Schematic Diagrams
CPU 1/7 (DMI, PEG, FDI) B - 3
B.Sch
e
m
a
tic D
iag
rams
CPU 1/7 (DMI, PEG, FDI)
Sheet 2 of 49
CPU 1/7
(DMI, PEG, FDI)
D P _ T XP 1
1 1
D P _ T XP 0
1 1
C 5 8 9
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
C 6 0 8
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
C 5 9 8
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
C 6 0 6
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
C 5 9 1
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
C 6 7 2
0 . 1 u_ 1 0 V _ X 7 R _ 0 4
R 5 1 9
24 . 9 _ 1 % _0 4
C 5 9 6
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
C 5 9 4
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
R 5 21
1 K _ 1 % _ 04
C 6 0 1
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
Q 2 7
G 7 11 S T 9 U
OU T
1
V C C
2
G N D
3
C 67 3
0 . 1 u _1 0 V _ X 7 R _ 0 4
R 1 3 3
2 4 . 9 _ 1 %_ 0 4
1 . 0 5V S _ V T T
3 . 3 V
D M I _T X P 1
2 0
D M I _T X P 0
2 0
1 . 0 5 V S _ V T T
1. 05 V S _V TT
D M I _T X N 0
2 0
D M I _T X P 3
2 0
D M I _T X P 2
2 0
D M I _T X N 3
2 0
D M I _T X N 2
2 0
D M I _T X N 1
2 0
D MI _ R X N 2
2 0
D MI _ R X N 1
2 0
D MI _ R X N 0
2 0
SC70-5 & SC70-3
Co-lay
D MI _ R X P 2
2 0
D MI _ R X P 1
2 0
D MI _ R X P 0
2 0
D MI _ R X N 3
2 0
F D I _ F S Y N C 1
2 0
F D I _ F S Y N C 0
2 0
D MI _ R X P 3
2 0
F D I _ L S Y N C 1
2 0
F D I _ L S Y N C 0
2 0
F D I _ I N T
2 0
F D I _ T XN 2
2 0
F D I _ T XN 1
2 0
F D I _ T XN 0
2 0
F D I _ T XN 5
2 0
F D I _ T XN 4
2 0
F D I _ T XN 3
2 0
F D I _ T XP 1
2 0
F D I _ T XP 0
2 0
F D I _ T XN 7
2 0
F D I _ T XN 6
2 0
F D I _ T XP 4
2 0
F D I _ T XP 3
2 0
F D I _ T XP 2
2 0
F D I _ T XP 7
2 0
F D I _ T XP 6
2 0
F D I _ T XP 5
2 0
C 6 0 4
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
3 . 3 V
3 , 8 , 1 1 , 12 , 1 6 , 1 8 , 1 9 , 20 , 2 2 , 2 3 , 2 4, 25 , 2 7 , 2 8 , 2 9, 30 , 3 3 , 3 5 , 3 7, 38 , 3 9
H 1 5
H 8 _ 0 D 4_ 4
P E G_ R X #4 1 2
P E G_ R X #2 1 2
T H E R M _V OL T 3 4
H 8
H 8 _0 D 4 _4
H 1 6
H 8 _ 0 D 4 _ 4
P E G_ R X #0 1 2
P E G_ R X #3 1 2
P E G_ R X #7 1 2
P E G_ R X #1 1 2
CPU
P E G_ R X 7 12
P E G_ R X #5 1 2
P E G_ R X #6 1 2
P E G_ R X 2 12
P E G_ R X 4 12
P E G_ R X 5 12
P E G_ R X 6 12
P E G_ R X 0 12
P E G_ R X 3 12
P E G_ T X # 2 12
P E G_ T X # 3 12
P E G_ R X 1 12
P E G_ T X # 1 12
P E G_ T X # 0 12
P E G_ T X # 7 12
P E G_ T X # 5 12
P E G_ T X 6
1 2
P E G_ T X # 4 12
P E G_ T X # 6 12
P E G_ T X 4
1 2
P E G_ T X 0
1 2
P E G_ T X 3
1 2
P E G_ T X 5
1 2
P E G_ T X 1
1 2
P E G_ T X 7
1 2
1 . 0 5 V S _ V T T
3, 5 , 2 3 , 2 4 , 2 5, 35 , 3 9
P E G_ T X 2
1 2
E D P _ H P D
E D P _ C O MP I O
Q 2 6
* T MP 2 0
N C
1
GN D
2
V O
3
G N D
5
V C C
4
11/1
11/1
C 2 14
* 0 . 1 u_ 1 0 V _ X 7 R _ 0 4
C 5 9 5
