A
1
2
3
4
5
6
7
8
9
10
K
J
I
H
G
F
E
D
C
B
L
N
M
133
RX-V683/RX-A770
RM
-
RM-
VOL_RBVOL_RB
REM_IN
FLD_SCK
ISEL_R
B
MIC_N_DE
T
RM+
PSW_DET
FLD_MOSI
KEY1
ISEL_R
A
RM
+
VOL_RAVOL_RA
PD_LED
STBY_LED
KEY2
ISEL_RB
ISEL_RA
REM_IN
FLD_N_RS
T
FLD_N_CS
K E Y 2
M I C
M I C _ N _ D E T
MI
C
PSW_DE
T
VOL_RB
VOL_RA
STBY_LE
D
PSW_DET
PD_LED
KEY1
F L D _ N _ R S T
F L D _ N _ R S T
F L D _ N _ C S
F L D _ N _ C S
F L D _ S C K
F L D _ S C K
F L D _ M O S I
F L D _ M O S I
D G N D
C 4 0 3 2
1 0 0 0 P ( B )
R404
8
22
K
SW40
3
SKRGAAD010
C B 4 7 6
P H L
R450
6
100K
R 3 1 0 5
1 . 5 K
R4025
10
K
F 2
- 1 2 V
C 4 0 2 4
0 . 1 / 1 6
R 4 0 5 3
6 . 8 K
S W 3 4 1
S K R G A A D 0 1 0
R 4 7 6 4
1 K
SW31
3
SKRGAAD010
C 4 0 2 6
1 0 0 P ( S L )
SW41
1
SKRGAAD010
R 3 1 0 3
1 K
+ 3 . 3 M
+ 3 . 3 M
C403
0
0.1/16
C402
2
220P(SL)
F G
C B 4 0 4
5 1 0 4 8
R310
6
33
K
R450
3
10
K
SW31
2
SKRGAAD010
N J M 4 5 6 5 M
5
6
7
D
4
5
0
3
U
D
Z
V
5
.
1
B
C 4 5 1 2
1 0 / 1 6
R 4 6 0 3
4 7 K
C4014
470/16
R 4 0 4 6
1 . 5 K
Q 4 0 0 7
S C 5 9 6 4 - T D - E
SW31
5
SKRGAAD010
0.1/16
C402
1
R 4 0 2 2
4 7 K
R 4 6 0 2
1 0 K
C 4 7 6 1
1 0 0 0 P ( B )
F G
C B 3 4 1
5 1 0 4 8
R P 1 3 0 Q 3 3 1 D - T R - F
I C 4 0 1
VD
D
GN
D
VOUT
CE/C
E
C476
4
0.01(B
)
C 4 0 3 7
0 . 1 / 1 6
R404
1
100
C451
0
no_use
C 4 0 3 1
1 0 0 0 P ( B )
F 1
SW41
2
SKRGAAD010
J 4 0 0 2
n o _ u s e
SW41
0
SKRGAAD010
SW31
7
SKRGAAD010
C450
6
100P(SL)
SW31
1
SKRGAAD010
SW40
4
SKRGAAD010
D476
3
no_use
C B 4 5 1
5 1 0 4 8
FG
C B 4 0 1
5 1 0 4 8
SW40
9
SKRGAAD010
R 4 7 6 1
1 K
R 4 0 4 5
1 K
R 3 1 0 2
1 K
R 4 0 2 1
4 7 K
M S J - 0 6 4 - 0 5 B - B - R
J K 4 7 6
L
G N D
R
C
4
0
2
8
4
.
7
/
6
.
3
R 3 1 0 4
6 8 K
R 4 6 0 4
4 7 K
J400
1
+ 5 . 5
C450
1
1000P(B)
+ 1 2 V
+ 5 . 5
4 . 7 K
R 4 5 0 1
R 4 5 0 5
2 2 0
+ 3 . 3 M
R 4 0 5 0
3 . 3 K
C 4 0 3 9
1 0 0 0 P
+ 3 . 3 F L D
D
4
0
0
3
S
L
R
3
4
3
B
C
4
T
3
F
C 4 0 1 0
0 . 1 / 1 6
R
4026
1K
C402
0
100/6.
