Hudson Power Decoupling - Clevo W270BUQ Series Service Manual

HUDSON POWER DECOUPLING

3 . 3 V S
1 3 1m A
C 49 4 C 4 95 C 49 6 C 4 9 3
2 2u ->1 0u CD 3 /8
1 0 u _6 . 3 V _ X 5R _ 08 0 . 1 u _1 0 V _ X 5R _ 04
0 . 1 u _1 0 V _ X 5R _ 04 0 . 1 u_ 1 0 V _ X5 R _0 4
1 . 8V S
De l R35 5 3 /7
C 5 0 9 C 5 04 C 5 0 6 C 49 7
7 1 mA
4. 7 u _ 6 . 3V _ X 5 R _ 0 6 0 . 1 u_ 1 0 V _ X5 R _0 4
0 . 1 u _1 0 V _ X 5R _ 04 * 0. 1 u _ 10 V _ X 7 R _ 0 4
3 . 3 V S
.
L 8 6 H C B 10 0 5 K F -1 2 1T 2 0 V D D P L _ 3 . 3 V _P C I E 4 3 mA
C 5 1 1 C 5 1 2
1u _ 1 0 V _Y 5 V _ 06
0 . 1 u _ 10 V _ X 5 R _ 0 4
1 . 1 V S
6 0 0 m A
22 u - >1 0u CD 3 /8 C 5 1 7 C 5 18 C 5 1 9 C 5 20 C 5 2 1
*1 u _ 6. 3 V _ X 5 R _ 0 4
0 . 1 u _1 0 V _ X 5R _ 04
1 0 u_ 6 . 3 V _ X5 R _ 08 1 u_ 6 . 3 V _ X 5R _ 04 0 . 1 u_ 1 0 V _ X5 R _0 4
3 . 3V S
9 3 mA
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L8 8 H C B 1 0 05 K F -1 2 1 T2 0 V D D P L_ 3 . 3 V _ S A T A
C 5 2 7 C 5 2 8
*0 . 1 u _ 10 V _ X 7 R _ 0 4
1 u _ 10 V _ Y 5 V _ 0 6
Del L8 9 3 /7
1. 1 V S
CD 3 /8
5 67 m A
C 5 3 2 C 5 3 3 C 5 3 4 C 5 3 5 C 5 3 6
* 1u _ 6 . 3 V _X 5 R _ 0 4 0 . 1 u _1 0 V _ X 5R _ 04
22u -> 10 u C D 3/8 1 0 u_ 6 . 3 V _ X5 R _ 08 1 u _ 6 . 3V _X 5 R _ 0 4 0 . 1 u_ 1 0 V _ X5 R _0 4
3 . 3 V A V D D _ U S B
CD 3 /8 CD 3/8
.
L 9 1 H C B 1 0 0 5K F -12 1 T 2 0 6 58 m A
C 54 2
C 5 4 3 C 5 4 4 C 5 4 5 C 54 6
0. 1 u _ 10 V _ X 5 R _ 0 4
1 u_ 6 . 3 V _ X5 R _0 4 1 0 u _6 . 3 V _ X 5R _ 08
* 1u _ 6 . 3 V _X 5 R _ 0 4 *1 0 u_ 6 . 3 V _ X5 R _0 8
1. 1 V TB D m A
.
