JVC GY-DV500U DV500E Service Training Manual

SERVICE MANUAL

GY-DV500U/GY-DV500E

DV CAMCORDER

No. 60125November 1999COPYRIGHT © 1999 VICTOR COMPANY OF JAPAN, LTD.

Printed in Japan(S)

VICTOR COMPANY OF JAPAN, LIMITED

100% recycled paper

The photo shows the GY-DV500 DV camcorder with an optional lens and viewfinder.

GY

-DV

500U/D

V500E

No

. 601

25

TABLE OF CONTENTS

Section Title Page Section Title Page

Important Safety Precautions

SECTION 4 CHARTS AND DIAGRAMS

4.1 INDEX TO PAGES OF MAIN BOARDS AND CIRCUIT BOARDLOCATION ................................................................................ 4-3

4.2 OVERALL WIRING DIAGRAM (1/2) ......................................... 4-4• OVERALL WIRING DIAGRAM (2/2) ......................................... 4-5

4.3 ISB/ISG/ISR SCHEMATIC DIAGRAM 11 /12 /13 .............. 4-64.4 ISB/ISG/ISR CIRCUIT BOARD .................................................. 4-74.5 TG(Timing Generator) SCHEMATIC DIAGRAM 14 ................. 4-84.6 TG CIRCUIT BOARD ................................................................ 4-94.7 CAM1(CAMera 1) SCHEMATIC DIAGRAM (1/2) 15 ............ 4-10

• CAM1 SCHEMATIC DIAGRAM (2/2) 15 ............................... 4-114.8 CAM1 CIRCUIT BOARD ......................................................... 4-124.9 CAM2(CAMera 2) SCHEMATIC DIAGRAM (1/3) 16 ............ 4-14

• CAM2 SCHEMATIC DIAGRAM (2/3) 16 ............................... 4-15• CAM2 SCHEMATIC DIAGRAM (3/3)16 ................................ 4-16

4.10 CAM2 CIRCUIT BOARD........................................................ 4-174.11 PS(Power Supply)1,

PS2 SCHEMATIC DIAGRAM (1/2) 17/18 ......................... 4-19• PS1, PS2 SCHEMATIC DIAGRAM (2/2) 17/18 ................. 4-20

4.12 PS1, PS2 CIRCUIT BOARD ................................................... 4-214.13 IF(InterFace), ROM(Read Only Memory)

SCHEMATIC DIAGRAM 21 /19 ....................................... 4-224.14 IF, ROM CIRCUIT BOARD ..................................................... 4-234.15 SWRU, JOG SCHEMATIC DIAGRAM 22 /20 ................... 4-244.16 SWF, SWRM, SWRB, SWPW, MIC, BNC SCHEMATIC DIA-

GRAM 23 /24 /25 /26 /27 /28 ................................ 4-254.17 SWRU, JOG, SWF, SWRM, SWRB, SWPW, MIC, BNC, FL

CIRCUIT BOARD ................................................................... 4-264.18 VIDEO/SYSCON SCHEMATIC DIAGRAM (1/2) 31 ............. 4-27

• VIDEO/SYSCON SCHEMATIC DIAGRAM (2/2) 31 ............. 4-284.19 VIDEO/SYSCON CIRCUIT BOARD........................................ 4-294.20 AUDIO/LCD SCHEMATIC DIAGRAM (1/2) 32 .................... 4-30

• AUDIO/LCD SCHEMATIC DIAGRAM (2/2) 32 .................... 4-314.21 AUDIO/LCD CIRCUIT BOARD .............................................. 4-32

• AUDIO/LCD CIRCUIT BOARD (FOR SERIAL No.0732 AND AFTER OF GY-DV500U,0840AND AFTER OF GY-500E) ........................................................................... 4-32-2

4.22 REG(REGulater) SCHEMATIC DIAGRAM 33 ..................... 4-344.23 REG CIRCUIT BOARD........................................................... 4-354.24 MOTHER SCHEMATIC DIAGRAM 34 ............................... 4-364.25 MOTHER, AU JUNK CIRCUIT BOARD ................................. 4-374.26 AU JUNK SCHEMATIC DIAGRAM 39 ............................... 4-384.27 PWR JUNC, OPE(OPEration) SCHEMATIC DIAGRAM 41 /35 ..... 4-394.28 CONNECT, REMOTE, XLR, EAR.J, SEN1, SENS2 SCHEMATIC

DIAGRAM 42 /38 /40 /43 /36 /37 .......................... 4-404.29 OPE, PWR JUNC, CONNECT, REMOTE, XLR, EAR.J, SEN1,

SENS2 CIRCUIT BOARD ....................................................... 4-414.30 VTR UNIT OVERALL WIRING DIAGRAM ............................. 4-424.31 DV MAIN SCHEMATIC DIAGRAM (1/7) 10 ........................ 4-43

• DV MAIN SCHEMATIC DIAGRAM (2/7) 10 ........................ 4-44• DV MAIN SCHEMATIC DIAGRAM (3/7) 10 ........................ 4-45• DV MAIN SCHEMATIC DIAGRAM (4/7) 10 ........................ 4-46• DV MAIN SCHEMATIC DIAGRAM (5/7) 10 ........................ 4-47• DV MAIN SCHEMATIC DIAGRAM (6/7) 10 ........................ 4-48• DV MAIN SCHEMATIC DIAGRAM (7/7) 10 ........................ 4-49

4.32 DV MAIN CIRCUIT BOARD................................................... 4-50• DV MAIN CIRCUIT BOARD (FOR SERIAL No.0332

AND AFTER OF GY-DV500U, 0545 AND AFTER OF GY-DV500E) ............................................................................ 4-50-2

4.33 PR & MDA SCHEMATIC DIAGRAM (1/2) 01 ...................... 4-52• PR(Pre Rec) & MDA(Motor Drive Amp.) SCHEMATIC DIAGRAM

(2/2) 01 ............................................................................... 4-53

INSTRUCTIONS

SECTION 1 SERVICE CAUTIONS AND DISASSEMBLY

1.1 RESETTING THE POWER CIRCUIT PROTECTION BREAKER ........... 1-11.2 REMOVING THE EXTERIOR COVERS ..................................... 1-11.3 LAYOUTS OF THE MAJOR BOARDS ..................................... 1-21.4 REMOVING THE OPTICAL BLOCK ASSEMBLY AND THE

OPTICAL FILTER ASSEMBLY .................................................. 1-31.5 REMOVING MAJOR BOARDS FROM THE CAMERA ............. 1-41.6 REMOVING THE MAJOR BOARDS FROM THE VCR ............. 1-61.7 DISASSEMBLY OF THE VCR UNIT .......................................... 1-81.8 TAPE EJECTION IN CASE OF EMERGENCY ......................... 1-101.9 CAUTION FOR REPLACING THE DV MAIN BOARD AND VIDEO

SYSCON BOARD ................................................................... 1-121.10 FUNCTIONS OF INTERNAL SWITCHES ............................... 1-131.11 MODES REQUIRED IN SERVICING ...................................... 1-141.12 CHANGING THE COLOR MATRIX SETTING ........................ 1-161.13 SERVICE MENU .................................................................... 1-181.14 ALARM DETECTION METHODS .......................................... 1-221.15 BATTERY POWER DETECTION METHODS ......................... 1-231.16 WARNING CODES ................................................................ 1-231.17 ANALYSIS OF BLOCK NOISE (SYMPTOMS: POOR VIDEO,

ABSCNCE OF AUDIO) .......................................................... 1-26

SECTION 2 MECHANISM ADJUSTMENTS

2.1 BERORE ADJUSTMENTS ........................................................ 2-12.2 BASICS OF MECHANISM DISASSAMBLY/ASSEMBLY .......... 2-22.3 MECHANISM TIMIN CHART ................................................... 2-42.4 MAINTENANCE AND INSPECTION OF MAJOR PARTS .......... 2-52.5 PERIODICAL MAINTENANCE .................................................. 2-82.6 DISASSEMBLY/ASSEMBLY OF MECHANISM ASSEMBLY ..... 2-92.7 REPLACEMENT OF MAJOR PARTS ...................................... 2-122.8 CONFIRMATION AND ADJUSTMENT OF MECHANISM PHASES ........ 2-272.9 MECHANISM DISASSEMBLY/ASSEMBLY SHEET ................ 2-282.10 DISASSEMBLY PROCEDURE LIST ....................................... 2-302.11 TORQUE ADJUSTMENTS .................................................... 2-312.12 COMPATIBILITY ADJUSTMENT ........................................... 2-32

SECTION 3 ELECTRICAL ADJUSTMENTS

3.1 FLOWCHART OF ELECTRICAL ADJUSTMENTS .................... 3-13.2 FUNCTIONS REQUIRED FOR ADJUSTMENTS, SETUP .......... 3-23.3 STANDARD SETUP .................................................................. 3-33.4 ADJUSTMENT MENU .............................................................. 3-33.5 CAMERA ADJUSTMENTS ....................................................... 3-53.6 VCR ADJUSTMENTS ............................................................. 3-113.7 DV ADJUSTMENTS (USING ADJUSTMENT SOFTWARE) .... 3-14

SECTION 7 PACKING

7.1 PACKING ASSEMBLY M7 ....................................................... 7-17.2 FACTORY SETTING OF SWITCH AND VR ............................... 7-2

SECTION 8 DESCRIPTION OF NEW CIRCUITRY

8.1 OUTLINE OF DV ....................................................................... 8-18.2 MAJOR SIGNAL PROCESSING OPERATIONS OF DV ............ 8-68.3 VIDEO/AUDIO SIGNAL PROCESSING IN RECORDING

CIRCUITRY ............................................................................... 8-78.4 VIDEO/AUDIO SIGNAL PROCESSING IN PLAYBACK CIRCUITRY .. 8-188.5 CAPSTAN SERVO ................................................................... 8-208.6 DRUM SERVO ........................................................................ 8-22

SECTION 9 CIRCUIT DESCRIPTION

9.1 CAMERA HEAD CIRCUITRY .................................................... 9-19.2 DVC CIRCUIT ........................................................................... 9-49.3 MECHANISM OPERATION DESCRIPTION ............................ 9-209.4 EXPLANATION OF NEW FUNCTIONS ................................... 9-26

SECTION 5 EXPLODED VIEW AND PARTS LIST

5.1 CAMERA HEAD ASSEMBLY M1 ............................................ 5-35.2 CABINET ASSEMBLY M2 ....................................................... 5-45.3 RIGHT SIDE COVER ASSEMBLY M3 ...................................... 5-75.4 CHASSIS ASSEMBLY M4 ....................................................... 5-85.5 VTR UNIT ASSEMBLY M5 .................................................... 5-115.6 MECHANISM ASSEMBLY M6 .............................................. 5-12

SECTION 6 ELECTRICAL PARTS LIST

6.1 PR & MDA BOARD ASSEMBLY PARTS LIST 01 ................... 6-26.2 DCDC BOARD ASSEMBLY PARTS LIST 02 .......................... 6-36.3 ROM BOARD ASSEMBLY PARTS LIST 03 ............................ 6-46.4 CONN. BOARD ASSEMBLY PARTS LIST 04 ......................... 6-46.5 DV MAIN BOARD ASSEMBLY PARTS LIST 10 ..................... 6-56.6 ISB BOARD ASSEMBLY PARTS LIST 11 ............................ 6-116.7 ISG BOARD ASSEMBLY PARTS LIST 12 ............................. 6-116.8 ISR BOARD ASSEMBLY PARTS LISTT 13 ........................... 6-126.9 TG BOARD ASSEMBLY PARTS LISTT 14 ........................... 6-126.10 CAM1 BOARD ASSEMBLY PARTS LIST 15 ....................... 6-136.11 CAM2 BOARD ASSEMBLY PARTS LIST 16 ....................... 6-176.12 PS1 BOARD ASSEMBLY PARTS LIST 17 ........................... 6-216.13 PS2 BOARD ASSEMBLY PARTS LIST 18 ........................... 6-216.14 ROM BOARD ASSEMBLY PARTS LIST 19 ......................... 6-226.15 JOG BOARD ASSEMBLY PARTS LIST 20 .......................... 6-226.16 IF BOARD ASSEMBLY PARTS LIST 21 .............................. 6-236.17 SWRU BOARD ASSEMBLY PARTS LIST 22 ...................... 6-236.18 SWF BOARD ASSEMBLY PARTS LIST 23 ......................... 6-246.19 SWRM BOARD ASSEMBLY PARTS LIST 24 ...................... 6-246.20 SWRB BOARD ASSEMBLY PARTS LIST 25 ....................... 6-246.21 SWPW BOARD ASSEMBLY PARTS LIST 26 ...................... 6-246.22 MIC BOARD ASSEMBLY PARTS LIST 27 .......................... 6-256.23 BNC BOARD ASSEMBLY PARTS LIST 28 .......................... 6-256.24 VIDEO/SYSCON BOARD ASSEMBLY PARTS LIST 31 ....... 6-256.25 AUDIO/LCD BOARD ASSEMBLY PARTS LIST 32 .............. 6-286.26 REG BOARD ASSEMBLY PARTS LIST 33 .......................... 6-316.27 MOTHER BOARD ASSEMBLY PARTS LIST 34 .................. 6-336.28 OPE BOARD ASSEMBLY PARTS LIST 35 .......................... 6-336.29 SEN1 BOARD ASSEMBLY PARTS LIST 36 ........................ 6-336.30 SENS2 BOARD ASSEMBLY PARTS LIST 37 ...................... 6-336.31 REMOTE BOARD ASSEMBLY PARTS LIST 38 .................. 6-336.32 AU JUNK BOARD ASSEMBLY PARTS LIST 39 .................. 6-346.33 XLR BOARD ASSEMBLY PARTS LIST 40 ........................... 6-356.34 PWR JUNC BOARD ASSEMBLY PARTS LIST 41 ............... 6-356.35 CONNECT BOARD ASSEMBLY PARTS LIST 42 ................ 6-356.36 EAR.J BOARD ASSEMBLY PARTS LIST 43 ....................... 6-35

4.34 PR & MDA CIRCUIT BOARD ................................................ 4-544.35 ROM, CONN. SCHEMATIC DIAGRAM 03 /04 ................. 4-554.36 DCDC SCHEMATIC DIAGRAM 02 ..................................... 4-564.37 DCDC, ROM, CONN. CIRCUIT BOARD ................................ 4-574.38 IS &TG BLOCK DIAGRAM (G channel) ................................. 4-584.39 CAM1 BOARD BLOCK DIAGRAM ........................................ 4-594.40 CAM2 BOARD BLOCK DIAGRAM ........................................ 4-604.41 IF, SWF, SWRU BLOCK DAIGRAM ....................................... 4-614.42 SYSCON BLOCK DIAGRAM ................................................. 4-624.43 LCD BLOCK DIAGRAM......................................................... 4-634.44 VIDEO BLOCK DIAGRAM ..................................................... 4-644.45 REG BLOCK DIAGRAM ........................................................ 4-644.46 AUDIO BLOCK DIAGRAM .................................................... 4-654.47 DV BLOCK DIAGRAM 1/2 ..................................................... 4-66

• DV BLOCK DIAGRAM 2/2 ..................................................... 4-674.48 IC BLOCK DIAGRAM ........................................................... 4-68

Important Safety Precautions

Prior to shipment from the factory, JVC products are strictly inspected to conform with the recognized product safety and electrical codesof the countries in which they are to be sold. However, in order to maintain such compliance, it is equally important to implement thefollowing precautions when a set is being serviced.

Fig.1

1. Locations requiring special caution are denoted by labels andinscriptions on the cabinet, chassis and certain parts of theproduct. When performing service, be sure to read and com-ply with these and other cautionary notices appearing in theoperation and service manuals.

2. Parts identified by the symbol and shaded ( ) parts arecritical for safety.Replace only with specified part numbers.Note: Parts in this category also include those specified to com-

ply with X-ray emission standards for products usingcathode ray tubes and those specified for compliancewith various regulations regarding spurious radiationemission.

3. Fuse replacement caution notice.Caution for continued protection against fire hazard.Replace only with same type and rated fuse(s) as specified.

4. Use specified internal wiring. Note especially:1) Wires covered with PVC tubing2) Double insulated wires3) High voltage leads

5. Use specified insulating materials for hazardous live parts.Note especially:1) Insulation Tape 3) Spacers 5) Barrier2) PVC tubing 4) Insulation sheets for transistors

6. When replacing AC primary side components (transformers,power cords, noise blocking capacitors, etc.) wrap ends ofwires securely about the terminals before soldering.

Power cord

Fig.2

10. Also check areas surrounding repaired locations.

11. Products using cathode ray tubes (CRTs)In regard to such products, the cathode ray tubes themselves,the high voltage circuits, and related circuits are specified forcompliance with recognized codes pertaining to X-ray emission.Consequently, when servicing these products, replace the cath-ode ray tubes and other parts with only the specified parts.Under no circumstances attempt to modify these circuits.Unauthorized modification can increase the high voltage valueand cause X-ray emission from the cathode ray tube.

12. Crimp type wire connectorIn such cases as when replacing the power transformer in setswhere the connections between the power cord and powertransformer primary lead wires are performed using crimp typeconnectors, if replacing the connectors is unavoidable, in or-der to prevent safety hazards, perform carefully and preciselyaccording to the following steps.

1) Connector part number : E03830-0012) Required tool : Connector crimping tool of the proper type

which will not damage insulated parts.3) Replacement procedure

(1) Remove the old connector by cutting the wires at a pointclose to the connector.Important : Do not reuse a connector (discard it).

Fig.7

cut close to connector

Fig.3

(2) Strip about 15 mm of the insulation from the ends ofthe wires. If the wires are stranded, twist the strands toavoid frayed conductors.

15 mm

Fig.4

(3) Align the lengths of the wires to be connected. Insertthe wires fully into the connector.

Connector

Metal sleeve

Fig.5

(4) As shown in Fig.6, use the crimping tool to crimp themetal sleeve at the center position. Be sure to crimp fullyto the complete closure of the tool.

1

Precautions during Servicing

7. Observe that wires do not contact heat producing parts(heatsinks, oxide metal film resistors, fusible resistors, etc.)

8. Check that replaced wires do not contact sharp edged orpointed parts.

9. When a power cord has been replaced, check that 10-15 kg offorce in any direction will not loosen it.

1.252.0

5.5

Crimping tool

Fig.6

(5) Check the four points noted in Fig.7.

Not easily pulled free Crimped at approx. centerof metal sleeve

Conductors extended

Wire insulation recessedmore than 4 mm

Safety Check after ServicingExamine the area surrounding the repaired location for damage or deterioration. Observe that screws, parts and wires have beenreturned to original positions, Afterwards, perform the following tests and confirm the specified values in order to verify compli-ance with safety standards.

1. Insulation resistance testConfirm the specified insulation resistance or greater between power cord plug prongs andexternally exposed parts of the set (RF terminals, antenna terminals, video and audio inputand output terminals, microphone jacks, earphone jacks, etc.). See table 1 below.

2. Dielectric strength testConfirm specified dielectric strength or greater between power cord plug prongs and exposedaccessible parts of the set (RF terminals, antenna terminals, video and audio input and outputterminals, microphone jacks, earphone jacks, etc.). See table 1 below.

3. Clearance distanceWhen replacing primary circuit components, confirm specified clearance distance (d), (d’) be-tween soldered terminals, and between terminals and surrounding metallic parts. See table 1below.

4. Leakage current testConfirm specified or lower leakage current between earth ground/power cord plug prongsand externally exposed accessible parts (RF terminals, antenna terminals, video and audioinput and output terminals, microphone jacks, earphone jacks, etc.).Measuring Method : (Power ON)Insert load Z between earth ground/power cord plug prongs and externally exposed accessi-ble parts. Use an AC voltmeter to measure across both terminals of load Z. See figure 9 andfollowing table 2.

5. Grounding (Class 1 model only)Confirm specified or lower grounding impedance between earth pin in AC inlet and externally exposed accessible parts (Video in,Video out, Audio in, Audio out or Fixing screw etc.).Measuring Method:Connect milli ohm meter between earth pin in AC inlet and exposed accessible parts. See figure 10 and grounding specifications.

d'

d

ChassisPower cord,primary wire

Region

USA & Canada

Europe & Australia

Grounding Impedance (Z)

Z 0.1 ohm

Z 0.5 ohm

≤≤

AC inlet

Earth pin

Exposed accessible part

Milli ohm meter

Grounding Specifications

Fig. 10

a b

c

V

AExternallyexposedaccessible part

Z

Fig. 9

Fig. 8

Clearance Distance (d), (d')

d, d' 3 mm

d, d' 4 mm

d, d' 3.2 mm–

Dielectric Strength

AC 1 kV 1 minute

AC 1.5 kV 1 miute

AC 900 V 1 minute

AC Line Voltage

100 V

100 to 240 V

110 to 130 V

110 to 130 V

200 to 240 V

Japan R 1 MΩ/500 V DC

USA & Canada

Europe & Australia R 10 MΩ/500 V DC

Region Insulation Resistance (R)

≤

≤

≤≤≤

≤≤≤

AC 3 kV 1 minute(Class 2)

AC 1.5 kV 1 minute(Class 1)

d 4 mmd' 8 mm (Power cord)d' 6 mm (Primary wire)

Table 1 Specifications for each region

a, b, cLeakage Current (i)AC Line Voltage

100 V

110 to 130 V

110 to 130 V

220 to 240 V

Japan

USA & Canada

i 1 mA rms Exposed accessible parts

Exposed accessible parts

Antenna earth terminals

Other terminals

i 0.5 mA rms

i 0.7 mA peaki 2 mA dc

i 0.7 mA peaki 2 mA dc

Europe & Australia

Region Load Z

≤

≤

≤≤≤≤

1 kΩ

2 kΩ

1.5 kΩ

0.15 µF

50 kΩ

Table 2 Leakage current specifications for each region

Note: These tables are unofficial and for reference only. Be sure to confirm the precise values for your particular country and locality.

2

1-1

2

2

44

SECTION 1

SERVICE CAUTIONS AND DISASSEMBLY

1.1 RESETTING THE POWER CIRCUIT PROTECTION

BREAKER

This unit employs a power circuit protection breaker in place ofa fuse to disconnect from the main power and to thus protectthe internal circuitry from damage caused by any current over-load. The power can be re-connected by resetting the breaker.

Fig. 1-1 Position of the Circuit Breaker

(1) Switch OFF the POWER of this unit as well as that of anyequipment supplying power to it.

(2) The circuit breaker Å is located below the VCR at the rear.Press the BREAK button to re-connect the power line.

To prevent any complications resulting from the fail-ure, check the cause of the shutdown and repair itbefore resetting the circuit breaker.

1.2 REMOVING THE EXTERIOR COVERS

1.2.1 Removing the Left Side Cover

(1) Open the cassette door by pressing the EJECT switch.(2) Loosen the 4 screws 1 and remove the left side cover.

Fig. 1-2-1 Removing the Left Side Cover

1.2.2 Opening the Right Side Cover

(1) Loosen the 4 screws 2.

Fig. 1-2-3 Removing the Bottom Cover

1.2.3 Removing the Bottom Cover

(1) Remove the left side cover (see section 1.2.1).(2) Remove the 2 screws 3 and remove the shoulder pads (see

Fig. 1-1).(3) Remove the 4 screws 4 and remove the bottom cover.

Fig. 1-2-2(2) View of the Opened Right Side Cover

(2) Flip open the right side cover toward the front.

Fig. 1-2-2(1) Opening the Right Side Cover

3Å

1

1

Cassette coverEJECT switch

1-2

1.3 LAYOUTS OF THE MAJOR BOARDS

On the side of the left-hand side cover

VCR section

On the side of the bottom cover

On the side of the right-hand side cover

10DV MAIN 03ROM

16CAM2

27MIC 28BNC

38REMOTE

37SENS2

17PS1, 18PS2 19ROM 15CAM1

36SEN1

04CONN.

34MOTHER

31VIDEO/SYSCON

32AUDIO/LCD

35OPE 22SWRU 20JOG

24SWRM

25SWPB 26SWPW

21 IF

23SWF

14TG

11 ISB 12 ISG 13 ISR

42CONNECT

40XLR

43EAR.J 41PWR JUNC 39AU JUNK

01PR & MDA 02DCDC

1-3

1.4 REMOVING THE OPTICAL BLOCK ASSEMBLY AND

THE OPTICAL FILTER ASSEMBLY

(1) Remove the right side cover (see section 1.2.2).(2) Remove the screw 1 retaining the ROM board.

Fig. 1-4-4(1)

Fig. 1-4-4(2)

(7) Remove the 4 screws 4 and remove the TG board and CPboard mounting brackets.

(8) Flip open CN11, CN12 and CN13 and unplug the flexiblecables.

Fig. 1-4-3

(5) Loosen the 2 screws 3 and remove the connector Å.(6) Remove the optical filter assembly in the direction of the

arrow.

(4) Pull out the optical block assembly and the front panel to-gether toward the front.

Fig. 1-4-2

(3) Remove the 4 screws 2.

Fig. 1-4-1

CAUTION

Be careful not to damage the boards or the FC cables.

1 ROM board S.S.F. ID labelfor VIDEO/SYSCON board

2 2

3Å

44

CN11CN12

CN13

1-4

(9) Remove the 4 screws 5and separate the optical block as-sembly from the front panel.

1.5 REMOVING MAJOR BOARDS FROM THE

CAMERA

1.5.1 Removing the CP and TG Boards.

(1) Remove the right side cover (see section 1.2.2).(2) Remove the 4 screws retaining the front panel (see section

1.4.3).(3) Pull out the optical block assembly and the front panel to-

gether toward the front.(4) Remove the screw retaining the ROM board. Now the ROM

board can be removed.(5) Remove the 4 screws 1. Now the CP board can be removed.

Fig. 1-4-6 Optical Block Assembly for Servicing

Fig. 1-4-5

Fig. 1-5-1(2)

(6) Remove the CP board, then remove the 4 stud screws 4.Now the TG board is disengaged from the stay.

(7) Unplug the flexible cables connecting the IS boards and theTG board. Now the TG board can be removed.

Fig. 1-5-1(1)

CAUTION

When mounting the optical block assembly in the camera,take care of the positioning of the wire assembly. A malfunc-tion may occur if a wire is somehow caught up.

5 5

NOTES

• The CCDs are bonded precisely to the prism. In case oftrouble with a CCD, it is not possible to replace an indi-vidual CCD, but the entire optical block assembly shouldbe replaced.

• The optical block assembly supplied as a service part(SCM1049-N0A (NTSC)/P0A (PAL)) is not equipped with theDR board. When replacing the optical block assembly, at-tach the surrounding PC boards to the new assembly be-fore mounting it in the camera.

1

1

4

1-5

1.5.2 Removing the CAM1 Board

(1) Remove the left side cover (section 1.2.1).(2) Remove the 6 screws 2.(3) The DV MAIN board on the VCR side and the CAM2 board

are connected by a board-to-board connector. Open the twoboards together in the direction of the arrow.

Fig. 1-5-4

1.5.4 Removing the PS 1 & 2 board.

(1) Open the right side cover (see section 1.2.2).(2) Remove the 2 screws 3 retaining the PS 1 & 2 board.(3) Pull out the PS 1 & 2 board, along the guide rail in the direc-

tion of the arrow.

Fig. 1-5-3

1.5.3 Removing the SW Boards

(1) Open the right side cover (see section 1.2.2).(2) The JOG, SWRU, SWRM, SWPW and SWRB boards are

attached on the right side cover. Remove them as required.

Fig. 1-5-2(2)

(4) The opened boards can be secured by fitting them into thenotches on the VCR side frame as shown in the figure.

Fig. 1-5-2(1)

2

23

The operation of the VCR can be confirmed when the

circuit boards are tilted.

When the circuit boards are tilted, take care that the

electrical circuitry on each board is not short-circuited

by the BNC connector located below the board.

1-6

4

4

5

Å

ı

Fig. 1-6-2(2)

1.6 REMOVING THE MAJOR BOARDS FROM THE VCR

1.6.1 Removing the VIDEO/SYSCON Board and Audio/

LCD Board

(1) Open the right side cover (see section 1.2.2).The VIDEO/SYSCON board is clamped to the right side cover.

(2) Remove the 2 screws 1. Now the VIDEO/SYSCON boardcan be removed.

Fig. 1-6-1(1)

(3) After removing the VIDEO/SYSCON board, remove the 6screws 2 and 2 studs 3. Now the AUDIO/LCD board canbe removed.

Fig. 1-6-1(2)

1.6.2 Removing the VCR Unit

(1) Remove the left side cover (see section 1.2.1).(2) Remove the 4 screws 4.(3) Pull out the VCR unit gently in the direction of the arrow. As

the VCR unit is connected to the CAM2 board with a board-to-board connector, disconnect it gently.

Fig. 1-6-3(1)

1.6.3 Removing the DV MAIN Board

(1) Remove the VCR unit (see section 1.6.2).(2) Remove the 4 screws 5.(3) Now the DV MAIN board can be removed.

Fig. 1-6-2(1)

(4) Remove the EJECT switch wire Å and power supply wireı.

1

3

2

2

1-7

2

1

Rear cover

(4) After removing the DV MAIN board, leave it standing up byfitting it into the notches on the unit frame, as shown in thefigure.

Fig. 1-6-3(2)

(3) Unplug the power cable that supplies power from the bat-tery case to the main unit, from the connector Ç.

Fig. 1-6-5(2)

(3) Remove the 2 screws 4 and remove the REG board.

Fig. 1-6-5(1)

1.6.5 Removing the REG Board

(1) Remove the battery case (see section 1.6.4).(2) Remove the 2 screws 3 and remove the panel.

1.6.4 Removing the Battery Case

(1) Remove the 2 screws 1 and remove the rear cover of thebattery case.

(2) Remove the 4 screws 2 and remove the battery case fromthe main unit.

Fig. 1-6-4(1)

Fig. 1-6-4(2)

Fig. 1-6-4(3)

Ç

3

4

1-8

4

3

Fig. 1-7-2(1)

1.7 DISASSEMBLY OF THE VCR UNIT

The mechanism unit incorporated in the unit can be disassem-bled as described below. Note that the following descriptiondeals only with the method of removing the mechanism unitfrom the VCR unit.

1.7.1 Disassembling the Front Part of the Unit

(1) Remove the VCR unit from the camera (see section 1.6.2).(2) Remove the DV MAIN board (see section 1.6.3).(3) Remove the 2 screws 1 and remove the stay on the front

cover. The cover of the cassette insertion slot will come outtogether with it.

Fig. 1-7-1(1)

(4) Remove the 2 screws 2 and remove the front stay.

Fig. 1-7-1(2)

1.7.2 Disassembling the Rear Part of the Unit

(1) Remove the 2 screws 3 and remove the rear side stay.

Fig. 1-7-2(2)

(2) Remove the 2 screws 4 and remove the active head cleaner.During this operation, be careful not to apply excessive forceto the wire that is connected between the active head cleanerassembly and CN609 on the PR & MDA boards.

(3) Remove the 2 screws 5 and remove the side stays.

Fig. 1-7-2(3)

1

2

5

1-9

Å

8

6

7

(4) Insulators (blue) are attached to the retaining screws. Besure to attach the insulators when re-assembling the sidestays.

(5) The side stays to both sides are attached in the same way.Remove the 2 screws 6 and remove the side stays.

Fig. 1-7-4(2)

(2) When the remove the mechanism unit completely, also re-move the connector Å from the rear.

Fig. 1-7-4(1)

1.7.4 Removing the Mechanism Unit

(1) Remove the 3 screws 8. This allows the mechanism unitto be removed from the stays When it is required to disas-semble the mechanism unit itself, see SECTION 2.

Fig. 1-7-3

1.7.3 Removing the Cassette Housing Assembly

(1) Remove the 2 screws 6 and remove the cassette housingassembly.

Fig. 1-7-2(5)

(6) After removing the rear stays and side stays (left and right),remove the 2 screws 7 then remove the PR & MDA board.When removing the PR & MDA boards, be careful not todamage the wires and FFCs connecting them to the deckassembly housing motor and power supply board.

Fig. 1-7-2(4)

6

1-10

1.8 TAPE EJECTION IN CASE OF EMERGENCY

When the cassette tape cannot be ejected normally, take it outby the following methods.

1.8.1 Tape Ejection Using Forced Eject Mode

(Short-circuiting of Internal TP)

GY-DV500 is provided with a compulsory eject mode for use incase the button operations are not accepted due to a malfunc-tion of the mechanism control circuitry. When an attemptedoperation of the operation buttons is not accepted, set the com-pulsory eject mode as described below before removing thetape.

Fig. 1-8-2(2)

(4) If the tape slackens, take it up by rotating the shaft at thetop of the capstan motor in the direction of the arrow usinga sharp-tipped object (chip IC replacement tool, etc.).

(5) Repeat steps (3) and (4) above until the tape is taken upcompletely.

(6) After confirming that the tape has been taken up completely,rotate the gear of the cassette housing assembly in the di-rection of the arrow in order to eject the cassette tape.

Fig. 1-8-2(1)

(3) Apply 3 V DC to the electrodes at the top of the loadingmotor (red wire to + pole, brown wire to - pole) to unloadthe tape. Unload it little by little because it could be dam-aged or contaminated by grease if the pole base assembliesare returned completely beyond the position of the tape.

1.8.2 Tape Ejection without Using the Forced Eject Mode

Activate the loading motor by applying DC voltage to its twoterminals.

Fig. 1-8-1

(1) Remove the left side cover (see section 1.2.1).(2) With the power supply on, short-circuit TP107 on the DV

MAIN board with the GND using a wire, etc.(3) Forced ejection is activated to eject the tape.

CAUTION

This mode is effective only when the electrical and me-chanical systems of the mechanism unit are normal and atape ejection operation is not accepted due to a problemof the electrical system.

If there is a problem in the mechanical system of the unit,this mode may be ineffective. If compulsory ejection is per-formed in such a case, the tape could be damaged or cut.

TP107DV MAIN board

Red wire

Brown wire

Shaft Gear

(1) Turn off the power supply to the unit.(2) Flip open the DV MAIN board to expose the mechanism

(see section 1.6.3).

NOTE

When a forced ejection is not accepted because the loadedcassette tape cannot be ejected due to a fault in the electri-cal system or because of some problem in the mechanismunit, eject the tape by using the following procedure.However, as this mode drives the loading motor, it assumesthat the mechanical system is operating normally.

1-11

1.8.3 Manual Tape Ejection

If the loading motor cannot be run by the procedure outlined insection 1.8.2, the mechanism may be defective. When the load-ing motor is defective, remove the tape as described below.

(1) Remove the mechanism unit from the main unit. See sec-tion 1.6.2 for the removal method.

(2) After removing the mechanism unit, remove the DV MAINboard (see section 1.6.3).

(3) Remove the 2 screws and remove the active head cleanerassembly (see section 1.7.2).

(4) Remove the side cover to easy operation (see section 1.7.2).(5) Remove the 2 screws and remove the rear panel from the

side of the PR & MDA board.Carefully unplug the wires so as not to damage them, thenremove the PR & MDA board (see section 1.7.2).

(10) The pole base assemblies should be unloaded little by lit-tle. If they are returned completely beyond the position ofthe tape, the tape may slacken and become damaged orstained by grease.

(11) If the tape slackens, take it up by rotating the shaft on thetop of the capstan motor in the direction of the arrow us-ing a sharp-tipped object (chip IC replacement tool, etc.)(see section 1.8.2-(4)).

(12) Repeat steps (9) and (10) above until the tape is taken upcompletely.

(13) After confirming that the tape has been taken up com-pletely, tighten the cassette housing retaining screws whichwere loosened in step (6).

(14) Attach and clamp the cassette housing again, then rotatethe gear of the housing assembly in the direction of thearrow to eject the cassette tape in the same way as insection 1.8.2-(6).

Fig. 1-8-3(4)

Fig. 1-8-3(3)

(9) Unload the pole base assemblies by rotating the gear shownin the figure in the direction of the arrow.

Fig. 1-8-3(2)

(7) Loosen the 2 screws 2 so that the cassette housing is sepa-rated freely.

(8) Remove the 4 screws 3 and remove the loading motor.

Fig. 1-8-3(1)

(6) Remove the 2 screws 1 and remove the active head cleanerstay.

1

2

3

3Loading motor

Gear

1-12

1.9 CAUTION FOR REPLACING THE DV MAIN BOARD

AND VIDEO SYSCON BOARD

When the DV MAIN board or VIDEO SYSCON board has beenreplaced for servicing, be sure to enforce the following items.

1.9.1 DV MAIN Board

[A] About the ID Management Label

Each VCR unit carries an ID label in compliance with IEEE1394showing the unique ID assigned on the production line.(See the following figure for the label position.)When replacing the DV MAIN board, remove the ID manage-ment label that was provided originally with the unit from thedefective board and attach it in the same position to the newboard.

[B] Load EEPROM Internal Data

The EEPROM provided with the new board for replacementcontains no data, while the EEPROM originally provided withthe VCR unit contains the IEEE1394 ID data as well as all adjust-ment data written in the assembly and adjustments written onthe production line. This means that the new VCR unit will notfunction if the new EEPROM is used in the condition in which itis delivered.When replacing the DV MAIN board, load the internal data ofthe EEPROM on the original board to the EEPROM of the newboard.

(1) How to use original EEPROM to new DV MAIN board.Remove the EEPROM from the original DV MAIN board,and attach the chip to the new board.

(2) How to write data from the original board to the newEEPROMHow to load all parameters in EEPROM on original board tonew EEPROM by using the adjustment software.(For details, see section 3.7.13)

(3) In case of original EEPROM on the original DV MAIN boardwas broken.Load the default data before making adjustments with theadjustment software, write the data in the new EEPROM,then make adjustments by following the adjustment proce-dures. (See section 3.7.12 for details.)And then, input the ID number on the original board to newEEPROM by using the adjustment software. (See section3.7.13 for details.)

Fig. 1-9-1

DV MAIN board

ID Label

1.9.2 VIDEO SYSCON Board

[A] Transporting of IC407 (EEPROM) Data

When the SSF function is used, the cassette number recordedon tape (see section 9.4.1) has the model ID code appended toit. The model ID code is written in IC407 (EEPROM). However,as the new EEPROM mounted on the new replacement circuitboard does not have the ID code written into it, the SSF func-tion cannot work normally (the model ID code should be writtenin IC407 for the correct operation of the SSF function).Nevertheless, no means is provided for transporting the modelID code from the original EEPROM to the new EEPROM. There-fore, it is recommended to remove the original IC from the origi-nal board and mount it on the new board.

[B] ID Management Label

An ID management label is attached to the camera head. Forthe position, see Fig. 1-4-1.

1-13

1.10 FUNCTIONS OF INTERNAL SWITCHES

1.10.1 DIP Switch S901 on ROM Board

Symbol ShipmentFunctionNameNo.

1 Adjustment mode Adjustment mode ON/OFF OFF2 Check mode Check mode ON/OFF OFF3 Not used OFF4 Character mixing TEST OUT character display ON/OFF OFF5 Not used OFF6 Color matrix adjustment Color matrix adjustment mode ON/OFF OFF7 Setup (NTSC model only) ON (0% setup)/ OFF (7.5% setup) OFF8 Function setting Initial setting of camera functions OFF

S901

Table 1-10-1

(1) Adjustment mode (S901-1)Set S901-1 to ON to initiate the camera electrical adjust-ment mode.For details, see section 3.3.

(2) Check mode (S901-2)Set S901-2 to ON to display the camera’s check mode screenon the viewfinder.In this mode, the auto white balance and auto iris controldata in the microcomputer controlling the camera can beviewed and checked. (This mode is not used for adjustmentsbut is intended to simply allow the checking of control val-ues and their functions.)

R GAIN LEVEL/B GAIN LEVELShow the levels of the R and B channel white balance con-trol signals.These values are variable between 0 and 255.The R value tends to decrease and the B value tends toincrease under low color temperatures (reddish lighting), andthe R value tends to increase and the B value tends to de-crease under high color temperatures (bluish lighting).

PEAKShows the peak hold value of the video signal in a verticalscanning period.

APLShows the average picture signal level.

NAM ERRORShows the NAM value used in the auto iris control.The value is variable between -127 and 128.The value approaches 0 when the auto iris control approachesthe optimum level.

GAINShows the electrical gain value set with the GAIN switch onthe right-hand side of the unit.Shows “ALC” in the full auto-shooting mode.

Fig. 1-10-1(1)

R-G/B-GShows the data on the R/G/B signals input to the CPU foruse in white balance control in terms of R-G and B-G. Thevalues are variable between -127 and 128.These values approach 0 if the white balance circuit is acti-vated by capturing a non-color image such as a gray scale.

– CHECK MODE –

R-GB-GR GAIN LEVELB GAIN LEVELPEAKAPLNAM ERRORGAIN ∗dB

: ∗: ∗: ∗: ∗: ∗: ∗: ∗: ∗

1-14

(3) Character mixing (S901-4)Set S901-4 to ON to superimpose the same characters asthose displayed on the viewfinder-screen in the output sig-nal from the TEST OUT terminal. This is a convenient facilityfor adjustment because the adjustment menu and screencan be displayed on an external monitor.

(4) Color-matrix adjustment (S901-6)Set S901-6 to ON to view the color-matrix adjustment-modescreen on theViewfinder-screen.This mode makes it possible to set color-matrix parametersin details (see section 1.12).

* Note that the color-matrix adjustment is not a normal adjust-ment item. It is usually not required to adjust the color-ma-trix because this has been set to the optimum level beforeshipment.

* In case a color-matrix adjustment becomes necessary be-cause of a user’s request, it should be performed in accord-ance with the description in section 1.2.

(5) Setup (S901-7): NTSC onlySet S901-7 to ON or OFF to select whether or not the out-put signal setup is included in the TEST OUT and MONITOROUT terminals output.(Note that the signal recorded onto tape is not affected bythe position of this switch. The signal is always recordedwithout the setup information.)As changing the position of this switch does not alter thesignal level, it is not necessary to re-adjust the signal record-ing according to the position of this switch. This switch iseffective only on the camera video output. With the videosignal obtained by playing back a previously recorded tape,whether the setup is included or not can be selected withthe item “SETUP” in the Service Menu (see section 1.13.3).

(6) Function setting (S901-8)This switch is used to set the functions shown in Table 1-9-1(2).This switch is usually used to switch the defaults of the do-mestic and export-oriented models.

Table 1-9-1(2)

* The L/M/H positions of GAIN can also be set individuallyusing the [CAMERA MENU].

1.11 MODES REQUIRED IN SERVICING

1.11.1 Camera Service Menu

The CAMERA SERVICE MENU can be displayed on the view-finder screen by setting the [POWER] switch to ON while tiltingthe AUTO WHITE/ACCU FOCUS switch upward (toward AUTOWHITE).

Fig. 1-11-1

Select an item by turning the SHUTTER dial, and push the SHUT-TER dial to select or set it.Cxxxx V∗.∗∗This item displays the version number of the camer control soft-ware (IC902 on ROM board). * The Character “U” after the Version No. indicates that U

version software is running. When “E” is shown here, thesoftware for E version is running.

— — — CAMERA SERVICE MENU — — —

Cxxxx V∗. ∗∗ 

CCD CORRECT : ON

ERROR DETECT START

WHITE CLIP LEVEL : 108%

END

CAUTION

Also be sure to reset the system after replacing IC902(ROM) on the ROM board. See section 1.11.2, “SystemReset”.

CCD CORRECT (ON/OFF)This item sets whether white blemish due to CCD is to be cor-rected or not.

To correct : ONDo not correct : OFF

The factory shipment condition is ON. Even when OFF is se-lected with this menu, it is temporary and the correction status(ON) is recalled automatically the next time the power is turnedon.

0 dB6 dB9 dB

60.1 to 251.30 to + 18 dB

LMH

GAIN

V. SCANALC GAIN

0 dB 9 dB18 dB

60.1 to 2067.00 to + 18 dB

OFF ON

NTSC

S901-8

0 dB 9 dB18 dB

50.1 to 2053.60 to + 18 dB

Do not care

PALFunctionNOTE

• To correct any white blemish interference produced afterthe factory shipment, perform the “ERROR DETECTSTART” described on the next page. Be sure to warm upthe camera by leaving it on for more than 2 hours beforeperforming the “ERROR DETECT START”.

• The white blemish correction is performed with the lensiris closed or with the lens cap on. In normal use, the lensiris closes automatically when performing a white blemishcorrection. However in a case when the lens cable is dis-connected and the lens iris cannot be closed, “ERROR DE-TECT FAIL” will be displayed on the viewfinder and thewhite blemish correction cannot be executed. Before per-forming the white blemish correction again, be sure to firstclose the lens.

1-15

90%

90%

5%

5%

Correction target area

The following types of white blemish can be corrected.(1) White blemish correction target area

Fig. 1-11-2

(2) Details of correctable white blemishes White blemishes at luminance levels of 30 mV or more

can be corrected. The total number of white blemishesthat can be corrected is up to 7 for the R, G and B signals.

Even when there are 2 white blemishes on a single scan-ning line, both of them can be corrected. (However, whenthey are adjacent, the results of a correction appear infe-rior to those of the results of the correction of a singlewhite blemish. These results are due to the correction char-acteristics themselves.)

WHITE CLIPThe white clip level of the through-camera composite outputsignal that is output at TEST OUT can be selected from the fol-lowing 2 values:

100% or 108% (shipment setting)

1.11.3 Resetting DSP Data

While pushing the [SHUTTER] dial and [STATUS] switch tiltedtoward “SKIN AREA”, press the [POWER] switch to ON. Thisresets the internal setting data (color matrix setting data) in theDSP to the default setting.

ERROR DETECT STARTWhen this item is selected and the SHUTTER dial is pushed,the white blemish detection for correcting CCD white blemishstarts automatically.The following messages are displayed on the viewfinder screenduring detection.

ERROR DETECT EXECUTING↓

ERROR DETECT END

After the completion of error detection, the camera is automati-cally set to the white blemish correction ON condition.

1.11.2 System Reset

While pushing the [SHUTTER] dial, press the [POWER] switchto ON. This resets the system and initializes the menu set itemsto their default values.The following description shows items that are initialized to thedefaults by a system reset and those that are not.

1.11.4 Displaying Auto Iris Area Gate

While holding the [AUTO WHITE/ACCU FOCUS] switch down(toward ACCU FOCUS), press the [POWER] switch to ON. Thearea gate for the auto iris control is displayed in the viewfinderscreen.

Fig. 1-11-3

Switch Operation Result

[AUTO WHITE] + [POWER] ON Service menu display

[SHUTTER] + [POWER] ON System reset

[STATUS] + [SHUTTER] + [POWER] ON DSP data reset

[ACCU FOCUS] + [POWER] ON Area gate display

1.11.5 List of Servicing Switches (Camera)

The following table that shows the switches described above isfor use in servicing. Use this table as a reference in servicing.

Table 1-11-4

1-16

1.11.6 EEPROM in Camera

IC905 on the CAM1 board is an electrically erasable/rewritableEEPROM. It stores the following data.

Camera adjustment data set in the adjustment mode. Settings in [CAMERA MENU]. White blemish position coordinate data for use in white blem-

ish correction. Auto white balance control data (A/B). Camera status at the last power OFF (positions of non-lock

type switches, etc.).

Therefore, when retention of the above data becomes impossi-ble due to a failure in the EEPROM or over the 1 million times ofrewrite count, the EEPROM should be replaced with a new oneand the data should then be re-set in it.

1.12 CHANGING THE COLOR MATRIX SETTING

Fig. 1-12-1

1.12.1 Setting the Color Matrix

PreparationThe color matrix setting requires a color chart for use as areference for color reproduction and a vectorscope. As wedo not specify a color chart for this purpose, discuss thematter with any user requesting a custom setting and use acolor chart to be agreed by the user.

AdjustmentThe color-matrix circuit can be set using menus displayedon the screen (the viewfinder-screen or the test out screen).

NOTE

The color reproduction properties of the color-matrix circuitbuilt into the DSP can be re-set by varying the values of 9parameters. However, as these parameters have been set atthe factory to the default values based on detailed studies ofthe product development process, it is usually not recom-mended to alter them. Note that this adjustment is not anormal electrical adjustment item.Should a re-adjustment of the color matrix (a color reproduc-ibility change) be required as a result of a user request, etc.,this should be performed only after studying and understand-ing the details of the following instructions.

MODE : M3 M2 M1 DATAR (R-G) :R (R-B) :G+(G-R) : XG–(G-R) : XG+(G-B) : XG–(G-B) : XB+(B-G) : XB–(B-G) : XB (B-R) :

Use the following procedure.(1) Remove the right side cover (see section 1.3.1)(2) Set DIP switch S901-6 on the ROM board to ON to display

the color-matrix setting menu on both the viewfinder andtestout screens.

(3) Move the cursor (mark of “ ”) to the desired item by usingthe [SHUTTER] dial.

(4) When the cursor set on the desired item, pushing the [SHUT-TER] dial causes the selected item to blink. (This is the sta-tus of the value adjustment.)

(5) When the adjustment value is blinking, rotating the [SHUT-TER] dial varies the adjustment value. The available adjust-ment values are “M3”, “M2”, “M1” which is 0 or 1, and“DATA” which is between 0 and 31.

1.11.7 Tripod base

See the KA-510U servide manual NO. 60065 for servicing.The tripod is not exactly same as KA-510U. See note for thedifference.

Note

These 1/4 and 3/8 inch fixing tripod holes are not

povided for the KA-510U.

Accessory

KA-510U

Front

Front

Rear

2–1/4"

Not provided

Rear

2–3/8"

Not provided

4–3/8"4–1/4"

Not provided

1-17

M30 : Active1 : Inactive

M20 : Active1 : Inactive

M10 : Increase1 : Decrease

DATA0 – 31MODE

R±(R-G)

R±(R-B)

G+(G-R)

G–(G-R)

G+(G-B)

G–(G-B)

B+(B-G)

B–(B-G)

B±(B-R)

M3

M3

M2

M2

M2

M2

M3

M3

M3

M3

M3

M2

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

0 or 1

Active Area Graph display

(6) Set DIP switch S901-6 on the ROM board to OFF. The color-matrix setting menu is canceled and the normal screen ap-pears again.

NOTE

If the [STATUS] switch is pressed during the value of someadjustment item is blinking, all of the data being set is resetto the default values.

1.12.2 Details of Setting Items

As described above, the color matrix setting consists of varying12 items using 9 parameters. The following table shows a com-parison of the setting items.

(Example)This diagram represents the display area of the vectorscope.

NOTE

The model diagrams in the table may be interpreted as fol-lows.

Table 1-12-1

Inactive area:

Represents a vector area that is not affected by a currently selected setting item.

M1 = 0: Increasing trendM1 = 1: Decreasing trend

Color signal increase/decrease trend:

The increase or decrease trend can be selected with M1.

Active area:

Represents the vector area that is affected by a currently selected setting item.(The area can be selected with M3 or M2 depending on the item.)

NOTE

The settings are stored and reflected every time a value inan item is changed. The setting values marked “X” do notneed to be changed.

1-18

1.13 SERVICE MENU

1.13.1 Operation Method

When the [MENU] button is pressed, the setup menu appears on the viewfinder screen to allow the user to perform setups. (For thecontents of the setup menu, refer to page 66 of the instruction manual). Then, with the setup menu displayed, press the [MENU]button while holding down the [LOG] button to display the service menu.To change a menu setting value, press the [DATA SET] button. The viewfinder screen and counter display show the blinking “DATASET” indicators and the set returns to normal mode.To return to the setup menu, turn the power off and then on again.

1.13.2 Configuration of the Service Menu (Displayed on the Viewfinder Screen)

O T : O T H E R SE H : E R R O R H I S T O R YR V : R O M V E R S I O NH M : H O U R M E T E R7 0 0 : D I P S W5 0 0 : O N S C R E E N4 0 0 : T I M E C O D E3 0 0 : S Y S T E M2 0 0 : A U D I O1 0 0 : V I D E O0 0 0 : S E R V O / S Y S T E M↓

↓↓↓↓↓↓↓↓↓↓↓

GROUP

GROUP

SERECT

SERECT

SERECT

SERECT

→

→

↓

↓

↓

↓

↓

ITEM ( H O U R M E T E R )

D H : D R U M H O U R M E T E R0 0 0 0 0 0 H

T H : T O T A L D R M H O U R M E T E R0 0 0 0 0 0 H

P H : P O W E R H O U R M E T E R0 0 0 0 0 0 H

C H : C A P H O U R M E T E R0 0 0 0 0 0 H

L D : L O A D I N G T I M E S0 0 0 0 0 0

↓

↓

↓

( H O U R M E T E R )

E J : E J E C T T I M E S0 0 0 0 0 0

H C : H E A D C R E A N I N G T I M E S0 0 0 0 0 0

F R : F W D / R E V T I M E S0 0 0 0 0 0

( R O M V E R S I O N )

S Y : S Y S C O N R O M V E R .0 1

L T : L C D / T C R O M V E R .0 1

U S : U N I T S Y S R O M V E R .0 1

U M : U N I T M S D R O M V E R .0 1

↓

↓

↓

↓

ITEM→

←

( E R R O R H I S T O R Y )

1 : E R R 7 1 0 1C A P M O T O R F A I L U R E




↓

↓

↓

↓

↓

ITEM

→

( O T H E R S )

M S : M E M O R Y S W S A V EO F F

M L : M E M O R Y S W L O A DO F F

M I : M E M O R Y S W I N I T I A L I Z EO F F

E C : E R R O R H I S T O R Y C L E A RO F F

L C D : L C D / K E Y T E S TO F F

↓

↓

↓

↓

↓

( O T H E R S )

D H C : D R U M H . M . C L E A RO F F

C H C : C A P H . M . C L E A RO F F

L T C : L O A D I N G T I M E S C L E A RO F F

E T C : E J E C T T I M E S C L E A RO F F

H T C : H . C L E A N T I M E S C L E A RO F F

( O T H E R S )

F T C : F W D / R E V T I M E S C L E A RO F F

SELECT

MENU

( M E C H A N I S M S W I N F O . )

( M O D E ) R E CR E C P A U S E

( E D C D ) H L H( H O U S ) O F F ( C A S S ) O N( S A F E ) O F F( B G I N ) O F F ( E N D ) O N( R E M ) O O H O O M( P . T M ) O O O O O O H( T E M P ) 6 0 ~

HOUR METER

ROM VERSION

ERROR HISTORY

OTHERSThe set-up menu contents can be saved, loaded or initialized and the hour meter data can be reset.See section 1.13.8. After switching an item from OFF to ON using [SELECT], execute the selected item by pressing [DATA SET]. It is not possible to execute more than one item simultaneously. When an item is switched ON, other items are switched OFF.

Initial display of the service menu.Select an item with the [GROUP] button and press the [SELECT] button to go to a lower hierarchical level.

Hour meter data can be checked.See section 1.13.4.

ROM version data can be checked.See section 1.13.5 .

Error history of the 4 most recent errors can be checked.Pressing the [SELECT] switch in this screen displays the mechanism information of each error.

See sections 1.13.5 and 1.13.6.

1-19

1.13.3 Contents of Service Menu

000SERVO/SYSTEM

ONOFF

LOCALIEEE1394RS232C

10.5 – 11.0V(0.1V step)

10.5 – 12.0 V(0.1V step)

BLINKOFFON

BLINKON

OFF

LOCAL

10.5V

11.0V

BLINK

BLINK

002: OPERATION LOCK

050: REMOTE SELECT

080: BATTERY SHUTDOWN V

081: BATTERY ALARM V

082: BACK TALLY MODE

083: FRONT TALLY MODE

Operation lock setting.

User setup menu (Refer to page 68 of the instruction manual.)

Battery empty detection voltage setting.

Battery alarm detection voltage setting.


Select the front tarryBLINK: BlinkingON: Lighting

002 01

00

R SL Lc

23

BE 105

BA 110

RT D BL

OFF

ON

083 03

01

U

U

U

Group Item Settings Counter Display Factory Default Description

U

100VIDEO

OFFON

CAMERAIEEE1394

ON

CAMERA

125: SET UP(Only U-ver.)

126: INPUT SELECT Input signal selectionUser setup menu (Only U-ver.) (Refer to page 68 of the instruction manual.)

125 00

01

VD c

U

200AUDIO

OFFCH1CH2

CH1&CH232K48K

DISABLEENABLE

OFF

48K

ENABLE

244: LOW CUT

245: SAMPLING RATE

246: FRONT VOLUME ENABLE


User setup menu (Refer to page 68 of the instruction manual.)User setup menu (Refer to page 68 of the instruction manual.)

LcTF OF

01

02

ON

S PL 48

32

FRVL OF

ON

300SYSTEM

ENABLEDISABLE

OFFON

ENABLEDISABLE

3MIN30MIN

12V13.2V14.4VOFF

CUE MODEMARK MODE

ENABLE

OFF

ENABLE

30MIN

12V

CUE MODE

303: WARNING DISABLE

305: REC REPEAT

306: LONG PAUSE DISABLE

307: LONG PAUSE TIME

396: BATTERY TYPE

398: SSF MODE

ENABLE: Warning enabled.DISABLE: Warning disabled.OFF: REC Full Repeat enabled.ON: REC Full Repeat disabled.ENABLE: Long pause is canceled after spec-ified period of time (set using Menu 307).DISABLE: Long pause is not canceled.User setup menu (Refer to page 68 of the instruction manual.)User setup menu (Refer to page 68 of the instruction manual.)


303 00

01

305 00

01

306 00

01

LGPT 03

30

BATT 12

13

14

55F OF

cU

R

500ON SCREEN

JAPANUSA

EUROPE

TCCLOCK

U-ver: USAE-ver: EUROPE

TC

515: CALENDAR SELECT

516: DISPLAY SELECT

Calendar display format selection.JAPAN: Year/Month/DayUSA: Month/Day/YearEUROPE: Day/Month/YearUser setup menu (Refer to page 68 of the instruction manual.)

515 00

01

02

DSP Tc

cL

400TIME CODE

NOT SPECIFIED

ISO CHARUNASSIGNED1

UNASSIGNED2

DROPNON DROP

NOT SPECIFIED

DROP

406: USERS BIT GROUP

416: NON DROP/DROP(Only U-ver.)

User bit’s binary group flag setting


40B 00

01

02

03

TcG DF

NF

Select the setup of MONITOR OUT in playback mode.ON: Setup added. OFF: No setup.

1-20

1.13.4 HOUR METER

This screen allows the data of hour meters to be checked.

Item

DRUM HOUR METER

TOTAL DRM HOUR METER

POWER HOUR METER

CAP HOUR METER

LOADING TIMES

EJECT TIMES

HEAD CLEANING TIMES

FWD/REV TIMES

Counter Display

DH∗∗∗∗∗∗TH∗∗∗∗∗∗

PH∗∗∗∗∗∗

cH∗∗∗∗∗∗LH∗∗∗∗∗∗EJ∗∗∗∗∗∗Hc∗∗∗∗∗∗FR∗∗∗∗∗∗

Description

Displays the drum rotation hours.

Displays the total drum rotation hours. This data can-

not be reset.

Displays the power ON hours. This data cannot be re-

set.

Displays the capstan motor rotation hours.

Displays the loading count.

Display the ejection count.

Displays the active cleaning head operation count.

Displays the forward or reverse operation count

Max. Display Hours/Count

999999H

999999H

999999H

999999H

999999TIMES

999999TIMES

999999TIMES

999999TIMES

1.13.5 ROM VERSION

This screen allows the ROM versions to be checked.

Item Counter Display Board Name Symbol No. RemarkSYSCON ROM VER. Video/Sys-con board IC403 PLSL1063-V1-**LCD/TC ROM VER. Audio/LCD board IC601 UPD78P058BT***UNIT SYS ROM VER. DV MAIN board IC101 MN102F1617HL-**UNIT MSD ROM VER. DV MAIN board IC401 M31020EAVP-***

ROM board IC1 M27W102-80N6-**

∗∗∗∗∗∗ are the figures of time (or count).

∗∗ is the version number.

SY ∗∗LT ∗∗US ∗∗U ∗∗

U

(The ROM version No. of PAL beginswith “80”.)

(The MSD CPU program is written inIC401 and ROM board IC1.)

700DIP SW

OFFON

OFFON

OFFON

OFF

OFF

All OFF

700: DIP SWITCH-0

701: DIP SWITCH-1

702: DIP SWITCH-2

715: DIP SWITCH-15

Operate LED display switchingOFF:Blinks in amber when the cassette

cover is opened.ON: Extinguished when the cassette

cover is opened.OFF:Other operations than ejection are

inhibited when the cassette cover is opened.

ON: Operations are valid even when the cassette cover is opened.

Switching inhibited. Must be set to OFF.

700 00

01

701 00

01

702 00

01

715 00

01

Group Item Settings Counter Display Factory Default Description

Operations are not accepted when the cassette cover is open. Therefore, DIP switch-0 and -1 can be used in checking the operation when the side cover is open or in the compatibility adjustment.

to to

1-21

1.13.6 ERROR HISTORY

This screen allows the history of the 4 most recent errors to be checked.

( E R R O R H I S T O R Y )





Error code

Latest warning

Warning before the latest

Warning before the above

Warning before the above

Error message

1.13.7 MECHANISM SW INFO

This screen allows the mechanism mode at each error to be displayed.

Item

(MODE)

(ECOD)

(HOUS)

(CASS)

(SAFE)

(BGIN)

(END)

(REM)

(P.TM)

(TEMP)

Description

Mode at the moment of VCR er-ror & mode immediately before.

Rotary encoder output.

Cassette housing switch status.

Cassette switch status.

REC safety switch status.

Tape begin sensor status.

Tape end sensor status.

Remaining tape at the moment oferror.

POWER HOUR METER data atthe moment of error.

Set’s internal temperature at themoment of error

Input Pin

—

DV MAIN boardIC401 Pin 44 → CAM0 Pin 45 → CAM1 Pin 46 → CAM2

DV MAIN boardIC401 pin 27





—

—


Display

PLAY, STILL, REC, REC PAUSE, NO CASSETTE, EJECT,STNDBY-ON, FF, REW, SHTL, STILL, SHTL X10, SHTL X-10

Shows H or L according to the mechanism position.Rotary encoder terminal(ENCD) H L H

CAM0 CAM1 CAM2

ON : Housing inserted/ejected statusOFF : Housing operating status

ON : Cassette tape insertedOFF : Cassette tape not inserted or during insertion /ejec-

tion

ON : Non-recordable tape inserted, cassette tape not in-serted or during insertion /ejection

OFF : Recordable tape inserted

ON : Tape leader section detectedOFF : Magnetic tape section detected

ON : Tape leader section detectedOFF : Magnetic tape section detected

Remaining tape time

POWER HOUR METER time

UNDER : under 10°CNORMAL : 10 to 40°CHIGH : 40 to 60°COVER : over 60°C

( M E C H A N I S M S W I N F O . )

( M O D E ) R E CR E C P A U S E

( E D C D ) H L H( H O U S ) O F F ( C A S S ) O N( S A F E ) O F F( B G I N ) O F F ( E N D ) O N( R E M ) O O H O O M( P . T M ) O O O O O O H( T E M P ) H I G H

→

Display

1-22

Item

MEMORY SW SAVE

MEMORY SW LOAD

MEMORY SW INITIALIZE

ERROR HISTORY CLEAR

LCD/KEY TEST

DRUM H.M. CLEAR

CAP H.M. CLEAR

LOADING TIMES CLEAR

EJECT TIMES CLEAR

H. CLEAN TIMES CLEAR

FWD/REV TIMES CLEAR

Status After Detection

Same mode ismaintained.



•Battery nearly empty:Operation is main-tained.

• Battery empty: Opera-tion stops automati-cally.

1.14 ALARM DETECTION METHODS

The unit incorporates the alarm display function, which notifies the user of the VCR status, remaining tape and remaining batterypower. For the contents of the alarm display, see page 86 of the instruction manual. This section describes the methods applied foralarm detection.

Item

Servo lock error“SERVO”(Counter display)

Head clog“RF”(Counter display)

Dew condensation“DEW”

Lithium battery exhaustion“Li”

Remaining battery

Description

When the drum rotation phase is deviated by more than10 or when the capstan motor rotation speed is devi-ated by more than 20%.The alarm sound is generatedin REC mode. The alarm display only appears in thePLAY mode.When external sync input signal SYNC IN is disturbed,“ ” (sync inhbit) is displayed.

Measures the error rate during playback or quick re-view with RET button and displays “HEAD CLOG”when the viterbi is ON and exceeds 2000 (total).

When dew warning occurs with the VCR.

When the built-in lithium battery for the timecodebackup is exhausted or not installed.

When the remaining battery power is low.

Detection Method

See error code “0201 DEW” in 1.16.

Decrease in thebattery voltagebelow 2.6 V.

Detects the voltageat system controllerpin 62.

The MSD microcomputerdetects the drum rotationphase from the phase errorbetween the TSR and HIDsignals. The capstan motorrotation speed is detectedbased on the CAP FG signal.

1.13.8 OTHERS

This screen allows the setup menu to be saved temporarily, loaded or initialized.To execute an item, switch it from “OFF” (displayed as “00”) to “ON” (displayed as “01”) with the [SELECT] button, then press the[DATA SET] button (excluding hour meter). As switching an item “ON” switches other items automatically “OFF”, it is not possible toexecute more than one item simultaneously.

S 00

L 00

00

Ec 00

LcD 00

DHc 00

cHc 00

L7c 00

E7c 00

H7c 00

F7c 00

U

U

Counter Display Factory Default

OFF

OFF

OFF

OFF

OFF

OFF

OFF

OFF

OFF

OFF

OFF

Description

Saves the data set with the setup menu.

Loads the data set for the setup menu.

Initializes the setup menu data to the factory defaults.

Clears the error history.

Checks the lighting of operation key LEDs.After changing the setting to “START”, press the [DATA SET] but-ton. The viewfinder screen and LCD display show “PERFORM”and the key test mode is set. In this mode pressing an operationkey, lights the corresponding LED but does not cause the VCR tooperate. To exit from the key test mode, change the setting to“STOP” and press the [DATA SET] button. The viewfinder screenand LCD shows “PERFORM” and the normal mode is reset.

Resets the drum hour meter.

Resets the capstan hour meter.

Resets the loading count.

Resets the ejection count.

Resets the head cleaning count.

Resets the forward/reverse operation count

U

—

1-23

1.15 BATTERY POWER DETECTION METHODS

The battery voltage is detected to display the remaining poweron the LCD. Since the detection voltage is variable dependingon the 12 V/13.2 V/14.4 V battery types, correct settings shouldbe made with the setup menu.

Detection voltage and remaining battery display

12V

12.6V –

12.0V – 12.5V

11.8V – 11.9V

11.6V – 11.7V

11.3V – 11.5V

11.2V

11.0V – 11.1V

10.6V – 10.9V

– 10.5V

E FBATT

E FBATT

E FBATT

E FBATT

E FBATT

E FBATT

E FBATT

E FBATT

E FBATT

13.2V

3.9V –

13.2V – 13.8V

13.0V – 13.1V

12.8V – 12.9V

12.4V – 12.7V

12.3V

11.6V – 12.2V

10.6V – 11.5V

– 10.5V

14.4V

15.1V –

14.4V – 15.0V

14.2V – 14.3V

13.9V – 14.1V

13.6V – 13.8V

13.4V – 13.5V

12.6V – 13.3V

10.6V – 12.5V

– 10.5V

DisplayBattery Type

(“F” off)

(“F” off)

(“F” off)

(“F” off)

(“F” off)

(“F” off, “BATT” blinking)(Segment blinking)

(“F” off, “BATT” blinking)(Segment blinking)

(“F” off, “BATT” blinking)(Segments off)

1.16 WARNING CODES

If a problem occurs during operation, the unit diagnoses thecause by itself, provides a warning through the “warning LED”and “buzzer”, and displays the diagnosis results in the counterdisplay.

[LCD counter]Error display appears. (∗∗∗∗ is the error code.)ERR-∗∗∗∗[Warning LED]The red LED blinks (at about 4 Hz).

[Buzzer]Generates a continuous tone. However, the tone is intermittent(at about 4 Hz) in case of dew alarm.

0201 Condensation•VCR operation

In save mode:· If a cassette is loaded, enters the AUTO OFF mode.· If a cassette is not loaded, the warning LED lightsand the SAVE mode is maintained.

In other modes:· If a cassette is loaded, the AUTO OFF mode is ini-tiated.

· If a cassette is not loaded, the warning LED lightsand the drum rotates. An operation is accepted af-ter any condensation has evaporated.

•Cause : Condensation of moisture.•Detection method : Check the voltage at the pin 124 of

IC401.DEW ON : 2.4 V or moreDEW OFF : 1.8 V or less

0601 WRONG CASSETTE TYPE•VCR operation : The AUTO OFF mode is initiated.•Cause : A wrong type of cassette for the

computer is inserted.•Detection method : An error in the cassette type is de-

tected (at pins 117, 118 and 119 ofIC401) after the insertion is com-pleted.

3200 LOADING INCOMPLETE•VCR operation : The AUTO OFF mode is initiated.•Cause : Malfunction of the loading motor,

rotary encoder or mechanism.•Detection method : The rotary encoder output is

checked (at pins 44, 45 and 46 ofIC401) and an error is detectedwhen loading has not completed in4 seconds.

1-24

5607 TU/SUP REEL STOPPED DUE TO A CUT TAPE•VCR operation : The AUTO OFF mode is initiated.•Cause : Tape is cut due to abnormal tension

or a mechanism defect or becausethe cassette was inserted while thetape was slack.

•Detection method : When the FGs from the SUP andTU reels were not detected at all (atpins 59 and 60 of IC401) during load-ing.

5702 TAPE END DETECTED AFTER SHORT REW•VCR operation : The AUTO OFF mode is initiated.•Cause : Tape is cut after the end of the tape

has been detected. The mode tran-sition of the mechanism failed.

•Detection method : When the tape end sensor output(at pin 125 of IC401) remains Loweven after 3 seconds have elapsedsince the start of the short REWoperation following the tape enddetection in play mode, etc.

5802 TAPE BEGIN DETECTED AFTER SHORT FF•VCR operation : The AUTO OFF mode is initiated.•Cause : Tape is cut after the end of the tape

has been detected. The mode tran-sition of the mechanism failed.

•Detection method : When the tape begin sensor output(at pin 126 of IC401) remains Loweven after 3 seconds have elapsedsince the start of the short FF op-eration following the tape beginningdetection in the reverse searchmode, etc.

7001 DRUM MOTOR ROTATION ERROR•VCR operation : The AUTO OFF mode is initiated.•Cause : Malfunction of the drum motor,

MDA circuit or FG detector circuit.•Detection method : When the drum FG has not been

detected (at pin 54 of IC401) formore than 4 seconds in the drumdriving mode.

7101 CAPSTAN MOTOR ROTATION ERROR•VCR operation : The AUTO OFF mode is initiated.•Cause : Malfunction of the capstan motor,

MDA circuit or FG detector circuit.•Detection method : When the drum FG has not been

detected (at pin 55 of IC401) formore than 2 seconds in the capstandriving mode.

3300 UNLOADING INCOMPLETE•VCR operation : After the first unloading error, the

cassette is loaded temporarily, thenunloading is retried. If the retry failsagain, the AUTO OFF mode is initi-ated.

•Cause : Malfunction of the loading motor,rotary encoder or mechanism.

•Detection method : The rotary encoder output ischecked (at pins 44, 45 and 46 ofIC401) and an error is detectedwhen unloading has not completedin 4 seconds.

4000 INTAKE INCOMPLETE•VCR operation : The AUTO OFF mode is initiated.•Cause : Malfunction of the cassette hous-

ing switch or cassette housing mo-tor.

•Detection method : When completion of insertion is notdetected (at pin 27 of IC401) within3 seconds after the start.

4100 EJECTION INCOMPLETE•VCR operation : The AUTO OFF mode is initiated.•Cause : Malfunction of the cassette hous-


•Detection method : When completion of ejection is notdetected (at pin 27 of IC401) within3 seconds after the start.

5605 TAPE BEGIN/END DETECTED SIMULTANEOUSLY•VCR operation : The AUTO OFF mode is initiated.•Cause : Tape is cut due to abnormal tension


•Detection method : When both the tape begin sensor(at pin 126 of IC401) and the tapeend sensor (at pin 125 of IC401)output Low level together when acassette is loaded.

5606 SP REEL RUNAWAY DURING UNLOADING•VCR operation : The AUTO OFF mode is initiated.•Cause : Tape is cut due to abnormal tension


•Detection method : When the detected TU reel rotationcount (at pin 59 of IC401) exceeds30 revs. per sec. (1200 pulses) dur-ing unloading.

1-25

7202 SUP TAPE SLACK DURING CAPSTAN DRIVE•VCR operation : The AUTO OFF mode is initiated.•Cause : The timing belt is cut or one of the

reel control parts in the mechanismis malfunctioning.

•Detection method : When the SUP reel FG has not beendetected (at pin 60 of IC401) during5 rotations of the capstan in the cap-stan driving mode.

7302 TU TAPE SLACK DURING CAPSTAN DRIVE•VCR operation : The AUTO OFF mode is initiated.•Cause : The timing belt is cut or one of the

reel control parts in the mechanismis malfunctioning.

•Detection method : When the TU reel FG has not beendetected (at pin 59 of IC401) during5 rotations of the capstan in the cap-stan driving mode.

7305 NO TU REEL ROTATION DURING UNLOADING•VCR operation : The AUTO OFF mode is initiated.•Cause : Malfunction of the cassette hous-


•Detection method : When the TU reel rotation detected(at pin 59 of IC401) during unload-ing is less than 1/2 turn.

1-26

1.17 ANALYSIS OF BLOCK NOISE (SYMPTOMS: POOR VIDEO, ABSCNCE OF AUDIO)

1.17.1 Analysis Flow Chart

In case of trouble, perform troubleshooting using the following flow chart.

Start

Play the recordedtape to measure error rate.

Is the error rate less than 500(one channel) and less than 1000(total)

when the viterbi is on?

Play the recordedtape to measure error rate.

Is the error rate less than 500(one channel) and less than 1000 (total)

when the viterbi is on?

Played tape defect.

Check RF envelope.•Is waveform flat? •Are SUP and TU pulses continuous?

Play cleaning tape.

Drum or PB CD defect.

Play moving image. Is monitored video OK?

Digital processing circuitry (DV Main) defect.

End

OK

OK

Yes

Yes

NG

NG

NG

NG

NG

Dirt deposited on the head.Play cleaning tape.OK

The dirt deposited on the drum.↓

Clean the drum.2.12.5 Compatibility Adjustment.

1-27

• No audio output.

Symptom Observed on Monitor Screen RF envelope Audio, etc. Possible Causes

Block noise on left SUP dropout • No audio output.• Intermittent audio.

Block noise on right TU dropout • Timecode not counted.

One CH frozen No video output from one CH • Audio is output.

Frozen Low level

• Supply guide roller adjustment failure.

• Dirt on supply side of drum.

• Take-up guide roller adjustment failure.

• Dirt on take-up side of drum.

• Dirt attached on one CH of head.

• Drum assembly defective.• PR & MDA board IC901

defective.

• Dirt attached on head.• Drum assembly defective.

1.17.2 RF Envelope Check

The RF envelope condition can be confirmed to a certain degree in the Error Rate adjustment display.

RF envelope condition

2-2

SECTION 2

MECHANICAL ADJUSTMENTS

2.1 BERORE ADJUSTMENTS

2.1.1 Precautions

1) Be sure to apply a screw securing torque when attaching apart.The securing torque should be 0.04 N-m (0.4 kgf-cm) unlessotherwise specified.

2) Always unplug the power cord of the set before attaching,removing or soldering a part.

3) When unplugging a connector, do not pull the wire but graspthe connector body.

4) Do not make an adjustment or rotate a potentiometer blindlywhile the source of trouble is not identified.

5) Before adjusting electrical circuitry, be sure to wait for morethan 10 minutes after turning the power on.

2.1.2 Measuring instruments required for adjustments

Condition

Calibrated instrument with measuringbandwidth of 100 MHz or more.

Microsoft Windows 95 environment,Pentium 133 MHz or better,Memory 16 MB or more.

Instrument

Oscilloscope

Personal computer

2.1.3 Equioment required for adjustments

Table 2-1-1

Table 2-1-2

1

2

3

6

5

7

8

9

11

4 10

MC-1 (NTSC)MC-2 (PAL)

YTU94088 YTU94088-003

YTU94085

YTU94121A

PTU94018A

PLSC1304

QAM0099-001

PTS40844-2

YTU94150A

DV 12 V power supply(AA-G10/AA-P250)

Alignment tape

DV tape

Cassette torque meter

Guide screwdriver

Torque screwdriver

Slit washer attaching tool

Connector cable

PC cable

Adjustment software

Chip IC replacement tool

Output capability of 3 A or more.

Replaceable bit(long type)

For usein self-recording/playback. (60 ME)

2-1

2-3

2.2 BASICS OF MECHANISM DISASSAMBLY/ASSEMBLY

2.2.1 Assembly mode

The disassembly and assembly of the mechanism can be donein the ASSEMBLY mode (see Table 2-2-1).The ASSEMBLY mode is provided in the intermediate positionbetween C-IN and S.FF. As the C-IN (Cassette IN) mode is usu-ally set when a cassette tape is ejected, the ASSEMBLY modeshould be entered after entering the C-IN mode. To set the AS-

Fig. 2-2-1

Table 2-2-1

SEMBLY mode, apply 3 V DC to the electrodes at the top of theloading motor shown in Fig. 2-2-1. The ASSEMBLY mode is setwhen the markings (red) on two gear teeth of the rotary en-coder are aligned with the confirmation holes.

R. ENC -20

ROTARYENCORDER 2

1

3

MAIN CAM GEAR 0

C-IN

ASSEMBLY

S. FF

LOADING END

PLAY REV STOP FF/REW

0

15

33.33

40

166.66

140

193.33

160

226.66

185

273.33

220

306.66

245

36°

17°

169.

66°

87°

190.

33°

196.

33°

223.

66°

229.

66°

270.

33°

276.

33°

303.

66°

30.3

3°

36.3

3°

MODE

PARTS

HC

< ASSEMBLY MODE >

Back side of Mechanism assembly

The ASSEMBLY mode is set according to the markings (colored red) on two gear teeth of the rotary encoder.

Note:

Marking(colored red)

Wire (Red)

Wire (Brown)

Rotary encoder

Motor bracket assembly (Loading motor)

2-2

2-4

2.2.2 Mechanism modes

The mechanism has 6 modes as shown in Table 2-3-1.The current mode can be confirmed by observing the markingson the sub-cam gear and the 8 mark on the main deck at theback side of mechanism assembly. See Figs. 2-2-2 to -7.

1. Mechanism mode confimation

<C-IN : C >

Fig. 2-2-2 Fig. 2-2-3 Fig. 2-2-4

Fig. 2-2-5 Fig. 2-2-6 Fig. 2-2-7

HC H P

R S F

<S-FF : H > <PLAY : P >

<REV : R > <STOP : S > <FF/REW : F >

2-3

2-5

2.3 MECHANISM TIMIN CHART

See following table (Table 2-3-1).

Table 2-3-1

POLE BASE

ROTARY ENCODER -20

CTL PLATE

MAIN BRAKET(SUP)

MAIN BRAKET(TU)

SUB BRAKE

PINCH ROLLER

EXIT GUIDE ARM

TENSHION ARM

BAND ARM PLATE

CLUTCH LOCK

CENTERRING. ARM

ROTARYENCORDER

2

1

3

MAIN CAM GEAR 0

0SUB CAM GEAR

ON

OFF

S/REV

PLAY

FF/REW

ON 1

ON 2

OFF

ON 1

ON 2

OFF

ON

OFF

ON(REV MODE PRESS UP)ON(PLAY MODE)

OFF

OFF

ASSY

HALF LOADING

ON

OFF

OFF 2

OFF 1

ON

OFF 2

OFF 1

ON

SUP CENTRRING

S/REV

C-IN

ASSEMBLY

S. FF

LOADING END

PLAY REV STOP FF/REW

0

15

33.33

40

4015

166.66

140

140

193.33

160

160

226.66

185

185

273.33

220

220

306.66

245

245

36°

17°

169.

66°

87°

190.

33°

196.

33°

223.

66°

229.

66°

270.

33°

276.

33°

303.

66°

30.3

3°

36.3

3°

MODE

PARTS

2-4

2-6

43

~

Cleaner bracket ass'y

Active head cleanerassembly

2 19 42 1 18 41 3

17 12 36 20 444 32 45 26

10

33 24 1328

21

11

22

8

34

35

14

37

7

29

30

23

9

25

5

15

38

39

31

6

40

46

2.4 MAINTENANCE AND INSPECTION OF MAJOR PARTS

Periodical inspection and maintenance are requisite to maintainthe initial performance and reliability of the product. Table 2-4-1(Maintenance & Inspection List) has been compiled assumingstandard operating conditions, and the specifications in the ta-ble are greatly variable depending on the actual operating envi-ronment and conditions. Remember that, if the maintenanceand inspection are not enforced properly, the operating hours of

2.4.1 Layout of Major Parts

To attach the Active Head Cleaner Assembly, refer to "1.7.2.Disassembling the Rear Part of the Unit".

the product will not only reduce considerably but otherunfavorable influences may produce.Rubber parts may deform or degrade after long period of stor-age even if they are not used in this period.The service life of the drum is variable depending on the tapeused and operating environment.

2-5

2-7

2.4.2 Maintenance and insoection list

1) The 6000 H maintenance consists of a replacement of the entire mechanism assembly.2) When mounting the capstan motor on the main deck, control of the verticality is required. Therefore, when the capstan motor

reaches the end of its service life, the entire mechanism assembly should be replaced.

Table 2-4-1

Part Name Ref.Operating Hours (DRUM Hour Meter)Symbol

No.

123456789

101112131415

1617181920212223242526272829303132

Tape transport parts

⁄ ENT. guide base assembly

8 Tension arm sub-assembly

( Guide rail (S) assembly

% Guide rail (T) assembly

3 Middle catcher assembly

7 Capstan shaft

5 Pin roller arm assembly

9 Exit guide arm assembly

1 Drum assembly

q Capstan motor

fi Reel drive pulley assembly

› Center gear assembly

‹ Timing belt

° Clutch lock gear (1)

‡ Clutch lock gear (2)

6 Sub-brake assembly

@ Main brake (S) assembly

# Main brake (T) assembly

$ 15Reel disk assemblies

7 Band arm plate assembly

0 Swing arm assembly

¤ Worm wheel 2

2 Motor bracket assembly

¢ Rotary encoder assembly

¶ Centering arm assembly

∞ Min cam

• Sub cam

e Cleaner assembly

r Cassette guide pin

t Cassette guide

y MIC contactMechanism assembly (including cassette housing assembly)

M6 43M6 40M6 22M6 23M6 24M6 4M6 44M6 43M6 50M6 4M6 33M6 34M6 11M6 12M6 14M6 36M6 38M6 37M6 39M6 41M6 42M6 3M6 20M6 21M6 26M6 8M6 9M5 29M6 35M6 35M6 35M6 1

2.7.142.7.82.7.122.7.122.7.5

2.7.32.7.42.7.2

2.7.152.7.142.7.142.7.15

2.7.102.7.102.7.102.7.112.7.82.7.72.7.142.7.22.7.182.7.182.7.182.7.192.7.20

: Clean with ethanol. : Check and replace if required. : Replace. >: Oil the shaft. After replacing a part, apply lubricant to the required points.

500

>

>

>

1000

>

>

>

3000

>

>

>

5000

1500

3500

4500

5500

6000

>

>

>

>

2000

>

>

>

>

4000

2500

2-6

2-8

2.4.3 Cleaning

The tape transport system should be cleaned periodically. Besure to clean the tape transport system upon receipt of a set forservicing, etc. To clean use a good quality fine-textured clothmoistened with ethyl alcohol.

1) When the video head is stained, the playback output de-creases and a read error will not be able to be corrected bythe error correction. If this occurs, the video will be inter-fered by block noise, the audio will not be output, and thevideo output will eventually be lost when the video headbecomes extremely dirty. To clean the drum, while applyingcleaning cloth (service part No. : KSMM-01) or high qualitypaper gently to the upper drum, rotate the upper drum inthe normal (counterclockwise) rotation direction.The dirt deposited on the video head can be removed byplaying a cleaning tape.

CAUTION

Do not move the cleaning paper while applying it to

the video head. Otherwise, the video head may be

damaged.

2) The lower drum tends to attract dirt on the leader sectionand the linearity cannot be guaranteed when the lower drumbecomes extremely dirty. Particularly, the tape inlet and out-put sections gather dirt easily, causing symptoms such asdropout of the reproduced FM signal, deterioration of videoquality and lack of audio output. In order to clean the leadersection, rub a a cotton swab gently along its edge.

3) Stain of the tape transport system leads to tape damage.When magnetic powder or dirt penetrates inside the rollers,a rotation malfunction may affect the video. Clean the tapetransport parts carefully using a cleaning cloth or cotton swabmoistened with ethyl alcohol.

2.4.4 Oiling and Greasing

Table 2-4-2 shows the oil and greases used with the set.

1) Oiling should be performed periodically. Oil the shafts byreferring to the maintenance table.

2) After replacing a part, grease the required points. For theparts to be greased see the exploded diagram in chapter 5,“DISASSEMBLY DRAWINGS AND PARTS LIST”.

3) As Hanal separates over time, be sure to mix it (shake) wellbefore use.

4) Take care not to leave grease or oil on the tape transportparts which come into contact with the tape or on the brakepads.

5) Take care not to apply too much oil or grease. The standardoiling quantity is one drop and the standard greasing quan-tity is the quantity with which the grease does not overflow.

Table 2-4-2

Classification

Oil

Grease

Name

Cosmo Hydro HV100

Maltemp SH-P

Hanal

Part No.

YTU94027

KYODO-SH-P

RX-410R

2-7

2-9

2.5 PERIODICAL MAINTENANCE

Perform maintenance at the correct times in accordance with the maintenance table.Fig. 2-5-1 shows the flow chart of periodical maintenance procedures at different operating hours.

Fig. 2-5-1

6000-hour maintenance2000-hour maintenance1000-hour maintenance

End

3.7.8-3 PB EQ (error rate) adjustment

3.7.7 Play switching point adjustment

3.7.8-1 REC Current Adjustment

2.12 Compatibility adjustment

StartStartStart

Replaced parts Mechanism assembly

including capstan motor and cassette housing assembly

End

3.7.8-3 PB EQ (error rate) adjustment


3.7.8-1 REC Current Adjustment


End

Confirm the 3.7.8-3 PB EQ (error rate) adjustment



Replaced partsENT. guide base assemblyTension arm sub-assemblyGuide rail (SUP) assemblyGuide rail (TU) assemblyMiddle catcher assemblyPinch roller arm assemblyExit guide arm assemblyDrum assemblyReel drive pulley assemblyCenter gear assemblyTiming beltC. lock gear (1)C. lock gear (2)Sub-brake assemblyMain brake (TU) assemblyReel disk assemblyBand arm plate assemblySwing arm assemblyWorm wheel 2 assemblyMotor bracket assemblyRotary encoder assemblyCentering arm assemblyMain camSub camCleaner assembly

Replaced partsCenter gear assemblyTiming beltSwing arm assemblyCleaner assembly

⁄

8

(

%

3

5

9

1

fi

›

‹

°

‡

6

#

$%

7

0

¤

2

¢

•

∞

•

e

›

‹

0

e

2-8

2-10

1

2

3

4

Part Name

Å Cassette housing assembly, ıMain deck assembly

1 Drum assembly

2Motor bracket assembly

3Middle catcher assembly

SymbolSWP*

2.6 DISASSEMBLY/ASSEMBLY OF MECHANISM ASSEMBLY

2.6.1 Assembly/Disassembly

The following table shows the mechanism assembly/disassem-bly procedures.

2.6.2 Screws and Washers Used in Mechanism Assembly

Disassembly/Assembly

Table 2-6-1 shows the symbols, designs, part numbers and colorsof the screws and washers used with the Mechanism assem-bly.When disassembling or assembling the Mechanism assembly,be sure to attach the correct screws and washers by referringto the following table.

W1

W3

YQ44246

YQ43933-2

W2 YQ44246-3

(S1)

(S2)

(S3)

QYSDSP2005Z

YQ43893-7

YQ43893

Symbol

Symbol

Design

Design Part No.

Part No.

Color

Red

Black

Black

Color

Gold

Silver

Black

1 : Names of the disassembled/assembled parts.2 : Items of disassembly.3 : Parts to be removed for disassembly, such as screws, wash-

ers and springs, and points.

Name or PointScrewWasherSpringConnector, lock (L), soldering (SD), shield, etc.

Step

1

2

2

3

Points

2(S1), (L1) to (L5)

3(S2)

4(S2)

3(S2)

Remark

↑1

↑2

↑3

Fig. 2-6-1

2-9

2-11

Part Name Item Points Remark

1 Å Cassette housing assembly 1 2 (S1), (L1) to (L5)

2 1 Drum assembly 2 3 (S2)

3 2 Motor bracket assembly 2 4 (S2)

4 3 Middle catcher assembly 5 3 (S2)

5 4 Reel cover assembly 6 (S2), 2 (L6)

6 5 Pinch roller arm assembly 3 (W1), (L7)

7 6 Sub-brake assembly 10 (P1), (W1), (L8)

8 7 Band arm plate assembly 8 (S3), (L9), (P2), (W2)

9 8 Tension arm sub-assembly 8 (P3)

10 9 Exit guide arm assembly 4 (W1)

11 0 Swing arm assembly 7 – Position alignment

12 ! Sub-deck assembly 9 4 (S2) Position alignment

13 @ Main brake (SUP) assembly 10 (P4), (L10)

14 # Main brake (TU) assembly 10 (P5), (L11)

15 $ Reel base assembly (SUP) 11 –

16 % Reel base assembly (TU) 11 –

17 ^ Prism 7 (S2)

18 & Control plate 11 (2 (L12)

19 * Guide rail (TU) assembly 12 4 (S2) Position alignment

20 ( Guide rail (SUP) assembly 12 (S2), 2 (L13) Position alignment

21 ) Base plate assembly 13 (S2), 2 (L14)

22 ⁄ ENT. guide base assembly 14 (S2)

23 ¤ Worm wheel 2 14 – Phase alignment

24 ‹ Timing belt 14 –

25 › Center gear assembly 14 –

26 fi Reel drive pulley assembly 15 (W1)

27 fl Push plate 15 (W1)

28 ‡ Clutch lock gear (2) 15 (W3)

29 ° Clutch lock gear (1) 15 (P6)

30 · Tension control arm assembly 16 (L15) Position alignment

31 ‚ Brake control arm assembly 16 (W1), (L16) Position alignment

32 ¡ Charge arm assembly 16 (L17) Position alignment

33 ™ Connect gear 2 (SUP) 17 (S2) (Phase alignment)

34 £ Connect gear 2 (TU) 17 (S2) (Phase alignment)

35 ¢ Rotary encoder assembly 18 2 (S2) Phase alignment

36 ∞ Main cam 18 (W1) Phase alignment

37 § Arm gear 1 assembly 18 Collar Position alignment

38 ¶ Centering arm assembly 18 (L18) Position alignment

39 • Sub cam 19 (S2) Phase alignment

40 ª Arm gear 2 assembly 19 – Position alignment

41 º Clutch lock lever assembly 19 (L19) Position alignment

42 q Capstan motor Change with mechanism assembly

43 w Drum base deck 3 (S2)

2.6.3 Mechanism Assembly Disassembly Procedure Table

Table 2-6-2

2-10

2-12

A BLOCK

B BLOCK

C BLOCK

D BLOCK

E BLOCK

F BLOCK

G BLOCK

H BLOCK

I BLOCK° Clutch lock

gear (1)

Dis

asse

mbl

y P

roce

dure

Ass

embl

y P

roce

dure

1 Drum assembly Å Cassettehousing assembly

2 Motor bracketassembly

3 Middle catcherassembly

4 Reel coverassembly


5 Pinch roller arm assembly

0 Swing armassembly

⁄ ENT guide baseassembly


@ Main brake (SUP) assembly

# Main brake (TU) assembly

% Reel base assembly (TU)

9 EXIT guide arm assembly

^ Prism¤ Worm wheel 2

8 Tension armsub-assembly

$ Reel base assembly (SUP)

* Guide rail (TU) assembly

!Sub-deck assembly

‚ Brake controlarm assembly

( Guide rail (SUP)assembly ‹ Timing belt £ Connect

gear 2 (TU)· Tension control

arm assembly)Base plate

assembly & Control plate ¡ Charge arm assembly

› Center gearassembly

¢ Rotary encoderassembly

fi Reel drivepulley assembly ∞ Main cam ™ Connect gear

2 (SUP) fl Push plate • Sub cam

q Capstan motorassembly

§ Arm gear 1assembly


‡ Clutch lock gear (2)

º Clutch locklever assembly

ª Arm gear 2 assembly

w Drum base deck

2 19 42 1 18 41 3

17 12 36 20 4 32 26

10

33 24 1328

21

11

22

8

34

35

14

37

7

29

30

23

9

25

5

15

38

39

31

6

40

∼

2.6.4 Mechanism disassembly/assembly procedure chart

<How to read the chart>

⋅ The following chart shows the disassembly/assembly procedures by dividing them into blocks A to I.⋅ To remove the tension arm sub-assembly which is located in block D; start disassembly from block A. The tension arm sub-assembly

can be removed as the fourth operation after the removals of the cassette housing assembly (block A) → reel cover assembly (blockB) → band arm plate assembly (block C).

