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NC
GN D
2 1
GN D
L11 5
120R
D61
PG B 10
C2 98
10U
R 518
82R
2 1
GN D
R 526
27K
D59
2 1
PG B 10
PG B 10
21
D58
R 529
27K
C2 93
R 527
22P
47K
C2 91
22P
R 528
47K
R 525
R 523
C2 92
NC
22K
10K
R 519
R 520
GN D
L85
NC
L83
C1 815M
22K
C1 815M
10K
R 532
R 533
1U
1U
C2 94
D1V 5_U SB
10R
C3 13
16V
10U
D3. 3V_ US B
10R
C3 14
16V
10U
Q48
C
B
E
R 524
330R
B
Q49
C
E
R 521
330R
0R
0R
DV D_AR 4
NC
GN D
A1V 5_U SB
L86
10R
NC
C2 54
NC
0.1U
NC
GN D
A3V 3_U SB
L84
10R
NC
C2 57
0.1U
NC
GN D
C2 96 0. 1U
A9V
just for DVD comb
0.1U
0.1U
C2 55
C2 58
NC
C2 56
16V
NC
10U
NC
XO UT _12M
XIN _12M
C2 59
16V
10U
NC
US B _E N
OP TI ON
R 413
NC
1M
12M
C2 52
10P
NC
GN D
U40
1
VO UT
FL G
2
GN D
R T97 11
R 433
10K
R 414
0R
NC
X11
NC
R 415 0R
NC
C2 53
10P
NC
VB US
10R
L4
5
43
VINE N/EN #
+5V
C2 60
C2 68
10U
1U
GN D
0.1U
C2 61
16V
220U
C2 62
J2 2
5
4
C2 97 0. 1U
A9V
3
2
L88
90R
1 4
2
DM
3
DP
1
GN D
just for DVD
GN D
just for DVD comb
DV D_Y /AV1_ Y
DV D_C /AV1_ C
TX D
R XD
IR _IN
GN D
R 430
0R
R 431
0R
R 432
0R
TX D
R XD
IR _IN
GN D
J2 4
9
7
5
3
1 2
+12V _DV D
10
8
GN D
6
4
GN D
+5V_ DVD
+5V_ DVD
+12V _P OWE R
GN D
+5V_ DVD
GN D
C3 08
C3 09
C3 10
0.01 U
GN DGN DGN D
SD 6
49
SD 7
50
INT _N
51
SO F_ N
52
RD _N
53
WR 0_N
54
WR 1_N
55
CS _N
56
DR E Q0_N
57
DAC K0 _N
58
DE ND0_ N
59
DR E Q1_N
60
K1_ N/DS TB 0_N
61
DE ND1_ N
62
RS T _N
63
VIF 2
64
0.01 U
C3 17
48
SD 5
AFE D 33G
123
SD 4
AFE D 33VDMDP
SD 2
SD 3
4
SD 0
SD 1
U45
M6659 6FP
VB US
AFE A 15V
0.01 U
0.01 U
GN DGND
NC
0R
NC
10K
NC
10K
NC
0R
GN D
R 420
100R
NC
A1V 5_U SB
From DVD
DV D_Y
12
DV D_C
3
5
7
9
11
13
GN D
DV D_AL
DV D_AR DV D_AL 4
GN D
DV D_S P DIF
J1 2
F LAS H S C HE MAT IC
16V
C 102 0.1U
L1
200 R
D3. 3V
C 103
10U
U4
1
A15
2
A14
3
A13
A12
A11
100 R
T
A10
A9
Z10
R 185
10K
R 33
R E S ET _N
NO R _R E SE T
A8
A7
A6
A5
A4
A3
A2
A1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
A13
A12
A11
A10
A9
A8
A19
A20
WE
R E SE T
NC /A21
WP #/AC C
R Y/B Y#
A18
A17
A7
A6
A5
A4
A3
A2
S 29J L06 4H
DQ 15/A-1
A16
B YT E
VS S 2
DQ 7
DQ 14
DQ 6
DQ 13
DQ 5
DQ 12
DQ 4
VC C
DQ 11
DQ 3
DQ 10
DQ 2
DQ 9
DQ 1
DQ 8
DQ 0
VS S 1
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
OE
27
26
C E
25
A0A1
G ND
D15
D7
D14
D6
D13
D5
D12
D4
D11
D3
D10
D2
D9
D1
D8
D0
5 4
7 2
5 4
7 2
8
5
7 2
27R
R N1
8
27R
R N2
8
R N427R
US B _C S
WE 0_ N
B 3A3C 4A4B 4
A16
A15
R D_N
36
36
1
5 4
7 2
8
27R
4
1
1
36
LC D_ BL _ON /OF F
R N3
1
36
A14
B 14
A13
B 13
C 13
D13
A12
B 12
C 12
D12
A11
B 11
C 11
D11
A10
B 10
C 10
D10A9B 9
D9A8B 8
C 8D8A7
B 7
C 7D7A6
B 6
C 6D6A5
B 5
C 5
D5
A13
WE 0_ N
WA IT_ N
U1
R 8A6 6XX XB G
A18
A19
A22
A21
A20A9A10
A11
A14
A12
A2A3A4A5A6A7A8
C 9
A1
R D_N
C S0 _N
D2D9D1D8D0
A0
A17
D15D7D14D6D13D5D12D4D11D3D10
R X2+
R X2-
GN D2
R X0+
R X0-
GN D4
NC 1
DDC C LK
GN D5
HP D
R X2+
R X2-
GN D2
R X0+
R X0-
GN D4
DDC C LK
GN D5
HP D
J1 1
GN D1
R X1+
R X1-
GN D3
R XC +
R XC -
NC 2
DDC DA
VC C
J1 0
GN D1
R X1+
GN D3
R XC +
NC 1
DDC DA
VC C
R X1-
R XC -
NC 2
HDMI SCHEMATIC
200R
L11 3
AV CC 33D
C2 66
16V
47U
C2 65
0.1 U
D63
D5V 0S 1
D65
D5V 0S 1
D5V 0S 1
C3 00
C1 57
0.1 U
C3 01
10U
0.1 U
D64
C3 04
C3 05
10P
10P
NC
NC
C3 07
C3 06
0.1 U
10P
NC
R 447
NC
R 448
4K 7
4K 7
GN D
U1
H2
R X2P _H2
H1
R X2M_ H1
H3
R X1P _H3
G3
R X1M_ G3
G2
R X0P _G 2
G1
R X0M_ G1
F2
R XC P_ F2
F1
R 458
R 459
R 460
100R
10R
10R
R ES E T _N
S DA
S CL
R 455
R 456
R 457
R XC M_F 1
100R
100R
100R
HDMI _S DA10 _F3
PW R 0_E 3
F3
E3
VD D1.8 V
R 494 0 R
S TAN DB Y_5 V
200R
TP WR /I2C ADD R
2221252428
79
AG ND9
R 0X0+
3K 3
80
AG ND1
AVC C 18A
AG ND2
EX TS W ING
R ES E T #
HP D0
AVC C 18B
R 0XC R 0XC +
AG ND3
R 0X0-
TX 2+
TX 2-
TX 1+
TX 1-
TX 0+
TX 0-
TX C+
TX C-
LS DA
LS C L
VD D1.8 V
16V
C2 63 0. 1U
C2 64
47U
GN D
1
2
3
4
5
6
7
8
9
10
11
12
R 461
13
750R
14
15
16
17
18
19
20
D1. 8V_ HDMI
L81
R 536
GN D
R 556
R 557
R 558
R 559
R 560
R 537
R 561 0R
R 12
100R
D67
D5V 0S 1
R 534 0 R
0R
0R
0R
R 452
0R
0R
0R
0R
R 13
10K
GN D
GN D
AV CC 33D
NC
HDM I1_S C L
HDM I1_S DA
D1
S R2 3
NC
80K 6
R 542
R 74
100R
NC
R 544
R 545
R 547
R 546
R 550
R 549
R 548
R 551
NC
0R
0R
0R
0R
0R
0R
0R
10R
AV CC 33D
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
AG ND7
R XC 2+
R XC 2AVC C 18D
HP D2
AVC C 33C
CE C -A
CE C -D
R PW R1
