Download: MVC-FD75 SERVICE MANUAL US Model Canadian Model AEP Model UK Model Ver 1.0 2001. 01 E Model Hong Kong Model Australian Model Brazilian Model DIGITAL STILL CAMERA

MVC-FD75 SERVICE MANUAL US Model Canadian Model AEP Model UK Model Ver 1.0 2001. 01 E Model Hong Kong Model Australian Model Brazilian Model SPECIFICATIONS DIGITAL STILL CAMERA • Floppy disk that can be used by the MVC-FD75 • Size : 3.5-inch • Type : 2 HD • Capacity : 1.44 MB • Format : MS-DOS format (512 bytes × 18 sector) (FD can be formatted by the MVC-FD75) SAFETY-RELATED COMPONENT WARNING!! ATTENTION AU COMPOSANT AYANT RAPPORT COMPONENTS IDENTIFIED BY MARK OR DOTTED À LA SÉCURITÉ!0 LINE WITH MARK 0 ON THE SCHEMATIC DIAGRAMS LES COMPOSANTS IDENTIFIÉS PAR UNE MARQUE 0 AND IN THE PARTS LIST ...
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MVC-FD75 SERVICE MANUAL US Model

Canadian Model AEP Model UK Model Ver 1.0 2001. 01 E Model Hong Kong Model Australian Model Brazilian Model

SPECIFICATIONS

DIGITAL STILL CAMERA, • Floppy disk that can be used by the MVC-FD75 • Size : 3.5-inch • Type : 2 HD • Capacity : 1.44 MB • Format : MS-DOS format (512 bytes × 18 sector) (FD can be formatted by the MVC-FD75) SAFETY-RELATED COMPONENT WARNING!! ATTENTION AU COMPOSANT AYANT RAPPORT COMPONENTS IDENTIFIED BY MARK OR DOTTED À LA SÉCURITÉ!0 LINE WITH MARK 0 ON THE SCHEMATIC DIAGRAMS LES COMPOSANTS IDENTIFIÉS PAR UNE MARQUE 0 AND IN THE PARTS LIST ARE CRITICAL TO SAFE SUR LES DIAGRAMMES SCHÉMATIQUES ET LA LISTE OPERATION. REPLACE THESE COMPONENTS WITH DES PIÈCES SONT CRITIQUES POUR LA SÉCURITÉ SONY PARTS WHOSE PART NUMBERS APPEAR AS DE FONCTIONNEMENT. NE REMPLACER CES COM- SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUB- POSANTS QUE PAR DES PIÈCES SONY DONT LES LISHED BY SONY. NUMÉROS SONT DONNÉS DANS CE MANUEL OU DANS LES SUPPLÉMENTS PUBLIÉS PAR SONY.

SAFETY CHECK-OUT

After correcting the original service problem, perform the following safety checks before releasing the set to the customer. 1. Check the area of your repair for unsoldered or poorly-sol- 4. Look for parts which, though functioning, show obvious signs dered connections. Check the entire board surface for solder of deterioration. Point them out to the customer and recom- splashes and bridges. mend their replacement. 2. Check the interboard wiring to ensure that no wires are 5. Check the B+ voltage to see it is at the values specified. “pinched” or contact high-wattage resistors. 6. Flexible Circuit Board Repairing 3. Look for unauthorized replacement parts, particularly transis- • Keep the temperature of the soldering iron around 270 ˚C tors, that were installed during a previous repair. Point them during repairing. out to the customer and recommend their replacement. • Do not touch the soldering iron on the same conductor of the circuit board (within 3 times). • Be careful not to apply force on the conductor when sol- dering or unsoldering. – 2 –,

TABLE OF CONTENTS

Section Title Page Section Title Page SERVICE NOTE RL-58 Printed Wiring Board and Schematic Diagram ... 4-41 Note for Repair ... 5 4-3. Waveforms ... 4-43 Discharging of the FLASH Unit's Charging Capacitor ... 5 4-4. Parts Location ... 4-45 How to Connect the Extension Cable ... 6 Description on Self-diagnosis Display ... 7 Power Supplying Method ... 7 5. ADJUSTMENTS 1. Before Starting Adjustment ... 5-1 1. GENERAL 1-1. Adjusting Items when Replacing Main Parts and Boards... 5-2 Be Sure to Read Before Using Your Camera ... 1-1 5-1. Camera Section Adjustments ... 5-3 Before Using Your Camera ... 1-2 1-1. Preparations Before Adjustment ... 5-3 Parts Identification ... 1-2 1-1-1. List of Service Tools ... 5-3 Preparation ... 1-3 1-1-2. Preparations ... 5-4 Recording and Playing Back Images ... 1-4 1-1-3. Discharging of the Flashlight Power Supply ... 5-4 Changing the Mode Settings ... 1-5 1-1-4. Precautions ... 5-6 Using Various Functions for Recording ... 1-8 1. Setting the Switch ... 5-6 Changing the Lithium Battery in the Camera ... 1-8 2. Order of Adjustments ... 5-6 Precautions ... 1-8 3. Subjects ... 5-6 Troubleshooting ... 1-9 1-2. Initialization of E and F Page Data ... 5-7 Self-diagnosis Display ... 1-10 1. Initializing E and F Page Data ... 5-7 2. Modification of E and F Page Data ... 5-7 3. E Page Table ... 5-7 2. DISASSEMBLY 4. F Page Table ... 5-8 1-3. Camera System Adjustments ... 5-9 2-1. Cabinet (Front) Block Assembly ... 2-1 1. HALL Adjustment ... 5-9 2-2. FC-86 Board ... 2-1 2. Flange Back Adjustment 2-3. Lens Block Assembly ... 2-2 (Using the Minipattern Box) ... 5-10 2-4. Motor Units ... 2-2 3. Flange Back Adjustment 2-5. FDD Block Assembly ... 2-3 (Using the Flange Back Adjustment Chart) ... 5-11 2-6. PK-59 Board, LCD Module ... 2-3 4. Flange Back Check ... 5-12 2-7. Circuit Boards Location ... 2-4 5. Picture Frame Setting ... 5-12 6. Light Level Adjustment ... 5-13 7. Auto White Balance Standard Data Input ... 5-13 8. Auto White Balance Adjustment ... 5-14 3. BLOCK DIAGRAMS 9. White Balance Check ... 5-14 10. Color Reproduction Adjustment ... 5-15 3-1. Overall Block Diagram ... 3-1 1-4. LCD System Adjustments ... 5-16 3-2. Camera Block Diagram ... 3-3 1. LCD Initial Data Input ... 5-17 3-3. Lens Motor Drive Block Diagram ... 3-5 2. VCO Adjustment (PK-59 Board) ... 5-17 3-4. FDD Interface Block Diagram ... 3-7 3. D Range Adjustment (PK-59 Board) ... 5-18 3-5. Mode Control Block Diagram ... 3-9 4. Bright Adjustment (PK-59 Board) ... 5-18 3-6. LCD Block Diagram ... 3-11 5. Contrast Adjustment (PK-59 Board) ... 5-19 3-7. Power Block Diagram ... 3-13 6. V-COM Level Adjustment (PK-59 Board) ... 5-19 7. V-COM Adjustment (PK-59 Board) ... 5-20 8. White Balance Adjustment (PK-59 Board) ... 5-20 4. PRINTED WIRING BOARDS AND 1-5. System Control System Adjustments ... 5-21 SCHEMATIC DIAGRAMS 1. Battery Down Adjustment (FC-86 Board) ... 5-21 2. Alignment Check (FDD Unit) ... 5-21 4-1. Frame Schematic Diagrams ... 4-3 5-2. Service Mode ... 5-22 Frame Schematic Diagram (1/2) ... 4-3 2-1. Adjusting Remote Commander ... 5-22 Frame Schematic Diagram (2/2) ... 4-5 1. Used the Adjusting Remote Commander ... 5-22 4-2. Printed Wiring Boards and Schematic Diagrams ... 4-7 2. Precautions upon Using CD-338 Printed Wiring Board and the Adjusting Remote Commander ... 5-22 Schematic Diagram ... 4-7 2-2. Data Process ... 5-23 FC-86 Printed Wiring Board ... 4-9 2-3. Service Mode ... 5-24 FC-86 (CAMERA) Schematic Diagram... 4-11 1. Setting the Test Mode ... 5-24 FC-86 (DRAM CONTROL) Schematic Diagram ... 4-13 2. Bit Value Discrimination ... 5-24 FC-86 (D/A CONVERTER) Schematic Diagram ... 4-15 3. Switch Check (1) ... 5-24 FC-86 (CAMERA SERVO/EVR DECODER) 4. Switch Check (2) ... 5-25 Schematic Diagram ... 4-17 5. LED Check ... 5-25 FC-86 (FDD CONTROL (1/2)) Schematic Diagram ... 4-19 6. Self Diagnosis Code ... 5-25 FC-86 (FDD CONTROL (2/2)) Schematic Diagram ... 4-21 FC-86 (MODE/SYSTEM CONTROL) Schematic Diagram ... 4-23 FC-86 (DC/DC CONVERTER) Schematic Diagram ... 4-25 PK-59 Printed Wiring Board ... 4-27 PK-59 (FDD INTERFACE) Schematic Diagram ... 4-31 PK-59 (LCD DRIVE) Schematic Diagram ... 4-33 PK-59 (LCD TIMING GENERATOR) Schematic Diagram ... 4-35 PK-59 (MODE KEY SWITCH) Schematic Diagram ... 4-37 PK-59 (BACK LIGHT) Schematic Diagram ... 4-39 – 3 –, Section Title Page 6. REPAIR PARTS LIST 6-1. Exploded Views ... 6-1 6-1-1. Cabinet (Front) Section ... 6-1 6-1-2. Cabinet (Rear) Section ... 6-2 6-1-3. Lens Block Section ... 6-3 6-2. Electrical Parts List ... 6-4 * The color reproduction frame is shown on page 125. – 4 –,

SERVICE NOTE

• NOTE FOR REPAIR When remove a connector, don’t pull at wire of connector. It is possible that a wire is snapped. Make sure that the flat cable and flexible board are not cracked of bent at the terminal. Do not insert the cable insufficiently nor crookedly. When installing a connector, don’t press down at wire of connector. It is possible that a wire is snapped. Cut and remove the part of gilt which comes off at the point. (Be careful or some pieces of gilt may be left inside) [Discharging of the FLASH unit’s charging capacitor] Discharging the Capacitor Short-circuit between the positive and the negative terminals of The charging capacitor of the FLASH unit is charged up to the charged capacitor with the short jig about 10 seconds. maximum 300 V potential. There is a danger of electric shock by this high voltage when the R: 1 kΩ/1 W battery is handled by hand. The electric shock is caused by the (Part code: charged voltage which is kept without discharging when the main 1-215-869-11) power of the MVC-FD75 is simply turned off. Therefore, the re- maining voltage must be discharged as described below. Preparing the Short Jig To preparing the short jig. a small clip is attached to each end of a resistor of 1 kΩ /1 W (1-215-869-11). Wrap insulating tape fully around the leads of the resistor to pre- Capacitor vent electrical shock. 1 kΩ/1 W Wrap insulating tape. – 5 –, [How to connect the extension cable] 1. Connection between the FDD unit and PK-59 board. 1) Connection of the extension cable (J-6082-427-A) 3) Connection between the FDD unit and extension cable CN013 Conductor side Conductor side FDD unit Extension cable (J-6082-427-A) Fig. 1 Extension cable (J-6082-427-A) CN011 2) Connection between the PK-59 board and extension cable CN012 PK-59 board CN602 CN601 Fig. 3 Extension cable (J-6082-427-A) Conductor side Fig. 2 – 6 –, [Description on Self-diagnosis Display] Note : The “Self-diagnosis” data is backed up by the coin lithiumbattery. The data will be lost and initialized when the coin lithium battery is removed. Display Code Countermeasure Cause Caution Display During Error Change the disk and turn off the main C:32:01 Defective floppy disk. DRIVE ERROR power then back on. • The type of floppy disk that cannot be Replace the floppy disk. used by this machine, is inserted. C:13:01 Format the floppy disk with the MVC- (Such as 2DD) DISK ERROR FD75. • Data is damaged. • Unformatted disk is inserted. Flash LED Checking of flash unit or replacement of Abnormality when flash is being E:91:01 Flash display flash unit charged. Flashing at 3.2 Hz E:61:00 Checking of lens drive circuit When failed in the focus initialization. — E61:10 [Power supplying Method] Use the AC power adaptor (AC-VQ850/VQ850D) when supplying the power to this set. – 7 –,

MVC-FD75 SECTION 1 This section is extracted from GENERAL instruction manual.

1-1, 11-1-100 E,

MVC-FD75 SECTION 2 DISASSEMBLY

• This set can be disassembled in the order shown below. MVC-FD75 2-1. CABINET (FRONT) BLOCK ASSEMBLY (Page 2-1) 2-2. FC-86 BOARD 2-3. LENS BLOCK ASSEMBLY 2-4. MOTOR UNITS (Page 2-1) (Page 2-2) (Page 2-2) SERVICE POSITION 2-5. FDD BLOCK ASSEMBLY (FC-86 BOARD AND CD-338 BOARD) (Page 2-3) (Page 2-2) 2-6. PK-59 BOARD, LCD MODULE (Page 2-3) SERVICE POSITION (LCD PANEL AND PK-59 BOARD) (Page 2-3)

Note: Follow the disassembly procedure in the numerical order given.

2-1. CABINET (FRONT) BLOCK ASSEMBLY 2-2. FC-86 BOARD 8 Connector (CN907) 9 Connector 7 Connector (CN910) (CN901) 2 Two screws (M2) 5 FC-86 board 1 Two screws (M2) 3 Two screws (M2) 4 Three screws (M2) 1 Frexible board 3 FP-34 frexible board (CN401) (CN101) 4 screw 2 FP-35 frexible board (M2) (CN601) 5 screw (M2) 6 Cabinet (front) block assembly 2-1, 2-3. LENS BLOCK ASSEMBLY 2-4. MOTOR UNITS 7 Zoom motor unit 5 Focus motor unit 1 FP-34 flexible board (CN101) 6 Two screws 3 Boss 1 Break solders of 2 Flexible board motor units.4 Screw (CN401) 4 Lens block assembly 3 Flexible board 2 Screw Note: Flexible board of zoom lens is not supplied. Please be careful not to break the flexible board when you change the motor unit. [SERVICE POSITION (FC-86 BOARD AND CD-338 BOARD)] CD-338 board Lens block assembly : Contacting surface Adjustment remote commander Extension cable (16P) Cabinet (front) (J-6082-427-A) block assembly CPC-9 jig (J-6082-393-C) (Note) FC-86 board AC power adaptor Stand Cabinet (rear) AC IN block assembly Note: Don’t use the 12 pin flexible board of CPC-9 jig. It causes damage to the unit. 2-2, 2-5. FDD BLOCK ASSEMBLY 2-6. PK-59 BOARD, LCD MODULE 0 LCD module 1 Open the side Cabinet. 9 PK-59 board Zoom knob 8 screw RV701 4 Cold cathode fluorescent tube 2 Two screws 3 Flexible board (CN601) PLAY/CAMERA knob 2 FDD block assembly S708 4 Flexible board 1 Flexible board 5 Flexible board (CN851) 7 Two screws (CN901) (CN602) 3 Two screws 6 Four screws Note: When installing PK-59 board, connect RV701 with zoom knob and S708 with PLAY/CAMERA knob. [SERVICE POSITION (LCD PANEL AND PK-59 BOARD)] Adjustment remote Lens block assembly commander : Contacting surface Extension cable (16P) FDD block Cabinet (front) (J-6082-427-A) assembly block assembly CPC-9 jig (J-6082-393-C) (Note 1) AC power adaptor AC IN Stand FC-86 board Extension cable (J-6082-427-A) (Note 2) LCD panel PK-59 board Note 1: Don’t use the 12 pin flexible board of CPC-9 jig. It causes damage to the unit. Note 2: Connection method refer to page 6. 2-3, 2-7. CIRCUIT BOARDS LOCATION FC-86 ( CAMERA, DRAM CONTROL, D/A CONVERTER,RL-58 CAMERA SERVO/EVR DECODER, (RELEASE SWITCH) FDD CONTROL, MODE/SYSTEM CONTROL, ) DC/DC CONVERTER CD-338 (CCD IMAGER) FLASH UNIT PK-59 ( FDD INTERFACE, LCD DRIVE, LCD TIMING GENERATOR, ) MODE KEY SWITCH, BACK LIGHT 2-4 E, LENS TEMP AD FC RST SENS FC RST SENS ZM RST SENS ZM RST SENS HALL AD TG CS CAM SI, CAM SO, XCAM SCK HI SI, HI SO, XHI SCK BACKUP VCC

RESET

HI SO, XHI SCK ADDRESS BUS PYRA R PYRA G DATA BUS PYRA B DISK IN

MVC-FD75 SECTION 3 BLOCK DIAGRAMS

3-1. OVERALL BLOCK DIAGRAM

CD-338 BOARD FC-86 BOARD PK-59 BOARD

LENS IRIS

METER

CCD OUT CA Y0-7 PANEL Y0-7 PANEL R VR IC401 PANEL G IC802IC102 CA AD01-10 VG CCD PANEL B LCD DRIVE IMAGER S/H, AGC, IC104 CA C0-7 PANEL C0-3

VB

IC601 (SEE PAGE 4-34) LCD901 (SEE PAGE 4-8) A/D CONVERTER(SEE PAGE 4-11) Y/C PROCESSOR D/A CONVERTER XCLPOB (SEE PAGE 4-12) CA HD, CAVD SYS H, SYS V (SEE PAGE 4-15) PANEL XHD 2.5inch M901 M902 CAC VD COLOR FOCUS ZOOM H LCD MOTOR MOTOR SHP, SHD, IC901 MONITOR CLD, CLPDM,

M M H1, H2, RG IC103 PBLK IC903 LCD

TIMING SYS V PANEL XVDFR, HR SWITCH

TIMING

GENERATOR (SEE PAGE 4-35) GENERATORV1, V2A, V2B, V3, VSH (SEE PAGE 4-11) MCK (SEE PAGE 4-35)TEMP FOCUS ZOOM SENSOR SENSOR ENCODER ND801CAM SI, CAM SO, XCAM SCK SYS H, BACK LIGHT SYS V IC705 MCK OSD (SEE PAGE 4-24) BL HIGHBL UNREG SWITCHING IC401 IC404 MCK (SEE PAGE 4-17) IC503 AGC CONT 1, 2 DRC DRIVE(±) IRIS DRIVE IRIS CONT 1, 2 IC301 (SEE PAGE 4-13) IC801 HI SO, XHI SCK EVR EVR IC851CAM SI, CAM SO, XCAM SCK HALL OFFSET/GAIN (SEE PAGE 4-33) BL LEV DC/DC BIAS(±), HALL(±) DATA DECODER HALL AMP (SEE PAGE 4-17) CONTROL (SEE PAGE 4-39) HALL AD IC402 (SEE PAGE 4-17)

MCK

Z A, Z B, Z XA, Z XB ZOOM DIR 1A,1B IC403 CAC VD MOTOR DRIVE FOCUS/ZOOM IC804 WRITE DATA CONTROL D00-15 D00-07 BUS BUFFER D0-7 READ DATA FC A, FC B, FC XA, FC XB FOCUS DIR 0A, 0B DECODER (SEE PAGE 4-20) DIRECTION, STEP, SIDE1 SELECT (SEE PAGE 4-18) CAM SI, CAM SO, XCAM SCK IC801 MOTOR DRIVE A01-10 A00-02 FDD CONTROL TRACK00, WRITE PROTECT, INDEX (SEE PAGE 4-19) INT, TC IC601 FLOPPY HI SO, XHI SCK FDD INTERFACE FDD DATA DISK DRIVE (SEE PAGE 4-31) UNIT IC802 WRITE GATE WRITE GATE (SEE PAGE 4-19) ZOOM RST FOCUS RST HI SI, HI SO, XHI SCK TEMP COMP DRIVE SELECT, MOTOR ON IC806 DENSITY OUT, DISK CHANGE

SYSTEM

CONTROL DISK IN DISK IN IC501 (SEE PAGE 4-21)D00-15 D00-15 IC703 16M DRAM EEPROM (SEE PAGE 4-14) A01-10 A00-17 (SEE PAGE 4-24) IC805 SE801IC803 XSTB FULL, STB CHARGE SHOCK DET SHOCK + FLASH UNIT IC807 A01-17 SHOCK SIGNAL FLASH SENSORDETECT MEMORY (SEE PAGE 4-20)D00-15 (SEE PAGE 4-20) (SEE PAGE 4-22)

RL-58 BOARD S702

(SEE PAGE 4-42) XPWR SW S051 POWER POWER XRLS ON1, 2 IC702

SWITCH

SHUTTER SHUTTERSWITCH HI CONTROL S708 (SEE PAGE 4-24) XCAM PB SW MODE SWITCH PLAY/CAMERA RV701 ZOOM SW ZOOM ZOOM

SWITCH

FDD P 5V CAM DD ON, CAM P 5V S701, 703 –707, 709 LCD DD ON, PANEL 6.5V SYS DD ON PANEL 13.2V IC901 KEY AD0-2 FUNCTION BEEP 15V SWITCH DC CONTROL CAM 15V + BATT UNREG (SEE PAGE 4-25) CAM –5.5V PANEL –15.3V S BATT SIG BUZZER BZ701BT901 A 4.9V BATTERY D 4.9V IC701 (BUZZER) TERMINAL BATT/XEXT PANEL 4.9V INITIAL RESET, UNREG LI 3V D 3.2V BACKUP VCC BH701 – BATT GND PANEL 3.2V (SEE PAGE 4-23) LITHIUM + BATTERY BL UNREG BATTERY – HOLDER

UNREG

3-1 3-2, XCAM SCK CAM SO CAM SI XCS OSD XHI SCK HI SO XRST SYS XCS IDIC2

MVC-FD75

3-2. CAMERA BLOCK DIAGRAM FC-86 BOARD (1/4) 500 mVp-p 4.0 Vp-p IC601 3.8 Vp-p IC503 D/A CONVERTER H

CD-338 BOARD (SEE PAGE 4-15)60 nsec IC104 DRC IC601 wd REC/PB

IC102 2-qa REC 60 nsec CN602 Y/C PROCESSOR (SEE PAGE 4-13) IC601 2-5, ej-rf REC/PB (SEE PAGE 4-12) Q601 (1/3) PANEL R 1.0 Vp-p IOR 23 BUFFER 17 IC102 83 58 IC401 4.6 Vp-p66 µsec S/H, AGC, ı ıDOY0 45 YIN0 YOUT0 37 Y0 CCD IMAGER 87 62IC401 REC A/D CONVERTERııCA Y0-7ııPANEL Y0-7ıı500 mVp-p7 (SEE PAGE 4-8) 80 nsec (SEE PAGE 4-11) DOY7 38 89ı YIN7 YOUT7 ı 44 Y7IC102 qh REC

H

Q401 CN401 CN101 91 66 IC601 ql REC/PB CCD OUT D0 2 97 AD9 DOC0 36 92 CIN0 COUT0 75 5 C0 CCD OUT 7 BUFFER 2 15 26 DINııCA AD01-10ııııCA C0-7ııııPANEL C0-3ııD9 11 88 AD0 DOC7 29 99 CIN7 COUT3 72 2 C3 Q602 IOG 19 BUFFER PANEL G 19 3.2 Vp-p 3.2 Vp-p 6.0 Vp-p CLPOB 20 83 XCLPOB IC103 500 mVp-pV H 66 µsec IC601 rh REC/PB IC601 rg REC/PB IC401 1, 2 REC TIMING GENERATOR (SEE PAGE 4-11) H MFRO 57 80 XVDI XHDO 56 45 HD IC601 qf REC/PB MHRO 58 81 XHDI XVDO 57 46 VD TO V1 Q603 PK-59 BOARDV11710 40 V1 CFRO 65 82 XVOC MCK 78 31 MCK V3 1 (LCD BLOCK) V32611 41 V3 IC705 34 VCK IOB 14 BUFFER PANEL B 21 V2A CN603 V2A3512 42 V2A V2B CLD 35 16 ADCLK OSD (SEE PAGE 3-11) V2B4413 44 V2B (SEE PAGE 4-24)XCLPDM 15 23 CLPDM 3.2 Vp-p XSHP 17 22 XSHP 20 HSYNC VC0 18 48 CGB XSHD 18 21 XSHD H 19 VSYNC VC1 17 36 CGR PBLK 21 19 PBLK IC601 rj REC/PB 5.8 Vp-p 8 MCK VC2 16 32 CGG BLKA 15 1 CGBLK PANEL XHD 66 µsec HDO 47 11 IC401 3, 4 REC STBY 18 RESET 4 27 XRST PGACONT2 29 S IN 3 28 SI VREFR 21 VSH PGACONT1 30 SHT 10 11 6 45 VSUB SCLK 1 29 XSCK VREFG 17 CS 2 26 XCS VREFB 13 2.4 Vp-p PANEL XVD

XLCDH

80 nsec 3/2MCK 23 80 MCK132 XLCDH 55 22 IC401 qs REC HRI 33 82 HRO XCS 44 FRI 34 81 FRO XRST 40

RG

RG 12 1439RG SI 45 H1 H1 13 15 2 12 H1 XSCK 43 H2 H2 14 16 1 13 H2 WEN 3 84 WWEI SSI 27 13 SI XCLR 10 SSK 28 12 SCK XCE 11 MCK 38 85 MCKI 15 – 20 14 SO DAT0 2.0 Vp-p 22 – 25X101 ı DAT15 27 – 29 MC D00-15 DATA BUS MC D00-15 36.818178MHz 31 – 33 80 nsec 48 OSCI IC401 qd, qf REC RST 25 ADR0 3 – 5 SEN 29ı7– 12 MC A01-10 ADDRESS BUS MC A01-10 ADR9 100 TO 47 OSCO DSGAT 37 2 FDD INTERFACE XRAS 34 XRAS

BLOCK

XCASH (SEE PAGE 3-7)XUCAS 35 XLCAS 36 XCASL XWE 37 XWE XOE 39 XOE XBRQ 42 XBUS RQ 950 mVp-p STRBON 53 STRB ON DRBUSRQ 41 DR BUS RQ 36.818178 MHz XCS OSD IC103 REC/PB XHI SCKrj HI SO XRST SYS XCS IDIC2 SYS V XRST CORE TO 3 MODE CONTROL XCS IDIC BLOCK CAM SI (SEE PAGE 3-9) CAM SO XCAM SCK GCAM STBY SHUTTER WE XRST SYS TG CS CAM DD ON VREF PYRA AGC CONT2 TO LENS MOTOR AGC CONT1 DRIVE CAC VD 4 BLOCK MCK (SEE PAGE 3-6) 3-3 3-4,

MVC-FD75

3-3. LENS MOTOR DRIVE BLOCK DIAGRAM

FC-86 BOARD (2/4)

IC301

EVR

IC404 (1/4) DATA DECODER(SEE PAGE 4-17) IRIS CONTROL (SEE PAGE 4-17) 14 + 4 IRIS CONT1 VREFPYRA 12 VREF PYRA 13 5 AGC CONT2 8 AGC CONT2– IRIS CONT2 TO LENS UNIT AGC CONT1 7 AGC CONT1 4 CAMERA BLOCK CAC VD (SEE PAGE 3-4) IC401 (2/2) MCK IC401 (1/2) IRIS CN401 IRIS DRIVE MOTOR DRIVE(+) IRIS DRIVE (SEE PAGE 4-17) F CHG1 D 3.2V (SEE PAGE 4-17) 6 F CHG 6

M Q402 – 2 7 – FLASH ADJ 11

FLASH ADJ DRIVE(–) 5 6 INVERTER 1 + 3 + XCS 22 XCS CAM D/A XCAM SCK IC404 3(2/4) HALL REF CLK 19 SI 20 CAM SO HALL BIAS CONTROL IC404 (3/4) HALL OFFSET CAM SI (SEE PAGE 4-17) 2 HALL GAIN SO 21 HALL AMP BIAS(+) 5+ (SEE PAGE 4-17) 2 7 – 6 10 + 8 HALL AD HALL HALL(–) 9 – SENSOR IC404 (4/4) HALL(+) HALL GAIN CONTROL 5 (SEE PAGE 4-17) Q403 BIAS(–) 3+ CAM SI 4 INVERTER 1 – 2 CAM SO XCAM SCK IC402 IC403 (SEE PAGE 4-17) (SEE PAGE 4-18) M901 FOCUS TO MOTOR FC A 11 5 A1 IN1 12 12 DIR0A 5 MODE CONTROL FC B VDIN 1

M 12 7 A2

FOCUS IN2 14 13 DIR0B FOCUS BLOCK FC XA MOTOR CONTROL CKIN 8 (SEE PAGE 3-9) 13 26 B1 EN1 13 14 EN0 FC XB DRIVE DECODER14 24 B2 EN2 15 19 SENS0 SCK 4 XCAM SCK M902 SIN 5 CAM SO ZOOMZACAM SI MOTOR78A3 IN3 16 15 DIR1A SOUT6ZB810 A4 ZOOM IN4 19 16 DIR1B ZOOM

M Z XA XCS IDIC9 22 B3 MOTORDRIVE EN3 17 17 EN1

CONTROL CS3ZXB DECODER XRST PDR 10 20 B4 EN4 19 18 SENS1 XCLR 9 FOCUS FOCUS RST 19 FC RST SENS

SENSOR

ZOOM ZOOM RST 17 ZM RST SENS

SENSOR

Q401 SENS VCC 20 D 3.2V LENS RST LED TEMP TEMP COMP LENS TEMP AD SENSOR 15 3-5 3-6, DATA BUS ADDRESS BUS

G DIR MVC-FD75

3-4. FDD INTERFACE BLOCK DIAGRAM

PK-59 BOARD (1/3) FC-86 BOARD (3/4)

IC801 IC601 FDD CONTROL FDD INTERFACE 3.3 Vp-p IC804 (SEE PAGE 4-19) CN602 CN603 (SEE PAGE 4-31) 4 MHz BUS BUFFER (2/3) (1/3) IC601 rs REC/PB (SEE PAGE 4-20) DIRECTION 57 DIR 8 44 17 7 XIDIR OSCO 42 ı STEPSTEP 10 43 18 6 XISTP 2 A0 B0 18 60 D0 WRITE DATAWDATA 11 47 14 5 XIWD MC D00-15 DATA BUS MC D00-07ııııD0-7 62 ı TRACK 00 9 A7 B7 11 63 D7 TRK0 24 50 11 3 XT00 OSCI 43 WRITE PROTECT 65 WPRT 26 5472XWPOREAD DATA X601 67 RDATA 27 55 6 13 XRDO 4MHzSIDE1 SELECT MC A01-10 ADDRESS BUS SIDE 36 5651XSSIINDEX 19 1 A00 INDEX 76 37 24 9 XIDXO51 A0 CN602 IC501 A01 50 XCS ERASE 16M DRAM A00-02 A02 EO1 75 92.4 Vp-p R/W A (SEE PAGE 4-14) 49 RSEL RW1B 68 7 RW1A 69 6 R/W B16 MHz XOE XA1 82 RW0B 71 5 R/W B2 IC801 id REC/PB ı RW0A 72 4 R/W AX803 5 16MHz EO0 76 2 ERASE 217ııIC806 XA2 83 24 A0 DQ0 10 MC A01-10ııMC D00-15 SYSTEM CONTROL XB1 86 27 41 IC802 FLOPPY DISK A9 DQ15 (SEE PAGE 4-21) CN601ııWRITE GATE DRIVE UNIT 32 44 CPO 41 13

