Sanyo VPC-X360 User's Manual
Contents
1. MICRO PHONE IRIS SW UNREG GND 1AV4J10EZO20G CN304 CN106 CN301 SCAN IN 4 T1 GND 1 GND SCAN OUT D 2 SCAN IN 3C 2 2 SCAN IN 3C ACRO SCAN IN 2 3 SCAN IN 2C GND 4 4 GND NC 5 5 NC RXD 6 6 RXD 1AVAJ1 1BF050G LCD N 7 7 LCD ON N303 PCA ON 8 PCA ON SCAN QUT O t PON s P UN SCAN IN OA 2 ASIC SCK 10 ASIC SCK SCAN IN 3 ASIC SO ji a ASIC SO SCAN IN 2A 4 ASIC SI 2 1 ASIC 51 SCAN IN 8 SREQ __ SREG 3 1V AIN 5 1 A IN GND 16 00 SY1 GND 7 il GND 1AV4J10EZO20G 7 RESET Jie Z RESET CN302 Z TEST O Z TEST SCAN IN OC 1 Z TEST 1 oo Z TEST 1 SCAN QUT 2 UP UNREG Ja 21 UP UNREG LENS COVER UP UNREG 2 22 UP UNREG CHG 3 23 V MONIT 24 24 V MONIT DIN CONNECT 25 25 DIN_CONNECT LOBRQ2CN AV 26 26 AV_JACK N310 UNREG 27 27 UNREG INT MIC 1 SCAN IN 1C e 28 SCAN IN 1 MIC GND zH SCAN OUT 2 ps zo SCAN OUT 2 GND so e GND CN50 GND 1 n GND NENSOL GND 2 2 GND FL L GND 3 3 GND NOT USED 2 GND 4 4 GND GND 3 4159 __ 5 s ISVGL NOT USED 4 6 el 592 FL H 5 HNL 7 7 112805 UNREG 8 8 UNREG UNREG s UNREG INVCLK 19 IN 06 JK501 Du ij VMONIT 1AVAJ1182720N CHG 12 12 CHG 5VA 1 m 5v 5 D u SVA 5 15 72. 7 5 V 0 V 15 V 5 6 7 10 GND 8 Image output 9 Output transister drain 15V 11 Board clock Amplitude 22 5 V Ex 6 V Bias level is different from every CCD 12 Board bias Different from every CCD Ex 6 Protection transistor bias 7 5 Reset transister gate clock Amplitude 3 5 V Ex 5 V 10 V Different from every CCD Horizontal shift register transfer clock 0V 3 5 V Horizontal shift register transfer clock Table 1 1 CCD Pin Description 0V 3 5 V When sensor read out 3 IC902 H Driver and IC904 V Driver An H driver 902 and V driver IC904 are necessary in order to generate the clocks vertical transfer clock horizon tal transfer clock and electronic shutter clock which driver the CCD 1 902 is an inverter IC which drives the horizontal CCDs H1 and H2 In addition the 1 4 signals which are output from Pins 166 167 169 and 171 of IC102 are the ver tical transfer clocks and the XSG1 and XSG2 signals which is output from Pins 168 and 170 of IC102 is superimposed onto XV1 and XV3 at IC904 in order to generate a ternary pulse In addition the XSUB signal which is output from Pin 165 of IC102 is used as the sweep pulse for the electronic shutter and the RG signal which is output from Pin 159 of IC102 is the reset gate clock CHS oo 7
3. L ae Fig 1 3 904 Block Diagram 4 IC905 CDS AGC Circuit and A D converter The video signal which is output from the CCD is input to Pins 26 and 27 of IC905 There are S H blocks inside IC905 generated from the XSHP and XSHD pulses and it is here that CDS correlated double sampling is carried out After passing through the CDS circuit the signal passes through the AGC amplifier It is A C converted internally into 10 bit signal and is then input to IC102 of the CA2 circuit board The gain of the AGC amplifier is controlled by the volt age at pin 29 which is output from IC102 of the CA2 circuit board and smoothed by the PWM PBLK PGACONT1 2 SHP SHD ADCCLK 5 04 6 CMLEVEL VRT VTB STBY CLPOB ADCMODE ACVDD ADVDD Fig 1 4 IC905 Block Diagram 5 Transfer of Electric Charge by the Horizontal CCD The transfer system for the horizontal CCD emplays a 2 phase drive method The electric charges sent to the final stage of the horizontal CCD are transferred to the floating diffusion as shown in Fig 1 5 RG is turned on by the timing in 1 and the floating diffusion is charged to the potential of PD The RG is turned off by the timing in 2 In this condition the floating diffusion is floated at high impedance The H1 potential becomes shallow by the timing in 3 and the electric charge now moves to the floating diffusion Here the electric charges are converted into voltages at th
4. NG CN171 NOT USED HVDD CKH1 CKH2 STH XSTH CSH PCG XPCG VSS G HT PCD XENB ENB CSV XSTV SIV VVDD 2 CKV1 COM NOT USED CAI CA2 CN172 CN101 GND 1 i GND ZRESET 2 2 ZRESET AV 3 3 1V 4 dv GND 5 5 GND 6 6 7 AQUT GND 8 GND DIN CONNECT 8 DIN CONNECT CAMRD CAM_RD CAM SD u SD GND 12 12 GND BLKLIM 43 13 BLKLIM LCDAFC 14 t LCDAFC LCDSO 5 1 LCDSO LCDSCK 16 16 LCDSCK LCDSEN r7 o LCDSEN GND 00 GND 19 18 GND GND 2 GND GND jz GND GND 22 22 GND 315VL 23 23 315VL 312VL 24 24 12VL 25 25 5VL GND pe 5 GND VIDEOQUT 27 27 VIDEOOUT GND 26 GND AV_JACK 29 JACK GND o Bo GND CSYNC e CSYNC GND 32 32 GND Y 33 33 Y GND 4 GND C 35 35 GND GND SCAN IN 2C 37 37 SCAN IN 2C SCAN IN 38 38 SCAN IN SCAN QUT 2 39 38 SCAN 2 GND Lo
5. 2 5 0 V D Voltage Adjustment 3 3 3 V D Voltage Adjustment 4 12 4 V L Voltage Adjustment 1 5 12 4 V L Voltage Adjustment 2 6 5 8 V L Voltage Adjustment 7 CCD Defect Defect Adjustment 8 AWB Adjustment 9 Flange back Adjustment 10 LCD Panel Adjustment 10 1 LCD H AFC Adjustment 10 2 LCD RGB Offset Adjustment 10 3 LCD Gain Adjustment 10 4 LCD Blue Brightness Adjustment 10 5 LCD Red Brightness Adjustment 3 4 Setup 1 System requirements Windows 95 or 98 IBM compatible PC with 486 or higher processor CD ROM drive 3 5 inch high density diskette drive Serial port with standard RS 232C interface 8 MB RAM Hard disk drive with at least 15 MB available VGA or SVGA monitor with at least 256 color display 2 Installing calibration software 1 Insert the calibration software installation diskette into your diskette drive 2 Open the explorer 3 Copy the DSC Cal folder on the floppy disk in the FD drive to a folder on the hard disk 3 Color Viewer Turn on the switch and wait for 30 minutes for aging to take place before using Color Pure 4 Computer screen during adjustment Calibration Upload VCOMDC VCOMPP UV Matrix Raso Test irmware Version 15 3 5 Connecting the camera to the computer 1 Turn off both camera and computer 2 Locate the port cover on the side of the camera Press on the arrows and slide the cover down to open it 3 Line up the arrow on the cable connector with t
6. 1 Adjust with VR503 to 5 10 0 05 V 17 8 AWB Adjustment Preparation POWER switch ON Adjusting location Flange back adjustment screw Fig 1 Adjust the adjustment screw by turning it through the hole pro vided in the CA1 board If this adjustment screw is turned counter clockwise the focal length of the lens will decrease and if it is turned clockwise the focal length will increase Adjustment Serial cable 1 Display the image taken by the camera on the screen of a computer 2 Set the focus switch at the normal position 3 Project two Siemens star charts at a distance of 1 0 meters and 0 3 meters infront of the lens 4 Turn the adjustment screw until the Siemens star which is Camera 0 18 1 0 meters away is exactly in focus Check that the Siemens star which is 0 3 meters from the front of the lens is out of All white pattern focus at this time Color viewer 5 100K 5 Project the Siemens star chart at a distance of 0 3 meters in front of lens Check that it is out of focus at normal mode Preparation and it is in focus at macro mode POWER switch ON 6 This adjustment location is integrated with the iris mecha Adjusting method nism After adjusting make sure that no load has been 1 Set the all white pattern so that it becomes a full picture placed on the iris mechanism and harness Do not enter any light 2 Double click on the
7. 106 107 108 636 055 4276 636 056 6705 636 055 4290 636 055 5822 636 055 4313 636 055 8892 636 055 4283 636 055 5877 645 023 4248 636 055 5952 645 030 0639 636 056 2615 411 175 5705 411 170 8602 411 169 9603 411 020 0701 COMPL PWB CA 2 EXCEPT VPC X360 COMPL PWB CA 2 VPC X360 ONLY COMPL PWB PW 1 HOLDER CHASSIS PW1 662 J COMPL PWB TB 2 COMPL REFLECTOR COMPL PWB SY 1 HOLDER VF SR662 J ASSY LENS VF REFLECTOR VF SR662 J MICROPHONE ADHESIVE TAPE VF SR661 J SCR PAN PCS 1 7 3 SCR S TPG PAN 2X5 SCR S TPG PAN PCS 1 7X6E SCR PAN PCS 1 7X4 N S P Not available as service parts SR622 J PartsList 2 ELECTRICAL PARTS Note 1 Materials of Capacitors and Resistors are abbreviated as follows Resistors Capacitors MT FILM Metallized Film Resistor MT POLYEST Metallized Polyester Capacitor MT GLAZE Metallized Glaze Resistor MT COMPO Metallized Composite Capacitor OXIDE MT Oxide Metallized Film Resistor TA SOLD Tantalum Solid Capacitor AL SOLID Aluminum Solid Capacitor NP ELECT Non Polarized Electrolytic Capacitor OS SOLID Aluminum Solid Capacitors with Organic Semiconductive Electrolytic Capacitor DL ELECT Double Layered Electrolytic Capacitor 2 Tolerance of Capacitor 10pF over and Resistor are noted with follow symboles 2 DE 5 Kun 10 30 Z n 48096 20 3 Capacitors U HF P pF 4 Inductors UH MH mH 5 N S P Not available as service parts LOCATION PARTS NO DESCRIP
