LC-60G9T / LC-70G9T
8 – 4
F
H
D
S
Y
S
T
E
M
B
L
O
C
K
D
i
a
g
r
a
m
㸦
G
9
T
(
M
T
5
3
9
6
W
)
1
J
㸧
3
D
/
H
.
2
6
4
/
V
C
-
1
/
H
D
M
I
-
1
.
4
/
N
e
t
w
o
r
k
M
A
I
N
VB
O_
LO
CK
N
39
M
A
I
N
I
N
P
U
T
I
N
P
U
T
7
CV
BS
2_
IN
CV
BS
2_
IN
_L
/R
T
-
C
O
N
C
V
B
S
CV
BS
1_
IN
7
I2
C_
RE
AD
Y
VB
O_
LO
CK
N
C
V
B
S
L
R
FI
LM
_V
ID
EO
2_
3_
DE
T
OD
D_
EV
EN
20
21
22
40
39
I
N
P
U
T
6
PE
_T
CO
MP
1_
IN
_L
/R
01
(41p)
CO
MP
1_
Y/
Pb
/P
r
24
.5
76
MH
z
PN
L_
WP
PN
L_
EN
_T
C
o
m
p
o
n
e
n
t
C
V
B
S
L
R
CV
BS
1_
IN
CV
BS
1_
IN
_L
/R
I
N
P
U
T
5
1
6
3
7
L
R
FI
LM
_V
ID
EO
2
_
3
_
DE
T
19
18
20
I
C
1
9
0
2
S
P
AM
P(
2C
H)
YD
A1
76
䛆
SP
䛇
P1
90
3
EX
T-
SP
S
P
E
A
K
E
R
I
C
3
1
0
4
EE
PR
OM
+3.3V
࠙
LV
ࠚ
SC
38
01
(4
I
C
1
7
0
3
D
S
P
YS
S9
52
I
2C
_0
(
40
0K
Hz
)
I
C
1
9
0
1
W
oo
fe
r
AM
P(
0.
1C
H)
YD
A1
76
AM
P_
DA
TA
_L
R
AM
P_
DA
TA
_S
W
AM
P_
LR
CK
/B
CL
K/
MC
LK
䛆
SP
䛇
P1
90
4
EX
T-
SP
W
o
o
f
e
r
+3.3V
+13V
+13V
24
.5
76
MH
z
X1
70
1
X
t
a
l
12
OF
L1
_F
RC
RS
T
10
/1
1
+1
8V
I
C
3
1
0
4
EE
PR
OM
W
oo
f
er
AM
P(
0
.
1C
H)
YD
A1
76
AM
P
_
DA
TA
_
SW
EX
T-
SP
L/
R_
RE
F
N_
PE
R_
RS
T
N_
AM
P_
PR
OT
EC
T
SP
_M
UT
E
AU
DI
O
MU
TE
N_
PE
R_
RS
T
N_
AM
P_
PR
OT
EC
T
VS
YN
C
AU
DI
O
MU
TE
Th
er
mi
st
er
I
C
2
0
0
4
I/
O
BU+3.3V
UC
OM
_R
ST
I
C
2
0
0
3
R
e
s
e
t
DE
T_
PO
W_
T
UC
OM
_M
OD
E
MO
DE
RE
SE
T
I/
O
I/
O
2
4
8
9
AMP_
MUTE
HP
_M
UT
E
10
/1
1
I
C
1
9
0
3
+2.3V
+1.8V
16
17
VbyO
ne
OUT
CVBS
+3.3V
+1.5V
+1.1V
Comp
onen
t
SP
_M
UT
E
AU
DI
O_
MU
TE
CVBS
_Out
BU+3.3V
Mu
te
ci
rc
ui
t
VS
YN
C
AU
DI
O_
MU
TE
I
C
2
0
0
4
R
8
C
/
3
6
C
IXD241WJ
SUB MCU
LA
MP
_E
RR
I/
O
AC
D
ET
I
/
O
F
L
2
0
0
1
X
t
a
l
20
MH
z
ST
B
UA
RT
PM
_R
EQ
N
S
RE
SE
T
I2
C
32
.7
68
kH
z
EE
PR
OM
_S
CL
/S
DA
I
C
2
0
0
7
E
E
P
R
O
M
2k
bi
t
BU+3.3V
WP
X
2
0
0
1
X
t
a
l
I/
O
N_
MU
TE
_A
_A
LL
/
I/
O
I/
O
I/
O
CP
U_
TX
D1
_U
CO
M,
CP
U_
RX
D1
_U
CO
M
2
4
5
8
AMP_
M
P3
80
2(4p
)
PWM2
GSP_
PWM1
23
V
V
TU
_D
EM
OD
_S
CL
/S
DA(4
00
KH
z
3.
