CRT3425 AVHP5700
User Manual: AVHP5700
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ORDER NO. CRT3425 AVH-P5700DVD/EW AV RECEIVER/DVD PLAYER 6.5 INCH WIDE DISPLAY AVH-P5700DVD /EW AVH-P5700DVD/UC This service manual should be used together with the following manual(s): Model No. CX-3078 Order No. CRT3257 Mech.Module MS-3V1 Remarks DVD Mech. Module:Circuit Description, Mech. Description, Disassembly Manufactured under license from Dolby Laboratories. "Dolby" and the double-D sysmbol are trademarks of Dolby Laboratories. "DTS" and "DTS Digital Surround" are registered trademarks of Digital Theater Systems, Inc. For details, refer to "Important Check Points for Good Servicing". PIONEER CORPORATION 4-1, Meguro 1-chome, Meguro-ku, Tokyo 153-8654, Japan PIONEER ELECTRONICS (USA) INC. P.O. Box 1760, Long Beach, CA 90801-1760, U.S.A. PIONEER EUROPE NV Haven 1087, Keetberglaan 1, 9120 Melsele, Belgium PIONEER ELECTRONICS ASIACENTRE PTE. LTD. 253 Alexandra Road, #04-01, Singapore 159936 PIONEER CORPORATION 2005 K-ZZD.MAR. 2005 Printed in Japan 1 2 3 4 SAFETY INFORMATION UC A CAUTION This service manual is intended for qualified service technicians; it is not meant for the casual do-it-yourselfer. Qualified technicians have the necessary test equipment and tools, and have been trained to properly and safely repair complex products such as those covered by this manual. Improperly performed repairs can adversely affect the safety and reliability of the product and may void the warranty. If you are not qualified to perform the repair of this product properly and safely, you should not risk trying to do so and refer the repair to a qualified service technician. WARNING B This product contains lead in solder and certain electrical parts contain chemicals which are known to the state of California to cause cancer, birth defects or other reproductive harm. Health & Safety Code Section 25249.6 - Proposition 65 This product contains mercury. Disposal of this material may be regulated due to environmental considerations. For disposal or recycling information, please contact your local authorities or the Electronics Industries Alliance: www.eiae.org. EW 1. Safety Precautions for those who Service this Unit. • Follow the adjustment steps in the service manual when servicing this unit. When checking or adjusting the emitting power of the laser diode exercise caution in order to get safe, reliable results. C Caution: 1. During repair or tests, minimum distance of 13cm from the focus lens must be kept. 2. During repair or tests, do not view laser beam for 10 seconds or longer. 2. The triangular label is attached to the mechanism unit frame. D E F 2 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A CLASS 1 LASER PRODUCT B On the top of the player. CAUTION : VORSICHT : VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN. AVOID EXPOSURE TO BEAM. SICHTBARE UND UNSICHTBARE LASERSTRAHLUNG, WENN ABDECKUNG GEÖFFNET NICHT DEM STRAHL AUSSETZEN! OG USYNLIG LASERSTRÅLING VED ÅBNING ADVARSEL : SYNLIG UNDGÅ UDSÆTTELSE FOR STRÀLING. VARNING : VARO! C SYNLIG OCH OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD BETRAKTA EJ STRÅLEN. AVATTAESSA ALTISTUT NÄKYVÄ JA NÄKYMÄTTÖMÄLLE : LASERSATEIL YLLE. ÄLÄ KATSO SÄTEESEN. VRW1860 WARNING! The AEL (accessible emission level )of the laser power output is less than CLASS 1 but the laser component is capable of emitting radiation exceeding the limit for CLASS 1. A specially instructed person should do servicing operation of the apparatus. D Laser diode characteristics Wave length: DVD:640~660nm CD:770~810nm DVD : 2.48mw(Emitting period :9sec. ) CD : 705µw(Emitting period : unlimited) E Additionla Laser Caution Transistors Q1101 and Q1102 in PCB drive the laser diodes for DVD and CD respectively. When Q1101 or Q1102 is shorted between their terminals, the laser diodes for DVD or CD will radiate beam. If the top cover is removed with no disc loaded while such short-circuit is continued, the naked eyes may be exposed to the laser beam. F AVH-P5700DVD/EW 5 6 7 8 3 1 2 3 4 - Service Precaution 1. You should conform to the regulations governing the product (safety, radio and noise, and other regulations), and should keep the safety during servicing by following the safety instructions described in this manual. 2. Before disassembling the unit, be sure to turn off the power. Unplugging and plugging the connectors during power-on mode may damage the ICs inside the unit. 3. To protect the pickup unit from electrostatic discharge during servicing, take an appropriate treatment (shorting-solder) . 4. After replacing the pickup unit, be sure to skew adjustment. 5. During disassembly, be sure to turn the power off since an internal IC might be destroyed when a connector is plugged or unplugged. A B - Inverter for LCD back light becomes a high voltage. - Operation Check of Fan Motor (Center) After completing repair of this product, please confirm that the fan motor (center) is rotating. Check Method 1. DVD video is played with this product. 2. The operation is normal if the operation noise (pulse) can be observed after connecting oscilloscope to TP781 located at the bottom of this product. Under this circumstance, be careful not to contact TP781 with chassis as the power fuse of fan motor (center) will blow out, disabling the fan motor (center) to rotate. C TP781 Oscilloscope D Bottom of this product E is a trademark of DVD Format/Logo Licensing Corporation. F 4 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 [Important Check Points for Good Servicing] In this manual, procedures that must be performed during repairs are marked with the below symbol. Please be sure to confirm and follow these procedures. A 1. Product safety Please conform to product regulations (such as safety and radiation regulations), and maintain a safe servicing environment by following the safety instructions described in this manual. 1 Use specified parts for repair. Use genuine parts. Be sure to use important parts for safety. 2 Do not perform modifications without proper instructions. Please follow the specified safety methods when modification(addition/change of parts) is required due to interferences such as radio/TV interference and foreign noise. 3 Make sure the soldering of repaired locations is properly performed. B When you solder while repairing, please be sure that there are no cold solder and other debris. Soldering should be finished with the proper quantity. (Refer to the example) 4 Make sure the screws are tightly fastened. Please be sure that all screws are fastened, and that there are no loose screws. 5 Make sure each connectors are correctly inserted. Please be sure that all connectors are inserted, and that there are no imperfect insertion. 6 Make sure the wiring cables are set to their original state. Please replace the wiring and cables to the original state after repairs. In addition, be sure that there are no pinched wires, etc. C 7 Make sure screws and soldering scraps do not remain inside the product. Please check that neither solder debris nor screws remain inside the product. 8 There should be no semi-broken wires, scratches, melting, etc. on the coating of the power cord. Damaged power cords may lead to fire accidents, so please be sure that there are no damages. If you find a damaged power cord, please exchange it with a suitable one. 9 There should be no spark traces or similar marks on the power plug. When spark traces or similar marks are found on the power supply plug, please check the connection and advise on secure connections and suitable usage. Please exchange the power cord if necessary. 0 Safe environment should be secured during servicing. D When you perform repairs, please pay attention to static electricity, furniture, household articles, etc. in order to prevent injuries. Please pay attention to your surroundings and repair safely. 2. Adjustments To keep the original performance of the products, optimum adjustments and confirmation of characteristics within specification. Adjustments should be performed in accordance with the procedures/instructions described in this manual. 3. Lubricants, Glues, and Replacement parts Use grease and adhesives that are equal to the specified substance. Make sure the proper amount is applied. E 4. Cleaning For parts that require cleaning, such as optical pickups, tape deck heads, lenses and mirrors used in projection monitors, proper cleaning should be performed to restore their performances. 5. Shipping mode and Shipping screws To protect products from damages or failures during transit, the shipping mode should be set or the shipping screws should be installed before shipment. Please be sure to follow this method especially if it is specified in this manual. F AVH-P5700DVD/EW 5 6 7 8 5 1 2 3 4 CONTENTS SAFETY INFORMATION ..................................................................................................................................... 2 1. SPECIFICATIONS ............................................................................................................................................ 7 2. EXPLODED VIEWS AND PARTS LIST .......................................................................................................... 12 2.1 PACKING(AVH-P5700DVD/EW) .............................................................................................................. 12 2.2 PACKING(AVH-P5700DVD/UC)............................................................................................................... 14 2.3 EXTERIOR(1)(AVH-P5700DVD/EW) ....................................................................................................... 16 2.4 EXTERIOR(1)(AVH-P5700DVD/UC)........................................................................................................ 18 2.5 EXTERIOR(2) .......................................................................................................................................... 20 2.6 EXTERIOR(3)(AVH-P5700DVD/EW) ....................................................................................................... 22 2.7 EXTERIOR(3)(AVH-P5700DVD/UC)........................................................................................................ 24 2.8 DVD MECHANISM MODULE(MS-3V1) ................................................................................................... 26 3. BLOCK DIAGRAM AND SCHEMATIC DIAGRAM .......................................................................................... 28 3.1 BLOCK DIAGRAM ................................................................................................................................... 28 3.2 OVERALL CONNECTION DIAGRAM(GUIDE PAGE).............................................................................. 38 3.3 MOTHER UNIT(SYSTEM)(GUIDE PAGE)............................................................................................... 40 3.4 MOTHER UNIT(POWER SUPPLY).......................................................................................................... 46 3.5 MONITOR PCB(GUIDE PAGE)................................................................................................................ 48 3.6 DVD CORE UNIT(SODC)(GUIDE PAGE) ................................................................................................ 54 3.7 DVD CORE UNIT(CPU) ........................................................................................................................... 60 3.8 COMPOUND UNIT(A), COMPOUND UNIT(B) AND RELAY PCB .......................................................... 64 3.9 PU UNIT(REFERENCE) .......................................................................................................................... 65 3.10 INVERTER PCB..................................................................................................................................... 66 3.11 RGB UNIT .............................................................................................................................................. 68 3.12 UPPER PCB .......................................................................................................................................... 70 3.13 KEYBOARD UNIT.................................................................................................................................. 72 3.14 MAIN UNIT, SW UNIT AND VOLUME UNIT .......................................................................................... 74 4. PCB CONNECTION DIAGRAM ..................................................................................................................... 76 4.1 MOTHER UNIT ........................................................................................................................................ 76 4.2 MONITOR PCB........................................................................................................................................ 80 4.3 DVD CORE UNIT ..................................................................................................................................... 84 4.4 COMPOUND UNIT(A), COMPOUND UNIT(B) AND RELAY PCB .......................................................... 88 4.5 INVERTER PCB....................................................................................................................................... 89 4.6 RGB UNIT ................................................................................................................................................ 90 4.7 UPPER PCB ............................................................................................................................................ 91 4.8 KEYBOARD UNIT.................................................................................................................................... 92 4.9 SW UNIT AND VOLUME UNIT ................................................................................................................ 93 4.10 MAIN UNIT............................................................................................................................................. 94 5. ELECTRICAL PARTS LIST ............................................................................................................................ 96 6. ADJUSTMENT ............................................................................................................................................. 117 6.1 JIG CONNECTION DIAGRAM............................................................................................................... 117 6.2 DVD ADJUSTMENT............................................................................................................................... 118 6.3 MOTHER UNIT ADJUSTMENT ............................................................................................................. 132 6.4 MONITOR PCB ADJUSTMENT............................................................................................................. 134 6.5 INVERTER PCB ADJUSTMENT ........................................................................................................... 138 6.6 MONITOR TEST MODE ........................................................................................................................ 140 6.7 TOUCH PANEL TEST MODE ................................................................................................................ 150 7. GENERAL INFORMATION ........................................................................................................................... 160 7.1 DIAGNOSIS ........................................................................................................................................... 160 7.1.1 DISASSEMBLY ................................................................................................................................... 160 7.1.2 PCB LOCATIONS ............................................................................................................................... 168 7.1.3 CONNECTOR FUNCTION DESCRIPTION ........................................................................................ 169 7.2 IC ........................................................................................................................................................... 170 7.3 EXPLANATION ...................................................................................................................................... 196 7.3.1 MECHANISM DESCRIPTIONS .......................................................................................................... 196 7.3.2 OPERATIONAL FLOW CHART .......................................................................................................... 202 7.4 CLEANING............................................................................................................................................. 203 8. OPERATIONS .............................................................................................................................................. 204 A B C D E F 6 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 1. SPECIFICATIONS A B C D E F AVH-P5700DVD/EW 5 6 7 8 7 1 2 1 2 3 4 3 4 A B C D E F 8 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 9 1 2 1 2 3 4 3 4 A B C D E F 10 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 11 1 2 3 4 2. EXPLODED VIEWS AND PARTS LIST NOTES : • Parts marked by " * " are generally unavailable because they are not in our Master Spare Parts List. • The > mark found on some component parts indicatesthe importance of the safety factor of the part. Therefore, when replacing, be sure to use parts of identical designation. • Screw adjacent to mark on the product are used for disassembly. • For the applying amount of lobricants or glue, follow the instructions in this manual. (In the case of no amount instructions,apply as you think it appropriate.) A " 2.1 PACKING(AVH-P5700DVD/EW) B C D E 12 11 F 12 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 PACKING(AVH-P5700DVD/EW) SECTION PARTS LIST Mark No. * * Description Mark No. Part No. 1 2 3 4 5 Carton Sub Carton Contain Box Protector Protector CHG5493 CHG5270 CHL5493 CHP2387 CHP2708 6 7 8 9 10 Protector Protector Cord Assy Cord Assy Cord Assy CHP2706 CHP2707 CDE7321 CDE7801 CDE7792 11 12 13 14 15 Spacer Polyethylene Bag Lock Tie Screw Assy Screw CNM9773 CEG1088 CNV-754 CEA5144 BMZ50P060FTC 16 17 18 20 Screw(M4x3) Screw Polyethylene Sheet Sheet CBA1870 CMZ50P060FTC CNM4338 CNM8603 * * Description Part No. 21 23 24 25 26 Accessory Assy Screw Bush Polyethylene Bag Polyethylene Bag CEA4771 CBA1650 CNV1917 E36-615 CEG-158 27-1 27-2 27-3 27-4 27-5 Polyethylene Bag Owner's Manual Owner's Manual Owner's Manual Owner's Manual CEG1116 CRB2047 CRB2048 CRB2049 CRB2050 27-6 27-7 28 29-1 29-2 Warranty Card Passport Screw Polyethylene Bag Owner's Manual CRY1157 CRY1013 CBA1875 CEG1116 CRB2051 A B * * 29-3 Owner's Manual 29-4 Installation Manual CRB2052 CRD3965 C Owner's Manual,Installation Manual Part No. Language CRB2047 English CRB2048 Spanish CRB2049 German CRB2050 French CRB2051 Italian CRB2052 Dutch CRD3965 English, Spanish, German, French, Italian, Dutch D E F AVH-P5700DVD/EW 5 6 7 8 13 1 2 3 4 2.2 PACKING(AVH-P5700DVD/UC) A B C 12 D 11 E F 14 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 PACKING(AVH-P5700DVD/UC) SECTION PARTS LIST Mark No. Description Mark No. Part No. 1 2 3 4 5 Carton Sub Carton Contain Box Protector Protector CHG5494 CHG5270 CHL5494 CHP2387 CHP2708 6 7 8 9 10 Protector Protector Cord Assy Cord Assy Cord Assy CHP2706 CHP2707 CDE7321 CDE7815 CDE7790 11 12 13 14 15 Spacer Polyethylene Bag ••••• Screw Assy Screw CNM9773 CEG1185 16 Screw(M4x3) CBA1870 * * * CEA5144 BMZ50P060FTC Description Part No. 17 18 20 Screw Polyethylene Sheet Sheet CMZ50P060FTC CNM4338 CNM8603 21 23 24 25 26 Accessory Assy Screw Bush Polyethylene Bag ••••• CEA4771 CBA1650 CNV1917 E36-615 Polyethylene Bag Owner's Manual Owner's Manual Installation Manual Registration Card CEG1116 CRB2053 CRB2054 CRD3966 CRY1229 27-1 27-2 27-3 27-4 27-5 27-6 Caution Card 28 Screw A B CRP1310 CBA1875 Owner's Manual,Installation Manual Part No. Language CRB2053 English CRB2054 French CRD3966 English, French C D E F AVH-P5700DVD/EW 5 6 7 8 15 1 2 3 4 3 4 2.3 EXTERIOR(1)(AVH-P5700DVD/EW) 97 A B 28 C G L D 88 89 E F 16 AVH-P5700DVD/EW 1 2 5 6 7 8 EXTERIOR(1)(AVH-P5700DVD/EW) SECTION PARTS LIST Mark No. Description Mark No. Part No. 1 2 3 4 5 Screw Screw Screw Screw(M2x8) Screw BMZ20P030FTB BMZ20P160FTC BMZ26P030FTC CBA1752 BPZ20P060FTB 6 7 8 9 10 Screw(M2x2) Button(EJECT) Button(A-BM) Button(CROSS) Cord Assy CBA1872 CAC9051 CAC9052 CAC9053 CDE7176 11 12 13 14 15 Cord Cord Assy Flat Cable Cord Assy Panel CDE7715 CDE7797 CDE7805 CDE7796 CNB3101 16 17 18 19 20 Case Bracket Holder Button(VOL) Bracket CNB3104 CND1438 CND1441 CAC9050 CND2626 21 22 23 24 25 Bracket Holder Lever Unit Insulator Insulator CND2627 CND2628 CXC4211 CNM8495 CNM8864 26 27 28 29 30 Insulator Sheet Insulator Flexible PCB FFC CNM9398 CNM9517 CNM9750 CNP8806 CDE7807 31 32 33 34 35 Connector(CN5501) Guide Mother Unit Screw Screw CKS4511 CNV8415 CWM9808 BMZ26P160FTC BSZ26P080FTC 36 37 38 39 40 Spring Flat Cable Antenna Cable FM/AM Tuner Unit Connector(CN101,102) CBH2863 CDE7806 CDH1348 CWE1650 CKS4653 41 42 43 44 45 Cushion Holder Connector(CN154) Cord Terminal(CN731) CNM8671 CND1432 CKS4823 CDE7809 CKF1064 46 47 48 49 Connector(CN701) Socket(CN261) Connector(CN171) ••••• CKM1332 CKM1457 CKS3751 Description Part No. 50 Connector(CN151) CKS4052 51 52 53 54 55 Connector(CN181) Connector(CN175) Connector(CN152) Connector(CN101) Connector(CN771) CKS4052 CKS4068 CKS4282 CKS4511 CKS4822 56 57 58 59 60 Connector(CN561) Connector(CN121) Connector(CN131) Connector(CN781) Holder CKS4824 CKS4830 CKS4832 CKS4977 CND2629 61 62 63 64 65 Holder Shield Holder Insulator Insulator CND2630 CND2631 CND2633 CNM9400 CNM9521 66 67 68 69 70 Spacer Spacer Heat Sink Heat Sink RGB Unit CNM9522 CNM9523 CNR1703 CNR1784 CWM9815 71 72 73 74 75 Connector(CN951) Connector(CN952) Jack(CN981) Connector(CN954) Detach Grille Assy CKS4497 CKS4978 CKN1022 CKS4052 CXC4192 76 77 78 79 80 Bracket Holder Button(SRC/-,+) Button(ATT,EQ/BAND) CND1482 CND2634 CAC9054 CAC9056 DVD Mechanism Module(MS-3V1) CXK6418 81 82 83 84 85 Fan Motor(M771) Fan Motor(M781) Screw Cover Grille CXM1262 CXM1276 IMS26P040FTC CNS8177 CNS8173 86 87 88 89 90 Screw Grille Unit Transistor(Q892) IC(IC871) IC(IC241) IPS20P060FTB CXC4206 2SD2396 NJM2388F84 PAL007A 91 92 93 94 95 IC(IC5501) Cap Screw Holder Panel TSOP4840SB1 CNV6727 CMZ50P060FTC CNC9510 CNS7797 96 97 Label Grille Assy VRW1860 CXC4187 6 B C D E F AVH-P5700DVD/EW 5 A 7 8 17 1 2 3 4 3 4 2.4 EXTERIOR(1)(AVH-P5700DVD/UC) 97 A B 28 C G L D 88 89 E F 18 AVH-P5700DVD/EW 1 2 5 6 7 8 EXTERIOR(1)(AVH-P5700DVD/UC) SECTION PARTS LIST Mark No. Description Mark No. Part No. 1 2 3 4 5 Screw Screw Screw Screw(M2x8) Screw BMZ20P030FTB BMZ20P160FTC BMZ26P030FTC CBA1752 BPZ20P060FTB 6 7 8 9 10 Screw(M2x2) Button(EJECT) Button(A-BM) Button(CROSS) Cord Assy CBA1872 CAC9051 CAC9052 CAC9053 CDE7176 11 12 13 14 15 Cord Cord Assy Flat Cable Cord Assy Panel CDE7715 CDE7798 CDE7805 CDE7796 CNB3102 16 17 18 19 20 Case Bracket Holder Button(VOL) Bracket CNB3104 CND1438 CND1441 CAC9050 CND2626 21 22 23 24 25 Bracket Holder Lever Unit Insulator Insulator CND2627 CND2628 CXC4211 CNM8495 CNM8864 26 27 28 29 30 Insulator Sheet Insulator Flexible PCB FFC CNM9398 CNM9517 CNM9750 CNP8806 CDE7807 31 32 33 34 35 Connector(CN5501) Guide Mother Unit Screw Screw CKS4511 CNV8415 CWM9809 BMZ26P160FTC BSZ26P080FTC 36 37 38 39 40 Spring Flat Cable Antenna Cable FM/AM Tuner Unit Connector(CN101,102) CBH2863 CDE7806 CDH1348 CWE1651 CKS4653 41 42 43 44 45 Cushion Holder Connector(CN154) Cord Terminal(CN731) CNM8671 CND1432 CKS4823 CDE7809 CKF1064 46 47 48 49 Connector(CN701) Socket(CN261) Connector(CN171) ••••• CKM1332 CKM1457 CKS3751 Description Part No. 50 Connector(CN151) CKS4052 51 52 53 54 55 Connector(CN181) Connector(CN175) Connector(CN152) Connector(CN101) Connector(CN771) CKS4052 CKS4068 CKS4282 CKS4511 CKS4822 56 57 58 59 60 Connector(CN561) Connector(CN121) Connector(CN131) Connector(CN781) Holder CKS4824 CKS4830 CKS4832 CKS4977 CND2629 61 62 63 64 65 Holder Shield Holder Insulator Insulator CND2630 CND2631 CND2633 CNM9400 CNM9521 66 67 68 69 70 Spacer Spacer Heat Sink Heat Sink RGB Unit CNM9522 CNM9523 CNR1703 CNR1784 CWM9816 71 72 73 74 75 Connector(CN951) Connector(CN952) Jack(CN981) Connector(CN954) Detach Grille Assy CKS4497 CKS4978 CKN1022 CKS4052 CXC4193 76 77 78 79 80 Bracket Holder Button(SRC/-,+) Button(BOOST,EQ/BAND) CND1482 CND2634 CAC9054 CAC9055 DVD Mechanism Module(MS-3V1) CXK6418 81 82 83 84 85 Fan Motor(M771) Fan Motor(M781) Screw Cover Grille CXM1262 CXM1276 IMS26P040FTC CNS8177 CNS8174 86 87 88 89 90 Screw Grille Unit Transistor(Q892) IC(IC871) IC(IC241) IPS20P060FTB CXC4206 2SD2396 NJM2388F84 PAL007A 91 92 93 94 95 IC(IC5501) Cap Screw Holder Panel TSOP4840SB1 CNV6727 CMZ50P060FTC CNC9510 CNS7797 96 97 ••••• Grille Assy 6 B C D E F CXC4188 AVH-P5700DVD/EW 5 A 7 8 19 1 2 3 4 2.5 EXTERIOR(2) A B C D E 172 172 F 20 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 EXTERIOR(2) SECTION PARTS LIST Mark No. Description Mark No. Part No. 101 102 103 104 105 Screw(M2x3) Screw(M2x2.5) Screw(M2x4) Screw(M2x1.5) Washer CBA1082 CBA1250 CBA1277 CBA1615 CBF1038 106 107 108 109 110 Spring Spring Spring Spring Spring CBH2645 CBH2646 CBH2647 CBL1585 CBL1586 111 112 113 114 115 Spring Cord Assy Cord Assy Shaft Shaft CBL1587 CDE7047 CDE7213 CLA4270 CLA4305 116 117 118 119 120 Shaft Shaft Bracket Heat Sink Case CLA4306 CLA4309 CND1221 CND1228 CND1229 121 122 123 124 125 Holder Holder Sheet Sheet Insulator CND1318 CND1449 CNM8522 CNM8037 CNM8048 126 127 128 129 130 Insulator Sheet Tape Insulator Gear CNM8158 CNM8159 CNM8160 CNM8294 CNR1664 131 132 133 134 135 Gear Gear Gear Gear Gear CNR1665 CNR1677 CNR1678 CNR1679 CNR1680 136 137 138 139 140 Gear Gear Gear Gear Holder CNR1688 CNR1802 CNR1708 CNV7383 CNV7384 141 142 143 144 145 Holder Rack Rack Slider Slider CNV7385 CNV7386 CNV7387 CNV7388 CNV7389 146 147 148 149 Holder Arm Gear Gear CNV7390 CNV7391 CNV7522 CNV7523 Description Part No. 150 Gear CNR1709 151 152 153 154 155 Gear Chassis Unit Frame Unit Holder Unit Shaft Unit CNV7529 CXB9509 CXB9511 CXB9512 CXB9513 156 157 158 159 160 Holder Unit Motor Unit(M3001)(Position) Motor Unit(M3002)(Angle) Screw Screw CXB9514 CXB9515 CXB9516 CZB3082 CZB3083 161 162 163 164 165 Washer Main Unit SW Unit Volume Unit Screw CZB3084 CZW3087 CZW3088 CZW3089 IMS20P020FTC 166 167 168 169 170 Screw Washer Screw Connector(CN3801) Connector(CN3802,CN3803) IMS20P030FZK YE15S BMZ26P050FTC CKS4068 CKS4732 171 172 173 174 175 Connector(CN3807,3809) Spacer IC(IC3801) Volume(VR3841) ••••• CKS4733 CNM9837 BA00AST CCW1025 176 177 178 179 180 Bracket Unit Screw(M2x2) Holder Spring Cover Unit(EW) CXC3048 CBA1872 CND2890 CBH2750 CXC5117 Cover Unit(UC) 181 Screw(M2x2) 182 Screw(M2x1.8) 183 Spring CXC5118 CBA1872 CZB3085 CBL1642 184 185 186 187 188 Screw(M2x4) Drive Unit Washer Sheet Arm CZB3088 CXC5111 CZB3089 ••••• CNV8065 189 190 191 192 193 Holder Screw(M2x3) Spring Lever Screw CNV8066 CBA1876 CBL1679 CND2202 CBA1797 6 B C D E F AVH-P5700DVD/EW 5 A 7 8 21 1 2 3 4 3 4 2.6 EXTERIOR(3)(AVH-P5700DVD/EW) A B C D E F 22 AVH-P5700DVD/EW 1 2 5 6 7 8 EXTERIOR(3)(AVH-P5700DVD/EW) SECTION PARTS LIST Mark No. Description Part No. 1 2 3 4 5 Screw ••••• FFC Touch Panel Screw(M2x2) BPZ20P060FTC CDE7195 CSX1087 CBA1872 6 7 8 9 10 FFC Holder Gasket Sheet Sheet CDE7814 CND2610 CNM8600 CNM8265 CNM7784 11 12 13 14 15 Insulator Monitor Unit Connector(CN4541) Connector(CN4301) Connector(CN4591) CNM9390 CWM9820 CKS3968 CKS4054 CKS4054 16 17 18 19 20 Connector(CN5342) Connector(CN4521) Connector(CN5001) Connector(CN4501) Connector(CN4007) CKS4428 CKS4595 CKS4595 CKS4675 CKS4872 21 22 23 24 25 Shield Insulator LCD Module Grille Unit ••••• CND2737 CNM9251 CWX3151 CXC4198 26 27 28 29 30 ••••• Cord Assy Cord Assy Cord Assy Cap CDE7321 CDE7792 CDE7801 CNV6727 31 32 33 34 > 35 ••••• Resistor Cap Resistor Fuse(10A) RSV2PMF102J CNS1472 RS1/2PMF102J CEK1136 ••••• Terminal Cover Sheet Spacer Sheet CKX-003 CNM9742 CNM9840 CNM9744 A B C 36 37 38 39 40 D E F AVH-P5700DVD/EW 5 6 7 8 23 1 2 3 4 3 4 2.7 EXTERIOR(3)(AVH-P5700DVD/UC) A B C D E F 24 AVH-P5700DVD/EW 1 2 5 6 7 8 EXTERIOR(3)(AVH-P5700DVD/UC) SECTION PARTS LIST Mark No. Description Part No. 1 2 3 4 5 Screw ••••• FFC Touch Panel Screw(M2x2) BPZ20P060FTC CDE7195 CSX1087 CBA1872 6 7 8 9 10 FFC Holder Gasket Sheet Sheet CDE7814 CND2610 CNM8600 CNM8265 CNM7784 11 12 13 14 15 Insulator Monitor Unit Connector(CN4541) Connector(CN4301) Connector(CN4591) CNM9391 CWM9821 CKS3968 CKS4054 CKS4054 16 17 18 19 20 Connector(CN5342) Connector(CN4521) Connector(CN5001) Connector(CN4501) Connector(CN4007) CKS4428 CKS4595 CKS4595 CKS4675 CKS4872 21 22 23 24 25 Shield Insulator LCD Module Grille Unit ••••• CND2737 CNM9251 CWX3151 CXC4201 26 27 28 29 30 ••••• Cord Assy Cord Assy Cord Assy Cap CDE7321 CDE7790 CDE7815 CNV6727 31 32 33 34 > 35 ••••• Resistor Cap Resistor Fuse(10A) RSV2PMF102J CNS1472 RS1/2PMF102J CEK1136 A B C 36 37 ••••• ••••• 38 Sheet CNM9742 39 Spacer CNM9840 40 Sheet CNM9744 D E F AVH-P5700DVD/EW 5 6 7 8 25 1 2 3 4 3 4 2.8 DVD MECHANISM MODULE(MS-3V1) A B M C D E F 26 AVH-P5700DVD/EW 1 2 5 6 7 8 DVD MECHANISM MODULE (MS-3V1) SECTION PARTS LIST Mark No. Description Mark No. Part No. 1 2 3 4 5 DVD Core Unit ••••• Connector(CN1201) Connector(CN1551) Connector(CN1231) CWX3170 CKS4067 CKS4817 CKS4624 6 7 8 9 10 Connector(CN1903) Connector(CN1101) Connector(CN1901) Screw Screw(M2 x 3.5) CKS4374 CKS4625 CKS3971 BMZ20P020FTC CBA1571 11 12 13 14 15 Screw(M2 x 2.5) Washer Washer Spring Spring CBA1623 CBF1038 CBF1064 CBH2586 