8. 16W Spanish French EXCEPT VPC X360E R3006 401225 1405 MT GLAZE 47K JA1 16W VPO X360EX ONLY n R3011 401 257 4108 T GLAZE 100K DC 1 16W 83014 401 224 8900 T GLAZE 100K JA 1 16W R3016 4012249006 MT GLAZE 10K 1 16W Pack English Spanjsh French German R3017 401224 8900 T GLAZE 100K 1 16W R3018 4012249303 MT GLAZE 1KJA1 16W PACKING MATERIALS R3021 4012249006 MT GLAZE 10K 1 16W 6360562127 CARTON CASE INNER 662 E VPC X360E ONLY 83022 401 224 8907 MT GLAZE 22K JA 1 16W 636 056 2134 CARTON CASE INNER 662 EX R3023 401 224 9006 T GLAZE 10K JA 1 16W VPC X360EX ONLY R3024 4012249006 MT GLAZE 10K JA 1 16W 636 056 2141 CARTON CASE INNER 662 U VPC X360 ONLY R3025 401 224 9907 T GLAZE 22K JA 1 16W 6450313080 POLY SHEET 0300X0300 NC R3041 401 225 1306 MT GLAZE 470 1 16W 636 056 2189 REINFORCEMENT PAD A 662 E BOTTOM R3042 4012250002 MT GLAZE 270JA1 16W 636 055 4627 REINFORCEMENT PAD B 112 E 83043 401 225 7902 T GLAZE 220 1 16W 83051 401 224 8900 T GLAZE 100K 1 16W 83052 401 224 8900 T GLAZE 100 1 16W 83053 401 224 9303 MT GLAZE 1KJA1 16W 83056 401 224 9303 MT GLAZE 1KJA1 16W 83101 401 224 9501 T GLAZE 2 2K 1 16W 83102 401 224 9501 T GLAZE 2 2K 1 16W 83103 401 224 9006 T GLAZE 10K JA 1 16W R3104 4012248801 T GLAZE 100 JA 1 16W Oct 99 4760 MI Printed in Japan SANYO SANYO Electric Co Ltd Osaka Japan LCD PANEL BACK LIGI OVERALL
9. 16W C9051 403 325 7608 CERAMIC 1UK 16V R9071 401 105 7909 IT GLAZE 0 000 ZA 1 16W C9052 403 3205203 CERAMIC 0 33UK 16V R9090 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9059 403 3156406 CERAMIC 180PJ 25V R9092 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9060 403 3156406 CERAMIC 180 25V R9095 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9061 403 3156406 CERAMIC 180PJ 25V SWITCHES C9062 403 3156406 CERAMIC 180PJ 25V 1701 645 034 1564 SWITCH PUSH 1P 1T C9064 403 3156406 CERAMIC 180PJ 25V 1702 645 034 1564 SWITCH PUSH 1P 1T C9065 403 3156406 CERAMIC 180PJ 25V JACKS C9066 403 3156406 CERAMIC 180 25V JK171 645 031 0454 02 6 PC JACK C9067 403 296 1308 TASOLID 10UM 20V JK172 645 026 4757 JACK PHONE 03 6 AV JACK C9080 403 3156406 CERAMIC 180PJ 25V CONNECTORS C9081 4031904306 CERMAIC 0 1UK 25V CN171 645 028 6087 24 N S P RESISTORS CN172 6450103261 PLUG PWB PWB 40P N S P R1701 401 224 9204 IT GLAZE 15K JA 1 16W CN901 645 036 7472 N S P 1702 401 258 6804 T GLAZE 15K DC 1 16W MISCELLANEOUS R1703 401 262 1406 T GLAZE 4 3K DC 1 16W Y9001 636 057 2898 SPACER CA1 SR662 J R1704 401 224 9204 T GLAZE 15K JA 1 16W R1705 401 224 9006 T GLAZE 10K JA 1 16W COMPL PWB CA 2 R1706 401 262 0904 T GLAZE 27K DC 1 16W R1707 401 262 0706 T GLAZE 39K DC 1 16W E 02 UT ie R1709 401 262 2304 T GLAZE 1 0K DC 1 16W R1711 401 224 9006 T GLAZE 10K JA 1 16W R1712 401 224 900
10. 401 224 9303 MT GLAZE 1KJA1 16W 03051 407 149 0807 DIODE 155355 R3107 401 225 0101 T GLAZE 27K JA 1 16W D3052 4071654001 DIODE DA227 108 401 224 9501 T GLAZE 2 2K 1 16W 03054 407 149 0807 DIODE 155255 83109 401 224 8900 T GLAZE 100 1 16W 03055 407 149 0807 DIODE 155355 R3120 401 226 1503 T GLAZE 0 000 ZA 1 16W 03062 407 188 9809 DIODE MA742 R3161 401 237 8508 T GLAZE 390K JA 1 16W 03064 407 165 4001 DIODE DA227 83162 401 225 1405 T GLAZE 47K 1 16W 03065 407 149 0807 DIODE 155355 83163 401 224 9303 MT GLAZE 1KJA1 16W D3066 407 165 4001 DIODE DA227 R3164 401 224 9006 T GLAZE 10K JA 1 16W 03067 4071654001 DIODE DA227 R3166 401 224 9303 MT GLAZE 1 1 16W 03069 407 149 0807 DIODE 155355 R3167 401 224 9303 MT GLAZE 1KJA1 16W D3070 407 149 0807 DIODE 155255 R3168 401 225 0408 T GLAZE 330K 1 16W CRYSTAL DEVICES SWITCHES X3001 645 037 5156 OSC CERAMIC 4 00MHZ S3001 645 029 5911 SWITCH SLIDE 1P 3T X3002 645 034 7993 OSC CRYSTAL 32 768KHZ 3029 645 028 4069 SWITCH PUSH 1P 2TX1 SHUTTER CAPACITORS CONNECTORS 3001 4033117506 CERAMIC 22PJ 50V CN301 645 035 5424 SOCKET PWB PWB 30 N S P C3002 403311 7506 CERAMIC 22 50V CN302 6450251320 PLUG2P NSP C3003 4033462309 CERAMIC 0 1UK 10V CN303 6450026423 SOCKET FFC5P C3004 403311 4505 CERAMIC 1000 50V CN304 6450251320 PLUG2P 5 4033113409 CERAMIC 0 01UK 16V CN310 6450022876 PLUG2P NSP 3006 4033462309 CERAMIC 0 1UK 10V
11. 424 waveform VG 0 2 V CL426 waveform 10 5 LCD Red Brightness Adjustment Adjusting method 1 Adjust LCD R Bright so that the amplitude of the CL425 waveform is 0 2 V with respect to the CL424 VG wave form Note 10 2 LCD RGB Offset adjustment and 10 3 LCD Gain ad justment should always be carried out first FE CL424 waveform VG 0 2 V CL425 waveform 19 4 TROUBLESHOOTING GUIDE POWER LOSS INOPERTIVE BARRIER SW y OPEN 301 4 93 NA yLOW w Y HIGH 1301 81 VDD N yHIGH 10301 84 CLOSE m BARRIER SW ON NORMAL HIGH i 56 CHECK S6002 N302 D3069 R3021 LOW 1302 7 UP UNREG CHECK IC132 LOW CHECK 1 302 LOW Y RESET yv HIGH IC301 85 LOW BAT OFF yHIGH 301 80 OSCILLATION eS y YES 1C301 82 OSCILLATION y YES CHECK IC301 NO NO NO PICTURE CHECK 1 302 R3051 gt CHECK R3052 CHECK X3001 CHECK X3002 R3004 C3001 C3004 CLK 114MHz YES MAIN CLOCK FOR SYSTEM OPERATION OSCILLATION NO OPERATION IF ABSENT CHECK L1105 CHECK IC111 L1101 L1105 and X1101 VYES SD CLK 57 MHz NG MAIN CLOCK FOR SDRAM IC106 OSCILLATION _ NO OPERATION IF ABSENT FROM IC121 106 35 CHECK IC101 IC106 and C1061 jYES IC
12. 5VCAD PWI 2 33 3VCCDS 6 16 3 3 05 33 a 3 3V VORTI iel S 3 4AGOW31B21300 ss s 3 CN503 PA ON 20 zo PCA UN BATIERY 4 8 PON fa m PUN BATTERY LCD ON 22 22 LCD ON 23 STOP TRIG 24 24 TRIG ROY 5 X5VA 8 26 15 GND GND GND je GND GND j GND GND GND crisi VSS i CLE 2 ALE 3 zWE 4 5 1701 s 1702 7 1 03 I 04 s VSS 10 VSS 1 12 1 05 SSFDC I 06 ul 1 07 hsl 1 08 6 3VCARD 7 GND R z8 18 zE fo zCE 2 CDI 23 CD2 4 WII is LENS WI2 26 ll 1 2
13. 636 055 5976 SLIDE KNOB MACRO SR662 J 26 6360555891 HOLDER BATTERY SR662 J 10 6360556010 SPRING P SSFDC SR662 J 27 636 055 4658 LABEL CAUTION BATT SX112J 11 636 055 9103 BATTERY 662 J 101 4110177508 PAN PCS 1 4X2 12 636 055 5761 SSFDC SR662 J 102 4111788802 SCR S TPG PAN PCS 1 7X2 0 13 6360566460 SHIELD TAPE SSFDC SR662 J 103 4111755705 SCR PAN PCS 1 7X3 14 636 055 5907 HOLDER SSFDC SR662 J 15 636 0555747 COVER JACK SR662 J 104 411 178 9403 SCR S TPG PAN PCS 1 7 4 0 i 105 411 177 8407 SCR S TPG PAN PCS 1 7X3 N S P Not available as service parts 21 17 SR622 J PartsList 1 12 LOCATION PARTS NO DESCRIPTION LOCATION PARTS NO DESCRIPTION CABINET amp CHASSIS PARTS 2 645 029 2170 645 032 5854 636 052 2183 636 052 9199 636 052 2190 636 057 3093 636 055 4252 636 056 2431 636 055 5839 645 039 9732 636 056 1298 645 032 2167 636 055 9189 636 055 5983 636 055 4306 636 055 5815 lt IMA 8 k CO O LENS ASSY OPTICAL FILTER SPACER ASSY UNIT CCD SPACER INSULATOR SPACER CHASSIS PW1 SR662J COMPL PWB CA 1 VPC X360 ONLY COMPL PWB CA 1 EXCEPT VPC X360 HOLDER CHASSIS CA1 662 J UNIT CONTROL PANEL SPACER UNIT C P SR662 J LCD SPACER MONITOR BTM 662 J SLIDE MACRO SR662 J COMPL PWB TB 1 HOLDER CHASSIS CA2 662 J 25 24 16 16 17 18 19 20 21 22 23 24 25 26 103
14. C1501 4033343806 CERAMIC 10UK 6 3V 1513 401 2622007 MT GLAZE 390 DC 1 16W EXCEPT VPC X360 C1508 403311 5007 CERAMIC 33PJ 50 360 R1513 401 262 2601 T GLAZE 120 DC 1 16W VPC X360 ONLY C1508 403312 6508 CERAMIC 56 50V VPC X360 ONLY R1514 401 262 2304 T GLAZE 1 0K DC 1 16W C1510 4033126805 CERAMIC 0102 16V R1515 401 262 2304 T GLAZE 1 0K DC 1 16W C1511 4032070307 CERAMIC 107 16V R1516 401 275 1905 T GLAZE 2K DC 1 16W C1512 4033453802 TA SOLID 220 4V R1519 401 225 2006 T GLAZE 680 1 16W C1513 403 345 4205 5000 47UM 6 3V 1522 401 225 3805 T GLAZE 1 5 1 16W C1517 4033126805 CERAMIC 0 104 16V 81523 401 105 5806 MT GLAZE 56 1 16W C1519 403 334 3806 CERAMIC 100 6 3V 1526 401 2622502 MT GLAZE 6800 1 16W 1531 403 312 6805 CERAMIC 0102 16V 81527 401 226 1503 T GLAZE 0 000 ZA 1 16W C1601 403 345 4304 TA SOLID 220 10V 1528 401 224 9303 MT GLAZE 1K JA 1 16W C1602 403 345 4205 TA SOLID 47U M 6 3V R1530 401 226 2401 T GLAZE 560 1 16W C1603 403 345 4304 TASOLID 22UM 10V 81531 401 226 2401 T GLAZE 560 1 16W C1611 4033438700 CERAMIC 1UM 12V R1532 401 226 1503 T GLAZE 0 000 ZA 1 16W C1612 4033343806 CERAMIC 100 6 3V R1604 401 225 1207 T GLAZE 4 7 1 16W C1613 4033438700 CERAMIC 10 12V R1605 401 225 1207 T GLAZE 4 7 1 16W RESISTORS R1607 401 224 9303 _ MT GLAZE 1K JA 1 16W R1010 401 226 1503 MT GLAZE 0 000 ZA 1 16W R9501 4012251801 MT GLAZE 47 JA 1 1
