6. Schematic Diagram
6.5. EYEABLE_AMP
CHANGE MACRO
FRONT R
FRONT L
BYPAS S /VT MODE S /W BLOCK
VT_SE L : L(DEF AULT)
ST ANDBY : L
VT_SE L : H
LEVEL DETECTION BLOCK
IC3001 LOGIC
INPU T : VT_OU T_FR / FL
INPU T : VT_IN_F R / FL = > VT DEAD. BYPASS CONCEP T
DIFF ERENTIAL GAIN AMP BLOCK
VT_IN_F R
VT_IN_F L
R1
0
1
5
RB
7
51V
-4
0T
E
-1
7
P GND
R3 160
DGND
U_5V
U5.1V_PW
U5.1V_PW
DGND
UC35
UNDEFINED
UC55
50V
33P F
0.01OH M
BD11
VT_OUT_F L
VT_OUT_F R
VT_CTL
VT_OUT_FR
VT_OUT_FL
VT_IN_FR
VT_IN_FL
U_5V
R12V
ST3.4V
ST3.4V
VSS-5V
D5.0V_PW
TI_FL-
VT_OUT_FL
TI_FR-
VT_OUT_F R
VT_IN_FL
VT_IN_FR
TI_FR
TI_FR-
TI_FR+
TI_FR-
TI_FL-
TI_FL+
TI_FL-
TI_FL
VSS- 5V
D5.0V_PW
VSS- 5V
D5.0V_PW
D5.0V_PW
VSS-5V
D5.0V_PW
VSS-5V
D5.0V_PW
D5.0V_PW
VSS-5V
VT_OUT_FL
VT_IN_FL
TI_FL
VT_IN_FR
TI_FR
VT_OUT_FR
VT_IN_FL
VT_IN_FR
LPF_4
LPF_3
VSS-5V
D5.0V_PW
LPF_4
P WM_4-
P WM_4+
LPF_3
P WM_3+
P WM_3-
VT_OUT_LEVEL
VBUS 0_FAULT
D0-_USB
D0+_USB
USB0_VBUSV ALID
AS C_S EN
AS C_MIC_IN
VT_IN_LEVEL
P GND
33P F 50V
C996
33P F
OPTION
50V
C995
33P F 50V OPTION
C994
12507WS-H20G
CN3001
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MGND1
MG
N
D2
P GND
0.75
*
BD56
VT_CTL
33KOH M
TIR2
OPTI ON
47KOH M
R1017
OPTI ON
47KOH M
R1036
33KOH M
TIR1
50V
220NF
C1015
50V
220NF
C1014
470K OHM
1/10W
R1 016
100P F
50V
C1 016
75
1N4148WS
D3040
DGND
75
1N4148WS
D3041
1
0
0
N
F
C1
0
1
2
10OHM
R1 019
DGND
6.3V
1UF
C1
0
1
7
470K
OHM
R1
0
2
7
220O HM
R1 026
40
D1
0
4
33P F 50V
C993
50V
33P F
C992
33P F 50V
C991
VTL_B
FR O_B
FLO_B
FR I_B
FLI_B
12V
0.75
*
BD55
*
0.75
BD54
*
0.75
BD53
*
0.75
BD52
AS C_S ENB
USB5V_B
CB2012 UA300T
UNDEFINED
0.01OH M
BD51
*
0.75
BE54
50V
33P F
CB2012 UA300T
USB5V_T
USB-
USB+
FGN D3
D_GND
FGN D2
FGN D1
DGND
7B4>
7B4>
1KO
H
M
1/10W
UBR1
2KOHM
R211
DGND
3.3NF