3
C 4 0 2 5
1 0 0 P ( S L )
R 4 6 0 1
1 0 K
C 4 6 0 3
0 . 1 / 1 6
C450
7
47/6.3
C450
4
22/1
6
R450
8
47
0
D340
1
8
224-10SDRD/S53
W 4 0 1 A
1 0 K
R 4 0 3 5
10
K
R405
4
R 4 5 0 4
1 K
S T 4 7 6
E
C 4 0 3 8
1 0 0 0 P
C 4 0 3 5
0 . 1 / 1 6
J K 4 5 1
J Y - 3 5 5 4 - 0 1 - 1 3 0
1
000P(B)
C401
2
+ 3 . 3 M
R 4 0 5 5
1 0 K
R
401
9
no_use
R
402
3
10
K
1
000P(B
)
C
4013
C 4 0 2 7
n o _ u s e
V +
SW40
6
SKRGAAD010
S I R - 5 0 5 S T A 4 7
D 4 0 1 6
SW40
5
SKRGAAD010
C4015
0.022
@value
J450
1
C450
3
0.01(B
)
R 4 0 4 4
1 K
C451
1
22/1
6
SW31
6
SKRGAAD010
SW31
4
SKRGAAD010
+ 5 . 5
R 4 0 5 2
4 . 7 K
R
402
0
1
.2K
R 4 0 4 7
1 . 8 K
C450
8
22/1
6
R 4 5 0 9
1 2 K
R403
7
10
K
R 4 5 0 2
1 K
+ 3 . 3 M
C476
5
1000P(B)
+ 5 . 5
R451
1
100K
R 3 1 0 1
2 2 K
1000P(B)
C460
2
SW40
7
SKRGAAD010
R 4 0 3 6
1 0 0
W 4 0 1 B
D401
5
UDZV3.9
B
F G
R476
2
2.
2
C 4 0 2 9
0 . 1 / 1 6
R404
0
10
0
SW40
2
SKRGAAD010
C450
5
no_use
R 4 0 4 9
2 . 2 K
R403
9
100
C402
3
1/25
R
402
4
10
K
Q 4 0 0 8
S C 5 9 6 4 - T D - E
W 4 0 0 1
F G
R 4 0 4 2
1 0 0 K
SW40
8
SKRGAAD010
F G
R 3 1 0 7
1 . 5 K
+ 3 . 3 M
SW31
8
SKRGAAD010
R 4 0 5 1
2 . 2 K
N J M 4 5 6 5 M
3
2
1
C401
1
0.1/16
C 4 0 3 6
0 . 1 / 1 6
1000P(B)
C460
1
10
K
R404
3
R403
8
10
0
E
+ 1 2 V
- 1 2 V
C 4 0 3 4
1 0 0 0 P
C 4 0 3 3
1 0 0 0 P
+ 3 . 3 M
F G
R 4 5 0 7
4 . 7 K
G 3 1 0 1
n o _ u s e
G 4 5 0 1
S W 4 0 1
E C 1 2 E 2 4 6 0 8 1 4
C O M
B
A
D476
1
1SS355VM
D476
2
1SS355VM
D
4004
no_us
e
D 4 0 1 0
1 S S 3 5 5 V M
D 4 0 0 8
1 S S 3 5 5 V M
D450
2
1SS355VM
D 4 6 0 2
n o _ u s e
D
4
0
0
5
no_us
e
D 4 0 0 2
n o _ u s e
D 4 0 0 9
1 S S 3 5 5 V M
D 4 0 0 1
n o _ u s e
D
4
5
0
1
1
S
S
3
5
5
V
M
D 4 6 0 1
n o _ u s e
D 4 0 0 7
1 S S 3 5 5 V M
D400
6
1SS355V
M
Q340
1
D
TC014EUBTL
Q 4 0 0 4
D T C 0 1 4 E U B T L
Q 4 0 0 5
D T C 0 1 4 E U B T L
D G N D
D G N D
D G N D
D G N D
D G N D
D G N D
D G N D
D G N D
D G N D
D G N D