CLOCK

(SEE PAGE 4-19) XFPTS 51 17 FPTS46 XWE ı 164 FDC INT 11 71 INT WE 13 WRITE GATE17 XWE 51 10 4 XIWG HDS 50 16

HOS

XRAS 162 FDC TC 12 70 TC EM3 100 XMC 48 12 MC18 XRAS ı XOE 158 FDC XDMAAK 13 69 XDMAAK33 XOE XIDXS 47 11

INDEX

XCASH 155 FDC RESET 23 45 RESET

PA

34 XCASH D0 PA0 26 6 XCASL MC D00-15 152 ı XCS2 57 48 XENRW35 XCASL PA1 28 7

PNA

ı D15 PB TO 148 XOE PB0 35 5 PNB CAMERA 46 XRD2 146 XWE FD READY PB1 33 8BLOCK 47 XWR READY 30 39 22 10 XRDYO STBY 22 3 STBY (SEE PAGE 3-4) IC807 144 EM2 4 FLASH MEMORY ı TOSI 21 1 TOS1 142 DISK (SEE PAGE 4-22) DISK 52 18 ı 29 73 A0 ı D0 MC A00-10 75 ı DISK CHANGE36 FDD XDCHG 24 40 21 11 XDCOı 38 MC D00-15 77 A10 DENSITY OUT D15 ı FDD DENSITY 26 42 19 18 XDOı 81 Q802 45 DRIVE SELECT FDD SELECT 28 INVERTER 38 23 12 XDSEL 7 Q803 TPA 64 FD RF A0 8 MOTOR ON ı 18 MC A01-10 FDD MOTOR ON 29 INVERTER 41 20 8 XMON T00 TO A9ı7LCD BLOCK 25 (SEE PAGE 3-11)XWE 11 XWE 82 INDEX XOE 128 XOE A10 84 A11 ı ı6 A11-17 ı 86 DISK IN A16 A17 48 13 48 ı IC805 90 IC803 SHOCK SIGNAL XRESET 12 9 FLASH RESET SHOCK SENSOR DETECT XCE 26 56 XCS1 X802 (SEE PAGE 4-20) (SEE PAGE 4-20) 15MHz SE801 XTAL 108 + 1 S1 6 XCLRQ5XOE 53 XRD XRAS Q801XRAS 58 XRAS3 2 VR2 XCASH XWE 59 XWR EXTAL 107 OUT41CK XQ 3 XCASL XCASL 61 XCAS 7 B0 XWE XCASH 62 XCAS1 XOE 8 B1 XBUS RQ 45 XBUS RQ 9 A0 HI SI XHI SCK 1 SCK0 HI SO HI SI 2 TxD0 XHI SCK HI SO 3 RxD0 XRST SYS XRST SYS 117 XRST SHOCK DET 27 119 IRQ1 TO DR BUS RQ 10 DR BUS RQ MODE CONTROL XMC CANCEL6 118 XMC CANCELBLOCK XMC NMI 560 mVp-p (SEE PAGE 3-9) 116 NMIXCS MC 4 SCK1 DISC IN 21 15 MHz IC806 MVC-FD75 3-5. MODE CONTROL BLOCK DIAGRAM

FC-86 BOARD (4/4) IC702 PK-59 BOARD (2/3)

HI CONTROL (SEE PAGE 4-37) S703 (SEE PAGE 4-24) CN602 CN603 PICTURE S706 (3/3) (2/3) EFFECT BRIGHT(+) KEY AD0 82 KEY AD026 35 KEY AD1 83 28 KEY AD1 33 KEY AD2 KEY AD2 84 30 31 CN910 XSTB FULL Q703 S7015 32 XSTB FUL XACS LED D701 STB CHARGE REC LED 55 LED DRIVE 27 34 CONTROL12 93 STB CHG ACCESS UP SET S705 S709FLASH ADJ LEVEL UNIT 2 FLASH BRIGHT(–)F CHG 1 Q704 D70216STB LED 56 XCHG LEDLED DRIVE 25 36 FLASH CHARGE STRB ON LEFT4 S70825SELFTMRLED Q706 D706 PLAY/CAMERA 3 RIGHT 58 LED DRIVE SELF TIMER 4CAMERA PLAY DOWN S707 S704 PROGRAM S702 DISPLAY AE STRB ON XCAM PB SW 15 XCAM PB SW20 41 POWER OFF DR BUS RQ 99 DR BUS RQ XCS OSD XPWR SW43 XCS OSD XPWR SW 14 18 43 ON RV701 XHI SCK ZOOM HI SOWTXRST SYS

PANEL

3.2V XPWR SW XCS IDIC2 ZOOM SW28 XCS IDIC2 ZOOM SW 78 24 37 SYS V 62 SYS V MELODY ENV 59 XRST CORE TO 91 XRST CORE Q707, 708 Q701, 702 TO CAMERA BLOCK 3 MELODY 36 BEEP BZ701MODULATOR 32 29 AMP 8 LCD BLOCK (SEE PAGE 3-4) XCS IDIC (BUZZER) (SEE PAGE 3-11) CAM SI LANC OUT 2 59 LANC OUT 2 LANC OUT CAM SO LANC IN 1 60 LANC IN 1 LANC IN XCAM SCK XCS LCD D/A 26 14 XCS PANEL D/A 47 XCS PANEL D/A HI SO 12 HI SO 49 HI SO

TO

9 LCD BLOCK GCAM STBY XHI SCK XHI SCK XHI SCK95 G CAM STBY 4.2 Vp-p 10 51 (SEE PAGE 3-11) SHUTTER WE 68 XSL SHUTTER WE 20MHz OUT 40 TG CS X701 20 MHz LI 3V92 TG CS 29 32 CAM DD ON 20MHz BH701IC702 r; REC/PB37 CAM DD ON 20MHz IN 41 LITHIUM + BATTERY BATTERY – HOLDER F CHG FLASH ADJ XCS CAM D/A 32kHz IN 5225 XCS CAM D/A HALL AD X70280 HALL AD 32.768kHz 3.4 Vp-p 32kHz OUT 53 TO CAM SI CAM SI 32.768 kHz RL-58 BOARD LENS MOTOR 33 CAM SICAM SO CAM SO (SEE PAGE 4-42) S051 DRIVE 5 34 CAM SO IC702 td REC/PB BLOCK XCAM SCK XCAM SCK

SHUTTER

35 XCAM SCK CN907 CN051 (SEE PAGE 3-6) XCS IDIC XCS IDIC 24 XCS IDIC 1 2XSHTR LOCK SW 17 3 XRLS ON1 3 XRLS ON2 XRST PDR XSHTR SW 16 2 294 XRST PDR FC RST SENS 3, 466 FC RST SENS ZM RST SENS UNREG67 ZM RST SENS LENS RST LED 3 LENS RST LED LENS TEMP AD 79 LENS TEMP AD BATT SENS 71 HI SI HI SI 44 HI SI IC701 HI SO HI SO 45 HI SO INITIAL RESET, BACKUP VCC D703 XHI SCK XHI SCK 46 XHI SCK (SEE PAGE 4-23) XRST SYS XRST SYS 9 XRST SYS 42 51 VIN 7 D701 DO 4 HI SI BACKUP VCC 75 – 77 6 VOUT VBAT 3 DI 3 HI SO 86 87 TO IC703 SCK 2 XHI SCKFDD INTERFACE 6 EEPROM BLOCK CS 1 23 XCS EEPROM XDRY BATT 72 8 VRO (SEE PAGE 3-7) (SEE PAGE 4-24) RST 6 12 XEEPROM WE XRESET 38 5 RESET BATT IN 61 4 CS XLI PRE END 69 2 PREEND BT901 DR BUS RQ BATTERY XMC CANCEL TERMINAL96 XMC CANCEL CN901 XMC NMI 50 XMC NMI Q701, 702 BATT UNREG 1 BATT UNREG XCS MC +22 XCS MC DISK IN 18 DISK IN BATT SI 48

BATTERY

2 BATT SIGCHARGE S BATT SO 49 DETECTOR DC PACK SW 65 4 BATT/XEXT BATT GND 3 – 3-9 3-10, CONT1 CONT2 CONT3 CONT4 PANEL R PANEL G PANEL B

BRIGHT

SUB BRT R SUB BRT B

CONTRAST

RGB AMP COM AMP

XTEST

W MSKV BLACK IN FRPV FRP FRPT COM FRP

VG COM MVC-FD75

3-6. LCD BLOCK DIAGRAM

PK-59 BOARD (3/3) 600 mVp-p 4.0 Vp-p 4.0 Vp-p 4.0 Vp-p

IC802

H

IC802 LCD DRIVE 2H 2H 2H 8 REC/PB 600 mVp-p (SEE PAGE 4-34) IC802 w; REC/PB IC802 ws REC/PB IC802 wf REC/PB CN603 H PANEL UNIT (3/3) IC802 9 REC/PB CN901 44 PANEL R G/Y R OUT

VR

8 20 9 PANELGGOUT VG 42 9 R/R-Y/CR 22 10 PANEL B 10 B/B-Y/CB B OUT40 LCD DRIVE 24

VB TO

FC-86 BOARD Q903 – 906 (CAMERA BLOCK) 1 560 mVp-p COM OUT COM CN602 41 5 COM AMP 7 BUFFER 14 (SEE PAGE 3-4) PANEL XHD PANEL XHD H 50 IC802 0 REC/PB 48 PANEL XVD PANEL XVD IC902 (2/2) XLCDH XLCDH (SEE PAGE 4-35)39 IC801

EVR

(SEE PAGE 4-33) 39 32 31 40 30 35 38 48 29 28 LCD901 BRIGHT 1 BRT BRT R 2.5inchBRTR4BRTB5BRT B

COLOR

1.8 Vp-p LCD CONT 6 CONT MONITOR TO XCS PANEL D/A 22 XEN RGB AMP 9 AMP 2H MODE CONTROL 9 HI SO 20 SI COM ADJ 10 COM ADJ IC802 ra REC/PBBLOCK XHI SCK BRT TST (SEE PAGE 3-10) 19 CLK BRT TST 18 + V COM 8 COM VGL VGL PANEL –15.3V 15 4.0 Vp-p GENERATOR IC901 7.7 MHz LCD TIMING GENERATOR VB12 VB12 IC901 wh REC/PB (SEE PAGE 4-35) PANEL 4.9V GENERATOR 6 IC902 (1/2) (SEE PAGE 4-35) WIDOV 9 FRPV 11 27 OSCI VCO 7 VCO FRPT 12 26 OSCO CTR 22 CTR 3 20 EX2FILTER EX2 5 15 EXT IC903 EX3 21 EX3 16 JIG CON 32 PDP SPD SWITCH COMTST 17 COMTST SPD 23 2 47 COMTST CLD (SEE PAGE 4-35) CLD 24 1CLS 135612 BL LEV CLS 13 21 CN802 14 EXT BGP BL LEV 10 3.2 Vp-p SPSSPS 14 20 EX1 1 PANEL B EX1 15 19H MO1 2 PANEL G IC901 ej REC/PB MODE1 16 18MO2 3 PANEL R PANEL XHD 1 IN/OUT1 OUT/IN1 2 37 SYNI MODE2 17 17RES PANEL XVD 4 IN/OUT2 OUT/IN2 3 34 P15 RES 1875JIG XHD 8 IN/OUT3 OUT/IN396JIG XVD 11 IN/OUT4 XLCDHOUT/IN4 10 36 P16 3.2 Vp-p 4 HSY V IC901 ef REC/PB

CPC

5.0 Vp-p (FOR CHECK) 7 HSY COM H8 IC901 4 REC/PB 9 VG LANC IN Q85611 LANC OUT SWITCHING12 IC851 XPWR SW T85113 4DC/DC CONTROL BL UNREG 2 • INVERTER 7.0 Vp-p (SEE PAGE 4-39) 5 TRANS 15 INDEX 16 TRACK 0013352µsec SAW Q854 18 FDD RF 7 – CN851IC851 1 REC/PB OSC OUT PUT 1 SWITCHING Q860 ND801 + INVERTER11BL HIGH 18 BACK LIGHT • FB DRIVE4210 FDD RF 3 Q857 – 859 19 TO 3 FDD INTERFACE T00 – 4 BL LEVELQ851, 852546BLOCK 7 INDEX + (SEE PAGE 3-8) PANEL 4.9V 2 VCC Q855 TO XPWR SW SHORT CIRCUIT Q853 IC852 MODE CONTROL LANC OUT8 PROTECT PROTECT CURRENT DETECT BLOCK LANC IN SWITCH D852 (SEE PAGE 4-40) (SEE PAGE 3-10) D853 3 BL LOW24+ • Q862 – 1 3 D901 LED SWITCH LED

LED

3-11 3-12, V REF 2.5V D 3.2V CAM 15V CAM –5.5V

MVC-FD75

3-7. POWER BLOCK DIAGRAM

CD-338 BOARD FC-86 BOARD

CN401 CN101 Q101 – 104 IC401 CAM –5.5V12 5 CCD IMAGER CAM 15V9 8 (SEE PAGE 4-8) IC501 IC503 IC601 IC804 IC806 IC807 16M DRAM DRC D/A CONVERTER BUS BUFFER SYSTEM CONTROL FLASH MEMORY IC103 IC102 IC104 (SEE PAGE 4-14) (SEE PAGE 4-13) (SEE PAGE 4-15) (SEE PAGE 4-20) (SEE PAGE 4-21) (SEE PAGE 4-22) TIMING S/H AGC, Y/C CAM DD ON IC404 IC401 GENERATOR A/D CONVERTER PROCESSOR HALL AMP IRIS DRIVE (SEE PAGE 4-11) (SEE PAGE 4-11) (SEE PAGE 4-12) LENS UNIT (SEE PAGE 4-17) (SEE PAGE 4-17) FB102 IRIS L501 L601 L802 MOTOR CN401 L101 FB104 L102 TEMP DRIVE(+) L403 D 3.2V SENSOR 1 L404 Q918, 922, 928, 929TEMP OUT 16 –5.5V IC301 IC703 IC705 REGULATOR FOCUS ZOOM SENSOR SENSOR EVR EEPROM OSD V REF 2.5V PK-59 BOARD CN601 FDD 5V(A) Q401 IC403 IC402 DATA DECODER (SEE PAGE 4-24) (SEE PAGE 4-24) 4 SENS VCC (SEE PAGE 4-17) 20 FOCUS/ZOOM FOCUS/ZOOM L401 IC601 9 FDD 5V• CONTROL DECODER MOTOR DRIVE CN602 CN603 FDD INTERFACE 10 FLOPPY DISK (SEE PAGE 4-18) (SEE PAGE 4-17) BEEP 15VL301 (SEE PAGE 4-31)31 30 BEEP 15V CN602 DRIVE UNIT

COMMON

L601 3 CN910 COMMON8 REG 5V3A4.9V D 3.2V 10 D 3.2V CN802FLASH UNREG1 UNREG CPC UNIT (FLASH) F901 F904 1 BL UNREG 60 (FOR CHECK)13 • • 2 59 F903 L902 T851 CN851 L851 Q856 INVERTER 18 ND801 D706 SWITCHING BL HIGH • BACK F902 L901 TRANSCAM P 5V 19SELF TIMER LIGHTQ851, 852 Q862 BT901 5 LEDBATTERY D901LED TERMINAL Q906 CN901 LF901 18 VCC VCC OUT 45 SWITCHING L905 + BATT UNREG FDD P 5V 33 FDD P 5V 281 LINE FILTER • • IC851 IC852 34 27 PANEL

S BATT SIG

OUT A 46 DC/DC CONTROL CURRENT DETECT UNIT 2 (P5V) (SEE PAGE 4-39) (SEE PAGE 4-40) Q911 Q916, 920, 924, 925 6 –IN A +INA7CN901 BATT/XEXT EMERGENCY 13.2V PANEL 13.2V6 55 24 VGH/VGH4 SPCA8DETECT REGULATOR L901 LCD901 – BATT GND D904 Q917, 921, 926, 927 3 RECT LCD DD ON IC902 6.5V PANEL 6.5V REGULATOR 9 52 VCO, COM AMP 2.5inch IC901 (SEE PAGE 4-35) COLOR Q907 T901 DC CONTROL L909 LCD (SEE PAGE 4-25) SWITCHING45MONITOR 3 Q915 22

VCC

IC702 6 Q913D905 D904 HI CONTROL RECT EMERGENCY2 (SEE PAGE 4-24) DETECT VSS 1 168 Q919, 923, 930 OUT B 44 –15.3V 8 PANEL –15.3V 53 VGLDC PACK SW 65 15

VGL

REGULATOR GENERATOR(CAM15V) Q701, 702 11 –IN B +IN B 12 L906 BATT SI 48 BATTERY SPC B 13 35 A 4.9V 26 VB12 CHARGE • • VB12 6 BATT SO 49 Q914 36 25 GENERATORDETECTOR A 4.9V Q908 23 38 VSH13 SWITCHING L903 Q910, 912 L910 BATT SENS 71 4.9V PANEL 4.9V L903 VSH 5 56 23 OUT C 40 LCD DD ON IC701 (4.9V) V REF 2.5V IC901 INITIAL RESET, 25 +IN C –IN C 25 LCD TIMING BACKUP VCC SPC C 24 Q909 GENERATOR (SEE PAGE 4-23) SWITCHING (SEE PAGE 4-35)D703 L904 D 3.2V PANEL 3.2V IC903 42 51 L701 7 54 BACKUP VCC 75 – 77 6 VOUT SWITCH 86 87 OUT D 39 (SEE PAGE 4-35) VIN 7 (3.2V) L908 L801 L802 IC802IC801 IC802 VBAT 3 30 +IN D –IN D 31 D 4.9V FDD CONTROL WRITE GATE LCD DRIVE XDRY BATT 72 8 VRO SPC D 29 (SEE PAGE 4-19) (SEE PAGE 4-19) (SEE PAGE 4-34)L801 XRESET 38 5 RESET BATT IN 61 4 CS 19 V REF 2.5VD701 IC801 RV701 XLI PRE END 69 2 PREEND EVR 20 POWER CONT (SEE PAGE 4-33) ZOOM 21 CTL B RT 16WTSYS DD ON 29 22 CTL C, D CT 17 IC803 IC805 SHOCK SENSOR SHOCK SIG DET. (SEE PAGE 4-20) (SEE PAGE 4-20) D701

ACCESS

LCD DD ON 47 LCD DD ON LI 3V CAM DD ON 37 CAM DD ON 29 32 BH701 + BATTERY D702 LITHIUM – HOLDER FLASH BATTERY CHARGE 3-13 3-14 E, Yellow Yellow Cyan Cyan Green Green White White Magenta MagentaRed Red Blue Blue

MVC-FD75 SECTION 4 PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS

THIS NOTE IS COMMON FOR WIRING BOARDS AND SCHEMATIC DIAGRAMS (In addition to this, the necessary note is printed in each block) (For printed wiring boards) (Measuring conditions voltage and waveform) • b: Pattern from the side which enables seeing. • Voltages and waveforms are measured between the (The other layers’ patterns are not indicated) measurement points and ground when camera shoots • Through hole is omitted. color bar chart of pattern box. They are reference values • Circled numbers refer to waveforms. and reference waveforms. * • There are a few cases that the part printed on diagram (VOM of DC 10 MΩ input impedance is used) isn’t mounted in this model. • Voltage values change depending upon input impedance • Chip parts. of VOM used.) Transistor DiodeC65445645123331. Connection Pattern boxBE123321321543212121(For schematic diagrams) • All capacitors are in µF unless otherwise noted. pF : µ µF. 50 V or less are not indicated except for electrolytics and tantalums. Front side of the lens • Chip resistors are 1/10 W unless otherwise noted. kΩ=1000 Ω, MΩ=1000 kΩ. 1.5m • Caution when replacing chip parts. New parts must be attached after removal of chip. Be careful not to heat the minus side of tantalum capacitor, Because it is damaged by the heat. • Some chip part will be indicated as follows. Example C541 L452 22U 10UH TA A 2520 Kinds of capacitor 2. Adjust the distance so that the output waveform of Fig. a and the Fig. b can be obtain. Temperature characteristics External dimensions (mm) A=B C=DAC• Constants of resistors, capacitors, ICs and etc with XXBDindicate that they are not used. In such cases, the unused circuits may be indicated. • Parts with ★ differ according to the model/destination. Refer to the mount table for each function. • All variable and adjustable resistors have characteristic curve B, unless otherwise noted. • Signal name XEDIT → EDIT PB/XREC → PB/REC • 2: non flammable resistor 2H • 1: fusible resistor Fig. a (CPC-9 jig TP-VG output waveform) • C: panel designation • A: B+ Line * • B: B– Line * Electron beam • J : IN/OUT direction of (+,–) B LINE. * scanned frame • C: adjustment for repair. * LCD picture frame • Circled numbers refer to waveforms. * * Indicated by the color red. Note : The components identified by mark 0 or Fig.b (Picture on LCD) dotted line with mark 0 are critical for safety. Replace only with part number specified. When indicating parts by reference number, please include the board name. Note : Les composants identifiés par une marque 0 sont critiques pour la sécurité. Ne les remplacer que par une pièce portant le numéro spécifie. 4-1, CN802 18P CN851 20P 18 FDD_RF 20 N.C 17 NC 19 BL_HIGH 16 TRACK_00 18 BL_HIGH 15 INDEX 17 N.C 14 MAKER_RECOG 16 N.C 13 XPWR_SW 15 N.C 12 LANC_OUT 14 N.C 11 LANC_IN 13 N.C 10 UNREG 12 N.C 9 VG 11 N.C 8 COM 10 N.C 7 HSY 9 N.C 6 JIG_XVD 8 N.C 5 JIG_XHD 7 N.C 4 REG_GND 6 N.C 3 PANEL_R 5 LED 2 PANEL_G 4 LED_GND 1 PANEL_B 3 BL_LOW 2 BL_LOW 1 UNREG_GND CN601 18P 1 TOS1(C) 2 FDD_GND(E) 3 STBY(K) 4 FDD_5V(A) 5 PB 6 PA 7 PNA 8 PNB 9 FDD_5V 10 FDD_5V 11 INDEX 12 MC 13 CLOCK 14 FDD_GND 15 FDD_GND 16 HDS 17 FPTS 18 DISK

TO FRAME SCHEMATIC DIAGRAM (2/2) (SEE PAGE 4-5) MVC-FD75

4-1. FRAME SCHEMATIC DIAGRAMS

FRAME SCHEMATIC DIAGRAM (1/2)

12345678910 11 12 13 CN603 60P BH701 BL_UNREG 60

A (BATTERY HOLDER)

BACK UP BL_UNREG 59 LITIUM UNREG_GND 58 UNREG_GND 57

PK-59 BOARD PANEL_4.9V 56

PANEL_13.2V 55 P_3.2V 54 PANEL_-15.3V 53

B PANEL_6.5V 52

XHI_SCK 51 PANEL_XHD 50 HI_SO 49 PANEL_XVD 48 XCS_PANEL_D/A 47 S701 REG_GND 46 REG_GND 45 CONTROL PANEL_R 44

C PWR_SW 43

PANEL_G 42 XCAM/PB_SW 41 PANEL_B 40

ND801 S708 PLAY/CAMERA XLCDH 39 BACK LIGHT CAMERA PLAY A_4.9V 38

ZOOM_SW 37

D XCHG_LED 36

KEY_AD0 35 S702 XACS_LED 34 CN901 24P POWER KEY_AD1 33 1 CLD LI_3V 32 2 SPD FP-35 KEY_AD2 31 3 CTR S703 BEEP_15V 30 4 EX3 PICTURE EFFECT BEEP 29 5 EX2 FDD_P_5V 28

E 6 VB12 FDD_P_5V 27

7 RES S704 A_4.9V 26 8 TST DISPLAY A_4.9V 25 9 VR INDEX 24 10 VG DRIVE_SELECT 23

LCD901 11 VB S705 FLASH FD_READY 22

12 GND

COLOR LCD MONITOR DISK_CHANGE 2113 VSH F MOTOR_ON 2014 COM

S706 DENSITY_OUT 19 15 VGL BRIGHT+ STEP 18 16 VSS DIRECTION 17 17 MO2 FDD_GND 16 18 MO1 S707 FDD_GND 15 19 EX1 PROGRM AE WRITE_DATA 14 20 SPS XDISK_IN 13 21 CLS

G FDD_GND 1222 VCC S709

TRCK_00 11 23 VSH BRIGHT- WRITE_GATE 10 24 VGH N.C 9 REG_GND 8 WRITE_PROTECT 7 BZ701 (BUZZER) READ_DATA 6 SIDE1_SELECT 5

H REG_GND 4

REG_GND 3 LANC_OUT 2 LANC_IN 1 CN602 10P T D701 D702 RV701 SHIELD 10 ZOOM ERASE 9

I W ACCESS FLASH CHARGE COMMON 8 SIDE 1

R/W_A 7 R/W_B 6 R/W_B 5 R/W_A 4 COMMON 3 SIDE 0 ERASE 2 SHIELD 1

J CPC K FLOPPY DISK DRIVE FRAME (1/2)

4-3 4-4,

TO FRAME SCHEMATIC DIAGRAM (1/2) (SEE PAGE 4-4)

CN401 20P 20 SENCE VCC 19 FOCUS RST 18 GND 17 ZOOM RST 16 TEMP OUT 15 TEMP COMP 14 FC_XB 13 FC_XA 12 FC_B 11 FC_A 10 Z_XB 9 Z_XA 8 Z_B 7 Z_A 6 DRIVE(-) 5 HALL(+) 4 BIAS(-) 3 HALL(-) 2 BIAS(+) 1 DRIVE(+) CN401 16P CN101 16P GND 1 16 GND CCD_OUT 2 15 CCD_OUT GND 3 14 GND V2B 4 13 V2B V2A 5 12 V2A V3 6 11 V3 V1 7 10 V1 GND89GND CAM15V98CAM_15V GND 10 7 GND VSHT 11 6 VSHT CAM-5.5V 12 5 CAM_-5.5V GND 13 4 GND RG 14 3 RG H1 15 2 H1 H2 16 1 H2

MVC-FD75 FRAME SCHEMATIC DIAGRAM (2/2)

12345678910 11 12 13 14

A CN602 60P

1 BL_UNREG BT901 2 BL_UNREG 3 UNREG_GND BATTERY TERMINAL 4 UNREG_GND 5 PANEL_4.9V 6 PANEL_13.2V 7 PANEL_3.2V

B 8 PANEL_-15.3V

9 PANEL_6.5V 10 XHI_SCK 11 PANEL_XHD 12 HI_SO 13 PANEL_XVD CN901 4P 14 XCS_PANEL_D/A BATT_UNREG 1 15 REG_GND BATT_SIG 2

C 16 REG_GND BATT_GND 3

17 PANEL_R BATT/XEXT 4 18 XPWR_SW 19 PANEL_G 20 XCAM/PB_SW 21 PANEL_B 22 XLCDH 23 A_4.9V

D 24 ZOOM_SW

25 XCHG_LED FC-86 BOARD 26 KEY_AD0 27 XACS_LED D706 28 KEY_AD1 SELF TIMER

FP-35

29 LI_3V 30 KEY_AD2 31 BEEP_15V RL-58 BOARD

E 32 BEEP CN907 3P CN051 3P

33 FDD_P_5V REG_GND11REG_GND S051 34 FDD_P_5V XRLS_ON222XRS_ON2 SHUTTER 35 A_4.9V XRLS_ON133XRS_ON1 36 A_4.9V 37 INDEX

FF-188

38 DRIVE_SELECT 39 FD_READY

F 40 DISK_CHANGE

41 MOTOR_ON 42 DENSITY_OUT 43 STEP 44 DIRECTION FLASH UNIT 45 FDD_GND 46 FDD_GND CN910 13P CN1 13P 47 WRITE_DATA

G F_CHG11F_CHG48 XDISK_IN

ADJ_LEVEL22ADJ_LEVEL 49 FDD_GND REG_5V33REG_5V 50 TRACK_00 STRB_ON44STRB_ON 51 WRITE_GATE XSTB_FULL55XSTB_FULL 52 N.C REG_GND66REG_GND 53 REG_GND KEY_AD377KEY_AD3 54 WRITE_PROTECT FOCUS_B88FOCUS_B 55 READ_DATA

H FOCUS_A99FOCUS_A56 SIDE1_SELECT

D_3.2V 10 10 D_3.2V 57 REG_GND UNREG_GND 11 11 UNREG_GND 58 REG_GND STB_CHENGE 12 12 STB_CHENGE 59 LANC_OUT UNREG 1(FLASH) 13 13 UNREG 1(FLASH) 60 LANC_IN

I FP-34 J ZOOM LENS(VCL-4210VD) CD-338 BOARD FRAME (2/2)

4-5 4-6, H2 V1 R1.4/ R13.2/ H1 V3 R-0.2/ V2A P0 R10.1/ RG P0 R-0.3/P0 CSUB V2B R-5.7/P0 SHT VL R9.7/ DGND GND R15.4/P0 R10.6/P0 VDD CCD OUT

MVC-FD75

4-2. PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS

CD-338 (CCD IMAGER) PRINTED WIRING BOARD AND SCHEMATIC DIAGRAM • See page 4-43 for waveforms.

– Ref. No.: CD-338 board; 2,000 series – 123456• For Printed Wiring Board. • CD-338 board is four-layer print board. However, the patterns of layers 2 to 3 have not been included in the diagram. • There are a few cases that the part isn't mounted in this model CD-338 BOARD is printed on this diagram. A • See page 4-45 for printed parts location. CCD IMAGER • Chip transistor -REF.NO.:2,000 SERIES- XX MARK:NO MOUNT C405 C 4.7uNO MARK:REC/PB MODE 10V R:REC MODE C406 P:PB MODE R-5.5/P0 22pBE

B CN401 16P R-5.5/P0

GND11234567CCD_OUT 2 GND 3 V2B4123V2A 5 V3 6 FC-86 BOARD (1/8) 4 CN101 V175

C THROUGH THE GND 8

FP-34 FLEXIBLE CAM15V 9 IC401 (SEE PAGE 4-11) GND 10 CCD IMAGERC408 1u 14 13 12 11 10 9 8IC401 VSHT 11 ICX098BQ-12 R1.8/P0 CAM-5.5V 12 R4041M GND 13 C407 0.001u C401 RG 14 0.1u H1 15

D C403H2 16 0.1u

R405 SIGNAL PATH R401 3.3k C404 R402 VIDEO R403 C4024.7u 0 SIGNAL 100

XX

20V R9.8/ Q401 P0 2SC4178- Y/CHROMA F13F14-T1

BUFFER E REC L401100uH R15.4/ R10.6/P0

Precautions for Replacement of CCD Imager • The CD-338 board mounted as a repair part is not equipped with a CCD imager. When replacing this board, remove the CCD imager from the old one and mount it onto the new one. • If the CCD imager has been replaced, carry out all the adjustments for the camera section. • As the CCD imager may be damaged by static electricity from its structure, handle it carefully like for the MOS IC. In addition, ensure that the receiver is not covered with dusts nor exposed to strong light.

