDIO_MUTE ASPDIF AR AL AUDIO_MUTE R16 2K TROPEN TRCLOSE AKIN1 TROUT TSD AUDIO I/F V_CVBS V_R/V V_B/U V_G/Y V_CVBS V_R/V V_B/U V_G/Y 89L_3V3 VREF1 CB14 DACVDD3 GPIO13 ASPDIF GPIO11 GPIO10 GPIO9 GPIO8 GPIO7 MA3 MA2 MA1 MA0 MA10 BA1 BA0 RAS# CAS# WE# MA4 MA5 MA6 MA7 MA8 MA9 MA11 DCLK DQM1 V18 0.1uF CB6 0..1uF D RFV33 V20 CB7 0. 0.7 89L_3V3 1 TP2 Q6 2N3906 R44 + CE11 10uF/16V 10K + Q7 8550 2 2 CE10 47uF/16V 3 1 UP1_6 GPIO13 UP1_7 DVD/CLK DVD/STB DVD/DATA R141 R45 0 LDO1 3 C24 100pF FOSO TRSO FMSO DMSO R46 R47 R48 R49 27K 27K 15K 10K FOO TRO FMO DMO DACVDD3 RxD TxD A C25 100pF C26 100pF RS-232 C27 C28 CB21 C29 330pF 330pF 0.1uF Chip Decap.1] R2 XI C2 22pF Y1 27MHz 100K R3 C3 22pF 0 XO DCLK RAS# CAS# WE# R1 DV33 R59 SERVO RF DeCAP.1 Sheet 1 of 4 .7K R52 4.1uF 0.0-4 DV33 A R50 4.1uF CE6 0.015uF V1P4 CB22 CB23 0.1uF CB29 0.11] DQM[0.7K 3 R20 10K C B A D F E RFV18-2 RFVDD3 XI XO V20 V1P4 15K 0 0 DMO FMO STBY IOA TRO FOO TRIN USB_DP USB_DM USB_V33 USB_V18 CB18 0.1uF CB5 0.1uF MDI1 LDO1 R33 LDO2 R34 AVDD33 CB16 0.25/8PIN 1 2 3 4 5 6 Rev V0.5 4 3 2 1 V18 DV33 SLSL+ LIMIT 100 SP+ SP-A TRIN LOAD+ LOADTROUT TSD J14 PH-12A_2.1uF CB25 0.1uF + V1P4 AADVDD 100uF/16V CE3 47uF/10V L7 150uH/DIP C4 6800pF + CE4 220uF/10V DRAM I/F SF_CK SF_CS SF_DI SF_DO SF_CK SF_CS SF_DI SF_DO DV33 GPIO10 GPIO9 GPIO8 GPIO7 GPIO21 GPIO11 R4 R5 R7 R8 R9 R11 33 33 33 33 33 33 VCC DM DP ALF R126 33 GPO_B IOA R127 NC GPIO6 AUDIO_MUTE LIMIT GPIO4 TSD R6 10K CB11 0.1uF CB27 0.. 2007 1 CB24 0.11] DQM[0.1uF CB28 0..7K UP1_6 GPIO13 UP1_7 J11 J13 J8 J9 Title EBODA Size C Date: Document Number EJS89L08 Tuesday.15] DQ[0.1uF LDO2 L12 10uH/SMD C21 NC 3 L13 10uH/SMD Q4 2 8550 3 CE9 47uF/16V 2 Q5 2N3906 1 C18 10uF/10V R35 5.1uF C13 1uF C6 C5 R10 1/0805 CB12 0.7 4.1uF CB26 0.1uF S-FLASH CE5 APLLVDD3 AADVDD GPIO21 GPIO20 AUDIO_MUTE ADACVDD ALF ALS AL AVCM AR VSYNC# HSYNC# OP1389_OP+ C14 220pF RFV18-1 GPIO20 ADVCM V_R/V V_B/U V_G/Y DACVDD3 DACVDD3 V_CVBS R15 0 OPO R17 0 1389_OP+ 129 FS C 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 U1 FF+ T+ TC/c D/d CD/DVD SW RF A/a B/b F GND-PD Vc(Vref) Vcc E NC VR-CD VR-DVD CD-LD MD HFM NC DVD-LD GND-LD RFH / OPINN RFG / OPINP RFIN / OPOUT RFIP AGND18 AVDD18 ADACVDD2 ADACVDD1 ALF / GPIO ALS / GPIO AL / GPIO1 AVCM AR / GPIO0 ARS / GPIO ARF / GPIO ADACVSS1 ADACVSS2 APLLCAP APLLVDD AADVDD AKIN1 / GPIO21 / Audio_Mute ADVCM / GPIO20 AKIN2 / GPIO19 / Audio_Mute AADVSS R B G DACVDDA DACVDDB CVBS DACVSSC FS gnd +5VS R19 4.1uF 1 OPCB9 4.1K C19 NC GPIO3 / INT# GPIO4 GPIO6 SF_CS_ SF_DO SF_DI SF_CK UP1_6 / SCL UP1_7 / SDA ICE PRST# IR RD0 RD1 RD2 RD3 RD4 DVDD33 RD5 RD6 RD7 DVDD18 DQM0 RD15 RD14 RD13 RD12 DVSS33 RD11 RD10 RD9 RD8 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 RFA RFB RFC RFD RFE RFF AVDD18 AVDD33 XTALI XTALO AGND V20 V14 REXT MDI1 MDI2 LDO1 LDO2 AVDD33 DMO FMO TRAY_OPEN TRAY_CLOSE TRO FOO FG / GPIO2 USB_DP USB_DM USB_V33 USB_GND PAD_VRT USB_V18 3 3 MT1389L/K LQFP 128 Desktop V1.1] DCLK RAS# CAS# WE# D FB MA[0.1uF VIDEO I/F VREF