JVC GR-D370UC, GR-D370US, GR-D371US, GR-D375UC, GR-D375US Service Manual

...
SERVICE MANUAL
DIGITAL VIDEO CAMERA
YF12420062
GR-D370UC, GR-D370US, GR-D371US, GR-D375UC, GR-D375US, GR-D390UC,
GR-D390US, GR-D395US,
GR-D396US
GR-D370UCM, GR-D370USM, GR-D371USM, GR-D375UCM, GR-D375USM, GR-D390UCM, GR-D390USM, GR-D395USM, GR-D396USM [M6D1S5]
For disassembling and assembling of MECHANISM ASSEMBLY, refer to the SERVICE MANUAL No.YF081(MECHANISM ASSEMBLY). Lead free solder used in the board (material : Sn-Ag-Cu, melting point : 219 Centigrade)
TABLE OF CONTENTS
1 PRECAUTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
2 SPECIFIC SERVICE INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
3 DISASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
4 ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-16
5 TROUBLE SHOOTING. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-20
COPYRIGHT © 2006 Victor Company of Japan, Limited
No.YF124
2006/2
SPECIFICATION
Camcorder
For General Power supply DC 11 V (Using AC Adapter)
DC 7.2 V (Using battery pack)
Power consumption Approx. 2.8 W (3.0 W*) (LCD monitor off, viewfinder on)
Approx. 3.2 W (3.4 W*) (LCD monitor on, viewfinder off) Approx. 6.5 W (Maximum; when charging the battery pack) * Using LED Light
Dimensions (W × H × D) 59 mm × 94 mm × 114 mm(2-5/16" × 3-11/16" × 4-1/2")
(with the LCD monitor closed and the viewfinder pushed back in)
Weight Approx. 400g (0.88 lbs)
(without battery, cassette and lens cap) Approx. 480 g (1.1 lbs) / Approx. 525 g (1.16 lbs)(GR-D395 only) (incl. battery, cassette and lens cap)
Operating temperature 0°C to 40°C (32°F to 104°F)
Operating humidity 35% to 80%
Storage temperature -20°C to 50°C (-4°F to 122°F)
Pickup 1/6" CCD Lens F 2.0, f = 2.3 mm to 73.6 mm, 32:1 power zoom lens Filter diameter Ø27 mm LCD monitor 2.5" diagonally measured, LCD panel/TFT active matrix system Viewfinder Electronic viewfinder with 0.33" color LCD Speaker Monaural LED Light Effective distance: 1.5 m (5 ft)
For Digital Video Camera
For Digital Still Camera
For Connectors AV Video output 1.0 V (p-p), 75, analog
Format DV format (SD mode) Signal format NTSC standard Recording/Playback
format
Cassette Mini DV cassette Tape speed SP: 18.8 mm/s, LP: 12.5 mm/s Maximum recording time
(using 80 min. cassette) Storage media SD Memory Card/MultiMediaCard Compression system JPEG (compatible)
File size Still image : 1 mode (640 × 480 pixels)
Picture quality 2 modes (FINE/STANDARD)
DV Input/output 4-pin, IEEE 1394 compliant USB Mini USB-B type, USB 1.1 compliant
Video Digital component recording Audio PCM digital recording, 32 kHz 4-channel (12-BIT), 48 kHz 2-channel (16-BIT)
SP: 80 min., LP: 120 min.
Audio output 300 mV (rms), 1 k, analog, stereo
AC Adapter
Power requirement AC 110 V to 240 V, 50 Hz/60 Hz Output DC 11 V, 1 A
Specifications shown are for SP mode unless otherwise indicated. E & O.E. Design and specifications subject to change without notice.
1-2 (No.YF124)
SECTION 1
r
PRECAUTIONS
1.1 SAFTY PRECAUTIONS
Prior to shipment from the factory, JVC products are strictly inspected to conform with the recognized product safety and electrical codes of the countries in which they are to be sold.However,in order to maintain such compliance, it is equally important to implement the following precautions when a set is being serviced.
1.1.1 Precautions during Servicing
(1) Locations requiring special caution are denoted by labels
and inscriptions on the cabinet, chassis and certain parts of the product.When performing service, be sure to read and comply with these and other cautionary notices appearing in the operation and service manuals.
(2) Parts identified by the symbol and shaded ( ) parts
are critical for safety. Replace only with specified part numbers.
NOTE :
Parts in this category also include those specified to comply with X-ray emission standards for products using cathode ray tubes and those specified for compliance with various regulations regarding spurious radiation emission.
(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:
• Wires covered with PVC tubing
• Double insulated wires
• High voltage leads
(5) Use specified insulating materials for hazardous live parts.
Note especially:
• Insulation Tape
• PVC tubing
•Spacers
• Insulation sheets for transistors
•Barrier
(6) When replacing AC primary side components (transformers,
power cords, noise blocking capacitors, etc.) wrap ends of wires securely about the terminals before soldering.
emission. Consequently, when servicing these products, replace the cathode 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 value and cause X-ray emission from the cathode ray tube.
(12) Crimp type wire connectorIn such cases as when replacing
the power transformer in sets where the connections between the power cord and power trans former primary lead wires are performed using crimp type connectors, if replacing the connectors is unavoidable, in order to prevent safety hazards, perform carefully and precisely according to the following steps.
Connector part number :E03830-001
Required tool : Connector crimping tool of the proper type which will not damage insulated parts.
Replacement procedure
a) Remove the old connector by cutting the wires at a
point close to the connector.Important : Do not reuse a connector (discard it).
cut close to connector
Fig.1-1-3
b) Strip about 15 mm of the insulation from the ends
of the wires. If the wires are stranded, twist the strands to avoid frayed conductors.
15 mm
Fig.1-1-4
c) Align the lengths of the wires to be connected.
Insert the wires fully into the connector.
Metal sleeve
Fig.1-1-1
(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 or
pointed parts.
(9) When a power cord has been replaced, check that 10-15
kg of force in any direction will not loosen it.
Power cord
Fig.1-1-2 (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 for compliance with recognized codes pertaining to X-ray
Connector
Fig.1-1-5
d) As shown in Fig.1-1-6, use the crimping tool to crimp
the metal sleeve at the center position. Be sure to crimp fully to the complete closure of the tool.
1.2 5
2.0
5.5
Crimping tool
Fig.1-1-6
e) Check the four points noted in Fig.1-1-7.
Not easily pulled free
Wire insulation recessed
more than 4 mm
Crimped at approx. cente
of metal sleeve
Conductors extended
Fig.1-1-7
(No.YF124)1-3
1.1.2 Safety Check after Servicing
Examine the area surrounding the repaired location for damage or deterioration. Observe that screws, parts and wires have been returned to original positions, Afterwards, perform the following tests and confirm the specified values in order to verify compliance with safety standards.
(1) Insulation resistance test
Confirm the specified insulation resistance or greater between power cord plug prongs and externally exposed parts of the set (RF terminals, antenna terminals, video and audio input and output terminals, microphone jacks, earphone jacks, etc.).See table 1 below.
(2) Dielectric strength test
Confirm specified dielectric strength or greater between power cord plug prongs and exposed accessible parts of the set (RF terminals, antenna terminals, video and audio input and output terminals, microphone jacks, earphone jacks, etc.). See Fig.1-1-11 below.
(3) Clearance distance
When replacing primary circuit components, confirm specified clearance distance (d), (d') between soldered terminals, and between terminals and surrounding metallic parts. See Fig.1-1-11 below.
d
d'
Chassis
Power cord primary wire
Fig.1-1-8
(4) Leakage current test
Confirm specified or lower leakage current between earth ground/power cord plug prongs and externally exposed accessible parts (RF terminals, antenna terminals, video and audio input 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 accessible parts. Use an AC voltmeter to measure across both terminals of load Z. See Fig.1-1-9 and following Fig.1-1-12.
ab
Externally exposed accessible part
Z
V
c
A
Fig.1-1-9
(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 Fig.1-1-10 and grounding specifications.