D G N D
R 4 5 1 0
8 . 2 K
L 4 0 0 1
1 0 0 U H
C 4 5 0 2
1 0 / 5 0
R P M 7 2 3 8 - H 9 R
U 4 0 1
VOUT
GN
D
VC
C
D
4012
1SS355VM
+ V P
C4018
2
.2/50
D G N D
R 4 0 2 7
1 . 0
D
401
3
1
SS355VM
R 4 0 2 8
4 . 7 K
C401
9
0.1/1
6
R4029
100
CB40
2
5204
3 3 K
R 4 0 3 1
T 4 0 0 1
Z J 3 7 5 6 0
1
1 0
2
3
4
5
8
6
7
9
FLP_PO
N
FLP_PO
N
FLP_PO
N
R403
2
10
R4030
47K
Q 4 0 1 0
D T C 0 1 4 E U B T L
Q 4 0 0 9
2 N 5 5 5 1 C - A T / P
X R E B 1 2 5 0 5 P V B 2 5 F
S W 4 6 1
C O M
B
A
C
401
6
1/100
C476
3
3 3 0 0 P / 1 0 0
C476
2
3 3 0 0 P / 1 0 0
R A L 0 3 5 P 0 1
Q 4 0 0 6
1
2
3
4
5
6
W 4 0 0 2
R4033
33
R400
5
100K
+ 3 . 3 F L D
+ V P
0 2 0 B T 0 0 9 G I N K
V 4 0 0 1
F1
9
Q
15G
1 2
20
G
8
Q
16G
1 1
16
G
1 0
15
G
7
Q
20G
5 3
TS
B
5 4
TS
A
5 5
DA
5 6
CP
5 7
CS
5 8
RESE
T
5 9
OS
C
6 0
VD
D
6 1
VH
6 2
P
GND
6 3
L
GND
6 9
F2
C400
3
n
o_use
Q 4 0 0 2
K T C 3 8 7 5 S - Y , G R - R
C400
5
no_use
R400
8
100K
R 4 0 1 7
1 0
R 4 0 1 0
0
D G N D
Q 4 0 0 3
K T C 3 8 7 5 S - Y , G R - R
R401
5
no_us
e
F 2
R
4003
39K
R 4 0 1 8
1 0
R 4 0 1 1
0
F 1
R4014
820K
R 4 0 0 1
1 0 0
R
4006
39K
C
400
8
0.1/50(F)
R 4 0 1 2
0
C4004
1000P(B)
R 4 0 0 4
1 0 0
R
4009
39K
R 4 0 1 3
1 0 0
C400
6
0.1/16
R 4 0 0 7
1 0 0
D G N D
C4001
no_us
e
C400
7
no_use
R
400
2
1
00K
C4002
no_use
Q 4 0 0 1
K T C 3 8 7 5 S - Y , G R - R
R401
6
33
K
C400
9
22/5
0
P
S2_PRT
PS2_PR
T
CB40
3
5204
R360
1
470K
D360
1
1SS355VM
R 3 6 0 3
4 7 0
MSJ-035-18L-B-
A
J K 3 6 1
R
L
E
R360
2
470K
C360
3
0.1/16
C360
2
6800P(B)
D360
2
1SS355VM
R 3 6 0 4
4 7 0
F G
C360
1
6800P(B)
G 3 6 0 1
T P 0 0 3 8 5
G 1
G 2
G 3
C B 4 0 5
5 1 0 4 8
1
2
3
C B 3 6 1
5 1 0 4 8
1
2
3
R 4 7 6 3
1 P 5 6 0
R 4 7 6 5
1 P 5 6 0
R4034
100K
C404
0
0.1/16
D401
7
1SS355VM
D401
8
1SS355VM
F G
W 4 0 0 3
D
401
1
UDZV22B
D
4021
UDZV20B
3 3 0
R 3 4 0 1
C
401
7
1/50
L 4 7 6 1
B L M 1 8 P G 4 7 1 S N 1 D
P N 4 7 6
n o _ u s e
Q 4 0 1 1