DS CL 1
DS DA1
AVD D18B
R 1X2+
R 1X2AG ND6
R 1X1+
R 1X1AVC C 33B
R 1X0+
R 1X0-
R 453
HDM I0_S C L
HDM I0_S DA
R 540
100R
R 2X0-
AG ND5
40
GN D
4K 7
R 541
100R
66
63
6261656468
AG ND8
AVC C 33D
R 2X0+
R 2X1+
R 2X1-
AVC C 18C
HP D1
R 1XC +
R 1XC -
37
36
39
38
35
69
71
70
67
AVD D18C
R 2X2+
R 2X2-
767473
72
75
78
77
DS CL 2
DS DA2
HP DIN
DG ND2
DVC C 18B
R PW R2
R SV DL
TS C L
TS DA
U44
S II918 5
AG ND4
AVD D18A
DS CL 0
DS DA0
R 0X1+
R 0X1-
R 0X2+
R 0X2-
R PW R0
DVC C 18A
DG ND1
I2C S EL /INT
31
30
32
33
34
AVC C 33A
26
29
27
23
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
R 565
100R
R 564
100R
R 562
4K 7
R 535 0 R
19
21
21
R 566
R 567
47K
D69
R 563
D5V 0S 1
NC
D68
D5V 0S 1
C3 5 0 .1U
NC
GN D
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
R 6
GN D
C1 22 0. 1U
D7
D5V 0S 1
NC
D8
D5V 0S 1
GN D
GN D
21
21
R 7
R 76
GN D
4K 7
R 538
100R
R 543
47K
GN D
R 539
10K
NC
NC
GN D
HDMI 0_S C L
HDMI 0_S DA
HDMI 1_S C L
HDMI 1_S DA
C3 03
0.1 U
GN D
R 462
4K 7
R 463
4K 7
R 464
4K 7
R 465
4K 7
GN D
0.1 U
C3 02
GN D
+3.3V _MC U
R 450
R 449
3K 3
4K 7
NC
R 451
3K 3
GN D
J2
G4
1000 P
C3
D2
D1
C1
470R
R 15
E2
E1
VD D33
HDMI _XO UT _E 2
HDMI _XIN _E 1
PL L_X FC _X _D2
PL L_X FC _P _D1
PL L_X FC _A _C 1
EX P _R E S_ J2
HDMI _S CL 10
GN D
R 20
1M
C4 0.1 U
R 18
R 17
3K
100P
4K 7
NC
C6
C8
4U7
C5
2200 P
C7
1
R 19
7K 5
1000 P
2700 P
C9
X1
18M4
22P
C1 0
R 352
100R
22P
C1 2
GN D
D1. 8V_ HDMI
C2 13
C2 14
C2 12
C2 11
C2 10
C2 07
0.1 U
0.1 U
0.1 U
0.1 U
D66
D5V 0S 1
0.1 U
C2 67
0.1 U
0.1 U
C2 17
C2 16
0.1 U
0.1 U
GN D
GN D
LV DS &P LL S C HE MAT IC
D3. 3V
D1. 0V
L8
200R
L9
200R
L7
200R
C 53
R 26
5K 6
470P
C 55
NC
GN D
OP TI ON_ JU ST F OR D OUB LE LV DS
C 270 10 P
10P
C 271
10P
C 272
10P
C 273
10P
C 274
10P
C 275
10P
C 276
10P
C 277
10P
C 278
C 279 10 P
C 50
PA NE L_ PO WE R
LV DS 0_O UT 3M
LV DS 0_C LK OU TM
LV DS 0_O UT 2M
LV DS 0_O UT 1M
LV DS 0_O UT 0M
S E LLV DS
OD SE L 2
VB R _O UT
LV DS 1_O UT 3M
LV DS 1_C LK OU TM
LV DS 1_O UT 2M
LV DS 1_O UT 1M
LV DS 1_O UT 0M
GN D
C A21
25V
100U
C 181
2
4
1
3
56
78
10
9
1112
1314
1516
1718
20
19
2122
2324
2526
2728
30
29
3132
3334
3536
3738
40
39
0.1 U
GN D
GN D
LV DS 0_O UT 3P
LV DS 0_C LK OU TP
LV DS 0_O UT 2P
LV DS 0_O UT 1P
LV DS 0_O UT 0P
R OT /DCR
OD SE L 1
VB R _E XT
LV DS 1_O UT 3P
LV DS 1_C LK OU TP
LV DS 1_O UT 2P
LV DS 1_O UT 1P
LV DS 1_O UT 0P
GN DGN D
J2 0
16V
16V
10U
10U
OP TI ON_ JU ST F OR D OUB LE LV DS
VA L?
L10 6
1 4
2
VA L?
L10 7
1 4
2
VA L?
L10 8
U1
C 510.1 U
C 520.1 U
C 540.1 U
GN D
R 25
1K
0.0 1U
C 56
D17
VS S 33B IAS _D 17
E 16
VS S 33L VDS _ E1 6
E 17
VC C 33LV DS _E 17
F1 7
VC C 33B IAS _F 17
F1 8
VC C 33LV DS _F 18
G1 7
VS S 33L VDS _ G17
H17
VD D10L VDS _H 17
J1 7
VS S 10L VDS _ J17
D18
R EF R _D1 8
E 18
LP FP _E 18
LV DS 1OU T0M _A19
LV DS 1OU T0P _B 19
LV DS 1OU T1M _A20
LV DS 1OU T1P _A 21
LV DS 1OU T2M _B2 0
LV DS 1OU T2P _B 21
LV DS 1C LK OUT M_C 19
LV DS 1C LK OUT P _D19
LV DS 1OU T3M _C 20
LV DS 1OU T3P _C 21
LV DS 1OU T4M _D20
LV DS 1OU T4P _D 21
LV DS 0OU T0M _E 19
LV DS 0OU T0P _F 19
LV DS 0OU T1M _E 20
LV DS 0OU T0P _E 21
LV DS 0OU T2M _F2 0
LV DS 0OU T2P _F 21
LV DS 0C LK OUT M_G 18
LV DS 0C LK OUT P _G1 9
LV DS 0OU T3M _G2 0
LV DS 0OU T3P _G 21
LV DS 0OU T4M _H20
LV DS 0OU T4P _H 21
R SD S A_H1 8
R SD S B_H 19
PL LAV C C_ 2_A17
PL LAV S S _2_A 18
PL LDV DD_ 2_B 17
PL LAV C C_ 1_C 15
PL LAV S S _1_D 14
PL LDV S S _2_D 15
PL LDV DD_ 1_E 13
PL LDV S S _1_E 14
A19
B1 9
A20
A21
B2 0
B2 1
C1 9
D19
C2 0
C2 1
D20
D21
E 19
F1 9
E 20
E 21
F2 0
F2 1
G1 8
G1 9
G2 0
G2 1
H20
H21
H18
H19
A17
GN D
A18
B1 7
C1 5
GN D
D14
D15
E 13
E 14
LV DS 0_C LK OU T_ M
LV DS 0_C LK OU T_ P
1 4
2
L10 9
1 4
2
L11 0
1 4
2
L67
1 4
2
R 570
R 569 0R
VA L?
VA L?
LV DS 1_O UT 4M
LV DS 1_O UT 4P
VA L?
0R
NC
3
NC
3
NC
3
NC
3
NC
3
LV DS 0_O UT 0M
LV DS 0_O UT 0P
3
L68
1 4
2
S PR _C L KO UT_ M
S PR _C L KO UT_ P
LV DS 1_O UT 0M
LV DS 1_O UT 0P
LV DS 1_O UT 1M
LV DS 1_O UT 1P
LV DS 1_O UT 2M
LV DS 1_O UT 2P
LV DS 1_C LK OU TM
LV DS 1_C LK OU TP
LV DS 1_O UT 3M
LV DS 1_O UT 3P
VA L?
LV DS 0_O UT 1P
3
L69
1 4
2
LV DS 0_O UT 4M
LV DS 0_O UT 4P
R S DS A
R S DS B
LV DS 0_O UT 1M
VA L?
L70
LV DS 0_O UT 2M
LV DS 0_O UT 2P
3
2
1 4
VA L?
LV DS 0_C LK OU TM
3
LV DS 0_C LK OU TP
2
L71
1 4
VA L?
