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COLOR DIGITAL CAMERA DXC-S500 SERVICE MANUAL 1st Edition...
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électrique, d’incendie ou de blessure n’effectuer que les réparations indiquées dans le mode d’emploi à moins d’être qualifié pour en effectuer d’autres. Pour toute réparation faire appel à une personne compétente uniquement. DXC-S500 (E)
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équivalent recommandé par le constructeur. Mettre au rebut les batteries usagées conformément aux instructions du fabricant. ADVARSEL! Lithiumbatteri-Eksplosionsfare ved fejlagtig håndtering. Udskiftning må kun ske med batteri af samme fabrikat og type. Levér det brugte batteri tilbage til leverandøren. 1 (P) DXC-S500 (E)
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Gooi de batterij niet weg maar lever deze in als klein leer” oder nach längerer Gebrauchsdauer der Batterien chemisch afval (KCA). “nicht mehr einwandfrei funktioniert”. Um sicherzugehen, kleben Sie die Batteriepole z.B. mit einem Klebestreifen ab oder geben Sie die Batterien einzeln in einen Plastikbeutel. 2 (P) DXC-S500 (E)
1-5. DC Fan ...................... 1-10 1-6. Removal and Installation of LCD Panel ........... 1-11 1-7. Replacement of Lithium Battery ............... 1-11 1-8. Input and Output Signals of Connectors ........... 1-12 1-9. TWAIN Driver Software Installation Procedures ........1-13 DXC-S500 (E)
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4-12. The Control Panel Dial does not Function..........4-5 4-13. IEEE1394 cannot Transfer During Communication........4-5 4-14. A Live Image is not Optimally Displayed on the TWAIN Software Screen of PC or not Transferred..............4-6 DXC-S500 (E)
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6-8. CA-46 Board ....................6-9 7. Semiconductor Pin Assignments 8. Spare Parts 8-1. Notes on Repair Parts .................. 8-1 8-2. Exploded Views ..................8-2 8-3. Electrical Parts List ................... 8-10 8-4. Packing Materials & Supplied Accessories ..........8-29 DXC-S500 (E)
Manual Structure Purpose of this manual This manual is the Service Manual of the Color Digital Camera DXC-S500. This manual contains the service overview, adjustment of after replacement board, updating the CPU program, troubleshooting, electrical alignments, circuit description, spare parts, semiconductor pin assignments, block diagrams, schematic diagrams and board layouts.
1-1-2. CCU Block NTSC CAMERA VIDEO S VIDEO FLASH SY-301 board ~ AC IN IEEE FS-30 FS-20 TRIG IN Switching 1394 PD-106 board OUTPUT REMOTE CN-2272 board regulator Power cord PSW-77 board SW-1082 board IF-874 board FM-84 board LED-388 board DXC-S500 (E)
Be sure to turn on the power of the camera control unit (the power indicator (D201/PSW-77 board) on the control panel of the camera control unit lights in green) before connecting the camera to the computer with the IEEE1394 cable. DXC-S500 (E)
B 2.6x4 Harness guard Lens cap Flexible flat cable B 2.6x4 Harness CN-2272 board PM 2x5 PM 2x5 Lower case 6. Attach the front panel assembly and lower case in the reverse order of steps 1 to 5. DXC-S500 (E)
Gasket plate (3) Gasket plate (1) Upper case assembly 5. Attach the gasket plates in the reverse order of steps 1 10. Attach the upper case assembly in the reverse order of to 4. steps 1 to 9. DXC-S500 (E)
(CA2) PM 2x3 When attaching the flexible flat cable, be sure that the blue belt is on the correct side. 6. Install the CA-46 board and PS-613 board in the reverse order of steps 1 to 5. DXC-S500 (E)
2.6x8 Flexible flat cable Upper case assembly Wiring clip 4. Install the PD-106 board in the reverse order of steps 1 6. Install the SW-1082 board in the reverse order of steps to 3. 1 to 5. DXC-S500 (E)
Heat transfer rubber (3) Flexible flat cables 6. Install the LED-388 board and PSW-77 board in the reverse order of steps 1 to 5. 6. Install the SY-301 board in the reverse order of steps 1 to 5. DXC-S500 (E)
