SERVICE MANUAL Digital Movie Camera VPC
Contents
1. 750 OHM 9450535414 IMPEDANCE 1000 OHM P 9450535414 IMPEDANCE 1000 OHM P 6450940521 IMPEDANCE 33 OHM P 6450687136 INDUCTOR 4 7U N 6450687136 INDUCTOR 4 7U N 6450862007 INDUCTOR2 0U M 6450841231 INDUCTOR 4 7U N 6450760150 INDUCTOR 6 8U N 6450910043 INDUCTORA 7U M 6450940521 IMPEDANCE 33 OHM P VARISTOR 308 050 1207 VARISTOR AVR M1608C120MT CAPACITORS 4034612000 CERAMIC 1UK 16V 303 3925500 CERAMIC 1UK 6 3V 3032761307 CERAMIC 1000PK 50V 303 3846409 CERAMIC 4 7UK 6 3V 303 338 0309 CERAMIC 0 1UK 10V 303 3846409 CERAMIC 470 6 3V 303 3818109 CERAMIC 1UK 6 3V 303 338 0309 CERAMIC 0 1UK 10V 303 3846409 CERAMIC 470 6 3V 303 3846409 CERAMIC 4 7UK 6 3V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 10 10V 303 338 0309 CERAMIC 0 1UK 10V 303 384 6409 CERAMIC 470 6 3V 303 3846409 CERAMIC 470 6 3V 303 338 0309 CERAMIC 0 1UK 10V 3033380309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V 303 338 0309 CERAMIC 0 1UK 10V LOCATION PARTS NO C1066 C1067 C1068 C1121 C1122 C1203 C1205 C1206 C1207 C1209 C1304 C1801 C1802 C1803 C1804 C1805 C1806 C1807 C1810 C1811 C1812 C1813 C1814 C1815 C1816 C1818 C3001 C3003 C3004 C3005 C3006 C3007 C3008 C30092. 5 TROUBLESHOOTING GUIDE POWER LOSS INOPERTIVE PUSH THE POWER SW FOR A WHILE IC301 14 HIGH KEY POWER INPUT LOW IC301 9 36 59 LOW VDD CHECK IC302 HIGH IC301 53 LOW RESET CHECK IC302 HIGH IC301 49 LOW s i CHECK IC302 BAT OFF HIGH ett Se CHECK X3002 OSCILLATION YES CHECK IC301 NO PICTURE IC101 AK20 XOUT MAIN CLOCK FOR SYSTEM OPERATION CHECK NO OPERATION IF ABSENT OSCILLATION CHECK X1102 OSCILLATOR INCORRECT HANDSHAKING BETWEEN 8 BIT CPU AND ASIC CHECK EACH INTERFACE IC301 63 64 ASIC_SO ASIC SI CHECK SOLDERING OF MEMORY EACH PIN TAKING INOPERATIVE PUSH SHUTTER BUTTON IC301 24 52 KEY INPUT CHECK UNIT SW IC501 D5 F6 PON Q5005 2 PON2 Q5004 1 PAON1 IC503 4 PAON2 LOW CHECK IC101 IC301 PWA BLOCK CAA BLOCK SERIAL CHECK IC301 COMMUNICATION CP1 DMA BLOCK CHECK CP1 DMA BLOCK 6 PARTS LIST DESCRIPTION CARTON INNER SG214 U VPC CG9BK VPC CG9 CARTON INNER SG214 EX VPC CG9EXBK VPC CG9GXBK VPC CG9EXW VPC CG9GXW VPC CG9EX VPC CG9GXP VPC 7CG9EXP CUSHION SHEET SX792 KRNK LABEL CARTON SILVER 817U2 VPC CG9EX VPC CG9 LABEL CARTON WHITE 719EX3 VPC CG9EXW VPC CG9GXW LABEL CARTON PINK 712EX3 VPC CG9GXP VPC CG9EXP LABEL SILVER MODEL 214 EX4 VPC CG9EX VPC CG9 LABEL WHITE MODEL 214 EX2 VPC CG9EXW VPC CG9GXW LABEL PINK MODEL 214 GX5 VPC CG9GXP VPC CG9E
3. China Australia Hong Kong Russia Middle East Africa General Korea Taiwan VPC CG9GXBK Product Code 168 137 04 South America China Australia Hong Kong General Korea Taiwan VPC CG9EXW Product Code 168 137 07 Europe U K South America China Australia Hong Kong Russia Middle East Africa General Korea Taiwan VPC CG9GXW Product Code 168 137 09 South America China Australia Hong Kong General Korea Taiwan VPC CG9EX Product Code 168 137 11 Europe U K South America China Australia Hong Kong Russia Middle East Africa General Korea Taiwan VPC CG9GXP Product Code 168 137 12 South America China Australia Hong Kong General Korea Taiwan VPC CG9 Product Code 168 137 18 U S A Canada VPC CG9EXP Product Code 168 137 19 Europe U K South America China Australia Hong Kong Russia Middle East Africa General Korea Taiwan REFERENCE No SM5310742 WARNING Do not use solder containing lead This product has been manufactured using lead free solder in order to help preserve the environment Because of this be sure to use lead free solder when carrying out repair work and never use solder containing lead Lead free solder has a melting point that is 30 40 C 86 104 F higher than solder containing lead and moreover it does not contain lead whic
4. C3011 C3012 C3013 C3014 C5001 C5003 C5004 C5005 C5006 C5007 C5009 C9021 C5024 C5031 C5032 C5033 C5036 C5037 C5064 C5071 C5072 C5073 C5074 C5101 C5102 C5105 C5106 C5107 C5108 C5109 C5110 C5111 C5112 C5301 C5302 C5303 C9004 C9005 C9006 C9007 C9008 C9009 C9010 303 338 0309 303 338 0309 303 338 0309 303 314 6400 303 314 6400 303 338 0309 303 338 0309 303 338 0309 303 384 6409 303 338 0309 303 433 1102 303 381 8109 303 320 0607 303 381 8109 303 381 8109 303 381 8109 303 381 8109 303 381 8109 303 384 6409 303 384 6409 303 381 8109 303 338 0309 303 381 8109 303 320 0607 303 381 8109 303 338 0309 303 391 0506 303 338 0309 303 338 0309 303 338 0309 303 381 8109 303 381 8109 303 276 1901 303 381 8109 303 338 0309 303 433 1102 303 381 8109 303 317 2300 303 338 0309 303 384 6409 303 320 0607 303 433 1102 303 338 0309 303 383 5007 303 381 8109 303 393 2607 303 276 1901 303 393 2607 303 279 5104 303 381 8109 303 376 9401 303 381 8109 303 376 9401 303 408 5500 303 383 5007 303 276 1000 303 376 9401 303 393 2607 303 393 2607 303 338 0309 303 344 0409 303 338 0309 303 320 0706 303 308 3408 303 276 2106 303 384 6409 303 384 6508 303 384 6508 303 381 6204 303 294 6100 303 338 0309 303 433 1102 303 376 9401 303 380 6601 303 433 1102 303 419 8903 303 294 6100 DESCRIPTION CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC
5. It generates chroma signal from color difference signal 2 Outline of Operation When the shutter opens the reset signals ASIC and CPU and the serial signals take a picture commands from the 8 bit microprocessor are input and operation starts The picture data from CMOS passes through the A D and CDS and is then input to the ASIC as digital data The AF AE AWB shutter and AGC value are computed from this data and three exposures 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 ei ther R G and 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 After AWB and y processing are carried out a matrix is generated and aperture correction is carried out for the Y signal and the data is then compressed by JPEG and is then written to card memory SD card When the data is to be output to an external device it is taken data from the memory and output via the USB I F When played back on the LCD and monitor data is transferred from memery to the SDRAM and the image is then elongated so that it is displayed over the SDRAM display area 3 LCD Block The LCD display circuit is located on the CP1 board and VF1 board and consists of components such as a power circuit
6. and VCOM control circuit The signals from the ASIC are 8 bit digital signals that is input to the LCD directly The 8 bit digital signals are con verted to RGB signals inside the LCD driver circuit The LCD is input signals from ASIC directly to the LCD and function such as image quality are controlled In addition the timing pulses for signals other than the video signals are also input from the ASIC directory to the LCD 4 Lens drive block 4 1 Focus drive The 16 bit serial data signals LENS_SD and LENS_SCLK and LENS_EN which are output from the ASIC IC101 are used to drive FOCUS A FOCUS A FOCUS B and FO CUS B by the motor driver IC IC951 and are then used to microstep drive the stepping motor for focusing operation Detection of the standard focusing positions is carried out by the ASIC detecting the signal F SENSE from the photointerruptor inside the lens block 4 2 Zoom drive The 16 bit serial data signals LENS_SD and LENS_SCLK and LENS_EN which are output from the ASIC IC101 are used to drive ZOOM A ZOOM ZOOM B and ZOOM B by the motor driver IC 1951 and are then used to microstep drive the stepping motor for zooming operation Detection of the standard zooming positions is carried out by the ASIC detecting the signal Z_SENSE from the photointerruptor inside the lens block 4 3 ND filter The ND filter drive signals NDON and NDOFF which are out put from the ASIC IC101