K T C 3 5 7 2 - A T / H
C 4 5 0 9
8 2 P ( S L )
L 4 7 6 2
B L M 1 8 P G 4 7 1 S N 1 D
L 4 7 6 3
B L M 1 8 P G 4 7 1 S N 1 D
C360
5
no_use
C360
4
no_use
D4014
U
DZV3.9
B
I S E L _ R A
ISEL_R
A
MIC_N_DE
T
I R
V O L _ R A
S T R A I G H T
O P E ( 1 8 )
t o D i g i t a l
D G N D
VOL_RA
Z O N E 2 O N / O F F
P
URE DIRECT
FLD_N_CS
+3.3
M
E
M A S W
B O D Y E A R T H
D G N D
B D D V D
M I C
FLD_MOSI
I N P U T
+ 3 . 3 M
+ 1 2 V
D G N D
RM+
PSW_DE
T
P R E S E T
PS2_PR
T
Z O N E 2 C O N T R O L
M A S W
H P _ N _ D E T
PD_LED
+5.5
- 1 2 V
DGND
V O L _ R B
KEY2
C O N T R O L
KEY1
M I C _ N _ D E T
H P R
T U N I N G
FLD_SC
K
S C E N E 1
T O N E
F r o m
T V
S e l e c t o r
ISEL_R
B
F M
P U R E D I R E C T
DGND
S C E N E 3
I S E L _ R B
S C E N E 2
A M
REM_IN
B O D Y E A R T H
D G N D
F G
+ 3 . 3 M
R A D I O
DGND
N E T
D C - D C / A C C o n v e r t e r f o r V F D
o f S W 3 3 9
P R O G R A M
FLD_PO
N
t o O P E ( 3 )
H P E
+5.5
H P L
VOL_RB
FLD_N_RS
T
S C E N E 4
26Pi
n
STBY_LED
D G N D
RM-
I N F O
+ 3 . 3 F L D
O P E ( 1 0 )
M E M O R Y
+ 3 . 3 M
E
M I C
+ 1 2 V
- 1 2 V
M I C _ N _ D E T
F G
-12V
E
MIC
+12V
S T B Y _ L E D
S T B Y _ L E D
K E Y 1
K E Y 2 - 2
K E Y 1 - 2
K E Y 2 - 2
K E Y 1
K E Y 1 - 2
D G N D
D G N D
+ 3 . 3 M
I S E L _ R B
D G N D
I S E L _ R A
O P E ( 1 6 )
FLP_PO
N
M F 0 0 6 0 7
M F 0 0 5 1 2
4 0 1 - 4 5 0
F L
4 0 0 1 - 4 2 0 0
O P E ( 1 )
4 5 1 - 4 6 0
Y P A O
O P E ( 5 )
4 5 0 1 - 4 6 0 0
O P E ( 7 )
4 7 6 1 - 4 8 0 0
4 7 6 - 4 8 0
H E A D P H O N E
4 6 0 1 - 4 7 0 0
4 6 1 - 4 7 0
I N P U T S E L E C T O R
P O W E R S W I T C H
3 4 0 1 - 3 5 0 0
3 4 1 - 3 5 0
S C E N E S W I T C H
3 1 1 - 3 2 0
3 1 0 1 - 3 2 0 0
(Mini Jack
)
AUX
AUXE
AUXR
AUXL
O P E ( 1 9 )
M i n i J a c k
3 6 0 1 - 3 7 0 0
3 6 1 - 3 7 0
M A I N
M A I N Z O N E
A U X E
A U X R
A U X L
A U X E
A U X R
A U X L
V
DD
CE
Vref
3
4
2
1
Current Limit
V
OUT
GND
Pin No.
