GV-D200/D200E/D800/D800E

Transcription

GV-D200/D200E/D800/D800E
SERVICE MANUAL
US Model
Canadian Model
GV-D200/D800
AEP Model
UK Model
E Model
Ver 1.0 2000. 09
GV-D200E/D800E
B MECHANISM
Photo : GV-D800E
NTSC MODEL : GV-D200/D800
PAL MODEL : GV-D200E/D800E
Function difference table
For MECHANISM ADJUSTMENT, refer to
the “8mm Video MECHANICAL
ADJUSTMENT MANUAL ” (9-973-801-11).
Model
GV-D200/200E GV-D800/D800E
Function
LCD
—
4.0 inches
SPECIFICATIONS
VCR
System
Video recording system
2 rotary heads
Helical scanning system
Audio recording system
Rotary heads, PCM system
Quantization: 12 bits (Fs 32 kHz,
stereo 1, stereo 2), 16 bits (Fs 48 kHz,
stereo)
Video signal
GV-D200/D800:
NTSC color, EIA standards
GV-D200E/D800E:
PAL colour, CCIR standards
Recommended cassette
/Digital8 video cassette
Hi8
Recording/playback time
(GV-D200/D800: using
120 min. Hi8 video cassette)
(GV-D200E/D800E: using
90 min. Hi8 (PAL) video cassette)
SP mode: 1 hour
LP mode: 1 hour and 30 minutes
Fastforward/rewind time
(GV-D200/D800: using
120 min. Hi8 video cassette)
(GV-D200E/D800E: using
90 min. Hi8 (PAL) video cassette)
Approx. 5 minutes and 15 seconds
Input/output
connectors
S video input
4-pin mini DIN
Luminance signal: 1 Vp-p, 75 ohms,
unbalanced
GV-D200/D800:
Chrominance signal: 0.286 Vp-p
GV-D200E/D800E:
Chrominance signal: 0.3 Vp-p,
75 ohms, unbalanced
S video output
4-pin mini DIN
Luminance signal: 1 Vp-p, 75 ohms,
unbalanced
GV-D200/D800:
Chrominance signal: 0.286 Vp-p
GV-D200E/D800E:
Chrominance signal: 0.3 Vp-p,
75 ohms, unbalanced
Audio/Video input
AV MINIJACK
Video: 1 Vp-p, 75 ohms, unbalanced,
sync negative
Audio: 327 mV, input impedance
more than 47 kiloohms
Video output
Phono jack, 1 Vp-p, 75 ohms,
unbalanced, sync negative
Audio output
Phono jacks (2) 327 mV, output
impedance less than 1 kiloohm
RFU DC OUT
Special minijack DC 5 V
DV input/output
4-pin connector
Headphone jack
Stereo minijack (ø 3.5 mm)
LANC
jack
Stereo mini-minijack (ø 2.5 mm)
LCD screen (GV-D800/D800E)
Picture
4.0 type
80.6 × 60.5 mm (3 1/4 × 2 1/2 in.)
Total dot number
123,200 (560 × 220)
General
Power requirements
7.2 V (battery pack)
8.4 V (AC power adaptor)
Average power consumption
(when using the battery pack)
GV-D800/D800E only
During playback using LCD
4.9 W
During playing back when you close
the LCD panel
3.0 W
Operating temperature
0 °C to 40 °C (32 °F to 104 °F)
Storage temperature
–20 °C to +60 °C (–4 °F to +140 °F)
Dimensions (Approx.)
GV-D200/D200E:
148 × 50 × 135 mm
(5 7/8 × 2 × 5 3/8 in.)
GV-D800/D800E:
148 × 65 × 135 mm
(5 7/8 × 2 5/8 × 5 3/8 in.) (w/h/d)
Mass (approx.)
GV-D200/D200E:
660 g (1 lb 7 oz)
GV-D800/D800E:
930 g (2 lb)
excluding the battery pack and
cassette
Supplied accessories
See page 2.
AC power adaptor
Power requirements
100 - 240 V AC, 50/60 Hz
Power consumption
23 W
Output voltage
DC OUT: 8.4 V, 1.5 A in the
operating mode
Operating temperature
0 °C to 40 °C (32 °F to 104 °F)
Storage temperature
–20 °C to +60 °C (–4 °F to +140 °F)
— Continued on next page —
DIGITAL VIDEO CASSETTE RECORDER
SELF-DIAGNOSIS FUNCTION
1.
2.
SELF-DIAGNOSIS FUNCTION
When problems occur while the unit is operating, the self-diagnosis
function starts working, and displays on the LCD screen or monitor
TV (Note) what to do. This function consists of two display; selfdiagnosis display and service mode display.
Details of the self-diagnosis functions are provided in the Instruction
manual.
LCD screen or monitor TV
SELF-DIAGNOSIS DISPLAY
When problems occur while the unit is operating, the counter of the
viewfinder shows a 4-digit display consisting of an alphabet and
numbers, which blinks at 3.2 Hz. This 5-character display indicates
the “repaired by:”, “block” in which the problem occurred, and
“detailed code” of the problem.
Note: Set the DISPLAY in the menu system to V-OUT/LCD only for the
model with LCD screen, and press the DISPLAY button.
C:31:11
Blinks at 3.2Hz
C
3.
11
Detailed Code
Block
Repaired by:
C : Corrected by customer
H : Corrected by dealer
E : Corrected by service
engineer
31
Refer to page 9.
Indicates the appropriate
Self-diagnosis Code Table.
step to be taken.
E.g.
31 ....Reload the tape.
32 ....Turn on power again.
SERVICE MODE DISPLAY
The service mode display shows up to six self-diagnosis codes shown in the past.
3-1.
Display Method
While pressing the “STOP” key, set the POWER switch from OFF to ON, and continue pressing the “STOP” key for 10 seconds continuously.
The service mode will be displayed, and the counter will show the backup No. and the 5-character self-diagnosis codes.
LCD screen or monitor TV
[3] C : 3 1 : 1 1
Lights up
[3]
C:31:11
Control dial
Backup No.
self-diagnosis codes
Order of previous errors
3-2.
Switching of Backup No.
By rotating the control dial, past self-diagnosis codes will be shown in order. The backup No. in the [] indicates the order in which the
problem occurred. (If the number of problems which occurred is less than 6, only the number of problems which occurred will be shown.)
[1] : Occurred first time
[4] : Occurred fourth time
[2] : Occurred second time [5] : Occurred fifth time
[3] : Occurred third time
[6] : Occurred the last time
3-3.
End of Display
Turning OFF the power supply will end the service mode display.
Note: The “self-diagnosis display” data will be backed up by the coin-type lithium battery of FP-571 flexible board. When this coin-type lithium battery
is removed, the “self-diagnosis display” data will be lost by initialization.
—8—
4.
SELF-DIAGNOSIS CODE TABLE
Repaired by:
Self-diagnosis Code
Block
Detailed
Function
Code
Symptom/State
Correction
C
C
C
C
0
2
2
3
4
1
2
1
0
0
0
1
0
0
0
0
C
3
1
1
1
C
C
3
3
1
1
2
2
0
1
C
C
C
C
C
C
3
3
3
3
3
3
1
1
1
1
1
1
2
2
2
3
4
4
2
3
4
0
0
2
C
3
1
1
0
C
3
1
1
1
C
3
2
2
0
C
3
2
2
1
Non-standard battery is used.
Condensation.
Video head is dirty.
LOAD direction. Loading does not
complete within specified time
UNLOAD direction. Loading does not
complete within specified time
T reel side tape slacking when unloading.
Winding S reel fault when counting the
rest of tape.
T reel fault.
S reel fault.
T reel fault.
FG fault when starting capstan.
FG fault when starting drum.
FG fault during normal drum operations.
LOAD direction loading motor timeout.
UNLOAD direction loading motor
time-out.
T reel side tape slacking when
unloading.
Winding S reel fault when counting the
rest of tape.
C
3
2
2
2
T reel fault.
C
3
2
2
3
S reel fault.
C
3
2
2
4
T reel fault.
C
3
2
3
0
FG fault when starting capstan.
C
3
2
4
0
FG fault when starting drum
C
3
2
4
2
FG fault during normal drum
operations
Use the info LITHIUM battery.
Remove the cassette, and insert it again after one hour.
Clean with the optional cleaning cassette.
Load the tape again, and perform operations from the beginning.
Remove the battery or power cable, connect, and perform
operations from the beginning.
—9—
GV-D200/D200E/D800/D800E
SECTION 3
BLOCK DIAGRAMS
3-1. OVERALL BLOCK DIAGRAM (1/4)
( ) : Page No. shown in ( ) indicates the page to refer on the schematic diagram.
(SEE PAGE 4-45)
IO-68 BOARD
(1/2)
VC-250 BOARD(1/4)
(4-25)
IC3702
Y
J101
S VIDEO IN
CN103
CN922
30
29
11
C
32
14
31
39
48
42
16
(4-23)
IC3701
IC3603
(TAKO)
(ALIGN)
LINE IN
LINE OUT
AGC
ACC
36
34
Y
C
2
6
A/D
CONVERTER
Y0-Y7
9
Y
C
20
19
18
17
Y
C
18
34
AFCK
14
68
31
SPCK
(IC1505)
65
XCS ALIGN
(IC4803)
IC3703 (4-25)
EX VIDEO OUT
1
J102
V
VIDEO OUT
L
L
AUDIO OUT
R
16
15
12
11
IC3901
1
2
13
5
7
5
7
L
V
R
38
40
39
HP L
HP R
44
42
43
41
SIRCS PWM
41
46
48
37
IR V
24
KINUTA Y
KINUTA C
44
5
9 10
11
XCS TAKO (IC4501)
CN104
VSP SO,VSP SI,XVSP,SCK
FP-246(1/2)
(FLEXIBLE)
(SEE PAGE 4-45)
XCS AU (IC4501)
EX AUDIO L OUT
20 21 22
IR L
IR R
EX AUDIO R OUT
IR-38 BOARD
(SEE PAGE 4-27)
D362,363
(SUPER LASER LINK)
L
R
HP L
HP R
CN924
3
4
CN361
(4-31)
55
56
57
58
52
54
23
(SEE PAGE 4-63)
1
EX AUDIO L IN
3
20
1
15
14
6
5
2
19
13
17
15
6
4
2
19
13
17
15
6
4
CN203
EX
EX
EX
EX
EX
EX
EX
Y/V IN
C IN
VIDEO OUT
AUDIO L OUT
AUDIO R OUT
AUDIO L IN
AUDIO R IN
L
R
3
8
EX AUDIO R IN
9
4
5
L
R
L
R
3
2
AUDIO
A/D CONV.
D/A CONV.
15
16
8
9
12
DATA TO SFD
DATA FROM SFD
SFD BCK
64
3
8mm
PB AUDIO
PROCESS
10
11
IC5702
AUDIO
I/O
7
8
2
4
(4-32)
IC5701
IC5703
EX-36 BOARD(1/2)
CN204
MULTI
CONNECTOR
14
26
AFM FSC (IC2201)
PB RF
(4-31)
Y
CN931
(GV-D800/D800E)
CN5506
SP901
SPEAKER(L)
SP902
SPEAKER(R)
CN5505
IC5704
CN5503
1
2
1
2
(SEE PAGE 3-8)
CAIN C
7
IR FSC
(IC3301)
TO
OVERALL
BLOCK(4/4)
CAIN Y
46
IR L
IR R
18
7
J002
(HEADPHONES)
HI SO,HI SI,XHI SCK
IR
TRANSMITTER
22
1
2
13
22
(4-27)
CN001
J001
AUDIO/VIDEO
IN
V
3
66 64 63
9
10
R
(SEE PAGE 3-3)
42
38
HD,VD,DE
37
36
8
6
J103
S VIDEO OUT
TO
OVERALL
BLOCK(2/4)
C0-C7
1
35
59
52
49
3
EX C IN
36
Y
C
V
5
EX Y/V IN
(4-26)
2
1
25
26
SP L+,L-
26
25
1
2
SP R+,R-
16
SPEAKER
AMP
11
9
7
4
CN923
PD-130 BOARD(1/3)
13
L
R
(4-31)
(SEE PAGE 4-55)
16
3-1
3-2
TO
OVERALL
BLOCK(2/4)
(SEE PAGE 3-3)
GV-D200/D200E/D800/D800E
VC-250 BOARD(2/4)
(4-15)
IC3301
Y0-Y7
C0-C7
199
203
207
213
Y0-Y7
1
5
9
C0-C7
201
205
211
215
3
7
16
(CAIN)
DV SIGNAL
PROCESS
CN1105
DV IN/OUT
138
X3301
24.576MHz
139
45
L BUS
145
42
TRCK
LCK
51
141
17
21
23
HD,VD,OE
182
IR FCS
IC3303
CN1104
TPA+,TPB+,-
6
9
(LIP)
DV INTERFACE
2
4
5
1
29
47
79
FP-602
MC BUS
RF MON
(FLEXIBLE)
37
VREF
151
HD, VD, OE
CN929
(4-17)
142
(SEE PAGE 4-17)
152
PRRV,TRRV,TRRT
153
156
DATA TO SFD
133
DATA FROM SFD
132
SFD BCK
127
ODD
(4-12)
IC3103
REC CK
REC DT
99
97
83
196
48
TO
OVERALL
BLOCK(1/4)
REC CK
REC DT
(SEE PAGE
3-2)
IC3302
CHARACTER
GENERATOR
(4-15)
1
AD DT
6
6
20
19
HD
VD
184
183
AD DT
6
(4-11)
15
88
PB CK
ATF ERR
PB CK
42
IC3101
20
81
79
8
PB Y OUT
(TRF)
6
7
2
1
REC/PB
AMP
170
25
MC BUS
22 24
COL0
COL3
195
194
191
190
3
29
CAIN Y
CAIN C
55
59
KINUTA Y
KINUTA C
Q3104,3108
Q3111,3116
FLYING
ERASE
OSC
(SEE PAGE 4-11)
4
31
IC3102
(4-11)
2
XFE ON
159
161
75
73
71
105
106
DRUM 8PB
XCS TRF
(IC4501)
VSP SO, SI, SCK
EVEN
16
35
1
VC RF SWP
DV RF SWP
XCS SFD (IC4501)
163
162
XCS OSD
OSD SO
XOSD SCK
EVEN
FILTER
SW
EQ
A/D CONV.
PLL
13
10
9
12
13
ODD
Q3107
Q3109,3110
Q3112-3115
27
DV PB RF
FLYING
ERASE
CN3101
(TRW)
40
42
179
18
17
16
14
CN933(1/2)
FOR
ADJUSTMENTS
DRUM
34
AFCK (IC2603)
SPCK (IC1505)
16
5
2
PB RF (IC3202 14 )
AFC FO (IC2201)
XCS VFD (IC4501)
ATF ERR
ERRV,TRRV,TRRT
PANEL G
PANEL R
DRP SO,XDRP SCK
PANEL B
PANEL HD,VD
MC BUS
VSP SO,VSP SI,XVSP SCK
(4-21)
(4-21)
OSCI
IC2202
VCO
DATA TO SFD
DATA FROM SFD
SFD BCK
AMPO
67
53
(KINUTA)
81
198
IC1505
SPCK
VCK
5
101
100
Y0-Y7
51
122
1/2
4
X1501
27MHz
4
2
TO
OVERALL
BLOCK(3/4)
IC3201
RF AGC OUT
9
HI8/STD8
PB RF
AMP
18
199
2
196
146
144
142
11
187
4
213
AD CK
16
REC
(4-19)
46
49
93
94
89
168
11
3
34
PB RF
1
2
DA STB
(IC4902)
(4-13)
14
IC3202
48
PB C RF
5
DOP
77
95 96 97
36
D/A CONV.
(EVR)
A/D
AD1-AD10
185
PB
IC2291
ADJUSTMENT
VOLTAGE
PB C RF
(SEE PAGE
3-5)
(4-13)
IC1502
C0-C3
MECHA HD
MECHA VD
MECHA FLD
TBC VD
1
27MHz
XTAL
OSC
CK CONT 1,2(IC4902)
112
Y
C
IC1504
(4-13)
79
139
HD,VD,OE
(4-19)
(4-19)
SPCK
IC2201
HI8/STD8
PB Y/C
PROCESS
AFC FO
AFM FSC
DV PB RF
7
3
RF ENV
DET
4
RF ENV DET
MECHA HD
MECHA VD
MECHA FLD
TBC VD
98
XCS CH
CH SO
XCH SCK
XCS KINUTA(IC4902)
VC SO,VC SI,XVC SCK
PB RF
Y
TO
OVERALL
BLOCK(4/4)
PANEL R
PANEL G
PANEL B
PANEL HD,VD
XCS OSD
OSD SO
XOSD SCK
(SEE PAGE 3-8)
16
3-3
3-4
GV-D200/D200E/D800/D800E
VC-250 BOARD(3/4)
B710-MECHA DECK
FU-145 BOARD(1/2)
(4-33)
(4-35)
78
79
80
DRP SO,DRP SI,XDRP SCK
74
75
76
IC4501
DIGITAL8
MECHA
CONTROL
SIGNAL
PROCESS
CONTROL
68
69
DRUM PWM
DRUM PWM
CAP PWM
CAP PWM
IC4401
28
25
(3/3)
LPF
29
27
CAP ERROR
CN921
IC1301
DRUM ERROR
9
15
10 10
11
9
CN921
(1/2)
PWM
DRIVE
CN1301
Q1306
SWITCHING
58
64
3
4
1
2
SWITCHING
Q1305
DRUM YS
(1/3)
DRUM FG
38
DRUM PG
ATF ERR
116
117
115
110
109
96
95
2
3
XCS VFD (IC3301)
XCS SFD (IC3301)
XCS TAKO (IC3701)
4
IC4502
EEPROM
(4-36)
1
XCS EEP
17
28
18
39
40
41
88
XCS AU (IC5701)
XCS TRF (IC3101)
VREF (IC3301)
DV RF SWP
XFE ON
DRUM 8 PB
RF ENV DET
49
50
21
23
FG AMP
17
3
DRUM FG
22
PG AMP
20
1
DRUM PG
DRUM FG
DRUM PG
CAP VS
53
72
114
113
HI SO,HI SI,XHI SCX
81
82
83
1
44
55
2
IC4902
1
HI8/STD8
MECHA
CONTROL
2
3
4
VC SO,VC SI,XVC SCX
114
39
VC SO,VC SI,XVC SCX
XCS KINUTA (IC2201)
DA STRB (IC2291)
XCS EEPROM
MECHA FLD
MECHA HD
MECHA VD
TBC VD
LOAD
UNLOAD
DEW DET
78
79
80
69
68
TAPE TOP
(2/3)
LOAD
UNLOAD
55
56
TAPE LED ON
LOADING
MOTOR
DRIVE
REC PROOF
PANEL R
PANEL G
PANEL B
PANEL HD,VD
CAP PWM
CAP FG
27
32
33
TAPE END
DETECT
46
44
TAPE TOP
DETECT
45
T REEL FG
41
T REEL AFG
39
T REEL
FG AMP
38
39
S REEL FG
33
S REEL AFG
34
S REEL
FG AMP
36
35
TAPE LED ON
M
8
Q002
TAPE END(C)
D001
TAPE
LED
TAPE END
SENSOR
8
Q001
TAPE TOP(C)
2
TAPE TOP
SENSOR
T REEL(+),(-)
12
11
T REEL
SENSOR
H001
S REEL(+),(-)
5
4
S REEL
SENSOR
H002
14
REC PROOF
ME SW
HI8 MP SW
XCC DOWN
LOAD
UNLOAD
M903
LOADING MOTOR
5
LM(+),LM(-)
Q4401
LED DRIVE
MODE SW A-C
S001
REC PROOF
ME/MP
HI8 MP
CC DOWN
7
6
3
15
S002
(GV-D800/D800E)
42
41
96
104
110
95
74
75
76
38
HD OUT
PANEL COM
PD-130 BOARD(2/3)
TAPE END
TAPE TOP
VR,VG,VB
T REEL AFG
PANEL R
PANEL G
PANEL B
S REEL AFG
22
21
20
TAPE LED ON
48
47
46
5
6
7
IC5501
RGB
DRIVE
41
ME SW
XCS LCD
(IC4803)
HI8 MP SW
78
13
XCC DOWN
HI SO,XHI SCK
TO
OVERALL
BLOCK(4/4)
S901
MODE SWITCH
CN4404
40
XCS VC (IC4803)
53
51
47
DRUM PWM
115
109
31
HI SO,HI SI,XHI SCX
2
3
4
IC4401
S REEL FG
DRUM FG
DRUM PG
19
21
83
82
81
CK CONT 1,2 (IC2201)
DEW SENSOR
(4-33)
T REEL FG
116
117
35
36
37
47
XCS CH,CH SO,XCH SCK
12
TAPE END
111
112
113
118
VC RF SWP
CAPSTAN FG
MODE SW A-C
54
XCS MECHA (IC4803)
LINE OUT V (IC3301)
1
MODE SW A-C
TAPE TOP
1
M
CAP FG
112
EEPROM
8
7
DEW DET
(4-29)
IC4901
M902
CAPSTAN MOTOR
CN4403
CAP FG
TAPE END
(SEE PAGE
3-4)
M
5
CN4401
62
59
111
99
X4901
20MHz
U, V, W
10
16
(4-29)
TO
OVERALL
BLOCK(2/4)
61
59
57
DRUM
MOTOR
DRIVE
26
106
107
108
IC4401
6
CN1301
(4-49)
M901
DRUM MOTOR
CN4402
3
4
1
2
MC BUS
FRRV,TRRT,TRRV
(SEE PAGE 4-56)
(4-33)
PANEL HD
PANEL VD
HI SO,HI SI,XHI SCK
(SEE PAGE
3-8)
14
27
40
39
(4-55)
44
IC5502
14
12
13
15
46
45
42
17
16
10
11
1
48
20
VR,VG,VB
22
24
35
TIMING
GENERATOR
(4-55)
19
20
21
VCOM
COM
DA
VGLAC
8
CN5502
FOR
ADJUSTMENTS
LCD
UNIT
(4-57)
IC5602
BL LOW
VC RF SWP (IC4902 47 )
16
4
CN923
23
CN5604
9
5
5
2
7
1
CN5503
6
PANEL 2.8V
8 13 15
CN933(2/2)
FOR ADJUSTMENTS
3-5
3
3
BL DET
IC5601
BL REG
(4-57)
BL CONT
BL CONT
10
4
5
HD OUT
DV RF SWP (IC4501 62 )
BL HIGH
INVERTER
BACK
LIGHT
DRIVE
18
CN5501
24
T5601
Q5602
ND901
BACKLIGHT
11
10
12
10
Q5601
2
8
4
5
3
1
3-6
CURRENT
DET
4
GV-D200/D200E/D800/D800E
(GV-D800/D800E)
FK-78 BOARD
IC4803
6 6
• •
5 5
• •
7 7
FUNCTION
SWITCH
D001 (REC)
2 2
D002 (PAUSE)
4 4
D003 (CAUTION)
93 KEY AD0
•
94 KEY AD1
•
95 KEY AD2
X REC LED
X PAUSE LED
Q906–908
LED
DRIVE
55 X CAUTION LED
X4801
20MHz
X4802
32.768kHz
(4-37)
(SEE PAGE 4-37)
IC4801
FP-571
CN926
(FLEXIBLE)
BT001
1
•
2
BATT LI 3V
VTR UNREG
BATT UNREG
3
7
RESET
5
VDD SWITCH
6
S4801
RESET
40
41
52
53
S101, 102, 104, 105
EXEC
SEL/PUSH
EXEC
DIAL
S103
FP-246 (2/2)
VOLUME SW
MENU SW
S. LASER LINK SW
23
26
•
25
D001 CN001
(FLEXIBLE)
CN103
(POWER)
(CHARGE)
CN104
X POWER LED
8 8
X CHARGE LED
10 10
25
•
26
45
44
38 XRESET
42
•
51
• VDD
77
•
87
HI SO
HI SI
HI SCK
33
•
34
•
35
XCS OSD
OSD SO
XOSD SCK
44
•
45
•
46
IC001
SIRCS SIG
14 14
45
(SEE PAGE 4-45)
J001
(LANC)
FP-575
XCS OSD
OSD SO
XOSD SCK
Q4802, 4805
TO
OVERALL
BLOCK(1/4)
(SEE PAGE
3-2)
TO
OVERALL
BLOCK(2/4)
OFF
1 1
ON
LANC SIG
2 2
(SEE PAGE 4-45)
2
1
14 X VTR MODE SW
1
2
72 ID1
•
73 ID2
CN105
48 IB SI
•
49 IB SO
EX-36 BOARD(2/2)
11, 17
CN204
18, 19
MULTI
CONNECTOR
8
16
17 X EJECT SW
(4-49)
MOD
IC1301
Q4803
MOD
(SEE PAGE 4-65)
LANC SIG
BZ201
BUZZER
CN203
3-7
10
•
11
23
|
26
8
10
•
11
23
|
26
8
BL REG
PANEL –15V
PANEL 13V
1.5V
39
•
40
39
•
40
EX UNREG
SHOE ON
Q4804
(4-37)
IC4802
EX UNREG
LANC SIG
BEEP
IF
DC-DC CONVERTER
(2/2)
(GV-D800/D800E)
RP UNREG
LANC IN 1
•
LANC OUT 2
FU-145 BOARD (2/2)
(SEE PAGE
3-3)
MT 5V
S001
POWER
(FLEXIBLE)
HI SO, HI SI, XHI SCK
SIRCS, PWM
4.75V
S4802
EJECT SW
CN001
(SEE PAGE 4-56)
(SEE PAGE
3-5)
4 SIRCS SIG
46
1
TO
OVERALL
BLOCK(3/4)
2.8V
REMOTE
COMMANDER 1
RECEIVER
S001
LCD ON/OFF
SW
XCC DOWN
BL CONT
66
50
29
81
LCD BRIGHT AD6 1
4
SW
CN5608
CN5503
(SEE PAGE 4-57)
HI SO, HI SI, XHI SCK
BL CONT
BATT/EXT SW
FAST CHARGE
VTR DO ON
SHOE ON
5 X POWER LED
57 X CHARGE LED
LED
DRIVE
XCS MECHA (IC4501)
XCS VC (IC4902)
XCS ALIGN (IC3603)
XCS LCD (IC5501, 5502)
XCC DOWN 18
67 DIAL A
•
68 DIAL B
Q4808–4810
46
43
80
3
58
27
SIRCS ENV 59
MELODY 36
98 KEY AD5 MELODY ENV 56
CN922
24
23
CN923
20MHz OUT
20MHz IN
32kHz IN
32kHz OUT
IO-68 BOARD (2/2)
(SEE PAGE 4-45)
KEY AD6 99
XCS MECHA
XCS VC
6 X REC LED
XCS ALIGN
8 X PAUSE LED
XCS LCD
X CAUTION LED
3 3
VANADIUM
LITHIUM
BATTERY
S5601, 5602
HI CONTROL
CN001
S001–016
LS-56 BOARD
PD-130
BOARD (3/3)
(4-37)
VC-250 BOARD (4/4)
(SEE PAGE 4-61)
VTR DO ON
VTR UNREG
BATT UNREG
BATT SIG
42
46
•
45
44
43
42
46
•
45
44
43
26
•
25
22
|
19
16
•
15
•
14
13
8
•
7
32
•
31
26
•
25
22
|
19
16
•
15
•
14
13
8
•
7
32
•
31
30
30
29
29
35
36
39
38
37
35
36
39
38
37
CN921
10
11 LANC I/O •
12
CN931
3-8
Q507
CN502
Q502
VTR UNREG
BATT UNREG
FAST CHARGE
BATT/EXT SW
BATT SIG
CN1301
CN501
J902
DC IN
1
2
3
1
5
4
+
S
–
J901
BATTERY
TERMINAL
GV-D200/D200E/D800/D800E
3-5. POWER BLOCK DIAGRAM (1/2)
FU–145 BOARD
VC–250 BOARD(1/2)
DC PACK SW
SHOE ON
CN1301
J901
BATTERY
TERMINAL
1
2
3
S
4
5
31
32
32
INIT CHARGE ON
VTR DD ON
F501
BATT/XEXT SW
BATT SW(+)
BATT SW(–)
BATT(–)
Q501,
502
BATT UNREG
BATT UNREG
F502
36
36
7
7
8
8
35
35
BATT UNREG
Q503–505
BATT SIG
CHARGE
SWITCH
F504
J902
DC IN
C/D VS D1.5V
(GV–D800/D800E)
F503
5V REG
BL UNREG
MT 5V
MT 5V
Q1310–1313
VTR UNREG
VTR UNREG
ACV UNREG
2
3
31
BATT SIG
FAST CHARGE
CN501
BATT (+)
F505
1
EX UNREG
EX UNREG
Q506,
507
CN921
VTR UNREG
EX UNREG
(GV–D800/D800E)
BATT/XEXT SW
L501
BL CONT
INIT CHARGE ON
DC PACK SW
SHOE ON
FAST CHARGE
CN502
BL CONT
42
42
45
45
46
46
BL CONT
(4–49)
Q1309
SWITCHING
IC1301
L1318
L1317
BL REG
DC/DC CONVERTER
PANEL 2.8V
L1320
NONINV
INPUT–7
OUTPUT–7
2
31 STANDBY–7
OUTPUT
MONITOR-7
6
OUTPUT VCC–7
5
7
BL REG
L1309
PANEL 13.3V
PANEL –15.3V
L1315
PANEL 4.75V
Q1322,1324,1326
OUTPUT VCC–4,5,6
OUTPUT–4
1
Q1303
SWITCHING
L1305
57
1.5V
25
25
26
26
TO
POWER
BLOCK(2/2)
–15.3V
REG
(GV–D800/D800E)
Q1308
SWITCHING
28 VCC
MOS GATE–4
L1310
L1313
54
OUTPUT
MONITOR–4 18
COMP
41
OUTPUT–1
45
MOS GATE–1
42
OUTPUT
MONITOR–1
40
Q1304
SWITCHING
L302
49
OUTPUT–3
50
34
Q1301
SWITCHING
RP UNREG
6
1
VTR DD ON
29 STANDBY–3
30 STANDBY
Q1302
SWITCHING
OUTPUT
MONITOR–2
37
OUTPUT–6
64
OUTPUT MONITOR–6
10
NONINV INPUT–6
11
7
D1302
RECT
20
5
21
21
22
22
43
43
13
13
Q1305
SWITCHING
RECT
L1301
L1303
PANEL –15V
4.75V
CAP VS
CAP VS
CAP ERROR
DRUM VS
CAP ERROR
Q1306
SWITCHING
DRUM ERROR
L1304
44
44
14
15
16
14
15
16
D 1.9V
L1307
A 2.8V
L1308
AU 2.8V
1
1
2
2
10
10
3
3
4
4
9
9
29
29
30
30
37
37
38
38
39
39
40
40
41
41
L1306
BATT SIG
DRUM ERROR
D 2.8V
CAP VS
CAP ERROR
DRUM VS
DRUM ERROR
L1316
SHOE ON
OUTPUT–5 58
A 4.75V
L1321
DRUM VS
OUTPUT MONITOR–5 14
BATT/XEXT SW
FAST CHARGE
INIT CHARGE ON
DC PACK SW
L1311
RP 4.75V
2
5
IC1303
5.9V
REG
(4–39)
16
3-9
4
1.9V REG
L1314
D1301,305
VTR DD ON
NONINV INPUT–5 15
20
IC1302
8
21 RT
46
1
D1306
RECT
3
OUTPUT–2
PANEL 13V
5
2
22 CT
19
EMERGENCY
DETECT
D1302 (1/2)
RECT
27 VREF
OUTPUT MONITOR–3
Q1314
19
D 1.5V
4
VREF
2.8V
Q1307
SWITCHING
T1301
OUTPUT VCC–1,2,3
AV 4.75V
(4–39)
3-10
RP 6.0V
3
(SEE PAGE
3-11)
GV-D200/D200E/D800/D800E
3-6. POWER BLOCK DIAGRAM (2/2)
VC-250 BOARD(2/2)
CN926
IC4803 (4-37)
(4-37)
FAST CHARGE
BATT XEXT SW
BATT UNREG
IC901
D4802
2
D901
3
REG
IB SO 49
IB SI 48
BATTER IN
DETECT
REG
7
IC4802 (4-37)
4
FAST CHARGE 50
CHARGE INH 47
BATT/XEXT 66
61 BATT IN
1 UNREG
LANC DC
EX UNREG
BL CONT
BL REG
14 LANC DC
AU 2.8V
(SEE PAGE
3-10)
D 1.5V
J001
(LANC)
45
44
46
43
47
48
CN001
EVER 3.0V
21
12
6
XPOWER LED
XCHARGE LED
A 4.75V
IC001
6
8
10
8
10
12
12
D001
(POWER)
(CHARGE)
FP-246 (FLEXIBLE)
(SEE PAGE 4-45)
(4-31)
(4-31)
(4-31)
IC5701
IC5702
IC5703
IC5704
AUDIO I/O
AUDIO
ADC&DAC
AUDIO
INPUT
SELECT
SPEAKER
AMP
IC4502
IC4501
EEPROM
PANEL 4.75V
PANEL -15.3V
PANEL 13.3V
PANEL 2.8V
BL CONT
Q904,905
CURRENT
LIMITER
(4-35)
DIGITAL8
MECHA
CONTROL
9
5
6
10
4
CN923
A 2.8V
AU 2.8V
D 2.8V
FB4501
FB3370
L5504
L5502
L5501
(4-55)
5
(SEE PAGE 4-61)
IC5501
IC5502
FK-78 BOARD
RGB DRIVE
TIMING
GENERATOR
(4-55)
1
1
LED
IC3701
IC3301
IC3303
IC3302
INVERTER
(ALIGN)
A/D CONV.
(TAXO)
VIDEO
LINE IN/OUT
AMP
(CAIN)
DV
SIGNAL
PROCESS
(LIP)
DV
INTERFACE
CHARACTER
GENERATER
(4-15)
(4-17)
L3701,
3705
A 4.75V
A 2.8V
MT 5V
D 1.5V
D 2.8V
(4-26)
DRUM VS
L2291
(4-15)
34
34
36
23
36
23
26
CN931
26
BL REG
(4-13)
L3706
L3901
IC3702
VIDEO OUT
AMP
VIDEO
INPUT
SELECT
L2209
IC3901
IR
TRANSMITTER
FB2203,
FB2205
L2204
(4-27)
IC3703
DRUM ERROR
FB2202
IR DRV
24
FB2204
L2201-2203,
L2208
1
BL HIGH
BACKLIGHT
DRIVE
BL REG
2
(4-57)
CN5607
CN205
18
19
ND901
BACKLIGHT
10
CN5604
CN204
MULTI
CONNECTOR
CN203
IC1502
AGC,
A/D CONV.
(4-21)
(4-29)
(4-29)
IC4901
IC4902
EEPROM
HI8/STD8
MECHA
CONTROL
(4-19)
RP 4.75V
A 2.8V
D 2.8V
L3201
IC1504
IC1505
XTAL
OSC
FREQUENCY
DIVIDER
(4-19)
(4-19)
IC3201
HI8/STD8
PB RF
AMP
(4-13)
L3104
IC3103
IC3101
RF ENV
DET
(TRW)
REC/PB
AMP
(TRF)
EQ.
A/D CONV.
PLL
(4-12)
RP 6.0V
DRUM
MOTOR DRIVE
DRUM FG,PG AMP
LOADING
MOTOR DRIVE
REEL FG AMP
TAPE TOP,END DET
DRUM,CAP ERROR AMP
CN4403
SENSOR VCC
13
T REEL,
S REEL
SENSOR
9
TAPE LED
R4407
D 2.8V
VTR UNREG
MT 5V
TAPE LED(A)
R4411
Q901-903
(4-11)
IR 5V
IR DRV
CN924
1
2
F361
1
2
D362,363
IR LED
CN361
16
3-11
10
(RABI)
DRUM ERROR
29
CAP ERROR
27
DRUM VS
6
CAPSTAN
MOTOR
FB4901
L3103
IC3202
(4-14)
IC4401
RF 1.9V
L3102
FB1501
7
8
9
(4-33)
HI8/STD8
PB Y/C
PROCESS
Q3903
CAP VS
L1501
FB1504
IC2201
(4-25)
RP 4.75V
IC5503
(SEE PAGE 4-65)
(4-25)
CAP ERROR
(EVR)
D/A CONV.
