Page Title of schematic page Rev. Date Page Title of schematic page Rev. Date
Μέγεθος: px
Εμφάνιση ξεκινά από τη σελίδα:

Download "Page Title of schematic page Rev. Date Page Title of schematic page Rev. Date"

Transcript

1 Page Title of schematic page Rev. ate Page ist lock iagram hange ist SN /(HOST&PIE) SN /(R I/F) SN /(POWER) SN /(/Strap) PH /(MI/FI/VIEO) PH /(ST/RT/H/P) PH /(PIE/US/K/NV) PH /(GPIO/PU/STRP) PH /(POWER) PH / () R IMM--ST R IMM--ST WPE & FSH RT/VS/MER R REER(RTS) HMI/THERM US N (RTF) WN/K- H/O/G-SENSOR/TP/FN udio -GR E/RF/PS POWER V_ORE (IS) POWER VPU&RV(PM) POWER.VSUS/VTT_MEM POWER.V(GRU)- POWER VS/VIO POWER V./Thermal POWER(T IN / IN/ U) POWER HRGER (IS) POWER VG_ORE( OZ) POWER VG_V./V. Thames_PIE I/F/P Power Thames_IO & STRP Thames_MEMORY/THERM Thames_POWER * : No mount E@ : For IS GFX only I@ : For INT GFX only Page Title of schematic page Rev. ate Thames_R M Thames_R M HOE/EMI/K IO PORT IST E E

2 ZS/HK hief River OK IGRM R :.V ual hannel P~P R : // MHz R SYSTEM MEMORY intel Ivy ridge rpg (.mm X.mm) PI-E X PIE GT/s M Package type: Gb- Thames-Pro P ~ P VRM G / G P ~ P VRM G / G FI MI P~P P ~ P HP Jack amera P PORT WiMax/T P PORT US I/O P PORT US I/O P PORT US I/O P PORT US I/O P PORT udio OE -GR P MI Jack SPK MI P H ST P O ST US. US. zalia SPI ROM M P Gb/s Gb/s X.GT/s ST Gen US H FI FI ST Gen SPI MI intel <PH> MI Panther Point mg (mm X mm) X GT/s P igfx Interfaces P~P INT_RT INT_VS INT_HMI GT/s P PIE Giga-N RTF RJ Power E P PI-Express Gen P P PIE WN/Widi/T P T ombo : theros W WiMX : Kelsey Peak KSP(NXHWG).bgn/Intel/KsP_x_Y P utton PIE ard Reader MS RTS S-X P P P P P Touch Pad P E NPE Sleep E ST E attery E RF E SROE QW# VIO# SSIST# Power SW Note: HM does not support US & HM does not support ST & Keyboard P P PSE NUME R E

3 hange ist HK_M_SH_PVT_ P--dd Q[HTPT],R[K],[.UF],[U]. P--No mount R[ ohm]. P--R pin connect to "V_S". Reason : Modify circuit for N power Rise time. Possible Risk: No. HK_M_SH_PVT_ P--elete R[.K]. P--U value change to "G/TPS". Reason : Modify circuit for K/ acklight protect. Possible Risk: No. HK_M_SH_PVT_ P-- change R form ohm to.ohm Reason : for W/ E dark issue Possible Risk: No. HK_M_SH_PVT_ P-- change R R R form ohm to ohm Reason : for H,attery and card reader E dark issue Possible Risk: No. HK_M_SH_PVT_ P-- add R,R [ohm] Reason : customer requirement for TP SMUS signal Possible Risk: No. HK_M_SH_PVT_ P--elete R[ ohm]. P--elete R[ ohm]. P--elete R,R,R[ ohm]. P--elete R,R,R,R[ ohm]. P--elete R,R,R,R[ ohm]. P--elete R[ ohm]. P--elete R,R,R,R[ ohm] P--elete R[ ohm] P--elete R[ ohm] P--elete KR,KR,KR,KR[ ohm] P--elete M,MR[ ohm] P--elete R[ ohm] P--elete R[ ohm] P--elete R,R P--elete [ ohm],r,r,r,r,r,r,r,r,r,,,r,r[ ohm] P--elete PR,PR[ ohm] P--elete PR[ ohm] Reason : ancel ohm. Possible Risk: No. HK_M_SH_PVT_ P--elete PR. Reason : ancel ohm. Possible Risk: No. HK_M_SH_PVT_ P--PR,PR,PR change to short P. P--PR,PR,PR,PR change to short P. P--PR,PR,PR,PR,PR change to short P. P--PR,PR,PR change to short P. P--PR,PR,PR,PR,PR change to short P. P--PR change to short P. Reason : ancel ohm. Possible Risk: No. HK_M_SH_PVT_ P--reserve and Reason : reserve ES diode Possible Risk: No. HK_M_SH_PVT_ P--change ON form Pin to pin Reason : delete samll board I fuction Possible Risk: No. HK_M_SH_PVT_ P-- el J,J,J,J,J,J for EMI request Reason : For EMI Possible Risk: No. HK_M_SH_PVT_ P-- elete reserve ES diode, Reason : ES test PSS, we don't need to reserve Possible Risk: No. HK_M_SH_PVT_ P-- change O ES diode form Rclampn to SR Reason : for SMT issue, Rclampn easy to short, we change to SR and still reserve it Possible Risk: No. Quanta omputer Inc. PROJET : hief River Size ocument Number Rev hange ist Wednesday, February, ate: Sheet of

4 .V R () MI_TXN () MI_TXN () MI_TXN () MI_TXN () MI_TXP () MI_TXP () MI_TXP () MI_TXP () MI_RXN () MI_RXN () MI_RXN () MI_RXN () MI_RXP () MI_RXP () MI_RXP () MI_RXP () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXN () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_TXP () FI_FSYN () FI_FSYN () FI_INT () FI_SYN () FI_SYN./F_ Ivy ridge Processor (MI,PEG,FI) ep_omp G E F H E F E G E G F J J H J H F G E F U MI_RX#[] MI_RX#[] MI_RX#[] MI_RX#[] MI_RX[] MI_RX[] MI_RX[] MI_RX[] MI_TX#[] MI_TX#[] MI_TX#[] MI_TX#[] G MI_TX[] MI_TX[] F MI_TX[] MI_TX[] FI_TX#[] FI_TX#[] FI_TX#[] FI_TX#[] FI_TX#[] FI_TX#[] FI_TX#[] FI_TX#[] FI_TX[] FI_TX[] FI_TX[] FI_TX[] FI_TX[] FI_TX[] FI_TX[] FI_TX[] FI_FSYN FI_FSYN FI_INT FI_SYN FI_SYN ep_ux ep_ux# ep_tx[] ep_tx[] ep_tx[] ep_tx[] ep_tx#[] ep_tx#[] ep_tx#[] ep_tx#[] MI Intel(R) FI ep_ompio ep_iompo ep_hp ep PI EXPRESS* - GRPHIS PEG_IOMPI PEG_IOMPO PEG_ROMPO PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX#[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_RX[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX#[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] PEG_TX[] J J H K M J J H H G G F E E J K H H G G F F E E F E M M M K K J J H G E F F E M M M K K J J H G E F E PEG_OMP PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXN () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_RXP () PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXN_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ PEG_TXP_ R./F_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_ E@.U/V/XR_.V PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXN () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () PEG_TXP () H_PROHOT# () E_PEI R () PM_SYN () H_PWRGOO PU_PTRST# TP TP Ivy ridge Processor (K,MIS,JTG) K K_PU_KP () () H_SN_IV# PRO_SEET# K# K_PU_KN () /J_ SKTO# TP_TERR# H_PROHOT#_R (,) PM_THRMTRIP# R R R R K/J_ PM_RM_PWRG_R R _ V_S N.V N N *P/V/NPO_ *_S M.U/V/XR_ /J_ /J_.U/V/XR_ P V R U SKTO# TERR# PEI PROHOT# THERMTRIP# PM_SYN SM_RMPWROK RESET# MIS THERM UNOREPWRGOO OKS R MIS PWR MNGEMENT JTG & PM Ivy ridge_rpg_p_revp P_REF_K P_REF_K# SM_RMRST# SM_ROMP[] SM_ROMP[] SM_ROMP[] PRY# PREQ# TK TMS TRST# TI TO R# PM#[] PM#[] PM#[] PM#[] PM#[] PM#[] PM#[] PM#[] R K P P R R P R P T R R T P R T R R R PU_RMRST# () SM_ROMP_ R SM_ROMP_ R SM_ROMP_ R XP_TK R _ XP_TMS R _ XP_TRST# R _ XP_TI_R R _ XP_TO_R R _ K_ K_ XP_RST# ().V /F_./F_ /F_.V.V Ivy ridge_rpg_p_revp R K_.V.V PU_PTRST# PTRST# (,,,) Q NW () PROHOT R _ H_PROHOT# Q P/V/NPO_ H_PROHOT# () SN_IV#: - It is N when using Sandy ridge.(.v) - For next generation processor it will be grounded in package.(.v) FI isabling (iscrete Only) -FI_FSYN (J/J/J/H) can gang all these signals together and tie them with only one K resistor to (G V. h..). - FI_INT connect to with K ohm. (,,,,,,) _SYS_PWRG () PM_RM_PWRG V_S U HG.U/V/XR_ R * R /F_ R Q *N /F_ PM_RM_PWRG_R MING (,,).evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. R *K/F_ N PROJET : hief River Size ocument Number Rev SN/IV / Quanta omputer Inc. ate: Wednesday, February, Sheet of

5 Ivy ridge Processor (R).evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. SN/IV / Wednesday, February, hief River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : M M M M M M M M M M M QSP M QSP M QSP M QSP M QSP M QSP M QSP M M QSN M QSN M QSN M QSN M QSN M QSN M QSN M QSN M M QSP M M M M M QSN M QSN M QSN M QSN M QSN M QSN M QSN M QSN M QSP M QSP M QSP M QSP M QSP M QSP M QSP M QSP M M M M M M M M M M M M M M M M 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 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 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 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 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 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 Q M Q PU_RMRST# () R_RMRST# (,) RMRST_NTR_PH () M KP () M KN () M KE () M KE () M KP () M KN () M S# () M S# () M OT () M OT () M QSN[:] () M QSP[:] () M [:] () M [:] () M QSP[:] () M QSN[:] () M OT () M OT () M S# () M S# () M KE () M KN () M KP () M KE () M KN () M KP () M Q[:] () M S# () M S# () M S# () M S# () M RS# () M WE# () M RS# () M WE# () M S# () M S# () M S# () M S# () M Q[:] () RMRST_NTR_E ().V_SUS R K/F_ R.K/F_ R *_ Q N.U/V_ R K/F_ R SYSTEM MEMORY U Ivy ridge_rpg_p_revp E F V E F V V K H G F G K J N M M M R R M M W W W V V W W V W V W F V V F F G G F F G G K K K J J J J K M N N N M M N M G G K K H H J J J K J K H H P N M M P N J H K K J H W W G H G H S_S[] S_S[] S_S[] S_S# S_RS# S_WE# S_K[] S_K[] S_K#[] S_K#[] S_KE[] S_KE[] S_S#[] S_S#[] S_OT[] S_OT[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_K[] S_K#[] S_K[] S_K#[] S_KE[] S_KE[] S_S#[] S_S#[] S_OT[] S_OT[] R SYSTEM MEMORY U Ivy ridge_rpg_p_revp R E E R R E N N P P K K P P G F J K M N T R T T T T R T R R T R R G F F G G F F G J J K K J J K K M N N N M N M M M M R P N N N P P N T T P N R R R J T T H R J H T N R T T N R T T T E E E S_S[] S_S[] S_S[] S_S# S_RS# S_WE# S_K[] S_K[] S_K#[] S_K#[] S_KE[] S_KE[] S_OT[] S_OT[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_QS[] S_QS#[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_M[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_Q[] S_K[] S_K#[] S_KE[] S_K[] S_K#[] S_KE[] S_S#[] S_S#[] S_S#[] S_S#[] S_OT[] S_OT[] R *_S

6 HOE *intel-pu-bracket PU ore Power SN: *U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ *U/.V/XR_ *U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ Ivy ridge Processor (POWER) V_ORE G G G G G G G G G G F F F F F F F F F F Y Y Y Y Y Y Y Y Y Y V V V V V V V V V V U U U U U U U U U U R R R R R R R R R R P P P P P P P P P P UF V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V V POWER PEG N R ORE SUPPY SENSE INES SVI V_SENSE VSS_SENSE Ivy ridge_rpg_p_revp VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIO VIERT# VISK VISOUT VIO_SENSE VSS_SENSE_VIO H H G Y U P J J J J H H H G G G F F F F E E E J J J J J J.V. H_PU_SVIRT# H_PU_SVIK H_PU_SVIT R R R R /F_ /F_ /F_ /F_ *U/V_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ V_ORE V_SENSE () VSS_SENSE ().V VP_SENSE () VSSP_SENSE ().V V_GFX (.) U/.V/XR_ U/.V/XR_ U/.V/XR_ ayout note: need routing together and ERT need between K and T H_PU_SVIK R Place PU resistor close to PU.V R R /F_ Ivy ridge Processor (GRPHI POWER) I@U/.V/XR_ I@U/.V/XR_ I@U/.V/XR_ I@U/.V/XR_ I@U/.V/XR_ I@U/.V/XR_ I@U/.V/XR_ I@U/.V_ I@U/.V/XR_ I@U/.V_ E@_ *_S T T T T T T R R R R R R P P P P P P N N N N N N M M M M M M K K K K K K J J J J J J H H H H H H *U/V_ UG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VXG VP VP VP.V.V GRPHIS SVI K lose to VR ( ohm) SVI T lose to VR R /F_ POWER SENSE INES S RI R -.V RIS VREF.V RI MIS VXG_SENSE VSSXG_SENSE Ivy ridge_rpg_p_revp R./F_ SM_VREF S_IMM_VREFQ S_IMM_VREFQ VQ VQ VQ VQ VQ VQ VQ VQ VQ VQ VQ VQ VQ VQ VQ VS VS VS VS VS VS VS VS VS_SENSE VS_VI[] VS_VI[] VIO_SE VR_SVI_K () K K () F F F Y Y Y U U U P P P M M J J J H H H R R R (Trace=mil) R SN: R R.V.V K/J_ I@_ I@_ K/F_ VR_REF_PU K/F_.U/V/XR_ R *K_ K/J_ R *K_ (For.V) VIO_SE: Sandy is High =.V Ivy is ow =.V V_GFX V_XG_SENSE () VSS_XG_SENSE ().V *U/V_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ *U/.V_ SMR_VREF_Q_M () SMR_VREF_Q_M () VUS_SENSE () HR/R: HR(VI only) R(VI&VI) VS_VI () VS_VI () H_PU_SVIT R *_S Place PU resistor close to PU ( ohm) VR_SVI_T () SVI ERT.V R /J_ H_PU_SVIRT# R _ R *_S ( ohm) VR_SVI_ERT# ().evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Quanta omputer Inc. PROJET : hief River Size ocument Number Rev SN/IV / Wednesday, February, ate: Sheet of