AC inlet
Earth pin
Exposed accessible part
MIlli ohm meter
Grounding Specifications
Region
USA & Canada
Europe & Australia
Grounding Impedance (Z
Z 0.1 ohm
Z 0.5 ohm
)
Fig.1-1-10
AC Line Voltage
100 V
100 to 240 V
110 to 130 V
110 to 130 V
200 to 240 V
Region
Japan
USA & Canada
Europe & Australia
Insulation Resistance (R
R 1 M /500 V DC
1 M R 12 M /500 V DC
R 10 M /500 V DC
)
Dielectric Strength
AC 1 kV 1 minute
AC 1.5 kV 1 minute
AC 1 kV 1 minute AC 3 kV 1 minute
AC 1.5 kV 1 minute
(
Class
(
Class
Clearance Distance (d), (d'
d, d' 3 mm
d, d' 4 mm
d, d' 3.2 mm
d 4 m m
)
d' 8 m m (Power cord d' 6 m m (Primary wire
)
Fig.1-1-11
AC Line Voltage
100 V
110 to 130 V
110 to 130 V
220 to 240 V
Region
Japan
USA & Canada
Europe & Australia
Load Z
1
0.15
1.5
2
50
Leakage Current (i)
i 1 mA rms
i 0.5 mA rms
i 0.7 mA peak i 2 mA dc
i 0.7 mA peak i 2 mA dc
a, b, c
Exposed accessible parts
Exposed accessible parts
Antenna earth terminals
Other terminals
Fig.1-1-12
NOTE :
These tables are unofficial and for reference only. Be sure to confirm the precise values for your particular country and locality.
)
)
)
1-4 (No.YF124)
SECTION 2
SPECIFIC SERVICE INSTRUCTIONS
2.1 DIFFERENCE LIST
The following table indicate main different points between models GR-D370UC, GR-D370US, GR-D371US, GR-D375UC, GR-D375US, GR-D390UC, GR-D390US, GR-D395US and GR-D396US.
MODEL NAME GR-D370UC GR-D370US GR-D371US
MEMORY CARD
REMOTE CONTROL NO NO RM-V720U
BATTERY PACK BN-VF707US BN-VF707US BN-VF707US
MODEL NAME GR-D375UC GR-D375US GR-D390UC
MEMORY CARD
REMOTE CONTROL RM-V720U RM-V720U RM-V720U
BATTERY BN-VF707US BN-VF707US BN-VF707US
MODEL NAME GR-D390US GR-D395US GR-D396US
MEMORY CARD
REMOTE CONTROL RM-V720U RM-V720U RM-V720U
BATTERY BN-VF707US BN-VF714US BN-VF707US × 2
NO(OPTIONAL) NO(OPTIONAL) NO(OPTIONAL)
NO(OPTIONAL) NO(OPTIONAL) YES(PROVIDED)
YES(PROVIDED) NO(OPTIONAL) NO(OPTIONAL)
(No.YF124)1-5
SECTION 3
DISASSEMBLY
3.1 BEFORE ASSEMBLY AND DISASSEMBLY
3.1.1 Precautions
• Be sure to disconnect the power supply unit prior to mounting and soldering of parts.
• Prior to removing a component part that needs to disconnect its connector(s) and its screw(s), first disconnect the wire(s) from the connector(s), and then remove the screw(s).
• When connecting/disconnecting wires, pay enough attention not to damage the connectors.
• When inserting the flat wire to the connector, pay attention to the direction of the flat wire.
• Be careful in removing the parts to which some spacer or shield is attached for reinforcement or insulation.
• When replacing chip parts (especially IC parts), first remove the solder completely to prevent peeling of the pattern.
• Tighten screws properly during the procedures. Unless otherwise specified, tighten screws at a torque of 0.098N
·cm). However, as this is a required value at the time of
(1.0kgf
·m
production, use the value as a measuring stick when proceeding repair services. (See "SERVICE NOTE" as for tightening torque.)
3.1.2 Destination of connectors
Two kinds of double-arrows in connection tables respectively
show kinds of connector/wires.
: Wire: Flat wire : Board to board (B-B)
: The connector of the side to remove
CONN. No. PIN No.CONNECTOR
CN2a
CN2b
MAIN CN101
MAIN CN103
MONI BW CN761
MINI BW CN762
40
10
3.1.3 Disconnection of connectors (Wires)
Wire
· Pull both ends of the connector in the arrow direction, remove the lock and disconnect the flat wire.
· Pull the both ends of the board in the direction of the arrow, and remove the B-B Connector.
· Extend the locks in the direction of the arrow for unlocking and then pull out the wire. After removing the wire, immediately restore the locks to their original positions because the locks are apt to come off the connector.
B-B Connector
B-B Connector
· Pull the both ends of the board in the direction of the arrow, and remove the B-B Connector.
FPC Connector
Wire
FPC Connector
Wire
Lock
FPC Connector
· Extend the locks in the direction of the arrow for unlocking and then pull out the wire. After removing the wire, immediately restore the locks to their original positions because the locks are apt to come off the connector.
· Extend the locks in the direction of the arrow for unlocking and then pull out the wire. After removing the wire, immediately restore the locks to their original positions because the locks are apt to come off the connector.
Wire
FPC Connector
Wire
FPC Connector
Lock
Lock
Lock
B-B Connector
Fig.3-1-1
3.1.4 Tools required for disassembly and assembly
Torque driver
YTU94088
Chip IC replacement jig
PTS40844-2
Bit
YTU94088-003
Cleaning cloth
KSMM-01
Tweezers
P-895
Fig.3-1-2
Torque driver
Be sure to use to fastening the mechanism and exterior parts be­cause those parts must strictly be controlled for tightening torque.
Bit
This bit is slightly longer than those set in conventional torque drivers.
Tweezers
To be used for removing and installing parts and wires.
Chip IC replacement jig
To be used for replacement of IC.
Cleaning cloth
Recommended cleaning cloth to wipe down the video heads, mechanism (tape transport system), optical lens surface.
3.2 ASSEMBLY AND DISASSEMBLY OF MAIN PARTS
3.2.1 Assembly and disassembly
When reassembling, perform the step(s) in reverse order.
STEP
No.
[1] [2]
PART
TOP COVER ASSY UPPER ASSY (Inc. VF ASSY, SPEAKER/MONITOR)
[8]
E.VF UNIT(B/W)
(1) Order of steps in Procedure
When reassembling, preform the step(s) in the reverseorder. These numbers are also used as the identification (location) No. of parts Figures.
(2) Part to be removed or installed. (3) Fig. No. showing Procedure or Part Location. (4) Identification of part to be removed, unhooked, unlocked,
released, unplugged, unclamped or unsoldered.
S = Screw L = Lock, Release, Hook SD = Solder CN = Connector
[Example]
• 4 (S1a) = Remove 4 S1a screws.
• 3 (L1a) = Disengage 3 L1a hooks.
• 2 (SD1a) = Unsolder 2 SD1a points.
• CN1a = Remove a CN1a connector.
(5) Adjustment information for installation.
Fig. No.
4(S1a), 3(L1a),CN1a
C1
(S2a),2(S2b),3(S2c)
C2-1
2(SD1a), L2,CN2a,b 2(S8),L8,CN8a
C2-2
POINT
( 4) ( 5)( 2) ( 3)( 1)
NOTE
-
-
NOTE 8
1-6 (No.YF124)
3.2.2 ASSEMBLY/DISASSEMBLY OF CABINET PARTS AND ELECTRICAL PARTS
zDisassembly procedure
STEP
PART NAME
No.
[1]
UPPER ASSY
[2]
OPE PWB ASSY
[3]
COVER (HINGE)
[4]
MONITOR ASSY
[5]
SPEAKER
[6]
ZOOM UNIT
[7]
FRONT ASSY
[8]
CASS.COVER
[9]
VF ASSY
[10]
REAR COVER ASSY
[11]
LOWER CASE ASSY
[12]
REAR PWB ASSY
[13]
OP BLOCK ASSY
[14]
MAIN BKT ASSY
[15]
MAIN PWB ASSY
[16]
FRAME ASSY
Fig. No.
FA1-1
FA1-2
FA2-1
FA2-2
FA2-3
FA2-4
FA3
FA4
FA5
FA6
FA7
FA8
FA9
FA10
POINT NOTE
S1a,2(S1b),3(S1c),S1d
L1a,L1b,CN1
CN2a,b,c,S2a,4(S2b),KNOB(SLIDE)
2(S3)
2(S4),2(L4)
BKT.(HINGE),2(L5)
3(S6),L6
S7a,2(S7b),2(L7a),2(L7b),CN7
GRIP BELT,4(S8),3(L8)
CN9a,S9a,b,c,CN9b
S10a,b,c,L10a,b
2(S11),CN11
S12,L12,CN12
CN13,2(L13)
3(S14),L14a,b
CN15a,b,c,d,e,S15,L15a,b
4(S16)
NOTE1a
NOTE1b
NOTE2a,b,c
NOTE5
NOTE7
NOTE8
NOTE9a,b
NOTE10
NOTE11
NOTE12
NOTE13
NOTE1a:
Open the MONITOR ASSY, and then remove the screw (No.7) which is next to the DV terminal.
NOTE1b:
When removing the UPPER ASSY, be careful in handling the FPC. Also, be careful in wiring the FPC when attaching the UP­PER ASSY.
-
-
-
-
-
-
NOTE12:
During the procedure, be careful not to damage the SWITCH. During the procedure, leave the CASS. COVER closed.