1
2
3
4
Symbol
V
OUT
GND
CE
V
DD
Description
Output Pin
Ground Pin
Chip Enable ("H" Active)
Input Pin
IC401
: RP130Q331D-TR-F
Voltage regulator
8
2, 6
3, 5
1, 7
4
V+
–INPUT
+INPUT
V–
OUTPUT
IC451: NJM4565M (TE1)
Dual operational amplifier
OPERATION (1)
OPERATION (18)
OPERATION (7)
OPERATION (10)
OPERATION (16)
OPERATION (19)
OPERATION (5)
YPAO
MIC
Remote control
sensor
Standby indicator
PHONES
SILENT CINEMA
PURE DIRECT
indicator
VOLUME
MAIN ZONE
RESISTOR
REMARKS
NO MARK
PARTS
NAME
CARBON
CARBON
METAL
METAL
METAL
FIRE
CEMENT
SEMI
FILM RESISTOR
FILM RESISTOR
OXIDE FILM RESISTOR
FILM RESISTOR
PLATE RESISTOR
PROOF CARBON FILM RESISTOR
MOLDED RESISTOR
VARIABLE RESISTOR
(P=5)
(P=10)
CHIP RESISTOR
REMARKS
CAPACITOR
PARTS NAME
NO
NO
MARK
MARK
ELECTROLYTIC
CAPACITOR
CERAMIC CAPACITOR
POLYESTER FILM CAPACITOR
POLYSTYRENE FILM CAPACITOR
MICA CAPACITOR
POLYPROPYLENE
FILM CAPACITOR
SEMICONDUCTIVE CERAMIC CAPACITOR
P
TANTALUM CAPACITOR
TUBULAR
S
CAPACITOR
CERAMIC
FILM
SULFIDE
POLYPHENYLENE
CAPACITOR
N O T I C E
U.S.A
G
CANADA
STANDARD
L
CHINA
AUSTRALIA
SINGAPORE
KOREA
GENERAL
U
C
T
A
K
R
JAPAN
(model)
B
BRITISH
J
SOUTH EUROPE
E
V
TAIWAN
F
RUSSIAN
P
LATIN AMERICA
S
BRAZIL
H
THAI
VIDEO AUX
AUDIO
AC5.8V
3.3V
5.46V
3.3V
-12.31V
12.08V
5V
41.5V
42.4V
46.8V
3.24V
5.47V
OPERATION 1/3
Details of colored lines
Red / full line:
Power supply (+)
Red /dashed line: Power supply (-)
Orange:
Signal detect
Yellow:
Clock
Green:
Protection detect
Brown:
Reset signal
Blue:
Panel key input
Key detection for A/D port
Key input (A/D) pull-up resistance: 10 k-ohms
0
Ω
+ 1.0 k
Ω
+ 1.0 k
Ω
+ 1.
5
k
Ω
+ 1.
5
k
Ω
+ 2.2 k
Ω
+ 3.3 k
Ω
+
4
.7 k
Ω
+ 2.2 k
Ω
+ 3.3 k
Ω
Detected voltage value
at
9
1 pin
0 – 0.1
5
V
0.1
5
– 0.
4
2 V
0.
4
3 – 0.70 V
0.71 – 0.
9
7 V
0.
9
8 – 1.2
4
V
1.2
5
– 1.
5
3 V
1.
