Z06 SYSTEM BLOCK DIAGRAM
Size: px
Start display at page:

Download "Z06 SYSTEM BLOCK DIAGRAM"

Transcription

1 OM MRK INT VG STUFF FOR EXT VG STUFF FOR UM or VG X'TL.MHz LOK GENERTOR IS: SELGO: SLGSPTTR RII SO-IMM 0 SO-IMM P Z0 SYSTEM LOK IGRM P ual hannel R /00 MHz Penryn ufpg N antiga P, P FS /00/0 Mhz (GM/ PM/ GL0) P, P, P, P, P, P0, P Thermal Sensor (G0PU) PIE X LVS RG P NVII N0M-GE VRM M P-P Fan river (G) P EXT_LVS EXT_RT EXT_HMI INT_LVS INT_RT INT_HMI R PWR TPS THERML PROTETION.V PWR ISHRGER VG ORE OZ SWITH IRUIT P HMI switch (PS) P P P P RT LVS HMI HRGER ISL P0 /V SYS PWR P ISL PU ORE PWR OZLN.0V RT0 P P P P P H (ST) * X MI interface P Ext US Port x US 0, P Int US Port x US P luetooth US US P P O (ST) P P ST0 ST US.0 zalia S IHM P,P,P,P LP X'TL.KHz PI-Express US Media ardreader (RTSE) PIE- PIE- roadcom Giga-LN (M) X'TL MHz Mini ard WLN US US P udio mplifier G P udio OE (X0) P M. P RJ WIRE ONN. E (WPLG) SPI ROM P Touch Pad P P X'TL.KHz MM P US ard Reader onnector P P Transformer RJ P P Int. Speaker P S/PIF P MI Jack P Int. MI P K/ OON. P Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev lock iagram ate: Thursday, March, 00 Sheet of

2 lock Generator KP0HST. V V_LK footprint REV: U LK V power range.0v~.v EMI 0 0 L.u/0V_ *0p/0V_ PLK_MINI_R *0p/0V_ PLK R *0p/0V_ PLK_IH_R *0p/0V_ FS *0p/0V_ FS *.u/0v_.u/0v_ REV: p/0v_ () STLKREQ# () GLN_LKREQ# () PLK_EUG () PLK_ () PLK_IH PU_SEL0 () LKUS_ MH_SEL () LK_ard PU_SEL () M_IH 00 *.u/0v_.u/0v_.u/0v_ p/0v_ Y.MHz R /F_ R /F_ R _ R _ R _ R.K_ R _ R _ R 0K_ R _ 0 0u_ G_XIN G_XOUT STLKREQ#_R GLN_LKREQ#_R PLK_MINI_R PLK R PLK_PM_R PLK_IH_R FS FS 0 0 V_PI V_I/O V_ V_PLL_I/O 0 V_PLL V_SR_I/O_ V_SR V_SR_I/O_ V_PU V_SR_I/O_ V_REF V_PU_I/O XTL_IN PU_STOP# PI_STOP# XTL_OUT KPWRG/P# PU_0 PU_0# PI_0/LKREQ_# PU MH PI_/LKREQ_# PU MH# 0 PI_ SR_/PU_ITP PI_ SR_#/PU_ITP# ^PI_/LLK_SEL PIF_/ITP_EN N US_MHz/FS_ FS_/TEST_MOE LLK/M LLK#/M_SS REF/FS_/TEST_SEL 0u_ LK_REFSSLK_R LK_REFSSLK#_R V0_LK.u/0V_.u/0V_ *.u/0v_.u/0v_ PM_STPPU# () PM_STPPI# () K_PWRG () LK_PU_LK () LK_PU_LK# () LK_MH_LK () LK_MH_LK# ().u/0v_.u/0v_ KP0HST. L.0V Pin : It acts as a level sensitive strobe to latch the FS pins and other multiplexed inputs. (,,,) (,,,) PT_SM PLK_SM Q N00E Q0 N00E V V R 0K_ R 0K_ GT_SM GLK_SM LK_REFLK_R LK_REFLK#_R GLK_SM GT_SM SR_0/OT_ SR_ SR_0#/OT_# SR_# SR_/LKREQ_# SL SR_#/LKREQ_# S SR_ SR_# SR_ SR_# SR_/LKREQ_F# VSS_PI SR_#/LKREQ_E# VSS_ SR_ VSS_I/O SR_# VSS_PLL SR_0 VSS_SR_ SR_0# VSS_SR_ SR_/LKREQ_H# VSS_SR_ SR_#/LKREQ_G# VSS_PU VSS_REF LK-GEN_SLGSPTTR 0 0 LK_PIE_SR LK_PIE_SR# LK_PIE_SR LK_PIE_SR# LK_MH_OE#_ LK_PIE_SR# T T T T R /F_ From GMH From MXM LK_PIE_ST () LK_PIE_ST# () LK_PIE_LN () LK_PIE_LN# () LK_PIE_IH () LK_PIE_IH# () LK_PIE_MINI () LK_PIE_MINI# () LK_PIE_GPLL () LK_PIE_GPLL# () LK_MH_OE# () LK_REFLK_R LK_REFLK#_R LK_REFSSLK_R LK_REFSSLK#_R LK_REFLK_R LK_REFLK#_R RN RN RN RN LK_REFSSLK_R LK_REFSSLK#_R REV: dd REV: R /F_ IV@0_PR IV@0_PR EV@0_PR EV@_PR MINI_LKREQ# () LK_REFLK () LK_REFLK# () LK_REFSSLK () LK_REFSSLK# () LK_MXM () LK_MXM# () M_NONSS () M_SS () PU lock select Pin 0// : For Pin PU frequency selection PU_SEL0 R0 () PU_SEL0 SHORT_ MH_SEL0 () SEL Frequency Select Table FS FS FS Frequency Mhz 0 0 Mhz V R R0 R R 0K_ STLKREQ#_R 0K_ GLN_LKREQ#_R *0K_ PLK_MINI_R 0K_ LK_PIE_SR# Pin : LKREQ_# ontrol SR_0 & SR_ Pin : LKREQ_# ontrol LLK & SR_ R *0K_ dd REV: Reserve overclocking Strap table 0 Mhz R EV@0K_ PLK_PM_R R IV@0K_ () PU_SEL () PU_SEL PU_SEL PU_SEL R R0 REV: SHORT_ SHORT_ MH_SEL () MH_SEL () Mhz 00Mhz 00Mhz Pin : For Pin / and / selection 0 = LLK & OT for internal graphic controller support = M & M_SS &SR_0 for external graphic controller support PLK_IH_R R 0K_ LOK GENERTOR 0 0 Mhz Pin : For Pin / selection = PU_ITP 0 = SR_ Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev LOK GENERTOR ate: Thursday, March, 00 Sheet of

3 () H_#[..] () H_ST#0 () H_REQ#[0..] () H_#[..] () H_ST# () H_0M# () H_FERR# () H_IGNNE# () H_STPLK# () H_INTR () H_NMI () H_SMI# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_REQ#0 H_REQ# H_REQ# H_REQ# H_REQ# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# U J []# S# L []# NR# L []# PRI# K []# M []# EFER# N []# RY# J []# SY# N [0]# P []# R0# P []# L []# IERR# P []# INIT# P []# R []# LOK# M ST[0]# RESET# K REQ[0]# RS[0]# H REQ[]# RS[]# K REQ[]# RS[]# J REQ[]# TRY# L REQ[]# HIT# Y []# HITM# U []# R []# PM[0]# W [0]# PM[]# U []# PM[]# Y []# PM[]# U []# PRY# R []# PREQ# T []# TK T []# TI W []# TO W []# TMS Y []# TRST# U [0]# R# V []# W []# []# THERML []# []# PROHOT# V ST[]# THERM THERM 0M# FERR# THERMTRIP# IGNNE# R GROUP_0 R GROUP_ IH STPLK# LINT0 LINT SMI# M RSV[0] N RSV[0] T RSV[0] V RSV[0] RSV[0] RSV[0] RSV[0] RSV[0] F RSV[0] RESERVE XP/ITP SIGNLS ONTROL H LK LK[0] LK[] H E G H F E F 0 H F F G G G E 0 H_IERR# XP_PM#0 XP_PM# XP_PM# XP_PM# XP_PM# XP_PM# XP_TK XP_TI XP_TO XP_TMS XP_TRST# SYS_RST# H_PROHOT#_ H_THERM H_THERM PM_THRMTRIP# R _ T T T T T H_S# () H_NR# () H_PRI# () H_EFER# () H_RY# () H_SY# () H_REQ# ().0V H_INIT# () H_LOK# () H_PURST# () H_RS#0 () H_RS# () H_RS# () H_TRY# () H_HIT# () H_HITM# () onnect it to PU R# is for ITP debug port or PU interposer (like IE) to reset the system SYS_RST# () LK_PU_LK () LK_PU_LK# ().0V R K/F_ R K/F_ Layout note: H_GTLREF: Zo= ohm L<0.", /*VP-% () H_#[0..] () H_STN#0 () H_STP#0 () H_INV#0 () H_#[..] () H_STN# () H_STP# () H_INV# () PU_SEL0 () PU_SEL () PU_SEL R R H_#[0..] H_#[..] T T T T T H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# U E [0]# F []# E []# G []# F []# G []# E []# E []# K []# G []# J [0]# J []# H []# F []# K []# H []# J STN[0]# H STP[0]# H INV[0]# N []# K []# P []# R []# L [0]# M []# L []# M []# P []# P []# P []# T []# R []# L []# T [0]# N []# L STN[]# M STP[]# N INV[]# T GRP 0 T GRP H_GTLREF *K_ PU_TEST GTLREF PU_TEST TEST MIS *K_ PU_TEST TEST PU_TEST TEST F PU_TEST TEST F PU_TEST TEST PU_TEST TEST TEST SEL[0] SEL[] SEL[] Penryn T GRP T GRP []# []# []# []# []# []# []# []# [0]# []# []# []# []# []# []# []# STN[]# STP[]# INV[]# []# []# [0]# []# []# []# []# []# []# []# []# []# [0]# []# []# []# STN[]# STP[]# INV[]# OMP[0] OMP[] OMP[] OMP[] PRSTP# PSLP# PWR# PWRGOO SLP# PSI# Y V V V T U U Y W Y W W Y U E 0 E F E F E F 0 R U Y E E H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# OMP0 OMP OMP OMP R R R0 R00 H_#[..] H_#[..]./F_./F_./F_./F_ H_#[..] () H_STN# () H_STP# () H_INV# () H_#[..] () Layout note: comp0,: Zo=.ohm, L<0." comp,: Zo=ohm, L<0." Layout note: PRSTP#, aisy hain (S>Power>N>PU) H_STN# () H_STP# () H_INV# () IH_PRSTP# (,,) H_PSLP# () H_PWR# () H_PWRG () H_PUSLP# () PSI# () Penryn Thermal Trip (,,,) ELY_VR_PWRGOO (,) PM_THRMTRIP# Processor hot PM_THRMTRIP#.0V R.0V _ Q MMT0 Q N00E SYS_SHN# (,) No use Thermal trip PU side still PU ohm. Use Thermal trip can share PU at S side PU Thermal monitor V () N_MLK V () N_MT V R Q N00E R 0K_ LK T Q N00E 0K_ R 0K_ U0 SLK S LERT# OVERT# V R 00_ V_TH V XP XN GN.u/0V_ H_THERM 0 00p_ H_THERM XP PU/P SYS_RST# XP_TO XP_TI XP_TMS XP_PM# XP_TK XP_TRST# R R R R R R R *K_ *./F_./F_./F_./F_./F_./F_ V.0V H_PROHOT#_ PU /.0V R _ R No use PROHOT PU side still PU ohm. Use PROHOT to optional receiver PU side PU ohm and through isolat.k ohm to receiver side *0_ H_PROHOT# () () THERM_LERT# () THER_OVERT# V R R *0_ 0K_ G0PU RESS: H GMT L Use 00p NS L0000 Use 00p WINON LLK0 Use 00p XP_RESET# and XP_TO reserve for XP Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev PU Host us ate: Thursday, March, 00 Sheet of

4 U VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] F VSS[00] VSS[00] VSS[00] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[00] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[00] VSS[0] VSS[0] VSS[0] VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[00] E VSS[0] E VSS[0] E VSS[0] F VSS[0] F VSS[0] F VSS[0] F VSS[0] F VSS[0] F VSS[0] F VSS[00] F VSS[0] F VSS[0] G VSS[0] G VSS[0] G VSS[0] G VSS[0] H VSS[0] H VSS[0] H VSS[0] H VSS[00] J VSS[0] J VSS[0] J VSS[0] J VSS[0] K VSS[0] K VSS[0] K VSS[0] K VSS[0] L VSS[0] L VSS[00] L VSS[0] L VSS[0] M VSS[0] M VSS[0] M VSS[0] M VSS[0] N VSS[0] N VSS[0] N VSS[0] N VSS[00] P VSS[0] Penryn PU / VSS[0] P VSS[0] P VSS[0] P VSS[0] R VSS[0] R VSS[0] R VSS[0] R VSS[0] T VSS[00] T VSS[0] T VSS[0] T VSS[0] U VSS[0] U VSS[0] U VSS[0] U VSS[0] V VSS[0] V VSS[0] V VSS[00] V VSS[0] W VSS[0] W VSS[0] W VSS[0] W VSS[0] Y VSS[0] Y VSS[0] Y VSS[0] Y VSS[0] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] E VSS[] E VSS[] E VSS[] E VSS[] E VSS[0] E VSS[] E VSS[] E VSS[] E VSS[] VSS[] F VSS[] F VSS[] F VSS[] F VSS[] F VSS[0] F VSS[] F VSS[] VSS[] F. *0u/0V_ 0u_ 0u_ 0 *0u/0V_ Layout Note: Place these parts reference to Intel demo board. 0u_ 0u_ *0u/0V_ 0 0u_ *0u/0V_ 0 *0u/0V_ 0 *0u/0V_ *0u/0V_ 0 0u_ *0u/0V_ 0u_ 0 *0u/0V_ 0u_ 0u_ *0u/V_ 0 *0u/0V_ 0 0u_ *0u/0V_ *0u/0V_ 0 *0u/0V_ *0u/0V_ 0u/V_ *0u/0V_ *0u/0V_ 0 0u_ *0u/0V_ 0 0u_ 0u_ 0u/V_ *0u/0V_ *0u/0V_ 0u_ 0u_ *0u/0V_ 0 *0u/0V_ 0 *0u/V_ V_ORE U V[00] V[00] 0 V[00] V[00] V[00] V[00] V[00] V[00] 0 V[00] V[00] V[0] 0 V[0] V[0] V[0] V[0] V[0] V[0] 0 V[0] V[0] 0 V[00] V[0] V[0] V[0] V[0] V[0] V[0] 0 V[0] V[0] V[0] V[00] V[0] V[0] E V[0] E V[0] E0 V[0] E V[0] E V[0] E V[0] E V[0] E V[00] E0 V[0] F V[0] F V[0] F0 V[0] F V[0] F V[0] F V[0] F V[0] F V[0] F0 V[00] V[0] V[0] 0 V[0] V[0] V[0] V[0] V[0] V[0] 0 V[0] V[00] 0 V[0] 0 V[0] V[0] V[0] V[0] V[0] V[0] Penryn Montevina platform : Early Reference oard Schematics Feb 00. Rev.0 stuff U*, N U* stuff 0U*, N0U* V[0] V[0] V[00] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[00] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[00] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[00] VP[0] VP[0] VP[0] VP[0] VP[0] VP[0] VP[0] VP[0] VP[0] VP[0] VP[] VP[] VP[] VP[] VP[] VP[] V[0] V[0] VI[0] VI[] VI[] VI[] VI[] VI[] VI[] VSENSE VSSSENSE. 0 0 E E0 E E E E E E0 F F0 F F F F F F0 G V J K M J K M N N R R T T V W F E F E F E F E V_ORE V: (Low power type) V: (Standard type) Layout Note: Inside PU center cavity in rows VP :.(Supply after V Stable).(Supply before V Stable) 0.u/V_ *.u/v_ H_VI0 () H_VI () H_VI () H_VI () H_VI () H_VI () H_VI ().u/v_ 0.u/V_ R0 R0 00/F_.0V V_ORE VSENSE () VSSSENSE () ate: Thursday, March, 00 Sheet of.v Quanta omputer Inc. PROJET : Size ocument Number Rev PU Power.u/V_.u/V_ V:0m.0u/V_ 00/F_ Layout Note: Z0=.,PU/P L<" Z0 0u_ 0u/V_