EX UNREG
L3707
CAP VS
EX-36
BOARD
IC2291
2
IC5601,5602
FB2291
IC3603
28
LCD
UNIT
4
(4-56)
CN927
REG 1.5V
24
3
18
23
CN5501
L5503
CN001
D 2.8V
FB3701
L3602
(4-23)
D 2.8V
(GV-D800/D800E)
Q5502-5506
CN5503
(GV-D800/D800E)
FB3303
PANEL 4.75V
PANEL -15.3V
PANEL 13.3V
PANEL 2.8V
BL CONT
18
22
6
17
23
EVER 3.0V
A 4.75V
(4-45)
REMOTE
COMMANDER
RECEIVER
J102
RFU DC OUT
RFU DC OUT
11
CN103
(4-36)
(4-31)
FB3601
(SEE PAGE 4-45)
PD-130 BOARD
L5701
TO
POWER BLOCK
(1/2)
1
6
CN104
S4801
RESET
VTR UNREG
MT 5V
AU 4.75V
AU 4.75V
D 1.9V
A 2.8V
XCHARGE LED 57
VCC 8
22
Q4809,4810
LED DRIVE
Q4808
LED DRIVE
12 XLANC ON
Q4806
XVTR MODE SW
LANC SW
2
6
LED
DC PACK SW
XPOWER LED 5
POWER 4
1
5
FP-575 (FLEXIBLE)
S001
POWER
ON
OFF
CN105
XVTR MODE SE 14
8
LANC I/O
VTR UNREG
BATT SIG
I/F
INIT CHARGE ON 25
VTR DD ON 29
38 XRESET
42 51
VDD
86 87
5
RESET
3
6
MT 5V
Q4804
IC4801 (4-37)
D4801
PANEL 2.8V
PANEL 13.3V
PANEL -15.3V
PANEL 4.75V
IO-68
BOARD
SHOE ON 81
90 BATT SENS
91 ACV SENS
(SEE PAGE 4-37)
(SEE PAGE 4-45)
HI CONTROL
DC PACK SW
SHOE ON
BATT SIG
INIT CHARGE ON
VTR DD ON
FP-571 (FLEXIBLE)
BT001
VANADIUM
LITHIUM
BATTERY
1
2
BATT LI3V
3-12E
SUPER
LASER
LINK
CN4404
IR-38 BOARD
(SEE PAGE 4-27)
B710 MECHA
DECK
(SEE PAGE 4-33)
GV-D200/D200E/D800/D800E
SECTION 4
PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS
4-1. FRAME SCHEMATIC DIAGRAM (1/2)
1
2
4
3
5
7
6
A
11
10
9
8
12
14
13
15
16
17
18
19
FP-247
FLEXIBLE
J102
VIDEO
OUT
CN5713
CN002
50P
LANC_SIG
1
1
LANC_SIG
XVTR_MODE_SW
2
2
XVTR_MODE_SW
REG_GND
3
3
REG_GND
XLANC_JACK_IN
4
4
XLANC_JACK_IN
CN001
50P
50P
VC-250 BOARD(1/2)
CN922 50P
XVTR_MODE_SW
1
1
XVTR_MODE_SW
LANC_SIG
2
2
LANC_SIG
XLANC_JACK_IN
3
3
XLANC_JACK_IN
REG_GND
4
4
REG_GND
REC/PB ANP
1/16
RFU
DC OUT
L
(MONO)
AUDIO
0UT
B
IO-68 BOARD
R
D109
(SUPER LASER LINK)
J103
C
S VIDEO
OUT
Y
S
S
G
G
C
SEL/PUSH
EXEC
J101
C
Y
S
S
G
G
D
S101
SUPER LASER LINK
E
MENU
S102
VOLUME+
S104
VOLUME-
S105
FP-575
F
FLEXIBLE
CN105
1
POWER
OFF-ON
S001
J001
LANC
5
REG_GND
LANC_DC
5
5
LANC_DC
6
6
LANC_DC
REG_GND
6
6
REG_GND
LCH_OUT_DET
7
7
LCH_DET
RCH_DET
7
7
RCH_OUT_DET
RCH_OUT_DET
8
8
RCH_DET
REG_GND
9
9
AUDIO_GND
AUDIO_R_OUT
10 10
AUDIO_R_OUT
RF_DC_OUT
11 11
RF_DC_OUT
AUDIO_L_OUT
12 12
AUDIO_L_OUT
VIDEO_OUT_GND
13 13
VIDEO_OUT_GND
6P
14 14
V_JACK_OUT_DET
S_C_GND
15 15
S_C_GND
VIDEO_OUT
16 16
VIDEO_OUT
LCH_DET
8
8
LCH_OUT_DET
AUDIO_R_OUT
9
9
AUDIO_R_OUT
AUDIO_GND
10 10
REG_GND
AUDIO_L_OUT
11 11
AUDIO_L_OUT
RF_DC_OUT
12 12
RF_DC_OUT
V_JACK_DET
13 13
V_JACK_OUT_DET
VIDEO_OUT_GND
14 14
VIDEO_OUT
15 15
VIDEO_OUT
S_C_GND
16 16
S_C_GND
17 17
S_Y_GND
S_C_OUT
17 17
S_C_OUT
S_C_OUT
18 18
S_C_OUT
S_Y_GND
18 18
S_Y_GND
REG_GND
19 19
REG_GND
S_Y_OUT
20 20
S_Y_OUT
21 21
EVER_3.0V
XS_JACK_OUT_DET
22 22
XS_JACK_OUT
KEY_AD5
23 23
KEY_AD5
XIR_LED_ON
24 24
XIR_LED_ON
DIAL_B
25 25
DIAL_A
26 26
S_Y_OUT
19 19
S_Y_OUT
REG_GND
20 20
REG_GND
XS_JACK_OUT_DET
21 21
XS_JACK_OUT_DET
EVER_3.0V
22 22
EVER_3.0V
XIR_LED_ON
23 23
XIR_LED_ON
KEY_AD5
24 24
KEY_AD5
DIAL_B
DIAL_A
25 25
DIAL_A
DIAL_A
DIAL_B
26 26
DIAL_B
XS_JACK_IN
27 27
XS_JACK_IN_DET
S_Y_GND
28 28
S_Y_GND
1
CAP_VS
S_Y_IN
29 29
S_Y_IN
3
DRUM_VS
S_C_GND
30 30
S_C_GND
5
MT_GND
S_Y_GND
27 27
S_Y_GND
XS_JACK_IN_DET
28 28
XS_JACK_IN
S_C_GND
29 29
S_C_GND
S_Y_IN
30 30
S_Y_IN
REG_GND
31 31
REG_GND
S_C_IN
32 32
S_C_IN
VIDEO_GND
33 33
VIDEO_GND
DV INTERACE
4/16
DV INTERACE
5/16
AD CONVERTER
6/16
Y/C PROCESSOR
7/16
LINE A/D
8/16
LINE IN/OUT
9/16
IR
10/16
MECHANISM CONTROL
11/16
AUDIO I/O
12/16
DRUM/CAPSTAN MOTOR DRIVE
13/16
MECHA CONTROL
14/16
HI CONTROL
15/16
DC/DC CONVERTER
16/16
CONNECTION
TO(2/2)
VIDEO_OUT_GND
S_Y_GND
EVER_3.0V
PB AMP,DAC
3/16
FU-145 BOARD
CN921
31 31
S_C_IN
7
MT_5V
32 32
REG_GND
9
DRUM_ERROR
AV_JACK_IN
33 33
AV_JACK_IN_DET
11
REG_GND
AV_JACK_IN_DET
34 34
AV_JACK_IN
VIDEO_GND
34 34
VIDEO_GND
13
RP_UNREG
REG_GND
35 35
REG_GND
VIDEO_IN
35 35
VIDEO_IN
15
4.75V
VIDEO_IN
36 36
VIDEO_IN
REG_GND
36 36
REG_GND
17
REG_GND
AUDIO_GND
37 37
AUDIO_GND
AUDIO_L_IN
37 37
AUDIO_L_IN
19
AUDIO_L_IN
38 38
AUDIO_L_IN
AUDIO_GND
38 38
AUDIO_GND
21
2.8V
2.8V
2
1
CAP_VS
4
3
DRUM_VS
MT_GND
6
5
MT_GND
MT_5V
S_C_IN
REG_GND
CN1301
48P
CAP_VS
DRUM_VS
48P
CAP_VS
2
DRUM_VS
4
MT_GND
8
7
MT_5V
CAP_ERROR
10
9
DRUM_ERROR
REG_GND
12
11
6
MT_5V
10
REG_GND
12
REG_GND
4.75V
14
13
RP_UNREG
4.75V
16
15
4.75V
REG_GND
18
17
REG_GND
2.8V
20
19
2.8V
22
21
8
CAP_ERROR
4.75V
14
4.75V
16
REG_GND
18
2.8V
2.8V
20
2.8V
2.8V
22
CN502
XHP_SENS
39 39
XHP_SENS
AUDIO_R_IN
40 40
AUDIO_R_IN
HP_GND
41 41
HP_GND
HP_R
42 42
HP_R
XCHRGE_LED
AUDIO_R_IN
39 39
AUDIO_R_IN
23
REG_GND
XHP_SENS
40 40
XHP_SENS
25
1.5V
B TO B
REG_GND
24
23
REG_GND
1.5V
26
25
1.5V
REG_GND
24
1.5V
26
XVTR_MODE_SW
2
LANC_SIG
3
REG_GND
4
REG_GND
5
REG_GND
6
LANC_DC
CN501
HP_R
41 41
HP_R
27
REG_GND
REG_GND
28
27
REG_GND
REG_GND
28
HP_GND
42 42
HP_GND
29
VTR_DD_ON
SHOE_ON
30
29
VTR_DD_ON
SHOE_ON
30
SHOE_UNREG
SHOE_UNREG
32
HP_L
43 43
HP_L
31
SHOE_UNREG
XCHARGE_LED
44 44
XCHARGE_LED
33
REG_GND
XPOWER_LED
45 45
XPOWER_LED
35
VTR_UNREG
XSIRCS_SIG
46 46
XSIRCS_SIG
37
BATT_SIG
A_4.75V
47 47
A_4.75V
39
FAST_CHARGE
A_4.75V
REG_GND
48 48
REG_GND
41
DC_PACK_SW
49 49
REG_GND
REG_GND
49 49
REG_GND
43
PANEL_13V
50 50
REG_GND
REG_GND
50 50
REG_GND
45
BL_REG
47
REG_GND
43 43
XCHRGE_LED
HP_L
44 44
HP_L
XSIRCS_LED
45 45
XSIRCS_LED
XPOWER_LED
46 46
XPOWER_LED
REG_GND
47 47
REG_GND
A_4.75V
48 48
REG_GND
REG_GND
32
31
SHOE_UNREG
REG_GND
34
33
REG_GND
BATT_UNREG
36
35
VTR_UNREG
BATT/XEXT_SW
38
37
BATT_SIG
INIT_CHARGE
40
39
FAST_CHARGE
BL_CONT
42
41
DC_PACK_SW
PANEL_-15V
44
43
PANEL_13V
BL_REG
46
45
BL_REG
REG_GND
48
47
REG_GND
REG_GND
34
BATT_UNREG
36
BATT/XEXT_SW
38
INIT_CHARGE
40
BL_CONT
42
PANEL_-15V
44
BL_REG
46
REG_GND
48
CN901
5P
BATT(+)
1
1
BATT(+)
BATT_SW(+)
2
2
BATT_SW(+)
BATT_SW(-)
3
3
BATT_SW(-)
BATT(-)
4
4
BATT(-)
BATT_SIG
5
5
BATT_SIG
ACV_UNREG
1
1
ACV_UNREG
ACV_GND
2
2
ACV_GND
BATT/XEXT
3
3
BATT/XEXT
CN902
3P
5P
BATTERY
TERMINAL
S
3P
DC IN
A_4.75V
AUDIO_R_IN
XSIRCS_SIG
AV_GND
GND
14
15
16
XPOWEER_LED
8
HP_GND
HP_R
7
13
EVER_3.0V
6
12
HP_L
5
XCHARGE_LED
AV_JACK_IN_DET
4
XHP_SENS
AV_GND
3
11
VIDEO_IN
2
I
9
AUDIO_L_IN
1
CN104
H
10
16P
G
5
LANC_DC
V_JACK_OUT_DET
S103
S VIDEO
IN
REG_GND
2/16
CN924
CN1105
16
15
14
12
13
11
9
10
8
6
7
5
4
3
2
1
B to B
CN929
J002
GND
AV_GND
XSIRCS_SIG
A_4.75V
AUDIO_R_IN
HP_GND
XHP_SENS
XCHARGE_LED
XPOWER_LED
HP_R
EVER_3.0V
HP_L
AV_GND
VIDEO_IN
AV_JACK_IN_DET
AUDIO_L_IN
16P
CN001
J
DV
IN/OUT
IR_5V
1
IR_5V
2
IR_CL_OUT
3
IR_EM_OUT
4
TPB
2
3
TPA
4
GND
IR_GND
5
FP-572
NTPA
IR_GND
6
FLEXIBLE
3
TPA
IR_GND
7
4
TPB
5
NTPB
KEY_AD3
8
REG_GND
9
REG_GND
10
IR_5V
2
IR_CL_OUT
3
IR_ME_OUT
4
IR_GND
5
KEY_AD3
6
REG_GND
(SUPER LASER LINK)
FP-602
D001
FLEXIBLE
POWER/
CHARGE
CN927
IC001
10P
D_2.8V
1
XREC_LED
2
XCAUTION_LED
3
XPAUSE_LED
4
KEY_AD1
5
KEY_AD0
6
KEY_AD2
7
REG_GND
8
(HEADPHONES)
J001
K
6P
D362,363
1
(SUPER LASER LINK)
2
1
NTPA
CN361
1
4P
NTPB
5P
IR-38 BOARD
10P
AUDIO/VIDEO
IN
CONTROL SWITCH BLOCK
S001~S016
(FK-78)
STOP/
FRAME-/
FP-246
CN926
FLEXIBLE
L
BT001
LITHIUM
BATTERY
1
LI_3V
2
LI_3V
3
GND
4
GND
4P
PLAY/REC
/
FF/
REW/PAUSE/X2/
FLAME+/SLOW/DATE CODE/DISPLAY/
DIGITAL EFFECT/TITLE/PB ZOOM
REG_GND
9
REG_GND
10
D001~D003
REC/CAUTION/PAUSE
FP-571
FLEXIBLE
M
16
4-1
4-2
FRAME SCHEMATIC DIAGRAM (1/2)
GV-D200/D200E/D800/D800E
1
2
4
3
7
6
5
9
8
11
10
12
14
13
16
15
17
GV-D800/D800E MODEL
ND901 BACK LIGHT
A
LCD 901
CN01
C
HARNESS
S001
(LCD ON/OFF)
CN5608
AD_6
1
1
AD_6
GND
2
2
GND
VGH
VSS
VGL
VDD
N.C.
GRES
GPCK
GSRT
STBYB
RESET
VCOM
VBC
STBYB
SRT
OE
CLR
MCLK
HCNT
VR
VG
VB
VSS
VDD
VSH
BL_LOW
N.C
N.C
N.C
N.C
N.C
N.C
BL_HIGH
VGH
GND
VGL
VDD3V
SPS
EX1
MO1
MO2
MO3
EX2
VCOM
CLS
RES
PSS1
PSS2
CTR
CLD
SPD
VR
VG
VB
GND
VSH3V
VSH5V
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
1
PL-53
2P
3
LED_GND
LS-56 BOARD
LED
B
2
CN5604
CN5501
10P
24P
4 INCH COLOR LCD UNIT
10P
CN5502
VB
1
XVD_OUT
2
VG
3
PANEL_COM
4
2P
S5601
PD-130 BOARD
BLIGHT+
S5602
LCD
LCD DRIVER(1/2)
BLIGHT-
VR
5
1
SP_L_+
SHARP/XCASIO
6
2
SP_L_-
C-SYNC/XHD
7
1
SP_R_+
2
SP_R_-
CN5506
2P
CPC
26P
2P
BACK LIGHT(2/2)
SP901
SPEAKER L
G
TO(1/2)
SP_R_-
REG_GND
BL_CONT
PANEL_-15.3V
PANEL_13.3V
REG_GND
REG_GND
PANEL_4.75V
PANEL_2.8V
REG_GND
XVC_SCK
XCS_LCD_DA
VC_SO
REG_GND
PANEL_XVD
C-SYNC/XHD
PANEL_HOLD
REG_GND
PANEL_B
PANEL_G
PANEL_R
AD_6
REG_GND
SP_L_+
SP_L_-
BL_LOW
BL_HIGH
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
1
2
CN5607
SP_R_+
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
REG_GND
XVC_SCK
XCS_LCD_DA
VC_SO
REG_GND
PANEL_XVD
C-SYNC/XHD
PANEL_-HOLD
REG_GND
PANEL_B
PANEL_G
PANEL_R
AD_6
REG_GND
SP_L_+
SP_L_-
NC
NC
NC
NC
NC
NC
8
REG_GND
PANEL_2.8V
7
10
CN931
CPC
(FOR CHECK)
4
AUDIO_R_IN
5
5
AUDIO_R_IN_GND
6
6
AUDIO_L_IN
AUDIO_L_IN_GND
LANC_GND
10
ID1
11
11
ID2
13
DV_RF_SWP
VIDEO_GND
12
12
VIDEO_GND
14
RF_IN
13
VIDEO_OUT
15
CAP_FG
14
VIDEO_OUT_GND
16
RF_MON
15
AUDIO_R_OUT
17
18
FP-570
VIDEO_OUT
13
VIDEO_OUT_GND
14
AUDIO_R_OUT
15
TMS
AUDIO_R_OUT_GND
16
16
AUDIO_R_OUT_GND
TCK
AUDIO_L_OUT
17
17
AUDIO_L_OUT
19
TDO
AUDIO_L_OUT_GND
18
18
AUDIO_L_OUT_GND
20
TDI
VC-250 BOARD(2/2)
VIDEO
HEAD
M903
LOADING
MOTOR
ODD
M
M901
DRUM MOTOR
FG
DEW
SENSOR
C_IN
20
VIDEO_GND
21
21
IO_GND
VIDEO_OUT
1
2
25
EX_UNREG
AUDIO_L_IN
6
26
26
EX_UNREG
AUDIO_IN_GND
7
REG_GND
27
27
REG_GND
REG_GND
28
28
REG_GND
IO_GND
REG_GND
29
29
REG_GND
LANC_GND
10
REG_GND
30
30
REG_GND
ID1
11
BL_GND
31
31
BL_GND
EX_GND
12
BL_GND
32
32
BL_GND
EX_GND
13
BL_GND
33
33
BL_GND
AUDIO_R_OUT
14
BL_REG
34
34
BL_REG
AUDIO_L_OUT
15
BL_REG
35
35
BL_REG
AUDIO_OUT_GND
16
BL_REG
36
36
BL_REG
ID2
17
REG_GND
37
37
REG_GND
EX_UNREG
18
REG_GND
38
38
REG_GND
EX_UNREG
19
BEEP
39
39
BEEP
C_IN
20
BEEP
40
40
BEEP
T_REEL(+)
TAPE_LED(K)
14
15
1
C_LOCK_SW
TAPE_LED(K)
2
13
11
12
3
SENSOR_VCC
4
5
T_REEL(-)
8
7
6
HALL_COM
TAPE_LED(A)
TAPE_END(C)
9
REC_PROOF
11
10
ME/MP
S_REEL(+)
12
S_REEL(-)
13
HI8_MP
14
TAPE_TOP(C)
T_REEL(+)
HALL_COM
9
8
10
7
ME/MP
6
5
4
3
2
1
15
REG_GND
C_LOCK_SW
25
EX_UNREG
SENSOR_VCC
5
EX_UNREG
T_REEL(-)
AUDIO_R_IN
TAPE_LED(A)
EX_UNREG
TAPE_END(C)
24
REC_PROOF
24
S_REEL(+)
4
EX_UNREG
S_REEL(-)
3
VIDEO_IN_GND
TAPE_TOP(C)
V/Y_IN
EX_UNREG
HI8_MP
IO_GND
23
REG_GND
22
23
FLEXIBLE
H001,002
S/T REEL
SENSOR
FP-355
FP-356
FLEXIBLE
FLEXIBLE
Q001
TAPE TOP
MECHANISM DECK(B710 MECHA)
L
16
4-3
20P
VIDEO_OUT_GND
22
D001
TAPE LED
CN204
IO_GND
Q002
TAPE END
EVEN
19
20
BZ201
BUZZER
EX_UNREG
M
M902
CAPSTAN MOTOR
19
EX-36 BOARD
15P
2
1
DEW
VCC_1
REG_GND
3
5
4
VCC_2
VS
VS
6
7
MT_GND
8
9
FRC
MT_GND
10
11
12
FG_OUT
STAND_BY
OFFSET_ADJ
1
U
2
U
4
3
V
V
5
W
7
6
W
COM
8
FG
9
10
PG
FG-PG_COM
16
FEX
15
FEY
13
14
GND
SP2Y
12
SP2X
11
10
SP1X
9
SP1Y
7
8
GND
GND
4
5
6
GND
GND
PG
C_IN
VIDEO_GND
40P
IO_GND
FP-249
FG
FE
FLEXIBLE
2P
CN4404
DEW
12
VCC_1
REG_GND
11
10
VCC_2
9
VS
VS
8
7
MT_GND
6
FRC
MT_GND
5
4
OFFSET_ADJ
FG_OUT
STAND_BY
3
2
1
12P
CN4403
U
10
U
9
V
V
8
7
W
6
COM
W
5
4
3
FG
10P
CN4402
PG
FG-PG_COM
2
1
FEY
GND
YEVEN
XEVEN
GND
YODD
XODD
GND
GND
GND
LP1Y
LP1X
FEX
16
15
14
13
12
11
10
9
8
7
6
5
GND
4
AUDIO_L_IN
10
4
3
AUDIO_R_IN
AUDIO_R_IN_GND
ID2
LP1Y
3
V/Y_IN_GND
ID1
LP1X
GND
3
NC(EVF_VG)
12
16P
1
2
LP2X
LP2Y
1
LM(+)
2
LM(+)
3
4
LM(-)
LM(-)
3
NC(VCO)
11
CN3101
LP2Y
LP2X
2
1
LM(+)
LM(-)
LM(-)
M-SW(C)
M-SW(B)
LM(+)
8
7
6
5
4
V/Y_IN_GND
LANC_SIG
8P
3
V/Y_IN
AUDIO_L_IN_GND
FLEXIBLE
5
VIDEO_GND
2
9
FLEXIBLE
6
1
2
8
FLEXIBLE
M-SW(C)
1
V/Y_IN
7
FP-221
M-SW(B)
CN203
VIDEO_GND
9
FP-433
MODE
SWITCH
40P
8
FP-220
S901
BL_LOW
7
NC(EVF_BL_4.6V)
M
K
BL_HIGT
2
LANC_SIG
NC(EVF_BL)
CN4401
COM_GND
M-SW(A)
2
1
8
7
M-SW(A)
COM_GND
J
1
LANC_GND
9
10
H
I
CN205
HARNESS
FLEXIBLE
PANEL_4.75V
6
REG_GND
VC_RF_SWP
PANEL_13.3V
8
5
RF_AGC_OUT
PANEL_-15.3V
REG_GND
7
4
PB_RF
6
3
5
BL_CONT
F0_ADJ_RF_IN
REG_GND
4
2
BPF_MONI
SP_R_-
AFC_FO
3
32P
2
9
GND
CN923
F
20P
1
CN933
SWP
SP_R_+
E
8
GND
EP-51
FP-569
1
XHD_OUT
26
D
2P
CN5503
CN5505
SP902
SPEAKER R
(FOR CHECK)
4-4
LANC_SIG
8
9
MULTI
CONNECTOR
GV-D200/D200E/D800/D800E
For Schematic Diagram
• Refer to page 4-7 for printed wiring board.
• Refer to page 4-68 for waveforms.
8
7
10
9
R3126
22k
R3124
22k
DATA5
TESTIN
AD D GND
DC_TC2
XSCK
DC_TC1
VDD
AGC GND
SI
AGCTC2
2.7
XCS
G
RECA2
2.8
2.8
C3120
0.01u
B
XFE_ON
XMP/ME
XDRP_SCK
XCS_TRF
R3108
1M
C3118
0.01u
B
C3105
0.01u
B
I
2.8
R3120
22k
± 0.5%
R3121
12k
± 0.5%
1.9
1.3
R2.2/P1.3
2.7
D2L
VCC3
RECA1
PBSW_PS
CONT0
19
17
15
18
CONT1
XO
R4.7/P1.7
DIO
YEVEN
12
XEVEN
11
GND
10
YODD
9
XODD
8
GND
7
GND
6
GND
5
LP1Y
4
LP1X
3
GND
2
LP2X
1
LP2Y
R3129
220
± 0.5%
8
GND
GND
GND
FBDP_R
PEAKI_IR
RECI_IR
RECA2
13
R4.4/P1.7
GND
R4.7/P1.7
D2E
R4.4/P1.7
YE
R3130
220
± 0.5%
XE
R3131
220
± 0.5%
R4.4/P1.7
CN3101
R3125
220
± 0.5%
37 38 39 40 41 42 43 44 45 46 47 48
ALL_PS
Q3112
2SC4738F-Y/GR(TPL3)
RECCK
RECDT
REC_CRRT1
IC3102
TC7S86FU(TE85R)
DV_RF_SWP
XFE_ON
1.4
XMP/ME
2.8
5
DRUM_8PB
XCS_TRF
118 TO(2/16)
1.4
15
IC3103
CXA2072R-T4
GND
2.7
R3106
0
C3131
0.01u
B
C3133
0.01u
B
4.7
R-0.6/
P-0.4
Q3109
RN2102F(TPL3)
C3110
0.01u
B
4.7
C3112
470p
B
R3128
10k
DRUM_8PB
Q3107
2SC4738F-Y/GR(TPL3)
4.7
5 TO(16/16)
J
IC1302
AMP
R3112
68
Q3113
2SC4738F-Y/GR(TPL3)
R-0.6/P-0.4
C3143
220p CH
R3141
3900
4.7
R-0.6/
P-0.4
Q3110
RN2102F(TPL3)
R3142
3900
0 C3144
220p CH
R-0.6/P-0.4
Q3114
2SC4738F-Y/GR(TPL3)
R-0.6/P-0.4
C3141
220p CH
RF_MON
0
Q3115
2SC4738F-Y/GR(TPL3)
RF_IN
68
K
T_REEL_EVR
S_REEL_EVR
C3137
0.01u
B
0 C3142
220p
CH
R-0.6/P-0.4
0
4.7
0
4 TO(12/16)
R3139
3900
R3140
3900
1.4
4
DRUM_8PB
R1.9/P0
REC/PB AMP
C3117
470p
B
1
REC_CRRT1
DV_RF_SWP
R1.8/P0
16
GND
GND
R4.7/P1.7
D2O
R4.4/P1.7
YO
2
REC_CRRT0
SW_PS
C3127
0.01u
B
R3.4/P2.3
3
3 TO(13/16)
RECA1
XL
D1L
IC3103
FEY
14
REC_CRRT0
DV_RF_SWP
H
R1.8/P0
CE
R4.2/P2.4
PBYOUT
4.7
VCC2
R4.2/P2.4
PB X OUT
15
B
XCS_TRF
R0/P2.2
DRP_SO
C3109
0.01u
XDRP_SCK
C3124
6800p
B
C3126
0.01u
B
C3125
XX
F
YL
7
0.1u B
2.8
25 26 27 28 29 30 31 32 33 34 35 36
DRP_SO
2.7
CL
F VCC
R0.1/P2.7
IN
C3121
0.01u
B
CO
FEX
6
IC3101
CXA2071R-T4
DATA4
16
R3110 10k
VIDEO HEAD
16
5
EQ,PLL,A/D CONVERTER
DATA3
R0/P0.6
C3115
R3113
12k
CP TC2
IC3101
DATA2
R REF3
R2.2/P1.9
DECUP
R3109 12k
R0.1/P1.2
RECCONT_E
2.3
PLL GND
FAST ACCESS
R REF2
R0/P2.1
PEAKT_IR
RECDT
PD HOLD
0
0.8
REC DATA
2.8
0
PLL VCC
4.7
F GND
DATA0
DATA1
24 23 22 21 20 19 18 17 16 15 14 13
10 11 12
0
AD D VCC
R2.3/P2.1
TO
(2/16,11/16,16/16)
VC_RF_SWP
6 TO(2/16,16/16)
DV_PB_RF
16
REC/PB AMP
VC-250 (1/16)
4-11
REC/PB
PB
Q3106
RN1104F(TPL3)
TAPE SELECT
9
DRP_SO
CP TC1
REC
2
1.9
CLK
C3123
6800p
B
PB
Ref.signal
1
R3146
0
2.7
C3119
47p
CH
AUDIO
SIGNAL
REC
GND
R4.7/P1.7
D1E
2 TO(3/16)
XDRP_SCK
1
Y/CHROMA
4.6
GND
C3101
XX
6.3V
2
VIDEO SIGNAL
Q3105
RN1104F(TPL3)
TAPE SELECT
0
GND
R0/P1.1
ADDT5
3
SIGNAL PATH
Q3111,3116
FE OSC AMP
MECHA DECK(1/2)
(B710 MECHANISM)
NC
ADDT4
4
GND
R0.8/P0
DATA
5.9
VCC1
R0/P1.1
5
0
ALL_PS
R0/P1.1
ADDT3
6
R3114
4700
36 35 34 33 32 31 30 29 28 27 26 25
R0/P1.1
ADDT2
7
37 38 39 40 41 42 43 44 45 46 47 48
ADDT1
8
R3116
0
R3115
10k
C3116
0.033u
B
R3111
470
R3107
150k
ATF OUT
4.7
BUF VCC
R0.1/P0.5
BUF OUT
4.7
AGC VCC
R3.4/P2.2
AGCTC1
R0/P1.1
VRT
AD A GND
4.7
R0/P1.1
ADDT0
9
S IO GND
1.4
ATF3
1.4
ATF2
R2.6/P1.3
ATF1
2.8
I/O VCC
1.4
JSWP
R0/P1.1
PBCK
24 23 22 21 20 19 18 17 16 15 14 13
C3102
0.01u
B
VRB
12 11 10
E
REG_GND
19
4.6
1.9
REC XP
PLLMSK
1 TO(3/16)
0
C3128
0.01u
B
2.8
R3104
6800
AD A VCC
1.9
C3104
0.01u
B
PLLSW
PLLSW
PLLMSK
18
R3119
27k
± 0.5%
Q3103
RN1104F(TPL3)
SWITCH
R3105
0
R0.5/P2.6
RECDT
RECDT
C3114
47p
CH
C3113
0.01u
B
LOCK MON
R0.5/
P2.6
Q3102
2SA1832F-Y/GR(TPL3)
V,REF
R0.5/P3.1
RECCK
RF_1.9V
PLLMSK
C3107
0.01u
B
R3103
10k
PLLSW
C3103
XX
B
RECA2
RECCK
17
C3134
0.1u
B
R3144
560
Q3104,3108,
Q3111,3116
FLYING ERASE
OSD
0
2.7
C3129
XX
F
C3106
XX
F
RECA1
RECA2
F
REC_CRRT1
SW_PS
ALL_PS
0
Q3116
2SA1965-S-TL
Q3108
2SA1832F-Y/GR(TPL3)
ERASE OSC
R3122
68k
± 0.5%
R3117 22k
C
R4.0/P4.6
R3137
4700
R3.4/P4.6
R3.7/P4.6
C3135
100p
CH
DRUM_8PB
Q3104
2SC4738F-Y/GR(TPL3)
FE SWITCH
RECA1
16
R3143
56
R4.2/
P4.6
R4.2/P4.6
XMP/ME
R1.2/
P2.8
R3133
220
C3139
150p
CH
REC_CRRT0
C3122
10u
10V
TA A
C3140
XX
R3138
100
4.6
R3118 13k ± 0.5%
C3111
10u
10V
TA A
C3108
10u
6.3V
TA A
C3132
XX
B
C3136
82p
CH
RECCONT_O
B
L3104
10uH
L3103
10uH
L3102
10uH
R3127
33k
TEST
1.9
VDD
R0.6/P0
CLK
A_2.8V
ALL_PS
15
4.6
C3138
100p
CH
PB_IR
RP_6.0V
R2.1/
P4.6
R1.4/
P2.3
R3136
2200
R3132
270
L3106
12uH
R2.8/P2.6
R3123
22k
SW_PS
14
Q3111
2SA1832F-Y/GR(TPL3)
L3105
220uH
RP_4.75V
D
13
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
REC/PB AMP(RF BLOCK)
-REF.NO.:30000 SERIESXX MARK:NO MOUNT
101 TO(15/16)
12
11
XFE_ON
A
6
4
VC-250 BOARD(1/16)
5
4
3
3
2
1
4-12
Q3107,3109
3110,
Q3112-3115
Hi8/Std8
PB ON SW
FLYING
ERASE
16P
EVEN
CH
ODD
CH
GV-D200/D200E/D800/D800E
2
1
3
4
5
6
7
8
9
10
12
11
VC-250 BOARD(2/16)
A
PB AMP,DAC(RF,ER BLOCK)
RP_4.75V
PB_RF
102
A_2.8V
L3201
22uH
TO(11/16,16/16)
13
TO(16/16)
14
TO(10/16)
15
TO(5/16,6/16)
16
TO(6/16)
17
TO(10/16,13/16)
F0_ADJ_RF_IN
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
TO(15/16)
97
RF_ENV
C3206
0.01u
B
C3205
0.01u
B
C3203
10u
10V
TA
C3202
0.01u
B
C3208
0.01u
B
Q3202
XX
R3215
B
C3207
0.01u
B
150k
± 0.5%
C3204
0.01u
B
C3213
0.047u
B
R3207
XX
0
0
AGC_SLOW
PB2 IN
Y MIX
0.8
REC_Y/MT_CONT
4.6
VCC3
AFREC
PCM REC
RAMP
RAMP CONT
PCM IN
GND
REC DUMP2
AFM IN
SWP
GND
BOTH_REC/DV PBPS
REC2 OUT
10 11 12
9
7
8
RF_AGC_OUT
6
DOP
5
R3209
C3212
0.01u
B
4
BIASADJ
PB_C_RF
RF_ENV_DET
XX
R3210
10k
3
PB DUMP2
C3215
0.01u
B
C3211
0.01u
B
C3210
4700p
B
C3214
0.01u
B
2
IC3201
CXA3265R-T4
PB DUMP1
Q3201
RN1104F(TPL3)
SWITCH
1
Hi8/Std8
PB AMP
VCC AMP
RP_POWER_SAVE
R3211
0
R0/
P2.8
4.7
4
5
R3213
470k
REC_L_CONT
REC1 IN
PB1 IN
RAMP V2
E
IC3201
REC1 OUT
RP_PB_MODE
R3205
470k
2.4
DOC_DET
0
CLPFOUT
4.4
AGC TC
0
RF AGCOUT
0
RP_IR
0
DOP
0
Y/C/ATF IN
R0/P2.6
YLPFOUT/CARDETOUT
GND
VSSW2 OUT
D
4.6
REC DUMP1
REC2 IN
C3201
0.01u
B
36 35 34 33 32 31 30 29 28 27 26 25
C
VPSW1 OUT
4.6
VCC
0
RAMP IR
0.5
MT_Q
R0.9/P0.7
MTIN
R1.8/P2.7
CARDET
4.6
PCMOUT/MTSW
2.1
MT_F0
R0.1/P0
PBRFOUT
2.7
RP_PB
RAMP V1
24 23 22 21 20 19 18 17 16 15 14 13
R3212
560k
-
IC3202
+
RF ENV DET
1
2
3
R0/
P2.5
0.9
IC3202
TA75S393F-TE85R
2.9
0
37 38 39 40 41 42 43 44 45 46 47 48
R3206
470k
R3208
XX
R3214
220k
C3216
0.1u
B
C3217
0.01u
B
C3218
0.01u
B
F
6
TO(1/16,16/16)
118
68
TO(1/16)
TO(1/16,11/16,
16/16)
DV_PB_RF
XMP_ME
VC_RF_SWP
C2291
0.01u
B
L2291
10uH
A_4.75V
G
C2292
22u
10V
TA
103
AU_2.8V
IR_CARR
VIDEO_CAR
40
VIDEO_DEV
41
ND_CONT
42
LCD_BL_CONT
43
V_ON
24
VSS2
4.6
4.6V(VDD2)
2.7
SWP(C1)
4.6
4.6V(VCC)
4.6
XRF_AGC_OFF
4.6
XMP/ME
0.9
DOC_DET
3.8
RF_AGC_CONT
23
AFC_FO_ADJ
11
TO(6/16)
22
FRQ_TUNE
12
TO(5/16)
CFG_DUTY
1.1
(BW_BRIGHT)
21
CFG_DUTY
10
TO(12/16)
(BW_CONTRAST)
19
5V
N.C.
ZM_MIC_CONT
SI
PRINT_HEAD_DDCONT
A_FADE
48
HALL_GAIN
47
HALL_REF
1.7M_DEV
2.8V(VDD1)
46
HALL_OFFSET
AU_BPF
VSS1
45
1.0
C0
1.5M_DEV
GND
44
N.C.
