Cpu 1/7 (Dmi, Peg, Fdi - Clevo B7130 Service Manual

page of 104

/ 104
Contents
Table of Contents
Bookmarks

Table of Contents

Schematic Diagrams

CPU 1/7 (DMI, PEG, FDI)

CPU

H 18

H 8_ 0 D 4 _ 4

Sheet 3 of 53

CPU 1/7

(DMI, PEG, FDI)

It ap plies to A uburn dale and Clark sfiel d dis crete gra phic desig ns.

If di scret e gra phic chip is u sed f or Au burnd ale, VAXG (GFX core ) rai l can be conne cted

to GN D if mothe rboar d onl y su pport s dis crete grap hics and also in a commo n

mothe rboar d des ign i f GFX VR is no t stu ffed. On t he o ther hand, if t he VR is stuff ed,

VAXG can b e lef t flo ating in a com mon m other board des ign ( Gfx V R kee ps VA XG f rom

float ing).

In ad ditio n, FD I_RXN _[7:0 ] an d FDI _RXP_ [7:0] can be l eft f loati ng on the PCH.

FDI_T X[7:0 ] and FDI_ TX#[7 :0] can b e lef t flo ating on the A uburn dale.

The G FX_IM ON, F DI_FS YNC[0 ], F DI_FS YNC[1 ], FD I_LSY NC[0 ], FD I_LSY NC[1] , and

FDI_I NT si gnals shou ld be tie d to GND ( throu gh 1K ? % resi stors ) in the c ommo n

mothe rboar d des ign c ase. Plea se no t tha t if these sig nals are l eft f loati ng, there are no

funct ional impa cts b ut a smal l amo unt o f pow er (~ 15 m W) ma ybe w asted . VAX G_SE NSE

and V SSAXG _SENS E on Aubur ndal e can be l eft a s no conn ect.

DPLL_ REF_S SCLK and D PLL_R EF_S SCLK# can be co nnect ed t o GND on A uburn dale

direc tly i f mot herbo ard o nly suppo rts d iscre te gr aphi cs. I n a c ommon moth erbo ard

desig n, th ese p ins a re dr iven via PCH ( even if Gr aphi cs is disa bled by BI OS) thus no

exter nal t ermin ation is r equi red.

On Board DDR3 Thermal Sensor

Q2 8

* 2N 3 9 04

B - 4 CPU 1/7 (DMI, PEG, FDI)

PROCESSOR

2 1

H 17

H 1 0

2 1

H 8_ 0 D 4 _ 4

H 8 _ 0 D 4 _ 4

2 1

3 . 3 V

C 3 2 8

R 2 2 1

*1 0 m i l _ s h ort

C R I T _T E M P _ R E P # 24

* . 1 U _ 1 6 V _ 04

U 1 9

D 1 1

* R B 7 5 1 V

P M_ E X T T S # _E C 4

V D D

T H E R M

D +

A L E R T

S MD _ C P U _T H E R M 2 0 , 3 6

D -

S D A TA

G N D

S C LK

S MC _ C P U _T H E R M 2 0 , 3 6

*W 8 3 L 77 1 A W G

1/7

( DMI,PEG,FDI )

U 40 A

B 2 6

P E G _ I C O MP I

A 2 6

P E G_ I C OM P O

A 2 4

B 2 7

D MI _ T X N 0

D M I _ R X # [ 0 ]

P E G _ R C OM P O

C 2 3

A 2 5

D MI _ T X N 1

B 2 2

D M I _ R X # [ 1 ]

P E G _R B I A S

D MI _ T X N 2

D M I _ R X # [ 2 ]

A 2 1

K 3 5

D MI _ T X N 3

D M I _ R X # [ 3 ]

P E G _R X #[ 0]

J 34

P E G _R X #[ 1]

B 2 4

J 33

D MI _ T X P 0

D M I _ R X [ 0 ]

P E G _R X #[ 2]

D 2 3

G3 5

D MI _ T X P 1

B 2 3

D M I _ R X [ 1 ]

P E G _R X #[ 3]

G3 2

D MI _ T X P 2

D M I _ R X [ 2 ]

P E G _R X #[ 4]

