Service manual
Schematic Diagrams
Processor 4/7 B - 7
B.Schematic Diagrams
Processor 4/7
C36
10u_6. 3V _X5R _06
C31 0
10u_6.3V_X5R_06
1K PU to VTT and 1K PD to GND
fo r P OC
1.1VS_VTT
ICCMAX_VTT Max Current
for VTT Rail
SV 18
VCORE
The decoupling capacitors, filter
recommendations and sense resistors on the
CPU/PCH Rails are specific to the CRB
Implementation. Customers need to follow the
recommendations in the Calpella Platform
Design Guide
Please note that the
VTT Rail Values are
Auburndale VTT=1.05V
C347
0.1u_10V_X7R _04
C33
10u_6.3V_X5R _06
PROCESSOR 4/7 ( POWER )
C 335
* 10u_6.3V_X5R _06
C345
0. 01u_50V_X7R _04
PSI #
C30 8
22u_6.3V_X5R _08
+VTT_44
TO VCORE POWER CONTROL
PROCE SSOR UNCO RE POWERPROCESSOR CORE POWER
H_VTTVID1
+VTT_43
C362
*22u_6. 3V _X5R_08
C334
*10u_6. 3V _X5R_06
C349
*22u_6.3V_X5R_08
C35 1
10u_6.3V_X5R _06
C331
10u_6.3V_X5R_06
C359
22u_6.3V_X5R _08
C336
*22u_6. 3V _X5R_08
C2 9
*10u_6.3V_X5R _06
POWER
CPU CORE SUPPLY
1.1V RAIL POWER
SENSE LINES
CPU VIDS
U1 6 F
PZ98927- 3641-01F
ISE NSE
AN 3 5
VTT_SE NSE
B15
PS I#
AN 3 3
VID [0]
AK 35
VID [1]
AK 33
VID [2]
AK 34
VID [3]
AL35
VID [4]
AL33
VID [5]
AM 3 3
VID [6]
AM 3 5
PR OC _D PRS LPVR
AM 3 4
VTT_SEL EC T
G15
VC C_SE NSE
AJ 3 4
VSS_SE NS E_VTT
A15
VCC1
AG35
VCC2
AG34
VCC3
AG33
VCC4
AG32
VCC5
AG31
VCC6
AG30
VCC7
AG29
VCC8
AG28
VCC9
AG27
VCC10
AG26
VCC11
AF3 5
VCC12
AF3 4
VCC13
AF3 3
VCC14
AF3 2
VCC15
AF3 1
VCC16
AF3 0
VCC17
AF2 9
VCC18
AF2 8
VCC19
AF2 7
VCC20
AF2 6
VCC21
AD35
VCC22
AD34
VCC23
AD33
VCC24
AD32
VCC25
AD31
VCC26
AD30
VCC27
AD29
VCC28
AD28
VCC29
AD27
VCC30
AD26
VCC31
AC35
VCC32
AC34
VCC33
AC33
VCC34
AC32
VCC35
AC31
VCC36
AC30
VCC37
AC29
VCC38
AC28
VCC39
AC27
VCC40
AC26
VCC41
AA35
VCC42
AA34
VCC43
AA33
VCC44
AA32
VCC45
AA31
VCC46
AA30
VCC47
AA29
VCC48
AA28
VCC49
AA27
VCC50
AA26
VCC51
Y35
VCC52
Y34
VCC53
Y33
VCC54
Y32
VCC55
Y31
VCC56
Y30
VCC57
Y29
VCC58
Y28
VCC59
Y27
VCC60
Y26
VCC61
V35
VCC62
V34
VCC63
V33
VCC64
V32
VCC65
V31
VCC66
V30
VCC67
V29
VCC68
V28
VCC69
V27
VCC70
V26
VCC71
U3 5
VCC72
U3 4
VCC73
U3 3
VCC74
U3 2
VCC75
U3 1
VCC76
U3 0
VCC77
U2 9
VCC78
U2 8
VCC79
U2 7
VCC80
U2 6
VCC81
R3 5
VCC82
R3 4
VCC83
R3 3
VCC84
R3 2
VCC85
R3 1
VCC86
R3 0
VCC87
R2 9
VCC88
R2 8
VCC89
R2 7
VCC90
R2 6
VCC91
P35
VCC92
P34
VCC93
P33
VCC94
P32
VCC95
P31
VCC96
P30
VCC97
P29
VCC98
P28
VCC99
P27
VCC100
P26
VTT0_33
AF 10
VTT0_34
AE 10
VTT0_35
AC 1 0
VTT0_36
AB 10
VTT0_37
Y10
VTT0_38
W10
VTT0_39
U10
VTT0_40
T10
VTT0_41
J12
VTT0_42
J11
VTT0_1
AH 1 4
VTT0_2
AH 1 2
VTT0_3
AH 1 1
VTT0_4
AH 1 0
VTT0_5
J14
VTT0_6
J13
VTT0_7
H14
VTT0_8
H12
VTT0_9
G14
VTT0_10
G13
VTT0_11
G12
VTT0_12
G11
VTT0_13
F14
VTT0_14
F13
VTT0_15
F12
VTT0_16
F11
VTT0_17
E14
VTT0_18
E12
VTT0_19
D14
VTT0_20
D13
VTT0_21
D12
VTT0_22
D11
VTT0_23
C14
VTT0_24
C13
VTT0_25
C12
VTT0_26
C11
VTT0_27
B14
VTT0_28
B12
VTT0_29
A14
VTT0_30
A13
VTT0_31
A12
VTT0_32
A11
V SS_SE NSE
AJ 3 5
VTT0_43
J16
VTT0_44
J15
C330
22u_6.3V_X5R _08
C 319
22u_6.3V_X5R _08
C32 5
22u_6.3V_X5R _08
C353
*10u_6. 3V _X5R_06
C341
22u_6.3V_X5R _08
C355
*10u_6.3V_X5R_06
C35 4
10u_6.3V_X5R _06
C311
22u_6.3V_X5R_08
R219
* 1K_04
C312
22u_6.3V_X5R _08
C36 1
*22u_6. 3V _X5R_08
C34
* 10u_6.3V_X5R_06
R220
1K_04
C28
10u_6. 3V _X5R _06
R223
1K _04
C352
10u_6.3V_X5R _06
C342
*22u_6. 3V _X5R_08
C338
22u_6.3V_X5R _08
C32
*10u_6.3V _X5R _06
C34 4
22u_6.3V_X5R _08
C346
10u_6.3V_X5R _06
C339
22u_6.3V_X5R _08
C333
10u_6.3V_X5R _06
R222
*1K_04
C363
22u_6.3V_X5R _08
C34 0
10u_6.3V_X5R _06
C332
*10u_6. 3V _X5R_06
1.1VS_VTTVCO R E
1.1VS_VTT
VCORE
1.1VS_VTT
1.1VS_V TT
VCORE
IM O N 36
VS S_SEN SE 36
VC C _SEN SE 3 6
1.1VS _VTT 2,4,7,14, 15,16,19,20,21,34,35, 36
VCORE 36
PM _D PR SL PVR 3 6
H_VID2 36
H_VID5 36
H_VID4 36
H_VID6 36
H_VID3 36
H_VID1 36
PS I# 36
VTT_SE NSE 34
H_VID0 36
I C CM AX Ma xi m um Pr oc e ss or S V 48
R 209 *10m il_short_04
R 211 *10m il_short_04
VTT TOTAL 21A
48A
Sheet 6 of 40
Processor 4/7