Schematics Page Index (Title / Revision / Change Date) Rev.
Μέγεθος: px
Εμφάνιση ξεκινά από τη σελίδα:

Download "Schematics Page Index (Title / Revision / Change Date) Rev."

Transcript

1 Page of chematics Page Index page LOK IRM LOK EN (LL) Penryn(HOT U) / Penryn(HOT U) / Penryn(HOT U) / antiga (HOT) / antiga (MI) / antiga (RPHI) / antiga (RII) / antiga (POWER,V) / antiga (V ORE) / antiga (V) / RII(O-IMM_0) / RII(O-IMM_) / RII(Termination) / V (PI-E) / V (PI-E U)trap / V(R)# / V(R)# / V(RT)/ V(LV/TM) / V(XTL/PIO) / V(INTER IPLY) / V(POWER/ROUN) / VRM(R)# / VRM(R)# / VRM(YP) / VRM(YP) / emi-pnp# RT LV HMI Mini-PIE ard (TV) IH-M( PI/U ) / IH-M(LP,IE,T)/ IH-M(PIO) / IH-M(POWER)/ IH-M(N) / Marvell LN(E0) chematics Page Index ( / Revision / hange ate) Rev. ate Page of chematics Page E+K (WPEL) Flash ROM/PI T H/-ROM PI (PI U) PI (ILINK) PI (M-T/UO/M/) PI ( F ) luetooth Mini-PIE ard(wl) EXPRE R U.0 IR Reciver FN/ HW Protect aughter oard onn. M/OIE UIO(OE & POWER) UIO(MP & PK) UIO(HP) UIO(MUTE) UIO(EQ) V0(FILTER) UIO(UWOOFER MP) udio OR conn LE tatus Robson. onnector Power esign iagram IN&harger Y Power (+_V/+V) Y Power(+_V/+_0V) R Power(+_V/+0_V) PU_Vcore---IL Others power plan OVP protection V Power(+.V/+_V) HOLE & O HITORY HITORY Power equence pec Power equence Timing Rev. ate P. Leader heck by esign by VT to PVT Project ode & chematics ubject: M0 EVT Main oard P P/N: FUI P HON HI PREIION IN. O., LT. FOXONN P - R& ivision Index ize ocument Number Rev M0(MX-) 0. ate: Monday, June, 00 heet of

2 M0 Montevina lock iagram M0 OM configuration N_ NV_ unstuff NP- + NM- for L model for M model - ard, Felia module for J KU stuff Roboson,TV Tuner,IR,Reciever,F ard lot unstuff for L Model NVL_ NVM_ LN_ HMI onnector PE LV PE V -type-p PE Watt( 0hm) ub Woofer Watt( 0hm) udio aughter oard R+ R- Watt( 0hm) L+ Watt( 0hm) L- Watt( 0hm) F PE M PR/U PE PE i.link PE P0 QFN PE PIF / HP JK Ext. Mic In Jack U.0 ONN * W MP YMH Y PE PE PE igital Mic M(.M) W MP Y PE JMIRON JM PE POWER WITHE 0FJ PE (R-ch) (L-ch) RJ PE 0 EEPROM (HP) PE HMI LV/V PIF / HP OUT EQ ircuit PE RJ M. Modem PE Finger Print sensor (UPEK) RIOH R ardus ardreader i.link PE ~ R L Transformer Netswap, N0P, PE 0 L OE PE - PE F/PL H JP igital only FX nvii NP / NM R PE ~ R VRM NP- Mxbitx NM- Mxbitx H PIE U.0 U.0 PI U Mini-ard (TV) Ethernet -LN E0 MRVELL 0/00/000 PE 0 PE ~ PE m*m PIE PIE X PIE Mus PU Penryn Processor Micro-FP ( -pin socket P) PE ~ North ridge antiga PM F- PE ~ ontroller Link0 outh ridge IH-M / IHM-Enhanced PWM m PE ~ Winbond WPEL LQFP- PE Mus F / 00 / 0 MHZ X MI (irect Media Interface) LP P/ PI T O PE PIE U.0 PIE + U.0 PIE U.0 U.0 U.0 T (U x ) T 0 (PIE x ) T (T x ) T PIN PIN T H M hannel M hannel lock en. K0 LL PE H PE PIN T H PE / X,TL.MHZ O-IMM 0 / 00 MHZ R(II) 00 pin PE ~ O-IMM / 00 MHZ R(II) 00 pin PE ~ ROOON. PE U.0 ONN. PE Express ard (mm only) PE 0 Mini-ard PIE (WLN) PE luetooth PE Felica PE 0 IR Reciver PE TI HRER Q P. INPUT OUTPUT _IN T+ TOUT YTEM / ILIRZ-T P. INPUT OUTPUT +VLW +VLW_LO TOUT +VLW +EV +V_LW YTEM / P. INPUT OUTPUT +_VRUN TOUT +_0VM YTEM / IL P. INPUT OUTPUT TOUT +_VU YTEM / P. INPUT OUTPUT TOUT +0_VRUN PU / IL P. INPUT OUTPUT TOUT VHORE YTEM / PL INPUT OUTPUT +_VRUN P.0 PL YTEM / P.0 INPUT OUTPUT TOUT NV_V for H M model for L model Mx R for H model for Qimonda VRM for amsung VRM H-model used IHM enhanced L-model used NM- NVHM_ NVL_ NVH_ NVQI_ NVM_ PIO Expander Lid witch touch Touchpad Flash IO TT ONN FN WL0 & LE sensor M PE PE PE P PE PE PE harger Include TY I OLUTION Thermal ensor Thermal ensor EM0--ZL Pf (PU/MH) (V/IMM) PE PE PE Thermal ensor 0TUF (H/W) HON HI PREIION IN. O., LT. FOXONN P - R& ivision lock iagram M0(MX-) 0. ize ocument Number Rev ustom Friday, June, 00 ate: heet of

3 +VRUN L +V_LK +_0VRUN L V_LK_IO 0R-00MHZ_00 EM000HR 0 0.0U_0V_K 0.0U_0V_K 00_XR 00_XR 0.0U_0V_K 0.0U_0V_K 00_XR 00_XR 0 0.0U_0V_K 0.0U_0V_K 00_XR 00_XR 0R-00MHZ_00 EM000HR 0.U_.V_K 00_XR 0.U_.V_K 00_XR 0.U_.V_K 00_XR 0 0.U_.V_K 00_XR U_0V_K U_0V_K U_0V_K 00_XR 00_XR 00_XR U_0V_K U_0V_K U_0V_K 0U_.V_M 00_XR 00_XR 00_XR 00_XR 0.U_.V_K 00_XR 0.U_.V_K 00_XR 0U_.V_M 00_XR U 00// delete damp resistor R 00 U_XTLOUT R Y N_0M_J ITTI_L MHZ_0P_0PPM U_XTLIN P_0V_J P_0V_J 00_NPO 00_NPO V_LK_IO +V_LK V_LK_IO +V_LK V_PU_IO V_PLL_IO V_ V_PI V_REF V_R V_PU V_R_IO_ V_R_IO_ V_R_IO_ V_IO V_PLL PI_TOP# PU_TOP# PU# PU PU#0 PU0 R0 R#0 LK_MH_LK# LK_MH_LK 0 LK_PU_LK# LK_PU_LK 0 LK_PIE_ROON LK_PIE_ROON# PM_TPPI# TP_PU# LK_MH_LK# LK_MH_LK LK_PU_LK# LK_PU_LK LK_PIE_ROON LK_PIE_ROON# +VRUN R0 0K_J 00 ROON_LK_ET# ROON_LK_ET# PU_EL LK_U LK_KPI +VRUN +VRUN PLK_JI R 0K_F 00 LK_U N_0P_0V_E_N 00 LK_KPI N_0P_0V_E_N 00 PLK_ N_0P_0V_E_N 00 LK_IHPI N_0P_0V_E_N 00 LK_IH N_0P_0V_E_N 00 PLK_JI N_0P_0V_E_N 00 LK_IH FL/TET PU_EL0 R.K_J 00 ELP0_LK VT to PVT F Frequency Table: FL FL FL PU R PI R _F 00 R _J R0 0K_J R 0K_F 00 R _F 00 LK_IHPI R_LK_KPI PI PLK_ PU_EL,,,0 M_LK_U,,,0 M_T_U N_0P_0V_E_N 0 LK_PIE_ROON 00 LK_PIE_ROON# N_0P_0V_E_N 00 close to clk gen (For EMI) PU_EL0 PU_EL PU_EL R _F 00 R 0K_J 00 REF0 FL/TET R 0K_J 00 R0 _F 00 R0 _F 00 M_N_ M_ U_XTLIN U_XTLOUT ELP0_LK R_LK_IHPI R_LK_KPI R_PLK_ PI TP MIL R K_F 00 R0 K_F 00 R K_F 00 Xin Xout REF0/F/TET_EL F/TET_MOE 0 U0/F PIF/ITP_EN PI/LK_EL PI_/F0 PI/TME PI/R# PI0 0 LK T R/L_00/M_N R#/L#_00/M_ 0 V_PLL V_IO V_ V_PI V_REF V_R_ V_R_ V_R_ V_PU REF THERML P LL MH_EL0 MH_EL MH_EL M_N_ M_ LK_MH_PLL R LK_MH_PLL# R# LK_PIE_LN# R#/PU#_ITP LK_PIE_LN R/PU_ITP LK_PIE_MINI# R# LK_PIE_MINI R LK_PIE_EXPRE R LK_PIE_EXPRE# R# 0 LK_PIE_T R/T LK_PIE_T# R#/T# LK_PIE_PE R0/OT LK_PIE_PE# R#0/OT# KPWR/PWRWN# LK_PIE_MINI_TV# R# LK_PIE_MINI_TV R LK_PIE_F# R# 0 LK_PIE_F R LK_PIE_IH R LK_PIE_IH# R# TLKREQ# U/R# R# EXPRE_LK_ET# R# MH_LK_REQ# R# MINI_R_TV_ET# R# ROON_LK_ET# R#0 MINI_R_ET# R# F_REQ_IN# R# R0 00 R0 00 LK_MH_PLL LK_MH_PLL# LK_PIE_LN# 0 LK_PIE_LN 0 LK_PIE_MINI# LK_PIE_MINI LK_PIE_EXPRE 0 LK_PIE_EXPRE# 0 LK_PIE_T LK_PIE_T# LK_PIE_PE LK_PIE_PE# LK_PIE_MINI_TV# LK_PIE_MINI_TV LK_PIE_F# LK_PIE_F LK_PIE_IH LK_PIE_IH# LK_PWR R0 0K_J 00 R_NV_XTLIN R_XTLIN +VRUN +VRUN +VRUN +VRUN +VRUN +VRUN lock Request R# R# R# R# R# R#0 R# R# R0 0K_J 00 MINI_R_ET# R 0K_J 00 EXPRE_LK_ET# R 0K_J 00 TLKREQ# R 0K_J 00 MH_LK_REQ# R _F 00 R0 0K_J 00 MINI_R_TV_ET# R0 0K_J 00 F_REQ_IN# lock Request Function Pull ohm to ground(for IH) EXPRE_LK_ET# MINI_R_ET# F_REQ_IN# MH_LK_REQ# ROON_LK_ET# MINI_R_TV_ET# TLKREQ# MINI_R_ET# EXPRE_LK_ET# 0 TLKREQ# MH_LK_REQ# MINI_R_TV_ET# F_REQ_IN# HON HI PREIION IN. O., LT. FOXONN P - R& ivision LOK EN (LLFX) ize ocument Number Rev M0(MX-) 0. ate: unday, June, 00 heet of

4 H_#[..] H_T#0 H_REQ#[..0] H_T# H_0M# H_FERR# H_INNE# H_TPLK# H_INTR H_NMI H_MI# TP0 MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL 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_# R 00 H_TPLK#_R TPLK# LINT0 LINT MI# TP_PU_RV0 TP_PU_RV0 TP_PU_RV0 TP_PU_RV0 TP_PU_RV0 TET TP_PU_RV0 TP_PU_RV0 TP_PU_RV0 TP_PU_RV0 U J []# # L []# NR# L []# PRI# K []# M []# EFER# N []# RY# J []# Y# N [0]# P []# R0# P []# L []# IERR# P []# INIT# P []# R []# LOK# M T[0]# REET# K REQ[0]# R[0]# H REQ[]# R[]# K REQ[]# R[]# 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 []# TM Y []# TRT# U [0]# R# V []# W []# []# THERML []# []# PROHOT# V T[]# THERM THERM 0M# FERR# THERMTRIP# INNE# R ROUP 0 R ROUP M RV[0] N RV[0] T RV[0] V RV[0] RV[0] RV[0] RV[0] RV[0] RV[0] F RV[0] IH REERVE XP/ITP INL ONTROL H LK LK[0] LK[] H E H F E F 0 H F F E 0 H_IERR# H_PURT# H_R#0 H_R# H_R# XP_PM#0 XP_PM# XP_PM# XP_PM# XP_PM# XP_PM# XP_TK XP_TI XP_TO XP_TM XP_TRT# R# PROHOT# H_THERM H_THERM PM_THRMTRIP# TP MIL TP MIL TP Trace as short as possible MIL TP H_# H_NR# H_PRI# H_EFER# H_RY# H_Y# H_REQ#0 H_INIT# H_LOK# H_PURT# H_R#[..0] H_TRY# H_HIT# H_HITM# MIL TP MIL TP MIL TP MIL TP MIL TP H_PURT# MIL TP R._F 00 XP_TI MIL TP H_THERM H_THERM PM_THRMTRIP#,, LK_PU_LK LK_PU_LK# +_0VRUN as lose as possible to Pin out trace XP_TM XP_PM# XP_TK XP_TRT# MIL TP +_0VRUN R._F 00 R._F 00 R._F 00 R0._F 00 PU OKET_P FOX_PZ-M-0 +_0VRUN R _J 00 +VRUN R R.K_J 00 _J 00 Q PROHOT# 00 Q N00PT,, OVT_E# OVT_E# N00PT HON HI PREIION IN. O., LT. FOXONN P - R& ivision Penryn (HOT U) / ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

