Cam Output - Hifi Vintage

Transcript

Micro Audio System Contents MCD1065/51/98 Page 1 Technical Specification and Connection Facilities .................................................1-1 to 1-10 2 Laser Beam Safety Precautions......................................... 2-1 3 Important Safety Precautions .................................. 3-1 to 3-2 4 Safety Check After Servicing ............................................. 4-1 5 Safety Information General Notes & Lead Free Requirements .................................................................... 5-1 6 Standard Notes For Servicing,Lead Free Requirements & Handling Flat Pack IC .......................................... 6-1 to 6-4 7 Direction of Use ....................................................... 7-1 to 7-2 8 Cabinet Disassembly Instructions ........................... 8-1 to 8-2 9 Troubleshooting ....................................................... 9-1 to 9-2 Page Contents 14 Decoder Board Circuit Diagram ......................................... 12-8 to 12-13 Layout Diagram ............................................... 12-14 15 Exploded View....................................................................13-1 16 Revision List .......................................................................14-1 10 Block Diagram .................................................................10-1 11 Wiring Diagram ...............................................................11-1 12 AMP Board Circuit Diagram .......................................12-1 to 12-2 Layout Diagram ...................................................12-3 13 Display Board Circuit Diagram ................................................12-4 Layout Diagram ...............................................12-5 14 Power Board Circuit Diagram .................................................12-6 Layout Diagram.................................................12-7 Feature Different /51 Features ©Copyright 2012 Philips Consumer Electronics B.V. Eindhoven, The Netherlands. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips. Published by LX-KM 1210 AVM Version 1.0 Printed in the Netherlands /98 RDS Voltage Selector ECO Standby DTS Subject to modi cation EN 3141 785 37610 Technical Specification and Connection Facilities 1．Location of PC Boards Display Board DVD Loader Decoder Board Power Board AMP Board Version Variations Type /Versions: Board in used: AMP Board Decoder Board Display Board Power Board MCD1065 Service policy /05 /10 /12 /37 /51 Feature diffrence /61 /79 /93 /94 /96 /98 C C M M C C M M Type /Versions Features /58 MCD1065 /05 /10 /12 /37 RDS VOLTAGE SELECTOR ECO STANDBY - DARK DTS * TIPS : C -- Component Lever Repair. M -- Module Lever Repair -- Used 1-1 /51 /58 /61 /79 /93 /94 /96 /98 Technical Specification and Connection Facilities 2. General Information and Requirement 2.1 2.1.1 Product Family Features Identity and Key Features MCD1065 series are Micro DVD Audio System, DVD/CD/MP3 play, USB, Tuner FM(20presets), Elements to include as generic requirements: 1. Detachable mains cord 2. Safety certification (cUL/FCC and CB/EMC/CE) Following is a list of key features: 1. DVD disc player (MTK_MT1389J) 2. USB true source a) MSC/MTP device b) USB High Speed 3. MP3 Link (via headphones jack from PC or MP3 player) 4. Headphone Out (in front of the set) 5. Tuner FM(Silicon Lab SI4705/w RDS) 6. Digital Amplifier 7. Rated output power @10%THD table 2 2.1.2 Set Type Number Stroke Versions Power(ROP) Power(Volume Max) MCD1065 All version 2x5W 2x12W Remark Styling, Forms and Functions MCD20100/DCD2030 appearances are defined in their respective MUS. MUS is the leading document where product appearance is applicable.. Features Products MCD1065 Stroke versions All Refer to MUS[3] for details Tray Middle HORIZONTAL Design Front Optical Drive Loading Tray Location Tray Orientation LCD Dimension Weight Cosmetics 2.1.3 Height of feet Apparatus tray closed W x D x H (mm) Main set speaker Color Buttons UP 3mm 140x143X210mm 3.9kg 1.2kg Black Black External I/O Connections 1-2 Technical Specification and Connection Facilities Model Stroke Version iPod dock with Authentication chip USB MP3 Link (3.5mm audio jack) Composite CVBS (Yellow) Component Y Pb Pr MCD1065 All NA √ √ √ √ Aux In (RCA cinch) Aux Out (RCA cinch) Tuner Socket (for FM) Headphone Out (3.5mm audio jack) 2.1.4 √ √ √ √ Controls, Local Displa y and LED Indications(tbc) Control keys on the set are: 1. Standby-On 2. Eject 3. Play/Pause 4. Next 5. Pre 6. FF 7. FB 8. Source (Disc, USB, Dock, FM, Aux, MP3) 9. Stop 10. Volume Knob There is local display LCD(reuse DCD322 LCD). 2.1.5 . ACCESSORIES (tbc) Model Stroke Version Region Power Cord Audio cable (3.5mm audio) AV cable(Video out only) Remote Control Battery MCD1065 All Version 1.8M 0.5M 1.5M 40keys AAAx2 1-3 Technical Specification and Connection Facilities Quickly guide IFU 2.2 1 1 Mechanical General Information The product appearances and functions are defined in their respective MUS. Product management approves the MUS and it is a leading document where product appearance is applicable. Please refer to Sh560 for mechanical information. 2.3 Safety Standards Where applicable: For /12 (EU), /05 (UK), /51 (Russia) For /37 (US, Canada) For /55 (LATAM), /78 (Brazil) For /98 (AP), /69 (Singapore), /75 (Australia) For /93 (China) For /61 (Korea) For /96 (Taiwan) 2.4 EN/IEC 60065 7th Edition UL 60065 IEC 60065 7th Edition IEC 60065 7th Edition GB 8898 (IEC 60065 7th Edition) K 60065 6th Edition CNS 14408 (IEC 60065 7th Edition) EMC Requirements Where applicable: For /12 (EU), /05 (UK), /51 (Russia) For /37 (US, Canada) For /55 (LATAM), /78 (Brazil) For /98 (AP), /69 (Singapore), /75 (Australia) For /61 (Korea) For /93 (China) For /96 (Taiwan) 2.5 EN55013: 2001, EN55020: 2002 FCC15 CISPR13 CISPR13 CISPR13/20 GB 13837 (CISPR13) CNS 13439 (CISPR13) ESD Requirements The product shall withstand electro static discharges on all user accessible parts of the product. Reference: IEC61000-4-2. For contact discharges: Level General (kV) 1 0-2 2 >2-4 3 - USA (kV) 0-3 >3-4 >7-8 Requirement No deviations allowed. Short perceptible deviations allowed No loss of stored data allowed. 1-4 Technical Specification and Connection Facilities For air discharge: Level General (kV) 1 0-4 2 >4-8 3 - USA (kV) 0-6 >6-8 >15-18 Requirement No deviations allowed. Short perceptible deviations allowed. No loss of stored data allowed. General requirement: 1. 10 arcs for positive and negative polarity for unit “on” and “off” for 1kV incremental steps. 2. Component or mechanical damage is not allowed. No loss of fixed stored data (stored in EEPROMs). 3. Hang-ups and malfunctions are allowed, as long as the customer can “recover” from the hang-up by pressing the Standby or ON/OFF button of the set. 4. Failures that disappear only by unplugging the AC mains cord and/or power sources are not acceptable. 2.6 Environmental Condition The environmental condition requirements and test method is according to UAN-D1590. Ambient temperature Apparatus acc. to spec. : max. 40 ° C - all climates : +5 to + 35 ° C Vibration test (acc. IEC 60 068/2/6) : operational vibration test to be proceeded in operating position of the set. 2.7 Quality PQR-class: class 2 according to BLC A&MA PQR handbook V2.1 (2006-10-02) Lifetime: 7 years Tested According to: Measured According to: General Test Instruction UAN-D 1591 UAN_L 1059 unless otherwise stated 1-5 Technical Specification and Connection Facilities 3. Technical Specifications 3.1 3.1.1 Power Supply Type and versions Build-inSMPS will be used for all models and stroke versions. All using figure built in power cord: Versions Region/Country SMPS Detachable mains cords 12 / 05 EUROPE / UK EU (/12) round 2-pin & UK (/05) 3-pin 37 NAFTA 55 LATAM 1) 100 ~240Vac nom. (wide range from 90V~264Vac limit) used in all versions except India. Frequency: 47~63Hz. 98 APAC 94 India UL flat pin (non-polarized) INMETRO certified round 2-pin EU round 2-pin 2) 100 ~310Vac limit (India compatible with up cost) used only for India. Frequency: 47~63Hz. EU (/12) round 2-pin All requirements per defined for each country should be met with sufficient testing. 3.1.2 Surge Immunity (Lightning Test) The product shall withstand mains interference’s of: Differential mode: 2kV/2 ohm criteria C for Europe. 6kV/12 ohm criteria C for NAFTA. Parameters: Bi-wave Open circuit voltage: 2/50us Short circuit current: 8/20us From +/1kV to +/-2kV (for Europe) or +/-6kV (for Nafta) in steps of 1kV. 10 shots per combination. One shot per minute. Serial impedance: 2 Ohm for Europe, 12Ohm for Nafta. Polarity and phase: Positive (phase 90º) & Negative (phase 270º) 1-6 Technical Specification and Connection Facilities Common mode: 6kV/2 ohm criteria C for Europe. 