7 T T T T T T T T T T T T T R R R R R R R R R P P P P P P P P P P P P N N N N N N N N N N M M M M M M M M M M M M K K K K K K K K K K K J Ivy ridge Processor () UH Ivy ridge Processor (RESERVE, FG) J UE VSS VSS J UI VSS VSS V_IE_SENSE H VSS VSS J TP K FG[] VSS_IE_SENSE H VSS VSS J T VSS VSS F TP K FG FG[] VSS VSS J T VSS VSS F FG[] VSS VSS J T VSS VSS E TP J FG FG[] VSS VSS T VSS VSS E K J FG FG[] RSV VSS VSS T VSS VSS E TP J FG FG[] RSV G VSS VSS T VSS VSS E TP J FG FG[] RSV E VSS VSS T VSS VSS E TP M FG[] RSV K VSS VSS H T VSS VSS E M FG[] VSS VSS H T VSS VSS E M FG[] RSV W VSS VSS H T VSS VSS E M FG[] VSS VSS H P VSS VSS E M FG[] VSS VSS H P VSS VSS E N FG[] RSV T VSS VSS H P VSS VSS E N FG[] RSV M VSS VSS H P VSS VSS E N FG[] RSV J VSS VSS H P VSS VSS E M FG[] VSS VSS H P VSS VSS E K FG[] VSS VSS H N VSS VSS E N FG[] VSS VSS H N VSS VSS E VSS VSS H N VSS VSS E VSS VSS G N VSS VSS RSV T VSS VSS G N VSS VSS RSV J VSS VSS G N VSS VSS J VXG_V_SENSE RSV H VSS VSS F N VSS VSS H VSSXG_V_SENSE RSV G VSS VSS F N VSS VSS J V_V_SENSE VSS VSS F N VSS VSS H VSS_V_SENSE VSS VSS F N VSS VSS VSS VSS E M VSS VSS VSS VSS E VSS VSS J RSV RSV_NTF R VSS VSS E VSS VSS RSV_NTF T VSS VSS E VSS VSS RSV_NTF T VSS VSS E VSS VSS RSV_NTF P VSS VSS E VSS VSS RSV_NTF R VSS VSS E VSS VSS VSS VSS E VSS VSS VSS VSS VSS E VSS VSS F RSV VSS VSS E VSS VSS F RSV VSS VSS E VSS VSS F RSV VSS VSS VSS VSS RSV RSV_NTF VSS VSS K VSS VSS G RSV RSV_NTF VSS VSS K VSS VSS G RSV RSV_NTF VSS VSS K VSS VSS E RSV RSV_NTF VSS VSS K VSS VSS RSV RSV_NTF VSS VSS J VSS VSS RSV VSS VSS J VSS VSS RSV VSS VSS H VSS VSS RSV VSS VSS H VSS VSS RSV VSS VSS H VSS VSS RSV RSV J VSS VSS H VSS VSS RSV RSV K VSS VSS H VSS VSS RSV VSS VSS H VSS VSS RSV VSS VSS H VSS VSS VSS VSS H VSS VSS K_ITP N VSS VSS H VSS J RSV K_ITP# M VSS VSS H VSS RSV VSS VSS Y H VSS VSS VSS Y H VSS VSS VSS Y H VSS VSS VSS Y H VSS J RSV RSV_NTF T VSS VSS Y H VSS RSV_NTF T VSS VSS Y H VSS RSV_NTF R VSS VSS W H VSS VSS VSS W H VSS VSS VSS W G VSS VSS VSS W G VSS KEY VSS VSS W G VSS VSS VSS W G VSS VSS VSS W G Ivy ridge_rpg_p_revp VSS VSS VSS W G VSS VSS VSS W G VSS W FG R K/F_ V VSS VSS G VSS VSS VSS U F VSS U FG R *K/F_ VSS VSS F VSS VSS VSS U F VSS U R VSS VSS SHN# (,,,) U K/F_ VSS VSS U Ivy ridge_rpg_p_revp R /J_ VSS VSS IMVP_PWRG (,,) VSS Ivy ridge_rpg_p_revp Processor Strapping FG (PEG Static ane Reversal) FG (P Presence Strap) FG (PEG efer Training) The FG signals have a default value of '' if not terminated on the board. Normal Operation VSS PEG train immediately following xxreset de assertion isable; No physical P attached to ep ane Reversed Enable; n ext P device is connected to ep PEG wait for IOS training FG[:] (PIE Port ifurcation Straps) : (efault) x - X PEG interface : PEG x x bifurcation enableddisabled : Reserved - (evice function disabled ; function enabled) : x,x,x - evice functions and enabled FG RESERVE (,) PM_THRMTRIP# R /F_ Q MMT.evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners..U/V/XR_ Q NW *P_ PROJET : hief River Size ocument Number Rev SN/IV / Quanta omputer Inc. ate: Wednesday, February, Sheet of

8 R.V R R () SUSK# SUSWRN# R () XP_RST# R (,,) IMVP_PWRG R () PH_PWROK_E (,,,,,,) _SYS_PWRG () PM_RM_PWRG () RSMRST# () SUSWRN# () E_PWRTN# () _PRESENT PT/PPT (MI,FI,PM) MI System Power Management FI R.K_ INT_EIK V R.K_ INT_EIT U () MI_RXN MIRXN FI_RXN J FI_TXN () () INT_VS_ON () MI_RXN E MIRXN FI_RXN Y FI_TXN () () INT_VS_VEN () MI_RXN G MIRXN FI_RXN E FI_TXN () () MI_RXN G MIRXN FI_RXN H FI_TXN () () INT_VS_RIGHT FI_RXN FI_TXN () INT_EIK () MI_RXP E MIRXP FI_RXN J FI_TXN () () INT_EIK INT_EIT () MI_RXP MIRXP FI_RXN G FI_TXN () () INT_EIT () MI_RXP J MIRXP FI_RXN G FI_TXN () () MI_RXP J V R.K_ MIRXP G R.K_ FI_RXP FI_TXP () () MI_TXN W MITXN FI_RXP FI_TXP () VS_IG () MI_TXN W F R I@.K/F_ MITXN FI_RXP FI_TXP () () MI_TXN MITXN FI_RXP G FI_TXP () T () MI_TXN V MITXN FI_RXP E FI_TXP () FI_RXP G FI_TXP () () MI_TXP Y MITXP FI_RXP J FI_TXP () () MI_TXP Y MITXP FI_RXP H FI_TXP () () MI_TXP Y MITXP INT_TXKOUTN () MI_TXP U MITXP () INT_TXKOUTN FI_INT INT_TXKOUTP FI_INT W FI_INT () () INT_TXKOUTP J FI_FSYN INT_TXOUTN MI_ZOMP FI_FSYN V FI_FSYN () () INT_TXOUTN INT_TXOUTN () INT_TXOUTN./F_ MI_OMP G FI_FSYN INT_TXOUTN MI_IROMP FI_FSYN FI_FSYN () () INT_TXOUTN /F_ MIRIS H FI_SYN MIRIS FI_SYN V FI_SYN () INT_TXOUTP () INT_TXOUTP FI_SYN INT_TXOUTP FI_SYN FI_SYN () () INT_TXOUTP INT_TXOUTP () INT_TXOUTP SWVREN *_S SWVRMEN *_ SUSK#_R SUSK# PWROK E PWROK () SW XP_RST# K PIE_WKE#_ R *_S SYS_RESET# WKE# PIE_WKE# (,) /J_ SYS_PWROK P V N KRUN# P/V/XR/%_ SYS_PWROK KRUN# / GPIO PWROK_R PWROK V_S SUS_STT# / GPIO G T R *_S *_S V_S N T R *_ PWROK SUSK / GPIO INT_RT_U () INT_RT_U T INT_RT_GRE () INT_RT_GRE PM_RM_PWRG V_S INT_RT_RE RMPWROK SP_S# / GPIO () INT_RT_RE T RSMRST# RSMRST# SP_S# H SP_S# () () INT_K () INT_T T SUSWRN# K SUSWRN#/SUSPWRNK/GPIO V_S SP_S# F SP_S# () () INT_RT_HSYN () INT_RT_VSYN E PWRTN# SP_# G T _IREF _PRESENT H PRESENT / GPIO SW SWSP_SUS# G SP_SUS# () R PM_TOW# E V_S PMSYNH P PM_SYN () K/_ TOW# / GPIO J M P T K T P F F E E K K N M K J N M K J F F H H F F H H F F N P T T M M M T T PT/PPT (VS,I) U _KTEN SVO_TVKINN _V_EN SVO_TVKINP _KTT SVO_STN SVO_STP K T SVO_INTN SVO_INTP _TR_K _TR_T V_IG SVO_TRK V_VG SVO_TRT V_VREFH V_VREF P_UXN P_UXP P_HP VS_K# VS_K P_N P_P VS_T# P_N VS_T# P_P VS_T# P_N VS_T# P_P P_N VS_T P_P VS_T VS_T VS_T P_TRK P_TRT VS_K# VS_K P_UXN P_UXP VS_T# P_HP VS_T# VS_T# P_N VS_T# P_P P_N VS_T P_P VS_T P_N VS_T P_P VS_T P_N P_P RT_UE P_TRK RT_GREEN P_TRT RT_RE P_UXN RT K P_UXP RT T P_HP P_N RT_HSYN P_P RT_VSYN P_N P_P P_N _IREF P_P RT_IRTN P_N P_P PT_PPT_Rev_p VS igital isplay Interface RT P P M M P P P INT_HMI_S () M INT_HMI_S () T T T INT_HMI_HP_Q () V INT_HMI_TXN_ I@.U/V/XR_ V INT_HMI_TXP_ I@.U/V/XR_ V INT_HMI_TXN_ I@.U/V/XR_ V INT_HMI_TXP_ I@.U/V/XR_ UINT_HMI_TXN_ I@.U/V/XR_ UINT_HMI_TXP_ I@.U/V/XR_ V INT_HMI_TXN_ I@.U/V/XR_ V INT_HMI_TXP_ I@.U/V/XR_ P P P P T Y Y Y Y M M T T H F E F E J G INT. P INT. HMI INT_HMI_TXN () INT_HMI_TXP () INT_HMI_TXN () INT_HMI_TXP () INT_HMI_TXN () INT_HMI_TXP () INT_HMI_TXN () INT_HMI_TXP () PM_RI# RI# V_S SP_N# / GPIO K R place close to PH PT_PPT_Rev_p R I@/F_ INT_RT_U R R I@/F_ INT_RT_GRE I@/F_ INT_RT_RE PH Pull-high/low(G) V KRUN# R.K/J_ XP_RST# R K_ PM_RI# SUSWRN# PM_TOW# R R R R V_S K/J_ K/J_.K/J_ *.K/J_ V_S_SW V_RT R K/J_ SWVREN V_S *.U/V/XR_ R */J_ (,,) IMVP_PWRG () PH_PWROK_E U *TSHFU SYS_PWROK RSMRST# PWROK_R R R *K_ K_ PIE_WKE# R *K/J_ V_SUS _PRESENT R *K/J_ V_S_SW FI_INT R E@K_ PM_RM_PWRG R PIE_WKE#_ R /F_ V_SUS K/J_ V_S On ie SW VR Enable High = Enable (efault) ow = isable FI_FSYN FI_FSYN FI_SYN FI_SYN R R R R E@K_ E@K_ E@K_ E@K_.evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Quanta omputer Inc. PROJET : hief River Size ocument Number Rev PT/PTT / Wednesday, February, ate: Sheet of

9 RT ircuitry(rt) VPU V_S PH SPI (G) PH Strap Table Pin Name SPKR mils V_RT_ R R PI_GNT# / GPIO INTVRMEN R K/J_ MI GNT# / GPIO J S MI ON -T--K () VPG () Z_SYN V_RT K/F_ PH_SPI_S# K/F_ PH_SPI_SO V_S R.K_ V R mils MXMI-G: KEFPZ WXVSSIG: KEZPN R R () F_S#_PH () F_SI_PH () SK_PH () S_PH /J_ M_ R R U/.V/XR_ Strap description No reboot mode setting Top-lock Swap Override K/J_ U /S V O /HO /WP K I WQVSSIG K/J_ For NPE Using Integrated.V VRM enable oot IOS Selection [bit-] R R R R R.U/V/XR_ K/J_ PH_SPI_K PH_SPI_SI *_S PH_SPI_S# *_S PH_SPI_SO *_S PH_SPI_K *_S PH_SPI_SI Sampled PWROK PWROK WYS PWROK U/.V/XR_ U/.V/XR_ V_S J *P_ Z_SYN_R Q N *_ RT_RST# *SHORT_ P SRT_RST# R R R = Setting to No-Reboot mode = "top-block swap" mode = efault (weak pull-up K) Should be always pull-up GNT# onfiguration = efault (weak pull-down K) GNT#.K_ K/F_ K/F_ () Z_ITK () Z_RST# () Z_SOUT () Z_SOUT_R V_S P/V_ P/V_ oot ocation Y Y/.K G(QTE) G(SEG) V_RT R.KHZ *P/V_ R () SPKR R () Z_SIN R V_RT R M/J_ M/J_ /J_ /J_ /J_ HK/HK note R R efault weak pull-up on GNT/# [Need external pull-down for P IOS] SM_INTRUER# PH_INVRMEN SPKR RT_X RT_X RT_RST# SRT_RST# Z_ITK_R Z_SYN_R SPKR Z_RST#_R Z_SOUT_R TP PH_JTG_TK_R PH_JTG_TMS_R PH_JTG_TI_R PH_JTG_TO_R PH_SPI_K PH_SPI_S# PH_SPI_SI PH_SPI_SO *K_ TP K/J_ PT/PPT (H,JTG,ST) G K N T K E G PI_GNT# () PH_INVRMEN U RT IH ST P ST G H_OK_EN# / GPIO V N H_OK_RST# / GPIO V_S J H K H T Y T V U RTX RTX RTRST# SRTRST# INTRUER# INTVRMEN H_K H_SYN SPKR H_RST# H_SIN H_SIN H_SIN H_SIN H_SO JTG_TK JTG_TMS JTG_TI JTG_TO SPI_K SPI_S# SPI_S# SPI_MOSI SPI_MISO PT_PPT_Rev_p JTG SPI FWH / FWH / FWH / FWH / FWH / FRME# RQ# E V RQ# / GPIO K SERIRQ STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STRXN STRXP STTXN STTXP STIOMPO STIOMPI STROMPO V M M P P M M P P H H F F Y Y Y Y Y Y H STE# P V STGP / GPIO V V STGP / GPIO P PH_RQ# PH_RQ# SERIRQ ST_TXN_ ST_TXP_ ST_TXN_ ST_TXP_ ST_OMP ST_RIS R GPIO S_IT TP TP ST_OMP R STOMPI STRIS R P_ (,) P_ (,) P_ (,) P_ (,) P_FRME# (,) SERIRQ ().U/V/XR_.U/V/XR_.U/V/XR_.U/V/XR_./F_./F_ /F_ ST_T# () V_S.V ST_RXN () ST_RXP () ST_TXN () ST_TXP () ST_RXN () ST_RXP () ST_TXN () ST_TXP () H O PH JTG ebug (G) GPIO H_SO F_TVS oot IOS Selection [bit-] Flash escriptor Security MI/FI Termination voltage PWROK PWROK PWROK SPI P = efault (weak pull-down K) = Enabled = Set to Vss for Ivy ridge = Set to Vcc for Sandy ridge (weak pull-down K) * TP TP R R S_IT Z_SOUT_R.K_.V K_ S_IT () NV_E () H_SN_IV# () HR/R: PROSE# R /J_ R /F_ R /F_ R /F_ R /F_ R /F_ R /F_ PH_JTG_TMS_R PH_JTG_TI_R PH_JTG_TK_R PH_JTG_TO_R GPIO H_SYN On-die P Voltage Regulator On-ie P VR Voltage Select RSMRST# RSMRST = isable = Enable (efault) = Support by.v (weak pull-down) = Support by.v V_S TP R K_ P_OVR_EN () Z_SYN_R SERIRQ GPIO R R.K/J_ K_.evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. V Quanta omputer Inc. PROJET : hief River Size ocument Number Rev PT/PPT / ate: Wednesday, February, Sheet of