5 H_#[..0] H_TN#0 H_TP#0 H_INV#0 H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# U E [0]# F []# E []# []# F []# []# E []# E []# K []# []# J [0]# J []# H []# F []# K []# H []# J TN[0]# H TP[0]# H INV[0]# T RP 0 T RP []# []# []# []# []# []# []# []# [0]# []# []# []# []# []# []# []# TN[]# TP[]# INV[]# Y V V V T U U Y W Y W W Y U H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_TN# H_TP# H_INV# Place close to PU +_0VRUN R K_F 00 R K_F 00 Route the TET and TET signals through a ground referenced Zo = -ohm trace that ends in a via that is near a N via and is accessible through an oscilloscope connection. TET and TET and TET pins can be left N. Layout Note: Zo= ohm, 0." max for TLREF. H_TN# H_TP# H_INV# TP0 MIL TP MIL TP MIL TP MIL PU_EL0 PU_EL PU_EL H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_TLREF PU_TET PU_TET PU_TET PU_TET N []# K []# P []# R []# L [0]# M []# L []# M []# P []# P []# P []# T []# R []# L []# T [0]# N []# L TN[]# M TP[]# N INV[]# T RP T RP []# []# [0]# []# []# []# []# []# []# []# []# []# [0]# []# []# []# TN[]# TP[]# INV[]# TLREF OMP[0] TET MI OMP[] TET OMP[] TET OMP[] F TET F TET PRTP# TET PLP# PWR# EL[0] PWROO EL[] LP# EL[] PI# PU OKET_P FOX_PZ-M-0 E 0 E F E F E F 0 R U Y E E H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_TN# H_TP# H_INV# OMP0 R._F 00 OMP R._F 00 OMP R0._F 00 OMP R._F 00 H_PWR H_PULP# H_PRTP#,, H_PLP# H_PWR# H_PWR H_PULP# PI# H_PWR H_PULP# H_PLP# Layout Note: omp0, connect with Zo=. ohm, make trace length shorter then 0.". Width=mil(M) omp, connect with Zo= ohm, make trace length shorter then 0.". Width=mil(M) MIL TP MIL TP MIL TP HON HI PREIION IN. O., LT. FOXONN P - R& ivision Penryn (HOT U) / ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

6 N_U_.V_M_ 00 VHORE VHORE U_.V_M_ U_.V_M_ N_U_.V_M_ U_.V_M_ N_U_.V_M_ 00 U_.V_M_ 00 VHORE 0 N_U_.V_M_ U_.V_M_ U_.V_M_ U_.V_M_ U_.V_M_ VHORE U_.V_M_ U_.V_M_ U_.V_M_ U_.V_M_ N_U_.V_M_ VHORE N_U_.V_M_ U_.V_M_ U_.V_M_ U_.V_M_ U_.V_M_ VHORE N_U_.V_M_ U_.V_M_ N_U_.V_M_ N_U_.V_M_ N_U_.V_M_ VHORE 0 N_U_.V_M_ U_.V_M_ VHORE U_.V_M_ N_U_.V_M_ U_.V_M_ 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] 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[] VENE VENE PU OKET_P FOX_PZ-M E E0 E E E E E E0 F F0 F F F F F F0 V J K M J K M N N R R T T V W F E F E F E F E VHORE H_VI0 H_VI H_VI H_VI H_VI H_VI H_VI 0 m R 00 R 00 R 00 R 00 R 00 R 00 R 00 VENE VENE P + 0U_.V_M ame Length PU_V---->0. PU_VP----->. PU_V------> 0.U_V_Y 00_YV 0U_.V_Y 00_YV +_VRUN. 0.0U_.V_K 00_XR VI0 VI VI VI VI VI VI Layout Note: Route VENE & VENE traces at. Ohms with mil spacing to other signals. Place PU and P within inch of PU. Outer width= mil spacing= mil Inner width= mil spacing= mil Length match < mil 0.U_V_Y 00_YV 0.U_V_Y 00_YV 0 mil 00 mil LYOUT NOTE: Place 0.0uF near PIN VHORE 0.U_V_Y 00_YV R 00_F 00 R0 00_F 00 0.U_V_Y 00_YV VENE VENE +_0VRUN 0.U_V_Y 00_YV PU & P avoid to route with stub U V[00] V[0] V[00] V[0] V[00] V[0] V[00] V[0] V[00] V[0] V[00] V[0] V[00] V[0] F V[00] V[0] V[00] V[00] V[00] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[00] V[00] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[0] V[00] V[] V[0] V[] V[0] V[] V[0] V[] V[0] V[] E V[0] V[] E V[0] V[] E V[0] V[] E V[0] V[] E V[0] V[0] E V[00] V[] E V[0] V[] E V[0] V[] E V[0] V[] F V[0] V[] F V[0] V[] F V[0] V[] F V[0] V[] F V[0] V[] F V[0] V[0] F V[00] V[] F V[0] V[] F V[0] V[] V[0] V[] V[0] V[] V[0] V[] V[0] V[] H V[0] V[] H V[0] V[] H V[0] V[0] H V[00] V[] J V[0] V[] J V[0] V[] J V[0] V[] J V[0] V[] K V[0] V[] K V[0] V[] K V[0] V[] K V[0] V[] L V[0] V[0] L V[00] V[] L V[0] V[] L V[0] V[] M V[0] V[] M V[0] V[] M V[0] V[] M V[0] V[] N V[0] V[] N V[0] V[] N V[0] V[0] N V[00] V[] P V[0] V[] V[] PU OKET_P FOX_PZ-M-0 P P P R R R R T T T T U U U U V V V V W W W W Y Y Y Y E E E E E E E E E F F F F F F F F HON HI PREIION IN. O., LT. FOXONN P - R& ivision Penryn (HOT U) / ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

7 +_0VRUN R _F 00 R 00_F 00 W/ = 0/0mil H_WIN 0 0.U_V_M_ 00 W/ = 0/0mil H_ROMP R._F 00 +_0VRUN R K_F 00 R K_F 00 H_#[..0] H_#[..0] H_PURT# H_PULP# Place ap. near MH within 00 mils. N_0.U_0V_K 00_XR 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_WIN H_ROMP H_PURT# H_PULP# R 00 H_VREF H_VREF U F H_#_0 H_#_ F H_#_ E H_#_ H_#_ H H_#_ H H_#_ F H_#_ H_#_ H H_#_ M H_#_0 M H_#_ J H_#_ J H_#_ N H_#_ J H_#_ P H_#_ L H_#_ R H_#_ N H_#_ L H_#_0 M H_#_ J H_#_ N H_#_ R H_#_ N H_#_ N H_#_ P H_#_ N H_#_ L H_#_ N0 H_#_0 M H_#_ Y H_#_ H_#_ Y H_#_ Y0 H_#_ Y H_#_ Y H_#_ Y H_#_ W H_#_ H_#_0 Y H_#_ H_#_ H_#_ H_#_ H_#_ 0 H_#_ H_#_ E H_#_ E H_#_ H_#_0 H_#_ H_#_ H_#_ H_#_ E H_#_ F H_#_ H_#_ E H_#_ H_#_ E H_#_0 E H_#_ H_#_ H_#_ H_WIN E H_ROMP H_PURT# E H_PULP# H_VREF H_VREF NTI HOT Traces width 0 mils. H_#_ H_#_ H_#_ F H_#_ H H_#_ H_#_ M H_#_ J H_#_0 P H_#_ R H_#_ N H_#_ M H_#_ E H_#_ P H_#_ F H_#_ 0 H_#_ H_#_ J H_#_0 E0 H_#_ H H_#_ J0 H_#_ L H_#_ H_#_ H_#_ L H_#_ H_#_ J H_#_ H0 H_#_0 H_#_ K H_#_ 0 H_#_ F H_#_ K H_#_ L0 H_# H H_T#_0 H_T#_ H_NR# H_PRI# F H_REQ# H_EFER# E H_Y# 0 HPLL_LK H HPLL_LK# H H_PWR# J H_RY# F H_HIT# H H_HITM# E H_LOK# H H_TRY# H_INV#_0 J H_INV#_ L H_INV#_ Y H_INV#_ Y H_TN#_0 L0 H_TN#_ M H_TN#_ H_TN#_ E H_TP#_0 L H_TP#_ M H_TP#_ H_TP#_ E H_REQ#_0 H_REQ#_ K H_REQ#_ F H_REQ#_ H_REQ#_ H_R#_0 H_R#_ F H_R#_ 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_TN#0 H_TN# H_TN# H_TN# H_TP#0 H_TP# H_TP# H_TP# H_REQ#0 H_REQ# H_REQ# H_REQ# H_REQ# H_R#0 H_R# H_R# H_# H_T#0 H_T# H_NR# H_PRI# H_REQ#0 H_EFER# H_Y# LK_MH_LK LK_MH_LK# H_PWR# H_RY# H_HIT# H_HITM# H_LOK# H_TRY# H_#[..] H_INV#[..0] H_TN#[..0] H_TP#[..0] H_REQ#[..0] H_R#[..0] HON HI PREIION IN. O., LT. FOXONN P - R& ivision antiga (HOT) / ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