⋅ The parts enclosed in thick frames are the maintenance parts listed in the maintenance table.⋅ For details on the disassembly/assembly, see section 2.7, “Replacement of Major Parts”.

Fig. 2-6-1

Fig. 2-6-2

2-11

2-13

No. Item Reference picture/drawing Procedure

1 Å Cassette housing assembly

2 1 Drum assembly, 2 Motor bracket assembly

2.7 REPLACEMENT OF MAJOR PARTS

⋅ Make sure that the mechanism is in the ASSEMBLY mode before proceeding to disassembly or assembly. (See section 2.1,“Assembly Mode”.)

⋅ Screws must always be tightened using a torque screwdriver and at the specified torque.

<Removal>

1 Drum assembly1)Remove the 3 screws (S2) and take out the as-

sembly.

2 Motor bracket assembly1)Remove the 4 screws and take out the motor

bracket assembly.

<Attaching>

1) Reverse the removal procedure

<Removal>

1)Remove the 2 screws (S1) then take out the cas-sette housing by sliding it upward and toward thefront.

<Attaching>

1)Reverse the removal procedure.

Fig. 2-7-1

1(S1)

A2

(S1)

(L2)(L4)

(L5)

(L1)

(L3)

B

Note 1

5(S2)

12

3(S2)

4(S2)

7(S2)

6(S2)9

(S2)

8(S2)

Fig. 2-7-2

2-12

2-14

5

A

(W1)

(L7)

3 5 Pinch roller arm assembly

<Removal>

1)Remove the washer (W1) and pull out the assem-bly.

<Attaching>


<Removal>

1)Remove the washer (W1) and pull out the assem-bly.

<Attaching>

1) Fit the pinch roller arm assembly Å into the boss(L7) of the charge arm assembly.

2) Attach the washer (W1).

4 9 Exit guide arm assembly

Fig. 2-7-4

(W1)

9

Fig. 2-7-3

2-13

2-15

5 3 Middle catcher assembly

6 4 Reel cover assembly

Fig. 2-7-5

<Removal>

1)Remove the 3 screws (S2) and remove the assem-bly.

<Attaching>


Fig. 2-7-6

<Removal>

1)Remove the screw (S2).2)Slide the assembly toward the drum and lift the

assembly up to remove it.

NOTE⋅ After having removed the reel cover, take care

because the parts located below the reel

cover tend to slip out easily.

<Attaching>

1) Insert the reel cover into (L6) and attach by revers-ing the removal procedure.

3

12(S2)

10(S2) 11

(S2)

13(S2)

(L6)

(L6)

4

2-14

2-16

7 0 Swing arm assembly <Removal>

1) Pull the assembly upward.

<Attaching>

1) Reverse the removal procedure.

Fig. 2-7-7

10

2-15

2-17

(W2)

14(S3)

(P2)

(L9)

(P3)

7

8

8 7 Band arm plate assembly, 8 Tension arm sub-assembly <Removal>

1)Remove the washer (W2).2)Remove the screw (S3).3)Remove the spring (P2).4)Remove the band arm plate assembly and tension

arm sub-assembly.

Fig. 2-7-8(a)

Fig. 2-7-8(b)

6) After attaching, adjust the tension.

Fig. 2-7-8(c)

<Attaching>

1) Attach the spring (P3) to the tension arm sub-assembly. Engage the longer end of spring to hook

a and the shorter end to hook b as shown in Fig.2-7-8(b).

2) Attach the tension arm sub-assembly.3) Attach the band arm plate assembly.4) Clamp with the screw (S3) and washer (W2).5) Attach the spring (P2) to (L9).

NOTEBe careful not to lose the spring (P3).

NOTE

After attaching, ensure that the band arm assem-bly can rotate in the direction of the arrow asshown in Fig. 2-7-8(c).

Attaching the spring

Step 1

Step 2

Hook (Longer end)

Hook (Shorter end)

Step 3

b

a

2-16

2-18

8 <Tension arm sub-assembly position adjustment> 1)Without loading a tape, set the mechanism modeto PLAY mode.To switch the mode, rotate worm wheel 2 while themotor bracket assembly is disengaged (see 2.2,“Mechanism Modes”).

2)Rotate the tension arm slightly clockwise to elimi-nate production of rattle with the band arm plate.

3)Ensure that the notch on the tension arm is locatedwithin area A. (See Fig. 2-7-8(e).)

4) If the tension arm is not located in area A, loosenscrew B (black) lightly and fine-adjust the positionof the band arm plate assembly. Turn the screwcounterclockwise to move the tension arm extrem-ity toward the right or clockwise to move it towardthe left.

5)After the adjustment, clamp the band holder bytightening screw B (black) (with a securing torqueof 5.88 Nm, or 0.6 kgf-cm). Then adjust the ten-sion arm position again.

Fig. 2-7-8(d)

Fig. 2-7-8(e)

Notch on tension arm

Notch on tension arm

Tension arm

Band arm plate

Turn the tension arm in the clockwise direction.

Joint between the tension arm and band arm plate (must not rattle here.)

Counterclockwise direction

Clockwise direction

Band holder

No Good

No Good

Position alignment point

Screw B (Black)

OK (Upper limit)

OK (Lower limit)

OK (Center)

A

2-17

2-19

9 ! Sub-deck assembly <Removal>

1)Remove the 4 screws (S2) and pull out the assem-bly.

<Attaching>

1)While sliding the control plate toward the left, at-tach the sub-deck assembly.

Fig. 2-7-9

NOTE⋅ Attach by aligning the phase holes of the

main deck assembly and control plate.

2)Clamp with 4 screws (S2).

10 @ Main brake (SUP) assembly, # Main brake (TU) assembly,6 Sub-brake assembly

<Removal>

Main brake (SUP) (TU) assembly

1)Remove the spring by disengaging its ends fromthe hooks (L10) (L11).

Sub-brake assembly

1)Remove the washer (W1).2)Remove the spring by disengaging it from the hook

(L8).

<Attaching>


Fig. 2-7-10

13

12

11

(L10)

(L11)

(L8)

(P4)

(P5)

(W1)

6(P1)

11

18(S2)

15(S2)

16(S2)

17(S2)

(L11)

The boss should fit into the hole.

Phase alignmentControl plate

2-18

2-20

11 $ Reel base (SUP) assembly, % Reel base (TU) assembly,& Control plate, ^ Prism

<Removal>

1)Pull up each assembly to remove it. The controlplate can be removed by sliding it toward the leftas shown by the arrow.

2)Remove the screw (S2) to remove the prism.

<Attaching>


Fig. 2-7-11

12 * Guide rail (TU) assembly, ( Guide rail (SUP) assembly

Fig. 2-7-12(a)

<Removal>

Guide rail (TU) assembly:

1)Remove the 4 screws (S2) and remove the assem-bly.

Guide rail (SUP) assembly:

1)Remove the screw (S2) and remove the assembly.

<Attaching>

1)Return the guide pole fully to the unloading posi-tion, and attach the assemblies by reversing theremoval procedures. When attaching, place thealignment markings of the two gears so that theyface each other. (See Fig. 2-7-12(b).)

Fig. 2-7-12(b)

14

(L12)

(L12)

17

15

11

16

1920

(S2)21

(S2)

24(S2)

22(S2)

18

23(S2)

(L13)

19 18

2-19

2-21

13 ) Base plate assembly <Removal>

1)Remove the screw (S2) and take out the assem-bly.

<Attaching>

1)Attach the assembly to the boss (L14) as if insert-ing, then clamp with the screw.

14 ⁄ Entrance guide base assembly, ¤ Worm wheel 2, ‹ Timing belt, <Removal>

1)The entrance guide base assembly can be removedby removing the screw (S2). Other parts can beremoved by simply pulling them out.

<Attaching>

1)Reverse the removal procedure. See Fig.. 2-7-14(b)for the worm wheel 2.

Fig. 2-7-13

› Center gear assembly

Fig. 2-7-14(a)Fig. 2-7-14(b) Attaching Worm Wheel 2 ¤

Align the phase of the rotary encoder assembly¢, then attach the main deck assembly by align-ing the phase hole with the rotary encoder as-sembly.

25(S2)

20

(L14)

26(S2)

21

22 24

23

34

22

Phase alignment

Marking(Red)

2-20

2-22

15 fi Reel drive pulley assembly, fl Push plate, ‡ Clutch lock gear (1),° Clutch lock gear (2)

<Removal>

1)Remove the washer (W1) and take out the assem-bly.

<Attaching>

1) Reverse the removal procedure.

Fig. 2-7-15

2-21

27

(W1)

(W3)

(P6)

28

26(W1)

25

2-23

16 · Tension control arm assembly, ‚ Brake control arm assembly,¡ Charge arm assembly

<Removal>

1)The brake control assembly can be removed afterremoving the washer (W1).

<Attaching>

1)Align the phases of the main cam and sub cam ,then attach by reversing the removal procedure.Refer to Fig. 2-7-16(b) and Fig. 2-7-16(c).

Fig. 2-7-16(a)

Fig. 2-7-16(b)

Attaching Tension Control Arm Assembly ·and Brake Control Arm Assembly ‚

Fig. 2-7-16(c) Attaching the Charge Arm

Assembly ¡

Phase alignmentBoss (Phase alignment)Align the phase of the sub cam •, thenattach by fitting the boss into the cam groove.

(L17)

29

30

31

(L16)

(L15)

(W1)

34

30

29

35

Bosses(Phase alignment)

38

3139

Bosses (Phase alignment)

Phase alignment

Align the phase of the main cam ∞ then attach by fitting thebosses in the cam groove.

2-22

2-24

17 ™ Connect gear 2 (SUP), £ Connect gear 2 (TU) <Removal>

1)Remove the screw (S2) and take out the gears.

<Attaching>

1)Reverse the removal procedure. The two connectgears 2 are given the same part number.

Fig. 2-7-17

NOTE⋅ Align the phases of the main cam and sub

cam when attaching.

27(S2)

33

28(S2)

32

2-23

2-25

18 ¢ Rotary encoder assembly, ∞ Main cam , § Arm gear 1 assembly,¶ Centering arm assembly

<Removal>

1)The rotary encoder can be removed by removingthe 2 screws (S2).

2)The main cam can be removed by removing thewasher (W1). As the cam gear is engaged at therear of the main deck assembly while the phase isaligned, deviate the phase in the direction of thearrow before removal. (See Fig. 2-7-18(b).)

Fig. 2-7-18(a)Fig. 2-7-18(b) Removing the Centering Arm

Assembly ¶

<Attaching>

1)Align the phase by referring to Figs. 2-7-18(c) and2-7-18(d), then attach the ass’ies reverse the re-moval procedure.

Align the phases of the arm gear 1 assembly §and centering arm assembly ¶, then align thoseof the arm gear 1 assembly § and centeringarm assembly ¶, attach the gear by fitting thebosses into the cam groove below, and fit theslit washers.

30(S2)

34

(L18)37

36

35

(W1)

29(S2)

Collar

34

35

Phase alignment

Å Marking (Red)35

37

36

Phasealignment

Phase alignment

Phase alignment

Boss

Boss

37

Phase alignment

L18

Fig. 2-7-18(c) Attaching the Rotary Encoder Assembly ¢ Fig. 2-7-18(d) Attaching the Main Cam ∞

Align the phase of the main cam ∞, then attach by aligning the red-colored markings Å (on 2 gear teeth) inside Q.

2-24

2-26

19 • Sub cam ª Arm gear 2 assembly, º Clutch lock lever assembly <Removal>

1)Remove the screw (S2) and take out the sub cam .As L19 is engaged at the rear of the main deckassembly while the phase is aligned, deviate thephase in the direction of the arrow before removal.20. This checking should be done after completing theswitching point adjustment.

Fig. 2-7-19(a)

Fig. 2-7-19(b) Removing the Clutch Lock Lever

Assembly º

Fig. 2-7-19(c) Attaching the Sub Cam •

Align the phases of the arm gear 2 assembly ªand clutch lock lever assembly º, attach them byfitting the boss into the cam groove below, andclamp with the screw.

31(S2)

40

38

(L19)

39

L19

40Phase alignment

39

38

40

Phasealignment

Phasealignment

Phasealignment

Boss

<Attaching>

1)Align the phase correctly by referring to Fig. 2-7-19(c), then attach by reversing the removal proce-dure.

2-25

2-27

20 e Cleaner assembly <Removal>

1)Remove the washer (W2)2)Take out the e cleaner assembly.

<Attaching>

1)Reverse the removal procedure.2)Activate the cleaner (loading) and ensure that the

cleaner contacts the drum normally. (Make sure thatthe cleaner rotation sound is heard.)

<When an active head cleaner assembly is dis-assembled>After the active head cleaner assembly has been dis-

assembled and assembled, the following adjustment

is required to restore the pressure of contact of the

cleaner to the drum.

1)Rotate screw Å fully clockwise until it is stopped,then rotate it counterclockwise by 2.5 turns. (Theclamping torque is 4.9 x 10-4 N m/0.5 kgf cm orless)

2)Rotate screw ı fully clockwise until it is stopped,then rotate it counterclockwise by 0.5 of a turn.(The clamping torque is 4.9 x 10-4 N m/0.5 kgf cmor less)

3)Activate the cleaner (perform loading) and confirmthat the contact between the claw, cleaner anddrum is normal. (The rotation sound of the cleanershould be audible now.)

4) If the cleaner does not work normally, rotate screwı clockwise by 1/8 turn and check the operationagain.

Fig. 2-7-18(c)

43

（W2）

A B

2-26

2-28

2.8 CONFIRMATION AND ADJUSTMENT OF MECHANISM PHASES

See Fig. 2-8-1.

Fig. 2-8-1

22 Worm wheel 2See section 2.7.14

34 1 Worm wheel 2See section 2.7.18

36 Arm gear 1 assemblySee section 2.7.18

39 Arm gear 2 assemblySee section 2.7.19

38 Sub camSee section 2.7.19

40 Clutch lock lever assemblySee section 2.7.19

37 Centering arm assemblySee section 2.7.18

35 Main camSee section 2.7.18

2-27

2-29

S×12,L1-L5

L12×2

S2×3

S2×4

S2×3

S2×4

W1,7

P1,W1,L8

　

S2,L6×2

S2,L13×2

W1 W1

　　

P6 W1,L16

W1 L18 S2

5(S2)

3(S2)

4(S2)

7(S2)

6(S2)

9(S2)

8(S2)

13(S2)

12(S2)

10(S2)

11(S2)

(W1)

(W1)

(P1)

24(S2)

(L13)20

(S2)21

(S2)

22(S2)

23(S2)

(W3)(W1) (W1) (P6) (L15)(L16) (W1)

(W1)31

(S2)

1(S1)

2(S1)

(L2)(L4)

(L5)(L1)

(L3)

(L18)

!Å 1 2 3 4 7

1S1

No.1 No.2 No.5 No.9No.8

2S1

3S2

4S2

5S2

10S2

13S2

15S2

16S2

17S2

18S2

14S3

11S2

12S2

6S2

7S2

8S2

9S2

Å Cassette housing assembly 1 Drum assembly

& Control plate

2 Motor bracket assembly

3 Middle catcher assembly

* Guide rail (TU) assembly

› Center gearassembly

fi Reel drive pulley assembly

fl Push plate ‡ Clutch lock gear (2)

° Clutch lock gear (1)

· Tension control armassembly

∞ Main cam § Arm gear 1 assemblyCollar


Collar

Collar

‚ Brake control arm assembly

( Guide rail (SUP) assembly


5 Pinch roller arm assembly

4 Reel cover assembly

• Sub cam

Ref. No.

Screw Management

Drawing No.No.

TableApplication

2.9 MECHANISM DISASSEMBLY/ASSEMBLY SHEET

2-28

2-30

S3,P2,L9,W2

P3

W1

P4,L10 P5,L11

S2

S2×2

S2,L14×2 S2

L17 S2 S2

L19 S2×3ADJ NUT,P7

19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34S2 S2 S2 S2 S2 S2 S2 S2 S2

No.11 No.14No.13 No.19No.17 No.18 −

S2 S2 S2 S2 S2 S2 S2

25(S2)

26(S2)

(L17) 27(S2)

28(S2)

18(S2)

15(S2)

16(S2)

17(S2)

(P5)(P4)

(W1)

(W2)

14(S3)

(P2)

19(S2)

(L19)

ADJ NUT

(P7)

29(S2) 30

(S2)

33(S2)

32(S2)

34(S2)

(P3)

^ * ( ) ⁄ ™ £ ¢ • w

Screw Management


8 Tension arm assembly

9 Exit guide arm assembly

) Base plate (TU) assembly

¡ Charge arm assembly

ª Arm gear 2 assembly

! Sub-deck assembly

0 Swing arm assembly

⁄ Entrance guide base

assembly

™ Connect gear 2

º Clutch lock lever assembly

^ Prism

$ Reel base

assembly (SUP)% Reel base

assembly (TU)

@ Main brake

(SUP) assembly# Main brake

(TU) assembly

‹ Timing belt

¢ Rotary encoder assembly

w Drum base deck

¤ Worm wheel 2

£ Connect gear 2

q Capstan motor

S2×4

No.12

The slit washers cannotbe reused once theyhave been removed.

2-29

2-31

2.10 DISASSEMBLY PROCEDURE LIST

Fig. 2-9-1

7

8

12

17

35

30

22

29

34

23

2420

36

40

27

26

B

28

39

5

31

2533

9

21

13

11

14

1516

6

2

38

42

3

19

41

3732

1

18

10

4

(W2)

(P3)

14(S3)

15(S2)

23(S2)

22(S2)

10(S2)

11(S2)

3(S2)

4(S2)

24(S2)

5(S2)

12(S2)

34(S2)

27(S2)

28(S2)

(P7)

ADJ.NUT

32(S2)33

(S2)

26(S2)

30(S2)

25(S2)

29(S2)

(W1)

(W1)

(W1)

(W1)

(W1)

(W3)(P6)

(W1)

31(S2)

20(S2)

18(S2)

21(S2)17

(S2)

7(S2)9(S2)

8(S2)

6(S2)

19(S2)

13(S2)

(W1)

16(S2)

Collar

Note) For the grease and oil application points,see section 5.6, ''MECHANISM ASSEMBLY PARTS LIST M6''

2-30

2-32

Measuring Measuring point (* )No. Item instruments & Mode Adjustment parts (- ) Adjustment procedure

Input signals Adjustment level (+ )

1 SUP backuptorqueadjustment

•Cassette torquemeter

Play (1) nsert the cassette torque meter and enter playmode.

(2) The supply backup torque should be as speci-fied. (If it fluctuates, read the center value.)

(3) If it is out of specification, eject the tape, re-move the cassette housing, loosen the screw(black) slightly and fine-adjust the band holder.

Slightly turn the band holder as follows.⋅ To increase torque: Counterclockwise⋅ To decrease torque: Clockwise.

* Supply side indication of cassettetorque meter

+ 3.9 x 10-4N m(4.0 gf cm)

2.11 TORQUE ADJUSTMENTS

+1.5-0.4

NOTEThe screw securing torque should be 0.0588

N-m (0.6 kgf⋅cm).

4) Check the supply backup torque again and re-peat the above steps until it becomes as speci-fied.

2 TU torquecheck

•Cassette torquemeter

Play (1) Insert the cassette torque meter and enter playmode.

(2) Ensure that the take-up torque is as specified.

If it is out of specification, check the assem-bly of the reel drive parts and the center gearassembly.

* Take-up sideindication ofcassette torquemeter

+ 4.9 x 10-4N m(5.0 gf cm)

+3.92-1.96

+4.0- 2.0

Tension arm

Band arm plateScrew (Black)

Band holder

Counterclockwise

Clockwise

+1.47-0.39

2-31

2-33

2.12 COMPATIBILITY ADJUSTMENT

2.12.1 Compatibility Adjustment Flow Chart

Fig. 2-12-1 shows the flow chart of compatibility adjustment.

Fig. 2-12-1

NG

NG

NG

NG

NG

NG

OK

OK

OK

OK

OK

OK

Start

Connect the jig connector.

Set the RF envelope adjusted waveform flat.

Turn ATF OFF, then fine-adjust the tracking so that the envelope is exactly flat.

Is the envelope flat?

Is the envelope restored within 1 second after mode

transition from Eject to Play?

Eject the cassette tape and start playback. Is the envelope still flat?

Is the envelope restored within 1 second after mode transitions from SEARCH FWD to PLAY and from

SEARCH REV to PLAY?

Electricaladjustments

Tension band ormain brake

assembly defect. Tension error.

Check the envelope during FF and REW, and confirm that the specified

waveforms are output in both modes.

Transport system part defect.

Enter modes PLAY → SEARCH REV → SEARCH FWD → PLAY in this sequence,

and ensure that tape is not damaged by wrinkles.

2-32

2-34

JVC menu

CN104

DV MAIN PWB

<JLIP>

Connector cablePTU94018A

VCO DCFS PLL

HIDA GND

ENV OUT

PC cable QAM0099-001

Adjustment software

RS-232C port

Personal computer

Switch

Drum replacement

2.12.5Linearity Adjustment

3.6.7Play SwitchingPoint Adjustment

3.6.8-3Error Rate (PBEQ) Adjustment

3.6.8-1REC CurrentAdjustment

Adjustment Item

Servicing

Note 1Required

Note 1Required

Not required

Not required

Not required

Not required

Not required

Not required

Required

Required

Check

Check

Required

Required

Required

Required

Not required

Not required

Required

Required

IC501 replacement (PB EQ on DV Main board)

IC901 replacement (PRE/REC amp onP/R & MDA board)

DV Main board replacement Note 2

Required

2.12.2 Before Adjustments

Table 2-12-1 shows the adjustments to be enforced after servicing.

Note 1 : Check is required after servicing or re-placement related to the drum, TU/SUP guide rails or tension.

Note 2 : After having replaced the DV Mainboard, be sure to write the originaldata in the EEPROM (IC103) of thenew board. If the original data cannotbe written due to communication fail-ure, mount the original EEPROM tothe new board.The following data are written in theEEPROM (IC103) on the DV MAINboard. • EVR adjustment value data • Hour meter • Warning history • IEEE1394 ID codeTable 2-12-1

Fig. 2-12-2 Adjustment Setup

2.12.3 Adjustment Setup

As shown in Fig.2-12-2 below, connect the connector cable toCN104 on the DV MAIN board and then connect it to the PCcable.

2-33

2-35

13.6

6T

U g

uide

rol

ler

Upp

er r

estr

ictio

n

7M

ID g

uide

rol

ler

No

rest

rictio

n

8M

ID g

uide

rol

ler

No

rest

rictio

n

9C

apst

an s

haft

No

rest

rictio

n

!E

xit g

uide

pol

eN

o re

stric

tion

Ref

eren

ce p

lane

(T

op o

f mai

n de

ck)

Tap

e se

nsor

2.12.4 Tape Transport Restriction

The unit uses only the SUP guide roller and TU guide roller torestrict the tape transport. The tape is free (no restriction) fromother parts.

Fig. 2-12-5 Tape Restriction on Take-up Side

Fig. 2-12-4 Tape Restriction on Supply Side

1

2

34

6

5

0

8

9

!

7

Entrance guide pole

Tension pole

SP guide rollerSUP slant pole

Drum

TU guide roller MID guide roller

TU slant pole

Capstan shaftPinch roller

Exit guide pole

Fig. 2-12-3

± 0.

0219

.25

(10.

35)

13.6

Ref

eren

ce p

lane

(T

op o

f mai

n de

ck)

Tap

e se

nsor

1E

ntra

nce

guid

e po

le N

o re

stric

tion

2T

ensi

on p

ole

No

rest

rictio

n

3S

P g

uide

rol

ler

Upp

er r

estr

ictio

n

4S

UP

sla

nt p

ole

No

rest

rictio

n

2-34



2-36

2 RF envelopeadjustment

1 Preparation

•Error on supplysideOsci l loscope,alignment tapeMC-1(NTSC)MC-2(PAL)Color bar portion

Play

(1) Set up the adjustment software (see section2.12.3, “Setup”) and execute the program.

(2) If it is required to switch the auto tracking func-tion, set [ATF] to “OFF”. When the ATF Valueappears, vary the tracking value as desired.

* ENV OUT [jigconnector]

* HID [jig connector]- Supply guide roller- Take-up guide roller+Make the wave-

forms flat. The droplevel should be lessthan 3 dB with bothSUP and TU levels.

+ Flatness variationshould be less than2 dB.

2.12.5 Compatibility Adjustment

Fig. 2-12-6 PC Display of Adjustment Software

NOTE⋅ Be sure to clean the tape transport parts

and play a cleaning tape before proceed-

ing to the compatibility adjustment.

(1) Play alignment tape color bar portion.(2) Observe the measuring points and adjust the

supply guide roller and take-up guide roller sothat the RF waveform is flat.

(3) Set [ATF] to OFF and vary tracking.(4) Fine-adjust the supply and take-up guide roll-

ers to make the waveform exactly flat.(5) Set the mode to EJECT, then set to the PLAY

mode and ensure that the RF waveform is flat.

Fig. 2-12-7

Error onsupply side

Error ontake-up side

Drag here to vary the tracking.

2-35



2-37

3 Waveformrise check

•Oscilloscope,alignment tapeMC-1(NTSC)MC-2(PAL)Color bar portion

Eject →PlaySearch FWD→PlaySearch REV→ Play

(1) Switch the mode from Eject → Play and en-sure that the envelope waveform is restoredin less than 1 sec.

(2) Switch the mode from Search FWD → Playand from Search REV → Play, and ensure thatthe envelope is restored in less than 1 sec. inboth cases.

(3) If the waveform does not restore in the speci-fied period, fine-adjust the supply/take-upguide rollers as far as the envelope waveformspecification is met, then restart checking fromthe above procedure 1 again.

* ENV OUT[jig connector]

* HID [jig connector]+The envelope

waveform should berestored within 1sec.

4 Damagecheck

• Self-recorded/played tape60ME

Play↓

Search REV↓

Search FWD↓

Play

(1) Transport the self-recorded/played tape fromthe beginning by changing modes in order ofPlay → Search REV → Search FWD → Play,and ensure that wrinkles due to strong restric-tion by the guide rollers and guide pole are notproduced on tape.

(2) Perform the same check at the section nearthe end of tape.


* HID [jig connector]+The tape should not

be damaged bywrinkle.

5 Envelopecheck duringFF/REW

• Oscilloscope,alignment tapeMC-1(NTSC)MC-2(PAL)Color bar portion

FFREW


* HID [jig connector]+A > 55µsec.+B T/3

(1) Insert the alignment tape and enter Stop mode.(2) Enter FF mode.(3) Ensure that the envelope output is present at

55 (s before the HID switching timing.(4) Check the take-up side of the envelope to see

that the MAX output duration is more than 1/3the HID duration.This checking should be done after complet-

ing the switching point adjustment.

(5) Enter REW mode and check the same itemsas (3) and (4) above.

(6) If the envelope is out of specification, checkthe tension band and main brake assembly andreplace as required. Confirm the playbackswitching point.

Fig. 2-12-8

MAX

t

T

HIGH

LOW

ENV OUT

HID

ı

Å

2-36

3-2

SECTION 3

ELECTRICAL ADJUSTMENTS

3.1 FLOWCHART OF ELECTRICAL ADJUSTMENTS

3.5.1 SSG Adjustment

END

END

CAMERA PART VCR PART AUDIO PART

Malsyncronizing

3.5.4 Video White Level Adjustment

3.5.6 Iris Level Adjustment

END

Abnormal video level

3.7.7 Servo Circuit Adjustment

3.7.8 RF Circuit Adjustment

Malsyncronizing

Abnormalcolor-bar level

AbnormalREC/PB level

3.5.5 Flare Correction Adjustment

3.5.4 Video White Level Adjustment

3.5.2 Encoder Adjustment

3.5.3 Video Black Level Adjustment

END

Poor color reproductivity

Abnormalwhite level

Abnormallens cappedblack level

3.7.10 Audio Circuit Adjustment

3.6.2 Audio Circuitry Adjustment

END

Abnormal audio level

3.6.3 Video Circuitry Adjustment


3.7.9 Video Circuit Adjustment

END

Abnormal video level

3.7.8-3 Error Rate Adjustment

END

Block noise

NG

GOOD

NG

NG

OK

GOOD

NG

GOOD

3-1

3-3

3.2 FUNCTIONS REQUIRED FOR ADJUSTMENTS, SETUP

3.2.1 General instruments necessary for adjustment

Instrument Condition

Instrument calibrated for 8 digits or more.Stability of 0.1 ppm or 1x10-7 or better isrequired at 0 to 40°C.Color video monitor with a 75Ø video in-put.

Oscilloscope

VectorscopeAudio tester

Calibrated instrument with a measuringbandwidth of 100 MHz or more.Calibrated instrumentCalibrated instrument

Instrument Condition

Frequency counter

Monitor TV

Fig. 3-1-1 Special implements required for adjustment

3.2.2 Special implements required for adjustment

1 2 3

6

9

4 5

7 8

1210 11

Waveform monitor (WFM)Computor Gray scale chart

(Part No.:GS2L)

Lens

S14X7.3B12 or equiv.

Windows 95 or NT

AA-P250 or equiv.

VF-P115B or equiv.

Viewfinder Tripod base

Power supply unit Monitor TV Alignment tape

Connector cable PTU94018A Adjustment software PLSC1304 PC cable QAM0099-001

MC-1 : NTSCMC-2 : PAL

3-2

3-4

3.4 ADJUSTMENT MENU

3.4.1 Switches and Functions Used in Adjustments

2

3.3 STANDARD SETUP

Vectorscope

Filter 1 (3200 K)

75 Ø resistor for termination

75 Ø resistor for termination

Test pattern

3200 K illumination

AC adapter (12 V DC INPUT)

Waveform monitor (WFM)

2 m or more

Color video monitor

Oscilloscope

LIGHTON

OFF

COUNTERCTL

TCUB

RESET

OPERATE/WARNING

MONITOR SELECT

STATUSSHUTTER

MENU

FILTER1 3200k2 5600k3 5600k+ND

POWERNG

GAIN OUTPUT WHT.BAL

VTR

ON OFF

ALARM

MONITOR

SA

VE

STB

Y

H M

L

BA

RS

CA

M

AUTO

KN

EE

PRST

A B

ON

OFF

CH-1 CH-2AUDIOLEVEL

AUTO IRIS LOLUX

BACK L

NORMALSPOT L

STRETCH

NORMALCOMPRESS

FULL AUTO BLACK

1 SW901-1 on ROM board : Set to ON (up) to display the adjustment menu on the viewfinder screen and enter the adjustmentmode.Set to OFF (down) to turn off the adjustment menu on the viewfinder screen and exit from the adjust-ment mode.

2 SHUTTER/MENU dial : Used to select an adjustment item, adjust the selected item and store the adjusted value in memory.

ON

1 2 3 4 5 6 7 8

ROM

S901

1ROM BOARD

3-3

3-5

3.4.2 Operation Procedure

(1) Open the right side cover and set the DIP switch SW901-1 on the ROM board to ON (up).(2) When the cursor on the left of an item is blinking and the adjustment value is lit steadily, rotating the SHUTTER/MENU dial selects

the adjustment item. Rotate this dial continuously to turn over the page of the MENU screen.(3) When the cursor on the left of an item is blinking and the adjustment value is lit steadily, pushing the SHUTTER/MENU dial causes

the selected item to blink.(4) When the cursor on the left of an item is blinking and the adjustment value is blinking, rotating the SHUTTER/MENU dial varies the

adjustment value.(5) When the cursor on the left of an item is blinking and the adjustment value is blinking, pushing the SHUTTER/MENU dial stores the

adjustment value in memory and returns to the adjustment item selection step.(6) Set the DIP switch SW901-1 on the ROM board to OFF (down) to exit from the adjustment mode.

Cursor

Blinking

Blinking

Steady lighting

Blinking

Adjustment Value

Selects an adjustment item. Adjustment value blinks.

Varies an adjustment value. Stores adjustment value in memory.

Rotate

Functions of SHUTTER/MENU Dial

Push

SHUTTER/MENU Dial

MAC– E R A A D J U S T M E N U – 2 / 6

D S P I N B L A C K : 1 2 8D S P I N B L A C K < R > : 1 2 8

D S P d a t a < G c h > < R c h >

M A S T E R B L A C K : 1 2 8

0 0 0

N A M A P L : 3 2

Cursor

Adjustment item

Adjustment value

Adjustment Menu

3.4.3 Flowchart of ADJUST MENU

F L A R E B : OF L A R E R : OA B L A D J U S T : O


3 2 3 2 3 2

C– A M E R A A D J U S T M E N U – 5 / 6

HF OET S T O U T L E V E L : O

C– A M E R A A D J U S T M E N U – 1 / 6D S P I N B L A C K : OD S P I N B L A C K < R > : OM A S T E R B L A C K : O


0 0 0

N A M A P L : 3 2

C– A M E R A A D J U S T M E N U – 2 / 6A G C I N B L A C K < G > : OA G C I N B L A C K : OA G C I N B L A C K < R > : O


0 0 0


I N G A I N G : OI N G A I N B : OI N G A I N R : O


4 3 8 4 3 8 4 3 8

C– A M E R A A D J U S T M E N U – 4 / 6I R I S L E V E L : O


3-4

3-6

No. ItemMeasuringinstruments &Input signals

ModeMeasuring point (*)Adjustment parts (-)Adjustment level (+)

Adjustment procedure

3-5

3.5 CAMERA ADJUSTMENTS

3.5.1 SSG Adjustment

1 fh frequencyadjustment

•Frequencycounter

Adjustmentmenu 1/6(Color baroutput)

* TP101 (CAM2)- SHUTTER/MENU

dial+ 27 MHz ±30 Hz

(1) Open the left side cover.(2) Rotate the SHUTTER/MENU dial to select

MENU 1/6: FH.(3) Push the SHUTTER/MENU dial so that the ad-

justment value blinks then rotate it to adjust tothe specified level.

(4) Push the SHUTTER/MENU dial to store theadjustment data in memory.



1 TEST OUTLEVELadjustment

•Oscilloscope(H-rate, 10:1)or WFM

Adjustmentmenu 1/6(Color bar output)

* TEST OUT(75 Ø terminated)

- SHUTTER/MENUdial

+ 1 Vp-p ± 0.003 Vp-p(140 IRE ±4 IRE)

(1) Rotate the SHUTTER/MENU dial to selectMENU 1/6: TEST OUT LEVEL.

(2) Push the SHUTTER/MENU dial so that the ad-justment value blinks then rotate it to adjust tothe specified level.


3.5.2 Encoder Adjustments



2 CHROMALEVELadjustment


•Vectorscope

Adjustmentmenu 1/6(Color baroutput)


- VR801 (CAM2)+ All the spots of the

color bar signalshould be within the

marks of thevectorscope and theburst level should beas specified.

(1) Open the left side cover.(2) Adjust VR801 on the CAM2 board to the speci-

fied level.



TP101

VR801

TP101

VR801

CAM2 board

Adjust so that all the spots are located inside the marks.

NTSC PAL

NTSC 0.286 ± 0.015 Vp-pPAL 0.3 ± 0.015 Vp-p

[PAL][NTSC]

CAM2board

3-7




3-6

1 DSP INBLACKadjustment


•Vectorscope•Lens capped

or iris closed.

Adjustmentmenu 2/6


- SHUTTER/MENUdial

+ Position the noiseon the B-YL axis atthe center of thevectorscope.

(1) Rotate the SHUTTER/MENU dial to selectMENU 2/6: DSP IN BLACK .



3.5.3 Video Black Level Adjustments

D S P I N B L A C K : OD S P I N B L A C K < R > : OM A S T E R B L A C K : O


0 0 0

N A M A P L : 3 2


B-YL axis

+ Position the noiseon the R-CY axis atthe center of thevectorscope.

(4) Rotate the SHUTTER/MENU dial to selectMENU 2/6: DSP IN BLACK <R>.

(5) Push the SHUTTER/MENU dial so that the ad-justment value blinks, then rotate it to adjustto the specified level.


D S P I N B L A C K : OO:>R<KCALBNIPSD

M A S T E R B L A C K : O

atadPSD>hcR<>hcG<>hcB<

0 0 0

23:LPAMAN


+ Position NAM APLat the center of 32MASTER BLACKvariation range.

(7) Rotate the SHUTTER/MENU dial to selectMENU 2/6: MASTER BLACK.

(8) Push the SHUTTER/MENU dial so that the ad-justment value blinks, then rotate it to adjustto the specified level.


(10) Check the following condition.

R

R-CY axis

D S P I N B L A C K : OO:>R<KCALBNIPSD

M A S T E R B L A C K : O

atadPSD>hcR<>hcG<>hcB<

0 0 0

23:LPAMAN


Carrier: less than 30 mVp-p

NTSC 5.3 ± 7 Vp-pPAL 0 ± 7 Vp-p

3-8




3-7

2 AGC INBLACKadjustment

•Oscilloscope(V-rate, 10:1)or WFM

•Lens cappedor iris closed.

•Vectorscope

Adjustmentmenu 3/6

GAIN SW H(+18 dB)


- SHUTTER/MENUdial

+ Minimize V shading.

(1) Rotate the SHUTTER/MENU dial to selectMENU 3/6: AGC IN BLACK <G>.



A G C I N B L A C K < G > : OA G C I N B L A C K : OA G C I N B L A C K < R > : O


0 0 0


+ Minimize V shading. (4) Rotate the SHUTTER/MENU dial to selectMENU 3/6: AGC IN BLACK .



+ Minimize V shading. (7) Rotate the SHUTTER/MENU dial to selectMENU 3/6: AGC IN BLACK <R>.



(10)Check that the noise display on thevectorscope is close to a true circle.If the circle is distorted, repeat (1) to (9) until itapproaches a true circle.

(11) Set the GAIN SW to L (0dB).



0 0 0




0 0 0


NG

GOOD

NG

Ensure that noise display is almost completely circular.

NG GOOD

3-9




1 IN GAINadjustment


•Gray scale chart(preciselyscanned size)

Adjustmentmenu 4/6

* TP2 (TG,Open theleft side cover)

- Lens iris+ 1.00 ± 0.01 Vp-p

(1) Rotate the SHUTTER/MENU dial to selectMENU 4/6: IN GAIN <G>.

(2) Shoot the gray scale chart and adjust the lensiris so that the white peak level is as specified.

3.5.4 Video White Level Adjustments



4 3 8 4 3 8 4 3 8



- SHUTTER/MENUdial

+ DSP DATA <G>:515 ± 2




- SHUTTER/MENUdial

+ DSP DATA :± 2 of DSP DATA<G>

(5) Rotate the SHUTTER/MENU dial to selectMENU 4/6: IN GAIN .




- SHUTTER/MENUdial

+ DSP DATA <R>:± 2 of DSP DATA<G>

(8) Rotate the SHUTTER/MENU dial to selectMENU 4/6: IN GAIN <R>.


(10)Push the SHUTTER/MENU dial to store the ad-justment data in memory.


- SHUTTER/MENUdial

+ Minimize the carrierleak.

(11)Minimize the white carrier leak signal of thevideo signal by repeating steps (5) to (10).(Carrier leak: less than 30 mVp-p)



4 3 8 4 3 8 4 3 8




4 3 8 4 3 8 4 3 8


- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

ROM board

TP3

TP2

TP1

TG board

3-8

3-10




1 Flare adjust-ment


•Gray scale chart(preciselyscanned size)

Adjustmentmenu 5/6


- Lens iris+

h Opened by 1 f-stop

(1) Rotate the SHUTTER/MENU dial to selectMENU 5/6: ABL.

(2) Shoot the gray scale chart and adjust the lensiris so that the white peak level is 0.714 Vp-p.

(3) Open the iris by 1 stop further.

3.5.5 Flare Correction Adjustments



3 2 3 2 3 2

C– A M E R A A D J U S T M E N U – 5 / 6* TEST OUT

(75 Ø terminated)- SHUTTER/MENU

dial+ Minimize window

black carrier leakage.

(4) Rotate the SHUTTER/MENU dial to selectMENU 5/6: FLARE .





3 2 3 2 3 2


- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -


- SHUTTER/MENUdial

+ Minimize windowblack carrier leakage.

(7) Rotate the SHUTTER/MENU dial to selectMENU 5/6: FLARE <R>.



- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -


- SHUTTER/MENUdial

+ Minimize windowblack carrier leakage.

(10)Minimize the black carrier leak signal of the grayscale window by repeating the steps (4) to (9).

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -


- Lens iris+ 0.714 Vp-p (100 IRE)

(11) Adjust the lens iris to return the white peak ofthe gray scale to 0.714 Vp-p(NTSC) 0.7 Vp-p(PAL).

(12)Ensure that the level of the black section ofthe window is no more than 30 mVp-p.

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

NTSC 0.714 Vp-pPAL 0.7 Vp-p


≤ 30mVp-p

3-9

3-11




2 ABL adjust-ment


•Gray scale chart(precisescanned size)

Adjustmentmenu 5/6


- SHUTTER/MENUdial

+ Gray scale chartwindow black level:

(1) Rotate the SHUTTER/MENU dial to selectMENU 5/6: ABL.





3 2 3 2 3 2


1 IRIS LEVELadjustment


•Monitor TV•Gray scale chart

(precisescanned size)

Adjustmentmenu 6/6


- SHUTTER/MENUdial

+

(1) Rotate the SHUTTER/MENU dial to selectMENU 6/6: IRIS LEVEL.



I R I S L E V E L : OC– A M E R A A D J U S T M E N U – 6 / 6

3.5.6 Iris Level Adjustment


NTSC 0.714 ± 0.03 Vp-pPAL 0.7 ± 0.03 Vp-p

NTSC 110 +5/–0 mVp-pPAL 55 +5/–0 mVp-p

3-10

3-12

TALLYDV AUDIO INCH-1

DC INPUT

EARPHONE

DC OUTPUT

LINE MIC+48V

ON

CH-2LINE MIC

+48VON

LINE

AUDIO INPUT

GND

HOT

COLD

No. SIGNAL

1

2

3

1

3

2

VR602 VR601

VR302

VR301

VR303

VR304

TP209

TP210

Y/C OUT MONITOR OUT LINE OUTCH-1 CH-2Y

C

VIDEO/SYSCON board

3.6 VCR ADJUSTMENTS

3.6.1 Audio Circuitry Adjustments

Before adjustments, set the audio switches, menu and potentiometer as follows.

• Potentiometer and measuring points for adjustments

Rear panel AUDIO IN connector

AUDIO/LCD board Y/C OUT terminal

TALLYDV AUDIO INCH-1

DC INPUT

EARPHONE

DC OUTPUT

LINE MIC+48V

ON

CH-2LINE MIC

+48VON

LINE

AUDIO INPUT

AUTOWHITE

SKINAREA

ACCUFOCUS

TAKEVTR

ZEBRA

AUDIOLEVEL CH-1

ON

OFF

MAX (10)

TC GENERATOR

FREEREC

PRESETREGEN

CH-1CH-2CH-1

CH-2

CH-1 CH-2 CONTINUE MENU

PRESETADVANCESHIFTHOLD

AUTOMANUAL

FRONTREAR

DATA SETSELECTITEMGROUP

AUDIO SELECTAUDIO INPUT

AUDIOLEVEL

LITHIUM BATT.

REAR

MANUAL

ITEM MENUAUDIO

2 4 4 : LOW CUTOFF

2 4 5 : SAMPLE RATE4 8K

2 4 6 : FRONT VOLUMED I SABLEENABLE

∗ Refer to page 67 of the instruction book.

3-11

3-13




3.6.2 Audio Circuitry Adjustments

Note : Before proceeding to section “3.5.2 Audio Circuitry Adjustments”, complete “3.6.10 Audio Circuitry Adjustment of DV Unit”.

1 Preparation Before adjustments, set the audio switches, menuand potentiometer as follows:

[Switches]AUDIO IN : LINEAUDIO INPUT : REARAUDIO SELECT : MANU

[Menu]LOW CUT : OFFSAMPLING RATE : 48KHzFRONT VOLUME ENABLE : DISABLE

[Potentiometer(Front panel)]AUDIO LEVEL CH1 : MAX (10)

2 INPUT LEVELadjustment

•1kHz,+4dBs•Audio tester

EE * TP209 (CH1)[AUDIO LCD]

- VR201 (CH1)[AUDIO LCD]

* TP210 (CH2)[AUDIO LCD]

- VR202 (CH2)[AUDIO LCD]

+ –22 dBs

(1) Apply a +4 dBs signal to the AUDIO INPUTconnector of REAR and adjust the adjustmentpoints so that the levels at the measuring pointsare as specified.

3 OUTPUTLEVELadjustment


EE * LINE OUT- VR302 (CH1)

[AUDIO LCD]- VR303 (CH2)

[AUDIO LCD]+ –6 dBs

(1) Perform this adjustment after completing 2above.

(2) Apply a +4 dBs signal to the AUDIO INPUTconnector of REAR and adjust the adjustmentpoints so that the levels at the measuring pointsare as specified.

4 Record/playlevel adjust-ment


Self-recording/playback

* LINE OUT- VR301 (CH1)


[AUDIO LCD]+ –6 dBs

(1) Perform this adjustment after completing 2 and3 above.

(2) Apply a +4 dBs signal to the AUDIO INPUTconnector of REAR and record the audio ontotape.

(3) Play the tape recorded in (2) and adjust theadjustment points so that the levels at themeasuring points are as specified.

5 Level meteradjustment

EE * LCD- VR601 (CH1)


[AUDIO LCD]+ LCD's audio level

meter display: “–20”

(1) Perform this adjustment after completing 2,3and 4 above.

(2) Apply a +4 dBs signal to the AUDIO INPUTconnector of REAR and adjust the adjustmentpoints so that the audio level meter of LCDindicates “–20” for both channels.

•1kHz,+4dBs

3-12

3-14




1 SETUP PULSEadjustment

PB

SETUP: ON(MENU)

* TP3[VIDEO/SYSCON]- VR2[VIDEO/SYSCON]+ 9.0 ± 0.1 µs

- VR3[VIDEO/SYSCON]+ 1.5 ± 0.1 µs

(1) Play the color bar section of alignment tapeMC-1 / MC-2.

(2) Adjust the adjustment point so that the initialduration of the SETUP pulse (see diagram onthe left) is as specified.

(3) Adjust the adjustment point so that the nega-tive-going duration of the SETUP pulse is asspecified.

3.6.3 Video Circuitry Adjustments

9.0 µsec

1.5 µsec

2 DELETEPULSEadjustment(NTSC only)

•Oscilloscope(V-rate, 10:1)

•MC-1(alignment tape)color bar section

PB

SETUP: ON(MENU)

* TP2[VIDEO/SYSCON]- VR4[VIDEO/SYSCON]+ 1.23 ms

(1) Play the color bar section of alignment tapeMC-1.

(2) Adjust the adjustment point so that the pulseduration at the measuring point is as specified.

1.23 msec

3 Y LEVELadjustment

•Oscilloscope(H-rate)

Color bar

EE

Color bar

EE

* Y signal output(75Ω terminated)

- VR6[VIDEO/SYSCON]+ 1.0 Vp-p

* Y signal output(75Ω terminated)

- Adjustment software+ 1.0 Vp-p

(1) Set the camera to the color bar mode.(2) With the VCR set to EE, adjust the adjustment

point so that the Y signal level in Y/C OUT is asspecified.

(3) Adjust the Y signal level to the specified levelusing the adjustment software (see section3.7.9-1).

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

4 C LEVELadjustment

•Oscilloscope(H-rate)

Color bar

EE

Color bar

EE

* C signal output(75Ωterminated)

- VR5[VIDEO/SYSCON]

burst level

* C signal output(75Ω terminated)

- Adjustment software

burst level

(1) Set the camera to the color bar mode.(2) With the VCR set to EE, adjust the adjustment

point so that the C signal level in Y/C OUT is asspecified.

(3) Adjust the C signal level to the specified levelusing the adjustment software (see section3.7.9-2).

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

VR5

VR6

TP3

TP2

VR4

VR3

VR2

Y/C OUT MONITOR OUT LINE OUTCH-1 CH-2

Y

C

VIDEO/SYSCON board Y/C output

Y SIGNAL

C SIGNAL

•Oscilloscope(V-rate, 10:1)

•MC-1:NTSCMC-2:PAL(alignment tape)color bar section

+ NTSC 0.286 Vp-p PAL 0.3 Vp-p

+ NTSC 0.286 Vp-p PAL 0.3 Vp-p

3-13

3-15

3.7 DV ADJUSTMENTS (USING ADJUSTMENT SOFTWARE)

3.7.1 Precautions

(1) The adjustments of the DV circuit (VTR Unit) of this modelrequire a PC. These adjustments are necessary after replace-ment of the following parts.

• EEPROM (IC103 on DV Main board)• Mechanism parts

In case of a problem with the electrical circuit, be sure toidentify the point of the trouble first by using measuring in-struments. Do not proceed to repair, replacement or adjust-ment unless the location of the trouble has been identified.

(2) When observing a TP on a chip, avoid applying stress byusing an IC clip, etc. In order to prevent the pattern frombeing peeled off when replacing a chip part, particularly inthe case of an IC, remove the solder completely before re-moving the part.

(3) The connectors tend to be broken easily. Be careful whenunplugging or plugging a wire.

(4) Before starting any adjustments, be sure to save theEEPROM data in a PC file for use as backup data in case ofan adjustment failure (see section 3.7.12).

(5) When the adjustment software is run, a tape can be recordedeven if its REC SAVE tab is set to “SAVE”. Be careful not torecord anything onto an alignment tape by mistake.

(6) When the adjustment software is run, the operations per-formed on the main unit do not cause the VCR Unit to func-tion accordingly.

(7) When loading a tape into the GY-DV500, at the same timethe power is turned on while the tape is loaded, the unitautomatically enters the REC PAUSE mode. To cancel theREC PAUSE mode, press the STOP buttons both of the mainunit and of the adjustment software.

(8) When the adjustment software is run, set the Menu switch“VIDEO 126 :INPUT SELECT” to “IEEE1394” . (Only U-ver.)

3.7.2 Equipment Required for Adjustments

1 PC (Windows machine. Recommended CPU: Pentium 133MHz or more)

2 Color TV monitor3 Oscilloscope (2-trace, 100 MHz or more)

* 300 MHz or more recommended.4 Digital voltmeter5 Frequency counter (with threshold level adjustment)6 Tape for use in recording/playback (JVC ME60)7 Cleaning tape

3.7.3 Setup for PC Adjustment

Note: This switch is not used with the adjustments of the GY-DV500.

Adjustment software

RS-232C port

PC cableQAM0099-001

PC

JVCMENU

CN1004

DV MAIN PWB

<JLIP>

Switch(Note)

Connector cable

VCO DCFS PLL

HIDA GND

ENV OUT

Fig. 3-7-1 Setup for PC Adjustment

3-14

3-16

3.7.4 Installing the Adjustment Software

Insert the floppy disk of the adjustment software and run“Setup.exe”. “Professional DV Adjustment” will be created in“Program” under the Start menu.

3.7.5 Operating the Adjustment Software

1. Startup

Execute “Professional DV Adjustment”. When the follow-ing screen appears, click <OK> because the adjustmentsoftware automatically reads the EEPROM data at the start.

The following screen appears when [System Option...] un-der the [Option] tab is clicked, or the first time that the soft-ware is started up. Select the “TV System” and “Model”and click <OK>. This setting is also operative during the nextstartup. (With the domestic models, select “NTSC” (or “PAL”and “GY-DV500”.)

2. Function description

1 TV System and Model windowShows the TV system and model selected for the softwarein [System Option...].

2 [View] tab

Fig. 3-7-2

Fig. 3-7-3

Fig. 3-7-4

•VCR Controller “ 6 ”•DSP Controller “ 8 ”•ROM Tools “ 7 ”•ROM Monitor•Error Rate Monitor•Error Rate Check

Switch each item ON or OFF.The details will be described later.

Fig. 3-7-5

If the set “TV System” differs from the setting in the adjust-ment software, the following warning message appears. Set“TV System” correctly. If the IEEE 1394 ID is not set, themessage appears too. Set the ID correctly. (See 3.6.13)

Fig. 3-7-6

3 [Adjustment] tab•Adjustment Explorer (Adjustment menu)•Active Head Cleaner Adjustment

Forced operation mode for use in adjusting the positionof the active head cleaner installation. (See 3.7.14.)

Switch each item ON or OFF.

Fig. 3-7-73-15

2

78

9 0 !

3 4 5 16

3-17

•COM Port selectionFrom COM1 to COM4, select the COM port to whichthe communication cable is connected.

•System Option...Select the TV signal format and the model of the con-nected VCR.

• IEEE1394 ID SettingID setting utility of the IEEE1394 standard. (See 3.7.13.)

•Emulation Mode ON/OFFThe emulation mode makes it possible to use the adjust-ment software even when communication with the VCRis not available. As the following window is displayed incase of a communication error, check “Enter the Emula-tion Mode”.

3.7.6 Common Operations for Adjustments

Note: Before adjustment, be sure to save the EEPROM

data in a PC file as the backup for use in case of

adjustment failure. (See 3.6.12.)

(1) Under the [Adjustment] tab, check [Adjustment Explorer].

(2) Click the desired adjustment items.(3) To monitor the video output from the VCR Unit, press the

PLAY button of the operation switches of the main unit. Ifthe color bar signal has been recorded in the VCR Unit, theplayback screen becomes as shown below, but this is not amalfunction (BR-DV600).

4 [Option] tab

Fig. 3-7-8

5 [Help] tabDisplays the version information of the adjustment software.

6 VCR ControllerControls the VCR operations.

7 ROM ToolsUsed to check, save, print, modify the memory in theEEPROM (IC103 on DV Main board) or to initialize it. (See3.7.12.)

8 DSP ControllerUsed to control the TV signal generator in the VTR Unit,switch SHUFFLE, CONCEALMENT and VITERBI ON/OFF.Clicking “ ” resets them to the defaults.

9 COM port displayShows the COM port in use.

0 Communication status displayShows one of the following messages according to the com-munication status.CONNECTED: Normal communicationUNKNOWN: Communication errorEMULATION MODE: In emulation mode

Fig. 3-7-9

! ROM file displayShows the file name or “Current VCR data” while a ROMtool reads EEPROM data. Clicking [ROM Monitor] under the2 [View] tab displays the data contents.

Fig. 3-7-10

Fig. 3-7-11

(4)

(5)

(4) After completing each adjustment item, click the “v” mark-ing, then switch the set OFF.

(5) To cancel the adjutment, click the “G” marking.Note: If another adjustment is started without clicking the

“v” marking, the previous adjustment cannot bestored in memory.

3-16

3-18




1 PB switchingpointadjustment

•Alignment tapeMC-1, color bar

PB Automatic adjust-ment

+ Adjustment is per-formed automati-cally so that the tim-ings of HID and SPAsignals are as shownbelow.

(1) Click [PB Switching Point (Auto)].(2) Click [OK] to start automatic adjustment.(3) Message “Complete” is displayed when the

adjustment has completed successfully. If it isunsuccessful, the message “Adjustmentfailed” is displayed; try adjustment again.

3.7.7 Servo Circuit Adjustment

HID

SPA

126 ± 10µs

3-17

“Complete” message

“failed” message

3-19




1 REC currentadjustment

• Internal Colorbars (100%)

•Oscilloscope

REC * TP REC MON(connector cable)

- 6Ch+ 440 ± 20 mVp-p

Note: Connect TP to the section indicated [REC

MON] on the jig connector in advance.

(1) Click [REC Current].(2) Click the [OK] button.(3) Adjust “New value” (address “6Ch”) so that

the level becomes the adjustment level.(4) After adjustment, click the “v” marking and set

the power button of the set to OFF.


2 VCO centerfrequencyadjustment

• Internal Colorbars (100%)

•Digital voltmeter

REC↓

PB

* TP VCO DC(connector cable)

- 6Ah+ 1.925 ± 0.025 V

(1) Click [VCO Center Frequency].(2) Click the [OK] button.(3) Play the tape section containing color bars.(4) Adjust “New value” (address “6Ah”) so that

the level becomes the adjustment level.(5) After adjustment, click the “v” marking and set

the power button of the set to OFF.

3-18

3-20




3 PB EQ(Error rate)adjustment

• Internal colorbars (100%)

•PC

•REC ↓PB

•VITERBI : OFF

* PC monitor- 68 h, 69h, 67h, 6Bh,

63h, 64h+Minimize error rate

(Total less than1000, and less than500 at each chan-nels )

Notes: •Use a new tape or non-used section oftape in this adjustment.

•Be sure to clean the head before this ad-justment.

• It takes about 1 second from the datachange to its reflection in the error rate.

•Also measure the error rate after the“Sync Block” monitor has become per-fectly OK.

• If the adjustment within specification isnot possible, clean the head. If the nextadjustment is still out of specification, useanother tape.

(1) Click [PB EQ (Error rate)].(2) Click the [OK] button.(3) Adjust “New value” of each address to mini-

mize the error rate, by following the ordershown in the flow chart.

(4) After adjustment, click the “v” marking and setthe power button of the set to OFF.

Start

End

Error Timing : 68h

Slice Level : 69h

1 + D Delay : 67h

PLL Phase : 6Bh

α : 63h

Error Timing : 68h

β : 64h

α : 63h

Error Timing : 68h

Error Rate Check

START

ENDOK

NG

NG

NG

NG

2.4.3 Head cleaning

Is error rate within specification?

2.4.3 Head cleaning

Replace tape.

2.12 Interchangeability Adjustment

ENDOKIs error rate within

specification?


specification?


specification?

Drum failer orRF circuit failer

To START

3-19

3-21




1 D/A Y leveladjustment


•Oscilloscope

EE(With PLAY liton the set)

* Y OUT(75 Ø terminated)

- 76h+ 1.00 ± 0.05 Vp-p

(1) Click [D/A Y Level].(2) Click the [OK] button.(3) Press the “PLAY” button of the set and check

that the LED lights up.(4) Adjust “New value” (address “76h”) so that

the Y level becomes the adjustment level.(5) After adjustment, click the “v” marking and

set the power button of the set to OFF.

3.7.9 Video Circuit Adjustments

2 D/A C leveladjustment


•Oscilloscope

EE(With PLAY liton the set)

* C OUT(75 Ø terminated)

- 60h+ NTSC 0.286 ± 0.01 Vp-p

PAL 0.30 ± 0.01 Vp-p(Burst)

(1) Click [D/A C Level].(2) Click the [OK] button.(3) Press the “PLAY” operation button of the set

and check that the LED lights up.(4) Adjust “New value” (address “60h”) so that

the burst level becomes the adjustment level.(5) After adjustment, click the “v” marking and

set the power button of the set to OFF.

3-20

3-22




1 Fs PLL (48k)adjustment

•No signal•Frequency

counter

EE * TP FS PLL(connector cable)

- 62h+ 12.288 ± 0.020 MHz

(1) Click [Fs PLL (48k)].(2) Click the [OK] button.(3) Adjust “New value” (address “62h”) so that

the frequency level becomes the adjustmentlevel.

(4) After adjustment, click the “v” marking andset the power button of the set to OFF.

3.7.10 Audio Circuit Adjustment

2 Fs PLL (44.1k)adjustment


counter


- FCh+ 11.2896 ± 0.110 MHz

(1) Click [Fs PLL (44.1k)].(2) Click the [OK] button.(3) Adjust “New value” (address “FCh”) so that



3 Fs PLL (38k)adjustment


counter


- FDh+ 8.192 ± 0.080 MHz

(1) Click [Fs PLL (38k)].(2) Click the [OK] button.(3) Adjust “New value” (address “FDh”) so that



(Note)

• Perform the audio circuitry adjustments immediately after turning the main unit ON. Be sure to turn the main unit OFF after

completing each adjustment item.

3-21

3-23

1

3.7.11 Error Rate Monitoring

The error rate-monitoring screen is displayed when the PB EQis adjusted or the error rate is measured. The screen shows theerror rate every second during PB EQ adjustment. With the er-ror rate measurement, it shows the error rate measurementresult after about 20 seconds of measurement.

1 Error rate display windowShows the error rate per video/audio or CH-1/CH-2 as wellas the total error rate.

2 Sync block counter display windowShows the amount of sync blocks played by the head as apercentage. When it reaches 100%, “OK” is displayed anda graph is displayed bule. The error rates are measured whenthis display shows “OK”.

3 Error rate measurement status display windowDepending on the load to the PC, “CH1 Reset” or “CH2Reset” may be displayed frequently. In such a case, leavethe PC idle (without operating the mouse, etc.). The errorrates are measured when “Reset” is not displayed (when“CH1 Detect” or “CH2 Detect” is displayed).

3.7.12 ROM Tools

This section describes the seven functions of the ROM Tools inprocessing the EEPROM data.

1 File readingRead the ROM data saved in the PC files. It is provided asstandard with the adjustment software, for use as initial data.When the PC files are read, the file names are displayed inthe ROM file display window.

2 File savingThe ROM data read by the ROM Tools can be saved in a PCfile. This function is used for temporary backup of ROM databefore adjustment. If the adjustment fails and the data be-comes erroneous, use the backup to restore the original data.

3 Data read from VCRThe ROM data in the VCR can be read. The ROM file displaywindow shows “Current VCR data” in this case.

4 Data write in VCRThe ROM data read by the ROM Tools can be written in theVCR. When the initial data is written, it is required to re-adjust the DV circuit and re-set the IEEE1394 ID (see 3.7.13).

5 Data comparisonNote: When the ROM data is written in the VCR, be sure

to turn the main unit and adjustment software OFF

once.

The ROM data read by the ROM Tools is compared withdata contained in a PC file or with the VCR data, and anydifferences are displayed in red characters. “Comp. value”shows the data used in the comparison. It shows “(“ whenthe comparison data does not exist. To cancel comparsion,clik 5'.

6 Data editingThe ROM data read by the ROM Tools can be edited on aper-address basis. To edit data, click the [New value] of therequired address data. To write the data in the VCR, click the

“V” marking. To cancel editting, click the “ ” marking.

7 Data outputThe ROM data read by the ROM Tools can be output at aprinter or as a text file.

Fig. 3-7-12 (Error Rate Monitoring Screen)

Fig. 3-7-14

3-22Fig. 3-7-13 (Error Rate Measurment)

(1) Error Rate Monitoring

The following screen appears when [View] under the [ErrorRate Monitor] tab is clicked.

1

2

3

(2) Error Rate Measurement

The following screen appears when [View] under the [ErrorRate Check] tab is clcked. To start the measurement, click[Start] button. After a while the measurement result is dis-played “1”.

1234

56

7 6

5'

3-24

3.7.13 IEEE1394 ID Setting

The GY-DV500 stores the ID in the format specified by theIEEE1394 standard in the EEPROM (IC103 on DV Main board).After replacing the EEPROM or the DV Main board, it is requiredto re-set the ID. The setting is possible with either of the meth-ods outlined below.

1. Setting by manual input(1) Under the [Option] tab of the adjustment software, click the

[IEEE1394 ID Setting]. The window as shown below appears.

3.7.14 Active Head Cleaner Adjustment Mode

When adjusting the installation position of the active headcleaner, use this mode to force the active head cleaner ON for acertain period. (See subsection 2.7 No. 20 for the adjustmentprocedure.)

(1) Under the [Adjustment] tab, click [Active Head Cleaner Ad-justing...]. The window as shown below appears.

(2) The ID (“ID : 0401xxxx” : NTSC, “ID : 0481xxxx” : PAL) isindicated on the ID label number attached to the DV Mainboard. Input characters corresponding to “0401xxxx” forNTSC or “0481xxxx” for PAL.

(3) Click “Write” to write the ID in the EEPROM.

2. Setting with ROM Tools(1) Read the data saved in the EEPROM to be replaced. (See

3.7.12.3.)(2) Save the read data in a PC file. (See 3.7.12.2.)(3) After the EEPROM replacement, connect the adjustment

software to the GY-DV500.(4) Load the data saved in the PC file. (See 3.7.12.1.)(5) Write the loaded data in the EEPROM. (See 3.7.12.4.)(6) Now that the adjustment data in the new EEPROM has been

overwritten by the data in the previous EEPROM. Re-adjustthe DV circuit as required.

Fig. 3-7-15

(2) Click [START] to set to “REC PAUSE” mode.(3) Click [ACH ON]. The active head cleaner will turn on in about

3 seconds.(4) Adjust the installation position as described in the adjust-

ment procedure.

Fig. 3-7-16

3-23

SERVICE MANUAL

GY-DV500U/GY-DV500E

DV CAMCORDER

No. 60125November 1999COPYRIGHT © 1999 VICTOR COMPANY OF JAPAN, LTD.

Printed in Japan(S)

VICTOR COMPANY OF JAPAN, LIMITED

100% recycled paper

The photo shows the GY-DV500 DV camcorder with an optional lens and viewfinder.

GY

-DV

500U/D

V500E

No

. 601

25

4-1

SECTION 4

CHARTS AND DIAGRAMS

SCHEMATIC DIAGRAM NOTES

• Schematic safety precaution! Parts are safety related parts.When replacing them, be sure to use the specified parts.

• Voltage and waveform measurementsVoltage: Measured with digital voltmeter in DC range;

iris closed in REC mode.Value in ( ) is indicated only in the case PBvoltage is different from that in REC mode.

Waveform: Gray scale illuminated at more than 4000 lux at3200K lighting.

• Unit of valueUnless otherwise specified1) Resistance is in Ω (1/6 W)2) Capacitance is in µF3) Inductance is in µH

2) Indication of wiring which extends to another section:(Example)

A)

• Wiring of connector

(Example)

15

16

31

32

10

—

CAM 1CAM 2VIDEO/SYSCONAUDIO/LCDDV MAINOVERALL

1/2 – 2/21/3 –3/31/2 – 2/21/2 – 2/21/7 – 7/71/2 – 2/2

Board Board NameNumber of

divided sections

• Expression of wiring

As the following circuit diagram is divided to print on somesheets, such an indication as the following is found in the casethe wiring extends over two or more divided sections.

1) Circuit diagram divided into two or more sections:

In the above case, the end of the wiring is connected tothe “DSP_HD” on the 2nd section of the diagram.

B)

DSP_HD 2/3

Signal name

This indication that wiring extends to“2/3” of the diagram.

1

CN11

To 11 ISB CN11 (P. 4-6)

2

In the above example, CN11 is connected with CN11 on11 ISB board.

• Signal flow on the diagramThe following allow marks indicate the specified signal pathsrespectively.

: Recording or EE signal path: Playback signal ptah: Recording and Playback signal path

• OthersIn regard of a board assembly whose circuit is composed ofmultilayered board patterns such 4- or 6-layered patterns, boardpatterns of the power supply lines and grounding lines are omit-ted in this section.

Note: For detail of each electrical part, refer to Section 6“ELECTRICAL PARTS LIST” by it symbol number.

In the above case, the end of the wiring is connected tothe “FRP” on the “DV I/O” section of the diagram.

FRP DV I/O

Signal name

This indication that wiring extends to“DV I/O” section of the diagram.

4-2

REPLACING SURFACE MOUNT “CHIP” COMPONENTS

• Some resistors, shorting jumpers (0 resistance), ceramiccapacitors, transistors, and diodes are chip parts. These chipparts cannot be reused after they are once removed.

• Chip resistors used in some circuits are of high precisiontype having little error in resistance.To demonstrate the full capacity of this set, place an orderfor proper parts referring to the diagrams and parts lists inthe section 5.

• Soldering cautions:1) Do not apply heat for more than 3 seconds.2) Avoid using a rubbing stroke when soldering.3) Discard removed chips; do not reuse them.4) Supplementary cementing is not required.5) Use care not to scratch or otherwise damage the chips.

[3] Chip diodes

CHIP PARTS PIN ARRANGEMENT

[1] Digital transistors

R1

R2

C

B E

R1

R2

C

B E

DTC 1

1 2 3 DTB 1DTA 1

1 2 3

(Top view) (Top view)

1 Two digits show resistance of R1 in abbreviation.43 : 4.7 kΩ14 : 10 kΩ24 : 22 kΩ44 : 47 kΩ

2 Roman letter show the resistive ratio between R1 and R2in abbreviation.

E : R2/R1 = 1/1Y : R2/R1 = 5/1W : R2/R1 = 2/1X : R2/R1 = 1/2T : R2 is opened.

3 Symbol the shape of resistor in abbreviation.

[2] Chip transistors and chip F.E.T.s



MA143A/MA742 MA142WA MA142A

(Top view)(Top view) (Top view)

C

B E

G

S D

C

B E

2SD2SC

2SB

2SJ2SK

2SA

G

S D

4-34-3

4.1 INDEX TO PAGES OF MAIN BOARDS AND CIRCUIT BOARD LOCATION

4.1.1 Circuit board location

BoardNo.

Board NameBlock diagram Circuit board

Page of diagramSchematic diagram

——01

02

03

04

10

02

03

04

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

31

32

BoardNo.

Board NameBlock diagram Circuit board

Page of diagramSchematic diagram

33

34

35

36

37

38

39

40

41

42

43

OVERALLOVERALL (VTR UNIT)PR&MDADCDCROMCONN.DV MAINISBISGISRTGCAM1CAM2PS1PS2ROMJOGIFSWRUSWFSWRMSWRBSWPWMICBNCFLVIDEO/SYSCONAUDIO/LCD

REGMOTHEROPESEN1SENS2REMOTEAU JUNKXLRPWR JUNCCONNECTEAR.J

Left side Rear

Bottom

4-44-42

4-52,534-564-554-55

4-43 to 44

4-6

4-84-10,11

4-14 to 164-194-204-224-244-224-244-254-254-254-254-254-25

–4-27,284-30,31

——

4-544-574-574-57

4-50,51

4-7

4-94-12,134-17,18

4-214-214-234-264-234-264-264-264-264-264-264-264-264-29

4-32,33

4-344-364-394-404-404-404-384-404-394-404-40

4-354-374-414-414-424-414-374-414-414-414-41

——

4-66,67

4-66,67

4-58

4-584-594-60——

4-59

4-614-614-61——————

4-62,644-63,65

4-64—

10DV MAIN 03ROM

16CAM2

27MIC 28BNC

38REMOTE

37SENS2

(VTR unit)

33REG

17PS1, 18PS2 19ROM 15CAM1

36SEN1

04CONN.

34MOTHER

31VIDEO/SYSCON

32AUDIO/LCD

35OPE 22SWRU 20JOG

24SWRM

25SWRB 26SWPW

21 IF

23SWF

14TG

11 ISB 12 ISG 13 ISR

01PR & MDA 02DCDC

42CONNECT

40XLR

43EAR.J 41PWR JUNC 39AU JUNK

Right side

VTR unit

GY-DV500 GY-DV500

総合結線図　(1/2)4.2

OVERALL　WIRING　DIAGRAM　(1/2)4.2

DCOUT

VF　CONNECTOR

DV　M

AIN

CN

1

DV　MAINCN2

MOTHER

MOTHERUNIT　AUDIO　IN(CH1) UNIT　AUDIO　IN(CH1)

LENS　CONNECTORUNIT　AUDIO　IN(CH2) UNIT　AUDIO　IN(CH2)

UNIT　AUDIO　OUT(CH1) UNIT　AUDIO　OUT(CH1)

UNIT　AUDIO　OUT(CH2) UNIT　AUDIO　OUT(CH2)

REG

JOG

4-4 4-4

GND 20 1 GNDGND 19 GND2-5V 18 -5V3NC(H1L) 17 4 NC(H1L)

5 H2H2 16H1 15 H16VSUB 14 7 VSUBVL 13 VL8V4 12 9 V4V3 11 V310V2 10 V211V1 9 V112CCD　RST 8 13 CCD　RST+15V 7 +15V14NC(HP) 6 15 NC(HP)SHP 5 16 SHPCP 4 CP17GND 3 GND18S/H 2 S/H19+5V 1 20 +5V

CN11 CN11

GND 6 6 GNDNC 5 5 NC NG1SET 4 4 SET GND2GND 15 1 GNDTRG 3 3 TRGGND 5 5 GND GND 10 1 GND GND 14 2 GND CN39DIRECTION 2 2 DIRECTIONFILTER4 4 4 FILTER4 LENS　RET 9 2 LENS　RET NG 13 3 NG GND4 4CAM　C(G)+5V 1 1 +5VFILTER3 3 3 FILTER3 LENS　TRIG 8 3 LENS　TRIG NC 12 4 NC GND3 3CAM　C(X)

FILTER2 2 2 FILTER2 AUDIO　ADJ 7 4 AUDIO　ADJ CN38CN38NC 11 5 NC REG　7.2V2 2CAM　Y(G)FILTER1 1 1 FILTER1 TAKE 6 5 TAKE FASLED 10 6 FASLED REG　7.2V1 1CAM　Y(X)2 GND

SW　CS 5 FFC 6 SW　CSCN10CN10 JOG　SET 9 7 JOG　SET CN5CN51 NGSCK 4 7 SCK JOG　DIR 8 8 JOG　DIR CN39SDT　SWF 3 8 SDT　SWF JOG　TRG 7 9 JOG　TRGFILTER 2 9 FILTER GND 6 10 GND+5V 1 10 +5V GND 10 1 GNDSW　CS 5 11 SW　CS NG 3 3 NG

CN35CN35 POWER　ON 9 2 POWER　ONSCK 4 FFC 12 SCK POWER　ON 2 2 POWER　ONNC 30 1 NCNG 8 3 NGSDT　RX 3 0.5mm 13 SDT　RX GND 1 1 GNDCS　DVSYS 29 2 CS　DVSYSAUTO　B 7 4 AUTO　BSDT　SWF 2 14 SDT　SWF CN40CN40JB　CLK 28 3 JB　CLKPRESET 6 5 PRESET+5V 1 15 +5VJB　DATA 27 4 JB　DATAAUTO　KNEE　 5 6 AUTO　KNEE　CN36CN36ZOOM　POSI 10 10 ZOOM　POSIGND 26 5 GNDBARS 4 FFC 7 BARSEXT　X2 9 9 EXT　X2ASPECT 25 6 ASPECTGAIN　L 3 8 GAIN　LLENS　A/R 8 8 LENS　A/RAGC　RST 24 7 AGC　RSTGAIN　H 2 9 GAIN　HIRIS　POSI 7 7 IRIS　POSIA　GND 23 8 A　GND+

5V+

9VS

W+

12V

SW

+12

V-5

VFI

LTE

RIR

IS　P

OS

IZO

OM　P

OS

IE

XT　

X2

GN

DJO

G　T

RG

TOG　D

IRJO

GS

ET

GN

DN

CN

CN

CP

OW

ER　O

NSC

KLE

NS　D

A　C

SS

W　C

S40

94　O

ES

DT　

TXS

DT　

RX

GN

DA

UD

IO　A

DJ

TAKE

NG

GN

DG

ND

STBY 1 10 STBYSW+12V 6 6AUDIO　GND 22 9 AUDIO　GNDCN37CN37IRIS　CTL 5 5 IRIS　CTL

21 10LENS　AUTO 4 4 LENS　AUTOAUDIO　GND 20 11 AUDIO　GNDGND 3 3 GND

19 12LENS　TRIG 2 2 LENS　TRIG CN

23

AUDIO　GND 18 13 AUDIO　GNDLENS　RET 1 1 LENS　RET17 14CN31

AUDIO　GND 16 15 AUDIO　GND15 16

A　GND 14 17 A　GNDA　GND 13 18 A　GNDPB　C(G) 12 FFC 19 PB　C(G)FFCPB　C(X) 11 20 PB　C(X)PB　Y(G) 10 21 PB　Y(G)PB　Y(X) 9 22 PB　Y(X)A　GND 8 23 A　GNDA　GND 7 24 A　GND

+5V

+9V

SW

+12

VS

W+

12V

-5V

FILT

ER

IRIS　P

OS

IZO

OM　P

OS

IE

XT　

X2

GN

DJO

G　T

RG

TOG　D

IRJO

GS

ET

GN

DN

CN

C

PO

WE

R　O

NSC

KLE

NS　D

A　C

SS

W　C

S40

94　O

ES

DT　

TXS

DT　

RX

GN

DA

UD

IO　A

DJ

TAKE

NG

GN

DG

ND

CN

23

FRP 6 25 FRPSAVE 5 26 SAVEGND 4 27 GNDPBVS 3 28 PBVSPBHS 2 29 PBHSNC 1 30 NC

CN4CN4

REG+48V 33 1 REG+48VGND 32 2 GND

1 GND20GND FRONT　VR 31 3 FRONT　VRGND 40 40 GND2 GND19GND TAKE 30 4 TAKEGND 39 39 GND-5V318-5V NG 29 5 NGWRLX 38 38 WRLX4 NC(H1L)17NC(H1L) GND 28 6 GNDROM　CE 37 37 ROM　CE5 H216H2 CAM　MIC(L) 27 7 CAM　MIC(L)RDX 36 36 RDX6 H115H1 CAM　MIC(H) 26 8 CAM　MIC(H)GND 35 35 GND7 VSUB14VSUB GND 25 9 GNDGND 34 34 GND8 VL13VL CAM　R　METER 24 10 CAM　R　METERA17 33 33 A17V4 12 9 V4 CAM　L　METER 23 11 CAM　L　METERGND 50 50 GNDA16 32 32 A16V31011V3 GND 22 12 GNDGND 49 49 GNDA15 31 31 A15V21110V2 VTR　STATUS 21 13 VTR　STATUS-10V 48 48 -10VA14 30 30 A1412 V19V1 CAM　CMD 20 14 CAM　CMD-5V 47 47 -5VA13 29 29 A1313 CCD　RST8CCD　RST 232C　SEL(H) 19 15 232C　SEL(H)NC 46 46 NCA12 28 28 A1214 +15VFFC7+15V SAVE 18 16 SAVENC 45 45 NCA11 27 27 A11NC(HP)156NC(HP) VTR　REC 17 17 VTR　RECAUDIO　ADJ 44 44 AUDIO　ADJA10 26 26 A1016 SHP5SHP TALLY 16 18 TALLYNG 43 43 NGA09 25 25 A09CP174CP RETURN　SW 15 19 RETURN　SWTAKE 42 42 TAKEA08 24 24 A0818 GND3GND NC 14 20 NCVTR　STATUS 41 41 VTR　STATUSA07 23 23 A0719 S/H2S/H GND 13 21 GNDCAM　CMD 40 40 CAM　CMDA06 22 22 A0620 +5V1+5V DISP　CLK 12 FFC 22 DISP　CLKVTR　REC 39 39 VTR　RECA05 21 21 A05

DISP　DATA 11 23 DISP　DATACN13CN13 4094OE 38 38 4094OEA04 20 20 A04DISP　CS 10 24 DISP　CSNC 37 37 NCA03 19 19 A03DISP　BUSY 9 25 DISP　BUSYGND 36 36 GNDA02 18 18 A02DISP　ENABLE 8 26 DISP　ENABLEAUDIO2　LEVEL 35 35 AUDIO2　LEVELA01 17 17 A01GND 7 27 GNDAUDIO1　LEVEL 34 34 AUDIO1　LEVELA00 16 16 A00RETURN　Y(G) 6 28 RETURN　Y(G)GND120GND GND 33 33 GNDSWCS 15 15 SWCSRETURN　Y(X) 5 29 RETURN　Y(X)2 GND19GND SCK 32 32 SCKSCK 14 14 SCKCAM　C(G) 4 30 CAM　C(G)3 -5V18-5V SDT　TX 31 31 SDT　TXSDT　IF 13 13 SDT　IFCAM　C(X) 3 31 CAM　C(X)4 NC(H1L)17NC(H1L) VTR　IF　CS 30 30 VTR　IF　CSSDT　RX 12 12 SDT　RXCAM　Y(G) 2 32 CAM　Y(G)H2516H2 SG　DA　CS 29 29 SG　DA　CSD07 11 11 D07CAM　Y(X) 1 33 CAM　Y(X)H1615H1 CHAR　SCK 28 28 CHAR　SCKD06 10 10 D06

CN3CN3VSUB714VSUB CHAR　SDT 27 27 CHAR　SDTD05 9 9 D05VL813VL CHAR　CS 26 26 CHAR　CSD04 8 8 D04V4912V4 DEN　SCK 25 25 DEN　SCKD03 7 7 D03V31011V3 DEN　SDT 24 24 DEN　SDT 59 AL　GND 60 DC6.3VD02 6 6 D02V21110V2 DSP　SDT　RX 23 23 DSP　SDT　RX 57 AL　GND 58 DC6.3VD01 5 5 D01V1129V1 DSP　SDT　TX 22 22 DSP　SDT　TX 55 REC　Y 56 REC　YD00 4 4 D00CCD　RST138CCD　RST DSP　SCK 21 21 DSP　SCK 53 A　GND 54 A　GNDRESET 3 3 RESET

14 +15VFFC7+15V DSP　CS 20 20 DSP　CS 51 REC　C 52 REC　C+5V 2 2 +5V15 NC(HP)6NC(HP) RESET 19 19 RESET 49 A　GND 50 A　GND+5V 1 1 +5V16 SHP5SHP DISP　CS 18 18 DISP　CS 47 PB　Y 48 PB　YCN24CN24

CP174CP INT/EXT 17 17 INT/EXT 45 A　GND 46 A　GND18 GND3GND WEN 16 16 WEN 43 PB　C 44 PB　C

S/H192S/H GND 15 15 GND 41 A　GND 42 A　GND20 +5V1+5V AD　BCP 14 14 AD　BCP 39 PB　R-Y 40 PB　R-Y

OP　VD 13 13 OP　VD 37 A　GND 38 A　GNDCN12CN12OP　HD 12 FFC 12 OP　HD 35 PB　B-Y 36 PB　B-YGND 24 1 GNDGND 11 11 GND 33 A　GND 34 A　GND+5V 23 2 +5VAPR　B 10 10 APR　B 31 A　REC(L) 32 A　REC(L)+5V 22 3 +5VGND 9 9 GND 29 A　GND 30 A　GNDSHUT　CS 21 4 SHUT　CS C

N1

11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59APR　G 8 8 APR　G 27 A　REC(R) 28 A　REC(R)OP　CS 20 5 OP　CS 1 3 5 7 9

GND 7 7 GND 25 A　GND 26 A　GNDOP　SCK 19 6 OP　SCK NC

AL　

GN

DA

L　G

ND

FRP

GN

DC　O

UT7

C　O

UT6

C　O

UT5

C　O

UT4

Y　O

UT7

Y　O

UT6

Y　O

UT5

Y　O

UT4

GN

DR

EF　

CLK

( +)

GN

DP

BV

SR

EF　

VIN

VG

ND

CA

M　C

LK( +

)G

ND

C　I

N7

C　I

N6

C　I

N5

C　I

N4

Y　I

N7

Y　I

N6

Y　I

N5

Y　I

N4

APR　R 6 6 APR　R 23 A　PB(L) 24 A　PB(L)OP　SDT 18 7 OP　SDTGND 5 5 GND 21 A　GND 22 A　GND-5V 17 8 -5V+9V 4 4 +9V 19 A　PB(R) 20 A　PB(R)+20V 16 9 +20V+3.3V 3 3 +3.3V 17 A　GND 18 A　GND-10V 15 10 -10V+3.3V 2 2 +3.3V 15 EXT　EE(L) 16 DIG　EE(H)OP　CLK 14 11 OP　CLK+5V 1 1 +5V 13 VSYNC(L) 14 ATFIGND 13 12 GND

11 VBLK 12 AGC　RSTCN21CN21OP　HD 12 13 OP　HD9 EVFHD 10 ASPECTOP　VD 11 FFC 14 OP　VD G

ND

CA

M　M

IC　C

CA

M　M

IC　H

CN

32

VF　T

ALL

YS　G

ND

VF　Y

BA

TT　A

LAR

M16

:9　C

TLW

IDE　C

TL

GN

DTE

ST

GN

DG

EN　L

OC

K

7 YCGCTL 8 JVC　DATA10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60NC(FIP) 10 15 NC(FIP) 2 4 6 8

5 Y　GCYL 6 JVC　CLKNC(SHCT) 9 16 NC(SHCT) NC

DC

6.3V

DC

6.3V

P　S

AV

EG

ND

C　O

UT3

C　O

UT2

C　O

UT1

C　O

UT0

Y　O

UT3

Y　O

UT2

Y　O

UT1

Y　O

UT0

GN

DR

EF　

CLK

( -)G

ND

PB

HS

RE

F　H

INH

GN

DC

AM

CLK

( -)G

ND

C　I

N3

C　I

N2

C　I

N1

C　I

N0

Y　I

N3

Y　I

N2

Y　I

N1

Y　I

N0

3 C　GCTL 4 JVC　CSWEN 8 17 WEN1 NC 2 NCGND 7 18 GNDFFC

CN2S/H　B 6 19 S/H　B CN

33

CN

34GND 5 20 GND

GN

DG

ND

SW

+12

VS

W+

12V

+3.

3V+

3.3V

+5V

+5V

-5V

+20

V+

9V-1

0VP

OW

ER　O

NS

W+

12V　O

NP

OW

ER　O

FF

S/H　G 4 21 S/H　GGND 3 22 GND

1 2 3 1 2 3 41 2 3 4 5 6S/H　R 2 23 S/H　RGND 1 24 GND

CN14CN14 CN

45

4 GEN　LOCK3 GNDF BATT　ALARM2 TESTE VF　Y10 11 12 13 14 15

1 GND1 2 3 4 5 6 7 8 9 D S　GNDC GNDB SW+12V

3 CAM　MIC　HA VF　TALLY

2 CAM　MIC　C1 GND

1234

10 11 12 13 14 15

1 2 3 4 5 6 7 8 9

CN

43

GN

DG

ND

SW

+12

VS

W+

12V

+3.

3V+

3.3V

+5V

+5V

-5V

+20

V+

9V-1

0VP

OW

ER　O

NS

W+

12V　O

NP

OW

ER　O

FF

SW

+12

VS

W+

12V

GN

DG

ND

CN

45

UNSW+12V 5 5 UNSW+12VUNSW+12V 4 4 UNSW+12VSW+12V 3 3 SW+12VGND 2 2 GNDGND 1 1 GND

2.0/WIRE CN41CN41

PWR　JUNC　XLR　

MIC　　

BNC　

CAM2　

CAM1　

ROM　

TG　

ISB　

ISG　

ISR　

SWF　FL　

IF　

SWRU　

SWPW　

SWRB　

SWRM　

WIRE

WIRE

WIRE

NC

WIRE

WIRE

SW+12V

WIR

E

PS1　 ,　PS2　

Page　4-6

Page　4-19,　20

Page　4-10,　11

Page　4-6

Page　4-6

Page　4-8

Page　4-22

321 654 87

14

9

1110 1312 171615 1918 25222120 2423 282726 3029

Page　4-25

Page　4-22

Page　4-24 Page　4-25

Page　4-24

Page　4-25

Page　4-25

Page　4-14　to　16

Page　4-19

Page　4-25

Page　4-25

Page　4-40

VTR　SECTION　(2/2) Page　4-5

1C

30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

・総合結線図　(2/2)

4-54-5

GY-DV500GY-DV500

・OVERALL　WIRING　DIAGRAM　(2/2)

　

CN

402

CN3

CN2

DV　MAIN　

CAM2　

VTR　UNIT　Page　4-42

CAMERA　SECTION　(1/2)　Page　4-4

Page　4-27,　28

MOTHER　　Page　4-36

VIDEO/SYSCON　

AUDIO/LCD　　Page　4-30,　31 OPEP.　4-39

CN1

Page　4-34REG　

PS1,　2,　

Page　4-39PWR.　JUNC　

AU.　JUNK　　Page　4-38

Page　4-40 Page　4-40CONNECT　

Page　4-40Page　4-40

EARPHONE(H)

NC

Page　4-40

Page　4-40

1

2

3

3

2

1

1C

SEN1　 SENS2

SL91188

GY-DV500GY-DV500

4.3

4-6 4-6

4.3

ISB/ISG/ISR　基板基準回路図　／／

ISB/ISG/ISR　SCHEMATIC　DIAGRAM　／／

・ISB

・ISG/ISR

CDSCCD

CCD CDS

4-6

To

CN11Page　4-8

　TG

To

CN12,　13Page　4-8

　TG

2C

SC92657

GY-DV500GY-DV500

4.4 ISB/ISG/ISR　基板部品配置図

4-7 4-7

4.4 ISB/ISG/ISR　CIRCUIT　BOARD

・ISB

・ISG

・ISR

　SIDE　B　　SIDE　A　

　SIDE　A　　SIDE　B　


Each　address　may　have　an　address　error　by　one　interval.