V D D A N _1 . 1 V _ U S B
L9 3 H C B 1 00 5 K F -1 2 1T 2 0
C 5 4 9 C 5 50
0. 1 u _ 1 0V _ X 5 R _ 0 4
1 u _1 0 V _ Y 5 V _ 0 6
3 . 3 V S
3 . 3 V De l R36 2 3 /7 V D D I O_ A Z
1 . 5 V L 95 . H C B 1 0 0 5K F -12 1 T 20
R 36 2 * 10 m i l _ s h o rt
R 3 6 3 * 0 _0 4
C 55 7
1 u_ 1 0 V _ Y 5 V _ 06
HUDSON POWER DECOUPLING
U 1 9C
HU DSON -1
PA R T 3 O F 5
PO WER
CD 3 /8
A H 1 N 1 3
5 1 0m A
V 6 V D D I O _33_P C I G P V D D C R _11 R 1 5
Y 1 9 V D D I O _33_P C I G P V D D C R _11 N 1 7
C 4 9 9 C 5 0 0
V D D I O _33_P C I G P V D D C R _11
A E 5 U 1 3
V D D I O _33_P C I G P V D D C R _11
A C 2 1 U 1 7 * 1 u_ 6 . 3 V _ X5 R _ 04
A A 2 V D D I O _33_P C I G P V D D C R _11 V 1 2
1 u _ 6. 3 V _ X 5 R _ 0 4
V D D I O _33_P C I G P V D D C R _11
A B 4 V 1 8
V D D I O _33_P C I G P V D D C R _11
A C 8 W 1 2
V D D I O _33_P C I G P C O R E S 0 V D D C R _11
A A 7 W 1 8
A A 9 V D D I O _33_P C I G P V D D C R _11
V D D I O _33_P C I G P
A F 7
A A 1 9 V D D I O _33_P C I G P C LKG EN I / O K 2 8 T B D m A
V D D I O _33_P C I G P V D D AN _11_C LK K 2 9
V D D AN _11_C LK J 28
PC I / G PI O I / O
C 5 0 5 C 5 0 7
V D D AN _11_C LK
K 2 6
V D D AN _11_C LK
J 21
FL ASH I / O 0 . 1 u_ 1 0 V _ X5 R _ 04
A F 2 2 V D D AN _11_C LK J 20
0. 1 u _ 10 V _ X 5 R _ 0 4
V D D I O _18_F C V D D AN _11_C LK
A E 2 5 K 2 1
A F 2 4 V D D I O _18_F C V D D AN _11_C LK J 22
V D D I O _18_F C V D D AN _11_C LK
A C 2 2 De l R35 6 3 /7
V D D I O _18_F C
V 1
R 3 5 6 *1 0 m i l _ s ho rt
V D D R F _G B E_S
M1 0
R 7 7 1 *1 0 m i l _ s ho rt
PC I EX PR ESS VD D I O _3 3_G B E_S
A E 2 8
V D D P L_33_P C I E
G B E LAN
U 2 6 L 7 R 7 7 2 *1 0 m i l _ s ho rt
V 2 2 V D D A N _11_ PC I E V D D C R _1 1_G B E_S L 9
V D D A N _11_ PC I E V D D C R _1 1_G B E_S
V 2 6
V 2 7 V D D A N _11_ PC I E
V 2 8 V D D A N _11_ PC I E M6
R 7 7 3 *1 0 m i l _ s ho rt
V 2 9 V D D A N _11_ PC I E VD D I O _G B E_S P 8
W 2 2 V D D A N _11_ PC I E VD D I O _G B E_S
V D D A N _11_ PC I E
W 2 6
V D D A N _11_ PC I E
SE R I AL A TA
A D 1 4
3. 3V_S 5 I / O
V D D P L_33_S ATA A 2 1
3 2 mA
V D D I O _33_S
A J2 0 D 2 1
V D D A N _11_ SAT A V D D I O _33_S
A F 1 8 B 2 1
A H 2 0 V D D A N _11_ SAT A V D D I O _33_S K 1 0
C 5 2 9 C 5 30
A G1 9 V D D A N _11_ SAT A V D D I O _33_S L 10
V D D A N _11_ SAT A V D D I O _33_S
A E 1 8 J 9
* 0. 1 u _ 10 V _ X 7 R _ 0 4
V D D A N _11_ SAT A V D D I O _33_S
A D 1 8 T 6
1u _ 1 0V _Y 5 V _0 6
A E 1 6 V D D A N _11_ SAT A V D D I O _33_S T 8
V D D A N _11_ SAT A V D D I O _33_S
C O R E S5 F 2 6
11 3 m A
U SB I / O
VD D C R _11_S
A 1 8 G2 6
