How it Works
QUANTA
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Z06
Schematics
37 pgs1.46 Mb0

QUANTA Z06 Schematics

5
4
3
2
1
BOM MARK
IV@: INT VGA EV@: STUFF FOR EXT VGA SP@: STUFF FOR UMA or VGA
D D
CLOCK GENERATOR
ICS: SELGO: SLG8SP512TTR
Z06 SYSTEM BLOCK DIAGRAM
X'TAL
14.318MHz
Penryn 479
uFCPGA
P2
P3, P4
Thermal Sensor
(G780P81U) (G991)
P3
Fan Driver
P24
DDR PWR
TPS5116
THERMAL PROTECTION
1.5V PWR DISCHARGER
VGA CORE OZ8118
CHARGER
P34
3/5V SYS PWR
P37
CPU CORE PWR
P36
+1.05V
P35
ISL6251
ISL6237
OZ8116LN
RT8202
P30
P31
P33
P32
FSB
667/800/1067 Mhz
PCIE 16X
NVIDIA N10M-GE1
VRAM 512MB
DDRII
SO-DIMM 0 SO-DIMM 1
C C
P16
HDD (SATA) *1
Dual Channel DDR2
667/800 MHz
(GM45/ PM45/ GL40)
P24
NB
Cantiga
P5, P6, P7, P8, P9, P10, P11
X4 DMI interface
LVDS
RGB
Ext USB Port x 2
USB 0,1
Int USB Port x 1
USB 7
Bluetooth
USB5
B B
CCD
USB11
P25
P25
P25
P23
ODD (SATA)
P24
SATA0
SATA1
USB 2.0 Azalia
SB
ICH9M
P12,P13,P14,P15
PCI-Express
USB8
X'TAL
32.768KHz
P17-P22
Media
LPC
Audio CODEC (CX20561)
A A
Audio Amplifier G1441
P26
P26
MDC 1.5
P26
RJ11
WIRE CONN.
EC (WPC775LDG)
P29
SPI ROM
Touch Pad
P29
P24
X'TAL
32.768KHz
MMB
Cardreader
(RTS5158E)
USB2
Card Reader Connector
P24
P28
P28
EXT_LVDS EXT_CRT EXT_HDMI
INT_LVDS
INT_CRT
INT_HDMI
PCIE-6
Broadcom
Giga-LAN
(BCM5764)
Transformer
RJ45
SWITCH
CIRCUIT
HDMI switch (PS8122)
PCIE-1
P27
P27
X'TAL 25MHz
P23
P23
Mini Card
WLAN
USB2
CRT
LVDS
HDMI
USB2
P23
P23
P23
P25
Quanta Computer Inc.
Quanta Computer Inc.
Int. Speaker
P26
5
S/PDIF
P26
MIC Jack
4
P26
Int. MIC
P23
K/B COON.
P29
3
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
2
Date: Sheet of
Quanta Computer Inc.
PROJECT :
PROJECT :
PROJECT :
Block Diagram
Block Diagram
Block Diagram
Z06
Z06
Z06
1 39Thursday, March 12, 2009
1 39Thursday, March 12, 2009
1
1 39Thursday, March 12, 2009
5
4
3
2
1
Clock Generator
BKP1608HS181T_6_1.5A
+3V
D D
EMI
C C
B B
BKP1608HS181T_6_1.5A
L23
L23
C407 *10p/50V_4C407 *10p/50V_4 C398 *10p/50V_4C398 *10p/50V_4 C399 *10p/50V_4C399 *10p/50V_4 C401 *10p/50V_4C401 *10p/50V_4 C377 *30p/50V_4C377 *30p/50V_4
PDAT_SMB(14,16,25,27)
PCLK_SMB(14,16,25,27)
C375
C375 .1u/10V_4
.1u/10V_4
PCLK_MINI_R PCLK_591_R PCLK_ICH_R
FSA FSC
Q11
Q11 2N7002E
2N7002E
Q10
Q10 2N7002E
2N7002E
C683
C681
C681 *.1u/10V_4
*.1u/10V_4
C683 .1u/10V_4
.1u/10V_4
C379 33p/50V_4C379 33p/50V_4
C397
C397 *.1u/10V_4
*.1u/10V_4
Modify REV:D
C383 27p/50V_4C383 27p/50V_4
SATACLKREQ#(14)
GLAN_CLKREQ#(27)
PCLK_DEBUG(25)
PCLK_591(29)
CPU_BSEL0
MCH_BSEL1 CPU_BSEL2
+3V
R225
2
3
+3V
2
3
R225 10K_4
10K_4
1
1
PCLK_ICH(13) CLKUSB_48(14)
CLK_Card48(28)
14M_ICH(14)
R224
R224 10K_4
10K_4
CGDAT_SMB
CGCLK_SMB
CPU Clock select
Pin 10/57/62 : For Pin CPU frequency selection
+3V_CLK
C695
C695 .1u/10V_4
.1u/10V_4
12
Y1
Y1
14.318MHz
14.318MHz
R273 475/F_4R273 475/F_4 R274 475/F_4R274 475/F_4 R275 33_4R275 33_4 R272 33_4R272 33_4
R276 33_4R276 33_4 R285 2.2K_4R285 2.2K_4 R279 22_4R279 22_4 R287 22_4R287 22_4
R221 10K_4R221 10K_4 R222 33_4R222 33_4
C390
C400
C400 .1u/10V_4
.1u/10V_4
C390 10u_6
10u_6
CG_XIN CG_XOUT
SATACLKREQ#_R GLAN_CLKREQ#_R PCLK_MINI_R PCLK_591_R PCLK_PCM_R PCLK_ICH_R
CLK_DREFCLK_R CLK_DREFCLK#_R
CGCLK_SMB CGDAT_SMB
BSEL Frequency Select Table
FSC FSB FSA Frequency
0
CPU_BSEL0(3)
CPU_BSEL1(3)
CPU_BSEL0
CPU_BSEL1
R290 SHORT_4R290 SHORT_4
R223 SHORT_4R223 SHORT_4
MCH_BSEL0 (6)
MCH_BSEL1 (6)
0
0
0
1
0
1
1
CPU_BSEL2(3)
A A
CPU_BSEL2
R220 SHORT_4R220 SHORT_4
Modify REV:B
MCH_BSEL2 (6)
1
1
0
1
0
1
CLOCK GENERATOR
5
4
Modify footprint REV:B
U6
U6
2
VDD_PCI
9
VDD_48
16
VDD_PLL3
39
VDD_SRC
55
VDD_CPU
61
VDD_REF
60
XTAL_IN
59
XTAL_OUT
1
PCI_0/CLKREQ_A#
3
PCI_1/CLKREQ_B#
4
PCI_2
5
PCI_3
6
^PCI_4/LCDCLK_SEL
7
PCIF_5/ITP_EN
FSA
10
USB_48MHz/FS_A
57
FS_B/TEST_MODE
FSC
62
REF/FS_C/TEST_SEL
13
SRC_0/DOT_96
14
SRC_0#/DOT_96#
64
SCL
63
SDA
8
VSS_PCI
11
VSS_48
15
VSS_I/O
19
VSS_PLL3
23
VSS_SRC_1
29
VSS_SRC_2
42
VSS_SRC_3
52
VSS_CPU
58
VSS_REF
CLK-GEN_SLG8SP512TTR
CLK-GEN_SLG8SP512TTR
0
1
1
0
01
1
1
0
266Mhz0
133Mhz
166Mhz
200Mhz
400Mhz
Reserved
100Mhz
333Mhz
VDD_I/O
VDD_PLL3_I/O VDD_SRC_I/O_1 VDD_SRC_I/O_2 VDD_SRC_I/O_3
VDD_CPU_I/O
CPU_STOP#
PCI_STOP#
CKPWRGD/PD#
CPU_0
CPU_0#
CPU_1_MCH
CPU_1_MCH#
SRC_8/CPU_ITP
SRC_8#/CPU_ITP#
LCDCLK/27M
LCDCLK#/27M_SS
SRC_2
SRC_2#
SRC_3/CLKREQ_C#
SRC_3#/CLKREQ_D#
SRC_7/CLKREQ_F#
SRC_7#/CLKREQ_E#
SRC_11/CLKREQ_H#
SRC_11#/CLKREQ_G#
SRC_4
SRC_4#
SRC_6
SRC_6#
SRC_9 SRC_9# SRC_10
SRC_10#
3
CLK VDD power range 1.05V~3.3V
12 20 26 36 45 49
37 38 56
54 53 51 50 47 46
48
NC
CLK_DREFSSCLK_R
17
CLK_DREFSSCLK#_R
18
21 22
CLK_PCIE_SRC4
24
CLK_PCIE_SRC4#
25 27 28 41 40
CLK_PCIE_SRC7
44
CLK_PCIE_SRC7#
43 30 31 34 35
CLK_MCH_OE#_C
33
CLK_PCIE_SRC11#
32
+3V
R249 10K_4R249 10K_4 R250 10K_4R250 10K_4 R268 *10K_4R268 *10K_4
R616 10K_4R616 10K_4
R235 EV@10K_4R235 EV@10K_4
Pin 6 : For Pin 13/14 and 17/18 selection 0 = LCDCLK & DOT96 for internal graphic controller support 1 = 27M & 27M_SS &SRC_0 for external graphic controller support
PCLK_ICH_R
Pin 7 : For Pin 46/47 selection 1 = CPU_ITP 0 = SRC_8
C381
C381 10u_6
10u_6
+1V05_CLK
C376
C376 .1u/10V_4
.1u/10V_4
T32T32 T31T31
T29T29 T28T28
R227 475/F_4R227 475/F_4
From GMCH
From MXM
SATACLKREQ#_R GLAN_CLKREQ#_R
PCLK_MINI_R
CLK_PCIE_SRC11#
PCLK_PCM_R
R269 10K_4R269 10K_4
2
C682
C696
C696 .1u/10V_4
.1u/10V_4
C684
C684 *.1u/10V_4
*.1u/10V_4
CLK_DREFCLK_R CLK_DREFCLK#_R
CLK_DREFSSCLK_R CLK_DREFSSCLK#_R
CLK_DREFCLK_R CLK_DREFCLK#_R
CLK_DREFSSCLK_R CLK_DREFSSCLK#_R
C682 .1u/10V_4
.1u/10V_4
PM_STPCPU# (14) PM_STPPCI# (14) CK_PWRGD (14)
CLK_CPU_BCLK (3) CLK_CPU_BCLK# (3) CLK_MCH_BCLK (5) CLK_MCH_BCLK# (5)
CLK_PCIE_SATA (12) CLK_PCIE_SATA# (12)
CLK_PCIE_LAN (27) CLK_PCIE_LAN# (27) CLK_PCIE_ICH (13) CLK_PCIE_ICH# (13)
CLK_PCIE_MINI1 (25) CLK_PCIE_MINI1# (25) CLK_PCIE_3GPLL (6) CLK_PCIE_3GPLL# (6) CLK_MCH_OE# (6)
Modify REV:B
Pin 1 : CLKREQ_A# Control SRC_0 & SRC_2 Pin 3 : CLKREQ_B# Control LCDCLK & SRC_4
R243 *10K_4R243 *10K_4
Add REV:C
R238 IV@10K_4R238 IV@10K_4
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
Date: Sheet of
C694
C694 .1u/10V_4
.1u/10V_4
Add REV:C
R615 475/F_4R615 475/F_4
RN53
RN53
RN52
RN52
RN28
RN28
RN29
RN29
1 2
1 2
1 2
1 2
IV@0_4P2R
IV@0_4P2R
43
IV@0_4P2R
IV@0_4P2R
43
EV@0_4P2R
EV@0_4P2R
43
EV@33_4P2R
EV@33_4P2R
43
Reserve overclocking
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
PROJECT :
CLOCK GENERATOR
CLOCK GENERATOR
CLOCK GENERATOR
BKP1608HS181T_6_1.5A
BKP1608HS181T_6_1.5A
C697
C697
L21
L21
.1u/10V_4
.1u/10V_4
Pin 56 : It acts as a level sensitive strobe to latch the FS pins and other multiplexed inputs.
