A
1
2
3
4
5
6
7
8
9
10
N
M
L
K
J
I
H
G
F
E
D
C
B
112
RX-V681/RX-A760
ADY
ADPr
ADPb
D V _ S C L
V D E C _ N _ R S T
V D E C _ Y C [ 3 ]
V D E C _ Y C [ 2 ]
V D E C _ Y C [ 1 ]
V D E C _ Y C [ 0 ]
VDEC_N_RS
T
VDEC_CLK
V D E C _ H S
A D Y
A D P r
V D E C _ D E
A D C V B S
A D P b
V D E C _ V S
ADCVB
S
D V _ P O N
VDEC_YC[7]
VDEC_YC[6]
VDEC_YC[5]
VDEC_YC[4]
D V _ S D A
VDEC_C
S
H P D 3 _ F
D S D A 3 _ F
D S C L 3 _ F
R 3 P W R 5 V _ F
DV_SC
L
DV_SD
A
D V _ P O N
T P 2 8 4
C25
5
10/10
C 4 2 1 2
1 0 0 P ( C H )
D G N D
R 4 2 3 6
1 0 K
R4243
10
+ 3 . 3 D V
R 4 2 0 3
5 . 1 K
R 4 2 2 5 4 7 K
R4215
5.1
K
4 5 4 6 4 7 4 8 4 9 5 0 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 6 0 6 1 6 2 6 3 6 4 6 5 6 6
D G N D
Q 2 5 3
C4081UBTLR
R 4 2 3 8
0
D G N D
R 4 2 3 4
4 . 7 K
R30
8
4.7
K
2
5
2
Q
A
1
5
7
6
U
B
T
L
R
C 2 5 0
1 0 / 1 0
D G N D
+ 3 . 3 H F
D25
1
no_us
e
R4209
47KX4
D G N D
+ 3 . 3 D V
L25
3
BKP1005HS680-
T
+ 5 H F
L255
BKP1005HS680-
T
Q 2 5 1
C4081UBTLR
R4220
0X4
R4217
10
R30
0
33
D4205
ESD7004MUTA
G
6
7
8
9
3
1
2
4
5
D V _ P O N
X L 2 1
28.63636MHZ
1
2
3
4
D G N D
C 4 2 0 6
1 0 0 0 P ( B )
C 4 2 2 8
0 . 1 / 1 0 ( B J )
C 4 2 3 5
1 0 0 0 P ( B )
+ 1 . 2 H F
R 4 2 0 2
5 . 1 K
L4203
BKP1005HS680-T
D G N D
R267
150
+ 1 . 8 D V
R 2 8 0
1 K
R424
0
10
DGN
D
C 4 2 3 3
1 0 / 1 0
+ 3 . 3 H F
C25
3
0.1/10(BJ
)
C29
70
.1/10(BJ
)
R 2 5 5
3 6
R4230
22
D4202
no_us
e
R 4 2 1 1 4 7 K
DGND
C 4 2 3 1
1 0 0 0 P ( B )
R 4 2 0 1
5 . 1 K
D G N D
S T 4 2 1
4
1
2
3
R4212
5.1
K
+ 1 . 2 H F
C 2 5 8
0 . 1 / 1 0 ( B J )
TP281
R
2
6
4
3
9
D G N D
L4212
BKP1005HS680-T
C279
1/6.3
C 4 2 4 2
0 . 1 / 1 0 ( B J )
C 4 2 4 6
1 0 0 0 P ( B )
R278
4.7
K
R 4 2 2 8 4 7 K
C 2 5 1
1 / 2 5
V D E C _ C L K , V D E C _ Y C [ 0 - 7 ] , V D E C _ D E , V D E C _ H S , V D E C _ V S , V D E C _ C S