NOTE13:
When attaching, be careful to avoid any uplift or unevenness of the CUSHION (OP).
zDestination of connectors
CN.
No.
CN1 MAIN CN103 OPE CN401 30 CN2a OPE CN403 ZOOM UNIT - 8 CN2b OPE CN404 SPEAKER - 2 CN2c OPE CN402 MONITOR CN7601 18/21 CN7 MAIN CN2601 MIC - 4 CN9a MAIN CN4201 CCD CN5001 20 CN9b MAIN CN7801 VF CN7001 24/23 CN11 REAR CN502 POWER UNIT - 7 CN12 MAIN CN101 REAR CN504 32 CN13 MAIN CN4901 OP BLOCK - 26 CN15a MAIN CN1604 SENSOR - 16 CN15b MAIN CN1603 CAPSTAN MOTOR - 18 CN15c MAIN CN1602 DRUM MOTOR - 11 CN15d MAIN CN3501 HEAD - 8
CN15e MAIN CN1601
NOTE2a:
During the procedure, be careful in handling the SWITCH. When attaching, leave the MONITOR ASSY open.
NOTE2b:
When attaching, be careful in wiring.
NOTE2c:
During the procedure, be careful not to lose KNOB(SLIDE).
NOTE5:
When attaching, be careful in wiring (SPEAKER).
NOTE7:
When attaching, be careful to avoid placing the WIRE (MIC) on the front side, and make sure to place the WIRE (MIC) on the connector.
NOTE8:
Pull out the GLIP BELT first.
NOET9a:
When removing the VF ASSY, pull out the FPC on the CCD BOARD ASSY from the MAIN BOARD ASSY first.
NOTE9b:
When removing, pull out the FPC by lifting up the VF AS­SEMBLY.
NOTE10:
During the procedure, release the LOWER CASE ASSY in the direction of an arrow.
NOTE11:
During the procedure, be careful in handling the FPC.
CONNECTOR
LOADING MOTOR
ROTARY ENCODER SW
PIN No.
- 8
(No.YF124)1-7
1
(S1a)
9
(S2b)
12
(S2b)
10
(S2b)
11
(S2b)
(S2a)
Q
8
a
NOTE2a
SWITCH
(S1d)
NOTE1a
2
(S1b)
3
(S1b)
4
(S1c)
7
Fig.FA1-1
L1a
5
(S1c)
6
(S1c)
CN2b
CN2a
< NOTE2b >
CN2b
9
(S2b)
10
(S2b)
CN2c
a
Fig.FA2-1
[2]
NOTE2c
KNOB(SLIDE)
CN2a
11
(S2b)
(S2b)
CN2c 8
(S2a)
12
L1b
CN1
NOTE1b
OPE FPC
Fig.FA1-2
L1b
[1]
[3]
Fig.FA2-2
13
(S3)
14
(S3)
1-8 (No.YF124)
L4
b
c
f
22
(S7b)
f
[4]
Fig.FA2-3
[5]
15
(S4)
b
16
(S4)
c
0.196N࡮m(2.0kgf࡮cm)
BKT.(HINGE)
[7]
< NOTE7 >
23
(S8)
d
e
WIRE(MIC)
(S7b)
Fig.FA3
21
20
(S7a)
d
e
CN7
L7a
L7b
[8]
NOTE5
L6
< NOTE5 >
Fig.FA2-4
L5
[6]
17
(S6)
18
(S6)
19
(S6)
NOTE8
GRIP BELT
24
(S8)
25
(S8)
L8
26
(S8)
Fig.FA4
(No.YF124)1-9
NOTE9b
NOTE11
[11]
[9]
k
h
29
(S9c)
28
(S9b)
g
NOTE9a
g
Fig.FA5
NOTE10
LOWER CASE ASSY
CN9a
CN9b
h
27
(S9a)
33
(S11)
34
(S11)
< NOTE11 >
TO CN11
k
TOP VIEW
NOTE13
[13]
Fig.FA7
NOTE12
[12]
k
CN11
35
(S12)
1-10 (No.YF124)
30
(S10a)
j
[10]
Fig.FA6
L10b
(S10b)
31
j
L10a
32
(S10c)
L12
L13
CN12
35
(S12)
CN13
SW
NOTE12
Fig.FA8
q
p
n
r
L15a
0.088N࡮m(0.9kgf࡮cm)
[16]
[14]
m
mm
L14a
n
37
(S14)
38
(S14)
3.2.3 ASSEMBLY/DISASSEMBLY OF [4] MONITOR ASSEMBLY zCAUTIONS
(1) During the procedure, be careful in handling the LCD
MODULE and other parts. Pay special attention not to damage or soil the monitor screen. If fingerprints are left on the screen, wipe them with clean chamois leather or a cleaning cloth.
zRemoving MONITOR ASSEMBLY
(1) Turn the HINGE UNIT ASSEMBLY 90°, and remove the
two screws (1 and 2). Remove the M.COVER ASSY by removing the six hooks (L4a-f).
(2) Pull out the U/D SWITCH BOARD from the MONITOR
CASE ASSEMBLY.
NOTE4a:
During the procedure, be careful in handling the FPC.
(3) Release the lock of the connector (CN4a), and remove
the HINGE UNIT by lifting it up.
(4) Release the lock of the connector (CN4b), and pull out
the FPC.
(5) Remove the screw (3), and Remove the MONI PWB
ASSY by removing the hook (L4g).
NOTE4b:
When attaching the MONITOR BOARD ASSEMBLY, be careful to avoid any misalignment or unevenness of the parts underneath.
(6) Remove the SHEET (M.REF), LIGHT GUIDE, SHEET
(M.DIFF) and the SHEET(BEF).
(7) Remove the S.CASE(MONI), LCD MODULE and the
LCD CASE.
nn
L14b
Fig.FA9 Fig.FA10
36
(S14)
41
(S16)
42
o
(S16)
(S16)
40
(S16)
43
L15b
CN15a
o
(S15)
<MECHANISM SIDE>
rqpn
CN15e
CN15d
CN15b
CN15c
[15]
NOTE4c:
During the procedure, handle the three parts (LCD CASE, LCD MODULE, and S.CASE(MONI)) together.
zRemoving HINGE UNIT ASSEMBLY
(1) Remove the screw (4), and Remove the H.COVER(U,L).
NOTE4d:
During the procedure, be careful in handling the mag­net. When attaching, set the negative pole outside as shown in the figure. Be careful when removing as there is no marking.
NOTE4e:
During the procedure, be careful in handling the FPC.
NOTE4f:
The FPC is rolled around the axis of rotation of the HINGE ASSEMBLY 2.5 rounds (2.5times). The connecting side to the MONITOR BOARD AS­SEMBLY is placed inside.
[15]
39
(No.YF124)1-11
HINGE ASSY
H.COVER(U)
<NOTE4f>
(S4b)
NOTE4e,f FPC
<NOTE4a>
M.COVER ASSY
4
1
(S4a)
2
(S4a)
a
BOTTOM VIEW
L4b
L4c
L4f
H.COVER(L)
<NOTE4d>
MONITOR CASE SIDE
N pole
S pole
MAGNET
HINGE COVER(L)
S.CASE(MONI)
MAGNET
3
(S4a)
U/D SW BOARD
aa
A
CN4a
CN4b
b
SHEET(M.REF)
SHEET(M.DIFF)
L4a L4d
L4e
NOTE4b
MONITOR BOARD ASSY
L4g
LIGHT GUIDE
SHEET(BEF)
SUPPORT PLATE
1-12 (No.YF124)
SIDE
M.COVER ASSY SIDE
LCD MODULE
LCD CASE
NOTE4c
LCD CASE LCD MODULE S.CASE(MONI)
b
MONITOR CASE
A
Fig.3-2-3
3.2.4 ASSEMBLY/DISASSEMBLY OF [13] OP BLOCK ASSMBLY/CCD BOARD ASSEMBLY
zPrecautions
(1) Take care in handling the CCD IMAGE SENSOR, OPTI-
CAL LPF and lens components when performing main­tenance etc., especially with regard to surface contamination, attached dust or scratching. If finger­prints are present on the surface they should be wiped away using either a silicon paper, clean chamois or the cleaning cloth.
(2) The CCD IMAGE SENSOR may have been shipped with
a protective sheet attached to the transmitting glass. When replacing the CCD IMAGE SENSOR, do not peel off this sheet from the new part until immediately before it is mounted in the OP BLOCK ASSEMBLY.
zDisassembly of OP BLOCK ASSEMBLY / CCD BOARD AS-
SEMBLY
(1) Unsolder the fourteen soldered points (SD13a) of the
CCD BOARD ASSEMBLY.