3V
)
D_
IF
-/
+
+1.2V
TU
NE
R
I2
C
C
N_
TU
N_
RS
T
N_
TU
N_
RS
T
PNL_
12V
LA
MP
_
ER
R
I/
O
AC
_D
ET
I/
O
I/
O
ST
B
I/
O
UA
RT
N_
SR
ES
ET
SM
PO
W
PS
_O
N
SM
PO
WH
OL
D
I/
O
I/
O
I/
O
HD
MI
_C
EC
_I
N
HD
MI
_C
EC
_O
UT
I/
O
CP
U_
TX
D1
_U
CO
M,
CP
U_
RX
D1
_U
CO
M
-3
t
PC
RC
C
PU
A/D
0
GN
D
I2C
PWM
࠙
PL
ࠚ
PN
L1
2V
P3
80
2
D_
IF
-/
+
TH
ER
MO
I
C
3
3
0
3
+5V
I
C
3
3
0
2
+2.3V
+3.3V
I
C
3
3
0
3
M
T
5
3
9
6
(
F
H
D
)
H
.
2
6
4
/
V
C
-
1
I2
C_
1
RG
B
in
DD
C_
I2
C_
1
HD
MI
_1
I2
C_
0
R
F
I
N
TU
_D
EM
OD
_S
CL
/S
DA(4
00
KH
z
3.
3V
)
I2
C_
0
OF
L1
PW
M_
0
RG
B
HV
TU
NE
R_
I2
C
I/
O
PC
_V
SY
NC
/H
SY
NC
PC
_R
/G
/B
(4
00
KH
z
3.
3V
)
VO
N
(1
00
KH
z
3.
3V
)
I2
C_
1
P
O
W
E
R
U
n
i
t
AUDI
O_MU
TE
T
U
1
1
0
3
A
n
a
l
o
g
/
D
i
g
i
t
a
l
S
i
T
u
n
e
r
+3.3V
OF
L2
I
C
3
8
0
2
S
l
i
t
+3.3V
PNL
_
+1.8V
IC
20
02
-3
Sele
ct
RC,O
PC
RC
RC
_C
PU
0
1
GN
D
ST
B_
CP
U
IR_P
ASS
N_PE
R_RS
T
21
23
17
22
24
HP_M
UTE
I
C
2
0
0
9
I
C
2
0
0
8
I
C
1
1
0
9
+2.3V
M
T
5
3
9
6
(
F
H
D
)
H
.
2
6
4
/
V
C
-
1
Di
gi
ta
l
AV
d
ec
od
e
&
Ma
in
C
PU
DD
C_
I2
C_
1
HD
MI
_1
I2
S(
SD
AT
A/
LR
CK
/S
CL
K)
27
.0
00
MH
z
X
3
3
0
1
ER
P3
80
1(2
4p)
OF
L1
PW
M_
0
PW
M_
1
PN
L_
PO
W
AC
_D
ET
I
C
3
8
0
5
S
p
l
i
t
e
r
AU
DI
O
MU
TE
+3.3V
AU
D
i
g
i
t
a
l
S
i
T
u
n
e
r
OF
L2
I
C
3
8
0
2
S
p
l
i
t
e
r
+
3
.
3V
N_
21
19
H
18
/2
0
(D
AT
A)
Au
di
o
in
SI
F
PS_O
N
AC_D
ET
MA
IN
HP
/M
ON
I_
L/
R(
PW
M)
Di
sc
le
te
O
P
T
I
C
A
L
O
U
T
OP
T
OU
T
AU
DI
O_
MU
TE
27
.
00
0M
H
z
X
3
3
0
1
࠙
PD
ࠚ
PO
WE
R
P3
Au
di
o
ou
t
I
C
3
5
0
1
D
D
R
3
(
1
3
3
3
M
)
2
G
b
i
t
A
u
d
i
o
O
u
t
(
M
i
n
i
P
l
u
g
)
I
C
3
5
0
2
D
D
R
3
(
1
3
3
3
M
)
2
G
b
i
t
PNL_
POW
_OP
C
CV
BS
2_
IN
_L
/R
CO
MP
_I
N_
L/
R
HP
/M
ON
I_
L/
R
+5V
I
C
3
8
0
5
S
p
l
i
t
e
r
PN
L_
I2
C_
EN
AU
DI
O_
MU
TE
I
C
5
0
3
I
C
3
5
0
3
D
D
R
3
(
1
3
3
3
M
)
CV
BS
1_
IN
_L
/R
I
C
2
7
0
4
HP
-A
MP
+5V
+1.5V
+1.5V
_CP
U(KE
Y2)
13
14
18
/2
0
,
MHL_
DET_
POW
EUP
OR
ES
ET
#
SPI_
FLAS
H
/NA
ND
Fla
sh
/eMM
C
Au
di
o
in
DT
V/
SP
DI
F
UART
-TXD
0
P
BU
+5
V
A
MA
IN
U+
5V
D+
5V
D+
3.