10 PT/PPT (PI,US,NVRM) PT/PPT (PI-E,SMUS,K) U US. V () S_IT () PI_GNT# () ST_O_# TP *P/V/NPO_ K_PI_F R R () K_PI_P *P/V/NPO_ R () K_PI_E *P/V/NPO_ () () () () /J_ /J_ /J_ R R R US_RX US_RX- US_TX- US_TX PI_PIRQ# PI_PIRQ# PI_PIRQ# PI_PIRQ# MP_PWR_TR# ST_O_# EXTTS_SNI_RV_PH EXTTS_SNI_RV_PH PI_PME# PI_PTRST# K/J_ K/J_ K/J_ K_PI_F_R K_PI_P_R K_PI_E_R G J H J G H H K K N H H M M Y K M Y G E E J E F G V U Y U Y V W K K H G E E F G G K H H J K H UE TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP TP USRn USRn USRn USRn USRp USRp USRp USRp USTn USTn USTn USTn USTp USTp USTp USTp RSV PIRQ# PIRQ# PIRQ# PIRQ# REQ# / GPIO V REQ# / GPIO V REQ# / GPIO V GNT# / GPIO V GNT# / GPIO V GNT# / GPIO V PI PIRQE# / GPIO V PIRQF# / GPIO V PIRQG# / GPIO V PIRQH# / GPIO V PME# PTRST# KOUT_PI KOUT_PI KOUT_PI KOUT_PI KOUT_PI PT_PPT_Rev_p US.(Port ~ ) US V_S V_S V_S V_S V_S V_S V_S V_S RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV RSV USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USPN USPP USRIS# USRIS O# / GPIO O# / GPIO O# / GPIO O# / GPIO O# / GPIO O# / GPIO O# / GPIO O# / GPIO Y V U G T U T T T Y T V V E F V V T Y T F K H E N M K G E K G E K O O# O# O# O# O# O# O# O# US US. US US Ports / disable in sku. US_IS US_O# US_O# US_O# US_O# US_O# US_O# US_O# US_O# USP- () USP () USP- () USP () USP- () USP () USP- () USP () US Port US US USP- () USP () WiMX luetooth USP- () USP () amera R./F_ US_O# () US_O# () US_O# () US_O# () N N N Floater O# (not used) EHI EHI WN () () ard () () () PIE_RXN () PIE_RXP.U/V/XR_ () PIE_TXN.U/V/XR_ () PIE_TXP PIE_RXN_R PIE_RXP_R.U/V/XR_ PIE_TXN_R.U/V/XR_ PIE_TXP_R () PIE_RXN_N () PIE_RXP_N N.U/V/XR_ () PIE_TXN_N.U/V/XR_ () PIE_TXP_N WN () ard N G J PIE_TXN_ V PIE_TXP_ U E F PIE_TXN_N_ PIE_TXP_N_ Y G J PIE_TXN_N_ V PIE_TXP_N_ U F E Y G H Y J G U V G J Y E W Y () K_PIE_WNN Y () K_PIE_WNP Y PIE_KREQ_WN# PIE_KREQ_WN# J () K_PIE_RN () K_PIE_RP PIE_REQ_R# () PIE_REQ_R# M PIE_KREQ_M# V Y Y PIE_KREQ_US# Y Y PIE_KREQ# V V PIE_KREQ# PERN PERP PETN PETP V_S KOUT_PIEN KOUT_PIEP PIEKRQ# / GPIO V_S V V V_S V_S V_S KOUT_PEG N KOUT_PEG P K_PEG_REQ# E PEG KRQ# / GPIO V_S () K_PIE_NN V KOUT_PIEN () K_PIE_NP V KOUT_PIEP PIE_KREQ_N# () PIE_KREQ_N# T PIEKRQ# / GPIO V KOUT_PIEN V KOUT_PIEP K_PIE_REQ# K PIEKRQ# / GPIO K KOUT_ITPXP_N K KOUT_ITPXP_P PT_PPT_Rev_p PERN PERP V_S SMERT# / GPIO PETN PETP SMK PERN SMT PERP PETN PETP V_S SMERT# / GPIO PERN PERP SMK PETN PETP SMT PERN PERP PETN PETP PERN PERP PETN PETP PERN PERP PETN PETP PERN PERP PETN PETP V_S SMERT# / PHHOT# / GPIO V_S SMK / GPIO V_S SMT / GPIO PI-E* KOUT_PIEN KOUT_PIEP PIEKRQ# / GPIO KOUT_PIEN KOUT_PIEP PIEKRQ# / GPIO KOUT_PIEN KOUT_PIEP PIEKRQ# / GPIO KOUT_PIEN KOUT_PIEP PIEKRQ# / GPIO KOUT_PIEN KOUT_PIEP PIEKRQ# / GPIO OKS SMUS ontroller ink V_S V V V_S V FEX OKS V _K _T _RST# PEG KRQ# / GPIO KOUT_PEG N KOUT_PEG P KOUT_MI_N KOUT_MI_P KOUT_P_N KOUT_P_P KIN_MI_N KIN_MI_P KIN N KIN P KIN_OT_N KIN_OT_P KIN_ST_N KIN_ST_P REFKIN KIN_PIOOPK XT_IN XT_OUT XK_ROMP KOUTFEX / GPIO KOUTFEX / GPIO KOUTFEX / GPIO KOUTFEX / GPIO E SMERT# H SM_PH_K SM_PH_T RMRST_NTR_PH RMRST_NTR_PH () SM_ME_K G SM_ME_T SMERT#_R E SM_ME_K M SM_ME_T M T P M PIE_KREQ_PEG# K_PIE_VGN () K_PIE_VGP () V K_PU_KN () U K_PU_KP () M M F K_UF_PIE_GPN E K_UF_PIE_GPP J K_UF_KN G K_UF_KP G K_UF_REFKN E K_UF_REFKP K K_UF_REFSSKN K K_UF_REFSSKP K K_PH_M H K_PI_F V XT_IN V XT_OUT Y XK_ROMP R K F TP H K TP R K/J_ R K/J_ R K/J_ R K/J_ R K/J_ R K/J_ R K/J_ R K/J_ R R M/J_./F_ For N For E K/J_ P_ Y MHz/ppm/PF Y/M/ppm/PF G(HHE) GE(TX) P_.V PTRST#(G) V_S E@.U/V/XR_ PI_PTRST# PTRST_IS# () U R E@TSHFU R K/J_ E@K/J_ R *_S PTRST# (,,,) *.U/V/XR_ PI/USO# Pull-up(G) V_S R US_O# US_O# US_O# US_O# US_O# US_O# US_O# US_O# KX V PI_PIRQ# R.K/J_ PI_PIRQ# R.K/J_ PI_PIRQ# R.K/J_ PI_PIRQ# R.K/J_ ST_O_# R K/J_ EXTTS_SNI_RV_PH R K/J_ EXTTS_SNI_RV_PH R K/J_ MP Switch ontrol ow = MP ON MP_PWR_TR# High = MP OFF (efault) K_REQ/Strap Pin(G) V_S R K/J_ PIE_KREQ_WN# R K/J_ PIE_KREQ_US# R K/J_ PIE_KREQ# R K/J_ PIE_KREQ# R K/J_ K_PEG_REQ# R K/J_ PIE_KREQ_N# R K/J_ K_PIE_REQ# V R K/J_ PIE_REQ_R# R K/J_ PIE_KREQ_M# V_S R I@K/J_ PIE_KREQ_PEG# R E@K/J_ SMus/Pull-up(G) Q V_S R.K_ V_S SM_ME_K (,,) MK V_S R.K_ V_S SM_ME_T (,,) MT NW Q V R.K/J_ V R.K_ SM_PH_K V_S SM_RUN_K (,,) V R.K/J_ V R.K_ SM_PH_T SM_RUN_T (,,) MP_PWR_TR# R R *K_ K/J_ V V_S NW R K/J_ RMRST_NTR_PH R R R R K/J_ SMERT#.K_ SM_ME_K.K_ SM_ME_T K/J_ SMERT#_R Quanta omputer Inc. PROJET : hief River Size ocument Number Rev PT/PPT /.evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. Wednesday, February, ate: Sheet of

11 () E_EXT_SMI# () E_EXT_SI# () PH_GPIO Need heck () RIT_TEMP_REP# () K_PRESENT# V V_S R E_EXT_SMI# OR_I E_EXT_SI# R N_ISE# OR_I OR_I IOS_RE PH_GPIO () P_OVR_EN STP_PI# K/F_ K/J_ HOST_ERT#_R GPIO FI_OVRVTG MFG_MOE GPU_PRSNT# TEST_SET_UP RIT_TEMP_REP# SV_ET TP OR_I PT/PPT (GPIO,VSS_NTF,RSV) T H E G U T E E P K K V M N M V V E E F F UF MUSY# / GPIO TH / GPIO TH / GPIO TH / GPIO GPIO V_S V_S SW V V V V N_PHY_PWR_TR / GPIO GPIO STGP / GPIO TH / GPIO SOK / GPIO GPIO GPIO GPIO V V V_S STP_PI# / GPIO GPIO V STGP / GPIO STGP / GPIO SO / GPIO V_S V V_S V V V V STOUT / GPIO STOUT / GPIO V V V GPIO V V V V STGP / GPIO / TEMP_ERT# GPIO VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ PT_PPT_Rev_p NTF V_S PU/MIS TH / GPIO TH / GPIO TH / GPIO TH / GPIO GTE PEI RIN# PROPWRG THRMTRIP# INIT_V# F_TVS TS_VSS TS_VSS TS_VSS TS_VSS N_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ VSS_NTF_ P U P Y Y T Y H K H K P G G H H J J J J J J E E F F R R E_RIN# PH_THRMTRIP#.K/F_.K/F_ SV_SET_UP High = Strong (efault) GPIO Pull-up/Pull-down(G) N_ISE# R.K/F_ E_EXT_SMI# R K/J_ E_EXT_SI# R K/J_ R E_GTE () E_RIN# () H_PWRGOO () NV_E () V /J_ PM_THRMTRIP# (,) TEST_SET_UP R K/J_ V V_S STP_PI# E_GTE E_RIN# RIT_TEMP_REP# PH_GPIO R "/HK/HK "/HK/HK "/HK/HM oard I (VRM Vendor) R(High) R(ow) " PS R(High) R(ow) *K_ R R R R R R SV_ET oard I Stuff R(High) R(ow) Samaung() No Stuff oard I G Stuff No Stuff K/J_ *K_ K/J_ K/J_ K/J_ K_ R V_S R(High) R(low) oard I "/HK/HM V Hynix() No Stuff Stuff M " PS G G No Stuff Stuff K/J_ R *K/J_ OR_I R K_ R *K/J_ OR_I R *K_ R *K/J_ OR_I R *K/J_ R K/J_ OR_I R *K/J_ V V_S HOST_ERT#_R R K/J_ P SKU iscrete UM Intel ME rypto Transport ayer Security (TS) cipher suite ow = isable (efault) R(Pull High) R(Pull ow) Stuff No Stuff No Stuff Stuff R FI TERMINTION VOTGE OVERRIE K/J_ FI_OVRVTG R *K/F_ GPIO R *K/F_ IOS_RE OW - Tx, Rx terminated to same voltage V V V MI TERMINTION VOTGE OVERRIE ow = Tx, Rx terminated to same voltage ( oupling Mode) (EFUT) R R IOS REOVERY K/J_ *_ High = isable (efault) ow = Enable High = Enable MFG-TEST MFG_MOE R K/J_.evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. V V R E@K/J_ GPU_PRSNT# R I@K/J_ Quanta omputer Inc. PROJET : hief River Size ocument Number Rev PT/PPT / ate: Wednesday, February, Sheet of

12 .V PH(G) PT/PPT (POWER) PT/PPT (POWER) UG POWER V_S_SW UJ POWER.V VccORE =. (mils) (VccIO =. (mils)) V U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/V_.V.V U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_.U/V/XR_ VVRM:.V (estop).v (Mobile).V.V.V F F G G G G G G J J J J J N J N N N N N P P P P T N N H P G P U VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VORE[] VIO[] VPEXP VIO[] VIO[] VIO[] VIO[] VIO[] VIO[] VIO[] VIO[] VIO[] VIO[] VIO[] VIO[] V_[] VVRM[] VccFIP VIO[] VMI[] PT_PPT_Rev_p V ORE VIO FI RT VS FT / SPI MI HVMOS V VSS VVS VSSVS VTX_VS[] VTX_VS[] VTX_VS[] VTX_VS[] V_[] V_[] VVRM[] VMI[] VKMI VFTERM[] VFTERM[] VFTERM[] VFTERM[] VSPI U U K K M M P P V V T T G G J J m(mils) V_V m(mils) V_VVS m(mils).v_vtx_vs.v V VMI = m(mils) VKMI = m(mils) VPNN = m(mils).v VSPI = m(mils) V.U/V/XR_ U/.V_ U/.V/XR_ V_S U/.V/XR_.U/V/XR_.U/V/XR_ R.U/V/XR_ U/.V/XR_ ohm/_ I@.U/V/XR_/E@_ R U/.V/XR_.V.V I@_ I@_ I@U/.V/XR_ I@.U/V_ I@.U/V_/E@_.U/V/XR_ V V.V.V m(mils).v m(mils).v VIFFKN= m(mils) VSS= m(mils) V_S V_WKE.V.V EEP_EN.V R R R.V V.V uh/m *_S *_ Q N uh/m *_S VSW_= m V_S_SW.U/V/XR_ U/.V/XR_ U/.V/XR_ V_KF R *_S VP_PY VccSW =. (mils) R U/.V/XR_ U/.V/XR_ U/.V/XR_.V_V P U/.V/XR_ U/.V/XR_ U/.V/XR_.V_V P U/.V/XR_ U/.V/XR_ U/.V/XR_ *_S U/.V/XR_ U/.V/XR_.U/V/XR_ U/.V/XR_ U/.V/XR_.V_VIFFKN U/.V/XR_ U/.V/XR_ V.V_SSV U/.V/XR_ VRTEXT T V T H W W W W W W W N Y F F F F G G VK VSW_ PSUSYP V_[] VPMI VIO[] PSUS[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] VSW[] PRT VVRM[] VP VP VIO[] VIFFKN[] VIFFKN[] VIFFKN[] VSS lock and Miscellaneous ST PI/GPIO/P US VIO[] VIO[] VIO[] VIO[] VIO[] VSUS_[] VSUS_[] VSUS_[] VSUS_[] VSUS_[] VIO[] VREF_SUS PSUS[] VSUS_[] VREF VSUS_[] VSUS_[] U/.V/XR_ V_S_PH_VREFSUS V_PH_VREF V.V V_S V_S VSUS_ = m(mils) VPORE = m(mils) V.U/V/XR_.U/V/XR_.U/V/XR_.U/V/XR_.V VVRM= m(mils).v.v U/.V/XR_ V_S R /F_ V VREFSUS=m R /F_ V_S V VREF= m V RV-.U/V/XR_ V_S VSUS_ = m(mils).u/v/xr_ VSST EEP STNY EEP_EN () m(mils).v VRT<m(mils) V_RT.U/V/XR_.U/V/XR_.U/.V_.U/V/XR_.U/V/XR_.U/V/XR_ U/.V/XR_.V VME =.(mils) V_S VSUSH= m(mils).u/v/xr_ *U/V/XR_ () EEP_E_EN R M_ Q N VSUS_[] VSUS_[] V_[] V_[] V_[] V_[] VIO[] VIO[] VIO[] VIO[] VPST VVRM[] VIO[] VIO[] VIO[] N P P T T T T V V P T M N N P N N P P W T J F H H F K F.U/V/XR_ U/.V/XR_.U/.V_ U/.V/XR_ RV- U/.V/XR_ V PSST V_S_SW VPU R R R M_ M EEP_EN T PSUS[] V PSUS[] J V_PRO_IO VRT PT_PPT_Rev_p RT PU MIS H VSW[] VSW[] VSW[] VSUSH T V T P P/V/XR_ Q NW.evel Environment-related Substances Should Never be Used. Quanta omputer Inc. PROJET : hief River Size ocument Number Rev PT/PPT /.Recycled Resin and oated Wire should be procured from Green Partners. Wednesday, February, ate: Sheet of

