Sony dvps 9000 es service manual
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– 2 – WARNING!! WHEN SERVICING, DO NOT APPROACH THE LASER EXIT WITH THE EYE TOO CLOSELY. IN CASE IT IS NECESSARY TO CONFIRM LASER BEAM EMISSION, BE SURE TO OBSERVE FROM A DISTANCE OF MORE THAN 25 cm FROM THE SURFACE OF THE OBJECTIVE LENS ON THE OPTICAL PICK-UP BLOCK.CAUTION Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous ra- diation exposure. ATTENTION AU COMPOSANT AYANT RAPPORT À LA SÉCURITÉ! LES COMPOSANTS IDENTIFIÉS PAR UNE MARQUE 0 SUR LES DIAGRAMMES SCHÉMATIQUES ET LA LISTE DES PIÈCES SONT CRITIQUES POUR LA SÉCURITÉ DE FONCTIONNEMENT. NE REMPLACER CES COM- POSANTS QUE PAR DES PIÈCES SONY DONT LES NUMÉROS SONT DONNÉS DANS CE MANUEL OU DANS LES SUPPLÉMENTS PUBLIÉS PAR SONY. SAFETY-RELATED COMPONENT WARNING!! COMPONENTS IDENTIFIED BY MARK 0 OR DOTTED LINE WITH MARK 0 ON THE SCHEMATIC DIAGRAMS AND IN THE PARTS LIST ARE CRITICAL TO SAFE OPERATION. REPLACE THESE COMPONENTS WITH SONY PARTS WHOSE PART NUMBERS APPEAR AS SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUB- LISHED BY SONY. CAUTION: The use of optical instrument with this product will increase eye hazard. Fig. A. Using an AC voltmeter to check AC leakage. 1.5 k Ω 0.15 µF AC voltmeter (0.75 V) To Exposed Metal Parts on Set Earth Ground LEAKAGE TEST The AC leakage from any exposed metal part to earth ground and from all exposed metal parts to any exposed metal part having a return to chassis, must not exceed 0.5 mA (500 microamperes). Leakage current can be measured by any one of three methods. 1. A commercial leakage tester, such as the Simpson 229 or RCA WT-540A. Follow the manufacturers' instructions to use these instruments. 2. A battery-operated AC milliammeter. The Data Precision 245 digital multimeter is suitable for this job. 3. Measuring the voltage drop across a resistor by means of a VOM or battery-operated AC voltmeter. The limit indica- tion is 0.75V, so analog meters must have an accurate low- voltage scale. The Simpson 250 and Sanwa SH-63Trd are ex- amples of a passive VOM that is suitable. Nearly all battery operated digital multimeters that have a 2V AC range are suit- able. (See Fig. A) 1. Check the area of your repair for unsoldered or poorly-sol- dered connections. Check the entire board surface for solder splashes and bridges. 2. Check the interboard wiring to ensure that no wires are pinched or contact high-wattage resistors. 3. Look for unauthorized replacement parts, particularly transis- tors, that were installed during a previous repair. Point them out to the customer and recommend their replacement. 4. Look for parts which, though functioning, show obvious signs of deterioration. Point them out to the customer and recom- mend their replacement. 5. Check the line cord for cracks and abrasion. Recommend the replacement of any such line cord to the customer. 6. Check the B+ voltage to see it is at the values specified. 7. Check the antenna terminals, metal trim, metallized knobs, screws, and all other exposed metal parts for AC leakage. Check leakage as described below. SAFETY CHECK-OUT After correcting the original service problem, perform the following safety checks before releasing the set to the customer: CLASS 3B LASER LUOKAN 3B LASER LASERKLASS 3B
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– 3 – Service Note .......................................................................... 5 1. GENERAL This Player Can Play the Following Discs .................. 1-1 Getting Started ............................................................ 1-2 Playing Discs ............................................................... 1-4 Using Various Functions with the Control Menu ......... 1-6 Settings and Adjustments ...........................................1-12 Additional Information .................................................1-16 2. DISASSEMBLY 2-1. Top Case Removal ...................................................... 2-1 2-2. Front Panel Removal ................................................... 2-1 2-3. FL-114 Board Removal ............................................... 2-1 2-4. MB-91 Board Removal ................................................ 2-1 2-5. PS-436/437/438/439 Board Removal ......................... 2-2 2-6. AV-226 Board Removal ............................................... 2-2 2-7. Mechanism Deck Removal .......................................... 2-2 2-8. TK-58 Board Removal ................................................. 2-2 2-9. Loading Assembly Removal ........................................ 2-3 2-10. Optical Pick-up Removal............................................. 2-3 2-11. Base Assembly Removal............................................ 2-3 2-12. Internal View................................................................ 2-4 2-13. Circuit Boards Location............................................... 2-5 3. BLOCK DIAGRAMS 3-1. Overall Block Diagram ................................................. 3-1 3-2. RF/Servo Block Diagram ............................................. 3-3 3-3. Signal Process 1 Block Diagram ................................. 3-5 3-4. Signal Process 2 Block Diagram ................................. 3-7 3-5. Video 1 Block Diagram ................................................ 