3
LV DS 0_O UT 3M
LV DS 0_O UT 3P
PA NE L_ PO WE R
R 8A66 XX XB G
R 346
1K
R 345
NC
S E LLV DS
0R
NC
GN D
L65
L64
L63
L62
200R
200R
200R
200R
matching pa nel S H1
D3. 3V
D1. 0V
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
LV DS 1_O UT 0M
LV DS 1_O UT 0P
LV DS 1_O UT 1M
LV DS 1_O UT 1P
LV DS 1_O UT 2M
LV DS 1_O UT 2P
LV DS 1_C LK OU TM
LV DS 1_C LK OU TP
LV DS 1_O UT 3M
LV DS 1_O UT 3P
C 61
16V
10U
C 59
16V
10U
0.1 U
C 62
0.1 U
C 60
C 63
16V
10U
GN D
C 64
0.1 U
C 57
16V
10U
GN D
C 58
0.1 U
R 482
0R
1K
R 481
NC
OD SE L 2
GN D
R 483
0R
GN D
1K
R 484
NC
VB R _O UT
R 485
1K
R 486
NC
VB R _E XT
0R
GN D
R 487
1K
R 488
0R
GN D
NC
OD SE L 1
R 489
0R
1K
R 490
NC
R OT /DCR
GN D
GN D
C 280
C 281
C 282
C 283
C 284 10 P
C 285
C 286
C 287
C 288
C 289
10P
10P
10P
10P
10P
10P
10P
10P
10P
LV DS 0_O UT 0M
LV DS 0_O UT 0P
LV DS 0_O UT 1M
LV DS 0_O UT 1P
LV DS 0_O UT 2M
LV DS 0_O UT 2P
LV DS 0_C LK OU TM
LV DS 0_C LK OU TP
LV DS 0_O UT 3M
LV DS 0_O UT 3P
LV DS 0_C LK OU T_ P
LV DS 0_C LK OU T_ M
R 568
10K
NC
GN D
U46
1
C LK IN
2
C LK IN
3
FS
4
GN D
PC S 3P 73L 00A
S S %
C LK OU6T
C LK OUT
NC
VS S
GN D
L11 7
D3. 3V
200R
NC
C 316
0.0 1U
NC
0.1 U
C 315
NC
8
7
6
5
GN D
S PR _C L KO UT_ P
S PR _C L KO UT_ M
P OW E R 1 S CHE MAT IC
+12V _P OWE R
CP 109
Q43
BT 3904
GN D
+3.3V _MC U
D3. 3V
0.1U
C
E
CP 94
1U
L11 2 10 R
L6
U32
CP 2
100U
123
GND /ADJ
GND /ADJ
123
+12V _P OWE R
NC
R 201
0R
+5V_ PA NE L
4
4
OUT
VIN
4
4
OUT
VIN
DV D_S W
PO WE R -E N_1 .0V
+5V_ DVD
R 200
0R
C2 99
47U
R 272
CP 48
10K
3900 P
PO WE R -E N_1 .0V
CP 47
180P
1%
1%
R 271
R 270
10K
GN D
D1. 0V
CP 45
220U
1K 5
CP 46
10U
16V
0.1U
C1 63
T O C 4 1 .0V (2A)
GN D
+3.3V _MC U
16V
+12V _P OWE R
+3.3V _MC U
U21
CP 69
CP 4
220U
0.1U
CP 52
100U
16V
CP 51
CP 112
0.1U
CP 50
0.01 U
22U
16V
GN D
1
NC 1
2
BS
3
CO MP
NC 2
4
IN
5
GN D
S W
MP 1411
D41
CP 49
0.01 U
10
S S
9
E N
8
7
FB
6
L31
15U H
S R2 3
GN D
GN D
U18
KI A78D0 9
1 3
IN OUT
CP 28
+12V _P OWE R
Q39
A034 01A
DGS
C3 27
NC
CP 13
1U
R 192
330K
LC D_5 V_E N
CP 57
CP 56
0.1U
470U
16V
2U2
68K
R 591
C
B
E
CP 18
0.1U
R 193
1K
PO WE R _3. 3V/1. 8V
GN D
L98
D3. 3V
10R
NC
CP 104
0.1U
NC
D1. 8V
CP 40
CP 38
220U
16V
0.1U
6V3
Q35
R N140 9
GN D
LD1 117S 18
CP 105
100U
16V
NC
B
U25
NC
PA NE L_P OW E R
Q31
A034 01A
C
Q34
E
R N140 9
GN D
4
4
OUT
VIN
D5V
D5V
LP 6
10R
10R
DGS
LP 50
16V
GN D
GND /ADJ
123
R 478
120R
NC
R 476
CP 106
120R
16V
10U
NC
NC
GN D
CP 27
0.1U
16V
+5V
CP 14
CP 15
220U
0.1U
option for U SB
CP 107
16V
220U
NC
100U
CP 16 0.1 U
CP 108
0.1U
NC
16V
+1.5V _U SB
CO MMON
2
GN D
U19
AIC 1084
3 2
ADJ /GND
1
CP 17
100U
+9V
LD1 117S 50
CP 30
CP 29
100U
16V
0.1U
4
4
U22
GND /ADJ
OUT
VIN
123
GN D
+3.3V
+3.3V
LP 22
VOU TVIN
CP 19
220U
16V
10R
CP 20
0.1U
CP 23
100U
16V
GN D
L35
10R
GN D
T O T UNE R 5 V(0 .4A)
CP 33
220U
16V
D3. 3V
CP 24
0.1U
CP 25
100U
16V
GN D
+5V_ TU NE R
A5V
+5V_ TU NE R
A5V
L25
47U H
CP 34
0.1U
0.1U
CP 35
470U
16V
A3. 3V
CP 26
0.1U
+5V_ PO WE R
NC
CP 3
16V
0R
R 503
LD1 117S 33
+12V _P OWE R
+12V _P OWE R
S TAN DB Y_5 V
P_ ON
BL _ON /OFF
V_ SE L
+12V _P OWE R
L89 220R
220R
L90
4
6
8
10
12
14
16
18
3
5
+12V _P OWE R
7
9
S TAN DB Y_5 V
11
GN D
13
VD IM
15
17
CP 55
470U
16V
CP 54
470U
16V
J1 6
GN D
CP 110
12
0.01 U
10
S S
9
E N
8
7
FB
6
L92
15U H
CP 88
1000 P
CP 90
0.01 U
U39
1
NC 1
2
BS
3
CO MP
NC 2
4
IN
5
GN D
S W
MP 1411
CP 89
S TAN DB Y_5 V
P_ ON
CP 53
0.1U
R 386
0R
B
NC
GN D
C
E
R 202
10K
Q42
R N140 9
NC
PO WE R _C ON TR L
GN D
56P
R 403
100K
GN D
R 514 0R
1%
S R2 3
D48
R 502
10K
GN D
GN D
100U
16V
CP 81
CP 80
CP 82
0.1U
22U
16V
J1 9
CP 92
CP 91
220U
4U7
16V
GN D
GN D
3
1 2
GN D
5
6
4
+5V_ PO WE R
C1 64
0.1U
C1 65
220U
16V
option for s mart pane l
R 477 0R
C1 66
220U
16V
4K 7
R 505
1%
CP 84
10U
16V
220U
CP 85
CP 86
0.1U
+12V _P OWE R
NC
GN D
R 407
30K
D50
B
CP 93
0.1U
LL 4148
U37
1
BO OT
2
DR IV E
UG AT E
3 6
FB GN D
4
VC C
R T81 10
PH AS E
LG AT E
GN D
U38
1
S1
2
G1
3
S2
4
G2
PH KD 13N03 LT
8
D1A
L94
7
10U H
D1B
6
D2A
5
D2B
R 408
NC
10R
NC
1000 P
CP 95
NC
0.01 U
CP 96
NC
R 411
option for s mart pane l
100K
R 410
R 409
NC
R 412
100K
510R
CP 97
16V
470U
2K 7
GN D
CP 98
10U
CP 99
0.1U
L95
10R
L96
10R
L97
10R
8
7
5
GN D
100U
LD1 117S 18
16V
U23
4
4
U24
OUT
VIN
LD1 117S 18
GND /ADJ
10R
NC
CP 100
0.1U
CP 101
100U
16V
123
D1. 8V_ HDMI
CP 102
CP 103
220U
16V
0.1U
+3.3V
L10 0
10R
CP 41
CP 39
0.1U
GN D
GN D
D3.3V
D1.0V
P OWE R _C 4 S C HE MAT IC
C 128 0. 1U
U1
J 9
VD D_J 9
VD D_L 9
K 10
J 10
J 11
K 11
J 12
J 13
K 12
K 9
L9
L1 0
M9
C 127 0. 1U
C 126 0. 1U
L3
200 R
C 113
16V
10U
E 5
E 6
VC C Q33 _E 5
VC C Q33 _E 6
C 114 0. 1U
L2
200 R
C 116
16V
10U
C 117 0. 1U
E 10
E 11
E 12
E 15
E 7
E 8
E 9
VD D_E 7
VS S _E 8
VD D_E 9
VS S _E 10
VC C Q33 _E 11
VS S _E 12
VD D_E 15
VS S _K 10
VD D_J 10
VD D_J 11
VS S _K 11
VD D_J 12
VD D_J 13
VS S _K 12
VD D_K 9
VS S _L 10
VD D_M9
C 115 0. 1U
G ND
C 118 0. 1U
C 119 0. 1U
C 121 0. 1U
C 120 0. 1U
G ND
T 5
VD D_T 5
U5
VC C Q33 _U5
U6
VD D_U 6
U7
VS S _U 7
U8
VC C Q33 _U8
U9
VD D_U 9
R 8A66X XX BG
VD D_K 13
VS S _L 11
VD D_L 13
VS S _L 12
VD D_M1 3
VD D_N 9
VD D_N 10
VS S _M 10
VD D_N 11
VS S _M 11
VD D_N 12
VS S _M 12
VD D_N 13
K 13
L1 1
L1 3
L1 2
M13
N9
N10
M10
N11
M11
N12
M12
N13
C 125 0. 1U
C 124 0. 1U
C 123 0. 1U
G ND
L32HD31 POWER SUPPLY SCHEMATIC
D1. 8V
S DR AM1 S C HE MAT IC
GN D
D1. 8V
C 101
0.1 UC66
C 65 0.1U C 68 0.1U
1U
C 67
K2 0
C 69
10U
C 70 0.1U
C 71
1U
C 72 0.1U C 73 0.1 U
C 74 0.1U
1%
R 307
1K
C 11 0.1U
1%
R 308
1K
C 76
10U
16V
C 77 0.1U
K1 7
L17
M19
M17
N17
P1 9
P1 7
R 17
T1 9
T1 7
U19
U17
V20
W19
W18
W17
AA21
U16
U15
U14
W14
U13
W12
U12
U11
Y1 0
U10
R 8A66 XX XB G
VC C Q18_ K2 0
VS S _K 17
VS S _L 17
VS S _M1 9
VC C Q18_ M17
S DVR E F 0_N1 7
VC C Q18_ P1 9
VS S _P 17
VS S _R 17
VC C Q18_ T19
VC C Q18_ T17
VS S _U 19
VS S _U 17
VC C Q18_ V20
VC C Q18_ W19
VC C Q18_ W18
VS S _W 17
VS S _AA 21
VS S _U 16
VS S _U 15
VC C Q18_ U14
VS S _W 14
S DVE R 1_ U13
VC C Q18_ W12
VS S _U 12
VS S _U 11
VS S _Y 10
VC C Q18_ U10
U1
S DDQ 9_L1 8
S DDQ 7_L1 8
M21
K2 1
N21
L19
M18
L20
L18
M20
P2 0
N20
R 19
P1 8
R 18
T2 1
R 21
R 20
K1 8
K1 9
N18
N19
L21
P2 1
S DDQ 15_M2 1
S DDQ 14_K 21
S DDQ 13_N 21
S DDQ 12_L 19
S DDQ 11_M1 8
S DDQ 10_L 20
S DDQ 8_M20
S DDQ 6_N2 0