13 PT/PPT ().evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. PT/PPT / Wednesday, February, hief River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : UH PT_PPT_Rev_p F F F F F F F F F F F F F F F G G G G H H H H H H H H J J J K K K K K K K M M M M M M M N N N N P P P P P P P P P R R T T T T T T T T T T T U U V V V V V V V V W W W W W W W W W W W V Y Y Y E P H F J J E T T M VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] UI PT_PPT_Rev_p Y Y Y Y E E E F F F F F F F F F F F F G G G G G H H H H H H H H H H H K M P M M M M M M M M M M M N P P P T P P P P R R T T T T W T T T V V V V V V V V V V W W E E G G G G G G H H W W W Y Y Y Y Y Y G N J N H H H H H H F K K H K K E G G H T G G P F H M P P E G J VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[] VSS[]

14 . VREF Q M Solution Place these aps near So-imm. / Remove ohm to RUV Type RUV Type.evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. RIII SO-IMM- Wednesday, February, hief River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : M M M M M M M M M M M M M M M M SM_RUN_K SM_RUN_T M QSP M QSP M QSP M QSP M QSP M QSP M QSP M QSP M QSN M QSN M QSN M QSN M QSN M QSN M QSN M QSN 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 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 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 Q SMR_VREF_Q_M SMR_VREF_Q_M IMM_S IMM_S SMR_VREF_Q SMR_VREF_IMM SMR_VREF_Q SMR_VREF_IMM SMR_VREF_Q_M () R_RMRST# (,) M [:] () M S# () M S# () M S# () M S# () M S# () M KP () M KN () M KP () M KN () M KE () M KE () M S# () M RS# () M WE# () SM_RUN_K (,,) SM_RUN_T (,,) M QSP[:] () M QSN[:] () M OT () M OT () M Q[:] ().V_SUS V.V_R_VTT.V_SUS.V_SUS V.V_R_VTT.V_SUS U/.V/XR_ U/.V/XR_.U/V/XR_ U/.V/XR_.U/.V/XR_ R K/F_ P R SRM SO-IMM (P) ON R-IMM_H /P /# S# S# K K# K K# KE KE S# RS# WE# S S S S OT OT M M M M M M M M QS QS QS QS QS QS QS QS QS# QS# QS# QS# QS# QS# QS# QS# Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q R K/F_ U/.V/XR_ R K/J_ R K/F_ U/.V/XR_ P R SRM SO-IMM (P) ON R-IMM_H V V V V V V V V V V V V V V V V V V VSP N N NTEST EVENT# RESET# VREF_Q VREF_ VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VTT VTT.U/V/XR_ U/.V/XR_ R *_S.U/V/XR_ *U/.V_ R K/F_ U/.V/XR_.U/V/XR_ P/V_.U/V/XR_ U/.V/XR_ U/.V/XR_ R *_ U/.V/XR_ R K/J_ U/.V/XR_.U/V/XR_ *U/V_ U/.V/XR_ *U/.V/XR_ U/.V/XR_

15 . R_RVS(R) VREF Q M Solution Place these aps near So-imm. RUV Type RUV Type.evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. RIII SO-IMM- Wednesday, February, hief River Size ocument Number Rev ate: Sheet of Quanta omputer Inc. PROJET : M M M M M M M M M M M M M M M M M QSP M QSP M QSP M QSP M QSP M QSP M QSP M QSP M QSN M QSN M QSN M QSN M QSN M QSN M QSN M QSN 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 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 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 Q IMM_S IMM_S SMR_VREF_IMM SMR_VREF_Q SMR_VREF_Q_M SMR_VREF_Q_M SMR_VREF_IMM SMR_VREF_Q_M () R_RMRST# (,) M [:] () M S# () M S# () M S# () M S# () M S# () M KP () M KN () M KP () M KN () M KE () M KE () M S# () M RS# () M WE# () SM_RUN_K (,,) SM_RUN_T (,,) M OT () M OT () M QSP[:] () M QSN[:] () M Q[:] ().V_SUS V.V_R_VTT V.V_SUS SMR_VREF_Q V.V_R_VTT.V_SUS.V_SUS U/.V/XR_ R K/J_ U/.V/XR_ R *_S P R SRM SO-IMM (P) ON R-IMM_H /P /# S# S# K K# K K# KE KE S# RS# WE# S S S S OT OT M M M M M M M M QS QS QS QS QS QS QS QS QS# QS# QS# QS# QS# QS# QS# QS# Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q U/.V/XR_ *U/.V_ R K/J_.U/V/XR_ U/.V/XR_ U/.V/XR_ U/.V/XR_.U/.V/XR_ U/.V/XR_ R K/F_ U/.V/XR_.U/V/XR_ U/.V/XR_ U/.V/XR_ P R SRM SO-IMM (P) ON R-IMM_H V V V V V V V V V V V V V V V V V V VSP N N NTEST EVENT# RESET# VREF_Q VREF_ VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS VTT VTT.U/V/XR_.U/V/XR_ U/.V/XR_ U/.V/XR_.U/V/XR_ R *_ U/.V/XR_ R K/F_ R K/F_ R K/F_ U/.V/XR_.U/V/XR_

16 ** Straping Pin,an not pull low. Note the input leakage current to the strap pins must be less than u. Since ESI is O, no need for a back-drive protection diode on this signal. ut note there is internal PU in chipset at default K K K K K K VPU *U/.V/XR_.U/V/XR_.U/V/XR_.U/V/XR_.U/V/XR_.U/V/XR_ K *U/.V/XR_ K.U/V/XR_ K RV- VPU K.U/V/XR_ () K_PI_E () RSMRST# Magnetic id Switch VPU E-MOS :/ENGR PROIFI : /PT- : /HNTR-G VPU () VPG KR KU IN K K K V K OUT E-MOS KR I# () FUN_WE# () Z_SOUT_R () _PRESENT K/F_ () TT () TK PWROK RV- RSMRST# RV- K/F_ *P/V/NPO_ PH_PWROK_E RV- () E_GTE () SERIRQ () E_EXT_SMI# () E_EXT_SI# RSMRST# KR KR () F_SI_PH () S_PH () SK_PH () F_S#_PH () H_INTERRUPT () FN-SIG (,) IN (,) P_ (,) P_ (,) P_ (,) P_ (,) P_FRME# () MK_T () MT_T (,,) MK (,,) MT () _T () PROHOT () PWROK V () E_RIN# KR () MX () MX () MX () MX () MX () MX () MX () MX () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY () MY KR I# TT TK.K_ K/J_ *_S MK_T MT_T _SK _S MK MT PWROK K/F_ KU V /GPIOF /GPIOF /GPIOF /GPIOF RESET#/GPIOF K/GPIOF FRME#/GPIOF G/GPIO SERIRQ/GPIOF SMI#/GPIO ESI#/GPIO KRST#/GPIO GPIO/PWUREQ# F_SI/F_SIO F_SIO/F_SIO F_SK F_S# P SPI KSIN/GPIO/NTK KSIN/GPIO/NTMS KSIN/GPIO KSIN/GPIO KSIN/GPIO KSIN/GPIO KSIN/GPIO KSIN/GPIO NPE KSOUT/GPO/JENK#** KSOUT/GPIO/TK KSOUT/GPIO/TMS KSOUT/GPIO/TI KSOUT/GPO/JEN#** KSOUT/GPIO/TO KSOUT/GPIO/RY# KSOUT/GPIO KSOUT/GPIO KSOUT/GPO/SP_VIS# KSOUT/P_K/GPIO KSOUT/P_T/GPIO KSOUT/GPIO KSOUT/GPIO KSOUT/GPIO KSOUT/GPIO/XOR_OUT KSOUT/GPIO KSOUT/GPIO RY#/GPIO/PST TO/GPIO/PSK PST/GPIO PSK/GPIO PST/GPIO PSK/GPIO T/GPIO/IOX_IN_IO T/GPIO T/GPIO S/GPIO/NTK S/GPIO/NTMS S/GPIO S/GPIO S/GPIO S/GPIO S/GPIO S/GPIO GPIO/EXTK V V V V V I/O Expansion SM US PS/ V / / PWM K/ GPIO IR PEI KR /GPIO /GPIO /GPIO /GPIO /GPIO /GPIO /GPIO /GPIO /GPIO /GPIO /GPIO /GPIO *_S _PWM/GPIO _PWM/GPIO _PWM/GPIO _PWM/GPIO H_PWM/GPIO G_PWM/GPIO E_PWM/GPIO F_PWM/GPIO PP#/GPIO KRUN#/GPIO GPIO/HGPIO T/GPIO TMS/S/GPIO **SOUT_R/GPO/TRIST# TI/S/GPIO IRRX/GPIO IRRXM/S/TRST#/GPIO SIN_R/IRRXM/GPIO PEI VTT TK/S/GPIO/Thermal larm GPIO/IOX_OUT **TEST#GPO/IOX_SH **XORTR#GPO/IOX_SK KOUT/GPIO/IOX_IM_IO T_PRS# S_ON GPIO GPIO EEP_E_EN GPIO/F_WP# GPIO GPIO/F_WP# GPIO KR.K_ GPIO GPIO TT_RST# GPIO/F_WP# GPIO SPI_I/GPIO **SPI_O/GPO SPI_SK/GPIO VREF V_POR# VORF _SYS_PWRG KR.K_ VPU V POWER ON RESET K KR _T () KR _ K MTV () ISENS_IN () T_PRS# () FUN_SSIST# () NSWON# () SP_S# () T_PEN () SP_SUS# () VFN () H_UNO () RIT_TEMP_REP# () E_WKE_ON () K_KIGHT () NUME# () PSE# () SROE# () SEEPE# () TE# () PWRE# () RF_E# () WN_E# () S_ON () SUSK# () SP_S# () EEP_E_EN () K SUS_ON (,,,) RUN_ON (,,,,,,) RUN_ON_V () *_S /- (,) TT_RST# PH_PWROK_E MPMUTE# () ISPON KR E@.K_ KR I@.K T () WN_RF_ON () PH_GPIO () E_PEI () KR KR.U/V/XR_ U/.V/XR_ O_PWEN () US_WKE# () T_E# () FUN_VIO# () RMRST_NTR_E () SUSWRN# () _SYS_PWRG (,,,,,,) KR K *_ *_S KR RV- K/F_ U/.V/XR_ *K/F_ KR KR VPU VPU KR *K_ E_PWRTN# ().V PIE_WKE# (,) IMVP_PWRG (,,) PH_PWROK_E () ISPON () EXT_VS_ON () INT_VS_ON () K/F_ *_ VPU KR K/F_ KU PGM US_HRG_ON () HGEN# ().evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. RSET VSS V RGNNF PIO S SK NVSS KR.K_ KR.K SK _SYS_PWRG S_ON TK TT VPU _S K *P/V/XR/%_ MTV ISENS_IN E_WKE_ON EEP_E_EN KR.K_ KR KR KR KR KR KR K K Quanta omputer Inc. PROJET : hief River Size ocument Number Rev NPE TT_I () K *P/V/XR/%_ KR KR KR KR.K_.K_.K_.K_.K_.K_ K/F_ K/F_ V V MK MT MK_T MT_T K/F_.U/V/XR_.U/V/XR_ K/F_ VPU ate: Wednesday, February, Sheet of V

17 () INT_RT_RE () EXT_RT_RE () INT_RT_GRE () EXT_RT_GRE () INT_RT_U () EXT_RT_U R R R R R R I@_ E@_ I@_ E@_ I@_ E@_ RT RT_R RT_G RT_ R /F_ V V ON.U/V/XR_.U/V/XR_ RT-R R R.K/F_.K/F_ R R V_HMI RT-G U.K_.K_ POY SWITH. V_RT RT-S F RT- RT-HS V HPT RT-VS RT-SK () EXT_K R I@_ RT-SK () INT_K R I@_ IN OUT RT-S () INT_T IN OUT VG () EXT_T R E@_.U/V/XR_ () EXT_RT_HSYN R I@_ HSYN_ HSYN_ R /F_ RT-HS () INT_RT_HSYN R I@_ VSYN_ SYN_IN SYN_OUT VSYN_ RT-VS () INT_RT_VSYN R /F_ R E@_ SYN_IN SYN_OUT () EXT_RT_VSYN VIEO_.U/.V_ VIEO_ YP VIEO_ I@P_ V_ M-/IPZ R /F_ V_VIEO I@P_ V_SYN R /F_ I@P_ V_RT I@MSN/E@FMKF-T I@MSN/E@FMKF-T I@MSN/E@FMKF-T P_ P_ P_ P_ P_ RT-R RT-G RT- E (,,,) SUS_ON V_SUS F FST,U/S R R *_ K/J_ POY SWITH() US amera Power EN FG UTWG-GTR _VS.U/V_ U V: I rush = /.ms I =. () INT_TXOUTN () INT_TXOUTP () INT_TXOUTN () INT_TXOUTP () INT_TXOUTN () INT_TXOUTP () EXT_TXOUTP () EXT_TXOUTN () EXT_TXOUTP () EXT_TXOUTN () EXT_TXKOUTP () EXT_TXKOUTN amera H specification VS_S(-xx) Voltage: Max..V ON urrent : Max. m ROUT ROUT- OP: m ~ m N VS enable ROUT V V ROUT- U MI_K P_.U/V/XR_ ROUT MI_T IN OUT P_ ROUT-.U/V/XR_ IN.U/V/XR_ RK R I@_ () INT_VS_VEN.U/.V_ RK- ON/OFF.U/V/XR_ () EXT_VS_VEN U/.V/XR PWR () ISPON USP- () amera TIGU--T/GTU *U/.V/XR () MI_K R USP () EXT_VS_RIGHT () MI _ R K/F_ () MI_T K/F_ F POY SWITH. V_EI V R I@_ INT_VS_RIGHT () U/.V/XR_ EXT_EIK () *P_ R I@_ INT_EIK () EXT_EIT () R I@_ V INT_EIT () *P_ RP RP RP RP RP RP I@X ROUT- ROUT ROUT- ROUT RP RK- () INT_TXKOUTN I@X U/.V/XR_ RK () INT_TXKOUTP U m V_WKE IN OUT _PWR U/.V/XR_ RP E@X ROUT () EXT_TXOUTP.U/V/XR_ ROUT- () EXT_TXOUTN ROUT- ROUT ROUT ROUT- ROUT ROUT- RK RK-.evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. I@X I@X E@X E@X E@X Quanta omputer Inc. PROJET : hief River Size ocument Number Rev RT/VS ate: Wednesday, February, Sheet of E