CCD IMAGER

CD-338 4-7 4-8,

MVC-FD75

FC-86 (CAMERA, DRAM CONTROL, D/A CONVERTER, CAMERA SERVO/EVR DECODER, FDD CONTROL, MODE/SYSTEM CONTROL, DC/DC CONVERTER) PRINTED WIRING BOARD – Ref. No.: FC-86 board; 1,000 series – • For Printed Wiring Board. • FC-86 board is six-layer print board. However, the patterns of layers 2 to 5 have not been included in the diagram. • There are a few cases that the part isn't mounted in this model is printed on this diagram. • See page 4-45 for printed parts location. • Chip transistorC54BE1234-9 4-10

CAMERA, DRAM CONTROL, D/A CONVERTER, CAMERA SERVO/EVR DECODER, FDD CONTROL, MODE/SYSTEM CONTROL, DC/DC CONVERTER

FC-86, 24 23 22 21 20 19 18 17 16 15 14 13 24 23 22 21 20 19 18 17 16 15 14 13 XRST_SYS RST H1 3.2 CCDBY2 DRVDD VDD6 VSS3 R1.1/P0 R0.1/P0 CA_AD10 CAM_SO 0.1 DIN D9 SSI VSS2 R0.8/P0 R0.3/P0 CA_AD09 XCAM_SCK 3.2 R0.6/P0 PIN D8 SSK RG R0.3/P0 CA_AD08 TG_CS 3.2 3.2 CCDBY2 D7 SEN VDD2 0.7 R0.7/P0 CA_AD07 3.2 PGACONT2 D6 EBCKSW XCLPOB 2.6 R0.9/P0 CA_AD06 PGACONT1 D5 FRO VDD1 R2.5/P0 CA_AD05 ACVSS D4 HRO TEST R1.7/P0 R1.8/P0 CA_AD04 CLP_BIAS D3 HRI ID 3.2 R1.6/P0 CA_AD03 3.2 ACVDD D2 FRI WEN 3.2 R1.7/P0 CA_AD02 R1.6/P0 LINE D1 CLD VSS1 3.2 R1.4/P0 CA_AD01 RF_CONT D0 VSS5 3MCK CHROMA TEST 37 38 39 40 41 42 43 44 45 46 47 48 37 38 39 40 41 42 43 44 45 46 47 48 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 NC NC NC NC TEST18 TEST17 TEST19 TEST16 TEST0 TEST15 INVI TEST14 INVO TEST13 VSS0 TEST12 TEST20 TEST11 XRST_CORE 3.2 XCLR TEST10 XCS_IDIC 2.8 XCE CFRO XCAM_SCK 3.1 CAM_SO R0.1/P0 SCK TEST8 SI TEST9 CAM_SI 2.9 SO VSS3 TEST21 CDIS CL115 VDD0 MCKO32 CL114 TEST1 MWEO CL113 2.9 CL112 TEST2 MHRO 3.2 CL111 TEST3 MFRO TEST4 MCKO14 CL110 TEST5 MCKO CL109 TEST6 VDD2 NC NC NC NC NC NC 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50

MVC-FD75 FC-86 (CAMERA) SCHEMATIC DIAGRAM • See page 4-9 for FC-86 printed wiring board. • See page 4-43 for waveforms.

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FC-86 BOARD (1/8) A CAMERA(CH BLOCK) R122XX

-REF.NO.:1,000 SERIES- R15.5/P0 15.7

XX MARK:NO MOUNT CAM_15V

Q101

NO MARK:REC/PB MODE RN2104F(TPL3) 1 R:REC MODE CAM+15V SWITCH CAM_-5.5V

R3.6/P15.5 FC-86 BOARD (8/8) P:PB MODE D_3.2V

B REG_GNDC129

R0.6/ Q103 P15.5 1u 23 RN2104F(TPL3) CAM DD SWITCH MCK FC-86 BOARD (3/8)R112 10k C104 Q104C103 C137 2 0.01u 10u R3.6/P-5.8 RN1104F(TPL3) CAC_VDXX 6.3V FB102 Q102 R0/P15.5 CAM DD SWITCH FC-86 BOARD (4/8)

MCK

RN1104F(TPL3) R3.2/P0 CAM-15V SWITCH CAC_VDR-5.8/P0 3 R123 CA_HD-5.8 FC-86 BOARD (2/8) R115 C133 XX MCK

C 12 47p R1.4/P0 3.2 0 1.5 C1130.001u MCK

12 11 10987654321C130 4p SHUTTER_WE CAM_DD_ON L102 (Note) 0 Note:Resistor is mounted to the location where L102 is printed. R1.8/P0 1.5 H2 1 OSCI C114 C132 C1354p 3.2 1.5 0.1u

XX

VDD3 OSC0 6.3V XRST_SYS R116 C134 X101 XRST_SYS

D 12 47p CLPDM R3.2/P0 R-5.8/P0 36.818178MHz XRST_CORE FC-86 BOARD (7/8)D101 XCLPDM VL XRST_CORE

MA728-(K8).S0 R-5.8/P0 VSUB 3.2 3.2 C102 VDD4 VSUB CAM_SO CAM_SO SHP 12p R126 470 3.2 R2.6/P0 IC103 R-0.3/P0 V2B 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51XSHP V2B XCS_IDIC SHD R127 470 R2.7/P0 R15.5/P0 XCS_IDIC XSHD TIMING GENERATOR VH XCAM_SCK XCAM_SCK C101 R-0.3/P0 V2AD102 XRS IC103 V2A TG_CS 12p MA728-(K8).S0 CXD2450R-T4 R-5.5/P0 TG_CSV3 VSS4 V3 CAM_SI R2.8/P0 R-5.5/P0 CAM_SIPBLK V1 PBLK V1 GCAM_STBY NC NC GCAM_STBY CN101 16P 1/2MCK VM R121 1.6 1.6 82 FB103 NC NC

E GND 16 3/2MCK MCK CA_VD3.3 R3.2/P0 NC NC

CCD_OUT 15 VDD5 DSGAT 3.2 VDD3 TSTON GND 14 R0/P1.6 V2B MCK132 VSS2 V2B 13 R0/P3.2 R1.0/P0 CL101 V2A FRO DOY0 CA_Y0 V2A 12 2.9 R1.0/P0 CL102 V3 HRO DOY1 CA_Y1 V3 11 R3.2/P0 R1.0/P0 CL103 CD-338 BOARD V1 XCLPOB DOY2 CA_Y2V1 10 25 26 27 28 29 30 31 32 33 34 35 36 0 R1.1/P0 CL104 CN401 WWEI DOY3 CA_Y3 GND 9 3.2 2.9 1.6 R0.7/P0 CL105

F THROUGH THE MCKI DOY4 CA_Y4FP-34 FLEXIBLE CAM_15V 8 R111 3.2 R0.8/P0 CL106 3

47k DOCNT DOY5 CA_Y5 (SEE PAGE 4-8) GND 7 IC104 R0.8/P0 CL107 FC-86 BOARD (2/8) VSUB VSS4 DOY6 CA_Y6 VSHT 6 CA_AD10 R0.1/P0 Y/C PROCESSOR R0.4/P0 CL108 AD9 DOY7 CA_Y7 CAM_-5.5V 5 CA_AD09 R0.3/P0 IC104 3.2 AD8 CXD3137AR-T6 VDD1 GND 4 C138 CA_AD08 R0.3/P0 R1.2/P0 XX AD7 DOC0 CA_C0 RG 3 CA_AD07 R0.7/P0 R1.2/P0 AD6 DOC1 CA_C1 H1 2 CA_AD06 R0.9/P0 R1.2/P0 AD5 DOC2 CA_C2 H2 1 CA_AD05 R2.5/P0 R1.1/P0

G AD4 DOC3 CA_C3CA_AD04 R1.8/P0 R1.1/P0

AD3 DOC4 CA_C4 R102 C109 CA_AD03 R1.6/P0 R1.0/P0 100k 1u FB104 AD2 DOC5 CA_C5 CA_AD02 R1.7/P0 R1.0/P0 C112 AD1 DOC6 CA_C6 C108 0.1u CA_AD01 R1.4/P0 R1.0/P0 4.7u AD0 DOC7 CA_C7 20V 3.2 VDD4 VSS1 NC NC NC NC

H 2

3.2 12 11 10987654321R1.6/ 12345678910 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 VRT P0.8 C126 L101 DRVSS 0.1u 10uH 3.2 3.2 3.2 VRB C127DSUBST R1.2/P0.9 0.1u R119 DVSS SUBST 47k C139 R1.6/P0 3

I XX ADCLK ADVSS3.2

DVDD IC102 REFSLOW 3.2 R0/P3.2 3.2 STBY S/H,AGC, ADVDD PBLK R2.8/P0 A/D CONVERTER 3.2 PBLK CAM/VIDEO R3.2/P0 IC102 CLPOB CCD1000Y-3/2K PB/REC SHP R2.7/P0 3.2 XSHP MODE1 SHD R2.7/P0 XSHD MODE2 3.2 CLPDM R3.2/P0 CLPDM VTRBYP C124 R1.0/P0 R1.4/P0.9 0.1u FMC CMLEVELJ C125C117 R2.3/P0 0.1u 0.1u

SIGNAL PATH

25 26 27 28 29 30 31 32 33 34 35 36

VIDEO SIGNAL 0 CHROMA Y Y/CHROMA C122

0.1u

REC R124 C116 C131 C121 C128 C1360 FB101 0.1u 0.1u 0.1u XX C111 22u

6.3V 0.01u 6.3V

K C119

0.1u C120 0.1u AGC_CONT1 FC-86 BOARD (4/8) 05 AGC_CONT2GCAM_STBY

CAMERA FC-86 (1/8) 4-11 4-12

, A3 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 R1.4/P0.8 CO0 VDD COUT0 R1.0/P0.7 CO1 VSS COUT1 A2 R0/P1.4 R1.1/P0.8 CO2 ADR2 COUT2 A1 R3.2/P1.4 R1.0/P0.7 CO3 ADR1 COUT3 A0 R3.2/P1.0 ADR0 COUT4 VSS VSS A4 R3.2/P1.4 ADR4 COUT5 A5 R3.2/P1.4 ADR5 COUT6 A6 R3.2/P1.4 ADR6 COUT7 A7 R3.2/P1.2 R1.3/P0.9 YO7 ADR7 YOUT7 A8 R3.2/P1.2 R1.1/P0.9 YO6 ADR8 YOUT6 A9 R3.2/P0.5 R1.1/P0.9 YO5 ADR9 YOUT5 VSS VSS R1.9/P1.7 YO4 ADR10 YOUT4 D7 R1.1/P0.9 YO3 DAT7 YOUT3 D6 R3.2/P2.0 R1.1/P0.9 YO2 DAT6 YOUT2 D5 R3.2/P1.6 R1.1/P0.9 YO1 DAT5 YOUT1 D4 R3.2/P1.6 R1.1/P1.8 YO0 DAT4 YOUT0 D3 R3.2/P1.6 SYSV DAT3 XVDO(SYS_V) D2 R3.2/P1.6 3.1 SYSH DAT2 XHDO(SYS_H) R3.2/P1.6 2.9 XLCDH VSS XLCDH D1 3.2 DAT1 DECK/XCAM D0 R3.2/P1.5 DAT0 STRBON D8 R3.2/P2.1 DAT8 VSS D9 R3.2/P2.1 DAT9 VDD 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 25 24 23 22 21 20 19 18 17 16 15 11 1098765432126 27 28 29 30 31 32 33 34 35 36 40 41 42 43 44 45 46 47 48 49 50

MVC-FD75 FC-86 (DRAM CONTROL) SCHEMATIC DIAGRAM • See page 4-9 for FC-86 printed wiring board.

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FC-86 BOARD (2/8) SIGNAL PATH VIDEO SIGNAL D0 A DRAM CONTROL(DR BLOCK) IC501 MC_D00D1 CHROMA Y Y/CHROMA MC_D01

-REF.NO.:1,000 SERIES- 16M DRAM D2 MC_D02

NO MARK:REC/PB MODE 3.2 D3REC VCC VSS MC_D03 R:REC MODE D0 R3.2/P2.1 DQ15 R3.2/P2.0 D15 D4 P:PB MODE DQ0 MC_D04D1 R3.2/P1.5 DQ14 R3.2/P1.6 D14 D5PB DQ1 MC_D05

D2 R3.2/P1.6 DQ13 R3.2/P1.6 D13 D6XLCDH DQ2 MC_D06 XLCDH D3 R3.2/P1.6 DQ12 R3.2/P1.6 D12 D7DQ3 MC_D07

B 3.2 VSS D8SYSV VCC MC_D08

SYS_V D4 R3.2/P1.6 DQ4 DQ11 R3.2/P1.6 D11 D9 SYSH MC_D09 SYS_H D5 R3.2/P1.6 DQ5 DQ10 R3.2/P1.6 D10 D10 MC_D10 D6 R3.2/P1.6 DQ9 R3.2/P1.5 D9 D11 YO0 DQ6 MC_D11 PANEL_Y0 D7 R3.2/P2.0 DQ8 R3.2/P2.1 D8 D12 YO1 DQ7 MC_D12 PANEL_Y1 D13 YO2 N.C. N.C. MC_D13 PANEL_Y2 D14 6 YO3 MC_D14 PANEL_Y3 IC501 D15 FC-86 BOARD (3/8) YO4 PANEL_Y4 GM71VS18163CLT-6TR MC_D15 A0

C 8YO5 MC_A01PANEL_Y5 N.C. A1 FC-86 BOARD (6/8)

YO6 N.C. MC_A02 PANEL_Y6 XCASL R0/P1.8 XCASL A2 YO7 N.C. MC_A03 PANEL_Y7 XWE 3.2 XCASH R0/P1.8 XCASH A3XWE MC_A04 XRAS R0/P0.8 R3.2/P0.8 XOE A4 CO0 XRAS XOE MC_A05 PANEL_C0 0 3.2 A9 R3.2/P0.5 A9 A5 CO1 A11 MC_A06 PANEL_C1 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 A8 R3.2/P1.2 A8 A6 CO2 A10 MC_A07 PANEL_C2 A0 R3.2/P1.0 R3.2/P1.2 A7 A7 CO3 C504 A0 A7 MC_A08

D PANEL_C3 0.1u A1 R3.2/P1.4 A6 R3.2/P1.4 A6 A8A1 MC_A09

A2 R0/P1.4 A5 R3.2/P1.4 A5 A9A2 MC_A10 A3 R3.2/P1.4 A4 R3.2/P1.4 A43.2 A3 VDD CKCGQ 3.2 VCC VSS

XCASH XCASH

VSS TEST XCASL 1.6 XCASL MCK CKCGH XRAS

XRAS

CREF XHOSD XWE 3.2 XWE XVDI XVOSD XOE 2.9 0.2 HI_SO C502 XHDI SI 0.1u

XOE XRQ E 3.2 3.1XCS XCS_IDIC2 XBUS_RQXVDC

YI0 R1.2/P0 3.1 YIN0 XSCK XHI_SCK YI1 R1.2/P0 R3.2/P0 YIN1 XBRQ

XRQ

YI2 R1.2/P0 R0/P3.2 YIN2 DRBUSRQDRBUSRQ YI3 R1.2/P0 3.2 XRST CI0 YIN3 XRST CA_C0 YI4 R1.2/P0 IC503 R3.2/P0.8 XOE XOECI1 YIN4 CA_C1 DRC CI2 VSS VSS CA_C2 YI5 R1.1/P0 IC503 3.2

F CI3 YIN5 CXD3136R-T6 XWE XWECA_C3 YI6 R1.1/P0 R0/P1.8

XLCAS XCASLCI4 YIN6 CA_C4 YI7 R1.3/P0 R0/P1.8 XCASH CI5 YIN7 XUCAS CA_C5 CI0 R1.2/P0 R0/P0.8 XRAS XRASCI6 CIN0 CA_C6 CI1 R1.2/P0 R3.2/P2.0 D15 CI7 CIN1 DAT15 CA_C7 CI2 R1.5/P0 R3.2/P1.6 D14 YI0 CIN2 DAT14 CA_Y0 CI3 R1.4/P0 R3.2/P1.6 D13 YI1 CIN3 DAT13 CA_Y1 CI4 R1.6/P0 3 YI2 CIN4

VSS

CA_Y2 CI5 R1.0/P0 R3.2/P1.6 D12

G CIN5 DAT12FC-86 BOARD (1/8) YI3CA_Y3 CI6 R1.0/P0 R3.2/P1.6 D11

YI4 CIN6 DAT11 CA_Y4 CI7 R1.0/P0 R3.2/P1.6 D10 YI5 CIN7 DAT10 CA_Y5 R3.2/P1.4 3.2 YI6 ADR3 VDD CA_Y6 C503 YI7 0.1u CA_Y7

MCK H12345678910 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25

CA_VD 3.2 R3.2/P1.5 CA_HD CAC_VD SYS_V SYS_H C501 22u L501 10V 10uH

I 7 XHI_SCK D_3.2VXHI_SCK 9

FC-86 BOARD (7/8) HI_SOHI_SO REG_GND FC-86 BOARD (8/8) XCS_IDIC2 XCS_IDIC2 STRB_ON

XRST

XRST_SYS

DRBUSRQ

05 DR_BUS_RQ

DRAM CONTROL

4-13 4-14 FC-86 (2/8), CGBLK CGG C3 TT PYRA_BLK C2 VCK PYRA_R C1 TSO1 PYRA_G R1.0/P0.7 C0 CGB PYRA_B R1.4/P0.8 1.6 DVDD1 MCK 3.2 TSI1 DVSS2 3.1 C603 0.1u DVSS1 XSCK 0.2 VB SI R0/P0.4 3.2 AVSS XRST XRST_SYS 3.1 VG(B) XCS XCS_IDIC2 C604 0.1u 2.1 XCS_LCD_D/A IREFB TSI2 XCS_LCD_D/A HI_SO HI_SO XHI_SCK XHI_SCK LANC_OUT LANC_OUT LANC_IN LANC_IN LI_3V LI_3V

BEEP BEEP

XCHG_LED XCHG_LED XACS_LED XACS_LED XCAM/PB_SW XCAM/PB_SW XPWR_SW XPWR_SW ZOOM_SW_AD ZOOM_SW_AD KEY_AD0 KEY_AD0 KEY_AD1 KEY_AD1 KEY_AD2 KEY_AD2 DISK_IN DISK_IN DISK_IN MOTOR_ON MOTOR_ON D_OUT DENSITY_OUT D_CHANGE DISK_CHANGE D_SELECT DRIVE_SELECT_0 S1_SELECT SIDE1_SELECT READ_D READ_DATA WRITE_P WRITE_PROTECT T00 TRACK_00 WRITE_G WRITE_GATE WRITE_D WRITE_DATA

STEP STEP DIRECTION DIRECTION READY

FD_READY

INDEX INDEX MVC-FD75 FC-86 (D/A CONVERTER) SCHEMATIC DIAGRAM • See page 4-9 for FC-86 printed wiring board. • See page 4-43 for waveforms.

12345678910 11 12 13 14 15 16

SIGNAL PATH FC-86 BOARD (3/8) 12 13 14 A FC-86 BOARD (7/8) FC-86 BOARD (6/8) FC-86 BOARD (5/8) VIDEO SIGNAL D/A CONVERTER(RY BLOCK) CHROMA Y Y/CHROMA

-REF.NO.:1,000 SERIES-

XX MARK:NO MOUNT REC NO MARK:REC/PB MODE R:REC MODE PB P:PB MODE B

CN602 60P 23 LANC_IN 60 LANC_IN FC-86 BOARD (1/8) MCK LANC_OUT 59 LANC_OUT

C 10 Q601 58 REG_GND

FC-86 BOARD (4/8) VREF_PYRA 2SC4738F-Y/GR(TPL3) BUFFER 57 REG_GND R611 S1_SELECT 56 SIDE1_SELECT 39k READ_D C607 4.9 55 READ_DATA 0 1.6 0 1u 1.1 WRITE_P 54 WRITE_PROTECT 36 35 34 33 32 31 30 29 28 27 26 25 53 REG_GND 0.5 52 N.C WRITE_G

D 51 WRITE_GATET00

C605 R610 R612 R613 C609 50 TRACK_00 0.1u 1k 12k 1k XX R1.1/P1.8 2.1 Q602 49 FDD_GND PANEL_Y0 37 Y0 7 VG(R) 24 2SC4738F-Y/GR(TPL3) DISK_INR1.1/P0.9 0.2 BUFFER 48 DISK_IN PANEL_Y1 38 Y1 IOR 23 WRITE_D R1.1/P0.9 3.2 R624 47 WRITE_DATA PANEL_Y2 39 Y2 AVDD2 22 XX R616 R1.1/P0.9 0.5 39k 46 FDD_GND PANEL_Y3 40 Y3 4 VREFR 21 R605 R1.9/P1.7 0.5 15k C608 4.9 45 FDD_GND PANEL_Y4 41 Y4 IC601 IREFR 20 1u 1.1 DIRECTIONR1.1/P0.9 6 0.1 44 DIRECTIONPANEL_Y5 42 Y5 D/A CONVERTER IOG 19 STEP R1.1/P0.9 3.2 43 STEP

E IC6016 PANEL_Y6 43 Y6 AVDD1 18 D_OUTR1.3/P0.9 CXD3121R-T4 0.5 0.5 42 DENSITY_OUT

FC-86 BOARD (2/8) PANEL_Y7 44 Y7 8 VREFG 17 MOTOR_ON2.9 0.5 41 MOTOR_ON SYS_H 45 HD IREFG 16 R615 R617 R618 C610 Q603XX D_CHANGE3.1 2.1 R606 1k 12k 1k 2SC4738F-Y/GR(TPL3) 40 DISK_CHANGE SYS_V 46 VD 9 VG(G) 15 C6060.1u 15k BUFFER READY2.9 0.1 39 FD_READY PANEL_C0 47 HDO IOB 14 R621 D_SELECT 0 0.5 39k 38 DRIVE_SELECT PANEL_C1 48 CGR VREFB 13 R625 C611 4.9 INDEX PANEL_C2 XX 1u 1.1 37 INDEX 10 4 36 A_4.9VPANEL_C3

F 5 35 A_4.9V0.5

34 FDD_P_5V XLCDH C612 R620 R622 R623 XX 33 FDD_P_5V12345678910 11 12 1k 12k 1k BEEP 0 32 BEEP PK-59 BOARD (1/5) 0.5 CN603 R1.0/P0.7 31 BEEP_15V KEY_AD2 THROUGH THE R1.1/P0.8 R626 30 KEY_AD2 FP-35 FLEXIBLE XX LI_3V 29 LI_3V (SEE PAGE 4-32) KEY_AD1 28 KEY_AD1 XACS_LED

G 27 XACS_LEDKEY_AD0D_3.2V 26 KEY_AD0

L601 XCHG_LED 0 25 XCHG_LED (Note) ZOOM_SW_AD C601 R601 24 ZOOM_SW XX 15k 6.3V 23 A_4.9V REG_GND 22 XLCDH C602 0.1u Note:Resistor is mounted to the 21 PANEL_B location where L601 is printed. XCAM/PB_SW 20 XCAM/PB_SW

H PANEL_4.9V 19 PANEL_GXPWR_SW

11 REG_GND(FDD_GND) 18 XPWR_SW FC-86 BOARD (8/8) FDD_P_5V 17 PANEL_R BEEP_15V 16 REG_GND 15 REG_GND XCS_LCD_D/A 14 XCS_PANEL_D/A 13 PANEL_XVD HI_SO PANEL_6.5V 12 HI_SO

I PANEL_-15.3V 11 PANEL_XHDXHI_SCK

10 XHI_SCK PANEL_13.2V 9 PANEL_6.5V REG_GND (UNREG_GND) 8 PANEL_-15.3V BL_UNREG 7 PANEL_3.2V 6 PANEL_13.2V 5 PANEL_4.9V 4 UNREG_GND

J 3 UNREG_GND

24 2 BL_UNREG FC-86 BOARD (8/8) A_4.9V 1 BL_UNREG

D/A CONVERTER FC-86 (3/8) 4-15 4-16

, 24 23 22 21 20 19 18 17 16 15 14 1312345678910 11 12 OUT VCC 0.9 C1H IN(-)

OUT

C1L 0.9 0.9 IN(+) IN(-) C2L C2H 3.3 GNDDGND IN(+)VC VM1 VG 0.2 A1 B1 0.4 PGND1 PGND2 R0.3/P0.1 0.4 A2 R0.3/P0.1 A3 VM2 B3 0.4PGND3 R0.3/P0.1 A4 PGND4 0.4VM3 IN1 EN4 IN4 R2.9/P0EN1 R1.7/P0 IN2 EN3 IN3 R0.6/P0EN2 OUT OUT 0.1 IN(-) IN(-) 0.1 R0.3/P1.6 IN(+) IN(+) 3.3 R0.2/P2.8 VCC GND 0.9 0.9 IN(+) C414 XX IN(+)0.9 0.9 IN(-) IN(-) VDIN VDD 3.2 OUT OUT TEST1 SENS0 3.2 CS SENS1 3.1 SCK EN1 0.1 R2.9/P0 SIN DIR1B 2.9 R0.6/P0 SOUT DIR1A CKOUT EN0 R1.7/P0 CKIN DIR0B R3.2/P0 XCLR DIR0A VSS TEST0

MVC-FD75 FC-86 (CAMERA SERVO/EVR DECODER) SCHEMATIC DIAGRAM • See page 4-9 for FC-86 printed wiring board.

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FC-86 BOARD (4/8) A CAMERA SERVO(LD BLOCK)/EVR DECODER(ER BLOCK) R414 R416

100k 22k R424 -REF.NO.:1,000 SERIES- R422 R423 330k

XX MARK:NO MOUNT R417 180k 3300 R427180k 0

R410 C408 C413

NO MARK:REC/PB MODE 100k 0.033u 0.022u C4150.001u R:REC MODE R420100k P:PB MODE C4063300p B

3.3 0.9 R0.3/ R0.3/P2.1 P1.5876514 13 12 11 109854

IC401 IC405 XX

IRIS DRIVE IC404 IC401 C422123NJM2904V(TE2) HALL AMP C418 R421 0.1u XX R425 IC404 0.01u XX BA10324AFV-E2 ± 0.5%

C

R426 XX C421 ± 0.5% XX12341234567R0.6/P3.3 R407 R1.9/P0 1 2200 0.7 1.3 L403 R408 100k Q403 10uH 2SC4738F-Y/GR(TPL3) ±10% Q402 R1.2/P0 INVERTER 2SC4738F-Y/GR(TPL3) C416 HALL_AD INVERTER R406 C404 R411 0.5 0.7 0.01u

D 1k 0.1u 22kR0.4/P0 R418 R4190.1 10k 18k

R409 R402 C402 C403 C420 10 1u 10k C419 0.022u C410 R412 XXR413 R415 0.01u 6.3V XRST_PDR0.1u 330 22k 1k CAM_SI CAM_SO

LENS UNIT CN401 20P XCAM_SCK

DRIVE(+) 1 XCS_IDIC BIAS(+) 2 19

E HALL(-) 3 LENS_TEMP_ADIRIS FC-86 BOARD (7/8)

MOTOR H BIAS(-) 4 HALL HALL(+) 5

SENSOR

DRIVE(-) 6 Z_A 7 R404 R405 68k 68k Z_B 8 ZM_RST_SENS Z_XA 9 M902 ZOOM ZOOM

M FC_RST_SENS

Z_XB 10

F NOTOR SENSOR -0.1 3.3FC_A 11

FC_B 12 R403 3.2 4700 FC_XA 13 LENS_RST_LED Q401 FC_XB 14 2SA1832F-Y/GR(TPL3) CAM_P_5V C401 ZOOM SENSOR SWITCHM901 TEMP TEMP COMP 15 R401 0.01u REG_GND FOCUS FOCUS (CAM_P_GND) NOTOR SENSOR M SENSOR TEMP OUT 16 47k 20 ZOOM RST 17 C409 FC-86 BOARD (8/8) 0.01u GND 18 L401 D_3.2V

G FOCUS RST 19 10uH ±10% REG_GND

SENCE VCC 20 L404 10uH00050030 29 28 27 26 25 24 23 22 21 20 19 18 17 16 3.200015 IC402 20 19 18 17 16 15 14 13 12 11C411

H FC-86 BOARD (8/8) FLASH_ADJ 0.01uFOCUS MOTOR IC403

10 F_CHG DRIVE FOCUS CONTROL FC-86 BOARD (3/8) VREF_PYRA IC402 UPD16833AG3-E2 DECODER IC403

IC301 CXD2430N-T4C412 C417

33u 1u EVR DATA DECODER 10V12345678910 IC301 3.2 2.8 1.6 M62376GP-65AD12345678910 11 12 13 14 15 C405 C407 4.9 0.5 0.01u 0.01u005000

I VREF_PYRANote:Resistor is mounted to the C302 VDD

location where L301 is printed. 0.1u R1.1/3.3 P0.7 VCCD FLASH_ADJ C303 0.1u D3 VREF_C C301

XX

16 6.3V D2 VREF_YA_4.9V R1.1/ FC-86 BOARD (8/8) L301 P0.7 REG_GND 0 D1 AGC_CONT2 (Note) 2.6 D0 AGC_CONT1

J 3.1 R0/P3

XCAM_SCK CLK F_CHG R0/ R429 0.1 P0.2 16k17 CAM_SO SI IRIS_CONT2 FC-86 BOARD (7/8) R0.3/2.9 P3 CAM_SI SO IRIS_CONT1 R428 3.1 0.9 1k XCS_CAM_D/A XCS HALL_REF 4.9 2.7 VDDA HALL_GAIN 2.4 VSS HALL_OFFSET

K

FC-86 BOARD (1/8) AGC_CONT1 AGC_CONT2 2 CAC_VD 05 FC-86 BOARD (1/8) MCK

CAMERA SERVO/EVR DECODER

4-17 4-18 FC-86 (4/8), 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 NC PCS1 GND3 NC NC PCS0 EM2 NC EM1 INDEX 4.9 GND3 DR2 EM0 DR1 DIR DR0 GND3 FMTR0/P4.8 STEP INT1.3 R8082200 WDATA TC 3.2 4.9 GND3 DMAAK~ WE DMARG 4.9 ENIDX D7 NC NC VDD2 D6 C804 0.068u NC NC CGP1 D5 4.9 NC D4 CGP2 GND3 4.9 C807 2.5 GND2 D3 0.1u 4.9 D2 2.5 LPF1 4.9 LPF2 D14.9 4.9 TRK0 D0 NC GND1 R813 WPRT GND1 1k RDATA NC NC NC NC NC READY A0 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 R817 10k R818 10k R819 10k R820 10k R821 10k R822 10k IC803 TA8563FN(EL) VR1 3.2 S1 AO 2.3 4.9 VR2 BI 1.9 4.9 PS BO 1.9 20 19 18 17 16 15 14 13 12 11

OUT VCC GND

Q80112345678910 RN2104F(TPL3) IC805 TC7W74FU(TE12R)

VCC

4.9 CK XPR 4.9

D

XCLR 4.9

XQ Q GND MVC-FD75 FC-86 (FDD CONTROL (1/2)) SCHEMATIC DIAGRAM • See page 4-9 for FC-86 printed wiring board. • See page 4-43 for waveforms.