V D D A N _33_ U SB _S VD D C R _11_S
A 1 9
V D D I O_ A Z
A 2 0 V D D A N _33_ U SB _S M8
TB D m A
B 1 8 V D D A N _33_ U SB _S VD D I O _A Z_S
V D D A N _33_ U SB _S
B 1 9 A 1 1 V D D C R _1 . 1 _ U S B
19 7 m A
V D D A N _33_ U SB _S VD D C R _11_U S B_S
B 2 0 B 1 1
C 1 8 V D D A N _33_ U SB _S VD D C R _11_U S B_S
V D D A N _33_ U SB _S
C 2 0 V D D P L _ 3. 3 V
V D D A N _33_ U SB _S
D 1 8 M2 1
47 m A
V D D A N _33_ U SB _S V D D PL_33_S YS
D 1 9 V D D P L_ 1 . 1 V
D 2 0 V D D A N _33_ U SB _S P LL L 22
6 2 m A
V D D A N _33_ U SB _S VD D P L_11_SY S_S
E 1 9
A V D D _ U S B
V D D A N _33_ U SB _S
F 1 9
1 7 m A
VD D P L_33_U S B_S
C 1 1 D 6
5 m A V D D A N _3 . 3 V _ H W M
V D D A N _11_ U SB _S VD D AN _33_H WM _S
D 1 1
V D D A N _11_ U SB _S
L 20 T B D mA V D D XL _ 3 . 3 V
V D D XL_33_S
H U D S ON M1 A 1 3
1 . 1 V V D D P L_ 1 . 1 V
V D D P L _ 3 . 3 V
L 96 . H C B 1 0 05 K F -1 2 1 T 20
C 5 5 3 C 5 54 C 5 55 C 55 6
1u _ 1 0V _Y 5 V _0 6 1 u _ 1 0V _ Y 5V _0 6
* 0. 1 u _ 1 0V _ X 7 R _ 0 4 *0 . 1 u _1 0 V _ X 7R _ 04
1 . 1 V S
U 19 D
HU DSON-1
PAR T 5 O F 5
C 5 01 C 5 0 2 C 5 0 3
Y 1 4
V SSI O _SA TA
10 u _ 6. 3 V _ X 5 R _ 0 8 Y 1 6
0 . 1 u_ 1 0 V _ X5 R _0 4
A B 1 6 V SSI O _SA TA
0 . 1 u _1 0 V _ X 5R _ 04
V SSI O _SA TA
A C 1 4
V SSI O _SA TA
A E 1 2
Del L 85 3/7
V SSI O _SA TA
A E 1 4
A F 9 V SSI O _SA TA
1 . 1 V S
V SSI O _SA TA
A F 1 1
CD 3 /8
A F 1 3 V SSI O _SA TA
A F 1 6 V SSI O _SA TA
A G8 V SSI O _SA TA
C 5 08 C 5 1 0
C 4 98
V SSI O _SA TA
A H 7
V SSI O _SA TA
*1 u _ 6. 3 V _ X 5 R _ 0 4 1 0 u_ 6 . 3 V _ X5 R _0 8 A H 1 1
A H 1 3 V SSI O _SA TA
1 u _ 6. 3 V _ X 5 R _ 0 4
V SSI O _SA TA
22 u -> 10 u C D 3/8 A H 1 6
A J 7 V SSI O _SA TA
V SSI O _SA TA
A J1 1
A J1 3 V SSI O _SA TA
V SSI O _SA TA
A J1 6
V SSI O _SA TA
A 9
V SSI O _U S B
B 1 0
K 1 1 V SSI O _U S B
V SSI O _U S B
B 9
D 1 0 V SSI O _U S B
V SSI O _U S B
D 1 2
D 1 4 V SSI O _U S B
V SSI O _U S B
D 1 7
E 9 V SSI O _U S B
F 9 V SSI O _U S B
F 1 2 V SSI O _U S B
F 1 4 V SSI O _U S B
V SSI O _U S B
F 1 6
C 9 V SSI O _U S B
V SSI O _U S B
G1 1
F 1 8 V SSI O _U S B G R O U N D
V SSI O _U S B
3 . 3 V D 9
H 1 2 V SSI O _U S B
V SSI O _U S B
H 1 4
V SSI O _U S B
H 1 6
H 1 8 V SSI O _U S B
C 5 3 1 CD 3/8
J1 1 V SSI O _U S B
V SSI O _U S B
J1 9
*1 u _1 0 V _ Y 5 V _ 0 6
V SSI O _U S B
K 1 2
K 1 4 V SSI O _U S B
V SSI O _U S B
K 1 6
V SSI O _U S B
K 1 8
1 . 1 V
V SSI O _U S B
H 1 9
V SSI O _U S B
Y 4
C 5 37 C 5 3 8 Del R 36 1 3 /7
E FU S E
D 8
1u _ 6 . 3V _X 5 R _ 0 4
V SSA N _H WM
1 u _ 6. 3 V _ X 5 R _ 0 4
1 . 1V M1 9
V SSX L
L 9 0 .