DACVDDC GPIO13 SPDIF / GPIO12 GPIO11 GPIO10 DVDD18 GPIO9 GPIO8 GPIO7 / CKE RA3 RA2 DVDD33 RA1 RA0 RA10 BA1 DVSS18 BA0 RAS# CAS# RWE# RA4 RA5 RA6 RA7 RA8 RA9 DVDD33 RA11 RCLK DQM1 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 C STBY TRIN TT+ FF+ SLSL+ SPSP+ FOSO TRSO FMSO DMSO V1P4 TRCLOSE TROPEN STBY TRIN TT+ FF+ SLSL+ SPSP+ FOSO TRSO FMSO DMSO V1P4 TRCLOSE TROPEN SERVO I/F URST# VSYNC# HSYNC# ALS ALF SP-A URST# VSYNC# HSYNC# ALS ALF SP-A MIX MT1389L LQFP128/SMD/1389L DV33 VCC V18 89L_3V3 +5VS DV33 VCC V18 89L_3V3 +5VS B + + USB_DM USB_DP R40 R42 C23 100pF 0 0 DM DP LOADLOAD+ LOADLOAD+ V18 C22 100pF DVD/REM ON/OFF DVD/REM ON/OFF 0 ON/OFF DVD/REM GND DVD/STB DVD/DATA DVD/CLK GND CON2 1.1uF CB4 0.1uF 2 C8 1500pF CB10 470uF/10V RF Reference RFO C9 C10 100pF 100pF C11 C12 100pF 100pF J3 CON2.7K GPIO9 R54 0 0 RxD TXD R55 R58 0/NC 0/NC AR IR GPIO10 R57 AL C30 100pF R53 4..7uF AVDD33 + 10uF/10V SP- SP+ SP-A 3 R12 R13 NC 0 R14 10K OPO D1 BAT54C ADVCM C7 CB13 10uF/10V 0. December 25.0/11PIN 11 11 10 10 9 9 8 8 7 7 6 6 5 5 4 4 3 3 2 2 1 1 0. 䖛ESD.1uF 89L_3V3 L4 FB 89L_3V3 RFVDD3 DACVDD3 C1 4.5 TOP R43 4.1] BA[0.1uF + L5 CE1 10uF/16V ADACVDD L1 150uH/DIP 89L_3V3 L2 47uH/DIP APLLVDD3 DQ[0.0 TOP 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 B1 R36 0 CE8 10uF/16V TSD LIMIT GPIO6 SF_CS SF_DO SF_DI SF_CK UP1_6 UP1_7 ICE URST# IR DQ0 DQ1 DQ2 DQ3 DQ4 DQM0 DQ15 DQ14 DQ13 DQ12 DQ5 DQ6 DQ7 R39 10K RFV33 DQ11 DQ10 DQ9 DQ8 1 R41 HEADER 24 SMD0...7K +5VS + CE7 100uF/10V 89L_3V3 L9 FB C15 4.7K R56 1K DVD/REM R51 4.1uF R21 R24 R25 R26 R27 R28 0 0 0 0 0 0 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 Q1 2N3904 1 2 R22 10K IOA 2 Q2 9014 1 1 2 Q3 9014 R29 L8 FB 4.7uF R30 R31 0 R32 0 CB15 0.1uF SONY313 CON1 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 C16 LD-DVD AVCC1 MDI1 LD-CD V18 E AVCC1 V20 F B A RFO IOA D C TT+ F+ FNC C17 NC Very Important to reduce Noise 89L_3V3 L10 L11 CB17 0.1uF/NC 0.1uF 0.1uF FB FB C20 10uF/10V CB19 0.7uF CB3 0..15] MA[0.1uF + CE2 47uF/10V CB8 0. December 25.1uF V18 R67 15K CB33 0.1uF + CB30 0. 2007 Sheet 1 Rev V0.DIP 3 3 3 CE14 100uF/10V REGO2 R71 9.1uF + CE13 47uF/16V A CE19 47uF/10v CB40 0.DIP Q10 8550.022uF 8 7 6 5 R134 10k SYNC EN COMP FB CB118 0.DIP 2 2 Q13 8050.5 4 3 2 1 +12V +12V VCC R128 1k D V18=(R61/R63+1)*1.1uF + CE12 100uF/10V R72 220 $$$1 1 R73 220 $$$2 1 Q11 8550.7K R70 10K 3 2 CB32 0.DIP 1 C32 390p R77 OPEN/1K B VCC MO_VCC L15 FB + A CE18 220uF/10v CB39 0.1uF DV33 VCC V18 89L_3V3 +5VS + CB121 0.1uF CE30 100uF/16V 1 C56 OPEN R136 15k DV33 VCC V18 89L_3V3 +5VS MO_VCC C R63 10K 1 R61 10K 0 0 LOAD+ LOAD- MO_VCC D2 IN4001/DIP 1 TT+ SL+ SL- 15 16 17 18 19 20 21 30 VOTK+ VOTKVOLD+ VOLDVCC2 NC VCTL G2 GND VINLD NC TRB2 VINTK BIAS MUTE VOFC+ VOFCVOSLVOSL+ VOTR+ VOTRVCC G1 REV FWD REGO1 VINSL+ REGO2 TRB1 VINFC 14 13 12 11 10 9 8 29 7 6 5 4 3 2 1 F+ FSPSP+ R60 R62 VCC VCC D3 IN4001/DIP VCC Q8 8550/DIP 3 SERVO I/F URST# LOADLOAD+ V33 URST# C LOADLOAD+ V33 FMSO TR_B2 TRSO V1P4 STBY 2 R69 10K