15. DscCalV123b 10 LCD Panel Adjustment 3 Click the AWB and click the Yes CA1 board Side B 4 AWB adjustment value will appear on the screen 5 Click the OK 9 Frange back Adjustment CL426 425 01424 22 7 Screw driver Adjustment screw 10 1 LCD H AFC Adjustment Preparation POWER switch ON Adjusting method 1 Double click on the DscCalV 123b 2 Select 0 on the LCD H AFC 3 While watching the LCD monitor adjust H AFC so that the edge of the LCD adjustment frame are the same distance from the left and right edge of the LCD screen A B 18 LCD adjustment LCD screen B frame EN ma 10 2 LCD RGB Offset Adjustment Adjusting method 1 Adjust LCD RGB offset so that the amplitude of the CL 424 waveform is 7 5 Vp p 0 3 V 7 5 Vp p 0 3 V CL424 waveform 10 3 LCD Gain Adjustment Adjusting method 1 Adjust LCD Gain so that the amplitude of the CL424 wave form is 4 0 Vp p 0 15 V Note 10 2 LCD RGB Offset adjustment should always be carried out first 4 0 Vp p 0 15V CL424 waveform 10 4 LCD Blue Brightness Adjustment Adjusting method 1 Adjust LCD B Bright so that the amplitude of the CL426 waveform is 0 2 V with respect to the CL424 VG wave form Note 10 2 LCD RGB Offset adjustment and 10 3 LCD Gain ad justment should always be carried out first
16. serial data from the ASIC 1 3 PW1 POWER CIRCUIT DESCRIPTION 1 Outline This is the main power circuit and is comprised of the follow ing blocks Switching controller 501 Digital and analog system and LCD 5 0 V system power out put L5010 Q5002 D5013 C5061 Digital 3 3 V system power supply L5017 Q5009 D5007 C5062 Analog and LCD system power supply Q5007 T5001 Backlight power supply output L5005 Q5008 D5014 C5005 2 Switching Controller 501 This is the basic circuit which is necessary for controlling the power supply for a PWM type switching regulator and is pro vided with four built in channels only CH1 digital 3 3 V CH2 5 V system CH3 analog and LCD system and back light system are used Feedback from 3 3 V D CH1 5 0 V D CH2 15 0 V A 412 4 V L CH3 5 8 V L power supply outputs are received and the PWM duty is var ied so that each one is maintained at the correct voltage set ting level 2 1 Short circuit protection circuit If output is short circuited for the length of time determined by the condenser which is connected to Pin 17 of IC501 all output is turned off The control signal P ON P A ON and LCD ON are recontrolled to restore output 3 Digital 3 3 V Power Output 3 3 V D is output Feedback for the 3 3 V D is provided to the switching controller Pins 1 of IC501 so that PWM con trol can be carried out 4 5 V S
17. the SDRAM is after D A conversion is carried out by SDRAM control circuit inside the ASIC makes Y C signal the data is sent to the LCD panel and displayed If the shutter button is pressed in this condition the 10 bit data which is output from the A D conversion block of the CCD is sent to the SDRAM DMA transfer and is displayed on the LCD as a freeze frame image During playback the JPEG image data which has accumu lated in the SSFDC card is converted to RGB signals In the same way as for EE the data is then sent to the SDRAM after which D A conversion is carried out inside the ASIC and then the data is sent to the LCD panel and displayed The LCD driver is converted Y C signals to RGB signals from ASIC and these RGB signals and the control signal which is output by the LCD driver are used to drive the LCD panel The RGB signals are 1H transposed so that no DC compo nent is present in the LCD element and the two horizontal shift register clocks drive the horizontal shift registers inside the LCD panel so that the 1H transposed RGB signals are applied to the LCD panel Because the LCD closes more as the difference in potential between the VCOM common polar voltage fixed at DC and the R G and B signals becomes greater the display becomes darker if the difference in potential is smaller the element opens and the LCD become brighter In addition the bright ness and contrast settings for the LCD can be varied by means of the
18. 1 INDUCTOR 1 0UM Q5003 4050921100 2541577 15006 645 021 5315 INDUCTOR 110 OHM 405 092 1209 2541577 0 5007 645 030 5887 INDUCTOR 1000 OHM OR 4050921407 TR2SA1577 R 5008 645 037 1523 INDUCTOR 10U K 05004 405 092 1100 2SA1577 P L5010 645 038 6701 INDUCTOR 4 7U M OR 405 092 1209 TR2SA1577 Q 15011 645 037 1523 INDUCTOR 10U K 405 092 1407 TR 2SA1577 R L5012 645 037 1523 INDUCTOR 10U Q5005 4050921100 2541577 15013 645 037 1523 INDUCTOR 10U K OR 405 092 1209 TR 2SA1577 Q L5014 645 037 1523 INDUCTOR 10U K OR 405 092 1407 2SA1577 R L5015 645 037 1530 INDUCTOR 47U Q5007 405 148 3904 209 15016 645 037 0601 INDUCTOR 10U M Q5008 405 148 3904 TR CPH3209 15017 645 036 7496 INDUCTORA 7U M 05009 405 148 7100 TR CPH6401 L5018 645 037 1530 INDUCTOR 47U K 05012 4051156907 TRDTC114EE TRANSFORMERS Q5013 405 129 2902 TRUMH11N T5001 645 037 5040 TRANS POWER PULSE 05014 405 115 6907 TR DTC114EE 5002 645 023 1728 TRANS POWER PULSE Q5015 4051521408 25 2742 T5401 645 032 8831 TRANS STEP UP Q5016 405 129 2308 TR UMZ1N T5402 645 031 6951 TRANS STEP UP 05017 4050921100 25 1577 CAPACITORS OR 405 092 1209 2SA1577 Q C5001 403 325 7608 CERAMIC 1UK 16V OR 4050921407 TR2SA1577 R C5002 403 325 7608 CERAMIC 1UK 16V 05019 405 148 6905 TR CPH3303 C5003 403 323 6009 CERAMIC 10UM 16V Q5020 405 148 6905 TR CPH3303 C5004 403 333 3708 CERAMIC 10UM 10V Q5021 4051292308 TRUMZIN C5005 4033333708 CER
19. 101 111 114 NG INCORRECT HANDSHAKING BETWEEN 8 BIT 301 75 76 CPU AND RS 232C 23 78 CHECK EACH INTERFACE a CHECK ASIC AND MEMORY PIN 20 TAKING INOPERATIVE PUSH SHUTTER BUTTON IC301 4 5 SCAN IN 0 1 PULSE INPUT y YES IC301 70 71 P ON P A ON jHIGH 1C301 96 97 98 HIGH YES y SERIAL COMMUNICATION IC301 75 77 87 CHECK S3029 D3064 R3021 R3022 LOW I CHECK IC301 NO CHECK IC301 IC101 NG CHECK IC301 R3001 R3003 IC101 CHECK IC101 5 PARTS LIST LOCATION PARTS NO DESCRIPTION LOCATION PARTS NO DESCRIPTION 16 636 055 5853 HOLDER TERMINAL SR662 J CABINET amp CHASSIS PARTS 1 17 636 056 0956 MONITOR SR662 E 1 636 056 2479 ASSY COVER LENS SR662 E 18 6360559080 55 BACK SR662 J 2 636 055 5600 COVER FRONT SR662 J 19 636 055 5938 KNOB POWER SR662 J 3 636 055 5785 WINDOW VF SR662 J 20 636 057 0214 SPRING COMP RELEASE 662 J 4 636 055 5792 DEC STRAP SR662 J 21 636 055 9042 ASSY BUTTON SHUTTER 662 J 5 636 055 9066 FRONT SR662 J 22 636 056 0932 CABINET TOP SR662 E 6 636 055 5846 HOLDER COVER LENS SR662 J 23 636 055 5990 SLIDE KNOB POWER SR662 J 7 636 055 6041 SPRING LENS SR662 J T 24 636 055 6058 TERMINAL BATTERY A SR662J 8 636 055 5921 KNOB MACRO SR662 J T 25 636 055 6065 TERMINAL BATTERY B SR662J 9
20. 155 1807 CERAMIC 0 01UK 25V D5006 407 2035809 DIODE F02J9 C5043 403 342 7506 CERAMIC 1000P J 50V D5007 407 201 2701 DIODE RB051L 40 C5044 403 342 7506 CERAMIC 1000P J 50V D5008 407 205 5203 DIODE RB521S 30 C5045 403 155 1807 CERAMIC 0 010 25V D5009 407 205 5203 DIODE 885212 30 C5046 403 340 3906 CERAMIC 6 3V D5010 407 201 2701 DIODE RB051L 40 C5047 403 338 4403 CERAMIC 0 1UK 16V D5011 407 162 8507 DIODE DAN222 C5048 403 155 1807 CERAMIC 0 010 25V D5012 407 162 8507 DIODE DAN222 C5049 4033384403 CERAMIC 0 1UK 16V D5013 407 203 5601 DIODE RB461F C5050 4031551807 CERAMIC 0 01UK 25V D5014 407 203 5601 DIODE RB461F C5051 403 338 4403 CERAMIC 0 1UK 16V D5015 407 203 5601 DIODE RB461F C5052 403 335 4703 CERAMIC 0 22UK 6 3V D5402 407 202 0300 DIODE F1F16 C5053 403 169 2807 CERAMIC 330PJ 50V D5403 407 122 2606 DIODE SFPM 64 C5054 403 340 3906 CERAMIC 6 3V D5404 407 202 0102 DIODE F1SN4 C5055 403 340 3906 CERAMIC 6 3V D5405 407 199 4503 CRO8AS 8 T1 C5056 403 3114505 CERAMIC 1000 50V LOCATION PARTS NO DESCRIPTION LOCATION PARTS NO DESCRIPTION C5058 403 3453109 POS SOLID 33UM 10V R5074 4012589300 _ MT GLAZE 220K DC 1 16W C5059 403 3453000 POS SOLID 47UM 6 3V R5075 4012580406 MT GLAZE 120K DC 1 16W C5061 4033351405 CERAMIC 10UK 6 3V R5076 4012589300 MT GLAZE 220K DC 1 16W C5062 403 3453000 POS SOLID 47UM 6 3V R5077 4012625206 1 5K DC 1 16W C5064 403 345 3901 CERAMIC 3 3UM 63V R5078 401