6kV/12 ohm criteria C for Nafta. Parameters: Ring-wave (100kHz) From +/3kV to +/-6kV in steps of 1 kV. 10 shots per combination. One shot per minute. Serial impedance: 2 Ohm for Europe, 12Ohm for Nafta Polarity and phase: Positive (phase 90º) & Negative (phase 270º) Reference: IEC61000-4-5 and for USA: 3135 019 8029 Reliability evaluation. Requirements: Apparatus should fulfil the leakage current requirements of IEC60065 point 9.1.1 (UAN-D1631) Defects or permanent deviations are not allowed. 3.1.3 Mains Drop-out Immunity The product shall withstand mains failures of: Variation 0% (=100% dip) at T-event = 50 mSec. Performance criterion B Variation 40% (=60% dip) at T-event = 100 mSec. Performance criterion B Variation 0% (=100% dip) at T-event = 5 Sec. Performance criterion C Additional for USA apparatus: See 3135 019 8029 Reliability evaluation. Variation 0% (=100% dip) at T-event = 100 mSec in standby mode. Performance criterion B Requirement: No misoperation and no interference of user in order to guarantee continuation of performed function. Reference: IEC61000-4-11 For measuring method refer to UAN-D1724, as far as applicable. Performance criterions according to IEC61000-4-4 Amendment 1 Performance Requirement Criterion A - No any degradation of specification. Criterion B - Temporary degradation / self recoverable. Criterion C - No damage, resolvable hang-up. Criterion D - Not recoverable loss of function. 3.1.4 Power Consumption Power consumption at nominal AC input: 1. CD play mode at 1/8 P-rated output power MCD1065: 2. Low Power Standby Mode: İ İ 1-7 W 20 0.5 W Technical Specification and Connection Facilities 3.2 3.2.1 Technical Description Audio Performance Gerneral Part Output Stage Protection: NA Temperature : Indicators Standby Mode Indicator: Power Standby Mode: Yes Short Circuit: Yes Clock Display Active LED Turns Off Electrical Data DSC: DBB: Bass: Treble: Loudness: Y Y NA NA NA Channel Difference: Hum (Volmin --- Volmax-20dB) Residual Noise(Volume Minimum) Channel Seperation: 1kHz/10kHz THD,Maximal Signal to Noise Ratio(A-weighted): Crostalk: Amplification Reserve Audio Inputputs Audio Input Sensitivity(± 3dB) rated output power at 1kHz Tuner FM 67.5kHz, Modulation (Limit:-6dB) CD/MP3 -3dB track (Audio Disc 1, Track 1) USB AUX1(back) MP3_link(front) IPOD Docking -3dB 1KHz sinewave( 2.0HS) 1V; Rin ≥ 22kΩ 500mV-1000mV; Rin ≥ 22kΩ 750mV; Rin ≥ 22kΩ Output Power(*1) At THD=10%, 1kHz sinewave Normal ± 3dB 150nW 40nW 40dB/35dB 0.8% 82dBA 60dB 3dB Audio Output(*1) Line Out(Left/Right) Headphone Limit 1.0% 77dBA 55dB 2dB 1000mV±200mV 15mW ± 2 dB, RL = 32Ω MCD1065(ROP) MCD1065(Max Power,30%)(*2) Main Operation for / all version (rms) Tuner output power(rms) Frequency Response(± 3dB) 5W± 1dB 5W± 1dB 60Hz-20kHZ 2x12W -1dB Loudspeaker(Boxes): Separable speaker box Speaker driver Impedance: Right/Left: Subwoofer: Refer to package document of Speaker Box Assy ( At Cold Condition with 10% THD ) ( At Cold Condition with 10% THD ) 4Ω @ 40 Hz ~ 20kHz(-3db) REMARKS: Electrical Parameters are to be measured at Speaker Terminals across rated impedance Load(6ohm) with Rated Input Signal in CD Mode setting in DBB/Loudness Off and Pre-eq at Flat unless specified otherwise. (*2)--- measure max volume power with 1V MP3-link input 1-8 Technical Specification and Connection Facilities 3.2.2 3.2.2.1 Video Performance CVBS Description Test Signal Amplitude output White bar Sync. Amplitude 100% White 100% White 100% White 75% Color bar Burst Amplitude Burst / chroma ratio S/N luminance S/N chroma 100% Color bar 100% White 100% Red AM PM Specification NTSC PAL 1Vpp ± 10% 1Vpp ± 10% 714mV ± 10% 700mV ± 10% 286mV ± 10% 300mV ± 10% 286mV, +1dB / - 300mV, +1dB / 4dB 4dB ± 5% ± 5% ≥60 dB ≥60 dB ≥57 dB ≥57 dB ≥60 dB ≥57 dB Video Bandwidth 3.2.2.2 0.5MHz – 4MHz 4.8MHz 5.8MHz Chroma Subcarrier Frequency 75% Color bar Chroma / luminance delay Subcarrier locked/unlocked DC Level 2T pulse 75% Color bar 0% Black Component Video (Y/Pb/Pr) Description Amplitude output White bar PbPr peak to peak PbPr Output unbalance Sync. Amplitude S/N on outputs Multi-burst Test Signal 100% White 100% White 75% Color bar 75% Color bar 100% White Y Pb / Pr 100% White 75% Color bar +1dB/-1dB -1.5dB -2dB -5dB -5dB 3.579545 MHz ± 4.433618MHz± 25ppm 30ppm ≤20ns ≤20ns locked locked ≤1V ≤1V Specification Interlace/Progressive NTSC PAL 1000mV ± 10% 1000mV ± 10% 714mV ± 10% 700mV ± 10% 525mV ± 10% 535mV ± 10% ≤3% ≤3% 286mV ± 40mV 300mV ± 10% ≥60 dB ≥60 dB Video Bandwidth 4.2MHz 5.8MHz Video Bandwidth (Progressive) 8.4MHz 9.6MHz DC Level Multi-burst -1.5dB -5dB -1.5dB -5dB Multi-burst -1.5dB -5dB ≤1V -1.5dB -5dB ≤1V 0% Black 1-9 Technical Specification and Connection Facilities 3.3 TUNER FM use Silicon Lab Si4704/4705(w/RDS) GENARAL PART WAVE RANGE FM 87.5 – 108.00 MHz VERSION /12 TOLERANCE QUARTZ PRECISION TUNING GRID 50kHz AERIAL FM : PIG TAIL ANT WIRE 75Ω ELECTRICAL DATA Frequency (MHz) FM 88.0 FM 98.0 FM 107.0 Nom. Lim. Nom. Lim. Nom. Lim. Units Noise Limited Sensitivity 26 dB 18 22 18 22 18 22 dBf FM Nom Limit Unit - 3 dB Limiting Point 20 26 dBf Search Tuning Sensitivity(at stereo mode) 35 41 Search time digital tuning system. - 60 10.7 48 50 50 0 2 51 45 45 -4 3 dB % - ±3 dB IF Stereo - 46 dB Quieting Modulation Hum S/N Ratio Amplification Reverse Distortion ( RF 1mV, Frq Dev.75 kHz ) Overall Frequency Response: 63Hz – 12.5KHz Channel separation:400 / 1000 / 5000 Hz. RF input: 68 dBf Image Large Signal IF Rejection Rejection Handling 30 64 116 dBf 25 45 108 dBf 30 64 116 dBf 25 45 108 dBf 30 60 116 dBf 25 65 108 dBf DB dB mV/m Limited(d B) Normal (dB) -15dB -20dB 26/30/ 20/26/ 20 18 Selectivity S9/300 kHz 22 18 (*1) 22 18 (*1) 45 25 dB Remark Susceptibility to unwanted signals(CPU,SMPS,AMP,DSP …): 1-10 Refer to selfpollution curve S MHz dB dB Laser Beam Safety Precautions This Blu-Ray player uses a pickup that emits a laser beam. Do not look directly at the laser beam coming from the pickup or allow it to strike against your skin. The laser beam is emitted from the location shown in the figure. When checking the laser diode, be sure to keep your eyes at least 30 cm away from the pickup lens when the diode is turned on. Do not look directly at the laser beam. CAUTION: Use of controls and adjustments, or doing procedures other than those specified herein, may result in hazardous radiation exposure. Drive Mechanism Assembly Laser Beam Radiation Laser Pickup Turntable Location: Inside Top of Blu-Ray mechanism. 2-1 Important Safety Precautions Caution: These servicing instructions are for use by qualified service personnel only.To reduce the risk of electric shock do not perform any servicing other than that contained in the operating instructions unless you are qualified to do so. Important Read and understand all instructions before you use your home theater. If damage is caused by failure to follow instructions, the warranty does not apply. For speakers with stands, use only the supplied stands. Secure the stands to the speakers tightly. Place the assembled stands on flat, level surfaces that can support the combined weight of the speaker and stand. Never place the product or any objects on power cords or on other electrical equipment. If the product is transported in temperatures below 5°C, unpack the product and wait until its temperature matches room temperature before connecting it to the power outlet. Visible and invisible laser radiation when open. Avoid exposure to beam. Do not touch the disc optical lens inside the disc compartment. Risk of overheating! Never install this product in a confined space. Always leave a space of at least four inches around the product for ventilation. Ensure curtains or other objects never cover the ventilation slots on the product. Risk of contamination! Do not mix batteries (old and new or carbon and alkaline, etc.). Remove batteries if they are exhausted or if the remote control is not to be used for a long time. Batteries contain chemical substances, they should be disposed of properly. Safety Riskof electric shock or fire! Never expose the product and accessories to rain or water. Never place liquid containers, such as vases, near the product. If liquids are spilt on or into the product, disconnect it from the power outlet immediately. Contact Philips Consumer Care to have the product checked before use. Never place the product and accessories near naked ames or other heat sources, including direct sunlight. Never insert objects into the ventilation slots or other openings on the product. Where the mains plug or an appliance coupler is used as the disconnect device, the disconnect device shall remain readily operable. Disconnect the product from the power outlet before lightning storms. When you disconnect the power cord, always pull the plug, never the cable. Riskof short circuit or re! Before you connect the product to the power outlet, ensure that the power voltage matches the value printed on the back or bottom of the product. Never connect the product to the power outlet if the voltage is different. Risk of injury or damage to the home theater! For wall-mountable products, use only the supplied wall mount bracket. Secure the wall mount to a wall that can support the combined weight of the product and the wall mount. Koninklijke Philips Electronics N.V. bears no responsibility for improper wall mounting that results in accident, injury or damage. Product care Do not insert any objects other than discs into the disc compartment. Do not insert warped or cracked discs into the disc compartment. Remove discs from the disc compartment if you are not using the product for an extended period of time. Only use microfiber cloth to clean the product. 