CBH2587 16 17 18 19 20 Spring Spring Spring Spring Spring CBH2588 CBH2589 CBH2590 CBH2591 CBH2592 21 22 23 24 25 Spring Spring Spring Spring Spring CBH2593 CBH2594 CBH2595 CBH2596 CBH2597 26 27 28 29 30 Spring Spring Spring Spring Spring CBH2598 CBH2599 CBH2600 CBH2601 CBH2602 31 32 33 34 35 Spring Spring Spring Spring Spring CBH2603 CBH2604 CBH2605 CBH2711 CBL1564 36 37 38 39 40 Pickup Unit(Service) Shaft Shaft Shaft Lever CXX1770 CLA3881 CLA4206 CLA4207 CNC9933 41 42 43 44 45 Holder Holder Holder Frame Sheet CNC9939 CND2251 CNC9941 CND2250 CNM6883 46 47 48 49 50 Sheet Sheet Lever Lever Cam CNM8283 CNM8643 CNV8076 CNV7155 CNV7156 51 52 53 54 55 Rack Clamper Arm Arm Arm CNV7157 CNV7158 CNV7159 CNV7160 CNV7161 56 Arm CNV7162 * Description Part No. 57 58 59 60 Arm Arm Roller Arm CNV7163 CNV7164 CNV7165 CNV7166 61 62 63 64 65 Guide Gear Gear Gear Gear(Black) CNV8093 CNV7169 CNV7170 CNV7171 CNV7172 66 67 68 69 70 Gear Gear Rack Gear Arm CNV7173 CNV7174 CNV7175 CNV7176 CNV8077 71 72 73 74 75 Lever Lever Screw Gear Holder CNV7178 CNV7179 IMS20P030FTC CNV7181 CNV7183 76 77 78 79 80 Holder Guide Roller Damper Damper CNV7184 CNV7745 CNV7344 CNV7470 CNV7471 81 82 83 84 85 Collar Compound Unit(A) Screw(M2x2) Compound Unit(B) Washer CNV7645 CWX3154 CBA1817 CWX3156 YE20FTC 86 87 88 89 90 Chassis Unit Arm Unit Frame Unit Arm Unit Bracket Unit CXC3629 CXB8681 CXB8683 CXC4701 CXB8685 91 92 93 94 95 Motor Unit(LOADING)(M1) Motor Unit(CARRIAGE)(M2) Screw Unit Roller Unit Motor(SPINDLE)(M3) CXC4659 CXC4314 CXB8689 CXB8690 CXM1272 96 97 98 99 100 Screw Photo-transistor(Q1299) Switch(S1201,S1202,S1203) Spring Switch(S1204,S1205) Resistor(R1298,R1299) JFZ20P018FTC CPT231SCTD CSN1069 CSN1070 RS1/16S0R0J 101 102 103 104 105 Gathering PCB Holder Arm Arm Spring CNX4320 CNV8186 CNV7742 CNV7743 CBH2710 106 107 108 109 110 Spring Spring Pickup Unit(Service)(Screw) Screw Assy Screw(M1.4xM1.4) CBL1643 CBH2712 GXX1242 CXX1750 CBA1787 111 Cover 112 Screw 6 7 B C D E F CNC9943 JFZ20P018FTC AVH-P5700DVD/EW 5 A 8 27 1 2 3 4 3. BLOCK DIAGRAM AND SCHEMATIC DIAGRAM 3.1 BLOCK DIAGRAM A A MOTHER UNIT (1/2) DO LDET CE CK CE2 SL DI A VDD5 FM/AM TUNER UNIT 20 21 RDS_HSLK RDS_CK 19 RDS_LOCK 18 RDS_DATA 14 DO 11 LDET 8 CE1 SL 10 9 DI 5 CK 13 ROM_VDD WC 6 CE2 7 A B 5V OSC CN401 AM ANT FM/AM ANT 1 IC 5 3.3V ← IC 3 EEPROM 5.0V LPF FMRF ATT Rch 3 IC 1 3.3V FM ANT ATT FMRF ANT adj 24 Lch MIXER, IF AMP 23 DET, FM MPX, RDS DECODER RF adj C T51 CF52 AUDIOGND NC 22 16 VDD_3.3 DGND 15 VCC OSCGND 12 4 IC 4 3.3V 3.3V 2.5V 2.5V ← RFGND CF51 2 17 SYS+B IC881 NJM2391DL1-33 3.3V REG. 3 D OUT IN IC871 NJM2388F84 8.4V REG. 1 2 VOUT VIN CONT 1 B.UP 4 SYS+B Q801 FU801 Q803 FU803 VD8 IC801 AN8011S D/D CONVERTER 10 13 OUT1 IN-1 VCC ON/OFF Q802 FU802 E 12 Q804 9 3 FB1 VCC15 IC831 BA00BC0WFP 3.3V REG. VCC33 4 VDD VIN 7 4 2 OUT2 IN-2 VC 1 Q806 5 FB2 CT 1 A AVH-P5700DVD/EW B AVH-P5700DVD/UC RT 2 Q805 F 28 AVH-P5700DVD/EW 1 2 TUN IC 2 2.5V 3 4 TUN 5 6 7 8 A SYSTEM CONTROLLER Q402 RCK RDT A Q401 A Q841 Q842 VDD5 B.UP IC851 S-818A35AUC-BGP 3.5V REG. SRVDD 1 VIN VOUT ON/OFF 3 5 4 45 DO 46 RCK RDT RDSLK RDSHSLK 57 23 25 24 VDD33 5 VOUT VIN ON/OFF VOUT VIN TUNPCE2 TUNSL TUNPDO TUNPCK TUNPCE LDET TUNPDI RCK RDT RDSLK RDS57K 2 A B IC841 S-812C50AUA-C3E 5V REG. IC856 S-814A33AMC-BCX 3.3V REG. 24 LDET RDSLK RDSHSLK Rch 101 135 47 48 100 CE2 SL DI CK CE 1 3 CONTVDD 103 IC601(1/2) : PE5484A : PE5485A B CONTVDD TUNR FU861 ACC5V REG. ACC5 Lch 23 TUNL Q867 (1/2) Q867 (2/2) ACCPW 29 SWVDD5V REG. VPW SYSPW CCONT1 CCONT2 CONTVDB DDCONTL SWVDD5 Q861 (1/2) Q861 (2/2) 32 31 77 78 104 33 ACCPW C VPW SYSPW COOLCNT1 COOLCNT2 CONTVDB DDCONTL SWVDD OPT5V REG. OPT5 Q864 (1/2) TO MOTHER UNIT (2/2) Q864 (2/2) HSEN TUNR TUNL CONTB MFLPW D SYSPW Q773 (1/2) FAN MOTOR (REAR) CN771 REAR FAN6V REG. FU803 FU771 2 1 Q771 CONTVDB VIDEO9V REG. VIDEO5V REG. SW9 VIDEO9 Q891 Q773 (2/2) VPW Q892 E CCONT1 Q772 CCONT2 Q774 Q893 VIDEO5 VPW CENTER FAN6V REG. Q782 (1/2) Q781 FAN MOTOR (CENTER) CN781 FU781 2 1 DDCONTL F Q782 (2/2) CONTB Q783 MFLPW AVH-P5700DVD/EW 5 6 7 8 29 1 3 4 B 28 27 26 B C 4 1 RXMS3 HSTCMD 8 9 TXMS3 IRQPWR 6 4 IRQPWR XRESET 3 1 XRESET IC181 TC74VHC08FTS1 5V→3V 22 21 20 19 18 17 | 14 12 | 10 8 | 1 VCONTB AMUTE VDD33 SRVDD VCC33 1 8 15 23 CONTB VDD33 SRVDD VCC33 VCC15(33) 16 18 2 4 VCC15 Q561 VD VD8 VIDEO IN 4 3 1 2 1 Q511 VOUT2 G 3 2 VCRV G 3 2 BCAM G + − IC551 NJM2136V 6 + − IC561 NJM2136V 6 LOUT1 ROUT1 TO MOTHER UNIT (1/2) Q461 CCR CCG CCB 10 5 3 CCAUL CCAUR GNDAU ONSEI+ ONSEI− GNDRAU CCREM DSEN TVON GION 12 13 10,15 VGILM VRILM VBILM MONI5V HRX HTX MFLPW MON5PW YS CSYNC ANR1 ANG1 ANB1 MONVBS ILMGB ILMA ILMC IN3 IN2 IN1 OUT SYSTEM CONTROLLER IC601(2/2) LV1 RV1 27 26 TO MOTHER UNIT (1/2) SWVDD CONTB 84 86 B.UP SDA SCL SELFRST RXMON TXMON SWVDD 62 108 107 109 ASENBO PRGRST TXMON RXMON SWVDD CONTB 81 111 112 113 114 RXMS3 TXMS3 IRQPWR XRESET ASENBO 87 IC121 HA12240F IETX IERX IPPW Q601 IC461 NJM2138V RGB VIDEO ISOLATOR A_OUT B_OUT C_OUT D_OUT H + − IC571 NJM2136V IN2A IN1A IN1B/2B 1 7 8 14 ANB1 ANG1 ANR1 CSYNC OUT2 OUT1 6 8 1 VSELIN1 VSELIN2 AVON 51 52 53 RGBARI TXNAV RXNAV PRGON PRGSW VPPON VPP 119 118 117 58 61 59 41 X601 18.874368MHz 74 IC441 TA2050F NAVI DVD(A) 73 Q151 RGBARI REMUTE DREM 106 105 DSENS KDT2 KDT1 KDT0 83 142 141 140 GUIDEON HTXD 4 1,2 TXNAV IC151 TC4S81F RXNAV CONTBIN NMIXCNT FRONTMUTE VST VDT VCK RXMS3 TXMS3 IRQPWR XRESET 91 90 88 TX RX IPPW 1 2 8 DIN1 DOUT STBY BU BU 121 11 12 9 10 A :PE5484A B :PE5485A TO MOTHER UNIT (1/2) MUTE RCAMUTE AMPMUTE AMPPW BEEP PBSENS ASENS BSENS BGSENS TELIN CILM ILMGRN ILMRED VSELIN1 VSELIN2 AVON IN RGBARI TXNAV RXNAV PRGON PRGSW VPPON VPP SNSPW PUSHSW DEG0SW MTRSEL MTR1 MTR2 MTRPW MTRS LIFTPUL ANGLE IN X2 X1 REMUTE DREM DSENS KEYDT2 KEYDT1 KEYDT0 RESET DLED 122 50 124 30 68 129 96 69 130 127 66 35 67 SYSMUTE RCAMUTE AMPMUTE AMPPW 18 19 20 14 16 17 13 15 21 137 SNSPW PUSHSW DEG0SW MTRSEL MTR1 MTR2 MTRPW MTRS LIFTPUL ANGLE 40 34 TUN TUN PBSENS ASENS BSENS BGSENS TELIN CILM CGILM CRILM RESET FU151 CN131 1 2 4 3 2 6 39 41 OPT5 3 2 HRXD 31 32 GNDD | 39 IC521 NJM2136V Q521 LV3 RV3 VIDEO5 OPT5 OPT5 HSEN OPT OUT CCR CCR CCG CCG CCB CCB DVDVBS 13 GNDDVD 14 YS 15 E + Q571 12 2,6,9,13 30 IC522 BA7623F VIDEO AM VIDEO9 B.CAMERA(V) OPT OUT CCSYNC 11 GNDSIG 12 17 18 19 20 21 24 25 26 27 28 3 33 NAVI DVD(V) CN954 Q512 BUFFER V1 V2 V3 V4 SDA SCL VCR IN(V) CN151 D VR511 40 Q551 CN1551 1 2 3 4 8 9 10 VOUT1 TV VIDEO5 CN152 C 47 Q182 Q181 CN561 C IC501 CXA2089Q AV SELECTOR B.UP CN1901 23 MOREM SELFRST PWRVI IC182 TC7SET08FUS1 3V→5V SWVDD SLVSTS SELFRST 29 MS3 Lch MS3 Rch CSYNC ANR1 ANG1 ANB1 6 7 VOUT VF VIN SWVDD5 RXMON TXMON 1 ANALOG LOUT 37 ANALOG ROUT 35 PWFL VIDEO OUT PWVI IC541 SM5304AV VIDEO AMP CN181 PWRFL A 39 CN4541 1 2 3 5 13 15 16 18 19 20 21 23 25 27 30 31 32 35 36 37 39 MOTHER UNIT (2/2) CN171 A 2 ACC5 AV-BUS(V) 2 3 AV− AV+ − + IC581 NJM2136V 6 Q691 Q581 5 6 7 8 VSEL1 VSEL2 VSELIN1 VSELIN2 VIDEO5 Q692 MOREM Q131 AVON AVG REMIN AVG Q693 REMUTE AVON Q695 REMIN FU131 IC451 TA2050F AV-BUS(A) I 12 10,15 13 VCRINL 9 VCRGND 10 VCRINR 11 VCRGND 12 IN2A IN1B/2B IN1A Q694 CCREM OUT2 OUT1 8 1 TXNAV RXNAV PRGON PRGSW VPPON VPP AV-BUS 3 4 Q696 DREM DFLED RESET REM ILMA CN101 1 2 6 10 9 8 7 6 5 4 | 1 CN665 TXNAV RXNAV PRGON PRGSW VPPON VPP A F I 30 AVH-P5700DVD/EW 1 2 3 4 5 6 541 7 8 BUS+ BUS− ASENBO IPL+ IPR+ IPR− IPL− VGILM VRILM VBILM A NAVI GUIDE MIXING IC301 NJM4558V BUS+ BUS− ASENBO ANR1 ANG1 ANB1 MONVBS ILMGB ILMA ILMC CN121 1 4 7 6 8 9 10 30 31 32 35 36 37 39 IP-BUS H ONSEI+ ONSEI− 2 3 IC302 NJM4558V IN−1 OUT1 IN+1 1 IN+2 OUT2 IN−2 7 2 3 SYS+B ANR1 ANG1 ANB1 5 6 IN−1 OUT1 IN+1 1 5 6 Q301 IN+2 OUT2 IN−2 A AVH-P5700DVD/EW B AVH-P5700DVD/UC 7 Q302 RBU14 GUIDEON NMIXCNT Q303 OUT1 43 35 34 44 8 REARV MS3 Lch MS3 Rch 10 FRONTOUT_L 41 IN2_L 37 IN2_R 40 IN1_L 38 IN1_R PREOUT_L ASENBO B.UP 3 2 5 6 24 FRONTOUT_R A+IN A−IN B+IN B−IN AOUT BOUT 1 FL 7 FR PREOUT_R 12 SWL 22 SWR BUS+ BUS− REAROUT_L 6 5 BUS+ BUS− REAROUT_R RL 23 RR 4 TUNL TUNR 5 3 IN+2 IN+1 Q245 42 IN3_L 36 IN3_R VCRGND 12 14 CN701 Q241 IC241 PAL007B POWER AMP FL FR AMPPW SNSPW PUSHSW DEG0SW MTRSEL MTR1 MTR2 MTRPW MTRS LIFTPUL ANGLE C B.UP AMPMUTE PBSENS ASENS BSENS BGSENS TELIN CILM CGILM CRILM 12 11 14 15 4 FLIN FRIN RLIN RRIN STBY MUTE B.REMOTE FL− RL− FL+ RL+ FR− RR− FR+ RR+ FL− RL− FL+ RL+ FR− RR− FR+ RR+ Q242 22 25 3 23 5 21 7 19 9 17 FL− RL− FL+ RL+ FR− RR− FR+ RR+ FL− RL− FL+ RL+ FR− RR− FR+ RR+ 1 2 3 4 5 6 7 8 Q703 PBSENS P.B. VGND 9 10 FU703 Q705 ASENS ACC BSENS B.REM 11 12 Q704 B.G. BGSENS 13 D Q706 MUTE TELIN IC681 S-80841CNUA-B82 RESET GEN. 1 RESET OUT VDD 2 B.UP B.UP PWVI VDD5 Q701 14 15 16 FU701 PWFL FU702 CN154 Q101 (1/2) MFLPW MFLPW VDD5 FU152 Q702 E 1 2 3 VBILM Q755 TO MOTHER UNIT (1/2) CILM Q756 Q101 (2/2) VGILM SNSPW PUSHSW DEG0SW MTRSEL MTR1 MTR2 MTRPW MTRS LIFTPUL ANGLE VDD5 B.UP KDT2 KDT1 KDT0 Q752 A SENSPW PUSHSW ANGL0SW MTRSEL MTR1 MTR2 MTRPW MTRS LIFTPUL ANGLEIN Q753 J CN5501 CRILM Q754 F 11 12 13 14 15 16 17 18 19 20 FU176 1 2 3 VDD 10 BUP CN175 FU175 VRILM DFLED RESET REM ILMA ILMG DSENS SWVDD KEY2 KEY1 KEY0 I CGILM ACC5 VRILM VGILM DSENS Q751 CN101 7 I B Q244 SYSMUTE RCAMUTE AMPMUTE AMPPW 1 2 6 7 8 9 10 11 12 13 0 7 VCRINL VCRINR B.UP RCAMUTE 7 1 OUT2 OUT1 4 6 8 10 FU261 Q243 SYSMUTE BZ601 9 11 13 Q281 B.UP 20 MUTE 19 STB 18 DATA 17 CLK IC421 NJM4558MD TUNER AUDIO AMP 2 9 B 11 1 TO MOTHER UNIT (1/2) 7 POWER SUPPLY DIN1 DOUT STBY 5 Q262 IC201 PML009A ELECTRIC VOLUME IC121 HA12240FP 1 2 8 B 3 Q261 Q121 ASENBO TX RX IPPW 1 FL FR IN3 IN2 IN1 REARV IC303 NJM4580V IN4+L IN4+R IN4−R IN4−L 4 3 2 6 V CN261 RCA OUT IC522 BA7623F VIDEO AMP CN3801 AVH-P5700DVD/EW 5 6 7 8 31 1 2 B 3 4 MONITOR PCB PICTURE SPLIT IC IC4001 TC90A96AFG A CN4541 ANR1 25 ANG1 26 ANB1 27 73 74 75 RADIN1 GADIN1 BADIN1 ROUT2-7 V33 29 MONVBS 66 GOUT2-7 SADIN1 Q4440 Q4441 BOUT2-7 CSYNC 86 IC4451(1/2) TC7WH08FU 2 1 YS 7 2 1 B 20 GNDSIG 17 16 10 A (2/2)CN171 81 MFLPW 4 DPDT VSW3V2 14 C 1 2 13 12 MONI5V 35 4 3 2 1 MFLPW 2 1 YSSTOP OSDTOP OSDBLNK OSDR OVERLAY 36 4 OSDBLANKHin IC4451(2/2) TC7WH08FU IC4122 TC7SET04FUS1 IC4102 TC7SET04FUS1 7 STEST2 SELFRST SCL SDA 5060IN ICRES MUTE OSDCLK REMIN TEMP.Sens TH4301 D CLK EPRDI EPRDO EPRCS EPRCK DAC OUT LD BADIN2 PLL IN 28 31 11 27 23 104 105 106 107 111 15 52 2 E IC4602 S-80827CNNB-B8M 12 1 17 4 2 IC4171 TC7S04FU 91 88 93 92 62 64 6 5 6 7 4 8 DI A02 2 53 60 56 2 3 + A01 VCOM AMP 1 CLK LD OSDCKout RGBSYNC2 OSDC/HSYNCout OSDVSYNCout 1 5 6 + - 4 1 7 V8 Q4101 (1/2) IC4101 NJM2100V INVPUL 2 1 V5 24 2 5 6 + - 3 2 7 92 TOUCH PANEL 91 INVBST 90 3 93 2 VACC5 5 4 INVBST V14A1 80 Q4502 (2/2) 1 MVIPW D/D CONVERTER IC4181 BD6171KV 32 72 71 70 69 KDT1 KDT2 KDT3 KDT4 68 67 KST1 KST2 7 Q4181 V8 OUT4 OUT5 Q4182 LSEN 32 V33 V31 V5 47 V18 38 VM12 94 AVH-P5700DVD/EW 1 2 3 IC4182 S-1131B25UC -N4K 1.5V REG. 1,2,5,6 Q4501 (2/2) F 5 3.3V REG. 4 3 1 2.5V REG. 1,2,5,6 V33 4 VS2 23 PVCC3 48 PVCC4 37 PVCC5 10 IC4606 S-818A33AUC -BGN 8V REG. 4 3 13 VS1 22 OUT3 PNLADX PNLXV EN1 OUT2 OUT1 PNLYV KS1 KS2 Q4501 (1/2) 32 PNLVD KD1 KD2 KD3 KD4 VM12 Q4301 3 RESET VSW3V2 Q4502 (1/2) Q4102 (1/2) INVPUL XIN PNLADY 1 DIMDT2 4 V8 CN4501 Q4503 + - IC4104 NJM082BV 26 XOUT 11 PVCC1 6 PVCC2 42 VCC 4 1 X4001 42MHz RESET VSW3V2 4 IC4103 TC7S66FU DIMDTY X4601 10MHz 13 2 SCL SDA ACK RESET MUTE IC4531 TC7SET08FUS1 VILLGB VILLA VILLC ILMGB 30 ILMA 31 ILMC 32 4 34 IC4105 M62343FP DI 38 39 41 42 XTAL-OUT GADIN2 33 TEMPSEN EEPROM Block IC4691 S-93C56BD0I-J8 4 3 1 2 2 9,11 XTAL-IN 80 HSYNC VSYNC 89 133 RADIN2 32 Q4603 DO DI CS SK 78 DPDT FU4541 VFL VCOM Q4661 V33 Q4001 OSDB SELFRST YSSTP TOPOSD BLNK 19 20 21 Q4663 V14A1 75 77 139 138 137 136 135 134 Q4662 OSDG VACC5 PWRVI MOREM PWRFL 101 3 STH LOAD CPH GOE CPV STV KYDT IC4605 TC7SH08FUS1 VSW3V2 11 5 6 79 VSW5V IC4604 TC7SET08FUS1 15 VDDSENS Q4602 MON5VPW KYDT 4 47 RGBSYNC1 MONITOR u-COM IC4601 PEG087A VSW3V1 VLSEN 19 2 1 4 TOPOSD YSSTP 21 IC4452 IC4453 TC7SH02FUS1 TC7SH32FUS1 BLNK 23 4 5 IC4183 S-1131B15UC -N4A 5 6 7 8 LCD MODULE A CN4007 30 | 35 36 | 41 42 | 47 DC0-5 DB0-5 DA0-5 59 29 20 9 8 6 28 17 16 26 VDD2 | 24 VGH 13 VGL 4 2 4 V18 VM12 1,3,5 9,11,13 AVH-P5700DVD/UC IC4121 TC74VHC04FTS1 B LCD BACK LIGHT 58 | 48 V0-10 VCOM VCOM 2 1 INVERTER PCB CN5342 CN5001 CN4521 PWRFL VFL 16 15 14 1 2 3 FU5341 PWRFL 3 5V REG. IC5373 TA78L05F LCD DRIVE IC5341 OZ961ISN 1 Q5371 Q5372 3 A VILLA VILLA 13 4 VILMA 5 14 15 D5251 D5252 D5253 VDDA DIM LCT NDRV_B VILLGB KST1 KST2 Q4101 (2/2) V8 Q4101 (1/2) 12 5 KST1 11 KST2 10 GNDILM 9 6 7 8 DIMDT2 DIMDTY INVPUL INVPUL INVBST INVBST 1 Q4102 (1/2) 8 7 3 VILMG PDRV_A 7 V2500 Q5342 T5341 IC5345 TC7SET08FUS1 1,2 4 KDT3 KDT4 KDT4 2 1 3 2 7 Q5344 11 9 18 FB PDRV_C CT OVP 12 2 S5102 WIDE (POS) KDT3 6 DIMDTY 9 INVPUL 10 INVBST 14 Q4102 (2/2) 12 5 4 19 D5201 D5202 D5203 KS1 KS2 ILMGND C Q5343 20 ENA NDRV_D VILLGB FL1 1 F 2 4 AVH-P5700DVD/EW B FL2 V5 IC4122 TC7SET04FUS1 A STH1 LOAD CPH OE CPV STV1 L/R VDD1 VDD1 V33 FUS1 LCD 15 16 KD3 Q5003 Q5002 S5103 V.ADJ (NAVI/AV) KD4 D Q5005 (1/2) S5101 ENT (NAVI MENU) Q5005 (2/2) VSW5V C4606 S-818A33AUC BGN H 1 UPPER PCB VLSEN VSW3V2 CN4301 CN4591 1 11 GILL 2.5V REG. 5 IC4182 S-1131B25UC -N4K Button Illumination (Green) 1 A V25 E S4392 Button Illumination (Red) 1.5V REG. 5 IC4183 S-1131B15UC -N4A 1 S4391 INFO PGM B TA/NEWS A V15 S4393 FLIP DOWN Center Illumination (Blue) KDT1 VILLC VILLA VILLGB KDT2 KST1 KST2 KDT1 VILLC VILLA VILLGB KDT2 KST1 KST2 VACC5 LSEN 2 3 4 5 6 7 8 9 KDT1 10 VILLC(VILLB) 9 VILLA 8 VILLGB 7 KDT2 6 KST1 5 KST2 4 VSW5 3 10 2 LSEN 7 IC4311 NJM062V 1 + 5 - 6 + - S4394 OPEN/CLOSE 3 2 F AVH-P5700DVD/EW 5 6 7 8 33 1 A 2 A AVH-P5700DVD/EW B AVH-P5700DVD/UC 3 4 G RGB UNIT CN981 DIGITAL OUTPUT OPTICAL OUT IC981 TC7SET08FUS1 INB 4 B TO NAVI C 10 11 12 13 14 17 18 19 20 21 24 25 26 OPT5 40 OPT5 39 HSEN 38 OPT OUT 37 OUTY INA CN951 1 2 3 4 5 6 7 8 CN954 1 2 CCR CCG CCB CCSYNC GNDSIG DVDVBS GNDDVD YS CCR CCG CCB CCSYNC GNDSIG DVDVBS GNDDVD YS CCAUL CCAUR GNDAU ONSEI+ ONSEI− GNDRAU CCREM DSEN TVON GION HTXD HRXD GNDD CCAUL CCAUR GNDAU ONSEI+ ONSEI− GNDRAU CCREM DSEN TVON GION HTXD HRXD GNDD GNDD GNDD GNDD GNDD GNDD GNDD GNDD CN952 NAVI RGB SHIELD 1 2 3 D J M MOTOR DRIVER CN3803 M MTR1 6 MTR2 5 REGULATOR FOR DRIVER 16 4 IC 3801 BA00AST 1 MTRPW Q3801 14 CN3809 CN3842 VR3841 CN3841 1 2 3 MTRS VDD 1 ANGLV S3831 ANGLE0SW CN3831 CN3832 1 3 2 3 Q3802 3 11 VBU 18 19 20 SNSPW ANGLG A (2/2)CN175 10 Q3803 1 CN3833 IC 3803 TA78L05F ANGLIN0 SW UNIT S3832 LIFTSW 4 22 MO2 2 MOB 1 VOLUME UNIT CN3843 K (2/2)CN151 CN3801 Q3804 L E A 5 6 1 18 MO1 1 MOB 2 IC 3802 BA6247FP ANGLE MOTOR 24 23 22 21 20 17 16 15 14 13 11 10 9 8 7 6 5 4 3 2 MAIN UNIT CN3802 POSITION MOTOR 33 32 31 30 29 28 27 26 IC 3805 GP2L24B 3 2 IC 3804 TC7S14FU 4 LIFTPUL CN3807 ANGLEIN LIFT PUSHSW ANGL0SW ANGLE0 2 1 9 8 GNDSNS F 34 AVH-P5700DVD/EW 1 2 3 4 5 6 I 7 8 A KEYBOARD UNIT S5515 A.MENU S5504 VOL S5505 S5512 SLOT ILM S5506 EJECT S5514 S5501 SOURCE S5503 S5502 − ANGLE + S5507 S5508 BOOST ATT EQ S5511 S5509 BAND S5510 BOOK.M S5513 CN5501 KEY0 13 KEY1 12 KEY2 11 1 IC5501 TSOP4840SB1 3 SWVDD B 10 S5517 DSENS DSENS D5510,D5512,D5514 D5516,D5518,D5520 D5522,D5524,D5526 ILMG 9 8 B A (2/2)CN101 D5502-D5508 ILMA 7 C A D5511,D5513,D5515 D5517,D5519,D5521 D5523,D5525,D5527 REM A 6 S5516 RESET RESET 2 D5528 DFLED A AVH-P5700DVD/EW B AVH-P5700DVD/UC 1 D E F AVH-P5700DVD/EW 5 6 7 8 35 1 2 C 3 4 DVD CORE UNIT A CN1101 9 18 Q1105 PICKUP UNIT(SERVICE) 23 B Q1104 VSHF NRST 68 Q1103 IECOUT A,B1-4,C,RF+,RF- XCSSR Q1101 26 Q1106 XCSFM 65LD 133 Q1102 181 47 33 2 LPCO1 IC1671 TC74LCX16373AFT Q1107 24 78LD 135 62,66 CPU IC1501 MN35104UB FOP,FOM,TOP,TOM CN1201 M M 9 LOM 10 LOP IC1652 TC7SZ126F A0-20, ADT0-15 FLASH MEMORY A20 FD,TD,MD,CRGDRV 148 76 10 RELAY PCB 2 IC1651 M5M5V216ATP-70HI IC1570 K4S283232E-TC75 AD1 SDRAM DRY6 VCC15 IC 1201 AN8471SAT1 M 1 IC1601 PD6516A IC1251 BA5985FM COP,COM IC1672 TC7SZ08FU SDRAM DRIVER CARRIGE MOTOR 4 LATCH LPCO2 FG 25,48 LRCK SPINDLE MOTOR SRCK 174 175 4 C EXADR18 M D LOADING MOTOR DAC4OUT 39 1 IC1602 TC7SH86FU 2 163 COMPOUND UNIT(A) S1201 12cm 92 OSCI DSCSNS 163 BECLK S1202 8cm Disc sens 4 S1203 Disc sens S1204 S1205 8cm CN1231 IC1231 TC7SZ125FU 1 VDD33 ELERGENCY LOAD 39 43 CLOCK GENERATOR 3 CLAMP SW CLNP 15 IC1801 SM8707LV 14 1 13 2 6 IC1802 TC7WH157FU 42 REV FSSW2 5 S1206 D E COMPOUND UNIT(B) E F 36 AVH-P5700DVD/EW 1 2 3 21 25 XRES_M CD/DVD FSSW1 4 IC1051 PE5401A AMUT 5 6 7 8 A CN1903 XRES_M 9 CN1551 IECOUT 1 A (2/2)CN152 2 672 Z08FU B 1 2 0HI 1 IC1652 TC7SZ126FU CN1901 1 SH MEMORY 5 IC1002 R1130H501B VD 2 10 5 IC1001 S-L2980A50MC-C7J 1 VCONTB 3 23 6 VCC15 16 3 1 10 IC1851 PCM1742KE IC1003 LTC3411EMS 1,2 Q1002 VCONTA VD 11 12 DC-DC CONVERTER 7 25 6,7 C ADAC Q1551 VIDEO OUT 39 3 8 IC1853 NJM2100V Lch OUT 1 37 A (2/2)CN181 2 REV 21 25 XRES_M 1,2 3,5 51 1A IC1852 NJM2140R AMUTE,XRES_S,IRQPWR,STSCOMN,CMDCOMN D 21 VDD33 E F AVH-P5700DVD/EW 5 6 7 8 37 1 2 3 4 3.2 OVERALL CONNECTION DIAGRAM(GUIDE PAGE) A B C A 1/2 A 2/2 M M D CN1901 CN1551 C D E M DVD MECHANISM MODULE(MS-3V1) B E F F 38 INVERTER PCB LCD MOD AVH-P5700DVD/EW 1 MONITOR PCB 2 3 4 5 6 7 8 A M771 FAN MOTOR (REAR) M781 FAN MOTOR (CENTER) B G RGB UNIT AVH-P5700DVD/EW C A 1/2 A 2/2 KEYBOARD UNIT I MOTHER UNIT (SYSTEM) MOTHER UNIT (POWER SUPPLY) D J L K DRIVE UNIT H UPPER PCB ONITOR PCB E LCD MODULE F AVH-P5700DVD/EW 5 6 7 8 39 1 2 3 4 3.3 MOTHER UNIT(SYSTEM)(GUIDE PAGE) Note: When ordering service parts, be sure to refer to " EXPLODED VIEWS AND PARTS LIST" or "ELECTRICAL PARTS LIST". A-a 1/2 A A-a Large size SCH diagram A-b DVD/CD:+2.6dBs A-a A-a A-b C 2/2 CN1901 B CN4541 Guide page A-b Detailed page B REAR VIDEO ISOLATOR RGB VIDEO ISOLATOR VIDEO FILTER UC FM(100%):-20.0dBs AM(30%):-30.0dBs EW FM(100%):-16.0dBs AM(30%):-26.0dBs TVW ISOLATOR C VIDEO ISOLATOR A 2/2 5.0V AUDIO ISOLATOR C 1/2 ? VCR:+4.3dBs NAVI:+4.3dBs VCR:+8.2dBs CN1551 VIDEO ISOLATOR D AUDIO ISOLATOR VIDEO ISOLATOR NAVI:+2.2dBs G NAVI:+2.2dBs CN954 VIDEO ISOLATOR E > EW G CN952 > IP-BUS DRIVER 5V > VCR(UC):+8.2dBs F 40 9 8 I 11 7 10 6 5 3 2 A 1/2 1 IP-BUS:+2.2dBs 8 9 10 11 5 6 7 CN5501 1 2 3 4 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A-b 1/2 41 J NOTE : Symbol indicates a resistor. No differentiation is made between chip resistors and discrete resistors. Symbol indicates a capacitor. No differentiation is made between chip capacitors and discrete capacitors. CN3801 A 1/2 > A Decimal points for resistor and capacitor fixed values are expressed as : 2.2 ← 2R2 0.022 ← R022 MOTHER UNIT (SYSTEM) > VIDEO OUTPUT EW FL OUTPUT FR OUTPUT SUBWOOFER L OUTPUT SUBWOOFER R OUTPUT UC B L INPUT(EW) RL OUTPUT(UC) 8.4V FR INPUT(EW) RR OUTPUT(UC) UC > RGB VIDEO ISOLATOR FM:+4.34dBs (UC) AM: -5.66dBs FM:+6.34dBs (EW) AM: -1.66dBs IP-BUS:+8.54dBs VCR:+8.54dBs NAVI:+8.54dBs DVD/CD:+8.94dBs VCR IN:+8.2dBs(EW) POWER AMP PAL007B C E-VOL 8.4V FM:+5.1dBs (UC) AM: -4.9dBs FM:+7.1dBs (EW) AM: -0.9dBs IP-BUS:+9.3dBs VCR:+9.3dBs NAVI:+9.3dBs DVD/CD:+9.7dBs FM:+31.1dBs (UC) AM:+21.1dBs FM:+33.1dBs (EW) AM:+25.1dBs IP-BUS:+35.3dBs VCR:+35.3dBs NAVI:+35.3dBs DVD/CD:+35.7dBs D UC > > > 1K(1/2W) E > CEK1136 10A EW SYSTEM CONTROLLER EW EW BACK UP EW B. REM GND ACC RR FR FL RL - RR + FR + FL + RL + EW F The > mark found on some component parts indicates the importance of the safety factor of the part. Therefore, when replacing, be sure to use parts of identical designation. A 1/2 : The power supply is shown with the marked box. AVH-P5700DVD/EW 5 6 7 8 41 F 42 1 2 A-a 1/2 3 VCR:+4.3dBs NAVI:+4.3dBs 1 C 1/2 ? 5.0V RGB VIDEO ISOLATOR 8.4V A-b 1/2 3 AVH-P5700DVD/EW 4 CN1551 AUDIO ISOLATOR VIDEO ISOLATOR CN4541 2 A 2/2 TVW ISOLATOR VIDEO FILTER REAR VIDEO ISOLATOR B B UC FM(100%):-20.0dBs AM(30%):-30.0dBs EW FM(100%):-16.0dBs AM(30%):-26.0dBs E C 2/2 CN1901 A-a A-b A DVD/CD:+2.6dBs 1 4 2 C VCR:+8.2d D CN954 VCR(UC):+8.2dBs G 6 7 > > CN952 > NAVI:+2.2dBs IP-BUS:+2.2dBs 5V VIDEO ISOLATOR A-a A-b VIDEO ISOLATOR I CN5501 VIDEO ISOLATOR NAVI:+2.2dBs VCR:+4.3dBs NAVI:+4.3dBs EW 3 A-b 1/2 7 AVH-P5700DVD/EW 8 1 2 3 4 8 9 10 11 5 6 7 IP-BUS DRIVER AUDIO ISOLATOR 1 CN1551 2 C 1/2 ? G 3 VCR:+8.2dBs 5 5 6 6 5 8 A-a 1/2 43 A B C D E F 11 10 9 8 7 F > J E 44 1 E-VOL FM:+5.1dBs (UC) AM: -4.9dBs FM:+7.1dBs (EW) AM: -0.9dBs IP-BUS:+9.3dBs VCR:+9.3dBs NAVI:+9.3dBs DVD/CD:+9 7dBs 8.4V PAL007B UC POWER AMP MOTHER UNIT (SYSTEM) > UC 2 FR INPUT(EW) RR OUTPUT(UC) L INPUT(EW) RL OUTPUT(UC) SUBWOOFER R OUTPUT SUBWOOFER L OUTPUT FR OUTPUT FL OUTPUT VIDEO OUTPUT 2 FM:+31.1dBs(UC) FM:+4.34dBs (UC) AM: -5.66dBs FM:+6.34dBs (EW) AM: -1.66dBs IP-BUS:+8.54dBs VCR:+8.54dBs NAVI:+8.54dBs DVD/CD:+8.94dBs VCR IN:+8.2dBs(EW) Decimal points for resistor and capacitor fixed values are expressed as : 2.2 ← 2R2 0.022 ← R022 A EW A 1/2 NOTE : Symbol indicates a resistor. No differentiation is made between chip resistors and discrete resistors. Symbol indicates a capacitor. No differentiation is made between chip capacitors and discrete capacitors. C > CN3801 A-a A-b B 8.4V A-b 1/2 1 3 3 4 D 1 2 AVH-P5700DVD/EW 4 3 A-b 1/2 EW SYSTEM CONTROLLER EW FM:+5.1dBs (UC) AM: -4.9dBs FM:+7.1dBs (EW) AM: -0.9dBs IP-BUS:+9.3dBs VCR:+9.3dBs NAVI:+9.3dBs DVD/CD:+9.7dBs A-a A-b > 5 > 6 EW 7 RR FR FL RL - RR + FR + FL + RL + EW 7 AVH-P5700DVD/EW 8 : The power supply is shown with the marked box. B. REM GND ACC BACK UP 10A > CEK1136 1K(1/2W) UC 6 The > mark found on some component parts indicates the importance of the safety factor of the part. Therefore, when replacing, be sure to use parts of identical designation. > FM:+31.1dBs (UC) AM:+21.1dBs FM:+33.1dBs (EW) AM:+25.1dBs IP-BUS:+35.3dBs VCR:+35.3dBs NAVI:+35.3dBs DVD/CD:+35.7dBs 5 8 A B C D E 45 F 1 2 3 4 3.4 MOTHER UNIT(POWER SUPPLY) A EW (UC) FM(100%):-20.0dBs AM(30%):-30.0dBs (EW) FM(100%):-16.0dBs AM(30%):-26.0dBs 8.4V FM/AM TUNER UNIT B EW C FMA/AM ANTENNA 5.0V 9.1V D > > 3.4V > E F A 2/2 46 AVH-P5700DVD/EW 1 2 3 4 5 6 7 A 2/2 > 8 A MOTHER UNIT (POWER SUPPLY) > 8.4V B M FAN MOTOR(REAR) CXM1262 M771 FAN MOTOR (CENTER) CXM1276 M781 M 5.0V C A 1/2 > 5.0V 3.4V D 5.0V 5.0V 3.4V E F A 2/2 AVH-P5700DVD/EW 5 6 7 8 47 1 2 3 4 3.5 MONITOR PCB(GUIDE PAGE) B-a TOUCH PANEL A B F CN5001 C > A 1/2 D CN171 E H CN4301 F B 48 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A B-b B MONITOR PCB MONITOR UNIT Consists of MONITOR PCB INVERTER PCB UPPER PCB B C LCD MODULE D E F B AVH-P5700DVD/EW 5 6 7 8 49 1 2 3 4 A B-b 1 B A-a B-b B-a C D E F TOUCH PANEL B-a 50 CN5001 F AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A B-b 2 B A-a B-b B-a C H CN4301 D > E CN171 A 1/2 F B-a AVH-P5700DVD/EW 5 6 7 8 51 B-a B-b B 52 1 MONITOR UNIT Consists of MONITOR PCB INVERTER PCB UPPER PCB MONITOR PCB 1 2 2 3 B-b 3 4 A B C D E F 1 AVH-P5700DVD/EW 4 5 6 7 8 LCD MODULE A B B-a B-b C D E F B-b 2 AVH-P5700DVD/EW 5 6 7 8 53 1 2 3 4 3.6 DVD CORE UNIT(SODC)(GUIDE PAGE) A C-a 1/2 B A 1/2 CN152 PD6516A D E F C 1/2 54 AVH-P5700DVD/EW 1 2 3 4 T F C 5 6 7 8 A C-b 1/2 C 1/2 DVD CORE UNIT(SODC) C 2/2 F T C S RF SIGNAL FOCUS SERVO LINE TRACKING SERVO LINE CARRIAGE SERVO LINE SPINDLE SERVO LINE T B F S T 5 4 F C S T M3 SPINDLE MOTOR CXM1272 2 S S T F 1 S 3 F S T M D C C 2/2 C PICKUP UNIT(SERVICE) C F S C S E F T S C sense D E M1 LOADINGMOTOR CXC4659 F C 1/2 AVH-P5700DVD/EW 5 6 7 8 55 1 2 3 4 A C-b 1/2 1 T F C-a C-b (1/2) (1/2) A 1/2 C CN152 B D PD6516A E F C-a 1/2 56 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A C-b 1/2 B C-a C-b (1/2) (1/2) C D E F C-a 1/2 AVH-P5700DVD/EW 5 6 7 8 57 58 1 1 4 S D C S S C T F C 1/2 T F T F F T RF SIGNAL FOCUS SERVO LINE TRACKING SERVO LINE CARRIAGE SERVO LINE SPINDLE SERVO LINE C-a C-b (1/2) (1/2) C 2 S DVD CORE UNIT(SODC) C 2/2 2 C-b 1/2 2 3 5 S B T 1 3 4 A S E F 1 AVH-P5700DVD/EW 4 M3 SPINDLE MOTOR CXM1272 1 C S C 2/2 C S C-a C-b (1/2) (1/2) T F 3 S C 5 T 6 7 E D T F C 6 M1 LOADINGMOTOR CXC4659 sense F S M3 SPINDLE MOT CXM1272 M PICKUP UNIT(SERVICE) S 5 7 8 A B C D E F C-b 1/2 AVH-P5700DVD/EW 8 59 1 2 3 4 3 4 3.7 DVD CORE UNIT(CPU) C 2/2 A DVD CORE UNIT(CPU) C 1/2 B C D E C 1/2 F C 2/2 60 AVH-P5700DVD/EW 1 2 5 6 7 8 A A 1/2 CN181 B C D E F C 2/2 AVH-P5700DVD/EW 5 6 7 8 61 1 - Waveforms A 2 3 4 Note:1. The encircled number denote measuring pointes in the circuit diagram. 2. Reference voltage VHALF : 1.65V(TD1,FD1,CRGDRV) : 2V Center(ANAMONI1) In this waveform, it is seeing on the GND standard. Offset of 1.65V or 2V is put in. 1 ANAMONI1 0.2V/div. 0.1µs/div. CDRF 1 ANAMONI1 0.2V/div. 0.1µs/div. DVDRF VHALF→ VHALF→ 1 ANAMONI1 0.5V/div. 100µs/div. DVDRF(BD1mm) VHALF→ B 2 TD1 Interval 0.2V/div. 100µs/div. 2 TD1 0.5V/div. 100µs/div. Interval FWD 2 TD1 0.5V/div. 100µs/div. Interval REV VHALF→ VHALF→ C VHALF→ 0.5V/div.5ms/div. 2 CH1: TD1 0.5V/div.5ms/div. 2 CH1: TD1 0.5V/div.5ms/div. 2 CH1: TD1 3 CH2: COP1-COM1 2.0V/div.5ms/div. 3 CH2: COP1-COM1 2.0V/div.5ms/div. 3 CH2: COP1-COM1 2.0V/div.5ms/div. Traverse501REV Traverse5000FWD Traverse501FWD VHALF→ VHALF→ VHALF→ D VHALF→ VHALF→ VHALF→ E F 62 AVH-P5700DVD/EW 1 2 3 4 5 6 2 CH1: TD1 0.5V/div.5ms/div. 3 CH2: COP1-COM1 2.0V/div.5ms/div. Traverse5000REV 7 0.5V/div.500µs/div. 2 TD1 Multi 32FWD 8 0.5V/div.500µs/div. 2 TD1 Multi 32REV A VHALF→ VHALF→ VHALF→ 0.5V/div. 100µs/div. 4 CRGPRV ID search Insaide → Outside 5 FD1 0.5V/div. 1ms/div. Focus close VHALF→ 2 TD1 Play TD 0.5V/div.20ms/div. B VHALF→ VHALF→ VHALF→ 0.5V/div.500µs/div. 5 FD1 Focus jamp L 0 → L1 0.5V/div.500µs/div. 5 FD1 Focus jamp L1 → L 0 0.5V/div.20ms/div. C VHALF→ VHALF→ VHALF→ 5 FD1 Play TD D E F AVH-P5700DVD/EW 5 6 7 8 63 1 2 3 4 3.8 COMPOUND UNIT(A), COMPOUND UNIT(B) AND RELAY PCB D A COMPOUND UNIT(A) R1298 6 0R0 C 1/2 Q1299 R1299 0R0 CPT231SCTD 8cm 5 CN1231 DISC SENS 4 CSN1069 8cm B S1205 CSN1070 3 CSN1069 2 CSN1069 12cm DISC SENS S1203 CSN1070 S1204 S1202 S1201 1 C E M RELAY PCB COMPOUND UNIT(B) CLAMP C 1/2 D M2 CARRIAGE MOTOR CXC4314 CN1201 C 1/2 E F D E M 64 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 3.9 PU UNIT(REFERENCE) Iop78 A 24 L2 IC1 GND L1 78LD LC C4 C6 Ishf Vshf : 4V Short round 23 Vcc L3 GND C7 C3 L4 C2 B 78LD 65LD 15 17 C1 LDGND Iop65 65LD 16 C5 R1 26 Short round LDGND 65MD up 25 07 Top View VR2/ 65Rmd L6 Im VR1/ 78Rmd Im/ 2 MDC 9 8 B1 B2 A 08 78MD 05 78MDG 06 MDG 09 16 15 14 R2 Vmda MDA RF- C 65MDG Im/ 2 MDA B1 1 2 B2 3 RF- C 1/2 CN1101 SW 12 Vcc C8 B3 RF+ 13 GND B4 C 4 B3 5 RF+ 6 B4 7 C 13 12 11 10 D 14 Vr C9 Vref : 2.5V GND TH1 22 21 C10 TEMP Vcc SW A NC T- T+ F- F+ 20 19 18 17 27 02 E 01 03 04 F AVH-P5700DVD/EW 5 6 7 8 65 1 2 3 4 3 4 3.10 INVERTER PCB A B CN4521 B C > D E F F 66 AVH-P5700DVD/EW 1 2 5 6 7 8 A MONITOR UNIT Consists of MONITOR PCB INVERTER PCB UPPER PCB F INVERTER PCB B LCD MODULE C 15K(B) D E F F AVH-P5700DVD/EW 5 6 7 8 67 1 2 3 4 3 4 3.11 RGB UNIT A B C D A 1/2 CN154 E F G 68 AVH-P5700DVD/EW 1 2 5 6 7 8 A G RGB UNIT DIGITAL OUTPUT B A 1/2 CN151 C D E F G AVH-P5700DVD/EW 5 6 7 8 69 1 2 3 4 3 4 3.12 UPPER PCB A B B CN4591 C D E F H 70 AVH-P5700DVD/EW 1 2 5 6 7 8 A MONITOR UNIT Consists of MONITOR PCB INVERTER PCB UPPER PCB B H UPPER PCB C D FLIP DOWN E F H AVH-P5700DVD/EW 5 6 7 8 71 1 2 3 4 3 4 3.13 KEYBOARD UNIT A B C D EW UC E F I 72 AVH-P5700DVD/EW 1 2 5 6 7 8 A I KEYBOARD UNIT B A 1/2 CN101 C D EW EW E EW F I AVH-P5700DVD/EW 5 6 7 8 73 74 F A 1/2 1 2 7 4 (Deg.0:L) B 3 (Deg.0:L) (EJECT:L) M3001 Angle motor Angle operation CXB9516 M3002 Position motor CXB9515 Horizon operation VOLUME UNIT Photo pulse output Photo pulse driver Note:It comes out lower about 1.5v than Vcc. Motor driver 2 3 Angle sense K SW UNIT LIFT SW ANGLE SW CN175 J K L AVH-P5700DVD/EW 4 (EJECT:L) 5V regulator for sense Position motor Angle motor Angle motor Position motor Position motor:H Angle motor:H L Short round (Open) (High speed:L, Low speed:H) E Angle sense volume power supply switch Regulator output Voltage adj. input D 8 Regulator for driver MAIN UNIT C 6 2 5 1 3 J 1 4 3.14 MAIN UNIT, SW UNIT AND VOLUME UNIT A 5 - Waveforms • CLOSE -> OPEN 1 CH1:MTR2 3 CH3:LIFTSW 6 7 8 The encircled number denote measuring pointes in the circuit diagram. 2 CH2:MTRSEL 4 CH4:LFTPLS • MAX -> Deg.0 DOWN 5 CH1:MTR1 6 CH3:ANGLSW 2 CH2:MTRSEL 7 CH4:ANGLIN A B • OPEN -> CLOSE 1 CH1:MTR2 3 CH3:LIFTSW 2 CH2:MTRSEL 4 CH4:LFTPLS • Set back open -> Set 1 CH1:MTR2 3 CH3:LIFTSW 8 CH2:MTRS 4 CH4:LFTPLS C D • 0->MAX 5 CH1:MTR1 6 CH3:ANGLSW 2 CH2:MTRSEL 7 CH4:ANGLIN E F AVH-P5700DVD/EW 5 6 7 8 75 1 2 3 4 4. PCB CONNECTION DIAGRAM 4.1 MOTHER UNIT A NOTE FOR PCB DIAGRAMS 1.The parts mounted on this PCB include all necessary parts for several destination. For further information for respective destinations, be sure to check with the schematic diagram. 