Sơ đồ khối Mainboard H55 MXV

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DDR3 CHA - B 11-15 Intel Lynnfield/Havendale processors in LGA1156 Package

JMB363,368 39-40 Clock Generator :ICS9LRS4105

FP-USB1,USB2,USB3 45-47 HDA Codec:ALC88S/ALC662

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BLOCK DIAGRAM

CHANNEL A DDR3 SDRAM (800/1066/1333)

CHANNEL B DDR3 SDRAM (800/1066/1333)

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from 3VDUAL trun on by SLP_M#

| | / | from 3VDUAL trun on by SIP MỸ , ,

H_VTTPWRGD

H_DFGT_VR_EN H_VID_DFGT_R_[0:6]

+V_1.1_AXG H_VID[0:7]

| Erom PS_ON# 100~500m$ (PSU spec)

From PCH _PROCPWROK to CPU_VCCPWRGD

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+VCORE (CPU Vcore) PCI Express X16

> DDR3 (2 DIMM) SWLTCHING Voltage=1.1V | | D

SWITCHING Tcc=90A Ice (Max)=90A Max=100A +12V=5.5A

+V_1.5_SM=1.5V Iec=20A Max=100A 4-Phases Swithing ACPI +3VDUAL,

Max=25A s = = +V_1.1_AXG(Havendale only Controller @ Icc (Max) =0.375A (wake)

WITCHIN Voltaqe=1.1V +3VDUAL Ice (Max) =0.02A(no wake

Tcc=16A g

=20 Icc=16A Max=20A Tcc=1l.25A

+V_SM VTT=0 75V _—SM_VTT=0 + 1.5-EM(1.SW) tơ +V_SM_VTT (0.75V) == +V_1.5_SM(DDR III) ®——} | +3V=3A — |

Iec=0.75A Max=lA @® WVoltage=1 5V

SWITCHING

a een — | +V_1.1_vTT(1.1/1.05v) | PCI Express X4 H

| VCCPLL (1 8V) | +3VDUAL

@® Tcc (Max) =0 375A (wake)

RTL8111DL GbE Lan Ice (Max) =0.02A(no wake

° DVDD12/EVDD12 289mA í SWITCHING VCCME (+V_1.05_ME) PCI Slot -12V nv °

Iec=2A Voltage=1.05V Tcc (Max) =0 1A

Max=2 5A Tcc (Max) =2.4072A

+5V HDA Codec +5V Icc (Max) =5A

+5VA TRS | VCCDMI 0.0655A |

VW CPU IO 33uA VCC +12V

Voltage=3 3V Tcc=40mA +3V +3V TO +v 1.8 srn | #— || VCCPNaANDEI.Sv 0.01559A | Tcc (Max) =0 5A © |

Tee=1.5A +3VDUAL

| †3VDUAI 0.168A | @ Tcc (Max) =0 375A (wake)

| 3.3vV 0.3572A | Tecc (Max) =0 02A (no wake

VCCME (V_3P3_EPW) Super 1/0 0.0862A CK505

Document Number HS55MXV Date: Wednesday, April 21, 2010 Bheet 4 of 50

1

Hev size

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HUIE

21 G GPU _GLK DP BCLKO vipomsipo [440 — 1 pees

21 C_CPU_CLK DN BCLK0* VID1/MSID1 HE 3H

21 O PE 100M DMI_DP PEG CLK h VID2/MSID2 [U38 37 FS SID: 1 Ae 1 #HEEDE VI: VID: Danereye | RNG 51 51 =E = R572

21 C_PE_100M_DMI_DN PEG CLK VIDS/MSID3 | 82 —aSi5a 1 “yREFGES7_H VID 51 Ohm

21 C_PGH_DP_120M_DP BCLK1 VID4/MSID4 [H38—TTID;— T—— to di +*5% +/-5% Dummy

viipivtr 2! © PCH_DP_120M_DN BCLK1 VIDSMSIDG U34 SID 1 I H_VID

18,47 H_PWRGD >> | 1 2 20801 AHS6 VECPWRGOOD_1 GEX.VID1 B12 — GEX VIDÍ† #HiELOEIO H.VID-DEOT-R 1 hề -L CLTHERMIEIEE

SỐ 1 | 2_ AH38_Í VCCPWRGOOD_0 — GFX VID2 E12— — E11 S2 EEDETZ F 1 #HEEDE17 HVID DFGT.R 2 45 VID” Ro = ————

44,46 pNHA5:6) dưmféẰ——————DDO 3—| vTTPWRGOOD GEX VID3 LETT—PX-VIDX+ “PHEFDET8 H VID DFGT R 3 45

18 H_DRAMPWRGD 2 SM_DRAMPWROK GEX_VID4 = DE = H VID DFGT R 4 45

GFX VIDS [LGLL—SEX = TL GEX VIDðI #HEEDE14 L3 1 "rfEEOE1S HVID DFGTR 5 45 | VID_DFGT_R_ V_1P1 VTT

1 H_PECI >> H_PECI AG35 GFX_VID6 H_VID_DFGT_R6 45 P

7 HPEO HCGATERR —agaaq| PECL EC AEss | A38

44 H_PROCHOT# > PROCHOT* VTT_SELECT LẠE39———=—=m———)H VIT VIDIL 46

17 H THERMTRIP# €C—H-BM-SVNG CA 25Q THERMTRIP* EC AGao |AG40 LLTP.A949 “orp 14 4 TDI - gus n

V IP1 VTT 17 HPMSYNGO > PM_SYNC Fos |

—Q- ABS VCC_SENSE | 138———————————>UH VGG SENSE 44 Ick p34

CÌ PM EXT TS0* VSS SENSE | T3 ————————Ệ2H VSS SENSE 44 — ee

PT > > HBG KT 30 BETH PM_EXT_TS1* VTT_SENSE H_VCCTT_SENSE 46

Bia Ẵ a COMP2 VSS_SENSE_VTT H VSSTT SENSE 46 Close teri | =

[ " 457 1 8 @RPR nawear | ie 1 1

Hà = | ve -8_SFR power a + 3 — SM_RCOMPO VAXG_SENSE LR1d— # VOoaxG._SENSE 45

Ww | Reference twee REOMpzADL | SM RCOMP1 lực VSSAXG_SENSE 818 951 vssax@ SENSE 45

TRST* Ð H_TRST# 47 18/33,47 S_PLTRST#

#REFDE8 PRDY* xá —— —àỳ H_PRDY# 47

PREG: pak H_PREQ# 47 co < FP_LRSTH — 18,40,47 Dummy 1.5K R244H_GPU_CFGO E8 CFGO BCLK_ITp* 4K40 »; xpp_CLKOUT_DN 47 DBR' Ð hân ° dummy 3)XDP CPU RST# 47 = = = = Dunmy., |, LšKRZ24BH CPU GEGI €8 Í cFQI BCLK ITP FK38—————————L) XDP GLKOUT DP 47

E10 cree TAPPWRGOOD LÀK34_——————rz 29H TAPPWRGOOD 47 Dummy 1.5K R234H_GPU_GEG3 E10 + DAL39 H_RSTOUTH <e tL

= Dummy 1.5K R203H_CPU_OFG4 H10 | CEoa RESET_OBS H_LASTOUT# 4

> >~—H9 | cros VRD design guide Page 43

=— >~—E*' cres _== ~—f® Ìcre;

update by wesley 09/29 > G12] Greg Processor Icc(max) Thay POC Gain Setting

“ke oral BPMe" DAkao Icc(max) < 40 A 40A 001

R204 1.5K _Dumrky CPU CFGIS “Kia | CERT BBMe: DAKâi

0 PEG Config Table | PEG SELO (max)

1 PEG Config Table | PEG SEL1 P On Confi

2 | PEG Config Table | PEG SEL2 owerwn vonilg RN0

3 Normal / Reverse | Lane Normal 7 5%

: Function Default

4 Disable /Enable |DP Presence

VIDO MSIO Low 44 H_VIDO

5 RESERVED - 44 H_VID1

6 RESERVED VID1 MSI1 High 44 H_VID2

- 44 H_VID3

VID2 MSI2 High 44 H_VID4

7 ENGINEERING EXPERIMENT 44 H_VIDS ®

VID3 | IMON CONFIGO Low 44 H_VID6

45 EACIACE DIAC JRAC ALT 44 H VID7

CFG[0.5LHA 5 VID4 | IMON CONFIG1 | Low le

—— VID5 | IMON CONFIG2 High RNAI

SEL2| SEL1| SELO| PCI-E Confi -E Config VID6 | RESERVED Low “ ive

1 1 1 1x16 VID7 | VRD SELECT Low CPU-1:MISC

x ize Document Number ev

Date: Wednesday, April 21, 2010 Bheet 5 of 50

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ằđ> » ¬ OQ

FDI_TXO

FDI_TX3 FDI_TX3*

FDI_TX4 FDI_TX7*

p—mmm`X EXP A TX DP[15 0] 13

13 X EXP A RX DN[I5 0) S— Xx —— ———— C2! PEG RXO PEG TXo LOZ —_*_EXF_A TX _DPO P=X EXP A TX DN[i5.0] 13

D9Q PEG RX0* PEG TX0* ĐDZ EXP _ATX_DNG XEXP_A AX DPT pa] PEG_RN nho mi [E2 — XEP AIX Di XEXP A HX DNI cad BEG Hit bE oN | Pes X EXP.A IX DNi

XEXPA RXDP2_ A7 PEC Bis nes tà Pes _X_EXP_A TX DP2

X_EXP_A_RX_DN2 AG PEG Bio bE oN ° GES X_EXP_A TX DN?

