马兰士MARANTZ CDR631U1B音响电路图

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CD Recorder CDR631 387K855010 MIT 3120 785 22410 First Issue 2001.02 Service Manual CDR631 /F1B, /N1M, /U1B R CDR631 Printed in Japan Please use this service manual with referring to the user guide ( D.F.U. ) without fail. CD RECORDER CDR631 POWER IR STANDBY Recordable ReWritable HEADPHONE LEVEL 0 10 MENU DELETE CANCL TR.INCR. REPEAT RANDOM ERASE TEXT 0 5 9 8 7 4 3 6 1 2 TIME REC MODE STORE FINAL REC LEVEL/SELECT PUSH ENTER PROG INPUT TABLE OF CONTENTS SECTION PAGE MAIN UNIT 1. Servicing the CDR631 ............................................................................................................................... 1 2. TECHNICAL SPECIFICATIONS ............................................................................................................... 3 3. WARNINGS .............................................................................................................................................. 4 4. SERVICE HINTS AND TOOLS ................................................................................................................. 5 5. DIAGNOSTIC SOFTWARE ....................................................................................................................... 6 6. FAULTFINDING TREES ......................................................................................................................... 10 7. FAULTFINDING GUIDE .......................................................................................................................... 14 8. WIRING DIAGRAM ................................................................................................................................. 29 9. BLOCK DIAGRAM................................................................................................................................... 31 10. SCHEMATIC DIAGRAM AND PARTS LOCATION................................................................................. 33 11. EXPLODED VIEW AND PARTS LIST..................................................................................................... 43 12. ELECTRICAL PARTS LIST ..................................................................................................................... 46 REMARK : This service manual explains them by extracting specifications designed for the model CDR631 only. The explanation for CD-R module "MAR770" (Loader : CDL4009' + CD-R Main board) is not mentioned on this service manual. The CD-R module information is described in the service manual of CD-R modules . MARANTZ DESIGN AND SERVICE Using superior design and selected high grade components, MARANTZ company has created the ultimate in stereo sound. Only original MARANTZ parts can insure that your MARANTZ product will continue to perform to the specifications for which it is famous. Parts for your MARANTZ equipment are generally available to our National Marantz Subsidiary or Agent. ORDERING PARTS : Parts can be ordered either by mail or by Fax.. In both cases, the correct part number has to be specified. The following information must be supplied to eliminate delays in processing your order : 1. Complete address 2. Complete part numbers and quantities required 3. Description of parts 4. Model number for which part is required 5. Way of shipment 6. Signature : any order form or Fax. must be signed, otherwise such part order will be considered as null and void. SHOCK, FIRE HAZARD SERVICE TEST : CAUTION : After servicing this appliance and prior to returning to customer, measure the resistance between either primary AC cord connector pins ( with unit NOT connected to AC mains and its Power switch ON ), and the face or Front Panel of product and controls and chassis bottom. Any resistance measurement less than 1 Megohms should cause unit to be repaired or corrected before AC power is applied, and verified before it is return to the user/customer. Ref. UL Standard No. 813. In case of difficulties, do not hesitate to contact the Technical Department at above mentioned address. 001120MIT USA MARANTZ AMERICA, INC MARANTZ AMERICA, INC. 440 MEDINAH ROAD ROSELLE, ILLINOIS 60172 USA PHONE : 630 - 307 - 3100 FAX : 630 - 307 - 2687 BRAZIL PHILIPS DA AMAZONIA IND. ELET. ITDA CENTRO DE INFORMACOES AO CEP 04698-970 SAO PAULO, SP, BRAZIL PHONE : 0800 - 123123(Discagem Direta Gratuita) FAX : +55 11 534. 8988 JAPAN Technical MARANTZ JAPAN, INC. 35- 1, 7- CHOME, SAGAMIONO SAGAMIHARA - SHI, KANAGAWA JAPAN 228-8505 PHONE : +81 42 748 1013 FAX : +81 42 741 9190 EUROPE / TRADING MARANTZ EUROPE B.V. P.O.BOX 80002, BUILDING SFF2 5600 JB EINDHOVEN THE NETHERLANDS PHONE : +31 - 40 - 2732241 FAX : +31 - 40 - 2735578 TECHNICAL AUDIO GROUP PTY, LTD 558 DARLING STREET, BALMAIN, NSW 2041, AUSTRALIA PHONE : 61 - 2 - 9810 - 5300 FAX : 61 - 2 - 9810 - 5355 CANADA LENBROOK INDUSTRIES LIMITED 633 GRANITE COURT, PICKERING, ONTARIO L1W 3K1 CANADA PHONE : 905 - 831 - 6333 FAX : 905 - 831 - 6936 AUSTRALIA QualiFi Pty Ltd, 24 LIONEL ROAD, MT. WAVERLEY VIC 3149 AUSTRALIA PHONE : +61 - (0)3 - 9543 - 1522 FAX : +61 - (0)3 - 9543 - 3677 NEW ZEALAND WILDASH AUDIO SYSTEMS NZ 14 MALVERN ROAD MT ALBERT AUCKLAND NEW ZEALAND PHONE : +64 - 9 - 8451958 FAX : +64 - 9 - 8463554 THAILAND MRZ STANDARD CO.,LTD 746 - 754 MAHACHAI ROAD., WANGBURAPAPIROM, PHRANAKORN, BANGKOK, 10200 THAILAND PHONE : +66 - 2 - 222 9181 FAX : +66 - 2 - 224 6795 TAIWAN PAI- YUING CO., LTD. 6 TH FL NO, 148 SUNG KIANG ROAD, TAIPEI, 10429, TAIWAN R.O.C. PHONE : +886 - 2 - 25221304 FAX : +886 - 2 - 25630415 MALAYSIA WO KEE HONG ELECTRONICS SDN. BHD. SUITE 8.1, LEVEL 8, MENARA GENESIS, NO. 33, JALAN SULTAN ISMAIL, 50250 KUALA LUMPUR, MALAYSIA PHONE : +60 3 - 2457677 FAX : +60 3 - 2458180 AMERICAS SUPERSCOPE TECHNOLOGIES, INC. MARANTZ PROFESSIONAL PRODUCTS 2640 WHITE OAK CIRCLE, SUITE A AURORA, ILLINOIS 60504 USA PHONE : 630 - 820 - 4800 FAX : 630 - 820 - 8103 AUSTRALIA KOREA MK ENTERPRISES LTD. ROOM 604/605, ELECTRO-OFFICETEL, 16-58, 3GA, HANGANG-RO, YONGSAN-KU, SEOUL KOREA PHONE : +822 - 3232 - 155 FAX : +822 - 3232 - 154 SINGAPORE WO KEE HONG DISTRIBUTION PTE LTD 130 JOO SENG ROAD #03-02 OLIVINE BUILDING SINGAPORE 368357 PHONE : +65 858 5535 / +65 381 8621 FAX : +65 858 6078 1 1.Servicing the CDR631 1.1 INTRODUCTION: The CDR631is the professional version of a CD recorder, this means that the SCMS (Serial Copy Management System) is not included. The CDR631can record on the Audio and CDRs PC. The CDR631is suitable for recording and playback of CD-R W discs (CD-Re Writable disc). 1.2 OPENING THE PRODUCT: The product can be opened by removing the top cover (8 screws). Once the product is opened one can have access to the several PCB's and the main module. To have access to the Display PCB, the Headphone PCB first the front cover has to be removed. Below the several PCB's and it function and service policy will be discussed: Consumer : For Digital Audio Professional : For General use (Including PC) P : Playback R : Recording Playback & Recording and Disc Disc Player/Recorder CD CDR CD-RW SCMS Consumer Disc Consumer Disc Professional Disc Professional Disc Finalized Finalized non Finalized non Finalized non Finalized non Finalized Finalized Finalized Audio CD Player Current products Ex:CD-17 Audio CD Player CD-RW playback Ex:CD-17MK II CD-RW Recorder For Professional Ex:CDR630/631/640 CD-RW Recorder For Consumer Ex:DR6000/6050 P P no P no no no no no - P P no P no P no P no - P P P/R P P/R P/R P/R P/R P/R no P P P/R P P P P P/R P/R YES CDR LOADER SWITCHING POWER SUPPLY BOARD AUDIO BOARD DISPLAY BOARD HEAD PHONE BOARD MOTER BOARD 2 1.2.1 CDR loader (CDR main module CDL4009 or MAR770): This complete CDR loader is considered as not repairable in the field. therefore this module will be repaired centrally. A module exchange procedure will be set up for this purpose. The module can be removed from the product by removing 4 screws and the transformer (see demounting the CDR module on page 1-7), and loosing the connectors. This module is the complete CD recorder, it contains the following parts: CD Mechanism (CDM4009'). Underneath this mechanism a PCB is mounted which is adjusted to the mechanism (laser current settings are stored in EEPROM). Loader Assy. This mechanical assy takes care for the tray control. Main PCB. This PCB takes care that the (analog or digital) signal to be recorded is converted into a suitable signal which can be recorded on the disc. Digital signals with an other sampling frequency then 44.1kHz will be converted in the sample rate converter (DASP) to 44.1kHz. Analog signals will be first converted into a digital converter by the AD converter. This PCB also takes care that the signal from the CD (playback) is converted into a suitable digital signal (or analog via the DA converter). The main microprocessor controls the several functions of this PCB. 1.2.2 Switching Power Supply Board. This PCB contains the Power Supply, which delivers the sevelal volteges for the each PCB in the CDR631. On this Power Supply a fuse (Primaly side) are mounted on this PCB. The power SW is jointed the Power bottom on the front panel. All parts are available as spare parts. 1.2.3 Audio Board. This PCB contains the audio part,witch takes care that the signal from CDR main module is converted into an analog signal via DA converter and outputs the analog signal. This PCB contains the output and input connectors also. All parts are available as spare parts. 1.2.4 Display Board. This PCB contains the Display, which informs the user about the status of the recording/playback process and it also takes care for scanning the keys on the front panel. The information from the keys is fed via a I C connection to the main microprocessor on the CDR loader module. Information which needs to be displayed is also fed via this I C line from the main microprocessor on the CDR loader module to the display controller. The parts for this PCB are available as service parts so this PCB can be repairable up to component level. 1.2.5 Headphone Board. This PCB contains the headphone socket and potentiometer which controls the headphone volume. All parts are available as spare parts. 2 2 IMPORTANT In case of replace the CD-R module "MAR770", the initialization is necessary. Please initialize the CD-R module with following orders. 1. Press the POWER button (POWER ON) while depressing FINALIZE button and REC MODE button together. 2. FL Display shows; WAIT PGM PROTOCOL PGM PORT END 3. Press the POWER button (POWER OFF). Then the CD-R module set up to CDR631 own status. 3 2 TECHNICAL SPECIFICATIONS GENERAL System .................................................................................................... Compact disc digital audio Number of channels ................................................................................ 2 (stereo) Applicable discs ...................................................................................... CD, CD-R , CD-RW Power Requirement F version ........................................................................................... AC 100 V 50 / 60 Hz N version ........................................................................................... AC 100 - 240 V 50 /60 Hz U version. .......................................................................................... AC 120 V 60 Hz Power Consumption ................................................................................ 19 W Operating Temperature . ......................................................................... 5 °C - 35 °C Dimension (MAX) Width ................................................................................................. 483 mm Height ................................................................................................ 100 mm Depth ................................................................................................ 340 mm Weight ................................................................................................ 4.7 kg AUDIO Frequency Response ............................................................................. 20 Hz - 20 kHz Playback S/N .......................................................................................... 108 dB Playback Dynamic Range ....................................................................... 95 dB Playback Total Harmonic Distortion ........................................................ 92 dB Recording S/N (analog) .......................................................................... 96 dB Recording Dynamic Range (analog) ....................................................... 92 dB Recording Total Harmonic Distortion (analog) ........................................ 88 dB Analog Output Voltage ............................................................................. 2 Vrms Digital Coaxial Output ............................................................................. 0.5 V (p-p) / 75 ohms Digital Optical Output .............................................................................. - 20 dB Headphones ............................................................................................ 0 - 5 Vrms / 8 - 2000 ohms Recording values for line input Digital Coaxial Input (automatic sample rate conversion) ....................... 11 - 56 kHz Digital Optical Input (automatic sample rate conversion) ........................ 11 - 56 kHz Digital XLR Input (automatic sample rate conversion) ............................ 11 - 56 kHz Analog Input Sensitivity (Unbalanced) .................................................... 500 mVrms / 50 kohms Analog Input Sensitivity (Balanced) ........................................................ 0 dBu to +22 dBu / 50 kohms (default setting : +16 dBu / 50 kohms) Specifications subject to change without prior notice. 