2.Viewpoint of PCB diagrams A CN9 150 140 Capacitor Connector G ANTENNA CABLE MOTHER UNIT SIDE A FM/AM TUNER UNIT 130 B Chip Part P.C.Board SIDE B 120 110 G CN954 C CN1901 100 C 90 80 J CN3801 70 D 60 50 B CN4541 40 E 30 20 C CN1551 10 F Y 0 A 76 X 10 20 30 40 50 60 F AVH-P5700DVD/EW 1 2 70 3 4 5 G 6 7 8 A M771 FAN MOTOR(REAR) CN952 SIDE A CORD ASSY(RCA) CORD ASSY(VIDEO IN) RCA OUT CORD ASSY(POWER SUPPLY) CORD ASSY(AV-BUS) CORD ASSY(IP-BUS) B VIDEO IN AV-BUS IN IP-BUS IN C D E M781 FAN MOTOR (CENTER) 70 80 90 100 110 120 130 140 150 160 170 A FRONT AVH-P5700DVD/EW 5 6 7 F 8 77 1 A 2 A 3 4 MOTHER UNIT B TP614 C D E VCRV VCRVG F 170 A 78 160 150 140 130 120 110 100 AVH-P5700DVD/EW 1 2 3 4 90 80 5 6 7 8 A SIDE B 150 140 130 B 120 110 14 100 C PCL 90 80 70 TP190 D 60 50 40 E TP803 30 I CN5501 20 10 Y 90 80 70 60 50 40 30 20 F 0 10 A X AVH-P5700DVD/EW 5 6 7 8 79 1 2 3 4 4.2 MONITOR PCB A B MONITOR PCB TOUCH PANEL A CN171 B C D E F H CN4301 FRONT B 80 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A SIDE A F 71 CN5001 LCD MODULE B C D E F ONT B AVH-P5700DVD/EW 5 6 7 8 81 1 2 3 4 A B MONITOR PCB B COMDC VC3 C GO3 RO4 R03 VM12 RO5 V18 VC9 GO2 GO4 RO2 GO5 VC1 BO4 BO3 BO5 BO2 VC5 VC7 V5 ANG1 CSYNC ANB1 ANR1 COM D V15 V25 E F B 82 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A SIDE B B CVBS1 YSIN V14 C V33 D 5 V25 E V8 F B AVH-P5700DVD/EW 5 6 7 8 83 1 2 3 4 4.3 DVD CORE UNIT C A DVD CORE UNIT M1 PICKUP U E B M3 M C ANAMONI AGND R1698 R1697 D E F A C 84 CN152 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 SIDE A A IC,Q PICKUP UNIT(SERVICE) B M3 M C D E F A CN181 C AVH-P5700DVD/EW 5 6 7 8 85 1 2 C IC,Q A 3 4 3 4 DVD CORE UNIT B C D E F C 86 AVH-P5700DVD/EW 1 2 5 6 7 8 SIDE B A B C D E D F C AVH-P5700DVD/EW 5 6 7 8 87 1 2 3 4 4.4 COMPOUND UNIT(A), COMPOUND UNIT(B) AND RELAY PCB D E COMPOUND UNIT(A) A COMPOUND UNIT(B) Q1299 R1298 CLAMP R1299 S1205 8cm C B S1204 DISC SENS S1203 DISC SENS M RELAY PCB C S1202 8cm D M2 C CN1201 E 12cm S1201 6 1 C F CN1231 D E M 88 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 4.5 INVERTER PCB INVERTER PCB SIDE A F INVERTER PCB SIDE B A LCD MODULE FL2 FL1 B C GNDF2 ENT D WIDE INVPUL E DIMDTY B V.ADJ F CN4521 F F AVH-P5700DVD/EW 5 6 7 8 89 1 2 3 4 4.6 RGB UNIT A G RGB UNIT SIDE A DIGITAL OUTPUT 40 RGB INPUT B 30 20 C 10 Y 0 X 10 20 30 40 50 A D 60 70 CN151 G RGB UNIT SIDE B E F G 90 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 4.7 UPPER PCB H UPPER PCB SIDE B A FLIP DOWN SIDE A OPEN/CLOSE UPPER PCB B C D E TA/NEWS(EW) PGM(UC) B CN4591 INFO H F H AVH-P5700DVD/EW 5 6 7 8 91 EJECT 20 20 10 30 30 10 VOL- 40 40 X X 50 SRC ANGLE- 50 60 80 ANGLE+ 70 90 ATT 100 EQ 110 120 BAND 130 140 BOOK.M DOWN 150 LEFT A.MENU 160 RIGHT 2 SIDE A I 20 10 3 Y 0 0 60 Y 70 10 80 2 90 1 100 I 110 F 120 D 130 C 140 92 KEYBOARD UNIT 150 DSENSE UP I 20 RESET A 160 VOL+ 1 3 4 4.8 KEYBOARD UNIT KEYBOARD UNIT SIDE B B CN101 A E AVH-P5700DVD/EW 4 5 6 7 8 4.9 SW UNIT AND VOLUME UNIT A K SW UNIT J CN3807 B ANGLE SW LIFT SW C L D VOLUME UNIT E ANGLE SENSE J CN3809 F K L AVH-P5700DVD/EW 5 6 7 8 93 1 2 3 4 4.10 MAIN UNIT A J SIDE A MAIN UNIT L CN3841 CN3842 CN3843 B C D K E CN3831 CN3832 CN3833 A CN175 F J 94 AVH-P5700DVD/EW 1 2 3 4 5 6 J 7 8 A SIDE B MAIN UNIT B C D E F J AVH-P5700DVD/EW 5 6 7 8 95 1 2 3 4 5. ELECTRICAL PARTS LIST A B NOTE: • Parts whose parts numbers are omitted are subject to being not supplied. • The part numbers shown below indicate chip components. Chip Resistor RS1/_S___J,RS1/__S___J Chip Capacitor (except for CQS.....) CKS....., CCS....., CSZS..... • The > mark found on some component parts indicatesthe importance of the safety factor of the part. Therefore, when replacing, be sure to use parts of identical designation. • Meaning of the figures and others in the parentheses in the parts list. Example) IC 301 is on the point (face A, 91 of x-axis, and 111 of y-axis) of the corresponding PC board. IC 301 (A, 91, 111) IC NJM2068V Circuit Symbol and No. C D : CWM9808 : CWM9815 : CWM9820 : NSP : NSP : NSP : NSP : CWX3170 : CWX3154 : CWX3156 : CZW3087 : CZW3088 : CZW3089 AVH-P5700DVD/UC E F Mother Unit RGB Unit Monitor Unit Monitor PCB Inverter PCB Upper PCB Keyboard Unit DVD Core Unit Compound Unit(A) Compound Unit(B) Main Unit SW Unit Volume Unit : CWM9809 : CWM9816 : CWM9821 : NSP : NSP : NSP : NSP : CWX3170 : CWX3154 : CWX3156 : CZW3087 : CZW3088 : CZW3089 A Unit Number:CWM9809(UC) Unit Number:CWM9808(EW) Unit Name:Mother Unit 96 Part No. MISCELLANEOUS AVH-P5700DVD/EW Mother Unit RGB Unit Monitor Unit Monitor PCB Inverter PCB Upper PCB Keyboard Unit DVD Core Unit Compound Unit(A) Compound Unit(B) Main Unit SW Unit Volume Unit Circuit Symbol and No. Part No. IC 121 IC 151 IC 181 IC 182 IC 201 (B,115,96) IC (B,42,94) IC (A,46,81) IC (A,50,82) IC (B,145,63) IC HA12240FP TC4S81F TC74VHC08FTS1 TC7SET08FUS1 PML009A IC 241 IC 301 IC 302 IC 303 IC 421 (A,155,128) IC (B,127,91) IC (B,138,84) IC (B,136,97) IC (B,126,51) IC PAL007B NJM4558V NJM4558V NJM4580V NJM4558MD IC 441 IC 451 IC 461 IC 501 IC 521 (A,147,46) IC (A,132,46) IC (B,59,86) IC (B,145,14) IC (A,162,17) IC TA2050F TA2050F NJM2138V CXA2089Q NJM2136V IC 522 IC 541 IC 551 IC 561 IC 571 (A,160,29) IC (B,36,72) IC (B,127,17) IC (B,124,31) IC (B,135,31) IC BA7623F SM5304AV NJM2136V NJM2136V NJM2136V IC 581 IC 601 IC 681 IC 801 (B,146,31) IC (B,87,81) IC (UC) (B,87,81) IC (EW) (B,94,43) IC (A,41,40) IC NJM2136V PE5485A PE5484A S-80841CNUA-B82 AN8011S IC 831 IC 841 IC 851 IC 856 IC 871 (B,19,92) IC (B,112,24) IC (A,70,21) IC (A,57,64) IC (A,168,100) IC BA00BC0WFP S-812C50AUA-C3E S-818A35AUC-BGP S-814A33AMC-BCX NJM2388F84 IC 881 Q 101 Q 121 Q 131 Q 151 (B,25,146) IC (B,97,29) Transistor (B,123,107) Transistor (A,83,109) Transistor (B,49,102) Transistor NJM2391DL1-33 UMF23N UMF23N 2SC4081 2SC4081 Q Q Q Q (B,47,76) Transistor (B,47,73) Transistor (B,146,88) Transistor (B,146,93) Transistor IMD2A IMX9 DTC124EU DTC144EU 181 182 241 242 AVH-P5700DVD/EW 1 2 3 4 5 6 Circuit Symbol and No. 7 Part No. 8 Circuit Symbol and No. Part No. Q 243 (B,150,84) Transistor IMD2A D 107 (B,94,26) Diode UDZS5R6(B) Q Q Q Q Q 244 245 261 262 281 (A,147,84) Transistor (B,152,77) Transistor (A,116,106) Transistor (A,109,106) Transistor (A,102,106) Transistor (UC) 2SC4081 IMD2A IMX9 IMX9 IMX9 D D D D D 151 152 241 242 243 (B,46,93) Diode Network (B,42,97) Diode Network (B,144,85) Diode (B,156,79) Diode (B,144,82) Diode DA204U DA204U DAN202U RSX201L-30 DAN202U Q Q Q Q Q 301 302 303 401 402 (B,133,83) (B,132,86) (B,126,81) (B,73,110) (B,72,106) IMD2A DTC323TU DTC124EU IMH2A IMH2A D D D D D 244 245 246 421 681 (A,146,89) (A,159,71) (B,149,81) (B,123,57) (B,100,44) 1SS355 UDZS8R2(B) DAN202U UDZS3R9(B) 1SS355 Q Q Q Q Q 461 511 512 521 551 (A,59,82) Transistor (A,135,5) Transistor (A,125,8) Transistor (B,161,19) Transistor (A,125,14) Transistor 2SC4081 2SC4081 2SA1577 2SC4081 2SC4081 D D D D D 691 692 701 702 703 (B,109,53) Diode (B,113,53) Diode (B,130,152) Diode (B,124,152) Diode (A,139,102) Diode 1SS355 1SS355 S1G-6904G2P S1G-6904G2P DAN202U Q Q Q Q Q 561 571 581 601 691 (A,124,28) (A,134,28) (A,145,28) (B,104,83) (A,107,55) Transistor Transistor Transistor Transistor Transistor 2SC4081 2SC4081 2SC4081 DTC124EU DTA114EU D D D D D 704 705 706 707 708 (B,132,108) (A,136,108) (B,126,111) (B,139,105) (A,103,138) UDZS6R8(B) HZU7L(A1) HZU7L(C3) DAN202U 5KP24A Q Q Q Q Q 692 693 694 695 696 (A,112,52) (A,112,55) (B,109,49) (B,112,49) (B,106,50) Transistor Transistor Transistor Transistor Transistor DTC144EU DTC114EU 2SC4081 2SC4081 2SC4081 D D D D D 771 772 773 781 782 (B,70,141) Diode (B,65,142) Diode (B,62,145) Diode (B,73,42) Diode (B,69,37) Diode HZU9R1(B2) HZU6R8(B3) HZU8R2(B2) HZU7R5(B2) HZU6R8(B3) Q Q Q Q Q 701 702 703 704 705 (B,12,19) Transistor (B,9,29) Transistor (A,142,104) Transistor (A,138,105) Transistor (A,133,102) Transistor 2SA1615-Z DTC114EU 2SA1576 2SC4081 IMX1 D D D D D 801 802 803 804 805 (A,37,32) Diode (A,52,34) Diode (A,33,46) Diode (A,47,45) Diode (A,111,132) Diode RSX201L-30 RSX201L-30 MA111 MA111 RSX201L-30 Q Q Q Q Q 706 751 752 753 754 (A,142,109) Transistor (B,50,11) Transistor (B,50,9) Transistor (B,58,11) Transistor (EW) (B,58,9) Transistor (EW) 2SA1576 2SA1577 DTC144EU 2SA1577 DTC144EU D D D D D 806 831 841 842 851 (A,107,129) Diode (B,26,60) Diode (A,139,56) Diode (A,157,52) Diode (A,66,26) Diode RSX201L-30 S2G-6600 1SR154-400 UDZS18(B) SC802-06 Q Q Q Q Q 755 756 771 772 773 (B,44,11) Transistor (B,44,9) Transistor (B,72,146) Transistor (B,67,139) Transistor (B,61,148) Transistor 2SA1577 DTC144EU 2SD1760F5 DTC144EU UMF5N D D D D D 881 882 883 891 892 (B,40,143) Diode (B,45,141) Diode (B,48,146) Diode (B,165,73) Diode (B,152,104) Diode 1SR154-400 1SR154-400 1SR154-400 UDZS5R6(B) HZU9R1(B3) Q Q Q Q Q 774 781 782 783 801 (B,62,141) Transistor (B,67,45) Transistor (B,73,46) Transistor (B,72,37) Transistor (A,27,44) Transistor DTC144EU 2SD1760F5 UMF5N DTC114EU 2SJ529S ZNR401 L 101 L 121 L 151 L 171 (B,9,99) Surge Protector (A,99,19) Inductor (B,117,91) Inductor (A,65,96) Inductor (A,14,63) Inductor RCCA-201Q31UA-PI CTF1399 LCTC2R2K1608 CTF1473 CTF1383 Q Q Q Q Q 802 803 804 805 806 (A,53,41) (A,33,43) (A,48,48) (B,44,37) (B,51,39) 2SJ529S 2SC4097 2SC4097 DTC124EU DTC114EU L L L L L 172 181 182 183 184 (A,6,55) Inductor (A,35,79) Inductor (A,35,81) Inductor (B,31,88) Inductor (A,43,86) Inductor CTF1473 CTF1473 CTF1473 CTF1399 CTF1305 Q Q Q Q Q 841 842 861 864 867 (B,108,34) Transistor (A,156,56) Transistor (A,72,14) Transistor (A,66,98) Transistor (A,99,25) Transistor 2SB1184F5 2SD1767 UMF5N UMF5N UMF5N L L L L L 185 187 201 301 302 (A,50,77) Inductor (A,40,86) Inductor (A,135,69) Inductor (A,130,90) Inductor (B,135,79) Inductor CTF1305 CTF1473 LCTAW2R2J2520 CTF1399 CTF1399 Q Q Q D 891 892 893 101 (B,163,80) Transistor (A,167,115) Transistor (B,155,107) Transistor (A,98,22) Diode 2SD1767 2SD2396 IMD2A UDZS5R6(B) L L L L 303 401 402 403 (A,133,92) Inductor (B,63,128) Chip Coil (A,37,104) Chip Coil (B,9,102) Chip Coil CTF1399 LCTAW1R0J2520 LCTAW1R0J2520 LCTAW4R7J2520 Transistor Transistor Transistor Transistor (EW) Transistor (EW) Transistor Transistor Transistor Transistor Transistor Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode AVH-P5700DVD/EW 5 6 7 8 A B C D E F 97 1 2 Circuit Symbol and No. A B C Part No. (A,68,103) Inductor CTF1473 L L L L L 405 421 441 451 461 (B,59,109) Inductor (B,130,58) Inductor (A,153,51) Inductor (A,139,51) Inductor (A,63,91) Inductor CTF1473 CTF1399 CTF1399 CTF1399 CTF1399 L L L L L 501 511 521 522 523 (B,160,12) Chip Coil (A,133,11) Inductor (A,167,21) Inductor (A,167,29) Inductor (B,118,115) Inductor LCTAW100J2520 CTF1399 CTF1399 LCTAW150J2520 CTF1383 L L L L L 541 551 561 571 581 (B,43,68) Inductor (B,125,11) Inductor (B,123,24) Inductor (B,135,23) Inductor (B,145,25) Inductor CTF1399 CTF1399 CTF1399 CTF1399 CTF1399 L L L L L 601 602 603 604 701 (B,82,95) (B,84,95) (B,94,62) (B,77,97) (A,24,58) CTF1306 CTF1306 LCTAW2R2J2520 CTF1473 CTH1267 L L L L L 702 703 704 705 801 (A,22,8) Inductor (B,143,101) Inductor (B,132,110) Inductor (B,138,108) Inductor (A,29,33) Coil CTH1262 LCTC2R2K1608 CTF1295 LCTC2R2K1608 CTH1303 L L L L L 802 803 804 851 856 (A,52,28) (A,49,61) (A,38,49) (A,75,22) (A,59,66) CTH1303 CTH1253 LCTAW100J2520 CTF1383 CTF1383 Inductor Inductor Inductor Inductor Coil Coil Inductor Inductor Inductor Inductor (B,103,91)Radiator 18.874368MHz CSS1622 (A,45,31)Semi-fixed 10kΩ(B) CCP1396 (B,94,115) Fuse 3A CEK1286 (B,41,102) Fuse 3A CEK1286 (A,95,132) Fuse 3A (A,15,71) Fuse 1.75A (B,62,68) Fuse 1A (B,104,127) Fuse 3A (A,16,53) Fuse 1.25A CEK1286 CEK1283 CEK1280 CEK1286 CEK1281 > FU702 > FU703 > FU771 > FU781 FU801 > E (A,17,16) Fuse 1.75A (B,126,149) Fuse 3A (B,64,147) Fuse 1A (A,76,36) Fuse 1A (A,27,27) Fuse 2.5A CEK1283 CEK1286 CEK1280 CEK1280 CEK1285 (A,54,22) Fuse 2.5A (A,57,59) Fuse 2.5A (A,101,31) Fuse 1A (A,83,10) Buzzer CEK1285 CEK1285 CEK1280 CPV1063 BZ601 RESISTORS R R R R R 101 102 103 104 105 (B,72,26) (B,72,27) (B,70,29) (B,75,30) (B,89,42) RS1/16S472J RS1/16S472J RS1/16S472J RAB4C222J RS1/16S102J R 106 R 107 (B,91,42) (B,95,35) RS1/16S102J RS1/16S222J 98 Part No. R 108 R 109 R 121 (B,98,26) (B,100,28) (B,114,93) RS1/16S332J RS1/16S332J RS1/16S102J R R R R R 122 123 124 125 126 (B,120,96) (B,123,98) (B,125,98) (B,125,99) (B,122,110) RS1/16S101J RS1/16S150J RS1/16S470J RS1/16S101J RS1/16S222J R R R R R 127 128 131 132 133 (B,126,107) (B,124,104) (A,86,111) (A,83,112) (A,86,108) RS1/16S332J RS1/16S562J RS1/16S473J RS1/16S473J RS1/16S473J R R R R R 151 152 153 154 155 (B,52,98) (B,65,98) (B,60,98) (B,56,98) (B,44,102) RS1/16S750J RS1/16S750J RS1/16S750J RS1/16S750J RS1/16S681J R R R R R 156 157 158 159 160 (B,48,96) (B,46,102) (B,45,97) (B,48,92) (B,43,99) RS1/16S473J RS1/16S473J RS1/16S681J RS1/16S473J RS1/16S473J R R R R R 171 172 174 175 176 (B,5,52) (A,5,58) (A,15,56) (B,13,55) (B,11,54) RS1/16S0R0J RS1/16S0R0J RS1/16S102J RS1/16S0R0J RS1/16S0R0J R R R R R 177 178 179 181 182 (B,9,59) (A,5,53) (A,5,63) (A,40,82) (A,36,85) RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J RAB4C102J RAB4C102J R R R R R 184 185 187 188 201 (A,46,74) (A,48,74) (B,43,71) (B,51,72) (B,137,53) RS1/16S103J RS1/16S103J RS1/16S0R0J RS1/16S0R0J RS1/16S181J R R R R R 202 203 204 205 206 (B,148,52) (B,135,55) (B,151,52) (B,135,56) (B,155,51) RS1/16S181J RS1/16S223J RS1/16S223J RS1/16S102J RS1/16S102J R R R R R 207 208 209 210 211 (B,140,51) (B,147,49) (B,136,60) (A,148,57) (B,130,71) RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J R R R R R 212 213 214 215 216 (B,149,72) (B,134,67) (B,154,71) (B,135,68) (B,156,69) RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J R R R R R 217 218 241 242 243 (B,145,110) (B,150,113) (B,150,93) (B,146,90) (B,151,90) RS1/16S471J RS1/16S471J RS1/16S103J RS1/16S103J RS1/16S221J R 244 R 245 (B,141,108) (B,146,101) RS1/16S103J RS1/16S473J (A,130,13)Semi-fixed 1.5kΩ(B) CCP1391 > FU152 > FU175 > FU176 > FU261 > FU701 > FU802 > FU803 > FU861 4 Circuit Symbol and No. L 404 X 601 VR511 VR801 > FU131 D > FU151 F 3 AVH-P5700DVD/EW 1 2 3 4 5 Circuit Symbol and No. 6 7 Part No. Circuit Symbol and No. 8 Part No. R 246 R 247 R 248 (B,149,90) (B,153,83) (A,148,87) RS1/16S101J RS1/16S222J RS1/16S103J R 407 R 408 R 410 (B,32,109) (A,73,101) (EW) (A,30,6) RS1/16S681J RAB4C223J RS1/16S0R0J R R R R R 249 250 251 252 261 (A,144,81) (A,143,84) (A,146,87) (B,155,74) (B,107,112) RS1/16S104J RS1/16S473J RS1/16S101J RS1/16S222J RS1/16S821J R R R R R 421 422 423 424 427 (B,116,58) (B,117,58) (B,120,56) (B,120,57) (B,121,51) RS1/16S103J RS1/16S103J RS1/16S103J RS1/16S103J RS1/16S103J R R R R R 262 263 264 265 266 (B,103,112) (B,115,112) (B,111,109) (A,108,103) (A,111,103) RS1/16S821J RS1/16S821J RS1/16S821J RS1/16S103J RS1/16S103J R R R R R 428 429 430 431 441 (B,131,51) (B,120,49) (B,133,49) (B,128,59) (B,151,39) RS1/16S103J RS1/16S103J RS1/16S103J RS1/16S681J RS1/16S102J R R R R R 267 268 269 270 271 (A,114,103) (A,118,103) (B,106,114) (B,103,114) (B,115,114) RS1/16S103J RS1/16S103J RS1/16S223J RS1/16S223J RS1/16S223J R R R R R 442 443 444 445 446 (B,141,42) (B,148,41) (B,146,41) (B,150,41) (B,143,41) RS1/16S102J RS1/16S181J RS1/16S181J RS1/16S223J RS1/16S223J R R R R R 272 281 282 283 284 (B,111,114) (B,100,114) (UC) (B,97,114) (UC) (A,101,103) (UC) (A,104,103) (UC) RS1/16S223J RS1/16S821J RS1/16S821J RS1/16S103J RS1/16S103J R R R R R 447 448 451 452 453 (A,141,24) (A,141,23) (B,137,41) (B,127,40) (B,133,41) RS1/16S562J RS1/16S562J RS1/16S123J RS1/16S123J RS1/16S123J R R R R R 285 286 287 288 289 (B,100,115) (UC) (B,97,115) (UC) (B,102,105) (EW) (B,97,105) (EW) (A,92,131) (EW) RS1/16S223J RS1/16S223J RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J R R R R R 454 455 456 457 458 (B,131,41) (B,134,41) (B,130,41) (B,136,41) (B,127,42) RS1/16S123J RS1/16S223J RS1/16S223J RS1/16S223J RS1/16S223J R R R R R 293 301 302 303 304 (B,104,130) (UC) (B,121,90) (B,124,90) (B,124,93) (B,131,94) RS1/16S0R0J RS1/16S101J RS1/16S473J RS1/16S473J RS1/16S472J R R R R R 459 460 461 462 463 (B,120,44) (B,120,42) (B,51,91) (B,54,84) (B,53,91) RS1/16S562J RS1/16S562J RS1/16S472J RS1/16S472J RS1/16S472J R R R R R 305 306 307 308 309 (B,127,95) (B,136,89) (B,137,89) (B,134,89) (B,131,89) RS1/16S472J RS1/16S473J RS1/16S103J RS1/16S103J RS1/16S821J R R R R R 464 465 466 467 468 (B,57,81) (B,55,91) (B,54,88) (B,57,91) (B,59,81) RS1/16S472J RS1/16S472J RS1/16S472J RS1/16S472J RS1/16S472J R R R R R 310 311 312 313 314 (B,130,88) (A,136,97) (A,134,97) (B,145,96) (B,142,96) RS1/16S473J RS1/16S103J RS1/16S103J RS1/16S103J RS1/16S103J R R R R R 469 470 471 472 473 (B,66,91) (B,64,84) (B,64,91) (B,62,81) (B,62,91) RS1/16S472J RS1/16S472J RS1/16S472J RS1/16S472J RS1/16S472J R R R R R 315 316 317 318 319 (B,141,83) (B,133,94) (A,138,97) (A,132,100) (B,143,110) RS1/16S103J RS1/16S103J RS1/16S103J RS1/16S103J RS1/16S471J R R R R R 474 475 476 477 478 (B,64,88) (B,60,91) (B,60,81) (A,54,77) (A,56,77) RS1/16S472J RS1/16S472J RS1/16S472J RS1/16S101J RS1/16S101J R R R R R 320 321 322 323 324 (B,146,110) (B,139,90) (B,124,87) (B,127,85) (A,130,81) RS1/16S471J RS1/16S104J RS1/16S473J RS1/16S473J RS1/16S473J R R R R R 479 480 481 482 483 (A,59,77) (A,57,77) (A,54,79) (A,58,84) (A,54,82) RS1/16S101J RS1/16S101J RS1/16S102J RS1/16S272J RS1/16S472J R R R R R 325 401 402 403 404 (B,125,84) (B,54,106) (B,40,109) (EW) (B,38,109) (B,37,109) RS1/16S102J RS1/16S681J RS1/16S681J RS1/16S681J RS1/16S681J R R R R R 491 501 502 503 504 (B,70,127) (B,155,8) (B,149,28) (B,127,28) (B,130,13) RS1/16S0R0J RS1/16S0R0J RS1/16S272J RS1/16S272J RS1/16S272J (B,35,109) (B,34,109) RS1/16S681J RS1/16S681J R 511 R 512 (A,136,8) (A,137,10) RS1/16S222J RS1/16S222J A R 405 R 406 AVH-P5700DVD/EW 5 6 7 8 B C D E F 99 1 Circuit Symbol and No. 2 3 Part No. 4 Circuit Symbol and No. Part No. R 513 R 514 R 515 (A,132,8) (A,132,6) (A,130,9) RS1/16S681J RS1/16S681J RS1/16S331J R 588 R 589 R 590 (A,145,31) (A,141,31) (B,148,24) RS1/16S272J RS1/16S472J RS1/16S0R0J R R R R R 516 517 518 521 522 (A,128,9) (A,129,6) (A,17,64) (A,160,12) (A,158,14) RS1/16S272J RS1/16S0R0J RS1/16S0R0J RS1/16S472J RS1/16S472J R R R R R 601 602 603 604 605 (B,72,70) (B,72,68) (B,72,66) (A,109,65) (B,112,68) RS1/16S102J RS1/16S102J RS1/16S102J RAB4C102J RS1/16S473J R R R R R 523 524 526 527 528 (B,162,21) (B,164,19) (A,162,20) (B,159,16) (B,158,19) RS1/16S272J RS1/16S392J RS1/16S101J RS1/16S472J RS1/16S102J R R R R R 606 607 608 609 610 (B,69,75) (B,71,79) (B,68,80) (B,71,84) (EW) (B,98,57) RAB4C102J RAB4C102J RS1/16S102J RAB4C101J RS1/16S473J R R R R R 529 530 531 532 533 (B,164,14) (B,166,15) (A,164,29) (A,164,32) (B,162,27) RS1/16S472J RS1/16S101J RS1/16S473J RS1/16S333J RS1/16S560J R R R R R 612 613 614 615 616 (B,98,46) (B,92,18) (B,93,16) (A,73,98) (EW) (A,77,100) RS1/16S102J RS1/16S473J RS1/16S0R0J RS1/16S681J RS1/16S221J R R R R R 534 543 546 547 548 (B,162,29) (B,33,72) (B,38,66) (B,33,66) (B,139,5) RS1/16S150J RS1/16S332J RS1/16S101J RS1/16S102J RS1/16S0R0J R R R R R 617 618 619 620 621 (B,88,112) (B,88,115) (B,90,112) (B,90,115) (B,96,99) RS1/16S102J RS1/16S473J RS1/16S102J RS1/16S473J RS1/16S473J R R R R R 551 552 553 554 555 (A,127,24) (A,126,21) (A,128,21) (B,130,11) (A,128,17) RS1/16S750J RS1/16S472J RS1/16S472J RS1/16S101J RS1/16S472J R R R R R 622 623 624 625 626 (B,96,97) (B,96,17) (B,97,14) (B,92,15) (B,98,96) (EW) RS1/16S102J RAB4C102J RS1/16S473J RS1/16S473J RS1/16S473J R R R R R 556 557 558 559 560 (B,124,17) (A,122,13) (A,125,18) (A,123,19) (B,133,9) RS1/16S472J RS1/16S102J RS1/16S272J RS1/16S472J RS1/16S0R0J R R R R R 627 628 629 630 631 (B,103,54) (A,110,59) (B,111,71) (B,103,87) (B,109,69) RS1/16S102J RS1/16S102J RS1/16S104J RS1/16S151J RS1/16S104J R R R R R 561 562 563 564 565 (A,124,38) (A,124,35) (A,125,35) (B,128,24) (A,126,31) RS1/16S750J RS1/16S472J RS1/16S472J RS1/16S101J RS1/16S472J R R R R R 632 633 634 635 636 (B,158,39) (B,158,38) (B,108,64) (B,103,80) (B,108,84) RS1/16S472J RS1/16S472J RAB4C102J RS1/16S473J RS1/16S472J R R R R R 566 567 568 569 570 (B,121,31) (A,119,27) (B,135,16) (A,123,31) (A,119,30) RS1/16S472J RS1/16S102J RS1/16S0R0J RS1/16S272J RS1/16S472J R R R R R 637 639 641 642 643 (B,109,71) (B,108,72) (B,105,72) (B,101,73) (B,101,70) RS1/16S104J RS1/16S681J RS1/16S681J RS1/16S102J RS1/16S102J R R R R R 571 572 573 574 575 (A,134,38) (A,134,35) (A,135,35) (B,137,25) (A,137,31) RS1/16S750J RS1/16S472J RS1/16S472J RS1/16S101J RS1/16S472J R R R R R 644 645 646 647 648 (B,104,64) (B,101,64) (B,98,58) (A,100,61) (A,100,58) RS1/16S473J RAB4C681J RS1/16S104J RS1/16S681J RS1/16S681J R R R R R 576 577 578 579 580 (B,132,31) (A,130,28) (A,134,31) (A,130,31) (B,141,24) RS1/16S472J RS1/16S102J RS1/16S272J RS1/16S472J RS1/16S0R0J R R R R R 649 651 652 653 654 (A,101,53) (B,92,66) (B,77,57) (B,75,59) (B,76,63) RS1/16S473J RS1/16S473J RS1/16S681J RS1/16S101J RS1/16S473J R R R R R 581 582 583 584 585 (A,145,38) (A,144,35) (A,145,35) (B,148,25) (A,146,31) RS1/16S750J RS1/16S472J RS1/16S472J RS1/16S101J RS1/16S472J R R R R R 661 663 671 672 673 (A,96,55) (A,94,55) (A,84,53) (A,88,55) (A,92,55) RS1/16S473J RS1/16S473J RS1/16S103J RS1/16S473J RS1/16S473J R 586 R 587 (B,143,31) (A,141,28) RS1/16S472J RS1/16S102J R 681 R 691 (B,98,43) (A,110,55) RS1/16S104J RS1/16S103J A B C D E F 100 AVH-P5700DVD/EW 1 2 3 4 5 Circuit Symbol and No. 6 7 Part No. R 692 R 693 R 694 (A,109,50) (A,106,51) (B,109,56) RS1/16S223J RS1/16S473J RS1/16S472J R R R R R 695 696 697 702 703 (B,112,56) (B,106,48) (B,105,54) (B,16,24) (B,13,24) RS1/16S472J RS1/16S473J RS1/16S473J RS1/16S153J RS1/10S301J R R R R R 704 705 706 707 708 (B,9,24) (A,144,101) (A,143,101) (A,144,105) (B,143,100) RS1/10S301J RS1/16S102J RS1/16S473J RS1/16S473J RS1/16S103J R R R R R 709 710 711 712 713 (A,142,107) (B,134,103) (B,134,106) (B,129,109) (B,131,103) RS1/16S473J RS1/16S103J RS1/16S103J RS1/16S103J RS1/16S103J R R R R R 714 715 716 717 718 (A,134,105) (A,132,107) (B,128,105) (B,124,111) (A,143,112) RS1/16S473J RS1/16S472J RS1/16S104J RS1/16S473J RS1/16S102J R R R R R 719 720 721 751 752 (A,140,109) (A,138,108) (B,138,109) (B,48,9) (B,48,11) RS1/16S472J RS1/16S472J RS1/16S153J RS1/16S472J RS1/16S223J R R R R R 753 754 755 756 771 (B,55,9) (EW) (B,56,11) (EW) (B,41,9) (B,41,11) (B,71,150) RS1/16S472J RS1/16S223J RS1/16S472J RS1/16S223J RS1/16S271J R R R R R 772 773 774 775 776 (B,69,150) (B,66,150) (B,58,147) (B,58,150) (B,73,90) RS1/16S271J RS1/16S271J RS1/16S103J RS1/16S103J RS1/16S0R0J R R R R R 781 782 783 784 785 (A,76,39) (B,69,55) (B,69,54) (B,69,52) (B,72,52) RS1/16S0R0J RS1/16S271J RS1/16S271J RS1/16S271J RS1/16S103J R R R R R 786 788 801 802 803 (B,73,50) (B,66,56) (B,34,34) (B,37,34) (B,35,31) RS1/16S103J RS1/16S0R0J RS1/16S3901D RS1/16S4701D RS1/16S2202D R R R R R 804 805 806 807 808 (B,35,34) (B,47,33) (B,48,38) (B,48,30) (B,48,33) RS1/16S2202D RS1/16S6801D RS1/16S8200D RS1/16S3900D RS1/16S3301D R R R R R 809 810 811 812 813 (A,32,49) (A,53,48) (A,35,44) (A,46,47) (A,36,44) RS1/16S560J RS1/16S560J RS1/16S272J RS1/16S272J RS1/16S221J R 814 (A,47,43) RS1/16S221J Circuit Symbol and No. 8 Part No. R R R R 815 816 817 818 (B,38,38) (A,36,37) (A,46,35) (A,47,38) RS1/16S6801D RS1/16S1502D RS1/16S6801D RS1/16S6802D R R R R R 819 820 821 822 823 (B,34,39) (B,48,40) (B,38,40) (B,44,40) (B,38,43) RS1/16S3901D RS1/16S7501D RS1/16S2203D RS1/16S4702D RS1/16S3302D R R R R R 824 825 826 829 830 (B,43,43) (A,103,130) (A,100,130) (B,54,39) (B,51,43) RS1/16S3302D RS1/16S0R0J RS1/16S0R0J RS1/16S1200D RS1/16S102J R R R R R 831 832 833 834 835 (B,14,90) (B,14,93) (B,15,84) (B,14,87) (B,23,84) RS1/16S6802D RS1/16S1202D RS1/16S1203D RS1/16S1502D RS1/16S102J R R R R R 841 842 843 844 845 (B,112,18) (A,167,68) (A,167,65) (A,165,68) (A,165,65) RS1/16S471J RS1/16S2R2J RS1/16S2R2J RS1/16S2R2J RS1/16S2R2J R R R R R 846 856 861 862 864 (A,152,54) (A,61,64) (A,75,14) (A,74,16) (A,69,98) RS1/16S222J RS1/16S473J RS1/16S103J RS1/16S332J RS1/16S103J R R R R R 865 867 868 871 872 (A,67,100) (A,99,29) (A,97,28) (B,158,83) (B,156,84) RS1/16S332J RS1/16S103J RS1/16S332J RS1/16S102J RS1/16S473J R R R R R 891 892 893 894 895 (B,164,76) (A,159,90) (B,158,110) (B,156,110) (B,156,104) RS1/16S391J RS1/16S0R0J RS1/16S101J RS1/16S101J RS1/16S101J B 6 C D CAPACITORS C C C C C 121 122 123 124 153 (B,106,98) (B,108,98) (B,121,118) (B,109,98) (B,42,92) CKSRYB102K50 CKSRYB102K50 CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 C C C C C 171 181 182 184 186 (B,5,54) (B,45,83) (A,50,79) (B,28,99) (B,28,79) CCSRCH101J50 CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CCSRCH101J50 C C C C C 187 188 201 202 203 (B,26,79) (B,32,62) (B,137,55) (B,151,53) (B,137,56) CKSRYB104K50 CKSRYB104K50 CKSRYB105K6R3 CKSRYB105K6R3 CKSRYB105K6R3 C C C C 204 205 206 207 (B,154,54) (B,140,53) (B,147,54) (B,137,51) CKSRYB105K6R3 CKSRYB224K16 CKSRYB224K16 CKSRYB105K6R3 E AVH-P5700DVD/EW 5 A 7 8 F 101 1 2 Circuit Symbol and No. A B C D E F 3 Part No. 4 Circuit Symbol and No. Part No. C 208 (B,150,49) CKSRYB105K6R3 C 309 (B,133,89) CKSRYB104K50 C C C C C 211 212 213 214 217 (B,143,51) (B,145,51) (A,139,59) (A,152,59) (A,138,61) CKSRYB105K6R3 CKSRYB105K6R3 CKSYB475K16 CKSYB475K16 CKSYB475K16 C C C C C 310 313 402 403 404 (B,139,91) (A,136,94) (B,59,128) (B,59,130) (A,68,110) CKSRYB104K50 CKSRYB104K50 CKSYB475K16 CKSRYB103K50 CEVLW470M6R3 C C C C C 218 219 220 221 222 (A,152,61) (A,137,63) (A,152,63) (A,137,65) (A,152,65) CKSYB475K16 CKSYB475K16 CKSYB475K16 CKSYB475K16 CKSYB475K16 C C C C C 405 406 407 408 409 (B,57,111) (A,32,102) (A,33,109) (B,84,116) (B,19,140) CKSRYB103K50 CKSRYB103K50 CEVLW101M10 CKSRYB102K50 CKSRYB102K50 C C C C C 223 224 225 226 227 (B,137,66) (B,153,66) (B,139,70) (B,153,71) (B,139,72) CCSRCH100D50 CCSRCH100D50 CCSRCH100D50 CCSRCH100D50 CCSRCH100D50 C C C C C 410 411 413 417 418 (B,75,137) (B,3,57) (A,68,104) (B,16,32) (B,28,7) CKSRYB102K50 CCSRCH101J50 CKSRYB104K50 CKSRYB104K50 CKSRYB102K50 C C C C C 228 229 230 231 232 (B,150,70) (A,152,69) (B,143,71) (B,143,72) (A,136,71) CCSRCH100D50 CEVLW100M16 CKSRYB104K50 CKSRYB104K50 CKSRYB102K50 C C C C C 419 421 422 423 424 (B,54,109) (B,77,110) (B,79,110) (B,120,54) (B,120,59) CKSRYB104K50 CKSRYB474K10 CKSRYB474K10 CCSRCH470J50 CCSRCH470J50 C C C C C 233 234 241 242 243 (A,145,63) (A,138,68) (B,143,113) (B,146,113) (B,143,115) CEVLW470M16 CKSRYB104K50 CKSRYB105K10 CKSRYB105K10 CKSRYB105K10 C C C C C 425 426 427 428 429 (B,126,58) (B,124,58) (B,119,51) (B,133,51) (B,120,48) CKSYB475K16 CKSRYB103K50 CCSRCH470J50 CCSRCH470J50 CKSRYB474K10 C C C C C 244 245 246 247 248 (B,146,115) (B,145,113) (B,152,115) (B,145,115) (B,155,115) CKSRYB105K10 CKSRYB105K10 CKSRYB105K10 CKSRYB105K10 CKSRYB105K10 C C C C C 430 431 441 442 443 (B,133,47) (B,126,48) (B,151,42) (B,143,43) (B,149,43) CKSRYB474K10 CKSRYB105K10 CKSRYB105K6R3 CKSRYB105K6R3 CKSRYB105K6R3 C C C C C 249 250 251 252 253 (A,153,85) (B,124,114) 10µF (A,119,127) 1000µF/16V (B,145,105) 10µF (A,160,117) CEVLW330M25 CCG1138 CCH1428 CCG1182 CKSYB475K16 C C C C C 444 445 446 447 448 (B,146,43) (A,139,25) (A,138,23) (A,145,41) (A,155,46) CKSRYB105K6R3 CKSRYB105K6R3 CKSRYB105K6R3 CKSYB475K16 CEVLW100M16 C C C C C 254 255 256 257 258 (A,157,117) (B,157,115) (A,156,77) (A,142,71) (A,143,86) 10µF CKSYB475K16 CKSRYB473K50 CEVLW470M16 CEVW101M16 CCG1182 C C C C C 449 451 452 453 454 (A,149,41) (B,136,43) (B,127,43) (B,133,43) (B,130,43) CKSRYB104K50 CKSRYB105K6R3 CKSRYB105K6R3 CKSRYB105K6R3 CKSRYB105K6R3 C C C C C 261 262 263 264 265 (B,107,109) (B,104,109) (B,117,106) (B,113,106) (B,106,115) CCG1182 CCG1182 CCG1182 CCG1182 CCSRCH101J50 C C C C C 455 456 457 458 459 (B,123,44) (B,123,42) (A,129,41) (A,139,46) (A,134,41) CKSRYB105K6R3 CKSRYB105K6R3 CKSYB475K16 CEVLW100M16 CKSRYB104K50 C C C C C 266 267 268 269 281 (B,103,115) (B,115,115) (B,111,115) (A,110,141) (B,100,111) 10µF (UC) CCSRCH101J50 CCSRCH101J50 CCSRCH101J50 CKSRYB102K50 CCG1182 C C C C C 461 462 463 464 465 (B,55,95) (B,57,95) (B,53,95) (B,51,95) (B,64,95) CKSYB106K6R3 CKSYB106K6R3 CKSYB106K6R3 CKSYB106K6R3 CKSYB106K6R3 C C C C C 282 283 284 301 302 (B,97,110) 10µF (UC) (B,100,117) (UC) (B,97,117) (UC) (B,121,89) (B,121,92) CCG1182 CCSRCH101J50 CCSRCH101J50 CKSRYB105K6R3 CKSRYB105K6R3 C C C C C 466 467 468 469 470 (B,66,95) (B,60,95) (B,62,95) (B,52,84) (B,52,88) CKSYB106K6R3 CKSYB106K6R3 CKSYB106K6R3 CCSRCH6R0D50 CCSRCH6R0D50 C C C C 305 306 307 308 (A,150,76) (B,133,81) (B,121,86) 10µF (A,131,94) CEVLW100M16 CKSRYB104K50 CCG1171 CKSRYB104K50 C C C C 471 472 473 474 (B,65,84) (B,65,88) (A,54,81) (A,54,84) CCSRCH6R0D50 CCSRCH6R0D50 CKSRYB104K50 CKSRYB102K50 102 10µF 10µF 10µF 10µF AVH-P5700DVD/EW 1 2 3 4 5 Circuit Symbol and No. 6 7 Part No. Circuit Symbol and No. 8 Part No. C 475 (A,58,85) CKSRYB104K50 C 601 (B,76,95) CKSRYB105K6R3 C C C C C 481 482 483 484 487 (B,65,64) (B,61,64) (B,154,59) (B,70,131) (B,48,128) CKSRYB102K50 CKSRYB102K50 CKSRYB102K50 CCSRCH101J50 CKSRYB103K50 C C C C C 604 605 606 608 609 (B,106,94) (B,106,89) (B,91,64) (B,75,61) (B,74,67) CCSRCH7R0D50 CCSRCH7R0D50 CKSRYB105K6R3 CCSRCH101J50 CKSRYB104K50 C C C C C 488 501 502 503 511 (B,42,65) (A,151,5) 10µF (A,150,10) (A,155,8) (A,135,10) CKSRYB104K50 CCG1171 CEVLW100M16 CKSRYB104K50 CKSRYB105K6R3 C C C C C 611 612 671 681 691 (B,95,56) (B,77,100) (B,88,50) (A,98,42) (A,105,51) CKSRYB103K50 CKSRYB103K50 CKSRYB105K6R3 CEVLW2R2M50 CKSRYB103K50 C C C C C 512 521 522 523 524 (A,142,8) (A,156,6) 47µF (A,157,10) 47µF (A,153,25) (A,162,22) 10µF CEVLW101M10 CCG1181 CCG1181 CEVLW101M10 CCG1171 C C C C C 692 701 704 705 706 (B,112,58) (B,8,34) (A,6,42) 2200µF/16V (B,132,149) (B,143,103) CKSRYB103K50 CKSRYB104K50 CCH1405 CKSRYB104K50 CKSRYB103K50 C C C C C 525 526 527 529 530 (B,162,17) (B,165,17) (B,164,13) (A,153,33) (A,165,26) 10µF CKSRYB104K50 CKSRYB104K50 CCSRCH4R0D50 CEVLW101M10 CCG1171 C C C C C 707 708 709 710 711 (B,139,103) (B,133,103) (A,132,109) (B,109,129) (B,140,108) CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CKSRYB103K50 CKSRYB104K50 C C C C C 531 532 533 535 536 (A,138,17) (A,145,17) (A,153,17) (B,155,5) 22µF (B,156,15) 22µF CEVLW221M4 CEVLW221M4 CEVLW221M4 CCG1178 CCG1178 C C C C C 712 751 752 753 771 (B,124,118) (A,54,13) (A,58,13) (EW) (A,49,14) (B,63,150) CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CKSRYB103K50 C C C C C 541 543 544 545 546 (A,36,76) (B,40,70) (B,33,70) (A,33,70) (A,40,70) CKSYB106K6R3 CKSYB475K16 CKSRYB103K50 CEVLW220M6R3 CEVLW101M10 C C C C C 772 773 781 782 783 (A,86,149) (B,70,139) (B,70,35) (A,74,29) (B,73,40) CEVLW100M16 CKSRYB103K50 CKSRYB103K50 CEVLW100M16 CKSRYB103K50 C C C C C 547 551 552 554 555 (B,136,5) (A,124,22) (A,130,22) (A,131,17) (A,122,15) CKSRYB105K6R3 CKSYB106K6R3 CKSYB106K6R3 CCSRCH6R0D50 CKSRYB104K50 C C C C C 801 802 803 804 805 (B,34,31) (B,47,30) (A,35,20) 220µF/10V (A,46,20) 470µF/6.3V (A,52,51) CKSRYB153K50 CKSRYB223K50 CCH1409 CCH1437 CKSYB225K16 C C C C C 556 557 558 561 562 (A,123,17) 10µF (B,124,14) (B,130,9) (A,122,36) (A,127,36) CCG1171 CKSRYB104K50 CKSRYB104K50 CKSYB106K6R3 CKSYB106K6R3 C C C C C 806 807 808 809 810 (A,34,50) (B,38,36) (B,42,34) (B,34,41) (B,48,41) CKSYB225K16 CKSYB475K16 CCSRCH101J50 CKSRYB223K50 CKSRYB683K50 C C C C C 564 565 566 567 568 (A,125,31) (A,119,29) (B,135,19) (A,119,32) 10µF (B,123,26) CCSRCH6R0D50 CKSRYB104K50 CKSRYB104K50 CCG1171 CKSRYB104K50 C C C C C 811 812 813 814 815 (B,38,44) (B,43,44) (A,41,46) (A,42,48) (A,65,48) 100µF/16V CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CKSYB475K16 CCH1565 C C C C C 571 572 574 575 576 (A,132,36) (A,137,36) (A,135,31) (A,130,29) (A,130,33) 10µF CKSYB106K6R3 CKSYB106K6R3 CCSRCH6R0D50 CKSRYB104K50 CCG1171 C C C C C 816 817 818 819 820 (A,60,54) (A,89,125) 2200µF/16V (A,70,40) 100µF/16V (A,63,40) 