12345678910 11 12 13 14 15

FC-86 BOARD (5/8) SIGNAL PATH 4.9 A B7 GND FDD CONTROL(SF BLOCK(1/2)) VIDEO SIGNAL

4.9 B6 A7 R2/P3.2 1 4.9 B5 A6 R1.6/P3.2 -REF.NO.:1,000 SERIES- Y/CHROMA 4.9 A5 R1.6/P3.2B4 3

XX MARK:NO MOUNT 4.9 B3 A4 R1.6/P3.2 REC 4 NO MARK:REC/PB MODE 4.9 B2 A3 R1.6/P3.2 5 R:REC MODE 4.9 B1 A2 R1.6/P3.2 6 P:PB MODE PB 4.9 B0 A1 R1.6/P3.2 7 B 3.2 G A0 R2.1/P3.2 8

R816 R823 10k 3.210k VCC DIR R0.8/P3.2 D_4.9V FC-86 BOARD (8/8)

IC804

BUS BUFFER IC804 SN74LV245APWR

C R803 R806XX 1k R807

3300 REG_GND D_3.2V R805 XX R871 C81510k 0.1u 0 4.9 4.9 0 4.9 4.9 4.9 R0/P3.2 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51

D 11 C809XX

10V R3.2/P1 GND3 CS~ 2.3 R3.2/P0 XA1 RSEL R870 1M 2.3 R3.2/P0 XA2 ENRW~ 9 R3.2/P0 NC WR~ 10 R3.2/P0.8 GND1 RD~ 11 XB1 RESET 12

E 2.3 XB2 NC C8100.1u

X803 NC VDD1 16MHz IC801 4.9GND1 VDD1 GND1 FDD CONTROL R825 R826 26 LCT 10k 470k DEN0 IC801 Q801 FC-86 BOARD (6/8) GND3 C813 INVERTER UPD72069GF-3BA 22p GND3 HOLD C812 R8300.47u 10k DEN1 FLTR C814

F DS3 GND3 0.22u5 3.7 4.9 4.9 4.9

GND3 SIDE 4.9 1098768765DS2 MSEL 4.9 DS1 ACTL GND3 ENPCS 4.9 DS0 FLT 4.9 C811 EM3 2SIDE 0.22u

G 4.9

123452123412345678910 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 13 1.6004.9552.1 2.1 4.9 4.9 4.9 R831 R8811 0 10k XX R809 14 20k ±0.5% 4.9 R832 R810 SE801 15k 2k ±0.5% R827

H 47k REG_GNDC806 C808 R814 R815

0.01u 6800p 1k 10k C805 0.1u L801 10uH R812 INDEX 1k IC803 IC805 R811 10k FD_READY SHOCK SENSOR SHOCK SIGNAL

DETECT

4.9

I321

14 DIRECTION

IC802

WRITE GATE FC-86 BOARD (3/8) STEP IC802 WRITE_DATA TC7SH32FU-TE85R 1545R882 16 XX 4.9 4.9 WRITE_GATE TRACK_00 WRITE_PROTECT 19

J READ_DATA

SIDE1_SELECT 20

FDD CONTROL (1/2) FC-86 (5/8) 4-19 4-20

, 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10987654321BREQ~ XBUS_RQ FLASH TYPE FTCI2/PB8 BACK~ FTOA2/PB7 WE0~ FT12/FTOB2/PB6 WE1~ FTCI1/PB5 WE2~ GND GND FTOA1/PB4 WE3~ Vcc Vcc FTi1/FTOB1/PB3 R3.2/P0.8 RD~ FTCI0/PB2 3.2 WAIT~ FTOA0/PB1 CS0~ FTI0/FTOB0/PB0 CS1~ GND 3.2 R0/P2.1 D[0] CS2~/RAS2~ D0 R0/P0.8 3.2 CS3~/RAS3~/CE~ Vcc R3.2/P1.5 D[1] RD/WR~ D1 R3.2/P1.6 D[2] BS D2 R0/P1.8 R3.2/P1.6 D[3] CAS~/RFSH~/OE D3 R0/P1.8 R3.2/P1.6 D[4] CAS1~/RFSH~ D4 R3.2/P1.6 D[5] GND D5 GND GND CAS2~ GND R3.2/P1.6 D[6] Vcc D6 3.2 Vcc Vcc 3.2 CAS3~ Vcc R0/P3.2 R3.2/P2.0 D[7] A0 D7 R3.2/P1.0 R3.2/P2.1 D[8] A1 D8 R3.2/P1.4 R3.2/P1.5 D[9] A2 D9 R0/P1.4 R3.2/P1.6 D[10] A3 D10 R3.2/P1.4 R3.2/P1.6 D[11] A4 D11 GND GND R3.2/P1.4 R3.2/P1.6 D[12] A5 D12 3.2 3.2 Vcc Vcc R0/P1.4 R3.2/P1.6 D[13] A6 D13 R3.2/P1.4 R3.2/P1.6 D[14] A7 D14 R3.2/P1.2 D[15] A8 D15 R3.2/P1.2 A9 D16 R0/P3.2 A10 D17 R0/P3.2 A11 D18 3.2 Vcc GND R0/P3.2 A12 D19 GND Vcc R0/P3.2 A13 D20 R0/P3.2 A14 D21 A15 D22 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 24 23 22 21 20 19 18 17 16 15 14 13 12 11 1098765432125 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48

MVC-FD75 FC-86 (FDD CONTROL (2/2)) SCHEMATIC DIAGRAM • See page 4-9 for FC-86 printed wiring board. • See page 4-43 for waveforms.

12345678910 11 12 13 14 15 16 17 18 19 20 21

FC-86 BOARD (6/8) A FDD CONTROL(SF BLOCK(2/2))

-REF.NO.:1,000 SERIES-

XX MARK:NO MOUNT XCS_MC NO MARK:REC/PB MODE HI_SO R:REC MODE HI_SI P:PB MODE XHI_SCK B

3 21 FC-86 BOARD (7/8)

C 8 C824 XMC_CANCEL

XX CL807 REG_GND XRST_SYS XMC_NMI D_3.2V C823 DR_BUS_RQ

XX

R0/P2.0 3.2 MC_D00 176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 MC_D01

D 26 MC_D02

FC-86 BOARD (5/8) MC_D03 MC_D04 3.1 MC_D05 SCK0 D23 3.2 MC_D06 TxD0/PB9 D24 8 0.2 MC_D07 RxD0/PB10 D25 FC-86 BOARD (2/8) 3.1 MC_D08 SCK1/PB11 GND MC_D09 TxD1/PB12 D26 IC807

E 3.2 MC_D10GND Vcc FLASH MEMORY

MC_D11 RxD1/PB13 D27 IC807 3.2 MBM29LV200BC-90PFTN-032-ER MC_D12 Vcc D28 3.2 R0/P3.2 R0/P3.2 MC_D13 R0/P3.2 STS0/PB14 FLASH_RESET D29 A15 A16R0/P3.2 3.2 MC_D14 R0/P2.9 STCK0/PB15 DR_BUS_RQ D30 A14 BYTE~R0/P3.2 MC_D15 9 STxD0/PA0 FDC_INT D31 A13 Vss 0 3.2 R0/P3.2 D[15] 10 SRS0/PA1 FDC_TC IRQ3 A12 DQ15/A-1 3.2 3.2 R0/P3.2 R0/P2.0 D[7]

F 11 SRCK0/PA2 FDC_XDMAAK IRQ2 A11 DQ7R0/P3.2 R0/P3.2 R3.2/P2.0 D[14]

12 SRxD0/PA3 IRQ1 A10 DQ14 R3.2/P0 R3.2/P0.5 R3.2/P1.6 D[6] STS1/PA4 XMC_CANCEL IRQ0 C825 A9 DQ6 3.2 0.01u R3.2/P1.2 R3.2/P1.6 D[13] STCK1/PA5 RST~ A8 DQ13 3.2 R3.2/P0 R3.2/P1.6 D[5] Vcc NMI NC DQ5 R828 R829 R3.2/P1.6 D[12] 10k 10k STxD1/PA6 CLK NC DQ12 3.2 R3.2/P1.6 D[4] GND GND WE~ DQ4 R3.2/P1.6 3.2 SRS1/PA7 GND RESET~ Vcc 2.7 IC806 3.2 R868 3.2 D[11]G DISK_IN SRCK1/PA8 DISK_IN TCK 10k NC DQ113.2 3.2 R3.2/P1.6 D[3] Vcc SYSTEM CONTROL Vcc NC DQ3 0 3.2 R866 R3.2/P1.6 D[10]SRxD1/PA9 FDC_RESET IC806 Vcc X802 RY/BY~ DQ10 1.9 10k DISK_CHANGE HD6437410A13FSN 0.6 15MHz R3.2/P1.6 D[2] STS2/PA10 FDD_XDCHG TRST~ NC DQ2 13 1.6 R3.2/P1.6 D[9] GND XTAL NC DQ9 FC-86 BOARD (3/8) 1.9 12 1.6 R8691M R3.2/P1.2 R3.2/P1.5 D[1]DENSITY_OUT STCK2/PA11 FDD_DENSITY EXTAL A7 DQ1 0 3.2 R3.2/P1.4 R3.2/P1.5 D[8] STxD2/PA12 SHOCK_DET PLLVcc A6 DQ8 0 1.7 R3.2/P1.4 R3.2/P2.1 D[0] SRS2/PA13 FDD_SELECT PLLCAP A5 DQ0 0 C818 470p R3.2/P1.4 R3.2/P2.1

H MOTOR_ON SRCK2/PA14 FDD_MOTOR_ON PLLGND A4 OE~3.2DRIVE_SELECT_0 R864 R3.2/P1.4 R3.2/P0.8 C820

5.0 5.0 SRxD2/PA15 TMS A3 Vss 0.1u3.2 10k R0/P1.4 3.2 Vcc GND A2 CE~ 3.2 0 R862 Vcc TDI003.2 10k A1 A0 R3.2/P1.0 GND Vcc R3.2/ 3.2 P1.4R860 GND TDO 10k Q802 Q803 RN1104F(TPL3) RN1104F(TPL3) MD4 A23 INVERTER INVERTER MD3 A22 3.2

I R873 R872MD2 A21 47k 10k

MD1 A20 3.2 R874 47k SIGNAL PATH MD0 GND 3.2 R875 47k DREQ0~ A19 3.2 3.2 R876 47k VIDEO SIGNAL DREQ1~ Vcc R877 47k DACK0 A18 Y/CHROMA R0/P3.2 R878 47k DACK1 A17 R0/P3.2 IVECF~ A16 REC R879

J 47k PB

C819 R880 1u 47k 13 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 R3.2/P0 3.2 3.2 3.2 3.2 3.2 R0/P3.2 L802 47uH D_3.2V 27

K FC-86 BOARD (8/8)REG_GND REG_GND

C822 C821 XX 22u 6.3V MC_A10 26 MC_A09

L FC-86 BOARD (5/8) MC_A08

MC_A07 MC_A06 15 MC_A05 MC_A04 MC_A03 16 MC_A02 8 17 MC_A01 FC-86 BOARD (2/8)

XCASH M XCASL

19 XWE

XRAS

20 XOE 05 XBUS_RQ

FDD CONTROL (2/2)

4-21 4-22 FC-86 (6/8), 43215678R714 470k R705 XX R706 470k R712 470k R713 470k C707 0.1u R715 47k 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 1098765432126 XCS_LCD_D/A NC 100 DR_BUS_RQ 27 XCS_MELODY DR_BUS_RQ 99 XCS_IDIC2 28 XCS_IDIC2 NC 98 SYS_DD_ON 3.1 29 SYS_DD_ON FLIP 97 XMC_CANCEL 30 NC XMC_CANCEL 96 R0/P3.2 GCAM_STBY 31 NC GCAM_STBY 95 XSTB_FUL 3.1 R3.2/P0 32 XSTB_FUL XRST_PDR 94 CAM_SI 2.9 STB_CHG 33 CAM_SI STB_CHG 93 CAM_SO 0.1 3.2 TG_CS 34 CAM_SO TG_CS 92 XCAM_SCK 3.1 XRST_CORE 35 XCAM_SCK XRST_CORE 91 36 MELODY NC 90 CAM_DD_ON R3.2/P0 37 CAM_DD_ON NC 89 3.2 38 XRESET GND 88 3.2 39 GND BACKUP_VCC 87 1.6 3.2 40 20MHZ_OUT BACKUP_VCC 86 1.4 3.2 KEY_AD3 41 20MHZ_IN KEY_AD3 85 3.2 3.2 R737 1k KEY_AD2 42 BACKUP-VCC KEY_AD2 84 XCS_OSD 2.9 3.2 R738 1k KEY_AD1 43 XCS_OSD KEY_AD1 83 HI_SI 3.2 3.2 KEY_AD0 44 HI_SI KEY_AD0 82 HI_SO 0.2 45 HI_SO NC 81 XHI_SCK 3.1 HALL_AD 46 XHI_SCK HALL_AD 80 LCD_DD_ON 3.2 1.7 LENS_TEMP_AD 47 LCD_DD_ON LENS_TEMP_AD 79 1.6 ZOOM_SW_AD 48 BATT_SI ZOOM_SW 78 3.2 49 BATT_SO BACKUP_VCC 77 XMC_NMI 50 XMC_NMI BACKUP_VCC 76 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 X702 32.768kHz R742 10M R744 0

MCK

432110987654321567811 12 13 14 15 16 17 18 19 20

MVC-FD75 FC-86 (MODE/SYSTEM CONTROL) SCHEMATIC DIAGRAM • See page 4-9 for FC-86 printed wiring board. • See page 4-43 for waveforms.

12345678910 11 12 13 14 15 16 17 18

FC-86 BOARD (7/8) A MODE/SYSTEM CONTROL(HI BLOCK)

-REF.NO.:1,000 SERIES-

XX MARK:NO MOUNT NO MARK:REC/PB MODE R:REC MODE UNREG P:PB MODE D_3.2V

SYS_DD_ON LANC_IN SYS_DD_ON LANC_OUT 12

B FC-86 BOARD (3/8)

ZOOM_SW_AD ZOOM_SW_AD R741 470k C721 D703 R726 XX REG_GND 1SS367-T3SONY 470k C730 XX 22 DC_PACK_SW IC705 DC_PACK_SW C731 XX FC-86 BOARD (8/8) BATT_SIG R727 R740 OSD BATT_SIG 10k 1k XRLS_ON1 IC705 XRLS_ON1 C713 0.01u MB90097PFV-G-109-BND-ER XRLS_ON2 R728 10k R739 XRLS_ON2 1kC R774 XX XHI_SCK 3.1 2.8 SYS_HLCD_DD_ON R729 10k HSYNC LCD_DD_ON C712 XX XCS_OSD 2.9 SCLK 3 SYS_V STB_CHG VSYNC STB_CHG C711 XX HI_SO 0.2 CS 0.1 PYRA_B XSTB_FUL R753 R752 VCO XSTB_FUL 10k 1k C710 XX XRST_SYS 3.3 SIN 0.1 PYRA_R FOCUS_A VC1 FOCUS_A C719 XX 3.3 RESET 0.1 PYRA_G FOCUS_B VC2 FOCUS_B VDD BLKA 0.2 PYRA_BLK KEY_AD3 KEY_AD3 C720 SDR1u VC3 D705 C724 XX 0.01u 1.6

XD BLKB D EXD TESTD

R759 TEST 1M BLKCGND

IC701

TG_CS TG_CS INTIAL RESET,BACKUP VCC L701 GCAM_STBY 10uH GCAM_STBY IC701 CAM_DD_ON S-8423NFS-T2 ±10% CAM_DD_ON R704 C703 C706 XSL_SHUTTER_WE 470k 0.1u 22u R7753.2 SHUTTER_WE VSS VRO 6.3V 100kC705 R3.2/ R0.3/ R743 R746 MCK R0/P3.2 P0 0 3.2 P1.5E 3.2 470k 100k 4 R749MCK 3.1 8 XX 470k CAM_SI PREEND 1608 FC-86 BOARD (1/8) CAM_SI VIN CAM_SO 3 3.2 CAM_SO VBAT VOUT IC703 XCAM_SCK C701 XCAM_SCK 1u 3.2 3.2 C704 R745 C728 EEPROM XCS_IDIC CS RESET 22u 220k XX XCS_IDIC 6.3V R717 IC703 XRST_SYS C702 10k AK6480AM-E2 XRST_SYS 1u 0.4 3.2 R751 XRST_CORE LANC_IN BACKUP_VCC R779 3.2 3.3 100k XRST_CORE 0.4 100k CS VCC LANC_OUT GND

F LENS_RST_LED 3.2 0 FOCUS_B XHI_SCK 3.1HI_SO LENS_RST_LED FOCUS_B SCK BUSY C718

HI_SO 2.9 C716 C729 0.1u XHI_SCK NC XDRY_BATT 0.1u XX HI_SO 0.2 XHI_SCK 2.6 DI RST XCS_IDIC2 NC BATT_SENS R780 3.2 XCS_IDIC2 0 100k FOCUS_A HI_SI 3.2 XRST_SYS NC FOCUS_A DO GND 7 XRST_SYS R3.1/P0 NC XLI_PRE_END FC-86 BOARD (2/8) R3.2/P0 XSL_SHUTTER_WE DR_BUS_RQ NC XSL_SHUTTER_WE DR_BUS_RQ XRST_SYS 3.3 3.2 ZM_RST_SENS XRST_SYS ZM_RST_SENS R3.2/P0 FC_RST_SENS SYS_V NC FC_RST_SENS SYS_V 3.1 R778

G SYS_H NC IC702 DC_PACK_SW 680SYS_H XRST_PDR 3.2

XEEPROM_WE NC R721 HI CONTROL D706 1k GND NC TLSU1002(TPX1,SONY) XPWR_SW 3.1 IC702 3.1 SYS_V XPWR_SW S579617PZ-TEB SYS_V SELF TIMER XCAM/PB_SW R722 1k R0/P3.1 3.2 C717 XCAM/PB_SW BATT_IN 0.1u XRLS_ON2 R723 1k 3.1 2.4 XSHTR_SW (BEEP) XRLS_ON1 R724 1k 2.700XSHTR_LOCK_SW MELODY_ENV Q70600RN1104F(TPL3) DISK_IN SELFTMR_LED LED DRIVE

H R7251k MACRO_ON NCR3.2/P0

NC STB_LED NC REC_LED XCS_MC 3.1 XCS_MC 14 GNDHI_SI 3.2 1.5 HI_SI XCS_EEPROM 32KHZ_OUT HI_SO XCS_IDIC 2.8 1.1 HI_SO XCS_IDIC 13 32KHZ_IN XHI_SCK XCS_CAM_D/A 3.1 3.2 R747 XHI_SCK XCS_CAM_D/A BACKUP_VCC 470 21 XCS_MC Q703XCS_MC 0 RN1104F(TPL3)

I FC-86 BOARD (6/8) XRST_SYSXRST_SYS R701 LED DRIVE

XMC_CANCEL 100k 3.2 XMC_CANCEL 3.2 Q702 3.6 XMC_NMI BATT_SIG 2SJ347-TE85L R3.2/P0 XMC_NMI BATTERY CHARGE DR_BUS_RQ D702 DETECTOR Q704 DR_BUS_RQ MA111-(K8).S0 0 X701 RN1104F(TPL3)XACS_LED R702 3.1 3.1000R3.2/P0 20MHz LED DRIVE 220 C714 C715 15p 22p CAM_SI 3 R0.2/P3.6 CAM_SI R703 CAM_SO Q701 0 10k CAM_SO SSM3K03FE(TPL3) XCAM_SCK BATTERY CHARGE XCHG_LED

J XCAM_SCK DETECTOR R730 R736 R776XCS_IDIC

XCS_IDIC 1k 47k 1M 19 XRST_PDR XRST_PDR FC-86 BOARD (4/8) LENS_TEMP_AD LENS_TEMP_AD R718470k XRST_SYS HALL_AD C708 C709 XRST_SYS HALL_AD 0.022u 0.1u XCS_LCD_D/A LENS_RST_LED R707 100k XCS_LCD_D/A LENS_RST_LED XCS_IDIC2 ZM_RST_SENS R708 100k Q707 XCS_IDIC2 ZM_RST_SENS 2SC4738F-Y/ 3.2 XHI_SCK FC_RST_SENS R769 100k R761 10k GR(TPL3) XHI_SCK FC_RST_SENS MODULATOR HI_SO R709 100k

K 0 R763 R764

HI_SO 1k 4700 PYRA_BR710 100k C726 0 PYRA_BR781 C725 1u PYRA_R680 R711 100k 4700p R762 PYRA_R 16V 1k PYRA_G CAM_SI PYRA_G CAM_SI R766 XX C727 PYRA_BLK 17 XCS_CAM_D/A 0.001u PYRA_BLKXCS_CAM_D/A 0 FC-86 BOARD (4/8) CAM_SO 0 DISK_INCAM_SO D701 KEY_AD2 12 XCAM_SCK 1SS367-T3SONY KEY_AD2 XCAM_SCK KEY_AD1 FC-86 BOARD (3/8) XCS_LCD_D/A KEY_AD1 KEY_AD0 DC_PACK_SW Q708 R777 KEY_AD0RN1104F(TPL3) 470k XPWR_SWMODULATOR XPWR_SW

L XCAM/PB_SW XCAM/PB_SW

XACS_LED XACS_LED XCHG_LED XCHG_LED 05 BEEP LI_3V

MODE/SYSTEM CONTROL FC-86 (7/8) 4-23 4-24

, D903 XX BATT_SIG 24 23 22 21 20 19 18 17 16 15 14 13 +IN C +IN B 2.5 2.5 -IN C -IN B R923 XX 1.6 1.7 FB C FB B C909 0.022u 1.4 C908 0.022u DTC C DTC B R929 C911 XX 2.5 SCP:D SCP:A 0 C910 0.022u 3.3 2.5 R928 10k +IN D +IN A 2.4 2.5 -IN D -IN A R939 XX R937 1k 2.5 1.9 FB D FB A R938 0 C915 0.022u 1.5 DTC A C914 4700pDTC D 2.5 CC1 CB1 5.7 7.1 CC2 CB2 7.8 8.4 CD1 CA1 37 38 39 40 41 42 43 44 45 46 47 48 L901 10uH L902 10uH1234SYS_DD_ON8765LCD_DD_ON R965 15k Q918 C944 2SA1832F-Y/ 0.47u GR(TPL3) R964 27k ± 0.5% -34.8 -10

MVC-FD75 FC-86 (DC/DC CONVERTER) SCHEMATIC DIAGRAM • See page 4-9 for FC-86 printed wiring board.

12345678910 11 12 13 14 15 16 17 18 19

FC-86 BOARD (8/8) A DC/DC CONVERTER(DD BLOCK)

XRLS_ON2 XRLS_ON2 XRLS_ON1 -REF.NO.:1,000 SERIES- XRLS_ON1XSTB_FUL

XX MARK:NO MOUNT XSTB_FULSTB_CHG

STB_CHG

NO MARK:REC/PB MODE KEY_AD3

KEY_AD3 FOCUS_B FOCUS_B 22 FOCUS_A CN910 13P FOCUS_A FC-86 BOARD (7/8) DC_PACK_SW F_CHG 1 DC_PACK_SW

B BATT_SIGADJ_LEVEL 2 BATT_SIG

SYS_DD_ON REG_5V 3 SYS_DD_ON STRB_ON LCD_DD_ON STRB_ON 4 LCD_DD_ON XSTB_FUL XSTB_FULL 5 UNREG REG_GND 6 REG_GND FLASH R986 47k KEY_AD3 D_3.2V UNIT KEY_AD3 7 FOCUS_B REG_GND FOCUS_B 8 C920 C921 C924 (UNREG_GND) FOCUS_A XX 10u XX BL_UNREG FOCUS_A 9 16V 16V 16V

C D_3.2V 10 FDD_P_5V

UNREG_GND 11 STB_CHG BEEP_15V STB_CHENGE 12 C952 R927 UNREG 1(FLASH) 13 XX 150k 16V R931 5 REG_GNDR915 27k C912 10k 15 Q924 (FDD_GND) ±0.5% XX ±0.5% 5 4 L905 Q916,920,925 2SA1832F-Y/GR(TPL3) F901 22uH PANEL 13.2V REGULATOR 15.7 PANEL 13.2V REGULATOR R987 1.4A/32V R943R916 0 10k2200 Q906 PANEL_13.2V R932 FP107-TL 13.4 11F902 ±0.5% 0 R960

D 1.4A/32V

SWITCH 39k R966 FC-86 BOARD (3/8)100k R917 R933 C9160.1u ± 0.5%LF901 F903 5600 10k 8.412314.5 Q925 XX 1.4A/32V ±0.5% ± 0.5% 2SA1832F-Y/ 8.3 F904 Q916 GR(TPL3) C948CN901 4P 1.4A/32V R918 R934 C931 2SC4738F-Y/GR(TPL3) 2.2uR988 BATT_UNREG 1 39k 47k 4.7u 13.3 13.4 25V REG_GND0 BT901 10V BATTERY BATT_SIG 2 R913 R919 R935 R945 PANEL_6.5V 27k 68k C929 Q920 TERMINAL BATT_GND30XX 4.7u 2SC4738F-Y/GR(TPL3) DC_PACK_SW 10V BATT/XEXT 4 R914 R930 12.8 PANEL_-15.3V 4700 4700 R920 R936 T901 R970 Q926 E 2200 1k DC/DC CONV.TRANS D905STRB_ON MA796-TX L909 100k 8.5 2SA1832F-Y/GR(TPL3) PANEL_4.9VSTRB_ON C918 C9229 22uH0 Q917,921,927 PANEL 6.5V470p 470p41PANEL 6.5V REGULATOR D_3.2V D_3.2V FC-86 BOARD (2/8) 8.3 REGULATOR 6.6 REG_GND R9613 2 Q907 12k R967 9.2 8 Q913 D_3.2V 2751±0.5% 47k2SB1122- RN1104F(TPL3) Q927 RL-58 BOARD CN907 3P 2.5 8.3 ST-TD C940 R957 2SA1832F-Y/ REG_GND FC-86 BOARD (6/8) D904 R951 EMERGENCY 47k R962 CN051 REG_GND 1 12 11 10987654321SWITCHING 0 4.7u DETECT 8 GR(TPL3)1SS357-TPH3 100k XRLS_ON2 20V Q915 THROUGH THE XRLS_ON2 2 RN1104F(TPL3) ±0.5% 0.2 D_3.2V FF-188 HARNESS XRLS_ON1 5 SWITCHXRLS_ON1 3 13.3 6.5 6.6

F (SEE PAGE 4-42) 3 8.8 C937 C938 -2.1 REG_GNDSCP:B CA2 C925 C939 00.001u 4.7u 4.7u 4.7u Q921 200.1 R958 R963

OSC IN VE A 22k 82k 2SC4738F-Y/ CAM_P_5V FC-86 BOARD (4/8) R909 R9468.4 220 ±0.5% GR(TPL3) 10k OSC FB OUTA6R971 R974 C949 ± 0.5% 1.2 8.3 C926 47k 4700 4.7u REG_GND 15 RT CAM15V P5V Vcc OUTFLASH_ADJ 0.001u (CAM_P_GND)C902 180p 1.6 8 Q917 FC-86 BOARD (4/8) CT OUT B Q918,922,928 REG_GND F_CHG 2SC4738F-Y/GR(TPL3)8.3 1.2 R947 CAM -5.5V REGULATOR C903 Vcc VE B 680 LND907 CAM_15V 0.1u 2.5 Q912 V REF 2.5V IC901 R955 GND R948 470 SHIELD_GND PANEL 4.9V SWITCH XX CAM_-5.5V 3.2 MB3785APFV-G-BND-ER 1.8 POW CONT VE C LND908

G 3.2 7.8 R972 R979CTL B R9754.9V 3.2V OUT C C927 SHIELD_GND 100k 10k 22k

C904 3.2 8 0.001u 5 R956 0.5 ± 0.5% 0.1u CTL C,D OUT D 3.1 100k 0 1.4 LND909 CT SCP VE D Q911 0 2.5 8.2 R949 470 SHIELD_GND 2SC4738F-Y/GR(TPL3) SCP:C CD2 4.9 EMERGENCY DETECT Q922 LND910 Q914 2SA1832F-Y/ C950 1 Q912 RN2104F(TPL3) 0 -10 GR(TPL3) 10u C928 SHIELD_GND FC-86 BOARD (1/8) 2SJ316-TD SWITCH 10V 0.001u Q928 25 26 27 28 29 30 31 32 33 34 35 36 L9081uH 4.9 4.9 4.9 2SC4738F-Y/ R980 4.9 GR(TPL3) 12k 2.5 6.5 ±0.5%5 4

H L903 0 3.3 R968 R98147uH 39kR952 R954 100k ±0.5%

LND901 R904 Q908 C906 100k 1k L910 -10.4 0 0.001u FP107-TL L906 4.7uH C919 C923 CH_GND SWITCHING 4.7uH R910 470p 470p -11 -5.8 270k R921 0 R953 C9424700 7.8123100k 0.022u LND902 C936 Q929R922 C932 C934 0 IC901 8.3 4.7u 10u 10u 2SC4738F-Y/GR(TPL3)CH_GND 10V 10V 10V 3.2 C943C941 10u CAM -5.5V REGULATORC930 XX D_3.2V DC CONTROL 4.7u 10V 10V R905 REG_GND LND903 XX L907 Q910 R973 C905 C917 RN1104F(TPL3)Q909 4.7uH C947 100k R976 A_4.9V FC-86 BOARD (4/8)

I CH_GND 0.022u XX 18kFP107-TL 3.3 PANEL 4.9V SWITCH 0.47u 0.5 Q923 ±0.5%

SWITCHING54L904 2SA1832F-Y/ LND904 R924 R940 22uH GR(TPL3) R977 C951 10k001600 1u CH_GND ±0.5% R925 R941 Q919 0R912 0 390 15k C933 2SA1832F-Y/ R985 ±0.5% ±0.5% C935 4.7u C945 GR(TPL3) LND905812310uXX R926 R942 10V 10V 0.1u -34.2 R911 C907 C913 -34.2 CH_GND XX XX 10k XX 4700 8.3 ±0.5% C946 R969 R978 ±0.5% 0.1u 100k -15 120k± 0.5% LND906

J CH_GND

Q930 2SC4738F-Y/GR(TPL3) Q919,923PANEL -15.3V REGULATOR D906 D907 PANEL -15.3V REGULATOR MA111-(K8).S0 MA111-(K8).S0 25 FC-86 BOARD (5/8)D_4.9V 05 A_4.9V 24 FC-86 BOARD (3/8)

The components identified by mark 0 or dotted Les composants identifiés par une marque 0 sont

line with mark 0 are critical for safety. critiques pour la sécurité. Ne les remplacer que

Replace only with part number specified. par une piéce portant le numéro spécifié. DC/DC CONVERTER

4-25 4-26 FC-86 (8/8),

MVC-FD75

PK-59 (FDD INTERFACE, LCD DRIVE, LCD TIMING GENERATOR, MODE KEY SWITCH, BACK LIGHT) PRINTED WIRING BOARD – Ref. No.: PK-59 board; 2,000 series – • For Printed Wiring Board. • PK-59 board is four-layer print board. However, the patterns of layers 2 to 3 have not been included in the diagram. • There are a few cases that the part isn't mounted in this model is printed on this diagram. • See page 4-46 for printed parts location. • Chip transistorC54BE1234-27

FDD INTERFACE, LCD DRIVE, LCD TIMING GENERATOR, MODE KEY SWITCH, BACK LIGHT

PK-59 4-28, MVC-FD75 4-30 FDD INTERFACE, LCD DRIVE, LCD TIMING GENERATOR, MODE KEY SWITCH, BACK LIGHT 4-29 PK-59, R605 2.2 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61

NC

4.9 XSSI NC 4.9 XWPO XLVS 4.9 XT00 XTST0 1.2 XIWG USR1 5.0 XIWD TDR 5.0 XISTP 15kXTST1 R622 ± 0.5% 5.0 XIDIR F_GND 5.0 4.9 XMON DISK 4.5 4.9 XIDXO XFPTS 1.9 XRDYO C603HDS 5.0 0.1u 5.0 XDCO 4.8XDLED 4.9 XDSEL 5.0 R632XMC 10k

XRDO

XIDXS 5.0 5.0 D_GND HSP D_VCC

USRO XIU

D_GND

HDI

OSCI 1.2

XDO OSCO

MS2

CPO DIIV

21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 PANEL_6.5V XHI_SCK XHI_SCK HI_SO HI_SO XCS_PANEL_D/A XCS_PANEL_D/A PANEL_R PANEL_R PANEL_G PANEL_G PANEL_B PANEL_B PANEL_3.2V REG_GND LANC_OUT LANC_OUT LANC_IN LANC_IN PANEL_3.2V

XLCDH XLCDH

PANEL_XHD PANEL_XHD PANEL_XVD PANEL_XVD PANEL_-15.3V PANEL_13.2V PANEL_4.9V REG_GND PANEL_4.9V BL_UNREG UNREG_GND PANEL_3.2V REG_GND KEY_AD1 KEY_AD1 KEY_AD2 KEY_AD2 KEY_AD0 KEY_AD0 ZOOM_SW_AD ZOOM_SW_AD XPWR_SW XPWR_SW XCAM/PB_SW XCAM/PB_SW XACS_LED XACS_LED XCHG_LED XCHG_LED

BEEP BEEP MVC-FD75 PK-59 (FDD INTERFACE) SCHEMATIC DIAGRAM • See page 4-27 for PK-59 printed wiring board. • See page 4-44 for waveforms.