5 U Intel antiga GM- Intel antiga PM- Intel antiga GL0-.0V R /F_ R0 00/F_ R./F_ H_SWING H_ROMP QI P/N JSL0T0 JSL0T0 JSLGGM0T0 0.*VP WIE(0):SPING(0), L<0.".u/0V_ Layout Note: WIE(0):SPING(0), L<0." /*VP WIE(0):SPING(0), L<0." GMH (NTIG) () H_#[0..].0V R0 K/F_ R0 K/F_ () H_PURST# () H_PUSLP# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_SWING H_ROMP H_VREF *.u/0v_ F G F E G H H F H M M J J N J P L R N L M J N R N N P N L N0 M Y Y Y0 Y Y Y W Y 0 E E E F E E E G E E U H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_SWING H_ROMP H_PURST# H_PUSLP# H_VREF H_VREF NTIG_GM HOST H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ H_#_ H_S# H_ST#_0 H_ST#_ H_NR# H_PRI# H_REQ# H_EFER# H_SY# HPLL_LK HPLL_LK# H_PWR# H_RY# H_HIT# H_HITM# H_LOK# H_TRY# H_INV#_0 H_INV#_ H_INV#_ H_INV#_ H_STN#_0 H_STN#_ H_STN#_ H_STN#_ H_STP#_0 H_STP#_ H_STP#_ H_STP#_ H_REQ#_0 H_REQ#_ H_REQ#_ H_REQ#_ H_REQ#_ H_RS#_0 H_RS#_ H_RS#_ F H M J P R N M E P F G0 J E0 H J0 L L J H0 K 0 F K L0 H G F G E 0 H H J F H E H J L Y Y L0 M E L M E K F F H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_INV#0 H_INV# H_INV# H_INV# H_STN#0 H_STN# H_STN# H_STN# H_STP#0 H_STP# H_STP# H_STP# H_REQ#0 H_REQ# H_REQ# H_REQ# H_REQ# H_RS#0 H_RS# H_RS# H_#[..] () H_S# () H_ST#0 () H_ST# () H_NR# () H_PRI# () H_REQ# () H_EFER# () H_SY# () LK_MH_LK () LK_MH_LK# () H_PWR# () H_RY# () H_HIT# () H_HITM# () H_LOK# () H_TRY# () H_INV#[..0] () H_STN#[..0] () H_STP#[..0] () H_REQ#[0..] () H_RS#[0..] () Quanta omputer Inc. PROJET : Size ocument Number Rev GMH HOST Z0 ate: Thursday, March, 00 Sheet of

6 Strap table U Pin Name FG[:0] FG[:] FG FG FG FG FG FG0 FG FG FG FG[:] FG FG[:] FG FG0 SVO_TRLT P_TRLT XOR Strap description FS Frequency Select MI X Select itpm Host Interface ME TLS onfidentiality PIE Graphics Lane Reversal PIE Loopback enable LLZ FS ynamic OT MI Lane Reversal igital isplay Port (SVO/P/iHMI) oncurrent with PIE SVO Present igital isplay Present Strap pin V V R R R R R R R R R R R R0 R0 R R R R GMH (NTIG) *.0K/F_ *.0K/F_ *.K/F_ *.K/F_ *.K/F_ *.K/F_ *.K/F_ *.K/F_ *.K/F_ *.K/F_ IV@.K_ IV@.K_ *.K/F_ *.K/F_ 0K_ 0K_ 0K_ onfiguration 000= FS 0MHz 00 = FS 00MHz 0 = FS MHz 0 = MI X = MI X(efault) 0 = itpm Host Interface is enabled = itpm Host Interface is disabled(efault) 0 = MT Firmware will use TLS cipher suite with no confidentiality = MT Firmware will use TLS cipher suite with confidentiality(efault) 0 = Reverse Lanes = Normal operation(efault) 0 = Enabled = isabled (efault) 0 = LLZ mode enable = disable(efault) 0 = XOR mode enable = disable(efault) 0 = ynamic OT disable = ynamic OT Enable(efault) 0 = Normal (efault) = Lanes Reversed 0 = Only igital isplay port (SVO/P/iHMI) or PIE is operational (efault) = igital isplay port (SVO/P/iHMI) and PIE are operating simultaneously via PEG port 0 = No SVO/HMI evice Present(efault) = SVO/HMI evice present 0 = igital display(hmi/p) device absent(efault) = igital display(hmi/p) device present MH_FG_ MH_FG_0 MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_0 MH_FG_ MH_FG_ MH_FG_ REV: SVO_TRLT SVO_TRLLK P_T P_TRLLK LK_MH_OE# PM_EXTTS#0 PM_EXTTS# TPM isable (,,,) () PM_SYN# (,,) IH_PRSTP# () PM_EXTTS#0 () PM_EXTTS# ELY_VR_PWRGOO () PLT_RST# (,) PM_THRMTRIP# (,) PM_PRSLPVR () () () T0 T T MH_SEL0 MH_SEL MH_SEL T T R R T T0 T T T T T 00/F_ *0_ N Thermal trip pin No use Thermal trip N side can N.(N has OT) PM_PRSTP# The aisy chain topology should be routed from IHM to IMVP, then to (G)MH and PU, in that order. JTG_TK_GMH JTG_TI_GMH JTG_TO_GMHN JTG_TMS_GMHM MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_0 MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_ MH_FG_0 RST_IN#_MH THRMTRIP#_R M N R T H H0 H H K T M Y G F H F L K T R P P0 P N M E N P T R0 M0 L H P R T R N P T0 T T0 R G F H G E H F G H H H H G H F H G E G F F RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV0 RSV RSV RSV RSV RSV ME_JTG_TK ME_JTG_TI ME_JTG_TO ME_JTG_TMS FG_0 FG_ FG_ FG_ FG_ FG_ FG_ FG_ FG_ FG_ FG_0 FG_ FG_ FG_ FG_ FG_ FG_ FG_ FG_ FG_ FG_0 PM_SYN# PM_PRSTP# PM_EXT_TS#_0 PM_EXT_TS#_ PWROK RSTIN# THERMTRIP# PRSLPVR N_ N_ N_ N_ N_ N_ N_ N_ N_ N_0 N_ N_ N_ N_ N_ N_ N_ N_ N_ N_0 N_ N_ N_ N_ N_ NTIG_GM FG PM RSV ME JTG N R LK/ ONTROL/OMPENSTION LK MI GRPHIS VI ME MIS H S_K_0 S_K_ S_K_0 S_K_ S_K#_0 S_K#_ S_K#_0 S_K#_ S_KE_0 S_KE_ S_KE_0 S_KE_ S_S#_0 S_S#_ S_S#_0 S_S#_ S_OT_0 S_OT_ S_OT_0 S_OT_ SM_ROMP SM_ROMP# SM_ROMP_VOH SM_ROMP_VOL SM_VREF SM_PWROK SM_REXT SM_RMRST# PLL_REF_LK PLL_REF_LK# PLL_REF_SSLK PLL_REF_SSLK# PEG_LK PEG_LK# MI_RXN_0 MI_RXN_ MI_RXN_ MI_RXN_ MI_RXP_0 MI_RXP_ MI_RXP_ MI_RXP_ MI_TXN_0 MI_TXN_ MI_TXN_ MI_TXN_ MI_TXP_0 MI_TXP_ MI_TXP_ MI_TXP_ GFX_VI_0 GFX_VI_ GFX_VI_ GFX_VI_ GFX_VI_ GFX_VR_EN L_LK L_T L_PWROK L_RST# L_VREF P_TRLLK P_TRLT SVO_TRLLK SVO_TRLT LKREQ# IH_SYN# TSTN# H_LK H_RST# H_SI H_SO H_SYN P T V U0 R R U V0 Y Y Y V R Y F Y G H F H V R F E F F E E E E H E0 E E H0 E E E H E F H G F E H H N J H N M G E K H 0 M_ROMP M_ROMP# SM_ROMP_VOH SM_ROMP_VOL SM_VREF SM_POK SM_REXT LK_REFLK LK_REFLK# LK_REFSSLK LK_REFSSLK# LK_PIE_GPLL LK_PIE_GPLL# MI_TXN0 MI_TXN MI_TXN MI_TXN MI_TXP0 MI_TXP MI_TXP MI_TXP MI_RXN0 MI_RXN MI_RXN MI_RXN MI_RXP0 MI_RXP MI_RXP MI_RXP MH_LVREF_R P_TRLLK P_T LK_MH_OE# TSTN# R R H_IT_LK_HMI H_RST#_HMI H_SIN_HMI H_SOUT_HMI H_SYN_HMI 0K/F_ /F_ R _ M_LK0 () M_LK () M_LK () M_LK () M_LK#0 () M_LK# () M_LK# () M_LK# () M_KE0 () M_KE () M_KE () M_KE () M_S#0 () M_S# () M_S# () M_S# () M_OT0 () M_OT () M_OT () M_OT () LK_REFLK () LK_REFLK# () LK_REFSSLK () LK_REFSSLK# () LK_PIE_GPLL () LK_PIE_GPLL# () MI_TXN[:0] () MI_TXP[:0] () MI_RXN[:0] () MI_RXP[:0] () L_LK0 () L_T0 () MPWROK (,) L_RST#0 () SVO_TRLLK () SVO_TRLT () LK_MH_OE# () MH_IH_SYN# ().0V H_IT_LK_HMI () H_RST#_HMI () H_SIN_HMI () H_SOUT_HMI () H_SYN_HMI () SM_VREF=0.*V_SM SM_PWROK only for R.(R P only) SM_RMRST# only for R.(R:N) NOTE: If (G)MH's H udio signals are connected to IHM for ihmi, VH and VSUSH on IHM should be only on.v. These power pins on IHM can be supplied with.v if and only if (G)MH's H is not connected to IHM. onsequently, only.v audio/modem codecs can be used on the platform..u/0v_.0v If HMI not support H --> N V_H-->GN ifferential signal-->n Impact IHM VH and VSUSH supply.v/.v R K/F_ R /F_ M_ROMP M_ROMP# SM_VREF TSTN# LK_REFLK# LK_REFLK LK_REFSSLK# LK_REFSSLK SM_ROMP_VOH SM_ROMP_VOL.0V heck list note : L_VREF=0.V P_TRL for HMI port SVO_TRL for HMI port.vsus.vsus SM_VREF.efault use voltage divider for poor layout cause SMR_VREF not meet spec.nd Intel circuit PU/P is K,ut heck list PU/P is 0K. INTEL FE Suggest P for Ext graphics N Thermaltrip R R.u/.V_.u/.V_ R0 R R *0K_ 0./F_ 0./F_ R0 R R R.0u/V_.0u/V_ 0K/F_ 0K/F_ Q *MMT0 K/F_ R R K/F_ EV@0_ EV@0_ EV@0_ EV@0_.0K/F_.VSUS TSTN_E# () <hecklist ver0.> If TSTN# is not used, then it must be terminated with a - pull-up resistor to VP. <Pin out check issue> antiga ES 0. change all to TSTN# from TSTN Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev GMH MI R Thursday, March, 00 ate: Sheet of

7 IV&EV is/enable setting If LVS no use,all signal can N () L_KLT_TRL () INT_LVS_LON () INT_LVS_EILK () INT_LVS_EIT () INT_LVS_IGON () INT_TXLOUT0- () INT_TXLOUT- () INT_TXLOUT- () INT_TXLLKOUT- () INT_TXLLKOUT () INT_TXLOUT0 () INT_TXLOUT () INT_TXLOUT () INT_RT_LK () INT_RT_T () INT_HSYN () INT_VSYN HSYN_G VSYN_G V MXM STUFFE. (RT) R0 R SP@ R R () INT_RT_LU () INT_RT_GRN () INT_RT_RE INT_TXLLKOUT- INT_TXLLKOUT INT_TXLOUT0- INT_TXLOUT- INT_TXLOUT- INT_TXLOUT0 INT_TXLOUT INT_TXLOUT TV_// For IV: ohm For EV:0ohm R R R R R IV@0K_ IV@0K_ IV@.K/F_ IV@0_ SP@_ SP@_ SP@_ L_TRL_LK L_TRL_T LVS_IG LVS_VREF INT_TV_OMP INT_TV_Y/G INT_TV_/R INT_RT_LU INT_RT_GRN INT_RT_RE IV@0._ IV@0._ HSYN_G RTIREF VSYN_G HSYN/VSYN serial R place close to N RTIREF pull down for IV cantiga.0k ohm/f L G M M K J M E E 0 H E G0 0 H F0 0 H G J G F K F H K H E E G J G H J J E L U L_KLT_TRL L_KLT_EN L_TRL_LK L_TRL_T L LK L T L_V_EN LVS_IG LVS_VG LVS_VREFH LVS_VREFL LVS_LK# LVS_LK LVS_LK# LVS_LK LVS_T#_0 LVS_T#_ LVS_T#_ LVS_T#_ LVS_T_0 LVS_T_ LVS_T_ LVS_T_ LVS_T#_0 LVS_T#_ LVS_T#_ LVS_T#_ LVS_T_0 LVS_T_ LVS_T_ LVS_T_ TV_ TV_ TV_ TV_RTN TV_ONSEL_0 TV_ONSEL_ RT_LUE RT_GREEN RT_RE RT_IRTN RT LK RT T RT_HSYN RT_TVO_IREF RT_VSYN NTIG_GM LVS PI-EXPRESS GRPHIS TV VG PEG_OMPI PEG_OMPO PEG_RX#_0 PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_0 PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX#_ PEG_RX_0 PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_0 PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_ PEG_RX_ PEG_TX#_0 PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_0 PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX#_ PEG_TX_0 PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_0 PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_ PEG_TX_ T T L<0.", If PIE not support still connect to V_PEG EXP OMPX H PEG_RXN0 J PEG_RXN L PEG_RXN L0 PEG_RXN N PEG_RXN P PEG_RXN N PEG_RXN T PEG_RXN U PEG_RXN Y PEG_RXN Y PEG_RXN0 Y PEG_RXN PEG_RXN PEG_RXN PEG_RXN PEG_RXN H PEG_RXP0 J PEG_RXP L PEG_RXP L PEG_RXP N0 PEG_RXP P PEG_RXP N PEG_RXP T PEG_RXP U PEG_RXP Y PEG_RXP W PEG_RXP0 Y PEG_RXP PEG_RXP PEG_RXP PEG_RXP 0 PEG_RXP J M M M0 M R N T0 U U0 Y0 0 J L M M M R N T U U Y Y _PEG_TXN0 _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN0 _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN _PEG_TXN R _PEG_TXP0 _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP0 0 _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP _PEG_TXP./F_.0V PEG_RXN[:0] () an support reversal routing.if FG=, PI Express is normal operation. If FG=0, then PEG_TXP0 becomes PEG_TXP, PEG_TXP becomes PEG_TXP, PEG_TXP becomes PEG_TXP, etc. similarly for PEG_RXP[:0] and PEG_RXN[:0] PEG_RXP[:0] ().u/0v_.u/0v_ PEG_TXN0 PEG_TXN.u/0V_.u/0V_ EV@.U/0V_ EV@.U/0V_ PEG_TXN PEG_TXN PEG_TXN PEG_TXN EV@.U/0V_ PEG_TXN EV@.U/0V_ EV@.U/0V_ PEG_TXN PEG_TXN EV@.U/0V_ PEG_TXN EV@.U/0V_ EV@.U/0V_ PEG_TXN0 PEG_TXN EV@.U/0V_ PEG_TXN EV@.U/0V_ PEG_TXN EV@.U/0V_ PEG_TXN EV@.U/0V_ PEG_TXN.u/0V_ PEG_TXP0.u/0V_ PEG_TXP.u/0V_ PEG_TXP.u/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP0 EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP EV@.U/0V_ PEG_TXP PEG_TXN[:0] (,) PEG_TXP[:0] (,) IV&EV is/enable setting </>Montevina_Schematics_hecklist_Rev0_ a)for TVOUT isabled, TV_ONSEL[:0] onnect to GN. ut design guide Rev0. show N.What is correct. b)for RT isable, RT LK, RT T. RT_HSYN, RT_VSYNThese signals should be connected to GN. ut design guide Rev0. show N, Intel suggest follow esign guide. SP@ <check list> <check list> For EV@ For IV@ RT R/G/ 0ohm to GN RT R/G/ 0ohm to GN RTIREF 0ohm to GN RTIREF.0Kohm to GN R R R R RTIREF For IV:.0Kohm For EV:0ohm SP@.0K/F_ RT_R/G/ For IV: 0ohm For EV:0ohm SP@0/F_ SP@0/F_ SP@0/F_ RTIREF INT_RT_LU INT_RT_GRN INT_RT_RE R EV@0_ R EV@0_ Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev GMH VG ate: Thursday, March, 00 Sheet of