18 VMS () PIE_TXP_R () PIE_TXN_R () PIE_RXP_R () PIE_RXN_R M M () R_E# V () K_PIE_RP () K_PIE_RN () PIE_REQ_R# (,,,) PTRST# mil mil M M *_S.U/V/XR_ MU REFKP REFKN HSIP.U/V/XR_ PIE_RXP_R_ HSIN.U/V/XR_ PIE_RXN_R_ HSOP HSON MR *_S M M.U/.V_.U/V/XR_ x_# K_REQ# PERST# EEI EESK EES EEO V_R MR V_IN V_IN V V V V mil mil for individual trace M M V_ RTS.K/F_ V_ V_S RREF M M VREF.U/.V_.U/V/XR_ V_S S_ S_ S_ S_ S_ S_ S_ S_ S_K S_M S_WP S_# MS_S MS_ MS_ MS_ MS_ MS_ MS_ MS_ MS_ MS_K MS_INS# ard_v ard_v *.U/.V_.U/V/XR_ M M.U/.V_.U/V/XR_ R_ST R_ST R_ST R_ST R_SK R_SM SWP S# MS_S_R MS_T_R MS_T_R MS_T_R MS_T_R MS_K_R MS_# VS VMS mil mil Near controller Near controller MS_S_R MR MS_K_R MR MS_T_R MR MS_T_R MR MS_T_R MR MS_T_R MR V V V M MR MR M MR M /F_ /F_ /F_ /F_ /F_ /F_ M MR P/V/XR_ *.K/F_ *.K/F_ P/V/XR_.K/F_ pf_ *P_ *K/F_ MS_S MS_K MS_T MS_T MS_T MS_T M mil VS M mil MS_# SM S# SWP *P_ SK MS_S MS_K MS_T MS_T MS_T MS_T M M ST ST ST ST U/.V/XR_ ON V M_# MS_S MS_K MS_SIO (T) MS_T MS_T MS_T VSS VSS.U/V/XR_ U/.V/XR_ ON S-P(V) S-P(M) S-P(#) S-P(WP) S-P(K) S-P(T) S-P(T) S-P(T) S-P(/T) S-P() S-P() S-P() Shield Shield Shield Shield MS_P(S-) R_SM R_SK R_ST R_ST R_ST R_ST MR MR MR MR MR MR /J_ /J_ /J_ /J_ /J_ /J_ SM SK ST ST ST ST S_P(SS-)/PNT(SSN--) M, K. T[..]: length matching <mil Quanta omputer Inc. PROJET : hief River Size ocument Number Rev.evel Environment-related Substances Should Never be Used. R.Recycled Resin and oated Wire should be procured from Green Partners. ate: Wednesday, February, Sheet of

19 HMI_TXP HMI_TXP HMI_TXP HMI_TXP R /F_ HMI_TXN R /F_ HMI_TXN R /F_ HMI_TXN R /F_ HMI_TXN RP () INT_HMI_TXP () INT_HMI_TXN RP () INT_HMI_TXP () INT_HMI_TXN RP () INT_HMI_TXP () INT_HMI_TXN RP () INT_HMI_TXP () INT_HMI_TXN RP () EXT_HMI_TXP () EXT_HMI_TXN RP () EXT_HMI_TXP () EXT_HMI_TXN () EXT_HMI_TXP () EXT_HMI_TXN RP () EXT_HMI_TXP RP () EXT_HMI_TXN I@X I@X I@X I@X E@X E@X E@X E@X HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN R _ R _ R _ R _ R _ R _ R _ R _ V Q N () INT_HMI_HP_Q () EXT_HMI_HP_Q () INT_HMI_S () EXT_HMI_S () INT_HMI_S () EXT_HMI_S R R R I@_ V V V_HMI R I@_ R I@_ R K/J_ (m) U TSHFU.K_.K_ Q V HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_TXP HMI_TXN HMI_S HMI_S V V (m) HMI_HP_ R K/F_ HMI_S HMI_S R R ON.K_ HMI Shield - Shield - Shield - K K Shield K- E N K T /E EOER V HP.K_ Shield Shield Shield Shield HMI_OP(-- ) RV- RV- V V NW THP O eside UIO JK H/W Thermal Protect THP O PU Thermal Sensor THP THP O GPU Thermal Sensor THP R R *K/J_ U R *K/F SET HYST V OT# OT *G/TMP *.U/V/XR_ */F_ O THP R K/J_ U SET HYST R V R I@K/F_/E@K/F_ OT# OT G/TMP.U/V/XR_ /F_ O R E@K/J_ U SET R E@K/F_ HYST R V OT E@G/TMP E@/F_ O OT# E@.U/V/XR_ O O RSET(kΩ)=.T.T..K K.K.K THP THP O eside H.U/V/XR_ THP OT# R.U/V/XR_ K/J_ Q TEU (,,,) SHN# IS SKU ocation of I Near PU sensor temp Near GFX sensor temp Near UIO sensor temp Temp R-Set R=.K R=.K R=.K Parts in OM.K.K.K Max Min R K/J_ U SET HYST R V OT OT# /F_ O R R K/J_ K/J_.U/V/XR_ Q N UM SKU ocation of I Near PU sensor temp Near UIO sensor temp Temp R-Set R=.K R=.K Parts in OM.K.K Max Min.... R K/F G/TMP Quanta omputer Inc. PROJET : hief River Size ocument Number Rev.evel Environment-related Substances Should Never be Used. HMI/Thermal I.Recycled Resin and oated Wire should be procured from Green Partners. ate: Friday, February, Sheet of

20 System State T_ X S S eep Standby S S ON TP/_S(-) T_ X T_ M to US board USPWR_P USPWR_P USPWR_P USP- () USP () USP- () USP () USP () USP- () (,,,) SUS_ON TPS / Truth Table OUT discharge, power switch OFF P,uto-detect(S/S/S,.) SP, US. mode(s,.) P, SPE. only(s/eep standby/s/s,.) P, ivider mode only(s/s/s,.) P (S,.) US attery harging Setting isable SP SP SP (VUS OFF) SP (VUS OFF) V_WKE SP (VUS OFF) V_WKE U/.V/XR_ V_WKE.U/V/XR_ V_SUS Enable P P P P P.U/V/XR_ K/J_ R mil SUS_ON_R USPWR_P U IN OUT IN OUT OUT EN O# US_O# () PMPG/SY (.) USPWR_P mil U IN OUT IN OUT SUS_ON_R OUT EN.U/V/XR_ O# US_O# () R PMPG/SY (.) USPWR_P mil U IN OUT IN OUT *_ SUS_ON_R OUT EN O# US_O# () PMPG/SY (.) SP : Standard ownstream Port P : harging downstream port P : edicated harging Port Enable/isable : setting by IOS () US_HRG_ON US_HG US_HG US_HG () _T () _T () _T mils () USP R R.U/V/XR_.U/V/XR_.U/V/XR_ R R USP_US- USP_US WM- USP_US_- USP_US_ K/F_ *K/F_ K/F_ R R R *_ USP_US_- USP_US_ US_RX- US_RX *WM- US_TX-_R US_TX_R US harger K/F_ K/F_ M_OUT P_OUT IIM_SE K/F_ IIM_ EN IIM_ IIM_ T R R T FUT# T U VOUT M_IN P_IN WKE *WM- TPS USPWR_P *.K/F_.K/_ US_O# () mils USPWR_P USP_US US_WKE# US. PORT USP_US- US_RX- US_RX US_TX-_R US_TX_R I/O V N I/O I/O VPU U/.V.U/V/XR_ USPWR_P I/O N I/O I/O Z-F.RG R K/F_ US_WKE# () ON US. ONN () US_RX- () US_RX () US_TX- () US_TX () USP- VUS - SSRX- SSRX SSTX- SSTX TPS- TPS- / Mode MOE IIM_SE S S SP X() X S S(Wake Enable) S(harger Mode) S X S P SP P X() S S S S P P X() X() ischarge ischarge IS X P:. only..evel Environment-related Substances Should Never be Used..Recycled Resin and oated Wire should be procured from Green Partners. US WKE No device plug(o) evice plug(switch Power) IIM_SE (I IMIT()= /R) HI I_IM_ O I_IM_ /.K=. Quanta omputer Inc. PROJET : hief River Size ocument Number Rev US/US harger ate: Thursday, February, Sheet of

Σχετικά έγγραφα

intel <MCH Processor> intel <PCH>

intel <MCH Processor> intel <PCH> IV@ For UM EV@ For Pure is. SP@ For special setting SPI@ For Optimus & UM special setting SPE@ For Pure is.special setting V@ For udio version setting V@ For udio version setting @G For G setting PIV@

Διαβάστε περισσότερα

DIS._eDP. edp N13P-GS N13P-GL N13M-GS PEG TX/RX GPU. Display P15~P19. DMI(x4) INT_LVDS INT_CRT. Display INT_HDMI USB3.0/2.0 USB3-2/USB2-1.

DIS._eDP. edp N13P-GS N13P-GL N13M-GS PEG TX/RX GPU. Display P15~P19. DMI(x4) INT_LVDS INT_CRT. Display INT_HDMI USB3.0/2.0 USB3-2/USB2-1. IS._eP OM IV@ : igpu EV@ : dgpu OP@ : Optimus O@ : iscrete only SP@ : Special SNP@: NPGS/GL IV@: UM GL@: NPGL GS@: NP/MGS ep on. P RIII-SOIMM RIII-SOIMM P, INT._eP ual hannel R III 0//00 MHZ ep IM FI IVY

Διαβάστε περισσότερα

Tablet SYSTEM BLOCK DIAGRAM

Tablet SYSTEM BLOCK DIAGRAM VER : OM P/N escription Tablet SYSTEM LOK IGRM Memory own Max. G P M* R III /00 MHZ IM FI Ivy ridge G 0 W P,,,, MI ep US- ep onn. TOUH PNEL P MI(x) mst - H P0 ST FI MI Gyroscope P ST LG0 e-compass/ G sensor

Διαβάστε περισσότερα

QUANTA COMPUTER. Page Title of schematic page Rev. Date

QUANTA COMPUTER. Page Title of schematic page Rev. Date Page of schematic page Rev. ate 0 0 0 0 0 0 0 0 0 0 0 Index lock iagram hange ist OK NRTOR PROSSOR /(MI&HOST&PI) PROSSOR /(R) PROSSOR /(POWR) PROSSOR /() PH / (MI&VIO) PH / (ST/P/zalia) PH / (PI/PI/K/US)

Διαβάστε περισσότερα

Intel Calpella BlOCK DIAGRAM

Intel Calpella BlOCK DIAGRAM Intel alpella lok IGRM POWER /TT ONNETOR R-SOIMM H R-SOIMM H ST-O ST-H UIO/MP L SYSTEM RESET IRUIT TT HRGER RUN POWER SW +V_S/+V_S +V_SUS/+V_SUS +V_RUN/+V_RUN/+.V_RUN ual hannel R 0.V INTEL ISRETE SYSTEM

Διαβάστε περισσότερα

UM8 UMA SYSTEM DIAGRAM

UM8 UMA SYSTEM DIAGRAM +V/+V PG. PG. +.0V/+.V PG. PU ore PG. VG ore/+.v PG. +.V/+0.V PG. +.0VTT PG. UM VGORE harger LN PG. LNE theros/r 0/00 K ITE 0 PG. UM UM SYSTEM IGRM SOIMM Max. G PG. SOIMM Max. G PG. M ROM PG. LNEO WWN

Διαβάστε περισσότερα

COMPONENTS LIST BASE COMPONENTS

COMPONENTS LIST BASE COMPONENTS ITLIN TEHNOLOGY grifo PPENIX : R SSEMLY The GP F can be ordered in two different mode: completely mounted, tested and ready to use or in assembly kit. In this final condition the user can directly use

Διαβάστε περισσότερα

LGA H61 + DDR3 SHEET

LGA H61 + DDR3 SHEET VS-00 Pro Rev:. LG H R SHEET TITLE SHEET TITLE 0 0 0 0 0 0 0 0 0 0 0 OVER SHEET LOK IGRM POWER SEQUENE- POWER SEQUENE- POWER MP- POWER MP- PU LG_R_/ PU LG_PEG/FI/VI_/ PU LG_POWER / PU LG_GN/RSV_/ RIII

Διαβάστε περισσότερα

FM9 XXXX Intel Discrete GFX

FM9 XXXX Intel Discrete GFX FM XXXX Intel iscrete GFX VER : PW: PW: POWER /TT ONNETOR PG R-SOIMM PG R-SOIMM SYSTEM RESET IRUIT TT HRGER RUN POWER SW +.V_SUS/+V_SUS +V/+.V/+.V PG PG PG ual hannel R //.V uburndale/ larksfield ( rpg

Διαβάστε περισσότερα

CPU Merom 478 PIN (micro FC-PGA) P3,4. FSB 667 MHz(166X4) FSB 800MHz(200X4) UNBUFFERED DDRII SODIMM DDRII 533/667 UNBUFFERED DDRII SODIMM P11

CPU Merom 478 PIN (micro FC-PGA) P3,4. FSB 667 MHz(166X4) FSB 800MHz(200X4) UNBUFFERED DDRII SODIMM DDRII 533/667 UNBUFFERED DDRII SODIMM P11 WK lock iagram.mhz VRM GR P- Mx PS PU Merom PIN (micro F-PG) P, LOK GEN ISLPR P VI P FS MHz(X) FS MHz(X) TI M P- LVS R/G/ L P RT P PIE Lanes LVS R/G/ restline GM/PM PIN (micro FG) mm x mm P- RII / RII

Διαβάστε περισσότερα

(#5 5::%%%$ " (#5 5::%%%$" %

(#5 5::%%%$ (#5 5::%%%$ % !" "#! " # $ "! "#" "" ""! % %! % " &"#!! "' (%)* (% (%! "' + "',! "' $% " %! "'% " %!"! #!" " $ #!" #$ #! #!#!" -%$!"#!".! "!"#!"! "!" " " "!!" "! %!"!#/ "%! %! #! )0+! *.." )0)!- % 67&* 6**&7*0.8 67&*67&*90&0.8

Διαβάστε περισσότερα

ZR6 SYSTEM BLOCK DIAGRAM

ZR6 SYSTEM BLOCK DIAGRAM OM MRK IV@: INT VG EV@: STUFF FOR EXT VG SP@: STUFF FOR UM or VG REV: X'TL.MHz LOK GENERTOR IS: SELGO: SLGSPTTR RIII SO-IMM 0 SO-IMM P ZR SYSTEM LOK IGRM P ual hannel R /00 MHz Penryn ufpg N antiga P,

Διαβάστε περισσότερα

ZK2 SYSTEM BLOCK DIAGRAM

ZK2 SYSTEM BLOCK DIAGRAM OM MRK I@: INT VG E@: STUFF FOR EXT VG N@: STUFF FOR NON-OK @: OK SP@: SPEIL FOR EXT/INT VG MP-Stage ZKM0000: ZK M SSY(GM/UM)SSY W/O PU X'TL.MHz LOK GENERTOR IS: ISLPRSGLFT SELGO: SLGSPK0 RII ZKM000: ZK

Διαβάστε περισσότερα

65W PWM Output LED Driver. IDLV-65 series. File Name:IDLV-65-SPEC

65W PWM Output LED Driver. IDLV-65 series. File Name:IDLV-65-SPEC ~ A File Name:IDLV65SPEC 07050 SPECIFICATION MODEL OUTPUT OTHERS NOTE DC VOLTAGE RATED CURRENT RATED POWER DIMMING RANGE VOLTAGE TOLERANCE PWM FREQUENCY (Typ.) SETUP TIME Note. AUXILIARY DC OUTPUT Note.