D/A CONVERTER
(EVR)
IC2291
MB88344BPFV-G-BND-ER
2.1
AU_BPF
1.7M_DEV
3V
IC2291
0.7
STB
TO(11/16)
39
0
RP_IR
2.9
AFC_F0_ADJ
2.9
FRQ_TUNE
0.9
1.5M_DEV
8
AUDIO_DEV
1.7
IR_V_DEV
I
ACC/RF_CONT
38
XSCK
TO(9/16)
37
0.6
IR_A_DEV
7
REC_BIAS
2.1
MT_F0
2.9
RF_ENV_DET_LEVEL
0.8
MT_CONT
36 35 34 33 32 31 30 29 28 27 26 25
H
TO(15/16)
REG_GND
20
18
(BW_VCO)
17
(BW_BL)
R5.1/P0.5
MT_Q
16
AGC_CONT2
14
AGC_CONT1
13
SIGNAL PATH
VIDEO SIGNAL
CHROMA
15
Y
Y/CHROMA
AUDIO
SIGNAL
REC
PB
REC
REC/PB
PB
Ref.signal
VC_SO
9
TO(10/16)
3
4
5
6
7
8
2.8
2
2.5
0.1
1
0
J
9
10 11 12
FB2291
0uH
C2293
1u
B
1608
XVC_SCK
DA_STB
K
16
4-13
4-14
PB AMP, DAC
VC-250 (2/16)
GV-D200/D200E/D800/D800E
3
2
1
VC-250 BOARD(3/16)
IC3304
CL3302
TO(15/16)
D_1.5V
R3308
0
Vout
GND
5
R3306
0
GND
12
11
14
13
15
Cont
Vin
18
VIDEO SIGNAL
C3351
XX
B
TO(1/16)
REG_GND
17
CHROMA
TO(15/16)
20
FB3303
0uH
Y/CHROMA
AUDIO
SIGNAL
PB
C3349
1u
B
C3350
1u
B
Y
D_1.9V
105
19
REC
RF_1.9V
2
16
SIGNAL PATH
C3302
0.1u
B
B
10
XX
NOISE_BY_PASS
4
REG_1.5V
6
104
TO(6/16)
9
3
(JC-1 BLOCK)
23
8
2
A
7
6
1
DV INTERFACE
5
4
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
REC
REC/PB
PB
AU_2.8V
Ref.signal
A_2.8V
FB3307
0uH
C3303
0.1u
B
D_2.8V
LCKO
TO(9/16)
R2.1/P1.5
VREF
MCDA2
R1.7/P1.0
TRRV
MCDA3
R1.3/P0.8
VSP_SI
MCDA4
R1.1/P1.5
VSP_SO
MCDA5
R1.2/P1.7
XVSP_SCK
MCDA6
R1.8/P1.2
MCDA7
R0.3/P0.1
XRST_VSP
SCOD_WINDOW
SCOD_WINDOW
XCS_SFD
SWP
0
2.7
10k
R3375
XCS_VFD
0
OSDVD
2.7
OSDHD
2.5
1.4
IR_FSC
I
C3306
0.01u
B
OSDR
0
OSDL
0
OSDP
COL3
COL2
0
0
2.7
R3305
0
25
TO(7/16)
COL1
0
COL0
0
R1.3/P2.8
AFCK
1.4
IFI_Y0
IFI_Y0
IFI_Y1
IFI_Y2
IFI_Y3
IFI_Y4
IFI_Y5
K
26
TO(6/16,7/16)
IFI_Y6
IFI_Y1
IFI_Y0
R1.3/P0
IFI_Y1
R1.2/P0
IFI_Y2
R1.0/P0
IFI_Y2
IFI_Y3
IFI_Y4
IFI_Y5
IFI_Y6
IFI_Y7
IFI_Y3
R0.3/P0
IFI_Y7
IFI_C0
IFI_C0
IFI_C1
IFI_C2
IFI_C3
IFI_C4
27
L
TO(7/16)
IFI_C5
IFI_C6
R1.4/P0
IFI_Y4
IFI_C1
IFI_C2
1.4
IFI_C3
IFI_C4
IFI_Y5
R1.0/P0
IFI_Y6
R0.7/P0
IFI_C5
IFI_C6
IFI_C7
IFI_C7
IFI_Y7
R0.8/P0
IFI_HD
95
TO(6/16,7/16)
IFI_HD
IFI_VD
20
TO
(6/16,7/16,13/16)
LCK0
LBUS0
LBUS1
LBUS2
LBUS3
DIR
FRL
XENA
XACC
VREF
FRRV
TRRV
FCLR
TCK
TDO
TMS
1.5
2.7
1.1
1.3
0
2.7
2.7
0.5
1.4
1.4
1.4
1.4
1.4
0.9
1.1
1.1
0.7
0.7
2.7
1.3
1.1
R1.0/P0.8
2.7
2.7
2.7
2.7
0
2.7
0
2.7
2.7
0
0.5
1.4
2.7
1.4
1.4
2.5
0.4
DATA_FROM_SFD
IFI_VD
R0.8/P0
RECDT
R1.8/P0
RECA2
RECA1
SWPS
CTRL0
CTRL1
ALLPS
PLLMSK
PLLSW
ADDT5
R0.1/P1.1
R0.1/P1.1
IC3301
R0.1/P1.2
R0.1/P1.2
VIDEO DSP
D/A CONVERTER
IC3301
CAIN
20
IFI_OE
IFI_OE
M
IFI_C0
R1.1/P0
1
2
3
4
5
6
7
8
9
VC-250 (3/16)
TO(11/16)
87
TO(10/16)
1
TO(1/16)
99
TO(13/16)
32
TO(16/16)
33
TO(8/16)
34
TO(4/16)
SFD_LRCK
SFD_BCK
DATA_TO_SFD
ADDT4
ADDT3
ADDT2
ADDT1
ADDT0
MVDD1
PBCK
MVSS1
ATF
AVDD3
IREFP
AVSS3
PYOUT
DVDD3
PCROUT
DVSS3
PCBOUT
AVDD2
IREFE
AVSS2
EYOUT
DVDD2
ECROUT
DVSS2
ECBOUT
AVDD1
IREFC
AVSS1
COUT
DVDD1
IREFY
DVSS1
YOUT
XWEN
0
SSS
2.7
2.5
2.7
1.4
1.9
0.6
RECCK
R3313 0
C3309
0.01u
B
C3311
0.01u
B
C3343
4.7u
B
R3309 0
R1.8/P0
RECA1
RECA1
RECCK
SW_PS
0
ALL_PS
0
PLLMSK
0
PLLSW
R3379
100
4-15
RECA2
RECA1
RECCK
R3383
0
RECDT
R3384
XX
RECDT
PLLSW
PLLSW
PLLMSK
R0/P1.2
PLLMSK
ADDT5
ADDT5
ADDT4
ADDT4
ADDT3
ADDT3
ADDT5
ADDT4
ADDT3
ADDT2
ADDT2
R0.1/P1.2
ADDT1
ADDT2
ADDT1
L3306
10uH
ADDT0
ADDT1
ADDT0
ADDT0
PBCK
1.9
PBCK
R0.1/P1.0
R3314 0
PBCK
1.4
ATF_ERR
2.8
C3339
XX B
R3315
3300
1.6
R3382
0
C3352
XX
B
0.1
PANEL_VD
R3331
4700
R3343
4700
R3336
4700
PANEL_HD
2.8
PANEL_G
0.1
PANEL_R
0.7
0.1
0.1
0.7
0.1
PANEL_B
0.7
0.1
2.8
R3316
3300
0
C3327
22u
6.3V
TA A
C3340
XX B
2.8
C3328
0.01u
B
R3340
910
± 0.5%
R3328
910
± 0.5%
R3334
910
± 0.5%
Q3302
2SA1832F-Y/GR(TPL3)
B BUFFER
Q3306
2SA1832F-Y/GR(TPL3)
G BUFFER
Q3304
2SA1832F-Y/GR(TPL3)
R BUFFER
GV-D800/D800E MODEL ONLY
R3360
2200
R3356
2200
CAIN_Y_OUT
2.8
R3321
3300
1.6
Q3307
2SA1832F-Y/GR(TPL3)
C BUFFER
0.4
C3341
1u B
0.4
2.8
R3317
4700
1.5
R3351
270
C3342
1u B
CAIN_C_OUT
1.0
0.9
0.3
R3358
220
Q3308
2SA1832F-Y/GR(TPL3)
Y BUFFER
0.3
18M
SPCK
R3325
47
D3303
RB705D-T146
L3304
1.8uH
SW_PS
ALL_PS
RECA2
RECDT
RECA2
R1.9/P0
R3326 0
C3345
4.7u
B
SW_PS
ALL_PS
R3318
C3315
10k
0.001u B
C3316
R3319
0.001u B
10k
OSDL
C3326
2.2u B
OSDR
R3323
330
COL3
OSDP
R3324 C3324
4700 0.047u
B
COL2
COL1
D3304
KV1470TL1-3
C3325
0.001u
B
COL0
OSDVD
OSDHD
16
DV INTERFACE
31
SFD_FCK
2.7
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 45 46 47 48 49 50 51 52 53 54
CL3301
N
XSWE
SSS
DPVD
DPHD
HVSS2
HVDD2
LVSS2
LVDD2
MVDD2
RECCK
MVSS2
C3317
0.01u
B
MCDA1
R3376
1k
J
DATA_TO_SFD
FB3302
XX
24
SWP
SFD_LRCK
SFD_BCK
C3323
0.01u B
TO(13/16,16/16)
TO(7/16)
C3321
0.01u
B
55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108
XCS_VFD
96
TO(16/16)
29
DATA_FROM_SFD
1.2
MCDA0
XRST_PHY
1.2
XRST_LINK
R0.6/P0
1.4
2.1
R2.4/P1.5
1.2
MCHA1
XRST_VSP
XCS_SFD
TRRT
TD_3-4
MCHA0
OFR
1.1
LPS
2.2
2.7
0
2.3
R2.7/P1.6
H
1.4
ALE
MCCE
R3378
100
SCOD_WINDOW
SWP
XDVCN
1.4
XRST_VSP
C3348
4.7u B
2.7
21
1.4
VSP_SO
XVSP_SCK
MCHA1
LIP_SLEEP
22
R1.3/P0
TRRV
VSP_SI
C3346
4.7u B
IFI_OE
VREF
1.4
R2.6/P0
XRST_PHY
DRP
IFI_VD
TO(13/16)
MCHA0
2.7
19
2.7
R2.5/P0
G
RDX
IFI_HD
XRST_LINK
MCDA7
MSCSS
WRX
RDX
DRP
SWP
ALE
MCCE
MCHA0
MCHA1
MCDA0
MCDA1
MCDA2
MCDA3
MCDA4
MCDA5
MCDA6
MCDA7
SCWIN
XRST
F358
OSDVD
OSDHD
RVDD4
RVSS4
OSDR
OSDL
OSDP
COL3
COL2
HVDD4
HVSS4
COL1
COL0
AFCKI
RVDD5
RVSS5
YI0
YO0
YI1
YO1
YI2
YO2
YI3
YO3
YI4
YO4
RVDD6
RVSS6
YI5
YO5
YI6
YO6
YI7
YO7
R1.7/P0
LPS
OFR
2.7
IFI_C7
XDVCN
LIP_SLEEP
2.6
WRX
R1.0/P0
MCHA0
MCHA1
XCS_SFD
MCDA6
IFI_C6
MCDA7
MCDA5
R1.0/P0
F
MCDA2
MCDA3
MCDA4
IFI_C5
MCDA6
R3381 100
TO(7/16,16/16)
98
TD_3-4
SFD_FCK
L3305
10uH
C3320
10u
6.3V
TA A
162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109
IFI_C4
MCDA4
MCDA5
R3377 100
TD_3-4
C3319
0.001u
B
28
TDO
TMS
TDO
C3318
0.01u
B
D3302
KV1470TL1-3
TCK
TMS
MCDA1
IFI_C3
MCDA1
MCDA2
MCDA3
ALE
MCCE
MCDA0
R1.0/P0
MCDA0
C3301
0.1u
B
R1.1/P0
TO(4/16,13/16)
DRP
IFI_C2
MCCE
22
TRRT
IFI_C1
ALE
E
R3311
10k
FRRV
2.6
DRP
L3303
0.56uH
C3314
0.001u
B
2.6
TRRT
R3307
XX
R3310
10k
TCK
C3322
0.47u
B
MSCSV
MSSCK
MSO
MSI
LVSS4
LVDD4
TRRT
HVSS3
HVDD3
TRRV
FRRV
VREF
XACC
XENA
DIR
FCLR
FRL
LBUS3
LBUS2
LBUS1
LBUS0
LCKO
OVSS3
XOO
XOI
OVDD3
ECKI
ADAI2
ADAO2
ADAI1
ADAO1
OCKI
OCKO
FCKO
BCKI
BCKO
LRCKI
LRCKO
LVSS3
LVDD3
SCAN
TEST
TDO
TDI
TMS
TCK
PLLTES
OVSS2
OSCIN
OSCOUT
OVDD2
PCOR
PVSS2
PVDD2
FRRV
RDX
C3312
0.01u
B
CI0
CO0
CI1
CO1
CI2
CO2
CI3
R1.0/P0
CO3
CI4
R1.0/P0
CO4
R1.0/P0
CI5
CO5
R1.0/P0
CI6
CO6
R1.0/P0
CI7
CO7
R1.7/P0
HI
HO
HVDD1
HVSS1
VI
VO
OEI
OEO
TESTD9
TESTD8
TESTD7
RVDD1
RVDD2
RVDD3
RVSS1
RVSS2
RVSS3
TESTD6
TESTD5
TESTD4
TESTD3
TESTD2
TESTD1
TESTD0
LVDD1
LVSS1
PCO
OVDD1
POO
POI
OVSS1
SPCKI
TSCKO
HVSS5
TRCKO
TRCKI
PVDD1 2.7
PVSS1
RDX
WRX
216 215 214 213 212 211 210 209 208 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163
WRX
R3320
2200
RB705D-T146
D3301
LBUS0
LBUS0
C3313
0.001u
B
SFD_LRCK
LBUS1
X3301
24.576MHz
R3322 100
R3312 270
C3310
4.7u B
C3308
10p
CH
SFD_FCK
LBUS1
VSP_SI
LBUS2
LBUS2
XVSP_SCK
LBUS3
XCS_VFD
LBUS3
VSP_SO
FRL
FRL
D
C3307 10p CH
FCLR
FCLR
SFD_BCK
DIR
DIR
TO(4/16)
C3305
0.1u
B
DATA_TO_SFD
XENA
XENA
18
R3380
100
R3385
0
XACC
DATA_FROM_SFD
LCKO
XACC
R3386 0
C
4-16
OSDL
OSDR
COL3
OSDP
COL2
COL1
COL0
LINE_OUT_V
OSDHD
GV-D200/D200E/D800/D800E
2
1
VC-250 BOARD(4/16)
DV INTERFACE(JC-2 BLOCK)
A
4
3
5
7
6
9
8
11
10
12
14
13
15
16
17
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
D_1.9V
XRST_LINK
ALE
RDX
WRX
MCCE
MCDA0
MCDA1
MCDA2
MCDA3
MCDA4
MCDA5
D_2.8V
MCDA6
B
MCDA7
107 TO(15/16)
MCDA7
FRL
18 TO(3/16)
FRL
FCLR
FCLR
0
1.9
0
2.7
2.7
2.3
XRESETL
VST
XINTT
ALE
XRW
XCS
VSS
RDX
DA0
TPBTEST1
AVD
TEST2
TPBIAS
TEST3
R1
TEST4
VREF
TEST5
TEST6
0
TCK
TDI
TDO
TENA1
VSS
TEST7
AVS
10 11 12 13 14 15 16 17 18 19 20
GND
R3361 12k ± 0.5%
1.2
R3366
XX
R3364
12k
± 0.5%
0
CN1105
CN929
9
R1.8/P0
5P
CN1104
4P
NTPB
GND
1
1
NTPB
2
TPB
NTPA
2
2
TPB
3
NTPA
TPA
3
3
TPA
4
TPA
TPB
4
4
NTPA
LND2
NTPB
5
5
GND
GND
8
DV IN/OUT
0
2.7
R3367
56
± 0.5%
R1.8/P0
R3365
0
0
R3368
56
± 0.5%
C3337
1u
B
1608
2.7
R3362 0
R3370
56
± 0.5%
R3369
10k
R3371
10k
± 0.5%
± 0.5%
R3372
56
± 0.5%
C3338
220p
CH
R3330
XX
R3333
0
SIGNAL PATH
R3346
0
VIDEO SIGNAL
R3353
XX
R3345
XX
Y/CHROMA
C3333
0.01u
B
R3339
XX
LPS
C3332
0.01u
B
OFR
FB3304
C3331
10u
4V
TA
A
1
0
R3363
XX
R3354
XX
R3350
0
R3347
XX
C3329
0.01u
B
5P
R1.8/P0
7
TEST0
LND1
2.7
6
TPB+
DV IN/OUT
2.7
61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80
L3307 10uH
H
DA1
DA2
DA3
VDD
DA4
DA5
TPA-
LCK0
18M
R2.4/P1.5
R2.2/P1.5
R1.7/P0.9
R1.4/P0.8
2.7
R1.0/P1.4
R1.2/P1.7
R1.8/P1.2
0.2
IFCLEAR
VDD
R3337
0
G
AVS1
TPA+
2.7
F
IC3303
SN104266PN-TEB
OFR
FP-602 BOARD
1.9
5
XENA
AVS1
LIP_SLEEP
2.7
4
LBUS0
XIEN
FR
R0/P2.8
3
XENA
LBUS1
AVD1
XRST_PHY
2
LBUS0
2.7
LBUS2
DV INTERFACE(LIP)
XDVCN
R2.7/P0
1
LBUS1
LBUS3
VSS
R1.2/P0
LBUS2
AVD1
R1.1/P0.9
DIR
LBUS3
2.7
FCLR
ICLK
VSS
2.7
AVD0
E
0
DIR
VDD
IC3303
PLL1
XACC
2.7
VSS
2.7
0
FRL
XACC
VDD
AVS0
2.7
XENA
PWD
2.7
VDD
XRST_PHY
2.7
VSS
1.2
ID0
R1.1/P0
XRST_PHY
DIR
XACC
XRST_LINK
XRST_LINK
ID1
XRESETP
2.7
OFR
LBUS0
CNA
2.7
ENEC
21 TO(3/16)
LBUS1
LPS
OFR
ID2
1.9
XI
LPS
ID3
XO
LIP_SLEEP
LIP_SLEEP
VSS
VDD
VSS
D
LBUS3
LBUS2
1.9
XDVCN
ALE
XDVCN
TESTM1
ALE
RDX
WRX
TESTM0
WRX
MCCE
XSLOW
RDX
MCDA0
LPS
MCCE
40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21
MCDA1
DA6
MCDA0
MCDA2
DA7
MCDA1
MCDA3
VSS
22 TO(3/16,13/16)
MCDA4
BC1
R3348
XX
R3349
0
R3355
XX
R3357
XX
C3336
XX
AUDIO
SIGNAL
REC
PB
C3335
22P
CH
LINE_OUT_V
35 TO(10/16)
SPCK
36 TO(5/16,6/16,7/16)
0
COL2
I
0
COL1
0
COL0
2.7
LINE_OUT_V
2.5
OSDHD
9
7
CMDCT
6
VBLA
VC2
VDD
VC1
XPCL
VC0
DATA
XVSYNC
XHSYNC
XCS
XCLK
8
OSC
C3334
0.01u
B
IC3302
OSD
3.0
5
OSDP
OSC
EVER_3.0V
2.6
4
0
1.4
BLKB
VC3
0.1
3
0
COL3
GND
TEST
OSD_SO
2.7
2
0
OSDR
BLKC
NC
38 TO(14/16)
XCS_OSD
2.8
1
0
OSDL
34 TO(3/16)
10
SPCK
20 19 18 17 16 15 14 13 12 11
C
MCDA2
R3359
XX
R3352
0
XDIR
MCDA3
MCDA5
0
MCDA4
MCDA6
2.7
MCDA5
XIACC
MCDA6
60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
MCDA7
IC3302
MB90099PFV-G-104-BND-ER
XOSD_SCK
XSYS_RST
76 TO(7/16,10/16,
13/16,14/16)
J
16
4-17
4-18
DV INTERFACE
VC-250 (4/16)
GV-D200/D200E/D800/D800E
3
2
1
5
4
6
8
7
10
9
VC-250 BOARD(5/16)
A
AD CONVERTER(CH BLOCK)
FB1501
0uH
D_2.8V
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
IC1505
REG_GND
A_4.75V
R1505
100
TIMING GENERATOR
D1501
1T379-01-T8A
1.4
Q
R1504
100
D
XQ
GND
1
2
3
4
XCS_CH
R1518
XX
R1517
XX
R1.9/P1.4
AD6
1
AD5
L1501
10uH
TEST
D0
2
SI
2
ADCLK
SYSV
CCD2000
DVDD
LatchSelect
IC1502
DVDD
HDRST
AVSS
PBLK
S/H,AGC A/D
CONVERTER
AVSS
CLPOB
AVDD
IC1502
VSP2200Y-1/2K
XSHP
REFN
XSHD
CHROMA
LINE
CMLEVEL
AVSS
AVDD
L-
L
CCD IN
AVDD
G
REFP
3
CLPDM
2.7
XCH_SCK
0
1.5
R1.3/P0.7
2.8
0.5
0.9
0
0.6
0
2.8
C1526 C1524
22u
1u
6.3V
B
TA
2.4
VC-250 (5/16)
4-19
TO(6/16,10/16,14/16)
PB_C_RF
15
TO(2/16,6/16)
41
TO(7/16,8/16)
ADCK
AD10
AD9
AD8
AD7
AD6
AD5
AD4
AD3
AD1
0
XRST_KINUTA
2.7
R1514
0
R1515
XX
ALIGN_APC_ERROR
2.8
1.2
1.7
1.5
C1521
1u
B
C1522
1u
B
TAKO_Y_OUT
SIGNAL PATH
VIDEO SIGNAL
C1523
0.1u
B
CHROMA
REC
C1520
0.001u
B
PB
C1513 C1514 C1515 C1516 C1517
120p
0.47u 68P 0.22u
1u
CH
B
CH
B
B
16
AD CONVERTER
94
XRST_KINUTA
AD2
AD1
XCS_CH
C1519
0.22u
B
A
H
SYS_V
XCS_CH
AD2
CH_SO
2.7
25 26 27 28 29 30 31 32 33 34 35 36
C1518
1u
B
AD4
AD3
37 38 39 40 41 42 43 44 45 46 47 48
D1
3
D2
4
D3
D4
R1.9/P1.1
R1.9/P0.6
R2.0/P2.5
R1.9/P0
R2.1/P0
D5
D6
D7
D8
5
XCE
AVSS
2.8
6
AD7
1
L2+
R0.2/P0.5
7
DRVSS
L1+
R0.2/P0.5
8
DRVDD
AVDD
2.8
R0.2/P0.5
R2.3/P2.8
R1.6/P0
R1.7/P0
R2.3/P0
2.8
9
AD8
XSCK
AVSS
R1520
0
R1526
0
R1523
0
R1524
0
R1525
0
D9
DVDD
F
2.8
24 23 22 21 20 19 18 17 16 15 14 13
2.8
TO(6/16)
XCH_SCK
AD1
AD2
AD3
AD4
AD5
AD6
AD7
AD8
AD9
AD10
ADCK
12 11 10
DVSS
40
CH_SO
VCK
AD9
1.3
TO(10/16)
4
XCH_SCK
AD10
2.8
43
R1516
XX
ADCK
C1508
1u
B
TO(2/16)
5
1
C1507
10u
6.3V
TA
XRST_KINUTA
E
TO(4/16,6/16,7/16)
12
C1527
XX
F
CH_SO
1.5
FB1504
0uH
36
2
C1505
1u
F
1.4
4
D
SPCK
FRQ_TUNE
IC1503
XX
5
IC1505
R1522
0
FB1502
0uH
3
2.8
5
XCLR
2.8
6
XPR
2.8
5
7
VCC
1.5
IN A
VCC
NC
1
4
1.5
C
2
8
2.8
CLOCK OSC
3
OUT Y
GND
IC1504
TC7WH74FU(TE12R)
IC1504
TC7SU04F(TE85R)
R1521
1M
TO(15/16)
A_2.8V
R1512
470k
C1512
0.001u
B
1.4
B
X1501
27MHz
CK
C1510
6p
CH
FB1503
0uH
108
4-20
Y
Y/CHROMA
GV-D200/D200E/D800/D800E
3
2
1
VC-250 BOARD(6/16)
0uH
0uH
FB2201
XX
FB2204
0uH
14
16
15
17
18
19
20
VIDEO SIGNAL
CHROMA
10uH
R2226
XX
REC/PB
PB
AD3
AD4
CL2205
CL2202
ADCK
CL2203
AD9
AD8
AD10
AD5
AD5
AD6
AD7
AD7
40 TO(5/16)
AD8
AD9
1.4
2.8
1.3
AD8
1.4
R2.3/P0
R1.7/P0
R1.6/P0
R2.4/P2.8
R2.1/P0
0
1.4
R2254
0
2.8
2.8
AD2
AD3
0
0
2.8
KINUTA_Y_OUT
AD1
AD2
AD6
C2250
10u
4V
TA
A
Q2203
XX
R2208
0
AD1
AD4
2.8
R2245
470
1.4
R2207
XX
44 TO(8/16)
C2246
XX
X2201
XX
1.4
R2244
R2211
0
R2253
XX
C2245
XX
2.8
12k
KINUTA_C_OUT
XX
0.1u B
R2212
C2236
C2244
0.01u B
0
L2204
10uH
AD7
C2238
1u
B
REG_GND
AD6
C2240
1u
B
1608
AD5
C2225
0.01u
B
AD4
C
REC
Ref.signal
C2228
10u
6.3V
TA
A
C2233
0.01u
B
AD3
C2232
10u
6.3V
TA
A
R1.9/P0
10uH
10uH
R2.0/P2.5
L2201
L2208
Y/CHROMA
PB
R2227
XX
0uH
Y
REC
R2228
XX
10uH
FB2203
106 TO(15/16)
SIGNAL PATH
AD2
L2203
D
13
10uH
FB2202
FB2205
L2202
A_2.8V
A_4.75V
12
11
R1.9/P0.6
D_1.5V
AD1
L2209
REG_1.5V
D_2.8V
B
10
9
R1.9/P1.2
104 TO(15/16)
8
7
R1.9/P1.3
23 TO(3/16)
6
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
Y/C PROCESSOR(CL BLOCK)
A
5
4
AD9
AD10
AD10
DVDD4
VCK
DVSS9
XSG1
VGAT
XV1
AHD
AVD
ID
PBLK
DVSS10
COLOR1
COLOR2
COLOR3
COLOR4
CGCK
IO_VDD5
YMO7
VDDAA0
YMI7
VRBAD
DVSS5
VRTAD
CMO3
VINNAD
CMI3
AD_IN
CMO2
OP_OUT
8
VSSAA0
CMI2
DVDD2
C_IN
CMO1
ATF_IN
CMI1
VREFOP
CMO0
Y_RF_IN
CMI0
AVDD
6
AMPO
7
EOR_OUT
TESTKP
IO_VDD2
DVSS4
DVSS3
FECKOUT
RAMTEST
XFEON
FECKIN
ADCKCONT
MCKCONT
XRST
SI
SO
XCS
XSCK
MECHAVD
BCK
INN
109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162
OSD_P_ON
CLP1
OSD_R_ON
OSD_L_ON
DVSS11
ADCK
DVDD5
ADIN9
ADIN8
ADIN7
ADIN6
ADIN5
ADIN4
ADIN3
ADIN2
ADIN1
ADIN0
PLLENB
CCDCKL
IN_VDD3
IN_VSS3
XTALIN
VDDAA1
R2242
15k
D2201
KV1470TL1-3
2.8
0
SYS_V
2.8
C2243
1u B
1608
R2.5/P0
IFI_HD
R2.6/P0
IFI_VD
R1.3/P0
IFI_OE
R1.3/P0
IFI_Y0
IFI_Y0
IFI_Y2
IFI_Y3
IFI_Y4
IFI_Y4
IFI_Y5
IFI_Y5
IFI_Y6
IFI_Y6
IFI_Y7
R1.0/P0
IFI_Y2
IFI_C0
IFI_C1
IFI_C1
IFI_C2
R0.3/P0
IFI_Y3
IFI_C2
IFI_C3
IFI_C3
IFI_HD
R1.4/P0
IFI_Y4
IFI_HD
IFI_VD
IFI_VD
IFI_OE
R1.0/P0
IFI_Y5
IFI_OE
XVC_SCK
VC_SO
2.8
VC_SI
R0.7/P0
IFI_Y6
XCS_KINUTA
MECHA_HD
R0.8/P0
IFI_Y7
JOG_VD
MECHA_VD
MECHA_FLD
R1.0/P0
IFI_C3
R1.0/P0
IFI_C2
ATF_SAMPLE
X1/2_SWP
SWP_DIR
CK_CONT2
1.4
CK_CONT1
R1.2/P0
IFI_C1
26 TO(3/16,7/16)
IFI_Y7
IFI_C0
1.4
14/16)
IFI_Y1
IFI_Y2
IFI_Y3
IFI_Y1
94 TO(5/16,10/16
IFI_Y0
IFI_Y1
R1.2/P0
SYS_V
95 TO(3/16,7/16)
20 TO(3/16,7/16,
13/16)
XVC_SCK
VC_SO
VC_SI
XCS_KINUTA
MECHA_HD
JOG_VD
MECHA_VD
MECHA_FLD
45 TO(10/16)
ATF_SAMPLE
X1/2_SWP
SWP_DIR
CK_CONT2
CK_CONT1
TBC_VD
XTBC_V_RST
R1.0/P0
IFI_C0
C2252
XX
C2242
1u
C2231
XX
CH
C2247
1u
B
1
3
1.3
2.8
2.8
0
CK_CONT1
2.7
XRST_KINUTA
0
2.1
CK_CONT2
0.2
XCS_KINUTA
2.5
VC_SO
VC_SI
2.5
0
MECHA_VD
XVC_SCK
0
MECHA_HD
2.8
MECHA_FLD
2.8
2.3
SYS_V
0
2.8
SWP_DIR
ATF_SAMPLE
0
2.7
1.4
2.8
1.3
0
2.7
2.9
1.4
0
X1/2_SWP
4
2
2.9
2.8
R2231
XX
1.3
5
C2235
XX
CH
R2248
10k
R2230
0
1.3
0
2.8
JOG_VD
R2243
15k
R2255
0
10k
C2230
1500p
B
XX
0
4.7
L2207
3.3uH
C2234
0.01u B
R2256
68
C2241
XX
CH
C2251
XX
B
R2247
1k
Q2204
2SA1832F-Y/GR(TPL3)
N
XTALOUT
PDVSCC
PAVSCC
PAVDCC
PDVDCC
PDVDDB
PAVDDB
YMI6
XRST_KINUTA
55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108
3.5
R2222
3300
PAVSSB
YMO6
REXT1
C2212
1u
B
1608
2.9
2.9
PDVSSB
IO_VDD3
CBU1
R2209
3.5
C2204
0.1u
B
VSSA9
YMI5
DAO1
R2240
1M
R2241
XX
R2219
100
DAO9
VSSAA1
Q2206
2SC4738F-Y/GR(TPL3)
C2201
0.01u
B
TESTDAC
YMO5
1200
C2202
10u
10V
TA
VSSAA2
INP
R2220
39k
R2213
5600
AFC_F0_ADJ
YMI4
IC2202
TC7SU04FU(TE85R)
11 TO(2/16)
YMO4
DAO2
R2210
M
CBU2
C2227
0.47u
2012 B
AFC_F0
R2206
100k
DVSS6
2.8
93 TO(10/16,16/16)
REXT2
R2229
R2205
10k
470
R2218
R2216
6800
L
R2215
1k
C2211
4.7u
6.3V
2.7
YMI3
IN_VSS2
R2221
820
C2208
390p
CH
YMO3
VDDAA2
CSYNC
2.9
YMI2
VDDAA3
SYSV
1.4
YMO2
IN_VDD2
0.01u B
2.8
C2210
1u
B
1608
DVDD3
REXT3
MECHAFLD
0
YMI1
CBU3
SWP
1.4
DAO3
XSGRST
1.4
9
IC2201
HGH5C012SFL
2.8
C2226
B
YMO1
VSSAA3
ATSMPL
8200
VSSAA4
HSWP
0.01u
0.01u
B
YMI0
JVDI
C2203
C2213
R2223
Hi8/Std8
Y/C PROCESSOR
YMO0
DAO4
2.8
K
1.4
DVSS7
DVSS2
0.6
C2229
0.01u
B
IC2201
MCK
0
MEMFLDI
CBU4
OUT_VDD1
B
VIFLDO
REXT4
OFSC
0.1u
10
VDDAA4
TRAPCONT
C2224
VIVDO
MEMVDI
VDDAA5
DOP
B 1.2
11
REXT5
PANELSYNC
0.1u
VIHDO
MEMHDI
CBU5
PANELVD
C2223
12
DAO5
PANELHD
0
VSSAA5
PDET2
B
IO_VDD4
PDET3
0.1u
EN0
VSSAA6
AFCC
C2222
DIR0B
DAO6
DVDD1
2.8
J
DIR0A
CBU6
IN_VDD1
2.8
DIR1A
REXT6
PDET1
C2215
1u
B
1608
DIR1B
VDDAA6
OSCI
I
EN1
VDDAA7
IN_VSS1
2.8
DVSS8
REXT7
OSCO
2.8
CBU7
PDVSSA
DOP
VCKO
2.8
16 TO(2/16)
RF_AGC_OUT
TESTBS
DAO7
D2202
KV1470TL1-3
H
PB_C_RF
VSSAA7
PAVSSA
2.8
IRIS
XTECVRST
PAVDDA
2.8
TEST
TBCVD
VSSAA8
PDVDDA
G
13
DAO8
MUTE
2.8
14
CBU8
DVSS1
9
54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
2.8
SENS0
REXT8
WRHLD
8
7
6
5
4
0
F
15 TO(2/16,5/16)
VCK
SENS1
AVSS
3
0
ADCK
VDDAA8
SCAN_PATH
1
2
0
C2214
0.1u
B
R2225
470
ADCK
XRST_KINUTA
2.8
R2224
12k
E
CBU9
VDDAA9
XX
REXT9
216 215 214 213 212 211 210 209 208 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163
Q2202
IC2202
SPCK
36 TO(4/16,5/16,
AFM_FSC
37 TO(11/16)
7/16)
INVERTER
16
4-21
4-22
Y/C PROCESSOR
VC-250 (6/16)
GV-D200/D200E/D800/D800E
3
2
1
VC-250 BOARD(7/16)
6
8
7
10
9
VIDEO SIGNAL
CHROMA
PB
TD_3-4
R3609
2.7
2.5
2.5
2.9
0.7
2.7
0
2.6
R2.7/P0
AD8VDD
AD8VSS
DVSS2
DVDD2
IC3603
DAVSS
MB87L1241PFV-G-BND-ER
DCOUT0
DAREF
DCOUT1
APCVO
DCOUT2
AGCVO
DCOUT3
CLPVO
DCOUT4
ACCVO
DCOUT5
DATOP
DCOUT6
DABOT
DCOUT7
DAVDD
XRST
26
TO(3/16,6/16)
27
TO(3/17)
30
TO(16/16)
29
TO(3/16)
28
TO(3/16,16/16)
95
TO(3/16,6/16)
20
TO(3/17,6/17,
13/17)
25
TO(3/16)
IFI_Y0
R1.0/P0
IFI_Y2
R0.3/P0
IFI_Y3
R1.4/P0
IFI_Y4
R1.0/P0
IFI_Y5
R0.7/P0
IFI_Y6
R0.8/P0
IFI_Y7
2.7
R1.1/P0
C3634
0.1u
B
IFI_C0
R1.2/P0
IFI_C1
R1.0/P0
IFI_C2
R1.0/P0
IFI_C3
R1.0/P0
IFI_C4
R1.0/P0
IFI_C5
R1.0/P0
IFI_C6
R1.7/P0
IFI_C7
2.6
TD_2-3
DVDD1
DVSS1
AVD
AHD
AOE
XACLKE
OSCSEL
TD_2-3
TD_3-4
TCK
TMS
TCK
TMS
2.7
R2.5/P0
R2.6/P0
R1.3/P0
R1.3/P28
1.4
2.7
2.4
2.7
2.8
2.6
TAKO_CK
IFI_HD
IFI_VD
R3639
0
R3648
XX
C3629
0.1u
R3646 B
XX
C3626
0.1u
B
IFI_OE
R3656
AFCK
0
C3630
0.1u
B
C3628
0.01u
B
16
4-23
TO(4/16,10/16,
13/16,14/16)
TO(14/16)
IFI_Y1
TD_3-4
R3636
0
VC-250 (7/16)
47
R1.2/P0
C3602
XX
B
LINE A/D
XCS_ALIGN
R1.3/P0
21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
H
XSYS_RST
TS1
DVDD3
SI
XSCK
SO
XCS
ZCKI
MZSEL
TS2
DVSS3
VERIFY
TDI
TDO
TMS
TCK
AD8TB
XPLRST
2.8
DYOUT7
ACLKO
1.2
AD8TOP
DYOUT5
DYOUT6
A/D CONVERTER(BBI)
AFC,AGC
MCSEL
1.6
IC3603
DYOUT4
41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60
AD8BOT
EXCKI
1.4
0
C3619
0.01u
B
C3620
0.01u
B
C3621
0.01u
B
AD8IN
DVSS0
R1.4/P0
TRST
DYOUT3
2.8
0
PSCNTO
1
2
DYOUT2
ADAVSS
0
1.5
F
ADAVDD
R0/P0.5
1.7
TO(8/16)
DYOUT1
2.8
0
RCKSEL
ADATB
C3615
0.01u
B
C3616
1u
B
C3617
1u
B
C3618
1u
B
AGC_CONT
ACC_CONT
ADATOP
TS0
DVDD0
E
DYOUT0
VCXOO
R3622
470
ADAIN
R2.1/P0
VCXOI
R1.5/P0
Q3603,Q3606
AMP
ADABOT
R1.3/P0
C3612
1u
B
C3613
0.01u
B
R3621
XX
C3614
C3608 1u
B
0.1u
BCKI
C3603
0.01u
B
R0.7/P0
OSVSS
TAKO_C_OUT
R1.3/P0
R3617
680
Q3602
2SA1832F-Y/GR(TPL3)
C3611
1u
B
R3620
XX
3
C3636
22p
CH
R2.0/P-0.5
R3611
10k
TO(10/16,13/16,14/16)
76
C3633
10u
6.3V
TA
4
R3659
3900
R4.7/P-0.5
R1.9/
P-0.5
C3632
0.01u
B
C3631
0.1u B
5
R3658
1k
R3607
10k
6
D
C3601
10u
4V
TA
7
TAKO_Y_OUT
ALIGN_APC_ERROR
Q3603
2SC4738F-Y/GR(TPL3)
80
XHI_SCK
80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61
8
R3660
Q3606
2200
2SA1832F-Y/GR(TPL3)
R2.5/P-0.5
TO(5/16,8/16)
0
Q3605
RN1104F(TPL3)
SWITCH
Q3604,Q3605
SWITCH
R1.9/P0
R1.4/P0
R2.7/P0
C
41
C3622
1u
B
R0.4/P0
R3606
XX
2.7
R4.0/P4.6
R3618 10k
R3612
47k
C3604
10u
10V
TA
PLLVDD
R4.7/P0
DVSS4
4.7
OSVDD
A_4.75V
R3644
XX
C3635
XX
CH
R3652
R3608
0
XX
2.7
C3610
10u
6.3V
TA
SWITCHING
PLLVSS
Q3604
2SB1295-UL5/6-TB
L3601
10uH
9
REG_GND
R3604
0
2.3
A_2.8V
TO(15/16)
HI_SI
HI_SO
R3657
100k
R3643
0
1.4
10uH
20 19 18 17 16 15 14 13 12 11 10
109
L3602
TD_2-3
TCK
TMS
FB3601
0uH
G
Y/CHROMA
SPCK
D_2.8V
46
Y
REC
36
TO(4/16,5/16,
6/16)
B
12
11
SIGNAL PATH
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
LINE A/D(IN BLOCK)
A
5
4
4-24
GV-D200/D200E/D800/D800E
2
1
3
4
5
6
7
8
9
10
11
12
13
14
15
VC-250 BOARD(8/16)
A_4.75V
TAKO_C_OUT
C3721 L3703
XX
XX
ALIGN_APC_ERROR
C3710
C3705
2.2u
R3.1/P2.3
2.2
B
B
0.33u B
2.6
2.2
R1.6/P0
IC3703
S_Y_OUT
XX
0
1.7
R0.8/P3.9
1.6
C3726
C3725
XX
MM_TC2
4FSC_OUT
XTAL
MM_TC3
EXTAL
PLL_VCC
SDC
C_IN1
1
2
3
4
5
6
7
8
9
DRV_C_O
R3744
XX
R3743
XX
C3714
10u
10V
TA A
C3716
0.01u
B
C3715
0.33u
B
R3730
1k
C3751
100u
6.3V
TA B
1.9
1.6
4.6
C3729
2.2u
B
4.6
DRV_Y_O
C3733
100u
6.3V
TA
B
R3728
1k
R3729
1k
2.2
0 C3730
0.01u
B
R3726
10k
C3731
0.01u
B
10 11 12
R3724
1k
C3718
0.01u
B
1k
FB3701
C3723
0.01u
B
C3724
0.1u
B
IR_VIDEO
IR_VIDEO
R3727
1k
DRV_C_O
DRV_Y_O
S_C_OUT
51 TO(9/16)
APC_FIL
DRV_C_OUT
Y_GCA_CONT
DRV_V_O
C3732
100u
6.3V
TA B
1.6
R3722
R3742
68
R3745
XX
BGT_OUT
C_VCC
Y_IN4
1.9
B
85 TO(14/16)
Y_INV
Y_VCC
0.01u
F
DRV_Y_OUT
AN2225
CLAMP_TC2
DRV_V_O
R3741
68
Y_GND
AN2225FHQ-EB
Y_IN3
0
R3740
68
VIDEO_OUT
PLL_GND
VREF
CLAMP_TC1
0
C3706
0.01u
B
V_GND
IC3701
13 14 15 16 17 18 19 20 21 22 23 24
2.2u B
1u
Y_IN2
4.6
C_GND
C3712
C3707
SYNC_SEP_TC
C3750
100u
6.3V
TA B
C3728
2.2u
B
0
2.7
2.1
XCS
R2.5/P0
C3704
2.6
C3708
XSCK
2.2u
B
0.22u
B
V_INV
VIDEO IN/OUT
SI
C3744
10u
6.3V
A
MAIN_GND2
DRV_V_OUT
0.3
1.5
0.033u
B
V_VCC
IC3701
Y_IN1
2.8
C3709
IR_VIDEO
MAIN_GND1
D_VCC
1.4
2.2
C_IN4
C3711
2.2u
B
D_GND
4.7
0
REG_GND
C3735
0.01u
IR_V_OUT
0
R3750
XX
C3734
10u
10V
TA A
IR
C3719
R3748
XX
C3745
0.01u
C3748
10u
6.3V
A
IN2A
1.6
C_IN3
C3746
10u
10V
TA
A
R3747
33
OUT3
0.5%
MAIN_VCC
CTL2
R3721
22k
1.5
0
V+
OUT2
2.3
C3743
10u
6.3V
A
4.6
10 11 12 13 14 15 16
1
2
4
GND2
0
1.5
R3701 4700
IN2B
0.8
R3751
XX
Q3702
XX
4700
E
IN3B
3
4
3
1
R3702
R3705
220k
GND3
IN3A
GND1
OUT1
0.7
R3749
XX
C3701
0.01u
B
CTL3
9
D
IN1A
CTL1
0
1.6
0
0
2.6
SIN
6
BUFFER
VCC
C3736
XX
VIDEO SW
NJM2285V-TE2
IN1B
5
4.7 R3704
100
SOUT
L3705
10uH
36 35 34 33 32 31 30 29 28 27 26 25
7
L3707
10uH
IC3702
2.3
GND
C3727
XX
R2.4/P0
8
Q3701
2SC4738F-Y/GR(TPL3)
2
C
X3701
XX
2.4
IC3702
C3740
0.01u
B
IC3703 MM1031XML
4.7
R3746
39
C3747
100u
6.3V
TA B
C3752
100u
6.3V
TA B
2.8
EX_C_IN
EX_VIDEO_OUT
R3718
XX
4.7
C3742
0.01u
EX_V/Y_IN
R3733
XX
C3713
1u
B
R3719
XX
C3722
C3741
10u
10V
TA
A
C3738
10u
6.3V
A
C3739
10u
6.3V A
INPUT_C_OUT
39
R3717
33
C3720
XX
D3701
XX
D3702
XX
INPUT_Y_OUT
R3715
33
R3731
XX
C3717
1u
B
R3732
XX
0.6
39
R3716
R3713
33
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
R3734
0
L3702
XX
R3723
XX
S_Y_IN
VIDEO_IN
49 TO(16/16)
L3701
10uH
1.6
L3706
10uH
R3738
4700
C_IN2
C3737
0.01u
B
AGC_VOUT
R3714
R3737
4700
C_GCA_CONT
S_C_IN
86 TO(14/16)
R3739
4700
R3712
39
R1.8/P0.7
INPUT_SEL
XX
ACC_CONT
C3749
0.01u
B
B
KINUTA_Y_OUT
KINUTA_C_OUT
G
46 TO(7/16)
AGC_CONT
TAKO_Y_OUT
R2.1/
P0
2.2
48 TO(11/16,14/16)
110 TO(15/16)
TAKO_CK
41 TO(5/16,7/16)
17
D_2.8V
LINE IN/OUT(IO BLOCK)
48 47 46 45 44 43 42 41 40 39 38 37
A
16
44 TO(6/16)
SDC_IN
50 TO(13/16)
VSP_SO
XVSP_SCK
SIGNAL PATH
XCS_TAKO
33 TO(3/16)
CAIN_Y_OUT
VIDEO SIGNAL
CAIN_C_OUT
CHROMA
H
Y
Y/CHROMA
REC
PB
16
4-25
4-26
LINE IN/OUT
VC-250 (8/16)
GV-D200/D200E/D800/D800E
• Refer to page 4-7 for VC-250 printed wiring board.