アドレスは１区間の誤差がある場合があります。

　ADDRESS　TABLE　OF　BOARD　PARTS

Side

A-1C

X　axisY　axis

基板上の部品配置アドレス表




Side

A-1C

X　axisY　axis





Side

A-1C

X　axisY　axis


IC501IC503IC504IC505IC506

Q501

R501R502R503R504

A-2BA-2BA-1BB-2CA-2B

A-1A

B-3AB-1BB-1BB-1C

R505R506R507R508R509R510R511R512R513R514R519R520

A-1AA-1BA-1BA-1BA-1BA-1BB-2CB-2CB-3CB-3CA-2BB-2B

R521R522R523

C501C504C505C506C507C508C509C510

B-2BB-2AB-2A

B-1AB-1BB-2BB-1CB-1AA-1AA-1AB-2C

C511C512C513C514C515C518C519C520C521C522C523C524

B-1CB-2CB-2AA-1CA-3CB-2CA-3AA-1BA-1AB-2CB-2BA-3B

C525

CN11

LC501

A-3B

A-2C

B-1C

IC501IC503IC504IC505IC506

Q501

R501R502R503R504

A-2BA-1BA-2AB-1BA-3B

B-3C

B-2CB-2AB-3AB-2A

R505R506R507R508R509R510R511R512R513R514R519R520

B-3CA-2BA-2AA-2BA-2BA-2BB-1AB-1AB-1AB-1AA-3AB-3B

R521R522R523

C501C504C505C506C507C508C509C510

B-3BB-2BB-2B

B-2CB-2AB-2AB-2AB-2CA-1AA-1AB-1B

C511C512C513C514C515C518C519C520C521C522C523C524

B-2CB-1CA-2AA-3CA-1CA-1AB-2CA-2BA-2AB-2CB-3BA-3A

C525

CN12

LC501

A-2A

A-2D

B-2C

IC505

IC506IC503

IC504

IC501

Q501

R521R522

B-1B

A-3BA-1B

A-2A

A-2B

B-3C

B-3BB-2B

R523

R503

R513

R502R510R501R514R509

R508

B-2B

B-3A

B-1A

B-2AA-2BB-2CB-1AA-2B

A-2B

R507R511R506R512R505R504

R519R520

C509C510C511

A-2AB-1AA-2BB-1AB-3CB-2A

A-3AB-3B

A-1AB-1BB-2C

C521C522

C523C520C508

C504C507C514C512C506

A-2AB-2C

B-3BA-2BA-1A

B-2AB-2CA-3CB-1CB-2A

C515

C525C524C518C519

C501C505

C513

LC501

A-1C

A-2AA-3AA-1AB-2C

B-2CB-2A

A-2A

B-2C

CN13 A-2D

A B C C B A

22

A B C C B A

2 2

A B C C B A

2 2

1 1

1 1

1 1

3 3

3 3

33

SC82604-02-002

SC82604-03-002

SC82604-04-002

2C(両面) 4-7

GY-DV500GY-DV500

4-8 4-8

　

4.5

4.5

Gate

Driver

LatchV　Rom

Mode1/2

H　Reset

V　Reset

PulseGen

TG

4-8

-7.6

-0.5-7.7

0

4.7

5

4.7

-8

-8 -0.7 0 0 5 05

6.5

6.2

6.2

1710

10

10

11

10.3

910.8

5

9.4

5

0.7

4.2

4.2

8.5

6.5 10

16.3

6.5 10

15.0

0

0

0

0

0

1.2

2.0

2.0

3.5

50

0

5 0 0

5

5.4

5.2

4.8

0

0

5

4.75

4.7

0

-8.0

-8.7

H-rate1.2Vp-p

To

CN11Page　4-6

　ISB

To

CN12Page　4-6

　ISG

To

CN13Page　4-6

　ISR

To

CN14Page　4-10

　CAM1

2C

TG(Timing　Generator)　基板基準回路図　

TG(Timing　Generator)　SCHEMATIC　DIAGRAM　

SC92645

GY-DV500GY-DV500

4.6 TG　基板部品配置図

4-9 4-9

4.6 TG　CIRCUIT　BOARD




Side

A-1C

X　axisY　axis

基板上の部品配置アドレス表 IC1IC2IC3IC4IC5IC6IC7IC8IC9IC10IC11IC14IC15

Q1

D1D2D3D4

R1R2

A-3BB-4GB-4EB-4DA-6FB-2FB-2DB-5CB-4BB-5BB-5AB-3BB-4A

A-5D

B-3GB-3EB-3DA-5G

A-3CB-3B

R3R4R5R6R7R8R9R10R11R12R13R14R15R16R17R18

C1C2C3C4C5C6

B-3GA-5GB-3EA-5EB-3DA-5DA-4BA-6DA-6DA-6DB-1EA-4BA-5BB-2CB-2CA-4B

A-2AA-2AA-2BA-2FA-2FA-2F

C7C8C9C10C11C12C13C14C18C19C20C21C22C23C24C25C26C27C28C29C30C31C32

B-1EB-2CB-2CB-3GB-3EB-3DB-2BB-2AA-2EA-1EA-4CA-4FA-5GB-4FA-4EA-5FB-4EA-4DA-5DB-4CA-6GA-6EA-6E

C33C34C35C36C37C38C39C40C41C42C43C44C45C46C47C48C49C50C51C52C53C54C55

A-6DA-6CA-6FA-6EA-4GA-4FA-4DA-5GA-5FA-5EA-5EA-5DA-5DA-4BA-4BA-2BB-5CB-5BB-1FB-1DB-3CB-5AB-4B

C56

TP1TP2TP3

CN11CN12CN13CN14

K1K2K3K4K5K6K7K8

LC1LC2

B-4A

A-1FA-1EB-1D

A-3GA-3EA-3DA-1C

A-4BA-4AA-2EA-2EA-2FA-2FA-2FA-2C

A-4CA-4C

TB1TB2TB3TB4

B-6BB-6GB-1GB-1A


2C(両面) 4-9

GY-DV500GY-DV500

4.7

4-10 4-10

4.7

　

CAMERACPU

4-10

1.1

4.2

19.6

0.7

0

1.7

3.1

1.7

7

5

5

0

0

0

5.9

0000

5

0

5

0

5

5

5055

0

0

0.3 5

0

0

0

5

4.9

5

4.7

5

5

3.8

4.6

4.6

0

4

4

0

0 0 0 0 0 0 0 5 5 5 5

0

0 0 0 0 0 0 0 0 0 05 5 5

5 0 0 5 5 0 0 5 0

0 0 0 0 5 0 0 5

4.1

0.7

O(NTSC)

O(PAL)

O(NTSC)

O(NTSC)

O(PAL)

O(PAL)

NC

TO

CN14Page　4-8

　TG

Page　4-22

　IFTO

CN23

FactoryUseOnly

CN45　Page　4-20

TO　PS2

O(NTSC)

O(NTSC)

O(NTSC)

O(NTSC)

O(NTSC)

O(PAL)

O(PAL)

O(PAL)

O(PAL)

O(PAL)

TO

CN21Page　4-14

TO

CN24Page　4-22

　CAM2

　ROM

2C

CAM1(CAMera　1)　基板基準回路図　(1/2)　

CAM1(CAMera　1)　SCHEMATIC　DIAGRAM　(1/2)　

CN23

SC92646　1/2

+4.3V

4.7/16C917 C922

4.7/16

C6927p

+4.3V

+4.3V+4.3V

+4.3VC65

0.047

CK VCC

D

Q

GND

PR

CLK

Q

IC4

GY-DV500GY-DV500

4-11 4-11

　

・CAM1　SCHEMATIC　DIAGRAM　(2/2)　

・CAM1　基板基準回路図　(2/2)　

4-11

0

0.3

4.9

0

0.30

0

0

0

0

0

0

0

2.5

3.4

3.4

3.4

-2.2

5.5

5.50 5

1.65.2

1.1

1.8

3

4

2.5 1.9

00

0

0

2.6

0

0

54.1

1.3

0

0

0

2.5

2.5

2.5

2.42.4

2.42.4

2.42.4

0

2.4

2.4

4.3

3

3.4

2.9

0

00

5

0

0

00

2C

Lolux　OFF

Lolux　ON

SC92646　2/2

C576

0

C4755p

0

C5755p

4.7/16

C5684.7/16

0

C6755p

GY-DV500GY-DV500

4.8 CAM1　基板部品配置図

4-12 4-12

4.8 CAM1　CIRCUIT　BOARD


IC61IC62IC63IC64IC65IC66IC412IC413IC415IC421IC422IC424IC425IC429IC511IC512IC513IC514IC515IC516IC521IC522IC524IC525IC526IC527IC528IC529IC531IC612IC613IC615IC621IC622IC624IC625IC629IC901IC903IC904IC905IC906IC907IC908IC909IC910IC911IC912

Q411Q412Q511Q512Q513Q514Q515Q516Q517Q611Q612

D402D502D602D901D902

B-7DB-6EA-6EB-7DA-6EA-6EA-5CB-4CB-3CB-5CA-4CB-3DB-4EA-4DA-5AA-5BB-4BA-2AB-3BB-2CB-5CA-4BB-4DB-4EB-2DB-1DB-7AA-4DB-2EA-5BB-4BB-3BB-5BA-4BB-5DB-5EA-5DA-4GB-5GB-3GB-3FA-5HA-6FB-1HB-1HB-5HB-2HB-5F

A-2DB-2CA-2DB-2BB-2AB-3EB-6AA-3DB-3CA-2DB-2B

A-3EA-4EA-5EB-1HB-1H

R61R62R63R64R65R66R67R68R69R70R71R72R73R74R75R76R77R78R79R80R81R82R431R432R433R434R435R436R437R438R439R440R441R442R443R444R445R446R447R448R449R450R457R458R461R462R463R464R465R466R467R468R469R470R471R484R485R486R487R488R489R490R491R492R493R494R495

B-7DA-5EB-7EB-7EA-5EB-7EB-7EB-7EB-7EB-7EB-7EA-6EA-6EA-7EA-7EA-7EA-7EA-7EA-7EA-7DA-7DB-7DB-7CB-6CB-6CB-6CA-6CA-6CA-5CA-4CA-5CA-5CA-4CB-3CA-4CA-4CB-3CB-3CB-3CB-2CB-2CA-3DA-4DB-4CA-3DA-3DA-3DB-5CA-5CA-3DA-3DA-4DA-4DA-4DB-3CB-4EB-4EB-3EB-3EB-3EB-3DB-3DB-4DB-4DB-4DB-4DB-3D


B-3DB-3CB-4DB-4CB-7CA-7BA-6BA-6CA-7BA-6BA-5BA-4BA-5BA-5BA-4CB-3BA-4CA-4BB-3BB-3BB-3BB-2CB-2BA-2DA-5DB-4BB-2AB-3EA-4DA-4DA-4DB-5BA-5CA-4DA-4DA-5DA-5DB-3CB-3DA-3CA-3DA-3DA-3CB-7AB-7AB-5AB-2AB-2AB-2AB-5EB-4EB-4EB-4EB-4EB-4DB-4DB-5DB-5DB-5DB-5DB-4DB-4CB-5DB-5CB-7BB-6BB-6B


B-6BA-7BA-7AA-5BA-4BA-5BA-5BA-4BB-3BA-4BA-4BB-3BB-3BB-3BB-2BB-2BA-2DA-6DB-4BA-5DA-5DA-5DB-5BA-5BA-5DA-5DA-5DA-6DA-6DB-3BA-3EB-6EB-5EB-5EB-5EB-5EB-5DB-5DB-6DB-6DB-6DB-5DB-5DB-5DB-5CB-6DB-6CA-4EA-4EA-4EA-2FA-2FA-2FA-2GA-3HA-3HA-4HA-4HA-4HA-5GA-5GA-5GB-3FB-2HB-2HB-2HB-3A




Side

A-1C

X　axisY　axis


SC82605-01-002

2C(両面) 4-12

C567

R553

R5525

T

C568

+

R551

IC532

8

4 1

R555

R554

GY-DV500GY-DV500

4-13 4-13

A-2AA-5E

A-1BA-1G

A-1EA-7C

A-6G

A-3ATP909TP908

B-5BB-5B

C653C652B-7D

B-6D

TB903TB901

B-5D

A-5AA-5B

CN21CN14

B-4B

B-3AB-3B

TB904B-3B

C656

C662C661

B-6F

A-6EA-6D

C664

C666C665B-7C

B-6C

B-7CC663B-7D

TP910B-4BC654B-6D

A-7G

A-6HA-3H

A-1H

A-7HB-7D

B-7HB-7H

B-7HB-7H

B-7HB-7H

B-7GB-7G

CN24

CN46CN45

A-2F

B-3GA-5G

CN101

K901K61

B-4GB-4G

B-2HA-6F

C902

C904C903

A-5CA-5CA-7C

C906C905

C908C907

B-5CB-5CA-2CA-3C

K903K902

K905K904

A-1HB-2H

B-5AB-5A

K907K906

K909K908

B-3HB-4H

B-5HB-4H

C910C909

C912C911

A-5CB-3DB-4CB-5C

C914C913

C916C915

B-3CB-4CB-3CA-5C

CN23A-3EC901B-6C A-4A

C64C63B-1H

B-1GR921R922

C66

C68C67A-6D

A-6D

A-1H

A-4EA-4E

A-6DC69A-6DR927

R929R930

R928

R925R926

R924C65A-1HR923

B-5AB-5AB-5A

B-4AB-4AB-4AB-4A

R938R937R936R935R934R933R932

B-4AB-4AB-4AB-4A

B-3AB-3AB-3AB-3A

R946R945R944R943R942R941R940R939

B-5AR931 C434

C465C464C463C462C461C456C454C453C452C451C439C438C437C436C435

C433C432C431

B-7G

B-7GA-6G

B-7G

B-7FA-6F

A-6F

B-7F

B-7FA-6F

B-7F

B-7FA-6F

A-6F

A-6F

K910

K912K911

B-6H

B-4EB-2H

K914

K916K915

B-6C

B-7CB-7C

K913

C917

C919C918B-7C

B-7C

B-3C

L401

L403L402

A-7B

A-6BA-7B

B-6C

K918

K920K919

A-6C

A-2CA-3C

K922

K924K923

B-7B

A-7BB-7B

K921A-6B

L405

L407L406

A-3B

A-6BA-2C

L502

L504L503

B-5B

B-5BB-5C

L501A-7B

K917A-6CL404A-6B

B-7F

B-7FA-6F

A-5G

A-6F

B-6D

K926

K928K927

A-3B

B-6BA-2B

X901B-6B

B-7BB-7B

K929A-7B

L506

L508L507A-3D

A-3C

B-4D

L601

L603L602

A-5BB-3BB-4C

L509A-5C

A-7A

A-2BA-3B

A-4C

A-4BA-2D

L605

L607L606

B-3B

B-6AB-2E

A-5EA-2DA-2DA-2E

TP502TP403TP402

LC61A-7AL604B-3C

K925A-6BL505B-4C A-6F

B-4HB-5H

B-4H

B-1DB-1D

B-1DA-1DR1909

R1911R1912

R1910

R948R949

R947

B-1EB-1E

B-1E

B-1EB-1E

B-1EB-1ER1917

R1919R1920

R1918

R1915R1916

R1914B-1DR1913

B-1EB-1E

B-1E

B-1EB-1F

B-1EB-1ER1925

R1927R1928

R1926

R1923R1924

R1922

B-1FB-1F

B-1F

B-7GB-7G

B-7GB-1FR1933

R1935R1936

R1934

R1931R1932

R1930B-1FR1929

B-1ER1921 C554



A-4A

A-2GA-2D

A-3EA-2G

A-3EA-3E

B-7B

B-6BB-6B

A-7AA-7A

A-3BA-7A

TP905TP904TP903TP902TP901TP603TP602

A-2EA-2E

B-5BA-2B

TP907TP906

A-3HA-4H

A-4E

B-3HA-3HA-3H

R1943R1942R1941

R1939R1940

R1938

B-6DB-7D

C62C61

C651C639C638C637C636C635C634C633C632

A-2DTP503B-7BC631B-7FR1937

　INNER　PATTERN　(SIDE　B)　　INNER　PATTERN　(SIDE　A)　

2C(両面) 4-13

GY-DV500GY-DV500

4.9

4-14 4-14

4.9

　

4-14

Page　4-10

TO

CN21　CAM1

TO

Page　4-25CN33

TO

CN3Page　4-36

TO

CN3Page　4-34

TO

CN1Page　4-49

　MOTHER

　REG

　DV　MAIN

　DV　MAIN

Page　4-49

TO

CN2

TO

CN34Page　4-25

TO

CN4Page4-36　　

　BNC

　MOTHER

2C

CAM2(CAMera　2)　SCHEMATIC　DIAGRAM　(1/3)　

CAM2(CAMera　2)　基板基準回路図　(1/3)　

　MIC

R7203.3k

R7310

0R732

SC92647　1/3

GY-DV500

4-15

　



A/D

LATCH

BLE

MIS

H　C

OM

PE

NS

AT

OR

BLE

MIS

H　D

ET

EC

T

LPF

HP

F

MA

TR

IX　M

AS

KIN

G

GA

MM

A

BO

OT

2B

OO

T1

V.　

CO

MB　F

ILT

ER

V.　

DE

TA

IL

COLOR-BARGEN.

CLIP

UV　MATRIX

MA

TR

IX

BLA

CK　S

TR

ET

CH

KN

EE

&W

HIT

E　C

UPLP

FLP

FH

PF

1HD

L1H

DL

1HD

L

4-15 4-15

2.4

2.4

2.4

0.8

0.81.1

0.80.8

1.9

5

2.4

0.8

0.80.8

0

0

0.9

-5

0

1.4

1.5

2.8

2.8

2.8

0

1.6

1.9

0.9

1.1

1.4

0.9 3.1

2

2

2

2

2

2

0

0

0

0

1.6

0

0

1.4

1.4

1.51.41.7

1.5

1.41.8

2.9 3.1 2.3 0 3.1 3.1

3.1

3.1

1.5

0.50.2

3.1

0

3.1

0

0

1.1

1.1

01.41.31.41.20 1.7

0

1.5

1.41.4

1.3

1.6

1.5

1.5

2 2

1.4

1.3

1.3

1.2

1.7

1.7

0

0

0

0

0

0

0

0

0

0 0

0

0 0

ENCODER&D/A

2C

+3.3V

+3.3V

TO　VF

SC92647　2/3

GY-DV500

4-16

　



27MHz　OSC

SSG

3.5

0

0

0

2.4

1.3

0

0

1.3

4.3

1.1

2.8

2.6

4.8

0

1

1

-3.6

4.9

2.4

0

2.4

2.5

2.6

0

3

0

0

3

0

4.2

0

4.8

0

0

4.7

0

3

0

1.5

0

2.3

1.5

0

0

FactoryUseOnly

NC

2C 4-16

+3.3V

SC92647　3/3

330

470

470

GY-DV500GY-DV500

4.10 CAM2　基板部品配置図

4-17 4-17

4.10 CAM2　CIRCUIT　BOARD





Side

A-1C

X　axisY　axis

基板上の部品配置アドレス表 IC101IC102IC103IC104IC105IC106IC107IC108IC109IC112IC113IC114IC115IC116IC117IC118IC119IC417IC423IC481IC517IC581IC617IC623

B-1BA-1CB-1CB-1CB-1BB-1BB-1CB-2CB-2CB-1CB-2CB-2CA-2CB-1CB-1BB-1BB-1CA-3AA-3AA-3BA-3AA-3BA-2AA-3A

IC681IC691IC692IC693IC701IC702IC750IC801IC811IC821IC823IC824IC825IC826IC827IC828IC829IC830IC832IC833IC900IC901IC902IC906

A-2BA-2AA-2BA-2AB-2AB-2CB-3AA-3BA-2BA-2AA-1AA-1AA-1BA-1AA-1BA-2BA-2CB-2BB-2BB-3BB-3BB-3BB-3BB-3C

IC907IC908IC909IC910IC911IC912IC913

Q101Q601Q602Q701Q702Q703Q902Q903Q904Q905Q906Q907Q909Q910Q911

B-2BB-2BB-2CB-2CB-2CB-2CB-2C

B-1BB-2BA-2BB-2BB-2BB-2BB-3CB-2CB-2CB-2CB-3CB-1AB-1AB-1AB-2C

D701D702D750D751D752D901D903D904D905D906

R102R103R104R105R106R107R114R115R116R117R118R119R120

B-2AB-2AB-1BB-1BB-1CB-1AB-1AB-1AB-1AB-1A

B-1BB-1BB-1BB-1BB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1C

R122R126R127R128R129R130R131R132R133R134R135R136R137R138R139R140R141R142R143R144R145R146R147R148

B-1CB-1CB-1CB-1BA-1CA-1CB-1BB-1BB-1BB-1BA-1CB-1CB-1CB-2CB-2CB-2CB-2CB-2CB-2CB-1CB-2CB-2CB-2CA-1C


B-2CB-2CB-2CB-2CB-1BB-1BB-1CB-1CB-1CA-1CA-1CB-1BA-1CA-1CA-1CB-1CB-1CB-1CA-1BA-1CB-1CB-3BB-3BB-3B


B-3BB-3BB-3BB-3BB-3BB-3AB-3AB-3AA-3AB-3AB-3AB-3AB-3AB-3AB-3AB-3AB-3BB-3AB-3AB-3AA-3AB-3AB-3AB-3A


B-3AB-3AB-3AB-3AB-3BB-2AB-2AB-2AA-2AB-2AB-3AB-3AB-2AB-3AB-2AB-2AB-3BB-2AB-2AB-2AB-2AB-2AB-2BB-2B


B-2BB-2BB-2AB-2BB-2BB-2BB-2BB-2BB-2AB-2BA-2BA-2BB-2BB-2BB-2BB-2BB-2AB-2AB-2AA-2BB-2AB-2BB-2AB-2B


B-2AB-2AB-2AA-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2AB-2AB-1AB-3AB-1BB-1BB-2CB-2CB-1CB-2CB-2CB-3BB-3B


B-2CB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-1BB-1BB-1BB-1BB-1B


B-1BB-2AB-2AA-2AA-2AA-2AB-1AB-1AB-1AB-1AA-1AB-1AB-1AA-1BB-2AB-1BB-1BB-1BB-1BB-1BA-1AB-1AB-1AA-1B


B-1AB-1BB-1BB-1BB-1BB-1BA-1AB-3BB-2BB-2BB-1AB-2BB-3BB-2BB-2BB-3BB-3AB-2AB-2AB-2BB-2BB-2BB-2BB-2B


B-2BB-2BB-2BB-2CB-2CB-2CB-2CB-2CB-2CB-2CB-2CB-3BB-3CB-3CB-2BB-2BB-2BB-2BB-2BB-2BA-2CB-2BB-2BA-2C


B-2CA-2CB-2CB-2CA-2CB-2CB-2CB-2CB-2CB-3CB-3CB-2CB-1AB-1AB-1AB-1AB-2CB-2CB-3BB-3BB-3BB-3BB-2BB-2B

VR801

C101C102C103C104C105C106C107C108C109C110C111C112C113C114C115C116C117C118C119C120C121C122

A-1A

B-1BB-1BB-1BB-1CB-1CA-1CB-1CB-1CB-1CB-1BB-1CB-1CB-1CB-1CB-1BB-1BB-1CB-1CB-1CB-2CB-2CB-2C

C123C124C125C126C127C128C129C130C131C132C133C135C136C138C139C140C141C142C143C144C145C146C147C148

B-2CB-2CB-2CB-2CA-2CA-1CB-2CB-2CA-2CA-1CA-1CB-1CB-1CA-1CB-1CB-1BA-2CB-1BB-1BB-2CB-1BB-1BB-2CB-2C

2C(両面) 4-17

GY-DV500GY-DV500

4-18 4-18

CN1

LC750LC752LC754LC801LC802

K838K901K902K903K904K905

CN2CN3CN4CN5CN21CN22CN32CN33CN34CN46

B-2CB-3BB-2B C854B-2CC702 B-2A C762 C824C655 B-3AC482 B-3B C918B-1CB-3BB-3BB-3BB-3BB-3BB-3BB-3BB-3CB-3CB-3CB-3CB-3C

B-3AA-3AB-3AB-2AB-2AA-2AB-2BB-2BB-2AB-2AB-2AB-3AB-3A

C682B-3BC490B-3AB-3AB-3AB-3AA-3A

C568C569

C555C556C567

C686C687

C683C684C685

B-3AB-3AB-3AB-3AB-3AB-3AB-3B

C486C487C488C489

C483C484C485

C667C668C669C681

C656C657C658

A-2AC711 C807B-2AA-2AA-2BA-2BA-2A

C716C717

C713C714C715

C811C812

C808C809C810

B-2AA-2AB-2AB-2AA-2BB-2AB-2A

C706C707C708C709

C703C704C705

C803C804C805C806

C763C801C802

B-3BB-1A C862C838

B-1AC842C843 B-1A

C840C841

C839A-1BB-2B

A-1A

B-2BC866C867 B-3C

C864C865

C863B-3BB-2B

B-3B

A-2AC828

C836C837

C829B-1AA-1A

A-2A

C826C827

C825A-1BB-2A

B-1B

B-2BC858

C860C861

C859B-2BB-3B

B-2B

C856C857

C855B-2CB-2B

B-3B

A-3AB-2C TB753C927

X101

LC101LC102

B-2CC931C932 B-2C

C929C930

C928A-2CB-3C

A-2C

B-1BB-1C

A-1C

TP101TP103TP104TP751TP752

TB751

B-3CC922

C925C926

C924B-2CB-2C

B-2C

C920C921

C919B-2BB-2C

B-2B

A-3CB-1A

A-3C

A-1CA-1BA-1B

B-2AB-2A

B-2AB-3AB-2A

B-2A

B-3AB-3AB-3A

B-3A

B-3BB-3B

B-3A

B-3AB-3A

B-3A

B-3A

B-3BB-3B

B-3A

C583C455 B-3AB-3A

B-3AB-3A

B-3A

B-3BA-3A

B-3AC467C468

C481C469

C456

C459C458

C587C588

C590C589

C584

C586C585

B-3BB-1C

C182C149

C582C581

C690 B-3B C752B-2B

B-2AB-2A

B-2B

A-2BB-2B

B-2BC694C696

C701C698

C691

C693C692

C756C758C759C761

C753C754C755

B-3AB-2B

C689C688 C750

C751B-1AB-3B C846C815

B-2BC820

C822C823

C821B-2BB-2B

A-2C

C817C819

C816B-3BB-2C

B-3B

C850 B-1A

C852C853

C851A-1BA-1B

B-1A

C848C849

C847A-1BB-1B

A-1A

C813C814

A-3CB-2C

C844C845

A-1BA-2B

B-2CB-3B C935C902

L804L805

L807L808L809

L806B-3CC914

C916C917

C915B-2CB-2B

B-3C

C912C913

C903B-3CB-2B

B-3B

A-1AA-1BA-1AA-1A

A-1BA-1A

C933C934

C868C901

B-3BB-3B

B-3CB-1A

B-1A

A-3A

A-1BA-1A

A-1CA-1AA-2B

A-1CA-2AA-2CA-1B

B-1A

A-1A

B-3A

B-2BB-1AB-1AB-1A

A-3CA-2C

B-2AB-2A

　INNER　PATTERN　(SIDE　B)　　INNER　PATTERN　(SIDE　A)　

2C(両面) 4-18

GY-DV500GY-DV500

4.11

4-19 4-19

4.11

　

　PS1　　

TO

CN44Page　4-20

　PS2

1C

PS(Power　Supply)1,　PS2　SCHEMATIC　DIAGRAM　(1/2)　／

PS(Power　Supply)1,　PS2　基板基準回路図　(1/2)　／

C254OPEN

SC92651　1/2

C215OPEN

GY-DV500GY-DV500

4-20 4-20

　

・PS1,　PS2　基板基準回路図　(2/2)　／

・PS1,　PS2　SCHEMATIC　DIAGRAM　(2/2)　／

　PS2　　

CN44　Page　4-19

For　Serving

TO　　PS1

TO

CN41Page　4-39

TO　VF

TO

CN45Page　4-10

　CAM1

1C

　PWR　JUNC

C2510.1

SC92651　2/2

GY-DV500GY-DV500

4.12 PS1 ,　PS2　基板部品配置図

4-21 4-21

4.12 PS1,　PS2　CIRCUIT　BOARD

・PS1

・PS2

A B C C B A

1 1

22

33

4 4






Side

A-1C

X　axisY　axis





Side

A-1C

X　axisY　axis

基板上の部品配置アドレス表C B BC A AC C

4

3

2

1

4

3

2

1

IC201IC202IC203IC206

Q211Q212Q213Q214Q215Q217Q218

D201D202D203D204D207D208

R201R202R203R204R205R206

A-4AA-3BA-1CB-2A

B-4AB-3CB-4AA-1CA-1CB-2AB-1A

B-3AB-3CB-2CA-1BB-1AA-1A

B-3AB-3AB-3AB-3CB-3CB-3C

R207R208R209R218R219R220R285R286

C201C202C203C204C205C206C207C208C209C210C211C212C213C214C215C216C217

B-1CB-1CB-1CB-2AB-2AB-2AB-2AB-2A

A-3BB-3AB-3BB-3AB-3AB-3AA-4CB-3CB-3BB-3CB-3CB-3CA-2CB-1BB-1BB-1CA-1C

C218C225C226C227C228C229C230C253C254C255

L202L203L204L205L206L207L212L213L214

CN44

B-1CA-1AA-1AA-2AB-2AB-1AB-2AB-1AA-4BA-4C

A-3AA-3BA-3CA-2BA-2BA-1BA-1AA-2BA-4C

B-4B

IC204IC205IC211IC212IC213IC214IC215

Q201Q202Q216Q221Q222Q231Q232Q235Q236Q238Q239Q240Q241Q250Q251

B-3BB-1BB-2AB-3CB-4CB-4CB-4C

A-3BA-1BB-3CB-3AB-3AA-3CA-2CB-2CB-3CB-1BB-3AA-2CA-3CA-4BA-3C

D205D206

R210R211R212R213R214R215R216R217R221R222R223R224R225R226R227R231R232R233R234R241R242

B-3BB-2A

A-2BB-2BB-3BB-2BB-1BB-1BB-1BB-2AB-3BB-3BB-3BB-2BB-2BB-1AB-1AB-3AB-3AB-3AB-3AB-4CB-2C

R243R244R245R246R247R248R249R252R253R261R262R263R280R281R283R284R300R301R302R303R304

C219C220

B-2CB-3CB-3CB-1BB-1AB-2CB-1AB-2BB-3AA-2CA-3CB-3CB-2BB-3BB-2BB-2BB-3AA-4BA-4BA-3BA-3C

B-3BB-2C

C221C222C223C224C231C232C233C234C242C243C244C251C252C256C257C258C259C260C261C262C263

L201L208

B-2CA-2AA-1AB-1BB-3BA-1BB-2BB-2AA-2AB-2AA-2CA-3CB-4CA-3AA-4AA-1BA-1CB-2BB-2BB-2CB-1C

A-4AA-3B

L210

TH201TH202TH203TH204TH205TH206TH207TH208TH209TH210

CN41CN43CN44CN45CN46CN144

A-2B

B-4AB-3AB-3AA-4CA-4CA-4CA-1AA-2CA-4BB-2C

A-3AA-1CB-4BA-3CA-1AB-4B

SC82609-02-002

2C(両面) 4-21

GY-DV500GY-DV500

4-22 4-22

　

4.13

4.13

・ROM　・IF　

TO　LENS

TO

CN35Page　4-25

TO

CN36Page　4-24

　SWF

　SWRU

TO

CN23Page　4-10

　CAM1

Page　4-10

　CAM1TO

PLSC1278

1C

CN24

IF(InterFace),　ROM(Read　Only　Memory)　基板基準回路図　／

IF(InterFace),　ROM(Read　Only　Memory)　SCHEMATIC　DIAGRAM　／

SC93506

SC93504

GY-DV500GY-DV500

4.14 IF,　ROM　基板部品配置図

4-23 4-23

4.14 IF,　ROM　CIRCUIT　BOARD

・IF ・ROM

　SIDE　B　　SIDE　A　　SIDE　A　

　SIDE　B　

2C(両面) 4-23

GY-DV500GY-DV500

4.15

4-24 4-24

4.15

　

　　　　

・JOG　・SWRU　

SWRU,　JOG　SCHEMATIC　DIAGRAM　／

SWRU,　JOG　基板基準回路図　／

Page　4

-22

　IF

TO CN36

Page　4

-25

CN37　S

WRM

TO

　JO

GTO Pa

ge　4

-24

CN38

TO CN38

Page　4

-24

　SW

RU

1C

SC93507

SC93505

GY-DV500GY-DV500

4.16

4-25 4-25

4.16

　

SWF,　SWRM,　SWRB,　SWPW,　MIC,　BNC　基板基準回路図　／／／／／

SWF,　SWRM,　SWRB,　SWPW,　MIC,　BNC　SCHEMATIC　DIAGRAM　／／／／／

TO

CN40Page　4-25

　SWPW

TOFILTER

TO

CN35Page　4-22

TO

CN39Page　4-25

TO

CN37Page　4-24

TO

CN34Page　4-14

　IF

　SWRU

　CAM2

　CAM2

Page　4-14

TO

CN33

TO

CN39Page　4-25

TO

CN40Page　4-25

　SWPW

　SWRM

1C

　SWRB

SC92648

GY-DV500GY-DV500

4.17 SWRU ,　JOG ,　SWF ,　SWRM ,　SWRB ,　SWPW ,　MIC ,　BNC ,　FL　基板部品配置図

4-26 4-26

4.17 SWRU,　JOG,　SWF,　SWRM,　SWRB,　SWPW,　MIC,　BNC,　FL　CIRCUIT　BOARD

・SWRU

・JOG

・SWF

・SWRM

・SWRB ・SWPW

・MIC ・BNC

・FL

2 1

　SIDE　A　　SIDE　B　　SIDE　B　　SIDE　B　

　SIDE　B　　SIDE　B　　SIDE　B　　SIDE　B　　SIDE　A　

　SIDE　B　　SIDE　B　




Side

A-1C

X　axisY　axis


IC321

D321D322D324D325D329

R321R322R323R324R325R326R327

1B

2B2B1B1B3B

3B3B3B2B2B2B2B

R328R329R330R331R332R333R334

VR301

C321C322C323C324C325

1B1A1A1A1A2A2B

2A

1B2A3A2B2B

CN10CN35

S301S302S303S304

3B2B

2B1A1B3B

B

A

2C(両面) 4-26

3

GY-DV500GY-DV500

4.18

4-27 4-27

4.18

　

　

VIDEO/SYSCON　SCHEMATIC　DIAGRAM　(1/2)　

VIDEO/SYSCON　基板基準回路図　(1/2)　

FLASHROM

LATCH

E　ROM

SYS-CON　CPU

SRAM

PARALLELI/O

RESET

2

1C

TO

　AUDIO/LCD

page　4-31CN604

　MOTHER

TO

CN401page　4-36

page　4-36CN401

　MOTHERTO

TO　MOTHER

page　4-36CN401

　MOTHER

　AUDIO/LCD

Page　4-31

TO

CN604

CN401page　4-36

　AUDIO/LCD

TO

CN604

FROM

　MOTHER

page　4-36CN401

TO

Page　4-31

SC92240　1/2

OPEN

GY-DV500GY-DV500

4-28 4-28

　

・VIDEO/SYSCON　SCHEMATIC　DIAGRAM　(2/2)　

・VIDEO/SYSCON　基板基準回路図　(2/2)　

NTSC

NTSC

PAL

PAL

4-28

H-rate2.2Vp-p

2.7

2.12.8

2.1

1.92.5

4.70

3.1

2.3

2.44.8

1.8

1.81.1

1

0.3

-4.1 -4.7

-3.7

-3.5 -4.4

5

-3.7

4.4

-2.7

0

-2.7

1.9

1.9

2.9

0 1.65.7

0

0

2.90

0

4.4

04.8

4.5

2.3

3.8

2C

TO

CN101Page　4-36

TO

CN101Page　4-36

TO

CN101Page　4-36

　MOTHER

　MOTHER

　MOTHER

C5433/16

C524.7

R710

　:　not　mounted

SC92240　2/2

VR3N:50k

R51N: 33k

GY-DV500GY-DV500

4.19 VIDEO/SYSCON　基板部品配置図

4-29 4-29

4.19 VIDEO/SYSCON　CIRCUIT　BOARD





Side

A-1C

X　axisY　axis

基板上の部品配置アドレス表 IC1IC2IC3IC4IC5IC401IC402IC403IC404IC405IC406IC407IC408IC409IC410IC411IC412IC413IC414

Q1Q2Q3Q4Q5Q6Q8

A-2EA-3CA-3EA-2CA-2FA-7DA-8GA-6FA-5FA-5EB-7CB-7EB-5DB-4DA-7FB-6EA-6CA-5CB-7D

B-2DA-2DB-2EA-2EA-2EB-2EA-1B

Q9Q10Q11Q12Q13Q14Q15Q16Q17Q18Q19Q20Q22Q401Q402Q403Q404

D1D2D3D401D402D403

R1R2

B-2BB-2BA-2BB-2BB-2BB-2BA-2BA-1BA-2BA-1GB-2FB-2FB-3EB-7BB-8DB-8EB-8E

A-2BA-2BA-1BB-8EB-8EB-6B

B-1DB-2D

R3R4R5R6R7R8R9R10R11R12R13R14R15R16R17R18R19R20R21R22R23R24R25R26R27R28R29

B-1DA-2DA-1DB-2EB-2EB-1EB-1EB-2EB-2FB-1FA-2EB-2FB-2EB-1FA-1BA-1BB-1BB-2EB-1BB-1BB-2BB-2BB-2BB-2BB-2BA-2BA-2B


A-2BA-2BB-2BA-2BA-2BA-2BB-2BB-2BA-2BB-2BA-2BA-2BA-2BA-2BB-1BB-1BB-2BB-2BA-2CB-4CB-3CB-3CA-3DA-3DA-3EA-2EA-2E


B-2EB-2EA-2CA-2FB-2GA-2GA-2FA-2FA-2FA-2FA-2FB-2FB-2FB-2FB-2FB-4CA-4BA-4BA-4BA-3BA-4AA-4EB-2EA-2CA-2CA-2CA-2C


A-2CB-6BB-5BB-5BB-5BA-7EB-7EA-7EA-7EA-7CA-7BA-7BB-6EB-6DA-5CA-5CB-6DB-6DB-6DB-6CB-6CB-6CB-8DB-8DB-8DA-8EA-8E


B-7EB-7EA-7EA-7EA-8EB-8EB-8EB-8EB-8EB-6DB-6DA-7EA-6BB-6BA-7BA-7BB-7BB-7BB-7BB-7BB-7BB-7BB-7BB-8FB-8FA-8FB-8D


B-6BB-6BB-6BB-6BB-8CB-8CB-8CB-8CB-8CB-5EB-7CB-6BB-5EB-5EB-5EB-6BB-6BA-6BB-5DB-5DB-5DB-7EB-8DB-8DB-8DB-8CB-8C


B-8CB-8CB-7CB-7CB-7CB-7CB-7CB-7CB-7CB-7CB-7CB-7CB-6CA-5BB-5BB-8DA-6FB-5BB-4BB-4BA-5BA-4BA-4BB-6EB-6EB-8EB-7D

R508R509R510R511R512R513R514

VR1VR2VR3VR4VR5VR6

C1C2C3C4C5C6C7C8C9C10C11C12

B-6CB-6CB-8DB-8EB-5AB-5BB-6E

B-2CB-3BB-3CB-3EB-1FB-1F

B-1DA-2DA-1DB-2EB-2EB-2EB-1BB-2AB-2AB-1AB-2AA-2A

C13C14C15C16C17C18C19C20C21C22C23C24C25C26C27C28C29C30C31C32C33C34C35C36C37C38C39

A-2AA-2BB-2BA-2BA-2BB-2BA-2CA-3CB-4CA-3DA-3CA-3EA-3EB-4CA-4CA-2CA-2CB-2GB-2GA-2GA-1GA-1GA-1FA-1FA-1GA-2GA-1F

C40C41C42C43C44C45C46C47C48C49C50C51C52C53C401C402C403C404C405C406C407C408C409C410C411C412C413

A-1FA-1FB-2FB-2FA-2CB-2BB-1GA-2EA-3EA-2DB-2GA-3GA-2GA-2FB-6DB-6DB-7DB-7DB-7DB-6EA-5CA-6CA-7FA-8GB-6FA-5FB-5D

C414C415C416C417C418C419C420C421C422C423C424

L1L2L3L4L5L6L401


B-4DB-6CB-5DB-6EB-5DB-5DA-5BA-5BB-8EB-8EB-7D

A-2DB-2AB-2AB-4BB-2GB-2GA-5B

B-4CB-4CB-2FB-2AB-6BB-6DB-6E

TP404TP405TP406TP407TP408TP409TP410TP411TP412TP413TP414TP415

TB1

CN101CN401CN402

X401

K401K402

B-6EB-5CB-5CB-7EB-8EB-5BB-5BB-5EB-5EB-5EB-4EB-4E

B-8G

B-4AB-6AB-8B

A-6D

B-5BB-5B

2C(両面) 4-29

GY-DV500GY-DV500

4.20

4-30 4-30

4.20

　

AUDIO/LCD　SCHEMATIC　DIAGRAM　(1/2)　

AUDIO/LCD　基板基準回路図　(1/2)　

00 0

0

4.7

0

0

00

4.7

1.5

0

0

5.6

12.1 0

6 6 6

0

0

0

0

0

0 0

4.61kHz1.3Vp-p

1kHz220mVp-p

2C 4-30

FROM/TO

CN201Page　4-36

　MOTHER

　marked　parts　are　not　mounted.

SL92237　1/2

GY-DV500GY-DV500

4-31 4-31

　

・AUDIO/LCD　SCHEMATIC　DIAGRAM　(2/2)

・AUDIO/LCD　基板基準回路図　(2/2)　

LCD

LCD　DRIVER

LCD　CPU

RESET

To

CN402Page　4-27

　VIDEO/SYSCON

To

CN601Page　4-36

　MOTHER To

CN1Page　4-39

　OPE

1C

SL92237　2/2

GY-DV500GY-DV500

4.21 AUDIO/LCD　基板部品配置図

4-32 4-32

4.21 AUDIO/LCD　CIRCUIT　BOARD

　SIDE　A　




Side

A-1C

X　axisY　axis


B-8BB-9CB-10CA-6GA-6FA-5GA-5FA-5DA-6DA-11DA-9DB-7DB-5DA-10DA-9DB-4GB-4EB-2GA-3D

IC601IC602IC603IC604IC605IC607IC608IC609IC610IC611IC612IC615IC616IC618IC619

Q201Q202Q203

B-11FB-9FB-12DB-12DB-11DB-13DB-13DB-13DB-13CA-12EB-12DA-10EB-11EA-10BB-11E

B-9DB-11DB-4H

Q204Q298Q299Q301Q302Q307Q308Q309Q310Q311Q321Q322Q361Q601Q602Q603Q604Q605Q606

B-4FB-9DB-9DA-2FB-2FB-3DB-3DA-4CA-1GA-1FB-4CB-3CB-4EB-12AB-13AA-7HA-7HA-11EA-12H

Q607

D601D602D603D604D605D606D607

R201R202R203R204R205R206R207R208R209

A-13G

B-13BB-13BA-13EB-13EA-10AB-9AA-11E

B-6BB-7BB-7BB-7BB-7BB-7CB-10CA-10BA-10B

R210R211R212R215R216R217R218R219R220R221R222R223R224R225R226R227R228R230R235

B-11CB-9CB-10CA-9CB-11CB-11CB-10DA-9CA-10CA-9DB-11CA-9DB-11CB-10DB-11DB-10DA-11CB-6EB-6G


B-6EB-6GB-6GB-6EB-6HB-6FB-6GB-6FB-6GB-6FB-6GB-6FB-5GB-6EB-5GB-5EB-5HB-5FB-5G


B-5EB-5GB-5EB-5EB-6EB-5DB-6DB-9DA-11DB-6GB-5FB-5GB-5EB-6GB-5EB-5BB-5GB-5FB-7C


B-5CB-6CB-5CA-9DA-9DB-4GB-4FB-4GB-3FB-3GB-3FB-4GB-4EB-4GB-4EB-3GB-3FB-4GB-4E


B-4GB-4EA-3CA-3CA-3CA-3CB-2FB-2FA-2EA-2FA-2FB-3DA-3GA-2FA-2FA-2FB-2GB-2GB-9A


B-3GA-3GB-2FB-2FB-3FB-2FB-3FB-2FB-2FA-2FA-2DA-3DA-3DB-2DB-2CB-2CB-2CB-2CA-3D


B-3CB-3DB-3DB-4EB-4EA-3DA-3DB-4CB-4CA-3DA-3DB-10CB-11CB-7DB-3CA-7AB-9AA-6AA-6A


A-6AA-6AB-4CA-1GA-4GA-4EB-12CB-12CB-12CB-12CB-12CB-12CB-11DA-11DA-11HA-11HB-12AB-12AA-13D


A-13DB-12EB-12EB-13BB-13BB-13BB-13CB-13CA-13CB-13CB-12EA-12DB-12DB-12CA-10DA-10EB-11EB-10EB-11E


B-11EB-10EA-9BB-10AB-9BB-9AB-11FB-11FB-8GB-8GB-8GA-12EA-12EA-12EB-12GB-12GB-12GB-12GB-11G


B-9FB-9FB-9FB-9FB-9FA-12GA-12GA-12GA-12GA-12GA-12GA-12GA-12GA-12GA-12FA-12FA-12FB-11DB-11D


A-7GA-7GB-12AA-11DB-9GA-12FB-13AA-8HA-8HA-8HA-8HA-8HB-8HB-10EB-11EB-10DB-11DB-11GB-11G


B-11GB-11GB-11GB-10FB-11EB-11EB-12EB-11EB-12EB-12FB-11GA-12FA-12FA-12FB-10FB-12DB-12DB-11EB-11E

R723R724R725R726R727R728

VR201VR202VR301VR302VR303VR304VR310VR311VR601VR602

C201

B-12EB-12FB-12FB-12AB-11EB-12E

A-7CA-9CB-3FB-3GB-3EB-3EA-2DA-1EB-9DB-10D

B-7B

2C(両面) 4-32

C202C203C204C205C206C207C208C209C211C212C213C214C215C216C217C218C219C220C223

B-7BB-9BB-9BB-7CB-7AA-7BA-7CA-6CB-6GB-6EB-10CB-10CB-9CB-11CA-10CA-11CB-9CB-10CB-9C


B-10CB-10DB-11DB-6EB-6GA-6FA-6EA-7GA-7EB-7GB-7EB-6HB-6FA-6GA-6EB-6HB-6FB-5GB-5E


A-5GA-5EA-6GA-5EA-4GA-5EB-6HB-6FB-6GB-6FB-5DB-7DA-5EA-6EB-5GB-5FB-6GB-5FA-4G


A-5FB-5DB-5FB-5GB-6DA-5HA-5FB-6GB-5FA-7DA-6CB-6CB-9CB-10CB-4GB-4FB-4FB-4EB-3G


B-3EB-3FB-3DA-4EA-3FA-3EA-4FA-3EA-3GA-4EA-4GA-3CA-3CA-4CA-4CB-4GA-4GA-3GB-3G


B-4EA-4EB-3FA-3FB-2EA-2EA-2FB-2FB-2FA-2FA-2GB-2FB-2FB-1GA-2GB-3DA-3CA-3DB-3C


A-3DA-2CA-3DA-2CA-3DA-3DB-6BA-6BB-7BA-6BB-7BA-7BA-6AA-6AA-7AA-2GA-2GA-2FA-12C


B-12DB-12DB-11CB-13DB-12CB-13EB-13DB-13EB-12EB-13BA-13CA-13CA-13EA-13DB-12EA-12DB-12EB-8HB-10A


A-10BA-10AB-10AB-9AB-10AA-12BB-11BA-10BA-13BA-12AA-13BB-10FB-10FB-11GB-10FB-9GB-12DB-11DB-11F

C643C645C651C652C653C654C655C656C657C670C671

VC601

L381L382L383L384L601

B-11GA-12DB-10DB-11DB-11EB-10BB-10BA-10AA-13CA-4DA-4D

B-10G

B-6BB-6BB-7BA-2GB-13E

L602L603L604L605

TP200TP201TP202TP205TP206TP209TP210TP300TP301TP302TP303TP304TP305TP306

B-12BA-11BA-11BB-10B

B-5FB-10CB-11CB-5GB-6FB-6HB-6FB-3EB-4FB-4EB-3CB-3CB-4DB-4D

TP311TP312TP313TP601TP602TP603TP604TP605TP606TP607TP608TP609TP610TP611

TB601TB602

CN201

B-2FB-2EB-2EB-12CB-12CB-12DB-11HB-11EB-13HB-13HB-13FB-10AB-11HB-11H

B-13AB-12H

B-6A

CN202CN203CN601CN602CN604

CP601

S201S202S203S204S301S601S602S603S604S605S606

B-5DB-5HB-11AB-7GB-11B

B-11B

A-10CA-11CA-10DA-11DA-7FA-12DA-13DA-13GA-12CA-13CA-11B

S607S608S609S610S611

X601X602

K601K602K603K604K605K606K607

LD601LD602

A-11BA-12BA-13BA-7GA-13F

B-10FB-10G

B-13BB-13BB-12BB-11BB-11BA-11AB-10B

A-7GA-10F

BT601

DI601

PC201

A-7A

A-10F

A-5C

　SIDE　B　

4-33 4-33

GY-DV500GY-DV500

2C(両面) 4-33

GY-DV500GY-DV500

・AUDIO/LCD　基板部品配置図（××××0222号機以降対象）

・AUDIO/LCD　CIRCUIT　BOARD　(FOR　SERIAL　No.××××0732　AND　AFTER　OF　GY-DV500U,　××××0840　AND　AFTER　OF　GY-DV500E)

4-32-2 4-32-2

　SIDE　A　

2C(両面) 4-32-2




Side

A-1C

X　axisY　axis


B-8BB-9CB-10CA-6GA-6FA-5GA-5FA-5DA-6DA-11DA-9DB-7DB-5DA-10DA-9DB-4GB-4EB-2GA-3D

IC601IC602IC603IC604IC605IC607IC608IC609IC610IC611IC612IC615IC616IC618IC619

Q201Q202Q203

B-11FB-9FB-12DB-12DB-11DB-13DB-13DB-13DB-13CA-12EB-12DA-10EB-11EA-10BB-11E

B-9DB-11DB-4G


B-4FB-9DB-9DA-2FB-2FB-3DB-3DA-4CA-1GA-1FB-4CB-3CB-4EB-12AB-13AA-7HA-7HA-11EA-12H

Q607

D601D602D603D604D605D606D607

R201R202R203R204R205R206R207R208R209

A-13G

B-13BB-13BA-13EB-13EA-10AB-9AA-11E

B-6BB-7BB-7BB-7BB-7BB-7CB-10CA-10BA-10B


B-11CB-9CB-10CA-9CB-11CB-11CB-10DA-9CA-10CA-9DB-11CA-9DB-11CB-10DB-11DB-10DA-11CB-6EB-6G


B-5GB-6GB-6EB-6GB-6GB-6EB-6HB-6FB-6GB-6FB-6GB-6FB-6GB-6FB-5GB-6EB-5GB-5EB-5H


B-5FB-5GB-5EB-5GB-5EB-5EB-6EB-5DB-6DB-9DA-11DB-6GB-5FB-6GB-5EB-6GB-5EB-5BB-5G


B-5FB-7CB-5CB-6CB-5CA-9DA-9DB-4GB-4FB-4GB-3FB-3GB-3FB-4GB-4EB-4GB-4EB-3GB-3F


B-4GB-4EB-4GB-4EA-3CA-3CA-3CA-3CB-2FB-2FA-2EA-2FA-2FB-3DA-3GA-2FA-2FA-2FB-2G


B-2GB-9AB-3GA-3GB-2FB-2FB-3FB-2FB-3FB-2FB-2FB-2FA-2DA-3DA-3DB-2DB-2CB-2CB-2C


B-2CA-3DB-3CB-3DB-3DB-4EB-4EA-3DA-3DB-4CB-4CA-3DA-3DB-10CB-11CB-7DB-3CA-7AB-3C


B-3CA-2FB-2GB-2GB-9AA-6AA-6AA-6AA-6AB-4CA-1GA-4GA-4EB-12CB-12CB-12CB-12CB-12CB-12C


B-11DA-11DA-11HA-11HB-12AB-12AA-13DA-13DB-12EB-12EB-13BB-13BB-13BB-13CB-13CA-13CB-13CB-12EA-12D


B-12DB-12CA-10DA-10EB-11EB-10EB-11EB-11EB-10EA-9BB-10AB-9BB-9AB-11FB-11FB-8GB-8GB-8GA-12E


A-12EA-12EB-12GB-12GB-12GB-12GB-11GB-9FB-9FB-9FB-9FB-9FA-12GA-12GA-12GA-12GA-12GA-12GA-12G


A-12GA-12GA-12FA-12FA-12FB-11DB-11DA-7GA-7HB-12AA-11DB-9GA-12FB-13AA-8HA-8HA-8HA-8HA-8H


B-8HB-10EB-11EB-10DB-11DB-11GB-11GB-11GB-11GB-11GB-10FB-11EB-11EB-12EB-11EB-12EB-12FB-11GA-12F

R716R717R718R719R720R721R722R723R724R725R726R727R728R729

VR201VR202VR301VR302

A-12FA-12FB-10FB-12DB-12DB-11EB-11EB-12EB-12FB-12FB-12AB-11EB-12EB-8D

A-7CA-9CB-3FB-3G

GY-DV500GY-DV500

4-334-33-2 4-33-2

　SIDE　B　

2C(両面) 4-33-2

VR303VR304VR310VR311VR601VR602

C201C202C203C204C205C206C207C208C209C211C212C213

B-3EB-3EA-2DA-1EB-9DB-10D

B-7BB-7BB-9BB-9BB-7CB-7AA-7BA-7CA-6CB-5GB-6EB-10C


B-10CB-9CB-11CA-10CA-11CB-9CB-10CB-9CB-10CB-10DB-11DB-6EB-6GA-6FA-6EA-7GA-7EB-7GB-7E


B-6HB-6FA-6HA-6EB-6HB-6FB-6GB-5EA-5GA-5EB-6GA-6GA-5EA-4GA-5EB-6HB-6FB-6GB-6F


B-5DB-7DA-5EA-6EB-5GB-5FB-6GB-5FA-4GA-5FB-5DB-5FB-5GB-6DA-5HA-5FB-6GB-5FA-7D


A-6CB-6CB-9CB-10CB-4GB-4FB-4FB-4EB-3GB-3EB-3FB-3DA-4EA-3FA-3EA-4FA-3EA-3GA-4E


A-4GA-3CA-3CA-4CA-4CB-4GA-4GA-3GB-3GB-4EA-4EB-3FA-3FB-2EA-2EA-2FB-2FB-2FA-2F


A-2GB-2FB-2FB-1GA-2GB-3DA-3CA-3DB-3CA-3DA-2CA-3DA-2CA-3DA-3DB-6BA-6BB-7BA-6B


B-7BA-7BA-6AA-6AA-7AA-2GA-2GA-2FA-12CB-12DB-12DB-11CB-13DB-12CB-13EB-13DB-13EB-12EB-13B


A-13CA-13CA-13EA-13DB-12EA-12DB-12EB-8HB-10AA-10BA-10AB-10AB-9AB-10AA-12BB-11BA-10BA-13BA-12A


A-13BB-10FB-10FB-11GB-10FB-9GB-12DB-11DB-11FB-11GA-12DB-10DB-11DB-11EB-10BB-10BA-10AA-13CA-4D

C671

VC601

L381L382L383L384L601L602L603L604L605

TP200TP201TP202TP206TP209

A-4D

B-10G

B-6BB-6BB-7BA-2GB-13EB-12BA-11BA-11BB-10B

B-5FB-10CB-11CB-6FB-6H

TP210TP300TP301TP302TP303TP304TP305TP306TP311TP312TP313TP601TP602TP603TP604TP605TP606TP607TP608

B-6FB-3DB-4FB-4EB-3CB-3CB-4DB-4DB-2FB-2EB-2EB-12CB-12CB-12DB-11HB-11EB-13HB-13HB-13F

TP609TP610TP611

TB601TB602

CN201CN202CN203CN601CN602CN604

CP601

S201S202S203

B-10AB-11HB-11H

B-13AB-12H

B-6AB-5DB-4HB-11AB-7GB-11B

B-11B

A-10CA-11CA-10D

S204S301S601S602S603S604S605S606S607S608S609S610S611S612

X601X602

K601

A-11DA-7FA-12DA-13DA-13GA-12CA-13CA-11BA-11BA-12BA-13BA-7GA-13FA-9B

B-10FB-10G

B-13B

K602K603K604K605K606K607

LD601LD602

BT601

DI601

PC201

B-13BB-12BB-11BB-11BA-11AB-10B

A-7GA-10F

A-7A

A-10F

A-5C

GY-DV500GY-DV500

4.22

4-34 4-34

4.22

　　

　

To

CN110Page　4-39

To

CN106Page　4-36

　MOTHER

To

CN5Page　4-14

　CAM2

1C

　PWR　JUNC

SL93107

REG(REGulater)　基板基準回路図　

REG(REGulater)　SCHEMATIC　DIAGRAM　

GY-DV500GY-DV500

4.23

4-35 4-35

4.23





Side

A-1C

X　axisY　axis


IC1IC2

Q1Q2Q3Q4Q5Q6Q7Q8Q9Q10Q11Q12Q13Q14Q15Q16Q17

D1D2D3D4D5D6D9D101

R1R2R3R4R5R6R7R8R9R10R11R12R13R14R15R16R17R18R19R20R21R22R23

B-1FA-2E

A-1DA-2DA-1DB-1BA-1CA-1CB-2BA-2CA-1CB-3CB-3DB-3DB-3CB-3CB-4DB-4DB-4C

A-2DB-1BB-2BB-3CB-4BB-4BB-4DA-2F

A-2DA-1DA-2DA-1CA-1CB-1CA-1CA-2CB-2CB-3DB-3DB-3DB-3CB-3BB-3BB-3AB-4DB-4DB-4CA-1FA-1FA-2FA-1F

R24R25R26R27R28R29R30R31R32R33R34R35R36R37R38R39R40R41R42R43R44R46R47R48R49R50R51R52R53R54R55R56R57R58R59R60R61R62R63R64R65R66R67R68R69R101R102

C1C2C3C4C5

A-1FA-1FA-2FA-2FA-1FA-1FB-1FB-1FA-1FA-1FA-1FA-1FA-2FA-1FA-1FA-1FA-1FA-1FA-1FA-1FB-4CA-2FA-2FA-2FB-3EB-3EB-3EA-2FA-2EB-3FB-3EA-2FA-2FA-2FA-2FA-2EA-2EA-2EA-2DA-2DA-2DA-2DA-2DA-2DA-2EA-2FA-2F

A-1DB-1DA-1DB-1BB-1A

C6C7C8C9C10C11C12C13C14C15C16C17C18C19C20C21C22C23C24C25C26C27C28C29C30C31C32C33C34C35C36C37C38C39C40C41C42C43C44C45C46C47C48C61C101

L1L2L3L4L5L6L7

B-1AB-2BB-1AB-2AA-2DB-2BB-3BB-2CB-3CA-4BB-3BB-3AB-4BB-4BB-3BB-3BB-4CB-4CA-4BA-3FA-3CA-2FA-1FA-1FA-1FB-1FA-2FA-1FA-1FB-1FA-2FA-2FA-2FB-3EA-1EA-2EA-2DA-2EB-3FA-3DA-3EB-4FB-4CA-3BA-2F

A-2CA-1CA-1BA-1BA-1BA-2BA-2C

L8L9L10L11L20L21

TP1

T1

CP1CP2CP3

CN1CN2CN3

TB1TB2

A-2BA-2CA-4DA-4CA-3FA-3E

B-2F

A-3B

B-3CB-4FB-3E

A-4FA-2AA-4A

B-2BB-2F

REG　基板部品配置図

REG　CIRCUIT　BOARD

2C(両面) 4-35

Q19

R70

Q18

R71

GY-DV500GY-DV500

4.24

4-36 4-36

4.24 MOTHER　SCHEMATIC　DIAGRAM　

MOTHER　基板基準回路図　

1C

FROM/TO

CN3Page　4-4

FROM/TO

Page　4-4CN4

FRO

M/T

O

CN

201

Pag

e　4-

30

FRO

M/T

O

CN

101

Pag

e　4-

28

FRO

M/T

O

CN

401

Pag

e　4-

27

FRO

M/T

O

CN

601

Pag

e　4-

31

FRO

M/T

O

CN

104

Pag

e　4-

38

FROM/TO

CN2Page　4-34

FROM

CN105Page　4-38　

CN

115

Pag

e　4-

40

FRO

M/T

O

CN

103

Pag

e　4-

40

FRO

M/T

O

CN

102

Pag

e　4-

40

　CAM2

　CAM2

　AU

DIO

/LC

D

　VID

EO

/SY

SC

ON

　VID

EO

/SY

SC

ON

　AU

DIO

/LC

D

　AU

.JU

NK

　RE

MO

TE

　CO

NN

EC

T

FRO

M/T

O　

　SE

N1

　PWR　JUNK

　REG

SL92238

GY-DV500GY-DV500

4.25

4-37 4-37

4.25

・MOTHER


　SIDE　A　

MOTHER ,　AU　JUNK　基板部品配置図

MOTHER,　AU　JUNK　CIRCUIT　BOARD

・AU　JUNK

2C(両面) 4-37

GY-DV500GY-DV500

4.26

4-38 4-38

4.26

　

　

AU　JUNK　基板基準回路図　

AU　JUNK　SCHEMATIC　DIAGRAM　

To

CN107Page　4-40

　XLR

To

CN108Page　4-40

　EAR.J

REC　TALLY

DV　TERMINAL

To

CN104Page　4-36

　MOTHER　:　Not　mounted.

1C

TO

CN801Page　4-46

　DV　MAIN

SL93105

GY-DV500GY-DV500

4.27

4-39 4-39

4.27

　

　

・OPE　・PWR　JUNC　 *　:　Not　mounted.

*　:　Not　mounted.

To

CN41Page　4-20

　PS2

To

CN1Page　4-34

　REG

To

CN105Page　4-36

To

CN602Page　4-31

　AUDIO/LCD

1C

PWR　JUNC,　OPE(OPEration)　SCHEMATIC　DIAGRAM　／

PWR　JUNC,　OPE(OPEration)　基板基準回路図　／

　MOTHER

SL94021

SL94022

GY-DV500GY-DV500

4.28

4-404-40

4.28

・SEN1　

・EAR.J　

・REMOTE　・CONNECT　

・XLR　

CONNECT,　REMOTE,　XLR,　EAR.J,　SEN1,　SENS2　基板基準回路図　／／／／／

CONNECT,　REMOTE,　XLR,　EAR.J,　SEN1,　SENS2　SCHEMATIC　DIAGRAM　／／／／／

　:　Not　mounted.

　:　Not　mounted. 　:　Not　mounted.

To

CN103Page　4-36

　MOTHER

LINEOUT

VIDEOOUT

Y/C　OUT

To

CN107Page　4-38

　AU　JUNK

To

CN102Page　4-36

　MOTHER

CN116,　Page　4-40

To

CN115Page　4-36

To　　SENS2

　MOTHER

CN116,　Page　4-40To　　SEN1

・SENS2　

To

CN108Page　4-38

　AU　JUNK

1C

C7

SL93106

SL94026

SL94025

SL94023

SL94027

SL94024

GY-DV500GY-DV500

4.29

4-41 4-41

4.29

・PWR　JUNC

・CONNECT

・REMOTE

・XLR

　SIDE　B　

　SIDE　B　

　SIDE　B　


　SIDE　B　

　SIDE　B　

　SIDE　B　

　SIDE　A　

・OPE

・EAR.J

SL82093-03-002

・SEN1

　SIDE　A　

・SENS2

2C(両面) 4-41

OPE ,　PWR　JUNC ,　CONNECT ,　REMOTE ,　XLR ,　EAR.J ,　SEN1 ,　SENS2　基板部品配置図

OPE,　PWR　JUNC,　CONNECT,　REMOTE,　XLR,　EAR.J,　SEN1,　SENS2　CIRCUIT　BOARD

GY-DV500GY-DV500

4.30

4-42 4-42

4.30

　

総合結線図　(VTR　UNIT部)

VTR　UNIT　OVERALL　WIRING　DIAGRAM

1C

SL91187

GY-DV500GY-DV500

4.31

4-43 4-43

4.31

　DV　CPU　

　

　

DV　MAIN　基板基準回路図　(1/7)　

DV　MAIN　SCHEMATIC　DIAGRAM　(1/7)　

DV　CPU

　

To

CN1Page　4-56

　DCDC

NC

To

CN608Page　4-53

　PR　&　MDA

For　Servicing

Block　Name

Page

DV　CPU EQ　DA DIGI　IF CAS DV　I/OMSDCPU

AUDAD/DA

4-43 4-44 4-45 4-46 4-47 4-48 4-49

1C

IC101MN102F1617HL-21MN102F1617HL-01

NTSC　:　PAL　　:　

SL91185　1/7

R198 0

GY-DV500GY-DV500

4-44 4-44

　

・DV　MAIN　SCHEMATIC　DIAGRAM　(2/7)　

・DV　MAIN　基板基準回路図　(2/7)　

MSD　CPU

　

To

CN1Page　4-55

　ROM

To

CN2Page　4-55

　CONN.

To

CN606Page　4-53

　PR　&　MDA

Block　Name Page

DV　CPU

MSD　CPU

EQ　DA

DIGI　IF

AUD　AD/DA

CAS

DV　I/O

4-43

4-44

4-45

4-46

4-47

4-48

4-49

1C

　MSD(Mechacon　Servo　Digi　if)　CPU　

NTSC　:　PAL　:　

M31020EAVP-101M31020EAVP-001

IC401

IC404NTSC　:　PAL　:　 NM24C16LEM8-X

NM24C16LEM8-XZB

SL91185　2/7

GY-DV500GY-DV500

4-45 4-45

　EQ　DA　

　



4-45

　

DV　I/O

CAS

AUD　AD/DA

DIGI　IF

EQ　DA

MSD　CPU

DV　CPU

Block　Name

4-49

4-48

4-47

4-46

4-45

4-44

4-43

Page

To

CN901Page　4-52

　PR　&　MDA

1.8

1.3

0

2.8

2.8

1.5

1.6

1.5

2.11.2

0.6

11.1

1.8

1.1

0.5

1

22.1

0

01.21.11.71.7

1.4 2.5

2.9

1.9

0.7

0

1.12.8

1.71.8 1.4

1.6

1.3

0

2

0

0.9

2

1.8

1.8 1.8

2

1.8

0

2C

PREEQ

LPF

TAPFILTER

LATCH

DET

I+D

PC

VCO

SL91185　3/7

　DV MAIN(EQ　DA)

GY-DV500GY-DV500

4-46 4-46

　DIGI　IF　

　



DVC　SYSTEMDATA　BUFFER

LINKCTL

LINK　CORE

PHYSICAL

DVCBUS

IF

　

DV　I/O

CAS

AUD　AD/DA

DIGI　IF

EQ　DA

MSD　CPU

DV　CPU

Block　Name

4-49

4-48

4-47

4-46

4-45

4-44

4-43

Page

To

CN801Page　4-38

　AU　JUNK

1C

SL91185　4/7

　DV　MAIN(D　I/F)

GY-DV500GY-DV500

4-47 4-47

　AUD　AD/DA　

　



　

DV　I/O

CAS

AUD　AD/DA

DIGI　IF

EQ　DA

MSD　CPU

DV　CPU

Block　Name

4-49

4-48

4-47

4-46

4-45

4-44

4-43

Page

from/to　DV　I/O

1C

SL91185　5/7

GY-DV500GY-DV500

4-48 4-48

　



ECC　MEMORY

R　B　REC

DEMOD. VITERBI

IDEC MOD.OECC

SHUFFL　MEMORY

CORECTIONSAMPLE

CONVERTOR

MEMORY

DATADETECT

DCTI-DCT

QUANTIZING

VLCVLD

BUSIF

MEMORY

MEMORY

DEINTERLEAVEINTERLEAVE

MEMORY

MEMORY

4-48

　

A/D　CONV

DV　I/O

CAS

AUD　AD/DA

DIGI　IF

EQ　DA

MSD　CPU

DV　CPU

Block　Name

4-49

4-48

4-47

4-46

4-45

4-44

4-43

Page

2C

　CAS(Compress　Audio　Shuffling)　

75

　DV MAIN(CAS)

SL91185　6/7

GY-DV500

　DV　I/O　

　



CTL

SignalSelector

4:1:14:2:0

A/D

D/A

DVMASK

D/A D/A D/A

A/D

4:2:2→4:1:14:2:0

SYNC

BFP

4-49

　

4:2:2ENC

To

CN1Page　4-14

　CAM2

To

CN2Page　4-14

　CAM2

2C

Block　Name

Page

DV　CPU EQ　DA DIGI　IF CAS DV　I/OMSDCPU

AUDAD/DA

4-43 4-44 4-45 4-46 4-47 4-48 4-49

1.5k

3.3k

4-49

R695100k

R693100k

　DV MAIN(DV　I/O)

SL91185　7/7

GY-DV500

4.32 DV　MAIN　基板部品配置図

4.32 DV　MAIN　CIRCUIT　BOARD

　SIDE　B　

　SIDE　A　

2C(両面) 4-50




Side

A-1C

X　axisY　axis


IC101IC103IC105IC106IC107IC108IC113IC201IC202IC301IC302IC303IC304IC305IC306IC307IC401IC402IC403IC404IC501IC503IC601IC602IC603IC604IC605IC606IC607IC608IC610IC611IC612IC613IC614IC615IC801

Q101Q202Q301Q302Q401Q402Q403Q404Q405Q501Q502Q503Q504Q505Q506Q507Q511Q512Q513Q602Q603Q604Q605Q606Q608Q609Q610Q611Q612Q613Q614

D102D103D401

B-1BA-2BA-1BA-1BA-2CA-2BA-1BA-4BA-5BA-3BA-3CB-2CA-2CB-2DB-3CA-3BB-1EA-1EA-2EA-1EB-3EA-4DA-4CB-4DB-5CA-4CB-4CB-4CB-4EB-4EA-5CA-4DA-4DA-4DA-4DB-4EB-1C

A-1BA-4BA-2CA-2BA-1DA-1EA-2EA-2EB-2EA-4EA-4EA-3EB-3DB-3DB-4DB-4DB-3DB-3DB-3EA-5DA-5DA-5DB-4CA-3CA-5DA-5DA-4DA-4DA-4CA-4CA-5E

A-1CA-1CA-2E

D402D601

R101R103R104R105R106R107R108R109R110R111R112R113R114R115R116R117R118R137R138R139R142R143R144R150R152R157R161R162R163R164R168R169R170R171R172R173R174R175R176R177R178R179R180R181R182R183R184R185R186R187R188R189R201R202R203R204R205R206R207R208R209R210R211R212R214R215R216R217R218R219

A-2EB-5D

A-1CB-2BA-1CA-1CA-1BA-1BA-1BA-1BA-1BB-1BB-1BB-1BB-1BB-1BB-1BB-1BA-1BA-1BA-1BB-1BA-1BA-1BA-1CB-1BA-1BA-1CB-1CA-1BA-1CB-3BA-1BA-1BA-1BA-1BB-1CB-1BA-2CB-2BB-2BB-2BA-2BB-2BB-2BB-2CB-2CB-2BB-2CB-2CB-2CB-2CB-2CB-1BA-4BB-4BB-4BB-4BB-4BA-4BA-4BA-4BA-4BA-4BA-4BB-5BA-5BA-4BA-5BB-5BA-5BA-5B

R221R223R301R302R303R304R305R306R307R308R309R310R311R312R313R314R315R316R317R319R320R321R322R323R330R331R332R333R334R335R336R337R338R339R340R341R342R343R344R345R346R347R348R349R350R351R352R353R354R355R356R357R401R402R403R404R405R406R407R408R409R410R411R412R413R414R415R416R417R418R419R420R421

A-5BA-5CB-3BA-4BA-4BA-4BA-3BA-3DB-4CB-3CB-3CB-3CB-3CB-3CB-2CB-2CA-2DA-2DA-2DA-2DA-2DA-2DA-2DA-2DA-4BA-4BB-3CB-3CB-3CB-3CA-4BB-2DB-3CA-2BA-2CA-2CA-2BA-2BA-2BA-2BA-2BA-2BB-3BB-3BB-3BB-3BB-3BB-3BA-3CA-3CA-3CA-2CA-1DA-1DB-1EB-1EB-1DB-2EA-1EB-2EB-2EB-1DB-2EB-2EB-2EB-2EB-2EB-2EB-1EB-1EB-1EB-1EB-2D


B-2DB-2DB-2DB-1EB-1EB-1EB-1EA-2EA-2EA-1DA-1DA-1DB-2EB-1EB-1EB-1EB-1DB-1DB-2EB-2EB-2EA-1DA-1DB-2EB-2EA-2EA-2DB-2EA-1DA-2DB-1EB-1EA-1EA-4EA-4EA-4EA-3EB-4EB-4EB-3EB-3EB-4DB-4DB-4EB-4DB-4DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3EB-3EB-3EB-3EB-3DB-3DB-3DB-3DB-3EB-3EB-3EB-3EB-3EB-2BA-4EB-3E


B-3DB-3DB-3EB-3EB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CA-5DA-4DA-5DA-5DA-5DA-4DB-4DB-4DB-4DB-4DA-4DB-4DB-4DA-4DA-4DA-4DA-4DA-5DB-4CA-3CB-5EB-4EA-5DB-4EB-4CB-4CB-4DB-4DB-4CB-4CB-4CB-4CA-4CB-4CB-4CB-4CB-4CB-4CB-4CA-4CA-4CB-4CB-4CB-5CA-5CB-5CB-5CB-5CB-5CB-5DA-5CB-5DB-5D


B-5CA-5CA-5CB-4CB-4CA-5CA-5CB-5DB-5DA-4DA-4DA-3CA-5DA-5DA-5DB-5DA-5DB-4EB-4EB-4EA-5DA-5DB-5DA-5DA-4DA-4DA-4DA-4DA-2EB-4CB-4CB-4CA-4CB-4EA-4DB-4DA-4DB-4DA-4DA-4DA-4DA-4DA-4DA-4DA-4DA-4CA-4CB-4CB-4CA-5EA-5EB-5EA-5CA-1CA-1CA-1CA-1CA-1CA-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1DB-1DB-1D

R826R831R832R833R834R835R836R837R838

C101C102C103C104C105C106C108C109C110C111C112C113C114C115C116C117C118C119C120C125C126C127C128C130C135C136C141C145C146C147C148C149C150C201C202C203C204C205C206C207C208C209C210C211C212C213C214C215C216C217C218C219C220C221C222C223C224C225C226C227C228C231C301

B-1DB-1DA-1DA-1CA-1DA-1DA-1DB-1DB-1D

B-3EB-2EB-2DB-3DB-3DA-3CA-1CB-3EB-3EB-2BA-1BA-2BA-2BA-2BA-2BA-1CA-1CA-1BA-1CA-3CB-3DB-3DB-3DA-1BA-3EB-3EA-1CA-1BA-1BA-1BA-1CA-1BB-2EA-4BB-4BA-4BA-4BA-4BA-4BA-4BA-4BA-4BB-4BB-4BB-4BB-4BB-4BB-4BA-4BA-4BA-4CB-4BB-5BB-5BB-5BB-5BA-5BB-5BA-5CA-5BA-5BB-5BA-4B

4-50

1 2 3 4 5

A

D

C

B

E

5 4 3 2 1

A

B

C

D

E

　INNER　PATTERN　(SIDE　B)　

　INNER　PATTERN　(SIDE　A)　

GY-DV500

2C(両面) 4-51

4-51

A-1BRA106B-2CTP105A-4DC722A-5DC645B-4DC523A-2DC336

C608C607C606C605C604C603C602C601C593C592C591C590C584C583C582C581C580C579C555C547C546C545C544C543C542C541C540C539C538C537C534C533C532C531C529C528C527C526C525C524

A-2BC368

C408C407

A-1DB-1D

A-2EC403

C406C405C404

A-1DB-1EA-1E

C401C402

C369B-2EA-2E

A-3B

A-2BC360

A-2CC364

C366C367

C365A-2CB-3C

A-3C

C362C363

C361B-3BB-3B

A-2B

C359C358C356

A-2BA-2CA-2C

C355C354C353C352

A-2CA-2BA-2BB-3C

A-3BC344

B-3CC348

C351C350C349

A-4CB-3CB-3C

C346C347

C345A-4CB-3C

B-2C

A-2DC340

C342C343

C341A-2DA-2D

A-2D

C338C339

C337B-2EA-2D

A-2D

A-1DK402A-4BL201B-5CC678B-4D

L308L307L306L305L304L303L302L301L202

C687C686

B-4CB-4C

A-5CA-5C

C685C684C683C682C681C680C679

B-4C

B-4CB-4CA-4C

B-4CB-4CB-4D

A-5C

A-5CA-5CA-5C

B-5CA-5CB-5C

B-2DA-2D K801 A-1C

K602B-3D

A-2CA-2CA-3C

K605K604K603

A-3BA-4BA-4B

K404K601

K403

A-4D

A-4DA-4DA-4D

A-1DA-3D

A-1D

L115L114L113L112L111

C822C821C820C819C818C817C816C815C814

B-4CC668A-3E

C677C676C675C674C673C672C669

A-3E

B-4DB-4DA-4E

A-4EA-3EA-4E

B-5C

A-5CA-5CA-4C

B-5CA-4CB-5C

C667C666C665C664C663C662C661

A-3DA-3DB-3EB-3EB-3EB-3EB-3E

B-4CB-4CA-5DB-5CB-5CB-4CA-4C

LC105B-5DTP601B-1DTP602

K102A-3E

A-3DA-3DB-3D

K303K401

K301

A-3E

B-1D

K101LC501A-1C

A-2DB-2D

B-3B LC502

A-1C

B-5DLC302LC303

LC301


A-1DA-1DB-1DA-1CA-1CB-1DA-1C

A-1EA-1EA-1E

LC104LC103LC102

A-1EA-1EA-1EA-2E

LC101

X603X602


A-4CC653A-3D

C660C659C658C657C656C655C654

B-3D

B-3EB-3EB-3E

B-3DA-3DA-3D

B-4C

B-4CB-4CB-4C

A-4EA-4CA-4C

C652C651C650C649C648C647C646

B-4D

B-3DA-3DB-3D

B-4DB-4DB-4D

B-4E

A-4DA-4CA-4D

A-5DA-5DA-5D

RA603A-4BTP302A-1C


B-1C

A-1DA-1CA-1C

B-1CB-1CA-1C

X101A-1E

A-2EA-2EA-1E

X601X401X301

A-2BB-3B

A-4BRA605RA604


A-1D

A-1CA-1CA-1C

A-1DA-3EB-3E

RA402B-2B

B-1BB-4C

B-2BRA601RA602

RA403

A-1BA-1B

B-2BRA108RA401

RA107

A-3C

B-3EB-3E

A-2BA-3B

A-3B

B-3DB-3DA-3EB-3E

B-4DB-4D

A-4D

B-2C

A-4CA-1EA-4B

A-4EA-4E

B-2E

A-4EA-4E

B-2E

A-1BA-1D

A-1B

C522C521C520C519C518C517C516C515C514C513C512C511C510C509C508C507C506C505C503C502C501C419C418C417C416C415C414C413C412C411C410C409

B-3DC320

C335C334C333

A-2CA-3CA-2D

C332C331C330C329

A-2DB-2DA-2DB-2D

B-2CC325

C328C327C326

B-2DB-2CA-2C

C323C324

C321B-2CB-2C

B-3C

A-3BC311

A-3CC316

C318C319

C317B-4CB-3C

A-3C

C313C314

C312A-3BA-3B

A-3B

C310C309C308

B-3BA-4BA-4B

C307C306C305C304

B-3BB-3CA-4BB-3B

C302C303

A-4BB-3B

LA403A-4EL609B-4EC707A-5DC628B-3E

C721C720C719C718C717C716C715C714C713C712C711C710C709C708

C644C643C642C641C640C639C638

A-3DA-3DB-4DB-4DB-4DB-4DB-4E

A-5DA-5DA-5DA-4EA-4EB-5EA-4D

C635C634C633C632C631C630C629

B-3E

B-4EB-4EB-4E

B-3EA-3EB-3E

A-4D

A-4EB-4DB-4D

B-5DA-4DA-5D

TP104TP103TP102TP101

A-4DA-4DA-4DB-5CB-4DB-4EA-4E

L804L803

B-2CA-1BB-1C

RA105RA104RA103

B-2B

A-1DA-1C

RA102RA101

LA607

L614B-5E

A-4DA-4DB-5D

L802L801L615

B-5DA-5EB-4E

L612L613

L610

LA603B-4D

A-1CA-1DB-4D

LA606LA605LA604

B-5CA-4E

A-5CLA601LA602

LA404


A-5DC620A-1E

C627C626C625C624C623C622C621

A-3E

B-4EB-4EB-4E

A-4EA-4EB-1D

A-4D

A-4EB-5DA-4D

A-5DA-5DA-5D

C619C617C615C614C613C612C611

A-2EB-1DA-2EB-2EB-2EB-2EB-2E

B-5EB-5EB-4CB-4CB-4CB-4CB-4C

CN501A-3DL513A-5C

L604A-4D

B-5CA-3CA-4D

L606L608

L605

A-4DA-4DB-5C

L602L603

L601

LA302A-4B

A-4CB-5D

B-4CLA401LA402

LA303

A-4CA-4C

A-4C

LA301

CN801

A-4DB-5CA-5D

L511L502L501

A-5DB-4DB-4DB-4D

L401L313L312L311

A-3EA-3DA-3D

CN403CN402CN401

B-2EA-2BB-3CA-4C

CN108CN106CN104CN102

B-1D

A-1BA-1BA-1BA-1BA-1B

B-4D

B-4E

B-4EB-4EB-4E

B-4EB-4E

B-1D

A-3E

B-4C

B-1DB-1D

B-3B

B-3B

A-1D

A-2DA-2EA-2EA-4EA-1CB-2BA-3D

C689C688

C610C609

B-1EB-1E

B-4CB-4C

B-4CA-5D L309

L310B-2DB-2E

CN1CN2

A-5DA-5B

1 2 3 4 5

A

D

C

B

E

5 4 3 2 1

A

B

C

D

E

GY-DV500

・DV　MAIN　基板部品配置図（××××0122号機以降対象）

2C(両面) 4-50-2

・DV　MAIN　CIRCUIT　BOARD　(FOR　SERIAL　No.××××0332　AND　AFTER　OF　GY-DV500U,　××××0545　AND　AFTER　OF　GY-DV500E)

　SIDE　A　

　SIDE　B　




Side

A-1C

X　axisY　axis


IC101IC103IC105IC106IC107IC108IC113IC201IC202IC301IC302IC303IC304IC305IC306IC307IC401IC402IC403IC404IC501IC503IC601IC602IC603IC604IC605IC606IC607IC608IC610IC611IC612IC613IC614IC615IC801

Q101Q202Q301Q302Q401Q402Q403Q404Q405Q501Q502Q503Q504Q505Q506Q507Q511Q512Q513Q602Q603Q604Q605Q606Q608Q609Q610Q611Q612Q613Q614

D102D103D401

B-1BA-2BA-1BA-1BA-2CA-2BA-1BA-4BA-5BA-3BA-3CB-2CA-2CB-2DB-3CA-3BB-1EA-1EA-2EA-1EB-3EA-4DA-4CB-4DB-5CA-4CB-4CB-4CB-4EB-4EA-5CA-4DA-4DA-4DA-4DB-4EB-1C

A-1BA-4BA-2CA-2BA-1DA-1EA-2EA-2EB-2EA-4EA-4EA-3EB-3DB-3DB-4DB-4DB-3DB-3DB-3EA-5DA-5DA-5DB-4CA-3CA-5DA-5DA-4DA-4DA-4CA-4CA-5E

A-1CA-1CA-2E

D402D601

R101R103R104R105R106R107R108R109R110R111R112R113R114R115R116R117R118R137R138R139R142R143R144R150R152R157R161R162R163R164R168R169R170R171R172R173R174R175R176R177R178R179R180R181R182R183R184R185R186R187R188R189R201R202R203R204R205R206R207R208R209R210R211R212R214R215R216R217R218R219

A-2EB-5D

A-1CB-2BA-1CA-1CA-1BA-1BA-1BA-1BA-1BB-1BB-1BB-1BB-1BB-1BB-1BB-1BA-1BA-1BA-1BB-1BA-1BA-1BA-1CB-1BA-1BA-1CB-1CA-1BA-1CB-3BA-1BA-1BA-1BA-1BB-1CB-1BA-2CB-2BB-2BB-2BA-2BB-2BB-2BB-2CB-2CB-2BB-2CB-2CB-2CB-2CB-2CB-1BA-4BB-4BB-4BB-4BB-4BA-4BA-4BA-4BA-4BA-4BA-4BB-5BA-5BA-4BA-5BB-5BA-5BA-5B


A-5BA-5CB-3BA-4BA-4BA-4BA-3BA-3DB-4CB-3CB-3CB-3CB-3CB-3CB-2CB-2CA-2DA-2DA-2DA-2DA-2DA-2DA-2DA-2DA-4BA-4BB-3CB-3CB-3CB-3CA-4BB-2DB-3CA-2BA-2CA-2CA-2BA-2BA-2BA-2BA-2BA-2BB-3BB-3BB-3BB-3BB-3BB-3BA-3CA-3CA-3CA-2CA-2DA-2CA-1DA-1DB-1EB-1EB-1DB-2EA-1EB-2EB-2EB-1DB-2EB-2EB-2EB-2EB-2EB-2EB-1EB-1EB-1E


B-1EB-2DB-2DB-2DB-2DB-1EB-1EB-1EB-1EA-2EA-2EA-1DA-1DA-1DB-2EB-1EB-1EB-1EB-1DB-1DB-2EB-2EB-2EA-1DA-1DB-2EB-2EA-2EA-2DB-2EA-1DA-2DB-1EB-1EA-1EA-4EA-4EA-4EA-3EB-4EB-4EB-3EB-3EB-4DB-4DB-4EB-4DB-4DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3DB-3EB-3EB-3EB-3EB-3DB-3DB-3DB-3DB-3EB-3EB-3EB-3EB-3EB-2B


A-4EB-3EB-3DB-3DB-3EB-3EB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CB-4CA-5DA-4DA-5DA-5DA-5DA-4DB-4DB-4DB-4DB-4DA-4DB-4DB-4DA-4DA-4DA-4DA-4DA-5DB-4CA-3CB-5EB-4EA-5DB-4EB-4CB-4CB-4DB-4DB-4CB-4CB-4CB-4CA-4CB-4CB-4CB-4CB-4CB-4CB-4CA-4CA-4CB-4CB-4CB-5CA-5CB-5CB-5CB-5CB-5CB-5DA-5C


B-5DB-5DB-5CA-5CA-5CB-4CB-4CA-5CA-5CB-5DB-5DA-4DA-4DA-3CA-5DA-5DB-5DB-5DA-5DB-5DA-5DB-4EB-4EB-4EA-5DA-5DB-5DA-5DA-4DA-4DA-4DA-4DA-2EB-4CB-4CB-4CA-4CB-4EA-4DB-4DA-4DB-4DA-4DA-4DA-4DA-4DA-4DA-4DA-4DA-4CA-4CB-4CB-4CA-5EA-5EB-5EA-5CA-1CA-1CA-1CA-1CA-1CA-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1CB-1C

R819R823R824R825R826R831R832R833R834R835R836R837R838

C101C102C103C104C105C106C108C109C110C111C112C113C114C115C116C117C118C119C120C125C126C127C128C130C135C136C141C145C146C147C148C149C150C201C202C203C204C205C206C207C208C209C210C211C212C213C214C215C216C217C218C219C220C221C222C223C224C225C226

B-1CB-1DB-1DB-1DB-1DB-1DA-1DA-1CA-1DA-1DA-1DB-1DB-1D

B-3EB-2EB-2DB-3DB-3DA-3CA-1CB-3EB-3EB-2BA-1BA-2BA-2BA-2BA-2BA-1CA-1CA-1BA-1CA-3CB-3DB-3DB-3DA-1BA-3EB-3EA-1CA-1BA-1BA-1BA-1CA-1BB-2EA-4BB-4BA-4BA-4BA-4BA-4BA-4BA-4BA-4BB-4BB-4BB-4BB-4BB-4BB-4BA-4BA-4BA-4CB-4BB-5BB-5BB-5BB-5BA-5BB-5BA-5C

4-50-2

1 2 3 4 5

A

D

C

B

E

5 4 3 2 1

A

B

C

D

E

GY-DV500

　INNER　PATTERN　(SIDE　A)　

　INNER　PATTERN　(SIDE　B)　

2C(両面) 4-51-2

B-3ELC101A-1ETP409B-1DC818A-5DC665B-3EC546A-2CC356

K603K602K601K404K403K402K401K303K301K102K101

TP602TP601TP411TP410

A-3DL115A-5CC677B-4DC591B-3CC367

C683C682C681C680C679C678

C404 A-1E C604 A-4C

B-2EC401

C403C402

A-2EA-2E

C369C368

A-3BA-2B

B-4CC601

C603C602

B-4CB-4C

C593C592

B-4DB-4D

L304A-5C A-3CL303L302L301L202L201

A-5C

A-5CB-5C

B-5CB-5C

A-4B

B-3DA-3B

A-4BA-4B

C676C675C674C673C672C669C668C667C666

A-3EC581B-3BC362

C366C365

A-2CA-3C

C364C363

A-2CB-3B

C590C584

B-4DA-4E

C583C582

A-3EA-4E

C361C360

A-2BA-2B

C359C358

A-2BA-2C

C580C579

A-4EA-3E

C555C547

A-3DA-3D

A-4C

L114L113L112L111

A-5CA-4CB-5CB-5C

A-3DB-3DA-3EA-3E

C822C821C820C819

B-5CB-4CB-4CB-4C

B-1DB-1DA-1DA-1D

B-2D

A-4D

A-1D

A-4DA-3D

A-1DA-1D

A-3BLC301

LC502LC501LC303LC302

A-2DB-3BA-1CA-1C

B-3EB-3EA-3BA-2B


B-5DB-5DA-1EA-1E

A-3CB-3DB-3DA-3E

TP408TP407TP406TP405TP404TP403TP402TP401TP305TP304TP303TP302TP301TP111TP110TP109TP108TP107TP106TP105TP104TP103TP102TP101

L804L803L802L801L615L614L613L612L610L609L608L606L605L604L603L602L601

A-1CC807A-4CC654A-3DC533B-2CC345

C664C663C662C661C660C659C658C657C656C655

A-2BC353

C355C354

A-2CA-2B

C352C351

B-3CA-4C

B-3EC543

C545C544

B-3EB-3E

C542C541

B-3EB-3E

B-3CC348

C350C349

B-3CB-3C

C347C346

B-3CA-4C

B-3DC538

C540C539

B-3EB-3E

C537C534

B-3DA-3D

C817C816C815C814C813

B-4C

B-5CB-5C

A-4CB-4C

B-1D

A-1CA-1C

A-1CA-1D

C812C811C810C809C808

B-4C

B-4CB-4C

A-4EA-4C

B-1C

A-1CA-1C

B-1CB-1C

C653C652C651C650C649C648C647C646C645C644

B-4DC527A-2DC340

C344C343

A-3BA-2D

C342C341

A-2DA-2D

C532C531

A-3DB-3D

C529C528

A-3DB-3D

A-2DC337

C339C338

A-2DB-2E

C336C335

A-2DA-2C

B-4DC524

C526C525

B-4DB-4D

C523C522

B-4DA-3D

A-1DC802B-4E

C806C805C804C803

A-4CA-4DA-4CA-4D

A-1CA-1CA-1CA-1C

C801C739C738C722C721

A-5D

A-5DA-5D

A-5DA-5D

B-3E

A-1DA-3E

A-4DA-4D

B-5DC710B-5DC631B-3EC511B-2CC324

C643C642C641C640C639C638C635C634C633C632

B-4EC516B-2DC329

A-2DC332

C334C333

A-3CA-2D

C331C330

B-2DA-2D

B-4DC519

C521C520

A-3DB-4D

C518C517

B-4DB-4D

C328C327

B-2DB-2C

C326C325

A-2CB-2C

C515C514

B-4EB-4E

C513C512

B-4EB-3E

A-4EC715A-4D

C720C719C718C717C716

A-4E

A-5DA-5D

A-4EB-5E

B-5C

A-4DA-4D

B-4DB-4E

C714C713C712C711

A-4EB-4DB-4DA-4D

A-4DA-4DB-5DB-5E

C630C629C628C627C626C625C624C623C622C621

B-4EC506B-4CC318

C323C321

B-2CB-3C

C320C319

B-3DB-3C

C510C509

A-3EB-3E

C508C507

B-3EB-4E

A-3BC314

C317C316

A-3CA-3C

C313C312

A-3BA-3B

A-4EC502

C505C503

B-4EA-3E

C501C419

A-4EB-1D

A-3CC704B-5D

C709C708C707C706

A-4DA-5DA-5DA-4E

A-5EB-4EB-4EB-5C

C702C701C700C699C698

A-5D

A-4DA-4D

A-5DA-5D

A-4D

A-4DA-4D

A-4DB-5C

A-4ERA604A-4B

X801X603X602X601

A-1E

A-1EA-1E

A-2EA-2E

B-4DB-1D

B-4DA-4C

X401X301X101

RA605

A-1E

A-2EA-1E

B-3BA-2B

B-2C

A-1EA-4B

A-4E

B-2ERA402B-2B

RA603RA602RA601RA403

A-4BB-4CB-1BB-2B

A-4DA-4EA-4EB-2E

RA401RA108RA107RA106RA105

B-2B

A-1BA-1B

B-2CB-2C

A-1B

A-1DA-1B

A-1BA-1B

B-4ELA602A-4E

B-4DLA607A-1C

RA104RA103RA102RA101

B-2B

A-1BB-1C

A-1D

A-1B

A-1BA-1B

A-1B

LA606LA605LA604LA603

A-1CA-1DB-4DB-4D

B-4EB-4EB-4EB-4E

B-1DLA401A-4C

LA601LA404LA403LA402

B-5CA-5CA-4EB-5D

B-4EB-1DB-1DB-1D

LA303LA302LA301

CN801

A-4C

B-4CA-4B

A-4CA-4C

B-3B

B-3BB-4C

A-1DL513L511L502L501L401L313L312L311L310L309L308L307L306L305

A-5CC687B-4CC608A-1DC408A-4BC301

C620C619C617C615C614C613C612C611C610C609

B-2EC413B-3CC306

A-4BC309

C311C310

A-3BB-3B

C308C307

A-4BB-3B

B-1DC416

C418C417

A-1EA-2E

C415C414

A-2EB-2E

C305C304

A-4BB-3B

C303C302

B-3BA-4B

C412C411

B-2EB-2E

C410C409

B-1EB-1E

B-4DC692B-4C

C697C696C695C694C693

B-5E

A-5DB-5E

B-4CB-4C

B-5C

A-5CA-4D

A-5DA-5D

C691C690C689C688

B-4CB-4CB-4CB-4C

B-4DB-4DB-4CA-5D

C607C606C605A-5BC227

C231C228

B-5BA-5B

B-1EC405

C407C406

B-1DA-1D

C686C685C684B-4C

B-4CB-4C

A-5C

A-5CA-5C

B-2D

A-1CCN106A-2B

CN501CN403CN402CN401CN108

A-3D

A-3DA-3E

A-3DB-2E

A-2E

A-3EA-2D

A-2EA-4E

CN104CN102

B-3CA-4CB-2EB-2D

CN2CN1

B-2BA-3DA-5BA-5D

K801K605K604A-2C

A-2DA-2C

A-4D

A-1CA-4D

4-51-2

1 2 3 4 5

A

D

C

B

E

5 4 3 2 1

A

B

C

D

E

GY-DV500

4.33

4.33

　

　PR　

PR　&　MDA　SCHEMATIC　DIAGRAM　(1/2)　

PR　&　MDA　基板基準回路図　(1/2)　

RA2

RA1

HA2

HA1

HSW

GCA

LPF

3rdAMP

AGCAMP

4-52

To

CN501Page　4-45

　DV　MAIN

2C

C942OPEN

R9320

4-52

SL91168　1/2

GY-DV500GY-DV500

4-53 4-53

　MDA　

　

MDA

　

TO　DV　LOAD.MOTOR

TO　DV　DRUM　MOTOR

TO　DEW　SENSOR

To

CN108Page　4-43

　DV　MAIN

TO　DV　CAPSTAN　MOTOR

To

CN2Page　4-56

　DCDC

To

CN402Page　4-44

　DV　MAIN

(Active　Head　Cleaner)

1C

・PR(Pre　Rec)　&　MDA(Motor　Drive　Amp.)　SCHEMATIC　DIAGRAM　(2/2)　

・PR(Pre　Rec)　&　MDA(Motor　Drive　Amp.)　基板基準回路図　(2/2)　

To　D1　ofDCDC　board

FROM/TODV　HOUSING　MOTOR

SL91168　2/2

GY-DV500GY-DV500

4.34

4-54 4-54

4.34

B

A

B

A

　SIDE　A　

　SIDE　B　




Side

A-1C

X　axisY　axis


IC601IC602IC603IC901


D601D602D603D604D605

R601R602R603R604R605R606R608R609R610R611R612R613R614R615R616R617R618R619R625R626R627R628R629R630R631R633R634R635R636R642R643R646R648R649R650

A-4BB-5AB-4BA-3B

B-5AA-3AB-3AB-4AB-1BB-1BB-1BB-1BB-3BB-3BA-3AA-2AA-3AA-3AA-2AA-2AA-2BA-2BA-2B

B-1BB-1AB-5BB-1AB-1A

B-4BB-4BA-4BA-4BA-4BA-4BB-3BB-3BB-4AA-4AA-4AA-4AB-4AB-4AB-4AB-5AA-5AA-5BB-4BB-4BB-4AB-4BB-4BB-4AA-5AA-4BA-4BB-5AB-5AA-3AB-5AB-5AB-4AB-4BB-4B

R651R652R653R654R655R656R657R658R659R660R661R662R663R901R903R904R905R906R907R908R909R910R911R912R913R914R915R916R917R918R919R920R921R922R923R924R925R926R927R928R929R930R931R932

C601C602C603C604C605C606C607C608C609C610C611C612C613C614C615C616C617C618C619C620C621

B-5BB-5BB-1BB-1BB-1BB-1AB-1BB-1BB-1AB-1BA-5AB-1AB-1BA-2BA-3BA-3BA-2BA-2BA-3BB-3BB-3BB-3BA-3BA-3AA-3AA-2BA-2BA-2BA-2BA-2AA-2AA-2AA-3AA-3AA-3AA-3AA-2AA-2AA-2AA-2AA-2AA-3BA-2BA-2B

B-1AB-4BB-4BB-4BB-4BA-4BA-4BA-4BA-4BB-4AB-4AB-4AB-4AA-3BB-4AB-3AA-4AB-4AB-4AA-4AB-4A

C622C623C624C625C626C627C628C629C630C631C632C634C635C636C637C639C640C641C644C645C646C647C648C649C650C651C652C653C654C655C901C902C903C904C905C906C907C908C909C910C911C912C913C914C915C916C917C918C919C920C921C922C923C924C925C926C927C928C929C930C931C932C933C934C935C936

A-4AA-4AB-4BA-5AB-4BA-5BA-5BB-4BB-5BB-5AA-5AA-4AA-5BB-5BB-5BB-5BA-5AB-5BB-3AA-5AB-5AB-5BB-4BB-4BB-4BB-5BA-5AB-5AB-5AB-1BA-3BA-3BA-3BA-3BA-2BA-2BA-2BA-2BA-3BA-3AA-3BA-3AA-3BA-3AA-3AA-3AA-2BA-2BA-2BA-2BA-2BA-2BA-2AA-2AA-2AA-2AA-2AA-2AA-2AA-2AA-3AA-3AA-3AA-2AA-2AA-2A

C937C938C939C940C941C942C943

L601L901L902L903L904L905L906


TH601

CN601CN602CN603CN604CN605CN606CN607CN608CN609CN610CN901CN902


A-2AA-2AA-2AA-2AA-2BA-2BA-2B

A-5AA-2BA-3BA-2BA-3AA-3AA-2A

A-3BA-4BB-1BA-3BA-1BA-3BA-3B

B-1B

A-5BA-1AA-3AA-4AA-1A

A-5B

A-1BA-1B

A-2A

B-5BA-5BA-5BA-5B

PR　&　MDA　基板部品配置図

PR　&　MDA　CIRCUIT　BOARD

2C(両面) 4-54

1 2 3 4 5

5 4 3 2 1

To　D1　ofDCDC　board

(part　No.　MLSC162.)wire

A-4B

A-1B

A-3B

GY-DV500GY-DV500

4.35

4-55 4-55

4.35

・CONN.　