7. disconnect the USB cable and turn the camera s power off Note Do not turn off the camera s power while the firmware is be ing updated 9 s 4 USB STORAGE INFORMATION REGISTRATION USB storage data is important for when the camera is con nected to a computer via a USB connection If there are any errors in the USB storage data or if it has not been saved the USB specification conditions will not be sat isfied so always check and save the USB storage data Preparation POWER switch ON Adjustment method 1 Connect the camera to a computer Refer to 3 5 Con necting the camera to the computer on the page 17 2 Double click on the DscCalDi exe 3 Click on the Get button in the USB storage window and check the USB storage data VID SANYO PID CG9 Serial Rev 1 00 4 Check the Serial in the above USB storage data If the displayed value is different from the serial number printed on the base of the camera enter the number on the base of the camera Then click the Set button 5 Next check VID PID and Rev entries in the USB storage data If any of them are different from the values in 3 above make the changes and then click the corresponding Set button B Bright VCOMDC RGB Offset Gain VCOMPP Tint Phase T L LE Test F 2 2 2 2 jj eae USB storage _______ _______ Video Mode Pip Pepe Ee etri 22
8. 1UK 25V 303 3977608 CERAMIC 1UK 25V 3034331102 CERAMIC 1UK 10V 303 3846409 CERAMIC 47UK 6 3V 3034331102 CERAMIC 1UK 10V 303 3846409 CERAMIC 47UK 6 3V 303 3846409 CERAMIC 47UK 6 3V 303 3846409 CERAMIC 47UK 6 3V 303 3846409 CERAMIC 47UK 6 3V 303 3818109 CERAMIC 1UK 6 3V 303 3818109 CERAMIC 1UK 6 3V RESISTOR PACKS 945 037 0817 R NETWORK 1 16W LOCATION PARTSNO RESISTORS R1701 R1867 R1868 R1869 R1870 1871 1872 1873 CN171 CN172 CN173 301 226 1506 301 301 3500 301 263 6908 301 263 6908 301 301 3500 301 226 1506 301 226 1506 301 226 1506 DESCRIPTION MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE CONNECTORS 6450954108 SOCKET FPC N S P 645 084 3099 SOCKET FPC 4P N SP 645 093 7033 SOCKET PWB WIRE 3 N S P 0 000 ZA 1 16W 200 JA 1 16W 2K JA 1 16W 2K JA 1 16W 200 JA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W COMPL PWB ST 1 25402 541 05401 05402 05404 OR OR T5401 C5401 C5410 C9411 C5412 C5431 C5432 C5433 C5434 C5435 5402 R5422 5424 5425 5431 R5432 R5433 5434 5435 5436 R5437 R5438 636 112 4768 SEMICONDUCTOR 4060215107 TR TIG032TS S TL E INTEGRATED CIRCUIT 409 684 3800 DIODES 307 247 4007 407 255 9305 407 261 2802 307 205 5206 307 221 4108 303 393 2607 303 428 3401 303 428 3609 404 117 5703 303 381 8109 303 381 8109 303 276 1307 303
9. 255 0 lt s4 lt 255 0 lt 55 lt 255 0 lt s6 lt 255 0 lt s7 lt 255 0 lt s8 lt 255 O lt s9 lt 255 0 lt s10 lt 255 ms2 lt ms8 lt ms7 lt ms6 lt ms5 lt ms4 lt ms3 lt ms1 51 gt 52 gt 53 gt 54 gt 55 gt 56 gt 57 gt 58 gt 59 gt 510 Adjustment values other than the above irrelevant 4 CCD White Point Defect Detect Adjustment Preparation POWER switch ON Adjustment method 1 Double click on the DscCalDi exe 2 Select CCD Defect on the LCD Test and click the Yes 3 After the adjustment is completed OK will display 4 Click the OK 5 CCD Black Point And White Point Defect Detect Adjustment In Lighted Camera Pattern box Preparation POWER switch ON Setting of pattern box Color temperature 3100 20 K Luminance 900 20 cd m Adjusting method 1 Set the camera 0 cm from the pattern box Do not enter any light 2 Double click on the DscCalDi exe 3 Select CCD Black on the LCD Test and click the Yes 4 After the adjustment is completed the number of defect will appear 5 Click the OK 3 9 Factory Code Setting 1 Check the Factory Code display within the Setting group 2 For U S A Canada and NTSC general area If FC SANYO does not appear click on the W mark located on the right of the Factory Code display BOX and select FC SANYO 3 For Europe and PAL general area SANYO EX does not appear click on the W mark located on the r
10. 276 1307 303 276 3103 RESISTORS 302 106 1609 302 106 1708 301 224 9009 301 225 1804 301 224 8804 301 224 9009 301 260 5300 301 259 7902 301 224 8804 301 224 9306 301 224 9306 301 224 9306 FUSE F5004 A 323 031 5609 CN541 IC BD4218NUV DIODE RR255M 400 DIODE FV02R80 DIODE RB521S 30FJ DIODE RB521S 30 DIODE MA2SD19 TRANSFORMER 6450948725 TRANS STEP UP CAPACITORS CERAMIC CERAMIC CERAMIC ELECT CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE 22U M 6 3V 0 018U K 350V 0 01U K 350V 60U A 300V 1U K 6 3V 1U K 6 3V 1000P K 50V 1000P K 50V 33P J 50V 100K 1 8W 220K JD 1 8W 10K JA 1 16W 47 1 16W 100 JA 1 16W 10K JA 1 16W 6 2K JA 1 16W 5 1K JA 1 16W 100 JA 1 16W 1KJA 1 16W 1KJA 1 16W 1KJA 1 16W FUSE 32V 2A CONNECTOR 6450959622 SOCKET PWB PWB 34 N S P MISCELLANEOUS 636 1092951 SPACER MAIN CON SG212 J 636 1130981 SPACER CP1 ST SG214 J 636 1130738 HOLDER TERMINAL SG214 J 636 1130950 TERMINAL BATT SG214 J 4111741708 SCR S TPG PAN PCS 1 7X3 5 6361129879 ASSY WIRE VF18TB1 SG214 5 6361131810 ASSY WIRE VF1 amp TB1 SG214 N SP 33 SANYO SANYO Electric Co Ltd 08 Printed Japan Osaka Japan
11. Description 1 1 Digital clamp The optical black section of the extracts averaged values from the subsequent data to make the black level of the output data uniform for each line The optical black section 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 1 2 Signal processor 1 y correction 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 2 Color generation circuit This circuit converts the image sensor into RGB signals 3 Matrix circuit This circuit generates the Y signals R Y signals and B Y sig nals from the RGB signals 4 Horizontal and vertical aperture circuit This circuit is used gemerate the aperture signal 1 3 AE AWB and AF computing circuit AE AWB carries out computation based on a 64 segment screen and the AF carries out computations based on a 6 segment screen 1 4 SDRAM controller This circuit outputs address RAS CAS and CS data for con trolling the SDRAM It also refreshes the SDRAM 1 5 Communication control 1 SIO This is the interface for the 8 bit microprocessor 2 PIO PWM SIO for LCD 8 bit parallel input and output makes it possible to switch be tween individual input output and PWM input output 1 6 Digital encorder
12. JA 1 16W 330 JA 1 16W 1K JA 1 16W 220 JA 1 16W 10K JA 1 16W 330K JA 1 16W 1KJA 1 16W 22K DC 1 16W 47K JA 1 16W 47K JA 1 16W 910 DC 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 180K DC 1 16W 68K DC 1 16W 12K DC 1 16W 0 000 ZA 1 16W 27K DC 1 16W 20K DC 1 16W 1 5K DC 1 16W 0 000 ZA 1 16W 100K JA 1 16W 100 JA 1 16W 10K JA 1 16W 27K JA 1 16W 100K JA 1 16W 1 5K JA 1 16W 3 3K JA 1 16W 680K JA 1 16W 47K JA 1 16W 100K JA 1 16W 15K DC 1 16W 18 DD 1 16W 30K DC 1 16W 24K DC 1 16W 3 3K DC 1 16W 2 4K DC 1 16W 47K JA 1 16W 51K DC 1 16W 24K DC 1 16W 10 JA 1 16W 20K DC 1 16W 100K JA 1 16W 1KJA 1 16W 180K DC 1 16W 43K DC 1 16W 2K DC 1 16W 22K DC 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 10K JA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 100 JA 1 16W 0 000 ZA 1 16W LOCATION PARTSNO DESCRIPTION R9012 3012261506 MT GLAZE 0 000 ZA 1 16W R9014 3012261506 MT GLAZE 0 000 ZA 1 16W R9015 3012249702 MT GLAZE 22 1 16W R9016 3012253808 MT GLAZE 1 5K 1 16W R9017 3012249702 MT GLAZE 22 1 16W R9018 3012253808 MT GLAZE 1 5K 1 16W R9026 3012261506 MT GLAZE 0 000 ZA 1 16W R9027 3012261506 MT GLAZE 0 000 ZA 1 16W R9029 3012462101 MT GLAZE 51K 1 16W R9030 3012251200 MT GLAZE 4 7K JA 1 16W R9501 301 3406708 MT GLAZE 0 68 FE 1 10W R9506 3013419005 MT GLAZE 5 1FE 1 10W R9507 3013419005 MT GLAZE 5 1 FE 1 10W R9509 3012574101 MT GLAZE 100K DC 1 16W R9702 3012622307 MT GLAZE 1 0K DC 1 16W R9703 3012621607