Card cover B 2.6x4 B 2.6x4 CN102 B 2.6x4 IF-847 board CN101 Connector panel B 2.6x4 assembly Flexible CN301 flat cables CN302 Flexible flat cables 6. Install the IF-847 board in the reverse order of steps 1 to 5. DXC-S500 (E)
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When attaching the connector panel assembly, insert the portion A of the connector panel into the portion B of the chassis securely. Connector panel Portion A 8. Install the FM-84 board in the reverse order of steps 1 to 7. Portion B Chassis DXC-S500 (E)
1-7. Replacement of Lithium Battery Panel Use the following battery for replacement. 1. Remove the upper case assembly. (Refer to Section 1- Ref. No. Address Name Sony part number 3-2.) !1-528-174-31 BT1001 (C-3) Lithium battery 2. Remove the PD-106 board. (Refer to Section 1-4-3.) (CR2032) 3.
UNREG_OUT Pin NO. Signal Name FOOT_SW1 FOOT_SW2 DOUTTXN FOOT_SW3 DOUTTXP S-VIDEO OUT (Mini DIN 4-pin) IEEE1394 (6-pin, female) <External view> Pin NO. Signal Name <External view> Y-VIDEO-OUT Pin NO. Signal Name C-VIDEO-OUT N.C. TPB_ TPB+ TPA_ TPA+ 1-12 DXC-S500 (E)
DXC-S500 TWAIN DRIVER SETUP CD-ROM” on the into the CD-ROM drive. PC, be sure to read “Getting Started” in the User’s Guide 7. Confirm that Sony DXC-S500 is found in the device for TWAIN Driver Software. list in the computer.
. SHP phase adjustment (Refer to Section 5-3-4.) . Reading the CCD defect data (Refer to Section 5-3-5.) . Confirmation of white balance color lead-in operation (Refer to Section 5-3-6.) . Confirmation of CCD cooling operation (Refer to Section 5-3-7.) DXC-S500 (E)
Moreover, the adjustment after replacement is not also required because EEPROM (IC7) that maintains an adjustment value is mounted on the PD-106 board. Perform “5-4-1. 3.5-inch LCD Adjustment” when the parts on the PD-106 board are replaced. DXC-S500 (E)
2. Insert a memory stick to the PC card slot of this unit via a PC card adaptor. For the adjustment after board replacement, refer to “Section 2 Adjustment during Board Replacement” and Use a memory stick with capacity of 8 to 64 MB. “Section 5 Electrical Alignment”. DXC-S500 (E)
Abnormal power of 12 VDC: Check the power defect or the blown fuse of the switching regulator. Cause 3: Fuses of SY-301 board 1. Check that the fuses (F501 to F503) of the SY-301 board are not blown. Blown fuse: Confirm the cause of fuse blowing and replace the defective fuse. DXC-S500 (E)
Cause 6: A long-time shutter value is set. 1. Change the long-time shutter value to the high-speed position for confirmation. Cause 7: No improvement is made in causes 1 to 6 described above. 1. Replace the SY-301 board. DXC-S500 (E)
4. Confirm that a high voltage of more than 800 VAC is generated in CL44 on the PD-106 board. A voltage is generated: The lighting of LCD back light is defective. A voltage is not generated: The circuit on the PD-106 board is defective. DXC-S500 (E)
1. Set to ± 0 using EV COMP + and _ buttons. Cause 3: The Flash mode is set to OUTPUT. (The camera is forcibly set to a shutter value of 1/3.75 sec and a camera gain of 0 dB.) 1. Set the Flash mode to OFF. DXC-S500 (E)
2. Connect another FM-84 board to confirm the operation. Normal: Replace the FM-84 board. Cause 6: The version of a microcomputer (H8CPU) on the FM-84 board is not correct. 1. Update the program to a correct version. (Refer to section 3.) DXC-S500 (E)
. PC that satisfies the recommended specifications is used. . The video memory capacity of PC exceeds the recommended capacity. . The working memory capacity of PC exceeds the recommended capacity. . The recommended application software or optimum version is used. DXC-S500 (E)
..For video level adjustment, etc. . Frequency counter . Standard lens . Color monitor . Camera cable for DXC-S500 . BNC camera cable . Vectorscope scale J-6020-250-A Color bar chart (For PTB-500) J-6027-100-A Color bar chart (For PTB-700) .