ROM,　CONN.　SCHEMATIC　DIAGRAM　／

ROM,　CONN.　基板基準回路図　／

・ROM　

To

CN403Page　4-44

　DV　MAIN

CN1

FROM/TO　MECHANISM

To

CN401Page　4-44

　DV　MAIN

1C

SL93104

SL94020

GY-DV500GY-DV500

4-56 4-56

4.36

4.36

　

DCDC　SCHEMATIC　DIAGRAM　

To

CN601Page　4-53

　PR　&　MDA

To

CN102Page　4-43

　:　Not　mounted.

1C

To　C635　of　PR&MDA　board

　DV　MAIN

DCDC　基板基準回路図　

SL92236

GY-DV500GY-DV500

4.37 DCDC ,　ROM ,　CONN.　基板部品配置図

4-57 4-57

4.37 DCDC,　ROM,　CONN.　CIRCUIT　BOARD

・DCDC ・ROM

・CONN.

3

3

2

2

1

1

B

B

A

A

　SIDE　A　

　SIDE　B　




Side

A-1C

X　axisY　axis


IC1

Q1Q2Q3Q4Q5Q6Q7Q8

D1D2D3D4D5D6D7

R1R2R3R4R5R6R7R8R9R10R11R12R13R14R15R16R17R18R19R20R21R22R23R24R25R26R27R28

B-2A

B-1AB-1AB-3BB-3AB-2AA-2AB-1AA-2B

A-3BA-2AA-2AA-2AA-1AA-1BB-1B

B-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-1BB-1BB-1BB-1BB-2BB-1BB-1BB-1BB-1BB-1BB-1BB-1AB-1AB-1AB-1A

R29R30R31R32R33R34R35R36R37R38R39R40R41R42R43R44R45R46R47R48R49R50R51R52R53R54R55R56R57R58

C1C2C3C4C5C6C7C8C9C10C11C12C13C14C15C16

B-1AB-1AB-1AB-2AB-2AB-2AB-2AB-2AB-2AB-2AB-2AB-2BB-1AB-2BB-2BB-1BB-1AB-2AB-2AB-1AB-2AB-3AB-1AB-2AB-1AB-1BB-1BB-2BB-2BB-1B

B-2AB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-2BB-1BB-1BB-1BB-1AB-1BB-1BB-1A

C17C18C19C20C21C22C23C24C25C26C27C28C29C30C31C32C33C34C35C36C37C38C39C40C41C42C43C44C45C46C47C48C49C50

L1L2L3L4L5L6L7L8L9L10L11L12

B-1AB-1AB-2AB-2AB-2AB-2AB-2AB-2AB-2AB-2AB-2BB-2BB-2AB-1AB-3BB-2BB-3AB-2BB-2AB-3AB-3AA-2AA-1AB-1BB-1AB-1AB-1AB-1AA-2BA-1BB-1BB-1BA-2BB-1B

A-2AA-2BA-2BA-2BA-2AA-2AA-2AA-1AA-1AA-1AA-1AA-1A

L13L14L15

CP11CP12CP13

CN1CN2

A-1BA-1BA-1B

A-2AA-2BA-2B

A-1BA-3B

SL82088-04-001

　SIDE　A　

　SIDE　B　

　SIDE　A　

2C(両面) 4-57

To　C635　ofPR&MDA　board(part　No.　MLSL161:　wire

GY-DV500GY-DV500

4.38

4-58 4-58

4.38

IC9^C

IC7.1

AS　GchSAME

AS　GchSAME

DrPulse

+15VVL

5V-+5V

BchGND

Rch

V4V3

CCD　RST

Vsub

V2V1

H2H1

SHP

CP

IC6

RegRegVL

iv IV2 XV2V2O

VL+15VIC5+15V +20V

VL

V4V3

OO

V　D

r

CH2

IV4CH1

IV3

10V-VLQ1

WE

N

XSG2XSG1XV4XV3

1/2

CK

HD

IN

OSUBV1O er

IC3ISUB

IV1

Rst

iver ivPulseDr er

SHP

IC7.2

XSUBXV1

H1H2 R

G

TG

SH

D

CP

ED0

VD

IN ED1ED2

D3

CLD 14MHz

SHUTT　CS

SH

P

IC1

7MHz

TG　HD1/2

IC15

v

v

IC505

IC505

GND

SHP

GNDS/H　G

GNDS/H　G

CCD　RSTV1

CP

VsubV4V3V2

H2

H1

DrH2

H1Dr

VL

+15V

5V-+5V

5V

+15V

-

VL

+5V

VL

H2

H1

CCD

IC501

CBuff cut

CCD　OUT

Q501

TP501

ARDTG　BO

Amp

Q504Sample

Hold&

IC503

100%

IS　BOARD

100%

S/H　R

10V +20V--+5V-5V

10V

CN14CAM1FR

CS　OP

+20V

TG　SDTTG　SCK

HI-RESO

WENOPOP

OP VD　

CLK　　HD

SHUT

OPOP

SCKSDT　　

CS　

IC14LOLUX

R　GND

GND

OM/TO

TP2S/H　B

G　GNDS/H　GB　GND

CN14

IS　&　TG　BORAD　BLOCK　DIAGRAM　(G　channel)

IS　&　TG　ブロックダイアグラム（G　channel）

S　　P

1C

GY-DV500GY-DV500

4-59 4-59

4.39

4.39 CAM1　BOARD　BLOCK　DIAGRAM

0.00Vpp0%1.4Vpp

100% 1.82Vpp130% 3.3Vpp

400%

TP503

GCAAmp

130%Q511C539

L507

IC529.2IC524.2IC525

IC521.1IC522

KNEE

MIXBLK　CTL

OB　FB

IC515Amp

WSAMIXGC　CTLA

EVR8bit　D/A

IC521.2IC522

adjOB　FB

TP502

IC526

IC524.1

IC513IC512

R＿APR

B＿APRG＿APR

GND＿RGND＿GGND＿B

R＿S/H

B＿S/HG＿S/H

GND＿RGND＿GGND＿B

R＿S/H

TG　CN4OOM/TFR

CN14B＿S/HG＿S/H

0VDC0%

0.6Vpp100%

2.4Vpp400%

0.00V0%0.35Vpp100%

1.4Vpp400%

0.7Vpp100%

2.8Vpp400%

CN21CAM2

OOM/TFR

CN21

CN21

CN21

CN21CAM2

OOM/TFR

CN21CAM2

OOM/TFR

CN101

INT/EXT

SDT＿DENSCK＿DEN

CS＿AD＿SGTX＿SDT

SCK

4094　OECS＿IF＿VTR

RESETCS＿CHARASDT＿CHARASCK＿CHARA

WEN.VD＿TG

232C　SOUT232C　SIN

HD＿OPBCP＿AD

TX＿SDT＿DSPSCK＿DSPCS＿DSP

RX＿SDT＿DSP

CN21CAM2

OOM/TFR

CN21

CN21CAM2

OOM/TFR

CN21

VD

,R).BAL(BWGAIN

,G,R)CK(BBLA＿IN＿GCA

,G,R)WH-SH(B

,G,R)INGAIN(B

,R)AINT　BAL(BPFLARE(R,G,B)　BLKM.

APR　CSSCLK

TASD

AP

R　C

SS

CLK

BC

P

TAS

D

IF　CN23OOM/TFR

TG　CN4OOM/TFR

PS　CN45OOM/TFR

CN23

CN45

PS　CN23OOM/TFR

TG　CN14OOM/TFR

TG　CN14andIF　CN23

OOM/TFR

CN14

PS　CN45OOM/TFR

APR

CLK＿CCD

Reg+4.3V

OUTCLK

CLK

(1/136)1/182

COUNTER

SW+12V

+9V

ON＿WERPO

GND5V-

+5V10V-

+20VSW+12V

GND5V-

+5V+9V

IC61

IC910

28MHz+5V

FBEOH

PLL

GND10V-

+20V5V-

+3.3V+5V

GND10V-

+9V5V-

+3.3V+5V

GND10V-+9V

5V-+3.3V

+5V

.ADJ＿UDIOANG

AKET

.ADJ＿UDIOANG

REC＿VTR

CS＿DISPLEVEL＿UDIO1ALEVEL＿UDIO2A

TUSAST＿VTRCMD＿CAM

AKET

RESET

UFFBGEA3ST

I2C　CLK

4094　OEV　IF　CS

TASDSCLK

CS＿SGRESETCHARA　CSCHARA　SDTCHARA　SCKDSP　SDIDSP　SDODSP　SCSDSP　SCKINT/EXT

VD＿TGTAI2C　D

UD

IO1　

LEV

EL

AUD

IO2　

LEV

EL

A

TUSAVTR　ST

VTR　REC

CAM　CMD

DISP　CS

IC955IC952IC951

S951IC954

S952

DIALJOG

IC906

X9014MHz

CIRCUITPREVENTIVE

TTERINGCHA

OUTCLK

CLK

(1/16)1/10

COUNTER

IC63

IC62IC64

LOGIC　CIRCUITDERECTIONAL

UPTINTER

X’tal

IC901

XI

XO

DIR

EC

TIO

NT

RG

SE

T

ME

NU

AP

R　C

S

CH

AR

A　S

CK

CH

AR

A　S

DT

CH

AR

A　C

SR

ES

ET

4094　O

EI2

C　C

LK

SG　C

S

VT

R/2

32C

VD

INT

/EX

T

OM

E2P

R

IC909

IC908

OM

R

ATAD

READ RDXOM　CER

RESET

RESET

I/01I/01I/02I/03I/04I/05I/06I/07A8

A0

A1

A2

A3

A4

A5

A6

A7

A9A10A11A12A13A14A15A16

CEOE

A17

IC902

TC

HLA

SW

DIP

S901

CS＿SW

RX＿SDTADJ　MODECHECK　MODE

DIP　SW6DIP　SW5DIP　SW4

VICE　MENUSER

IF＿SDTSCK

SETUP　ON/OFFI/U

IC901

TC

HLA

D5

LEQ0Q1Q2Q3Q4Q5Q6Q7

D0D1D2D3D4

D6D7

IC904

S　R

AM

AD

DR

ES

S

ATAD

AD

DR

ES

S

AD

DR

ES

S

ATAD

ARDJOG　BO

ARDOM　BORTCHLA

TC

HLA

ATAD

ON＿SW+12V

OFF＿WERPO

ON＿WERPO

VD＿OPWEN

CS＿OPSHUT　CS

SDT＿OPSCK＿OP

TG　CN14OOM/TFR

CN23

CN45

CN14

CN14CLK＿OPHD＿TG

WER　OFFPO

ON＿WERPO

ON＿SW+12VWER　OFFPO

　ON/OFF　DET.SW

ON＿SW+12VTG　SCKTG　SDT

SHUT　USTG　CS

SCK

4094　OETX＿SDT

CS＿SWCS＿AD＿LENS

TERFILIRIS　POSI

ZOOM　POSI

IF＿SDTEXT*2

SCK

4094　OETX＿SDT

CS＿SWCS＿AD＿LENS

TG　SCKTG　SDTSHUT　USTG　CS

SCKTX＿SDT

SW　CSCS＿AD＿LENS

TERFILIRIS　POSI

ZOOM　POSI

HD＿TG

IF＿SDT

TERFILIRIS　POSIZOOM　POSILENS　EXT*2

SKDI

CSDO

OSCKPPGO　OUTCS　E2P

　ON/OFF.SW

B　SIG.

A　SIG.

TGX　INA

UDIO1　LEVELA

DSP　SCKDSP　SCSDSP　SDODSP　SDI

SINO

OTSO

DISP　CSVER　REC

UDIO2　LEVELARSTX

P30/ALE

P31/RDXP32/WRLX

WRITEREAD

IC911

IC907

WRITEREAD

I/00I/01I/02I/03I/04I/05I/06I/07A8

A0A1A2A3A4A5A6A7

A9A10A11A12A13A14

OEWECE

P00/AD00P01/AD01P02/AD02P03/AD03P04/AD04P05/AD05P06/AD06P07/AD07

P10/AD08/W10P11/AD09/W11P12/AD10/W12P13/AD11/W13P14/AD12/W14P15/AD13/W15P16/AD14/W16P17/AD15/W17

P20/A16P21/A17P22/A18

IC905

IC903

CPU

CPU

EXT*2

CAM1　ブロックダイアグラム

TAI2

C　D

　IF　C

S＿V

P　　S

1C

GY-DV500GY-DV500

4-60 4-60

4.40

4.40 CAM2　BOARD　BLOCK　DIAGRAM

0.43Vpp100%

1.0Vpp400%

Amp

1.0V

IC623.2

REFOB　FB

IC517

rT　.DQ810

rT　.DQ907

rT　.DQ909

rT　.D

ARA/PSERI

WIDE

ALARM　TTBAON/OFF　+48V

SW　RETURNENABLE　DISP

YALLTVESA

SW　RETURNENABLE　DISP

IC750

VESA

L:ALARM

EN

AB

LE　

DIS

PS

W　

RE

TUR

N

,　H:ONL:OFFTX　SDTSCK

4094　OECF　IF　VTR

IC701.1

Amp

IC701.2

Amp

UFB

IC104

CN32

WIDE　CTL

　9　CTL16　:

ALARM　TTBA

YALLT　VF

Y　VF

CN34

CN1

CN3

CN33

BNC　CN34OOM/TFR

VF　CNOOM/TFR

CN1V　MAIND

OOM/TFR

MIC　CN33OOM/TFR

CN3THERMO

OOM/TFRLEVEL　UDIO1ALEVEL　UDIO2A

CS　DISPATAD　DISP

CLK　DISP

TEST

LOCK　GEN

C　OUT

Y　OUT

Y(X)RETURN　Y(X)CAM　

ENABLE　DISP

IN　HVIN　

CAM　CLK(+)

CAM　C(X)

SERIAL

H:CAM,　L:RETURNENABLEH:DISABLE,　L:

,L:EVENH:ODD

VE,　OPEN:SA-BYH:ST

USEA,　L:PH:RECSERIAL

L:ON,OPEN:OFFL:ON,OPEN:OFF

TUSAST　VTR

REC　VTRCAM　CMD

AKETNG

VRONT　FR

CAM　MIC(H)

CAM　MIC(C)

UD　GNDA

REG+48V

GNDCAMERA　MIC(C)CAMERA　MIC(H)

GND10V-+9V

5V-+3.3V

+5V

10V-+9V

5V-+3.3V

+5V

.ADJ　UDIOANG

REC　VTR

4094OECS　IF　VTR

CS　DISPLEVEL　UDIO1ALEVEL　UDIO2A

TUSAST　VTRCMD　CAM

AKET

Q750

TRAPSepaSync

OSC27MHzPPL

CLK　REF

IC113

IC102

IC115IC114

TERFIL

IC109IC108

ShiftH　Phase

INT/EXT

CS　AD　SGTX　SDT

SCK

H:EXT,L:INT

WEN.VD　OP

HD　OPBCP　AD

INT/EXT

CS　AD　SGTX　SDT

SCK

1/2

IC103

IC101LC101

IC105

D/A8bit

V　DECODE&

V　COUNT

UFB

IC829IC828^C

UFB

UFB

UFB

IC827

UFB

75

ENCORDERALDIGIT

REF1.235V

IC821

IC826C

Y　

IC824

IC823

UFB

UFB

IC912

UFB

+48V

+48VQ702

IC825

UFB

IC692.2

IC811REF

P[15..8]C　CAD

C　DADY　ANALOG

P[7..0] 75

R

+5V

R

+5V

5K

+3.3V( N

)R

115

( P)

106

R

+3.3V

5K

+3.3V

R

+5V

Amp

IC901

IC910

IC901

ORTGENERAORCTCHARA

IC901

IC902

VSYNCHSYNC

CKINCKBA

CS

ATAD

CLK

PCL

CHARARESET

MIXCHARA

IC691REF2.5V

+5V

Amp

Amp

FBB

FBGCLK

VI

A/D10bit

D[9..0]

IC693.2

IC693.1 IC481

CLK

REF1V

REF2V

VI

A/D10bit

D[9..0]

IC581

AD

CLK CLK

VI

A/D10bit

D[9..0]

RE

F　

2.5V

TERNAZEBRA　PIC801

UA

EN

SSG

DPR

DSP

H　DECODE&

H　COUNT

IC103

TERNAZEBRA　P

,　L:EVENH:ODDVCAM　

4.5MHz

HCO

BLANKVSYNC

IC802.2,3,4

UFB

IC830.1

UFB

1/3

H　D

EC&

H　C

NT

DE

TE

CT

EX

IT

AdjPhase

IC103

IC681

UFB

ODD/

EVEN

H:O

DD

L:E

VE

N

HD

HD

CP

VD

FI

HD

　D

SP

CP

　D

SP

CLK

135

CTL

　R

EF

　D

/A

CLK

675

VD

　D

SP

WEN

　DS

P

HD

　D

SP

CP

　D

SP

VD

　D

SPW

EN

　D

SPC

LK27

CLK

27M

CK

SD

IS

CK

CS

SD

OA

DC

LK

UV

L:SMALLH:BIG32LSB

(13.5MHz)YD

BIN

FBR

GIN

RIN

BCP　AD

WEN

VD　OP

HD　OP

PHASEV　HDAD

D/A　R

EF　

0~5V

AR

EA　O

N/O

FF

FIP

CLK27

CLK

27

INT

ALNTSC/P

EXIT

VD

V　BFPAD

V　HDAD

V　BCPAD

EX

TIN

T/

V　BCPAD

WEN　IN

CAM　HHSYNC

V　HDAD

13.5M

CN21

CN21CAM1

OOM/TFR

CN21

CN21

CN21CAM1

OOM/TFR

CN21

CN21

CN21

CN21CAM1

OOM/TFR

CN21CAM1

OOM/TFR

CN21CAM1

OOM/TFR

CN21

27MTP101

HS

VSTP104

TP103

FB　RFB　GFB　B

R　ADCCN21CAM1

OOM/TFR

KNEE　&　CLIP

PRE　KNEE

IRIS　DETECTION

B　ADCG　ADC

CN21CAM1

OOM/TFR

ALS

BATAS

DS

CLO

CK

RE

SE

T

BLA

NK

VS

YN

CH

SY

NC

CLK

27C

LOC

K

CS　A

RE

A

S　Z

ON

EA

RE

A　3

AR

EA　2

RESET

OPEN　DRAIN

DSP　SDIDSP　SCK

CLK675

RESET

CHAR　CSCHAR　SDTCHAR　SCK

CS　DISP

RESET

CHAR　CSCHAR　SDTCHAR　SCK

CS　DISP

DSP　SDODSP　CS

AR

EA　1

CK

CH

AR

A　B

AC

HA

RA

RESETSDT　DENSCK　DEN

CS　CHARSDT　CHARSCK　CHAR

TX　SDT　DSPSCK　DSP

G　APR

CS　DSPRX　SDT　DSP

IC833

UF

B

IC117

CAM2　ブロックダイアグラム

5　　3

5　　3

ZEBR

A　CO

MPA

5　　3

5　　3

5　　3BUF

3.3　　3.0

3.3　　3.0

1C

2H　DELAY(Gch,Rch)

BLACK　STRETCH

COLOR　MATRIX

Y　MATRIXC　MATRIX

C.　BAR　GEN.

BLEMISH　COMPENSATION

GAMMA　CORRECTIONCONTOUR　CORRECTION

16　:　9

GY-DV500GY-DV500

4-61 4-61

4.41 IF,　SWF,　SWRU　ブロックダイアグラム

4.41 IF,　SWF,　SWRU　BLOCK　DIAGRAM

LED

＿＿CS

＿+5V

CN10

NORMAL

SPO 　L.T

CK.BA 　L

FP　CN10OFROM/T

GN

D

TE

R　1

TE

R　2

TE

R　3

TE

R　4

FIL

FIL

FIL

FIL

VR301

+5VUDIOA

CH-1LEVEL

U　BOSWR ARD

O　IRISUTAS341

STRETCH

NORMAL

COMPRESS

CKS343

BLA

LOLUXS342

FULL　A OUT

IC341

SW＿

SD

T

SD

T

S344

Q341

IC342

SC

K

FAS

H:ON

LD341+5V

NG

ARD

CCU　FOCUS/A

ZEBRA/SKIN　AREA

VTR　

SWF　BO

A

ARDIF　BO

S302TRIG

S303

S301

IC321

WHITEO　UT

S304AKET

CN35SCK

TER

AKE

SWFSDT＿

FILUDIO

SW

AT＿CS

ADJ＿

LENSLENS

TRIGRET

＿＿

POSI

A/RLENSOOM/TFR

LENS

IRIS CTL＿

LENSLENS TRIG＿

＿RET＿

EXTZOOMLENS

＿UTA＿ O

＿X2IRISCN31

POSI＿

4094　O

E

SD

TS

CK

LEN

S

SD

TN

GTAF

IL

SW

ZO

OM

EX

TIR

IS

RX

SW

F

Amp

IC302

IC302

D/A

IC301

PO

SI

PO

SI

＿＿ X2 ＿

CS

＿

AD

JA

KE

UD

IOT

ER ＿

＿ RX

＿A

D＿C

S

CAM1　CN23

＿TX

OM/TFR O

＿＿＿W

ER

SWRM　CN37

JOG　CN38

BARS

＿PRESET

＿

UTA O

UTA O

B

KNEE

NG

H＿BY

L＿GAINGAIN

＿ST

WERPOCN37

ON＿

OM/TFR O

JOG

JOG

PO

JOG

DIRJOGOOM/TFRTRG

MENUJOG

＿＿

SETJOG＿CN38

JOG

JOG

JOG

PO

CN36

DIR

ON

TR

G＿

SE

T

CN23

ON

DIR

＿W

ER TR

G＿

＿＿ SE

T

P　　S

P　　S

P　　S

1C

GY-DV500GY-DV500

SYSCON　ブロックダイアグラム

4-62 4-62

SYSCON　BLOCK　DIAGRAM

4.42

4.42

CPU

SYSCONCPU

CAMERACPU

LCD/TCCPU

FRP

Flash.ROM128Kbyte

RAM8Kbyte

E2ROM8kbit

RESET

UART

CMD/STATUS

REM　TALLY

SAVE　SW

I/O　EXT

AUDIO　CIRCUIT・EE　SW・MUTE　SW・LOW　CUT1・LOW　CUT2

VIDEO　CIRCUIT・EE　SW・ASPECT　SW・SETUP　SW

ADDRESS/DATA　BUS

CLOCK

DATA

DATA

SAVE　SWDCDC　CIRCUIT

AUDIO　MUTE

RS232C　SELECT　SW

AUDIO/LCD　BOARD

AUDUO/LCD　BOARD

REC　TRIG

RS232C

VIDEO/SYSCON　BOARD

IC401

IC404

IC403

IC407 IC408

IC405

IC410

IC901

・DISP　CS・DISP　CLK・DISP　DATA・DISP　ENABLE・DISP　BUSY

・DISP　CS・DISP　CLK・DISP　DATA・DISP　ENABLE・DISP　BUSY

REC　START(　REC　　　　　REC　PAUSE)

TAKE(　MARK　IN/OUT,　CUE　)

1C

OSD　CONTROL

ADDRESS/DATA　BUS

RETURN　SW(　PEROLL　&　PRESTART　)

RS232C　REMOTE(L)

JVC　BUS　CMD/STATUS

JVC　BUS　CMD/STATUS

ADDRESS/DATA　BUS

AUDIO　CONTROL

VIDEO　CONTROL

IC101

IC604

GY-DV500GY-DV500

LCD　ブロックダイアグラム

4-63 4-63

LCD　BLOCK　DIAGRAM

4.43

4.43

　

1C

GY-DV500GY-DV500

VIDEO　ブロックダイアグラム

4-64 4-64

VIDEO　BLOCK　DIAGRAM

4.44

4.44

REG　ブロックダイアグラム4.45

4.45 REG　BLOCK　DIAGRAM

1C

L21,　C26

CN1

CP2 L20,　C25

Q1-Q3,　D1L1,　C1 L2,　C3

CN2

Q4-Q6,　D2L3,　C4 L4,　C6

Q7-Q9,　D3L5,　C7 L6,　C9

Q10-Q12,　D4L7,　C10 L9,　C14

Q13-Q14,　T1,　D6D5,　C15 C61

+48VCP1

SWITCH DET

Q19 Q18

Q15-Q17,　D9L10,　C22 L11,　C24　

+7.2V

CN3

GY-DV500GY-DV500

AUDIO　ブロックダイアグラム

4-65 4-65

AUDIO　BLOCK　DIAGRAM

4.46

4.46

　

1C

IC701

S1

IC1 IC2

S101

IC101 IC102

IC201

S201

S202

IC202

IC203

IC206

IC207

IC208

IC209

IC204

IC205

S203

S204

VR201

VR202

IC304

IC303-1

IC301

IC302

VR310

VR311

S301

VR304

VR301

VR303

VR302

14

12

18

16

TP209

GY-DV500GY-DV500

4-66 4-66

4.47

4.47

　

　

　

DV　ブロックダイアグラム　1/2

DV　BLOCK　DIAGRAM　1/2

1C

SL92239

GY-DV500GY-DV500

　

4-67 4-67

1C

SL93113

・DV　BLOCK　DIAGRAM　2/2

・DV　ブロックダイアグラム　2/2

GY-DV500 GY-DV500

4-68 4-68

4.48 ICブロックダイアグラム

4.48 IC BLOCK DIAGRAMS

AD603AR-X [ANALOG DEVICES]

(Variable Gain CTL Amplifier)

AD8031ART-X [ANALOG DEVICES]

(Op.Amp.)

AD9057BRS-60-X [ANALOG DEVICES]

(8bit A/D Converter)

ADS933Y-X [BURR-BROWN]

(10bit 20MHz A/D Convertor for Video Signal)

ADV7171KS [ANALOG DEVICES]

(Digital PAL/NTSC Video Encoder)

AK4518-VF-X [ASAHIKAEI]

(16 bit A/D, D/A Convertor for Audio Signal)

4-69 4-69

AN3731FHQ [MATSUSHITA]

(Pre/Rec Amp.)

AN3741FAP-A [MATSUSHITA]

(Playback Equalizer)

AN77L03M-X [MATSUSHITA]

(Voltage Regulator)

BA3314F-X [ROHM]

(Dual Pre-Amp.for Audio Signal)

BA6138F-X [ROHM]

(Audio Level Detector)

BA6254FS-X [ROHM]

(Motor Driver)

BA6417F-X [ROHM]

(Reversible Motor Driver)

BH7086KV [ROHM]

(4 Channel VCO for DVC format)

CXA1439M-X [SONY]

(Correlated Double Sampling)

4-70 4-70

BA6865KV [ROHM]

(Motor Driver Controller)

BA9738KV [ROHM]

(6 Channel Switching Regurator Controller)

BU4094BCFV-X [ROHM]

(8-Stage Shift/Store Register)

CLC450AJM5-X [NATIONAL SEMICONDUCTOR]

(Current Feedback Amplifier)

CY62256LL70SN-X [CYPRESS]

(32k x 8 Static RAM)

4-71 4-71

CXD1265R [SONY]

(CCD Camera Timing Generator)

4-72 4-72

4-73 4-73

JCS0050 [JVC]

(Digital Signal Processor)

LM2598S-ADJ-X [NATIONAL SEMICONDUCTOR]

(1A Step-Down Voltage Regulator)

LMC6082IM-X [National Semiconductor]

(Precision CMOS Dual Op.Amp.)

LP2986IMM-X [NATIONAL SEMICONDUCTOR]

(Adjustable Voltage Regulator)

M27W102-80N6-02 [ST MICRO ELECTRONICS]

(1M Bit (64kb x 16) EPROM)

LM2597M-ADJ-X [NATIONAL SEMICONDUCTOR]

(0.5A Step-Down Voltage Regulator)

4-74 4-74

LM1881M-X [National Semiconductor]

(Video Sync Separator)

M31020EAVP-101 [MITSUBISHI]

(32bit Single Chip Micro Computer)

4-75 4-75

M51957BFP-X [MITSUBISHI]

(Voltage Detector/System Reset)

M5201FP-X [MITSUBISHI]

(Switch Op.Amp.)

M5218AFP-X [MITSUBISHI]

(Dual Op.Amp.)

M52387FP [MITSUBISHI]

(Digital Signal Interface)

4-76 4-76

M52684AFP-XE [MITSUBISHI]

(SYNC Separator and AFC)

M62353GP-X [MITSUBISHI]

(8-Bit 8-Channel D/A Converter) M65500FP [MITSUBISHI]

(Error Correcting Codes and Digital Channel Interface)

M66312FP-W [MITSUBISHI]

(8 Bit LED Driver with Shift Register and Latched 3-State Outputs)

MAX771ESA-X [MAXIM]

(Stepup Switching Controller)

MAX772ESA-X [MAXIM]

(Refer to MAX771ESA-X.)

MM1117XF-X [MITSUMI]

(3 Input-1 Output Video Switch)

4-77 4-77

MB3782PF-X [FUJITSU]

(Switching Regulator Controller)

MB88345PF [FUJITSU]

(D/A Converter)

MB90T678BPF [MITSUBISHI]

(CPU)

PLSC1278 [FUJITSU]

(Refer to PLSC1063.)

PLSC1063 [FUJITSU]

(2M Bit Flash Memory)

4-78 4-78

MN102F1617HL-21 [MATSUSHITA]

(16 Bit Micro Controller)

MN12821-QR-X [MATSUSHITA]

(Voltage Detecter)

MN3112SA-X [MATSUSHITA]

(Vertical Driver)

MN41V4260TT-A07 [MATSUSHITA]

(4M(256k-word x 16bit)Dynamic RAM)

NJM062V-X [JRC]

(J-FET Input Op.Amp.)

NJM2068M-D-X [JRC]

(Dual Low-Noise Op.Amp.)

4-79 4-79

MN47V06AF [MATSUSHITA]

(4.75Mbit (622080 word x 8bit) CMOS DRAM)

MN67373 [MATSUSHITA]

(Video Compress and Audio DSP at DV Format)

NJM2904M-X [JRC]

(Dual Op.Amp.)

NJM78L05UA-X [JRC]

(3-Terminal Positive Voltage Regulator (+5V))

NJM78L15UA-X [JRC]

(Refer to NJM78L05UA-X.)

4-80 4-80

NJM2538V-X [JRC]

(Video Amp.)

NJU6433FB2 [JRC]

(1/4 Duty LCD Driver)

NM24C16LEM8-X [FAIRCHILD]

(16,384bit Standard 2-Wire Bus Interface Serial EEPROM)

NM24C16LEM8-XZB [FAIRCHILD]

(Refer to NM24C16LEM8-X)

PLL1700E-X [BURR-BROWN]

(Programmable Dual PLL Clock Generator)

S-80840ANNP-W [SEIKO]

(Precision Voltage Detector)

4-81 4-81

NM93C86AEM8-X [NATIONAL SEMICONDUCTOR]

(16,384-Bit Serial Interface, Standard Voltage CMOS

EEPROM)

S-81240PG-PJ-X [SEIKO]

(Voltage Regulator)

S-8423LFS-X [SEIKO]

(Battery Back-up Selector)

SN74CBT3384APWX [TEXAS]

(10 Bit Cross Bar Switch)

SN74LV08APW-X [TEXAS]

(Quad 2-Input AND Gates)

SN74LV125APW-X [TEXAS]

(Quad Bus Buffer Gates With 3-State Out-

puts)

TA75S01F-X [TOSHIBA]

(Single Op.Amp.)

4-82 4-82

T9P90EF [TOSHIBA]

(A/D and D/A Converter for Video Signal)

TC4051BF-X [TOSHIBA]

(Single 8 Channel Analog Multiplexers/Demultiplexers)

TC4S81F-X [TOSHIBA]

(2-Input AND Gate)

TC4W53F-X [TOSHIBA]

(2-Channel Multiplexer)

TC4W53FU-X [TOSHIBA]

(Refer to TC4W53F-X)

TC74HC165AF-X [TOSHIBA]

(8-Bit Serial or Parallel-In/Serial Out Shift Registers With Comple-

mentary Out)

TC74HC4053AFT-X [TOSHIBA]

(Triple 2-Channel Analog Multiplexer/Demultiplexer)

4-83 4-83


(8-Bit Binary Programmable Down Counter)


(Dual Retriggerable Monostable Multivibrator)

TC74HC4538AFS-X [TOSHIBA]

(Refer to TC74HC4538AF-X.)

TC74VHC04FT-X [TOSHIBA]

(Hex Inverters)


(Refer to SN74LV08APW-X.)


(Refer to SN74LV125APW-X.)


(Dual 2-Line to 4-Lile Decoders/Demultiplexers)


(Quad 2-Line to 1-Line Data Selectors/Multiplexers,NON-

Inverted Data Outputs)


(Refer to TC74HC165AF-X.)


(Octal Buffers AND Line Drivers With NON-Inverted 3-State

Outputs)


(Octal D-Type Latch With NON-Inverted 3-State Output)

4-84 4-84


(Octal D-Type EDGE-Trigger Flip-Flop With NON Inverted

3-State Outputs)


(Dual D-Type Positive-EDGE-Triggered Flip-Flops With

Preset AND Clear)

TC74VHCT541AFTX [TOSHIBA]

(Octal Bus Buffer With Inverted 3-State Outputs)

TC7S02FU-X [TOSHIBA]

(2 Input Single NOR Gate)


(2 Input Single AND Gate)


(Schmitt trigger)


(Analog SW)

TC7SET04FU-X [TOSHIBA]

(Single Inverter Gate)

TC7SH00F-X [TOSHIBA]

(2 Input NAND Gate)

TC7SH00FU-X [TOSHIBA]

(2-Input NAND Gate)


(Inverter)

TC7SH08F-X [TOSHIBA]

(Refer to TC7S08FU-X.)


(Refer to TC7S08FU-X.)


(2 Input Single OR Gate)

TC7SHU04FU-X [TOSHIBA]

(Refer to TC7SH04FU-X.)

TC7SU04FU-X [TOSHIBA]

(Refer to TC7SH04FU-X.)


(2 Input Dual NAND Gate)


(Triple Inverter Gate)


(Dual Bus Buffer)

4-85 4-85


(Schmitt Trigger Triple Inverte Gate)


(Dual Birateral Switch)


(D-Q Flip-Flop)

TC7WT241FU-X [TOSHIBA]

(Dual Bus Buffer Non Inverted 3-State

Outputs)

TLC2932IPW-X [TEXAS]

(PLL)

TSB13LV11PBW [TEXAS]

(IEEE1394 LINK/PHY)

UPC2384GA [NEC]

(Digital VTR PLL)

UPC812G2-X [NEC]

(Op.Amp.)

UPD6461GS-913 [NEC]

(On Screen Charactor Display)

4-86 4-86

UPD71055GB-10 [NEC]

(Parallel Input/Output Port)

UPD784031GK-BE9 [NEC]

(16bit Single Chip Micro Computer)

UPD78P058BT [NEC]

(8 Bit Single Chip Microcomputer)

X24645S8-2.7-X [XICOR]

(8K x 8bit CMOS Serial EEPROM)

4-87 4-87

X25057M8-2.7-X [XICOR]

(SPI Serial EEPROM)

74LCX16244MTD-X [NATIONAL

SEMI CONDUCTOR]

(16 bit Buffer/Line Driver)

74LCX16374MTD-X [NATIONAL

SEMI CONDUCTOR]

(16 bit D-Type Flip-Flop)

XC95144X10T-002 [XILINX]

(SSG)

4-88 4-88

5-1

SECTION 5

EXPLODED VIEW AND PARTS LIST

SAFETY PRECATION

Parts identified by the ! symbol are critical for safety.Replace only with specified parts numbers.

NOTE

Parts not denoted by parts numbers are not supplied by JVC.

5-2

DescriptionPart No. Part NameSymbolNo.

CAMERA HEAD ASSEMBLY PARTS LIST M1M1MM````

1 SC10234-001 FRONT FRAME2 SC44847-050 SHIELD TUBE3 SC42550-011 C.H.HOLDER4 SC32296-001 FILTER KNOB5 SC46517-001 GEAR HOLDER6 SC32291-001 TG.BRACKET(1)7 SC32292-001 TG.BRACKET(2)8 SC44974-009 STUD9 SC46518-001 VR KNOB

10 SC46422-001 CUSHION11 SC44828-011 KNOB12 SC43825-002 LENS CAP13 SCV2803-2008B FFC IS TO TG14 SC32308-001 FILTER BASE15 SC46524-001 F.SHAFT16 SC46523-001 F.I.GEAR17 SC44491-001 F.I.SHAFT18 SC31301-001 FILTER WHEEL19 SC43840-001 ACTIVE FILTER CLEAR (3200K)20 SC43841-001 ACTIVE FILTER OREANGE (5600K)21 SC43842-004 ACTIVE FILTER BROWN (5600K+1/64ND)22 SC44488-001 F.SHEET23 SC45539-002 F.W.SHAFT24 SC44482-002 F.STOPPER25 SC44511-002 F.SPRING26 SC32309-001 FILTER COVER27 SC44676-005 F.CAP ASSEMBLY28 SC84529-001 FL BOARD29 QGA1501C1-05 CONNECTOR 5PIN30 SC46536-001 VR SHAFT

! 31 SCV2337-1012BD FFC IF TO SWF CN35! 32 SCV2803-2405B FFC TG TO CAM1 CN14! 33 SCV2803-5016B FFC PGS30553A CN21! 34 SCV2803-3012B FFC CAM1 TO IF CN23! 40 SCM1049-P0A OPTICAL ASSEMBLY (E)! 40 SCM1049-N0A OPTICAL ASSEMBLY (U)

40A SC31305-003 MOUNT RING40B SC40779-003 MOUNT SCREW40C SC43855-001 LEVER40D QYSSSP2604M SCREW M2.6 x 440E SC46381-002 CUSHION

41 SC45432-008 CUSHION42 QQR1078-001 FERRITE CORES1 QYSDSP3006M SCREW M3 x 6S2 QYSDSF2006M SCREW M2 x 6S3 QYYASPR3004M SCREW M3 x 4S4 QYSDSP2605M SCREW M2.6 x 5S5 QYSPSPT2025M SCREW M2 x 2.5S6 QYSSSPT2040M SCREW M2 x 4.0S7 SC43397-009 SCREWS8 QYSPSPT2050M SCREW M2 x 5.0S9 QYSPSPT2040M SCREW M2 x 4.0

S10 QYSPSPT1730M SCREW M1.7 x 3.0

5-1 5-15-3 5-3

5.1 CAMERA HEAD ASSEMBLY M1

CN10

CN11

CN12

CN14

CN24

CN14

13

2241

23

19

18

2015

21

S7

24

16

17

26

25

S5

14

5

4S6

S3

S3

S5

S4

9

2

10

S10

11

12

S1

3

1

2S2

31

13

S4

7

S4

S4

6

27S4 S9

S8S4

29

28S8

34

32

338

13

S4

S4

CN24

ROM BOARDASSEMBLY 1 9

1 4TG BOARDASSEMBLY

40

SWF BOARD ASSEMBLY 2 3

1 5CAM1 BOARDASSEMBLY

!

!

!

!

!

!

!

!

CN45

40A

40C

40B

40D

40E

42

3010

5-2 5-25-4 5-4

5.2 CABINET ASSEMBLY M2

21

27

22

8

20

19

S11

10

6

6

7

12

1417

16W2

13

W2

1517

14

S12

11S7

9

5

9

S7

S11

2

23

4

1

S1

S7

S1

2425

23

26

19

S13

RIGHT SIDE COVER ASSEMBLY M 3

CHASSIS ASSEMBLY M 4

Included by

CAMERA HEAD ASSEMBLY M 1

28

29

5-3

1 SC10239-021 L.SIDE COVER2 SC46265-004 RUBBER SHEET3 SC46265-009 RUBBER SHEET4 SC32326-001 HEAT SINK5 SC32285-001 ESCUT.PLATE6 SC46410-210 GASKET7 SC46410-115 GASKET8 SC46410-035 GASKET9 SC46549-001 BUSHING

10 SC46555-001 CUSHION11 SC20723-002 CASSETTE COVER12 SC46541-001 COVER PAD13 SC46542-001 LOCK BRACKET14 SC46543-001 HINGE SHAFT15 SC46540-011 TORSION SPRING16 SC46540-012 TORSION SPRING17 SC46546-001 C.SPRING19 SCV2978-001 BATTERY HOLDER20 SC32311-301 NAME PLATE21 SC45925-001 LABEL (E)22 PU54392-1 LABEL (E)23 SC43658-001 CAUTION LABEL (U)24 SC10241-001 SHOLDER PAD25 OZL1001-012 UL LABEL (U)26 SC46521-001 BH CUSHION27 SC46608-021 LABEL28 SC46590-001 COVER PAD (B)29 SC46593-001 COLLARS1 QYSDSP3006M SCREW M3 x 6S7 SC43397-009 SCREW

S11 QYSPSPT2630M SCREW M2.6 x 3.0S12 QYSPSPT2030M SCREW M2 x 3.0S13 QYSDSP3008M SCREW M3 x 8W2 QYREE1200X E.RING

5-5


CABINET ASSEMBLY PARTS LIST M2M2MM````

5-4


RIGHT SIDE COVER ASSEMBLY PARTS LIST M3M3MM````

1 SC10238-001 R.SIDE COVER2 SC10242-001 CHEEK PAD3 SC46410-290 GASKET4 SC46410-190 GASKET5 SC46410-130 GASKET6 SC46410-115 GASKET7 SC46410-035 GASKET8 SC44974-010 STUD9 SCV2903-001 SPEAKER

10 SC46228-001 SHEET11 SC44537-001 SP.BRACKET12 SC45246-001 KNOB13 SC44556-011 TC.KNOB14 SC46397-001 PLATE15 SC44828-002 SWITCH CAP16 SC43451-001 LED LENS17 SC46503-002 LABEL18 SC32287-001 SW.NAME PLATE19 SC46547-001 BRACKET21 SC20722-001 PANEL COVER22 SC46539-001 RUBBER MAGNET23 SC46538-001 PANEL WINDOW24 SC46548-001 BATTERY COVER25 SC46231-002 PANEL SHAFT26 SC46579-001 SHAFT HOLDER27 SC46509-001 PANEL KNOB28 SC32288-001 AUDIO PANEL29 SC46536-001 KNOB SHAFT30 SC32289-001 VOLUME KNOB31 SC45245-011 SLIDE KNOB32 PRD42909-04 PLATE33 SC46510-001 PLATE(LCD)34 SC46511-001 LCD CUSHION35 PRD43835 KNOB(OPE)36 SC46508-001 SELECT KNOB37 SC46357-001 CUSHION38 SC32305-002 OPE.COVER(U)39 SC32306-002 OPE.COVER(B)40 SC46527-001 OPERATION PANEL41 SC32307-001 OPERATION KNOB42 SC46528-001 OPE.SHAFT44 SC46532-001 SPRING(1)

! 45 SCV2337-1005BD FFC SWRU TO SWRM! 46 SCV2803-1515B FFC SWRU TO IF

47 SC46545-001 BOARD HOLDER! 48 SCV2803-4012B FFC AUD/LCD TO MOTH! 49 SCV2803-3012B FFC AUD/LCD TO MOTH

50 SC46537-001 VR.KNOB51 SC46584-001 STAY52 SC46584-002 STAY

! 53 SCV2803-4012B FFC S/V CN101 TO MO! 54 SCV2803-4012B FFC S/V CN401 TO MO! 55 SCV2337-0808BD FFC OPE TO AUD/LCD! 56 SCV2803-2008B FFC AU/LC TO SY/VI

57 SC46585-001 LABEL58 SC46610-001 SHEET

S10 QYSPSPT1730M SCREW M1.7 x 3.0S13 QYSDSF2606Z SCREW M2.6 x 6S14 QYSDSP2606Z SCREW M2.6 x 6S15 QYSDSP2604Z SCREW M2.6 x 4S16 QYSDSP2604M SCREW M2.6 x 4S17 QYSDSF2004M SCREW M2 x 4S40 QYSPSPT2080M SCREW M2 x 5.0W1 QYWWS629205Z WASHERW2 QYREE1200X E.RING

5-6

5-3 5-35-7 5-7

5.3 RIGHT SIDE COVER ASSEMBLY M3

8

47

S15

S15

S15

S15

53

54

S10

56S15

46

4849

50

S15

29

3532

31

32

31

32S10

30

51

5

7

4

S15

52

11

9

1011

6

S16

12

336

58

S13

S13

1514

1345

19S15

S15

S15

16

17

18

W1

37

27

28

22

2457

21

23

26

25

2

S14

38

S40 40

W2

39

41

44

42

34

33

55S13

S17

1

SWRB BOARDASSEMBLY 2 5

OPE BOARDASSEMBLY 3 5

SWPW BOARDASSEMBLY 2 6

JOG BOARDASSEMBLY 2 0

SWRU BOARDASSEMBLY 2 2

SWRM BOARDASSEMBLY 2 4

AUDIO / LCD BOARDASSEMBLY 3 2

VIDEO / SYSCON BOARDASSEMBLY 3 1

Included by S391 of SWPW board.

HINGE

!

!

!

!

!

!

!

2 6

!

5-4 5-45-8 5-8

5.4 CHASSIS ASSEMBLY M4

82

Included by EAR.Jack

S24

3378

S13

3479

35

34

32

S19

3637

S24

Included by

45S26

S19

31

30

S16

S1327

28

30

S19

30

S26

65

11

15

S19S1914

12

13

81

S19S19

1

23

S21

S20

10

9

S22

26

S2325

24

S21

54

32

20

1918

19Top view

DV MAIN BOARD

766

7

S18

S19

17

S12

S12

S1275

80

S19

22S19

8

28

SEN1 BOARDASSEMBLY 3 6

PS2 BOARDASSEMBLY 1 8

S19

21 55

S1951

74

46

73

PS1 BOARDASSEMBLY 1 7 56Included by

CONNECT BOARDASSEMBLY 4 2

XLR BOARDASSEMBLY 4 0

EAR.J BOARDASSEMBLY 4 3

S39

30

5677

52

S19

62

38

S24

S24

39

S2557

S 1

5960

S 1

S 1

58

49

50

S19

S19

S19

S1948

72

AU JUNK BOARDASSEMBLY 3 9

4763

PWR JUNC BOARDASSEMBLY 4 1

IF BOARDASSEMBLY 2 1

S19

S19

SEN2 BOARDASSEMBLY 3 7

41

4240

4344

S19

41

20

S19

S19

53

S19 54

CAM2 BOARDASSEMBLY 1 6

Included by

BNC BOARDASSEMBLY 2 8

REMOTE BOARDASSEMBLY 3 8

VTR UNIT ASSEMBLY M 5

MIC BOARDASSEMBLY 2 7

MOTHER BOARDASSEMBLY 3 4

CN44

REG BOARDASSEMBLY 33

!

!

!

!

!

!

16

5-5

1 SC10236-001 TOP FRAME2 SC31861-001-K VF BASE3 SC45127-002 VF RING4 SC40465-045 STEEL BALL5 SC45107-001 SPRING6 SC46531-001 PLATE7 SCV0238-06S CONNECTOR8 SC46544-001 PLATE9 SC46529-001 EJECT KNOB

10 QYPRE1408 SPRING PIN11 SC32312-001 SLIDE PLATE12 SC46533-001 SPRING(2)13 SC46525-001 SLIDE COVER14 SC32327-001 HEAT SINK15 SC46265-007 RUBBER SHEET16 SC46265-005 RUBBER SHEET17 SC46592-001 AL SHEET18 SC46265-006 RUBBER SHEET19 SC46265-007 RUBBER SHEET20 SC46265-008 RUBBER SHEET21 SC46526-001 PS BRACKET22 SC32304-001 RAIL BRACKET23 SC32303-001 REAR COVER24 SC10240-002 HANDLE ASSEMBLY25 SC40886-001 SHOE26 SC40936 SPRING27 SC10237-001 REAR FRAME28 SC44847-050 SHIELD TUBE30 PU49485-4 WIRE CLAMP31 SC46513-001 REAR PLATE32 QNZ0429-001 CONNECTOR33 QQR0490-001 FILTER34 QNZ0257-001 CONNECTOR(4S)35 SC46566-001 CN SHEET36 SLR-56VR5F L.E.D.37 SM3512 L.E.D.MOUNT38 SC10235-001 BOTTOM FRAME39 SC20691-001 FRONT BASE40 SC32294-001 CN BRACKET(1)41 QNZ0187-001 BNC CONNECTOR42 QNZ0276-001 CONNECTOR43 SC45831-001 LUG44 SC45586-001 NUT45 SC32295-002 CN BRACKET(2)46 SC32290-002 HINGE47 SC46522-001 SHEET48 SC44974-007 STUD49 SC46552-001 JUNC BRACKET50 SC46556-001 JUNC SHEET51 SC32293-001 VTR BRACKET52 SC46074-005 BRACKET SHEET53 SC46553-001 CAM2 BRACKET54 SC46567-001 CAM2 SHEET55 SC46554-001 LENS BRACKET56 SCV1938-12S LENS CONNECTOR57 SC10244-001 BOTTOM COVER58 SC46519-001 KNOB BRAKER59 SC46520-001 CAP60 SC46242-002 REAR BASE

! 62 SCV2337-0610BD FFC REMOTE TO MOTH


CHASSIS ASSEMBLY PARTS LIST M4M4MM````

5-9

5-6

! 63 SCV2337-1005BD FFC XLR TO AU.JUNK! 65 SCV2337-1612BD FFC CONNECTOR TO MO! 72 SCV2803-2008B FFC AU.JUNK TO MOTH! 73 SCV2803-3318B FFC PGS30551A-01! 74 SCV2803-3030B FFC PGS30552A-02

75 SC46551-001 SENSOR BRACKET76 MLSC0710 VF WIRE77 MLSC0709 LENS WIRE78 MLSL149A DC INPUT WIRE79 MLSL148A DC OUT WIRE80 SCV2728-001 FERRITE CORE81 LABEL S.S.F.82 SC46589-001 SHEETS1 QYSDSP3006M SCREW M3 x 6

S12 QYSPSPT2030M SCREW M2 x 3.0S13 QYSDSP3008M SCREW M3 x 8S15 QYSDSP2604Z SCREW M2.6 x 4S16 QYSDSP2604M SCREW M2.6 x 5S18 QYYYSP4025M BOLTS19 QYSDSP2605Z SCREW M2.6 x 5S20 QYSPSP3006M SCREW M3 x 6S21 QYSPSP5012M SCREW M5 x 12S22 SC44821-001 SCREWS23 QYSSSP3006N SCREW M3 x 6S24 QYSPSP2606N SCREW M2.6 x 6S25 QYSSSP4006N SCREW M4 x 6S26 QYSDSF3006M SCREW M3 x 6S39 QYSDST3005Z SCREW M3 x 5

5-10



1 PRD31397 SHIELD CASE(P/R)2 PRD31398 SHIELD CASE(DC)3 PRD45263 INSULATOR4 PRD45247 EARTH PLATE5 PRD45259 P.W.B.BRACKET

! 6 SCV2803-1810B FFC WIRE MAIN401-JUNC! 7 SCV2803-2003B FFC WIRE MAIN 402-PR606! 8 SCV2803-2003B FFC WIRE MAIN 501-PR901! 9 SCV2803-1003B FFC WIRE MAIN 108-PR608

10 PU49485-3 WIRE CLAMP11 LABEL IEEE1394 ID12 PRD31393 SIDE COVER(L)13 PGZ02634 DAMPER14 PRD31394 SIDE COVER(R)15 PRD31395 FRONT COVER16 PRD31409 CASSETTE SLOT17 PRD31396 REAR COVER18 PRD45262 INSULATOR19 PRD20680 BASE FRAME20 PRD30030-127 PAD21 PRD31390-01-01 FRONT FRAME22 PRD31391 C.H.DOOR23 LP40360-001A TORSION SPRING25 PRD31399A CLEANER BKT.ASSEMBLY26 PRD30024-107 TENSION SPRING27 PRD31401 DRIVE ARM28 PRD31402A-01 CLEANER ARM ASSEMBLY29 LY41249-001A CLEANER ASSEMBLY30 PRD30024-107 TENSION SPRING31 PGZ02629 DC-SOLENOID

M5MM```` VTR UNIT ASSEMBLY PARTS LIST M5

5-5 5-55-11 5-11


5.5 VTR UNIT ASSEMBLY M5

32 PRD30023-65 COMPRESS SPRING33 PRD31392 REAR FRAME34 QSD0002-001 DEW SENSOR35 PRD45284 BRACKET(C.H.)

S16 QYSDSP2604Z SCREW M2.6 x 4S30 PRD44099 SCREWS31 QYSDSP2003Z SCREW M2 x 3S32 QYSDSP2005Z SCREW M2 x 5S33 PRD45246 SCREWS34 QYSPSP2003Z SCREW M2 x 3S35 QYSDSP2006Z SCREW M2 x 6S41 QYSDSF2005Z SCREW M2 x 5W3 YQ44246-3 SLIT WASHERW4 PQM30017-27 SLIT WASHER

DC DC BOARDASSEMBLY

3S32

23

14

15

S33

13

2

16

S32

1913

4

1

12

S33 11

28

27

2632

3029

31

S32

W4

25

33

S35

S32S34

S34

34 S35

S32

S34

2217

18

W3

21

S32

0 2

P/R&MDA BOARDASSEMBLY 0 1

CN2CN1

CONN BOARDASSEMBLY 0 4

S32

11

97

S30

8 S31S31

S30

5

S31

S16

S16

S31

S16

5

MECHANISM ASSEMBLY M 6

0 3ROM BOARDASSEMBLY

DV MAIN BOARD ASSEMBLY 1 0

35

S32

10

20

6

!

!!

!

5-6 5-6

AAS36

AA

W3 S37

S36

S36

4017

41

35

37

27

44

33

A

A

AA

AA

AA

BB

BBAA AA

60

AA

No.

AA

AA

AA

AA

BB

AA

AA

BB

19

30

S36

S36

39

38

CCCC

S36

AAAA

AA

AA

AA

AA

CC

CC

35A

S36

S36

S36

S36

S36

23

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

36

S36

S36

W5

S36

24

50

20

2 9

22

W5

W5

W5

6

5

8

3 10

10

31

26

4

W515

W6

1314

12

7

21

32

34

25

28

70

11

29

W5

W5

43A

18

42S36 39

BB!

43

S38

1

8

No. 50

No. 9

16

45

S32

S32

Do not apply grease to the lower drurm.Make sure that it does not protrude to the upper part of the spindle taper.

5-12 5-12

Classifi-Part No.

Symbol incation drawing

Grease KYODO-SH-P AA

Grease RX-410R BB

Oil YTU94027 CC

NOTES: • This section indicates that the grease and oil are to be appliedon locations marked with AA, BB and CC.During checking and servicing, check if grease has been ap-plied on the locations marked with AA, BB and oil on the loca-tions marked with CC.

• Apply also grease and oil on some locations in the main camgear and the cam groove at the rear side of the sub cam gear.

5.6 MECHANISM ASSEMBLY M6

5-7


MECHANISM ASSEMBLY PARTS LIST M6M6MM````

1 YMA0026A MECHA ASSEMBLY2 LY30358-001A DRUM BASE DECK3 LY30343-001A WORM WHEEL 24 QAR0012-002 CAPSTAN MOTOR5 LY30002-003A COMPRES.SPRING6 LY41390-001A ADJUST NUT7 LY40224-001A COLLAR8 LY10060-002A MAIN CAM9 LY20102-001A SUB CAM

10 YQ44560-1-2 CONNECT GEAR 211 LY40241-001A TIMING BELT12 LY40246-001A C.LOCK GEAR(1)13 LY30002-009A COMPRES.SPRING14 LY40247-001A C.LOCK GEAR(2)15 LY40248-001A PUSH PLATE16 LY20109-001B CONTROL PLATE17 LY41243-001A TOR.SPRING18 PRD31418 A.H.C.FRAME19 LY40237-001C ENT.G.BASE ASSEMBLY20 LY30340-003A MOTOR BKT.ASSEMBLY21 LY41190-002A ROTARY EN.ASSEMBLY22 YQ31873C G.RAIL(S) ASSEMBLY23 LY20097-001B G.RAIL(T) ASSEMBLY24 LY30345-001A M.CATCHER ASSEMBLY25 LY40223-001A ARM GEAR 1 ASSEMBLY26 LY40235-002B CENT.ARM ASSEMBLY27 LY40279-001A ARM GEAR 2 ASSEMBLY28 LY40228-001A C.LOCK LEVER ASSEMBLY29 LY30347-001A CHARGE ARM ASSEMBLY30 LY40236-001A T.CTL.ARM ASSEMBLY31 LY40233-001A B.CTL.ARM ASSEMBLY32 LY40242-001C BASE PLATE ASSEMBLY33 YQ43931A R.D.PULLEY ASSEMBLY34 LY40239-003A CENT.GEAR ASSEMBLY35 LYH30012-001A S.DECK ASSEMBLY(G)

35A LY20108-001B LED PRISM36 LY40257-001A SUB BRAKE ASSEMBLY37 LY40259-001A M.BRAKE(T) ASSEMBLY38 LY40260-003A M.BRAKE(S) ASSEMBLY39 LY40255-001A REEL DISK ASSEMBLY40 LY41245-001B TENSION ARM SA.41 LY41246-003B B.ARM PLATE SA.42 LY30370-002A SWING ARM ASSEMBLY43 LY30380-001D EXIT G.ARM ASSEMBLY

43A LY41250-001A CLEAN.ARM ASSEMBLY44 LY30374-001B P.R.ARM ASSEMBLY45 LY40280-003A REEL COVER ASSEMBLY

! 50 YDV2093A DRUM ASSEMBLY60 LY30428-003C C.HOUSING ASSEMBLY70 LY10062-001B MAIN DECK ASSEMBLY

S32 QYSDSP2005Z SCREW M2 x 5S36 YQ43893 SCREW M1.4 x 2S37 YQ43893-7 SCREW M1.4 x 2S38 QYSDSP2002N SCREW M2 x 2W3 YQ44246-3 SLIT WASHERW5 YQ44246 SLIT WASHERW6 YQ43933-2 WASHER

5-13

7-1

SECTION 7

PACKING

7.1 PACKING ASSEMBLY M7

Plastic bag

Li. battery : (CR2032)

Instructions : SC96874(U-ver.): SC96875(E-ver.)

Supplement sheet : SC96924-001

Cushion

GY-DV500U/E

Label

Label

Cushion

Plastic bag

Carton box

Carton box

!

Plastic bag (U-ver.)

WARRATY CARD (U-ver.)

Cushion

Microphone :SCV2987-001

Tripod base assembly : (Refer to 1.11.7)

Cleaning tape : PGZ02641

7-2

7.2 FACTORY SETTING OF SWITCH AND VR

CENTERAUDIO LEVEL VR

ZEBRA

FILTER

POWER SW

VTR

GAIN

ON

3200K

ON

SAVE

H

OUTPUT

SW and VR name Factory setting

: Factory setting

WHT. BAL

AUTO IRIS

BLACK

ALARM VR

MONITOR VR

MONITOR SELECT

LIGHT

COUNTER

TC GENERATOR

AUDIO LEVEL CH-1/CH-2

AUDIO SELECT CH-1/CH-2

AUDIO INPUT CH-1/CH-2

AUDIO IN CH-1/CH-2

PRST

BACK L

STRETCH

CH-1

ON

CTL

PRESET

FREE

AUTO

FRONT

LINE

CAM/AUTO KNEEOFF

OFF

5600K

OFF

STBY

M

A

NORMAL

NORMAL

CENTER

CENTER

MIX

OFF

TC

REGEN

REC

CENTER

MANUAL

REAR

MIC

CAM/AUTOKNEE ON

SKIN AREA

5600 K+ND

L

B

SPOT L

COMPRESS

MIC +48V ON

CH-2

UB

BARS

SECTION 6

ELECTRICAL PARTS LIST

SAFETY PRECAUTION:

Parts identified by the ! symbol are criticaI for safety. Replace only with specified parts numbers.For maximum reliability and performance, all other replacement parts should be identical to those specified.

NOTE:

Parts not denoted by parts numbers are not supplied by JVC. Abbreviations in this list are as follows:

CAPACITORSIn the “Description” column:

All capacitance values are in microfarad (µ F) unlessotherwise indicated.p expresses picofarad (10–12 farad,pF).

In the “Parts Name” column:CER.CAPACITOR : Ceramic CapacitorE.CAPACITOR : Electrolytic CapacitorFILM CAPACITOR : Film CapacitorM.F.CAPACITOR : Metalized Film CapacitorMICA CAPACITOR : Mica CapacitorMPP CAPACITOR : Metalized PolyPropylene CapacitorMPPS CAPACITOR : Metalized PolyPhenylene Sulfied film

CapacitorM.M.CAPACITOR : Metalized Mylar CapacitorMYLAR CAPACITOR : Mylar CapacitorN.P.CAPACITOR : Non-Poler electrolytic CapacitorP.P.CAPACITOR : PolyPropylene CapacitorPPS CAPACITOR : PolyPhenylene Sulfied film CapacitorP.S.CAPACITOR : PolyStyrene CapacitorTAN.CAPACITOR : Tantal CapacitorTRIM.CAPACITOR : Trimer CapacitorVAL.CAPACITOR : Valiable Capacitor

RESISTORSIn the “Description” column:

All resistance values are in ohms ( ).k expresses kilo-ohm (1 000 ohms, k ).M expresses mega-ohm (106 ohms, M ).

In the “Parts Name”column:CAR.RESISTOR : Carbon ResistorC.M.F.RESISTOR : Constant Metalized Film ResistorCOMP.RESISTOR: Composition ResistorFUSI.RESISTOR : Fusible ResistorM.F.RESISTOR : Metal Film ResistorM.G.RESISTOR : Metal Graze ResistorM.P.RESISTOR : Metal Plate ResistorO.M.F.RESISTOR : Oxide Metalized Film ResistorTRIM.RESISTOR : Trimerer ResistorU.F.RESISTOR : Non-inflammable ResistorVAL.RESISTOR : Valiable ResistorW.W.RESISTOR : Wire Wound Resistor

ln the “Description” column of the parts list, (U) means the parts for the U version while(E) is for the E version.

Note:

SymbolNo. Part No. Part Name Description

JVCIC1 SCV1585-064 I.C.(M) (U)JVCSCV1585-067 I.C.(M) (E)

for U version

for E version

6-1

SymbolNo. Part No. Part Name Description Symbol

No. Part No. Part Name Description

6.1 PR & MDA BOARD ASSEMBLY PARTS LIST 01SLK2088-01-00B 01``````

6-2

IC601 BA6865KV I.C.(M) ROHMIC602 BA6417F-X I.C.(M) ROHMIC603 BA6254FS-X I.C.(M) ROHMIC901 AN3731FHQ I.C.(M) MATSUSHITA

Q601 DTC144EUA-X TRANSISTOR ROHMQ602 2SB1302/ST/-X TRANSISTOR SANYOQ603 2SB1302/ST/-X TRANSISTOR SANYOQ604 2SB1302/ST/-X TRANSISTOR SANYOQ607 DTC144EUA-X TRANSISTOR ROHMQ608 2SB1302/ST/-X TRANSISTOR SANYOQ903 2SC4226/3-5/-X TRANSISTOR NECQ905 2SD1979/S/-X TRANSISTOR MATSUSHITAQ906 2SD1979/S/-X TRANSISTOR MATSUSHITAQ907 2SC4226/3-5/-X TRANSISTOR NEC

D602 DAP202U-X DIODE ROHMD603 DAP202U-X DIODE ROHMD605 MA736-X DIODE MATSUSHITA

R601 NRSA63J-681X M.G.RESISTOR 680 1/16WR602 NRSA63J-124X M.G.RESISTOR 120k 1/16WR603 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR604 NRSA63J-104X M.G.RESISTOR 100k 1/16WR605 NRSA63J-223X M.G.RESISTOR 22k 1/16WR606 NRV142F-R22X C.M.F.RESISTOR 0.22 1/4WR608 NRS12BJ-1R0W M.G.RESISTOR 1 1/2WR609 NRS12BJ-1R0W M.G.RESISTOR 1 1/2WR610 NRSA63J-102X M.G.RESISTOR 1k 1/16WR611 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R612 NRSA63J-274X M.G.RESISTOR 270k 1/16WR613 NRSA63J-272X M.G.RESISTOR 2.7k 1/16WR614 NRSA63J-154X M.G.RESISTOR 150k 1/16WR615 NRSA63J-474X M.G.RESISTOR 470k 1/16WR616 NRVA63D-202X C.M.F.RESISTOR 2k 1/16WR617 NRSA63J-563X M.G.RESISTOR 56k 1/16WR618 NRSA63J-203X M.G.RESISTOR 20k 1/16WR619 NRSA63J-393X M.G.RESISTOR 39k 1/16WR625 NRSA63J-511X M.G.RESISTOR 510 1/16WR626 NRSA63J-511X M.G.RESISTOR 510 1/16W

R627 NRSA63J-511X M.G.RESISTOR 510 1/16WR628 NRSA63J-511X M.G.RESISTOR 510 1/16WR629 NRSA63J-105X M.G.RESISTOR 1M 1/16WR630 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR631 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR634 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR635 NRSA63J-103X M.G.RESISTOR 10k 1/16WR636 NRSA63J-473X M.G.RESISTOR 47k 1/16WR642 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR643 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R646 NRSA63J-393X M.G.RESISTOR 39k 1/16WR649 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR650 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR652 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR657 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR658 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR661 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR662 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR663 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR903 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R904 NRSA63J-103X M.G.RESISTOR 10k 1/16WR905 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR906 NRSA63J-122X M.G.RESISTOR 1.2k 1/16WR907 NRSA63J-100X M.G.RESISTOR 10 1/16WR909 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR911 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR912 NRSA63J-123X M.G.RESISTOR 12k 1/16WR913 NRSA63J-680X M.G.RESISTOR 68 1/16WR914 NRSA63J-471X M.G.RESISTOR 470 1/16WR915 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R916 NRSA63J-271X M.G.RESISTOR 270 1/16WR917 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R921 NRSA63J-102X M.G.RESISTOR 1k 1/16WR922 NRSA63J-221X M.G.RESISTOR 220 1/16WR923 NRSA63J-221X M.G.RESISTOR 220 1/16WR924 NRSA63J-102X M.G.RESISTOR 1k 1/16WR925 NRSA63J-680X M.G.RESISTOR 68 1/16WR926 NRSA63J-123X M.G.RESISTOR 12k 1/16WR927 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR928 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R932 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

C601 NCB31HK-103X CER.CAPACITOR 0.01 50VC602 NCB41CM-106X CER.CAPACITOR 10 16VC603 NBE21AM-106X TAN.CAPACITOR 10 10VC605 NCB31CK-104X CER.CAPACITOR 0.1 16VC606 NCB31HK-152X CER.CAPACITOR 1500p 50VC607 NCB31HK-103X CER.CAPACITOR 0.01 50VC608 NCB31HK-103X CER.CAPACITOR 0.01 50VC609 NCB31HK-103X CER.CAPACITOR 0.01 50VC610 NCB31HK-103X CER.CAPACITOR 0.01 50VC611 NCB31HK-103X CER.CAPACITOR 0.01 50V

C612 NCB31HK-103X CER.CAPACITOR 0.01 50VC613 NCB31HK-103X CER.CAPACITOR 0.01 50VC614 NBE71VM-106X TAN.CAPACITOR 10 35VC615 NCB31CK-104X CER.CAPACITOR 0.1 16VC616 NCB31CK-104X CER.CAPACITOR 0.1 16VC617 NCB31CK-104X CER.CAPACITOR 0.1 16VC618 NCB31EK-223X CER.CAPACITOR 0.022 25VC619 NCB31EK-223X CER.CAPACITOR 0.022 25VC620 NCB31EK-223X CER.CAPACITOR 0.022 25VC621 NCB21AK-105X CER.CAPACITOR 1 10V

C622 NCB31CK-104X CER.CAPACITOR 0.1 16VC623 NCB31CK-104X CER.CAPACITOR 0.1 16VC625 NCB31CK-104X CER.CAPACITOR 0.1 16VC626 NCB31EK-223X CER.CAPACITOR 0.022 25VC627 NCB31CK-473X CER.CAPACITOR 0.047 16VC628 NCB21EK-104X CER.CAPACITOR 0.1 25VC631 NCB31CK-104X CER.CAPACITOR 0.1 16VC632 NBE51CM-226X TAN.CAPACITOR 22 16VC635 NBE71VM-106X TAN.CAPACITOR 10 35VC636 NCB41CM-106X CER.CAPACITOR 10 16V

C637 NCB41CM-106X CER.CAPACITOR 10 16VC639 NCB31HK-103X CER.CAPACITOR 0.01 50VC640 NCB31HK-103X CER.CAPACITOR 0.01 50VC641 NCB31HK-103X CER.CAPACITOR 0.01 50VC644 NCB21EK-104X CER.CAPACITOR 0.1 25VC646 NCB31CK-104X CER.CAPACITOR 0.1 16VC647 NCB31CK-104X CER.CAPACITOR 0.1 16VC648 NCB21CK-224X CER.CAPACITOR 0.22 16VC649 NCB21CK-224X CER.CAPACITOR 0.22 16VC650 NCB21CK-224X CER.CAPACITOR 0.22 16V

C651 NCB31HK-103X CER.CAPACITOR 0.01 50VC652 NBE71VM-106X TAN.CAPACITOR 10 35VC653 NCF31CZ-334X CER.CAPACITOR 0.33 16VC654 NCF31CZ-334X CER.CAPACITOR 0.33 16VC901 NCB31HK-122X CER.CAPACITOR 1200p 50VC902 NCB21AK-105X CER.CAPACITOR 1 10VC903 NCB31HK-102X CER.CAPACITOR 1000p 50VC904 NCB31HK-103X CER.CAPACITOR 0.01 50VC905 NCB31HK-103X CER.CAPACITOR 0.01 50VC906 NDC31HJ-470X CER.CAPACITOR 47p 50V

C907 NCB31HK-681X CER.CAPACITOR 680p 50VC909 NCB31HK-152X CER.CAPACITOR 1500p 50VC910 NDC31HJ-330X CER.CAPACITOR 33p 50VC911 NBE20JM-106X TAN.CAPACITOR 10 6.3VC912 NCB31HK-103X CER.CAPACITOR 0.01 50VC913 NBE61AM-107X TAN.CAPACITOR 100 10VC914 NCB31HK-103X CER.CAPACITOR 0.01 50VC915 NCB31HK-103X CER.CAPACITOR 0.01 50VC916 NDC31HJ-220X CER.CAPACITOR 22p 50VC917 NBE71VM-106X TAN.CAPACITOR 10 35V

C918 NCB31HK-103X CER.CAPACITOR 0.01 50VC919 NCB31HK-103X CER.CAPACITOR 0.01 50V



6-3

[PR & MDA]

C920 NCB31HK-103X CER.CAPACITOR 0.01 50VC921 NCB31HK-103X CER.CAPACITOR 0.01 50VC922 NCB31HK-103X CER.CAPACITOR 0.01 50VC924 NCB31HK-103X CER.CAPACITOR 0.01 50VC927 NCB31HK-103X CER.CAPACITOR 0.01 50VC929 NRSA63J-0R0X M.G.RESISTOR 0 1/16WC930 NBE50JM-107X TAN.CAPACITOR 100 6.3VC931 NBE21AM-106X TAN.CAPACITOR 10 10V

C932 NBE21AM-106X TAN.CAPACITOR 10 10VC933 NCB31HK-103X CER.CAPACITOR 0.01 50VC934 NDC31HJ-330X CER.CAPACITOR 33p 50VC935 NBE20JM-106X TAN.CAPACITOR 10 6.3VC936 NCB31HK-103X CER.CAPACITOR 0.01 50VC938 NCB31HK-152X CER.CAPACITOR 1500p 50VC940 NCB31HK-103X CER.CAPACITOR 0.01 50VC943 NCB31HK-103X CER.CAPACITOR 0.01 50V

L901 NQL044K-470X COIL 47uHL902 NQL044K-221X COIL 220uHL903 NQL044K-470X COIL 47uHL904 NQL085J-220X COIL 22uHL905 NQL085J-220X COIL 22uH

LC601 PGZ01972Z LC FILTERLC602 PGZ01972Z LC FILTERLC603 PGZ01972Z LC FILTERLC605 PGZ01972Z LC FILTER

CN601 QGA1201F2-08X CONNECTOR 8PINCN602 QGA1201C2-02X CONNECTOR 2PINCN603 QGF0508F1-11X CONNECTOR 11PINCN604 QGF0504C1-18X CONNECTOR 18PINCN605 QGA1201F2-04X CONNECTOR 4PINCN606 QGF0508F1-20X CONNECTOR 20PINCN607 QGA1201C2-04X CONNECTOR 4PINCN608 QGF0508F1-10X CONNECTOR 10PINCN609 QGA1201F2-02X CONNECTOR 2PINCN610 QGA2001F2-02X CONNECTOR 2PIN

CN901 QGF0508F1-20X CONNECTOR 20PINCN902 QGF0504C1-10X CONNECTOR 10PIN

6.2 DCDC BOARD ASSEMBLY PARTS LIST 02SLK2088-02-00A 02``````

IC1 BA9738KV I.C.(M) ROHM

Q2 DTC144EUA-X TRANSISTOR ROHMQ3 2SB1302/ST/-X TRANSISTOR SANYOQ4 2SB1302/ST/-X TRANSISTOR SANYOQ5 2SB1302/ST/-X TRANSISTOR SANYOQ6 2SB1302/ST/-X TRANSISTOR SANYOQ7 2SB1302/ST/-X TRANSISTOR SANYOQ8 2SB1302/ST/-X TRANSISTOR SANYO

D1 SFPB-72-W DIODE SANKEND2 SFPB-72-W DIODE SANKEND3 SFPB-72-W DIODE SANKEND4 SFPB-72-W DIODE SANKEND5 SFPB-72-W DIODE SANKEND6 SFPB-72-W DIODE SANKEND7 DAN202U-X DIODE ROHM

R1 NRSA63J-103X M.G.RESISTOR 10k 1/16WR2 NRSA63J-103X M.G.RESISTOR 10k 1/16WR3 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR5 NRSA63J-272X M.G.RESISTOR 2.7k 1/16WR6 NRSA63J-223X M.G.RESISTOR 22k 1/16WR7 NRSA63J-682X M.G.RESISTOR 6.8k 1/16WR8 NRSA63J-823X M.G.RESISTOR 82k 1/16WR9 NRSA63J-223X M.G.RESISTOR 22k 1/16WR10 NRSA63J-102X M.G.RESISTOR 1k 1/16WR11 NRSA63J-122X M.G.RESISTOR 1.2k 1/16W

R14 NRSA63J-122X M.G.RESISTOR 1.2k 1/16WR15 NRSA63J-223X M.G.RESISTOR 22k 1/16WR16 NRSA63J-682X M.G.RESISTOR 6.8k 1/16WR17 NRSA63J-823X M.G.RESISTOR 82k 1/16WR18 NRSA63J-123X M.G.RESISTOR 12k 1/16WR19 NRSA63J-223X M.G.RESISTOR 22k 1/16WR20 NRSA63J-272X M.G.RESISTOR 2.7k 1/16WR21 NRSA63D-243X M.G.RESISTOR 24k 1/16WR22 NRSA63D-103X M.G.RESISTOR 10k 1/16WR23 NRSA63D-153X M.G.RESISTOR 15k 1/16W

R24 NRSA63D-123X M.G.RESISTOR 12k 1/16WR25 NRSA63J-223X M.G.RESISTOR 22k 1/16WR26 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR27 NRSA63J-473X M.G.RESISTOR 47k 1/16WR28 NRSA63D-153X M.G.RESISTOR 15k 1/16WR29 NRSA63D-103X M.G.RESISTOR 10k 1/16WR30 NRSA63D-273X M.G.RESISTOR 27k 1/16WR31 NRSA63D-822X M.G.RESISTOR 8.2k 1/16WR32 NRSA63D-103X M.G.RESISTOR 10k 1/16WR33 NRSA63D-273X M.G.RESISTOR 27k 1/16W

R34 NRSA63D-153X M.G.RESISTOR 15k 1/16WR35 NRSA63D-103X M.G.RESISTOR 10k 1/16WR36 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR37 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR38 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR39 NRSA63J-103X M.G.RESISTOR 10k 1/16WR40 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR41 NRSA63J-103X M.G.RESISTOR 10k 1/16WR42 NRSA63D-103X M.G.RESISTOR 10k 1/16WR43 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R44 NRSA63J-102X M.G.RESISTOR 1k 1/16WR45 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR46 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR47 NRSA63J-331X M.G.RESISTOR 330 1/16WR48 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR49 NRSA63J-103X M.G.RESISTOR 10k 1/16WR50 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR51 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR52 NRSA63J-103X M.G.RESISTOR 10k 1/16WR53 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R54 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR55 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR56 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR58 NRSA63J-0R0X M.G.RESISTOR 0 1/16W



6-4

C1 NCB21AK-105X CER.CAPACITOR 1 10VC2 NCB21AK-105X CER.CAPACITOR 1 10VC3 NCB21AK-105X CER.CAPACITOR 1 10VC4 NCB31HK-102X CER.CAPACITOR 1000p 50VC5 NCB31HK-102X CER.CAPACITOR 1000p 50VC6 NCB31HK-102X CER.CAPACITOR 1000p 50VC7 NCB31HK-102X CER.CAPACITOR 1000p 50VC8 NCB21CK-224X CER.CAPACITOR 0.22 16VC9 NCB31CK-104X CER.CAPACITOR 0.1 16VC10 NCB11AK-225X CER.CAPACITOR 2.2 10V

C11 NCB31CK-104X CER.CAPACITOR 0.1 16VC12 NCB31CK-104X CER.CAPACITOR 0.1 16VC13 NCB31HK-331X CER.CAPACITOR 330p 50VC14 NDC31HJ-181X CER.CAPACITOR 180p 50VC15 NCB31CK-104X CER.CAPACITOR 0.1 16VC16 NCB31CK-473X CER.CAPACITOR 0.047 16VC17 NCB31CK-104X CER.CAPACITOR 0.1 16VC18 NCB31HK-472X CER.CAPACITOR 4700p 50VC19 NCB31HK-103X CER.CAPACITOR 0.01 50VC20 NCB31HK-103X CER.CAPACITOR 0.01 50V

C21 NCB31HK-102X CER.CAPACITOR 1000p 50VC22 NDC31HJ-101X CER.CAPACITOR 100p 50VC23 NCB31HK-102X CER.CAPACITOR 1000p 50VC24 NCB31HK-102X CER.CAPACITOR 1000p 50VC25 NCB31HK-102X CER.CAPACITOR 1000p 50VC26 NCB31HK-102X CER.CAPACITOR 1000p 50VC27 NCB31HK-102X CER.CAPACITOR 1000p 50VC28 NCB31HK-102X CER.CAPACITOR 1000p 50VC30 NCB21AK-105X CER.CAPACITOR 1 10VC31 NCB21AK-105X CER.CAPACITOR 1 10V

C32 NCB11AK-475X CER.CAPACITOR 4.7 10VC33 NCB21AK-105X CER.CAPACITOR 1 10VC34 NCB11AK-475X CER.CAPACITOR 4.7 10VC35 NCB21AK-105X CER.CAPACITOR 1 10VC36 NCB10JK-106X CER.CAPACITOR 10 6.3VC37 NCB10JK-106X CER.CAPACITOR 10 6.3VC38 NCB21AK-105X CER.CAPACITOR 1 10VC39 NCB10JK-106X CER.CAPACITOR 10 6.3VC40 NCB10JK-106X CER.CAPACITOR 10 6.3VC41 NCB10JK-106X CER.CAPACITOR 10 6.3V

C42 NCB21AK-105X CER.CAPACITOR 1 10VC43 NCB10JK-106X CER.CAPACITOR 10 6.3VC44 NCB10JK-106X CER.CAPACITOR 10 6.3VC45 NCB21AK-105X CER.CAPACITOR 1 10VC46 NCB10JK-106X CER.CAPACITOR 10 6.3VC47 NCB10JK-106X CER.CAPACITOR 10 6.3VC48 NCB10JK-106X CER.CAPACITOR 10 6.3VC49 NCB41CM-106X CER.CAPACITOR 10 16VC50 NCB41CM-106X CER.CAPACITOR 10 16V

L1 NQL23CM-330X COIL 33uHL2 NQL23CM-330X COIL 33uHL3 NQL23CM-330X COIL 33uHL4 NQL24CN-220X COIL 22uHL5 NQL25CM-330X COIL 33uHL6 NQL25CM-330X COIL 33uHL7 NQL23CM-330X COIL 33uHL8 NQL24CN-220X COIL 22uHL9 NQL35BK-100X COIL 10uHL10 NQL35BK-100X COIL 10uH

L11 NQL24CN-220X COIL 22uHL12 NQL23CM-330X COIL 33uHL13 NQL24CN-220X COIL 22uHL14 NQL35BK-100X COIL 10uHL15 NQL35BK-100X COIL 10uH

CN1 QGA1201F2-13X CONNECTOR 13PINCN2 QGA1201F2-08X CONNECTOR 8PIN

!CP11 ICP-S2.3TN ICP!CP12 ICP-S2.3TN ICP!CP13 ICP-S2.3TN ICP

6.3 ROM BOARD ASSEMBLY PARTS LIST 03SLK2088-03-U0C(U)

SLK2088-03-E0C(E) 03``````

IC1 M27W102-80N6-02 I.C.(M) MITSUBISHI (U)M27W102-80N6-82 I.C.(M) MITSUBISHI (E)

SK1 NNV0012-040 IC SOCKET 40PIN

IC2 74LCX16244MTD-X I.C.(M) NATIONAL SEMICOIC3 74LCX16374MTD-X I.C.(M) NATIONAL SEMICOIC4 TC7W00FU-X I.C.(M) TOSHIBAIC5 TC7W04FU-X I.C.(M) TOSHIBA

R3 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR4 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR5 NRSA63J-473X M.G.RESISTOR 47k 1/16WR6 NRSA63J-473X M.G.RESISTOR 47k 1/16W

RA1 NRZ0015-473X RESISTOR ARRAY 47kRA2 NRZ0015-473X RESISTOR ARRAY 47kRA3 NRZ0015-473X RESISTOR ARRAY 47kRA4 NRZ0015-473X RESISTOR ARRAY 47k

C1 NCF31CZ-104X CER.CAPACITOR 0.1 16VC2 NCF31CZ-104X CER.CAPACITOR 0.1 16VC3 NCF31CZ-104X CER.CAPACITOR 0.1 16VC4 NCF31CZ-104X CER.CAPACITOR 0.1 16VC5 NCF31CZ-104X CER.CAPACITOR 0.1 16V

CN1 QGB0801M2-26X CONNECTOR 26PIN

LA1 NRZ0015-0R0X RESISTOR ARRAY 0LA2 NRZ0015-0R0X RESISTOR ARRAY 0LA3 NRZ0015-0R0X RESISTOR ARRAY 0LA4 NRZ0015-0R0X RESISTOR ARRAY 0


6.4 CONN. BOARD ASSEMBLY PARTS LIST 04SLK2088-04-00A 04``````

R1 NRSA63J-103X M.G.RESISTOR 10k 1/16W

TH1 NAD0002-103X THERMISTOR 10k

CN1 QGF0508F2-15X CONNECTOR 15PINCN2 QGF0508F2-18X CONNECTOR 18PIN



6.5 DV MAIN BOARD ASSEMBLY PARTS LIST 10SLK2087-U0D(U)

SLK2087-E0D(E) 10``````

IC101 MN102F1617HL-25 I.C.(M) MATSUSHITA (U)MN102F1617HL-05 I.C.(M) MATSUSHITA (E)

IC103 X25057M8-2.7-X I.C.(M) XICORIC105 S-80823ANNP-W I.C.(M) SEIKOIC106 NM24C16LEM8-X I.C.(M) MATSUSHITAIC107 SN74CBT3384APWX I.C.(M) TEXASIC108 S-81240PG-PJ-X I.C.(M) SEIKOIC113 TC7W04FU-X I.C.(M) TOSHIBAIC201 AK4518-VF-X I.C.(M) ASAHI KASEIIC202 M5218AFP-X I.C.(M) MITSUBISHIIC301 MN67373 I.C.(M) MATSUSHITA

IC302 MN47V06AF I.C.(M) MATSUSHITA (U)MN47V07AF I.C.(M) MATSUSHITA (E)

IC303 M65500FP I.C.(M) MITSUBISHIIC304 MN41V4260TT-A07 I.C.(M) MATSUSHITAIC305 AD9057BRS-60-X I.C.(M) FUJI ELECTROIC306 PLL1700E-X I.C.(M) BURR BROWNIC307 UPC2384GA I.C.(M) NECIC401 M31020EAVP-101 I.C.(M) MITSUBISHI (U)

M31020EAVP-001 I.C.(M) MITSUBISHI (E)IC402 TC7W14FU-X I.C.(M) TOSHIBAIC403 TC7W04FU-X I.C.(M) TOSHIBAIC404 NM24C16LEM8-XZB I.C.(M) MATSUSHITA (U)

NM24C16LEM8-X I.C.(M) MATSUSHITA (E)

IC501 AN3741FAP-A I.C.(M) MATSUSHITAIC503 MB88345PF I.C.(M) FUJITSUIC601 BH7086KV I.C.(M) ROHMIC602 T9P90EF I.C.(M) TOSHIBAIC603 M52387FP I.C.(M) MITSUBISHIIC604 M52684AFP-XE I.C.(M) MITSUBISHIIC605 TC7SH08F-X I.C.(M) TOSHIBAIC606 TC7SH00F-X I.C.(M) TOSHIBAIC610 TC7SET04FU-X I.C.(M) TOSHIBAIC611 TC7SHU04FU-X I.C.(M) TOSHIBA

IC612 TC7SHU04FU-X I.C.(M) TOSHIBAIC613 TC7SHU04FU-X I.C.(M) TOSHIBAIC614 TC7SHU04FU-X I.C.(M) TOSHIBAIC615 AN77L03M-X I.C.(M) MATSUSHITAIC801 TSB13LV11PBW I.C.(M) TEXAS

Q101 2SC4617/RS/-X TRANSISTOR ROHMQ202 2SC4617/RS/-X TRANSISTOR ROHMQ401 DTA114EUA-X TRANSISTOR ROHMQ402 UMG3N-W TRANSISTOR ROHMQ403 UMC3N-W TRANSISTOR ROHMQ404 UMC3N-W TRANSISTOR ROHMQ501 2SC4226/3-5/-X TRANSISTOR NECQ502 DTC124EUA-X TRANSISTOR ROHMQ503 2SC4617/RS/-X TRANSISTOR ROHMQ504 2SA1774/QRS/-X TRANSISTOR ROHM

Q505 DTC144EUA-X TRANSISTOR ROHMQ506 DTC144EUA-X TRANSISTOR ROHMQ507 DTC144EUA-X TRANSISTOR ROHMQ511 2SA1774/QRS/-X TRANSISTOR ROHMQ512 DTC144EUA-X TRANSISTOR ROHMQ513 UMZ1N-W TRANSISTOR ROHMQ602 2SC4081/QRS/-X TRANSISTOR ROHMQ603 2SC4081/QRS/-X TRANSISTOR ROHMQ605 2SC4081/QRS/-X TRANSISTOR ROHMQ608 2SC4081/QRS/-X TRANSISTOR ROHM

Q609 2SC4081/QRS/-X TRANSISTOR ROHMQ610 2SB1218A/RS/-X TRANSISTOR MATSUSHITAQ611 2SB1218A/RS/-X TRANSISTOR MATSUSHITAQ612 DTC144WUA-X TRANSISTOR ROHMQ613 DTC144WUA-X TRANSISTOR ROHMQ614 DTC144EUA-X TRANSISTOR ROHM

D102 DAN202U-X DIODE ROHMD103 DAN202U-X DIODE ROHMD401 DAP202U-X DIODE ROHMD402 DAP202U-X DIODE ROHMD601 1SS355-X DIODE ROHM

R101 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR103 NRSA63J-104X M.G.RESISTOR 100k 1/16WR104 NRSA63J-102X M.G.RESISTOR 1k 1/16WR105 NRSA63J-102X M.G.RESISTOR 1k 1/16WR106 NRSA63J-102X M.G.RESISTOR 1k 1/16WR107 NRSA63J-102X M.G.RESISTOR 1k 1/16WR108 NRSA63J-102X M.G.RESISTOR 1k 1/16WR109 NRSA63J-102X M.G.RESISTOR 1k 1/16WR110 NRSA63J-102X M.G.RESISTOR 1k 1/16WR111 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R112 NRSA63J-102X M.G.RESISTOR 1k 1/16WR113 NRSA63J-102X M.G.RESISTOR 1k 1/16WR114 NRSA63J-102X M.G.RESISTOR 1k 1/16WR115 NRSA63J-102X M.G.RESISTOR 1k 1/16WR116 NRSA63J-102X M.G.RESISTOR 1k 1/16WR117 NRSA63J-102X M.G.RESISTOR 1k 1/16WR118 NRSA63J-102X M.G.RESISTOR 1k 1/16WR137 NRSA63J-103X M.G.RESISTOR 10k 1/16WR138 NRSA63J-103X M.G.RESISTOR 10k 1/16WR139 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R142 NRSA63J-103X M.G.RESISTOR 10k 1/16WR143 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR144 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR150 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR152 NRSA63J-103X M.G.RESISTOR 10k 1/16WR157 NRSA63J-102X M.G.RESISTOR 1k 1/16WR162 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR163 NRSA63J-103X M.G.RESISTOR 10k 1/16WR164 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR169 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R170 NRSA63J-104X M.G.RESISTOR 100k 1/16WR171 NRSA63J-104X M.G.RESISTOR 100k 1/16WR172 NRSA63J-104X M.G.RESISTOR 100k 1/16WR173 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR174 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR175 NRSA63J-473X M.G.RESISTOR 47k 1/16WR176 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR177 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR178 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR179 NRSA63J-473X M.G.RESISTOR 47k 1/16W