8 MH_F_~0 F Frequency MH_F_~ MH_F_ MI X elect MH_F_ ITPM Host Interface MH_F_ Intel Management Engine rypto trap MH_F_ MH_F_ PIE raphics Lane MH_F_0 PIE Loopback enable MH_F_ MH_F_ LLZ MH_F_ XOR MH_F_~ MH_F_ F ynamic OT MH_F_~ MH_F_ MI Lane Reversal MH_F_0 igital isplay Port (VO/ P/iHMI) oncurrent with PIe 000 = F0 ; 00 = F00; 0 = F ; Others = Reserved Reserved Low = MI X High = MI X (efault) Low =The ITPM Host Interface is enabled High = The ITPM Host Interface is disabled (default) Low = Intel Management Engine rypto Transport Layer ecurity (TL) cipher suite with no confidentiality High = Intel Management Engine rypto TL cipher suite with confidentiality (default) Reserved Low = Reverse Lane High = Normal operation Low = Enabled High = isabled (default) Reserved Low = LLZ mode enabled High = isabled (default) Low = XOR mode enabled High = isabled (default) Reserved Low = ynamic OT disabled High = ynamic OT enabled (default) Reserved Low = Normal operation (efault): Lane Numbered in Order High = Reverse Lanes MI x mode [()MH->IH]: (->0, ->, -> and 0->) MI x mode [()MH ->IH]: (->0, ->) Low = Only digital display port (VO/P/iHMI) or PIe is operational (default) High = igital display port (VO/P/iHMI) and PIe are operating simultaneously via the PE port, R_LERT# +VRUN R 0K_J 00 R 0K_J 00 R 00,,,0,,,,0, PLT_RT#,, PM_THRMTRIP# RIMM_VREF R 00 MR_VREF 0.U_V_M_ 00 MH_EL0 MH_EL MH_EL TP MIL TP0 MIL 00 R N_.K_J R N_.K_J 00 R N_.K_J 00 TP MIL 00 R0 N_.K_J TP MIL TP MIL TP MIL PM_EXTT#0 TP MIL TP MIL PM_EXTT# TP MIL TP MIL TP0 MIL PM_EXTT#0 TP MIL TP MIL TP MIL TP Trace as short as possible TP MIL 0.U_V_M_ 00 PM_YN#,, H_PRTP# PM_EXTT#0 PM_EXTT#, IMVP_PWR PLT_RT# PM_THRMTRIP#, TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP0 MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP0 MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL PRLPVR TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP0 MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP0 MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP MIL TP0 MIL TP MIL MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_0 MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_RV_0 MH_RV_ MH_RV_ MH_RV_ MH_RV_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_0 MH_F_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_ MH_F_0 H_PRTP# PM_EXTT#0 PM_EXTT# IMVP_PWR 00_F R 00 R0 00 PRLPVR 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_ N_ M N R T H H0 H H K L K N M T M Y F H F 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 F H E H F H H H H H F H E F F U RV RV RV RV RV RV RV RV RV RV0 RV RV RV RV RV RV RV RV0 RV RV RV RV F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 PM_YN# PM_PRTP# PM_EXT_T#_0 PM_EXT_T#_ PWROK RTIN# THERMTRIP# PRLPVR 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_ N_ F[:] internal pull-up F[0:] internal pull-down RV N R LK/ ONTROL/OMPENTION LK F MI RPHI VI PM ME MI H _K_0 _K K_0 _K K#_0 _K# K#_0 _K# KE_0 _KE KE_0 _KE #_0 _# #_0 _# OT_0 _OT OT_0 _OT_ M_ROMP M_ROMP# M_ROMP_VOH M_ROMP_VOL M_VREF M_PWROK M_REXT M_RMRT# PLL_REF_LK PLL_REF_LK# PLL_REF_LK PLL_REF_LK# PE_LK PE_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_ FX_VI_0 FX_VI_ FX_VI_ FX_VI_ FX_VI_ FX_VR_EN L_LK L_T L_PWROK L_RT# L_VREF P_TRLLK P_TRLT VO_TRLLK VO_TRLT LKREQ# IH_YN# TTN# H_LK H_RT# H_I H_O H_YN P T V U0 R R U V0 Y Y Y V R Y F Y 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 F E H H N J H N M E K H 0 M_ROMP M_ROMP# M_ROMP_VOH M_ROMP_VOL MR_VREF M_PWROK M_REXT M_RMRT# 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 REFLK REFLK# REFLK REFLK# P_TRLLK P_TRLT MH_LK_REQ# MH_IH_YN# M_TTN# M_LK_R0 M_LK_R M_LK_R M_LK_R M_LK_R#0 M_LK_R# M_LK_R# M_LK_R# M_KE0, M_KE, M_KE, M_KE, M_#0, M_#, M_#, M_#, M_OT0, M_OT, M_OT, M_OT, R0 0._F 00 +_VU R 0._F 00 MIL TP LK_MH_PLL LK_MH_PLL# L_LK0 L_T0 MPWROK L_RT#0 MIL TP MIL TP MH_LK_REQ# MH_IH_YN# +_VU R K_F 00 R.0K_F 00 R K_F 00 MI_TXN[:0] MI_TXP[:0] MI_RXN[:0] MI_RXP[:0] Width =mil 0.U_0V_K 00_XR 0.0U_V_K_ U_V_K_ 00 +_0VRUN M_ROMP_VOH.U_0V_Y 00_YV M_ROMP_VOL M_PWROK M_REXT R _F 00 External raphics (MH RT/TVOUT isable) REFLK R0 NV_ 00 R0 NV_ 00 R0 NV_ 00 R0 _F 00.U_0V_Y 00_YV R0 NV_ 00 R K_F 00 R 0K_J 00 REFLK# REFLK REFLK# M_TTN# +_0VRUN R _J 00 NTI FOXONN HON HI Precision Ind. o., Ltd. P - R& ivision antiga (MI) / ize ocument Number Rev ustom M0(MX-) 0. Friday, June, 00 ate: heet of

9 U +_0VRUN.(Page ) 0// hange PIE apactior size from 00 to 00 R N_.K_F 00 0 mils away from toggling signals. TYPE is open drawn(output) heck list.k to.v M0.KK to.v R.KK to.v +VRUN 0/ hange N to stuff +VRUN R N_.K_J 00 TP MIL TP MIL heck List=.K R=.K M0=.K R N_.K_J 00 TV_ONEL0 TV_ONEL M_ M_ M_ TP MIL LV_I TP MIL LV_V M_LUE M_REEN M_RE M_LK M_T M_HYN_R RT_IREF M_VYN_R L_KLT_TRL L_KLT_EN L_TRL_LK L_TRL_T L LK L T TV_ONEL0 TV_ONEL L M M K J M E E 0 H E 0 0 H F0 0 H J F K F H K H E E J H J J E L L_KLT_TRL L_KLT_EN L_TRL_LK L_TRL_T L LK L T L_V_EN LV_I LV_V LV_VREFH LV_VREFL LV_LK# LV_LK LV_LK# LV_LK LV_T#_0 LV_T#_ LV_T#_ LV_T#_ LV_T_0 LV_T_ LV_T_ LV_T_ LV_T#_0 LV_T#_ LV_T#_ LV_T#_ LV_T_0 LV_T_ LV_T_ LV_T_ TV_ TV_ TV_ TV_RTN TV_ONEL_0 TV_ONEL_ RT_LUE RT_REEN RT_RE RT_IRTN RT LK RT T RT_HYN RT_TVO_IREF RT_VYN LV PI-EXPRE RPHI TV V PE_OMPI PE_OMPO PE_RX#_0 PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_0 PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_ PE_RX#_ PE_RX_0 PE_RX_ PE_RX_ PE_RX_ PE_RX_ PE_RX_ PE_RX_ PE_RX_ PE_RX_ PE_RX_ PE_RX_0 PE_RX_ PE_RX_ PE_RX_ PE_RX_ PE_RX_ PE_TX#_0 PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_0 PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_ PE_TX#_ PE_TX_0 PE_TX_ PE_TX_ PE_TX_ PE_TX_ PE_TX_ PE_TX_ PE_TX_ PE_TX_ PE_TX_ PE_TX_0 PE_TX_ PE_TX_ PE_TX_ PE_TX_ PE_TX_ T PE_OMP T H PE_RXN0 J PE_RXN L PE_RXN L0 PE_RXN N PE_RXN P PE_RXN N PE_RXN T PE_RXN U PE_RXN Y PE_RXN Y PE_RXN0 Y PE_RXN PE_RXN PE_RXN PE_RXN PE_RXN H PE_RXP0 J PE_RXP L PE_RXP L PE_RXP N0 PE_RXP P PE_RXP N PE_RXP T PE_RXP U PE_RXP Y PE_RXP W PE_RXP0 Y PE_RXP PE_RXP PE_RXP PE_RXP 0 PE_RXP J PE_TXN0 M PE_TXN M PE_TXN M0 PE_TXN M PE_TXN R PE_TXN N PE_TXN T0 PE_TXN U PE_TXN U0 PE_TXN Y0 PE_TXN0 PE_TXN PE_TXN 0 PE_TXN PE_TXN PE_TXN J PE_TXP0 L PE_TXP M PE_TXP M PE_TXP M PE_TXP R PE_TXP N PE_TXP T PE_TXP U PE_TXP U PE_TXP Y PE_TXP0 Y PE_TXP PE_TXP PE_TXP PE_TXP PE_TXP R._F 00 PE_RXN[..0] PE_RXP[..0] PE_TXN0 PE_RXN_0 NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ 0 NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN0 PE_RXN_0 NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ NV_0.U_.V_K 00_XR PE_TXN PE_RXN_ 0 NV_0.U_.V_K 00_XR PE_TXP0 PE_RXP_0 NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ 0 NV_0.U_.V_K 00_XR PE_TXP0 PE_RXP_0 NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_TXP PE_RXP_ NV_0.U_.V_K 00_XR PE_RXN_[..0] PE_RXP_[..0] NTI External raphics (MH RT/TVOUT isable) R0 NV_ 00 R0 NV_ 00 R0 NV_ 00 R0 NV_ 00 R0 NV_ 00 R0 NV_ 00 R0 NV_ 00 M_LUE M_REEN M_RE RT_IREF M_ M_ M_ R0 NV_ 00 R0 NV_ 00 R00 NV_ 00 R0 NV_ 00 R0 NV_ 00 R0 NV_ 00 R0 NV_ 00 R00 NV_ 00 M_HYN_R M_VYN_R M_LK M_T L LK L T TV_ONEL0 TV_ONEL R0 NV_ 00 R0 NV_ 00 L_TRL_LK L_TRL_T HON HI PREIION IN. O., LT. FOXONN P - R& ivision antiga (RPHI) / ize ocument Number Rev ustom M0(MX-) 0. ate: Friday, June, 00 heet of

10 M Q[..0] 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 Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q U J _Q_0 J _Q_ N _Q_ M _Q_ J _Q_ J0 _Q_ M _Q_ M _Q_ N _Q_ N _Q_ U0 _Q_0 T _Q_ N _Q_ N _Q_ U _Q_ U _Q_ V _Q_ Y _Q_ 0 _Q Q_ V _Q_0 Y _Q Q_ 0 _Q_ Y _Q Q_ V _Q_ T _Q_ Y _Q Q_ V _Q_0 W _Q Q_ U _Q Q Q_ U _Q_ V _Q Q Q Q_0 _Q_ U0 _Q_ V _Q Q Q_ Y _Q Q_ V _Q_ V _Q_ T _Q_0 N _Q_ U _Q_ U _Q_ T _Q_ N0 _Q_ M _Q_ M _Q_ J _Q_ J _Q_ N _Q_0 M _Q_ J _Q_ J _Q_ NTI R YTEM MEMORY 0 T _R# 0 _# 0 _WE# Y0 _M_0 M _M_ T _M_ Y _M_ U _M M_ Y _M_ T _M_ J _Q_0 J _Q_ T _Q Q Q_ W _Q Q_ U _Q_ M _Q#_0 J _Q#_ T _Q# Q# Q#_ Y _Q# Q#_ U _Q#_ M M M0 M M M M M M M M M M M M M M M Q0 M Q M Q M Q M Q M Q M Q M Q M Q#0 M Q# M Q# M Q# M Q# M Q# M Q# M Q# M 0 _M_0 M M_ M M_ M M_ H M M_ M M_ M M_ M M_ M M_ F M M_ W M 0 _M_0 M M_ M M_ H M M_ H M M_ Y M R#, M #, M WE#, M [0..], M Q[..0] 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 Q M Q M Q M Q M Q M Q M Q0 M Q M Q M Q M 0, _Q_0 0 M 0, M, H _Q M, M, P _Q M, M M[..0] M Q[..0] M Q#[..0] UE K P _Q_ J _Q_ J _Q_ M _Q_ P _Q_ U _Q_ U _Q Q_0 Y _Q_ T _Q_ R _Q Q Q Q Q Q_ F _Q_ E _Q_0 _Q_ F0 _Q_ F _Q Q_ F _Q_ H _Q Q_ H0 _Q Q Q_0 H _Q_ H _Q Q_ H _Q Q_ H _Q_ F _Q_ F _Q Q Q_0 _Q_ Y _Q_ Y _Q_ F _Q_ F _Q Q Q_ V _Q_ U _Q_ R _Q_0 N _Q_ Y _Q_ V _Q_ P _Q_ R _Q_ L _Q_ L _Q_ J _Q_ H _Q_ M _Q_0 M _Q_ H _Q_ J _Q_ NTI R YTEM MEMORY _R# U _# _WE# F _M_0 M _M_ Y _M_ 0 _M_ F _M M M_ P _M_ K M M0 M M M M M M M M M M M M M M M Q0 _Q_0 L M Q _Q_ V M Q _Q_ M Q _Q_ M Q _Q_ H M Q _Q_ M Q _Q_ U M Q _Q_ N M Q#0 _Q#_0 L M Q# _Q#_ V M Q# _Q#_ H M Q# _Q#_ H M Q# _Q#_ M Q# _Q#_ M Q# _Q#_ T M Q# _Q#_ N M 0 _M_0 V M M_ M M_ M M_ U M M_ W M M_ M M_ U M M_ W M M_ T M M_ M 0 _M_0 M M_ W M M_ Y M M_ H M M_ U M R#, M #, M WE#, M M[..0] M Q[..0] M Q#[..0] M [0..], HON HI PREIION IN. O., LT. FOXONN P - R& ivision antiga (RII) / ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet 0 of

