Clevo M770SU, Service Manual

Page: 57 / 108

Schematic Diagrams
Penryn (Socket-P) 1/2 B - 3
B.Schematic Diagrams
Penryn (Socket-P) 1/2
Sheet 2 of 48
Penryn (Socket-P)
1/2
H _D # [ 63 : 0 ] 4
H _ S MI #
H _ D # 3 8
H _ P W R G D
H _ F E R R #
H _ D # [ 63 : 0 ] 4
C OM P 0
H _ TM S
H _ D # 1 9
H _ D # 1 8
Z 0 2 1 4
H _ A D S TB # 0 4
C OM P 1
H _ T D O
R 1 22 56 _ 0 4
H _ D I N V #3 4
C OM P 3
U 7
A S C 75 2 5
1
2
3
4
5
6
7
8
V D D
D +
D -
T H E R M
G N D
A LE R T
S D A TA
S C LK
C 1 54 1 0 0P _5 0 V _ 04
Layout Note:
H _S T P C LK # 22
H _ D # 3 5
C P U _ B S E L 1
R 1 51
*3 3 0 K _0 4
H _ D # 2 7
H _ D # 1 0
H _ D # 6
H _ TH R M TR I P #
H _A #3 3
R 1 01 51 _ 1 %_ 0 4
R 44 9
2 7 . 4_ 1 % _0 4
H _ D S T B N # 2 4
H _ P R E Q #
R 1 55 *0 _ 0 4
R 1 31 56 _ 0 4
H _ D I N V #2 4
H _ A # 9
DAT
A G
RP
0
DA
TA
G
RP
1
DA
TA
G
R
P
2
DA
TA
G
R
P
3
M ISC
J S K T 1B
P e n ry n
R 26
U 26
A A 1
Y 1
E 2 2
F 2 4
J 2 4
J 2 3
H 2 2
F 2 6
K 2 2
H 2 3
N 2 2
K 2 5
P 2 6
R 2 3
E 2 6
L 2 3
M2 4
L 2 2
M2 3
P 2 5
P 2 3
P 2 2
T 2 4
R 2 4
L 2 5
G2 2
T 2 5
N 2 5
Y 22
A B 2 4
V 2 4
V 2 6
V 2 3
T 2 2
U 25
U 23
F 2 3
Y 25
W 2 2
Y 23
W 2 4
W 2 5
A A 2 3
A A 2 4
A B 2 5
A E 2 4
A D 24
G2 5
A A 2 1
A B 2 2
A B 2 1
A C 26
A D 20
A E 2 2
A F 2 3
A C 25
A E 2 1
A D 21
E 2 5
A C 22
A D 23
A F 2 2
A C 23
E 2 3
K 2 4
G2 4
A F 1
H 2 5
N 2 4
U 22
A C 20
E 5
B 5
D 24
J 2 6
L 2 6
Y 26
A E 2 5
H 2 6
M2 6
A A 2 6
A F 2 4
A D 2 6
A E 6
D 6
D 7
C 2 4
B 2 2
B 2 3
C 2 1
D 2 5
A F 2 6
A 2 6
C 2 3
C 3
C O MP [ 0 ]
C O MP [ 1 ]
C O MP [ 2 ]
C O MP [ 3 ]
D [ 0 ] #
D [ 1 ] #
D [ 1 0 ] #
D [ 1 1 ] #
D [ 1 2 ] #
D [ 1 3 ] #
D [ 1 4 ] #
D [ 1 5 ] #
D [ 1 6 ] #
D [ 1 7 ] #
D [ 1 8 ] #
D [ 1 9 ] #
D [ 2 ] #
D [ 2 0 ] #
D [ 2 1 ] #
D [ 2 2 ] #
D [ 2 3 ] #
D [ 2 4 ] #
D [ 2 5 ] #
D [ 2 6 ] #
D [ 2 7 ] #
D [ 2 8 ] #
D [ 2 9 ] #
D [ 3 ] #
D [ 3 0 ] #
D [ 3 1 ] #
D [ 32 ] #
D [ 33 ] #
D [ 34 ] #
D [ 35 ] #
D [ 36 ] #
D [ 37 ] #
D [ 38 ] #
D [ 39 ] #
D [ 4 ] #
D [ 40 ] #
D [ 41 ] #
D [ 42 ] #
D [ 43 ] #
D [ 44 ] #
D [ 45 ] #
D [ 46 ] #
D [ 47 ] #
D [ 48 ] #