CB34 0.25 L60 FB R129 2k R130 27k R131 3.01uF L61 100uH-2A VCC STBY TT+ FF+ SLSL+ SPSP+ FOSO TRSO FMSO DMSO V1P4 TRIN TROPEN TRCLOSE SP-A STBY TT+ FF+ SLSL+ SPSP+ FOSO TRSO FMSO DMSO V1P4 TRIN TROPEN TRCLOSE SP-A D 2 R133 300k + D18 SK24 CE29 220uF/10V CB120 0.1 2 of 4 .1uF U3 AM5888 HSOP28/SMD CB31 0.1uF R68 4.1K LOADLOAD+ TROPEN R74 680 3 B TRCLOSE R75 DV33 V33 L20 FB/600 + VCC +5VS L21 FB CB38 0.1uF 22 23 24 25 26 27 28 R64 R65 0 0 R66 10K REGO2 FOSO 1 2 TROPEN TRCLOSE REGO1 DMSO D4 IN4001/DIP 2 1 TR_B2 2 1 22 V33 L18 FB $$$3 Q9 8550/DIP L17 FB/600 + CB35 0.1uF Q14 3904 89L_3V3 680 R76 OPEN/1K C33 390p 1 Q12 8050.01uF 1 CE16 220uF/10v CB37 0.1uF CE17 10uF/10V + R78 10k R79 3 1K URST# C34 0.1uF L22 FB DV33 L23 FB RFV33 D5 1N4148 2 R80 1k R81 10k 2 C36 0.1uF 1 RESET Circuit C4 must closer to PIN43 of 1389L Title EBODA Size B Date: 5 4 3 2 Document Number EJS89L08 Tuesday.3K U8 MP9141 BS VIN VSW GND 1 2 3 4 ON/OFF R132 D17 15V Q22 3904 R135 NC 200k CB119 0. 11] D DQ[0. December 25.11] DQM[0.1uF CB43 0.1] DCLK RAS# CAS# WE# (2) (2) (2) (2) (2) (2) (2) (2) D U4 MA0 MA1 MA2 MA3 MA4 MA5 MA6 MA7 MA8 MA9 MA10 DBA0 SDCLK SDCKE DCS# DRAS# DCAS# DWE# DQM0 DQM1 21 22 23 24 27 28 29 30 31 32 20 19 35 34 18 17 16 15 14 36 33 37 26 50 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 BA/A11 CLK CKE CS RAS CAS WE DQML DQMH NC NC VSS VSS DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 VCC VCC VCCQ VCCQ VCCQ VCCQ VSSQ VSSQ VSSQ VSSQ 2 3 5 6 8 9 11 12 39 40 42 43 45 46 48 49 1 25 7 13 38 44 4 10 41 47 SDRAM (Dual Layout) DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 SD33 SD33 DCLK BA0 BA1 R84 R85 R86 RN1 1 3 5 7 33 0 0 0x4 2 4 6 8 SDCLK DBA0 DBA1 MA0 MA1 MA2 MA3 MA4 MA5 MA6 MA7 MA8 MA9 MA10 MA11 DBA0 DBA1 SDCLK SDCKE DCS# DRAS# DCAS# DWE# DQM0 DQM1 DRAS# DCAS# DWE# 23 24 25 26 29 30 31 32 33 34 22 35 20 21 38 37 19 18 17 16 15 39 36 40 54 41 28 DQM[0.1uF CB42 0.1uF DRAM I/F SF_CK SF_CS SF_DI SF_DO SF_CK SF_CS SF_DI SF_DO (2) (2) (2) (2) S-FLASH SD33 DV33 DV33 (1..15] MA[0.1] BA[0.2.7) C C POWER RAS# CAS# WE# ESMT M12L16161A-7 B B S-FLASH U6 DV33 R88 SF_CS SF_DO 10k 1 2 3 4 CE# VDD SO HOLD# WP# SCK VSS SI 8 7 6 SF_CK 5 SF_DI DV33 R87 C37 0.1uF DV33 L24 + CE20 10uF/10v FB SD33 + CE21 100uF/10v SD33 DCLK RAS# CAS# WE# SD33 R82 R83 10k 10k SDCKE DCS# CB41 0.1] U5 ESMT M12L64164A/N....5 4 3 2 1 DQ[0.1] BA[0.C A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 BA0/A13 BA1/A12 CLK CKE CS RAS CAS WE DQML DQMH NC NC VSS VSS VSS DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 VCC VCC VCC VCCQ VCCQ VCCQ VCCQ VSSQ VSSQ VSSQ VSSQ 2 4 5 7 8 10 11 13 42 44 45 47 48 50 51 53 1 14 27 3 9 43 49 6 12 46 52 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 SD33 CB44 0..1uF 10k DV33 AT25FS040/EN25B80 4M/8M bit DV33 R89 A 10k SF_CS R90 10k/NC A Title EBODA Size B Date: 5 4 3 2 Document Number EJS89L08 Tuesday.1uF CB46 0.3..1 3 of 4 .1uF CB48 0.1uF SD33 CB45 0..1uF CB47 0.5. 2007 Sheet 1 Rev V0..15] MA[0. 