1
MINI_CLKREQ# (25)
CLK_DREFCLK (6) CLK_DREFCLK# (6)
CLK_DREFSSCLK (6) CLK_DREFSSCLK# (6)
CLK_MXM (17) CLK_MXM# (17)
27M_NONSS (19) 27M_SS (19)
Strap table
Z06
Z06
Z06
2 39Thursday, March 12, 2009
2 39Thursday, March 12, 2009
2 39Thursday, March 12, 2009
+1.05V
2A
2A
2A
5
4
3
2
1
H_A#[3..16](5)
D D
H_ADSTB#0(5)
H_REQ#[0..4](5)
H_A#[17..35](5)
C C
H_ADSTB#1(5) H_A20M#(12)
H_FERR#(12) H_IGNNE#(12)
H_STPCLK#(12) H_INTR(12) H_NMI(12) H_SMI#(12)
H_A#3 H_A#4 H_A#5 H_A#6 H_A#7 H_A#8 H_A#9 H_A#10 H_A#11 H_A#12 H_A#13 H_A#14 H_A#15 H_A#16
H_REQ#0 H_REQ#1 H_REQ#2 H_REQ#3 H_REQ#4
H_A#17 H_A#18 H_A#19 H_A#20 H_A#21 H_A#22 H_A#23 H_A#24 H_A#25 H_A#26 H_A#27 H_A#28 H_A#29 H_A#30 H_A#31 H_A#32 H_A#33 H_A#34 H_A#35
AA4 AB2 AA3
D22
K5 M3 N2
M1 K3
H2 K2
W6
W2 W5
W3
V1
C4 D5
C6 B4
M4 N5
V3 B2 D2
D3
J4 L5 L4
J1 N3 P5 P2 L2 P4 P1 R1
J3 L1
Y2 U5 R3
U4 Y5 U1 R4 T5 T3
Y4 U2 V4
A6 A5
A3
T2
F6
U24A
U24A
A[3]# A[4]# A[5]# A[6]# A[7]# A[8]# A[9]# A[10]# A[11]# A[12]# A[13]# A[14]# A[15]# A[16]# ADSTB[0]#
REQ[0]# REQ[1]# REQ[2]# REQ[3]# REQ[4]#
A[17]# A[18]# A[19]# A[20]# A[21]# A[22]# A[23]# A[24]# A[25]# A[26]# A[27]# A[28]# A[29]# A[30]# A[31]# A[32]# A[33]# A[34]# A[35]# ADSTB[1]#
A20M# FERR# IGNNE#
STPCLK# LINT0 LINT1 SMI#
RSVD[01] RSVD[02] RSVD[03] RSVD[04] RSVD[05] RSVD[06] RSVD[07] RSVD[08] RSVD[09]
ADDR GROUP_0
ADDR GROUP_0
ADDR GROUP_1
ADDR GROUP_1
ICH
ICH
ADS# BNR#
BPRI#
DEFER#
DRDY#
DBSY#
BR0#
IERR#
INIT#
LOCK#
CONTROL
CONTROL
RESET#
RS[0]# RS[1]# RS[2]#
TRDY#
HIT#
HITM#
BPM[0]# BPM[1]# BPM[2]# BPM[3]#
PRDY#
PREQ#
TCK TDO
TMS
TRST#
DBR#
XDP/ITP SIGNALS
XDP/ITP SIGNALS
THERMAL
THERMAL
PROCHOT#
THERMDA THERMDC
THERMTRIP#
H CLK
H CLK
BCLK[0] BCLK[1]
RESERVED
RESERVED
H1 E2 G5
H5 F21 E1
F1
H_IERR#
D20 B3
H4 C1
F3 F4 G3 G2
G6 E4
AD4 AD3 AD1 AC4 AC2 AC1 AC5 AA6
TDI
AB3 AB5 AB6 C20
D21 A24 B25
C7
A22 A21
R97 56_4R97 56_4
XDP_BPM#0 XDP_BPM#1 XDP_BPM#2 XDP_BPM#3 XDP_BPM#4 XDP_BPM#5 XDP_TCK XDP_TDI XDP_TDO XDP_TMS XDP_TRST# SYS_RST#
H_PROCHOT#_D H_THERMDA H_THERMDC
PM_THRMTRIP#
T23T23 T24T24 T25T25 T26T26 T27T27
H_ADS# (5) H_BNR# (5) H_BPRI# (5)
H_DEFER# (5) H_DRDY# (5) H_DBSY# (5)
H_BREQ# (5)
+1.05V
H_INIT# (12) H_LOCK# (5) H_CPURST# (5)
H_RS#0 (5) H_RS#1 (5) H_RS#2 (5) H_TRDY# (5)
H_HIT# (5) H_HITM# (5)
Connect it to CPU DBR# is for ITP debug port or CPU interposer (like ICE) to reset the system
SYS_RST# (14)
CLK_CPU_BCLK (2) CLK_CPU_BCLK# (2)
+1.05V
R481
R481 1K/F_4
1K/F_4
R479
R479 2K/F_4
2K/F_4
Layout note: H_GTLREF: Zo=55 ohm L<0.5", 2/3*VCCP+-2%
H_D#[0..15](5)
H_DSTBN#0(5) H_DSTBP#0(5) H_DINV#0(5)
H_D#[16..31](5)
H_DSTBN#1(5) H_DSTBP#1(5) H_DINV#1(5)
CPU_BSEL0(2) CPU_BSEL1(2) CPU_BSEL2(2)
H_D#[0..15]
H_D#[16..31]
R62 *1K_4R62 *1K_4
T4T4 T73T73 T22T22 T74T74 T17T17
H_D#0 H_D#1 H_D#2 H_D#3 H_D#4 H_D#5 H_D#6 H_D#7 H_D#8 H_D#9 H_D#10 H_D#11 H_D#12 H_D#13 H_D#14 H_D#15
H_D#16 H_D#17 H_D#18 H_D#19 H_D#20 H_D#21 H_D#22 H_D#23 H_D#24 H_D#25 H_D#26 H_D#27 H_D#28 H_D#29 H_D#30 H_D#31
H_GTLREF CPU_TEST1 CPU_TEST2 CPU_TEST3 CPU_TEST4 CPU_TEST5 CPU_TEST6 CPU_TEST7
E22 F24 E26 G22 F23 G25 E25 E23 K24 G24
H22 F26 K22 H23
H26 H25
N22 K25 P26 R23 L23 M24 L22 M23 P25 P23 P22 T24 R24 L25 T25 N25 L26 M26 N24
AD26
C23 D25 C24
AF26
AF1 A26
B22 B23 C21
J24 J23
J26
C3
U24B
U24B
D[0]# D[1]# D[2]# D[3]# D[4]# D[5]# D[6]# D[7]# D[8]# D[9]# D[10]# D[11]# D[12]# D[13]# D[14]# D[15]# DSTBN[0]# DSTBP[0]# DINV[0]#
D[16]# D[17]# D[18]# D[19]# D[20]# D[21]# D[22]# D[23]# D[24]# D[25]# D[26]# D[27]# D[28]# D[29]# D[30]# D[31]# DSTBN[1]# DSTBP[1]# DINV[1]#
GTLREF TEST1 TEST2 TEST3 TEST4 TEST5 TEST6 TEST7 BSEL[0] BSEL[1] BSEL[2]
Penryn
Penryn
DATA GRP 0
DATA GRP 0
MISC
MISC
DATA GRP 1
DATA GRP 1
D[32]# D[33]# D[34]# D[35]# D[36]# D[37]# D[38]# D[39]# D[40]#
DATA GRP 2DATA GRP 3
DATA GRP 2DATA GRP 3
D[41]# D[42]# D[43]# D[44]# D[45]# D[46]#
D[47]# DSTBN[2]# DSTBP[2]#
DINV[2]#
D[48]#
D[49]#
D[50]#
D[51]#
D[52]#
D[53]#
D[54]#
D[55]#
D[56]#
D[57]#
D[58]#
D[59]#
D[60]#
D[61]#
D[62]#
D[63]# DSTBN[3]# DSTBP[3]#
DINV[3]# COMP[0]
COMP[1] COMP[2] COMP[3]
DPRSTP#
DPSLP#
DPWR#
PWRGOOD
SLP#
PSI#
Y22 AB24 V24 V26 V23 T22 U25 U23 Y25 W22 Y23 W24 W25 AA23 AA24 AB25 Y26 AA26 U22
AE24 AD24 AA21 AB22 AB21 AC26 AD20 AE22 AF23 AC25 AE21 AD21 AC22 AD23 AF22 AC23 AE25 AF24 AC20
R26 U26 AA1 Y1
E5 B5 D24 D6 D7 AE6
H_D#32 H_D#33 H_D#34 H_D#35 H_D#36 H_D#37 H_D#38 H_D#39 H_D#40 H_D#41 H_D#42 H_D#43 H_D#44 H_D#45 H_D#46 H_D#47
H_D#48 H_D#49 H_D#50 H_D#51 H_D#52 H_D#53 H_D#54 H_D#55 H_D#56 H_D#57 H_D#58 H_D#59 H_D#60 H_D#61 H_D#62 H_D#63
COMP0 COMP1 COMP2 COMP3
H_D#[32..47]
H_D#[48..63]
R474 27.4/F_6R474 27.4/F_6 R477 54.9/F_4R477 54.9/F_4R63 *1K_4R63 *1K_4 R202 27.4/F_6R202 27.4/F_6 R200 54.9/F_4R200 54.9/F_4
H_D#[32..47] (5)
H_DSTBN#2 (5) H_DSTBP#2 (5) H_DINV#2 (5)
H_D#[48..63] (5)
Layout note: comp0,2: Zo=27.4ohm, L<0.5" comp1,3: Zo=55ohm, L<0.5"
Layout note: DPRSTP# , Daisy Chain (SB>Power>NB>CPU)
H_DSTBN#3 (5) H_DSTBP#3 (5) H_DINV#3 (5)
ICH_DPRSTP# (6,12,33) H_DPSLP# (12) H_DPWR# (5) H_PWRGD (12) H_CPUSLP# (5) PSI# (33)
Penryn
Penryn
B B
Thermal Trip
DELAY_VR_PWRGOOD(6,14,29,33)
PM_THRMTRIP#
Processor hot
A A
H_PROCHOT#_D
+1.05V
R91
R91 56_4
56_4
R95 *0_4R95 *0_4
CPU 1/2
5
+1.05V
3
Q8
2
+1.05V
R121
R121 56_4
56_4
No use Thermal trip CPU side still PU 56ohm. Use Thermal trip can share PU at SB side
No use PROCHOT CPU side still PU 56ohm. Use PROCHOT to optional receiver CPU side PU 68ohm and through isolat 2.2K ohm to receiver side
1
2
1 3
2N7002EQ82N7002E
Q7
Q7 MMBT3904
MMBT3904
SYS_SHDN# (31,37)PM_THRMTRIP#(6,12)
H_PROCHOT# (33)
4
CPU Thermal monitor
2ND_MBCLK(29)
2ND_MBDATA(29)
THERM_ALERT#(14)
THER_OVERT#(24)
3
3
+3V
+3V
+3V
2
1
Q35
Q35 2N7002E
2N7002E
+3V
2
1
Q36
Q36 2N7002E
2N7002E
R463 10K_4R463 10K_4
R462 *0_4R462 *0_4
R469 10K_4R469 10K_4
3
ABDATA
R464
R464 10K_4
10K_4
ABCLK
+3V
R478
R478 200_6
200_6
VCC DXP DXN GND
VCC_TH
1 2 3 5
R468
R468 10K_4
10K_4
8 7 6 4
U20
U20
SCLK SDA ALERT# OVERT#
G780P81U
G780P81U
ADDRESS: 98H
GMT AL000780000 Use 2200p
AL095245000NS
WINDBOND AL83L771K01
C588
C588 .1u/10V_4
.1u/10V_4
H_THERMDA
C590
C590 2200p_4
2200p_4
H_THERMDC
2
Use 2200p
Use 2200p
XDP PU/PD
+3V
SYS_RST#
XDP_TDO XDP_TDI XDP_TMS XDP_BPM#5 XDP_TCK XDP_TRST#
XDP_DBRESET# and XDP_TDO reserve for XDP
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
Date: Sheet of
R86 *1K_4R86 *1K_4
+1.05V
R198 *54.9/F_4R198 *54.9/F_4 R199 54.9/F_4R199 54.9/F_4 R196 54.9/F_4R196 54.9/F_4 R197 54.9/F_4R197 54.9/F_4 R194 54.9/F_4R194 54.9/F_4 R195 54.9/F_4R195 54.9/F_4
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
PROJECT :
CPU Host Bus
CPU Host Bus
CPU Host Bus
Z06
Z06
Z06
3 39Thursday, March 12, 2009
3 39Thursday, March 12, 2009
3 39Thursday, March 12, 2009
1
1A
1A
1A
5
4
3
2
1
U24D
U24D
A4
VSS[001]
A8
VSS[002]
A11
VSS[003]
A14
VSS[004]
A16
VSS[005]
A19
VSS[006]
A23
D D
C C
B B
A A
VSS[007]
AF2
VSS[008]
B6
VSS[009]
B8
VSS[010]
B11
VSS[011]
B13
VSS[012]
B16
VSS[013]
B19
VSS[014]
B21
VSS[015]
B24
VSS[016]
C5
VSS[017]
C8
VSS[018]
C11
VSS[019]
C14
VSS[020]
C16
VSS[021]
C19
VSS[022]
C2
VSS[023]
C22
VSS[024]
C25
VSS[025]
D1
VSS[026]
D4
VSS[027]
D8
VSS[028]
D11
VSS[029]
D13
VSS[030]
D16
VSS[031]
D19
VSS[032]
D23
VSS[033]
D26
VSS[034]
E3
VSS[035]
E6
VSS[036]
E8
VSS[037]
E11
VSS[038]
E14
VSS[039]
E16
VSS[040]
E19
VSS[041]
E21
VSS[042]
E24
VSS[043]
F5
VSS[044]
F8
VSS[045]
F11
VSS[046]
F13
VSS[047]
F16
VSS[048]
F19
VSS[049]
F2
VSS[050]
F22
VSS[051]
F25
VSS[052]
G4
VSS[053]
G1
VSS[054]
G23
VSS[055]
G26
VSS[056]
H3
VSS[057]
H6
VSS[058]
H21
VSS[059]
H24
VSS[060]
J2
VSS[061]
J5
VSS[062]
J22
VSS[063]
J25
VSS[064]
K1
VSS[065]
K4
VSS[066]
K23
VSS[067]
K26
VSS[068]
L3
VSS[069]
L6
VSS[070]
L21
VSS[071]
L24
VSS[072]
M2
VSS[073]
M5
VSS[074]
M22
VSS[075]
M25
VSS[076]
N1
VSS[077]
N4
VSS[078]
N23
VSS[079]
N26
VSS[080] VSS[081]P3VSS[162]
Penryn
Penryn
VSS[082] VSS[083] VSS[084] VSS[085] VSS[086] VSS[087] VSS[088] VSS[089] VSS[090] VSS[091] VSS[092] VSS[093] VSS[094] VSS[095] VSS[096] VSS[097] VSS[098] VSS[099] VSS[100] VSS[101] VSS[102] VSS[103] VSS[104] VSS[105] VSS[106] VSS[107] VSS[108] VSS[109] VSS[110] VSS[111] VSS[112] VSS[113] VSS[114] VSS[115] VSS[116] VSS[117] VSS[118] VSS[119] VSS[120] VSS[121] VSS[122] VSS[123] VSS[124] VSS[125] VSS[126] VSS[127] VSS[128] VSS[129] VSS[130] VSS[131] VSS[132] VSS[133] VSS[134] VSS[135] VSS[136] VSS[137] VSS[138] VSS[139] VSS[140] VSS[141] VSS[142] VSS[143] VSS[144] VSS[145] VSS[146] VSS[147] VSS[148] VSS[149] VSS[150] VSS[151] VSS[152] VSS[153] VSS[154] VSS[155] VSS[156] VSS[157] VSS[158] VSS[159] VSS[160] VSS[161]
VSS[163]
.
.
P6 P21 P24 R2 R5 R22 R25 T1 T4 T23 T26 U3 U6 U21 U24 V2 V5 V22 V25 W1 W4 W23 W26 Y3 Y6 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 AE8 AE11 AE14 AE16 AE19 AE23 AE26 A2 AF6 AF8 AF11 AF13 AF16 AF19 AF21 A25 AF25
C169
C169 *10u/10V_8
*10u/10V_8
C619
C619 10u_8
10u_8
C229
C186
C186 10u_8
10u_8
C609
C609 *10u/10V_8
*10u/10V_8
C229 10u_8
10u_8
C614
C614 10u_8
10u_8
C275
C275 *10u/10V_8
*10u/10V_8
Layout Note: Place these parts reference to Intel demo board.
C164
C164 *10u/10V_8
*10u/10V_8
C630
C630 10u_8
10u_8
C613
C203
C203 *10u/10V_8
*10u/10V_8
C620
C620 *10u/10V_8
*10u/10V_8
C254
C254 *10u/10V_8
*10u/10V_8
C606
C606 10u_8
10u_8
C596
C596
+
+
*330u/2V_7343
*330u/2V_7343
C146
C146 10u_8
10u_8
C205
C205 *10u/10V_8
*10u/10V_8
C253
C253 *10u/10V_8
*10u/10V_8
C231
C231 10u_8
10u_8
C623
C623 10u_8
10u_8
C605
C605 *10u/10V_8
*10u/10V_8
C601
C601 10u_8
10u_8
C599
C599 *10u/10V_8
*10u/10V_8
C163
C163 *10u/10V_8
*10u/10V_8
C204
C204 *10u/10V_8
*10u/10V_8
C629
C629 *10u/10V_8
*10u/10V_8
C615
C615
+
+
330u/2V_7343
330u/2V_7343
C613 *10u/10V_8
*10u/10V_8
C274
C274 *10u/10V_8
*10u/10V_8
C607
C607 10u_8
10u_8
C263
C263 *10u/10V_8
*10u/10V_8
C608
C608 10u_8
10u_8
C188
C188 10u_8
10u_8
C213
C213
+
+
330u/2V_7343
330u/2V_7343
+
+
Montevina platform : Early Reference Board Schematics Feb 2007. Rev 1.0 stuff 22U*34, NC 22U*2 stuff 330U*2, NC330U*2
CPU 2/2
5
4
3
VCC_CORE VCC_CORE
U24C
U24C
A7
C187
C187 *10u/10V_8
*10u/10V_8
C611
C611 *10u/10V_8
*10u/10V_8
C276
C276 10u_8
10u_8
C264
C264 10u_8
10u_8
C624
C624 *10u/10V_8
*10u/10V_8
C604
C604 *10u/10V_8
*10u/10V_8
C101
C101
*330u/2V_7343
*330u/2V_7343
A10 A12 A13 A15 A17 A18 A20
B10 B12 B14 B15 B17 B18 B20
C10 C12 C13 C15 C17 C18
D10 D12 D14 D15 D17 D18
E10 E12 E13 E15 E17 E18 E20
F10 F12 F14 F15 F17 F18 F20 AA7
AA9 AA10 AA12 AA13 AA15 AA17 AA18 AA20
AB9 AC10 AB10 AB12 AB14 AB15 AB17 AB18
A9
B7 B9
C9
D9
E7 E9
F7 F9
VCC[001] VCC[002] VCC[003] VCC[004] VCC[005] VCC[006] VCC[007] VCC[008] VCC[009] VCC[010] VCC[011] VCC[012] VCC[013] VCC[014] VCC[015] VCC[016] VCC[017] VCC[018] VCC[019] VCC[020] VCC[021] VCC[022] VCC[023] VCC[024] VCC[025] VCC[026] VCC[027] VCC[028] VCC[029] VCC[030] VCC[031] VCC[032] VCC[033] VCC[034] VCC[035] VCC[036] VCC[037] VCC[038] VCC[039] VCC[040] VCC[041] VCC[042] VCC[043] VCC[044] VCC[045] VCC[046] VCC[047] VCC[048] VCC[049] VCC[050] VCC[051] VCC[052] VCC[053] VCC[054] VCC[055] VCC[056] VCC[057] VCC[058] VCC[059] VCC[060] VCC[061] VCC[062] VCC[063] VCC[064] VCC[065] VCC[066] VCC[067]
Penryn
Penryn
VCC[068] VCC[069] VCC[070] VCC[071] VCC[072] VCC[073] VCC[074] VCC[075] VCC[076] VCC[077] VCC[078] VCC[079] VCC[080] VCC[081] VCC[082] VCC[083] VCC[084] VCC[085] VCC[086] VCC[087] VCC[088] VCC[089] VCC[090] VCC[091] VCC[092] VCC[093] VCC[094] VCC[095] VCC[096] VCC[097] VCC[098] VCC[099] VCC[100]
VCCP[01] VCCP[02] VCCP[03] VCCP[04] VCCP[05] VCCP[06] VCCP[07] VCCP[08] VCCP[09] VCCP[10] VCCP[11] VCCP[12] VCCP[13] VCCP[14] VCCP[15] VCCP[16]
VCCA[01] VCCA[02]
VID[0] VID[1] VID[2] VID[3] VID[4] VID[5] VID[6]
VCCSENSE
VSSSENSE
2
VCC:38A (Low power type) VCC:47A (Standard type)
Layout Note: Inside CPU center cavity in 2 rows
VCCP : 2.5A(Supply after VCC Stable)
4.5A(Supply before VCC Stable)
C290
C290 .1u/16V_6
.1u/16V_6
C143
C143 *.1u/16V_6
*.1u/16V_6
C287
C287 .1u/16V_6
.1u/16V_6
C140
C140 .1u/16V_6
.1u/16V_6
C289
C289 .1u/16V_6
.1u/16V_6
C141
C141 .1u/16V_6
.1u/16V_6
VCCA:130mA
C87
H_VID0 (33) H_VID1 (33) H_VID2 (33) H_VID3 (33) H_VID4 (33) H_VID5 (33) H_VID6 (33)
C87 .01u/25V_4
.01u/25V_4
R505 100/F_6R505 100/F_6
R507
R507 100/F_6
100/F_6
C88
C88 10u_8
10u_8
VCCSENSE (33)
VSSSENSE (33)
.