R180 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR181 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR182 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR183 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR184 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR185 NRSA63J-101X M.G.RESISTOR 100 1/16WR186 NRSA63J-101X M.G.RESISTOR 100 1/16WR187 NRSA63J-101X M.G.RESISTOR 100 1/16WR188 NRSA63J-101X M.G.RESISTOR 100 1/16WR189 NRSA63J-472X M.G.RESISTOR 4.7k 1/16W

R198 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR199 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR202 NRSA63J-100X M.G.RESISTOR 10 1/16WR207 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR208 NRSA63J-471X M.G.RESISTOR 470 1/16WR209 NRSA63J-471X M.G.RESISTOR 470 1/16WR210 NRSA63J-682X M.G.RESISTOR 6.8k 1/16WR211 NRSA63J-123X M.G.RESISTOR 12k 1/16WR212 NRSA63J-912X M.G.RESISTOR 9.1k 1/16WR214 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R215 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR216 NRSA63J-221X M.G.RESISTOR 220 1/16WR217 NRSA63J-912X M.G.RESISTOR 9.1k 1/16WR218 NRSA63J-103X M.G.RESISTOR 10k 1/16WR219 NRSA63J-103X M.G.RESISTOR 10k 1/16WR221 NRSA63J-221X M.G.RESISTOR 220 1/16WR223 NRSA63J-103X M.G.RESISTOR 10k 1/16WR301 NRSA63J-271X M.G.RESISTOR 270 1/16WR302 NRSA63J-105X M.G.RESISTOR 1M 1/16WR303 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R304 NRSA63J-102X M.G.RESISTOR 1k 1/16WR305 NRSA63J-105X M.G.RESISTOR 1M 1/16W

6-5



R306 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR307 NRSA63J-221X M.G.RESISTOR 220 1/16WR308 NRSA63J-471X M.G.RESISTOR 470 1/16WR309 NRSA63J-471X M.G.RESISTOR 470 1/16WR310 NRSA63J-221X M.G.RESISTOR 220 1/16WR311 NRSA63J-221X M.G.RESISTOR 220 1/16WR312 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR313 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R314 NRSA63J-102X M.G.RESISTOR 1k 1/16WR315 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR316 NRSA63J-102X M.G.RESISTOR 1k 1/16WR317 NRSA63J-682X M.G.RESISTOR 6.8k 1/16WR319 NRSA63J-224X M.G.RESISTOR 220k 1/16WR320 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR321 NRSA63J-750X M.G.RESISTOR 75 1/16WR322 NRSA63J-124X M.G.RESISTOR 120k 1/16WR323 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR331 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R332 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR333 NRSA63J-103X M.G.RESISTOR 10k 1/16WR334 NRSA63J-103X M.G.RESISTOR 10k 1/16WR335 NRSA63J-103X M.G.RESISTOR 10k 1/16WR336 NRSA63J-102X M.G.RESISTOR 1k 1/16WR337 NRSA63J-562X M.G.RESISTOR 5.6k 1/16WR338 NRSA63J-103X M.G.RESISTOR 10k 1/16WR339 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR340 NRSA63J-103X M.G.RESISTOR 10k 1/16WR341 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R342 NRSA63J-333X M.G.RESISTOR 33k 1/16WR343 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR344 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR345 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR346 NRSA63J-333X M.G.RESISTOR 33k 1/16WR347 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR348 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR349 NRSA63J-101X M.G.RESISTOR 100 1/16WR350 NRSA63J-101X M.G.RESISTOR 100 1/16WR351 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R352 NRSA63J-103X M.G.RESISTOR 10k 1/16WR353 NRSA63J-103X M.G.RESISTOR 10k 1/16WR354 NRSA63J-102X M.G.RESISTOR 1k 1/16WR355 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR356 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR357 NRSA63J-221X M.G.RESISTOR 220 1/16WR402 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR403 NRSA63J-105X M.G.RESISTOR 1M 1/16WR404 NRSA63J-220X M.G.RESISTOR 22 1/16WR405 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R406 NRSA63J-102X M.G.RESISTOR 1k 1/16WR407 NRSA63J-102X M.G.RESISTOR 1k 1/16WR408 NRSA63J-102X M.G.RESISTOR 1k 1/16WR409 NRSA63J-102X M.G.RESISTOR 1k 1/16WR410 NRSA63J-102X M.G.RESISTOR 1k 1/16WR411 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR412 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR413 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR414 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR415 NRSA63J-223X M.G.RESISTOR 22k 1/16W

R416 NRSA63J-103X M.G.RESISTOR 10k 1/16WR417 NRSA63J-103X M.G.RESISTOR 10k 1/16WR418 NRSA63J-103X M.G.RESISTOR 10k 1/16WR419 NRSA63J-103X M.G.RESISTOR 10k 1/16WR420 NRSA63J-103X M.G.RESISTOR 10k 1/16WR421 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR422 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR423 NRSA63J-102X M.G.RESISTOR 1k 1/16WR424 NRSA63J-102X M.G.RESISTOR 1k 1/16WR425 NRSA63J-472X M.G.RESISTOR 4.7k 1/16W

R426 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR427 NRSA63J-683X M.G.RESISTOR 68k 1/16WR428 NRSA63J-683X M.G.RESISTOR 68k 1/16WR429 NRSA63J-330X M.G.RESISTOR 33 1/16WR430 NRSA63J-101X M.G.RESISTOR 100 1/16W

R431 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR432 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR433 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR434 NRSA63J-561X M.G.RESISTOR 560 1/16WR435 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R436 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR437 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR438 NRSA63J-561X M.G.RESISTOR 560 1/16WR439 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR440 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR443 NRSA63J-104X M.G.RESISTOR 100k 1/16WR444 NRSA63J-103X M.G.RESISTOR 10k 1/16WR447 NRSA63J-103X M.G.RESISTOR 10k 1/16WR448 NRSA63J-103X M.G.RESISTOR 10k 1/16WR449 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R450 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR451 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR452 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR454 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR502 NRSA63J-181X M.G.RESISTOR 180 1/16WR503 NRSA63J-301X M.G.RESISTOR 300 1/16WR504 NRSA63J-391X M.G.RESISTOR 390 1/16WR505 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR507 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR508 NRSA63J-392X M.G.RESISTOR 3.9k 1/16W

R509 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR510 NRSA63J-221X M.G.RESISTOR 220 1/16WR512 NRSA63J-103X M.G.RESISTOR 10k 1/16WR513 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR514 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR515 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR516 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR517 NRSA63J-683X M.G.RESISTOR 68k 1/16WR518 NRSA63J-331X M.G.RESISTOR 330 1/16WR519 NRSA63J-562X M.G.RESISTOR 5.6k 1/16W

R520 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR521 NRSA63J-391X M.G.RESISTOR 390 1/16WR522 NRSA63J-121X M.G.RESISTOR 120 1/16WR523 NRSA63J-121X M.G.RESISTOR 120 1/16WR524 NRSA63J-121X M.G.RESISTOR 120 1/16WR525 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR526 NRSA63J-822X M.G.RESISTOR 8.2k 1/16WR527 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR528 NRSA63J-221X M.G.RESISTOR 220 1/16WR529 NRSA63J-562X M.G.RESISTOR 5.6k 1/16W

R530 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR533 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR534 NRSA63J-563X M.G.RESISTOR 56k 1/16WR535 NRSA63J-564X M.G.RESISTOR 560k 1/16WR536 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR537 NRSA63J-561X M.G.RESISTOR 560 1/16WR538 NRSA63J-224X M.G.RESISTOR 220k 1/16WR539 NRSA63J-680X M.G.RESISTOR 68 1/16WR540 NRSA63J-103X M.G.RESISTOR 10k 1/16WR541 NRSA63J-392X M.G.RESISTOR 3.9k 1/16W

R555 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR556 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR564 NRSA63J-124X M.G.RESISTOR 120k 1/16WR565 NRSA63J-563X M.G.RESISTOR 56k 1/16WR566 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR567 NRSA63J-102X M.G.RESISTOR 1k 1/16WR568 NRSA63J-102X M.G.RESISTOR 1k 1/16WR601 NRSA63J-104X M.G.RESISTOR 100k 1/16WR602 NRSA63J-104X M.G.RESISTOR 100k 1/16WR603 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R604 NRSA63J-103X M.G.RESISTOR 10k 1/16WR605 NRSA63J-121X M.G.RESISTOR 120 1/16WR606 NRSA63J-682X M.G.RESISTOR 6.8k 1/16WR607 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR608 NRSA63J-101X M.G.RESISTOR 100 1/16WR609 NRSA63J-563X M.G.RESISTOR 56k 1/16WR610 NRSA63J-223X M.G.RESISTOR 22k 1/16WR611 NRSA63J-183X M.G.RESISTOR 18k 1/16W

6-6



R612 NRSA63J-391X M.G.RESISTOR 390 1/16WR613 NRSA63J-223X M.G.RESISTOR 22k 1/16WR614 NRSA63J-223X M.G.RESISTOR 22k 1/16WR615 NRSA63J-152X M.G.RESISTOR 1.5k 1/16WR616 NRSA63J-101X M.G.RESISTOR 100 1/16WR617 NRSA63J-153X M.G.RESISTOR 15k 1/16WR618 NRSA63J-183X M.G.RESISTOR 18k 1/16WR619 NRSA63J-471X M.G.RESISTOR 470 1/16WR620 NRSA63J-123X M.G.RESISTOR 12k 1/16WR621 NRSA63J-471X M.G.RESISTOR 470 1/16W

R622 NRSA63J-123X M.G.RESISTOR 12k 1/16WR623 NRSA63J-105X M.G.RESISTOR 1M 1/16WR624 NRSA63J-105X M.G.RESISTOR 1M 1/16WR625 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR626 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR629 NRSA63J-102X M.G.RESISTOR 1k 1/16WR631 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR632 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR633 NRSA63J-123X M.G.RESISTOR 12k 1/16WR634 NRSA63J-123X M.G.RESISTOR 12k 1/16W

R635 NRSA63J-183X M.G.RESISTOR 18k 1/16WR636 NRSA63J-183X M.G.RESISTOR 18k 1/16WR637 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR638 NRSA63J-823X M.G.RESISTOR 82k 1/16WR645 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR647 NRSA63J-102X M.G.RESISTOR 1k 1/16WR651 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR652 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR653 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR654 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R655 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR656 NRSA63J-562X M.G.RESISTOR 5.6k 1/16WR657 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR658 NRSA63J-103X M.G.RESISTOR 10k 1/16WR659 NRSA63J-103X M.G.RESISTOR 10k 1/16WR660 NRSA63J-223X M.G.RESISTOR 22k 1/16WR661 NRSA63J-223X M.G.RESISTOR 22k 1/16WR662 NRSA63J-273X M.G.RESISTOR 27k 1/16WR663 NRSA63J-223X M.G.RESISTOR 22k 1/16WR664 NRSA63J-391X M.G.RESISTOR 390 1/16W

R665 NRSA63J-154X M.G.RESISTOR 150k 1/16WR666 NRSA63J-471X M.G.RESISTOR 470 1/16WR667 NRSA63J-103X M.G.RESISTOR 10k 1/16WR668 NRSA63J-271X M.G.RESISTOR 270 1/16WR669 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR670 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR671 NRSA63J-473X M.G.RESISTOR 47k 1/16WR672 NRSA63J-273X M.G.RESISTOR 27k 1/16WR673 NRSA63J-102X M.G.RESISTOR 1k 1/16WR674 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R675 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR676 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR678 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR679 NRSA63J-103X M.G.RESISTOR 10k 1/16WR680 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR681 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR682 NRSA63J-103X M.G.RESISTOR 10k 1/16WR683 NRSA63J-103X M.G.RESISTOR 10k 1/16WR684 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR685 NRSA63J-472X M.G.RESISTOR 4.7k 1/16W

R686 NRSA63J-103X M.G.RESISTOR 10k 1/16WR687 NRSA63J-103X M.G.RESISTOR 10k 1/16WR688 NRSA63J-104X M.G.RESISTOR 100k 1/16WR690 NRSA63J-564X M.G.RESISTOR 560k 1/16WR691 NRSA63J-101X M.G.RESISTOR 100 1/16WR692 NRSA63J-105X M.G.RESISTOR 1M 1/16WR693 NRSA63J-104X M.G.RESISTOR 100k 1/16WR694 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR695 NRSA63J-104X M.G.RESISTOR 100k 1/16WR696 NRSA63J-471X M.G.RESISTOR 470 1/16W

R697 NRSA63J-471X M.G.RESISTOR 470 1/16WR698 NRSA63J-122X M.G.RESISTOR 1.2k 1/16WR699 NRSA63J-750X M.G.RESISTOR 75 1/16W

R701 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR702 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR703 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR704 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR705 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR706 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR709 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R710 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR716 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR717 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR718 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR719 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR721 NRSA63J-102X M.G.RESISTOR 1k 1/16WR722 NRSA63J-105X M.G.RESISTOR 1M 1/16WR723 NRSA63J-102X M.G.RESISTOR 1k 1/16WR724 NRSA63J-102X M.G.RESISTOR 1k 1/16WR725 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R726 NRSA63J-101X M.G.RESISTOR 100 1/16WR727 NRSA63J-105X M.G.RESISTOR 1M 1/16WR728 NRSA63J-102X M.G.RESISTOR 1k 1/16WR729 NRSA63J-102X M.G.RESISTOR 1k 1/16WR730 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR731 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR732 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR733 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR734 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR736 NRSA63J-222X M.G.RESISTOR 2.2k 1/16W

R738 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR739 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR801 NRSA63J-103X M.G.RESISTOR 10k 1/16WR802 NRSA63J-103X M.G.RESISTOR 10k 1/16WR803 NRSA63J-103X M.G.RESISTOR 10k 1/16WR804 NRSA63J-103X M.G.RESISTOR 10k 1/16WR805 NRSA63J-103X M.G.RESISTOR 10k 1/16WR806 NRSA63J-104X M.G.RESISTOR 100k 1/16WR808 NRSA63J-103X M.G.RESISTOR 10k 1/16WR809 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R810 NRSA63J-103X M.G.RESISTOR 10k 1/16WR811 NRSA63J-103X M.G.RESISTOR 10k 1/16WR812 NRSA63J-103X M.G.RESISTOR 10k 1/16WR813 NRSA63J-103X M.G.RESISTOR 10k 1/16WR815 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR816 NRSA63J-270X M.G.RESISTOR 27 1/16WR817 NRSA63J-103X M.G.RESISTOR 10k 1/16WR818 NRSA63J-103X M.G.RESISTOR 10k 1/16WR819 NRSA63J-103X M.G.RESISTOR 10k 1/16WR823 NRSA63J-394X M.G.RESISTOR 390k 1/16W

R824 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR825 NRSA63J-272X M.G.RESISTOR 2.7k 1/16WR826 NRSA63J-103X M.G.RESISTOR 10k 1/16WR831 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR832 NRSA63J-512X M.G.RESISTOR 5.1k 1/16WR833 NRVA63D-560X C.M.F.RESISTOR 56 1/16WR834 NRVA63D-560X C.M.F.RESISTOR 56 1/16WR835 NRVA63D-560X C.M.F.RESISTOR 56 1/16WR836 NRVA63D-560X C.M.F.RESISTOR 56 1/16WR837 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R838 NRSA63J-105X M.G.RESISTOR 1M 1/16W

RA101 NRZ0015-102X RESISTOR ARRAY 1kRA102 NRZ0015-102X RESISTOR ARRAY 1kRA103 NRZ0012-104X RESISTOR ARRAY 100kRA104 NRZ0012-104X RESISTOR ARRAY 100kRA105 NRZ0015-102X RESISTOR ARRAY 1kRA106 NRZ0015-102X RESISTOR ARRAY 1kRA107 NRZ0012-104X RESISTOR ARRAY 100kRA108 NRZ0012-104X RESISTOR ARRAY 100kRA401 NRZ0015-102X RESISTOR ARRAY 1kRA402 NRZ0015-102X RESISTOR ARRAY 1k

RA403 NRZ0015-473X RESISTOR ARRAY 47k

[DV MAIN]

6-7



C101 NCB31HK-103X CER.CAPACITOR 0.01 50VC102 NCB31HK-103X CER.CAPACITOR 0.01 50VC103 NCB31HK-103X CER.CAPACITOR 0.01 50VC104 NCB31HK-103X CER.CAPACITOR 0.01 50VC105 NCB31HK-103X CER.CAPACITOR 0.01 50VC106 NCB31HK-103X CER.CAPACITOR 0.01 50VC108 NCB31HK-103X CER.CAPACITOR 0.01 50VC109 NBE51CM-226X TAN.CAPACITOR 22 16VC110 NCB31HK-103X CER.CAPACITOR 0.01 50VC112 NCB31HK-103X CER.CAPACITOR 0.01 50V

C113 NCF31CZ-104X CER.CAPACITOR 0.1 16VC114 NCF31CZ-104X CER.CAPACITOR 0.1 16VC115 NCB31HK-103X CER.CAPACITOR 0.01 50VC116 NBE51CM-226X TAN.CAPACITOR 22 16VC117 NCF21CZ-105X CER.CAPACITOR 1 16VC118 NDC31HJ-100X CER.CAPACITOR 10p 50VC119 NCB31HK-103X CER.CAPACITOR 0.01 50VC120 NDC31HJ-100X CER.CAPACITOR 10p 50VC125 NBE41AM-226X TAN.CAPACITOR 22 10VC126 NBE51CM-226X TAN.CAPACITOR 22 16V

C127 NBE40JM-226X TAN.CAPACITOR 22 6.3VC128 NCB31HK-103X CER.CAPACITOR 0.01 50VC130 NCB31HK-103X CER.CAPACITOR 0.01 50VC135 NBE41AM-226X TAN.CAPACITOR 22 10VC136 NCB31HK-103X CER.CAPACITOR 0.01 50VC141 NCF31CZ-104X CER.CAPACITOR 0.1 16VC145 NCB31HK-103X CER.CAPACITOR 0.01 50VC146 NCB31HK-103X CER.CAPACITOR 0.01 50VC147 NCB31HK-103X CER.CAPACITOR 0.01 50VC148 NCB31HK-103X CER.CAPACITOR 0.01 50V

C149 NCB31HK-103X CER.CAPACITOR 0.01 50VC150 NCB31HK-103X CER.CAPACITOR 0.01 50VC201 NBE41AM-226X TAN.CAPACITOR 22 10VC202 NBE41AM-226X TAN.CAPACITOR 22 10VC203 NCB31CK-104X CER.CAPACITOR 0.1 16VC204 NCB31CK-104X CER.CAPACITOR 0.1 16VC205 NBE41AM-475X TAN.CAPACITOR 4.7 10VC206 NCB31CK-104X CER.CAPACITOR 0.1 16VC207 NCF21CZ-105X CER.CAPACITOR 1 16VC208 NCF21CZ-105X CER.CAPACITOR 1 16V

C209 NCB31CK-104X CER.CAPACITOR 0.1 16VC210 NCB31HK-222X CER.CAPACITOR 2200p 50VC211 NCB31HK-222X CER.CAPACITOR 2200p 50VC212 NBE41AM-475X TAN.CAPACITOR 4.7 10VC213 NBE41AM-475X TAN.CAPACITOR 4.7 10VC214 NCB31CK-104X CER.CAPACITOR 0.1 16VC215 NCB31CK-104X CER.CAPACITOR 0.1 16VC216 NBE41CM-226X TAN.CAPACITOR 22 16VC217 NCB31CK-104X CER.CAPACITOR 0.1 16VC218 NCB31CK-104X CER.CAPACITOR 0.1 16V

C219 NBE41AM-226X TAN.CAPACITOR 22 10VC220 NBE41CM-106X TAN.CAPACITOR 10 16VC221 NBE41AM-106X TAN.CAPACITOR 10 10VC222 NBE41CM-106X TAN.CAPACITOR 10 16VC223 NBE41AM-106X TAN.CAPACITOR 10 10VC224 NDC31HJ-221X CER.CAPACITOR 220p 50VC225 NCB31HK-152X CER.CAPACITOR 1500p 50VC226 NDC31HJ-221X CER.CAPACITOR 220p 50VC227 NCB31HK-472X CER.CAPACITOR 4700p 50VC228 NCB31HK-472X CER.CAPACITOR 4700p 50V

C231 NCB31HK-152X CER.CAPACITOR 1500p 50VC303 NCB31HK-103X CER.CAPACITOR 0.01 50VC304 NCB31HK-103X CER.CAPACITOR 0.01 50VC305 NCB31HK-103X CER.CAPACITOR 0.01 50VC306 NCB31CK-104X CER.CAPACITOR 0.1 16VC307 NCB31HK-103X CER.CAPACITOR 0.01 50VC308 NCB31HK-103X CER.CAPACITOR 0.01 50VC309 NBE51AM-226X TAN.CAPACITOR 22 10VC310 NCB31HK-103X CER.CAPACITOR 0.01 50VC311 NCB31HK-103X CER.CAPACITOR 0.01 50V

C312 NCB31HK-103X CER.CAPACITOR 0.01 50VC313 NCB31HK-103X CER.CAPACITOR 0.01 50VC314 NBE51AM-226X TAN.CAPACITOR 22 10V

C316 NCB31CK-104X CER.CAPACITOR 0.1 16VC317 NCB31HK-103X CER.CAPACITOR 0.01 50VC318 NCB31HK-103X CER.CAPACITOR 0.01 50VC319 NCB31HK-103X CER.CAPACITOR 0.01 50VC320 NBE51AM-226X TAN.CAPACITOR 22 10VC321 NCB31CK-104X CER.CAPACITOR 0.1 16VC323 NCB31HK-103X CER.CAPACITOR 0.01 50V

C324 NCB31HK-103X CER.CAPACITOR 0.01 50VC325 NCB31CK-104X CER.CAPACITOR 0.1 16VC326 NCB31HK-103X CER.CAPACITOR 0.01 50VC327 NCB31CK-104X CER.CAPACITOR 0.1 16VC328 NCB31CK-104X CER.CAPACITOR 0.1 16VC329 NCB31CK-104X CER.CAPACITOR 0.1 16VC330 NCB31CK-104X CER.CAPACITOR 0.1 16VC331 NCB31HK-103X CER.CAPACITOR 0.01 50VC332 NBE51AM-226X TAN.CAPACITOR 22 10VC333 NCB31HK-103X CER.CAPACITOR 0.01 50V

C334 NBE71CM-476X TAN.CAPACITOR 47 16VC335 NCB31CK-104X CER.CAPACITOR 0.1 16VC336 NCB31HK-103X CER.CAPACITOR 0.01 50VC337 NCB31CK-104X CER.CAPACITOR 0.1 16VC338 NBE51CM-226X TAN.CAPACITOR 22 16VC339 NCB31HK-103X CER.CAPACITOR 0.01 50VC340 NCB31CK-104X CER.CAPACITOR 0.1 16VC342 NCB31HK-103X CER.CAPACITOR 0.01 50VC343 NBE51AM-226X TAN.CAPACITOR 22 10VC344 NCB31HK-103X CER.CAPACITOR 0.01 50V

C345 NCB31HK-103X CER.CAPACITOR 0.01 50VC346 NCB31HK-103X CER.CAPACITOR 0.01 50VC347 NCB31HK-103X CER.CAPACITOR 0.01 50VC348 NCB31HK-103X CER.CAPACITOR 0.01 50VC349 NCB31HK-103X CER.CAPACITOR 0.01 50VC350 NCB31HK-103X CER.CAPACITOR 0.01 50VC351 NBE51AM-226X TAN.CAPACITOR 22 10VC352 NBE51CM-226X TAN.CAPACITOR 22 16VC353 NDC31HJ-101X CER.CAPACITOR 100p 50VC354 NCB31CK-823X CER.CAPACITOR 0.082 16V

C359 NCB31HK-103X CER.CAPACITOR 0.01 50VC361 NCB31CK-223X CER.CAPACITOR 0.022 16VC362 NCB31CK-223X CER.CAPACITOR 0.022 16VC363 NCB31CK-223X CER.CAPACITOR 0.022 16VC364 NDC31HJ-150X CER.CAPACITOR 15p 50VC366 NDC31HJ-4R0X CER.CAPACITOR 4p 50VC367 NBE41VM-474X TAN.CAPACITOR 0.47 35VC368 NCB31HK-103X CER.CAPACITOR 0.01 50VC369 NBE51AM-226X TAN.CAPACITOR 22 10VC401 NBE51AM-476X TAN.CAPACITOR 47 10V

C402 NBE51AM-476X TAN.CAPACITOR 47 10VC403 NCF31CZ-104X CER.CAPACITOR 0.1 16VC404 NCF31CZ-104X CER.CAPACITOR 0.1 16VC405 NCF31CZ-104X CER.CAPACITOR 0.1 16VC406 NCF31CZ-104X CER.CAPACITOR 0.1 16VC407 NCF31CZ-104X CER.CAPACITOR 0.1 16VC408 NCF31CZ-104X CER.CAPACITOR 0.1 16VC409 NDC31HJ-120X CER.CAPACITOR 12p 50VC410 NDC31HJ-120X CER.CAPACITOR 12p 50VC411 NCB31CK-223X CER.CAPACITOR 0.022 16V

C412 NCB31CK-223X CER.CAPACITOR 0.022 16VC413 NCB31CK-223X CER.CAPACITOR 0.022 16VC414 NCB31CK-223X CER.CAPACITOR 0.022 16VC415 NBE41AM-226X TAN.CAPACITOR 22 10VC416 NCF31CZ-104X CER.CAPACITOR 0.1 16VC417 NCF21CZ-105X CER.CAPACITOR 1 16VC418 NCF31CZ-104X CER.CAPACITOR 0.1 16VC419 NCB31EK-103X CER.CAPACITOR 0.01 25VC501 NDC31HJ-220X CER.CAPACITOR 22p 50VC502 NCF31CZ-104X CER.CAPACITOR 0.1 16V

C503 NCB31HK-103X CER.CAPACITOR 0.01 50VC505 NCB31HK-103X CER.CAPACITOR 0.01 50VC506 NCB31HK-103X CER.CAPACITOR 0.01 50VC507 NCB31HK-103X CER.CAPACITOR 0.01 50VC508 NCB31HK-103X CER.CAPACITOR 0.01 50VC509 NCB31HK-103X CER.CAPACITOR 0.01 50V

6-8



C510 NCB31HK-681X CER.CAPACITOR 680p 50VC511 NCB31HK-103X CER.CAPACITOR 0.01 50VC512 NCB31HK-103X CER.CAPACITOR 0.01 50VC513 NCB31HK-103X CER.CAPACITOR 0.01 50V

C514 NCB31HK-103X CER.CAPACITOR 0.01 50VC515 NCF31CZ-104X CER.CAPACITOR 0.1 16VC516 NCB31HK-103X CER.CAPACITOR 0.01 50VC517 NCF31CZ-104X CER.CAPACITOR 0.1 16VC518 NCF31CZ-104X CER.CAPACITOR 0.1 16VC519 NCB31HK-103X CER.CAPACITOR 0.01 50VC520 NCB31HK-103X CER.CAPACITOR 0.01 50VC521 NCB31HK-103X CER.CAPACITOR 0.01 50VC522 NBE41AM-226X TAN.CAPACITOR 22 10VC523 NCB31HK-103X CER.CAPACITOR 0.01 50V

C524 NCB31HK-103X CER.CAPACITOR 0.01 50VC525 NCB31HK-103X CER.CAPACITOR 0.01 50VC526 NCB31CK-273X CER.CAPACITOR 0.027 16VC527 NCB31HK-103X CER.CAPACITOR 0.01 50VC528 NCB21AK-105X CER.CAPACITOR 1 10VC529 NCB31HK-103X CER.CAPACITOR 0.01 50VC531 NCB31HK-103X CER.CAPACITOR 0.01 50VC532 NCB31HK-103X CER.CAPACITOR 0.01 50VC533 NBE41AM-226X TAN.CAPACITOR 22 10VC534 NCB31HK-103X CER.CAPACITOR 0.01 50V

C537 NCB31HK-103X CER.CAPACITOR 0.01 50VC538 NCB31HK-103X CER.CAPACITOR 0.01 50VC539 NCB31HK-103X CER.CAPACITOR 0.01 50VC540 NCB31CK-104X CER.CAPACITOR 0.1 16VC541 NDC31HJ-151X CER.CAPACITOR 150p 50VC542 NCB31HK-103X CER.CAPACITOR 0.01 50VC543 NCB31HK-103X CER.CAPACITOR 0.01 50VC544 NCB31HK-152X CER.CAPACITOR 1500p 50VC545 NCF21CZ-225X CER.CAPACITOR 2.2 16VC546 NCB31HK-103X CER.CAPACITOR 0.01 50V

C547 NBE41AM-226X TAN.CAPACITOR 22 10VC555 NCB31CK-223X CER.CAPACITOR 0.022 16VC579 NBE51CM-226X TAN.CAPACITOR 22 16VC580 NBE41AM-226X TAN.CAPACITOR 22 10VC581 NCB31HK-103X CER.CAPACITOR 0.01 50VC582 NCB31HK-103X CER.CAPACITOR 0.01 50VC583 NBE71CM-476X TAN.CAPACITOR 47 16VC584 NBE71CM-476X TAN.CAPACITOR 47 16VC590 NCB31HK-103X CER.CAPACITOR 0.01 50VC591 NCB31HK-103X CER.CAPACITOR 0.01 50V

C592 NCB31CK-273X CER.CAPACITOR 0.027 16VC593 NCB31HK-103X CER.CAPACITOR 0.01 50VC601 NCF21CZ-105X CER.CAPACITOR 1 16VC602 NDC31HJ-101X CER.CAPACITOR 100p 50VC603 NCF21CZ-105X CER.CAPACITOR 1 16VC604 NCB31EK-103X CER.CAPACITOR 0.01 25VC605 NDC31HJ-101X CER.CAPACITOR 100p 50VC606 NDC31HJ-220X CER.CAPACITOR 22p 50VC607 NDC31HJ-150X CER.CAPACITOR 15p 50VC608 NCF21CZ-105X CER.CAPACITOR 1 16V

C609 NCB31EK-103X CER.CAPACITOR 0.01 25VC610 NCB31EK-103X CER.CAPACITOR 0.01 25VC611 NCB31CK-104X CER.CAPACITOR 0.1 16VC612 NCB31HK-561X CER.CAPACITOR 560p 50VC613 NCB31EK-103X CER.CAPACITOR 0.01 25VC614 NDC31HJ-5R0X CER.CAPACITOR 5p 50VC615 NDC31HJ-100X CER.CAPACITOR 10p 50VC617 NCB31EK-103X CER.CAPACITOR 0.01 25VC619 NCB31EK-103X CER.CAPACITOR 0.01 25VC620 NCB31CK-104X CER.CAPACITOR 0.1 16V

C621 NCB31CK-104X CER.CAPACITOR 0.1 16VC622 NCB31CK-104X CER.CAPACITOR 0.1 16VC623 NCB31CK-104X CER.CAPACITOR 0.1 16VC624 NCB31CK-104X CER.CAPACITOR 0.1 16VC625 NCB31CK-104X CER.CAPACITOR 0.1 16VC626 NCB31EK-103X CER.CAPACITOR 0.01 25VC627 NCB31CK-104X CER.CAPACITOR 0.1 16VC628 NCB31CK-104X CER.CAPACITOR 0.1 16VC629 NCB31CK-104X CER.CAPACITOR 0.1 16V

C630 NCB31CK-104X CER.CAPACITOR 0.1 16V

C631 NCB31CK-104X CER.CAPACITOR 0.1 16VC632 NCB31CK-104X CER.CAPACITOR 0.1 16VC633 NCB31EK-103X CER.CAPACITOR 0.01 25VC634 NCB31EK-103X CER.CAPACITOR 0.01 25VC635 NCB31EK-103X CER.CAPACITOR 0.01 25VC638 NCB31EK-103X CER.CAPACITOR 0.01 25VC639 NCB31CK-104X CER.CAPACITOR 0.1 16VC640 NBE51AM-226X TAN.CAPACITOR 22 10VC641 NBE51AM-226X TAN.CAPACITOR 22 10VC642 NCB31CK-104X CER.CAPACITOR 0.1 16V

C643 NCB31CK-104X CER.CAPACITOR 0.1 16VC644 NCB31CK-104X CER.CAPACITOR 0.1 16VC645 NCB31CK-104X CER.CAPACITOR 0.1 16VC646 NCB31CK-104X CER.CAPACITOR 0.1 16VC647 NCB31CK-104X CER.CAPACITOR 0.1 16VC649 NCB31CK-104X CER.CAPACITOR 0.1 16VC650 NCB31CK-104X CER.CAPACITOR 0.1 16VC651 NBE51AM-226X TAN.CAPACITOR 22 10VC652 NCB31CK-104X CER.CAPACITOR 0.1 16VC653 NBE51AM-226X TAN.CAPACITOR 22 10V

C654 NBE51AM-226X TAN.CAPACITOR 22 10VC655 NBE51AM-226X TAN.CAPACITOR 22 10VC656 NCB31EK-103X CER.CAPACITOR 0.01 25VC657 NDC31HJ-101X CER.CAPACITOR 100p 50VC658 NCB21CK-474X CER.CAPACITOR 0.47 16VC659 NCB31EK-103X CER.CAPACITOR 0.01 25VC660 NCB31CK-473X CER.CAPACITOR 0.047 16VC661 NCB21CK-224X CER.CAPACITOR 0.22 16VC662 NBE41AM-106X TAN.CAPACITOR 10 10VC663 NBE21CM-684X TAN.CAPACITOR 0.68 16V

C664 NCB31HK-681X CER.CAPACITOR 680p 50VC665 NCB31EK-103X CER.CAPACITOR 0.01 25VC666 NDC31HJ-270X CER.CAPACITOR 27p 50VC667 NCB31CK-273X CER.CAPACITOR 0.027 16VC668 NCF21CZ-105X CER.CAPACITOR 1 16VC669 NBE61CM-107X TAN.CAPACITOR 100 16VC672 NCB31HK-152X CER.CAPACITOR 1500p 50VC673 NCB31EK-103X CER.CAPACITOR 0.01 25VC674 NCB31HK-102X CER.CAPACITOR 1000p 50VC675 NCB31EK-103X CER.CAPACITOR 0.01 25V

C676 NBE61CM-107X TAN.CAPACITOR 100 16VC677 NCB31EK-103X CER.CAPACITOR 0.01 25VC678 NCB31CK-104X CER.CAPACITOR 0.1 16VC679 NBE41AM-106X TAN.CAPACITOR 10 10VC680 NBE41CM-335X TAN.CAPACITOR 3.3 16VC681 NCB31EK-103X CER.CAPACITOR 0.01 25VC682 NBE61CM-107X TAN.CAPACITOR 100 16VC683 NCB31EK-103X CER.CAPACITOR 0.01 25VC684 NCB31EK-103X CER.CAPACITOR 0.01 25VC685 NCB31EK-103X CER.CAPACITOR 0.01 25V

C687 NCF21CZ-105X CER.CAPACITOR 1 16VC688 NCB31EK-103X CER.CAPACITOR 0.01 25VC689 NCB31EK-103X CER.CAPACITOR 0.01 25VC690 NCF21CZ-105X CER.CAPACITOR 1 16VC691 NCB31CK-104X CER.CAPACITOR 0.1 16VC692 NCF21CZ-105X CER.CAPACITOR 1 16VC693 NCF21CZ-105X CER.CAPACITOR 1 16VC694 NBE21CM-225X TAN.CAPACITOR 2.2 16VC695 NCB31CK-104X CER.CAPACITOR 0.1 16VC696 NDC31HJ-150X CER.CAPACITOR 15p 50V

C697 NCB31CK-104X CER.CAPACITOR 0.1 16VC698 NCB31CK-104X CER.CAPACITOR 0.1 16VC699 NDC31HJ-150X CER.CAPACITOR 15p 50VC700 NCB31CK-104X CER.CAPACITOR 0.1 16VC706 NCB31EK-103X CER.CAPACITOR 0.01 25VC709 NCB31EK-103X CER.CAPACITOR 0.01 25VC710 NCB31EK-103X CER.CAPACITOR 0.01 25VC711 NBE51AM-226X TAN.CAPACITOR 22 10VC712 NBE51AM-226X TAN.CAPACITOR 22 10VC713 NCB31CK-104X CER.CAPACITOR 0.1 16V


[DV MAIN]

6-9



C717 NCB31CK-104X CER.CAPACITOR 0.1 16VC718 NCB31EK-103X CER.CAPACITOR 0.01 25VC719 NCB31CK-104X CER.CAPACITOR 0.1 16VC720 NCB31CK-104X CER.CAPACITOR 0.1 16VC721 NDC31HJ-180X CER.CAPACITOR 18p 50VC722 NDC31HJ-180X CER.CAPACITOR 18p 50VC738 NCB41CM-106X CER.CAPACITOR 10 16VC739 NCB41CM-106X CER.CAPACITOR 10 16VC801 NBE41AM-226X TAN.CAPACITOR 22 10V

C802 NCF31CZ-104X CER.CAPACITOR 0.1 16VC803 NBE40JM-226X TAN.CAPACITOR 22 6.3VC804 NCF31CZ-104X CER.CAPACITOR 0.1 16VC805 NCB31HK-103X CER.CAPACITOR 0.01 50VC806 NCB31HK-103X CER.CAPACITOR 0.01 50VC807 NCB31HK-103X CER.CAPACITOR 0.01 50VC808 NCB31HK-103X CER.CAPACITOR 0.01 50VC809 NCB31HK-103X CER.CAPACITOR 0.01 50VC810 NCB31HK-103X CER.CAPACITOR 0.01 50VC811 NCB31HK-102X CER.CAPACITOR 1000p 50V

C812 NCB31HK-103X CER.CAPACITOR 0.01 50VC813 NCB31HK-103X CER.CAPACITOR 0.01 50VC814 NBE41AM-226X TAN.CAPACITOR 22 10VC815 NCF31CZ-104X CER.CAPACITOR 0.1 16VC816 NCB31HK-103X CER.CAPACITOR 0.01 50VC817 NCF31CZ-104X CER.CAPACITOR 0.1 16VC819 NCF31CZ-104X CER.CAPACITOR 0.1 16VC820 NDC31HJ-271X CER.CAPACITOR 270p 50VC821 NDC31HJ-5R0X CER.CAPACITOR 5p 50VC822 NDC31HJ-6R0X CER.CAPACITOR 6p 50V

L111 NQL23CM-330X COIL 33uHL112 NQL23CM-330X COIL 33uHL113 NQL044K-470X COIL 47uHL114 NQL23CM-330X COIL 33uHL115 NQL23CM-330X COIL 33uHL201 NQL114K-100X COIL 10uHL202 NQL114K-100X COIL 10uHL301 NQL044K-100X COIL 10uHL302 NQL044K-100X COIL 10uHL303 NQL044K-100X COIL 10uH

L304 NQL024J-1R2X COIL 1.2uHL305 NQL044K-100X COIL 10uHL306 NQL044K-100X COIL 10uHL307 NQL044K-100X COIL 10uHL309 NQL044K-100X COIL 10uHL310 NQL044K-100X COIL 10uHL311 NQL044K-100X COIL 10uHL312 NQL044K-100X COIL 10uHL313 NQL044K-100X COIL 10uHL401 NQL044K-100X COIL 10uH

L501 NQL044K-100X COIL 10uHL502 NQL044K-100X COIL 10uHL511 NQL114K-470X COIL 47uHL513 NQL044K-100X COIL 10uHL601 NQL044K-100X COIL 10uHL602 NQL024J-150X COIL 15uHL603 NQL044K-100X COIL 10uHL604 NQL044K-100X COIL 10uHL605 NQL044K-100X COIL 10uHL606 NQL024J-5R6X COIL 5.6uH

L608 NQL044K-100X COIL 10uHL609 NQL044K-100X COIL 10uHL610 NQL044K-221X COIL 220uHL612 NQL044K-221X COIL 220uHL613 NQL044K-100X COIL 10uHL614 NQL044K-220X COIL 22uHL615 NQL044K-220X COIL 22uHL801 NQL044K-100X COIL 10uHL802 NQL044K-100X COIL 10uHL803 NQL044K-100X COIL 10uH

L804 NQR0276-001X COIL

LC101 PGZ01972Z LC FILTERLC102 PGZ01972Z LC FILTERLC103 PGZ01972Z LC FILTERLC104 PGZ01972Z LC FILTERLC105 PGZ01972Z LC FILTERLC301 PGZ01972Z LC FILTERLC302 PGZ01972Z LC FILTERLC303 PGZ01972Z LC FILTERLC501 PGZ01972Z LC FILTERLC502 PGZ01972Z LC FILTER

X101 NAX0349-001X CRYSTAL 27MHzX401 NAX0348-001X CRYSTAL 27MHzX601 NAX0227-001X CRYSTAL 503kHzX602 NAX0348-001X CRYSTAL 27MHzX603 NAX0280-001X CRYSTAL 26.995MHzX801 NAX0241-001X CRYSTAL 24.576MHz

CN1 QGB0805L2-60X CONNECTOR 60PINCN2 QGB0805L2-60X CONNECTOR 60PINCN102 QGA1201C2-13X CONNECTOR 13PINCN104 QGB0801L1-26X CONNECTOR 26PINCN106 QGA1201F2-08X CONNECTOR 8PINCN108 QGF0508F1-10X CONNECTOR 10PINCN401 QGF0508F1-18X CONNECTOR 18PINCN402 QGF0508F1-20X CONNECTOR 20PINCN403 QGB0801L1-26X CONNECTOR 26PINCN501 QGF0508F1-20X CONNECTOR 20PIN

CN801 QGA1201F2-06X CONNECTOR 6PIN

K101 PGZ00627Z FERRATE BEADSK102 PGZ00627Z FERRATE BEADSK301 NQR0269-004X FERRITE BEADSK303 NQR0129-003X FERRITE BEADSK401 PGZ00627Z FERRATE BEADSK402 PGZ00627Z FERRATE BEADSK403 PGZ00627Z FERRATE BEADSK404 PGZ00627Z FERRATE BEADSK601 PGZ00627Z FERRATE BEADSK602 NQR0269-004X FERRITE BEADS

K603 NQR0269-004X FERRITE BEADSK604 NQR0269-004X FERRITE BEADSK605 NQR0269-004X FERRITE BEADSK801 PGZ00627Z FERRATE BEADS

LA301 NQR0320-010X F.B.ARRAYLA302 NQR0320-010X F.B.ARRAYLA303 NQR0320-010X F.B.ARRAYLA401 NQR0330-009X EMI FILTER ARYLA402 NQR0330-009X EMI FILTER ARYLA403 NQR0330-009X EMI FILTER ARYLA404 NQR0330-009X EMI FILTER ARYLA601 NQR0330-009X EMI FILTER ARYLA602 NQR0330-009X EMI FILTER ARYLA603 NQR0330-009X EMI FILTER ARY

LA604 NQR0330-009X EMI FILTER ARYLA605 NQR0330-009X EMI FILTER ARYLA606 NQR0320-010X F.B.ARRAYLA607 NQR0320-010X F.B.ARRAY

6-10



6.6 ISB BOARD ASSEMBLY PARTS LIST 11SCK2604-02-00B 11``````

SK501 QNV0027-010 IC SOCKET 20PIN

IC503 CXA1439M-X I.C.(M) SONYIC504 AD8031ART-X I.C.(M) ANALOG DEVICESIC505 TC74VHC04FT-X I.C.(M) TOSHIBAIC506 LP2986IMM-X I.C.(M) NATIONAL SEMOCO

Q501 2SC3930/BC/-X TRANSISTOR MATSUSHITA

R501 NRSA63D-105X M.G.RESISTOR 1M 1/16WR502 NRSA63D-391X M.G.RESISTOR 390 1/16WR503 NRSA63D-184X M.G.RESISTOR 180k 1/16WR504 NRSA63D-273X M.G.RESISTOR 27k 1/16WR505 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR506 NRSA63D-101X M.G.RESISTOR 100 1/16WR507 NRSA63D-112X M.G.RESISTOR 1.1k 1/16WR508 NRSA63D-102X M.G.RESISTOR 1k 1/16WR509 NRSA63D-102X M.G.RESISTOR 1k 1/16WR510 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R511 NRSA63D-180X M.G.RESISTOR 18 1/16WR512 NRSA63D-180X M.G.RESISTOR 18 1/16WR513 NRSA63D-180X M.G.RESISTOR 18 1/16WR514 NRSA63D-180X M.G.RESISTOR 18 1/16WR519 NRSA63D-334X M.G.RESISTOR 330k 1/16WR520 NRSA63D-154X M.G.RESISTOR 150k 1/16WR521 NRSA63J-225X M.G.RESISTOR 2.2M 1/16WR522 NRSA63D-563X M.G.RESISTOR 56k 1/16WR523 NRSA63J-564X M.G.RESISTOR 560k 1/16W

C501 NCB31EK-473X CER.CAPACITOR 0.047 25VC504 NBE40GM-476X TAN.CAPACITOR 47 4VC505 NCB31EK-473X CER.CAPACITOR 0.047 25VC506 NBE21AM-225X TAN.CAPACITOR 2.2 10VC507 NBE41VM-335X TAN.CAPACITOR 3.3 35VC508 NCB31CK-473X CER.CAPACITOR 0.047 16VC509 NCB31CK-473X CER.CAPACITOR 0.047 16VC510 NCB31CK-473X CER.CAPACITOR 0.047 16VC511 NCB31CK-473X CER.CAPACITOR 0.047 16VC512 NBE21CM-475X TAN.CAPACITOR 4.7 16V

C513 NCB31CK-473X CER.CAPACITOR 0.047 16VC514 NBE21CM-475X TAN.CAPACITOR 4.7 16VC515 NBE21CM-475X TAN.CAPACITOR 4.7 16VC518 NCB11CK-105X CER.CAPACITOR 1 16VC519 NCB11CK-105X CER.CAPACITOR 1 16VC520 NCB31CK-473X CER.CAPACITOR 0.047 16VC521 NCB31CK-473X CER.CAPACITOR 0.047 16VC522 NCB31CK-473X CER.CAPACITOR 0.047 16VC523 NDC31HJ-220X CER.CAPACITOR 22p 50VC524 NBE21AM-106X TAN.CAPACITOR 10 10V

C525 NBE21AM-106X TAN.CAPACITOR 10 10V

LC501 SCV1804-222Z LC FILTER

CN11 QGF0508F2-20X CONNECTOR 20PIN

6.7 ISG BOARD ASSEMBLY PARTS LIST 12SCK2604-03-00B 12``````


IC503 CXA1439M-X I.C.(M) SONYIC504 AD8031ART-X I.C.(M) ANALOG DEVICESIC505 TC74VHC04FT-X I.C.(M) TOSHIBAIC506 LP2986IMM-X I.C.(M) NATIONAL SEMICO









6-11



6.8 ISR BOARD ASSEMBLY PARTS LIST 13SCK2604-04-00B 13``````


IC503 CXA1439M-X I.C.(M) SONYIC504 AD8031ART-X I.C.(M) ANALOG DEVICESIC505 TC74VHC04FT-X I.C.(M) TOSHIBAIC506 LP2986IMM-X I.C.(M) NATIONAL SEMICO









6.9 TG BOARD ASSEMBLY PARTS LIST 14SCK2604-01-N0B(U)

SCK2604-01-P0B(E) 14``````

IC1 CXD1265R I.C.(M) SONYIC2 MN3112SA-X I.C.(M) MATSUSHITAIC3 MN3112SA-X I.C.(M) MATSUSHITAIC4 MN3112SA-X I.C.(M) MATSUSHITAIC5 NJM78L15UA-X I.C.(M) JRCIC6 TC74VHC08FT-X I.C.(M) TOSHIBAIC7 TC74VHC08FT-X I.C.(M) TOSHIBAIC8 TC7SH04FU-X I.C.(M) TOSHIBAIC9 TC74VHC74FT-X I.C.(M) TOSHIBAIC10 TC7SH00FU-X I.C.(M) TOSHIBA

IC11 TC7SH04FU-X I.C.(M) TOSHIBAIC14 BU4094BCFV-X I.C.(M) ROHMIC15 TC74VHC74FT-X I.C.(M) TOSHIBA

Q1 2SB1219/QR/-X TRANSISTOR MATSUSHITA

D1 MA142A-X DIODE MATSUSHITAD2 MA142A-X DIODE MATSUSHITAD3 MA142A-X DIODE MATSUSHITAD4 MA142A-X DIODE MATSUSHITA

R1 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R2 NRSA63D-223X M.G.RESISTOR 22k 1/16WR3 NRSA63D-104X M.G.RESISTOR 100k 1/16WR4 NRSA63D-821X M.G.RESISTOR 820 1/16WR5 NRSA63D-104X M.G.RESISTOR 100k 1/16WR6 NRSA63D-821X M.G.RESISTOR 820 1/16WR7 NRSA63D-104X M.G.RESISTOR 100k 1/16WR8 NRSA63D-821X M.G.RESISTOR 820 1/16WR10 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR11 NRSA63D-332X M.G.RESISTOR 3.3k 1/16W

R12 NRSA63D-223X M.G.RESISTOR 22k 1/16WR13 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR14 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR16 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR17 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR18 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

C1 NDC31HJ-221X CER.CAPACITOR 220p 50VC2 NDC31HJ-221X CER.CAPACITOR 220p 50VC3 NCB31CK-473X CER.CAPACITOR 0.047 16VC4 NCB11CK-105X CER.CAPACITOR 1 16VC5 NCB11CK-105X CER.CAPACITOR 1 16VC6 NCB11CK-105X CER.CAPACITOR 1 16VC10 NBE41VM-105X TAN.CAPACITOR 1 35VC11 NBE41VM-105X TAN.CAPACITOR 1 35VC12 NBE41VM-105X TAN.CAPACITOR 1 35VC13 NBSH1AM-227X TAN.CAPACITOR 220 10V

C18 NBSH1AM-227X TAN.CAPACITOR 220 10VC20 NBE41CM-106X TAN.CAPACITOR 10 16VC21 NBE21CM-105X TAN.CAPACITOR 1 16VC22 NBE41VM-335X TAN.CAPACITOR 3.3 35VC23 NBE51EM-106X TAN.CAPACITOR 10 25VC24 NBE21CM-105X TAN.CAPACITOR 1 16VC25 NBE41VM-335X TAN.CAPACITOR 3.3 35VC26 NBE51EM-106X TAN.CAPACITOR 10 25VC27 NBE21CM-105X TAN.CAPACITOR 1 16VC28 NBE41VM-335X TAN.CAPACITOR 3.3 35V

C29 NBE51EM-106X TAN.CAPACITOR 10 25VC30 NBE41VM-335X TAN.CAPACITOR 3.3 35VC31 NBE41VM-335X TAN.CAPACITOR 3.3 35VC32 NBE51VM-475X TAN.CAPACITOR 4.7 35VC33 NBE51CM-336X TAN.CAPACITOR 33 16VC34 NBE71CM-476X TAN.CAPACITOR 47 16VC35 NCB31EK-473X CER.CAPACITOR 0.047 25VC36 NCB21HK-473X CER.CAPACITOR 0.047 50VC37 NCB31EK-473X CER.CAPACITOR 0.047 25VC38 NCB31EK-473X CER.CAPACITOR 0.047 25V

C39 NCB31EK-473X CER.CAPACITOR 0.047 25VC40 NCB31CK-473X CER.CAPACITOR 0.047 16VC41 NCB31CK-473X CER.CAPACITOR 0.047 16V

6-12



C42 NCB31CK-473X CER.CAPACITOR 0.047 16VC43 NCB31CK-473X CER.CAPACITOR 0.047 16VC44 NCB31CK-473X CER.CAPACITOR 0.047 16VC45 NCB31CK-473X CER.CAPACITOR 0.047 16VC46 NCB31CK-473X CER.CAPACITOR 0.047 16VC47 NCB31CK-473X CER.CAPACITOR 0.047 16VC48 NCB31CK-473X CER.CAPACITOR 0.047 16V

C49 NCB31CK-473X CER.CAPACITOR 0.047 16VC50 NCB31CK-473X CER.CAPACITOR 0.047 16VC51 NCB31CK-473X CER.CAPACITOR 0.047 16VC52 NCB31CK-473X CER.CAPACITOR 0.047 16VC53 NCB31CK-473X CER.CAPACITOR 0.047 16VC54 NCB31CK-473X CER.CAPACITOR 0.047 16VC55 NCB31CK-473X CER.CAPACITOR 0.047 16VC56 NCB31CK-473X CER.CAPACITOR 0.047 16V

LC1 SCV1804-222Z LC FILTERLC2 SCV1804-222Z LC FILTER

CN11 QGF0508C1-20W CONNECTOR 20PINCN12 QGF0508C1-20W CONNECTOR 20PINCN13 QGF0508C1-20W CONNECTOR 20PINCN14 QGF0508F1-24X CONNECTOR 24PIN

K1 SCV2732-1LL680 FERRITE BEADSK2 SCV2732-1LL680 FERRITE BEADSK3 NRSA63D-100X M.G.RESISTOR 10 1/16WK4 NRSA63D-100X M.G.RESISTOR 10 1/16WK5 SCV2732-1HS121 FERRITE BEADSK6 SCV2732-1HS121 FERRITE BEADSK7 SCV2732-1HS121 FERRITE BEADSK8 SCV2732-1HS601 FERRITE BEADS

6.10 CAM1 BOARD ASSEMBLY PARTS LIST 15SCK2605-01-N1B(U)

SCK2605-01-P1B(E) 15``````

IC61 TLC2932IPW-X I.C.(M) TEXASIC62 TC74HC40103AF-X I.C.(M) TOSHIBAIC63 TC74HC40103AF-X I.C.(M) TOSHIBAIC64 TC7W74FU-X I.C.(M) TOSHIBAIC65 TC7SH04FU-X I.C.(M) TOSHIBAIC66 TC7SH04FU-X I.C.(M) TOSHIBAIC412 AD8031ART-X I.C.(M) ANALOG DEVICESIC413 AD603AR-X I.C.(M) ANALOG DEVICESIC415 AD8031ART-X I.C.(M) ANALOG DEVICESIC421 LMC6082IM-X I.C.(M) NATIONAL SEMICO

IC422 TC7W66FU-X I.C.(M) TOSHIBAIC424 NJM062V-X I.C.(M) JRCIC425 TC7S66FU-X I.C.(M) TOSHIBAIC429 NJM062V-X I.C.(M) JRCIC511 TC74HC4053AFT-X I.C.(M) TOSHIBAIC512 AD8031ART-X I.C.(M) ANALOG DEVICESIC513 AD603AR-X I.C.(M) ANALOG DEVICESIC514 TC74HC4053AFT-X I.C.(M) TOSHIBAIC515 AD8031ART-X I.C.(M) ANALOG DEVICESIC516 TC74HC4053AFT-X I.C.(M) TOSHIBA

IC521 LMC6082IM-X I.C.(M) NATIONAL SEMICOIC522 TC7W66FU-X I.C.(M) TOSHIBAIC524 NJM062V-X I.C.(M) JRCIC525 TC7S66FU-X I.C.(M) TOSHIBAIC526 MB88345PF I.C.(M) FUJITSUIC527 TC7W74FU-X I.C.(M) TOSHIBAIC528 LMC6082IM-X I.C.(M) NATIONAL SEMICOIC529 NJM062V-X I.C.(M) JRCIC531 TC7SH08FU-X I.C.(M) TOSHIBAIC532 LP2986IMM-X I.C.(M) NATIONAL SEMICO

IC612 AD8031ART-X I.C.(M) ANALOG DEVICESIC613 AD603AR-X I.C.(M) ANALOG DEVICESIC615 AD8031ART-X I.C.(M) ANALOG DEVICESIC621 LMC6082IM-X I.C.(M) NATIONAL SEMICOIC622 TC7W66FU-X I.C.(M) TOSHIBAIC624 NJM062V-X I.C.(M) JRCIC625 TC7S66FU-X I.C.(M) TOSHIBAIC629 NJM062V-X I.C.(M) JRCIC901 MB90T678BPF I.C.(M) FUJITSUIC903 CY62256LL70SN-X I.C.(M) CYPRESS

IC904 TC74VHC373FT-X I.C.(M) TOSHIBAIC905 NM93C86AEM8-X I.C.(M) NATIONAL SEMICOIC906 MN12821-QR-X I.C.(M) MATSUSHITAIC907 TC7SH04FU-X I.C.(M) TOSHIBAIC908 TC7SH04FU-X I.C.(M) TOSHIBAIC909 SN74LV125APW-X I.C.(M) TEXASIC910 LP2986IMM-X I.C.(M) NATIONAL SEMICOIC911 TC7SH04FU-X I.C.(M) TOSHIBAIC912 TC7SH08FU-X I.C.(M) TOSHIBA

Q411 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ412 2SA1790/BC/-X TRANSISTOR MATSUSHITAQ511 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ512 2SA1790/BC/-X TRANSISTOR MATSUSHITAQ513 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ514 DTA124EUA-X TRANSISTOR ROHMQ515 2SA1790/BC/-X TRANSISTOR MATSUSHITAQ516 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ517 2SA1790/BC/-X TRANSISTOR MATSUSHITAQ611 2SC4626/BC/-X TRANSISTOR MATSUSHITA

Q612 2SA1790/BC/-X TRANSISTOR MATSUSHITA

D402 MA742-X DIODE MATSUSHITAD502 MA742-X DIODE MATSUSHITAD602 MA742-X DIODE MATSUSHITAD901 MA143A-X DIODE MATSUSHITAD902 MA143A-X DIODE MATSUSHITA

R61 NRSA63D-272X M.G.RESISTOR 2.7k 1/16WR62 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR63 NRSA63D-563X M.G.RESISTOR 56k 1/16WR64 NRSA63D-561X M.G.RESISTOR 560 1/16W

[TG]

6-13



R66 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)R67 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R68 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R69 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)R70 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)R71 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)

R72 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)R73 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R74 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R75 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)R76 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)R77 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R78 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)R79 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R80 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R81 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)

R431 NRSA63D-102X M.G.RESISTOR 1k 1/16WR432 NRSA63D-331X M.G.RESISTOR 330 1/16WR433 NRSA63D-331X M.G.RESISTOR 330 1/16WR434 NRSA63D-331X M.G.RESISTOR 330 1/16WR435 NRSA63D-102X M.G.RESISTOR 1k 1/16WR436 NRSA63D-102X M.G.RESISTOR 1k 1/16WR437 NRSA63D-102X M.G.RESISTOR 1k 1/16WR438 NRSA63D-102X M.G.RESISTOR 1k 1/16WR441 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR442 NRSA63D-182X M.G.RESISTOR 1.8k 1/16W

R443 NRSA63D-101X M.G.RESISTOR 100 1/16WR444 NRSA63D-681X M.G.RESISTOR 680 1/16WR445 NRSA63D-102X M.G.RESISTOR 1k 1/16WR446 NRSA63D-102X M.G.RESISTOR 1k 1/16WR447 NRSA63D-112X M.G.RESISTOR 1.1k 1/16WR448 NRSA63D-221X M.G.RESISTOR 220 1/16WR449 NRSA63D-121X M.G.RESISTOR 120 1/16WR450 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR457 NRSA63D-911X M.G.RESISTOR 910 1/16WR458 NRSA63D-103X M.G.RESISTOR 10k 1/16W

R461 NRSA63D-473X M.G.RESISTOR 47k 1/16WR462 NRSA63D-473X M.G.RESISTOR 47k 1/16WR463 NRSA63D-102X M.G.RESISTOR 1k 1/16WR464 NRSA63D-473X M.G.RESISTOR 47k 1/16WR465 NRSA63D-113X M.G.RESISTOR 11k 1/16WR466 NRSA63D-183X M.G.RESISTOR 18k 1/16WR467 NRSA63D-183X M.G.RESISTOR 18k 1/16WR468 NRSA63D-183X M.G.RESISTOR 18k 1/16WR469 NRSA63D-123X M.G.RESISTOR 12k 1/16WR470 NRSA63D-123X M.G.RESISTOR 12k 1/16W

R471 NRSA63D-113X M.G.RESISTOR 11k 1/16WR484 NRSA63D-183X M.G.RESISTOR 18k 1/16WR485 NRSA63D-363X M.G.RESISTOR 36k 1/16WR486 NRSA63D-184X M.G.RESISTOR 180k 1/16W (U)

NRSA63D-224X M.G.RESISTOR 220k 1/16W (E)R487 NRSA63D-104X M.G.RESISTOR 100k 1/16WR488 NRSA63D-104X M.G.RESISTOR 100k 1/16WR489 NRSA63D-102X M.G.RESISTOR 1k 1/16WR490 NRSA63D-821X M.G.RESISTOR 820 1/16WR491 NRSA63D-821X M.G.RESISTOR 820 1/16WR492 NRSA63D-562X M.G.RESISTOR 5.6k 1/16W

R493 NRSA63D-752X M.G.RESISTOR 7.5k 1/16WR494 NRSA63D-243X M.G.RESISTOR 24k 1/16WR495 NRSA63D-103X M.G.RESISTOR 10k 1/16WR496 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR497 NRSA63D-823X M.G.RESISTOR 82k 1/16WR498 NRSA63D-102X M.G.RESISTOR 1k 1/16WR499 NRSA63D-101X M.G.RESISTOR 100 1/16WR531 NRSA63D-102X M.G.RESISTOR 1k 1/16WR532 NRSA63D-331X M.G.RESISTOR 330 1/16WR533 NRSA63D-331X M.G.RESISTOR 330 1/16W

R534 NRSA63D-331X M.G.RESISTOR 330 1/16WR535 NRSA63D-102X M.G.RESISTOR 1k 1/16WR536 NRSA63D-102X M.G.RESISTOR 1k 1/16WR537 NRSA63D-102X M.G.RESISTOR 1k 1/16WR538 NRSA63D-102X M.G.RESISTOR 1k 1/16WR541 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R542 NRSA63D-391X M.G.RESISTOR 390 1/16WR543 NRSA63D-101X M.G.RESISTOR 100 1/16WR544 NRSA63D-681X M.G.RESISTOR 680 1/16WR545 NRSA63D-102X M.G.RESISTOR 1k 1/16W

R546 NRSA63D-102X M.G.RESISTOR 1k 1/16WR547 NRSA63D-112X M.G.RESISTOR 1.1k 1/16WR548 NRSA63D-221X M.G.RESISTOR 220 1/16WR549 NRSA63D-121X M.G.RESISTOR 120 1/16WR550 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR551 NRSA63D-334X M.G.RESISTOR 330k 1/16WR552 NRSA63D-224X M.G.RESISTOR 220k 1/16WR553 NRSA63J-225X M.G.RESISTOR 2.2M 1/16WR554 NRSA63D-563X M.G.RESISTOR 56k 1/16WR555 NRSA63J-564X M.G.RESISTOR 560k 1/16W

R557 NRSA63D-911X M.G.RESISTOR 910 1/16WR558 NRSA63D-103X M.G.RESISTOR 10k 1/16WR559 NRSA63D-102X M.G.RESISTOR 1k 1/16WR560 NRSA63D-104X M.G.RESISTOR 100k 1/16WR561 NRSA63D-473X M.G.RESISTOR 47k 1/16WR562 NRSA63D-473X M.G.RESISTOR 47k 1/16WR563 NRSA63D-102X M.G.RESISTOR 1k 1/16WR564 NRSA63D-473X M.G.RESISTOR 47k 1/16WR565 NRSA63D-113X M.G.RESISTOR 11k 1/16WR567 NRSA63D-183X M.G.RESISTOR 18k 1/16W

R568 NRSA63D-183X M.G.RESISTOR 18k 1/16WR569 NRSA63D-183X M.G.RESISTOR 18k 1/16WR570 NRSA63D-183X M.G.RESISTOR 18k 1/16WR571 NRSA63D-113X M.G.RESISTOR 11k 1/16WR573 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR574 NRSA63D-394X M.G.RESISTOR 390k 1/16W (U)

NRSA63J-394X M.G.RESISTOR 390k 1/16W (E)R575 NRSA63D-122X M.G.RESISTOR 1.2k 1/16WR576 NRSA63D-224X M.G.RESISTOR 220k 1/16WR577 NRSA63D-332X M.G.RESISTOR 3.3k 1/16WR578 NRSA63D-183X M.G.RESISTOR 18k 1/16W

R579 NRSA63D-363X M.G.RESISTOR 36k 1/16WR580 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR581 NRSA63D-103X M.G.RESISTOR 10k 1/16WR582 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR583 NRSA63D-823X M.G.RESISTOR 82k 1/16WR584 NRSA63D-183X M.G.RESISTOR 18k 1/16WR585 NRSA63D-363X M.G.RESISTOR 36k 1/16WR586 NRSA63D-184X M.G.RESISTOR 180k 1/16W (U)

NRSA63D-224X M.G.RESISTOR 220k 1/16W (E)R587 NRSA63D-104X M.G.RESISTOR 100k 1/16WR588 NRSA63D-104X M.G.RESISTOR 100k 1/16W

R589 NRSA63D-102X M.G.RESISTOR 1k 1/16WR590 NRSA63D-821X M.G.RESISTOR 820 1/16WR591 NRSA63D-821X M.G.RESISTOR 820 1/16WR592 NRSA63D-562X M.G.RESISTOR 5.6k 1/16WR593 NRSA63D-752X M.G.RESISTOR 7.5k 1/16WR594 NRSA63D-393X M.G.RESISTOR 39k 1/16WR596 NRSA63D-752X M.G.RESISTOR 7.5k 1/16WR597 NRSA63D-154X M.G.RESISTOR 150k 1/16WR598 NRSA63D-102X M.G.RESISTOR 1k 1/16WR599 NRSA63D-101X M.G.RESISTOR 100 1/16W

R631 NRSA63D-102X M.G.RESISTOR 1k 1/16WR632 NRSA63D-331X M.G.RESISTOR 330 1/16WR633 NRSA63D-331X M.G.RESISTOR 330 1/16WR634 NRSA63D-331X M.G.RESISTOR 330 1/16WR635 NRSA63D-102X M.G.RESISTOR 1k 1/16WR636 NRSA63D-102X M.G.RESISTOR 1k 1/16WR637 NRSA63D-102X M.G.RESISTOR 1k 1/16WR638 NRSA63D-102X M.G.RESISTOR 1k 1/16WR641 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR642 NRSA63D-471X M.G.RESISTOR 470 1/16W

R643 NRSA63D-101X M.G.RESISTOR 100 1/16WR644 NRSA63D-681X M.G.RESISTOR 680 1/16WR645 NRSA63D-102X M.G.RESISTOR 1k 1/16WR646 NRSA63D-102X M.G.RESISTOR 1k 1/16WR647 NRSA63D-112X M.G.RESISTOR 1.1k 1/16WR648 NRSA63D-221X M.G.RESISTOR 220 1/16WR649 NRSA63D-121X M.G.RESISTOR 120 1/16W

6-14



R650 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR657 NRSA63D-911X M.G.RESISTOR 910 1/16WR658 NRSA63D-103X M.G.RESISTOR 10k 1/16W

R661 NRSA63D-473X M.G.RESISTOR 47k 1/16WR662 NRSA63D-473X M.G.RESISTOR 47k 1/16WR663 NRSA63D-102X M.G.RESISTOR 1k 1/16WR664 NRSA63D-473X M.G.RESISTOR 47k 1/16WR665 NRSA63D-113X M.G.RESISTOR 11k 1/16WR666 NRSA63D-183X M.G.RESISTOR 18k 1/16WR667 NRSA63D-183X M.G.RESISTOR 18k 1/16WR668 NRSA63D-183X M.G.RESISTOR 18k 1/16WR669 NRSA63D-123X M.G.RESISTOR 12k 1/16WR670 NRSA63D-123X M.G.RESISTOR 12k 1/16W

R671 NRSA63D-113X M.G.RESISTOR 11k 1/16WR678 NRSA63D-102X M.G.RESISTOR 1k 1/16WR684 NRSA63D-183X M.G.RESISTOR 18k 1/16WR685 NRSA63D-363X M.G.RESISTOR 36k 1/16WR686 NRSA63D-184X M.G.RESISTOR 180k 1/16W (U)

NRSA63D-224X M.G.RESISTOR 220k 1/16W (E)R687 NRSA63D-104X M.G.RESISTOR 100k 1/16WR688 NRSA63D-104X M.G.RESISTOR 100k 1/16WR689 NRSA63D-102X M.G.RESISTOR 1k 1/16WR690 NRSA63D-821X M.G.RESISTOR 820 1/16WR691 NRSA63D-821X M.G.RESISTOR 820 1/16W

R692 NRSA63D-562X M.G.RESISTOR 5.6k 1/16WR693 NRSA63D-752X M.G.RESISTOR 7.5k 1/16WR694 NRSA63D-183X M.G.RESISTOR 18k 1/16WR695 NRSA63D-183X M.G.RESISTOR 18k 1/16WR696 NRSA63D-103X M.G.RESISTOR 10k 1/16WR697 NRSA63D-103X M.G.RESISTOR 10k 1/16WR698 NRSA63D-102X M.G.RESISTOR 1k 1/16WR699 NRSA63D-101X M.G.RESISTOR 100 1/16WR901 NRSA63D-223X M.G.RESISTOR 22k 1/16WR902 NRSA63D-223X M.G.RESISTOR 22k 1/16W

R903 NRSA63D-223X M.G.RESISTOR 22k 1/16WR904 NRSA63D-223X M.G.RESISTOR 22k 1/16WR905 NRSA63D-223X M.G.RESISTOR 22k 1/16WR906 NRSA63D-223X M.G.RESISTOR 22k 1/16WR907 NRSA63D-223X M.G.RESISTOR 22k 1/16WR908 NRSA63D-223X M.G.RESISTOR 22k 1/16WR909 NRSA63D-223X M.G.RESISTOR 22k 1/16WR910 NRSA63D-223X M.G.RESISTOR 22k 1/16WR911 NRSA63D-223X M.G.RESISTOR 22k 1/16WR912 NRSA63D-332X M.G.RESISTOR 3.3k 1/16W

R913 NRSA63D-102X M.G.RESISTOR 1k 1/16WR914 NRSA63D-102X M.G.RESISTOR 1k 1/16WR915 NRSA63J-105X M.G.RESISTOR 1M 1/16WR916 NRSA63D-103X M.G.RESISTOR 10k 1/16WR917 NRSA63D-103X M.G.RESISTOR 10k 1/16WR918 NRSA63D-103X M.G.RESISTOR 10k 1/16WR919 NRSA63D-103X M.G.RESISTOR 10k 1/16WR920 NRSA63D-223X M.G.RESISTOR 22k 1/16WR921 NRSA63D-103X M.G.RESISTOR 10k 1/16WR922 NRSA63D-103X M.G.RESISTOR 10k 1/16W

R923 NRSA63D-101X M.G.RESISTOR 100 1/16WR924 NRSA63D-101X M.G.RESISTOR 100 1/16WR925 NRSA63D-101X M.G.RESISTOR 100 1/16WR926 NRSA63D-101X M.G.RESISTOR 100 1/16WR927 NRSA63D-101X M.G.RESISTOR 100 1/16WR928 NRSA63D-101X M.G.RESISTOR 100 1/16WR929 NRSA63D-223X M.G.RESISTOR 22k 1/16WR930 NRSA63D-223X M.G.RESISTOR 22k 1/16WR931 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR932 NRSA63D-622X M.G.RESISTOR 6.2k 1/16W

R933 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR934 NRSA63D-622X M.G.RESISTOR 6.2k 1/16WR935 NRSA63D-101X M.G.RESISTOR 100 1/16WR936 NRSA63D-101X M.G.RESISTOR 100 1/16WR937 NRSA63D-101X M.G.RESISTOR 100 1/16WR938 NRSA63D-101X M.G.RESISTOR 100 1/16WR939 NRSA63D-101X M.G.RESISTOR 100 1/16WR940 NRSA63D-101X M.G.RESISTOR 100 1/16WR941 NRSA63D-101X M.G.RESISTOR 100 1/16W

R942 NRSA63D-101X M.G.RESISTOR 100 1/16W

R943 NRSA63D-101X M.G.RESISTOR 100 1/16WR944 NRSA63D-101X M.G.RESISTOR 100 1/16WR945 NRSA63D-101X M.G.RESISTOR 100 1/16WR946 NRSA63D-101X M.G.RESISTOR 100 1/16WR947 NRSA63D-563X M.G.RESISTOR 56k 1/16WR948 NRSA63D-154X M.G.RESISTOR 150k 1/16WR949 NRSA63D-334X M.G.RESISTOR 330k 1/16WR1909 NRSA63D-101X M.G.RESISTOR 100 1/16WR1910 NRSA63D-101X M.G.RESISTOR 100 1/16WR1912 NRSA63D-101X M.G.RESISTOR 100 1/16W

R1913 NRSA63D-101X M.G.RESISTOR 100 1/16WR1914 NRSA63D-101X M.G.RESISTOR 100 1/16WR1915 NRSA63D-101X M.G.RESISTOR 100 1/16WR1916 NRSA63D-101X M.G.RESISTOR 100 1/16WR1917 NRSA63D-101X M.G.RESISTOR 100 1/16WR1918 NRSA63D-101X M.G.RESISTOR 100 1/16WR1919 NRSA63D-101X M.G.RESISTOR 100 1/16WR1920 NRSA63D-101X M.G.RESISTOR 100 1/16WR1921 NRSA63D-101X M.G.RESISTOR 100 1/16WR1922 NRSA63D-101X M.G.RESISTOR 100 1/16W


R1934 NRSA63D-101X M.G.RESISTOR 100 1/16WR1935 NRSA63D-101X M.G.RESISTOR 100 1/16WR1936 NRSA63D-101X M.G.RESISTOR 100 1/16WR1938 NRSA63D-223X M.G.RESISTOR 22k 1/16WR1939 NRSA63D-223X M.G.RESISTOR 22k 1/16WR1940 NRSA63D-223X M.G.RESISTOR 22k 1/16WR1941 NRSA63D-223X M.G.RESISTOR 22k 1/16WR1942 NRSA63D-223X M.G.RESISTOR 22k 1/16WR1943 NRSA63D-223X M.G.RESISTOR 22k 1/16W

C61 NCB31CK-473X CER.CAPACITOR 0.047 16VC62 NBE41CM-106X TAN.CAPACITOR 10 16VC63 NCB31CK-473X CER.CAPACITOR 0.047 16VC64 NBE41CM-106X TAN.CAPACITOR 10 16VC65 NCB31CK-473X CER.CAPACITOR 0.047 16VC66 NCB31CK-473X CER.CAPACITOR 0.047 16VC67 NCB31CK-473X CER.CAPACITOR 0.047 16VC68 NCB31CK-473X CER.CAPACITOR 0.047 16VC69 NDC31HJ-270X CER.CAPACITOR 27p 50VC431 NDC31HJ-5R0X CER.CAPACITOR 5p 50V

C432 NDC31HJ-100X CER.CAPACITOR 10p 50VC433 NDC31HJ-5R0X CER.CAPACITOR 5p 50VC434 NDC31HJ-330X CER.CAPACITOR 33p 50VC435 NDC31HJ-220X CER.CAPACITOR 22p 50VC436 NDC31HJ-220X CER.CAPACITOR 22p 50VC437 NDC31HJ-470X CER.CAPACITOR 47p 50VC438 NDC31HJ-470X CER.CAPACITOR 47p 50VC439 NDC31HJ-121X CER.CAPACITOR 120p 50VC451 NCB31EK-472X CER.CAPACITOR 4700p 25VC452 NCB21HK-472X CER.CAPACITOR 4700p 50V

C453 NCB31CK-473X CER.CAPACITOR 0.047 16VC454 NCB21AK-105X CER.CAPACITOR 1 10VC456 NCB31CK-473X CER.CAPACITOR 0.047 16VC461 NCB31CK-473X CER.CAPACITOR 0.047 16VC462 NCB31CK-473X CER.CAPACITOR 0.047 16VC463 NCB31CK-473X CER.CAPACITOR 0.047 16VC464 NCB31CK-473X CER.CAPACITOR 0.047 16VC465 NCB31CK-473X CER.CAPACITOR 0.047 16VC466 NCB31CK-473X CER.CAPACITOR 0.047 16VC475 NDC31HJ-5R0X CER.CAPACITOR 5p 50V

C531 NDC31HJ-7R0X CER.CAPACITOR 7p 50V

[CAM1]

6-15



C532 NDC31HJ-150X CER.CAPACITOR 15p 50VC533 NDC31HJ-150X CER.CAPACITOR 15p 50VC534 NDC31HJ-7R0X CER.CAPACITOR 7p 50VC535 NDC31HJ-220X CER.CAPACITOR 22p 50VC536 NDC31HJ-220X CER.CAPACITOR 22p 50VC537 NDC31HJ-470X CER.CAPACITOR 47p 50VC538 NDC31HJ-470X CER.CAPACITOR 47p 50VC539 NDC31HJ-121X CER.CAPACITOR 120p 50VC540 NDC31HJ-150X CER.CAPACITOR 15p 50V

C541 NDC31HJ-270X CER.CAPACITOR 27p 50VC551 NCB31EK-472X CER.CAPACITOR 4700p 25VC552 NCB21HK-472X CER.CAPACITOR 4700p 50VC553 NCB31CK-473X CER.CAPACITOR 0.047 16VC554 NCB21AK-105X CER.CAPACITOR 1 10VC556 NCB31CK-473X CER.CAPACITOR 0.047 16VC557 NDC31HJ-470X CER.CAPACITOR 47p 50VC558 NDC31HJ-470X CER.CAPACITOR 47p 50VC561 NCB31CK-473X CER.CAPACITOR 0.047 16VC562 NCB31CK-473X CER.CAPACITOR 0.047 16V

C563 NCB31CK-473X CER.CAPACITOR 0.047 16VC564 NCB31CK-473X CER.CAPACITOR 0.047 16VC565 NCB31CK-473X CER.CAPACITOR 0.047 16VC566 NCB31CK-473X CER.CAPACITOR 0.047 16VC567 NDC31HJ-220X CER.CAPACITOR 22p 50VC568 NBE21AM-106X TAN.CAPACITOR 10 10VC569 NCB31CK-473X CER.CAPACITOR 0.047 16VC570 NBE21AM-106X TAN.CAPACITOR 10 10VC571 NBSH1AM-227X TAN.CAPACITOR 220 10VC572 NBSH1AM-227X TAN.CAPACITOR 220 10V

C573 NBSG1CM-476X TAN.CAPACITOR 47 16VC574 NBE21AM-106X TAN.CAPACITOR 10 10VC575 NDC31HJ-5R0X CER.CAPACITOR 5p 50VC576 NBE21AM-106X TAN.CAPACITOR 10 10VC631 NDC31HJ-5R0X CER.CAPACITOR 5p 50VC632 NDC31HJ-100X CER.CAPACITOR 10p 50VC633 NDC31HJ-5R0X CER.CAPACITOR 5p 50VC634 NDC31HJ-330X CER.CAPACITOR 33p 50VC635 NDC31HJ-220X CER.CAPACITOR 22p 50VC636 NDC31HJ-220X CER.CAPACITOR 22p 50V

C637 NDC31HJ-470X CER.CAPACITOR 47p 50VC638 NDC31HJ-470X CER.CAPACITOR 47p 50VC639 NDC31HJ-121X CER.CAPACITOR 120p 50VC651 NCB31EK-472X CER.CAPACITOR 4700p 25VC652 NCB21HK-472X CER.CAPACITOR 4700p 50VC653 NCB31CK-473X CER.CAPACITOR 0.047 16VC654 NCB21AK-105X CER.CAPACITOR 1 10VC656 NCB31CK-473X CER.CAPACITOR 0.047 16VC661 NCB31CK-473X CER.CAPACITOR 0.047 16VC662 NCB31CK-473X CER.CAPACITOR 0.047 16V

C663 NCB31CK-473X CER.CAPACITOR 0.047 16VC664 NCB31CK-473X CER.CAPACITOR 0.047 16VC665 NCB31CK-473X CER.CAPACITOR 0.047 16VC666 NCB31CK-473X CER.CAPACITOR 0.047 16VC675 NDC31HJ-5R0X CER.CAPACITOR 5p 50VC901 NCB31CK-473X CER.CAPACITOR 0.047 16VC902 NCB31CK-473X CER.CAPACITOR 0.047 16VC903 NCB31CK-473X CER.CAPACITOR 0.047 16VC904 NCB31CK-473X CER.CAPACITOR 0.047 16VC905 NCB31CK-473X CER.CAPACITOR 0.047 16V

C906 NCB31CK-473X CER.CAPACITOR 0.047 16VC907 NCB31CK-473X CER.CAPACITOR 0.047 16VC908 NCB31CK-473X CER.CAPACITOR 0.047 16VC909 NCB31CK-473X CER.CAPACITOR 0.047 16VC910 NCB31CK-473X CER.CAPACITOR 0.047 16VC911 NCB31CK-473X CER.CAPACITOR 0.047 16VC912 NCB31CK-473X CER.CAPACITOR 0.047 16VC913 NBSH1AM-227X TAN.CAPACITOR 220 10VC914 NBSH1AM-227X TAN.CAPACITOR 220 10VC915 NDC31HJ-180X CER.CAPACITOR 18p 50V

C916 NCB31CK-473X CER.CAPACITOR 0.047 16VC917 NBE21CM-475X TAN.CAPACITOR 4.7 16VC918 NCB31CK-473X CER.CAPACITOR 0.047 16VC919 NCB31CK-473X CER.CAPACITOR 0.047 16V

C922 NBE21CM-475X TAN.CAPACITOR 4.7 16V

L401 NQL054J-3R3X COIL 3.3uHL402 NQL054K-100X COIL 10uHL403 NQL054K-100X COIL 10uHL404 NQL054K-330X COIL 33uHL405 NQL054K-100X COIL 10uHL406 NQL054K-100X COIL 10uHL407 NQL054K-1R0X COIL 1uHL501 NQL054K-120X COIL 12uHL502 NQL054K-150X COIL 15uHL503 NQL054K-150X COIL 15uH

L504 NQL054K-330X COIL 33uHL505 NQL054K-100X COIL 10uHL506 NQL054K-100X COIL 10uHL507 NQL054K-1R0X COIL 1uHL508 NQL054K-120X COIL 12uHL509 NQL054K-4R7X COIL 4.7uHL601 NQL054J-3R3X COIL 3.3uHL602 NQL054K-100X COIL 10uHL603 NQL054K-100X COIL 10uHL604 NQL054K-330X COIL 33uH

L605 NQL054K-100X COIL 10uHL606 NQL054K-100X COIL 10uHL607 NQL054K-1R0X COIL 1uH


X901 NAX0061-001X CRYSTAL 4MHz

CN14 QGF0508F1-24X CONNECTOR 24PINCN21 QGF0508F1-50X CONNECTOR 50PINCN23 QGF0508F1-30X CONNECTOR 30PINCN24 QGB0805K1-40X CONNECTOR 40PINCN45 QGA1201F2-15X CONNECTOR 15PINCN46 QGA1201F2-03X CONNECTOR 3PINCN101 QGA1201F2-04X CONNECTOR 4PIN

K61 SCV2732-1HS601 FERRITE BEADSK901 SCV2732-1LL680 FERRITE BEADSK902 SCV2732-1LL680 FERRITE BEADSK903 SCV2732-1LL680 FERRITE BEADSK904 SCV2732-1LL680 FERRITE BEADSK905 SCV2732-1LL680 FERRITE BEADSK906 SCV2732-1LL680 FERRITE BEADSK907 SCV2732-1LL680 FERRITE BEADSK908 SCV2732-1LL680 FERRITE BEADSK909 SCV2732-1LL680 FERRITE BEADS

K910 SCV2732-1LL680 FERRITE BEADSK911 SCV2732-1LL680 FERRITE BEADSK912 SCV2732-1LL680 FERRITE BEADSK913 SCV2732-1LL680 FERRITE BEADSK914 SCV2732-1LL680 FERRITE BEADSK915 SCV2732-1LL680 FERRITE BEADSK916 SCV2732-1LL680 FERRITE BEADSK917 SCV2732-1LL680 FERRITE BEADSK918 SCV2732-1LL680 FERRITE BEADSK919 SCV2732-1LL680 FERRITE BEADS

K920 SCV2732-1LL680 FERRITE BEADSK921 SCV2732-1LL680 FERRITE BEADSK922 SCV2732-1LL680 FERRITE BEADSK923 SCV2732-1LL680 FERRITE BEADSK924 SCV2732-1LL680 FERRITE BEADSK925 SCV2732-1LL680 FERRITE BEADSK926 SCV2732-1LL680 FERRITE BEADSK927 SCV2732-1LL680 FERRITE BEADSK928 SCV2732-1LL680 FERRITE BEADSK929 SCV2732-1LL680 FERRITE BEADS

6-16



6.11 CAM2 BOARD ASSEMBLY PARTS LIST 16SCK2605-02-N0B(U)

SCK2605-02-P0B(E) 16``````

IC101 LM1881M-X I.C.(M) NATIONAL SEMICOIC102 XC95144X10T-002 I.C.(M) XILINXIC103 TC74VHCT541AFTX I.C.(M) TOSHIBAIC104 TC74VHC574FT-X I.C.(M) TOSHIBAIC105 M62353GP-X I.C.(M) MITSUBISHIIC106 TC7SU04FU-X I.C.(M) TOSHIBAIC107 TC7SU04FU-X I.C.(M) TOSHIBAIC108 UPC812G2-X I.C.(M) NECIC109 TC74HC4538AFS-X I.C.(M) TOSHIBAIC112 TC7SH00FU-X I.C.(M) TOSHIBA

IC113 TC4W53FU-X I.C.(M) TOSHIBAIC114 TC7WT241FU-X I.C.(M) TOSHIBAIC115 LMC6082IM-X I.C.(M) NATIONAL SEMICOIC116 NJM062V-X I.C.(M) JRCIC117 TC7SH08FU-X I.C.(M) TOSHIBAIC118 TC7SH00FU-X I.C.(M) TOSHIBAIC119 TC7WT241FU-X I.C.(M) TOSHIBAIC417 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC423 LMC6082IM-X I.C.(M) NATIONAL SEMICOIC481 ADS933Y-X I.C.(M) BURR BROWN

IC517 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC581 ADS933Y-X I.C.(M) BURR BROWNIC617 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC623 LMC6082IM-X I.C.(M) NATIONAL SEMICOIC681 ADS933Y-X I.C.(M) BURR BROWNIC691 REF1004C-2.5-X I.C.(M)IC692 LMC6082IM-X I.C.(M) NATIONAL SEMICOIC693 LMC6082IM-X I.C.(M) NATIONAL SEMICOIC701 NJM2068M-D-X I.C.(M) JRCIC702 TC7SH00FU-X I.C.(M) TOSHIBA

IC750 BU4094BCFV-X I.C.(M) ROHMIC801 JCS0050 I.C.(M) JVCIC811 ADV7171KS I.C.(M) ANALOG DEVICESIC821 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC823 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC824 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC825 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC826 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC827 CLC450AJM5-X I.C.(M) NATIONAL SEMICOIC828 TC74VHC574FT-X I.C.(M) TOSHIBA

IC829 TC74VHC574FT-X I.C.(M) TOSHIBAIC830 SN74LV125APW-X I.C.(M) TEXASIC832 LP2986IMM-X I.C.(M) NATIONAL SEMICOIC833 TC7SH08FU-X I.C.(M) TOSHIBAIC900 TC7SH00FU-X I.C.(M) TOSHIBAIC901 TC74VHC157FT-X I.C.(M) TOSHIBAIC902 UPD6461GS-913 I.C.(M) NECIC907 SN74LV08APW-X I.C.(M) TEXASIC908 TC7SH32FU-X I.C.(M) TOSHIBAIC909 AD8031ART-X I.C.(M) ANALOG DEVICES

IC910 TC4W53FU-X I.C.(M) TOSHIBAIC911 TC7SH00FU-X I.C.(M) TOSHIBAIC912 AD8031ART-X I.C.(M) ANALOG DEVICESIC913 TC4W53FU-X I.C.(M) TOSHIBA

Q101 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ601 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ602 2SA1790/BC/-X TRANSISTOR MATSUSHITAQ701 2SB1463/RST/-X TRANSISTOR MATSUSHITAQ702 2SD2240/RST/-X TRANSISTOR MATSUSHITAQ703 2SD2240/RST/-X TRANSISTOR MATSUSHITAQ903 2SA1790/BC/-X TRANSISTOR MATSUSHITAQ904 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ905 2SA1790/BC/-X TRANSISTOR MATSUSHITAQ906 2SC4626/BC/-X TRANSISTOR MATSUSHITA

Q907 DTA124EUA-X TRANSISTOR ROHMQ909 DTA124EUA-X TRANSISTOR ROHMQ910 DTA124EUA-X TRANSISTOR ROHMQ911 2SC4626/BC/-X TRANSISTOR MATSUSHITA

D701 MA143A-X DIODE MATSUSHITAD702 MA143A-X DIODE MATSUSHITA

D750 MA143A-X DIODE MATSUSHITAD751 MA143A-X DIODE MATSUSHITAD752 MA111-X DIODE MATSUSHITAD901 HZM6C-X ZENER DIODE HITACHID903 MA143A-X DIODE MATSUSHITAD904 MA143A-X DIODE MATSUSHITAD905 MA143A-X DIODE MATSUSHITAD906 MA143A-X DIODE MATSUSHITA

R102 NRSA63D-104X M.G.RESISTOR 100k 1/16WR103 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR104 NRSA63D-122X M.G.RESISTOR 1.2k 1/16WR105 NRSA63D-684X M.G.RESISTOR 680k 1/16WR106 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R114 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR115 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (U)R116 NRSA63D-101X M.G.RESISTOR 100 1/16WR117 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR118 NRSA63D-101X M.G.RESISTOR 100 1/16W

R119 NRSA63D-101X M.G.RESISTOR 100 1/16WR120 NRSA63D-101X M.G.RESISTOR 100 1/16WR122 NRSA63D-101X M.G.RESISTOR 100 1/16WR126 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR129 NRSA63D-104X M.G.RESISTOR 100k 1/16WR130 NRSA63D-221X M.G.RESISTOR 220 1/16WR131 NRSA63D-104X M.G.RESISTOR 100k 1/16WR132 NRSA63D-104X M.G.RESISTOR 100k 1/16WR133 NRSA63D-104X M.G.RESISTOR 100k 1/16WR134 NRSA63D-224X M.G.RESISTOR 220k 1/16W

R135 NRSA63D-100X M.G.RESISTOR 10 1/16WR138 NRSA63D-823X M.G.RESISTOR 82k 1/16WR139 NRSA63D-563X M.G.RESISTOR 56k 1/16WR140 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR141 NRSA63D-333X M.G.RESISTOR 33k 1/16WR142 NRSA63D-562X M.G.RESISTOR 5.6k 1/16WR143 NRSA63D-103X M.G.RESISTOR 10k 1/16WR144 NRSA63D-224X M.G.RESISTOR 220k 1/16WR145 NRSA63D-104X M.G.RESISTOR 100k 1/16WR146 NRSA63D-122X M.G.RESISTOR 1.2k 1/16W

R147 NRSA63D-102X M.G.RESISTOR 1k 1/16WR148 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR149 NRSA63D-183X M.G.RESISTOR 18k 1/16WR150 NRSA63D-822X M.G.RESISTOR 8.2k 1/16WR151 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR152 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR153 NDC31HJ-680X CER.CAPACITOR 68 50VR157 NRSA63D-100X M.G.RESISTOR 10 1/16WR158 NRSA63D-100X M.G.RESISTOR 10 1/16WR159 NRSA63D-100X M.G.RESISTOR 10 1/16W

R160 NRSA63D-100X M.G.RESISTOR 10 1/16WR161 NRSA63D-100X M.G.RESISTOR 10 1/16WR162 NRSA63D-103X M.G.RESISTOR 10k 1/16WR163 NRSA63D-154X M.G.RESISTOR 150k 1/16WR164 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR165 NRSA63D-103X M.G.RESISTOR 10k 1/16WR166 NRSA63D-100X M.G.RESISTOR 10 1/16WR167 NRSA63D-331X M.G.RESISTOR 330 1/16WR168 NRSA63D-471X M.G.RESISTOR 470 1/16WR169 NRSA63D-471X M.G.RESISTOR 470 1/16W