4 WARNING All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD). Careless handling during repair can reduce life drastically. When repairing, make sure that you are connected with the same potential as the mass of the set via a wristband with resistance. Keep components and tools at this potential. ATTENTION Tous les IC et beaucoup d´autres semi-conducteurs sont sensibles aux décharges statiques (ESD). Leur longévite pourrait être considérablement écourtée par le fait qu´aucune précaution nést prise à leur manipulation. Lors de réparations, s´assurer de bien être relié au même potentiel que la masse de l´appareil et enfileer le bracelet serti d´une résistance de sécurité. Veiller à ce que les composants ainsi que les outils que l´on utilise soient également à ce potentiel. WARNUNG Alle ICs und viele andere Halbleiter sind empfindlich gegenüber elektrostatischen Entladungen (ESD). Unsorgfältige Behandlung im Reparaturfall kann die Lebensdauer drastisch reduzieren. Sorgen Sie dafür, daß sie im Reparaturfall über ein Puls- armband mit Widerstand mit dem Massepotential des Gerätes verbunden sind. Halten Sie Bauteile und Hilfsmittel ebenfalls auf diesem Potential. WAARSCHUWING Alle IC´s en vele andere halfgeleiders zijn gevoelig voor electrostatische ontladingen (ESD). Onzorgvuldig behandelen tijdens reparatie kan de levensduur drastisch doen vermindern. Zorg ervoor dat u tijdens reparatie via een polsband met weerstand verbonden bent met hetzelfde potentiaal als de massa van het apparaat. Houd componenten en hulpmiddelen ook op ditzelfde potentiaal. AVVERTIMENTO Tutti IC e parecchi semi-conduttori sono sensibili alle scariche statiche (ESD). La loro longevità potrebbe essere fortemente ridatta in caso di non osservazione della più grande cauzione alla loro manipolazione. Durante le riparationi occorre quindi essere collegato allo stesso potenziale che quello della massa delápparecchio tramite un braccialetto a resistenza. Assicurarsi che i componenti e anche gli utensili con quali si lavora siano anche a questo potenziale. Safety regulations require that the set be restored to its original condition and that parts which are identical with those specified be used. Safety components are marked by the symbol Le norme di sicurezza estigono che l´apparecchio venga rimesso nelle condizioni originali e che siano utilizzati i pezzi di ricambiago identici a quelli specificati. Componenty di sicurezza sono marcati con Veiligheidsbepalingen vereisen, dat het apparaat in zijn oorspronkeliijke toestand wordt teruggebracht en dat onderdelen, identiek aan de gespecificeerde, worden toegepast. De Veiligheidsonderdelen zijn aangeduid met het symbool Varning ! Osynlig laserstrålning när apparaten är öppnad och spärren är urkopplad. Betrakta ej strålen. Advarsel ! Usynlig laserstråling ved åbning når sikkerhedsafbrydere er ude af funktion. Undgå udsaettelse for stråling. Varoitus ! Avatussa laitteessa ja suojalukituksen ohitettaessa olet alttiina näkymättömälle laserisäteilylle. Älä katso säteeseen ! ESD SAFETY Bei jeder Reparatur sind die geltenden Sicherheitsvor- schriften zu beachten. Der Originalzustand des Gerätes darf nicht verändert werden. Für Reparaturen sind Original- ersatzteile zu verwenden. Sicherheitsbauteile sind durch das Symbol markiert. Les normes de sécurité exigent que l`appareil soit remis à l`état d`origine et que soient utilisées les pièces de rechange identiques à celles spécifiées. Les composants de sécurité sont marqués DANGER: Invisible laser radiation when open. "Pour votre sécurite, ces documents doivent être utilisés par des spécialistes agréés, seuls habilités à réparer votre appareil en panne". After servicing and before returning the set to customer perform a leakage current measurement test from all exposed metal parts to earth ground, to assure no shock hazard exists. The leakage current must not exceed 0.5mA. AVOID DIRECT EXPOSURE TO BEAM. AVAILABLE ESD PROTECTION EQUIPMENT : anti-static table mat large 1200x650x1.25mm 4822 466 10953 small 600x650x1.25mm 4822 466 10958 anti-static wristband 4822 395 10223 connection box (3 press stud connections, 1M ) 4822 320 11307 extendible cable (2m, 2M , to connect wristband to connection box) 4822 320 11305 connecting cable (3m, 2M , to connect table mat to connection box) 4822 320 11306 earth cable (1M , to connect any product to mat or to connection box) 4822 320 11308 KIT ESD3 (combining all 6 prior products - small table mat) 4822 310 10671 wristband tester 4822 344 13999 LASER PRODUCT CLASS 3B U : VERSION N : VERSION LASER PRODUCT CLASS III b 3. WARNINGS 5 SERVICE TOOLS “The tools listed below are standard test tools that can be used for repairing and testing Marantz CD Players & Recorders. Unless otherwise stated in the text, these tools are not mandatory for servicing Marantz CD Players & Recorders” Audio signals disc 4822 397 30184 Disc without errors (SBC444)+ Disc with DO errors, black spots and fingerprints (SBC444A) 4822 397 30245 Disc (65 min 1kHz) without no pause 4822 397 30155 Max. diameter disc (58.0 mm) 4822 397 60141 Torx screwdrivers Set (straight) 4822 395 50145 Set (square) 4822 395 50132 13th order filter 4822 395 30204 Hexagon socket screw button (No. 1.5) 4. SERVICE HINTS AND TOOLS 6 CDR MAIN BOARD TEST ELECTRICAL SERVICE DIAGNOSTICS (software versions, test for defective components) PLAYER INFORMATION YES NO Tests OK? If power ON, switch power OFF Load CD-DA disc (SBC444A) Press + simultaneously and switch ON unit Display : "PLAYER ID" "SW VERSION BACK END" "SW VERSION CDR LOADER" (DR6050 "SW VERSION CD LOADER") Display : "DTST1" DRAM test (7702) Display : "DTST2" FLASH CHECKSUM test (7702) Display : "DTST3" FLASH ERASE test (7702) Display : "DTST4" * CODEC test (7702) Display : "DTST5" CDR LOADER COMMUNICATION test Display : "DTST5" * CD LOADER COMMUNICATION test PASS OR FAIL PASS OR FAIL PASS OR FAIL PASS OR FAIL PASS OR FAIL PASS OR FAIL Display : "DERRn" n = failed test Display next failed test ABORT TEST Press ABORT TEST Press ABORT TEST Press ABORT TEST Press ABORT TEST Press LOADER TESTS Display shows current disc time CDR LOADER TEST CD-DA disc must be loaded ABORT TEST Press YES NO Test OK? Display : "BERR1" or "NO CDDA" or "NO DISC" Display shows current disc time CD LOADER TEST * CD-DA disc must be loaded YES NO Test OK? Display : "BERR2" or "NO CDDA" or "NO DISC" * FOR CDR500 ONLY ABORT TEST Press Press Display segments blink at f=1Hz DISPLAY TEST Press DISPLAY TEST Press Display shows name of pressed keys KEYBOARD & RC TEST KEYBOARD & RC TEST To end test, switch OFF unit * FOR CDR500 ONLY 5. Diagnostic Software 5.1 Electrical service diagnostics Figure 5-1 7 5.1.1 Description The intention of the electrical service diagnostics is to show the software versions present in the player and to direct the dealer towards defective internal units. The units are : the CDR main board, the CDR loader, the CD loader in case of a CDR500 and the keyboard/display board. A sequence of tests is executed automatically. Some of the tests can be aborted or skipped without the result being taken into account. External tools or disassembly of the unit is not necessary to get the diagnostic information. Pressing keys [PLAY/PAUSE] and [F FWD] simultaneously while switching on the unit, starts the test. Switching off the unit ends the test. 5.1.2 Requirements to perform the test • Working keyboard to start up the test. • Working local display to check the output messages. • A CD-DA disc with a minimum of 3 tracks in all trays to perform the disc test. 5.1.3 Description of the tests Player information In this part of the test the following important information can be checked without removing the cover : • Recorder ID. • SW-version back end of player. • SW-version CDR loader. • SW-version CD loader (only for CDR500). CDR main board test As soon as the CDR main board tests are finished, all failure messages (if any) will be displayed sequentially by pressing the [F FWD] key. The message "DERRn" will be displayed with n indicating the faulty test number. If one of the tests is aborted with the [F FWD] key, no error message will be displayed for this test. The flash data erase test ("DTST3") can not be aborted ! The CDR main board test consists out of : DRAM test Display : "DTST1". The DRAM used for buffer management is tested by writing, reading and verifying test patterns. Flash checksum test Display : "DTST2". This test checks the checksum of the player's SW stored in the flash. Flash data erase Display : "DTST3". During this test, all temporary information (CDtxt) in the flash is erased. CODEC (ADC/DAC) test Display : "DTST4". This test checks the CODEC IC by writing, reading and verifying test patterns. The test is not applicable for CDR950. CDR communication test Display : "DTST5". The communication between the host processor (DASP) and the CDR loader via the DSA-R-bus is tested. CD communication test Display : "DTST6"). The communication between the host processor (DASP) and the CD loader is tested. The test is only applicable for CDR500. Loader tests These tests determine if the CDR loader and the CD loader in case of a CDR500 work correctly. A CD-DA disc with a minimum of 3 tracks needs to be inserted in both loaders. A disc test is executed to check focus control, disc motor control, radial control and jump grooves control. The disc test is performed by audio play-back of 5 seconds at the beginning, middle and end of the disc. CDR loader test During the test, the current disc time is shown. In case of an error the message "BERR1" will be displayed and the [F FWD] key must be pressed to continue with the following test. Pressing the [F FWD] key also aborts this test. CD loader test For CDR500 only. During the test, the current disc time is shown. In case of an error the message "BERR2" will be displayed and the [F FWD] key must be pressed to continue with the following test. Pressing the [F FWD] key also aborts this test. Display test All segments will blink at a frequency of 1 Hz. Pressing the [F FWD] key will start the next test because the user has to check for himself if all segments work properly. Keyboard and remote control tests The test will give the user the ability to test every key without executing the function assigned to it. Therefore, the user needs to press every key on the keyboard and the remote control. The display will show the name of the key being pressed. Pressing more than one key at once will give an unpredictable result except for the service combinations : [PLAY/PAUSE] + [STOP], [PLAY/PAUSE] + [ERASE] + [RECORD], [PLAY/PAUSE] + [RECORD]. 8 5.2 Mechanical service diagnostics Figure 5-2 5.2.1 Description No external tools are required to perform this test. The cover needs to be removed because the user has to check the movements of the tray, focus and sledge visually. Pressing keys [PLAY/PAUSE] and [STOP] simultaneously while switching on the unit, starts the test. Switching off the unit ends the test. In case of a CDR500, one can check the CD loader mechanics in the same way by pressing the above key combination on the CD player keys. 5.2.2 Requirements to perform the test • Working keyboard to cycle through the tests and to start up the test. • Working local display to check the output messages. 5.2.3 Description of the tests Focus control test The focussing lens is continuously moving up and down. The display reads "BUSY". Sledge control test After pressing [F FWD] the sledge continuously moves up and down. Pressing [REWIND] stops the sledge at the position it is in and the focus control test resumes. The display reads "BUSY". Tray control test This test starts from within the focus control test routine. Pressing [OPEN/CLOSE] moves the tray in or out. In the tray open position one can initiate focus and sledge tests by pressing [F FWD]. One has to stop these tests pressing [REWIND] before it is possible to close the tray again. Depending on the action the display reads "OPEN", "OPENED", "CLOSE" or "BUSY". FOCUS TEST Display shows “BUSY” Visual inspection TRAY TEST Visual inspection Display shows “OPENED” even if tray is blocked SLEDGE TEST Visual inspection MECHANICAL SERVICE DIAGNOSTICS (test for defective components) Press + simultaneously and switch ON unit If power ON, switch power OFF To end test, switch OFF unit Display shows “BUSY” 9 5.3 DC-erase service mode 5.3.1 Description This test is initiated by pressing [ERASE] and [RECORD] simultaneously while switching on the unit. The player will erase a complete CD-RW disc (including PMA and ATIP lead out area) at speed N=2. The display shows the countdown of the remaining time required for the operation to complete. The format is "ER mm:ss", where "mm" are the remaining minutes and "ss" the remaining seconds. After completion the message "PASSED" is shown, and the player has to be switched off and on again to start up in normal operating mode. Switching off the unit before completion of the test, leaves the disc in an unpredictable state. In such case only a complete DC-erase procedure can recover the CD-RW disc. 5.3.2 Requirements to perform the test • Functional CDR player. • A CD-RW audio disc must be present in the tray. Figure 5-3 Load CD-RW disc Press + simultaneously and switch ON unit Display shows: “PASSED ” when the erase function is completed “ERROR ” if DC ERASE fails Display shows: “ER mm:ss” mm :remaining minutes ss :remaining seconds TOTAL and REM are also illuminated DC ERASE SERVICE MODE (erasement of complete CD-RW) To end test, switch OFF unit 10 Figure 6-1 6. Faultfinding Trees NO DISC LOADED SWITCH ON POWER PRESS SEE CD-DA DISC FAULT FINDING SEE CD-R DISC FAULT FINDING SEE CD-RW DISC FAULT FINDING INSERT DISC PRESS DISPLAY? DISPLAY: "INSERT DISC" CD-DA DISC LOADED? CHECK: • POWER SUPPLY & TRAFO ⇒ WIRING ⇒ ON/OFF SWITCH ⇒ FUSES ⇒ VOLTAGES • DISPLAY (SEE FAULT FINDING GUIDE DISPLAY BOARD) ⇒ WIRING ⇒ CONTROL SIGNALS ⇒ CLOCK SIGNAL 8MHz ⇒ SUPPLY VOLTAGES ⇒ ELECTRICAL SERVICE DIAGNOSTICS: DISPLAY TEST, KEYBOARD TEST • POWER SUPPLY VOLTAGES • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: • MECHANICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF ERROR OCCURS TRAY? CD-R DISC LOADED? NO NO NO NO NO YES YES YES YES YES CD-RW DISC LOADED? YES PRESS • MAINS, MAINS CABLE CHECK: STANDBY LED ⇒ ⇒ KEYBOARD • WIRING • DISPLAY BOARD (SEE FAULT FINDING GUIDE DISPLAY BOARD) ⇒ WIRING ⇒ CONTROL SIGNALS ⇒ CLOCK SIGNAL 8MHz ⇒ SUPPLY VOLTAGES ⇒ ELECTRICAL SERVICE DIAGNOSTICS: DISPLAY TEST, KEYBOARD TEST ⇒ KEYBOARD 11 Figure 6-2 PLAY BACK OF CD-DA DISCS OK PRESS CD-DA DISC LOADED CHECK: CHECK: • NO NO NO NO NO YES YES YES YES HEADPHONE? DIGITAL YES DISTORTION? DISPLAY: “CD” & T.O.C. INFO? YES DISC DETECTION & READING? • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: • DISC: DIRT, SCRATCHES, DAMAGED... NO • POWER SUPPLY VOLTAGES • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: • WIRING AUDIO BOARD ⇒ FLEX & WIRE CONNECTIONS ⇒ +5V (pin 4. W855), +12V(pin 2. W855), -12V(pin 6. W855) AUDIO ANALOG OUT? • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS • AUDIO CONNECTIONS & CABLES • CONNECTION OF HEADPHONE ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: CHECK SINGNAL -FOR COAXIAL OUT AT QT31,LT13 -FOR OPTICAL OUT AT QT31,JT21 ⇒ • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS AUDIO OUT? ⇒ SEE FAULTFINDING GUIDE AUDIO BOARD - ANALOG OUT PATH • HEADPHONE BOARD ⇒ +10V (pin 6. J903), -10V (pin 2. J903) ⇒ WIRE CONNECTION ⇒ PLAY SBC442 DISC (1kHz, -30dB) AND CHECK SIGNAL AT Q901 ⇒ KILL VOLTAGE (pin 1. J903) : -8V DURING PLAY ⇒ KILL TRANSISTORS QN01 - QN02 • • AUDIO BOARD ⇒ FLEX & WIRE CONNECTIONS ⇒ +5V (pin 3. W853) • AUDIO CONNECTIONS & CABLES Faultfinding Trees 12 Figure 6-3 FINALISED OR PARTIALLY RECORDED CD-R DISC CD-R DISC EMPTY START MANUAL RECORDING FROM ANALOG SOURCE CD-R DISC LOADED LEVEL ADJUSTABLE? NO YES ANALOG IN? NO YES NO YES DISPLAY: “CD R” & OPC INFO? YES DISC DETECTION & READING? • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: • DISC: DIRT, SCRATCHES, DAMAGED... NO • POWER SUPPLY VOLTAGES • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: • WIRING NO YES DISPLAY: “CD” OR “CD R” & T.O.C. INFO? SEE CD-DA DISC FAULT FINDING CHECK: • • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS DISPLAY BOARD (SEE FAULT FINDING GUIDE DISPLAY BOARD) ⇒ EASY JOG KNOB ⇒ I2C COMMUNICATION ⇒ ELECTRICAL SERVICE DIAGNOSTICS: KEYBOARD TEST • AUDIO CONNECTIONS & CABLES LOADED : • AUDIO BOARD (SEE FAULT FINDING GUIDE I/O BOARD - ANALOG IN PATH) SET OK DIGITAL IN? OPTICAL IN? NO YES RECORDING SUCCESSFUL? NO YES CHECK: CHECK SINGNAL -FOR BALANCE IN AT Q326 -FOR UNBALANCE IN AT Q331 -FOR BALANCE & UNBALANCE IN AT Q332 -FOR OPTICAL IN AT J301 • AUDIO CONNECTIONS & CABLES • AUDIO BOARD ⇒ ⇒ • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: CHECK SINGNAL -FOR XLR IN AT Q326 -FOR COAXIAL IN AT Q331 -FOR XLR & COAXIAL IN AT Q332 -FOR OPTICAL IN AT J301 • AUDIO CONNECTIONS & CABLES • AUDIO BOARD ⇒ FLEX AND WIRE CONNECTIONS ⇒ ⇒ +10V (QM01), -10V (QM02) +5V (pin 3 conn. W853) • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS 13 CD-RW DISC LOADED START ERASING OF LAST RECORDED TRACK SET OK ERASING SUCCESSFUL? YES NO NO YES DISPLAY: “CD RW” & OPC INFO? YES DISC DETECTION & READING? • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: • DISC: DIRT, SCRATCHES, DAMAGED... NO • POWER SUPPLY VOLTAGES • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS CHECK: • WIRING NO YES CHECK: • ELECTRICAL SERVICE DIAGNOSTICS: REPLACE CDR MODULE IF "DERRn" OR "BERRn" ERROR OCCURS • IF DISC CORRUPTED TRY DC ERASE DISPLAY: “CD” OR “CD RW” & T.O.C. INFO? CD-RW DISC EMPTY FINALISED OR PARTIALLY RECORDED CD-RW DISC SEE CD-DA DISC FAULT FINDING LOADED : Figure 6-4 14 6 5 1516 26 27 28 29 30 31 32 34 35 36 37 41 14 12 11 17 18 20 21 22 42 43 44 45 46 47 48 49 50 51 10 25 23 24 4 74 73 72 71 70 69 68 67 66 65 3 64 63 62 61 60 59 58 57 56 55 2 54 53 1 80 79 77 76 75 13 39 38 40 78 7 9 8 19 33 52 TMP87C874F SCL SDA VSS1 XOUT XIN RESETN P22 P21 TEST1 P20 INT0 INT1 SCK0 PORT3 I C 2 VKK COUNTER PROGRAM I/O PORT1 TIMER/COUNTER I/O PORT6 (VFT) VASS VAREF VDD I/O PORT8 (VFT) CONVERT. 