• Refer to page 4-59 for IR-38 printed wiring board.
• Refer to page 4-69 for waveform.
VC-250 BOARD(9/16)
IR(IR-BLOCK)
A
3
2
1
5
4
6
8
7
IR TRANSMITTER
C3914
10u
10V
TA
R3908
R3903 15k
18k
C3913
510p
CH
C3909
0.01u
B
R3904
4700
R3905
4700
IR_A_DEV
R3912
330
C3910
4.7u
6.3V
TA
IR_V_DEV
C3904
0.01u
B
C3918
4p
CH
L3902
5.6uH
R3913
1k
C3921
33p
CH
R902
6.8
C3923
39p
CH
R3916
470
(3.9)
[4.6]
GV-D200E/D800E
MODEL
BAND SEL
C3906
0.47u
B
E
R3909
1M
R3910
0
IR
3
4
5
7
8
9
R3911
22k
± 0.5%
C3915
0.01u
B
R3917
150k
C3920
0.47u
B
C3916
1u
B
1
IR_5V
2
IR_5V
3
IR_CL_OUT
4
IR_EM_OUT
5
IR_GND
6
IR_GND
10P
C3928
22u
4V
TA
CN361
(1.3)[0]
Q3902
2SA1226-T1E4
IR DRIVER
R3921
470
C3926
0.01u
B
R3919
560
R3920
6800
C3929
0.01u
B
7
IR_GND
8
KEY_AD3
9
REG_GND
NC2
4
A
1
3
NC1
2
K
10
REG_GND
1
IR_CL_OUT
2
IR_EM_OUT
3
IR_GND
4
KEY_AD3
5
REG_GND
6
(4.3)[0]
R392
1
22
2
(1.2)[0]
R388
2.7
1/10W
D363
DCR2815
(SUPER LASER LINK)
D362
DAC3825
(SUPER LASER LINK)
Q365
2SD999-T1-CLCK
LED DRIVER
3 (0.5)[0]
R389
6.8
1/10W
C932
0.1u
B
R3924
470
C3935 C3936
0.01u 0.01u
B
B
C3927
0.01u
B
R3922
39k
KEY_AD3
SIRCS_PWM
56 TO(14/16)
IR_ON
R3918
150k
C3922
1u
B
C3924
1u
B
C3925
0.1u
B
SIGNAL PATH
VIDEO SIGNAL
C3919
0.47u
B
CHROMA
Y
Y/CHROMA
Note :
The components identified by
mark 0 or dotted line with mark
0 are critical for safety.
Replace only with part number
specified.
AUDIO
SIGNAL
PB
4-27
C382
4.7u
10V
TA
6P
IR_5V
10 11 12
R3940
XX
R3915
XX
13 14 15 16 17 18 19 20 21 22 23 24
V GND
HPF OUT
(2.3)[2.8]
V REF
(2.3)[2.8]
VRF IN
(2.3)[2.8]
VRF OUT
(2.3)[2.6]
ARF OUT
(2.4)[2.8]
STBY
(3.0)[0]
CHUP C
(2.9)[0]
6
CN924
REC
IR_FSC
16
VC-250 (9/16)
2
C3903
10u
6.3V
F
24 TO(3/16)
1
C3934
1u
B
MIX IN
(1.3)[0]
NC
(0.6)
[0]
LPF L
2.1
LPF R
2.1
OSC VCC
4.6
IR_R
DRV EM OUT
(0.6)[0]
DRV SW
(2.0)[0.5]
MIX OUT
(1.3)[0]
NC
(GV-D200/D800)
(GV-D200E/D800E)
LA9511WL-TBM
AN2920FHQ-EB
REF
(2.3)[3.6]
A DEV ADJ
0.6
Lch IN
(2.3)[3.6]
ALC C
(0.9)[0]
Rch IN
(2.3)[3.2]
R904
1k
8.2
0
R3923
470
IC3901
A GND
IR_L
55 TO(11/16)
IR TRANSMITTER
[OSC OUT]
C3905
0.47u
B
V IN
(2.3)[2.7]
REG
(1.3)[0]
NC
X’tal IN
(2.3)[4.6]
A GND
C3908
1u B
IC3901
X‘tal SEL
(1.2)[0]
[ALC OUT Rch]
D
V GND
CLAMP C2
(2.4)[0.2]
CAR ADJ
0.8
PRE EM IN
(2.3)[2.1]
PRE EM OUT
(2.3)[2.1]
VCC
4.6
VCC
4.6
NC
IR_VIDEO
35
V DEV ADJ
1.0
NC
C393
1u
B
8.2
SWITCH
DRV CL OUT
(3.9)[4.6]
NC
REF R
(1.3)[0]
[ALC OUT Lch]
48 47 46 45 44 43 42 41 40 39 38 37
51 TO(8/16)
C3902
10u
4V
CLAMP C1
(2.2)[0.2]
NC
R903
47k
Q3903
2SA1832F-Y/GR(TPL3)
SWITCH
Q903
(4.6)[0]
UN9211J-(K8).SO
36 35 34 33 32 31 30 29 28 27 26 25
C3901
1u
6.3V
B
8.2
8.2
4.6
F361
0.2A
24V
L363
10uH
Q901
2SB624-T1BV4
R3936
1500
C3917
0.1u
B
GV-D200E/D800E
MODEL
(0.5)[0.8]
8.2
L3904
33uH
L3903
33uH
8.2
57 TO(12/16)
VTR_UNREG
Q902
2SB1462J-QR(K8).SO
C3911
0.01u
B
NO MARK:ON/OFF MODE
( ):IR ON MODE
[ ]:IR OFF MODE
Q901,902
IR B+ SWITCH
C3912
0.01u
B
IR_CARR
GV-D200/D800
MODEL
14
-REF.NO:10000 SERIES-
L3901
10uH
REG_GND
C
13
IR-38 BOARD
A_4.75V
7 TO(2/16)
12
11
NO MARK:ON/OFF MODE
( ):IR ON MODE
[ ]:IR OFF MODE
111 TO(15/16)
B
10
9
4-28
Note :
Les composants identifiés par
une marque 0 sont critiques
pour la sécurité.
Ne les remplacer que par une
pièce portant le numéro spécifié.
GV-D200/D200E/D800/D800E
2
1
3
VC-250 BOARD(10/16)
MECHANISM CONTROL(VC BLOCK)
A
4
5
6
7
8
9
11
10
12
14
13
15
16
17
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
* :Cannot measure
Note:Capacitor is mounted to the location
where R4919 is printed.
*MARKED:MOUNT TABLE
XVC_SCK
9 TO(2/16)
B
VC_SO
GV-D800
GV-D800E
GV-D200
GV-D200E
XVC_SCK
R911
10K
47K
100K
100K
VC_SO
R922
100K
100K
47K
10K
DA_STB
TREEL_AFG
R4935
100k
SREEL_AFG
CK_CONT1
CAP_FG
XTBC_V_RST
CK_CONT2
MECHA_FLD
TBC_VD
MECHA_HD
CAP_FG
DRUM_FG
LINE_OUT_V
LINE_OUT_V
MECHA_VD
35 TO(4/16)
DRUM_PG
DA_STB
C
AFC_F0
2.7
SREEL_AFG
2.7
TREEL_AFG
XDRUM_BRAKE
JOG_VD
ATF_SAMPLE
CL4904
2.5
0
1.1
1.1
0
0
3.3
2.7
2.7
0
0
2.4
1.4
0
R2.8/P0
HALL_AD
SYSTEM_AD
Not Used/DRUM_TEMP_AD
LENS_DETE
S_REEL_FG_AD
T_REEL_FG_AD
PITCH_AD
YAW_AD
AVDD
AFC_F0_IN
AVRH
AVSS
VSS
CK_CONT1
INT_VD
TBC_V_RST
XDRUM_BRAKE/Not Used
SYS_V
CFG_HMS
CK_CONT2
MECHA_FLD
XCS_EEPROM
VDD
VC_F_BUSY
Not Used/XREEL_HALL_ON
Not Used/LM_LIM_CONT
Not Used/XLM_LIM_ON
C4906
0.1u
B
ATF_SAMPLE
2.8
(OSCO) NC
X1/2_SWP
X1/2_SWP
2.8
XWE_EEPROM
VC_RF_SWP
VC_RF_SWP
TBC_VD
VDD
TAPE_LED_ON
JOG_VD
(OSCI) GND
CAP_ON
CAP_FWD
61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90
HI8_MP_SW
VSS
FC_RST_SENS
LCD_HOLD
2.7
VST_C_CHARGE
ME_SW
JOG_VD
TREEL_AFG
0
CAP_PWM
ZM_RST_SENS
XWEN/Not Used
SREEL_AFG
10k
ZM_RST_LED
RP_PS
H
60 TO(13/16)
R4946
0
SSS/Not Used
HI8_MP_SW
MODE_SW_C
10k
DRUM_PWM
AGC_SLOW
ME_SW
R4945
IRIS_PWM
DA_STRB
FC_RST_LED
MODE_SW_C
MODE_SW_B
(V_LIGHT_PWM)YAW_PWM
Not Used/XCS_AU
MF_LED
MODE_SW_B
PITCH_PWM
Not Used/XFE_ON
MODE_SW_A
0
DA_STB
MODE_SW_A
XCS_VC_STAR
XCS_KINUTA
D_START
TAPE_LED_ON
HI_SCK
AUDIO_OUT
DRUM_PWM
DRUM_PWM
TAPE_LED_ON
XRST_KINUTA
X1/2_SWP(HSWP)
2.1
SWP
2.7
XCS_KINUTA
(VC→HI) HI_SI
IC4902
MB91192PFF-G-117-BND-ER
G8/GX GX=H
RP_PB_MODE
XRST_KINUTA
Hi8/Std8
MECHANISM CONTROL
Not Used/XCS_IO
Not Used/XSG_V_RST
TAPE_TOP
CAP_PWM
CAP_PWM
XCS_VC
(HI→VC) HI_SO
Not Used/DOP
ATF_SAMPLE
TAPE_TOP
G
2.7
TAPE_END
IC4902
Not Used/XCS_HONEY
XNS_ON_SW
UNLOAD
TAPE_END
SCK_VC
TAPE_END
61 TO(12/16,13/16)
(VC→TANUKI) VC_SO
DRUM_ON
TAPE_TOP
UNLOAD
(TANUKI→VC) VC_SI
Not Used
HI8_MP_SW
LOAD
LOAD
Not Used
RF_ENV_DET
DRUM_PG
DRUM_PG
SCK_CH/AGC_DIRECT
Not Used
ME_SW
DRUM_FG
2.7
DRUM_ON
CH_SI/CAM/XLINE
MSW_C
DRUM_FG
Not Used
MSW_B
DRUM_ON
CS_CH/GCAM_PB
VSS
CAP_FWD
DRUM_ON
MF_B
Not Used/FE_10MHz
MSW_A
CAP_FWD
MECHA_HD
ATF_OFF
LOAD
F
2.7
YRF_OFF
XRST_VC
UNLOAD
CAP_ON
CAP_ON
LINE_OUT_V
MD0
MF_A
8
C4905
0.01u
B
DRUM_START
1.4
MD1
LENS_TEMP_AD
GENERAL_AD
9
DRUM_START
1.4
ZOOM_SW_AD
2.6
R4901
1k
CAP_FG
MD2
2.7
CAP_FG
CAP_FG
DRUM_FG
3
VSS
30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
13/16,16/16)
0.1
2
X1
*
2.7
84 TO(12/16,
DRUM_PG
1
*
X0
4
R4906
0
X4901
20MHz
E
NC
VDD
R4903
0
5
C4904
10p CH
R910
100k
120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91
33
R4902
560k
R922
*
6
13/16,14/16)
R4905
XX
MECHA_VD
R4919
0.01u
B
C4903 (Note)
10p CH
XSYS_RST
93 TO(6/16,16/16)
94 TO(5/16,6/16,14/16)
R4951
0
7
76 TO(4/16,7/16,
XTAL20M
0
X0
58 TO(13/16)
2.7
C4907
0.1u
B
2.7
R4936
100k
R4907 XX
D
R4953
0
R4952
0
SYS_V
2.5
0
R4947
0
R4948
0
R4949
0
0
0
R911
*
R909
10k
0
R4950
0
R4938
100k
XCS_CH
2.7
0
R4939 100k
R4941 0
2.7
R4940 100k
R4942
CH_SO
0
0.1
VC_SI
R4927 47k
R4933
0
R4934
0
VC_SO
2.5
XVC_SCK
2.8
XCS_VC
2.4
HI_SO
2.3
HI_SI
2.5
XHI_SCK
HI_SO
HI_SI
XHI_SCK
XCS_VC
R4932
47k
2.7
R4930
100k
CL4903
0
HI_SO
HI_SI
80 TO(7/16,13/16,14/16)
XHI_SCK
XCS_VC
77 TO(14/16)
R4931
47k
R4922
47k
R4920
10k
1.2
0.4
DRUM_PWM
CAP_PWM
R4921
10k
XVC_SCK
VC_SO
C4911
0.1u
B
2.7
VC_SI
R4928
100k
2.7
XVC_SCK
VC_SO
VC_SI
(NOT USE)
XCS_VC_STAR
0
2.7
43 TO(5/16)
XCH_SCK
2.5
VC_F_BUSY
CAP_ON
CAP_FWD
R4929
100k
SWP_DIR
0
2.7
0
0
0
0
0
2.7
2.7
R0/P2.8
0
2.7
R2.8/P0
R0/P2.8
MECHA_HD
R0/P2.8
0
0
MECHA_HD
R2.7/P0
TBC_VD
0
0.1
TBC_VD
0
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60
SWP_DIR
0
I
MECHA_FLD
MECHA_FLD
XWEN
45 TO(6/16)
C4902
1u B
MECHA_VD
MECHA_VD
SSS
2200
R4913
14 TO(2/16)
17 TO(2/16,13/16)
JOG_VD
XWEN
SSS
RP_POWER_SAVE
AGC_SLOW
DRUM_START
X1/2_SWP
VC_RF_SWP
RP_PB_MODE
ATF_SAMPLE
TAPE_END
TAPE_TOP
HI8_MP_SW
ME_SW
MODE_SW_C
GND
MODE_SW_B
2.5
MODE_SW_A
OO
R4904
100k
UNLOAD
VC_SI
2.7
LOAD
RST
AGC_SLOW
RP_PB_MODE
TAPE_LED_ON
OI
RP_POWER_SAVE
RF_ENV_DET
SWP_DIR
0.1
XCS_KINUTA
112 TO(15/16)
D_2.8V
R4917
1k
R4914
0
EEPROM
7
VC_SO
XSCK xBUSY
6
VC_SI
2.5
R4912 4700
8
1
VC_SO
XVC_SCK
5
XCS_KINUTA
K
IC4901
2.7
2
VC_SI
Vcc
3
VC_SO
XCS
XVC_SCK
4
XVC_SCK
2.7
R4911 100k
R4908 100k
IC4901
AK6480AM-E2
XRST_KINUTA
R4910 100k
FB4901
0uH
J
XRST_KINUTA
87 TO(3/16)
REG_GND
CK_CONT1
CK_CONT1
SIGNAL PATH
REC
L
REC/PB
PB
Drum speed servo
Drum phase servo
Drum servo (speed and phase)
Capstan speed servo
Capstan servo (speed and phase)
M
Ref.signal
16
4-29
4-30
MECHANISM CONTROL
VC-250 (10/16)
GV-D200/D200E/D800/D800E
2
1
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
VC-250 BOARD(11/16)
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
AUDIO I/O(AU BLOCK)
A
70 TO(12/16,15/16)
IC5702
MT_5V
AU_2.8V
IC5703
4
5
R5754
68k
6
7
14
R_IN
R_IN
LINE/EX_AUD
3.9
EX_AUDIO_R_IN
13
EX_AUD_L_IN
0
54 TO(10/16)
12
EX_AUD_R_IN
11
3
LINE/EX_AUD
L_IN
10
2
LINE/EX_AUD
L_IN
2.3
EX_AUDIO_L_IN
LINE/EX_AUD
4.7
LINE_R_IN
Vss(GND)
2
4
5
6
7
8
9
C5719
0.22u
C5715
3.3u
4V
TA A
2.3
C5713
0.47u
B
C5734
1u
B
R5714
0
1608
R5721
47k
R5760
100k
C5722
0.22u
B
C5729
XX
B
0
C5743
0.001u
0.1
C5744
0.01u
B
1.5
C5745
0.01u
B
B
2.7
2.7
XCS_AU
2.6
XVSP_SCK
0.3
VSP_SO
2.4
1.7
0.7
R5728
XX
C5749
68p
CH
R5729
0
± 5%
R5730
820
C5751
10u
6.3V
L5701 TA
10uH
A
IC5704
3
4.2
4
2.4
6
5
Q5719
XX
7
2.4
8
4.2
C5765
33u
10V
TA
0
2.4
9
R5765
100k
10
R5785
XX
0.7
1.4
0.9
1.4
2.7
2.7
1.2
SDTI
LRCK
MCLK
XPWAD
SCLK
AOUTL
0.7
0
SDTO
DEM1
DEM0
VDD
2.7
AINL
VSS
2.8
1.2
1.2
C5754
0.22u
B
C5756
0.22u
B
R5732
470
VSP_SI
R5733
470k
R5726
0
69 TO(13/16)
VSP_SI
1608
VSP_SO
C5755
6800p
B
C5757
6800p
B
XVSP_SCK
XCS_AU
VSP_SI
VSP_SO
XVSP_SCK
XCS_AU
1.0
R5727
0
VC_RF_SWP
68 TO(1/16,2/16,
AFM_FSC
37 TO(6/16)
16/16)
C5732
1u
B
C5739
1u
B
AU_BPF
C5737
1u
B
1.5M_DEV
C5724
0.22u
B
R5722
0
R5723
0
IC5704
NJW1105VF1(TE2)
VBIN
V+
VBOUT
V+
NC
MUTE
NC
OUT1
OUT4
GND
GND
GND
GND
OUT2
OUT3
VIN1(-)
VIN2(-)
VIN1(+)
VIN2(+)
NC
C5766
1u
B
SPEAKER AMP
2.4
2.4
R5766
100k
2.4
R5767
47k
R5768
47k
R5769
47k
R5770
47k
C5768
10u
6.3V
TA
2.4
2.4
2.4
R5771
47k
C5767
1u
B
C5770
0.001u
B
C5771
0.001u
B
C5769
10u
6.3V
TA
R5781
4700
1608
R5783
2200
1608
R5780
4700
1608
R5784
2200
1608
4-31
XPWAD
DEM1
DEM0
R5731
470
Q5717
UN9214J-(K8).SO
MUTE SW
AUDIO I/O
XPWDA
B
PB
11 12 13 14 15 16 17 18 19 20
1
2
4.9
2.4
VC-250 (11/16)
31 TO(3/16)
DATA_TO_SFD
0.01u
AUDIO
SIGNAL
4.9
R5763
10k
16
DATA_FROM_SFD
C5752
SIGNAL PATH
SP_R_-
L
SFD_FCK
SFD_LRCK
2.1
R5775
10k
SP_R_+
SP_MUTE
SFD_BCK
8
R5741 0
0.01u
B
R5774
10k
SP_L_-
Q5720
XX
7
1.7M_DEV
SP_L_+
C5774
XX
10V
B
6
C5753
REC
D5701
XX
5
R5720
150k
2.3
Q5718
UN9211J-(K8).SO
MUTE
C5760
0
47u
6.3V
TA
B
REG_GND
AINR
VCOM
IC5702
R0.1/P0.3
C5750
10u
4V
TA
C5748
0.01u
B
4
10 11 12 13 14 15 16
R5764
47k
R5786
XX
XPWDA
B
0.22u
C5740
TCH_L
NRDC_L
TC_L
NRDC_R
WEIGHT_R
TCH_R
WEIGHT_L
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
B
B
3
RFDC_R
FSC
RFDC_L
DEV_R
INPUT_SEL
K
AOUTR
B 1608
AK4550VT-E2
0.22u B 1608
1u
C5736
0
0
C5738
B 1608
0.1u
B 1608
1u
0.2
B
1u
C5731
C5733
C5735
0.8
B
0
0
B 1608
0.1u
0.22u B 1608
0.2
C5730
2200p B
1u
C5721
C5725
0.8
TC_R
VCC
CTLPF
SP_SIG
SP_IN
3
C5727
XX
B
R5761 R5762
10k
10k
3.9
Q5716
UN9213J-(K8).SO
MUTE
I
81 TO(14/16)
DEV_L
34
LINE_IN_L
C5709
0.22u
B
1608
0
R5759
100k
R5758
100k
3.9
66 TO(16/16)
MIC_IN_L
R5709
0
1608
0
J
MIC_MONO
0 R5725 470k
R0/
C5742
0.001u
P0.1
1.2
2.3
R5777
22k
48 TO(8/16,14/16)
MONO_OUT(SO)
VREF
C5747
0.47u
2
3.9
C5764
2.2u
B
R5776
22k
SI_IN
VREFH
R5715
XX
2.3
R5757
100k
H
VCCH
1
9
1
V+
2.3
C5763
2.2u
B
CK_IN
R5750
0
LINE_L_IN
2.3
R5753
68k
MUTE_OUT
NJU4066BV(TE2)
2.3
AUDIO SW
R5710
XX
CS_IN
0
1
C5746
0.47u
B
R5724
470k
0
Q5722
XX
IC5703
9
AK4550
C5741
0.22u
B
8
C5761
2.2u
B
C5762
2.2u
B
Q5721
RN1110F(TPL3)
MUTE
AV_JACK_MUTE
F
G
R0/
P2.5
RF_SWP
CXA3284R-T6
LINE_OUT_R
0
0
R5756
22k
R5755
22k
1.4
LINE_OUT_L
IFDC_R
-0.4
Q5708
RN2111F(TPL3)
POWER MUTE
RF_AGC_TC
IC5701
IFDC_L
C5704 10u 10V 2.3
TA A
22u 4V
1.1
TA A
6.3V TA
10u
C5705
C5706
IR_OUT_R
RF_GND
4.7
AUDIO IN/OUT
0
Q5706
RN1110F(TPL3)
MUTE
Q5703
RN1110F(TPL3)
MUTE
0
PB_RF_IN
0
-0.4
2.3
IR_OUT_L
ST/MONO_TC
0.1
-0.4
R5708 1k
0
C5702
10u
4V
TA
A
IC5701
HP_R
IREF
0.2
BPF_ADJ
AGCTC
0.2
0
2.3
RECFM_OUT/BPF_MONI
HP_GND
1.2
AUDIO_L_OUT
AUDIO_R_OUT
1k
MUTE_TC
HP_L
FADER
R5707
0
E
2.8
0.2
2.3
SP-
PB_IN_R
2.3
IR_R
R5702
65 TO(14/16)
2.3
PB_IN_L
IR_L
2.3
0.1
63 TO(14/16)
C5701
10u
4V
TA A
1.4
R5773
470
PLL_LOOP_R
1.4
EX_AUDIO_R_OUT
SP_GND
AU_GND
C5711
47u
6.3V
B TA
C5712
47u
6.3V
B TA
PLL_LOOP_L
REC_OUT_R
R5772
470
EX_AUDIO_L_OUT
R5701
16 15 14 13 12 11 10
ADC&DAC
SP+
REC_OUT_L
R5743 R5742
10k
10k
1.4
R5751 68k
AUDIO_L_IN
SP_OUT
SP_VCC
100
BEEP_IN
R5711
R5712
1.4
68k
100
SP_VREF
0
LINE_IN_R
R5752
0
MIC_IN_R
HP_R_OUT
AUDIO_R_IN
R5740 0
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
1.4
HP_L_OUT
C5728
R5739 0
1.2
-0.4
Q5701
RN1110F(TPL3)
MUTE
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
C
55 TO(9/16)
97 TO(2/16,16/16)
R5738 0
Q5704
RN1110F(TPL3)
MUTE
-0.4
53 TO(16/16)
67 TO(16/16)
R5737 0
C5723
22u
6.3V
TA A
REG_GND
D
BPF_MONI
PB_RF
R5736 0
A/D,D/A
CONVERTER
B
64 TO(14/16)
19
R5735 0
AU_4.75V
113 TO(15/16)
18
4-32
8 TO(2/16)
GV-D200/D200E/D800/D800E
• Refer to page 4-67 for FP-249, FP-355, FP-356 printed wiring boards.
• Refer to page 4-68,69 for waveforms.
2
1
3
4
5
6
7
8
9
11
10
12
14
13
15
VC-250 BOARD(12/16)
DRUM/CAPSTAN MOTOR DRIVE(MD BLOCK)
A
16
R4446
0
R4444
0
R4443
17
18
MT_5V
70
TO(11/16,15/16)
VTR_UNREG
57
TO(9/16)
62
TO(15/16)
0
CAP_VS
CAP_ERROR
DRUM_ERROR
R4445
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
0
DRUM_VS
C4411
0.1u
B
B
MT_GND
LM_-
LM_+
3300
R4428
1
R4429
1
114
TO(15/16)
R4426
C4419
0.001u
B
C4417
0.001u
R4401
47k
REG_GND
100k
R4421
XX
XX
B
R4420
DRUM_COM
C4421
0.001u B
DRUM_U
C
R4425
DRUM_V
R4422
XX
LOAD
UNLOAD
DRUM_W
MA3XD21001S0
D4401
LM_LIM_DET
LM_LM_+
LM_LIM_ON
C4409
0.1u
B
C4412
0.1u
B
R4402
330k
R4442
0
R4434
10k
0.1u
1
FG-PG_COM
2
FG
3
COM
4
W
5
W
6
V
7
V
8
U
9
R4415 R4413
0
XX
LM_+
C4407
LND002
10P
DRUM_PG_SENS
PG
2.7
FG
FG_PG_COM
DRUM_FG_SENS
0.047u
C4408
B
6.3V
TA
3.3u
VCC1
XBRAKE
3.2
2.1
2.8
R4412
XX
DRUM_CONT
DRUM_COM
1.4
R4449
XX
FG_OUT
1
OFFSET_ADJ
2
STAND_BY
3
R4405
FLEXIBLE
100k
CEG_DUTY
M
H
M902
CAPSTAN MOTOR
4
MT_GND
5
MT_GND
6
VS
7
VS
8
VCC_2
9
VCC_1
10
REG_GND
11
DEW
DEW SENSOR
R4417
10k
± 0.5%
OUT
3
2
1
2
HI8_MP
3
S_REEL(-)
4
IN
ME/MP
REC
PROOF
S_REEL(+)
5
ME/MP
6
REC_PROOF
4
OUT
IN
TAPE_TOP_C
HI8_MP_SW
S_REEL_S_REEL_+
9
10
T_REEL(+)
12
13
TAPE_LED(K)
14
C_LOCK_SW
15
R4411
82
2012
TAPE_END_C
270
Q4401
2SC4738F-Y/GR(TPL3)
LED DRIVE
0
T_REEL_-
C4402
0.1u
B
T_REEL_+
R4407
470
XCC_DOWN
73
C4410
0.1u
B
R4416
4700
C4414
220p
B
PG OUT1
PGC
PG IN
VREF
0.1
1.0
1.3
0
0.1
0
0.1
0.1
0
0
2.8
61
TO(10/16,13/16)
XDRUM_BRAKE
ME_SW
LIMEN
OUT2
RFL
OUT1
RS
DEC1
DEC2
LIM OUT
TREEL_FG
B
ME_SW
HI8_MP_SW
HI8_MP_SW
1.5
TREEL_AFG
T_REEL_-
1.2
1.2
T_REEL_+
1.2
S_REEL_+
S_REEL_-
1.2
C4435
470p
C4436
470p
1.4
SREEL_AFG
SREEL_FG
1.4
UNLOAD
UNLOAD
LOAD
LOAD
TAPE_TOP
TAPE_LED_ON
TAPE_LED_ON
CAP_ON
CAP_ON
CAP_FWD
R4437
0
R4438
0
CAP_FWD
C4432
0.01u
B
1.1
0
C4426
0.01u
B
C4427
0.01u
B
DRUM_PWM
DRUM_FG
R4431
470k
R4427
*
R4439
XX
R4441
XX
R4440
XX
DRUM_PG
DRUM_FG
DRUM_ON
DRUM_PG
DRUM_ON
DRUM_START
DRUM_START
MODE_SW_A
Q4403
XX
MODE_SW_A
MODE_SW_B
MODE_SW_B
MODE_SW_C
MODE_SW_C
DRUM_CONT
DRUM_CONT
DEW_AD
T_REEL_-
R4447 33k
S_REEL_-
R4448
DRUM_8PB
T_REEL_EVR
33k
4
TO(1/16)
REC/PB
PB
S_REEL_EVR
REC
*MARKED:MOUNT TABLE
4.0
11
SENSOR_VCC
0.1u
SIGNAL PATH
GV-D200/D800
GV-D200E/D800E
R4424
15k
47k
R4427
0
10k
R4431
15k
47k
R4414
ME_SW
REC_PROOF_SW
8
HALL_COM
1.4 C4431
DRUM_8PB
7
TAPE_LED(A)
T_REEL(-)
OUT
2
K
IN
3
H002
T REEL
SENSOR
1
TEPE_END(C)
8.2
DEW_AD
DRUM_FG
4
1
IN
OUT
H001
S REEL
SENSOR
REG_GND
C4420
1u
B
0
C4422
XX
B
R4424
*
TO(10/16)
XDRUM_BRAKE
CAP_PWM
R4423
60
B
DEW_AD
12
TAPE_TOP(C)
XX
C4418
470p
B
0.047u
C4430
2.2u
F
Q4402
RN1104F(TPL3)
S001
HI8
MP
J
R4419
TO(13/16)
REC_PROOF_SW
XREEL_HALL_ON
C4429
4.9
R4436
4700
C4425
0.022u
B
C4423
XX
B
59
TREEL_FG
TAPE_END
TAPE_LED_ON
FLEXIBLE
C4415
470p
B
C4416
0.1u
B
CN4404 15P
Q001
TAPE END
1.3
R0/
P2.8
XREEL_HALL_ON
R4432
47k
DRUM_PG_SENS
XREEL_HALL_ON
FP-249
REC_PROOF_SW
TAPE_TOP_C
R4430
FG_PG_COM
Q002
TAPE TOP
FLEXIBLE
RLDO1
DRUM_FG_SENS
I
FP-356
FG IN
FG IN2
TO(10/16,13/16,
16/16)
10 TO(2/16)
CAP_FWD
FRC
RLO1
TREEL_FG
TAPE_END_C
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
84
CAP_FG
25
24
23
FGOUT
DRUM_PG
FP-433
1.7
RLM1
GND
1.3
28
W OUT
V IN
RSAT
1.3
10
W IN
V OUT
GND
RLP1
DRUM_U
12P
1.7
1.7
1.7
1.7
U OUT
RLP2
FC
1.3
U
CN4403
RLO2
RLM2
FILTER
DRUM_V
G
RLDO2
FRC
DRUM_W
M901
DRUM MOTOR
26
IC4401
SREEL_FG
1.3
*
8
PG
B
CSLP2
2.8
XDRUM_BRAKE
0.3
LM(+)
B
2.8
LM_LIM_DET
SREEL_FG
RSB
C4401
C4424
0.1u
0
ULD_-
VCC2
1.1
ULD_+
7
IC4401
LOADING/DRUM MOTOR DRIVE,
SENSOR AMP
NC
0.3
ISNF
0.3
B
DBOUT
B
0.022u
DBIN
0.022u
C4406
1.1
6
CSLP1
TOP IN
TOP OUT
VM
CBLOUT
C4405
LM_-
0.5
5
LM(-)
VS
CBOUT
CN4402
F
LM(-)
LM(+)
SELSLP2
CBIN
M
M903
LOADING
MOTOR
3.3
MODE_SW_C
LND001
SELSLP1
0
B
0.4
4
0
DRUM_8PB
DRUM_START
0.1u
0.4
M-SW(C)
B
0.1u
C4404
CBEN
3
MODE_SW_B
0.047u
B
CAP_ON
M-SW(B)
C4403
MODE_SW_A
END IN
2.7
2
END OUT
PG OUT2
1
M-SW(A)
27
4
COM_GND
S901
MODE SWITCH
OSC
5
FLEXIBLE
RF
0
2012
C4434
0.001u
B
C4428
NC
0.5
R4406
100k
6
FP-220
E
R4404
100k
STBY D
7
R4403
100k
8P
LM_LIM_ON
LM_LIM_DET
2.7
DRUM_ON
8
CN4401
LM_LIM_ON
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
1
R4410
MECHA DECK(2/2)
(B710 MECHANISM)
U IN
AGC
2012
1
1
2
R4409
D_2.8V
3
2012
9
TO(15/16
1
16 15 14 13 12 11 10
114
R4408
R4435
10k
C4433
0.001u
B
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
COM
D
1.7
1.7
D_2.8V
1.3
C4413
0.1u
B
Drum speed servo
Drum phase servo
Capstan speed servo
TO(14/16)
S002 C LOCK
FP-355 FLEXIBLE
L
D001
TAPE LED
FP-221
FLEXIBLE
16
4-33
4-34
DRUM/CAPSTAN MOTOR DRIVE
VC-250 (12/16)
GV-D200/D200E/D800/D800E
3
2
1
5
4
6
8
7
10
9
12
11
13
14
15
16
VC-250 BOARD(13/16)
115 TO(15/16)
FB4501
D_2.8V
MCDA2
R1.7/P1.0
ALE
MCDA3
RR1.3/P0.8
MCHA0
MCHA0
MCDA4
RR1.1/P1.4
MCHA1
MCHA1
3 TO(1/16)
K
21 TO(4/16)
REC_CRRT0
REC_CRRT1
REC_CRRT1
DV_RF_SWP
DV_RF_SWP
XDRP_SCK
XDRP_SCK
DRUM_8PB
DRUM_8PB
XFE_ON
XFE_ON
DRP_SO
DRP_SO
XCS_TRF
XCS_TRF
XDVCN
XDVCN
XRST_LINK
XRST_LINK
XRST_PHY
XRST_PHY
LIP_SLEEP
LIP_SLEEP
LPS
LPS
OFR
OFR
XCS_SFD
MCCE
MCHA1
VSS
MCHA0
16/16)
MODE_SW_B
MODE_SW_B
MODE_SW_C
MODE_SW_C
DEW_AD
DEW_AD
3
DI
GV-D200/D200E
MODEL ONLY
CAP_PWM
DRUM_ON
DRUM_ON
DRUM_START
2.7
0
2.7
2.6
DEM1
GV-D800/D800E
MODEL ONLY
DEM0
R4523
470k
R4520 1k
HP_SENS
LIP_SLEEP
61 TO(10/16,12/16)
CAP_FWD
CAP_PWM
2.7
2.4
CAP_ON
CAP_FWD
2.7
GND
DO
CAP_ON
2.7
2.5
4
SWP_75Hz
/REEL_ON
DRP
8
7
RST
6
1
2
XBUSY
XSCK
5
R1.3/P0
2.7
OOE
VDD
DRUM_START
/DRUM_MASTER_CLOCK
2.7
2.7
R4527
100k
DRUM_START
DRUM_PWM
DRUM_PWM
DRUM_FG
DRUM_FG
DRUM_PG
DRUM_PG
DRUM_CONT
DRUM_CONT
R4532
470k
LOAD
2.3
LOAD
UNLOAD
UNLOAD
2.5
0 R4517
0
R4524 100k
DRP_SO
XDRP_SCK
R4518
0
LPS
2.4
0.3
TAPE_LED_ON
TAPE_TOP
TAPE_TOP
TAPE_END
2.7
0
TAPE_LED_ON
DRP_SI
2.7
R4525
100k
VSP_SI
VSP_SO
R4515
0
XVSP_SCK
2.6
XCS_MC_FLASH
0 R4516 0
2.7
R4528
100k
R4529
100k
R4526
470k
TAPE_END
DRUM_8PB
DRUM_8PB
REC_PROOF_SW
REC_PROOF_SW
LM_LIM_ON
LM_LIM_ON
LM_LIM_DET
SREEL_FG
XCS_MECHA
59 TO(12/16)
LM_LIM_DET
SREEL_FG
TREEL_FG
0.6
R4521
10k
1.1
TREEL_FG
XREEL_HALL_ON
CAP_PWM
XREEL_HALL_ON
DRUM_PWM
R4522 10k
C4510
0.01u
2.7
0
DRUM_START
1.4
DV_RF_SWP
1.4
DRP
HI_SO
80 TO(7/,10/16,
HI_SI
14/16)
XHI_SCK
XCS_MECHA
100 TO(14/16)
XSYS_RST
76 TO(4/16,7/16,
SWP
96 TO(3/16,16/16)
10/16,14/16)
1.4
0
2.7
CL4505
XFE_ON
REC_CRRT1
SCOD_WINDOW
1k
0.1
CL4504
2.7
0
0
0
2.8
0
2.7
2.3
2.1
2.1
XX 0
R4511
MC_F_BUSY
SIGNAL PATH
REC
Drum speed servo
Drum phase servo
Capstan speed servo
Capstan phase servo
16
VC-250 (13/16)
84 TO(10/16,12/16,
IFI_OE
SDC_IN
XRST_VSP
XRST_VTR
XCASETTE_IN
SDC_IN /ATF_DEBUG_IN
ATF_ERR
DEW_DET
/L_CASETTE
NC /S_ELTN_ERR
PLUG_DC_LEVEL
AVDD
AVRH
RF_ENV_DET /T_ENLTN_ERR
VSS
AVSS
/CM+
BBI_LINE_X8
XREEL_HALL_ON
/CM-
FRRV
TRRT
TRRV
CFG_COUNT
CFG_COUNT
XCS
C4507
0.01u
B
L
MECHA CONTROL
CAP_FG
MODE_SW_A
0
R4531
0
0
TRRT
TRRV
ATF_ERR
DEW_AD
R4512 4700
1.4
0
0
R0/P2.8
2.7
2.7
0.2
0.5
1.4
1.4
1.4
1.4
0
XREEL_HALL_ON
CL4502
VREF
DRUM_8PB
FRRV
TAPE_LED_ON
ATF_ERR
REC_CRRT0
TAPE_END
ALE
ATF_ERR
TAPE_TOP
RDX
ALE
LM_LIM_DET
R4508
470k
LM_LIM_ON
WRX
WRX
UNLOAD
MCCE
1608
MCCE
R4533
MCDA7
XCS_SFD
MCDA6
MCDA7
MCCE
MCDA5
R0.3/P0.1
MCDA5
MCDA6
17 TO(2/16,10/16)
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60
MCHA1
MCDA4
MCDA4
MCDA7
MCDA3
R4507
1k
MCDA6
MCDA2
MCDA3
0
MCDA4
MCDA5
MCDA2
0 R4530
MCDA3
R1.8/P1.3
MCDA1
1.4
1.4
1.4
1.4
0.1
R2.6/P0
MCDA2
LOAD
J
N.C.(XTAL)
MCDA1
MODE_SW_A
99 TO(3/16)
MCDA0
R1.2/P1.8
MCDA0
MCDA1
VSS
GND(EXTAL)
SCOD_WINDOW
MCDA0
RDX
29
XCS_XYZ2
61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90
SWP
ALE
DRUM_PWM
XFE_ON/REEL_FWD
R1.2/P2.8
SWP
R2.1/P1.9
CAP_PWM
VDD
SCOD_WINDOW
MCDA1
XCS_TRF
REC_CRRT1/DEBUG_OUT2
DRP
REEL_PWM
30
XHP_ON /XCC_DOWN
REC_CRRT0/DEBUG_OUT1
DRP
2.7
XCS_XYZ1
TAPE_LED_ON /ME_F_BUSY
R2.3/P1.5
XCS_HONEY /ATF_DEBUG
TAPE_END
MCDA0
C4509
0.01u
AUDIO_IN
TAPE_TOP
TRRT
XHI_CS_MC
LM_LIM_DET /CM_LIM_DET
RDX
FRRV
XCS_DAC
LM_LIM_ON /CM_LIM_ON
RDX
TRRT
XCS_MC_FLASH /CAP_HICUE
MCHA0
I
2.7
FRRV
SCOD_WINDOW
22 TO(3/16,4/16)
XCS_TRF
XCS_TAKO
DRUM_CONT
WRX
XVSP_SCK
2.7
TRRV
WRX
2.7
VSP_SO
XCS_VFD
DRUM_ON
TRRV
XCS_AU
VSP_SI
MB91192PFF-G-116-BND-ER
RDX
2.7
VREF
VREF
2.7
2.7
XCS_SFD
2.6
XCS_TAKO
LPS
IC4501
WR01
CAP_ON
CAP_FWD
XCS_SFD
XCS_VFD
XDVCN
REC_PROOF_SW
XCS_VFD
RDX
2.7
XDRP_SCK
0
XCS_VFD
2.7
DRP_SO
ALE
0
VSP_SI
SWP
H
2.7
WRX
DRP_SI
DIGITAL8
MECHANISM CONTROL
ANALOG_MUTE /PLUG_CONT/DEBUG_OUT0
MCDA7
G
VSP_SO
0
XHI_SCK
XRST_PHY
LM-
CL4503
IC4501
XRST_LINK
MCDA6
19 TO(3/16)
XVSP_SCK
HI_SI(MC→HI)
DORUM_FWD(DRUM_CONT)
XRST_PHY
XDVCN
XRST_VSP
VSP_SI
XPWDA
LM+
0
DEM0
LIP_SLEEP
DRUM_ON
100k
2.7
XRST_LINK
R2.7/P0
VSP_SO
HI_SO(HI→MC)
DEM1 /XCS_DSP
R0/P2.8
CAP_FWD
R4505
XPWDA
ALE
XVSP_SCK
XPWAD
CAP_ON
100k
100k
2.7
REC_PROOF
R4503
R4504
XPWAD
VIDEO_IN /PB_XREC
100k
R4502
XRST_VSP
XSYS_RST
2.6
0.001u
B
XCS_EEP
(HP_JACK_IN)
MODE_SW_C
C4501
EEP_RST
MD0
2.7
MODE_SW_D
MD0
CL4506
IFI_OE
EEP_RDY/BSY
MD1
2.7
0
IFI_OE
MD1
0
IFI_VD
Vcc
0.3
MD2
2.6
IFI_VD
VSS
MODE_SW_C
HP_SENS
X1
MODE_SW_B
XPWDA
HP_SENS
E
F
DRUM_8PB
470
*
VREF /FP
XPWAD
DRUM_8PB/PLUG_DC_SW /FP_SEL
XPWAD
X0
MODE_SW_B
*
MODE_SW_A
DEM1
SREEL_FG
DEM0
DEM1
CAP_FG
DEM0
TREEL_FG
VSP_SI
1
VSP_SI
XPWDA
0
2.7
120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91
DRUM_FG
VSP_SO
DRUM_PG
XVSP_SO
VSP_SO
VDD
XVSP_SO
IC4502
AK6417AM-E2
2.7
2.6
EXVSYNC
XCS_AU
XCS_AU
FP /REELM_FG
VSP_SO
2
VSP_SO
3
XVSP_SCK
MCDA5
7/16)
XCS_TAKO
XVSP_SCK
4
20 TO(3/16,6/16,
XCS_TAKO
RF_ENV_DET
EEP ROM
5
72 TO(14/16)
SDC_IN
IC4502
6
69 TO(11/16)
C4505
0.01u
B
7
D
MODE_SW_A
X0
SDC_IN
50 TO(8/16)
XCS_MC_FLASH
CAP_FG
8
C
C4508
0.01u
B
C4504
1u
B
1608
REC_CRRT0
XCS_MC_FLASH
XTAL20M
58 TO(10/16)
MC_F_BUSY
CL4501
MC_F_BUSY
TREEL_FG
DRP_SI
SREEL_FG
DRP_SI
DRUM_PG
DRP_SO
DRUM_FG
CAP_FG
DRP_SO
IFI_VD
OFR
XCS_TRF
XDRP_SCK
9
(NOT USE)
XCS_TRF
XDRP_SCK
30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
42 TO(1/16,16/16)
R4514
100k
C4506
0.01u
B
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
* :Cannot measure
B
18
REG_GND
MECHA CONTROL(MC BLOCK)
A
17
4-35
4-36
REC/PB
PB
GV-D200/D200E/D800/D800E
• Refer to page 4-67 for FP-571 printed wiring board.