D [ 49 ] #
D [ 5 ] #
D [ 50 ] #
D [ 51 ] #
D [ 52 ] #
D [ 53 ] #
D [ 54 ] #
D [ 55 ] #
D [ 56 ] #
D [ 57 ] #
D [ 58 ] #
D [ 59 ] #
D [ 6 ] #
D [ 60 ] #
D [ 61 ] #
D [ 62 ] #
D [ 63 ] #
D [ 7 ] #
D [ 8 ] #
D [ 9 ] #
T E S T5
D I N V [ 0 ] #
D I N V [ 1 ] #
D I N V [ 2 ] #
D I N V [ 3 ] #
D P R S T P #
D P S L P #
D P W R #
D S T B N [ 0] #
D S T B N [ 1] #
D S T B N [ 2 ] #
D S T B N [ 3 ] #
D S T B P [ 0 ] #
D S T B P [ 1 ] #
D S T B P [ 2 ] #
D S T B P [ 3 ] #
GT L R E F
P S I #
P W R G OOD
S L P #
T E S T3
B S E L [ 0 ]
B S E L [ 1 ]
B S E L [ 2 ]
T E S T2
T E S T4
T E S T6
T E S T1
T E S T7
Route H_THERMDA and
H_THERMDC on same layer.
10 mil trace on 10 mil spacing.
V _ TH E R M
R 14 2 0_ 0 6
Close to Thermal IC
3 . 3 V 12 , 1 9 , 20 , 2 2 , 23 , 2 4 , 2 6, 3 1 , 3 2, 3 3 , 3 8, 3 9 , 4 0
H _A #2 9
C 5 52
. 01 U _ 1 6 V _X 7 R _ 0 4
C686 Close to TEST4 (Pin AF26)
H _ D P W R #_ R H _ N M I
H _ D I N V # 0 4
H _ D # 5 6
H _ I E R R #
H _ A # 1 1
R 1 56 *1 0 K _ 04
H _A #3 1
Z 02 0 1
H _ T H E R MD A
R 8 8 56 _ 1 %_ 0 4
H _ D E F E R # 4
H _ D # 1 1
H _ D # 3 0
R 1 2 6 * 1 K _0 4
R 1 57 4 . 7K _0 4
ADM1032 1000p
F75383M 2200p
H _ D P R S TP # 6 , 3 7
H _ B N R # 4
H _ D # 5
Layout Note:
H _ H I T# 4
H _ I GN N E # 2 2
H _ D # 5 4
H _ D # 4
H _ T D I
H _ B R 0#
Z 0 2 2 3
H _A #2 1
1 . 0 5V S 3, 4 , 6 , 7 , 24 , 3 9
H _ N M I 2 2
H _ D #1 4
IF US ED D esk to p CPU , H_ CPU RS T# ,H_ PW RG D, H_B RD ,n eed
ad d p ul l hig h re sis to r
H _ H I TM # 4
R 1 18 10 _ 0 4
H _ D S T B P # 1 4
H _P R OC H O T# 2 2
H _ N M I
H _ D # 2 0
H _R E Q# 4
H _ I E R R #
H _ I N T R
R 1 32 56 _ 0 4
H _C LK _C P U 2 5
T H E R M_ A L E R T # 27
H _ T MS
Z 0 2 1 2
H _ P W R G D
H _A #1 7
R 1 17 56 _ 0 4
H _ T R D Y # 4
H _ I N T R 2 2
Z 02 0 4
Q1 0
*2 N 7 0 02 W
G
D
S
H _ D P W R # 4
H _ S MI # 2 2
H _ D # 2 9
C P U _ B S E L 0
H _ D # 2 6
H _A #2 2
H _A #3 2
Thermal IC
H _ D # 7
H _ D # 2 1
C OM P 0
H _D # [ 63 : 0 ] 4
H _ D P W R # _R
H _A #2 5
C 1 80
* . 0 1U _ 16 V _ X 7R _0 4
H _ D S TB N # 1 4