NOTE13a:
Be careful in handling as there are only the OPTICAL LPF and the SHEET stored inside the OP BLOCK ASSY when the CCD BASE ASSY is removed.
NOTE13b:
Replace the CCD IMAGE SENSOR as a CCD BASE ASSEMBLY, not as a single part replacement.
(2) Remove the two screws (1, 2), and then remove the CCD
BOARD ASSEMBLY and the CCD BASE ASSEMBLY.
zAssembly of OP BLOCK ASSEMBLY / CCD BOARD AS-
SEMBLY
(1) Set the OPTICAL LPF first, and then the SHEET to the
OP BLOCK ASSEMBLY.
NOTE13c:
Pay careful attention to the orientation of the OPTICAL LPF.
(2) Attach the CCD BASE ASSEMBLY first then the CCD
BASE ASSEMBLY so that the SHEET stays in place, and tighten with the two screws (1, 2).
(3) Solder the 14 points (SD13a) on the CCD BOARD AS-
SY.
zReplacement of service repair parts
The service repair parts for the OP BLOCK ASSEMBLY are as listed below. Before replacement of these parts, remove the BRACKET (OP BLOCK ASSEMBLY) as required. Take special care not to disconnect any of the FPC wires or cause any damage due to soldering (excessive heating).
(1) FOCUS MOTOR UNIT (2) ZOOM MOTOR UNIT (3) AUTO IRIS UNIT
NOTE 13d:
When replacing the FOCUS MOTOR UNIT or the ZOOM MOTOR UNIT, solder the FPC at a space of about 0.5 mm above the terminal pin.
NOTE 13e:
The AUTO IRIS UNIT includes the FPC ASSEMBLY and two sensors.
SENSOR
AUTO IRIS UNIT
NOTE13d,e
7
(S13b)
8
(S13b)
9
(S13b)
SD13b
CUSHION(OP)
5
(S13b)
NOTE13b
FOCUS MOTOR UNIT
6
(S13b)
OPTICAL LPF
NOTE13c
CCD BOARD ASSEMBLY
CCD BASE ASSEMBLY
SHEET
4
(S13b)
3
(S13b)
ZOOM MOTOR UNIT
NOTE13d,e
1
(S13a)
SD13
NOTE13a,b
0.147N࡮m (1.5kgf࡮cm)
2
(S13a)
Fig.3-2-4
(No.YF124)1-13
3.2.5 ASSEMBLY/DISASSEMBLY OF [9] VF ASSEMBLY
zBefore disassembly
As the VF ASSEMBLY has complicated structure, do not dis­assemble if not needed. When assembling, be careful to prevent dust or any foreign materials entering inside, and avoid soils on both the LENS and the SHEET.
zDisassembly procedure
(1) Remove the screw (1), and then remove the KNOB
(SWITCH). (2) Remove the screw (2), and remove the BKT.(COVER). (3) Pull out the CASE(VF) from the VF ASSY, remove the
screw (3), and then remove the EYE CUP. (4) Remove the two screws (4, 5), and then remove the
COVER(EYE CUP).
NOTE9a:
Do not remove the COVER(EYE CUP) if not needed as the CASE(VF) can be removed without removing the COVER(EYE CUP).
(5) Peel off the FPC, and then remove the CASE(VF).
NOTE9b:
During the procedure, be careful in handling the FPC.
(6) Set the LEVER(VF) to the TRIANGLE MARK( ) of the
CASE(VF), and then remove the LENS ASSY.
NOTE9c:
During the procedure, be careful in handling the parts. Pay special attention not to damage, soil, or leave fin­gerprints on the surface.
NOTE9d:
After attaching the LENS ASSY, rotate the LE­VER(VF) counterclockwise to check the smooth slid­ing operation of the LENS ASSY.
(7) Press hooks (L9c,d) on both sides of the HOLDER(LCD)
to remove the LCD SA from the CASE(VF).
NOTE9e:
During the procedure, be careful not to damage the VF SW.
NOTE9f:
Refer to the Fig.(VF2) for the disassembly of the LCD SA, and disassemble the LCD SA if necessary. During the procedure, be careful to prevent dust or any for­eign materials entering inside.
(8) Remove the FPC from the connector (CN9), and then re-
move the VF BOARD ASSY.
NOTE9g:
During the procedure, be careful not to damage the parts.
<NOTE9d> <NOTE9b>
TRIANGLE MARK( )
CASE(VF)
MARKING
LEVER(VF)
COVER(SLIDE)
NOTE9c
LENS ASSY
1
(S9a)
EYE CUP
4
(S9d)
5
(S9d)
COVER(EYE CUP)
KNOB(SWITCH)
L9a
3
(S9c)
L9a
1-14 (No.YF124)
L9b
Fig.VF1
BKT.(COVER)
a
a
bb
b
0.069N࡮m(0.7kgf࡮cm)
2
(S9b)
L9c
0.069N࡮m(0.7kgf࡮cm)
6
(S9e)
VF BOARD ASSY
L9e
VF SW
NOTE9e
<LCD SA>
L9f
CN9
FPC
CASE(VF)
LCD SA
L9d
NOTE9f
STOPPER(POLA)
CUSHION
CLICK PLATE
NOTE9g
CASE(B.LIGHT)
SHEET(DIFF.)
SHEET(POLA)
L9e
CUSHION
SHEET(POLA)
LCD MODULE
L9f
HOLDER(LCD)
Fig.VF2
(No.YF124)1-15
SECTION 4
ADJUSTMENT
4.1 PREPARATION
4.1.1 Precaution
Camera system and deck system of this model are specially adjusted by using PC. However, if parts such as the following are replaced, an adjustment is required. The adjustment must be performed in a Service Center equipped with the concerned facilities.
• EEP ROM (IC1005 of MAIN board)
• OP BLOCK ASSEMBLY
In the event of malfunction with electrical circuits, first find a defective portion with the aid of proper test instruments as shown in the following electrical adjustment procedure, and then commence necessary repair/ replacement/adjustment.
• In observing chip TP, use IC clips, etc. to avoid any stress. Prior to replacement of chip parts (especially IC), remove the solder completely to prevent peeling of the pattern.
• Use a patch cord if necessary. As for a patch cord, see the BOARD INTERCONNECTIONS.
• Since connectors are fragile, carefully handle them in disconnecting and connecting the FPC.
4.1.2 REQUIRED TEST EQUIPMENT
• Personal computer (for Windows)
• Color TV monitor
• Oscilloscope (dual-trace type, observable 100MHz or higher frequency). The one observable 300 MHz or higher frequency is recommended.
• Digital voltmeter
• DC power supply or AC adapter
• Frequency counter (with threshold level adjuster)
4.1.3 TOOLS REQUIRED FOR ADJUSTMENT
Torque Driver
YTU94088
Chip IC Replacement Jig
PTS40844-2
INF Adjustment Lens
YTU92001B
Light box Assembly
YTU93096A
Alignment Tape
MC-1
INF Adjustment Lens Holder
Service Support System
Bit
YTU94088-003
Cleaning Cloth
KSMM-01
YTU94087
Gray Scale Chart
YTU94133A
YTU94057-92
Guide Driver
YTU94148A-1
YTU93108
Color Bar Chart
YTU94133C
QAM0099-002
Tweezers
P-895
Mini Stand
PC Cable
1-16 (No.YF124)
Communication Cable
YTU93111
Conversion Connector
YTU94145K-20
Jig Connector Cable
YTU93106B
Torque driver
Be sure to use to fastening the mechanism and exterior parts because those parts must strictly be controlled for tightening torque.
Bit
This bit is slightly longer than those set in conventional torque drivers.
Tweezers
To be used for removing and installing parts and wires.
Chip IC replacement jig
To be used for adjustment of the camera system.
Cleaning cloth
Recommended the Cleaning cloth to wipe down the video heads, mechanism (tape transport system), optical lens sur­face.
Guide driver
To be used to turn the guide roller to adjustment of the linarity of playback envelope.
INF adjustment lens
To be used for adjustment of the camera system. For the usage of the INF adjustment lens, refer to the Service Bulletin No. YA-SB-10035.
INF adjustment lens holder
To be used together with the Camera stand for operating the Videocamera in the stripped-down condition such as the sta­tus without the exterior parts or for using commodities that are not yet conformable to the interchangeable ring. For the usage of the INF lens holder, refer to the Service Bulletin No. YA-SB-
10035.
Mini stand
To be used together with the INF adjustment lens holder. For the usage of the Mini stand, refer to the Service Bulletin No. YA-SB-10035.
Light box assembly
To be used for adjustment of the camera system. For the usage of the Light box assembly, refer to the Service Bulletin No. YA-SB-10035.
Gray scale chart
To be used for adjustment of the camera system. For the usage of the INF adjustment lens, refer to the Service Bulletin No. YA-SB-10035.