S DDQ 5_R 19
S DDQ 4_P 18
S DDQ 3_R 18
S DDQ 2_T 21
S DDQ 1_R 21
S DDQ 0_R 20
S DDQ S1 _K1 8
S DDQ S1 _N_K 19
S DDQ S0 _N18
S DDQ S0 _N_N 19
S DDM1_ L21
S DDM0_ P2 1
U10
B9
DQ1 5
B1 A1
DQ1 4 VDD 1
D9
DQ1 3
D1
DQ1 2
D3
DQ1 1
D7
DQ1 0
C2
DQ9
C8
DQ8
F9
DQ7
F1
DQ6
H9
DQ5
H1
DQ4
H3
DQ3
H7
DQ2
G2
DQ1
G8
DQ0
B7
UDQ S
A8
UDQ S
F7
LDQ S
E 8
LDQ S
B3
UDM
F3
LDM
A2
PI N-A2
E 2
PI N_E 2
L1
PI N_L 1
R 3
PI N_R 3
R 7
PI N_R 7
R 8
PI N_R 8
HY B1 8T2 56160 AF
VS S 1
VS S Q1
VD DQ1
VS S Q2
VS S Q3
VD DQ2
VD DQ3
VD DQ4
VD DQ5
VS S Q4
VS S Q5
VD D2
VS S 2
VS S Q6
VD DQ6
VS S Q7
VS S Q8
VD DQ7
VD DQ8
VD DQ9
VD DQ10
VS S Q9
VS S Q1 0
VD DL1
VR E F
VS S 3
VS S DL 1
VD D3
VD D4
VS S 4
VS S 5
VD D5
A3
A7
A9
B2
B8
C1
C3
C7
C9
D2
D8
E 1
E 3
E 7
E 9
F2
F8
G1
G3
G7
G9
H2
H8
J1
J2
J3
J7
J9
M9
N1
P9
R 1
D1. 8V
D1. 8V
D1. 8V
D1. 8V
D1. 8V
D1. 8V
D1. 8V
D1. 8V
D1. 8V
D1. 8V
D1. 8V
D1. 8V
C 800.1U
C 81 1U
C 820.1U
C 83 1U
C 840.1U
C 85 1U
C 750.1U
C 860.1U
C 87 1U
C 88 1U
C 89 1U
C 910.1U
C 90 1U
C 1000.1U
C 990.1U
C 970.1U
C 960.1U
C 950.1U
D1. 8V
D1. 8V
1U
C 781UC 79
D1. 8V
C 920.1U
10U
GN D
C 98
10U
GN D
C
1%
R 319
1K
1%
R 320
1K
C 93 0.1U C 94 0.1U
B
D1. 8V
GN D
GN D
S DR AM2 S C HE MATIC
R8 A66X XX BG
R8 A66X XX BG
U1
SD DQ31 _AA1 0
SD DQ30 _Y1 2
SD DQ29 _AA1 2
SD DQ28 _AA1 3
SD DQ27 _V1 2
SD DQ26 _Y1 1
SD DQ25 _W1 1
SD DQ24 _V1 1
SD DQ23 _Y1 3
SD DQ22 _AA1 5
SD DQ21 _Y1 5
SD DQ20 _AA1 6
SD DQ19 _V1 5
SD DQ18 _V1 4
SD DQ17 _W1 5
SD DQ16 _Y1 4
SD DQS 3_V 10
SD DQS 3_N _W 10
SD DQS 2_V 13
SD DQS 2_N _W 13
SD DM3_A A11
SD DM2_A A14
U1
SD RA S_ N_V 19
SD CL K_N _W2 1
SD CAS _ N_Y 21
SD WE _N_ Y19
SD A12_T 18
SD A4_U 18
SD ODT _V 18
SD A8_T 20
SD A0_U 20
SD A6_U 21
SD CS _N _V2 1
SD CL K_W 20
SD CK E _Y2 0
SD A2_A A20
SD BA0 _AA1 9
SD A10_Y 18
SD A1_A A18
SD A9_Y 17
SD A3_A A17
SD BA1 _V1 7
SD A5_V 16
SD A11_W 16
SD A7_Y 16
D1.8 V
C14 9
10U
D1.8 V
U26
AA10
Y12
AA12
AA13
V12
Y11
W11
V11
Y13
AA15
Y15
AA16
V15
V14
W15
Y14
V10
W10
V13
W13
AA11
AA14
B9
DQ15
B1 A1
DQ14 VDD1
D9
D1
D3
D7
C2
C8
F9
F1
H9
H1
H3
H7
G2
G8
B7
A8
F7
E8
B3
F3
A2
E2
L1
R3
R7
R8
DQ13
DQ12
DQ11
DQ10
DQ9
DQ8
DQ7
DQ6
DQ5
DQ4
DQ3
DQ2
DQ1
DQ0
UDQS
UDQS
LDQ S
LDQ S
UDM
LDM
PIN -A2
PIN _E 2
PIN _L1
PIN _R 3
PIN _R 7
PIN _R 8
HY B18 T256 160A F
VS S Q1
VDDQ 1
VS S Q2
VS S Q3
VDDQ 2
VDDQ 3
VDDQ 4
VDDQ 5
VS S Q4
VS S Q5
VS S Q6
VDDQ 6
VS S Q7
VS S Q8
VDDQ 7
VDDQ 8
VDDQ 9
VDDQ 10
VS S Q9
VS S Q10
VDDL 1
VS S DL1
VS S 1
VDD2
VS S 2
VR E F
VS S 3
VDD3
VDD4
VS S 4
VS S 5
VDD5
A3
A7
A9
B2
B8
C1
C3
C7
C9
D2
D8
E1
E3
E7
E9
F2
F8
G1
G3
G7
G9
H2
H8
J1
J2
J3
J7
J9
M9
N1
P9
R1
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
D1.8 V
C12 90.1U
C13 0 1 U
C13 10.1U
C13 2 1 U
C13 30.1U
C13 50.1U
C13 60.1U
C13 4 1 U
C13 7 1 U
C13 8 1 U
C13 9 1 U
C14 00.1U
C14 1 1 U
D1.8 V
C15 00.1U
C15 10.1U
GN D
C14 8
10U
C14 70.1U
GN D
C14 60.1U
C14 50.1U
1%
R5 4
1K
1%
R5 5
1K
C14 20.1U
D1.8 V
C14 3 0.1U C 144 0.1U
OP T ION
GN D
R4 4
27R
SD ODT
8
1
72
3 6
54
RN 6
27R
8
1
T18
U18
V18
V19
T20
U20
U21
V21
W20
W21
Y21
Y20
AA20
Y19
AA19
Y18
AA18
Y17
AA17
V17
V16
W16
Y16
3 6
72
54
SD A4
SD R AS _N
SD A12
SD CS _N
SD A0
SD A6
SD A8
SD ODT
SD A4
SD R AS _N
SD A12
SD CS _N
SD A6
SD A8
RN 9
27R
1
3 6
SD A0
8
72
54
SD A7
SD A5
SD A11
SD BA 1
OP T ION
SD A12
SD A11
SD A10
SD A9
SD A8
SD A7
SD A6
SD A5
SD A4
SD A3
R5 6
33R
33R
R5 7
R5 8
27R
RN 7
27R
8
1
72
3 6
54
RN 8
27R
8
1
72
3 6
54
SD A7
SD A5
SD A11
SD BA 1
SD CK E
SD A2
SD WE _N
SD BA 0
SD A10
SD A1
SD A9
SD A3
SD CL K
SD CL K_ N
SD CA S_ N
SD CK E
SD A2
SD WE _N
SD BA 0
SD A10
SD A1
SD A9
SD A3
SD A2
SD A1
SD A0
SD CL K
SD CL K_ N
SD BA 0
SD BA 1
SD R AS _N
SD CA S_ N
SD CS _N
SD ODT
SD CK E
SD WE _N
U10
R2
A12
P7
A11
M2
A10
P3
A9
P8
A8
P2
A7
N7
A6
N3
A5
N8
A4
N2
A3
M7
A2
M3
A1
M8
A0
J8
CK
R5 9
160R
K8
CK
L2
BA0
L3
BA1
K7
RA S
L7
CAS
L8
CS
K9
ODT
K2
CK E
K3
WE
R6 0
160R
HY B18 T256 160A F
SD A12
SD A11
SD A10
SD A9
SD A8
SD A7
SD A6
SD A5
SD A4
SD A3
SD A2
SD A1
SD A0
SD CL K
SD CL K_ N
SD BA 0
SD BA 1
SD R AS _N
SD CA S_ N
SD CS _N
SD ODT
SD CK E
SD WE _N
R2
A12
P7
A11
M2
A10
P3
A9
P8
A8
P2
A7
N7
A6
N3
A5
N8
A4
N2
A3
M7
A2
M3
A1
M8
A0
J8
CK
K8
CK
L2
BA0
L3
BA1
K7
RA S
L7
CAS
L8
CS
K9
ODT
K2
CK E
K3
WE
HY B18 T256 160A F
U26
G ND
LE D_ G
LE D_ YE LL OW
LE D_ GR E E N
G ND
IR _IN
+3.3 V_MC U
BL _S E NS OR
C 290
R 136
3K 3
R 531
100K
11
9
7
IR
5
3
1 2
0.0 1U
G ND
S UB -MC U S CHE MAT IC
+3.3 V_MC U
R 134
330R
Q4 7
G ND
BC 84 7B
NC
C
B
E
Q3 0
BC 84 7B
C
B
E
R 530
100K
G ND
R 135
3K 3
LE D_ Y
+3.3 V_MC U
NC
R 133
NC
10K
J7
12
KE Y 1
10
KE Y 0
8
G ND
6
4
+3.3 V_MC U
R 424
G ND
0R
R E MOT E_ FE T CH
0.0 1U
C P5
0.0 1U
C P1
G ND
KE Y 1
KE Y 0
P OWE R -E N_ 1.0V
P OWE R _3 .3V /1.8V
P OWE R _C ON TR L
R 139
R 124
100R
R 138
100R
100R
R 142
10K
R 144
10K
R 32
10K
G ND
G ND
+3.3 V_MC U
G ND
G ND
R 145
100R
100R
25
26
27
28
29
30
31
32
G ND
S CL _S
S UB _S DA
S UB _S CL
BL _S E NS OR
5K 1
R 500
G ND
LC D_5 V_E N
R 118
100R
R 119
100R
R 141
100R
R 146
100R
10K
R 147
WP _S
ZA1
T
T
T
S DA_S
T
R 393
R 394
3K 9
3K 9
AT 24C 02
S DA
G ND
4
A2
3
A1
2
A0
1
U16
S CL
WP
VC C
+3.3 V_MC U
5
6
7
G ND
8
C 204
C 203
22P
22P
T
S UB _VC C
C 182
0.1 U
G ND
G ND
R 148
R 552
10K
R 553
NC
+3.3 V_MC U
10K
R 125
5K 1
+3.3 V_MC U
R 555
220R
R 554
1K
2V 4
D62
Q1
E
B
C
C 174
10U 25 V
BT 390 6
+3.3 V_MC U
1
R E SE T
R 77
10K
2
3
4
5
6
MOD E
TX D
R XD
C NVS S
R E SE T
7
G ND
J2 1
G ND
U30
R 8C 11
P0 6/AN1
P0 5/AN2
P0 4/AN3
MOD E
P0 3/AN4
P0 2/AN5
P0 1/AN6
P0 0/AN7/T XD11
100R
R 149
+3.3 V_MC U
10K
R 140
R 349
C 158 0. 1U
24232221201918
IVC C
P0 7/AN0
P3 0/CNT R 0#/C MP 10
P3 7/RX D10 /RX D1
CW S S
2
1
R E SE T _S UB
R E SE T
R 126
5K 1
R ES E T
3
G ND
C 156 0. 1U
R 496
R 501
NC
10K
10K
G ND
+3.3 V_MC U
DE B UG _S W
R 508
100R
G ND
AV SS
P3 1/TZO UT /CMP 11
XO UT /P47
4
AV CC /VR E F
P3 2/INT 2/CNT R 1/CM P12
P1 0/KI0# /AN8/C MPO 0
P1 1/KI1# /AN9/C MPO 1
P1 2/KI2# /AN10/C MP O2
XIN /P46
VC C
VS S
6
5
17
P3 3/INT 3#/TC IN
P1 3/KI3# /AN11
P1 7/INT 1#/CN TR 0
8
7
R 512
10K
NC
G ND
P4 5/INT 0#
P1 4/TX D0
P1 5/RX D0
P1 6/CL K0
R 389 10 0R
R 507
10K
NC
G ND
16
15
14
13
12
11
10
9
R 509
10K
R 371 10 0R
+3.3 V_MC U
R 385
NC
10K
NC
10K
R 182
R 390
100R
R 384
R 180 100R
R 351 1 00R
R 152
100R