1uF C55 330pF A Title EBODA Size C Date: 3 2 Document Number EJS89L08 Tuesday.1 Sheet 4 of 4 .8uH\NC V_R/V 21 S_Y R98 D7 \NC 0\NC R/V_OUT CE25 10uF/16v AR + R100 10k R101 5.8uH C52 C53 D16 1N4148 1N4148 CVBSO MUTE_Circuit V33 GND ALS R138 HSYNC# R139 VSYNC# R140 33 33 33 R137 220 1 2 3 4 5 ASPDIF R124 A 5 4 + + 2 10uF/16v AMUTE 2 VIDEO I/F AUDIO I/F VSYNC# HSYNC# ALS ALF URST# DV33 V33 VCC DVD/REM ON/OFF VSYNC# HSYNC# ALS ALF URST# DV33 V33 VCC DVD/REM ON/OFF DV33 R113 R114 10K/NC 10k/NC R115 510/NC Q17 3906/NC J6 PH-11A_1.1uF + C44 100uF/16V C V_B/U 21 S_C D9 1N4148\NC 1 R110 0\NC G/Y_OUT R112 75 1%\NC C47 100pF\NC C48 100pF\NC 8 DV33 D10 1N4148\NC L28 V_G/Y 1.8uH\NC R119 75 1%NC C49 100pF\NC C50 100pF\NC 1 G/Y_OUT A_MUTE_SW D11 1N4148\NC R118 470/NC 1 2 AUDIO_MUTE R116 0/NC 2 A_MUTE_SW R117 3 470/NC 2 2 C51 3300pF/NC 1 Q18 3904/NC R120 100/NC CVBSO G/Y_OUT B/U_OUT R/V_OUT GND RCH LCH GND GND DVD/REM ON/OFF +12V +12V 3 1 +12V D12 1 B 1N4148 2 + CE27 100uF/16V 2 R121 100K D13 1N4148 R122 47K 1 Q19 3906 1 1 + CE28 47uF/16V 3 DV33 2 D15 L29 V_CVBS 21 R123 75 1% 100pF 100pF 1 1.1k 6 AVCMA 5 C43 2200pF 4 CE26 10uF/16v 7 U7B NJM4558 OPA AMUTE +12V ADCIN 2 1 + R102 100 RCH R103 100k Q16 2N3904 3 R99 75 1%\NC C41 100pF\NC C42 100pF\NC 1 DV33 R104 10k D8 1N4148\NC 2 R105 100 CVBSO R106 0 B/U_OUT L27 1.1k 2 AVCMA 3 C39 2200pF 4 CE24 1 U7A NJM4558 OPA + R94 LCH 3 100 R95 Q15 2N3904 1 100k V_CVBS V_R/V V_B/U V_G/Y V_CVBS V_R/V V_B/U V_G/Y D D 8 DV33 R96 33k R97 0 R/V_OUT C40 180pF 2 D6 1N4148\NC ASPDIF AL AR AUDIO_MUTE ASPDIF AL AR AUDIO_MUTE L26 1.25 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 GND GND GND GND GND GND GND GND VCC GND GND GND B D14 2 1N4148 AMUTE V33 3906 C B E R38 R37 10k 10k R18 10k CON3 2.8uH\NC C R107 0 B/U_OUT AVCMA C45 0. January 08. 2008 1 Rev V0.0/5PIN C54 100 R125 100 0.1uF + C46 100uF/16V R109 10k CB51 0.5 4 3 2 1 R91 33k C38 180pF CE23 10uF/16v AL + R92 10k R93 5. 54mm distance）no clasp， stand DZ11A31-B8 (15P-Dsub.6V commute diode60V/3Asoon restore.X1 D3 D4.D34. Type Part Reference Dosage Total Dosage JP2 JP1 J14.CON6 J4 CON7 CON8 J9.D58.0mm Audio input socket 15X2Pin（linker2.D38 D61.54mm distance） no clasp， stand 4P pin（linker2.30X8mm ) Dcpower socket2.0mm distance）no clasp， stand 4P pin（linker2.0mm distance）no clasp， stand 11P pin（linker2.6V SK34 audion BAV99 ESD patch double diode .54mm CON10/2.0mm CON4/2.D21.52-EURO(RoHS) Name socket HEADER 2 HEADER 3 CON4/2. patch diode patch diode brand patch diode diode 9.0 diatance） HDMI JACK USB JACK S-VIDEO JACK 6 hole double row AV jack(top line Green Blue Red.D30.D22.D32.D15.54mm DB15 BNC PHONE JACK 15x2PIN HDMI_J USB-JACK S-VIDEO JACK component SCART PCMCIA SOKET YX438901 YX938908 2P pin（linker2.000MT diode SSM5822/SK34 1N4148 1N4002/1N4004(DIP) BA277 9.0mm CON14/2.D19 D12.D13.D41.dowm line Yellow White Red ) SCART JACK PCMCIA NON-PUSH SURFACE ACOUSTIC WAVE FILTER SURFACE ACOUSTIC WAVE FILTER 32.0mm distance）no clasp， stand 14P pin（linker2.768K 27.54mm distance）no clasp， stand 