+3.3H
F
C25
2
0.1/10(BJ
)
+ 1 . 8 D V
D G N D
+ 3 . 3 D V
+ 5 H F
R 3 2 1
4 7 X 4
C 4 2 2 3
0 . 1 / 1 0 ( B J )
V D E C _ N _ R S T
C 4 2 2 2
1 0 / 1 0
R26
9
2.2K
T P 2 8 3
R 3 1 4
4 . 7 K
D V _ S C L
D G N D
ADPb
C28
0
no_us
e
+ 1 . 8 D V
ADCVB
S
C 4 2 4 3
0 . 1 / 1 0 ( B J )
C 4 2 2 4
4 . 7 / 6 . 3
R274
1K
R313
47
C 4 2 1 1
1 0 0 0 P ( B )
C 2 9 1
4 7 0 P ( B )
C299
10P(CH
)
+ 1 . 2 H F
C 2 7 3
0 . 1 / 1 0 ( B J )
R27
3
220K
C30
4
10/10
R29
1
680
R
2
7
1
3
9
C 2 6 1
0 . 1 / 1 0 ( B J )
C 4 2 0 8
0 . 1 / 1 0 ( B J )
R29
6
4.7
K
W 4 2 0 1
S C N - X H
D V _ S D A
TP282
+ 3 . 3 V
R424
2
10
+ 1 . 2 H F
R 2 5 9
3 6
R4235
10
R4241
10
C 2 6 2
0 . 1 / 1 0 ( B J )
J251
0
C 4 2 3 2
1 0 0 P ( C H )
DGN
D
C
2
7
7
0
.
1
/
1
0
(
B
J
)
C 2 8 6
0 . 1 / 1 0 ( B J )
C 4 2 3 7
0 . 1 / 1 0 ( B J )
+ 1 . 8 D P L L
C4216
1000P(B
)
C 2 8 9
0 . 1 / 1 0 ( B J )
R 3 1 5
n o _ u s e
C27
1
1/6.3
C29
8
0.1/10(BJ
)
D25
2
no_us
e
F G
C 4 2 0 9
0 . 1 / 1 0 ( B J )
C29
4
0.082/16
R 2 8 2
1 0 0
C 2 8 8
0 . 0 1 / 1 6 ( B )
R 2 5 6
3 6
C 2 8 1
0 . 1 / 1 0 ( B J )
R4214
47K
C 4 2 3 8
0 . 1 / 1 0 ( B J )
R 2 7 6
n o _ u s e
C 3 0 3
0 . 1 / 1 0 ( B J )
R 4 2 1 0 4 7 K
+ 3 . 3 D V
R29
2
no_us
e
R 4 2 3 3
n o _ u s e
D G N D
D G N D
R4231
22
D G N D
C 4 2 0 3
1 / 2 5
ADPr
R4239
10
R27
0
39
D G N D
F G
F G
+ 1 . 2 H F
R26
8
10K
C 4 2 4 1
1 0 / 1 0
C 3 0 2
0 . 1 / 1 0 ( B J )
R27
5
2.2K
D C 1 R S 1 9 J A X R 1 9 0
Z D 5 3 4 3 0
C B 4 2 1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
+ 1 . 8 D V
C 4 2 3 9
1 0 0 0 P ( B )
D G N D
R 2 5 4
3 6
+ 3 . 3 H F
C 4 2 3 0
0 . 1 / 1 0 ( B J )
R30
7
no_us
e
C 4 2 2 1
0 . 1 / 1 0 ( B J )
R 2 5 2
n o _ u s e
DGND
D G N D
D G N D
C 4 2 1 9
1 0 / 1 0
C30
1
10/10
R 3 2 0
4 7 X 4
R
2
6
5
3
9
R272
47K
C 4 2 2 9
0 . 1 / 1 0 ( B J )
R30
3
33
C29
50
.