Color bar chart
To be used for adjustment of the camera system. For the usage of the INF adjustment lens, refer to the Service Bulletin No. YA-SB-10035.
Alignment tape
To be used for check and adjustment of interchangeability of the mechanism.
Service support system
To be used for adjustment with a personal computer. Software can be downloaded also from JS-net.
PC cable
To be used to connect the Videocamera and a personal computer with each other when a personal computer issued for adjustment.
Communication cable
Connect the Communication cable between the PC cable and Jig connector cable when performing a PC adjustment.
Jig connector cable
Connected to JIG CONNECTOR of the main board and used for electrical adjustment, etc.
Conversion connector
Conversion connector is used to convert the connector part of the JIG connector cable.
4.2 JIG CONNECTOR CABLE CONNECTION
4.2.1 CAUTIONS
(1) Only 9 of 30pins of JIG CONNECTOR CABLE(PN:YTU93106B)
are extended with wires. Additional 5pins (3,6,7,11and18) need to be soldered and extended with the wires for adjust­ment and checking. See Fig. 4-2-1 for details.
<COMPONENT SIDE>
2428
252729
30pin NOT USE 29pin AL_3VSYS 28pin IF_RX 27pin MAIN_VCO 26pin HID 25pin FS_PLL 24pin COM_VF 23pin CVF_B 22pin CVF_G
<FOIL SIDE>
713
13pin IF_TX 12pin ENV_OUT 10pin GND 9pin GND 8pin XSTH 7pin CVF_R 5pin NOT USE
: ADDITIONAL WIRE
Fig.4-2-1
(No.YF124)1-17
Connection procedure
COVER(ADJ)
JIG CONNECTOR CABLE
GUIDE ROLLER (SUP)
COVER(JIG CON)
CONVERSION CONNECTOR
GUIDE ROLLER (TU)
JIG CONNECTOR
SERVICE SUPPORT SYSTEM
Jig connector diagrams
JIG CONNECTOR CABLE (YTU93106B)
MAIN CN102
MVD V_OUT CVF_G CVF_R CVF_B
XSTH
COM_VF
GND
FS_PLL
GND
HID
ATFI
MAIN_VCO
ENV_OUT
IF_RX IF_TX
AL_3VSYS
IRU
KENTO
KENTO2
ADDITIONAL WIRE
20
10
19
9
18
8
17
7
16
6
15
5
14
4
13
3
12
2
11
1
7. CVF_R
13. IF_TX
24. COM_VF
25. FS_PLL
27. MAIN_VCO
28. IF_RX
29. AL_3VSYS
Fig.4-2-3
JIG CONN. BOARD
(PIN NO.)
NC
30
AL_3VSYS
29
IF_RX
28
MAIN_VCO
27
HID
26
FS_PLL
25
COM_VF
24
CVF_B
23
CVF_G
22 21 20 19 18 17 16 15 14 13 12 11 10
9 8 7 6 5 4 3 2 1
­NC NC NC NC NC NC NC
IF_TX
ENV_OUT
-
GND GND
XSTH
CVF_R
­NC NC NC NC NC
COMMUNICATION CABLE
JIG CONNECTOR
TO AL_3VSYS
TO IF_RX
TO IF_TX
TO GND
BLUE
RED
WHITE
BLACK
or
COMMUNICATION
CABLE
Fig.4-2-2
PC CABLE
TO ENV_OUT
PERSONAL COMPUTER
TO HID
MENU
OSCILLOSCOPEJIG CONNECTOR
Conversion Connector
30
AL_3VSYS
MAIN_VCO
FS_PLL
COM_VF
CVF_B
CVF_G
IF_RX
HID
29
28
27
26
25
24
23
22
21
20
19
18
17
16
11
12
13
14
15
16
17
18
19
20
10
1
2
3
4
5
6
7
8
9
15
14
13
IF_TX
12
ENV_OUT
11
10
GND
9
GND
8
XSTH
7
CVF_R
6
5
4
3
2
1
1-18 (No.YF124)
Fig.4-2-4
4.3 MECHANISM COMPATIBILITY ADJUSTMENT
4.3.1 Tape pattern adjustment
NOTE:
Prior to the adjustment, remove the COVER (ADJ). (1) Play back the compatibility adjustment tape. (2) While triggering the HID, observe the waveform of
ENV_OUT. (3) Set the manual tracking mode (ATF OFF). (4) Confirm that the waveform is entirely parallel and straight,
and free from remarkable level-down, through the tracking
operation.
Make the confirmation as follows if necessary. (5) If level-down is observed on the left hand side of the
waveform, straighten the level by turning the GUIDE
ROLLER (SUP).
If level-down is observed on the right hand side of the
waveform, straighten the
level by turning the GUIDE ROLLER (TU). (6) After the adjustment, try the unloading motion once, and
confirm that the waveform is flat when the tape has been
played back again. (7) Play back the self-recording. (8) Confirm that the waveform is flat.
Flatten the waveform.
Misalignment of guide roller height on the supply side
Misalignment of guide roller height on the take-up side
Fig.4-3-1
ENV_OUT
HID
Fig.4-3-2
4.4 ELECTRICAL ADJUSTMENT
Electrical adjustment is performed by using a personal computer and software for SERVICE SUPPORT SYSTEM. Read README.TXT file to use the software properly. As for the connection of cables, see "4.2 JIG CONNECTOR CABLE CONNECTION".
(No.YF124)1-19
5.1 SERVICE NOTE
-
SECTION 5
TROUBLE SHOOTING
FA4
FA3
FA10
FA2-3 FA2-4
-
-
ac
aba
[1] [2] [3] [4] [5] [6] [7] [8]
CABINET PARTS AND ELECTRICAL PARTS(1)
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
FA1-1 FA2-1 FA2-2
[9] [10] [11] [12] [13] [14] [15] [16]
CABINET PARTS AND ELECTRICAL PARTS(2)
FA5 FA6 FA7 FA8 FA9
27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43
[13]
[13]OP BLOCK ASSY/CCD BOARD ASSY
[4]
[4]MONITOR ASSY
ad
3-2-4
1 2 3 4 5 6 7 8 9
[9]
a
3-2-3
1 2 3 4
1 2 3 4 5 6
[9]VF ASSY
e
VF1 VF2
Symbol No.
1-20 (No.YF124)
Place to stick screw
Removing order of screw
Screw tightening torque
Reference drawing (Fig.No.)
Symbol No.
Place to stick screw
Removing order of screw
Screw tightening torque
Reference drawing (Fig.No.)
Symbol No.
Place to stick screw
Removing order of screw
Screw tightening torque
Reference drawing (Fig.No.)
Symbol No.
Place to stick screw
Removing order of screw
Screw tightening torque
Reference drawing (Fig.No.)
NOTE:
)and㧖㧖 (This mark shows where to attach the screws) : Do not reuse the screws because the screw lock bond was applied to prevent the screws from loosening.
Prepare the specified screws and use them in place of the removed screws.
)Tightening torque for the screws
There are setting limits of the torque value for the torque driver. If the value exceeds the setting value, take it as a rough measurement (reference value),
and tighten the screw manually.
The specified torque value is a recommended value of the initial assembly. Therefore, set the value below the specified torque value in the assembling procedure.
ޓa 0.098Nm (1.0kgfcm)ޓޓb 0.196Nm (2.0kgfcm)ޓޓc 0.088Nm (0.9kgfcm)ޓޓd 0.147Nm (1.5kgfcm)ޓޓe 0.069Nm (0.7kgfcm)
Be careful not to break either the screws or the screw holes.
5.2 EMERGENCY DISPLAY
Whenever some abnormal signal is input to the syscon CPU, an error number (E01 and E04, as an example) is displayed on the LCD monitor or (in the electronic view finder).In every error status, such the message as shown below alter nately appear over and over.
• In an emergency mode, all operations except turning on/off the POWER switch are ineffectual.
Example (in case of the error number E01):
UNIT IN
SAFEGUARD MODE
01
REMOVE AND REATTACH
BATTERY OR DC PLUG
Example (in case of the error number E04):
01
UNIT IN
SAFEGUARD MODE
04
LCD display Emergencymode Details Possible cause
E01 LOADING In the case the encoder position is not
shifted to the next point though the loading motor has rotated in the loading direction for 4 seconds or more. This error is defined as [E01].
E02 UNLOADING In the case the encoder position is not
shifted to the next point though the loading motor has rotated in the unloading direction for 4 seconds or
1. The mechanism is locked during mode shift.
2. The mechanism is locked at the mechanism loading end, because the encoder position is skipped during mechanism mode shift.