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PK-59 BOARD (1/5) FDD INTERFACE(FD BLOCK) A -REF.NO.:2,000 SERIES- XX MARK:NO MOUNT NO MARK:REC/PB MODE R:REC MODE P:PB MODE

CN601 18P DISK 182345FPTS 17

B PK-59 BOARD PK-59 BOARD PK-59 BOARD PK-59 BOARDHDS 16 (2/5) (3/5) (5/5) (4/5)

FDD_GND 15 FDD_GND 14 R620 1k CLOCK 13 MC 12 PANEL_6.5V PK-59 BOARD (3/5) INDEX 11 FLOPPY DISK DRIVE FDD_5V 10 7 FDD_5V 9 BL_UNREG PK-59 BOARD (2/5)

C PNB 8

PNA 7 PA 6 CN603 60P PB 5 60 BL_UNREG FDD_5V(A) 4 R601 220 R621 59 BL_UNREG STBY(K) 3 1k R604 ±0.5% 58 UNREG_GND FDD_GND(E) 2 100k C602 57 UNREG_GND TOS1(C) 1 0.1u 0 R631

D 1.2 1M 56 PANEL_4.9V4.9 0 4.9

55 PANEL_13.2V 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 54 P_3.2V X601 4MHz 53 PANEL_-15.3V T00 52 PANEL_6.5V XHI_SCK 1 FD_RF R612 1500 1 51 XHI_SCK PANEL_XHD PK-59 BOARD (2/5) ± 500.5% PANEL_XHDXPWR_SW CL601 DOB MS1 HI_SO 49 HI_SO INDEX CL602 R602 DOA DOIV PANEL_XVD0 4.9

E 2200 R634

48 PANEL_XVD 8200 0 FSET XREN XX XCS_PANEL_D/A R613 ±0.5% 0 47 XCS_PANEL_D/A CN602 10P R603 4.9 TPA US 46 REG_GND SHIELD 10 2200 A_VCC MB0 R606 0.4 45 REG_GNDERASE 9 PANEL_R 4300 NC PB0 5.0 44 PANEL_R COMMON 8 NC SVCC XPWR_SW4.9 0.4 43 PWR_SW R/W_A 7 RW1B PB1 PANEL_G4.9 IC601 42 PANEL_GFDD UNIT R/W_B 6 4300 RW1A MB1 XCAM/PB_SWR607 41 XCAM/PB_SW R/W_B 5 FDD INTERFACENC S_GND PANEL_BF 4.9 IC601 40 PANEL_BR/W_A 4 4.9 RW0B BH9530KS2 S_GND

XLCDH

39 XLCDH COMMON 3 RW0A MA1 0.5 A_4.9V 38 A_4.9V ERASE 2 NC PA1 ZOOM_SW_AD5.0 37 ZOOM_SW SHIELD 1 A_GND SVCC XCHG_LED4.9 0.5 36 XCHG_LED EO1 PA0 KEY_AD04.9 5 35 KEY_AD0 EO0 MA0 XACS_LEDR615 3300 ±0.5% 4.9 PK-59 BOARD (4/5) 34 XACS_LED R608 3.1 ECC ERASE CUR. CONT. ACEN KEY_AD1 33 KEY_AD1 0 R614

G 4700 4.9

WCLWRITE CUR. CONT. RTIM 4.2 R630 LI_3V 32 LI_3V FC-86 BOARD (3/8)±0.5% 0 WCHWRITE CUR. CONT. STBY 10k KEY_AD2 4.9 31 KEY_AD2 CN602 R609 R616 XX XX XULSK TOSI THROUGH THE BEEP_15V 30 BEEP_15V R617 BEEP FP-35 FLEXIBLE XX 29 BEEP (SEE PAGE 4-16) R610 R619 R629 28 FDD_P_5V 0 1200±0.5% 15kR618 27 FDD_P_5V 47k ±0.5% 26 A_4.9V12345678910 11 12 13 14 15 16 17 18 19 20 25 A_4.9V R633 5.0 5.0 1.9

H XX R623 24 INDEX20k

23 DRIVE_SELECT C601 1u 22 FD_READYR611 R626 R628 L601 XX 15k 15k 2.2uH 21 DISK_CHANGE C604 C605 C606 3225XX 47u 20 MOTOR_ON0.1u 10V 10V 19 DENSITY_OUT R627 10k TA TAC C 18 STEP R625 10k 17 DIRECTION

I 16 FDD_GND

15 FDD_GND 14 WRITE_DATA 13 XDISK_IN 12 FDD_GND 11 TRCK_00 R624 470 10 WRITE_GATE 9 N.C

J 8 REG_GND SIGNAL PATH 7 WRITE_PROTECT

6 READ_DATA

VIDEO SIGNAL 5 SIDE1_SELECT

4 REG_GND

CHROMA Y Y/CHROMA

LND601 3 REG_GND LANC_OUT FDD_GND 2 LANC_OUT

REC LANC_IN

1 LANC_IN

K PB LND602

FDD_GND

FDD INTERFACE PK-59 (1/5) 4-31 4-32

, 24 23 22 21 20 19 18 17 16 15 14 1312345678910 11 12 W_MSKV 48 47 46 45 44 43 42 41 40 39 38 37 COM_ADJ R825

XX

R820

XX

PICTURE COM_BLK_LVL Y/CR/XRGB_SW COM_AMP R822 2.9 1.1 39k AGC_FIL GAMMA2 0.8 AGC_OUT GAMMA0 2.3 BRT_R AGC_LVL SUB_BRT_R 0.9 1.9 BRT_B COLOR SUB_BRT_B 2.4 AMP H_FIL_IN RGB_AMP 2.4 FRPV G/Y FRP 2.0 2.4 FRPT R/R-Y/CR COM_FRP B/B-Y/CB OUT_LIM H_FIL VSH REG_OUT VCC2 13 14 15 16 17 18 19 20 21 22 23 24

MVC-FD75 PK-59 (LCD DRIVE) SCHEMATIC DIAGRAM • See page 4-27 for PK-59 printed wiring board. • See page 4-44 for waveforms.

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PK-59 BOARD (2/5) A LCD DRIVE(RGB BLOCK)

-REF.NO.:2,000 SERIES-

XX MARK:NO MOUNT NO MARK:REC/PB MODE R:REC MODE R806 P:PB MODE 47k B

R804 R827 R823 L801 22k C81515k 12k XX

SIGNAL PATH C807 47uH 10V L802 IC801 47u 10uH6.3V R805 R82812k 33k VIDEO SIGNAL EVR C811

0.1u IC801

CHROMA C801 MB40D001PFV-G-BND-ER

0.1u C808 3.2 1.9 BL_LEV 0.1u

VDD REC BL_LEVEL C810 C 3.3 1.6 XXH_POSVCC H_POS 2.0 4.9 6.6 10V PB C802XEXT_IN 0.1u 3.3 1.5 COM_ADJ 36 35 34 33 32 31 30 29 28 27 26 25

XEXT_IN COM_ADJ BL_LEV BL_LEV PK-59 BOARD (5/5) JIG_CON 0 2.4 AMP H_POS JIG_CON RGB_AMP 7 H_POS R801 V-COMCOMTST 0 1.2 V-COM V-COM COMTST V-COM BRT 0 R813 VCO 3.3 1.1 R802 R803

VCO

VCO 2.5 BRT_TST VCO XX XX COM_BLK B_OUT 3.3 2.1

D 3.1 1.5 CONT XTEST B_DC_DET

C812 R814 0.1u XHI_SCK CLK CONT 2.2 2.5 47 BRIGHT 6 G_OUT 0.2 1.9 BRT_B CONT C806 0.1u 1.5 2.1 HI_SO SI BRT_B CONTRAST G_DC_DET C813 COM-O 3.2 2.3 BRT_R COM_OUT IC802 2.5 0.1u R_OUT SO BRT_R 2.0 R815 8 SUB_CON_B LCD DRIVE 5 R_DC_DET 473.1 XCS_PANEL_D/A XEN N.C SUB_CON_R IC802 GND1 C814 3.2 IR3Y37A4 0.1u 3.2 1.2 COLOR VCC1 GND2 VDDA COLOR OSD_B SYNC_OUT COM-O 2.2 BRT 3.2 COM-O VSS BRIGHT OSD_G

E 3

SYNC_IN 2 2.9 P_XHDOSD_R EXT_BGP PK-59 BOARD (1/5) 0PANEL_3.2V BLACK_IN24SYNC_SEP PANEL_6.5V COMTST 9

COMTST

JIG_CON PK-59 BOARD (3/5) REG_GND JIG_CON C803 XEXT_IN 0.01u XEXT_IN PANEL_G12345678910 11 12 C804 W_MSKV

F 0.01u 0.9 0 1.0 2.0 2.0 1.2 W_MSKVPANEL_R P_XHD

C805 P_XHD 0.01u FRPV PANEL_B FRPV R817 FRPT LANC_IN R818 C817 FRPT XX XX XX 6.3V COLORLANC_OUT R819 R826 R821 R812 XX00100k CN802 18P R824 C816 XX XX PANEL_B 1 P_4.9V

G PANEL_G 2 VB

PANEL_R 3 VG REG_GND 4 VR JIG_XHD 5 JIG_XHD JIG_XVD 6 JIG_XVD HSY 7 HSY COM 8 PANEL_COM CPC VG97

H (FOR CHECK) UNREG 10 BL_UNREG PK-59 BOARD (1/5)

LANC_IN 11 LANC_OUT 12 XPWR_SW 13 XPWR_SW MAKER_RECOG 14 R816XX INDEX 15 INDEX 1 TRACK_00 16 T00 PK-59 BOARD (1/5) NC 17

I FDD_RF 18 FD_RF LCD DRIVE

4-33 4-34 PK-59 (2/5), 7654321

VCO

8 9 10 11 12 13 14 D903 1T369-01-T8A R918 68k 48 47 46 45 44 43 42 41 40 39 38 37 R921 68k BLKI P16 2.5 BLKO VSEPC43213.0 BGPO P15 HSY 4.9 HSY MUT 2.4 VSY PDP VIN GND 4.95678GND VDD 4.9 SYNO TST2 4.9 WIDOV TST1 2.4 WIDOT OSCI

FRPV

FRPV OSCO

FRPT

FRPT TESTO 13 14 15 16 17 18 19 20 21 22 23 24 COM-O C915 PANEL_COM 1u V-COM R963 XX R964 0 R965 0 R966 XX R967 47 VG R968 47 VB R969 47 VR R970 XX R971 XX R972 XX

MVC-FD75 PK-59 (LCD TIMING GENERATOR) SCHEMATIC DIAGRAM • See page 4-27 for PK-59 printed wiring board. • See page 4-44 for waveforms.

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PK-59 BOARD (3/5) A LCD TIMING GENERATOR(TG BLOCK)

-REF.NO.:2,000 SERIES-

XX MARK:NO MOUNT NO MARK:REC/PB MODE R:REC MODE P:PB MODE B

6 R901XX PK-59 BOARD (1/5) PANEL_6.5V L901 10uH PANEL_13.2V PANEL_-15.3V L902 R933 R934 R941 10uH IC902 100k 0 33kIC902 13.4 ±0.5%NJM062V(TE2) R905 R907 R913 C909 C911 VCO,COM AMP 1.8 Q905 R976 680k XX 10k 0.1u 560p 2.5 13.4 2SD1819A-QRS-TX

C XX VCC+ C921OUT1 R929 1.2 R942 C917 C918 XX

C907 2.4 100k 22k 0.001u OUT2 1.2 ±0.5% 0.01u 0.1u IN1- Q903-906 C916 L903 R903 1.22.4 BUFFER 6.8u3 10uH 0 IN2- 0.3 R943 C91913.4 16V 33k 1u C920 PK-59 BOARD (1/5) PANEL_4.9V R915 IN1+ Q904 Q906 ±0.5% 35V 1u 1M -10.4 IN2+ 0.3 -10.4 2SB1218A 2SB1218A- R962 VCC- -QRS-TX QRS-TX D904 R958

XX

Q903 MA8047-H-TX L905 2SD1819A- 0.7 15uH QRS-TX R938 R944 R959 XX L904 R904

D 100k

22k XX XX ±0.5%R926 -10.4 PANEL_3.2V 4700 R960 0 C902 3.3u C904 R914 R916 R922 R981 20V 0.1u 1M C901 R908 R909 C906 22k 47k 4700 0.1u R930 R932 R935 R939 R977 XX XX 120k XX 33k 100k 0 33k R957 XX R961 REG_GND 0 C908 CN901 24P 82p TG_24 R94501CLD P_4.9V TG_23 R94602SPD

E VB TG_22 R947 0VB 3 CTR

VG TG_21 R948 0 VG 4 EX3 VR R980 C927 R975 TG_20VR C903 0.1u05EX2XX 0 R949 1006VB12PANEL_COM PANEL_XHOLD TG_18PANEL_COM 7 RES R950 XX 8 TST 3.2 2.3 TG_12 V-COM 9 VR V-COM 36 35 34 33 32 31 30 29 28 27 26 25 R951 XX LCD901

F COM-O R979 10 VG COLOR LCDCOM-O R952

47k XX MONITORVCO 11 VB VCO 12 R953 XXR936 12 GND XX R954 XX 9 R97847k 11 13 VSHR9402.9 2.1 0 TG_24 14 COM PK-59 BOARD (2/5) SYNI CLD 0.5 TG_23 R955 15 VGL SYNC SPD XX 4.9 2.4 16 VSS R974 TG_22WIDE CTR 0 TG_170 TG_21 17 MO2 PDPC EX3 TG_16

G R906 4.9 4.9 TG_20 18 MO1NTPC1XX IC901 EX2 TG_15

COMTST 19 EX1 COMTST TESTI LCD TIMING GENERATOR TESTO TG_14 4.9 IC901 2.4 TG_18 20 SPSTEST 4.9 LZ9GH184 RES TG_13 C905 4.9 TG_17 21 CLS 0.1u R912 VREVC100k MODE2 R9564.9 4.9 TESTI TG_16 0 22 VCC MODE1 4.9 0 TG_15 23 VSH HREVC EX1 HSY COMTST 0 4.8 TG_14 24 VGH HSY D902 COMTST SPS FRPV XX 4.9 3.9 FRPV LOWI TG_13

CLS H R902 9 R937XX XX TG_12 FRPT

3 FRPT PANEL_XHOLD PK-59 BOARD (1/5) XLCDH 9 P_XHD12345678910 11 12 PK-59 BOARD (2/5) 2.4 4.4 0 2.5 2.4 XEXT_IN IC903 TC74HC4066AFT(EL) C926 0.1u 2.9 3.3

I PANEL_XHD VCC R931IN/OUT1 0

2.9 3.2 3 CONT1OUT/IN1 PK-59 BOARD (1/5) 3.1 CONT4 0 OUT/IN2 R927 3.1 1.0 R920 R924 0 PANEL_XVD IN/OUT4 180k 180k IN/OUT2 3.3 OUT/IN4 3.1 R973 C924 CONT2 XX XX 0 OUT/IN3 2.9

IC903 CONT3J IN/OUT3 1.0 C913C925 SIGNAL PATH

SWITCH GND XX 82p

VIDEO SIGNAL

D905

XX

JIG_XHD CHROMA 9 JIG_XVD REC PK-59 BOARD (2/5) JIG_CON

K H_POS PB

W_MSKV

LCD TIMING GENERATOR PK-59 (3/5) 4-35 4-36

, D705

XX

D706

XX MVC-FD75 PK-59 (MODE KEY SWITCH) SCHEMATIC DIAGRAM • See page 4-27 for PK-59 printed wiring board.

12345678910

PK-59 BOARD (4/5) A MODE KEY SWITCH(LK BLOCK)

-REF.NO.:2,000 SERIES-

XX MARK:NO MOUNT

STATIC_GND

NO MARK:REC/PB MODE LND701 D712 R:REC MODE R706 R711 XX P:PB MODE STATIC_GND 2700 4700

LND702 S703 S706

B STATIC_GND PICTURE EFFECT BRIGHT (+)S701

LND703 CONTROL R701 STATIC_GND 1800 UP16SET LND704 LEFT25RIGHT R708 R716 1800 S705 2700 S709 D711

XX

3 4 FLASH BRIGHT (-) STATIC_GND D704 DOWN XX LND705COMMON

C STATIC_GNDR705 1800 LND706

R707 S704 R712 S707 10 KEY_AD1 2700 4700 STATIC2_GND PK-59 BOARD KEY_AD0 DISPLAY PROGRAM AE (5/5) KEY_AD2 ZOOM_SW S702 POWERTWS708 OFF ON PLAY/CAMERA RV701

D 10kCAMERA PLAY

XPWR_SW XCAM/PB_SW PK-59 BOARD (1/5) ZOOM_SW_AD PANEL_3.2V

E REG_GND L701 (Note) R709 R713

0 330k 1500 15.6 BEEP_15V Q702 2SC4738F-Y/GR(TPL3) BEEP BEEP AMP C701 LI_3V XX C702 C703 1u 9.1 XCHG_LED C704 16V 0.47u1u BH701 2.1 8.4 XACS_LED D702 (BATTERY TLYU1002(TPX1,SONY) HOLDER) BZ701 D701 FLASH CHARGE D709XX C705 R710 1.4 R714 R715 (BUZZER)

F TLSU1002(TPX1,SONY) (AMBER) 1u 150k 330 2700ACCESS

(RED) D710 Q701 XX 2SC4738F-Y/GR(TPL3) R702 R703 D708 BEEP AMP 680 680 XX Note:Resistor is mounted to the A_4.9V location where L701 is printed.

MODE KEY SWITCH

4-37 4-38 PK-59 (4/5), GND OUT 0.9 4.9 RT VCC 2.3 1.1 DTC FB 1.0 SCP IN 0.954123

MVC-FD75 PK-59 (BACK LIGHT) SCHEMATIC DIAGRAM • See page 4-27 for PK-59 printed wiring board. • See page 4-44 for waveforms.

12345678910 11 12

PK-59 BOARD (5/5) A BACK LIGHT(BL BLOCK)

-REF.NO.:2,000 SERIES-

XX MARK:NO MOUNT NO MARK:REC/PB MODE Q856 CN851 20P R:REC MODE FP102-TL R868 C866 P:PB MODE Q854 SWITCHING L852 L853 1800 T851 12p 20 N.CL851 2SC4738F-Y/GR(TPL3) 22uH 100uH 1/10W

4.7uH SWITCHING 5.0 19 BL_HIGH8.235BL_UNREG 4 Choke Choke 18 BL_HIGH7.7 2

B R856 5 5.0 TDK toko 1 17 N.C22k 8.2 1 ND801

16 N.C 7.8 R86726BACK 1800 15 N.C LIGHTC852 C853 R855 XX 1u 560 1/10W 20V C8637.8 3 14 N.C0.015u C856 C859 4.8 4.8 13 N.CR857 4 18p 560 27p45410 -0.5 12 N.C PK-59 BOARD (1/5) C86133u C862 1u 11 N.C10V -0.5 1 Q860 2 FP216-TL 10 N.C

INVERTER

DRIVE 9 N.C

C UNREG_GND 8 N.C

Q852 Q862 7 N.C UN9112J-(K8).SO D852 UN9112J-(K8).SO R874 BACK LIGHT SWITCH MA111-(K8).S0 LED SWITCH 120 6 N.C PANEL_4.9V 5 LED 4.9 4.9 R859 C860 4.8 0R854 4 LED_GND 120k 10k XX ±0.5% ±0.5% 3 BL_LOW 0 4.8 LND710 2 BL_LOW

D SHIELD_GND 1 UNREG_GND D901R858

LND711 C858 (LED) 4.5 IC851 0.01u 4700SHIELD_GND R8701234100k 13 DC/DC CONTROLLND712 IC851 SHIELD_GND TL5001CDR C857 R860 0.022u 2k R863 LND713 ± 0.5% 47k SHIELD_GND R876 XX C851 0.01u

E LND707 R875XX Q858

BACK_LIGHT_GND 2SC4738F-Y/GR(TPL3) BL LEVEL IC852 Q857 CURRENT DETECT 2SC4738F-Y/ 0.9 D853 D8548765GR(TPL3) 1.0 MA111-(K8).S0 MA111-(K8).S0 1.40 Q853 BL LEVEL 10 0 RN1104F(TPL3) 4.8 1.9 0 SWITCH 0.6 C867 PK-59 BOARD (4/5) STATIC2_GND 0.1u0.3 0.3 R872 R873 R861 0.3 22k C865 470 2.7 0 3300 R864 0 4.8 0.1u

F ± 0.5% R862 4700 R865 IC8521500 1500 NJM2406F-TE2

Q851 R852 R853 C854 C855 Q855 R871 8 UN9214J-(K8).SO 6800 Q859 27k 2.2u 2.2u RN1104F(TPL3) RN1104F(TPL3) 6800 SWITCH ±0.5% ±0.5% 6.3V SWITCH PK-59 BOARD (2/5) BL_LEV BL LEVEL The components identified by mark 0 or dotted Les composants identifiés par une marque 0 sont line with mark 0 are critical for safety. critiques pour la sécurité. Ne les remplacer que Replace only with part number specified. par une piéce portant le numéro spécifié.

BACK LIGHT

PK-59 (5/5) 4-39 4-40,

MVC-FD75

RL-58 (RELEASE SWITCH) PRINTED WIRING BOARD AND SCHEMATIC DIAGRAM – Ref. No.: RL-58 board; 2,000 series – 1234• For Printed Wiring Board. • RL-58 board is four-layer print board. However, the patterns of layers 2 to 3 have not been included in the diagram. • There are a few cases that the part isn't mounted in this model is printed on this diagram. RL-58 BOARD • See page 4-46 for printed parts location. A RELEASE SWITCH -REF.NO.:2,000 SERIES- XX MARK:NO MOUNT

B

CN051 3P FC-86 BOARD (8/8) CN907 XRS_ON1 3 THROUGH THE XRS_ON2 2 FF-188 HARNESS REG_GND 1 (SEE PAGE 4-25)

C

S051

SHUTTER

(1st) 1 2 (2nd) 3 4 D051 LND051 XX

D CH_GND

R051 05 XX

RELEASE SWITCH

4-41 4-42 RL-58, 4-3. WAVEFORMS

CD-338 BOARD FC-86 BOARD PK-59 BOARD

110106.0 Vp-p 950 mVp-p 3.2 Vp-p 3.3 Vp-p 4.0 Vp-p 36.818178 MHz 4 MHz 7.7 MHz 66 µsec H IC401 1, 2 REC IC103 rj REC/PB IC601 rj REC/PB IC601 rs REC/PB IC901 wh REC/PB22qa 2 qa 5.8 Vp-p 4.0 Vp-p 2.4 Vp-p 600 mVp-p 3.2 Vp-p 16 MHz 66 µsec 60 nsecHVIC401 3, 4 REC IC102 2-qa REC IC801 id REC/PB IC802 8 REC/PB IC901 ef REC/PB33qs 3 qs 1.0 Vp-p 4.6 Vp-p 560 mVp-p 600 mVp-p 3.2 Vp-p 15 MHz 66 µsec 80 nsecHHIC401 7 REC IC102 qh REC IC806 MVC-FD75 SECTION 5 ADJUSTMENTS 1. Before starting adjustment

EVR Data Re-writing Procedure When Replacing Board

The data that is stored in the repair board, is not necessarily correct. Perform either procedure 1 or procedure 2 or procedure 3 when replacing board. Procedure 1 Save the EVR data of the machine in which a board is going to be replaced. Download the saved data after a board is replaced. (Machine before starting repair) PC PC (Machine after a board is replaced) Save the EVR data Download the saved to a personal computer. data to a machine. Procedure 2 Remove the EEPROM from the board of the machine that is going to be repaired. Install the removed EEPROM to the replaced board. Remove the EEPROM and install it. (Former board) (New board) Procedure 3 When the data cannot be saved due to defective EEPROM, or when the EEPROM cannot be removed or in- stalled, save the data from the same model of the same destination, and download it. (Machine to be repaired) PC (Machine to be repaired) Download the data. Save the data. (The same model of the same destination) After the EVR data is saved and downloaded, check the respective items of the EVR data. (Refer to page 5-2 for the items to be checked.) 5-1, 1-1. Adjusting items when replacing main parts and boards When replacing main parts and boards, adjust the items indicated by z in the following table. Replaced parts Block Mounted parts Board replacement replacement replacement Adjustment section Adjustment Initialization of E and F page data Initialization of E and F page datazzCamera HALL adj. zzzzFlange back adj. zzzzLight level adj. zzzzzAuto white balance standard data inputzzzzzAuto white balance adj. zzzzzColor reproduction adj. zzzzzLCD LCD initial data inputzzzVCO adj. zzzzzDrange adj. zzzzzBright adj. zzzzzContrast adj. zzzzzV-COM level adj. zzzzzV-COM adj. zzzzzzWhite balance adj. zzzzzzzSystem control Battery down adj. zzzAlignment check (FDD unit) z z Table 5-1-1 5-2 Lens device LCD block LCD901 (LCD panel) LCD block ND801 (Back light unit) FDD unit CD-338 board IC401 (CCD imager) FC-86 board IC102 (S/H, AGC, A/D) FC-86 board IC301 (EVR) PK-59 board IC802 (LCD drive) PK-59 board IC901 (Timing generator) PK-59 board IC801 (EVR) FC-86 board (COMPLETE) PK-59 board (COMPLETE) FC-86 board IC703 EEP ROM, 5-1. CAMERA SECTION ADJUSTMENTS 1-1. PREPARATIONS BEFORE ADJUSTMENT 1-1-1. List of service tools • Oscilloscope • Regulated power supply • AC power adaptor (AC-VQ850/VQ850D) • Digital voltmeter • Frequency counter Ref. No. Name Parts Code Usage J-1 Filter for color temperature correction (C14) J-6080-058-A Auto white balance adjustment/check White balance adjustment/check J-2 ND filter 1.0 J-6080-808-A White balance check ND filter 0.3 J-6080-818-A White balance check J-3 Pattern box PTB-450 J-6082-200-A J-4 Color chart for pattern box J-6020-250-A J-5 Siemens star J-6080-875-A For checking the flange back J-6 Adjusting remote commander (RM-95 upgraded) (Note2) J-6082-053-B J-7 Clear chart for pattern box J-6080-621-A White balance adjustment. J-8 CPC-9 jig J-6082-393-C For connecting the adjustment remote commander For adjusting the LCD block J-9 Extension cable J-6082-427-A FDD UNIT-PK-59 board J-10 Extension cable 16P J-6082-357-A For extension between the CD-338 board (CN401) and the FC-86 board (CN101) J-11 Alignment disk (Two disks as a pair) TFD2-1(+) 8-967-990-01 Dynamic inspection disk with LCD adjustment signal TFD2-2(–) 8-967-990-11 J-12 Personal computer PC with Windows installed J-13 Cleaning disk (OR-D29WA) 8-960-009-39 FDD head cleaning (Note 1) Cleaning disk Available on market J-14 Mini pattern box J-6082-353-B For adjusting the flange back J-15 Power supply cord (DC) (Note 3) J-6082-223-A For the battery end adjustment Note 1: Usage and operating note Note 2: If the microprocessor IC in the adjusting remote One or two seconds of momentary use of cleaning disk is commander is not the new microprocessor (UPD7503G- sufficient such that FD is accessed momentarily by system C56-12), the pages cannot be switched. control when the main power is turned on. After cleaning, In this case, replace with the new microprocessor (8-759- insert a FD for playback. When cleaning is insufficient, 148-35). use a cleaning disk again. Caution: Avoid using a cleaning disk excessively. Head can be broken. J-1 J-2 J-3 J-4 J-5 J-6 J-7 J-8 J-9 J-10 J-11 J-12 J-13 J-14 J-15 Fig. 5-1-1 5-3, 1-1-2. Preparations Note 1: For details of how remove the cabinet and boards, refer to “2. DISASSEMBLY”. Note 2: When performing only the adjustments, the lens block Pattern box and boards need not be disassemble. 1) Connect the equipment for adjustments according to Fig. 5-1- 5. Front side of the lens 2) Connect the Adjusting remote commander to PK-59 board CN802 via CPC-9 jig (J-6082-393-C). (See Fig. 5-1-3) 1.5m Note 3: Setting the “Forced CAMERA mode power ON” Mode 1) Select page: 0, address: 01, and set data: 01. 2) Select page: F, address: 10, set data: 01, and press the PAUSE button of the adjusting remote com- mander. The Above procedure will enable the camera power to be turned on. After completing adjustments, be sure to exit the “Forced CAMERA mode power ON Mode”. Fig. 5-1-2 Note 4: Exiting the “Forced CAMERA mode power ON Mode” 1) Select page: 0, address: 01, and set data: 01. 2) Select page: F, address: 10, set data: 00, and press the PAUSE button of the adjusting remote com- mander. 3) Select page: 0, address: 01, and set data: 00. 1-1-3. Discharging of the Flashlight Power Supply The capacitor which is used as power supply of flashlight is charged with 200 V to 300 V voltage. Discharge this voltage before start- ing adjustments in order to protect service engineers from electric shock during adjustment. Discharge procedure 1. Press the FLASH button (PK-59 board S705) and turn off the FLASH LED (PK-59 board D702). 2. Fabricate the discharging jig as shown in Fig. 5-1-5 locally by yourself. Connect the discharging jig to the positive (+) and negative (–) terminal of the flash voltage charge capacitor. Al- low ten seconds to discharge the voltage.