21. 2249303 MT GLAZE 1KJA1 16W C5065 403 340 3906 CERAMIC 1UM 63V R5082 4010375202 MT GLAZE 100JA1 10W C5069 403 340 3906 CERAMIC 1UM 63V R5083 4012351402 _ MT GALZE 12KJA1 16W C5070 403 340 3906 CERAMIC 1UM 63V R5084 4012251306 MT GLAZE 470 1 16W C5401 403 345 3000 POS SOLID 47 6 3V R5086 4012261503 0 000 ZA 1 16W C5403 403338 2904 CERAMIC 0470 10V R5087 401226 1503 MT GLAZE 0 000 ZA 1 16W C5404 403311 4505 CERAMIC 1000 50V R5088 4012251405 MT GLAZE 47K 1 16W C5406 403 340 3906 CERAMIC 10 63V R5089 401226 1503 MT GLAZE 0 000 ZA 1 16W C5407 403311 3409 CERAMIC 0 010 16V R5090 401226 1503 1 7 0 000 ZA 1 16W C5409 4033479109 CERAMIC 0 033UZ 16V R5096 4012611508 MT GLAZE 43K JA 1 16W C5410 403341 4407 CERAMIC 0 047U 350V R5097 4012249006 MT GLAZE 10KJA1 16W C5411 4033305903 CERAMIC 0 01UK 500V R5098 401226 1503 MT GLAZE 0 000 ZA 1 16W C5412 404081 1701 ELECT 60UK 330V R5099 401226 1503 0 000 ZA 1 16W C5414 403311 7704 CERAMIC 4700PK 25V R5401 401224 9303 MT GLAZE 1KJA1 16W RESISTORS R5408 401 037 3406 01 7 82JA 1 8W R5003 401224 8900 MT GLAZE 100KJA1 16W R5410 4010375202 MT GLAZE 100JA1 10W R5004 4012249501 T GLAZE 2 2K 1 16W 85411 4012249006 MT GLAZE 10K 1 16W R5005 4012621000 MT GLAZE 33K DC 1 16W R5412 4012272400 MT GLAZE 15 1 16W R5006 401 262 1703 MT GLAZE 2 7 DC 1 16W R5413 4012249006 MT GLAZE 10K 1 1
22. 33329503 CERAMIC 1UM 6 3V 729 4033113409 CERAMIC 0 010 16V 730 403312 6805 CERAMIC 0 104 16V 781 403 347 9406 CERAMIC 0 2202 10V 739 4033270300 CERAMIC 1004 25V 741 403 325 4409 CERAMIC 0 06897 16V 742 403347 9406 CERAMIC 0 2202 10V 1 171 4094524206 IC LV4127W 174 4094236802 TK11245BM 175 409 400 9109 IC TC7SETO8FU 10201 409 432 2505 1 1 321 7 10202 409 432 2604 821 7 1 902 409 392 9101 IC 74 04 IC904 4093669700 IC CXD1267AN 775 4032070307 CERAMIC 102 16V IC905 4094189702 AD9802JSTRL 76 4083329503 CERAMIC 63V IC909 409 4070505 IC TK11331BM 777 4033343806 CERAMIC 100 6 3V DIODES 778 403332 8209 CERAM 01701 407 166 0606 DIODE MA365 779 4033329503 1UM 63 09011 4071878407 ZENER DIODE UDZ16B C2010 4033236306 CERAMIC 16V 09019 4071490807 DIODE 155355 C2011 4032725603 CERAMIC 0 0330 16V 09020 407 198 9905 DIODE 727 C2012 4033117704 CERAMIC 4700P K 25V 09021 407 198 9905 DIODE 727 C2014 4033329503 CERAMIC 10 6 3V 09022 407 198 9905 DIODE MA727 C2015 4033329503 CERAMIC 10 63V CRYSTAL DEVICES C2016 403 332 9503 CERAMIC 1UM 6 3V X1701 645 0256004 OSC CRYSTAL 3 579545MHZ VPC X360 ONLY 02017 4031552101 CERAMIC 1500 50V X1701 645 0300431 OSC CRYSTAL 4 433619MHZ 02018 4033329503 CERAMIC 1UM 6 3V EXCEPT VPC X360 C2019 403 334 3806 CERAMIC 10UK 6 3V IND
23. 4 9006 T GLAZE 10K JA 1 16W C1105 403 155 1807 CERAMIC 0 010 25V R1327 401 226 1503 T GLAZE 0 000 ZA 1 16W C1106 403 285 6802 TA SOLID 10 6 3V R1328 401 226 1503 T GLAZE 0 000 ZA 1 16W C1109 403 309 8102 CERAMIC 5 50V VPC X360 ONLY 1329 401 225 1405 T GLAZE 47K JA 1 16W C1109 40330982011 CERAMIC BPD 50V EXCEPT VPC X360 R1400 401 105 7909 T GLAZE 0 000 ZA 1 16W C1111 403 3098102 CERAMIC 5 50V VPC X360 ONLY R1401 401 224 9006 T GLAZE 10K JA 1 16W C1111 4033098201 CERAMIC 6PD 50V EXCEPT VPC X360 R1404 401 225 1207 T GLAZE 4 7K JA 1 16W C1211 4033236207 CERAMIC 10 10V R1406 4012586606 T GLAZE 10K DC 1 16W C1310 403312 6805 CERAMIC 0102 16V R1407 401 224 9006 T GLAZE 10K JA 1 16W C1311 403 164 0204 CERAMIC 0102 25V 1408 401 224 9006 T GLAZE 10K JA 1 16W C1312 4031640204 CERAMIC 0102 25V 1409 401 224 9600 T GLAZE 2 7 1 16W C1313 403 1640204 CERAMIC 0102 25V 1411 401 224 9006 T GLAZE 10K JA 1 16W C1314 4031640204 CERAMIC 0102 25V R1419 401 224 9006 T GLAZE 10K JA 1 16W C1320 4033223504 CERAMIC 2207 10V 1420 401 224 9006 T GLAZE 10K JA 1 16W C1321 403 323 6009 CERAMIC 10UM 16V R1507 401 263 9609 91 DD 1 16W C1401 403 3126805 CERAMIC 0107 16V 1508 401 263 9609 MT GLAZE 91 DD 1 16W C1402 40331481044 5000 33UM 6 3V R1509 401 262 2908 T GLAZE 220 DC 1 16W C1403 403312 6805 CERAMIC 0107 16V R1510 4012262401 T GLAZE 560 JA 1 16W C1450 4032070307 CERAMIC 102 16V R1512 401 225 3805 T GLAZE 1 5K 1 16W
24. 403 3126805 CERAMIC 0102 16V R9023 401 224 9907 T GLAZE 22K 1 16W C9030 403 296 8000 TA SOLID 22UM 10V R9024 401 240 9004 T GLAZE 3 9 JA 1 16W C9031 403 3113409 CERAMIC 0 01UK 16V R9025 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9032 403 3126805 CERAMIC 0 102 16V R9026 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9033 403 3126805 CERAMIC 0107 16V R9027 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9034 403 3126805 CERAMIC 0102 16V R9028 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9035 403 325 7608 CERAMIC 1UK 16V R9029 401 224 8801 T GLAZE 100 JA 1 16W C9036 403 3113409 CERAMIC 0 01UK 16V R9031 401 225 1504 T GLAZE 3 9K JA 1 16W C9037 403 283 6309 CERAMIC 1UZ 10V R9032 401 262 1208 T GLAZE 82K DC 1 16W C9038 403 283 6309 CERAMIC 1UZ 10V R9033 401 225 0309 MT GLAZE 33JA1 16W C9039 403 311 3409 CERAMIC 0 010 16V R9034 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9040 403 3113409 CERAMIC 0 010 16V R9035 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9041 403 3126805 CERAMIC 0102 16V R9038 401 224 9402 T GLAZE 1 0 JA 1 16W 09042 403 283 6309 CERAMIC 1UZ 10V R9040 401 224 9006 T GLAZE 10K JA 1 16W C9043 403 283 6309 CERAMIC 1UZ 10V R9041 401 225 0200 T GLAZE 3 3K 1 16W C9044 403 3113409 CERAMIC 0 01UK 16V R9042 401 2249303 MT GLAZE 1KJA1 16W C9046 403 3126805 CERAMIC 0107 16V R9050 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9047 403 3126805 CERAMIC 0107 16V R9051 401 226 1503 IT GLAZE 0 000 ZA 1 16W C9048 403 296 1308 TA SOLID 10UM 20V R9052 401 226 1503 IT GLAZE 0 000 ZA 1
25. 4033126805 CERAMIC 0102 16V R1062 401 226 1503 T GLAZE 0 000 ZA 1 16W C1051 4033343806 CERAMIC 10UK 6 3V 1063 401 105 7909 T GLAZE 0 000 ZA 1 16W C1052 403312 6805 CERAMIC 0102 16V 1069 401 235 2102 MT GLAZE 82 JA 1 16W C1053 403312 6805 CERAMIC 0107 16V R1071 401 262 2106 T GLAZE 680 DC 1 16W C1054 403312 6805 CERAMIC 0 104 16V R1075 4012249006 T GLAZE 10K JA 1 16W C1055 403312 6805 CERAMIC 0 104 16V 1090 401 224 9006 T GLAZE 10K JA 1 16W C1056 4033126805 CERAMIC 0 02 16V R1091 401 224 9006 T GLAZE 10K JA 1 16W C1060 403 283 6309 CERAMIC 102 10V 1092 401 224 9006 T GLAZE 10K JA 1 16W C1061 4033126003 CERAMIC 39P J 50V 81099 401 224 9006 T GLAZE 10K JA 1 16W C1070 4031133805 CERAMIC 1000 50V 1102 401 224 8801 T GLAZE 100 JA 1 16W C1071 403 3126805 CERAMIC 0102 16V R1104 401 037 5004 T GLAZE 0 000 ZA 1 10W C1072 4033126805 CERAMIC 0107 16V 1106 401 226 1503 T GLAZE 0 000 ZA 1 16W EXCEPT 360 C1090 4033114505 CERAMIC 1000 50V R1212 401 225 8107 MT GLAZE 10 1 16W 1091 4033114505 CERAMIC 1000 50V 1213 401 037 5004 T GLAZE 0 000 ZA 1 10W C1092 4033114505 CERAMIC 1000 50V 81322 401 226 1503 T GLAZE 0 000 ZA 1 16W C1101 4031551807 CERAMIC 0 010 25V R1323 401 226 1503 T GLAZE 0 000 ZA 1 16W C1102 4033098409 CERAMIC 10PD 50V 81324 401 226 1503 T GLAZE 0 000 ZA 1 16W C1103 4033438700 CERAMIC 1UM 12V 1325 401 226 1503 T GLAZE 0 000 ZA 1 16W C1104 4031551807 CERAMIC 0 010 25V R1326 401 22
26. 6 401225 1405 MT GLAZE 47K 1 16W JK501 645 027 7030 SOCKET DC DC JACK R5027 4012251405 MT GLAZE 47KJA1 16W CONNECTORS 85028 401225 1405 MT GLAZE 47K 1 16W CN501 645 005 6932 PLUG SIDE ZR SM3 N S P R5029 4012248900 MT GLAZE 100K 1 16W CN502 645 0099892 SOCKET PWB PWB 30 5 R5030 401 2620706 MT GLAZE 39K DC 1 16W CN503 636 055 8939 ASSY WIRE BAT amp PW1 SR662 N S P R5031 4012252105 01 7 12KJA1 16W R5032 401 226 2401 T GLAZE 560 1 16W COMPL PWB TB 1 R5033 401 224 9501 T GLAZE 2 2K 1 16W 636 055 4306 R5034 4012248900 MT GLAZE 100K 1 16W R5035 4012611508 MT GLAZE 4 3K JA 1 16W SWITCH 5036 401 225 8701 T GLAZE 120K 1 16W R5039 401235 1402 MT GALZE 12KJA1 16W SEN 85040 4012249006 MT GLAZE 10K 1 16W R5041 4010379101 MT GLAZE 180 JA 110 COMPL PWB TB 2 R5042 4012621000 MT GLAZE 33K DC 1 16W 636 055 4313 R5043 4012693908 MT GLAZE 4 7K DC 1 16W R5044 4012248900 MT GLAZE 100K 1 16W R5045 4012248900 MT GLAZE 100K 1 16W 56002 645 032 8442 SWITCH FT R5048 401 224 9501 T GLAZE 2 2K 1 16W 85049 401 224 8900 T GLAZE 100K 1 16W COMPL PWB SY 1 R5050 4012248900 MT GLAZE 100K JA 1 16W 636 055 4283 R5051 401 224 9501 T GLAZE 2 2K 1 16W R5052 4012250705 MT GLAZE 56 1 16W SEMICONDUCTORS R5054 401 224 9303 MT GLAZE 1KJA1 16W 03001 405 0786105 TR2SA1677 R5057 4012249303 MT GLAZE 1 1 16