3-9 3-6. Video 2 Block Diagram ................................................3-11 3-7. System Control Block Diagram ...................................3-13 3-8. Audio Block Diagram ...................................................3-15 3-9. Interface Control Block Diagram .................................3-17 3-10. Power 1 Block Diagram...............................................3-19 3-11. Power 2 Block Diagram...............................................3-21 4. PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS 4-1. Frame Schematic Diagram .......................................... 4-3 Frame (1) Schematic Diagram .................................... 4-3 Frame (2) Schematic Diagram .................................... 4-5 4-2. Printed Wiring Boards and Schematic Diagrams ....... 4-7 TK-58 Printed Wiring Board ........................................ 4-7 TK-58 (RW GAIN CONTROL) Schematic Diagram ....4-11 TK-58 (RF AMP) Schematic Diagram .........................4-13 MB-91 Printed Wiring Board .......................................4-15 MB-91 (AV DECODER) Schematic Diagram ..............4-19 MB-91 (SDRAM) Schematic Diagram ........................4-21 MB-91 (SERVO DSP) Schematic Diagram .................4-23 MB-91 (DRIVE) Schematic Diagram ..........................4-25 MB-91 (ARP3) Schematic Diagram ............................4-27 MB-91 (SYSTEM CONTROL) Schematic Diagram ....4-29 MB-91 (ROM/RAM) Schematic Diagram ....................4-31 MB-91 (H2GA) Schematic Diagram ............................4-33 MB-91 (MIP) Schematic Diagram ...............................4-35 MB-91 (OSD) Schematic Diagram ..............................4-37 MB-91 (SDRAM) Schematic Diagram ........................4-39 MB-91 (PRAWN) Schematic Diagram ........................4-41 VP-52 Printed Wiring Board ........................................4-43 VP-52 (TBC) Schematic Diagram ...............................4-47 VP-52 (VIDEO ENCODER) Schematic Diagram ........4-49VP-52 (PROGRESSIVE) Schematic Diagram ............4-51 VP-52 (SGRAM) Schematic Diagram .........................4-53 VP-52 (D/A CONVERTER) Schematic Diagram ........4-55 VP-52 (VIDEO BUFFER) Schematic Diagram ...........4-57 AU-226, CO-26 Printed Wiring Boards .......................4-59 AU-226 (D/A CONVERTER, DIGITAL FILTER), CO-26 (DIGITAL OUT COAXIAL JACK) Schematic Diagram .....................................................4-63 AU-226 (CURRENT PULSE D/A, AMP) Schematic Diagram .....................................................4-65 ER-11 Printed Wiring Board ........................................4-67 ER-11 (EURO AV1) Schematic Diagram ....................4-71 ER-11 (EURO AV2) Schematic Diagram ....................4-73 FL-114 Printed Wiring Board ......................................4-75 BZ-1 Printed Wiring Board ..........................................4-78 FL-114 (IF CON) Schematic Diagram ........................4-79 FL-114 (LED DRIVE), BZ-1 (BUZZER) Schematic Diagram .....................................................4-81 FR-172 Printed Wiring Board ......................................4-83 FR-172 (DC-DC CONVERTER, REMOTE COMMANDER RECEIVER) Schematic Diagram .......4-85 AC-113/114, SW-344 Printed Wiring Boards ..............4-87 AC-113/114 (STANDBY), SW-344 (POWER SWITCH) Schematic Diagram ......4-91 MS-59 (LOADING MOTOR), CK-95 (SENSOR) Printed Wiring Boards and Schematic Diagram .........4-93 PS-436/438 Printed Wiring Board ...............................4-95 PS-436/438 (POWER SUPPLY) Schematic Diagram .....................................................4-99 PS-437/439 (POWER SUPPLY) Schematic Diagram ..................................................... 4-101 PS-437/439 Printed Wiring Board ............................... 4-103 5. IC PIN FUNCTION DESCRIPTION 5-1. System Control Pin Function (MB-91 Board IC102) .................................................. 5-1 6. TEST MODE 6-1. General Description ...................................................... 6-1 6-2. Starting Test Mode ........................................................ 6-1 6-3. Syscon Diagnosis .......................................................... 6-1 6-4. Drive Auto Adjustment .................................................. 6-5 6-5. Drive Manual Operation ................................................ 6-7 6-6. Mecha Aging ................................................................. 6-9 6-7. Emergency History ........................................................ 6-9 6-8. Version Information .......................................................6-10 6-9. Video Level Adjustment ................................................6-10 6-10. If Con Self Diagnostic Function....................................6-11 7. ELECTRICAL ADJUSTMENTS 7-1. Power Supply Check ................................................... 7-1 1. AC-113 Board .............................................................. 7-1 2. PS-436 Board .............................................................. 7-1 3. PS-437 Board .............................................................. 7-1 7-2. Adjustment of System Control .................................... 7-2 1. System Clock 27 MHz Adjustment ............................. 7-2 7-3. Adjustment of Video System ....................................... 7-2 1. Interface Video Output Level Adjustment ................... 7-2 2. S-terminal Output Check ............................................. 7-2 3. Checking Component Video Output B-Y .................... 7-2 4. Checking Component Video Output R-Y .................... 7-3 5. Component Video Output Level Adjustment ............... 7-3 6. Progressive Video Output Level Adjustment .............. 7-3 7. Checking RGB Output R ............................................. 7-3 8. Checking RGB Output G ............................................. 7-4 TABLE OF CONTENTS Section Title Page Section Title Page