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
D P _ T XN 0
1 1
D P _ T XN 1
1 1
C 1 96
* 0 . 1 u_ 1 0 V _ X 7 R _ 0 4
D P _ TX P _ 1
D P _ TX P _ 0
C 1 78
* 0 . 1 u_ 1 0 V _ X 7 R _ 0 4
8/30
C 6 0 7
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
D P _ TX P _ 2
Q 44
*M T N 7 0 0 2 Z H S 3
G
D
S
CAD NOTE: PEG_ICOMPI and RCOMPO signals
should be shorted and routed with
- max length = 500 mils
- typical impedance = 43 mohms
PEG_ICOMPO signals should be routed with
- max length = 500 mils
- typical impedance = 14.5 mohms
D P _ A U X _ N
D P _ A U X _ P
C 5 9 7
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
ED P F un c ti on Di sa b le
ED P_ HP D: Pu ll -u p1 0K - D IS AB LE D
P
CI EXPRES
S* - GRAPH
ICS
DMI
Int
el(R) FDI
eDP
U 4 9 A
P Z 9 88 2 7 -3 6 4B -0 1F
D MI _ R X #[ 0]
B 2 7
D MI _ R X #[ 1]
B 2 5
D MI _ R X #[ 2]
A 2 5
D MI _ R X #[ 3]
B 2 4
D MI _ R X [ 0 ]
B 2 8
D MI _ R X [ 1 ]
B 2 6
D MI _ R X [ 2 ]
A 2 4
D MI _ R X [ 3 ]
B 2 3
D MI _ T X # [ 0 ]
G2 1
D MI _ T X # [ 1 ]
E 2 2
D MI _ T X # [ 2 ]
F 2 1
D MI _ T X # [ 3 ]
D 2 1
D MI _ T X [ 0 ]
G2 2
D MI _ T X [ 1 ]
D 2 2
D MI _ T X [ 3 ]
C 2 1
D MI _ T X [ 2 ]
F 2 0
F D I 0 _ T X# [ 0 ]
A 2 1
F D I 0 _ T X# [ 1 ]
H 1 9
F D I 0 _ T X# [ 2 ]
E 1 9
F D I 0 _ T X# [ 3 ]
F 1 8
F D I 1 _ T X# [ 0 ]
B 2 1
F D I 1 _ T X# [ 1 ]
C 2 0
F D I 1 _ T X# [ 2 ]
D 1 8
F D I 1 _ T X# [ 3 ]
E 1 7
F D I 0 _ T X[ 0 ]
A 2 2
F D I 0 _ T X[ 1 ]
G1 9
F D I 0 _ T X[ 2 ]
E 2 0
F D I 0 _ T X[ 3 ]
G1 8
F D I 1 _ T X[ 0 ]
B 2 0
F D I 1 _ T X[ 1 ]
C 1 9
F D I 1 _ T X[ 2 ]
D 1 9
F D I 1 _ T X[ 3 ]
F 1 7
F D I 0 _ F S Y N C
J 1 8
F D I 1 _ F S Y N C
J 1 7
F D I _ I N T
H 2 0
F D I 0 _ L S Y N C
J 1 9
F D I 1 _ L S Y N C
H 1 7
P E G_ I C OM P I
J 2 2
P E G _ I C O MP O
J 2 1
P E G_ R C O MP O
H 2 2
P E G_ R X # [ 0 ]
K 33
P E G_ R X # [ 1 ]
M 3 5
P E G_ R X # [ 2 ]
L 3 4
P E G_ R X # [ 3 ]
J 3 5
P E G_ R X # [ 4 ]
J 3 2
P E G_ R X # [ 5 ]
H 3 4
P E G_ R X # [ 6 ]
H 3 1
P E G_ R X # [ 7 ]
G 3 3
P E G_ R X # [ 8 ]
G 3 0
P E G_ R X # [ 9 ]
F 35
P E G_ R X# [ 1 0 ]
E 34
P E G_ R X# [ 1 1 ]
E 32
P E G_ R X# [ 1 2 ]
D 3 3
P E G_ R X# [ 1 3 ]
D 3 1
P E G_ R X# [ 1 4 ]
B 33
P E G_ R X# [ 1 5 ]
C 3 2
P E G _ R X [ 0 ]
J 3 3
P E G _ R X [ 1 ]
L 3 5
P E G _ R X [ 2 ]
K 34
P E G _ R X [ 3 ]
H 3 5
P E G _ R X [ 4 ]
H 3 2
P E G _ R X [ 5 ]
G 3 4
P E G _ R X [ 6 ]
G 3 1
P E G _ R X [ 7 ]
F 33
P E G _ R X [ 8 ]
F 30
P E G _ R X [ 9 ]
E 35
P E G_ R X [ 1 0 ]
E 33
P E G_ R X [ 1 1 ]
F 32
P E G_ R X [ 1 2 ]
D 3 4
P E G_ R X [ 1 3 ]
E 31
P E G_ R X [ 1 4 ]
C 3 3
P E G_ R X [ 1 5 ]
B 32
P E G _ TX # [ 0 ]
M 2 9
P E G _ TX # [ 1 ]
M 3 2
P E G _ TX # [ 2 ]
M 3 1
P E G _ TX # [ 3 ]
L 3 2
P E G _ TX # [ 4 ]
L 2 9
P E G _ TX # [ 5 ]