8 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q0 M M0 M M M M M M M M M M M M M M M QS M QS M QS0 M QS M QS M QS M QS M QS M QS#0 M QS# M QS# M QS# M QS# M QS# M QS# M QS# M 0 M M M M M M M M 0 M M M M M M M Q M Q M Q M Q M Q M Q M Q0 M Q0 M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q0 M Q0 M Q0 M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M Q M M QS# M M QS# M 0 M M QS# M 0 M QS# M M M M QS# M M QS M QS# M M M M M M QS M M M M0 M QS M M QS M QS M M QS M M M M QS0 M QS M M M M M QS# M QS#0 M M M M M Q[:0] () M S0 () M M[:0] () M QS[:0] () M QS#[:0] () M [:0] () M RS# () M S# () M WE# () M Q[:0] () M S0 () M M[:0] () M QS[:0] () M QS#[:0] () M [:0] () M RS# () M S# () M WE# () M S () M S () M S () M S () Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : GMH RII Thursday, March, 00 Z0 Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : GMH RII Thursday, March, 00 Z0 Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : GMH RII Thursday, March, 00 Z0 GMH (NTIG) S_Q_0 J S_Q_ J S_Q_0 U0 S_Q_ T S_Q_ N S_Q_ N S_Q_ U S_Q_ U S_Q_ V S_Q_ Y S_Q_ 0 S_Q_ S_Q_ N S_Q_0 V S_Q_ Y S_Q_ S_Q_ 0 S_Q_ Y S_Q_ S_Q_ V S_Q_ T S_Q_ Y S_Q_ S_Q_ M S_Q_0 V S_Q_ W S_Q_ S_Q_ U S_Q_ S_Q_ S_Q_ U S_Q_ V S_Q_ S_Q_ S_Q_ J S_Q_0 S_Q_ S_Q_ U0 S_Q_ V S_Q_ S_Q_ S_Q_ Y S_Q_ S_Q_ V S_Q_ V S_Q_ J0 S_Q_0 T S_Q_ N S_Q_ U S_Q_ U S_Q_ T S_Q_ N0 S_Q_ M S_Q_ M S_Q_ J S_Q_ J S_Q_ M S_Q_0 N S_Q_ M S_Q_ J S_Q_ J S_Q_ M S_Q_ N S_Q_ N S_S_0 S_S_ G S_S_ T S_S# 0 S_M_0 M S_M_ T S_M_ Y S_M_ U S_M_ S_M_ Y S_M_ T S_QS_0 J S_QS_ T S_QS_ S_QS_ S_QS_ W S_QS_ S_QS_ U S_QS_ M S_M_ J S_QS#_0 J S_QS#_ T S_QS#_ S_QS#_ S_QS#_ Y S_QS#_ S_QS#_ U S_QS#_ M S_M_0 S_M_ S_M_0 S_M_ G S_M_ H S_M_ H S_M_ G S_M_ H S_M_ G S_M_ S_M_ S_M_ G S_M_ F S_M_ W S_RS# 0 S_WE# Y0 S_M_ Y R SYSTEM MEMORY U NTIG_GM R SYSTEM MEMORY U NTIG_GM S_Q_0 K S_Q_ H S_Q_0 S_Q_ Y S_Q_ T S_Q_ R S_Q_ S_Q_ S_Q_ S_Q_ S_Q_ G S_Q_ F S_Q_ P S_Q_0 E S_Q_ S_Q_ F0 S_Q_ F S_Q_ G S_Q_ F S_Q_ H S_Q_ G S_Q_ H0 S_Q_ G S_Q_ P S_Q_0 G S_Q_ H S_Q_ H S_Q_ G S_Q_ H S_Q_ G S_Q_ H S_Q_ F S_Q_ F S_Q_ G S_Q_ J S_Q_0 S_Q_ S_Q_ Y S_Q_ Y S_Q_ F S_Q_ F S_Q_ S_Q_ S_Q_ V S_Q_ U S_Q_ J S_Q_0 R S_Q_ N S_Q_ Y S_Q_ V S_Q_ P S_Q_ R S_Q_ L S_Q_ L S_Q_ J S_Q_ H S_Q_ M S_Q_0 M S_Q_ M S_Q_ H S_Q_ J S_Q_ P S_Q_ U S_Q_ U S_S_0 S_S_ S_S_ S_S# G S_M_0 M S_M_ Y S_M_ 0 S_M_ F S_M_ G S_M_ S_M_ P S_M_ K S_QS_0 L S_QS_ V S_QS_ G S_QS_ G S_QS_ H S_QS_ S_QS_ U S_QS_ N S_QS#_0 L S_QS#_ V S_QS#_ H S_QS#_ H S_QS#_ G S_QS#_ S_QS#_ T S_QS#_ N S_M_0 V S_M_ S_M_0 S_M_ W S_M_ Y S_M_ H S_M_ S_M_ U S_M_ W S_M_ S_M_ U S_M_ W S_M_ T S_M_ S_M_ U S_RS# U S_WE# F R SYSTEM MEMORY UE NTIG_GM R SYSTEM MEMORY UE NTIG_GM

9 Power consumption reference to Intel antiga chipset ES Volume. Section 0 GM TP 0.~W GS TP ~W PM TP W UG.0V_XG Intel check list(rev 0.) No description for V_SM bulk P Intel R(Rev 0.) 0U* Reserve near to power 0U* near to N Intel check list(rev 0.) 0U* near to power(v.0m). 0U* near to N Intel R(Rev 0.) 0U* near to power(v.0m). 0U* near to N ESR=m ohm u_ u_.u/0v_ V_SM(.V) R(00M) 000m_S0, m_s R(M) : 00m_S0 R(0M) : 0m_S0.0V Graphics core V_XG V_XG_NTF.m.0V_XG.0V_XG Voltage regulator is shared between the Graphics ore Rail, V_HPLL,V_MPLL,V_PEG_PLLV_PEG_PLL, V_SM_K, V_PLL, V_PLL, V_HPLL, V_SM, V_XF IV@ R0 R 0u/V_ IV@0/F_ IV@0/F_ P N H G F Y W V U T R P N H G F G0 H G F Y W V U T R P W W T Y E E Y E J G E Y H0 F0 E T T M L E J H G F Y V U N M U T J H V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_0 V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_0 V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_0 V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_/N V_SM_/N V_SM_/N V_SM_/N V_SM_0/N V_SM_/N V_SM_/N V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_0 V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_0 V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_0 V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_ V_XG_0 V_XG_ V_XG_ V_XG_SENSE VSS_XG_SENSE POWER V SM V GFX V GFX NTF V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_0 V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_0 V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_0 V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_0 V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_0 V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_ V_XG_NTF_0 V SM LF V_SM_LF V_SM_LF V_SM_LF V_SM_LF V_SM_LF V_SM_LF V_SM_LF W V W V W V W V W V M L K W V U M0 K0 W0 U0 M L K J H G F E Y W V U M K H G F E Y W V M L K J H G F E Y W V U V M0 V Y M0 V_SM_LF V_SM_LF V_SM_LF V_SM_LF V_SM_LF V_SM_LF V_SM_LF.0V_XG IV@.V Internal connect to power.u/0v_.0v IV@0u/V_ R Place close to the GMH IV@0_ IV@0u/V_.0V_XG Intel check list(rev 0.) 0U* near to N(ESR=m ohm) Intel R(Rev 0.) 0U* near to power(v.0s). 0U* near to N.u/0V_ R0 R.u/.V_ IV@0_ IV@0_.u/.V_ IV@.u/.V_.u/.V_.0V Place close to the GMH IV&EV is/enable setting esign guide(table ) For INT VG diasble.v_xg power can connect to GN SP@ SP@:IV Sutff uf EVstuff 0 ohm u_ SP@u_ u_.u/0v_ IV@0u_.u/.V_ IV@u_.u/.V_ IV@.u_ 0 u_ IV@.u_ avity apacitors 0u/V_ IV@.u_ UF G V_ V_ V_ V_ Y V_ V V_ U V_ M V_ K V_ J V_0 G V_ F V_ E V_ V_ V_ Y V_ W V_ V V_ U V_ H V_0 F V_ V_ V_ J V_ G V_ E V_ V_ H V_ G V_ F V_0 G V_ J V_ H V_ F V_ T V_ NTIG_GM V ORE POWER V NTF V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_0 V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_0 V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_0 V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_ V_NTF_0 V_NTF_ V_NTF_ V_NTF_ V_NTF_ M L K J H G E Y W U M0 L0 K0 H0 G0 F0 E Y0 W0 V0 U0 L K J H G E Y W V L K L K K K K.0V V V_NTF 0.m_EV 0.m_IV ME Engine 0.m Total Max=.m. Route V_XG_SENSE and VSS_XG_SENSE differentially. V_XG_SENSE PU to VGFX_ORE_INT with 0ohm and VSS_XG_SENSE P with 0ohm for Intel suggest NTIG_GM N Power Status and max current table(/) POWER PLNE S0 S S/S Voltage I(max) V(EXT_VG) O X X.0V m V(INT_VG) O X X.0V m Note GMH (NTIG) V_XG O X X.0V 00m Graphics ore V_SM(00) O O X.VSUS (RII-). V_SM(Standby) O O X.VSUS m Self Refresh during S (See N ES Rev:.0 Section 0. for max current) (See N ES Rev:.0 Section. for voltage) Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev GMH V,NTF Thursday, March, 00 ate: Sheet of

10 Power consumption reference to Intel antiga chipset ES Volume. Section 0 0 0UH, 0% 0. R_max = 0..0V L0 IV@0uH m V_RT_TV_ IV&EV is/enable setting If RT have Flicker issue STUFF. ohm R IV@./F_ R IV@./F_ REV: V_V_RT_ IV@.u_ V G IV@.u_ IV&EV is/enable setting SP@.0u_ SP@:INT use 0.0U EXT use 0 ohm SP@.0u_ IV@0u_ IV@0u_.V m UH.0V FS-0 m External Graphics (GMH Integrated Graphics isable) VSYN_RT V_RT_ V_LVS V_TX_LVS V_LVS V_TV V_Q GN GN GN GN GN GN N/.0V.0V.V.m for V_TV_.m for V_TV_.m for V_TV_ Total.m.V.V.0V.m for PLL_/ 0 0.uH, 0%,, R_max=0.0 V.V.m for RT m for TV 0 0UH, 0% 0. R_max = 0. L.0VM_MPLL_R F 0@00 MHz, %. R_max=0 m ESR= m R no 0U heck list need min 0U~00U for V_TV_ R V_TV always keep 0.U/0.0U/0U to.v L L0 R0 0_ 0 u_ IV@0u_ IV@0_ ESR= m.v m IV@KP0HST. R0 0_ IV@0u/.V_.V 0m.V m F 0@00 MHz, %. R_max=0 m L IV@0uH m LMPGSN. R0 0.u/.V_ SP@:INT use 0.U IV@0u/.V_ 0./F_ EXT use 0 ohm KP0HST..u/0V_.0V IV@.u_ SP@.u_.0V m.0v.m V_PLL/ always keep to.0v (If no use IV dynamic core power).0v.v. nh, 0. nh,, R_max= m IV&EV is/enable setting SP@:INT use 0.U.u/0V_.u/0V_ SP@.u_.V 0.m EXT use 0 ohm 0 R0 0_ SP@.u_ SP@.0u_ 0.0u/V_ SP@:INT use 0.0U EXT use 0 ohm.v.m.0v R-00 m R : 0 ohm heck list :.nh.0v R 0_ R0 0_.0V R-00 0m.0V.m.0VM SM u_.0vm_pll.0vm_pll.0vm_hpll.0vm_mpll.vsus_txlvs V_PEG_G 0.0V.u/0V_ 0m.0VM_PEGPLL V_PEG_PLL.V for Teenah use(00m) R0 P0 N0 R.u/.V_ u_ P N T R P.0VM SM_K 0 *.u/0v_ V_Q share to TV and RT R0 0_ 00.V m USE same GN plane IV@000p/0V_.u/0V_ u_.v u.u/0v_ V_RT_TV_ V_H.V_TV.V_Q.0VM_MH_PLL.0VM_PEGPLL F L E J J P N P N N M M M L M L M L M L F M L V_RT V_RT V G VSS G V_PLL V_PLL V_HPLL V_MPLL V_LVS VSS_LVS V_PEG_G V_PEG_PLL V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_ V_SM_K_ V_SM_K_ V_SM_K_ V_SM_K_ V_SM_K_ V_SM_K_NTF_ V_SM_K_NTF_ V_SM_K_NTF_ V_SM_K_NTF_ V_SM_K_NTF_ V_SM_K_NTF_ V_SM_K_NTF_ V_SM_K_NTF_ V_TV V_TV V_H V_TV V_Q V_HPLL V_PEG_PLL V_LVS_ V_LVS_ NTIG_GM RT PLL LVS PEG SM TV H LVS POWER K TV/RT XF SM K MI HV PEG VTT VTT_ VTT_ VTT_ VTT_ VTT_ VTT_ VTT_ VTT_ VTT_ VTT_0 VTT_ VTT_ VTT_ VTT_ VTT_ VTT_ VTT_ VTT_ VTT_ VTT_0 VTT_ VTT_ VTT_ VTT_ VTT_ V_XF_ V_XF_ V_XF_ V_SM_K_ V_SM_K_ V_SM_K_ V_SM_K_ V_TX_LVS VTTLF V_HV_ V_HV_ V_HV_ V_PEG_ V_PEG_ V_PEG_ V_PEG_ V_PEG_ V_MI_ V_MI_ V_MI_ V_MI_ VTTLF VTTLF VTTLF U T U T U T U0 T0 U T U T U T U T U T V U V U T V U F H0 G0 F0 K V U V U U H F H G L.0V_VP_GMH.0VM_XF.u/.V_.0V.m u_.vsus_v_sm_k.u/0v_ IV&EV is/enable setting.vsus_txlvs.u/.v_ SP@:INT use 000pf EXT use 0 ohm.v 0.m.0V m.0v_v_peg.u/.v_.0v m 0.u/.V_ /F_.u/0V_ 0u_ ESR = 0 m V.u/.V_ SP@000p/0V_ R.u/0V_.u/.V_.u/.V_.u/.V_ REV: L 0_ L.V R-00 m.vsus_smk_r.v.m L IV@u_ R 0_ u_ R0 0_ 0u/V_ ESR= m ohm uh 0..0V_S REV:.0V nh, R=0 m.0v Internal connect to power V G V_XG.0V 00 UH, Rdc = Max rated current = 0 m IV@0.uH 00m *0u/.V_ 0u_ 0u_ V_XG_NTF.VSUS.VSUS H.0V R 0_ GN GN GN.0V.0V 0u_ R no 0U heck list need min 0U~00U for V_Q F MHz, %, L KP0HST..u/0V_.0V 0m.0u/V_ MOIFY Power Net Name V_XG_# V_XG_NTF_# V_PEG_G V_PLL V_PLL antiga(v).0v.v.0v.0v.u/0v_.u/0v_ IV&EV is/enable setting V_SM_# V_HPLL.0V.0V.0VM_PEGPLL_R 0u_ ESR=0m ohm GMH (NTIG) R0 /F_.VSUS R.V 0.m IV@0_.VSUS_LVS SP@:INT use U EXT use 0 ohm SP@u_ V_MPLL V_SM_K_# V_PEG_PLL V_XF_# V_HPLL V_PEG_PLL.0V.0V.0V.0V.0V.0V Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev GMH POWER Thursday, March, 00 ate: Sheet of 0