Διαβάστε περισσότερα

10. Circuit Diagrams and PWB Layouts

10. Circuit Diagrams and PWB Layouts ircuit iagrams and W ayouts Q... ircuit iagrams and W ayouts mbilight nterface: nterf. + Single / TR + S - V _SS RV_ SW_ T_ V T_ V_UT SW_T _S V STU VRSTS R / TR See the stuffing diversities table in the

Διαβάστε περισσότερα

65W PWM Output LED Driver. IDPV-65 series. File Name:IDPV-65-SPEC

65W PWM Output LED Driver. IDPV-65 series. File Name:IDPV-65-SPEC IDPV65 series ~ A File Name:IDPV65SPEC 07060 IDPV65 series SPECIFICATION MODEL OUTPUT OTHERS NOTE DC VOLTAGE RATED CURRENT RATED POWER DIMMING RANGE VOLTAGE TOLERANCE PWM FREQUENCY (Typ.) SETUP TIME Note.

Διαβάστε περισσότερα

Mohon Peak BETA BRD B1. Intel Corporation. 001_Cover Page. Mohon Peak CRB Wednesday, August 28, 2013 ODM PROJECT CODE : S

Mohon Peak BETA BRD B1. Intel Corporation. 001_Cover Page. Mohon Peak CRB Wednesday, August 28, 2013 ODM PROJECT CODE : S Mohon Peak ET R OM PROJET OE : S0-0 Intel orporation 00_over Page 000 W HNLER LV HNLER, Z Size ocument Number Rev eta Mohon Peak R Wednesday, ugust, 0 ate: Sheet of Note:VN = voton and RGY = Rangeley PGE

Διαβάστε περισσότερα

SMD Transient Voltage Suppressors

SMD Transient Voltage Suppressors SMD Transient Suppressors Feature Full range from 0 to 22 series. form 4 to 60V RMS ; 5.5 to 85Vdc High surge current ability Bidirectional clamping, high energy Fast response time

Διαβάστε περισσότερα

K72JK Schematic R2.0

K72JK Schematic R2.0 PGE ontent lock iagram System Setting PU()_MI,PEG,FI,LK,MIS PU()_R PU()_FG,RSV, PU()_PWR PU()_XP R SOIMM_0 R SOIMM_ R _Q VOLTGE 9 VI controller 0 PH_IEX()ST,IH,RT,LP PH_IEX()_PIE,LK,SM,PEG PH_IEX()_FI,MI,SYS

Διαβάστε περισσότερα

ichip CO2128 with EBI Flash and Siemens HC25 GSM Modem

ichip CO2128 with EBI Flash and Siemens HC25 GSM Modem Reference Design ichip CO with EBI Flash and Siemens HC GSM Modem Revision History Version Date Description.0 May 00 Initial version.0 September 00 Changed from Mb Flash to Mb Flash Introduction This Reference

Διαβάστε περισσότερα

IDPV-45 series. 45W PWM Output LED Driver. File Name:IDPV-45-SPEC S&E

IDPV-45 series. 45W PWM Output LED Driver. File Name:IDPV-45-SPEC S&E IDPV5 series S&E ~ A File Name:IDPV5SPEC 0805 IDPV5 series SPECIFICATION MODEL OUTPUT INPUT OTHERS NOTE DC VOLTAGE RATED CURRENT RATED POWER DIMMING RANGE VOLTAGE TOLERANCE PWM FREQUENCY (Typ.) SETUP TIME

Διαβάστε περισσότερα

ichip CO2128 with EBI Flash and Siemens MC39i GSM Modem

ichip CO2128 with EBI Flash and Siemens MC39i GSM Modem Reference Design 0 ichip CO with EBI Flash and Siemens MCi GSM Modem Revision History Version Date Description.0 May 00 Initial version.0 September 00 Changed from Mb Flash to Mb Flash Introduction This

Διαβάστε περισσότερα

TRC ELECTRONICS, INC LED Driver Constant Voltage 45W MEAN WELL IDLV-45 Series

TRC ELECTRONICS, INC LED Driver Constant Voltage 45W MEAN WELL IDLV-45 Series LED Driver Constant Voltage 5W MEAN WELL IDLV5 Series ~ A File Name:IDLV5SPEC 0707 TRC ELECTRONICS, INC..888.6.95 LED Driver Constant Voltage 5W MEAN WELL IDLV5 Series TRC ELECTRONICS, INC. SPECIFICATION

Διαβάστε περισσότερα

Page of schematic page Rev. ate 0 0 0 0 0 0 0 0 0 0 0 0 Index lock iagram hange ist IR PROOR /(MI&HOT&PI) PROOR /(R) PROOR /(POWR) PROOR /() PH / (MI&VIO) PH / (T/P/zalia) PH / (PI/PI/K/U) PH / (PIO) PH

Διαβάστε περισσότερα

CYTA Cloud Server Set Up Instructions

CYTA Cloud Server Set Up Instructions CYTA Cloud Server Set Up Instructions ΕΛΛΗΝΙΚΑ ENGLISH Initial Set-up Cloud Server To proceed with the initial setup of your Cloud Server first login to the Cyta CloudMarketPlace on https://cloudmarketplace.cyta.com.cy

Διαβάστε περισσότερα

Modbus basic setup notes for IO-Link AL1xxx Master Block

Modbus basic setup notes for IO-Link AL1xxx Master Block n Modbus has four tables/registers where data is stored along with their associated addresses. We will be using the holding registers from address 40001 to 49999 that are R/W 16 bit/word. Two tables that

Διαβάστε περισσότερα

CSR series. Thick Film Chip Resistor Current Sensing Type FEATURE PART NUMBERING SYSTEM ELECTRICAL CHARACTERISTICS

CSR series. Thick Film Chip Resistor Current Sensing Type FEATURE PART NUMBERING SYSTEM ELECTRICAL CHARACTERISTICS FEATURE Operating Temperature: -55 ~ +155 C 3 Watts power rating in 1 Watt size, 1225 package High purity alumina substrate for high power dissipation Long side terminations with higher power rating PART

Διαβάστε περισσότερα

NMBTC.COM /

NMBTC.COM / Common Common Vibration Test:... Conforms to JIS C 60068-2-6, Amplitude: 1.5mm, Frequency 10 to 55 Hz, 1 hour in each of the X, Y and Z directions. Shock Test:...Conforms to JIS C 60068-2-27, Acceleration

Διαβάστε περισσότερα

Electrical Specifications at T AMB =25 C DC VOLTS (V) MAXIMUM POWER (dbm) DYNAMIC RANGE IP3 (dbm) (db) Output (1 db Comp.) at 2 f U. Typ.

Electrical Specifications at T AMB =25 C DC VOLTS (V) MAXIMUM POWER (dbm) DYNAMIC RANGE IP3 (dbm) (db) Output (1 db Comp.) at 2 f U. Typ. Surface Mount Monolithic Amplifiers High Directivity, 50Ω, 0.5 to 5.9 GHz Features 3V & 5V operation micro-miniature size.1"x.1" no external biasing circuit required internal DC blocking at RF input &

Διαβάστε περισσότερα

15W DIN Rail Type DC-DC Converter. DDR-15 s e r i e s. File Name:DDR-15-SPEC

15W DIN Rail Type DC-DC Converter. DDR-15 s e r i e s. File Name:DDR-15-SPEC DIN Rail Type DC-DC Converter ± : DIN Rail Type DC-DC Converter SPECIFICATION MODEL OUTPUT INPUT PROTECTION ENVIRONMENT SAFETY & EMC (Note 5) OTHERS NOTE DC VOLTAGE RATED CURRENT CURRENT RANGE RATED POWER

Διαβάστε περισσότερα

ss rt çã r s t Pr r Pós r çã ê t çã st t t ê s 1 t s r s r s r s r q s t r r t çã r str ê t çã r t r r r t r s

ss rt çã r s t Pr r Pós r çã ê t çã st t t ê s 1 t s r s r s r s r q s t r r t çã r str ê t çã r t r r r t r s P P P P ss rt çã r s t Pr r Pós r çã ê t çã st t t ê s 1 t s r s r s r s r q s t r r t çã r str ê t çã r t r r r t r s r t r 3 2 r r r 3 t r ér t r s s r t s r s r s ér t r r t t q s t s sã s s s ér t

Διαβάστε περισσότερα

RSDW08 & RDDW08 series

RSDW08 & RDDW08 series /,, MODEL SELECTION TABLE INPUT ORDER NO. INPUT VOLTAGE (RANGE) NO LOAD INPUT CURRENT FULL LOAD VOLTAGE CURRENT EFFICIENCY (Typ.) CAPACITOR LOAD (MAX.) RSDW08F-03 344mA 3.3V 2000mA 80% 2000μF RSDW08F-05

Διαβάστε περισσότερα

15W DIN Rail Type DC-DC Converter. DDR-15 series. File Name:DDR-15-SPEC

15W DIN Rail Type DC-DC Converter. DDR-15 series. File Name:DDR-15-SPEC DIN Rail Type DC-DC Converter ± : DIN Rail Type DC-DC Converter SPECIFICATION MODEL OUTPUT INPUT PROTECTION ENVIRONMENT SAFETY & EMC (Note 5) OTHERS DC VOLTAGE RATED CURRENT CURRENT RANGE RATED POWER RIPPLE

Διαβάστε περισσότερα

OWA-60E series IP67. 60W Single Output Moistureproof Adaptor. moistureproof. File Name:OWA-60E-SPEC

OWA-60E series IP67. 60W Single Output Moistureproof Adaptor. moistureproof. File Name:OWA-60E-SPEC Single Output Moistureproof Adaptor OWA-60E series IP67 Ⅱ Ⅱ moistureproof I File Name:OWA-60E-SPEC 0-04- Single Output Moistureproof Adaptor OWA-60E series SPECIFICATION MODEL OWA-60E- OWA-60E- OWA-60E-0

Διαβάστε περισσότερα

LS01-15B09SS LS01-15B12SS LS01-15B15SS LS01-15B24SS LS03-15B03SR2S LS03-15B05SR2S LS03-15B09SR2S LS03-15B12SR2S LS03-15B15SR2S LS03-15B24SR2S

LS01-15B09SS LS01-15B12SS LS01-15B15SS LS01-15B24SS LS03-15B03SR2S LS03-15B05SR2S LS03-15B09SR2S LS03-15B12SR2S LS03-15B15SR2S LS03-15B24SR2S LS0 SS & LS0RS _ onverter. W SIP economic LS series.... W High performance & compact size series.... W ~0V wide input voltage LH series.... W 0 Low temperature & high reliability L0_LT series.... 00W LH

Διαβάστε περισσότερα

Instruction Execution Times

Instruction Execution Times 1 C Execution Times InThisAppendix... Introduction DL330 Execution Times DL330P Execution Times DL340 Execution Times C-2 Execution Times Introduction Data Registers This appendix contains several tables

Διαβάστε περισσότερα

+3V3 Supply. +3V0 Flash + VCCPGMy +2V5 FPGA VCC + FPGA I/O +1V1 FPGA Core. Overview. abaxor engineering GmbH

+3V3 Supply. +3V0 Flash + VCCPGMy +2V5 FPGA VCC + FPGA I/O +1V1 FPGA Core. Overview. abaxor engineering GmbH 6 7 8 Supply +V0 Flash + PGMy +V FPG + FPG I/O +V FPG ore Overview 6 7 8 6 7 8 I0NK_ IO H IO P IO L IO J VRFN0 N IO/IFFIO_TX_L9N/IFFOUT_L9N IO/IFFIO_RX_L0N/IFFOUT_L0N/QL J IO/IFFIO_TX_L9P/IFFOUT_L9P/QL

Διαβάστε περισσότερα

INT_LVDS. Pineview. Graphics Interfaces CPU P4,5,6,7 CRT DMI DMI. PCI-Express(Port1~4) Tigerpoint PCI-E P8,9,10,11,12,13 PN : AJSLGXX0T14 LPC LPC

INT_LVDS. Pineview. Graphics Interfaces CPU P4,5,6,7 CRT DMI DMI. PCI-Express(Port1~4) Tigerpoint PCI-E P8,9,10,11,12,13 PN : AJSLGXX0T14 LPC LPC ZE lock iagram 0 K0 RIII-SOIMM P MT/s R SYSTEM MEMORY Pineview PU P,,, MI Graphics Interfaces INT_LVS RT 0. "Panel Up to 0*00 or * P RT P P N0.G: JSLXEVT0 N.G: JSLXUT0 N.G: JSLXVT0 MI(x) harger P US port*

Διαβάστε περισσότερα

DC-DC Constant Current Step-Down LED driver LDD-300L LDD-350L LDD-500L LDD-600L LDD-700L CURRENT RANGE

DC-DC Constant Current Step-Down LED driver LDD-300L LDD-350L LDD-500L LDD-600L LDD-700L CURRENT RANGE SPECIFICATION ORDER NO. LDD-00L LDD-0L LDD-00L LDD-00L LDD-700L CURRENT RANGE 00mA 0mA 00mA VOLTAGE RANGE Note. ~ VDC for LDD-00~700L/LW ; ~ 8VDC for LDD-00~700LS CURRENT ACCURACY (Typ.) ±% at VDC input

Διαβάστε περισσότερα

( ) 2 and compare to M.