A 2 2

F 3 4

D MI _ T X P 3

D M I _ R X [ 3 ]

P E G _R X #[ 5]

F 3 1

P E G _R X #[ 6]

D 2 4

D 3 5

D M I _ R X N 0

D M I _ T X# [ 0 ]

P E G _R X #[ 7]

G2 4

E 3 3

D M I _ R X N 1

D M I _ T X# [ 1 ]

P E G _R X #[ 8]

F 2 3

C 3 3

D M I _ R X N 2

D M I _ T X# [ 2 ]

P E G _R X #[ 9]

H 2 3

D 3 2

D M I _ R X N 3

D M I _ T X# [ 3 ]

P E G _ R X # [ 1 0]

B 3 2

P E G _ R X # [ 1 1]

D 2 5

C 3 1

D M I _ R X P 0

D M I _ T X[ 0]

P E G _ R X # [ 1 2]

F 2 4

B 2 8

D M I _ R X P 1

D M I _ T X[ 1]

P E G _ R X # [ 1 3]

E 2 3

B 3 0

D M I _ R X P 2

D M I _ T X[ 2]

P E G _ R X # [ 1 4]

G2 3

A 3 1

D M I _ R X P 3

D M I _ T X[ 3]

P E G _ R X # [ 1 5]

J 35

P E G_ R X[ 0]

H 3 4

P E G_ R X[ 1]

H 3 3

P E G_ R X[ 2]

E 2 2

F 3 5

F D I _ TX N 0

F D I _ TX # [ 0 ]

P E G_ R X[ 3]

D 2 1

G3 3

F D I _ TX N 1

F D I _ TX # [ 1 ]

P E G_ R X[ 4]

D 1 9

E 3 4

F D I _ TX N 2

D 1 8

F D I _ TX # [ 2 ]

P E G_ R X[ 5]

F 3 2

F D I _ TX N 3

F D I _ TX # [ 3 ]

P E G_ R X[ 6]

G2 1

D 3 4

F D I _ TX N 4

F D I _ TX # [ 4 ]

P E G_ R X[ 7]

E 1 9

F 3 3

F D I _ TX N 5

F D I _ TX # [ 5 ]

P E G_ R X[ 8]

F 2 1

B 3 3

F D I _ TX N 6

F D I _ TX # [ 6 ]

P E G_ R X[ 9]

G1 8

D 3 1

F D I _ TX N 7

F D I _ TX # [ 7 ]

P E G _R X [ 1 0]

A 3 2

P E G _R X [ 1 1]

C 3 0

D 2 2

P E G _R X [ 1 2]

A 2 8

F D I _ TX P 0

F D I _ TX [ 0 ]

P E G _R X [ 1 3]

C 2 1

B 2 9

F D I _ TX P 1

F D I _ TX [ 1 ]

P E G _R X [ 1 4]

D 2 0

A 3 0

F D I _ TX P 2

F D I _ TX [ 2 ]

P E G _R X [ 1 5]

C 1 8

F D I _ TX P 3

F D I _ TX [ 3 ]

G2 2

L 33

P E G_ T X # _0

F D I _ TX P 4

E 2 0

F D I _ TX [ 4 ]

P E G_ T X #[ 0]

M3 5

P E G_ T X # _1

F D I _ TX P 5

F D I _ TX [ 5 ]

P E G_ T X #[ 1]

F 2 0

M3 3

P E G_ T X # _2

F D I _ TX P 6

F D I _ TX [ 6 ]

P E G_ T X #[ 2]

G1 9

M3 0

P E G_ T X # _3

F D I _ TX P 7

F D I _ TX [ 7 ]

P E G_ T X #[ 3]

L 31

P E G_ T X # _4

P E G_ T X #[ 4]

F 1 7

K 3 2

P E G_ T X # _5

F D I _ F S Y N C 0

E 1 7

F D I _ F S Y N C [ 0 ]

P E G_ T X #[ 5]

M2 9

P E G_ T X # _6

F D I _ F S Y N C 1

F D I _ F S Y N C [ 1 ]

P E G_ T X #[ 6]

J 31

P E G_ T X # _7

C 1 7

P E G_ T X #[ 7]