3-1 Important Safety Precautions Disposal of your old product and batteries Your product is designed and manufactured with high quality materials and components, which can be recycled and reused. When this crossed-out wheeled bin symbol is attached to a product it means that the product is covered by the European Directive 2002/96/EC. Please inform yourself about the local separate collection system for electrical and electronic products. Please act according to your local rules and do not dispose of your old products with your normal household waste. Correct disposal of your old product helps to prevent potential negative consequences for the environment and human health. Your product contains batteries covered by the European Directive 2006/66/EC, which cannot be disposed with normal household waste. Please inform yourself about the local rules on separate collection of batteries because correct disposal helps to prevent negative consequences for the environmental and human health. 3-2 Safety Check after Servicing Examine the area surrounding the repaired location for damage or deterioration. Observe that screws, parts, and wires have been returned to their original positions. Afterwards, do the following tests and confirm the specified values to verify compliance with safety standards. 1. Clearance Distance When replacing primary circuit components, confirm specified clearance distance (d) and (d’) between soldered terminals, and between terminals and surrounding metallic parts. (See Fig. 1) Chassis or Secondary Conductor Primary Circuit Table 1: Ratings for selected area AC Line Voltage 110V~220V Note: d' Clearance Distance (d), (d’) d 3.2 mm (0.126 inches) This table is unofficial and for reference only. Be sure to confirm the precise values. Fig. 1 2. Leakage Current Test Confirm the specified (or lower) leakage current between B (earth ground, power cord plug prongs) and externally exposed accessible parts (RF terminals, antenna terminals, video and audio input and output terminals, microphone jacks, earphone jacks, etc.) is lower than or equal to the specified value in the table below. Exposed Accessible Part Z AC Voltmeter (High Impedance) Measuring Method (Power ON): Insert load Z between B (earth ground, power cord plug prongs) and exposed accessible parts. Use an AC voltmeter to measure across the terminals of load Z. See Fig. 2 and the following table. B Earth Ground Power Cord Plug Prongs Fig. 2 Table 2: Leakage current ratings for selected areas AC Line Voltage 110V~220V Note: Load Z 0.15 μF CAP. & 1.5 k RES. Connected in parallel Leakage Current (i) i 0.5 mA Peak Earth Ground (B) to: Exposed accessible parts This table is unofficial and for reference only. Be sure to confirm the precise values. 4-1 Safety Information, General Notes & Lead Free Requirements 1 Safety Instructions 2 Warnings 1.1 General Safety 2.1 General Safety regulations require that during a repair: Connect the unit to the mains via an isolation transformer. Replace safety components, indicated by the symbol , only by components identical to the original ones. Any other component substitution (other than original type) All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD, ). Careless handling during repair can reduce life drastically. Make sure that, during repair, you are at the same potential as the mass of the set by a wristband with resistance. Keep components and tools at this same potential. Available ESD protection equipment: – Complete kit ESD3 (small tablemat, wristband, Safety regulations require that after a repair, you must return the unit in its original condition. Pay, in particular, attention to the following points: Route the wires/cables correctly mounted cable clamps. 4822 310 10671. – Wristband tester 4822 344 13999. Be careful during measurements in the live voltage section. The primary side of the power supply, including the heatsink, carries live mains voltage when you connect the player to the mains (even when the player is ‘off’!). It is possible to touch copper tracks and/ or components in this unshielded primary area, when you service the player. Service personnel must take precautions to prevent touching this area or components in this area. A ‘lightning stroke’ and a stripe-marked printing on the printed wiring board, indicate the primary side of the power supply. Never replace modules, or components, while the unit is ‘on’. damage. Check the electrical DC resistance between the mains plug and the secondary side: 1. Unplug the mains cord, and connect a wire between the two pins of the mains plug. 2. Set the mains switch to the ‘on’ position (keep the mains cord unplugged!). 3. Measure the resistance value between the mains plug and the front panel, controls, and chassis bottom. 4. Repair or correct unit when the resistance 5. Verify this, before you return the unit to the customer/ user (ref. UL-standard no. 1492). 6. Switch the unit ‘off’, and remove the wire between the two pins of the mains plug. 1.2 2.2 The use of optical instruments with this product, will Only quali ed service personnel may remove the cover or attempt to service this device, due to possible eye injury. Repair handling should take place as much as possible with a disc loaded inside the player. T shield: Laser Safety This unit employs a laser may remove the cover, or attempt to service this device (due to possible eye injury). Laser Device Unit Type CAUTION VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID EXPOSURE TO BEAM ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING VED ÅBNING UNDGÅ UDSÆTTELSE FOR STRÅLING ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING NÅR DEKSEL ÅPNES UNNGÅ EKSPONERING FOR STRÅLEN VARNING SYNLIG OCH OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD BETRAKTA EJ STRÅLEN VARO! AVATTAESSA OLET ALTTIINA NÄKYVÄLLE JA NÄKYMÄTTÖMÄLLE LASER SÄTEILYLLE. ÄLÄ KATSO SÄTEESEEN VORSICHT SICHTBARE UND UNSICHTBARE LASERSTRAHLUNG WENN ABDECKUNG GEÖFFNET NICHT DEM STRAHL AUSSETSEN DANGER VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID DIRECT EXPOSURE TO BEAM ATTENTION RAYONNEMENT LASER VISIBLE ET INVISIBLE EN CAS D’OUVERTURE EXPOSITION DANGEREUSE AU FAISCEAU :AIGalnN(BD) :AIGalnP(DVD) : AIGalnP(CD) Wavelength Output Power Beam divergence Laser : : : : 650 nm (DVD) 780 nm (VCD/CD) 405nm(BD) 20 mW (DVD+RW writing) : 0.8 mW (DVD reading) : 0.3 mW (VCD/CD reading) Figure 2-2 : 60 degree CLASS 1 LASER PRODUCT Fi g u r e 2-1 Note: Use of controls or adjustments or performance of procedure other than those speci ed herein, may result in A 5-1 Standard Notes for Servicing, Lead Free Requirements & Handling Flat Pack IC Circuit Board Indications Pb (Lead) Free Solder 1. The output pin of the 3 pin Regulator ICs is indicated as shown. When soldering, be sure to use the Pb free solder. Top View Out Information about lead-free soldering Philips CE is producing lead-free sets from 1.1.2005 onwards. Bottom View In Input IDENTIFICATION Regardless of special logo (not always indicated) 2. For other ICs, pin 1 and every fifth pin are indicated as shown. One must treat all sets from 1 Jan 2005 onwards, according to the next rule: Serial Number gives a 14-digit. Digit 5&6 shows the YEAR, and digit 7&8 shows the WEEK. 5 Pin 1 So from 0501 onwards=from 1 Jan 2005 onwards Important note : In fact also products of year 2004 must be treated in this way as long as you avoid mixing solder-alloys (leaded/ lead-free). So best to always use SAC305 and the higher temperatures belong to this. 10 3. The 1st pin of every male connector is indicated as shown. Due to lead-free technology some rules have to be respected by the workshop during a repair: Use only lead-free solder alloy Philips SAC305 with order code 0622 149 00106. If lead-free solderpaste is required, please contact the manufacturer of your solder-equipment. In general use of solderpaste within workshops should be avoided because paste is not easy to store and to handle. Use