1. Manuals
  2. Brands
  3. Clevo Manuals
  4. Laptop
  5. P170SM-A
  6. Service manual

Processor 1/7 - Clevo P170SM-A Service Manual

Hide thumbs
Table of Contents

Advertisement

Processor 1/7

5
Haswell Processor 1/7 ( DMI,FDI,PEG )
U32A
U32A
D
DMI_TXN0
D21
DMI_RXN_0
21
DMI_TXN0
DMI_TXN1
C21
21
DMI_TXN1
DMI_RXN_1
DMI_TXN2
B21
21
DMI_TXN2
DMI_RXN_2
DMI_TXN3
A21
21
DMI_TXN3
DMI_RXN_3
DMI_TXP0
D20
21
DMI_TXP0
DMI_RXP_0
DMI_TXP1
C20
21
DMI_TXP1
DMI_RXP_1
DMI_TXP2
B20
21
DMI_TXP2
DMI_RXP_2
DMI_TXP3
A20
21
DMI_TXP3
DMI_RXP_3
DMI_RXN0
D18
21
DMI_RXN0
DMI_TXN_0
DMI_RXN1
C17
21
DMI_RXN1
DMI_TXN_1
DMI_RXN2
B17
21
DMI_RXN2
DMI_TXN_2
DMI_RXN3
A17
21
DMI_RXN3
DMI_TXN_3
DMI_RXP0
D17
21
DMI_RXP0
DMI_TXP_0
DMI_RXP1
C18
21
DMI_RXP1
DMI_TXP_1
DMI_RXP2
B18
21
DMI_RXP2
DMI_TXP_2
DMI_RXP3
A18
21
DMI_RXP3
DMI_TXP_3
R689
R689
*10mil_short
*10mil_short
CPU_FDI_CSYNC
H29
21
FDI_CSYNC
FDI_CSYNC
J29
R690
R690
*10mil_short
*10mil_short
CPU_FDI_INT
21
FDI_INT
DISP_INT
C
B
3.3V
RT5
RT5
1:2 (4mils:8mils)
TH05-3H103FR
TH05-3H103FR
A
C512
C512
R440
R440
10K_1%_04
10K_1%_04
*0.1u_10V_X7R_04
*0.1u_10V_X7R_04
5
4
3
20 mil
PEG_IRCOMP_R
R130
R130
24.9_1%_04
24.9_1%_04
VCCIOA_OUT
Haswell rPGA EDS
Haswell rPGA EDS
E23
PEG_RCOMP
M29
PEG_RXN_0
PEG_RXN_0
K28
PEG_RXN_1
PEG_RXN_1
M31
PEG_RXN_2
PEG_RXN_2
L30
PEG_RXN_3
PEG_RXN_3
M33
PEG_RXN_4
PEG_RXN_4
L32
PEG_RXN_5
PEG_RXN_5
M35
PEG_RXN_6
PEG_RXN_6
L34
PEG_RXN_7
PEG_RXN_7
E29
PEG_RXN_8
PEG_RXN_8
D28
PEG_RXN_9
PEG_RXN_9
E31
PEG_RXN_10
PEG_RXN_10
D30
PEG_RXN_11
PEG_RXN_11
E35
PEG_RXN_12
PEG_RXN_12
D34
PEG_RXN_13
PEG_RXN_13
E33
PEG_RXN_14
PEG_RXN_14
E32
PEG_RXN_15
PEG_RXN_15
L29
PEG_RXP_0
PEG_RXP_0
L28
PEG_RXP_1
PEG_RXP_1
L31
PEG_RXP_2
PEG_RXP_2
K30
PEG_RXP_3
PEG_RXP_3
L33
PEG_RXP_4
PEG_RXP_4
K32
PEG_RXP_5
PEG_RXP_5
L35
PEG_RXP_6
PEG_RXP_6
K34
PEG_RXP_7
PEG_RXP_7
F29
PEG_RXP_8
PEG_RXP_8
E28
PEG_RXP_9
PEG_RXP_9
F31
PEG_RXP_10
PEG_RXP_10
E30
PEG_RXP_11
PEG_RXP_11
F35
PEG_RXP_12
PEG_RXP_12
E34
PEG_RXP_13
PEG_RXP_13
F33
PEG_RXP_14
PEG_RXP_14
D32
PEG_RXP_15
PEG_RXP_15
H35
PEG_TXN_0
C17
C17
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_0
H34
PEG_TXN_1
C75
C75
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_1
J33
PEG_TXN_2
C90
C90
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_2
H32
PEG_TXN_3
C50
C50
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_3
J31
PEG_TXN_4
C95
C95
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_4
G30
PEG_TXN_5
C76
C76
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_5
C33
PEG_TXN_6
C93
C93
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_6
B32
PEG_TXN_7
C78
C78
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_7
B31
PEG_TXN_8
C650
C650
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_8
A30
PEG_TXN_9
C645
C645
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_9
B29
PEG_TXN_10
C639
C639
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_10
A28
PEG_TXN_11
C637
C637
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_11
B27
PEG_TXN_12
C629
C629
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_12
A26
PEG_TXN_13
C625
C625
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_13
B25
PEG_TXN_14
C621
C621
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_14
A24
PEG_TXN_15
C616
C616
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXN_15
J35
PEG_TXP_0
C16
C16
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_0
G34
PEG_TXP_1
C19
C19
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_1
H33
PEG_TXP_2
C77
C77
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_2
G32
PEG_TXP_3
C70
C70
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_3
H31
PEG_TXP_4
C91
C91
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_4
H30
PEG_TXP_5
C71
C71
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_5
B33
PEG_TXP_6
C122
C122
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_6
A32
PEG_TXP_7
C72
C72
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_7
C31
PEG_TXP_8
C646
C646
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_8
B30