2
3
4
1
5
6
7
8
9
10
12
11
13
14
16
15
17
18
19
20
VC-250 BOARD(14/16)
HI CONTROL(HI BLOCK)
R4850 10k
HI_TXD
R4806
XX
9
10 11 12 13 14
R4896
XX
0
0.01u
C4813
0.01u
C4814
0.01u
XLANC_PWR_ON
XOSD_SCK
XOSD_SCK
0.1u
Q4805
RN1104F(TPL3)
SWITCH
C4805
10u
10V
TA
R4823
10k
LANC_DC
B
E
C4816
SHOE_ON
SP_MUTE
1k
4.7
RCH_OUT_DET
8
LCH_OUT_DET
9
AUDIO_R_OUT
10
REG_GND
11
AUDIO_L_OUT
12
RF_DC_OUT
13
V_JACK_OUT_DET
14
VIDEO_OUT_GND
VIDEO_OUT
15
VIDEO_OUT
S_C_OUT
16
R925
820
116
R4865
XX
S_C_GND
S_Y_OUT
17
S_C_OUT
18
S_Y_GND
19
S_Y_OUT
20
REG_GND
21
XS_JACK_OUT_DET
22
EVER_3.0V
23
XIR_LED_ON
24
KEY_AD5
25
DIAL_A
26
DIAL_B
27
XS_JACK_IN_DET
TO(11/16)
AUDIO_L_OUT
4.7
TO(8/16)
4.0
4.0
R926
18k
XX
1M
± 0.5%
85
4.4
Q905
2SC4738F-Y/GR(TPL3)
TO(15/16)
AUDIO_R_OUT
4.7
R923
3.3
1/8W
B
R924
5600
REG_GND
C902
10u
10V
TA
XS_JACK_OUT_DET
C4806
33u
4V
TA
XCC_DOWN
R4829
1k
XS_JACK_OUT_DET
R4830
1k
XLANC_PWR_ON
HI_TXD
0.3
HI_RXD
R4811
100k
INIT_CHARGE_ON
Q4809
RN2107F(TPL3)
2.7
VTR_UNREG
D4801
MA111-(K8).S0
BATT_UNREG
FAST_CHARGE
IC901
S-81236SGUP-DQ7-T1
BATT/XEXT_SW
0
BATT_SIG
S4801
R4837
0
R4859
RESET
1
OUT
3
3.6V
REG
XX
R4838
100k
R4839
100k
R4840
1k
3
GND
4
C901
0.01u
B
C4827
0.01u
B
470k
470k
470k
470k
R4881
R4893
100k
R4879
R4880
R4878
(LCD_LED_ON)NC
3.0
AVDD
3.0
AVREF_1
N.C
0.022u
C4819
HI_TEST_A
GND
D901
MA728-(K8).SO
MELODY
2
VTR_DD_ON
1
LI_3V
XCS_LCD
LI_3V
XHI_SCK
EJECT
4P
20MHz
C4825
0.1u
B
86
XS_JACK_IN_DET
28
S_Y_GND
S_Y_IN
29
S_Y_IN
VIDEO_IN
30
S_C_GND
S_C_IN
31
S_C_IN
32
REG_GND
33
AV_JACK_IN_DET
34
VIDEO_GND
35
VIDEO_IN
36
REG_GND
37
AUDIO_L_IN
38
AUDIO_GND
39
AUDIO_R_IN
SYS_V
40
HP_SENS
LCH_OUT_DET
41
HP_R
42
HP_GND
43
HP_L
44
XCHARGE_LED
45
XPOWER_LED
46
SIRCS_SIG
47
A_4.75V
MELODY_ENV
48
REG_GND
XCAUTION_LED
49
REG_GND
50
REG_GND
TO(8/16)
HOTSHOE_ID2
HOTSHOE_ID1
AV_JACK_IN_DET
R4886
1k
R4883
0
R4884
0
AUDIO_L_IN
1k
R4874
R4875
DIAL_B
1k
DIAL_A
R4877 1k
64
TO(11/16)
AUDIO_R_IN
HP_R_OUT
BATT/XEXT_SW
HP_L_OUT
C4820
6800p
R4894
HP_SENS
B
1k
R4882
470
C4823
0.1u
B
XPOWER_LED
SIRCS_ENV
SIRCS_SIG
XCS_ALIGN
R4889
0
Q4807
XX
C4821
22p
CH
1.6
Q4808
RN1107F(TPL3)
LED DRIVE
0
R4890
XX
X4802
(SEE PAGE
4-46)
32.768kHz
R4876
10M
1608
C4822
18p
CH
R4857
0
C4828
XX
R4871
1M
R4864
560k
1M
DIAL_B
R4885
1k
*MARKED:MOUNT TABLE
GV-D800/800E
R4832
S4802
GND
1.5
32KHZ_OUT
1.2
32KHZ_IN
3.0
VDD
R4872
100k
HI_SO
R901
27 CL902
3.7
CL901
32
X4801
8.2
-REF.NO.:20000 SERIESCN926
2
Q4812
RN1107F(TPL3)
31
100k
HI_SI
FP-571 BOARD
IN
IC901
GND
SHOE_ON
SHOE_ON
(XCS_LCD_DRIVER)NC
0
SIRCS_ENV
2.9
XCS_ALIGN
0
(MS_LED)XCHARGE_LED
0
MELODY_ENV
0
(TALLY_LED)XCAUTION_LED
R4845
100k
XLI_PRE_END
BATT_SIG
R4831
0
2.7
XLANC_JACK_IN
BATT/XEXT_SW
Q4809-4812
LED DRIVE
S579640PZ-TEB
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
Q4811
RN2107F(TPL3)
2.7
DC_PACK_SW
DC_PACK_SW
FAST_CHARGE
R4858
XX
2.7
Q4810
RN1107F(TPL3)
INIT_CHARGE_ON
INIT_CHARGE_ON
K
2.7
VTR_DD_ON
VTR_DD_ON
0
0.2
D4802
MA111-(K8).S0
1.7
J
NC(LCD_COM/XDATA)
0
INIT_CHARGE_ON
IC4803
R4873
100k
FAST_CHARGE
V_JACK_OUT_DET
GND
0
XVTR_MODE_SW
2.8
NC(LCH_DET(XCAM_MODE_SW))
0
HP_SENS(XS/S_SW)
0
XEJECT_SW
0
XCC_DOWN
0.1
V_JACK_OUT_DET(XPHOTO_FREEZE)
2.8
XS_JACK_OUT_DET(XPHOTO_STBY_SW)
2.7
XLANC_POWER_ON
0
TXD
0.5
RXD
51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75
*
HI CONTROL
C4824
0.1u
B
TO
FP-247
FLEXIBLE
CN001
1k
R4827
HP_SENS
GND
3.0
VDD
3.0
VDD(PWE)
2.6
XS_JACK_IN_DET
R2.6/P0
AV_JACK_IN_DET
R0/P2.9
AV_JACK_MUTE
0.2
RCH_OUT_DET((EXT_MIC_DET)XJACK_MONO)
0
SHOE_ON
2.7
XCS_MECHA
0
SP_MUTE(XCS_DS)
1
2
3
4
5
6
7
1k
NC
0
(MS_IN)
2.6
DIAL_B
0
DIAL_A
2.8
BATT/XEXT
0
(DS_BUSY)
2.4
SYS_V
0.2
LCH_OUT_DET
3.0
TEST_PORT
3.0
BATT_IN
R4866
AV_JACK_MUTE
6
2.6
R4822
R4825
*
DC_PACK_SW
HOTSHOE_ID2
3
R4821
R4895
R4819
R4816
R4818
R4828
3.0
AVREF_0
232C_SENCE
IC4803
NC(XDS_FLASH_RST)
0
XLANC_ON
XOSD_SCK
HOTSHOE_ID2
AV_JACK_MUTE
XLANC_ON
NC(EVF_DD_ON)
OSD_SO
HOTSHOE_ID1
HOTSHOE_ID1
XSYS_RST
0.1u
B
Q4804
HN1L02FU(TE85R)
BATTERY CHARGE DETECTOR
R4803
4
1
100k
3.0
5
2
2.8
0.3
D4803
MA111-(K8).S0
LANNC_SIG
83 TO(16/16)
0
XCS_OSD
KEY_AD3
LANNC_SIG
XX
47k
BATT_SIG
SIRCS_PWM
KEY_AD3
R4898
R4892
R4863
C4802
SIRCS_PWM
59 TO(9/16)
XIR_LED_ON
XPAUSE_LED
XVTR_MODE_SW
IR_ON
IR_ON
0
8
8
7
IC4801
S-8423YFS-T2
H
R4891
KEY_AD5
DIAL_A
GND
2.7
HOTSHOE_ID2
2.7
HOTSHOE_ID1
GND
1.5
20MHZ_OUT
1.5
20MHZ_IN
3.0
VDD
0
IR_ON
2.7
XCS_OSD
0.1
OSD_SO
2.8
XOSD_SCK
2.7
CHARGE_INH
0.3
IB_SI
0.3
IB_SO
3.0
FAST_CHARGE
CS
R4897
0.3
LANC_IN
0.3
LANC_OUT
2.8
XCS_VC
3.3
XSIRCS_IN
0
XPOWER_LED(SW_LED_ON)
R1.6/P0
XREC_LED(XF_TALLY_LED)
2.7
XIR_LED_ON
0
XPAUSE_LED(XDS_WAKE_UP)
2.6
XSYS_RST
B
3.0
RESET
XPOWER_LED
XREC_LED
9
3
4
3.5
3.0
VOUT
VBAT
3.0
7.3
6
2
VIN
PREEND
2.8
3.0
XX
5
1
VRO
VSS
SIRCS_SIG
25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10
SYS_V
SYS_V
10/16)
R4817
XCS_VC
BACK UP VDD,
INITIAL RESET
94 TO(5/16,6/16
R4814
R4813
IC4801
R4815
XLI_PRE_END
NC(232C_ON)
2.5
ACV_SENSE
2.6
BATT_SENSE
0
INPUT_SEL
2.7
KEY_AD6
2.7
KEY_AD5
2.7
(KEY_AD4)
2.7
KEY_AD3
2.7
KEY_AD2
2.7
KEY_AD1
2.7
KEY_AD0
47k
470k
XX
470k
470k
470k
470k
470k
*
470k
R4808
470k
R4888
100k
100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76
C4807
0.1u
B
HI_SO
HI_SI
R4887
100k
NC(CAM_DD_ON)
2.9
VTR_DD_ON
0
XLANC_JACK_IN
0
(LID_OPEN(PRINTING))
2.8
XLI_PRE_END
2.3
HI_SI
2.4
HI_SO
2.5
XHI_SCK
0.1
MELODY/SIRCS_CARRIER
0
TEST_PORT
3.0
XRESET
FB4801
0uH
XHI_SCK
HI_SO
XIR_LED_ON
NC(XCS_EVF)
3.0
XCS_LCD_TG
XCS_ALIGN
HI_SI
BT001
LITHIUM
BATTERY
REG_GND
7
V_JACK_OUT_DET
D_2.8V
XCS_ALIGN
13/16)
L
LANC_DC
6
HP_SENS
XHI_SCK
90 TO(16/16)
REG_GND
5
HP_SENS
80 TO(7/16,10/16
65 TO(11/16)
1k
A_7.45V
470k
± 0.5%
R4834
D4805
R4835
R4836
1M
± 0.5%
XCC_DOWN
F
I
63
Q904
2SB798-T1-DLDK
XCC_DOWN
72 TO(13/16)
G
Q904,905
RF-DC SWITCH
B
0.1u
XLANC_JACK_IN
4
LCH_OUT_DET
B
R4820 100k
47 TO(7/16)
XCS_MECHA
1k
R4841
1k
1k
B
470k
± 0.5%
R4833
LANC_SIG
3
RCH_OUT_DET
R4860
C4812
B
R4856
10k
R4861 1k
0.01u
C4810
XVTR_MODE_SW
2
LANC_DC
1k
B
1
XLANC_JACK_IN
R4870 470k
R4849
0.01u
R4843
R4842
B
C4809
C4817
D4804
MA111-(K8).S0
0.1
XCS_OSD
XCS_OSD
EVER_3.0V
73 TO(12/16)
RCH_OUT_DET
1k
1k
1k
IC4802
NC
8.2
UNREG
NC
8
C4808
0.01u
82 TO(16/16)
50P
LANC_SIG
R4869 470k
LANC_SIG
OSD_SO
OSD_SO
38 TO(4/16)
GND
0.1
81 TO(11/16)
XVTR_MODE_SW
XSYS_RST
XSYS_RST
10/16,13/16)
0
48 TO(8/16,11/16)
SP_MUTE
CN922
R4868 470k
R4855 XX
1
SIRCS_PWM
Q4803
RN1104F(TPL3)
SWITCH
MELODY
76 TO(4/16,7/16
2
INPUT_SEL
BEEP
R4867 470k
R4862
D
R4810
1k
0
XIR_LED_ON
IR_ON
100 TO(13/16)
R4807
2200
XCS_MECHA
XCS_MECHA
3
R4846
HI_SO
HI_SO
4
KEY_AD2
INPUT_SEL
BEEP
R4848
HI_SCK
5
XLANC_ON
R4802
4700
HI_SCK
6
TL1596CPWR
XCS_LCD
74 TO(16/16)
SIRCS_ENV
XCS_LCD
0
0
7
79 TO(16/16)
KEY_AD0
KEY_AD1
KEY_AD2
R4854 XX
NC
5.5
LANC_DC
KEY_AD6
3.0
Q4806
RN2102F(TPL3)
LANC ON SW
NC
3.0
POWER
0.1
C
KEY_AD6
XCAUTION_LED
KEY_AD0
R4853 XX
C4804
0.1u B
R4824
2700
3.0
VCC
XCS_VC
XCS_VC
3.0
WAKE
0.3
DATA
3.0
LANC_SIG
0.3
DATA
77 TO(10/16)
XREC_LED
XCAUTION_LED
R4852 10k
Q4802
2SC4738F-Y/GR(TPL3)
BUFFER
2.7
XPAUSE_LED
XREC_LED
R4851 10k
C4803
0.1u
B
C
XPAUSE_LED
KEY_AD1
HI_RXD
C4801
XX
AV_JACK_MUTE
BEEP
AV_JACK_IN_DET
KEY_AD0
KEY_AD1
KEY_AD2
HI_TEST_A
R4826
B
XS_JACK_IN_DET
R4809
XX
KEY_AD3
R4812
XX
KEY_AD5
LANC I/O
R4801
XX
KEY_AD6
INPUT_SEL
IC4802
Q4801
XX
MELODY_ENV
HI_TXD
HI_TEST_A
R4805
3300
HI_XRESET
(NOT USE)
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
HI_RXD
A
GV-D200/200E
R4815
470k
XX
R4827
1k
XX
R4828
XX
0
SIGNAL PATH
VIDEO SIGNAL
CHROMA
Y
Y/CHROMA
AUDIO
SIGNAL
REC
PB
M
16
4-37
4-38
HI CONTROL
VC-250 (14/16)
GV-D200/D200E/D800/D800E
2
1
3
VC-250 BOARD(15/16)
DC/DC CONVERTER(DD BLOCK)
A
CN921
B
4
5
6
7
8
9
10
11
12
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
70
MT_5V
48P
CAP_VS
1
CAP_VS
2
DRUM_VS
3
DRUM_VS
4
MT_GND
5
MT_GND
6
MT_5V
7
MT_5V
8
DRUM_ERROR
9
TO(11/16,12/16)
CAP_VS
DRUM_VS
62
TO(12/16)
MT_GND
R6.6/P7.0
5
D
10
REG_GND
11
REG_GND
12
RP_UNREG
13
4.75V
14
4.75V
15
(SEE PAGE
4-50)
E
L1313
4.7uH
L1314
4.7uH
2
16
17
REG_GND
18
2.8V
19
2.8V
20
2.8V
21
2.8V
22
REG_GND
23
REG_GND
24
1.5V
25
1.5V
26
REG_GND
27
REG_GND
28
VTR_DD_ON
29
VTR_DD_ON
SHOE_ON
30
SHOE_ON
EX_UNREG
31
EX_UNREG
32
REG_GND
33
F
G
R1315
0
RP_6.0V
RP_4.75V
101 TO(1/16)
A_2.8V
A_2.8V
102 TO(2/16)
A_4.75V
L1315
REG_GND
4.7uH
103 TO(2/16)
AU_2.8V
L1316
D_1.9V
22uH
AU_2.8V
C1341
10u
10V A
D_1.5V
C1335
10u
10V
A
104
TO(3/16,6/16)
C1345
10u
10V A
A_2.8V
C1339
10u
10V
A
D_2.8V
A_2.8V
IC1302
D_1.9V
1.9V REG
GV-D800/800E
MODEL ONLY
35
VTR_UNREG
36
BATT_UNREG
D_2.8V
IC1302
TK11119SCL
2.8
BATT_SIG
37
BATT_SIG
BATT/XEXT_SW
38
BATT/XEXT_SW
FAST_CHARGE
39
FAST_CHARGE
INIT_CHARGE_ON
40
INIT_CHARGE_ON
DC_PACK_SW
41
DC_PACK_SW
BL_CONT
42
BL_CONT
1
L1321
4.7uH
1.9
A_2.8V
4
2.8
C1320
10u
6.3V
A
L1306
4.7uH
2
A_4.75V
A_4.75V
3
A_2.8V
1.2
C1353
1005
0.1u
B
D_2.8V
43
44
EX_UNREG
BL_REG
45
BL_REG
BL_REG
46
REG_GND
47
REG_GND
48
109 TO(7/16)
REG_GND
A_4.75V
D_2.8V
A_4.75V
L1307
4.7uH
D_2.8V
L1308
4.7uH
PANEL_13V
PANEL_-15V
108 TO(5/16)
REG_GND
91
TO(16/16)
107 TO(4/16)
D_2.8V
C1322
10u
4V
A
TO(14/16)
106 TO(6/16)
REG_GND
R1308
0
90
VTR_UNREG
105 TO(3/16)
D_2.8V
A_4.75V
BATT_UNREG
REG_GND
110 TO(8/16)
111 TO(9/16)
112 TO(10/16)
AU_2.8V
92
TO(16/16)
L1309
4.7uH
GV-D800/800E
MODEL ONLY
AU_4.75V
113 TO(11/16)
REG_GND
C1333
10u
6.3V
A
REG_GND
Q1324
2SC4738F-Y/GR(TPL3)
-15.3V REG
R-20.8/
P-19.8
C1336
22u
6.3V
A
REG_GND
D_2.8V
REG_GND
R1341
4700
± 5%
REG_GND
R1342
220k
± 0.5%
115 TO(13/16)
116 TO(14/16)
D_2.8V
C1355
2.2u
F
REG_GND
D_2.8V
R1343
68k
± 0.5%
Q1326
2SA1832F-Y/GR(TPL3)
-15.3V REG
114 TO(12/16)
A_4.75V
0.1
Q1322
2SA1832F-Y/GR(TPL3)
-15.3V REG
C1343
10u
6.3V
B
-15.7
R-20.2/
P-19.2
0.5
C1340
10u
6.3V
A
D_2.8V
R1335
100k
H
5.9
IC1303
RN5RZ59BA-TL
C1357
10u
10V
A
C1358
XX
16V
A
5
34
3
RP_4.75V
4.75V
REG_GND
IC1303
6V REG
1
L1311
4.7uH
REG_GND
TO FU-145
BOARD
CN301
4
CAP_ERROR
R6.6/P7.0
C
CAP_ERROR
DRUM_ERROR
117 TO(16/16)
PANEL_4.75V
R1337
100k
I
L1320
22uH
PANEL_2.8V
C1356
2.2u
F
PANEL_-15.3V
PANEL_13.3V
SIGNAL PATH
REC
REC/PB
PB
J
16
DC/DC CONVERTER
VC-250 (15/16)
4-39
4-40
118 TO(16/16)
13
GV-D200/D200E/D800/D800E
2
1
3
4
VC-250 BOARD(16/16)
5
CN923
GV-D800/800E
MODEL ONLY
6
1
96 TO(3/16,13/16)
93 TO(6/16,10/16)
SP_R_-
2
3
BL_CONT
4
PANEL_-15.3V
5
PANEL_-15.3V
PANEL-13.3V
6
PANEL_13.3V
REG_GND
7
67 TO(14/16)
91
REG_GND
BL_CONT
TO(15/16)
B
8
PANEL_4.75V
9
PANEL_4.75V
PANEL_2.8V
10
PANEL_2.8V
REG_GND
11
XVC_SCK
12
XHI_SCK
XCS_LCD_DA
13
XCS_LCD
THROUGH THE
FP-569 FLEXIBLE
BOARD
CN931
C
D
40P
ZIF
1
V/Y_IN
2
V/Y_IN_GND
3
AUDIO_R_IN
4
AUDIO_R_IN_GND
5
AUDIO_L_IN
6
AUDIO_L_IN_GND
7
THROUGH THE
FP-570 FLEXIBLE
BOARD
(SEE PAGE
4-65)
F
EX_AUDIO_R_IN
VC_SO
14
HI_SO
15
KEY_AD6
PANEL_XVD
16
PANEL_VD
C-SYNC/XHD
17
PANEL_HD
PANEL_HOLD
18
REG_GND
19
PANEL_B
20
EX_AUDIO_L_IN
LANC_SIG
LANC_SIG
8
LANC_GND
9
ID1
10
HOTSHOE_ID1
ID2
11
HOTSHOE_ID2
VIDEO_GND
12
EX_V/Y_IN
13
EX_VIDEO_OUT
VIDEO_OUT_GND
14
EX_C_IN
AUDIO_R_OUT
15
EX_AUDIO_R_OUT
AUDIO_R_OUT_GND
16
AUDIO_L_OUT
17
AUDIO_L_OUT_GND
18
C_IN
19
VIDEO_GND
20
IO_GND
21
IO_GND
22
EX_UNREG
23
EX_UNREG
24
EX_UNREG
25
EX_UNREG
26
REG_GND
27
REG_GND
28
83 TO(14/16)
49 TO(8/16)
53 TO(11/16)
EX_AUDIO_L_OUT
74
CN927
REG_GND
TO
CONTROL SWITCH
BLOCK
(FK-78)
CN001
REG_GND
29
REG_GND
30
BL_GND
31
BL_GND
32
BL_GND
33
REG_GND
BL_REG
34
BL_REG
BL_REG
35
92
AFC_F0
3
BPF_MONI
F0_ADJ_RF_IN
4
F0_ADJ_RF_IN
5
PB_RF
6
REG_GND
RF_ENV
7
11/16)
TO(2/16,11/16)
RF_AGC_OUT
VC_RF_SWP
8
VC_RF_SWP
9
NC(EVF_BL)
10
NC(EVF_BL_4.75V)
11
NC(VCO)
PB_RF
6 TO(1/16,2/16)
12
NC(EVF_VG)
13
DV_RF_SWP
RF_IN
14
RF_IN
15
CAP_FG
RF_MON
16
RF_MON
TMS
17
TMS
TCK
18
TCK
19
TDO
20
PANEL_G
TDI
PANEL_R
22
PANEL_R
AD_6
23
SP_R_+
REG_GND
24
SP_R_-
SP_L_+
25
SP_L_+
SP_L_-
26
SP_L_-
NC
27
REG_GND
NC
28
NC
29
NC
30
NC
31
R912
220
1608
R915
XX
1608
R0.1/
P1.7
10P
1
XREC_LED
2
XCAUTION_LED
3
XPAUSE_LED
4
(SEE PAGE
4-61)
TO(15/16)
R907
30 TO(7/16)
84
TD_2-3
TO(10/16,12/16,
13/16)
0
(FOR CHECK)
CAP_FG
66
TO(11/16)
Q906
RN1107F(TPL3)
LED DRIVE
R1.7/P0
R916
XX
1608
1.4
D_2.8V
TDO
98 TO(3/16)
PANEL_B
CPC
DV_RF_SWP
28 TO(3/16)
TO(3/16)
21
32
CL903
5 TO(1/16)
R913
220
1608
EX_UNREG
97
32
PANEL_G
NC
C903
XX
16V
TA
B
68 TO(1/16,2/16
20P
2
R908
4700
REG_GND
54 TO(11/16)
SWP
AFC_F0
TO(14/16)
(SEE PAGE
4-55)
VIDEO_GND
VIDEO_OUT
TO
EX-36
BOARD
CN203
E
REG_GND
1
BPF_MONI
118
12
11
SWP
13 TO(2/16)
TO(15/16)
TO
PD-130
BOARD(1/2)
CN5503
10
9
CN933
SP_R_+
REG_GND
NO MARK:REC/PB MODE
R :REC MODE
P :PB MODE
8
32P
CONNECTION(CN BLOCK)
A
7
XREC_LED
Q907
RN1107F(TPL3)
LED DRIVE
0
R914
220
1608
R917
XX
1608
XCAUTION_LED
79 TO(14/16)
1.5
0
XPAUSE_LED
Q908
RN1107F(TPL3)
LED DRIVE
KEY_AD1
KEY_AD1
5
KEY_AD0
6
KEY_AD2
7
REG_GND
8
REG_GND
9
KEY_AD2
REG_GND
10
REG_GND
KEY_AD0
117 TO(15/16)
D_2.8V
G
BL_REG
36
REG_GND
37
REG_GND
38
BEEP
39
BEEP
40
(BL_GND)
SIGNAL PATH
VIDEO SIGNAL
CHROMA
BEEP
82 TO(14/16)
Y
Y/CHROMA
AUDIO
SIGNAL
REC
PB
H
16
4-41
4-42
CONNECTION
VC-250 (16/16)
GV-D200/D200E/D800/D800E
2
1
3
4
5
6
7
8
R101
J102
L104
AV IN/OUT
R106
47k
R
-REF.NO.:10000 SERIES-
R107
47k
AUDIO
XX MARK:NO MOUNT
L
C101
0.001u
B
(MOMO)
RFU
DC OUT
B
C102
0.001u
B
L101
1uH
VIDEO
OUT
100uH
R105
XX
C107
0.001u
B
12
14
13
15
16
D111
MA8082-(K8).S0
2520
R133
0
FB101
0uH
R102
XX
C103
0.001u
B
C104
0.001u
B
R134
0
C116
0.01u
B
1k
1k
R139
C114
XX
CH
S
G
Y
S
G
C
S VIDEO
OUT
D
R112
0
C115
XX
CH
19
MA8082-(K8).S0
D121
MA8082-(K8).S0
C112
XX
B
D103
MA8082-(K8).S0
R136
0
D108
MA8082-(K8).S0
D101
D104
E
01ZA8.2(TPL3)
XVTR_MODE_SW
2
LANC_SIG
3
XLANC_JACK_IN
4
REG_GND
5
REG_GND
6
LANC_DC
1
LANC_SIG
2
XVTR_MODE_SW
3
REG_GND
4
XLANC_JACK_IN
5
6
6P
50P
50P
50P
CN002
LANC_SIG
1
1
XVTR_MODE_SW
XVTR_MODE_SW
2
2
LANC_SIG
REG_GND
3
3
XLANC_JACK_IN
XLANC_JACK_IN
4
4
REG_GND
REG_GND
REG_GND
5
5
LANC_DC
LANC_DC
LANC_DC
6
6
REG_GND
7
LCH_OUT_DET
LCH_DET
7
7
RCH_DET
8
RCH_OUT_DET
RCH_DET
8
8
LCH_DET
9
REG_GND
AUDIO_GND
9
9
AUDIO_R_OUT
AUDIO_R_OUT
10
10
AUDIO_GND
RF_DC_OUT
11
11
AUDIO_L_OUT
10
AUDIO_R_OUT
11
RF_DC_OUT
12
AUDIO_L_OUT
13
VIDEO_OUT_GND
14
V_JACK_OUT_DET
15
S_C_GND
16
VIDEO_OUT
17
18
AUDIO_L_OUT
12
12
RF_DC_OUT
VIDEO_OUT_GND
13
13
V_JACK_DET
V_JACK_DET
14
14
VIDEO_OUT_GND
S_C_GND
15
15
VIDEO_OUT
VIDEO_OUT
16
16
S_C_GND
S_Y_GND
S_Y_GND
17
17
S_C_OUT
S_C_OUT
S_C_OUT
18
18
S_Y_GND
19
REG_GND
REG_GND
19
19
S_Y_OUT
20
S_Y_OUT
S_Y_OUT
20
20
REG_GND
21
EVER_3.0V
EVER_3.0V
21
21
01ZA8.2(TPL3)
D107
D105
01ZA8.2(TPL3)
XS_JACK_OUT
22
XS_JACK_OUT_DET
XS_JACK_OUT
22
22
EVER_3.0V
23
KEY_AD5
KEY_AD5
23
23
XIR_LED_ON
24
XIR_LED_ON
XIR_LED_ON
24
24
KEY_AD5
01ZA8.2(TPL3)
01ZA8.2(TPL3)
D109
C126
25
DIAL_B
DIAL_B
26
DIAL_A
27
S_Y_GND
28
XS_JACK_IN_DET
29
S_C_GND
30
S_Y_IN
31
REG_GND
32
S_C_IN
33
TLSU1002(TPX1,SONY)
R132
470
25
25
DIAL_A
DIAL_A
26
26
DIAL_B
27
27
XS_JACK_IN
XS_JACK_IN
28
28
S_Y_GND
S_C_GND
29
29
S_Y_IN
S_Y_IN
30
30
S_C_GND
REG_GND
31
31
S_C_IN
S_C_IN
32
32
REG_GND
VIDEO_GND
VIDEO_GND
33
33
AV_JACK_IN
34
AV_JACK_IN_DET
AV_JACK_IN
34
34
VIDEO_GND
35
REG_GND
REG_GND
35
35
VIDEO_IN
36
VIDEO_IN
VIDEO_IN
36
36
REG_GND
37
AUDIO_GND
AUDIO_GND
37
37
AUDIO_L_IN
38
AUDIO_L_IN
AUDIO_L_IN
38
38
AUDIO_GND
39
XHP_SENS
40
AUDIO_R_IN
41
HP_GND
REMOTE COMMANDER RECEIVER
42
HP_R
-REF.NO.:20000 SERIESNO MARK:REC/PB MODE
43
XCHARGE_LED
44
HP_L
45
XSIRCS_LED
46
XPOWRER_LED
47
REG_GND
48
A_4.75V
49
50
D120
01ZA8.2(TPL3)
D119
01ZA8.2(TPL3)
Y
G
XX
CH
R120 1k
G
C
S VIDEO
IN
S
F
CN001
D106
S_Y_GND
J101
20
D125
D126
MA8082-(K8).S0
D122
MA8082-(K8).S0
S
1
CN103
R111
0
J103
18
D112
MA8082-(K8).S0
C113
XX
CH
D113
MA111-TX
C
17
CN105
100uH
2520
C110
0.001u
B
R138
2520
R110
0
11
10
1k
L103
IO-68 BOARD
A
9
1k
R103
C125
XX
CH
S103
TO
VC-250(14/16)
CN922
(SEE PAGE
4-38)
SEL/PUSH EXEC
R135
0
S105
S102
S104
VOLUME-
S101
MENU
VOLUME+
R121
1k
SUPER LASER LINK
D102
01ZA8.2(TPL3)
G
R131
3900
FP-246 BOARD
R129
1500
R130
2200
R128
1200
XHP_SENS
39
39
AUDIO_R_IN
AUDIO_R_IN
40
40
XHP_SENS
HP_GND
41
41
HP_R
HP_R
42
42
HP_GND
XCHARGE_LED
43
43
HP_L
HP_L
44
44
XCHARGE_LED
XSIRCS_LED
45
45
XPOWER_LED
XPOWER_LED
46
46
XSIRCS_LED
REG_GND
47
47
A_4.75V
A_4.75V
48
48
REG_GND
REG_GND
REG_GND
49
49
REG_GND
REG_GND
REG_GND
50
50
REG_GND
J001
AVDIO/VIDEO IN
H
L106
R137
0
CN001
1
I
J002
(HEADPHONES)
J
D003
XX
(POWER)
R001
33
PG
Y
R002
47
K
(CHARGE)
D001
CL-165Y/PG-D-T
D002
XX
3.0
16P
CN104
AUDIO_L_IN
2
VIDEO_IN
3
AV_GND
4
AV_JACK_DET
5
HP_L
6
EVER_3.0V
7
HP_R
8
XPOWER_LED
AUDIO_L_IN
1
VIDEO_IN
2
AV_GND
3
AV_JACK_IN_DET
4
HP_L
5
EVER_3.0V
6
HP_R
7
XPOWER_LED
8
9
XHP_SENS
10
XCHARGE_LED
11
HP_GND
12
A_4.75V
13
AUDIO_R_IN
14
XSIRCS_SIG
XSIRCS_SIG
14
15
AV_GND
AV_GND
15
16
GND
GND
16
XHP_SENS
9
XCHARGE_LED
10
HP_GND
11
A_4.75V
12
AUDIO_R_IN
13
C127
XX
CH
C121
0.001u
D123
D127
XX
100uH
C122
0.001u
D114
01ZA8.2(TPL3)
C123
0.001u
C124
0.001u
D110
D115
01ZA8.2(TPL3)
01ZA8.2(TPL3)
D124
MA8082-(K8).S0
01ZA8.2(TPL3)
LND101
A
FP-247
D129
XX
D128
XX
L107
100uH
D116
01ZA8.2(TPL3)
FLEXIBLE
D117
01ZA8.2(TPL3)
FP-247 flexible board is ablock.
So that this PRINTED WIRING BOARD is omitted.
L108
C117
0.001u
C118
0.001u
100uH
C119
0.001u
C120
0.001u
FP-575 BOARD
4.7
2
3
SIGNAL PATH
1
IC001
RS-70-TU
4
LANC JACK
S001
VIDEO SIGNAL
Service of the FP-246 flexible board is based on the replacement
of the entire board except J001,J002.
So that this PRINTED WIRING BOARD is omitted.