13. MT GLAZE 2 2K DC 1 16W R9704 3012621904 MT GLAZE 6 8K DC 1 16W R9705 3012574101 MT GLAZE 100K DC 1 16W R9706 3012574101 MT GLAZE 100K DC 1 16W R9707 3012574101 MT GLAZE 100K DC 1 16W R9708 3012249504 MT GLAZE 2 2K JA 1 16W R9709 3012250500 MT GLAZE 33K JA 1 16W THERMISTOR TH301 3080547700 NCP15WF104F03 RC SWITCH S3001 6450452857 SWITCH PUSH FUSES F5001 A 3230315609 FUSE 32V 2A F5002 A 3230315609 FUSE 32V 2A F5003 A 4230336205 FUSE 32V 1 6A CONNECTORS CN105 645 0937026 SOCKET PWB WIRE 3 NS P CN106 645 0928284 PLUGPWB PWB M N S P CN110 6450860638 SOCKET 10P N S P CN141 6450928185 SOCKET CARD SD 12 N S P CN301 6450695193 20 N S P CN901 6450927836 PLUGPWB PWB 44P N S P CN951 6450955433 SOCKETFPC27P N S P COMPL PWB TB 1 56501 636 112 7592 SWITCH 6450923166 SWITCH PUSH 1P 1TX1 COMPL PWB VF 1 D1701 D1702 D1703 CB171 CB172 CB173 CB174 CB175 C1701 C1702 C1705 C1706 C1709 C1717 C1718 C1866 C1867 C1868 C1871 C1872 RB171 32 636 1124775 RECHARGEABLE BATTERY Z6301 A 945 051 6000 DIODES 3072440606 DIODE HSC226 E 3072440606 DIODE HSC226 E 3072440606 DIODE HSC226 E CAPACITORS 4034673704 CERAMIC 1UK 6 3V 4034673704 CERAMIC 1UK 6 3V 403 467 3704 CERAMIC 1UK 6 3V 403 467 3803 CERAMIC 1UK 10V 403467 3803 CERAMIC 1UK 10V 303 3977608 CERAMIC 1UK 25V 303 3977608 CERAMIC
14. PAN PCS 1 7X6 0 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SCR S TPG PAN PCS 1 7X6 0 VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 SCR S TPG PAN PCS 1 7X6 0 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SCR S TPG PAN PCS 1 7X3 5 SCR S TPG PAN PCS 1 7X4 0 SCR PAN PCS 1 7X3 SCR PAN PCS 1 7X4 SPECIAL SCREW 1 7X2 5 SCR TIN 1 7X2 SCR PAN PCS 1 7X2 0 SCR S TPG PAN PCS 1 7X3 SCR S TPG PAN PCS 1 7X4 5 VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 SCR S TPG PAN PCS 1 7X4 5 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SCR PAN PCS 1 7X4 5 VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 SCR PAN PCS 1 7X4 5 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP CABINET AND CHASSIS PARTS 1 112 112 Cabinet 1 SG214 J PARTS LIST 1 2 T CABINET AND CHASSIS PARTS 2 LOCATION PARTS NO 1 2 3 3 3 3 4 636 113 0851 636 115 9630 636 116 7574 636 116 7581 636 116 7604 636 116 7611 636 113 0424 636 114 1178 636 114 1116 645 093 3424 636 114 1536 636 113 7331 636 113 0783 636 113 9656 636 115 9623 636 114 1093 645 096 2851 645 096 8150 636 113 0530 636 105 1545 636 106 6310 636 112 7592 636 113 0509 636 113 0943 636 114 7521 645 095 9943 636 113 0622 636 112 4775 636 116 5976 636 113 0806 645 095 7642 636 114 4629 636 114 4636 636 113 0646 636 114 1369 636 099 6991 636 114 1413 DESCRIPTION HEAT SINK RIGHT SG214 J HEAT SINK TAPE RIGHT 214 ASSY CA
15. are used to drive ND and ND by the motor driver IC951 and then the ND filter is inserted into and removed from the beam path 4 4 Iris drive The drive method is a galvanometer type without braking coil The output from the Hall sensor inside the lens is amplified by the Hall amplifier circuit inside the IC971 lens drive IC and the difference between the current and target aperture determined by the resulting output and the exposure amout output from the ASIC IC 101 is input to the servo amplifier circuit IC971 to keep the aperture automatically controlled to the target ap erture The lens aperture control signal is output from IC971 and is input to lens drive IN6B of IC951 IC951 functions as the driver for driving the lens 4 5 Shutter drive Reverse voltage is applied to the above aperture drive coil to operate the shutter When the shutter operates the OC_EN and OC_CONT signals are maintained at a high level it is input to IN6B of IC951 with low level At the same time the SHUTTER signal that is output from the ASIC IC 101 becomes high input to INGA of IC951 and the shutter operates IC951 functions as the driver for driving the lens 5 Video Clip Recording and Playback 5 1 Recording The signal from the camera block is input to IC101 ASIC The data that is input to the ASIC is input to SDRAM and converts this data to encoded MPEG4 data after which it is written in sequence onto the SD card as streaming d
16. controller Pin C3 of IC501 so that PWM control to be carried out 6 Backlight Power Supply output Regular current is being transmitted to LED for LCD back light Feedback for the both ends voltage of registance that is being positioned to in series LED are provided to the switch ing controller Pin C4 of IC501 so that PWM control to be carried out 7 Digital 1 V Power Output VDD 1 0 is output Feedback for the VDD 1 0 is provided to the switching controller Pin 11 of IC502 so that PWM con trol to be carried out 8 CMOS Analog 2 8 V Power Output VAA 2 8 is output Feedback for the VAA 2 8 is provided to the switching controller Pin 3 of IC503 so that PWM control to be carried out 1 4 511 STROBE CIRCUIT DESCRIPTION 1 Charging Circuit When UNREG power is supplied to the charge circuit and the CHG signal from microprocessor 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 Charge switch When the CHG signal switches to Hi IC541 starts charging operation 1 2 Power supply filter C5401 constitutes the power supply filter They smooth out ripples in the current which accompany the switching of the oscillation transformer 1 3 Oscillation circuit This circuit generates an AC voltage pulse in order to in crease the UNREG power
17. out the necessary adjustments after replacing the unit A Adjustment is possible from the menu setting screen of the camera and by using the calibration software 3 7 Updating the firmware Check the firmware version immediately after the CP1 board has been replaced If an old version is being used interfer ence and errors in operation may also occur If an old version is being used update it with a newer version Refer to 3 13 Firmware uploading procedure Page 21 3 8 Adjust Specifications Adjustment method 1 Lens Adjustment Infinity 1 Set the camera so that it becomes center of the siemens star chart in the collimator Zoom wide and tele Set a distance of 0 5 1 0 cm between camera lens and collimator lens when zoom tele edge Do not touch the each lens Double click on the DscCalDi exe Select Infinity Cal on the LCD Test and click the Yes Lens infinity adjustment value will appear on the screen Click the OK L es aj 2 Lens Adjustment 1m is carried out after this adjust ment BO MD Dsc Calibration Collimator Preparation POWER switch ON If using a ready made collimator set to infinity Note Do not vibrate during the adjustment The temperature of the camera should be allowed to reach room temperature before adjusting the focus If any slight in creases or decreases in room temperature occur wait until the temperature of the ca