27. 6 T GLAZE 10K JA 1 16W Q1301 Pit R1713 401 224 9006 T GLAZE 10K JA 1 16W 01402 405 129 2001 TR UMH2N R1714 401 262 1901 T GLAZE 6 8K DC 1 16W Q1501 4051292100 TRUMTIN R1715 401 275 2001 T GLAZE 30K DC 1 16W 01502 4051292308 TRUMZIN R1718 401 228 4502 T GLAZE 2 2 JA 1 16W OR 4051064806 XP4601 R1725 401 225 0507 T GLAZE 33K JA 1 16W Q1503 4051292308 TR UMZIN R1726 401 2249303 MT GLAZE 1KJA1 16W OR 4051064806 XP4601 R1727 401 224 9006 T GLAZE 10K JA 1 16W Q1601 4051156907 TR DTC114EE R1743 401 257 4108 T GLAZE 100K DC 1 16W OR 4051028303 2SA1745 6 R1744 401 264 0001 T GLAZE 36K 1 16W Q9501 405 115 7201 TR DTC144EE R1767 401 275 2001 IT GLAZE 30K DC 1 16W INTEGRATED CIRCUITS R1768 401 262 0607 T GLAZE 22K DC 1 16W IC101 IC LC98500AT RF8 N S P 1775 401 263 1702 MT GLAZE 1 2K DC 1 16W IC106 409441 5306 M2V64S40BTP 10 R2010 401 225 1207 T GLAZE 4 7K 1 16W IC111 409 459 3202 1 589 R2011 4012250408 UMTGLAZE 330K JA 1 16W C121 4094638101 IC 25101662A EXCEPT VPC X360 IC21 4094685402 IC 25103662AN VPC X360 ONLY R2013 401 225 8503 IT GLAZE 1 8K JA 1 16W 1 131 409 412 4109 IC ADM3202ARU R2014 401 225 8503 T GLAZE 1 8K JA 1 16W IC132 4102983605 S 8324A50MC EPE R2015 401 226 1503 IT GLAZE 0 000 ZA 1 16W IC141 409 435 6906 IC SN74LV245AP R2016 401 224 9006 T GLAZE 10K 1 16W IC143 4091525602 1 TC7S32F R2017 401 224 9303 MT GLAZE 1K JA 1 16W IC144 409 407 0703 IC PST
28. 6W R5007 4012248900 MT GLAZE 100KJA1 16W R5414 4012249303 MT GLAZE 1 1 16W R5008 4012622304 MT GLAZE 1 0K DC 1 16W 85417 402078 4407 MT GLAZE 10MFKG 1 8W R5009 4012249006 MT GLAZE 10KJA1 16W R5418 4012265402 MT GLAZE 56 1 16W R5010 4012248801 T GLAZE 100 JA 1 16W R5419 4012621208 MT GLAZE 82K DC 1 16W R5011 401225 1702 MT GLAZE 39K 1 16W R5422 4020790200 MT GLAZE 220K JKG 1 8W R5013 401235 1402 MT GALZE 12KJA1 16W R5423 4012250309 MT GLAZE 33 1 16W R5014 401 261 1508 MT GLAZE 4 3K JA 1 16W R5424 4012265402 MT GLAZE 56JA1 16W R5015 4012249006 MT GLAZE 10KJA1 16W R5425 4020777409 MT GLAZE 100K JKG 1 8W R5016 4010388400 MT GLAZE 62 1 10W R5426 4012259005 01 7 470K 1 16W R5017 4012521000 MT GLAZE 33K DC 1 16W R5429 4012249006 MT GLAZE 10KJA 1 16W R5018 401 262 1703 01 7 2 7K DC 1 16W R5470 401224 9303 MT GLAZE 1KJA1 16W R5019 401 262 1307 MT GLAZE 24K DC 1 16W PROTECTORS R5020 4012752001 T GLAZE 30K DC 1 16W 501 N 645 029 2408 2A 24V R5021 4012621000 MT GLAZE 33K DC 1 16W PR502 N 645 029 2408 PROTECTOR IC 2A 24V R5022 4012631900 MT GLAZE 3 3K DC 1 16W PR503 645 029 2378 1 5 32V R5023 4010388400 MT GLAZE 62JA1 10W PR504 0292378 1 5 32V 85024 4012249006 MT GLAZE 10K 1 16W PR505 645 029 2378 1 5A 32V R5025 4012351402 MT GALZE 12KJA1 16W JACK R502
29. 6W R1011 4012257902 MT GLAZE 220 1 16W R9502 401 226 2401 T GLAZE 560 1 16W 1013 401 225 7902 MT GLAZE 220 1 16W 89503 401 224 9303 MT GLAZE 1 1 16W LOCATION PARTS NO DESCRIPTION LOCATION PARTS NO DESCRIPTION SWITCH D5407 407 151 4701 DIODE 155301 51 1001 645 023 0844 SWITCH PUSH 1P 1TX1 OR 407 130 4401 DIODE DAN202U CONNECTORS OR 4071347408 DIODE MA141WK CN101 645 036 7489 SOCKET PWB PWB 40 5 OR 407 106 1601 DEODE DCG015 CN102 645 030 6655 SOCKET PWB PWB 50 N S P D5410 407 151 4701 DIODE 155301 51 CN103 645 035 5387 PLUG PWB PWB N S P OR 407 130 4401 DIODE DAN202U CN106 6450355400 PLUG PWB PWB N S P OR 4071347408 DIODE MA141WK 141 645 0240706 SOCKET CARD 22P N S P OR 407 106 1601 DEODE DCG015 CN951 645 006 4647 PLUG 2P N S P VARIABLE RESISTORS MISCELLANEOUS VR501 6450282249 VR SEMI 3 3K S Y1001 4111741708 _ SCR S TPG PAN PCS 1 7 3 5 SMART MEDIA VR502 645028 2201 VR SEMI 2 2K S Y1101 636 056 0826 SHIELD CASE CA2 SIDE B VR503 645 028 2201 VR SEMI 2 2K S Y1102 636 056 0963 SPACER CA2 SIDE B SR662 VR504 6450195143 S VR505 6450195143 S COMPL PWB PW 1 VR506 6450195143 S INDUCTORS FRI L5002 645 037 1530 INDUCTOR 47U L5003 645 037 1530 INDUCTOR 47UK Q5001 ina sii ee R L5004 645 037 1530 INDUCTOR 47U K Q5002 4051483904 TR CPH3209 L5005 645 037 060
30. 9 MT GLAZE 33 JA 1 16W 11301 6450100987 INDUCTOR 100U K R1020 4012257902 T GLAZE 220 JA 1 16W L1501 645 004 1990 INDUCTOR 47U R1021 401 225 7902 T GLAZE 220 JA 1 16W L1502 645 004 2409 INDUCTOR 33U J 1022 401 225 7902 T GLAZE 220 1 16W 11601 645 016 0349 INDUCTOR 600 OHM R1023 401 225 7902 T GLAZE 220 1 16W 1602 645 016 0349 INDUCTOR 600 OHM 1024 401 225 7902 T GLAZE 220 1 16W CAPACITORS 1025 401 225 7902 T GLAZE 220 1 16W C1030 403312 6805 CERAMIC 0 104 16V 1026 401 225 7902 T GLAZE 220 JA 1 16W C1081 4033126805 CERAMIC 0102 16V 1030 401 225 0705 T GLAZE 56K JA 1 16W C1032 4033126805 CERAMIC 0 104 16V R1036 401 226 1503 T GLAZE 0 000 ZA 1 16W C1033 403312 6805 CERAMIC 0 1UZ 16V R1037 401 226 1503 T GLAZE 0 000 ZA 1 16W C1034 403312 6805 CERAMIC 0107 16V R1038 401 226 1503 T GLAZE 0 000 ZA 1 16W C1035 403312 6805 CERAMIC 0 104 16V 1039 401 226 1503 T GLAZE 0 000 ZA 1 16W C1036 403312 6805 CERAMIC 0 104 16V R1052 4012621604 T GLAZE 2 2K DC 1 16W C1037 403312 6805 CERAMIC 0102 16V R1053 401 262 2304 T GLAZE 1 0K DC 1 16W C1038 4033126805 CERAMIC 0107 16V R1054 401 262 1604 T GLAZE 2 2K DC 1 16W C1039 403312 6805 CERAMIC 0 104 16V R1055 401 262 2304 T GLAZE 1 0K DC 1 16W C1040 4033126805 CERAMIC 0102 16V 1056 401 262 2809 T GLAZE 200 DC 1 16W C1041 4033126805 CERAMIC 0102 16V R1057 401 262 2205 T GLAZE 820 DC 1 16W C1042 4033126805 CERAMIC 0 1UZ 16V 1058 401 262 2809 T GLAZE 200 DC 1 16W C1046
31. 9128NR R2018 401 2249303 1KJA1 16W IC145 4094070505 IC TK11331BM R2019 401 224 9204 T GLAZE 15K JA 1 16W IC152 409 427 4101 IC TK15405M R2020 401 2249303 1KJA1 16W 2153 409 3685809 1 TC7SHO8FU R2021 401 224 9006 IT GLAZE 10K JA 1 16W IC161 409 407 0505 IC TK11331BM R2022 401 224 9006 T GLAZE 10K 1 16W DIODES R2023 401 226 1503 IT GLAZE 0 000 ZA 1 16W R2024 401 224 9006 T GLAZE 10K JA 1 16W D nu Dio ed a R2025 401 226 1503 IT GLAZE 0 000 ZA 1 16W D1501 407 109 4609 DIODE MA728 R9010 401 267 3207 T GLAZE 330 DC 1 16W D1601 407 1347408 DIODE MA141WK R9011 401 262 1604 IT GLAZE 2 2K DC 1 16W D1601 407 130 4401 DIODE DAN202U R9012 401 224 9006 T GLAZE 10K JA 1 16W D9501 407 092 9506 DIODE SB07 03C i 401 037 5004 DOE 0 000 2 EN CRYSTAL DEVICES 9016 401 226 1503 0 000 ZA 1 16 R9018 401 224 9402 T GLAZE 10M JA 1 16W X1101 645 023 3951 OSC CRYSTAL 14 31818MHZ VPC X360 ONLY LOCATION PARTS NO DESCRIPTION LOCATION PARTS NO DESCRIPTION X1101 645 024 0461 OSC CRYSTAL 17 734476MHZ R1014 401 225 7902 MT GLAZE 220 116 EXCEPT 360 1015 401 225 0309 MT GLAZE 33 JA 1 16W INDUCTORS 1016 401 225 0309 MT GLAZE 33 JA 1 16W L1101 645 016 0363 INDUCTOR 600 OHM R1017 401 225 0309 01 2 33 JA 1 16W 11103 645 038 2161 INDUCTOR 120 OHM 1018 401 225 0309 MT GLAZE 33 JA 1 16W 1105 645 020 1899 INDUCTOR 68 OHM 1019 401 225 030
32. AMIC 10UM 10V Q5022 405 115 6907 TR DTC114EE 5006 403 3114505 CERAMIC 1000 50V 05024 405 129 2308 UMZ1N 5007 403 314 7404 CERAMIC 3300PK 50V 05025 405 129 2902 UMH11N C5008 403 340 3906 CERAMIC 1UM 6 3V 05026 405 1292308 TRUMZIN C5009 403 3351405 CERAMIC 10UK 6 3V 05027 405 1293008 TR UMD2N C5010 403 325 7608 CERAMIC 1UK 16V Q5028 405 129 8409 TR UMC2N C5011 403 323 6009 CERAMIC 10UM 16V Q5029 4051293008 TR UMD2N C5012 403 325 7608 CERAMIC 1UK 16V Q5030 405 129 3008 TR UMD2N C5014 403 340 3906 CERAMIC 1UM 6 3V 05031 405 129 2308 TRUMZIN C5015 4033384403 CERAMIC 0 1UK 16V Q5032 405 129 3008 TR UMD2N C5016 403 340 3906 CERAMIC 1UM 6 3V Q5033 405 130 1109 TRUMYIN C5017 403 3193005 CERAMIC 220 25V Q5401 4051157508 TR DTC123JE C5018 4033193005 CERAMIC 220PJ 25V Q5402 405 115 6907 TR DTC114EE C5021 403 345 3000 POS SOLID 470 6 3V Q5405 4051506608 210 C5022 403 345 3901 CERAMIC 3 3U M 6 3V Q5406 405 1505002 109 C5027 403 340 3906 CERAMIC 1UM 6 3V Q5407 405 115 5207 TR 25 4617 05029 403 335 1405 CERAMIC 10UK 6 3V Q5409 405 151 9504 CY20AAJ 8 C5030 403 335 1405 CERAMIC 10UK 6 3V INTEGRATED CIRCUITS C5031 403 340 3906 CERAMIC 1UM 6 3V IC501 409 4178300 IC LA5627W C5032 4033115403 CERAMIC 82PJ 50V 503 409 301 5507 IC TC7S08FU C5033 403 311 7704 CERAMIC 4700P K 25V sue sue ne mum nu de oa 5 C5041 4031551807 CERAMIC 0 01UK 25V D5003 407 201 2701 DIODE 0511 40 05042 403