100µF/16V (B,51,42) CKSYB225K16 CCH1405 CCH1565 CCH1565 CKSRYB474K10 C C C C C 577 578 581 582 584 (B,134,25) (B,138,24) (A,142,36) (A,147,36) (A,148,31) CKSRYB104K50 CKSRYB104K50 CKSYB106K6R3 CKSYB106K6R3 CCSRCH6R0D50 C C C C C 821 831 832 833 841 (A,35,25) 220µF/10V (B,18,84) (A,44,90) (B,19,82) (B,101,34) CCH1409 CCSRCH102J50 CEVLW470M16 CKSRYB474K10 CKSYB475K16 C C C C 585 586 587 588 (A,141,29) (A,141,33) 10µF (B,145,26) (B,151,24) CKSRYB104K50 CCG1171 CKSRYB104K50 CKSRYB104K50 C C C C 842 843 845 846 (B,101,32) (A,105,19) (B,110,21) (B,113,21) CKSRYB102K50 CEVLW101M10 CKSRYB103K50 CKSRYB103K50 AVH-P5700DVD/EW 5 6 7 8 A B C D E F 103 1 2 Circuit Symbol and No. 3 Part No. 4 Circuit Symbol and No. C 847 (A,108,29) CEVW101M16 C C C C C 848 849 851 852 853 (A,165,61) 2200µF/16V (A,157,50) (A,84,24) 0.22µF (A,65,21) (A,70,24) CCH1405 CKSRYB104K50 CCL1058 CKSQYB225K10 CKSRYB105K10 C C C C C 854 856 857 858 864 (A,75,20) (A,61,63) (A,57,67) (A,59,69) (A,70,98) CKSRYB102K50 CKSRYB105K6R3 CKSRYB105K10 CKSRYB103K50 CKSRYB104K50 C C C C C 871 872 873 881 882 (A,154,101) (A,158,110) (A,152,116) (A,5,140) (B,32,139) CEVLW101M10 CKSRYB103K50 CEVW101M16 CEVLW220M6R3 CKSRYB103K50 C C C C C 883 884 891 892 893 (B,33,145) (B,34,142) (B,161,75) (A,163,76) (B,164,74) CKSYB475K16 CKSRYB104K50 CKSRYB104K50 CEVLW470M6R3 CKSRYB103K50 (A,166,71) 10µF (B,152,101) CCG1182 CKSRYB104K50 Part No. CAPACITORS A B C 894 C 895 C G Unit Number:CWM9816(UC) Unit Number:CWM9815(EW) Unit Name:RGB Unit MISCELLANEOUS D E IC 981 D 951 D 952 D 953 D 954 (A,59,33) (A,38,28) (A,36,28) (A,18,18) (A,22,18) IC Diode Diode Diode Diode TC7SET08FUS1 HZU2R7(B1) HZU2R7(B1) HZU2R7(B1) HZU2R7(B1) D D D D D 955 956 957 958 959 (A,13,23) (A,17,23) (A,15,21) (A,18,19) (A,13,24) Diode Diode Diode Diode Diode HZU2R7(B1) HZU2R7(B1) HZU2R7(B1) HZU2R7(B1) HZU2R7(B1) D D D D D 960 961 962 963 964 (A,17,24) (A,56,27) (A,16,26) (A,12,26) (A,16,28) Diode Diode Diode Diode Diode HZU2R7(B1) UDZS5R6(B) UDZS5R6(B) UDZS5R6(B) UDZS5R6(B) D D D L L 965 981 982 981 982 (A,12,28) (A,65,40) (A,59,35) (A,56,31) (A,57,15) Diode Diode Diode Inductor Inductor UDZS5R6(B) UDZS5R6(B) UDZS5R6(B) CTF1389 CTF1379 RESISTORS F R R R R R 982 983 984 985 986 R 987 104 C C C C C 951 952 953 981 982 (A,61,9) (A,62,27) (A,8,24) (A,62,34) (A,59,29) CKSRYB102K50 CCSRCH471J50 CKSRYB104K50 CKSYB106K6R3 CKSRYB104K50 C 983 C 984 (A,70,38) (A,56,35) CCSRCH150J50 CKSRYB104K50 Monitor Unit Consists of Monitor PCB Inverter PCB Upper PCB BFH Unit Number:CWM9821(UC) Unit Number:CWM9820(EW) Unit Name:Monitor Unit MISCELLANEOUS IC 4001 IC 4101 IC 4102 IC 4103 IC 4104 (A,119,33) (A,100,67) (A,142,49) (A,144,41) (A,147,32) IC IC IC IC IC TC90A96AFG NJM2100V TC7SET04FUS1 TC7S66FU NJM082BV IC 4105 IC 4121 IC 4122 IC 4171 IC 4181 (A,95,66) IC (A,96,57) IC (A,91,60) IC (A,150,13) IC (A,21,43) IC M62343FP TC74VHC04FTS1 TC7SET04FUS1 TC7S04FU BD6171KV IC 4182 IC 4183 IC 4311 IC 4451 IC 4452 (A,74,16) IC (A,80,27) IC (B,7,106) IC (A,144,21) IC (A,141,27) IC S-1131B25UC-N4K S-1131B15UC-N4A NJM062V TC7WH08FU TC7SH02FUS1 IC 4453 IC 4531 IC 4601 IC 4602 IC 4604 (A,144,28) (A,57,43) IC (A,68,60) IC (A,49,66) IC (A,62,44) IC TC7SH32FUS1 TC7SET08FUS1 PEG087A S-80827CNNB-B8M TC7SET08FUS1 IC 4605 IC 4606 IC 4691 IC 5341 IC 5345 (A,64,43) IC (A,49,70) IC (A,40,16) IC (B,9,45) IC (B,10,28) IC TC7SH08FUS1 S-818A33AUC-BGN S-93C56BD0I-J8 OZ961ISN TC7SET08FUS1 IC 5373 Q 4001 Q 4101 Q 4102 Q 4181 (B,11,8) IC (A,114,14) Transistor (A,149,41) Transistor (A,148,48) Transistor (A,31,38) FET TA78L05F 2SC4617 UMX2N UMT2N RSQ035P03 (A,57,27) (A,57,33) (A,68,39) (A,70,40) (A,72,39) RS1/16S0R0J RS1/16S121J RS1/16S473J RS1/16S621J RS1/16S221J Q Q Q Q Q 4182 4301 4440 4441 4501 (A,33,49) FET (A,30,9) Transistor (A,84,10) Transistor (A,91,10) Transistor (A,19,76) Transistor RSQ035P03 2SC4617 2SC4081 2SA1576 UMF5N (A,67,9) RS1/16S0R0J Q 4502 (A,23,76) Transistor UMF5N AVH-P5700DVD/EW 1 2 3 4 5 6 Circuit Symbol and No. 7 Part No. 8 Circuit Symbol and No. Part No. Q Q Q Q 4503 4602 4603 4661 (A,28,75) (A,43,68) (A,55,71) (A,66,11) Transistor Transistor Transistor Transistor FMG12 2SC4617 DTC114EE 2SC4617 D L L L 5372 4001 4002 4003 (B,12,33) Diode (A,103,41) Inductor (A,100,35) Inductor (A,103,36) Inductor RB751V40 CTF1306 CTF1306 CTF1306 Q Q Q Q Q 4662 4663 5002 5003 5005 (A,66,15) (A,62,12) (B,12,65) (B,11,67) (B,10,72) Transistor Transistor Transistor Transistor Transistor 2SC4617 2SC4617 2SC4617 2SC4617 UMX2N L L L L L 4004 4005 4006 4007 4008 (A,101,32) (A,103,29) (A,101,28) (A,102,25) (A,102,23) Inductor Inductor Inductor Inductor Inductor CTF1306 CTF1306 CTF1306 CTF1306 CTF1306 Q Q Q Q Q 5342 5343 5344 5371 5372 (B,5,34) Transistor (A,9,52) FET (A,7,55) FET (A,11,30) Transistor (A,10,34) Transistor 2SA1774 SI6544DQ SI6544DQ 2SC4617 2SC4617 L L L L L 4009 4010 4011 4012 4013 (A,104,19) (A,104,18) (A,102,15) (A,102,14) (A,111,11) Inductor Inductor Inductor Inductor Inductor CTF1306 CTF1306 CTF1306 CTF1306 CTF1306 D D D D D 4181 4182 4183 4184 4185 (A,33,35) (A,38,49) (A,30,33) (A,28,33) (A,16,29) Diode Diode Diode Diode Diode RB160M-30 U2FWJ44N RB548W RB548W RB548W L L L L L 4018 4025 4030 4034 4036 (A,114,12) (A,119,16) (A,121,16) (A,125,16) (A,129,16) Inductor Inductor Inductor Inductor Inductor CTF1306 CTF1306 CTF1306 CTF1306 CTF1306 D D D D D 4186 4187 4241 4242 4311 (A,12,33) (A,12,37) (A,75,28) (A,70,11) (B,8,125) Diode Diode Diode Diode Photo Diode RB548W RB548W RB500V-40 RB500V-40 AM-30-21 L L L L L 4038 4039 4040 4041 4042 (A,131,19) (A,135,20) (A,135,21) (A,138,20) (A,139,21) Inductor Inductor Inductor Inductor Inductor CTF1306 CTF1306 CTF1306 CTF1306 CTF1306 D D D D D 4312 4313 4331 4332 4333 (B,4,131) Diode (B,12,133) Diode (B,6,11) Diode (EW) (B,6,20) Diode (EW) (B,6,142) Diode (EW) UDZS5R6(B) UDZS5R6(B) CL-195SR-CD CL-195SR-CD CL-195SR-CD L L L L L 4043 4044 4048 4049 4050 (A,138,23) (A,135,24) (A,135,26) (A,136,27) (A,135,28) Inductor Inductor Inductor Inductor Inductor CTF1306 CTF1306 CTF1306 CTF1306 CTF1306 D D D D D 4334 4351 4352 4353 4354 (B,6,151) Diode (EW) (B,6,9) LED (B,6,21) LED (B,6,141) LED (B,6,152) LED CL-195SR-CD CL-195PG-CD CL-195PG-CD CL-195PG-CD CL-195PG-CD L L L L L 4051 4052 4053 4054 4055 (A,136,30) (A,136,31) (A,135,34) (A,135,36) (A,135,37) Inductor Inductor Inductor Inductor Inductor CTF1306 CTF1306 CTF1306 CTF1306 CTF1306 D D D D D 4371 4372 4373 4501 4502 (B,9,65) LED (B,9,81) LED (B,9,96) LED (A,37,81) Diode (A,35,84) Diode CL-190UB2-X CL-190UB2-X CL-190UB2-X UDZS5R6(B) UDZS5R6(B) L L L L L 4056 4057 4058 4059 4060 (A,135,38) (A,136,40) (A,138,41) (A,136,43) (A,135,44) Inductor Inductor Inductor Inductor Inductor CTF1306 CTF1306 CTF1306 CTF1306 CTF1306 D D D D D 4503 4504 4505 4591 4592 (A,36,77) (A,39,76) (A,27,78) (A,21,16) (A,21,14) UDZS5R6(B) UDZS5R6(B) MA111 UDZS5R6(B) UDZS5R6(B) L L L L L 4061 4062 4063 4064 4065 (A,132,47) (A,132,48) (A,130,48) (A,130,48) (A,129,48) Ferrite Bead Ferrite Bead Ferrite Bead Ferrite Bead Ferrite Bead CTF1528 CTF1528 CTF1528 CTF1528 CTF1528 D D D D D 4593 4594 5001 5201 5202 (A,21,13) Diode (A,11,16) Diode (B,7,63) Diode (A,9,39) LED (A,9,26) LED UDZS5R6(B) UDZS5R6(B) UDZS8R2(B) CL-195PG-CD CL-195PG-CD L L L L L 4066 4067 4068 4069 4070 (A,128,48) (A,127,48) (A,126,50) (A,124,50) (A,123,49) Ferrite Bead Ferrite Bead Inductor Inductor Ferrite Bead CTF1528 CTF1528 CTF1306 CTF1306 CTF1528 D D D D D 5203 5251 5252 5253 5340 (A,9,12) (A,7,39) (A,7,26) (A,7,12) (B,5,70) CL-195PG-CD CL-195SR-CD CL-195SR-CD CL-195SR-CD HZU6R2(B3) L L L L L 4071 4072 4073 4074 4075 (A,123,51) (A,122,49) (A,121,51) (A,121,49) (A,120,51) Ferrite Bead Ferrite Bead Ferrite Bead Ferrite Bead Ferrite Bead CTF1528 CTF1528 CTF1528 CTF1528 CTF1528 D D D D D 5341 5342 5343 5344 5351 (A,11,49) Diode (A,6,49) Diode (B,6,96) Diode (B,5,75) Diode (B,8,25) Diode HZU6R2(B3) HZU6R2(B3) MA143 MA143 1SS355 L L L L L 4076 4077 4078 4079 4080 (A,119,49) (A,118,49) (A,118,51) (A,117,49) (A,116,51) Inductor Ferrite Bead Ferrite Bead Ferrite Bead Ferrite Bead CTF1306 CTF1528 CTF1528 CTF1528 CTF1528 (B,6,31) Diode UDZS6R2(B) L 4081 (A,116,49) Ferrite Bead CTF1528 A B D 5371 Diode Diode Diode Diode Diode LED Diode (EW) Diode (EW) Diode (EW) Diode C D E F AVH-P5700DVD/EW 5 6 7 8 105 1 2 Circuit Symbol and No. A 3 Part No. Circuit Symbol and No. L L L L 4082 4083 4084 4085 (A,115,51) (A,114,50) (A,112,52) (A,112,49) Ferrite Bead Inductor Inductor Inductor CTF1528 CTF1306 CTF1306 CTF1306 VR5341 > FU4541 > FU5341 EF4401 L L L L L 4086 4087 4088 4089 4090 (A,111,50) (A,110,50) (A,109,50) (A,108,50) (A,107,50) Ferrite Bead Ferrite Bead Ferrite Bead Ferrite Bead Ferrite Bead CTF1528 CTF1528 CTF1528 CTF1528 CTF1528 EF4402 EF4403 L L L L L 4091 4092 4093 4094 4095 (A,106,50) Ferrite Bead (A,106,48) Inductor (A,105,46) Inductor (A,99,14) Inductor (A,136,15) Inductor CTF1528 CTF1306 CTF1306 CTF1635 CTF1635 L L L L L 4096 4097 4098 4099 4100 (A,95,17) Inductor (A,139,44) Inductor (A,101,38) Inductor (A,99,18) Inductor (A,46,53) Choke Coil 18µH CTF1635 CTF1635 CTF1635 CTF1635 CTH1250 L L L L L 4101 4102 4105 4121 4122 (A,141,33) Inductor (A,150,27) Inductor (A,146,45) Inductor (A,96,49) Inductor (A,97,61) Inductor LCKAW101J2520 LCKAW101J2520 CTF1306 CTF1635 CTF1306 L L L L L 4123 4151 4152 4153 4161 (A,92,55) Inductor (A,133,53) Chip Inductor (A,128,53) Inductor (A,136,54) Inductor (A,144,55) Chip Inductor CTF1306 DTL1096 CTF1635 CTF1635 DTL1096 L L L L L 4171 4172 4173 4181 4185 (A,142,15) Inductor (A,150,16) Inductor (A,146,12) Inductor (A,23,25) Chip Inductor (A,42,60) Choke Coil 10µH LCKAW101J2520 CTF1306 CTF1379 DTL1096 CTH1249 L L L L L 4186 4195 4203 4207 4214 (A,10,47) (A,26,26) (A,36,30) (A,12,27) (A,36,55) CTF1635 CTF1635 CTH1318 CTF1635 CTH1250 D L L L L L 4311 4423 4424 4425 4451 (B,11,114) Inductor (A,79,15) Inductor (A,88,15) Inductor (A,91,15) Chip Coil (A,145,15) Inductor LCKBW100K2520 LCKAW101J2520 LCTAW220J2520 LCTAW270J2520 LCKAW101J2520 L L L L L 4521 4531 4541 4601 4602 (A,88,81) (A,54,43) (A,24,70) (A,51,79) (A,43,72) CTH1338 CTF1306 CTF1488 LCKBW100K2520 LCKBW100K2520 E F Inductor Inductor Choke Coil 68µH Inductor Choke Coil 18µH Coil Inductor Inductor Inductor Inductor T 5341 TH4301 X 4001 X 4601 S 4391 (A,8,79) Transformer (A,32,11) Thermistor CTT1126 CCX1051 (A,107,13)Crystal Resonator 42MHz CSS1604 (A,66,49) Radiator 10.0MHz CSS1577 (B,8,5) Push Switch CSG1126 S S S S S 4392 4393 4394 5101 5102 (B,8,25) Push Switch (B,8,137) Push Switch (B,8,156) Push Switch (A,11,39) Push Switch (A,11,26) Push Switch CSG1126 CSG1126 CSG1126 CSG1155 CSG1155 S 5103 (A,11,12) Push Switch CSG1155 (A,88,35) EMI Filter (A,89,32) EMI Filter CCG1082 CCG1082 R R R R R 4001 4002 4003 4004 4005 (A,111,17) (A,110,14) (A,114,16) (A,116,16) (A,120,10) RS1/16SS105J RS1/16SS391J RS1/16SS152J RS1/16SS331J RS1/16S0R0J R R R R R 4061 4062 4063 4064 4065 (A,138,34) (A,134,48) (A,128,50) (A,122,53) (A,119,53) RS1/16SS333J RAB4CQ221J RAB4CQ221J RAB4CQ221J RAB4CQ221J R R R R R 4066 4067 4068 4069 4070 (A,134,33) (A,116,53) (A,110,52) (A,107,52) (A,135,18) RS1/16S102J RAB4CQ221J RAB4CQ221J RAB4CQ221J RS1/16S0R0J R R R R R 4101 4102 4103 4104 4106 (A,104,63) (A,104,67) (A,151,36) (A,151,31) (A,145,34) RS1/16S101J RS1/16S101J RS1/16SS472J RS1/16SS223J RS1/16S3302F R R R R R 4107 4108 4111 4112 4113 (A,144,32) (A,148,39) (A,150,43) (A,151,45) (A,148,44) RS1/16S5602F RS1/16S101J RS1/16S153J RS1/16SS153J RS1/16SS0R0J R R R R R 4114 4115 4116 4117 4118 (A,150,45) (A,150,39) (A,151,47) (A,143,46) (A,90,65) RS1/16SS0R0J RS1/16SS100J RS1/16SS100J RS1/16SS681J RAB4CQ221J R R R R R 4122 4124 4125 4126 4128 (A,101,61) (A,101,59) (A,105,61) (A,103,60) (A,104,58) RS1/16S27R0D RS1/16S10R0D RS1/16S6800D RS1/16S1000D RS1/16S82R0F R R R R R 4132 4134 4136 4138 4142 (A,104,57) (A,102,54) (A,102,53) (A,102,51) (A,100,53) RS1/16S56R0D RS1/16S47R0D RS1/16S36R0D RS1/16S33R0F RS1/16S27R0D R R R R R 4144 4146 4148 4151 4171 (A,101,55) (A,101,57) (A,101,58) (A,132,56) (A,148,15) RS1/16S1800D RS1/16S82R0F RS1/16S12R0F RS1/16S102J RS1/16SS102J R R R R R 4173 4174 4175 4181 4182 (A,140,15) (A,140,17) (A,140,19) (A,26,31) (A,25,35) RS1/16SS102J RS1/16SS101J RS1/16SS101J RS1/16S3303D RS1/16S1802D (A,24,35) RS1/16S4300D R 4183 106 Part No. (A,10,43) Semi-fixed 15kΩ(B) CCP1424 (A,29,70) Fuse 500mA CEK1251 (B,4,27) Fuse 1.25A CEK1281 (A,88,39) EMI Filter CCG1082 RESISTORS B C 4 AVH-P5700DVD/EW 1 2 3 4 5 6 Circuit Symbol and No. 7 Part No. Circuit Symbol and No. 8 Part No. R R R R 4184 4185 4186 4187 (A,22,35) (A,14,43) (A,13,45) (A,15,45) RS1/16S5102D RS1/16S2202F RS1/16S1802F RS1/16S1002F R R R R 4439 4440 4442 4444 (A,88,8) (A,92,29) (A,87,12) (A,92,18) RS1/16S391J RS1/16SS0R0J RS1/16SS104J RS1/16SS272J R R R R R 4188 4191 4192 4193 4194 (A,30,42) (A,29,44) (A,27,49) (A,30,50) (A,27,53) RS1/16S563J RS1/16S150J RS1/16S150J RS1/16S273J RS1/16S1600D R R R R R 4445 4446 4448 4449 4450 (A,88,9) (A,87,11) (A,85,19) (A,86,19) (A,84,13) RS1/16S471J RS1/16SS681J RS1/16S472J RS1/16SS104J RS1/16SS153J R R R R R 4195 4196 4201 4203 4204 (A,28,55) (A,28,52) (A,24,59) (A,15,53) (A,21,51) RS1/16S1001D RS1/16S2700D RS1/16S682J RS1/16S5100F RS1/16S2001F R R R R R 4451 4452 4454 4455 4456 (A,150,20) (A,151,23) (A,145,18) (A,147,22) (A,149,22) RAB4CQ101J RS1/16SS473J RS1/16SS473J RS1/16SS473J RS1/16SS101J R R R R R 4216 4217 4218 4219 4220 (A,25,50) (A,26,56) (A,24,56) (A,23,62) (A,20,61) RS1/16S333J RS1/16S102J RS1/16S684J RS1/16S6801F RS1/16S1001D R R R R R 4501 4502 4503 4504 4505 (A,20,79) (A,23,79) (A,18,74) (A,20,74) (A,22,74) RS1/16SS105J RS1/16SS105J RS1/16SS103J RS1/16SS103J RS1/16SS103J R R R R R 4221 4222 4241 4242 4251 (A,23,61) (A,23,54) (A,76,28) (A,74,22) (A,137,28) RS1/16S201J RS1/16S123J RS1/16SS684J RS1/16SS474J RS1/16SS470J R R R R R 4506 4507 4508 4521 4522 (A,24,74) (A,33,76) (A,31,77) (A,97,72) (A,96,74) RS1/16SS103J RS1/16SS102J RS1/16SS102J RS1/16SS101J RS1/16SS101J R R R R R 4252 4253 4305 4308 4309 (A,139,31) (A,139,32) (A,33,14) (A,28,8) (A,31,6) RS1/16SS470J RS1/16SS471J RS1/16SS153J RS1/16SS104J RS1/16S103J R R R R R 4523 4524 4525 4526 4531 (A,102,74) (A,101,74) (A,99,75) (A,98,75) (A,59,41) RS1/16SS101J RS1/16SS101J RS1/16SS101J RS1/16SS101J RS1/16SS101J R R R R R 4311 4312 4313 4314 4315 (B,7,112) (B,7,117) (B,7,100) (B,7,101) (B,9,99) RS1/16S155J RS1/16S105J RS1/16S393J RS1/16S103J RS1/16S203J R R R R R 4532 4541 4563 4564 4565 (A,55,44) (A,74,77) (A,65,74) (A,61,75) (A,67,45) RS1/16SS103J RS1/16SS471J RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J R R R R R 4316 4331 4332 4333 4334 (B,7,98) (B,4,17) (B,5,16) (B,4,14) (B,5,13) (EW) (EW) (EW) (EW) RS1/16S393J RS1/16S271J RS1/16S271J RS1/16S181J RS1/16S181J R R R R R 4566 4591 4592 4593 4594 (A,69,46) (A,12,16) (A,24,11) (A,24,13) (A,21,18) RS1/16S0R0J RS1/16SS101J RS1/16SS101J RS1/16SS101J RS1/16SS101J R R R R R 4335 4336 4337 4338 4351 (B,9,45) (EW) (B,9,48) (EW) (B,8,87) (EW) (B,8,90) (EW) (B,11,19) RS1/16S271J RS1/16S271J RS1/16S181J RS1/16S181J RS1/16S271J R R R R R 4601 4602 4603 4604 4605 (A,50,73) (A,55,54) (A,55,46) (A,39,67) (A,41,68) RS1/16SS103J RS1/16SS473J RS1/16SS103J RS1/16SS473J RS1/16SS473J R R R R R 4352 4353 4354 4355 4356 (B,11,16) (B,11,10) (B,4,7) (B,8,45) (B,8,48) RS1/16S271J RS1/16S331J RS1/16S331J RS1/16S271J RS1/16S271J R R R R R 4606 4607 4608 4609 4611 (A,45,69) (A,63,48) (A,47,66) (A,71,49) (A,76,42) RS1/16SS473J RS1/16SS101J RS1/16SS103J RS1/16SS101J RS1/16SS272J R R R R R 4357 4358 4371 4372 4373 (B,7,87) (B,7,90) (B,7,58) (B,8,60) (B,8,61) RS1/16S331J RS1/16S331J RS1/16S101J RS1/16S101J RS1/16S101J R R R R R 4612 4613 4614 4616 4617 (A,75,41) (A,66,45) (A,64,47) (A,82,50) (A,82,61) RS1/16SS272J RS1/16SS471J RS1/16SS471J RAB4CQ102J RS1/16SS473J R R R R R 4374 4375 4376 4377 4378 (B,8,63) (B,9,69) (B,9,72) (B,9,74) (B,9,77) RS1/16S221J RS1/16S221J RS1/16S221J RS1/16S221J RS1/16S221J R R R R R 4619 4620 4621 4622 4625 (A,72,70) (A,70,71) (A,57,70) (A,56,69) (A,31,24) RS1/16SS0R0J RS1/16SS0R0J RS1/16SS473J RS1/16SS473J RS1/16SS473J (A,77,76) RS1/16SS0R0J R 4626 (A,53,62) RAB4CQ473J A B R 4426 AVH-P5700DVD/EW 5 6 7 8 C D E F 107 1 Circuit Symbol and No. A 2 3 Part No. Circuit Symbol and No. R R R R 4627 4628 4630 4635 (A,53,59) (A,54,66) (A,58,49) (A,76,70) RS1/16SS471J RS1/16SS471J RAB4CQ473J RS1/16SS102J R R R R R 4636 4665 4666 4667 4668 (A,75,70) (A,64,11) (A,65,14) (A,60,12) (A,65,12) RS1/16SS472J RS1/16SS1002D RS1/16SS1002D RS1/16SS1002D RS1/16SS5602F R R R R R 4669 4670 4671 4672 4673 (A,64,15) (A,62,14) (A,63,9) (A,67,14) (A,60,10) RS1/16SS5602F RS1/16SS5602F RS1/16SS5602F RS1/16SS5602F RS1/16SS5602F R R R R R 4674 4675 4676 4692 4701 (A,65,9) (A,67,12) (A,62,10) (A,41,12) (A,88,47) RS1/16SS102J RS1/16SS102J RS1/16SS102J RS1/16S103J RS1/10S103J R R R R R 4708 5002 5003 5004 5005 (A,99,30) (B,7,67) (B,9,63) (B,11,63) (B,7,66) RS1/16S0R0J RS1/16S621J RS1/16S103J RS1/16S104J RS1/16S473J R R R R R 5006 5007 5008 5009 5221 (B,8,70) (B,4,68) (B,12,73) (B,12,70) (A,8,10) RS1/16S621J RS1/16S821J RS1/16S101J RS1/16S101J RS1/16SS151J R R R R R 5222 5223 5224 5251 5342 (A,5,12) (A,5,14) (A,5,15) (A,8,18) (EW) (B,9,31) RS1/16SS151J RS1/16SS101J RS1/16SS101J RAB4CQ181J RS1/16S103J R R R R R 5343 5344 5345 5346 5347 (B,5,37) (B,5,33) (B,5,29) (B,4,66) (B,4,72) RS1/16S333J RS1/16S473J RS1/16S472J RS1/16S513J RS1/16S105J R R R R R 5348 5349 5351 5353 5371 (A,12,44) (A,5,47) (A,9,47) (B,4,92) (B,7,35) RS1/16S563J RS1/16S103J RS1/16S103J RS1/16S511J RS1/16S103J R R R R 5372 5373 5374 5378 (A,8,30) (B,8,36) (B,11,37) (B,12,30) RS1/16S104J RS1/16S473J RS1/16S105J RS1/16S102J B C D E CAPACITORS F C C C C C 4001 4002 4003 4004 4005 (A,104,43) (A,104,39) (A,104,37) (A,104,33) (A,104,31) CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 C C C C C 4006 4007 4008 4009 4011 (A,104,27) (A,104,25) (A,104,22) (A,107,18) (A,109,18) CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 108 4 Part No. C C C C C 4012 4013 4014 4015 4016 (A,111,18) (A,114,18) (A,105,14) (A,110,12) (A,113,16) CKSSYF104Z16 CKSSYF104Z16 CCSSCH9R0D50 CCSSCH9R0D50 CKSSYB103K16 C C C C C 4017 4018 4019 4020 4022 (A,112,14) (A,116,18) (A,115,16) (A,113,14) (A,116,14) CCSSCH181J25 CKSSYF104Z16 CCSSCH4R0C50 CKSSYF104Z16 CKSSYB104K10 C C C C C 4023 4024 4025 4026 4027 (A,117,15) (A,117,17) (A,119,18) (A,121,12) (A,122,13) CKSSYB104K10 CKSSYB104K10 CKSSYF104Z16 CKSSYB104K10 CKSSYB104K10 C C C C C 4028 4030 4031 4032 4033 (A,120,14) (A,121,18) (A,123,15) (A,122,17) (A,123,17) CKSSYB104K10 CKSSYF104Z16 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 4034 4035 4036 4037 4038 (A,124,17) (A,125,18) (A,125,12) (A,126,12) (A,127,12) CKSSYB104K10 CKSSYF104Z16 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 4039 4040 4041 4043 4044 (A,127,16) (A,128,16) (A,128,18) (A,133,11) (A,129,18) CKSSYB104K10 CKSSYB104K10 CKSSYF104Z16 CKSRYB104K50 CKSSYF104Z16 C C C C C 4045 4046 4047 4049 4053 (A,133,21) (A,134,23) (A,133,25) (A,134,27) (A,133,31) CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 C C C C C 4054 4055 4056 4057 4058 (A,133,35) (A,133,37) (A,133,38) (A,134,40) (A,135,41) CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 C C C C C 4059 4060 4062 4068 4069 (A,134,42) (A,133,45) (A,137,33) (A,126,47) (A,124,48) CKSSYF104Z16 CKSRYF105Z10 CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 C C C C C 4076 4083 4085 4089 4090 (A,120,47) (A,115,47) (A,113,47) (A,101,48) (A,113,48) CKSSYF104Z16 CKSSYF104Z16 CKSSYF104Z16 CSZSR330M10 CKSSYF104Z16 C C C C C 4091 4092 4093 4094 4095 (A,49,58) (A,109,47) (A,106,46) (A,115,10) (A,133,15) CKSRYB104K50 CKSSYF104Z16 CKSSYF104Z16 CKSYF105Z16 CSZSR330M10 C C C C C 4096 4097 4098 4099 4100 (A,97,14) (A,141,43) (A,100,41) (A,100,20) (A,101,45) CKSYF105Z16 CSZS100M16 CSZSR220M10 CSZSR220M10 CSZSR330M10 AVH-P5700DVD/EW 1 2 3 4 5 Circuit Symbol and No. 6 7 Part No. Circuit Symbol and No. 8 Part No. C C C C C 4101 4102 4103 4104 4105 (A,144,47) (A,99,71) (A,144,44) (A,145,39) (A,144,37) CKSSYF104Z16 CKSSYF104Z16 CKSRYB105K6R3 CKSRYB104K50 CKSSYF104Z16 C C C C C 4219 4221 4223 4224 4226 (A,26,49) (A,26,55) (A,26,57) (A,22,56) (A,22,59) CKSRYB103K50 CCSRCH331J50 CKSRYB393K16 CKSRYB103K50 CKSRYB473K50 C C C C C 4106 4107 4108 4109 4111 (A,145,25) (A,141,38) (A,147,25) 4.7µF (A,96,70) (A,149,37) CKSRYB104K50 CSZSR220M16 CCG1111 CSZS100M16 CKSRYB105K6R3 C C C C C 4228 4229 4230 4231 4232 (A,17,53) (A,14,47) (A,32,62) (A,17,50) (A,19,51) CKSRYB393K16 CKSRYB393K16 CKSRYB102K50 CKSRYB104K50 CSZS100M16 C C C C C 4112 4121 4122 4123 4151 (A,151,33) (A,91,57) (A,98,53) (A,97,51) (A,134,51) CKSRYB104K50 CKSRYF104Z16 CKSSYF104Z16 CSZS100M16 CKSSYF104Z16 C C C C C 4233 4234 4235 4236 4237 (A,14,48) (A,10,50) (A,21,31) (A,81,24) (A,80,31) CKSRYB105K6R3 CKSRYB104K50 CKSRYB103K50 CKSRYF105Z10 CKSSYB104K10 C C C C C 4152 4153 4154 4155 4156 (A,128,58) (A,136,52) (A,135,56) (A,134,55) (A,128,56) CKSSYF104Z16 CKSRYB104K50 CKSRYB104K50 CKSSYF104Z16 CSZSR330M10 C C C C C 4238 4239 4240 4241 4242 (A,77,31) (A,17,38) (A,33,45) (A,75,20) (A,74,13) CSZS100M10 CKSSYF104Z16 CKSRYB103K50 CKSRYF105Z10 CKSSYB104K10 C C C C C 4157 4158 4161 4162 4163 (A,138,56) (A,132,52) (A,130,51) (A,146,53) (A,140,53) 4.7µF CKSQYF334Z25 CSZS100M16 CKSSYF104Z16 CKSRYB104K50 CCG1111 C C C C C 4243 4244 4245 4248 4261 (A,71,15) (A,77,24) (A,75,12) (A,77,28) (A,41,10) CSZS100M10 CSZS100M16 CKSSYF104Z16 CKSSYB104K10 CKSRYB104K50 C C C C C 4164 4172 4181 4182 4183 (A,141,56) (A,144,12) (A,20,27) (A,30,27) (A,29,29) CKSRYB104K50 CKSRYB104K50 CKSQYF105Z25 CKSQYF105Z25 CKSRYB104K50 C C C C C 4301 4302 4311 4312 4313 (A,30,6) (A,33,10) (B,7,114) (B,7,115) (B,4,117) CKSRYB105K6R3 CKSRYB104K50 CKSRYB474K10 CKSRYB104K50 CKSRYB104K50 C C C C C 4184 4188 4190 4191 4192 (A,24,33) (A,13,31) (A,11,41) (A,11,40) (A,11,43) CKSQYF105Z25 CKSQYF105Z25 CKSQYF225Z16 CKSQYF225Z16 CKSQYF105Z25 C C C C C 4314 4315 4371 4372 4373 (B,10,117) (B,5,106) (B,6,65) (B,6,80) (B,6,95) CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 C C C C C 4193 4194 4195 4196 4197 (A,15,35) (A,16,31) (A,20,31) (A,26,35) (A,29,35) CKSRYF474Z16 CKSRYF474Z16 CKSYF475Z16 CKSRYB472K50 CKSRYB472K50 C C C C C 4430 4431 4432 4433 4438 (A,91,18) (A,90,18) (A,89,18) (A,85,15) 10µF (A,81,13) CCSSCH470J50 CCSSCH680J50 CCSSCH470J50 CCG1171 CKSSYF104Z16 C C C C C 4198 4199 4200 4201 4202 (A,26,23) (A,15,37) (A,11,35) (A,43,30) 33µF/10V (A,40,29) CKSQYF105Z25 CKSRYF474Z16 CKSQYF105Z25 CCH1586 CKSRYB104K50 C C C C C 4439 4440 4452 4453 4454 (A,90,12) (A,82,16) (A,141,30) (A,143,19) (A,144,30) CCSSCH5R0C50 CSZSR330M10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 4203 4204 4205 4206 4207 (A,33,39) (A,36,38) 10µF (A,27,38) (A,28,38) (A,10,27) CKSRYB103K50 CCG1138 CKSRYB103K50 CKSRYB105K6R3 CKSQYF105Z25 C C C C C 4455 4501 4502 4503 4504 (A,149,18) (A,38,81) (A,37,85) (A,37,78) (A,38,75) CSZS100M10 CKSSYB102K10 CKSSYB102K10 CKSSYB102K10 CKSSYB102K10 C C C C C 4208 4209 4210 4211 4212 (A,30,45) (A,29,42) (A,46,62) (A,30,47) (A,36,45) 10µF CKSRYB102K50 CKSRYB104K50 CKSQYF105Z25 CKSRYB105K6R3 CCG1138 C C C C C 4506 4507 4508 4521 4522 (A,34,76) (A,33,78) (A,33,75) (A,82,80) 10µF (A,78,80) 10µF CKSSYB102K10 CKSSYB102K10 CKSRYB105K6R3 CCG1138 CCG1138 C C C C C 4213 4214 4215 4216 4217 (A,30,48) (A,39,45) 10µF (A,38,51) (A,41,53) 68µF/6.3V (A,25,53) CKSRYB104K50 CCG1138 CKSRYB104K50 CCH1440 CCSRCH101J50 C C C C C 4531 4541 4601 4602 4603 (A,57,41) (A,21,68) (A,49,75) (A,47,73) (A,45,72) CKSSYB104K10 CKSQYF224Z25 CSZSR330M10 CKSSYB104K10 CKSQYB225K10 AVH-P5700DVD/EW 5 6 7 8 A B C D E F 109 1 Circuit Symbol and No. A B C 2 3 Part No. Circuit Symbol and No. C C C C C 4604 4608 4609 4610 4611 (A,36,70) (A,70,50) (A,64,41) (A,62,41) (A,45,66) CSZS330M6R3 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 4668 4669 4670 4691 5002 (A,76,40) 2.2µF (A,75,49) 2.2µF (A,77,40) 2.2µF (A,35,16) (B,10,69) CCG1179 CCG1179 CCG1179 CKSSYB104K10 CKSRYB104K50 C C C C C 5343 5344 5345 5346 5347 (B,10,34) (B,12,40) (A,13,34) (B,8,38) (B,8,40) CKSRYB104K50 CKSRYB105K10 CKSQYB474K16 CKSRYF105Z10 CKSRYF104Z50 C C C C C 5348 5349 5352 5353 5354 (B,4,38) (B,4,41) (B,12,39) (A,5,51) (B,11,50) CKSRYB332K50 CKSRYB152K50 CKSRYB103K50 CKSRYB473K50 CFHXSQ221J50 C C C C C 5355 5356 5357 5358 5359 (A,12,47) (B,8,54) 10µF (B,8,58) 10µF (A,10,59) (A,8,99) 22pF CKSRYB473K50 CCG1138 CCG1138 CKSQYB105K10 CCG1140 C C C C C 5361 5362 5371 5372 5391 (B,4,89) (A,12,59) (B,13,12) (B,8,9) (B,12,27) CKSRYB223K50 CKSQYB105K10 CKSRYF104Z50 CKSRYF105Z10 CKSRYF104Z50 I Unit Number: Unit Name:Keyboard Unit D MISCELLANEOUS E F IC 5501 D 5501 D 5502 D 5503 D 5504 (A,19,11) IC (B,58,9) LED (EW) (A,58,5) LED (A,121,5) LED (A,95,5) LED TSOP4840SB1 CL-195SR-CD CL-190UB2-X CL-190UB2-X CL-190UB2-X D D D D D 5505 5506 5507 5508 5509 (A,71,5) LED (A,44,5) LED (A,108,5) LED (A,84,12) LED (B,24,12) Diode CL-190UB2-X CL-190UB2-X CL-190UB2-X CL-190UB2-X UDZS6R8(B) D D D D D 5510 5511 5512 5513 5514 (A,27,4) LED (A,29,4) LED (EW) (A,154,5) LED (A,154,7) LED (EW) (A,139,12) LED CL-195PG-CD CL-195SR-CD CL-195PG-CD CL-195SR-CD CL-195PG-CD D D D D D 5515 5516 5517 5518 5519 (A,138,12) LED (EW) (A,11,14) LED (A,9,14) LED (EW) (A,159,10) LED (A,158,10) LED (EW) CL-195SR-CD CL-195PG-CD CL-195SR-CD CL-195PG-CD CL-195SR-CD (A,138,4) LED (A,137,4) LED (EW) (A,11,6) LED CL-195PG-CD CL-195SR-CD CL-195PG-CD D 5520 D 5521 D 5522 110 4 Part No. D 5523 D 5524 (A,9,7) LED (EW) (A,154,14) LED CL-195SR-CD CL-195PG-CD D D D D S 5525 5526 5527 5528 5501 (A,154,13) LED (EW) (A,150,9) LED (A,151,10) LED (EW) (A,100,11) LED (A,44,3) Push Switch CL-195SR-CD CL-195PG-CD CL-195SR-CD CL-195SR-CD CSG1155 S S S S S 5502 5503 5504 5505 5506 (A,75,3) Push Switch (A,54,3) Push Switch (A,9,17) Push Switch (A,9,3) Push Switch (A,24,4) Push Switch CSG1155 CSG1155 CSG1155 CSG1155 CSG1155 S S S S S 5507 5508 5509 5510 5511 (A,91,3) Push Switch (A,112,3) Push Switch (A,121,3) Push Switch (A,142,4) Push Switch (A,162,10) Push Switch CSG1155 CSG1155 CSG1155 CSG1155 CSG1155 S S S S S 5512 5513 5514 5515 5516 (A,154,17) Push Switch (A,154,3) Push Switch (A,147,10) Push Switch (A,143,14) Push Switch (A,162,20) Push Switch CSG1155 CSG1155 CSG1155 CSG1155 CSG1155 (A,83,8) Switch CSN1057 S 5517 RESISTORS R R R R R 5501 5502 5503 5504 5505 (B,63,6) (A,63,4) (B,24,5) (B,7,9) (B,60,9) (EW) RS1/16S122J RS1/16S202J RS1/16S392J RS1/16S123J RS1/16S220J R R R R R 5506 5507 5508 5509 5510 (A,83,4) (B,112,6) (B,116,6) (B,142,6) (B,156,6) RS1/16S122J RS1/16S202J RS1/16S392J RS1/16S123J RS1/16S122J R R R R R 5511 5512 5513 5515 5516 (B,160,12) (B,159,10) (B,146,8) (B,44,6) (B,106,4) RS1/16S202J RS1/16S392J RS1/16S123J RS1/16S221J RS1/16S221J R R R R R 5517 5518 5519 5520 5521 (B,94,9) (B,70,5) (B,47,6) (B,109,4) (B,96,9) RS1/16S221J RS1/16S391J RS1/16S221J RS1/16S221J RS1/16S221J R R R R R 5522 5523 5524 5525 5526 (B,73,5) (B,50,6) (B,112,4) (B,97,9) (B,73,4) RS1/16S391J RS1/16S221J RS1/16S221J RS1/16S221J RS1/16S331J R R R R R 5527 5528 5529 5530 5531 (B,40,5) (B,156,14) (B,136,12) (B,38,5) (B,157,12) RS1/16S151J RS1/16S151J RS1/16S151J RS1/16S121J RS1/16S121J R R R R 5532 5533 5534 5535 (B,138,12) (B,36,5) (B,157,10) (B,139,12) RS1/16S121J RS1/16S121J RS1/16S121J RS1/16S121J AVH-P5700DVD/EW 1 2 3 4 5 Circuit Symbol and No. 6 7 Part No. R 5536 (B,32,10) RS1/16S103J R R R R R 5537 5538 5539 5540 5541 (B,33,12) (B,34,5) (B,157,8) (B,137,9) (B,29,9) RS1/16S101J RS1/16S121J RS1/16S121J RS1/16S121J RS1/16S101J R R R R R 5542 5543 5544 5545 5546 (B,105,10) (B,105,11) (A,9,8) (EW) (B,151,10) (EW) (B,149,11) (EW) RS1/16S101J RS1/16S101J RS1/16S750J RS1/16S750J RS1/16S750J Circuit Symbol and No. CAPACITORS C C C C C 5501 5502 5503 5504 5505 (A,59,4) (A,121,7) (A,96,4) (A,70,4) (A,44,7) CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 CKSRYB104K50 C 5506 C 5507 C 5508 (A,106,4) (A,86,11) (B,26,10) CKSRYB104K50 CKSRYB104K50 CKSYB475K16 8 Part No. D D L L 1102 1241 1001 1002 Diode Chip LED Inductor Inductor 1SS355 CL205IRXTU CTF1623 CTF1624 L L L L L 1003 1004 1051 1101 1501 Inductor Inductor Inductor Inductor Inductor CTF1558 CTF1558 CTF1473 CTF1305 CTF1378 L L L L L 1502 1503 1554 1555 1556 Inductor Inductor Inductor Inductor Inductor CTF1487 CTF1488 CTF1473 CTF1473 CTF1400 L L L L L 1557 1558 1561 1601 1651 Inductor Inductor Inductor Inductor Inductor CTF1395 CTF1473 CTF1473 CTF1464 CTF1464 L L L L L 1671 1801 1802 1803 1804 Inductor Inductor Inductor Inductor Inductor CTF1473 CTF1558 CTF1558 CTF1464 CTF1468 L L L L L 1851 1852 1901 1902 1903 Inductor Inductor Inductor Inductor Inductor CTF1471 CTF1473 CTF1487 CTF1558 CTF1558 B C Unit Number:CWX3170 Unit Name:DVD Core Unit MISCELLANEOUS C IC 1001 IC 1002 IC 1003 IC 1051 IC 1201 IC IC IC IC IC S-L2980A50MC-C7J R1130H501B LTC3411EMS PE5401A AN8471SAT1 L 1904 L 1905 X 1051 X 1801 VR1551 Inductor Inductor Resonator 4.91MHz Resonator 27.0000MHz Semi-fixed 10kΩ(B) CTF1468 CTF1468 CSS1668 CSS1661 CCP1448 IC 1231 IC 1251 IC 1501 IC 1570 IC 1601 IC IC IC IC IC TC7SZ125FU BA5985FM MN35104UB K4S283232E-TC75 PD6516A EF1801 EF1802 EF1803 EF1901 EF1902 Chp EMI Filter Chp EMI Filter Chp EMI Filter Chp EMI Filter Chp EMI Filter DTL1106 DTL1106 DTL1106 DTL1106 DTL1106 IC 1602 IC 1651 IC 1652 IC 1671 IC 1672 IC IC IC IC IC TC7SH86FU M5M5V216ATP-70HI TC7SZ126FU TC74LCX16373AFT TC7SZ08FU EF1903 EF1904 EF1905 Chp EMI Filter Chp EMI Filter Chp EMI Filter DTL1106 DTL1106 DTF1106 IC 1801 IC 1802 IC 1851 IC 1852 IC 1853 IC IC IC IC IC SM8707LV TC7WH157FU PCM1742KE NJM2140R NJM2100V R R R R R 1001 1003 1004 1005 1006 RS1/10S0R0J RS1/16SS1003D RS1/10S0R0J RS1/16SS1501D RS1/16SS8202D Q Q Q Q Q 1002 1101 1102 1103 1104 Transistor Transistor Transistor Transistor Transistor DTC114EU 2SB1260 2SB1260 DTC114EU 2SA1576A R R R R R 1007 1008 1010 1011 1013 RS1/16SS1502D RS1/16SS101J RS1/16SS105J RS1/16SS105J RS1/16SS103J Q Q Q Q D 1105 1106 1107 1551 1001 Transistor Transistor Transistor Transistor Diode 2SC4081 2SC4081 2SC4081 2SA1576 1SR154-400 R R R R R 1014 1015 1016 1017 1018 RS1/16SS1203D RS1/16SS2402D RS1/16SS0R0J RS1/16SS0R0J RS1/16SS105J Diode 1SS355 D 1101 D RESISTORS