18. supply voltage when drops in cur rent occur This circuit generates a drive pulse with a frequency of approximately 200 300 kHz and drive the oscillation trans former 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 1 6 Charge monitoring circuit The functions programmed in the IC541 monitor oscillations and estimate the charging voltage If the voltage exceeds the rated value charging automatically stops Then the ZCHG_DONE signal is changed to Lo output and a charging stopped signal is sent to the microcomputer 2 Light Emission Circuit When FLCLT signal is input from the ASIC the stroboscope emits light 2 1 Emission control circuit When the FLCLT signal is input to the emission control cir cuit Q5402 switches on and preparation is made to the light emitting Moreover when a FLCLT signal becomes Lo the stroboscope stops emitting light 2 2 Trigger circuit The Q5402 is turned ON by the FLCLT signal and light emis sion preparation is preformed Simultaneously high voltage pulses of several kV are emitted from the trigger coil and ap plied
19. 0 945 037 0831 945 037 0831 945 037 4372 945 028 0697 945 028 0710 945 028 0710 645 078 4224 945 042 8204 945 028 0703 945 028 0703 945 028 0703 945 028 0727 645 068 6405 645 078 4620 945 028 0703 945 037 0817 945 037 0817 945 037 0817 645 078 4606 645 078 4903 945 042 8204 RESISTORS 301 299 1205 301 237 2905 301 105 7902 301 224 9009 301 225 1200 301 224 9009 301 226 1506 301 105 7902 301 105 7902 301 225 1200 301 226 1506 301 226 1506 301 226 1506 301 224 9009 301 224 9009 301 224 9009 301 224 8804 301 224 8804 301 224 9306 301 224 9009 301 224 9306 301 224 9009 301 275 1908 301 224 8804 301 224 8804 301 262 2505 301 225 7905 401 343 5903 301 226 1506 301 262 2307 MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE o o D 90V 10V 10V 10V 10V 10V 10V 10V 10V 25V 10V 10V 10V 10V 10V 0 1UK 10V 4700P K 25V 470P K 50V 1000P K 50V 0 1UK 10V 0 1UK 10V 1U K 6 3V 100P J 50V ra TE NOP sv N D X gt oOoocOcooooooooa3 ccc c 82 DD 1 16W 91 JA 1 16W 0 000 ZA 1 16W 10K JA 1 16W 4 7K JA 1 16W 10K JA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 4 7K JA 1 16W 0 000 ZA 1 16W 0 00
20. 0 ZA 1 16W 0 000 ZA 1 16W 10K JA 1 16W 10K JA 1 16W 10K JA 1 16W 100 JA 1 16W 100 JA 1 16W 1K JA 1 16W 10K JA 1 16W 1K JA 1 16W 10K JA 1 16W 2K DC 1 16W 100 JA 1 16W 100 JA 1 16W 68 DD 1 16W 220 JA 1 16W 3 4K DC 1 16W 0 000 ZA 1 16W 1 0K DC 1 16W LOCATION PARTSNO R1122 R1256 R1301 R1352 R1401 R1801 R1802 R1803 R1804 R1807 R1808 R1809 R1810 R1811 R1812 R1813 R1814 R1815 R1816 R1817 R3001 R3002 R3003 R3005 R3006 R3007 R3010 R3011 R3012 R3013 R5001 R5002 R5008 R5013 R5021 R5022 R5023 R5024 R5031 R5032 R5033 R5034 R5042 R5043 R5044 R5045 R5046 R5049 R5070 R5071 R5072 5074 R5075 R5076 R5101 R5102 R5103 R5104 R5105 R5106 R5107 R5108 R5109 R5111 R5113 R5301 R5302 R5303 R5304 R5305 R9001 R9002 R9004 R9005 R9006 R9007 R9010 301 224 9405 301 224 8804 301 261 1707 301 224 9009 301 224 8804 301 226 1506 301 226 1506 301 224 8804 301 226 1506 301 226 1506 301 226 1506 301 226 1506 301 226 1506 301 226 1506 301 277 5409 301 224 8903 301 225 8100 301 224 8903 301 226 2404 301 226 2404 301 263 2306 301 225 8001 301 224 9306 301 225 7905 301 224 9009 301 225 0401 301 224 9306 301 262 0600 301 225 1408 301 225 1408 301 262 8705 301 226 1506 301 226 1506 301 226 1506 301 258 7101 301 257 4002 301 258 6708 301 226 1506 301 262 0907 301 258 6906 301 262 5209 301 226 1506 301 224 8903 301 224 8804 301 224 9009 301 225 0104 301 224 8903 301 225 3
21. 14 HOLDER TOP SG214 J SPACER HEAT SINK SG214 J HOLDER LENS LEFT SG214 J HOLDER LENS SG214 J ASSY FPC CA1 SV SG214 SPACER LENS LEFT SG214 SPACER CA1 SG214 J SPACER CA1 CN SG214 J HEAT SINK RUBBER LEFT 214 LOCATION PARTS NO 2 28 28 29 30 30 31 32 32 32 33 101 101 102 102 103 104 105 106 107 108 109 110 11 111 112 112 26 636 114 0461 636 113 0462 636 114 1314 636 115 5472 645 096 4305 645 096 8846 636 114 1673 636 114 1499 636 114 6586 636 114 6579 636 116 9943 411 192 4408 411 180 1808 411 192 4408 411 180 1808 411 177 0906 411 178 9403 411 1755705 411 178 6204 312 060 9504 411 199 0700 411 184 0005 411 177 9503 411 192 4309 411 207 7806 411 194 8305 411 182 4609 DESCRIPTION SPACER LENS RIGHT SG214 CABINET TOP SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 CABINET TOP SG214 J3 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SPACER LENS SG214 J ASSY LAMP SG214 VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 ASSY LAMP SG214 J2 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SPACER FLASH SG214 J COMPL CABI FRONT SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 COMPL CABI FRONT SG214 J VPC CG9EXP VPC CG9GXP COMPL CABI FRONT SG214 J VPC CG9EXW VPC CG9GXW SPACER CP1 LENS SG214 J SCR S TPG PAN PCS 1 7X6 0 VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 SCR S TPG
22. 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 Holder top Connector C Remove the solder D 10 Holder top ST1 board Heat sink rubber left Screw 1 7 x 2 5 Screw 1 7 x 4 Two screws 1 7 x2 Heat sink left Connector B Spacer cp1 lens FPC H Cabinet front assy lamp lens Two screws 1 7 x 3 Cabinet front Assy lamp Holder lens left Holder lens Assy FPC CA1 SV SG214 Screw 1 7 x 3 5 Earth USB Spacer cp1 lens Screw 1 7 x 3 CP1 board Spacer CP1 Remove the solder F Connector E FPC G 22 Cabinet front assy lamp lens 13 ST1 board 13 2 2 REMOVAL OF UNIT CONTROL 1 Heat sink tape joint 8 Holder joint 2 Screw 1 7 x 3 5 9 Earth spring right 3 Unit control 10 Spacer wire 4 Spacer unit 11 Speaker 8 5 Heat sink right 12 Spacer speaker 6 Screw 1 7 x 2 13 Cover joint inner 7 Two screws 1 7 x 2 5 3 Unit control 10 Spacer wire Pass in the hole 14 2 3 REMOVAL OF TB1 BOARD AND VF1 BOARD 14 Spacer LCD A VF1 board side When assembling tighten the screws order A gt B gt C gt D 2 1 Screw 1 7x2 11 Four screws 1 7 x 2 5 2 Cover joint 12 Cover LCD front 3 Two screws 1 7 x 3 13 Spacer LCD B 13 Spacer LCD B 4 Cover LCD back 14 Spacer LCD A 5 Spacer LCD C 15 Two FPCs 6 Remove the solder 16 LCD 21 Holder VF 7 Connector 17 Three screws 1 7 x 2 22 Microphone 8 Assy
23. 36 115 9623 636 113 0592 636 114 1260 636 113 0639 636 114 1291 636 116 0704 636 113 0455 636 114 1215 636 112 4768 636 109 2951 636 113 0981 636 113 0837 636 114 1451 636 114 7064 636 116 0278 636 113 0905 636 114 0508 636 113 0813 636 113 0998 636 113 0721 636 113 0752 636 114 0911 636 114 0492 636 114 8580 636 114 1109 636 115 9661 DESCRIPTION COMPL COVER BATT SG214 VPC CG9BK VPC CG9EXBK VPC CG9GXBK COMPL COVER BATT SG214 VPC CG9EXW VPC CG9GXW COMPL COVER BATT SG214 VPC CG9EX VPC CG9 COMPL COVER BATT SG214 VPC CG9GXP VPC CG9EXP SPACER CABI MID B SG214 J CABINET LEFT SG214 EX4 VPC CG9EX VPC CC9 CABINET LEFT SG214 GX5 VPC CG9GXP VPC CG9EXP CABINET LEFT SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK CABINET LEFT SG214 J2 VPC CG9EXW VPC CG9GXW HEAT SINK TAPE JOINT 214 COVER CARD SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 COVER CARD SG214 J3 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP STAND SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 STAND SG214 J2 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SPACER CABI MID SG214 J CABINET MIDDLE SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 CABINET MIDDLE SG214 J3 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP COMPL PWB ST 1 SPACER MAIN CON SG212 J SPACER CP1 ST SG214 J EARTH USB SG214 J COMPL PWB CP 1 F W SPACER CP1 SG214 J SPACER HEAT SINK B SG214 HEAT SINK LEFT SG214 J SPACER LENS TOP SG2