11 +V_RT_ +_0VRUN L 0R-00MHZ_00 EM000HR L 0R-00MHZ_00 EM000HR _0VRUN_R R +_VRUN +_VRUN 0R-00MHZ_00 TI00U +V._PEPLL_R R +V.0M_PLL +V.0M_PLL m 0.U_.V_K 00_XR.m +V.0M_HPLL +V.0M_MPLL _F U_.V_M_ 00 +V._TV R NV_ 00 +_0VRUN +V.0M_PEPLL L _F 0U_.V_M 00 00_XR 0U_.V_M 00_XR L close to pin M 0R-00MHZ_00 TI00U R NV_ U_0V_K 00_XR 0.0U_0V_K 00_XR 0.U_0V_K 00_XR 0.U_0V_K 00_XR 0 0.U_0V_K 00_XR 0.U_0V_K 00_XR R NV_ 00 0.U_0V_K 00_XR +V._Q R0 N_ 00 +_VRUN +_VRUN +V.0M_PEPLL +V.0M_PEPLL +_0VRUN +_0VRUN +_VRUN +V._Q +_0VRUN P + 00U_.V_M.m 0.U_0V_K 00_XR R NV_ N_U_.V_M_ m +V_RT_ UH V_RT V_RT.m V V 00 U_.V_M_ +V.0M_PLL +V.0M_PLL F V_PLL +V.0M_HPLL L V_PLL +V.0M_MPLL V_HPLL E V_MPLL.m +V._TXLV J V_LV 0.m J V_LV 00 U_.V_Y_Y 00_XR.U_.V_K 0m V_PE_PLL 0m R0 V_M_ P0 V_M_ N0 V_M_ R V_M_ P V_M_ N V_M_ T V_M_ R V_M_ P V_M_ 0m V_PE_ +V._LV NTI RT PLL LV PE M m P V_M_K_ N V_M_K_ P V_M_K_ N V_M_K_ N V_M_K_ M V_M_K_NTF_ M V_M_K_NTF_ M V_M_K_NTF_ L V_M_K_NTF_ M V_M_K_NTF_ L V_M_K_NTF_ M V_M_K_NTF_ L V_M_K_NTF_ +V._TV.m V_TV V_TV 00 U_.V_M_ 00_YV N_.U_0V_Y R NV_ 00 0.U_0V_K 00_XR 00_XR 0.U_0V_K V_H.m.m M V_TV L V_Q +V.0M_PEPLL 0m F V_HPLL V_PE_PLL 0.U_0V_K 0.m 00_XR M V_LV_ L V_LV_ TV H LV POWER K TV/RT XF M K MI HV PE VTT VTTLF 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_M_K_ V_M_K_ V_M_K_ V_M_K_ V_TX_LV V_HV_ V_HV_ V_HV_ V_PE_ V_PE_ V_PE_ V_PE_ V_PE_ 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 0 F0 K V U V U U H F H m.u_.v_k 00_XR 0m.m.m +V._HV 0.m m m VTTLF_P L VTTLF_P VTTLF_P 0.U_.V_Y_Y 00 V_PE V_PE U_.V_Y_Y 00 L _VU_XF UH_00 R _F _VU_XF_R EFL0-R0M R 00 0.U_0V_K 0U_.V_M 00_XR 00_XR R NV_ 00.U_.V_K 00_XR +V._TXLV.U_.V_K 00_XR 0.U_0V_K 00_XR 0 0.U_.V_Y_Y 00 +_0VRUN.U_0V_Y_Y 00 H00H-0PT 0.U_.V_Y_Y 00 0.U_.V_Y_Y 00 +_0VRUN N_0U_.V_M 00_XR +VRUN _0VRUN_ +_0VRUN R0 00 +_VU V_PE +_0VRUN R V_PE 0 + P U_.V_M_ 0U_.V_M 00 P + 0U_.V_M +V._HV R 00 0.U_0V_K 00_XR 0.U_0V_K 00_XR R NV_ 00 HON HI PREIION IN. O., LT. FOXONN P - R& ivision antiga (POWER,V) / ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

12 . V_MH_ UF +_0VRUN V_ V_ V_ V_ Y V_ V V_ U V_ M V_ K V_ J V_0 V_ F V_ E V_ V_ V_ Y V_ W V_ V V_ U V_ H V_0 F V_ V_ V_ J V_ V_ E V_ V_ H V_ V_ F V_0 V_ J V_ H V_ F V_ R 00 T V_ NTI 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_ +_0VRUN U +_VU P V_M_ N V_M_ H V_M_ V_M_ F V_M_ V_M_ V_M_ V_M_ V_M_ Y V_M_0 W V_M_ V V_M_ U V_M_ T V_M_ R V_M_ P V_M_ N V_M_ H V_M_ V_M_ F V_M_0 0 V_M_ H V_M_ V_M_ F V_M_ V_M_ V_M_ V_M_ V_M_ Y V_M_ W V_M_0 V V_M_ U V_M_ T V_M_ R V_M_ P V_M_ M V_M_ V_M_ V_M_/N L V_M_ V_M_/N K V_M_/N J V_M_0 V_M_/N H W V_M_0/N W V_M_ V_M_/N E T V_M_/N +VFX_ORE Y W Y V_X_ U. E V_X_ M0 V_X_ L0 V_X_ K0 E V_X_ H0 V_X_ 0 V_X_ F0 Y V_X_ E0 E V_X_ 0 V_X_0 0 V_X_ 0 V_X_ Y0 J V_X_ W0 V_X_ V0 E V_X_ U0 V_X_ L V_X_ K Y V_X_ J H0 V_X_ H F0 V_X_0 E0 V_X_ E 0 V_X_ 0 V_X_ 0 V_X_ Y T V_X_ W T V_X_ V M V_X_ L L V_X_ K E V_X_ L J V_X_0 K H V_X_ K V_X_ K F V_X_ K V_X_ V_X_ Y V_X_ V V_X_ U V_X_ N V_X_ M V_X_0 U V_X_ T V_X_ MIL TP V_X_ENE J MIL TP V_X_ENE V_X_ENE H V_X_ENE POWER V M V FX V FX NTF V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_0 V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_0 V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_0 V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_0 V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_0 V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_ V_X_NTF_0 V M LF V_M_LF V_M_LF V_M_LF V_M_LF V_M_LF V_M_LF V_M_LF NTI +VFX_ORE 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 F E Y W V U M K H F E Y W V M L K J H F E Y W V U NV_ R 00 V V_M_LF M0 V_M_LF V_M_LF V V_M_LF Y M0 V_M_LF V_M_LF V_M_LF 0.U_0V_K 0 00_XR 0.U_0V_K 00_XR P + 0U_.V_M 0 mils from the Edge. V_M_ +_VU V_M_ +_0VRUN avity apacitors V_M_ Place where LV and R taps. 0.U_0V_Y_Y 00 U_.V_M_ 00 N_0.U_.V_K 00_XR 0.U_0V_K 00_XR 0.U_0V_Y_Y 00 0.U_0V_Y_Y 00 P0 + 0U_V_T EEFX0ER U_.V_M 00_XR U_.V_M 00_XR 0.U_0V_Y_Y 00 V_M_0 U_.V_M_ U_0V_K 00_XR V_M_ N_0.U_.V_K N_0.U_.V_K N_0.U_.V_K 00_XR 00_XR 00_XR 0.U_.V_Y_Y 00 Place on the Edge. N_0.U_.V_K 00_XR U_.V_M_ 00 HON HI PREIION IN. O., LT. FOXONN P - R& ivision antiga (V ORE) / ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

13 ize ocument Number Rev ate: heet of HON HI PREIION IN. O., LT. FOXONN P - R& ivision M0(MX-) 0. antiga (V) / Friday, June, 00 ize ocument Number Rev ate: heet of HON HI PREIION IN. O., LT. FOXONN P - R& ivision M0(MX-) 0. antiga (V) / Friday, June, 00 ize ocument Number Rev ate: heet of HON HI PREIION IN. O., LT. FOXONN P - R& ivision M0(MX-) 0. antiga (V) / Friday, June, 00 TP0 MIL TP0 MIL V UI NTI V UI NTI V_ U V_ V_ R V_ L V_ V_ W V_ N V_ J V_ F V_ V_0 V_ Y V_ T V_ N V_ L V_ V_ V_ V_ V V_0 R V_ M V_ V V_ R V_ P V_ H V_ F V_ F V_ H V_ V_0 V_ Y V_ U V_ T V_ M V_ F V_ V_ V V_ U V_ M V_0 J V_ V_ V_ Y V_ T V_ N V_ J V_ E V_ N V_ L V_0 V_ U V_ M V_ H V_ V_ V_ Y V_ U V_ T V_ M V_0 V_ V_ 0 V_ 0 V_ V0 V_ N0 V_ H0 V_ E0 V_ T V_ M V_0 J V_ E V_ N V_ L V_ V_ H V_ V_ V_ U V_ H V_0 V_ V_ Y V_ U V_ T V_ J V_ F V_ V_ V_00 M V_0 E V_0 P V_0 L V_0 J V_0 F V_0 V_0 H V_0 V_0 Y V_0 U V_ T V_ F V_ M V_ J V_ F V_ E V_ W V_ V_ V_0 V_ V_ V_ V V_ R V_ L V_ H V_ V_ P V_ L V_0 H V_ N V_ K V_ F V_ V_ V_ N V_ T V_ N V_ K V_0 H V_ F V_ V_ V_ V_ V_ V V_ T V_ R V_ J V_0 V_ E V_ V_ Y V_ P V_ K V_ H V_ F V_ V_ F V_0 H V_ F V_ V_ V_ V_ V_ H V_ V_ V_ V V_0 R V_ J V_ V_ Y V_ N V_ L V_ J V_ V_ E V_ F V_ F V_ V_0 W V_ T V_ N V_ J V_ H V_ V_ V_ U V_ T V_ H V_ V_ L V_ Y V_ V_ E V_ V_ V_ Y V_ J V_ F V_ R V_ K V_0 J V_ F V_ H V_ Y V_ K V_0 V_ J TP0 MIL TP0 MIL TP0 MIL TP0 MIL TP MIL TP MIL TP MIL TP MIL V V NTF V N UJ NTI V V NTF V N UJ NTI V_ V_0 W V_0 U V_0 P V_0 N V_0 H V_0 F V_0 V_0 R V_0 M V_0 J V_ V_ 0 V_ 0 V_ W0 V_ T0 V_ J0 V_ 0 V_ Y0 V_ N0 V_0 K0 V_ F0 V_ 0 V_ 0 V_ V_ V_ V_ V_ W V_ T V_0 R V_ M V_ H V_ V_ V_ U V_ N V_ N V_0 K V_ V_ E V_ V_ W V_ V_ V_ V_ V_0 V_ V_ V_ N V_ J V_ E V_ N V_ L V_0 V_ E V_ F V_ V V_ T V_ M V_ V_ J V_ V_ V_0 V_ Y V_ N V_ H V_ Y V_ N V_ V_ V_ 0 V_0 V0 V_ T0 V_ J0 V_ E0 V_ 0 V_ H V_ V_ V_0 V_ M V_ N V_ V_ M0 V_ F V_ H V_ Y V_ L V_00 E V_0 V_0 Y V_0 U V_0 N V_0 J V_0 E V_0 V_0 N V_0 J V_0 V_ V_ V V_ T V_ V_ M V_ M V_ V_ V_ H V_ V_0 Y V_ L V_ J V_ H V_ F V_ E V_ V_ V V_ L V_NTF_ F V_NTF_ V_NTF_ V V_NTF_ J0 V_NTF_ M V_NTF_ F V_NTF_ V_NTF_ U V_NTF_ U V_NTF_0 L0 V_NTF_ V0 V_NTF_ V_NTF_ L V_NTF_ J V_NTF_ V_NTF_ U V H V H V V V N_ E N_ N_ N_ N_0 N_ N_ N_ N_ N_ N_ N_ N_ N_ F N_0 E N_ N_ V_0 R V_ P V_ V_ R V_ U V_ P V_ F V_ W V_ E V_0 F V_ H V_ J V_ V_ V_ Y V_ M V_ K V_ M V_ V_ P V_0 H V_ V_ V V_ T V_ U V_ U V_ U V_ U V_00 L TP0 MIL TP0 MIL TP0 MIL TP0 MIL TP MIL TP MIL TP0 MIL TP0 MIL TP MIL TP MIL TP0 MIL TP0 MIL TP MIL TP MIL TP0 MIL TP0 MIL TP MIL TP MIL TP0 MIL TP0 MIL TP00 MIL TP00 MIL TP0 MIL TP0 MIL

