Power vcore, Sheet 35 of 42 power vcore, B.schematic diagrams – Clevo M860TU User Manual
Page 92: Schematic diagrams b - 36 power vcore, Vcore for merom cpu, Sc452
Schematic Diagrams
B - 36 Power VCORE
B.Schematic Diagrams
Power VCORE
3. 3 V S
2 , 3, 5, 9 , 1 2 , 13 , 1 4 , 1 5, 1 6 , 1 9 , 20 , 2 1 , 22 , 2 3 , 2 4, 2 5 , 2 6, 28 , 3 0 , 32 , 3 3 , 3 6, 3 7 , 3 8
D R P +
V C O R E _ H Y S
+
P C 1 4 4
3 30 u _ 2. 5 V _ D
3. 3 V S
P S I #
P C 1 1 8
. 0 1 5 u_ 5 0 V _0 6
V C OR E
Z 3 5 0 4
P R 9 8
*0 _ 0 4
EMI
V S S S E N S E
H _ V I D 2
P R 8 2
2 K _ 0 4
EMI:close to PQ40
P R 7 4
*1 0 m il _ s ho rt
P Q 3 6
2N 7 00 2
G
D
S
H _V I D 0
3
Z 3 5 12
P C 1 37
* 4. 7u _ 2 5V _ 0 8
P Q4 8
I R F 78 3 2 Z T R P B F
4
6
2
5
7
3
1
8
P U 4
SC452
1
2
3
4
5
6
7
8
9
1 0
1 1
15
16 17
18 19
20 21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
14
13
12
45
C L K E N #
V R E F
H Y S
C L S E T
V I D 6
V I D 5
V I D 4
V I D 3
V I D 2
V I D 1
V I D 0
BST
2
TG
2
DR
N
2
BG
2
V
5_2
PSI
#
FB
+
FB
-
D R P -
D R P +
S S
D A C
A GN D
V C C A
E R R OU T
C S 2 +
C S 2-
C S 1-
C S 1 +
IS
H
PR
S
T
P#
EN
V
5_1
BG
1
DR
N
1
TG
1
BS
T
1
VI
N
1
VP
N
1
DP
R
S
L
VI
N
2
VPN
2
PW
R
G
D
GN
D
H _V I D 2
3
B G1
P R 1 13
1 0 _ 04
EMI:close to PQ37
C S 2 P
P C 1 0 9
1 u _ 2 5V _ 0 8
P C 1 1 9
*. 1 u _1 6 V _ 0 4
+
P C 1 4 2
33 0 u _2 . 5 V _ D
H _V I D 6
3
H _ V I D 3
V C O R E _ V R E F
S G N D 3
D E L A Y _ P W R GD
5 , 1 5
P R 68
13 0 K _ 1% _ 0 6
H _ V I D 1
P
C
95
15
00
p_
50
V
_
0
6
P D 1 1
F M0 5 4 0-N
A
C
P C 1 2 6
*2 2 n_ X 7 R _ 0 4
S GN D 3
5/2/2007_Alex
P
C
108
1u
_25
V
_08
P R 1 9
1 0 _0 8
5 V
D A C
P R 10 3
* 68 0 _ 04
P
C
99
*1
0
0p_5
0V
_0
4
H _V I D 5
3
C S 2 N
H _ V I D 6
C S 2 N
P C 1 4 0
0. 0 1 u _5 0 V _ 0 4
P D 1
F M5 8 2 2
A
C
P Q 45
I R F 7 83 2 Z T R P B F
4
6
2
5
7
3
1
8
H _V I D 1
3
V S S S E N S E
3
P
R
80
10
0
_1%
_0
4
P D 1 2
F M0 5 4 0-N
A
C
P
C
1
16
1
00
p_
50
V
_04
44A
V I N
DR
N1
CS
1
N
E N _ V C OR E
Z 3 5 08
P R 1 23
* 1 0m i l _s h o rt
C L K E N #
15
P R 94
*1 0 K _ 0 4
S GN D 3
V I N
D R N 1
V C _ S S
B S T 2
V I N
2 8 , 2 9, 30 , 3 1 , 32 , 3 3 , 3 4, 3 7 , 3 8
P R 83
0_ 0 4
I S H
P C 2 5
1 0 0 0P _ 2 5 V _ 06
C S 1 N
P C 1 33
4 . 7 u _2 5 V _ 0 8
V C C S E N S E
E N _ V C OR E
+
P C 1 6 2
3 3 0 u_ 2 . 5 V _ D
P S I #
2
D R P _ L 1
D R P _ L 2
P C 1 3 1
. 01 u _ 5 0V _ 0 4
P R 8 4
6 80 _ 0 4
P
C
12
3
1
0
0
0p
_
5
0V
_04
V C O R E
3
P C 10 3
1 0 00 p _ 50 V _ 0 4
P
C
1
2
0
1
00
p_5
0
V
_0
4
E - R C
V I N
S G N D 3
H _ V I D 4
P R 1 2 2
4 7 K _ 04
S G N D 3
D P R S L _S TP
P R 1 18
1 7. 4 K _ 1 % _0 4
P C 1 0 1
1 00 p _ 50 V _ 0 4
P R 10 8
10 _ 0 4
5V
D P R S L _ S TP
B S T 1
D R P -
V C _S S
D R P +
T G1
P R 1 2 5