24. 3N02 TR RUMOO3NO2 TR DTC144EM TR RN1104MFV TR UNR32A3 TR UP03396 INTEGRATED CIRCUITS 409 686 1903 409 692 9702 410 641 7601 309 650 3509 409 689 9609 410655 7604 309 582 6203 409 690 2309 410 644 3303 409 686 6205 409 691 1400 409 690 7403 409 690 0909 409 690 0909 409 690 7502 409 680 0506 309 646 8709 DIODES 307 223 5509 IC EV2MA B GA N S P IC EV2MB B GA N S P IC K5W1213LCM AK75 B GA N S P IC TK70630HC G IC BU7635GUW B GA N S P IC LC87F2924BUFL64TBM E B GA N S P IC BD4289FVM IC MRX1518HTA IC UPD168803FC AN2 A B GA N S P IC SC4624MLT IC XC9235A28CE IC TC7SG126FE IC TK70628HC G IC TK70628HC G IC TC7SP3125TU IC BU2233GU B GA N S P IC AK7331 DIODE MA2Z720 LOCATION PARTS NO 05002 05003 05301 1102 X3002 L1001 L1002 L1003 L1301 L1302 L1303 L1304 L1801 L5002 L5003 L5004 L5005 L5007 L5301 L9001 VA134 CB181 CB971 C1001 C1005 C1006 C1007 C1009 C1010 C1011 C1012 C1013 C1014 C1015 C1047 C1048 C1051 C1052 C1053 C1054 C1055 C1056 C1057 C1058 C1063 C1064 C1065 30 DESCRIPTION DIODE RB496KA 307 2480701 DIODE MA21D3800 307 2480701 DIODE MA21D3800 CRYSTAL DEVICES 6450940170 OSC CRYSTAL 48 00000MHZ 6450808708 OSC CRYSTAL 32 768KHZ INDUCTORS 407 259 8106 6450940521 IMPEDANCE 33 OHM P 6450940521 IMPEDANCE 33 OHM P 6450940521 IMPEDANCE 33 OHM P 6450597596 IMPEDANCE 90 OHM P 945020 1869
25. 4 C9705 C9706 C9707 C9708 C9710 C9712 RB101 RB103 RB104 RB116 RB141 RB142 RB143 RB180 RB302 RB303 RB304 RB305 RB306 RB311 RB312 RB313 RB901 RB902 RB903 RB951 RB952 RB972 R1001 R1002 R1003 R1004 R1005 R1008 R1009 R1010 R1011 R1012 R1013 R1014 R1015 R1018 R1019 R1020 R1022 R1027 R1028 R1032 R1033 R1039 R1041 R1051 R1052 R1053 R1056 R1090 R1104 R1121 31 303 294 6100 303 338 0309 303 338 0309 303 338 0309 303 338 0309 303 338 0309 303 338 0309 303 338 0309 303 338 0309 303 381 6907 303 338 0309 303 338 0309 303 338 0309 303 433 1102 303 338 0309 303 338 0309 303 279 5005 303 282 5108 303 276 1307 303 338 0309 303 338 0309 303 381 8109 303 294 6100 DESCRIPTION CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC RESISTOR PACKS R NETWORK 10KX4 1 16W R NETWORK 47X4 1 16W R NETWORK 47X4 1 16W R NETWORK 220X4 1 16W R NETWORK 100X4 1 16W R NETWORK 10KX4 1 16W R NETWORK 10KX4 1 16W R NETWORK 0X2 0 063W R NETWORK 33KX4 1 32W R NETWORK 1KX4 1 16W R NETWORK 1KX4 1 16W R NETWORK 1KX4 1 16W R NETWORK 100KX4 1 16W R NETWORK 150KX2 1 16W R NETWORK 22KX2 0 063W R NETWORK 1KX4 1 16W R NETWORK 0X4 1 16W R NETWORK 0X4 1 16W R NETWORK 0X4 1 16W R NETWORK 220X2 0 063W R NETWORK 39KX2 0 063W R NETWORK 33KX4 1 32W 945 028 071
26. 636 114 1079 636 109 3071 636 1155311 636 113 0974 636 114 4643 636 114 4650 636 113 0691 636 114 1390 636 116 9943 636 114 0492 411 177 0906 411 199 0700 411 184 0005 411 177 8100 312 060 7906 411 199 0809 411 199 0908 411 176 1003 DESCRIPTION ADHESIVE MAGNET SG214 J MAGNET SG214 J SPACER LCD A SG214 J SPACER LCD C SG214 J COVER LCD BACK SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 COVER LCD BACK SG214 J2 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP ADHESIVE LCD BACK SG214 J SPACER MIC FILTER SG212 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 SPACER MIC FILTR SG214 J2 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SPACER MIC SG214 J DEC LCD BACK SG214 EX4 VPC CG9EX VPC CG9 DEC LCD BACK SG214 GX5 VPC CG9GXP VPC CG9EXP DEC LCD BACK SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK DEC LCD BACK SG214 J2 VPC CG9EXW VPC CG9GXW SPACER CP1 LENS SG214 J SPACER LENS LEFT SG214 SCR S TPG PAN PCS 1 7X3 5 SCR TIN 1 7X2 SCR PAN PCS 1 7X2 0 SCR S TPG PAN PCS 1 7X2 5 SPECIAL SCREW 1 7X3 0 SCR TIN 1 7X3 VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 SCR TIN 1 7X3 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SCR PAN PCS 1 7X2 5 CABINET AND CHASSIS PARTS 2 SG214 J PARTS LIST 2 Cabinet 2 29 ELECTRICAL PARTS Note 1 Materials of Capacitors and Resistors are abbreviated as follows Resistors Capacitors MT FILM Metallized Film Resistor MT POLYEST Meta
27. 808 301 225 0203 301 240 9601 301 225 1408 301 224 8903 301 258 6807 301 275 6101 301 275 2004 301 274 9707 301 263 1903 301 262 1300 301 225 1408 301 262 8804 301 274 9707 301 225 8100 301 258 6906 301 224 8903 301 224 9306 301 258 7101 301 290 2409 301 275 1908 301 262 0600 301 226 1506 301 226 1506 301 224 9009 301 226 1506 301 226 1506 301 226 1506 301 224 8804 301 226 1506 DESCRIPTION MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE MT GLAZE 1 0M JA 1 16W 100 JA 1 16W 910 JA 1 16W 10K JA 1 16W 100 JA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 100 JA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 0 000 ZA 1 16W 75 DD 1 16W 100K JA 1 16W 10 JA 1 16W 100K JA 1 16W 960 JA 1 16W 960 JA 1 16W 750
28. BI RIGHT SV 214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK ASSY CABI RIGHT SV 214 J2 VPC CG9EXW VPC CG9GXW ASSY CABI RIGHT SV 214 EX4 VPC CG9 VPC CG9EX ASSY CABI RIGHT SV 214 GX5 VPC CG9EXP VPC CG9GXP BUTTON POWER SG214 J VPC CG9BK VPC CG9EXBK VPC CG9EX VPC CG9 BUTTON POWER SG214 J2 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP SPACER SPEAKER SG214 J SPEAKER 8 SPACER WIRE SG214 J EARTH SPRING RIGHT SG214 HOLDER JOINT SG214 J SPACER JOINT BASE SG214 J HEAT SINK TAPE JOINT 214 SPACER UNIT SG214 J UNIT CONTROL SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 UNIT CONTROL SG214 J3 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP COVER JOINT SG214 J ASSY JOINT SG211 ASSY SHIELD WIRE CP1 VF1 COMPL PWB TB 1 COVER JOINT INNER SG214 J SHIELD VF1 SG214 J SPACER LCD B SG214 J MICROPHONE HOLDER VF SG214 J COMPL PWB VF 1 SPACER VF SG214 J HOLDER MONITOR SG214 J LCD TX06D107TMOAAA COVER LCD FRONT SG214 EX4 VPC CG9EX VPC CG9 COVER LCD FRONT SG214 GX5 VPC CG9GXP VPC CG9EXP COVER LCD FRONT SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK COVER LCD FRONT SG214 J2 VPC CG9EXW VPC CG9GXW COVER STAND SG111 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 COVER STAND SG214 J2 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP LOCATION PARTS NO 30 37 3 3 3 38 103 108 109 113 114 115 115 116 28 636 1154772 645 096 8129 636 1154789 636 1146715 636 113 0653 636 114 1383
29. CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC POS SOLID CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC K 10V K 10V K 10V D 50V D 50V K 10V K 10V K 10V K 6 3V e OOO gt 1U K 6 3V 220P J 25V 220P J 25V 1U K 6 3V 0 1UK 10V 10U K 6 3V 0 1UK 10V 0 1UK 10V 0 1UK 10V 1U K 6 3V 1U K 6 3V 22 J 50V 1U K 6 3V 0 1UK 10V 1UK 10V 1U K 6 3V 20 J 50V 0 1UK 10V 4 TU K 6 3V 220P J 25V 1UK 10V 0 1UK 10V 1UK 16V 1U K 6 3V 22U M 6 3V 22P J 50V 22U M 6 3V 3300P K 50V 1U K 6 3V 1U K 6 3V 1U K 6 3V 1U K 6 3V 22UK 16V 1UK 16V 0 01UK 16V 1U K 6 3V 22U M 6 3V 22U M 6 3V 0 1UK 10V 0 033U K 10V 0 1UK 10V 270P J 25V 390P K SOV 50V 4 7U K 6 3V 10U K 6 3V 10U K 6 3V 33UM 8V 100P J 50V 0 1UK 10V 1UK 10V 1U K 6 3V 0 22U K 6 3V 1UK 10V 10U M 6 3V 100P J 50V LOCATION PARTS NO C9011 C9012 C9013 C9014 C9015 C9016 C9017 C9019 C9501 C9506 C9507 C9509 C9510 C9701 C9702 C9703 C970