X_EXP_A_RX DPS Bs BEG Ra PS Ne PFs XEXPA IX DP3

XEXP A HX DN3 ced PEG Ext EEo Tự 3 E4 X EXP.A TX DN3

XEXPA RXDP4_ A5 _HX3 _TX3" Poe X EXP A IX DP4

m X_EXP_A_RX_DN4 BS PEG_RX4 PEG_TX4 Gs X_EXP_A_TX DN4

20 X_EXP_A_RX_DP5 © PEG_RXx4* PEG_TX4" Pp X_EXP_A_TX_DP5

20 XEXP A HXDNS C4 B4 Í PEG RX5 aon ty PEG TXs H4 Si H3 X_EXP_A_TX DNS

2 XEXP.A ñX DP6 C3 C| PEG RX5 PEG_TX5* Ð E7 XEXPA IX DP6

20 X_EXP_A_RX_DN6 PEG_RX6 fl PEG _TX6 X_EXP_A_TX_DNO

20 X_EXP_A_RX DP7 _pp DSq PEG _RX6* LÍ @ Pre Txe'DÊ/ i 16 XEXP_A_TX DP7

20 X_EXP_A_RX_DN7 PEG_RX7 PEG_TX7 X_EXP_A_TX DNV

20 XEXP A RX DPB — ei] E2q PEG _RX7* PEG RN PEG 1x7" pws nRO 1a | K3 — XEXP A IX D9

X_EXP_A_RX DNB E1 G_RX8 | GTB Fa X_EXP_A TX DNS

x X_EXP_A_RX DP9 Ga C| PEG_RX8 PEG_TX8" Ð HB _ X EXPA IX DP9

20 CE RK oN Q2 PEG_RX9 PEG TX9 3 Ea X_EXP_A_TX DNO

x X_EXP_A_RX DP10 Sa ‘G PEG _RX9 PEG TX9* Ð 1L — X EXPA IX DPI0

20 SKE ONT HY PEG_RX10 PEG_TX10 OTs X EXP.A IX DNI0

x XEXP_A_AX DPT 13 C| PEG_RX10 PEG _TX10* Ð Má EXP_A 1X DPI

x X_EXP_A_RX_DN J2 PEG_RX14 PEG_TX11 M3 XEXPA TX DNIH

20 ERE OEP 2 ml O PEG_RX11" PEG TX011Ð K7 _X_EXP_A_TX DP12

20 X_EXP_A_RX_DN < Kig peg Rx12* PEG X12 PEG TX12* DLZ PEG_TX12 X_EXP_A_TX_DNi2

XEXP A AX DPIS 124] PEGA GTX)?’ PNe XX EXP_ATX_DPIS X_EXP_A_RX_DN13 Lad PEG H13! Pee Te: > NS X EXP.A IX DN13

X EXP A RX DPI4— pa GES RY 3 BES pet Ma xX EXP_A IX DP14

EXP A-RX DNi4 pad] PES Bra bE oN 14 N8 X EXP.A TX DN14

XEXPA RXDP1SD Ta PEG pia nes ni PRs XEXP A IX DP15

| XCEXP_ARX DNIS — Táo PEG Bet Phe Tae LBé X_EXP_A TX DNiS |

16 H_DMIL_RX_DPO DMI_RX0 DML Txo LLL———):| DMI TX DP0 16

18 H DML RX DN0 DMI_RX0” DMI_TX0” H DMI TX DN0 16

18 H DML RX DP1 DMI RX1 Ø Di rTxi H.DMI TX DP1 16

16 H DMI RX DN1 DMI_RX1* CC DMI TXI H DMI TX DN1 16

16 H DMI RX DP2 DMI_RX2 H DMITX2 H DMI TX DP2 16

18 H DMIL RX DN2 DMI_RX2* DMI_TX2* H DMI TX DN2 16

16 H DMI RX DP3 DMI_RX3 DMI TX3 H DMI TX DP3 16

16 H DMIL RX DN3 DMI_RX3* DMI_TX3” H DMI TX DN3 16

Po “| TT Cự

PEG Icomp! LDU - H GRCOMP _| _ Ri88 % 499°

PEG ICOMPO Ị tê mm») PEG_RCOMPO ]

PEG_RBIAS | AU [H_GRBIAS Lo —, Rist “Ww 25 +/-1%

0.4''<L<1.4"