10P pin（linker2.HK-HDMI-CI-SUNTV-V2.D31.J6 CN2 CN5 CN3 CON9.0mm distance）no clasp， stand 6P pin（linker2.CN6 J3 CN4 JP3 CN8 CN9 CN7 CN10 Z2 Z1 XT2 XT1.0mm CON6/2.D23.54mm distance） no clasp， stand 3P pin（linker2.D64.1V diode 5.D63 D33 D14.D25.D60 1 1 2 1 1 1 2 1 1 1 2 1 1 1 1 1 1 1 1 1 1 2 1 3 3 3 2 7 1 11 crystal 32.D16.768KHZ quartz crystal surge 27MHZ quartz crystal surge(49S) 30ppm commute diode60V/3Asoon restore.D59 D18.D20.D24.0mm CON11/2.D65 D57.D37.1V 5. FB21.R441.DII/AUK patch audion.FB2 L3.MOS pipe audion.FB15.1A).Q7.R182. SMD inductance 0805.R448 FB12.R268. L36 F2 F1 FB3.3V patch audion.Q60.Q40.EC50.Q63 Q4.SMD FRX110-60&SMD1812P110TF(1.DII/AUK patch patch patch patch double diode.Q41.Q16.FB8.Q24.R98.L29 .L38.SMD 4 x resistor KX0603 1/16W ±5% 25 2 2 Resistance 100R×4 Resistance 0R 0R 0805 2.L42.EC63.L28.Q64 Q34.L10.R130.Q55.L17.Q65 D6.EC75 EC11 EC26.FB26.R453 FB33 R86.EC88 EC12.R461 R150.L43.R316.FB24.Q22.L40.Q12.R452.3X7) 16V ± 20% capacitance(8X9) 16V ± 20% capacitance(8X12) 6.L25.FB4.Q6.L24.R93.RN2 3 24 2 4 2 1 3 5 1 3 10 3 4 1 1 6 10 1 3 1 1 1 electrolyse capacitance electrolyse electrolyse electrolyse electrolyse electrolyse electrolyse inductance 22uH/2A 22uH/3A 22uH/4A 1uH 1.SMD 12V/５A.L14.FB7.R213.Q58.L26 L9.3uH 10uH 10uH inductance 8*7.FB14.EC47.Q54.R4 03.EC86 EC41.FB30.VCEO=40V/IC=200mA.R178.NPN TR.D29 Q15.Q35 Q42 EC74.EC79. SMD horizontalcircle inductance 33μH±20% horizontalcircle inductance 33μH±20% inductance 0805.MOS pipe double diode.FB10.EC76.EC85.PNP TR.Q10.EC62.FB16.FB6.SOT23.L22.FB25 .L19.Q52.3V ± 20% Q56.2R 2.8uH 3. SMD inductance 0805.R174.R263.Q30.EC52.FB23. SMD inductance 4*6MM DIP inductance 0805.Q48.Q21.E1.EC37.FB11.R266.SOT23.Q59.R412.L8.SOT23 audion.L39.2R 0805 10R 22R resistor KX0603 1/16W ±5% resistor resistor resistor resistor resistor KX0805 KX0603 KX0805 KX0603 KX0603 1/16W 1/16W 1/16W 1/16W 1/16W ±5% ±5% ±5% ±5% ±5% R90.L23 L37 L4.FB13.FB5.R483.Q62.R496 R265.SMD 0603 BEAD.Q17.Q 47.R484.L31.EC54.R156.EC84.EC78 EC21.EC51 L2.FB17.EC34.R438.L13.L41.Q23.R264 13 5 4 1 9 3 .SOT23.EC33.L11 RN1.L44 L5 L20 L7.Q19.3X5) 16V ± 20% capacitance(6.SOT23 capacitance(5X7) 16V ± 20% capacitance(5X7) 16V ± 20% capacitance(6.Q57.SOT23.VCEO=40V/IC=200mA.L21.L6. DIP Fuse PTC thermistor fuse BEAD 120/100M 120/100M 0805 BEAD.R155.Q61.FB9.2N3906 2N3904 BAT54C SI2301 SI2302 9014 47uF/16V 100uF/16V 100uF/16V 220uF/16V 470uF/16V 1000uF/6.R94.R281.FB22.L30. 6K 1% 6.R63.R283.R160.R303.R479.R236.R216 R19 R70.6K 4.R72.R208.R480 R133.R158.R73 .R75.R295.R142.R304.R183.3K 1.R207 R3.R4 14.R24.R71.R 199.R120.R223.R358.2K 9.R297.R176.R384.R356.R490.R107.R435.R245.R11.R226.1K resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% R106.R109.R475.R404.R210.R328.33R 47R 68R 75R 100R 180R 220R 240R 330R 390R 470R 510R 1K 1.R3 11.R306.R149. R416.R30.R275.R68.R242.R257.R60. R296.R365.R369.R219.R446. R395 R396 R203.R432 17 4 1 29 18 4 7 1 1 1 2 2 31 1 1 1 4 1 7 2 1 14 1 1 1 11 1 5 2 resistor KX0603 1/16W ±5% resistor resistor