.
AB20 AB7 AC7 AC9 AC12 AC13 AC15 AC17 AC18 AD7 AD9 AD10 AD12 AD14 AD15 AD17 AD18 AE9 AE10 AE12 AE13 AE15 AE17 AE18 AE20 AF9 AF10 AF12 AF14 AF15 AF17 AF18 AF20
G21 V6 J6 K6 M6 J21 K21 M21 N21 N6 R21 R6 T21 T6 V21 W21
B26 C26
AD6 AF5 AE5 AF4 AE3 AF3 AE2
AF7
AE7
Layout Note: Z0=27.4,PU/PD L<1"
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
Date: Sheet of
PROJECT :
CPU Power
CPU Power
CPU Power
1
Z06
Z06
Z06
4 39Thursday, March 12, 2009
4 39Thursday, March 12, 2009
4 39Thursday, March 12, 2009
+1.05V
+
+
C346
C346 330u/2V_7343
330u/2V_7343
VCC_CORE
+1.5V
1A
1A
1A
5
4
3
2
1
U25A
M11
N12
P13
N10
AD14
Y10 Y12 Y14
W2
AA8
AA13
AA9 AA11 AD11 AD10 AD13 AE12
AE9
AA2
AD8
AA3
AD3
AD7 AE14
AF3
AC1
AE3
AC3 AE11
AE8
AG2
AD6
C12
E11
A11
B11
F2
G8
F8 E6 G2 H6 H2
F6 D4 H3 M9
J1
J2
J6 P2
L2 R2 N9
L6 M5
J3 N2 R1 N5 N6
N8
L7 M3
Y3 Y6
Y7
Y9
C5 E3
U25A
H_D#_0 H_D#_1 H_D#_2 H_D#_3 H_D#_4 H_D#_5 H_D#_6 H_D#_7 H_D#_8 H_D#_9 H_D#_10 H_D#_11 H_D#_12 H_D#_13 H_D#_14 H_D#_15 H_D#_16 H_D#_17 H_D#_18 H_D#_19 H_D#_20 H_D#_21 H_D#_22 H_D#_23 H_D#_24 H_D#_25 H_D#_26 H_D#_27 H_D#_28 H_D#_29 H_D#_30 H_D#_31 H_D#_32 H_D#_33 H_D#_34 H_D#_35 H_D#_36 H_D#_37 H_D#_38 H_D#_39 H_D#_40 H_D#_41 H_D#_42 H_D#_43 H_D#_44 H_D#_45 H_D#_46 H_D#_47 H_D#_48 H_D#_49 H_D#_50 H_D#_51 H_D#_52 H_D#_53 H_D#_54 H_D#_55 H_D#_56 H_D#_57 H_D#_58 H_D#_59 H_D#_60 H_D#_61 H_D#_62 H_D#_63
H_SWING H_RCOMP
H_CPURST# H_CPUSLP#
H_AVREF H_DVREF
CANTIGA_GM45
CANTIGA_GM45
HOST
HOST
H_A#_3 H_A#_4 H_A#_5 H_A#_6 H_A#_7 H_A#_8
H_A#_9 H_A#_10 H_A#_11 H_A#_12 H_A#_13 H_A#_14 H_A#_15 H_A#_16 H_A#_17 H_A#_18 H_A#_19 H_A#_20 H_A#_21 H_A#_22 H_A#_23 H_A#_24 H_A#_25 H_A#_26 H_A#_27 H_A#_28 H_A#_29 H_A#_30 H_A#_31 H_A#_32 H_A#_33 H_A#_34 H_A#_35
H_ADS# H_ADSTB#_0 H_ADSTB#_1
H_BNR#
H_BPRI#
H_BREQ#
H_DEFER#
H_DBSY#
HPLL_CLK
HPLL_CLK#
H_DPWR#
H_DRDY#
H_HIT#
H_HITM# H_LOCK# H_TRDY#
H_DINV#_0 H_DINV#_1 H_DINV#_2 H_DINV#_3
H_DSTBN#_0 H_DSTBN#_1 H_DSTBN#_2 H_DSTBN#_3
H_DSTBP#_0 H_DSTBP#_1 H_DSTBP#_2 H_DSTBP#_3
H_REQ#_0 H_REQ#_1 H_REQ#_2 H_REQ#_3 H_REQ#_4
H_RS#_0 H_RS#_1 H_RS#_2
A14 C15 F16 H13 C18 M16 J13 P16 R16 N17 M13 E17 P17 F17 G20 B19 J16 E20 H16 J20 L17 A17 B17 L16 C21 J17 H20 B18 K17 B20 F21 K21 L20
H12 B16 G17 A9 F11 G12 E9 B10 AH7 AH6 J11 F9 H9 E12 H11 C9
J8 L3 Y13 Y1
L10 M7 AA5 AE6
L9 M8 AA6 AE5
B15 K13 F13 B13 B14
B6 F12 C8
H_A#3 H_A#4 H_A#5 H_A#6 H_A#7 H_A#8 H_A#9 H_A#10 H_A#11 H_A#12 H_A#13 H_A#14 H_A#15 H_A#16 H_A#17 H_A#18 H_A#19 H_A#20 H_A#21 H_A#22 H_A#23 H_A#24 H_A#25 H_A#26 H_A#27 H_A#28 H_A#29 H_A#30 H_A#31 H_A#32 H_A#33 H_A#34 H_A#35
H_DINV#0 H_DINV#1 H_DINV#2 H_DINV#3
H_DSTBN#0 H_DSTBN#1 H_DSTBN#2 H_DSTBN#3
H_DSTBP#0 H_DSTBP#1 H_DSTBP#2 H_DSTBP#3
H_REQ#0 H_REQ#1 H_REQ#2 H_REQ#3 H_REQ#4
H_RS#0 H_RS#1 H_RS#2
H_D#[0..63](3)
U25
D D
Intel Cantiga GM45-B3
Intel Cantiga PM45-B3
QCI P/N
AJSLB940T04
AJSLB970T06
Intel Cantiga GL40-A1 AJSLGGM0T04
C C
+1.05V
0.3125*VCCP
R162
R162 221/F_4
221/F_4
R180
R180 100/F_4
100/F_4
B B
R526
R526
24.9/F_4
24.9/F_4
WIDE(10):SPACING(20) , L<0.5"
H_SWING
C335
C335 .1u/10V_4
.1u/10V_4
H_RCOMP
Layout Note: WIDE(10):SPACING(20) , L<0.5"
+1.05V
R201
2/3*VCCP WIDE(10):SPACING(20),
A A
L<0.5"
R201 1K/F_4
1K/F_4
R204
R204 2K/F_4
2K/F_4
H_CPURST#(3)
H_D#0 H_D#1 H_D#2 H_D#3 H_D#4 H_D#5 H_D#6 H_D#7 H_D#8 H_D#9 H_D#10 H_D#11 H_D#12 H_D#13 H_D#14 H_D#15 H_D#16 H_D#17 H_D#18 H_D#19 H_D#20 H_D#21 H_D#22 H_D#23 H_D#24 H_D#25 H_D#26 H_D#27 H_D#28 H_D#29 H_D#30 H_D#31 H_D#32 H_D#33 H_D#34 H_D#35 H_D#36 H_D#37 H_D#38 H_D#39 H_D#40 H_D#41 H_D#42 H_D#43 H_D#44 H_D#45 H_D#46 H_D#47 H_D#48 H_D#49 H_D#50 H_D#51 H_D#52 H_D#53 H_D#54 H_D#55 H_D#56 H_D#57 H_D#58 H_D#59 H_D#60 H_D#61 H_D#62 H_D#63
H_SWING H_RCOMP
H_AVREF
C344
C344 *.1u/10V_4
*.1u/10V_4
GMCH (CANTIGA)
5
4
3
2
H_A#[3..35] (3)
H_ADS# (3)
H_ADSTB#0 (3)
H_ADSTB#1 (3) H_BNR# (3) H_BPRI# (3) H_BREQ# (3) H_DEFER# (3) H_DBSY# (3) CLK_MCH_BCLK (2) CLK_MCH_BCLK# (2) H_DPWR# (3) H_DRDY# (3) H_HIT# (3) H_HITM# (3) H_LOCK# (3) H_TRDY# (3)
H_DINV#[3..0] (3)
H_DSTBN#[3..0] (3)
H_DSTBP#[3..0] (3)
H_REQ#[0..4] (3)
H_RS#[0..2] (3)H_CPUSLP#(3)
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
Date: Sheet of
PROJECT :
GMCH HOST
GMCH HOST
GMCH HOST
1
Z06
Z06
Z06
5 39Thursday, March 12, 2009
5 39Thursday, March 12, 2009
5 39Thursday, March 12, 2009
1A
1A
1A
5
4
3
2
1
IV@
EV@
U25B
Strap table
Pin Name Strap description
CFG[2:0]
D D
CFG[4:3]
CFG5
CFG6
CFG7
CFG8
CFG9
CFG10
FSB Frequency Select
Reserved
DMI X2 Select
iTPM Host Interface
ME TLS Confidentiality
Reserved
PCIE Graphics Lane Reversal
PCIE Loopback enable ReservedCFG11
CFG12
CFG13
CFG[15:14]
C C
CFG16 CFG[18:17]
CFG19
CFG20
ALLZ
XOR
Reserved
FSB Dynamic ODT Reserved
DMI Lane Reversal
Digital Display Port (SDVO/DP/iHDMI) Concurrent with PCIE
SDVO_CTRLDATA SDVO Present
DDPC_CTRLDATA Digital Display Present
Strap pin
+3V
B B
A A
R133 *4.02K/F_4R133 *4.02K/F_4 R135 *4.02K/F_4R135 *4.02K/F_4
R179 *2.21K/F_4R179 *2.21K/F_4 R149 *2.21K/F_4R149 *2.21K/F_4 R155 *2.21K/F_4R155 *2.21K/F_4 R172 *2.21K/F_4R172 *2.21K/F_4 R178 *2.21K/F_4R178 *2.21K/F_4 R136 *2.21K/F_4R136 *2.21K/F_4 R137 *2.21K/F_4R137 *2.21K/F_4 R153 *2.21K/F_4R153 *2.21K/F_4
+3V
R169 IV@4.7K_4R169 IV@4.7K_4 R170 IV@4.7K_4R170 IV@4.7K_4
R160 *2.21K/F_4R160 *2.21K/F_4 R144 *2.21K/F_4R144 *2.21K/F_4 R156 10K_4R156 10K_4 R151 10K_4R151 10K_4 R146 10K_4R146 10K_4
Configuration
000= FSB 1066MHz 010 = FSB 800MHz 011 = FSB 667MHz
0 = DMI X2 1 = DMI X4(Default)
0 = iTPM Host Interface is enabled 1 = iTPM Host Interface is disabled(Default)
0 = AMT Firmware will use TLS cipher suite with no confidentiality 1 = AMT Firmware will use TLS cipher suite with confidentiality(Default)
0 = Reverse Lanes 1 = Normal operation(Default)
0 = Enabled 1 = Disabled (Default)
0 = ALLZ mode enable 1 = disable(Default)
0 = XOR mode enable 1 = disable(Default)
0 = Dynamic ODT disable 1 = Dynamic ODT Enable(Default)
0 = Normal (Default) 1 = Lanes Reversed
0 = Only Digital Display port (SDVO/DP/iHDMI) or PCIE is operational (Default) 1 = Digital Display port (SDVO/DP/iHDMI) and PCIE are operating simultaneously via PEG port
0 = No SDVO/HDMI Device Present(Default) 1 = SDVO/HDMI Device present
0 = Digital display(HDMI/DP) device absent(Default) 1 = Digital display(HDMI/DP) device present
MCH_CFG_19 MCH_CFG_20
MCH_CFG_5 MCH_CFG_6
TPM Disable
MCH_CFG_7 MCH_CFG_9 MCH_CFG_10 MCH_CFG_12 MCH_CFG_13 MCH_CFG_16
Modify REV:C
SDVO_CTRLDATA SDVO_CTRLCLK
DDPC_DDCDATA DDPC_CTRLCLK CLK_MCH_OE# PM_EXTTS#0 PM_EXTTS#1
PM_SYNC#(14)
ICH_DPRSTP#(3,12,33) PM_EXTTS#0(16)
PM_EXTTS#1(16)
DELAY_VR_PWRGOOD(3,14,29,33)
PLT_RST#(13)
PM_THRMTRIP#(3,12)
PM_DPRSLPVR(14,33)
NB Thermal trip pin No use Thermal trip NB side can NC.(NB has ODT)
PM_DPRSTP# The Daisy chain topology should be routed from ICH9M to IMVP , then to (G)MCH and CPU, in that order.