* 1 0m i l _s h o rt
3 . 3V S
P C 1 0 0
1 00 p _ 50 V _ 0 4
P C 13 9
0 . 1 u_ 1 0 V _0 4
P C 1 07
1u _ 2 5V _0 8
D E L A Y _ P W R GD
B G2
P C 1 2 5
6 8 0 p_ 5 0 V _0 4
5V
1 5 , 1 6, 17 , 2 1 , 30 , 3 1 , 3 2, 3 4 , 3 8
D C R _D R 2
P Q4 6
I R F 7 8 32 Z T R P B F
4
6
2
5
7
3
1
8
+
P C 1 4 1
33 0 u _2 . 5 V _ D
H _V I D 4
3
F B +
H _D P R S T P #
D R N 2
V -R C 2
P L 7
0 . 5u H _1 0 *1 0 *4 . 5
1
2
P R 8 6
*4 9 9_ 1 % _ 06
P R 1 20
1 7. 4 K _ 1 % _0 4
S GN D 3
P
C
98
10
00p_
50
V
_
04
P R 1 1 5
4 7K _0 4
P R 1 8
10 _ 0 8
S G N D 3
P M_ D P R S L P V R
5 , 1 5
H _ V I D 0
P M _D P R S LP V R
P R 7 5
4 8 7 K _ 1% _ 0 6
P R 1 1 4
4 7K _0 4
P R 11 0
10 _ 0 4
+
P C 23 4
68 0 u _2 5 V
P R 65
*1 0 m il _ s ho rt
H _ V I D 5
P C 1 28
0 . 0 3 3u _ X 7R _ 04
P C 12 9
0 . 1 u_ 5 0 V _ 06
P R 1 0 9
7 . 5 K _1 % _ 0 4
5V
H _V I D 3
3
P C 1 3 8
4 . 7u _ 2 5V _0 8
P R 1 7
*1 0 m il _ s ho rt
P R 1 0 4
*0 _ 0 4
S G N D 3
V C O R E _ O N
2 2
P Q3 7
2 N 70 0 2
G
D
S
12 / 2 8
S G N D 3
P R 1 1 7
2 8 K _ 1 %_ 0 4
+
P C 16 3
*4 7 0u _ 2 . 5 V _D
P
C
96
1
00p_
50
V
_
04
P R 1 2 1
2 8 K _ 1 %_ 0 4
P U 5
*7 4 A H C T 1 G0 2
4
5
3
1
2
P C 1 3 6
4 . 7u _ 2 5 V _0 8
P Q4 3
* 2 N 7 0 02
G
D
S
PR
7
1
1
K
_1
%
_
04
Z 3 50 9
Z 3 5 0 5
P R 1 6
* 1 0m i l _s h o rt
DR
N2
P R 1 1 9
4 7 K _ 04
P R 1 2 4
1 0 0 K _0 6
1
2
P R 1 1 1
1 0. 5 K _ 1 % _0 6
close to IMVP6
V -R C 1
P C 13 2
. 1u _ 5 0V _0 6
P C 9 4
*0 . 1 u_ 1 6 V _0 4
D C R _D R 1
TG 2
P
C
1
21
1
00
p_
50
V
_
04
P R 1 01
0 _0 4
P R 9 2
10 K _ 0 4
P
C
1
24
1
u_2
5
V
_0
8
P R 6 7
3 0 . 1 K _ 1% _ 0 6
V C C S E N S E
3
P
R
85
10
0_
1%
_0
4
3 . 3 V S
VP
N
1
V C C A
S GN D 3
F B -
D P R S L
V C O R E _ V R E F
22A
CS
2
N
VPN
2
D R P -
S G N D 3
D P R S L
Z 3 5 0 2
P C 1 3 5
* 4 . 7u _ 2 5V _0 8
D R N 2
P R 1 0 0
* 0_ 0 4
P C 13 0
0 . 1 u_ 1 0 V _ 04
P C 1 27
0 . 0 3 3u _ X 7R _ 04
P R 6 6
1 3 0 K _1 % _ 06
22A
P R 1 2 6
1 0 0 K _0 6
1
2
S GN D 3
+
P C 1 4 3
*4 7 0 u_ 2 . 5 V _ D
P
C
11
1
1
u_2
5
V
_0
8
R 28 0
1M _ 04
P C 1 0 2
1 00 0 p _5 0 V _ 0 4
P R 81
7. 5 K _ 1 % _0 4
P Q4 9
I R F 7 41 3 Z P B F
4
6
2
5
7
3
1
8
Z 3 50 7
5V
V C O R E _ C LS E T
P C 2 4
1 00 0 P _ 25 V _ 0 6
P
C
12
2
0
.0
1
u_50
V
_0
4
P J1 4
* 10 m i l
1
2
VCORE FOR MEROM CPU
P C 11 7
. 0 1 5 u_ 5 0 V _ 06
P C 1 1 4
0 . 1 u _ 50 V _ 0 6
D V T
C S 1 N
Z 35 0 3
C L K E N #
H _ D P R S TP #
2 , 5 , 1 3
P Q 44
I R F 74 1 3 Z P B F
4
6
2
5
7
3
1
8
S GN D 3
V I N
C L K E N #
Z 3 5 11
Z 3 50 6
P R 7 2
10 0 K _ 0 4
P C 1 3 4
4. 7u _ 2 5V _ 0 8
P Q4 7
I R F 7 8 3 2Z T R P B F
4
6
2
5
7
3
1
8
Z 3 5 1 0
D R N 1
P D 1 3
F M5 8 2 2
A
C
Z 3 5 0 1
P L 6
0 . 5u H _1 0 *1 0 *4 . 5
1
2
P R 11 2
* 0_ 0 4
Sheet 35 of 42
Power VCORE