4. Move the cursor using “arrow (←, ↑, →, and ↓)” keys and enter the password (20015259). 5. Press the “ENTER” button. If “PASSWORD OK” is displayed, the DXC-S500 is put into the adjustment mode. NTSC CAMERA 6. Press the “MENU” button two times.
EVR SETTING TYPE : EVR1 DATA : 00 DSP SETTING Lens TYPE : DIRECT : 00000000 Camera cable for DXC-S500 DATA : 0000 VIDEO VALUE & TEST SETTING TV monitor Menu for overall camera adjustment 75 Z <<VALUE & TEST SETTING>>...
5. After several minutes, “EXIT PUSH ENTER” is displayed. Then, press the “ENTER” button to complete the adjustment. 6. After adjustment is completed, set the I/O power switch to OFF and terminate the adjustment menu. DXC-S500 (E)
1. Connect a waveform/vector monitor. (Refer to Section 5-3-1.1.) The gain is set to x1. 2. Set each operation mode from the mode initialization DXC-S500 CCU state as described below using buttons on the control Probe panel. . AE MODE:...
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(NTSC)”. it (with the trigger set). 2. Select CH3 of EVR3 to satisfy specifications and change the data value for adjustment. Specification: B = R-Y signal 245 ± 25 mV 3. Perform “4. LCD display VCO adjustment (NTSC)”. DXC-S500 (E)
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2. Select No. 04 of ADJ LCD SETTING to satisfy specifications, change the data value, and adjust so that the DC voltage satisfies the specifications. Specification: F = 1.0 ± 0.1 V dc 3. Perform “8. LCD display VCOM voltage adjustment (NTSC)”. DXC-S500 (E)
Cut the red (R channel) based on the stereo mini-plug- to-pin plug X2 specifications of a commercial- 4. Video chroma amount adjustment (NTSC) available connection cord (type No.: RK-G129 (Sony)) 1. Connect a waveform/vector monitor. (Refer to Section and input a signal to the frequency counter.
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4. 3. Select No. 2E in the order of LCD & VBS1 SETTING and ADJ VBS1 SETTING in the test mode and change the data value. 4. Press the I/O power switch and terminate the PAL adjustment. DXC-S500 (E)
DTC signal. The output current is 30 mA (maximum). Channel control function IC201 can independently control a four-channel power supply circuit. However, the DXC-S500 is designed so that the circuit output is obtained when the voltage level is high with pins 20, 21, and 22 of IC201 connected.
LCD RGB signal and generates an LCD panel driving signal. The PD-106 board also mounts a D/A converter for an electronic variable resistor (EVR) to perform each control operation. This board stores the adjustment data on the PD-106 board by mounting EEPROM. DXC-S500 (E)
CN3 is used to connect the key matrix of the main unit. CN5 is used to connect the PD-106 board and CCU in the pattern of a bypass to CN4. CN1 is used to connect the PSW-77 board. CN2 is used to connect the LED-66 board. DXC-S500 (E)
X401 and X402 perform a frequency oscillation of 4 fsc used in an NTSC/PAL system. The frequency is adjusted by the voltage adjustment of variable capacitance diodes D401 and D402. IC407 is an OSD character generator. IC407 has the internal fonts exclusively used for DXC-S500. An on-screen display appears by inputting the character generator signal to IC403.