resistor resistor KX0603 KX0603 KX0603 KX0603 1/16W 1/16W 1/16W 1/16W ±5% ±5% ±5% ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor resistor resistor resistor resistor resistor resistor resistor KX0603 KX0603 KX0603 KX0603 KX0603 KX0603 KX0603 KX0603 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W 1/16W ±5% ±5% ±5% ±5% ±1% ±5% ±5% ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±1% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% 10K resistor KX0603 1/16W ±5% 60 11K 12K resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% 1 2 .R224.R225.R209.R458.R426.R439 R18.R1 24.R13.4K 3.R117.R16 8.5K 8.R489 R410 R170 R20 R186.R420.R56.R32.R336.R67.2K 2.R491 R143.R423.R467 R402.R251.R169.R299.R128.R115.R276.R337.R33.R246.R164.R8 R21 R137.R233.R355.R318 R2.R139.R87.R302.R351.R74.R211.R431. R391.R366.2K 6.R367.R308.R364.R277.R132.R270.R421.R476.R77.R325.R175.R235.R409.R258.R278.R415 R319 R50. R16 R6 R399 R17.R314.R350.R357.R138.R433.R477.R466.R488. R430 R1.R126.R405.R85.R434.6K 5.R383 R12.R317.R254.R380.R260.R61.R121.R370.R436.R153.R104.R494.R127.R162.R136.R305.R427.R105.R388.R312.R424.R307.7K 5.R234.R301.R253 R218.R95.R172.R116.R152.8K 7.R159.R228.R300.R387.R408.R154.R413.R119.R460.R222.R289.R294.R39.R407.R282.R33 5.8K 2K 1K 1% 2.R167.R363.R125.R451 R206.R339.R478.R338.R141.R229.R320.R498 R144 R390 R41 R429.R422.2K 1.R99.R179.R1 90.R134.R227.R69.R324.R243.R171.R66.R25 9.R368.R58.R274.R394.R244.R252.R352.R468. C267.C183 C23.C158.C193.R230.C295.R330.C340.R443.R457.R198.R400.R425.R 331.R334.R463.R292.R62. C299.R495 .R447.C47.R123.C179.C115 C49 C70.R329.C78.R273.5nF 2.R332.R177.C390.R42.C205.R360.R401.R381.C237.C343.C63.C268 C263.R362 R454.R445.R444.C383.C388 C194.C99 C148.C232.C165.C303 C164.R313.C316.R249 R359.C384 C116.C131 C292 C222 C151.C21.C309.2nF 10nF 47nF 8200pF capacitance CC41-0603 16V±5% capacitance CC41-0603 16V±5% capacitance capacitance capacitance capacitance capacitance capacitance capacitance CC41-0603 CC41-0603 CC41-0603 CC41-0603 CC41-0603 CC41-0603 CC41-0603 16V±5% 16V±5% 16V±5% 16V±5% 16V±5% 16V±5% 16V±5% capacitance CC41-0603 16V±5% capacitance CC41-0603 16V±10% capacitance capacitance capacitance capacitance CC41-0603 CC41-0603 CC41-0603 CC41-0603 16V±10% 16V±10% 16V±10% 16V±10% capacitance CC41-0603 16V±10% capacitance CC41-0603 16V±10% capacitance CC41-0603 16V±10% capacitance CC41-0603 16V±10% capacitance CC41-0603 16V±10% capacitance CC41-0603 16V±10% . C386 C192.C46.C196.C235.R173.R54. R7.R51.R459.C339.C305.C215.C182.R110.R196.C142.C296.C344.C153. C236.R200.C206.C91.R269.C264.R462 R386 R201.C186.C234.C346.C261.R353.R464.C61.R361.C265.C266.20K 22K 27K 39K 47K resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% resistor KX0603 1/16W ±5% 100K 180K 270K 200K 470K 560K resistor KX0603 1/16W ±5% resistor resistor resistor resistor resistor KX0603 KX0603 KX0603 KX0603 KX0603 1/16W 1/16W 1/16W 1/16W 1/16W ±5% ±5% ±5% ±5% ±5% R284.R181.C389 C126.C360 C185.C269 C195.C199.R187.C76.R14.C315.R456.R333.R455 