8 BIT A/D 16 BIT ( RAM ) 512X8 BIT DATA MEMORY TIMER/COUNTER ( ROM ) 8kX8 BIT INTERRUPT CONTROLLER I/O PORT7 (VFT) ( I/O PORT2 ) PROGR MEMORY I/O PORT0 CLOCK/TIMING CONTROLLER 8 BIT I/O PORTD (VFT) I/O PORT9 (VFT) I/O PORT5 I/O PORT4 C P U INT0 external interrupt input 0 INT1 external interrupt input 1 RESETN reset signal input, active low SCL I2C-bus serial clock input/output SDA I2C-bus serial data input/output TEST test pin, tied to low VAREF analog reference voltage input VASS analog reference ground VDD +5V VKK VFT driver power supply VSS ground XIN, XOUT resonator connecting pins for high-frequency clock BLOCK DIAGRAM PIN DESCRIPTIONS Display controller TMP87CH74F TMP87CH74F (QY01) is a high speed and high performance 8-bit single chip microprocessor, containing 8-bit A/D conversion inputs and a VFT (Vacuum Fluorescent Tube) driver. In this application, its functions are : • slave microprocessor. • FTD driver. • generates the square wave for the filament voltage required for an AC FTD. • generates the grid and segment scanning for the FTD. • generates the scanning grid for the key matrix. • input for remote control. All the communication runs via the serial bus interface I2C. The display controller uses an 8Mhz resonator as clock driver. General description The display board has three major parts : the FTD (Fluorescent Tube Display), the display controller TMP87CH74F and the keyboard. The display controller is controlled by the DASP master processor on the CDR main board. The communication protocol used is I2C. So all the information between DASP and display controller goes via the SDA or I2C DATA and SCL or I2C CLK lines. Communication is always initiated by the DASP on the CDR main board. Unlike the previous generations of CDR players, the interrupt generated by the display controller at key-press or reception of remote control is not used. Instead, the DASP polls the display controller for these events. 7. Faultfinding Guide 7.1 Display Board 7.1.1 Description of display board Figure 7-1 15 PM3392A CH1!10.0 V= MTB1.00ms ch1+ 0V +4V -34V PM3392A CH1!2.00 V= CH2 2 V= MTB10.0ms ch1+ +5V 0V +5V 0V I2C DATA I2C CLK PM3392A CH1!10.0 V= MTB1.00ms ch1+ 0V +5V -34V Supply voltages The display board receives several voltages via connector JY01. • VFTD : -34V ±5% measured at pin 2 of conn. JY52. • VDC1-VDC2 : 4V1 ±10% measured between pin 1 and 3 of conn. JY52. • +5V : + 5V ±5% measured at pin 10 of conn. JY52. Voltages VFTD, VDC1 and VDC2 are produced in the Switching Power Supply Board and sent to the display board via the CDR main board. The +5V voltage is produced on the CDR main board as D5V. Clock signal As clock driver for the display controller, a resonator of 8 Mhz (XY01) is used. The signal can be measured at pins 8 and 9 of the display controller : 8 Mhz ±5%. Control signals RESETN The reset signal comes via pin 4 of conn. JY52 from the DASP master processor on the CDR main board (SYS_RESET). The reset is low active. It should be kept low during power up for at least 3 machine cycles with supply voltage in operating range and a stable clock signal (1 machine cycle = 12 x 1/Fc (8 Mhz) sec.). During normal operation, the reset should be high (3V3). The high signal is 3V3 because the DASP operates on 3V3. I2C DATA/I2C CLK These lines connect to the DASP master processor via respectively pin 5 and pin 7 of conn. JY52. When there is no communication, they should have the high level (+5V). The oscillogram below gives an indication of how these signals should look like. Grid lines Level and timing of all grid lines, G1-->G15, can be checked either at the FTD itself or at the display controller. Grid lines G13, G14 and G15 each have an extra current amplifier in line : QY04 for G13, QY03 for G14 and QY02 for G15. A typical grid line signal shows in the oscillogram below. Segment lines Level and timing of all segment lines, P-->P21, can be checked either at the FTD itself or atthe display controller. The data on these segment lines however, depends on the characters displayed. The oscillogram below shows a segment line with data. A segment line without data maintains a -30V level. FTD drive lines Filament voltage Should measure 4.3V ±10% (=VDC1-VDC2) between pins 1-2 and pins 52-53 of FTD(VY01). 7.1.2 Test instructions Figure 7-2 “I2C SIGNALS” Figure 7-3 “OSD” Figure 7-4 “SEGMENT LINE” 16 PM3392A CH1!2.00 V= MTB5.00ms ch1+ 0V +5V CL 96532121_031.eps 141099 PM3392 Pin3 Pin1 CH1 5.00 V= CH2 5.00 V= MTB20.0ms- 1.92dv ch2- CL 96532121_032.eps 141099 PM3392 Pin3 Pin1 CH1 5.00 V= CH2 5.00 V= M TB20.0ms- 1.92dv ch2- CL 96532121_033.eps 141099 PM3392A CH1!2.00 V= MTB20.0ms ch1+ 1 +5V 0V CL 96532121_034.eps 141099 Key matrix lines The lines connected to pins 18, 19, 20, 34, 35, 36 and 37 of the display controller act as matrix scanners. Without a key pressed, they maintain a low level. As soon as a key is pressed, the scanning line connected to that key puts out a scanning signal, which should look like the oscillogram below. This scanning signal goes via the pressed key to I/O port 7 of the display controller (pins 28 to 33). The display controller can now determine which key has been pressed. Without a key pressed, pins 28 to 33 of the display controller maintain a high level (+5V). Easy jog knob Rotary operation The easy jog knob (SY26) incorporates a whole heap of user control possibilities in just one knob. Without the knob being operated, pin 1 and 3 of the knob (and thus pin 16 and 17 of the display controller), maintain the +5V level. Turning the knob clockwise briefly connects pin 1 to GND followed by pin 3. The pulses created this way arrive at pin 16 and 17 of the display controller. The first pulse to arrive tells the controller the direction of the rotation. Counting the pulses reveals the amount of rotation. Combining and decoding this information, the display controller will execute the appropriate task. Push button operation This button connects to the key matrix lines and thus the operation is identical to the ordinary keys. Without being pressed, pin 4 of the easy jog maintains the low level, pin 5 the high level. When pressed the scanning signal goes through the closed contact of pins 4 and 5, and can be checked at both pins. IR receiver - remote control In the CDR631 the IR receiver ZY01 is mounted on the IR board. In all versions the IR receiver connects to the display controller. The signal coming from the receiver can be checked at pin 22 of the display controller. This signal is normally high (+5V). When the remote control is being operated, pulses mixed in with the +5V can be measured. The oscillogram gives an indication of how the signal looks like with the RC being operated. Figure 7-7 TURN ANTI-CLOCKWISE Figure 7-6 TURN CLOCKWISE Figure 7-5 KEY MATRIX SCAN LINE Figure 7-8 IR RECEIVER SIGNAL Turning the knob anti-clockwise briefly connects pin 3 to GND followed by pin 1. 17 SWITCH POWER ON, EXIT STAND BY MODE DISPLAY BOARD OK DISPLAY? CHECK : • SUPPLY VOLTAGES ⇒ -34V ±5% at conn. JY52-2 ⇒ 4V3 ± 10% between conn. JY52-1 and JY52-3 ⇒ +5V ± 5 % at conn. JY52-10 • CLOCK SIGNAL ⇒ 8Mhz at pins 8, 9 of QY01 • CONTROL SIGNALS ⇒ RESETN 3V3 (high) at conn.JY52-4 after start up ⇒ I2C DATA at conn. JY52-5 ⇒ I2C CLK at conn. JY52-7 • FTD DRIVE LINES ⇒ Filament voltage 4V3 ± 10% between pins 1-2 and pins 52-53 of the FTD (VY01) ⇒ Grid lines (see test instructions) ⇒ Segment lines (see test instructions) • ELECTRICAL SERVICE DIAGNOSTICS - Local display test YES YES YES KEY FUNCTIONS? REMOTE CONTROL? NO NO CHECK: • KEY MATRIX LINES (see test instructions) • ELECTRICAL SERVICE DIAGNOSTICS – Keyboard test • EASY JOG KNOB (see test instructions) NO CHECK: • IR RECEIVER signal at pin 22 of QY01 • ELECTRICAL SERVICE DIAGNOSTICS – Remote control test 7.1.3 Display board troubleshooting guide Figure 7-9 18 Voltage Reference Modulator ∆ Σ Modulator ∆ Σ Digital Decimation Filter Serial Output Interface Clock Divider 5 4 2 13 24 22 17 15 23 18 19 20 21 3 6 7 1 2 VREF AINL+ AINL - AINR+ AINR - AGND VA VD DGND VB CMODE MCLK SMODE2 SCLK LRCK FSYNC SDATA SMODE1 PD HPFE TST1 TST2 TST3 TST4 16 9 8 10 11 14 Test pin Should be left floating. (Pull- down pin) No. Pin Name I/O PIN / FUNCTION 1 AINR+ I Right channel analog positive input pin 2 AINR- I Right channel analog negative input pin 3 VREF O Voltage Reference output pin (VA-2.6V) Normally connected to VA with a 0.1uF ceramic capacitor in parallel with a 10uF electrolytic capacitor. 4 VA Analog section Analog Power Supply, +5V 5 AGND Analog section Analog Ground 6 AlNL+ I Left channel analog positive input pin 7 AINL- I Left channel analog negative input pin 8 TST1 Test pin Should be left floating. (Pull- down pin) Test pin Should be left floating. (Pull- down pin) Test pin Should be left floating. (Pull- down pin) 10 TST2 11 TST3 14 TST4 9 HPFE I High Pass Filter Enable pin (Pull- up pin) "H": ON "H": OFF 12 VD Digital section Digital Power Supply pin, +5V 13 DGND Digital section Digital Ground pin 16 PD I Power Down pin "L" brings the device into power-down mode. Must be done once after power-on. 17 MCLK I Master Clock input pin CMODE="H" : 384fs CMODE="L" : 256fs 18 SCLK I/O Serial Data Clock pin Data is clocked out at the falling edge of SCLK. Slave mode: 64fs clock is input usually. Master mode: SCLK outputs a 64fs clock. SCLK stays low during the power-down mode(PD="L"). 19 LRCK I/O L/R Channel Clock Select pin Slave mode: An fs clock is fed to this LRCK pin. Master mode: LRCK output an fs clock. LRCK goes "H" at SMODE2="L" and "L" at SMODE2="H" during reset when SMODE1 "H". 20 FSYNC I/O Frame Synchronization Signal pin S!ave mode: When "H", data bits are clocked out on SDATA. As I2S slave mode ignores FSYNC It should hold "L" or "H". Master mode: FSYNC outputs 2fs clock. Stay low during the power-down mode(PD="L") . 21 SDATA O Serial Data Output pin Data are output with MSB first, in 2's complement format. After 20 bits are output it turns to "L". It also remains "L" at a power- down mode(PD="L"). 22 CMODE I Master Clock Selection pin "L": MCLK=256fs "H": MCLK=384fs 23 SMODE1 I Serial Interface Mode Select pin 15 SMODE2 I Defines the directions of LRCK, SCLK and FSYNC pins and Output Data Format. SMODE2 is pull- down pin. SMODE1 SMODE2 MODE LRCK L L Slave mode: MSB justified : H/L H L Master mode Similar to I2S : H/L L H Slave mode: I2S : L/H H H Master mode: I2S : L/H 24 VB Substrate Power Supply, +5V The Audio board for the CDR631 is a full high performance AD/DA panel, acting as an interface to the outside world. Key components are DS1807, ADC AK5351 and DAC AK4393. Description The via BALANCE in connected anolog-in L and R signals are pre-amplified by opamp Q761-Q763, and the via UNBALANCE in connected anolog-in L and R signals are pre-amplified by opamp Q705, Q706, these signals is selected by Analog SW Q701 after which they are presented to an adjustable amplifier made out of DS1807 and opamp Q703 - Q708. The level of the incoming. Analog signal is adjusted by means of control lines "I2C" coming from the DASP on the CDR main board and switching the mux/demux. The anolog signal is then presented to the A/D converter A5351 (QA01) where they are converted from analog to I2S-bus data format. The I2S-bus is connected via connector J601 and flex to the DASP on the CDR main board. The ADC uses the CL11-clock (11.2896 MHz), coming from the DASP on the CDR main board. ADC AK5351 Description The AK5351 is a stereo, 20-bit oversampling ADC based on Sigma Delta technology intended primarily for digital audio bandwith applications. It supports the I2S-bus data format. The device can be used in either slave or master mode. In this application it is used in slave mode receiving it's clock from the DASP on the CDR main board. Block diagram 7.2 Audio Board 7.2.1 Analog-in path Figure 7-10 Figure 7-11 Pin description 19 WO HO LO SCL SDA A0 A1 A2 L1 H1 W1 Control Logic Address Logic Figure 7-12 Figure 7-14 Pin description PIN DESCIPTION L0, L1 Low End of Resistor H0, H1 High End of Resistor W0,W1 Wiper Terminal of Resistor VCC 3V/5V Power Supply Input A0..A2 Chip Select Inputs SDA Serial Data I/O SCL Serial Clock Input GND Digital Ground AGND Analog Ground NC No connection Addressable Dual Audio Taper Potentionmeter : DS1807 Block diagram 20 Description The I2S-bus data format being the digital output signal, goes from the DASP on the CDR main board via flex and connector J601 to the I/O board. Here it is presented to the D/A converter AK4393. The DAC's analog outputs pass an amplification and filtering circuit (opamp Q603, Q604). After the analog-out L and R signals are sent to the headphone connector on the headphone board, analog out UNBALANCE connectors on the AUDIO board. The DAC uses the CL11-clock (11.2896 MHz), coming from the DASP on the CDR main board. DAC AK4393 Description The AK4393 is a high performance, single-chip stereo, audio DAC delivering 101dB dynamic range sample rate. Block diagram Figure 7-15 7.2.2 Analog-out path DEM1 LRCK BICK SDATA Audio Data Interface DEM0 DVDD CSN AVDD AOUTR+ 8x Interpolator SCF ∆Σ Modulator AOUTR- SCF De-emphasis Soft Mute Control Register Clock Divider De-emphasis Control PDN CCLK CDTI P/S MCLK CKS0 CKS1 CKS2 VREFH VREFL AOUTL+ AOUTL- VCOM BVSS AVSS DVSS DIF2 DIF1 DIF0 SMUTE De-emphasis Soft Mute 8x Interpolator ∆Σ Modulator DFS 21 Figure 7-16 Pin configuration and description No. Pin Name I/O Function 1 DVSS - Digital Ground Pin 2 DVDD - Digital Power Supply Pin, 3.3V or 5.0V 3 MCLK I Master Clock Input Pin 4 PDN I Power-Down Mode Pin When at "L", the AK4393 is in power-down mode and is held in reset. The AK4393 should always be reset upon power-up. 5 BICK I Audio Serial Data Clock Pin The clock of 64fs or more than is recommended to be input on this pin. 6 SDATA I Audio Serial Data Input Pin 2’s complement MSB-first data is input on this pin. 7 LRCK I L/R Clock Pin 8 SMUTE I Soft Mute Pin in parallel mode When this pin goes "H", soft mute cycle is initiated. CSN I Chip Select Pin in serial mode 9 DFS I Double Speed Sampling Mode Pin (Internal pull-down pin) "L": Normal Speed , "H": Double Speed 10 DEM0 I De-emphasis Enable Pin in parallel mode CCLK I Control Data Clock Pin in serial mode 11 DEM1 I De-emphasis Enable Pin in parallel mode CDTI I Control Data Input Pin in serial mode 12 DIF0 I Digital Input Format Pin 13 DIF1 I Digital Input Format Pin 14 DIF2 I Digital Input Format Pin 15 BVSS - Substrate Ground Pin, 0V 16 VREFL I Low Level Voltage Reference Input Pin 17 VREFH I High Level Voltage Reference Input Pin 18 AVDD - Analog Power Supply Pin, 5.0V 19 AVSS - Analog Ground Pin, 0V 20 AOUTR- O Rch Negative analog output Pin 21 AOUTR+ O Rch Positive analog output Pin 22 AOUTL- O Lch Negative analog output Pin 23 AOUTL+ O Lch Positive analog output Pin 24 VCOM O Common Voltage Output Pin, 2.6V 25 P/S I Parallel/Serial Select Pin (Internal pull-up pin) "L": Serial control mode, "H": Parallel control mode 26 CKS0 I Master Clock Select Pin 27 CKS1 I Master Clock Select Pin 28 CKS2 I Master Clock Select Pin Note: All input pins except internal pull-up/down pins should not be left floating. 