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D-Sub connector. CN1001, CN1002, and CN852 are a 45-pin flexible flat cable connector. They are connected with the SY-301 board using a flexible flat cable. CN1005 and CN1006 are connected with the IF-874 board using a flexible flat cable. DXC-S500 (E)
It has a wide in-phase input range and can facilitate the voltage setting. The error amplifier also sets the gain and voltage arbitrarily by connecting a feedback resistor and capacitor from the output pin of the error amplifier to the inversion input pin. DXC-S500 (E)
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DCT signal. The output current is 30 mA (maximum). Channel control function IC201 can independently control a four-channel power supply circuit. However, the DXC-S500 is designed so that the circuit output is obtained when the voltage level is high with pins 20, 21, and 22 of IC201 connected.
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Connector CN801 is connected with the PD-106 board using a flexible flat cable. CN802, CN803, and CN804 are connected with the FM-84 board using a flexible flat cable. CN805 is connected with the CN- 2272 board using a flexible flat cable. It inputs a switching signal based on the NTSC/PAL system. DXC-S500 (E)
The amplitude of a digital signal is lowered with the power (at pin 13 (DRVDD)) in the final output stage set as 2.5 V to suppress the influence that the switching noise of a video digital output signal exerts on the analog input signal of a CDS circuit. DXC-S500 (E)
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CCD PPN position information are written as data. Readjustment is not required even if the combination of CHU and CCU is changed by this system. However, the unit must be readjusted when CCD of CHU is replaced or IC113 is replaced. 6-10 DXC-S500 (E)
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In addition, for semiconductors with ID Nos., refer to the separate CD-ROM titled “Semiconductor Pin Assignments” (Sony Part No. 9-968-546-xx) that allows searching for parts by semiconductor type or ID No. The semiconductors in the manual or on the CD-ROM are listed by equivalent types.
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CLPDM REFERENCE OFFSET AUX1IN 32.768 CONTROL LINE INTERNAL AUX2IN CONTROL BIAS DEVIDER CLOCK AND REGISTERS CALENDAR FOUT TIMER OUTPUT REGISTER DIGITAL INTERNAL CONTROLLER INTERFACE TIMING INTERRUPTS ALARM TIRQ CONTROLLER REGISTER AIRQ CONTROL DATA REGISTER INTERFACE SHIFT CIRCUIT REGISTER DXC-S500 (E)
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COLOR HSYNC DET PULSE H SKEW DET CLAMP V CONTROL V POSITION V COUNTER V SEP MODE CONTROL SYNC OUT SYNC SEP HCOUNTER SYNC IN HPULSE FIL OUT H.FILTER FIL IN CSYNC/HD S/P CONV R INJECT REGISTER DAC DXC-S500 (E)
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: +15.0 V POWER SUPPLY FOR VERTICAL DRIVER : _7.5 V POWER SUPPLY FOR VERTICAL DRIVER : GROUND FOR VERTICAL DRIVER Vcc3 PBLK CLPDM OBCLP ADCLK PULSE GENERATOR MCKO ID/EXP SELECTOR SNCSL LATCH REGISTER V DRIVER SSGSL TEST1 TEST2 DXC-S500 (E)
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R IN 8 BIT EXTERNAL G IN SYNC HORIZONTAL OSDR CACHE DRAM CACHE SCALER 8 BIT B IN OSDG MEMORY OSDB OSDHT CLAMP OSDEN DRAM HS IN VS IN OSC 1 SERIAL BUS EMBEDED OSC 2 INTERFACE PROCESSOR DXC-S500 (E)
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39, 40, ADDRESS JTAG PARALLEL AND 8B/10B 14, 9, 12 DECODING INTERFACE INTERFACE 44 - 47, DATA D1 - D7 SERIAL TO 49 - 51 PARALLEL RXD0 - RXD15 DINRXP COMMA DINRXN DETECT AND 8B/10B DECODING SIGNAL DETECT (LOS) DXC-S500 (E)
Therefore, specified parts should be used in the case of replacement. 2. Standardization of Parts Some repair parts supplied by Sony differ from those used for the unit. These are because of parts common- ality and improvement. Parts list has the present standardized repair parts.