( ) 2 and compare to M. Problems and Solutions for Section 4.2 4.9 through 4.33) 4.9 Calculate the square root of the matrix 3!0 M!0 8 Hint: Let M / 2 a!b ; calculate M / 2!b c ) 2 and compare to M. Solution: Given: 3!0 M!0 8

Διαβάστε περισσότερα

NEC Silicon RFIC Amplifiers Low Power, Wideband & SiGe/SiGeC

NEC Silicon RFIC Amplifiers Low Power, Wideband & SiGe/SiGeC NEC Silicon RFIC Amplifiers Low Power, Wideband & SiGe/SiGeC Low Power Amplifiers ELECTRICAL CHARACTERISTICS (TA = 25 C) Range VCC ICC NF Gain RLIN RLOUT PdB ISOL @ 3dB (V) (ma) (dbm) Part down Package

Διαβάστε περισσότερα

Network Neutrality Debate and ISP Inter-Relations: Traffi c Exchange, Revenue Sharing, and Disconnection Threat

Network Neutrality Debate and ISP Inter-Relations: Traffi c Exchange, Revenue Sharing, and Disconnection Threat Network Neutrality Debate and ISP Inter-Relations: Traffi c Exchange, Revenue Sharing, and Disconnection Threat Pierre Coucheney, Patrick Maillé, runo Tuffin To cite this version: Pierre Coucheney, Patrick

Διαβάστε περισσότερα

CSK series. Current Sensing Chip Resistor. Features. Applications. Construction FAITHFUL LINK

CSK series. Current Sensing Chip Resistor. Features. Applications. Construction FAITHFUL LINK CSK series Current Sensing Chip Resistor Features» 3 Watts power rating in 1 Watt size, 1225 Package» Low TCR of ±100 PPM/ C» Resistance values from 1m to 1 ohm» High purity alumina substrate for high

Διαβάστε περισσότερα

Siemens AG Rated current 1FK7 Compact synchronous motor Natural cooling. I rated 7.0 (15.4) 11.5 (25.4) (2.9) 3.3 (4.4)

Siemens AG Rated current 1FK7 Compact synchronous motor Natural cooling. I rated 7.0 (15.4) 11.5 (25.4) (2.9) 3.3 (4.4) Synchronous motors Siemens 2009 FK7 Compact motors Nural cooling Selection and ordering da Red speed Shaft height n red S P red ΔT=00 K rpm kw (P) Red power Stic torque M 0 ΔT=00 K Red torque ) M red ΔT=00

Διαβάστε περισσότερα

SMD Power Inductor. - SPRH127 Series. Marking. 1 Marking Outline: 1 Appearance and dimensions (mm)

SMD Power Inductor. - SPRH127 Series. Marking. 1 Marking Outline: 1 Appearance and dimensions (mm) Marking Outline: Low DCR, high rated current. Magnetic shielded structure Lead free product, RoHS compliant. RoHS Carrier tape packing, suitable for SMT process. SMT Widely used in buck converter, laptop,

Διαβάστε περισσότερα

5V/9V/12V Output QC2.0+USB Auto Detect+USB-PD Type-C Application Report ACT4529

5V/9V/12V Output QC2.0+USB Auto Detect+USB-PD Type-C Application Report ACT4529 FEATURES 5V/9V/12V Output QC2.0+USB Auto Detect+USB-PD Type-C Application Report ACT4529 Wide input voltage range from 6V to 32V Transparent input voltage surge up to 40V QC2.0 decoding, 5V/9V/12V output

Διαβάστε περισσότερα

Digital motor protection relays

Digital motor protection relays Digital motor protection relays Specification DMP -S & DMP -Sa DMP -T & DMP -Ta Model No. DMP06-S/Sa DMP60-S/Sa DMP06-T/Ta DMP60-T/Ta Wiring Screw type Tunnel type Panel mount Unit or Extension Note1)

Διαβάστε περισσότερα

Current Sensing Chip Resistor SMDL Series Size: 0201/0402/0603/0805/1206/1010/2010/2512/1225/3720/7520. official distributor of

Current Sensing Chip Resistor SMDL Series Size: 0201/0402/0603/0805/1206/1010/2010/2512/1225/3720/7520. official distributor of Product: Current Sensing Chip Resistor SMDL Series Size: 0201/0402/0603/0805/1206/1010/2010/2512/1225/3720/7520 official distributor of Current Sensing Chip Resistor (SMDL Series) 1. Features -3 Watts

Διαβάστε περισσότερα

DC-DC Constant Current Step-Down LED driver LDD-300L LDD-350L LDD-500L LDD-600L LDD-700L CURRENT RANGE

DC-DC Constant Current Step-Down LED driver LDD-300L LDD-350L LDD-500L LDD-600L LDD-700L CURRENT RANGE SPECIFICATION ORDER NO. LDD-00L LDD-0L LDD-00L LDD-00L LDD-700L CURRENT RANGE 00mA 0mA 00mA 00mA VOLTAGE RANGE Note. ~ VDC for LDD-00~700L/LW ; ~ 8VDC for LDD-00~700LS CURRENT ACCURACY (Typ.) ±% at VDC

Διαβάστε περισσότερα

Surface Mount Multilayer Chip Capacitors for Commodity Solutions

Surface Mount Multilayer Chip Capacitors for Commodity Solutions Surface Mount Multilayer Chip Capacitors for Commodity Solutions Below tables are test procedures and requirements unless specified in detail datasheet. 1) Visual and mechanical 2) Capacitance 3) Q/DF

Διαβάστε περισσότερα

ο ο 3 α. 3"* > ω > d καΐ 'Ενορία όλις ή Χώρί ^ 3 < KN < ^ < 13 > ο_ Μ ^~~ > > > > > Ο to X Η > ο_ ο Ο,2 Σχέδι Γλεγμα Ο Σ Ο Ζ < o w *< Χ χ Χ Χ < < < Ο

ο ο 3 α. 3* > ω > d καΐ 'Ενορία όλις ή Χώρί ^ 3 < KN < ^ < 13 > ο_ Μ ^~~ > > > > > Ο to X Η > ο_ ο Ο,2 Σχέδι Γλεγμα Ο Σ Ο Ζ < o w *< Χ χ Χ Χ < < < Ο 18 ρ * -sf. NO 1 D... 1: - ( ΰ ΐ - ι- *- 2 - UN _ ί=. r t ' \0 y «. _,2. "* co Ι». =; F S " 5 D 0 g H ', ( co* 5. «ΰ ' δ". o θ * * "ΰ 2 Ι o * "- 1 W co o -o1= to»g ι. *ΰ * Ε fc ΰ Ι.. L j to. Ι Q_ " 'T

Διαβάστε περισσότερα

IDPV-25 series. 25W PWM Output LED Driver. File Name:IDPV-25-SPEC S&E

IDPV-25 series. 25W PWM Output LED Driver. File Name:IDPV-25-SPEC S&E 5W PWM Output LED Driver IDPV5 series S&E ~ A File Name:IDPV5SPEC 0805 5W PWM Output LED Driver IDPV5 series SPECIFICATION MODEL IDPV5 IDPV5 4 IDPV5 6 IDPV5 48 IDPV5 60 DC VOLTAGE V 4V 6V 48V 60V CONSTANT

Διαβάστε περισσότερα

CHAPTER 25 SOLVING EQUATIONS BY ITERATIVE METHODS

CHAPTER 25 SOLVING EQUATIONS BY ITERATIVE METHODS CHAPTER 5 SOLVING EQUATIONS BY ITERATIVE METHODS EXERCISE 104 Page 8 1. Find the positive root of the equation x + 3x 5 = 0, correct to 3 significant figures, using the method of bisection. Let f(x) =

Διαβάστε περισσότερα

Anti-Corrosive Thin Film Precision Chip Resistor (PR Series)

Anti-Corrosive Thin Film Precision Chip Resistor (PR Series) (PR Series) Features -Long term life stability and demonstrated the Anti Corrosion claims -Special passivated NiCr film for Anti-Acid and Anti-Damp -Tight tolerance down to ±0.1% -Extremely low TCR down

Διαβάστε περισσότερα

Project: 296 File: Title: CMC-E-600 ICD Doc No: Rev 2. Revision Date: 15 September 2010

Project: 296 File: Title: CMC-E-600 ICD Doc No: Rev 2. Revision Date: 15 September 2010 Project: 296 File: Title: CMC-E-600 ICD Doc No: 21029100-406 Rev 2. Revision Date: 15 September 2010 Contract No.: Revisions Table ECR/ECN LTR Description Date 0 Pre Contract draft 29 July 2010 1 Replace

Διαβάστε περισσότερα

(REV:01) RYOBI 48 Volt Lawn Mower Model No. RY14110A Replacement Parts List

(REV:01) RYOBI 48 Volt Lawn Mower Model No. RY14110A Replacement Parts List 9000-7 9-- (REV:0) RYOBI 4 Volt Lawn Mower Model No. RY0A Replacement Parts List RYOBI RY0A 4 VOLT LAWN MOWER 3 3 39 44 39 3 34 3 42 3 39 3 4 37 34 3 43 2 0 37 2 33 32 3 9 7 22 30 4 7 3 20 9 3 2 2 27 2

Διαβάστε περισσότερα

Aluminum Electrolytic Capacitors (Large Can Type)

Aluminum Electrolytic Capacitors (Large Can Type) Aluminum Electrolytic Capacitors (Large Can Type) Snap-In, 85 C TS-U ECE-S (U) Series: TS-U Features General purpose Wide CV value range (33 ~ 47,000 µf/16 4V) Various case sizes Top vent construction

Διαβάστε περισσότερα

7. Schematic Diagram. 7-1 Overall Block Diagram FRONT MAIN MAIN CD SMPS (MAX-A54U)...

7. Schematic Diagram. 7-1 Overall Block Diagram FRONT MAIN MAIN CD SMPS (MAX-A54U)... 7. Schematic Diagram 7- Overall Block Diagram... 7-7- FRONT... 7-7- MAIN-... 7-7- MAIN-... 7-5 7-5 CD... 7-7- SM (MAX-A5U)... 7-7 7-7 SM (MAX-A55U)... 7- Samsung Electronics This Document can not be used

Διαβάστε περισσότερα

Econ 2110: Fall 2008 Suggested Solutions to Problem Set 8 questions or comments to Dan Fetter 1

Econ 2110: Fall 2008 Suggested Solutions to Problem Set 8 questions or comments to Dan Fetter 1 Eon : Fall 8 Suggested Solutions to Problem Set 8 Email questions or omments to Dan Fetter Problem. Let X be a salar with density f(x, θ) (θx + θ) [ x ] with θ. (a) Find the most powerful level α test

Διαβάστε περισσότερα

Output Power: W. Exclusively distributed by Powerstax

Output Power: W. Exclusively distributed by Powerstax R Series, 50-150W Input Ranges : 9-75 VDC : Single - Dual /, / /, / Triple / ±, /, / ±0, Quad ± / ±, ± / : 50-150 W FEATURES General: to 100 Watts Wide Input Range : 10-7dc 2:1 & 3:1 Input Range High Conversion

Διαβάστε περισσότερα

DRA-60 series LPS. 60W Single Output Switching Power Supply. File Name:DRA-60-SPEC Sicherheit ID

DRA-60 series LPS. 60W Single Output Switching Power Supply. File Name:DRA-60-SPEC Sicherheit ID PS Bauartgepruft Sicherheit egelma ge od o s be wac g www. tuv.com ID 2000000000 SPECIFICATION MODE DRA-60-12 DRA-60-24 DC VOTAGE 12V 24V CONSTANT CURRENT REGION 3 ~ 12V 3 ~ 24V RATED CURRENT 5A 2.5A CURRENT

Διαβάστε περισσότερα

Aluminum Electrolytic Capacitors

Aluminum Electrolytic Capacitors Aluminum Electrolytic Capacitors Snap-In, Mini., 105 C, High Ripple APS TS-NH ECE-S (G) Series: TS-NH Features Long life: 105 C 2,000 hours; high ripple current handling ability Wide CV value range (47

Διαβάστε περισσότερα

First Sensor Quad APD Data Sheet Part Description QA TO Order #

First Sensor Quad APD Data Sheet Part Description QA TO Order # Responsivity (/W) First Sensor Quad PD Data Sheet Features Description pplication Pulsed 16 nm laser detection RoHS 211/65/EU Light source positioning Laser alignment ø mm total active area Segmented in

Διαβάστε περισσότερα

(REV:01) RYOBI 48 Volt Lawn Mower Model No. RY14110 Replacement Parts List

(REV:01) RYOBI 48 Volt Lawn Mower Model No. RY14110 Replacement Parts List 9800-86 2-0-0 (REV:0) RYOBI 48 Volt Lawn Mower Model No. RY0 Replacement Parts List RYOBI RY0 48 volt lawn mower 3 38 39 44 39 36 34 36 42 38 39 3 4 37 34 3 43 2 32 0 8 9 2 4 33 8 7 6 3 6 7 22 8 20 3 30

Διαβάστε περισσότερα

SOLUTIONS TO MATH38181 EXTREME VALUES AND FINANCIAL RISK EXAM

SOLUTIONS TO MATH38181 EXTREME VALUES AND FINANCIAL RISK EXAM SOLUTIONS TO MATH38181 EXTREME VALUES AND FINANCIAL RISK EXAM Solutions to Question 1 a) The cumulative distribution function of T conditional on N n is Pr T t N n) Pr max X 1,..., X N ) t N n) Pr max

Διαβάστε περισσότερα

Current Sense Metal Strip Resistors (CSMS Series)

Current Sense Metal Strip Resistors (CSMS Series) Features: Range: 1mΩ to 100mΩ Low TCR as low as 75PPM High power rating Custom Values available RoHS Compliant and Halogen Free Operating Temperature: -55 C to +170 C Part Number Structure CSMS 0805 -

Διαβάστε περισσότερα

Capacitors - Capacitance, Charge and Potential Difference

Capacitors - Capacitance, Charge and Potential Difference Capacitors - Capacitance, Charge and Potential Difference Capacitors store electric charge. This ability to store electric charge is known as capacitance. A simple capacitor consists of 2 parallel metal

Διαβάστε περισσότερα

Clapton (EL7) AIO Block Diagram

Clapton (EL7) AIO Block Diagram lapton (EL) IO lock iagram 0 iamondville S G Xmm FS/ P, VI[0:] /- PU_LK /- HLK PU VORE P lock Gengerator P." Panel P LVS H0 P SVO GSE(GMH) FG X mm R(00/) Single-SOIMM P P,,,, RJ- P in Speaker P Ext HP

Διαβάστε περισσότερα

AT Surface Mount Package SOT-363 (SC-70) I I Y. Pin Connections B 1 C 1 E 1 E 2 C 2 B , 7:56 PM

AT Surface Mount Package SOT-363 (SC-70) I I Y. Pin Connections B 1 C 1 E 1 E 2 C 2 B , 7:56 PM AT-3263 Surface Mount Package SOT-363 (SC-7) I I Y Pin Connections B 1 C 1 E 1 E 2 C 2 B 2 Page 1 21.4., 7:6 PM Absolute Maximum Ratings [1] Absolute Thermal Resistance [2] : Symbol Parameter Units Maximum