01/16(B
)
L25
4
BKP1005HS680-
T
D G N D
R290
1K
DGN
D
C 4 2 2 6
1 0 0 0 P ( B )
R27
7
470
C 4 2 3 4
0 . 1 / 1 0 ( B J )
R 2 8 6
1 0 K
R28
1
no_us
e
R30
9
4.7
K
TP280
+ 1 . 8 D P L L
C 4 2 1 8
0 . 1 / 1 0 ( B J )
R 2 7 9
2 2 0
R 4 2 2 1
1 0 K
R260
10K
D G N D
R 2 5 1
1 0 K
+3.3H
F
R30
5
no_us
e
R4218
5.1
K
C 2 5 7
0 . 1 / 1 0 ( B J )
C300
10P(CH
)
DGN
D
ADY
R 3 1 1
1 M
C 4 2 1 0
0 . 1 / 1 0 ( B J )
R4213
47K
+ 3 . 3 H F
Q 2 5 0
C4081UBTLR
D G N D
C 4 2 4 0
1 0 0 P ( C H )
R 2 5 0
1 0 K
R 3 1 0
4 7 X 4
T P 2 6 6
DGND
+ 3 . 3 H F
0
J25
8
Q 2 5 5
no_us
e
G
D
S
0
J25
7
Q 2 5 5
no_us
e
G
D
S
+ 1 . 8 D
C254
1000P(B
)
Q 2 5 6
D T A 0 4 4 E U B T L
3
1
2
C25
6
0.01/16(B)
D G N D
0
J252
R A L 0 3 5 P 0 1
Q 2 5 4
1
2
3
4
5
6
R25
7
100
K
C B 4 2 2
5 0 2 2 3 1 - 2 4 0 0
W Y 7 8 6 8 0
9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 2 4
DGN
D
R253
1K
0
J253
C4215
1000P(B)
R P 1 0 9 L 1 8 1 D - T R
4
V D D
3
C E
V O U T
G N D
G
C4220
100P(CH)
C4225
100P(CH)
C4244
100P(CH)
D G N D
C4213
100P(CH)
D G N D
DGN
D
DGN
D
D G N D
C4204
100P(CH)
D G N D
C4245
100P(CH)
D G N D
C4248
100P(CH)
C 4 2 4 9
1 0 0 P ( C H )
C4247
10P(CH
)
D G N D
C4202
22/6.
3
C4201
47/6.
3
FI421
N F M 1 8 P S 1 0 5 R 0 J 3 D
1
3
2
FI422
N F M 1 8 P S 1 0 5 R 0 J 3 D
13
2
D4203
no_us
e
D4204
AVRL161A1R1NT
B
D4206
no_us
e
D G N D
L4220
EXC24CH900
U
14
3
2
L4222
EXC24CH900
U
14
3
2
L4219
EXC24CH900
U
14
3
2
L4221
EXC24CH900
U
14
3
2
L4218
EXC24CH900U
14
3
2
L4215
EXC24CH900U
14
3
2
L4216
EXC24CH900U
14
3
2
L4217
EXC24CH900U
14
3
2
W 4 2 0 2
S C N - X H
n o _ u s e
C4253
no_us
e
D G N D
C4252
no_us
e
C4251
no_us
e
F G
F G
C4250
no_use
R4222
no_us
e
L4207
EXC24CG900
U
14
3
2
L4211
EXC24CG900
U
14
3
2
L4206
EXC24CG900
U
14
3
2
L4210
EXC24CG900
U
14
3
2
L420
1
BLM18KG221SN1D
L421
3
BLM18KG221SN1D
L4204
BLM18KG221SN1
D
L4202
BLM18KG221SN1
D
L4209
BLM18PG221SN1
D
L4205
BLM18PG221SN1
D
L4214
BLM18KG221SN1D
L4208
BLM18PG221SN1
D
C 4 2 0 7
2 2 / 6 . 3
C 4 2 3 6
2 2 / 6 . 3
C 4 2 2 7
2 2 / 6 . 3
t o 0 0 3 . s h t
( F P G A )
t o 0 0 4 . s h t
( u - C o m )
S h e e t 2 : V D e c / F H D M I
I C / C B / X L : 2 0 - 2 9
O H T E R : 2 5 0 - 3 4 9
P3
P13
P 1 1
DVD
D
D V D D I O
P0
D V D D I O
D G N D
LLC
DGN
D
P4
DGN
D
P 5
AGN
D
H S
A G N D
A G N D
PVD
D
ELP