C2084
2KOHM
R2052
3.3NF
C2083
2KOHM
R2059
50V
100NF
C128
2KOHM
R2058
6.8NF
C2086
2KOHM
R214
DGND
3.3NF
C2082
2KOHM
R2054
3.3NF
C2081
2KOHM
R2057
100NF
50V
C146
6.8NF
C2085
2KOHM
R2056
AS C_S EN
12V_B
AS C_IN
AS C_IN_B
220N
F
16V
UBC3
10KOHM
UBR3
1/10W
4.7KO
H
M
UBR2
10V
10UF
UBC1
DGND
10UF
10V
UBC2
USIC1
1
2
3
4
5
6
2.7KOHM
R2065
390OHM
R2064
1.5N F
C2093
P GND
2.7KOHM
R213
390OHM
R2067
1.5NF
C2091
S
4
5
60
VTIC3
1
2
3
4
5
6
7
8
220NF
C2056
10OHM
R2069
P GND
16.5KOHM
1/10W
UBR4
10UF
10V
UBC4
100NF UBC5
10UF
C3007
220KOHM
R3168
50V
220NF
C1009
50V
220NF
C1008
47KOHM
R1011
47KOHM
R1010
PGND
220KOHM
R3169
PGND
100KOHM
R3170
BAT54S -F
D3042
390OHM
R212
2.7KOHM
R2060
1.5NF
C2090
P GND
2.7KOHM
R2062
390OHM
R2063
1.5N F
C2092
220NF
C2055
10OHM
R2068
10UF
C3006
470K OHM
R1 012
100P F
50V
C1 010
75
1N4148WS
D3038
S
4
5
6
0
VTIC
88
1
2
3
4
5
6
7
8
1
0
0
N
F
C1
0
1
1
DGND
10OHM
R1 014
1N4148WS
75
D3039
DGND
1UF
6.3V
C1
0
1
3
470K
O
HM
220O HM
R1 013
40
RB
7
51V
-4
0T
E
-1
7
D1
0
3
P GND
1KOHM
R3 155
2
2
0
N
F
C3
1
1
8
MC74HC4052A
IC3001
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
S RC1203S
Q8 88
2
2
0
N
F
C3
1
1
9
3.3KOHM
1KOHM
R3 156
VT_S EL
4.7KOHM
VAR16
4.7KOHM
VAR15
P GND
4.
3K
OHM
V
V
R2
4.7KOHM
1/10W
VAR9
4.7KOHM
VAR14
4.7KOHM
VAR11
4.7KOHM
VAR10
4.7KOHM
VAR7
4.
3K
OHM
V
V
R1
P GND
4.7KOHM
VAR8
4.7KOHM
VAR6
1
0
O
HM
V
S
R
1
1
0
O
HM
V
S
R
2
BAT54 S -F
D3043
100K
OHM
E
N
R
6
P GND
1/10W
4.7KOHM
VAR1
4.7KOHM
VAR3
4.7KOHM
VAR2
S
4
5
6
0
VTIC
1
1
2
3
4
5
6
7
8
10OHM
VAR13
2
2
0
N
F
V
A
C
4
2
2
0
N
F
V
A
C
3
P GND
10OHM
VAR12
S
4
5
6
0
VTIC
2
1
2
3
4
5
6
7
8
2
2
0
N
F
V
A
C
2
2
2
0
N
F
V
A
C
1
10OHM
VAR5
P GND
10OHM
VAR4
ILIM
OUT
/FAULT
EN
GND
IN
IN2+
VE
E
OUT2
VC
C
IN2-
IN1+
IN1-
OUT1
IN2+
VE
E
OUT2
VC
C
IN2-
IN1+