CHROMA
Y
Y/CHROMA
AUDIO
SIGNAL
POWER
OFF
ON
REC
CH GND
LND001
16P
L105
100uH
6P
PB
IC001
1
2
REMOTE COMMANDER
RECEIVER
L
J001
16
XVTR_MODE_SW
LANC_SIG
3
REG_GND
4
REG_GND
5
REG_GND
6
LANC_DC
LND001
LANC
4-45
CH GND
4-46
AV IN/OUT
IO-68
GV-D200/D200E/D800/D800E
2
3
1
4
5
6
7
8
9
FU-145 BOARD
8.2
DC/DC CONVERTER
A
10
L1317
22uH
13
14
15
16
17
18
C1347
10u
16V
TA B
C1344
4.7u
10V
B
CN1301
B
1
CAP_VS
2
CAP_VS
3
DRUM_VS
4
DRUM_VS
5
MT_GND
6
MT_GND
7
MT_5V
8
GV-D800,GV-D800E
MODEL ONLY
R1326
10k
Q1310-1313
5V REG
8.3
R1304
33k
8.2
LND131
C1312
2200p B
R1309
10k
L1303
22uH
R1317
47k
C1329
4.7u
10V
B
8.2
3.3
8.2
2.9
2.9
1.4
0.8
8.2
OUTPUT_GND-4,5,6,7
BOOT_CAP_H-5
RT
CT
BOOT_CAP_L-5
8.0
OUTPUT-5
IC1301
SCP
MOS_DUTY
OUTPUT-4
DC/DC CONVERTER
GND
BOOT_CAP_L-4
IC1301
CXA3057R-T6
SOFT_START
BOOT_CAP_H-4
VREF
MOS_GATE-4
OUTPUT_GND-1,2,3
VCC
STANDBY-3
BOOT_CAP_H-3
STANDBY
BOOT_CAP_L-3
STANDBY-7
FEED_BACK-3
8.2
8.1
6.6
8.2
8.2
7.8
OUTPUT-7
OUTPUT_VCC
-4,5,6
BOOT_CAP_L-7
BOOT_CAP_H-7
4.3
NONINV_INPUT-7
OUTPUT_MONITOR-7
OUTPUT_VCC-7
1.1
1.0
1.1
INV_INPUT-7
NONINV_INPUT-6
OUTPUT_MONITOR-6
INV_INPUT-6
FEED_BACK-6
NONINV_INPUT-5
OUTPUT-6
BOOT_CAP_L-6
FEED_BACK-4
INV_INPUT-3
G
Q1303
CPH6702-TL
SWITCHING
OUTPUT-3
OUTPUT_
VCC-1,2,3
49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
0.1u B
1
BOOT_CAP_H-2
C1303
1.5
2
BOOT_CAP_L-2
0.1u B
3
OUTPUT-2
C1302
2.0
4
OUTPUT-1
0.047u B
1.5
5
BOOT_CAP_H-1
6.8
BOOT_CAP_L-1
C1305
33k
6
MOS_GATE-1
R1302
0
7
COMP
F
0.1u B
1.2
7.1
Q1313
2SC4738F-Y/GR(TPL3)
C1352
0.047u
B
7.1
1.5
R1347
22k
± 0.5%
6.3V
10u
TA
A
L1310
4.7uH
L1305
22uH
6.5
7.7
7.9
8.3
2.2
1.4
1.5
0.9
4.7
1.5
1.1
13.4
1.5
R1313
22k
C1311
1500p B
C1309
470p B
R1310
0
R1311
33k
H
R1322
10k
± 0.5%
R1318
4700
D1304
8.1
C1316
0.001u
B
8.6
2.9
C1331
4.7u
10V
B
Q1308
SI2304DS-T1
8.2
C1317
0.001u
B
6.9
Q1304
CPH6702-TL
SWITCHING
8.1
8.2
0
0
4
C1337
4.7u
F
5
D1302
MA796-TX
L1302
22uH
2.9
XX
T1301
DC-DC CONVERTER
8.5
R1319
47k
-0.8
R1320
22k
7.1
8.6
7.9
C1318
0.001u
B
8.0
2.9
8.5
0
C1327
4.7u
10V
B
2.2
3
0
6
11
REG_GND
12
REG_GND
13
RP_UNREG
14
4.75V
15
4.75V
16
4.75V
17
REG_GND
18
REG_GND
19
2.8V
20
2.8V
21
2.8V
22
2.8V
23
REG_GND
24
REG_GND
25
1.5V
26
1.5V
27
REG_GND
28
REG_GND
29
VTR_DD_ON
30
SHOE_ON
31
EX_UNREG
32
EX_UNREG
33
REG_GND
34
REG_GND
35
VTR_UNREG
36
BATT_UNREG
37
BATT_SIG
38
BATT/XEXT_SW
39
FAST_CHARGE
40
INIT_CHARGE
41
DC_PACK_SW
42
BL_CONT
43
PANEL_13V
44
PANEL_-15V
45
BL_REG
46
BL_REG
47
REG_GND
48
REG_GND
TO
VC-250 BOARD(15/16)
CN921
(SEE PAGE 4-39)
7
2
D1305
1SS357-TPH3
Q1307
SI2304DS-T1
C1319
0.001u
B
C1359
4.7u
F
D1306
1SS357-TPH3
SWITCHING
Q1314
RN1104F(TPL3)
EMERGENCY
DETECT
D1303 XX
Q1301
CPH6102-TL
8
1
7.0
8.0
8.2
C1328
0.01u
F
Q1302
CPH6702-TL
SWITCHING
8.1
C1315
0.001u
B
C1313
0.001u
B
R1306
22k
R1321
22k
± 0.5%
1.0
R1348
10k
± 0.5%
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
C1306
0.01u
B
CAP_ERROR
1.5
L1304
22uH
C1330
4.7u
10V
B
BOOT_CAP_H-6
INV_INPUT-1
2.8
OUTPUT_MONITOR-1
C1304
0.8
8
9
DRUM_ERROR
10
1.5
Q1306
CPH6702-TL
SWITCHING
C1314
470p
B
INV_INPUT-4
FEED_BACK-1
C1301 220p B
0.8
OUTPUT_MONITOR-4
OUTPUT_MONITOR-2
22k
1.5
FEED_BACK-5
INV_INPUT-2
R1301
C1307
3300p
B
1.5
OUTPUT_MONITOR-3
R1307
0
32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17
0.9
E
FEED_BACK-2
LND136
OUTPUT_MONITOR-5
INV_INPUT-5
16 15 14 13 12 11 10
R1303
XX
± 0.5%
FEED_BACK-7
1.5
0.5
0.5
0.8
3.4
1.1
1.1
MT_5V
9
7.7
Q1312
2SA1832F-Y/GR(TPL3)
8.0
LND135
48P
4.9
Q1310
2SC4738F-Y/GR(TPL3)
R1314
22k
D
LND133
C1308
2200p
B
R1312
4700
R1305
0
C1310
4700p B
LND132
Q1311
2SB1581-T1
C1348
10u
10V
TA A
8.1
C1321
4.7u
10V
B
C1324
XX
B
1.4
R1316
0
1.4
C
Q1305
CPH6702-TL
SWITCHING
19
L1318
4.7uH
Q1309
CPH6702-TL
SWITCHING
C1332
4.7u
10V
B
NO MARK:REC/PB MODE
12
4.3
7.8
11
8.2
4.7
D1301
1SS357-TPH3
C1338
4.7u
F
C1342
0.1u
F
L1301
33uH
7.7
C1326
4.7u
10V
B
C1323
4.7u
10V
B
R1345 0
R1346
XX
A_BISU_ANA
LND134
I
C501
0.1u
B
ACV_UNREG
1
2
ACV_GND
2
BATT/XEXT
3
BATT/XEXT
3
Q502
SI4963DY-T1
SWITCH
7.8
R503
0
8.0
S
BATT(+)
1
2
BATT_SW(+)
2
BATT_SW(-)
3
BATT_SW(-)
3
BATT(-)
4
BATT(-)
4
BATT_SIG
5
BATT_SIG
5
0
4
1
1
CN501 5P
BATT(+)
BATT_SW(+)
1
-0.5
F505
1.4A
32V
F502
1.4A
32V
R509
47k
R508
6800
R513
XX
1/8W
3
R504
470k
8 8.3
7
5
6
8.0
2
J901
BATTERY TERMINAL
CN901
3
8.3
R501
1k
K
Q503
2SB1122-ST-TD
CHARGE SW
2
8.3
D504
MA8120-TX
1
1
ACV_GND
2
ACV_UNREG
F504
1.4A
32V
8.2
D505
1SS357-TPH3
1
2
2
CN502 3P
CN902
C502
0.1u
B
1
DC IN
R507
1k
R506
10
1/8W
LF501 XX
J902
F503
1.4A
32V
L501
4.7uH
R502
0
J
7.8
0
F501
1.4A
32V
Q504
3
RN1104F(TPL3)
CHARGE SW
8.3
0
8.3
0
8.3
R510
10k
C508
1u
B
0
8.0
0
Q507
MMSF5P02HDR2
SWITCHING
Note :
pour la sécurité.
1
7.8
R505
1M
1
D503
01ZA8.2(TPL3)
3
2
0
Q501
SSM3K03FE(TPL3)
SWITCH
SIGNAL PATH
REC
0
REC/PB
PB
3
2.7
C505
22u
16V
TA B
Q505
SSM3K03FE(TPL3)
CHARGE SW
C504
22u
16V
TA B
C506
22u
16V
TA B
2
D506
1SS352-TPH3
D507
1SS352-TPH3
R511
1k
C507
XX
F
1608
1
8.2
2
1
1
2
1
2
3
2
1
D502
MA728-(K8).S0
D501
UDZS-TE17-8.2B
1
2
Note :
specified.
M
C503
0.022u B
2
R512
1M
L
0
3
Q506
RN1104F(TPL3)
SWITCH
GV-D800/D800E
MODEL ONLY
N
16
4-49
4-50
DC/DC CONVERTER
FU-145
GV-D200/D200E/D800/D800E
2
1
PD-130 BOARD(1/2)
5
7
6
14
13
15
16
17
(GV-D800/800E MODEL ONLY)
L5504
13.4
4.7
Vcc2
6.7
Vcc3
6
7
8
1.4
5
9
10
11
C5504
0.1u
B
1608
24
22
21
20
19
18
MA111-(K8).S0
TG16
2.8
1.4
1.4
XP.SAVE
2.8
XC.SAVE
25
XC.SAVE
OSCI
OSCO
DR.P.SAVE
C5524
1u
B
R5568
3216
XX
R5514
XX
COM_FRP
MCLK/CLD
R5520
0
R5562
10K
1608
0
TG23
FRP
4
REG_GND
3
SP_L_+
2
SP_L_-
1
20
5
AD_6
XVC_SCK
KEY_AD6
XSCK
VDD/TESTI
VDD/RES
2.5
4
REG_GND
XCS_PANEL
RESET/EX2
XCS
SO
GSRT/MODE2
SI
GPCK/MODE1
VSYB
STBYB/PSG
GND/TESTI
TESTI/GND
LED
PWM
TESTI
TESTI
CPMODE/CLS
4
5
6
7
8
9
10
11
12
2.4
BL-DET
3
2.8
BL-ON
2
0
W/H
1
2.8
PANEL_HOLD
0
HDB
2
2.7
SP_L(-)
TG17
5
1
IC5503
TG16
R5567
xx
15
TG14
TG13
2.8
R5518
XX
R5521
0
1608
TG12
R5517
XX
L
PWM
M
Y
Y/CHROMA
XHD_OUT
AUDIO
SIGNAL
SYNC
XVD_OUT
VIDEO SIGNAL
CHROMA
16
D5504
XX
R5551
47k
SIGNAL PATH
LED
2 TO(2/2)
DETIN
REC
PB
LCD DRIVER, BACK-LIGHT
PD-130 (1/2)
4-55
-15.7
Q5506
2SD2216J-QR(K8).SO
AMP
TG15
13
CP/SPS
2.6
1
XX
2.8
7
2P
SP_L(+)
R5522
14
8
XVD
2.8
TO(2/2)
GRES/EX1
HDI
48
K
R5565
1M
1608
-15.7
2.8
2.8
XVD
-15.1
TG18
2.8
2.4
5
R5561
XX
TG19
2.8
2.7
CH_GND
C-SYNC/XHD
8
XHD_OUT
9
GND
10
GND
CPU
4-56
24
VSH
23
VDD
22
VSS
21
VB
20
VG
19
VR
18
HCNT
17
MCLK
16
CLR
15
OE
14
SRT
13
STBYB
12
VBC
11
VCOM
10
RESET
9
STBYB
8
GSRT
7
GPCK
6
GRES
5
N.C.
4
VDD
3
VGL
2
VSS
1
VGH
Q5502-5506
SWITCH
R5564 C5530
0.01u
1M
25V
B
0
3.0
XTG_SO
R5515
0
R5566
XX
R5563
47K
1608
1.4
IC5502
LZ9FF444
2.8
TO(2/2)
0
TG20
2.3
19
PANEL_R
1.4
18
6
17
PANEL_G
TG21
2.8
SRT/PSS1
TIMING GENERATOR
3.4
4.7
2
22
1.4
OE/PSS2
1.4
COM_FRP
2.8
4
7
TG22
3
8
PANEL_B
IC5502
0.2
9
REG_GND
CLR/CTR
Q5504
2SB1462J-QR(K8).SO
FRP
R5519
0
0.1
IC5503
TC7SET04FU(TE85R)
2.8
SW
24
9
21
BLK
PANEL_HOLD
XVC_SO
CN5506
4.7
TG24
23
37
SWCOM
HCNT/SPD
1.2
10
D5505
XX
SP901
SPEAKER
Q5502
MGSF1PO2LT1
12.9
4.7
4.1
11
SHARP/CASIO
7
Q5505
2SD2216J-QR(K8).SO
26
13.4
4.7
27
2.7
XVD
TG13
1.4
28
16
J
29
BGP
42
PANEL_HOLD
30
Q5501
2SD2216J-QR(K8).SO
DC LEVEL
43
PANEL_XVD
C-SYNC/XHD
31
D5501
XX
BGP
12
32
PD
XVC_SO
13
33
PS/VDD
XCS_PANEL
14
34
GND
15
VC_SO
35
-IN/TESTO
XVC_SCK
36
+IN/TESTO
XVC_SCK
XCS_LCD_DA
REG_GND
(SEE PAGE
4-41)
16
R5560
470k
1608
OUT/TESTO
PANEL_2.8V
C5508
0.1u
B
1608
SYF
17
TG14
Q5503
2SB1462J-QR(K8).SO
POCB
PANEL_2.8V
TG15
13.4
38
PANEL_4.75V
0
2.8
TO(2/2)
19
2.8
2.8
3
20
R5504
100k
1608
39
21
C5529
0.1u
B
1608
2.8
22
18
REG_GND
C5528
1u
25V
TA
A
BL_CONT
PANEL_4.75V
TO
VC-250 BOARD
(16/16)
CN923
THROGH THE
FP-569
FLEXIBLE
BOARD
TG12
TG17
40
23
REG_GND
TG19
R5513
1M
1608
TG18
41
BL_CONT
REG_GND
TG20
D5503
44
H
TG21
C5516
68p
L5505
6.8uH
25
24
PANEL_13.3V
TG22
26
REG_GND
PANEL_-15.3V
TG23
45
SP_R_-
D5502
1T369-01-T8A
C5515
1000p
SL
26P
SP_R_+
VR
6
(FOR CHECK)
CN5501 24P
R5559
XX
46
CN5503
C5502
XX
C5521
1u
B
TG24
R5511
1M
1608
R5510
68k
1608
C5511
560p
CH
1608
C5522
0.1u
B
1608
12
47
G
R5509
22k
1608
8200
C5520
6.8u
16V
TA
A
C5523
0.1u
B
1608
C5512
0.1u
B
1608
R5508
68k
1608
R5507
47k
1608
L5502
10uH
2520
PANEL_COM
5
R5516
10k
1608
R5512
100k
1608
R5506
2700
1608
F
VG
4
R5523
100
15
N.C
4
R5524
100
13.4
N.C
6
R5525
100
14
5
3
3
10P
4.7
Vcc4
2
XVD_OUT
XHD_OUT
C5519
0.1u
B
2012
1.6
VSH
4
B_IN
R_IN
VB
2
SYNC
17
GND1
1
D5506
XX
23
1.4
1.4
FRP
GND3
COM_FRP
BLACK_IN
0.2
2.7
BGP
1.1
N.C
1.4
EXT_DA1
GND2
LPF_ADJ
N.C
1.8
2.3
R_DC_DET
TRAP_ADJ
R5553
C5518
0.1u
B
2012
1.7
VR
IC5501
RB5P003AM1
G_IN
1
13
45
46
1.8
B
1
XP.SAVE
2.3
G_DC_DET
XCS
Vcc1
1.6
VG
RGB LCD DRIVER
C5517
0.1u
B
2012
N.C
2
0.01u
C5507
2
XSCK
SI
2.3
B_DC_DET
VCO
SP_R(-)
1.8
B
IC5501
VB
2.7
1
2.8
B
0.01u
C5506
CN5502
3
EXT_DA2
XC.SAVE
C5514
22u
10V
TA
B
XVD_OUT
OP_OUT
SP_R(+)
R5503
100k
± 0.5%
0.01u
C5505
25
OP_IN-
SP902
SPEAKER
R5502
XX
47
2P
CN5505
XP.SAVE
C5503
0.1u
B
48
C5501
22u
6.3V
TA
A
1.1
26
1.1
2.8
XX
27
OP_IN+
43
C5525
XX
44
C5526
C5510
0.1u
B
28
1.4
D
2.8
29
BIAS
42
3.0
30
1.4
40
R5558
XX
41
R5557
0
2.7
XCS_PANEL
31
N.C
2.5
XTG_SO
R5501
470k
L5501
10uH
2520
32
N.C
39
XVC_SCK
33
N.C
38
2.8
34
N.C
1.5
XC.SAVE
35
N.C
37
C
36
R_INJECT
0.7
R5569
180k
1608
N.C
C5509
3.3u
25V
TA B
R5505
15k
1608
COM_OUT
C5527
0.01u B
DAC
10uH
C5513
0.1u
B
COM_FRP
BLK
FRP
L5503 10uH
16
-REF.NO.:10,000 SERIES
XX MARK:NO MOUNT
NO MARK:REC/PB MODE
B
I
12
LCD DRIVER
1 TO(2/2)
E
11
10
9
8
BGP
A
4
3
C5531
0.01u
25V
B
LCD 901
4 inch
COLOR
LCD
UNIT
18
GV-D200/D200E/D800/D800E
• Refer to page 4-51 for PD-130 printed wiring board.
• Refer to page 4-54 for LS-56 printed wiring board.
2
1
3
PD-130 BOARD(2/2)
4
5
7
8
9
10
11
(GV-D800/800E MODEL ONLY)
BACK LIGHT
A
6
BRIGHT+
LS-56 BOARD
BRIGHT-
LCD SWITCH
S5602
S5601
NO MARK:REC/PB MODE
S001
R5621
1200
4
TO(1/2)
B
R5623
2200
R5622
1500
R5624
3900
R5625
8200
R5626
27k
(LCD ON/OFF)
CN001 2P
CN5608 2P
KEY_AD6
1
AD_6
AD_6
1
REG_GND
2
GND
GND
2
CN5607 2P
TO
EX-36 BOARD
CN205
BL_LOW
1
BL_HIGH
2
L5601
100uH
(SEE PAGE
4-65)
T5601
INVERTER
TRANSFORMER
R5613
1800
1/10W
2012
R5610
1800
1/10W
2012
5
D5605
01ZA8.2(TPL3)
C
1
6
2
C5604
0.015u
B
3
LND701
3.8
SHIELD_CASE
C5602
33u
10V
TA
B
LND702
D
C5603
1u
B
-0.2
10
C5607
12p
3kV
SL
4520
Q5602
FP216-TL
OSC
IC5602
Q5604
UN9111J-(K8).SO
B+ SWITCH
4.7
1.1
CURRENT
DETECT
PANEL_4.75V
9
N.C
8
N.C
7
N.C
6
N.C
5
N.C
4
R5616
120
PANEL_2.8V
BL_HIGH
N.C
3
BL_LOW
2
LED
1
LED_GND
(STARTER)
BL_CONT
VCC
2.8
0.3
4.7
D5601
MA111-(K8).S0
4
R5619
XX
3
2
5
E
CN5604 10P
R5611
100k
1
TO(1/2)
10
-0.2
SHIELD_CASE
3
ND901
BACK LIGHT
4
3.8
R5612
12k
2.8
LND705
1.2
IC5602
TA75S393F-TE85R
D5603
XX
C5605
0.1u
0
4.7
B
R5617
22k
C5606
0.1u
B
R5618
470
CH_GND
Q5603
UN9213J-(K8).SO
R5620 XX
LED DRIVE
IC5601
TC7W53FU(TE12R)
1.4
2
PWM
2.8
CH0
INH
CH1
VEE
2.8
4
TO(1/2)
0
3
C5601
XX
2
VCC
COM
0
DETIN
A
GND
R5614
18k
8
R5609
10k
CH_GND
1.4
7
TO(1/2)
1
5
2.8
6
F
0
5
D5604
XX
IC5601
G
Q5601
UN9213J-(K8).SO
SWITCH
LED
1
TO(1/2)
BACK LIGHT
BRIGHT SWITCH
R5608
0
Note :
specified.
Note :
pour la sécurité.
DAC
H
16
4-57
4-58
BACK-LIGHT
PD-130 (2/2)
GV-D200/D200E/D800/D800E
1
A
2
4
3
5
7
6
8
(FK-78)
D001
SML-211UT-T86
XX MARK:NO MOUNT
(REC)
R022
180
1608
D003
SML-211YT-T86
(CAUTION)
B
D002
SML-211DT-T86
10P
(PAUSE)
D_2.8V
C
TO
VC250 BOARD(16/16)
CN927
(SEE PAGE 4-41)
R024
0
1608
1
XREC_LED
2
XCAUTION_LED
3
XPAUSE_LED
4
KEY_AD1
5
KEY_AD0
6
KEY_AD2
7
REG_GND
8
REG_GND
9
REG_GND
10
R023
120
1608
R101
0
D006
XX
R103
0
D
D005
XX
R008
1k
1608
R001
1k
1608
R102
0
R009
10k
1608
R002
10k
1608
E
R016
10k
1608
PLAY
R017
1200
1608
R018
1500
1608
S003
S006
FF
REW
R007
8200
1608
R006
3900
1608
S014
S015
S016
DIGITAL
EFFECT
TITLE
PB
ZOON
R019
2200
1608
SLOW
R014
8200
1608
S005
S004
REC
R005
2200
1608
R004
1500
1608
DISPLAY
DATA
CODE
R015
1k
1608
S002
STOP
S011
FRAME+
R013
3900
1608
R012
2200
1608
S001
S013
S010
FRAME-
X2
R011
1500
1608
R003
1200
1608
S009
S008
PAUSE
R010
1200
1608
S012
D007
XX
S007
R020
3900
1608
16
4-61
4-62
FK-78
GV-D200/D200E/D800/D800E
2
1
3
4
5
6
7
8
9
10
11
12
13
EX-36 BOARD
A
MULTI CONNECTOR
-REF.NO.:10000 SERIESCN204
CN203
B
C
TO
VC-250
BOARD(16/16)
CN931
THROUGH
THE
FP-570
FLEXIBLE
BOARD
D
(SEE PAGE
4-41)
E
F
40P
1
VIDEO_OUT
VIDEO_GND
1
2
VIDEO_OUT_GND
V/Y_IN
2
3
V/Y_IN
V/Y_IN_GND
3
4
VIDEO_IN_GND
AUDIO_R_IN
4
5
AUDIO_R_IN
AUDIO_R_IN_GND
5
6
AUDIO_L_IN
AUDIO_L_IN
6
7
AUDIO_IN_GND
AUDIO_L_IN_GND
7
8
LANC_SIG
LANC_SIG
8
9
IO_GND
LANC_GND
9
10
LANC_GND
ID1
10
11
ID1
ID2
11
12
EX_GND
VIDEO_GND
12
13
EX_GND
VIDEO_OUT
13
14
AUDIO_R_OUT
VIDEO_OUT_GND
14
15
AUDIO_L_OUT
AUDIO_R_OUT
15
16
AUDIO_OUT_GND
AUDIO_R_OUT_GND
16
17
ID2
AUDIO_L_OUT
17
18
EX_UNREG
AUDIO_L_OUT_GND
18
19
EX_UNREG
C_IN
19
20
C_IN
VIDEO_GND
20
IO_GND
21
IO_GND
22
EX_UNREG
23
EX_UNREG
24
EX_UNREG
25
EX_UNREG
26
REG_GND
27
REG_GND
28
REG_GND
29
REG_GND
30
BL_GND
31
BL_GND
32
BL_GND
33
2
BL_REG
34
1
BL_REG
35
BL_REG
36
REG_GND
37
REG_GND
38
BEEP
39
BEEP
40
D201
01ZA8.2(TPL3)
D202
01ZA8.2(TPL3)
D203
01ZA8.2(TPL3)
D204
01ZA8.2(TPL3)
D205
01ZA8.2(TPL3)
D207
01ZA8.2(TPL3)
D206
01ZA8.2(TPL3)
D208
01ZA8.2(TPL3)
D209
01ZA8.2(TPL3)
D210
01ZA8.2(TPL3)
20P
MULTI
CONNECTOR
LND201
CHASSIS_GND
CN205
BL_LOW
BL_HIGH
2P
TO
PD-130 BOARD(2/2)
CN5607
(SEE PAGE 4-57)
BZ201
(BUZZER)
SIGNAL PATH
G
VIDEO SIGNAL
CHROMA
Y
Y/CHROMA
AUDIO
SIGNAL
REC
PB
H
16
4-65
4-66
MULTI CONNECTOR
EX-36
GV-D200/D200E/D800/D800E
FP-571 (BATTERY), FP-249 (S/T REEL) PRINTED WIRING BOARDS
4-3. WAVEFORMS
— Ref. No. FP-571, FP-249 Boards; 20,000 Series —
• Refer to page 4-37 for FP-571 schematic diagram.
• Refer to page 4-33 for FP-249, FP-355, FP-356 schematic diagrams.
VC-250 BOARD
1 IC1502 2 – qa
FP-571 FLEXIBLE BOARD
9 IC2201 <zxx ,<zxv ,<zxm ,<zx. ,<zcx , qj IC3103 eg
<zcv ,<zcm ,<zc. REC
BT001
4
LITHIUM BATTERY
1
3.2Vp-p
80 nsec
2 IC1502 qh
11
1-667-400-
3.2Vp-p
70 nsec
2.8Vp-p
2.8Vp-p
80 nsec
13.3msec
0 IC2201 <zvx
qk IC3103 r;
REC
REC
2.4Vp-p
3.2Vp-p
24 nsec
33.3 msec
3 IC1502 ef
qa IC2201 <zvv
ql IC3103 rs
REC
REC
REC
2.0Vp-p
2.8Vp-p
1.3Vp-p
H
4 IC1504 4
30 nsec
V
qs IC2201 <zvn
w; IC3301 rg
REC
34 nsec
H
5 IC1505 5
3.4Vp-p
2.8Vp-p
3.4Vp-p
37 nsec
qd IC2201 <z,b
wa IC3301 <zzc
REC
2.8Vp-p
2.8Vp-p
74 nsec
70 nsec
6 IC2201 yj
2.8Vp-p
qf IC2201 <z.,
23.8 msec
ws IC3301 <zc.
(FK-78)
FP-570
2.8Vp-p
56 nsec
FP-571
74 nsec
3.6Vp-p
2.8Vp-p
40.6 nsec
FP-569
qg IC3103 1,2,6,7
7 IC2201 ul
FP-572
wd IC4401 qh
REC
FP-247
4.5Vp-p
300 nsec
5.7Vp-p
8 IC2201 <zzx ,<zzv ,<zzm ,<zz.
PB
2.8Vp-p
80 nsec
FP-571
/ S/T REEL / WAVEFORMS
FP-249
VC-250
4-67
2.2 msec
qh IC3101 rs, IC3103 wj,wl wf IC4401 ws
REC
BATTERY
2.8Vp-p
13.3 msec
4-68
3.3 msec
2.8Vp-p
400mVp-p
13.3 msec
GV-D200/D200E/D800/D800E
VC-250 BOARD
PD-130 BOARD
wg IC4401 ed
0.6 sec
1 IC5501 w;
ed IC4902 1
2.8Vp-p
3.6Vp-p
wh IC4401 ra
2.8Vp-p
250mVp-p
300 nsec
wj IC4401 tj,tl,ya
2.8Vp-p
85 nsec
2 IC5501 ws
ef IC5701 qf
1.1 sec
3.6Vp-p
H
50 nsec
9 IC5502 wh
3.7Vp-p
H
3 IC5501 wf
eg IC3901 ws IR ON
3.4Vp-p
2.2 msec
70 nsec
1.0Vp-p
3.6Vp-p
H
4 IC5501 rh
wk CN4403 1
400mVp-p
2.8Vp-p
H
610 µsec
5 IC5501 rj
wl IC4501 yk
400mVp-p
2.8Vp-p
H
12.5 µsec
6 IC5501 rk
e; IC4501 yl
400mVp-p
H
2.8Vp-p
12.5 µsec
7 IC5502 1
ea IC4803 r;
2.8Vp-p
3.6Vp-p
H
50 nsec
8 IC5502 rk
es IC4803 td
3.0Vp-p
2.8Vp-p
30.5 µsec
V
4-69
WAVEFORMS
VC-250, PD-130
GV-D200/D200E/D800/D800E
SECTION 5
ADJUSTMENTS
1.
Before starting adjustment
EVR Data Re-writing Procedure When Replacing Board
The data that is stored in the repair board, is not necessarily correct.
Perform either procedure 1 or procedure 2 or procedure 3 when replacing board.
Procedure 1
Save the EVR data of the machine in which a board is going to be replaced. Download the saved data after a board
is replaced.
(Machine before starting repair)
PC
PC
(Machine after a board is replaced)
Download the saved
data to a machine.
Save the EVR data
to a personal computer.
Procedure 2
Remove the EEPROM from the board of the machine that is going to be repaired. Install the removed EEPROM
to the replaced board.
Remove the EEPROM and install it.
(Former board)
(New board)
Procedure 3
When the data cannot be saved due to defective EEPROM, or when the EEPROM cannot be removed or
installed, save the data from the same model of the same destination, and download it.
(Machine to be repaired)
PC
(Machine to be repaired)
Download the data.
Save the data.
(The same model of the same destination)
After the EVR data is saved and downloaded, check the
respective items of the EVR data.
(Refer to page 5-3 for the items to be checked.)
5-1
1-1.
Adjusting items when replacing main parts and boards.
When replacing main parts, adjust the items indicated by z in the following table.
*1: When replacing the drum assy. or mechanism deck, reset the data of page: 2, address: A2 to A4 to “00”. (Refer to “Record of Use check”
of “5-4. SERVICE MODE”)
*2: GV-D800/D800E only
EEPROM
IC2201 (Hi8/Std8 Y/C process)
IC3901 (IR transmitter)
IC5701 (AUDIO IN/OUT)
(COMPLETE) *2
(COMPLETE)
IC4502 (EEPROM)
IC4901 (EEPROM)
VC-250 board
PD-130 board
VC-250 board
VC-250 board
VC-250 board
replacement replacement
VC-250 board
IC1504, X1501 (X’tal OSC)
IC2291 (EVR)
VC-250 board
VC-250 board
IC3701 (LINE IN/OUT)
IC3301 (DV signal process)
VC-250 board
VC-250 board
VC-250 board
IC3103 (REC/PB AMP)
IC3101 (EQ, A/D conv. PLL)
VC-250 board
IC5502 (Timing generator (LCD)) *2
Q5602, T5601 (Inverter) *2
PD-130 board
LCD901 (LCD panel) *2
IC5501 (RGB driver (LCD)) *2
PD-130 board
LCD block
LCD block
LS chassis assy
ND901 (Fluorescent tube) *2
Mechanism deck
M901 (Drum assy) *1
M902 (Capstan motor)
Mechanism deck
*1
Board
VC-250 board
Initialization of
Adjustment
Mechanism deck
Adjustment
Section
Mechanism deck
Block replacement
PD-130 board
Replaced parts
Parts replacement
z
z
Initialization of C, D, 8 page data
Initialization of E, F, 7 page data
z
Serial No. input
z
z
z
z
C,D,E,F,7,8
page data
System control
Battery end adj.
Servo & RF
REEL FG adj.
z
Switching position adj.
z z
z
Audio
z
APC & AEQ adj.
z z
z
z
PLL fo & LPF fo adj.
z z
z
z
Hi8/Std8 switching position adj.
z z
CAP FG duty adj.
z
z
z z
z
z
z
z
z
z
Chroma BPF fo adj.
z
z
z
S VIDEO OUT Y level adj.
z z
z
z
S VIDEO OUT chroma level adj.
z z
z
z
z
z
z
z
z
Hi8/Std8 AFC fo adj.
z z
IR video carrier frequency adj.
z
z
z
z
z
z
z
z
IR audio deviation adj.
z
z z
z
z
Hi8/Std8 AFM BPF fo adj.
z
z
z
z
Hi8/Std8 AFM 1.5MHz deviation adj.
z
z
z
z
Hi8/Std8 AFM 1.7MHz deviation adj.
z
z
z
z
IR video deviation adj.
z
VCO adj.
RGB AMP adj.
z
Contrast adj.
z
COM-AMP adj.
V-COM adj.
Tape path adj.
z
z
z
z
z
z
z
z
z
z
z
z
z z
z
z
z
z
z
z
z z z z
Table. 5-1-1
5-2
z
z
z
z
z z z
White balance adj.
Mechanism
z
z
LCD initial data input
LCD *2
z
z
z z
Hi8/Std8 Y/C output level setting
IR
z
AGC center level adj.
27MHz origin oscillation adj.
Video
z
z
z
5-1. ADJUSTMENT PREPARATIONS
For details of the adjustment remote commander, refer to “5-4.
SERVICE MODE”.
With 4-inch LCD panel:
Without 4-inch LCD panel:
1-1.
GV-D800/D800E
GV-D200/D200E
PREPARATIONS BEFORE ADJUSTMENT
1-1-1. List of Service Tools
• Oscilloscope
• Regulated power supply
• Digital voltmeter
• Pattern generator
Ref. No.
Name
• Frequency counter
• Monitor TV
Parts Code
Usage
J-2
Adjustment remote commander (RM-95 upgraded).
J-6082-053-B
(Note 1)
CPC-13 jig
J-6082-443-A For adjusting the video section
J-3
J-4
Multi CPC jig
Power cord (Note 2)
J-6082-311-A For adjusting the LCD block
J-6082-223-A For connecting the battery terminal and DC power supply
J-5
IR receiver jig
J-6082-383-A For adjusting the IR transmitter
J-1
Note 1: If the micro processor IC in the adjustment remote commander is
not the new micro processor (UPD7503G-C56-12), the pages
cannot be switched. In this case, replace with the new micro
processor (8-759-148-35).
J-1
J-2
Note 2: Connect the adjustment remote commander to the LANC jack,
and set to HOLD switch to the “ADJ” side.
J-3
J-4
Fig. 5-1-1.
5-3
J-5
5-2. MECHANISM SECTION
ADJUSTMENT
Mechanism Section adjustments, checks, and replacement of
mechanism parts, refer to the separate volume “8mm Video
Mechanism Adjustment Manual
B Mechanism ”.
Note 1: NTSC model: GV-D200/D800
PAL model: GV-D200E/D800E
2-1.
2-1-2.
TAPE PATH ADJUSTMENT
1. Preparations for Adjustment
1) Clean the tape path face (tape guide, capstan shaft, pinch roller).
2) Connect the adjustment remote commander to the LANC jack.
3) Turn on the HOLD switch of the adjustment remote
commander.
4) Select page: 0, address: 01, and set data: 01.
5) Select page: 2, address: 2E, and set data: 02.
6) Select page: F, address: 22, set data: 88, and press the PAUSE
button of the adjustment remote commander.
(Be sure to perform “Processing after operation” after
completing adjustments.)
7) Connect the oscilloscope to VC-250 board CN933 via CPC-13
jig (J-6082-443-A).
Channel 1: VC-250 board, CN933 Pin 5
External trigger: VC-250 board, CN933 Pin 8
8) Playback Hi8/standard8 alignment tape for tracking.
(WR5-1NP(NTSC))
(WR5-1CP(PAL))
9) Check that the oscilloscope RF waveform is flat at the entrance
and exit.
If not flat, adjust according to the separate volume “8mm Video
Mechanical Adjustment Manual
B Mechanism ”.
10) Perform “Processing after operations”, after completing
adjustment.
Hi8/STANDARD8 MODE
2-1-1. OPERATING WITHOUT CASSETTE
1) Refer to “Section 2. DISASSEMBLY” and supply the power
with the cabinet assembly removed. (So that the mechanical
deck can be operated.)
3) Turn on the HOLD switch of the adjustment remote
commander.
4) Close the cassette compartment without loading a cassette and
complete loading.
7) Select page: D, address: 10, set data: 10, and press the PAUSE
8) Disconnect the power supply of the unit.
By carrying out the above procedure, the unit can be operated
without loading a cassette. (Note2)
Be sure to carry out “Processing after Operations” after
checking the operations.
Set the data of page: D, address: 10 to “12”, if the sensor
ineffective mode, forced VTR power supply ON mode is to be
used together.
Note 2: Except for the recording mode.
CN933 of VC-250board
Pin No.
Signal Name
Pin No.
1
SWP
11
2
AFC F0
12
3
BPF MONI
13
4
F0 ADJ RF IN
14
5
PB RF
15
6
REG GND
16
7
RF AGC OUT
17
8
VC RF SWP
18
9
NC
19
10
NC
20
Table 5-2-1.
[Procedure after checking operations]
5) Disconnect the power supply of the unit.
Signal Name
NC
NC
DV RF SWP
RF IN
CAP FG
RF MON
TMS
TCK
TDO
TDI
[Procedure after operations]
1) Connect the adjustment remote commander, and turn on the
HOLD switch.
6) Remove the power supply from the unit.
Must be flat
Fig. 5-2-1.
5-4
2-2.
1)
2)
3)
4)
2-2-3.
DIGITAL8 MODE
2-2-1.
HOW TO ENTER RECORD MODE WITHOUT
CASSETTE
1. Recording of the tape path check signal
1) Clean the tape running side (tape guide, capstan shaft, pinch
roller).
2) Input a color bar signal to the AUDIO/VIDEO INPUT jack.
4) Turn the HOLD switch of the adjustment remote commander
to the ON position.
5) Set to the recording mode.
6) Select page: 3, address: 1C, set data: 5D, and press the PAUSE
7) Record for several minutes.
8) Release the recording mode.
9) Select page: 3, address: 1C, set data: 00, and press the PAUSE
button.
Connect the adjustment remote commander to the LANC jack.
Turn the HOLD switch of the adjustment remote commander
to the ON position.
Close the cassette compartment without the cassette.
Select page: 3, address: 01, and set data: 0C, and press the
PAUSE button of the adjustment remote commander.
(The mechanism enters the record mode automatically.)
Note: The function buttons becomes inoperable.
5)
To quit the record mode, select page: 3, address: 01, set data:
00, and press the PAUSE button of the adjustment remote
commander. (Whenever you want to quit the record mode, be
sure to quit following this procedure.)
2. Tape path check
1) Clean the tape running side (tape guide, capstan shaft, pinch
roller).
3) Turn the HOLD switch of the adjustment remote commander
to the ON position.
4) Connect an oscilloscope to VC-250 board CN933 via the CPC13 jig (J-6082-443-A).
Channel 1: VC-250 board, CN933 Pin qh (Note)
External trigger: VC-250 board, CN933 Pin qd
2-2-2.
1)
2)
3)
4)
HOW TO ENTER PLAYBACK MODE WITHOUT
CASSETTE
Connect the adjustment remote commander to the LANC jack.
Turn the HOLD switch of the adjustment remote commander
to the ON position.
Close the cassette compartment without the cassette.
Select page: 3, address: 01, and set data: 0B, and press the
PAUSE button of the adjustment remote commander.
(The mechanism enters the playback mode automatically.)
Note: The function buttons becomes inoperable.
5)
OVERALL TAPE PATH CHECK
To quit the playback mode, select page: 3, address: 01, set data:
00, and press the PAUSE button of the adjustment remote
commander. (Whenever you want to quit the playback mode,
be sure to quit following this procedure.)
Note: Connect a 75Ω resistor between Pins qh of CN910 and 6
(GND).
5)
6)
7)
8)
9)
Select page: 2, address: 2E, and set data: 01.
Playback the tape path check signal.
Select page: 3, address: 33, and set data: 08.
Check that the oscilloscope RF waveform is flat at the entrance
and exit.
If not flat, perform “2-1-2. TAPE PATH ADJUSTMENT “ of
“2-1. Hi8/STANDARD 8mm MODE”.
Must be flat
Pin qh
Pin qd
Fig. 5-2-2.
5-5
5-3. ELECTRICAL ADJUSTMENT
For details of the adjustment remote commander, refer to “5-4.
SERVICE MODE”.
3-1.