14 +_VU +_VU 0.U_V_M_ μf and. μf placed close to VREF pins, 0, M 0 0, M WE#,.U_0V_Y_Y 00 M_KE0 0, M 0, M #, M_# M_OT,,,0 M_T_U,,,0 M_LK_U +VRUN.U_0V_Y_Y 00 R_VREF M Q0 M Q M Q#0 M Q0 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 M M Q M Q M M M M M M M 0 M Q M Q M Q# M Q M Q M Q M Q0 M Q M M M Q M Q M Q M Q M Q# M Q M Q0 M Q M Q M Q M M M Q M Q 0 0.U_V_Y 00_YV VREF V Q0 Q V Q#0 Q0 V Q Q V Q Q V Q# Q V Q0 Q V0 0 0 V Q Q V Q# Q V Q Q V Q Q V M N V Q Q V KE0 V N _ V V V0 0/P 0 WE# V # # V OT V Q Q V Q# Q V Q Q V Q0 Q V M V Q Q V0 Q Q V NTET V0 Q# Q V Q0 Q V Q Q V M V Q Q V L V(P) MFIX MFIX NPTH NPTH 0 0 IMM_0 N V Q Q V M0 0 V Q Q V Q 0 Q V M V K0 0 K0# V Q Q V 0 V0 Q0 Q V N 0 M V Q Q V 0 Q Q V Q# Q 0 V0 Q0 Q V KE 0 V V 0 V V 0 0 R# 0 0# 0 V OT0 V N 0 V Q Q V M 0 V Q Q V Q 0 Q V Q# Q V 0 Q Q V Q Q 0 V K K# V M 0 V Q Q V Q0 0 Q V Q# Q V 0 Q Q V 0 00 R_00P FOX_0-NRN-F M Q M Q M M0 M Q M Q M Q M Q M M M Q M Q M Q0 M Q R_EXTT#0 R N_ 00 M M M Q M Q M Q M Q M Q# M Q M Q0 M Q M M M M M M M 0.V per IMM=.0 M M Q M Q M M M Q M Q M Q M Q M Q# M Q M Q M Q M Q M Q M M M Q M Q M Q0 M Q M Q# M Q M Q M Q 0_IM0 R 0K_J 00 _IM0 R0 0K_J 00 M_LK_R0 M_LK_R#0 M_KE, M 0, M R# 0, M_#0, M_LK_R M_LK_R# M_OT0, Height = mm PM_EXTT#0 Mus ddress: 0H(W)/H(R) Place IMM_0 near MH M M[0..] 0 M Q[0..] 0 M Q[..0] 0 M Q#[..0] 0 M [0..] 0, R_VREF (0 mil) R_VREF Place these aps near o-imm0 0.U_0V_Y_Y 00 P + 0U_.V_M.x.x..U_0V_Y_Y 00 Place these aps near o-imm0.u_0v_y_y 00 0.U_V_Y_Y 00 RIMM_VREF +_VU +_VU 0.U_V_Y_Y 00 0.(Page ) 0// change R ONN(N) from FOX_0-NN-F to FOX_0_MNRN_F 0.U_V_Y_Y 00 0.U_V_M_ 00 R 00.U_0V_Y_Y 00 0.U_V_Y_Y 00.U_0V_Y_Y 00 HON HI PREIION IN. O., LT. FOXONN P - R& ivision R(II)O-IMM_0 ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

15 R_VREF 0.U_V_M_ 00.U_0V_Y_Y μf and. μf placed close to VREF pins M Q0 M Q M Q#0 M Q0 M Q M Q M Q M Q M Q# M Q M Q0 M Q +_VU N VREF V Q0 Q V Q#0 Q0 V Q Q V Q Q V Q# Q V Q0 Q V0 V Q Q V M0 V Q Q V Q Q V M V K0 K0# V Q Q V _VU M Q M Q M M0 M Q M Q M Q M Q M M M Q M Q.V per IMM=.0 M_LK_R M_LK_R# Height = mm M M[0..] 0 M Q[0..] 0 M Q[..0] 0 M Q#[..0] 0 M [0..] 0,, 0, M 0, M 0 0, M WE# 0, M #, M_#, M_KE M_OT,,,0 M_T_U,,,0 M_LK_U +VRUN 0.U_0V_Y_Y 00 M Q M Q M Q# M Q M Q M Q M Q M Q M M M Q M Q M M M M M M M 0 M Q M Q M Q# M Q M Q M Q M Q0 M Q M M M Q M Q M Q M Q M Q# M Q M Q0 M Q M Q M Q M M M Q M Q 0 0.U_V_Y 00_YV V Q Q V Q# Q V Q Q V Q Q V M N V Q Q V KE0 V N _ V V 0 0 V0 0 0/P WE# V # # V OT V Q Q V Q# Q V Q Q V Q0 Q V M V Q Q V0 Q Q V NTET V0 Q# Q V Q0 Q V Q Q V M V Q Q V L V(P) 0 N 0 NPTH R RM O-IMM (00P) R_00P FOX_0-NRN-F IMM_ V0 Q0 Q V N M V Q Q V Q Q V Q# Q V0 Q0 Q V KE V V V 0 V R# 0# V OT0 V N V Q Q V M V Q Q V Q Q V Q# Q V Q Q V Q Q V K K# V M V Q Q V Q0 Q V Q# Q V Q Q V 0 N NPTH M Q0 M Q R_EXTT# M M M Q M Q M Q M Q M Q# M Q M Q0 M Q M M M M M M M 0 M M Q M Q M M M Q M Q M Q M Q M Q# M Q M Q M Q M Q M Q M M M Q M Q M Q0 M Q M Q# M Q M Q M Q R N_ 00 R N_ 00 0_IM R 0K_J 00 _IM R 0K_J 00 M_KE, M 0, M R# 0, M_#, M_OT, M_LK_R M_LK_R# +VRUN PM_EXTT# Mus ddress: (W)/(R) IMM_ is placed farther from the MH than IMM_0.U_0V_Y_Y 00 P + 0U_.V_M.x.x. Place these aps near o-imm..u_0v_y_y 00 Place these aps near o-imm. 0.U_V_Y_Y 00 0.U_V_Y_Y 00 +_VU +_VU 0.(Page ) 0// change R ONN(N) from FOX_0_NR_F to FOX_0_MRN_F.U_0V_Y_Y 00.U_0V_Y_Y U_V_Y_Y 00.U_0V_Y_Y U_V_Y_Y 00 HON HI PREIION IN. O., LT. FOXONN P - R& ivision R(II)O-IMM_ ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

16 +0_VRUN 0 0.U_V_Y_Y U_V_Y_Y 00 Layout note: Place cap close to every Rtt to +0_VU +0_VRUN 0 0.U_V_Y_Y U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y U_V_Y_Y U_V_Y_Y 00 0.U_V_Y_Y U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y 00 0.U_V_Y_Y U_V_Y_Y 00 Layout note: Place cap close to every Rtt to +0_VU 0, M [0..] 0, M [0..] 0, M, M_OT0, M_#0 0, M R# M M 0 M RP M +0_VRUN R 00_PR +0_VRUN R RP 00_PR +0_VRUN R RP 00_PR M M M M 0, M WE# 0, M #, M_OT, M_# 0, M 0 +0_VRUN R RP 00_PR RP0 M M M 0 +0_VRUN R 00_PR +0_VRUN R RP 00_PR M M M M,, 0, M_OT M_# M 0, M R# +0_VRUN R RP 00_PR M M 0 M M +0_VRUN R RP 00_PR +0_VRUN R RP 00_PR M M M M, M_#, M_OT 0, M # 0, M WE# 0, M 0 +0_VRUN R RP 00_PR +0_VRUN R RP 00_PR M 0 M M +0_VRUN R RP 00_PR M M M M, M_KE +0_VRUN +0_VRUN RP 00_PR R _J 00 0, M R, M_KE _J 00, M_KE0 +0_VRUN, M_KE 0, M RP +0_VRUN 00_PR HON HI PREIION IN. O., LT. FOXONN P - R& ivision R(II)Termination ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

17 +VRUN R0 N_ 00 U / PI_EXPRE PEX_IOV_ PEX_IOV_ PEX_IOV_ PEX_IOV_ PEX_IOV_ K K K K K 0. 0.U_.V_K 00_XR 0.U_.V_K 00_XR Place near balls 0 U_.V_M 00_XR 0.U_.V_Y_Y 00 0 U_.V_M 00_XR Place near.u_.v_k 00_XR PEX_V U_.V_M_ 00,,,0,,,,0, PLT_RT# R0 NV_0K_J 00 U +VRUN NV_H0W R0 NV J 00 M PEX_RT_N PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_0. Place near balls Place near PEX_V LK_PIE_PE LK_PIE_PE# 00 LK_PIE_PE LK_PIE_PE# 00MHz R 00_F TXP0 TXN0 R PEX_TTLK_OUT# J PEX_TTLK_OUT J R R L M N_ PEX_TTLK_OUT PEX_TTLK_OUT_N PEX_REFLK PEX_REFLK_N PEX_TX0 PEX_TX0_N PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_0 PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ PEX_IOVQ_ J J J J J J J J K K0 K K L 0.U_.V_K 00_XR 0.U_.V_Y_Y 00 0.U_.V_K 00_XR 0 U_.V_M 00_XR 0.U_.V_Y_Y 00 0.U_.V_Y_Y U_.V_M 00_XR 0.U_.V_K 00_XR U_.V_M_ 00 PE_RXP_0 PE_RXN_0 P N PEX_RX0 PEX_RX0_N TXP[0..] TXN[0..] TXP0 TXP TXP TXP TXP TXP TXP TXP TXP TXP TXP0 TXP TXP TXP TXP TXP TXN0 TXN TXN TXN TXN TXN TXN TXN TXN TXN TXN0 TXN TXN TXN TXN TXN TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ M M N P L K R R0 L0 M0 P0 N0 M M N P L K R R L M P N M M N P PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N N_ N_ N_ N_ N_ N_ N_ N_ N_ N_0 N_ N_ N_ N_ N_ N_ N_ N_ N_ V_ V_ V_ V_ V_ F J K L E E F H M P P R U V J0 J J J J U_V_K 00_XR 0.0U_V_K 00_XR 0.0U_V_K 00_XR Place near balls 0.0U_V_K 00_XR 0.U_.V_K 00_XR 0.U_.V_K 00_XR 0.U_.V_Y_Y U_.V_Y_Y 00 0.U_.V_Y_Y 00 0 U_.V_M 00_XR +VRUN near U_.V_K 00_XR PE_RXP_[0..] PE_RXN_[0..] PE_RXP_0 PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_0 PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_ PE_RXP_ PE_RXN_0 PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_0 PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP0 TXN0 PE_RXP_0 PE_RXN_0 TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN PE_RXP_ PE_RXN_ TXP TXN L K R R L M P N M M N P L K R R K L P N M M0 N P M M R R N P PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX0 PEX_TX0_N PEX_RX0 PEX_RX0_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N PEX_RX PEX_RX_N PEX_TX PEX_TX_N V_ENE N_ENE PEX_PLLV N_ N_ PEX_TERMP 0 0 MIL MIL 0//Update current mark U_V_K 00_XR TP TP Place near balls PEX_L_TERMP 0.U_.V_K 00_XR R0 NV_.K_F 00 0.U_.V_Y_Y 00 0 U_.V_M 00_XR 0 U_.V_M 00_XR TF00-0NK Place under PU close to Ps.U_.V_K 00_XR VT to PVT 00 L0 0NH_00 PEX_V.U_.V_K 00_XR PE_RXP_ PE_RXN_ R P PEX_RX PEX_RX_N TETMOE P TETMOE NP--/H R0 0K_F 00 FOXONN HON HI Precision Ind. o., Ltd. P - R& ivision ize V (PI EXPRE) OF ocument Number Rev ustom M0(MX-) 0. Friday, June, 00 ate: heet of

18 PE_RXN[0..] TXN[0..] PE_RXP[0..] PE_RXP0 0 NV_0.U_.V_K TXP0 00_XR PE_RXP 0 NV_0.U_.V_K TXP 00_XR PE_RXP 0 NV_0.U_.V_K TXP 00_XR PE_RXP 0 NV_0.U_.V_K TXP 00_XR PE_RXP 0 NV_0.U_.V_K TXP 00_XR PE_RXP 0 NV_0.U_.V_K TXP 00_XR PE_RXP 0 NV_0.U_.V_K TXP 00_XR PE_RXP TXP 0 NV_0.U_.V_K 00_XR PE_RXP TXP NV_0.U_.V_K 00_XR PE_RXP NV_0.U_.V_K TXP 00_XR PE_RXP0 NV_0.U_.V_K TXP0 00_XR PE_RXP NV_0.U_.V_K TXP 00_XR PE_RXP NV_0.U_.V_K TXP 00_XR PE_RXP NV_0.U_.V_K TXP 00_XR PE_RXP TXP NV_0.U_.V_K 00_XR PE_RXP TXP NV_0.U_.V_K 00_XR TXP[0..] PE_RXN0 NV_0.U_.V_K TXN0 00_XR PE_RXN 0 NV_0.U_.V_K TXN 00_XR PE_RXN NV_0.U_.V_K TXN 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN NV_0.U_.V_K TXN 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN0 NV_0.U_.V_K TXN0 00_XR PE_RXN TXN 0 NV_0.U_.V_K 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR PE_RXN TXN NV_0.U_.V_K 00_XR XLK_ 0 (Reserved) (M Hz) NX TVMOE[:0] U_VENOR 0 (No vedio IO ROM) (IO ROM is present) LOT_LK_F 0 (PU and MH not share a common reference clk) (PU and MH share a common reference clk) PEX_PLL_EN_TERM 0 (isable) (Enable) bit Reserved 000 Mx R - ball -bit Qimonda 000 Mx R - ball -bit Hynix 00 Mx R - ball -bit amsung ROM_I (XXXX) ROM_O (000) ROM_LK (000) TRP0 UER[:0] () NX IO_PF[:0] 000 TRP (000) NX PI_EVI[:0] NP- X00 TRP NM- X00 (00) 000 -bit Reserved 00 Mx R - ball - monolithic -bit Qimonda 00 Mx R - ball - monolithic -bit Hynix 0 Mx R - ball - monolithic -bit amsung << ROM_I etting condition >> H Model => Mxbx - 00 Qimonda - 0K pull Low M Model => Mxbx - 00(Qimonda) - 0K pul Low L Model => Mxbx - 00 Qimonda - 0K pull Low N_0K_F R 00 N_K_F R 00 N_0K_F R 00 NVQI_0K_F R0 00 R 00 NVM_.K_F VT to PVT 00 ROM_O TRP0 R.K_F 00 R0 K_F 00 R.K_F 00 R 0K_F 00 R N_0K_F 00 ROM_I ROM_LK +VRUN TRP TRP R 0K_F 00 Logical trap bit Mapping Resister Pull-up Pull-down values to V to N KΩ KΩ KΩ KΩ 0 00 KΩ KΩ 0 00 KΩ 0 00 KΩ 0 Physical trapping pin ROM_I ROM_O ROM_LK TRP0 TRP TRP Power Rail +VRUN +VRUN +VRUN +VRUN +VRUN +VRUN trap Options Logical trapping pin RMF[] RMF[] XLK_ TVMOE[] PI_EVI[] U_VENOR UER[] UER[] IO_PF[] IO_PF[] PI_EVI[] Logical trapping pin PI_EVI[] Refer to < Family esign uide -0-00_v0_secured> Logical trapping pin RMF[] TVMOE[] LOT_LK_F UER[] IO_PF[] PI_EVI[] Logical trapping pin0 RMF[0] TVMOE[0] PEX_PLL_EN_TERM UER[0] IO_PF[0] PI_EVI[0] HON HI PREIION IN. O., LT. FOXONN P - R& ivision V (PI-EXPRE/TRP) OF ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