54
– 1.8
4
V
1.8
5
– 2.22 V
2.23 – 2.62 V
2.63 – 3.0
4
V
A/D value
(3.3 V=2
55
)
0 – 11
12 – 32
33 –
54
55
– 7
5
76 –
95
9
6 – 118
11
9
– 1
4
2
1
4
3 – 162
178 – 1
9
7
1
9
8 – 22
9
K
EY1
RADIO
(SCENE
4
)
NET
(SCENE3)
TV
(SCENE2)
BD/DVD
(SCENE1)
ZONE
CONTROL
ZONE2
INPUT >
(RX-V683
model)
INPUT <
(RX-V683
model)
MAIN ZONE
z
(power)
TONE
CONTROL
0
Ω
+ 1.0 k
Ω
+ 1.0 k
Ω
+ 1.
5
k
Ω
+ 1.8 k
Ω
+ 2.2 k
Ω
+ 3.3 k
Ω
+
4
.7 k
Ω
+ 6.8 k
Ω
+ 10 k
Ω
+ 22 k
Ω
+ 68 k
Ω
Detected voltage value
at
9
2 pin
0 – 0.1
5
V
0.16 – 0.
4
2 V
0.
4
3 – 0.70 V
0.71 – 0.
99
V
1.00 – 1.27 V
1.28 – 1.
5
6 V
1.
5
7 – 1.86 V
1.87 – 2.1
4
V
2.1
5
– 2.3
9
V
2.
4
0 – 2.6
5
V
2.66 – 2.
9
1 V
2.
9
2 – 3.17 V
A/D value
(3.3 V=2
55
)
0 – 11
12 – 32
33 –
54
55
– 77
78 –
9
8
99
– 120
121 – 1
4
3
1
44
– 16
5
166 – 18
5
186 – 20
5
206 – 22
5
226 – 2
45
K
EY2
PURE
DIRECT
TUNING
>>
TUNING
<<
AM
FM
PRESET
>
PRESET
<
MEMORY
INFO
STRAIG
H
T
PROGRAM
>
PROGRAM
<
★
All voltages are measured with a 10M
Ω
/V DC electronic voltmeter.
★
Components having special characteristics are marked
⚠
and must be replaced
with parts having specifications equal to those originally installed.
★
Circuit diagram is subject to change without notice.
●
電圧は、内部抵抗
10M
Ωの電圧計で測定したものです。
●
⚠印のある部品は、安全性確保部品を示しています。部品の交換が必要な場合、
パーツリストに記載されている部品を使用してください。
●
本回路図は標準回路図です。改良のため予告なく変更することがあります。
RX-A770
Summary of Contents for RX-V683
Page 3: ...3 RX V683 RX A770 RX V683 RX A770 FRONT PANELS RX V683...
Page 4: ...4 RX V683 RX A770 RX V683 RX A770 RX A770 U C R T J models RX A770 A F models...
Page 6: ...6 RX V683 RX A770 RX V683 RX A770 RX V683 A model RX V683 B G models RX V683 F model...
Page 7: ...7 RX V683 RX A770 RX V683 RX A770 RX V683 L model RX V683 V model RX V683 S model...
Page 8: ...8 RX V683 RX A770 RX V683 RX A770 RX V683 H model RX A770 U C models RX A770 R model...
Page 9: ...9 RX V683 RX A770 RX V683 RX A770 RX A770 T model RX A770 A model RX A770 F model...
Page 10: ...10 RX V683 RX A770 RX V683 RX A770 RX A770 J model...
Page 11: ...11 RX V683 RX A770 RX V683 RX A770 REMOTE CONTROL PANEL RAV553...
Page 122: ...122 RX V683 RX A770 MEMO MEMO...
Page 187: ...188 RX V683 RX A770 MEMO MEMO...
Page 200: ...201 RX V683 RX A770 RX V683 RX A770 RX A770 RX V770 1 AV AV AV USB...
Page 206: ...207 RX V683 RX A770 RX V683 RX A770 MEMO...
Page 207: ...RX V683 RX A770...