PEG_TXP_9
C640
C640
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_9
C29
PEG_TXP_10
C638
C638
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_10
B28
PEG_TXP_11
C628
C628
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_11
C27
PEG_TXP_12
C622
C622
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_12
B26
PEG_TXP_13
C620
C620
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_13
C25
PEG_TXP_14
C618
C618
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_14
B24
PEG_TXP_15
C611
C611
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_TXP_15
1 OF 9
1 OF 9
CPU SIDE
PLACE NEAR U32
0402 Stanley 5/24
P/N 6-17-10320-731
THERM_VOLT
THERM_VOLT 34
4
3
2
VGA SIDE
C367
C367
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN0
C525
C525
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN1
C526
C526
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN2
C511
C511
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN3
C358
C358
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN4
C529
C529
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN5
C521
C521
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN6
C523
C523
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN7
C120
C120
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN8
C97
C97
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN9
C73
C73
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN10
C121
C121
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN11
C98
C98
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN12
C65
C65
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN13
C94
C94
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN14
C86
C86
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXN15
C362
C362
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP0
C532
C532
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP1
C365
C365
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP2
C514
C514
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP3
C528
C528
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP4
C524
C524
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP5
C531
C531
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP6
C522
C522
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP7
C96
C96
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP8
C85
C85
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP9
C74
C74
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP10
C79
C79
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP11
C64
C64
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP12
C69
C69
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP13
C87
C87
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP14
C119
C119
0.22u_10V_X5R_04
0.22u_10V_X5R_04
PEG_RXP15
PEG_TXN0
PEG_TXN1
PEG_TXN2
PEG_TXN3
PEG_TXN4
PEG_TXN5
PEG_TXN6
PEG_TXN7
PEG_TXN8
PEG_TXN9
PEG_TXN10
PEG_TXN11
PEG_TXN12
PEG_TXN13
PEG_TXN14
PEG_TXN15
PEG_TXP0
PEG_TXP1
PEG_TXP2
PEG_TXP3
PEG_TXP4
PEG_TXP5
PEG_TXP6
PEG_TXP7
PEG_TXP8
PEG_TXP9
PEG_TXP10
PEG_TXP11
PEG_TXP12
PEG_TXP13
PEG_TXP14
PEG_TXP15
PEG Compensation Signal
CAD NOTE: PEG_ICOMPI and RCOMPO signals
D04_Reflash_0923_Alex
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
! ! ! !!DMFWP!DP/
! ! ! !!DMFWP!DP/
! ! ! !!DMFWP!DP/
14,19,29,30,32,36,37,39,41,42
3.3V
5,6
VCCIOA_OUT
Title
Title
Title
[02] PROCESSOR 1/7
[02] PROCESSOR 1/7
[02] PROCESSOR 1/7
Size
Size
Size
Document Number
Document Number
Document Number
6-71-P15S0-DA3A
6-71-P15S0-DA3A
6-71-P15S0-DA3A
A3
A3
A3
SCHEMATIC1
SCHEMATIC1
SCHEMATIC1
Date:
Date:
Date:
Thursday, March 06, 2014
Thursday, March 06, 2014
Thursday, March 06, 2014
2
Schematic Diagrams
1
PEG_RXN[0..15] 13
D
PEG_RXP[0..15] 13
Sheet 2 of 66
C
Processor 1/7
PEG_TXN[0..15] 13
PEG_TXP[0..15] 13
B
A
Rev
Rev
Rev
2.0
2.0
2.0
Sheet
Sheet
Sheet
2
2
2
of
of
of
66
66
66
1
Processor 1/7 B - 3

Advertisement

Table of Contents
loading

Related Manuals for Clevo P170SM-A

Related Content for Clevo P170SM-A

Table of Contents