3. No power is supplied to the loading MDA.
1. The mechanism is locked during mode shift.
2. The mechanism is locked at the mechanism loading end, because the encoder position is skipped during mechanism mode shift.
more. This error is defined as [E02].
E03 REEL FG(TU & SUP) In the case no REEL FG is produced
for seconds shown in the table below or more in the capstan rotation mode after loading was complete, the mechanism mode is shifted to STOP with the pinch roller set off. This error is defined as [E03].However, no REEL EMG is detected in the SLW/ STILL mode.
1. The idler gear does not engage with the reel disk well.
2. Though the idler gear and reel disk are engaged with each other, the tape is not wound because of overload to the mechanism.
3. No FG pulse is output from the reel sensor.
4. No power is supplied to the reel sensor.
5. Tape transport operation takes place with a cassette having no tape inside.
6. The tape slackens and no pulse is produced until the slack is taken up and the tape comes into the normal status.
REEL(SUP) REEL(TU)
PB/REC S-FWD S-REW FF REW
E04 DRUM FG In the case there is no DRUM FG
input in the drum rotation mode for 4 seconds or more. This error is defined as [E04], and the mechanism mode is shifted to STOP with the pinch roller set off.
3 SEC 3 SEC
0.3 SEC 3 SEC
0.1 SEC
3 SEC
0.3 SEC 3 SEC
0.1 SEC 3 SEC
1. The drum cannot be started or drum rotation is stopped because tape transport load is too high.
1) Tape tension is extremely high.
2) The tape is damaged or soiled with grease, etc.
2. The DRUM FG signal is not received by the syscon CPU.
1) Disconnection in the middle of the signal line.
2) Failure of the DRUM FG pulse generator (hall element).
3. No drum control voltage is supplied to the MDA.
4. No power is supplied to the DRUM MDA.
E05 - - -
E06 CAPSTAN FG In the case no CAPSTAN FG is
produced in the capstan rotation mode for 2 seconds or more. This error is defined as [E06], and the mechanism mode is shifted to STOP with the pinch roller set off.However, no CAPSTAN EMG is detected in the STILL/FF/REW mode.
1. The CAPSTAN FG signal is not received by the syscon CPU.
1) Disconnection in the middle of the signal line.
2) Failure of the CAPSTAN FG pulse generator (MR
element).
2. No capstan control voltage is supplied to the MDA.
3. The capstan cannot be started or capstan rotation is stopped because tape transport load is too high.
1) Tape tension is extremely high. (Mechanical locking)
2) The tape is damaged or soiled with grease, etc. (Tape
tangling occurs, etc.)
Fig.5-2-1
EJECT AND
REINSERT TAPE
04
(No.YF124)1-21
Victor Company of Japan, Limited Camcorder Category 12, 3-chome, Moriya-cho, kanagawa-ku, Yokohama, kanagawa-prefecture, 221-8528, Japan
(No.YF124)
Printed in Japan
VPT
SCHEMATIC DIAGRAMS
DIGITAL VIDEO CAMERA
GR-D370UC, GR-D370US, GR-D371US, GR-D375UC, GR-D375US, GR-D390UC,
GR-D390US, GR-D395US,
GR-D396US
CD-ROM No.SML200602
GR-D370UCM, GR-D370USM, GR-D371USM, GR-D375UCM, GR-D375USM, GR-D390UCM, GR-D390USM, GR-D395USM, GR-D396USM [M6D1S5]
For disassembling and assembling of MECHANISM ASSEMBLY, refer to the SERVICE MANUAL No.YF081(MECHANISM ASSEMBLY). Lead free solder used in the board (material : Sn-Ag-Cu, melting point : 219 Centigrade).
COPYRIGHT © 2006 Victor Company of Japan, Limited
No.YF124SCH
2006/2
CHARTS AND DIAGRAMS
NOTES OF SCHEMATIC DIAGRAM
Safety precautions The Components indentified by the symbol are
critical for safety. For continued safety, replace safety critical components only with manufacturer's recom­mended parts.
1. Units of components on the schematic diagram
Unless otherwise specified.
1) All resistance values are in ohm. 1/6 W, 1/8 W (refer to parts list). Chip resistors are 1/16 W.
K: KΩ(1000Ω), M: M (1000K)
2) All capacitance values are in µF, (P: PF).
3) All inductance values are in µH, (m: mH).
4) All diodes are 1SS133, MA165 or 1N4148M (refer to parts list).
Note: The Parts Number, value and rated voltage etc. in the Schematic Diagram are for references only. When replacing the parts, refer to the Parts List.
2. Indications of control voltage
AUX : Active at high.
AUX or AUX(L) : Active at low.
!
4. Voltage measurement
1) Regulator (DC/DC CONV) circuits REC : Colour bar signal. PB : Alignment tape (Colour bar). — : Unmeasurable or unnecessary to measure.
2) Indication on schematic diagram Voltage indications for REC and PB mode on the sche­matic diagram are as shown below.
REC mode
12 3
2.5
(5.0)
PB mode
1.8
PB and REC modes (Voltage of PB and REC modes are the same)
Note: If the voltages are not indicated on the schematic
diagram, refer to the voltage charts.
5. Signal path Symbols
The arrows indicate the signal path as follows.
NOTE : The arrow is DVC unique object.
Playback signal path
Playback and recording signal path
3. Interpreting Connector indications
1
2
Removable connector
3
1
2
Wire soldered directly on board
3
1
Non-removable Board connector
2
3
1
2
4
Board to Board
3
Connected pattern on board The arrows indicate signal path
Note: For the destination of each signal and further line connections that are cut off from the diagram, refer to "BOARD INTERCONNECTIONS"
Recording signal path (including E-E signal path)
Capstan servo path
Drum servo path
(Example)
R-Y
Playback R-Y signal path
Y
Recording Y signal path
6. Indication of the parts for adjustments
The parts for the adjustments are surrounded with the circle as shown below.
7. Indication of the parts not mounted on the circuit board
“OPEN” is indicated by the parts not mounted on the circuit board.
R216
2-1(No.YF124)
OPEN
CIRCUIT BOARD NOTES
1. Foil and Component sides
1) Foil side (B side) : Parts on the foil side seen from foil face (pattern face) are indicated.
2) Component side (A side) : Parts on the component side seen from component face (parts face) indicated.
rts location are indicated by guide scale on the circuit board.
2. Parts location guides
Parts location are indicated by guide scale on the circuit board.
LOCATION
IC
Category : IC
Horizontal “A” zone
Vertical “6” zone
(A : Component side)
D : Discrete component)
B : Foil side
C : Chip component
REF No.
IC101 B C 6 A
Note: For general information in service manual, please
refer to the Service Manual of GENERAL INFORMA­TION Edition 4 No. 82054D (January 1994).