Camera Head Block 8-2. Exploded Views PRESITION K 2.6x5 DXC-S500 (E)
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3-620-311-01 s RUBBER, SEAL(PE) 3-620-314-01 s RETAINER, SEAL RUBBER 3-620-324-01 s RUBBER,HEAT RESISTING 3-620-325-01 s RUBBER,HEAT RESISTING 3-620-326-01 s RUBBER,HEAT RESISTING 3-713-791-51 s SCREW +P 1.7X3.5 TAPPING 3-724-455-61 s SCREW +P M2X5 3-968-729-61 s SCREW +P M2X3 7-627-454-37 s SCREW,PRECISION +K2.6X5 DXC-S500 (E)
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Control Panel 2.6x8 2.6x6 B 2.6x4 2.6x6 2.6x6 B 2.6x4 B 2.6x4 2.6x6 2.6x6 B 2.6x4 B 2.6x4 B 2.6x4 2.6x6 B 2.6x4 B 2.6x4 B 2.6x4 B 2.6x4 B 2.6x4 BTP 2.6x6 B 2.6x4 DXC-S500 (E)
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1-824-528-11 s CABLE, FLEXIBLE FLAT (45 CORE) 1-824-531-11 s WIRE, FLAT TYPE (4 CORE) 3-620-338-01 s BUTTON,(POWER) 3-620-342-01 s KNOB,VOLUME 3-620-344-01 s BUTTON,(PLAY) 3-620-349-01 s BUTTON,(CNTL) 3-620-351-02 s PLATE,INDICATION 8-753-051-24 s ACX302BKM-2 7-621-773-86 s SCREW +B2.6X4 7-685-533-19 s SCREW,+BTP2.6X6 7-685-534-19 s SCREW +BTP2.6X8 DXC-S500 (E)
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Under Case Block1 B 2.6x4 B 2.6x4 2.6x8 B 2.6x4 2.6x8 B 2.6x4 SWITCHING REGULATOR CN501 B M2x4 DXC-S500 (E)
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1-824-529-11 s WIRE, FLAT TYPE (16 CORE) 1-824-530-11 s WIRE, FLAT TYPE (12 CORE) 3-185-161-01 o SPACER (DAI 8) (SUS) 3-682-930-00 o LEG,RUBBER(ROUND) 3-712-653-01 s NUT(M8),TUBE (STEEL) 7-621-772-18 s SCREW +B M2X4 7-621-773-86 s SCREW +B2.6X4 7-685-534-19 s SCREW +BTP2.6X8 DXC-S500 (E)
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Under Case Block2 PSW 3x6 B 2.6x4 B 2.6x4 SY-301 CN501 B 2.6x4 B 2.6x4 B 2.6x4 PSW 4x8 2.6x8 K 3x8 B 2x8 B 2x4 2.6x8 B 2.6x4 2.6x8 B 2.6x4 DXC-S500 (E)
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3-929-946-01 s SCREW (2X14), TAPPING (+P) 3-968-729-61 s SCREW +P M2X3 7-621-772-40 s SCREW +B2X8 7-621-773-86 s SCREW +B2.6X4 7-682-248-09 o SCREW +K 3X8 7-682-947-01 s SCREW +PSW 3X6 7-682-961-01 s SCREW +PSW 4X8 7-685-534-19 s SCREW +BTP2.6X8 DXC-S500 (E)
1-218-977-11 s RESISTOR,CHIP 100K 1/16W(1005) C155 1-164-943-11 s CAPACITOR,CHIP CERAMIC 0.01MF R108 1-208-643-11 s RESISTOR CHIP 22 1/16W (1005) C156 1-164-943-11 s CAPACITOR,CHIP CERAMIC 0.01MF R109 1-208-635-11 s RESISTOR CHIP 10 1/16W (1005) R110 1-208-643-11 s RESISTOR CHIP 22 1/16W (1005) 8-10 DXC-S500 (E)
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R175 1-218-937-11 s RESISTOR, CHIP 47 R176 1-218-937-11 s RESISTOR, CHIP 47 R177 1-218-945-11 s RESISTOR,CHIP 220 1/16W(1005) R178 1-218-937-11 s RESISTOR, CHIP 47 R179 1-218-965-11 s RESISTOR, CHIP 10K 1/16W X101 1-795-709-11 s OSCILLATOR, CRYSTAL (VCXO) 8-11 DXC-S500 (E)