T10T10 T11T11 T8T8 T9T9
MCH_BSEL0(2) MCH_BSEL1(2) MCH_BSEL2(2)
T13T13 T12T12
T20T20
T16T16
T14T14 T18T18
T19T19 T15T15
R98 100/F_4R98 100/F_4 R132 *0_4R132 *0_4
JTAG_TCK_GMCH JTAG_TDI_GMCH JTAG_TDO_GMCH JTAG_TMS_GMCH
MCH_CFG_3 MCH_CFG_4 MCH_CFG_5 MCH_CFG_6 MCH_CFG_7 MCH_CFG_8 MCH_CFG_9 MCH_CFG_10 MCH_CFG_11 MCH_CFG_12 MCH_CFG_13 MCH_CFG_14 MCH_CFG_15 MCH_CFG_16 MCH_CFG_17 MCH_CFG_18 MCH_CFG_19 MCH_CFG_20
RST_IN#_MCH THRMTRIP#_R
GMCH (CANTIGA)
5
4
M36
AH10 AH12 AH13
AY21
BG23 BF23 BH18 BF18
AL34 AK34 AN35 AM35
M24
M20
AT40 AT11
BG48 BF48 BD48 BC48 BH47 BG47 BE47 BH46 BF46 BG45 BH44 BH43
BH6 BH5 BG4 BH3
BH2 BG2
BG1 BD1
BC1
N36 R33 T33 AH9
K12
T24 B31
M1
B2
T25 R25 P25 P20 P24 C25 N24
E21 C23 C24 N21 P21 T21 R20
L21 H21 P29 R28 T28
R29
B7 N33 P32
T20 R32
BF3
BE2 BF1
F1
U25B
RSVD1 RSVD2 RSVD3 RSVD4 RSVD5 RSVD6 RSVD7 RSVD8 RSVD9
RSVD14 RSVD15 RSVD17
RSVD20
RSVD21 RSVD22 RSVD23 RSVD24 RSVD25
ME_JTAG_TCK ME_JTAG_TDI ME_JTAG_TDO ME_JTAG_TMS
CFG_0 CFG_1 CFG_2 CFG_3 CFG_4 CFG_5 CFG_6 CFG_7 CFG_8 CFG_9 CFG_10 CFG_11 CFG_12 CFG_13 CFG_14 CFG_15 CFG_16 CFG_17 CFG_18 CFG_19 CFG_20
PM_SYNC# PM_DPRSTP# PM_EXT_TS#_0 PM_EXT_TS#_1 PWROK RSTIN# THERMTRIP# DPRSLPVR
NC_1 NC_2 NC_3 NC_4 NC_5 NC_6 NC_7 NC_8 NC_9 NC_10 NC_11 NC_12 NC_13 NC_14 NC_15 NC_16 NC_17 NC_18 NC_19 NC_20 NC_21 NC_22 NC_23 NC_24 NC_25
CANTIGA_GM45
CANTIGA_GM45
CFG
CFG
RSVD
RSVD
ME JTAG
ME JTAG
SM_RCOMP
SM_RCOMP#
SM_RCOMP_VOH SM_RCOMP_VOL
SM_PWROK SM_DRAMRST# DPLL_REF_CLK
DDR CLK/ CONTROL/COMPENSATION
DDR CLK/ CONTROL/COMPENSATION
DPLL_REF_CLK#
DPLL_REF_SSCLK
DPLL_REF_SSCLK#
CLK
CLK
DMI_RXN_0
DMI_RXN_1
DMI_RXN_2
DMI_RXN_3
DMI_RXP_0 DMI_RXP_1 DMI_RXP_2 DMI_RXP_3
DMI_TXN_0 DMI_TXN_1 DMI_TXN_2 DMI_TXN_3
DMI_TXP_0 DMI_TXP_1 DMI_TXP_2
DMI
DMI
DMI_TXP_3
SA_CK_0 SA_CK_1 SB_CK_0 SB_CK_1
SA_CK#_0 SA_CK#_1 SB_CK#_0 SB_CK#_1
SA_CKE_0 SA_CKE_1 SB_CKE_0 SB_CKE_1
SA_CS#_0 SA_CS#_1 SB_CS#_0 SB_CS#_1
SA_ODT_0 SA_ODT_1 SB_ODT_0 SB_ODT_1
SM_VREF SM_REXT
PEG_CLK
PEG_CLK#
AP24 AT21 AV24 AU20
AR24 AR21 AU24 AV20
BC28 AY28 AY36 BB36
BA17 AY16 AV16 AR13
BD17 AY17 BF15 AY13
BG22 BH21
BF28 BH28
AV42 AR36 BF17 BC36
B38 A38 E41 F41
F43 E43
AE41 AE37 AE47 AH39
AE40 AE38 AE48 AH40
AE35 AE43 AE46 AH42
AD35 AE44 AF46 AH43
M_RCOMP M_RCOMP#
SM_RCOMP_VOH SM_RCOMP_VOL
SM_VREF SM_POK
R99 10K/F_4R99 10K/F_4
SM_REXT
R79 499/F_4R79 499/F_4
CLK_DREFCLK CLK_DREFCLK# CLK_DREFSSCLK CLK_DREFSSCLK#
CLK_PCIE_3GPLL CLK_PCIE_3GPLL#
DMI_TXN0 DMI_TXN1 DMI_TXN2 DMI_TXN3
DMI_TXP0 DMI_TXP1 DMI_TXP2 DMI_TXP3
DMI_RXN0 DMI_RXN1 DMI_RXN2 DMI_RXN3
DMI_RXP0 DMI_RXP1 DMI_RXP2 DMI_RXP3
M_CLK0 (16) M_CLK1 (16) M_CLK2 (16) M_CLK3 (16)
M_CLK#0 (16) M_CLK#1 (16) M_CLK#2 (16) M_CLK#3 (16)
M_CKE0 (16) M_CKE1 (16) M_CKE2 (16) M_CKE3 (16)
M_CS#0 (16) M_CS#1 (16) M_CS#2 (16) M_CS#3 (16)
M_ODT0 (16) M_ODT1 (16) M_ODT2 (16) M_ODT3 (16)
SM_VREF=0.5*VCC_SM SM_PWROK only for
DDR3.(DDR2 PD only) SM_DRAMRST# only for DDR3.(DDR2:NC)
CLK_DREFCLK (2) CLK_DREFCLK# (2) CLK_DREFSSCLK (2) CLK_DREFSSCLK# (2)
CLK_PCIE_3GPLL (2) CLK_PCIE_3GPLL# (2)
DMI_TXN[3:0] (13)
DMI_TXP[3:0] (13)
DMI_RXN[3:0] (13)
DMI_RXP[3:0] (13)
M_RCOMP
R483 80.6/F_4R483 80.6/F_4
M_RCOMP#
R482 80.6/F_4R482 80.6/F_4
SM_VREF
SM_VREF.Default use voltage divider for poor layout cause +SMDDR_VREF not meet spec.And Intel circuit PU/PD is 1K,But Check list PU/PD is 10K.
+1.8VSUS
R90 10K/F_4R90 10K/F_4 R92 10K/F_4R92 10K/F_4
+1.8VSUS
INTEL FAE Suggest PD for Ext graphics
CLK_DREFCLK# CLK_DREFCLK CLK_DREFSSCLK# CLK_DREFSSCLK
SM_RCOMP_VOH
C592
C592
2.2u/6.3V_6
2.2u/6.3V_6
SM_RCOMP_VOL
C594
C594
2.2u/6.3V_6
2.2u/6.3V_6
R530 EV@0_4R530 EV@0_4 R531 EV@0_4R531 EV@0_4 R182 EV@0_4R182 EV@0_4 R183 EV@0_4R183 EV@0_4
C595
C595
R472
R472
.01u/25V_4
.01u/25V_4
3.01K/F_4
3.01K/F_4
R475
R475
C591
C591
1K/F_4
1K/F_4
.01u/25V_4
.01u/25V_4
+1.8VSUS
R4761K/F_4 R4761K/F_4
NB Thermaltrip
B33
GFX_VID_0
B32
GFX_VID_1
G33
GFX_VID_2
F33
GFX_VID_3
E33
GFX_VID_4
PM
PM
GRAPHICS VID
GRAPHICS VID
MEHDA
MEHDA
DDPC_CTRLCLK
DDPC_CTRLDATA
NC
NC
SDVO_CTRLCLK
SDVO_CTRLDATA
MISC
MISC
3
GFX_VR_EN
CL_CLK
CL_DATA
CL_PWROK
CL_RST# CL_VREF
CLKREQ#
ICH_SYNC#
TSATN#
HDA_BCLK HDA_RST#
HDA_SDI
HDA_SDO
HDA_SYNC
C34
AH37 AH36 AN36 AJ35 AH34
N28 M28 G36 E36 K36 H36
B12
B28 B30 B29 C29 A28
MCH_CLVREF_R
DDPC_CTRLCLK DDPC_DDCDATA
CLK_MCH_OE#
TSATN#
R187 56_4R187 56_4
HDA_BIT_CLK_HDMI HDA_RST#_HDMI HDA_SDIN_HDMI HDA_SDOUT_HDMI HDA_SYNC_HDMI
CL_CLK0 (14)
CL_DATA0 (14) MPWROK (14,29) CL_RST#0 (14)
SDVO_CTRLCLK (23) SDVO_CTRLDATA (23) CLK_MCH_OE# (2) MCH_ICH_SYNC# (14)
+1.05V
HDA_BIT_CLK_HDMI (12) HDA_RST#_HDMI (12) HDA_SDIN_HDMI (12) HDA_SDOUT_HDMI (12) HDA_SYNC_HDMI (12)
If HDMI not support HDA --> NC VCC_HDA-->GND Differential signal-->NC
Impact ICH9M VCCHDA and VCCSUSHDA supply 1.5V/3.3V
NOTE: If (G)MCH's HD Audio signals are connected to ICH9M for iHDMI, VCCHDA and VCCSUSHDA on ICH9M should be only on 1.5V. These power pins on ICH9M can be supplied with 3.3V if and only if (G)MCH's HDA is not connected to ICH9M. Consequently, only 1.5V audio/modem codecs can be used on the platform.
2
C265
C265 .1u/10V_4
.1u/10V_4
+1.05V
R124
R124 1K/F_4
1K/F_4
Check list note : CL_VREF=0.35V
R117
R117 511/F_4
511/F_4
DDPC_CTRL for HDMI port C SDVO_CTRL for HDMI port B
<Checklist ver0.8> If TSATN# is not used, then it must be terminated with a 56- pull-up resistor to VCCP.î–¡
<Pin out check issue> Cantiga EDS 0.7 change Ball B12 to TSATN# from TSATN
+1.05V
R533
R533 *10K_4
*10K_4
2
Q38
Q38 *MMBT3904
TSATN#
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
Date: Sheet of
*MMBT3904
1 3
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
PROJECT :
GMCH DMI
GMCH DMI
GMCH DMI
1
TSATN_EC# (29)
Z06
Z06
Z06
6 39Thursday, March 12, 2009
6 39Thursday, March 12, 2009
6 39Thursday, March 12, 2009
1A
1A
1A
5
4
3
2
1
IV@
U25C
EV@
SP@
D D
C C
IV&EV Dis/Enable setting
If LVDS no use,all signal can NC
L_BKLT_CTRL(23)
INT_LVDS_BLON(23)
+3V
INT_LVDS_EDIDCLK(23) INT_LVDS_EDIDDATA(23)
INT_LVDS_DIGON(23)
INT_TXLCLKOUT-(23)
INT_TXLCLKOUT+(23)
INT_TXLOUT0-(23)
INT_TXLOUT1-(23)
INT_TXLOUT2-(23)
INT_TXLOUT0+(23)
INT_TXLOUT1+(23)
INT_TXLOUT2+(23)
R154 IV@10K_4R154 IV@10K_4 R148 IV@10K_4R148 IV@10K_4
R190 IV@2.4K/F_4R190 IV@2.4K/F_4 R166 IV@0_4R166 IV@0_4
SP@
TV_A/B/C For IV: 75ohm
LVDS_IBG
INT_TXLCLKOUT­INT_TXLCLKOUT+
INT_TXLOUT0­INT_TXLOUT1­INT_TXLOUT2-
INT_TXLOUT0+ INT_TXLOUT1+ INT_TXLOUT2+
L_CTRL_CLK L_CTRL_DATA
LVDS_VREF
For EV:0ohm
R174 SP@75_4R174 SP@75_4 R161 SP@75_4R161 SP@75_4 R158 SP@75_4R158 SP@75_4
B B
INT_CRT_BLU(23) INT_CRT_GRN(23) INT_CRT_RED(23)
INT_CRT_DDCCLK(23) INT_CRT_DDCDAT(23)
INT_HSYNC(23) INT_VSYNC(23)
R192 IV@30.1_4R192 IV@30.1_4 R193 IV@30.1_4R193 IV@30.1_4
INT_TV_COMP INT_TV_Y/G INT_TV_C/R
INT_CRT_BLU INT_CRT_GRN INT_CRT_RED
HSYNC_G CRTIREF VSYNC_G
HSYNC/VSYNC serial R place close to NB
MXM STUFFED. (CRT)
A A
HSYNC_G VSYNC_G
CRTIREF pull down for IV cantiga 1.02k ohm/F
U25C
L32
L_BKLT_CTRL
G32
L_BKLT_EN
M32
L_CTRL_CLK
M33
L_CTRL_DATA
K33
L_DDC_CLK
J33
L_DDC_DATA
M29
L_VDD_EN
C44
LVDS_IBG
B43
LVDS_VBG
E37
LVDS_VREFH
E38
LVDS_VREFL
C41
LVDSA_CLK#
C40
LVDSA_CLK
B37
LVDSB_CLK#
A37
LVDSB_CLK
H47
LVDSA_DATA#_0
E46
LVDSA_DATA#_1
G40
LVDSA_DATA#_2
A40
LVDSA_DATA#_3
H48
LVDSA_DATA_0
D45
LVDSA_DATA_1
F40
LVDSA_DATA_2
B40
LVDSA_DATA_3
A41
LVDSB_DATA#_0
H38
LVDSB_DATA#_1
G37
LVDSB_DATA#_2
J37
LVDSB_DATA#_3
B42
LVDSB_DATA_0
G38
LVDSB_DATA_1
F37
LVDSB_DATA_2
K37
LVDSB_DATA_3
F25
TVA_DAC
H25
TVB_DAC
K25
TVC_DAC
H24
TV_RTN
C31
TV_DCONSEL_0
E32
TV_DCONSEL_1
E28
CRT_BLUE
G28
CRT_GREEN
J28
CRT_RED
G29
CRT_IRTN
H32
CRT_DDC_CLK
J32
CRT_DDC_DATA
J29
CRT_HSYNC
E29
CRT_TVO_IREF
L29
CRT_VSYNC
CANTIGA_GM45
CANTIGA_GM45
LVDS
LVDS
TV
TV
VGA
VGA
PCI-EXPRESS GRAPHICS
PCI-EXPRESS GRAPHICS
PEG_COMPI
PEG_COMPO
PEG_RX#_0 PEG_RX#_1 PEG_RX#_2 PEG_RX#_3 PEG_RX#_4 PEG_RX#_5 PEG_RX#_6 PEG_RX#_7 PEG_RX#_8
PEG_RX#_9 PEG_RX#_10 PEG_RX#_11 PEG_RX#_12 PEG_RX#_13 PEG_RX#_14 PEG_RX#_15
PEG_RX_0 PEG_RX_1 PEG_RX_2 PEG_RX_3 PEG_RX_4 PEG_RX_5 PEG_RX_6 PEG_RX_7 PEG_RX_8
PEG_RX_9 PEG_RX_10 PEG_RX_11 PEG_RX_12 PEG_RX_13 PEG_RX_14 PEG_RX_15
PEG_TX#_0 PEG_TX#_1 PEG_TX#_2 PEG_TX#_3 PEG_TX#_4 PEG_TX#_5 PEG_TX#_6 PEG_TX#_7 PEG_TX#_8
PEG_TX#_9 PEG_TX#_10 PEG_TX#_11 PEG_TX#_12 PEG_TX#_13 PEG_TX#_14 PEG_TX#_15
PEG_TX_0 PEG_TX_1 PEG_TX_2 PEG_TX_3 PEG_TX_4 PEG_TX_5 PEG_TX_6 PEG_TX_7 PEG_TX_8
PEG_TX_9 PEG_TX_10 PEG_TX_11 PEG_TX_12 PEG_TX_13 PEG_TX_14 PEG_TX_15
L<0.5" , If PCIE not support still connect to +VCC_PEG
EXP_A_COMPX
T37 T36
H44 J46 L44 L40 N41 P48 N44 T43 U43 Y43 Y48 Y36 AA43 AD37 AC47 AD39
H43 J44 L43 L41 N40 P47 N43 T42 U42 Y42 W47 Y37 AA42 AD36 AC48 AD40
J41 M46 M47 M40 M42 R48 N38 T40 U37 U40 Y40 AA46 AA37 AA40 AD43 AC46
J42 L46 M48 M39 M43 R47 N37 T39 U36 U39 Y39 Y46 AA36 AA39 AD42 AD46
PEG_RXN0 PEG_RXN1 PEG_RXN2 PEG_RXN3 PEG_RXN4 PEG_RXN5 PEG_RXN6 PEG_RXN7 PEG_RXN8
PEG_RXN9 PEG_RXN10 PEG_RXN11 PEG_RXN12 PEG_RXN13 PEG_RXN14 PEG_RXN15
PEG_RXP0
PEG_RXP1
PEG_RXP2
PEG_RXP3
PEG_RXP4
PEG_RXP5
PEG_RXP6
PEG_RXP7
PEG_RXP8
PEG_RXP9 PEG_RXP10 PEG_RXP11 PEG_RXP12 PEG_RXP13 PEG_RXP14 PEG_RXP15
C_PEG_TXN0
C_PEG_TXN1
C_PEG_TXN2
C_PEG_TXN3
C_PEG_TXN4
C_PEG_TXN5
C_PEG_TXN6
C_PEG_TXN7
C_PEG_TXN8
C_PEG_TXN9
C_PEG_TXN10
C_PEG_TXN11
C_PEG_TXN12
C_PEG_TXN13
C_PEG_TXN14
C_PEG_TXN15
C_PEG_TXP0
C_PEG_TXP1
C_PEG_TXP2
C_PEG_TXP3
C_PEG_TXP4
C_PEG_TXP5
C_PEG_TXP6
C_PEG_TXP7
C_PEG_TXP8
C_PEG_TXP9
C_PEG_TXP10
C_PEG_TXP11
C_PEG_TXP12
C_PEG_TXP13
C_PEG_TXP14
C_PEG_TXP15
R125 49.9/F_4R125 49.9/F_4
Can support reversal routing.If CFG9=1, PCI Express is normal operation. If CFG9=0, then PEG_TXP0 becomes PEG_TXP15, PEG_TXP1 becomes PEG_TXP14, PEG_TXP2 becomes PEG_TXP13, etc. similarly for PEG_RXP[15:0] and PEG_RXN[15:0]
C347 .1u/10V_4C347 .1u/10V_4 C670 .1u/10V_4C670 .1u/10V_4 C674 .1u/10V_4C674 .1u/10V_4 C350 .1u/10V_4C350 .1u/10V_4 C334 EV@.1U/10V_4C334 EV@.1U/10V_4 C646 EV@.1U/10V_4C646 EV@.1U/10V_4 C353 EV@.1U/10V_4C353 EV@.1U/10V_4 C650 EV@.1U/10V_4C650 EV@.1U/10V_4 C636 EV@.1U/10V_4C636 EV@.1U/10V_4 C309 EV@.1U/10V_4C309 EV@.1U/10V_4 C280 EV@.1U/10V_4C280 EV@.1U/10V_4 C625 EV@.1U/10V_4C625 EV@.1U/10V_4 C250 EV@.1U/10V_4C250 EV@.1U/10V_4 C234 EV@.1U/10V_4C234 EV@.1U/10V_4 C212 EV@.1U/10V_4C212 EV@.1U/10V_4 C618 EV@.1U/10V_4C618 EV@.1U/10V_4
C348 .1u/10V_4C348 .1u/10V_4 C669 .1u/10V_4C669 .1u/10V_4 C673 .1u/10V_4C673 .1u/10V_4 C349 .1u/10V_4C349 .1u/10V_4 C333 EV@.1U/10V_4C333 EV@.1U/10V_4 C645 EV@.1U/10V_4C645 EV@.1U/10V_4 C352 EV@.1U/10V_4C352 EV@.1U/10V_4 C651 EV@.1U/10V_4C651 EV@.1U/10V_4 C637 EV@.1U/10V_4C637 EV@.1U/10V_4 C311 EV@.1U/10V_4C311 EV@.1U/10V_4 C270 EV@.1U/10V_4C270 EV@.1U/10V_4 C628 EV@.1U/10V_4C628 EV@.1U/10V_4 C257 EV@.1U/10V_4C257 EV@.1U/10V_4 C249 EV@.1U/10V_4C249 EV@.1U/10V_4 C199 EV@.1U/10V_4C199 EV@.1U/10V_4 C617 EV@.1U/10V_4C617 EV@.1U/10V_4
+1.05V
PEG_RXN[15:0] (17)
PEG_RXP[15:0] (17)
PEG_TXN0 PEG_TXN1 PEG_TXN2 PEG_TXN3 PEG_TXN4 PEG_TXN5 PEG_TXN6 PEG_TXN7 PEG_TXN8 PEG_TXN9 PEG_TXN10 PEG_TXN11 PEG_TXN12 PEG_TXN13 PEG_TXN14 PEG_TXN15
PEG_TXP0 PEG_TXP1 PEG_TXP2 PEG_TXP3 PEG_TXP4 PEG_TXP5 PEG_TXP6 PEG_TXP7 PEG_TXP8 PEG_TXP9 PEG_TXP10 PEG_TXP11 PEG_TXP12 PEG_TXP13 PEG_TXP14 PEG_TXP15
PEG_TXN[15:0] (17,23)
PEG_TXP[15:0] (17,23)
IV&EV Dis/Enable setting
<5/31>Montevina_Schematics_Checklist_Rev0_8 a)For TVOUT Disabled, TV_DCONSEL[1:0] Connect to GND. But design guide Rev0.7 show NC.What is correct. b)For CRT DAC Disable, CRT_DDC_CLK, CRT_DDC_DATA . CRT_HSYNC, CRT_VSYNCThese signals should be connected to GND. But design guide Rev0.7 show NC, Intel suggest follow Design guide.