R170 NRSA63D-101X M.G.RESISTOR 100 1/16WR190 NRSA63D-100X M.G.RESISTOR 10 1/16WR191 NRSA63D-100X M.G.RESISTOR 10 1/16WR211 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR212 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR213 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR215 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR451 NRSA63D-563X M.G.RESISTOR 56k 1/16WR452 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR453 NRSA63D-561X M.G.RESISTOR 560 1/16W

R454 NRSA63D-102X M.G.RESISTOR 1k 1/16WR455 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR472 NRSA63J-105X M.G.RESISTOR 1M 1/16WR473 NRSA63J-105X M.G.RESISTOR 1M 1/16W

6-17



R474 NRSA63D-333X M.G.RESISTOR 33k 1/16WR475 NRSA63D-103X M.G.RESISTOR 10k 1/16WR477 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR478 NRSA63D-333X M.G.RESISTOR 33k 1/16WR481 NRSA63D-101X M.G.RESISTOR 100 1/16WR551 NRSA63D-563X M.G.RESISTOR 56k 1/16W

R552 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR553 NRSA63D-561X M.G.RESISTOR 560 1/16WR554 NRSA63D-102X M.G.RESISTOR 1k 1/16WR555 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR572 NRSA63J-105X M.G.RESISTOR 1M 1/16WR573 NRSA63J-105X M.G.RESISTOR 1M 1/16WR574 NRSA63D-333X M.G.RESISTOR 33k 1/16WR576 NRSA63D-103X M.G.RESISTOR 10k 1/16WR577 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR578 NRSA63D-333X M.G.RESISTOR 33k 1/16W

R581 NRSA63D-101X M.G.RESISTOR 100 1/16WR651 NRSA63D-563X M.G.RESISTOR 56k 1/16WR652 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR653 NRSA63D-561X M.G.RESISTOR 560 1/16WR654 NRSA63D-102X M.G.RESISTOR 1k 1/16WR655 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR672 NRSA63J-105X M.G.RESISTOR 1M 1/16WR673 NRSA63J-105X M.G.RESISTOR 1M 1/16WR674 NRSA63D-333X M.G.RESISTOR 33k 1/16WR676 NRSA63D-103X M.G.RESISTOR 10k 1/16W

R677 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR678 NRSA63D-333X M.G.RESISTOR 33k 1/16WR681 NRSA63D-101X M.G.RESISTOR 100 1/16WR682 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR683 NRSA63D-103X M.G.RESISTOR 10k 1/16WR684 NRSA63D-103X M.G.RESISTOR 10k 1/16WR685 NRSA63D-183X M.G.RESISTOR 18k 1/16WR686 NRSA63D-822X M.G.RESISTOR 8.2k 1/16WR687 NRSA63D-102X M.G.RESISTOR 1k 1/16WR688 NRSA63D-332X M.G.RESISTOR 3.3k 1/16W

R689 NRSA63D-153X M.G.RESISTOR 15k 1/16WR690 NRSA63D-100X M.G.RESISTOR 10 1/16WR691 NRSA63D-102X M.G.RESISTOR 1k 1/16WR692 NRSA63D-152X M.G.RESISTOR 1.5k 1/16WR693 NRSA63D-182X M.G.RESISTOR 1.8k 1/16WR694 NRSA63D-100X M.G.RESISTOR 10 1/16WR695 NRSA63D-102X M.G.RESISTOR 1k 1/16WR696 NRSA63D-183X M.G.RESISTOR 18k 1/16WR697 NRSA63D-183X M.G.RESISTOR 18k 1/16WR698 NRSA63D-100X M.G.RESISTOR 10 1/16W

R699 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR700 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR701 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR702 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR703 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR704 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR706 NRSA63D-750X M.G.RESISTOR 75 1/16WR707 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR708 NRSA63D-104X M.G.RESISTOR 100k 1/16WR709 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R711 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR712 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR713 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR714 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR716 NRSA63D-680X M.G.RESISTOR 68 1/16WR717 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR718 NRSA63D-104X M.G.RESISTOR 100k 1/16WR719 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR721 NRSA63J-105X M.G.RESISTOR 1M 1/16WR722 NRSA63D-274X M.G.RESISTOR 270k 1/16W

R723 NRSA63D-274X M.G.RESISTOR 270k 1/16WR724 NRSA63D-473X M.G.RESISTOR 47k 1/16WR725 NRSA63D-473X M.G.RESISTOR 47k 1/16WR726 NRSA63D-273X M.G.RESISTOR 27k 1/16WR727 NRSA63D-102X M.G.RESISTOR 1k 1/16WR728 NRSA63D-102X M.G.RESISTOR 1k 1/16WR729 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R730 NRSA63D-101X M.G.RESISTOR 100 1/16WR750 NRSA63D-224X M.G.RESISTOR 220k 1/16WR751 NRSA63D-104X M.G.RESISTOR 100k 1/16W

R752 NRSA63D-273X M.G.RESISTOR 27k 1/16WR753 NRSA63D-473X M.G.RESISTOR 47k 1/16WR754 NRSA63D-102X M.G.RESISTOR 1k 1/16WR755 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR801 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR802 NRSA63D-103X M.G.RESISTOR 10k 1/16WR803 NRSA63D-223X M.G.RESISTOR 22k 1/16WR804 NRSA63D-223X M.G.RESISTOR 22k 1/16WR805 NRSA63D-223X M.G.RESISTOR 22k 1/16WR806 NRSA63D-223X M.G.RESISTOR 22k 1/16W

R807 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR809 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR810 NRSA63D-104X M.G.RESISTOR 100k 1/16WR811 NRSA63D-301X M.G.RESISTOR 300 1/16WR813 NRSA63D-101X M.G.RESISTOR 100 1/16WR814 NRSA63D-102X M.G.RESISTOR 1k 1/16WR815 NRSA63D-104X M.G.RESISTOR 100k 1/16WR818 NRSA63D-100X M.G.RESISTOR 10 1/16WR819 NRSA63D-100X M.G.RESISTOR 10 1/16WR820 NRSA63D-151X M.G.RESISTOR 150 1/16W

R821 NRSA63D-151X M.G.RESISTOR 150 1/16WR822 NRSA63D-151X M.G.RESISTOR 150 1/16WR823 NRSA63D-151X M.G.RESISTOR 150 1/16WR824 NRSA63D-104X M.G.RESISTOR 100k 1/16WR825 NRSA63D-100X M.G.RESISTOR 10 1/16W (U)R826 NRSA63D-101X M.G.RESISTOR 100 1/16WR827 NRSA63D-101X M.G.RESISTOR 100 1/16WR828 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR829 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR830 NRSA63D-561X M.G.RESISTOR 560 1/16W

R831 NRSA63D-102X M.G.RESISTOR 1k 1/16WR832 NRSA63D-102X M.G.RESISTOR 1k 1/16WR833 NRSA63D-102X M.G.RESISTOR 1k 1/16WR839 NRSA63D-750X M.G.RESISTOR 75 1/16WR841 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR842 NRSA63D-183X M.G.RESISTOR 18k 1/16W (U)

NRSA63D-103X M.G.RESISTOR 10k 1/16W (E)R843 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR844 NRSA63D-102X M.G.RESISTOR 1k 1/16WR845 NRSA63D-100X M.G.RESISTOR 10 1/16WR846 NRSA63D-183X M.G.RESISTOR 18k 1/16W (U)

NRSA63D-103X M.G.RESISTOR 10k 1/16W (E)

R847 NRSA63D-102X M.G.RESISTOR 1k 1/16WR848 NRSA63D-102X M.G.RESISTOR 1k 1/16WR849 NRSA63D-102X M.G.RESISTOR 1k 1/16WR850 NRSA63D-183X M.G.RESISTOR 18k 1/16W (U)

NRSA63D-333X M.G.RESISTOR 33k 1/16W (E)R851 NRSA63D-752X M.G.RESISTOR 7.5k 1/16W (U)

NRSA63D-682X M.G.RESISTOR 6.8k 1/16W (E)R852 NRSA63D-103X M.G.RESISTOR 10k 1/16W (U)

NRSA63D-123X M.G.RESISTOR 12k 1/16W (E)R853 NRSA63D-273X M.G.RESISTOR 27k 1/16WR854 NRSA63D-102X M.G.RESISTOR 1k 1/16WR855 NRSA63D-100X M.G.RESISTOR 10 1/16WR856 NRSA63D-821X M.G.RESISTOR 820 1/16W

R857 NRSA63D-102X M.G.RESISTOR 1k 1/16WR858 NRSA63D-102X M.G.RESISTOR 1k 1/16WR859 NRSA63D-102X M.G.RESISTOR 1k 1/16WR860 NRSA63D-912X M.G.RESISTOR 9.1k 1/16WR861 NRSA63D-223X M.G.RESISTOR 22k 1/16WR862 NRSA63D-224X M.G.RESISTOR 220k 1/16WR864 NRSA63D-102X M.G.RESISTOR 1k 1/16WR865 NRSA63D-100X M.G.RESISTOR 10 1/16WR867 NRSA63D-104X M.G.RESISTOR 100k 1/16WR868 NRSA63D-274X M.G.RESISTOR 270k 1/16W

R869 NRSA63D-561X M.G.RESISTOR 560 1/16WR870 NRSA63D-513X M.G.RESISTOR 51k 1/16WR871 NRSA63D-101X M.G.RESISTOR 100 1/16WR872 NRSA63D-104X M.G.RESISTOR 100k 1/16WR873 NRSA63D-334X M.G.RESISTOR 330k 1/16W

6-18



R874 NRSA63D-473X M.G.RESISTOR 47k 1/16WR875 NRSA63D-103X M.G.RESISTOR 10k 1/16WR876 NRSA63D-103X M.G.RESISTOR 10k 1/16WR877 NRSA63D-821X M.G.RESISTOR 820 1/16WR878 NRSA63D-471X M.G.RESISTOR 470 1/16W


R889 NRSA63D-471X M.G.RESISTOR 470 1/16WR890 NRSA63D-471X M.G.RESISTOR 470 1/16WR891 NRSA63D-471X M.G.RESISTOR 470 1/16WR892 NRSA63D-471X M.G.RESISTOR 470 1/16WR893 NRSA63D-471X M.G.RESISTOR 470 1/16WR901 NRSA63D-223X M.G.RESISTOR 22k 1/16WR908 NRSA63D-101X M.G.RESISTOR 100 1/16WR911 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR912 NRSA63D-562X M.G.RESISTOR 5.6k 1/16WR913 NRSA63D-333X M.G.RESISTOR 33k 1/16W

R914 NRSA63D-333X M.G.RESISTOR 33k 1/16WR915 NRSA63D-333X M.G.RESISTOR 33k 1/16WR916 NRSA63D-563X M.G.RESISTOR 56k 1/16WR917 NRSA63D-562X M.G.RESISTOR 5.6k 1/16WR918 NRSA63D-471X M.G.RESISTOR 470 1/16WR919 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR921 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR922 NRSA63D-102X M.G.RESISTOR 1k 1/16WR923 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR924 NRSA63D-223X M.G.RESISTOR 22k 1/16W

R925 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR926 NRSA63D-560X M.G.RESISTOR 56 1/16WR927 NRSA63D-101X M.G.RESISTOR 100 1/16WR929 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR930 NRSA63D-474X M.G.RESISTOR 470k 1/16WR931 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR932 NRSA63D-103X M.G.RESISTOR 10k 1/16WR933 NRSA63D-101X M.G.RESISTOR 100 1/16WR934 NRSA63D-101X M.G.RESISTOR 100 1/16WR935 NRSA63D-101X M.G.RESISTOR 100 1/16W

R937 NRSA63D-562X M.G.RESISTOR 5.6k 1/16WR938 NRSA63D-101X M.G.RESISTOR 100 1/16WR939 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR940 NRSA63D-102X M.G.RESISTOR 1k 1/16WR941 NRSA63D-473X M.G.RESISTOR 47k 1/16WR942 NRSA63D-473X M.G.RESISTOR 47k 1/16WR943 NRSA63D-100X M.G.RESISTOR 10 1/16WR945 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR946 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

VR801 NVP1313-502X TRIM.RESISTOR 5k CHROMA

C101 NCB31CK-104X CER.CAPACITOR 0.1 16VC102 NCB31CK-473X CER.CAPACITOR 0.047 16VC103 NCB31CK-473X CER.CAPACITOR 0.047 16VC104 NCB10JM-335X CER.CAPACITOR 3.3 6.3VC105 NCB10JM-335X CER.CAPACITOR 3.3 6.3VC106 NCB10JM-335X CER.CAPACITOR 3.3 6.3VC107 NCB10JM-335X CER.CAPACITOR 3.3 6.3VC108 NCB31CK-473X CER.CAPACITOR 0.047 16VC109 NCB31CK-473X CER.CAPACITOR 0.047 16VC110 NCB31CK-473X CER.CAPACITOR 0.047 16V

C111 NCB11CK-105X CER.CAPACITOR 1 16VC112 NCB11CK-105X CER.CAPACITOR 1 16VC113 NCB31CK-473X CER.CAPACITOR 0.047 16VC115 NCB31CK-473X CER.CAPACITOR 0.047 16VC116 NCB31CK-473X CER.CAPACITOR 0.047 16V

C117 NCB31CK-473X CER.CAPACITOR 0.047 16VC120 NCB31CK-473X CER.CAPACITOR 0.047 16VC121 NCB31CK-473X CER.CAPACITOR 0.047 16VC122 NCB31CK-473X CER.CAPACITOR 0.047 16VC123 NCB31CK-473X CER.CAPACITOR 0.047 16V

C124 NDC31HJ-681X CER.CAPACITOR 680p 50VC125 NCB31CK-473X CER.CAPACITOR 0.047 16VC126 NCB31CK-473X CER.CAPACITOR 0.047 16VC127 NCB31CK-473X CER.CAPACITOR 0.047 16VC128 NCB31CK-473X CER.CAPACITOR 0.047 16VC129 NCB31CK-473X CER.CAPACITOR 0.047 16VC130 NBE21EM-105X TAN.CAPACITOR 1 25VC131 NCB31CK-473X CER.CAPACITOR 0.047 16VC132 NCB31CK-473X CER.CAPACITOR 0.047 16VC133 NBE21EM-105X TAN.CAPACITOR 1 25V

C135 NCB31CK-473X CER.CAPACITOR 0.047 16VC136 NCB31CK-473X CER.CAPACITOR 0.047 16VC138 NCB31CK-473X CER.CAPACITOR 0.047 16VC139 NCB31CK-473X CER.CAPACITOR 0.047 16VC140 NCB31CK-473X CER.CAPACITOR 0.047 16VC142 NCB31CK-473X CER.CAPACITOR 0.047 16VC143 NCB31CK-473X CER.CAPACITOR 0.047 16VC144 NBE21EM-105X TAN.CAPACITOR 1 25VC145 NCB11CK-105X CER.CAPACITOR 1 16VC146 SVC341/L/-X VARI CAPA DIODE SANYO

C148 NCB31CK-473X CER.CAPACITOR 0.047 16VC149 NCB31CK-473X CER.CAPACITOR 0.047 16VC182 NCB31CK-473X CER.CAPACITOR 0.047 16VC455 NCB31CK-473X CER.CAPACITOR 0.047 16VC456 NCB11CK-105X CER.CAPACITOR 1 16VC458 NCB31CK-473X CER.CAPACITOR 0.047 16VC459 NCB31CK-473X CER.CAPACITOR 0.047 16VC467 NCB31CK-473X CER.CAPACITOR 0.047 16VC468 NCB31CK-473X CER.CAPACITOR 0.047 16VC469 NBE21CM-475X TAN.CAPACITOR 4.7 16V

C481 NBE21CM-475X TAN.CAPACITOR 4.7 16VC482 NCB31CK-473X CER.CAPACITOR 0.047 16VC483 NCB31CK-473X CER.CAPACITOR 0.047 16VC484 NCB31CK-473X CER.CAPACITOR 0.047 16VC485 NCB31CK-473X CER.CAPACITOR 0.047 16VC486 NCB31CK-473X CER.CAPACITOR 0.047 16VC487 NCB31CK-473X CER.CAPACITOR 0.047 16VC488 NCB31CK-473X CER.CAPACITOR 0.047 16VC489 NDC31HJ-151X CER.CAPACITOR 150p 50VC490 NCB31CK-473X CER.CAPACITOR 0.047 16V

C555 NCB31CK-473X CER.CAPACITOR 0.047 16VC556 NCB11CK-105X CER.CAPACITOR 1 16VC567 NCB31CK-473X CER.CAPACITOR 0.047 16VC568 NCB31CK-473X CER.CAPACITOR 0.047 16VC569 NBE21CM-475X TAN.CAPACITOR 4.7 16VC581 NBE21CM-475X TAN.CAPACITOR 4.7 16VC582 NCB31CK-473X CER.CAPACITOR 0.047 16VC583 NCB31CK-473X CER.CAPACITOR 0.047 16VC584 NCB31CK-473X CER.CAPACITOR 0.047 16VC585 NCB31CK-473X CER.CAPACITOR 0.047 16V

C586 NCB31CK-473X CER.CAPACITOR 0.047 16VC587 NCB31CK-473X CER.CAPACITOR 0.047 16VC588 NCB31CK-473X CER.CAPACITOR 0.047 16VC589 NDC31HJ-151X CER.CAPACITOR 150p 50VC590 NCB31CK-473X CER.CAPACITOR 0.047 16VC655 NCB31CK-473X CER.CAPACITOR 0.047 16VC656 NCB11CK-105X CER.CAPACITOR 1 16VC657 NCB31CK-473X CER.CAPACITOR 0.047 16VC658 NCB31CK-473X CER.CAPACITOR 0.047 16VC667 NCB31CK-473X CER.CAPACITOR 0.047 16V

C668 NCB31CK-473X CER.CAPACITOR 0.047 16VC669 NBE21CM-475X TAN.CAPACITOR 4.7 16VC681 NBE21CM-475X TAN.CAPACITOR 4.7 16VC682 NCB31CK-473X CER.CAPACITOR 0.047 16VC683 NCB31CK-473X CER.CAPACITOR 0.047 16VC684 NCB31CK-473X CER.CAPACITOR 0.047 16VC685 NCB31CK-473X CER.CAPACITOR 0.047 16VC686 NCB31CK-473X CER.CAPACITOR 0.047 16V

[CAM2]

6-19



C687 NCB31CK-473X CER.CAPACITOR 0.047 16VC688 NCB31CK-473X CER.CAPACITOR 0.047 16V

C689 NDC31HJ-151X CER.CAPACITOR 150p 50VC690 NCB31CK-473X CER.CAPACITOR 0.047 16VC692 NBE71CM-476X TAN.CAPACITOR 47 16VC693 NCB31CK-473X CER.CAPACITOR 0.047 16VC694 NCB31CK-473X CER.CAPACITOR 0.047 16VC696 NCB31CK-473X CER.CAPACITOR 0.047 16VC698 NCB31CK-473X CER.CAPACITOR 0.047 16VC701 NEH91HM-335X E.CAPACITOR 3.3 50VC702 NCB31CK-223X CER.CAPACITOR 0.022 16VC703 NDC31HJ-101X CER.CAPACITOR 100p 50V

C704 NEX21AM-106X E.CAPACITOR 10 10VC705 NCB31CK-473X CER.CAPACITOR 0.047 16VC706 NCB31CK-473X CER.CAPACITOR 0.047 16VC707 NEH91HM-335X E.CAPACITOR 3.3 50VC708 NBE21EM-105X TAN.CAPACITOR 1 25VC709 NCB11CK-105X CER.CAPACITOR 1 16VC711 NEH91HM-335X E.CAPACITOR 3.3 50VC713 NDC31HJ-101X CER.CAPACITOR 100p 50VC714 NEX21AM-106X E.CAPACITOR 10 10VC715 NEH91HM-335X E.CAPACITOR 3.3 50V

C716 NEH91HM-335X E.CAPACITOR 3.3 50VC717 NEH91HM-335X E.CAPACITOR 3.3 50VC750 NBE21CM-475X TAN.CAPACITOR 4.7 16VC751 NBQD1AM-686X TAN.CAPACITOR 68 10VC752 NBE21CM-475X TAN.CAPACITOR 4.7 16VC753 NBQD1AM-686X TAN.CAPACITOR 68 10VC754 NBE21CM-475X TAN.CAPACITOR 4.7 16VC755 NBE21EM-105X TAN.CAPACITOR 1 25VC756 NCB31CK-473X CER.CAPACITOR 0.047 16VC758 NBE21CM-475X TAN.CAPACITOR 4.7 16V

C759 NCB11CK-105X CER.CAPACITOR 1 16VC761 NBSH1AM-227X TAN.CAPACITOR 220 10VC762 NCB31CK-473X CER.CAPACITOR 0.047 16VC763 NDC31HJ-101X CER.CAPACITOR 100p 50VC801 NCB31CK-473X CER.CAPACITOR 0.047 16VC802 NCB31CK-473X CER.CAPACITOR 0.047 16VC803 NCB31CK-473X CER.CAPACITOR 0.047 16VC804 NCB10JM-335X CER.CAPACITOR 3.3 6.3VC805 NCB31CK-473X CER.CAPACITOR 0.047 16VC806 NCB31CK-473X CER.CAPACITOR 0.047 16V

C807 NCB31CK-473X CER.CAPACITOR 0.047 16VC808 NCB31CK-473X CER.CAPACITOR 0.047 16VC809 NCB31CK-473X CER.CAPACITOR 0.047 16VC810 NCB31CK-473X CER.CAPACITOR 0.047 16VC811 NCB31CK-473X CER.CAPACITOR 0.047 16VC812 NCB31CK-473X CER.CAPACITOR 0.047 16VC813 NCB10JM-335X CER.CAPACITOR 3.3 6.3VC814 NCB31CK-473X CER.CAPACITOR 0.047 16VC815 NCB31CK-473X CER.CAPACITOR 0.047 16VC816 NCB31CK-473X CER.CAPACITOR 0.047 16V

C817 NCB31CK-473X CER.CAPACITOR 0.047 16VC819 NCB31CK-473X CER.CAPACITOR 0.047 16VC820 NCB31CK-473X CER.CAPACITOR 0.047 16VC821 NBQD1AM-686X TAN.CAPACITOR 68 10VC822 NCB31CK-473X CER.CAPACITOR 0.047 16VC823 NCB31CK-473X CER.CAPACITOR 0.047 16VC824 NCB31CK-104X CER.CAPACITOR 0.1 16VC825 NCB31CK-473X CER.CAPACITOR 0.047 16VC826 NBE21CM-475X TAN.CAPACITOR 4.7 16VC827 NCB31CK-473X CER.CAPACITOR 0.047 16V

C828 NCB31CK-473X CER.CAPACITOR 0.047 16VC829 NBE21CM-475X TAN.CAPACITOR 4.7 16VC836 NCB31CK-473X CER.CAPACITOR 0.047 16VC837 NCB31CK-473X CER.CAPACITOR 0.047 16VC838 NCB31CK-473X CER.CAPACITOR 0.047 16VC839 NCB31CK-473X CER.CAPACITOR 0.047 16VC840 NDC31HJ-100X CER.CAPACITOR 10p 50VC841 NDC31HJ-180X CER.CAPACITOR 18p 50VC842 NDC31HJ-100X CER.CAPACITOR 10p 50VC844 NCB31CK-473X CER.CAPACITOR 0.047 16V

C845 NCB31CK-473X CER.CAPACITOR 0.047 16VC846 NCB31CK-473X CER.CAPACITOR 0.047 16VC847 NCB31CK-473X CER.CAPACITOR 0.047 16VC848 NDC31HJ-100X CER.CAPACITOR 10p 50VC849 NDC31HJ-180X CER.CAPACITOR 18p 50VC850 NDC31HJ-100X CER.CAPACITOR 10p 50VC852 NCB31CK-473X CER.CAPACITOR 0.047 16VC853 NCB31CK-473X CER.CAPACITOR 0.047 16VC854 NBE21CM-475X TAN.CAPACITOR 4.7 16VC855 NCB31CK-473X CER.CAPACITOR 0.047 16V

C856 NCB31CK-473X CER.CAPACITOR 0.047 16VC857 NCB31CK-473X CER.CAPACITOR 0.047 16VC858 NCB31CK-473X CER.CAPACITOR 0.047 16VC859 NBE21CM-475X TAN.CAPACITOR 4.7 16VC860 NDC31HJ-470X CER.CAPACITOR 47p 50VC863 NCB31CK-473X CER.CAPACITOR 0.047 16VC864 NBE21CM-475X TAN.CAPACITOR 4.7 16VC866 NCB31CK-473X CER.CAPACITOR 0.047 16VC867 NCB31CK-473X CER.CAPACITOR 0.047 16VC901 NCB31CK-473X CER.CAPACITOR 0.047 16V

C902 NBE21CM-475X TAN.CAPACITOR 4.7 16VC903 NCB31CK-473X CER.CAPACITOR 0.047 16VC914 NCB31CK-473X CER.CAPACITOR 0.047 16VC915 NBE21CM-475X TAN.CAPACITOR 4.7 16VC916 NCB31CK-473X CER.CAPACITOR 0.047 16VC917 NDC31HJ-100X CER.CAPACITOR 10p 50VC918 NCB31CK-473X CER.CAPACITOR 0.047 16VC919 NCB31CK-473X CER.CAPACITOR 0.047 16VC920 NCB31CK-473X CER.CAPACITOR 0.047 16VC921 NCB31CK-473X CER.CAPACITOR 0.047 16V

C922 NCB31CK-473X CER.CAPACITOR 0.047 16VC924 NBE21CM-475X TAN.CAPACITOR 4.7 16VC925 NCB31CK-473X CER.CAPACITOR 0.047 16VC926 NCB31CK-473X CER.CAPACITOR 0.047 16VC927 NCB31CK-473X CER.CAPACITOR 0.047 16VC928 NCB31CK-473X CER.CAPACITOR 0.047 16VC929 NCB31CK-473X CER.CAPACITOR 0.047 16VC930 NCB11CK-105X CER.CAPACITOR 1 16VC931 NCB31CK-473X CER.CAPACITOR 0.047 16VC932 NBE21CM-475X TAN.CAPACITOR 4.7 16V

C933 NCB31CK-473X CER.CAPACITOR 0.047 16VC934 NCB31CK-473X CER.CAPACITOR 0.047 16V

L804 NQL054K-150X COIL 15uHL805 NQL054K-150X COIL 15uHL807 NQL054K-150X COIL 15uHL808 NQL054K-150X COIL 15uH

LC101 NQR0122-001X LC FILTERLC102 EXC-CET471U LC FILTERLC750 EXC-CET471U LC FILTERLC752 EXC-CET471U LC FILTERLC754 EXC-CET471U LC FILTERLC801 EXC-CET471U LC FILTERLC802 EXC-CET471U LC FILTER

X101 QAX0124-002 CRYSTAL 27MHz

CN1 QGB0805M3-60X CONNECTOR 60PINCN2 QGB0805M3-60X CONNECTOR 60PINCN3 QGF0508F1-33X CONNECTOR 33PINCN4 QGF0508F1-30X CONNECTOR 30PINCN5 QGA1201F2-04X CONNECTOR 4PINCN21 QGF0508F2-50X CONNECTOR 50PINCN22 QGA1201F2-06X CONNECTOR 6PINCN32 QGA1201C2-06X CONNECTOR 6PINCN33 QGA1201F2-03X CONNECTOR 3PINCN34 QGA1501F2-04W CONNECTOR 4PIN

CN46 QGA1501F2-03W CONNECTOR 3PIN

K901 SCV2732-2HM471 FERRITE BEADSK902 SCV2732-2HM471 FERRITE BEADSK903 SCV2732-2HM471 FERRITE BEADSK904 SCV2732-2HM471 FERRITE BEADSK905 SCV2732-2HM471 FERRITE BEADS

6-20



6.12 PS1 BOARD ASSEMBLY PARTS LIST 17SCK2609-01-01B 17``````

IC201 LM2598S-ADJ-X I.C.(M) NATIONAL SEMICOIC202 LM2598S-ADJ-X I.C.(M) NATIONAL SEMICOIC203 LM2598S-ADJ-X I.C.(M) NATIONAL SEMICOIC206 LM2597M-ADJ-X I.C.(M) NATIONAL SEMICO

Q211 DTC124EUA-X TRANSISTOR ROHMQ212 DTC124EUA-X TRANSISTOR ROHMQ213 DTC124EUA-X TRANSISTOR ROHMQ214 DTA124EUA-X TRANSISTOR ROHMQ215 DTC124EUA-X TRANSISTOR ROHMQ217 DTA124EUA-X TRANSISTOR ROHMQ218 DTC124EUA-X TRANSISTOR ROHM

D201 RB050L-40-X SB DIODE ROHMD202 RB050L-40-X SB DIODE ROHMD203 MA736-X DIODE MATSUSHITAD204 MA736-X DIODE MATSUSHITAD207 MA736-X DIODE MATSUSHITAD208 MA736-X DIODE MATSUSHITA

R201 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR202 NRSA63D-122X M.G.RESISTOR 1.2k 1/16WR204 NRSA63D-182X M.G.RESISTOR 1.8k 1/16WR205 NRSA63D-102X M.G.RESISTOR 1k 1/16WR207 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR208 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR209 NRSA63D-272X M.G.RESISTOR 2.7k 1/16WR218 NRSA63D-822X M.G.RESISTOR 8.2k 1/16WR219 NRSA63D-102X M.G.RESISTOR 1k 1/16WR220 NRSA63D-121X M.G.RESISTOR 120 1/16W

C201 QTX81EM-336 OS CAPACITOR 33 25VC202 NBSH1AM-227X TAN.CAPACITOR 220 10VC203 NBSH1AM-227X TAN.CAPACITOR 220 10VC204 NCB31CK-104X CER.CAPACITOR 0.1 16VC205 NCB31EK-103X CER.CAPACITOR 0.01 25VC207 QTX81EM-336 OS CAPACITOR 33 25VC208 NBSH0JM-337X TAN.CAPACITOR 330 6.3VC209 NBSH0JM-337X TAN.CAPACITOR 330 6.3VC210 NCB31CK-104X CER.CAPACITOR 0.1 16VC211 NCB31EK-103X CER.CAPACITOR 0.01 25V

C213 QTX81EM-336 OS CAPACITOR 33 25VC214 NBSH1AM-227X TAN.CAPACITOR 220 10VC217 NCB31CK-473X CER.CAPACITOR 0.047 16VC225 QEX41FM-106 E.CAPACITOR 10 31.5VC226 NEX31CM-686X E.CAPACITOR 68 16VC227 NEX31CM-686X E.CAPACITOR 68 16VC228 NCB31CK-104X CER.CAPACITOR 0.1 16VC229 NCB31CK-104X CER.CAPACITOR 0.1 16VC253 NCB31CK-104X CER.CAPACITOR 0.1 16VC255 QTX81EM-336 OS CAPACITOR 33 25V

L202 NQL47CM-680X COIL 68uHL203 NQL29CM-680X COIL 68uHL204 NQL46CM-470X COIL 47uHL205 NQL44CM-3R3X COIL 3.3uHL206 NQL47CM-151X COIL 150uHL207 NQL29CM-680X COIL 68uHL212 NQL44CM-470X COIL 47uHL213 NQL03FK-151X COIL 150uHL214 NQL29CM-150X COIL 15uH

CN44 QGB0805L2-30X CONNECTOR 30PIN

6.13 PS2 BOARD ASSEMBLY PARTS LIST 18SCK2609-02-01B 18``````

IC204 MAX771ESA-X I.C.(M) MAXIMIC205 MAX772ESA-X I.C.(M) MAXIMIC211 NJM78L05UA-X I.C.(M) JRCIC212 TC7SH04FU-X I.C.(M) TOSHIBAIC213 TC74VHC08FT-X I.C.(M) TOSHIBAIC214 TC7S02FU-X I.C.(M) TOSHIBAIC215 TC7SH32FU-X I.C.(M) TOSHIBA

Q201 HAT2020R-X TRANSISTOR HITACHIQ202 HAT2020R-X TRANSISTOR HITACHIQ216 DTA124EUA-X TRANSISTOR ROHMQ221 2SB1073/PQ/-X TRANSISTOR MATSUSHITAQ222 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ231 DTA124EUA-X TRANSISTOR ROHMQ232 DTC124EUA-X TRANSISTOR ROHMQ235 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ236 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ238 2SC4626/BC/-X TRANSISTOR MATSUSHITA

Q239 HAT2020R-X TRANSISTOR HITACHIQ240 DTA124EUA-X TRANSISTOR ROHMQ241 DTC124EUA-X TRANSISTOR ROHMQ250 2SC4626/BC/-X TRANSISTOR MATSUSHITAQ251 2SC4626/BC/-X TRANSISTOR MATSUSHITA

D205 MA736-X DIODE MATSUSHITAD206 MA736-X DIODE MATSUSHITA

R210 NRZ0055-R39X M.F.RESISTOR 0.39 1WR211 NRSA63D-473X M.G.RESISTOR 47k 1/16WR212 NRSA63D-562X M.G.RESISTOR 5.6k 1/16WR213 NRSA63D-103X M.G.RESISTOR 10k 1/16WR214 NRZ0055-R39X M.F.RESISTOR 0.39 1WR215 NRSA63D-104X M.G.RESISTOR 100k 1/16WR216 NRSA63D-183X M.G.RESISTOR 18k 1/16WR217 NRSA63D-103X M.G.RESISTOR 10k 1/16WR221 NRSA02J-3R3X M.G.RESISTOR 3.3 1/10WR222 NRSA02J-3R3X M.G.RESISTOR 3.3 1/10W

R223 NRSA02J-3R3X M.G.RESISTOR 3.3 1/10WR224 NRSA02J-100X M.G.RESISTOR 10 1/10WR225 NRSA02J-100X M.G.RESISTOR 10 1/10WR226 NRSA02J-220X M.G.RESISTOR 22 1/10WR227 NRSA02J-220X M.G.RESISTOR 22 1/10WR231 NRSA63D-103X M.G.RESISTOR 10k 1/16WR232 NRSA63D-152X M.G.RESISTOR 1.5k 1/16WR233 NRSA63D-223X M.G.RESISTOR 22k 1/16WR234 NRSA63D-223X M.G.RESISTOR 22k 1/16WR241 NRSA63D-223X M.G.RESISTOR 22k 1/16W

R242 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR243 NRSA63D-333X M.G.RESISTOR 33k 1/16WR244 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR245 NRSA63D-223X M.G.RESISTOR 22k 1/16WR246 NRSA63D-683X M.G.RESISTOR 68k 1/16WR247 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR248 NRSA63D-223X M.G.RESISTOR 22k 1/16WR249 NRSA63D-223X M.G.RESISTOR 22k 1/16WR252 NRSA63D-223X M.G.RESISTOR 22k 1/16WR253 NRSA63D-223X M.G.RESISTOR 22k 1/16W

R261 NRSA63D-223X M.G.RESISTOR 22k 1/16WR262 NRSA63D-223X M.G.RESISTOR 22k 1/16WR263 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR300 NRSA63D-102X M.G.RESISTOR 1k 1/16WR301 NRSA63D-104X M.G.RESISTOR 100k 1/16WR302 NRSA63D-103X M.G.RESISTOR 10k 1/16WR303 NRSA63D-473X M.G.RESISTOR 47k 1/16WR304 NRSA63D-101X M.G.RESISTOR 100 1/16W

C219 NBSG1CM-476X TAN.CAPACITOR 47 16VC220 NBSG1CM-476X TAN.CAPACITOR 47 16VC221 NCB31CK-104X CER.CAPACITOR 0.1 16VC222 QEX41EM-476 E.CAPACITOR 47 25VC223 QEX41EM-476 E.CAPACITOR 47 25VC224 NCB31CK-104X CER.CAPACITOR 0.1 16V

6-21



C231 NBSH1AM-227X TAN.CAPACITOR 220 10VC232 NBSG1CM-476X TAN.CAPACITOR 47 16VC233 NCB31CK-104X CER.CAPACITOR 0.1 16VC234 NCB31CK-104X CER.CAPACITOR 0.1 16V

C242 QTX81EM-685 OS CAPACITOR 6.8 25VC243 NCB21AK-105X CER.CAPACITOR 1 10VC244 NBE71CM-476X TAN.CAPACITOR 47 16VC251 NCB21EK-104X CER.CAPACITOR 0.1 25VC256 QTX81EM-336 OS CAPACITOR 33 25VC257 QTX81EM-336 OS CAPACITOR 33 25VC258 NBSG1CM-476X TAN.CAPACITOR 47 16VC259 NBSG1CM-476X TAN.CAPACITOR 47 16VC260 NBSG1CM-476X TAN.CAPACITOR 47 16VC261 NBSG1CM-476X TAN.CAPACITOR 47 16V

C262 NBSG1CM-476X TAN.CAPACITOR 47 16VC263 NBSG1CM-476X TAN.CAPACITOR 47 16V

L201 NQL47CM-220X COIL 22uHL208 NQL47CM-221X COIL 220uHL210 NQL47CM-221X COIL 220uH

TH201 NAD0024-001X THERMISTORTH202 NAD0024-001X THERMISTORTH203 NAD0024-001X THERMISTORTH204 NAD0024-001X THERMISTORTH205 NAD0024-001X THERMISTORTH206 NAD0024-001X THERMISTORTH207 NAD0026-001X THERMISTORTH208 NAD0024-003X THERMISTORTH209 NAD0024-003X THERMISTORTH210 NAD0024-001X THERMISTOR

CN41 QGA2001C2-05X CONNECTOR 5PINCN43 QGA1201F2-04X CONNECTOR 4PINCN44 QGB0805M3-30X CONNECTOR 30PINCN45 QGA1201F2-15X CONNECTOR 15PINCN46 QGA1201C2-03X CONNECTOR 3PINCN144 QGB0805K1-30X CONNECTOR 30PIN

SK902 SCV2768-001X IC SOCKET

IC902 PLSC1278 I.C.(M) MBM29F002T-70PDIC1901 TC74VHC165FT-X I.C.(M) TOSHIBA

R1901 NRSA63J-223X M.G.RESISTOR 22k 1/16WR1902 NRSA63J-223X M.G.RESISTOR 22k 1/16WR1903 NRSA63J-223X M.G.RESISTOR 22k 1/16WR1904 NRSA63J-223X M.G.RESISTOR 22k 1/16WR1905 NRSA63J-223X M.G.RESISTOR 22k 1/16WR1906 NRSA63J-223X M.G.RESISTOR 22k 1/16WR1907 NRSA63J-223X M.G.RESISTOR 22k 1/16WR1908 NRSA63J-223X M.G.RESISTOR 22k 1/16W

C920 NBE41CM-106X TAN.CAPACITOR 10 16VC921 NCB31CK-473X CER.CAPACITOR 0.047 16VC922 NCB31CK-473X CER.CAPACITOR 0.047 16V

S901 NSW0022-004X DIP SWITCH

CN24 QGB0805L1-40X CONNECTOR 40PIN


6.14 ROM BOARD ASSEMBLY PARTS LIST 19SCK2607-01-00B 19``````

6.15 JOG BOARD ASSEMBLY PARTS LIST 20SCK2607-02-00B 20``````

IC951 TC7S14FU-X I.C.(M) TOSHIBAIC952 TC7SH00FU-X I.C.(M) TOSHIBAIC953 TC7SU04FU-X I.C.(M) TOSHIBAIC954 TC7W74FU-X I.C.(M) TOSHIBAIC955 TC7S14FU-X I.C.(M) TOSHIBAIC956 TC7S08FU-X I.C.(M) TOSHIBA

R951 NRSA63J-223X M.G.RESISTOR 22k 1/16WR952 NRSA63J-103X M.G.RESISTOR 10k 1/16WR953 NRSA63J-103X M.G.RESISTOR 10k 1/16WR954 NRSA63J-103X M.G.RESISTOR 10k 1/16WR955 NRSA63J-101X M.G.RESISTOR 100 1/16WR956 NRSA63J-101X M.G.RESISTOR 100 1/16WR957 NRSA63J-103X M.G.RESISTOR 10k 1/16WR958 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR960 NRSA63J-101X M.G.RESISTOR 100 1/16WR962 NRSA63J-101X M.G.RESISTOR 100 1/16W

C951 NCB31HK-103X CER.CAPACITOR 0.01 50VC952 NCB31HK-103X CER.CAPACITOR 0.01 50VC953 NCB31CK-473X CER.CAPACITOR 0.047 16VC954 NCB31CK-473X CER.CAPACITOR 0.047 16VC955 NCB31CK-473X CER.CAPACITOR 0.047 16VC956 NCB31CK-473X CER.CAPACITOR 0.047 16VC957 NCB31CK-473X CER.CAPACITOR 0.047 16VC958 NCB31CK-473X CER.CAPACITOR 0.047 16VC959 NCB31CK-473X CER.CAPACITOR 0.047 16VC960 NBE41CM-106X TAN.CAPACITOR 10 16V


S951 NSW0010-001X SWITCH STATUS/MENUS952 QSW0603-001 ROTARY SWITCH SHUTTER/MENU


6-22



6.16 IF BOARD ASSEMBLY PARTS LIST 21SCK2607-03-00B 21``````

IC301 M62353GP-X I.C.(M) MITSUBISHIIC302 TA75S01F-X I.C.(M) TOSHIBAIC303 TC7W66FU-X I.C.(M) TOSHIBA

D301 MA143A-X DIODE MATSUSHITAD302 MA143A-X DIODE MATSUSHITAD303 MA143A-X DIODE MATSUSHITAD304 MA143A-X DIODE MATSUSHITAD305 MA143A-X DIODE MATSUSHITAD306 MA143A-X DIODE MATSUSHITAD307 MA143A-X DIODE MATSUSHITAD308 MA143A-X DIODE MATSUSHITAD309 HZM18NB2-X ZENER DIODE HITACHI

R301 NRSA63J-103X M.G.RESISTOR 10k 1/16WR302 NRSA63J-104X M.G.RESISTOR 100k 1/16WR303 NRSA63J-334X M.G.RESISTOR 330k 1/16WR304 NRSA63J-124X M.G.RESISTOR 120k 1/16WR305 NRSA63J-101X M.G.RESISTOR 100 1/16WR306 NRSA63J-104X M.G.RESISTOR 100k 1/16WR311 NRSA63J-101X M.G.RESISTOR 100 1/16WR312 NRSA63J-101X M.G.RESISTOR 100 1/16WR313 NRSA63J-101X M.G.RESISTOR 100 1/16WR315 NRSA63J-101X M.G.RESISTOR 100 1/16W

R316 NRSA63J-101X M.G.RESISTOR 100 1/16WR317 NRSA63J-102X M.G.RESISTOR 1k 1/16WR318 NRSA63J-101X M.G.RESISTOR 100 1/16WR320 NRSA63J-102X M.G.RESISTOR 1k 1/16WR321 NRSA63J-102X M.G.RESISTOR 1k 1/16WR322 NRSA63J-102X M.G.RESISTOR 1k 1/16WR323 NRSA63J-102X M.G.RESISTOR 1k 1/16W

C301 NBE41CM-106X TAN.CAPACITOR 10 16VC302 NBE51VM-475X TAN.CAPACITOR 4.7 35VC303 NBE41CM-106X TAN.CAPACITOR 10 16VC304 NCB31CK-473X CER.CAPACITOR 0.047 16VC305 NCB31CK-473X CER.CAPACITOR 0.047 16VC306 NCB31CK-473X CER.CAPACITOR 0.047 16VC307 NCB31CK-473X CER.CAPACITOR 0.047 16VC308 NCB31CK-473X CER.CAPACITOR 0.047 16VC310 NEH91EM-106X E.CAPACITOR 10 25VC312 NCB31CK-473X CER.CAPACITOR 0.047 16V

C313 NCB31CK-473X CER.CAPACITOR 0.047 16VC314 NCB31CK-473X CER.CAPACITOR 0.047 16VC315 NCB31CK-473X CER.CAPACITOR 0.047 16V

CN23 QGF0508C1-30W CONNECTOR 30PINCN31 QGA1201C2-10X CONNECTOR 10PINCN35 SCV2477-010 CONNECTOR 10PINCN36 QGF0508C1-15W CONNECTOR 15PIN

6.17 SWRU BOARD ASSEMBLY PARTS LIST 22SCK2607-04-00B 22``````

IC341 TC74VHC165FT-X I.C.(M) TOSHIBAIC342 TC74VHC165FT-X I.C.(M) TOSHIBA

Q341 DTC124EUA-X TRANSISTOR ROHM

LD341 AA1102W-X L.E.D. FAS

R341 NRSA63J-223X M.G.RESISTOR 22k 1/16WR342 NRSA63J-223X M.G.RESISTOR 22k 1/16WR343 NRSA63J-471X M.G.RESISTOR 470 1/16WR344 NRSA63J-223X M.G.RESISTOR 22k 1/16WR345 NRSA63J-223X M.G.RESISTOR 22k 1/16WR346 NRSA63J-223X M.G.RESISTOR 22k 1/16WR347 NRSA63J-223X M.G.RESISTOR 22k 1/16WR348 NRSA63J-223X M.G.RESISTOR 22k 1/16WR349 NRSA63J-223X M.G.RESISTOR 22k 1/16WR350 NRSA63J-223X M.G.RESISTOR 22k 1/16W

R351 NRSA63J-223X M.G.RESISTOR 22k 1/16WR353 NRSA63J-223X M.G.RESISTOR 22k 1/16WR354 NRSA63J-223X M.G.RESISTOR 22k 1/16WR355 NRSA63J-223X M.G.RESISTOR 22k 1/16WR356 NRSA63J-223X M.G.RESISTOR 22k 1/16WR357 NRSA63J-223X M.G.RESISTOR 22k 1/16WR358 NRSA63J-223X M.G.RESISTOR 22k 1/16WR359 NRSA63J-223X M.G.RESISTOR 22k 1/16W

C342 NBE41CM-106X TAN.CAPACITOR 10 16VC343 NCB31CK-473X CER.CAPACITOR 0.047 16VC344 NCB31CK-473X CER.CAPACITOR 0.047 16V

S341 NSW0070-002X SLIDE SWITCH AUTO IRISS342 NSW0010-001X SWITCH FULL AUTOS343 NSW0070-002X SLIDE SWITCH BLACKS344 NSW0010-001X SWITCH LOLUX

CN36 QGF0508F1-15X CONNECTOR 15PINCN37 SCV2644-110X CONNECTOR 11PINCN38 QGA1201F2-06X CONNECTOR 6PIN

6-23



6.18 SWF BOARD ASSEMBLY PARTS LIST 23SCK2606-01-00B 23``````

IC321 TC74HC165AF-X I.C.(M) TOSHIBA

D321 MA143A-X DIODE MATSUSHITAD322 MA143A-X DIODE MATSUSHITAD324 MA143A-X DIODE MATSUSHITAD325 MA143A-X DIODE MATSUSHITAD329 MA143A-X DIODE MATSUSHITA

R321 NRSA02J-223X M.G.RESISTOR 22k 1/10WR322 NRSA02J-562X M.G.RESISTOR 5.6k 1/10WR323 NRSA02J-103X M.G.RESISTOR 10k 1/10WR324 NRSA02J-183X M.G.RESISTOR 18k 1/10WR325 NRSA02J-223X M.G.RESISTOR 22k 1/10WR326 NRSA02J-223X M.G.RESISTOR 22k 1/10WR327 NRSA02J-223X M.G.RESISTOR 22k 1/10WR328 NRSA02J-223X M.G.RESISTOR 22k 1/10WR329 NRSA02J-334X M.G.RESISTOR 330k 1/10WR330 NRSA02J-223X M.G.RESISTOR 22k 1/10W

R331 NRSA02J-223X M.G.RESISTOR 22k 1/10WR332 NRSA02J-223X M.G.RESISTOR 22k 1/10WR333 NRSA02J-101X M.G.RESISTOR 100 1/10WR334 NRSA02J-222X M.G.RESISTOR 2.2k 1/10W

VR301 QVQ0290-A14 VAL.RESISTOR 10k AUDIO LEV

C321 NCB21EK-473X CER.CAPACITOR 0.047 25VC322 NCB21EK-473X CER.CAPACITOR 0.047 25VC323 NCB21EK-473X CER.CAPACITOR 0.047 25VC324 NCB21EK-473X CER.CAPACITOR 0.047 25VC325 NBE41CM-106X TAN.CAPACITOR 10 16V

S301 QSW0052-004 TOGGLE SWITCH ACCU FOCUS/WHITS302 QSW0189-001Z SWITCH VTR TRIGS303 QSW0052-005 TOGGLE SWITCH ZEBRA/SKIN AREAS304 QSW0189-001Z SWITCH TAKE

CN10 QGA1501F1-05 CONNECTOR 5PINCN35 QGF1004F1-10 CONNECTOR 10PIN

6.19 SWRM BOARD ASSEMBLY PARTS LIST 24SCK2606-02-00B 24``````

D361 HZM6C-X ZENER DIODE HITACHID362 HZM6C-X ZENER DIODE HITACHID363 HZM6C-X ZENER DIODE HITACHID364 HZM6C-X ZENER DIODE HITACHID365 HZM6C-X ZENER DIODE HITACHID366 HZM6C-X ZENER DIODE HITACHID367 HZM6C-X ZENER DIODE HITACHI

R361 NRSA02J-222X M.G.RESISTOR 2.2k 1/10WR362 NRSA02J-222X M.G.RESISTOR 2.2k 1/10WR363 NRSA02J-222X M.G.RESISTOR 2.2k 1/10WR364 NRSA02J-222X M.G.RESISTOR 2.2k 1/10WR365 NRSA02J-222X M.G.RESISTOR 2.2k 1/10WR366 NRSA02J-222X M.G.RESISTOR 2.2k 1/10WR367 NRSA02J-222X M.G.RESISTOR 2.2k 1/10W

S361 QSW0048-001 TOGGLE SWITCH VTRS362 QSW0052-001 TOGGLE SWITCH GAINS363 QSW0049-001 TOGGLE SWITCH OUTPUTS364 QSW0049-001 TOGGLE SWITCH WHITE BAL

CN37 QGF1004F1-10 CONNECTOR 10PINCN40 QGA1501F1-03 CONNECTOR 3PIN


6.20 SWRB BOARD ASSEMBLY PARTS LIST 25SCK2606-03-00B 25``````

C381 NCB21EK-473X CER.CAPACITOR 0.047 25V

S381 QSW0189-001Z SWITCH NG

CN39 QGA1501F1-02 CONNECTOR 2PIN


6.21 SWPW BOARD ASSEMBLY PARTS LIST 26SCK2606-05-00B 26``````

D391 HZM6C-X ZENER DIODE HITACHI

R391 NRSA02J-222X M.G.RESISTOR 2.2k 1/10W

S391 QSW0046-001 TOGGLE SWITCH POWER

CN39 QGA1501C1-02 CONNECTOR 2PINCN40 QGA1501C1-03 CONNECTOR 3PIN

6-24



6.22 MIC BOARD ASSEMBLY PARTS LIST 27SCK2606-06-00B 27``````

R396 NRSA02J-0R0X M.G.RESISTOR 0 1/10WR397 NRSA02J-0R0X M.G.RESISTOR 0 1/10W

C398 NDC21HJ-221X CER.CAPACITOR 220p 50VC399 NDC21HJ-221X CER.CAPACITOR 220p 50VC1303 NDC21HJ-221X CER.CAPACITOR 220p 50VC1304 NDC21HJ-221X CER.CAPACITOR 220p 50V

L396 NQL124J-101X COIL 100uHL397 NQL124J-101X COIL 100uH

J396 QNZ0414-001 JACK MIC

CN33 QGA1501C1-03 CONNECTOR 3PIN

K396 SCV2662-027 FERRITE BEADSK397 SCV2662-027 FERRITE BEADS


6.23 BNC BOARD ASSEMBLY PARTS LIST 28SCK2606-07-00B 28``````

R399 NRSA02J-750X M.G.RESISTOR 75 1/10W


K1301 NRSA02J-0R0X M.G.RESISTOR 0 1/10WK1302 NRSA02J-0R0X M.G.RESISTOR 0 1/10W

6.24 VIDEO/SYSCON BOARD ASSEMBLY PARTS LIST 31SLK2092-U0B(U)

SLK2092-P0B(E) 31``````

IC1 TC4W53F-X I.C.(M) TOSHIBA (U)IC2 TC74HC4538AF-X I.C.(M) TOSHIBA (U)IC3 TC74HC4538AF-X I.C.(M) TOSHIBA (U)IC4 MM1117XF-X I.C.(M) MITSUMI (U)IC5 NJM2538V-X I.C.(M) JRCIC401 UPD784031GK-BE9 I.C.(M) NECIC402 TC74VHC373FT-X I.C.(M) TOSHIBAIC403 PLSL1063 I.C.(M) MBM29F002B-70PD

SK403 SCV2768-001X IC SOCKET 32PIN

IC404 CY62256LL70SN-X I.C.(M) CYPRESSIC405 UPD71055GB-10 I.C.(M) NECIC406 TC74VHC139FT-X I.C.(M) TOSHIBAIC407 X24645S8-2.7-X I.C.(M) XICORIC408 M51957BFP-X I.C.(M) MITSUBISHIIC409 TC7S14FU-X I.C.(M) TOSHIBAIC410 TC74VHC244FT-X I.C.(M) TOSHIBAIC411 TC7W04FU-X I.C.(M) TOSHIBAIC412 TC74VHC74FT-X I.C.(M) TOSHIBAIC413 TC74VHC125FT-X I.C.(M) TOSHIBA

IC414 TC7W04FU-X I.C.(M) TOSHIBA

Q1 2SA1774/QRS/-X TRANSISTOR ROHM (U)Q2 2SC4617/RS/-X TRANSISTOR ROHM (U)Q3 2SA1774/QRS/-X TRANSISTOR ROHM (U)Q4 DTC144EUA-X TRANSISTOR ROHM (U)Q5 2SA1774/QRS/-X TRANSISTOR ROHM (U)Q6 2SA1774/QRS/-X TRANSISTOR ROHM (U)Q8 2SC4617/RS/-X TRANSISTOR ROHM (U)Q9 2SC4617/RS/-X TRANSISTOR ROHM (U)Q10 2SC4617/RS/-X TRANSISTOR ROHM (U)Q11 2SA1774/QRS/-X TRANSISTOR ROHM (U)

Q12 2SC4617/RS/-X TRANSISTOR ROHM (U)Q13 2SC4617/RS/-X TRANSISTOR ROHM (U)Q14 2SA1774/QRS/-X TRANSISTOR ROHM (U)Q15 2SC4617/RS/-X TRANSISTOR ROHM (U)Q17 2SA1774/QRS/-X TRANSISTOR ROHM (U)Q18 DTC144EUA-X TRANSISTOR ROHMQ19 DTC144EUA-X TRANSISTOR ROHMQ20 2SA1774/QRS/-X TRANSISTOR ROHMQ22 DTC114EUA-X TRANSISTOR ROHM (U)Q401 DTC124EUA-X TRANSISTOR ROHM

Q402 DTC124EUA-X TRANSISTOR ROHMQ403 DTA114EUA-X TRANSISTOR ROHMQ404 DTC124EUA-X TRANSISTOR ROHM

D1 DAN202U-X DIODE ROHM (U)D2 DAN202U-X DIODE ROHM (U)D3 DAN202U-X DIODE ROHM (U)D401 DAN202U-X DIODE ROHMD402 MA8100/L/-X ZENER DIODE MATSUSHITAD403 DAN202U-X DIODE ROHM

R1 NRSA63J-473X M.G.RESISTOR 47k 1/16W (U)R2 NRSA63J-333X M.G.RESISTOR 33k 1/16W (U)R3 NRSA63J-561X M.G.RESISTOR 560 1/16W (U)R4 NRSA63J-101X M.G.RESISTOR 100 1/16W (U)R5 NRSA63J-561X M.G.RESISTOR 560 1/16W (U)R6 NRSA63J-273X M.G.RESISTOR 27k 1/16W (U)R7 NRSA63J-183X M.G.RESISTOR 18k 1/16W (U)R8 NRSA63J-561X M.G.RESISTOR 560 1/16W (U)R9 NRVA02D-102X C.M.F.RESISTOR 1k 1/10W (U)R10 NRVA02D-820X C.M.F.RESISTOR 82 1/10W (U)

R11 NRVA02D-103X C.M.F.RESISTOR 10k 1/10WR12 NRVA02D-103X C.M.F.RESISTOR 10k 1/10WR13 NRSA63J-561X M.G.RESISTOR 560 1/16W (U)R14 NRVA02D-103X C.M.F.RESISTOR 10k 1/10WR15 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R16 NRVA02D-103X C.M.F.RESISTOR 10k 1/10WR17 NRSA63J-223X M.G.RESISTOR 22k 1/16W (U)

6-25



R18 NRSA63J-101X M.G.RESISTOR 100 1/16W (U)R19 NRSA63J-273X M.G.RESISTOR 27k 1/16W (U)R20 NRSA63J-473X M.G.RESISTOR 47k 1/16W (U)

R21 NRSA63J-561X M.G.RESISTOR 560 1/16W (U)R22 NRVA02D-750X C.M.F.RESISTOR 75 1/10W (U)R23 NRVA02D-822X C.M.F.RESISTOR 8.2k 1/10W (U)R24 NRSA63J-122X M.G.RESISTOR 1.2k 1/16W (U)R25 NRVA02D-151X C.M.F.RESISTOR 150 1/10W (U)R26 NRVA02D-102X C.M.F.RESISTOR 1k 1/10W (U)R27 NRSA63J-152X M.G.RESISTOR 1.5k 1/16W (U)R28 NRVA02D-333X C.M.F.RESISTOR 33k 1/10W (U)R29 NRVA02D-332X C.M.F.RESISTOR 3.3k 1/10W (U)R30 NRSA63J-103X M.G.RESISTOR 10k 1/16W (U)

R31 NRSA63J-331X M.G.RESISTOR 330 1/16W (U)R32 NRSA63J-104X M.G.RESISTOR 100k 1/16W (U)R33 NRVA02D-223X C.M.F.RESISTOR 22k 1/10W (U)R34 NRVA02D-392X C.M.F.RESISTOR 3.9k 1/10W (U)R35 NRVA02D-122X C.M.F.RESISTOR 1.2k 1/10W (U)R36 NRVA02D-182X C.M.F.RESISTOR 1.8k 1/10W (U)R37 NRVA02D-471X C.M.F.RESISTOR 470 1/10W (U)R38 NRVA02D-681X C.M.F.RESISTOR 680 1/10W (U)R39 NRVA02D-271X C.M.F.RESISTOR 270 1/10W (U)R40 NRSA63J-102X M.G.RESISTOR 1k 1/16W (U)

R41 NRVA02D-391X C.M.F.RESISTOR 390 1/10W (U)R42 NRVA02D-391X C.M.F.RESISTOR 390 1/10W (U)R43 NRVA02D-390X C.M.F.RESISTOR 39 1/10W (U)R48 NRSA63J-152X M.G.RESISTOR 1.5k 1/16W (U)R49 NRVA02D-102X C.M.F.RESISTOR 1k 1/10W (U)R50 NRVA02D-472X C.M.F.RESISTOR 4.7k 1/10W (U)R51 NRVA02D-683X C.M.F.RESISTOR 68k 1/10W (U)R52 NRVA02D-153X C.M.F.RESISTOR 15k 1/10W (U)R54 NRSA63J-103X M.G.RESISTOR 10k 1/16W (U)R55 NRSA63J-223X M.G.RESISTOR 22k 1/16W (U)

R57 NRSA63J-223X M.G.RESISTOR 22k 1/16W (U)R58 NRSA63J-473X M.G.RESISTOR 47k 1/16W (U)R59 NRSA63J-0R0X M.G.RESISTOR 0 1/16W (E)R60 NRSA63J-560X M.G.RESISTOR 56 1/16WR61 NRSA63J-224X M.G.RESISTOR 220k 1/16WR62 NRSA63J-103X M.G.RESISTOR 10k 1/16WR63 NRSA63J-121X M.G.RESISTOR 120 1/16WR64 NRSA63J-225X M.G.RESISTOR 2.2M 1/16WR65 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR66 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R67 NRSA63J-121X M.G.RESISTOR 120 1/16WR68 NRSA63J-103X M.G.RESISTOR 10k 1/16WR69 NRVA02D-102X C.M.F.RESISTOR 1k 1/10WR70 NRVA02D-102X C.M.F.RESISTOR 1k 1/10WR71 NRSA63J-681X M.G.RESISTOR 680 1/16WR72 NRSA63J-222X M.G.RESISTOR 2.2k 1/16W (U)R73 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR74 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR75 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR76 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R77 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR79 NRSA63J-562X M.G.RESISTOR 5.6k 1/16W (U)R80 NRSA63J-101X M.G.RESISTOR 100 1/16W (U)R81 NRSA63J-103X M.G.RESISTOR 10k 1/16W (U)R82 NRSA63J-105X M.G.RESISTOR 1M 1/16W (U)R83 NRSA63J-105X M.G.RESISTOR 1M 1/16W (U)R84 NRSA63J-103X M.G.RESISTOR 10k 1/16W (U)R86 QRE141J-271Y CAR.RESISTOR 270 1/4W (U)R401 NRSA63J-101X M.G.RESISTOR 100 1/16WR402 NRSA63J-101X M.G.RESISTOR 100 1/16W

R403 NRSA63J-101X M.G.RESISTOR 100 1/16WR404 NRSA63J-101X M.G.RESISTOR 100 1/16WR405 NRSA63J-333X M.G.RESISTOR 33k 1/16WR406 NRSA63J-101X M.G.RESISTOR 100 1/16WR407 NRSA63J-104X M.G.RESISTOR 100k 1/16WR408 NRSA63J-104X M.G.RESISTOR 100k 1/16WR409 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR410 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR411 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR412 NRSA63J-222X M.G.RESISTOR 2.2k 1/16W

R413 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR414 NRSA63J-333X M.G.RESISTOR 33k 1/16WR415 NRSA63J-333X M.G.RESISTOR 33k 1/16WR416 NRSA63J-104X M.G.RESISTOR 100k 1/16WR417 NRSA63J-104X M.G.RESISTOR 100k 1/16WR418 NRSA63J-104X M.G.RESISTOR 100k 1/16WR419 NRSA63J-104X M.G.RESISTOR 100k 1/16WR420 NRSA63J-104X M.G.RESISTOR 100k 1/16WR421 NRSA63J-104X M.G.RESISTOR 100k 1/16W (E)R422 NRSA63J-104X M.G.RESISTOR 100k 1/16W

R423 NRSA63J-104X M.G.RESISTOR 100k 1/16WR424 NRSA63J-104X M.G.RESISTOR 100k 1/16WR425 NRSA63J-102X M.G.RESISTOR 1k 1/16WR426 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR427 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR428 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR429 NRSA63J-104X M.G.RESISTOR 100k 1/16WR430 NRSA63J-104X M.G.RESISTOR 100k 1/16WR431 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR432 NRSA63J-822X M.G.RESISTOR 8.2k 1/16W

R433 NRSA63J-102X M.G.RESISTOR 1k 1/16WR434 NRSA63J-681X M.G.RESISTOR 680 1/16WR436 NRSA63J-105X M.G.RESISTOR 1M 1/16WR437 NRSA63J-471X M.G.RESISTOR 470 1/16WR439 NRSA63J-333X M.G.RESISTOR 33k 1/16WR440 NRSA63J-103X M.G.RESISTOR 10k 1/16WR441 NRSA63J-333X M.G.RESISTOR 33k 1/16WR442 NRSA63J-333X M.G.RESISTOR 33k 1/16WR443 NRSA63J-101X M.G.RESISTOR 100 1/16WR444 NRSA63J-101X M.G.RESISTOR 100 1/16W

R445 NRSA63J-101X M.G.RESISTOR 100 1/16WR446 NRSA63J-101X M.G.RESISTOR 100 1/16WR447 NRSA63J-101X M.G.RESISTOR 100 1/16WR448 NRSA63J-101X M.G.RESISTOR 100 1/16WR449 NRSA63J-101X M.G.RESISTOR 100 1/16WR450 NRSA63J-103X M.G.RESISTOR 10k 1/16WR451 NRSA63J-101X M.G.RESISTOR 100 1/16WR452 NRSA63J-101X M.G.RESISTOR 100 1/16WR453 NRSA63J-333X M.G.RESISTOR 33k 1/16WR454 NRSA63J-101X M.G.RESISTOR 100 1/16W

R455 NRSA63J-101X M.G.RESISTOR 100 1/16WR456 NRSA63J-101X M.G.RESISTOR 100 1/16WR457 NRSA63J-101X M.G.RESISTOR 100 1/16WR458 NRSA63J-101X M.G.RESISTOR 100 1/16WR459 NRSA63J-101X M.G.RESISTOR 100 1/16WR460 NRSA63J-101X M.G.RESISTOR 100 1/16WR461 NRSA63J-101X M.G.RESISTOR 100 1/16WR462 NRSA63J-101X M.G.RESISTOR 100 1/16WR463 NRSA63J-101X M.G.RESISTOR 100 1/16WR464 NRSA63J-101X M.G.RESISTOR 100 1/16W

R465 NRSA63J-101X M.G.RESISTOR 100 1/16WR466 NRSA63J-101X M.G.RESISTOR 100 1/16WR467 NRSA63J-101X M.G.RESISTOR 100 1/16WR468 NRSA63J-333X M.G.RESISTOR 33k 1/16WR469 NRSA63J-101X M.G.RESISTOR 100 1/16WR470 NRSA63J-101X M.G.RESISTOR 100 1/16WR471 NRSA63J-102X M.G.RESISTOR 1k 1/16WR472 NRSA63J-102X M.G.RESISTOR 1k 1/16WR473 NRSA63J-473X M.G.RESISTOR 47k 1/16WR474 NRSA63J-223X M.G.RESISTOR 22k 1/16W

R475 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR494 NRSA63J-104X M.G.RESISTOR 100k 1/16WR495 NRSA63J-101X M.G.RESISTOR 100 1/16WR496 NRSA63J-104X M.G.RESISTOR 100k 1/16WR497 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR498 NRSA63J-101X M.G.RESISTOR 100 1/16WR499 NRSA63J-101X M.G.RESISTOR 100 1/16WR500 NRSA63J-101X M.G.RESISTOR 100 1/16WR506 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR509 NRSA63J-104X M.G.RESISTOR 100k 1/16W (U)

R510 NRSA63J-102X M.G.RESISTOR 1k 1/16WR511 NRSA63J-104X M.G.RESISTOR 100k 1/16W

6-26



VR2 NVP1415-502X TRIM.RESISTOR 5k STA P (U)VR3 NVP1415-103X TRIM.RESISTOR 10k STO P (U)VR4 NVP1415-103X TRIM.RESISTOR 10k DEL P (U)VR5 NVP1415-503X TRIM.RESISTOR 50k C LEVELVR6 NVP1415-503X TRIM.RESISTOR 50k Y LEVEL

C1 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C2 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C3 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C4 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C5 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C6 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C7 NCB41CM-106X CER.CAPACITOR 10 16V (U)C8 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C9 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C10 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)

C11 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C12 NEH91CM-476X E.CAPACITOR 47 16V (U)C13 NEH91CM-476X E.CAPACITOR 47 16V (U)C14 NRSA02J-0R0X M.G.RESISTOR 0 1/16W (U)C15 NCB41CM-106X CER.CAPACITOR 10 16V (U)C16 NCB41CM-106X CER.CAPACITOR 10 16V (U)C17 NDC31HJ-150X CER.CAPACITOR 15p 50V (U)C19 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C20 NDC31HJ-821X CER.CAPACITOR 820p 50V (U)C21 NDC31HJ-101X CER.CAPACITOR 100p 50V (U)

C22 NDC31HJ-821X CER.CAPACITOR 820p 50V (U)C23 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C24 NCB31CK-104X CER.CAPACITOR 0.1 16V (U)C25 NDC31HJ-680X CER.CAPACITOR 68p 50V (U)C26 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C27 NEH90JM-476X E.CAPACITOR 47 6.3V (U)C28 NCF21AZ-475X CER.CAPACITOR 4.7 10V (U)C29 NCB41CM-106X CER.CAPACITOR 10 16V (U)C30 NCB31EK-103X CER.CAPACITOR 0.01 25VC31 NCB31EK-103X CER.CAPACITOR 0.01 25V

C32 NEX41AM-476X E.CAPACITOR 47 10VC33 NCB41CM-106X CER.CAPACITOR 10 16VC34 NCB31CK-104X CER.CAPACITOR 0.1 16VC35 NCB31EK-103X CER.CAPACITOR 0.01 25VC36 NCB31EK-103X CER.CAPACITOR 0.01 25VC37 NCB31EK-103X CER.CAPACITOR 0.01 25VC38 NCB31CK-104X CER.CAPACITOR 0.1 16VC39 NCB31CK-104X CER.CAPACITOR 0.1 16VC40 NCB31CK-104X CER.CAPACITOR 0.1 16VC41 NCB31CK-104X CER.CAPACITOR 0.1 16V

C42 NCB41CM-106X CER.CAPACITOR 10 16VC43 NCB41CM-106X CER.CAPACITOR 10 16VC44 NCB31CK-104X CER.CAPACITOR 0.1 16V (U)C45 NCF21AZ-475X CER.CAPACITOR 4.7 10V (U)C46 NCF31CZ-334X CER.CAPACITOR 0.33 16VC47 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C48 NCB31EK-103X CER.CAPACITOR 0.01 25V (U)C50 NCB31EK-103X CER.CAPACITOR 0.01 25VC51 NEX41AM-226X E.CAPACITOR 22 10VC52 NCB41EM-475X CER.CAPACITOR 4.7 25V (U)

NCB41CM-106X CER.CAPACITOR 10 16V (E)

C53 NCB41CM-106X CER.CAPACITOR 10 16VC54 QEKC1CM-336Z E.CAPACITOR 33 16V (U)C55 NCB41CM-106X CER.CAPACITOR 10 16V (U)C401 NDC31HJ-8R0X CER.CAPACITOR 8p 50VC402 NDC31HJ-8R0X CER.CAPACITOR 8p 50VC403 NCB31CK-104X CER.CAPACITOR 0.1 16VC404 NCB31CK-104X CER.CAPACITOR 0.1 16VC405 NCB31CK-104X CER.CAPACITOR 0.1 16VC406 NCB31CK-104X CER.CAPACITOR 0.1 16VC407 NCB31CK-104X CER.CAPACITOR 0.1 16V

C408 NCB31CK-104X CER.CAPACITOR 0.1 16VC409 NCB31CK-104X CER.CAPACITOR 0.1 16VC410 NCB31CK-104X CER.CAPACITOR 0.1 16VC411 NCB31CK-104X CER.CAPACITOR 0.1 16VC412 NCB31CK-104X CER.CAPACITOR 0.1 16VC413 NCB31CK-104X CER.CAPACITOR 0.1 16V

C414 NCB31CK-104X CER.CAPACITOR 0.1 16VC415 NCB31CK-104X CER.CAPACITOR 0.1 16VC416 NCB31CK-104X CER.CAPACITOR 0.1 16VC417 NCB31CK-104X CER.CAPACITOR 0.1 16V

C418 NCB31HK-103X CER.CAPACITOR 0.01 50VC419 NCB31CK-104X CER.CAPACITOR 0.1 16VC420 NCB41CM-106X CER.CAPACITOR 10 16VC421 NCB41CM-106X CER.CAPACITOR 10 16VC422 NDC31HJ-102X CER.CAPACITOR 1000p 50VC423 NDC31HJ-102X CER.CAPACITOR 1000p 50VC424 NDC31HJ-102X CER.CAPACITOR 1000p 50V

L1 NQL024J-471X COIL 470uH (U)L2 NQL024J-100X COIL 10uH (U)L3 NQL024J-100X COIL 10uH (U)L4 NQL024J-100X COIL 10uH (U)L5 NQL024J-100X COIL 10uHL6 NQL024J-100X COIL 10uHL401 NQL024J-100X COIL 10uH

X401 NAX0320-001X CRYSTAL 31.9488MHz

CN101 QGF0508F1-40X CONNECTOR 40PINCN401 QGF0508F1-40X CONNECTOR 40PINCN402 QGF0508F2-20X CONNECTOR 20PIN

K401 PGZ00627Z FERRATE BEADSK402 PGZ00627Z FERRATE BEADS

[VIDEO/SYSCON]

6-27



6.25 AUDIO/LCD BOARD ASSEMBLY PARTS LIST 32SLK2091-I0C 32``````

IC201 NJM2068M-D-X I.C.(M) JRCIC202 TC4W53F-X I.C.(M) TOSHIBAIC203 TC4W53F-X I.C.(M) TOSHIBAIC204 NJM2068M-D-X I.C.(M) JRCIC205 NJM2068M-D-X I.C.(M) JRCIC206 BA3314F-X I.C.(M) ROHMIC207 BA3314F-X I.C.(M) ROHMIC208 TC4051BF-X I.C.(M) TOSHIBAIC209 TC4051BF-X I.C.(M) TOSHIBAIC210 TC4S81F-X I.C.(M) TOSHIBA

IC211 TC4S81F-X I.C.(M) TOSHIBAIC281 TC4W53F-X I.C.(M) TOSHIBAIC282 NJM2904M-X I.C.(M) JRCIC298 TC4S81F-X I.C.(M) TOSHIBAIC299 TC4S81F-X I.C.(M) TOSHIBAIC301 M5201FP-X I.C.(M) MITSUBISHIIC302 M5201FP-X I.C.(M) MITSUBISHIIC303 M5216FP-X I.C.(M) MITSUBISHIIC304 M5218AFP-X I.C.(M) MITSUBISHIIC601 UPD78P058BT I.C.(M) NEC

IC602 NJU6433FB2 I.C.(M) JRCIC603 TC7S66FU-X I.C.(M) TOSHIBAIC604 TC7SU04FU-X I.C.(M) TOSHIBAIC605 TC7W126FU-X I.C.(M) TOSHIBAIC615 BA6138F-X I.C.(M) ROHMIC616 S-80840ANNP-W I.C.(M) SEIKOIC618 S-8423LFS-X I.C.(M) SEIKO

Q201 DTC124EUA-X TRANSISTOR ROHMQ202 DTC124EUA-X TRANSISTOR ROHMQ203 DTC144EUA-X TRANSISTOR ROHMQ204 DTC144EUA-X TRANSISTOR ROHMQ298 DTC144EUA-X TRANSISTOR ROHMQ299 DTC144EUA-X TRANSISTOR ROHMQ301 FMW3-X TRANSISTOR ROHMQ302 2SD601A/QRS/-X TRANSISTOR MATSUSHITAQ309 FMW3-X TRANSISTOR ROHMQ310 DTC124EUA-X TRANSISTOR ROHM

Q311 2SJ279S-X FET HITACHIQ321 DTC144EUA-X TRANSISTOR ROHMQ322 DTA114EUA-X TRANSISTOR ROHMQ361 DTC144EUA-X TRANSISTOR ROHMQ601 DTA124EUA-X TRANSISTOR ROHMQ602 DTC124EUA-X TRANSISTOR ROHMQ603 FMC2A-X TRANSISTOR ROHMQ604 FMC2A-X TRANSISTOR ROHMQ605 FMC2A-X TRANSISTOR ROHMQ606 FMC2A-X TRANSISTOR ROHM

Q607 DTC124EUA-X TRANSISTOR ROHM

D605 DAN202U-X DIODE ROHMD606 DAN202U-X DIODE ROHMD607 DAN202U-X DIODE ROHM

LD601 TLSG208 L.E.D.LD602 QLD0092-001 L.C.D

PC201 P873-25 PHOTO COUPLER

R201 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR202 NRSA63J-103X M.G.RESISTOR 10k 1/16WR203 NRSA63J-103X M.G.RESISTOR 10k 1/16WR204 NRSA63J-104X M.G.RESISTOR 100k 1/16WR205 NRSA63J-682X M.G.RESISTOR 6.8k 1/16WR206 NRSA63J-682X M.G.RESISTOR 6.8k 1/16WR207 NRSA63J-103X M.G.RESISTOR 10k 1/16WR208 NRSA63J-103X M.G.RESISTOR 10k 1/16WR209 NRSA63J-103X M.G.RESISTOR 10k 1/16WR210 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R211 NRSA63J-104X M.G.RESISTOR 100k 1/16W

R212 NRSA63J-104X M.G.RESISTOR 100k 1/16WR215 NRSA63J-123X M.G.RESISTOR 12k 1/16WR216 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR217 NRSA63J-102X M.G.RESISTOR 1k 1/16WR218 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR219 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR220 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR221 NRSA63J-182X M.G.RESISTOR 1.8k 1/16WR222 NRSA63J-182X M.G.RESISTOR 1.8k 1/16W

R223 NRSA63J-471X M.G.RESISTOR 470 1/16WR224 NRSA63J-471X M.G.RESISTOR 470 1/16WR225 NRSA63J-102X M.G.RESISTOR 1k 1/16WR226 NRSA63J-102X M.G.RESISTOR 1k 1/16WR227 NRSA63J-103X M.G.RESISTOR 10k 1/16WR228 NRSA63J-103X M.G.RESISTOR 10k 1/16WR230 NRSA63J-104X M.G.RESISTOR 100k 1/16WR235 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR236 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR237 NRSA63J-104X M.G.RESISTOR 100k 1/16W

R239 NRSA63J-103X M.G.RESISTOR 10k 1/16WR240 NRSA63J-103X M.G.RESISTOR 10k 1/16WR241 NRSA63J-153X M.G.RESISTOR 15k 1/16WR242 NRSA63J-153X M.G.RESISTOR 15k 1/16WR243 NRSA63J-473X M.G.RESISTOR 47k 1/16WR244 NRSA63J-473X M.G.RESISTOR 47k 1/16WR245 NRSA63J-183X M.G.RESISTOR 18k 1/16WR246 NRSA63J-183X M.G.RESISTOR 18k 1/16WR247 NRSA63J-103X M.G.RESISTOR 10k 1/16WR248 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R249 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR250 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR251 NRSA63J-182X M.G.RESISTOR 1.8k 1/16WR252 NRSA63J-182X M.G.RESISTOR 1.8k 1/16WR253 NRSA63J-225X M.G.RESISTOR 2.2M 1/16WR254 NRSA63J-225X M.G.RESISTOR 2.2M 1/16WR255 NRSA63J-123X M.G.RESISTOR 12k 1/16WR256 NRSA63J-123X M.G.RESISTOR 12k 1/16WR257 NRSA63J-273X M.G.RESISTOR 27k 1/16WR258 NRSA63J-273X M.G.RESISTOR 27k 1/16W

R259 NRSA63J-102X M.G.RESISTOR 1k 1/16WR260 NRSA63J-102X M.G.RESISTOR 1k 1/16WR261 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR262 NRSA63J-392X M.G.RESISTOR 3.9k 1/16WR263 NRSA63J-103X M.G.RESISTOR 10k 1/16WR264 NRSA63J-103X M.G.RESISTOR 10k 1/16WR267 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR268 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR269 NRSA63J-224X M.G.RESISTOR 220k 1/16WR270 NRSA63J-224X M.G.RESISTOR 220k 1/16W

R271 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR281 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR282 NRSA63J-101X M.G.RESISTOR 100 1/16WR283 NRSA63J-223X M.G.RESISTOR 22k 1/16WR284 NRSA63J-104X M.G.RESISTOR 100k 1/16WR298 NRSA63J-473X M.G.RESISTOR 47k 1/16WR299 NRSA63J-473X M.G.RESISTOR 47k 1/16WR301 NRSA63J-473X M.G.RESISTOR 47k 1/16WR302 NRSA63J-473X M.G.RESISTOR 47k 1/16WR303 NRSA63J-822X M.G.RESISTOR 8.2k 1/16W

R304 NRSA63J-822X M.G.RESISTOR 8.2k 1/16WR305 NRSA63J-103X M.G.RESISTOR 10k 1/16WR306 NRSA63J-103X M.G.RESISTOR 10k 1/16WR307 NRSA63J-103X M.G.RESISTOR 10k 1/16WR308 NRSA63J-103X M.G.RESISTOR 10k 1/16WR309 NRSA63J-473X M.G.RESISTOR 47k 1/16WR310 NRSA63J-473X M.G.RESISTOR 47k 1/16WR311 NRSA63J-103X M.G.RESISTOR 10k 1/16WR312 NRSA63J-103X M.G.RESISTOR 10k 1/16WR313 NRSA63J-822X M.G.RESISTOR 8.2k 1/16W

R314 NRSA63J-822X M.G.RESISTOR 8.2k 1/16WR315 NRSA63J-103X M.G.RESISTOR 10k 1/16WR316 NRSA63J-103X M.G.RESISTOR 10k 1/16WR317 NRSA63J-102X M.G.RESISTOR 1k 1/16W

6-28



R318 NRSA63J-102X M.G.RESISTOR 1k 1/16WR319 NRSA63J-473X M.G.RESISTOR 47k 1/16WR320 NRSA63J-473X M.G.RESISTOR 47k 1/16WR323 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR324 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR325 NRSA63J-103X M.G.RESISTOR 10k 1/16W

R326 NRSA63J-273X M.G.RESISTOR 27k 1/16WR327 NRSA63J-102X M.G.RESISTOR 1k 1/16WR328 NRSA63J-102X M.G.RESISTOR 1k 1/16WR329 NRSA63J-102X M.G.RESISTOR 1k 1/16WR330 NRSA63J-103X M.G.RESISTOR 10k 1/16WR331 NRSA63J-103X M.G.RESISTOR 10k 1/16WR332 NRSA63J-473X M.G.RESISTOR 47k 1/16WR335 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR336 NRSA63J-202X M.G.RESISTOR 2k 1/16WR337 NRSA63J-202X M.G.RESISTOR 2k 1/16W

R339 NRSA63J-103X M.G.RESISTOR 10k 1/16WR340 NRSA63J-333X M.G.RESISTOR 33k 1/16WR341 NRSA63J-330X M.G.RESISTOR 33 1/16WR342 NRSA63J-473X M.G.RESISTOR 47k 1/16WR343 NRSA63J-510X M.G.RESISTOR 51 1/16WR344 NRSA63J-510X M.G.RESISTOR 51 1/16WR345 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR355 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR356 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR358 NRSA63J-104X M.G.RESISTOR 100k 1/16W

R359 NRSA63J-104X M.G.RESISTOR 100k 1/16WR361 NRSA63J-473X M.G.RESISTOR 47k 1/16WR362 NRSA63J-473X M.G.RESISTOR 47k 1/16WR371 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR372 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR373 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR374 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR375 NRSA63J-102X M.G.RESISTOR 1k 1/16WR376 NRSA63J-102X M.G.RESISTOR 1k 1/16WR377 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R380 NRSA63J-473X M.G.RESISTOR 47k 1/16WR381 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR383 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR385 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR390 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR391 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR392 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR393 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR394 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR395 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R396 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR398 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR601 NRSA63J-104X M.G.RESISTOR 100k 1/16WR602 NRSA63J-104X M.G.RESISTOR 100k 1/16WR603 NRSA63J-104X M.G.RESISTOR 100k 1/16WR604 NRSA63J-121X M.G.RESISTOR 120 1/16WR605 NRSA63J-121X M.G.RESISTOR 120 1/16WR606 NRSA63J-121X M.G.RESISTOR 120 1/16WR607 NRSA63J-104X M.G.RESISTOR 100k 1/16WR608 NRSA63J-104X M.G.RESISTOR 100k 1/16W

R609 NRSA63J-334X M.G.RESISTOR 330k 1/16WR610 NRSA63J-821X M.G.RESISTOR 820 1/16WR611 NRSA63J-104X M.G.RESISTOR 100k 1/16WR612 NRSA63J-102X M.G.RESISTOR 1k 1/16WR630 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR631 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR632 NRSA63J-103X M.G.RESISTOR 10k 1/16WR633 NRSA63J-103X M.G.RESISTOR 10k 1/16WR634 NRSA63J-333X M.G.RESISTOR 33k 1/16WR635 NRSA63J-823X M.G.RESISTOR 82k 1/16W

R636 NRSA63J-104X M.G.RESISTOR 100k 1/16WR637 NRSA63J-102X M.G.RESISTOR 1k 1/16WR638 NRSA63J-224X M.G.RESISTOR 220k 1/16WR639 NRSA63J-224X M.G.RESISTOR 220k 1/16WR640 NRSA63J-224X M.G.RESISTOR 220k 1/16WR641 NRSA63J-101X M.G.RESISTOR 100 1/16WR642 NRSA63J-334X M.G.RESISTOR 330k 1/16W

R643 NRSA63J-301X M.G.RESISTOR 300 1/16WR644 NRSA63J-301X M.G.RESISTOR 300 1/16WR645 NRSA63J-301X M.G.RESISTOR 300 1/16W

R646 NRSA63J-301X M.G.RESISTOR 300 1/16WR647 NRSA63J-301X M.G.RESISTOR 300 1/16WR648 NRSA63J-301X M.G.RESISTOR 300 1/16WR649 NRSA63J-104X M.G.RESISTOR 100k 1/16WR650 NRSA63J-104X M.G.RESISTOR 100k 1/16WR651 NRSA63J-104X M.G.RESISTOR 100k 1/16WR652 NRSA63J-104X M.G.RESISTOR 100k 1/16WR653 NRSA63J-104X M.G.RESISTOR 100k 1/16WR654 NRSA63J-470X M.G.RESISTOR 47 1/16WR655 NRSA63J-470X M.G.RESISTOR 47 1/16W

R656 NRSA63J-470X M.G.RESISTOR 47 1/16WR657 NRSA63J-470X M.G.RESISTOR 47 1/16WR658 NRSA63J-470X M.G.RESISTOR 47 1/16WR659 NRSA63J-104X M.G.RESISTOR 100k 1/16WR660 NRSA63J-104X M.G.RESISTOR 100k 1/16WR661 NRSA63J-104X M.G.RESISTOR 100k 1/16WR662 NRSA63J-104X M.G.RESISTOR 100k 1/16WR663 NRSA63J-104X M.G.RESISTOR 100k 1/16WR664 NRSA63J-104X M.G.RESISTOR 100k 1/16WR665 NRSA63J-104X M.G.RESISTOR 100k 1/16W

R666 NRSA63J-104X M.G.RESISTOR 100k 1/16WR667 NRSA63J-104X M.G.RESISTOR 100k 1/16WR668 NRSA63J-104X M.G.RESISTOR 100k 1/16WR669 NRSA63J-104X M.G.RESISTOR 100k 1/16WR670 NRSA63J-333X M.G.RESISTOR 33k 1/16WR671 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR672 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR673 NRSA63J-271X M.G.RESISTOR 270 1/16WR674 NRSA63J-271X M.G.RESISTOR 270 1/16WR675 NRSA63J-101X M.G.RESISTOR 100 1/16W

R676 NRSA63J-271X M.G.RESISTOR 270 1/16WR677 NRSA63J-154X M.G.RESISTOR 150k 1/16WR678 NRSA63J-101X M.G.RESISTOR 100 1/16WR679 NRSA63J-333X M.G.RESISTOR 33k 1/16WR680 NRSA63J-101X M.G.RESISTOR 100 1/16WR681 NRSA63J-101X M.G.RESISTOR 100 1/16WR682 NRSA63J-101X M.G.RESISTOR 100 1/16WR683 NRSA63J-104X M.G.RESISTOR 100k 1/16WR684 NRSA63J-103X M.G.RESISTOR 10k 1/16WR685 NRSA63J-102X M.G.RESISTOR 1k 1/16W

R686 NRSA63J-101X M.G.RESISTOR 100 1/16WR687 NRSA63J-101X M.G.RESISTOR 100 1/16WR688 NRSA63J-154X M.G.RESISTOR 150k 1/16WR689 NRSA63J-154X M.G.RESISTOR 150k 1/16WR701 NRSA63J-104X M.G.RESISTOR 100k 1/16WR702 NRSA63J-104X M.G.RESISTOR 100k 1/16WR703 NRSA63J-104X M.G.RESISTOR 100k 1/16WR704 NRSA63J-104X M.G.RESISTOR 100k 1/16WR705 NRSA63J-104X M.G.RESISTOR 100k 1/16WR706 NRSA63J-104X M.G.RESISTOR 100k 1/16W

R707 NRSA63J-104X M.G.RESISTOR 100k 1/16WR708 NRSA63J-104X M.G.RESISTOR 100k 1/16WR709 NRSA63J-104X M.G.RESISTOR 100k 1/16WR710 NRSA63J-104X M.G.RESISTOR 100k 1/16WR711 NRSA63J-101X M.G.RESISTOR 100 1/16WR712 NRSA63J-104X M.G.RESISTOR 100k 1/16WR714 NRSA63J-104X M.G.RESISTOR 100k 1/16WR715 NRSA63J-470X M.G.RESISTOR 47 1/16WR716 NRSA63J-470X M.G.RESISTOR 47 1/16WR717 NRSA63J-470X M.G.RESISTOR 47 1/16W

R718 NRSA63J-104X M.G.RESISTOR 100k 1/16WR721 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR722 NRSA63J-104X M.G.RESISTOR 100k 1/16WR723 NRSA63J-104X M.G.RESISTOR 100k 1/16WR724 NRSA63J-104X M.G.RESISTOR 100k 1/16WR725 NRSA63J-104X M.G.RESISTOR 100k 1/16WR726 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR727 NRSA63J-104X M.G.RESISTOR 100k 1/16WR728 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR729 NRSA63J-102X M.G.RESISTOR 1k 1/16W

[AUDIO/LCD]

6-29



VR201 QVQ0290-A14 VAL.RESISTOR 10k REC VR CH1VR202 QVQ0290-A14 VAL.RESISTOR 10k REC VR CH2VR301 NVP1415-104X TRIM.RESISTOR 100k CH1 UNITVR302 NVP1415-104X TRIM.RESISTOR 100kVR303 NVP1415-104X TRIM.RESISTOR 100kVR304 NVP1415-104X TRIM.RESISTOR 100k CH2 UNITVR310 QVQ0290-A14 VAL.RESISTOR 10k AU OUT SELVR311 QVQ0290-A14 VAL.RESISTOR 10k ALARM/MONVR601 NVP1415-502X TRIM.RESISTOR 5k LCD L LEVVR602 NVP1415-502X TRIM.RESISTOR 5k LCD R LEV

C201 NCB41CM-106X CER.CAPACITOR 10 16VC202 NCB41CM-106X CER.CAPACITOR 10 16VC203 NCB41CM-106X CER.CAPACITOR 10 16VC204 NCB41CM-106X CER.CAPACITOR 10 16VC205 NDC31HJ-101X CER.CAPACITOR 100p 50VC206 NCB31CK-104X CER.CAPACITOR 0.1 16VC207 NEH71CM-106X E.CAPACITOR 10 16VC208 NCB31CK-104X CER.CAPACITOR 0.1 16VC209 NEH71CM-106X E.CAPACITOR 10 16VC211 NCB41CM-106X CER.CAPACITOR 10 16V

C212 NCB41CM-106X CER.CAPACITOR 10 16VC213 NCB21CK-474X CER.CAPACITOR 0.47 16VC214 NCB21CK-474X CER.CAPACITOR 0.47 16VC215 NCB21CK-474X CER.CAPACITOR 0.47 16VC216 NCB21CK-474X CER.CAPACITOR 0.47 16VC217 NEH71CM-476X E.CAPACITOR 47 16VC218 NEH71CM-476X E.CAPACITOR 47 16VC219 NCB31CK-104X CER.CAPACITOR 0.1 16VC220 NCB31CK-104X CER.CAPACITOR 0.1 16VC223 NCB31CK-104X CER.CAPACITOR 0.1 16V

C224 NCB31CK-104X CER.CAPACITOR 0.1 16VC225 NCB41CM-106X CER.CAPACITOR 10 16VC226 NCB41CM-106X CER.CAPACITOR 10 16VC227 NCB31CK-104X CER.CAPACITOR 0.1 16VC228 NCB31CK-104X CER.CAPACITOR 0.1 16VC229 NEH71CM-106X E.CAPACITOR 10 16VC230 NEH71CM-106X E.CAPACITOR 10 16VC231 NEH71CM-106X E.CAPACITOR 10 16VC232 NEH71CM-106X E.CAPACITOR 10 16VC233 NCB31CK-104X CER.CAPACITOR 0.1 16V

C234 NCB31CK-104X CER.CAPACITOR 0.1 16VC235 NDC31HJ-100X CER.CAPACITOR 10p 50VC236 NDC31HJ-100X CER.CAPACITOR 10p 50VC237 NEH71CM-106X E.CAPACITOR 10 16VC238 NEH71CM-106X E.CAPACITOR 10 16VC239 NCB31CK-104X CER.CAPACITOR 0.1 16VC240 NCB31CK-104X CER.CAPACITOR 0.1 16VC241 NCB31CK-104X CER.CAPACITOR 0.1 16VC242 NCB31CK-104X CER.CAPACITOR 0.1 16VC243 NEH71CM-106X E.CAPACITOR 10 16V

C244 NEH71CM-106X E.CAPACITOR 10 16VC247 NEH71CM-106X E.CAPACITOR 10 16VC248 NEH71CM-106X E.CAPACITOR 10 16VC249 NEH71CM-106X E.CAPACITOR 10 16VC250 NEH71CM-106X E.CAPACITOR 10 16VC251 NCB41CM-106X CER.CAPACITOR 10 16VC252 NCB41CM-106X CER.CAPACITOR 10 16VC253 NCB41CM-106X CER.CAPACITOR 10 16VC254 NCB41CM-106X CER.CAPACITOR 10 16VC255 NCB31CK-104X CER.CAPACITOR 0.1 16V