R 151 100R
R 150
100R
100R
NC
100R
R 511
10K
G ND
10K
R 329
R 181 100R
G ND
NC
R 497
+3.3 V_MC U
R 339
10K
100R
10K
R 338
IR Q0 _N
LE D_ G
R E MOT E_ FE T CH
LE D_ Y
E 2P RO M_W P
AMP _MU TE
AMP _S T ANDB Y
KE Y 1
KE Y 0
MC U_S C IT XD
MC U_S C IR XD
R E SE T _N
T
R 137
1M
X3
16M
22P
C 15422P
C 155
C 153
16V
C 152 0. 1U
47U
+3.3 V_MC U
G ND
R 128
1K
IR _IN
VIDE O-ADC S C HE MAT IC
P C_V
P C_H
D44
D43
LL 4148
LL 4148
R 297
3K 3
D3. 3V
R 294
3K 3
U1
VIN 2B
VIN 6A
VIN 5A
VIN 4A
VIN 3A
VIN 1A
S SI N2
S SI N1
PC V DIN
VIN 2A
J1
L1
L2
L3
K2
K1
M2
C 13 0 .1U
C 15 0 .1U
C 14 0 .1U
C 16 0 .1U
AV O_T UN
AV 1_C VB S
C 18 0 .1U
C 161 0. 1U
C 17 0 .1U
AV 3_Y
DV D_Y /AV1_ Y
C 20 0 .1U
C 19 0 .1U
C 21 0 .1U
AV 5_G
AV 3_P B
AV 2_C VB S
DV D_C /AV1 _C
R 8A66 XX XB G
VD D33B
DLL VD D
VD D18B
PL LV S S
VS S 18B
DLL VS S
PL LV DD
VS S 33B
AV DDS 5
AV DDC
DV SS AB C
DV DDAB C
ADV S S4
AV DDB
VD D18A
ADV S S3
AV DDA
VD DA33A
VS S 33A
ADV S S2
ADV S S1
VS S 18A
LP F
VR MC
VR MB
VR MA
VR P C
VR P B
VR P A
VR E F C
VR E F B
VR E F A
VIN 3C
VIN 2C
VIN 4B
VIN 3B
T1
P2
U2T2R 3P3N1N2N3
M1
C 22 0 .1U
C 24 0 .1U
C 23 0 .1U
P1
R 1
M3
C 27 0 .1U
C 26 0 .1U
C 25 0 .1U
U1
R 2
N4
0.1 U
0.1 U
C 29
0.1 U
C 30
C 28
C 31 0. 1U
K5
V1
R 3101K
C 32 0.1 U
0.1 U
C 34 470P
C 33
AD_ PL L3. 3V
GN D
L17
200R
AV 5_B
AV 5_R
AV 3_P R
L18
200R
A3. 3V
G5
F5
H5
J5J4J3
K4
K3
AD_ A3.3 V
AD_ PL L3. 3V
L5
L4
R 5
H4
M5
M4
T4
T3
P5
P4
U4
N5
R 4
GN D
GN D
C 36
16V
10U
C 37 0 .1U
C 38 0 .1U
C 39 0 .1U
GN D
1U
C 40 0 .1U
C 41
D3. 3V
D1. 8V
D1. 8V
L14
L42
L50
200R
200R
200R
GN D
GN D
DL LVD D
VD D33
VD D18
VD D18
1U
C 42
C 43 0 .1U
C 44
16V
10U
C 46 0 .1U
C 45 0 .1U
GN D
C 49
16V
10U
C 47 0 .1U
C 48 0 .1U
GN D
VIF & B TS C S CHE MATIC
R 210
TU NE R _IF
0R
+5V_ TU NE R
L36
22U H
CT 30
16V
22U
BT S C_ PO WE R
0.0 1U
CT 31
GN D
+5V_ TU NE R
22P
CT 26
C
Q40
GN D
GN D
GN D
CT 21
0.4 7U
AV O_T UN
47U
CT 241000P
BC 857 C
CT 22
16V
L80
15U H
123
X9
4M5
GN D
R 219
0R
NC
X5
4M5
OP TI ON
R 380
330R
NC
R 381
240R
NC
NC
GN D
L66
22U H
R 217
1K
R 218
220R
123
GN D
R 392
GN D
NC
X10
4M5
0R
3
1
2
R 322
1K
0.0 1U
CT 23
R 220
10K
R 221
10K
S IF_ OUT
E
0.1 U
CT 20
B
TU NE R _AF T
100R
R 321
10
R E F_S IG NA L
U17
2
DE FE A T-S W
3
VC C
4
VI DE O-DE T OU T
5
AP C
6
VC O- F/B
7
S IF- IN
8
S IF- OUT
9
US /JP -S W
R E F-S IG S W
M611 16F P
100R
R 350
NC
E Q-AM P-F /BVI DE O-O UT
IF -AG C2
IF -AG C1
VI F-IN 2
VI F-IN 1
GN D
R T-A GC
LO GIC -V CC
R E F-S IG IN
AF T
NC
CT 15
22U H
NC
L41
CT 14
201
19
CT 13
0.0 1U
0.2 2U
18
17
16
CA 96
15
14
13
0.0 1U
CT 10
R 229
22P
1K
NC
NC
GN D
IN
X4
0.0 1U
0.0 1U
NC
R 228
NC
820R
IN/G ND
GN D
OU T1
54321
CT 16
OU T2
12
11
CT 9 0. 1U
CT 8 0. 1U
0.0 1U
CT 7
GN D
47U
16V
CT 11
0.0 1U
CT 12
L59
+5V_ TU NE R
22U H
VI F_P OW E R
S IF_ OUT
ALT UN
AR TU N
TU N_S DA
TU N_S C L
R 263
R 264
100R
100R
CT 28
1000 P
GN D
R 374
2U2
CT 32
2U2
CT 33
0R
R 269
180K
R 375 0R
R 376
R 377
47K
47K
NC
1U
1U
C1 72
C1 71
NC
323130292827262524
L-R _R E F
NC 4
L_O UT
R _OU T
AG C_ DE T
S CL /ST IDPEGN D
CT 34
S DA/S API D
2U2
23
22
S TE R E O_R E F
CT 36
4U7
2120191817
INP UT
NC 3
S IF_ RE F
0.2 2U
CT 38
R 230
VC C
PL L
PI LOT _DE T
0.3 3U
CT 39
CT 37 0.1 U
3K 3
GN D
U3
AN5 832S A
NC 2
L+R _R E F
S AP_ DE T
NOI SE _ DE T
S IF/B B
MUT E
FO MO
MOD E
AG CS W
IIC /PAR A
S PE _F IL
S PE _D ET
S PE _T IME
WB _DE T
WB _T IME
NC 1
1
10U
22P
CT 50
22P
CT 49
543
2
+/-10%
+/-10%
+/-10%
+/-10%
0.1 U
0.3 3U
CT 42 4U7
CT 44
CT 48
CT 47
9
8
7
6
10K
R 313
12
11
10
0.0 22U
BT S C_ PO WE R
CT 45
16
15
14
13
2U2
CT 40
CT 41 0. 033U
CT 43 0 .1U
GN D
GN D
GN D
GN D
R 227
3K
Q37
C1 815M
R 226
4K 7
GN D
CT 69
100P
NC
C
B
E
1200 P
R 224
5K 1
R 223
4K 7
B
R 225
2K 4
CT 3
X8
39P
4M
150P
CT 1
CT 2
R 222
100R
C
Q36
C1 815M
E
GN D
VS B -ADC &AUDIO-I/O S C HE MAT IC
IF _OU T1
IF _OU T2
A3. 3V
D3. 3V
A3. 3V
C A7
1000 P
C A9
1000 P
L46
L48
200R
L16
200R
L26
0.2 2UH
L53
0.2 2UH
200R
U1
V2
C A1
16V
10U
C A2 0. 1U
G ND
C A5 0. 1U
C A6
1000 P
R 27
51K
120P
0.1 UH
L51
C A8
C A10
1000 P
R 28
51K
G ND
C A12 0.1 U
C A11
16V
10U
C A3 0. 1U
C A4 0. 1U
G ND
C A13
C A14 0.1 U
100U
16V
16V
47U
C A17 0.1 U
C A16
VD D33AD DA_ V2
U3
VS S 33A DDA_ U3
W2
ADR E F 0_W 2
Y2
ADR E F 1_Y 2
AA2
ADR E F 2_AA 2
Y1
ADIN 0_Y 1
AA1
ADIN 1_A A1
V3
VC C 33AD _A_V 3
W1
VS S AD_ A_W 1
Y4
VC C 33DA _A_Y 4
W3
DAC VR E F _W3
Y3
VS S 33D A_A_ Y3
W5
AC LK _W5
W6
ADA TA0 _W6
Y6
LR C K0 _Y6
AA6
BC K 0_AA 6
R 8A66 XX XB G
LO UT_ AA4
R OUT _AA 3
S PD IF0_ V5
AA4
AA3
V5
C A106
R 467
0R
HDP H_ L
A_O UT _L+
220P
C A101
U36
15K
G ND
R 369
R C4 580
567
2IN +
2IN -
VC C -
1IN +
432
C A102
220P
R 370
15K
+9V
8
2O UT
VC C +
C A103
1O UT
1IN -
10U
C A104
0.1 U
10R
L79
1
G ND
R 466
0R
A_O UT _R +
HDP H_ R
R 29
4K 7
4K 7
C A22
R 30
C A107
1U
1U
220P
G ND
C A20
4K 7
R 365
220P
G ND
4K 7
C A99
R 366
220P
G ND
R 367
4K 7
R 378
10K
C A105
10U
R 379
10K
G ND
R 368
4K 7
220P
C A100
G ND
TV _S P DIF
G ND
ADA TA0
LR C K0
BC K 0
AC LK
100R
R 31
X6
VC
G ND
1
2
16V
4
VC C
3
OU T
L27
200R
C A19 0 .1U
C A18
22U
D3. 3V
D3. 3V
12M2 88
G ND
ALIGNMENT & ELECTRICAL
TEST PROCEDURE
RS86A
L32HD31
V1.0
TABLE OF CONTENTS
1. POWER SUPPLY ............................................................................................................................................2
2. ELECTRICAL TEST ...................................................................................................................................... 3
2.1 ABBREVIATIONS ............................................................................................................................................ 3
2.2 PREPARATION ................................................................................................................................................ 3
2.3 VOLTAGE REGULATOR .............................................................................................................................. ....3
2.4 KEY BOARD, IR RECEIVER AND RC ............................................................................................................... 3
2.4.1 T o navigate the MENU using
2.4.2 T o navigate the
MENU
using REMOTE CONTRO
KE
YBO