19 F[0:] FQM[..0] FWQ[..0] F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F FQM0 FQM FQM FQM FQM FQM FQM FQM FWQ0 FWQ FWQ FWQ FWQ FWQ FWQ FWQ R0 R P N0 L M M0 L0 P P N P N L L N K K0 0 K H0 F0 H K K K E E 0 H F F0 0 E0 E F F E E E N K L M L K0 J0 H0 M H H H H M L J P0 P J0 H F F L L N L J H E J J U / F F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_QM0 F_QM F_QM F_QM F_QM F_QM F_QM F_QM F_Q_WP0 F_Q_WP F_Q_WP F_Q_WP F_Q_WP F_Q_WP F_Q_WP F_Q_WP FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_0 FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_0 FVQ_ FVQ_ FVQ_ FVQ_ F_M0 F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M0 F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M0 F_M F_M F_M F_M F_M F_M F_M F_M N_ N_ J J J E J E H J J J J J0 J J V W U Y W W W0 T T Y0 Y W 0 Y U Y U Y W V0 U U0 U 0 T W.. 0.U_.V_K 00_XR 0.U_.V_K 00_XR F_ F_R# F_ F_ F_ F_ F_ F_# F_0# F_ F_# F_WE# F_0 F_ F_ F_REET F_ F_0 F_KE F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_RFU0 0.U_.V_K 00_XR 0 0.U_.V_K 00_XR F_R# F_ MIL TP F_0# F_# F_WE# F_0 F_REET F_KE MIL TP F_ MIL TP0 Place Near balls 0.U_.V_K 0.U_.V_K 00_XR 00_XR Place Near balls 0.U_.V_K 00_XR 0.U_.V_K 00_XR F_ F_ F_ F_ F_ F_0 F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_ 0 0.U_.V_Y_Y 00 0.U_.V_Y_Y 00 F_[0..] F_[..] +_VRUN 0.U_.V_Y_Y.U_.V_K 00 00_XR 0.U_.V_Y_Y.U_.V_K 00 00_XR F_LK0 FRQ[..0] FRQ0 F_LK0 T F_LK0 N F_LK0# FRQ F_Q_RN0 F_LK0_N T F_LK0# L F_LK FRQ F_Q_RN F_LK F_LK H F_LK# F_LK# FRQ F_Q_RN F_LK_N 0 FRQ F_Q_RN FRQ F_Q_RN FRQ F_Q_RN J FRQ F_Q_RN J F_Q_RN P R L M E H N_ N_ N_ N_ N_ N_ N_ N_ F_EU T0 MIL TP +_VRUN R N_.0K_F 00 F_LLV0 F_PLLV0 F 0.0 F_PLLV NV_0.U_V_Y_Y 00 0 NV_0.U_V_Y_Y NV_U_.V_M 00 00_XR PEX_V L0 NV_0R-00MHZ_00 T000U F_VREF J F_VREF N_0.0U_0V_M 00_XR R N_.K_F 00 NP--/H Place components close to the PU R F_VREF,, NV_PWR_MIZER N_.K_F Q 00 R 00 N_ N_N00EPT HON HI PREIION IN. O., LT. FOXONN P - R& ivision V(R)# / ize ocument Number Rev ustom M0(MX-) 0. Friday, June, 00 ate: heet of

20 F[0:] FQM[..0] FWQ[..0] F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F F F F F F F F0 F F F FQM0 FQM FQM FQM FQM FQM FQM FQM FWQ0 FWQ FWQ FWQ FWQ FWQ FWQ FWQ E F0 F F E F 0 E F F F E F F E F F E F E F 0 E F E F 0 E0 0 E U / F F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_ F_ F_ F_ F_ F_ F_0 F_ F_ F_ F_QM0 F_QM F_QM F_QM F_QM F_QM F_QM F_QM F_Q_WP0 F_Q_WP F_Q_WP F_Q_WP F_Q_WP F_Q_WP F_Q_WP F_Q_WP FVQ_ FVQ_ FVQ_0 FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ FVQ_ F_M0 F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M0 F_M F_M F_M F_M F_M F_M F_M F_M F_M F_M0 F_M F_M F_M F_M F_M F_M F_M F_M N_ N_0 N P R T U U V V V W Y F E0 F0 F F F E 0 0 E F F 0 0. Place Near 0.U_.V_K 00_XR 0.U_.V_K 00_XR Place Near. 0.U_.V_K 00_XR 0.U_.V_K 00_XR 0.U_.V_K 00_XR 0.U_.V_K 00_XR 0//Update current mark F_ F_R# F_R# F_ F_ F_ F_ F_ F_ F_ F_ F_# MIL TP F_ F_0# F_ F_0# F_ F_ F_# F_0 F_# F_WE# F_0 F_WE# F_0 F_ F_0 F_ F_ F_ F_ F_REET F_ F_REET F_ F_ F_0 F_ F_KE F_KE F_0 F_ F_ F_ F_ F_ F_ F_ F_ MIL TP F_ F_ F_ F_ F_RFU0 F_ MIL TP 0.U_.V_K 00_XR 0 0.U_.V_K 00_XR 0.U_.V_Y_Y 00 0.U_.V_Y_Y 00 0.U_.V_Y_Y 00 0.U_.V_Y_Y 00 F_[0..] F_[..] +_VRUN.U_.V_K 00_XR.U_.V_K 00_XR FRQ[..0] FRQ0 FRQ FRQ FRQ FRQ FRQ FRQ FRQ 0 E F F_Q_RN0 F_Q_RN F_Q_RN F_Q_RN F_Q_RN F_Q_RN F_Q_RN F_Q_RN F_LK0 F_LK0_N F_LK F_LK_N E E F_LK0 F_LK0# F_LK F_LK# F_LK0 F_LK0# F_LK F_LK# N_0 N_ N_ N_ N_ N_ N_ N_ F_EU F_LLV F_PLLV J J MIL 0.0 TP0 L0 PEX_V F_L_P_VQ F_L_PU_N +_VRUN R NV_._F 00 K F_L_P_VQ NV_0._F R 00 L F_L_PU_N NV_0.U_V_M_ 00 NV_0.U_V_M_ 00 NV_0R-00MHZ_00 T000U NP--/H F_L_TERM_N M F_L_TERMN NV_0._F R 00 Place components close to the PU HON HI PREIION IN. O., LT. FOXONN P - R& ivision V(R)# / ize ocument Number Rev ustom M0(MX-) 0. Friday, June, 00 ate: heet of 0

21 +VRUN L0 NV_0R-00MHZ_00 FM0KF-T0 0 NV_U_.V_M 00_XR 0. 0 NV_00P_V_K 00_XR _V 0 _VREF 0P_0V_K 00_XR NV_0.U_.V_K 00_XR _RET R0 NV F 00 UF / J _V K _VREF K _RET NP--/H I_L I HYN _VYN _RE _REEN _LUE NV_I_L NV_I_ M NV HYN L NV VYN M NV RE M NV REEN L NV LUE NV_I_L NV_I_ NV HYN NV VYN. ohm Trace 0 ohm Trace 00 R0 NV_0_F 00 R0 NV_0_F 00 R NV_0_F +VRUN NV_I_L R NV_.K_J 00 NV_I_ R NV_.K_J 00 NV RE NV REEN NV LUE LOE TO PU. Ohm to N when RT is disabled. R 00 NV_K_J NV V 0. U / _V K _VREF H _RET I_L I HYN _VYN _RE _REEN _LUE NV_I_L NV_I_ M M K L J +VRUN 00 NV_.K_J R 00 NV_.K_J R0 -RE -REEN -LUE -HYN -VYN V-RT R HYN VYN V-LK V-T I L NP--/H R0 00 NV_K_J _V 0. UH / (TV) _V _VREF _RET _YN _RE _REEN _LUE Y NP--/H HON HI PREIION IN. O., LT. FOXONN P - R& ivision V (RT)/ ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

22 UI / IFP IFP_TX_N IFP_TX M NV_O_LKIN- M NV_O_LKIN+ NV_O_LKIN- NV_O_LKIN+ +_VRUN L NV_0R-00MHZ_00 FM0KF-T0.U_.V_K 00_XR NV_00P_V_K 00_XR 00m P0 0P_0V_K 00_XR K IFP_PLLV J IFP_RET R 00 IFP_TX0_N IFP_TX0 IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_TX_N IFP_TX L M NV_O_RXIN0- NV_O_RXIN0+ M NV_O_RXIN- M0NV_O_RXIN+ L0 NV_O_RXIN- K0 NV_O_RXIN+ L NV_O_RXIN- K NV_O_RXIN+ NV_O_RXIN0- NV_O_RXIN0+ NV_O_RXIN- NV_O_RXIN+ NV_O_RXIN- NV_O_RXIN+ NV_O_RXIN- NV_O_RXIN+ +_VRUN L NV_0R-00MHZ_00 FM0KF-T0.U_.V_K 00_XR.U_.V_K 00_XR 0 NV_00P_V_K 00_XR 0 P NV_00P_V_K 0P_0V_K 00_XR 00_XR 00m P 0P_0V_K 00_XR 0 IFP_IOV IFP_IOV IFP_TX_N IFP_TX IFP_TX_N IFP_TX IFP_TX_N IFP_TX N NV_EVEN_LKIN- P NV_EVEN_LKIN+ P NV_EVEN_RXIN0- N NV_EVEN_RXIN0+ N0 NV_EVEN_RXIN- P0NV_EVEN_RXIN+ NV_EVEN_LKIN- NV_EVEN_LKIN+ NV_EVEN_RXIN0- NV_EVEN_RXIN0+ NV_EVEN_RXIN- NV_EVEN_RXIN+ IFP_TX_N IFP_TX R0 NV_EVEN_RXIN- RNV_EVEN_RXIN+ NV_EVEN_RXIN- NV_EVEN_RXIN+ NP--/H IFP_TX_N IFP_TX P NV_EVEN_RXIN- NNV_EVEN_RXIN+ NV_EVEN_RXIN- NV_EVEN_RXIN+ UJ / IFP IFP +_VRUN 0 NV_.U_.V_K 00_XR L NV_0R-00MHZ_00 T000U 0 NV_.U_.V_K 00_XR 0 NV_00P_V_K 00_XR P NV_0P_0V_K 00_XR 0. J K R NV_K_F 00 IFP_PLLV IFP_RET IFP_UX_N IFP_UX IFP_L_N IFP_L IFP_L_N IFP_L IFP_L_N IFP_L IFP_L0_N IFP_L0 N P R P M M M L M M NV_HMI_TX- NV_HMI_TX+ NV_TM_- NV_TM_+ NV_TM_0- NV_TM_0+ NV_TM_- NV_TM_+ NV_HMI_TX- NV_HMI_TX+ NV_TM_0- NV_TM_0+ NV_TM_- NV_TM_+ NV_TM_- NV_TM_+ 00// urrent update to 0. PEX_V L NV_0R-00MHZ_00 T000U 0 NV_.U_.V_K NV_U_.V_M 00_XR 00_XR 0 P NV_U_.V_M NV_00P_V_K NV_0P_0V_K 00_XR 00_XR 00_XR P NV_0P_0V_K 00_XR 0 0 J K IFP_IOV IFP_IOV IFP IFP_UX_N IFP_UX N P R 0K_F 00 IFP_L_N IFP_L IFP_L_N IFP_L R R P N NP--/H IFP_L_N IFP_L IFP_L0_N IFP_L0 N P R R HON HI PREIION IN. O., LT. FOXONN P - R& ivision V (LV/TM) / ize ocument Number Rev M0(MX-) 0. ate: Friday, June, 00 heet of