22 PRESS LOAD SBC442 TEST CD (1kHz, -30dB) 4822 397 30155 CHECK: · Flex and wire connections CL11 = 11.2896MHz at pin 2 conn. J601 · · +10V (QM01), -10V (QM02) Kill transistors QN51, QN52, QN53, QN54 · I2S signals at pin 5, pin 6, pin 8 conn. J601 · CHECK: DAC AOUTL +/-, DAC AOUTR +/- signals : 1kHz, 75mVpp · OPAMP pin1.Q603, pin1.Q604 signals : 1kHz, 180mVpp · DAC FILTER_L, DAC FILTER_R circuits (I/O board circuit diagram 5) KILL voltage testpoint 1 : -8V during play MUTE voltage : low during play · · · ANALOG OUT PATH OK Figure 7-17 Troubleshooting analog-out path 7.2.3 Digital in/out paths 7.3 Headphone board There is a cinch digital-in paths and an optical path taking the digital signals pretty much straight to the DASP on the CDR main board. The optical-out and the digital-out path take the signal from the DASP on the CDR main board to their respective output connectors on the I/O board. The L and R analog signals coming from the analog output on the I/O board pass an adjustable amplifier (opamp Q901) after which they are passed on to the headphone connector. The amplification is adjusted by means of a potentiometer positioned at the front of the CDR player. 23 7.4 Power Supply Unit P816 7.4.1 Description of P816 MOSFET Q825 is used as a power switch controlled by the controller Q810. When the switch is closed, energy is transferred from mains to the transformer. This energy is supplied to the load when the switch is opened. Through control of the switch-on time, the energy transferred in each cycle is regulated so that the output voltages are independent of load or input voltage variations. The controlling device MC44603 is an integrated pulse width modulator. A clock signal initiates power pulses at a fixed frequency. The termination of each output pulse occurs when a feedback signal of the inductor current reaches a threshold set by the error signal. In this way the error signal actually controls the peak inductor current on cycle-by-cycle basis. Figure 7-18 ‘Blockdiagram P816’ Description of controller MC44603 The MC44603 is an enhanced high performance controller that is specifically designed for off-line and DC-to-DC converter applications. This device has the unique ability of automatically changing operating modes if the converter output is overloaded, unloaded or shorted. The MC44603 has several distinguishing features when compared to conventional SMPS controllers. These features consist of a foldback facility for overload protection, a standby mode when the converter output is slightly loaded, a demagnetization detection for reduced switching stresses on transistor and diodes, and a high current totem pole output ideally suited for driving a power MOSFET. It can also be used for driving a bipolar transistor in low power converters. It is optimised to operate in discontinuous mode but can also operate in continuous mode. Its advanced design allows use in current mode or voltage mode control applications. Pin connections Figure 7-19 Rref R Frequency Standby Voltage feedback Input Error Amp Output R Power Standby Soft-Start/Dmax/ Voltage Mode Sync Input Overvoltage Protection (OVP) Current Sense Input Demag. Detection Foldback Input 10 7 CT 8 9 6 5 11 12 Output Gnd VC VCC 3 4 2 14 13 15 1 16 CL 96532076_030.eps 290799 ERROR AMP IREF SYNC RF STANDBY RP STANDBY VOLTAGE VREF VSB OUT 2.5V FEEDBACK E/A OUT FOLDBACK INPUT FOLDBACK =1 DMAX& SOFT-START CONTROL SOFTSTART &DMAX SENSEINPUT CURRENT OVER VOLTAGE MANAGEMENT OVER VOLTAGE PROTECT BUFFER VREF VOC THERMAL SHUTDOWN LATCH Q UVL01 IREF SUUPLY INITIZLIZATION BLOCK REFERENCE BLOCK VREF IREF (REDUCED FREQUENCY) STANDBY OSCILLATOR DEMAGNETISATION MANAGEMENT DEMAGINETIZATION DETECT MC44603P UVL01 L831 Q810 GND +5V +5V GND GND GND +12V -8V GND GND GND +12V +5V 1 2 3 4 6 11 7 5 13 14 12 15 10 9 8 16 U810 U811 SELECT JUMPER (-8V) +12V +12V -12V (-8V) -12V -12V/-8V 1 4 5 6 7 8 9 10 11 12 13 14 +4.1V -34V SWITCHING POWER SUPPLY PCB. (P816) S1WB 4.7/50V 10k 22 100/25V 2SK2943 1k 1.5 10µH 0.1 100 15 2200pF 180 0.1 2.2/50V 330 1500p 180k 1k 15k 15k 4700pF 470p 22k 6.8µH 1µH 10k 2SC 2SA 1k 10k 10k 10k 10µH PC123F LM317 1.5 0.1 250V 0.22 250V 18k 1/2W 1.8k 1.8k 330 /16V 100/6.3V 2200 /10V 10/50V 220/50V 1000 /16V 2.2µH 1k 220 /16V 3.3k 100 1.8k 0.022 TL431 100 7908 22k 22k 100/25 10k PC123F 100/25 1k AG01 RK46 AG01 RU4YX AG01 10uH 0.1 2SC2878 820pF 82pF NP0 82k 18k AG01 AG01 24V 10uH 220 /16V 10k 0.1 10 220 560 0.1 4.7µH 4.7µH 220 /16V 100 /16V 100 /25V 120 /400V 18k 1/2W 0.01 0.1 470pF /1kV 1 4.7k 330k (UL/CSA,MITI) 1M(CB) 0.1 0.1 0.1 681 1% 2.21k 1% 10µH 470pF /400V 470pF /400V 470pF /400V 220/16V 100/10V OPTION OPTION J820 J821 J801 L820 D802 C829 R829 R811 C833 D806 D807 Q825 L825 R825 R827 L832 C811 R812 R813 C813 R816 C814 C810 R809 C809 R807 R806 R805 R804 C804 C803 R802 L856 L861 R861 Q861 Q862 R862 R863 R864 R865 L862 D868 Q801 L831 Q851 R828 J851 S815 F820 C819 C820 R823 R815 R814 C856 J852 C852 C854 C857 C862 C864 C867 C868 L867 R866 C872 R881 R882 R883 C882 D881 R887 Q871 D862 J828 R891 R892 C891 R893 Q892 C892 R894 D803 D804 D851 D856 D861 D866 D871 L866 L871 L873 C877 Q891 C802 C801 R801 R808 D814 D832 D829 L872 C873 R810 C855 R853 R852 R851 C860 L851 L853 C869 C875 C881 C821 R832 G815 J891 C898 C827 R826 R803 R819 C851 C861 C871 C866 R885 R884 R886 L854 L852 C825 C826 C828 C876 C859 R835 D835 24 Pin function description Figure 7-20 Pin Name Description 1 VCC This pin is the positive supply of the IC. The operating voltage range after start-up is 9.0 to 14.5 V. 2 VC The output high state (VOH) is set by the voltage applied to this pin. 3 Output Peak currents up to 750 mA can be sourced or sunk, suitable for driving either MOSFET or bipolar transistors. 4 Gnd The groundpin is a single return, typically connected back to the power source. 5 Foldback Input The foldback function provides overload protection. 6 Overvoltage Protection When the overvoltage protection pin receives a voltage greater than 2.5V, the device is disabled and requires a complete restart sequence. 7 Current Sense Input A voltage proportional to the current flowing into the power switch is connected to this input. 8 Demagnetisation Detection A voltage delivered by an auxiliary transformer winding provides to the demagnetisation pin an indication of the magnetisation state of the flyback transformer. A zero voltage detection corresponds to complete core saturation. 9 Synchronisation Input The synchronisation input pin can be activated with either a negative pulse going from a level between 0.7V and 3.7V to Gnd or a positive pulse going from a level between 0.7V and 3.7V up to a level higher than 3.7V. The oscillator runs free when Pin 9 is connected to Gnd. 10 CT The normal mode oscillator frequency is programmed by the capacitor CT choice together with the Rref resistance value. CT, connected between Pin 10 and Gnd, generates the oscillator sawtooth. 11 Soft- Start/Dmax/Volta ge-Mode A capacitor, resistor or a voltage source connected to this pin limits the switching duty-cycle. This pin can be used as a voltage mode control input. By connecting Pin 11 to Ground, the MC44603 can be shut down. 12 RP Standby A voltage level applied to the RP Standby pin determines the output power level at which the oscillator will turn into the reduced frequency mode of operation (i.e. standby mode). An internal hysteresis comparator allows to return in the normal mode at a higher output power level. 13 E/A Out The error amplifier output is made available for loop compensation. 14 Voltage Feedback This is the inverting input of the Error Amplifier. It can be connected to the switching power supply output through an optical (or other) feedback loop. 15 RF Standby The reduced frequency or standby frequency programming is made by the RF Standby resistance choice. 16 Rref Rref sets the internal reference current. The internal reference current ranges from 100µA to 500µA. This requires that 5.0kΩ Rref 25kΩ. CL 96532076_031.eps 290799 <= <= 25 Block diagram of MC44603 Figure 7-21 Operating description of MC44603 The input voltage Vcc (pin 1) is monitored by a comparator with hysteresis, enabling the circuit at 14.5V and disabling the circuit below 7.5V. The error amplifier compares a voltage Vfb (pin 14) related to the output voltage of the power supply, with an internal 2.5V reference. The current sense comparator compares the output of the error amplifier with the switch current Isense (pin 7) of the power supply. The output of the current sense comparator resets a latch, which is set every cycle by the oscillator. The output stage is a totem pole, capable of driving a MOSFET directly. Start up sequence of P816 t1: Charging the capacitors at Vcc C829 will be charged via R823 and R832, C833 and C811 v ia R829. The output is switched off during t1. t2: Charging of output capacitors When the input voltage of the IC exceeds 14.5V, the circuit is enabled and starts to produce output pulses. The current consumption of the circuit increases to about 17mA, depending on the external loads of the IC. At first, the capacitors at the Vcc pin will discharge because the primary auxiliary voltage, coming from winding 7-9 is below the Vcc voltage. At some moment during t2, the primary auxiliary voltage reaches the same level as Vcc. This primary auxiliary voltage now determines the Vcc voltage. t3: Regulation The output voltage of the power supply is in regulation. t4: Overload When the output is shorted, the supply voltage of the circuit will decrease and after some time drop below the lower threshold voltage. At that moment, the output will be disabled and the process of charging the Vcc capacitors starts again. If the output is still shorted at the next t2 phase, the complete start- and stop sequence will repeat. The power supply goes in a hiccup mode. Figure 7-22 ‘Start-up sequence’ Regulation of P816 Figure 7-22 shows the most relevant signals during the regulation phase of the power supply. The oscillator voltage ramps up and down between V1 and V2. The voltage at the current sense terminal is compared every cycle with the output of the error amplifier Vcomp. The output VS8 OUT CONTROL Dmax & SOFT-START Vref Voc GND OUT VC PROTECT VOLTAGE OVER MANAGEMENT OVER VOLTAGE DEMAGNETISATION MANAGEMENT OSCILLATOR STANDBY (REDUCED FREQUENCY) ERROR AMP CURRENT SENSE DEMAGNETISATION DETECT SYNC INPUT CT RF STANDBY Iref REFERENCE BLOCK SUPPLY INITIALISATION BLOCK Vref Iref Vref enable UVL01 VOSC VOSC PROT =1 LATCH THERMAL SHUTDOWN BUFFER VOLTAGE FEEDBACK 2.5V RP STANDBY Iref UVL01 Vref FOLDBACK FOLDBACK INPUT CURRENT SENSE INPUT SOFT-START & DMAX 1 2 3 4 6 5 7 11 8 9 10 15 12 14 13 E/A OUT 16 C 1Set 1Reset Vstby CL 96532076_032.eps 290799 1mA Vo 0 OUTPUT t4 short Icc 0V 17mA 14.5V 7.5V t1 Vcc p.a.v. t2 t3 10V CL 96532076_035.eps 290799 26 is switched off when the current sense level exceeds the level at the output of the error amplifier. TimeON phase : A drain current will flow from the positive supply at pin 2 of the transformer through the transformer's primary winding, the MOSFET and Rsense to ground. As the positive voltage at pin 2 of the transformer is constant, the current will increase linearly and create a ramp dependent on the mains voltage and the inductance of the primary winding. A certain amount of energy is stored in the transformer in the form of a magnetic field. The polarity of the voltages at the secondary windings is opposite to the primary winding so that the diodes are non-conducting in this phase. TimeDIODE phase : When the MOSFET is switched off, energy is no longer supplied to the transformer. The inductance of the tranformer now tries to maintain the current which has been flowing through it at a constant level. The polarity of the voltage from the transformer therefore reverses. This results in a current flow through the transformer's secondary winding via the now conducting diodes, electrolytic capacitors and the load. This current is also ramp shaped but decreasing. TimeDEAD phase : when the stored energy has been supplied to the load, the current in the secondary windings stops flowing. At this point, the drain voltage of the MOSFET will drop to the voltage of C821 with a ringing caused by the drain-source capacitance with the primary inductance. The oscillator will start a next cycle which consists of the above described three phases. The time of the different phases depends on the mains voltage and the load. TimeDEAD is maximum with an input of 400VDC and a minimum load. It will be zero with an input of 100VDC and an overload. Figure 7-23 ‘Regulation’ Figure 7-24 ‘Oscillograms’ Vosc Idiodes Vgate Vdrain Idrain Vsense Vcomp 0 V2 V1 Ton Tdiode Tdead CL 96532076_034.eps 290799 PM3394B ch2 ch3 ch1 CH1 2 CH2 CH3 2 V~ ALT MTB5.00us- 0.90dv ch1- 1 2 3 T ch1 : Drain voltage ch2 : Drain current ch3 : Gate voltage PM3394B ch3 ch1 CH1 1 CH3 50mV~ ALT MTB5.00us- 0.90dv ch1- 1 3 T ch1 : Drain voltage ch2 : Oscillator voltage PM3394B ch3 ch1 CH1 1 CH3 20mV~ ALT MTB5.00us- 0.90dv ch1- 1 3 T ch1 : Drain voltage ch3 : Sense voltage CL 96532076_033.eps 290799 27 Circuit description of P816 Input circuit The input circuit consists of a lightning protection circuit and an EMI filter. The lightning protection comprises R819. The EMI filter is formed by C820, L820, C825 and C826. It prevents inflow of noise into the mains. Primary rectifier/smoothing The AC