33. C3009 4033462309 CERAMIC 0 1UK 10V ACCESSORIES 3051 403274 0903 TA SOLID 22UM 6 3V C3053 4033462309 CERAMIC 0 1UK 10V 07 ONLY C3054 4033403906 CERAMIC 1UM 63V 645 037 03 CHAGER EXCEPT 360 C3055 403 3462309 CERAMIC 10V A 6450370205 BATTERY RECHARGE COMP NI MH BATTERY 08056 4033462309 CERAMIC 10V i oh 2 CARTE MNI 8P amp D SUB 9P MAC ADAPTER C3057 4033344902 DL ELECT 0 1 2 5 5V 403 34 ER gt 645 020 3718 CABLE MINI 8P amp D SUB 9P MAC ADAPTER oe ee 645 0203725 CABLE MINI 8P amp D SUB 9P MAC ADAPTER C3101 403073 4409 CERAMIC 0 039UK 50V C3102 4033351405 CERAMIC 10UK 63V 6450207129 8P amp D SUB 9P MAC ADAPTER C3103 4033113409 CERAMIC 0 010 16V 645 023 3227 CABLE PC DOS V C3104 4033113409 CERAMIC 0 010 16V 645 025 5403 CABLE PC DOS V C3106 4033403906 CERAMIC 10 63V e 5 EE ONLY C3121 4033351405 CERAMIC 10UK 6 3V Oro prse onu C3124 4033403906 CERAMIC 1UM 6 3V CHEM TU C3125 4033403906 CERAMIC 1UM 63V 645 0364112 CORD POWER 1 9MK VPC X360 ONLY 63127 4033403906 CERAMIC UM 63V 6450379796 DISC CD ROM CELIS 662 W C3128 4033403906 CERAMIC 1UM 63V pesti DISC CD ROM MGL d C3129 403335 1405 CERAMIC 10UK 6 3V 630 096100777 SILA HAND ond RESISTORS 6450265297 UNIT SSFDC R3002 401225 1405 MT GLAZE 47K 1 16W VPC X360E ONLY R3004 401 225 0408 MT GLAZE 330K 1
34. FILE NO SERVICE MANUAL Color Digital Camera VPC X360E Product Code 126 251 01 U K VPC X360EX Product Code 126 251 02 Europe PAL General VPC X360 Product Code 126 251 03 U S A Canada Contents 1 OUTLINE OF CIRCUIT DESCRIPTION 2 2 0 5 55 dre o eee 12 3 ELECTRICAL ADJUSTMENT 15 4 TROUBLESHOOTING GUIDE 20 5 eie 21 CABINET AND CHASSIS PARTS 1 21 CABINET AND CHASSIS PARTS 2 22 ELECTRICAL PARTS 23 ACCESSORIES onse 28 PACKING MATERIALS eee 28 CIRCUIT DIAGRAM Refer to the separate volume PRODUCT SAFETY NOTICE The components designated by a symbol in this schematic diagram designates components whose value are of special significance to product safety Should any component designated by a symbol need to be replaced use only the part designated in the Parts List Do not deviate from the resistance wattage and voltage ratings shown CAUTION Danger of explosion if battery is incorrectly replaced Replace only with the same or equivalent type recommended by the manufacturer Discard used batteries according to the manufacturer s instructions NOTE 1 Parts order must contain model number par
35. GND CN901 CN102 GND 1 1 GND GND 2 2 GND ADO 3 3 ADO ADI 4 4 ADI AD2 5 5 AD2 AD3 6 6 AD3 AD4 7 7 ADA ADS 8 8 ADS 06 E 06 ADI 10 10 ADT ADE m 1 ADE ADI 12 12 ADS ADCK 13 13 ADCK GND 14 14 GND GND 5 15 GND GND 16 14 7 GND GND 17 17 GND GND se 60 19 19 _ 315VA 20 20 315VA 5VA 21 21 5VA 7 22 22 7 5 3 3VCCDS 3 23 13 3 06 gt GND 24 24 GND GND 2 GND GND 8 26 GND GND 27 27 GND 3 3V CDS 28 2e 3 3VCCDS 7 29 24 7 5 5VA 5VA 15VA 31 15VA XCPDM 32 32 33 33 PBLK 34 34 PBLK XSHD s 3 XSHP 36 36 5 XRG 37 37 XRG XH2 8 2 39 39 XH1 X562 40 40 X562 XV4 41 41 XSGI e 561 XVI 43 43 la XV3 145 45 XV2 XSUB 46 46 XSUB GND arl a GND AGC jas zo GND ja z GND GND 50 50 GND 951 TB1 SW UNIT TB2
36. T USED P A ON DC DC converter analog ON OFF signal ON P ON DC DC converter digital ON OFF signal DIN CONNECT DIN jack connect detection signal Connection NOT USED AV JACK output cable connection detection signal Connection SI Serial communication data input ASIC SO Serial communication data output ASIC SCK Serial communication clock output 510 IC Connect to Vss XOUT Main clock oscillation terminal 4 MHz XIN Main clock oscillation terminal VDD Power supply terminal XCIN Sub clock oscillation terminal 32 768 kHz XCOUT Sub clock oscillation terminal RESET Reset input BAT OFF Battery OFF detection signal OFF RXD RS 232C RXD input terminal S REQ Serial communication request signal Request NOT USED SCAN OUT 0 2 Key matrix output NOT USED LCD ON LCD monitor power ON OFF signal ON ASIC TEST 0 ASIC reset control signal ASIC RESET ASIC reset signal Reset output ASIC TEST 1 ASIC reset control signal AVSS A D converter GND power terminal BATTERY Battery voltage input analog input Table 4 1 8 bit Microprocessor Port Specification 9 2 Internal Communication Bus The SY1 circuit board carries out overall control of camera operation by detecting the input
37. TION LOCATION PARTS NO DESCRIPTION 1702 4033329503 CERAMIC 1UM 6 3V 703 4033114505 CERAMIC 1000 50V 705 4033126003 CERAMIC 39PJ 50V 706 4033193005 CERAMIC 220 25V 707 4033113409 CERAMIC 0 010 16V COMPL PWB CA 1 636 055 4252 360 ONLY 636 056 2431 EXCEPT VPC X360 EMICONDUCTOR Q1701 1025609 OR ASDI8I9A R 708 4032070307 CERAMIC 102 16V OR 4050924101 TR2SC4081 R 709 4031577302 CERAMIC 6800 50V 710 403332 9503 CERAMIC 1UM 6 3V 711 403 283 6309 CERAMIC 104 10V 712 403332 9503 CERAMIC 1UM 6 3V Q1702 405 115 6907 TR DTC114EE 01707 405 1025500 TR2SB1218A R R 4 2 42 28A1576 R pe Te 20 714 403 311 3409 CERAMIC 0 010 16V OR 405 092 4101 TR 25 4081 715 4033113409 CERAMIC 0 010 16V 717 4033223504 CERAMIC 2207 10V 718 403338 0405 CERAMIC 0 470 25V 719 4033380405 CERAMIC 0 470 25V 02002 405 131 3607 _ TRDTA144EUA 02003 4051025609 25 1819 4 2 4101 TR 25 4081 ne 25 Hi TR RR 720 403 338 0405 CERAMIC 0 470 25V OR 405 079 6302 TR 25 4399 5 721 403 338 0405 CERAMIC 0 47 25V 722 4032836309 CERAMIC 1027 10V SR ANE MEUM 723 4033329503 CERAMIC 1UM 6 3V 09007 405 1292308 TR UMZIN R 405 106 4 TR XP4601 724 4033098607 CERAMIC 18 50V EXCEPT VPC X360 CARA 13 im ps TR ARD SNR 724 403311 4505 CERAMIC 1000P K 50V VPC X360 ONLY OR 405 092 4101 25 4081 726 4032070307 CERAMIC 104 16V INTEGRATED CIRCUITS 727 40
38. UCTORS C9003 403315 6406 CERAMIC 180 25V L1701 6450211607 INDUCTOR 10U J C9004 403 320 5203 CERAMIC 0 330 16V 1702 645 021 1607 INDUCTOR 10U J 09005 403207 0307 CERAMIC 102 16V 1703 645 020 1868 INDUCTOR 750 OHM 09006 4033113409 CERAMIC 0 01UK 16V L1704 645 0202070 INDUCTOR 750 OHM 09007 4033126805 CERAMIC 0 102 16V L1705 645 0201875 1500 OHM C9008 4031551807 CERAMIC 0 01UK 25V L1706 645 020 1868 INDUCTOR 750 OHM 09010 4033205500 CERAMIC 102 25V 1707 6450148064 INDUCTOR 120 OHM C9012 4033205500 CERAMIC 102 25V L1708 645 0202070 INDUCTOR 750 OHM C9013 403311 3409 CERAMIC 0 01UK 16V L1709 6450202070 INDUCTOR 750 OHM C9014 403311 7605 CERAMIC 2200 50V L9001 645 001 4512 INDUCTOR 10U K C9016 403 068 0409 CERAMIC 0102 25V L9010 6450201875 INDUCTOR 1500 OHM C9018 4033113409 CERAMIC 0 01UK 16V 19010 6450201882 INDUCTOR 1800 OHM 09019 4033205500 CERAMIC 102 25V CAPACITORS C9020 4033115809 CERAMIC 47 50V C1700 4033126805 CERAMIC 0 102 16V C9021 403 1640204 CERAMIC 0 102 25V LOCATION PARTS NO DESCRIPTION LOCATION PARTS NO DESCRIPTION C9022 403 3126805 CERAMIC 0102 16V R9019 401 225 2006 T GLAZE 680 JA 1 16W C9023 403 3205302 CERAMIC 0 15UK 25V R9020 401 224 8900 T GLAZE 100K JA 1 16W C9025 403 3126805 CERAMIC 0107 16V R9021 401 105 7909 IT GLAZE 0 000 ZA 1 16W C9026 403 3126805 CERAMIC 0107 16V R9022 401 224 8900 T GLAZE 100K JA 1 16W C9029
39. W OR 405 096 1205 TRDTAT24EU R5058 4012611508 MT GLAZE 4 3K JA 1 16W OR 4051191007 TR UN5112 R5059 4010375400 MT GLAZE 1KJA1 10W 03002 4050786105 TR 2SA1677 R5060 4012248900 MT GLAZE 100KJA1 16W OR 405 096 1205 TR DTA124EU R5061 4012749704 MT GLAZE 24K DC 1 16W OR 4051191007 UN5112 R5062 4012249402 MT GLAZE 1 0M JA 1 16W 03003 405115 7201 TRDTCIA4EE R5063 4012249402 MT GLAZE 1 0M 1 16W 03071 4051292209 UMXIN R5064 4012631702 MT GLAZE 12K DC 1 16W OR 4051064707 4501 R5065 4012589102 MT GLAZE 5 6K DC 1 16W Q3072 4051292209 R5066 401 2589300 220K DC 1 16W OR 405 106 4707 4501 R5067 4012580406 MT GLAZE 120K DC 1 16W INTEGRATED CIRCUITS R5068 4012249402 MT GLAZE 1 0M JA 1 16W 10301 410356 1307 IC UPD78062GC A19 8EU R5069 4012622304 MT GLAZE 1 0K DC 1 16W 10302 4093831008 S 8423NFS R5070 4012580406 MT GLAZE 120K DC 1 16W 10312 4094322505 IC LMV321M7X R5071 401 258 9300 01 7 220K DC 1 16W DIODES R5072 4012249402 MT GLAZE 1 0M JA 1 16W 03033 407 130 2605 DIODE MA143A R5073 4012580406 MT GLAZE 120K DC 1 16W OR 4071204503 DIODE DA204U T106 LOCATION PARTS NO DESCRIPTION LOCATION PARTS NO DESCRIPTION D3041 407 199 1809 LED SML 020MLT VF LED R3105 401 225 1207 T GLAZE 4 7K JA 1 16W 03042 4071876304 LED SML 110VT SELF TIMER LED R3106