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1-164-935-11 s CAPACITOR,CHIP CERAMIC 470PF C465 1-164-882-11 s CAPACITOR,CERAMIC 220PF/16V CH C561 1-164-935-11 s CAPACITOR,CHIP CERAMIC 470PF C466 1-164-858-11 s CAPACITOR,CERAMIC 22PF/16V C562 1-119-751-11 s CAPACITOR,TANTALUM 22MF/16V C467 1-164-858-11 s CAPACITOR,CERAMIC 22PF/16V C563 1-119-751-11 s CAPACITOR,TANTALUM 22MF/16V 8-12 DXC-S500 (E)
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1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C691 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C906 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C692 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C907 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C693 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C908 1-164-943-11 s CAPACITOR,CHIP CERAMIC 0.01MF 8-13 DXC-S500 (E)
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1-414-394-11 s INDUCTOR (SMD) 2.2UH FL852 1-239-825-11 s FILTER, CHIP EMI L855 1-414-394-11 s INDUCTOR (SMD) 2.2UH L856 1-414-394-11 s INDUCTOR (SMD) 2.2UH IC401 8-759-663-74 s IC HY57V161610DTC-7TR IC403 6-702-806-01 s IC FS403 Q852 8-729-037-60 s TRANSISTOR UN9112J-(TX).SO 8-14 DXC-S500 (E)
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1-218-965-11 s RESISTOR, CHIP 10K 1/16W R894 1-218-965-11 s RESISTOR, CHIP 10K 1/16W R508 1-218-941-11 s RESISTOR,CHIP 100 1/16W (1005) R895 1-218-965-11 s RESISTOR, CHIP 10K 1/16W R509 1-218-970-11 s RESISTOR CHIP 27K 1/16W (1005) R896 1-218-965-11 s RESISTOR, CHIP 10K 1/16W 8-15 DXC-S500 (E)
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1-218-990-11 s RESISTOR,CHIP 0 1/16W (1005) R1101 1-218-849-11 s RESISTOR,CHIP 1.2K 1/10W(1608) R1102 1-218-949-11 s RESISTOR,CHIP 470 1/16W S851 1-572-972-21 s SWITCH,CHIP (2-2) S852 1-572-972-21 s SWITCH,CHIP (2-2) S1001 1-572-595-11 s SWITCH,TACTIL (REFLOW TYPE) TP401 1-535-757-11 s CHIP, CHECKER (CONNECTOR) 8-16 DXC-S500 (E)
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1-208-885-11 s RESISTOR, CHIP 820 1/16W(1005) R309 1-208-885-11 s RESISTOR, CHIP 820 1/16W(1005) R310 1-218-977-11 s RESISTOR,CHIP 100K 1/16W(1005) R312 1-218-990-11 s RESISTOR,CHIP 0 1/16W (1005) R313 1-218-990-11 s RESISTOR,CHIP 0 1/16W (1005) R314 1-218-990-11 s RESISTOR,CHIP 0 1/16W (1005) 8-17 DXC-S500 (E)
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1-164-882-11 s CAPACITOR,CERAMIC 220PF/16V CH 1-164-943-11 s CAPACITOR,CHIP CERAMIC 0.01MF 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V 1-164-943-11 s CAPACITOR,CHIP CERAMIC 0.01MF 1-164-943-11 s CAPACITOR,CHIP CERAMIC 0.01MF 1-107-823-11 s CAPACITOR,CERAMIC 0.47MF/16V 1-107-823-11 s CAPACITOR,CERAMIC 0.47MF/16V 1-164-942-11 s CAPACITOR CERAMIC 6800PF/16VB 8-18 DXC-S500 (E)