K 2 9

F D I _ I N T

P E G_ T X #[ 8]

H 3 0

P E G_ T X #[ 9]

F 1 8

H 2 9

F D I _ L S Y N C 0

F D I _ LS Y N C [ 0 ]

P E G _T X # [ 1 0]

D 1 7

F 2 9

F D I _ L S Y N C 1

F D I _ LS Y N C [ 1 ]

P E G _T X # [ 1 1]

E 2 8

P E G _T X # [ 1 2]

D 2 9

P E G _T X # [ 1 3]

D 2 7

P E G _T X # [ 1 4]

C 2 6

P E G _T X # [ 1 5]

L 34

P E G_ T X _ 0

P E G_ T X[ 0]

M3 4

P E G_ T X _ 1

P E G_ T X[ 1]

M3 2

P E G_ T X _ 2

P E G_ T X[ 2]

L 30

P E G_ T X _ 3

P E G_ T X[ 3]

M3 1

P E G_ T X _ 4

P E G_ T X[ 4]

K 3 1

P E G_ T X _ 5

P E G_ T X[ 5]

M2 8

P E G_ T X _ 6

P E G_ T X[ 6]

H 3 1

P E G_ T X _ 7

P E G_ T X[ 7]

K 2 8

P E G_ T X[ 8]

G3 0

P E G_ T X[ 9]

G2 9

P E G_ T X [ 1 0]

F 2 8

P E G_ T X [ 1 1]

E 2 7

P E G_ T X [ 1 2]

D 2 8

P E G_ T X [ 1 3]

C 2 7

P E G_ T X [ 1 4]

C 2 5

P E G_ T X [ 1 5]

P Z 9 8 9 2 7- 36 4 1 -0 1F

Analog Thermal Sensor

3 . 3 V

Q 2 7

1 :2 ( 4m il s: 8m il s)

V C C

O U T

C 3 2 1

C 30 3

G N D

0. 1 u _ 1 6V _Y 5 V _ 04

0 . 1 u _1 6 V _ Y 5 V _ 0 4

G7 1 1 S T 9 U

PLACE NEAR U19

20 mil

P E G_ I R C O MP _ R

R 4 2 7

4 9 . 9_ 1 % _ 04

E X P _ R B I A S

R 4 2 9

7 5 0_ 1 % _ 04

P E G _ R X # 0 13

P E G _ R X # 1 13

P E G _ R X # 2 13

P E G _ R X # 3 13

P E G _ R X # 4 13

P E G _ R X # 5 13

P E G _ R X # 6 13

P E G _ R X # 7 13

P E G _ R X 0 1 3

P E G _ R X 1 1 3

P E G _ R X 2 1 3

P E G _ R X 3 1 3

P E G _ R X 4 1 3

P E G _ R X 5 1 3

P E G _ R X 6 1 3

P E G _ R X 7 1 3

C 5 45

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X # 0 13

C 5 36

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X # 1 13

C 5 47

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X # 2 13

C 5 38

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X # 3 13

C 5 49

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X # 4 13

C 5 40

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X # 5 13

C 5 51

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X # 6 13

C 5 42

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X # 7 13

C 5 46

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X 0

1 3

C 5 37

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X 1

1 3

C 5 48

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X 2

1 3

C 5 39

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X 3

1 3

C 5 50

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X 4

1 3

C 5 41

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X 5

1 3

C 5 52

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X 6

1 3

C 5 43

0 . 1 u _1 0 V _ X 7R _ 0 4

P E G_ T X 7

1 3

T H E R M_ V O LT 3 6

4 , 1 2 , 1 3, 1 7 , 1 9 , 2 0, 2 1 , 2 3 , 2 4, 2 6 , 2 8 , 29 , 3 1 , 3 2 , 33 , 3 4 , 3 7 , 39 , 4 0 , 4 1 , 44

3 . 3 V

Table of Contents

Show Quick Links

Quick Links:
Specifications

Hide quick links:

Table of Contents

Cpu 1/7 (Dmi, Peg, Fdi - Clevo B7130 Service Manual

CPU 1/7 (DMI, PEG, FDI)

Hide quick links:

Related Manuals for Clevo B7130

Related Content for Clevo B7130

Table of Contents