11 Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : GMH VSS Thursday, March, 00 Z0 Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : GMH VSS Thursday, March, 00 Z0 Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : GMH VSS Thursday, March, 00 Z0 GMH (NTIG) VSS_ G VSS_0 W VSS_0 U VSS_0 P VSS_0 N VSS_0 H VSS_0 F VSS_0 VSS_0 R VSS_0 M VSS_0 J VSS_ G VSS_ 0 VSS_ 0 VSS_ W0 VSS_ T0 VSS_ J0 VSS_ G0 VSS_ Y0 VSS_ N0 VSS_0 K0 VSS_ F0 VSS_ 0 VSS_ 0 VSS_ G VSS_ VSS_ G VSS_ VSS_ W VSS_ T VSS_0 R VSS_ M VSS_ H VSS_ VSS_ VSS_ U VSS_ N VSS_ N VSS_0 K VSS_ G VSS_ E VSS_ G VSS_ W VSS_ VSS_ G VSS_ VSS_ VSS_0 G VSS_ VSS_ VSS_ N VSS_ J VSS_ E VSS_ N VSS_ L VSS_0 G VSS_ E VSS_ F VSS_ V VSS_ T VSS_ M VSS_ VSS_ J VSS_ VSS_ VSS_0 VSS_ Y VSS_ N VSS_ H VSS_ Y VSS_ N VSS_ G VSS_ VSS_ G0 VSS_0 V0 VSS_ T0 VSS_ J0 VSS_ E0 VSS_ 0 VSS_ H VSS_ VSS_ G VSS_0 VSS_ M VSS_ N VSS_ VSS_ M0 VSS_ F VSS_ H VSS_ Y VSS_ L VSS_00 E VSS_0 VSS_0 Y VSS_0 U VSS_0 N VSS_0 J VSS_0 E VSS_0 VSS_0 N VSS_0 J VSS_0 G VSS_ VSS_ V VSS_ T VSS_ VSS_ M VSS_ M VSS_ VSS_ VSS_ H VSS_ VSS_0 Y VSS_ L VSS_ J VSS_ H VSS_ F VSS_ E VSS_ VSS_ V VSS_ L VSS_NTF_ F VSS_NTF_ VSS_NTF_ V VSS_NTF_ J0 VSS_NTF_ M VSS_NTF_ F VSS_NTF_ VSS_NTF_ U VSS_NTF_ U VSS_NTF_0 L0 VSS_NTF_ V0 VSS_NTF_ VSS_NTF_ L VSS_NTF_ J VSS_NTF_ VSS_NTF_ U VSS_S_ H VSS_S_ H VSS_S_ VSS_S_ VSS_S_ N_ E N_ N_ N_ N_0 N_ N_ N_ N_ N_ N_ N_ N_ N_ F N_0 E N_ N_ VSS_0 R VSS_ P VSS_ VSS_ R VSS_ U VSS_ P VSS_ F VSS_ W VSS_ E VSS_0 F VSS_ H VSS_ J VSS_ VSS_ VSS_ Y VSS_ M VSS_ K VSS_ M VSS_ VSS_ P VSS_0 H VSS_ VSS_ V VSS_ T VSS_ U VSS_ U VSS_ U VSS_ U VSS_00 L VSS_ J N_ VSS VSS NTF VSS S N UJ NTIG_GM VSS VSS NTF VSS S N UJ NTIG_GM VSS_ U VSS_ VSS_ R VSS_ L VSS_ VSS_ W VSS_ N VSS_ J VSS_ F VSS_ VSS_0 VSS_ Y VSS_ T VSS_ N VSS_ L VSS_ G VSS_ VSS_ VSS_ V VSS_0 R VSS_ M VSS_ V VSS_ R VSS_ P VSS_ H VSS_ F VSS_ F VSS_ H VSS_ VSS_0 VSS_ Y VSS_ U VSS_ T VSS_ M VSS_ F VSS_ VSS_ V VSS_ U VSS_ M VSS_0 J VSS_ VSS_ G VSS_ Y VSS_ T VSS_ N VSS_ J VSS_ E VSS_ N VSS_ L VSS_0 VSS_ U VSS_ M VSS_ H VSS_ VSS_ VSS_ Y VSS_ U VSS_ T VSS_ M VSS_0 G VSS_ VSS_ G0 VSS_ 0 VSS_ V0 VSS_ N0 VSS_ H0 VSS_ E0 VSS_ T VSS_ M VSS_0 J VSS_ E VSS_ N VSS_ L VSS_ VSS_ H VSS_ VSS_ VSS_ U VSS_ H VSS_0 VSS_ VSS_ Y VSS_ U VSS_ T VSS_ J VSS_ F VSS_ VSS_ VSS_00 M VSS_0 E VSS_0 P VSS_0 L VSS_0 J VSS_0 F VSS_0 VSS_0 H VSS_0 VSS_0 Y VSS_0 U VSS_ T VSS_ F VSS_ M VSS_ J VSS_ F VSS_ E VSS_ W VSS_ VSS_ VSS_0 G VSS_ VSS_ VSS_ V VSS_ R VSS_ L VSS_ H VSS_ VSS_ P VSS_ L VSS_0 H VSS_ N VSS_ K VSS_ F VSS_ VSS_ VSS_ N VSS_ T VSS_ N VSS_ K VSS_0 H VSS_ F VSS_ VSS_ G VSS_ VSS_ VSS_ V VSS_ T VSS_ R VSS_ J VSS_0 G VSS_ E VSS_ VSS_ Y VSS_ P VSS_ K VSS_ H VSS_ F VSS_ VSS_ F VSS_0 H VSS_ F VSS_ VSS_ VSS_ VSS_ VSS_ H VSS_ VSS_ VSS_ V VSS_0 R VSS_ J VSS_ VSS_ Y VSS_ N VSS_ L VSS_ J VSS_ G VSS_ E VSS_ F VSS_ F VSS_ VSS_0 W VSS_ T VSS_ N VSS_ J VSS_ H VSS_ VSS_ G VSS_ U VSS_ T VSS_ H VSS_ VSS_ L VSS_ Y VSS_ G VSS_ E VSS_ G VSS_ VSS_ Y VSS_ J VSS_ F VSS_ R VSS_ K VSS_0 J VSS_ F VSS_ H VSS_ Y VSS_ K VSS_0 VSS UI NTIG_GM VSS UI NTIG_GM

12 IHM ST H O (ST) VRT. Ohm pull up to.v for GLN_OMPI/O is required, no matter intel LN is used or not. () ST_RXN0 () ST_RXP0 () ST_TXN0 () ST_TXP0 () ST_RXN () ST_RXP () ST_TXN () ST_TXP p/0v_ p/0v_ Internal pull-down resistors that are always enabled REV:.V Y.KHZ/H. R R V_S () Z_SIN0 () Z_SIN () ST_LE# R Internal VRM enabled for VccSus_0, VccSus_, VccL_, VccLN_0 and VccL_0. R R0 T T.0u/V_.0u/V_.0u/V_.0u/V_ R0 0M_ M/F_ 0K/F_ 0K/F_ LK_KX LK_KX RT_RST# SRT_RST# SM_INTRUER# IH_INTVRMEN LN00_SLP 0K_ IH_GPIO./F_ H_IT_LK_R H_SYN_R H_RST#_R H_SIN H_SIN H_SOUT_R ST_TXN0_ ST_TXP0_ ST_TXN_ ST_TXP_ RTX RTX RTRST# F0 SRTRST# INTRUER# INTVRMEN LN00_SLP E GLN_LK LN_RSTSYN F LN_RX0 G LN_RX LN_RX LN_TX0 LN_TX E LN_TX 0 F H_IT_LK H H_SYN E H_RST# F H_SIN0 G H_SIN H H_SIN E H_SIN G G U GLN_OK#/GPIO GLN_OMPI GLN_OMPO H_SOUT G H_OK_EN#/GPIO E H_OK_RST#/GPIO STLE# J ST0RXN H ST0RXP F ST0TXN G ST0TXP H STRXN J STRXP G STTXN F STTXP IHM REV.0 RT LP LN / GLN PU IH ST FWH0/L0 FWH/L FWH/L FWH/L FWH/LFRME# LRQ0# LRQ#/GPIO 0GTE 0M# PRSTP# PSLP# FERR# PUPWRG IGNNE# INIT# INTR RIN# NMI SMI# STPLK# THRMTRIP# TP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP ST_LKN ST_LKP STRIS# STRIS K K L K K J J N J J E J F E G L F F H G G H J G F H J E0 F0 H J J H H_FERR#_R T T H_THERMTRIP_R T ST_RIS_PN STIS L<0." LRQ0/# : Internal PU R0 R _ R R R0./F_.K_ 0K_./F_ V V LK_PIE_ST# () LK_PIE_ST () L0 (,) L (,) L (,) L (,) LFRME# (,) GTE0 () H_0M# () H_PWRG () H_IGNNE# () H_INIT# () H_INTR () RIN# () H_NMI () H_SMI# () H_STPLK# () H_THERMTRIP_RR.0V R *_ R R *_ R _ *0_ Layout note: PRSTP#, aisy hain (S>Power>N>PU) IH_PRSTP# (,,) H_PSLP# ().0V PM_THRMTRIP# (,).0V R _ Intel IHM H_FERR# () No use Thermal trip S side still PU ohm.(serial R use 0ohm) Use Thermal trip can share PU for PU and S side(nd Serial R use. ohm) PU L<" JSLQ0T0 H udio Pin Name H_SOUT_R Weak integrated P on the H_SOUT pin. H_SYN_R R EV@_ R IV@_ R _ R _ R0 EV@_ R IV@_ R _ R _ Weak integrated P on the H_SYN pins South ridge Strap Pin (/) *0p/0V_ *0p/0V_ MXM_SOUT_HMI (0) H_SOUT_HMI () Z_SOUT_M () Z_SOUT_UIO () H_IT_LK_R R EV@_ R0 IV@_ R _ R _.000 MHz is output from the IHM. R EV@_ MXM_SYN_HMI (0) MXM_RST#_HMI (0) R IV@_ H_SYN_HMI () H_RST#_HMI () R _ Z_SYN_M () Z_RST#_M () H_RST#_R R _ Z_SYN_UIO () Z_RST#_UIO () H_SIN H_SIN Strap description Sampled onfiguration PU/P *0p/0V_ R R *0p/0V_ EV@0_ IV@0_ *0p/0V_ MXM_IT_LK_HMI (0) H_IT_LK_HMI () IT_LK_M () IT_LK_UIO () MXM_SIN_HMI (0) H_SIN_HMI () RT VPU VRT_ VRT_ 0MIL R K_ 0MIL Pjt: TZ0 Ons: TZ0 T RT_N0 Q MMT0 RT_N0 0MIL R VRT K_ u_ R.K/F_ R0 R VPU 0K_ u_ 0K_ u_ SRT_RST# RT_RST# G *SHORT_ P G *SHORT_ P H_OK_EN/ GPIO Flash escriptor Security Override Strap PWROK 0 = The Flash escriptor Security will be overridden. = The security measures defined in the Flash escriptor will be in effect This strap should only be enabled in manufacturing environments using an external pull-up resistor. N RT_ML0 R 0K/F_ STLE# PI Express Lane Reversal (Lanes -) PWROK Internal PU hange type Pitch:,mm; Height:.mm TP H_SOUT XOR hain Entrance XOR hain Entrance /PI Express* Port onfig bit (Port -) PWROK PWROK IH_TP 0 0 H_SOUT 0 0 RSV escription Enter XOR hain Normal opration(efault) Set PIE port config bit () IH_TP H_SOUT_R IH_TP R R *K_ *K_ V REV: Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev IHM HOST ate: Thursday, March, 00 Sheet of

13 IHM INT# INT# INT# INT# U 0 E E E0 G 0 F F E F0 0 F 0 F F G H G H G 0 H J E J PI REQ0# GNT0# REQ#/GPIO0 GNT#/GPIO REQ#/GPIO GNT#/GPIO REQ#/GPIO GNT#/GPIO /E0# /E# /E# /E# IRY# PR PIRST# EVSEL# PERR# PLOK# SERR# STOP# TRY# FRME# PLTRST# PILK PME# Interrupt I/F PIRQ# PIRQE#/GPIO PIRQ# PIRQF#/GPIO PIRQ# PIRQG#/GPIO PIRQ# PIRQH#/GPIO IHM REV.0 F G F F E F E R E J F R H K F G REQ0# GNT0# REQ# GNT# REQ# GNT# REQ# GNT# IRY# EVSEL# PERR# LOK# SERR# STOP# TRY# FRME# PLT_RST# PME# internal PU K~K INTE# INTF# INTG# INTH# T0 T T T PIRST# () PLT_RST# () PLK_IH () WLN GLN () PIE_RXN () PIE_RXP () PIE_TXN () PIE_TXP () () () () GLN_RXN GLN_RXP GLN_TXN GLN_TXP PLE NER IH WITHIN 00 MIL 0 T T T T T.u/0V_ PIE_TXN_.u/0V_ PIE_TXP_.u/0V_ GLN_TXN_S.u/0V_ GLN_TXP_S SPI_LK_S SPI_S0# SPI_S# SPI_MOSI SPI_MISO USO#0 USO# USO# USO# USO# USO# USO# USO# USO# USO# USO#0 USO# S_USIS U N PERN MI0RXN N PERP MI0RXP P PETN MI0TXN P PETP MI0TXP L PERN MIRXN L PERP MIRXP M PETN MITXN M PETP MITXP J PERN MIRXN J PERP MIRXP K PETN MITXN K PETP MITXP G PERN MIRXN G PERP MIRXP H PETN MITXN H PETP MITXP E PERN MI_LKN E PERP MI_LKP F PETN F PETP MI_ZOMP MI_IROMP PERN/GLN_RXN PERP/GLN_RXP USP0N PETN/GLN_TXN USP0P PETP/GLN_TXP USPN USPP SPI_LK USPN SPI_S0# USPP F SPI_S#/GPIO/LGPIO USPN USPP SPI_MOSI USPN E SPI_MISO USPP USPN N O0#/GPIO USPP N O#/GPIO0 USPN N O#/GPIO US USPP P O#/GPIO USPN M O#/GPIO USPP N O#/GPIO USPN M O#/GPIO0 USPP M O#/GPIO USPN N O#/GPIO USPP N O#/GPIO USP0N P O0#/GPIO USP0P P O#/GPIO USPN USPP G USRIS G USRIS# PI-Express SPI irect Media Interface V V U U Y Y W W T T F F W W Y Y W W V V U U U U MI_IROMP_R R MI_RXN0 () MI_RXP0 () MI_TXN0 () MI_TXP0 () MI_RXN () MI_RXP () MI_TXN () MI_TXP () MI_RXN () MI_RXP () MI_TXN () MI_TXP () MI_RXN () MI_RXP () MI_TXN () MI_TXP () LK_PIE_IH# () LK_PIE_IH ()./F_ USP0- () USP0 () USP- () USP () USP- () USP () USP- () USP () USP- () USP () USP- () USP () USP- () USP ().V EXT-US EXT-US Wireless MER ardreader LUETOOTH M/ US Port R0./F_ IHM REV.0 L<0.",void routing next to clock/high speed signals. V South ridge Strap Pin (/).u/0v_ Pin Name Strap description Sampled onfiguration PU/P REQ# TRY# STOP# EVSEL# V INT# INT# SERR# INTE# V RN 0.K_0PR RN 0.K_0PR V V REQ# FRME# REQ# INT# INTF# INTG# PLT_RST# USO# USO# USO# USO#0 V_S 0 U TSH0FU RN 0K_0PR R0 00K_ USO# USO# USO# USO# PLTRST# (,,,,) V_S H_SYN GNT# / GPIO GNT# / GPIO GNT# / GPIO SPI_MOSI PI Express Port onfig bit 0 (Port -) PI Express Port onfig bit (Port -) ESI Strap(Server Only) Top-lock Swap Override Integrated TPM Enable PWROK PWROK PWROK PWROK LPWROK 0 = efault = Setting bit 0 0 = Setting bit = efault 0 = MI for ESI-compatible = efault 0 = "top-block swap" mode = efault 0 = INT TPM disable(efault) = INT TPM enable GNT# R *K_ LOK# REQ0# V RN 0.K_0PR V IRY# PERR# INT# INTH# USO# USO# USO# USO#0 RN 0K_PR V_S GNT0# SPI_S# / GPIO / LGPIO oot IOS Selection 0 oot IOS Selection PWROK LPWROK PI_GNT#0 0 SPI_S# 0 oot Location SPI PI LP(efault) GNT0# R *K_ Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev IHM PIE / PI / US Thursday, March, 00 ate: Sheet of

14 V_S R0 R R R R R R R R R R0 R R0 V R R R R R R R R R00 R0 V_S R R R R 0K_ 0K_.K_.K_ 0K_ 0K_ 0K_ 0K_ 0K_.K_ *0K_ 0K_ 0K_.K_.K_.K_ 0K_ *0K_ *0K_ 0K_ 0K_ 0K_ 0K_ 0K_ *00/F_ 0K_ 0K_ SM_LK_ME SM_T_ME PLK_SM PT_SM RI# IH_GPIO0 SYS_RST# SM_LERT# PIE_WKE# PM_TLOW# NSWON# IH_GPIO IH_GPIO LKRUN# SERIRQ THERM_LERT# E_SI# STLKREQ# MH_IH_SYN# KSMI#_IH LI#_IH PM_STPPI# PM_STPPU# IH_GPIO R_WKE# IH_PWROK PWRTN : ms of internal debounce logic on this pin and internal PU K TPM Physical Presence for itpm. :(/) SF issue:when imt is not implemented, IHM SMus and SMLink should be connected together to support slave mode onnect SMLINK0 to SMLK and SMLINK to SMT (dd R,R for debug use) (,,,) (,,,) () () () () PLK_SM PT_SM SYS_RST# PM_SYN# PM_STPPI# PM_STPPU# () LKRUN# (,,) PIE_WKE# () SERIRQ () THERM_LERT# () () (,) () KSMI# LI# () E_SI# STLKREQ# () PSPK MH_IH_SYN# () IH_TP T S S T T T T T T T PLK_SM PT_SM IH_GPIO0 SM_LK_ME SM_T_ME RI# SYS_RST# SM_LERT# PM_STPPI# PM_STPPU# LKRUN# PIE_WKE# THERM_LERT# VR_PWRG_LKEN KSMI#_IH LI#_IH IH_GPIO IH_GPIO IH_GPIO OR_I0 OR_I PNEL_I OR_I STLKREQ# R_WKE# IH_GPIO IH_GPIO MI_TERM_SEL IH_GPIO G E F R G M E L E0 M J 0 G H G E K F J L E G F H M MH_IH_SYN# J IH_TP H0 J0 J U SMLK SMT LINKLERT#/GPIO0/LGPIO SMLINK0 SMLINK RI# SUS_STT#/LPP# SYS_RESET# PMSYN#/GPIO0 SMLERT#/GPIO STP_PI# STP_PU# LKRUN# WKE# SERIRQ THRM# VRMPWRG TP GPIO GPIO GPIO GPIO LN_PHY_PWR_TRL/GPIO ENERGY_ETET/GPIO GPIO GPIO GPIO0 SLOK/GPIO GPIO GPIO STLKREQ#/GPIO SLO/GPIO STOUT0/GPIO STOUT/GPIO GPIO GPIO/LGPIO SPKR MH_SYN# TP TP TP0 TP IHM REV.0 SM ST GPIO locks SYS GPIO Power MGT MIS GPIO ontroller Link ST0GP/GPIO STGP/GPIO STGP/GPIO STGP/GPIO LK LK SUSLK SLP_S# SLP_S# SLP_S# S_STTE#/GPIO PWROK PRSLPVR/GPIO TLOW# PWRTN# LN_RST# RSMRST# K_PWRG LPWROK SLP_M# L_LK0 L_LK L_T0 L_T L_VREF0 L_VREF L_RST0# L_RST# MEM_LE/GPIO GPIO0/SUS_PWR_K GPIO/_PRESENT WOL_EN/GPIO H F E 0 H F P E G 0 G0 M R 0 R R F F F 0 ST[x]GP pins if unused require.-k to 0-k pull-up to Vcc_ or.-k to 0-k pull-down to ground OR_I PNEL_I0 IH_GPIO IH_GPIO IH_PWROK PM_TLOW# PM_LN_ENLE_R PM_RSMRST#_R L_VREF0_S L_VREF_S IH_GPIO0 IH_GPIO IH_GPIO R R R T0 T T T T T T0 T0 R R R Z0 efault not support IMT. So this interface follow R/hecklist PU only 0K_ 0K_ 0K_ R 0_ R 0K_ 0K_ 0K_ *0_ M_IH () LKUS_ () SUS# () SUS# () PM_PRSLPVR (,) NSWON# () PM_RSMRST#_R K_PWRG () MPWROK (,) L_LK0 () L_T0 () L_RST#0 () V_S V <hecklist ver0.> If integrated LN is not used LN_RST# tie it to GN.N serial R from RSMRST#. If Intel LN is used with Wake On LN, tie LN_RST# to RSMRST# and N 0ohm. L_PWROK must not assert after PWROK asserts for IMT. L_PWROK to the N and S should be connected to existing PWROK inputs on the N and S on a platform with no IMT L VREF L_VREF_S R */F_ VREF R connect to V_S hecklist connect to V(iMT reserve) V R *.K/F_ *.u/0v_ L_VREF0_S <hecklist ver0.> The IHM ontroller Link VREF circuit is required only if Intel MT is to be supported. V R.K/F_ R /F_ 0.u/0V_ V_S IH PWROK Resume RST M/ I R *0K_ E_SI# PM_RSMRST#_R Q0 RSMRST# () V V V V V R 0K_ IH_GPIO R 0K_ IH_GPIO R 0K_ IH_GPIO Follow HEK LIST V. V_S *.u/0v_ IH_PWROK U TSH0FU R ELY_VR_PWRGOO need PU K to V. ZS PU at power side PWROK_E 00K_ ELY_VR_PWRGOO (,,,) PWROK_E () R 0K_ R.K_ MMT0 V V R.K_ V_S REV: Z INTEL FE (0/) "dd RSMRST# isolation (important!!! See ww Santa Rosa MoW)" efault stuff for Teenah(Interposer) chipset ZS Intel FE suggestion to add for to protect RT/MOS data from corruption when system encounters an abnormal power down sequence R R *0K_ *0K_ OR_I OR_I R R 0K_ 0K_ oard I R *0K_ OR_I R 0K_ I R *0K_ OR_I0 R 0K_ I I I0 default South ridge Strap Pin (/) Pin Name Strap description Sampled onfiguration PU/P GPIO0 PWROK LK Enable U V *.u/0v_ SPKR GPIO No Reboot MI Termination Voltage PWROK PWROK 0 = efault = No Reboot mode 0 = for desktop applications = for mobile applications Internal PU PSPK MI_TERM_SEL R R *K_ *K_ V () VR_PWRG_K0# NSZ0 VR_PWRG_LKEN R0 00K_ Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev IHM GPIO Thursday, March, 00 ate: Sheet of