AVH-P5700DVD/EW 5 6 A 7 8 E F 111 1 Circuit Symbol and No. A B 2 3 Part No. Circuit Symbol and No. 4 Part No. R R R R R 1021 1051 1052 1053 1054 RS1/16SS122J RS1/16SS104J RS1/16SS104J RS1/16SS104J RS1/16SS104J R R R R R 1131 1201 1202 1203 1204 RS1/16S0R0J RS1/16SS181J RS1/16SS181J RS1/16SS513J RS1/16SS221J R R R R R 1055 1057 1058 1059 1060 RS1/16SS222J RS1/16SS104J RS1/16SS0R0J RS1/16SS104J RS1/16SS104J R R R R R 1206 1207 1208 1211 1212 RS1/16SS513J RS1/16S0R0J RS1/16S0R0J RS1/16SS1R0J RS1/16SS1R0J R R R R R 1061 1062 1063 1064 1065 RS1/16SS221J RS1/16SS104J RS1/16SS104J RS1/16SS104J RS1/16SS104J R R R R R 1213 1214 1215 1216 1231 RS1/16SS1R0J RS1/16SS1R0J RS1/16SS1R0J RS1/16SS1R0J RS1/16SS822J R R R R R 1066 1067 1068 1069 1070 RS1/16SS104J RS1/16SS104J RS1/16SS221J RS1/16SS221J RS1/16SS221J R R R R R 1232 1233 1234 1235 1236 RS1/16SS822J RS1/16SS822J RS1/16SS822J RS1/16SS563J RS1/16SS243J R R R R R 1071 1072 1073 1074 1075 RS1/16SS221J RS1/16SS104J RS1/16SS104J RS1/16SS104J RS1/16SS472J R R R R R 1237 1238 1240 1241 1246 RS1/16SS683J RS1/16SS243J RS1/16S471J RS1/16S391J RS1/16SS104J R R R R R 1076 1080 1081 1082 1083 RS1/16SS104J RS1/16SS0R0J RS1/16SS221J RS1/16SS473J RS1/16S153J R R R R R 1248 1251 1252 1253 1254 RS1/16SS0R0J RS1/16SS221J RS1/16SS221J RS1/16SS393J RS1/16SS223J R R R R R 1084 1085 1087 1088 1089 RS1/16SS104J RS1/16S823J RS1/16S104J RS1/16SS104J RS1/16SS104J R R R R R 1256 1257 1258 1259 1260 RS1/16SS102J RS1/16SS0R0J RS1/16SS393J RS1/16SS393J RS1/16SS393J R R R R R 1090 1101 1102 1103 1104 RAB4CQ104J RS1/16S6R8J RS1/16SS3R9J RS1/16SS3R9J RS1/16SS3R9J R R R R R 1261 1262 1263 1269 1270 RS1/16SS393J RS1/16SS221J RS1/16S0R0J RS1/16SS102J RS1/16SS102J R R R R R 1105 1106 1107 1108 1109 RS1/16SS3R9J RS1/16S6R8J RS1/16SS3R9J RS1/16SS3R9J RS1/16SS3R9J R R R R R 1501 1502 1503 1504 1505 RS1/16SS0R0J RS1/16SS0R0J RAB4CQ101J RS1/16SS0R0J RS1/16SS0R0J R R R R R 1110 1111 1112 1113 1114 RS1/16SS3R9J RS1/16SS272J RS1/16SS472J RS1/16SS102J RS1/16SS221J R R R R R 1506 1507 1508 1509 1511 RAB4CQ101J RS1/16SS0R0J RAB4CQ101J RS1/16SS0R0J RAB4CQ101J R R R R R 1115 1116 1117 1118 1119 RS1/16SS221J RS1/16SS331J RS1/16SS221J RS1/16SS0R0J RS1/16SS0R0J R R R R R 1512 1513 1514 1515 1518 RS1/16SS0R0J RS1/16SS473J RS1/16SS104J RS1/16SS222J RS1/16SS104J R R R R R 1120 1121 1128 1129 1130 RS1/16SS0R0J RS1/16SS0R0J RS1/16S0R0J RS1/16S0R0J RS1/16S0R0J R R R R R 1519 1522 1523 1525 1530 RS1/16SS104J RS1/16SS103J RS1/16SS104J RS1/16SS102J RS1/16SS104J C D E F 112 AVH-P5700DVD/EW 1 2 3 4 5 Circuit Symbol and No. 6 7 Part No. Circuit Symbol and No. 8 Part No. R R R R R 1531 1532 1536 1537 1540 RS1/16S221J RS1/16SS104J RS1/16SS104J RS1/16SS104J RS1/16SS221J R R R R R 1703 1704 1705 1706 1708 RS1/16SS0R0J RS1/16SS105J RN1/16SE1002D RS1/16SS222J RS1/16SS223J R R R R R 1541 1543 1544 1545 1546 RS1/16SS473J RS1/16SS104J RS1/16SS102J RS1/16SS102J RS1/16SS104J R R R R R 1709 1710 1711 1712 1713 RS1/16S1502D RS1/16SS102J RS1/16SS683J RS1/16SS103J RS1/16SS103J R R R R R 1547 1548 1551 1552 1555 RS1/16SS330J RS1/16SS104J CTF1387 RS1/16S101J RS1/16S101J R R R R R 1714 1715 1716 1717 1718 RS1/16SS0R0J RS1/16SS0R0J RS1/16SS0R0J RS1/16SS0R0J RS1/16SS103J R R R R R 1556 1558 1561 1562 1563 RS1/16S101J RS1/16SS750J RS1/16SS153J RS1/16SS471J RS1/16SS471J R R R R R 1719 1720 1721 1723 1724 RS1/16SS103J RS1/16SS103J RS1/16SS103J RN1/16SE3901D RS1/16SS0R0J R R R R R 1565 1566 1567 1568 1569 RS1/16S68R0D RS1/16S4R7J RS1/16SS273J RS1/16SS183J RS1/16SS153J R R R R R 1729 1730 1801 1802 1803 RAB4CQ220J RAB4CQ220J RS1/16S0R0J RS1/16S151J RS1/16S151J R R R R R 1571 1572 1573 1574 1575 RAB4CQ101J RAB4CQ101J RAB4CQ101J RAB4CQ101J RS1/16SS560J R R R R R 1804 1805 1806 1807 1809 RS1/16S221J RS1/16S271J RS1/16SS104J RS1/16S560J RS1/16SS0R0J R R R R R 1576 1577 1578 1579 1580 RS1/16SS560J RAB4CQ560J RAB4CQ560J RS1/16SS220J RAB4CQ560J R R R R R 1821 1823 1851 1856 1857 RS1/16SS222J RS1/16SS101J RS1/16SS0R0J RS1/16SS102J RS1/16SS102J R R R R R 1581 1582 1583 1584 1585 RS1/16SS560J RS1/16SS560J RS1/16SS560J RAB4CQ560J RS1/16SS560J R R R R R 1858 1859 1860 1861 1862 RS1/16SS222J RS1/16SS222J RS1/16SS472J RS1/16SS472J RS1/16SS472J R R R R R 1586 1587 1588 1589 1590 RS1/16SS560J RAB4CQ101J RAB4CQ101J RAB4CQ101J RAB4CQ101J R R R R R 1863 1864 1865 1866 1867 RS1/16SS472J RS1/16SS103J RS1/16SS103J RS1/16SS472J RS1/16SS472J R R R R R 1593 1594 1599 1604 1608 RS1/16SS104J RS1/16S0R0J RS1/16S221J RS1/16SS0R0J RS1/16SS104J R R R R R 1868 1869 1870 1871 1872 RS1/16SS821J RS1/16SS821J RS1/16SS104J RS1/16SS104J RS1/16SS0R0J R R R R R 1613 1652 1653 1671 1672 RS1/16SS0R0J RS1/16SS104J RS1/16SS510J RAB4CQ101J RAB4CQ101J R R R R R 1873 1874 1876 1877 1885 RS1/16SS0R0J RS1/16SS0R0J RS1/16SS0R0J RS1/16SS0R0J RS1/16SS0R0J R R R R R 1673 1674 1675 1701 1702 RAB4CQ101J RAB4CQ101J RS1/16SS331J RS1/16SS103J RS1/16SS103J R R R R R 1897 1899 1901 1903 1908 RS1/16SS0R0J RS1/16SS0R0J RS1/16SS221J RS1/16SS221J RS1/16SS102J Inductor A B C AVH-P5700DVD/EW 5 6 7 8 D E F 113 1 Circuit Symbol and No. A 2 3 Part No. Circuit Symbol and No. R R R R R 1913 1922 1923 1925 1927 RS1/16S0R0J RS1/16SS0R0J RS1/16SS221J RS1/16S0R0J RS1/16SS0R0J R R R R 1928 1954 1955 1961 RS1/16SS221J RS1/16SS221J RS1/16SS221J RS1/16S0R0J CAPACITORS B C D E F C C C C C 1001 1002 1003 1004 1005 C C C C C 1006 1007 1008 1009 1010 C C C C C 1012 1013 1016 1051 1052 C C C C C 1053 1054 1055 1058 1059 CKSSYB104K10 CKSSYB103K16 CKSSYB103K16 CKSSYB471K50 CKSSYB104K10 C C C C C 1060 1101 1102 1103 1104 CKSRYB105K10 CSZSR220M16 CSZSR101M6R3 CKSSYB104K10 CKSSYB103K16 C C C C C 1105 1106 1107 1108 1109 CSZSR101M6R3 CKSSYB104K10 CKSSYB103K16 CKSRYB104K25 CKSSYB473K10 C C C C C 1110 1111 1112 1113 1114 CKSSYB473K10 CKSSYB103K16 CKSRYB105K10 CKSRYB105K10 CKSSYB103K16 C C C C C 1115 1201 1202 1203 1204 CSZSR220M16 CEVW101M16 CKSRYB104K25 CSZSR220M16 CKSRYB104K25 C C C C C 1205 1206 1207 1231 1232 CKSRYB104K25 CKSRYB104K25 CSZSR220M16 CKSRYB104K25 CKSSYB104K10 C C C C 1251 1254 1255 1256 CKSRYB104K25 CKSRYB103K50 CKSRYB103K50 CEVW101M16 114 CKSRYB105K10 CKSRYB104K25 CKSRYB104K25 CKSRYB104K25 CKSRYB105K10 22µF 22µF 22µF 22µF CKSRYB104K25 CCG1178 CCG1178 CCSSCH220J50 CKSSYB102K16 CCG1178 CCG1178 CKSRYB104K25 CKSYB106K6R3 CKSSYB104K10 4 Part No. C 1257 CKSRYB104K25 C C C C C 1258 1259 1501 1502 1503 CCSSCH470J50 CCSSCH5R0C50 CSZSR470M10 CSZSR101M6R3 CSZSR101M6R3 C C C C C 1504 1505 1506 1507 1508 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 1509 1510 1511 1512 1513 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 1514 1515 1516 1517 1518 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 1519 1520 1521 1522 1523 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 1524 1525 1526 1527 1528 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 1529 1530 1531 1532 1533 CKSSYB104K10 CKSSYB104K10 CKSSYB471K50 CKSSYB103K16 CKSSYB103K16 C C C C C 1552 1553 1554 1555 1556 CKSSYB104K10 CKSRYB104K25 CKSSYB104K10 CKSRYB105K10 CSZSR470M10 C C C C C 1557 1558 1559 1561 1570 CKSSYB104K10 CSZS4R7M16 CKSRYB105K10 CKSSYB102K50 CSZSR470M10 C C C C C 1571 1572 1573 1574 1575 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C C 1576 1577 1578 1579 1580 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 C C C C 1581 1582 1583 1601 CKSSYB104K10 CKSSYB104K10 CSZSR470M10 CSZSR470M10 AVH-P5700DVD/EW 1 2 3 4 5 Circuit Symbol and No. 6 7 Part No. Circuit Symbol and No. 8 Part No. C 1603 CKSSYB104K10 C 1865 CKSYB475K10 C C C C C 1651 1653 1654 1655 1671 CSZSR470M10 CKSSYB104K10 CKSRYB104K25 CKSSYB104K10 CKSSYB104K10 C 1870 C 1903 CKSSYB104K10 CKSRYB102K50 C C C C C 1672 1673 1674 1675 1676 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CKSRYB104K25 CKSYB106K6R3 C C C C C 1701 1702 1703 1704 1705 CKSRYB104K25 CKSRYB104K25 CKSSYB104K10 CKSSYB103K16 CKSSYB103K16 C C C C C 1706 1707 1708 1709 1710 CKSSYB104K10 CKSSYB104K10 CKSSYB103K16 CCSRCH221J50 CKSSYB152K50 C C C C C 1711 1712 1713 1715 1716 CKSRYB105K10 CKSRYB105K10 CKSRYB105K10 CKSSYB104K10 CKSSYB104K10 C C C C C 1717 1718 1719 1720 1721 CKSSYB104K10 CKSSYB104K10 CKSSYB562K25 CCSSCH101J50 CCSSCH470J50 C C C C C 1722 1723 1724 1725 1726 CKSSYB103K16 CKSSYB104K10 CKSSYB104K10 CKSSYB104K10 CCSSCH330J50 C C C C C 1727 1728 1733 1801 1802 CKSSYB333K16 CKSSYB104K10 CKSSYB103K16 CKSSYB104K10 CKSSYB104K10 C C C C C 1804 1805 1809 1810 1811 CKSSYB104K10 CCSSCH100D50 CCSSCJ3R0C50 CCSSCK2R0C50 CKSSYB104K10 C C C C C 1851 1852 1853 1854 1855 CKSSYB104K10 CKSSYB104K10 CKSYB106K6R3 CKSYB106K6R3 CKSRYB104K25 C C C C C 1856 1857 1858 1859 1860 CKSRYB104K25 CCSRCH471J50 CCSRCH471J50 CCSRCH471J50 CCSRCH471J50 C C C C 1861 1862 1863 1864 CKSQYB225K10 CKSSYB471K50 CKSSYB471K50 CKSYB475K10 D Unit Number:CWX3154 Unit Name:Compound Unit(A) Q S S S S 1299 1201 1202 1203 1204 Photo-taransistor Spring Switch(12cm) Spring Switch(8cm) Spring Switch(DISC SENS) Spring Switch(DISC SENS) CPT231SCTD CSN1069 CSN1069 CSN1069 CSN1070 Spring Switch(8cm) CSN1070 RS1/16S0R0J RS1/16S0R0J B S 1205 R 1298 R 1299 E Unit Number:CWX3156 Unit Name:Compound Unit(B) S 1206 Switch(CLAMP) CSN1051 J Unit Number:CZW3087 C Unit Name:Main Unit MISCELLANEOUS IC 3801 IC 3802 IC 3803 IC 3804 IC 3805 IC IC IC IC Photo-interrupter BA00AST BA6247FP TA78L05F TC7S14FU GP2L24B Q Q Q Q D Transistor Transistor Transistor Transistor Diode DTC124EU 2SA1037K DTC124EU UMD2N UDZS5R6(B) Diode Inductor Inductor 1SS355 LCTA150J2520 LCTA150J2520 3801 3802 3803 3804 3801 D 3802 L 3801 L 3802 6 D RESISTORS R R R R R 3801 3802 3803 3804 3805 RS1/16S103J RS1/16S222J RS1/16S471J RS1/16S102J RS1/16S102J R R R R R 3806 3807 3808 3809 3810 RS1/16S102J RS1/16S102J RS1/16S103J RS1/16S222J RS1/16S222J R R R R R 3811 3812 3813 3814 3815 RS1/16S102J RS1/16S102J RS1/16S472J RS1/16S102J RS1/16S0R0J AVH-P5700DVD/EW 5 A 7 8 E F 115 1 Circuit Symbol and No. A R R R R R 2 3 4 3 4 Part No. 3816 3817 3818 3819 3821 RS1/16S0R0J RS1/16S0R0J RS1/16S473J RS1/16S0R0J RS1/16S473J R 3822 R 3823 RS1/16S512J RS1/16S0R0J CAPACITORS B C C C C C C 3801 3802 3803 3804 3805 CKSQYB105K16 CKSQYB105K16 CKSRYB104K16 CKSRYB104K16 CKSRYB104K16 C C C C C 3806 3807 3808 3809 3810 CKSRYB223K50 CKSRYB223K50 CEVW101M16 CEVW101M16 CKSRYB104K16 C C C C C 3811 3812 3813 3815 3819 CEVW100M16 CKSRYB104K16 CKSRYB102K50 CKSQYB104K50 CEVW101M16 K Unit Number:CZW3088 Unit Name:SW Unit S 3831 S 3832 D Spring Switch(ANGLE) Spring Switch(LIFT) CSN1052 CSN1052 L Unit Number:CZW3089 Unit Name:Volume Unit VR3841 Volume (ANGLE SENSE) CCW1025 Miscellaneous Parts List M M M M E 1 2 3 771 M 781 M 3001 M 3002 Pickup Unit(Service) Motor Unit(LOADING) Motor Unit(CARRIAGE) Motor(SPINDLE) Fan Motor(REAR) CXX1770 CXC4659 CXC4134 CXM1272 CXM1262 Fan Motor(CENTER) Motor Unit(POSITION) Motor Unit(ANGLE) CXM1276 CXB9515 CXB9516 F 116 AVH-P5700DVD/EW 1 2 5 6 7 8 6. ADJUSTMENT 6.1 JIG CONNECTION DIAGRAM A B C MONITOR PCB DVD MECHANISM MODULE (MS-3V1) D MOTHER UNIT KEYBOARD UNIT - Jigs List Name 33 pin extension cable Relay PCB Relay PCB 20 p pin extension cable 40 pin extension cable 40 pin extension cable 2 pin extension cable Jig No. GGD1262 GGF1462 GGF1461 GGD1209 GGD1170 GGD1284 GGD1439 Remarks Connecting g the monitor PCB to relay y PCB(GGF1462) ( ) Connecting the monitor PCB extension cable to flexible PCB Connecting the monitor PCB extension cable to flexible PCB Connecting g the mother unit to relayy PCB(GGF1461) ( ) Connecting the mother unit to relay PCB(GGF1461) Connecting the mother unit to DVD mechanism module Connecting the mother unit to DVD mechanism module E F AVH-P5700DVD/EW 5 6 7 8 117 1 2 3 4 6.2 DVD ADJUSTMENT A 1) Precautions This product uses 5V and 3.3V as standard voltages. The electrical potential that is the reference for signals, is not GND, but VREF (approximately 2.2V) and VHALF (approximately 1.65V). During product adjustments, if the reference voltage is mistakenly taken as GND, and a grounding contact is made, not only would it be impossible to measure the accurate electrical potential, but also the servo motor would malfunction, resulting in the application of a strong impact on the pick up. The following precautionary measures should be strictly adhered to, in order to avoid such problems. The reference voltage and GND should not be confused when using the minus probe of a measurement device. When an oscilloscope is being used special care should be taken to make sure that the reference voltage is not connected to the probe of ch1 (on the minus side), while the probe of ch2 (on the minus side), is connected to GND. Further, since the body frame of most measurement devices have the same electrical potential as the minus side of the probe, the body frame of the measurement device should be set to floating ground. B C If the reference voltage is connected to GND by mistake, turn the regulator OFF immediately, or turn the power OFF. • Remove the filters and wires used for measurements only after the regulator has been turned OFF. • After the power supply is turned on, regulator ON the following adjustment and measurement are promptly done. • Whenever the product is in the test mode, the software will not take any protective action. For this reason, special care should be taken to make sure that no mechanical or electrical shock could be applied to the product when taking measurements in the test mode. • Whenever the EJECT key is pressed to eject the disk, no other keys, other than the EJECT key, should be pressed until the disk eject action has been completed. • Press the EJECT key only after the disk has stopped completely. • If the product hangs up turn the power OFF immediately. • Laser didoes may be damaged, if the volume switch for the laser power adjustment of the pick up unit, is turned. Attention) • Test mode starting procedure Reset start while pressing the BAND and ANGLE- keys together. • Test mode stopping procedure ACC and Backup OFF. D E F 118 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 - Front-End test mode flow chart A Start test mode Note 1: At this stage select the media type. Various settings are carried out according to the media selection made here. Note 2: While measurements are being taken, only the operation, for which the measurement is being taken, is allowed. Note 3: Reproduction (play) speed is selectable from DVD : x1.3 1.6CAV,CD : x 4CLV Fixation Note 4: Gain change: Normal gain -> OEIC=H -> OEIC=H and FEP x 4 AMP ON Test mode In Set source to DVD TEST RIGHT LEFT FE test mode ANGLE- EDC1 mode EDC2 mode 0X00 0000 RIGHT 1X00 0000 ATT : CD-RW Power on condition 0000 0000 1A00 0000 LEFT ANGLE+ ANGLE- Power Off Focus Search Focus close adjustment ATT EQ CRG + CRG – LD_ON CRG_HOME 1B00 0000 1C00 0000 LD_ON :1100 0000 LD_OFF:1000 0000 1D00 0000 1100 0000 LEFT Focus Search Stop 1FFF 0000 2X00 0000 LEFT RIGHT A.MENU T.Bal and other adjustments Focus Jump Layer L0:2000 0000 Layer L1:2100 0000 2FFF 0000 3000 0000 A.MENU Power Off 4X00 0000 A.MENU Power Off RIGHT LEFT Error Rate measurement (Note 2) CRG – Error Rate Focus Gain Coefficient(Layer0) Focus Gain Coefficient(Layer1) Tracking Gain Coefficient(Layer0) Tracking Gain Coefficient(Layer1) AS normalization adjustment feature (Layer0) AS normalization adjustment feature (Layer1) DVD x 1.3 ~ 1.6CAV CD x 4CLV: 4X00 0000 Tracking close condition Operation while key is being pushed. 3C00 0000 ATT Reproduction speed switching (Note 3) Operation while key is being pushed. 2C00 0000 Focus close condition 2 ANGLE+ Operation while key is being pushed. 3B00 0000 3FFF 0000 4000 0000 CRG – Operation while key is being pushed. 2B00 0000 CRG + Tracking close adjustment Focus close condition 1 CRG + RIGHT ANGLE- C ANGLE+ ANGLE- ANGLE-, ANGLE+ EQ Focus Jump Layer L0:4X00 0000 Layer L1:4X00 0000 ID Search T. Jump +/– Jump+: 4B00 0000 Jump-: 4C00 0000 4A00 0000 RIGHT ~ FBAL Coefficient(Layer0) FBAL Coefficient(Layer1) Focus Gain Coefficient(Layer0) Focus Gain Coefficient(Layer1) Tracking Gain Coefficient(Layer0) Tracking Gain Coefficient(Layer1) AS normalization adjustment feature (Layer0) AS normalization adjustment feature (Layer1) ANGLE+ : CD Eject RIGHT Power Off TBAL Coefficient(Layer 0) TBAL Coefficient(Layer 1) TE normalization feature (Layer0) TE normalization feature (Layer1) ANGLE- : DVD, dual-layer Power off condition EJECT Disc Type (Note 1) 0FFF 0000 A.MENU FE MAX level FE MIN level AS MAX level ENV MAX level FE normalization feature Spindle gain coefficient TEMAX level TEMIN level LEFT~ATT Power On FE offset coefficient TE offset coefficient AS offset coefficient ENV offset coefficient TG offset coefficient DBALt coefficient B LEFT : DVD, single-layer ANGLE+ ID specification ID display ID Search Start D Tracking Open Track number specification Track number display ATT A.MENU ATT Jump start E F AVH-P5700DVD/EW 5 6 7 8 119 1 2 3 EDC1 mode A EDC2 mode 0000 0000 RIGHT 0000 0000 LEFT Layer 0 selected RIGHT Layer 1 selected 0100 0000 1103 0000 RIGHT ~ 0000 0000 1003 0000 ANGLE- ANGLE+ ID designation B Layer0:10** **** Layer1:11** **** ** ****: ID specification value Layer 1 selected 0000 0000 1003 0000 ID designation ATT EDC1 start LEFT Layer 0 selected ~ RIGHT 4 0100 0000 1103 0000 Layer0:10** **** Layer1:11** **** ** ****: ID specification value ATT Layer0:20** **** Layer1:21** **** ** ****: Present ID value EDC2 start Layer0:20** **** Layer1:21** **** ** ****: Present ID value F-close and F-search cannot be executed, unless LD-ON is set. [If F-close isn't executed within 9 seconds after LD-ON, it switches to LD-OFF automatically. And even if F-search is executed within 9 seconds after LD-ON, it also switches to LD-OFF.] Please carry out F-close after carrying out power-off at once and carrying out power-on again, when carrying out F-close after performing F-search. The track number designation is selected from the track numbers already prepared for selection. Switching to cyclic operation is made at step ANGLE-, and the decision is finalized (entered) in step ATT. For CD: Tracks 1, 4, 10, 11 and 32. For DVD: Tracks 1, 4, 10, 11, 32, 64 and 100. C Method for designating an ID address: • A number of digits are determined through commands RIGHT and LEFT. Numerical UP/DOWN operations are performed through commands ANGLE- and ANGLE+. The decision is finalized (entered) with command ATT. Display Error Code List Error status from D DVD microcomputer Contents 0X50 Mecha. error Display No display 0X40 No disc No display 0X30 The temperature is abnormal Thermal Protection in Motion 0X20 Read error Error-02-XX 0XE2 Non-playable disc NON-PLAYABLE DISC 0X90 Different region disc DIFFERENT REGION DISC 0XFF Undefined error Error-FF Error code of read error(Part of XX) E F 120 Error Code Contents Display 0X99 Data cannot read Please confirm the disc 0X80 The address cannot be found Please confirm the disc 0X90 Focus error Please confirm the disc 0X91 Spindle lock NG DVD is stopping because mechanism detected abnormality 0X92 Carriage home NG DVD is stopping because mechanism detected abnormality 0X93 FOK error Please confirm the disc 0X94 ID/Subcode cannot be read Please confirm the disc 0X95 High spindle rotation DVD is stopping because mechanism detected abnormality 0X96 Row spindle rotation DVD is stopping because mechanism detected abnormality 0X98 TOC cannot be found Please confirm the disc 0X9A AV chip error DVD is stopping because mechanism detected abnormality 0X9B RecaveryNG(BE) DVD is stopping because mechanism detected abnormality 0X9C Play state error 0X9D Disc data error 0X9E Serface error (Disc distinction is improper) AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 Skew Adjustment The skew adjustment is to adjust the pickup and the flatness of the disc so that the beam from the pickup continues to go to the disc vertically. In MS3 mecha, the pickup shaft on the inner track near the carriage motor is fixed, so the fixed position is regarded as the standard and the flatness is adjusted. Observing the RF waveform on the oscilloscope, repeat the adjustment on the inner track position and the outer track position, and narrow the adjusted value. A If any of the following replacements have been performed on the system, adjustments for pick up, must be conducted: 1. Pick up unit replacement 2. Spindle motor replacement 3. Carriage chassis replacement 4. Pick up unit main shaft replacement 5. Pick up unit sub-shaft replacement B Measurement device and tools : Oscilloscope Allen key wrench 40-pin flexible extension (GGD1284) 2-pin extension cable(GGD1439) Screw lock (GYL1001) Disk used : GGV1018 Measurement reference : AGND3 Measurement point : ANAMONI Connection diagram DVD core unit C ANAMONI Oscilloscope D AGND E F AVH-P5700DVD/EW 5 6 7 8 121 1 2 3 4 Symptoms in case of poor adjustment: Error efficiency deteriorated: 10 -3 (Optimum value: 10-4 or lower) High jitter of the RF signal RF waveform deformed Unstable operation in tracking closing and servo control Caution: Avoid exposing your eyes to laser beams for a long time. Preparation for adjustment: Clean both ends of the shafts. Use brand new skew screws supplied with the service kit GXX1242. A Procedures: 1. Place the DVD mechanism module upside down. To avoid the disc from being robbed when it is turned upside down, first put a coin of about 1.5 mm on the table, then turn the disc upside down and set it so that the 1 in the figure comes to the point immediately above the coin. 2. After replacing the pickup (by referring to the procedures of "Removing the Pickup."), roughly adjust the three skew screws through visual check so that the pickup is mounted in parallel to the CRG chassis around the inner and outer tacks. 3. Connect an oscilloscope as shown in the connecting diagram. 4. Turn on the power of the product. Load the test disc (GGV1018). 5. In the front-end test mode, set the disc type to DVD layer 1. Then, turn on the power. Move the pickup toward the inner tracks. 6. Turn on the laser diodes. 7. With the focus servo closed, complete all automatic adjustments. Close the tracking servo, and then complete all automatic adjustments. 8 Follow the next procedures, from 8-1 to 8-5, and adjust the (three) skew screws. 8-1 Move the pickup toward the inner track and turn the skew adjustment screw C so that the RF level of oscilloscope becomes the maximum. (Tangential adjustment at the inner track position: Adjust the flatness of the disc at the inner track position with the adjustment screw C) 8-2 Move the pickup toward the outer track and turn the skew adjustment screw B so that the RF level becomes the maximum. (Tangential adjustment at the outer track position: Adjust the flatness of the disc at the outer track position with the adjustment screw B) 8-3 Leave the pickup at the outer track position and turn the skew adjustment screws A and B in the same direction alternately one quarter at a time (A•B•A•B •••) so that the RF level becomes the maximum. (Radial adjustment at the outer track position: Keeping the flatness at the outer track position, adjust the flatness of the whole disk with the adjustment screws A and B) 8-4 Move the pickup toward the inner track and turn the skew adjustment screw C so that the RF level becomes the maximum. (Tangential adjustment at the inner track position: Adjust the flatness of the disc at the inner track position with the djustment screw C) 8-5 Repeat the steps from 8-2 to 8-4 three times, and adjust at the position where the RF level becomes the maximum. 9. Turn off the power in the test mode. After confirming that the disc has stopped, eject the disc. 10. Adjust with a screw rock the shaft and skew adjustment screw to the same state as initial one. B C D Skew adj. screw Skew adj. screw Apply glue Prevent applied glue from extending beyond this position. Prevent applied glue Shaft from extending beyond this position. E C 1 B A F 122 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 Back end section check flow chart A Start Are all reproduced images and sounds normal? NO YES NO Go to the F.E. section check Is the F.E. section normal? B YES Are all power supply voltages? Execute Check 1 NG OK Are all clocks operating normally? Execute Check 2 NG C OK Is the audio circuit operating normally? Execute Check 3 NG OK Is the video circuit operating normally? Execute Check 4 NG D OK Is SDRAM I/F operating normally? Execute Check 5 NG Repair or replace any defective unit NO All checks normal? E YES Check completed F AVH-P5700DVD/EW 5 6 7 8 123 1 2 3 4 Check 1 : Are all power supply voltages? Reproduce DVD-REF-A1 Title 1. Verify the voltage of the sensing pin. A Verification location VD8_1/2 - PGND_1/2 VDD33 - DGND1/2/3 SRVDD - DGND1/2/3 VCC5_1 - AGND1 AVCC5_1 - AGND1 VCC33_1/2 - DGND1/2/3 VCC33_3/4/5 - DGND1/2/3 VCC15_1/2 - DGND1/2/3 No. 1 2 3 4 5 6 7 8 Rated value 8.0 0.4 3.3 0.15 3.3 0.15 5.0 0.1 5.0 0.1 3.3 0.15 3.3 0.3 1.5 0.1 Unit V V V V V V V V B Check 2 : Are all clock operating normally? Reproduce DVD-REF-A1 Title 1 Check Circuit Diagram 1 . Checks are to conducted with a GND reference. If locations listed under "verification location 2", can be verified, there will be no need to perform verifications for the locations listed under "verification location 1." If the result is not satisfactory, check to see if there are any problems with the resin flux cored solder and other defects in the applicable line, vicinity of IC 1802 (Circuit Diagram 1 ) and peripheral components. No. Verification location 1 Verification location 2 Media Rated value 1 (Sensing pin) BECLK 1 ALL 2.3V VCC33 IC1501 170pin EXTCK 2 DVD 2.3V VCC33 IC1501 172pin EXTCK 3 2.3V VCC33 CD IC1501 172pin MCK33 4 ALL 2.2V VCC33 IC1501 92pin DACCLK 5 DVD 2.0V VCC33 IC1851 16pin DACCLK 6 DVD 2.3V VCC33 IC1881 3pin C Rated value 2 GND GND GND GND GND GND 0.8V 0.8V 0.8V 0.8V 0.8V 0.99V Rated value 3 27MHz 50ppm 36.8640MHz 300ppm 33.8688MHz 300ppm 33.898MHz 300ppm 33.8688MHz 300ppm 33.8689MHz 300ppm D Rated Value 1 GND Rated value 3 Rated Value 2 Clock rated values E F 124 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A B C D E Circuit Diagram 1 F AVH-P5700DVD/EW 5 6 7 8 125 1 2 3 4 Check 3 : Is the audio circuit operating normally? Reproduce DVD-REF-A1 Title 2 Chapter (48k/16-bit 1 kHz/0dB). Checks are to be conducted using GNDAU1 (sensing pins) as a reference. If the locations, listed under "verification location 2", can be verified, there is no need to conduct verifications for the locations listed under "verification location 1." If the result is not satisfactory, check to see if there are any problems with resin flux cored solder and other defects in the applicable line, vicinity of major parts stated in the above diagram (Circuit Diagram 2 ) and peripheral components. A No. 1 2 3 Verification location 1 (Sensing pin) AOUT0 SRCK LRCK Verification location 2 IC1851 2pin IC1851 1pin IC1851 3pin Rated value 1 Rated value 2 2.0V and over 2.0V and over 2.0V and over 0.8V and lower 0.8V and lower 0.8V and lower Reference waveform Waveform 1 Waveform 1 Waveform 1 B Rated value 1 GND Rated value 2 Three serial output rated values C Checks are conducted with the measurement circuit below. No. Verification location 1 (Sensing pin) LO 4 RO 5 Verification location 2 CN1901 37pin CN1901 35pin Rated value (rms) 1100 150mV 1100 150mV Reference waveform Waveform 2 Waveform 2 Rated value is effective value (rms) D Analog audio outputs (LO and RO) rated values HOST I/F LO RO These resistors are inserted. 22k E GNDAU LO and RO output measurement circuit No. 6 Verification location 1 Verification location 2 Rated value 1 Rated value 2 Reference waveform (Sensing pin) IEC958 CN1551 1pin VCC33V- 0.6V and over 0.4Vand lower Waveform 3 F 126 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 A B C D E Circuit Diagram 2 F AVH-P5700DVD/EW 5 6 7 8 127 1 2 3 4 Check 4 : Is the video circuit operated normally? Reproduce DVD-REF-A1 Title 2 Chapters (White 1000IRE) Monitor the output with the oscilloscope, by setting the COMPO signal to a GND reference. Set the Trigger mode to the TV trigger, and the Trigger line to line-150. A No. 1 Verification location 1 Rated value (Sensing pin) 1.0 0.02Vpp COMPO Reference waveform Waveform 4 If the result is not satisfactory, check to see if there are any problems with resin flux cored solder and other defects in the applicable line, vicinity of major parts stated in the above diagram (Circuit Diagram 3 ) and peripheral components. B PEAK COMPO Signal Rated value When the result is not satisfactory, adjust the level to 1.0 0.02Vpp. Color brust Pedestal Level BOTTOM Horizontal periodic signal C Composite signal white 100% output waveform < Method of Readjusting Video Levels > If the video composite output is not within the range of rated value, the video level is readjusted in the following method. Turn the video level adjustment volume (VR1551) to adjust its level to 1.0 0.02Vpp. Check 5 : Is SDRAM I/F operated normally? Reproduce DVD-REF-A1 Title 1. Check Circuit Diagram 3 Common to all DVD-V adapted modules Check the conductivity of both the "Verification location 1"and the "Verification location 2." If the result is not satisfactory, check to see if there are any problems with the resin flux cored solder, parts and components, in areas where as problem occurs, for the overall sequence of "output" "input" of the checked location. D No. 1 2 3 4 5 6 7 8 9 10 11 12 E Signal name MA0 MA1 MA2 MA3 MA4 MA5 MA6 MA7 MA8 MA9 MA10 MA11 Verification location 1 Verification location 2 Rated value IC1501 220pin IC1570 25pin 56 5% IC1501 217pin IC1570 26pin 56 5% IC1501 214pin IC1570 27pin 56 5% IC1501 210pin IC1570 60pin 56 5% IC1501 212pin IC1570 61pin 56 5% IC1501 216pin IC1570 62pin 56 5% IC1501 219pin IC1570 63pin 56 5% IC1501 227pin IC1570 64pin 56 5% IC1501 229pin IC1570 65pin 56 5% IC1501 235pin IC1570 66pin 56 5% IC1501 228pin IC1570 24pin 56 5% IC1501 231pin IC1570 21pin 56 5% F 128 AVH-P5700DVD/EW 1 2 3 4 5 No. 