.........................................................................................4
ARD
L ...........................................................................4
2.5 VIDEO FUNCTIONAL CHECK ........................................................................................................................... 5
2.5.1 Y PbP r ................................................................................................................................................5
2.5.2 V G A ....................................................................................................................................................... 6
2.5.3 HDMI ..................................................................................................................................................... 6
at ........................................................................................................ 7
2.5.3.1.2 Standard TV Disp
lay For
m
2.5.3.2 HDMI mode .................................................................................................................................... 7
2.5.4 RF .........................................................................................................................................................8
2.5.4.1 Analog
RF signal input .....................................................................................................................8
2.5.4.2 Digital RF signal input ......................................................................................................................8
2.5.5 CVBS and S-VIDEO .........................................................................................................................8
2.5.5.1 CVBS
in
2.5.5.2 S-VIDEO
put ......................................................................................................................................8
input .................................................................................................................................9
2.5.5.2 SIDEAV input ................................................................................................................................9
3 VIDEO ALIGNMENT .................................................................................................................................... 9
3.1 ALIGNMENT CONDITIONS ............................................................................................................................ 9
3.2 ADC CALIBRATION ..................................................................................................................................... 9
3.2.1 Input signal specs .............................................................................................................................. 9
3.2.2 Step for adjust
ment ........................................................................................................................... 10
3.2.2.1 ADC Calibration of SD format .................................................................................................... 10
2.2 ADC Calibration of HD format .................................................................................................... 10
3.2.
3.3 WHITE BALANCE ......................................................................................................................................... 10
3.3.1 CU T-OFF AL IGNMEN T ..................................................................................................................... 11
3.3.2 W hite Point .......................................................................................................................................... 11
4 AUDIO ALIGNMENT ............................................................................................................. ...................... 12
5 SHOP INITIAL ............................................................................................................................................... 12-13
6 FACTORY MENU .......................................................................................................................................... 14-17
VAC
1. Power supply
To Inverter Unit
+24V
GND for +24V
BLON/OFF;VDIM
ON/OFF
GND for +12V
+12V
+5V_STB
GND for +5V_STB
P5 P4 J16
POWER BD.
P1
Mains
With 120VAC input, +5V_STB is always available.
ON/OFF signal enables the +12V and +24V.
If ON/OFF signal = 0V, +12V and +24V are not available.
If ON/OFF signal = 3.3V, +12V and +24V are available.
2
2. ELECTRICAL TEST
2.1 Abbreviations
HD High
Definition
SD Standard
Definition
VGA Video Graphic Adapter
VESA Video Electronics Standards Association
ADC
RC Remote
Analog to Digital converter
Remote
Control
TBD To be determined
2.2 Preparation
Connect LVDS cable from LCD panel to J20
Connect +24V supply cables to the inverter unit of LCD panel.
Connect +12V/+5V_STB/backlight switch & control cable supply cables to J16
Connect KB &LED cable from J24 to KEYBOARD & LED BD
Connect IR &LED cable from P004 to P002
2.3 Voltage Regulator
Apply 120VAC to mains input and turn on the set under test, following voltages
should exist:
Switch regulator U38 U21 U39(Optional)
Voltage +5. 0V +1.0V +5.0V
Test point Z154 Z147 Z17
Linear regulator U23 U32 U19 U24 U25(Optional) U18 U18
Voltage(V) +1.8V +3.3V +3.3V +1.8V +1.5V +9.0V +5.0V
Test point Z18 Z149 Z113 Z150 Z880 Z152 Z19
All the voltages should have tolerance less than 5%.
OUTPUT supply
Voltage +5.0V
Test point C711(+)
USB
2.4 Key Board, IR receiver and RC
Apply 120VAC to mains input, when power on , LED should light up with
Green/Yellow color
.
2.4.1 To navigate the MENU using KEYBOARD
To switch on/off the TV set.
Action: Press Power key on keyboard
Observe: Power key is equal to ON-OFF on remote control.
3
2.4.1 To navigate the MENU using KEYBOARD (cont)
To enter MENU Screen.
Action: Press MENU key on keyboard.
Observe: Menu screen should shown at LCD screen.
During Menu Screen:
Action: Press Menu key
Observe: Menu key is equal to OK key on remote control.
Action: Press Vol- key
Observe: Vol- key is equal to LEFT key on remote control.