15 IHM PER INTEL SUGGESTION: HNGE TO 00OHM & UF V V V_S V_S.V.V.V S0:m S//:m V R R.V VRT H 0 Ohms@ 00 MHz, 00 L V.V m V m V S0:m S//:m ~.v.u_g.0v, Powered by V_0 in S0 R H 00/F_ 00/F_ REV: LMPGSN. 0u/.V_ SHORT_ L.V m L u_ 0 S_VREF VPU_IH_VREF_SUS.V_ VLN_ If use S M for LN function. nd support wake up need connect to relation power. uh m.u/0v_.u/0v_ Power consumption reference to Intel IH Family ES Rev. 0u_ u/0v_.u/0v_ u_ 0uH m.u/0v_.v m.v m.v_pll_ih 0 u_.v m.u/0v_.u/0v_.u/.v_ VLN_0_INT_IH 0 u_.u/0v_.v_ih_glnpll_r 0 0u_ u_ 0.u/.V_ E E E E E E F G H H J J K K L L L M M N N N P P R R R R T T T T U U V V U W W K Y Y J E F G H J E F G0 G H0 J0 G0 G J 0 E E UF VRT VREF VREF_SUS V [0] V [0] V [0] V [0] V [0] V [0] V [0] V [0] V [0] V [0] V [] V [] V [] V [] V [] V [] V [] V [] V [] V [0] V [] V [] V [] V [] V [] V [] V [] V [] V [] V [0] V [] V [] V [] V [] V [] V [] V [] V [] V [] V [0] V [] V [] V [] V [] V [] V [] V [] V [] V [] VSTPLL V [0] V [0] V [0] V [0] V [0] V [0] V [0] V [0] V [0] V [0] V [] V [] V [] V [] V [] V [] V [] V [] V [] V [0] V [] V [] V [] V [] V [] VUSPLL V [] V [] V [] V [] V [0] VLN_0[] VLN_0[] VLN_[] VLN_[] VGLNPLL VGLN_[] VGLN_[] VGLN_[] VGLN_[] VGLN_ IHM REV.0 VGP RX TX US ORE GLN POWER ORE VPSUS VPUS VP_ORE PI V_0[0] V_0[0] V_0[0] V_0[0] V_0[0] V_0[0] V_0[0] V_0[0] V_0[0] V_0[0] V_0[] V_0[] V_0[] V_0[] V_0[] V_0[] V_0[] V_0[] V_0[] V_0[0] V_0[] V_0[] V_0[] V_0[] V_0[] V_0[] VMIPLL V_MI[] V_MI[] V_PU_IO[] V_PU_IO[] V_[0] V_[0] V_[0] V_[0] V_[0] V_[0] V_[0] V_[0] V_[0] V_[0] V_[] V_[] V_[] V_[] VH VSUSH VSUS_0[] VSUS_0[] VSUS_[] VSUS_[] VSUS_[0] VSUS_[0] VSUS_[0] VSUS_[0] VSUS_[0] VSUS_[0] VSUS_[0] VSUS_[0] VSUS_[0] VSUS_[0] VSUS_[] VSUS_[] VSUS_[] VSUS_[] VSUS_[] VSUS_[] VSUS_[] VSUS_[] VSUS_[] VSUS_[0] VL_0 VL_ VL_[] VL_[] E F L L L L L L M M P P T T U U V V V V V V R W Y G J 0 F0 G 0 F G G J J K J J F F E F T T T T T T U U V V W W Y Y T G G V_H_IO_IH V_VSUSH.V_IH_VMIPLL.0V_IH_MI TP_VSUS_0_IH_ TP_VSUS_0_IH_ TP_VSUS IH_ VSUS INT_IH VL_0_INT_IH VL INT_IH VL_.u/0V_.u/0V_.u/0V_ 0.0u/V_.u/.V_.u/0V_.0u/V_ R 0.u/0V_ *u_.u/0v_ T T T REV:.u/0V_ 0 0u_ u_.u/0v_ If use S M for LN function. nd support wake up need connect to relation power..0v m L.u/0V_.u/0V_.0u/V_ *.u/0v_.v m L.u/0V_.0V.V S0:m S//:m SHORT_.V 0m.0V 00 m, 0% 00 MHz, 0..0V m V V V_S.V S0:m S//:m.V.0V m.v /.V S0:m S//:m.0V V_S.V_S V.V /.V m.v VSUS_0 power by V_0 in S0 / VSUS_ in S/S/S VSUS_ power by V in S0 / VSUS_ in S/S/S.u/0V_.u/0V_ uh m NQ00T-00Y-N 00m.u/.V_ 0.u/0V_ 0.u/0V_ R R R R EV@0_ IV@0_ EV@0_ IV@0_ VL_0 power by V_0_ in S0 VL_ power by V in S0 Impact IHM VH and VSUSH supply.v/.v Support INT HMI H interface. These power only support.v.evice must to meet. NOTE: If (G)MH's H udio signals are connected to IHM for ihmi, VH and VSUSH on IHM should be only on.v. These power pins on IHM can be supplied with.v if and only if (G)MH's H is not connected to IHM. onsequently, only.v audio/modem codecs can be used on the platform. UE VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] VSS[00] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] 0 VSS[0] VSS[0] VSS[0] VSS[0] VSS[00] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] E VSS[00] E VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[0] E0 VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[00] E VSS[0] F VSS[0] F VSS[0] F VSS[0] F VSS[0] H VSS[0] F VSS[0] F VSS[0] F VSS[0] F VSS[00] F VSS[0] G VSS[0] G VSS[0] G VSS[0] G0 VSS[0] G VSS[0] G VSS[0] G VSS[0] G VSS[0] H VSS[00] H VSS[0] H VSS[0] H VSS[0] H VSS[0] H VSS[0] H VSS[0] H VSS[0] H VSS[0] H VSS[0] J VSS[00] J VSS[0] J VSS[0] J VSS[0] VSS[0] VSS[0] VSS[0] VSS[0] 0 VSS[0] VSS[0] VSS[00] VSS[0] VSS[0] VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[0] E VSS[00] E VSS[0] F VSS[0] F VSS[0] F VSS[0] G VSS[0] G VSS[0] G VSS[0] G VSS[0] G VSS[0] G VSS[00] G VSS[0] G VSS[0] H VSS[0] H VSS[0] H VSS[0] H VSS[0] IHM REV.0 VSS[0] VSS[0] VSS[0] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[0] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS_NTF[0] VSS_NTF[0] VSS_NTF[0] VSS_NTF[0] VSS_NTF[0] VSS_NTF[0] VSS_NTF[0] VSS_NTF[0] VSS_NTF[0] VSS_NTF[0] VSS_NTF[] VSS_NTF[] H J J J K K L L L L L L L M M M M M M M M M N N N N N N N N N N P P P P P P P P P P P P R R R R R R R R R T T T T T T T U U U U U U U U U V V V V V V V V W W W Y Y Y Y Y G H F H H J J J J.V 0m.V_ MOIFY 0.u/.V_.V m V R SHORT00 REV: VGLN_ Quanta omputer Inc. PROJET : Z0 Size ocument Number Rev IH POWER Thursday, March, 00 ate: Sheet of

Similar documents

Penryn 479 ufcpga. NB Cantiga

Penryn 479 ufcpga. NB Cantiga OM MRK IV@: INT VG EV@: STUFF FOR EXT VG SP@: STUFF FOR UM or VG X'TL.MHz LOK GENERTOR IS: SELGO: SLGSPTTR RII SO-IMM SO-IMM P P ual hannel R / MHz Penryn ufpg N antiga FS / MHz P, P, P, P, P, P, P P,

More information

TE1 Block Diagram. Intel. Merom (35W) FSB(667/800MHZ) Page 18 CRT. PCI-E 16X Lan. Crestline GM 533/ 667 MHZ DDR II. Page 5,7,8,9,10,11.

TE1 Block Diagram. Intel. Merom (35W) FSB(667/800MHZ) Page 18 CRT. PCI-E 16X Lan. Crestline GM 533/ 667 MHZ DDR II. Page 5,7,8,9,10,11. P STK UP TE lock iagram LYER : TOP LYER : S LYER : IN LYER : V LYER : IN LYER : IN LYER : S LYER : OT V_ORE HMI Page LE PNEL Page HMI RT Page 0 Transmitter Sil Page L PNEL Page LE river I Page zalia SVO

More information

P STK UP LYER : TOP LS lock iagram LYER : S LYER : IN LYER : IN LYER : V LYER : OT V_ORE +.V +.V +.V +.VSUS +VPU +V_S +VSUS +V +VPU +V_S +V SMR_VTERM SMR_VREF HMI Page TV-OUT Page RT Page L(WXG+.W) Page

More information

P STK UP LYER : TOP LYER : SGN LYER : IN PU ORE ISL Li / lock iagram PU Penryn PU THERML SENSOR.MHz 0 LYER : IN LYER : V LYER : OT P (upg)/w LK_PU_LK,LK_PU_LK# LK_MH_LK,LK_MH_LK# REFLK,REFLK# REFSSLK,REFSSLK#

More information

VER : 3A. Thermal Sensor & Fan P37 LVDS. E-switch PI2PCIE412-DZHE LVDS MXM III-NB8E (GT/SE/GLM) VRAM 256M VRAM 512M P18 HDMI HDMI P19 P17 SPDIF_MXM

VER : 3A. Thermal Sensor & Fan P37 LVDS. E-switch PI2PCIE412-DZHE LVDS MXM III-NB8E (GT/SE/GLM) VRAM 256M VRAM 512M P18 HDMI HDMI P19 P17 SPDIF_MXM Module Y Mini PI (for ebug) P H / O (ST) P P X'TL.MHz LOK GENERTOR YLFXT RII SO-IMM RII SO-IMM P H (ST) P H / O (PT) P P in ard Reader ontroller R P,P in ard Reader connector P ST ST PT PI us MX(Maddog.)

More information

Quanta Computer Inc. REV 3A PROJECT : ZO1 COVER SHEET 1 OF 1 PROJECT LEADER: JIM HSU DOCUMENT NO: 204 DATE :2007/04/14 MB ASSY'S P/N : 31Z01MB00XX

Quanta Computer Inc. REV 3A PROJECT : ZO1 COVER SHEET 1 OF 1 PROJECT LEADER: JIM HSU DOCUMENT NO: 204 DATE :2007/04/14 MB ASSY'S P/N : 31Z01MB00XX MOEL: Z0 Motheroard REV: HNGE LIST: FIRST RELESE PGE0.. R,, MOIFY to EP P/N:SF PGE0.. STUFF HOLE P/N:FZ00000,. STUFF HOLE,, P/N:FE000,. STUFF HOLE P/N:FZ00000 PGE0.. STUFF HOLE, P/N:FZ00000,. STUFF HOLE

More information

FP7 (CULV) BLOCK DIAGRAM

FP7 (CULV) BLOCK DIAGRAM FP (ULV) LOK IGRM P STK UP 0 L HI TOP GN IN IN V OT PU SU00 eleron FS /00/0 P (G) 0W PGE,, PU THERML SENSOR PGE LK_PU_LK,LK_PU_LK# LK_MH_LK,LK_MH_LK# LK_PIE_VG,LK_PIE_VG#.MHz LOK GEN RTMN-0-V-GRT PGE RIII-on

More information

Merom / Crestline / ICH8-M

Merom / Crestline / ICH8-M VI ocking(rq) US (US) X LN 0/00/G MOEM udio/spdif JK RT/S-Video Parallel/Serial Port VI Port PS Port * attery harger VI / 0 hrontel PG US PORT X US0~ PG US~ PG Modularity PT O/H UX attery PG PG 0 SVO RII-SOIMM

More information

CPU Intel Penryn (Socket P) 3,4. FSB 800/1067 MHz. Cantiga GM LVDS. Panel CRT VGA. x4 DMI. 34 x 34mm 1329 FCBGA HDMI 10~15 DMI X4.

CPU Intel Penryn (Socket P) 3,4. FSB 800/1067 MHz. Cantiga GM LVDS. Panel CRT VGA. x4 DMI. 34 x 34mm 1329 FCBGA HDMI 10~15 DMI X4. NOTE " UM lock iagram 00/0/ PU Intel Penryn (Socket P), FS 00/0 MHz Thermal Sensor G0 FN 0 0 LOK GEN. ISLPRSGLFT RII SOIMM, RII antiga GM x MI LVS VG Panel RT RII SOIMM, RII x mm FG HMI LEVEL SHIFTER PERIOM

More information

VM9M Block Diagram Intel UMA

VM9M Block Diagram Intel UMA hexainf@hotmail.com GRTIS - FOR FREE lock iagram Intel UM VER : F POWER /TT ONNETOR PG TT HRGER RUN POWER SW +.V_SUS/+V_SUS +V/+.V/+.V PG PG Penryn ( Micro-FPG) PG, 00/0 MHz antiga FN & THERML EM--IZL-TR

More information

Penryn / Cantiga / ICH9-M

Penryn / Cantiga / ICH9-M PU THERML SENSOR.V PG RII-SOIMM RII-SOIMM 0.V_R_VTT.V_SUS.V V_R_MH_REF PG, Web am on L US V luetooth US V_SUS US PORT X US0~, V_SUS Fingerprint US O(fixed) V Internal H V.V PG PG PG PG PG PG HP SPI FLSH

More information

ZC1 SYSTEM BLOCK DIAGRAM. Yonah/Merom 479 ufcpga

ZC1 SYSTEM BLOCK DIAGRAM. Yonah/Merom 479 ufcpga TVOUT TFT L Panel." WSXG+ X'TL M VI RT luetooth US US P P P P P amera Module(.M) P in ardreader (SMS ) P US US Port x US0~ P VI TVout LVS VG Media-ay O/nd H/nd attery P X'TL.MHZ lock Generator H IS0GLF

More information

Sapporo 1.0 BLOCK DIAGRAM

Sapporo 1.0 BLOCK DIAGRAM PU ORE.V/.V /.V/.VM VPU/VPU Sapporo. LOK IGRM P P P Merom Pins (Micro-FG) P,P PU Thermal Sensor MX P.MHz lock Generator K P.V/SMR_VTERM/SMR_VREFP TT HRGER MX/ ISHRGE VM_LN_SW/V_S/V_K/VSUS/V P V/VSUS P

More information

Intel PENRYN ufcpga SB ICH9M

Intel PENRYN ufcpga SB ICH9M V_RE P/ lock iagram +.V +.V +.V +.VSUS +.V +VPU +V_S +VSUS +V +VPU +V_S +V +SMR_VTERM +SMR_VREF INT MI Page RT Page L PNEL Page ST - H Page ST - Page est Page ST ST ST RT LVS Intel PENRYN ufpg N NTIG MI(x/x)

More information

FAN & THERMAL SMSC1423 PG 39 CLOCK SLG8SP513V (QFN-64) PG 17 LVDS. DP Port VGA. USB2.0 x 3. PCIEx1. PCIEx1 USB2.0. PCIEx2 USB2.0. PCIEx1 USB2.