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 Signal name MDQ0 MDQ1 MDQ2 MDQ3 MDQ4 MDQ5 MDQ6 MDQ7 MDQ8 MDQ9 MDQ10 MDQ11 MDQ12 MDQ13 MDQ14 MDQ15 MDQ16 MDQ17 MDQ18 MDQ19 MDQ20 MDQ21 MDQ22 MDQ23 MDQ24 MDQ25 MDQ26 MDQ27 MDQ28 MDQ29 MDQ30 MDQ31 MCK XWE XCAS XRAS XCSM DQM0 DQM1 DQM2 DQM3 BA0 BA1 6 7 Verification location 1 Verification location 2 IC1570 2pin IC1501 12pin IC1570 4pin 9pin IC1501 IC1570 5pin 6pin IC1501 IC1570 7pin 3pin IC1501 IC1570 8pin IC1501 256pin IC1570 10pin IC1501 253pin IC1570 11pin IC1501 251pin IC1570 13pin IC1501 247pin IC1570 74pin IC1501 249pin IC1570 76pin IC1501 252pin IC1570 77pin IC1501 255pin IC1570 79pin 2pin IC1501 IC1570 80pin 5pin IC1501 IC1570 82pin 8pin IC1501 IC1570 83pin IC1501 10pin IC1570 85pin IC1501 13pin IC1570 31pin IC1501 205pin IC1570 33pin IC1501 203pin IC1570 34pin IC1501 200pin IC1570 36pin IC1501 197pin IC1570 37pin IC1501 193pin IC1570 39pin IC1501 191pin IC1570 40pin IC1501 187pin IC1570 42pin IC1501 185pin IC1570 45pin IC1501 184pin IC1570 47pin IC1501 188pin IC1570 48pin IC1501 190pin IC1570 50pin IC1501 192pin IC1570 51pin IC1501 196pin IC1570 53pin IC1501 199pin IC1570 54pin IC1501 201pin IC1570 56pin IC1501 204pin IC1570 68pin IC1501 225pin IC1570 17pin IC1501 232pin IC1570 18pin IC1501 242pin IC1570 19pin IC1501 239pin IC1570 20pin IC1501 238pin IC1570 16pin IC1501 243pin IC1570 71pin IC1501 246pin IC1570 28pin IC1501 208pin IC1570 59pin IC1501 207pin IC1570 22pin IC1501 234pin IC1570 23pin IC1501 237pin 8 Rated value 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 100 5% 56 5% 22 5% 56 5% 56 5% 56 5% 56 5% 56 5% 56 5% 56 5% 56 5% 56 5% 56 5% A B C D E F AVH-P5700DVD/EW 5 6 7 8 129 1 2 3 4 A B C D E Circuit Diagram F 130 AVH-P5700DVD/EW 1 2 3 4 3 5 6 7 8 Note: Reference voltage VHALF : 1.65V CH1: AOUT0 CH2: SRCKAV CH3: LRCKAV 2V/div. 2µs/div. A CH1: LO CH2: RO 1V/div. 500µs/div. G→ CH1: IEC958 1V/div. 500ns/div. ←T ←T G→ G→ G→ G→ B ←T G→ Waveform3 Waveform1 Waveform2 CH1: COMPO 200mV/div. 10µs/div. [White 100% output] C G→ Waveform4 D E F AVH-P5700DVD/EW 5 6 7 8 131 1 2 3 4 6.3 MOTHER UNIT ADJUSTMENT A - Adjustment Point SIDE A B C VR801 VR511 SIDE B D TP614 PCL E TP190 TP803 VCRV VCRVG F 132 AVH-P5700DVD/EW 1 2 3 4 5 6 3 2 1 Step DC-DC converter frequency Adjustment Clock frequency Check Main video level Mother PCB adjustment AV IC601 pin36(PCL) Test point TP803 Playback the DVD Measuring point: TP190 Output signsl (measuring point, waveform) IC601 pin56(TP614) to 5V Input test pin: VCRV....100 IRE (white 100%), 1.0Vp-p, (input via 75ohms) VCRVG.... (GND VIDEO GND) Input signsl Mode (input test pin,specs, other conditions) Specs Frequency Counter Frequency Counter 370kHz±5Hz 18.874368MHz±754Hz 1.4V ± 0.05Vp-p Measure between the sync tip and 100 IRE Oscilloscope (top wave). Symptoms with poor adjustment. Over level : Luminance is too high. Under level : Luminance is too low. Measuring instruments VR801 VR511 Adjusting point 5 6 7 7 8 A B C D E F AVH-P5700DVD/EW 8 133 1 2 3 4 6.4 MONITOR PCB ADJUSTMENT A - Adjustment Point SIDE B CVBS1 V14 YSIN COMDC VO1 VO3 GO3 GO04 GO2 RO3 BO4 BO3 RO4 B VM12 V18 RO5 BO5 GO5 RO2 BO2 V33 VO9 VO5 VO7 V5 ANG1 CSYNC ANB1 ANR1 COM V15 V25 C V8 D E F 134 AVH-P5700DVD/EW 1 2 3 4 5 Connect LCD panel for measurement Connect LCD panel for measurement 4.70 ± 0.10 V 4.20 ± 0.30 V 1.80 ± 0.10 V — — — — — C4181 hot side (TP:V18) C4207 hot side (TP:VM12) CN4007 1-pin (TP:COM) CN4007 57-pin (TP:VO1) CN4007 55-pin (TP:VO3) Check 18.5V power TP:14.4V supply voltage to14V TP:14.4V to14V No definition No definition No definition Check -12V power supply voltage Vcom amplifier output amplitude check Tone voltage amplitude check V1 6 6 7 8 9 V18 = 18.5 ± 0.5 V V8 = 8.0 ± 0.5 V 6 7 10 Tone voltage amplitude check V3 Connect LCD panel for measurement VM12 = -12.0 ± 0.6 V — C4198 hot side (TP:V8) TP:14.4V to14V Check 8V power supply voltage 5 V5 = 4.9 ± 0.3 V — C4234 hot side (TP:V5) TP:14.4V to14V Check 5V power supply voltage 4 V15 = 1.5 ± 0.08V — TP:14.4V to14V Note IC4183 1-pin (TP:V15) Check 1.5V power supply voltage 3 Adjustment V25 = 2.5 ± 0.15V IC4182 1-pin (TP:V25) TP:14.4V to14V Adjustment point — Check 2.5V power supply voltage 2 C210 hot side (TP:V33) TP:14.4V to14V Measurement point V33 = 3.3 ± 0.25V Check 3.3V power supply voltage 1 Input signal — Adjustment item No. NOTE : When shutting off the power supply of TC90A64AFG, be careful not to energize each IC terminal. However, IIC lines (SDA and SCL) is not included in this case and it is possible to energize them with up to 5V. 5 7 8 A B C D E F AVH-P5700DVD/EW 8 135 A B C D E 136 1 2 Input signal Input synchronized signal to TP CSYNC No definition No definition No definition Measurement point — CN4007 49-pin (TP:VO9) CN4007 51-pin (TP:VO7) CN4007 53-pin (TP:VO5) 3 Input composite image 10STEP signal to TP CVBS1 (1.4Vpp±1%) Input signal to TP YSIN For abroad: 0-3.3V For J spec: 0.4-1.4V(75Ω) Composite level adjustment YS performance check 17 TP GO2 ∼ GO5 TP GO1 Resistor setting of SA13h D5-0 — — — — — Adjustment point When OSD is displayed on EEPROM adjustment mode, ignore "L" output shown among lettered part. Using EEPROM adjustment mode, check that CONTRAST is being 168 to make adjustment. 3 Verify YS performs. Check that "H" always appears on each output while displaying image. Using EEPROM adjustment mode, set CMP CONTRAST on 30 and decrease value one by one. Decrease value by one when "L" starts to appear on output while displaying GO1 image. 3.3V 15.734kHz Input 0.3V (75Ω) Connect LCD panel for measurement Make sure that each output is “ Hi ” When OSD is displayed in EEPROM continuously during displaying image. adjustment mode, LOW output is mixed to the parts where there is a character. 50µS 0.3V 3.30 ± 0.20 V Connect LCD panel for measurement 0.60 ± 0.10 V Note Connect LCD panel for measurement Adjustment 0.35 ± 0.10 V 2 16 Check RGB digital Input white 100% TP BO2 ∼ BO5 output signal to TP GO2 ∼ GO5 TP ANR1, TP RO2 ∼ RO5 ANG1, ANB1 (0.70Vpp±1%) Preparation for image check 14 15 Tone voltage amplitude adjustment V9 12 13 Tone voltage amplitude adjustment V7 11 Adjustment item Tone voltage amplitude adjustment V5 No. NOTE : When shutting off the power supply of TC90A64AFG, be careful not to energize each IC terminal. However, IIC lines (SDA and SCL) is not included in this case and it is possible to energize them with up to 5V. 1 4 F AVH-P5700DVD/EW 4 5 6 Aging Flicker adjustment Input black-white Screen reverse signal per 1 line to TP ANR1, ANG1, ANB1 21 22 — Input composite Screen image lamp signal (monochrome) to TP CVBS1 Image check 20 No definition — No definition YS-OFFSET setting, check 19 Measurement point — Input signal YS, RGB sampling No definition phase setting, check Adjustment item 18 No. Execute to verify that 2-display IC digital-out is not bridged or “OPEN”ed. Make sure that tone changes smoothly, and there is no colored area in the entire display. Leave for more than 30 minutes in operation mode. Adjust the flicker level to minimum from all directions. — — IC4101-3pin (TP COMDC) DC output 7 **h in this chart means the sub-address of TC90A64AFG. 6 SA Black-white reverse signal can be the input to TP CVBS1 (however, adjustment in RGB comes first). Brightness level of reverse signal should be 50%. Adjustment point can be COM DC of flicker adjustment mode. Check EEP-ROM setting value after writing. : YS :B :G :R (Line writing): 1111 (Service): [YS DELAY] should be 7 in EEPROM test mode D15 ∼ 12 D11 ∼ 8 D7 ∼ 4 D3 ∼ 0 Register setting of SA2Fh D3-0 Note Check EEP-ROM setting value after writing. Adjustment (Line writing): 0100 (Service): [YS (R, G, B) SAMPL] should be 12 in EEPROM test mode Register setting for SA2Dh Adjustment point NOTE : When shutting off the power supply of TC90A64AFG, be careful not to energize each IC terminal. However, IIC line (SDA and SCL) is not included in this case and it is possible to energize it with up to 5V. 5 7 8 A B C D E F AVH-P5700DVD/EW 8 137 1 2 3 4 6.5 INVERTER PCB ADJUSTMENT - Adjustment Point SIDE B SIDE A A FL2 FL1 B C GNDF2 D VR5341 INVPUL DIMDTY E VPFL1 F 138 AVH-P5700DVD/EW 1 2 3 4 5 Basic drive Frequency adjustment Check frequency switching Check frequency switching 2 3 Adjustment item 1 No. 6 0V 5V 10 ± 2 % VR5341 — — TP FL1 TP FL2 TP FL1 TP FL2 Adjustment point TP FL1 TP FL2 Measurement point Connect 100kΩ between TP FL1 and FL2. Monitor the waveform after voltage division or TP FL2. Do not monitor TP FL1 directly (measurement meter may be damaged because of high voltage). Verify that the frequency of waveform measured in No.1 is 49kHz. Verify that the frequency of waveform measured in No.1 is 52kHz. 49.0 ± 0.5kHz 52.0 ± 0.5kHz Note 48.0 ± 0.1kHz Adjustment 6 7 0V 5V Input 104.0 ± 1kHz waveform below to TP INVPUL. 10 ± 2 % Input 98.0 ± 1kHz waveform below to TP INVPUL. 14.4 ± 0.2V to TP VPFL1 TP DIMDTY : GND TP GNDFL : GND TP INVPUL : GND Input signal 5 7 8 A B C D E F AVH-P5700DVD/EW 8 139 1 2 3 4 6.6 MONITOR TEST MODE - EEPROM Setting Mode 1. Start-up A • Reset and start-up the monitor microcomputer while EPRTEST terminal is in the Low. • Press EQ key + SOURCE key together to Reset Start. 2. Operation Switching setting mode Press [MENU] key of remote control unit to go to the next mode. Selecting an adjustment item to be changed Press [ ↑ ↓ ] key of remote control unit. Changing value of the selected item Press [← →] key of remote control unit. B 3. Setting mode (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) C Flicker adjustment mode (start-up mode) Line adjustment 1 mode Line adjustment 2 mode Line adjustment 3 mode Line adjustment 4 mode Line adjustment 5 mode Line adjustment 6 mode Line adjustment 7 mode Line adjustment 8 mode Line adjustment 9 mode Line adjustment 10 mode Parameter setting mode for dimmer 4. Operation key [ Remote control code ] head unit code Key MENU ↑ ↓ ← → D Code AD19AF63 AD40 AD41 AD42 AD43 Main unit key (If pressing a monitor key in this adjustment mode, there is no affection in operation of the main unit.) * Please note that there is a model by which the remote control signal is not connected to the monitor microcomputer (in that case, operation should be done only by key). After writing a setting value to EEPROM, read and display it. * Writing and reading should be done in 16-bit unit. The bit number of settings varies in each item. * After changing the value of CS (CHECKSUM), take exclusive OR (XOR) with 8-bit and execute writing. After writing this CS value to EEPROM, read and display it, too. If the written value and the read value are different, change the color of the read value. E F 140 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 5. Memory item list and EEPROM EEPROM memory alignment chart (S-93C56BD0I-JS) ADDRESS Bit15 RELATED DIMMER Bit14 Bit13 Bit12 Bit11 Bit10 Bit8 Bit7 Bit6 Bit4 Bit3 Bit2 Bit1 Outside light of dimmer adjustment coordinates (high) Backlight of dimmer adjustment coordinates (high) 01h Outside light of dimmer adjustment coordinates (middle) Backlight of dimmer adjustment coordinates (middle) 02h Outside light of dimmer adjustment coordinates (low) Backlight of dimmer adjustment coordinates (low) 03h Outside light threshold for dimmer (high) Outside light threshold for dimmer (low) 04h Maximum value of backlight output Minimum value of backlight output Don't care RGB &YS horizontal positioning 07h YS sampling phase Gch sampling phase Bch sampling phase 08h Rch sampling phase Don't care YS internal delay adjustment value Checksum EEPROM address:06h-08h 09h 0Ah B Common reference output DC center value Common reverse output amplitude adjustment value 0Bh Don't care Brightness R Don't care 0Ch Don't care Brightness G Don't care 0Dh Don't care Brightness B Don't care 0Eh Main Y contrast Don't care Sub vertical enhancer Main horizontal enhancer 0Fh Don't care Don't care Gain Limiter 10h fo Gain Replicate 13h Don't care Don't care Limiter RGB simultaneous γ slope A RGB simultaneous γ slope B 14h Don't care 15h Don't care 16h Sub vertical enhancer Don't care Gain 12h Coring Sub Y contrast Don't care Main horizontal enhancer 11h fo Gain Replicate RGB simultaneous γ 1 inflection point Don't care R output DC offset RGB simultaneous γ 2 inflection point Coring RGB simultaneous γ slope C G output DC offset RGB simultaneous γ 3 inflection point C Don't care B output DC offset Don't care SA24h LOWER SA24h UPPER 17h SA25h UPPER SA25h LOWER 18h SA26h UPPER TV SA26h LOWER TV 19h SA26h UPPER SA26h LOWER 1Ah SA27h UPPER TV SA27h LOWER TV 1Bh SA27h UPPER SA27h LOWER 1Ch SA46h UPPER SA46h LOWER 1Dh SA47h UPPER SA47h LOWER 1Eh SA48h UPPER SA48h LOWER 1Fh SA49h UPPER SA49h LOWER 20h SA4Ah UPPER SA4Ah LOWER 21h SA4Bh UPPER SA4Bh LOWER 22h SA4Ch UPPER SA4Ch LOWER 23h SA4Dh UPPER SA4Dh LOWER 24h SA4Eh UPPER SA4Eh LOWER 25h SA4Fh UPPER SA4Fh LOWER 26h Dot search threshold YS search threshold 27h Phase search threshold Xdisp (display difference permissible level) 28h Don't care YS disp (display difference permissible level) D Checksum EEPROM address:0AH-28H 29h 2AH Don't care Common reverse output DC center value reference 2Bh Touch panel X coordinate 1 Touch panel Y coordinate 1 2Ch Touch panel X coordinate 2 Touch panel Y coordinate 2 2Dh Touch panel X coordinate 3 Touch panel Y coordinate 3 2Eh Touch panel X coordinate 4 Touch panel Y coordinate 4 2Fh Touch panel X coordinate 5 Touch panel Y coordinate 5 30h Touch panel X coordinate 6 Touch panel Y coordinate 6 31h Touch panel X coordinate 7 Touch panel Y coordinate 7 32h Touch panel X coordinate 8 Touch panel Y coordinate 8 33h Touch panel X coordinate 9 Touch panel Y coordinate 9 RELATED TOUCH PANEL Bit0 Checksum EEPROM address:03h-04h 06h RELATED PIP (excluding operation settings) Bit5 00h 05h RELATED PIP (including operation settings) A Bit9 E F AVH-P5700DVD/EW 5 6 7 8 141 1 2 ADDRESS Bit15 A RELATED TOUCH PANEL Bit14 Bit13 Bit12 Bit11 Bit9 Bit8 Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Touch panel X coordinate 10 35h Touch panel X coordinate 11 Touch panel Y coordinate 11 36h Touch panel X coordinate 12 Touch panel Y coordinate 12 37h Touch panel X coordinate 13 Touch panel Y coordinate 13 38h Touch panel X coordinate 14 Touch panel Y coordinate 14 39h Touch panel X coordinate 15 Touch panel Y coordinate 15 3Ah Touch panel X coordinate 16 Touch panel Y coordinate 16 Bit1 Outermost circumference X min Outermost circumference Y min 3Ch Outermost circumference X max Outermost circumference Y max 3Dh Touch panel calibration adjustment result Touch panel outermost circumference adjustment result Others 3FH Flicker adjustment completion A (writing of microcomputer) 40H Don't care Checksum EEPROM address:2BH-3DH EEPROM adjustment completion (writing of production engineering jig) B * * Ch sampling phase reference EJECT lock value Ch sampling phase reference 41H Don't care ∼ Don't care 7FH Don't care Ch sampling phase reference * * The order of RELATED DIMMER, RELATED PIP, RELATED TOUCH PANEL and others is determined according to frequency of changing. When a writing & reading error or data check (checksum, magnitude relation) error occurs, initialization is done with data belonging to the software at the error time, and initialization is performed per divided section described above. However, RELATED DIMMER should be further divided into sections such as address 00H ∼ 02H and 03H ∼ 04H, then initialized. The user changeable parts (address 00H ∼ 02H) in the segment RELATED DIMMER is not a target of checksum. Concerning the segment RELATED DIMMER, considering PIP register configuration, data obtained from PIP can be stored without software processing. And the alignment is designed to send data obtained from EEPROM to PIP without processing it. (same as NN629) Each area is divided according as whether it is changed during operation or not. (Checksum division is carried out to each.) Address 2H, remote control reverse output DC center value reference is not a target of checksum because it maintains default settings, and basically it is READ ONLY and is not shipped. Address 40H, sampling phase reference is not a target of checksum because it maintains default settings, and basically it is READ ONLY and is not shipped. At the time of EEPROM reset, the address above (excluding 2AH, 40H) is initialized with data belonging to the software. A : Microcomputer writes the result whether flicker adjustment is performed or not (direct mode, EEPROM adjustment screen). B : Production engineering jig: After completing EEPROM adjustment, the value is written (this value is displayed on the confirmation screen). * * * * * * * C D E F 142 AVH-P5700DVD/EW 1 2 Bit0 Touch panel Y coordinate 10 3Bh Addition To be determined Bit10 4 34h 3Eh B 3 3 4 5 6 7 8 6. Screen specification of each mode Actual OSD screen samples are showed inside of the thick frame in the chart below. The numbers in the chart are the changed parts during adjustment in each screen (maximum value is showed in the sample). The items are for design review and line adjustment. A ■ Flicker adjustment mode Setting item Common reverse output center value Adjustment range [0-255] Display item COM_DC Adjustment value Write value (DEC) 255 B * ■ Note1 : The contents of [COM DC, clock phase] should be reflected to the reverse output center reference value. ■ Line adjustment 1 mode Setting item Adjustment range Display item Adjustment value Write value (DEC) Bright RGB simultaneous contrast (SA0C [D0-7]) Common reverse output amplitude adjustment value [0-255] [0-255] [0-255] BRIGHT CONTRAST COM AMP AJ 150 168 150 R output DC offset (SA1A [D11-8]) G output DC offset (SA1C[D11-8]) B output DC offset (SA1E[D11-8]) Main Y contrast (SA0F[D5-0]) Sub Y contrast (SA13[D5-0]) [0-15] [0-15] [0-15] [0-63] [0-63] ROUT BIAS GOUT BIAS BOUT BIAS RGB CNTRST CMP CNTRST 8 8 8 34 26 C NOT NOT LINE1 EEPROM EEPROM D CS FFFF • Adjust common reverse output amplitude by line in order to cancel the variation of hardware quality. • [COM AMPAJ] is a default value set by line and stored in EEPROM. • In the normal operation, [BRIGHT] is determined based on COM AMPAJ (common reverse output amplitude adjustment) and the attached “Image quality table” according to user setting steps, and this value controls monitor microcomputer [COM_AC] output. • User’s adjustment of “Black density (=bright)” on this product is done by controlling common reverse output amplitude only, not done by brightness of 2-display IC. • User’s adjustment of “Black density” is not reflected to [BRIGHT] in the test mode of single monitor. When adjusting [COM AMPAJ], [BRIGHT] changes accordingly. (Memorized [COM AMPAJ] is the same as the [BRIGHT] value of step0.) • When entering test mode in product condition, “Black density” by user’s adjustment is reflected to [BRIGHT] value. If changing [BRIGHT] value in the test mode, it is not reflected to the user setting value. * ■ Note1 : The contents of [BRIGHT] and [CONTRAST] are the reference value for adjusting the other items, and not stored in EEPROM. ■ * Note2 : Be careful about the contents of [R, G, B OUT BIAS] and [RGB, CMP CONTRST] since their indicated value / EEPROM written value and their registered value of 2-display IC (TC90A96AFG) are different. (Software conversion is running because correlation between registered value of 2-display IC and display output is not linear.) E F AVH-P5700DVD/EW 5 6 7 8 143 1 2 3 4 [R, G, BOUT BIAS] Indicated value (=adjustment value) (DEC) A EEPROM written value (DEC) 15 14 : 9 8 7 : 1 0 Registered value of 2- display IC (BIN) 15 14 : 9 8 7 : 1 0 (MAX) 0111 0110 : 0001 0000 1111 : 1001 1000 (TYP) (MIN) [RGB, CMP, CNTRST] B Indicated value (=adjustment value) (DEC) EEPROM written value (DEC) 63 62 : 33 32 31 : 1 0 C Registered value of 2- display IC (BIN) 63 62 : 33 32 31 : 1 0 (MAX) 011111 011110 : 000001 000000 111111 : 100001 100000 (TYP) (MIN) ■ Line adjustment 2 mode Adjustment range Setting item RGB & YS horizontal alignment (SA2B [D15-8]) YS sampling phase 1 (SA2D [D15-12]) AD sampling phase B (SA2D [D11-8]) AD sampling phase G (SA2D [D7-4]) AD sampling phase R (SA2D [D3-0]) YS internal delay adjustment phase (SA2F [D3-0]) D [0-255] [0-15] [0-15] [0-15] [0-15] [0-15] Display item Adjustment value Write value (DEC) DOT H POSIT YS SAMPL B SAMPL G SAMPL R SAMPL YS DELAY 63 8 8 8 8 8 LINE2 CS FFFF Note : Be careful about the contents of [YS,R,G,B SAMPL] and [YS DELAY] since their indicated value / EEPROM * ■ written value and their registered value of 2-display IC (TC90A96AFG) are different. (Software conversion is running because correlation between registered value of 2-display IC and display output is not linear.) Indicated value (=adjustment value) (DEC) E 15 14 : 9 8 7 : 1 0 EEPROM written value (DEC) Registered value of 2- display IC (BIN) 15 14 : 9 8 7 : 1 0 0111 0110 : 0001 0000 1111 : 1001 1000 (MAX) (TYP) (MIN) F 144 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 ■ Line adjustment 3 mode Setting item Dot search threshold YS search threshold Phase search threshold Xdisp Ydisp Adjustment range [0-255] [0-4] [0-255] [0-63] [0-4] Display item TH DOT TH YS TH PHASE X DISP YS DISP Adjustment value Write value (DEC) A 112 3 112 32 2 LINE3 CS FFFF B ■ Line adjustment 4 mode Setting item Main horizontal enhancer gain (SA10 [D13-12]) Main horizontal enhancer limiter (SA10 [D11-10]) Main horizontal enhancer f0 (SA10 [D8]) Main vertical enhancer gain (SA10 [D7-6]) Main vertical enhancer replicable (SA10 [D5-4]) Main vertical enhancer coring (SA10 [D3-2]) Adjustment range [0-3] [0-3] [0-1] [0-3] [0-3] [0-3] Display item Adjustment value Write value (DEC) MH GAIN MH LIMIT MH F0 MV GAIN MV ORI MV CORE 0 0 0 0 0 0 LINE4 C CS FFFF D E F AVH-P5700DVD/EW 5 6 7 8 145 1 2 3 4 ■ Line adjustment 5 mode Adjustment range Setting item A Sub horizontal enhancer gain (SA14 [D13-12]) Sub horizontal enhancer limiter (SA14 [D11-10]) Sub horizontal enhancer f0 (SA14 [D8]) Sub vertical enhancer gain (SA14 [D7-6]) Sub vertical enhancer replicable (SA14 [D5-4]) Sub vertical enhancer coring (SA14 [D3-2]) [0-3] [0-3] [0-1] [0-3] [0-3] [0-3] Display item Adjustment value Write value (DEC) SH GAIN SH LIMIT SH F0 SV GAIN SV ORI SV CORE 1 1 1 2 1 2 LINE5 CS FFFF B ■ Line adjustment 6 mode Adjustment range Setting item Brightness R (SA0C [D13-8]) Brightness G (SA0D [D13-8]) Brightness B (SA0E [D13-8]) γ control ON/OFF (SA1A [D15]) RGB simultaneous γ 1 inflection point (SA1A [D5-D0]) RGB simultaneous γ 2 inflection point (SA1B [D12-8]) RGB simultaneous γ 3 inflection point (SA1B[D4-D0]) RGB simultaneous γ slope A (SA1A [D14-12]) RGB simultaneous γ slope B (SA1B [D15-13]) RGB simultaneous γ slope C (SA1B [D7-5]) C [0-63] [0-63] [0-63] [0-63] [0-31] [0-31] [0-7] [0-7] [0-7] Display item Adjustment value Write value (DEC) BRIGHT R BRIGHT G BRIGHT B GAMMA GAMMA 1 GAMMA 2 GAMMA 3 GAMMASLP A GAMMASLP B GAMMASLP C 16 16 16 OFF 0 4 1 4 1 1 LINE6 CS FFFF * ■ Note : Be careful about the contents of [BRIGHTNESS R, G, B] since their indicated value / EEPROM written value and their registered value of 2-display IC (TC90A96AFG) are different. (Software conversion is running because correlation between registered value of 2-display IC and display output is not linear.) D [BRIGHTNESS R, G, B] Indicated value (=adjustment value) (DEC) 63 62 : 33 32 31 : 1 0 E EEPROM written value (DEC) Registered value of 2- display IC (BIN) 63 62 : 33 32 31 : 1 0 011111 011110 : 000001 000000 111111 : 100001 100000 (MAX) (TYP) (MIN) F 146 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 ■ Line adjustment 7 mode Setting item Adjustment range Display item Adjustment value Write value (DEC) A LINE7 Main PLL0 (SA24 [D15-D8]) Main PLL1 (SA24 [D7-D0]) Main PLL2 (SA25 [D15-D8]) Main PLL3 (SA25 [D7-D0]) [0-255] [0-255] [0-255] [0-255] MAIN PLL0 MAIN PLL1 MAIN PLL2 MAIN PLL3 158 13 204 4 CS FFFF B ■ Line adjustment 8 mode Setting item Adjustment range Display item Adjustment value Write value (DEC) LINE8 TV sub PLL0 (SA26 [D15-8]) TV sub PLL1 (SA26 [D7-D0]) Other sub PLL0 (SA27 [D15-D8]) Other sub PLL1 (SA27 [D7-D0]) TV sub PLL2 (SA28 [D15-8]) TV sub PLL3 (SA28 [D7-D0]) Other sub PLL0 (SA29 [D15-D8]) Other sub PLL1 (SA29 [D7-D0]) [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] SUB PLL0 TV SUB PLL1 TV SUB PLL0 SUB PLL1 SUB PLL2 TV SUB PLL3 TV SUB PLL2 SUB PLL3 140 136 140 141 100 68 152 135 C CS FFFF ■ Line adjustment 9 mode Setting item SA46[D15-8] SA46[D7-D0] SA47[D15-8] SA47[D7-D0] SA48[D15-8] SA48[D7-D0] SA49[D15-D8] SA49[D7-D0] SA4A[D15-8] SA4A[D7-D0] Adjustment range [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] Display item Adjustment value Write value (DEC) SA46H UPPER SA46H LOWER SA47H UPPER SA47H LOWER SA48H UPPER SA48H LOWER SA49H UPPER SA49H LOWER SA4AH UPPER SA4AH LOWER 0 0 0 0 0 0 0 0 0 0 D LINE9 CS FFFF E F AVH-P5700DVD/EW 5 6 7 8 147 1 2 3 4 ■ Line adjustment 10 mode Setting item A Adjustment range SA4B[D15-D8] SA4B[D7-D0] SA4C[D15-D8] SA4C[D7-D0] SA4D[D15-D8] SA4D[D7-D0] SA4E[D15-D8] SA4E[D7-D0] SA4F[D15-D8] SA4F[D7-D0] B [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] Display item Adjustment value Write value (DEC) SA4BH UPPER SA4BH LOWER SA4CH UPPER SA4CH LOWER SA4DH UPPER SA4DH LOWER SA4EH UPPER SA4EH LOWER SA4FH UPPER SA4FH LOWER 0 0 0 0 0 0 0 0 0 0 LINE10 CS FFFF ■ Parameter setting mode for dimmer Setting item Adjustment range Maximum Backlight power Minimum Backlight power Dimmer threshold (high) Dimmer threshold (low) Outside light point (high) Outside light point (middle) Outside light point (low) Backlight point (high) Backlight point (middle) Backlight point (low) C [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] [0-255] Display item Adjustment value Write value (DEC) BL MAX BL MIN REF H REF L LUM H LUM M LUM L BL H BL M BL L C4 59 C0 60 E2 87 52 C4 C4 68 DIMMER CS FFFF * Data of point for dimmer (coordinates) is stored in EEPROM but is not a target of CS since that is changeable by user's operation. D ■ List of EEPROM write values DIMMER relation E2PROM initial value (HEX) Item C4 Upper limit of backlight output 59 Lower limit of backlight output C0 Threshold value (high) of outer light for DIMMER 60 Threshold value (low) of outer light for DIMMER E2 Outer light value on DIMMER-adjusted coordinate (high) 87 Outer light value on DIMMER-adjusted coordinate (middle) 52 Outer light value on DIMMER-adjusted coordinate (low) C4 Backlight value on DIMMER-adjusted coordinate (high) C4 Backlight value on DIMMER-adjusted coordinate (middle) 68 Backlight value on DIMMER-adjusted coordinate (low) Touch panel relation Item E2PROM initial value (HEX) E2PROM initial value (DEC) X coordinate (1-16) of touch panel 00 00 Y coordinate (1-16) of touch panel 00 00 Ultimate perimeter (Xmin) of touch panel 3A 58 Ultimate perimeter (Xmax) of touch panel F8 248 Ultimate perimeter (Ymin) of touch panel 40 64 Ultimate perimeter (Ymax) of touch panel F1 241 Result of adjusting calibration of touch panel 00 00 00 00 Result of adjusting ultimate perimeter of touch panel E F 148 AVH-P5700DVD/EW 1 2 3 4 5 IC relation on Screen 2 Item COM_DC COM_AMP_AJ ROUT_BIAS GOUT_BIAS BOUT_BIAS RGB_CNTRST CMP_CNTRST DOT_H_POSIT YS_SAMPL B_SAMPL G_SAMPL R_SAMPL YS_DELAY TH_DOT TH_YS TH_PHASE X_DISP YS_DISP M_H_GAIN M_H_LIMIT M_H_F0 M_V_GAIN M_V_ORI M_V_CORE S_H_GAIN S_H_LIMIT S_H_F0 S_V_GAIN S_V_ORI S_V_CORE BRIGHT_R BRIGHT_G BRIGHT_B GAMMA_1 GAMMA_2 GAMMA_3 GAMMASLP_A GAMMASLP_B GAMMASLP_C SA24H_UPPER SA24H_LOWER SA25H_UPPER SA25H_LOWER SA26H_UPPER_TV SA26H_LOWER_TV SA26H_UPPER SA26H_LOWER SA27H_UPPER_TV SA27H_LOWER_TV SA27H_UPPER SA27H_LOWER SA46H_UPPER SA46H_LOWER SA47H_UPPER SA47H_LOWER SA48H_UPPER SA48H_LOWER SA49H_UPPER SA49H_LOWER SA4AH_UPPER SA4AH_LOWER SA4BH_UPPER SA4BH_LOWER SA4CH_UPPER SA4CH_LOWER SA4DH_UPPER SA4DH_LOWER SA4EH_UPPER SA4EH_LOWER SA4FH_UPPER SA4FH_LOWER 6 7 E2PROM initial value (HEX) E2PROM initial value (DEC) *The value shown on the left is initial value which is adjusted based on No. 22 Flicker Adjustment in 6.4 Monitor PCB Adjustment. (92) 150 8 8 8 34 (5C) 96 08 08 08 22 1A 3F 0C 0C 0C 0C 07 70 03 70 20 02 00 00 00 00 00 00 00 01 01 00 01 02 10 10 10 00 04 01 04 01 01 9E 0D CC 04 8C 88 8C 8D 64 44 98 6B 02 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 8 A *The value shown on the left is initial value which is adjusted based on No. 16 Composite Level Adjustment in 6.4 Monitor PCB Adjustme -nt. 26 63 12 12 12 12 7 112 3 112 32 2 0 0 0 0 0 0 0 1 1 0 1 2 16 16 16 0 4 1 4 1 1 158 13 204 4 140 136 140 141 100 68 152 107 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 B C D E F AVH-P5700DVD/EW 5 6 7 8 149 1 2 3 4 6.7 TOUCH PANEL TEST MODE 1 TOP MENU A 1.1 Screen configuration Select each item of touch panel test mode. 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 # # # C a l i b r a t i o n / T P 0 1 2 3 4 5 6 7 8 9 B 1. 2. 3. 4. 5. [ E N [U P [ AC S e S e T o C a D a T E / D C t u p t u p u c h l i b t a R ] UWN O F F T c - p r a i n P a a t i ] ] l n i t e i e o i f f b r l n a l Me C u E n e a t t i n r d c t e e z u s t i s s e t e s t # # # i v e o n t t r a n g e s e l e c t i o n o r mo v eme n t o f t e s t 0 1 2 3 4 5 6 7 8 9 Currently selected item is displayed in blue (default : 1). Background : black * Characters : white Selected characters : blue Confirmation indication of conditioned item : red Non-selectable items : gray 1.2 Operation specification C Reset Start by pressing ATT and ANGLE+ to go to touch panel calibration mode. Select each item with up and down keys and go to each setting screen with A.MENU key. [Main unit key] [Remote control code] D Key Code Key ENTER AD19AF63 ENTER ↑ AD40 ↑ ↓ AD41 ↓ 1.3 Processing detail There is no condition in MENU selection. 1.4 Screen detail The mark meaning “conditioned item ” is indicated under following condition: 1 When outermost circumference is adjusted, it is indicated. 