F
PWRDWN
G P O 0
I N T R Q
P2
NC
P 6
RESET
DVDD
ALS
B
SDATA
3 . 3 V : 2 0 4 m A
1 . 8 V : 1 1 6 m A
GPO
2
VS
GPO
3
P 1 0
SCL
K
S F L
N C
AIN
6
P14
V R E F P
FIELD
V R E F N
D G N D
A V D D
A I N 3
N C
P1
N C
NC
N C
N C
A I N 1
P 7
XTAL1
XTA
L
P15
A I N 2
NC
A I N 5
P12
P 9
P 8
G P O 1
A I N 4
D I G I T A L ( 2 )
I C / C B / X L : 4 2 1 - 4 2 9
O H T E R : 4 2 0 1 - 4 2 9 9
Sheild
1
FR_N_INT
Data2
+
Data2
-
H D M I V - A U X
NC
Data1
-
FR_N_RST
F G
SDA
ShieldC
Sheild
C
Sheild
0
Data1
-
+5H
TPW
R
SCL
F r o n t H D M I
Sheild
2
F G
+5VPowe
r
Shield1
HPD
NC
Data1
+
Shield0
Shield2
Data1
+
DataC
-
DataC
+
CEC
Sheil
d
Data2
-
Data0
+
Data0
+
DataC
+
Data2
+
DataC
-
GND
Utilit
y
D I G I T A L ( 2 )
Data0
-
Data0
-
CEC
FR_SC
L
FR_SD
A
100
95
0 0 1 . s h t
( H D M I R x )
t o D I G I T A L ( 1 )
T E S T _ 0
(0.5%)
(0.5%
)
( 0 . 5 % )
t o 0 0 5 . s h t
( u - c o m )
R 4 X 1 P
VDD33
R1X2P
R4XCP
D S D A 1
R 4 X 1 N
R 3 P W R 5 V
R 1 P W R 5 V
D S C L 4
T X 2 N
RSVD
R 0 P W R 5 V
RSVDL
A V D D 1 2
D S D A 4
R 4 X 2 N
RSVD
R3X2N
R1XCP
C B U S _ H P D 4
PWRMUX_OUT
D S C L 3
5 V : 1 0 m A
3 . 3 V : 2 2 0 m A
1 . 2 V : 5 4 8 m A
VDD12
R3XCP
R3X1N
DSDA5
AVDD1
2
R3X1P
TPWR_CI2CA
SPDIF_IN
R3X2P
INT
R 4 X 2 P
SBVCC
5
R1X0P
RESET
#
R 4 X 0 N
CSDA
CD_SENSE1
CD_SENSE4
C B U S _ H P D 0
R 0 X 0 N
C B U S _ H P D 1
T X 2 P
T C V D D 1 2
D S D A 3
CSCL
R 0 X 1 P
LPSBV
D S C L 1
C B U S _ H P D 3
V D D 1 2
R 0 X 2 P
R1X1P
R1X1N
R3X0N
R1XCN
R 0 X 0 P
R4XCN
GPIO0
R 4 X 0 P
R 0 X C N
T X 1 N
R3XCN
R 0 X 2 N
V D D 3 3
D S C L 0
T X C P
T P V D D 1 2
A R C
DSCL5
R 0 X 1 N
R4PWR5V
R3X0P
R1X2N
T X C N
T X 0 N
T X 0 P
R5PWR5V
T X 1 P
D S D A 0
V D D 1 2
R1X0N
R 0 X C P
AVDD1
2
GPIO1
CD_SENSE0
CD_SENSE3
+3.3H
L
+1.2D
H
DGN
D
I C / C B / X L : 2 5 - 3 9
O H T E R : 2 5 0 - 3 9 9
(2125
)
NC
(1005
)
NC
A
IN
1
A
IN
2
XTAL1
XTAL
A
IN
3
A
IN
4
A
IN
5
A
IN
6
ANALOG
VIDEO
INPUTS
AA
FILTER
AA
FILTER
AA
FILTER
DIGITAL
PROCESSING
BLOCK
2DCOMB
VBISLICER
COLOR
DEMOD
SCLK SDATA ALSB RESET PWRDWN
10-BIT,86MHz
ADC
REFERENCE
PLL
ADLLTPROCESSING
CLOCK PROCESSING BLOCK
I
2
C/CONTROL
MUX
BLOC
K
FIFO
OUTPUT
BLOC
K
SHA
A/D
HS
LLC
VS
SFL
INTRQ
P15TOP0
16-BIT
PIXELDATA
FIELD
GPO0TO GPO3
IC21
: ADV7180BSTZ
10-bit, 4 x oversampling SDTV video decoder
IC423