only adequate solder tools applicable for leadfree solder alloy. The solder tool must be able Pin 1 Instructions for Connectors 1. When you connect or disconnect the FFC (Flexible Foil Connector) cable, be sure to first disconnect the AC cord. 2. FFC (Flexible Foil Connector) cable should be inserted parallel into the connector, not at an angle. To reach at least a solder-temperature of 400°C, To stabilize the adjusted temperature at the soldertip To exchange solder-tips for different applications. Adjust your solder tool so that a temperature around 360°C - 380°C is reached and stabilized at the solder joint. Heating-time of the solder-joint should not exceed ~ 4 sec. Avoid temperatures above 400°C otherwise wear-out of tips will rise drastically and flux-fluid will be destroyed. To avoid wear-out of tips switch off un-used equipment, or reduce heat. Mix of lead-free solder alloy / parts with leaded solder alloy / parts is possible but PHILIPS recommends strongly to avoid mixed solder alloy types (leaded and lead-free). If one cannot avoid or does not know whether product is lead-free, clean carefully the solder-joint from old solder alloy and re-solder with new solder alloy (SAC305). Use only original spare-parts listed in the ServiceManuals. Not listed standard-material (commodities) has to be purchased at external companies. FFC Cable Connector CBA * Be careful to avoid a short circuit. 6-1 Standard Notes for Servicing, Lead Free Requirements & Handling Flat Pack IC How to Remove / Install Flat Pack-IC Special information for BGA-ICs: - always use the 12nc-recognizable soldering temperature profile of the specific BGA (for desoldering always use the lead-free temperature profile, in case of doubt) - lead free BGA-ICs will be delivered in so-called 'dry-packaging' (sealed pack including a silica gel pack) to protect the IC against moisture. After opening, dependent of MSL-level seen on indicatorlabel in the bag, the BGA-IC possibly still has to be baked dry. (MSL=Moisture Sensitivity Level). This will be communicated via AYS-website. Do not re-use BGAs at all. For sets produced before 1.1.2005 (except products of 2004), containing leaded solder-alloy and components, all needed spare-parts will be available till the end of the service-period. For repair of such sets nothing changes. On our website you find more www.atyourservice.ce.Philips.com information to: 1. Removal With Hot-Air Flat Pack-IC Desoldering Machine: 1. Prepare the hot-air flat pack-IC desoldering machine, then apply hot air to the Flat Pack-IC (about 5 to 6 seconds). (Fig. S-1-1) Fig. S-1-1 BGA-de-/soldering (+ baking instructions) 2. Remove the flat pack-IC with tweezers while applying the hot air. Heating-profiles of BGAs and other ICs used in Philips-sets 3. Bottom of the flat pack-IC is fixed with glue to the CBA; when removing entire flat pack-IC, first apply soldering iron to center of the flat pack-IC and heat up. Then remove (glue will be melted). (Fig. S-1-6) You will find this and more technical information within the “magazine”, chapter “workshop news”. For additional questions please contact your local repair-helpdesk. 4. Release the flat pack-IC from the CBA using tweezers. (Fig. S-1-6) CAUTION: 1. The Flat Pack-IC shape may differ by models. Use an appropriate hot-air flat pack-IC desoldering machine, whose shape matches that of the Flat Pack-IC. 2. Do not supply hot air to the chip parts around the flat pack-IC for over 6 seconds because damage to the chip parts may occur. Put masking tape around the flat pack-IC to protect other parts from damage. (Fig. S-1-2) 6-2 Standard Notes for Servicing, Lead Free Requirements & Handling Flat Pack IC 3. The flat pack-IC on the CBA is affixed with glue, so be careful not to break or damage the foil of each pin or the solder lands under the IC when removing it. CBA 4. Release the flat pack-IC from the CBA using tweezers. (Fig. S-1-6) With Iron Wire: 1. Using desoldering braid, remove the solder from all pins of the flat pack-IC. When you use solder flux which is applied to all pins of the flat pack-IC, you can remove it easily. (Fig. S-1-3) Hot-air Flat Pack-IC Desoldering Machine 2. Affix the wire to a workbench or solid mounting point, as shown in Fig. S-1-5. 3. While heating the pins using a fine tip soldering iron or hot air blower, pull up the wire as the solder melts so as to lift the IC leads from the CBA contact pads as shown in Fig. S-1-5. Masking Tape Tweezers 4. Bottom of the flat pack-IC is fixed with glue to the CBA; when removing entire flat pack-IC, first apply soldering iron to center of the flat pack-IC and heat up. Then remove (glue will be melted). (Fig. S-1-6) Flat Pack-IC Fig. S-1-2 5. Release the flat pack-IC from the CBA using tweezers. (Fig. S-1-6) With Soldering Iron: Note: 1. Using desoldering braid, remove the solder from all pins of the flat pack-IC. When you use solder flux which is applied to all pins of the flat pack-IC, you can remove it easily. (Fig. S-1-3) Flat Pack-IC When using a soldering iron, care must be taken to ensure that the flat pack-IC is not being held by glue. When the flat pack-IC is removed from the CBA, handle it gently because it may be damaged if force is applied. Desoldering Braid Hot Air Blower or Soldering Iron Iron Wire Fig. S-1-3 Soldering Iron 2. Lift each lead of the flat pack-IC upward one by one, using a sharp pin or wire to which solder will not adhere (iron wire). When heating the pins, use a fine tip soldering iron or a hot air desoldering machine. (Fig. S-1-4) To Solid Mounting Point Fig. S-1-5 CBA Fine Tip Soldering Iron Sharp Pin Fine Tip Soldering Iron Flat Pack-IC Fig. S-1-4 Tweezers 3. Bottom of the flat pack-IC is fixed with glue to the CBA; when removing entire flat pack-IC, first apply soldering iron to center of the flat pack-IC and heat up. Then remove (glue will be melted). (Fig. S-1-6) Fig. S-1-6 6-3 Standard Notes for Servicing, Lead Free Requirements & Handling Flat Pack IC Instructions for Handling Semiconductors 2. Installation 1. Using desoldering braid, remove the solder from the foil of each pin of the flat pack-IC on the CBA so you can install a replacement flat pack-IC more easily. Electrostatic breakdown of the semi-conductors may occur due to a potential difference caused by electrostatic charge during unpacking or repair work. 2. The “ ” mark on the flat pack-IC indicates pin 1. (See Fig. S-1-7.) Be sure this mark matches the 1 on the PCB when positioning for installation. Then presolder the four corners of the flat pack-IC. (See Fig. S-1-8.) 1. Ground for Human Body Be sure to wear a grounding band (1 M ) that is properly grounded to remove any static electricity that may be charged on the body. 3. Solder all pins of the flat pack-IC. Be sure that none of the pins have solder bridges. 2. Ground for Workbench Be sure to place a conductive sheet or copper plate with proper grounding (1 M ) on the workbench or other surface, where the semi-conductors are to be placed. Because the static electricity charge on clothing will not escape through the body grounding band, be careful to avoid contacting semi-conductors with your clothing. Example : Pin 1 of the Flat Pack-IC is indicated by a " " mark. Fig. S-1-7 Presolder CBA Flat Pack-IC Grounding Band CBA Fig. S-1-8 1M CBA 1M Conductive Sheet or Copper Plate 6-4 Direction of Use *The following excerpt of the DFU/QSG serves as an introduction to the set. The Complete Direction for Use can be download in different languages from the internet site of Philips Customer care Center : www.support.philips.com Overview of the main unit Overview of remote control a b l a c k d j i b c d e r e f h g g f a Display panel • h q i p j Show current status. o k b • c Turn on the unit, or switch to standby mode, or switch to Eco Power standby. l Remote sensor m n d • e Connector for a USB device. MP3 LINK • Connector (3.5mm) for an external audio device. a • • f • g Stop play or erase a program. b / • Skip to the previous/next track. • Search within a track. • Tune to a radio station. c d h • i j k Start or pause play. VOL +/• Adjust volume. • Adjust time. e DBB • Turn the dynamic bass enhancement on or off. • Select a preset sound effect. SOURCE • Select a source: Disc, USB, tuner, or MP3 link. • Open or close the disc compartment. Switch the micro system on/off. Switch to standby mode or Eco Power standby. DISC/DISC MENU/FM/USB/MP3 LINK • Select the source. • Access the main menu of the system. f l 7-1 • Access the home menu. INFO • Show the disk information such as title, chapter, subtitle, time elapsed, total time etc. AUDIO / SUBTITLE • For menus: navigate up/down. • Invert a picture. AUDIO: Toggle between stereo and • mono. • SUBTITLE : Select a subtitle language for a video. • Select a programmed radio station. OK • Confirm a