Σχετικά έγγραφα

Title of Schematics Page ICH8-M( GND) 5/5 SATA HDD/CD-ROM EC+KBC Flash ROM/XBUS

Title of Schematics Page ICH8-M( GND) 5/5 SATA HDD/CD-ROM EC+KBC Flash ROM/XBUS Page 0 0 0 0 0 0 0 0 0 0 0 0 of chematics Page chematics Page Index lock iagram Merom(HOT U) / Merom(HOT U) / Merom(Power/nd) / LOK N restline (HOT) / restline (MI) / restline (RPHI) / restline (RII) /

Διαβάστε περισσότερα

Schematics Page Index (Title / Revision / Change Date)

Schematics Page Index (Title / Revision / Change Date) Page 0 0 0 0 0 0 0 0 0 0 0 0 0 of chematics Page chematics Page Index lock iagram LOK N (K0) MROM(HOT U) / MROM(HOT U) / MROM(Power/nd) / restline (HOT) / restline (MI) / restline (RPHI) / restline (RII)

Διαβάστε περισσότερα

- - SA - - SA. Project Code & Schematics Subject: MS31/51 Main Board. Rev. Page Charger (MAX1909)

- - SA - - SA. Project Code & Schematics Subject: MS31/51 Main Board. Rev. Page Charger (MAX1909) Page 0 0 0 0 0 0 0 0 0 0 0 0 chematics Page Index ( / Revision / hange ate) of chematics Page chematics Page Index lock iagram Yonah(HOT U) / Yonah(HOT U) / Yonah(Power/nd) / LITO (HOT) / LITO (MI) / LIT

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

Page. 49 VRAM(BYPASS) 50 SDVO TO LVDS 51 LVDS-Inverter

Page. 49 VRAM(BYPASS) 50 SDVO TO LVDS 51 LVDS-Inverter Page 0 0 0 0 0 0 0 0 09 0 9 0 9 0 9 of chematics Page Index Page lock iagram(ystem) LOK N PU HOT / PU THRML / PU POWR / aglelake HOT/PI- / aglelake V/MI / aglelake RII H / aglelake RII H / aglelake POWR

Διαβάστε περισσότερα

Intel CPU. Penryn SV 3,4,5. FSB 800/1066MHz. Cantiga-PM. nvidia INTEGRATED GRAHPICS LVDS, CRT I/F. PCIE x 16 6,7,8,9,10,11 C-LINK INTEL ICH9-M

Intel CPU. Penryn SV 3,4,5. FSB 800/1066MHz. Cantiga-PM. nvidia INTEGRATED GRAHPICS LVDS, CRT I/F. PCIE x 16 6,7,8,9,10,11 C-LINK INTEL ICH9-M /MM M/M Pro/x RJ ONN RJ ONN LIN OUT MI IN INTRNL MI VIT lock iagram lock enerator ILPR RII /00 lot 0 RII /00 Realtek RT lot Realtek RTL0-R 0/00 MOM MOM X0-Z H UIO O X0-Z RII /00 hannel R II /00 hannel

Διαβάστε περισσότερα

2 HBU Intel UMA Block Diagram. Intel CPU. Penryn SV 3,4,5. FSB 800/1066MHz RGB CRT. Cantiga-GM/GL AGTL+ CPU I/F

2 HBU Intel UMA Block Diagram. Intel CPU. Penryn SV 3,4,5. FSB 800/1066MHz RGB CRT. Cantiga-GM/GL AGTL+ CPU I/F /MM M/M Pro/x RJ ONN RJ ONN LIN OUT MI IN INTRNL MI HU- Intel UM lock iagram lock enerator ILPR RII /00 lot 0 RII /00 Realtek RT lot Realtek RTL0T 0/00 MOM MOM X0-Z H UIO O X0-Z RII /00 hannel R II /00

Διαβάστε περισσότερα

Spears Intel UMA Block Diagram

Spears Intel UMA Block Diagram pears Intel UM lock iagram 00/0/ PU / IL LK N ILPR Intel PU Merom M F:MHz/00MHz,, Project code :.W00.00 P P/N : 0 Revision : - INPUT OUTPUT TOUT _OR YTM / TP R RT RT INPUT OUTPUT Host U /MHz LV L TOUT

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

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

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

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

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

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

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

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

STAR (Federer) 1.0 Page Modified: Thursday, March 18, :24:40

STAR (Federer) 1.0 Page Modified: Thursday, March 18, :24:40 0 -- OVER HEET 0 -- YTEM LOK RM 0 -- LOK MP 0 -- POWER MP 0 -- POWER EQUENY RM 0 -- POWER EQUENY TMN 0 -- MU MP 0 -- alpella (M,PE,F) 0 -- alpella (LK,M,JT) 0 -- alpella (R) -- alpella (POWER/N) -- alpella

Διαβάστε περισσότερα

MOSFETs. MOSFETs. High Voltage MOSFET (THD Type) Max. Ratings R DS(ON) ( ) Q g (nc) Outline (Unit: mm) Type No.

MOSFETs. MOSFETs. High Voltage MOSFET (THD Type) Max. Ratings R DS(ON) ( ) Q g (nc) Outline (Unit: mm) Type No. MOFETs High age MOFET (TH Type) Ratings R (ON) ( ) Q g (nc) BV I P (W) V I V KMB050N60P 60 50 1 0.018 0.022 10 25 32 10 KMB075N75P 75 75 190 0.013 0.017 10 37.5 85 10 KHB95NP 0 9.5 72 0.29 0.36 10 4.75

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

DISPLAY SUPPLY: FILTER STANDBY

DISPLAY SUPPLY: FILTER STANDBY ircuit iagrams and PW Layouts. ircuit iagrams and PW Layouts J.0 P. 0 isplay Supply P: ilter Standby MNS NPUT -Vac 00 P-V- V_OT 0 0 0 0 0 0 0 0 SPLY SUPPLY: LT STNY 0 M0 V 0 T,/0V MSU -VOLTS NOML... STNY

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

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

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

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

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

Applications. 100GΩ or 1000MΩ μf whichever is less. Rated Voltage Rated Voltage Rated Voltage

Applications. 100GΩ or 1000MΩ μf whichever is less. Rated Voltage Rated Voltage Rated Voltage Features Rated Voltage: 100 VAC, 4000VDC Chip Size:,,,,, 2220, 2225 Electrical Dielectric Code EIA IEC COG 1BCG Applications Modems LAN / WAN Interface Industrial Controls Power Supply Back-Lighting Inverter

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

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

Multilayer Ceramic Chip Capacitors

Multilayer Ceramic Chip Capacitors FEATURES X7R, X6S, X5R AND Y5V DIELECTRICS HIGH CAPACITANCE DENSITY ULTRA LOW ESR & ESL EXCELLENT MECHANICAL STRENGTH NICKEL BARRIER TERMINATIONS RoHS COMPLIANT SAC SOLDER COMPATIBLE* PART NUMBER SYSTEM

Διαβάστε περισσότερα

RF series Ultra High Q & Low ESR capacitor series

RF series Ultra High Q & Low ESR capacitor series RF series Ultra High Q & Low ESR capacitor series FAITHFUL LINK Features Application» High Q and low ESR performance at high frequency» Telecommunication products & equipments:» Ultra low capacitance to

Διαβάστε περισσότερα

Multilayer Ceramic Chip Capacitors

Multilayer Ceramic Chip Capacitors FEATURES X7R, X6S, X5R AND Y5V DIELECTRICS HIGH CAPACITANCE DENSITY ULTRA LOW ESR & ESL EXCELLENT MECHANICAL STRENGTH NICKEL BARRIER TERMINATIONS RoHS COMPLIANT SAC SOLDER COMPATIBLE* Temperature Coefficient

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

Multilayer Chip Inductor

Multilayer Chip Inductor Features -Monolithic structure for high reliability -High self-resonant frequency -Excellent solderability and high heat resistance Construction Applications -RF circuit in telecommunication and other

Διαβάστε περισσότερα

Series AM2DZ 2 Watt DC-DC Converter

Series AM2DZ 2 Watt DC-DC Converter s Single output FEATURES: RoHS Compliant Operating temperature -40 o C to + 85 o C Low ripple and noise Pin compatible with multiple manufacturers High efficiency up to 82% Input / Output Isolation 1000,3000,

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

Thermal Sensor LM26 5. Keyboard Light 12.1'' XGA LCD 19 LVDS CRT SELECTION RGB CRT USB 2.0 CH3 RICOH R5C847 IEEE1394 CONN. Cardbus + SD Card +

Thermal Sensor LM26 5. Keyboard Light 12.1'' XGA LCD 19 LVDS CRT SELECTION RGB CRT USB 2.0 CH3 RICOH R5C847 IEEE1394 CONN. Cardbus + SD Card + March ' Thermal ensor MX0 LM I us / M us us witch I HP OUT MI ONN for ali Int. MI for K- MI IN Mus UNUFFR R OIMM Normal ocket 00-PIN R OIMM UNUFFR R OIMM Reverse ocket T H OP MP MX99 9 H UIO O 9JP,, M

Διαβάστε περισσότερα

MMCX SERIES Microminiature Coaxial Connectors

MMCX SERIES Microminiature Coaxial Connectors SERIES Microminiature Coaxial Connectors FEATURES connectors are smaller than MCX connectors and are used from DC up to 6 GHz in applications where a tiny size is crucial. INTERFACE MATING DIMENSIONS PLUG:

Διαβάστε περισσότερα

First International Computer,Inc Protable Computer Group HW Department

First International Computer,Inc Protable Computer Group HW Department First International omputer,inc Protable omputer roup HW epartment oard name : Mother oard chematic. chematic Page escription : Project : P(M). PI & IRQ & M escription : Version : 0. Initial ate : ugust

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

First International Computer,Inc Protable Computer Group HW Department

First International Computer,Inc Protable Computer Group HW Department First International omputer,inc Protable omputer roup HW epartment oard name : Mother oard chematic. chematic Page escription : Project : T. PI & IRQ & M escription : Version : 0. Initial ate : eptember,

Διαβάστε περισσότερα

A, B. Before installation of the foam parts (A,B,C,D) into the chambers we put silicone around. We insert the foam parts in depth shown on diagram.

A, B. Before installation of the foam parts (A,B,C,D) into the chambers we put silicone around. We insert the foam parts in depth shown on diagram. Corner Joints Machining, Frame edge sealing. Page ID: frame01 D D C A, B A C B C A 20 60 Before installation of the foam parts (A,B,C,D) into the chambers we put silicone around. We insert the foam parts

Διαβάστε περισσότερα

EE101: Resonance in RLC circuits

EE101: Resonance in RLC circuits EE11: Resonance in RLC circuits M. B. Patil mbatil@ee.iitb.ac.in www.ee.iitb.ac.in/~sequel Deartment of Electrical Engineering Indian Institute of Technology Bombay I V R V L V C I = I m = R + jωl + 1/jωC

Διαβάστε περισσότερα

BM1385. Bitcoin Hash ASIC Datasheet. Bitmain Technologies Limited

BM1385. Bitcoin Hash ASIC Datasheet. Bitmain Technologies Limited BM1385 Bitcoin Hash ASIC Datasheet Bitmain Technologies Limited Page 1 of 14 Contents Contents... 1 Revision History... 2 1 Overview... 3 1.1 Features... 3 1.2 Applications... 3 2 Pin Description... 4

Διαβάστε περισσότερα

MAX-QUALITY ELECTRIC CO; LTD Thin Film Precision Chip Resistors. Data Sheet

MAX-QUALITY ELECTRIC CO; LTD Thin Film Precision Chip Resistors. Data Sheet Data Sheet Customer: Product: Size: Current Sensing Chip Resistor CS Series 0201/0402/0603/0805/1206/1010/2010/2512 1225/3720/7520 Issued Date: Edition : 12-Nov-10 REV.C5 Current Sensing Chip Resistor

Διαβάστε περισσότερα

TUCANA Block Diagram SFF PCH KBC. Intel CPU INTEL LPC SYSTEM DC/DC RT8223 PROJECT CODE : 91.4KK PCB P/N : 48.4KK01.0SB REVISION : S0201-SB LCD

TUCANA Block Diagram SFF PCH KBC. Intel CPU INTEL LPC SYSTEM DC/DC RT8223 PROJECT CODE : 91.4KK PCB P/N : 48.4KK01.0SB REVISION : S0201-SB LCD TUN lock iagram lock enerator I9LV9KLFT Thermal ensor MT TOP V N OTTOM Int MI Line Out MI In PKR.W RIII 00 RIII 00 P TKUP H odec Realtek L9 Flash ROM M 9 L L L L L L 0 lot 0 lot ~ RIII hannel RIII hannel

Διαβάστε περισσότερα

SMC SERIES Subminiature Coaxial Connectors

SMC SERIES Subminiature Coaxial Connectors SERIES Subminiature Coaxial Connectors FEATURES Subminiature coaxial connectors with 50 Ω impedance for applications up to 10 GHz. (screw on mechanism)fulfills the subminiature coaxial connector requirement

Διαβάστε περισσότερα

MIL-DTL Micro-D Connector R04J Series Straight to PCB Type

MIL-DTL Micro-D Connector R04J Series Straight to PCB Type MIL-TL-353 Micro- onnector R4J Series Straight to P Type Specication MIL-TL-353 Micro- onnector nvironment temperature: ~ Vibration: Hz~Hz, 6m/s Random vibration: Power spectrum density.4g Hz root mean

Διαβάστε περισσότερα

PROJECT : CHICAGO (For Intel Huron River Platform)

PROJECT : CHICAGO (For Intel Huron River Platform) PROJET : HO (For ntel Huron River Platform) 0 -- OVER HEET 0 -- YTEM LOK RM 0 -- LOK MP 0 -- POWER EQUENY RM 0 -- POWER MP 0 -- MU MP 0 -- lank 0 -- N/TT 0 -- PWR_HRE 0 -- PWR_V/.V -- PWR_VP -- PWR_.V/0.