C256 NCB31CK-104X CER.CAPACITOR 0.1 16VC257 NCB31CK-104X CER.CAPACITOR 0.1 16VC258 NCB31CK-104X CER.CAPACITOR 0.1 16VC265 NEH71CM-106X E.CAPACITOR 10 16VC266 NEH71CM-106X E.CAPACITOR 10 16VC267 NCB41CM-106X CER.CAPACITOR 10 16VC268 NCB41CM-106X CER.CAPACITOR 10 16VC269 NCB41CM-106X CER.CAPACITOR 10 16VC270 NCB41CM-106X CER.CAPACITOR 10 16VC271 NEH71CM-106X E.CAPACITOR 10 16V

C272 NEH71CM-106X E.CAPACITOR 10 16VC280 NCB31CK-104X CER.CAPACITOR 0.1 16V

C281 NCB31CK-104X CER.CAPACITOR 0.1 16VC282 NCB31CK-104X CER.CAPACITOR 0.1 16VC291 NCB41CM-106X CER.CAPACITOR 10 16VC292 NCB41CM-106X CER.CAPACITOR 10 16VC303 NCB41CM-106X CER.CAPACITOR 10 16VC304 NCB41CM-106X CER.CAPACITOR 10 16VC309 NCB41CM-106X CER.CAPACITOR 10 16VC310 NCB41CM-106X CER.CAPACITOR 10 16V

C313 NDC31HJ-100X CER.CAPACITOR 10p 50VC314 NDC31HJ-100X CER.CAPACITOR 10p 50VC315 NDC31HJ-100X CER.CAPACITOR 10p 50VC316 NDC31HJ-100X CER.CAPACITOR 10p 50VC317 NCB31CK-104X CER.CAPACITOR 0.1 16VC318 NEH71CM-226X E.CAPACITOR 22 16VC319 NEH71CM-226X E.CAPACITOR 22 16VC320 NCB31CK-104X CER.CAPACITOR 0.1 16VC321 NEH71CM-226X E.CAPACITOR 22 16VC322 NEH71CM-226X E.CAPACITOR 22 16V

C323 NCB31CK-104X CER.CAPACITOR 0.1 16VC324 NCB31CK-104X CER.CAPACITOR 0.1 16VC325 NCB41CM-106X CER.CAPACITOR 10 16VC326 NCB41CM-106X CER.CAPACITOR 10 16VC330 NCB31CK-104X CER.CAPACITOR 0.1 16VC331 NEH71CM-226X E.CAPACITOR 22 16VC332 NEH71CM-226X E.CAPACITOR 22 16VC333 NCB31CK-104X CER.CAPACITOR 0.1 16VC334 NCB31CK-104X CER.CAPACITOR 0.1 16VC335 NEH71CM-226X E.CAPACITOR 22 16V

C336 NCB31CK-104X CER.CAPACITOR 0.1 16VC337 NEH71CM-226X E.CAPACITOR 22 16VC341 NCB41CM-106X CER.CAPACITOR 10 16VC342 NCB41CM-106X CER.CAPACITOR 10 16VC343 NCB41CM-106X CER.CAPACITOR 10 16VC346 NDC31HJ-101X CER.CAPACITOR 100p 50VC347 NCB31CK-104X CER.CAPACITOR 0.1 16VC349 NEH71CM-106X E.CAPACITOR 10 16VC353 NEH71CM-476X E.CAPACITOR 47 16VC354 NCB41CM-106X CER.CAPACITOR 10 16V

C355 NCB41CM-106X CER.CAPACITOR 10 16VC356 NCB41CM-106X CER.CAPACITOR 10 16VC357 NEH71EM-226X E.CAPACITOR 22 25VC361 NCB41CM-106X CER.CAPACITOR 10 16VC362 NCB41CM-106X CER.CAPACITOR 10 16VC368 NEH71CM-106X E.CAPACITOR 10 16VC370 NEH71CM-106X E.CAPACITOR 10 16VC373 NCB41CM-106X CER.CAPACITOR 10 16VC374 NCB41CM-106X CER.CAPACITOR 10 16VC381 NCB31CK-104X CER.CAPACITOR 0.1 16V

C382 NEH71CM-476X E.CAPACITOR 47 16VC383 NCB31CK-104X CER.CAPACITOR 0.1 16VC384 NEH71CM-476X E.CAPACITOR 47 16VC385 NCB31CK-104X CER.CAPACITOR 0.1 16VC386 NEH71CM-476X E.CAPACITOR 47 16VC387 NCB31CK-104X CER.CAPACITOR 0.1 16VC388 NCB31CK-104X CER.CAPACITOR 0.1 16VC389 NCB31CK-104X CER.CAPACITOR 0.1 16VC391 NCB31CK-104X CER.CAPACITOR 0.1 16VC392 NEH71EM-226X E.CAPACITOR 22 25V

C393 NCB31CK-104X CER.CAPACITOR 0.1 16VC601 NCB31CK-104X CER.CAPACITOR 0.1 16VC602 NCB31CK-104X CER.CAPACITOR 0.1 16VC603 NCB31CK-104X CER.CAPACITOR 0.1 16VC604 NCB31CK-104X CER.CAPACITOR 0.1 16VC619 NCB31CK-104X CER.CAPACITOR 0.1 16VC620 NCB41EM-475X CER.CAPACITOR 4.7 25VC621 NCB31CK-104X CER.CAPACITOR 0.1 16VC622 NCB41CM-106X CER.CAPACITOR 10 16VC623 NCB41CM-106X CER.CAPACITOR 10 16V

C624 NCF21CZ-105X CER.CAPACITOR 1 16VC625 NCB41EM-475X CER.CAPACITOR 4.7 25VC628 NCB41CM-106X CER.CAPACITOR 10 16VC629 NCB41CM-106X CER.CAPACITOR 10 16VC630 NCB41CM-106X CER.CAPACITOR 10 16V

6-30



C631 NCB41EM-475X CER.CAPACITOR 4.7 25VC633 NCB41EM-475X CER.CAPACITOR 4.7 25VC634 NCB41EM-475X CER.CAPACITOR 4.7 25VC635 NDC31HJ-180X CER.CAPACITOR 18p 50VC636 NDC31HJ-150X CER.CAPACITOR 15p 50V

C637 NDC31HJ-150X CER.CAPACITOR 15p 50VC638 NDC31HJ-150X CER.CAPACITOR 15p 50VC639 NCB31CK-104X CER.CAPACITOR 0.1 16VC640 NCB31CK-104X CER.CAPACITOR 0.1 16VC641 NCB31CK-104X CER.CAPACITOR 0.1 16VC642 NCB31CK-104X CER.CAPACITOR 0.1 16VC643 NCB31CK-104X CER.CAPACITOR 0.1 16VC651 NCB41EM-475X CER.CAPACITOR 4.7 25VC652 NCB41EM-475X CER.CAPACITOR 4.7 25VC653 NCB41CM-106X CER.CAPACITOR 10 16V

C654 NCB31CK-104X CER.CAPACITOR 0.1 16VC655 NCB31CK-104X CER.CAPACITOR 0.1 16VC656 NCB41CM-106X CER.CAPACITOR 10 16VC657 NCB41EM-475X CER.CAPACITOR 4.7 25VC670 NCB41CM-106X CER.CAPACITOR 10 16VC671 NCB41CM-106X CER.CAPACITOR 10 16V

L381 NQL024J-100X COIL 10uHL382 NQL024J-100X COIL 10uHL383 NQL024J-100X COIL 10uHL384 NQL024J-100X COIL 10uHL602 NQL024J-100X COIL 10uHL603 NQL024J-100X COIL 10uHL604 NQL024J-100X COIL 10uHL605 NQL024J-100X COIL 10uH

X601 NAX0065-001X CRYSTAL 4.912MHzX602 NAX0074-001X CRYSTAL 32.768kHz

S201 NSW0070-001X SLIDE SWITCH INPUT SEL CH1S202 NSW0070-001X SLIDE SWITCH INPUT SEL CH2S203 NSW0070-001X SLIDE SWITCH MANU/AUTO CH1S204 NSW0070-001X SLIDE SWITCH MANU/AUTO CH2S301 QSW0340-001 SLIDE SWITCH AUDIO OUT SELS601 NSW0070-001X SLIDE SWITCH PRESET/REGEN.S602 NSW0070-001X SLIDE SWITCH FREE/RECS603 QSW0334-001 SLIDE SWITCH LIGHTS604 NSW0005-001X SWITCH CONTINUES605 NSW0005-001X SWITCH MENU

S606 NSW0005-001X SWITCH HOLDS607 NSW0005-001X SWITCH SHIFTS608 NSW0005-001X SWITCH ADVANCES609 NSW0005-001X SWITCH PRESETS610 NSW0005-001X SWITCH RESETS611 QSW0340-001 SLIDE SWITCH CTL/TC/UBS612 NSW0125-001X SWITCH

CN201 QGF0508F1-40X CONNECTOR 40PINCN202 QGA1201F2-04X CONNECTOR 4PINCN203 QGA1201F2-02X CONNECTOR 2PINCN601 QGF0508F1-30X CONNECTOR 30PINCN602 QGF1012F1-08X CONNECTOR 8PINCN604 QGF0508F1-20X CONNECTOR 20PIN

BT601 CR2032-HLD BATTERY HOLDER

!CP601 ICP-S1.0TN ICP

DI601 QLL0063-001 BACK LIGHT ASSY

K603 PGZ00627Z FERRATE BEADSK604 PGZ00627Z FERRATE BEADSK605 PGZ00627Z FERRATE BEADSK606 PGZ00627Z FERRATE BEADSK607 PGZ00627Z FERRATE BEADS

6.26 REG BOARD ASSEMBLY PARTS LIST 33SLK2095-00B 33``````

IC1 MB3782PF-X I.C.(M) FUJITSUIC2 MB3782PF-X I.C.(M) FUJITSU

Q1 2SJ484WY-X FET HITACHIQ2 2SC4097/QR/-X TRANSISTOR ROHMQ3 2SA1577/QR/-X TRANSISTOR ROHMQ4 2SJ484WY-X FET HITACHIQ5 2SC4097/QR/-X TRANSISTOR ROHMQ6 2SA1577/QR/-X TRANSISTOR ROHMQ7 2SJ484WY-X FET HITACHIQ8 2SC4097/QR/-X TRANSISTOR ROHMQ9 2SA1577/QR/-X TRANSISTOR ROHMQ10 2SJ484WY-X FET HITACHI

Q11 2SC4097/QR/-X TRANSISTOR ROHMQ12 2SA1577/QR/-X TRANSISTOR ROHMQ13 2SA1577/QR/-X TRANSISTOR ROHMQ14 2SC4097/QR/-X TRANSISTOR ROHMQ15 HAT1021R-X TRANSISTOR HITACHIQ16 2SC4097/QR/-X TRANSISTOR ROHMQ17 2SA1577/QR/-X TRANSISTOR ROHMQ18 2SA1312/G/-X TRANSISTOR TOSHIBAQ19 DTC144EUA-X TRANSISTOR ROHM

D1 MA736-X DIODE MATSUSHITAD2 MA736-X DIODE MATSUSHITAD3 MA736-X DIODE MATSUSHITAD4 MA736-X DIODE MATSUSHITAD5 DA114-X DIODE ROHMD6 DA114-X DIODE ROHMD9 MA738-X DIODE MATSUSHITA

R1 NRSA63D-332X M.G.RESISTOR 3.3k 1/16WR2 NRSA63D-471X M.G.RESISTOR 470 1/16WR3 NRSA63D-100X M.G.RESISTOR 10 1/16WR4 NRSA63D-332X M.G.RESISTOR 3.3k 1/16WR5 NRSA63D-471X M.G.RESISTOR 470 1/16WR6 NRSA63D-100X M.G.RESISTOR 10 1/16WR7 NRSA63D-332X M.G.RESISTOR 3.3k 1/16WR8 NRSA63D-471X M.G.RESISTOR 470 1/16WR9 NRSA63D-100X M.G.RESISTOR 10 1/16WR10 NRSA63D-332X M.G.RESISTOR 3.3k 1/16W

R11 NRSA63D-471X M.G.RESISTOR 470 1/16WR12 NRSA63D-100X M.G.RESISTOR 10 1/16WR13 NRSA63D-332X M.G.RESISTOR 3.3k 1/16WR14 NRSA63D-332X M.G.RESISTOR 3.3k 1/16WR15 NRSA63D-681X M.G.RESISTOR 680 1/16WR16 NRSA63D-473X M.G.RESISTOR 47k 1/16WR17 NRSA63D-332X M.G.RESISTOR 3.3k 1/16WR18 NRSA63D-471X M.G.RESISTOR 470 1/16WR19 NRSA63D-100X M.G.RESISTOR 10 1/16WR20 NRSA63D-153X M.G.RESISTOR 15k 1/16W

R21 NRSA63D-154X M.G.RESISTOR 150k 1/16WR22 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR23 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR24 NRSA63D-683X M.G.RESISTOR 68k 1/16WR25 NRSA63D-274X M.G.RESISTOR 270k 1/16WR26 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR27 NRSA63D-154X M.G.RESISTOR 150k 1/16WR28 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR29 NRSA63D-154X M.G.RESISTOR 150k 1/16WR30 NRSA63D-683X M.G.RESISTOR 68k 1/16W

R31 NRSA63D-274X M.G.RESISTOR 270k 1/16WR32 NRSA63D-105X M.G.RESISTOR 1M 1/16WR33 NRSA63D-822X M.G.RESISTOR 8.2k 1/16WR34 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR35 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR36 NRSA63D-822X M.G.RESISTOR 8.2k 1/16WR37 NRSA63D-154X M.G.RESISTOR 150k 1/16WR38 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR39 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR40 NRSA63D-683X M.G.RESISTOR 68k 1/16W

R41 NRSA63D-274X M.G.RESISTOR 270k 1/16W

[AUDIO/LCD]

6-31



R42 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR43 NRSA63D-273X M.G.RESISTOR 27k 1/16WR44 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR46 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR47 NRSA63D-224X M.G.RESISTOR 220k 1/16WR48 NRSA63D-682X M.G.RESISTOR 6.8k 1/16WR49 NRSA63D-102X M.G.RESISTOR 1k 1/16WR50 NRSA63D-103X M.G.RESISTOR 10k 1/16WR51 NRSA63D-222X M.G.RESISTOR 2.2k 1/16W

R52 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR53 NRSA63D-154X M.G.RESISTOR 150k 1/16WR54 NRSA63D-683X M.G.RESISTOR 68k 1/16WR55 NRSA63D-274X M.G.RESISTOR 270k 1/16WR56 NRSA63D-683X M.G.RESISTOR 68k 1/16WR57 NRSA63D-274X M.G.RESISTOR 270k 1/16WR58 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR59 NRSA63D-154X M.G.RESISTOR 150k 1/16WR60 NRSA63D-103X M.G.RESISTOR 10k 1/16WR61 NRSA63D-103X M.G.RESISTOR 10k 1/16W

R62 NRSA63D-154X M.G.RESISTOR 150k 1/16WR63 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR64 NRSA63D-683X M.G.RESISTOR 68k 1/16WR65 NRSA63D-154X M.G.RESISTOR 150k 1/16WR66 NRSA63D-222X M.G.RESISTOR 2.2k 1/16WR67 NRSA63D-823X M.G.RESISTOR 82k 1/16WR68 NRSA63D-392X M.G.RESISTOR 3.9k 1/16WR69 NRSA63D-472X M.G.RESISTOR 4.7k 1/16WR70 NRSA63D-103X M.G.RESISTOR 10k 1/16WR71 NRSA63D-823X M.G.RESISTOR 82k 1/16W

R72 NRSA63D-681X M.G.RESISTOR 680 1/16WR101 NRSA63D-274X M.G.RESISTOR 270k 1/16WR102 NRSA63D-273X M.G.RESISTOR 27k 1/16W

C1 NBQD1AM-686X TAN.CAPACITOR 68 10VC2 NCB31CK-104X CER.CAPACITOR 0.1 16VC3 NBQD1AM-686X TAN.CAPACITOR 68 10VC4 NBQD1AM-686X TAN.CAPACITOR 68 10VC5 NCB31CK-104X CER.CAPACITOR 0.1 16VC6 NBQD1AM-686X TAN.CAPACITOR 68 10VC7 NBQD1AM-686X TAN.CAPACITOR 68 10VC8 NCB31CK-104X CER.CAPACITOR 0.1 16VC9 NBQD1AM-686X TAN.CAPACITOR 68 10VC10 NBQD1AM-686X TAN.CAPACITOR 68 10V

C11 NCB31CK-104X CER.CAPACITOR 0.1 16VC12 NBQD1AM-686X TAN.CAPACITOR 68 10VC13 NCB31CK-104X CER.CAPACITOR 0.1 16VC14 NBQD1AM-686X TAN.CAPACITOR 68 10VC15 NEHE1JM-106X E.CAPACITOR 10 63VC16 NCF21HZ-104X CER.CAPACITOR 0.1 50VC17 NCF21HZ-104X CER.CAPACITOR 0.1 50VC18 NCF21HZ-104X CER.CAPACITOR 0.1 50VC19 NCF21HZ-104X CER.CAPACITOR 0.1 50VC20 NCS31HJ-471X CER.CAPACITOR 470p 50V

C21 NCS31HJ-471X CER.CAPACITOR 470p 50VC22 NBQD1AM-686X TAN.CAPACITOR 68 10VC23 NCB31CK-104X CER.CAPACITOR 0.1 16VC24 NBQD1AM-686X TAN.CAPACITOR 68 10VC25 NEH71EM-226X E.CAPACITOR 22 25VC26 NEH71EM-226X E.CAPACITOR 22 25VC27 NCB31CK-104X CER.CAPACITOR 0.1 16VC28 NCB31CK-104X CER.CAPACITOR 0.1 16VC29 NCB31EK-822X CER.CAPACITOR 8200p 25VC30 NCB31EK-822X CER.CAPACITOR 8200p 25V

C31 NCB31CK-104X CER.CAPACITOR 0.1 16VC32 NCS31HJ-391X CER.CAPACITOR 390p 50VC33 NCB31EK-822X CER.CAPACITOR 8200p 25VC34 NCB31CK-104X CER.CAPACITOR 0.1 16VC35 NCB11CK-105X CER.CAPACITOR 1 16VC36 NCB31CK-104X CER.CAPACITOR 0.1 16VC37 NCB31EK-822X CER.CAPACITOR 8200p 25VC38 NCB31EK-822X CER.CAPACITOR 8200p 25VC39 NCB31CK-104X CER.CAPACITOR 0.1 16VC40 NCB31CK-104X CER.CAPACITOR 0.1 16V

C41 NCB31CK-104X CER.CAPACITOR 0.1 16VC42 NCB31EK-822X CER.CAPACITOR 8200p 25VC43 NCB31CK-104X CER.CAPACITOR 0.1 16VC44 NCB41EM-475X CER.CAPACITOR 4.7 25VC45 NCB41EM-475X CER.CAPACITOR 4.7 25VC46 NCB41EM-475X CER.CAPACITOR 4.7 25VC47 NCB41EM-475X CER.CAPACITOR 4.7 25VC48 NCB31CK-104X CER.CAPACITOR 0.1 16VC61 NEHE1JM-106X E.CAPACITOR 10 63VC101 NCB31CK-104X CER.CAPACITOR 0.1 16V

L1 SSV2810-330V COIL 33uHL2 SSV2810-330V COIL 33uHL3 SSV2810-330V COIL 33uHL4 SSV2810-330V COIL 33uHL5 SSV2810-330V COIL 33uHL6 SSV2810-330V COIL 33uHL7 SSV2810-330V COIL 33uHL8 SSV2810-330V COIL 33uHL9 SSV2810-330V COIL 33uHL10 NQL42EM-220X COIL 22uH

L11 NQL26CM-220X COIL 22uHL20 SSV2810-330V COIL 33uHL21 NQL26CM-330X COIL 33uH

CN1 QGA1201F2-06X CONNECTOR 6PINCN2 QGA1201C2-12X CONNECTOR 12PINCN3 QGA1201C2-04X CONNECTOR 4PIN

!CP1 ICP-S0.5TN ICP!CP2 ICP-S2.3TN ICP!CP3 ICP-S2.3TN ICP

T1 NQR0183-001X TRANSFORMER

6-32



6.27 MOTHER BOARD ASSEMBLY PARTS LIST 34SLK2098-01-00A 34``````

CN3 QGF0508C1-33W CONNECTOR 33PINCN4 QGF0508C1-30W CONNECTOR 30PINCN101 QGF0508C1-40W CONNECTOR 40PINCN102 SCV2477-006 CONNECTOR 6PINCN103 SCV2477-016 CONNECTOR 16PINCN104 QGF0508C1-20W CONNECTOR 20PINCN105 QGA1201C2-07X CONNECTOR 7PINCN106 QGA1201C2-12X CONNECTOR 12PINCN115 QGA1201C2-05X CONNECTOR 5PINCN201 QGF0508C1-40W CONNECTOR 40PIN

CN401 QGF0508C1-40W CONNECTOR 40PINCN601 QGF0508C1-30W CONNECTOR 30PIN


6.28 OPE BOARD ASSEMBLY PARTS LIST 35SLK2098-02-00A 35``````

IC1 M66312FP-W I.C.(M) MITSUBISHIIC2 TC7S14FU-X I.C.(M) TOSHIBAIC3 TC7S14FU-X I.C.(M) TOSHIBA

D1 DAN202U-X DIODE ROHM

LD1 SLM-13VWF-X L.E.D. LOGLD2 SLM-13VWF-X L.E.D. REWLD3 SLM-13VWF-X L.E.D. FFLD4 SLM-13VWF-X L.E.D. PLAYLD5 SLM-13VWF-X L.E.D. STILL

R1 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR2 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR3 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR4 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR5 NRSA63J-224X M.G.RESISTOR 220k 1/16WR6 NRSA63J-102X M.G.RESISTOR 1k 1/16WR7 NRSA63J-102X M.G.RESISTOR 1k 1/16WR8 NRSA63J-122X M.G.RESISTOR 1.2k 1/16WR9 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR10 NRSA63J-332X M.G.RESISTOR 3.3k 1/16W

R11 NRSA63J-561X M.G.RESISTOR 560 1/16WR12 NRSA63J-561X M.G.RESISTOR 560 1/16WR14 NRSA63J-561X M.G.RESISTOR 560 1/16WR15 NRSA63J-561X M.G.RESISTOR 560 1/16WR16 NRSA63J-561X M.G.RESISTOR 560 1/16WR17 NRSA63J-472X M.G.RESISTOR 4.7k 1/16WR18 NRSA63J-472X M.G.RESISTOR 4.7k 1/16W

C1 NBE21CM-475X TAN.CAPACITOR 4.7 16VC2 NCB31CK-104X CER.CAPACITOR 0.1 16VC3 NCB11CK-105X CER.CAPACITOR 1 16VC4 NCB31CK-104X CER.CAPACITOR 0.1 16VC5 NCB31CK-104X CER.CAPACITOR 0.1 16V

L1 NQL114K-100X COIL 10uH

S1 NSW0005-001X SWITCH REWS2 NSW0005-001X SWITCH STOPS3 NSW0005-001X SWITCH FFS4 NSW0005-001X SWITCH PLAYS5 NSW0005-001X SWITCH STILLS10 NSW0005-001X SWITCH LOG


6.29 SEN1 BOARD ASSEMBLY PARTS LIST 36SLK2098-03-00A 36``````

PC1 TLP909 PHOTO COUPLERPC2 TLP830 PHOTO COUPLER

R1 NRSA63J-102X M.G.RESISTOR 1k 1/16WR2 NRSA63J-223X M.G.RESISTOR 22k 1/16WR3 NRSA63J-821X M.G.RESISTOR 820 1/16WR4 NRSA63J-223X M.G.RESISTOR 22k 1/16W

C1 NCB31HK-103X CER.CAPACITOR 0.01 50V

CN115 QGA1201F2-05X CONNECTOR 5PINCN116 QGA1201F2-03X CONNECTOR 3PIN


6.30 SENS2 BOARD ASSEMBLY PARTS LIST 37SLK2098-04-00A 37``````

PC1 TLP814 PHOTO COUPLER

R1 NRSA63J-223X M.G.RESISTOR 22k 1/16WR2 NRSA63J-821X M.G.RESISTOR 820 1/16W

C1 NCB31HK-103X CER.CAPACITOR 0.01 50V



6.31 REMOTE BOARD ASSEMBLY PARTS LIST 38SLK2098-05-00C 38``````

D1 HZM9C-X ZENER DIODE HITACHID2 HZM9C-X ZENER DIODE HITACHID3 HZM9C-X ZENER DIODE HITACHID4 HZM9C-X ZENER DIODE HITACHID5 HZM9C-X ZENER DIODE HITACHID6 HZM9C-X ZENER DIODE HITACHI

CN102 SCV2477-006 CONNECTOR 6PIN

K1 SCV2662-027 FERRITE BEADSK2 SCV2662-027 FERRITE BEADSK3 SCV2662-027 FERRITE BEADSK4 SCV2662-027 FERRITE BEADSK5 SCV2662-027 FERRITE BEADS

6-33



6.32 AU JUNK BOARD ASSEMBLY PARTS LIST 39SLK2094-01-00B 39``````

IC1 NJM2068M-D-X I.C.(M) JRCIC2 NJM2068M-D-X I.C.(M) JRCIC101 NJM2068M-D-X I.C.(M) JRCIC102 NJM2068M-D-X I.C.(M) JRC

Q51 2SD2240/RST/-X TRANSISTOR MATSUSHITAQ52 2SB1463/RST/-X TRANSISTOR MATSUSHITAQ53 2SD2240/RST/-X TRANSISTOR MATSUSHITAQ151 2SD2240/RST/-X TRANSISTOR MATSUSHITAQ152 2SB1463/RST/-X TRANSISTOR MATSUSHITAQ153 2SD2240/RST/-X TRANSISTOR MATSUSHITA

D1 DA204U-X DIODE ROHMD2 DA204U-X DIODE ROHMD101 DA204U-X DIODE ROHMD102 DA204U-X DIODE ROHM

R1 NRVA02D-222X C.M.F.RESISTOR 2.2k 1/10WR2 NRVA02D-222X C.M.F.RESISTOR 2.2k 1/10WR3 NRVA02D-222X C.M.F.RESISTOR 2.2k 1/10WR4 NRVA02D-222X C.M.F.RESISTOR 2.2k 1/10WR5 NRVA02D-182X C.M.F.RESISTOR 1.8k 1/10WR6 NRVA02D-182X C.M.F.RESISTOR 1.8k 1/10WR11 NRVA02D-331X C.M.F.RESISTOR 330 1/10WR12 NRVA02D-331X C.M.F.RESISTOR 330 1/10WR13 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR14 NRSA63J-104X M.G.RESISTOR 100k 1/16W

R15 NRSA63J-104X M.G.RESISTOR 100k 1/16WR16 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR17 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR18 NRSA63J-750X M.G.RESISTOR 75 1/16WR19 NRSA63J-680X M.G.RESISTOR 68 1/16WR20 NRSA63J-101X M.G.RESISTOR 100 1/16WR21 NRSA63J-101X M.G.RESISTOR 100 1/16WR22 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR23 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR24 NRVA02D-153X C.M.F.RESISTOR 15k 1/10W

R25 NRVA02D-153X C.M.F.RESISTOR 15k 1/10WR26 NRVA02D-153X C.M.F.RESISTOR 15k 1/10WR27 NRVA02D-153X C.M.F.RESISTOR 15k 1/10WR51 NRSA63J-273X M.G.RESISTOR 27k 1/16WR52 NRSA63J-274X M.G.RESISTOR 270k 1/16WR53 NRSA63J-274X M.G.RESISTOR 270k 1/16WR54 NRSA63J-105X M.G.RESISTOR 1M 1/16WR55 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR56 NRSA63J-473X M.G.RESISTOR 47k 1/16WR57 NRSA63J-473X M.G.RESISTOR 47k 1/16W

R58 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR59 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR101 NRVA02D-222X C.M.F.RESISTOR 2.2k 1/10WR102 NRVA02D-222X C.M.F.RESISTOR 2.2k 1/10WR103 NRVA02D-222X C.M.F.RESISTOR 2.2k 1/10WR104 NRVA02D-222X C.M.F.RESISTOR 2.2k 1/10WR105 NRVA02D-182X C.M.F.RESISTOR 1.8k 1/10WR106 NRVA02D-182X C.M.F.RESISTOR 1.8k 1/10WR111 NRVA02D-331X C.M.F.RESISTOR 330 1/10WR112 NRVA02D-331X C.M.F.RESISTOR 330 1/10W

R113 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR114 NRSA63J-104X M.G.RESISTOR 100k 1/16WR115 NRSA63J-104X M.G.RESISTOR 100k 1/16WR116 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR117 NRSA63J-222X M.G.RESISTOR 2.2k 1/16WR118 NRSA63J-750X M.G.RESISTOR 75 1/16WR119 NRSA63J-680X M.G.RESISTOR 68 1/16WR120 NRSA63J-101X M.G.RESISTOR 100 1/16WR121 NRSA63J-101X M.G.RESISTOR 100 1/16WR122 NRSA63J-332X M.G.RESISTOR 3.3k 1/16W

R123 NRSA63J-332X M.G.RESISTOR 3.3k 1/16WR124 NRVA02D-153X C.M.F.RESISTOR 15k 1/10WR125 NRVA02D-153X C.M.F.RESISTOR 15k 1/10WR126 NRVA02D-153X C.M.F.RESISTOR 15k 1/10WR127 NRVA02D-153X C.M.F.RESISTOR 15k 1/10WR151 NRSA63J-273X M.G.RESISTOR 27k 1/16W

R152 NRSA63J-274X M.G.RESISTOR 270k 1/16WR153 NRSA63J-274X M.G.RESISTOR 270k 1/16WR154 NRSA63J-105X M.G.RESISTOR 1M 1/16WR155 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

R156 NRSA63J-473X M.G.RESISTOR 47k 1/16WR157 NRSA63J-473X M.G.RESISTOR 47k 1/16WR158 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR159 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR201 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR601 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR602 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR603 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR604 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

C1 NCB31HK-222X CER.CAPACITOR 2200p 50VC12 NEH71HM-106X E.CAPACITOR 10 50VC13 NEH71HM-106X E.CAPACITOR 10 50VC14 NEH71HM-106X E.CAPACITOR 10 50VC15 NEH71HM-106X E.CAPACITOR 10 50VC16 NDC31HJ-101X CER.CAPACITOR 100p 50VC17 NDC31HJ-101X CER.CAPACITOR 100p 50VC18 NCB31CK-104X CER.CAPACITOR 0.1 16VC19 NEH71CM-476X E.CAPACITOR 47 16VC20 NEH71CM-476X E.CAPACITOR 47 16V

C21 NCB31CK-104X CER.CAPACITOR 0.1 16VC22 NDC31HJ-101X CER.CAPACITOR 100p 50VC23 NCB31CK-104X CER.CAPACITOR 0.1 16VC24 NEH71CM-476X E.CAPACITOR 47 16VC25 NCB31CK-104X CER.CAPACITOR 0.1 16VC26 NEH71CM-476X E.CAPACITOR 47 16VC27 NCB41CM-106X CER.CAPACITOR 10 16VC51 NEH71HM-105X E.CAPACITOR 1 50VC52 NEH71HM-105X E.CAPACITOR 1 50VC55 NCB31HK-102X CER.CAPACITOR 1000p 50V

C101 NCB31HK-222X CER.CAPACITOR 2200p 50VC112 NEH71HM-106X E.CAPACITOR 10 50VC113 NEH71HM-106X E.CAPACITOR 10 50VC114 NEH71HM-106X E.CAPACITOR 10 50VC115 NEH71HM-106X E.CAPACITOR 10 50VC116 NDC31HJ-101X CER.CAPACITOR 100p 50VC117 NDC31HJ-101X CER.CAPACITOR 100p 50VC118 NCB31CK-104X CER.CAPACITOR 0.1 16VC119 NEH71CM-476X E.CAPACITOR 47 16VC120 NEH71CM-476X E.CAPACITOR 47 16V

C121 NCB31CK-104X CER.CAPACITOR 0.1 16VC122 NDC31HJ-101X CER.CAPACITOR 100p 50VC123 NCB31CK-104X CER.CAPACITOR 0.1 16VC124 NEH71CM-476X E.CAPACITOR 47 16VC125 NCB31CK-104X CER.CAPACITOR 0.1 16VC126 NEH71CM-476X E.CAPACITOR 47 16VC127 NCB41CM-106X CER.CAPACITOR 10 16VC151 NEH71HM-105X E.CAPACITOR 1 50VC152 NEH71HM-105X E.CAPACITOR 1 50VC155 NCB31HK-102X CER.CAPACITOR 1000p 50V

C202 NEH71CM-476X E.CAPACITOR 47 16VC203 NCB31CK-104X CER.CAPACITOR 0.1 16VC205 NEH71CM-476X E.CAPACITOR 47 16VC206 NCB31CK-104X CER.CAPACITOR 0.1 16V

L201 NQL024J-100X COIL 10uHL202 NQL024J-100X COIL 10uH

S1 QSW0811-001 SLIDE SWITCH INPUT SELECT 1S101 QSW0811-001 SLIDE SWITCH INPUT SELECT 2

CN104 QGF0508F1-20X CONNECTOR 20PINCN107 SCV2477-010 CONNECTOR 10PINCN108 QGA1201C2-04X CONNECTOR 4PINCN109 QGA1201C2-02X CONNECTOR 2PINCN801 QGA1201C2-06X CONNECTOR 6PIN

JK601 QNZ0097-001 JACK DV


6-34



6.33 XLR BOARD ASSEMBLY PARTS LIST 40SLK2094-02-00A 40``````

R301 NRSA63J-0R0X M.G.RESISTOR 0 1/16WR302 NRSA63J-0R0X M.G.RESISTOR 0 1/16W

C309 NDC31HJ-221X CER.CAPACITOR 220p 50VC310 NDC31HJ-221X CER.CAPACITOR 220p 50VC311 NDC31HJ-221X CER.CAPACITOR 220p 50VC312 NDC31HJ-221X CER.CAPACITOR 220p 50VC313 NDC31HJ-221X CER.CAPACITOR 220p 50VC314 NDC31HJ-221X CER.CAPACITOR 220p 50VC315 NDC31HJ-221X CER.CAPACITOR 220p 50VC316 NDC31HJ-221X CER.CAPACITOR 220p 50V

L301 NQL024J-101X COIL 100uHL302 NQL024J-101X COIL 100uHL303 NQL024J-101X COIL 100uHL304 NQL024J-101X COIL 100uH

CN107 SCV2644-110W CONNECTOR 11PIN

JK301 QNZ0428-001 CONNECTOR AUDIO CH1JK302 QNZ0428-001 CONNECTOR AUDIO CH2

K301 SCV2662-027 FERRITE BEADSK302 SCV2662-027 FERRITE BEADSK303 SCV2662-027 FERRITE BEADSK304 SCV2662-027 FERRITE BEADSK305 SCV2662-027 FERRITE BEADSK306 SCV2662-027 FERRITE BEADS


6.34 PWR JUNC BOARD ASSEMBLY PARTS LIST 41SLK2093-01-00A 41``````

D1 SB140L-6395 DIODE SANYOD2 HZM9C-X ZENER DIODE HITACHI

C1 QEUA1EM-478 E.CAPACITOR 4700 25VC2 NCB21EK-104X CER.CAPACITOR 0.1 25VC3 NCB21EK-104X CER.CAPACITOR 0.1 25V

TH2 QAD0115-R40Z THERMISTOR 0.4

!BK1 QMH0015-010 BLAKER

CN41 QGA2001C1-05 CONNECTOR 5PINCN105 QGA1501C1-07 CONNECTOR 7PINCN110 QGA1501C1-06 CONNECTOR 6PINCN111 QGA2001C1-02 CONNECTOR 2PINCN112 QGA1501C1-02 CONNECTOR 2PINCN113 QGA3901C1-02 CONNECTOR 2PINCN114 QGA3901C1-04 CONNECTOR 4PIN


TB1 SQMX002-001Z TERMINAL

6.35 CONNECT BOARD ASSEMBLY PARTS LIST 42SLK2093-02-00A 42``````

D1 HZM3.0NB1-X ZENER DIODE HITACHID2 HZM3.0NB1-X ZENER DIODE HITACHID3 HZM3.0NB1-X ZENER DIODE HITACHID4 HZM3.0NB1-X ZENER DIODE HITACHID5 HZM3.0NB1-X ZENER DIODE HITACHID6 HZM3.0NB1-X ZENER DIODE HITACHID7 HZM12NB2-X ZENER DIODE HITACHID8 HZM12NB2-X ZENER DIODE HITACHID9 HZM12NB2-X ZENER DIODE HITACHID10 HZM12NB2-X ZENER DIODE HITACHI

R1 NRSA02J-680X M.G.RESISTOR 68 1/10WR2 NRSA02J-680X M.G.RESISTOR 68 1/10WR3 NRSA02J-0R0X M.G.RESISTOR 0 1/10WR4 NRSA02J-0R0X M.G.RESISTOR 0 1/10WR5 NRSA02J-0R0X M.G.RESISTOR 0 1/10WR6 NRSA02J-0R0X M.G.RESISTOR 0 1/10WR7 NRSA02J-0R0X M.G.RESISTOR 0 1/10WR8 NRSA02J-0R0X M.G.RESISTOR 0 1/10WR9 NRSA02J-0R0X M.G.RESISTOR 0 1/10WR10 NRSA02J-0R0X M.G.RESISTOR 0 1/10W

R15 NRSA02J-0R0X M.G.RESISTOR 0 1/10W

C1 QEUC0JM-108Z E.CAPACITOR 1000 6.3VC2 QEUC0JM-108Z E.CAPACITOR 1000 6.3VC3 NDC21HJ-561X CER.CAPACITOR 560p 50VC5 NDC21HJ-561X CER.CAPACITOR 560p 50V

L1 NQL024J-4R7X COIL 4.7uHL2 NQL024J-4R7X COIL 4.7uH

CN103 QGF1003C1-16 CONNECTOR 16PIN

JK1 QNZ0157-001 JACK Y/C BNCJK4 QNN0251-001 JACK PIN


6.36 EAR.J BOARD ASSEMBLY PARTS LIST 43SLK2093-03-00A 43``````

C401 NDC21HJ-221X CER.CAPACITOR 220p 50VC402 NDC21HJ-221X CER.CAPACITOR 220p 50VC403 NDC21HJ-221X CER.CAPACITOR 220p 50VC404 NDC21HJ-221X CER.CAPACITOR 220p 50V

L401 NQL024J-4R7X COIL 4.7uHL402 NQL024J-4R7X COIL 4.7uHL403 NQL024J-4R7X COIL 4.7uH


JK401 QNS0153-001 JACK EARPHONE

6-35

8-1

Material MP ME

Width (inch) 1/2 1/4

Track pitch (µm) 20

4 : 2 : 2

Y 13.5

R-Y/B-Y 6.75 3.375

NTSC

PAL

4 : 1 : 1

4 : 2 : 0 (Line Sequential)

Y 720

R-Y/B-Y 360 180 : NTSC,360 : PAL

NTSC

PAL

482

578

480

576 : Y , 288 : R-Y/B-Y

18 15 10

Sampling frequency(MHz)

Quantization bits

Compression method

8

In-frame DCT

Compression

Sampling frequency (kHz)

Quantization bits

Channels

1/3.3

48

16

4

1/5

48(32)

16(12)

2(4)

Compression

Error correction code

Modulation method

Non compressed

Reed-Solomon integration code

SI-NRZI , 24/25

Sampling rate

Samples per line

TV lines per frame

D9 (Digital S) DVC Pro DV CAM DV

Tape

Video

Audio

SECTION 8

DESCRIPTION OF NEW CIRCUITRY

8.1 OUTLINE OF DV

8.1.1 Features of DV

Table 8-1-1 outlines comparisons between DV and other digital VCR formats.

Table 8-1-1 Comparison of Digital VCR Formats

As shown in the above table, the major specifications of the DVare almost identical to the D9 (Digital S).Differences lie only in the tape used, sampling rate and numberof executed pixels.

(A) Video signal

High video quality thanks to the 4:1:1 (*4:2:0) component dig-ital recording.

(Note) Descriptions marked * in the text and figures are PALdata.

• Luminance signalThe Y signal is sampled at 13.5 MHz so the Y signal bandwidthis about half the sampling frequency, or 6.75 MHz. This pro-vides better resolution than S-VHS and current TV broadcasting(Y bandwidth of about 4.5 MHz).

8-2

1/13.5 MHz

1/3.375 MHz

Y Signal

Colour differenceSignal (CR, CB)

180 Samples

720 Samples

576 Samples

360 Samples

288 Samples

720 Samples

480 Samples

480 Samples

4:1:1 Sampling

: Effective sample

: Interlaced sample

First effective linein each field

Line285

Line23

Line286

Line24

Line287

Line25

Line285

Line23

Line286

Line24

Line287

Line25

Line335

Line23

Line336

Line24

Line337

Line25

Line335

Line23

Line336

Line24

Line337

Line25

Line338

Line26

Line339

Line27

X2

1/13.5 MHz

1/6.75 MHz

Y Signal

Colour differenceSignal (CR, CB)

4:2:0 Sampling

: CR

: CB

X2




First pixel in the effective period

First pixel in the effective period

• Chrominance signal

By recording the chrominance signal in a form divided into colordifference signals R-Y and B-Y (component recording method),recording with excellent color reproduction and little color bluris achieved.

With VHS, the chrominance signal has been converted into alower-frequency signal so that its bandwidth has been limitedto 0.5 MHz. The DV has expanded the bandwidth by about 3times to 1.68 MHz (3.375MHz/2) and records the chrominancecomponents quite separately from the Y component. The sam-pling frequency of the R-Y and B-Y signals are 3.375 MHz (*6.75MHz), which is 1/4 (*1/2) of the Y signal sampling frequency of13.5 MHz. Based on this ratio, this recording method is referredto as 4:1:1 (*4:2:0 line sequential) digital component recording.

Fig. 8-1-1 4:1:1 Component Digital Recording

Fig. 8-1-2 *4:2:0 Component Digital Recording

8-3

(B) Audio signal

The DV format also records the audio digitally. Two recordingformats (48 kHz, 32 kHz) are provided to allow selection accord-ing to the purpose. Compatibility with 44.1 kHz sampling is alsoprovided for use in the reproduction of software tapes.

• 48 kHz, 16-bit high quality stereo modeThis recording mode provides high audio quality equivalent tothe DAT.Although compression technology is used in video recording,the audio recording does not use compression.

• 32 kHz, 12-bit mode with a stereo dubbing capabilityThis mode divides the audio area into two parts and records 12-bit stereo audio channels to both of them, or a total of 4 chan-nels. This makes it possible to record 2 audio channels at thesame time as performing video recording and to dub 2 addi-tional audio channels while leaving the original audio channels.

(C) Other features

• Video signal outputThe digital signal read out from a tape during playback is fed tothe image memory to arrange the time axis before being outputas the video signal. This makes it possible to reduce wow &flutter, which may be caused by head rotation irregularities ortape transport variations.

• Timecode enabling editingThe DV tape has a sub-code area for recording signals for use inediting. Timecodes are automatically recorded frame by framein this area so that the video can later be edited on a per-framebasis. The sub-code area also includes the recording of index IDsignals, which can be used in search and other operations later.

• AUX data recording information on recording and shootingThe video signal recording area on the tape records the signalcalled the AUX data together with the video signal. The AUXdata contains information on the recording date and shootingconditions such as wide-screen shooting, and is recorded auto-matically during recording. Parts of the AUX data informationcan be displayed on the screen as required. The AUX data onthe record mode, etc. is also recorded in the audio area in asimilar way to the video area.

• Digital interface for digital inputs/outputs (optional)All track data can be input or output directly without altering thedigital format (IEEE1394 compliant).DV terminals are provided to enable dubbing and editing usingdigital signals.

8.1.2 Tape Format of DV

Note) Descriptions marked * in the text and figures are PALdata.

The DV records the video and audio signals independently, inthe video area and in the audio area respectively. With the videosignal, the data of each frame is divided into 10 tracks (*12 tracks)before being recorded. Namely, the data of a frame is input to amemory, divided into 10 (*12), and recorded into 10 tracks (*12tracks) using a 2-channel head by rotating the drum by 5 turns(*6 turns) in the period of one frame (33.3 ms/*40 ms) of anormal NTSC (*PAL) signal. The sub-code area records data in-cluding the timecode, recording date, index and absolute tracknumber, and the ITI area records the reference signal of theabsolute height of track (SSA) ad tracking signals. The DV doesnot use the tracking control track. The tracking system of theDV is called the 3-frequency (F0, F1, F2) digital pilot system,which records digital pilot signals F0 (0Hz), F1 (465 kHz) orF2 (697.5 kHz) on every track during recording. When the F0track is reproduced, the DV controls the tracking servo so thatthe crosstalk levels of the pilot signals (F1, F2) in the tracks onthe left and right of the F0 track become identical. The pilotsignals are recorded over all the tracks.

Fig. 8-1-3 NTSC Format DV Tape

Fig. 8-1-4 PAL Format DV Tape

Audi

o

ITI

Sub

Vide

o

Hea

d w

ritin

g

10 tracks/frameF0 F0 F0 F0 F0F1 F2 F1 F1F2

Tape travel

Audi

o

ITI

Sub

Vide

o

Hea

d w

ritin

g

12 tracks/frameF0 F0 F0 F0 F0F1 F2 F1 F1F2 F0 F2

Tape travel

8-4

(A) Mini-DV cassette tape

The DV cassette uses metallic magnetic particles so that sta-ble, high-power signals can be obtained from even very thintracks. Metal tapes include the metal particle coated (MP) tapesand metal evaporated (ME) tapes. The Metal tape used with theDV is the ME tape which features a thin magnetic layer and lowdemagnetization.

• ID board and memory-in cassette (MIC)The DV cassette has 4-contact terminals on the back label sideedge of the shell. These terminals are called the “ID board ter-minals”, and the values of resistance across the terminals ex-press basic cassette ID (BCID) information such as the tape thick-ness, tape type and applications. The DV cassette can option-ally incorporate a memory for storing the BCID as well as thecontent information. In this case, these 4 terminals are used asthe serial communication terminals for the storage and readoutof cassette memory contents.

Fig. 8-1-5 External View of Mini-DV Cassette

Table 8-1-2 ID Board Terminal Standard

Bottom lid

Lower shell

Open

REC possible : CloseREC impossible: Open

Close

Accidental erasureprotection hole

Accidental erasureprotection tab

Reel lock

LED hole

Tape

Top lid

Upper shell

ID board terminal

Lid lock

Front lid

12

34

7µmReserved

MEReserved

For cleaningMP

For consumerFor professional

ReservedFor PC

–

Open1.80kΩ ± 0.09k

Open6.80kΩ ± 0.34k1.80kΩ ± 0.09k

S/COpen

6.80kΩ ± 0.34k1.80kΩ ± 0.09k

S/C–

ContentsTape

thickness

Tape type

Tape grade

Resistor value Function

MICID Board

VDD

SDA

SCK

GNDGND

1

TerminalNo

2

3

4

As described above, the ID board terminals are used in twoways and the cassettes are available as those with or withoutinternal memory according to the usage. The GY-DV500 andBR-DV600 are not avairable with this optional function, so infor-mation such as the content information cannot be written orread even when a cassette with internal memory is used withthem.All these models do through these terminals is read the BCID ofevery cassette.

8-5

4F0

3F2

θr

G2

Head motio

n

A ch 1(ch 1, 2)

α2

(PF0)

0F0

11F2

1F1

2F0

3F2

(PF1)

Opt. track 2

ITI

A ch 2(ch 3, 4)

Audio

G1

G2

ITI

Audio

G1

G2

ITI

Audio

G1

G2

ITI

Audio

G1

9F2

8F0

0F0

1F1

2F0

Tape travel (Ts)

α1

A ch 1(ch 1, 2)

Opt. track 2

A ch 2(ch 3, 4)

G3 G3

MRGMRG

Sub

Code Sub

Code

Tp

174°

11F2

0F0

1 Frm (Pilot Frm 0) 625/50

7F2

6F0

5F1

Opt. track 1

10F0

9F1

8F0

1 Frm (Pilot Frm 0) 525/60

Effecti

ve data area (P

AL: 134850 bit)

6F0

Opt. track 1

4F0

5F1

8F0

9F1

7F2

(PF0)

0F0

1F1

(PF1)

H1

He

1F2

Effecti

ve data area (N

TSC: 134975 bit)

VideoVideo

G3

MRG

Sub

Code

Video

G3

MRG

Sub

Code

Video

G2

ITI

Audio

G1

G3

MRG

Sub

Code

Video

G2

ITI

Audio

G1

G3

MRG

Sub

Code

Video

G2

ITI

Audio

G1

G3

MRG

Sub

Code

Video

G2

ITI

Audio

G1

G3

MRG

Sub

Code

Video

(We)

H0

Wt

H2

Head motion

Lr (θe)

(B) Main Standard of DV Tape Format (SD)

Fig. 8-1-6 Main Standard of DV Tape Format (SD) (Track Pattern)

8-6

8.2 MAJOR SIGNAL PROCESSING OPERATIONS OF DV

Fig. 8-2-1 shows the basic configuration of the major signalprocessing circuitry of the DV in the form of a block diagram.

Fig. 8-2-1 Basic Configuration of Major Signal Processing Circuitry of DV

8.2.1 Flow of Video and Audio Signals in Recording Circuitry

The video and audio signal inputs/outputs shown in Fig. 8-2-1are sampled digital signals.The input digital video signal is shuffled block by block, so thatdeviations in the compression rate of the picture can be pre-vented. This is achieved by gathering data from various posi-tions in the picture and compressing it. When the video signal issupplied to the ECC block for error correction later, de-shufflingis applied to return the data to the original positions in the videosignal. The shuffled video signal is coded. The coding consistsof replacing the image signal in the conversion block composedof multiple pixels with signals without correlation by means ofdiscrete cosine transform (DCT).The DCT operation consists of dividing the picture into blocks(each composed of 8 x 8 pixels) and obtaining the transformcoefficient, which indicates the amount of components of thepreviously determined basic image pattern (64 pixels) in eachblock.The VLC (Variable Length Coding) quantizes the DCT transformedsignal and applies entropy coding to the quantized signal. Thecoding technique used here performs Run Length coding first,then applies Huffman coding.The audio input signal is also shuffled block by block in the sameway as with the video signal, but the audio signal is not com-pressed.The video and audio signals are input to the ECC block, whereerror-correcting codes are appended to them. The error-correct-ing codes use product codes obtained by double coding of theReed-Solomon integration codes.The DCI-R (Digital Channel Interface for Recording) block per-forms channel coding of the recorded signals. It performs what

is usually called modulation by transforming a series of digitaldata composed of “1” and “0” to match the properties of mag-netic recording systems.

8.2.2 Flow of Video and Audio Signals in Playback Circuitry

When a digital VCR plays a recorded signal, the frequency re-sponse of the low-frequency and high-frequency componentsis degraded. The degradation in the frequency response of thelow-frequency components is because the played signal be-comes a differential waveform and a rotary transformer is used.That in the frequency response of the high-frequency compo-nents is caused by the performance of the recording tape itselfand by the gap between the tape and head during recording/playback.When a tape in which 1-bit pulses are recorded is played whilethe frequency response is degraded, the pulse duration is ex-panded and intersymbol interference results. The equalizer isused to suppress the intersymbol interference and reduce codeerrors.The DCI-P (Digital Channel Interface for Playback) block demodu-lates the signal, which has been coded for recording and turns itinto a signal that can be subjected to error correction.The ECC (Error Correcting Codes) block corrects errors whileperforming shuffling. The audio signal is then de-shuffled andoutput. The video signal is sent to the decoding block wherethe signal compressed by coding is expanded by means of de-coding, and returns to a digital signal. The digital video signal isthen de-shuffled before being output.

SHUFFLE

SHUFFLINGAUDIO

SHUFFLE

MACRO BLOCKSHUFFLINGVIDEO

DESHUF.

DESHUFFLING

DESHUF.

DESHUFFLING

VIDEO

CODING

DECODING

IEEE1394

I/F DV TERMINAL

DCI-R

DCI-P EQ

ECCOUTERINNER

DESHUFFLING

ECCINNEROUTER

SHUFFLING

3 TO 21+D

VITERBI

Phase &Amplitude

Compensator

PRE-AMP.

AUDIO

DCTVLC

I-DCTVLD

SI-NRZI24/25

TRACKINGSERVO

Note : PAL model is not available the signal output.

REC.AMP. HEAD

TAP

E

HEAD

TG

See note:

8-7

(a) With a 525/60 system: 90 (22.5) blocks

60 (60)blocks

(b) With a 625/50 system: 90 (45) blocks

72 (36)blocks

Figures inside ( ) are the number of color difference (CR, CB) blocks.

Six blocks occupying the same position andarea in the picture form a macroblock.

8

YCR

CB

88

8

8

8 8 8 8

Macroblock

8

8

YCR

CB

88

88

8 8

Macroblock

8.3 VIDEO/AUDIO SIGNAL PROCESSING IN

RECORDING CIRCUITRY

8.3.1 Division into Blocks

As shown in Fig. 8-3-1, data of each frame is divided intomacroblocks (MBs) (8 x 8 pixels) which are the basis of the DCTcircuitry. Since the luminance signal and two color differencesignals are sampled with different frequencies, 4-luminance sig-nal blocks and each of the color difference signal blocks occupythe same position and area in the picture. When data of any oneof the 4-luminance signal blocks is lost, the data in other blocksbecomes meaningless. Therefore, the signals of every 6 blocksare processed as a single processing unit and recorded ontotape.

Fig. 8-3-1 Division into Blocks, Macroblock

The macroblock is a group composed of the 6 blocks.The data divided into blocks is processed by the DCT coding asdescribed later, and the video-recording rate is compressed to25 Mbps. In fact, however, the data of each frame is compressedto the specified number of bits, which are recorded onto thespecified number of tracks on tape. Namely, when 25 Mbps isconverted into the number of bits per frame, the followingnumber of bits are recorded onto 10 (NTSC) or 12 (PAL) tracks:

(25 x 106)/30 = 833333 bits ............ (NTSC)(25 x 106)/25 = 1000000 bits .......... (PAL)

As seen above, the data in each frame is compressed so as notto exceed the specified number of bits calculated based on thevideo-recording rate. This is referred to as length fixation. Al-though the length of the data of a frame is fixed so as not toexceed the calculated number of bits, the actual length fixationis applied per 5 macroblocks. In other words, the length of thedata of 5 macroblocks is fixed so as not to exceed the followingnumber of bits:

833333 x 5/1350 = 3086 bits ......... (NTSC)1000000 x 5/1620 = 3086 bits ....... (PAL)

The 5 macroblocks used as the unit of length fixation is referredto as a video segment.

8.3.2 Shuffling (Video)

The 5 macroblocks composing a single video segment is col-lected from a picture by means of shuffling according to a speci-fied rule.The objective of shuffling lies in making uniform the quantity ofinformation that is contained in the 5 macroblocks in a videosegment. The image information of a frame is not usually dis-tributed evenly in the picture, but there are segments with alarge amount of information and those with a small amount ofinformation as shown in Fig. 8-3-2.

Fig. 8-3-2 Distribution of Information in a Picture

As a result, if the fixed-length data obtained from 5 sequentialmacroblocks uses the same number of bits for each macroblock,distortion due to compression or expansion of data would benoticeable. This would depend on the screen segments (distor-tion is less noticeable in the segments with little informationbut noticeable in segments with much information). To preventthis by making the information uniform across the video seg-ments and making distortion less noticeable, shuffling is per-formed in the picture.The shuffling is performed based on the rule shown in Fig. 8-3-3.Each picture is divided vertically into the same number as thenumber of macroblocks in a video segment (5), and divided hori-zontally into the same number as the number of tracks used torecord the data of 1 frame onto tape (NTSC: 10, PAL: 12).The blocks divided in this way are referred to as superblocks.

5MB

Video segment A(Flat, sky section)

Video segment A(Few information)

Video segment B(Fine branch section)

Length fixation information

MB1MB2MB3MB4MB5

Video segment B(Much information)

MB1MB2MB3MB4MB5

Coarse quantization forreducing the amount ofinformation

8-8

Fig. 8-3-3 Shuffling Technique (Example with 525/60)

With shuffling, the first macroblock (No. 0) in each of the 5superblocks are collected to form a video segment as shown inFig. 8-3-3, and the next video segment is formed by collectingthe first macroblocks (No. 1) of the same 5 superblocks. Whenall of the macroblocks in the 5 superblocks have been collected,data collection of the next 5 superblocks starts.

8.3.3 DCT

The video segments formed by shuffling are DCT transformedper (8 x 8) blocks. There are two DCT transform modes includ-ing the stationary mode and the dynamic mode.

(1) Stationary mode (8 x 8 DCT mode)This is the basic mode, executing (8 x 8) DCT transform toevery (8 x 8) pixels in blocks.

(2) Dynamic mode (2 x 4 x 8 DCT mode)The (8 x 8) blocks are divided into two (4 x 4) blocks calledfields 1 and 2, and a (4 x 8) DCT transform is applied to every(4 x 8) pixels.The following paragraph explains this mode by taking thecase in which an object moves toward the right as an exam-ple.

Fig. 8-3-4 (2 x 4 x 8) DCT Transform in Motion Mode

When the object does not move, the data in the horizontal di-rection contains the high-frequency component but the data inthe vertical direction contains only the DC current. On the otherhand, when the object moves in the horizontal direction, theposition of the object at the time of 1st field scanning is differ-ent from that at the time of 2nd field scanning, so the picture ofthe object in a frame appears to have ridged edges. The high-frequency component increases in the vertical direction data aswell as in the horizontal direction data. In such a case, the (8 x 8)blocks are divided into two pairs of (4 x 8) blocks for fields 1 and2, and (4 x 8) DCT transform is applied to every (4 x 8) pixels.This method makes it possible to reduce any increases in thehigh-frequency component in the vertical direction data and pre-vents a drop in the compression rate.Whether a DCT transform is performed in the stationary modeor in the dynamic mode is decided by detecting the (8 x 8) blocksin each video segment by the motion detector circuit locatedbefore the DCT transform circuit.The data of a block in stationary mode is composed of one DCcomponent and 63 AC components. But, in dynamic mode eachone of the two (4 x 8) blocks is composed of a DC componentand 31 AC components. To allow the dynamic mode data to beprocessed in the same way as the stationary mode data, thedynamic mode processing calculates the sum and differencesof the factors of the same order and form (8x 8) blocks as shownin Fig. 8-3-5.

Fig. 8-3-5 Processing of DCT Transform Factors in Dynamic Mode

2nd Field 1st Field

(1st Field)

8 pixels

8 lines

8 pixels

4 lines

(2nd Field)

8 pixels

4 lines

When the objectmoves horizontally:

(2 x 4 x 8)

The vertical high-frequencycomponent increases.

(1st field)

8

4

(2nd field)

8

(Sum of factors)

(Difference of factors)

8

8

4

(2 x 4 x 8) DCT factors

MB1 MB2 MB3 MB4 MB5

1 2 3 4 5

No.012345

11109876

121314151617

232221201918

242526

Sequence of MBs in a superblock

Sequence of superblocks

Order of shuffling

Set at a fixed length of 5 MBs.

8-9

The above processing allows both the dynamic mode data andstationary mode data to be handled as data composed of oneDC component and 63 AC components in the subsequentquantization processing.

8.3.4 Quantization

(A) Data quantity estimation

After all of the blocks in a video segment have been DCT trans-formed, the video segment is stored in the buffer. At this time,the data quantity estimation block selects the quantizer for usein quantizing the video segment.With DCT transform, normalization is performed so that the DCTfactors have a 10-bit dynamic range for the 8-bit pixel block. TheDCT factors are divided by an integer called the quantizationstep and allocated to a smaller number of bits before being sub-jected to variable-length coding (VLC). This operation (division)is referred to as re-quantization, or simply quantization. Thequantization reduces the values of the factors, turning many of0 in the high frequencies. As the VLC in the subsequent stageperforms code allocation by forming value 0 run lengths and thenon-0 factor after it into a group, so the quantization improvesthe coding efficiency. As the VLC consists of simply allocatingcodes to factors, the code quantity (number of bits) is control-led by the VLC block.

Fig. 8-3-6

(B) Quantization

Each quantizer is composed of a set of 4 quantization steps asshown in Fig. 8-3-6, and the factors in a block are divided into 4areas. The data is quantized in the 4 areas using differentquantization steps. The factors are shifted from low-frequencyfactors to high-frequency factors as the area number increases,so the quantization of high-frequency factors are coarser thanfor low-frequency factors. This utilizes the fact that the distor-tion of high-frequency factors is less noticeable to human visioneven when they are coarsely quantized.

(C) Classification

Each block in a video segment is classified into one of 4 classesbefore being quantized. The quantization steps of the quantizersvary depending on the class numbers (see Fig. 8-3-6). Table 8-3-1 shows the definitions of the 4 classes.

Class No. Definition

Block with which quantization distortion after compres-sion is highly noticeable. The absolute value of the ACfactor should not exceed 225.

Block with which quantization distortion after compres-sion is less noticeable than Class 0. The absolute value ofthe AC factor should not exceed 225.

Block with which quantization distortion after compres-sion is less noticeable than Class 1. The absolute value ofthe AC factor should not exceed 225.

Block with which quantization distortion after compres-sion is little noticeable or the absolute value of the ACfactor exceeds 225.

0

1

2

3

Table 8-3-1 Definitions for Classification

0012

4

765

3

001

1

222

1

011

2

322

1

111

2

332

2

112

2

333

2

122

3

333

2

222

3

333

3

223

3

333

3

DC00

1

221

1

1 2 3 4 5 6 7

(8 x 8) DCT

Ver

tical

dire

ctio

n

00123

0112

1122

1222

1223

2233

2333

3333

DC011

1 2 3 4 5 6 7

(2 x 4 x 8) DCTHorizontal direction

(Sum

)

4

765

0

211

1

221

1

322

2

322

2

332

2

333

3

333

0

110

Ver

tical

dire

ctio

n

(Diff

eren

ce)

Class No. Area No.01514131211109876543210

1

1514131211109876543210

2

1514131211109876543210

3

1514131211109876543210

01111111111112222444488

11111111111222244448888

2111111112222444488881616

311111112224444888816161616

Qua

ntiz

er N

o.

Horizontal direction

8-10

H

P00 0.1

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0

H = 1 (max.) when Pn = 0.5 (when 0 and 1both occur at the same probability)

While the AC factor before quantization consists of 10 bits, or 9bits excluding the sign bit, the VLC in the subsequent stage cancodify a non-0 factor value only into an 8-bit code. Initial shiftingis performed to deal with this. As a result, a factor that has avalue in the 9th bit (SMB) (i.e. a factor over 255) can be accom-modated in 8 bits and processed by VLC. Fig. 8-3-6 shows thatan increase in the class No. increases the quantization steps inthe same quantizer No. or that quantization of a larger class No.is more approximate.Although the quantization steps of Class 2 look less than forthose of Class 3, this is because the Class 3 data has beensubjected to initial shifting before quantization. The actualquantization steps of Class 3 are more approximate than in thoseof Class 2.

8.3.5 VLC

After division into (8 x 8) blocks by DCT transform, the energyof pixels are concentrated in the DC component and the verticaland horizontal vertical factors become almost null. To code thesefactors, coding uses a technique for varying the code lengthaccording to the incidence of the factors.This coding technique varying the code length is referred to asvariable length coding (VLC).

(A) Entropy coding

As the VLC achieves efficient coding by allocating short codesto data with a high DCT factor incidence and long codes to datawith a low incidence, it is sometimes called the entropy coding.The entropy coding can be expressed with an entropy function.

Fig. 8-3-8 Entropy Function

When VLC approaches the above function, it is regarded as cod-ing with a high compression rate.

(B) Huffman coding

The DV uses Huffman codes to improve the compression effi-ciency. The Huffman codes determines the minimum averagecode length of information with a known incidence probability.Table 8-3-2 shows the method of construction of Huffman codes.The symbols in the table should be regarded as the levels ofpixel values.

The Table 8-3-1 means that a block with a larger class numberhas a more approximate degree of definition (activity). The datain such a block is quantized relatively roughly to compress thedata quantity. Rather approximate quantization of picture areaswith low activity does not cause odd sensations for the humanvision, but approximate quantization of those with high activitydoes cause odd sensations. The blocks with low activity in eachsegment are quantized as roughly as possible with a reducednumber of allocated bits, unless the odd sensations are not felt.However, the blocks with high activity are quantized using anincreased number of allocated bits to improve the picture qual-ity experienced by the human vision.A block containing factors with a larger absolute AC factor than255 is classified as Class 3, and subjected to an operation calledinitial shifting before quantization. This operation divides an ACfactor over 255 by 2 so that errors do not occur in the VLC op-eration.

Fig. 8-3-7 Initial Shifting

Table 8-3-2 Construction of Huffman Codes

Class No.

Initial shifting

0

Not applied

1

Not applied

2

Not applied

3

Applied

1

0 1

MSB LSB

9 bits

The value is accommodated within 8 bits.

1-bit shift

Before initial shiftingMSB=1

(ACmax > 255)

After initial shifting

Symbol Incidence Code Word

1

2

3

4

5

6

7

8

9

0.49

0.14

0.14

0.07

0.07

0.04

0.02

0.02

0.01

0

100

101

1100

1101

1110

11110

111110

111111

Construction Procedure

00

0

0

10

10

0

0

11

11

1

1

8-11

01 2 3 4 5 6 61 62 637 8

5

10

15

255

Fac

tor

Val

ue <

Abs

olut

e V

alue

>

Order of Zigzag Scanning

Factor series = 0, 12, 5, 0, 0, 0, 4, 3,... 0, 0, 0

Transform into (0 run length + non-0 factor values)

(1, 12), (0, 5), (3, 4), (0, 3)... (EOB)

VLC

(111011s), (100s), (11011s),... (1110)s: Sign bit

The Huffman coding uses the following procedure.(1) Information source symbols 1 to 9 are arranged in the order

of incidence probability.(2) For the symbol with the lowest incidence and that with the

second-lowest incidence, “0” is allocated to one and “1” isallocated to the other. (Which of the two symbols is “0” andwhich is “1” can be decided arbitrarily.)

(3) Then, the above two symbols are considered to be joinedtogether as a single symbol. The incidence probability of thejoined symbols should be equal to the sum of the incidenceprobabilities of the two symbols before joining.

(4) By considering the joined symbols as new individual sym-bols, these symbols and other symbols (which should ex-clude the two symbols which were joined) are rearranged inthe order of incidence probability.

(5) Steps (2) to (4) are repeated until the number of symbolsbecomes 1.

(6) The values (0 or 1) allocated to the original symbols in step(2) are read in the reverse order. The read values form thecode word for the symbols.

A Huffman code constructed in this way can be decoded in-stantaneously because, by following the bits one by one fromthe first bit at the time of decoding, the end of a code word canbe determined without referring to the head of the next codeword.As the VLC used with the DV is based on Huffman coding com-bined with run length coding, it is called “modified 2-dimen-sional Huffman coding”.

Fig. 8-3-9 Zigzag Scanning of DCT Factors

Among the factors transformed by 2D DCT, the 63 AC factorsother than the DC component factor are rearranged by zigzagscanning as shown in Fig. 8-3-9. When the AC factors are re-arranged in the order of scanning, the result is as shown in Fig.8-3-10, where the scanned factor series is divided into a groupof sequential 0 factors followed by a group of non-0 factors. Acode called the EOB (End Of Block) is appended after the lastnon-0 factor scanned.After the factors are transformed into a group of 0-value runlength and a group of non-0 factor values, a Huffman code tableis compiled according to the incidence probabilities of thesegroups and VLC is applied based on this.

Fig. 8-3-10 2D Huffman Coding

8.3.6 Shuffling (Audio)

Unlike the video signal, the audio signal is not compressed. It issubjected only to shuffling as preparation for the ECC.Table 8-3-3 shows the basic modes of the DV.

Table 8-3-3 Basic Audio Modes

In the 2-channel modes, the quantization is 16-bit linear and thesampling frequency can be selected from 48 kHz, 44.1 kHz or32 kHz. One of the 2 channels is recorded in the first 5 tracks ofthe 10 tracks of an NTSC frame (first 6 tracks of the 12 tracks ofa PAL frame) after shuffling. Therefore, when an error occurswith a track, 1/5 (or 1/6) interpolation is applied.

Horizontal frequency

Ver

tical

freq

uenc

y Mode Channels Sampling Frequency48 k

44.1 k32 k32 k

2

4

48 kHz44.1 kHz32 kHz32 kHz

16-bit linear

12-bit nonlinear

Quantization

8-12

Head

Areas updated per head scan

Areas forming a group on the pictureare updated simultaneously.

Data of video segment (5 MBs)

De-shuffling memory

1 frame (10 tracks)

De-shufflingTrack 2Track 3Track 4Track 5Track 6Track 7Track 8Track 9Track 10

Data is recorded on the track in this order.

8.3.7 De-shuffling

The compressed video data is recorded on tracks on tape. Thevideo data recording area of each track is divided into sub-unitscalled the sync blocks (SBs). The number of SBs where videodata is recorded is 135 per track, and the number of SBs perframe is:

135 x 10 = 1350 ............................. (NTSC)130 x 12 = 1620 ............................. (PAL)

These values are equal to the number of macroblocks per frame.Therefore, the compressed video segment data (5 macroblocks)is packed into 5 SBs and recorded.Fig. 8-3-11 shows the packing of video segment data into 5 SBs.<Step 1>

• The macroblock data is packed into the specified area (fixedarea) on a per-DCT block basis.

• Overflow data is stored in the macroblock memory.• This step is performed for each macroblock.

<Step 2>• The data in MB memory is packed in the vacant area of

the same SB.• Overflow data is stored in the VS (Video Segment) memory.• This step is performed for each macroblock.

<Step 3>• The data in theVS memory is packed in the vacant areas

in the 5 macroblocks.

Fig. 8-3-11 Packing of Compressed Data in SB

The section corresponding to the data area of each SB(unit) isdivided into the number of DCT blocks per macroblock (fixedareas) and the data in the DCT blocks is packed in priority in thefixed areas. When data packed in 5 units is recorded, it is notrecorded in 5 sequential SBs.After the data in each video segment has been packed in 5 units,the data is de-shuffled before being recorded. The data of aframe, composed by the de-shuffling, is recorded sequentiallyon the SBs on tape as shown in Fig. 8-3-12.

Fig. 8-3-12 De-shuffled Recording (NTSC)

The reason why the shuffled data is not recorded on tape butde-shuffled before being recorded is to make the picture qualityin variable-speed playback easier to view.

Fig. 8-3-13 Picture Updating in Variable-Speed Playback

Fig. 8-3-13 shows the picture updating by data reproduced dur-ing variable-speed playback. The picture is easy to see becausethe de-shuffling before recording causes the reproduced datato form a sequential group.

MB1

MB2

MB3

MB4

MB5

5B1 8B

MB memory 1

Data in the MB memory is packed in thevacant areas of the same SB. (Step 2)

Overflow data is storedin the VS memory.

VS memory

Data in the VS memory is packed in the vacantareas in the 5 MBs. (Step 3)

Overflow data is stored in the MB memory. (Step 1)

Y block 1 (14 byte)

Y block 2 (14 byte)

Y block 3 (14 byte)

Y block 4 (14 byte)

CR block (10 byte)

CB block (10 byte)

Data of block 1

Data of block 3

Data of MB1

Data of MB3

8-13

8.3.8 Error Correction

Error correction consists of correcting errors occurring in thedata. For this purpose, data is provided with regularity by addingredundant parts. The error correction codes are the mathemati-cal systematization of how to add the redundant parts, and thetheory of this is referred to as the coding theory.

(A) Principles of error detection and error correction

With the DV, it may happen that data recorded as “0” is repro-duced as “1” or data recorded as “1” is reproduced as “0” dueto thermal noise of the recording/playback amplifier or dust orscratches on the tape surface. The error correction detects andcorrects such code error produced in the process of recordingor playback.In the following, the principles of error detection and error cor-rection will be explained by using codes composed by adding a3-bit redundant part to every 2 bits of data as shown below.

Information part Information part Parity check part(00) → (00 110)(01) → (10 101)(10) → (10 011)(11) → (11 111)

With the coding theory, the part for data is called the informa-tion part, the redundant part is called the parity check part, andthe total of information part and parity check part is called thecode word. The operation of transforming the information partinto code word is referred to as coding.Let us assume that a code word (00110) corresponding to data(00) has been recorded and is reproduced with an error in 1 bit(01110). When the reproduced series is compared with previ-ously defined 4 code words, it may be known that the formercoincides with none of the latter. These are the principles oferror detection.When the above situation is verified in more detail, it can beestablished that the reproduced series (01110) is different by 1bit from the code word (00110) and by 2 or more bits from othercode words.The fact that a code word is most similar to the reproducedseries means that the probability that it is the recorded codeword is highest. Therefore, coding errors can be corrected byconsidering that the most similar code word to the reproducedseries is the recorded code word. These are the principles oferror correction.The operation of correcting errors in the reproduced series isreferred to as decoding.

(B) Hamming distance

The error detection and correction capabilities of error correc-tion coding can be defined in terms of the hamming distancebetween the code words. The hamming distance is the numberof dissimilar components when two code words are comparedcomponent by component. For example, assuming that codeword (00110) is C1 and code word (01101) is C2, hamming dis-tance dH (C1, C2) is 3. If code word (10011) is C3 and code word(11111) is C4, hamming distance dH (C3, C4) becomes 2.Fig. 8-3-14 shows the scheme of the relationship between theerror detection and correction capabilities and the hamming dis-tance.

Fig. 8-3-14 Expressions of Error Detection and Correction

Capabilities by Hamming Distance

To enable error correction coding, detect all of S or more errors,the minimum value of the hamming distance between codewords (minimum hamming distance) should be S + 1. This isbecause, if the minimum hamming distance is less than S, codeword Ci could be turned into another code word Ci if there areS error items.Similarly, to correct t or fewer errors, the minimum hammingdistance between code words should be 2t + 1 or more. This isbecause, if the minimum hamming distance is less than 2t, codeword Cj which has a shorter hamming distance than Ci wouldexist if t error items occur with Ci. The hamming distances be-tween the code words of the above-mentioned code are:

dH ((00110), (01101)) = 3dH ((00110), (10011)) = 3dH ((00110), (11111)) = 3dH ((01101), (10011)) = 4dH ((01101), (11111)) = 2dH ((10011), (11111)) = 2

Therefore, the minimum hamming distance between these codewords is 2. Thus, as the number of errors that can be detectedis:

S = 1 (because S + 1 = 2)This means that the error of a bit can be detected.It was described above that the error of a bit in code word (00110)can be corrected. This is because the minimum hamming dis-tance between only code word (00110) and other code words is3. Therefore:

t = 1 (because 2t + 1 = 3)However, correction of error of a bit is not possible with othercode words, with which only error detection is possible.

(C) Simple error correction codes

Examples of simple error correction codes will be described inthe following.(1) Simple parity check code

The parity check code is composed of a k-bit informationpart and 1-bit parity check part. The code with which parityis selected so that the number of “1” contained in a codeword is an even number is referred to as the even paritycode. That with which parity is selected so that the numberof “1” contained in a code word is an odd number is re-ferred to as the odd parity code. For example, a 3-bit codemay have even parity codes as follows:

(00) → (000)(01) → (011)(10) → (101)(11) → (110)

All of the hamming distances between the 4 code words are 2,so a 1-bit error occurring in any code word can be detected.

Code wordCi

Code wordCj

S

Min. hamming distance

2t+1

t t

8-14

(2) Repetition codeThe repetition code consists of n times of repetitions of 1-bit information parts, and the number of code words is 2.For instance, a 3-bit code has two repetition codes as fol-lows:

(0) → (000)(1) → (111)

The minimum hamming distance between these codes is 2,so a 1-bit error occurring in a code word can be corrected.

(3) (7, 4) hamming codeThe (7, 4) hamming code consists of a 4-bit information part(i3, i2, i1, i0) and a 3-bit parity check part (P2, P1, P0) which isdetermined according to the following rule.

In expressions (8.3.1), operators “*” represent exclusive OR,so 0 + 0 = 0, 0 + 1 = 1, 1 + 0 = 1, and 1 + 1 = 0.The (7, 4) hamming code has 4 information bits, or 24 = 16code words. Table 8-3-4 shows all of the code words.

Table 8-3-4 List of Code Words of (7, 4) Hamming Code

This table shows that the minimum hamming distance of thecode is 3 and that a 1-bit error can be corrected.

(4) Basic knowledge on algebraThe examples of error correction codes used in the descrip-tion of the previous section are beginner-type codes, andtheir error detection and correction capabilities are insuffi-cient for application in the DV.The error correction codes with practical error detection andcorrection capabilities for use with the DV are constructedbased on abstract algebra. In the following, the minimumrequired knowledge on the algebra for understanding theerror correction will be described. If you want to gain moreknowledge, please also refer to books on mathematics.

(a) Galois fieldHere, the term “field” refers to the set of elements withwhich the four arithmetical operations of addition, subtrac-tion, multiplication and division can be defined.The term “field” is used because its functions are workingorganically, and have come from German word “Körper”.For example, a real number or complex number is a field.However, when the term “field” is used with error correc-tion codes, it does not mean a field with an infinite numberof elements such as a real number, but means a finite fieldcomposed of a finite number of elements.The “element” is what belongs to a set.For example, if there is “a” which belongs to set “M”, it issaid, “a is an element of M”. The fact that “a” belongs to“M” is expressed using a symbol as “a ∈ M2”. “∈“ is thesymbol of the initial letter of “element”. If “a” does not be-long to “M”, it is expressed as “a ∉ M”.

A finite field is also called the Galois field, after the Frenchmathematician Evariste Galois (Oct. 25, 1811 - May 31, 1832)who created one of the basic algebra theories. A Galois fieldcomposed of P elements is expressed as GF(P).The simplest Galois field is a GF(2) composed of elements(0, 1). The addition in GF(2) is defined as exclusive OR andthe multiplication can be defined as multiplication of ordi-nary integers.Table 8-3-5 shows the operation tables of GF(2).

Table 8-3-5 Operation Tables of GF(2)

(b) Extension fieldThe complex number field is created by adding root “i” of“x2 + 1 = 0”, the polynomial which cannot be factorized anymore in a real number field (irreducible polynomial) to a realnumber field. In the same way, by adding a root of an irre-ducible polynomial in Galois field GF(P) to GF(P), it is possi-ble to create a field GF(Pm) where the number of elementsis equal to Pm which is a P’s power. This operation is re-ferred to as a field extension. GF(P) is called the ground fieldand GF(Pm) is called the extension field.

P0 = i3 + i2 + i0

P1 = i2 + i1 + i0

P2 = i3 + i2 + i1

.... (8.3.1)

Information Part

i3

0101010101010101

i2

0011001100110011

i00000000011111111

P2

0110100101101001

P1

0011110011000011

P0

0110011010011001

i1

0000111100001111

Parity Check Part

0

1

0

0

1

1

1

00

1

0

0

0

1

0

1

(a) Addition (b) Multiplication

8-15

For example, assume that there is an irreducible cubic polyno-mial as follows:

x3 + x + 1 = 0,

If there is an extension field GF (23) created by a root of theabove polynomial “α“ to GF (2), “0”, “1” and “α“ are the ele-ments of extension field GF (23). Then, since multiplication shouldbe definable in a field, all of α‘s powers become the elementsof GF (23). As for the α‘s powers, since “α“ is the root of poly-nomial x3 + x + 1 = 0,

α3 = α + 1

Therefore, this relationship means the following:α0 = 1α1 = αα2 = α2

α3 = α + 1α4 = (α + 1) α = α2 + αα5 = (α2 + α) α = α2 + α1 + 1α6 = (α2 + α + 1) α = α2 + 1α7 = (α2 +1) α = 1 : (Repeated)

α‘s power after α7 are repetitions of the above.Fig. 8-3-15 shows this relationship from a different viewpoint.In this figure, since the cycle is closed, α‘s power after α7 arereplaced by values of α6 or below.

Fig. 8-3-15 Cycle of GF (23)

(5) Cyclic codeThe cyclic codes are important codes that can be coded ordecoded easily.The cyclic code has the following properties:• The sum of arbitrary code words is a code word.• The series obtained by cyclic shifting of code words be-

comes a code word.Fig. 8-3-16 Construction of Product Codes

The C2’s parity check part on C1’s parity check part is identicalto the C1’s parity check part on C2’s parity check part. As aresult, the same product code can be obtained by coding C1before coding C2. The DV uses the Reed-Solomon product codeobtained by a double coding of the Reed-Solomon code.

α2

α3

α4

α5α6

α7

α8

α = α1

1 = α0

Information partC1’s paritycheck part

C2’s paritycheck part

C2’s paritycheck part onC1’s paritycheck part

(6) Hamming codeWhen one of the roots of an irreducible m-order polynomialin GF(2) is assumed to be α, the maximum period until α‘spower returns to the original number is 2m - 1 (see Fig. 8-3-15).An irreducible polynomial which has a root α with which theperiod is 2m - 1 is called the primitive polynomial, and α inthis polynomial is called a primitive element.GF(2m) is an extension field created by adding a primitive

element with a period of 2m - 1 to GF(2). The hamming codeis a cyclic code which uses a primitive polynomial as thegeneration polynomial, and its parameters are as shownbelow.Code length : n = 2m - 1Information amount : k = n - mMin. hamming distance : dMIN = 3A hamming code with code length of n and informationamount of k is called a (n, k) hamming code. Since the mini-mum hamming distance is 2, any 1-bit error occurring in thecode word can be corrected.

(7) BCH codeThe BCH (Bose-Chauduri-Hocgenghem) code extends theerror correction of a Hamming code to 2 bits or more. TheBCH codes with t-bit correction become the cyclic codes ofcode table n with which generation polynomial G(x) is aminimum-order polynomial having α, α2,... α2t as the roots,assuming that α is a primitive root of GF(2m) and that n =2m - 1.

(8) Reed-Solomon codeThe BCH code described in above (7) is defined on GF(2).The Reed-Solomon code is an extension of the above toGF(2m). Its error detection and correction are applied per sym-bol, which is an element of the extension field.In general, a Reed-Solomon code with code length of n andinformation amount of k is called the (n, k) RS code.

(9) Reed-Solomon product codeAssuming that C1 is (n1, k1) codes and C2 is (n2, k2) codes,the product code of them can be obtained by coding k1 col-umns, each composed of k2 symbols, with C2, then codingk2 rows, each composed of k1 symbols with C1. Fig. 8-3-16shows the construction of product code.

8-16

Video dataInner code

parity

Inner codeparity

Inner codeparity

Inner codeparity

Video data

Outer code parity

Audio dataAAUX

Audio data

Outer code parity

AAUX

77 8

77 8

72 8

72

5

5 8

5 2

5 2

Sub-code dataInner code

parity

Sub-code dataInner code

parity

VAUX

VAUX

Syncarea

ID codeID0,ID1,ID2

Syncarea

ID codeID0,ID1,ID2

2 3

2

GF (28)

GF (24)

GF (28)

135

111

9

5

12

2 3

2 3Syncarea

ID codeID0,ID1,ID2

Unit: Byte

85

Sync block length: 90 bytes

7

Sync block length: 12 bytes

8.3.9 Data Structure

Random errors and burst errors due to dropouts on tape occurwith the magnetic recording/playback circuitry of the DV. To dealwith this, the DV records data by turning into sync blocks. Fig.8-3-17 shows the DV data structure.

The video and audio uses the same sync block configuration toreduce the scale of hardware. The video or audio data forms async block together with the sync area, the ID code indicatingthe data attributes and the inner code parity.

The byte counts of the sync area and ID code in Fig. 8-3-17 arethe values before the 24/25 conversion (by a converter circuitwhich produces digitally the pilot signal for use in tracking dur-ing playback). In practice, however, they are 24/25-convertedand become scrambled interleaved NRZI-converted signals be-fore being recorded onto tape. The following 17-bit patterns havebeen defined as sync patterns.

• Audio/Video sectorsSync-D : 00011111111110001Sync-E : 11100000000001110

MSB LSB• Sub-code sector

Sync-F : 00000111111111101Sync-G : 11111000000000010

MSB LSB

Fig. 8-3-17 Data Structure

The ID code is composed of 3 bytes including two ID bytes anda parity byte.The ID bytes of a video or audio sector are:4 bits of sequence number for indicating the continuity of frame,4 bits of track pair number indicating the track number, and 8bits of sync block number indicating the arrangement of syncblocks in each track.(1) Error correction in the ID code area

In the ID code area, (12, 8, 3) BCH codes are used for com-mon error correction to the audio, video and sub-code sec-tors.The configuration is as shown below.

Primitive polynomial: x4 + x + 1ID0: C15 C14 C13 C12 C11 C10 C9 C8

ID1: C7 C6 C5 C4 C3 C2 C1 C0

IDP: P7 P6 P5 P4 P3 P2 P1 P0

MSB LSBID-CW0: C14 C12 C10 C8 C6 C4 C2 C0 P6 P4 P2 P0

ID-CW1: C15 C13 C11 C9 C7 C5 C3 C1 P7 P5 P3 P1

The parity can be expressed as follows.

P7 = C15 +C11 +C7 +C5

P5 = C15 +C13 +C9 +C5 +C3

P3 = C15 +C13 +C11 +C7 +C3 +C1

P1 = +C13 +C9 +C7 +C1

P6 = C14 +C10 +C6 +C4

P4 = C14 +C12 +C8 +C4 +C2

P2 = C14 +C12 +C10 +C6 +C2 +C0

P0 = +C12 +C8 +C6 +C0

As the contents of ID code have regularity (inertia) betweensuccessive sync blocks, it is also possible to apply only theerror detection.

(2) Error correction in the video and audio areasThe video data and audio data are composed of Reed-Solo-mon product codes of GF (28) as shown in Fig. 8-3-17. Withinternal codes, a common code length is used to reduce theburden on the hardware.

(a) Inner codes: same video and audio (85, 77)α : Primitive elementPrimitive polynomial : x8 + x4 + x3 + x2 + 1Generation polynomial : g = (x + 1)(x + α)(x + α2)...(x + α7)As 8 bytes of parity are added, up to 4 errors can be cor-rected.

(b) Outer codes: Video (149, 138), audio (14, 9)Primitive polynomial: x8 + x4 + x3 + x2 + 1Generation polynomials:Video g = (x + 1)(x + α)(x + α2)...(x + α10)Audio g = (x + 1)(x + α)(x + α2)(x + α3) (x + α4)As 11 parity bytes are added to the video data, the maxi-mum burst error correction length assuming that all randomerrors are corrected by inner code is 85 x 11 = 935 bytes,which corresponds to correction of error due to a defect ofabout 0.3 mm in the widthwise direction of tape.Similarly, 5 parity bytes are added to the audio data so themaximum burst error correction is 85 x 5 = 425 bytes, whichcorresponds to correction of error due to a defect to about0.14 mm in the widthwise direction of tape.

8-17

(3) Error correction in the sub-code areaErrors in the sub-code area in each track are corrected byusing only the inner codes without using the produce codes.Multiple write in a frame is adopted to improve the reliabil-ity.Sub-code (14,0) GF(24) Reed-Solomon codePrimitive polynomial : x4 + x + 1Generation polynomial : g = (x + 1)(x + α)(x + α2)(x + α3)

8.3.10 DCI

Channel coding of recording signals is to convert the digital in-formation signals composed of “1” and “0” according to theproperties of the magnetic recording/playback circuitry. As theDV transports tape by means of helical scanning of a rotary drum,the signal processing of the recording/playback circuitry is sub-ject to the following restrictions.(1) The signal-to-noise ratio (S/N) in playback should be good.

If the S/N is poor, a large number of random errors makeerror correction difficult.

(2) The DC and low-frequency components should be small.The magnetic recording system has a differential wave typetransfer characteristic and a rotary transformer is used insignal exchange between the magnetic heads and record-ing/playback circuitry. Therefore, the DC and low-frequencycomponents (where signal “1” or “0” continues) cannot berecorded or reproduced.

(3) The timing clock should be reproduced.If a stable reproduce clock which is synchronized with thereproduce signal by shortening successive “1” or “0” ofdata, jitter may occur.

To deal with the above restrictions, the DV uses the scrambledinterleaved NRZI technique. This technique is called scrambledinterleaved because the bit series of every other bit are identi-cal to the NRZI system and that two NRZI series are alternating.It is also called PR4 (Partial Response class IV) or PR(1, 0, -1).

(A) Interleaved NRZIThe interleaved NRZI system has a close frequency charac-teristic to the characteristic of magnetic recording circuitryand the technique is used with many digital VCRs.When there is an isolate pulse, inter-code interference pro-ducing -1 occurs in 2 bits after it. This technique shapes thereproduced waveform by utilizing the inter-code interference.Fig. 8-3-18 shows the process in which the input data seriesis reproduced by PR4 through tape transport. When a dataseries is input to point A it is converted by the Precoderafter signal processing. The data and frequency spectrumare as shown by B in the figure after conversion. The data isthen turned into a differential waveform according to thedifferentiation property of the magnetic recording/playbackcircuitry, and the loss in the high-frequency band is compen-sated by the equalizer to become waveform C. Then, a sig-nal delayed by 1 clock and the original signal are mixed tobecome waveform D. By applying 3-value detection to con-vert data “-1” into “1”, output data E which is identical tothe input data can be obtained.

Fig. 8-3-18 Si-NRZI

Fig. 8-3-19 Recording Signal Spectra

Track F0 Track F2Track F1

Scrambled dataPrecoder

Input

Input data

REC

ID point

ID point Reproducedata

Reproducedata

Delay by 1 clock

Comparator

This signal flow can be expressed using delay parameter D asfollows.

Precoder : 1/(1 - D2)Reproduce circuitry : 1 - D (Differentiation property)Decoder : 1 + DTransfer function : (1/(1 - D2) · (1 - D2) = 1

The above shows that the input data and output data are identi-cal also in expressions.

(B) 24/25 conversionTo gain advantage of the compatible playback with track lin-earity, the DV employs 24/25 conversion which turns theentire track into pilot signals.The 24/25 conversion generates the low-frequency pilot com-ponent by inserting an extra bit (1 bit) to every 24 bits (3bytes) of scrambled data series. The run length is set to nomore than 9 and the extra bit is added to the recorded dataseries as if supplementing the spectra shown in Fig. 8-3-19.When the recording rate is 41.85 MHz, f1 is 465 kHz and f2is 697.5 kHz. The spectra shown in Fig. 8-3-19 are recordedrespectively in tracks F0, F1 and F2 shown in Figs. 8-1-3 and8-1-4. When the play heads scan track F0 during playback,pilot components f1 and f2 can be obtained as crosstalk sig-nals from the adjacent tracks so that stable tracking is possi-ble.

8-18

8.4 VIDEO/AUDIO SIGNAL PROCESSING IN PLAYBACK

CIRCUITRY

For the playback signal processing in the initial stage at the headamp, equalizer and (1+D), see 8.3.10, “DCI”.

8.4.1 Viterbi Decoding

This section describes the concept of Viterbi decoding.Viterbi decoding is applicable only to the NRZI series signals.The decoding process of DV divides an interleaved NRZI seriesinto two NRZI series and applies Viterbi decoding separately toeach of them, then merges them later on to the original dataseries. Fig. 8-4-1 shows the concept of the basic principles ofViterbi decoding of NRZI series.

Fig. 8-4-1 Viterbi Decoding

The differential waveform obtained by playing a NRZI-recordedtape is defined as the ID point for Viterbi decoding (point D inFig. 8-3-18). The signal shown in Fig. 8-4-1 contains randomnoise. Previous processes (GR-DV1, etc.) without Viterbi decod-ing have been applying 3-value detection to this signal. In thiscase, errors may occur by judging the level at point A in Fig. 8-4-1 as “0” while it should be “-1”. This technique is referred to ashard decision because it uses fixed identification levels.

On the other hand, Viterbi decoding uses a soft decision method.It first A/D converts the reproduce signal and reads the wave-form level. For instance, if “1” is read as +1 V, “0” is read as 0V, “-1” is read as -1 V and the level is -0.4, this leads to thejudgment that the probability of being 0 is higher than that ofbeing -1. Therefore, the bit series may be either 10010 or 10-110.A decision criterion that “this is the recording/playback of NRZIseries” is thus invoked. The differentiation waveform at the IDpoint of the reproduce waveform of NRZI series has the follow-ing rule.The rule is that, when there are two positive-going waveforms,there is always a negative-going waveform between them. Inother words, there is always “-1” between two “1” in the de-coded value. This rule means that bit series 10010 above can-not exist, and bit series10-110 is selected.As described above, the Viterbi decoding corrects errors by uti-lizing the rule between bits (redundancy of the NRZI series ).