IN1-
OUT1
X2
VCC
GND
VEE
A
B
Ena ble
Y1
X3
Y3
X
X1
X0
Y
Y2
Y0
E
B
C
IN2+
VE
E
OUT2
VC
C
IN2-
IN1+
IN1-
OUT1
IN2+
VE
E
OUT2
VC
C
IN2-
IN1+
IN1-
OUT1
CHANGE MACRO
FRONT R
FRONT L
LPF BLOCK
BYPAS S /VT MODE S /W BLOCK
VT_SE L : L(DEF AULT)
ST ANDBY : L
VT_SE L : H
LEVEL DETECTION BLOCK
IC3001 LOGIC
INPU T : VT_OU T_FR / FL
INPU T : VT_IN_F R / FL = > VT DEAD. BYPASS CONCEP T
DIFF ERENTIAL GAIN AMP BLOCK
RB
7
51V
-4
0T
E
-1
7
P GND
DGND
U
5.1V_PW
U5.1V_PW
DGN
D
UNDEFINED
50V
33P F
0.01OH M
U
_5V
R12V
ST3.4V
ST3.4V
VSS-5V
D5.0V_PW
VSS- 5V
D5.0V_PW
VSS- 5V
D5.0V_PW
D5.0V_PW
VSS- 5V
D5.0V_PW
VSS-5V
D5.0V_PW
D5.0V_PW
VSS-5V
VSS-5V
D5.0V_PW
P
GND
33P F 50V
33P F
OPTION
50V
33P F 50V
OPTION
12507WS-H20G
P GND
0.75
*
33KOH M
OPTI ON
47KOH M
OPTI ON
47KOH M
33KOH M
50V
220NF
50V
220NF
470K OHM
1/10W
100P F
50V
75
1N4148WS
DGND
75
1N4148WS
1
0
0
N
F
10OHM
DGND
6.3V
1UF
470K
OHM
220O HM
40
33P F 50V
F
P
3
3
V
0
5
33P F 50V
0.75
*
*
0.75
*
0.75
*
0.75
CB2012 UA300T
UNDEFINED
0.01OH M
*
0.75
F
P
3
3
V
0
5
CB2012 UA300T
DGND
1KO
H
M
1/10W
2KOHM
DGND
3.3NF
2KOHM
3.3NF
2KOHM
50V
100NF
2KOHM
6.8NF
2KOHM
DGND
3.3NF
2KOHM
3.3NF
2KOHM
100NF
50V
6.8NF
2KOHM
220N
F
16V
10KOHM
1/10W
4.7KO
H
M
10V
10UF
DGND
10UF
10V
2.7KOHM
390OHM
1.5N F
P GND
2.7KOHM
390OHM
1.5NF
S
4
5
60
220NF
10OHM
P GND
16.5KOHM
1/10W
10UF
10V
100NF
10UF
220KOHM
50V
220NF
50V
220NF
47KO HM
47KOHM
PGND
220KOHM
PGND
100KOHM
BAT54S -F
390OHM
2.7KOHM
1.5NF
P GND
2.7KOHM
390OHM
1.5N F
220NF
10OHM
10UF
470K OHM
100P F
50V
75
1N4148WS
S
4
5
6
0
1
0
0
N
F
DGND
10OHM
1N4148WS
75
DGND
1UF
6.3V
470K
O
HM
220O HM
40
RB
7
51V
-4
0T
E
-1
7
P GND
1KOHM
2
2
0
N
F
MC74HC4052A
S RC1203S
2
2
0
N
F
3.3KOHM
1KOHM
4.7KOHM
4.7KOHM
P GND
4.
3K
OHM
4.7KOHM
1/10W
4.7KOHM
4.7KOHM
4.7KOHM
4.7KOHM
4.