Διαβάστε περισσότερα

WinMate Communication Inc. 9F, No Hsing Teh Road, San-Chung, Taipei, Taiwan, R.O.C TEL: FAX:

WinMate Communication Inc. 9F, No Hsing Teh Road, San-Chung, Taipei, Taiwan, R.O.C TEL: FAX: www.winmate.com.tw WinMate Communication Inc. 9F, No. 111-6 Hsing Teh Road, San-Chung, Taipei, Taiwan, R.O.C TEL:886-2-6635-5758 FAX:886-2-6635-5859 MTBF Test Report Product Model Product cription Issue

Διαβάστε περισσότερα

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

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

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

SMC SERIES Subminiature Coaxial Connectors

SMC SERIES Subminiature Coaxial Connectors SERIES Subminiature Coaxial Connectors FEATURES Subminiature coaxial connectors with 50 Ω impedance for applications up to 10 GHz. (screw on mechanism)fulfills the subminiature coaxial connector requirement

Διαβάστε περισσότερα

Current Sensing Chip Resistor

Current Sensing Chip Resistor Features -3 atts power rating in 1 att size, 1225 package -Low CR of ±100 PPM/ C -Resistance values from 1m to 1 ohm -High purity alumina substrate for high power dissipation -Long side terminations with

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

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

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

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

First International Computer,Inc Portable Computer Group HW Department

First International Computer,Inc Portable Computer Group HW Department irst International omputer,inc Portable omputer roup W epartment oard name : Mother oard chematic. chematic Page escription : Project : LM0W. PI & IRQ & M escription : Version : 0. Initial ate : eb, 00.

Διαβάστε περισσότερα

2.4mm Series Connectors

2.4mm Series Connectors 2.4mm Series Connectors Table of Contents 2.4mm Series Connectors(DC~50GHz)... 1 2.4mm Replaceable Connectors... 2 2.4mm Receptacle (Round Contact) Connectors... 7 2.4mm Receptacle (Exposed Teflon) Connectors...

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

First International Computer,Inc Protable Computer Group HW Department

First International Computer,Inc Protable Computer Group HW Department irst International omputer,inc Protable omputer roup W epartment oard name : Mother oard chematic. chematic Page escription : Project : P. PI & IRQ & M escription : Version : 0. Initial ate : January,

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

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

ULX Wireless System USER GUIDE SUPPLEMENT RENSEIGNEMENT SUPPLÉMENTAIRES INFORMACION ADICIONAL. M1 ( MHz)

ULX Wireless System USER GUIDE SUPPLEMENT RENSEIGNEMENT SUPPLÉMENTAIRES INFORMACION ADICIONAL. M1 ( MHz) ULX Wireless System USER GUIDE SUPPLEMENT RENSEIGNEMENT SUPPLÉMENTAIRES INFORMACION ADICIONAL M1 (662 698 MHz) 2003, Shure Incorporated 27B8733A (Rev. 4) Printed in U.S.A. SPECIFICATIONS ULX1 Transmitter

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

B37631 K K 0 60

B37631 K K 0 60 Multilayer Ceramic acitors High; X5R and X7R Chip Ordering code system B37631 K 7 5 K 6 Packaging 6 ^ cardboard tape, 18-mm reel 62 ^ blister tape, 18-mm reel Internal coding acitance tolerance K ^ ± %

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

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

CPU Celeron-M ULV (Dothan) FCBGA479 NORTH BRIDGE SOUTH BRIDGE

CPU Celeron-M ULV (Dothan) FCBGA479 NORTH BRIDGE SOUTH BRIDGE 0_lock iagram 0_ystem etting 0_Power equence 0_E Pin efine 0_History 0_* 0_lock en_lpr 0_othan_HT 0_othan_PWR_ 0_0ML_HT_M _0ML_RM _0ML_V_LV_TV _0ML_PWR _0ML H-M_zalia_P_P_LN _H-M_U_PE_M_E_T _H-M_PWR R

Διαβάστε περισσότερα

HIS series. Signal Inductor Multilayer Ceramic Type FEATURE PART NUMBERING SYSTEM DIMENSIONS HIS R12 (1) (2) (3) (4)

HIS series. Signal Inductor Multilayer Ceramic Type FEATURE PART NUMBERING SYSTEM DIMENSIONS HIS R12 (1) (2) (3) (4) FEATURE High Self Resonant Frequency Superior temperature stability Monolithic structure for high reliability Applications: RF circuit in telecommunication PART NUMBERING SYSTEM HIS 160808 - R12 (1) (2)

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

Thin Film Chip Inductor

Thin Film Chip Inductor Scope -Viking s 0201 and 0402 series inductor is a photo lithographically etched single layer ceramic chip. Viking s design provides high, excellent Q, and superior temperature stability. This highly stable

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

1951 {0, 1} N = N \ {0} n m M n, m N F x i = (x i 1,..., xi m) x j = (x 1 j,..., xn j ) i j M M i j x i j m n M M M M T f : F m F f(m) f M (f(x 1 1,..., x1 m),..., f(x n 1,..., xn m)) T R F M R M R x

Διαβάστε περισσότερα

(Equipped with static shield, magnetic shieid) (Equipped with magnetic Shieid)

(Equipped with static shield, magnetic shieid) (Equipped with magnetic Shieid) New Power Trnsformer PT-0 PT-310 PT-0 PT-270 PT-260 PT-250 PT-2 PT-2 PT-180 PT-160 PT-150 PT-100 PT-95 PT-60 Specifictions (Equipped wit sttic sield, mgnetic sieid) V-0-280V-3V-360V-7m (450m ;ridge rectifier)

Διαβάστε περισσότερα

First International Computer,Inc Protable Computer Group HW Department

First International Computer,Inc Protable Computer Group HW Department irst International omputer,inc Protable omputer roup W epartment oard name : Mother oard chematic. chematic Page escription : Project : LMR. PI & IRQ & M escription : Version : 0. Initial ate : March,

Διαβάστε περισσότερα

(Equipped with static shield, magnetic shieid) (Equipped with magnetic Shieid)

(Equipped with static shield, magnetic shieid) (Equipped with magnetic Shieid) Power Trnsformer PT-0 PT-0 PT-270 PT-260 PT-250 PT-2 PT-2 PT-180 PT-160 PT-0 PT-100 PT-95 PT-60 Specifictions (Equipped wit sttic sield, mgnetic sieid) V-0-280V-3V-360V-7m (450m ;ridge rectifier) 75V-0-75V-0.

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

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

iw For 12V/1A, 9V/1.2A, 5V/2A QC2.0 Design

iw For 12V/1A, 9V/1.2A, 5V/2A QC2.0 Design iw1780-03 For 12V/1A, 9V/1.2A, 5V/2A QC2.0 Design General Design Specification: 1. AC Input Range 90-264V AC 2. DC Output 12V/1A, 9V/1.2A, 5V/2A 3. Meet 100mW@5V No-Load standby Power Consumption Requirement

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

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

2.92mm Series Connector

2.92mm Series Connector 2.92mm Series Connector Table of Contents 2.92mm Series Connector(DC~40GHz)... 1 2.92mm Replaceable Connectors... 2 2.92mm Receptacle (Round Contact) Connectors... 7 2.92mm Receptacle (Exposed Teflon)

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

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

Summary of Specifications

Summary of Specifications Snap Mount Large High CV High Ripple 85 C Temperature The series capacitors are the standard 85 C, large capacitance, snap-in capacitors from United Chemi-Con. The load life for the series is 2,000 hours

Διαβάστε περισσότερα

NPF-90D series. 90W Single Output Switching Power Supply IP67. File Name:NPF-90D-SPEC

NPF-90D series. 90W Single Output Switching Power Supply IP67. File Name:NPF-90D-SPEC Single Output Switching Power Supply Ⅱ Ⅱ IP67 Single Output Switching Power Supply SPECIFICATION MODEL OUTPUT INPUT PROTECTION ENVIRONMENT SAFETY & EMC OTHERS NOTE NPF-90D-12 NPF-90D-1 NPF-90D-20 NPF-90D-24

Διαβάστε περισσότερα

High Power Amp BMT321. Application Note

High Power Amp BMT321. Application Note RF MMIC Innovator www.berex.com [Classification] Application Note [Date] 2015.11 [Revision No.] Rev.A [Measuring Instruments] - NA_Agilent E5071B - SA_Agilent N9020A - SG_Agilent 4438C - SG_Agilent N5182A

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

FERRITES FERRITES' NOTES RAW MATERIAL SPECIFICATION (RMS)

FERRITES FERRITES' NOTES RAW MATERIAL SPECIFICATION (RMS) FERRITES' NOTES RW MTERIL SPEIFITION (RMS) Property Unit Pratical Frequency Range MHz Initial Permeability urie Temperature Specific Gravity g/cm 3 Loss Factor @ FREQUENY -6 MHz Temp. oef. of Initial Permeability

Διαβάστε περισσότερα

Chilisin Electronics Singapore Pte Ltd

Chilisin Electronics Singapore Pte Ltd hilisin Electronics ingapore Pte Ltd High urrent hip Beads, PBY eries Feature: Our MD High urrent hips Beads is specially designed to with tand large urrents while providing a means of EMI/RFI attenuation

Διαβάστε περισσότερα

Data sheet Thick Film Chip Resistor 5% - RS Series 0201/0402/0603/0805/1206

Data sheet Thick Film Chip Resistor 5% - RS Series 0201/0402/0603/0805/1206 Data sheet Thick Film Chip Resistor 5% - RS Series 0201/0402/0603/0805/1206 Scope -This specification applies to all sizes of rectangular-type fixed chip resistors with Ruthenium-base as material. Features

Διαβάστε περισσότερα

RC series Thick Film Chip Resistor

RC series Thick Film Chip Resistor RC series Thick Film Chip Resistor Features» Small size and light weight» Compatible with wave and reflow soldering» Suitable for lead free soldering» RoHS compliant & Halogen Free Applications Configuration»

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

Technical Specifications

Technical Specifications FLX-8X8A Chassis Technical Specifications Modular Input Cards... FLX-BI4, FLX-DI4, FLX-HI4, FLX-RI4 Analog Audio... Balanced or Unbalanced Stereo Audio (20 Hz to 20 khz) Supported Outputs Modular Output

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

Unshielded Power Inductors

Unshielded Power Inductors Unshielded Power Inductors /080/0804/0810/106/106 Series Inductance with current and temperature: Inductance is measured with P-484 LR Meter or equivalent. Inductance drops 10% typical at Isat level with

Διαβάστε περισσότερα

LS series ALUMINUM ELECTROLYTIC CAPACITORS CAT.8100D. Specifications. Drawing. Type numbering system ( Example : 200V 390µF)

LS series ALUMINUM ELECTROLYTIC CAPACITORS CAT.8100D. Specifications. Drawing. Type numbering system ( Example : 200V 390µF) Snap-in Terminal Type, 85 C Standard Withstanding 3000 hours application of rated ripple current at 85 C. Compliant to the RoHS directive (2011/65/EU). LS Smaller LG Specifications Item Category Temperature

Διαβάστε περισσότερα

Dynamic types, Lambda calculus machines Section and Practice Problems Apr 21 22, 2016

Dynamic types, Lambda calculus machines Section and Practice Problems Apr 21 22, 2016 Harvard School of Engineering and Applied Sciences CS 152: Programming Languages Dynamic types, Lambda calculus machines Apr 21 22, 2016 1 Dynamic types and contracts (a) To make sure you understand the

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
2025 © DocPlayer.gr Πολιτική Απορρήτου | Όροι Χρήσης | Σχόλια