40. e rate of V Q C by the equivalent capacitance C of the floating diffusion RG is then turned on again by the timing in 1 when the H1 potential becomes deep Thus the potential of the floating diffusion changes in proportion to the quantity of transferred electric charge and becomes CCD output after being received by the source follower The equivalent circuit for the output circuit is shown in Fig 1 6 H2 H1 HOG RG T PD our eL ed Floating diffusion 4 9 RE H2 H1 RG HOG 22 1 Ade CCD OUT RG pulse leak signal n lt Black level T 5 OUT i f _ Signal voltage 828 Fig 1 5 Horizontal Transfer of CCD Imager and Extraction of Signal Voltage Reset gate pulse 12V Pre charge drain PDO Direction of transfer H Register AA Electric charge Voltage output Floating diffusion gate is floated at a high impedance C is charged equivalently Fig 1 6 Theory of Signal Extraction Operation 1 2 CA2 CIRCUIT DESCRIPTION 1 Circuit Description 1 1 Scannning converter Interlace converter This circuit uses the function of a 64 Mbit SDRAMs to con vert the non interlaced signal which is output from the CCD into an interlaced signal for the video monitor 1 2 Camera signal processor This comprises circuits such as the digial clamp circuit white balance circuit y circu
41. from the keyboard and the condition of the camera circuits The 8 bit microprocessor reads the signals from each sensor element as input data and outputs this data to the camera circuits ASIC or to the LCD display device as operation mode setting data Fig 4 1 shows the internal commu nication between the 8 bit microprocessor and ASIC 8 bit microprocessor ASIC SCK RESET Fig 4 1 Internal Bus Communication System 3 Key Operaiton For details of the key operation refer to the instruction manual 0 1 2 A SHUTTER 1st SHUTTER 2nd CAMERA BARRIER CARD LID MODE Table 4 2 Key Operation 10 4 Power Supply Control The 8 bit microprocessor controls the power supply for the overall system The following is a description of how the power supply is turned on and off When the battery is attached a regulated 3 3 V voltage is normally input to the 8 bit microprocessor IC301 by IC303 so that clock counting and key scanning is carried out even when the power switch is turned off so that the camera can start up again When the battery is removed the 8 bit micro processor operates in sleep mode using the backup capacitor At this time the 8 bit microprocessor only carries out clock counting and waits in standby for the battery to be attached again When a switch is operated the 8 bit microprocessor supplies power to the system as required The 8 bit microprocess
42. h a frequency of approximately 50 100 kHz Because self excited light omis sion is used the oscillation frequency changes according to the drive conditions 1 4 Oscillation transformer The low voltage alternating current which is generated by the oscillation control circuit is converted to a high voltage alter nating current by the oscillation transformer 1 5 Rectifier circuit The high voltage alternating current which is generated at the secondary side of T5401 is rectified to produce a high voltage direct current and is accumulated at electrolytic ca pacitor C5412 on the main circuit board 1 6 Voltage monitoring circuit This circuit is used to maintain the voltage accumulated at C5412 at a constance level After the charging voltage is divided and converted to a lower voltage by R5417 and 5419 it is output to the SY1 circuit board as the monitoring voltage VMONIT When this VMONIT voltage reaches a specified level at the SY1 circuit board the CHG signal is switched to Low and charging is interrupted 2 Light Emission Circuit When RDY and TRIG signals are input from the ASIC expan sion port the stroboscope emits light 2 1 Emission control circuit When the RDY signal is input to the emission control circuit Q5409 switches on and preparation is made to let current flow to the light emitting element Moreover when a STOP signal is input the stroboscope stops emitting light 2 2 Trigger circuit When a TRIG
43. he notch on the camera s serial port Insert the connector 4 Locate a serial port on the back of your computer You may have two serial ports labeled COM1 and 2 or the ports may be labeled with icons If you have two serial ports available use port 1 to connect your camera 5 Line up the serial connector on the cable with one of the serial ports on your computer and insert the connector 6 Turn on the camera and your computer system AC adaptor 3 6 Adjust Specifications PW1 board Side A B VR501 VR502 CL524 CL515e 1554 VR504 1519 VR505 amp CL536 VR503 Note 1 Voltage adjustment is necessary to repair in the PW1 board and replace the parts CL530 2 Power voltage set about 3 0 V Preparation 1 Connect CN103 on the CA2 board and CN502 on the PW1 board with extension cord 2 Open the barrier switch LCD screen 1 IC501 Oscillation Frequency Adjustment Measuring Point Set the view mode and turn on the LCD 4 Carry out initialization and display the through image on the CL512 VR506 3 3 3 V D Voltage Adjustment Measuring Point CL533 or CL553 or CL519 Measuring Equipment Digital voltmeter ADJ Location VR502 ADJ Value Adjustment method Measuring Point 3 30 0 03 V 1 Adjust with VR502 to 3 30 0 03 V 4 12 4 V L Vol
44. it color signal generation circuit ma trix circuit and horizontal aperture circuit 1 Digital clamp circuit The optical black section of the CCD extracts 16 pixel aver aged values from the subsequent data to make the black level of the CCD output data uniform for each line The 16 pixel averaged value for each line is taken as the sum of the value for the previous line multiplied by the coefficient k and the value for the current line multiplied by the coefficient 1 k 2 White balance circuit This circuit controls the white balance by using the AWB judge ment value computed by the CPU to control the gain for each R G and B pixel based on the CCD data which has been read 3 y circuit This circuit performs gamma correction in order to maintain a linear relationship between the light input to the camera and the light output from the picture screen 4 Color generation circuit This circuit converts the CCD data into RGB signals 5 Matrix circuit This circuit generates the Y signals R Y signals and B Y sig nals from the RGB signals 6 Horizontal aperture circuit This circuit is used generate the aperture signal 1 3 SDRAM controller This circuit outputs address RAS CAS and AS data for con trolling the SDRAM It also refreshes the SDRAM 1 4 PIO The expansion parallel port can be used for functions such as stroboscope control and LCD driver control 1 5 SIO Serial control This is the interface for the 8 bit
45. microprocessor 1 6 TG SG block This is the timing generation circuit which generates the clocks vertical transfer clock and electronic shutter clock which drive the CCD 1 7 8 bit D A circuit Audio This circuit converts the audio signals analog signals from the microphone to 8 bit digital signals 1 8 8 bit A D circuit Audio The audio signals which were converted to digial form by the 8 bit A D circuit are temporarily to a sound buffer and then recorded in the SSFDC card During playback the 8 bit D A circuit converts these signals into analog audio signals 1 9 Sound buffer Audio memory 1 10 LCD driver The Y C signals which are input to the LCD driver are con verted to RGB signals and the timing signal which is neces sary for LCD monitor display and the RGB signals are then supplied to the LCD monitor 1 11 LCD monitor This is the image display device which displays the image signals supplied from the LCD driver 1 12 UART This circuit is used for transmitting serial data to a PC The interface is RS 232C compatible 1 13 SSFDC control This reads data from the SSFDC card and stores it in SDRAM and writes out the image data stored in SDRAM In addition error correction is carried out when the data is read 1 14 MJPEG compression Still and continuous frame data is converted to JPEG format and movie images are compressed and expanded in MJPEG format 2 Outline of Operation When the shutter o
46. on 32 kHz Sub clock operation Table 4 4 Host Mode Battery Operation 2 DISASSEMBLY 2 1 REMOVAL OF CABINET ASSEMBLY FRONT AND CABINET ASSEMBLY BACK 6 Screw 1 7 x 3 3 Back cabinet 7 5 10 2 Front cabinet 6 5 Cover jack 8 Screw 1 7 x 3 9 Two screws 1 7 4 SS 1 Two screws 1 7 x 4 4 Cover battery 2 2 REMOVAL OF SY1 BOARD TB2 BOARD AND TB1 BOARD 1 Two screws 1 7 x 3 7 TB2 board 6 Screw 1 7 x 3 11 TB1 board 2 3 REMOVAL OF LENS VF AND PW1 BOARD PI Two screws 1 7 x 3 a 2 Lens VF 4 Connector 5 Connector 3 Two screws 1 7x3 6 Three screws 7 Holder chassis PW1 2 4 REMOVAL OF LCD CA2 BOARD AND CA1 BOARD 8 Holder chassis CA2 9 CA2 board 3 Four screws 11 Holder d chassis P CA1 2 5 BOARD LOCATION CA2 board SY1 board TB2 board PW1 board 3 ELECTRICAL ADJUSTMENT 3 1 Table for Servicing Tools Part code VJ8 0007 Name Color viewer 5 100 K Siemens star chart VJ8 0166 VJ8 0151 Calibration software Extension cord Note J 1 color viewer is 100 110 VAC only J 2 Siemens star chart is the same as before models 3 2 Equipment 1 Oscilloscope 2 Digital voltmeter 3 AC adaptor 4 IBM compatible PC 5 DC regulated power supply 3 3 Adjustment Items and Order 1 1C501 Frequency Adjustment
