Schematic Diagrams
B - 4 Penryn 2/2
B.Schematic Diagrams
Penryn 2/2
Sheet 3 of 42
Penryn 2/2
1.05VS
C92
10u_10V_08
VCO RE
1.5VS9,13,16,21,23,33,36
Layout note:
C94
0.1u_10V_04
H_VID3 35
C433
*10u_10V_08
C115
1u_6.3V_04
1. 0 5 V S
C436
1u_6.3V_04
R70
*2K_1%_04
C780 100p_04
R3 3 6 *0 _0 4
GTL RE F2 _ CT RL
BPM2_#3
VSSSENSE
C74
22u_X5R _08
C9 5
0.1u_10V_04
H_ TH ERM 2
R6 5 *1 0m i l_s h ort
H_VID6 35
C114
0.1u_10V_04
C71
22u_X5R _08
C113
0.1u_10V_04
C474
10u_10V_08
1.05VS2,4,5,9,13,16,18,33
VC ORE35
C432 *1000p_50V_04
H_VID4 35
C98
1u_6.3V_04
C93
10u_10V_08
C4 3 8
1u_6.3V_04
1.05VS
C84
0.1u_10V_04
C105
0.01u_50V_04
U22D
SOC KET G 479P
.
P6
AE11
A8
A11
A14
A16
A19
A23
AF2
B6
B8
B11
B13
B16
B19
B21
B24
C5
C8
C1 1
C1 4
C1 6
C1 9
C2
C2 2
C2 5
D1
D4
D8
D1 1
D1 3
D1 6
D1 9
D2 3
D2 6
E3
E6
E8
E11
E14
E16
E19
E21
E24
F5
F8
F11
F13
F16
F19
F2
F22
F25
G4
G1
G2 3
G2 6
H3
H6
H2 1
H2 4
J2
J5
J22
J25
K1
K4
K23
K26
L3
L6
L21
L24
M2
M5
M2 2
M2 5
N1
N4
N2 3
N2 6
P3 A25
AF21
AF19
AF16
AF13
AF11
AF8
AF6
A2
AE26
AE23
AE19
P21
P24
R2
R5
R2 2
R2 5
T1
T4
T2 3
T2 6
U3
U6
U2 1
U2 4
V2
V5
V22
V25
W1
W4
W23
W26
Y3
Y21
Y24
AA2
AA5
AA8
AA11
AA14
AA16
AA19
AA22
AA25
AB1
AB4
AB8
AB11
AB13
AB16
AB19
AB23
AB26
AC3
AC6
AC8
AC11
AC14
AC16
AC19
AC21
AC24
AD2
AD5
AD8
AD11
AD13
AD16
AD19
AD22
AD25
AE1
AE4
Y6
A4
AE14
AE16
AE8
AF25
VSS[08 2]
VSS[14 8]
VSS[00 2 ]
VSS[00 3 ]
VSS[00 4 ]
VSS[00 5 ]
VSS[00 6 ]
VSS[00 7 ]
VSS[00 8 ]
VSS[00 9 ]
VSS[01 0 ]
VSS[01 1 ]
VSS[01 2 ]
VSS[01 3 ]
VSS[01 4 ]
VSS[01 5 ]
VSS[01 6 ]
VSS[01 7 ]
VSS[01 8 ]
VSS[01 9 ]
VSS[02 0 ]
VSS[02 1 ]
VSS[02 2 ]
VSS[02 3 ]
VSS[02 4 ]
VSS[02 5 ]
VSS[02 6 ]
VSS[02 7 ]
VSS[02 8 ]/RSVD
VSS[02 9 ]
VSS[03 0 ]
VSS[03 1 ]
VSS[03 2 ]
VSS[03 3 ]
VSS[03 4 ]
VSS[03 5 ]
VSS[03 6 ]
VSS[03 7 ]
VSS[03 8 ]
VSS[03 9 ]
VSS[04 0 ]
VSS[04 1 ]
VSS[04 2 ]
VSS[04 3 ]
VSS[04 4 ]
VSS[04 5 ]/GTL REF_Ctrl
VSS[04 6 ]
VSS[04 7 ]
VSS[04 8 ]
VSS[04 9 ]
VSS[05 0 ]
VSS[05 1 ]
VSS[05 2 ]
VSS[05 3 ]
VSS[05 4 ]
VSS[05 5 ]
VSS[05 6 ]
VSS[05 7 ]
VSS[05 8 ]
VSS[05 9 ]
VSS[06 0 ]
VSS[06 1 ]
VSS[06 2 ]
VSS[06 3 ]
VSS[06 4 ]
VSS[06 5 ]
VSS[06 6 ]
VSS[06 7 ]
VSS[06 8 ]
VSS[06 9 ]
VSS[07 0 ]
VSS[07 1 ]
VSS[07 2 ]
VSS[07 3 ]
VSS[07 4 ]
VSS[07 5 ]
VSS[07 6 ]
VSS[07 7 ]
VSS[07 8 ]
VSS[07 9 ]
VSS[08 0 ]
VSS[08 1 ] VSS[1 6 2]
VSS[16 1]
VSS[16 0]
VSS[15 9]
VSS[15 8]
VSS[15 7]
VSS[15 6]