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1-208-713-11 s RESISTOR CHIP 18K 1/16W (1005) 1-414-404-11 s INDUCTOR (SMD) 100UH 1-218-969-11 s RESISTOR,CHIP 22K 1/16W (1608) 1-414-404-11 s INDUCTOR (SMD) 100UH 1-414-406-11 s INDUCTOR (SMD) 220UH 1-218-949-11 s RESISTOR,CHIP 470 1/16W 1-414-404-11 s INDUCTOR (SMD) 100UH 1-218-949-11 s RESISTOR,CHIP 470 1/16W 8-19 DXC-S500 (E)
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1-208-635-11 s RESISTOR CHIP 10 1/16W (1005) 1-208-635-11 s RESISTOR CHIP 10 1/16W (1005) 1-218-953-11 s RESISTOR, CHIP 1K 1/16W 1-218-965-11 s RESISTOR, CHIP 10K 1/16W 1-208-691-11 s RESISTOR CHIP 2.2K 1/16W(1005) 1-208-671-11 s RESISTOR CHIP 330 1/16W (1005) 8-20 DXC-S500 (E)
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8-729-106-60 s TRANSISTOR 2SB1115A Q202 8-729-823-82 s TRANSISTOR FP101 Q203 8-729-823-82 s TRANSISTOR FP101 Q204 8-729-823-82 s TRANSISTOR FP101 Q205 8-729-037-61 s TRANSISTOR UN9113J-(TX).SO R201 1-218-969-11 s RESISTOR,CHIP 22K 1/16W (1608) R202 1-218-973-11 s RESISTOR,CHIP 47K 1/16W (1005) 8-21 DXC-S500 (E)
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1-543-775-11 s BEAD, FERRITE 1-543-775-11 s BEAD, FERRITE 1-543-775-11 s BEAD, FERRITE 1-543-775-11 s BEAD, FERRITE 1-543-775-11 s BEAD, FERRITE FB10 1-543-775-11 s BEAD, FERRITE FB11 1-543-775-11 s BEAD, FERRITE FB12 1-543-775-11 s BEAD, FERRITE FB13 1-543-775-11 s BEAD, FERRITE 8-22 DXC-S500 (E)
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1-218-949-11 s RESISTOR,CHIP 470 1/16W 1-218-989-11 s RESISTOR,CHIP 1M 1/16W (1005) 1-218-989-11 s RESISTOR,CHIP 1M 1/16W (1005) 1-218-953-11 s RESISTOR, CHIP 1K 1/16W 1-218-953-11 s RESISTOR, CHIP 1K 1/16W 1-218-945-11 s RESISTOR,CHIP 220 1/16W(1005) 1-218-945-11 s RESISTOR,CHIP 220 1/16W(1005) 8-23 DXC-S500 (E)
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1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C410 1-164-874-11 s CAPACITOR,CHIP CERAMIC 100PF C557 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C411 1-164-943-11 s CAPACITOR,CHIP CERAMIC 0.01MF C558 1-104-851-11 s CAPACITOR,TANTALUM 10MF/10V C412 1-164-943-11 s CAPACITOR,CHIP CERAMIC 0.01MF C559 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V 8-24 DXC-S500 (E)
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1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V C706 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V FB707 1-543-775-11 s BEAD, FERRITE C707 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V FB708 1-543-775-11 s BEAD, FERRITE C801 1-125-777-11 s CAPACITOR CERAMIC 0.1MF/10V FB709 1-543-775-11 s BEAD, FERRITE 8-25 DXC-S500 (E)