CPC

R: 1 kΩ/1 W cover (Part code: 1-215-869-11) CPC-9 jig (J-6082-393-C) (18p flexible board) (Note) 1 PK-59 board CN802 Note: Don’t use the 12 pin flexible board of CPC-9 jig. Capacitor It causes damage to the unit. Fig. 5-1-3 1 kΩ/1 W Wrap insulating tape. Fig. 5-1-4 Fig. 5-1-5 5-4, Note 1: Don’t use the 12 pin flexible board of CPC-9 jig. AC IN AC-VQ850/VQ850D It causes damage to the unit. Note 2: Connect the GND terminal to Floppy disk drive unit frame when check the RF signals waveform. FLASH UNIT Extension cable (16P) (J-6082-357-A) RL-58

BOARD

CN051 LENS UNIT CD-338

BOARD

CN401 CN907 CN910 FDD UNIT CN901 CN101 CN401 + – BATTERY FC-86 Extension cable TERMINAL BOARD (J-6082-427-A) Refer to page 6 [How to connect the CN602 extension cable] CN011 CN013 CN012 CN603 CN602 CN901 PK-59 BOARD CN601 CN851 CN802 LCD Adjustment Remote PANEL Commander BACK LIGHT CPC-9 jig (J-6082-393-C) Fig. 5-1-6. 5-5, 1-1-4. Precautions 1. Setting the Switch Unless otherwise specified, set the switches as follows and per- form adjustments. 1. PLAY/CAMERA switch (PK-59 board S708) ... CAMERA 2. PROGRAM AE button (PK-59 board S707) ... AUTO (No mark indicated on LCD) 3. PICTURE EFFECT button (PK-59 board S703) ... OFF 4. DEMO (Menu display) ... OFF 2. Order of Adjustments Basically carry out adjustments in the order given. Color bar chart (Color bar standard picture frame) Electronic beam scanning frame A=B C=DACBDLCD picture frame Fig. b LCD screen 2H Adjust the camera zoom and direction to Fig. a Output waveform obtain the output waveform shown in Fig a and the LCD screen shown in Fig. b. Fig. 5-1-7 3. Subjects 1) Color bar chart (Standard picture frame). When performing adjustments using the color bar chart, ad- just the picture frame as shown in Fig. 5-1-7. (Standard pic- ture frame) 2) Clear chart (Standard picture frame) Remove the color bar chart from the pattern box and insert a White clear chart in its place. (Do not perform zoom operations dur- 841 mm ing this time) Black 3) Chart for flange back adjustment Join together a piece of white A0 size paper (1189mm × 841 mm) and a piece of black paper to make the chart shown in Fig. 5-1-8. 1189 mm Note: Use a non-reflecting and non-glazing vellum paper. The Fig. 5-1-8 size must be A0 or larger and the joint between the white and black paper must not have any undulations. 5-6 Yellow Cyan Green White Magenta Red Blue Yellow Cyan Green White Magenta Red Blue, 1-2. INITIALIZATION OF E AND F PAGE DATA 3. E Page Table 1. Initializing E and F Page Data Note 1: Fixed data-1: Initialized data. Note: If the E and F page data has been initialized, the following (Refer to “1. Initializing of E and F Page Data”) adjustments need to be performed again. Note 2: Fixed data-2: Modified data. 1) Modification of E and F page data (Refer to “2. Modification of E and F Page Data”) 2) Camera system adjustments 3) LCD system adjustments Address Initial value Remark 4) Battery end adjustments 00 to 10 Fixed data-1 (Initialized data) 11 Fixed data-2 Adjusting page E 12 to 1E Fixed data-1 (Initialized data) Adjusting address 00 to 9D 1F Fixed data-2 Adjusting page F 20 to 22 Fixed data-1 (Initialized data) Adjusting address 10 to FF 23 07 Color reproduction adj. 24 E2 Initializing Method: 25 FC 26 FF Order Page Address Data Procedure 27 F31001 01 28 242300 2D 29 163301 2D Press PAUSE button. 2A 06 4 Wait for 3 seconds. 2B Fixed data-25300 Check the data changes to “00”. 2C Fixed data-1 (Initialized data) 6 Perform “Modification of E 2D, 2E Fixed data-2 and F page Data”. 2F to 39 Fixed data-1 (Initialized data) 3A Fixed data-2 2. Modification of E and F Page Data 3B to 42 Fixed data-1 (Initialized data) If the E and F page data has been initialized, change the data of 43 Fixed data-2 the “Fixed data-2” address shown in the following table by manual 44 Fixed data-1 (Initialized data) input. 45 Fixed data-2 46, 47 Fixed data-1 (Initialized data) Modifying Method: 1) Before changing the data, select page: 0, address: 01, and set 48, 49 Fixed data-2 data: 01. 4A to 4E Fixed data-1 (Initialized data) 2) New data for changing are not shown in the tables because 4F Fixed data-2 they are different in destination. When changing the data, copy 50 to 69 Fixed data-1 (Initialized data) the data built in the same model. 6A Fixed data-2 Note: If copy the data built in the different model, the 6B to 6F Fixed data-1 (Initialized data) camcorder may not operate. 70 to 72 Fixed data-2 3) When changing the data, press the PAUSE button of the adjustment remote commander each time when setting new 73 Fixed data-1 (Initialized data) data to write the data in the non-volatile memory. 74 Fixed data-2 4) Check that the data of adjustment addresses is the initial value. 75 Fixed data-1 (Initialized data) If not, change the data to the initial value. 76, 77 Fixed data-2 78 to 91 Fixed data-1 (Initialized data) Processing after Completing Modification of E and F Page Data: 92 Fixed data-2 Order Page Address Data Procedure 93 to 99 Fixed data-1 (Initialized data) 1 3 00 29 9A to 9C Fixed data-22301 29 Press PAUSE button. 9D Fixed data-1 (Initialized data) 5-7, 4. F Page Table Note 1: Fixed data-1: Initialized data. (Refer to “1. Initializing of E and F Page Data”) Note 2: Fixed data-2: Modified data. (Refer to “2. Modification of E and F Page Data”) Address Initial value Remark Address Initial value Remark 00 to 0F BE 00 Flange back adj. 10 00 Test mode BF 00 11 Fixed data-1 (Initialized data) C0 41 12 Fixed data-2 C1 00 13 to 17 Fixed data-1 (Initialized data) C2 19 18 80 Battery down adj. C3 00 19 88 C4 2E 1A AD C5 00 1B C2 C6 Fixed data-1 (Initialized data) 1C CD C7 89 Hall adj. 1D to 1F Fixed data-1 (Initialized data) C8 79 20 to 23 Fixed data-2 C9 Fixed data-2 24, 25 Fixed data-1 (Initialized data) CA 98 Light level adj. 26 to 29 Fixed data-2 CB 9A 2A to 2B Fixed data-1 (Initialized data) CC 10 AWB standard data input 2C Fixed data-2 CD 2D 2D to 2F Fixed data-1 (Initialized data) CE 70 30 B1 Bright adj. (LCD) CF 41 31, 32 Fixed data-1 (Initialized data) D0 Fixed data-1 (Initialized data) 33 B9 White balance adj. (LCD) D1, D2 Fixed data-2 34 86 D3 89 Auto white balance adj. 35 8A Contrast adj. (LCD) D4 59 36 57 VCO adj. (LCD) D5 Fixed data-2 37 61 V-COM adj. (LCD) D6 to FF Fixed data-1 (Initialized data) 38 B4 D range adj. (LCD) 39 6B V-COM level adj. (LCD) 3A Fixed data-1 (Initialized data) 3B to 3D Fixed data-2 3E, 3F Fixed data-1 (Initialized data) 40, 41 Fixed data-2 42 to 49 Fixed data-1 (Initialized data) 4A Fixed data-2 4B to 60 Fixed data-1 (Initialized data) 61 Fixed data-2 62 to 66 Fixed data-1 (Initialized data) 67 Fixed data-2 68 to 91 Fixed data-1 (Initialized data) 92, 93 Fixed data-2 94 Fixed data-1 (Initialized data) 95 Fixed data-2 96 to 9F Fixed data-1 (Initialized data) A0, A1 Fixed data-2 A2 to A5 Fixed data-1 (Initialized data) A6 to A8 Fixed data-2 A9 to B5 Fixed data-1 (Initialized data) B6 CD Flange back adj. B7 19 B8 92 B9 21 BA 12 BB 14 BC, BD Fixed data-1 (Initialized data) 5-8, 1-3. CAMERA SYSTEM ADJUSTMENTS Order Page Address Data Procedure 1. HALL Adjustment 16 Convert X1’ into hexadecimal This adjustment sets the amplifier gain and offset to detect the iris number to get X1 (Round off position of the lens.If disordered, the iris will oscillate or the indoor- the decimal place). outdoor white balance will be faulty. 17 F C7 X1 Press PAUSE button. Mode CAMERA 18 F C8 Change the data, so that the Subject Any subject DDS displayed data is “14”. Measurement Point DDS display on the LCD screen 19 F C8 Press PAUSE button. Measuring Instrument (Note 2) 20 2 01 03 Press PAUSE button. Adjustment Page F 21 Note down the DDS displayed data (Note 2), and Adjustment Address C7, C8 assume it as W0. If W0 is in a Specified Value When data on page: 2, address: range of “76 to 7A”, perform 01 is 01, (Note 1) “Processing after Complteing Displayed data is 12 to 16. Adjustment”. If out of the When data on page: 2, address: range, make the following 01 is 03, (Note 1) adjustment. Displayed data is 76 to 7A. 22 Convert W0 into decimal number to get W0’. Note 1: The PAUSE button on the adjustment remote commander 23 Calculate X2’ with the must be pressed. Note 2: formulas given belowThe right 2 digits of the displayed data of the LCD screen. (Calculate decimal numbers). 00 : XX : XX C’ = W0’ + K1’- W1’ - 21 Displayed data X2’ = (100 - B’) ( X1’ - 48) + (48 × C’) / C’ Adjusting method: 24 Convert X2’ into hexadecimal Order Page Address Data Procedure number to get X2. 1 0 01 01 25 F C7 X2 Press PAUSE button. 2 F 11 02 Press PAUSE button. 26 F C8 Change the data, so that the3003 03 DDS displayed data is “78”. 4 2 01 03 Press PAUSE button. 27 F C8 Press PAUSE button. 5 F C7 40 Press PAUSE button. 28 2 01 01 Press PAUSE button. 6 Note down the DDS 29 Confirm that the DDS displayed data (Note 2), and displayed data is in a range of assume it as W2 “12 to 16”. 7 F C7 30 Press PAUSE button. 8 Note down the DDS Processing after Completing Adjustment: displayed data (Note 2), and Order Page Address Data Procedure assume it as W11201 00 Press PAUSE button. 9 2 01 01 Press PAUSE button. 2 0 03 00 10 F C7 30 Press PAUSE button. 3 F 11 00 Press PAUSE button. 11 Note down the DDS4001 00 displayed data (Note 2), and assume it as K1 12 F C7 40 Press PAUSE button. 13 Note down the DDS displayed data (Note 2), and assume it as K2 14 Convert W1, W2, K1 and K2 into decimal numbers to get W1’, W2’, K1’ and K2’ (See table 5-2-2. Hexadecimal- Decimal Conversion table). 15 Calculate X1’ with the formulas given below (Calculate decimal numbers). A’ = W2’ + K1’ - W1’ - K2’ B’ = W1’ - K1’ X1’ = 1600 + (48 × A’) - (16 × B’) / A’ 5-9, 2. Flange Back Adjustment (Using the minipattern box) Specified voltage: The specified voltage varies according to the The flange back of inner focus lens is adjusted automatically. If minipatternbox, so adjustment the power supply shifted, the auto focus is disordered. output voltage to the specified voltage written on the sheet which is supplied with the mini- Mode CAMERA pattern box. Subject Siemens star chart with ND filter for minipattern box (Note 1) Below 3 cm Measurement Point Check operation on the LCD Minipattern box Measuring Instrument screen Adjustment Page F Camera Adjustment Address B6 to BB, BE to C5 Camera Note 1: Dark Siemens star chart. table Note 2: Check that the data of page: 2, address: 02 is “00”. Regulated power supply If not, turn the power of unit OFF/ON. Output voltage : Specified voltage ± 0.01 Vdc Output current : more than 3.5 A Preparations before adjustments: 1) The minipattern box is installed as shown in the following figure. Red (+) Note 3: The attachment lenses are not used. Note 4: Black (–) Take care not to hit the mini-pattern box when extending the lens. Yellow (SENS +) 2) Install the minipattern box so that the distance between it and the front of lens of camera is less than 3 cm. White (SENS –) Need not connected 3) Make the height of minipattern box and the camera equal. Black (GND) 4) Check the output voltage of the regulated power supply is the specified voltage ± 0.01 Vdc. Fig. 5-1-9 5) Check that the center of Siemens star chart meets the center of shot image screen with the zoom lens at TELE end and WIDE end respectively. Adjusting method: 6) Check that the data on page: F, address: B6 to BB, BE to C5 Order Page Address Data Procedure are initial value (See table below). 1 0 01 01 Address Data Address Data2302 01 B6 CD BF 003201 13 Press PAUSE button. B7 19 C0 414201 27 Press PAUSE button. (Note 5) B8 92 C1 005202 Check the data changes to B9 21 C2 19 “01”. BA 12 C3 00 Note 5: The adjustment data will be automatically input to page: F, address: B6 to BB and BE to C5. BB 14 C4 2E BE 00 C5 00 Processing after Completing Adjustment: Order Page Address Data Procedure1201 00 Press PAUSE button. 2 3 02 003001 00 4 Perform “Flange Back Check”. 5-10, 3. Flange Back Adjustment Adjusting method: (Using the flange back adjustment chart) Order Page Address Data Procedure The flange back of inner focus lens is adjusted automatically. If shifted, the auto focus is disordered. 1 0 01 012302 01 Mode CAMERA3201 13 Press PAUSE button. Subject Flange back adjustment chart4201 15 Press PAUSE button. (Note 2) (2.0 m from the front of the lens) (Luminance: 300 to 400 lux) Check the data changes to5 2 02 “01”. Measurement Point Check operation on the LCD screen Note 2:The adjustment data will be automatically input to page:Measuring Instrument F, address: B6 to BB and BE to C5. Adjustment Page F Adjustment Address B6 to BB, BE to C5 Processing after Completing Adjustment: Note 1: Check that the data of page: 2, address: 02 is “00”. Order Page Address Data Procedure If not, turn the power of unit OFF/ON. 1 2 01 00 Press PAUSE button. 2 3 02 00 Preparations before adjustments: 1) Place the Flange back adjustment chart 2.0 m from the front3001 00 of the lens. 4 Perform “Flange Back Check”. 2) Check that the center of Flange back adjustment chart meets the center of shot image screen with the zoom lens at TELE end and WIDE end respectively. 3) Check that the data on page: F, address: B6 to BB, BE to C5 are initial value (See table below). Address Data Address Data B6 CD BF 00 B7 19 C0 41 B8 92 C1 00 B9 21 C2 19 BA 12 C3 00 BB 14 C4 2E BE 00 C5 00 5-11, 4. Flange Back Check 5. Picture frame setting Mode CAMERA Mode CAMERA Subject Color bar chart standard picture frame Subject Siemens star Measurement point Test point (VG) of CPC-9 jig (2.0 m from the front of the lens) (Luminance: approx. 200 lux) Measuring equipment Oscilloscope and LCD screen Measurement Point Specification value A=B, C=D, t=0 ± 0.1 msecCheck operation on the LCD Measuring Instrument screen Setting method: Specified value Focused at the TELE end and the 1) Adjust direction and zoom of camera so that the picture frame WIDE end is adjusted as specified by Fig. 5-1-10 and Fig. 5-1-11. 2) Mark the position of the picture frame on the LCD screen, and Checking method: adjust the picture frame to this position in following adjustment using “Color bar chart standard picture frame”. Order Page Address Data Procedure 1 Place the Siemens star 2.0 m Confirm with an oscilloscope (TP-VG of CPC-9 jig) from the front of the lens. Horizontal rate To open the IRIS , decrease the luminous intensity to the A=B C=D Siemens star up to a point be- A CB D fore noise appear on the image. 3 0 01 014302 01 Shoot the Siemens star with the zoom TELE end. 6 Check that the lens is focused. 7 2 21 10 Press PAUSE button. 2H While observe the LCD screen, change the zoom to the WIDE Fig. 5-1-10 end and check that the lens is focused. Vertical rate Processing after Completing Adjustment: t =0 ± 0.1msec Order Page Address Data Procedure1221 00 Press PAUSE button. 2 3 02 003001 00

V

Fig. 5-1-11 Confirm on LCD (underscanned display) Color bar chart picture frame LCD picture frame Fig. 5-1-12 5-12 Yellow Cyan Green White Magenta Red Blue, 6. Light Level Adjustment 7. Auto White Balance Standard Data Input Adjust the standard LV value. Adjust the white balance standard data at 3200K. Mode CAMERA Mode CAMERA Subject Clear chart Subject Clear chart (Color bar standard picture (Color bar standard picture frame) frame) Adjustment Page F Adjustment Page F Adjustment Address CA, CB Adjustment Address CC to CF Note 1: Check that the data of page: 2, address: 02 is “00”. Note 1: Check that the data of page: 2, address: 02 is “00”. If not, turn the power of unit OFF/ON. If not, turn the power of unit OFF/ON. Note 2: “Auto White Balance Standard Data Input” is available Adjusting method: only once after the power is turned on. Turn the power off, then on again if the adjustment is retried. Order Page Address Data Procedure1001 01 Adjusting method: 2 3 02 01 Order Page Address Data Procedure3210 58 Press PAUSE button. 1 0 01 01 4 Turn off the HOLD switch. 2 3 02 01 5 Wait for 2 seconds. 3 E 11 0A Press PAUSE button. 6 Turn on the HOLD switch. 4 2 10 58 Press PAUSE button. 7 Shoot the clear chart with the 5 Turn off the HOLD switch. color bar standerd picture frame. 6 Wait for 2 seconds. 8 2 01 0D Press PAUSE button. (Note 2) 7 Turn on the HOLD switch. 9 2 02 Check the data changes to 8 Shoot the clear chart with the “01”. color bar standard picture frame. Note 2: The adjustment data will be automatically input to page: F, address: CA and CB. 9 2 01 11 Press PAUSE button. 10 2 01 0B Press PAUSE button. (Note 2) Processing after Completing Adjustment: 11 2 02 Check the data changes to Order Page Address Data Procedure “01” 1 2 01 00 Press PAUSE button. Note 2: The adjustment data will be automatically input to page: F, address: CC to CF. 2 2 10 00 Press PAUSE button. 3 3 02 00 Processing after Completing Adjustment: 4 0 01 00 Order Page Address Data Procedure1201 00 Press PAUSE button. 2 2 10 00 Press PAUSE button. 3 E 11 15 Press PAUSE button. 4 3 02 005001 00 5-13, 8. Auto White Balance Adjustment 9. White Balance Check Adjust to the proper auto white balance output data. If it is not correct, auto white balance and color reproducibility Mode CAMERA will be poor. Subject Clear chart Mode CAMERA (Color bar standard picture frame) Subject Clear chart (Color bar standard picture Filter ND filter 1.0 and 0.3 frame) Measurement Point Check the DDS display on the Filter Filter C14 for color temperature LCD screen (Note 1, 2) correction Specified Value When data: 0F is set to page: 2, Measurement Point Check the DDS display on the address: 01 (Note 1) Measuring Instrument LCD screen (Note 2) R-Y: 00 to 04 or FC to FF B-Y: 00 to 04 or FC to FF Adjustment Page F When data: 00 is set to page: 0, Adjustment Address D3, D4 address: 03 (Note 2) 0E10 or more Specified Value R ratio: 2B40 to 2BC0 B ratio: 5E40 to 5EC0 Note 1: Right side 4 digits of data displayed at the LCD screen. Note 1: 00 : XX : XX“Auto White Balance Standard Data Input” must be already finished. R-Y Note 2: The right 4 digits of the displayed data of the LCD screen. B-Y Note 2: Data displayed at the lower right of the LCD screen. 00 : XX : XX 00 : XX : XX Displayed data Displayed data Adjusting method: Order Page Address Data Procedure Adjusting method: 1 Place the C14 filter on the Order Page Address Data Procedure lens. 1 0 01 012001 012F11 02 Press PAUSE button. 3 F 11 02 Press PAUSE button. 2 2 10 58 Press PAUSE button. 4 2 10 58 Press PAUSE button. 3 Turn off the HOLD switch. 5 Turn off the HOLD switch. 4 Wait for 2 seconds. 6 Wait for 2 seconds. 5 Turn on the HOLD switch. 7 Turn on the HOLD switch. 7 0 03 028E11 0A Press PAUSE button. 8 2 56 56 Press PAUSE button. 9 2 01 3F Press PAUSE button. 9 2 01 0F Press PAUSE button. 10 0 03 04 10 Check that the DDS 11 F D3 Change the data so that displayed data (Note 1) is in a average value of the DDS range of “00 to 04” or “FC to displayed data (Note 2) FF”. satisfied the R ratio specified 11 0 03 00 value. 12 Check that the DDS 12 F D3 Press PAUSE button. displayed data (Note 2) is 13 0 03 05 more than “0E10”. 14 F D4 Change the data so that 13 Place the ND filter 1.3 (1.0 + average value of the DDS 0.3) on the lens. displayed data (Note 2) 14 Check that the DDS satisfied the B ratio specified displayed data (Note 2) is less value. than “0D00”. 15 F D4 Press PAUSE button. Processing after Completing Adjustment: Processing after Completing Adjustment: Order Page Address Data Procedure Order Page Address Data Procedure1201 00 Press PAUSE button. 1 2 01 00 Press PAUSE button. 2 2 56 00 Press PAUSE button. 2 0 03 003210 00 Press PAUSE button. 3 2 10 00 Press PAUSE button. 4 F 11 00 Press PAUSE button. 4 E 11 15 Press PAUSE button. 5 0 01 005F11 00 Press PAUSE button. 6 0 01 00 5-14, 10. Color Reproduction Adjustment Processing after Completing Adjustment: Adjust the color separetion matrix coefficient so that proper color Order Page Address Data Procedure reproduction is produced. 1 E 11 15 Press PAUSE button. Mode CAMERA2201 00 Press PAUSE button. Subject Color bar chart standard picture3210 00 Press PAUSE button. frame4302 00 Adjustment PageE5001 00 Adjustment Address 23 to 2A Specified Value Shoot the color bar chart and save it on a FD. Play back the recorded FD and compare it on a PC display with the color bar playback of the alignment FD. PC: Personal computer FD: Floppy disk Note 1: “Auto White Balance Reference Data Input” and “Auto White Balance Adjustment” must be already set. Adjusting method: Order Page Address Data Procedure1001 012302 012E11 0A Press PAUSE button. 3 2 01 0F Press PAUSE button. 4 2 10 59 Press PAUSE button. 5 Turn off the HOLD switch. 6 Wait for 2 seconds. 7 Turn on the HOLD switch. 8 E 23 to 2A Compare the color bar on the LCD screen with “Camera color bars” in the Alignment disk. When those color bars are different, change the data to make the color bar on the LCD screen the same as “Camera color bars”. [Reference] This illustration shows the color changes on vector scope display when address: 23 to 2A are changed. Burst position R-Y R MG

YL

B-Y

B G CY

Fig. 5-1-13 5-15, 1-4. LCD SYSTEM ADJUSTMENTS Alignment disk (Disk-1, Disk-2) Note 1: A back light (fluorescent tube) is driven with high volt- (A set of alignment disks consists of two disks as a pair.) age AC power. Therefore, do not touch the back light Disk-1: 8-967-990-01 directly, otherwise you will feel an electric shock. (TFD2-1 (+)) (+17.5 µm) Note 2: Take an extreme care not to destroy the LCD unit by static Disk-2: 8-967-990-11 electricity when replacing it. (TFD2-2 (–)) (–17.5 µm) [Adjusting connector] [Common signals in the disks] Most of the measuring points for adjusting the LCD system are Data Code Signal concentrated in CN 802 of the PK-59 board. Connect the Measuring MVC-001C.JPG Color bars Instruments via CPC-9 jig (J-6082-393-C). The following table shows the Pin No. and signal name of CN802. MVC-002M.JPG Monoscope MVC-003V.JPG V. COM adjustment signal Pin No. Signal Name Pin No. Signal Name MVC-004W.JPG 100% white 1 PANEL_B 10 UNREG MVC-005H.JPG 50% white 2 PANEL_G 11 LANC_IN MVC-006T.JPG Stair-step signal of 10 steps 3 PANEL_R 12 LANC_OUT MVC-007R.JPG Red single color 4 REG_GND 13 XPWR_SW MVC-008G.JPG Green single color 5 JIG_XHD 14 MAKER_RECOG MVC-009B.JPG Blue single color 6 JIG_XVD 15 INDEX MVC-010D.JPG Camera color bars 7 HSY 16 TRACK_00 MVC-011N.JPG Camera monoscope 8 COM 17 NC • Contents of alignment disk-1 9 VG 18 FDD_RF (Common signal) + (+17.5 µm alignment) • Contents of alignment disk-2 (Common signal) + (–17.5 µm alignment)

CPC

cover CPC-9 jig (J-6082-393-C) 1 PK-59 board (18p flexible board) CN802 (Note) Fig. 5-1-14 5-16, 1. LCD Initial Data Input 2. VCO Adjustment (PK-59 Board) Set the VCO free-run frequency. Mode PLAY If disordered, the LCD screen will be faulty. Signal Arbitrary Mode PLAY Adjustment Page F Signal Arbitrary Adjustment Address 30, 33 to 39, 3B to 46, 4A, E0 Measurement Point Pin 7 of CN802 (HSY) Note: Press the PAUSE button on the adjustment remote Measuring Instrument Frequency counter commander each time the data are set, as the data are Adjustment Page F written to non-volatile memory (EEPROM). Adjustment Address 36 Adjusting method: Specified Value f =15734 ± 30 Hz 1) Select page: 0, address: 01, and set data: 01. 2) Select page: F, and enter the data given in the following table. Adjusting method: Order Page Address Data Procedure Note: Press the PAUSE button each time the data are set, as the data are written to non-volatile memory (EEPROM). 1 0 01 012318 20 Press PAUSE button. Address DATA Remark3F36 Change the data and set the 30 B1 Bright Adjustment HSY signal frequency (f) to 33 B9 White Blance Adjustment the specified value. 34 86 White Blance Adjustment4F36 Press PAUSE button. 35 8A Contrast Adjustment Processing after Completing Adjustment: 36 57 VCO Adjustment 37 61 V-COM Adjustment Order Page Address Data Procedure 38 B4 D Range Adjustment1318 00 Press PAUSE button. 39 6B V-COM Level Adjustment2001 00 3B 5E Fixed value 3C 23 Fixed value 3D 11 Fixed value 3E 3F Fixed value 3F 00 Fixed value 40 26 Fixed value 41 1C Fixed value 42 00 Fixed value 43 00 Fixed value 44 04 Fixed value 45 48 Fixed value 46 B2 Fixed value 4A 9A Fixed value E0 1B Fixed value Processing after Completing Adjustment: 1) Select page: 3, address: 00, and set data: 29. 2) Select page: 3, address: 01, and set data: 29 and press the PAUSE button on the adjusting remote commander. 3) Select page: 0, address: 01, and set data: 00. 5-17, 3. D Range Adjustment (PK-59 Board) 4. Bright Adjustment (PK-59 Board) This adjustment sets correctly the D range of the LCD driver. This adjustment sets correctly the VIDEO signal level that drives If disordered, the LCD screen will blur or white blur. the LCD. If disordered, the LCD screen will not be sharp, or will white blur or black blur. Mode PLAY Signal Alignment disk: Stair-step signal Mode PLAY of 10 steps Signal Alignment disk: Stair-step signal Measurement Point Pin 9 of CN802 (VG) of 10 steps External trigger: Pin 8 of Measurement Point Pin 9 of CN802 (VG) CN802 (COM) External trigger: Pin 8 of Measuring Instrument Oscilloscope CN802 (COM) Adjustment Page F Measuring Instrument Oscilloscope Adjustment Address 38 Adjustment Page F Specified Value A=3.20 ± 0.05 Vp-p Adjustment Address 30 Specified Value A=1.34 ± 0.05 Vp-p Adjusting method: Note: This is the tracking adjustment in relation to “Contrast Order Page Address Data Procedure Adjustment”. 1 0 01 012302 01 Adjusting method: 3 F 38 Change the data and set the Order Page Address Data Procedure voltage (A) to the specified1001 01 value. 2 3 02 014F38 Press PAUSE button. 3 3 18 08 Press PAUSE button. Processing after Completing Adjustment: 4 F 30 Change the data and set the voltage (A) to the specified Order Page Address Data Procedure value. (Check that the data is1302 00 41 to BF) 2 0 01 005F30 Press PAUSE button. Pedestal Processing after Completing Adjustment: Order Page Address Data Procedure1318 00 Press PAUSE button. 2 3 02 003001 00 Note: Check that the adjustment value of “Contrast Adjustment” A is satisfied. If not satisfied, perform “Contrast Adjustment”. Pedestal GAMMA 1 limiter level 2H A: Between the reversed waveform pedestal and non-reversed waveform pedestal

A

Fig. 5-1-15 Pedestal 2H A: Between the pedestal and GAMMA 1 limiter level Fig. 5-1-16 5-18, 5. Contrast Adjustment (PK-59 Board) 6. V-COM Level Adjustment (PK-59 Board) This adjustment sets correctly the VIDEO signal level that drives This adjustment sets correctly the common electrode drive signal the LCD. If disordered, the LCD screen will not be sharp, or will level of the LCD panel. white blur or black blur. Mode PLAY Mode PLAY Signal Alignment disk: Stair-step signal Signal Alignment disk: Stair-step signal of 10 steps of 10 steps Measurement Point CN802 8 pin (COM) Measurement Point Pin 9 of CN802 (VG) Measuring Instrument Oscilloscope External trigger: Pin 8 of CN802 (COM) Adjustment Page F Measuring Instrument Oscilloscope Adjustment Address 39 Adjustment Page F Specified Value A=6.16 ± 0.05 Vp-p Adjustment Address 35 Note: “Contrast Adjustment” and “Bright Adjustment” must be Specified Value A=3.09 ± 0.07 Vp-p already finished. Note: This is the tracking adjustment in relation to “Bright Adjusting method: Adjustment”. Order Page Address Data Procedure Adjusting method: 1 0 01 01 Order Page Address Data Procedure2302 011001 013F39 Change the data and set the voltage (A) to the specified2302 01 value. 3 F 35 Change the data and set the4F39 Press PAUSE button. voltage (A) to the specified value. Processing after Completing Adjustment: 4 F 35 Press PAUSE button. Order Page Address Data Procedure Processing after Completing Adjustment: 1 3 02 00 Order Page Address Data Procedure2001 001302 002001 00 Note: Check that the adjustment value of “Bright Adjustment” is satisfied. If not satisfied, perform “Bright Adjustment”.