selection. Direction of Use / Search in a track or disc. Fast backward or forward. For menus, navigate left/right. Rotate a picture. Select a preset radio station. g • • • • • Connect TV Connect through composite video Connect the supplied composite video cable to: h • • the VIDEO OUT socket on this unit. • the video input socket on the TV. Return to a previous display menu. i • Start, pause or resume play. / j • k l m n Skip to the previous/next track, title, or file. • Select a programmed radio station. VOL +/• Adjust the volume. Numeric buttons • Select a title/chapter/track to play. PROG/CLOCK SET • Program radio stations. • Set clock. TIMER/SLEEP • Set sleep timer. • Set alarm timer. Connect audio from TV or other devices Connect audio through a digital coaxial cable Connect a coaxial cable to: o • Mute. • COAXIAL jack on this product. • the COAXIAL/DIGITAL input jack on the TV or other device. p • • • q r Stop play. Erase a programed radio station. Activate/deactivate the demonstration mode. DSC/DBB • Select a preset sound setting. • Turn on or off dynamic bass enhancement. MODE/OPTIONS • Select repeat play or random play. • Accesses options relating to the current activity or selection. Connect power Caution • Risk of product damage! Make sure that the power • Connect speakers supply voltage corresponds to the voltage printed on the rear of the main unit. Before connecting the AC cord, make sure that you have completed all other connections. Note Note • For optimal sound, use the supplied speakers only. • Connect only speakers with impedance that is the • The type plate is located on the rear of the main unit. same or higher than the supplied speakers. Refer to the Specifications section of this manual. Insert the speaker wires completely into the speaker input sockets on the back of the unit. R+ L+ – – 7-2 1 Connect the power cord to the AC~ jack on the main unit. 2 Connect the power plug to the wall outlet. Cabinet Disassembly Instructions Note: 1. Disassembly Flowchart (1) Identification (location) No. of parts in the figures This flowchart indicates the disassembly steps to gain access to item(s) to be serviced. When reassembling, follow the steps in reverse order. Bend, route, and dress the cables as they were originally. (2) Name of the part (3) Figure Number for reference (4) Identification of parts to be removed, unhooked, unlocked, released, unplugged, unclamped, or desoldered. Axx = Screw, CNxx/Jxx/CONxx = Connector D3.5X12BA is specification of screw. [1].Bottom CAB Power Board [2].Front Cover * = Unhook, Unlock, Release, Unplug, or Desolder [3].Display Board Button e.g. 7(A01) = seven Screws [4].Decoder Board AMP Board [5].DVD Loader [6].Front Pannel A01 2. Disassembly Method A01 Removal ID/Loc. NO. Part [1] Bottom CAB Power Board [2] [3] Front Cover Display Board Remove/Unhook Fig.NO. /Unlock/Release/ Unplug/Desolder D1 Note 8(A01) D 3 X 10 BA Fig. D1 D2 D3 1 0 (A02) D3 X 10 BA D4 8 (A03) D3 X 10 BA 4(A04)D3 X 10 PWA Button Decoder Board [4] AMP Board [5] DVD Loader D5 [6] Front Pannel D6 Fig. D2 8-1 Cabinet Disassembly Instructions A02 A02 Fig. D6 Fig. D3 A03 Fig. D4 A04 Fig. D5 8-2 Troubleshooting FLOW CHART NO.1 No sound from whole unit No check if speaker is ok check and change speaker and output wire Yes check if public circuit of whole unit AMP circuit is ok No check radio tube and periphery circuit Yes check if power supply circuit of whole unit is ok No check and change transormer of power supply and power commutate circuit Yes check staic noisy circuit CPU circuit and change components FLOW CHART NO.2 no sound from radio check if output of radio is normal No check public circuit and circuit of power supply Yes check radio controlled circuit No check and change the related components of radio controlled circuit Yes check if power supply of radio is normal No check and change related components of power supply circuit Yes check if radio circuit components of around it is normal No check and change components of around it FLOW CHART NO.3 no sound from DVD check if DVD output is normal power supply circuit and change related No check public circuit components No check and change the related components of DVD controlled circuit No check and change the related components of DVD、tie wires 、socket Yes check if DVD controlled circuit is ok Yes check if the related components of DVD signal channel tie wires socket is normal Yes change Decoder board 9-1 Troubleshooting no search from DVD No check if supply +12V of Decoding board is normal check steady circuit Yes check if laser head ass'y can light normally Yes Decoding board is broken Yes check and change good laser head ass'y Yes Decoding is broken No check if tie wires of laser head ass'y is loosen and broken No laser head ass'y broken FLOW CHART NO.4 no image from DVD check if video socket、video wire is normal No socket check and change video wire No display from display screen check voltage of filaments transformer is normal No transformer is broken No Yes check if the capacitor voltage of filaments filter is short circuit No check if display screen is broken Yes change display screen No check if tie wire is broken Yes change tie wires 9-2 change capacitance Block Diagram 89S_3V3 V1.8V CVBS CVBS_OUT S3 3V S3.3V RF CMS-S76 RFS3 SDRAM M3.3V K4S641632H-UC60 DVD_5V MAIN CHIPSET MT1389DXE-J LOADER MOTOR DRIVER CD5954CB F3.3V si4702 FLASH EN29LV160AB-70TCP 8829E WXD-8829E WXD FM_LR_IIN E3.3V SERIAL EEPROM 24C16 DVD_5V DVD/CD_RL D-/D+ USB (host 2.0) MP3 Link HP_OUT MP3_LR_IN 5V LCD DISPLAY IIC 5V MCU3.3V OPT HEADSET DRIVER 4558 Seg/ grid BUS BD3491/3490 M3.3V LCD Driver PT2309 LED BUS Stb,clk,data AMP VDD M3.3V MCU PT6533 EEPROM FL_OUT M24C02 R5F21266 BD3490FS AD_KEY TDA7491HV STB/MUTE IR STB/MUTE IR VUSB_ON TX/RX/CTL/DET DVD_ON KEY*9 AMPLIFIER FR_OUT 6OHM_5W*2 AMP TDA7491HV 12V/18V DC/DC AP1538 AC220V 5V TRANSFORMER IGND 9435 1117 CD/DVD_ON GND E3.3V F3.3V S3.3V DVD_5V 1117 1117 ECO LDO 7333 89S_3V3 M3.3V V1.8V MCU3.3V I5V/3.3V IPOD/IPHONE O / O _5 5V BD3491/3490 ECO 9.1V FAN_VCC 10-1 10-1 Wiring Diagram AMP Board Power Board DVD Loader Decoder Board Display Board 11-1 11-1 AMP Board -- Circuit Diagram 1 L48 1 2 3 4 5 6 MP3_L MP3_R SI4702/03 0 AL AR SI4704/05 120nH R113 R120 0 A18V 0 CB34 CB35 CB36 CB37 CB38 33PF NC/33PF 33PF 33PF 9.1V R80 4.7uF R81 1K 4.7uF R83 1K 33PF CB39 CB40 33PF 33PF 4 330R 17 16 DFS 18 LOUT ROUT GND RST VD/VDD R78 1k C47 0.47uF 13 R79 1k C48 0.47uF L23 FB/1k@100MHz/0603 CB42 NC/33PF 33PF 33PF 4.7uF L24 FB/1K 1 C67 4.7uF L26 FB/1K 2 4.7uF L27 FB/1K 3 4.7uF L28 FB/1K FM_IN_L FM_IN_L R100 1K C136 4.7uF L27 FB/1K 5 FM_IN_R FM_IN_R R102 1K C141 4.7uF L28 FB/1K 6 C136 4.7uF L27 FB/1K/NC 7 C141 4.7uF L28 FB/1K/NC 8 M3.3V C73 R103 47K 11 R104 47K 470pF C74 4 470pF C53 10u/10V C52 0.01uF VIO RCLK 10 CB47 33PF AL R100 1K AR R102 1K L29 FB/1k@100MHz/0603 MSCL R93 2.2K MSDA R96 2.2K C68 2.2uF 11 C70 2.2uF 12 CB48 33PF 10 9 SDIO 8 SEN SCLK 9 R86 10K C61 1uF R90 10K C73 R103 47K R92 10K CB50 33PF 13 CB51 33PF 14 C74 R104 47K 470pF 15 470pF 16 C77 330R/1W 9.1V U7 BD3491 BD3491FS CB43 C136 C141 14 12 C66 R85 22K 680pF C43 100P C42 100p 0.01uF 0.01uF 15 DOUT TXO C41 C55 R84 22K 680pF RFGND 7 TP54 0.1uF 0603-0.27uH(催乥催Q\100MHz\Qؐ໻Ѣ25) L25 5 C54 C40 FMI 6 R82 FM_RST GPO3/DCLK 20 NC 2 3 5V J3 CON12 1 RFIN GPO2/IRQ 21 NC. GND C46 100pF TP18 TP19 TP20 TP22 TP24 TP25 TP26 TP27 TP29 TP30 TP53 CB45 GND ECO_POWER REMOTE LED_PWM LCD_DATA LCD_WR LCD_CS GND AD1 AD2 MCU3.3V 5V 1 2 3 4 5 6 7 8 9 10 11 12 GPO1 SI4705 19 U6 J1 CON6 CB41 CB44 0.1uF A1 B1 B2 A2 C1 FIL C2 GND SDA D1 D2 SCL E1 VCC E2 OUT1 F1 SB1 F2 SR SEL2 SB2 SEL1 OUT2 VOL1 BCB1 VOL2 BCA1 TC2 1 BCA2 C D6 9.1V + T 2 CE21 220uF/25V 32 31 + MP3_L C49 MP3_R C50 30 CE22 10UF/16V 29 R88 28 33PF L34 25 24 R97 FB/1K 1K CE23 0603-2.2UF-K-10V L_OUT R98 0R R99 23 22 R101 0R NC C69 L38 CB49 21 MSCL 1K CB46 26 MSDA 1K R91 27 + NC FB/1K 33PF 4700pF CE24 0603-2.2UF-K-10V R_OUT + NC 20 0.22uF CB52 19 CB53 18 17 B C C78 R105 3K R106 3K 0.22uF CB54 0.22uF CB55 0.22uF B 3300pF 3300pF Y2 32.768KHz J4 L37 RF IN FB/1K FM RFIN 1 2 3 C71 22pF C72 22pF IPOD_L R81 IPOD_R R86 4 6 7 5 D7 ESD0603/SMD 4.7K/NC 4.7K/NC C71 680pF/NC R89 22K/NC C72 R90 22K/NC 680pF/NC M5V AD1 100R LCD_DATA 20 19 REM CB75 MCU3.3V R175 33R R177 100R REMOTE 18 R178 1K IPOD_ACCDET 17 R180 100 IPOD_TX R230 2.2K IPOD_DET R231 10K MCU3.3V 0.1uF R195 0R 30 R197 0R 31 C115 0.1uF L60 FB/1K 35 L61 FB/1K 36 C122 4.7uF 32 R201 5.6k 33 R206 CB84 CB85 CB83 1000pF 100k 1uF1000pF R210 10k R208 10K 21 R207 2 D18 1N4148 M3.3V R212 3.3k 100K 20 1 1 D26 1N4148 2 VDDPW OUTPB OUTPB PGND SYNCLK ROSC PVCCB PVCCB GAIN0 GAIN1 PGNDB PGNDB SVCC VSS OUTNB OUTNB 2 3 CB88 R297 R297 C135 100K R297 C135 8 6 7 7 6 5 5 R297 47K VREF SVR D38 BAS316 R297 100K 0/NC R68 FB1K/NC IPOD_R L_IPOD_BT L_IPOD_BT R69 FB1K/NC IPOD_L R_IPOD_BT CB2 33PF/NC 