3/10 W=10mil = GPU Socket

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SA_ODTO SA_ODT1 SA_ODT2

SA_CKO SA_CKO*

SA_CK1 SA_CK1*

SA_CK2 SA_CK2*

SA_CK3 SA_CK3*

SA_DQS8 SA_DQS8*

SA_ECC_CBO

SA ECO CB1 SA_ECC_CB2 SA_ECC_CB4 SA_ECC_CB6

SA_DMO SA_DQO SA_DQ1 SA_DQ2 SA_DQ4 SA_DQ6 SA_DQS1 SA_DQS1*

SA_DM1 SA_DQ8 SA_DQ10

SA DQ11

SA DQ12

SA DQ14 SA_DQS2 SA_DQS2*

SA_DM2 SA_DQ16

SA DQ18 SA_DQ20 SA_DQ21 SA_DQ22 SA_DQS3 SA_DQS3*

SA_DM3 SA_DQ24 SA_DQ26 SA_DQ28 SA_DQ30 SA_DQ31 SA_DQS4 SA_DQS4*

SA_DM4 SA_DQ32 SA_DQ34 SA_DQ36 SA_DQ38 SA_DQS5 SA_DQS5*

SA_DM5 SA_DQ40

SA DQ41

SA DQ42

SA DQ44 SA_DQ46 SA_DQS6 SA_DQS6*

SA_DM6

SA DQ48 SA_DQ50 SA_DQ51 SA_DQ52 SA_DQ54 SA_DQS7 SA_DQS7*

SA_DM7 SA_DQ56 SA_DQ58 SA_DQ60 SA_DQ61 SA_DQ62

D3 _DQS A DP0 1i D3 _DQS A DNG 11 D3 _DM A0 11 D3 _DATA Al63.0] 11

D3 _DQS A DPT1 11 D3 _DQS A DN1 11 D3 _DM A1 11

D3 _DQS A DP2 11 D3 _DQS A DN2 11 D3 _DM A2 11

D3 _DQS A DP3 1i D3 _DQS A DN3 11 D3 _DM A3 11

D3 _DQS A DP4 1i D3 DQS A DN4 ti D3 _DM A4 11

D3 _DQS A DPS5 1i D3 _DQS A DNS 11 D3 _DM A5 11

D3 _DQS A DP6_ 1i D3 _DQS A DN6 ti D3 _DM A6 11

D3 _DQS A DP7 1i D3 _DQS A DN7 ti D3 _DM A7 11

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12 D3 MAA BỊ15.0] < HU1B

5 : AY18 Ì SB MA4 AV17 sB_DQo | ẬDZ——Đ3_ĐATA Eo AD6_ D3 DAIAB & <>> D3 DATA BỊ63.0] 12

= AW17 SB MA5 SB DQ1 AHB _ D3 DATA-E DAIA_BZ

= AU16 SB MA6 SB DQ2 AuJja _ D3 DATA-E DAIA_B

= AT17 SB_MA7 SB DQ3 AC7 — D3 DATAE DAIA B4

D AY16 | saya SB_MA8 SB_DQ4 Ace _D3_DATA B DATA Bd

D 0 AY25 | OB MAIO _MA9 SB DQ5 AFS D3 DATA B 5

D AW16 | oo ŠB_DQ6[ AEe — D3 DATA B/

12 D3_CAS BR <————-All27g 8 “Cas* SB_Dag AL sat

12 D3_RAS BE &—— _Ali2éq sp RaS* SB_DQ1o (AMA a

12 D3 SBS BỊ2.0] D SB DQ1i DATA E

D3 SBS BI SB BSI SB DQ13 AG4_— D3 DAIA B DATAE D3 SBS B2 SB BS2 SB DQ14 Al7 — D3 DAIA B1: SS DATE EE

D3 _SGKE_B0 SB_DQ17 }ANS D3 DATA B17

12 D3 SGKE_B0 SB_CKEO SB Doig -APG D3 DATA B18

D3 SCKE BÍ _ ARS D3 DATA B19

12 D3_SCKE_B1 SB_CKE1 SB_DQ19 LARŠ—SƑBATA B20

AUD) SB CKE2 SB_DQ20 A Đà DATA Bội

AVE SB CKE3 SB_DQ21 TEESE

SB_DQ22 ANZ ——

SB DQ23 [APB_— Ð3_ĐATA 523 D3 _ODT B0 a

12 D3 ODT B0 & BS ODT BI SB_ODT0 AR

12 D3 ODT BI SB ODTI SB DQsa LÀBB {% D3 DQS B DP3 12

Alea SB_ODT2 sB_Das3* DA E8] SŠ Da DQS B DN3 12

SB_ODT3 SB_DM3 >> D3 DM B3 12

SB_DQe4 FATE DS DATA Bed

12 D3_CK_DDR_B_DPO SB_CKO $B_Da2s ABZ bs bate

12 D3_CK_DDR_BDNO <——————_AB18q 8 Ko" SB DQ26 LAH3 — TA b2;

12 D3 GK DDR B DP1 SB CK† Ơ S8 DQ27 [AMB —ETPATA B22

12 D3 œ DDR BDNI: Á&————— JP!5ä sa GKI S8 _DQ28 | ANS aS

ANIZ gp CK2 Ợ SB_DQ2o LARB—ETHATA Bao ANI6g sB CK2" a SB_DQ30 LAhŠ—Bš DATA Bài AEI8 | sp CK3 | SB DQ3I ———

$B_Dass* pABS82 J ——Š 53 Das BDNS 12

SB_DM5 D3 DM B5 12

›AR1“ | s8 Ecc_©B0 AT32_ D3 DATA B40

SB ECC CB1 SB_DQ40 [T31 Da DATA Bd SB_ECC_CB2 SB DQ41 [T32 Da DATA Bd

$B_Da6o fF ANS5_BS BATA Sot — AM34 DATA B

tò eB pace Alg5 D3 DATA B62 FOXCONN PCEG

LD SB DQ63 AL36_ D3 DAIA B63

CPU-5:DDR3_CHB CPU Socket ize A Document Number H55MXV [ 5» Qv

1

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A26 VGC 3 VGC 91 H29 AC40 VTT 4 VTT 59 TZ A17 VAXG 3 VDDQ 3 A15 A27 VGC 4 VGC 92 H31 AD38 VTT 5 VTT 60 T8 A18 VAXG 4 VDDQ 6 AT10 A33 H32 AD39 VZ B14 AT18

An | VCC 5 VOC 93 L2 ADEA | VTT 6 vit 61 B14, VAXG 5 VDDQ 4 LẠ VGC 6 VGC 94 VTT 7 VTT 62 VAXG 6 VDDQ 5

A26 H35 AE39 B17 AU11

An | VCC 7 VỌC 95 [2P AE | VTT 8 ABZ B1] VAXG 7 vopa_7 AUT VCC NGTF 1 VGC 96 VTT 9 VTT 63 VAXG 8 VDDQ 8

B23 H38 V38 AC5 C14 AV16

B34 J25 AA35 D15 tg AY14

cac | VỌC 20 VOC 109 Liên ACS | VTT 21 VTT 73 LÀN E12-| VAXG 21 G25) VOC 21 vec_110 [2 ACAG vTT 22 gy vit 74 ES BIS VAXG 22 VCC_22 vCC_111 vit23 k2VTT 75 VAXG 23

R22) voc 34 Q_ vcc 124 -K30 v34 | VTT 36 t——~ : ##+z—‡ HI5 | VAXG 36

D29 tg K32 V35 * ©32 HiZ

D26 K39 Y35 K15

Dao | VCC 40 VOC 130 [K33 van VTT 42 10V X5R, +/-10% Ko | VAXG 42

EL voc 56 voc_146 ao ALZ0 vIT 56 VCC 57 VCC 147 VTT 57

E24 M19

E22] VỌC 58 VỌC 148 [HS E28 vcc_59 VGC 149 7/10 2Í VCC_60 VCC_150 | M122

E28 > - M24

Eao | VCC 61 VCC_151 [te GPU Socket

Su | VCC 70 VOC 160 | MMR VCC 71 vcc 161i [M4 CẼÀ HHH ¬ G23) vec 72 VGC 162 [N33 |

G39 Dán | VỌC 83 - VOC 173 [E33 — P39 CLOSE TO CPU |

i121 voc _84 voc_174 ead $e “========-=-==-=- ® Lao | VỌC 85 VOC 175 [R32

H22 | VỌC 86 VOC 176 [E34 VCC 87 VCC 177 H25 Í VỌC 88 VCC 178 B36 vệ La ie FOXCONN PCEG

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AIG yg vss_282 | AP35 A25_| vss 2 VSS_92 | AES8

3 AB20

BS 33 vss 7 VSS_97 AB23 ABSS | vss 8 VSS_98

34 VSS 9 VSS 284 AB30 AB35 AR40

ABS | Vss_10 VSs_99

36 AT12

ABS | VSS 11 37 VSS 100 AT14 VSS 12 V§S 101

AB38 AT16

ARSE vss 13 VSS_102

29 AT2

Tan | VSS 14 40 VSS 103 AT24 Tấn | VSS 15 V§S 104

6 AT27

ABS 8 VsS_16 VSS_105 AT30 ABS vss 17 VSS_106

1 VSS 18 V§S 285 AT34 AD5 AT37

ADS 8 vss 19 VSS_286 AT5 ADE, vss 20 VSS_110

3 V§S 21 VSS 287 AT8 AE37 Fac] vss 22 VSS 111 [A42 AU32

AE 7| VSS 23 VSS 288 [A4 GEL vss 24 vss_2s9 [Av FAD 6 vss 25 VSS_290 AV3

ant vss 26 V8S_113

34 VSS_27 VSS 114 AV31 AG36 AG7 VSS 28 Q 2 V§S 115 AV34 AV38

AGZ 3 vss 30 Ơ VSS_291 AY33 VSS_31 VSS_118

AH33 AY36

Tan vss 32 V§S 119

38 | VSS 33 vss_120 FAY4

AH5 - — AYZ Alt VSS_276 VSS_121 BiG

full, vss 34 vss_122 [B16 A1] VSS 35 vss_123 | B24 Atl, vss 36 vss_124 | B22 Awl vss 37 VSS 125 [B40 A118 | VSS 38 VSS 126 [B44

AE | VSS 39 VsSS 127 [B3 2d —| VSS 40 vss_128 [BZ AWA vss 41 vss_129 | 82—

AWE vss 42 VSS 130 218 AIZE vss 43 vss_131 [Gis VSS 44 V§S 132

AK vss 51 VSS 139 LÊ

KE vss 52 vss_140 | 219 AKA! vss_277 VSS 141 [B12

AK VSS_53 VSS 142 [B18 Tân | VSS 54 VSS 143 [P18 ALT vss 55 VSS 144

13 D22

AL13-| 16 VSS 56 V§S 145 D25 AL18-| v$S 57 V§S 146

19 V$S 58 VSS 147 D28 AL22 D231

2 | VSS 66 vss_155 | D8 7M vss 67 VSS 156 E13 M20 | VSS 68 VSS 157 E18

AM | VSS 278 vss_158 ELS alia, 13 vss_279 VSS_159 E24 ANH | VSS 70 VSS_160

20 E27

ANZO vss 71 VSS 161 E2 VSS 72 V§S 162

AN25 E30

AN2S | VSS 73 28 VSS 163 E33 VSS 74 V§S 164 AN3T ÍvsS 76 VSS_165 | E28

AN36 NSE vss 77 — VSS 166 E2 — E39

AN | VSS 280 vss_167 [Et

wt vss 281 vss_i68 [Ett A121 VSS 80 VSS 169 E13 A18] VSS 81 vss_170 [Et VSS_82 VSS 171