A

100 IRE 2H A Fig. 5-1-18 0 IRE (Pedestal) 2H A: Between the pedestal and 100 IRE Fig. 5-1-17 5-19, 7. V-COM Adjustment (PK-59 Board) 8. White Blance Adjustment (PK-59 Board) This adjustment corrects the DC bias of common electrode drive This adjustment corrects the white balance. signals of the LCD panel. If shifted, the LCD screen will be coarse, If disordered, the colors on the LCD screen will not be reproduced. or flicker, or vertical streaks will appear. correctly. Mode PLAY Mode PLAY Signal Alignment disk: 50% white Signal Alignment disk: 50% white signal signal (with burst) Measurement Point Measurement Point Check on the LCD screen Check on the LCD screen Measuring Instrument Measuring Instrument Adjustment Page F Adjustment Page F Adjustment Address 37 Adjustment Address 33, 34 Specified Value The brightness difference Specified Value LCD screen must not be colored between the section A and B is minimum. Note: Check the white balance only when replacing the following parts. If necessary, adjust them. Note: “Contrast Adjustment” and “Bright Adjustment” must be 1. LCD panel already finished. 2. Light induction plate 3. IC802 Adjusting method: Adjusting method: Order Page Address Data Procedure1001 01 Order Page Address Data Procedure2302 011001 013318 10 Press PAUSE button. 2 3 02 014F37 Change the data so that the3317 01 Press PAUSE button. brightness of the sectionA4318 00 Press PAUSE button. and section B is equal. 5 F E0 15 Press PAUSE button. 5 F 37 Press PAUSE button. 6 F 33 Change the data and so that 34 the LCD screen is not Processing after Completing Adjustment: colored. Order Page Address Data Procedure7F33 Press PAUSE button. 1 3 18 00 Press PAUSE button. 2 3 02 00 Processing after Completing Adjustment: 3 0 01 00 Order Page Address Data Procedure1FE0 1B Press PAUSE button. BA2317 00 Press PAUSE button. 3 3 02 00AB4001 00BAABFig. 5-1-19 5-20, 1-5. SYSTEM CONTROL SYSTEM ADJUSTMENTS Order Page Address Data Procedure 8 Convert D19’, D1A’, D1B’and 1. Battery Down Adjustment (FC-86 Board) D1C’to a hexadecimal number, Set the battery end voltage. and obtain D19, D1A, D1B and If the voltage is incorrect, the life of battery will shorten. D1C. (Note) The image at the battery end will also be rough. 9 F 19 D19 Press PAUSE button. Mode CAMERA 10 F 1A D1A Press PAUSE button. Subject Arbitrary 11 F 1B D1B Press PAUSE button. Measurement Point Displayed data of page: 3, 12 F 1C D1C Press PAUSE button. address: 0D Note: Refer to table 5-2-2 “Hexadecimal-decimal conversion Measuring Instrument Adjusting remote commamder table”. Adjustment Page F Processing after Completing Adjustments: Adjustment Address 18 to 1C Order Page Address Data Procedure Connection: 1 0 01 00 1) Connect the regulated power supply and the digital voltmeter to the battery terminal as shown in Fig. 5-1-20. 2. Alignment Check (FDD Unit) Preparations before adjustment: Confirm that the FDD alignment is within the specifications. If 1) Adjust the output voltage of the regulated power supply so deviated, reading and writing data from and to floppy disk be- that the digital voltmeter display is 6.1 ± 0.1 Vdc. come impossible. 2) Turn on the HOLD switch of the adjusting remote commander. Or compatibility of floppy disk with other machines can be lost. 3) Turn on the power supply. 4) Set the CAMERA mode. Mode PLAY Signal Alignment disks (TFD2-1 (+)) Adjusting method: and (TFD2-2 (–)): Order Page Address Data Procedure Arbitrary signal1001 01 Measurement Point Check on LCD screen 2 Decrease the output voltage Measuring Instrument of the regulated power supply Specified Value The playback pictures should be so that digital voltmeter normal display is 5.80 ± 0.01 Vdc. 3 3 0D Read the data and this data is Checking method: named Dref 1) Disconnect the adjusting remote commander. 4 F 18 Dref Press PAUSE button. 2) Insert the alignment disk TFD2-1 (+) (+17.5 um). 3) Playback arbitrary signal and check that the playback picture 5 Convert Dref to decimal is normal. notation and obtain Dref’. 4) Insert the alignment disk TFD2-2 (–) (–17.5 um). (Note) 5) Playback arbitrary signal and check that the playback picture 6 Calculate D19’, D1A’, D1B’and is normal. D1C’using following equations (decimal calculation). 7 D19’= Dref’ + 8 D1A’= Dref’ + 23 D1B’= Dref’ + 44 D1C’= Dref’ + 55 Regulated power supply 5.80 ± 0.01 Vdc Digital voltmeter Power cord (J-6082-223-A) Fig. 5-1-20 5-21, 5-2. SERVICE MODE • Changing the address 2-1. ADJUSTING REMOTE COMMANDER The address increases when the FF (M) button is pressed, The adjusting remote commander is used for changing the calcu- and decreases when the REW (M) button is pressed. There lation coefficient in signal processing, EVR data, etc. The adjust- are altogether 256 addresses, from 00 to FF. ing remote commander performs bi-directional communication • Changing the data (Data setting) with the unit using the remote commander signal line (LANC). The data increases when the PLAY (N) button is pressed, The resultant data of this bi-directional communication is written and decreases when the STOP (x) button is pressed. There in the non-volatile memory. are altogether 256 data, from 00 to FF. • Writing the adjustment data 1. Used the Adjusting Remote Commander The PAUSE button must be pressed to write the adjustment 1) Connect the adjusting remote commander to the CN802 on data in the nonvolatile memory. (The new adjustment data the PK-59 board via CPC-9 jig (J-6082-393-C). will not be recorded in the nonvolatile memory if this step is 2) Adjust the HOLD switch of the adjusting remote commander not performed) to “HOLD” (SERVICE position). 3) Turn on the power with the POWER switch of the unit. 2. Precautions upon Using the Adjusting Remote If it has been properly connected, the LCD on the adjusting re- Commander mote commander will display as shown in Fig. 5-2-1. Mishandling of the adjusting remote commander may erase the correct adjustment data at times. To prevent this, it is recommended that all adjustment data be noted down before beginning adjust- ments and new adjustment data after each adjustment. 0 : 00 : 00 Page Data Address Fig. 5-2-1 4) Operate the adjusting remote commander as follows. • Changing the page The page increases when the EDIT SEARCH + button is pressed, and decreases when the EDIT SEARCH – button is pressed. There are altogether 16 pages, from 0 to F. Hexadecimal0123456789ABCDEFnotation LCD Display0123456789AbcdEFDecimal notation0123456789101112131415 conversion value Table 5-2-1 5-22, 2-2. DATA PROCESS The calculation of the adjusting remote commander display data (hexadecimal notation) are required for obtaining the adjustment data of some adjustment items. In this case, after converting the hexadecimal notation to decimal notation, calculate and convert the result to hexadecimal notation, and use it as the adjustment data. Table 5-2-2. indicates the hexadecimal notation- the deci- mal notation, calculation table. Hexadecimal nontation-Decimal notation 2 ↓ The lower digits of the0123456789ABCDEFhexadecimal notation The upper digits of the (A) (b) (c) (d) (E) (F) hexadecimal notation0012345678910 11 12 13 14 15 1 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 2 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 3 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 4 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 5 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 6 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 7 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 8 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 9 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 A (A) 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 1→ B (b) 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 C (c) 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 D (d) 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 E (E) 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 F (F) 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 Note : ( ) indicate the adjusting remote control unit display. (Example) In the case that the adjusting remote control unit display are BD (bd). As the upper digit of the hexadecimal notation is B (b), and the lower digit is D (d), the intersection “189” of the1 and 2 in the above table is the decimal notation to be calculated. Table 5-2-2 5-23, 2-3. SERVICE MODE 3. Switch Check (1) 1. Setting the Test Mode Page 3 Address 23 Page F Address 10 Bit Function When bit value=1 When bit value=0 Data Function XPOWER SW 0 OFF ON 00 Normal (PK-59 board S702) 01 Forced CAMERA mode power ON XCAM/PLAY SW1 PLAY CAMERA 02 Forced PLAY mode power ON (PK-59 board S708) • Before setting the data, select page: 0, address: 01, and set data: SHUTTER SW2 OFF ON 01. (RL-58 board) • For page F, the data set is recorded in the non-volatile memory XSHUTTER LOCK SW3 OFF ON by pressing the PAUSE button of the adjusting remote com- (RL-58 board) mander. In this case, take note that the test mode will not be FLOPPY DISK IN SW exited even when the main power is turned off. 4 IN OUT(FDD UNIT) • After completing adjustments/repairs, be sure to return the data of this address to “00”, and press the PAUSE button of the ad- Using method: justing remote commander. 1) Select page: 3, address: 23 Select page: 0, address: 01, and set data: 00. 2) By discriminating the bit value of dispaly data, the state of the 2. Bit Value Discrimination switches can be discriminated. Bit values must be discriminated using the display data of the ad- justing remote commander for following items. Use the table be- low to discriminate if the bit value is “1” or “0” Display on the adjustilng remote commander 0 : 00 : 00 Address Page bit3 to bit0 discrimination bit7 to bit4 discrimination Display on the Bit values Adjusting bit3 bit2 bit1 bit0 remote or or or or commander bit7 bit6 bit5 bit40000010001200103001140100501016011070111A8100091001A(A) 1010B(b) 1011C(c) 1100D(d) 1101BE(E) 1110F(F) 1111Example: If “8E” is displayed on the adjusting remote com- mander, the bit values for bit7 to bit4 are shown in the A column, and the bit values for bit3 to bit0 are shown in the B column. 5-24, 4. Switch Check (2) Page 3 Addresses 13 to 15 Using method: 1) Select page: 3, addresses: 13 to 15. 2) By discriminating the dispaly data, the pressed key can be discriminated. Data Address 00 to 14 15 to 3B 3C to 64 65 to 91 92 to BD BE to E9 EA to FF 13 CONTROL DOWN CONTROL UP PICTURE EFFECT BRIGHT+ (KEY AD0) (PK-59 board) (PK-59 board) (PK-59 board) (PK-59 board) (IC702 is) (S701) (S701) (S703) (S706) 14 CONTROL RIGHT CONTROL LEFT DISPLAY PROGRAM AE (KEY AD1) (PK-59 board) (PK-59 board) (PK-59 board) (PK-59 board) (IC702 id) (S701) (S701) (S704) (S707) 15 CONTROL SET FLASH BRIGHT– (KEY AD2) (PK-59 board) (PK-59 board) (PK-59 board) (IC702 if) (S701) (S705) (S709) 5. LED Check Page 3 Address 02 Data 02 Using method: 1) Select page: 3, address: 02, and set data: 02. 2) Check that all LED except for the ACCESS LED are lit. 3) Select page: 3, address: 02, and set data: 00. 6. Self Diagnosis Code Display Code Countermeasure Cause Caution Display During Error Change the disk and turn off the main C:32:01 Defective floppy disk. DRIVE ERROR power then back on. • The type of floppy disk that cannot be Replace the floppy disk. used by this machine, is inserted. C:13:01 Format the floppy disk with the MVC- (Such as 2DD) DISK ERROR FD75. • Data is damaged. • Unformatted disk is inserted. Flash LED Checking of flash unit or replacement of Abnormality when flash is being E:91:01 Flash display flash unit charged. Flashing at 3.2 Hz E:61:00 Checking of lens drive circuit When failed in the focus initialization. — E61:10 [Power supplying Method] Use the AC power adaptor (AC-VQ850/VQ850D) when supplying the power to this set. 55-2-255 E,

MVC-FD75 SECTION 6 REPAIR PARTS LIST

6-1. EXPLODED VIEWS The components identified by mark 0 or dotted line with mark 0 are NOTE: critical for safety. • -XX and -X mean standardized parts, so they may • Items marked “*” are not stocked since they are Replace only with part number speci- have some difference from the original one. seldom required for routine service. Some delay fied. • Color Indication of Appearance Parts should be anticipated when ordering these items. Les composants identifiés par une Example: • The mechanical parts with no reference number in marque 0 sont critiquens pour la KNOB, BALANCE (WHITE) .(RED) the exploded views are not supplied. sécurité. ↑ ↑ • Accessories are given in the last of the electrical Ne les remplacer que par une pièce portant le numéro spécifié. Parts Color Cabinet's Color parts list. • Abbreviation BR : Brazilian model 6-1-1. CABINET (FRONT) SECTION BT901 15 not supplied 6 12 15 5 16 4 not 7 supplied 8 not 15 notsupplied supplied4913 15 9 not supplied 2 10 4 not supplied 17 14 Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark 1 X-3951-388-1 CABINET FRONT (N) ASSY 10 3-050-468-01 SCREW, TRIPOD 2 X-3949-829-1 RING ASSY, LENS (SERVICE) 12 A-7074-716-A RL-58 BOARD, COMPLETE 3 3-977-651-21 CLAW, BT LOCK 013 1-476-523-11 FLASH UNIT 4 3-948-339-61 TAPPING 14 3-719-381-01 SCREW (M2X4) 5 3-969-380-01 SPRING, BATTERY 15 3-968-729-91 SCREW (M2), LOCK ACE, P2 6 3-736-363-31 TAPPING 16 1-958-849-11 HARNESS (FF-188) 7 X-3951-390-1 SHAFT (N) ASSY, BATTERY 17 X-3951-543-1 LID (N) ASSY, BATTERY (SERVICE) * 8 3-977-653-01 SPRING, COMPRESSION BT901 1-694-297-21 TERMINAL BOARD, BATTERY 9 3-713-791-31 SCREW (M1.7X6), TAPPING, P2 6-1, 6-1-2. CABINET (REAR) SECTION 57 58 (Note 1) 55 60 61 54 not59 supplied not supplied 53 66 65 LCD901 5972 52 64 59 63 52 69 67 not 70 supplied 59 68 74 52 Lens block assembly51 59 (See page 6-3.) ND801 59 71 (Note 1) The FD block assembly is a mechanical unit which has The components identified by Les composants identifiés par une completely been adjusted in the factory. So never mark 0 or dotted line with marque 0 sont critiques pour la disassemble the FD block assembly. mark 0 are critical for safety. sécurité. Replace only with part num- Ne les remplacer que par une pièce ber specified. portant le numéro spécifié. Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark 51 A-7096-525-A FC-86 BOARD, COMPLETE (SERVICE) 64 3-050-907-01 SPRING, EJECT LOCK 52 3-968-729-51 SCREW (M2), LOCK ACE, P2 65 3-050-501-01 LEVER, EJECT 53 3-352-483-01 SCREW (M2), STEP 66 3-050-504-01 SPRING, LEVER 54 X-3948-765-2 FRAME ASSY, MAIN 67 3-050-488-21 LID, LITHIUM 55 3-050-457-01 LID, SIDE 68 1-670-486-21 FP-35 FLEXIBLE BOARD 56 3-050-458-01 SPRING (UPPER), SIDE 69 3-978-439-11 BUTTON, CONTROL 57 1-759-679-11 DRIVE, 3.5 TYPE FLOPPY DISK (Note 1) * 70 3-979-292-01 SHEET (CONTROL) 58 X-3951-389-1 CABINET REAR (N) ASSY (EXCEPT BR) 71 A-7096-526-A PK-59 BOARD, COMPLETE (SERVICE) 58 X-3951-486-1 CABINET REAR (N-B) ASSY (BR) 72 3-050-441-01 PLATE, FD RELAY 59 3-948-339-61 TAPPING 73 3-051-520-01 SPRING, POWER 60 3-054-882-01 CABINET, SIDE 74 3-050-489-01 COVER, CPC 61 3-050-467-01 SHEET METAL (R), STRAP LCD901 1-803-357-51 MODULE, CRYSTAL INDICATION (SH) (SERVICE) 62 3-050-500-01 KNOB, EJECT 0ND801 1-517-817-21 TUBE, FLUORESCENT, COLD CATHODE 63 3-050-906-21 BUTTON, EJECT LOCK 6-2, 6-1-3. LENS BLOCK SECTION IC401 108 102 (Note 2) 109 105 106 M902 (Note 3) 101 M901 (Note 3) M1.7X5 M1.7X5 (Note 2) Be sure to read “Precuations for Replacement of CCD Imager” on page 4-8 when changing the CCD imager. (Note 3) Flexible board of zoom lens is not supplied. Please be careful not to break the flexible board when you change the motor unit. Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark 101 1-758-177-11 LENS, ZOOM (VCL-4210VD) 107 3-953-817-01 RUBBER (F), SEAL 102 1-670-487-11 FP-34 FLEXIBLE BOARD 108 A-7074-717-A CD-338 BOARD, COMPLETE 103 3-318-382-21 SCREW (1.7X3), TAPPING 109 3-318-203-11 SCREW (B1.7X6), TAPPING * 104 3-050-439-01 FRAME, LENS IC401 A-7031-220-A CCD BLOCK ASSY (CCD IMAGER) (Note 2) 105 3-953-816-01 ADAPTOR (F), CCD FITTING M901 3-709-404-01 MOTOR UNIT, FOCUS (Note 3) 106 1-758-204-11 FILTER BLOCK, OPTICAL M902 3-709-403-01 MOTOR UNIT, ZOOM (Note 3) 6-3,

CD-338 FC-86

6-2. ELECTRICAL PARTS LIST NOTE: The components identified by • Due to standardization, replacements in the • Items marked “*” are not stocked since they mark 0 or dotted line with mark 0 are critical for safety. parts list may be different from the parts speci- are seldom required for routine service. Replace only with part number fied in the diagrams or the components used Some delay should be anticipated when order- specified. on the set. ing these items. Les composants identifiés par une • -XX and -X mean standardized parts, so they • SEMICONDUCTORS marque 0 sont critiquens pour la may have some difference from the original In each case, u: µ, for example: sécurité. one. uA.: µA.uPA.: µPA.Ne les remplacer que par une pièce • RESISTORS uPB.: µPB.uPC.: µPC.portant le numéro spécifié. All resistors are in ohms. uPD.: µPD.METAL: Metal-film resistor. • CAPACITORS When indicating parts by reference METAL OXIDE: Metal oxide-film resistor. uF: µF number, please include the board. F: nonflammable • COILS • Abbreviation uH: µH AUS : Australian model BR : Brazilian model CN : Chinese model CND : Canadian model HK : Hong Kong model Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark A-7074-717-A CD-338 BOARD, COMPLETE C102 1-162-916-11 CERAMIC CHIP 12PF 5% 50V *********************** C103 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V (Ref. No. 2,000 Series) C104 1-135-259-11 TANTAL. CHIP 10uF 20% 6.3V (IC401 is not included in this board) C108 1-135-214-21 TANTAL. CHIP 4.7uF 20% 20V < CAPACITOR > C109 1-115-156-11 CERAMIC CHIP 1uF 10V C111 1-162-974-11 CERAMIC CHIP 0.01uF 50V C401 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C112 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C403 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C113 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C404 1-135-214-21 TANTAL. CHIP 4.7uF 20% 20V C114 1-162-909-11 CERAMIC CHIP 4PF 0.25PF 50V C405 1-135-210-11 TANTALUM CHIP 4.7uF 20% 10V C406 1-162-919-11 CERAMIC CHIP 22PF 5% 50V C116 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C117 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C407 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C119 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C408 1-125-827-91 CERAMIC CHIP 1uF 10% 25V C120 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C121 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V < CONNECTOR > C122 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V CN401 1-766-346-21 CONNECTOR, FFC/FPC 16P C124 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C125 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V < IC > C126 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C127 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V IC401 A-7031-220-A CCD BLOCK ASSY (CCD IMAGER) (Note) C129 1-164-346-11 CERAMIC CHIP 1uF 16V < COIL > C130 1-162-909-11 CERAMIC CHIP 4PF 0.25PF 50V C131 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V L401 1-469-528-91 INDUCTOR 100uH C132 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C133 1-162-923-11 CERAMIC CHIP 47PF 5% 50V < TRANSISTOR > C134 1-162-923-11 CERAMIC CHIP 47PF 5% 50V Q401 8-729-117-73 TRANSISTOR 2SC4178-F13F14-T1 C136 1-119-750-11 TANTAL. CHIP 22uF 20% 6.3V C302 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V < RESISTOR > C303 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C401 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V R401 1-216-827-11 METAL CHIP 3.3K 5% 1/16W R402 1-216-864-91 SHORT 0 C402 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V R403 1-216-809-11 METAL CHIP 100 5% 1/16W C403 1-109-982-11 CERAMIC CHIP 1uF 10% 10V R404 1-216-857-11 METAL CHIP 1M 5% 1/16W C404 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V R405 1-216-864-91 SHORT 0 C405 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C406 1-162-967-11 CERAMIC CHIP 0.0033uF 10% 50V A-7096-525-A FC-86 BOARD, COMPLETE (SERVICE) C407 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V ******************************* C408 1-164-677-11 CERAMIC CHIP 0.033uF 10% 16V (Ref. No. 1,000 Series) C409 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C410 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V < CAPACITOR > C411 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C101 1-162-916-11 CERAMIC CHIP 12PF 5% 50V C412 1-113-682-11 TANTAL. CHIP 33uF 20% 10V (Note) Be sure to read “Note on the CCD Imager Replacement” on page 4-8 when changing the CCD imager. 6-4,

FC-86

Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark C413 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V C909 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V C415 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C910 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V C416 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C914 1-162-968-11 CERAMIC CHIP 0.0047uF 10% 50V C417 1-164-346-11 CERAMIC CHIP 1uF 16V C915 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V C418 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C916 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C419 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C918 1-162-962-11 CERAMIC CHIP 470PF 10% 50V C422 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C919 1-162-962-11 CERAMIC CHIP 470PF 10% 50V C501 1-104-852-11 TANTAL. CHIP 22uF 20% 10V C921 1-104-913-11 TANTAL. CHIP 10uF 20% 16V C502 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C922 1-162-962-11 CERAMIC CHIP 470PF 10% 50V C503 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C923 1-162-962-11 CERAMIC CHIP 470PF 10% 50V C504 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C925 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C602 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C926 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C603 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C927 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C604 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C928 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C605 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C929 1-115-566-11 CERAMIC CHIP 4.7uF 10% 10V C606 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C930 1-115-566-11 CERAMIC CHIP 4.7uF 10% 10V C607 1-107-682-11 CERAMIC CHIP 1uF 10% 16V C931 1-115-566-11 CERAMIC CHIP 4.7uF 10% 10V C608 1-107-682-11 CERAMIC CHIP 1uF 10% 16V C932 1-115-566-11 CERAMIC CHIP 4.7uF 10% 10V C611 1-107-682-11 CERAMIC CHIP 1uF 10% 16V C933 1-115-566-11 CERAMIC CHIP 4.7uF 10% 10V C701 1-115-156-11 CERAMIC CHIP 1uF 10V C934 1-135-216-11 TANTALUM CHIP 10uF 20% 10V C702 1-115-156-11 CERAMIC CHIP 1uF 10V C935 1-135-216-11 TANTALUM CHIP 10uF 20% 10V C703 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C936 1-135-216-11 TANTALUM CHIP 10uF 20% 10V C704 1-119-750-11 TANTAL. CHIP 22uF 20% 6.3V C937 1-164-506-11 CERAMIC CHIP 4.7uF 16V C706 1-119-750-11 TANTAL. CHIP 22uF 20% 6.3V C938 1-164-506-11 CERAMIC CHIP 4.7uF 16V C707 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C939 1-164-506-11 CERAMIC CHIP 4.7uF 16V C708 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V C940 1-135-214-21 TANTAL. CHIP 4.7uF 20% 20V C709 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C942 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V C713 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C943 1-135-216-11 TANTALUM CHIP 10uF 20% 10V C714 1-162-917-11 CERAMIC CHIP 15PF 5% 50V C944 1-107-823-11 CERAMIC CHIP 0.47uF 10% 16V C715 1-162-919-11 CERAMIC CHIP 22PF 5% 50V C945 1-165-319-11 CERAMIC CHIP 0.1uF 50V C716 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C946 1-165-319-11 CERAMIC CHIP 0.1uF 50V C717 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C947 1-107-823-11 CERAMIC CHIP 0.47uF 10% 16V C718 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C948 1-113-986-11 TANTAL. CHIP 2.2uF 20% 25V C720 1-115-156-11 CERAMIC CHIP 1uF 10V C949 1-164-506-11 CERAMIC CHIP 4.7uF 16V C724 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C950 1-104-851-11 TANTAL. CHIP 10uF 20% 10V C725 1-162-968-11 CERAMIC CHIP 0.0047uF 10% 50V C951 1-107-682-11 CERAMIC CHIP 1uF 10% 16V C726 1-135-177-21 TANTALUM CHIP 1uF 20% 20V C727 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V < CONNECTOR > C804 1-110-563-11 CERAMIC CHIP 0.068uF 10% 16V CN101 1-779-332-11 CONNECTOR, FFC/FPC 16P C805 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V CN401 1-779-334-11 CONNECTOR, FFC/FPC 20P C806 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V CN602 1-778-084-11 CONNECTOR, BOARD TO BOARD 60P C807 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V * CN901 1-580-057-11 PIN, CONNECTOR (SMD) 4P C808 1-162-969-11 CERAMIC CHIP 0.0068uF 10% 25V CN907 1-770-620-21 PIN, CONNECTOR 3P C810 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V CN910 1-770-630-21 PIN, CONNECTOR 13P C811 1-115-467-11 CERAMIC CHIP 0.22uF 10% 10V C812 1-107-823-11 CERAMIC CHIP 0.47uF 10% 16V < DIODE > C813 1-162-919-11 CERAMIC CHIP 22PF 5% 50V C814 1-115-467-11 CERAMIC CHIP 0.22uF 10% 10V D101 8-719-421-27 DIODE MA728- (K8).S0 C815 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V D102 8-719-421-27 DIODE MA728- (K8).S0 D701 8-719-049-09 DIODE 1SS367-T3SONY C818 1-164-315-11 CERAMIC CHIP 470PF 5% 50V D702 8-719-073-01 DIODE MA111- (K8).S0 C819 1-109-982-11 CERAMIC CHIP 1uF 10% 10V D703 8-719-049-09 DIODE 1SS367-T3SONY C820 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C821 1-119-750-11 TANTAL. CHIP 22uF 20% 6.3V D706 8-719-061-82 DIODE TLSU1002 (TPX1, SONY) C825 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V (SELF TIMER) D904 8-719-027-76 DIODE 1SS357-TPH3 C902 1-164-218-11 CERAMIC CHIP 180PF 0.25PF 50V D905 8-719-027-77 DIODE MA796-TX C903 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V D906 8-719-073-01 DIODE MA111- (K8).S0 C904 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V D907 8-719-073-01 DIODE MA111- (K8).S0 C905 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V C906 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C908 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V 6-5,

FC-86

Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark < FUSE > L910 1-412-056-11 INDUCTOR 4.7uH 0F901 1-576-406-21 FUSE, MICRO (1608) (1.4A/32V) 0F902 1-576-406-21 FUSE, MICRO (1608) (1.4A/32V) < TRANSISTOR > 0F903 1-576-406-21 FUSE, MICRO (1608) (1.4A/32V) 0F904 1-576-406-21 FUSE, MICRO (1608) (1.4A/32V) Q101 8-729-037-61 TRANSISTOR RN2104F (TPL3) Q102 8-729-042-29 TRANSISTOR RN1104F (TPL3) < FERRITE BEAD > Q103 8-729-037-61 TRANSISTOR RN2104F (TPL3) Q104 8-729-042-29 TRANSISTOR RN1104F (TPL3) FB101 1-500-283-11 FERRITE 0uH Q401 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) FB102 1-414-228-11 FERRITE 0uH FB103 1-500-284-21 FERRITE 0uH Q402 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) FB104 1-414-228-11 FERRITE 0uH Q403 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) Q601 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) < IC > Q602 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) Q603 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) IC102 8-759-646-91 IC CCD1000Y-3/2K IC103 8-752-391-91 IC CXD2450R-T4 Q701 8-729-047-68 TRANSISTOR SSM3K03FE (TPL3) IC104 8-752-397-30 IC CXD3137AR-T6 Q702 8-729-032-62 TRANSISTOR 2SJ347-TE85L IC301 8-759-364-05 IC M62376GP-65AD Q703 8-729-042-29 TRANSISTOR RN1104F (TPL3) IC401 8-759-337-40 IC NJM2904V (TE2) Q704 8-729-042-29 TRANSISTOR RN1104F (TPL3) Q706 8-729-042-29 TRANSISTOR RN1104F (TPL3) IC402 8-759-475-79 IC uPD16833AG3-E2 IC403 8-752-377-38 IC CXD2430N-T4 Q707 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) IC404 8-759-338-78 IC BA10324AFV-E2 Q708 8-729-042-29 TRANSISTOR RN1104F (TPL3) IC501 8-759-543-83 IC GM71VS18163CLT-6TR Q801 8-729-037-61 TRANSISTOR RN2104F (TPL3) IC503 8-752-393-45 IC CXD3136R-T6 Q802 8-729-042-29 TRANSISTOR RN1104F (TPL3) Q803 8-729-042-29 TRANSISTOR RN1104F (TPL3) IC601 8-752-384-33 IC CXD3121R-T4 IC701 8-759-298-10 IC S-8423NFS-T2 Q906 8-729-033-14 TRANSISTOR FP107-TL IC702 8-759-654-01 IC S579617PZ-TEB Q907 8-729-804-41 TRANSISTOR 2SB1122-ST-TD IC703 8-759-445-94 IC AK6480AM-E2 Q908 8-729-033-14 TRANSISTOR FP107-TL IC705 8-759-535-20 IC MB90097PFV-G-109-BND-ER Q909 8-729-033-14 TRANSISTOR FP107-TL Q910 8-729-042-29 TRANSISTOR RN1104F (TPL3) IC801 8-759-458-76 IC uPD72069GF-3BA IC802 8-759-196-97 IC TC7SH32FU-TE85R Q911 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) IC803 8-759-466-32 IC TA8563FN (EL) Q912 8-729-015-60 TRANSISTOR 2SJ316-TD IC804 8-759-549-15 IC SN74LV245APWR Q913 8-729-042-29 TRANSISTOR RN1104F (TPL3) IC805 8-759-083-94 IC TC7W74FU (TE12R) Q914 8-729-037-61 TRANSISTOR RN2104F (TPL3) Q915 8-729-042-29 TRANSISTOR RN1104F (TPL3) IC806 8-759-557-74 IC HD6437410A13FSN IC807 8-759-589-52 IC MBM29LV200BC-90PFTN-032-ER Q916 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) IC901 8-759-060-94 IC MB3785APFV-G-BND-ER Q917 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) Q918 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) < COIL > Q919 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) Q920 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) L101 1-469-525-91 INDUCTOR 10uH L102 1-216-295-11 SHORT 0 (Note) Q921 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) L301 1-216-295-11 SHORT 0 (Note) Q922 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) L401 1-414-078-11 INDUCTOR 10uH Q923 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) L403 1-414-078-11 INDUCTOR 10uH Q924 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) Q925 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) L404 1-469-525-91 INDUCTOR 10uH L501 1-412-951-11 INDUCTOR 10uH Q926 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) L601 1-216-295-11 SHORT 0 (Note) Q927 8-729-037-53 TRANSISTOR 2SA1832F-Y/GR (TPL3) L701 1-469-525-91 INDUCTOR 10uH Q928 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) L801 1-469-525-91 INDUCTOR 10uH Q929 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) Q930 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) L802 1-414-402-11 INDUCTOR 47uH L901 1-419-353-21 INDUCTOR 10uH < RESISTOR > L902 1-419-353-21 INDUCTOR 10uH L903 1-416-511-11 INDUCTOR 47uH R102 1-216-845-11 METAL CHIP 100K 5% 1/16W L904 1-419-354-21 INDUCTOR 22uH R111 1-216-841-11 METAL CHIP 47K 5% 1/16W R112 1-216-833-11 METAL CHIP 10K 5% 1/16W L905 1-419-354-21 INDUCTOR 22uH R115 1-216-798-11 RES-CHIP 12 5% 1/16W L906 1-412-056-11 INDUCTOR 4.7uH R116 1-216-798-11 RES-CHIP 12 5% 1/16W L907 1-412-056-11 INDUCTOR 4.7uH L908 1-412-052-21 INDUCTOR 1uH R119 1-216-841-11 METAL CHIP 47K 5% 1/16W L909 1-414-400-11 INDUCTOR 22uH R121 1-216-808-11 METAL CHIP 82 5% 1/16W The components identified by Les composants identifiés par une mark 0 or dotted line with marque 0 sont critiques pour la mark 0 are critical for safety. sécurité. Note: Resistor is mounted to the location where Replace only with part num- Ne les remplacer que par une pièce L102, L301 and L601 are printed. 6-6 ber specified. portant le numéro spécifié.,