(No.YF124)2-2
D
G
BOARD INTERCONNECTION
INT MIC
CN7602
LCD(MONITOR) MODULE
HWRESETZ
YTU94074-26 YTU94077-26
CN4901
1 DUMP+
2 GND
3 HGVCC+
1INT/L
2INT_GND
3INT_GND
4INT/R
CN2601
DUMP+
GND
SPEAKER
CN404
1 SPK+
CN7601
1VCOMH
1
2VCOML
2
3VCL
3
4C41N
4
5C41P
5
6VGH
6
7C31N
7
8C31P
8
9VGL
9
10C23N
10
11C23P
11
12C22N
12
13C22P
13
14C21N
14
15C21P
15
16VDDA
16
17VFB
17
18DRV
18
19VSS
19
20NC
20
21VDD
21
22VDD1
23NC
24VSS1
25VCOIN
26PDO
27VA(R)
28VA(G)
29VA(B)
30DE
31HS
32VS
33POL
34VDD
35NPC
36VSSD
37
38GCL
39GDA
40GCS
(Page2-35)
MONITOR 50
YTU94074-18
YTU94077-18
ZOOM UNIT
CN402
1REG_3.1V
2REG_3.1V
3REG_4.8V
4REG_4.8V
5LCD_CTL
6AU_LV_OUT
7LCD_CS
8AU_LV_CLK
9VDCVF
10HDCVF
11MON_G
12MON_R
13MON_B
14HRP
15M_RVS
16GND
17GND
18GND
CN403
1PHOTO_H
2 SPK-
12
DECK OPE
OPE
40
(Page2-33)
5EASY_SW
4REG_3.1V
3ZOOM_SW
2PHOTO_F
TW
(Page2-33)
6WIDE_D2
IRIS_C
7GND
4 HGOUT+
HGVCC+
8GND
5 HGVSS-
HGOUT+
IRIS_O/C
CN401
OP BLOCK
6 HGOUT-
7 DUMP-
8 DRIVE-
9 DRIVE+
10 GND
DUMP-
DRIVE-
DRIVE+
HGVSS-
HGOUT-
OP DRV
IR_DET
IRIS_PWM
HALL_A/D
LENS_LED
IR_FLICK
CN103
1 GND
2 GND
3 GND
4 AU_LV_OUT
5 LCD_CS
6 AU_LV_CLK
7 VDCVF
8 HDCVF
9 MON_G
10 MON_R
11 MON_B
12 HRP
13 M_RVS
14 LCD_CTL
15 REG_4.8V
16 REG_4.8V
17 LCD_3V
18 LCD_3V
19 SPK+
20 SPK-
21 GND
22 WIDE_D2
23 PHOTO_H
24 PHOTO_F
25 ZOOM_SW
26 KEY_A
27 KEY_C
28 SET_SW
29 P_MEDIA
30 MONI_SW
YTU94074-8
YTU94077-8
11 Z_PTR_AD
12 Z_VCC
13 Z_LED
Z_LED
ZOOM03
ZOOM02
(Page2-21)
CAM_CLK
F/Z_CS
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
YTU94074-30
YTU94077-30
14 ZOOM02
ZOOM01
ZOOM04
CAM_OUT
15 ZOOM03
F_VCC
16 ZOOM04
17 ZOOM01
T_F_V_RST
18 F_PTR_AD
19 F_VCC
FOCUS02
FOCUS04
H_OFFSET
20 F_LED
FOCUS01
H_GAIN
GND
INT/R
INT/L
INT_GND
SPK+
SPK-
21 OP_THRMO
FOCUS03
REG_3.1V
REG_4.8V
M_REG4.8
VD_F/Z
GND
7654321
8
9
1011121314
VL
RG GND
SUB
VDD
22 GND
23 FOCUS02
24 FOCUS04
25 FOCUS01
F_PTR_AD
Z_PTR_AD
F/Z_MCK
S_SHUT
AIDAT/AIDAT2
AUDIO
(Page2-11)
REG_3.1V
REG_4.8V
V3
H2
26 FOCUS03
AODAT
AILRCK
V4H1V1V2VOUT
CCD
(Page2-30)
TEST
CN4201
1V1
REG_15V
REG_3.1V
REG_-7.5V
AIBCK
AIMCK
AU_SIG/L
AU_SIG/R
A_MUTE
L_MUTE
PD_L
BUZZER
AUDIO_CS
AU_LV_OUT
AU_LV_CLK
AL_3VSYS3OMT13MFLD4SYS_TMS14SYS_TCK5SYS_TDI15SYS_TRSTL6GND16SYS_TDO7GND17SYS_RSTL8EXTRG018TSR9FRP
RXD2
TXD2
DSC_DBG
CN104
11
CLKDSC
CAM_CLK
VOI_IN
DSCIO3
DSCIO1
CAM_OUT
VIF_CS
1
DSCIO0
DSCIO2
AIDAT/AIDAT2
CDSTG_CS
CDSTG_RST
VC0
VC1
HDIN
RGB_CTL
VC2
2
DSCIO4
VC3
CLKI
VF_CS
12
DSCO0
BLKA
DSCIO5
OSD_VD
IRIS_C
BLKB
DSCIO6
VOI_CLK
IRIS_O/C
BLKC
DSCO3
DSCIO7
VOI_OUT
HALL_A/D
IRIS_PWM
DOT_CLK
OSD_HD
DSCO4
DAC_CS
DAC_RST
IR_DET
PSCTL
DSCO2
DSCO1
CPU_WAIT
IR_FLICK
LENS_LED
ANA_IN_H
DSCO7
DSCO6
PARA
(Page2-
CDRE
CDWE
F/Z_CS
F_PTR_AD
VOI_OUT
VOI_CLK
DSCO5
DSP_CS
Z_PTR_AD
OSD_VD
DSYIO0
DSYIO1
SPA
CDAS
OP_THRMO
T_F_V_RST
XINT
ADDT15
DSYIO3
ADDT14
OUTV
20
YTU94074-20 YTU94077-20
ADIN0
VF_CTL
VF_SW
A_MUTE
L_MUTE
PD_L
BUZZER
AUDIO_CS
AU_LV_CLK
AU_LV_OUT
P_MEDIA
MONI_SW
PHOTO_F SET_SW
KEY_A
KEY_C
ZOOM_SW
M_RVS
LCD_CTL
LCD_CS
GND
MMC_CD
ADIN1
ADIN2
ADIN3
ADIN4
ADIN5
ADIN6
ADIN7
ADIN8
ADIN9
VDIN
OUTV
OUTH
DYO3
DYO2
DYO1
DYO0
DCO3
DCO2
DCO1
DCO0
CLK27A
ASPECT
H_GAIN
H_OFFSET
VD_F/Z
F/Z_MCK
AILRCK
AIBCK
AIMCK
AODAT
S_SHUT
2V2
3V3
4V4
5 REG_15V
6 REG_15V
7 CCD_CTL
8RG
9 SUB
10 H2
11 H1
12 CCD_-7.5V
13 GND
14 GND
15 GND
16 CCD_OUT
17 GND
18 GND
19 GND
20 GND
V1V2V3
V4
H2
H1
RG
SUB
GND
CDSTG_RST
CDSTG_CS
CCD_OUT
CAM_OUT
CAM_CLK
ADIN9
ADIN8
ADIN7
ADIN6
ADIN5
ADIN4
ADIN3
ADIN2
ADIN1
ADIN0
CCD_CTL
CCD_-7.5V
CDS/TG
(Page2-19)
CLKI
VDIN
HDIN
VC0
VC1
VC2
GND
VOI_IN
Y_OUT
C_OUT
VIF_CS
OUTV
VOI_OUT
VOI_CLK
OSD_VD
TXD2
RXD2
SD_WP
MMC_CS
MMC_DIN
DSC_DBG
DSC
MMC_CLK
MMC_DOUT
(Page2-27)
CLKDSC
DSCIO3
DSCIO1
DSCIO0
DSCIO2
DSCIO4
DSCO0
DSCIO5
DSCIO6
DSCIO7
DSCO3
DSCO4
DSCO1
DSCO2
DSCO7
DSCO6
USBDOWN
FLSH_RST
DSCO5
DSYIO0
DSC_RST
DSC_CLK
DSYIO2
DSYIO3
DSYIO1
DSC_DT_IN
DSC_DT_OUT
DSC_CS
DSYIO4
MXDT_OUT
DSYO2
DSYIO7
DSC_STS
CAPT_REQ
DCO0
DSYO6
DSYIO5
DSC_WKUP
VIDEO
(Page2-15)
DCO1
DCO2
DCO3
DSYO4
DSYO5
DSYO1
NOTES: The number of patch cords ( ) are indicated by interconnected.