2 When 16-point adjustment is done, it is indicated. E The mark meaning “conditioned item ” is not indicated under following condition: No calibration is done after product completion. Adjusted value initialization is done. EEPROM initialization is done. Confirmation indication of conditioned EEPROM Newly available with this product See “Production engineering test : result feedback specification document ” for more detail. F 150 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 2 OUTERMOST CIRCUMFERENCE 2.1 Screen configuration Go over the outermost circumference of touch panel to store the set value to EEPROM. 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 # # S e t u p T h r e f f e c t X m Y m X m Y m C AUT I O P l e a s e [ E N T E R ] < T P e f f e c t t r a n g e ( b e f i n : ( 5 6 i n : ( 6 3 a x : ( 2 4 3 a x : ( 2 3 4 N t o u c h a r o u C h e c k t h > i o o , , , , v u r 1 1 1 1 e c e 2 2 8 8 h , 0 0 0 0 A 0 1 2 3 4 5 6 7 8 9 r a n g e # # - p a n e l a f t e r ) ) ) ) ) n d p a n e l e V a l u e B * [before] is the data stored already in EEPROM. [after] is the data going to be stored now. Audit result confirmation screen : normal case 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 O . K [ E N T E R ] R e t u r n t o Me n u C Audit result confirmation screen: abnormal case 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 D 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 N . G [ E N T E R ] R e t u r n t o Me n u E NG condition information F AVH-P5700DVD/EW 5 6 7 8 151 1 2 3 4 2.2 Operation specification Touch the outermost circumference of screen, and take outermost circumference value of X, Y. A Press [ENT] key of main unit or remote control unit to finish adjustment. After finishing adjustment, if a taken value is within permissible zone, enter [O.K] at the center, and if it is outside permissible zone, enter [NG] at the center. Then, press [ENT] key of main unit or remote control unit to return to TOP MENU. 2.3 Processing detail Press [ENT] key of main unit or remote control unit to finish adjustment and store setting value (maximum and minimum value) to EEPROM only when the taken value is within permissible zone. Receive confirmation screen TP and display OK or NG after fulfilling the following conditions: [O.K] is displayed after storing a taken value to EEPROM. [NG] is displayed when a taken value is determined to be outside permissible zone. B Default is showed below. Coordinates Minimum Maximum X 58 248 Y 64 241 2.4 Additional information Consider diameter of the top of jig (pen tip) before adjusting outermost circumference. C Out-of-alignment length 0.8 mm pen tip for adjustment (zoom in) Perform calibration data operation with the size calculated by subtracting out-of-alignment length from permissible screen area. out-of-alignment length D permissible screen area E F 152 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 3 CALIBRATION 3.1 Overview A Press cursor [ + ] on the screen in turn to calibrate and store the set value to EEPROM. 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 + 13 + 12 + 5 + 4 + 14 + 11 + 6 + 3 + 15 + 10 + 7 + 2 + 9 + 8 + 1 + 16 + 17 0 1 2 3 4 5 6 7 8 9 B * It is invalid if the distant point from displayed block is pressed. 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 F I N I S H E D [ E N T E R ] * [ FINISHED ] * R e t u r n t o Me n u C above is displayed when the number 17 is pressed. 3.2 Operation specification D Execute calibration by pressing cursor displayed at 16 points on the screen in turn and press one point to finish at the end (total 17 points). After the 17th point is displayed, [ FINISHED ] is indicated at the center of the screen. Cursor is always showing one point only and the next cursor is displayed after pressing one correctly. Press [ ENT ] key of main unit or remote control unit to return to TOP MENU. When pressing [ ESC ] during adjustment, the adjusted value is not stored and TOP MENU screen is displayed. 3.3 Processing detail The taken setting value is stored in EEPROM only when pressing the 17th point, and [ FINISHED ] is displayed after storing. See “ t ” about the area for storing EEPROM settings. See “ ” See “ E F AVH-P5700DVD/EW 5 6 7 8 153 1 2 3 4 4 TOUCH PANEL COORDINATES AUDIT 4.1 Screen configuration Check displayed coordinates before and after correction when pressing touch panel and perform operation check. 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 A 0 1 2 3 4 5 6 7 8 9 B # # # + T P P A B A c o o r d i n a t e s o s i t i o n ( D ( e f o r e ( f t e r ( [ EN T E R ] 7 9 0 0 0 R e t u r n , , , , t o t e s t 8 0 0 0 0 0 1 2 3 4 5 6 7 8 9 # # # ) ) ) ) Me n u M152 : The + mark is not displayed at 16 points on the screen. 4.2 Operation specification Move [ + ] mark by up and down, right and left keys and display its OSD coordinates. Press [ ENT ] key of main unit or remote control unit to return to TOP MENU. [ Remote control unit code] C Key Code ENTER AD19AF63 ↑ AD40 ↓ AD41 ← AD42 → AD43 Operatable with main unit key Operatable only with remote control unit 4.3 Processing detail about displayed coordinates (from up to down) *(79,Explanation 80) : Drawing system coordinates of the cross point of horizontal and vertical lines (X direction, Y direction [0-500, D 0-240]). (0,0) : AD data value of the coordinates of pressed point (X direction, Y direction). (0,0) : The coordinates of normalized AD data of pressed point within permissible zone (X direction, Y direction). (0,0) : The coordinates corrected by calibration of the normalized coordinates (X direction, Y direction). Specification correction Rounding was done within the setting range with outermost circumference adjustment in the conventional product (AVH-P9DVA). When value more than outermost circumference value was entered, the outermost circumference value was used. From this time, considering that audit may be performed without outermost circumference adjustment, no limit is set. E F 154 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 4.4 Screen processing (additional) The + mark at the point touched on screen is displayed. When a finger etc. is detached, the + mark at the point pressed at the last moment is displayed continuously. The + mark displayed when being pressed is showed at the under layer of the fixed red + mark. The value displayed at that time is still being displayed. A 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 # # # + C a l i b r a t i o n + X y X y + + [ E NT E R ] + _ b e _ + b e _ A f _ A f + O R e t + f f t t K u o o e e r e r e r r r n t e s t + = + = = = + t o Me + # # # + 3 4 3 4 5 0 8 5 + + B n u + OK, NG judgment indication 4.5 Judgment processing According to the length between + indication and touched coordinates (the point where the cursor is pointed), OK or NG is indicated. OK condition NG condition C the length between + position and cursor indication is within ± 6 mm at the center except OK condition D E F AVH-P5700DVD/EW 5 6 7 8 155 1 2 3 4 5 TOUCH PANEL CONFIRMATION 5.1 Screen configuration A Check displayed coordinates before and after correction when pressing touch panel and perform operation check. 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 # # # + 0 1 2 3 4 5 6 7 8 9 B C a l i b r a t i o n + X y X y + + [ E NT E R ] + _ b e _ + b e _ A f _ A f + R e t + f f t t o o e e r e r e r r u r n t e s t + = + = = = + t o Me + # # # + 3 4 3 4 5 0 8 5 + + n u + + 5.2 Operation specification Check the coordinates before and after correction by touching the touch panel. Press [ ENT ] key of main unit or remote control unit to return to TOP MENU. 5.3 Processing detail Displayed items panel x_before panel y_before panel x_after panel y_after C = = = = * * * * normalized data before calibration (0-255) normalized data before calibration (0-255) normalized data after calibration (0-255) normalized data after calibration (0-255) Follow the steps below to convert AD value entered from touch panel to the corrected coordinates. (Follow 1 → 2 in turn. Execute them during regular operation.) 1 Data expansion of raw coordinates Coordinates after data expansion = (raw coordinates − minimum value ) × 255 ÷ (maximum value − minimum value) If raw coordinates are 0, the coordinates after data expansion should be 0. * 2 Coordinates correction after data expansion (1) If the coordinates are under 224 after data expansion; Coordinates after correction = coordinates after data expansion + correction value × (1 − (coordinates after data expansion − 224) ÷ 31) 31: Because there are 31 points of coordinates position from the value 225 to 255. The effect of correction value declines as the value is going to 255. D * * (2) If the coordinates are less than or equal to 32 after data expansion; Coordinates after correction = coordinates after data expansion + (correction value × coordinates after data expansion ÷ 32) 32 : Because there are 32 points of coordinates position from the value 0 to 32 (coordinates 0 is not included). The effect of correction value declines as the value is going to 0. * * (3) If the coordinates are 33 ∼ 224 after data expansion; Coordinates after correction = coordinates after data expansion + B + (A − B) × (coordinates after data expansion − C) ÷ 64) 64 : Because there are 64 points of coordinates position in each area. Add the correction value at the left corner first. Then, the effect of correction value is increasing as going to right. E * * Coordinates after data 33 ∼ 95 96 ∼ 160 161 ∼ 224 B A C Right corner correction Left corner correction data Left corner coordinates of data of correction area of correction area correction area F 156 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 6 INITIALIZATION OF TOUCH PANEL CALIBRATION DATA 6.1 Screen configuration A Return the outermost circumference, 16-point calibration data to default. 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 # # # 0 1 2 3 4 5 6 7 8 9 T P d a t a i n i t i a l i z e [ ▲ ] R a n g e i n i t [ ▼ ] C a l i b r a t i o n [ E N T E R ] R e t u r n t o # # # 0 1 2 3 4 5 6 7 8 9 i n i t Me n u B The mark indicates that adjustment is finished. Deleted after initialization. (initialization = default inside microcomputer) 6.2 [ ] [▼] Clearing outermost circumference adjustment value and return it to default Clearing 16-point calibration value and return it to default. C Press [ ENT ] key of main unit or remote control unit to return to TOP MENU. 6.3 Processing detail [ Initialization processing ] It initializes outermost circumference value and 16-point value. It writes default of initialized items to EEPROM and clears conditioned flag. D E F AVH-P5700DVD/EW 5 6 7 8 157 1 2 3 4 - Information About Permissible Error Settings For TPS Touch Panel Audit Outermost circumference settings Permissible error of outermost circumference should be 10 % of valid zone. 10 % is calculated by the value determined by the outermost circumference zone as 100. A * 10 % 10 % B Settings valid zone (OK) Settings invalid zone (NG) Outermost circumference default min X C Y max Voltage (V) 0.75 3.21 digital (AD) 58 248 dot (OSD) 0 240 NAVI 0 255 Voltage (V) 0.83 3.12 digital (AD) 64 241 dot (OSD) 0 232 NAVI 0 255 ref 3.3 (V) *Default above is measured with to the very limit of frame during measuring outermost circumference value. Outermost circumference permissible error value D 10 % X Voltage (V) digital (AD) 0.25 19 24 dot (OSD) 26 NAVI Y E Voltage (V) 0.23 digital (AD) 18 dot (OSD) 23 NAVI 26 Outermost circumference adjustment OK zone X Y min max Minimum permissible value 0 229 Maximum permissible value 77 255 Minimum permissible value 0 223 Maximum permissible value 82 255 F 158 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 Calibration Permissible error of point calibration should be 10 % A 10 % + 10 % B Settings valid zone (OK) Settings invalid zone (NG) Outermost circumference permissible error value 10 % X Voltage (V) 0.25 19 digital (AD) Y dot (OSD) 24 NAVI 26 Voltage (V) 0.23 digital (AD) 18 dot (OSD) 23 C 26 NAVI 3.3 (V) ref D E F AVH-P5700DVD/EW 5 6 7 8 159 1 2 3 4 7. GENERAL INFORMATION 7.1 DIAGNOSIS A 7.1.1 DISASSEMBLY - Removing the Grille Assy (Fig.1) Monitor section is drawn out forward. 1 Remove the two screws and then remove the Holder. Disconnect the connector. 2 Remove the two screws and then remove the Grille Assy. B 5 5 3 4 - Removing the Case 3 3 Remove the five screws.(Fig.1) 4 Remove the screw.(Fig.1) 5 Remove the two screws and then remove the Case.(Fig.1) C 3 1 3 1 3 2 2 Note) Inside the product there is a flexible substrate that connects the Case and the Bracket. Be very careful and do not give it a strong pull when removing the Case, otherwise it may be torn. Case Holder Grille Assy Fig.1 - Removing the DVD Mechanism Module (Fig.2) 1 D Remove the four screws. Disconnect the connector and then remove the DVD Mechanism Module. 1 1 E 1 1 DVD Mechanism Module Fig.2 F 160 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 - Removing the Mother Unit (Fig.3) 1 2 Panel Straighten the tabs at two locations indicated. 5 5 5 5 Remove the two screws and then remove the Holder. A 4 5 4 2 1 3 Remove the two screws. 2 6 Disconnect the connector and then remove the Fan Motor. 1 7 4 B 3 6 Remove the two screws. 6 5 Remove the five screws and then remove the Panel. 6 Straighten the tabs at five locations indicated. 7 Remove the screw and then remove the Mother Unit. 3 6 6 C Fan Motor Mother Unit Holder Fig.3 D E F AVH-P5700DVD/EW 5 6 7 8 161 1 2 3 4 - Removing the Case (Fig.4) 1 A 2 5 Remove the two screws and then remove the Lever. 2 2 Remove the three screws and then remove the Holder. B Disconnect the connector. 4 Remove the screw. 5 Remove the five screws and then remove the Case. 5 1 4 Case Lever Holder Fig.4 Motor Unit - Removing the Display Assy (Fig.5) 1 1 2 5 5 3 5 3 Switch Remove the screw. Disconnect the connector and then remove the Motor Unit. 1 C 2 Remove the two screws and then remove the two Holders. 3 Pull out the Display Assy in the arrow indicated direction. Note) When reassembling, hold the switch down with tweezers or the like and put the Display Assy back to the Chassis. Otherwise, the switch may be damaged and not function properly. 2 2 D Holder Holder Display Assy 3 Fig.5 - Removing the Main Unit (Fig.6) E Shaft Unit Bracket 1 Remove the screw and then remove the Bracket. 2 Remove the four screws and then remove the Shaft Unit. 3 Remove the three screws. 2 2 2 3 3 1 2 3 Disconnect the connector and then remove the Main Unit. Main Unit Fig.6 F 162 AVH-P5700DVD/EW 1 2 3 4 5 6 7 - Removing the Display Assy (Fig.7) 8 Display Assy 1 Remove the two screws and then remove the Holder. 2 Remove the three screws and then remove the Cover Unit. 3 Remove the four screws. Holder A 1 1 4 4 4 4 Disconnect the connector and then remove the Display Assy. 2 2 B 2 Cover Unit Fig.7 - Removing the Monitor PCB (Fig.8) 1 Straighten the tabs at two locations indicated. 1 1 C 2 Remove the three screws. Disconnect the connector and then remove the Monitor PCB. 2 2 2 D Monitor PCB Fig.8 Note: Tighten the screws with the panel in warped state as shown in the photograph below. Otherwise, it will be difficult to install Detach Grille Assy to Panel Assy. E F AVH-P5700DVD/EW 5 6 7 8 163 1 2 3 4 - Exchanging Flexible PCB (CNP8806) Sheet (CNM9517) A : Valley fold A : Mountain fold Release coated paper 1 Bracket (CND2627) C B Mother unit side 6 6 14 (mm) B Flexible PCB (CNP8806) C 1. When exchanging a flexible PCB (CNP8806), fold the PCB as indicated in the upper figure. 2. Connect the mother unit side of the flexible PCB to the connecter of the mother unit. 3. Remove release B part of coated paper of the flexible PCB. 4. Paste A part of the flexible PCB along the corner of the bracket (CND2627). 3. Paste C part of the flexible PCB on the bracket. 5. Paste the sheet (CNM9517) according to A part of the flexible PCB. If the flexible PCB and the sheet are not contacted at this time, a monitor part will get damaged or a shutter mechanism will get hung up. Make sure that the flexible PCB and the sheet contact a bracket. In addition, since adhesive strength becomes weak, do not use again the sheet removed once. D Sheet (CNM9517) Flexible PCB (CNP8806) Bracket (CND2627) E F 164 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 - Precautions on handling the mechanism module 1. Hold the upper and main frames. 2. Do not hold the front portion of the upper frame. It is a delicate part. 3. Do not touch the switches on the top panel. 4. Be careful not to catch the flexible cables. A B Do not touch here. Do not touch here. Do not hold this delicate portion. C - Removing the module pc board 1. Set the mechanism to the lock position (disc load standby position). 2. Place the mechanism module upside down. 3. Short the two lands on the pickup flexible cable as shown below. 4. Be sure to disconnect the pickup flexible cable and the CRG flexible cable from the connectors to protect them from damages. 5. Remove solder from the load motor leads and clamp SW leads. 6. Loosen the two fixing screws. Lift the position A of the module pc board lightly and move it in the direction B to remove it. Be careful not to damage the flexible cable C. 7. Disconnect the 8/12 detection flexible-cable from the connector. D Short here. Module pc board E Connector (for pickup flexible cable) Connector (for 8/12 detection flexible cable) Load motor leads and clamp SW leads B A C Connector (for CRG flexible cable) F AVH-P5700DVD/EW 5 6 7 8 165 1 2 3 4 - Removing the pickup unit A 1. Remove the module pc board in accordance with the procedure of "Removing the module pc board.” 2. While holding the pickup case, remove the skew screw (main). 3. Lifting the end of the pickup rack, slide the main shaft, and remove the pickup unit. Notes: Replacing the pickup unit requires the skew adjustment. Remove glue from both ends of the main and sub shafts, and skew stud. Do not reuse the old skew screw. Be sure to use a brand-new skew screw supplied with a new pickup unit. Fix the skew screw with glue (GYL1001) after adjustment. B Skew screw (main) Skew screw Pickup unit C Sub shaft Skew screw D E F 166 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 - How to install the Volume Unit fo the Drive Unit When install the Volume Unit, adjust the positioning of the rotating angle of the gear. A 1. Set the Monitor Unit horizontally with the Main Unit of the Drive Unit. B 2. When install the gear unit, rotate the gear by hand until the square box of the gear keeps in a horizontal position like the figure below. C Square box D *Gap of one teeth is acceptable. E F AVH-P5700DVD/EW 5 6 7 8 167 1 2 3 4 7.1.2 PCB LOCATIONS A K F B SW UNIT J MAIN UNIT INVERTER PCB G RGB UNIT MONITOR PCB L VOLUME UNIT B H UPPER PCB I KEYBOARD UNIT A C M C D D MOTHER UNIT RELAY PCB DVD CORE UNIT COMPOUND UINT(A) E E COMPOUND UINT(B) F 168 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 7.1.3 CONNECTOR FUNCTION DESCRIPTION AV-BUS INPUT 1. COMP GND 2. COMP 5. IP_SEL1 4. IP_SEL2 12. AV_ON 6. LED_V 7. GND 10. REMIN 11. NEW AV SENS A UC RIGHT AUDIO INPUT(RED) LEFT AUDIO INPUT(WHITE) IP-BUS INPUT VIDEO INPUT(YELLOW) B REAR VIEW CAMERA INPUT(BROWN) 1. BUS+ 2. GND 3. GND 4. NC 5. BUS6. GND 7. BUS L+ OUTPUT 8. ASENB 9. BUS R+ OUTPUT 10. BUS R- OUTPUT 11. BUS L- OUT PUT M4x6MAX M5x6MAX C POWER SUPPLY, SPEAKER OUTPUT RCA OUTPUT 1 RGB VIDEO INPUT 13 1 1 2 25 15 16 2 2 1 : FL2 : RL3 : FL+ 4 : RL+ 5 : FR6 : RR7 : FR+ 8 : RR+ 9 : P.B. 10 : VGND 11 : ACC 12 : B.REM 13 : B.G 14 : MUTE 15 : B.UP 16 : GND 26 14 1 : REAR V 2 : VGN D 3 : FL 4 : FLGND 5 : FR 6 : FRGND 7 : SWL 8 : SWLGND 9 : SWR 10 : SWRGND 11 : VCRINL(EW) : RL(UC) 12 : VCRGND(EW) : RLGND(UC) 13 : VCRINR(EW) : RR(UC) 14 : VCRGND(EW) : RRGND(UC) 1 : CCR 2 : CCG 3 : CCB 4 : CCSYNC 5 : GNDSIG 6 : DVDVBS 7 : GNDDVD 8 : YS 9 : NC 10 : CCAUL 11 : CCAUR 12 : GNDAU 13 : ONSEI+ 14 : ONSEI15 : REAUR 16 : REAUL 17 : GNDRAU 18 : CCREM 19 : DSEN 20 : TVON 21 : GION 22 : MONON 23 : VSW5 24 : HTXD 25 : HRXD 26 : GNDD D FM/AM ANTENNA INPUT E F AVH-P5700DVD/EW 5 6 7 8 169 1 2 3 4 7.2 IC TC7SET08FUS1 TC7SH08FUS1 NJM2136V S-818A35AUC-BGP NJM2388F84 TC74VHC08FTS1 PE5484A PE5485A TC90A96AFG A B TC7SET04FUS1 TC74VHC04FTS1 BD6171KV S-1131B25UC-N4K S-1131B15UC-N4A TC7SH02FUS1 TC7SH32FUS1 S-93C56BD0I-J8 OZ961ISN PEG087A K4S283232E-TC75 NJM2140R TC7WH157FU R1130H501B SM8707LV TC74LCX16373AFT *TC7SET08FUS1,TC7SH08FUS1 SM8707LV TC74LCK16373AFT PE5401A PD6516A S-L2980A50MC-C7J LTC3411EMS TC7SZ125FU MN35104UB IC's marked by * are MOS type. Be careful in handling them because they are very liable to be damaged by electrostatic induction. 1 IN B 5 VCC 2 IN A C 3 GND 4 OUT Y *NJM2136V D S-818A35AUC-BGP BAL 1 -INPUT 2 +INPUT 3 8 BAL + - VIN ON/OFF 5 4 7 V+ 6 ONTPUT V- 4 VREF ON/OFF 5 NC E 1 2 3 VOUT VSS NC F 170 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 NJM2388F84 A VIN 1 VOUT 2 GND 3 Bandgap Reference + - ON/OFF control Over Voltage Protection CONT Thermal Protection Over Current Protection 4 B TC74VHC08FTS1 14 VCC 1 1A C 13 4B 2 1B 12 4A 3 1Y D 4 2A 11 4Y 5 2B 10 3B 6 2Y 9 3A E 7 GND 8 3Y F AVH-P5700DVD/EW 5 6 7 8 171 1 2 3 4 -Pin Functions(PE5484A(EW),PE5485A(UC)) Pin Name NC MODEL0,1 NC PORTGND0 ROMCS ROMCLK ROMDATA VDT VCK FRONTMUTE VST MTRPW MTRSEL MTRS MTR1 MTR2 SNSPW PUSHSW DEGOSW LIFTPUL PORTVDD0 RDT rds%&k rdslk RECIVE NC ACCPW AMPPW SYSPW VPW DDCCNTL DLED ILMGRN PCL GND0 CPUREG VDD0 reset VPP TSI NC TCK ldet TUNPDI TUNPDO TUNPCK NC RCAMUTE VSELIN1,2 AVONIN NC TESTIN rck PRGON VPPON PORTVDD1 Pin No. 1 2,3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27,28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51,52 53 54,55 56 57 58 59 60 A B C D E Function and operation Not used Model select input Not used Port GND ROM Chip select output ROM Clock output ROM Data Input/output Electronic volume:Data output Electronic volume:Clock output Front Mute output Electronic volume:Strobe output FLAP Motor power supply control output FLAP motor control output FLAP Motor speed contorl output FLAP angle motor control signal output FLAP position motor control signal FLAP sense power supply output FLAP LIFE sense switch input FLAP monitor angle 0 sense input FLAP lift pulse input Port power supply RDS data input (EW model) RDS 57kHz input (EW model) RDS signal input (EW model) Not used Not used ACC power control output Amp power control output I/O I O O I/O O O O O O O O O O O I I I I I I O O O O O O O O Video power control output DC/DC converter control output Anti-theft LED output Green illumination output System clock ouptut GND Filter capacitor connected Power supply System reset input Power supply for frash ROM Test data input Not used Test data clock input RDS PLL signal (EW model) TUNER PLL data input TUNER PLL data input/output TUNER PLL clock input/output Not used RCA REAR mute output VSEL input AV-BUS AV video sense input Not used Test mode input RDS data clock (EW model) System microcomputer program mode input VPP ON/OFF output Port power supply I I I I I I/O I/O O I I I I I O F 172 AVH-P5700DVD/EW 1 2 3 4 5 Pin No. 61 62 63-65 66 67 68 69 70,71 72 73,74 75,76 77,78 79,80 81 82 83 84 85 86 87 88 89 90 91 92 93-95 96 97-99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115,116 117 118 119 120 121 122 123 124 125,126 127 128 129 130 Pin Name PRGSW PRGRST NC CILM ILMRED BEEP bsens XT2,1 GND2 X1,2 NC COOLCNT1,2 NC CONTBIN NC dsens SDA NC SCL ASENBO IPPW NC ierx ietx PORTGND1 NC asens NC TUNPCE tunpce@ PORTVDD2 CONTVDD CONTVD8 DREM REMUTE RXMOM TXMON SWVDD NC RXMS3 TXMS3 IRQPWR xreset NC RXNAV TXNAV rgbari NC NMIXCNT MUTE NC AMPMUTE NC TELIN VDD1 PBSENS BGSENS 6 I/O I O O O O I O I I I/O O O O I O I O O O O O O I O O I O O O I O I O O O I I I 7 8 Function and operation System microcomputer programing mode input Display microcomputer programing mode reset output Not used Flap illumination output Red illumination output (EW model) BEEP output Backup sense input Sub clock oscillator connect GND Main clock oscillator connect Not used Fan control output1,2 Not used Backup off intput Notused Detach sense intput AVselector data input/output Not used AV selector clock output Slave ACC sense output IPBUS driver power supply contorl output Not used IPBUS data input IPBUS data output Port GND Not used ACC sense input Not used TUNER PLL chip enable output TUNER PLL chip enable output 2 Port power supply DVD Mechanism modul digital power control output DVD Mechanism modul motor power control output NAVI Reboot remote control output NAVI remote control mute output Display microcomputer data input Display microcomputer data output Display microcomputer power supply output Not used DVD Mechanism modul data input DVD Mechanism modul data output DVD Mechanism modul backup power output DVD Mechanism modul mechanism CPU reset output Not used NAVI data input NAVI command output RGB navigation ON sense input Not used Voice guide mute output Mute output Not used AMP mute output Not used TEL mute input Power supply Packing brake sense input Back gear sense input A B C D E F AVH-P5700DVD/EW 5 6 7 8 173 1 Pin No. 131 132-134 135 136 137 138,139 140-142 143 144 A 2 Pin Name GND1 NC TUNSL NC ANGLEIN NC KEYDTA0-2 ADCVDD ADCGND I/O 3 4 Function and operation GND Not used TUNER signal level input Not used Mechanism volume for angle sense input Not used Key data input0-2 A/D Power supply A/D GND I I I *PE5484A (EW),PE5485A (UC) B 144 109 1 C 108 36 73 37 72 D E F 174 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 TC90A96AFG - Pin Layout A STV Vcom CPV CPH GOE STH Load VSS-IO8 VDD-IO8 R7 D.Out VDD-D12 R6 D.Out R5 D.Out R4 D.Out R3 D.Out R2 D.Out R1 D.Out VSS-IO9 R0 D.Out VDD-IO9 G7 D.Out G6 D.Out G5 D.Out G4 D.Out G3 D.Out G2 D.Out G1 D.Out G0 D.Out VSS15-DAM4 VDD15-DAM4 VSS-D13 VDD-IO10 B7 D.Out VDD-D13 B6 D.Out B5 D.Out B4 D.Out B3 D.Out B2 D.Out B1 D.Out B0 D.Out VDD-D14 VSS-IO11 VDD-IO11 176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 1 VSS-D1 2 VDD-D1 VSS25-DRAM 132 3 R7 D.IN VDD15-DRAM3 130 4 R6 D.IN VSS15-DRAM3 129 5 R5 D.IN VDD-IO7 128 6 R4 D.IN VSS-IO7 127 7 R3 D.IN VDD-D11 126 8 R2 D.IN 9 VSS-IO1 VDD15-DRAM2 124 10 VDD-IO1 VSS15-DRAM2 123 VDD25-DRAM 131 VSS-D11 125 11 R1 D.IN Test mode3 122 12 R0 D.IN Test mode2 121 13 VSS-D2 Test mode1 120 14 VDD-D2 Test mode0 119 15 G7 D.IN VDD15-DRAM1 118 16 G6 D.IN VSS15-DRAM1 117 17 G5 D.IN VDD-D10 116 18 G4 D.IN VSS-D10 115 19 G3 D.IN Test(Scan) 114 20 G2 D.IN Test(MBST) 113 21 VSS-IO2 Main Clock Set 112 22 VDD-IO2 Dispaly Mute 111 23 G1 D. IN VSS-IO5 110 24 G0 D.IN VDD-D9 109 25 VSS-D3 VSS-D9 108 26 VDD-D3 Rest IN 107 27 B7 D.IN Bus ACK Out 106 28 B6 D.IN Bus Data I/O 105 29 B5 D.IN Bus Clock IN 104 30 B4 D.IN VDD-IO6 103 31 B3 D.IN VSS-IO6 102 32 B2 D.IN OSD BLK.H IN 101 33 VSS-IO3 OSD BLK.L IN 100 34 VDD-IO3 OSD R IN 99 35 B1 D.IN OSD G IN 98 36 B0 D.IN OSD B IN 97 37 VSS-D4 VDD-D8 96 38 VDD-D4 VSS-IO5 95 39 D-RGB V.Sync IN VDD-IO5 94 OSD Clock Out 91 D-VDD Main RGB Sync IN 2 Main RGB Sync IN 1 D-VSS VDD Main ADC 3 VSS Main ADC 3 Main ADC Bias Main ADC Vref T B IN 2 G IN 2 R IN 2 VDD Main ADC 2 VSS Main ADC 2 B IN 1 G IN 1 R IN 1 Main ADC Vref B VDD Main ADC 1 VSS Main ADC 1 Sub ADC Vref B Sub C.Video IN.2 VSS Sub ADC Sub C.Video IN.1 VDD Sub ADC Sub ADC Vref.T DAC Bias DVSS DAC Out DVDD VSS-PLL PLL Filter PLL IN VDD-PLL VSS-X'tal X'tal Out X'tal IN VDD-X'tal VDD-D6 VSS-D6 R6 D.IN 43 VDD-D5 Sub ADC Bias 42 Test(DTNB) R7 D.IN D OSD V.Sync Out 92 41 D-RGB Clock IN VSS-D6 VDD-D6 C OSD H/C.Sync Out 93 40 D-RGB H/C.Sync IN 44 VSS-D5 B VDD-D7 90 VSS-D7 89 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 E F AVH-P5700DVD/EW 5 6 7 8 175 176 1 2 80 B2(Cb2) 3 C.Video2 68 107 Reset ADC 8bit 28.8 / 33M Clock Data (ACK) Distinetion System Det. Dot Det. ACK Monitor 106 ADC 8bit 28.8 / 33M 104 105 IIC - Bus Clamp RGB u YCbCr Sync Sep 48 Sub C.Sync Sub H/V Comp D.RAM 6M bit H/V Expand PinP Sub Sync Main Rate Low(GVGA)/High(VGA) 112 Y : Cb : Cr=4 : 2 : 2 Main H/V Comp. ACC, Killer. Decode Phase Adj Multi Color Decoder NTSC(Cammra) Color Decoder A.RGB mode only Y/C Sep. 3Line Comb (MTSC / PAL) LPF / BPF(DLher) Sub.