R428 R406 R5.R59.R192.R191.C233.C391 C262.C341.R450 R389 C113.C387.C172.C152.R465 R103.R114.R180.C129.C291.C314 C117 C304.C310 C123 2 7 1 1 33 13 1 2 4 2 1 2 8 2 1 4 2 9 3 3 6 21 2 1 3 2 3 1 1 13 4 1 capacitance 5pF 10pF 15pF 22pF 33pF 47pF 56pF 62pF 75pF 100pF 220pF 330pF 390pF 390pF 470pF 1nF 1.R49.C342.C357.R 188.C207.R 485.C187 C1. C6.C248.C365.C35.C3 47.C279.C173.C4.C137.C378.C103.C41 . C239. C374.52 28*28*6 26*9*5 8Mx16 DDR 8MX16 SDRAM integrate circuit integrate circuit integrate circuit QFP256-0.C244.C133.C336.C79.C122. C324.C379.4-PADB integrate circuit integrate circuit integrate integrate Flash Flash integrate integrate circuit(2K ROM) circuit(32K ROM) U9 U27 U5 U11 U6 U13 U1 U9 U16 U22.C67.C251.C184.C332.C159.C169.C217.C253.C306.C334.C121.C146.C371.C281.C321.C382.C331.C7.C174.C84.C56.C147.C372.C89.C302 C9.C220.C161.C109.C297.C181.C163.C270.C333.C18. C254.C94. C162.C367.C280.C178.C376.C77.C 65.C170.C57.C326.47uF 1uF 1uF 2.C242.C252.C52. C318.C275.C350.C13. C307.C101.C298.C355.C58.C327.C39.C119.C385 C37 C294 C221.C250.C301.C104.C83.C160.22uF 0.C358.C337.C60.C353.C373.U14 U15 U2 U7 U21 U25 1 1 1 1 1 1 1 1 1 2 2 1 1 1 1 1 IC HY5DU281622FTP-5 W9812G6GH-6 NJM4558 SPHE1003A AX3101 SPV7100E 74HC4052D PI5V330/CT3257A FT24C02(A) FT24C032(A) EN25T80/SOP EN25T80/DIP OCP2030SA TDA9886TS circuit circuit .C361 C257 EC80.C246.C71.C276.C300.C138.0.C330.C106.C167.C351.C53.C68.C107.C356.C323.C278.C190.C189.C140.C354.1uF 0805 0.C81.C320.C54.C124.C135.C120.C95 .C377.C223.C166.C381.C380.C111.C352.C72.2uF 2.EC89 C26.C335.C85.C66.C157.C201.C247.C36.C3 29.C308 C238.C255.C19.C370. C368.C345 94 1 1 3 36 1 15 2 4 38 capacitance CC41-0805 PCB PCB Dispel heat metal Dispel heat metal HK-HDMI-CI-SUNTV-V2.C1 45.C64.C282.C243.2uF 0805 10uF/10V 10uF 0805 capacitance CC41-0805 16V-20%+80% capacitance CC41-0603 16V-20%+80% capacitance CC41-0603 16V-20%+80% capacitance CC41-0603 10V-20%+80% capacitance CC41-0805 6V-20%+80% capacitance CC41-0603 10V-20%+80% capacitance CC41-08056V-20%+80% capacitance CC41-0805 C2.C93.C105.C218.C273.C317.C97. C130.1uF capacitance CC41-0603 6V-20%+80% 0.C134.C139.C293.C363 EC73.C328.C62.C375.C322.C369.C59.C69.C272.C168.C55.C290.C25.C338.C114.C8.C366.C392.C271.C50.C180.C40.C319.C34.C144.C80.C325.U18 U19.C364. AME1117-ADJ/T BM1084-33/TO-263 AME1117AS18X/T AEM1117AS25X/T AEM1117AS33/T D1517P SI9435 CDT-9DT33C-40 integrate circuit integrate circuit integrate integrate integrate integrate circuit circuit circuit circuit UP4 UP3 UP1 UP2 UP5 U27 Q13 T1 1 1 1 1 1 1 1 1 integrate circuit integrate circuit . 8V（U1） work has abnormity ， exist void weld or electric short； 2、DDR （U5）with SPV7100（U9）joint badly 3 、 reset circuit 、 27M crystal with relative circuit abnormity.52 Trouble 1：black screen NO TV MainBoard Debug Guide Whether the indicator light is normal？ 1、 change the power adapt to identify YES 2、 system 5V abnormity，exist electric short or open circuit or element disrepair：maybe the fuse of F1 break、power IC （U21）relative circuit has abnormity Press power NO button， the color of LED change? 