47. or first sets both the P A ON signal at pin 70 and the P ON signal at pin 71 to low and then turns on the DC DC converter After this High signals are output from pin 97 so that the ASIC is set to the active condition If the LCD monitor is on the LCD ON signal at pin 95 set to Low and the DC DC converter for the LCD monitor is turned on ASIC RS232C CCD 8bit MODE LCD memory driver CPU LCD MONITOR 5V A 75V 32V 32V 5V L 15V 3 3 V 33V Power voltage 415 V etc ALWAYS ALWAYS 12V etc Lens cover close OFF OFF OFF 32KHz OFF OFF Power switch ON OFF OFF OFF 4MHz ON OFF Auto power down Shutter switch ON ON ON ON gt OFF 4MHz ON OFF Resolution Flash Self timer switch ON OFF 4MHz ON OFF LCD finder ON 4MHz ON ON Playback 4MHz Table 4 3 Camera Mode Battery Operation ASIC RS232C CCD 8bit MODE LCD memory Driver CPU LCD MONITOR 5V A 75V 32 3 2V 5 V L 412 V etc ALWAYS ALWAYS 12V etc Power voltage 3 3 V 3 3 V Lens cover close OFF OFF OFF 32 KHz OFF OFF Power switch ON OFF OFF OFF 4 MHz ON OFF Auto power down Take a picture ON ON OFF 4MHz ON OFF Erase image ON ON OFF 4 MHz ON OFF Download image ON ON OFF 4 MHz ON OFF Continuous image ON ON ON 4 MHz ON OFF Message from host ON ON ON 4 MHz ON OFF Note P SAVE Power save mode 4 MHz Main clock operati
48. pens the reset signals TESTO TEST1 and the serial signals take a picture commands from the 8 bit microprocessor are input and record operation starts When the TG drives the CCD picture data passes through the A D and is then input to the ASIC as 10 bit data This data then passes through the DCLP AWB shutter and y circuit after which it is input to the SDRAM The AWB shutter y and AGC value are computed from this data and two expo sures are made to obtain the optimum picture The data which has already been stored in the SDRAM is read by the CPU and color generation is carried out Each pixel is interpolated from the surrounding data as being either R G or B primary color data to produce R G and B data At this time correction of the lens distortion which is a characteristic of wide angle lenses is carried out Aperture correction is carried out and in case of still picture the data is then compressed by the JPEG method and in case of picture it is compressed by MJPEG method and is written to SSFDC card When the data is to be output to an external device it is read JPEG picture data from the SSFCD card and output to PC via the UART 3 LCD Block During EE gamma conversion is carried out for the 10 bit RGB data which is input from the A D conversion block of the CCD to the ASIC in order that the y revised can be displayed on the video The YUV of 640 x 480 is then transferred to the SVRAM The data which has accumulated in
49. signal is input to the trigger circuit D5405 switches on a high voltage pulse of several kilovolts is gen erated inside the trigger circuit and this pulse is then applied to the light emitting part 2 3 Light emitting element When the high voltage pulse form the trigger circuit is ap plied to the light emitting part currnet flows to the light emit ting element and light is emitted Beware of electric shocks 1 5 SY1 CIRCUIT DESCRIPTION 1 Configuration and Functions For the overall configuration of the SY1 circuit board refer to the block diagram The configuration of the SY1 circuit board centers around a 8 bit microprocessor IC301 The 8 bit microprocessor handles the following functions 1 Operation key input 2 Mode LCD display 3 Clock control 4 Power ON OFF 5 Storobe charge control Signal Outline CHG VOL Strobe charge voltage input analog input NOT USED SCAN IN 0 4 Key matrix input AVDD A D converter analog power terminal AVREF A D converter standard voltage input terminal STBY R LED Standby LED red ON OFF signal LED light STBY G LED Standby LED green ON OFF signal LED light VSS GND SELF LED R Self timer LED red ON OFF signal LED light NOT USED AVREF ON A D standard power ON OFF signal ON NOT USED CHG ON Flash charge ON OFF signal ON NOT USED VSS GND NO
50. t number and description 2 Substitute parts may be supplied as the service parts 3 N S P Not available as service parts Design and specification are subject to change without notice SR662 E EX U REFERENCE No SM5310090 1 OUTLINE OF CIRCUIT DESCRIPTION 1 1 CA 1 CIRCUIT DESCRIPTION 1 IC Configuration 1 903 ICX204AK 1C902 74VHCO4MTC 10904 CXD1267AN 905 AD9802 2 1C903 CCD Structure CCD imager H driver V driver CDS AGC A D converter Interline type CCD image sensor Optical size Effective pixels Pixels in total Chip size Unit cell size Optical black 1 3 inch format 1034 H x 779 V 1077 H x 788 V 5 80 mm H x 4 92 mm V 4 65 m x 4 65 m Horizontal H direction Front 3 pixels Rear 40 pixels Vertical V direction Dummy bit number Front 7 pixels Rear 2 pixels Horizontal 29 Vertical 1 Pin Description Features Independent storage and retrieval for each pixel Square pixel unit cell XGA compatible R G B primary color mosaic filter Continuous variable speed electronic shutter function Fig 1 1 Optical Black Location Top View Waveform Voltage Vertical shift register gate clock 7 5 V 0 V Vertical shift register gate clock 7 5 V 0 V 15 V Vertical shift register gate clock 7 5 Vertical shift register gate clock
51. tage Adjustment 1 CL524 or CL554 Measuring Equipment Digital voltmeter ADJ Location VR505 ADJ Value Adjustment method 1 Set the play mode Measuring Point 12 40 0 05 V 2 Adjust with VR505 to 12 40 0 05 V 5 12 4 V L Voltage Adjustment 2 CL524 or CL554 Measuring Equipment Digital voltmeter ADJ Location VR504 ADJ Value Adjustment method 12 40 0 05 V 1 Set the view mode and turn on the LCD 2 Adjust with VR504 to 12 40 0 05 V 6 5 8 V L Voltage Adjustment Measuring Point CL530 or CL536 Measuring Equipment Digital voltmeter ADJ Location VR506 ADJ Value Adjustment method 1 Adjust with VR506 to 5 80 0 05 V Measuring Equipment Frequency counter Adjustment method ADJ Location VR501 ADJ Value Adjustment method 200 1 kHz 1 Adjust with VR501 to 200 1 kHz 2 5 0 V D Voltage Adjustment Measuring Point CL515 the lens cover 5 80 0 05 V 7 CCD Defect Detect Adjustment 1 Set the camera mode and turn on the power switch to open 2 Double click on the DscCalV123b 3 Select CCD Defect on the LCD Test and click the Yes 4 After the adjustment is completed OK will display 5 Close the lens cover Measuring Equipment Digital voltmeter ADJ Location VR503 ADJ Value 5 10 0 05 V Adjustment method
52. ystem Power Output 5 V D 5 1 V A and 5 V L are output Feedback for the 5 V D is provided to the switching controller Pin 12 of IC501 so that PWM control can be carried out 5 Analog and LCD System Power Output 15 0 V A 7 5 V A 12 4 V L and 15 V L are output Feedback for the 15 0 V A with view mode and 12 4 V L with play mode is provided to the switching controller Pin 25 of C501 so that PWM control can be carried out 6 Backlight Power Supply output 5 8 V L is output Feedback is sent to pins 36 of the switch ing controller IC501 for PWM control to be carried out 1 4 PW1 STROBE CIRCUIT DESCRIPTION 1 Charging Circuit When UNREG power is supplied to the charge circuit and the CHG signal becomes High 3 3 V the charging circuit starts operating and the main electorolytic capacitor is charged with high voltage direct current However when the CHG signal is Low 0 V the charging circuit does not operate 1 1 Power switch When the CHG signal switches to Hi Q5406 turns ON and the charging circuit starts operating 1 2 Power supply filter L5401 and C5401 constitute the power supply filter They smooth out ripples in the current which accompany the switch ing of the oscillation transformer 1 3 Oscillation circuit This circuit generates an AC voltage pulse in order to in crease the UNREG power supply voltage when drops in cur rent occur This circuit generates a drive pulse wit
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