PREPARATIONS BEFORE ADJUSTMENTS
Use the following measuring instruments for video section
adjustments.
Note: NTSC model:GV-D200/D800
PAL model: GV-D200E/D800E
3-1-1.
Equipment to Required
13) PAL Hi8/standard8 alignment tapes (For PAL model)
• For tracking adjustment (WR5-1CP)
Parts code : 8-967-995-07
• For video frequency characteristics adjustment (WR5-7CE)
Parts code : 8-967-995-18
• For checking Standard 8 mode operations
For LP (WR5-4CL)
Parts code : 8-967-995-56
For SP (WR5-5CSP)
Parts code : 8-967-995-47
1)
2)
TV monitor
Oscilloscope (dual-phenomenon, band width above 30 MHz
with delay mode) (Unless specified otherwise, use a 10 : 1
probe.)
3) Frequency counter
4) Pattern generator with video output terminal
5) Digital voltmeter
6) Audio generator
7) Audio level meter
8) Audio distortion meter
9) Audio attenuator
10) Regulated power supply
11) Digital8 alignment tapes
• SW/OL standard (WR5-2D)
Parts code: 8-967-993-22
• Audio operation check for NTSC (WR5-3ND)
Parts code: 8-967-993-32
• System operation check for NTSC (WR5-5ND)
Parts code: 8-967-993-42
• Audio operation check for PAL (WR5-3CD)
Parts code: 8-967-993-37
• System operation check for PAL (WR5-5CD)
Parts code: 8-967-993-47
12) NTSC Hi8/standard8 alignment tapes (For NTSC model)
• For tracking adjustment (WR5-1NP)
Parts code : 8-967-995-02
• For video frequency characteristics adjustment (WR5-7NE)
Parts code : 8-967-995-13
• For checking Standard 8 mode operations
For LP (WR5-4NL)
Parts code : 8-967-995-51
For SP (WR5-5NSP)
Parts code : 8-967-995-42
Note : The following alignment tapes can also be used.
1) WR5-3CL (8-967-995-36)
2) WR5-4CSP (8-967-995-46)
• For checking Hi8 mode operations
For LP (WR5-8CLE)
Parts code : 8-967-995-57
For SP (WR5-8CSE)
Parts code : 8-967-995-48
• For Checking AFM stereo operations (WR5-9CS)
Parts code : 8-967-995-28
• For BPF adjustment (WR5-11CS)
Parts code : 8-967-995-76
14) Adjustment remote commander (J-6082-053-B)
15) CPC-13 jig (J-6082-443-A)
16) Power code (J-6082-223-A)
Note : Connect the adjustment remote commander to the LANC jack,
and set the HOLD switch to the “ADJ” side.
17) IR receiver jig (J-6082-383-A)
18) Multi CPC jig (J-6082-311-A)
Note : The following alignment tapes can also be used.
WR5-4NSP (8-967-995-41)
• For checking Hi8 mode operations
For LP (WR5-8NLE)
Parts code : 8-967-995-52
For SP (WR5-8NSE)
Parts code : 8-967-995-43
• For Checking AFM stereo operations (WR5-9NS)
Parts code : 8-967-995-23
• For BPF adjustment (WR5-11NS)
Parts code : 8-967-995-71
5-6
3-1-2. Precautions on Adjusting
1) Disconnecting the VC-250 board CN926 (4P, 0.8mm) means
disconnecting the lithium 3V power supply (FP-571 board
BT001), data such as date, time, user-set menus will be lost.
After completing adjustments, reset these data. If the CN926
has been disconnected, the self-diagnosis data, data on history
of use (total drum rotation time etc.) will be lost. Before
disconnecting, note down the self-diagnosis data (data of page:
2, address: B0 to C6) and data on history use (data of page: 2,
address: A2 to AA). (Refer to “5-4. SERVICE MODE” for the
self-diagnosis data and the data on the history use.)
2) To remove the cabinet (upper) and LCD block (GV-D800/
D800E only), disconnect the following connectors.
VC-250 board CN926 (4P 0.8mm)
(Lithium battery)
(EX-36 board (Multi connector))
(DV jack)
VC-250 board CN923 (32P 0.5mm) (GV-D800/D800E
only)
(PD-130 board (LCD panel)
(IR-38 board (IR transmitter))
(IO-68 board, FP-575 flexibles, FP-246 flexible)
As the video and audio jacks and LANC jack are provided on
the IO-68 board and the power switch is provided on the FP575 flexible board, these boards must be connected to the VC250 board. So remove the cabinet (R) assembly (IO-68 board
and FP-575 flexible and FP-246 flexible) from the cabinet
(upper) assembly and connect it to the following connector.
3) By setting the “Forced VTR Power ON mode”, the video section
can be operate even if the FP-575 flexible board (power switch)
has been removed.
3-1-3. Adjusting Connectors
Some of the adjusting points of the video section are concentrated
at VC-250 board CN933. Connect the measuring instruments via
the CPC-13 jig (J-6082-443-A). The following table lists the pin
numbers and signal names of CN933.
Pin No.
1
2
3
4
5
6
7
8
9
10
Signal Name
SWP
AFC F0
BPF MONI
FO ADJ RF IN
PB RF
REG GND
RF AGC OUT
VC RF SWP
NC
NC
Pin No.
11
12
13
14
15
16
17
18
19
20
Signal Name
NC
NC
DV RF SWP
RF IN
CAP FG
RF MON
TMS
TCK
TDO
TDI
Table. 5-3-1.
20
1
CN933
VC-250 board
Note 1: Setting the “Forced VTR Power ON” mode (VTR mode)
The above procedure will enable the VTR power to be turned
on with the FP-575 flexible board removed.
After completing adjustments, be sure to exit the “Forced VTR
Power ON mode”.
Fig. 5-3-1.
Note 2: Exiting the “Forced Power ON” mode
5-7
3-1-4. Connecting the Equipment
Connect the measuring instruments as shown in Fig. 5-3-2, and
perform the adjustments.
LANC jack
Pattern generator
Video output
(75 Ω)
Adjustment
remote
commander
VIDEO
(Yellow)
AUDIO L
(White)
Main unit
AUDIO R
(Red)
AUDIO/VIDEO INPUT jack
VIDEO OUTPUT
jack
TV monitor
Fig. 5-3-2
5-8
3-1-5. Alignment Tape
The following table lists alignment tapes which are available.
Use the tape specified in the signal column for each adjustment. If
the type of tape to be used for checking operations is not specified,
use whichever type.
Digital8 alignment tape
Name
Usage
SW/OL standard (WR5-2D) Switching position adjustment
Audio operation check
Audio system adjustment
(WR5-3ND (NTSC),
WR5-3CD (PAL))
System operation check
(WR5-5ND (NTSC),
Operation check
WR5-5CD (PAL))
Hi8/standard8 alignment tape
Name
Tracking
(WR5-1NP(NTSC), WR5-1CP(PAL))
Video frequency characteristics
(WR5-7NE(NTSC), WR5-7CE(PAL))
Operation check
(WR5-5NSP(NTSC), WR5-5CSP(PAL))
Operation check
(WR5-8NSE(NTSC), WR5-8CSE(PAL))
Operation check
(WR5-4NL(NTSC), WR5-4CL(PAL))
Operation check
(WR5-8NLE(NTSC), WR5-8CLE(PAL)
AFM stereo operation check
WR5-9NS(NTSC), WR5-9CS(PAL)
BPF adjustment
WR5-11NS(NTSC), WR5-11CS(PAL)
Recording
mode
Tape type
Tape
speed
Standard8
MP
SP
Hi8
ME
Standard8
MP
SP
Hi8
ME
SP
Standard8
MP
LP
Hi8
ME
LP
Standard8
MP
SP
AFM stereo Operation check
Standard8
MP
SP
BPF adjustment
Usage
Tape path adjustment, Switching position
adjustment
SP(NTSC)
Frequency characteristics adjustment
LP(PAL)
Operation check
Tape type
ME ......... Particle type metal tape
MP .......... Evaporated type metal tape
Table. 5-3-2.
5-9
Fig. 5-3-3. Shows the color bar signals recorded on the alignment
tape.
Note : Measure using the VIDEO terminal (Terminated at 75 Ω).
For NTSC model
Blue
Red
Magenta
Green
(75%)
1V
Cyan
Burst signal
Yellow
0.714V
White
Cyan
Green
Magenta
Red
Blue
White (75%)
Yellow
White (100%)
0.286V
0.286V
Q
Q
I
Black
I
White
(100%)
Horizontal sync signal
Color bar signal waveform
Color bar pattern
(100%)
0.3V
Burst signal
Horizontal sync signal
Color bar signal waveform
Color bar pattern
Fig. 5-3-3. Color Bar Signal of the Alignment Tape
3-1-6. Input/output Level and Impedance
Video input/output
Phono jack, 1Vp-p, 75Ω, unbalanced, sync negative
S video input/output
4-pin mini DIN
Luminance signal:
1Vp-p, 75Ω, unbalanced, sync negative
Chrominance signal:
0.286Vp-p, 75Ω, unbalanced (NTSC)
0.300Vp-p, 75Ω, unbalanced (PAL)
Audio input/output
Phono jack:
Input: -7.5dBs, input impedance more than 47kΩ
Output: -7.5dBs, (at load impedance 47kΩ), output impedance less than 2.2kΩ
5-10
Black
Blue
Red
Magenta
Green
Cyan
0.3V
Yellow
White
0.7V
1V
Magenta
Red
Blue
White (100%)
Yellow
Cyan
Green
For PAL model
3-2.
3-2-1.
INITIALIZATION OF C, D, E, F, 7, 8 PAGE
DATA
Processing after Completing Modification of C, D, 8 Page data
Order Page Address Data
Procedure
1
2
INITIALIZATION OF C, D, 8 PAGE DATA
2
2
00
01
1. Initializing the C, D, 8 Page Data
C
Adjusting Address
Adjusting page
10 to FF
D
Adjusting Address
Adjusting page
10 to FF
8
Adjusting Address
00 to FF
Initializing Method:
0
3
01
81
01
10
Set the data
Set the data
3
3
80
0A
Set the data, and press the
PAUSE button.
4
3
80
5
3. C Page Table
Note: Fixed data-1: Initialized data. (Refer to “1. Initializing the C, D, 8
Page Data”.)
Fixed data-2: Modified data. (Refer to “2. Modification of C, D, 8
Page Data”).
Address Initial value
NTSC PAL
00 to 0F
10
EE
EE
11
00
00
12
00
00
13
00
00
14 to 16
17
E0
E0
18
25
25
19
25
25
1A
1B
25
25
1C
25
25
1D
1E
25
25
1F
3E
3E
20
3E
3E
21
CA
CA
22
99
99
23 to 24
25
88
88
26
E3
E3
27
A1
A1
28
04
04
29
20
20
2A to 2B
2C
03
03
2D to 2E
2F
30
E0
E0
31 to 45
46
47 to 4C
4D
4E to 85
86
87 to 88
89
8A to 91
92
Procedure
1
2
Check that the data changes to
“1A”
Perform “Modification of C, D,
8 Page Data”.
2. Modification of C, D, 8 Page Data
If the C, D, 8 page data has been initialized, change the data of the
“Fixed data-2” address shown in the following tables by manual
input.
Modifying Method:
1) Before changing the data, select page: 0, address: 01, and set
data: 01.
2) New data for changing are not shown in the tables because
they are different in destination. When changing the data, copy
the data built in the same model.
Note: If copy the data built in the different model, the camcorder may
not operate.
3)
4)
Set the data
PAUSE button.
Note: If the following symptoms occur after completing of the
“Modification of C, D, 8 page data”, check that the data of the “Fixed
data-2” addresses of D page are same as those of the same model of
the same destination.
1) The battery end mark on the LCD screen is flashing.
2) The power is shut off so that unit cannot operate.
Note 1: If “Initializing the C, D, 8 Page Data” is performed, all data of the
C page, D page and 8 page will be initialized. (It is impossible to
initialize a single page.)
Note 2: If the C, D, 8 page data has been initialized, the following
adjustments need to be performed again.
1) Modification of C, D, 8 page data
2) Serial No. input
3) Servo and RF system adjustments
4) Video system adjustments
5) LCD system adjustments
6) Battery end adjustments
Adjusting page
29
29
When changing the data, press the PAUSE button of the
adjustment remote commander each time when setting new
data to write the data in the non-volatile memory.
Check that the data of adjustment addresses is the initial value.
If not, change the data to the initial value.
5-11
Remark
Switching position adj.
Fixed data-1
REEL FG adj.
AEQ adj.
Fixed data-1
AEQ adj.
Fixed data-1
AGC center level adj.
PLL fo adj.
APC adj.
LPF fo adj.
Fixed data-1
S VIDEO out Y level adj.
S VIDEO out Cr level adj.
S VIDEO out Cb level adj.
Chroma BPF fo adj.
PLL fo fine adj.
Fixed data-1
APC adj.
Fixed data-1
Fixed data-2
REEL FG adj.
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
4. D Page Table
NTSC PAL
93 to 99
9A
9B to A4
A5
A6
A7 to AA
AB
AC
AD
AE
AF
B0
B1
B2
B3
B4
B5
B6
B7
B8
B9
BA
BB to D5
D6
D7
D8
D9
DA
DB
DC
DD
DE to E5
E6
E7
E8
08
08
E9
00
00
EA
46
46
EB
01
01
EC
02
02
ED
00
00
EE
00
00
EF
00
00
F0 to F3
F4
00
00
F5
00
00
F6
00
00
F7
00
00
F8
00
00
F9
00
00
FA
00
00
FB
00
00
FC
00
00
FD
00
00
FE
00
00
FF
00
00
Remark
Page Data”.)
Page Data”).
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
NTSC PAL
00 to 0F
10
00
00
11 to 12
13
14
15 to 19
1A
1B
1C
1D
1E
1F
20
21
22
23
24
25
26
27
28 to 2A
2B
2C
2D
2E
2F
30
31 to 42
43
44 to 47
48
90
90
49
98
98
4A to 4C
4D
4E
4F to 50
51
52
53
54
55 to 57
58
59
5A to 5B
5C
5D to 64
65
66
67
68
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
(Modified data. Copy the data built in
the same model.)
Fixed data-1
Fixed data-2
the same model.)
Fixed data-1
Fixed data-2
Fixed data-1
Serial No. input
Fixed data-1
Emergency memory address
Table. 5-3-3.
5-12
Remark
Test mode
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
the same model.)
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Battery end adj.
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
5. 8 Page Table
NTSC PAL
69
6A to 83
84
85 to 86
87
88 to 8D
8E
8F
90 to 9F
A0
A1
A2
80
80
A3
70
70
A4
80
80
A5
30
30
A6
A7
C0
C0
A8
A9
AA
80
80
50
80
80
50
AB
AC
AD
AE
AF
B0
B1
B2 to B8
B9
BA
BB to C3
C4
C5
C6
C7 to FF
Remark
Page Data”.)
Page Data”).
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
VCO adj. (LCD) (GV-D800/D800E)
VCO adj. (LCD) (GV-D800E)
V-COM adj. (LCD)
(GV-D800/D800E)
RGB AMP adj.(LCD)
(GV-D800/D800E)
Fixed data-1
COM AMP adj.( LCD)
(GV-D800/D800E)
White balance adj. (LCD)
(GV-D800/D800E)
Contrast adj. (LCD)
(GV-D800/D800E)
Fixed data-1
Fixed data-2
the same model.)
Address
Remark
00 to 20
21
22
23
24 to 98
99
9A to A2
A3
A4 to FF
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Table. 5-3-5.
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Table. 5-3-4.
5-13
3-2-2.
3. F Page Table
INITIALIZATION OF E, F, 7 PAGE DATA
Note: Fixed data-1: Initialized data. (Refer to “1. Initializing the E, F, 7
Page Data”.)
Fixed data-2: Modified data. (Refer to “2. Modification of E, F, 7
Page Data”).
1. Initializing the E, F, 7 Page Data
Note1: If “Initializing the E, F, 7 Page Data” is performed, all data of the
E page, F page and 7 page will be initialized. (It is impossible to
initialize a single page.)
Note2: If the E, F, 7 page data has been initialized, following adjustments
need to be performed again.
1) Modification of E, F, 7 page data
2) Servo and RF system adjustments
3) Video system adjustments
4) IR transmitter adjustments
Adjusting page
F
Adjusting Address
Adjusting page
10 to FF
E
Adjusting Address
Adjusting page
00 to FF
7
Adjusting Address
00 to FF
Initializing Method:
1
2
0
6
01
00
3
6
01
4
6
02
01
NTSC PAL
00 to 0F
10
00
00
11
00
00
12
00
00
13
00
00
14
00
00
15
00
00
16
00
00
17
00
00
18
00
00
19
00
00
1A
00
00
1B
00
00
1C
1D to 22
23
24
25
26
27 to 2B
2C
2D
2E
2F to 32
33
34 to 3A
3B
3C to 4C
4D
8C
8C
4F to 5D
5E
5F
60 to 61
62
0A
0A
63
00
00
64
83
83
65
40
40
66
67
69
65
68
64
72
69 to 7A
7B
A6
A6
7C
94
94
7D
80
80
7E
41
41
7F
33
33
80
C7
C7
81 to 8A
8B
8C to 93
Procedure
Set the data.
Set the following data.
55: GV-D200/D800 (NTSC)
51: GV-D200E/D800E (PAL)
Set the following data, and press
PAUSE button.
55: GV-D200/D800 (NTSC)
51: GV-D200E/D800E (PAL)
“01”.
Perform “Modification of E, F, 7
Page Data”.
5
2. Modification of E, F, 7 Page Data
If the E, F, 7 page data has been initialized, change the data of the
“Fixed data-2” address shown in the following table by manual input.
Modifying Method:
1) Before changing the data, select page: 0, address: 01, and set
data: 01.
2) New data for changing are not shown in the tables because
they are different in destination. When changing the data, copy
the data built in the same model.
Note: If copy the data built in the different model, the camcorder may
not operate.
3)
When changing the data, press the PAUSE button of the
adjustment remote commander each time when setting new
data to write the data in the non-volatile memory.
Check that the data of adjustment addresses is the initial value.
If not, change the data to the initial value.
4)
Processing after Completing Modification of E, F, 7 Page data
Procedure
1
2
00
29 Set the data
2
2
01
29
PAUSE button.
5-14
Remark
Emergency memory address
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
27MHz origin osc. adj.
Fixed data-1
Fixed data-2
Fixed data-1
Hi8/Std8 switching position adj.
CAP FG duty adj.
Hi8/Std8 AFC fo adj.
Fixed data-1
Hi8/Std8 Y output level setting
Hi8/Std8 chroma output level setting
Fixed data-1
Hi8/Std8 1.5MHz deviation adj.
Hi8/Std8 1.7MHz deviation adj.
Hi8/Std8 AFM BPF adj.
IR video deviation adj.
IR audio deviation adj.
IR video carrier freq. adj.
Fixed data-1
Fixed data-2
Fixed data-1
4. E Page Table
NTSC PAL
94
95 to 97
98
99 to 9B
9C
9D to 9F
A0
A1 to AA
AB
AC to CA
CB
CC
CD
CE
CF
D0 to D2
D3
D4 to DE
DF
E0
E1
E2 to F2
F3
F4 to F5
F6
F7 to FF
Remark
Note: Fixed data-1: Initialized data. (Refer to “1. Initializing the E, F, 7
Page Data”.)
Fixed data-2: Modified data. (Refer to “2. Modification of E, F, 7
Page Data”).
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Table. 5-3-6.
5-15
Address
Remark
00 to 01
02
03
04
05
06 to 07
08
09 to 0D
0E
0F
10
11
12
13
14
15
16
17
18
19
1A to 27
28
29 to 33
34
35
36
37
38
39
3A to 3C
3D
3E to 42
43
44
45
46
47
48
49 to 50
51
52 to 56
57
58 to 5B
5C
5D
5E
5F to 71
72
73 to 7B
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
the same model.)
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Address
Remark
7C
7D
7E
7F
80
81
82 to 8B
8C
8D
8E
8F
90
91 to 93
94
95 to FF
Fixed data-2
5. 7 Page Table
Note: Fixed data-1: Initialized data.
(Refer to “1. Initializing the E, F, 7 Page Data”.)
Fixed data-2: Modified data.
(Refer to “2. Modification of E, F, 7 Page Data”).
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Address
Remark
00 to 05
06
07
08 to 25
26
27 to FF
Fixed data-1
Fixed data-2
Fixed data-1
Fixed data-2
Fixed data-1
Table. 5-3-8.
Table. 5-3-7.
5-16
3-3.
1-2. Serial No. Input
Write the serial No. and model code in the EEPROM (nonvolatile
memory). Convert the serial No. on the name plate from decimal to
hexadecimal, and write in the EEPROM.
Page
C
SYSTEM CONTROL SYSTEM ADJUSTMENT
1. Serial No. Input
1-1. Company ID Input
Write the company ID in the EEPROM (nonvolatile memory).
Page
C
Address
Address
Input method:
2) Read the serial No. on the name plate, and take it as D1.
Example: If the serial No. is 77881.
D1=77881
3) Obtain D2 and H1 corresponding to D1 from Table 5-3-9.
Example: If D1 is “77881”.
D2=D1–65536=12345
H1=FE
H1 (Hexadecimal)
D1 (Decimal)
D2 (Decimal)
(Service model code)
000001 to 065535 D1
FE
065536 to 131071 D1–65536
FE
131072 to 196607 D1–131072
FE
Input method:
2) Input the following data to page: C, addresses: E8 to EC.
Note: Press the PAUSE button of the adjustment remote commander
each time to set the data.
Address
E8
E9
EA
EB
EC
3)
ED, EE, EF
E8, E9, EA, EB, EC
Data
08
00
46
01
02
Table 5-3-9.
4)
Input H1 to page: C, address: ED. (Model code input)
Example: If H1 is “FE”.
Select page: C, address: ED, set data: FE, and
press the PAUSE button.
5) Obtain the maximum decimal not exceeding D2 from Table 53-10, and take this as D3.
D3=12288
6) Obtain the hexadecimal corresponding to D3 from Table 5-310, and take this as H3.
H3=3000
7) Obtain the difference D 4 between D 2 and D 3. (Decimal
calculation, 0 D4 255)
D4= D2–D3
Example: If D2 is “12345” and D3 is “12288”.
D4=12345–12288=57
8) Convert D4 to hexadecimal, and take this as H4.
(Refer to “Hexadecimal-decimal conversion table” in “5-4.
Service Mode”.)
H4=39
9) Input the upper 2 digits of H3 to page: C, address: EE.
Example: If H3 is “3000”.
Select page: C, address: EE, set data: 30, and
10) Input H4 to page: C, address: EF.
Example: If H4 is “39”.
Select page: C, address: EF, set data: 39, and
5-17
HexaHexaHexaHexaHexaHexaHexaHexaDecimal decimal Decimal decimal Decimal decimal Decimal decimal Decimal decimal Decimal decimal Decimal decimal Decimal decimal
(D3)
(D3)
(D3)
(D3)
(D3)
(D3)
(D3)
(D3)
(H3)
(H3)
(H3)
(H3)
(H3)
(H3)
(H3)
(H3)
0
256
512
768
1024
1280
1536
1792
2048
2304
2560
2816
3072
3328
3584
3840
4096
4352
4608
4864
5120
5376
5632
5888
6144
6400
6656
6912
7168
7424
7680
7936
0000
0100
0200
0300
0400
0500
0600
0700
0800
0900
0A00
0B00
0C00
0D00
0E00
0F00
1000
1100
1200
1300
1400
1500
1600
1700
1800
1900
1A00
1B00
1C00
1D00
1E00
1F00
8192
8448
8704
8960
9216
9472
9728
9984
10240
10496
10752
11008
11264
11520
11776
12032
12288
12544
12800
13056
13312
13568
13824
14080
14336
14592
14848
15104
15360
15616
15872
16128
2000
2100
2200
2300
2400
2500
2600
2700
2800
2900
2A00
2B00
2C00
2D00
2E00
2F00
3000
3100
3200
3300
3400
3500
3600
3700
3800
3900
3A00
3B00
3C00
3D00
3E00
3F00
16384
16640
16896
17152
17408
17664
17920
18176
18432
18688
18944
19200
19456
19712
19968
20224
20480
20736
20992
21248
21504
21760
22016
22272
22528
22784
23040
23296
23552
23808
24064
24320
4000
4100
4200
4300
4400
4500
4600
4700
4800
4900
4A00
4B00
4C00
4D00
4E00
4F00
5000
5100
5200
5300
5400
5500
5600
5700
5800
5900
5A00
5B00
5C00
5D00
5E00
5F00
24576
24832
25088
25344
25600
25856
26112
26368
26624
26880
27136
27392
27648
27904
28160
28416
28672
28928
29184
29440
29696
29952
30208
30464
30720
30976
31232
31488
31744
32000
32256
32512
6000
6100
6200
6300
6400
6500
6600
6700
6800
6900
6A00
6B00
6C00
6D00
6E00
6F00
7000
7100
7200
7300
7400
7500
7600
7700
7800
7900
7A00
7B00
7C00
7D00
7E00
7F00
32768
33024
33280
33536
33792
34048
34304
34560
34816
35072
35328
35584
35840
36096
36352
36608
36864
37120
37376
37632
37888
38144
38400
38656
38912
39168
39424
39680
39936
40192
40448
40704
Table 5-3-10.
5-18
8000
8100
8200
8300
8400
8500
8600
8700
8800
8900
8A00
8B00
8C00
8D00
8E00
8F00
9000
9100
9200
9300
9400
9500
9600
9700
9800
9900
9A00
9B00
9C00
9D00
9E00
9F00
40960 A000 49152 C000
41216 A100 49408 C100
41472 A200 49664 C200
41728 A300 49920 C300
41984 A400 50176 C400
42240 A500 50432 C500
42496 A600 50688 C600
42752 A700 50944 C700
43008 A800 51200 C800
43264 A900 51456 C900
43520 AA00 51712 CA00
43776 AB00 51968 CB00
44032 AC00 52224 CC00
44288 AD00 52480 CD00
44544 AE00 52736 CE00
44800 AF00 52992 CF00
45056 B000 53248 D000
45312 B100 53504 D100
45568 B200 53760 D200
45824 B300 54016 D300
46080 B400 54272 D400
46336 B500 54528 D500
46592 B600 54784 D600
46848 B700 55040 D700
47104 B800 55296 D800
47360 B900 55552 D900
47616 BA00 55808 DA00
47872 BB00 56064 DB00
48128 BC00 56320 DC00
48384 BD00 56576 DD00
48640 BE00 56832 DE00
48896 BF00 57088 DF00
57344
57600
57856
58112
58368
58624
58880
59136
59392
59648
59904
60160
60416
60672
60928
61184
61440
61696
61952
62208
62464
62720
62976
63232
63488
63744
64000
64256
64512
64768
65024
65280
E000
E100
E200
E300
E400
E500
E600
E700
E800
E900
EA00
EB00
EC00
ED00
EE00
EF00
F000
F100
F200
F300
F400
F500
F600
F700
F800
F900
FA00
FB00
FC00
FD00
FE00
FF00
2. Battery End Adjustment
Set the battery end voltage.
If the voltage is incorrect, the life of the battery will shorten.
The image at the battery end will also be rough.
Mode
Playback
Signal
Measurement Point
Arbitrary
Display data of page: 2, address: 5D
Measuring Instrument
Adjustment Page
Adjustment remote commander
D
Adjustment Address
48, 49
Connection:
1) Connect the regulated power supply and the digital voltmeter
to the battery terminal as shown in Fig. 5-3-4.
Preparations before adjustments:
1) Adjust the output voltage of the regulated power supply so that
the digital voltmeter display is 6.1 ± 0.1Vdc.
2) Turn off the power supply.
3) Turn on the HOLD switch of the adjustment remote commander.
4) Turn on the power supply.
5) Load a cassette, and set to the playback mode.
Adjusting method:
1
2
0
01
3
2
5D
4
5
D
48
01
Dref Set the data, and press PAUSE button.
Convert Dref to decimal notation,
and obtain Dref’. (Note1)
6
Calculate D49’ using following
equation. (decimal calculation)
D49’=Dref’+8
Convert D49’ to decimal notation,
and obtain D49. (Note1)
7
8
9
Procedure
Set the data.
Decrease the output voltage of
the regulated power supply so
that the digital voltmeter display
is 5.30 ± 0.01Vdc.
Read the data, and this data is
named Dref.
D
0
49
01
D49
00
Set the data, and press PAUSE button.
Set the data.
Note 1: Refer to Table 5-4-1. “Hexadecimal-decimal conversion table” of
“5-4.Service mode”.
Digital voltmeter
Main unit
Battery terminal
Regulated power supply
5.30 ± 0.01V
Fig. 5-3-4.
5-19
3-4.
2. PLL fo & LPF fo Pre-Adjustment (VC-250 Board)
SERVO AND RF SYSTEM ADJUSTMENT
Before perform the servo and RF system adjustments, check that
the specified value of “27MHz Origin Oscillation Adjustment” of
“VIDEO SYSTEM ADJUSTMENT” is satisfied.
Adjusting Procedure:
1. REEL FG adjustment
2. PLL fo & LPF fo pre-adjustment
3. Switching position adjustment
4. AGC center level
5. APC & AEQ adjustment
6. PLL fo & LPF fo final adjustment
7. Hi8/Standrd8 switching position adjustment
8. Cap FG duty adjustment
Mode
VTR stop
Measurement Point
Display data of page: 3, address: 03
Adjustment Page
Adjustment Address
C
1F, 20, 22, 29
Specified Value
Bit2, bit3 and bit6 are “0”
Adjusting method:
1. REEL FG Adjustment (VC-250 Board)
Compensates the dispersion of the hall elements.
Measurement Point
1
2
0
3
01
01
3
3
02
Adjustment Page
C
4
3
03
Adjustment Address
Specified Value
17, 30
00 or 01 or 04 or 05
5
0
01
Procedure
1
Close the cassette compartment
without inserting a cassette.
0
3
01
01
4
3
02
5
3
03
6
0
01
01
1C
00
Set the data.
Set the data, and press PAUSE
button.
“00”,
08, 09, 0C, 0D
0A, 0B, 0E, 0F
S reel is defective
S reel and T reel are defective
00
Set the data.
Bit value of page: 3,
Error contents
address: 03 data
bit 2 = 1
PLL fo final adjustment is defective
bit 3 = 1
bit 6 = 1
LPF fo is defective
Setting data
When the data of page: C, address: 21 is “CA”. CE
When the data of page: C, address: 21 is “CE”. C6
Note: If the data is other value, adjustment has errors. (Take an appropriate
remedial measures according to the errors referring to the following
table.)
Contents of defect
T reel is defective
“00”.
Check that bit2, bit3 and bit6 are
“0”. (Note)
If bit 2 or bit 3 is “1”, select page: C, address: 21, set the following
data, and press the PAUSE button, and repeat steps 2 to 4.
Check that the data is “00” or
“01” or “04” or “05”. (Note)
Set the data.
Data
02, 03, 06, 07
Procedure
Set the data.
button.
Note: If bit2, bit3 or bit6 is “1”, there are errors.
For the error contents, see the following table. (For the bit values, refer
to “5-4. SERVICE MODE”, “4-3. 3. Bit value discrimination”. )
Adjusting method:
2
3
01
30
When the data of page: C, address: 21 is “C6”.
When the data of page: C, address: 21 is “D2”
5-20
D2
C2
3. Switching Position Adjustment (VC-250 Board)
To obtain normal playback waveform output during the Digital8
playback mode, adjust the switching position.
Mode
VTR playback
Signal
Measurement Point
SW/OL reference tape (WR5-2D)
Adjustment Page
C
Adjustment Address
Specified Value
10, 11, 12, 13
00
4. AGC Center Level and APC & AEQ Adjustment
4-1. Preparations before adjustments
Mode
Recording
Signal
Note: Use a Hi8 MP tape.
Adjusting method:
1
2
Adjusting method:
0
3
01
21
01
4
3
01
0D
5
3
02
6
3
03
7
C
10
8
0
01
00
0
8
01
2A
Record the color bar signal for
three minutes.
Signal
Measurement Point
Adjustment Page
Oscilloscope
C
Check that the data is “00”.
(Note2)
Check that the data is other than
“EE”. (Note3)
Adjustment Address
Specified Value
1E
The data of page: 3, address: 03 is “00”
Note 1: Connect a 75Ω resistor between Pin qh and Pin 6 (GND) of CN933.
75Ω resistor (Parts code: 1-247-804-11)
Set the data.
Adjusting method:
1
2
0
01
01
3
4
2
3
2E
33
01
08
Set the data.
Set the data.
23
Confirm that the playback RF
signal is stable. (Fig. 5-3-5.)
5
Contents of defect
6
3
01
EE
Writing into EEPROM (IC4502) is
defective
Adjustment data is out of range
7
8
3
3
02
03
No data is returned from IC3301
(CAIN)
9
(Note2)
Perform “APC & AEQ Adjustment”.
Note 2: If the data of page: 3, address: 03 is other than “00”, adjustment
has errors.
PB RF signal is stable
When the B channel is defective
Data of page:C,
Contents of defect
E8
E7
Procedure
Playback the recorded signal at
“Preparations before adjustments”
Set the data.
Data of page:C,
address:10
address:12
EE
Recorded signal at “Preparations
before adjustments”
Pin qh of CN933 (RF MON) (Note 1)
Ext. trigger: Pin qd of CN933 (DV RFSWP)
button.
“00”.
When the A channel is defective
E7
Procedure
Set the data.
Set the data.
4-2. AGC Center Level Adjustment (VC-250 Board)
Mode
Playback
Set the data.
(Note1)
Note 1: If the data of page: 3, address: 21 is “72”, the tape top being played.
After playing the tape for 1 to 2 seconds, perform step 4 and higher.
Note 2: If bit 0 of the data is “1”, the A channel is defective. If bit 1 is “1”,
the B channel is defective. Contents of the defect is written into
page: C, addresses: 10 and 12. See the following table. (For the bit
values, refer to “5-4. SERVICE MODE”, “4-3. 3. Bit value
discrimination”. )
Note 3: If the data is “EE” rewind the tape and repeat steps 1 to 7.
E8
01
C8
3
Procedure
1
Insert the SW/OL reference tape
and enter the VTR STOP mode.
2
3
Color bar
Writing into EEPROM (IC4502) is
defective
Pin qh
Adjustment data is out of range
No data is returned from IC3301
(CAIN)
Pin qd
13.3 msec
Fig. 5-3-5.
5-21
4-3. APC & AEQ Adjustment (VC-250 Board)
Mode
Playback
Signal
Measurement Point
Recorded signal at “Preparations
before adjustments”
Pin qh of CN933 (RF MON) (Note 1)
Ext. trigger: Pin qd of CN933 (DV RF
SWP)
Adjustment Page
Oscilloscope
C
Adjustment Address
Specified Value
18, 19, 1B, 1C, 21, 2C
The data of page: 3, address: 03 is “00”
4-4. Processing after Completing Adjustments
Note 1: Connect a 75Ω resistor between Pin qh and Pin 6 (GND) of
CN933.
75Ω resistor (Parts code: 1-247-804-11)
Note 2: The “AGC Center Level Adjustment” must have already been
completed before starting this adjustment.
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
3
C
C
18
19
25
25
4
5
C
C
1B
1C
25
25
6
7
C
C
21
2C
CA
03
8
9
10
Playback the recorded signal at
“Preparations before adjustments”
2
3
2E
33
01
08
Set the data.
07
Confirm that the playback RF
signal is stable. (Fig. 5-3-6.)
11
12
3
01
13
3
02
14
3
03
15
Check that the data changes from
“07” to “00” in about 20 seconds
after pressing PAUSE button.
(Note3)
Perform “Processing after
Completing Adjustments”.
Note 3: If the data is other than “00”, adjustment has errors.
PB RF signal is stable
Pin qh
Pin qd
13.3 msec
Fig. 5-3-6.
5-22
Procedure
1
2
0
2
01
2E
01
00
Set the data.
Set the data.
3
4
3
8
33
2A
00
00
Set the data.
button.
5
0
01
00
Set the data.
6. Hi8/Standard8 Switching Position Adjustment
(VC-250 Board)
If deviated in this case causes switching noise or jitter on the Hi8/
Standard8 mode played back screen.
Mode
Playback
5. PLL fo & LPF fo Final Adjustment (VC-250 Board)
Mode
VTR stop
Signal
Measurement Point
Arbitrary
Adjustment Page
C
Adjustment Address
Specified Value
1F, 20, 22, 29
Bit2, bit3 and bit6 are “0”
Signal
Measurement Point
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
3
01
3
3
02
4
3
03
5
0
01
30
00
button.
“00”.
bit 2 = 1
bit 3 = 1
bit 6 = 1
LPF fo is defective
Oscilloscope
F
Adjustment Address
Specified Value
62, 63
t1=0 ± 10µ sec
Procedure
1
Set to the stop mode.
Note: If bit2, bit3 or bit 6 of the data is “1”, there are errors.
For the error contents, see the following table. (For the bit values, refer
to “5-4. SERVICE MODE”, “4-3. 3. Bit value discrimination”. )
Error contents
Adjustment Page
Adjusting Method:
Check that bit2, bit3 and bit6 are
“00”. (Note)
Set the data.
Bit value of page: 3,
address: 03
Hi8/Standard8 alignment tape:
For tracking adjustment
(WR5-1NP(NTSC))(WR5-1CP(PAL))
CH1: Pin 8 of CN933 (VC RF SWP)
CH2: Pin 5 of CN933 (PB RF)
2
3
0
F
01
22
01
C0
Set the data.
button.
4
5
2
0E
02
Set the data.
Set to the playback mode.
6
F
62
7
F
62
8
F
63
9
10
F
F
63
22
80
Press PAUSE button
button.
11
12
2
0
0E
01
00
00
Set the data.
Set the data.
Change the data and minimize
“t1”. (Coarse adjustment)
Press PAUSE button
Change the data and adjust so
that the switching position (t1)
becomes the specified value.
(Fine adjustment)
CH1
CH2
Enlargement
CH1
t1=0 ± 10 µsec
CH2
Fig. 5-3-7.
5-23
7. CAP FG Offset Adjustment (VC-250 board)
Set the Cap FG signal duty cycle to 50% to establish an appropriate
capstan servo. If deviated, the uneven rotation of capstan and noise
can occur in the Hi8/Standard8 LP mode.
Mode
Playback
Signal
Measurement Point
Hi8/standard 8 alignment tape :
For checking operation
(WR5-5NSP(NTSC))
(WR5-5CSP(PAL))
Pin qg of CN933 (CAP FG)
Adjustment Page
Oscilloscope
F
Adjustment Address
Specified value
64
Duty = 50 ± 1 %
Adjusting method:
Procedure
1
Set to the stop mode.
2
3
0
2
01
0E
4
5
6
01
6
3
02
7
6
01
01
02
Set the data.
Set the data.
81
Set to the playback mode.
button.
00
8
9
10
“01”.
button.
Check that Duty of CAP FG
signal satisfies the specified
value. If not, repeat steps 5 to 8.
2
0
0E
01
00
00
Set the data.
Set the data.
Center of movement
A
B
Duty = A/B × 100 [%]
Fig. 5-3-8.
5-24
3-5.
2. Chroma BPF fo Adjustment (VC-250 Board)
Set the center frequency of IC3701 chroma band-pass filter.
Mode
VTR stop
VIDEO SYSTEM ADJUSTMENTS
Switch setting:
DEMO MODE (Menu setting) ........................................ OFF
1. 27MHz Origin Oscillation Adjustment
(VC-250 board)
Set the frequency of the clock for synchronization.
If deviated, the synchronization will be disrupted and the color will
become inconsistent.