input is rectified by rectifier bridge D802 and smoothed into C821. The voltage over C821 is approximately 300V. It can vary from 100V to 390V. Start up circuit and Vcc supply This circuit is formed by R823, R834, C829, D828, R829, R811, C833 and C811. When the power plug is connected to the mains voltage, the stabilised voltage over D829 (24V ) will charge C833 via R829. When the voltage reaches 14.5V across C811, the control circuit of Q810 is turned on and the regulation starts. During regulation, Vcc of IC7110 will be supplied by the rectified voltage from winding 7-9 via L832, D832 and C833. Control circuit The control circuit exists of Q810, C802, C804, C807, C809, C810, R802, R803, R804, R807, R808, R809 and R810. C802 and R810 define the frequency of the oscillator. Power switch circuit This circuit comprises MOSFET Q825, Rsense R826, R827 and R828, R825, C827, L825, R812 and R813. R825 is a pull-down resistor to remove static charges from the gate of the MOSFET. Regulation circuit The regulation circuit comprises opto-coupler Q801 which isolates the error signal from the control IC on the primary side and a reference component D881. The TL431(D881) can be represented by two components: a very stable and accurate reference diode a high gain amplifier Figure 7-25 ‘TL 431’ TL431 will conduct from cathode to anode when the reference is higher than the internal reference voltage of about 2.5V. If the reference voltage is lower, the cathode current is almost zero. The cathode current flows through the LED of the opto-coupler. The collector current of the opto-coupler flows through R806, producing an error voltage, connected to voltage feedback pin 14 of Q810. Demagnetisation The auxiliary winding (7-9) voltage is used to detect magnetic saturation of the transformer core and connected via R801 to pin 8 of Q810. During the demagnetisation phase, the output will be disabled. Overvoltage protection circuit This circuit consist of D814, C814, R814, R815 and R816. When the regulation circuit is interrupted due to an error in the control loop, the regulated output voltage will increase (overvoltage). This overvoltage is sensed at the auxiliary winding 7-9. When an overvoltage longer than 2.0 (s is detected, the output is disabled until VCC is removed and then re-applied. The power supply will come in a hiccup mode as long as the error in the control loop is present. Secondary rectifier/smoothing circuit There are 5 rectifier/smoothing circuits on the secondary side. Each voltage depends on the number of windings of the transformer. The -8V supply is regulated by voltage regulator Q871. On/off circuit A 2.5V R K CL 96532076_036.eps 290799 28 7.4.2 Troubleshooting P816 Figure 7-26 YES OK Connect the mains inlet to a mains isolated variac Check the functionality of the following components : F820, R819, C820, L820, D802, C821 Check Vcc on pin 1 Q810 Vcc = 12V...... 16V Is power supply ticking? Check start circuit and Vcc supply: R823, R834, C829, D829, R829, R811, C811 Replace Q810 Power supply OK Power supply unit OK OK OK OK OK OK Check the path of the other faulty voltage(s) Power supply is OK Check : - CDR main board - Display assy Check DC voltages +5V, +12V, -8V, VFTD (-34V),VDC1-VDC2 (4V1) Check the +5V and +12V Disconnect power supply unit from CDR main board Connect dummy load resistors 10W, 15 ohm at +5V, +12V and ground Check DC voltages These voltages might be somewhat higher than specified +5V, +12V, -8V, VFTD, VDC1-VDC2 OK +5V : check D856, C857, L856, C859 +12V : check D866, C867, L867, R866, D868, C869 ±1.41 x Vin AC Turn input voltage up and check voltage across C821, this voltage should be OK OK Check fuse F820 and replace if necessary OK NO Load on secondary output Overvoltage protection : L832, D814, C814, R814, R815, R816 Oscillator voltage on pin 10 of Q810 : check C802, R810 replace Q810 Drive circuit : gate voltage of MOSFET Q825 components R812, R813, C813, R825 Regulation circuit - Measure voltage on pin 6 of Q810 with oscilloscope - If > 2.5V check the regulation circuit : Q810, D881 R881- R885, C881, C882, R804 - R806, R809, C804, C809 Check : OK CL 96532076_037.eps 290799 29 30 8. WIRING DIAGRAM 2P LOADER PCB FTD INT/EXT (RC-5) RC-5 IN/OUT OPTICAL IN ANA INPUT SEL RCA/XLR COAX IN COAX OUT THROUGH OUT ANA RCA IN H.P. OUT B: EH-EH 2.5mm 1 VDC2 2 VFTD 3 VDC1 4 GND 5 +5V 6 +5V 7 GND 8 GND 9 GND 10 +12V 11 -8V C:PH-PH 2.0mm 1 VDC2 2 VFTD 3 VDC1 4 SYS_RESET 5 IIC_DATA 6 GND 7 IIC_CLK 8 INTERRUPT 9 GND 10 +5V B C POWER SW : from LOADER ASSY ANA XLR IN Lch ANA XLR IN Rch 2P 2P 1P IR SENSER LED F F: PH-Bord-in 2.0mm 1 IR_SENS 2 GND 3 +5V H: PH-PH 2.0mm 1 IR_SENS 2 RC_5 3 GND 4 IIC_CLK 5 IIC_DATA 6 FAN 7 STANDBY G G: PH-Bord in 2.0mm 1 STB_LED 2 GND I: PH-Bord in 2.0mm 1 LCH_HOT 2 LCH_CLD 3 GND 4 GND 5 RCH_HOT 6 RCH_CLD DIG INPUT SEL COAX/XLR DIG XLR IN A E 2P ANA RCA OUT A : FFC 0.5mm 1 GND 2 SYS_CLK 3 n.c. 4 GND 5 IIS_WS_A0 6 IIS_BCK_A0 7 GND 8 IIS_DATA_A0 9 IIS_WS_A1 10 GND 11 IIS_BCK_A1 12 IIS_DATA_A1 13 +5V 14 n.c. 15 n.c. 16 n.c. 17 n.c. 18 n.c 19 n.c. 20 NMUTE 21 DEEM_A0 22 KILL_OUT 23 n.c. 24 GND 25 EXT_DIG_IN 26 n.c. 27 GND 28 DIG_OUT_C 29 EXT_OPT_IN 30 GND D: PH-Bord in 2.0mm 1 KILL_OUT 2 -10VA 3 LCHHP 4 GND 5 RCHHP 6 +10VA D E: EH-Bord in 2.5mm 1 GND 2 +12V 3 GND 4 +5V 5 GND 6 -12V H J: PH Bord in 2.0mm 1 DIG IN_CLD 2 GND 3 DIG IN_HOT 4 GND 5 OPT_OUT 6 +5V I J 1705 1500 1820 WY03 WY06 J801 Cooling FAN K : CONNECTOR : BORD IN WIRE W903 JY03 JY06 JY52 JY51 JY05 JY04 WY04 WY03 L W323 W853 J601 JY53 JC01 J903 W711 J323 J711 J851 J852 K: PH-Bord in 2.0mm 1 KEY_OUTPUT1 2 KEY_OUTPUT2 3 KEY_OUTPUT3 4 KEY_OUTPUT4 5 KEY_OUTPUT5 6 KEY_OUTPUT6 7 KEY_OUTPUT7 8 KEY_INPUT2 9 KEY_INPUT3 10 KEY_INPUT4 11 KEY_INPUT5 12 KEY_INPUT6 13 KEY_INPUT7 14 GND L: PH-Bord in 2.0mm 1 KEY_INPUT7 2 LEY_OUTPUT1 3 EASY_JOG_2 4 EASY_JOD_1 5 GND MAINS P816 PP16 PP26 PY26 PY16 P916 PY36 PY56 PY46 OPTICAL OUT (only F version) M : XH-FAN 2.5mm 1 +9VFAN 2 GND M 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 JF51 SF51 J301 JT01 J311 S321 J651 J701 S701 JT21 J321 J761 J762 J901 1 31 32 9. BLOCK DIAGRAM OPT DIG. IN CDU4009 DASP 4M FlashROM 16M EDORAM MACE2 CDR60 Driver ROM COAXIAL ANA. IN COAXIAL DIG. IN COAXIAL DIG. OUT COAXIAL ANA. OUT RC5 IN RC5 OUT KEY H.P. OUT AEGER 2 H.P. VOL. IIS DSA EEPROM Subcode DISPLAY PCB AUDIO PCB LOADER PCB HEAD PHONE PCB INT/EXT (RC5 ) SW IR sensor XLR ANA. IN XLR/CINCH THROUGH DIG. OUT XLR DIG. IN XLR/COAXIAL SWITCHING POWER SUPPLY +12.0VA -12.0VA -8.0VA +5VD AC IN SUPPLY PCB -35.0V DC1 DC2 INPUT SENS.VOL. 0dBu ~ +22dBu ADC AK5351 DAC AK4393 IIS IIS DEEMPH MUTE EL. POT. DS1807 IIC OPT DIG. OUT SW PCB PY16 CPU TMP87CH74F (DISPLAY DRIVER) PY56 STANDBY LED PCB JOG PCB PY46 IR PCB PY36 PY26 P806 PP16 XLR PCB PP26 QA01 Q601 Q702 QY01 ZY01 Q901 P906 33 34 10. SCHEMATIC DIAGRAM AND PARTS LOCATION RN53 RN54 RN51 RN52 2.2K 2.2K 2.2K 2.2K DAC 1 6 1 6 1 6 1 6 FAN L_CH IN BALANCED R_CH 2 3 4 5 2 2 3 3 4 4 5 5 1 2 1 2 2 3 4 5 R CH L CH R653 R651 R652 R654 R301 Q702 L651 L652 J301 RT12 RT02 J311 LT13 LT03 L701 L702 R701 R702 L752 L754 L901 L902 R920 R905 R906 R909 R910 L903 J901 C910 C908 C907 C701 C702 C704 C703 C713 C714 C716 C715 C717 C718 C729 C730 C741 C742 C745 C746 C747 C749 C748 C750 J761 J762 C761 C763 C764 C791 C793 C792 C794 R705 R703 R704 R706 R719 R715 R717 R716 R718 R720 R721 R723 R724 R727 R728 R731 R732 R729 R730 R735 R736 R733 R734 R737 R738 R739 R741 R740 R742 R775 R779 R777 R776 R780 R778 R785 R787 R789 R791 R790 R786 R788 R792 R761 R763 R762 R764 CA01 CA02 CA03 CA04 CA05 CA06 CA07 CA08 CA11 CA12 QA01 QA02 Q701 R722 C795 C796 C797 C798 R710 R709 S701 C615 Q615 C639 C640 C643 C644 C651 C652 CT13 C661 C662 R311 S321 J321 C323 C324 R326 C326 Q326 C314 CT01 CT02 CT03 CT04 RT03 CT05 CT11 CT12 CT14 RT13 CT15 JT21 CT21 C301 Q331 RT32 RT33 CT31 CT32 QT31 Q901-1 Q901-2 C616 C603 C604 C606 C607 C608 C609 Q601 C641 C642 R631 R632 C327 C328 R327 R339 R336 R337 R338 R329 R330 R331 R328 C338 C337 C336 J711 J323 L751 L753 C751 C743 RN01 RN02 W904 Q332 R341 R674 C720 C752 C753 C744 C754 C901 C902 C903 C904 C905 C906 JT01 JT01 RA01 C777 C779 C778 C780 LA01 L615 J701 J651 JF51 RF51 SF51 RF57 CF52 LF51 CC01 QC01 CC02 JC01 W323 RT31 W711 D703 D703 D704 D704 D706 D706 D705 D705 J601 R663 R664 R662 R665 R666 R667 R661 R672 C765 C767 C766 R321 R322 R323 RB01 RB03 RB02 RB04 CB01 CB02 C762 C768 RM01 RM02 RM07 RM08 RM09 RM10 RM12 RM13 RM14 CM02 CM03 CM04 CM05 CM06 CM07 CM08 CM09 CM10 QM02 QM06 QM07 Q661 Q662 R679 J903 W903 W853 Q663 R685 C663 CB11 CB12 R687 R686 C769 C770 R678 CM01 JY53 QN51 QN52 QN53 QN54 QN01 QN02 R781 R783 R782 R784 R793 R747 C781 R749 C783 R795 R794 C782 R748 R750 R796 C784 R751 R755 C785 R757 R753 C787 R752 R756 C786 R754 R758 C788 D701 D701 D702 D702 L711 Q705-1 Q706-1 Q705-2 Q706-2 R726 C724 R725 C723 C726 C728 C727 C725 R655 R656 R621 R625 R629 R623 R635 C621 C622 C623 C625 R627 R636 R626 R624 R622 R628 C624 C626 R637 R638 C628 R634 R633 C627 R907 R908 R903 R904 RM11 RM03 RM05 RM04 RM06 CM21 D661 D661 C664 R671 C672 C671 DM01 DM21 Q664 R673 RM22 DF51 CM22 R707 R708 C712 R714 R712 R744 R743 R711 R713 C711 R630 C681 C684 C685 C682 C689 C687 R675 C686 R677 R676 RM21 QM01 QF51 QF52 QM04 QM24 Q665 Q666 QM21 QM22 C708 C707 RM24 R657 R658 R745 R746 QM23 R684 R683 R682 R680 C721 C722 C688 C694 C698 C693 C697 C692 C696 C691 C695 C690 C680 R691 C699 QM03-1 QM03-2 Q761-1 Q761-2 Q762-1 Q762-2 Q764-1 Q763-1 Q763-2 Q764-2 Q703-2 Q703-1 Q704-2 Q704-1 Q707-1 Q707-2 Q708-1 Q708-2 Q603-1 Q603-2 Q604-1 Q604-2 R911 R912 C909 CM11 R681 R340 C602 C601 100 100 100 100 5V 100 DS1807 75 75 100k 100k 5V 10k 10k 150 150 2200p 100p 100P 5V 5V 47/16V 47/16V 100p 100p 100/10V 100/10V 100/10V 100/10V 47/16V 47/16V 1500p 1500p 47/16V 47/16V 47/16V 47/16V 47/16V 47/16V 47/16V 47/16V 47p 47p 47p 47/16V 47/16V 47/16V 47/16V 1k 1k 1k 1k 1k 22k 22k 22k 22k 1k 100 1k 1k 4.7k 4.7k 2.2k 2.2k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 2.2k 2.2k 330 330 330 330 33k 50k 33k 33k 50k 33k 100k 100k 1k 1k 1k 100k 100k 1k 100k 100k 100k 100k +5VADA +5VADD +5VDAA +5VDAD 10/63V 0.1 100/10V 0.1 100/10V 0.1 100/10V 0.1 0.1 100/10V AK5351 NJM78L05 LC4966 100 47/16V 47/16V 47/16V 47/16V 47k 47k 0.1 NJM78L05 220/16V 220/16V 47/16V 47/16V 100p 100p 47p 0.1 0.1 75 47p 47p 22k 0.1 SN75157 47p 2200p 0.1 47p 10/63V 22 100p 2200p 0.1 10/63V 22 100p 100/10V 100/10V 74HCU04 100K 1K 0.1 0.1 74HCU04 NJM4556 NJM4556 100/10V 0.1 100/10V 0.1 100/10V 0.1 100/10V AK4393 47/16V 47/16V 1k 1k 0.1 0.1 100 100 6.8k 2.2k 100 100k 100k 100k 100k 0.1 0.1 0.1 47/16V 47/16V 2.2K 2.2K 74HC00 22k 220 100/10V 47/16V 47/16V 47/16V 47/16V 100/16V 100/16V 100/16V 100/16V 100/16V 100/16V 1/2 2/2 47 220/16V 220/16V 220/16V 220/16V 4.7UH 4.7UH 100 10K 470P 0.1 PQ09RF1 47/16V BOARD_IN 100 (F)ONLY BOARD_IN 1SS302(1) 1SS302(2) 1SS302(2) 1SS302(2) 1SS302(1) 1SS302(2) 1SS302(1) 1SS302(2) 47 47 47 47 47 47 220 220 47p 47p 47p 330 330 330 1K 1K 1K 1K 470P 470P 47p 47p 22K 22K 100 100 4.7K 22K 47K 22K 47K 0.1U 0.1U 0.1U 0.1U 0.1U 0.1U 0.1U 47U/16V 47U/16V 2SD1762 2SC4116 2SB1586 74HCT244 74HCT04 47K BOARDIN BOARDIN 74HC4066 47k 0.1 47/16V 47/16V +5V 47k 47k 47p 47p 47k 0.1U 16V +12V -12V 2SC4213 2SC4213 2SC4213 2SC4213 2SC4213 2SC4213 1k 470 1k 470 4.7k 4.7k 100p 50V 2.2k 100p 50V 4.7k 4.7k 100p 50V 4.7k 2.2k 4.7k 100p 50V 4.7k 4.7k 100p 50V 4.7k 4.7k 100p 50V 4.7k 4.7k 100p 50V 4.7k 4.7k 100p 50V 1SS302(1) 1SS302(2) 1SS302(2) 1SS302(1) ‚S D‚VƒÊ‚g NJM2082M NJM2082M NJM2082M NJM2082M 4.7k 100p 50V 4.7k 100p 50V 100p 50V 100p 50V 100p 50V 100p 50V 22k 22k 4.7k 4.7k 4.7k 4.7k 4.7k 470p 50V 470p 50V 220p 50V 220p 50V 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 220p 50V 220p 50V 4.7k 4.7k 470p 50V 1k 1k 470p 50V 22k 22k 15k 15k 18K 680 680 680 680 47U/16V 1SS302(1) 1SS302(2) 0.1 1k 470p 50V 100p 50V 5.6V 5.6V 74HC74 10k 10K 1SS302(1) 0.1 2.2k 2.2k 100p 50V 2.2k 4.7k 1k 1k 4.7k 2.2k 100p 50V 4.7k OPTION OPTION OPTION OPTION OPTION OPTION 47 OPTION OPTION 47 2.2K 2SB1185 RN2303 /ETC RN1303 /ETC RN1303 /ETC RN2303 /ETC RN1303 /ETC RN2303 /ETC RN1303 /ETC RN2303 /ETC 470p 50V 470p 50V +10VA -10VA 100K 10k 10k 10k 10k RN1303 /ETC 47 47 47/16V 47/16V 2200p 2200p 2200p 2200p 2200p 2200p 2200p 2200p 2200p 2200p 0.1 100 100p NJM4558M MJM4885M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4885M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M NJM4558M 10k 10k 0.1 220/16V 1k OPTION 100/10V 0.1 5V 5V 5V 5V +5VADA +5VADA +5VADA +5VADA +5VADA +5VADA +5VADD +5VADD +5VADA +5VADA +5VADA +5VADA 5V 5V 5V 5V 5V 5V 5V +12V +12V -12V +5VADA +5VADA +5VDAD +5VDAD +5VDAD +5VDAD +5VADA +5VADA +5V +5V +5V +5VDAA +5VDAA +5V +5V +5V +5V +5V +5V +5V +5V +5V +5V +5V +10VA -10VA +10VA -10VA +10VA +10VA -10VA +10VA -10VA -10VA +10VA +10VA -10VA -10VA -10VA -10VA +10VA -10VA +10VA -10VA +10VA +10VA +10VA -10VA +10VA -10VA +10VA +10VA +10VA -10VA +10VA -10VA +10VA -10VA +10VA -10VA +10VA +10VA -10VA DATA_AD BCLK_AD _PD EXT_OPT_IN EXT_DIG_IN DATA_DA DEEM_A0 DIG_OUT_C _WS_AD _WS_DA RC_5 IR_SENS RC_5 IR_SENS IIS_WS_A0 IIS_BCK_A0 IIC_CLOCK IIC_DATA IIC_CLK MCLK_AD IIS_DATA_A0 IIC_DATA DATA_AD IIS_DATA_A1 IIS_WS_A1 WS_AD IIS_BLK_A0 IIS_BLK_A1 IIS_DATA_A0 IIS_WS_A0 _PD _PD _PD MCLK_DA MCLK_DA MCLK_AD IIS_DATA_A1 IIS_WS_A1 IIS_BCK_A1 _MUTE DEEM_DA DEEM_DA _MUTE NMUTE BCLK_AD BCLK_AD WS_AD BCLK_DA BCLK_DA DATA_DA WS_DA SYS_CLK EXT_DIG_IN DIG_OUT_C EXT_OPT_IN SYS_CLK DEEM_A0 NMUTE ANALOG OUT OPT IN LCH RCH 1 2 3 4 5 6 7 8 9 10 11 12 13 14 + - + - - + - + ELECTRIC VOLUME GND RC-5 GND GND GND 12V 5V -12V CDR/CD COAX LOOP OUT ANALOG INPUT COAX INPUT LCH RCH BALANCE UNBALANCE AINR+ AINR- VRFF VA AGND AINL+ AINL- TST1 HPFE TST2 TST3 VD DGND TST4 SMODE2 PD MCLK FSYNC SDATA CMODE SMODE1 VB LRCK LCH RCH HEADPHONE P916 - + - + - + - + - + OPT OUT IIC-DATA IIC-CLK COAX XLR RCHHP LCHHP PP26 1 2 3 4 5 6 KILL LCHHP RCHHP GND RC-5 IN/OUT EXT INT MC01 FAN 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 GND CD/HP GND IIS-WS-A0 IIS-BCK-A0 GND IIS-WS-A1 +5V GND IIS-BCK-A1 IIS-DATA-A1 PST3 HDCD LEVEL-A0 LEVEL-A1 LEVEL-A2 DSACOPY NMUTE DEEM-A0 KILL-OUT EBU-PROF GND EXTDIG DIGIN2 GND DIGOUT EXOPT1 GND IIS-DATA-A0 DVSS DVDD MCLK PD __ BICK SDATA LRCK SMUTE DFS DEM0 DEM1 DIF0 DIF1 DIF2 VBSS VREFL VREFH AVDD AVSS AOUTR- AOUTR+ VCOM AOUTL- AOUTL+ P/S _ CKS0 CKS1 CKS2 - - + + SYS-CLOCK-11W + - 8 1 2 3 8 + - SPDIF SWITCH BCLK IR_SENS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 OPTION - + OPTION STANDBY RC-5 INT/EXT SW INPUT SELECT SW +10VA -10VA CDR 1 2 3 8 7 4 5 6 8 3 2 1 4 7 6 5 5 6 8 7 7 5 6 8 3 2 4 1 2 3 4 1 6 5 4 7 1 2 3 4 2 3 1 4 5 6 7 8 1 2 3 4 5 6 7 6 7 5 8 2 3 4 1 5 6 8 7 PP16 7 8 7 8 1 2 3 4 1 4 1 +9VFAN LCH_HOT LCH_CLD RCH_HOT RCH_CLD 1 10 11 20 1 7 8 14 2 3 6 5 6 5 7 4 6 5 1 2 3 - + - + - + - + 1 5 6 7 1 2 3 4 8 7 6 5 1 2 3 + - + - 4 8 + - + - + - + - + - + - + - + - 1 2 3 4 5 6 2 3 4 5 6 7 2 3 4 5 6 2 3 4 5 6 7 8 9 12 13 14 15 16 17 18 19 2 3 4 5 6 9 10 11 12 13 1 2 3 4 5 6 7 8 2 3 4 5 6 7 8 9 10 11 12 13 14 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1 (F)ONLY DIGIN_CLD GND DIGIN_HOT GND OPT_OUT +5V DIGIN_CLD GND DIGIN_HOT GND OPT_OUT +5V PP16 35 36 ERROR AMP IREF SYNC RF STANDBY RP STANDBY VOLTAGE VREF VSB OUT 2.5V FEEDBACK E/A OUT FOLDBACK INPUT