VSS[15 5]
VSS[15 4]
VSS[15 3]
VSS[15 2]
VSS[15 1]
VSS[08 3]
VSS[08 4]
VSS[08 5]
VSS[08 6]
VSS[08 7]
VSS[08 8]
VSS[08 9]
VSS[09 0]
VSS[09 1]
VSS[09 2]
VSS[09 3]
VSS[09 4]
VSS[09 5]
VSS[09 6]
VSS[09 7]
VSS[09 8]
VSS[09 9]
VSS[10 0]
VSS[10 1]
VSS[10 2]
VSS[10 3]
VSS[10 4]
VSS[10 5]
VSS[10 7]
VSS[10 8]
VSS[10 9]
VSS[11 0]
VSS [11 1 ]/RSVD
VSS[11 2]
VSS[11 3]
VSS[11 4]
VSS[11 5]
VSS[11 6]
VSS[11 7]
VSS[11 8]
VSS[11 9]
VSS[12 0]
VSS[12 1]
VSS[12 2]
VSS[12 3]
VSS[12 4]
VSS[12 5]
VSS[12 6]
VSS[12 7]
VSS[12 8]
VSS [12 9 ]/RSVD
VSS[13 0]
VSS[13 1]
VSS[13 2]
VSS[13 3]
VSS[13 4]
VSS[13 5]
VSS[13 6]
VSS[13 7]
VSS[13 8]
VSS[13 9]
VSS[14 0]
VSS[14 1]
VSS[14 2]
VSS[14 3]
VSS[14 4]
VSS[14 5]
VSS[14 6]
VSS[10 6]
VSS[00 1 ]
VSS[14 9]
VSS[15 0]
VSS[147]/BPM _2#[3]
VSS[16 3]
C102
10u_10V_08
U22C
SOC KET G 47 9 P
.
A7
A9
A10
A12
A13
A15
A17
A18
A20
B7
B9
B10
B12
B14
B15
B17
B18
B20
C9
C1 0
C1 2
C1 3
C1 5
C1 7
C1 8
D9
D1 0
D1 2
D1 4
D1 5
D1 7
D1 8
E7
E9
E10
E12
E13
E15
E17
E18
E20
F7
F9
F10
F12
F14
F15
F17
F18
F20
AA7
AA9
AA10
AA12
AA13
AA15
AA17
AA18
AA20
AB9
AC10
AB10
AB12
AB14
AB15
AB17
AB18
AB20
AB7
AC 7
AC 9
AC 12
AC 13
AC 15
AC 17
AC 18
AD 7
AD 9
AD 10
AD 12
AD 14
AD 15
AD 17
AD 18
AE9
AE10
AE12
AE13
AE15
AE17
AE18
AE20
AF9
AF1 0
AF1 2
AF1 4
AF1 5
AF1 7
AF1 8
AF2 0
B26
J6
K6
M6
J21
K21
M21
N21
N6
R21
R6
T21
T6
V21
W21
AF7
AD 6
AF5
AE5
AF4
AE3
AF3
AE2
AE7
C26
G21
V6
V CC[0 0 1]
V CC[0 0 2]
V CC[0 0 3]
V CC[0 0 4]
V CC[0 0 5]
V CC[0 0 6]
V CC[0 0 7]
V CC[0 0 8]
V CC[0 0 9]
V CC[0 1 0]
V CC[0 1 1]
V CC[0 1 2]
V CC[0 1 3]
V CC[0 1 4]
V CC[0 1 5]
V CC[0 1 6]
V CC[0 1 7]
V CC[0 1 8]
V CC[0 1 9]
V CC[0 2 0]
V CC[0 2 1]
V CC[0 2 2]
V CC[0 2 3]
V CC[0 2 4]
V CC[0 2 5]
V CC[0 2 6]
V CC[0 2 7]
V CC[0 2 8]
V CC[0 2 9]
V CC[0 3 0]
V CC[0 3 1]
V CC[0 3 2]
V CC[0 3 3]
V CC[0 3 4]
V CC[0 3 5]
V CC[0 3 6]
V CC[0 3 7]
V CC[0 3 8]
V CC[0 3 9]
V CC[0 4 0]
V CC[0 4 1]
V CC[0 4 2]
V CC[0 4 3]
V CC[0 4 4]
V CC[0 4 5]
V CC[0 4 6]
V CC[0 4 7]
V CC[0 4 8]
V CC[0 4 9]
V CC[0 5 0]
V CC[0 5 1]/B R 1 #
V CC[0 5 2]
V CC[0 5 3]
V CC[0 5 4]
V CC[0 5 5]
V CC[0 5 6]
V CC[0 5 7]
V CC[0 5 8]
V CC[0 5 9]
V CC[0 6 0]
V CC[0 6 1]
V CC[0 6 2]
V CC[0 6 3]
V CC[0 6 4]
V CC[0 6 5]
V CC[0 6 6]
V CC[0 6 7]
VC C[068]
VC C[069]
VC C[070]
VC C[071]
VC C[072]
VC C[073]
VC C[074]
VC C[075]
VC C[076]
VC C[077]
VC C[078]
VC C[079]