3V
D+
1.
5V
D+
1.
2V
UR
+1
3V
Ba
ck
Up
BU
+3
.3
V
PC
/H
DM
I_
LR
R
G
B
/
H
D
M
I
A
u
d
i
o
O
U
T
OP
T_
OU
T
AU
DI
O_
MU
TE
I
N
P
U
T
8
U
AR
T
CP
UT
O2
32
C
UA
RT
2
32
CT
OC
PU
I
N
P
U
T
2
/
8
D
-
S
U
B
R
G
B
UART
-2
PN
ONDD
8
㹼
15
ONDA
6
㹼
13
SDIO
CMD/
SDIO
CLK
SDI0
㹼
USB_
2
UART
-TXD
1
LEE
P,LE
D_G,
LED_
R,LE
D_OP
C
OPC
PC
/H
DM
I_
LR
CO
MP
_I
N_
L/
R
PC
_V
SY
NC
/H
SY
NC
PC
_R
/G
/B
OP
T_
OU
T
+5V
I
C
5
0
3
I
C
3
5
0
3
D
D
R
3
(
1
3
3
3
M
)
CV
BS
1
_
IN
_
L/
R
ULS
E
+1.5V
RE
SE
T
UART
-RXD
0
UART
-RXD
1
1
BU+3.3V
BU+3.3V
1
1
TB_
CPU(
KEY1
),SD
A_ST
B_CP
U(K
13
14
16
I
C
3
5
0
4
D
D
R
3
(
1
3
3
3
M
)
+1.5V
HD
MI
_A
RC
USB_
0
USB_
1
SW/
REQ
UCOM
_MHL
_CBU
S,
MHL
ANOT
HER_
WAKE
UP
SPI
_
/NA
N
/eM
M
UAR
P
OW
ER
C
IR
CU
IT
B
ac
kU
p
BU
+3
.3
V
8
UA
RT
_C
PU
TO
23
2C
,U
AR
T_
23
2C
TO
CP
U
IC
50
6
RS
232C
Tx
Rx
R
S
-
2
3
2
C
+3.3V
N
o
.
9
p
i
n
R
C
P
a
s
s
t
h
r
o
u
g
h
R
G
B
U
+3.3V
H
D
M
I
2
DD
C_
1
HD
MI
1
O
O
SDIO
SDI0
US
UAR
LED_
SLEE
P,
RC,O
PC
PC
_
R/
G/
B
DD
C_
0
HD
MI
_0
L
E
D
_
D
r
i
v
e
+1.2V
I
N
P
U
T
H
D
M
I
1
(
A
R
C
)
I
N
P
U
T
1
LR_P
ULSE
+5V
N_
SR
ES
ET
SM
PO
WH
OL
D
UAR
UAR
I
C
2
0
0
1
+3.3V
IC
20
02
-1
Sele
ct
IC
20
02
-2
Sele
ct
BU+3.3V
BU+3.3V
0
1
1
0
SCL_
STB_
CPU
I
C
3
1
0
2
US
US
POW_
SW/R
EQ
I
C
2
6
0
2
+2.3V
I
N
P
U
T
4
I
C
1
5
0
4
H
D
M
I
-
S
W
SI
I9
38
7A
DD
C_
3
HD
MI
_3
H
D
M
I
4
(
M
H
L
)
H
D
M
I
3
H
D
M
I
2
(
D
V
I
)
I
N
P
U
T
3
DD
C_
2
HD
MI
_2
DD
C_
1
HD
MI
_1
+5
V
I2
C_
1
(4
00
KH
z)
+1
.
2V
I
N
P
U
T
2
BU+3
3V
SM
PO
WH
OL
D
I
C
3
1
0
3
N
A
N
D
F
L
A
S
H
2G
bi
t
+3.3V
Di
sc
le
te
I
C
1
5
0
7
P
o
w
e
r
S
W
U5
V
I
C
2
6
0
2
I
N
P
U
T
4
DD
C
_
3
HD
MI
_3
HD
MI
_C
EC
H
D
M
I
4
(
M
H
L
)
BU+3.3V
HD
MI
_C
EC
I
C
2
0
0
5
B
u
f
f
e
r
LV
C1
25
AN
BU+3.3V
AN
OT
HE
R_
WA
KE
UP
MH
L_
WA
KE
UP
UC
OM
_M
HL
_C
BU
S,
M
HL
_D
ET
_P
OW
Di
sc
le
te
P
o
w
e
r
S
W
HD
MI
_C
EC
_I
N
HD
MI
_C
EC
_O
UT
EN
_R
PW
R4
_N
,E
N_
VB
US
4,
VB
US
4_
OC
,M
HL
_D
ET
J
9
5
0
2
U
S
B
I
C
9
5
0
2
P
o
w
e
r
S
W
࠙
R
C
ࠚ
P2
00
1(
15
p)
J
9
5
0
3
U
S
B
I
C
9
5
0
3
P
o
w
e
r
S
W
+
5V
BU+3.3V
0.