FOLDBACK =1 DMAX& SOFT-START CONTROL SOFTSTART &DMAX SENSEINPUT CURRENT OVER VOLTAGE MANAGEMENT OVER VOLTAGE PROTECT BUFFER VREF VOC THERMAL SHUTDOWN LATCH Q UVL01 IREF SUUPLY INITIZLIZATION BLOCK REFERENCE BLOCK VREF IREF (REDUCED FREQUENCY) STANDBY OSCILLATOR DEMAGNETISATION MANAGEMENT DEMAGINETIZATION DETECT MC44603P UVL01 L831 Q810 GND +5V +5V GND GND GND +12V -8V GND GND GND +12V +5V 1 2 3 4 6 11 7 5 13 14 12 15 10 9 8 16 U810 U811 SELECT JUMPER (-8V) +12V +12V -12V (-8V) -12V -12V/-8V 1 4 5 6 7 8 9 10 11 12 13 14 +4.1V -34V SWITCHING POWER SUPPLY P816 S1WB 4.7/50V 10k 22 100/25V 2SK2943 1k 1.5 10µH 0.1 100 15 2200pF 180 0.1 2.2/50V 330 1500p 180k 1k 15k 15k 4700pF 470p 22k 6.8µH 1µH 10k 2SC 2SA 1k 10k 10k 10k 10µH PC123F LM317 1.5 0.1 250V 0.22 250V 18k 1/2W 1.8k 1.8k 330 /16V 100/6.3V 2200 /10V 10/50V 220/50V 1000 /16V 2.2µH 1k 220 /16V 3.3k 100 1.8k 0.022 TL431 100 7908 22k 22k 100/25 10k PC123F 100/25 1k AG01 RK46 AG01 RU4YX AG01 10µH 0.1 2SC2878 820pF 82pF NP0 82k 18k AG01 AG01 24V 10uH 220 /16V 10k 0.1 10 220 560 0.1 4.7µH 4.7µH 220 /16V 100 /16V 100 /25V 120 /400V 18k 1/2W 0.01 0.1 470pF /1kV 1 4.7k 330k (UL/CSA,MITI) 1M(CB) 0.1 0.1 0.1 681 1% 2.21k 1% 10µH 470pF /400V 470pF /400V 470pF /400V 220/16V 100/10V OPTION OPTION J820 J821 J801 L820 D802 C829 R829 R811 C833 D806 D807 Q825 L825 R825 R827 L832 C811 R812 R813 C813 R816 C814 C810 R809 C809 R807 R806 R805 R804 C804 C803 R802 L856 L861 R861 Q861 Q862 R862 R863 R864 R865 L862 D868 Q801 L831 Q851 R828 J851 S815 C819 C820 R823 R815 R814 C856 J852 C852 C854 C857 C862 C864 C867 C868 L867 R866 C872 R881 R882 R883 C882 D881 R887 Q871 D862 J828 R891 R892 C891 R893 Q892 C892 R894 D803 D804 D851 D856 D861 D866 D871 L866 L871 L873 C877 Q891 C802 C801 R801 R808 D814 D832 D829 L872 C873 R810 C855 R853 R852 R851 C860 L851 L853 C869 C875 C881 C821 R832 G815 J891 C898 C827 R826 R803 R819 C851 C861 C871 C866 R885 R884 R886 L854 L852 C825 C826 C828 C876 C859 R835 D835 F802 37 38 OPTION OPTION XY01 CY06 CY04 CY05 CY10 CY09 DY04 RY14 RY11 RY01 RY02 RY03 RY10 RY09 RY13 RY12 CY03 DY01 RY06 QY01 SY05 SY06 SY04 SY03 SY10 SY11 SY07 SY08 SY13 SY12 SY02 SY01 SY14 SY22 SY23 SY62 SY61 SY60 SY59 SY58 SY57 SY56 SY55 SY54 SY53 SY52 SY51 SY63 SY64 SY26 ZY01 SY65 JY03 JY04 JY05 JY06 RY31 RY32 RY33 RY34 RY35 WY26 RY04 RY21 RY22 RY23 RY24 RY25 RY26 CY07 CY21 CY13 LY01 CY14 QY04 QY03 QY02 RY15 RY16 RY17 RY45 RY44 RY27 RY28 WY04 WY03 WY05 WY06 CY41 DY41 DY42 JY51 JY52 QY41 QY42 QY43 QY44 QY45 RY46 CY08 VFTD VFTD VFTD 0.1 22P 22P 100P 100P 3.3V 3.3K 4.7K 47K 47K 47K 100 100 10K 10K 0.022 * 470 TMP87CH74F 5V +5V VFTD VDC1 VDC2 +5V +5V VFTD +5V +5V +5V +5V +5V +5V +5V VDC2 VFTD VDC1 +5V 5V VFTD VFTD VFTD VFTD VFTD VFTD 68K 68K 68K 68K 68K 100 6.8K 6.8K 6.8K 6.8K 6.8K 6.8K 100/10V 0.1 0.1 +5V 22µH +5VU 100/10V G14 +5VU +5VU +5VU 2SC4116(G) 1740,3119 2SC4116(G) 1740,3119 2SC4116(G) 1740,3119 P12 +5V 47K 47K 47K STB_LED G14 P12 STB_LED 100 10K 0 0 BOARD_IN BOARD_IN BOARD_IN BOARD_IN 47/10V 1SS301(1) 1SS301(2) +5V +5V DTA124ES DTC124ES DTC124ES DTA124ES DTC124ES 10K 0.022U G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 G12 P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11 P12 P13 P14 P1 P2 P3 P4 P5 P8 P9 P10 P11 P12 P13 P14 P16 P17 P18 P19 P20 P21 P6 P7 G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 G12 KEY_OUTPUT1 KEY_OUTPUT2 KEY_OUTPUT3 KEY_OUTPUT4 KEY_OUTPUT5 KEY_OUTPUT6 KEY_OUTPUT7 KEY_INPUT2 KEY_INPUT3 KEY_INPUT4 KEY_INPUT5 KEY_INPUT6 KEY_INPUT7 KEY_OUTPUT1 KEY_INPUT7 KEY_OUTPUT1 KEY_OUTPUT2 KEY_OUTPUT3 KEY_OUTPUT4 KEY_OUTPUT5 KEY_OUTPUT6 KEY_OUTPUT7 KEY_INPUT2 KEY_INPUT3 KEY_INPUT4 KEY_INPUT5 KEY_INPUT6 KEY_INPUT7 KEY_INPUT2 KEY_INPUT3 KEY_INPUT4 KEY_INPUT5 KEY_INPUT6 KEY_INPUT7 KEY_OUTPUT1 KEY_OUTPUT2 KEY_OUTPUT3 KEY_OUTPUT4 KEY_OUTPUT5 KEY_OUTPUT6 KEY_OUTPUT7 KEY_INPUT2 KEY_INPUT3 KEY_INPUT4 KEY_INPUT5 KEY_INPUT6 KEY_INPUT7 KEY_OUTPUT1 KEY_OUTPUT2 KEY_OUTPUT3 KEY_OUTPUT4 KEY_OUTPUT5 KEY_OUTPUT6 KEY_OUTPUT7 P16 P17 P18 P19 P20 P21 P22 P22 2 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 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 26 27 28 29 30 31 32 33 34 35 36 37 38 39 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 66 67 68 69 70 71 72 73 74 75 76 77 78 79 1 2 3 4 5 6 7 8 9 10 RESETN INTERRUPT STANDBY DISPLAY VY01 REC ERASE REPEAT DELETE MENU REC STOP PLAY PAUSE 0 1 2 3 4 5 6 7 8 9 NEXT PREV. BWD FWD TRACK DATA_IIC CLK_IIC DATA_IIC CLK_IIC EASY_JOG_CTRL1 EASY_JOG_CTRL2 EASY_JOG_CTRL1 EASY_JOG_CTRL2 PY16 PY26 PY36 PY46 RY56 5 43 44 45 46 47 48 49 53 52 KEY_OUTPUT1 5 1 14 OUT GND RC-5 IIC-DATA IIC-CLK FAN PUSH_ENTER R_LEVEL/SELECT OPN/CLS MODE FINAL TIME RANDOM PROG INPUT TEXT STORE CANSL INCR. RC-5 IR_SENS IR_SENS STANDBY KEY_INPUT7 80 1 24 25 40 41 64 65 1 1 2 1 2 3 4 5 1 2 3 1 2 4 3 2 2 1 3 4 5 6 7 1 2 3 2 3 4 5 6 7 8 9 10 11 12 13 39 40 JT21 J711 J323 C762 J761 J762 J321 CT21 L752 C766 R762 C770 R764 C768 L754 C764 C761 L751 C765 R761 C769 R763 C767 L753 C763 R322 R321 C323 R323 C324 WG387K102-0 PP26 DIGIN_HOT DIGIN_CLD GND GND OPT_OUT +5V PP26 ZY01 CY07 WY03 RY04 PY36 WG387K105-0 IR_SENE GND +5V PY36 XY01 QY02 QY03 QY04 JY03 JY06 JY05 JY04 JY51 JY52 CY41 CY14 LY01 QY41 QY44 QY42 QY43 QY45 RY44 VY01 DY04 DY41 DY42 RY45 RY14 RY46 RY31 RY32 RY33 RY34 RY35 CY08 RY16 RY15 RY01 RY02 RY03 CY06 RY13 RY12 CY09 CY10 CY03 RY17 RY09 CY04 RY10 CY05 RY11 RY26 RY25 RY24 RY23 RY22 RY21 CY13 RY06 GND RESTN VDC1 1 8 30 GND +5V KEY_INPUT7 KEY_OUTPUT1 E_JOG_CTRL2 E_JOG_CTRL1 GND IN7 IN6 IN5 IN4 IN3 IN2 OUT7 OUT6 OUT5 OUT4 OUT3 OUT2 OUT1 GND DATA_IIC INTERRUPT VDC2 VFTD IN_RC-5 GND +5V 80 1 8 9 10 16 17 54 55 56 1 5 10 15 20 25 35 40 45 PY16 WG387K201-0 53 FAN 79 RY16 IR_SENS RC-5 CLK_ IIC IIC IIC IIC DATA_ CLK_ STANDBY 78 73 74 75 76 77 33 32 31 30 29 28 26 24 23 22 QY04 QY03 QY02 QY01 QY44 QY45 QY42 QY43 QY41 PY16 R819 D802 R823 G815 R832 Q851 D856 C857 J881 Q871 D807 D806 Q801 Q892 D866 Q861 D868 Q810 C825 C826 C828 J801 U801 C821 C819 Q825 C827 L825 D803 D804 C803 C802 C810 R803 R805 R806 R804 C804 R802 R810 D829 C829 R829 R811 R801 R809 C809 R815 R814 R807 R813 R812 C813 R808 C814 D814 U803 U804 D832 R828 R826 R825 L832 C882 R883 R884 R885 C881 R887 C866 L861 D861 C861 C856 C862 R861 R862 D862 R865 R864 R863 C864 C852 C851 D851 R853 R852 R851 C854 R894 U814 U813 U817 R866 C877 Q862 C867 C891 R882 R892 R893 C892 U808 C875 R891 D871 C871 U810 U811 U812 C898 J891 L854 J820 J821 Q891 C833 C855 C860 C873 C869 J828 R881 D881 C872 R827 C820 L820 S815 R816 U806 U809 U815 U816 U818 U819 U820 L852 L862 L866 L867 L871 L873 L853 L851 L856 U807 D835 C811 C868 L872 R886 D836 J852 J851 C859 C876 C801 R895 + - MC44603 P816 L831 020L F802 S1WB + - -12V -8V T2A L 250V WG387K104-0 Q819 Q825 Q801 Q810 Q829 Q815 Q817 Q862 Q861 P816 SY10 SY12 SY13 SY08 SY51 SY52 SY53 SY54 SY55 SY56 SY57 SY58 SY59 SY60 WY04 SY04 CY21 RY28 RY27 I4 O4 I7 I6 I5 I4 I3 I2 O6 O3 O2 GND GND O3 I4 O4 I7 WY26 I7 I6 I5 I4 I3 I2 O7 O6 I2 O2 GND GND PY26 WG387K202-0 FINALIZE PREV. REC STOP NEXT BWD FWD MENU REPEAT RANDOM TR.INCR. REC MODE PLAY/PAUSE ERASE DEL/CNSL EJECT TIME TEXT 1 6 7 2 3 4 0 5 INPUT PROG 8 9 PY26 41 42 JC01 R780 R779 S701 S321 W711 C702 C794 C792 C796 Q762 Q764 C798 C742 C746 C744 D702 C714 C752 C716 C754 Q706 D706 C750 C748 D704 CA12 C701 C793 C797 C791 C795 Q761 Q763 C745 C743 Q703 C741 D701 C713 C751 C715 C753 Q705 C720 C749 C747 D705 D703 CA03 CA01 CA07 LA01 CA05 J651 J701 QN51 QN52 QN53 QN54 C604 C607 C609 L615 C616 Q601 Q707 Q708 QA01 R622 C641 C642 C643 C644 Q603 Q604 Q331 Q332 Q326 QT31 LT03 LT13 J301 CT04 CT14 C301 SF51 DF51 CM09 CM10 QM01 QM02 QM06 QM07 QM03 DM01 QM04 Q661 CC02 Q704 Q701 Q702 W323 QC01 J601 J903 C718 C717 C639 C640 C780 C778 C779 CB11 CB12 Q615 QA02 JY53 C730 C777 R624 QM23 QM24 CM21 DM21 QM21 QM22 Q665 Q666 QF51 QF52 C721 C722 W853 L711 C621 C622 CM11 D661 Q664 C602 Q662 Q663 CC01 C664 R677 R676 R673 RM22 C672 C671 R671 R686 R687 R685 C663 R674 R672 R683 R680 R682 R684 C661 R679 R662 R681 C681 R664 C684 R663 C685 R667 C662 R665 C682 C689 R661 C687 R678 R666 C690 C695 C692 C693 C694 C688 C680 C698 C697 C696 C691 C699 R691 RM21 R675 C686 CA11 R734 R738 R736 C728 R740 CA08 RA01 CA02 CA04 CA06 R728 R732 R730 C726 R742 R726 C724 R724 R708 R720 C712 R714 R744 R712 R746 R722 R718 R716 CB02 RB04 RB02 C788 R758 R754 C784 R796 R792 R788 R748 R750 R790 R786 C782 R794 R752 C786 R756 R702 C708 R706 R704 R784 R778 R782 R776 R783 R777 R781 R775 C707 R705 R703 R701 R751 C781 R785 R789 R793 C785 R755 R757 C787 R753 R747 R749 R787 R791 R795 C783 R710 CB01 RB03 RB01 R709 R721 R745 C711 R713 R743 R711 R719 R717 R715 R725 C723 R723 R707 R741 R729 C725 R727 R731 C615 R739 C727 R735 R737 R733 L702 C704 C703 L701 C652 L652 L651 C651 C338 R655 R656 RN54 R654 R652 RN52 RN51 R651 R653 RN53 C628 R658 R638 R632 R626 R630 R628 R636 R629 R621 R625 R627 R635 R623 C627 R657 R633 R631 R637 RM24 C326 C328 C327 R330 R328 CT32 R331 R329 R341 R327 R339 CT31 RT33 RT32 R340 C337 R338 R326 R337 C336 R336 C314 R311 CT13 RT12 CT15 RT13 RT31 CT05 RT03 CT03 RT02 CT12 CT11 CT01 CT02 R301 RF57 RF51 LF51 CF52 RM13 RM09 RM11 CM05 RM07 RM03 RM05 CM03 CM07 RM01 CM08 RM06 RM04 RM08 RM10 RM12 CM06 RM14 CM04 CM22 RM02 CM02 C601 C608 C606 C603 CM01 C729 C624 C626 C630 R634 C629 C623 C625 PP16 JT01 J311 JF51 WG387K101-0 1 30 GND N.C. GND IIS_WS_A0 IIS_BCK_A0 GND IIS_DATA_A0 IIS_WS_A1 GND IIS_BCK_A1 IIS_DATA_A1 +5V PST3 N.C. N.C. N.C. N.C. N.C. NMUTE DEEM_A0 KILL_OUT N.C. GND EXT_DIG_IN N.C. GND DIGOUT_C EXT_OPT_IN GND 1 5 10 15 20 25 30 FAN IIC_DATA IIC_CLK GND RC_5 IR_SECS +9VFAN GND GND +12V GND +5V GND -12V KILL_OUT LCHHP GND RCHHP +10VA -10VA SYS_CLK STANDBY LCH_HOT LCH_CLD GND GND RCH_HOT RCH_CLD DIGIN_HOT +5V DIGIN_CLD GND GND OPT_IN QF51 QF52 Q331 QT31 QF332 Q326 QN53 QN51 QN54 QN52 QM04 QM23 QM24 QM06 QM03 QM07 Q603 Q604 Q601 Q707 Q703 Q705 Q761 Q763 Q701 Q702 QA01 Q615 QA02 Q762 Q764 Q704 Q706 Q708 Q661 Q662 Q663 Q665 Q666 QM21 QM22 Q664 QC01 PP16 WY05 SY26 PY46 WG387K106-0 PY46 DY01 WY06 PY56 WG387K107-0 PY56 W903 Q901 QN01 QN02 R920 J901 C906 C905 C904 C903 C901 C902 R912 R906 R904 R903 R905 R911 R909 RN01 R907 L901 C907 C908 L902 RN02 R910 R908 L903 C910 C909 KILL GND P916 W904 WG387K103-0 -10VA +10VA LCHHP RCHHP P916 Q901 QN02 QN02 43 44 11. EXPLODED VIEW AND PARTS LIST 0 0 1 B 5 1 2 8 3 X8 ( M) 5 1 2 7 3 X8 ( M) 0 2 0 B 0 1 2 B 0 0 5 B 0 0 6 B 0 2 3 B 0 3 8 B 0 3 7 B 0 3 9 B 5 1 2 7 3 X8 ( M) 0 1 9 B 1 0 0 B x 2 1 3 1 B 1 3 3 B 1 3 5 B 1 3 6 B 5 1 5 0 2 . 6 X8 ( M) 1 0 1 B 1 3 2 B 1 3 0 B 5 1 2 8 2 . 6 X8 ( M) 0 0 3 B 1 4 0 B 5 1 2 8 3 X8 ( M) 5 1 2 8 3 X8 ( M) 0 4 1 B 1 2 3 B 1 2 0 B 1 2 1 B 5 1 2 8 3 X8 ( M) 0 3 8 G 0 0 7 G 0 0 1 G 0 0 3 G 0 9 4 G U ONLY U, N ONLY 5 1 2 8 3 X8 ( M) 0 1 1 Gx 4 0 4 3 B 0 3 1 B 0 3 3 B 0 4 7 B 0 4 5 B 0 3 1 Gx 5 0 3 0 Gx 2 0 2 7 B 0 2 9 B 0 3 6 G 0 3 7 G 0 1 0 B 0 2 1 Gx 4 0 3 9 G 5 4 0 5 4 ( R) 0 4 5 G 0 9 2 G N ONLY 0 9 2 G U ONLY 0 3 5 B 5 1 2 8 3 X1 8 ( U) 5 1 2 8 3 X4 ( U) L UG B 5 1 2 8 3 X4 ( U) L UG A 5 1 2 8 3 X8 ( M) 0 2 1 B 5 1 2 8 3 X8 ( M) 0 2 0 G MC0 1 5 1 2 8 3 X1 6 ( M) 0 0 9 B 5 1 2 8 3 X8 ( M) 5 1 2 8 3 X8 ( M) 5 1 2 8 3 X 8 ( M) 5 1 2 8 3 X8 ( M) 1 5 0 B 5 1 2 8 3 X8 ( M) PY1 6 PP2 6 P9 1 6 PY3 6 PY4 6 PY2 6 VY0 1 J 9 0 1 PP1 6 5 1 1 0 3 X6 ( M) 0 2 0 L 5 1 1 0 3 X6 ( M) 5 1 2 8 3 X8 ( M) L 8 3 1 0 5 0 G 0 7 1 Bx 2 PY5 6 F ONLY P8 1 6 5 1 1 0 3 X6 ( M) L UG A L UG B 5 1 2 8 3 X1 0 ( M) 5 1 2 7 3 X 8 ( M) 5 1 2 7 3 X8 ( M) 0 0 1 D 5 1 2 7 3 X8 ( M) 0 0 3 D 0 0 5 D 5 1 2 8 3 X1 0 ( M) T 0 0 1 W0 0 1 9 0 1 G W0 0 1 9 9 2 G 0 0 1 M 0 1 5 G 5 1 2 8 3 X8 ( M) 5 1 2 7 3 X8 ( M) 5 1 2 7 3 X8 ( M) J 0 0 1 5 1 1 0 3 X8 ( M) 1 4 5 G 9 9 4 G UL L ABEL N ONLY U, F ONLY N ONLY F ONLY MARK MATERI AL / FI NI SH STEEL / COPPER STEEL / BL ACK ( M) ( U) SYMBOL STYL E PARTS NAME + B. H. M. SCREW + B. H. TAP TI TE SCREW( B TYPE) 5 1 1 0 5 1 2 8 5 1 2 7 + B. H. T AP T I T E SCREW( W/ ) 5 4 0 5 T OOT HED L OCK WASHERS ( R) ST EEL / UNI CHROMAT E 5 1 2 6 + B. H. TAP TI TE SCREW W/WASHER + F. H. TAP TI TE SCREW( B TYPE) 5 1 5 0 45 POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) 001B BLACK FRONT PANEL BLACK 387K248010 001B GRAY 9965 000 07404 FRONT PANEL GRAY 387K248110 003B BLACK CHASSIS FRONT BLACK 387K105020 003B GRAY 9965 000 07405 CHASSIS FRONT GRAY 387K105120 005B 9965 000 07406 WINDOW BLACK 387K158010 006B 9965 000 07407 IR LENS 387K355010 009B BLACK BUTTON POWER BLACK 371K270150 009B GRAY 9965 000 01609 BUTTON POWER GRAY 371K270160 010B BLACK BUTTON 10KEY BLACK 371K270210 010B GRAY 9965 000 07408 BUTTON 10KEY GRAY 371K270310 012B BLACK KNOB JOG BLACK 372K154010 012B GRAY 9965 000 01723 KNOB JOG GRAY 372K154020 019B 9965 000 01393 LENS LED 312J355010 023B BLACK 482241120336 KNOB FOR PHONE VOLUME BLACK 284T154310 023B GRAY 9965 000 01611 KNOB FOR PHONE VOLUME GRAY 284T154050 027B 9965 000 01612 BUTTON RUBBER 371K270010 029B 9965 000 07409 BUTTON REC MODE KEY 371K270220 031B 9965 000 07410 BUTTON TR.INCR.KEY 371K270230 033B 9965 000 07411 BUTTON RANDOM KEY 371K270240 035B 9965 000 07412 BUTTON REPEAT KEY 371K270250 037B 9965 000 07413 BUTTON FINAL ERASE KEY 371K270280 038B 9965 000 07414 BUTTON CANCL MENU KEY 371K270290 039B 9965 000 01619 BUTTON NEXT/PREV KEY 371K270080 041B 9965 000 01620 BUTTON FF/FR KEY 371K270090 043B 9965 000 07415 BUTTON REC KEY 371K270260 045B 9965 000 07416 BUTTON STOP KEY 371K270270 047B 9965 000 01623 BUTTON PLAY KEY 371K270120 100B BLACK ESCUTCHEON BLACK 388K063010 100B GRAY 9965 000 07417 ESCUTCHEON GRAY 388K063110 101B BLACK ARM ESCUTCHEON BLACK 388K002010 101B GRAY 9965 000 07418 ARM ESCUTCHEON GRAY 388K002110 120B HOLDER ESCUTCHEON ARM R 387K271010 121B HOLDER ESCUTCHEON ARM L 387K271020 123B 9965 000 07419 SPRING ESCUTCHEON ARM 388K115010 130B CONTROL BOARD TRAY LID RELEASE PISTON LEFT 386K127010 131B CONTROL BOARD TRAY LID RELEASE PISTON RIGHT 386K127020 132B LOCK TRAY LID LEFT 386K102010 133B LOCK TRAY LID RIGHT 386K102020 135B STOPPER TRAY LID LOCK COVER LEFT 386K114010 136B STOPPER TRAY LID LOCK COVER RIGHT 386K114020 140B BLACK BUSHING REC LEVEL KNOB BUSH BLACK 387K259010 140B GRAY 9965 000 07420 BUSHING REC LEVEL KNOB BUSH GRAY 387K259110 150B HOLDER FTD 370K271110 001D BLACK LID TOP COVER BLACK 292J257050 001D GRAY LID TOP COVER GRAY 292J257150 003D BLACK BRACKET MOUNT L BLACK 371K160040 003D GRAY 9965 000 07421 BRACKET MOUNT L GRAY 371K160060 005D BLACK BRACKET MOUNT R BLACK 371K160050 005D GRAY 9965 000 07422 BRACKET MOUNT R GRAY 371K160070 011G 482246241771 LEG BLACK 229K057010 037G 9965 000 07423 LINK POWER SW FRONT 387K121020 038G 9965 000 07424 LINK POWER SW REAR 387K121010 039G N1,U1 SCREW SCREW FOR GND 371K010020 043G N1,U1 482253211527 T.L. WASHER OR TOOTHED WASHER 54050400R0 001M MECHANISM CD-R MODULE MAR770 SPICE 2.08+ 387K304500 J001 F 996500001313 JACK 2P AC INLET M1910-H YJ04002440 J001 N1 9965 000 07428 JACK 3P AC INLET M1910-D YJ04002450 J001 U1 9965 000 07428 JACK 3P AC INLET M1910-D YJ04002450 MC01 4822 361 11159 D.C MOTOR BRUSHLESS FAN KD1204PFB2-8 MM01200290 PACKING 001T F USER MANUAL F 387K851110 001T N1 9965 000 07425 USER MANUAL N 387K851310 001T U1 USER MANUAL U 387K851250 T001 9965 000 05922 REMOTE CONTROLLER RC6050DR ZK386K0010 W001 F MAINS CORD 2P FOR 12A 125V AC ZC01801050 W001 N1 9965 000 07362 MAINS CORD 3P FOR N 10A 250V AC ZC02003190 W001 U1 MAINS CORD 3P FOR U 10A 125V AC ZC01802110 NOT STANDARD SPARE PARTS 001S PACKING CASE 387K801010 003S CUSHION 371K809050 W011 U1 482232121438 RCA STEREO CORD 1M WHITE RED ZD01000330 W012 U1 482232121438 RCA STEREO CORD 1M WHITE RED ZD01000330 W013 U1 RCA COAX CORD M BLACK ZD01000520 46 12. ELECTRICAL PARTS LIST The suppliers and their type numbers of fusible resistors are as follows; 1. KOA Corporation Part No. (MJI) Type No. (KOA) Description NH05 × × × 140 RF25S × × × × ΩJ (±5% 1/4W) NH05 × × × 120 RF50S × × × × ΩJ (±5% 1/2W) NH85 × × × 110 RF73B2A × × × × ΩJ (±5% 1/10W) NH95 × × × 140 RF73B2E × × × × ΩJ (±5% 1/4W) 2. Matsushita Electronic Components Co., Ltd Part No. (MJI) Type No. (MEC) Description NF05 × × × 140 ERD-2FCJ × × × (±5% 1/4W) RF05 × × × 140 NF02 × × × 140 ERD-2FCG × × × (±2% 1/4W) RF02 × × × 140 Examples ; Resistance value 0.1 Ω .... 