H _C LK _C P U # 2 5
H _ R S #0 4
C P U _ B S E L 1
H _ TH E R M D A
H _ S M I #
R 1 15 56 _ 0 4
S MC _ C P U _ T H E R M 2 7
H _R E Q# 2
R 9 2 51 _ 1 %_ 0 4
H _ D S T B P # 2 4
H _ D # 1 5
H _ A # 1 0
C P U _ B S E L 2 25
H _ R S #1 4
H _ D # 4 7
H _ D P S L P #
H _ D # 1 7
H _ T R S T #
H _ D # 5 7
C P U _ B S E L 0
H _ P R D Y #
H _ D S TB N # 0 4
H _ C P U S LP # 2 2
H _R E Q# 1
H _ P R OC H OT #
( Si S Re co mma nd at ion 2 00 p)
H _ D # 1
H _A #2 8
Z 0 2 1 6
H _ I N T R
R 4 4 1
5 4. 9 _ 1 %_ 0 4
V D D 3
H _ D # 1 2
H _ I N I T#
R 1 50 1K _0 4
1 . 05 V S
H _ D S T B N # 3 4
H _ A D S # 4
R 1 30 56 _ 0 4
CPU_GRFE=0.7V
H _ B R 0# 4
H _ D # 3
H _ B R 0 #
H _ I N I T #
H _ D P W R # _R
R 8 9 56 _ 0 4
R 1 5 2
*1 00 K _ 0 4
Layout Note:
H _A D S T B # 1 4
H _ P W R G D 4
H _A #3 5
R 4 60 1K _0 4
H _ D # 4 4
C OM P 3
R 1 25 56 _ 0 4
R 1 14 56 _ 0 4
H _ D # 5 0
H _ S T P C L K #
H _ TC K
R 1 3 5
*1 0 0 K _0 4
R 4 59 1K _0 4
H _ D # 5 9
H _ P W R G D
R 12 0 *0 _ 0 4
P S I # 3 7
H _ A # [ 35 : 3 ] 4
H _ A # 1 5
R 1 06 *5 1 _0 4
H _ D # 2 8
C 16 3
. 1 U _ 1 0 V _X 7 R _ 0 4
R 1 27 56 _ 0 4
Layout note:
R 1 13 56 _ 0 4
H _ A 20 M # 2 2
H _ D # 3 2
C 5 5 4 * . 1 U _ 1 0V _ X 7 R _ 04
R 1 16 *3 3 0_ 0 4
H _ D # 2
H _ A # 8
H _A #1 9
R 40 6
2 K _ 1 %_ 0 4
H _ D # 4 8
H _A #1 8
C OM P 1
H _ A # 1 4
C P U _ B S E L 1 25
56_04
H _ D # 8
R 74
5 4 . 9 _1 % _0 4
C 16 4
1 0 00 P _ 5 0V _0 4
1. 05 V S
H _ D # 2 5
H _ D # 3 4
H _ A # 1 2
H _A #2 7
H _ D P S L P #
1. 0 5 V S
H _ D # 0
H _ C P U R S T#
Z 02 0 8
H _ C P U S LP #
Q9
* N D S 35 2 A P _ N L
G
D S
H _ T H R MT R I P #
Z 02 2 6
H _A #3 0
H _R E Q# 0
Z 02 0 9
H _ C P U S LP #
Z 0 2 1 5
H _ P R E Q#
R 1 48 15 0 _ 1% _ 0 4
6-14-5603B-11B
C P U _ GT L R E F
H _A # [ 3 5 : 3] 4
S MD _ C P U _ T H E R M 2 7
R 5 8 39 . 2 _ 1% _ 0 4
C P U _ B S E L 2
H _ D # 4 9
H _ B P M 1 #
Z 02 0 3
H _ D R D Y # 4
H _ D # 4 3
R 6 5 27 . 4 _ 1% _ 0 4
R 1 47 56 _ 0 4
AD
D
R
GRO
U
P_
0
ADD
R
GR
OUP
_1
CO
NT
R
O
L
X
D
P/IT
P
S
IG
N
AL
S
H CLK
THERMAL
RE
S
ER
VE
D
IC
H
JS K T 1 A
P en ry n