Action: Press Vol+ key
Observe: Vol+ key is equal to RIGHT key on remote control.
Action: Press PR- key
Observe: PR- key is equal to DOWN key on remote control.
Action: Press PR+ key
Observe: PR+ key is equal to UP key on remote control.
2.4.2 To navigate the MENU using REMOTE CONTROL
To enter MENU Screen.
Action: Press MENU key in remote control
Observe: Menu screen should shown at LCD screen.
During Menu Screen:
Action: Press UP key or DOWN key
Observe: Highlight will goes up and down
Action: Press RIGHT or OK key
Observe: User will enter to the selection highlighted.
Action: Press GO BACK key
Observe: User will exit from the selection.
4
Method to enter factor
y
menu by
remote control
Menu On and inside to Picture Menu
Then inside Picture Setting Menu
And move the cursor to Contrast item.
Press the Password “1950”
To go back or exit
factory menu:
Press “GO BACK” on the remote
2.5 Video functional check
2.5.1 YPbPr
Connect Y, Pb, Pr signals to connector J17(Green/Blue/Red).
Change the display source to CMPT
signal Parameter Source
Y : Sync to Peak White 75 ohm 0.67 0.70 0.73
PR : Sync to Peak White 75 ohm --- ±0.35 ---
PB : Sync to Peak White 75 ohm --- ±0.35 ---
Test
Pattern
Impedance
Minimum
(Vp-p)
Typical(Vp-p) Maximum(Vp-p)
SMPTE RP-133 32-step greyscale
Picture
Format 4:3 16:9 4:3 16:9
480i59.94Hz 1080i60Hz 480i60Hz
(Generated by Chroma2327)
(Generated by Chroma2327)
480p59.94Hz 720p60Hz 480p60Hz
5
2.5.2 VGA
Connect VGA cable with R, G, B, Hsync and Vsync signal in VESA format to J6.
Change the display source to PC Input.
signal
Parameter
R (red) 75 ohm 0.67 0.7 0.73
G (green) 75 ohm 0.67 0.7 0.73
B (blue) 75 ohm 0.67 0.7 0.73
Hsync,
Vsync
Source
Impedance
--- 2.4V 2.4V 2.4V
Minimum(Vp-p) Typical(Vp-p) Maximum(Vp-p)
Test
SMPTE RP-133 32-step greyscale
Pattern
(Generated by Chroma2327) (Generated by Chroma2327)
Format
2.5.3 HDMI
640x480@60Hz,
800x600@60Hz,
1024x768@60Hz
640x480@60Hz,
800x600@60Hz,
1024x768@60Hz
2.5.3.1 DVI mode
2.5.3.1.1 Standard Monitor Format (VESA)
Connect HDMI cable with TMDS signal in VESA format to J9,and R/L to J13
Test
Pattern
Format
Change the display source
SMPTE 64-step greyscale
to HDMI 2.
(Generated b y
Quantun881)
640*480@60Hz
800*600@60Hz
1024*768@60Hz
(Generated b y
Quantun881)
640*480@60Hz
800*600@60Hz
1024*768@60Hz
6
2.5.3.1.2 Standard TV Display
Format
Connect HDMI cable with TMDS signal in VESA format to J9. and R/L to J13
Change the display source to HDMI 2.
Test
SMPTE-64-STEP
Pattern
(Generated b y
Quantun881)
Format
1H 1080i60Hz
2H 480p 60Hz 720p60Hz
2.5.3.2 HDMI mode
4:3 16:9
Connect HDMI cable with TMDS signal in VESA format toJ11.
Change the display source to HDMI 1
greyscale
(Generated by Quantun881)
Test
SMPTE-64-step greyscale
Pattern
(Generated b y
Quantun881)
Format
1H 1080i60Hz
2H 480p
4:3 16:9
60Hz
(Generated by Quantun881)
720p60Hz
7
2.5.4 RF
2.5.4.1 Analog RF signal input
2.5.4.2 Digital RF si
Connect Antenna cable to tuner.
Change the display source to TV Channels.
Test Pattern Depended on
Channel
factory
Picture Frequency
Channel band
VHF-L VHF-H UHF
gnal input
Connect Antenna cable to tuner.
Change the display source to TV Channels.
Depended on
factory
Depended on
factory
Test Pattern Depended on
Channel
Picture Frequency
Channel band
2.5.5 CVBS and S-VIDEO
2.5.5.1 CVBS input
Connect AV cable with CVBS and audio L, R signal to J17 Yellow/White/Red
Change the display source to VID1
Test
Pattern
Depended on
factory
VHF-L VHF-H UHF
factory
Depended on
factory
SMPTE RP-133 32-step greyscale
Format
NTSC M
(Generated by
Chroma2327)
NTSC M
(Generated by
Chroma2327)
8
2.5.5.2 S-VIDEO input
Connect S-VIDEO cable to P703 on side AV BD
Change the display source to S-VIDEO
Video test pattern is the same as section 2.7.5.1.
2.5.5.2 SIDE-AV input
Connect AV cable with CVBS and audio L, R signal to P702 Yellow/White/Red on
side AV BD .
Change the display source to VID2
Video test pattern is the same as section 2.7.5.1.
3 Video Alignment
On RS86A platform, some alignment items could be achieved by using serial port
with UART protocol
VGA socket could be used for UART purpose, pin definition as below:
Pin12: RXD
Pin15: TXD
3.1 Alignment Conditions
In order to have defined conditions for the alignment procedure, the TV set
should be warmed up for 60 minutes.
.
3.2 ADC Calibration
ADC calibration should be applied just for CMPT channel: SD(480i) and
HD(1080i/60) .
3.2.1 Input signal spec.
Source: CMPT
Format: 480i (720x480 60Hz); 1080i/60HZ
Pattern:
100/0/100/0 8 Steps Color bar
9
3.2.2 Step for adjustment
3.2.2.1 ADC calibration of SD format
Input 100% color bar of 480i format to CMPT source
Entry factory menu and choose the ADC CALIBRATION menu with the RC
Adjust the cursor to “AUTO ADC”, press “ok” on the RC
“START Now Adjusting OK/FAIL” will display
If Ok, ADC of SD finished
If FAIL, do one more time till it shows OK
3.2.2.2 ADC calibration of HD format
When SD ADC calibration is ok, insert 1080i/60 format,100% color bar signal, repeat
3.2.2.1.
Note:
The sequence of ADC calibration must be SD format then HD format. Do not exchange.
The menu show below:
ADC CALIBRATION ACTION
SOURCE SD/HD
CHANNEL Vin-A(Y) / Vin-B(Cb) / Vin-C(Cr) Calibration
TCV 0-20 47
TCH 0-20 47
Ref.Vin-A(Y) 0-255 (Default 240)
Ref.Vin-B(Cb) 0-255 (Default 240)
Ref.Vin-C(Cr) 0-255 (Default 240)
AUTO ADC Start/OK/Now adjusting…./Fail
Gain Vin-A(Y) 0-255
Gain Vin-B(Cb) 0-255
Gain Vin-C(Cr) 0-255
Manual ADC Start/OK/Now adjusting…./Fail
Read Vin-A(Y) 0-255
Read Vin-B(Cb) 0-255
Read Vin-C(Cr) 0-255
3.3 White balance
On RS86A platform, 5 video source need to be adjusted the white balance : DTV
/AV /YUV /HDMI /RGB(PC), and each data can be stored independently.
Considering that there are few signal patterns for DTV to align, so copy the HDMI
source white balance as DTV .
Source
AV
PC
Format
480i
@
HDMI
CMPT
DTV
Copy data of HDMI
10
3.3.1 CUT-OFF ALIGNMENT
Cut-off alignment is used to define the colour co-ordinates for low luminance
level. This alignment has to be done for the following standards:
1. Insert a grey test pattern with 25IRE signal amplitude
2. Measure the color co-ordinates near the center of the screen
3. Adjust with “R_ ”, “G_ ” and “B_ ” to the following color coordinates values:
Color Co-ordinates Cold Normal Warm
X
Y
283 10
291 10
Note:
Before White balance alignment, ADC Calibration must be finished.
3.3.2 White Point
White point alignment is used to define the colour co-ordinates for bright
luminance levels. This alignment has to be done for the following standards:
1. Insert a grey test pattern with 200nit signal amplitude
2. Measure the color co-ordinates near the center of the screen.
3. Adjust with “R_ ”, “G_ ” and “B_ ” to the following color
co-ordinates values:
Color Co-ordinates Cold Normal Warm
X 272±10 283±1 0 314±10
Y
Note:
WB MENU
Source AV/RGB/HDMI/YUV/DTV
Color Temp
R Correct
G Correct
B Correct
R Offset
R Offset
R Offset
Black Level Off/on
Normal cool warm
R-gain 0~255
G-gain 0~255
B-gain 0~255
R-offset 0~255
G-offset 0~255
B-offset 0~255
278±10 291±1 0 324±10
Remark
Source select
Color temperature
11
3.3 White balance (cont)
The default values have a close relation with panel brightness. After white
balance alignment, a picture performance check should be done,: the
brightest scales of 16-scale grey pattern should be distinguishable in vibrant
mode (max contrast),the whole white brightness should be more than 400nits
otherwise, white balance alignment should be redone. The default values
should be revised according to experience in mass production.
White balance alignment for Cold and Warm mode could be achieved by
writing the given values into TV set directly, The given values should be
sums of white balance values in Normal mode and the offset values obtained
from experience in mass production.