<check list> For EV@ CRT R/G/B 0ohm to GND CRTIREF 0ohm to GND
<check list> For IV@ CRT R/G/B 150ohm to GND CRTIREF 1.02Kohm to GND
CRTIREF For IV: 1.02Kohm For EV:0ohm
R186 SP@1.02K/F_4R186 SP@1.02K/F_4
CRTIREF
SP@
CRT_R/G/B For IV: 150ohm For EV:0ohm
R185 SP@150/F_4R185 SP@150/F_4 R173 SP@150/F_4R173 SP@150/F_4 R164 SP@150/F_4R164 SP@150/F_4
INT_CRT_BLU INT_CRT_GRN INT_CRT_RED
R188
R188
EV@0_4
EV@0_4
R189
R189
EV@0_4
EV@0_4
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
5
4
3
2
Date: Sheet of
PROJECT :
GMCH VGA
GMCH VGA
GMCH VGA
Z06
Z06
Z06
1A
1A
1A
7 39Thursday, March 12, 2009
7 39Thursday, March 12, 2009
7 39Thursday, March 12, 2009
1
5
4
3
2
1
M_A_DQ[63:0](16)
D D
C C
B B
M_A_DQ0 M_A_DQ1 M_A_DQ2 M_A_DQ3 M_A_DQ4 M_A_DQ5 M_A_DQ6 M_A_DQ7 M_A_DQ8 M_A_DQ9 M_A_DQ10 M_A_DQ11 M_A_DQ12 M_A_DQ13 M_A_DQ14 M_A_DQ15 M_A_DQ16 M_A_DQ17 M_A_DQ18 M_A_DQ19 M_A_DQ20 M_A_DQ21 M_A_DQ22 M_A_DQ23 M_A_DQ24 M_A_DQ25 M_A_DQ26 M_A_DQ27 M_A_DQ28 M_A_DQ29 M_A_DQ30 M_A_DQ31 M_A_DQ32 M_A_DQ33 M_A_DQ34 M_A_DQ35 M_A_DQ36 M_A_DQ37 M_A_DQ38 M_A_DQ39 M_A_DQ40 M_A_DQ41 M_A_DQ42 M_A_DQ43 M_A_DQ44 M_A_DQ45 M_A_DQ46 M_A_DQ47 M_A_DQ48 M_A_DQ49 M_A_DQ50 M_A_DQ51 M_A_DQ52 M_A_DQ53 M_A_DQ54 M_A_DQ55 M_A_DQ56 M_A_DQ57 M_A_DQ58 M_A_DQ59 M_A_DQ60 M_A_DQ61 M_A_DQ62 M_A_DQ63
AJ38 AJ41 AN38
AM38
AJ36
AJ40 AM44 AM42 AN43 AN44
AU40
AT38
AN41
AN39
AU44
AU42
AV39
AY44
BA40
BD43
AV41
AY43
BB41
BC40
AY37
BD38
AV37
AT36
AY38
BB38
AV36
AW36
BD13 AU11 BC11
BA12 AU13
AV13 BD12 BC12
BB9 BA9
AU10
AV9
BA11
BD9
AY8 BA6 AV5 AV7
AT9 AN8 AU5 AU6
AT5
AN10 AM11
AM5
AJ9
AJ8
AN12 AM13
AJ11 AJ12
U25D
U25D
SA_DQ_0 SA_DQ_1 SA_DQ_2 SA_DQ_3 SA_DQ_4 SA_DQ_5 SA_DQ_6 SA_DQ_7 SA_DQ_8 SA_DQ_9 SA_DQ_10 SA_DQ_11 SA_DQ_12 SA_DQ_13 SA_DQ_14 SA_DQ_15 SA_DQ_16 SA_DQ_17 SA_DQ_18 SA_DQ_19 SA_DQ_20 SA_DQ_21 SA_DQ_22 SA_DQ_23 SA_DQ_24 SA_DQ_25 SA_DQ_26 SA_DQ_27 SA_DQ_28 SA_DQ_29 SA_DQ_30 SA_DQ_31 SA_DQ_32 SA_DQ_33 SA_DQ_34 SA_DQ_35 SA_DQ_36 SA_DQ_37 SA_DQ_38 SA_DQ_39 SA_DQ_40 SA_DQ_41 SA_DQ_42 SA_DQ_43 SA_DQ_44 SA_DQ_45 SA_DQ_46 SA_DQ_47 SA_DQ_48 SA_DQ_49 SA_DQ_50 SA_DQ_51 SA_DQ_52 SA_DQ_53 SA_DQ_54 SA_DQ_55 SA_DQ_56 SA_DQ_57 SA_DQ_58 SA_DQ_59 SA_DQ_60 SA_DQ_61 SA_DQ_62 SA_DQ_63
CANTIGA_GM45
CANTIGA_GM45
DDR SYSTEM MEMORY A
DDR SYSTEM MEMORY A
SA_BS_0 SA_BS_1 SA_BS_2
SA_RAS# SA_CAS#
SA_WE#
SA_DM_0 SA_DM_1 SA_DM_2 SA_DM_3 SA_DM_4 SA_DM_5 SA_DM_6 SA_DM_7
SA_DQS_0 SA_DQS_1 SA_DQS_2 SA_DQS_3 SA_DQS_4 SA_DQS_5 SA_DQS_6
SA_DQS_7 SA_DQS#_0 SA_DQS#_1 SA_DQS#_2 SA_DQS#_3 SA_DQS#_4 SA_DQS#_5 SA_DQS#_6 SA_DQS#_7
SA_MA_0 SA_MA_1 SA_MA_2 SA_MA_3 SA_MA_4 SA_MA_5 SA_MA_6 SA_MA_7 SA_MA_8
SA_MA_9 SA_MA_10 SA_MA_11 SA_MA_12 SA_MA_13 SA_MA_14
BD21 BG18 AT25
BB20 BD20 AY20
AM37 AT41 AY41 AU39 BB12 AY6 AT7 AJ5
AJ44 AT44 BA43 BC37 AW12 BC8 AU8 AM7 AJ43 AT43 BA44 BD37 AY12 BD8 AU9 AM8
BA21 BC24 BG24 BH24 BG25 BA24 BD24 BG27 BF25 AW24 BC21 BG26 BH26 BH17 AY25
M_A_DM0 M_A_DM1 M_A_DM2 M_A_DM3 M_A_DM4 M_A_DM5 M_A_DM6 M_A_DM7
M_A_DQS0 M_A_DQS1 M_A_DQS2 M_A_DQS3 M_A_DQS4 M_A_DQS5 M_A_DQS6
M_A_DQS7 M_A_DQS#0 M_A_DQS#1 M_A_DQS#2 M_A_DQS#3 M_A_DQS#4 M_A_DQS#5 M_A_DQS#6 M_A_DQS#7
M_A_A0 M_A_A1 M_A_A2 M_A_A3 M_A_A4 M_A_A5 M_A_A6 M_A_A7 M_A_A8 M_A_A9 M_A_A10 M_A_A11 M_A_A12 M_A_A13 M_A_A14
M_A_BS0 (16) M_A_BS1 (16) M_A_BS2 (16)
M_A_RAS# (16) M_A_CAS# (16) M_A_WE# (16)
M_A_DM[7:0] (16)
M_A_DQS[7:0] (16)
M_A_DQS#[7:0] (16)
M_A_A[14:0] (16)
M_B_DQ[63:0](16)
M_B_DQ0 M_B_DQ1 M_B_DQ2 M_B_DQ3 M_B_DQ4 M_B_DQ5 M_B_DQ6 M_B_DQ7 M_B_DQ8 M_B_DQ9 M_B_DQ10 M_B_DQ11 M_B_DQ12 M_B_DQ13 M_B_DQ14 M_B_DQ15 M_B_DQ16 M_B_DQ17 M_B_DQ18 M_B_DQ19 M_B_DQ20 M_B_DQ21 M_B_DQ22 M_B_DQ23 M_B_DQ24 M_B_DQ25 M_B_DQ26 M_B_DQ27 M_B_DQ28 M_B_DQ29 M_B_DQ30 M_B_DQ31 M_B_DQ32 M_B_DQ33 M_B_DQ34 M_B_DQ35 M_B_DQ36 M_B_DQ37 M_B_DQ38 M_B_DQ39 M_B_DQ40 M_B_DQ41 M_B_DQ42 M_B_DQ43 M_B_DQ44 M_B_DQ45 M_B_DQ46 M_B_DQ47 M_B_DQ48 M_B_DQ49 M_B_DQ50 M_B_DQ51 M_B_DQ52 M_B_DQ53 M_B_DQ54 M_B_DQ55 M_B_DQ56 M_B_DQ57 M_B_DQ58 M_B_DQ59 M_B_DQ60 M_B_DQ61 M_B_DQ62 M_B_DQ63
AK47 AH46 AP47 AP46
AJ46 AJ48
AM48
AP48 AU47 AU46 BA48 AY48 AT47 AR47 BA47 BC47 BC46 BC44
BG43
BF43 BE45 BC41 BF40 BF41
BG38
BF38 BH35
BG35
BH40 BG39 BG34
BH34
BH14 BG12
BH11
BG8 BH12 BF11
BF8 BG7 BC5 BC6
AY3
AY1
BF6
BF5 BA1 BD3 AV2 AU3 AR3 AN2
AY2 AV1 AP3 AR1
AL1
AL2
AJ1 AH1 AM2 AM3 AH3
AJ3
U25E
U25E
SB_DQ_0 SB_DQ_1 SB_DQ_2 SB_DQ_3 SB_DQ_4 SB_DQ_5 SB_DQ_6 SB_DQ_7 SB_DQ_8 SB_DQ_9 SB_DQ_10 SB_DQ_11 SB_DQ_12 SB_DQ_13 SB_DQ_14 SB_DQ_15 SB_DQ_16 SB_DQ_17 SB_DQ_18 SB_DQ_19 SB_DQ_20 SB_DQ_21 SB_DQ_22 SB_DQ_23 SB_DQ_24 SB_DQ_25 SB_DQ_26 SB_DQ_27 SB_DQ_28 SB_DQ_29 SB_DQ_30 SB_DQ_31 SB_DQ_32 SB_DQ_33 SB_DQ_34 SB_DQ_35 SB_DQ_36 SB_DQ_37 SB_DQ_38 SB_DQ_39 SB_DQ_40 SB_DQ_41 SB_DQ_42 SB_DQ_43 SB_DQ_44 SB_DQ_45 SB_DQ_46 SB_DQ_47 SB_DQ_48 SB_DQ_49 SB_DQ_50 SB_DQ_51 SB_DQ_52 SB_DQ_53 SB_DQ_54 SB_DQ_55 SB_DQ_56 SB_DQ_57 SB_DQ_58 SB_DQ_59 SB_DQ_60 SB_DQ_61 SB_DQ_62 SB_DQ_63
CANTIGA_GM45
CANTIGA_GM45
DDR SYSTEM MEMORY B
DDR SYSTEM MEMORY B
SB_BS_0 SB_BS_1 SB_BS_2
SB_RAS# SB_CAS#
SB_WE#
SB_DM_0 SB_DM_1 SB_DM_2 SB_DM_3 SB_DM_4 SB_DM_5 SB_DM_6 SB_DM_7
SB_DQS_0 SB_DQS_1 SB_DQS_2 SB_DQS_3 SB_DQS_4 SB_DQS_5 SB_DQS_6
SB_DQS_7 SB_DQS#_0 SB_DQS#_1 SB_DQS#_2 SB_DQS#_3 SB_DQS#_4 SB_DQS#_5 SB_DQS#_6 SB_DQS#_7
SB_MA_0 SB_MA_1 SB_MA_2 SB_MA_3 SB_MA_4 SB_MA_5 SB_MA_6 SB_MA_7 SB_MA_8
SB_MA_9 SB_MA_10 SB_MA_11 SB_MA_12 SB_MA_13 SB_MA_14
BC16 BB17 BB33
AU17 BG16 BF14
AM47 AY47 BD40 BF35 BG11 BA3 AP1 AK2
AL47 AV48 BG41 BG37 BH9 BB2 AU1 AN6 AL46 AV47 BH41 BH37 BG9 BC2 AT2 AN5
AV17 BA25 BC25 AU25 AW25 BB28 AU28 AW28 AT33 BD33 BB16 AW33 AY33 BH15 AU33
M_B_DM0 M_B_DM1 M_B_DM2 M_B_DM3 M_B_DM4 M_B_DM5 M_B_DM6 M_B_DM7
M_B_DQS0 M_B_DQS1 M_B_DQS2 M_B_DQS3 M_B_DQS4 M_B_DQS5 M_B_DQS6
M_B_DQS7 M_B_DQS#0 M_B_DQS#1 M_B_DQS#2 M_B_DQS#3 M_B_DQS#4 M_B_DQS#5 M_B_DQS#6 M_B_DQS#7
M_B_A0 M_B_A1 M_B_A2 M_B_A3 M_B_A4 M_B_A5 M_B_A6 M_B_A7 M_B_A8 M_B_A9 M_B_A10 M_B_A11 M_B_A12 M_B_A13 M_B_A14
M_B_BS0 (16) M_B_BS1 (16) M_B_BS2 (16)
M_B_RAS# (16) M_B_CAS# (16) M_B_WE# (16)
M_B_DM[7:0] (16)
M_B_DQS[7:0] (16)
M_B_DQS#[7:0] (16)
M_B_A[14:0] (16)
A A
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
GMCH (CANTIGA)
5
PROJECT :
PROJECT :
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
4
3
2
Date: Sheet of
PROJECT :
GMCH DDRII
GMCH DDRII
GMCH DDRII
Z06
Z06
Z06
1A
1A
1A
8 39Thursday, March 12, 2009
8 39Thursday, March 12, 2009
8 39Thursday, March 12, 2009
1
5
4
3
2
1
IV@
SP@
Power consumption reference to Intel 644135 Cantiga chipset EDS Volume1. Section 10
GM TDP 10.5~12W GS TDP 7~8W
D D
C C
B B
PM TDP 7W
+1.8VSUS
+
+
C158
C158
C82
C82
C81
C81
22u_8
22u_8
22u_8
22u_8
VCC_SM(1.8V) DDR2(800M) 3000mA_S0 , 1mA_S3 DDR2(667M) : 2600mA_S0 DDR3(1067M) : 4140mA_S0
1.05V Graphics core VCC_AXG VCC_AXG_NCTF
6326.84mA
Voltage regulator is shared between the Graphics Core Rail, VCCA_HPLL,VCCA_MPLL,VCCA_PEG_PLLVCCD_PEG_PLL, VCCA_SM_CK, VCCA_DPLLA, VCCA_DPLLB, VCCD_HPLL, VCCA_SM, VCC_AXF
.1u/10V_4
.1u/10V_4
IV@
C86
C86 330u/2V_7343
330u/2V_7343
+1.05V_AXG
R103 IV@10/F_4R103 IV@10/F_4 R111 IV@10/F_4R111 IV@10/F_4
+1.05V_AXG
AP33 AN33 BH32 BG32 BF32
BD32 BC32 BB32 BA32 AY32
AW32
AV32 AU32 AT32 AR32 AP32 AN32 BH31
BG31
BF31 BG30 BH29 BG29 BF29 BD29 BC29 BB29 BA29 AY29
AW29
AV29 AU29 AT29 AR29 AP29
BA36 BB24 BD16 BB21
AW16 AW13
AT13
AE25 AB25 AA25 AE24 AC24 AA24
AE23 AC23 AB23 AA23
AJ21 AG21 AE21 AC21 AA21
AH20 AF20 AE20 AC20 AB20 AA20
AM15
AL15 AE15
AJ15 AH15 AG15 AF15 AB15 AA15
AN14 AM14
AJ14 AH14
Y26
Y24
Y21
T17 T16
Y15 V15 U15
U14 T14
U25G
U25G
VCC_SM_1 VCC_SM_2 VCC_SM_3 VCC_SM_4 VCC_SM_5 VCC_SM_6 VCC_SM_7 VCC_SM_8 VCC_SM_9 VCC_SM_10 VCC_SM_11 VCC_SM_12 VCC_SM_13 VCC_SM_14 VCC_SM_15 VCC_SM_16 VCC_SM_17 VCC_SM_18 VCC_SM_19 VCC_SM_20 VCC_SM_21 VCC_SM_22 VCC_SM_23 VCC_SM_24 VCC_SM_25 VCC_SM_26 VCC_SM_27 VCC_SM_28 VCC_SM_29 VCC_SM_30 VCC_SM_31 VCC_SM_32 VCC_SM_33 VCC_SM_34 VCC_SM_35
VCC_SM_36/NC VCC_SM_37/NC VCC_SM_38/NC VCC_SM_39/NC VCC_SM_40/NC VCC_SM_41/NC VCC_SM_42/NC