N 3
P 5
P 2
L2
P 4
P 1
R 1
Y 2
U 5
R 3
W 6
U 4
Y 5
U 1
R 4
T5
T3
W 2
W 5
Y 4
J4
U 2
V 4
M4
N 5
T2
V 3
B 2
D 2
D 22
L5
L4
K 5
M3
N 2
J1
A 6
H 1
M1
V 1
D 3
A 22
A 21
E 2
A D 4
A D 3
A D 1
A C 4
G5
F 1
C 2 0
E 1
H 5
F 21
A 5
G6
E 4
D 2 0
C 4
B 3
C 6
B 4
H 4
A C 2
A C 1
D 2 1
K 3
H 2
K 2
J3
L1
C 1
F 3
F 4
G3
A 3
D 5
A C 5
A A 6
A B 3
C 7
A 24
B 25
A B 5
G2
A B 6
W 3
A A 4
A B 2
A A 3
F 6
A [ 1 0 ] #
A [ 1 1 ] #
A [ 1 2 ] #
A [ 1 3 ] #
A [ 1 4 ] #
A [ 1 5 ] #
A [ 1 6 ] #
A [ 1 7 ] #
A [ 1 8 ] #
A [ 1 9 ] #
A [ 2 0 ] #
A [ 2 1 ] #
A [ 2 2 ] #
A [ 2 3 ] #
A [ 2 4 ] #
A [ 2 5 ] #
A [ 2 6 ] #
A [ 2 7 ] #
A [ 2 8 ] #
A [ 2 9 ] #
A [ 3 ] #
A [ 3 0 ] #
A [ 3 1 ] #
R S V D [ 0 1 ]
R S V D [ 0 2 ]
R S V D [ 0 3 ]
R S V D [ 0 4 ]
R S V D [ 0 5 ]
R S V D [ 0 6 ]
R S V D [ 0 7 ]
A [ 4 ] #
A [ 5 ] #
A [ 6 ] #
A [ 7 ] #
A [ 8 ] #
A [ 9 ] #
A 2 0 M#
A D S #
A D S T B [ 0] #
A D S T B [ 1] #
R S V D [ 0 8 ]
B C L K [ 0]
B C L K [ 1]
B N R #
B P M [ 0 ] #
B P M [ 1 ] #
B P M [ 2 ] #
B P M [ 3 ] #
B P R I #
B R 0 #
D B R #
D B S Y #
D E F E R #
D R D Y #
F E R R #
H I T #
H I TM #
I E R R #
I G N N E #
I N I T #
L I N T 0
L I N T 1
L OC K #
P R D Y #
P R E Q #
P R O C H OT #
R E Q[ 0 ] #
R E Q[ 1 ] #
R E Q[ 2 ] #
R E Q[ 3 ] #
R E Q[ 4 ] #
R E S E T #
R S [ 0 ] #
R S [ 1 ] #
R S [ 2 ] #
S M I #
S T P C LK #
T C K
T D I
T D O
T H E R MT R I P #
T H E R M D A
T H E R M D C
T MS
TR D Y #
TR S T #
A [ 3 2 ] #
A [ 3 3 ] #
A [ 3 4 ] #
A [ 3 5 ] #
R S V D [ 0 9 ]
H _ TR S T #
H _ D # 3 7
R 6 6 51 _ 1 %_ 0 4
H _ P R O C H OT #
Z 0 2 1 0
H _ B P M 3 #
H _ F E R R #
R 1 49 68 _ 0 4
R 1 08 *5 1 _0 4
H _ D # 6 3
H _ D # 4 1
H _ D # 5 1
Z 0 2 1 3
H _ D S T B P # 0 4
V D D 3 2 0, 2 3 , 2 7, 3 4 , 3 5, 3 6 , 3 8, 4 0
H _ D # 4 5
R 4 5 8 * 1 K _0 4
1 . 05 V S
H _ D # 3 3
H _ A # 4
H _ D # 4 2
H _ D P S L P # 6
Z 0 2 1 1
H _ D # 6 0
H _ A # 1 3
COMP0, COMP2: 0.5" Max, Zo=27.4 Ohms(20mil)
COMP1, COMP3: 0.5" Max, Zo=55 Ohms(5mil)
Best estimate is 18 mils wide trace for outer
layers and 14 mils wide trace if on internal
layers.