AP17 VSS 83 VSS 172 E20 AP20 VSS 84 V§S 173 E23 AP24 VSS 85 VSS 174 E26 AP26 E293

AE | VSS 86 V§S 175

27 VSS 87 V§S 176 E32 AP29 E235

AE | VSS 88 vsSS 177 [E38 V$S 91 VSS 178

9/10

= CPU Socket =

cán | VSS 184 VSS 274 LÝt Sun | VSS 185 V§S 275 HIP Cec VSS_186 CGC_TP_NCTF -#88—— """ Ae _s, Tre Ô34 | vSS 187

G37 2 | VSS 188 SA DIMM VREFDQ LẠC — AF3 x D3_DQ_VREF_A 11 VSS_189 SB_DIMM_VREFDQ D3 DQ VREF B 12 G40 | VSsS 190 Q9 — A12 HTP

Hii} VSS_191 RSVD_1 Ans OTP TP3

tia | VSS 192 RSVD_4 [T2 HTP10 IP11 tin | VSS 193 RSVD 5 2o HTET1 TP12 tia | VSS 194 RSVD_9 TA iag HTP13 TP13

V§S 195 RSVD 10 TP15 H2 V§S 196

H21 V§S 197 @

H24 2

HZ4 | VSS 198 O

HZ vss 199 V§S 201 Dao VSS 202 a2 vss 203 RSVD_13 -AMI4

Ho | VSS 204 RSVD_14 - AML HE) VSS_205 RSVD_15 ARLE, VSS_206 RSVD_16 FAKE,

T10] VSS 230 RSVD_ 35 | M26, LIS vss 231 RSVD_36 F AMIS #REFDE35 Li! vss 232 RSVD_37 AMIE SENSE DN 1 2 V§S 233 V§S 292

Title

CPU-7:GND

ize “ Document Number H5SMXV [ 5» ev Date: Wednesday, April 21, 2010 Bheet 10 of 50

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ot 50 Bheet T2

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B3 RSVD1 12V A3 = XI JTAGS TAO BA

B4 A4 XI JIAG3 B5 | GND GND [ar Xi JTAG2 XI JTAG2 5x8

18,25,26,27,41 S_SMB_CLK_RESUME 4 SMCLK JTAG2 XT TAGS < PLS 81

18,25,26,27,41 S SMB_DATA RESUME B6 Í SMDAT JTAG3 A8 82K

BZ GND JTAG4 AL ek Dummy —

Ba AB X1_JTAGS +/-5% = 12V_SYS

xi maei Bố | 3.3V JTAGS [A8 S

JTAGI 3.3V B10 AiO

B10] 3.3VAUX 3.3V ae † Ecla 18/25/29 6_WAKE# <C €Ì WAKE# PWRGD <K X PLTRST PGIE_SLOT# 25,33 3# 270uF G157

AT I6V, +/-20% 0.1uF

KEY 16V, Y5V, +803/-20%

B1 | RSVD2 GND Al ‹

X EXP A TXDP0 C193 || 0iuF 16V,X7R.+/10% X EXP A TX ©DP0 B14 tSOPo TEECUC Ald $ OPE JooM 1ePORT DN OY =

XCEXP_A_TX_DNOC191 | _0.1uF_16V, X7R, +/-10% _X_EXP_A_TX_C DNO B15 | HSONG CN |_ A15 & Đ.PE TUĐM_ ¬

Al Bie | GND HSIPo -A16 X_EXP_A_RX_DPO

Big PRSNT2_BI17# HSINO AMZ EXP A RX DNO

X EXP A TX DPi C201 || 0.iuF 16V.X7R.+⁄10% X EXP A TX € DPi B19 A19

X_EXP_A_TX_DN1 card | O.1uF 16V, X7R, +/-10% _X_EXP_A_TX_C_DNI B20 HSON! Hong A20 ECTS

I Bat | oe HSib; [A21 X EXP_A RX DPI 2 —1000uF C170 C426

B22 GND HSIN1 A22 X EXP A RX DNI “T+/-20% 0.1uF D nfiuF

X EXP A TX DP2 C210 || 0.iuF 16V X7R.+/10% X EXP A TX € DP2 B23 | GSope np LAS 16V, X7R, +/-10% | 16V, X7R, +/-10%

XEXEA TXDN2 _ C212K[ 01uF 16V XZR.+10% X EXE.A TXCDN2 B24 | HSON2 SND |_A24

Al B25 | GND HSIP2 | A25 X EXP A RX DP2 +

B26 GND HSIN2 A26 X EXP A RX DN2 =

X_EXP_A TX DP3_G217_§|_O.iuF_16V,X7R, +/-10% _X_EXP_A TX C DP3 B27_| GSop Nb LA2Z XCEXP_A_TX_DN3 C215 | _0.1uF_16V,.X7R, +/-10% X EXPA TXCDN3 B28 HSỌNG SND |_A28

Kl B29 GND HSIP3 A29 X EXP A RX DP3

B30 Í RsvD4 HSIN3 30 X_EXE, À_HX DNS

~B31dÌ PRSNT2_B31# GND A31 B3 GND - RSvDs |_Â32 303\, DUAL

X EXP A TX DP4 C224 || 0.iuF 16V.X7R.+/10% X EXP A TX € DP4 B33 A33

X_EXP_A_TX_DN4 cad | O.1uF _16V, X7R, +/-10% _X_EXP_A_IX_C_DN4 B34 HSỌN4 HD A34 † Ec17

J B36 | GND HSIpa | A35 X EXP_A RX DP4 2 —1000uF G171

B36 ND HSIN4 A26 X EXP A RX DN4 “T+/-20% 0.1uF

X EXP A TX DPS C230 || 0.iuF 16V.X7R.+/10% X EXP A TX € DP5 B37 SSOP Np LARZ 16V, X7R, +/-10%

XCEXP_A_TX_DN5_C233-| _0.1uF_16V,X7R, +/-10% _X_EXP_A_TX_C_DN5 B38 HSỌNS ND LASS !

Al B39 | GND HSIPs |_A39 X EXP A RX DP5 +

B40 | GND HEING | A40 XEXP_A_RX_DNS = @F2

X EXP A TX DP6 C240 || 0.iuF 16V.X7R.+/10% X EXP A TX € DP6 B41_| GSop ene LAA XEXEA IXDNG C242KÍ[ 01uF 16V XZR.+10% _X_EXP_A_TX_C DN6 B42 HSỌNG SND |_A42

Kl B43 GND HSIP6 A43 X EXP A RX DP6

B44 GND HSIN6 A44 X EXP A RX DN6

X EXP A TX DP7 C253 || 0.iuF 16V.X7R.+/10% X EXP A TX € DP7 B45 | GSopy ene LASS XCEXP_A_TX_DN7 C255 | _0.1uF_16V, X7R, +/-10% _X_EXP_A_TX_C DN7 B48 | HSONZ ND LASS

I B47 | GND HSIPz A47 X EXP A RX DP7

PRSNT2 B48# HSIN7 A48 X_EXP A HX DN/

B49 Ì GND ÔND |_A49 X_EXP_A TX DP8 C263 || 0.iuF 16V X7R.+/10% X EXP A TX € DP8 B50 A50

XEXP.A IXDN8 _ C261 | O.1uF 16V, X7R, +/-10% _X_EXP_A_IX_C_DN8 B51 HSỌNG Bàu, ASI

Ỉ B52 GND HSIP8 An2 X EXP A RX DP8

X EXP A TX DPQ C265 || 0.iuF 16V X7R.+/10% X EXP A TX € DP9 B54 | Ba Qp Np EASA XCEXP_A_TX_DNQ C267 | _0.1uF_16V, X7R, +/-10% _X_EXP_A_TX_C_DNQ B55 HSỌNG ND |_ A55

Ỉ B56 GND HSIP9 A5G X EXP A RX DP9

X EXP A TX DPiO C270 || 0.iuF 16V,X7R.+/10% X EXP A TX C DPi0 Bsa | sop, SND | A58 XEXPE.A TX DNIO C272 KÍ[ _0.1uF_16V, X7R, +/-10% X EXPA TXC DNIO B59 HSONH0 ND LASS

I B60 | ORC Hye [AO X_EXP_A RX DP10

B61 | CND HỆINGg A81 X_EXP_A_RX_DN10

X EXP A TX DPii C278 || 0.iuF 16V X7R.+/10% X EXP A TX C DPii B62 | BS Op-‡ OND L-AB2 XCEXP_A_TX_DNi1 C281 | _0.1uF_16V, X7R, +/-10% X EXP.A TXCDNII B63 | HSONTI ND |_ A83