30. ICE The components designated by a symbol N in this schematic diagram designates components whose value are of special significance to product safety Should any component designated 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 Note If replacing existing solder containing lead with lead free sol der in the soldered parts of products that have been manufac tured up until now remove all of the existing solder at those parts before applying the lead free solder 1 OUTLINE OF CIRCUIT DESCRIPTION 1 1 CMOS CIRCUIT DESCRIPTION 1 IC Configuration The CMOS peripheral circuit block basically consists of the following ICs 911 9 0011125 CMOS imager CDS AGC ADC built in H driver V driver serial communication circuit built in 2 1C911 CMOS Structure The electric charges which are generated when each pixel is optically converted are in turn converted into signal voltages by the FD amplifier and they are then transmitted by the built H driver and V driver The signals are sampled and ampli fied by the CDS and PGA circuits at the point they are output and then they are AD converted and output The output uses the 12 bit parallel interface 1 2 3 inch positive pixel array CMOS type fixed imaging ele ment Effective pixels 3488 H X 2616 V 1 2 CP1 and VF1 CIRCUIT DESCRIPTION 1 Circuit
31. SERVICE MANUAL Contents 1 OUTLINE OF CIRCUIT DESCRIPTION 3 2 DISASSEMBLY um i dito ds A EA 12 S ELECTRICAL ADJUSTMENT 3 25 25 ass 17 4 USB STORAGE INFORMATION REGISTRATION 22 5 TROUBLESHOOTING GUIDE 23 T u uui oci uum a sis 24 CIRCUIT DIAGRAMS amp PRINTED WIRING BOARDS C1 RoHS eThis product does not contain any hazardous substances prohibited by the RoHS Directive NWARNING eYou are requested to use RoHS compliant parts for maintenance or repair eYou are requested to use lead free solder This product has been manufactured using lead free solder Be sure to follow the warning given on page 2 when carrying out repair work 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 part number and description 2 Substitute parts may be supplied as the service parts N S P Not available as service parts Design and specification are subject to change without notice SG214 U EX GX EX2 GX2 EX4 GX5 U4 EX5 R SANYO VPC CG9BK Product Code 168 137 02 U S A Canada VPC CG9EXBK Product Code 168 137 03 Europe U K South America
32. XP PACKING MATERIALS LOCATION PARTS NO 7001 636 115 5564 7001 636 115 5571 7002 636 078 4659 7003 636 099 3020 7003 636 086 5068 7003 636 074 6589 7004 636 1144926 7004 636 114 0980 1004 636 1144872 7005 636 115 5618 REINFORCE PAD A SG214 J INNER BOTTOM ACCESSORIES LOCATION PARTS NO Note Please refer to the table of next page for the accessories 1 2 ONOD anA 9053 24 PPP 636 103 1783 636 113 1100 636 114 1420 645 087 1818 645 087 1825 645 083 6794 645 083 6787 645 089 5081 645 093 9617 645 089 8990 636 113 9069 636 114 1710 DESCRIPTION STRAP CAP LENS SG112 J CAP LENS SG214 J VPC CG9BK VPC CG9EXBK VPC CG9GXBK VPC CG9EX VPC CG9 CAP LENS SG214 J2 VPC CG9EXW VPC CG9GXW VPC CG9GXP VPC CG9EXP CABLE DSC USB Dedicated USB interface cable CABLE DSC A V Dedicated AV interface cable CORD POWER 1 9MK VPC CG9BK VPC CG9 CORD POWER 1 2MK EXCEPTVPC CG9BK VPC CC9 BATTERY CHARGER BATTERY CHARGER BATTERY RECHARGE LI ION DISC CD ROM INST G214 VPC CG9GXBK VPC CG9GXW VPC CG9GXP PDF of instruction manual English German French Spanish Italian Dutch Russian Portuguese Simplefied Chinese Traditional Chinese Korean INSTRUCTION MANUAL CAMERA SOFTWEAR Table of accessories CABINET AND CHASSIS PARTS 1 LOCATION PARTS NO 1 OO N 636 114 1574 636 114 1598 636 114 4902 636 114 4919 636 113 7034 636 114 4803 636 114 4810 636 113 0448 636 114 1277 6
33. ata At this time the audio signals that are input to the built in microphone are converted into digital data by the audio CODEC IC of IC 183 and they are then input to ASIC The audio data is then en coded AAC and then it is written in sequence onto the SD card together as streaming data with the image signals de scribed above 5 2 Playback The data is read from the SD card and the encoded data is decoded into image data where it is displayed by the LCD or on a TV monitor At the same time the audio data is also de coded and is input to IC183 as digital data D A conversion is carried out at C183 and the sound is then output to the speaker or to the LINE OUT terminal or the headphone 6 Audio CODEC Circuit 183 The audio signals from the microphone are converted into 16 bit digital data AD conversion is carried out at a maximum sampling frequency of 48 kHz During audio playback the 16 bit digital data is converted into analog signals and these drive headphone through the speaker or line out system and headphone amplifier DA conversion is carried out at a maximum sampling frequency of 48 kHz 1 3 PWA POWER CIRCUIT DESCRIPTION 1 Outline This is the main power circuit and is comprised of the follow ing blocks Switching controller IC501 Motor system power output L5301 Digital 3 25 V power output L5002 Digital and CMOS 1 8 V power output L5003 Backlight power output Q5007 L5007 Digital 1 V
34. ce 900 20 cd m Adjusting method 1 When setting the camera in place set it to an angle so that nothing appears in any part of the color viewer except the white section Do not enter any light 2 Double click on the DscCalDi exe 3 Click the AWB and click the Yes 4 AWB adjustment value will appear on the screen 5 Click the OK Dsc Calibration AWB Results 1 WB 242 494 415 128 128 1 WB_ND 239 493 412 CK_ND 128 128 N 5 2 co OQ 145 2 890 846 gt Fno 15 80 55 15 1 YLEVEL_FOR_ISO 1 Adjustment value determination is effectuated using the CHECK CHECK_ND MS MS M MS C MS_C2 IRIS_PWM1 IRIS_PWM2 IRIS PWMS IRIS PWM4 and IRIS PWMPS values If wc0 wc1 wc2 CHECK ND wncO wnc1 wnc2 MS ms1 ms2 MS Mz ms3 ms4 MS ms5 ms6 MS C22 ms7 ms8 IRIS 1 51 52 IRIS_PWM2 s3 s4 IRIS_PWM3 s5 s6 IRIS_PWM4 57 58 IRIS_PWM5 59 510 the adjustment values fulfill the conditions below they de termined as within specifications Adjustment value determination wc0 128 2 wc1 128 2 wc2 130 40 wnc0 128 2 wnc1 128 2 wnc2 130 40 1200 lt ms1 lt 4450 240 lt ms2 lt 2240 980 lt ms3 lt 2980 820 lt ms4 lt 2820 700 lt ms5 lt 2700 570 lt ms6 lt 2570 470 lt ms7 lt 2470 360 lt ms8 lt 2360 0 lt 51 lt 255 0 lt s2 lt 255 0 lt s3 lt
35. e backup battery 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 microprocessor first set the P ON signal at pin 40 and the P ON2 signal at pin 41 to high and then turns on the DC DC converter After this low signal is output from pin 17 so that the ASIC is set to the reset condition After this these pins set to high and set to active condition Once it is completed the ASIC returns to the reset condition all DC DC converters are turned off and the power supply to the whole system is halted ASIC CMOS 8 bit CPU memory 2 8 V A Power voltage 3 3 V 1 0 V 1 8 V 2 8 V D 1 V D Power OFF Power switch ON Auto power OFF Play back Table 5 2 Camera Mode Note 4 MHz Main clock operation 32 kHz Sub clock operation _ 10 2 DISASSEMBLY 2 1 REMOVAL OF ST1 BOARD LENS AND CP1 BOARD When assembling tighten the screws order A gt B gt C gt D NOTE Discharge a strobe capacitor with the discharge jig VJ8 0188 for electric shock prevention 12 1 Screw 1 7 x 6 7 Compl cabi mid 2 Open the cover battery 3 Screw 1 7 x 4 5 4 Three screws 1 7 x 6 5 Two screws 1 7 x 4 5 6 Cabinet top 7 Compl cabi mid 8 Screw 1 7x3 9 Two screws 1 7 x 2 10 11 12 13 14 15 16 17 18 19 20 21