001 10 Ω .... 100 1 kΩ .... 102 100 kΩ .... 104 0.5 Ω .... 005 18 Ω .... 180 2.7 kΩ .... 272 680 kΩ .... 684 1 Ω .... 010 100 Ω .... 101 10 kΩ .... 103 1 MΩ .... 105 6.8 Ω .... 068 390 Ω .... 391 22 kΩ .... 223 4.7 MΩ .... 475 ASSIGNMENT OF COMMON PARTS CODES. RESISTORS R : 1) GD05 × × × 140, Carbon film fixed resistor, ±5% 1/4W R : 2) GD05 × × × 160, Carbon film fixed resistor, ±5% 1/6W Examples ; Resistance value 0.1 Ω .... 001 10 Ω .... 100 1 kΩ .... 102 100 kΩ .... 104 0.5 Ω .... 005 18 Ω .... 180 2.7 kΩ .... 272 680 kΩ .... 684 1 Ω .... 010 100 Ω .... 101 10 kΩ .... 103 1 MΩ .... 105 6.8 Ω .... 068 390 Ω .... 391 22 kΩ .... 223 4.7 MΩ .... 475 Note : Please distinguish 1/4W from 1/6W by the shape of parts used actually. CAPACITORS C : CERAMIC CAP. 3) DD1 × × × × 370, Ceramic capacitor Disc type Temp.coeff.P350 N1000, 50V Examples ; Tolerance (Capacity deviation) ±0.25 pF .... 0 ±0.5 pF .... 1 ±5% .... 5 Tolerance of COMMON PARTS handled here are as follows : 0.5 pF 5 pF .... ±0.25 pF 6 pF 10 pF .... ±0.5 pF 12 pF 560 pF .... ±5% Capacity value 0.5 pF .... 005 3 pF .... 030 100 pF .... 101 1 pF .... 010 10 pF .... 100 220 pF .... 221 1.5 pF .... 015 47 pF .... 470 560 pF .... 561 C : CERAMIC CAP. 4) DK16 × × × 300, High dielectric constant ceramic capacitor Disc type Temp.chara. 2B4, 50V Examples ; Capacity value 100 pF .... 101 1000 pF ....102 10000 pF .... 103 470 pF .... 471 2200 pF ....222 C : 5) ELECTROLY CAP. ( ), 6) FILM CAP. ( ) 5) EA × × × × × × 10, Electrolytic capacitor One-way lead type, Tolerance ±20% Examples ; Capacity value 0.1 µF....104 4.7 µF ....475 100 µF ....107 0.33 µF....334 10 µF ....106 330 µF ....337 1 µF....105 22 µF ....226 1100 µF ....118 2200 µF ....228 Working voltage 6.3V....006 25V ....025 10V....010 35V ....035 16V....016 50V ....050 6) DF15 × × × 350 Plastic film capacitor DF15 × × × 310 One-way type, Mylar ±5% 50V DF16 × × × 310 Plastic film capacitor One-way type, Mylar ±10% 50V Examples ; Capacity value 0.001 µF(1000 pF) ....... 102 0.1 µF....104 0.0018 µF........................ 182 0.56 µF....564 0.01 µF........................ 103 1 µF....105 0.015 µF........................ 153 : 1) The above CODES ( R , R , C , C and C ) are omitted on the schematic diagram in some case. 2) On the occasion, be confirmed the common parts on the parts list. 3) Refer to “Common Parts List” for the other common parts (RI05, DD4, DK4). ➀ ➁ Capacity value Tolerance ➃ Capacity value Resistance value ➄ Working voltage Capacity value ➆ Capacity value NOTE NOTE ON SAFETY FOR FUSIBLE RESISTOR : Resistance value Resistance value (0.1 Ω − 10 kΩ) Resistance value Resistance value ANT. : ANTENNA BATT. : BATTERY CAP. : CAPACITOR CER. : CERAMIC CONN. : CONNECTING DIG. : DIGITAL HP : HEADPHONE MIC. : MICROPHONE µ-PRO : MICROPROCESSOR REC. : RECORDING RES. : RESISTOR SPK : SPEAKER SW : SWITCH TRANSF. : TRANSFORMER TRIM. : TRIMMING TRS. : TRAMSISTOR VAR. : VARIABLE X’TAL : CRYSTAL ABBREVIATION AND MARKS { { { { { { { { { { ➂ ➀ ➁ ➂ ➃ ➄ ➅ ➆ ➅ NOTE ON SAFETY : Symbol Fire or electrical shock hazard. Only original parts should be used to replaced any part marked with symbol . Any other component substitution (other than original type), may increase risk of fire or electrical shock hazard. 47 POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) P816-SUPPLY CIRCUIT BOARD P816-CAPACITORS C801 4822 122 31237 CER. 82pF J CH 50V BLK DD15820300 C810 4822 124 40763 ELECT. 2.2µF M 50V RA-2 OA22505020 C811 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C814 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C819 9965 000 04979 FILM ECQUL 0.1µF 250V AC DF17104630 C820 9965 000 06376 FILM ECQUL 0.22µF 250V AC DF17224570 C821 9965 000 04981 ELECT 120µF 400V EA12740070 C825 9965 000 04980 CER. 470pF AC400V DK17471520 C826 9965 000 04980 CER. 470pF AC400V DK17471520 C827 9965 000 06377 CER. 470P 1kV DK16471560 C828 9965 000 04980 CER. 470pF AC400V DK17471520 C829 4822 124 80067 ELECT. 4.7µF M 50V RA-2 OA47505020 C833 4822 124 41535 ELECT. 100µF M 25V RA-2 OA10702520 C851 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C852 9965 000 06378 ELECT 330µF 16V LOW IMPEDANCE RJB EF337016P0 C854 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C855 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C856 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C857 9965 000 06379 ELECT 2200µF 10V LOW IMPEDANCE RJB EF228010P0 C859 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C860 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C861 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C862 9965 000 06380 ELECT 10µF 50V LOW IMPEDANCE RJB EF106050P0 C864 4822 124 90366 ELECT. 220µF M 50V RA-2 OA22705020 C866 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C867 9965 000 06381 ELECT 1000µF 16V LOW IMPEDANCE RJB EF108016P0 C869 4822 124 12404 ELECT. 220µF M 16V RA-2 OA22701620 C871 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C872 9965 000 06382 ELECT 220µF 16V LOW IMPEDANCE RJB EF227016P0 C873 4822 124 12404 ELECT. 220µF M 16V RA-2 OA22701620 C875 4822 124 90354 ELECT. 100µF M 16V RA-2 OA10701620 C876 4822 124 12404 ELECT. 220µF M 16V RA-2 OA22701620 C877 4822 122 40617 CER. 0.1µF +80%-20% 50V DC DD38104010 C881 4822 124 41535 ELECT. 100µF / 25V OA10702520 C882 4822 122 30103 CER. 0.022µF 50V DK18223310 C891 4822 124 41535 ELECT. 100µF 25V OA10702520 C892 4822 124 41535 ELECT. 100µF 25V OA10702520 C898 4822 122 40617 CER. 0.1µF 50V DD38104010 P816-CAPACITORS (COMMON) HIGH DIELECTRIC CONSTANT CER. CAPACITOR 10% 50V : C802-C804 C813 P816-RESISTORS R809 4822 111 31001 330Ω ±5% 1/6W GG05331160 R811 4822 052 10229 22Ω ±5% 1/6W GG05220160 R812 4822 052 10101 100Ω ±5% 1/6W GG05101160 R813 9965 000 06391 15Ω ±5% 1/6W GG05150160 R816 9965 000 05893 180Ω ±5% 1/6W GG05181160 R819 FB 482211682449 330kΩ K 1/2W ERC12GK334C RC10334120 R819 N1M 9965 000 00502 1MΩ 5% 1W RCR60 L15 RC05105010 R819 U1B 2.2M Ω 1/2W ERC12UG RC10225820 R823 4822 053 10183 18kΩ ±5% 1W GA05183010 R825 4822 052 10102 1kΩ ±5% 1/6W GG05102160 R826 4822 116 82805 1Ω ±5% 1/6W GG05010160 R827 9965 000 06392 1.5Ω ±5% 1/6W GG05015160 R828 9965 000 06392 1.5Ω ±5% 1/6W GG05015160 R832 4822 053 10183 18kΩ ±5% 1W GA05183010 R882 4822 052 10101 100Ω ±5% 1/6W GG05101160 R884 4822 050 22212 2.21kΩ ±1% 1/6W GM11622110 R885 4822 050 26811 681Ω ±1% 1/6W GM11668100 R895 JUMPER 75060501P0 P816-RESISTORS (COMMON) CARBON FILM FIXED RES. 5% 1/6W : R801-R808 R810 R814 R815 R829 R851-R853 R861-R866 R881 R883 R886 R887 R891-R894 P816-SEMICONDUCTORS D802 4822 130 81248 DIODE S1WBA60 30A 600V HD20031290 D803 9965 000 00388 DIODE AG01 400V 0.7A HD20049080 D804 9965 000 00388 DIODE AG01 400V 0.7A HD20049080 D806 9965 000 00388 DIODE AG01 400V 0.7A HD20049080 D807 9965 000 00388 DIODE AG01 400V 0.7A HD20049080 D814 9965 000 00388 DIODE AG01 400V 0.7A HD20049080 D829 4822 130 80116 ZENER DIODE 24V HD32401000 D832 9965 000 00388 DIODE AG01 HD20049080 D835 4822 130 32362 DIODE 1SS176 MA165 1SS254 30V 0.1A HD20002000 D836 4822 130 80318 ZENER DIODE 6.8V HD30681000 D851 9965 000 00388 DIODE AG01 HD20049080 D856 4822 130 11074 DIODE RK46 HD20050080 D861 9965 000 00388 DIODE AG01 HD20049080 D862 4822 130 34499 ZENER DIODE 20V HD32001000 D866 9965 000 06383 DIODE RU4AM 600V 2.0A HD20051080 D868 9965 000 00388 DIODE AG01 400V 0.7A HD20049080 D871 9965 000 00388 DIODE AG01 HD20049080 D881 9965 000 06384 IC TL431 SHUNT REGULATOR HC33036590 Q801 4822 130 10431 PHOTO UNIT PC-123F2 HW10032320 Q810 4822 209 90025 IC MC44603P HC10111170 Q825 9965 000 00395 F.E.T. 2SK2943 900V 3A HF22943000 Q851 9965 000 06390 IC LM317 ADJ. REG. HC31937590 Q861 4822 130 41947 TRS. 2SC2458 2SC1740S 2SC3199 ETC. HT30001000 Q862 4822 130 42715 TRS. 2SA1048 2SA933S 2SA1267 ETC. HT10001000 Q871 9965 000 01744 IC NJM7908FA HC39908090 Q891 4822 130 43818 TRS. 2SC2878 HT328782A0 Q892 4822 130 10431 PHOTO UNIT PC-123F2 HW10032320 P816-MISCELLANEOUS F802 FB FUSE 2A 125V UL CSA MITI EBT FS10200350 F802 N1M 4822 070 32001 FUSE 2A 250V BS LISTED FS10200850 F802 U1B FUSE 2A 125V UL CSA MITI FBT FS10200350 G815 CER. DE1610F 103M-KH DK17103900 L820 4822 157 70398 CHOKE COIL LF-4D-223 LINE FILTER 22mH LC22260130 L825 4822 242 80418 FERRITE BEAD BL02RN2-R62T2 FC90050130 L831 9965 000 06385 MAINS TRANSF. ER2810SG SWITCHING . TS12900010 L832 9965 000 06386 CHOKE COIL 10µH J% LC11033900 L851 9965 000 06387 CHOKE COIL 4.7µH J% LC14723900 L852 JUMPER 75060501P0 L853 9965 000 06387 CHOKE COIL 4.7µH J% LC14723900 L854 9965 000 06386 CHOKE COIL 10µH J% LC11033900 L856 9965 000 06388 CHOKE COIL 6.8µH LC16820110 L861 4822 157 62681 CHOKE COIL 1µH EL0405 LC11023900 L862 9965 000 06386 CHOKE COIL 10µH J% LC11033900 L866 JUMPER 75060501P0 L867 9965 000 06389 CHOKE COIL 2.2µH LC12220190 L871 JUMPER 75060501P0 L872 9965 000 06386 CHOKE COIL 10µH J% LC11033900 L873 9965 000 06386 CHOKE COIL 10µH J% LC11033900 48 POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) S815 9965 000 05921 PUSH SWITCH ESB92S94B TV-5 1.5MM SP01012480 P916-HEAD PHONE CIRCUIT BOARD P916-CAPACITORS C901 4822 124 23052 ELECT 100µF 16V RC-2 EJ10701610 C906 C907 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C908 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C909 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C910 4822 126 12339 CER. CHIP 2200pF DK96222300 P916-RESISTORS RN01 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 RN02 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R903 4822 051 30153 CHIP 15kΩ ±5% 1/16W NN05153610 R904 4822 051 30153 CHIP 15kΩ ±5% 1/16W NN05153610 R905 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R906 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R907 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 R908 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 R909 4822 051 30151 CHIP 150Ω ±5% 1/16W NN05151610 R910 4822 051 30151 CHIP 150Ω ±5% 1/16W NN05151610 R911 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R912 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R920 9965 000 00602 VAR. 10kΩ B RK09L12B0 D-CUT REVERSE RM01031170 P9164-SEMICONDUCTORS QN01 4822 130 63601 CHIP TRS. 2SC4213 HX342132A0 QN02 4822 130 63601 CHIP TRS. 2SC4213 HX342132A0 Q901 4822 209 31378 IC NJM4556MB HC10045090 P916-MISCELLANEOUS J901 FB 4822 267 31126 JACK HLJ1520-01-3410 YJ01003020 J901 N1M 4822 267 31126 JACK HLJ1520-01-3410 YJ01003020 J901 U1B 4822 267 31126 JACK HLJ1520-01-3410 YJ01003020 L901 9965 000 05005 FERRITE BEADS FC90020120 L903 BK1608HM102-T PP16-MAIN CIRCUIT BOARD PP16-CAPACITORS CA01 4822 124 41134 ELECT. 10µF 63V RA-2 OA10606320 CA02 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CA03 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 CA04 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CA05 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 CA06 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CA07 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 CA08 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CA11 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CA12 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 CB01 4822 126 11568 CER. CHIP 470pF DK96471300 CB02 4822 126 11568 CER. CHIP 470pF DK96471300 CB11 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 CB12 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 CC01 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CC02 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 CF52 4822 126 11568 CER. CHIP 470pF DK96471300 CM01 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CM08 CM09 4822 124 41539 ELECT. 47µF 16V OA47601620 CM10 4822 124 41539 ELECT. 47µF 16V OA47601620 CM11 4822 124 12404 ELECT. 220µF M 16V RA-2 OA22701620 CM21 4822 124 41539 ELECT. 47µF 16V OA47601620 CM22 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CT01 4822 126 12339 CER. CHIP 2200pF DK96222300 CT02 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CT03 4822 122 33777 CER. CHIP 47pF ±5% 50V DD95470300 CT04 4822 124 41134 ELECT. 10µF 63V RA-2 OA10606320 CT05 4822 122 31765 CER. CHIP 100pF ±5% 50V DD95101300 CT11 4822 126 12339 CER. CHIP 2200pF DK96222300 CT12 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CT13 4822 122 33777 CER. CHIP 47pF ±0.5pF 50V DD95470300 CT14 4822 124 41134 ELECT. 10µF 63V RA-2 OA10606320 CT15 4822 122 31765 CER. CHIP 100pF ±5% 50V DD95101300 CT31 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CT32 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C301 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C314 4822 122 33777 CER. CHIP 47pF ±5% 50V DD95470300 C326 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C327 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C328 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C336 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C337 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C338 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C601 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C602 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C603 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C604 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C606 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C607 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C608 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C609 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C615 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C616 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C621 4822 126 11568 CER. CHIP 470pF DK96471300 C622 4822 126 11568 CER. CHIP 470pF DK96471300 C623 4822 126 14124 MICA CHIP 220pF J DF95221040 C626 ECHU1H221JB5 C627 4822 126 11568 CER. CHIP 470pF DK96471300 C628 4822 126 11568 CER. CHIP 470pF DK96471300 C639 4822 124 12404 ELECT. 220µF M 16V RA-2 OA22701620 C640 4822 124 12404 ELECT. 