5A
AN
OT
HE
R
_
WA
KE
UP
MH
L
_
WA
KE
UP
U5
V
U5
V
US
B_
D0
P/
N
U
SB
D
2P
/N
US
B_
D1
P/
N
+5
V
UR13V
࠙
R
A
ࠚ
P1
03
(9
p)
0.
5A
S
D
࢝
࣮
ࢻ
㓄
⨨
S
i
d
e
࠙
T
K
ࠚ
P1
51
(4
p)
࠙
I
R
ࠚ
(3
p)
J
9
5
0
1
U
S
B
I
C
9
5
0
1
P
o
w
e
r
S
W
J
9
4
0
1
E
t
h
e
r
n
e
t
+5
V
U
S
B
I
C
9
5
0
3
P
o
w
e
r
S
W
+5
V
1.
5A
T
A
C
T
K
E
Y
3
D
I
R
U5
V
U5
V
US
B_
D2
P/
N
R
/
C
O
P
C
R
/
C
US
B_
D3
P/
N
0.
5A
㓄
⨨
ୗ
ഃ
H
D
D
⏝
J
9
4
0
1
E
t
h
e
r
n
e
t
Summary of Contents for LC-60G9T
Page 56: ...LC 60G9T LC 70G9T 8 1 CHAPTER 8 OVERALL WIRING BLOCK DIAGRAM 1 SYSTEM BLOCK DIAGRAM ...
Page 57: ...LC 60G9T LC 70G9T 8 2 ...
Page 62: ...LC 60G9T LC 70G9T 9 2 19 18 17 16 15 14 13 12 11 10 RN ...
Page 63: ...LC 60G9T LC 70G9T 9 3 A C B D E F G H 2 10 9 8 7 6 5 4 3 1 MAIN UNIT A SYMBOL ...
Page 64: ...LC 60G9T LC 70G9T 9 4 19 18 17 16 15 14 13 12 11 10 ...
Page 67: ...LC 60G9T LC 70G9T 9 7 A C B D E F G H 2 10 9 8 7 6 5 4 3 1 MAIN UNIT B PATTERN ...
Page 68: ...LC 60G9T LC 70G9T 9 8 19 18 17 16 15 14 13 12 11 10 ...
Page 69: ...LC 60G9T LC 70G9T 9 9 A C B D E F G H 2 10 9 8 7 6 5 4 3 1 MAIN UNIT B SYMBOL ...
Page 70: ...LC 60G9T LC 70G9T 9 10 19 18 17 16 15 14 13 12 11 10 ...
Page 73: ...LC 60G9T LC 70G9T 9 13 A C B D E F G H 2 10 9 8 7 6 5 4 3 1 TCON UNIT A PATTERN ...
Page 74: ...LC 60G9T LC 70G9T 9 14 19 18 17 16 15 14 13 12 11 10 ...
Page 75: ...LC 60G9T LC 70G9T 9 15 A C B D E F G H 2 10 9 8 7 6 5 4 3 1 TCON UNIT A SYMBOL ...
Page 76: ...LC 60G9T LC 70G9T 9 16 19 18 17 16 15 14 13 12 11 10 ...
Page 77: ...LC 60G9T LC 70G9T 9 17 A C B D E F G H 2 10 9 8 7 6 5 4 3 1 TCON UNIT CHIP SIDE A ...
Page 78: ...LC 60G9T LC 70G9T 9 18 19 18 17 16 15 14 13 12 11 10 ...
Page 79: ...LC 60G9T LC 70G9T 9 19 A C B D E F G H 2 10 9 8 7 6 5 4 3 1 TCONUNIT BPATTERN ...
Page 80: ...LC 60G9T LC 70G9T 9 20 19 18 17 16 15 14 13 12 11 10 ...
Page 81: ...LC 60G9T LC 70G9T 9 21 A C B D E F G H 2 10 9 8 7 6 5 4 3 1 T CON UNIT B SYMBOL ...
Page 82: ...LC 60G9T LC 70G9T 9 22 19 18 17 16 15 14 13 12 11 10 ...
Page 107: ...LC 60G9T LC 70G9T 16 ...