K 31
P E G _ TX # [ 6 ]
K 28
P E G _ TX # [ 7 ]
J 3 0
P E G _ TX # [ 8 ]
J 2 8
P E G _ TX # [ 9 ]
H 2 9
P E G _ T X# [ 1 0 ]
G 2 7
P E G _ T X# [ 1 1 ]
E 29
P E G _ T X# [ 1 2 ]
F 27
P E G _ T X# [ 1 3 ]
D 2 8
P E G _ T X# [ 1 4 ]
F 26
P E G _ T X# [ 1 5 ]
E 25
P E G _T X [ 0 ]
M 2 8
P E G _T X [ 1 ]
M 3 3
P E G _T X [ 2 ]
M 3 0
P E G _T X [ 3 ]
L 3 1
P E G _T X [ 4 ]
L 2 8
P E G _T X [ 5 ]
K 30
P E G _T X [ 6 ]
K 27
P E G _T X [ 7 ]
J 2 9
P E G _T X [ 8 ]
J 2 7
P E G _T X [ 9 ]
H 2 8
P E G _ TX [ 1 0 ]
G 2 8
P E G _ TX [ 1 1 ]
E 28
P E G _ TX [ 1 2 ]
F 28
P E G _ TX [ 1 3 ]
D 2 7
P E G _ TX [ 1 4 ]
E 26
P E G _ TX [ 1 5 ]
D 2 5
e D P _ A U X
C 1 5
e D P _ A U X #
D 1 5
e D P _ TX [ 0 ]
C 1 7
e D P _ TX [ 1 ]
F 1 6
e D P _ TX [ 2 ]
C 1 6
e D P _ TX [ 3 ]
G1 5
e D P _ TX # [ 0 ]
C 1 8
e D P _ TX # [ 1 ]
E 1 6
e D P _ TX # [ 2 ]
D 1 6
e D P _ TX # [ 3 ]
F 1 5
e D P _ C O MP I O
A 1 8
e D P _ H P D
B 1 6
e D P _ I C O MP O
A 1 7
D P _ T XP 2
1 1
C 1 82
* 0 . 1 u_ 1 0 V _ X 7 R _ 0 4
CAD NOTE: DP_COMPIO and ICOMPO signals
should be shorted near balls and routed with
- typical impedance < 25 mohms
D P _ TX N _ 2
P E G _T X # _ 6
P E G _T X # _ 2
P E G _T X # _ 5
P E G _T X # _ 7
P E G _T X # _ 3
P E G _T X # _ 0
P E G _T X # _ 1
P E G _T X # _ 4
DP Compensation Signal
P E G _ I R C OM P _ R
E M B _ H P D
1 1
C 5 8 7
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
R 5 2 0
*1 0 0 K _ 04
C 5 8 8
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
20 mil
Sandy Bridge Processor 1/7 ( DMI,PEG,FDI )
3
2
1
1:2 (4mils:8mils)
PLACE NEAR U3
D P _ A U X N
1 1
D P _ A U X P
1 1
C 6 0 2
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
C 1 67
* 0 . 1 u_ 1 0 V _ X 7 R _ 0 4
C 1 86
* 0 . 1 u_ 1 0 V _ X 7 R _ 0 4
D P _ TX N _ 1
D P _ TX N _ 0
P E G _T X _ 0
P E G _T X _ 6
P E G _T X _ 4
P E G _T X _ 2
P E G _T X _ 1
P E G _T X _ 5
P E G _T X _ 3
P E G _T X _ 7
D P _ T XN 2
1 1
C 1 79
* 0 . 1 u_ 1 0 V _ X 7 R _ 0 4
PEG Compensation Signal
C 5 9 3
0 . 2 2u _ 1 0 V _ X 5R _ 0 4
C 1 97
* 0 . 1 u_ 1 0 V _ X 7 R _ 0 4
Summary of Contents for W170HN
Page 1: ...W170HN ...
Page 2: ......
Page 3: ...Preface I Preface Notebook Computer W170HN Service Manual ...
Page 39: ...Disassembly 2 16 2 Disassembly ...
Page 42: ...Top A 3 A Part Lists Top 黑色 非耐落 灰色 Figure A 1 Top ...
Page 43: ...A 4 Bottom A Part Lists Bottom Figure 2 Bottom ...
Page 44: ...LCD A 5 A Part Lists LCD Figure A 3 LCD ...
Page 45: ...A 6 SATA BLU RAY Combo A Part Lists SATA BLU RAY Combo Figure A 4 SATA BLU RAY Combo 非耐落 ...
Page 46: ...SATA DVD A 7 A Part Lists SATA DVD 非耐落 Figure A 5 SATA DVD ...
Page 47: ...A 8 HDD A Part Lists HDD Figure A 6 HDD ...
Page 100: ...www s manuals com ...