36. h attaches easily to other metals As a result it does not melt as easily as solder containing lead and soldering will be more difficult even if the temperature of the soldering iron is increased The extra difficulty in soldering means that soldering time will increase and damage to the components or the circuit board may easily occur Because of this you should use a soldering iron and solder that satisfy the following conditions when carrying out repair work Soldering iron Use a soldering iron which is 70 W or equivalent and which lets you adjust the tip temperature up to 450 C 842 F It should also have as good temperature recovery characteris tics as possible Set the temperature to 350 C 662 F or less for chip compo nents to 380 C 716 F for lead wires and similar and to 420 C 788 F when installing and removing shield plates The tip of the soldering iron should have a C cut shape or a driver shape so that it can contact the circuit board as flat or in a line as much as possible Solder Use solder with the metal content and composition ratio by weight given in the table below Do not use solders which do not meet these conditions Tin Sn Silver Ag Copper Cu Composition ratio by weight Lead free solder is available for purchase as a service tool Use the following part number when ordering Part name Lead free solder with resin 0 5 mm dia 500 g Part number VJ8 0270 PRODUCT SAFETY NOT
37. ight of the Factory Code display BOX and select FC SANYO 3 10 Language Setting 1 Click on the W mark located on the right of the Language display BOX 2 Select language Default is English 3 End DscCal and remove the camera before turning the camera power OFF Calibration w F Cal Mode i Phase B Bright VCOMDC VCOMPP T oes Test USB storage vD j SetSera Video Mode PD sd Set Rev perv ue Gn Fem cote 3 11 Reset Setting Carry out reset settings after replacing CP1 board 1 Turn on the camera 2 Press the MENU button 3 Choose the Option menu 4 Choose the RESET SETTINGS and press the SET button 5 Select RESET and press the SET button 3 12 The Compulsive boot starting method 1 Keep MENU button SET button and SHUTTER button de pressed while switching on the power 2 Connect the camera and the computer with USB cable 3 13 Firmware uploading procedure 1 Uploading the firmware should be carried out if the version number COMPL PWB XX X on the replacement circuit board is lower than the version of the distributed firmware For XX X enter the name of the circuit board containing the firmware 2 The firmware is distributed by e mail in self extracting archive format Change the extension of the distributed file to EXE and save it in your preferred folder 3 When you double click the saved file the firmware binary fi
38. joint 18 Shield VF1 23 VF1 board 9 Screw 1 7 x2 19 Remove the solder 24 Holder monitor 10 TB1 board 20 Two screws 1 7 x 3 25 Spacer VF 15 2 4 BOARD LOCATION VF1 board TB1 board ST1 board CP1 board 16 3 ELECTRICAL ADJUSTMENT 3 1 Table for Servicing Tools Pattern box Calibration software r lt Download the calibration software and the firmware from the following URL http www digital sanyo com overseas service Place the DscCalDi exe file camapi32 dll file and QrCodelnfo dll file together into a folder of your choice 3 2 Equipment 1 PC IBM R compatible PC Windows 2000 or XP or Vista 3 3 Adjustment Items and Order 1 Lens Adjustment Infinity 2 Lens Adjustment 1m 3 AWB Adjustment 4 CCD White Point Defect Detect Adjustment 5 CCD Black Point And White Point Defect Detect Adjust ment In Lighted zd Note If the lens CCD and board and changing the part it is necessary to adjust again Item 1 5 adjustments should be carried out in sequence 3 4 Setup 1 System requirements Windows 2000 or XP or Vista IBM B compatible PC with pentium processor USB port 40 MB RAM Hard disk drive with at least 15 MB available VGA or SVGA monitor with at least 256 color display 2 Installing USB driver Install the USB driver with camera or connection kit for PC 3 Pattern box Turn on the switch and wait for 30 minutes for aging to take place before using Colo
39. le will be saved in the same folder 4 The firmware must not be distributed without permission 1 Overwriting firmware from the SD card Preparation SD card SD card with firmware rewritten into the root direc tory Data S214Nxxx BIN xxx version Overwriting method 1 Insert the above SD card 2 Turn on the camera 3 Set the REC PLAY switch to the PLAY 4 Press the MENU button 5 Choose the Option menu 6 Choose the FORMAT 7 Toggle the SET button to the left for 2 seconds FIRMWARE UPDATE will display 8 Choose YES 9 Press the SET button Update is starting Note Do not turn off the camera s power or remove the SD card while the firmware is being updated The power will turn on automatically after the update is com plete 2 Overwriting firmware from the calibration software Preparation PC with overwriting firmware copied to the preferred folder in the HD Data S214Nxxx BIN xxx version Overwriting method 1 Connect the camera s USB AV terminal to the computer USB connector 2 The USB Connection screen appears on the camera s LCD monitor Choose the COMPUTER and press the SET button Next choose the CARD READER and press the SET button 3 Double click on the DscCalDi exe 4 Click the Firmware 5 Choose the fimware file to use for overwriting and click the Yes 6 Update is starting The message will appear and choose OK 7 After the update is complete
40. llized Polyester Capacitor MT GLAZE Metallized Glaze Resistor MT COMPO Metallized Composite Capacitor OXIDE MT Oxide Metallized Film Resistor TA SOLID 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 POS SOLID Polymerized Organic Semiconductor Capacitor 2 Tolerance of Capacitor 10pF over and Resistor are noted with follow symboles Fiss 1 G macas 20 din 5 K 10 20 30 Z 80 20 3 Capacitors U yF P pF 4 Inductors UH uH MH mH 5 N S P Not available as service parts LOCATION PARTS NO DESCRIPTION COMPL PWB CP 1 F W 636 114 1451 SEMICONDUCTORS 305 168 3703 305 216 1200 305 1724703 405 218 3902 305 167 0406 405 218 3902 305 167 0406 305 173 4405 305 173 7406 305 210 5709 305 217 3906 305 200 9007 305 183 7700 305 168 4007 305 216 1408 305 172 4802 405 218 4701 305 181 4909 305 184 6009 405 219 2706 305 200 6006 405 220 5604 405 220 5604 305 168 3703 305 216 1200 305 172 4703 305 184 6009 TR DTC144EM TR RN1104MFV TR UNR32A3 TR UP0431300 TR EMD12 UP0431300 TR EMD12 TR DTC114TM TR UNR32A5 TR UPOKG8D TR HN2E07JE TR EML17 TR EMH10 TR DTA114EM TR RN2102MFV TR UNR31A1 TR SSM3J120TU TR2SK3541 TR UP03396 TR MCH5835 E TR UP03397 TR RUM00
41. mera reaches room temperature before carrying out adjustment 18 Adjustment value determination is effectuated using below val ues The adjustment values fulfill the conditions below they are de termined as within specifications Adjustment value determination TEMP AD ATADI ATADI adjustment value of focus temperature A D O lt ATADI lt 1023 PZ_BR PBR PBR adjustment value of zoom backrush pulse 0 lt PBR lt 10 AF_BR ABR ABR adjustment value of focus backrush pulse 0 lt ABR lt 10 AF WIDE ZIW ZIW infinity adjustment value of focus at zoom position wide 40 lt ZIW lt 40 AF MID1 ZIM1 ZIM1 infinity adjustment value of focus at zoom position middle1 70 lt ZIM1 lt 70 AF MID2 ZIM2 ZIM2 infinity adjustment value of focus at zoom position middle2 58 lt ZIM2 lt 82 AF TELE ZIT ZIT infinity adjustment value of focus at zoom position tele 41 lt 21 lt 99 IRIS_GAIN g g adjustment value of gain 0 lt 0 lt 255 IRIS_OFFSET o o adjustment value of offset 0 lt 0 lt 255 2 Lens Adjustment 1m Camera zoom wide 100 0 5 cm Siemens star chart Preparation POWER switch ON Adjustment condition Siemens star chart A3 Fluorescent light illumination with no flicker incandescent light cannot be used Illumination above the subject should be 700 lux 10 zd Note Do not vibrate during the adjustment The temperature of the camera should be all