10K/NC 10K/NC R71 R70 CB1 33PF/NC R297 R297 C135 100K/NC C135 100K/NC CE35 D38 2 0.01UF R257 3.3k 1 Q37 BS3904 CB95 0.1uF 1 2 3 MP3_LINK AUDIO DETECT + CE101 47uF/16V + CE101 47uF/16V/NC A 12-1 CB61 0.1UF CB68 0.1UF 1uF 100pF CB92 IPOD_AUDIO_DET BAS316/NC R216 3.3R 0.1uF 47K/NC R297 D38 BAS316/NC 100K/NC CB63 C101 CB91 1000uF/35V 100K/NC R297 100K/NC CB79 8.2R 0.22uF C116 100pF CB81 12-1 4 1 3 2 L59 100uH/3.2A 0.1UF CB82 NC/1U H3 SRP L76 FB/33 L77 FB/33 L78 FB/33 8V_IN 1 2 C135 1uF/NC 0.1UF 10u/10V 2.2uF/NC 2.2uF/NC R297 100pF 2.2UF CB90 0.1uF FLO+ FLOFRO+ FRO- CB86 R297 10K/NC R297 L14 R_IPOD_BT 0R/NC 3 4 TP33 0.22uF 10u/10V TP34 IPOD_DET IPOD_RX IPOD_TX IPOD_ACCDET TP35 TP36 TP37 TP38 TP39 TP40 L15 VSS U25 CF4558 CON6 1.0A-8PL DIP1.0MM-8/NC 1 2 3 4 5 6 7 8 CB74 R199 R203 NC/3R3 29 5.6V D38 BAS316 L62 33uH3.5A 100pF 34 47uF/16V R297 100K C113 CB80 MUTE STBY CB73 C130 C129 + CE14 1uF 1uF L63 100R/6A/100M 2.2uF VCC MP3_R 100K CB24 0.1uF C114 0.47UF 100pF INNB TP35 TP36 TP37 TP38 L58 33uH3.5A CB77 330P 8 9 L49 100uH/3.2A R180 8.2R CB71 NC/1U CB72 NC/1U R187 8.2R R194 20R CB76 0.1uF 3 R118 10K R297 C135 2.2uF 100K C111 100pF 6 7 CB87 CB89 2.2u R185 NC/3R3 L57 INPB CB70 C103 L51 33uH3.5A R182 NC/3R3 C110 100pF 100R/6A/100M 4 5 C105 0.22uF 100pF 3 IPOD_RX R232 22k R258 22k MP3_L CB62 0.1uF L52 100R/6A/100M 10 11 Q14 BS3904 1 R233 ECO_POWER R188 R187 MSDA MSCL R185 R184 LED_PWM MUTE_PH_LINE SSDA 100pF C130 SSCL LCD_CS LCD_DATA MSDA 100pF C125 MSCL 100pF C124 CB78 1500PF R198 2.2k R_OUT MUTE1 0.1uF R196 39K OUTNA OUTNA CB69 330P 100pF 100R LCD_CS R174 25 24 100pF VDDS DIAG CB60 C100 0.22uF 100pF C102 0.47UF 100pF R173 L49 0.1uF 18 PVCCA PVCCA R175 8.2R R176 20R C120 L48 21 FB/0603/2.2K 19 C109 SGND 12 13 L47 33uH3.5A 100pF C119 22 FB/0603/2.2K R184 22R VDDS 14 15 INNA C99 100pF 100pF SSDA C98 100pF C118 100R LCD_WR DIAG 28 PGNDA PGNDA CB59 NC/1U L46 100R/6A/100M 16 17 C117 100R R168 R181 100k OUTPA OUTPA INPA GND AD_KEY R167 L47 FB/1K VDDS26 SUB_GND 37 AD2 1K 100 27 26 FM_RST 29 30 28 RTC_IN 25 TX RX ROTB 10 ROTA 4 3 2 1 GND A2 A1 A0 10pF SDA SCL TEST VDD 100pF 5 6 7 8 C91 100pF FB C129 330R 330R L39 15PF C127 R161 R162 C121 15PF C128 MSDA MSCL M3.3V C120 D19 ESD 0.01UF 100 9 C122 U11 24C02 CLOSE_M ECO_POWER MODE R182 C119 0.1uF 1 220uF/16V X1 32.768KHz D18 1N4148 REST VREF REMOTE VCC 100R 2 R181 10K CE17 + 1uF 2 P4_6 MCU3.3V STANDBY 8 VFD_DATA U11 R5F21266 R5F21266-LQFP32 AVSS L46 23 FB/0603/2.2K 16 7 VFD_STB P4_7 24 FB/0603/2.2K 100 6 L52 DCR33R CON2.0-4 SSDA VFD_CLK RESET R183 5 HP_LINE_MUTE D13 1N4148 1500PF 1000pF 27 L53 FB/1K DVD_ON 15 4 L50 DCR33R 1 2 3 4 31 32 J3 SSCL MCU_MUTE R186 MUTE_PH_LINE 3 OPEN_M TRIN 2 OPEN_SW 1 1K 100 D12 1N4148 D11 1N4148 MCU_MUTE 100 10K R140 C114 L45 FB/0603/2.2K R169 CLOSE_SW 100R MUTE R166 LED_CTRL SSCL CD_ON 12 L53 FB/0603/2.2K 100R 13 L54 FB/0603/2.2K 100R 14 R164 4.7K CON1.0-4/W + CE33 1u/50V 11 MUTE1 4.7K R136 68K 100R R134 CB67 1000pF C104 0.1uF 100R D10 1N4148 D9 1N4148 22 CB65 CB66 CB64 R178 2.2k FM_RST DVD_MUTE R152 10K 10K 10K R137 R140 J6 1 2 3 4 4.7uF L50 C114 J5 CON2.0-4 C97 5.6k R174 23 MCU3.3V R170 NC/3R3 U13 TDA7491HV TDA7491P 1 L_OUT 104 LED_PWM REM R123 47K TP31 TP32 TP33 TP34 MSCL MSDA 1 10u/10V LO GND RO HP_MUTE 1 2 3 4 R138 L_OUT 47k IPOD_RX CE30 MUTE_PH_LINE 1000pF 5 IN2 PT2309 104 10K 10u/10V R118 R136 + 47uF/16V CE29 LO C82 10K CE31 + 220uF/16V 10K 6 BIAS GND 3 Q12 2N3904 2 4.7K CE27 68K IN1 4 HP_LINE_MUTE R120 220uF/16V 7 R135 3 OUT2 R151 MCU3.3V MUTE R149 0.1uF CE26 R134 10u/10V + 47k 2 8 R133 CE28 R115 R_OUT 100k VDD IPOD_TX R114 1000pF OUT1 + + C81 1 + 220uF/16V + CE25 MSDA CB56 RO IPOD_AUDIO_DET 10K U8 MSCL R108 4.7K HP_MUTE 1 1N4148 2 D8 R132 MUTE1 P5 WP4-3 AMP Board -- Circuit Diagram 2 MCU3.3V/IP5V R229 0R IN + OUT1 MCU3.3V 3 CE39 100u/10V 2 GND U14 NC/HT7333 8V_IN R246 470 1/2W SOT89 1 + CE41 100u/16V C134 0.1uF 䱊⫋⬉ᆍ㽕䴴䖥⬉ᛳ F u 0 1 2 4 91 5C L EJS89J2010 ℸ䚼ߚ‫ܗ‬ӊϡ䌈 U17 AP1538/SOP-8 SOP8/SMD 4 Vcc 3 OCSET L70 FB_0349 Vss Vss O/P O/P 6 5 FB 1 C139 NS/100nF R254 24.9k-1% 10u/10V DRBOM ECO_POWER R260 0 R253 4.7K-1% D25 SK34 R256 10k + CE53 VCC 2 R233 47K C142 0.1uF MCU3.3V CES2307 Q34 SOT23A 3 L66 DCR 33R L71 47UH-3A 7 8 + CE40 C140 100u/10V 0.1uF 220u/10V R234 1K P_GND 2 CB93 0.1uF Q23 BS3904 R235 10K 1 DVD_ON 5 R236 22K 3 0.8 x (1+24.9K/4.7K) = 5.04V Low ESR <125 mOHM P_GND P_GND R247 Q33 CES2307 3 + CE45 R239 33K 100u/10V IN P_GND 2 R240 1K MCU3.3V/IP5V Q30 BS3904 0R R241 1 4.7K ECO_POWER R242 22K 3 R259 IP5V 2 1 P_GND J8 NC/CON2.0-2 P_GND IP_GND 18V_IN A18V CES2307 Q35 SOT23A 2 3 R249 47K + CE49 18V_IN MCU3.3V/IP5V IP_GND ECO_POWER TP44 TP45 TP46 TP52 CON5 CON2.5-5 CON2.54-5 L65 FB/100R 1 220u/25V 1 2 3 4 5 R250 1K GND 2 GND 5 R251 10K ECO_POWER 1 R252 22K Q25 BS3904 GND 12-2 OUT1 OUT2 2 4 M3.3V SOT223 1 1 R238 47K M3.3V U16 AMS1117-3.3 M5V SOT23A 3 2 ADJ L69 DCR 33R 0 3 CE52 220u/25V CB94 2 + NS/100nF EN C138 R255 4.7K 5V 1 8V_IN 12-2 5 + C137 CE46 220uF/16v 0.1uF AMP Board -- Layout Diagram 12-3 12-3 Display Board -- Circuit Diagram SM3 SM2 1 1 SM4 1 1 SMARK SMARK A5V SMARK 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 SM1 SMARK SEG24 SEG23 SEG22 SEG21 SEG20 SEG19 SEG18 SEG17 SEG16 SEG15 SEG14 SEG13 SEG12 SEG11 SEG10 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG3 SEG2 SEG1 COM8 COM7 COM6 COM5 COM4 COM3 COM2 COM1 33 SEG08 SEG09 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17 SEG18 SEG19 SEG20 SEG21 SEG22 SEG23 SEG07 SEG06 SEG05 SEG04 SEG03 SEG02 SEG01 SEG00 1 2 3 CON1 2.0-3P 42 100R J1 R27 560R 39 38 SEG10 SEG07 SEG09 SEG06 SEG05 SEG04 SEG03 SEG02 SEG08 SG9 47R 3.3V C8 100P 11 9 8 SG8 SG7 7 SG6 6 5 SG5 SG4 4 2 3 SG3 SEG13 15 SEG14 16 SEG15 17 SEG16 18 SEG17 19 SEG18 20 SEG19 21 SEG20 SG14 CE VDD SG15 OSC SG16 U1 VSS I-PT6533 SG17 SG18 VLCD 3.3V R19 470 R20 10K R31 47K Q1 8050 R33 5V SEG21 82K Q4 8050 EC5 22uF/10V LED1 R32 10K A5V 23 SG23 SEG22 SG25 SG24 24 SEG23 25 26 SG26 SG28 SG27 27 28 29 SG29 SG22 22 31 COM7 34 COM4 30 COM8 SG21 32 COM6 35 COM3 COM07 COM02 COM06 SG20 COM05 SG19 36 COM2 240K R7 DATA 100P C5 240K R6 240K R5 CS WR 100P 100P C9 Q3 ESD CON2 SEG12 14 COM01 COM03 C10 5 4 3 2 1 DGND D+ DVBUS 13 37 COM1 J9 GND D+ DUVCC SEG11 SG13 COM00 A5V 2.0*0.5 SG12 12 CLK 33 COM5 102 R29 68K DI COM04 C11 DDGND 40 C6 100P 41 100P EC4 100uF/10V DDGND 47uF/6.3V SG11 43 SG10 10 44 100R R4 10R C7 A5V 100R R3 J5 WR R28 R21 J4 CS SG2 J3 DATA EC1 IR J2 FB1 USB R14 10R J8 1 AGND MP3_L SEG01 R18 SEG[00:23] SG1 R2 103 C2 JP1 TE-03575 47K R1 MP3_R MP3_L COM[00:07] SEG00 MP3_R AUTO-OFF AGND C1 103 CON12-2.0-AW 12 11 10 9 8 7 6 5 4 3 2 1 D1 5819 PJ4 GND AUTO-OFF IR LED_PWM DATA WR CS GND AD1 AD2 3.3V A5V 5V R8 470R R9 5.1K R12 33K R11 20K LED_PWM SW5 ON/OFF SW4 ON/OFF SW2 ON/OFF R26 EC2 J6 J7 1 DD 1 J11 AD2 R13 470R R15 4.7K R16 10K R17 33K R10 10K P1 1 2 P2 SW6 ON/OFF P3 SW7 ON/OFF SW8 ON/OFF SW9 ON/OFF SW3 ON/OFF P4 12-4 47K 2.2u/10V TP1 P5 150R 10K Q2 8050 EC3 22uF/10V SW1 ON/OFF TP2 DD R22 R23 LED2 AD1 3 4 1 5 4 3 2 47K G P H R L 3 REM 2 GND 1 VCC COM07 COM06 COM05 COM04 COM03 COM02 COM01 COM00 IR R30 120K 12-4 R25 100K R24 0 Display Board -- Layout Diagram 12-5 12-5 Power Board -- Circuit Diagram 9V D1 2 4 3 2 1 1 R3 2M,1206 R2 2M,1206 D2 1N4007 1N4007 C17 C19 R5 2M,1206 D4 CON2 XH2.54-3PIN 4 103/1KV D3 9V 9V GND GND 103P,1KV C1 47uF,400V 3 MOV1 NC R4 2M,1206 CX1 104,275V LT1 UU9.8-30MH CON1A 2PIN 1 2 3 HV VIN F1 RT1 T2AL250V JUMPER GND 1N4007 1N4007 HGND R1 200K,1206 103P,630V 1 22R,1206 R26 C21 1nF,50V,0805 R14 5.1R,0805 D6 FR107 7 8 6 D11 NC HGND DRV2 Q1 4N60 GND R29 NC IC4 KB8235 5 C2 C10 22uF,50V NC OUT VCC CS FB RT GND GND R23 NC HGND HGND R25 330R,0805 FB HGND CS2 4 2 3 1 FB R15 100K,1%,0805 HGND 470pF,0805 CS1 R12 1K,0805 C9 470pF,0805 HGND HGND R7 NC HGND R8 NC R10 1.2R,1206 HGND HGND 9V IC1 PC817 R16 3.3K,0805 R20 5.1K,1%,0805 NC C13 C12 R17 0.1uF,0805 10K,0805 HGND IC2 SOT23 TL431A-0.5% R24 NC R19 2.32K,1%,0805 R18 12K GND D12 NC HGND GND GND GND CY1 2200P,400V HGND 12-6 3.3V C16 NC C15 C18 C11 SOT23-6 6 R11 10K,0805 R6 1.2R,1206 R27 1M,1206 D5 NC GND NC Q3 NC 221P,2KV R33 1M,1206 R22 NC Q2 NC 9VA C4 R21 NC GND L3 NC 68R,0805 R13 DRV1 C7 1000uF,10V C8 SW1 HV NC 2200uF,10V GND 4 D7 FR107 VCC C6 22R,1206 2 SW2 9V L1 2.2uH,3*15mm C14 10 R35 L2 0R,0805 1 2 9VA D8 SB3100 T1 EE22 R9 200K,1206 C3 R28 NC 9V 4A D9 SB3100 HV GND 12-6 IC3 NC SOT23 GND NC NC GND GND Power Board -- Layout Diagram 12-7 12-7 Decoder Board -- Circuit Diagram 1 MT1389J General GPIO List Name COMMON1389J_HD850_AM5888_STBY MT1389J DVD Board w/ Sanyo HD6x Series PUHs 1 2 3 4 5 6 7 INDEX & POWER / RESET MT1389J LQFP128 SDRAM & FLASH & MOTOR AUDIO & MIC I/F Video I/F MCR & USB & GXYZ I/F Power Flow PIN Features OFF-PAGE CONNECTION GPO5 12 TRCLOSE MDI1 13 VR_CD GPO_B 20 VR_DVD GPIO2 23 TRIN UP1_6 34 VSCK UP1_7 35 VSDA GPIO11 36 Power Key RXD GPIO6 37 SD_D0 TXD GPIO3 40 STBY GPIO4 41 TROPEN IOA GPIO13 42 VSTB GPIO9 43 MS_D0 