: SII9587CNUC-3
HDMI port processor
MHL Control
HDCP
Registers
OTP
EDID SRAM
NVRAM
Booting Sequencer
Configuration,
Status, and
Interrupt Control
Registers
Local
I2C
DPLL
Always-On Section
Power-Down Section
DDC
I2C
R0X
R1X
R3X
INT
TX
CBUS_HPD0,1,3,4
R4X
DPLL
SPDIF
Repeater
SHA
ARC
ARC
Connect to
any one input
port
TMDS
Tx
HDMI Data Path
and HDCP Unmask
AV
Mute
TMDS Rx
(Port 0)
TMDS Rx
(Port 1)
TMDS Rx
(Port 3)
TMDS Rx
(Port 4)
A
B
MHL
Demux
MHL
Demux
C
D
Packet
Analyzer
Packet
Analyzer
HDCP
Authentication
Serial Ports
Note: MHL input can be assigned to any port during design
but is hardwired and cannot be selected using firmware.
DDC 0
DDC 1
DDC 3
DDC 4
DDC 5
CD_SENSE0,1,3,4
Tie one CD_SENSE line
to MHL CD_SENSE, the
rest to ground
4
IC27
: RP109L181D-TR
CMOS-based voltage regulator
V
DD
GND
V
OUT
CE
Vref
Current Limit
4
1
3
2
Pin No.
1
2
3
4
Symbol
V
OUT
GND
CE
V
DD
Description
Output Pin
Ground Pin
Chip Enable Pin ("H" Active)
Input Pin
to DIGITAL 4/7
to DIGITAL 3/7
to DIGITAL 5/7
No replacement part available.
DIGITAL (1)
DIGITAL (2)
VIDEO AUX
HDMI IN
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
1.800V
1.798V
DIGITAL 2/7
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
RX-V681
RX-A760
★
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.
★
Schematic diagram is subject to change without notice.
Содержание RX-V681
Страница 3: ...3 RX V681 RX A760 RX V681 RX A760 FRONT PANELS RX V681 RX A760 ...
Страница 4: ...4 RX V681 RX A760 RX V681 RX A760 REAR PANELS RX V681 U C models RX V681 R model RX V681 S model ...
Страница 5: ...5 RX V681 RX A760 RX V681 RX A760 RX V681 T model RX V681 A model RX V681 B G models ...
Страница 6: ...6 RX V681 RX A760 RX V681 RX A760 RX V681 F model RX V681 L model RX V681 H model ...
Страница 7: ...7 RX V681 RX A760 RX V681 RX A760 RX V681 V model RX A760 U C models RX A760 R model ...
Страница 8: ...8 RX V681 RX A760 RX V681 RX A760 RX A760 T model RX A760 A model RX A760 G F models ...
Страница 9: ...9 RX V681 RX A760 RX V681 RX A760 RX A760 L model ...
Страница 10: ...10 RX V681 RX A760 RX V681 RX A760 REMOTE CONTROL PANEL RAV537 Remote control sheet T model ...
Страница 157: ...158 RX V681 RX A760 MEMO MEMO ...
Страница 170: ...AV RECEIVER RX V681 RX A760 ...