42. on L connection COMREQ Command request input KEY WIDE I Key input WIDE L input KEY dst Key input 1st SHUTTER L input KEY PLAY Key input PLAY L input BOOT BOOTotpt S 0 STCHG O Strobo charge control H charge SW320N SW 3 2 power ON OFF signal L ON DOWN Key input DOWN L input KEY MENU I Key input MENU L input KEYUP 1 KeyinputUP L input KEY RIGHT Key input RIGHT L input KEYSET KeyinputSET L input KEYVREC Ii Keyscan VREC L input O GO v o N INI NIN IO O DD DD IO O O CO N OO O IN CLK SFW o DATAO SFW VO PON O D Dconverter 1 8 V 3 3 V ON OFF signal H ON POP O D D converter 1 0 V ON OFF signal H2 ON N See next page 44 HN LCD panel rotation detection L panel inversion 4 amp nouso o NOTUED Nor o NTUED o Battery OFF detection L battery OFF FRAMEVAUD KEY 2ND Key input 2nd SHUTTER L input RESET 01 Microprocessor reset input L reset XCIN Sub clock oscillation terminal 32 768 kHz con o Sub clock oscillation terminal 32 768 kHz vws XIN m E Main clock oscillation te
43. owed to reach room temperature before adjusting the focus If any slight in creases or decreases in room temperature occur wait until the temperature of the camera reaches room temperature before carrying out adjustment Adjustment method 1 Set the siemens star chart 100 0 5 cm from lens surface zoom wide position so that it becomes center of the screen zoom wide and tele Set the camera and the chart in a straight and do not put optical systems mirror and conversion lens etc Double click on the DscCalDi exe Click the Focus and Click the Yes Lens adjustment value will appear on the screen Click the OK BO MD Adjustment value determination is effectuated using below val ues The adjustment values fulfill the conditions below they are de termined as within specifications Adjustment value determination AF_TEMP_AD ATAD ATAD adjustment value of focus temperature A D OcATAD 1023 WIDE ZW ZW adjustment value of focus at zoom position wide 50 2ZW 50 AF MID1 ZM1 ZM1 adjustment value of focus at zoom position middle1 80 lt 2 1 lt 80 AF_MID2 ZM2 2 2 adjustment value of focus at zoom position middle2 68 lt ZM2 lt 92 AF_TELE ZT ZT adjustment value of focus at zoom position tele 51 lt ZT lt 109 3 AWB Adjustment Camera Pattern box Preparation POWER switch ON Setting of pattern box Color temperature 3100 20 K Luminan
44. power output IC502 L5004 CMOS analog 2 8 V power output IC503 L5005 2 Switching Controller IC501 This is the basic circuit which is necessary for controlling the power supply for a PWM type switching regulator and is pro vided with seven built in channels only CH1 motor system CH2 digital 3 25 V CH3 digital 1 8 V and CH7 backlight are used Each power supply output is received and the PWM duty is varied so that each one is maintained at the correct voltage setting level Feedback for the backlight power CH7 is provided to the both ends voltage of registance so that regular current can be controlled to be current that was setting 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 A6 of IC501 all output is turned off To reset momentarily set the control sig nal P ON to repeat control or temporarily disconnect the input power supply 3 Motor System Power Output BOOST 5 V is output Feedback for the 5 0 V output is pro vided to the switching controller Pin B7 of IC501 so that PWM control can be carried out 4 Digital 3 25 V Power Output VDD3 is output Feedback for the VDD3 is provided to the swiching controller Pin F3 of IC501 so that PWM control can be carried out 5 Digital 1 8 V and CMOS 1 8 V Power Output VDD 1 8 and CMOS 1 8 V are output Feedback for the 1 8 V is provided to the switching
45. r Pure It is used after adjusting the chroma meter VJ8 0192 adjust color temperature to 3100 20 K and luminosity to 900 20 cd m Be careful of handling the lump and its circumference are high temperature during use and after power off for a while 4 Computer screen during adjustment B Bright VCOMDC Gain VCOMPP Upload Phase F seres Test L C 1 Set _______ _____ Backrush pulse Video Mode Factory Code 3 5 Connecting the camera to the computer This camera reguires a DC adaptor sold separately in order to use an AC adaptor 1 Insert the DC adaptor to the camera 2 Insert the AC adaptors cable to DC terminal of the DC adaptor Line up the arrow on the cable connector with the notch on the camera s USB port Insert the connector 4 Locate a USB port on your computer If USB CONNECTION is displayed choose the PUTER and press the SET button Next choose the CARD READER and press the SET button 3 6 The adjustment item which in necessary in part exchange I CCD Black Point And USB Point Adjust R Defect White Point pn Language storage Reset ment Defect Detect Setting linformation Setting Adjustment Setting SU Infinity Lighted COMPL PWB CP 1 COMPL PWB VF 1 registration mm memes o o o o 6 Be sure to carry
46. rminal 4 MHz XOUT O Main clock oscillation terminal 4 MHz UNREGSY Camerapowervollageinput AVJACK AV JACK connection detection L connection THTEMP Gameratemperature detection O SO O Senadaaoupu 8 Serial data input Table 5 1 8 bit Microprocessor Port Specification 2 Internal Communication Bus The SYA block carries out overall control of camera operation by detecting the input 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 5 1 shows the internal communication between the 8 bit microprocessor ASIC and SPARC lite circuits SREQ 8 bit ASIC SO Microprocessor ASIC Sl SCK Fig 5 1 Internal Bus Communication System 3 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 2 V power off 2 4 V voltage is normally input to the 8 bit microprocessor IC301 by IC302 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 microprocessor operates in sleep mode using th
47. to the light emitter 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 SYA CIRCUIT DESCRIPTION 1 Configuration and Functions For the overall configuration of the SYA block refer to the block diagram The SYA block centers around a 8 bit microprocessor IC301 and controls camera system condition mode The 8 bit microprocessor handles the following functions 1 Operation key input 2 Clock control and backup 3 Power ON OFF 4 Storobe charge control I CARD SD card detection L SD card 8 BACKUPCIL O Backup battery charge control L charge CHG DONE I Strobo condensor charge done detection H L charge done HOTLNE HotimerquestomASIG OO O TEST MODE Test mode terminal L starting up test mode nouse o JJ 4 2 nouso O S 11 REDLED O RedLED H lighting GREEN LED G O Green LED H lighting NANDRESET O OneNAND flash reset L reset KEY POWER Keyinput POWER L input 15 BLON O LCD backlight ON OFF single H backlight ON i Nou O 18 ASICPLLON OFF control UTX Debugger terminal S MR PANEL OPEN LCD panel open close detection H panel open USB DET USB connection detecti
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