SD_CMD GPIO8 44 MS_BS SD_CLK GPIO7 45 MS_CLK GPIO29 46 Gxyz_LOAD GPIO30 47 Gxyz_CLK GPIO31 48 Gxyz_DA1 GPIO32 49 Gxyz_DA2 POWER URST# GPIO12 93 ASPDIF GPIO10 94 SCART1 HSYNC GPIO33 95 SCART2 VSYNC GPO14 97 AUDIO_MUTE GPIO19 106 AKIN2 GPIO20 107 108 AKIN1 124 LIMIT 89J_3V3 DV33 89J_3V3 CB1 CE1 + 2 ADVCM GPIO21 GPI36 TROUT HOLE/GND H1 V33 URST# MISC 9 8 7 6 9 8 7 6 9 8 7 6 9 8 7 6 2 3 4 5 1 0.1uF 2 3 4 5 1 220uF/16v RFV33 R1 0R RFV33 CB2 CE2 + 0.1uF 47uF/16V AVCC CE3 + R2 4.7K CE4 + 10u/10V 2 3 4 5 9 8 7 6 HOLE/GND 2 3 4 5 9 8 7 6 2 3 4 5 CB3 0.1uF 220uF/16v URST# 1 2 D20 ESD0603/SMD R5 10K 1 D1 1N4148 12-8 12-8 MARK3 MARK4 Q1 2N3904 2 MARK2 R4 10K MARK1 3 DVD_RST R3 10K 1 1 AVCC 2 3 4 5 1 VCC DV33 H4 HOLE/GND 1 H2 Decoder Board -- Circuit Diagram 2 SERVO RF DeCAP. OFF-PAGE CONNECTION 1V2 89J_3V3 SP- R6 10k L1 OPL2 R7 1R C2 1 0.1uF D2 BAT54C 3 C6 0.1uF SP-A R9 DV33 2 FB C3 FB RFV12-2 89J_3V3 RFV12-1 C4 C5 0.1uF CB4 L3 0.1uF 10u/10V L4 FB MA[0..11] R8 ADACVDD FB/200 AADVDD DACVDD3 Y1 XI CB5 47uF/16V 100k DQM[0..1] CE5 + close to 89J IC OPO 10k DQ[0..15] Crystal RFVDD3 4.7uF 27MHz C7 CB6 0.1uF 0.1uF BA[0..1] XO C8 DCLK RAS# CAS# WE# 27pF 27pF DQ[0..15] 3 MA[0..11] 3 DQM[0..1] 3 BA[0..1] 3 DCLK RAS# CAS# WE# 3 3 3 3 SF_CK SF_CS SF_DI SF_DO 3 3 3 3 CVBS_OUT V_R V_B V_G 4 4 4 4 AR AL 5 5 DRAM I/F 1 2 3 4 5 6 SF_CK SF_CS SF_DI SF_DO + A D F E RFV12-2 RFVDD3 56R 56R R16 R17 V20 V1P4 3 L6 10uH C16 1 120pF/NC VR_CD LDO1 LDO2 89J_3V3 SOT23/D 2 Q2 SS8550 CE10 + R18 4.7R R20 4.7R L8 LDO2 FB C17 CB9 4.7uF 0.1uF TP2 47uF/16V RFV33 TRIN R19 HEADER 24 SMD0.5 TOP 89J_3V3 CB10 CON0.5MM-24P-L L9 FB 0.1uF L10 FB DMO FMO GPO_A VR_DVD TRO FOO 33R USB_DM USB_DP USB_V33 3 1 + CE11 47uF/16V 2 Q3 SS8550 Rvrt close to IC PIN 89J_3V3 LDO1 0.1uF R23 4.7K 33R UP1_6 SSDA R30 33R UP1_7 R24 4.7K TRIN CB13 CB14 0.1uF 0.1uF 0R USB_DP USB_DM 0R 0.1uF CB15 D21 ESD0603/SMD + CB17 CB18 0.1uF 0.1uF 0.1uF AVCM DV33 R37 4.7K Q5 2N3904 SSCL SSDA RAS# CAS# I2C WE# MA4 MA5 MA6 MA7 MA8 MA9 MA11 DCLK MCR I/F DQM1 DQ8 DQ9 DQ10 DQ11 DQ12 STBY TRIN TT+ FF+ SLSL+ SPSP+ FOSO TRSO FMSO DMSO R39 10K 12-9 5 5 STBY 3 V1P4 TRIN 5 TT+ FF+ SLSL+ SPSP+ FOSO TRSO FMSO DMSO 3 3 3 3 3 3 3 3 3 3 3 3 V1P4 3 1V2 3 URST# 1 SERVO I/F RS-232 DV33 Default URST# RxD USB_ON CB19 NC/0.015uF Default 0.1uF 1V2 POWER R36 4.7k GPIO11 R38 4.7K 2 1 CB16 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 R32 47K R35 1K D22 ESD0603/SMD CE12 220uF/16v SSCL SSDA Gxyz 1V2 1V2 FB 3 1V2 89J_3V3 89J_3V3 L11 4 TP3 1 R33 R34 5 ASPDIF VCC CES2307 SOT23/D Q36 3 2 TP6 P1 CON2.0-4 4P-2.0MM 4 3 2 1 TP4 TP5 Chip Decap. 0.1uF ASPDIF MA3 MA2 MA1 MA0 MA10 BA1 BA0 DVD_MUTE AUDIO I/F DACVDD3 DQ4 DQ5 DQ6 DQ7 DQM0 DQ15 DQ14 DQ13 0.015uF R31 0/NC CB12 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 C21 V1P4 89J_3V3 DACVDDC GPIO33 GPIO10 SPDIF / GPIO12 RA3 RA2 RA1 RA0 RA10 DVDD12 BA1 BA0 DVDD33 RAS# CAS# DVSS12 RWE# RA4 RA5 RA6 RA7 RA8 RA9 RA11 RCLK DVDD33 DQM1 RD8 RD9 RD10 RD11 RD12 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 R27 DQ0 DQ1 DQ2 DQ3 C20 SSCL LQFP128/SMD/1389L V1.0 USB_ON C19 FOO TRO FMO DMO U2 No EPAD MT1389J SF_CK UP1_6 UP1_7 GPIO11 GPIO6 URST# C18 330pF 330pF 0.1uF 27k 27k 15k 10k 5.1k 1% USB_V12 SF_CS SF_DO SF_DI CB11 SOT23/D R22 4.7K R25 R26 R28 R29 R21 1V2 RFC RFD RFE RFF AVDD12_2 AVDD33_1 XTALI XTALO AGND33 V20 V14 REXT / GPO5 MDI1 LDO1 LDO2 AVDD33_2 DMO FMO TRAY_OPEN TRAY_CLOSE TRO FOO FG / GPIO2 USB_DM USB_DP VDD33_USB VSS33_USB PAD_VRT VDD12_USB SF_CS_ SF_DO SF_DI STBY IOA TOP L7 10uH 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 ASPDIF RFB RFA RFH / OPINN RFG / OPINP RFIN / OPOUT / GPI36 RFIP AGND12 AVDD12_1 ADACVDD2 ADACVDD1 ALF / CENTER / GPIO ALS / GPIO AL / GPIO1 AVCM AR / GPIO0 ARS / GPIO ARF / LFE / GPIO ADACVSS1 ADACVSS2 AADVDD AKIN1 / GPIO21 / Audio_Mute ADVCM / GPIO20 AKIN2 / GPIO19 / Audio_Mute AADVSS R B G DACVDDB CVBS DACVSSC FS VREF / GPO14 GND XI XO 0.1uF FOSO TRSO FMSO DMSO AR AL SF_CK UP1_6 / SCL UP1_7 / SDA GPIO11 GPIO6 PRST# IR GPIO3 / INT# GPIO4 GPIO13 GPIO9 GPIO8 GPIO7 / CKE_ GPIO29 GPIO30 GPIO31 GPIO32 DVSS33 DVDD33 RD0 RD1 RD2 RD3 DVDD12 RD4 RD5 RD6 RD7 DQM0 RD15 RD14 RD13 25 26 CB8 VIDEO I/F R15 33R DVD_MUTE DVD_MUTE TP1 F B A RFO IOA D C TT+ F+ F- R12 4.7k 89J_3V3 LD-DVD E AVCC1 V20 4.7uF CE9 100uF/16v Very Important to reduce Noise AVCC1 MDI1 LD-CD C13 0.1uF SANYO HD6x HA1 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 C12 4.7uF FS AL C15 FB ADACVDD AVCC L5 RFV12-1 B C OPOPO LIMIT C14 1uF RF Reference R14 100R 129 R13 100R 89J_3V3 R11 560R V_R V_B V_G DACVDD3 CVBS_OUT CON7 PBZ-DVD-Y CE8 47uF/16V AADVDD CB7 0.1uF 47uF/16V CVBS_OUT V_R V_B V_G C11 10u/10V + C10 V1P4 V20 CE7 + S-FLASH C9 4.7uF 4 3 2 1 RFO TP12 TP47 TP48 TP50 TP51 TP49 J1 6x1 W/HOUSING AR SLSL+ VR_DVD VR_CD 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 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 10k LIMIT 0.1uF R10 CE6 220uF/16v SP-A SP+ + DV33 GPIO6 TXD C24 RxD TxD C25 NC/0.015uF 1 2 3 4 J2 4P-2.0MM 12-9 Decoder Board -- Circuit Diagram 3 U3 ESMT M12L64164A OFF-PAGE CONNECTION DV33 MA0 MA1 MA2 MA3 MA4 MA5 MA6 MA7 MA8 MA9 MA10 MA11 DBA0 DBA1 SR_3V3 R40 10k R41 C26 R42 DCLK SDCKE 10k DCS# 10pF/NC 33R 33R SDCLK DBA0 DBA1 L13 BA0 BA1 23 24 25 26 29 30 31 32 33 34 22 35 20 21 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 BA0/A13 BA1/A12 SDCLK SDCKE 38 37 CLK CKE DCS# DRAS# DCAS# DWE# 19 18 17 16 CS RAS CAS WE DQM0 DQM1 RAS# CAS# WE# DRAS# DCAS# DWE# 15 39 DQML DQMH 36 40 NC NC 54 41 28 VSS VSS VSS DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 2 4 5 7 8 10 11 13 42 44 45 47 48 50 51 53 VCC VCC VCC 1 14 27 VCCQ VCCQ VCCQ VCCQ 3 9 43 49 VSSQ VSSQ VSSQ VSSQ 6 12 46 52 SR_3V3 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 L12 DQ[0..15] FB MA[0..11] CB20 DQM[0..1] 0.1uF BA[0..1] DCLK RAS# CAS# WE# SR_3V3 SR_3V3 CB21 CB22 CB23 CB24 0.1uF 0.1uF 0.1uF 0.1uF SF_CK SF_CS SF_DI SF_DO SR_3V3 STBY TRIN TT+ FF+ SLSL+ SPSP+ DV33 R44 CE# VDD SO HOLD# WP# SCK VSS SI FOSO TRSO FMSO DMSO DV33 U4 MX25L3206E 8 7 6 5 HOLD# SF_CK SF_DI R43 10k DV33 V1P4 C27 10k VCC D4 IN4001 1V2 D5 IN4001 1 POWER MD_VCC CE51 + 220uF/16v CB25 0.1uF FMSO ADJ_12 TRSO V1P4 STBY R51 10k VOTK+ VOTKVOLD+ VOLDVCC2 NC VCTL 30 G2 22 23 24 25 26 27 28 GND VINLD NC TRB2 VINTK BIAS MUTE CB27 0.1uF VOFC+ VOFCVOSLVOSL+ VOTR+ VOTRVCC 14 13 12 11 10 9 8 G1 29 REV FWD REGO1 VINSL+ REGO2 TRB1 VINFC U5 AM5888/AT5669 HSOP28/SMD 12-10 7 6 5 4 3 2 1 1.2V output 1V2 MD_VCC L14 CB26 0.1uF FBI_33 R50 FBI_12 ADJ_33 FOSO TO-92A 1 F+ FSPSP+ 10k VCC + R46 0R FB CE13 100uF/16v FBI_12 + CE15 100uF/16v DMSO ADJ_33 2 Q7 SS8550D 3 2 Q6 SS8550D 3 ADJ_12 15 16 17 18 19 20 21 BA[0..1] 2 DCLK RAS# CAS# WE# 2 2 2 2 SF_CK SF_CS SF_DI SF_DO 2 2 2 2 STBY 2 TRIN 2,5 TT+ FF+ SLSL+ SPSP+ 2 2 2 2 2 2 2 2 FOSO TRSO FMSO DMSO 2 2 2 2 V1P4 2 1V2 2 SF_CS D3 IN4001 TT+ SL+ SL- 2 SERVO I/F 0.1uF R45 2 DQM[0..1] S-FLASH Serial Flash 1 2 10k WP# 3 4 2 DRAM I/F SDR_DRAM (Dual Layout) SF_CS SF_DO DQ[0..15] MA[0..11] Vr e f Ra V33 TO-92A R47 20k FBI_33 Vr e f / 3 . 3 V R48 10K AT5669 AM5888 Ra 0 20K Rb NC 12K Rb R49 12k V33 + CE14 100uF/16v Motor Driver 12-10 Decoder Board -- Circuit Diagram 4 OFF-PAGE CONNECTION +5VV +5VV default: Low Impedance Mode 3 0.1uF 1 R56 2.2K 47pF 47pF L17 1.8uH/SMD V_G L73 FB CD11X/22UF16V CE17 VIDEO_DVD R244 62R R58 75 1% R54 160R C30 C31 47pF 47pF CVBS_OUT V_R V_B V_G +5VV 2 2 2 2 0.1uF R53 3.3K Q9 2N3904 2 + + C29 R55 160R Q8 2N3904 1 2 C28 R237 62R VCC 3 R52 3.3K CD11X/100uF16V CE16 L16 1.8uH/SMD CVBS_OUT CVBS_OUT V_R V_B V_G CB29 CB28 L15 L67 FB FB + G/Y/DVD CE18 CD11X/22UF16V/D4H7 R57 2.2K R59 75 1% +5VV COAXIAL CB30 47pF 47pF LINE-R-OUT LINE-L-OUT CB31 R63 2.2K V_B L19 1.8uH/SMD R64 75 1% R245 62R R65 160R 2 Q11 2N3904 C34 C35 47pF 47pF R66 2.2K L68 FB 1 2 3 4 5 6 7 8 9 10 CON6 10pin-2.0 CON2.0-10 B/U/DVD R67 75 1% ASPDIF R68 100R C36 0.1uF L20 FB/0603 C37 R69 100R 330pF AL AR ASPDIF 12-11 LINE-R-OUT LINE-L-OUT VIDEO_DVD R/V/DVD B/U/DVD G/Y/DVD 0.1uF R61 3.3K CD11X/22UF16V CE20 R/V/DVD 3 L72 FB 1 C33 Q10 2N3904 1 C32 2 + R243 62R R62 160R 0.1uF R60 3.3K + L18 1.8uH/SMD 2 2 3 CD11X/22UF16V CE19 V_R +5VV 12-11 AL 2,5 AR 2,5 ASPDIF 2 COAXIAL Decoder Board -- Circuit Diagram 5 L48 CON1 R120 R113 SI4702/03 0 SI4704/05 120nH 0 0 TP8 TP7 ECO_POWER 19 17 18 GND 12 RST VD/VDD 11 LOUT 1k C47 0.47uF FM_IN_L 1k C48 0.47uF FM_IN_R M3.3V 1 2 3 DVD_ON AR AL 680pF MP3_L C49 R81 4.7uF R83 4.7uF MP3_R C50 CN1 CON2.0-3 C53 C52 0.01uF 1K C44 L23 FB/1k@100MHz/0603 VIO SEN R86 10K ROUT RCLK 0.1uF U6 SI4705 1K R76 22K C45 R77 22K 680pF A18V C54 680pF IPOD_L R87 NC/4.7K R84 22K C55 C66 R85 22K 680pF IPOD_R R89 NC/4.7K MSCL R93 2.2K MSDA R96 2.2K R92 10K 1uF Y2 32.768KHz TP54 CON2.0-13AW J4 4.7uF 4.7uF L37 FB/1K RF IN FM RFIN 1 2 3 C71 4.7uF 4.7uF 1000pF R116 10K R121 NC/0R MODE1 3 NC3 4 nRESET CB51 33PF AL R107 1K AR R109 1K OUT_R C75 4.7uF OUT_L C76 4.7uF C78 3300pF 24 SR 23 SEL2 