8.4.2 Error Correction

The DV corrects errors by decoding the data that has been codedusing Reed-Solomon product codes. The minimum hammingdistance of the product codes is d1 and d2 if the minimum ham-ming distances of C1 and C2 are d1 and d2, thus up to (d1d2 - 1)/2errors can be corrected from the principles. Nevertheless, infact, the maximum number of correctable errors is variable de-pending on the decoding technique. One of the decoding tech-niques is the series decoding technique that decodes C1 firstthen decodes C2. Although this is not the best way from theviewpoint of error correction capability, the serial connection oftwo decoders C1 and C2 makes it easy to build the hardware soit is used by many digital VCRs.With a digital VCR, compound errors in which random errorsand burst errors are mixed are produced (see Fig. 8-4-2).Fig. 8-4-2 shows the correction of compound errors by productcodes.

Fig. 8-4-2 Principles of Erasure Correction

Assume that the signal has been recorded in the direction ofthe arrow.Decoding is applied in the common order, i.e. C1 first, then C2.With the C1 decoding, pointers indicating random or burst er-rors beyond the correction capability are placed to all of the sym-bols of the code word containing the errors at the same time asrandom error correction. The symbols to which a pointer is at-tached are referred to as erasure symbols.This decoding technique utilizing pointers is called the erasurecorrection, which features an improved error correction capabil-ity compared to the decoding techniques without pointers. Incases when a code error is ignored during C1 decoding, a differ-ent code from the recorded code may be output by the C2 de-coding. This erroneous correction is one of the most importantcauses of video and audio quality deterioration. To prevent erro-neous correction, the C1 decoding prevents error detection mis-takes by limiting the number of error corrections. Although theDV is capable of error correction of 2 symbols, the actual numberof symbols subjected to error correction is limited to 1 by theRS code in GF(28). This error correction limitation allows the er-ror detection mistake probability to about 1/216 of 2-symbol er-ror correction. The error correction technique used in the C2

decoding is variable depending on the number of erasure sym-bols.

C1

C2

Recording direction

Burst errorsRandom errors

Pointers

Selection of the correct series

Recording signal

Reproduce signal at detection point

“1”

“0”

“–1”

1VRecognition level

Recognition level

ErrorPrevious detector (bit-by-bit)

Viterbi decoderA/D conversion

(V) Soft decision

A

8-19

(1) When the number of erasure symbols is 1 or less:In this case, the use of a pointer cannot improve the errorcorrection capability because only one error can be corrected.Therefore, the same 1-error correction and 2-error detectionas the C1 decoding are used without using a pointer. Anerror that cannot be corrected by this technique is subjectto error concealment, which will be described in section 8.4.3.

(2) When the number of erasure symbols is 2 or more:Error detection is performed and, if errors are found in thelocations with erasure symbols, error correction is also ap-plied.If errors are found in other locations than those with erasuresymbols, the data is subjected to error concealment.

(3) When the number of erasure symbols is 3 or more:In this case, error correction making a full use of the errorcorrection capability is possible. However, as there is no er-ror detection capability, error detection mistakes during C1decoding will result in erroneous corrections.To prevent this, verification is applied to see if each erasuresymbol is right or wrong, and error correction is applied onlywhen the number of right erasure symbols is no more than2.This erasure correction technique is referred to as a 2 out of3, erasure correction.When it is identified that code errors are found with all ofthe 3 errors, error concealment is applied by judging thatcode errors beyond the error correction capability have oc-curred.

(4) When the number of erasure symbols is 4 or more:In this case, the erasure correction capability is exceeded sothat error concealment is applied to prevent erroneous cor-rection.

8.4.3 Error Concealment

Error concealment is a radically different technology from errorcorrection.Error correction technology restores errors to their original statesby utilizing the relationship between the information part andthe parity check part. However, error concealment makes er-rors less noticeable by complementing errors with the surround-ing pixels. This means that error concealment can be appliedonly when there is a data correlation. The DV can employ errorconcealment because the video and audio signals are correlatedbetween each other. The error concealment is particularly ef-fective when there is a major scratch on the tape or when thereproduce error rate in slow, still or high-speed playback is toohigh to be handled by the error correction technology.Error concealment is available by using more than one tech-nique. For easy understanding, the techniques can be regardedas similar to the blemish compensation of still cameras or thedropout compensation (DOC) of VHS video.Specifically, each data item containing an error is replaced withthe data of 1 frame before using a frame memory.

8.4.4 De-shuffling (Audio)

The audio data, which has been shuffled before error correc-tion, is de-shuffled and output as the audio signal.

8.4.5 VLD

The video data that has been shuffled before error correction isprocessed by VLD (Variable Length Decoding). This consists ofdecoding the signal that has been coded with VLC as describedbefore.

8.4.6 I-DCT

After VLD, the data is processed by I-DCT (Inverse DiscreteCosine Transform) to expand the compressed data.

8.4.7 De-shuffling (Video)

The expanded data is de-shuffled to restore the video signal.

8-20

1 frame (12 tracks)PAL

Head scanning

Head scanning

Tape transport

Tape transport

1 frame (10 tracks)NTSC

8.5 CAPSTAN SERVO

The rotation speed of the capstan motor is controlled in twoways; by velocity control or by ATF tracking.

8.5.1 Velocity Control

The capstan motor rotation speed is controlled according to theCAP FG pulse in the same way as the VHS video.

8.5.2 ATF Tracking

The capstan motor rotation speed is controlled based on pulsesf0, f1 and f2 that have been added by the 24/25 conversion, sothat the crosstalk components from f1 and f2 are identical whentrack f0 is traced.

Fig. 8-5-1

Assume that the 3 frequencies are respectively f0 = 0 Hz,f1 = 465 kHz and f2 = 697.5 kHz.CH1 always records f0, and CH2 records either f1 or f2. Whenthe CH1 head traces the track during playback, the crosstalkcomponents from the left and right tracks (tracks recorded forCH2) are always picked up because the head width is slightlywider than the track pitch. These crosstalk components are ap-plied to the BPF for extracting the pilot signal frequency compo-nents, and the TREB waveform is generated by means of digitalsignal processing. (The point A in Fig. 8-5-2.)

Fig. 8-5-2

The TREB waveform indicates the CH1 tracking condition (seeFig. 8-5-3).

Fig. 8-5-4 TREB Waveform

Fig. 8-5-4 shows the TREB waveform when the CH1 head track-ing is deviated toward the delay direction. As the crosstalk com-ponent from the track on the left (f2) is larger than that from thetrack on the right (f1) in this case, the pilot signal level of f2 islarger and the DC voltage of the TREB waveform tends to belocated on the f2 side (higher than the center voltage). At thistime, the upper limit of the variation range becomes 2.4 VDC (+0.9 V).

Fig. 8-5-3

Fig. 8-5-3 shows the TREB waveform when the CH1 head track-ing is set to the center. Since the crosstalk components fromthe channels to the left and right are identical when the trackingis in the center, the levels of the pilot signals contained in themshould also be identical. At this time, the DC voltage of TREB is1.5 V.

PRE/RECHEAD

PB EQ ATF M/S CPUTREB

A

Crosstalk componentSpectrum of f0 Spectrum of f1 Spectrum of f2

697.5 kHzf1 f2465 kHz

F1F2 F0

f0f2

CENTER

f1

T

V

2.4 V

1.5 V

0.6 V

f2 f0 f1

T

V

2.4 V

1.5 V

0.6 V

f2

f1

DELAY

8-21

1.5 V

(NTSC)

f2

f0

f1

f0

f2

f0 f0

f2

f0

f1 f1

f0

f2TREB

TSRHID

FRP

: Frame pulse: Positve----CH1: Negative---CH2

FRPHID

Fig. 8-5-5

Fig. 8-5-5 shows the TREB waveform when the CH1 head track-ing is deviated toward the advance direction. As the crosstalkcomponent from the track on the right (f2) is larger than thatfrom the track on the left (f2) in this case, the pilot signal level off2 is larger and the DC voltage of the TREB waveform tends tobe located on the f1 side (lower than the center voltage). At thistime, the lower limit of the variation range becomes 0.6 VDC(-0.9 V).

When a CH1 track is played, the tracking information is indi-cated by the DC voltage of TREB and is variable by ± 0.9 V ac-cording to the tracking error with respect to the 1.5 V DC whichis the voltage in the center tracking condition. A change by 0.3VDC corresponds to about 2µm. Also, when the CH2 head tracesa track, pilot signal component f1 or f2 is maximized and the DCvoltage of TREB becomes 2.4 V or 0.6 V.

Fig. 8-5-6

Fig. 8-5-7

Figs. 8-5-6 and 8-5-7 show the relationship between the FRPand HID waveforms and the TREB of NTSC and PAL respec-tively. With the NTSC signal, there are two kinds of order ofpilot signals at the beginning of a frame; one is the order of f0then f1, and the other is the order of f0 then f2. The former typeof frame is called PF0 (pilot frame) and the latter type of frameis PF1. With the PAL signal, the pilot frame is always PF0 be-cause it uses 12 tracks per frame. The position relationship be-tween f1 and f2 in TREB is variable depending on the tracknumber being played by the CH1 head. Therefore, the servoCPU should be aware of the currently played track number inthe frame (see Figs. 8-5-8 and 8-5-9). The servo CPU identifiesthe track number by decoding 4 kinds of signals TRP0 to 2 andTSR output from the DCI (IC509) during playback. In actual op-eration, the track number of the previous track to the track be-ing played (NTSC: 0 to 9, PAL: 0 to 11) is output at the edge ofTSR.

Fig. 8-5-8

Fig. 8-5-9

1.5 V

(PAL)

f2

f0

f1

f0

f2f0 f0

f2f0

f1 f1

f0f2

TREB

TSRHID

FRP

(NTSC)

TRP1

TSRHID

FRP

TRP2

TRP0

8 9 0 1 2 3 4 5 6 87 9 0 1 2 3 4 5 6 70 0

0

0

0

1

0

0

1

0

0 0

(PAL)

TRP1

TSRHID

FRP

TRP2

TRP0

10 11 0 1 2 3 4 5 6 7 8 9 10 11 0 1 2 3 4 5

f2 f0 f1

T

V

f2

f1

2.4 V

1.5 V

0.6 V

ADVANCE

8-22

8.6 DRUM SERVO

The rotation speed of the drum motor is controlled in two ways;the velocity control and the phase control.

8.6.1 Velocity Control

The drum motor rotation speed is controlled according to theDrum FG pulse in the same way as the VHS video.The drum rotation speed should be:

NTSC : 149.85 [Hz]PAL : 150 [Hz]

8.6.2 Phase Control

The phase control consists of the control of the start position ofthe track tracing by the head. This fine-adjusts the drum motorrotation speed according to the Drum PG pulse in the sameway as the VHS video.While the VHS generates the DFF pulse from the Drum PG pulse,the DV generates the HID (Head IDentity) pulse from the DrumPG pulse.

Fig. 8-6-1 PB Switching Point

The data recorded in a track includes ITI, Audio, Video, Sub-code, etc. When the DCI has detected 52 SBs (Sync Blocks) inthe SSA (Start Sync Area) in ITI, it outputs the SPA signal to theservo CPU. The position of the SPA in a track is defined at about127 µs from the edge of HID (which corresponds to the drumFF in previous video circuitry).The PB switching point in the adjustment software adjusts thepositioning automatically. Therefore, when adjusting the PBswitching point, it is required to use an alignment tape in whichtrack patterns are recorded precisely. If this adjustment is incor-rect, the widths of the gaps before and after PB ENV may bevariable, the sub-codes may not be reproduced correctly andthe timecode may not function. The drum phase servo func-tions to align the drum PG rotation phase with the TSR pro-duced by DCI. TSR has the same period (150 Hz) as HID but thetiming is slightly different.

Table 8-6-1 shows the list of servo control signals.

Table 8-6-1 Servo Control Signal List

Referencesignal.

Comparesignal

DRUM FG(900 Hz)

CAPSTAN FG(897 Hz)

DRUM PG(150 Hz)TSR

1.5 VDC TREBRECPB

CAPSTAN

DRUM

Phase ControlSpeed Control

—

Approx.127 µsec

PB DATA

HID

SPA

ITI AUDIO

VIDEO

SUB CODE

GAP

9-1

9.1 CAMERA HEAD CIRCUITRY

9.1.1 Outline

The camera head with three 1/2-inch, 380,000-pixel CCDs and asignal processor block incorporating the same DSP (Digital Sig-nal Processor) IC as that developed for the DY-90 transfers thesignal captured with the camera to the mini-DV recorder blockwithout spoiling the high video quality.Most of the setting and adjustment items employ the EVR (Elec-tric VR) system using menus to simplify the circuit design andimprove the stability and reliability of adjustments.

9.1.2 IS and TG Boards

The CCDs are 1/2-inch, 380,000-pixel, IT type CCDs manufac-tured by Sony. These CCDs feature freedom from the Vsubadjustments, which used to be necessary with previous CCDs.This design also freed the CCDs from troubles such as insuffi-ciency in dynamic level or lack of color due to adjustment errorsafter a CCD block assembly replacement.

(1) IS boardEach of the IS boards carry the CCD (IC501) and sample-and-hold IC (IC503). The IS board of this unit does not carrythe VCA (Voltage Control Amplifier) which is mounted withthe DY-90.With this unit, the VCA is located in the video signal proces-sor block on the CAM1 board.

Fig. 9-1-1

(2) TG boardThe vertical drive pulse is obtained from the V Driver ofMN3112SA (ICs 2, 3, 4) based on the drive signals gener-ated by the TG (Timing Generator) IC1. The horizontal drivepulse is obtained from 74VHC08 (ICs 6, 7).The TG IC itself is compatible with both NTSC and PAL, anddetects the signal format by the processing of pin 14. TheIC operates for NTSC when pin 14 is Open and for PAL whenpin 14 is pulled up by R1.The R/G/B video signals from the IS boards are input throughCN11 (19), CN12 (19) and CN13 (19). These signals are notprocessed in this board but output at pins 2 to 6 of CN4 tothe CAM1 board.

9.1.3 CAM1 Board

The CAM1 board includes the analog signal processor circuitryand microcomputer circuitry.The ROM (IC901) mounting the microcomputer software is notlocated on the CAM1 board but on a sub-board called the ROMboard, which is connected to CN24. The DIP switch (S901) usedin settings is also located on the ROM board.The circuit diagram of this board is separated into two sections.The diagram on page 1/2 (in Fig. 9-1-2) shows the microcom-puter circuitry and that on page 2/2 (in Fig. 9-1-3) shows thesignal processor circuitry.

IS BOARD

TG BOARD

CCD

VL

IC501

TP501IC505

IC505 Q501IC503

Sample&

HoldC

cut

+5V

-5V

Buff

Q504

Amp

TP2

CN14

+5V

+15VGND

H1

H2

H1H2

H1H2 S

HD

RG

WE

N

CK

HD

IN

VD

IN

SH

P

H1

H2

CCD RST

CCD RST

V1V2V3V4

V1V2V3V4

Vsub

Vsub

OV1OV2OV3OV4

OSUBXV1XV2XV3XV4

XSUBIV1IV2IV3IV4

CH1CH2

XSG1

CLD

TG HD LOLUX

HI-RESO

SHUTT CS

TG SCKTG SDT

IC9IC15 IC14

14MHz

D3

ED0

ED1ED2

XSG2

ISUB

B GND

GND

S/H GG GNDS/H RR GND

S/H B

CP

CP

SHP

SHP

S/H G

S/H G

GND

GND

-5V

VL

+5V

+15V

GND

-5V

VL

+15V

VL

IC3

IC6

IC1

7MHz

IC7.2IC7.1

VL

-5V+5V-10V+20V

OP_VD

OP_HD

OP_SDTOP_SCK

SHUT_CS

OP_CS

OP_CLKWEN

H1Drv

H2Drv

1/2

1/2

Rst

SHP

CP

100%

CCD OUT

100%

PulseDriver

PulseDriver

+15V

VL

+20VIC5+15VReg

SAMEAS Gch

VL+20V

-10V

-10VQ1VL

Reg

Rch

SAMEAS GchBch

TG

V D

river S P

FROM/TOCAM1CN14

SECTION 9

CIRCUIT DESCRIPTION

9-2

The microcomputer circuitry shown on page 1/2 (in Fig. 9-1-2) ismore simplified than previous circuits. Inputs from mostswitches are directly input to the CPU ports, making it unneces-sary to use an IC for parallel to serial conversion of inputs. Thecharacter generator IC and associated circuitry are mounted onthe CAM2 board.

About 1/3 of the circuit diagram on page 2/2 (in Fig. 9-1-3) isoccupied by the EVR circuitry, which combines the IC526

Fig. 9-1-2

Fig. 9-1-3

(MB88345) outputs into three control signals and sends themto their respective control circuitry.The other part of the diagram is occupied by the signal proces-sor circuitry, which receives the control signals from the EVRcircuitry and performs basic processing of the video signals. Twoanalog switches (ICs 511, 514) in the middle are provided foruse in switching the LOLUX filtered signals.Analog switch IC516 is used for blanking processing (0 V).TPs 403, 503 and 603 on this board are the points to check theproperly controlled white balance of the R/G/B signals.

CPU

CPU

IC903

IC905

P22/A18P21/A17P20/A16

P17/AD15/W17P16/AD14/W16P15/AD13/W15P14/AD12/W14P13/AD11/W13P12/AD10/W12P11/AD09/W11P10/AD08/W10

P07/AD07P06/AD06P05/AD05P04/AD04P03/AD03P02/AD02P01/AD01P00/AD00

CEWEOE

A14A13A12A11A10A9

A7A6A5A4A3A2A1A0

A8I/07I/06I/05I/04I/03I/02I/01I/00

READWRITE

IC907

IC911

READWRITE

P32/WRLXP31/RDX

P30/ALERSTX

AUDIO2 LEVEL

VER RECDISP CS

SOTO

SINO

DSP SDIDSP SDODSP SCSDSP SCK

AUDIO1 LEVEL

ATGX IN

A SIG.

B SIG.

SW. ON/OFF

CS E2PPPGO OUTSCKO

DOCSDI

SK

LENS EXT*2ZOOM POSIIRIS POSIFILTER

EXT*2SDT_IF

ZOOM POSIIRIS POSI

FILTER

LENS_AD_CSSW CS

SDT_TXSCK

TG CSSHUT USTG SDTTG SCK

LENS_DA_CSSW_CS

SDT_TX4094 OE

SCK

TG CSSHUT US

TG SDTTG SCK

SW+12V_ON

SW. ON/OFF DET

POWER OFFSW+12V_ON

POWER_ON

POWER OFF

DAT

A

LAT

CH

LATCH

ROM BOARD

JOG BOARD

DAT

A

AD

DR

ES

S

AD

DR

ES

S

DAT

A

AD

DR

ES

S

S R

AM

IC904

D7D6

D4D3D2D1D0

Q7Q6Q5Q4Q3Q2Q1Q0

LE

D5

LAT

CH

IC901

I/USETUP ON/OFF

SCKSDT_IF

SERVICE MENUDIP SW4DIP SW5DIP SW6

CHECK MODEADJ MODE

SDT_RX

SW_CS

S901

DIP

SW

LAT

CH

IC902

A17

OECE

A16A15A14A13A12A11A10A9

A7

A6

A5

A4

A3

A2

A1

A0

A8I/07I/06I/05I/04I/03I/02I/01I/01

RESET

RESET

ROM CERDXREAD

DAT

A

RO

M

IC908

IC909

E2P

RO

M

INT

/EX

TV

D

VT

R/2

32C

V _

IF C

SS

G C

SI2

C D

ATI2

C C

LK40

94 O

ER

ES

ET

CH

AR

A C

SC

HA

RA

SD

TC

HA

RA

SC

K

AP

R C

S

ME

NU

SE

TT

RG

DIR

EC

TIO

N

XO

XI

IC901

X'tal

INTERUPTDERECTIONALLOGIC CIRCUIT

CHATTERINGPREVENTIVE

CIRCUIT

4MHz X901

IC906

JOGDIAL

S952

IC954S951

IC951IC952IC955

DISP CS

CAM CMD

VTR REC

VTR STATUS

AUD

IO2

LEV

EL

AUD

IO1

LEV

EL

I2C DATTG_VDINT/EXTDSP SCKDSP SCSDSP SDODSP SDICHARA SCKCHARA SDTCHARA CSRESETSG_CSSCLKSDATV IF CS4094 OE

I2C CLK

3STAGEBUFF

RESET

SD

ATS

CLK

AP

R C

S

P S

232C

S IN

232C

S O

UT

APR

BC

P

SDATSCLKAPR CS

M. BLKFLARE(R,G,B)PAINT BAL(B,R)

INGAIN(B,G,R)

WH-SH(B,G,R)

AGC_IN_BLACK(B,G,R)

GAINW.BAL(B,R)

VD

FROM/TOCAM2CN21

CN21

400%2.8Vpp

100%0.7Vpp

400%1.4Vpp

100%0.35Vpp

0%0.00V

400%2.4Vpp

100%0.6Vpp

0%0VDC

S/H_GS/H_B

CN14

FROM/TOTG CN4

S/H_R

B_GNDG_GNDR_GND

S/H_GS/H_B

S/H_R

B_GNDG_GNDR_GND

APR_GAPR_B

APR_R

IC512 IC513

IC524.1

IC526

TP502

OB FBadj

IC522IC521.2

8bit D/AEVR

AGC CTLMIX SAW

AmpIC515

OB FB

BLK CTLMIX

KNEE

IC522IC521.1

IC525IC524.2 IC529.2

L507C539 Q511

130%

AmpAGC

TP503

400%3.3Vpp130%

1.82Vpp100%1.4Vpp 0%

0.00Vpp

9-3

9.1.4 CAM2 Board

The circuit diagram of this board is separated into three sec-tions.(1) The diagram on page 1/3 shows the major input/output con-

nectors of the board.CN21 is connected to the CAM1 board, and its pins 6, 8 and10 input analog R/G/B signals. These signals are subjectedto digital signal processing by the circuitry shown on page 2/3.60-pin connectors CN1 and CN2 are board-to-board connec-tors for connection with the DV MAIN board.The amplifier circuitry for the microphone installed on thecamera head is shown in the center of the diagram.This circuitry includes the amp which amplifies the -60 dBbalanced input to -20 dB and the circuit supplying the phan-tom power (+48 V) (ON/OFF switchable).

(2) The diagram on page 2/3 shows the DSP (Digital Signal Proc-essor) IC for major processing operations of camera signalsand the associated circuitry.

Fig. 9-1-4

The R/G/B signals are input in analog, converted into digitalby the 10-bit A/D converter ICs (IC481, 581, 681) then inputto the camera DSP (IC801).The DSP’s signal level comparator for black lock comparesthe value of the signal input to the DSP to see if they aremore or less than 32 (dec). The results are returned as theblack locking feedback signals (FBR, FBG, FBB). These sig-nals are then integrated by IC623.1/2 and IC423.2, and theresult is mixed with the A/D input signal for use in the blackposition adjustment.The Y and U/V signals output from the DSP are supplied tothe D/A converter IC (IC811) for conversion into the analogluminance (Y) and chrominance (C) signals, which are usedin TEST OUT, VIDEO OUT, etc. At the same time, these sig-nals are also output as the signals to the DV MAIN board.

(3) The diagram on page 3/3 corresponds to the SSG circuitry.It outputs sync signals from SSG IC IC102 (XC95144X10T).

IC833

APR_G

CH

AR

AC

HA

RA

BA

CK

AR

EA

1

DSP CSDSP SDO

DISP_CSCHAR SCKCHAR SDT

CHAR CS

RESET

CLK675

DSP SCKDSP SDI

AR

EA

2A

RE

A 3

S Z

ON

EZE

BRA

CO

MPA

CS

AR

EA

CLO

CK

CLK

27

HS

YN

CV

SY

NC

BLA

NK

RE

SE

TS

CLO

CK

SD

ATA

ALS

B

ADC_GADC_B

BLEMISH COMPENSATION2H DELAY(Gch,Rch)IRIS DETECTIONBLACK STRETCHPRE KNEECOLOR MATRIXGAMMA CORRECTIONCONTOUR CORRECTIONY MATRIXC MATRIXKNEE & CLIPC. BAR GEN.

FROM/TOCAM1CN21 ADC_R

FB BFB GFB R

CN21

13.5M

RIN

GIN

FBR

BIN

DY(13.5MHz)

32LSBH:BIG

L:SMALL

UV

AD

CLK

SD

OC

SS

CK

SD

I

MC

KC

LK27

CLK

27

DS

P_ W

EN

DS

P_ V

D

DS

P_ C

P

DS

P_ H

D

FI

VD

CP

HD

BUF5 3

IC681

IC103

BUF5 3

IC802.2,3,4

DSP

DPR

EN

IC801ZEBRA PATERN

2.5V

_ RE

F

D[9..0]10bitA/D

VI

CLK

AD

CLK

IC581

D[9..0]10bitA/D

VI

REF2V

REF1V

CLK

IC481IC693.1

IC693.2

D[9..0]10bitA/D

VI

CLKFBG

FBB

Amp

Amp

+5V

REF2.5VIC691

CHARAMIX

RESETCHARA

PCL

CLK

DATA

CS

BACKCKIN

HSYNCVSYNC

IC902

IC901CHARACTORGENERATOR

IC901

IC910

IC901

Amp

+5V

R

+3.3V

5K

+3.3V

5K

+5V

R

+5V

R

75P[7..0]

Y ANALOGDAC D

DAC CP[15..8]

REFIC811

IC692.2

BUF

IC825

BUF

IC912

BUF

BUF

IC823

IC824

Y

CIC826

IC821

REF1.235V

DIGITALENCORDER

75

BUF

IC827

BUF

BUF TEST

CN34

VF_Y

VF_TALLY

BATT_ALARM

16 : 9 CTL

WIDE CTL

CN32

Q909D. Tr

Q907D. Tr

Q810D. Tr

IC517

OB FBREF

IC623.2

1.0V

Amp

400%1.0Vpp

100%0.43Vpp

9-4

9.2 DV CIRCUIT

The DV MAIN board performs all video and audio processingoperations of the DV format. The video from the camera is inputto the DVIO IC (IC602) which acts as an interface between thecamera head and recorder. With the DVIO used with the BR-DV600, the analog input signals are input directly, and then in-put to the CAS IC (IC301). As the name of CAS (Compression,Audio, Shuffle) implies, the CAS IC performs compression ofDCT/VLC, input of audio signal into the sync block and the shuf-fling of video signal with a single IC. The output signal is theninput to the EDA IC (IC303). EDA stands for ECC (Error Correc-tion Code), DCI (Digital Channel Interface) and ATF (Auto Track-ing Function), and the IC incorporates these three functions in asingle IC. After the parity addition using the ECC and conver-sion into recording signal have completed in this IC, the record-ing signal output from the EDA IC is input to the P/R & MDAboards and fed to the recording heads through the recordingamp. Only two heads are mounted on the drum and the DVuses neither a flying erase head nor full erase head. This is be-cause of the overlapped recording capability of digital recordingthanks to the use of very high recording frequency and the con-centration of recording magnetic flux in the upper part of mag-netic layer. Overwriting a signal results in complete erasure ofthe original signal on the videotape.The DV MAIN board has two CPUs, the DV CPU and MSD CPU.The DV CPU functions as the master and the MSD CPU func-tions as the slave. The DV CPU controls the EVR, communi-cates with the service tool connector and is also connected withthe System CPU on the VIDEO/SYSCON board through a JVCbus. The MSD CPU is a microcomputer controlling the mecha-nism controller, servo and Digital IF IC (IC801).The Digital IF IC (IC801) is the interface IC for the DV terminalinputs/outputs. IC201 is the Audio ADC/DAC IC, which duringrecording converts the analog audio signals from the Audio/LCDboard to a digital signal and supplies it to the CAS IC locatedbehind IC801, and during playback converts the digital signalsinto analog signals and supplies them to the Audio/LCD board.

9.2.1 Input Camera Video Signals

The video signals from the camera are supplied to the recordercircuitry in the digital format. They are not converted to analogsignals to avoid video quality deterioration. The signals outputfrom the camera DSP take the 4:2:2 format video data (Y: 8 bits,R-Y/B-Y: 8 bits, 13.5 MHz) and output from CAM2 board IC801through DY(1) to DY(8) for the Y signal and UV(1) to UV(8) forthe C (Cr/Cb) signal. The R-Y/B-Y signals are output alternatelyin linear sequence. The CAM CLK, INV and INH signals are alsooutput together with the video signals. Fig. 9-2-2 shows thesesignals. CAMCLK is not 13.5 MHz but counted down to 4.5 MHzbefore being output. The INH and INV signals use the H and Vtiming signals for indicating the start of the data signal (see Figs.9-2-3 and 9-2-4). The Y/C video data signals are sent throughbuffer ICs 828 and 829 on the CAM2 board, input to the DVMAIN board where they are formatted into the DV format sig-nals. They are also supplied to the D/A converter in IC811 andoutput as the Y and chroma signals, which are input to IC5 onthe VIDEO/SYSCON board. IC5 also inputs the PB Y and PB Csignals from the recorder and the switching between the cam-era output and recorder playback output is performed here.

9.2.2 Digital Video Signal Compression

The signals supplied from the camera head to the recorder con-sist only of the effective video signals without the blanking sig-nal. It is an 8-bit signal sampled at 13.5 MHz, and has 720 hori-zontal pixels and 480 vertical lines (PAL: 576 lines). The datarate per second is as shown below.

NTSC : 720(H) x 480(V) x 2(Y&C) x 8(bits) x 30 (frames) 166Mbps

PAL : 810(H) x 576(V) x 2(Y&C) x 8(bits) x 25(frames) 166Mbps

In the DVIO IC, this signal is converted from 4:2:2 to 4:1:1 toreduce the data quantity to 124 Mbps. It is then compressed to1/5 by the DCT/VLC in the CAS IC and the data quantity be-comes about 25 Mbps. This compressed signal is the DV for-mat signal of the DV standard. It can be interfaced with othercomponents through the DV terminal (IEEE1394 compliant).

Fig. 9-2-1

DVIO4:2:2→4:1:1

(4:2:0)

CASDCT/VLC

Y

166Mbps 124Mbps 25Mbps

13.5MHzClock

18MHz

C

9-5

622

310 311 312 313 314 315 316 317 318 319

623 624 625 1 2 3 4 5 6 7

Video

H

INV

Video

H

INV

2 PAL (Effective lines: 23 ~ 310, 335 ~ 622)

Fields 1/3

Fields 2/4

CAMCLK4.5M

CLK13.5M

Y

REC_C

INH

122T(525)132T(625)

16T(525)12T(625)

T=1/13.5MHzBLK period signal = 10 h.

32T

720T(525/625)Video

Y0 Y719Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9

Cb0 Cr0 Cb2 Cr2 Cb4 Cr4 Cb6 Cr6 Cb8 Cr8 BLK period signal = 80 h.

6T or more

263 264 265 266 267 268 269 270 271 272

Video

H

INV

Video

H

INV

1st

2nd

1

1525 2 3 4 5 6 7 8 9 10

NTSC (Effective lines: 23 ~ 262, 285 ~ 524)Field 1

Field 2

Digital Video Data of DV

Fig. 9-2-2 Input Data

Fig. 9-2-3 H/V Timings (NTSC)

Fig. 9-2-4 H/V Timings (PAL)

9-6

SignalSelector

YD A C

158159160161162163164165166167168169170171172173174175176

133134135136137138139140141142143144145146147148149150151152153154155156157

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44

YD

AV

RE

FY

DA

BIA

SY

OU

TA

VD

DA

VS

SC

DA

VR

EF

CD

AB

IAS

CO

UT

AD

VD

DA

DV

SS

CR

DA

VR

EF

CR

DA

BIA

SC

RO

UT

AV

DD

AV

SS

CB

DA

VR

EF

CB

DA

BIA

SC

BO

UT

AV

DD

AV

SS

PW

DN

AD

DA

PO

FF

27P

OF

F18

PO

FF

CG

FIL

SW

27F

ILS

W18

EV

FH

DV

BLK

CG

HD

VS

SC

LK27

INC

LK27

OU

TC

LK18

INC

LK18

OU

TV

DD

3VV

DD

2VC

LKC

GIN

CLK

CG

OU

TV

SS

PC

27C

PC

27H

PC

18C

PC

CG

CLK

CG

6 9686766656463626160595857565554535251504948474645

76757473727170

888786858483828180797877

D S F 1D S F 0V D D 2 VV D D 2 3V S SC L K 1 8 M 1C L K 4 5 0 KC L K 1 8 M 2C L K 1 8 8 MC A S V DC A S H DF R PS D I OS C L KS T PL C D C KV S SV D D 2 VR S TA P C R S TM C V SV S SX O U TXINV D D 3 V

V D D 2 VV D D 3 2V S SP B C 7P B C 6P B C 5P B C 4P B C 3P B C 2P B C 1P B C 0P B V SP B H SD S F 7D S F 6D S F 5D S F 4D S F 3D S F 2

YS

I3Y

SI2

YS

I1Y

SI0

VD

D2V

VD

D32

VS

SC

SI7

CS

I6C

SI5

CS

I4C

SI3

CS

I2C

SI1

CS

I0C

AM

CLK

RE

FC

LKP

BY

7P

BY

6P

BY

5P

BY

4P

BY

3P

BY

2P

BY

1P

BY

0

TE

ST

1T

ES

T0

VD

D2V

VD

D3V

VS

SD

UM

MY

7D

UM

MY

6D

UM

MY

5D

UM

MY

4D

UM

MY

3D

UM

MY

2D

UM

MY

1D

UM

MY

0IN

VIN

HY

SI7

YS

I6Y

SI5

YS

I411

311

211

111

010

910

810

710

610

510

410

310

210

110

099 98 97 96 95 94 93 92 91 90 8913

213

113

012

912

812

712

612

512

412

312

212

112

011

911

811

711

611

511

4

Y A D V R E F H

A V S SY A D V R E F MY A D V R E F L

A V D DA V S S

CINC A D V R E F H

C A D V B S IA V S S

C A D V R E F MC A D V R E F L

A V D DA V S S

A D V S SA D V D DA D V S SA D V D D

Y A D V B S I

T E S T 2

T E S T 4T E S T 5T E S T 6T E S T 7T E S T 8T E S T 9S C A N

V S SV D D 3 VV D D 2 V

INFT R S T

T M ST C KTDI

T D OV S S

S H O R T C U TV M A S K

A F C S Y N CY A D J

A V I F S Y N CYIN

T E S T 3

Color BarGenera tor

4:2:2→4:1:1

CD A C

CrD A C

C bD A C

ClockConv.

PLL

PC

1/20F R P G E N

1/2

4:2:2← 4:1:1

BURSTADD

ENCODER

A D DSYNC

AD

AD

9.2.3 DVIO (IC602)

The digital video signals supplied to the DV MAIN board areinput to pins 110 to 117 (Y signal), pins 99 to 106 (C signal), pin98 (CAM CLK), pin 118 (INH) and pin 119 (INV). The 4:2:2 for-mat video data from the camera (Y: 8 bits, Cr/Cb: 8 bits, 13.5MHz) is converted into the 4:1:1 (4:2:0 with PAL) format (Y/C: 8bits, 18 MHz) data, which is output at pins 68 to 75 toward theShuffle Memory IC.With the BR-DV600, the analog Y/C signals output from the AGCare input. The analog video signals are input directly through pin157 (Y signal) and pin 165 (C signal) and converted by two A/Dconverters on the board. The signal obtained by the sync sepa-ration of the input is input to pin 156, then subjected to theextraction of effective video area signals by eliminating the synccomponents. The subsequent processing is identical to theabove.

Fig. 9-2-5

During playback, the DV data in the 4:1:1 (4:2:0 with PAL) for-mat is converted into the internal data of the 4:2:2 format andsupplied to the analog video output circuitry. The analog outputcircuitry has 4 separate D/A converters for Y, C, Cr and Cb. Thesync components are added to the Y signal and the encoderand burst addition functions are provided for the C signal.

9-7

9.2.4 PLL Operation

The DVIO IC has two PLL circuits, for 18 MHz and 27 MHz. The18 MHz signal is the reference clock of the DV circuitry and the27 MHz signal is used as the standard clock for the internalsignal processing by the DVIO IC. First, the configuration of the18 MHz PLL.With camera video recording of the GY-DV500, the switch inPLL IC601 is set to the pin 33 input in both record and playmodes. At this time, the reference signal is set to CAM IN by aswitch in the DVIO IC and locked to CAM CLK.With the DV terminal input signal (IEEE1394) or the analog inputof the BR-DV600, the switch in the PLL IC is set to 1394REC. Atthis time, the 18 MHz clock is locked with the frame pulse ofthe DV input (receive) signal from the digital IF (IC801). The PC(Phase Comparator) used is located in the MSD IC (IC401).The analog input is synchronized with AFC SYNC obtained bysync separation by the switch in the DVIO IC. For the referencesignals of the PLL operations, see Table 9-2-1.

Fig. 9-2-6 Configuration of 18 MHz PLL

The 18 MHz reference clock is output at pin 62 of IC602 asCLK18M1 to the Shuffle Memory (IC302), and at pin 64 asCLK18M2 to the CAS (IC301), EDA (IC303) and digital IF (IC801).The 450 Hz signal obtained by dividing the clock is output at pin63 as CLK450K to the PC of EDA (IC303) and used as the refer-ence for recording clock VCO.

Now let us see the configuration of the 27 MHz PLL. WhenCAM IN is set, the video data signal is input to the DVIO IC atthe timing of 27 MHz. As it is necessary to generate 27 MHzfrom CAM CLK in the PLL circuit, the signal is generated by theVCO in IC601. The reference signal becomes CAM CLK.With recording of the DV terminal input signal or the analogterminal input signal, the crystal oscillators attached to the DVIOIC, X602 (27 MHz) and X603 (26.995 MHz) are used. X603 isused only when recording of analog input (see Table 9-2-1).(Note) The DV terminal of the GY-D500E does not have a signal

input function.

1/6

4.5 MHzCAM CLK

CAM IN

1/4

1/20

FRPGEN

FRPGEN

X' tal 27 MHz

18 MHzCLK18 IN

4.5 MHz

4.5 MHz

154

145

33

46

98

63

62/64

CLK 450K

CLK18 M1/M2

ANALOG IN

1394

58 FRP

VPLL

49

63

62

3325

CAM REC 18 MHz

1394 RECANALOG REC

MCVS

PC18C

35

94

PC

PC

LOOPFIL

LOOPFIL

VCO

PLL IC601IC602DVIO

IC401MSD

X IN

AFCSYNC

INF

18 MHz 27 MHz

CAM IN(GY-DV500)

IEEE1394

ANALOG IN(BR-DV600)

CAM CLK CAM CLK

AFC SYNC Crystal 27MHz

CAM CLK CAM CLK

INF(IC801)

INF(IC801)

27 MHz(X602)

26. 995 MHz(X603)

27 MHz(X602)

27 MHz(X602)

InputRecord Play Record Play

Table 9-2-1 PLL Reference Signals

9-8

Mode Switching

IC601 can be set to the 18 MHz PLL mode using pins 29 and30.

Fig. 9-2-7 Configuration of 27 MHz PLL

Table 9-2-2 Mode Setting Table

Fig. 9-2-8 DV Bus Connection

9.2.5 CAS (Compression/Audio/Shuffle)

IC301 executes digital signal processing for providing the videoand audio signals with compliance with the DV format. Its built-in functions include compression, shuffling (respectively decom-pression and deshuffling in playback) and audio processing.In recording, the CAS IC performs shuffling of the video signalby the Shuffle Memory address read/write enable control. It themprocesses the video data with discrete cosine transform (DCT),quantization and variable length coding (VLC) and sync blockstorage, and outputs the data to the DV bus.The processing in playback is reverse to that in recording. TheCAS IC extracts the video sync block data and audio sync blockdata from the DV bus and decodes the video and audio datafrom them.The IC incorporates an audio clock PLL for synchronization ofaudio signal with the video signal.It also incorporates the audio muting/fading function with the V-fade capability, which fades out or in the audio before and afteran edit point based on the edit point information recorded ontape.

1/4

4.5 MHzCAM CLK CAM REC

1394RECCLK18 IN

1/6

18 MHz

98

33

CLK27 IN

4.5 MHz

4.5 MHz31

5PC27C 13

27 MHz

LOOPFIL

PLL IC601

IC602DVIO

E-OR VCO

H L

L H

L L

29 30

33

35 1394 REC

PB/CAMERA REC

Power Save

IC301

D-IF C A S E D A

IC303IC801

SSP

DV BUS: BD0-3 ,SMP

SSP: Sector(1-t rack) Start /Stop Pulse

SMP: DV BUS Star t Mark Pulse

9-9

9.2.6 Audio PLL Operation

The audio clocks include DOMCK, DOBCLK and DOLRCLK. ThePLL circuits generating these clocks are IC307, IC306 (record-ing circuitry) and IC601 (playback circuitry).The 265Fs audio master clock is generated from CLK18M ofthe video circuitry. The Audio PLL also manages the number ofaudio data items to be inserted in 1 frame of video data in orderto lock the video and audio.

NTSC (525/60) operationThe number of samples per frame is not an integer in the 48kHz mode because 48 kHz/30 (1000/1001) Hz = 1601.6. There-fore, the number of samples is assigned per 5 frames as shownbelow.

1st frame :1600 samples2nd to 5th frames: 1602 samplesAs the number of samples becomes 8008 per 5 frames, theaudio can be locked with the video.

PAL (625/50) operationThe number of samples per frame becomes an integer because48 kHz/25 Hz = 1920. Audio samples are simply recorded 1920samples per frame.

Fig. 9-2-9 Pin Layout of CAS IC301

The number of audio samples per frame is recorded in AUDIOAUX, and the master clock control during playback is performedbased on the sample count information.

The PLL operation in recording starts with the generation of the24.576 MHz CLK for use as the basis of the FS CLK by IC307and IC306. Video clock CLK18M is input to IC307 which gener-ates 27 MHz from it. Then, IC306 generates 24.576 MHz whichis supplied to the CAS IC. As DOMCK is equal to 256Fs, it is12.288 MHz in the 48K mode. DOMCK is divided to obtainDOBCLK and DOLRCK.

In playback, the FS CLK is generated by the VCO in IC601 basedon FRP. The VCO can vary the clock frequency according to themode selection (48K/41.1K/32K modes). The FS CLK is fed backto PWMO GEN in the CAS IC so that it is locked permanentlywith the video clocks.

89 88 90 78 79 77 65 67 66 68 57 53 55 54 42 46 45 44 43 34 36 35 25 23 24

7146

1322333212215

413120114

3010193

29189281

81 82 80 70 69 71 61 59 60 62 58 51 49 50 47 37 39 38 40 28 26 27 15 17 16

10497

103968776

10286957564637494

101738493

100728392999198

SHM225

VSPDFD7DFD6DFD5DFD4

VSSDFD3DFD2DFD1DFD0

VDDE2VDDE2VDDI2CLK18

VSSSMADD17SMADD16SMADD15SMADD14SMADD13SMADD12SMADD11

VSS

HSP

VS

SF

RP

DIB

CK

DIM

CK

DO

BC

KD

OM

CK

DO

LRC

KD

OD

AT

VS

SX

IX

OV

DD

E3

VD

DE

3V

DD

I2A

IDA

TR

EC

MU

TV

SS

DID

AT

DIL

AC

KLK

FR

PS

CK

SD

AS

TP

CLK

24R

ST

VSSTDIT M STCKTRSTT D OP W M OFS0FS1VSSVCOIV C O OVDDE3VDDI2VSSTINT0TINT1TINT2TINT3TINT4TINT5TINT6TINT7SSPVSS

SM

AD

D10

SM

AD

D9

SM

AD

D8

SM

AD

D7

SM

AD

D6

SM

AD

D5

SM

AD

D4

VS

SS

MA

DD

3S

MA

DD

2S

MA

DD

1S

MA

DD

0V

DD

E2

VD

DI2

SM

EC

SM

RS

VS

SS

MW

ES

MW

SS

MD

IOS

SM

PB

D3

BD

2B

D1

BD

0

Shuf f leAddress

CompressDCT/VLC

I -DCT/VLDDV BUS I /F

m-com I /F

ADC/DACI/F

SampleConv.

Aud io

Video

9-10

Mode Switching

The mode of the audio FS PLL in IC601 can be set using pins 39and 40.

Fig. 9-2-10 Audio PLL

Table 9-2-3 Mode Setting Table

PCCLK18COUNT

COUNT

LOOPFIL

PWMOGEN

PCLOOP

FIL

96

11 PLL

CAS

IC307 PLL IC306

IC301

18M 27MHz

24

18

177

6

91

69

PWMO

6495 41 FSCLK

46

PLL IC601MSD CPU IC401

111

APLL

110

65 81

94

96

95

DOLRCK

DOBCK

DOMCK

LKFRP

12.3/11.3/8.2MHz

TO:A/D,D/A48K

32KREC

PB

13

FRP99

12VOC

27MHz 24.576MHz

VOC COUNT

13

12

18

132

PC

COUNTER

AUDIOFRDGEN

LOOPFIL

BUF VCO

MODESELECT

Converter

H L

L L

H H

40 39

46 12.3M(48K)

F S C L K 11.3M(44.1K)

8.2M(32K)

9-11

9.2.7 EDA (ECC/DCI/ATF)

IC303 executes ECC (Error Correction Code) processing, DCI(Digital Channel Interface) modulation/demodulation processing,ATF (Auto Tracking Function) error detection, head switch sig-nal generation, viterbi decoding and clock phase correction.In recording, the EDA IC receives the audio and video data fromthe DV bus and AUX and SUB CODE data (TIME CODE) fromthe MSD microcomputer (IC401), applies ECC and SI-NRZI/24-25 conversion, generates the recorded signal and outputs it tothe REC amp.In playback, the IC processes the PB signal from the PB equal-izer with viterbi decoding, extracts the sync blocks and performscorrection with ECC decoding. After this, the IC outputs theaudio and video data to the DV bus and the AUX and SUB CODEdata to the MSD microcomputer.

Fig. 9-2-11 Pin Layout of EDA IC303

• ATFDETDetects errors for ATF in the DV format, and sends the resultsto the MSD I/F.The ATF signal extracted by PB EQ (IC501) is input from pin 48and digitized by the 8-bit A/D converter.

• HID CTLGenerates and outputs the head switching signal (HID).

• ViterbiThe A/D converted 7-bit data for the viterbi detection circuit isinput. See 9.2.8, “PB Equalizer”.

140141142143144145146147148149150151152153154155156

125126127128129130131132133134135136137138139

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44

VS

SI

CLK

450

CLK

18V

DD

I2V

SS

OV

DD

O3R

LCA

SU

CA

SO

E A8

A7

A6

A5

A4

A3

A2

A1

A0

RA

SW

EV

SS

OV

DD

O3R

VS

SI

VD

DI

DQ

15D

Q14

DQ

13D

Q12

DQ

11D

Q10

DQ

9D

Q8

DQ

7D

Q6

DQ

5D

Q4

DQ

3D

Q2

DQ

1D

Q0

VD

DO

3RV

SS

OA

GN

DA

GN

D

6 968676665646362616059585756555453525150494847

76757473727170

7877

V S S OA D D A T 6A D D A T 5A D D A T 4A D D A T 3A D D A T 2A D D A T 1A D D A T 0V D D O 3VSSIH S EV D D O 2V D D O 3R E C C L KVSSIV S S OP B C L KP B D A TVDDI3D V C C 3A V C C 3ATFIV T O P

N CV I T O NT R I C KM E M PR E F C L KC K P H A S EV C O C T LA D S T BV D D O 3

AD

DT

2A

DD

T1

AD

DT

0V

DD

O2M

VD

DI

VS

SI

VS

SO

VD

DO

3T

SR

SP

AN

CF

EH

ID1

HID

2H

ID3

RE

CI

PB

HR

EC

CT

RL

VD

DO

3N

CN

CN

CN

CV

SS

IV

SS

I

RD

BLW

VS

SO

VD

DO

2MD

T15

AD

DT

14A

DD

T13

AD

DT

12A

DD

T11

AD

DT

10A

DD

T9

AD

DT

8V

SS

OV

DD

O2M

AD

DT

7A

DD

T6

AD

DT

5A

DD

T4

AD

DT

310

510

410

310

210

110

099 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 8112

412

312

212

112

011

911

811

711

611

511

411

311

211

111

010

910

810

710

6

VDD I

T R S TT M S

TDIT C KT D O

VDDI3S S P

V S S OV D D O 2 B

B D 0B D 1B D 2B D 3S M P

V D D I 2 B

VSSI

A L EV D D I 2 M

VSSIVDDI3

VSSIR S T

C Y L F GC Y L P G

VSSIVSSIVSSIVSSIVSSIVSSI

N C45 46

DG

ND

VB

TM

VS

SI

VS

SI

80 79

ECC/DCI

H IDCTL

Viterbi

MSD I /F

S R A MAUX

S R A MS U B C O D E

A/D

A F T D E T

C K C T L

P C

S P C T L

9-12

9.2.8 PRE/REC

Although IC901 is originally a 3-channel head amp, this unit usesonly two of these channels. In recording, recording signal HSEis input from EDA IC303 to the GCA (Gain Control Amp) insidethe PRE/REC IC through pin 7. The GCA receives the recordingcurrent adjustment value from the EVR, input through pin 8,and adjusts the recording current according to it. The recordingcurrent is then sent through the REC amps and output at pins29 and 31 toward the recording head.

Fig. 9-2-12 Pin Layout of PRE/REC IC901

In playback, the PB signal from the head is sent through Q903and Q907, and input to this IC through pins 24 and 36. After thehead switching by HSW, the signal is sent through the 3rd ampand output at pin 61, input to the AGC amp through pin 62, andfinally output at pin 64 toward PV IQ IC304 on the DV MAINboard. The output from pin 57 is for use by the ATF but is alsosupplied to PB IQ IC304, where the ATF signal is extracted. Theoutput at pin 59 is sent to the jig connector as the ENV OUTsignal.

S T A B

P B E N

M M C

E N V D E T

E N V O U T

TRICKH

A T F O U T

E N V C T L

H A O U T

V C C 3 V

P B O U T

AGCIN

G N D

A G C O U T

RC

TL

HID

3

HID

2

HID

1

PB

H

RE

CR

HA

2DE

T

HA

2FB

HA

2AC

FB

PB

SW

2

HA

2IN

VC

C3V

MO

N2I

N

GN

D

VC

C3V

RE

CR

1

RE

CR

2

GN

D

HS

E

EV

R

HA

3DE

T

HA

3FB

HA

3AC

FB

PB

SW

3

HA

3IN

VC

C3V

MO

N3I

N

GN

D

PBH2

R A 2 O U T

V C C 5 V

R A 1 O U T

PBH1

G N D

MON1IN

V C C 3 V

HA1IN

P B S W 1

HA1ACFB

HA1FB

HA1DE T

VCC5V

R A 3 O U T

PBH3

HA2

49

50

51

52

53

54

55

56

57

58

59

60

61

62

63

64

32

31

30

29

28

27

26

25

24

23

22

21

20

19

18

17

48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

INSRH

E Q H L D

AG

CD

ET

AG

CC

TL

RC

UR

RE

CI

HA1

RA2LOGIC

M O N I T O R

RA1

H S W

RA3

HA3G C A

3rdA M P LPF

A G CA M P

A G CD E T

V R E F

E N VD E T

9-13

PRE-EQ LPF TFIL

From: PREAMPAGC IN

A-EQ ERR DET

1+DA/D

CONV.VITERBI

DATADET

BUFFER

PC

LATCH

V C O

LPF

PS

PLL Phase ADJ

VCO CenterVoltage

ADJ

PB DATA

PB CLK

AD CLK

To:ECC/DCI

ADDAT 0:67bits1+D OUT

a ADJ b ADJ

Delay ADJ

Error TimingADJ

Slice LevelADJ

CK PHASE

Q501 ,503

PB EQ IC501 60

53

10

73

33

35

52

53

36

38

40

56

5554

46

IC305

EDA IC303

62

15 14

9.2.9 PB Equalizer

IC501 is the PB equalizer, which equalizes the waveform of thePB signal in order to correct code errors due to inter-code inter-ference accompanying the magnetic recording/playback of high-density digital signals. The PLL circuit generates the phase-con-trolled play clock for use in correct recognition of the playbackdata. A BPF for the ATF signal extraction is also mounted tosend the STF signal to EDA IC303. A VCO of the recording clock(41.85 MHz) for use in recording is also provided and outputssignal at pin 31.

PB Equalizer/PLL Circuit

The waveform of the PB signal output from the pre-amp is equal-ized by PRE-EQ and AUTO-EQ and optimized for decoding. Af-ter the 1+D characteristic is added, the signal is output at pin 53as the 1+D OUT signal to be sent to A/D converter IC305 forviterbi processing. Since the DV uses SI-NRZI modulation, the1+D OUT signal has an analog waveform with ternary (1, 0, -1)data. It is converted by the A/D converter into a 7-bit digital sig-nal and input to the viterbi circuit in EDA IC303. The digitizedternary data is subjected to highly accurate code error correc-tion based on viterbi detection, and converted by the ternary-binary converter into binary (1, 0) PB data.The 1+D OUT signal is also output at pin 56. It is passed throughthe buffer of Q501 and Q503, input again through pin 55, sub-jected to ternary value detection and binary conversion by the

Fig. 9-2-13 Configuration of PB EQ Block

DATA DET circuit using the conventional fixed threshold method,and output at pin 33 as PB DATA. This becomes the PB datawhen the viterbi circuit is off. However, as the viterbi circuit ispermanently working with this unit, this occurs only when theviterbi circuit is forced off by the service adjustment software.It is used in the inherent error rate checking without viterbi de-tection.The PB CLK is permanently subjected to phase comparison withthe PB data by the PLL circuit, so it is always output in synchro-nism with the PB data. One of the PB CLK outputs is output atpin 36 as A/D CLK and supplied to A/D converter IC305 for viterbiprocessing. Another output becomes PB CLK supplied to theEDA IC303. As the sampling points vary when A/D conversionbased on AD CLK is performed, it is required to execute sam-pling at the correct position so that the viterbi detection circuitcan function normally. To ensure this, the viterbi circuit outputsthe phase correction information at pin 73 as the CK PHASEsignal for use in fine phase adjustment by PS (Phase Shift) inthe PLL circuit. For the error rate adjustment, the adjustmentdata from EVR IC503 is converted from serial to parallel theninput to the adjustment points. First adjust the VCO voltage tothe specified value, then perform the PB EQ adjustments byadjusting of the other adjustment points in the specified orderto minimize the error rate.

9-14

9.2.10 DV Interface

(1) IEEE1394

The IEEE1394 data transfer handles both the sync data thatshould be sent periodically (isochronous data transfer) andthe unsynchronous data that can be sent or received at anydesired time (unsynchronous data transfer). When transfer-ring data that should be real time such as video and audiosignals, data would be lost and the video or audio would beinterrupted during the transfer unless communication at con-stant time intervals is not guaranteed. The isochronous datatransfer is capable of real-time data transfer because it re-serves the necessary bandwidth for transfer in advance andsends packets every 125 µs (8000 times per sec.).IEEE1394 defines three data rates of 98.304 Mbps (S100),196.608 Mbps (S200) and 393.216 Mbps (S400). By defin-ing that a device capable of a high rate should also support aslower rate than this, upward compatibility is provided.The bus is constructed so that multiple devices (up to 63

Fig. 9-2-14 Configuration of IEEE1394

components) can communicate between each other with-out switching the cable and be connected without turningthe power off (hot swapping). When the devices are con-nected, the bus is initialized to form a tree structure in whichone of the devices is the root and the others are the branchesor twigs of the tree, then the IDs of the devices are assignedautomatically (see Fig. 9-2-14).As seen below, IEEE1394 features a higher degree of free-dom in connection than the SCSI standard and the automa-tion of associated settings.The IEEE1394 standard cable has 6 pins including a pair ofpower lines and 2 pairs of signal lines, but by excluding apair of power lines the DV terminal (DV cable) is more com-pact and has only 4 pins. The maximum length of the DVcable is 4.0 meters and the compatible rate is 100 Mbps(S100) (see 9.4.2, “DV Terminal”).

A B C

DE

F

B

A C

F D E

Root

Branches

Twigs

9-15

(2) AV Protocol

The AV protocol is the format for transferring the digital videosignal using the isochronous communication of IEEE1394.As the digital video standard defines that audio and videosignal data should be transferred as arrays of 80-byte blockdata called the DIF blocks, the isochronous communicationwith packet transfer at every 125µs should send six DIFblocks per packet. As a result, the data of a video frame istransferred in 250 packets.

Fig. 9-2-15 Data of One Video Frame (NTSC)

A total of 150 blocks, including 1 header block, 135 videodata blocks, 9 audio data blocks, 3 video auxiliary data blocksand 2 sub-code data blocks in 25 packets from a single DIFsequence, which corresponds to the data of a track on DVtape. With NTSC, 10 tracks of data correspond to 1 videoframe.

10 T

rack

DP0

DP1

DP24

DP25

DP49

DP225

DP249

V129 V130 V131 V132 V133 V134

H0 SC0 SC1 VA0 VA1 VA2

A0 V0 V1 V2 V3 V4


V129 V130 V131 V132 V133 V134


V129 V130 V131 V132 V133 V134

DIF

Seq

uenc

e 0

DIF

Seq

uenc

e 1

DIF

Seq

uenc

e 9

80 byte

480 byte

H0: Sub-Sequence Header

SC0 - 1: Sub Code

VAUX0 - 2: Video Auxi l iary Data

V0 - 134: Video Data

A0 - 8: Audio Data

DP0

DP1

DP24 V129 V130 V131 V132 V133 V134


A0 V0 V1 V2 V3 V4

DP2

DP3

V5 V6 V7 V8 V9 V10

V11 V12 V13 V14 A1 V15

DP4

DP5

V16 V17 V18 V19 V20 V21

V22 V23 V24 V25 V26 V27

DP6

DP7

V28 V29 A2 V30 V31 V32

V33 V34 V35 V36 V37 V38

DP8 V39 V40 V41 V42 V43 V44

DP9

DP10

A3 V45 V46 V47 V48 V49

V50 V51 V52 V53 V54 V55

DP11

DP12

V56 V57 V58 V59 A4 V60

V61 V62 V63 V64 V65 V66

DP13

DP14

V67 V68 V69 V70 V71 V72

V73 V74 A5 V75 V76 V77

DP15 V78 V79 V80 V81 V82 V83

DP16

DP17

V84 V85 V86 V87 V88 V89

A6 V90 V91 V92 V93 V94

DP18 V95 V96 V97 V98 V99 V100

DP19

DP20

V101 V102 V103 V104 A7 V105

V106 V107 V108 V109 V110 V111

DP21

DP22

V112 V113 V114 V115 V116 V117

V118 V119 A8 V120 V121 V122

DP23 V123 V124 V125 V126 V127 V128

9-16

CablePort

IC801

TPBIAS

T P A +

TPA-

T P B +

TPB-

51

72

71

70

69

CablePair A

CablePair B

56Ω 56Ω

56Ω 56Ω

5kΩ250pF

1mF

ECC

IC801

DCI PRE/REC

HEAD

FromAUDIO

PROCESS

VIDEOFromSHUFFLE

DV BUS

COMPRESS

IC401

DV REC/PLAY

DIGITAL I/F IEEE1394 DV OUT

CONTROL COM

(3) DV Bus

The DV bus signal after the video compression by DV till theerror correction by ECC includes the audio component andtakes the DV standard data format. This bus is connected tothe Digital I/F, where the signal is converted into an IEEE1394compliant signal that is output from the DV output terminal.

Fig. 9-2-18 Connection of Twisted Pair Cables

Fig. 9-2-16 DV Output Block Diagram

Fig. 9-2-17 DS Coding

(4) Input/Output Signals

• DS codingIEEE1394 transfers signals through 2 pairs of twisted ca-bles. One of the pairs is used to transfer data and the otheris used to transfer strobe signals. The receiving party canreproduce the original signal by XORing the two signals.This method is referred to as DS (Data-Strobe) coding.

• Connection of twisted pair cables

The signal lines from the DV terminal are connected di-rectly to pins 69 to 72 of IC801.

01 1 1 10 0 0

Data

Strobe

Clock

9-17

LD3

LD2

LD1

LD0

LCT

L1LC

TL0

LSY

SC

LKV

CC

GN

DD

GN

DD

VC

CP

C0

PC

1P

C2

LRE

QC

TL0

CT

L1 D0

D1

SY

SC

LKD

VC

CD

GN

DA

GN

DA

GN

DT

PB

IAS

AG

ND

AG

ND

AV

CC

AV

CC

CP

SR

1R

0T

PB

-T

PB

+T

PA

-T

PA

+

NTZ IHZN T O U TG N DN T C L KR A N E ZL C N AL P W R D NV C CG N DD V S SC/LKONLPSC N AT E S T M 1T E S T M 2/RESET/ISOA V C CP W R D NPLLFLTPLLVDDP L L G N DP L L G N DXIX O

AD10AD11G N DAD12AD13AD14AD15VCCA(2/3)V C C/ INTPCYCLEIN

BD

3B

D2

BD

1B

D0

VC

CB

(2/3

)V

CC

BC

LK/D

CA

LEN

C/L

CN

TD

GN

DA

D0

AD

1A

D2

AD

3G

ND

AD

4A

D5

AD

6A

D7

VC

CA

(2/3

)A

D8

AD

9

SS

PV

CC

CLK

18V

CC

B(2

/3)

NC

NC

NC

NC

NC

GN

DS

MP

F R P

T E S T 0G N D

T E S T 1SI /TEST2

S OS C KV C C/SENT M ST C K

/TRSTG N D

TDIT D O

/LISOL L R E Q

V C C

V F R P

G N DN CN CN CN C

V C CN CN CN CN C

G N DN CN CN CN C

V C C/RST

com I/F

VC

CB

(2/3

)

D VBUS I /F

LINK PHY

LINK Control(CFR)ARF

ATF

ISOControl/Buffer

123456789101112131415161718192021222324252627282930313233343536

1108107106105104103102101100

999897969594939291908988878685848382818079787776757473

37 38 39 40 41 42 43 44 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

144

143

142

141

140

139

138

137

136

135

134

133

132

131

130

129

128

127

126

125

124

123

122

121

120

119

118

117

116

115

114

113

112

111

110

109

µ

(5) Digital I/F

Digital I/F IC801 is an interface IC for use in DV terminalinput/output(∗), and is compliant with IEEE1394. Digital I/FIC801 integrates the LINK and PHY blocks and is connecteddirectly to the DV bus. The MSD IC functions as the controlmicrocomputer.DV bus data BD0 to 3 are connected to pins 130 to 133, theSMP (Start Mark Pulse) is connected to pin 134 and the SSP(Sector Start Pulse) is connected to pin 144.

Pin Layout of Digital I/F IC801

Fig. 9-2-19 Pin Layout of Digital I/F IC801

The internal blocks of the Digital I/F IC include the LINK block,PHY block and the control microcomputer. The LINK blockprocesses the IEEE1394 Link layer and AV protocol, the PHYblock processes the bus initialization, bus usage regulationand relay of signals from other devices, and the control mi-crocomputer processes, the control of LINK and PHY blocks,acquisition of the isochronous communication band and man-agement of the bus.(∗)PAL model is output only.

9-18

Pin No.12345678910111213141516

17

18

192021222324

LabelVRDAVRADAINRVCMRVCMLAINL

PWADPWDAMCLKLRCKSCLKSDTODGND

VDSDTI

CMODE

DEM1

DEM0

AOUTLAOUTRVCOMAGND

VBVA

In/OutInInIn

OutOutInInInInInIn

Out––InIn

In

In

OutOutOut

–––

Voltage Reference Input for DAC, VAVoltage Reference Input for ADC, VAAnalog Input (R-CH)R-Ch Common Voltage OutputL-Ch Common Voltage OutputAnalog Input (L-CH)ADC Power-Down Mode “L” : Powe downDAC Power-Down Mode “L” : Powe downMaster Clock InputL/R CH Clock InputAudio Serial Data Clock InputAudio Serial Data OutputDigital GNDDigital Power InputlAudio Serial Data InputMaster Clock Select Input

"H": 384 fs or 512 fs, "L": 256 fs.De-emphasis filter switching

Analog Output (L-CH)Analog Output (R-CH)Common Voltage OutputAnalog GNDSubstrateAnalog Power

DEM10011

DEM20101

MODE44.1kHz

OFF48kHz32kHz

Description

15 14 13 12 7 6 5 4 3 2 1 0 15 14 13 12 7 6 5 4 3 2 1 0 15 14

15Don't Care Don't Care14 2 1 0 15 14 2 1 0

15 14 13 12 1 0 15 14 13 12 1 0 15 14

0 1 2 3 9 10 11 12 13 14 15 0 1 2 3 9 10 11 12 13 14 15 0 1

0 1 2 3 15 16 17 30 31 0 1 2 3 15 16 17 30 31 0 1

Lch Data Rch Data

15:MSB, 0:LSB

LRCK

SCLK (32fs)

SDTOSDTI

SCLK (64fs)

SDTO

SDTI

9.2.11 Audio A/D and D/A

IC201 (AK4518) is a 16-bit A/D & D/A converter IC. The A/Dconverter functions in recording and the D/A converter func-tions in playback.

Fig. 9-2-20 Audio Interface Timing (fs = 48 kHz)

Fig. 9-2-21 IC201 Pin Function Table

To reduce the power consumption, the IC has the facility of shut-ting down any A/D or D/A converter that is not used.The audio data is input and output through pins SDT1 and SDT0according to SCLK and LRCK. Fig. 9-2-20 shows the data for-mat.

9-19

9.2.12 Audio Circuit (Audio/LCD Board)

(1) Limiter/ALC circuitBA3314F (IC206, IC207) on the Audio/LCD board is a dualamp incorporating ALC circuitry. This unit uses only one ofthe amplifiers. The audio signal input through pin 2 is sentthrough the limiter (ALC) amp and output at pin 12. Pin 14 isthe ALC filter, and either the limiter or ALC operation can beselected by varying the externally connected time constant.The limiter/ALC operations are switched by changing thetime constant by turning transistors Q203 and Q204 ON andOFF.The bases of these transistors are connected to limiterswitches S203 and S204.

(2) Limiter/ALC characteristicsThe operational characteristics and attack/recovery time ofthe limiter/ALC are as shown below. The limiter is activatedat reference input of +15 dB while the ALC is activated atthe reference level.

Table 9-2-5

(3) Operation matrix

Fig. 9-2-22 Limiter/ALC Operation Characteristic

+20dB

+10dB

0dB(–6dB)

–10dB

–10dB

+15dB

0dB(STAND INPUT)

+20dB +40dB

LIMITER

ALC

LINE

CAMERA

ALC ON

ALC/LIMITER OFF

ALC ON

LIMITER ON

ALC ON

LIMITER ON

+4dBs

−60dBs

AUTO/MANUAL Switch OperationInput

AUTO

MANUAL

AUTO

MANUAL

AUTO

MANUAL

Table 9-2-4

ALC

Limiter

Approx. 50 ms

Approx. 10 ms

Attack time Recovery time

Approx. 10ms.

Approx. 5ms.

9-20

9.3 MECHANISM OPERATION DESCRIPTION

9.3.1 Technology Employed with the Mechanism

1. Outline

The mechanism is based on the mechanism used with the HR-DVS1 mini DV & S-VHS recorder for consumer use. After modi-fications for improvement of reliability, the present mechanismhas been developed as the common mechanism for the GY-DV500 professional DV camcorder and the BR-DV600 DV vide-ocassette recorder.The main features of the mechanism are as follows.• High rigidity main deck chassis• High speed mechanism (FF/REW at about 20X speed)• High response mechanism• Active head cleaner for prevention of dirt deposition on the

head

2. Main Technologies

(1) High rigidityTo withstand the heavy-duty use by professionals, the maindeck chassis is designed to have a thickness of 0.8 mm(about 1.3 time that of the consumer-use DV Movie). Themechanism is damper-mounted on the camcorder body toreduce effects of external forces and absorb distortion dueto mounting.

(2) High speed mechanismIn FF/REW, the clutch mechanism is improved coupled tothe acceleration mechanism to enable high-speed operationsof 20 times the normal speed.

(3) High response mechanismThe mode transition method is improved by eliminating theSTOP mode during transition between FWD and REV modes.

(4) Active head cleanerThe mechanism is equipped with an active head cleaner,which is composed of a mechanical head cleaner workingduring loading/unloading and its control solenoid. The activehead cleaner can clean the head even when a tape is loaded.It ensures the reliability for professional use by preventingvideo degradation due to dirt on the head before it occurs.

(5) Tape-friendly transport systemMechanism control software matching the mechanism isused to handle tape gently and improve the reliability.

Motor Bracket Assembly [M6-20]

(Mode Control Motor)

Worm Wheel 2 [M6-3]

Rotary Encoder Assembly [M6-21]

Main Cam [M6-8]

Tension Control Arm Assembly [M6-30]

Guide Rail (SUP) Assembly

SUP Pole Base

SUP Loading Motor

[M6-22]

Arm Gear 1 Assembly [M6-25]

Band Arm Plate

Tension Band

Band Arm Plate Sub-Assembly [M6-41]

Tension Arm Sub-Assembly

[M6-40]

Brake Control Arm Assembly [M6-31]

Control Plate [M6-16]

Main Brake (SUP) Assembly

[M6-38]

Reel Disk Assembly (SUP) [M6-39]

9.3.2 Loading Operation

Fig. 9-3-1 shows the flow chart of mechanism operations. Thefigures inside [ ] after the name of each part is the number ofdescription text reference. Please refer to the disassembly dia-grams, mechanism parts list and standard circuit diagrams forthe description.

9-21

Fig. 9-3-1 Correlation of Operations of Professional DV Mechanism

Guide Rail (TU) Assembly [M6-23]

TU Pole Base

TU LoadingGear

Draw Pole Base

Centering Arm Assembly [M6-26]

Connect Gear 2 [M6-10]

Connect Gear 2 [M6-10]

Main Brake (TU) Assembly

[M6-37]

Sub-Brake Assembly

[M6-36]

Swing Arm Assembly [M6-42] Reel Base Assembly (TU) [M6-39]

Pinch Roller Arm Assembly [M6-44]

Charge Arm Assembly [M6-29]

Exit Guide Arm Assembly [M6-43]

Cleaner Arm Assembly

Exit Guide Arm

Arm Gear 2 Assembly [M6-27]

Sub-Cam [M6-9]

Clutch Lock Lever Assembly [M6-28]

Base Plate Assembly [M6-32]

Push Plate [M6-15]

Clutch Lock Gear (2) [M6-14]

Clutch Lock Gear (1) [M6-12]

Center Gear Assembly [M6-34]

Capstan Motor [M6-4]

Reel Drive Pulley Assembly [M6-33]

Timing Belt [M6-11]

9-22

1. Motor Bracket Assembly, Rotary Encoder Assembly

(1) Motor bracket assembly [M6-20]The motor bracket assembly is composed of a mode controlmotor and worm gear. It drives the rotary encoder assembly[M6-21] by means of worm wheel 2 [M6-3].The mode control motor controls the mechanism mode tran-sition (loading/unloading) and selection. The motor ON/OFFstatus and rotation direction are controlled by the MSD CPU(DV MAIN IC401). The rotation of the mode control motor istransmitted through worm wheel 2 to the switchboard ofthe rotary encoder for detection and changing of mechanismmode.

(2) Rotary encoder assembly [M6-21]The rotary encoder assembly is composed of a switch andgear. The rotation angle of the gear is detected from theON/OFF status of the switch. The ON/OFF status of theswitch is in accordance with the mechanism mode, and theinformation is transmitted to the MSD CPU. The MSD CPUdetects the mechanism mode based on this information andcontrols the mode control motor, drum and capstan motor.The gear of the rotary encoder is also used to transmit therotation of the mode control motor to the main cam andsub-cam.

(3) Main cam [M6-8]The main cam controls the supply and take-up loading mecha-nism. The control groove on the bottom surface of the maincam controls the arm gear 1 assembly [M6-25] and centeringarm assembly [M6-26]. The arm gear 1 assembly controlsthe loading/unloading of the guide roller by controlling theloading gear. The centering arm assembly controls the swing-ing of the swing arm assembly [M6-42].The groove on the top surface of the main cam controls thebrake control arm assembly [M6-31] and tension control armassembly [M6-30]. The brake control arm assembly controlsthe main brake assemblies (SP, TU) [M6-38, 37] and sub-brake assembly [M6-36], and the tension control arm assem-bly controls the tension arm sub-assembly [M6-40] and bandarm plate sub-assembly (tension band) [M6-41].

(4) Sub-cam [M6-9]The sub-cam controls the loading mechanism on the take-up side. The control groove on the bottom surface of thesub-cam controls the arm gear 2 assembly [M6-27] and clutchlock lever assembly [M-28]. The arm gear 2 assembly con-trols the exit guide arm assembly [M6-43] and the clutchlock lever assembly controls the clutch lock gears 1 and 2[M6-12, 14] through the base plate assembly [M6-32].The control groove on the top surface of the sub-cam con-trols the charge arm assembly [M6-29]. The charge arm as-sembly controls the pinch roller arm assembly [M6-44].

2. Tension Arm Sub-Assembly, Reel Brake Operation

(1) Tension arm sub-assembly [M6-40]The tension arm control arm assembly [M6-30] is controlledfrom the control groove on the main cam and controls thetension arm sub-assembly. The tension arm sub-assemblyhas the band arm plate sub-assembly (tension band) [M6-41] attached to it for use in controlling the back tension ofthe tape.

(2) Main brake assembly (SUP) [M6-38]The main brake assembly (SUP) is controlled by the brakecontrol arm assembly and used to apply the disk brake ofthe supply reel so that the tape is not slackened duringstandby mode after it has been taken out of the cassette. Italso applies back tension during FF to avoid slack winding.

(3) Main brake assembly (TU) [M6-37]The main brake assembly (TU) is controlled by the brakecontrol arm assembly and used to apply the disk brake ofthe take-up reel so that the tape is not slackened duringstandby mode after it has been taken out of the cassette. Italso applies back tension during REW to avoid slack wind-ing.

(4) Sub-brake assembly [M6-36]The sub-brake assembly is controlled by the brake controlarm assembly and used to apply the disk brake of the take-up reel so that the tape is not slackened during a reversesearch.

3. Tape Drive Operations

The rotation of the capstan motor is transmitted through thereel drive pulley assembly [M6-33] and timing belt [M6-11] andfinally to the center gear assembly [M6-34].

(1) Center gear assemblyThe center gear assembly has a clutch mechanism and con-trols the tape winding force. The clutch mechanism is notthe felt contact type used with VHS recorders but is of themagnetic, non-contact type mechanism. The magnetic clutchfeatures stable performance because it is less sensitive totemperature and humidity than the felt-based clutches. Whenthe magnetic clutch mechanism is worn, the winding forceincreases, which is an opposite effect to that of the felt-based clutch mechanisms.

(2) Clutch lock gears (1, 2) [M6-12, 14]The clutch lock gears (1, 2) are controlled by the clutch locklever assembly. They function as the accelerator mechanismduring FF/REW to increase the operation speed.

(3) Swing arm assembly [M6-42]The swing arm assembly swings under the control of thecentering arm assembly [M6-26], and functions to wind tapeon the SUP/TU reel disk by transmitting the rotation force ofthe center gear assembly.

(4) Pinch roller arm assembly [M6-44]The pinch roller arm assembly is controlled by the chargearm assembly [M6-26] and functions to keep the tape in tightcontact with the capstan.

(5) Exit guide arm assembly [M6-43]The exit guide arm assembly is controlled by the arm gear 2assembly [M6-27] and functions to regulate the tape drawnfrom the TU reel and the tape transport. The exit guide armassembly has a mechanical head cleaner installed on it forcleaning the head during loading or unloading.

9-23

Mechanism Layout

W3 S37

S36

S36

4017

41

35

37

27

44

33

A

AA

AA

AA

BB

BBAA AA

19

30

S36

S36

39

38

CCCC

S36

AAAA

AA

AA

AA

AA

CC

CC

35A

S36

S36

S36

S36

S36

23

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

S36

36

S36

S36

W5

S36

24

50

20

2 9

22

W5

W5

W5

6

5

8

3 10

10

31

26

4

W515

W6

1314

12

7

21

32

34

25

28

70

11

29

W5

W5

43A

18

42S36 39

BB!

43

S38

16

45

• Mechanism explowed view M6 (for reference)

9-24

9.3.3 Mechanism Operations

1. Outline

The mechanism mode is changed according to the rotation ofthe mode control motor. The mode change is managed by theMSD CPU, which detects the mechanism mode from the 3-bitsignal sent from the rotary encoder assembly. The mechanismused with this unit has 7 mechanism modes (positions).

2. Mechanism Modes

For detailed operation timing of major parts in each mode, seethe Mechanism Timing Chart.

(1) Assembly modeThis mode is used in the mechanism assembly. Before start-ing disassembly or assembly of the mechanism, set it tothis mode. As the mechanism is usually in the C-IN modewhen no tape is loaded, it can be put into the assembly modeby applying 3 V DC to the electrode of the mode controlmotor. See Chapter 2, “Mechanism Adjustments” for de-tails.

(2) C-IN modeThe mechanism is in this mode when the cassette has beeninserted or ejected. After an eject operation, the mechanismstands by in this mode until the next time a cassette is loaded.

(3) Short FF modeThis mode is activated when the beginning of a tape is de-tected. In this mode, the mechanism feeds tape in the FWDdirection at about double speed until the tape beginning de-tection signal is canceled. This mode is positioned betweenthe C-IN mode and STANDBY ON (STOP) mode, and themechanism feeds tape in the FWD direction to remove tapeslack.

(4) PLAY/REC/FWD/STANDBY ON modeThese modes occur during playback or recording, as well asduring forward search (pinch roller on, max. about 10X speed)which is initiated by pressing the FF button during playback.The mechanism usually stands by in this position in theSTANDBY ON (STOP) mode, but enters the STANDBY OFFmode according to the long pause setting. The mechanismcan be set to enter the STANDBY ON mode in any of thefollowing cases.1)When a cassette is loaded: The mechanism mode changes

from C-IN to STANDBY ON automatically.2)When the STOP button is pressed in PLAY, REC, FWD,

REV, FF or REW mode.3)When the beginning of the tape is detected during REW

or REV.

(5) REV modeThe mechanism enters this mode when reverse search(pinch roller on, max. about 10X speed) is started by press-ing the REW button during playback. In addition, when themechanism mode changes from C-IN to STANDBY ON(STOP) after a cassette has been loaded, the mechanismalso enters this mode automatically during a few seconds ofreverse search for the tape winding diameter detection.

(6) STANDBY OFF (STOP) modeThe mechanism is in this mode when the mechanism withtape loaded stands by after a long pause setting period haselapsed or when the power is OFF.

(7) FF/REW modeThe mechanism is in this mode during FF or REW (pinchroller off). The tape is transported at about 13X speed in FFand about 20X speed in REW.

9.3.4 Operation of Active Head Cleaner

The STILL or REC PAUSE mode is canceled in 30 minutes (atabove 10°C) or 3 minutes (at below 10°C). However, this timecount is reset when the active head cleaner is turned on. Theactive head cleaner operation stops when the mode changes inthe middle of cleaning.• The active head cleaner is activated in the following cases.1) Every time after a tape has been loaded.2) In STOP, STILL or REC PAUSE mode after the PLAY or REC

has continued for more than 15 minutes.3) In STOP, STILL or REC PAUSE mode after FWD or REV search

has continued for more than 10 minutes.4) In STOP, STILL or REC PAUSE mode after FF or REW has

continued for more than 10 minutes.5) When STILL has continued for more than 30 minutes (at above

10oC) or 1 minute (at below 10°C).6) When REC PAUSE has continued for more than 3 minutes (at

above 10°C) or 10 minutes (at below 10°C).7) In STOP, STILL or REC PAUSE mode after the error rate above

2K has continued for 5 seconds or more. (Once the activehead cleaner is turned on this reason, it will not turn on againunless the error rate has dropped to below 500 for more than5 seconds continuously.)

8) When power is turned ON while a cassette is loaded.

9-25

Mechanism Timing Chart

Table 9-3-1

POLE BASE

ROTARY ENCODER -20

CTL PLATE

MAIN BRAKET(SUP)

MAIN BRAKET(TU)

SUB BRAKE

PINCH ROLLER

EXIT GUIDE ARM

TENSHION ARM

BAND ARM PLATE

CLUTCH LOCK

CENTERRING. ARM

ROTARYENCORDER

2

1

3

MAIN CAM GEAR 0

0SUB CAM GEAR

ON

OFF

S/REV

PLAY

FF/REW

ON 1

ON 2

OFF

ON 1

ON 2

OFF

ON

OFF

ON(REV MODE PRESS UP)ON(PLAY MODE)

OFF

OFF

ASSY

HALF LOADING

ON

OFF

OFF 2

OFF 1

ON

OFF 2

OFF 1

ON

SUP CENTRRING

S/REV

ASSEMBLY

S. FFC-IN

LOADING END

PLAY/REC REV STANDBY OFF FF/REW

0

15

33.33

40

4015

166.66

140

140

193.33

160

160

226.66

185

185

273.33

220

220

306.66

245

245

36°

17°

169.

66°

87°

190.

33°

196.

33°

223.

66°

229.

66°

270.

33°

276.

33°

303.

66°

30.3

3°

36.3

3°

MODE

PARTS

(1)

(3) (4) (5) (6) (7)(2)

9-26

RS-232C

VIDEO/AUDIO

GY-DV500

ENG

SSF Log Data Transfer

Video/Audio Data Transfer

mini DV TAPE

NLE

NLEGY-DV500 or BR-DV600

GY-DV500

SSF log data is stored in EEPROM of the GY-DV500. (Data of up to 6 cassettes)

Recorded in the SSF log data area in the beginning of tape.

SSF log data transfer from the GY-DV500/BR-DV600 to a NLE system.

Recorded scenes are loaded in the NLE system.

9.4 EXPLANATION OF NEW FUNCTIONS

The new functions of the GY-DV500 camcorder are the SSF (Su-per Scene Finder) and DV terminal. The details of these func-tions are as described in the following sections.

9.4.1 SSF (Super Scene Finder)

(1) About SSFThe SSF function improves the efficiency of editing by re-cording the log data (see (3) “About log data” below) re-quired for non-linear editing with the GY-DV500 camcorderin the beginning of each tape during recording. This functionhas been developed newly for use with professional DV.

(2) FeaturesThe features of SSF are as described below. Thanks to thesefeatures, the software built into the camcorder performs allprocessing without the need of special tape or a processingboard.

(a) During recording, stores the log data (for up to 6 cas-settes) in the camcorder’s EEPROM (Video/SYSCONIC407)

(b) After recording, writes the log data in the sub-code areaon the beginning of the tape. As the log data cannot bewritten once the tape cassette has been ejected, thecamera is provided with a memory space for up to 6 cas-settes and can transfer log data to a non-linear editingsystem even after the tape recording has completed.

(c) When the camcorder receives a log data transfer requestfrom the non-linear editing system, the camcorder readsthe log data from the tape or EEPROM and transfers it tothe non-linear editing system.

(d) The video and audio data according to the log data is alsotransferred to the non-linear editing system. As the logdata of NG (No Good, or unsuccessful) scenes are notstored or transferred, it is easy to eliminate NG sceneslater.

Fig. 9-4-1

9-27

MIRECSTRT

MO

EEPROM(DV MAIN IC404)

MSD CPU(DV MAIN IC401)

MS BUS

MI MO MI MO MI MO RECSTOP

JVC BUS

SYSCON CPU(VIDEO/SYSCON IC401)

(VIDEO/SYSCON IC407)

RS-232C

EEPROM

DV CPU(DV MAIN IC101)

SCENE1 SCENE2 SCENE3 SCENE4

Tape beginning

SSF log data area

Cassette No.TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

1. Log data transfer to SYSCON CPU

Data of 6 tapes

PC (NLE)

Data of 1 tape

(3) About log dataThe SSF creates the following 5 items of log data duringrecording.(a) Cassette number(b) Scene number(c) IN time code data (MI)(d) OUT time code data (MO)(e) CUE time code data (CUE).

Each of these data items is as described below.(a) Cassette number

The cassette number is assigned automatically duringrecording, and the number is recorded continuously inthe sub-code area of tape during recording. The cassettenumber begins with 1 and increments automatically withevery cassette. The maximum count is 9999 and afterthis the number returns to 1. As the cassette numberalso includes the model discrimination ID code (S.S.F. ID :memorized on IC407(EEPROM) of VIDEO/SYSCONboard.) of the recorder, overlapping with a cassette re-corded with another GY-DV500 unit will hardly ever oc-cur.

(b) Scene numberThe scene number begins with 1 and increments auto-matically with every scene. The scene number of each

scene is recorded in the sub-code area during recordingof the scene. The maximum count is 119 and the subse-quent scenes cannot be numbered (the VF shows“M : ” in this case).

(c) IN time code dataIndicates the time code of the start point of a scene.

(d) OUT time code dataIndicates the time code of the end point of a scene.

(e) CUE time code dataIndicates the time code of the point where the TAKEbutton is pressed during recording in CUE mode.

(4) MARK mode and CUE modeThe SSF has two operation modes of MARK and CUE. Thelog data is registered in either mode.

(a) MARK modePressing the TAKE button on the camcorder body regis-ters IN time code data, and pressing the button againregisters OUT time code data. GY-DV500 can be regis-tered 119 scene maxmum.

Fig. 9-4-2 Example of MARK Mode

9-28

CUEMI CUE CUE CUE CUE CUE CUE CUEMO

RECSTOP

SCENE1

Tape beginning

SSF log data area

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

Cassette No.

RECSTRT

MI MO MO MO MO RECSTOP

MIMI MI

SCENE1 MISCENE1 MOSCENE2 MISCENE2 MOSCENE4 MISCENE4 MO

SCENE119 MO

SCENE1 SCENE2 SCENE3 SCENE4

Tape beginning

SSF log data area

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

TAKE button

NG button

The scene becomes an NG scene and the data is overwritten.

(5) NG button and CONTINUE button(a) NG button

The NG button is used to delete a registered scene or INtime code data from the log data as the NG (No Good, orunsuccessful) scene at the mark mode. Although the logdata is deleted, the recorded video signal remains intacton tape. The log data of the scene registered by this op-eration overwrites the log data of the next scene. Thenext scene is renumbered by regarding a the NG scene

Fig. 9-4-4 Function of NG Button

Fig. 9-4-3 Example of CUE Mode

as a scene without a number. Since the upper limit of thescene number is 119, the number of recordable scenesdecreases if the NG button is pressed frequently. If theNG button is pressed to cancel all recording after regis-tration of the OUT time code data, the log data of the lastscene remains as the log data of an OK scene when thelog data is written in the cassette.

(b) CUE modeThe IN time code data is registered at the same time asthe start of recording, the OUT time code data is regis-tered at the same time as the end, and the CUE timecode data is registered every time the TAKE button ispressed during the recording. GY-DV500 can be regis-tered 237 CUE point maxmum.

9-29

(b) CONTINUE buttonAfter interrupting recording in the middle to check thepreviously recorded scenes, pressing the LOG + CON-TINUE buttons automatically searches the point afterthe last recorded scene so that subsequent recordingcan be started. (Scene end search function)

(6) Storage of Log DataThe camcorder can store the log data of up to 6 video cas-settes. The registered log data is recorded in the SSF logdata area in the beginning of each tape. However, if tape isrewound every time after recording to record the data, thereis a possibility of missing important scenes during ENG,for example. It is to avoid this that the camcorder reservesthe storage area for registered log data of up to 6 cassettes.The log data is recorded in EEPROM (DV MAIN IC404) inthe VTR unit at the same time as in EEPROM (VIDEO/SYSCON IC407) in the GY-D500 camcorder body.

Fig. 9-4-5 Log Data Storage

(7) Recording of Log DataLog data can be recorded in each cassette only with themethod described below. Once the cassette has beenejected, it is no longer possible to write log data in it.

• Recording methodTo write log data in the cassette immediately after com-pletion of recording, press the LOG + REW buttons simul-taneously. If it is required to restart recording after the logdata recording, press the LOG + CONTINUE buttons si-multaneously in STOP mode; the recorder will automati-cally advance tape to the recording end point (OUT timecode point) and stands by in REC PAUSE mode.

(8) Transfer of SSF log dataThe SSF log data can be transferred to a non-linear editingsystem in the following methods.

(A) Required equipment• Insert the cassette tape to the GY-DV500.• GY-DV500 used in recording and cassette tape.• Non-linear editor

(B) Transfer procedure• GY-DV500 receives a SSF log data transfer request from

the non-linear editor.• In the GY-DV500, the cassette number of the SSF log

data that is stored in the memory of the camera andthe cassette number that is registered in the loadedcassette are compared. If they are found to match, theSSF log data is transferred to the non- linear editor.

• When the cassette number is not matched, display ofthe non-linear editer shows the “INVALID ERROR”.

(9) Transfer of Video/Audio DataThe non-linear editor back-captures the video and audio databased on the log data transferred as described in (8) “Trans-fer of SSF Log Data”. Three pieces of equipment are re-quired for this operation, including the cassette used in re-cording, a non-linear editor and a VCR with SSF function (GY-DV500 or BY-DV600).The non-linear editor captures the video and audio data bycontrolling the camcorder according to the SSF log data. Atthis time, the camcorder detects if the number of the cas-sette being loaded matches the cassette number indicatedby the SSF log data, and transfers the data if they coincideand returns INVALID ERROR if they do not.

EEPROM(DV MAIN IC404)

MSD CPU(DV MAIN IC401)

MS BUS

JVC BUS

SYSCON CPU(VIDEO/SYSCON IC401)

(VIDEO/SYSCON IC407)

EEPROM

DV CPU(DV MAIN IC101)

Log data transfer to SYSCON CPU

Data of 6 tapes

Data of 1 tape

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9.4.2 DV Terminal

(1) OutlineThe DV terminal is a terminal capable of input and output ofinformation including video, audio and data codes in digitalform.By connecting another digital video component equippedwith a DV terminal to the camcorder using a DV cable, dig-ital dubbing (in any direction) with little deterioration in videoand audio quality is possible without A/D or D/A conversionbetween components.When a PC equipped with a DV terminal (i. Link compliant)is connected directly through a DV cable, the video recordedwith the camera can be loaded in the PC (provided that thecircuitry and software of the PC are capable of handling theDV signal).As the DV terminal can also send or receive camera controlcommand data information, the camcorder operations suchas start and stop can be remote controlled by connecting apiece of non-linear equipment and a camcorder or VCRequipped with a DV terminal. (However, in this case, thecontrol software of the connected non-linear equipmentshould be IEEE1394 compliant.)

(2) About IEEE1394This is an interface for the next generation of machines foruse in high-speed data transfer between PC and ancillaryequipment and was adopted officially as an IEEE standard in1995.It uses the serial transfer method and accepts up to 63 piecesof equipment. The transfer rates are as high as 100, 200 or400 Mbps and suitable for transfer of moving images andaudio data.To transfer such data in priority, IEEE1394 is provided withthe isochronous transfer function. It is therefore confidentlyexpected to become a transfer standard for multimedia.The connector types include the ordinary 6-pin type and acompact 4-pin type with which the power and GND linesare omitted. The DV camcorders usually use compact 4-pintype connectors.

(3) About DV TerminalThe “DV terminal” is the term used by the general public toindicate “IEEE1394-1995 Specifications and Their ExtendedSpecifications (usually called IEEE1394)”, which are high-speed serial interface specifications for connection betweena PC and ancillary equipment or audio/visual equipment. Notethat the IEEE1394 interface specifications themselves havenot been designed exclusively for digital video interfacing.The “DV terminal” is a connector in accordance with the i.Link (IEEE1394) Specifications but it is exclusively designedfor use with DV equipment. (It uses a 4-pin connector andthe transfer rate is 100 Mbps.)

“i. Link” is a registered trademark of Sony Corporation indicat-ing IEEE1394-1995 and its extended use.

Therefore, the digital data exchanged through the interface calledthe DV terminal is the video data compressed according to theDV standard, and the data can be transferred between DV equip-ment or between DV equipment and a PC which runs softwarehandling the DV signal (DV Non-Linear, etc.) and is equippedwith a DV terminal. In other words, with a piece of equipmenthandling different formats of video data (a D-VHS machine, forexample), it is not possible to monitor or dub video even if theequipment is equipped with a DV terminal.

(4) DV Terminal Used with This UnitThis unit is a camcorder incorporating a DV standard recorder.As a logical consequence, the data sent or received by it isthe DV signal, compatible with DV standard VCRs such asthe consumer-use DV Movie, and can be subjected to digitaldubbing or editing/processing by a DV non-linear PC.It is also possible to remote control the recorder operationsof this unit from a PC or similar device running DV non-linearsoftware.

Fig. 9-4-6

11.0mm

5.4mm

3 1

6

5

4 2

3 4 5 6

7.1mm

5.0mm3.4mm

6.3mm

1. Power2. GND

3.4. Signal line A 5.

6. Signal line B

JVC GY-DV500U DV500E Service Training Manual

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