Mode
VTR stop
Signal
Measurement Point
Not required
Pin 5 of IC1505
Adjustment Page
Frequency counter
F
Adjustment Address
Specified Value
4D
f=13500000 ± 68Hz
Signal
Measurement Point
No signal
CH1: Chroma signal terminal of S
VIDEO OUT jack (75Ω terminated)
CH2: Y signal terminal of S VIDEO
OUT jack (75Ω terminated)
Adjustment Page
Oscilloscope
C
Adjustment Address
Specified Value
28
A = 100mVp-p or less
B = 200mVp-p or more
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
F
4D
3
F
4D
4
0
01
11
10
button.
Check that the burst signal (B) is
output to the chroma signal
terminal of S VIDEO OUT jack.
4
3
0C
04
5
C
28
6
C
28
button.
Change the data for minimum
amplitude of the burst signal
level (A).
(The data should be “00” to
“07”.)
Press PAUSE button.
7
3
0C
00
button.
Check that the burst signal level
(B) satisfies the specified value.
9
D
11
00
10
0
01
00
button.
Set the data.
3
Change the data and set the
frequency (f) to the specified
value.
Press PAUSE button.
00
D
Set the data.
8
IC1505
41
58
VC-250 board
When the data of page: 3, address: 0C, is 04:
A
CH1
Fig. 5-3-9.
CH2
H
When the data of page: 3, address: 0C, is 00:
CH1
B
H
Fig. 5-3-10.
5-25
4. S VIDEO OUT Chroma Level Adjustment
(VC-250 Board)
Mode
VTR stop
3. S VIDEO OUT Y Level Adjustment (VC-250 Board)
Mode
VTR stop
Signal
Measurement Point
No signal
Y signal terminal of S VIDEO OUT
jack (75Ω terminated)
Adjustment Page
Oscilloscope
C
Adjustment Address
Specified Value
25
A = 1000 ± 20mV
Adjusting method:
Signal
Measurement Point
No signal
Chroma signal terminal of S VIDEO
OUT jack (75Ω terminated)
External trigger: Y signal terminal of
S VIDEO OUT jack
Adjustment Page
Oscilloscope
C
Adjustment Address
Specified Value
26, 27
Cr level:
Procedure
1
0
01
01 Set the data.
2
D
11
10
3
3
0C
02
4
C
25
5
C
25
6
3
0C
00
7
D
11
00
8
0
01
00
button.
button.
A = 714 ± 14mV(NTSC)
A = 700 ± 14mV(PAL)
Cb level: B = 714 ± 14mV(NTSC)
B = 700 ± 14mV(PAL)
Burst level: C = 286 ± 6mV(NTSC)
C = 300 ± 6mV(PAL)
Adjusting method:
Procedure
1
0
01
01 Set the data.
Change the data and set the Y
signal level (A) to the specified
value.
Press PAUSE button.
button.
button.
2
D
11
10
3
3
0C
02
4
C
26
5
6
C
C
26
27
7
8
C
27
9
3
0C
00
10
D
11
00
11
0
01
00
button.
button.
Change the data and set the Cr
signal level (A) to the specified
value.
Press PAUSE button.
Change the data and set the Cb
signal level (B) to the specified
value.
Set the data.
Center of luminance line
A
H
Fig. 5-3-11.
Press PAUSE button.
(C) is satisfied the specified
value.
button.
button.
Set the data.
H
C
A
0.28 µsec (NTSC)
0.23 µsec (PAL)
B
0.28 µsec (NTSC)
0.23 µsec (PAL)
Fig. 5-3-12.
5-26
5. VIDEO OUT Y, Chroma Level Check (VC-250 Board)
Mode
VTR stop
Signal
Measurement Point
No signal
VIDEO OUT jack (75Ω terminated)
Specified Value
Oscilloscope
Sync level: A = 293 ± 18mV(NTSC)
A = 307 ± 18mV(PAL)
Burst level: B = 286 ± 18mV(NTSC)
B = 300 ± 18mV(PAL)
6. Hi8/Standard8 Y/C Output Level Setting
(VC-250 Board)
Set the Y/C signal output level during the Hi8/Standard8 playback
mode.
Mode
VTR stop
Signal
Adjustment Page
No signal
F
Adjustment Address
67, 68
Adjusting method:
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
D
11
10
3
3
0C
02
4
button.
button.
Check that the sync signal level
(A) satisfies the specified value.
(B) satisfies the specified value.
5
6
3
0C
00
7
D
11
00
8
0
01
00
button.
button.
0
D
01
10
01
02
Set the data.
button.
3
4
6
6
6F
7F
01
Set the data.
Check that the data.
When the data is “00”, proceed
to step 8.
When the data is “03”, proceed
to step 5.
5
F
67
6
F
68
8
F
67
9
F
68
10
11
6
D
6F
10
00
00
Set the data.
button.
12
0
01
00
Set the data.
PAUSE button.
69: GV-D200/D800 (NTSC)
65: GV-D200E/D800E (PAL)
PAUSE button.
64: GV-D200/D800 (NTSC)
72: GV-D200E/D800E (PAL)
Proceed to step 10.
Set the data.
7
PAUSE button.
A0: GV-D200/D800 (NTSC)
A0: GV-D200E/D800E (PAL)
PAUSE button.
AA: GV-D200/D800 (NTSC)
B8: GV-D200E/D800E (PAL)
B
A
H
Fig. 5-3-13.
5-27
Procedure
1
2
7. Hi8/standard 8mm AFC fo Adjustment
(VC-250 board)
Adjust the pull-in range of the clock generator (IC2201) for A/D
conversion during Hi8/standard 8mm playback.
Mode
VTR stop
Signal
Measurement Point
No signal
Pin 2 of CN933 (AFC f0)
Adjustment Page
Digital voltmeter
F
Adjustment Address
Specified Value
65
A=1.40 ± 0.05Vdc
Or the data of page: 6, address: 6E is
“7C” to “84”
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
D
10
02
button.
button.
3
3
0D
04
4
5
6
6
63
6F
04
01
Set the data.
Set the data.
6
6
01
C5
7
6
02
button.
8
6
6E
9
3
0D
00
10
6
01
00
11
12
6
6
63
6F
00
00
Set the data.
Set the data.
13
D
10
00
14
0
01
00
button.
Set the data.
Check that the data satisfies the
specifies value.
Or check that the DC voltage
(A) satisfies the specifies value.
button.
button.
5-28
3-6.
IR TRANSMITTER ADJUSTMENTS
Adjust using the IR receiver jig (J-6082-383-A).
Note: If the distance between the IR receiver jig and the VCR is below
1m, cover the LASER LINK emitter with a ND filter. (For example,
when the distance is 30cm to 50cm, cover the LASER LINK emitter
with a ND filter 1.0.)
Switch setting:
LASER LINK ........................................ ON (Red LED is lit)
2. IR Video Deviation Adjustment (VC-250 board)
1. IR Video Carrier Frequency Adjustment
(VC-250 board)
Mode
Signal
VTR stop
Arbitrary
Arbitrary
Pin 5 of CN003 of IR receiver jig (RF)
(Or Pin qh of IC3901 of VC-250 board)
Measurement Point
VIDEO OUT terminal of IR receiver
jig (Terminated at 75Ω)
Oscilloscope
Adjustment Page
Frequency counter
F
Adjustment Page
Adjustment Address
F
7E
Adjustment Address
Specified Value
80
f = 11.85 ± 0.05 MHz
Specified Value
A = 0.82 ± 0.05 V
Mode
VTR stop
Signal
Measurement Point
Connection of Equipment:
Connect the measuring device as shown in the following figure,
and adjust.
and adjust.
IR receiver jig
Pin 5 of
CN003
Main unit
IR receiver jig
Main unit
Frequency counter
75Ω
Oscilloscope
VIDEO
OUT
75Ω (1-247-804-11)
Fig. 5-3-15.
Fig. 5-3-14.
Adjusting method:
1
2
0
3
01
0C
01
08
3
F
80
4
F
80
5
3
0C
00
6
0
01
00
Adjusting method:
Procedure
Set the data.
button.
Change the data, and set the
video carrier frequency (f) to the
specified value.
Press PAUSE button.
button.
Set the data.
1
2
0
3
01
0C
01
01
3
F
7E
4
F
7E
5
3
0C
00
6
0
01
00
Procedure
Set the data.
button.
Change the data, set the video
signal amplitude (A) to the
specified value.
Press PAUSE button.
button.
Set the data.
White
A
H
Fig. 5-3-16.
5-29
3. IR Audio Deviation Adjustment (VC-250 board)
Mode
VTR stop
Signal
Video : No signal
Audio : –400Hz, –7.5dBs, Audio left
and right terminal of AUDIO/VIDEO
jack
AUDIO L terminal and AUDIO R
terminal of IR receiver jig
(Terminated at 47kΩ)
Measurement Point
Adjustment Page
Audio level meter
F
Adjustment Address
Specified Value
7F
Signal level: –7.5 ± 1.0 dBs
Level difference of L and R: Below
2dB
and adjust.
Main unit
IR receiver jig
AUDIO/VIDEO
INPUT
Video
(Yellow)
AUDIO OUT
L
R
Audio oscillator
Audio Left
(White)
Attenuator
Audio level meter
Audio Right
(Red)
600 Ω
600 Ω: 270 Ω (1-249-410-11) + 330 Ω (1-249-411-11)
47k Ω
47k Ω (1-249-437-11)
Fig. 5-3-17.
Adjusting method:
1
2
0
01
3
F
7F
4
F
7F
01
400Hz audio signal level to the
specified value.
Press PAUSE button.
5
6
F
7F
7
0
01
Procedure
Set the data.
Connect the audio level meter to
the AUDIO L terminal of the IR
receiver jig.
Connect the audio level meter to
the AUDIO R terminal of the IR
receiver jig.
Check that the 400Hz audio
signal level is within the
specified value. If outside, repeat
from step 2.
00
Set the data.
5-30
3-7.
1. Hi8/Standard8 AFM BPF fo Adjustment
(VC-250 board)
Sets the BPF passing frequency of IC760 so that the AFM signal
can separate from the playback RF signal properly. If deviated. the
mono/stereo mode will be differentiated incorrectly, and noises and
distortions will increase during high volume playback.
Mode
Playback
AUDIO SYSTEM ADJUSTMENTS
[Connecting the measuring instruments for the audio]
Connect the audio system measuring instruments in addition to the
video system measuring instruments as shown in Fig. 5-3-18.
[Adjustment Procedure]
1) Hi8/Standard8 AFM BPF fo adjustment
2) Hi8/Standard8 AFM 1.5MHz deviation adjustment
3) Hi8/Standard8 AFM 1.7MHz deviation adjustment
4) Digital8 playback level check
5) Overall level characteristics check
6) Overall distortion check
7) Overall noise level check
8) Overall separation check
Signal
Main Unit
VIDEO
(Yellow)
VIDEO OUT
(75 Ω)
AUDIO/VIDEO
INPUT
AUDIO
LEFT
(White)
600 Ω
Audio generator
AUDIO
RIGHT
(RED)
Attenuator
600 Ω: 270 Ω (1-249-410-11) + 330 Ω (1-249-411-11)
Playback
Main unit
AUDIO OUT
VIDEO OUT
L
R
47k Ω(1-249-437-11)
Monitor TV
Adjustment Page
Distortion meter
F
Adjustment Address
Specified Value
7D
The Main and Sub channel distortion
rate should be almost the same
(within ± 1%) and minimum.
Adjusting method:
2) Set the Hi-Fi SOUND switch (menu display) to “2”.
3) Select page: F, address: 7D, change the data and minimize the
distortion rate.
4) Press the PAUSE button.
6) Select page: F, address: 7D, change the data and minimize the
distortion rate.
8) Repeat steps 2) to 7) and set the data of address: 7D so that the
distortions rates when the Hi-Fi SOUND switch is set to “2”
and set to “1” respectively are almost the same and minimum.
11) Set the Hi-Fi SOUND switch to “STEREO”.
Recording
Pattern generator
Measurement Point
For BPF adjustment
(WR5-11NS (NTSC))
(WR5-11CS (PAL))
AUDIO OUT jack LEFT or RIGHT
47k Ω
47k Ω
Audio level meter
or distortion meter
Fig. 5-3-18.
5-31
4. Digital8 Playback Level Check
Mode
Playback
2. Hi8/Standard8 AFM 1.5 MHz Deviation Adjustment
(VC-250 board)
Adjust to the optimum 1.5MHz audio FM signal deviation.
If the adjustment is not correct, its playback level will differ from
that of other units.
Mode
Playback
Signal
Measurement Point
For checking AFM stereo operation
Monoscope section
(WR5-9NS (NTSC))
(WR5-9CS (PAL))
Adjustment Page
Audio level meter
F
Adjustment Address
Specified Value
7B
–7.5 ± 2.0dBs
Signal
Measurement Point
Specified Value
Adjusting method:
3) Select page: F, address: 7B, change the data and set the 400Hz
signal level to the specified value.
5) Set the Hi-Fi SOUND switch (menu display) to “STEREO”.
Audio level meter and frequency
counter
32 kHz mode: 1 kHz, +3.0 ± 2.0dBs
48 kHz mode: 1 kHz, +3.0 ± 2.0dBs
44.1 kHz mode:
The 7.35kHz signal level during EMP
OFF is +2.0 ± 2.0dBs.
The 7.35kHz signal level during EMP
ON is –6 ± 2 dB from the signal level
during EMP OFF.
Checking Method:
1) Check that the playback signal level is the specified value.
5. Overall Level Characteristics Check
3. Hi8/Standard8 AFM 1.7 MHz Deviation Adjustment
(VC-250 board)
Adjust to the optimum 1.7MHz audio FM signal deviation.
If improper, this causes deteriorated separation (with stereo signal).
Mode
Playback
Signal
Digital8 alignment tape:
For audio operation check
(WR5-3ND (NTSC))
(WR5-3CD (PAL))
Mode
Signal
Recording and playback
400Hz, –7.5dBs signal: Audio
terminal left and right of AUDIO/
VIDEO INPUT jack
Measurement Point
Audio level meter
Specified Value
–7.5 ± 3.0dBs
Measurement Point
For checking AFM stereo operation
Monoscope section
(WR5-9NS (NTSC))
(WR5-9CS (PAL))
Checking Method:
1) Input the 400Hz, –7.5dBs signal in the audio terminal left and
right of AUDIO/VIDEO INPUT jack.
2) Record the signal.
3) Playback the recorded section.
4) Check that the 400Hz signal level is the specified value.
Adjustment Page
Oscilloscope
F
6. Overall Distortion Check
Adjustment Address
Specified Value
7C
–7.5 ± 2.0dBs
Adjusting method:
3) Select page: F, address: 7C, change the data and set the 1kHz
signal level to the specified value.
5) Set the Hi-Fi SOUND switch (menu display) to “STEREO”.
Mode
Signal
terminal left and right of AUDIO/
VIDEO INPUT jack
Measurement Point
Audio distortion meter
Specified Value
Below 0.4%
(200Hz to 6kHz BPF ON)
Checking Method:
1) Input the 400Hz, –7.5dBs signal in the audio terminal left and
right of AUDIO/VIDEO INPUT jack.
4) Check that the distortion is the specified value.
5-32
7. Overall Noise Level Check
Mode
Signal
Measurement Point
Specified Value
8. Overall Separation Check
Mode
No signal: Audio terminal left and
right of AUDIO/VIDEO INPUT jack
Signal
Audio level meter
Below –45dBs
(IHF-A filter ON, 20kHz LPF ON)
Checking Method:
1) Connect the audio terminal left of AUDIO/VIDEO INPUT jack
and its ground terminal with a jumper wire.
2) Connect the audio terminal right of AUDIO/VIDEO INPUT
jack and its ground terminal with a jumper wire.
5) Check that the noise level is the specified value.
6) Remove the jumper wires.
Measurement Point
No signal: Audio terminal <left>
[right] of AUDIO/VIDEO INPUT
jack
terminal <right> [left] of AUDIO/
VIDEO INPUT jack
AUDIO OUT jack <LEFT> [RIGHT]
Specified Value
Audio level meter
Below –40dBs
< > : Left channel check
[ ] : Right channel check
Checking Method:
1) Connect the audio terminal <left> [right] of AUDIO/VIDEO
INPUT jack and its ground terminal with a jumper wire.
2) Input the 400Hz, –7.5dBs signal in the audio terminal <right>
[left] of AUDIO/VIDEO INPUT jack.
5) Check that the signal level of the AUDIO OUT <LEFT>
[RIGHT] jack is the specified value.
6) Remove the jumper wires.
5-33
3-8.
1. LCD Initial Data Input (1)
Mode
VTR stop
LCD SYSTEM ADJUSTMENT
(GV-D800/D800E)
Note 1: The back light (fluorescent tube) is driven by a high voltage AC
power supply. Therefore, do not touch the back light holder to
avoid electrical shock.
Note 2: When replacing the LCD unit, be careful to prevent damages
caused by static electricity.
Note 3: Set the LCD BRIGHT to the center.
Set the LCD COLOR (Menu display) to the center.
Signal Name
VB
VG
VR
C SYNC/HD
GND
Pin No.
2
4
6
8
10
AB to BA
3)
Address
AB
AC
AD
AE
AF
B0
B1
B2
B3
B4
B5
B6
B7
B8
B9
BA
Signal Name
XVD OUT
PANEL COM
SH/CA
XHD OUT
GND
1
Adjustment Address
Note: To write in the non-volatile memory (EEPROM), press the
PAUSE button of the adjustment remote commander each time
to set the data.
Table. 5-3-11.
PD-130 board
No signal
C
Adjusting method:
2) Select page: C, and input the data in the following table.
[Adjusting connector]
Most of the measuring points for adjusting the LCD system are
concentrated in CN5502 of the PD-130 board. Connect the
measuring instruments via the multi CPC jig (J-6082-311-A). The
following table shows the Pin No. and signal name of CN5502.
Pin No.
1
3
5
7
9
Signal
Adjustment Page
9
CN5502
2 10
Data
53
00
90
CB
6C
2C
00
00
20
0A
24
1A
0F
17
21
23
Remark
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Table. 5-3-12.
Fig. 5-3-19.
5-34
2. LCD Initial Data Input (2)
Mode
VTR stop
Signal
Adjustment Page
No signal
D
Adjustment Address
A0 to B1
3. VCO Adjustment (PD-130 board)
Set the VCO free-run frequency. If deviated, the LCD screen will
be blurred.
Mode
VTR stop
Adjusting method:
2) Select page: D, and input the data in the following table.
Note: To write in the non-volatile memory (EEPROM), press the
PAUSE button of the adjustment remote commander each time
to set the data.
3)
Signal
Measurement Point
No signal
Pin 8 of CN5502 (XHD OUT)
Adjustment Page
Frequency counter
D
Adjustment Address
A2 (NTSC)
A2, A3 (PAL)
f = 15734 ± 30Hz (NTSC)
f = 15625 ± 30Hz (PAL)
Specified Value
Address
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
AA
AB
AC
AD
AE
AF
B0
B1
Data
7D
A6
80
70
80
30
00
C0
80
80
50
00
33
14
9F
1F
FC
FF
Remark
Note 1: NTSC: GV-D800
PAL: GV-D800E
Fixed data
Fixed data
VCO adj.
Fixed data
V-COM adj.
RGB AMP adj.
Fixed data
COM AMP adj.
White balance adj.
White balance adj.
Contrast adj.
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Fixed data
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
D
A2
3
D
A2
Change the data and set the VCO
frequency (f) to the specified
value.
Press PAUSE button.
4
5
D
Only for NTSC model, proceed
to step 10.
Read the data, and this data is
named DA2.
A2
6
Convert DA2 to decimal
notation, and obtain DA2’.
(Note2)
7
Calculate DA3’ using following
equations (Decimal calculation)
When DA2’ 23
DA3’= DA2’ – 23
When DA2’ < 23
DA3’ = 00
Convert DA3’ to a hexadecimal
number, and obtain DA3.
(Note2)
Table. 5-3-13.
8
9
D
A3
DA3
10
0
01
00
button.
Set the data.
Note 2: Refer to “Table 5-4-1. Hexadecimal-decimal Conversion Table”.
5-35
5. Contrast Adjustment (PD-130 board)
Set the level of the VIDEO signal for driving the LCD to the specified
value. If deviated, the screen image will be blackish or saturated
(whitish).
Mode
VTR stop
4. RGB AMP Adjustment (PD-130 board)
Set the D range of the RGB decoder used to drive the LCD to the
specified value. If deviated, the LCD screen will become blackish
or saturated (whitish).
Mode
VTR stop
Signal
Measurement Point
No signal
Pin 3 of CN5502 (VG)
External trigger: Pin 4 of CN5502
(PANEL COM)
Signal
Measurement Point
No signal
Pin 3 of CN5502 (VG)
External trigger: Pin 4 of CN5502
(PANEL COM)
Adjustment Page
Oscilloscope
D
Adjustment Page
Oscilloscope
D
Adjustment Address
Specified Value
A5
A = 3.59 ± 0.05V
Adjustment Address
Specified Value
AA
A = 3.34 ± 0.07V
Note: Press the DISPLAY button and erase the screen indicators.
Adjusting method:
Procedure
1
0
01
01 Set the data.
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
D
A5
3
D
A5
4
0
01
voltage (A) between the reversed
waveform pedestal and nonreversed waveform pedestal to
the specified value.
“3F”.)
Press PAUSE button.
00
2
D
AA
3
D
AA
4
0
01
voltage (A) between the 100 IRE
and 0 IRE (pedestal) to the
specified value.
“7F”.)
Press PAUSE button.
00
Set the data.
Set the data.
Pedestal
100 IRE
A
A
2H
2H
Pedestal
0 IRE
Fig. 5-3-20.
Fig. 5-3-21.
5-36
6. COM AMP Adjustment (PD-130 board)
Set the common electrode drive signal level of LCD to the specified
value.
Mode
VTR stop
Signal
Measurement Point
No signal
Pin 4 of CN5502 (PANEL COM)
Adjustment Page
Oscilloscope
D
Adjustment Address
Specified Value
A7
A = 6.33 ± 0.05Vdc
7. V-COM Adjustment (PD-130 board)
Set the DC bias of the common electrode drive signal of LCD to the
specified value.
If deviated, the LCD display will move, producing flicker and
conspicuous vertical lines.
Mode
VTR stop
Signal
Measurement Point
Adjustment Page
Adjustment Address
Specified Value
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
D
A7
3
D
A7
4
0
01
D
A4
The brightness difference between the
section A and section B is minimum.
Note: Perform “RGB AMP Adjustment”, “Contrast Adjustment” and
“COM AMP Adjustment” before this adjustment.
PANEL COM signal level (A) to
the specified value.
Press PAUSE button.
00
No signal
Check on LCD display
Adjusting method:
Procedure
1
0
01
01 Set the data.
Set the data.
2
D
A4
3
D
A4
Change the data so that the
brightness of the section A and
that of the section B is equal.
Subtract 8 from the data.
4
5
D
0
A4
01
Press PAUSE button.
Set the data.
00
A
B
A
A
B
B
A
A
B
2H
Fig. 5-3-22.
Fig. 5-3-23.
5-37
8. White Balance Adjustment (PD-130 board)
Correct the white balance.
If deviated, the reproduction of the LCD screen may degenerate.
Mode
VTR stop
Signal
Measurement Point
No signal
Check on LCD screen
Adjustment Page
D
Adjustment Address
Specified Value
A8, A9
The LCD screen should not be
colored.
Note 1: Check the white balance only when replacing the following parts.
If necessary, adjust them.
1. LCD panel
2. Light induction plate
3. IC5501
Adjusting method:
Procedure
1
0
01
01 Set the data.
2
D
A8
80
3
D
A9
80
4
D
A9
5
D
A8
6
D
A8
7
D
A9
8
D
A9
9
D
A9
10
0
01
button.
button.
Check that the LCD screen is
not colored. If not colored,
proceed to step 10.
Change the data so that the LCD
screen is not colored.
Press PAUSE button.
Change the data so that the LCD
screen is not colored.
Press PAUSE button.
00
If the LCD screen is colored,
repeat steps 5 to 9.
Set the data.
5-38
5-4. SERVICE MODE
4-1.
ADJUSTMENT REMOTE COMMANDER
2. Precautions Upon Using
the Adjustment Remote Commander
Mishandling of the adjustment remote commander may erase the
correct adjustment data at times. To prevent this, it is recommended
that all adjustment data be noted down before beginning adjustments
and new adjustment data after each adjustment.
The adjustment remote commander is used for changing the
calculation coefficient in signal processing, EVR data, etc. The
adjustment remote commander performs bi-directional
communication with the unit using the remote commander signal
line (LANC). The resultant data of this bi-directional communication
is written in the non-volatile memory.
1. Using the Adjustment Remote Commander
1) Connect the adjustment remote commander to the LANC
terminal.
2) Set the HOLD switch of the adjustment remote commander to
“HOLD” (SERVICE position). If it has been properly
connected, the LCD on the adjustment remote commander will
display as shown in Fig. 5-4-1.
Page
Data
Address
Fig. 5-4-1.
3)
Operate the adjustment remote commander as follows.
• Changing the page
The page increases when the EDIT SEARCH+ button is
pressed, and decreases when the EDIT SEARCH– button is
pressed. There are altogether 16 pages, from 0 to F.
Hexadecimal
0 1 2 3 4 5 6 7 8 9 A B C D E F
notation
LCD Display
0 1 2 3 4 5 6 7 8 9 A b c d E F
Decimal notation
conversion value 0 1 2 3 4 5 6 7 8 9 1011 12 1314 15
4)
• Changing the address
The address increases when the FF (M) button is pressed,
and decreases when the REW (m) button is pressed. There
are altogether 256 addresses, from 00 to FF.
• Changing the data (Data setting)
The data increases when the PLAY (N) button is pressed,
and decreases when the STOP (x) button is pressed. There
are altogether 256 data, from 00 to FF.
• Writing the adjustment data
The PAUSE button must be pressed to write the adjustment
data (C, D, E, F, 7, 8 page) in the nonvolatile memory. (The
new adjusting data will not be recorded in the nonvolatile
memory if this step is not performed.)
After completing all adjustments, turn off the main power
supply (8.4 V) once.
5-39
4-2.
DATA PROCESS
The calculation of the DDS display and the adjustment remote
commander display data (hexadecimal notation) are required for
obtaining the adjustment data of some adjustment items. In this case,
after converting the hexadecimal notation to decimal notation,
calculate and convert the result to hexadecimal notation, and use it
as the adjustment data. Indicates the hexadecimal-decimal
conversion table.
Hexadecimal-decimal Conversion Table
Lower digit of
hexadecimal
0
1
2
3
2
4
5
6
7
8
9
A
(A)
B
(b)
C
(c)
D
(d)
E
(E)
F
(F)
Upper digit
of hexadecimal
1
0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
2
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
3
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
4
64
65
66
67
68
69
70
71
72
73
74
77
76
77
78
79
5
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
6
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
7
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
8
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
9
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
A (A)
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
B (b)
176
179
180
181
182
183
184
185
186
187
188
189
190
191
C (c)
177
193
178
192
194
195
196
197
198
199
200
201
202
203
204
205
206
207
D (d)
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
E (E)
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
F (F)
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
Note: The characters shown in the parenthesis ( ) shown the display on the adjustment remote commander.
(Example) If the DDS display or the adjustment remote commander shows BD (bd);
Because the upper digit of the adjustment number is B (b), and the lower digit is D (d), the meeting point
“189” of 1 and 2 in the above table is the corresponding decimal number.
Table. 5-4-1.
5-40
4-3.
2. Emergence Memory Address
SERVICE MODE
2-1. C Page Emergence Memory Address
Page C
Address F4 to FF
Additional note on adjustment
Note: After the completion of the all adjustments, cancel the service mode
by either of the following ways.
1) After data on page: D and F is restored, unplug the main power
supply and remove the coin lithium battery. ( In this case, date
and time and menu setting have been set by users are canceled.
Perform resetting.)
2) After data on page: D and F is restored, select page: 0, address:
01, and return the data to 00. And when data on page:2 and 3 are
changed, return data to the original condition.
Address
Contents
F4
EMG code when first error occurs
F6
F7
1. Setting the Test Mode
Page F
Data
80
81
Address 22
F8
FA
EMG code when second error occurs
Upper: MSW code when shift starts when second
error occurs
Lower: MSW code when second error occurs
FB
Lower: MSW code to be moved when second error
occurs
EMG code when last error occurs
Function
Normal
Test mode
Various emergency prohibitions and releases
Drum emergency, capstan emergency, loading motor
emergency, reel emergency, tape top and end, DEW
detection
FC
FE
FF
Page D
Data
00
02
Address 10
Upper: MSW code when shift starts when first error
occurs
Lower: MSW code when first error occurs
Lower: MSW code to be moved when first error
occurs
Upper: MSW code when shift starts when last error
occurs
Lower: MSW code when last error occurs
Lower: MSW code to be moved when last error
occurs
When no error occurs in this unit, data “00” is written in the above
addresses (F4 to FF). when first error occurs in the unit, the data
corresponding to the error is written in the first emergency address
(F4 to F7). In the same way, when the second error occurs, the data
corresponding to the error is written in the second emergency address
(F8 to FB).
Finally, when the last error occurs, the data corresponding to the
error is written in the last emergency address (FC to FF).
Function
Normal
Forced VTR power ON
• Before setting the data , select page: 0, address: 01, and set data:
01.
• For page D and F, the data set will be recorded in the non-volatile
memory by pressing the PAUSE button of the adjustment remote
commander. In this case, take note that the test mode will not be
exited even when the main power is turned off (8.4Vdc).
• After completing adjustments/repairs, be sure to return the data
of page: D address: 10 to 00, and the data of page: F address: 22
to 80, and press the PAUSE button of the adjustment remote
commander. And select page: 0, address: 01, and set data: 00.
Note : After completing adjustments, be sure to initialize the data of
addresses F4 to FF to “00”.
Initializing method:
2) Select page: 3, address: 01, set data: 37, and press the PAUSE
button.
5-41
2-2. F Page Emergence Memory Address
2-3. EMG Code (Emergency Code)
Codes corresponding to the errors which occur are written in C
page, addresses F4, F8 and FC (or F page, addresses 10, 14 and 18).
The type of error indicated by the code are shown in the following
table.
Code
Emergency Type
Note 1: Emergence of PB mode only.
Page F
Address 10 to 1B
Address
Contents
10
EMG code when first error occurs
12
13
Upper: MSW code when shift starts when first error
occurs
Lower: MSW code when first error occurs
Lower: MSW code to be moved when first error
occurs
14
16
EMG code when second error occurs
Upper: MSW code when shift starts when second
error occurs
Lower: MSW code when second error occurs
17
Lower: MSW code to be moved when second error
occurs
EMG code when last error occurs
18
1A
1B
00
10
No error
Loading motor emergency during loading
11
22
Loading motor emergency during unloading
T reel emergency during normal rotation
23
S reel emergency during normal rotation
T reel emergency (Short circuit between S reel
24
Upper: MSW code when shift starts when last error
occurs
Lower: MSW code when last error occurs
Lower: MSW code to be moved when last error
occurs
When no error occurs in this unit, data “00” is written in the above
addresses (10 to 1B). when first error occurs in the unit, the data
corresponding to the error is written in the first emergency address
(10 to 13). In the same way, when the second error occurs, the data
corresponding to the error is written in the second emergency address
(14 to 17).
Finally, when the last error occurs, the data corresponding to the
error is written in the last emergency address (18 to 1B).
Note 2: After completing adjustments, be sure to initialize the data of
addresses 10 to 1B to “00”.
button.
3) Select address: 11 to 1B and set data “00” into them in the
same way as in address: 10.
5-42
30
terminal and T reel terminal)
FG emergency at the start up of the capstan
40
42
FG emergency at the start up of the drum
FG emergency during normal rotation of the drum
2-4. MSW Code
• The lower parts of the data of C page, addresses F6, FA and FE
(or F page, addresses 12, 16 and 1A) represent the MSW codes
(mode switch mechanism position) when errors occurs.
• The upper parts of the data of C page, addresses F6, FA and FE
(or F page, addresses 12, 16 and 1A) represent, when the
mechanism position is to be moved, the MSW codes at the start
movement (when moving the loading motor).
• The lower parts of the data of C page, addresses F7, FB and FF
(or F page, addresses 13, 17 and 1B) represent the MSW codes
of the desired movement when the mechanism position is to be
moved.
← Unloading
Mechanism position
BL STOP BL
TURN
BL
REC/PB
BL
REW
0 1 0 1 = 5
0 1 1 1 = 7
0 0 0 0 = 0
0 1 1 1 = 7
0 1 0 0 = 4
0 1 1 1 = 7
0 1 1 0 = 6
MODE SW A
Loading →
LOAD
0 1 1 1 = 7
0 0 1 0 = 2
MODE SW B
BL
0 1 1 1 = 7
0 0 1 1 = 3
MODE SW C
USE
BL
0 1 1 1 = 7
0 0 0 1 = 1
MSB
EJECT
LS chassis movement range
Pinch roller is detached
Pinch roller is pressed
Releasing lock of
cassette campartment
Mechanism Position MSW Code
EJECT
1
BL
7
USE
3
LOAD
2
STOP
6
TURN
4
REC/PB
0
REW
5
Contents
Position at which the cassette compartment lock is released. The mechanism will not move any
further in the unloading direction.
BLANC code. Between two codes. The mechanism will not be stopped by this code while it is
operating.
EJECT completion position. When the cassette is ejected, the mechanism will stop at this
position.
Code during loading/unloading. Code that is used while the LS chassis is moving.
Normal stop position. The pinch roller separates, the tension regulator returns, and the brakes of
both reels turn on.
Position at which is used when the pendulum gear swings from S to T or from T to S.
PB, REC, CUE, REV, PAUSE, FF positions.
The pinch roller is pressed and tension regulator is on.
REW position. REW are carried at this position.
The mechanism will not move any further in the loading direction.
5-43
3. Bit Value Discrimination
Bit values must be discriminated using the display data of the
adjustment remote commander for the following items. Us the table
below to discriminate if the bit value is “1” or “0”.
Display on the
adjustment
remote
commander
0
1
2
3
4
5
6
7
A
8
9
A (A)
B (b)
C (C)
D (d)
E (E)
B
F (F)
Display on the adjustment remote commander
Address
Page
bit3 to bit0 discrimination
bit7 to bit4 discrimination
(Example)
If the remote commander display is “8E”, bit value from bit
7 to bit 4 can be discriminated from the column A, and
those from bit 3 to bit 0 from column B.
4. Switch check (1)
Page 2
Bit
0
1
2
3
4
5
6
7
bit3
or
bit7
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
Address 43
Function
POWER switch (FP-575 flexible S001)
When bit value = 1
OFF
When bit value = 0
ON
Headphone jack (FP-246 flexible J002)
EJECT switch (VC-250 board S4802)
CC DOWN switch (Mechanism chassis)
VIDEO OUTPUT jack (IO-68 board J102)
S VIDEO OUTPUT jack (IO-68 board J103)
Used
OFF
OFF (UP)
Used
Not used
Not used
ON
ON (DOWN)
Not used
Used
Using method:
1) Select page: 2, address: 43.
2) By discriminating the bit value of display data, the state of the switch can be discriminated.
5. Switch check (2)
Page 2
Bit
0
Address 48
Function
AUDIO OUTPUT LEFT jack
(IO-68 board J102)
When bit value = 1
Used
When bit value = 0
Not used
Using method:
6. Switch check (3)
Page 2
Bit
4
5
6
7
Address 49
Function
AUDIO OUTPUT RIGHT jack
(IO-68 board J102)
AUDIO/VIDEO INPUT jack
(FP-246 flexible J001)
When bit value = 1
When bit value = 0
Used
Not used
Used
Not used
S VIDEO INPUT jack (IO-68 board J103) Not used
Used
Using method:
5-44
Bit values
bit2
bit1
or
or
bit6
bit5
0
0
0
0
0
1
0
1
1
0
1
0
1
1
1
1
0
0
0
0
0
1
0
1
1
0
1
0
1
1
1
1
bit0
or
bit4
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
7. Switch check (4)
Page 2
Address 60, 61, 62, 65, 66
Using method:
1) Select page: 2, address: 60, 61, 62, 65, 66.
2) By discriminating the display data, the pressed key can be
discriminated.
Data
Address
00 to 0C
0D to 24
25 to 3F
40 to 5D
60
STOP
PLAY
REC
(KEY AD0)
(FK-78 board) (FK-78 board) (FK-78 board)
(IC4803 od)
(S001)
(S002)
(S003, 004)
61
PAUSE
X2
FRAME –
(KEY AD1)
(FK-78 board) (FK-78 board) (FK-78 board)
(IC4803 of)
(S007)
(S008)
(S009)
62
DATA CODE DISPLAY DIGITAL EFFECT
TITLE
(KEY AD2) (FK-78 board) (FK-78 board) (FK-78 board) (FK-78 board)
(IC4803 og)
(S012)
(S013)
(S014)
(S015)
SUPER
MENU
65
MENU
VOLUME +
LASER LINK
EXECUTE
(KEY AD5)
(IO-68 board)
(IO-68 board)
(IO-68 board)
(IO-68 board)
(IC4803 ok)
(S102)
(S104)
(S101)
(S103)
66
LCD BRIGHT + LCD BRIGHT –
(KEY AD6)
(PD-130 board)(PD-130 board)
(IC4803 ol)
(S601)
(S602)
5E to 81
82 to AA
FF
REW
(FK-78 board) (FK-78 board)
(S005)
(S006)
FRAME +
SLOW
(FK-78 board) (FK-78 board)
(S010)
(S011)
PB ZOOM
(FK-78 board)
(S016)
AB to D7
No key input
No key input
No key input
VOLUME –
(IO-68 board)
(S105)
No key input
PANEL CLOSE PANEL OPEN
(LS-56 board) (LS-56 board)
(S001)
(S001)
8. Record of Use check
Note: When replacing the drum assembly, initialize the data of address:
A2 to AA.
Page 2
Bit
A2
A3
A4
A5
A6
A7
A8
A9
AA
Address A2 to AA
Function
Drum rotation
counted time
(BCD code)
User initial power
on date
(BCD code)
Final condensation
occurrence date
(BCD code)
Remarks
Minute
Hour (L)
Hour (H)
Year
Month
Day
Year
Month
Day
10th place digit and 1st place digit of counted time (decimal digit)
1000th place digit and 100th place digit of counted time (decimal digit)
After setting the clock, set the date of power on next
Using method:
1) The record of use data is displayed at page: 2, addresses: A2 to AA.
Note: This data will be erased (reset) when the FP-571 flexible (VC-250 board CN926 (4P)) is removed.
1) Using the adjustment remote commander, select the object address and set data: 00.
5-45
D8 to FF
9. Record of Self-diagnosis check
Page 2
Address B0 to C6
Address
B0
B1
B2
B4
B5
B6
B8
B9
BA
BC
BD
BE
C0
C1
C2
C4
C5
C6
Self-diagnosis code
“Repaired by” code (Occurred 1st time) *1
“Block function” code (Occurred 1st time)
“Detailed” code (Occurred 1st time)
“Repaired by” code (Occurred 2nd time) *1
“Block function” code (Occurred 2nd time)
“Detailed” code (Occurred 2nd time)
“Repaired by” code (Occurred 3rd time) *1
“Block function” code (Occurred 3rd time)
“Detailed” code (Occurred 3rd time)
“Repaired by” code (Occurred 4th time) *1
“Block function” code (Occurred 4th time)
“Detailed” code (Occurred 4th time)
“Repaired by” code (Occurred 5th time) *1
“Block function” code (Occurred 5th time)
“Detailed” code (Occurred 5th time)
“Repaired by” code (Occurred the last time) *1
“Block function” code (Occurred the last time)
“Detailed” code (Occurred the last time)
*1 : “01” t “C”, “03” t “E”
Using method:
1) The past self-diagnosis codes are displayed at page:2, addresses: BC to C6. Refer to “SELF-DIAGNOSIS FUNCTION” for detail of the
self-diagnosis code.
Note: This data will be erased (reset) when the FP-571 flexible (VC-250 board CN926 (4P)) is removed.
5-46E

GV-D200/D200E/D800/D800E

Transcription

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