2-3(No.YF124)
VC3
DYO0
DSYO0
BLKA
HDDSC
BLKB
BLKC
PSCTL
V_OUT
VDCVF
ANA_IN_H
ASPECT
CLK27B
GND
T_F_V_RST
LCD_G
LCD_B
LCD_R
REG_4.8V
REG_3.1V
REG_1.7V
HDCVF
HRP
YTU94074-8 YTU94077-8
MECHA
[Z32]
CN3501
REG_3.1V
REG_4.8V
P/R_GND
REG_2.5V
32F22S1
HEAD
GND
1S2F2S
4P/R_GND
ATFI
ATF_GAIN
1F
VRB_ATF
8
P/R_GND71F61S5P/R_GND
REC_ADJ
REF_CLK
REC_CTL
VREF_1.1
VRB_AGC
AGC_OUT
PRE/REC
YTU94074-8 YTU94077-8
REC_CLK
REC_DATA
HID
HID3
ENV_OUT
(Page2-17)
CN1601
2
1P/R_GND
CAM_SW_C
LOADING
MOTOR
PBH
RECH
4
3
CAM_SW_A
CAM_SW_B
MONI_CHG
7
6
5
LOAD_REV
LOAD_FWD
DEW_SENS
ROTARY
ENCODER
SW
8P/R_GND
CN1602
3
COIL COM2D_PG-1GND
OSD_HD
DOT_CLK
CLK27A
OUTV
DYO3
DYO2
OUTH
DYO1
DSYO3
DSYO7
VDDSC
DSYIO6
FLDDSC
MMC_CD
REG_3.1V
7
LOAD
REV
PSCTL
IR
DET
5
SYS
TDI
DSCO4
_
SYS_TRSTL6GND16SYS_TDO7GND17SYS_RSTL8EXTRG018TSR9FRP19OUTV10VDIN
15
DSCO2
DSCO7
DSCO1
DSCO5
DSCO6
DSYIO0
DSYIO1
PARAGON
(Page2-13)
CDRE
CDWE
CPU_WAIT
SPA
DSP_CS
XINT
CDAS
DAC_CS
_
F/Z_CS
ADDT15
IR_FLICK
F_PTR_AD
Z_PTR_AD
LENS_LED
OP_THRMO
T_F_V_RST
OSD_VD
VOI_OUT
ANA_IN_H
VOI_CLK
DSYIO3
ADDT14
OUTV
DSYIO2
DSP_RST
CLK27SEL
ADDT13
DSYIO4
ADDT00
ADDT12
RECH
20
DSYO2
ADDT11
PBH
DSYIO7
ADDT01
ADDT10
HID3
DSYIO5
ADDT02
ADDT09
MONI_CHG
1 KENTO2
DSYO6
ADDT03
ADDT08
HID
11 KENTO
DSYO4
ADDT04
ADDT07
12 AL_3VSYS
2IRU
DSYO5
DSYO1
ADDT05
ADDT06
ADDT06
ADDT05
CAM_SW_C
CAM_SW_B
13 IF_RX
3 IF_TX
4 ENV_OUT
DSYO0
HDDSC
FLDDSC
ADDT07
ADDT10
ADDT08
ADDT09
ADDT04
ADDT02
ADDT03
CPU
(Page2-7)
CAM_SW_A
DEW_SENS
14 MAIN_VCO
5 ATFI
DSYO7
VDDSC
ADDT11
ADDT00
ADDT01
EXTRG0
SYS_TCK
15 HID
DSYO3
DSYIO6
MAIN_VCO
FS_PLL
REG_1.7V
REG_3.1V
REG_12V
REG_4.8V
REG_2.5V
AGC_OUT
VRB_AGC
VREF_1.1
REC_DATA
REC_CLK
REC_CTL
REF_CLK
REC_ADJ
VRB_ATF
ATF_GAIN
ADDT12
ADDT13
DAC_RST
SYS_TDI
16 FS_PLL
6 GND
CLK27B
GND
TSR
FRP
OMT
MFLD
HID
MVD
TPB-
TPB+
TPA-
TPA+
ATFI
ADDT14
DAC_CS
CPU_WAIT
SYS_TDO
SYS_TMS
7 GND
ADDT15
CDWE
SYS_TRSTL
17 COM_VF
CDRE
T_BATT
8 XSTH
DSP_CS
D_BATT
18 CVF_B
CDAS
9 CVF_R
SPA
KENTO
JIG CONNECTOR
CN102
19 CVF_G
20 MVD
10 V_OUT
OMT
XINT
MFLD
DSP_RST
CLK27SEL
KENTO2
IF_RX
IF_TX
IRU
DRUM_PG
TSR
FRP
DRUM_FG
DRUM_REF
V_BATT
C_FRB
REG_CS
REGRTC_OUT
CAP_FG
CAP_REF
LIT_3V
CHRG_EVR
REGRTC_CLK
L_FRB
MDA_PS
LD_ON
D_GAIN
T_REEL
I_MTR
S_REEL
GND
SYS_RSTL
REG_-7.5V
M_REG4.8
SYS_RSTL
TAPE_LED
CAS_SW
V_BATT
MVD
REEL_VCC
REG_CS
HID
E_SENS
REG_12V
REG_2.5V
REG_4.8V
REGRTC_OUT
REGRTC_CLK
AL_3.1V
AL_3VSYS
REC_SAFE
S_SENS
REG_15V
REG_8.5V
REG_1.7V
REG
(Page2-23)
I_MTR
LIT_3V
D_GAIN
CHRG_EVR
TRIG_SW
DIAL_PB
DIAL_OFF
REG_3.1V
DIAL_REC
PWR_LED
S_DET
P_DET
EJT_SW
DSC_WKUP
CAPT_REQ
DSC_STS
MXDT_OUT
DSC_CS
DSC_DT_IN
DSC_DT_OUT
DSC_CLK
DSC_RST
FLSH_RST
USBDOWN
MIC2
MIC1
MIC3
REG_3.1V
ADP_L
M_UNREG
DRUM_ERR
DRUM_PWR
CAP_PWR
BATT_CHK
CAP_ERR
CKH1
VSS
STH
XSTH
4
3
2
1
VF
60
1VF_SW
2GND
3GND
4VF_CTL
5REG_4.8V
123456789
LITHIUM
AL_3.1V
BATT_+
ADP_DC
LCD(C-VF) MODULE
CKH2
DSG
B9R
VDD
CSH
8G7
6
5
VBB
DSD
XDSG
14
13
12
11
10
(Page2-34)
6COM_VF
7CKV1
8CKV2
9STV
10XSTV
11XENB
12ENB
13DSD
14XDSG
101112131415161718192021222324
AU_LV_CLK
AU_LV_OUT
GND
REG_8.5V
REG_15V
REG_3.1V
RGB_CTL
VF_CS
CN101
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
MMC_DOUT
39
40
ENB
CSV
16
15
15DSG
16CVF_B
MON_R
MON_G
10BATT_+
11BATT_+
12P_GND
13P_GND
14LITHIUM
15Y_OUT
16S_GND
17AU_SIG/L
18AU_SIG/R
19P_DET
20V_OUT
21C_OUT
22S_DET
23S_GND
24EJT_SW
25DIAL_OFF
26DIAL_PB
27DIAL_REC
28TRIG_SW
29AL_3.1V
30PWR_LED
31P_GND
32P_GND
33REG_3.1V
34REG_3.1V
35MMC_CS
36MMC_DIN
37MMC_CLK
38MMC_CD
39
40SD_WP
CKV2
XSTV
XENB
STV
20
19
18
17
12
17CVF_R
18CVF_G
19VDD_VF
20CKH2
21CKH1
CVF_R
CVF_RPD
MONI/VF
(Page2-25)
LCD_3V
MON_B
CN501
1P_GND
2P_GND
3P_GND
4T_BATT
5D_BATT
6BATT_CHK
7BATT_+
8BATT_+
9BATT_+
BATTERY
BATT_TERM.
+TT -
30
(Page2-31)
CN7002
CKV1
COM
22
21
22STH
23XSTH
CVF_B
CVF_G
LCD_R
VDCVF
HDCVF
12
EJECT
LITHIUM
REAR
CN7001
COM_VF
LCD_G
CN7801
XSTH
VDD_VF
LCD_B
XENB
CKV1
CKV2
XSTV
XDSG
CKH1
CKH2
DSD
ENB
STV
DSG
STH
YTU94074-24 YTU94077-24
CN502
1 DIAL_REC
2 DIAL_OFF
3 DIAL_PB
4 AL_3.1V
5 PWR_LED
6 GND
7 TRIG_SW
REC
OFF
PLAY
POWER UNIT
8P/R_GND
_
OTARY
CODER
SW
LOAD_REV
LOAD_FWD
CN1602
2
D_PG-1GND
CN1603
11
D_PFG+10D_FG-9D_COIL_U8D_COIL_U7D_COIL_V6D_COIL_V5D_COIL_W4D_COIL_W3COIL_COM
DRUM MOTOR CAPSTAN MOTOR
YTU94074-11 YTU94077-11
DRUM_FG
DRUM_PG
D_PG-
D_FG-
C_FRB
DRUM_REF
COIL_COM
D_PFG+
CAP_FG
CAP_REF
D_COIL_W
D_COIL_U
L_FRB
LD_ON
D_COIL_V
S_REEL
MDA_PS
MDA
C_FG+
T_REEL
C_FG-
C_COIL_W
GND
REG_3.1V
(Page2-9)
HG_V+
C_COIL_V
C_COIL_U
HG_U+
18
C_COIL_U17C_COIL_U16HG_W+15HG_V+14HG_U+13C_COIL_W12C_COIL_W11HG_BS-10HG_BS+9HG_U-8HG_V-7HG_W-6C_COIL_V5C_COIL_V4GND3C_FG+2C_FG-1MDA_2.9V
HG_U-
HG_W+
CN1604
YTU94074-18 YTU94077-18
DRUM_ERR
HG_V-
HG_W-
CAP_ERR
DRUM_PWR
HG_BS+
HG_BS-
CAP_PWR
M_UNREG
M_REG4.8
MDA_2.9V
6
S_RL-5T_RL-4T_RL+3GND2TAPE_LED1CAS_SW
SENSOR
T_RL+
T_RL-
S_RL+
JACK
(Page2-29)
BATT_+
TPA+
TPA-
TPB+
TPB-
GND
DV JACK
ADP_DC
ADP_L
S_RL-
16
11
MIC210MIC19E_SENS8S_RL+7REEL_VCC
YTU94074-16 YTU94077-16
S_SENS15GND14MDA_2.9V13MIC312REC_SAFE
yf124_y10595001a_rev2.1
DC JACK
MAIN IF
MAIN
10
(Page2-5)
(No.YF124)2-4
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