Διαβάστε περισσότερα

INDEX HOESUNG COIL PARTS

INDEX HOESUNG COIL PARTS 1. Metal Molding High Current SMD Power Inductor PART NO DEMINSION(mm) Inductance Range Rated DC Current Page MMI 06518 SERIES 6.5 7.1 1.8 1.0uH ~ 4.7uH 9.8A ~ 5.0A 5 MMI 06524 SERIES 6.5 7.1 2.4 0.47uH

Διαβάστε περισσότερα

M p f(p, q) = (p + q) O(1)

M p f(p, q) = (p + q) O(1) l k M = E, I S = {S,..., S t } E S i = p i {,..., t} S S q S Y E q X S X Y = X Y I X S X Y = X Y I S q S q q p+q p q S q p i O q S pq p i O S 2 p q q p+q p q p+q p fp, q AM S O fp, q p + q p p+q p AM

Διαβάστε περισσότερα

PTC FUNCTION for Delta C2000 and CP2000

PTC FUNCTION for Delta C2000 and CP2000 FUNCTION for Delta C2000 and CP2000 CONTENTS: GENERAL... 2. for motor temperature protection... 2.2 Standards... 2.3 Motor layout... 2.4 characteristic... 2.4. Definitions... 3.4.2 curve... 3.4.3 switching

Διαβάστε περισσότερα

SPBW06 & DPBW06 series

SPBW06 & DPBW06 series /,, MODEL SELECTION TABLE INPUT ORDER NO. INPUT VOLTAGE (RANGE) NO LOAD INPUT CURRENT FULL LOAD VOLTAGE CURRENT EFFICIENCY (TYP.) CAPACITOR LOAD (MAX.) SPBW06F-03 310mA 3.3V 0 ~ 1500mA 81% 4700μF SPBW06F-05

Διαβάστε περισσότερα

The Simply Typed Lambda Calculus

The Simply Typed Lambda Calculus Type Inference Instead of writing type annotations, can we use an algorithm to infer what the type annotations should be? That depends on the type system. For simple type systems the answer is yes, and

Διαβάστε περισσότερα

Block Ciphers Modes. Ramki Thurimella

Block Ciphers Modes. Ramki Thurimella Block Ciphers Modes Ramki Thurimella Only Encryption I.e. messages could be modified Should not assume that nonsensical messages do no harm Always must be combined with authentication 2 Padding Must be

Διαβάστε περισσότερα

GSM160B series + + Description. File Name:GSM160B-SPEC

GSM160B series + + Description. File Name:GSM160B-SPEC 60W AC-DC Reliable Green Medical Adaptor GSM60B series Features Ⅱ + + Description μ { File Name:GSM60B-SPEC 08-0- 60W AC-DC Reliable Green Medical Adaptor GSM60B series SPECIFICATION ORDER NO. SAFETY MODEL

Διαβάστε περισσότερα

AKC Spectrum Analyzer User s Manual.

AKC Spectrum Analyzer User s Manual. AKC-1291 Spectrum Analyzer User s Manual u ano un ao Prohibiting to removal the cover e m Keep the power insert clean RF in/output rating oae o n DC Power nt Restore this instrument 1. Introduction 2.

Διαβάστε περισσότερα

ΤΕΧΝΙΚΕΣ ΠΡΟ ΙΑΓΡΑΦΕΣ ΕΞΟΠΛΙΣΜΟΥ

ΤΕΧΝΙΚΕΣ ΠΡΟ ΙΑΓΡΑΦΕΣ ΕΞΟΠΛΙΣΜΟΥ ΤΕΧΝΙΚΕΣ ΠΡΟ ΙΑΓΡΑΦΕΣ ΕΞΟΠΛΙΣΜΟΥ Α. κεντρικός εξυπηρετητής τεµάχια : 5 (πέντε) Ολα τα µέρη του προσφερόµενου εξοπλισµού να είναι του ιδίου κατασκευαστή. Αριθµός µονάδων. 5 Τα τµήµατα που συνθέτουν το σύστηµα

Διαβάστε περισσότερα

Metal Oxide Varistors (MOV) Data Sheet

Metal Oxide Varistors (MOV) Data Sheet Φ SERIES Metal Oxide Varistors (MOV) Data Sheet Features Wide operating voltage (V ma ) range from 8V to 0V Fast responding to transient over-voltage Large absorbing transient energy capability Low clamping

Διαβάστε περισσότερα

Strain gauge and rosettes

Strain gauge and rosettes Strain gauge and rosettes Introduction A strain gauge is a device which is used to measure strain (deformation) on an object subjected to forces. Strain can be measured using various types of devices classified

Διαβάστε περισσότερα

GST220A series. 220W AC-DC High Reliability Industrial Adaptor UL EN J CNS14336 AS/NZS GB4943 IEC

GST220A series. 220W AC-DC High Reliability Industrial Adaptor UL EN J CNS14336 AS/NZS GB4943 IEC THOMAS SAMUEL THOMAS SAMUEL 0W AC-DC High Reliability Industrial Adaptor GST0A series UL6090- EN6090- J6090- CNS6 AS/NZS6090- GB9 MS IEC6090- IS K6090- TPTC00 (optional) (except for 6V) (except for 6V)

Διαβάστε περισσότερα

ASL BS ,00 ASL BS ,00 ASL BS ,80 ASL BS ,60 ASL TP SET 1 817,20 ASL TP SET 2 997,20 ASL TP SET ,20

ASL BS ,00 ASL BS ,00 ASL BS ,80 ASL BS ,60 ASL TP SET 1 817,20 ASL TP SET 2 997,20 ASL TP SET ,20 www.asl-inter.com BASIC SERIES ASL BS 217 Κεντρική μονάδα intercom 2 καναλιών. Κάθε κανάλι διαθέτει φωτιζόμενο κουμπί Talk και Call και volume για τον έλεγχο της έντασης. Στην πίσω πλευρά διαθέτει μια

Διαβάστε περισσότερα

Ανταλλακτικά για Laptop Lenovo

Ανταλλακτικά για Laptop Lenovo Ανταλλακτικά για Laptop Lenovo Ημερομηνία έκδοσης καταλόγου: 6/11/2011 Κωδικός Προϊόντος Είδος Ανταλλακτικού Μάρκα Μοντέλο F000000884 Inverter Lenovo 3000 C200 F000000885 Inverter Lenovo 3000 N100 (0689-

Διαβάστε περισσότερα

SPEEDO AQUABEAT. Specially Designed for Aquatic Athletes and Active People

SPEEDO AQUABEAT. Specially Designed for Aquatic Athletes and Active People SPEEDO AQUABEAT TM Specially Designed for Aquatic Athletes and Active People 1 2 Decrease Volume Increase Volume Reset EarphonesUSBJack Power Off / Rewind Power On / Fast Forward Goggle clip LED Status

Διαβάστε περισσότερα

FEATURE EXPANSION BOARD TYPE 2018 B658 PARTS LOCATION AND LIST

FEATURE EXPANSION BOARD TYPE 2018 B658 PARTS LOCATION AND LIST FEATURE EXPANSION BOARD TYPE 2018 B658 PARTS LOCATION AND LIST This section instructs you as to the numbers and names of parts on this machine. 1.RA2K Expansion Unit 1 (B658) Rev. 08/04/2004 B658 2 Parts

Διαβάστε περισσότερα

DRA-40 series LPS. 40W Single Output Switching Power Supply. File Name:DRA-40-SPEC Sicherheit ID

DRA-40 series LPS. 40W Single Output Switching Power Supply. File Name:DRA-40-SPEC Sicherheit ID PS Bauartgepruft Sicherheit egelma ge od o s be wac g www. tuv.com ID 2000000000 SPECIFICATION MODE OUTPUT WORKING TEMP. WORKING HUMIDITY ENVIRONMENT STORAGE TEMP., HUMIDITY TEMP. COEFFICIENT VIBRATION

Διαβάστε περισσότερα

Bulletin 1489 UL489 Circuit Breakers

Bulletin 1489 UL489 Circuit Breakers Bulletin 489 UL489 Circuit Breakers Tech Data 489-A Standard AC Circuit Breaker 489-D DC Circuit Breaker 489-A, AC Circuit Breakers 489-D, DC Circuit Breakers Bulletin 489-A Industrial Circuit Breaker

Διαβάστε περισσότερα

Cashtester BC 141 SD

Cashtester BC 141 SD Εγχειρίδιο Χρήσης Οδέσους Α.Ε. www.odesus.gr Ανθ.Σταμ.Ρεγκούκου 17 - Τρείς Γέφυρες, 111 45 - Αθήνα τηλ. 210.32.27.140, 210.32.29.592, φαξ. 210.32.26.808 Μυκόνου 7 & Υδρας 41, 546 38 - Θεσσαλονίκη τηλ.

Διαβάστε περισσότερα

IGBT Modules. VCES Amps Digi-Key C2E1 E2 G1E1 E2G2. Powerex. Powerex. RoHS Compliant. Kits. Description. RoHS Compliant.

IGBT Modules. VCES Amps Digi-Key C2E1 E2 G1E1 E2G2. Powerex. Powerex. RoHS Compliant. Kits. Description. RoHS Compliant. 22 pioneer in high power semiconductor applications, POWRX offers a broad line of products, including IT, MOST Modules, Intelligent Power Modules (IPM), IP-IPM, Module ccessories (including gate drivers

Διαβάστε περισσότερα

ELG-150-C series. 150W Single Output LED Power Supply IP67 IP65. File Name:ELG-150-C-SPEC

ELG-150-C series. 150W Single Output LED Power Supply IP67 IP65. File Name:ELG-150-C-SPEC Ⅰ IP65 IP67 Ⅰ { SPECIFICATION MODEL OUTPUT INPUT RATED CURRENT CONSTANT CURRENT REGION Note.4 RATED POWER RIPPLE & NOISE (max.) Note.2 CURRENT TOLERANCE SETUP, RISE TIME HOLD UP TIME (Typ.) VOLTAGE RANGE

Διαβάστε περισσότερα

Monolithic Crystal Filters (M.C.F.)

Monolithic Crystal Filters (M.C.F.) Monolithic Crystal Filters (M.C.F.) MCF (MONOLITHIC CRYSTAL FILTER) features high quality quartz resonators such as sharp cutoff characteristics, low loss, good inter-modulation and high stability over

Διαβάστε περισσότερα

160A series. 160W AC-DC High Reliability Industrial Adaptor GST IS13252 K TPTC004 UL EN J CNS14336 AS/NZS

160A series. 160W AC-DC High Reliability Industrial Adaptor GST IS13252 K TPTC004 UL EN J CNS14336 AS/NZS THOMAS SAMUEL THOMAS SAMUEL 60W AC-DC High Reliability Industrial Adaptor 60A series IS K6090- TPTC00 UL6090- EN6090- J6090- CNS6 AS/NZS6090- GB9 MS IEC6090- (optional) IEC6090- Ⅰ Ⅰ { File Name:60A-SPEC

Διαβάστε περισσότερα

FOXCONN. Schematics Page Index (Title / Revision / Change Date) Title of Schematics Page. Project Code & Schematics Subject: PCB P/N:

FOXCONN. Schematics Page Index (Title / Revision / Change Date) Title of Schematics Page. Project Code & Schematics Subject: PCB P/N: Page 0 0 0 0 0 0 0 0 09 0 9 0 9 0 9 0 chematics Page Index ( / Revision / hange ate) of chematics Page Page chematics Page Index LOK IRM N (MI,PE,FI) N (LK,MI,JT) N (R) N (POWER) N (RPHI POWER) 9 N (N)

Διαβάστε περισσότερα

Couplage dans les applications interactives de grande taille

Couplage dans les applications interactives de grande taille Couplage dans les applications interactives de grande taille Jean-Denis Lesage To cite this version: Jean-Denis Lesage. Couplage dans les applications interactives de grande taille. Réseaux et télécommunications

Διαβάστε περισσότερα

SOLUTIONS TO MATH38181 EXTREME VALUES AND FINANCIAL RISK EXAM

SOLUTIONS TO MATH38181 EXTREME VALUES AND FINANCIAL RISK EXAM SOLUTIONS TO MATH38181 EXTREME VALUES AND FINANCIAL RISK EXAM Solutions to Question 1 a) The cumulative distribution function of T conditional on N n is Pr (T t N n) Pr (max (X 1,..., X N ) t N n) Pr (max

Διαβάστε περισσότερα

HOMEWORK 4 = G. In order to plot the stress versus the stretch we define a normalized stretch:

HOMEWORK 4 = G. In order to plot the stress versus the stretch we define a normalized stretch: HOMEWORK 4 Problem a For the fast loading case, we want to derive the relationship between P zz and λ z. We know that the nominal stress is expressed as: P zz = ψ λ z where λ z = λ λ z. Therefore, applying

Διαβάστε περισσότερα

Buck Solution_9W LED Driver for Bulb LD9852_9W_R00_TEST. Size 34.2mm(L)ⅹ26mm(W)ⅹ18mm(H) Key Features

Buck Solution_9W LED Driver for Bulb LD9852_9W_R00_TEST. Size 34.2mm(L)ⅹ26mm(W)ⅹ18mm(H) Key Features Subject LD9852 Demo Board Manual Model Name (45V/200mA) TOP VIEW BOTTOM VIEW Size 34.2mm(L)ⅹ26mm(W)ⅹ18mm(H) Key Features Buck Topology Current Accuracy < 5% Single Stage PFC > 0.9 @ Normal Line Efficiency

Διαβάστε περισσότερα

4. Construction. 5. Dimensions Unit mm

4. Construction. 5. Dimensions Unit mm 1. Scope This specification applies to all sizes of rectangular-type fixed chip resistors with Ni/Cr as material. 2. Features Tolerance from 0.01%1% Thin film & Ni/Cr Resistor TCR from 5ppm 50ppm for thin

Διαβάστε περισσότερα

2R2. 2 (L W H) [mm] Wire Wound SMD Power Inductor. Nominal Inductance Packing Tape & Reel. Design Code M ±20%

2R2. 2 (L W H) [mm] Wire Wound SMD Power Inductor. Nominal Inductance Packing Tape & Reel. Design Code M ±20% Wire Wound SMD Power Inductors WPN Series Operating temperature range : -40 ~+125 (Including self-heating) FEATURES Fe base metal material core provides large saturation current Metallization on ferrite

Διαβάστε περισσότερα

38BXCS STANDARD RACK MODEL. DCS Input/Output Relay Card Series MODEL & SUFFIX CODE SELECTION 38BXCS INSTALLATION ORDERING INFORMATION RELATED PRODUCTS

38BXCS STANDARD RACK MODEL. DCS Input/Output Relay Card Series MODEL & SUFFIX CODE SELECTION 38BXCS INSTALLATION ORDERING INFORMATION RELATED PRODUCTS DCS Input/Output Relay Card Series STANDARD RACK MODEL 38BXCS MODEL & SUFFIX CODE SELECTION 38BXCS MODEL CONNECTOR Y1 :Yokogawa KS2 cable use Y2 :Yokogawa KS9 cable use Y6 :Yokogawa FA-M3/F3XD32-3N use

Διαβάστε περισσότερα
2024 © DocPlayer.gr Πολιτική Απορρήτου | Όροι Χρήσης | Σχόλια