Ï B64 | GND HsiP11 A84 X EXP A RX DPIT

B85 | CND HEIN1{ | A85 XEXE.A ñX DNiI

X EXP A TX DPi2 C295 || 0.iuF 16V X7R.+/10% X EXP A TX C DP12 B88 | RSOp2 oN LABS XCEXP_A_TX_DNi2 C296 KÍ[ _0.1uF_16V,.X7R, +/-10% XEXPA IXCDNI2 B67 | HSON12 ND |_A87

I B68 | GND HSiP12 |_A88 X EXP A RX DP12

peo | GND HEIN12 | A89 XEXE.A RX DNI2 X_EXP_A TX DPi3 C303 || 0.iuF 16V,X7R.+/10% X EXP A TX C DP13 B70 | ReOpi Np LAZO

XCEXP_A_TX_DNI3 C314-¥ | 0.1uF_16V,.X7R, +/-10% X EXPA TXCDNI3 B71 HSON13 SND LA71

Al B22 | GND usip13 FAZ2 X_EXP_A_RX_DP13

B73 | CND ASINTs LAZS XEXP_A_RX_DN13 X_EXP_A TX DPi4 C322 9 _O.tuF_16V, X7R,+/-10% _X_EXP_A TX C DP14 B74 | GNop14 Np LAzA

XCEXP_A_TX_DNI4 C324 | 0.1uF_16V, X7R, +/-10% X EXPA TIXC DNI4 B75 | HSONH4 SND | A75

Al B76 | ono Hee 1a [A78 X_EXP_A RX DP14

B77 | CND HEIN4 | A77 XEXE.A RX DN14 ® X_EXP_A TX DPi5 C336 || 0.1uF 16V, X7R.+/10% X EXP A TX C DP15 B78 | ReQpi OND LAZE

XCEXP_A_TX_DNI5 C331 | _0.1uF_16V, X7R, +/-10% Xx EXP_A_TX_C DNI5 B79 HSONHS SND [A79

ø >< B8lg PRSNT2_B81# Ba GND HSINiSLAB1 HSIP15 80 CEXEA RCTS -

›<B8ä2 | RSVD7 — GND | Â82 FOXCONN PCEG

Trang 14

3D3V_SYS 3D3V_CLK

U25

L44 1 ⁄7 2 _FB60 Ohm - - - 25 Ì VDDbSATA

11 5

I0 ĐuE tur) =o tur) = oturF) = piuF tur 3 WDD GPL

4144 VR READY Y>—ẻ 1| vrrPwR@D/WOL STOP# [LJ 2a

#REFDEI1 SATACLKT_LR Z4 à € SATA PCH DP 17

#REFDE12 — SATACLKC LR € SATA PCHDN 17

11,12,35,41/47 SMB_DATA_MAIN 4 2 SDATA

11,12,35.41.47 SMB_CLK MAIN @S 1 2 11 sc_k <

dummy

ma TP51 oS

TP52

32 DỌC 1* T DOC_o* or

€ XTAL I4M OUT 2i œ) cIX4 XTAL OUT oc XTAL-14.318MHz

1 “I 9 GC XTAL _14M_IN 20 XTAL IN —

26 GNDSATA 50V, NPO|, +B8W, NPO, +/-5%

33) THERMAL PAD _|_ dummy ) dummy

Title CLOCK GEN

E | Document Number H55MXV ‘ex

Date: Wednesday, April 21, 2010 Bheet i4 of 50

Trang 15

K POI GNT#1

K POI GNTZ0

K POI AD[31 0] 26,27

26,227 K POI PAR 26,227 K POI DEVSEL#

21 © POI 33M POI

PAR DEVSEL# AD1 PCICLKINCLKIN_PCILOOPBACAD2 PCIRST# AD3 IRDY# AD4 PME# AD5 SERR# AD6 STOP# AD7 PLOCK# AD8 TRDY# AD9 PERR# AD10 FRAME#

= GNT3# / GPIO55 GNT [3:0] have Internal Pull-High to 3.3V

26,27 K_PCIINT_F# PIRQF# / GPIO3 C/BEO#

26,27 K_PCLINT_G# PIRQG# / GPIO4 C/BE1#

26,27 K_PCIINT_H# PIRQH#/ GPIO5 C/BE2#

C/BE3#

1/12

Boot BIOS Select

Trang 16

SU1B

6 H_DMLTX_DNO à A1 | DMIORXN = — [— USBP0NEASZS UUSB DN0 28

6 H_DMI_TX_DPO 18) DMIORXP USBPoP A25 S@ UUSB DP0 28

6 H DMI RX DN0 5 3221 DMI0TXN USBP1N 5322 © UUSB DNI 28

6 H DMI RX DP0 B2a| DMI0TXP USBP1P [AE SY V_USB_DPI 28

6 H DMI TX DN1 Š 5 DMI1RXN USBP2N 23 Le U_USB_DN2 28

6 H_DMI_TX_DP1 ch DMI1RXP USBP2P |_AY22 Ce U_USB_DP2 28

6 H DMI RX DNI 5 22-1 DMI1TXN USBP3N Ape ó2 UUSB DN3 28

6 H DMI RX DP1 E22| DMI†TXP USBPaP |ẤP SY U_USB_DP3 28

6 H DMI TX DN2 Š D DMI2RXN USBP4N 21 Ce U_USB_DN4 28

6 H_DML_TX_DP2 R20) pMl2RXP usppap -Av22 Se v_UsB_DP4 28

6 H_DMI_RX_DN2 5 Hed DMI2TXN USBPSN [4x20 SY U_USB_DNS 28

6 H DMI RX DP2 S2] DMI2TXP 0 USBPS5P %Š UUSB DP5S 28

6 H BMI TX DN3 > G18 Í DMI3RXN c4 USBP6N |_ÂK20

6 H DML TX DP3 HB DMISRXP ñ USBP6P |_ÂL20

V 1P05 FILTER 6 H DMI RX DN3 § Led DMISTXN USBP7N [-A¥20

—T POS 6 H DMI RX DP3 Ke) DMISTXP USBP7P LAN „

5 DMI_IRCOMP USBP8N < U_USB_DN8 30 RI77 Kyyp_49.9 +/-1% 8 DMI COMP [cat | DMLZOONIP Gq U55PSP AY18 © U USB D8 30

L<0.5" U (USBPaN Pane SY U_USB_DN9 30

USBP9P AN2O S© UUSB DP9 3

14 C_100M_DMI_PCH_DN ỳ = B20 | CLKIN_DMI_N tỨ UsppioN ộ UUSB DNI0 30

14 C_100M_DMI_PCH_DP iI CLKIN_DMI_P USBP10P | A18 @ UUSB DP10 30

S=8mi USBP11N |_ABZ9 © UUSB DNII 30

— USBP11P |_ẬTZ0 Ce U_USB_DP11 30

USBP12N T18 Ce U_USB_DNI2 30

USBP12P < U USB DP12 30 PCIE-RX 6: X1 Slot 25 X PE FON D15 | PERNI — USBP13N |_ÂX1Z 5Š UUSB DNI3 30

25 X PE RX DPI 16_Ì PERP1 USBP13P |-BÂ16 %Š UUSB DP13 30

BIZ Í PERN2

lê | PERP2 U U§B OG R #0

><B15_Í PERN3 OCO# / GPIO59 te « U_USB OC R #0 28

©14 | PERP3 OC1#/ GPIO40 ĐA 20—TDSB-DD T72

><P14_Ì PERN4 OC2#/ GPlO41 ĐAK28 SE O¿R 7 † U USB OG R #2 28

29 X_PE_RX_DN5 > _PE_RX | “ci PERNS 5 Oca# OG4# / GPIO43 / Glogs PAPAL —U USE OCH #4 - - OC 3:0 > Port 0 to7 :0 > Por o

PCIE-RX5:LAN 22xPERxDprs 8 B13 Í PERPS Ocs#/ Gpiog pALza_U USE OC AS 1 _¢ y uss oc R 25 30