VCC_AXG_1 VCC_AXG_2 VCC_AXG_3 VCC_AXG_4 VCC_AXG_5 VCC_AXG_6 VCC_AXG_7 VCC_AXG_8 VCC_AXG_9 VCC_AXG_10 VCC_AXG_11 VCC_AXG_12 VCC_AXG_13 VCC_AXG_14 VCC_AXG_15 VCC_AXG_16 VCC_AXG_17 VCC_AXG_18 VCC_AXG_19 VCC_AXG_20 VCC_AXG_21 VCC_AXG_22 VCC_AXG_23 VCC_AXG_24 VCC_AXG_25 VCC_AXG_26 VCC_AXG_27 VCC_AXG_28 VCC_AXG_29 VCC_AXG_30 VCC_AXG_31 VCC_AXG_32 VCC_AXG_33 VCC_AXG_34 VCC_AXG_35 VCC_AXG_36 VCC_AXG_37 VCC_AXG_38 VCC_AXG_39 VCC_AXG_40 VCC_AXG_41 VCC_AXG_42
VCC_AXG_SENSE VSS_AXG_SENSE
VCC SMVCC GFX
VCC SMVCC GFX
POWER
POWER
VCC GFX NCTF
VCC GFX NCTF
VCC_AXG_NCTF_1 VCC_AXG_NCTF_2 VCC_AXG_NCTF_3 VCC_AXG_NCTF_4 VCC_AXG_NCTF_5 VCC_AXG_NCTF_6 VCC_AXG_NCTF_7 VCC_AXG_NCTF_8
VCC_AXG_NCTF_9 VCC_AXG_NCTF_10 VCC_AXG_NCTF_11 VCC_AXG_NCTF_12 VCC_AXG_NCTF_13 VCC_AXG_NCTF_14 VCC_AXG_NCTF_15 VCC_AXG_NCTF_16 VCC_AXG_NCTF_17 VCC_AXG_NCTF_18 VCC_AXG_NCTF_19 VCC_AXG_NCTF_20 VCC_AXG_NCTF_21 VCC_AXG_NCTF_22 VCC_AXG_NCTF_23 VCC_AXG_NCTF_24 VCC_AXG_NCTF_25 VCC_AXG_NCTF_26 VCC_AXG_NCTF_27 VCC_AXG_NCTF_28 VCC_AXG_NCTF_29 VCC_AXG_NCTF_30 VCC_AXG_NCTF_31 VCC_AXG_NCTF_32 VCC_AXG_NCTF_33 VCC_AXG_NCTF_34 VCC_AXG_NCTF_35 VCC_AXG_NCTF_36 VCC_AXG_NCTF_37 VCC_AXG_NCTF_38 VCC_AXG_NCTF_39 VCC_AXG_NCTF_40 VCC_AXG_NCTF_41 VCC_AXG_NCTF_42 VCC_AXG_NCTF_43 VCC_AXG_NCTF_44 VCC_AXG_NCTF_45 VCC_AXG_NCTF_46 VCC_AXG_NCTF_47 VCC_AXG_NCTF_48 VCC_AXG_NCTF_49 VCC_AXG_NCTF_50 VCC_AXG_NCTF_51 VCC_AXG_NCTF_52 VCC_AXG_NCTF_53 VCC_AXG_NCTF_54 VCC_AXG_NCTF_55 VCC_AXG_NCTF_56 VCC_AXG_NCTF_57 VCC_AXG_NCTF_58 VCC_AXG_NCTF_59 VCC_AXG_NCTF_60
VCC_SM_LF1 VCC_SM_LF2 VCC_SM_LF3 VCC_SM_LF4 VCC_SM_LF5 VCC_SM_LF6 VCC_SM_LF7
VCC SM LF
VCC SM LF
W28 V28 W26 V26 W25 V25 W24 V24 W23 V23 AM21 AL21 AK21 W21 V21 U21 AM20 AK20 W20 U20 AM19 AL19 AK19 AJ19 AH19 AG19 AF19 AE19 AB19 AA19 Y19 W19 V19 U19 AM17 AK17 AH17 AG17 AF17 AE17 AC17 AB17 Y17 W17 V17 AM16 AL16 AK16 AJ16 AH16 AG16 AF16 AE16 AC16 AB16 AA16 Y16 W16 V16 U16
AV44 BA37 AM40 AV21 AY5 AM10 BB13
+1.05V_AXG
VCC_SM_LF1 VCC_SM_LF2 VCC_SM_LF3 VCC_SM_LF4 VCC_SM_LF5 VCC_SM_LF6 VCC_SM_LF7
IV@
+1.05V_AXG
+
+
C622
C622 IV@330u/2V_7343
IV@330u/2V_7343
Place close to the GMCH Cavity Capacitors
Intel check list(Rev 0.8) 220U*2 near to NB(ESR=15m ohm) Intel CRB(Rev 0.7) 270U*4 near to power(+V1.05S). 330U*2 near to NB
1.8V Internal connect to power
C176
C176
C118
C118
.1u/10V_4
.1u/10V_4
.1u/10V_4
.1u/10V_4
+1.05V +1.05V_AXG
Intel check list(Rev 0.8) No description for VCC_SM bulk CAP Intel CRB(Rev 0.7) 330U*1 Reserve near to power 330U*1 near to NB
R128 IV@0_8R128 IV@0_8 R130 IV@0_8R130 IV@0_8 R129 IV@0_8R129 IV@0_8
+
+
C621
C621 IV@330u/2V_7343
IV@330u/2V_7343
C121
C121 .22u/6.3V_4
.22u/6.3V_4
C127
C127 .22u/6.3V_4
.22u/6.3V_4
C228
C228 IV@.47u/6.3V_4
IV@.47u/6.3V_4
IV&EV Dis/Enable setting
Design guide(Table 72) For INT VGA diasble.VCC_AXG power can connect to GND
C159
C159
SP@1u_6
SP@1u_6
SP@:IV Sutff 1uf EVstuff 0 ohm
C178
C178
C113
C113
.47u/6.3V_4
.47u/6.3V_4
1u_4
1u_4
Intel check list(Rev 0.8) 270U*1 near to power(+V1.05M). 270U*2 near to NB Intel CRB(Rev 0.7) 270U*3 near to power(+V1.05M). 270U*1 near to NB ESR=12m ohm
+1.05V
C192
C192 .1u/10V_4
.1u/10V_4
SP@
C223
C223 IV@10u_8
IV@10u_8
C128
C128 1u_4
1u_4
C218
C218 .22u/6.3V_4
.22u/6.3V_4
C272
C272 IV@22u_8
IV@22u_8
C181
C181 .22u/6.3V_4
.22u/6.3V_4
C267
C267 IV@.1u_4
IV@.1u_4
+
+
C260
C260
22u_8
22u_8
Place close to the GMCH
C261
C261 IV@.1u_4
IV@.1u_4
C616
C616 330u/2V_7343
330u/2V_7343
C273
C273 IV@.1u_4
IV@.1u_4
AG34 AC34 AB34 AA34
AM33 AK33
AG33 AF33
AE33 AC33 AA33
AH28 AF28 AC28 AA28
AG26 AE26 AC26 AH25 AG25 AF25 AG24
AH23 AF23
Y34 V34 U34
AJ33
Y33
W33
V33 U33
AJ26
AJ23
T32
U25F
U25F
VCC_1 VCC_2 VCC_3 VCC_4 VCC_5 VCC_6 VCC_7 VCC_8 VCC_9 VCC_10 VCC_11 VCC_12
VCC_13 VCC_14 VCC_15 VCC_16 VCC_17 VCC_18 VCC_19 VCC_20 VCC_21 VCC_22 VCC_23 VCC_24 VCC_25 VCC_26 VCC_27 VCC_28 VCC_29 VCC_30 VCC_31 VCC_32 VCC_33 VCC_34
VCC_35
CANTIGA_GM45
CANTIGA_GM45
VCC CORE
VCC CORE
+1.05V
AM32
VCC_NCTF_1
AL32
VCC_NCTF_2
AK32
VCC_NCTF_3
AJ32
VCC_NCTF_4
AH32
VCC_NCTF_5
AG32
VCC_NCTF_6 VCC_NCTF_7 VCC_NCTF_8
VCC_NCTF_9 VCC_NCTF_10 VCC_NCTF_11 VCC_NCTF_12 VCC_NCTF_13 VCC_NCTF_14 VCC_NCTF_15 VCC_NCTF_16 VCC_NCTF_17 VCC_NCTF_18 VCC_NCTF_19 VCC_NCTF_20 VCC_NCTF_21 VCC_NCTF_22 VCC_NCTF_23 VCC_NCTF_24 VCC_NCTF_25 VCC_NCTF_26 VCC_NCTF_27 VCC_NCTF_28 VCC_NCTF_29 VCC_NCTF_30 VCC_NCTF_31 VCC_NCTF_32 VCC_NCTF_33 VCC_NCTF_34 VCC_NCTF_35 VCC_NCTF_36 VCC_NCTF_37 VCC_NCTF_38 VCC_NCTF_39 VCC_NCTF_40 VCC_NCTF_41 VCC_NCTF_42 VCC_NCTF_43 VCC_NCTF_44
AE32 AC32 AA32 Y32 W32 U32 AM30 AL30 AK30 AH30 AG30 AF30 AE30 AC30 AB30 AA30 Y30 W30 V30 U30 AL29 AK29 AJ29 AH29 AG29 AE29 AC29 AA29 Y29 W29 V29 AL28 AK28 AL26 AK26 AK25 AK24 AK23
VCC VCC_NCTF
1210.34mA_EV
1930.4mA_IV ME Engine
508.12mA Total Max=2438.52mA
POWER
POWER
VCC NCTF
VCC NCTF
CANTIGA_GM45
A A
1. Route VCC_AXG_SENSE and VSS_AXG_SENSE differentially
2. VCC_AXG_SENSE PU to +VGFX_CORE_INT with 10ohm and VSS_AXG_SENSE PD with 10ohm for Intel suggest
GMCH (CANTIGA)
5
CANTIGA_GM45
NB Power Status and max current table(1/3)
POWER PLANE
VCC(EXT_VGA) VCC(INT_VGA) VCC_AXG VCC_SM(800) (DDRII-667) 2.6A
(See NB EDS Rev:1.0 Section 10.1 for max current)
4
(See NB EDS Rev:1.0 Section 12.2 for DC voltage)
S0
S3
S4/S5
Voltage
X
X
O O O O O XO
3
X
X X O
+1.05V
X
+1.05V
X
+1.8VSUS
I(max)
2178mA+1.05V 2899mA 8700mA
3A
Note
Graphics Core
1mA+1.8VSUSVCC_SM(Standby) Self Refresh during S3
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
2
Date: Sheet of
PROJECT :
GMCH VCC,NCTF
GMCH VCC,NCTF
GMCH VCC,NCTF
Z06
Z06
Z06
9 39Thursday, March 12, 2009
9 39Thursday, March 12, 2009
1
9 39Thursday, March 12, 2009
1A
1A
1A
5
Power consumption reference to Intel Cantiga chipset EDS Volume1. Section 10
+3V_CRT_TV_DAC
If CRT have Flicker issue STUFF 5.6 ohm
R535
R535 IV@5.6/F_6
IV@5.6/F_6
IV@
EV@
SP@
D D
C C
3.3V
24.15mA for VCCA_TVA_DAC
39.48mA for VCCA_TVB_DAC
24.15mA for VCCA_TVC_DAC Total 87.78mA
B B
A A
1210 10UH, 10%
0.45A DCR_max = 0.39
+1.05V
+1.05V
L20 IV@10uH_8_155mAL20 IV@10uH_8_155mA
1.05V
64.8mA for DPLL_A/B
1210 10UH, 10%
0.45A DCR_max = 0.39
L49 IV@10uH_8_155mAL49 IV@10uH_8_155mA
ESR=15 m
+1.05V
1210 0.1uH, 20%, 1A, DCR_max=0.078î–¡
FB 180@100 MHz, 25% 1.5A DCR_max=90 m
+3V
CRB no 10U Check list need min 10U~100U for VCCA_TV_DAC
+1.5V
R110 0_6R110 0_6
L8 BLM18PG181SN1D_6_1.5AL8 BLM18PG181SN1D_6_1.5A
+1.05VM_MPLL_RC
C180
C180
22u_8
22u_8
L50 IV@BKP1608HS181T_6_1.5AL50 IV@BKP1608HS181T_6_1.5A
C358
C358 IV@10u_8
IV@10u_8
R532 IV@0_6R532 IV@0_6
VCCD_TVDAC always keep 0.1U/0.022U/10U to +1.5V
+1.5V
1.5V
48.363mA for CRT 5mA for TV
R205 0_6R205 0_6
FB 180@100 MHz, 25% 1.5A DCR_max=90 m
L17 BKP1608HS181T_6_1.5AL17 BKP1608HS181T_6_1.5A
C354
C354 10u_8
10u_8
CRB no 10U Check list need min 10U~100U for VCCA_QDAC
FB 220 @100 MHz, 25%, 2A
+1.05V
L47 BKP1608HS181T_6_1.5AL47 BKP1608HS181T_6_1.5A
+1.05VM_PEGPLL_RC
C633
C633 10u_6
10u_6
ESR=60m ohm
IV&EV Dis/Enable setting
+
+
C359
C359 IV@220u/2.5V_3528
IV@220u/2.5V_3528
ESR=15 m
SP@:INT use 0.1U EXT use 0 ohm
+
+
C661
C661 IV@220u/2.5V_3528
IV@220u/2.5V_3528
C230
C230
4.7u/6.3V_6
4.7u/6.3V_6
R101 0.5/F_6R101 0.5/F_6
3.3V 79mA
1.5V 50mA
1.5V 35mA
R508 1/F_4R508 1/F_4
C357
C357
SP@.1u_4
SP@.1u_4
C226
C226 .1u/10V_4
.1u/10V_4
C224
C224 .1u/10V_4
.1u/10V_4
+1.05V
C663
C663 IV@.1u_4
IV@.1u_4
SP@:INT use 0.1U EXT use 0 ohm
C338
C338 .1u/10V_4
.1u/10V_4
1.5V
0.5mA
C337
C337 .1u/10V_4
.1u/10V_4
1.05V 50mA
R534
R534 IV@5.6/F_6
IV@5.6/F_6
Modify REV:C
C652
C652
SP@.1u_4
SP@.1u_4
1.05V 24mA
1.05V
139.2mA
R104 0_6R104 0_6
IV&EV Dis/Enable setting
C658
C658
SP@.01u_4
SP@.01u_4
C660
C660
SP@.1u_4
SP@.1u_4
C340
C340 .01u/25V_4
.01u/25V_4
C341
C341 .01u/25V_4
.01u/25V_4
MODIFY
GMCH (CANTIGA)
5
4
IV&EV Dis/Enable setting
+3V_VCCA_CRT_DAC
C666
C666 IV@.1u_4
IV@.1u_4
SP@:INT use 0.01U
C656
C656 IV@.1u_4
IV@.1u_4
1.8V
13.2mA
R496 0_8R496 0_8
+1.5V
R105 0_6R105 0_6
1.05V DDR2-800 26mA
CRB : 0 ohm Check list : 2.2nH
EXT use 0 ohm
1.05V DDR2-800 720mA
+3V_A_DAC_BG