1、power 2. YES YES LVDS signal is normal ？ Change LVDS panel cable or the same type PANEL NO BEAD FB3 disrepair、weld SPV7100 with J3 .Part6: Debug Instruction HK-HDMI-CI-SUNTV-V2.5V（UP2） 、3.3V（UP3） 、1. YES the high voltage pipe is bright？ NO 1、 Main board J4 ON/OFF logic voltage error， maybe relative circuit weld in vain or short. 2、 The power fuse of Inverter board is broken YES NO LVDS voltage is OK？ 1、JP1 short block break of or meet wrong voltage （5V） ； 2、 IC9435 （Q13） through abnormity ， can not provide sufficient current and voltage to drive； 3、 LVDS panel cable assembled wrong or disrepair. The quality or DVB-T signal is bad 2. Power supply circuit error.Trouble 2：have no DTV signal AV signal is normal？ NO 1、 SPV7100 （ U7 ） ADC circuit ( Q64. PCMCIA soket is False welding or some pins Internal are skew When DTV screen show “service not running” 2. maybe Q23 is broken. UP4 ) power supply circuit error ， the voltage is abnormal.L6 and L13 are disrepair 2、 SI2301（Q15）relative circuit has abnormity 3、 U22 relative circuit has abnormity 4、 Tuner or relative circuit are in vain YES Have the “No or bad signal” information? NO U13 (SPHE1003)woks badly . Tuner or relative circuit are in vain 1. maybe: 1、 has no voltage:F2 is broken. 3. The PCMCIA card is broken . YES NO TV channel is OK? U25 or T1 has no voltage，maybe： 1、 L4 .D61\UP1\UP5\Q23 and relative circuit are in vain or short 2、 the circuit between U11 and U13 are False welding YES 1. change the audio system NO YES Earplug has sound？ 1、 Amplify IC(U27) short、output capacitance open circuit 2、 MUTE circuit is mistake （including SPV7100 output MUTE control circuit has abnormity；or earplug（CON9）inside –frame can’t recover.enter factory menu and then EDID RESET .Trouble3：TV with no sound AV has sound？ YES 1、 SIF_OUT output signal of U25 is abnormity 2、 In “ MENU” . NO SPV7100（U7）’s Audio disposal module abnormity： 1、 Maybe BEAD FB26 disrepair lead to no sufficient power supply or no supply （3. Trouble 4：HDMI is abnormal 1、 No picture appears: Check HDMI jack and cable connection 2、 Sounds with no picture: Is EDID OK? (In TV mode .3V） 2、 U7’s pin weld badly. exist short or void welding. DISC CAN’T BE READ Is the Disc side correctly check the DVD laser protection is take off ok? Check the soft wire between CN5 and the model.8V U3 are abnomal.3V U2 .3.DVD NO PICTURE Is the connection cable OK NO Jointing and signal of connection block are broken. Change DVD main board .1. 2. NO Check TV connector J18 (on/off) is low? Check DVD block power IC):5V U1 .DVD BLOCK DEBUG INSTRUCTION 1. Check the communication between CN1 and CN7 . YES Check the voltage of DVD block. DVD MODULE CAN’T CLOSE Disc can’t be closed into the module . 3. Disc can’t be read . Is the module distortion? DVD button was pressed all the time. YES program no work the jointing of 8202D U5 FLASH U4 SDRAM U6 is not correctly.