220µF M 16V RA-2 OA22701620 C641 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C644 C651 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C652 4822 122 31765 CER. CHIP 100pF ±5% 50V DD95101300 C661 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C662 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C663 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C664 4822 126 11687 CER. CHIP F104Z16 0.1µF DK98104200 C671 4822 122 31765 CER. CHIP 100pF ±5% 50V DD95101300 C672 4822 126 11568 CER. CHIP 470pF DK96471300 C680 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 C688 4822 126 12339 CER. CHIP 2200pF DK96222300 C690 4822 126 12339 CER. CHIP 2200pF DK96222300 C698 C699 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C701 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C702 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C703 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C704 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C707 4822 126 11568 CER. CHIP 470pF DK96471300 C708 4822 126 11568 CER. CHIP 470pF DK96471300 C711 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C712 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C713 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C716 49 POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) C717 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C718 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C720 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C721 4822 124 41539 ELECT. 47µF 16V OA47601620 C722 4822 124 41539 ELECT. 47µF 16V OA47601620 C723 4822 122 31765 CER. CHIP 100pF ±5% 50V DD95101300 C728 C729 4822 126 13344 MICA CHIP 1500pF J DF95152040 C730 4822 126 13344 MICA CHIP 1500pF J DF95152040 C741 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C754 C777 4822 124 12404 ELECT. 220µF M 16V RA-2 OA22701620 C780 C781 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 C788 C791 4822 124 41539 ELECT. 47µF M 16V RA-2 OA47601620 C798 PP16-RESISTORS RA01 4822 051 30479 CHIP 47Ω ±5% 1/16W NN05470610 RB01 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 RB04 RF51 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 RF57 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 RM01 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 RM02 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 RM03 4822 051 30681 CHIP 680Ω ±5% 1/16W NN05681610 RM06 RM07 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 RM08 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 RM09 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 RM10 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 RM11 4822 116 83819 CHIP 18kΩ ±5% 1/16W NN05183610 RM12 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 RM13 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 RM14 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 RM21 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 RM22 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 RM24 4822 117 13632 CHIP 100kΩ ±5% 1/16W NN05104610 RN51 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 RN54 RT02 4822 051 30759 CHIP 75Ω ±5% 1/16W NN05750610 RT03 4822 117 12139 CHIP 22Ω ±5% 1/16W NN05220610 RT12 4822 051 30759 CHIP 75Ω ±5% 1/16W NN05750610 RT13 4822 117 12139 CHIP 22Ω ±5% 1/16W NN05220610 RT31 FB 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 RT32 4822 117 13632 CHIP 100kΩ ±5% 1/16W NN05104610 RT33 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R301 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R311 4822 051 30759 CHIP 75Ω ±5% 1/16W NN05750610 R326 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 R327 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R328 4822 117 13632 CHIP 100kΩ ±5% 1/16W NN05104610 R331 R336 4822 051 30682 CHIP 6.8kΩ ±5% 1/16W NN05682610 R337 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R338 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R339 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R340 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 R341 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 R621 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R630 R631 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R634 R635 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R638 R651 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R654 R655 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 R656 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 R657 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R658 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R661 4822 051 30221 CHIP 220Ω ±5% 1/16W NN05221610 R662 4822 051 30479 CHIP 47Ω ±5% 1/16W NN05470610 R667 R671 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R672 4822 051 30221 CHIP 220Ω ±5% 1/16W NN05221610 R673 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R674 4822 051 30221 CHIP 220Ω ±5% 1/16W NN05221610 R675 4822 051 30479 CHIP 47Ω ±5% 1/16W NN05470610 R676 4822 051 30479 CHIP 47Ω ±5% 1/16W NN05470610 R678 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 R679 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 R680 4822 051 30479 CHIP 47Ω ±5% 1/16W NN05470610 R681 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R682 4822 051 30479 CHIP 47Ω ±5% 1/16W NN05470610 R685 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 R686 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 R687 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 R691 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R701 4822 117 13632 CHIP 100kΩ ±5% 1/16W NN05104610 R702 4822 117 13632 CHIP 100kΩ ±5% 1/16W NN05104610 R703 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R706 R707 4822 051 30222 CHIP 2.2kΩ ±1/16W NN05222610 R708 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R709 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 R710 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 R711 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R712 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R713 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R714 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R715 4822 051 30223 CHIP 22kΩ ±5% 1/16W NN05223610 R718 R719 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R720 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R721 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R722 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 R723 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R724 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R725 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R730 R731 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R732 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R733 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R736 R737 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R738 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R739 4822 051 30331 CHIP 330Ω ±5% 1/16W NN05331610 R742 50 POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) R743 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R744 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R745 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R746 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 R747 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R748 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R749 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R750 4822 051 30222 CHIP 2.2kΩ ±5% 1/16W NN05222610 R751 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R758 R775 4822 051 30333 CHIP 33kΩ ±5% 1/16W NN05333610 R778 R779 9965 000 07426 VAR. 50kΩ C RK09K111 RK05030950 R780 9965 000 07426 VAR. 50kΩ C RK09K111 RK05030950 R781 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R782 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R783 4822 051 30471 CHIP 470Ω ±5% 1/16W NN05471610 R784 4822 051 30471 CHIP 470Ω ±5% 1/16W NN05471610 R785 4822 117 13632 CHIP 100kΩ ±5% 1/16W NN05104610 R788 R789 4822 051 30102 CHIP 1kΩ ±5% 1/16W NN05102610 R792 R793 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 R796 SF51 4822 277 21559 SLIDE SWITCH SLIDE SWITCH INT/EXT SS02021150 PP16-SEMICONDUCTORS DF51 4822 130 81324 CHIP DIODE 1SS302 HZ20018050 DM01 4822 130 81169 CHIP DIODE 02CZ5.6Y HZ30006050 DM21 4822 130 81169 CHIP DIODE 02CZ5.6Y HZ30006050 D661 4822 130 81324 CHIP DIODE 1SS302 HZ20018050 D701 4822 130 81324 CHIP DIODE 1SS302 HZ20018050 D706 QA01 9965 000 05885 IC AK5351VF 20BIT A/D CONVERTER HC10023480 QA02 4822 209 71373 IC NJM78L05A HC38105090 QC01 4822 209 17437 IC PQ09RF1 HC31909320 QF51 4822 130 42593 DIG.TRS. DTA124EU RN2303 UMT BA12303000 QF52 4822 130 61553 DIG.TRS. DTC124EU RN1303 UMT BA21303000 QM01 4822 130 62548 TRS. 2SB1185 E.F HT211852B0 QM02 4822 130 62549 TRS. 2SD1762 E.F HT417622B0 QM03 4822 209 71451 IC NJM4558M HC10011090 QM04 4822 130 61553 DIG.TRS. DTC124EU RN1303 UMT BA21303000 QM06 4822 130 61541 CHIP TRS. 2SC4116 HX341162B0 QM07 4822 130 61554 CHIP TRS. 2SA1586 Y G HX115862B0 QM21 4822 130 61553 DIG.TRS. BA21303000 QM24 DTA124EU RN2303 UMT QN51 4822 130 63601 CHIP TRS. 2SC4213 HX342132A0 QN54 QT31 4822 209 31568 IC CMOS 74HCU04 FLAT HC700400Z0 QY45 4822 130 61553 DIG.TRS. DTC124EU RN1303 UMT BA21303000 Q326 5322 209 60472 IC SN75157PS HC10070370 Q331 4822 209 31568 IC CMOS 74HCU04 FLAT HC700400Z0 Q332 4822 209 30426 IC CMOS 74HC00 FLAT HC700000Z0 Q601 9965 000 07427 IC AK4393 DA CONVERTER HC10027480 Q603 4822 209 17155 IC NJM2068MY HC10102090 Q604 4822 209 17155 IC NJM2068MY HC10102090 Q615 4822 209 71373 IC NJM78L05A HC38105090 Q661 9965 000 05912 IC 74HCT244AF HC724400Q0 Q662 4822 209 91012 IC TC74HCT04AF HC700405Q0 Q663 4822 209 12416 IC 74HC4066 AF HC706600Z0 Q664 4822 209 61494 IC 74HC74 FLAT HC707400Z0 Q665 4822 130 61553 DIG.TRS. DTC124EU RN1303 UMT BA21303000 Q666 4822 130 42593 DIG.TRS. DTA124EU RN2303 UMT BA12303000 Q701 4822 209 83804 IC LC4966 HC10150030 Q702 9965 000 05884 IC DS1807 DIP HC10100990 Q703 4822 209 71451 IC NJM4558M HC10011090 Q704 4822 209 71451 IC NJM4558M HC10011090 Q705 9965 000 05910 IC NJM2082M HC10103090 Q706 9965 000 05910 IC NJM2082M HC10103090 Q707 4822 209 71451 IC NJM4558M HC10011090 Q708 4822 209 71451 IC NJM4558M HC10011090 Q761 4822 209 71451 IC NJM4558M HC10011090 Q764 PP16-MISCELLANEOUS JF51 9965 000 07431 TERMINAL 14X16 RCA 2L2P ORG NI FRONT-GND YT02021090 JT01 9965 000 07432 TERMINAL 14X14 RCA 2L2P BLK NI FRONT-GND YT02021220 J301 4822 218 11487 OPTICAL RECIVER GP1F32R YJ15000150 J311 4822 265 10684 TERMINAL YKC21-3639 YT02011020 J601 996500005911 JACK 30FLT-SM1-TB YJ07021230 J651 4822 267 31727 TERMINAL 14X14 RCA 2L2P W/R NI FRONT-GND YT02021210 J701 4822 267 31727 TERMINAL 14X14 RCA 2L2P W/R NI FRONT-GND YT02021210 LA01 4822 157 63234 CHIP INDUCTANCE NL322522-4R7M LU12472010 LF51 9965 000 05005 FERRITE BEADS BK1608HM102-T FC90020120 LT03 4822 142 60422 PULSE TRANSF. TPS247MN-0386AN TP41042030 LT13 4822 142 60422 PULSE TRANSF. TPS247MN-0386AN TP41042030 L615 4822 157 63234 CHIP INDUCTANCE NL322522-4R7M LU12472010 L651 9965 000 05005 FERRIT BEADSBK1608HM102- T FC90020120 L652 9965 000 05005 FERRIT BEADSBK1608HM102- T FC90020120 L701 9965 000 05005 FERRITE CORE BK1608HM102-T FC90020120 L702 9965 000 05005 FERRITE CORE BK1608HM102-T FC90020120 L711 4822 157 63234 CHIP INDUCTANCE NL322522-4R7M LU12472010 S321 4822 277 21559 SLIDE SWITCH INT/EXT SS02021150 S701 4822 277 21559 SLIDE SWITCH INT/EXT SS02021150 PP26-XLR CIRCUIT BOARD PP26-CAPACITORS CT21 FB 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 C323 4822 122 33777 CER. CHIP 47pF ±5% 50V DD95470300 C324 4822 122 33777 CER. CHIP 47pF ±5% 50V DD95470300 C761 4822 122 33777 CER. CHIP 47pF ±5% 50V DD95470300 C770 51 POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) POS. NO VERS. COLOR PART NO. (FOR PCS) DESCRIPTION PART NO. (MJI) PP26-RESISTORS R321 4822 051 30331 CHIP 330Ω ±5% 1/16W NN05331610 R322 4822 051 30331 CHIP 330Ω ±5% 1/16W NN05331610 R323 4822 051 30331 CHIP 330Ω ±5% 1/16W NN05331610 R761 4822 117 13632 CHIP 100kΩ ±5% 1/16W NN05104610 R764 PP26-MISCELLANEOUS JT21 FB 4822 267 31369 OPT. CONNECTOR GP1F32T OPTICAL OUTPUT YJ15000090 J321 9965 000 02540 JACK NC3FAH2 4P CANON HOLZ YJ01004340 J761 9965 000 02540 JACK NC3FAH2 4P CANON HOLZ YJ01004340 J762 9965 000 02540 JACK NC3FAH2 4P CANON HOLZ YJ01004340 L751 9965 000 05005 FERRITE CORE FC90020120 L754 BK1608HM102-T PY16-FTD CIRCUIT BOARD PY16-CAPACITORS CY03 4822 126 11704 CER. CHIP 0.022uF DK98223300 CY04 4822 122 33761 CER. CHIP 22pF ±5% CG 50V DD95220300 CY05 4822 122 33761 CER. CHIP 22pF ±5% CG 50V DD95220300 CY06 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CY08 4822 126 11704 CER. CHIP 0.022uF DK98223300 CY09 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 CY10 4822 122 31765 CER. CHIP 100pF ±5%G 50V DD95101300 CY13 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 CY14 4822 124 11432 TANTL.CHIP 100µF 10V EY10701020 CY41 4822 124 41842 TANTL.CHIP 47µF 16V EY47601620 PY16-RESISTORS RY01 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 RY02 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 RY03 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 RY06 4822 051 30471 CHIP 470Ω ±5% 1/16W NN05471610 RY09 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 RY10 4822 051 30101 CHIP 100Ω ±5% 1/16W NN05101610 RY11 4822 051 30472 CHIP 4.7kΩ ±5% 1/16W NN05472610 RY12 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 RY13 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 RY14 4822 051 30332 CHIP 3.3kΩ ±5% 1/16W NN05332610 RY15 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 RY16 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 RY17 4822 117 12925 CHIP 47kΩ ±5% 1/16W NN05473610 RY21 4822 051 30682 CHIP 6.8kΩ ±5% 1/16W NN05682610 RY26 RY44 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 RY46 4822 051 30103 CHIP 10kΩ ±5% 1/16W NN05103610 PY16-SEMICONDUCTORS DY04 9965 000 04970 CHIP ZENER DIODE 02CZ3.3X 3.3V HZ30014050 DY41 4822 130 81324 CHIP DIODE 1SS302 HZ20018050 DY42 4822 130 81324 CHIP DIODE 1SS302 HZ20018050 QY01 9965 000 07429 MICROPROCESSOR TMP87CH74F HU385KT00F QY02 4822 130 61541 CHIP TRS. 2SC4116 HX341162B0 QY03 4822 130 61541 CHIP TRS. 2SC4116 HX341162B0 QY04 4822 130 61541 CHIP TRS. 2SC4116 HX341162B0 QY41 4822 130 42593 DIG.TRS. DTA124EU RN2303 BA12303000 QY42 4822 130 61553 DIG.TRS. DTC124EU RN1303 BA21303000 QY43 4822 130 61553 DIG.TRS. DTC124EU RN1303 BA21303000 QY44 4822 130 42593 DIG.TRS. DTA124EU RN2303 BA12303000 PY16-MISCELLANEOUS LY01 482215753873 CHIP INDUCTANCE NL322522-101K LU12104010 VY01 9965 000 05916 DISPLAY UNIT FTD BJ727GNK 15GRID X 22ANO. HQ31208410 XY01 9965 000 07430 SERAMIC VIB. CSTCC8.00MG-TC 8.000MHz FQ08004070 PY26-SWITCH CIRCUIT BOARD PY26-CAPACITOR CY21 4822 126 11687 CER. CHIP 0.1µF +80%-20% DK98104200 PY26-RESISTORS RY27 4822 116 82487 CHIP 0 Ω NN05000610 RY28 4822 116 82487 CHIP 0 Ω NN05000610 PY26-MISCELLANEOUS SY04 9965 000 01445 TACT SWITCH SKHMPW SP01013320 SY08 9965 000 01445 TACT SWITCH SKHMPW SP01013320 SY10 9965 000 01445 TACT SWITCH SKHMPW SP01013320 SY12 9965 000 01445 TACT SWITCH SKHMPW SP01013320 SY13 9965 000 01445 TACT SWITCH SKHMPW SP01013320 SY51 9965 000 01445 TACT SWITCH SKHMPW SP01013320 SY60 PY36- IR CIRCUIT BOARD CY07 4822 124 90353 ELECT. 100µF M 10V RA-2 OA10701020 RY04 4822 051 30101 CHIP 100Ω ±5% 1/6W NN05101610 ZY01 9965 000 06833 PHOTO UNIT IR SENSOR RPM6936-H4 HW10008210 PY46- JOG CIRCUIT BOARD SY26 9965 000 05915 ROTARY SWITCH EC11B ROT. ENCODER WITH PUSH. SW SR03030030 PY56- STANDBY LED CIRCUIT BOARD DY01 4822 130 11569 L.E.D. HLMF-K200 #2UL RED HI10005340

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