VCCA_DPLLA/B always keep to +1.05V (If no use IV dynamic core power)
3.9 nH, 0.2 nH, 1A , DCR_max=32 m
+1.05V
SP@:INT use 0.01U EXT use 0 ohm
VCCD_QDAC share to TV and CRT
R102 0_6R102 0_6
+1.05V
1.05V
157.2mA
C631
C631 .1u/10V_4
.1u/10V_4
C632
C632 .1u/10V_4
.1u/10V_4
+1.8VSUS
4
R145 IV@0_6R145 IV@0_6
1.8V
60.31mA
C659
C659
SP@.01u_4
SP@.01u_4
C664
C664
SP@.01u_4
SP@.01u_4
C665
C665 IV@10u_8
IV@10u_8
USE same GND plane
C655
C655
IV@1000p/50V_4
IV@1000p/50V_4
C610
C610 .1u/10V_4
.1u/10V_4
VCCA_PEG_PLL
+1.05VM_A_SM
+1.25V for Teenah use(100mA)
C153
C153
22u_8
22u_8
+1.05VM_A_SM_CK
C170
C170 *2.2u/10V_6
*2.2u/10V_6
C200
C200 .1u/10V_4
.1u/10V_4
C154
C154
4.7u/6.3V_6
4.7u/6.3V_6
C182
C182
22u_8
22u_8
IV&EV Dis/Enable setting
+1.8VSUS_DLVDS
SP@:INT use 1 U EXT use 0 ohm
3.3V 5mA
+1.05VM_DPLLA +1.05VM_DPLLB +1.05VM_HPLL +1.05VM_MPLL +1.8VSUS_TXLVDS
1.5V 414uA
+VCCA_PEG_BG
+1.05VM_PEGPLL
C173
C173 1u_4
1u_4
C162
C162 .1u/10V_4
.1u/10V_4
+3V_CRT_TV_DAC
+VCC_HDA +1.5V_TVDAC
+1.5V_QDAC
+1.05VM_MCH_PLL2
+1.05VM_PEGPLL
C672
C672 IV@10u_8
IV@10u_8
3.3V 73mA
1.05V 50mA
C312
C312
SP@1u_4
SP@1u_4
3
U25H
U25H
B27
VCCA_CRT_DAC_1
A26
VCCA_CRT_DAC_2
A25
VCCA_DAC_BG
B25
VSSA_DAC_BG
F47
VCCA_DPLLA
L48
VCCA_DPLLB
AD1
VCCA_HPLL
AE1
VCCA_MPLL
J48
VCCA_LVDS
J47
VSSA_LVDS
AD48
VCCA_PEG_BG
AA48
VCCA_PEG_PLL
AR20
VCCA_SM_1
AP20
VCCA_SM_2
AN20
VCCA_SM_3
AR17
VCCA_SM_4
AP17
VCCA_SM_5
AN17
VCCA_SM_6
AT16
VCCA_SM_7
AR16
VCCA_SM_8
AP16
VCCA_SM_9
AP28
VCCA_SM_CK_1
AN28
VCCA_SM_CK_2
AP25
VCCA_SM_CK_3
AN25
VCCA_SM_CK_4
AN24
VCCA_SM_CK_5
AM28
VCCA_SM_CK_NCTF_1
AM26
VCCA_SM_CK_NCTF_2
AM25
VCCA_SM_CK_NCTF_3
AL25
VCCA_SM_CK_NCTF_4
AM24
VCCA_SM_CK_NCTF_5
AL24
VCCA_SM_CK_NCTF_6
AM23
VCCA_SM_CK_NCTF_7
AL23
VCCA_SM_CK_NCTF_8
B24
VCCA_TV_DAC_1
A24
VCCA_TV_DAC_2
A32
VCC_HDA
M25
VCCD_TVDAC
L28
VCCD_QDAC
AF1
VCCD_HPLL
AA47
VCCD_PEG_PLL
M38
VCCD_LVDS_1
L37
VCCD_LVDS_2
CANTIGA_GM45
CANTIGA_GM45
3
Power Net Name
VCC_AXG_# VCC_AXG_NCTF_#
VCCA_PEG_BG VCCA_DPLLA VCCA_DPLLB VCCA_SM_# VCCA_HPLL VCCA_MPLL VCCA_SM_CK_# VCCA_PEG_PLL VCC_AXF_# VCCD_HPLL VCCD_PEG_PLL
CRTPLLA PEGA SM
CRTPLLA PEGA SM
A LVDS
A LVDS
POWER
POWER
A CK
A CK
TV
TV
HDA
HDA
D TV/CRT
D TV/CRT
LVDS
LVDS
AXF
AXF
VCC_SM_CK_1 VCC_SM_CK_2 VCC_SM_CK_3 VCC_SM_CK_4
SM CK
SM CK
VCC_TX_LVDS
HV
HV
PEG
PEG
DMI
DMI
Cantiga(V)
1.05V
1.5V
1.05V
1.05V
1.05V
1.05V
1.05V
1.05V
1.05V
1.05V
1.05V
1.05V
VTT_1 VTT_2 VTT_3 VTT_4 VTT_5 VTT_6 VTT_7 VTT_8
VTT_9 VTT_10 VTT_11 VTT_12 VTT_13 VTT_14 VTT_15
VTT
VTT
VTT_16 VTT_17 VTT_18 VTT_19 VTT_20 VTT_21 VTT_22 VTT_23 VTT_24 VTT_25
VCC_AXF_1 VCC_AXF_2 VCC_AXF_3
VCC_HV_1 VCC_HV_2 VCC_HV_3
VCC_PEG_1 VCC_PEG_2 VCC_PEG_3 VCC_PEG_4 VCC_PEG_5
VCC_DMI_1 VCC_DMI_2 VCC_DMI_3 VCC_DMI_4
VTTLF1 VTTLF2 VTTLF3
VTTLF
VTTLF
U13 T13 U12 T12 U11 T11 U10 T10 U9 T9 U8 T8 U7 T7 U6 T6 U5 T5 V3 U3 V2 U2 T2 V1 U1
B22 B21 A21
BF21 BH20 BG20 BF20
K47 C35
B35 A35
V48 U48 V47 U47 U46
AH48 AF48 AH47 AG47
A8 L1 AB2
2
+1.05V_VCCP_GMCH
C271
C271
C279
C279
.47u/6.3V_4
.47u/6.3V_4
2.2u/6.3V_6
2.2u/6.3V_6
1.05V
321.35mA
+1.05VM_AXF
+1.8VSUS_VCC_SM_CK
C593
C593 .1u/10V_4
.1u/10V_4
C654
C654 1u_4
1u_4
IV&EV Dis/Enable setting
+1.8VSUS_TXLVDS
SP@:INT use 1000pf EXT use 0 ohm
3.3V
105.3mA
1.05V 1782mA
+1.05V_VCC_PEG
1.05V 456mA
C640
C640
C634
C634
.47u/6.3V_4
.47u/6.3V_4
.47u/6.3V_4
.47u/6.3V_4
2
C612
C612 .1u/10V_4
.1u/10V_4
C277
C277
4.7u/6.3V_6
4.7u/6.3V_6
C668
C668 10u_8
10u_8
ESR = 60 m
R4851/F_4 R4851/F_4
C662
C662
SP@1000p/50V_4
SP@1000p/50V_4
+3V
C336
C336 .1u/10V_4
.1u/10V_4
C641
C641
4.7u/6.3V_6
4.7u/6.3V_6
C653
C653 .47u/6.3V_4
.47u/6.3V_4
1.05V FSB-1067 852mA
R150 0_8R150 0_8
+
+
C278
C278
C355
C355
4.7u/6.3V_6
4.7u/6.3V_6
330u/2V_7343
330u/2V_7343
ESR= 12m ohm
Modify REV:C
L51 0_8L51 0_8
1.8V DDR2-800 124mA
L46 1uh_8_0.3AL46 1uh_8_0.3A
+1.8VSUS_SMCK_RC
1.8V
118.8mA
L52 IV@0.1uH_6_300mAL52 IV@0.1uH_6_300mA
C671
C671
IV@22u_8
IV@22u_8
R191 10_4R191 10_4
C642
C642
22u_8
22u_8
0805 1UH , Rdc = 0.14 - 0.26. Max rated current = 220 mA
C589 10u_6C589 10u_6
0805 100 nH, DCR=160 m
+1.05V_SD
+
+
C643
C643 *220u/2.5V_3528
*220u/2.5V_3528
Modify REV:D
1.05V Internal connect to power
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
Date: Sheet of
1
External Graphics (GMCH Integrated Graphics Disable)
VCCSYNC_CRT VCCA_CRT_DAC VCCD_LVDS VCC_TX_LVDS VCCA_LVDS VCCA_TVDAC
VCCD_QDAC
VCCA_DAC_BG
+1.05V
VCC_AXG VCC_AXG_NCTF
+1.05V
+1.8VSUS
+1.8VSUS
D2 CH751D2 CH751
21
C733
C733 10u_8
10u_8
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
PROJECT :
GMCH POWER
GMCH POWER
GMCH POWER
1
+1.05V
R528 0_8R528 0_8
Z06
Z06
Z06
10 39Thursday, March 12, 2009
10 39Thursday, March 12, 2009
10 39Thursday, March 12, 2009
GND GND GND GND GND GND
N/A
GND GND GND
+1.05V
1A
1A
1A
5
U25I
U25I
AU48
VSS_1
AR48
VSS_2
AL48
VSS_3
BB47
VSS_4
AW47
VSS_5
AN47
VSS_6
AJ47
VSS_7
AF47
VSS_8
D D
C C
B B
A A
AD47 AB47
BD46 BA46 AY46 AV46 AR46
AM46
BF44 AH44 AD44 AA44
BC43 AV43 AU43
AM43
BG42
AY42 AT42
AN42
AJ42
AE42
BD41 AU41
AM41
AH41 AD41 AA41
BG40 BB40 AV40 AN40
AT39
AM39
AJ39
AE39
BH38 BC38 BA38 AU38 AH38 AD38 AA38
BF37
BB37
AW37
AT37
AN37
AJ37
BG36 BD36 AK15 AU36
N47 G47
V46 R46 P46 H46 F46
Y44 U44 T44 M44 F44
C43
N42
Y41 U41 T41 M41 G41 B41
H40 E40
N39 B39
Y38 U38 T38
F38 C38
H37 C37
Y47 T47
L47
J43
L42
L39
J38
VSS_9 VSS_10 VSS_11 VSS_12 VSS_13 VSS_14 VSS_15 VSS_16 VSS_17 VSS_18 VSS_19 VSS_20 VSS_21 VSS_22 VSS_23 VSS_24 VSS_25 VSS_26 VSS_27 VSS_28 VSS_29 VSS_30 VSS_31 VSS_32 VSS_33 VSS_34 VSS_35 VSS_36 VSS_37 VSS_38 VSS_39 VSS_40 VSS_41 VSS_42 VSS_43 VSS_44 VSS_45 VSS_46 VSS_47 VSS_48 VSS_49 VSS_50 VSS_51 VSS_52 VSS_53 VSS_54 VSS_55 VSS_56 VSS_57 VSS_58 VSS_59 VSS_60 VSS_61 VSS_62 VSS_63 VSS_64 VSS_65 VSS_66 VSS_67 VSS_68 VSS_69 VSS_70 VSS_71 VSS_72 VSS_73 VSS_74 VSS_75 VSS_76 VSS_77 VSS_78 VSS_79 VSS_80 VSS_81 VSS_82 VSS_83 VSS_84 VSS_85 VSS_86 VSS_87 VSS_88 VSS_89 VSS_90 VSS_91 VSS_92 VSS_93 VSS_94 VSS_95 VSS_96 VSS_97 VSS_98 VSS_99
CANTIGA_GM45
CANTIGA_GM45
VSS
VSS
GMCH (CANTIGA)
5
VSS_100 VSS_101 VSS_102 VSS_103 VSS_104 VSS_105 VSS_106 VSS_107 VSS_108 VSS_109 VSS_110 VSS_111 VSS_112 VSS_113 VSS_114 VSS_115 VSS_116 VSS_117 VSS_118 VSS_119 VSS_120 VSS_121 VSS_122 VSS_123 VSS_124 VSS_125 VSS_126 VSS_127 VSS_128 VSS_129 VSS_130 VSS_131 VSS_132 VSS_133 VSS_134 VSS_135 VSS_136 VSS_137 VSS_138 VSS_139 VSS_140 VSS_141 VSS_142 VSS_143 VSS_144 VSS_145 VSS_146 VSS_147 VSS_148 VSS_149 VSS_150 VSS_151 VSS_152 VSS_153 VSS_154 VSS_155 VSS_156 VSS_157 VSS_158 VSS_159 VSS_160 VSS_161 VSS_162 VSS_163 VSS_164 VSS_165 VSS_166 VSS_167 VSS_168 VSS_169 VSS_170 VSS_171 VSS_172 VSS_173 VSS_174 VSS_175 VSS_176 VSS_177 VSS_178 VSS_179 VSS_180 VSS_181 VSS_182 VSS_183 VSS_184 VSS_185 VSS_186 VSS_187 VSS_188 VSS_189 VSS_190 VSS_191 VSS_192 VSS_193 VSS_194 VSS_195 VSS_196 VSS_197 VSS_198
4
AM36 AE36 P36 L36 J36 F36 B36 AH35 AA35 Y35 U35 T35 BF34 AM34 AJ34 AF34 AE34 W34 B34 A34 BG33 BC33 BA33 AV33 AR33 AL33 AH33 AB33 P33 L33 H33 N32 K32 F32 C32 A31 AN29 T29 N29 K29 H29 F29 A29 BG28 BD28 BA28 AV28 AT28 AR28 AJ28 AG28 AE28 AB28 Y28 P28 K28 H28 F28 C28 BF26 AH26 AF26 AB26 AA26 C26 B26 BH25 BD25 BB25 AV25 AR25 AJ25 AC25 Y25 N25 L25 J25 G25 E25 BF24 AD12 AY24 AT24 AJ24 AH24 AF24 AB24 R24 L24 K24 J24 G24 F24 E24 BH23 AG23 Y23 B23 A23
4
3
U25J
U25J
BG21
VSS_199
L12
VSS_200
AW21
VSS_201
AU21
VSS_202
AP21
VSS_203
AN21
VSS_204
AH21
VSS_205
AF21
VSS_206
AB21
VSS_207
R21
VSS_208
M21
VSS_209
J21
VSS_210
G21
VSS_211
BC20
VSS_212
BA20
VSS_213
AW20
VSS_214
AT20
VSS_215
AJ20
VSS_216
AG20
VSS_217
Y20
VSS_218
N20
VSS_219
K20
VSS_220
F20
VSS_221
C20
VSS_222
A20
VSS_223
BG19
VSS_224
A18
VSS_225
BG17
VSS_226
BC17
VSS_227
AW17
VSS_228
AT17
VSS_229
R17
M17
H17
C17 BA16 AU16
AN16
N16
K16
G16
E16 BG15
AC15
W15
A15 BG14 AA14
C14 BG13 BC13 BA13
AN13
AJ13
AE13
N13
L13 G13 E13
BF12 AV12 AT12
AM12
AA12
J12 A12
BD11
BB11
AY11 AN11 AH11
Y11 N11 G11 C11
BG10
AV10 AT10
AJ10 AE10 AA10
M10
BF9 BC9 AN9 AM9 AD9
G9
B9
BH8
BB8
AV8
AT8
3
VSS_230 VSS_231 VSS_232 VSS_233