SB2 22 SEL1 OUT2 21 15 CB49 13 VOL1 BCB1 VOL2 BCA1 19 CB52 0.22uF 15 TC2 BCA2 18 CB53 0.22uF 16 TC1 BCB2 17 0.22uF R105 3K R106 3K 0.22uF 17 470pF R117 NC/10K MODE0 14 I2C_SDA 13 R119 NC/330R I2C_SCL 12 R122 NC/330R VSS 11 VCC MSDA MSCL NC6 R125 U10 DRV632 OUT_R R127 8.2K R128 3K 1 2 3 4 5 6 7 C85 LINE-R-OUT FB2 LINE-R-OUT MBW2012-1K EC2 10u/10V R131 15K R133 C87 47R 220pF +INR -INR OUR SGND EN PVSS CN C83 14 13 12 11 10 9 8 +INL -INL OUL NC PGND PVDD CP 15K OUT_L 8.2K C84 47R R130 1K R132 R126 3K R129 220pF 1200pF FB1 EC1 MBW2012-1K LINE-L-OUT LINE-L-OUT 2 10u/10V C135 33pF FB/0603 FB3 M3.3V R135 C89 + EC3 C88 C90 100uF/10V 3.3K 1uF 1uF ROTA/ROTB 100R 100R AD2 100R AD1 R158 R159 R160 27 26 25 3 AD_KEY R177 NC/100R 5.6k C97 4.7uF 22 NC/2.2K IPOD_DET R231 NC/10K MCU3.3V 1500PF 1000pF NC/100R CB75 R205 10k/NC 2.2uF R196 39K CB78 R_OUT CB83 1000pF CB84 C115 0.1uF 1uF R206 CB85 1000pF 100R R207 1 D26 1N4148 MUTE1 R221 1K 3.3k FB/1K 100K 35 SVCC 36 VSS 32 INPB 33 INNB 21 MUTE STBY CB89 CB88 2.2u 2.2UF 4 5 OUTNB OUTNB 8 9 L57 100R/6A/100M CB76 CB77 0.1uF 1uF SVR 0.22uF C114 330P 100pF 1 R227 1K 0.22uF L62 33uH3.5A R203 NC/3R3 29 R199 8.2R CLOSE_SW GND OPEN_SW M+ M- 5 4 3 2 1 3.3k CB91 R216 3.3R 0.1uF L77 FB/33 L78 FB/33 0.01UF Q37 BS3904 R258 22k CB95 0.1uF M_OPEN C133 470pF NC/CON2.54-2 J7 12-12 4 1 3 2 P5 WP4-3 L59 100uH/3.2A H3 SRP FB/33 18V_IN 1 FLO+ FLOFRO+ FRO- CB86 10u/10V CB87 CE35 L49 100uH/3.2A TP35 TP36 TP37 TP38 CB82 NC/1U 10u/10V 3 1 2 R228 2.2K CB79 L63 100R/6A/100M C129 C130 34 CON4 CON2.0-5AW 3 Q21 8050,DIP CB73 0.47UF CB92 R257 3 + CE38 R187 8.2R CB80 Q14 BS3904 1 0.1uF 470pF TP39 TP40 TP41 TP42 TP43 NC/3R3 CB71 NC/1U NC/3R3 CB72 NC/1U L58 33uH3.5A R194 20R 100pF VREF 20 2 PGNDB PGNDB 100pF C110 CB90 M_CLOSE C132 1 2 1 R212 2 2 R223 2.2K 220uF/16v 12-12 GAIN1 L61 6 7 3 Q18 8050,DIP 2 R225 470R A18V NC/330R/1W GAIN0 31 FB/1K 2 3 PVCCB PVCCB 0.22uF R180 8.2R R182 R185 1000uF/35V + R226 30 0R L52 100R/6A/100M CB70 L51 33uH3.5A L76 470R R220 NC/12k Q20 8550,DIP 0R L60 OUTPB OUTPB SYNCLK ROSC 330P 100pF 10K OPEN/CLOSE_SW 3 R217 2 PGND CB60 0.22uF C102 0.47UF CB69 C105 10 11 R175 8.2R L47 33uH3.5A R176 20R 3 4.7K R215 1 3 3 R211 OPEN_SW C99 100pF C101 VDDPW R197 1 2 FRO+ 1 FRO- FLO+ 1 FLOCE36 NC/CD11X/100UF25V/D8H7 Q17 8550,DIP 1 + 3 CLOSE_SW 12 13 OUTNA OUTNA DIAG R195 100k 10k R232 22k M- R224 NC/10K NC/CD11X/220UF25V/D8H7 CE37 C109 C122 4.7uF R210 M+ 2 5V R219 NC/12k 1 19 0.1uF 1500PF R201 5.6k C145 R208 R214 NC/22K Q15 Q16 NC/8550,DIP NC/8550,DIP R218 NC/22K 100k DIAG 28 22R IPOD_AUDIO_DET 2 D18 1N4148 2 D19 NC/1N4148 VDDS 0.1uF18 M3.3V 2 FB/1K VDDS 26 25 24 R_IPOD_BT C131 PVCCA PVCCA CB59 NC/1U L46 100R/6A/100M C98 100pF 100pF VDDS A Q19 NC/8050,DIP SGND R184 1000pF R222 NC/1K INNA 27 R181 R202 470K/NC 2 23 1uF 1000pF C104 0.1uF L50 R198 2.2k 16 17 14 15 CB65 CB66 CB67 CB64 R178 2.2k 16 R230 OUTPA OUTPA PGNDA PGNDA INPA IPOD_TX L53 FB/1K R213 NC/22K R170 NC/3R3 SUB_GND 100pF 17 R174 L_OUT 100pF TX U13 TDA7491HV TDA7491P 1 IPOD_ACCDET 100pF ECO_POWER NC/1K 100pF 100R R173 C118 R172 C117 LCD_DATA C119 LCD_CS 100R C120 100R REMOTE 19 18 RX LCD_WR 100R MCU3.3V REMOTE STANDBY SSDA 100R 33R C100 100pF C103 100pF CB61 0.1UF CB68 0.1UF R169 R186 MSCL R192 R168 R193 ECO_POWER MSCL REM R167 L44 IPOD_RX MSDA 20 R165 L42 100pF VREF L41 L43 R171 100pF C113 FM_RST M_OPEN 2 NC/1K IPOD_AUDIO_DET 30 100R 100R R189 R188 LED_PWM SSDA 100R R183 SSCL 100pF C128 MUTE_PH_LINE LCD_CS 100pF C127 LCD_DATA 10pF 100pF C126 MSDA 100pF C124 C125 MSCL 100pF C123 MCU_MUTE R190 15PF D15 ESD FM_RST C108 15PF C112 0.01uF 100R 32.768KHz C107 CLOSE_M 470R R156 R157 M_CLOSE 470R R155 29 28 11 10 9 ROTB ROTA 2 1N4148 REST 22 FB/0603/2.2K MODE X1 23 FB/0603/2.2K 21 FB/0603/2.2K CB81 0.1UF CB74 0.1UF VCC 24 FB/0603/2.2K VFD_STB VFD_DATA C116 P4_6 7 Q22 BS3904 1 CB63 1uF 6 MCU3.3V R179 D14 SSDA U12 R5F21266 R5F21266-LQFP32 2.2K C111 100pF AVSS R138 CB62 0.1uF P4_7 8 1 CB54 GND RESET 5 L48 DCR 33R C106 10K 0.1uF R_OUT 20 R139 10K VFD_CLK 3 4 DIP1.0MM-4/W + NC C69 4700pF 0603-2.2UF-K-10V FB/1K CE24 33PF 14 37 DVD_ON OPEN_M SSCL 2 MUTE 1K L45 DCR 33R LED_CTRL FB/0603/2.2K 1 12 L54 FB/0603/2.2K 13 L55 FB/0603/2.2K 100R 14 L56 FB/0603/2.2K 100 15 L40 R166 1 2 3 4 CE34 220uF/16V L38 L_OUT CE23 0603-2.2UF-K-10V 0R R98 R99 C80 R111 47K 470pF C79 HP_LINE_MUTE 100R 100R R191 R164 MSDA SSCL DVD_ON J6 CLOSE_SW R163 4.7K RTC_IN OPEN/CLOSE_SW 100R R154 OPEN_SW 31 TRIN 10K 10K 10K 2.2K R150 R151 R149 R153 C94 0.1uF C96 0.1uF TRIN C95 0.1uF 32 10K 10K 10K 10K R148 R147 10K MUTE_PH_LINE R152 IPOD_RX R146 C92 0.1uF 10K LED_PWM MCU3.3V C93 0.1uF 10K R145 68K R144 4.7K R143 R141 R142 MSCL 4 3 2 1 REM MSDA GND A2 A1 A0 FB/1K 1K 0R R137 10K C91 0.1uF 2 2 33PF L34 R97 R101 2 SSCL SSDA M3.3V IPOD_TX SDA SCL TEST VDD 25 SB1 HP_LINE_MUTE 4.7K 5 6 7 8 CB46 26 OUT1 F1 CE33 1u/50V D12 1N4148 D13 1N4148 R140 330R 330R FB VCC E2 F2 1uF ROTA/ROTB R161 R162 L39 E1 9 + U11 24C02 MSDA MSCL 7 10 33pF MCU3.3V M3.3V MSCL DVD_MUTE R113 NC R112 NC NC15 + D11 1N4148 MSDA 1K CB55 C77 3300pF 2 M3.3V MUTE1 R136 68K MCU_MUTE 1K R91 12 1200pF C86 MUTE_PH_LINE R88 27 2.2uF 2 R134 4.7K 28 SCL + 5 47uF/16V 0.1uF D10 1N4148 SDA C70 NC10 NC/0/0805 CE32 + CB57 D9 1N4148 D1 CB48 33PF C74 SSCL SSDA D2 8 470pF DVD_MUTE 10UF/16V 5 1K R104 47K CE21 220uF/25V CE22 6 R102 16 NC16 18 iPod_CP_2.0 6 R124 J5 CON2.0-4 DVD_MUTE 30 FM_IN_R 470pF 31 29 11 C73 32 A2 FIL GND 2.2uF TRIN 330R/1W 9.1V NC/KITMFI341S2164 QFN20 R123 47K TP31 TP32 TP33 TP34 FB/1K FB/1K 2 2 U9 FM_RST RESET_IP CB58 0.1uF LO GND RO HP_MUTE 19 20 2 L_OUT 47k M3.3V 1 2 3 4 FB/1K L35 L36 A1 C1 C2 NC/FB/1K FB/1K 4.7uF L33 C143 B2 3 10 10u/10V R118 CE30 NC17 5 CE31 + 10u/10V NC9 IN2 GND NC18 21 BIAS IN1 4 NC/FB/1K L32 4.7uF C65 C144 B1 2 6 AR AL D6 0.1uF 1 6 DVD_ON + CB44 4 C68 R110 47K NC1 9 Q12 2N3904 2 1 C82 NC8 4.7K M3.3V LO 220uF/16V 8 47k CE27 3 R115 1 HP_LINE_MUTE R120 220uF/16V 47uF/16V CE26 CE29 NC19 7 6 VSS1 OUT2 + VDD MUTE + R_OUT OUT1 2 3 + 100k 10u/10V 8 1 + R114 CE28 + 220uF/16V + CE25 C81 U7 BD3491 BD3491FS ECO_POWER 0.1uF PT2309 U8 RO 1000pF FB/1K CB50 33PF NC20 CB56 33PF CB47 33PF R103 47K EJS89J2010 ϡᏺIPHONEˈⳌᑨ‫ܗ‬ӊϡ䌈 10K FB/1K FB/1K L28 R80 9.1V CB43 FB/1K L26 TRIN 9.1V CB42 NC/33PF 33PF 1K 22pF NC7 R108 33PF CB41 33PF C72 22pF 7 HP_MUTE 1 1N4148 CB38 CB40 33PF R100 D7 ESD0603/SMD 4 6 7 5 2 D8 CB37 NC/33PF 33PF CB39 FM_IN_L M5V MUTE1 CB36 33PF L27 L30 NC/4.7uF L31 NC/4.7uF C62 C64 R95 R94 NC/22K NC/22K NC/680pF C63 NC/680pF 5V 13P-2.0AW 4.7uF C136 C60 C61 L24 4.7uF C67 C141 C59 R90 10K CB35 33PF 1K 10u/10V L29 FB/1k@100MHz/0603 CB34 1K + R78 R79 TXO 4.7uF R71 4.7uF R73 TP15 TP16 TP17 14 13 RFGND 4 100pf C38 C39 + DFS 20 16 GPO3/DCLK NC. 21 TP18 TP19 TP20 TP22 TP23 TP24 TP25 TP26 TP27 TP29 TP30 TP53 DOUT FMI 3 5 C43 C42 100pf 0.01uF AUX_L AUX_R + J3 AV2-8.4-13D 1 2 3 4 5 10 GND ECO_POWER REMOTE LED_PWM ROTA/ROTB LCD_DATA LCD_WR LCD_CS GND AD1 AD2 MCU3.3V 5V 1 2 3 4 5 6 7 8 9 10 11 12 13 NC C41 C40 0.01uF 15 2 CB45 CON3 GPO1 GND C46 100pF 330R 0603-0.27uH(催乥催Q\100MHz\Qؐ໻Ѣ25) L25 R82 6 FM_RST SDIO RFIN A GPO2/IRQ 1 SCLK TP13 TP14 R74 R75 TP9 TP10 TP11 NC/0R IPOD_L 8 NC/FB1K 9 R72 NC/10K L_IPOD_BT IPOD_R CB33 NC/33PF NC/FB1K NC/10K R70 DIP1.0MM-8 NC/1.0A-8PL L22 NC NC/0R R_IPOD_BT CB32 NC/33PF L21 NC 7 IPOD_DET IPOD_RX IPOD_TX IPOD_ACCDET 1 2 3 4 5 6 7 8 Decoder Board -- Circuit Diagram 6 MCU3.3V/IP5V R229 0R U14 NC/HT7333 + IN OUT1 MCU3.3V 3 SOT89 + CE41 100u/16V C142 10uF 䱊⫋⬉ᆍ㽕䴴䖥⬉ᛳL59 U17 AP1538/SOP-8 SOP8/SMD 0.1uF DRBOM MCU3.3V R256 10k ECO_POWER R260 Vss Vss EN SOT23A CES2307 Q34 3 2 FB 1 L66 DCR 33R L71 47UH-3A C139 NS/100nF R254 24.9k-1% 10u/10V R253 4.7K-1% D25 SK34 0 + CE40 R233 47K C142 + CE53 VCC 100u/10V C140 0.1uF 220u/10V P_GND R234 1K 2 CB93 0.1uF Q23 BS3904 R235 10K 1 DVD_ON P_GND P_GND 0 R247 L69 DCR 33R SOT23A 3 CES2307 Q33 2 1 R238 47K 5 R236 22K 3 0.8 x (1+24.9K/4.7K) = 5.04V Low ESR <125 mOHM 3 + CE45 R239 33K 100u/10V 2 Q30 BS3904 IP5V R259 R241 4.7K 1 ECO_POWER R242 22K 3 MCU3.3V/IP5V 0R 2 1 P_GND P_GND J8 NC/CON2.0-2 IP_GND 18V_IN Q35 CES2307 SOT23A 2 3 + CE49 18V_IN MCU3.3V/IP5V IP_GND ECO_POWER TP44 TP45 TP46 TP52 CON5 CON2.5-5 CON2.54-5 L65 FB/100R 1 R249 47K 220u/25V A18V 1 2 3 4 5 GND GND 2 R250 1K ECO_POWER R251 10K 1 R252 22K Q25 BS3904 3 5 GND 12-13 IN OUT1 OUT2 2 4 M3.3V SOT223 + CE46 220uF/16v P_GND R240 1K M3.3V U16 AMS1117-3.3 M5V ADJ OCSET 6 5 1 3 O/P O/P 7 8 NS/100nF CB94 2 + Vcc C138 R255 4.7K CE52 220u/25V 4 0.1uF EJS89J2010 ℸ䚼ߚ‫ܗ‬ӊϡ䌈 5V L70 FB_0349 C134 1 18V_IN CE39 100u/10V 2 R246 470 1/2W 1 GND 18V_IN 12-13 5 C137 0.1uF Decoder Board -- Layout Diagram 12-14 12-14 Exploded View S106 S101 S111 S105 Light-Guide Ringe(PMMA) S104 S107 S108 S110 Screw S109 Gear Bracket CD Door Gear PCB2 CDM Screw PCB4 IR Receiver Bracket PCB1 Screw Screw Screw PCB3 S100 Bottom Cover Rubber Foot 13-1 13-1 Revision List Revision List Version 1.0 * Initial Release 14-1