Since the White Point and Offset alignments are influencing each other, an
iterative process maybe needed to get both alignments to the required values.
4 Audio Alignment
No adjustment necessary
5 Shop initial
5.1 Shop initial should be done at the last alignment.
Enter the factory menu “PRODUCTING”
Choose “SHOP INIT” and press “ok” key on the remote control
Shows “ok” on the screen, exit factory menu
Then power down.
OUT OF BOX SETTINGS
ITEM TTING
PICTURE
Picture Settings
Brightness 40% 50% 50% 50%
Contrast 80% 65% 60% 65%
Sharpness 60% 50% 40% 50%
Color 60% 50% 40% 50%
Tint 50% 50% 50% 50%
Color Warmth normal
Preset
Screen Format
Film Mode
Video Noise Reduction
SOUND
Balance Cente red
Analog TV Sound Mode Mono
Default Audio Language English
Current Audio Language English
CHANNEL
Auto Ch. Search Cable
Vibrant Natural Gaming Personal
Vibrant(retail) Normal(home)
Normal
ON
Normal
12
5 Shop initial (cont)
PARENTAL CONTROL
Lock Parental Control UNLOCKED
Block Channel UNCHECKED
All levels should be unlocked
SETUP
Closed Caption
CC Setting OFF
Analog CC Type CC1
Digital CC Type CS1
Digital CC Preset Default
Digital CC Color White
Digital CC Back Color Black
Menu Language
Clock
Auto Time
Sleep Timer
English
--:-UNCHECKED
OFF
13
6 Factory Menu
6.1 Method to enter factor
y
menu by
remote control
Menu On and inside to Picture Menu
Then inside Picture Setting Menu
And move the cursor to Contrast item.
Press the Password “1950”
6.2 To go back or exit
factory menu:
Press “GO BACK” on the remote
6.3
1.GEOMETRY
GEOMETRY MENU CVBS only
ITEM Default Range remark
H START
POSITION
V START
POSITION
2 ADC CALIBRATION
ADC CALIBRATION
ITEM COMMENT remark
SOURCE
CHANNEL Vin-A(Y) / Vin-B(Cb) / Vin-
TCV 238/31
TCH
Ref.Vin-A(Y) 208
Ref.Vin-B(Cb) 230
Ref.Vin-C(Cr) 230
AUTO ADC Start/OK/Now
Gain Vin-A(Y) 27
Gain Vin-B(Cb) 26
Gain Vin-C(Cr) 27
SD/HD
0 -30~30
0 -30~30
C(Cr)
Caribration
1 V co-ordinate
172/708/618 363/1800/1560
adjusting…./Fail
No adjustment needed
No adjustment needed
480i/1080i
Channel for
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
Adjust as necessary
No adjustment needed
No adjustment needed
Shows result
CAL
H co-ordinate
14
Manual ADC Start/OK/Now
adjusting…./Fail
Read Vin-A(Y) 0-255
Read VinB(Cb)
Read VinC(Cr)
0-255
0-255
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
3. SOUND CURVE
SOUND CURVE
ITEM
SOURCE ATV AV HDMI DTV
VOL1 4 18 4 1
VOL5 90 104 90 115
VOL10 110 124 110 140
VOL25 180 194 180 210
VOL50 200 214 200 225
VOL75 215 229 215 250
VOL100 227 241 227 255
SETUP
COMMENT remark
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
4. PRODUCTING
PRODUCTIONG
ITEM SETUP COMMENT REMARK
FACTORY
MODE HOTKEY
WARM-UP
STATUS
EEPROM INIT
FACTORY CH
PRESETING
Factory only
Not Used
Not Used
Channel 3
No adjustment needed
No adjustment needed
No adjustment needed
Channel preset on AIR(NTSC)
SHOP INIT
Not Used
No adjustment needed
15
BACKLIGHT
LEVEL
Cb DELAY (ATV
only)
Cr DELAY (ATV
only)
FIRST INSTALL
ONOFF
BACKLIGHT
SET MIN
BACKLIGHT
SET MAX
LIGHT
SENSOR
MIN
LIGHT
SENSOR
MAX
20 LCD Back-Light Level
0 Set the Cb Delay for YCbCr
0 Set the Cr Delay for YCbCr
ON/OFF
in the wire. factory out.
50 SET MIN BACKLIGHT WHEN
LIGHTSENSOR SET ON IN USER
MENU
90 SET MIN BACKLIGHT WHEN
LIGHTSENSOR SET ON IN USER
MENU
30 Adjust if need
192 Adjust if need
Factory use only
No adjustment needed
No adjustment needed
No adjustment needed
No adjustment needed
<=BACKLIGHT LEVEL*5
7.INFO
INFO
Parameter
C4 VERSION C4:V8-E62RS86-LF1V*** Main program *** shows version
SUB
VERSION
DATE AND
TIME
SUB:V8-E62RS86-LF2V*** For Sub_mcu
Aug 24 2007 23:07:15 Release time
COMMENT REMARK
16
8.SETUP
SETUP
PARAMETER
TEST
PATTERN
SMART-TOOL
EAS ENABLE
PRIORITY
TEST PAT
TERNS
TEST PATTERN (Level 2 Sub Menu)
TEST MODE
CHECKER
CROSSING HATCH
COLOR BAR
OTHER
RED BRIGHNESS
GREEN BRIGHNESS
BLUE BRIGHNESS
COLOR MODE
.....
Factory use
only
Factory use
only
COMMENT
Internal test patterns, As below
Factory use
only
Factory use
only
On/off
0-3
0-3
0-3
0-5
0-10
0-10
0-10
0-7
REMARK
17
L32HD31 BLOCK DIAGRAM
Side-Av
PC_Audio
HDMI1
HDMI2
L/R_DVI
Y
PB
PR
VID/R/L
HeadPhone
DVD
modul
VGA
SPDIF
Tuner
S-V
USB
Audio :L/R; SPDIF
Other:IR/RXD/TXD
SCL/SDA
H/V
TMDS1
TMDS2
V
L1/L2/L3/L4/L5
L
R
5V 500mA
Video signal:Y/C
Power:+5v/+12v
TUNER
panasonic
AIF
SAW-Filter
D1539C
EDID
24C01
H/V correct&ESD
L1/R1:Side-Av
L2/R2:Rear-AV
L2/R3:For DVI
L4/R4:DVD Audio
L5/R5:PC_Audio
R1/R2/R3/R4/R5
Power-manage
VIF
protect
SN74HC14
RGB_PC
HDMI_SW
SIL9185
Audio-sw
CD4051
Y/PB/PR
Y/C From Side-Av or DVD mod
KEY/IR
Audio-sw
CD4051
VID1
VID2
Sub-MCU
R8C11
DIF
Master IF
M61116FP
SIF
ATSC
Channel
Decoder
AN5832S
L/R_Tuner
H/V_PC
TMDS_OUT
Lout
Audio-ADC
Rout
CVBS
CS5340
4MHZ
TXD/RXD/IO
I2S
E2PROM
24C256
I2C
CAI
PCI 2.2 CPU
5Vstb
5v
12v
MPEG2
Decoder
Video Decoder
HDMI
Receiver
Audio Subsystem
5Vstb 3.3stb
Just for 26" IPB BD.
12V 1.0V
Video Sub-system
LDO
DC/DC
12 5V
MP1411
DC/DC
MP1411
LDO
12V 9V
Flash
32M
Panel
For
Sub_mcu
HDMI sw
LDO
5V 3.3V
LDO
9V 5V
DDR2 DDR2
16
Audio output L/R
SPDIF
LDO
3.3V 1.8V
C4CS&Other
Tuner &other
DDR2
16
LVDS
Single LVDS for
26"32"40
PANEL
Double LVDS for
22"
FILTER
RC4558
FromDVD
SRS
M62438
DIGITALSW
74LVC1G3157
Panel
L/Rout
SPDIF out
OPRATION-
AMPLIFY
TDA13081
AUDIO
AMPLIFY
CLASS D
TDA7491
Optical
Headphone
L
R
DC/DC
12V 1.0V
C4CS
L32HD31 INTERCONNECT
A?
BL-SENS OR23.3V3IR4GND
1
P002
IR.BD
P004
LED.BD
KEY.BD
P003
P001
BL_S ENS OR
+3. 3V
GND
IR
+5V_SB
LED
KEY
DVD_Y
GND
DVD_C
AV-CVBS
AL1
DVD-AL
AR1
DVD-AR
A9V
DVD-SPDI F
p-on16BL_ON/OFF18V_SEL
J1 6
1
3
4/7/8
J7
5
6
9/11
10/12
1
2/5/10/11/14
3
4
6
7
8
9
12
13
5v-sb
VDIM
14
15
MAIN BOARD
12v
GND
5/6/8
11/12
3/4/7/9/10
P ANEL_P OWER
2/4
11
12
13
14
15
16
17
18
19
20
22
1
2
3
4
5
GND
RIN3RIN3+
CLKCLK+
RIN2RIN2+
RIN1RIN1+
RIN0RIN0+
S ELLVDS
HP_DET
+5V
GND
OUT_R
OUT_L
5-10
J2 0
P4
T-CON
P OWER. BD
P5
24V
GND
INVERTER
LCD PANEL
BL-ON
DIM
P1
P701
SAV.BD
P706
GND
DM
P705
DP
5V
1/2
3
4
5
J22
J9
TO SPE AKER
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