VSS_235 VSS_237
VSS_238 VSS_239 VSS_240 VSS_241 VSS_242 VSS_243 VSS_244 VSS_245 VSS_246 VSS_247 VSS_248 VSS_249 VSS_250 VSS_251 VSS_252
VSS_255 VSS_256 VSS_257 VSS_258 VSS_259 VSS_260 VSS_261 VSS_262 VSS_263 VSS_264 VSS_265 VSS_266 VSS_267 VSS_268 VSS_269 VSS_270 VSS_271 VSS_272 VSS_273
VSS_275 VSS_276 VSS_277 VSS_278 VSS_279 VSS_280 VSS_281 VSS_282 VSS_283 VSS_284 VSS_285 VSS_286 VSS_287 VSS_288 VSS_289 VSS_290 VSS_291 VSS_292 VSS_293 VSS_294 VSS_295 VSS_296
CANTIGA_GM45
CANTIGA_GM45
VSS
VSS
VSS NCTF
VSS NCTF
VSS SCB
VSS SCB
NC
NC
VSS_297 VSS_298 VSS_299 VSS_300 VSS_301 VSS_302 VSS_303 VSS_304 VSS_305 VSS_306 VSS_307 VSS_308 VSS_309 VSS_310 VSS_311 VSS_312 VSS_313 VSS_314 VSS_315 VSS_316 VSS_317 VSS_318 VSS_319 VSS_320 VSS_321 VSS_322 VSS_323 VSS_324 VSS_325
VSS_327 VSS_328 VSS_329 VSS_330 VSS_331 VSS_332 VSS_333 VSS_334 VSS_335 VSS_336 VSS_337 VSS_338 VSS_339 VSS_340 VSS_341 VSS_342 VSS_343 VSS_344 VSS_345 VSS_346 VSS_347 VSS_348 VSS_349 VSS_350
VSS_351 VSS_352 VSS_353 VSS_354 VSS_355
VSS_NCTF_1 VSS_NCTF_2 VSS_NCTF_3 VSS_NCTF_4 VSS_NCTF_5 VSS_NCTF_6 VSS_NCTF_7 VSS_NCTF_8
VSS_NCTF_9 VSS_NCTF_10 VSS_NCTF_11 VSS_NCTF_12 VSS_NCTF_13 VSS_NCTF_14 VSS_NCTF_15 VSS_NCTF_16
VSS_SCB_1 VSS_SCB_2 VSS_SCB_3 VSS_SCB_4
VSS_SCB_6
NC_26 NC_27 NC_28 NC_29 NC_30 NC_31 NC_32 NC_33 NC_34 NC_35 NC_36 NC_37 NC_38 NC_39 NC_40 NC_41 NC_42 NC_43
2
AH8 Y8 L8 E8 B8 AY7 AU7 AN7 AJ7 AE7 AA7 N7 J7 BG6 BD6 AV6 AT6 AM6 M6 C6 BA5 AH5 AD5 Y5 L5 J5 H5 F5 BE4
BC3 AV3 AL3 R3 P3 F3 BA2 AW2 AU2 AR2 AP2 AJ2 AH2 AF2 AE2 AD2 AC2 Y2 M2 K2 AM1 AA1 P1 H1
U24 U28 U25 U29 AJ6
AF32 AB32 V32 AJ30 AM29 AF29 AB29 U26 U23 AL20 V20 AC19 AL17 AJ17 AA17 U17
BH48 BH1 A48 C1
A3 E1
D2 C3 B4 A5 A6 A43 A44 B45 C46 D47 B47 A46 F48 E48 C48 B48 A47
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
2
Date: Sheet of
1
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
PROJECT :
GMCH VSS
GMCH VSS
GMCH VSS
Z06
Z06
Z06
11 39Thursday, March 12, 2009
11 39Thursday, March 12, 2009
11 39Thursday, March 12, 2009
1
1A
1A
1A
5
ICH9M
C515 6p/50V_4C515 6p/50V_4
IV@
EV@
D D
C C
SATA HDD
ODD (SATA)
C516 6p/50V_4C516 6p/50V_4
24.9 Ohm pull up to 1.5V for GLAN_COMPI/O is required, no matter intel LAN is used or not.
SATA_RXN0(24) SATA_RXP0(24)
SATA_TXN0(24) SATA_TXP0(24)
SATA_RXN1(24) SATA_RXP1(24)
SATA_TXN1(24) SATA_TXP1(24)
Modify REV:B
+VCCRTC
Internal pull-down resistors that are always enabled
23
Y3
Y3
32.768KHZ/H1.4
32.768KHZ/H1.4
4 1
R596 1M/F_6R596 1M/F_6 R594 330K/F_4R594 330K/F_4
R595 330K/F_4R595 330K/F_4
Internal VRM enabled for VccSus1_05, VccSus1_5, VccCL1_5, VccLAN1_05 and VccCL1_05.
+3V_S5
+1.5V
ACZ_SDIN0(26) ACZ_SDIN1(26)
SATA_LED#(24)
R390
R390 10M_6
10M_6
R584 10K_4R584 10K_4 R360 24.9/F_4R360 24.9/F_4
T87T87 T36T36
SATA_TXN0_C
.01u/16V_4C405 .01u/16V_4C405
SATA_TXP0_C
.01u/16V_4C406 .01u/16V_4C406
SATA_TXN1_C
.01u/16V_4C404 .01u/16V_4C404
SATA_TXP1_C
.01u/16V_4C403 .01u/16V_4C403
CLK_32KX1 CLK_32KX2
RTC_RST# SRTC_RST#
SM_INTRUDER#
ICH_INTVRMEN LAN100_SLP
ICH_GPIO56
HDA_BIT_CLK_R HDA_SYNC_R
HDA_RST#_R
HDA_SDIN2 HDA_SDIN3
HDA_SDOUT_R
4
U32A
U32A
C23
RTCX1
C24
RTCX2
A25
RTCRST#
F20
SRTCRST#
C22
INTRUDER#
B22
INTVRMEN
A22
LAN100_SLP
E25
GLAN_CLK
C13
LAN_RSTSYNC
F14
LAN_RXD0
G13
LAN_RXD1
D14
LAN_RXD2
D13
LAN_TXD0
D12
LAN_TXD1
E13
LAN_TXD2
B10
GLAN_DOCK#/GPIO56
B28
GLAN_COMPI
B27
GLAN_COMPO
AF6
HDA_BIT_CLK
AH4
HDA_SYNC
AE7
HDA_RST#
AF4
HDA_SDIN0
AG4
HDA_SDIN1
AH3
HDA_SDIN2
AE5
HDA_SDIN3
AG5
HDA_SDOUT
AG7
HDA_DOCK_EN#/GPIO33
AE8
HDA_DOCK_RST#/GPIO34
AG8
SATALED#
AJ16
SATA0RXN
AH16
SATA0RXP
AF17
SATA0TXN
AG17
SATA0TXP
AH13
SATA1RXN
AJ13
SATA1RXP
AG14
SATA1TXN
AF14
SATA1TXP
ICH9M REV 1.0
ICH9M REV 1.0
RTCLAN / GLAN
LPCCPU
RTCLAN / GLAN
LPCCPU
IHDA
IHDA
SATA
SATA
FWH0/LAD0 FWH1/LAD1 FWH2/LAD2 FWH3/LAD3
FWH4/LFRAME#
LDRQ0#
LDRQ1#/GPIO23
A20GATE
A20M#
DPRSTP#
DPSLP#
FERR#
CPUPWRGD
IGNNE#
INIT# INTR
RCIN#
SMI#
STPCLK#
THRMTRIP#
SATA4RXN SATA4RXP SATA4TXN SATA4TXP
SATA5RXN SATA5RXP SATA5TXN SATA5TXP
SATA_CLKN SATA_CLKP
SATARBIAS#
SATARBIAS
NMI
TP8
K5 K4 L6 K2
K3 J3
J1 N7
AJ27 AJ25
AE23
H_FERR#_R
AJ26 AD22 AF25 AE22
AG25 L3
AF23 AF24
AH27
H_THERMTRIP_R
AG26 AG27
AH11 AJ11 AG12 AF12
AH9 AJ9 AE10 AF10
AH18 AJ18
SATA_RBIAS_PN
AJ7 AH7
SATABIAS L<0.5"
3
LDRQ0/1# : Internal PU
T42T42 T44T44
R330 8.2K_4R330 8.2K_4
R247 56_4R247 56_4
R349 10K_4R349 10K_4
R258 54.9/F_4R258 54.9/F_4
T33T33
R560
R560
24.9/F_4
24.9/F_4
+3V
+3V
CLK_PCIE_SATA# (2)
CLK_PCIE_SATA (2)
LAD0 (25,29) LAD1 (25,29) LAD2 (25,29) LAD3 (25,29)
LFRAME# (25,29)
GATEA20 (29) H_A20M# (3)
H_PWRGD (3) H_IGNNE# (3) H_INIT# (3)
H_INTR (3)
RCIN# (29) H_NMI (3) H_SMI# (3)
H_STPCLK# (3)
H_THERMTRIP_RR
2
Intel ICH9M
+1.05V
R567 *56_4
*56_4
R259 56_4R259 56_4 R277 *0_4R277 *0_4
No use Thermal trip SB side still PU 56ohm.(Serial R use 0ohm) Use Thermal trip can share PU for CPU and SB side(And Serial R use 54.9 ohm) PU L<2"
DPRSTP# , Daisy Chain
*56_4
*56_4
(SB>Power>NB>CPU)
ICH_DPRSTP# (3,6,33) H_DPSLP# (3)
+1.05V
PM_THRMTRIP# (3,6)
Layout note:
R281
R281
R567
+1.05V
R248
R248 56_4
56_4
1
AJSLB8Q0T03
H_FERR# (3)
HD Audio
B B
HDA_SDOUT_R
Weak integrated PD on the HDA_SDOUT pin.
HDA_SYNC_R
Weak integrated PD on the HDA_SYNC pins
R284 EV@22_4R284 EV@22_4 R236 IV@33_4R236 IV@33_4 R255 33_4R255 33_4 R244 33_4R244 33_4
R260 EV@22_4R260 EV@22_4 R239 IV@33_4R239 IV@33_4 R261 33_4R261 33_4 R242 33_4R242 33_4
MXM_SDOUT_HDMI (20) HDA_SDOUT_HDMI (6) ACZ_SDOUT_MDC (26) ACZ_SDOUT_AUDIO (26)
C392
C392 *10p/50V_4
*10p/50V_4
MXM_SYNC_HDMI (20) HDA_SYNC_HDMI (6) ACZ_SYNC_MDC (26)
ACZ_SYNC_AUDIO (26) ACZ_RST#_AUDIO (26)
C391
C391 *10p/50V_4
*10p/50V_4
HDA_BIT_CLK_R
24.000 MHz is output from the ICH9M.
R282 EV@22_4R282 EV@22_4 R240 IV@33_4R240 IV@33_4 R256 33_4R256 33_4 R245 33_4R245 33_4
HDA_RST#_R
HDA_SDIN3 HDA_SDIN2
C394
C394 *10p/50V_4
*10p/50V_4
C395
C395 *10p/50V_4
*10p/50V_4
R257 EV@22_4R257 EV@22_4 R237 IV@33_4R237 IV@33_4 R246 33_4R246 33_4 R241 33_4R241 33_4
R286 EV@0_4R286 EV@0_4 R254 IV@0_4R254 IV@0_4
MXM_BIT_CLK_HDMI (20) HDA_BIT_CLK_HDMI (6) BIT_CLK_MDC (26) BIT_CLK_AUDIO (26)
C393
C393 *10p/50V_4
*10p/50V_4
MXM_RST#_HDMI (20) HDA_RST#_HDMI (6) ACZ_RST#_MDC (26)
MXM_SDIN_HDMI (20) HDA_SDIN_HDMI (6)
South Bridge Strap Pin (1/3)
Pin Name
HDA_DOCK_EN/ GPIO33
A A
SATALED#
TP3
HDA_SDOUT
Strap description
Flash Descriptor Security Override Strap
PCI Express Lane Reversal (Lanes 1-4)
XOR Chain Entrance
XOR Chain Entrance /PCI Express* Port Config 1 bit 1(Port 1-4)
5
Sampled
PWROK
PWROK
PWROK
PWROK
Configuration PU/PD
0 = The Flash Descriptor Security will be overridden. 1 = The security measures defined in the Flash Descriptor will be in effect
Internal PU
ICH_TP3
HDA_SDOUT
0 0
1 1
4
0
RSVD Enter XOR Chain
1
Normal opration(Default)
01
Set PCIE port config bit 1
Description
This strap should only be enabled in manufacturing environments using an external pull-up resistor.
ICH_TP3(14)
HDA_SDOUT_R
ICH_TP3
3
R592 *1K_4R592 *1K_4
R271 *1K_4R271 *1K_4
+3V
RTC
+3VPCU
Pjt: BCBAT54CZ04 Ons: BCBAT54CZ70
VCCRTC_1
20MIL
R537
R537 1K_4
1K_4
1 3
VCCRTC_2
20MIL
12
CN16
CN16 RTC_ML1220
RTC_ML1220
Change type
Modify REV:C
2
D31
D31
BAT54C
BAT54C
2
RTC_N01
Q39
Q39
MMBT3904
MMBT3904
RTC_N03
+VCCRTC
20MIL
C723
C723 1u_4
1u_4
C724
C724 1u_4
1u_4
SRTC_RST#
12
RTC_RST#
12
R539 16K_6R539 16K_6
C675
C675 1u_4
1u_4
R538
R538
68.1K/F_4
68.1K/F_4
R536
R536 150K/F_6
150K/F_6
R580 20K_6R580 20K_6
R581 20K_6R581 20K_6
+5VPCU
Pitch: 1,25mm; Height: 1.95mm
Quanta Computer Inc.
Quanta Computer Inc.
Quanta Computer Inc.
PROJECT :
PROJECT :
Size Document Number Rev
Size Document Number Rev
Size Document Number Rev
Date: Sheet of
Date: Sheet of
Date: Sheet of
PROJECT :
ICH9M HOST
ICH9M HOST
ICH9M HOST
Z06
Z06
Z06
12 39Thursday, March 12, 2009
12 39Thursday, March 12, 2009
12 39Thursday, March 12, 2009
1
G2
G2
*SHORT_ PAD
*SHORT_ PAD
G3
G3
*SHORT_ PAD
*SHORT_ PAD
2A
2A
2A
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