VC C[080]
VC C[081]
VC C[082]
VC C[083]
VC C[084]
VC C[085]
VC C[086]
VC C[087]
VC C[088]
VC C[089]
VC C[090]
VC C[091]
VC C[092]
VC C[093]
VC C[094]
VC C[095]
VC C[096]
VC C[097]
VC C[098]
VC C[099]
VC C[100]
VCC A[01]
VCC P[03]
VCC P[04]
VCC P[05]
VCC P[06]
VCC P[07]
VCC P[08]
VCC P[09]
VCC P[10]
VCC P[11]
VCC P[12]
VCC P[13]
VCC P[14]
VCC P[15]
VCC P[16]
VCC SENSE
VID[0]
VID[1]
VID[2]
VID[3]
VID[4]
VID[5]
VID[6]
VSSSENSE
VCC A[02]
VCC P[01]
VCC P[02]
C8 9
10u_10V_08
1. 0 5 V S
3.3VS2,5,9,12,13,14,15,16,19,20,21,22,23,24,25,26,28,30,32,33,35,36,37,38
H_VID5 35
PM_TH RM# 2,15,22
C9 7
1u_6.3V_04
C441
0.01u_50V_04
R3 2 5 *0 _0 4
C90
22u_6.3V_08
VCOR E
C106
22u_6.3V_08
C79
1u_6.3V_04
20mi ls
C101
1u_6.3V_04
R384 *10mil_short
CPU_ GT L REF 2
H_VID0 35
SMC_T HERM 1 2,2 2
C8 2
0.1u_10V_04
VCOR E
R 3 45 *1 0m i l _s h or t
R3 44
*10K_04
C4 4 4
22u_X5R_08
C443
0.1u_10V_04
3.3VS
C8 6
10u_10V_08
C1 12
0.01u_50V_04
C8 5
22u_6.3V_08
C8 7
0.1u_10V_04
C4 66
0.01u_50V_04
PV T
RSVD_ AC8
C99
0.1u_10V_04
C111
0.01u_50V_04
2A; 80mil s
VSSS ENSE 35
C445
22u_6.3V_08
VC ORE
C1 10
10u_10V_08
1.05VS
R 343 *10K_04
U2 1
*ASC 752 5
1
2
3
4
5
6
7
8
VD D
D+
D-
THER M
GND
ALERT
SDATA
SCLK
VCOR E
H_ALER T2
C96
0.01u_50V_04
PLA CE NE AR CP U
R71
*1K_1%_04
+
C482
100u_6.3V_B2
VC CSEN SE 35
R3 3 0 *0 _0 4
VCO RE
RSVD _AA8
C8 0
0.01u_50V_04
Near pin B26,C26
R 331 * 51_1% _04
C440
22u_X5R_08
C437
0.01u_50V_04
VDD 32,13,19,22,24,29,32,33,34,37
R335
100_1% _04
C8 8
1u_6.3V_04
R out e VCC SEN SE an d
V SSS EN SE tra ce s a t 2 7. 4Oh m
w ith 5 0 m il sp aci ng.
P lac e PU and P D w ith in 1
i nch o f C PU.
EMI
1.5VS
C109
10u_10V_08
C108
10u_10V_08
BR 1#
PV T
VC ORE
H_VID1 35
C4 39
10u_10V_08
BPM2_#3
C107
1u_6.3V_04
VCOR E
C100
1u_6.3V_04
BR1#
TDO _M2
C9 1
22u_6.3V_08
V_ T HRM
TDI_M2
Lay out not e:
RSV D_ D 8
C4 35
22u_6.3V_08
PQ6
*2N 7002W
G
DS
C779 100p_04
SMD_T HERM 1 2,2 2
C7 3
1u_6.3V_04
G TLREF2_CTRL
RSVD_ AA8
VCC SENSE
R 3 46 *1 0m i l _s h or t
R 3 42 *1 0m i l _s h or t
RSVD _D8
R6 6 *1 0m i l_s h ort
R337
100_1%_04
+VCCP = 1.05V (0.997V~1.102V)
H_ TH E RMD C22
CPU_GTLREF22
VCO RE
VCOR E
1.05VS
RSVD _AC8
Q1 4
*2 N 3 90 4
B
E C
R5 8
*10K_04
R3 2 4 *0 _0 4
C442
1u_6.3V_04
VCOR E
V_THR M2
C83
0.1u_10V_04
GTLREF2_C TR L
PVT
H_TH ERMD A22
C434
10u_10V_08
H_VID2 35
C8 1
0.1u_10V_04
R332
* 10m il_s hort