(C.Video) Signal System Main(RGB) Signal System Clamp DC SW Dot Phase Adj. Wide Aspect Conv. Ys (VGA) Side Panel 52 XO 53 CbCr Level CbCr Offset CTI C Mute Main/Sub picture Control H/V Enhanser Y Conlrast Y Brightness Y Mute BLK.H Timing Generator C 66 79 G2(Y2)/ NTSC Camera ADC 8bit 28.8 / 33M ADC 8bit 28.8 / 33M Double Scan Conv. (Off/ON) YCbCr 4:4:4 Through/Ovarlay/input A.OSD(OVGA) B Clock Main Sync 86 88 BLK.L Digital Ouut Clock V Sync H/C Sync OSD Blanking Low (Back Ground) Vcom/Vcom/Vcom STV/STV/VD 133 134 135 136 CPV/CPV/Low 137 GOE/DA Ck/Low 138 139 111 91 92 93 CPH/CPH/Ck Load/CX/Enable LCD Controller STH/STH/HD Mute Bus/111pin DC Offset Gamma Brightness Contrast RGB Picture Control BLK.H Panel Sync Palette OSD OSD I/F 99 98 97 101 100 Blue Back 60 56 57 DAC(6bit) 7.2/8.3M Digital PLL Sync OSD H/V Clock Frame YCbCr u RGB Panel Sync A.OSD Panel Sync D.OSD G Display mute RGB 3ch 6bit or 8bit VDD(Logic & DRAM) : 1.5V VDD(Analog & DRAM) : 2.5V VDD(I/O) : 3.3V 2 C.Video1 78 Clamp Clamp DC SW Input Sync mode A. OSD(BLK.H) /Over lay(Ys) Priority D R2(Cr2) 75 74 G1(Y1)/ NTSC Gamera B1(Cb1) 73 R1(Cr1) E Digital I/F RGB 47 R Blanking High (Charactor) A Ext. / Int. HD/VD /Clock Data OSD B 39 40 41 40pin : O. Sync or H. Sync 39pin : V. Sync OSD(Palelte mode) RGB Palette Set 1 3 4 TC90A96AFG - Block Diagram F AVH-P5700DVD/EW 4 5 6 TC7SET04FUS1 7 8 TC74VHC04FTS1 A 1 5 VCC 2 GND 3 1A 1 14 VCC 1Y 2 13 6A 2A 3 12 6Y 2Y 4 11 5A 4 B 3A 5 10 5Y 3Y 6 9 4A GND 7 8 4Y C BD6171KV - Pin Layout 36 25 37 24 48 13 D 1 12 E F AVH-P5700DVD/EW 5 6 7 8 177 1 2 3 4 BD6171KV - Block Diagram A 42 41 VCC EN1 32 DVCC EN3 23 + EN2 33 1V EN3 34 PVCC3 22 OUT3 EN4 35 21 17 FB3 VREF EN5 36 VREGA 3V VREF VO3DET + SS1 SOFT START B + + - 1V INV1 16 PVCC1 0.6 VREGB EN1 ERROR AMP FET DRIVER OUT1 PWM + LATCH RESET 15 FB1 24 25 11 9 10 GATE CRAMP VREGA + - 14 OCPC1 + + 2V CL1 0.6V 26 VO1DET C VS1 SOFT START 20 12 13 INVERT SS2 + + - 19 INV2 18 FB2 + 6 FET DRIVER PWM PVCC2 LATCH OUT2 7 RESET VREGA + + - 2 OCPC2 2V VO2DET 27 RT 44 D EN2 ERROR AMP + 5 CL2 0.6V 4 VS2 OUT OSC SYNC OUT TSD 1 UVLO DELAY OSCILLATOR PVCC4 PVCC5 37 EN5 OUT5 38 FB5 39 E CP NEG + - 47 DVCC + - VREGA 48 OUT4 CP POS 5VREG + - PGND5 40 EN4 + VREGA 1V VREF + 0.6V FB4 0.6V SGND DGND GND VO5DET 29 30 43 31 VREGA 46 PGND4 45 VO4DET 3 28 F 178 AVH-P5700DVD/EW 1 2 3 4 5 6 7 S-1131B25UC-N4K S-1131B15UC-N4A 8 TC7SH02FUS1 VIN ON/OFF 5 4 A IN B 1 5 VCC 4 OUT Y Over Current Protector IN A 2 VREF ON/OFF GND 3 1 2 3 VOUT VSS NC TC7SH32FUS1 B S-93C56BD0I-J8 C 1 IN B 5 VCC CS SK 2 IN A DI DO 3 GND 1 NC :Not used 8 VCC :Power supply 2 CS :Chip select input 7 SK :Clock input :Data input DI 3 DO :Data output 6 GND :Ground 4 TEST:Test 5 VCC NC TEST GND 4 OUT Y D E F AVH-P5700DVD/EW 5 6 7 8 179 1 2 3 4 OZ961ISN A I=3uA 1 2V CTIMR OVP + 2 Protection - hys. B C VCCA 5 GNDA 6 REF 7 RT1 8 FB 9 PDR_A 19 POFF PDR_A 18 CT 17 RT 16 PGND 15 LCT 14 DIM 13 LPWM PDR_C 12 PDR_C NDR_D 11 NDR_D Soft Start ENA 1.5V SST 4 NDR_B + 3 ACTIVE "HIGH" 20 I=6uA OVP COMP ENA NDR_B - hys. COMP HF OSC + SST2 POFF VCCA Reference sub. 3V OPLAMP 2.50V + ZVS Phase-Shift Controller BurstMode Control EA SST/2.5 CMP 10 + 1.25V D E F 180 AVH-P5700DVD/EW 1 2 3 4 5 - Pin Functions (PEG087A) Pin No. Pin Name I/O VHOLD1 I 1 HLF1 I 2 INVBST O 3 LD O 4 DI O 5 REMIN O 6 REMIN I 7 BYTE I 8 CNVSS I 9 VDDSENS I 10 5060IN I 11 RESET I 12 XOUT O 13 VSS 14 XIN I 15 VCC 16 OSDCLK I 17 NC 18 YSSTOP O 19 OSDTOP O 20 OSDBLNK O 21 NC 22 MUTE O 23 DIMMER O 24 NC 25 INVPUL O 26 ICRES O 27 SCL O 28 NC 29,30 SDA I/O 31 OSDR O 32 OSDG O 33 OSDB O 34 KYDT O 35 DPDT I 36 TSCK I 37 EPRDI I 38 EPRDO O 39 NC 40 EPRCS O 41 EPRCK O 42 TESTIN I 43 NC 44-50 FSCWIDE I 51 LCD76 I 52 EPRCV I 53 NC 54-61 HSYNC I 62 NC 63 VSYNC I 64 NC 65,66 KS2,1 I/O 67,68 KD4-1 I 69-72 NC 73,74 STEST2 I 75 6 Format C C C C C C C C C C C C C C C C C C C C C C C 7 8 Function and Operation Not used Not used Inverter boost output COMAC,COMDC latch signal output COMAC,COMDC data output COMAC,COMDC clock output Remote control signal input GND connection GND connection VDD power supply sense input 50/60Hz input Reset input Clock output GND Clock input Power supply Clock input for OSD Not used NAVI over write enable output OSD/NAVI over write enable output OSD blanking output Not used 2 screens IC mute output Dimmer pulse output Not used Inverter pulse output IC reset output 2 screens IC clock output Not used 2 screens IC data input/output OSD analog R signal output OSD analog G signal output OSD analog B signal output Key data output Display data input Test mode clock input EEPROM data input for adjustment memory EEPROM data output for adjustment memory Not used EEPROM chip select output for adjustment memory EEPROM clock output for adjustment memory Chip test input Not used Not used LCD size select (H:7inch, L:6.5inch) input EEPROM adjustment input Not used HSYNC signal input for OSD Not used VSYNC signal input for OSD Not used Key strobe input/output Key data input Not used Touch panel test mode input A B C D E F AVH-P5700DVD/EW 5 6 7 8 181 1 Pin No. 76 77 78,79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 A B 2 Pin Name NC SELFRST NC PNLXV MFLPW MVIPW ROMCS ROMCK ROMDATA EPRPST STEST1 EPRTEST TEMPSEN PNLYV PNLVD PNLADY PNLADX LSEN VHOLD2 HLF2 CVIN2 TVSETB VCCE CVIN1 I/O Format I O O O O O I I I I I O O I I I I I I I C C C C C C C I 3 4 Function and Operation Not used Self write reset input Not used Touch panel:X direction sense output Back light power supply control output Video power supply control output EEPROM chip select output EEPROM clock output EEPROM data input EEPROM initalize input for memory adjustment Monitor mode input EEPROM set mode input for memory adjustment Temperature sense input for inverter boost Touch panel:Y direction sense output Touch panel:sense output Touch panel:X data input Touch panel:Y data input Brightness on the outside sense input Not used Not used Not used Test mode input Power supply Not used C *PEG087A 81 100 80 Format C 1 Meaning C MOS 51 D 30 50 31 E F 182 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 *K4S283232E-TC75 VDD 1 86 VSS DQ0 2 85 DQ15 VDDQ 3 84 VSSQ DQ1 4 83 DQ14 DQ2 5 82 DQ13 VSSQ 6 81 VDDQ DQ3 7 80 DQ12 DQ4 8 79 DQ11 VDDQ 9 78 VSSQ DQ5 10 77 DQ10 DQ6 11 76 DQ9 VSSQ 12 75 VDDQ DQM0 16 we 17 cas 18 19 cs 20 A11 21 CLK ADD A10/AP 24 A0 25 A1 26 A2 1M x 32 1M x 32 1M x 32 Column Decoder Col Buffer 23 1M x 32 LCBR 22 LRAS BA0 BA1 Address Register ras LDQM Bank Select Latency & Burst Length Output Buffer 15 I/O Control VDD Sense AMP 14 Row Decoder 13 N.C Data Input Register Row Buffer Refresh Counter DQ7 LWE DQi 74 DQ8 73 N.C 72 VSS 71 DQM1 70 N.C 69 N.C 68 CLK 67 CKE 66 A9 65 A8 64 A7 63 A6 62 A5 61 A4 27 60 A3 DQM2 28 59 DQM3 VDD 29 58 VSS N.C 30 57 N.C DQ16 31 56 DQ31 LCKE A B C Programming Register LRAS LCBR LWE LCAS LWCBR Timing Register CLK CKE cs ras cas we DQM VSSQ 32 55 VDDQ DQ17 33 54 DQ30 DQ18 34 53 DQ29 VDDQ 35 52 VSSQ DQ16 36 51 DQ28 DQ20 37 50 DQ27 VSSQ 38 49 VDDQ DQ21 39 48 DQ26 DQ22 40 47 DQ25 VDDQ 41 46 VCCQ DQ23 42 45 DQ24 VDD 43 44 VSS D E F AVH-P5700DVD/EW 5 6 7 8 183 1 2 3 *TC7WH157FU NJM2140R VCC st SELECT Y 8 7 6 5 1 2 3 4 A B y GND A OUT A 1 -IN A 2 +IN A 3 V+ 4 4 A - + B + - 8 V+ 7 OUT B 6 -IN B 5 +IN B EN G1 B 1 MUX 1 *R1130H501B VDD 2 1 Vout + C Vref Current Limit ce 5 3 GND *SM8707LV D E YDD1 1 VSS1 2 MO1,NC1 3 MO2,NC1,SO1 4 Reference Divider 0 Phase Divider 0 Charge Pump 0 LPF 0 48 NC2 VCO 0 X’tal OSC 47 SO4,SO3,SO2,NC1 Loop Divider 0 Reference Divider 1 Phase Divider 1 46 FSEL,NC2 Charge Pump 1 LPF 1 VCO 1 Control Logic 45 SO3,SO2,SO1 44 VDD3 VDD2 5 VSS2 6 XT1 7 42 AO1,SO2 XT0 8 41 SO2,SO1,AO1 43 VSS3 Loop Divider 1 F 184 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 *TC74LCX16373AFT 10 1Q7 11 1Q8 12 2Q1 13 2Q2 14 GND 15 LE 2Q3 16 Q 2Q4 17 VCC 18 2Q5 19 2Q6 20 GND 21 2Q7 22 2Q8 23 1oe 24 1oe 48 1 25 24 47 2D1 36 LE D LE 2 46 1Q1 2D2 35 LE D LE Q Q 45 LE D LE Q Q 5 44 2D4 32 1Q3 16 2Q3 LE D LE Q Q 43 LE D Q 8 42 2D6 29 1Q5 19 2Q5 LE D LE 41 LE Q 40 2D8 26 1Q7 10 Q LE D LE 43 1D4 42 VCC 41 1D5 40 1D6 39 GND 38 1D7 37 1D8 36 2D1 35 2D2 34 GND 33 2D3 32 2D4 31 VCC 30 2D5 29 2D6 28 GND 27 2D7 26 2D8 25 2LE C D Q 1Q8 11 Q 23 2Q8 1D3 9 1Q6 2D7 27 D LE 22 2Q7 44 Q Q 20 2Q6 GND 6 2D5 30 1Q4 17 2Q4 45 3 2D3 33 1Q2 14 2Q2 1D2 Q Q 13 2Q1 1D8 GND 1D7 9 1D6 1Q6 46 B 1D5 8 1D4 1Q5 1D3 7 1D2 VCC 1D1 6 1D1 D 1Q4 D 5 47 A D 1Q3 D 4 1LE D GND D 3 48 D 1Q2 D 2 1LE 1Q1 2LE 1 2oe 1oe E F AVH-P5700DVD/EW 5 6 7 8 185 1 2 3 4 *PE5401A TO00/TI10/P01 TI000/P00 16-bit TIMER/ EVENT COUNTER 00 TOH0/P15 8-bit TIMER H0 PORT 0 4 P00-P03 PORT 1 8 P10-P17 PORT 2 8 P20-P27 PORT 3 4 P30-P33 PORT 6 4 P60-P63 PORT 7 8 P70-P77 A TOH0/P16 8-bit TIMER H1 TI50/TO50/P17 8-bit TIMER/ EVENT COUNTER 50 TI51/TO51/P33 8-bit TIMER/ EVENT COUNTER 51 B WATCH TIMER 78K/0 CPU CORE ROM (FLASH MEMORY) PORT 12 P120 PORT 13 P130 PORT 14 P140 WATCHDOG TIMER RxD0/P11 SERIAL INTERFACE UART0 TxD0/P10 RxD0/P14 CLOCK OUTPUT CONTROL SERIAL INTERFACE UART6 TxD0/P13 CLOCK MONITOR POWER ON CLEAR/ LOW VOLTAGE INDICATOR SI10/P11 SERIAL INTERFACE CSI10 SO10/P12 PCL/P140 POC/LVI CONTROL sck10/P10 C ANI0/P20 ANI7/P27 8 KEY RETURN 8 KR0/P70KR7/P77 A/D CONVERTER AVREF AVSS RESET CONTROL INTP0/P120 INTP1/P30 INTP4/P33 Ring-OSC INTERRUPT CONTROL 4 INTP5/P16 reset INTP6/P140 X1 SYSTEM CONTROL VDD, EVDD VSS, EVSS X2 XT1 IC (VPP) XT2 VOLTAGE REGULATOR REGC P74/KR4 P73/KR3 P72/KR2 P71/KR1 P70/KR0 P27/ANI7 P26/ANI6 P25/ANI5 P24/ANI4 P23/ANI3 P22/ANI2 P21/ANI1 P20/ANI0 D 52 51 50 49 48 47 46 45 44 43 42 41 40 E AVREF 1 39 P75/KR5 AVSS 2 38 P76/KR6 VPP/IC 3 37 P77/KR7 VDD 4 36 P00/TI000 REGC 5 35 P01/TI010/TO00 VSS 6 34 P02 X1 7 33 P03 X2 8 32 P10/sck10/RXD0 reset 9 31 P11/SI10/RXD0 XT1 10 30 P12/SO10 XT2 11 29 P13/TXD6 P130 12 28 P14/RXD6 P120/INTP0 13 27 EVDD EVSS P63 P62 P61 P60 P15/TOH0 P16/TOH1/INTP5 P17/TI50/TO50 P30/INTP1 P140/PCL/INTP6 P31/INTP2 P32/INTP3 P33/TI51/TO51/INTP4 14 15 16 17 18 19 20 21 22 23 24 25 26 F 186 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 *PD6516A A A15 1 48 A16 A14 2 47 byte A13 3 46 VSS A12 4 45 DQ15/A-1 A11 5 44 DQ7 A10 6 43 DQ14 A9 7 42 DQ6 A8 8 41 DQ13 A19 9 40 DQ5 A20 10 39 DQ12 we 11 38 DQ4 reset 12 37 VCC NC 13 36 DQ11 ACC 14 35 DQ3 RY/by 15 34 DQ10 A18 16 33 DQ2 A17 17 32 DQ9 *S-L2980A50MC-C7J VOUT NC 5 4 B A-1 A0-A20 DQ0-D15 byte ce oe RY/by reset ACC VCC VSS :Data output/Address input :Address input :Data input output :Mode select :Chip enable input :Output enable input :Ready/Busy output :Reset :Acc :Power supply :GND + ON/OFF VOLTAGE REFERENCE A7 18 31 DQ1 A6 19 30 DQ8 A5 20 29 DQ0 A4 21 28 oe A3 22 27 VSS A2 23 26 ce A1 24 25 A0 C 1 2 3 VIN VSS ON/OFF D E F AVH-P5700DVD/EW 5 6 7 8 187 1 2 3 4 *LTC3411EMS A 1 SHDN/RT 0.8V VOLTAGE REFERENCE VOLTAGE REFERENCE + 2 SYNC/MODE - ERROR AMPLIFIER 0.74V + ITH 9 VFB 8 PGOOD 7 SVIN 6 PVIN + - B BURST COMPARATOR + - SLOPE COMPENSATION OSCILLATOR 3 SGND VB 10 PMOS CURRENT COMPARATOR + B 0.86V - LOGIC + 4 SW NMOS COMPARATOR + REVERSE COMPARATOR 5 PGND - C *TC7SZ125FU *MN35104UB 1 IN A 2 GND 3 129 192 D g 5 VCC 193 128 4 OUT Y 256 65 64 1 E F 188 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 - Pin Functions(MN35104UB) Pin No. Pin Name 1 2,3 4 5,6 7 8-10 11 12,13 I/O VDD33 MDQ I/O I/O SDRAM data IO power supply I/O VSS MDQ SDRAM data GND VDD33 MDQ SDRAM data GND I/O SDRAM data 14 VDD33 IO power supply 15 VDD15 Power supply 16 VSS GND 17 EXADR 18 NEXWE O Memory write enable 19-22 EXADT I/O Memory address data 23 VDD33 IO power supply 24 VSS GND I/O I/O Memory address 27,28 EXADT I/O Memory address data 29 VDD33 IO power supply 30 VSS GND 31,32 EXADT I/O B Memory address EXADR 25,26 A IO power supply VSS MDQ Function and Operation C Memory address data 33 NEXCE O 34-37 EXADT I/O Memory address data 38,39 EXADR I/O Memory address 40,41 EXADT I/O Memory address data Memory chip select 42 VD33 IO power supply 43 VSS GND 44,45 EXADT I/O 46 NEXOE O 47 P15 I/O Memory address bus 48 P14 I/O The flag of transmitting end 49 P13 I/O The flag of transmitting start 50 P12 I/O Serial clock 51 P11 I/O Serial output data 52 P10 I/O Serial input data 53 P9 I/O Serial clock 54 P8 I/O Serial output data 55 P7 I/O Serial input data 56 VDD3 57 MMOD 58 VSS 59 P6 D Memory address data Memory output(Read) enable E IO power supply I Test mode setting GND I/O Serial clock F AVH-P5700DVD/EW 5 6 7 8 189 1 Pin No. A B C Pin Name Function and Operation P5 I/O Serial output data 61 P4 I/O Serial input data 62 P3 I/O Serial clock 63 P2 I/O Serial output data 64 P1 I/O Serial input data 65 P0 I/O Serial clock 66 FG I 67 VDD15 68 NRST 69 VSS 70-77 DRV I I/O Servo port VDD33 IO power supply 80 VSS I/O GND 81 SCLOCK I/O Input clock for debug 82 EXTRG I/O I/O trigger for debug 83 SDATA I/O I/O data for debug 84 EXTRG I/O I/O trigger for debug 85 TRCCLK I/O Output trace clock for debug TRCDATA I/O I/O trace data for debug 90 TRCST I/O Output trace status for debug 91 VDD33 92 OSCI 93 VSS Power supply I Front end clock input GND I/O Inside monitor 98 VDD15 Power supply 99 VSS GND I/O Inside monitor O Power supply 104 AVDDD 105 PLFIL1 106 AVSSD O GND 107 PLFIL2 O DRC VCO 108-110 4 GND 79 MONI 3 Master reset Servo port 100-103 4 Power supply DRV8 MONI 3 Motor FG 78 94-97 E I/O 60 86-89 D 2 DRC VCO VREF I Reference voltage 111 VC0 I gm-cEQ 112 RESI O gm-cEQ 113 ANAMONI O Inside analog monitor 114 POFLT O DPDOFTR 115 CDATA 116 CCAPA O Inline capacitor 117 CGD O Reference voltage 118 AVDDC 119 AVSSC Inline data Analog current I Analog GND F 190 AVH-P5700DVD/EW 1 2 5 Pin No. 6 Pin Name I/O 7 Function and Operation 120 RFINN I RF input 121 RFINP I RF input VIN I Head input 132 LPC1 O DVDLPC input 133 LPCO1 I DVDLPC output 134 LPC2 O CDLPC input 135 LPCO2 O CDLPC output 136 VREFH O Reference voltage 137 VHALF 138 AVSSB 139 140 122-131 A Reference voltage O Analog GND CTKC I TC CSLFLT O Capasitor 141 CWBLOUT I DC cut for wobble 142 CWBLIN 143 VCOF 144 RVI 145 AVDDB I Analog current AD I AD input 146-148 8 B DC cut for wobble I JFVCO control voltage VREFH reference current C 149 AVDDA 150 DAC1 151 AVSSA 152 DAC0 153 AVDDE 154 IREF1 155 AVSSE 156 COMP1 157 AVDDF 158 DAC1OUT 159 AVSSF 160 DAC2OUT O Analog signal 161 DAC3OUT O Analog signal 162 VREF I Reference voltage 163 DAC4OUT O Analog signal 164 DAC5OUT O Analog signal 165 AVDDG I Analog power suplly 166 IREF2 167 VSSG 168 COMP2 169 VSS 170 BECLK 171 VDD33 172 EXTCK Analog current O Tracking drive output Analog GND O Focus drive output Analog current I Inside DAC bias current Analog GND I Inside DAC Analog current O D Analog signal Analog GND E Inside DAC bias current I Analog GND Inside DAC I GND Backend clock input I IO power supply Exterior audio clock F AVH-P5700DVD/EW 5 6 7 8 191 1 Pin No. A Pin Name 174 LRCK O LR chanel clock output 175 SRCK O Bit clock output 176 ADOUT3 O Audio down mixing 177 VSS O GND 178-180 ADOUT O Audio data 181 IECOUT O IEC958 digital audio output 182 VDD33 IO power supply 183 VSS GND MDQ 186 189 MDQ 194 VSS 195 VDD33 196,197 MDQ 198 MDQ 202 MDQ 206 DQM 209 210 MA 211 VSS 212 MA4 213 VDD15 214 MA2 215 VSS MA 218 MA GND I/O SDRAM data GND I/O SDRAM data GND O SDRAM data mask Power supply O SDRAM address GND O SDRAM address Power supply O SDRAM address GND O SDRAM address Power supply O SDRAM address VSS GND 222 VDD15 Power supply 223 MCKI 224 VSS MCK 226 VDD33 227-229 MA 230 VSS 231 MA 4 SDRAM data 221 225 3 IO power supply I/O VDD33 219,220 SDRAM data GND VDD33 216,217 E I/O VSS 207,208 SDRAM data IO power supply VDD33 203-205 SDRAM data Power supply I/O VSS 199-201 D I/O VDD33 190-193 4 Composite audio clock VDD15 MDQ 3 Function and Operation PHCOMPO 187,188 C I/O 173 184,185 B 2 I SDRAM output clock GND O SDRAM input clock IO power supply O SDRAM address GND O SDRAM address F 192 AVH-P5700DVD/EW 1 2 5 Pin No. 6 Pin Name I/O 7 Function and Operation 232 NWE 233 VDD33 234 BA0 O SDRAM bank address 235 MA O SDRAM address 236 VSS 237 BA1 O SDRAM bank address 238 NCSM O SDRAM chip select 239 NRAS O SDRAM low address strobe 240 VDD33 IO power supply 241 VSS GND 242 NCAS O SDRAM column address strobe 243 DQM0 O SDRAM data mask 244 VDD15 Power supply 245 VSS GND 246 DQM O 247 MDQ I/O 248 VSS 249 MDQ 250 VDD33 251-253 254 255,256 MDQ O SDRAM writte enable A IO power supply GND B SDRAM data mask SDRAM data GND I/O SDRAM data C IO power supply I/O VSS MDQ 8 SDRAM data GND I/O SDRAM data D E F AVH-P5700DVD/EW 5 6 7 8 193 1 2 3 4 - FM/AM Tuner Unit(AVH-P5700DVD/EW) OSC AM ANT 1 RDS_HSLK RDS_DATA 18 19 20 21 RDS_LOCK DO 14 RDS_CK DI 5V CK SL IC 3 EEPROM 5.0V 11 LDET A 10 9 8 CE1 5 ROM_VDD CE2 WC 13 IC 5 3.3V ← 7 6 LPF FMRF ATT Rch 3 IC 1 3.3V FM ANT ATT FMRF B ANT adj 24 IC 2 2.5V Lch MIXER, IF AMP RF adj T51 23 DET, FM MPX, RDS DECODER CF52 No. Symbol 1 AMANT C 2 3 4 5 6 7 D E RFGND FMANT VCC SL CE2 WC AUDIOGND NC 15 22 16 I/O Explain I AM antenna input I O I I RF ground FM antenna input power supply signal level chip enable-2 write control 8 9 10 11 12 13 CE1 CK DI LDET OSCGND ROM_VDD I I I O chip enable-1 clock data in lock detector osc ground power supply 14 15 16 17 18 19 20 DO DGND NC VDD_3.3 RDS_CK RDS_DATA RDS_LOCK O data out digital ground non connection power supply RDS clock RDS data RDS lock 21 RDS_HSLK O O O O 22 AUDIOGND 23 L ch O 24 R ch O RDS high speed lock audio ground L channel output R channel output 4 VDD_3.3 DGND 12 VCC OSCGND 2 3.3V IC 4 3.3V 2.5V 2.5V ← RFGND CF51 17 AM antenna input high impedance AMANT pin is connected with an all antenna by way of 4.7µH. (LAU type inductor) A series circuit including an inductor and a resistor is connected with RF ground for the countermeasure against the hum of power transmission line. Ground of antenna block Input of FM antenna 75Ω Surge absorber(DSP-201M-S00B) is necessary. The power supply for analog block. D.C 8.4V ± 0.3V Output of FM/AM signals level Chip enable for EEPROM ”Low” active You can write EEPROM, when EEPROM write control is “Low”. Ordinary non connection Chip enable for AF•RF ”High” active Clock Data input “Low” active Ground of oscillator block Power supply for EEPROM pin 13 is connected with a power supply of micro computer. Data output Ground of digital block Not used The power supply for digital block. 3.3V ± 0.2V Output of RDS clock(2.5V) Output of RDS data(2.5V) Output unit “High” active(2.5V) (RDS_LOCK turns over by the external transistor. “Low” active) Output unit “High” active(2.5V)(RDS_HSLK turns over by the external transistor. “Low” active) Ground of audio block FM stereo “L-ch” signal output or AM audio output FM stereo “R-ch” signal output or AM audio output F 194 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 - FM/AM Tuner Unit(AVH-P5700DVD/UC) 1 NC NC NC 18 19 20 21 NC 14 DO NC CE1 DI SL 5V OSC 11 A IC 3 EEPROM 5.0V AM ANT 10 9 8 CK 5 ROM_VDD CE2 WC 13 IC 5 3.3V ← 7 6 LPF FMRF ATT Rch 3 IC 1 3.3V FM ANT ATT FMRF ANT adj 24 IC 2 2.5V Lch MIXER, IF AMP 23 DET, FM MPX B RF adj T51 CF52 No. Symbol 1 AMANT 2 3 4 5 6 7 RFGND FMANT VCC SL CE2 WC AUDIOGND NC 15 22 16 I/O Explain I AM antenna input I O I I 8 9 10 11 12 13 CE1 CK DI NC OSCGND ROM_VDD I I I 14 15 16 17 18 19 20 21 22 23 24 DO O DGND NC VDD_3.3 NC NC NC NC AUDIOGND L ch O R ch O 4 VDD_3.3 DGND 12 VCC OSCGND 2 3.3V IC 4 3.3V 2.5V 2.5V ← RFGND CF51 17 AM antenna input high impedance AMANT pin is connected with an all antenna by way of 4.7µH. (LAU type inductor) A series circuit including an inductor and a resistor is connected with RF ground for the countermeasure against the hum of power transmission line. Ground of antenna block Input of FM antenna 75Ω Surge absorber(DSP-201M-S00B) is necessary. The power supply for analog block. D.C 8.4V ± 0.3V Output of FM/AM signals level Chip enable for EEPROM ”Low” active You can write EEPROM, when EEPROM write control is “Low”. Ordinary non connection Chip enable for AF•RF ”High” active Clock Data input Not used Ground of oscillator block Power supply for EEPROM pin 13 is connected with a power supply of micro computer. Data output Ground of digital block Not used The power supply for digital block. 3.3V ± 0.2V Not used Not used Not used Not used Ground of audio block FM stereo “L-ch” signal output or AM audio output FM stereo “R-ch” signal output or AM audio output RF ground FM antenna input power supply signal level chip enable-2 write control chip enable-1 clock data in non connection osc ground power supply data out digital ground non connection power supply non connection non connection non connection non connection audio ground L channel output R channel output C D E F AVH-P5700DVD/EW 5 6 7 8 195 1 2 3 4 7.3 EXPLANATION 7.3.1 MECHANISM DESCRIPTIONS - Outline of the FLAP motion A 1. The motion is actuated made by two motors, the forward/backward driving motor (CXB9515) and the angle driving motor (CXB9516). 2. Analog electric potential generated by the angle encoder is detected to detect angle motion status and motion position. 3. Memory function for the angle last position is accomplished by the micro processor using the 256 resolution steps of the VDD. 4. A pulse is detected by the photo interrupter to detect the horizontal motion status. 5. In the case of reset start, the monitor will be in a stored position first, and ejection motion will take place, which puts the system in the booted up state. 6. Angle adjustment is made by the angle key (+/-). 7. OPEN/CLOSE key makes the monitor stored or ejected, and temporary folding key folds the monitor temporarily. 8. Setting of the monitor auto storage/ejection ON/OFF and set back ON/OFF at the time of ACC ON/OFF is made on the navigation menu screen. 9. A backlight is switched-off during forward/backward and storage. B - Explanation on the FLAP ejection motion 1. When the OPEN key is pressed or ACC is set to ON while the auto OPEN/CLOSE is being set to ON, angle driving motor rotates in the 0° direction for 500ms. (Pressed down.) C 2. After 500ms, the angle driving motor is stopped, and the forward/backward driving motor rotates in the ejection direction. D 3. For a period of 600ms from the time when LIFTSW is switched from H to L, the forward/backward driving motor keeps rotating in the ejection direction. 4. After 600ms, the forward/backward driving motor is stopped, and the angle driving motor rotates in the UP direction. E F 196 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 5. When the angle voltage reaches the voltage for 110°, brake is applied to the angle driving motor, and the ejection is completed. (In case the previous angle is stored in the memory, the motion continues to that angle.) A 110° voltage position or the last memory position. B 6. When the setback is set to ON, after the monitor angle voltage has reached the previously memorized voltage, brake is applied to the angle driving motor, then the forward/backward driving motor is rotated in slow speed in the storage direction. After that, when LIFTSW has switched from L to H, the forward/backward driving motor is stopped. C D - Explanation of the FLAP storage motion 1. When CLOSE key is pressed, or after 6 seconds from ACC OFF when auto OPEN/CLOSE is being set to ON, the angle driving motor is rotated in the 0° direction. In case the setback setting is ON, the forward/backward driving motor is rotated in high speed in the ejection direction and the motor continues to rotate for 600ms from the time when LIFTSW is switched from H to L, then the angle driving motor is rotated in the 0° direction. E F AVH-P5700DVD/EW 5 6 7 8 197 1 2 3 4 2. For a period of 500ms from the time when DIGOSW is switched from H to L, the angle driving motor is rotated in the 0° direction for the “pressed down” motion. A 3. After 500ms, brake is applied to the angle driving motor, and then the forward/backward driving motor is rotated in the storage direction. B 4. When the horizontal motion detection pulse is no longer detected for 200ms, brake is applied and the monitor storage motion is completed. C - Explanation on the FLAP angle adjustment 1. The angle driving motor is rotated in UP direction by the “+” key and in DOWN direction by the “–” key from the monitor stop position. If the key is kept pressed, the monitor will keep changing the angle without steps within the range of 50 to 110 degrees. When the setback is being set to ON, the forward/backward driving motor is rotated in the horizontal ejection direction while the key is being pressed, and angle adjustment is made by changing the angle voltage to the extent the angle adjustment key is effective after 600ms has elapsed from the time when LIFTSW has switched from H to L. When 3 seconds have elapsed from the time of angle adjustment completion, the forward/backward driving motor is rotated in slow speed in the horizontal storage direction, and brake is applied when LIFTSW has switched from L to H. D E F 198 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 - Explanation on the FLAP temporary folding operation 1. By pressing the temporary folding key, the angle driving motor is rotated from the monitor stop position toward 0° direction. When the setback is being set to ON, the forward/backward driving motor is rotated when the key is pressed, brake is applied after 600ms has elapsed from the time when LIFTSW has switched from H to L, and the angle driving motor is rotated in 0° direction. A B 2. For a period of 500ms after DEGOSW has switched from H to L, the angle driving motor is rotated, and the monitor stops at its horizontal position by the brake. After 7 seconds, navigator operation sound is heard three times in 1 second interval. After 10 seconds, the angle driving motor is rotated in UP direction, and then the brake is applied to stop the motor at the last memory position. When the setback is being set to ON, after the angle driving motor stops at the last memory position, the forward/backward driving motor is rotated in slow speed in the horizontal storage direction, and the motor stops after LIFTSW has switched from L to H. C D - Notes related to the FLAP motion 1. Regarding the angle position, angle voltage is always checked, and the last memory is stored by addition or subtraction of the voltage. It should be noted, however, that the last memory will not be stored when the monitor is manually moved by force. 2. If the expected pulse is not detected during horizontal motion, the monitor will stop at that position. E F AVH-P5700DVD/EW 5 6 7 8 199 1 2 3 4 - Table of driving unit operations by different preset modes OPEN state Bup ON A (Reset start) In OPEN motion In CLOSE motion CLOSE state CLOSE state Continue OPEN motion CLOSE Last angle OPEN state Last angle Bup OFF Bup OFF To stand-by To stand-by To stand-by To stand-by No state change Continue OPEN motion Continue CLOSE motion No state change Last angle CLOSE Return Auto OPEN/CLOSE setting ON B ON No state change ACC ON OPEN motion Last angle Return ACC OFF ON No state change Continue OPEN motion Continue CLOSE motion Last angle CLOSE No state change Return ACC OFF C 6 sec from ACC OFF Continue OPEN motion Continue CLOSE motion Advance Last angle CLOSE CLOSE motion Return CLOSE 6 sec from ACC OFF No state change Advance CLOSE motion CLOSE Last memory OPEN CLOSE OPEN CLOSE Bup ON (Reset start) Auto OPEN/CLOSE setting OFF D E Bup OFF Bup OFF ON To stand-by To stand-by To stand-by To stand-by No state change Continue OPEN motion Continue CLOSE motion No state change Last angle CLOSE Return No state change ACC ON ACC OFF ON No state change No state change Continue OPEN motion Continue CLOSE motion Last angle CLOSE No state change Return ACC OFF No state change Continue OPEN motion Continue CLOSE motion Last angle CLOSE No state change Return Last memory OPEN CLOSE OPEN CLOSE * When the setback is being set to OFF, there will be no advance/return motion. After ACC OFF, if ACC is switched ON again during the 6 seconds counting, standby will be passed and the FLAP status will not change. F 200 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 - Table of temporary folding control Temporary folding state (horizontal position) Temporary folding reset Temporary folding in motion (horizontal position last angle) (last angle horizontal position) A Bup ON Bup OFF Bup OFF ON To stand-by To stand-by To stand-by Continue temporary folding motion Continue OPEN motion Continue temporary folding motion Last angle Temporary folding Auto OPEN/CLOSE setting ON Return ACC ON ACC OFF ON OPEN motion Continue OPEN motion Last angle Last angle Return Return 6 sec from ACC OFF Continue OPEN motion CLOSE motion Last angle CLOSE Return Continue temporary folding motion Temporary folding ACC OFF B Continue temporary folding motion Temporary folding 6 sec from ACC OFF 6 sec from ACC OFF CLOSE motion Advance CLOSE CLOSE motion Auto OPEN/CLOSE setting OFF CLOSE Last memory Bup ON Bup OFF Bup OFF C OPEN OPEN OPEN To stand-by To stand-by To stand-by ON Continue temporary folding motion Temporary folding reset Temporary folding in motion ON OPEN motion Continue OPEN motion OPEN motion Last angle Last angle Last angle Return Return Return OPEN motion Continue OPEN motion OPEN motion Last angle Last angle Last angle Return Return Return OPEN OPEN OPEN ACC ON ACC OFF D ACC OFF Last memory * When the setback is being set to OFF, there will be no advance/return motion. E F AVH-P5700DVD/EW 5 6 7 8 201 1 2 3 4 7.3.2 OPERATIONAL FLOW CHART Power ON A VDD0=5V Pin 39 bsens Pin 69 bsens=L B asens Pin 96 asens=L dsens Pin 83 dsens=L C D ASENBO←H Pin 87 DISPLAY MICROCOMPUTER SWVDD ON SWVDD←H Pin 109 Microcomputer Initialization ACCPW←H Pin 29 Key Scan Starts communication with Display microcomputer. Source keys operative Initialization Key Resending dimand (Sys control) Starts communication with System microcomputer Response Connection formation SYS resending dimand Source ON Comunication formation SYSPW←H Pin 31 Display processing E Completes power-on operation. (After that, proceed to each source operation) F 202 AVH-P5700DVD/EW 1 2 3 4 5 6 7 8 7.4 CLEANING A Before shipping out the product, be sure to clean the following portions by using the prescribed cleaning tools: Portions to be cleaned DVD pickup lenses Cleaning tools Cleaning liquid : GEM1004 Cleaning paper : GED-008 Portions to be cleaned Fans Cleaning tools Cleaning paper : GED-008 B C D E F AVH-P5700DVD/EW 5 6 7 8 203 1 2 3 4 3 4 8. OPERATIONS A B C D E F 204 AVH-P5700DVD/EW 1 2 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 205 1 2 1 2 3 4 3 4 A B C D E F 206 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 207 1 2 1 2 3 4 3 4 A B C D E F 208 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 209 1 2 1 2 3 4 3 4 A B C D E F 210 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 211 1 2 1 2 3 4 3 4 A B C D E F 212 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 213 1 2 1 2 3 4 3 4 A B C D E F 214 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 215 1 2 1 2 3 4 3 4 A B C D E F 216 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 217 1 2 1 2 3 4 3 4 A B C D E F 218 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 219 1 2 1 2 3 4 3 4 A B C D E F 220 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 221 1 2 1 2 3 4 3 4 A B C D E F 222 AVH-P5700DVD/EW 5 6 7 8 A B C D E F AVH-P5700DVD/EW 5 6 7 8 223 1 2 3 4 - Jigs List Name Test Disc Screw lock 33 pin extension cable Relayy PCB Relay PCB 20 pin extension cable 40 pin extension cable 40 pin extension cable 2 pin extension cable A Jig No. GGV1018 GYL1001 GGD1262 GGF1462 GGF1461 GGD1209 GGD1170 GGD1284 GGD1439 Remarks Adjusting j g the skew Adjusting the skew Connecting the monitor PCB to relay PCB(GGF1462) Connecting g the monitor PCB extension cable to flexible PCB Connecting the monitor PCB extension cable to flexible PCB Connecting the mother unit to relay PCB(GGF1461) Connecting the mother unit to relay PCB(GGF1461) Connecting the mother unit to DVD mechanism module Connecting the mother unit to DVD mechanism module B C D E F 224 AVH-P5700DVD/EW 1 2 3 4
Source Exif Data:
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