P 2 1
H C B 1 00 5 K F -1 2 1T 2 0
V SSI O _PC I E C LK
P 2 0
C 5 39 C 5 4 0 C 5 4 1
M2 2 V SSI O _PC I E C LK
V SSI O _PC I E C LK
M2 4
10 u _ 6. 3 V _ X 5 R _ 0 8 0 . 1 u_ 1 0 V _ X5 R _0 4
V SSI O _PC I E C LK
M2 6
0 . 1 u _1 0 V _ X 5R _ 04
P 2 2 V SSI O _PC I E C LK
P 2 4 V SSI O _PC I E C LK
3 . 3V
V SSI O _PC I E C LK
P 2 6
. V SSI O _PC I E C LK
L 9 2 T2 0
T2 2 V SSI O _PC I E C LK
H C B 1 00 5 K F -1 2 1T 2 0
V SSI O _PC I E C LK
C 5 4 7 C 5 48 T2 4
V 2 0 V SSI O _PC I E C LK
V SSI O _PC I E C LK
J2 3
0. 1 u _ 10 V _ X 5 R _ 0 4
V SSI O _PC I E C LK
1 u _1 0 V _ Y 5 V _ 0 6
H U D S ON M1 A 1 3
3. 3 V V D D A N _3 . 3 V _ H W M
.
L 9 4 H C B 1 0 0 5 K F -1 21 T 2 0
C 5 5 1 C 5 5 2
CD 3 /8 *1 u _ 10 V _ Y 5 V _ 0 6
0 . 1 u _1 0 V _ X 5R _ 04
HUDSON POWER DECOUPLING B - 11
Schematic Diagrams
A J 2
V SS
A 2 8
V SS A 2
V SS
E 5
V SS
D 2 3
V SS
E 2 5
V SS E 6
V SS
F 2 4
V SS N 1 5
V SS R 1 3
V SS R 1 7
V SS
T1 0
V SS
P 1 0
V SS V 1 1
V SS
U 1 5
V SS M1 8
V SS
V 1 9
V SS M1 1
V SS
L1 2
V SS L1 8
V SS J7
V SS
P 3
V SS V 4
V SS
A D 6
V SS A D 4
V SS
A B 7
V SS A C 9
V SS
V 8
V SS W 9
Sheet 10 of 43
V SS W 1 0
V SS A J 28
V SS B 2 9
V SS
U 4
HUDSON POWER
V SS Y 1 8
V SS
Y 1 0
V SS Y 1 2
V SS
Y 1 1
DECOUPLING
V SS A A 1 1
V SS
A A 1 2
V SS
G4
V SS J4
V SS G8
V SS
G9
V SS
M1 2
V SS A F 2 5
V SS
H 7
V SS
A H 2 9
V SS
V 1 0
V SS P 6
V SS
N 4
V SS
L4
V SS L8
V SS
M2 0
V SS PL_S YS
H 2 3
VS SI O _PC I E C LK
H 2 6
VS SI O _PC I E C LK A A 2 1
VS SI O _PC I E C LK
A A 2 3
VS SI O _PC I E C LK
A B 2 3
VS SI O _PC I E C LK A D 2 3
VS SI O _PC I E C LK A A 2 6
VS SI O _PC I E C LK
A C 2 6
VS SI O _PC I E C LK
Y 2 0
VS SI O _PC I E C LK W 2 1
VS SI O _PC I E C LK
W 2 0
VS SI O _PC I E C LK A E 2 6
VS SI O _PC I E C LK
L2 1
VS SI O _PC I E C LK K 2 0
VS SI O _PC I E C LK