FAN & THERMAL SMSC1423 PG 39 CLOCK SLG8SP513V (QFN-64) PG 17 LVDS. DP Port VGA. USB2.0 x 3. PCIEx1. PCIEx1 USB2.0. PCIEx2 USB2.0. PCIEx1 USB2. ELL *FM M/ P_N FM Hanks Intel UM VER : PW: WJ PW: M PW: WJ POWER /TT ONNETOR PG R-SOIMM PG, R-SOIMM PG, SYSTEM RESET IRUIT TT HRGER RUN POWER SW +.V_SUS/+V_SUS +V/+.V/+.V / MHZ R II / MHZ R II ST-O PG

More information

FM6B Hepburn Intel UMA

FM6B Hepburn Intel UMA FM Hepburn Intel UM VER : POWER /TT ONNETOR PG R-SOIMM PG, R-SOIMM PG, SYSTEM RESET IRUIT TT HRGER RUN POWER SW +.V_SUS/+V_SUS +V/+.V/+.V MHZ R II MHZ R II ST-O PG PG PG PG ST Merom or Penryn ( Micro-FPG)

More information

ZH2 Block Diagram. Yonah/Merom INTEL Mobile_479 CPU. Page : 3,4. HOST BUS 533/667 MHz SDVO CALISTOGA-GM 1466 FCBGA TVOUT RGB. Page : 6 ~ 11 DMI I/F

ZH2 Block Diagram. Yonah/Merom INTEL Mobile_479 CPU. Page : 3,4. HOST BUS 533/667 MHz SDVO CALISTOGA-GM 1466 FCBGA TVOUT RGB. Page : 6 ~ 11 DMI I/F LOK GEN IS0G V /.V / 0V Page :.V / 0.V /.V Page :.V /.0V Page : Page : Page : Page : PU ORE TTERY HRGER HOST MHz/MHz PI-E 00MHz VG MHz US MHz PI MHz REF MHz VPU V_PU V_S V_S VSUS VSUS V V 0V.VSUS.V 0.VSUS

More information

Merom. Page 3,4 HOST. 667/800MHz NORTH BRIDGE INTEL. Crestline. Page 5 ~ 10. DMI Interface SOUTH BRIDGE INTEL ICH8-M.

Merom. Page 3,4 HOST. 667/800MHz NORTH BRIDGE INTEL. Crestline. Page 5 ~ 10. DMI Interface SOUTH BRIDGE INTEL ICH8-M. MS- VER :.0 0 : LOK IRM 0 : PLTFORM 0 : Merom- (HOST US) 0 : Merom- (POWER/N) 0 : RESTLINE- (HOST US) 0 : RESTLINE- (MI/V) 0 : RESTLINE- (R) LVS 0 : RESTLINE- (POWER-) Page 0 : RESTLINE- (POWER-) 0 : RESTLINE-

More information

T76S: MEROM/965-PM/ICH8-M/NB8M-SE BLOCK DIAGRAM

T76S: MEROM/965-PM/ICH8-M/NB8M-SE BLOCK DIAGRAM TS: MEROM/-PM/IH-M/NM-SE LOK IRM LOK EN. ISLPRLF-T R VRM*(X) Merom PE ufp FN Thermal sensor F PE PE,, PE FS 00 MHz LVS nvii NM-SE PE RT PE POWER RESTLINE PM PIE * PE ~ R-II SO-IMM R MHz VORE PE 0 SYSTEM

More information

A8E/A8S Merom/GM965/PM965 BLOCK DIAGRAM CPU ... MEROM. 3,4 HOST BUS CRESTLINE GM965/PM965 11~15 X4 DMI PCI EXPRESS X1 3 3 SYSTEM

A8E/A8S Merom/GM965/PM965 BLOCK DIAGRAM CPU ... MEROM. 3,4 HOST BUS CRESTLINE GM965/PM965 11~15 X4 DMI PCI EXPRESS X1 3 3 SYSTEM E/S Merom/GM/PM LOK IGRM E Sub block iagram / OM option VI ual H. HOST US RT & TV ON LVS & INV ON VORE R SRM /MHz SYSTEM.VS &.0VS R & VTT +VO & +.VS HRGER PI ETET PROTET LO SWITH FLOWHRT VG ON US x /T

More information

CPU Thermal Sensor GMT781-1 EXT.CLOCK GEN ICS954226AG-T. 533 MHZ Memory Dual channel DDR II CHANNEL A DDR II CHANNEL B 1X PCI-E<PORT1> 2.

CPU Thermal Sensor GMT781-1 EXT.CLOCK GEN ICS954226AG-T. 533 MHZ Memory Dual channel DDR II CHANNEL A DDR II CHANNEL B 1X PCI-E<PORT1> 2. NRL lok IGRM PU YONH/MERON eleron u-fpg PIN PU Thermal Sensor GMT- EXT.LOK GEN ISG-T attery In / & harge FS RT x -SU -Pin L " Square XG RT Hx LVS MHZ N LISTOG GML R II HNNEL R II HNNEL MHZ MHZ Memory ual

More information

ZYA SYSTEM BLOCK DIAGRAM

ZYA SYSTEM BLOCK DIAGRAM ZY SYSTEM LOK IGRM GPU ORE PWR ISL P HRGER ISL P GPU IO PWR ISL P /V SYS PWR P RT X'TL.MHz LOK GENERTOR SELGO: SLGSPV P LK: MHz PEG_LK: MHz PLL_REF_SSLK: MHz intel Fan river (PWM Type) P

More information

FM6 Hepburn Intel Discrete GFX

FM6 Hepburn Intel Discrete GFX FM Hepburn Intel iscrete GFX VER : POWER /TT ONNETOR PG R-SOIMM PG, R-SOIMM PG, SYSTEM RESET IRUIT TT HRGER RUN POWER SW +.V_SUS/+V_SUS +V/+.V/+.V MHZ R II MHZ R II ST-O PG PG PG PG ST Merom or Penryn

More information

ZG5 NB Block Diagram

ZG5 NB Block Diagram VTERM(+0.V) VTT(+.0V) +.VSUS +.V +.VSUS +.V +.V VPU +.V +.VSUS L_.V L_V +V RT P." panel P LVS ZG N lock iagram iamondville VORE:+. ~ +0. VP:+.0V V:+.V or +.V FS GMS P, HOST P R P LVS, MI, R LK P POWER

More information

Headers for all pins sorted by pin no. (unpopulated) TSX-1001 Cortex-M0. Oscillator 44MHz

Headers for all pins sorted by pin no. (unpopulated) TSX-1001 Cortex-M0. Oscillator 44MHz V V Way type onnector US Type onnector x.v.v Regulators Headers for all pins sorted by pin no. (unpopulated) Prototyping area with power and GNs (unpopulated) RS Transceiver US to Serial onverter Expansion

More information

POWER VGA DC/DC CPU VR PG 51 PG V_ALW/+5V_ALW/+15V_ALW DC/DC. nvidia G86/G72M PCI EXPRESS GFX. PCIEx16 PG 18,19,20,21,22. USB2.

POWER VGA DC/DC CPU VR PG 51 PG V_ALW/+5V_ALW/+15V_ALW DC/DC. nvidia G86/G72M PCI EXPRESS GFX. PCIEx16 PG 18,19,20,21,22. USB2. JM M/ P JM-ISRETE PW FP, PW UW, SHEM PM. (M) VER : POWER /TT ONNETOR PG R-SOIMM PG, R-SOIMM PG, Internal Media ay -ROM PG S/PIF for ock PG US. SMRT R OZRLN PG S/PIF for MINI IN PG UIO/MP PG, TT SELETOR

More information

J1B B1 B3 B5 B7 B9 B11 B13 B15 B17 B19 B21 B23 B25 B27 B29 B31 B33 B35 B37 B39 B41 B43 B45 B47 B49 B51 B53 B55 B57 VCC VCC USB_DET

J1B B1 B3 B5 B7 B9 B11 B13 B15 B17 B19 B21 B23 B25 B27 B29 B31 B33 B35 B37 B39 B41 B43 B45 B47 B49 B51 B53 B55 B57 VCC VCC USB_DET GP0 GP0 GP0 P0 GP0 GP GP GP GP GP GP GP P GP0 GP GP GP GP GP GP GP GP0 GP GP GP GP GP GP GP GP0 GP GP GP GP GP GP GP GP0 GP GP GP GP GP GP GP GP00 UINO ONE PIN EFINE GP0 GP GP GP GP GP GP GP GP0 GP GP

More information

RSC CHIP VDD P05 P03 P01 P04 VDD GND PWM0 AVDD VDD AVDD P0-2 P0-5 P0-1 P0-6 P0-4 P0.3 GND P00. Y1 3.58MHz P00 P01 AGND P01 P00 P02 P02 P07 P0-0 P0-7

RSC CHIP VDD P05 P03 P01 P04 VDD GND PWM0 AVDD VDD AVDD P0-2 P0-5 P0-1 P0-6 P0-4 P0.3 GND P00. Y1 3.58MHz P00 P01 AGND P01 P00 P02 P02 P07 P0-0 P0-7 Place as close to pins of U as possible. RS HIP 0-00 RS-x emo/evaluation oard: RS-000 Thursday, ecember, 00 Size ocument Number Rev ate: Sheet of P XI P0 P0 P0 P0 P00 PN P0 P0 P0 P0 P0 P0 P0 P0 P XO -XM

More information

MODEL REV CHANGE LIST ZL9. Preliminary Release

MODEL REV CHANGE LIST ZL9. Preliminary Release E MOEL REV HNGE LIST ZL Preliminary Release Page : dd.pf for Signal quanlity Page : dd R0 0om for UM. Page : seprate STLE# for IE interrupt. Page :add R 0ohm for M-T. Page : enlarge H,H to mm for VG sink

More information

GM3(B) Pacino Intel Discrete & UMA Block Diagram

GM3(B) Pacino Intel Discrete & UMA Block Diagram GM() Pacino Intel iscrete & UM lock iagram Screw Hole PG POWR /TT ONNTOR PG R-SOIMM PG, R-SOIMM PG, UIO/MP ST/H blank Page SYSTM RST IRUIT TT HRGR RUN POWR SW +.V_SUS/+V_SUS +V/+.V/+.V PG udio udio SPK

More information

DC/DC +3V_SRC +5VSUS PG 34 LVDS TVOUT USB2.0 (P3) USB2.0 (P2) USB2.0 (P0~P1,P4) USB2.0 (P0~P7) LAN RTL8100S PG 25 CARDBUS PC7411 PG 21,22,23

DC/DC +3V_SRC +5VSUS PG 34 LVDS TVOUT USB2.0 (P3) USB2.0 (P2) USB2.0 (P0~P1,P4) USB2.0 (P0~P7) LAN RTL8100S PG 25 CARDBUS PC7411 PG 21,22,23 E-UM ESIGN VER : RUN POWER SW PG /TT ONNETOR TT HRGER PG PG othan ( Micro-FPG) PG, / V_SR VSUS PG PU VR PG LOKS PG R-SOIMM PG, R-SOIMM PG, MHZ R I FS MHZ lviso GM/GML PG PG,,,0, LVS TVOUT VG Panel onnector

More information

CD-DET TP5_CS- LCDPWR RFPWR CHPD5 GP05 GP25 RST5 L13 D12 D11 D10 LCD_MISO LCD5_MOSI LCD5_SCK SD5_CS- LCD_MISO LCD5_MOSI LCD5_SCK SD5_CS-

CD-DET TP5_CS- LCDPWR RFPWR CHPD5 GP05 GP25 RST5 L13 D12 D11 D10 LCD_MISO LCD5_MOSI LCD5_SCK SD5_CS- LCD_MISO LCD5_MOSI LCD5_SCK SD5_CS- SPST SW L 0uH.uF TP HEER NO STUFF TP 0 HEER NO STUFF TP TP pf Y.uF.uF 0 HEER NO STUFF 0 HEER NO STUFF MHz, 0ppm pf.uf (OUT) (IN) R 0K /W % 0uF OUT OUT OUT OUT KLT L 0 L_MISO L_MOSI L_SK S_S- L_S- L_- L_

More information

HF SuperPacker Pro 100W Amp Version 3

HF SuperPacker Pro 100W Amp Version 3 HF SuperPacker Pro 00W mp Version Revised 0 0 V Stamps KOOR This is the third generation HF SuperPacker Pro 00W Version home construction project offered by HF Projects. This is a group construction project

More information

Auburndale / Arrandale

Auburndale / Arrandale LL Intel alpella Platform with iscrete GFX POWER /TT ONNETOR PG R - SOIMM0 R - SOIMM PG PG TT HRGER RUN POWER SW VSUS, VSUS, V_S, V_S +V, +V PG ischarge PG PG 0 ual hannel R 00/0.V uburndale / rrandale

More information

SHELBY-INTEGRATED CLOCKS ICS PG 17. sdvo SI1362 PG 18 USB2.0 (P5,P6) USB2.0 (P3,P4) USB2.0 (P7) 1394 CONN PG 25 USB2.

SHELBY-INTEGRATED CLOCKS ICS PG 17. sdvo SI1362 PG 18 USB2.0 (P5,P6) USB2.0 (P3,P4) USB2.0 (P7) 1394 CONN PG 25 USB2. IMVP- PU VR PG RUN POWER SW PG UIO ST00 PG, / +V_SR +VSUS PG /TT ONNETOR TT SELETOR TT HRGER POWER / R-SOIMM PG, R-SOIMM PG, ST - H PG Internal Media ay -ROM PG S/PIF to OK PG udio Jacks PG RJ to OK PG

More information

B0549-SCH-01 RD VEGA STDP4028 (DVI to DPTx) Reference Design PCB# Revision History

B0549-SCH-01 RD VEGA STDP4028 (DVI to DPTx) Reference Design PCB# Revision History 0-SH-0 R-0 VEG STP0 (VI to PTx) Reference esign P# 00- Revision History SHEMTI SHEET ate uthor Version omments 0. ontents, Revision History Sept., 00 Tony W. Rev. Initial schematic. 0. Overview Oct., 00

More information

othan RJ lock iagram PIN (micro F-PG) P,,, w, w inch XG, SXG+ / MHz VI M/M LVS L P LVS lviso GM/PM RII / UNUFFERE RII SOIMM P Hyper memory P,, R/G/ RT PIE Lanes P R/G/ PIN (micro FG) P,,, RII / UNUFFERE

More information

Revisions. 2 Notes. 4 FXLC95000CL / MCU Circuit 5 Power and Battery Charger Circuit. KITFXLC95000EVM Drawn by:

Revisions. 2 Notes. 4 FXLC95000CL / MCU Circuit 5 Power and Battery Charger Circuit. KITFXLC95000EVM Drawn by: Table of ontents Notes lock iagram FXL000L / MU ircuit Power and attery harger ircuit Rev escription Revisions Original Release Remove signal line U- pin and add additional signal line between J-pin0 and

More information

EDP-AM-DIO54 Digital IO Module User Manual. This document contains information on the DIO54 digital IO module for the RS EDP system.

EDP-AM-DIO54 Digital IO Module User Manual. This document contains information on the DIO54 digital IO module for the RS EDP system. P-M-IO igital IO Module User Manual This document contains information on the IO digital IO module for the RS P system. Version v.0, 0/0/00 P-M-IO Manual ontents. igital IO Module. igital Outputs.... Using

More information

MODEL REV CHANGE LIST 1 2A 2A 2A 1A 1A 2A 2A 1A 1A 2A 2A 1A 1A 1A 1A 1A 1A 1A CT3/5 MB BOARD. Page CT3/5 MB 31CT3MB CT3MB0031

MODEL REV CHANGE LIST 1 2A 2A 2A 1A 1A 2A 2A 1A 1A 2A 2A 1A 1A 1A 1A 1A 1A 1A CT3/5 MB BOARD. Page CT3/5 MB 31CT3MB CT3MB0031 MOEL REV HNGE LIST Model Page T/ M OR FROM TO T/ M TM00 TM00 PGE --- Enable LKM from clokc generator for the PLL circuit of, and disable the ocsillator circuit of PI PLL. PGE --- Remove H/W shutdown circuit

More information

SW9 (14") BLOCK DIAGRAM

SW9 (14) BLOCK DIAGRAM P STK UP L is. & UM SW (") LOK IGRM 0 LYER : TOP LYER : SGN LYER : IN LYER : IN LYER : V LYER : OT RIII-SOIMM PGE RIII-SOIMM PGE RIII 00/0 MT/s MT/s F only RIII 00/0 MT/s MT/s F only PU rrandale nm processor

More information

8V Title SCHEMATIC, 8V89317EVB REV A. Date: Friday, June 14, Power Supply. XTAL Interface. 12.8MHz TCXO/OCXO LED Status IN1 OUT1

8V Title SCHEMATIC, 8V89317EVB REV A. Date: Friday, June 14, Power Supply. XTAL Interface. 12.8MHz TCXO/OCXO LED Status IN1 OUT1 isclaimer: IT is providing this schematic for reference purposes only. lthough the schematic was taken from a known working design, it is being provided "as is" without any express or implied warranty

More information

AS1117M3 or LM1117MPX-ADJ ADJ. C20 0.1uF + C56. + C57 10uF. 10 uf R K 1% R18 GND 10.0K 1%

AS1117M3 or LM1117MPX-ADJ ADJ. C20 0.1uF + C56. + C57 10uF. 10 uf R K 1% R18 GND 10.0K 1% K POWER SW JP EXTERNL POWER FUSE 0. uf VT 0 uf R SM or LMMPX-J VIN VOUT U 0.0K % J R.K % 0uF REG_V 0 0.uF REG_V J PV PV_US_TGT V_M0X POWER_SELET R0 0Ohm V to V ENTER POSITIVE.