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8-759-196-97 s IC TC7SH32FU (TE85R) Q306 8-729-823-82 s TRANSISTOR FP101 IC536 8-759-196-97 s IC TC7SH32FU (TE85R) Q401 8-729-117-32 s TRANSISTOR 2SC4177 Q501 8-729-140-63 s TRANSISTOR 2SA1611-M5M6 IC537 8-759-196-97 s IC TC7SH32FU (TE85R) Q503 8-729-117-32 s TRANSISTOR 2SC4177 8-26 DXC-S500 (E)
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1-218-990-11 s RESISTOR,CHIP 0 1/16W (1005) R420 1-218-965-11 s RESISTOR, CHIP 10K 1/16W R569 1-218-977-11 s RESISTOR,CHIP 100K 1/16W(1005) R570 1-218-961-11 s RESISTOR, CHIP 4.7K 1/16W R421 1-218-965-11 s RESISTOR, CHIP 10K 1/16W R573 1-218-955-11 s RESISTOR, CHIP 1.5K 8-27 DXC-S500 (E)
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1-208-635-11 s RESISTOR CHIP 10 1/16W (1005) R821 1-208-635-11 s RESISTOR CHIP 10 1/16W (1005) R822 1-208-635-11 s RESISTOR CHIP 10 1/16W (1005) R823 1-208-635-11 s RESISTOR CHIP 10 1/16W (1005) R824 1-208-635-11 s RESISTOR CHIP 10 1/16W (1005) 8-28 DXC-S500 (E)
1-824-530-11 s WIRE, FLAT TYPE (12 CORE) 2pcs 1-824-531-11 s WIRE, FLAT TYPE (4 CORE) 2pcs 1-793-002-11 s CONNECTOR, COAXIAL (BNC TYPE) 8-753-051-24 s ACX302BKM-2 HN101 1-961-881-11 s HARNESS, SUB (AC-PWR) (TO CN501/SY-301 BOARD) (TO AC INLET) 8-29 DXC-S500 (E)
POWER CONTROL FOR THERMO MODULE +15 V +3.3 V+3.3 V +2.5V _7.5 V CA-46 Q204 0 TO +3 V VARIABLE DC-DC CONV. THERMO DC-DC CONV. FOR THERMO MODULE FOR CAMERA MODULE Q201-Q203, Q205 IC201 CONTROLLER PS-613 CHU Block DXC-S500 (E)
TO CHU TWIN-AX S ← P SDRAM CN1004 IC803 IC302 TO CHU (MINI JACK) SDRAM D/D CONV. GIGABIT FM-84 TRANSCEIVER AC INLET Q505 AC-DC AC100 TO 240 V DC12 V 50/60 Hz SWITCHING CCU Block REG. POWER SWITCH DXC-S500 (E)
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C512 C514 MA8[W15] 2.2uF 0.1uF %MA7 MA7[W16] %MA6 MA6[W17] %MA5 MA5[W18] %MA4 MA4[W19] %MA3 MA3[V19] P1_0[U19] CL503 C D E F G H I J K L M N O P Q R S T U 10-18 10-18 DXC-S500 (E)
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SY-301 (3/5) H' I' a b c d e f g h i j k l m n o p r s t u v w x y z A' B' C' D' E' L' M' N' 10-19 10-19 DXC-S500 (E)
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Vectrscope scale Copy on a transparent sheet. 11-18 11-18 DXC-S500 (E)
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20 V AC range are suitable. (See Fig. A) To Exposed Metal Parts on Set 0.15 µ F 1.5 k Z voltmeter (5.25V) Earth Ground Fig A. Using an AC voltmeter to check AC leakage. DXC-S500 (E)