~—P#-| PERN6 OC6#/ GPIO10 ĐA 2? JSB O0 R T1 OC 4:7 > Port 8 to 13

>—CÐ® | PERP6 OC7#/ GPIO14 PAMSO_~ << U_USB_OG R #7 30

><Â12_Í PERN7 PCIE-TX6: X1 Slot ><B1L perp7

>—Ê—| PERN8 B8 | bEnno tg USBEBIAsz | AY18— ¿Š_USBRBIAS PGH _R373_eqqq_22.6

25 X PE TX DNI S19 | 0.1uF PE TX DN D18 Í pETN+ Q UsBRglAs [AV15—Ï L <=500 MILS +15 _LL

2P PE Te Dh C195 4 [0.tuF PE_TX DPI piz_| PEIN H =

><H16_Í PETN2 ts CLKIN_DOT_96N Paige ‘Wed mt —¢ C_96M_DREF_DN 14 V.IIVIT

G18 Í pETP2 CLKIN DOT _96P € 96M DREF_DP 14

H14 Í PETN3 — G14 peTP3

><K14 Ì PETN4

2 9 X PE TX DN5 G21_ Gta Z4|0TuE ||0.1uF PE_TX_DNS SEDC DPS “Ho | PETP4 PETNS C288 C294

29 X_PE_TX_DP5 CPE_TX | Al : G12 Í pETPs G11 | BETNG O.1UF _Duntiiyr 16V, X7R +/iBX7R, +/-10%

><H1L | pETPe PCIE-TX 5: LAN ><DIL Í PETN7

D10 | pETP7

><K12_Í PETN8 ¬_—

>—12_] PETP8 — 2/12 = BD82H55

Trang 17

SUIC S_TP_AK35_AK35 | 4

TP47 ———— TP18 a SATAORXN Wit T_SATA_RX_DNO 24

TP46 | Ss ARS) trig SATAORXP T_SATA_RX_DPO 24 TP50 3_—AL39 | Tpao re SATAOTXN [-U88 [yap + Š T SATA TX_DN0 24

4 SATA0TXP [X38 T SATA TX DP0 24

18/3347 PWRGD 3V Y⁄————ÀL33 Ì EPWROK z2 SATAIRXN [28 T SATA RX DNI 24

x SATA1RXP SATA1TXN [Aaa ` < T SATA T_SATA_TX_DN1 24 _SATA_TX_ RX DP1 24

PCH CPU FA ————— SATA1TXP LÂB358————————————y T SATA TX DP1 24 Thao ——————— ĐA 1 | PWMO SATA2RXN [A38 $ T SATA RX DN2 24

PCH SYED FAN DTRLZ Ay PWM SATA2RXP Ậ [AI ` T SATA RX DP2 24 Thao TP Pa AT | PWM2 SATA2TXN [A2 + Š T SATA TX DN2 24

` AN DSM EN AW11 trị SATA2TXP F2 T_SATA_TX_DP2 24

29 LAN DSM_EN?) SGPT PU ML] TACHO / GPIO17 et SATA3RXN |-AC41 Š T SATA RX DN3 24

= GPS PU ALLY TACHI / GPIO1 5 h SATA3RXP Ậ [AB ` T SATA RX DP3 24 SGPT PU VIL TACH? / GPIO6 Ph SATA3TXN T_SATA_TX_DN3 24

33 ICH _THERMAL_UP3) TACH3 / GPIO7 Uv) SATA3TXP T SATA TX DP3 24

SATA4RXN LÂ T SATA RX DN4 24

»ANBI got SATA4RXP |_AE49 [Apaa ` T SATA RX DP4 24

SATA4TXN [ARSB + T SATA_TX_DN4 24 SATA4TXP |_Â T SATA TX DP4 24

SATASRXN [4 5 T_SATA_RX_DN5 24 SATAS5RXP [A T_SATA_RX_DP5 24 _SATA_RX |

PCH SATASTXN Papa T SATA TX DN5 24

GấB-DETEOE PS N41 Í SGLOCK¿ GPIO22 SATASTXP LẬD32đ~——————————(> † SATA TX DP5 24

GPIO25 SDATAQUTO /GPIO39 @ |CLKIN_SATA_N/ CKSSCD_N $ C SATA PCH_DN 14 Sap MEGMODE gs 8 SDATAOUTI / GPIO48 CLKIN SATA P/CKSSCD P € SATA PCH DP 14

-S-SF38_MEG MODEEL AM38 | Si oaD 7 GPIO38 'Ụ SATALED# DAN38 $ _SATA LED#

oO SATAICOMPI AI V_1P05_FILTER L<500mi1

SATAICOMPO |_T41 $ SATARBIAS_PCH 37.4 Ohm AAAR427 < mi

Wa W=d4mil

AJ37 SATA0GP SATA0GP / GPIO21 - -Ðm3

§ TP_TEST RNG SATA1GP / GPIO19 [A38 ———— a S=8mil TP30 NC_AF15 SATA2GP / GPIO36 šV DETECT Pa;

SATA3GP / GPIOa7 | A38 ST MGE

SATA4GP / GPIO16 | H38 S PCH GPa PU SATASGP / GPIO49 -AGSO

PMSYNCH H_PM_SYNC 5 S SATA LED# ° A

x >> O_HD_LED# 40 3/12

Trang 18

3D3V_DUAL ~ AP14_ Ì LDRO1# / GPIOZ3 BMBUSY#/ GPIO0 ———— K A FP._ AUDIO PRESENOE/ 31.3247

o x RN21 10 +/-5% 2 9 SMLALERT 33,35 F_LPC_ADO 33,35 F LPO ADI & có AK18 AK lô | FWH1 FWHO / LADO / LAD1 SLP_LAN#/ GP1Oz9 BASS G@Piog }AK30_— S_IGC_EN# LT SP LAN# 0s ACKC— C TP60

HN Sat — BS FEA SS a a ee es rr

ZIAAALS - 3335 F LFRAME# AB14_ | FWH4 / LFRAME# GPIO15 Y6 =

POIECLKRQ1# / GPIO18 | AM38_— Š_ECH_ GP lò Eở R390_ T2AA_ 2/2K S SMLINK0 GLK # AP33_S PCH GP20_PU

Raa7 WY, 2.2K _S SMLINKO DATA — ; GPlOaa [AB34

VVY _Ì

4-398 XAA IỘK § §MBALERIU — PCIECLKROS# / GPIO25 LAP33}T———S 1 WATT GTRL 1

=[FBummy TT TT TT TT TT ni PCIECLKRO## / GPIO26 AB ay TS GPa FD CS PGH GF26 44 45 56 PD

: So —, ————— }ˆ' TA RE A ‘Avid HDA_RST# ACPRESENT /GPIO31 aban | -S-FOH GPaT PI ?>S-PCH.GP28.PU 47

| PONERED SY CORR WHEN SAMPLED tow 81 A_HDA_SDIO_R » AVIS HDA_SDINO GPIO32 AT16 S_MFG_MODE#

| EPW WHEN SAMPLE HIGH | HDA_ SDIN1 GPIO33 ATAO S PCH GP34

-| - HDA_SDIN2 STP PCl# / GPIO34

=[ Bumyw TT TT TT TT” ¬ A HDA SDO R HDA_SDIN3 SATACLKREG#/ GPIO35 [EAL

bo pun va SUPPLY Sit(internal pull down) | ~ PCIECLKRQ7# / GPIO46 | AE36—» {CS PGH GPHM6 47 PD

|.8V SUPPLY WHEN SAMPLED LOW PEG A CLKRQ#/GPIO47 AWAB

j 5V SUPPLY WHEB SAMPLED HIGH TT em HB 4 I PEG_B_CLKRQ#/ GPIO56 GPIOS7 AL32_— S TPM PHY PRESENT S_TPM S_PCIEGLKREG#O PHY |

PCIECLKRQO# / GPIO73 Pea ND PROCPWRGD [#88 pwreD 5,47

St A HDA SDO x2 A HDA ASTER R387 S_LAN PWROK AY31 SLP_DSR# “———— TP43

31 A HDA RST# AWAY TTDA BC H LAN RST# SYS PWROK S PCH_SYSPWROK 41

31 A HDA BCLK 2S & HDR SCR * PWRBTN# S PWRBTN# 33

31 A HDA SYNC XVX PCH RTCX! wan Rit PCH_RW 33

33 10K PGH RTCX2 BA30 RTCxe SS SOLE 'GPlOse ak § _TP_SUSCLK TP40

5% =- ——— Aie4g RTCRST# SYS_RESET# <FPLRST# 540,47

- C| SRTCRST# PLTRST# DAlia—SWNGT—Š S PLTRST# 5,33,47

# ARS _s a SWAKE# 13/25/29 NTRUDERz | AN24—— 5 INTRUDERE - 25, 13,25,26,27,41 § SMB_CLK_RESUME ,25,26,2741 S_SMB_GLK_ X>> —_ AV32'| SMBGLK ỐC SMBCLK RSMRST# % BAL4—————& § RSMRETE 40 š #

13,25,26,27,41 S_SMB_DATA_RESUME SS ===m AM3T | SMBDATA INIVEMEM g INTVEMEN sec our we S IGC_EN# A

2 L LAI38 So » 6H `

Dummy Dummy “Š-SMLINK0 GLK— Awaa SMLOALERT# / GPIO80 SPKR >»: =

neue von STUER AIRS SMLODATA SLP_S3i# Bapag S_SLP_S3# 33,42,46 83V, YSV +B03/-209 “ŠX~šMLNKT GIKT Avaz | SML1ALERT# / GPIO74 SLP_S4# ĐÀ 5——Trgg————Ó” S.SLP S4# 33.4243

TT ĐẾ s SMLINKI GLK &s SMLINKT DATA— Air | SML1CLK / GPIOS8 SLP_S5# / GPIOð3 LAU38— ST, ——————— TP43

=- = ==_ = 33 S SMLINKI DATA &— SML1DATA / GP75 SLP Mỹ DÂT38_——SET—————c pag

MFG(1-2)

| Aya4_S_1 WATT CTRL 2 3D3V_SY§ = RTC HEADER

GPIO72 H-DRAMPWRGD >), lo

F_SPI MOSI_ T34 DRAMPWROK [-4WW32 " revere HDRAMPWRGD 5

34 F SPL OS0# ISOLATES ES 2 | SPI_CSO# JTAG_RST F_PCH_JTAG_RST# 47 = Pe

34 F SPI CLK PRI SEC FLSH van | SPL CLK JTAG_TCK F_PCH JTAG_TCK FILTER 47 p 47K ung S RTORST/

34 F_SPILCS1# ISOLATE € SPL_CS1# JTAG _TDI F_PCH_JTAG_TDI 47 8 MFG MODE# ——————]

JTAG TDO [LẬN34_—————————) r PCH JTAG TDO 47

4/12 JTAG_TMS CF_PCH JTAG_TMS 47 € R346 Header_1X3

$ PCH _RTCX2 TAL 3D3V_DUAL = CLR_ CMOS CMOS

XTAL-32.768kHz Crystal Retainer “i95 H_ DRAMPWRGD

= = = + = ize Ầ Document Number H5SMXV [ 5» ev

Date: Tuesday, March 16, 2010 Bheet 18 of 50

1

Trang 20

344 ÏNV_ALE NV DQ0/NV IOo [133% FDI_RXNO H FDI TX DN0 6

135 Ï NV GLE NV DQ1/NV lÒ1 E25 FDI RXP0 H FDI TX DP0 6 M3“ Í NV_RB# NV_DQ2/ NV_102 TA FDI_RXN1 H FDI TX DN1 6

38 Ï NV RE# WRBO NV DQ3/NV_IO3 [P3 FDI RXP1 H FDI TX DP1 6

35 Í NV RE# WRB1 NV DQ4/NV IO4 [M5 FDI RXN2 H FDI TX DN2 6

>M3T NV WE# OK0 NV DQ5/NV |O5 [E32 FDI_RXP2 H FDI TX DP2 6

~38 [ NV WE# CK+ NV DQ6/NV IO8 M38 Mjị FDI_RXN3 H FDI TX DN3 6

NV DQ@7/NV_ IO7 M34 & —-EDI_RXP3 H FDI TX DP3 6 NV_DQ8 / NV_108 - M0 HsCFDILRXN4 H FDI TX DN4 6

NV _DQ9/NV_IOg [E38 r- FDLRXP4 H FDI TX DP4 6

NV DG10/NV_IO1o B33 HỆ FDIRXNS H FDI TX DN5 6

NV DQ11/NV IO11 -EBZ Q — FDOLRXPS [aes H FDI TX DP5 6

NV DQ12/NV_IO12 E33 FDI RXN6 H FDI TX DN6 6

NV DO13/NV_IO13 G33 E4 FDIRXPS H FDI TX DP6 6

NV DQ14/NV_ IO14 D49 EDI RXN7 H FDI TX DN7 6

NV DO15/NV_IO1s E33 FDI RXP7 H FDI TX DP7 6

NV_CE#0 EDI FSYNQ0 [Lễ —————È H.FDI FSYNG0 1 6

NV CE#f Ppa FDI_LSYNCO [Ea «+ H_FDI LSYNG0 1 6

NV CE#2 | FDI_FSYNC1 LÍ H FDI FSYNGI 1 6 LEDI | _

NV CEza F4Lx FDI LSYNGI LD358———————$>H FDI LSYNGI 1 6

NV DQso |_E38 FDL INT [-886—_4 FOLINT —` XU FDIINTT 6

37 V_DDSP_B HPDO >> I1 Í ppP8 HPD CRT HSYNG |_AD4 V_VGA_HSYNG V_VGA_GREEN

3 AD3 V_VGA_VSYNG

3 DDPC_HPD CRT_VSYNG V VGA_BLUE DDPD_HPD AC V VGA RED

CRT_RED [AC] V-VGA-GREEN V VGA RED 38 d2 50 update by wesley 0715 MT Ï ppPB AUXP CRT GREEN [403 VER BLUE V VGA GREEN 38 lọ ke

YW bpse 6 pC top Ki] Pppe-p DAC IREF -AE2 V_VGA DAGREFSET _R997_eqqq_1.02KOhm update by wesley 0715

37 V_DDSP_G_TX_1_DN 37 V.DDSPE © TX 2 DP "TỦ Í DDPB 1N H6 DDPB 2P ~ L<500 MILS $=30mil 1 change R337 from 1=@2k to 1k ,flollow mow 25.062209 vane x

PORT B DVI 37 V_DDSP_G_TX_2_DN lời DDPB_2N NON-Graphic sku Change to O ohm V_VGA_HSYNG R56 AWA 33 >> V_VGA_HSYNG 3V 38

»>—C4 ppPc 2N

Ẩ D2 Ìpppo3N DTSPLAY

CB|EÐmn „#msnmil IIFTXCCTTT1

>—N^Í spvo STALLP SDVO_CTALCLK [4818 bề V DDPG GTRL GLK 37

>—P3 | SDVO STALLIN SDVO CTRLDATA V DDPG GTRL DATA 37 FOXCONN PCEG

>L& spvo_TVCLKINP

hp

6/12 PCH-7:DISPLAY

BD82H55 ize ne Document Number H55MXV [ 5» ev

| 1

Trang 21

s € 133M CSIPCOHINDN 14 <K C_133M_CSILPCH_IN_DP 14

update by wesley wang 092309

SU1H PCH_PGI0_R

›âD10 Ì cÌ KOUTFLEX0 / GPIO64 CLKOUT_DP_N/ CLKOUT_BCLK1_N Han

KT Í GLKOUTFLEX1 / GPIO65 CLKOUT_DP_P / CLKOUT_BCLK1_P 488 ABS CLKOUTFLEX2 / GPIO66

C_XTAL 25M OUT ! ye CLOCK CLKOUT_PCIE4N ae

SR SEMIN 24 XTAL25 OUT CLKOUT_PCIE4P

Trang 22

V_1P05_FILTER

(oe

2/7" E10] VCCIO 1 VCCCORE 1 LAE18——‡r—‡ † 7 | RESSV sul Nes

VCCIO_2 VCGCCORE 2 G2

„ Fer FB 300 Ohm NIê | VOCIO a2 VCCCORE 2 | AE19 4 G379 4 G373 4 C560 4 G862 _, REF5V_SUS VEREF VGCVRM-2 [C3 V 1P05 PCH

1 M16 VCCIO_4 — VCCCORE_4 =5 [ AE19 4.7uF 9 ig 10uF 10uF | VGCVRM 3 _Z L40 D ummy Te

N18 | VOCIO VGCCORE ˆ | AE20 +/-10% _ |I0V, XBR, +/-1Ð#%10% /10% BD8V DUAL _3 Frag L

FB 300 Ohm V_1P05 ME M18 — ư I VSREF_SUS VCCVRM_4 0

N20 | VCCIO_8 YOCCORE 6 | AD20 => = > > | V_1P8_SFR +

FB8 Mao | VOGIO 7 VCCCORE_7 i > Ea = = VCCSUSHDA _IPS_

2 /7 4 M22 Mea | VOGIO — 9 VOOCORE_9 =5 | T20 [E5 | G372 tor VCCPNAND 1 P30 Near P30

G24 voClo_12 VOCCORE_12 LU22 | ; <b — Mev, KTR, 10%

Bat VCCIO_13 VCCCORE_13 | 22 bi - = Dac | VOCIO 14 VOCCORE 14 AE 303V 5YS 3D3V SYS 3D3V EPW S2n-| VOOIO 15 VOCCORE 15 A22

#REFDE52 ¬ M2 | VCCIO_16 VCCCORE_16 [F225 VCCAP3 3 FAE2Z

1 2 L2p | VCCIO 17 VOCCORE_17 55 VCCaPa 4 |_ÂDZZ

kóo | VOCIO_18 VOCCORE_18 [2 ˆ

S0] VCCIO 19 VOCCORE_19 [25 apav sys

GUMMY Near N22 Hóc | VCCIO 20 VCCCORE_20 F753 o 7; vec3P3_NcTF_1 AW

Bao | VCCIO 21 VGCCORE 21 VCC3P3_NCTF_2 | BAS

—==—————— ¬ tou C563 Ị F26 G26 | VCCIO 22 VCCIO_23 VCCCORE_22 | E24 VCCCORE 23 | AE24 AHI8 | vCCaP3 1 — VCC3P3_5 PAZ VỆCSP3 6 LAY3 C343 J 0.1uF TïÍ 16v, x7R, +/-10% Ir Near AV2

ih le Na | VCCIO 24 VOCCORE 24 #24 AH18 Í vooaP3 2 VOGSP3 7 | AK14

Na| VCCIO 25 VCCCORE_25 [1A 7 vec3p3_8 A14 m==—=—————- N26 | VCCIO 28 VGCCORE_ 26 | 1⁄24 VOCaP3_ 9 | ÂHê

V_1P05 FILTER a T19 VÉCIO 27 VÉCCORE 27 | ¥24 -Še | T24 = +—®* | OE 109 I Near A9 Ir

Địa | VCCIO 28 VCCCORE 28 [TẾ 16V, XZR, +/-10%

HOV, X5R, +/260%X7R, +260%X7R, +|PBW/X7R, 'ewerm, +/-10% VOCCORE_33 | Tác Near N38 C47” lễ 0TuE ¬ N38 VCCME 21 i Y15 e

] } } J VoCCORE 34 P2o IK — fev aR 0% VCCME3P3 1 VOCME 22 RATE

tL VCCCORE 26 LE2S N40 | VecEap3 2 VGCME 22 | Y18 6335 al case Near ABI5

= VOCCORE 37 L226 VCCME 2s | AA18 10uF 1uF

VCCCORE_38 [#26 V_1P95 ME VCCME 20 | Y18 /-10% 10V, X5R, +/-10% PLACE SOLDER SIDE VCCCORE_ 39 [557 VCCME_27 |_Y18 =— =—

VCCCORE 40 E2” AH1 | VGCME_5 = = V_1P1 VTT VCCCORE_41 Al2 | VCCME 6

VCCCORE_42 DZZ AHS VCCME_7 Aza VOGCORE 43 | 822 À4 | VGCME_8 C585 VOGDMI VCCCORE_44 N28 BHA VCCME_9 VCCLAN_1 | 20 ——» _VCCLAN

TUE VOCCORE 45 [| z2 VCCME_10 VCCLAN_2 -10% VCCCORE_46 AGS - 1L V20 —- SIP48 _ 10V, X5R, +/-10% YOCCORE 47 |-K28 AHS VGCME 12 TP11 TP36 #REFDE42

VGOCORE 48 [228 AFB Í VGOME 13 VCGSUSaP3_¡ |AV29 3D3V_DUAL COPPER

= v_1P05_ FILTER VGGCORE 49 [H28 AF10 | VCCME lệ

-

=5 VCCCORE 50 [98 213 | VCCME 15 VCCSUSAP3 2 A5 +

Close to Por Pin VGGCORE 52 [D28 AD13 | VCCME-17 VCCSUS3p3-4 -AW26 LÊ |

X29 Í vccIo 30 VCCCORE_53 |_CZ8 AE15 Í VCCME 18 VCCSUS3P3_5 FALZ6 = 0.1UF

4 0422 | Xi | VCCIO 31 VOGCORE_64 A28 AD15 | VCCME 19 VCCSUS3P3_6 T28 | lev, X7R, +/-1%

“| Tan | VCOIO 32 VCCCORE_55 E25 — VECSUS3P3_7 | AB26 LL

+/-10% Y36 VCCIO_33 VCCCORE_56 VCCSUS3P3 8 AP26 =_—_—_ _—_—

| van | VCCIO 34 VOCCORE 57 D5 VGCSUSaP3_9 | ÀN28 Near AV25

i _I 138 | VCCIO se VCCCORE_58 3D3V_SYS VCCSUS3P3_10 | AM26

Taz vecio_37 vecsus3P3_11 4L26 B38 | VOCIO 39 V 1P05_ME “REEDE4S 1 L<100 MILS VOCSUSAP3_12L Vệ

P38 VCCIO_40 — oO VGGAG R30 S$, VCCAD VOCSUS3P3_13 VGCSUS3P3_14 _AY27

E39 |vCGCIO 41 VCCME ¡ ÀE16 3p3_ 1s | AU27

B40 | VÉCIO 42 VỆCME 2 |_AE16 dumm G342 352 357 364 VCCSUS3P3 15

= VGCME 3 -AB16 y 2.2uF 10uF

VCCME 4 -AD16 Near ¥26 3V, Y5V, +803%/-20941/-10% 1u |i0nF AW9 Ö414 [[ -01UE — — — — Near AW39

28 Í vcoIo 44 = | * L34 L<100 MILS V CPU ]O NCTE 1 V GPU lo ¡B39 A39 Ị G412 ||0.1UF I16V, X7R, +/-10% | LÍ

TP92_ @—À2L] vccAPLLEXP | e5_VOGADPLLA VUURTG | C4411 J|0.1uE | Ì

VCOIO 49 A20 Soe case 1 _ _AM6V, X7R, 47-10% |

@————————— A37 | —

TP91 VCCFDIPLL VCOIO s0 Ale 10uH ụ 5 AFI vocapac VCCRTG

VCCIO_52 -AH23 0{y xen TT XER +/-10% voor eee Poa corto NOTE CO Ju ]|Nesz A738

—— la = H2 | VGCADPLLA - ˆ mm.Ă TPB0 @——ÂÂT] vecAcLk VCGIO 53 — B24 V_1P05_FILTER x L32 = ¬ = pcpsus |-AE30 DGPSUS |0.1uE_ 16V, X7R|tt/-10%

VOGIO 54 D T1 Í VeeADPLLB DCPSUSDYE DCPSUSBYP O.1uF 16V, XZR fio»

9/12 vecio_s5 | 4426 10uH “Lee 10/12 ca; dd sc69

0{y xen “Foon, KSR, 4/-10% BDB2H55 SotuE BD82H55 = = [ | capacitor's| pa SRơöWö be _sifle |

| placed ¥~100mils | from DepSusByp pin

SV SYS ct sv gp 208V DUAL VGCRTC Near AY29 |

1uF xj C353 C355 C391 C415 100 SPT AN REFSV_SUS | "AV XSR, OY, XR! 4/-10% In Foxcom

T X5R, +/ PP 9⁄1.7uF 0.1uF 0.1uF 0.1uF ~ | mm ]

Trang 24

ize ne Document Number H55MXV [ 5» ev

I 1 1 Date: Wednesday, April 21, 2010 Bheet 24 of 50

Trang 25

C X PLTRST PGIE SLOT# 13,33

$ C_PCIEX1_DP 21

Bt 12V PRSNT1# bà —<

mạ | 12V 12V as

Bà | RSVD 12V LAN Be] GND GND

13,18,26,27,41 S_SMB_CLK_RESUME 4 Ba] SMCLK JTAG2 |_Â?—~

13,18,26,/2741 S SMB DATA RESUME <2 Be SMDAT JTAG3 | Â8—

GND JTAG4 À—x

B8 | 33V JTAG5 AB—<

Bịn | JTAGT 3.3V Pag mịi | 3-3VAUX 3.3V LY 13,18,29 S WAKE# << WAKE# PWRGD

KEY

Bi RSVD_B12 GND Al

Bia] GND REFCLK+ [a4

16 X PE TX DP1 3> HSOPO REFCLK-

16 X PE TX DNI % B15 Í HSON0 GND Â15

¬ B16 GND HSIPO A16 [as

1d PRSNT2# HSIN0 [ATZ

GND GND Slot-PGIE-1X

12V_SY§ 3D3V_SYS G152 Q277 G165 0.1uF

16V, YBV, +8036/-20%

0.1uF 16V, X7R, +/-10% rfluF

Định dạng
Số trang	50
Dung lượng	1,12 MB