FC-86

Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark R124 1-216-864-91 SHORT 0 R721 1-216-821-11 METAL CHIP 1K 5% 1/16W R126 1-216-817-11 METAL CHIP 470 5% 1/16W R722 1-216-821-11 METAL CHIP 1K 5% 1/16W R127 1-216-817-11 METAL CHIP 470 5% 1/16W R723 1-216-821-11 METAL CHIP 1K 5% 1/16W R401 1-216-841-11 METAL CHIP 47K 5% 1/16W R724 1-216-821-11 METAL CHIP 1K 5% 1/16W R402 1-216-797-11 METAL CHIP 10 5% 1/16W R725 1-216-821-11 METAL CHIP 1K 5% 1/16W R403 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R726 1-216-853-11 METAL CHIP 470K 5% 1/16W R404 1-216-843-11 METAL CHIP 68K 5% 1/16W R727 1-216-833-11 METAL CHIP 10K 5% 1/16W R405 1-216-843-11 METAL CHIP 68K 5% 1/16W R728 1-216-833-11 METAL CHIP 10K 5% 1/16W R406 1-216-821-11 METAL CHIP 1K 5% 1/16W R729 1-216-833-11 METAL CHIP 10K 5% 1/16W R407 1-216-825-11 METAL CHIP 2.2K 5% 1/16W R730 1-216-821-11 METAL CHIP 1K 5% 1/16W R408 1-216-845-11 METAL CHIP 100K 5% 1/16W R736 1-216-841-11 METAL CHIP 47K 5% 1/16W R409 1-216-833-11 METAL CHIP 10K 5% 1/16W R737 1-216-821-11 METAL CHIP 1K 5% 1/16W R410 1-216-845-11 METAL CHIP 100K 5% 1/16W R738 1-216-821-11 METAL CHIP 1K 5% 1/16W R411 1-216-837-11 METAL CHIP 22K 5% 1/16W R739 1-216-821-11 METAL CHIP 1K 5% 1/16W R412 1-216-815-11 METAL CHIP 330 5% 1/16W R740 1-216-821-11 METAL CHIP 1K 5% 1/16W R413 1-216-837-11 METAL CHIP 22K 5% 1/16W R741 1-216-853-11 METAL CHIP 470K 5% 1/16W R414 1-216-845-11 METAL CHIP 100K 5% 1/16W R742 1-219-570-11 RES-CHIP 10M 5% 1/16W R415 1-216-821-11 METAL CHIP 1K 5% 1/16W R743 1-216-853-11 METAL CHIP 470K 5% 1/16W R416 1-216-837-11 METAL CHIP 22K 5% 1/16W R744 1-216-864-91 SHORT 0 R417 1-216-848-11 METAL CHIP 180K 5% 1/16W R745 1-216-849-11 METAL CHIP 220K 5% 1/16W R418 1-216-833-11 METAL CHIP 10K 5% 1/16W R746 1-216-845-11 METAL CHIP 100K 5% 1/16W R419 1-216-836-11 METAL CHIP 18K 5% 1/16W R747 1-216-817-11 METAL CHIP 470 5% 1/16W R420 1-216-845-11 METAL CHIP 100K 5% 1/16W R749 1-216-853-11 METAL CHIP 470K 5% 1/16W R422 1-216-848-11 METAL CHIP 180K 5% 1/16W R751 1-216-845-11 METAL CHIP 100K 5% 1/16W R423 1-216-827-11 METAL CHIP 3.3K 5% 1/16W R752 1-216-821-11 METAL CHIP 1K 5% 1/16W R424 1-216-851-11 METAL CHIP 330K 5% 1/16W R753 1-216-833-11 METAL CHIP 10K 5% 1/16W R427 1-216-864-91 SHORT 0 R759 1-216-857-11 METAL CHIP 1M 5% 1/16W R428 1-216-821-11 METAL CHIP 1K 5% 1/16W R761 1-216-833-11 METAL CHIP 10K 5% 1/16W R429 1-218-876-11 METAL CHIP 16K 0.5% 1/16W R762 1-216-821-11 METAL CHIP 1K 5% 1/16W R601 1-216-835-11 METAL CHIP 15K 5% 1/16W R763 1-216-821-11 METAL CHIP 1K 5% 1/16W R605 1-216-835-11 METAL CHIP 15K 5% 1/16W R764 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R606 1-216-835-11 METAL CHIP 15K 5% 1/16W R769 1-216-845-11 METAL CHIP 100K 5% 1/16W R610 1-216-821-11 METAL CHIP 1K 5% 1/16W R775 1-216-845-11 METAL CHIP 100K 5% 1/16W R611 1-216-840-11 METAL CHIP 39K 5% 1/16W R776 1-216-857-11 METAL CHIP 1M 5% 1/16W R612 1-216-834-11 METAL CHIP 12K 5% 1/16W R777 1-216-853-11 METAL CHIP 470K 5% 1/16W R613 1-216-821-11 METAL CHIP 1K 5% 1/16W R778 1-216-819-11 METAL CHIP 680 5% 1/16W R615 1-216-821-11 METAL CHIP 1K 5% 1/16W R779 1-216-845-11 METAL CHIP 100K 5% 1/16W R616 1-216-840-11 METAL CHIP 39K 5% 1/16W R780 1-216-845-11 METAL CHIP 100K 5% 1/16W R617 1-216-834-11 METAL CHIP 12K 5% 1/16W R781 1-216-819-11 METAL CHIP 680 5% 1/16W R618 1-216-821-11 METAL CHIP 1K 5% 1/16W R806 1-216-821-11 METAL CHIP 1K 5% 1/16W R620 1-216-821-11 METAL CHIP 1K 5% 1/16W R807 1-216-827-11 METAL CHIP 3.3K 5% 1/16W R621 1-216-840-11 METAL CHIP 39K 5% 1/16W R808 1-216-825-11 METAL CHIP 2.2K 5% 1/16W R622 1-216-834-11 METAL CHIP 12K 5% 1/16W R809 1-218-878-11 METAL CHIP 20K 0.5% 1/16W R623 1-216-821-11 METAL CHIP 1K 5% 1/16W R810 1-218-854-11 METAL CHIP 2K 0.5% 1/16W R701 1-216-845-11 METAL CHIP 100K 5% 1/16W R811 1-216-833-11 METAL CHIP 10K 5% 1/16W R702 1-216-813-11 METAL CHIP 220 5% 1/16W R812 1-216-821-11 METAL CHIP 1K 5% 1/16W R703 1-216-833-11 METAL CHIP 10K 5% 1/16W R813 1-216-821-11 METAL CHIP 1K 5% 1/16W R704 1-216-853-11 METAL CHIP 470K 5% 1/16W R814 1-216-821-11 METAL CHIP 1K 5% 1/16W R706 1-216-853-11 METAL CHIP 470K 5% 1/16W R815 1-216-833-11 METAL CHIP 10K 5% 1/16W R707 1-216-845-11 METAL CHIP 100K 5% 1/16W R816 1-216-833-11 METAL CHIP 10K 5% 1/16W R708 1-216-845-11 METAL CHIP 100K 5% 1/16W R817 1-216-833-11 METAL CHIP 10K 5% 1/16W R709 1-216-845-11 METAL CHIP 100K 5% 1/16W R818 1-216-833-11 METAL CHIP 10K 5% 1/16W R710 1-216-845-11 METAL CHIP 100K 5% 1/16W R819 1-216-833-11 METAL CHIP 10K 5% 1/16W R711 1-216-845-11 METAL CHIP 100K 5% 1/16W R820 1-216-833-11 METAL CHIP 10K 5% 1/16W R712 1-216-853-11 METAL CHIP 470K 5% 1/16W R821 1-216-833-11 METAL CHIP 10K 5% 1/16W R713 1-216-853-11 METAL CHIP 470K 5% 1/16W R822 1-216-833-11 METAL CHIP 10K 5% 1/16W R714 1-216-853-11 METAL CHIP 470K 5% 1/16W R823 1-216-833-11 METAL CHIP 10K 5% 1/16W R715 1-216-841-11 METAL CHIP 47K 5% 1/16W R825 1-216-833-11 METAL CHIP 10K 5% 1/16W R717 1-216-833-11 METAL CHIP 10K 5% 1/16W R826 1-216-853-11 METAL CHIP 470K 5% 1/16W R718 1-216-853-11 METAL CHIP 470K 5% 1/16W R827 1-216-841-11 METAL CHIP 47K 5% 1/16W 6-7,

FC-86 PK-59

Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark R828 1-216-833-11 METAL CHIP 10K 5% 1/16W R829 1-216-833-11 METAL CHIP 10K 5% 1/16W R949 1-216-817-11 METAL CHIP 470 5% 1/16W R830 1-216-833-11 METAL CHIP 10K 5% 1/16W R951 1-216-864-91 SHORT 0 R952 1-216-845-11 METAL CHIP 100K 5% 1/16W R831 1-216-833-11 METAL CHIP 10K 5% 1/16W R953 1-216-845-11 METAL CHIP 100K 5% 1/16W R832 1-216-835-11 METAL CHIP 15K 5% 1/16W R954 1-216-821-11 METAL CHIP 1K 5% 1/16W R860 1-216-833-11 METAL CHIP 10K 5% 1/16W R862 1-216-833-11 METAL CHIP 10K 5% 1/16W R956 1-216-845-11 METAL CHIP 100K 5% 1/16W R864 1-216-833-11 METAL CHIP 10K 5% 1/16W R957 1-216-841-11 METAL CHIP 47K 5% 1/16W R958 1-216-837-11 METAL CHIP 22K 5% 1/16W R866 1-216-833-11 METAL CHIP 10K 5% 1/16W R960 1-218-885-11 METAL CHIP 39K 0.5% 1/16W R868 1-216-833-11 METAL CHIP 10K 5% 1/16W R961 1-218-873-11 METAL CHIP 12K 0.5% 1/16W R869 1-216-857-11 METAL CHIP 1M 5% 1/16W R870 1-216-857-11 METAL CHIP 1M 5% 1/16W R962 1-218-895-11 METAL CHIP 100K 0.5% 1/16W R871 1-216-833-11 METAL CHIP 10K 5% 1/16W R963 1-218-893-11 METAL CHIP 82K 0.5% 1/16W R964 1-218-881-11 METAL CHIP 27K 0.5% 1/16W R872 1-216-833-11 METAL CHIP 10K 5% 1/16W R965 1-216-835-11 METAL CHIP 15K 5% 1/16W R873 1-216-841-11 METAL CHIP 47K 5% 1/16W R966 1-216-845-11 METAL CHIP 100K 5% 1/16W R874 1-216-841-11 METAL CHIP 47K 5% 1/16W R875 1-216-841-11 METAL CHIP 47K 5% 1/16W R967 1-216-841-11 METAL CHIP 47K 5% 1/16W R876 1-216-841-11 METAL CHIP 47K 5% 1/16W R968 1-216-845-11 METAL CHIP 100K 5% 1/16W R969 1-216-845-11 METAL CHIP 100K 5% 1/16W R877 1-216-841-11 METAL CHIP 47K 5% 1/16W R970 1-216-845-11 METAL CHIP 100K 5% 1/16W R878 1-216-841-11 METAL CHIP 47K 5% 1/16W R971 1-216-841-11 METAL CHIP 47K 5% 1/16W R879 1-216-841-11 METAL CHIP 47K 5% 1/16W R880 1-216-841-11 METAL CHIP 47K 5% 1/16W R972 1-216-845-11 METAL CHIP 100K 5% 1/16W R904 1-216-864-91 SHORT 0 R973 1-216-845-11 METAL CHIP 100K 5% 1/16W R974 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R909 1-218-871-11 METAL CHIP 10K 0.5% 1/16W R975 1-216-833-11 METAL CHIP 10K 5% 1/16W R910 1-216-850-11 METAL CHIP 270K 5% 1/16W R976 1-218-877-11 METAL CHIP 18K 0.5% 1/16W R912 1-216-864-91 SHORT 0 R913 1-216-864-91 SHORT 0 R977 1-218-852-11 RES-CHIP 1.6K 5% 1/16W R914 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R978 1-218-897-11 METAL CHIP 120K 0.5% 1/16W R979 1-218-879-11 METAL CHIP 22K 0.5% 1/16W R915 1-218-881-11 METAL CHIP 27K 0.5% 1/16W R980 1-218-873-11 METAL CHIP 12K 0.5% 1/16W R916 1-218-855-11 METAL CHIP 2.2K 0.5% 1/16W R981 1-218-885-11 METAL CHIP 39K 0.5% 1/16W R917 1-218-865-11 METAL CHIP 5.6K 0.5% 1/16W R918 1-216-840-11 METAL CHIP 39K 5% 1/16W R986 1-216-841-11 METAL CHIP 47K 5% 1/16W R919 1-216-838-11 METAL CHIP 27K 5% 1/16W R987 1-216-296-11 SHORT 0 R988 1-216-296-11 SHORT 0 R920 1-216-825-11 METAL CHIP 2.2K 5% 1/16W R921 1-216-829-11 METAL CHIP 4.7K 5% 1/16W < SENSOR > R922 1-216-864-91 SHORT 0 R924 1-218-871-11 METAL CHIP 10K 0.5% 1/16W SE801 1-801-868-41 SENSOR, SHOCK R925 1-218-837-11 METAL CHIP 390 0.5% 1/16W < TRANSFORMER > R926 1-218-871-11 METAL CHIP 10K 0.5% 1/16W R927 1-216-847-11 METAL CHIP 150K 5% 1/16W 0T901 1-429-565-21 TRANSFORMER, CONVERTER R928 1-216-833-11 METAL CHIP 10K 5% 1/16W R929 1-216-864-91 SHORT 0 < VIBRATOR > R930 1-216-829-11 METAL CHIP 4.7K 5% 1/16W X101 1-767-923-11 VIBRATOR, CRYSTAL (36.818178MHz) R931 1-218-871-11 METAL CHIP 10K 0.5% 1/16W X701 1-767-450-11 VIBRATOR, CERAMIC (20MHz) R932 1-216-864-91 SHORT 0 X702 1-760-458-21 VIBRATOR, CRYSTAL (32.768kHz) R933 1-218-871-11 METAL CHIP 10K 0.5% 1/16W X802 1-767-921-11 VIBRATOR, CERAMIC (15MHz) R934 1-216-841-11 METAL CHIP 47K 5% 1/16W X803 1-767-922-11 VIBRATOR, CERAMIC (16MHz) R935 1-216-843-11 METAL CHIP 68K 5% 1/16W R936 1-216-821-11 METAL CHIP 1K 5% 1/16W A-7096-526-A PK-59 BOARD, COMPLETE (SERVICE) R937 1-216-821-11 METAL CHIP 1K 5% 1/16W ******************************* R938 1-216-864-91 SHORT 0 (Ref. No. 2,000 Series) R940 1-216-864-91 SHORT 0 R941 1-218-875-11 METAL CHIP 15K 0.5% 1/16W < BATTERY HOLDER > R942 1-218-863-11 METAL CHIP 4.7K 0.5% 1/16W BH701 1-550-104-32 HOLDER, BATTERY R943 1-216-833-11 METAL CHIP 10K 5% 1/16W R946 1-216-813-11 METAL CHIP 220 5% 1/16W < BUZZER > R947 1-216-819-11 METAL CHIP 680 5% 1/16W R948 1-216-817-11 METAL CHIP 470 5% 1/16W BZ701 1-529-107-11 BUZZER, PIEZOELECTRIC The components identified by Les composants identifiés par une mark 0 or dotted line with marque 0 sont critiques pour la mark 0 are critical for safety. sécurité. Replace only with part num- Ne les remplacer que par une pièce 6-8 ber specified. portant le numéro spécifié.,

PK-59

Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark * CN602 1-750-075-11 CONNECTOR, FFC/FPC 10P < CAPACITOR > CN603 1-778-598-21 CONNECTOR, BOARD TO BOARD 60P CN802 1-764-526-11 CONNECTOR, FFC/FPC 18P C601 1-109-982-11 CERAMIC CHIP 1uF 10% 10V CN851 1-573-929-21 CONNECTOR, FFC/FPC (ZIF) 20P C602 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C603 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V CN901 1-691-388-11 CONNECTOR, FFC/FPC (ZIF) 24P C604 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C606 1-113-642-11 TANTAL. CHIP 47uF 20% 10V < DIODE > C702 1-107-682-11 CERAMIC CHIP 1uF 10% 16V D701 8-719-061-82 DIODE TLSU1002 (TPX1, SONY) (ACCESS) C703 1-165-320-11 CERAMIC CHIP 0.47uF 10% 16V D702 8-719-061-81 DIODE TLYU1002 (TPX1, SONY) C704 1-109-982-11 CERAMIC CHIP 1uF 10% 10V (FLASH CHARGE) C705 1-109-982-11 CERAMIC CHIP 1uF 10% 10V D852 8-719-073-01 DIODE MA111- (K8).S0 C801 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V D853 8-719-073-01 DIODE MA111- (K8).S0 D854 8-719-073-01 DIODE MA111- (K8).S0 C802 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C803 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V D903 8-713-102-80 DIODE 1T369-01-T8A C804 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V D904 8-719-976-96 DIODE MA8047-H-TX C805 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V C806 1-164-004-11 CERAMIC CHIP 0.1uF 10% 25V < IC > C807 1-110-569-11 TANTAL. CHIP 47uF 20% 6.3V IC601 8-759-535-05 IC BH9530KS2 C808 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V IC801 8-759-364-05 IC MB40D001PFV-G-BND-ER C811 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V IC802 8-759-539-27 IC IR3Y37A4 C812 1-164-004-11 CERAMIC CHIP 0.1uF 10% 25V IC851 8-759-521-35 IC TL5001CDR C813 1-164-004-11 CERAMIC CHIP 0.1uF 10% 25V IC852 8-759-710-82 IC NJM2406F-TE2 C814 1-164-004-11 CERAMIC CHIP 0.1uF 10% 25V IC901 8-759-495-00 IC LZ9GH184 C851 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V IC902 8-759-327-01 IC NJM062V (TE2) C853 1-107-682-11 CERAMIC CHIP 1uF 10% 16V IC903 8-759-523-03 IC TC74HC4066AFT (EL) C854 1-135-149-21 TANTALUM CHIP 2.2uF 20% 10V C855 1-164-505-11 CERAMIC CHIP 2.2uF 16V < COIL > C856 1-162-918-11 CERAMIC CHIP 18PF 5% 50V L601 1-414-394-11 INDUCTOR 2.2uH C857 1-164-227-11 CERAMIC CHIP 0.022uF 10% 25V L701 1-216-296-11 SHORT 0 (Note) C858 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V L801 1-414-402-11 INDUCTOR 47uH C859 1-162-920-11 CERAMIC CHIP 27PF 5% 50V L802 1-414-078-11 INDUCTOR 10uH C861 1-104-911-11 TANTAL. CHIP 33uF 20% 10V L851 1-412-056-11 INDUCTOR 4.7uH C862 1-164-346-11 CERAMIC CHIP 1uF 16V L852 1-424-674-11 INDUCTOR 22uH C863 1-164-657-11 CERAMIC CHIP 0.015uF 10% 50V L853 1-419-387-21 INDUCTOR 100uH C865 1-107-725-11 CERAMIC CHIP 0.1uF 10% 16V L901 1-469-525-91 INDUCTOR 10uH 0C866 1-131-959-91 CERAMIC CHIP 12PF 10% 3KV L902 1-469-525-91 INDUCTOR 10uH C867 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V L903 1-412-951-11 INDUCTOR 10uH C902 1-107-687-11 TANTAL. CHIP 3.3uF 20% 20V L905 1-412-953-11 INDUCTOR 15uH C903 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C904 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V < TRANSISTOR > C905 1-164-004-11 CERAMIC CHIP 0.1uF 10% 25V C906 1-164-004-11 CERAMIC CHIP 0.1uF 10% 25V Q701 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) Q702 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) C907 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V Q702 8-729-037-52 TRANSISTOR 2SD2216J-QR (K8).SO C908 1-162-926-11 CERAMIC CHIP 82PF 5% 50V Q852 8-729-042-59 TRANSISTOR UN9112J- (K8).SO C909 1-164-004-11 CERAMIC CHIP 0.1uF 10% 25V Q853 8-729-042-29 TRANSISTOR RN1104F (TPL3) C911 1-164-739-11 CERAMIC CHIP 560PF 5% 50V C913 1-162-926-11 CERAMIC CHIP 82PF 5% 50V Q854 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) Q855 8-729-042-29 TRANSISTOR RN1104F (TPL3) C915 1-107-682-11 CERAMIC CHIP 1uF 10% 16V Q856 8-729-823-84 TRANSISTOR FP102-TL C916 1-113-994-11 TANTAL. CHIP 6.8uF 20% 16V Q857 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) C917 1-162-970-11 CERAMIC CHIP 0.01uF 10% 25V Q858 8-729-037-52 TRANSISTOR 2SC4738F-Y/GR (TPL3) C918 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V C919 1-107-689-21 TANTAL. CHIP 1uF 20% 35V Q859 8-729-042-29 TRANSISTOR RN1104F (TPL3) Q860 8-729-039-43 TRANSISTOR FP216-TL C920 1-107-682-11 CERAMIC CHIP 1uF 10% 16V Q862 8-729-042-59 TRANSISTOR UN9112J- (K8).SO C926 1-107-826-11 CERAMIC CHIP 0.1uF 10% 16V Q903 8-729-230-63 TRANSISTOR 2SD1819A-QRS-TX Q904 8-729-420-24 TRANSISTOR 2SB1218A-QRS-TX < CONNECTOR > Q905 8-729-230-63 TRANSISTOR 2SD1819A-QRS-TX CN601 1-764-526-11 CONNECTOR, FFC/FPC 18P Q906 8-729-420-24 TRANSISTOR 2SB1218A-QRS-TX The components identified by Les composants identifiés par une mark 0 or dotted line with marque 0 sont critiques pour la mark 0 are critical for safety. sécurité. Note: Resistor is mounted to the location where Replace only with part num- Ne les remplacer que par une pièce L701 is printed. 6-9 ber specified. portant le numéro spécifié.,

PK-59

Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark R853 1-218-881-11 METAL CHIP 27K 0.5% 1/16W < RESISTOR > R854 1-218-897-11 METAL CHIP 120K 0.5% 1/16W R601 1-216-033-00 METAL CHIP 220 5% 1/10W R855 1-216-818-11 METAL CHIP 560 5% 1/16W R602 1-216-825-11 METAL CHIP 2.2K 5% 1/16W R856 1-216-837-11 METAL CHIP 22K 5% 1/16W R603 1-216-825-11 METAL CHIP 2.2K 5% 1/16W R857 1-216-818-11 METAL CHIP 560 5% 1/16W R604 1-216-845-11 METAL CHIP 100K 5% 1/16W R858 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R605 1-216-298-00 METAL CHIP 2.2 5% 1/10W R859 1-218-871-11 METAL CHIP 10K 0.5% 1/16W R606 1-218-707-11 RES-CHIP 4.3K 5% 1/16W R860 1-218-854-11 METAL CHIP 2K 0.5% 1/16W R607 1-218-707-11 RES-CHIP 4.3K 5% 1/16W R861 1-218-859-11 METAL CHIP 3.3K 0.5% 1/16W R608 1-216-864-91 SHORT 0 R862 1-216-823-11 METAL CHIP 1.5K 5% 1/16W R610 1-216-864-91 SHORT 0 R863 1-216-841-11 METAL CHIP 47K 5% 1/16W R612 1-218-851-11 METAL CHIP 1.5K 0.5% 1/16W R864 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R613 1-218-869-11 METAL CHIP 8.2K 0.5% 1/16W R865 1-216-823-11 METAL CHIP 1.5K 5% 1/16W R614 1-218-863-11 METAL CHIP 4.7K 0.5% 1/16W R867 1-216-055-00 METAL CHIP 1.8K 5% 1/10W R615 1-218-859-11 METAL CHIP 3.3K 0.5% 1/16W R868 1-216-055-00 METAL CHIP 1.8K 5% 1/10W R618 1-218-887-11 METAL CHIP 47K 0.5% 1/16W R870 1-216-845-11 METAL CHIP 100K 5% 1/16W R619 1-218-849-11 METAL CHIP 1.2K 0.5% 1/16W R871 1-216-831-11 METAL CHIP 6.8K 5% 1/16W R620 1-216-821-11 METAL CHIP 1K 5% 1/16W R872 1-216-837-11 METAL CHIP 22K 5% 1/16W R621 1-218-847-11 METAL CHIP 1K 0.5% 1/16W R873 1-216-817-11 METAL CHIP 470 5% 1/16W R622 1-218-875-11 METAL CHIP 15K 0.5% 1/16W R874 1-216-810-11 METAL CHIP 120 5% 1/16W R623 1-218-292-11 RES-CHIP 20K 5% 1/16W R903 1-216-864-91 SHORT 0 R624 1-216-817-11 METAL CHIP 470 5% 1/16W R905 1-216-855-11 METAL CHIP 680K 5% 1/16W R625 1-216-833-11 METAL CHIP 10K 5% 1/16W R908 1-216-846-11 METAL CHIP 120K 5% 1/16W R626 1-216-835-11 METAL CHIP 15K 5% 1/16W R912 1-216-845-11 METAL CHIP 100K 5% 1/16W R627 1-216-833-11 METAL CHIP 10K 5% 1/16W R913 1-216-833-11 METAL CHIP 10K 5% 1/16W R628 1-216-835-11 METAL CHIP 15K 5% 1/16W R914 1-216-857-11 METAL CHIP 1M 5% 1/16W R629 1-216-835-11 METAL CHIP 15K 5% 1/16W R915 1-216-857-11 METAL CHIP 1M 5% 1/16W R630 1-216-833-11 METAL CHIP 10K 5% 1/16W R916 1-216-837-11 METAL CHIP 22K 5% 1/16W R631 1-216-857-11 METAL CHIP 1M 5% 1/16W R918 1-216-843-11 METAL CHIP 68K 5% 1/16W R632 1-216-833-11 METAL CHIP 10K 5% 1/16W R920 1-218-901-11 METAL CHIP 180K 0.5% 1/16W R701 1-216-824-11 METAL CHIP 1.8K 5% 1/16W R921 1-216-843-11 METAL CHIP 68K 5% 1/16W R702 1-216-819-11 METAL CHIP 680 5% 1/16W R922 1-216-841-11 METAL CHIP 47K 5% 1/16W R703 1-216-819-11 METAL CHIP 680 5% 1/16W R924 1-218-901-11 METAL CHIP 180K 0.5% 1/16W R705 1-216-824-11 METAL CHIP 1.8K 5% 1/16W R926 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R706 1-216-826-11 METAL CHIP 2.7K 5% 1/16W R927 1-216-864-91 SHORT 0 R707 1-216-826-11 METAL CHIP 2.7K 5% 1/16W R929 1-216-845-11 METAL CHIP 100K 5% 1/16W R708 1-216-824-11 METAL CHIP 1.8K 5% 1/16W R930 1-216-839-11 METAL CHIP 33K 5% 1/16W R709 1-216-851-11 METAL CHIP 330K 5% 1/16W R931 1-216-864-91 SHORT 0 R710 1-216-847-11 METAL CHIP 150K 5% 1/16W R932 1-216-845-11 METAL CHIP 100K 5% 1/16W R711 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R933 1-216-845-11 METAL CHIP 100K 5% 1/16W R712 1-216-829-11 METAL CHIP 4.7K 5% 1/16W R934 1-216-864-91 SHORT 0 R713 1-216-823-11 METAL CHIP 1.5K 5% 1/16W R935 1-216-864-91 SHORT 0 R714 1-216-815-11 METAL CHIP 330 5% 1/16W R938 1-216-845-11 METAL CHIP 100K 5% 1/16W R715 1-216-826-11 METAL CHIP 2.7K 5% 1/16W R939 1-216-839-11 METAL CHIP 33K 5% 1/16W R716 1-216-826-11 METAL CHIP 2.7K 5% 1/16W R940 1-216-864-91 SHORT 0 R801 1-216-864-91 SHORT 0 R941 1-218-883-11 METAL CHIP 33K 0.5% 1/16W R804 1-216-837-11 METAL CHIP 22K 5% 1/16W R942 1-218-879-11 METAL CHIP 22K 0.5% 1/16W R805 1-216-834-11 METAL CHIP 12K 5% 1/16W R943 1-218-883-11 METAL CHIP 33K 0.5% 1/16W R806 1-216-841-11 METAL CHIP 47K 5% 1/16W R944 1-218-879-11 METAL CHIP 22K 0.5% 1/16W R812 1-216-845-11 METAL CHIP 100K 5% 1/16W R945 1-216-864-91 SHORT 0 R813 1-216-805-11 METAL CHIP 47 5% 1/16W R946 1-216-864-91 SHORT 0 R814 1-216-805-11 METAL CHIP 47 5% 1/16W R947 1-216-864-91 SHORT 0 R815 1-216-805-11 METAL CHIP 47 5% 1/16W R948 1-216-864-91 SHORT 0 R821 1-216-864-91 SHORT 0 R949 1-216-864-91 SHORT 0 R822 1-216-840-11 METAL CHIP 39K 5% 1/16W R956 1-216-864-91 SHORT 0 R823 1-216-834-11 METAL CHIP 12K 5% 1/16W R958 1-216-864-91 SHORT 0 R826 1-216-864-91 SHORT 0 R960 1-216-864-91 SHORT 0 R827 1-216-835-11 METAL CHIP 15K 5% 1/16W R961 1-216-864-91 SHORT 0 R828 1-216-839-11 METAL CHIP 33K 5% 1/16W R964 1-216-864-91 SHORT 0 R852 1-218-867-11 METAL CHIP 6.8K 0.5% 1/16W R965 1-216-864-91 SHORT 0 6-10,

PK-59 RL-58

Ref. No. Part No. Description Remark Ref. No. Part No. Description Remark R967 1-216-805-11 METAL CHIP 47 5% 1/16W 3-066-544-51 MANUAL, INSTRUCTION (SIMPLIFIED R968 1-216-805-11 METAL CHIP 47 5% 1/16W CHINESE, TRADITIONAL CHINESE) (E, HK) R969 1-216-805-11 METAL CHIP 47 5% 1/16W 3-066-544-61 MANUAL, INSTRUCTION (SWEDISH) (AEP) R974 1-216-864-91 SHORT 0 3-066-544-71 MANUAL, INSTRUCTION (ARABIC) (E) R975 1-216-864-91 SHORT 0 3-066-676-01 SPVD-004 (CD) (P) (EXCEPT US, CND) R978 1-216-841-11 METAL CHIP 47K 5% 1/16W 3-066-677-01 SPVD-004 (CD) (US, CND) R979 1-216-841-11 METAL CHIP 47K 5% 1/16W 3-067-797-01 STRING (T), CAP R980 1-216-864-91 SHORT 0 3-864-060-11 MANUAL, INSTRUCTION (for BC-V615) R981 1-216-829-11 METAL CHIP 4.7K 5% 1/16W (ENGLISH, FRENCH, GERMAN, SPANISH) (EXCEPT BR) < VARIABLE RESISTOR > 3-864-060-21 MANUAL, INSTRUCTION (for BC-V615) (ITALIAN, DUTCH, PORTUGUESE, RUSSIAN) RV701 1-225-224-11 RES, VAR (ZOOM) 10K (ZOOM) (AEP, E, HK) 3-864-060-31 MANUAL, INSTRUCTION (for BC-V615) < SWITCH > (SIMPLIFIED CHINESE, TRADITIONAL CHINESE, KOREAN, ARABIC) (E, HK) S701 1-771-128-11 SWITCH, TACTILE (CONTROL) 3-987-015-01 BELT (S), SHOULDER S702 1-572-467-21 SWITCH, PUSH (1 KEY) (POWER) 0 A-7029-111-A BC-V615 AC POWER ADAPTOR S703 1-771-106-11 SWITCH, TACTILE (PICTURE EFFECT) S704 1-771-106-11 SWITCH, TACTILE (DISPLAY) 0 A-7094-140-A BATTERY PACK (NP-F330) (US, CND) S705 1-771-106-11 SWITCH, TACTILE (FLASH) 0 A-7094-141-B BATTERY PACK (NP-F330) (AEP, UK, E, HK, BR, AUS) S706 1-771-106-11 SWITCH, TACTILE (BRIGHT +) X-3949-764-2 CAP ASSY, LENS S707 1-771-106-11 SWITCH, TACTILE (PROGRAM AE) S708 1-762-741-11 SWITCH, SLIDE (PLAY/CAMERA) S709 1-771-106-11 SWITCH, TACTILE (BRIGHT -) < TRANSFORMER > 0T851 1-435-227-11 TRANSFORMER, INVERTER < VIBRATOR > X601 1-760-496-21 VIBRATOR, LITHIUM NIOBATE (4MHz) A-7074-716-A RL-58 BOARD, COMPLETE ********************** (Ref. No. 2,000 Series) < CONNECTOR > CN051 1-770-620-21 PIN, CONNECTOR 3P < SWITCH > S051 1-771-184-11 SWITCH, TACTILE (SHUTTER)

ACCESSORIES

************ 0 1-555-074-21 CORD, POWER (AUS) 0 1-569-008-21 ADAPTOR, CONVERSION 2P (E, BR) 0 1-769-608-11 CORD, POWER (AEP, UK, E, HK, BR) 0 1-770-019-11 ADAPTOR, CONVERSION PLUG 3P (UK, HK) 0 1-790-107-22 CORD, POWER (US, CND) 3-066-544-11 MANUAL, INSTRUCTION (ENGLISH) (EXCEPT BR) 3-066-544-21 MANUAL, INSTRUCTION (FRENCH, GERMAN) (CND, AEP) 3-066-544-31 MANUAL, INSTRUCTION (SPANISH, PORTUGUESE) (AEP, E) 3-066-544-41 MANUAL, INSTRUCTION (ITALIAN, DUTCH) (AEP) The components identified by Les composants identifiés par une mark 0 or dotted line with marque 0 sont critiques pour la mark 0 are critical for safety. sécurité. Replace only with part num- Ne les remplacer que par une pièce 66-1-11 E ber specified. portant le numéro spécifié., FOR CAMERA COLOR REPRODUCTION ADJUSTMENT (REFERENCE) Take a copy of CAMERA COLOR REPRODUCTION FRAME with a clear sheet for use. R-Y

MG R YL

B-Y

B G CY

✄ MVC-FD75 – 125 – ✄,

MVC-FD75 Sony Corporation

2001A0500-1 9-929-866-11 Personal VIDEO Products Company © 2001. 1 – 126 – Published by Safety & Service Engineering Dept.,

Reverse 992986611.pdf Revision History

S.M. Rev. Ver. Date History Contents issued 1.0 2001.01 Official Release — —]
15

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