More information

KL9A Intel Huron River Platform with AMD Discrete GFX

KL9A Intel Huron River Platform with AMD Discrete GFX KL Intel Huron River Platform with M iscrete GFX MHz RIII-SOIMM H. RIII-SOIMM H. PG PG ual hannel R /.V R SYSTEM MEMORY PG,,, Sandyridge. rpg FI FIX MI MIX PI-E Graphics Interfaces PI-Express

More information

KEIm Baseboard. PAGE DESCRIPTION 1 Block Diagram, History 2 SoM Connector. 3 LCD Connector. 4 Ethernet. 5 UART 6 Analog 7 Peripheral 8 Power

KEIm Baseboard. PAGE DESCRIPTION 1 Block Diagram, History 2 SoM Connector. 3 LCD Connector. 4 Ethernet. 5 UART 6 Analog 7 Peripheral 8 Power KEIm aseboard REV TE PGES ESRIPTION.0.0 Oct//0 ll INITIL REVISION RELESE..0 Feb//0 ll MP REVISION RELESE PGE ESRIPTION lock iagram, History SoM onnector L onnector Ethernet URT nalog Peripheral Power KONO

More information

Reference Schematic for LAN9252-SPI/SQI+GPIO16 Mode

Reference Schematic for LAN9252-SPI/SQI+GPIO16 Mode Reference Schematic for LN-SPI/SQI+GPIO Mode onfigurations SPI/SQI+GPIO Mode EEPROM - F (High) Port mode Port0 & Port = opper Page No. Schematic Page Title Power Supply LN(Part) LN(Part), Strap & EEPROM

More information

AS1117M3 or LM1117MPX-ADJ REG_VDD ADJ. C20 0.1uF U6. + C57 10uF R K 1% GND 3.92K 1%

AS1117M3 or LM1117MPX-ADJ REG_VDD ADJ. C20 0.1uF U6. + C57 10uF R K 1% GND 3.92K 1% K POWER SW JP EXTERNL POWER FUSE 0. uf VT + 0 uf SM or LMMPX-J REG_V VIN VOUT + 0uF 0 0.uF U R 0.0K % J R.K % REG_V J PV PV_US_TGT V_M0X POWER_SELET R0 0Ohm V to V ENTER POSITIVE.

More information

S08P-LITE. 1 Title Page 2 Block Diagram 3 MCU & Arduino Headers 4 OSBDM & Power Supply 5 On-board Peripherials S08P-LITE. 23-Jun-17. V3.

S08P-LITE. 1 Title Page 2 Block Diagram 3 MCU & Arduino Headers 4 OSBDM & Power Supply 5 On-board Peripherials S08P-LITE. 23-Jun-17. V3. Title Page lock iagram MU & rduino Headers OSM & Power Supply On-board Peripherials Revisions Rev escription ate -Jun- V.0 -Feb- pproved Microcontroller Product Group 0 William annon rive West ustin, T

More information

R&D Division. Board name : Mother Board Schematic Project : Z11D (Santa Rosa) Version : 0.4 Initial Date : March 02, Inventec Corporation

R&D Division. Board name : Mother Board Schematic Project : Z11D (Santa Rosa) Version : 0.4 Initial Date : March 02, Inventec Corporation Inventec orporation R& ivision oard name : Mother oard chematic Project : Z (anta Rosa) Version : 0. Initial ate : March 0, 00 Inventec orporation F, No., ection, Zhongyang outh Road eitou istrict, Taipei

More information

AXM88180-EVB-RTL8211E-1 SMDK2440 Demo Board Schematic Index

AXM88180-EVB-RTL8211E-1 SMDK2440 Demo Board Schematic Index XM0-EV-RTLE- SMK0 emo oard Schematic Index Page : Schematic Index (This Page) Page : RTLE GigaPHY MHz rystal RJ- Transformer Page : Host Interface onnector Power Page : History Page : X0 EEPROM Note:.Please

More information

SS8 BLOCK DIAGRAM CPU PCH DIS. Codec Board. Nvidia N12P-GE (128bit) 29mm X 29mm BGA 973. Sandy Bridge 35W 31mm X 24mm BGA 1023 SV

SS8 BLOCK DIAGRAM CPU PCH DIS. Codec Board. Nvidia N12P-GE (128bit) 29mm X 29mm BGA 973. Sandy Bridge 35W 31mm X 24mm BGA 1023 SV IS SS LOK IGRM PGE RIII-SOIMM0 H=.mm H=.mm PGE RIII-SOIMM PGE PGE RIII MT/s RIII MT/s ST 00M /S FI LINK.GT /s PU Sandy ridge W mm X mm G 0 SV PGE ~ MI LINK GT /s PIEx Nvidia NP-GE (bit) mm X mm G R x Mxx

More information

NV11,4Mx16 DDR, RGB, INTERNAL DVI-I, AGP.

NV11,4Mx16 DDR, RGB, INTERNAL DVI-I, AGP. . NV.V 00PF 00PF 00PF 0.UF 0.UF 0.UF 0.UF 0UF 0UF 0 0.UF 0.UF.V TO- -pin package Semtech Z, Unisem US0 00 NV O- RG-PWR-IN.V@ /- 0mV 0UF 00PF 00PF 0 00PF 0UF 00PF 0UF 0 0.UF 0 00PF 0.UF 0 O0 U POWR SNS

More information

Carrier Board Design Guide

Carrier Board Design Guide arrier oard esign Guide for OM Express Modules (OM.0 R.0) 0.0-000-00 opyright opyright 0-0 VI Technologies Incorporated. ll rights reserved. No part of this document may be reproduced, transmitted, transcribed,

More information

ZR1 Block Diagram PCIE. Yonah / Merom. INTEL Mobile_479 CPU. Page : 3,4. HOST BUS 667/533MHz. Calistoga 945GM / 945PM / 940GML 1466 BGA TVOUT RGB

ZR1 Block Diagram PCIE. Yonah / Merom. INTEL Mobile_479 CPU. Page : 3,4. HOST BUS 667/533MHz. Calistoga 945GM / 945PM / 940GML 1466 BGA TVOUT RGB LOK GEN IS0 Page : V /.V / 0V Page :.V / 0.V / VP Page : NVV /.V Page : PU ORE /.V Page : TTERY HRGER Page : HOST 00/MHz PI-E 00MHz VG MHz US MHz PI MHz REF MHz VPU V S SUS VSUS V V V_S 0.VSUS 0.V VP NVV.V.V

More information

Nvidia N12P-GE N12P-GV1 N12P-GV. PCI-Express. Graphics Interfaces PG 15,16,17,18,19,20,21 INT_HDMI INT_CRT INT_LVDS

Nvidia N12P-GE N12P-GV1 N12P-GV. PCI-Express. Graphics Interfaces PG 15,16,17,18,19,20,21 INT_HDMI INT_CRT INT_LVDS KL Intel Huron River Platform with iscrete GFX 0 FN / THERML EM0- RIII-SOIMM PG RIII-SOIMM PG Speaker PG udio Jack (External MI) PG Head-Phone Jack PG ual hannel R /00.V ST - H USeST PG ST - -ROM UIO OE

More information

D28 D28 1N4001 1N4001 R301 R375 R k. 10k R82 R82. 47k. 47k USB_IN. 20k. 20k R87 R87 +3V. C uF. C uF GND +1V8. C uF.

D28 D28 1N4001 1N4001 R301 R375 R k. 10k R82 R82. 47k. 47k USB_IN. 20k. 20k R87 R87 +3V. C uF. C uF GND +1V8. C uF. POWER_KEY POWER_OFF US_IN WKEUP H_ET HG_STTUS PLYKEY +VRT VT VUS +VRT LI_.V LI_.V VUS VT VTT VTT VTT +V +V +V +V VTT V +V T uf uf R k R k uf uf R k R k VIN VOUT U XPM U XPM Vbat ON ON ON ON KW ON/OFF KW

More information

#1 10P/DIL NORTH #3 #3 #3 #3 #3 #3 #3 #3 R198 RES0603 RES0603 DNP DNP DNP RES0603 RES0603 RES SDI_N 3-SDO_N 3-ALERT_N 3-CS_N 3-SCLK_N 3-CONV_N

#1 10P/DIL NORTH #3 #3 #3 #3 #3 #3 #3 #3 R198 RES0603 RES0603 DNP DNP DNP RES0603 RES0603 RES SDI_N 3-SDO_N 3-ALERT_N 3-CS_N 3-SCLK_N 3-CONV_N P REVISION REOR J SP88 0 - RE N_JK P 90-00_-POS TP # - Remove these components to stack north # - Populate these components to stack north Use k Resistors or adjust as needed Header - Molex 90-0 PITORS,

More information

Revisions. TWR-LCD-RGB Drawn by: Initial Release 15-JUL-11

Revisions. TWR-LCD-RGB Drawn by: Initial Release 15-JUL-11 Table of ontents Notes lock iagram isplay and Tower onnectors MU & apacitive Touch kt Rev X X escription Revisions Initial Release ate -JUL- pproved hanged Power L colours-jul- Removed J and J dded J &

More information

QUANTA COMPUTER INC.

QUANTA COMPUTER INC. QUNT OMPUTER IN. PGE ontent PGE ontent 0 0 0 T PGE OVER T LOK IGRM NW/PS (HOST US) NW/PS (POWER/N) MH (Host bus) MH (GP bus & HU I/F) GMH (PWR & GN) GMH R- & R- IH-M(PU,PI,IE) IH-M (US,HU,LP) IH-M(POWER&GN)

More information

Reference Schematic for LAN9252-HBI-Multiplexed Mode

Reference Schematic for LAN9252-HBI-Multiplexed Mode Reference Schematic for LN-HI-Multiplexed Mode onfigurations HI Multiplexed mode EEPROM - F (High) Port mode Port0 & Port = opper Page No. Schematic Page Title Power Supply LN(Part) LN(Part), Strap & EEPROM

More information

PLAY0 CT7601 QFN48 REC ADC REC. Power LDO RCA RCA RCA*2. Ext. MCU RCA*2. SPDIF output. PWM LED x 2 POR. SPDIF input x 1 Flash. connector.

PLAY0 CT7601 QFN48 REC ADC REC. Power LDO RCA RCA RCA*2. Ext. MCU RCA*2. SPDIF output. PWM LED x 2 POR. SPDIF input x 1 Flash. connector. R SPIF output Power LO R SPIF input x Flash POR PWM LE x R* Lightning() P x pin Type connector US pin For Lightning & P T QFN RE PLY H Sel T PLY x PM Ext. MU H Sel T RE x S NE OP R* Size ocument

More information

PCIextend 174 User s Manual

PCIextend 174 User s Manual PIextend 7 User s Manual Preliminary M6- February Sycard Technology 8-F Miraloma Way Sunnyvale, 98 (8) 79- (8) 79- FX PIextend 7 User s Manual Page. Introduction Sycard Technology's PIextend 7 PI extender

More information

UM9 UMA SYSTEM DIAGRAM

UM9 UMA SYSTEM DIAGRAM +V/+V +.V PG. PG. PU ore PG. +.0_PH PG. +.V/+0.V PG. +.0VTT PG. UM VGORE harger PG. PG. LN LNE theros/r 0/00 board P K PG. PG. PG. R hannel PORT FI UM UM SYSTEM IGRM SOIMM Max. G SOIMM Max. G K TP M ROM

More information

PCB NO. DM205A SOM-128-EX VER:0.6

PCB NO. DM205A SOM-128-EX VER:0.6 V. M0 M M M M M M M MQM0 MQS0N MQS0P M M M0 M M M M M MQM MQSN MQSP U RM R0 Q00 M0 U Q0 M T Q0 M R Q0 M U Q0 M U Q0 M T Q0 M T Q0 M T M0 M U QS0N M U QS0P M0 M W0 Q0 M W Q0 M V0 Q0 M U0 Q M W Q W Q 0 V

More information

BIOSTAR GROUP VER:6.7. uatx. 775 CPU, FSB1066, PCI-Ex16, PCI-Ex1,DDR-II* 2, 10/100 LAN,PCI*2

BIOSTAR GROUP VER:6.7. uatx. 775 CPU, FSB1066, PCI-Ex16, PCI-Ex1,DDR-II* 2, 10/100 LAN,PCI*2 TITL over She_ lock iagram General Spec. hange Lise omponent Size Processor North ridge South ridge lock Synthesizer) Sdram imms PI-x Slot Pci Slot PI-x Slot I onnectors TX Power & ypass P OM, PS, US,

More information

A B C D REVISIONS +3V J39 PHY_INT TXD15 TXPAR PRST AC16 AC21 AD22 AF22 AE22 AF17 AC22 AE16 AE21 AD18 AE7 AD17 AE19 AE20 AF20 AC20 A16 B13 TXD14

A B C D REVISIONS +3V J39 PHY_INT TXD15 TXPAR PRST AC16 AC21 AD22 AF22 AE22 AF17 AC22 AE16 AE21 AD18 AE7 AD17 AE19 AE20 AF20 AC20 A16 B13 TXD14 A ISIONS ZONE LTR ESRIPTION ATE APPROVE A INITIAL RELEASE --_0:0 J 0 0 0,,,, AF JP PAR [:0] ON PIV 0 SO LAV EN LK PHYS M LK STAT_A M0 M R R R R R R R 0K J J AR AR[:0] AR AR AR AR0 AR AR[:0] AR AR AR AR0

More information

DAC PLAY0 PLAY0 CT7601 DAC REC ADC REC RCA * 2. Power LDO RCA. RCA * 2 SPDIF output x2 RCA RCA RCA. Ext. MCU POR. PWM LED x 2. SPDIF input x 1.

DAC PLAY0 PLAY0 CT7601 DAC REC ADC REC RCA * 2. Power LDO RCA. RCA * 2 SPDIF output x2 RCA RCA RCA. Ext. MCU POR. PWM LED x 2. SPDIF input x 1. R * SPIF output x Power LO R * R R SPIF input x POR Flash PWM LE x PM00 Lightning() P 0x0 0pin Type connector US 0pin For Lightning & P T0 RE PLY0 PLY H Sel Stereo T0 PLY0 T0 0x PLY 0x PM00 R Ext. MU H

More information

Model Name: 8I945GMF. Revision 1.0

Model Name: 8I945GMF. Revision 1.0 Model Name: IGMF SHEET TITLE Revision.0 SHEET TITLE 0 0 0 0 0 0 0 0 0 0 0 OVER SHEET LOK IGRM OM & P MOIFY HISTORY P_LG_ P_LG_ P_LG_ P_LG_,E,F,G GMH-LKEPORT_HOST GMH-LKEPORT_RII GMH-LKEPORT_PI E, MI GMH-LKEPORT_INT

More information

Quickfilter Development Board, QF4A512 - DK

Quickfilter Development Board, QF4A512 - DK Quickfilter evelopment oard, QF - K nalog Inputs - U +.V +.V J N hannel J N hannel J N hannel J N hannel U +.V +.V U +.V U +.V Prototyping rea J J Optional +V External Power x Header 0." US onnector U

More information

ACER_BAP31 MAIN BOARD INVENTEC ACER_JM31 CODE EE DATE POWER DATE DRAWER DESIGN CHECK RESPONSIBLE TITLE

ACER_BAP31 MAIN BOARD INVENTEC ACER_JM31 CODE EE DATE POWER DATE DRAWER DESIGN CHECK RESPONSIBLE TITLE ER_P MIN OR 00.. Tuesday, March 0, 00 TE HNE NO. X0 REV EE TE POWER TE RWER EIN HEK REPONILE IZE= VER: FILE NME: XXXX-XXXXXX-XX P/N XXXXXXXXXXXX INVENTE ER_JM OE IZE O.NUMER REV --00-L X0 X0 HEET . chematic

More information

XIO2213ZAY REFERENCE DESIGN

XIO2213ZAY REFERENCE DESIGN XIOZY REFERENE ESIGN XIOZY Reference Size ocument Number Rev ate: Wednesday, September, 00 Sheet of TP+ TP- TP+ TP- TPIS TP+ TP- TP+ TP- TPIS TP0+ TP0- TP0+ TP0- TPIS0 REFLK+ REFLK- V_ V_ V_ORE PLLV_ORE

More information

CONTENTS: REVISION HISTORY: NOTES:

CONTENTS: REVISION HISTORY: NOTES: ONTENTS: PGE - ONTENTS PGE - POWER, XOS PGE - SI, SI, JTG PGE - S/eMM, US, HMI, GPIO, OMPOSITE PGE - SOIMM REVISION HISTORY: V.0 - /0/0 NOTES: These reduced schematics omit core SMPS and LPR circuitry

More information

1 INDEX & POWER, RESET 2 RF, SERVO & MPEG - MT1389E 3 MEMORY - SDRAM, FLASH/EEPROM 4 VIDEO OUT 5 AUDIO DAC WMA8766

1 INDEX & POWER, RESET 2 RF, SERVO & MPEG - MT1389E 3 MEMORY - SDRAM, FLASH/EEPROM 4 VIDEO OUT 5 AUDIO DAC WMA8766 OMMON_H_V MT (LQFP) V emo oard for Sanyo Slim H PUH INX & PO, ST F, SVO & MPG - MT MMOY - SM, FLSH/POM VIO OUT UIO WM NM TYP VI igital V SUPPLY V igital.v MT FV Servo.V MT LO_V Laser iode.v F V PIKUP H

More information

HOSCO HOSCI AS M AS M C1 18P C2 18P C1 18P C2 18P GND VCC3 GPIOK7 R82 R82 10K A20 10K. #OffHook. FmHook #TRANSLED. VxBP 0.1U 0.