3K
OHM
P GND
4.7KOHM
4.7KOHM
1
0
O
HM
1
0
O
HM
BAT54 S -F
100K
OHM
P GND
1/10W
4.7KOHM
4.7KOHM
4.7KOHM
S
4
5
6
0
10OHM
2
2
0
N
F
2
2
0
N
F
P GND
10OHM
S
4
5
6
0
2
2
0
N
F
2
2
0
N
F
10OHM
P GND
10OHM
V
T_IN_F R
VT_IN_F L
R1
0
1
5
R3 160
UC35
UC55
BD11
V
T_OUT_F L
VT_OUT_F R
C996
C995
C994
CN3001
BD56
VT_CTL
TIR2
R1017
R1036
TIR1
C1015
C1014
R1 016
C1 016
D3040
D3041
C1
0
1
2
R1 019
C1
0
1
7
R1
0
2
7
R1 026
D1
0
4
C993
C992
C991
VTL_B
FR O_B
FLO_B
FR I_B
FLI_B
12V
BD55
BD54
BD53
BD52
AS C_S ENB
USB5V_B
BD51
BE54
USB5V_T
USB-
USB+
FGN D3
D_GND
FGN D2
FGN D1
UBR1
R211
C2084
R2052
C2083
R2059
C128
R2058
C2086
R214
C2082
R2054
C2081
R2057
C146
C2085
R2056
AS C_S EN
12V_B
AS C_IN
AS C_IN_B
UBC3
UBR3
UBR2
UBC1
UBC2
USIC1
R2065
R2064
C2093
R213
R2067
C2091
VTIC3
C2056
R2069
UBR4
UBC4
UBC5
C3007
R3168
C1009
C1008
R1011
R1010
R3169
R3170
D3042
R212
R2060
C2090
R2062
R2063
C2092
C2055
R2068
C3006
R1 012
C1 010
D3038
VTIC
88
C1
0
1
1
R1 014
D3039
C1
0
1
3
R1 013
D1
0
3
R3 155
C3
1
1
8
IC3001
Q8 88
C3
1
1
9
R3 156
VAR16
VAR15
V
V
R2
VAR9
VAR14
VAR11
VAR10
VAR7
V
V
R1
VAR8
VAR6
V
S
R
1
V
S
R
2
D3043
E
N
R
6
VAR1
VAR3
VAR2
VTIC
1
VAR13
V
A
C
4
V
A
C
3
VAR12
VTIC
2
V
A
C
2
V
A
C
1
VAR5
VAR4
7B4>
7B4>
U_5V
VT_CTL
VT_OUT_FR
VT_OUT_FL
VT_IN_FR
VT_IN_FL
TI_FL-
VT_OUT_FL
TI_FR-
VT_OUT_F R
VT_IN_FL
VT_IN_FR
TI_FR
TI_FR-
TI_FR+
TI_FR-
TI_FL-
TI_FL+
TI_FL-
TI_FL
VT_OUT_FL
VT_IN_FL
TI_FL
VT_IN_FR
TI_FR
VT_OUT_FR
VT_IN_FL
VT_IN_FR
LPF_4
LPF_3
LPF_4
P WM_4-
P WM_4+
LPF_3
P WM_3+
P WM_3-
V
T_OUT_LEVEL
VBUS 0_FAULT
D0-_USB
D0+_USB
USB0_VBUSV ALID
AS C_S EN
AS C_MIC_IN
VT_IN_LEVEL
VT_S EL
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
MGND1
MG
N
D2
1
2
3
4
5
6
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
ILIM
OUT
/FAULT
EN
GND
IN
IN2+
VE
E
OUT2
VC
C
IN2-
IN1+
IN1-
OUT1
IN2
+
V
E
E
OUT
2
V
C
C
IN2
-
IN1
+
IN1
-
OUT
1
X2
VCC
GND
VEE
A
B
Ena ble
Y1
X3
Y3
X
X1
X0
Y
Y2
Y0
E
B
C
IN2
+
V
E
E
OUT
2
V
C
C
IN2
-
IN1
+
IN1
-
OUT
1
IN2
+
V
E
E
OUT
2
V
C
C
IN2
-
IN1
+
IN1
-
OUT
1
P
OWER
A
UDIO
6-6
Copyright© 1995-2012 SAMSUNG. All rights reserved.
Summary of Contents for HT-E6730W
Page 62: ...5 PCB Diagram 5 2 FRONT PCB Top CN1 1 TP2 5 2 Copyright 1995 2012 SAMSUNG All rights reserved ...
Page 73: ...5 PCB Diagram 5 7 USB PCB Bottom Copyright 1995 2012 SAMSUNG All rights reserved 5 13 ...
Page 76: ...5 PCB Diagram 5 9 VT PCB Bottom 5 16 Copyright 1995 2012 SAMSUNG All rights reserved ...
Page 80: ...5 PCB Diagram 5 11 SMPS PCB Bottom 5 20 Copyright 1995 2012 SAMSUNG All rights reserved ...