H _ I GN N E #
R 1 58 4 . 7K _0 4
3 . 3 V
H _ TH E R M D C
H _ A # 1 6
H _A #2 3
R 8 0 54 . 9 _ 1% _ 0 4
T H E R M_ R S T # 2 7
H _ TD I
H _ D S T B P # 3 4
H _ A 2 0M #
V D D 3
H _ B P R I # 4
H _ D # 6 2
H _ D # 1 3
H _ S T P C L K #
H _ T C K
H _R E Q# 3
R 1 34 56 _ 0 4
0.5" max, Zo= 55 Ohms
H _ D I N V # 1 4
H _ D B S Y # 4
H _ B P M 2 #
H _ B P M 0 #
H _A #2 0
R 1 19 *5 6 _0 4
CPU to SB interface
H _ D # [ 63 : 0 ] 4
H _ I GN N E #
C OM P 2
H _ C P U R S T #
H _ A # 7
H _ D B R #
H _ D # 5 3
Z 02 0 5
C P U _ B S E L 0 25
H _ D # 6 1
H _ A 2 0 M#
H _ R S #2 4
C OM P 2
C P U _ B S E L 2
Z 02 2 5
Layout Note:
H _ D # 5 8
H _ D # 3 9
H _ D # 9
H _A #3 4
R 1 38 1 0K _ 0 4
H _ TH R M TR I P # 22
If PR OC HO T# is r out ed b etw ee n CPU , IM VP an d MC H,
pu ll- up r esi st or ha s to be 6 8 ohm ? 5 %. If n ot
us e, pu ll -up r es ist or h as to b e 5 6 oh m ? 5 %
If u se d M6 72
th an d el R 3
H _ D # 3 1
H _ A # 6
H _ C P U R S T# 4
H _ F E R R # 2 2
H _ D # 4 6
H _ D # 5 2
H _ A # 5
H _ D # 4 0
H _ D # 5 5
R 40 7 1 K _ 1% _ 0 4
H _ L OC K # 4
H _ D # 1 6
Z 02 0 2
Z 0 2 2 4
H _ A # 3
H _A #2 6
R 8 5
27 . 4 _ 1% _ 0 4
H _ R E Q# [ 4 : 0 ] 4
H _ D B R #
I f us ed M6 72 th an
d el R 40 an d add R 42
H _ D # 2 2
H _ D # 2 4
R 1 00 51 _ 1 %_ 0 4
H _ I N I T# 2 2
P S I #
H _ T H E R MD C
20MIL
H _ D # 3 6
Z 02 0 6
Z 02 0 7
H _A #2 4
C 55 3
1 U _ 6 . 3 V _X 5 R _ 0 6
R 5 7 68 0 _ 04
V _T H E R M
R 1 37 * 1 0m i l_ s h ort
H _ D # 2 3
R 7 3 15 0 _ 1% _ 0 4