HOSCO HOSCI AS M AS M C1 18P C2 18P C1 18P C2 18P GND VCC3 GPIOK7 R82 R82 10K A20 10K. #OffHook. FmHook #TRANSLED. VxBP 0.1U 0. 0 #E0 GPIOK #MWR #MR #FWE HOSI KEYI0 GPIO0 HOSO V V VREFI KEYI GPIO GPIO_ V KEYO GPIO #E OUTR MIIN VMI GPIO_0 #LON V #HOL 0 0 #E KEYO GPIO 0 KEYO0 GPIO GPIO_ GPIO_0 #MR #MWR V V V V TSEL #E #E0 V HOSI

More information

INTEL Arrandale. ATI Madison. INTEL PCH Ibex Peak-m +3V/+5V +1.05V/+1.8V PG.36. SODIMM1 Max. 4GB HDMI. CPU Core PG.39 VGA Core/+1.

INTEL Arrandale. ATI Madison. INTEL PCH Ibex Peak-m +3V/+5V +1.05V/+1.8V PG.36. SODIMM1 Max. 4GB HDMI. CPU Core PG.39 VGA Core/+1. +V/+V PG. +.V/+.V PG. PU ore PG. VG ore/+.v PG. +.V/+.V PG. +.VTT PG. UM VGORE harger PG. UM IS SYSTEM IGRM SOIMM Max. G PG. SOIMM Max. G PG. M ROM PG. R hannel R hannel INTEL rrandale.mm X.mm pin PG TP

More information

Realtek Semiconductor Corp. Title RTL8213(M)_FHG_V1.0

Realtek Semiconductor Corp. Title RTL8213(M)_FHG_V1.0 Fiber LE RJ M RYSTL EEPROM SRM & FLSH POWER PWRJK Jumper for GPIOs URT Realtek Semiconductor orp. RTL(M)_FHG_V.0 Size ocument Number Rev lock diagram.0 ate: Tuesday, November, 00 Sheet of ,, /ISGPIOSTP

More information

PCI-E. Capilano. PCI-Express. Graphics Interfaces PG 16,17,18,19,20,21,22 INT_HDMI INT_CRT INT_LVDS USB2.0. Port 5,6,7 Port 1 Port 3,4 USB2.

PCI-E. Capilano. PCI-Express. Graphics Interfaces PG 16,17,18,19,20,21,22 INT_HDMI INT_CRT INT_LVDS USB2.0. Port 5,6,7 Port 1 Port 3,4 USB2. KL Intel Huron River Platform with iscrete GFX FN / THERML EM- RIII-SOIMM RIII-SOIMM Speaker udio Jack (External MI) PG PG Head-Phone Jack SPIF PG PG ual hannel R /.V ST - H USeST PG ST - -ROM UIO OE L

More information

I2 C Compatible Digital Potentiometers AD5241/AD5242

I2 C Compatible Digital Potentiometers AD5241/AD5242 a Preliminary Technical ata FEATURES Position Potentiometer Replacement 0K, 00K, M, Ohm Internal Power ON Mid-Scale Preset +. to +.V Single-Supply; ±.V ual-supply Operation I C Compatible Interface APPLICATIONS

More information

CPU NORTH BRIDGE SOUTH BRIDGE

CPU NORTH BRIDGE SOUTH BRIDGE 0_lock iagram 0_System Setting 0_Power Sequence 0_lock Gen_ISLPR 0_iamondville_US 0_iamondville_PWR 0_N-GMS(HOST) 0_N-GMS(MI) 0_N-GMS(GRPHI) 0_N-GMS(R) _N-GMS(PWR) _N-GMS(PWR) _N-GMS() _S-IHM(PWR) _S-IHM()

More information

REVISION HISTORY DESCRIPTION INITIAL SCHEMATIC AIY REMOVED ANALOG SWITCHES CHANGED FEEDBACK

REVISION HISTORY DESCRIPTION INITIAL SCHEMATIC AIY REMOVED ANALOG SWITCHES CHANGED FEEDBACK REVISION HISTORY Notes - Unless otherwise noted. Resistances values in Ohms. apacitance values in micrarads (uf). ll 0.uF and 0.0uF capactors are decoupling and should be placed near the I they are shown

More information

core Tiny6410.sch DM9000 DM9000-etc.sch AC97 AC97-etc.sch USB HUB USB-HUB.sch Tiny6410SDK 1103

core Tiny6410.sch DM9000 DM9000-etc.sch AC97 AC97-etc.sch USB HUB USB-HUB.sch Tiny6410SDK 1103 core Tiny0.sch M000 M000-etc.sch -etc.sch US HU US-HU.sch Tiny0SK 0 M_ VV V V V V V V V V V VN VSYN VLK VUS OTGI OTGM OTGP IN0 S_LK S_n S_T0 S_T OUT0 INT INT INT RST ( 红色 ) Tiny0 Tiny0 P Power Supply S

More information

Project Name :I36IAx Platform : Celeron GS40 + Park + ICH9M

Project Name :I36IAx Platform : Celeron GS40 + Park + ICH9M Project Name :IIx Platform : eleron + 0 + Park + IHM PE..... PU... 0_FF. 0...... -IHM.... 0.......... 0....... POWER... 0. ONTENT INEX YTEM LOK IRM POWER IRM & EQUENE Power on equence iagram PU Penryn

More information

Generated by Foxit PDF Creator Foxit Software For evaluation only.

Generated by Foxit PDF Creator Foxit Software For evaluation only. I_ST I_SLK K_% R K_% R L_0 L_ L_ L_ KEY TON_STHL /F NN_ NN_ P M VS OUTL P OUTR VR MIIN VREF V HOSI LOSI R X pf LOSO.KHZ M_% pf HOSO X pf MHz HOSI 0 pf POWER Generated by Foxit PF reator Foxit Software

More information

R12 INTEL UMA/DISCRETE SYSTEM DIAGRAM

R12 INTEL UMA/DISCRETE SYSTEM DIAGRAM R INTEL UM/ISRETE SYSTEM IGRM +V/+V PG. +.VTT/+.V PG. PU ore PG. VGore/+.V PG. +.VSUS harger PG. PG. ischarger PG. UM VGORE LN ard reader RTS-GR / PG. PG. LN LN RTSEH / K SOIMM Max. G PG. SOIMM Max. G

More information

SVT-2 REV : 3C

SVT-2 REV : 3C / ( VRM & VR0 ) MX0 P / ( VRM ) MXETG P / ( VRM & V0R ) MX & F P / ( VM & VM ) MX0ETU PU ORE ( VPUORE ) ISL HRGER MXETI TSURUMI KVT P P P0 ( V & V & VR & VR ) P R II SOIMM0 R II SOIMM VR R_VREF V0R P,0

More information

UW3 Block Diagram. XDP Page 31. Page 3~5. Port x3 WWAN. Page 20 Page 16. Page 6~10. SIM Card. Page 20 AUDIO CODEC IDT 92HD79BX

UW3 Block Diagram. XDP Page 31. Page 3~5. Port x3 WWAN. Page 20 Page 16. Page 6~10. SIM Card. Page 20 AUDIO CODEC IDT 92HD79BX P STK UP L LYER : TOP LYER : SGN LYER : IN LYER : IN LYER : V LYER : OT SYSTEM POWER +VPU/+VPU(RT) R SMR_VTERM +.VSMVREF/+.VSUS(RT) PGE PU ORE RT GFX ORE(RT) PGE +.V(RT) PGE +.V(RT) PGE VP.V(RT) PGE PGE

More information

LZ8 14'' Block Diagram -- Intel Chief River ULV

LZ8 14'' Block Diagram -- Intel Chief River ULV P STK UP L LYER : TOP LYER : SGN LZ '' lock iagram -- Intel hief River ULV 0 LYER : IN LYER : IN LYER : SV LYER : IN LYER : SGN LYER : OT R SO-IMM (ST) Page R SO-IMM (RVS) Page Intel hief River Ivy ridge

More information

Service Information. Service. Service. Service FW-V220. Product Service Group CE Audio A02-160

Service Information. Service. Service. Service FW-V220. Product Service Group CE Audio A02-160 Service Service Service W-V0 0-0 Product Service Group udio Service Information lready published Service Informations: ORRTION TO SRVI MNUL elow are corrections to the circuit diagram parts list: OMI OR

More information

RTL8211DG-VB/8211EG-VB Schematic

RTL8211DG-VB/8211EG-VB Schematic RTL8G-V/8EG-V Schematic REV..8 Page Index. Page. PHY. MI. M. Power. History RTL8G/8EG Size ocument Number Rev.8 TITLE PGE ate: Sheet of External clock and rystal RTL8G/8EG GMII/RGMII Interface LK_M ENSWREG

More information

SY3. BlOCK DIAGRAM. Intel. TigerPoint. Intel PineView-M VGA LCD. USB CNN x2. Bluetooth WWAN. Camera

SY3. BlOCK DIAGRAM. Intel. TigerPoint. Intel PineView-M VGA LCD. USB CNN x2. Bluetooth WWAN. Camera SY lok IGRM LOK GEN SLGSPVTR 0 PU Thermal Sensor Intel PineView-M R/G/ VG attery In / & harge MHZ RII SO-IMM Micro-G LVS L Max. G US NN x luetooth SIM Socket WWN US.0 Intel MI x TigerPoint PI-E PI-E ST

More information

Design Overview. Page 2 Power,Flash,SDcard User switch,reset switch. Page 3 Ethernet. Page 4 Audio. Page 5 USB. Page 6 JTAG,BOOTSW,LED,Header

Design Overview. Page 2 Power,Flash,SDcard User switch,reset switch. Page 3 Ethernet. Page 4 Audio. Page 5 USB. Page 6 JTAG,BOOTSW,LED,Header esign Overview Page Power,Flash,Scard User switch,reset switch. Page Ethernet Page udio Page US Page JTG,OOTSW,LE,Header isclaimer: Schematic's are for reference only. provides no warranty for the use

More information

SYMETRIX INC th Avenue West Lynnwood, WA USA REV: DATE:

SYMETRIX INC th Avenue West Lynnwood, WA USA REV: DATE: R 0K0 RST U S_ PF/0V PF/0V 0FS FS T T 0SLK N SOT N SOT Y mhz U LS0 debug port 0 do not stuff R WR S PS X/Y IN/IN IR 0IR MO J R M R 0K0 R0 K00 R 0K0 dsck dr dsi dso / G 0 U LS0 R 0K0 SI_RX SI_TX SI_LK TFS

More information

DC/DC NVDD/+1.2V +3V/+5V +1.05V/+1.8VSUS/+1.8V/+0.9V +1.5V/+2.5V. HOST BUS 533/667 MHz. Page 12,13,14,15 INT_LVDS INT_TVOUT INT_VGA +2.

DC/DC NVDD/+1.2V +3V/+5V +1.05V/+1.8VSUS/+1.8V/+0.9V +1.5V/+2.5V. HOST BUS 533/667 MHz. Page 12,13,14,15 INT_LVDS INT_TVOUT INT_VGA +2. INT@:UM XT@:iscrete V@:M VRM V@:M VRM G@:LN 0 G@:LN G@:LN 0 0.V 0.VSUS.VSUS R-SOIMM Page 0, R-SOIMM Page 0, Parallel-H Page L (odec) & MP Page 0 Multi-ay Head phone Page Internal-MI Page LIN-IN Page Page

More information

CP2102 TESTAMATIC SYSTEMS POWER 5V TO 3.3V SECTION PINOUT CHECK DECOUPLING CAPACITORS. Btype USB connector TSPL_PPS_1 2.2

CP2102 TESTAMATIC SYSTEMS POWER 5V TO 3.3V SECTION PINOUT CHECK DECOUPLING CAPACITORS. Btype USB connector TSPL_PPS_1 2.2 VUS R V_IN V TO.V SETION.V SI_RX SI_TX 0E R PINOUT HEK MINISM00F- Resettable Fuse F 00m WHITE 00nF U GN EN IN IN TPS PG nc OUT OUT 0k R 0.V 00nF Power_Good MIRO US IS INITE S ON TX RX 0.uF VUS TR RI GN

More information

PTN3356 Evaluation and Applicaiton Board Rev. 0.10

PTN3356 Evaluation and Applicaiton Board Rev. 0.10 E PTN Evaluation and pplicaiton oard Rev. 0.0 REVISION STORY : ------------------------------------- 0. June 0, 0 - ase on PTN_ONLY_REV.SN 0. July, 0 - OM changes due to long lead time items, LEs 0. July,

More information

Project: Date. Version. Items V1.01 C C. SIM Technology TITLE DRAWN BY PORJECT. SIM800C+SIM28M_VTS Reference CONTENT VER CHECKED BY SIZE V1.

Project: Date. Version. Items V1.01 C C. SIM Technology TITLE DRAWN BY PORJECT. SIM800C+SIM28M_VTS Reference CONTENT VER CHECKED BY SIZE V1. Project: ate Version Items V.0 RWN Y PORJET SIM800+SIM8M_VTS Reference ONTENT HEKE Y V.0 SHEET of 7 POWER POWER -0V F0 0 L0 VIN LO X0 SM0 SWRH07 uh T-PIN-X TVS0 Z0 + 0 VT U0 VZ=V,Pd=W SM7 00uF V GN VOUT

More information

THAT Corporation. QSC Digital Cinema Monitor DCM-2/DCM-3 Monitor Board

THAT Corporation. QSC Digital Cinema Monitor DCM-2/DCM-3 Monitor Board anyone without the written permission of THT orporation. escription ate 00 Released // 0 Per EO # /0/ pproved ataports,,, -00.SH VMON & IMON Input Select of -00.SH UNLESS OTHERWISE NOTE: ataports E,F,G,H

More information

A B C D TXD[15:0] TXD10 TXPAR 2.2K R38 RA12 1 RA13 AD10 +3V J98 PHY_INT HSERR R70 PRST TXPAR. ATM Physical Local Bus. Local Bus Interface.

A B C D TXD[15:0] TXD10 TXPAR 2.2K R38 RA12 1 RA13 AD10 +3V J98 PHY_INT HSERR R70 PRST TXPAR. ATM Physical Local Bus. Local Bus Interface. S J TXR0 TXR TXR TXR[:0] TXR TXR LK TX[:0] TX0 TX TX0 TX TX TX TX TX TX TX TX TX TX TX TX TX R 0K R 0K J J0 PIV R 0K TXPR R0. H/E0 H/E H/E TXLV TXSO J J HRST HLK HPERR HGNT HISEL HEVSEL HSTOP HTRY HIRY

More information

H-LCD700 Service Manual

H-LCD700 Service Manual H-L00 Service Manual FULT ESIPTION: SOUN onfirm the volume isn t in silent mode before check. heck I0 () plug has audio output or not Speaker damaged heck I0 has supply V or not heck power heck I0 () plug

More information

PCLKS SYNCHS PDATS[3:0] PCODES[3:0] STATCLKS CMDCLKS PCLKW SYNCHW PDATW[3:0] PCODEW[3:0] Sheet_2 CMDCLKS STATCLKW CMDDATW STATDATW PDACK[1:0]

PCLKS SYNCHS PDATS[3:0] PCODES[3:0] STATCLKS CMDCLKS PCLKW SYNCHW PDATW[3:0] PCODEW[3:0] Sheet_2 CMDCLKS STATCLKW CMDDATW STATDATW PDACK[1:0] STTTW STTLKW POW[:0] PTW[:0] SYNHW PLKW Sheet_ STTTS STTLKS POS[:0] PTS[:0] SYNHS PLKS Sheet_ Spareates PLKS SYNHS PTS[:0] POS[:0] STTLKS STTTS MLKS MTS Sheet_ PLKW PLKS SYNHW SYNHS PTW[:0] PTS[:0] POW[:0]

More information
2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback