FILE LIT 0 0 LOK IRM LOK EN Function Key UIO MP & MI RU PMI L TV RT LV /Y/OMP R MINIPI ' OE M V(M) W LN FN PI P 0 0 0 THERML OTHN W 0 MHM MONTR -PM 0 U.0 U X W HU IH.W P 0 0 0 R K 0 0 IE Ultra T00 LP POWER (IMVP) EONRY IE PRIMRY IE IO PRINTER PORT UL R OIMM R TERMINTION EU PORT IR&LPT 0 0_LOK IRM 0_POWER IRM 0_PU-OTHN(HOT) 0_PU-OTHN(PWR) 0_THERML 0_N-MHM 0_N-MHM 0_N-MHM 0_UL_R 0_R_TERMINTION _V_M-isp ys _V_M-Mem IF _V_M-PWR/ _V_M-VM TERMINTION _V_M-Video RM _KLIHT&L ON _TV-OUT & RT ON _IH-M(HU_PI) _IH-M(IE_) 0_IH-M(U_PM) _IH-M(POWER) _LOK-I0 _LN-RTL00L _MINIPI _-R() _-R() _PMI OKET _IE-H _IE-O 0_K-M _uperi/o&fwh _IR&LPT_PORT _EU PORT _OE-L0 _UIO MP _MI _M&RJ&RJ _U _FN&udio J 0_FUNTION KEY _PWR & REET EQ _VORE _VORE _YTEM _.V&.V&.V&.0V _.V&.V _PI _HRER T_Y 0_TLOW/# _LO WITH _REW_HOLE _lock Map _Platform Power elivery Map _ystem Power equence() _ystem Power equence() _Revision History UTEH O.,LT. LOK IRM H_N TEM Wednesday, October, 00 ate: heet of.0
ate: heet of Wednesday, October, 00 UTEH O.,LT. POWER IRM.0 EY ZHO FJKTP LL0UTR LM00IMX (Regulator) _T_Y ignal MI0-. _PR_U (.) PM_TPPU#.,PM_PRLPVR.,PI#.,MH_OK.,LK_EN# VORE WITH VLWY.VO M_T U# T V. /_VIN (Regulator) Power V. () M_T U# (0m) (0.) VO ircuit H EN V. (F0JKE) VO LO H LE VO.VO (00m) IN_O (00u) _PR_U LT VP V.U (harge) (.) V. (Regulator) PU_VRON () U#..VREF PWR LE.VO ().VO (.) VO (Regulator) () TP0 U# VLM (.) M VO U# PI TL.0VO VRM_PWR (Regulator) V. HUT_OWN# PI/ V. T VR_VI0-VR_VI /_VIN U# T_LLOW U# F.VO VH T# PU_VRON MX MIM T_IN#_O T_ V.U V.U IT (LO) MX (.) VORE V_PWR V V V. V. V V. U# U# WITH (.) U# V U# U# V. V (0.) (.) (.) (.) (.) (.) (0.) (0.) (0.) (0.) (0.) (.) (0.) (0.) (0.) (.) (0m) (m) (0m) (.) (0m) (.) (0m) () () (.) () (.) (.) () () (0.) (0.) (.) (.) (.) (0.)
WITH:mils PE >= : TROE PE >=: ROUP PE >=: LENTH: 0." -." (#00) <> H_#[:] <> <> <> H_T#0 H_REQ#[:0] H_#[:] <> H_T# PU Pin need to be enlarged(m) H_# H_# Y H_# H_# U H_# Y H_# Y H_#0 W H_# T H_# W H_# V H_# R H_# V H_# U H_# P U H_REQ# T H_REQ# P H_REQ# T H_REQ# P H_REQ#0 R H_# F H_#0 E H_# F H_# H_# E H_# H_# H_# H_# H_# E H_# H_#0 H_# H_# H_# F E U []# []# []# []# []# []# [0]# []# []# []# []# []# []# []# T[0]# REQ[]# REQ[]# REQ[]# REQ[]# REQ[0]# RE ROUP 0 []# [0]# []# []# []# []# []# []# []# []# []# [0]# []# []# []# T[]# RE ROUP # PRY# PREQ# NR# PRI# R# EFER# RY# Y# ONTROL R0# IERR# INIT# LOK# REET# R[]# R[]# R[0]# TRY# N 0 H_PRY# 0 H_PREQ# L J L H M N H_R0# H_IERR# 0."-" <=0" J <=0" <=" L H_R# K H_R# H H_R#0 M H_# <> H_NR# <> H_PRI# <> H_EFER# <> H_RY# <> H_Y# <> H_R0# <> R Ohm H_INIT# <0,> H_LOK# <> H_PURT# <> H_R#[:0] <> H_TRY# <> VP WITH: mils PE >= : ROUP PE >=: reakout Length:<=00 mil LENTH: " -."(OPT: "/-0.") (#00) <> <> <> <> <> <> H_INV0# H_TN#0 H_TP#0 Here IERR# is not routed as a test point or to any optional system receiver REET# ignal Routing with NO ITP00FLEX onnector H_INV# H_TN# H_TP# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_#0 H_# H_# H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# H_# H_# E E 0 0 K N H M N L J M J F H M L H J K L U []# []# []# []# []# [0]# []# []# []# []# []# []# []# []# []# [0]# INV[0]# TN[0]# TP[0]# []# [0]# []# []# []# []# []# []# []# []# []# [0]# []# []# []# []# INV[]# TN[]# TP[]# OKETP T ROUP 0 T ROUP T ROUP T ROUP []# []# []# []# []# []# []# [0]# []# []# []# []# []# []# []# []# INV[]# TN[]# TP[]# []# []# []# [0]# []# []# []# []# []# []# []# []# []# [0]# []# []# INV[]# TN[]# TP[]# Y Y V U V U R R R V U T Y T W W F F F E F0 F E 0 0 E E H_# H_# H_# H_# H_# H_# H_# H_#0 H_# H_# 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_#[:0] <> H_INV# <> H_TN# <> H_TP# <> H_INV# <> H_TN# <> H_TP# <> WITH:mils PE >= : ROUP PE >=: LENTH: 0." -." (#00) <> H_PWR# "-." PWR# HIT# HITM# K K H_HIT# <> H_HITM# <> OKETP PU PLL IRUIT V. H_VI H_VI H_VI H_VI H_VI H_VI0 VR_VI <> VR_VI <> VR_VI <> VR_VI <> VR_VI <> VR_VI0 <> H_PURT# VP R Ohm 0.0uF/V V._ 0 0.0uF/V V._N 0.0uF/V V._ 0.0uF/V 0uF 0uF 0 0uF 0uF TPt TPt lose to Pin V[..] of PU T T <> LK_PU00 <> LK_PU00# <0> H_0M# <0> H_FERR# <0> H_INNE# <,0> H_PLP# <0> H_PULP# <0> H_INTR <0> H_NMI <0> H_MI# <0> H_TPLK# <0> H_PWR <> H_THERM <,> H_THERM <,0> H_THRMTRIP_# <> PM_PI# V._ V._N V._ V. TPt T TPt T TPt T TPt T "-" "-" ITP_LK ITP_LK# <=0" 0."-" <=0" <=0" <=0" <=0" <=0" <=0" <=0" <=0" H_VI H_VI H_VI H_VI H_VI H_VI0 H_PROHOT# H_RV H_RV H_RV H_RV0 E H F F E N F E F U LK[0] LK[] ITP_LK[0] ITP_LK[] 0M# FERR# INNE# PLP# LP# LINT0 LINT MI# TPLK# PWROO VI[] VI[] VI[] VI[] VI[] VI[0] V[] V[] V[] V[0] THERM THERM THERMTRIP# PROHOT# RV RV RV RV RV RV0 OKETP HOTLK LEY PU MI OMP[] OMP[] OMP[] OMP[0] PM[]# PM[]# PM[]# PM[0]# TLREF[] TLREF[] TLREF[] TLREF[0] TET TET TK TI TO TM TRT# VENE VENE P P E F E F PU_OMP PU_OMP PU_OMP PU_OMP0 H_PM# H_PM# H_PM# H_PM#0 H_TLREF0 H_TK H_TI H_TO H_TM H_TRT# T T T T TPt TPt TPt TPt TOPOLOY : MO ignals: LINT0/INTR,LINT/NMI,0M#, INNE#,LP#,MI#,and TPLK# PU-IH:0." - " TOPOLOY : VP Open rain (O) ignal R-PU-IH Y-FORK PU-IH: 0." - " R - PU <= " (#00) H_PWR TOPOLOY : MO ignals MH-PU-IH MH-PU:0."-." PU-IH:0."-" (#00) H_PLP# TOPOLOY : MO ignals PU-IH-R-L-FWH PU-IH:0." - " R - L <= " L-FWH:0."-"(#00) H_INIT# lose to Pin of PU Width= mils Length <= " H_TM H_TO H_TI H_TK H_TRT# TOPOLOY : Open rain (O) ignal PU-IH-R R PU-IH: 0." - " OhmIH-R <= " (#00) H_FERR# TOPOLOY : Open rain (O) ignal PU-R-L-IH PU-R: 0." - " R - L<= " L-IH:0."-" H_PROHOT# TOPOLOY : Open rain (O) ignal PU-IH-R PU-IH: 0." - " IH-R <= " (#00) H_THRMTRIP_# PU EU PORT VP H_PREQ# R 00Ohm /ITP H_PRY# R Ohm /ITP lose to Pin of PU PU JT VP R Ohm R0 Ohm /ITP R 0Ohm R.Ohm R 0Ohm VP VP VP R Ohm R0 Ohm H_TLREF0 LENTH <=0." WITH = mils PE >= mils X P(#000) PU_OMP : nalog R Length <= 0." Ohm Width = 0 mils(l/l) pace>= mils X P(#000) R PU_OMP Pin, of NI PU_OMP : nalog Length <= 0." Width = mils pace>= mils X P(#000) PU_OMP.Ohm R Ohm VP lose to Pin R0 of PU KOhm PU_OMP0 H_TLREF0 ame ide w/ PU R0 KOhm PU_OMP0 : nalog Length <= 0." Width = 0 mils(l/l) pace>= mils X P(#000) R0.Ohm PU_OMP : nalog Length <= 0." Width = mils pace>= mils X P(#000) R0 PU_OMP Ohm Pin, of NI UTEH O.,LT. PU-OTHN(HOT) EY ZHO Wednesday, October, 00 ate: heet of.0
Target V (td Voltage) : HFM:.0V LFM: 0.V Target eeper leep Vcc = 0. V TP: W (td Voltage) 0W (Low Voltage) W (Ultra Low Voltage) VORE UE OKETP V V P V V P V V N U V V N V V N OKETP V V N V V0 N V V M V V M V0 V M V E V V M V E E V V M V E E V V L V E E V V L V E E0 V V L V E E V V L V F E V V0 K V F0 E V V K V F E V V K V0 F E0 V0 V K V F E V V K V F E V V J F V V J F V V J F VP V V J F V V J F VP V V0 H F V V H F V V H F V0 V H F V V F V V 0.uF/0V These pins should be connected to VP on the motherboard. However, these connections should enable addition of decoupling on the VQ lines if necessary. VORE 0uF Mid Frequency ecoupling (Place around Processor) VP VP (PU) ecoupling apacitor (Place near PU) High Frequency ecoupling (Place underneath Processor) using 0uF/.V XR 0 0 0uF 0uF 0uF 0uF 0uF 0uF 0uF 0uF 0uF Two 0-UF POPs with an ER of mohm(typ) should be used for bulk decoupling. One capacitor should be placed next to the processor socket and one capacitor in close proximity to the MH package. VORE ulk ecoupling Ten 0.-UF XR capacitors in a 00 form factor should be placed on the secondary side of the motherboard under the processor socket cavity next to the VP pins of the processor. Five capacitors should be spread out near the ata signal side and five capacitors near the ddress signal side of the processor socket's pin-map. Four 00 uf are located in IMVP UTEH O.,LT. PU-OTHN(PWR) EY ZHO ate: Wednesday, October, 00 heet of.0 0uF 0uF 0uF 0uF 0 0 0.uF/0V 0 0.uF/0V 0.uF/0V 0.uF/0V 0uF 0uF 0uF 0uF 0 0uF E 0U/.0V 0.uF/0V 0.uF/0V 0 0 E E E E0 E E E E E0 E E F F F F F F F F F F F F V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V0 V0 V0 V0 V0 V0 V0 V0 V0 V00 V V V 0 0 0 Y Y Y Y W W W W W V V V V V U U U U T T T T T R R R R R P P 0uF 0.uF/0V 0.uF/0V 0uF 0uF 0uF 0 0uF 0 0uF 0uF 0uF W P 0 E E E F0 F F F K L L M M N N P P R R T T U VQ[] VQ[0] VP VP VP VP VP VP VP VP VP VP0 VP VP VP VP VP VP VP VP VP VP0 VP VP VP VP VP V V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 V V V V V V V V V V0 0 E E E E E E F F F F0 F H H J J K U V V W W Y Y 0 0 0 0uF E 0.uF/0V 0.uF/0V 0.uF/0V 0uF 0uF 0uF 0uF 0uF 0 0U/.0V 0uF 0uF
Route H_THERM and H_THERM on the same layer Route V_THEM_P and V_THEM_N on the same layer ------------------------------------OTHER INL mils ============================== 0 mils ==================H_THERM(0 mils) 0 mils ==================H_THERM(0 mils) 0 mils ================== mils -----------------------------------------OTHER INL void P,Power V. R V._THM ifferent from N Thermal ontrol N use Max N use Max <> V_THEM_P <,> V_THEM_N <,> H_THERM <> H_THERM Ohm 0 00P 0 00P 0 0.uF/0V U V XP XN XP OT# tandby Mode: u(max. 0u) Full ctive: 0. m(max. m) OT# 0 MT LERT# MLK _ L_ L_&_(PULL_UP 0K IN PE) H_THRMTRIP_# <,0> _ <,,> PM_THRM# <0,> L_ <,,> H_THRMTRIP_##(PULL_UP Ohm IN PE) PM_THRM#(PULL_UP 0K IN PE) <> O#_O O#_O O#_O(PULL_UP 0K IN PE ) UTEH O.,LT. THERML EY ZHO Wednesday, October, 00 ate: heet of.0
_R_T[:0] <,0> _R_Q[:0] <,0> lose to MH <> V. P_T[:0] V. <> <> NOTE: ROMP HUOUL E 0 MIL WIE LE THEN 0.'' FROM PM R0 UE. OHM FOR OHM OR IMPENE P ROUTIN 0.uF/0V R.KOhm R.Ohm P_[:0] <> P_FRME# <> P_EVEL# <> P_IRY# <> P_TRY# <> P_TOP# <> P_PR <> P_REQ# <> P_NT# <0." <> 0 decouping capacitor should be placed near to MROMP pin V. <> <> <,,,> P_/E#[:0] LK_MH <> P T0 <> P T0# <> P T <> P T# P_[:0] <> <> R.Ohm P T P T# <> <> P_T0 P_T P_T HU_P[0:0] <> <> P_RF# P_WF# PI_RT# HU_PTR HU_PTR# <> R_0# <> R_# <,0> R_0# <,0> R_# <,0> R_# <,0> R_# R0 M_ROMP 0.Ohm TPt T0 <,0> <,0> <,0> <,0> <,0> The length of 0 to MROMP pin should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hm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0 0Ohm 0Ohm RN0 0Ohm RN0 0Ohm RN0 0Ohm RN0 0Ohm RN0E 0Ohm RN0F 0Ohm 0 RN0 0Ohm RN0H R_T R_T R_T R_T R_T R_T R_T0 R_T R_Q0 R_T R_T R_T0 R_T R_T R_T R_T R_T R_Q R_T R_T R_T R_T R_T R_T R_T R_T0 R_Q R_T R_T R_T R_T0 R_T R_T R_T R_T R_Q V HU_VREF_MH _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_Q _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T0 _R_Q _R_T _R_T0 _R_T _R_T _R_T _R_T _R_T _R_T _R_Q _R_T _R_T _R_T _R_T _R_T0 _R_T _R_T _R_T _R_Q Intel suggested that R_VREF should be turned off in -. ut measure the leakage because there is no V.. 0.uF/0V 0Ohm RN RN RN RN RNE RNF RN RNH 0Ohm RN 0Ohm RN 0Ohm RN 0Ohm RN 0Ohm RNE 0Ohm RNF 0Ohm 0 RN 0Ohm RNH 0Ohm R 0Ohm 0Ohm R 0KOhm R0 0KOhm R RN RN RN RN RNE RNF RN RNH R R0-0.uF/0V U R_VREF V V-.V-.V LMV 0-M:0 m(max. 0 m) MH--------R&R0 <=" 0.0uF/V Place 0,R,R0 close to U0.P 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0 0Ohm 0Ohm 0Ohm RN 0Ohm RN 0Ohm RN 0Ohm RN 0Ohm RNE 0Ohm RNF 0Ohm 0 RN 0Ohm RNH 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0Ohm 0 0Ohm 0Ohm V._MH R0 0Ohm RN RN RN RN RNE RNF RN RNH R RN RN RN RN RNE RNF RN RNH R R RN RN RN RN RNE RNF RN RNH R R 0Ohm V. R KOhm R KOhm R_T R_T R_T R_T R_T R_T R_T R_T R_Q R_T R_T R_T R_T R_T R_T R_T R_T0 R_Q R_T R_T0 R_T R_T R_T R_T R_T R_T R_Q R_T R_T R_T R_T R_T0 R_T R_T R_T R_Q P_VREF 0.uF/0V UTEH O.,LT. N-MHM enny Liang Wednesday, October, 00 ate: heet of.0
H_R#0 H_R# H_R# H_PRI# <> H_RY# <> H_TRY# <> H_EFER# <> H_NR# <> H_# <> H_HITM# <> H_HIT# <> H_LOK# <> H_R0# <> H_Y# <> H_R#[:0] <> V. V. V. V. VP V. V._MH ate: heet of Wednesday, October, 00 UTEH O.,LT. N-MHM.0 enny Liang ll decoupling capacitances should e placed near to the associated pins. HOT U MH_M # U HTRY# V RY# W EFER# Y HITM# Y HIT# Y HLOK# W R0 V NR# V PR# Y Y# V R0# W R# W R# W VTT0 0 VTT VTT VTT 0 VTT VTT VTT VTT 0 VTT E VTT E VTT0 F VTT F0 VTT VTT VTT VTT J VTT J VTT J VTT M VTT T VM0 VM VM VM VM VM VM VM VM VM VM0 VM VM VM VM E VM F0 VM F VM F VM F VM F VM0 VM VM H0 VM H VM H VM H VM H VM H0 VM H VM H VM0 H VM H VM J VM K VM K VM K VM K VM L V 0 V V R V R V U V U V W V W V V V 0 V V E V F V V J V0 N V N V P V P V P V R V R V T V U V U V 0 L V L V M V N V N RV RV 0 RV RV H ET# H RV H RV RV V T VH T 0.UF/0V 0.uF/0V 0.uF/0V 0.0U 0 0.0UF/0V 0.0UF/0V 0.uF/0V 0 0.uF/0V 0.0UF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V UF/0V 0.0UF/0V 0.uF/0V UF/0V 0.U 0.U E 0U/.0V E 0U/.0V E 0U/.0V 0 0.uF/0V 0.0UF/0V E 0U/.0V U MH_M V E V E V E V F V F V F0 V F V F V F V0 V H V H V H V H V H V H V H V H V J V0 J V J V J V J V J V K V K V L V L V L V00 L V0 L V0 L V0 M V0 M V0 N V0 N V0 N V0 N V0 N V0 N V N V N V P V P V P V R V R V R V R V0 R V R V R V T V T V T V T V U V U V U V0 U V U V U V U V V V V V W V W V W V W V0 Y V Y V0 V V V V V V V V V V0 V V V V V V V V V V0 V 0 V V V V V 0 V V V V0 V V V V E V E V E0 V E V E V F V0 F V F V F V F V F V F V F V F V F V V0 V 0 V V H V H V H V J V J V J V J V0 J V J V J V J V J V V V V V V0 E 0uF UF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.0UF/0V 0.0UF/0V 0.0UF/0V 0uF 0.uF/0V 0.0UF/0V.UF/.V E 0U/.0V 0.0UF/0V 0.0UF/0V 0.uF/0V 0.uF/0V
R.Ohm R.Ohm MH_HROMP MH_HROMP0 U <> H_#[:] H_#[:0] <> H_# U H_#0 H_# H# H0# T H_# H_# H# H# R H_# H_# H# H# U H_# H_# H# H# R H_# H_# H# H# P H_# H_# H# H# T H_# H_#0 H# H# P H_# H_# H0# H# P H_# H_# H# H# E P H_# H_# H# H# R H_#0 H_# H# H0# E N H_# H_# H# H# F N H_# H_# H# H# N H_# H_# H# H# J H_# H_# H# H# F M H_# H_# H# H# E M H_# H_#0 H# H# M H_# H_# H0# H# L H_# H_# H# H# E K H_# H_# H# H# E J H_#0 H_# H# H0# H N H_# H_# H# H# L H_# H_# H# H# L H_# H_# H# H# K H_# H_# H# H# H L H_# H_# H# H# E L H_# H_#0 H# H# K H_# H_# H0# H# J H_# H# H# H_# <> H_REQ#[:0] H_REQ#0 H# H U H_#0 H_REQ# HREQ0# H0# F T H_# H_REQ# HREQ# H# H R H_# H_REQ# HREQ# H# U H_# H_REQ# HREQ# H# T H_# HREQ# H# E H_# <> H_T#0 R HT0# H# 0 H_# <> H_T# N HT# H# E0 H_# H# H_# <> LK_MH00# K LK# H# H_# <> LK_MH00 J MH_HROMP LK H# H_#0 MH_HWN HROMP H0# E H_# MH_HROMP0 HWN H# F0 H_# MH_HWN0 HROMP0 H# H_# HWN0 H# 0 H_# H# H H_# <> H_TN#0 HTN0# H# H_# <> H_TN# F HTN# H# E H_# <> H_TN# HTN# H# F H_# <> H_TN# HTN# H# H_# <> H_TP#0 HTP0# H# H H_#0 <> H_TP# HTP# H0# H_# <> H_TP# E HTP# H# F H_# <> H_TP# HTP# H# H_# <> H_INV0# I0# H# E H_# <> H_INV# I# H# H_# <> H_INV# H I# H# H_# <> H_INV# I# H# H_# H# H H_# <> H_PURT# E PURT# H# H_# LYOUT NOTE: MH_TLREF H# F M H_#0 HVREF0 H0# E H_PURT# FORK P H_# HVREF H# H T PM PIN H_# HVREF H# H_# HVREF H# E HVREF HOT MH_M VP HWIN [:0] MIL TRE 0 MIL PE VP 0 should be placed closer to de HWN0 than R0 and R0 R 0Ohm 0.0UF/0V MH_HWN0 R 0Ohm 0.0UF/0V MH_HWN 0 should be placed closer to de HWN than R0 and R0 R 0Ohm R 0Ohm VP R.Ohm MH_TLREF R 00Ohm 0 0.UF/0V 0.UF/0V UF/0V Place R0 close to HVREF and R0 close to HVREF UTEH O.,LT. N-MHM enny Liang Wednesday, October, 00 ate: heet of.0
<,0> _R_T[:0] ll decoupling capacitances should e placed near to the associated pins. FOR V. EOUPLIN R_VREF V. JP V. R_VREF V..V -.V(/- %) 0-:. V. 0.uF/0V 0.uF/0V V. _R_T0 _R_T <,0> _R_Q0 _R_T _R_T _R_T _R_T <,0> _R_Q _R_T0 _R_T <> LK_R0 <> LK_R0# _R_T _R_T <,0> _R_Q _R_T _R_T _R_T _R_T <,0> _R_Q _R_T _R_T <0> _R_[:0] <0> _R_0# <0> _R_WE# <0> _R_# <0> _R_R# <0> _R_# <> LK_R <> LK_R# <,0> R_KE <> R_ <> R_ <> R_ <> R_ <> R_ <> R_ <> R_0 <> R_0# <> R_WE# 0Ohm 0 RN _R_0 0Ohm RNH _R_0# R 0Ohm _R_WE# <,0> R_0# _R_T _R_T <,0> _R_Q _R_T _R_T _R_T0 _R_T Rn0 and R0 should be placed close to MH 0Ohm RN _R_ 0Ohm RN _R_ 0Ohm RN _R_ 0Ohm RN _R_ 0Ohm RNE _R_ 0Ohm RNF _R_ <,0> _R_Q _R_T _R_T _R_T _R_T <,0> _R_Q _R_T0 _R_T _R_T _R_T <,0> _R_Q _R_T _R_T <,,> _ <,,> L_ V. 0 0 0 0 0 VREF0 V0 Q0 Q V0 Q0 Q V Q Q V Q Q V Q0 Q V : K0 : K0# V Q Q V Q Q V Q Q V Q Q V Q Q V U_0 V : K : K# V : KE U/ V V 0/P 0 WE# : 0# U_ V Q Q V Q Q V0 Q Q0 V0 Q Q V Q Q V V V V Q Q V Q Q0 V Q Q V Q Q V Q Q V L VP VI VREF V Q Q V M0 Q V Q Q V Q M V Q Q V V V V Q0 Q V M Q V0 Q Q V0 Q M V Q0 Q V U/REET# V V V V : KE0 U/ V 0 V R# # : # U_ V Q Q V M Q V Q Q V Q M V Q Q V : K# : K V Q Q V M Q V Q Q0 V Q M V0 Q Q V0 : 0 : : U_ 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 0 0 0 0 00 _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T0 _R_T _R_T _R_T _R_T _R_T _R_T0 _R_T _R R R R R R_0 _R_# _R_R# _R_# _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T0 _R_T _R_T _R_T R_KE0 <,0> 0Ohm RN 0Ohm RNF 0Ohm 0 RN 0Ohm RN 0Ohm RNE 0Ohm RN 0Ohm RNH 0Ohm RN R 0Ohm R_# <,0> LK_R# <> LK_R <> R_ <> R_ <> R_ <> R_ <> R_ <> R_0 <> R_# <> R_R# <> R_# <> <> <> <> <> <,0> <,0> LK_R LK_R# LK_R LK_R# R_KE R_# E 0U/.0V V. E 0U/.0V R_VREF 0 0.uF/0V Rn0 and R0 should be placed close to MH E 0U/.0V E0 0U/.0V 0 0 0 0 JP : K0 : K0# : K : K# : KE : 0# N0 N N N : KE0 : # : K# : K : 0 : : NP_N NP_N NP_N NP_N 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V UF/0V 0 R 0 0 0 0 0 0.uF/0V 0.uF/0V 0.uF/0V 0KOhm Vs V. 0.uF/0V 0.uF/0V V.s R_KE <,0> R_# <,0> LK_R# <> LK_R <> V. 0 0.uF/0V 0 0.uF/0V UTEH O.,LT. UL_R enny Liang Wednesday, October, 00 ate: heet of.0
ll termination registers should e placed near to the associated pins of O-IMM V. V. _R_T _R_Q0 _R_T _R_T _R_T _R_T _R_T _R_T0 _R_T _R_T _R_T _R_T _R_T _R_T0 _R_T _R_T0 _R_Q _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_Q _R_T _R_T0 _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T _R_T0 _R_T _R_T _R_T _R_T _R_Q _R_T _R_T _R_T0 _R_T _R_T _R_T _R_Q _R_T <> <,> <,> _R_[:0] _R_T[:0] _R_Q[:0] RN Ohm RN Ohm RN Ohm RN Ohm RNE Ohm RNF Ohm RN Ohm 0 RNH Ohm RN Ohm RN Ohm RN Ohm RN Ohm RNE Ohm RNF Ohm RN Ohm 0 RNH Ohm RN Ohm RN Ohm RN Ohm RN Ohm RNE Ohm RNF Ohm RN Ohm 0 RNH Ohm RN Ohm RN Ohm RN Ohm RN Ohm RNF Ohm RNE Ohm RNH Ohm RN Ohm 0 RN Ohm RN Ohm RN Ohm RN Ohm RNF Ohm RNE Ohm RN Ohm 0 RNH Ohm RN Ohm RN Ohm RN Ohm RNE Ohm RN Ohm RNF Ohm RN Ohm 0 RNH Ohm RN Ohm RN Ohm RN Ohm RN Ohm RNE Ohm RNF Ohm RN Ohm 0 RNH Ohm <> _R_# <> _R_R# <> _R_# <,> R_# <,> R_0# <,> R_# <,> R_# <,> R_KE <,> R_KE0 <,> R_KE <,> R_KE <> _R_WE# <> _R_0# _R_T _R_T _R_T _R_Q _R_T0 _R_T _R_T _R_T _R R_# _R_R# _R R_0 _R R R_# R_# R_0# R_# R_# R_KE R_KE0 R_KE R_KE _R_T _R_T _R_Q _R_T _R_T _R_Q _R_T _R_T _R R R_WE# _R_0# _R_0 _R R R R R_ RN Ohm RN Ohm RN Ohm RN Ohm RNE Ohm RNF Ohm RN Ohm 0 RNH Ohm RN0 Ohm RN0 Ohm RN0 Ohm RN0 Ohm RN0E Ohm RN0F Ohm RN0 Ohm 0 RN0H Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RN Ohm RNE Ohm RNF Ohm RN Ohm 0 RNH Ohm FOR V. EOUPLIN Place one cap between every pullup resistors to V. V. 0.U 0.U 0.U 0.U V. V. N0 N0 N0 N0 ll decoupling capacitances should e placed near to the associated pins. 0 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U 0.U N N N N N N N N N N N N N N N N N N N N N N N N These chip capacitors should be placed equationally near the termination resistors 0.U 0.U 0.U 0.U N N N N UTEH O.,LT. R_TERMINTION enny Liang Wednesday, October, 00 ate: heet of 0.0
V. V._V XIN <> V_PTET V_PREF <> PM_U_TT# PM TT# UXWIN <> P_[..0] XOUT P_[..0] P U signals is pulled-up by PM internal R.KOhm R.KOhm R Ohm 0.uF/0V R0 0KOhm R 0KOhm R 0KOhm 0PF Place close to M pin P_/E#[..0] Place R close to V X MHZ R MOhm <> LK_P <,,,> PI_RT# <> P_REQ# <> P_NT# <> P_PR <> P_TOP# <> P_EVEL# <> P_TRY# <> P_IRY# <> P_FRME# <,> PI_INT# <> V. V._V 0PF P_WF# <> P_RF# <> P T0 <> P T <> P T <> <> <> P_T0 P_T P_T <> P T# <> P T0# <> P T# <> R 0KOhm TV_VQ <> TV_/Pr <> TV_Y/Y <> TV_OMP/Pb <0> PM_U_TT# <0,> PM TT# <0> P_UY# R KOhm R R R0 R R R R R R T TPt T TPt /M-P R 0Ohm R 0Ohm /M-P R KOhm P_0 P_ P_ P_ P_ P_ P_ P_ P_0 P_ P_ P_ P_ P_ P_ P_ P_ P_ P_0 P_ P_ P_ P_ P_ P_ P_ P_ P_ P_0 P_ P_ P_ P_ P_ P_ P_ P_ P_ P_0 P_ P_/E#0 P_/E# P_/E# P_/E# 0Ohm R_TRY# 0Ohm R_IRY# 0Ohm R_FRME# 0Ohm 0Ohm 0Ohm V_PREF V_PTET P_X_ET# R Ohm IN OUT TETEN TET_YLK TET_MLK E R T0 M R TV R T 0Ohm R T# 0Ohm R T0# M 0Ohm R T# V XTL_IN XTL_OUT H H J J K K L L N P P R R T T U N R P R R T T U V W W Y Y N U P U 0 F M N V V W W E Y Y F E M M K J J K J K K J H J H E E H0 H RT_MK U0 0 0 0 0 /E#0 /E# /E# /E# PILK RT# REQ# NT# PR TOP# EVEL# TRY# IRY# FRME# INT# WF# RF# _TF_0 _TF TF 0 T0 T T _T T_0 T_ PREF PTET I_LO I_HI PX_ET# RET _R_Pr Y Y OMP Pb HYN VYN LK T IN OUT XTLIN XTLOUT /M-P Part of U_TT# TP_P# P_UY# RT_MK(N) PI / P VO / EXT TM / PIO PX X P X TETEN TET_YLK(N) TET_MLK(N) PLLTET(N) LK MN PWR LV TM THERM PIO0 PIO PIO PIO PIO PIO PIO PIO PIO PIO PIO0 PIO PIO PIO PIO PIO PIO VOMOE ZV_LT0 ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT0 ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT ZV_LT0 ZV_LT ZV_LT ZV_LT ZV_LNTL0 ZV_LNTL ZV_LNTL ZV_LNTL (N)VREF TXOUT_L0N TXOUT_L0P TXOUT_LN TXOUT_LP TXOUT_LN TXOUT_LP TXOUT_LN TXOUT_LP TXLK_LN TXLK_LP TXOUT_U0N TXOUT_U0P TXOUT_UN TXOUT_UP TXOUT_UN TXOUT_UP TXOUT_UN TXOUT_UP TXLK_UN TXLK_UP ION LON TX0M TX0P TXM TXP TXM TXP TXM TXP LK T HP R HYN VYN RET T LK UXWIN PLU MINU J H J K H F J K H J H H F F E0 H J K H K J H J H J K H0 E F E F E F E F 0 F0 J0 K0 J H K H H J H J K H K J F F F E H0 0 F E J H J H J K H K E E F K J J H H F F F F E PFKEW0 PFKEW PU_PIO PU_PIO PU_PIO PU_PIO PU_PIO PU_PIO PU_PIO PU_PIO PU_PIO PU_PIO PU_PIO PWR_PLY MLK_IN ZV_LT ZV_LT ZV_LT ZV_LT P_MULTIFUN0 P_MULTIFUN VIP_H0_EVIE ZV_VYN ZV_HREF VIP_INT ZV_PLK PIO_VREF R Ohm UXWIN R R R R 0KOhm /M-P 0KOhm /M-P PWR_PLY <> R 0KOhm PNEL_I0 <> PNEL_I <> PNEL_I <> 0KOhm 0KOhm 0KOhm 0KOhm LV_L0N <> LV_L0P <> LV_LN <> LV_LP <> LV_LN <> LV_LP <> LV_LK_LN <> LV_LK_LP <> LV_U0N <> LV_U0P <> LV_UN <> LV_UP <> LV_UN <> LV_UP <> LV_LK_UN <> LV_LK_UP <> LV_V_EN <> LV_LTRL <> RT_R <> RT_ <> RT_ <> RT_H <> RT_V <> RN RN RN RN RT_VQ <> RT T <> RT LK <> V_THEM_P <> V_THEM_N <,> V._V M-P: Pull-up to [,] MX: not stuff [0,0] T TPt T TPt T TPt T TPt T0 TPt T TPt T TPt T TPt T TPt T TPt T TPt T TPt 0KOhm 0KOhm V._V R 0KOhm R 00KOhm T T T 0.00uF/0V /M-P TPt TPt TPt PWR_PLY = H, VORE=.0V PWR_PLY = L, VORE=.V 0.uF/0V /M-P V._V M-P: need PIO_VREF MX: not stuff Place & close to V Place R close to V R.KOhm /M-P R.KOhm /M-P M-P trap-pin PIO[:0] = (ip) ; refclk taps earlier than feedback clk (recommended) PIO[:] = 00 (ip) ; 0 tap delay between xclk and xclk (recommended) PIO[:] = 000 (ip) ; PX_ETb =, PX,.V, PIO[] = 0 (ip) ; I Enable PIO[:,] = 0000 (ip) ; No ROM, H_I=0 (default setting) ZV_LT[:] = 00 (I defalt) ; single function device ZV_LT[0] = (ip) ; No slave VIP host port device L PI PI PI0. X.0 X 0.0 X 0 MLK_IN XIN R R Ohm /MLK R 0Ohm /MLK U XIN XOUT V V R P# ModOUT REF P /MLK R 0Ohm /MLK XOUT MLK_V R Ohm /MLK XTL_IN R Ohm /MLK L0 0Ohm/00Mhz /MLK 0.0UF/0V /MLK 0.UF/.V /MLK V._V R _ pread eviation 0 N -.% (OWN) N -.% (OWN) UTEH O.,LT. M-isp ys Pommy Lu Wednesday, October, 00 ate: heet of.0
MVREF MEMTET PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_M0 PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M0 PU_M PU_M PU_M PU_M0 PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M0 PU_M PU_M PU_M PU_QM#0 PU_QM# PU_QM# PU_QM# PU_QM# PU_QM# PU_QM# PU_QM# PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_QM#0 PU_QM# PU_QM# PU_QM# PU_QM# PU_QM# PU_QM# PU_QM# MVREF PU_Q[..0] <> PU_M[..0] <> PU_QM#[..0] <> PU_Q[..0] <> PU_M[..0] <> PU_QM#[..0] <> PU_Q[..0] <> PU_Q[..0] <> PU_R# <> PU_# <> PU_WE# <> PU_0# <> PU_KE <> PU_LK0 <> PU_LK0# <> PU_LK <> PU_LK# <> PU_LK# <> PU_LK <> PU_LK0# <> PU_LK0 <> PU_KE <> PU_0# <> PU_WE# <> PU_# <> PU_R# <> PU_# <> PU_# <> V._VRM V. ate: heet of Wednesday, October, 00 UTEH O.,LT. M-Mem IF.0 Pommy Lu For.V VR MEMVMOE_0 = V~.V MEMVMOE_ = Place apacitors close to M MEMORY INTERFE Part of U0 /M-P Q0 L Q L Q K Q K Q J Q H Q H Q Q 0 Q Q0 Q E Q E Q Q Q F Q Q F Q E Q F Q0 E Q F Q E Q Q Q Q Q Q Q Q0 Q Q F Q E Q Q F Q E Q F Q E Q F Q0 Q Q Q Q Q Q Q Q Q Q0 Q Q 0 Q Q Q 0 Q E Q E Q E0 Q F Q0 F Q E Q F Q F M0 E M M M M M M F M F M M M0 M (M)M E (M)M 0 QM#0 J QM# F QM# E QM# QM# F QM# QM# QM# E Q0 J Q F0 Q F Q Q E Q Q Q F0 R# # E WE# E 0# E0 # F0 KE LK0 LK0# 0 LK LK# MVREF (N)MVREF (N)M IM_0 0 IM_ R 0Ohm /M-P MEMORY INTERFE Part of U0 /M-P Q0 Q F Q E Q Q Q F Q E Q Q Q Q0 Q Q Q Q Q Q Q H Q H Q J Q0 K Q K Q L Q L Q Q F Q H Q E Q F Q J Q0 F Q H Q U Q U Q U Q V Q W Q W Q Y Q Y Q0 U Q V Q V Q V Q W Q Y Q Y Q Q Q Q0 Q Q Q Q E Q E Q Q Q Q Q0 Q E Q E Q E M0 N M M M M M L M L M M M M M P M N M K M0 K M J (M)M P (M)M P QM#0 E QM# QM# J QM# QM# W QM# W QM# QM# Q0 F Q Q K Q Q V Q W Q Q R# R # T WE# T 0# R # R KE R LK0 N LK0# N LK T LK# T ROM# F MEMVMOE_0 MEMVMOE_ MEMTET (N)M P IM_0 E IM_ R0 0KOhm 0.uF/0V R.KOhm R.Ohm R 0KOhm 0 0uF R.KOhm
LV_LVR_ LV_LVR_ LV_LPV TM_TXVR TV_V RT_V RT_VI PLL_PV MEMPLL_MPV LV_LVR_ LV_LPV TM_TXVR TV_V RT_V RT_VI PLL_PV MEMPLL_MPV VR LV_LVR_ RT_VQ RT_VI PLL_PV MEMPLL_MPV TV_VQ TV_VQ MEMPLL_MPV PLL_PV TV_VQ RT_VI RT_VQ TV_VQ MEMLK_VRH MEMLK_VRH TV_VQ <> RT_VQ <> V._VRM V. V. V. V. V._VRM V. V. V. V. V. V. V. V._V V._V V. VORE V. V. VORE V. V. V. V. V._V V ate: heet of Wednesday, October, 00 UTEH O.,LT. M-PWR/.0 Pommy Lu place ecoupling apacitors close to M MK OFF ENTER LL RRY WITH MX () 0- MX:. Power etween core and I/O I/O Power P I/O Power Memory I/O Power LV I/O Power LV igital Logic Power LV/TM PLL Power TM I/O Power Memory lock Power igital Power PLL Power Memory PLL Power VO Power 0-: m 0-: m 0-: m 0-: m 0-: m 0-: m 0-: 0m 0-: 0m 0-: m 0-: 0m 0-: m 0-: 0m 0-: 00m 0-: m 0-: 0m 0-: 0m 0-: 0m L 0Ohm/00Mhz L0 0Ohm/00Mhz 0.uF/0V R0 0Ohm 0.uF/0V 0.0UF/0V 00.UF/.V E U/0V 0.uF/0V L 0Ohm/00Mhz /M-P 0 0.uF/0V 0.uF/0V L 0Ohm/00Mhz 0 0.0UF/0V.UF/.V 0uF L 0Ohm/00Mhz R 0Ohm /M-P L 0Ohm/00Mhz ORE Part of U0E /M-P V_ V_ 0 V_ V_ V_ V_ V_ V_ V_ 0 V_0 V_ V_ V_ V_ V_ V_ V_ V_ V_ F V_0 V_ V_ V_ V_ V_ V_ H V_ H V_ H V_ H V_0 H V_ H V_ H V_ H V_ H V_ H V_ K0 V_ K V_ K V_ K V_ L V_ M0 V_ M V_ M V_ N V_ N V_0 N V_ P V_ R V_ R V_ R V_ R V_ R0 V_ T V_ T V_ U V_0 U V_ U V_ V0 V_ W V_ W V_ W V_ W V_ W V_ Y V_ 0 V_0 V_ V_ V_ V_ V_ V_ V_ K V_ K V_ V_ V_ K V_0 V_ V_ 0 V_ V_ V_ V_ V_ E V_ V_ V_ V_0 V_ V_ V_ V_ J V_ J0 V_ K V_ K V_ 0 V_00 V_ E V_0 L 0Ohm/00Mhz 0.uF/0V R 0OHM /LEK UF/0V 0uF 0uF 0 0.uF/0V 0.uF/0V 0.uF/0V 0uF 0.uF/0V 0.0UF/0V 0.uF/0V 0uF 0uF 0.uF/0V 0.0UF/0V 0uF 0.uF/0V L 0Ohm/00Mhz 0uF 0 0.uF/0V L 0Ohm/00Mhz /MX R 0Ohm /M-P R 0OHM _LEK 0.0UF/0V 0.uF/0V 0.uF/0V 0.uF/0V 0.0UF/0V.UF/.V E U/0V 0.uF/0V 0.0UF/0V 0.0UF/0V 0uF 0.uF/0V E U/0V ENTER RRY Part of M0-P (0 ) (0 ) MX U0F /M-P V_ P V_ P V_ P V_ U V_ U V_ U V_ U V_ U V_ U V_0 V V_0 M V_0 N V_0 N V_0 P V_0 P V_0 R V_0 R V_0 R V_0 R V_ V V_ V V_ V V_ V V_ V V_ N V_ N V_ N V_0 R V_ R V_ R V_ T V_ T V_ T V_ W V_ V V_ W V_0 W V_ V V_ U V_0 U V_ T V_ T V_ T V_ T VI_ W VI_ M VI_ R VI_ T V_ W V_ W V_ W V_ W V_ N V_ N V_ M V_ M V_ M V_ N V_0 M V_ M V_ P V_ P V_ P V_ M 0 UF/0V UF/0V 0 0uF 0.uF/0V 0.uF/0V 0.UF/.V L 0Ohm/00Mhz 0.uF/0V 0uF 0uF 0.uF/0V UF/0V L0 0Ohm/00Mhz R 0OHM /MX 0.0UF/0V L 0Ohm/00Mhz 0uF 0uF 0uF Part of I/O POWER U0 /M-P VR_ VR_ VR_0 VR_ VR_ VR_ 0 VR_ VR_ VR_ 0 VR_ VR_ VR_ VR_0 VR_ VR_ E VR_ F VR_ VR_ 0 VR_ VR_ VR_ VR_ VR_0 VR_ H VR_ H VR_ H VR_ H VR_ H VR_ H0 VR_ J VR_ J VR_ LPV J0 LVR E LVR F LVR_(LVR_)_ E LVR_(LVR_)_ E0 LPV J LVR_ E LVR_ F LVR_ F0 LVR_ E TPV K TPV J TXVR_ F TXVR_ F TXVR_ TXVR_ H TXVR_ V_ V_ H VQ F V H VN_ H VI E VQ F VR_ L VR_ J VR_0 J VR_ J VR_ L VR_ M VR_ N VR_ N VR_ R VR_(LKF) R VR_ T VR_ J VRH0 F VRH N VRH0 F VRH M MPV MPV PV K PV J VR_ VR_ 0 VR_ 0 VR_ VP_ N0 VP_ P VP_ P VP_ T VP_ T VP_0 T0 VP_ U VP_ V VP_ V VP_0 W0 VP_ Y VP_ VP_ VP_ 0 VP_ VP_ VP_ E0 VP_ F VP_ M VP_ M VI E VQ VI E VN H VR_ T VR_0 V VR_ V VR_ V VR_ VR_ VR_ VR_ VR_ VN_ J VP_ J0 VI E VR_ T VR_ N VR_ VR_(LKF) VR_ VR_ VR_ VR_ VR_ VR_ VR_ VR_ (V)V_ P (V)V_ Y (V)V_ (V)V_ 0 (V)V_ Y (V)V_ L (V)V_ H0 (V)V_ H V_ V_ V_ V_ V_ VR_ 0uF E U/0V 0.0UF/0V 0uF L 0Ohm/00Mhz UF/0V UF/0V 0.uF/0V L 0 Ohm/00MHz 0uF R 0OHM /M-P 0uF MX INNER ROW Part of (0 ) U0 /M-P V_ J0 V_ J V_ J V_0 J V_ J V_ J V_ J V_ J V_ K V_0 P V_ M V_ R V_ T V_ P V_ U V_ R V_ T V_ M V_ K V_ U V_ V V_ V V_ Y V_0 Y V_ V_ V_ J V_ J V_ J V_ J V_ J0 V_0 J V_ L V_ L V_ N V_ N V_ W V_ W V_ V_.UF/.V E U/0V 0.uF/0V 0.0UF/0V 0.uF/0V E0 U/0V 0 0uF 0uF L 0Ohm/00Mhz 0.UF/.V L 0Ohm/00Mhz 0.0UF/0V L 0Ohm/00Mhz L 0Ohm/00Mhz 0.uF/0V 0.uF/0V 0uF
<,> PU_Q[..0] VM_Q[..0] <,> <,> PU_Q[..0] VM_Q[..0] <,> PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q0 PU_Q PU_Q PU_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q PU_QM#[..0] <> VM_QM#[..0] <> PU_QM#[..0] <> VM_QM#[..0] <> PU_QM#0 R 0Ohm PU_QM# R 0Ohm PU_QM# R 0Ohm PU_QM# R 0Ohm PU_QM# R 0Ohm PU_QM# R 0Ohm PU_QM# R0 0Ohm PU_QM# R 0Ohm VM_QM# VM_QM# VM_QM# VM_QM#0 VM_QM# VM_QM# VM_QM# VM_QM# Place QM, Q series termination resistors LOE TO Memory PU_QM#0 R0 0Ohm PU_QM# R0 0Ohm PU_QM# R0 0Ohm PU_QM# R 0Ohm PU_QM# R 0Ohm PU_QM# R0 0Ohm PU_QM# R 0Ohm PU_QM# R 0Ohm VM_QM#0 VM_QM# VM_QM# VM_QM# VM_QM# VM_QM# VM_QM# VM_QM# <> PU_Q[..0] PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q R 0Ohm R 0Ohm R 0Ohm R 0Ohm R 0Ohm R 0Ohm R 0Ohm R 0Ohm VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q[..0] <> <> PU_Q[..0] PU_Q0 PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q PU_Q R 0Ohm R0 0Ohm R0 0Ohm R 0Ohm R 0Ohm R0 0Ohm R 0Ohm R 0Ohm VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q[..0] <> <,> PU_M[..0] VM_M[..0] <,> <,> PU_M[..0] VM_M[..0] <,> PU_M0 PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M0 PU_M PU_M PU_M EMI Request VM_M0 VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M0 VM_M VM_M VM_M Place LK series termination resistors LOE TO PU R0 <> PU_LK0 Ohm R VM_LK0 <> <> PU_LK0 0Ohm VM_LK0 <> R <> PU_LK0# Ohm R VM_LK0# <> <> PU_LK0# 0Ohm VM_LK0# <> R <> PU_LK 0Ohm R VM_LK <> <> PU_LK 0Ohm VM_LK <> R <> PU_LK# 0Ohm R VM_LK# <> <> PU_LK# 0Ohm VM_LK# <> R <> PU_KE 0Ohm R VM_KE <> <> PU_KE 0Ohm VM_KE <> R <> PU_# 0Ohm R VM_# <> <> PU_# 0Ohm VM_# <> <> PU_0# RN RN0 0Ohm VM_0# <> <> PU_0# 0Ohm VM_0# <> <> PU_R# RN RN0 0Ohm VM_R# <> <> PU_R# 0Ohm VM_R# <> <> PU_# RN 0Ohm VM_# <> <> PU_# RN0 0Ohm VM_# <> RN0 <> PU_WE# RN 0Ohm VM_WE# <> <> PU_WE# 0Ohm VM_WE# <> PU_M0 PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M PU_M0 PU_M PU_M PU_M VM_M0 VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M0 VM_M VM_M VM_M UTEH O.,LT. VRM MPIN Pommy Lu Wednesday, October, 00 ate: heet of.0
VM_Q VM_QM# VM_QM# VM_0# VM_QM# VM_WE# VM_# VM_Q VM_R# VM_Q VM_Q VM_KE VM_QM# VM_QM# VM_Q VM_QM# VM_# VM_KE VM_QM# VM_R# VM_Q VM_Q VM_0# VM_QM# VM_Q VM_WE# VM_QM# VM_Q VM_QM# VM_QM#0 VM_Q VM_Q VM_QM# VM_Q0 VM_M VM_M VM_M VM_M0 VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M0 VM_M[..0] VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_M VM_M VM_M VM_M0 VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M VM_M0 VM_M VM_M0 VM_M VM_M VM_M VM_M0 VM_M VM_M VM_M[..0] VM_M VM_M VM_M VM_M VM_M VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_Q VM_LK0 VM_LK0# VM_LK# VM_LK VM_LK0# VM_LK0 VM_LK# VM_LK VM_M VM_Q VM_M VM_Q VM_Q VM_QM#0 VM_Q0 VM_Q VM_Q VM_M0 VM_Q VM_Q VM_QM# VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_M VM_Q VM_Q VM_Q VM_Q0 VM_M VM_QM# VM_Q VM_QM# VM_M VM_M0 VM_Q VM_Q VM_Q VM_Q VM_M VM_Q VM_Q0 VM_M VM_M VM_M VM_M VM_Q VM_Q0 VM_Q VM_Q VM_Q VM_Q VM_Q VM_M VM_Q VM_Q VM_Q VM_M VM_M VM_Q VM_Q VM_# VM_# VM_M[..0] <> VM_Q[..0] <> VM_Q[..] <> VM_M[..0] <> VM_Q[..] <> VM_Q[..0] <> VM_LK0 <> VM_LK0# <> VM_KE <> VM_0# <> VM_R# <> VM_# <> VM_WE# <> VM_Q[..0] <> VM_QM#[..0] <> VM_QM#[..] <> VM_Q[..] <> VM_LK# <> VM_LK <> VM_WE# <> VM_KE <> VM_QM#[..0] <> VM_R# <> VM_Q[..0] <> VM_# <> VM_0# <> VM_LK0# <> VM_LK0 <> VM_Q[..] <> VM_LK <> VM_QM#[..] <> VM_LK# <> VM_# <> VM_# <> V._VRM V._VRM V._VRM V._VRM V._VRM V._VRM V._VRM V._VRM V._VRM V._VRM V._VRM ate: heet of Wednesday, October, 00 UTEH O.,LT. M-Video RM.0 Pommy Lu placed 0 close to Video RM placed 0 close to Video RM placed 0 close to Video RM placed 0 close to Video RM placed decoupling capacitors close to Video RM 0 0.uF/0V R KOhm R KOhm U HYUF_ M0 Q Q Q0 Q Q Q 0 M Q Q VQ N VQ Q VQ VQ Q0 VQ 0 N VQ Q Q Q V V VQ VQ 0 VQ Q E VQ E V E V E VQ E V E V E VQ0 E V E0 V E VQ E Q E Q F Q F VQ F VQ F V TH F V TH F V TH F V TH F VQ F0 VQ0 F Q F Q F Q Q VQ VQ V TH V TH V TH V TH VQ 0 VQ Q Q Q H M H N H VQ H V TH H V TH0 H V TH H V TH H VQ H0 N H M H Q H Q J Q0 J VQ J VQ J V TH J V TH J V TH J V TH J VQ J0 VQ J Q J Q0 J Q K Q K VQ K VQ K V K V K V K V K VQ0 K0 VQ K Q K Q K # L WE# L V L V L 0 L V L V L RFU L V0 L0 V L N L N L R# M N M N M M M M M M RFU M0 LK M LK# M ML M # N N N 0 N 0 N N N N N N0 /P N KE N VREF N VQ VQ VQ VQ VQ Q0 Q Q 0uF 0.uF/0V 0.uF/0V 0.0UF/0V R.Ohm 0.uF/0V R.Ohm 0 0.uF/0V 0 0uF 0.uF/0V U HYUF_ M0 Q Q Q0 Q Q Q 0 M Q Q VQ N VQ Q VQ VQ Q0 VQ 0 N VQ Q Q Q V V VQ VQ 0 VQ Q E VQ E V E V E VQ E V E V E VQ0 E V E0 V E VQ E Q E Q F Q F VQ F VQ F V TH F V TH F V TH F V TH F VQ F0 VQ0 F Q F Q F Q Q VQ VQ V TH V TH V TH V TH VQ 0 VQ Q Q Q H M H N H VQ H V TH H V TH0 H V TH H V TH H VQ H0 N H M H Q H Q J Q0 J VQ J VQ J V TH J V TH J V TH J V TH J VQ J0 VQ J Q J Q0 J Q K Q K VQ K VQ K V K V K V K V K VQ0 K0 VQ K Q K Q K # L WE# L V L V L 0 L V L V L RFU L V0 L0 V L N L N L R# M N M N M M M M M M RFU M0 LK M LK# M ML M # N N N 0 N 0 N N N N N N0 /P N KE N VREF N VQ VQ VQ VQ VQ Q0 Q Q R.Ohm 0uF 0.uF/0V 0uF 0.uF/0V 0.uF/0V 0.uF/0V R.Ohm 00 0.uF/0V 0.uF/0V 0 0.0UF/0V U HYUF_ M0 Q Q Q0 Q Q Q 0 M Q Q VQ N VQ Q VQ VQ Q0 VQ 0 N VQ Q Q Q V V VQ VQ 0 VQ Q E VQ E V E V E VQ E V E V E VQ0 E V E0 V E VQ E Q E Q F Q F VQ F VQ F V TH F V TH F V TH F V TH F VQ F0 VQ0 F Q F Q F Q Q VQ VQ V TH V TH V TH V TH VQ 0 VQ Q Q Q H M H N H VQ H V TH H V TH0 H V TH H V TH H VQ H0 N H M H Q H Q J Q0 J VQ J VQ J V TH J V TH J V TH J V TH J VQ J0 VQ J Q J Q0 J Q K Q K VQ K VQ K V K V K V K V K VQ0 K0 VQ K Q K Q K # L WE# L V L V L 0 L V L V L RFU L V0 L0 V L N L N L R# M N M N M M M M M M RFU M0 LK M LK# M ML M # N N N 0 N 0 N N N N N N0 /P N KE N VREF N VQ VQ VQ VQ VQ Q0 Q Q 0.uF/0V 0 0.0UF/0V 0 0.uF/0V R KOhm R.Ohm 0.uF/0V U HYUF_ M0 Q Q Q0 Q Q Q 0 M Q Q VQ N VQ Q VQ VQ Q0 VQ 0 N VQ Q Q Q V V VQ VQ 0 VQ Q E VQ E V E V E VQ E V E V E VQ0 E V E0 V E VQ E Q E Q F Q F VQ F VQ F V TH F V TH F V TH F V TH F VQ F0 VQ0 F Q F Q F Q Q VQ VQ V TH V TH V TH V TH VQ 0 VQ Q Q Q H M H N H VQ H V TH H V TH0 H V TH H V TH H VQ H0 N H M H Q H Q J Q0 J VQ J VQ J V TH J V TH J V TH J V TH J VQ J0 VQ J Q J Q0 J Q K Q K VQ K VQ K V K V K V K V K VQ0 K0 VQ K Q K Q K # L WE# L V L V L 0 L V L V L RFU L V0 L0 V L N L N L R# M N M N M M M M M M RFU M0 LK M LK# M ML M # N N N 0 N 0 N N N N N N0 /P N KE N VREF N VQ VQ VQ VQ VQ Q0 Q Q 0 0.uF/0V R.Ohm R KOhm 0.uF/0V R KOhm 0 0.uF/0V 0uF 0.uF/0V R0.Ohm R KOhm 0 0.uF/0V 0.uF/0V 0.uF/0V 0 0.uF/0V 0uF R0 KOhm 0.uF/0V 0 0.0UF/0V 0.uF/0V 0uF R KOhm 0.uF/0V R0.Ohm 0uF
V. V R 00Ohm R0 0Ohm R MOhm /M-P Q UMKN R 00KOhm V. Q IV L 0Ohm/00Mhz V._L <> LV_V_EN /MX R0 0Ohm Q UMKN 0.UF/V 0.uF/0V 0.uF/0V UF/0V 0uF /M-P R 00KOhm /MX M-P: Internal P, not stuff R MX: stuff R placed E close to ON V. _T_Y Hall ensor Power V. acklignt: Level ontrol <> LV_LTRL R.KOhm R V_U0 00KOhm <0> K_OFF# 0.UF/V 0.UF/V 0.00uF/0V 0.U ON L 0Ohm/00Mhz <> LI_W# U_WLN_ON# <0> WLN_PWR T MER_PWR L 0Ohm/00Mhz L 0Ohm/00Mhz U_P0- <> L 0Ohm/00Mhz <0> INVERT_ 0 U_P0 <> L 0 0Ohm/00Mhz U_P- <> L U_P <> L 0Ohm/00Mhz 0Ohm/00Mhz F0JE L 0Ohm/00Mhz 0 0 IE IE 0 0 00 <> INTMI_ 0 WTO_ON_0P 0.U 0.U 0.U 0.U V E 00UF/V 0.00uF/0V 00PF 00PF 0.uF/0V _UIO placed E close to ON0 U PORT for MER U PORT 0 for WLN ON first source: -0000 second source: -0000L ON <> LV_LK_LP <> LV_LK_LN <> LV_LP <> LV_LN <> LV_LP <> LV_LN <> LV_L0P <> LV_L0N <> PNEL_I0 <> PNEL_I V._L PNEL_I0 PNEL_I IE IE 0 0 0 0 0 0 PNEL_I LV_LK_UP <> LV_LK_UN <> LV_UP <> LV_UN <> LV_UP <> LV_UN <> LV_U0P <> LV_U0N <> PNEL_I <> V._L PNEL_I0 PNEL_I PNEL_I RN 0KOhm RN 0KOhm RN 0KOhm RN 0KOhm V._V 0.uF/0V WTO_XP 0.uF/0V L ON UTEH O.,LT. L&L ON Pommy Lu Wednesday, October, 00 ate: heet of.0
RT ON Place RN & close to M placed E close to ON0 V. L0 Ohm/00MHz ON V <> RT_R RE V RN Ohm 0.PF/0V.PF/0V <> TV_Y/Y RN Ohm L P.nH 0 P R 0OHM TV_Y TV-OUT ON PX V. V <> RT_ RN Ohm L Ohm/00MHz 0.PF/0V.PF/0V REEN N N <> TV_/Pr RN Ohm L P.nH P R 0OHM TV_Pr TV_Pb TV_Y TV_Pr V V Y N 0 H H -00 V. V <> RT_ RN Ohm L Ohm/00MHz 0.PF/0V.PF/0V LUE RT PIN <> TV_OMP/Pb L.nH R TV_Pb <> RT_H Q UMKN R Ohm HYN RN Ohm P P 0OHM For EMI ead Near the onnector V.U RN V RN <> RT_V R Ohm PF VYN 00KOHM 00KOHM V Q UMKN PF Q0 UMKN RN.KOhm <,,,,0,> UF_PI_RT# Q0 UMKN <> RT T Q UMKN L Ohm/00MHz T PF <> RT LK.KOhm RN Q UMKN L Ohm/00MHz PF LK _T 0 IE_ IE_ V UTEH O.,LT. TV-OUT & RT ON Pommy Lu Wednesday, October, 00 ate: heet of.0
V._IH PI_FRME#.KOhm 0 RP <> HU_VREF_IH PI_RT# trap Option efault: Pull-own Pull-High for Hub Interface. uffer Mode V. HU_ROMP_IH R-IH <= 0." HU_VWIN_IH V. 0.V /- % IH(R0)<=" / board impedance V._IHHU Place R& close to U0.M and U0.R. If it is difficult to match ", should generated two local reference voltage circuit R00 0KOhm 0.0uF/V U V Y NZ0PX 0 0.0uF/V R0.Ohm R0 0Ohm R0 0Ohm 0.uF/0V UF_PI_RT# <,,,,0,> <> LK_IH <> V. <,,0> HU_P[0:0] <> <> <,0,,> LP_0 <,0,,> LP_ <,0,,> LP_ <,0,,> LP_ <,0,,> LP_FRME# <> <,,> PI_EVEL# <,,> PI_FRME# <,,> PI_IRY# <,,> PI_TRY# <,,> PI_TOP# <,,> PI_PR <,,> PI_PERR# <,,,> PM_LKRUN# HU_PTR# HU_PTR LP_RQ#0 R 0KOhm R 0KOhm <,,> PI_ERR# <> PME_# Use aisy-hain Topology PF PI_RT# HU_P0 <=" L HU_P <=" L0 HU_P <=" M HU_P <=" M HU_P <=" P HU_P <=" R HU_P <=" T0 HU_P <=" R0 HU_P <=" P HU_P <=" L HU_P0 <=" N K Ohm R N0 P HU_ROMP_IH R HU_VWIN_IH R PI_EVEL# PI_FRME# PI_IRY# PI_TRY# PI_TOP# PI_PERR# PI_ERR# PI_LOK# PI_RT# "-." design V. guideline recommended R0 0KOhm 0 T R T U T U U M F L F F L K W M U P LxWxH=xx. U0 HI0 HI HI HI HI HI HI HI HI HI HI0 HI HI_T#/HI_TF HI_T/HI_T HIOMP HI_VWIN EE_ EE_IN EE_OUT EE_HLK L0/FWH0 L/FWH L/FWH L/FWH LFRME#/FWH LRQ# LRQ0# FW0M 0 0 0 0 /E0# /E# EVEL# /E# FRME# /E# IRY# TRY# REQ0# TOP# REQ# PR REQ# PERR# REQ# REQ# REQ#/REQ#/PIO ERR# REQ#/PIO0 PME# PLOK# NT0# PIRT# NT# PILK NT# LKRUN#/PIO NT# NT# NT#/NT#PIO NT#/PIO H J H K J H J K L L H L F F N E N E N E M E P E P R P J K M N E E PI_0 PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_0 PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_0 PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_ PI_0 PI_ PI_REQ#0 PI_REQ# PI_REQ# PI_REQ# PI_REQ# IH_PIO IH pin E trap Option efault:pull-high 0K Pull-own for IO TOP-LOK WP T0 PI_[:0] <,,,> <,> <,> INT_IRQ INT_IRQ <,,,0,> INT_ERIRQ PI_/E#0 <,,> PI_/E# <,,> PI_/E# <,,> PI_/E# <,,> PI_REQ#0 <> PI_REQ# <> PI_REQ# <> R R PI_NT#0 <> PI_NT# <> PI_NT# <> TPt 0KOhm 0KOhm V. PI_IRY# PI_TRY# PI_TOP# PI_ERR# PI_EVEL# PI_PERR# PI_LOK# PI_REQ#0 PI_REQ# PI_REQ# PI_REQ# PI_REQ# design guideline recommend.kohm PI_REQ# & MINIPI LN IEL.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0 PI_REQ#? PI_REQ#0 PI_REQ# PI_REQ# PI_? RP RP RP RPE RPF RP RPH RP RP RP RP RPE RPF RP RPH V. Meet LP reset >= 0 us (dd uffer) & MINIPI PI_ PI_0 LN PI_ UTEH O.,LT. IH-M(HU_PI) charlie_xie Wednesday, October, 00 ate: heet of.0
<> IE_P[:0] IE_[:0] <> U0 IE I/F: Width: mils pace: mils Length<= " Match: <= 00 mils <> <> <> IE_P0 IE_P IE_P IE_P0 IE_P IE_P IE_P IE_P IE_P IE_P IE_P IE_P IE_P IE_P0 IE_P IE_P IE_P IE_P IE_P Y0 0 Y Y W 0 W0 W Y W LxWxH=xx. P0 P P P P P P P P P P0 P P P P P P0 P P 0 0 0 W W W W Y Y Y Y 0 0 IE_0 IE_ IE_ IE_ IE_ IE_ IE_ IE_ IE_ IE_ IE_0 IE_ IE_ IE_ IE_ IE_ IE I/F: Width: mils pace: mils Length<= " Match: <= 00 mils IE_0 <> IE_ <> IE_ <> IH_PI IH_PI IH_PI IH_PI PI_INT# PI_INT#.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0.KOhm 0 RP RP RP RP RPE RPF V. M_INTRUER# V._IH V. R0 00KOhm design guideline recommend 0kohm V.U_IH <> <> IE_P# IE_P# <> IE_PIORY <> IE_PIOW# <> IE_PIOR# <> IE_PK# <> IE_PREQ Y W Y P# P# PIORY PIOW# PIOR# PK# PREQ # # IORY IOW# IOR# K# REQ Y IE_# <> IE_# <> IE_IORY <> IE_IOW# <> IE_IOR# <> IE_K# <> IE_REQ <> PI_INT# PI_INT#.KOhm 0.KOhm 0 RP RPH RN.KOhm V RN.KOhm L_ <,,,0,> INT_ERIRQ <,> PI_INT# <> PI_INT# <,> PI_INT# <,> PI_INT# <,> <,> INT_IRQ INT_IRQ 0KOhm 0KOhm RN RN T TT RT_T RT IRUITRY PI_INT# PI_INT# PI_INT# PI_INT# IH_PI IH_PI IH_PI IH_PI RT_X RT_X : u RT ircuits: RT_RT#, RT_VI, RT_X, RT_X Width= mils Length<=" Need uard Measure duty-cycle of ULK (Pin ) must be in 0-0% R0 KOhm X 0 0 0 J J H K0 IE.KHZ LN_LK _RT# LN_RX0 _YN LN_RX _IT_LK LN_RX _OUT LN_TX0 _IN0 LN_TX _IN LN_TX _IN LN_RTYN INTRUER# ERIRQ MLINK0 PIRQ# MLINK PIRQ# PIRQ# LK PIRQ# LK PIRQE#/PIO LK PIRQF#/PIO PIRQ#/PIO RTRT# PIRQH#/PIO IRQ IRQ PKR PILK PI0 TLOW#/TP[0] PI MLERT#/PIO RTX MLK RTX MT FW0M V. PF/0V RF 0.0UF/0V W T F J W H RT_VI _YN _OUT M_INTRUER# M_LINK0 M_LINK RT_RT# L RT_VI <> RT_X _RT# <,> _LK_IH <> _IN0 <> _IN <> IH_PKR <> Vpeak-peak of RT_X < V PM_TLOW# <0> LI_IH#_ <> V_RT R time delay should be - ms R RT_RT# 0KOhm UF/0V R 0MOhm R 0MOhm 0 0.uF/0V PF PF M PF _IN0 _IN LK_IH <> LK_IH <> LK_IH <> IN IH R Outer Layer: mils Inner Layer: mils W/= : IH-R: 0."-." -R: 0."-0." (#00) _IN0 _IN M <,,> <,,> L V._IH OUT & YN IH T R M R _YN _OUT to inches _OUT V Q UMKN 0. to 0. inches Q UMKN trap Option V.U_IH M_LINK0 M_LINK _ Outer Layer: mils -R: <=." Inner Layer: mils R-(T): 0."- 0." W/= : M-R: IH-(T): "- " 0."-." R-(T): 0."- 0." (#00) _YN_M <> _YN_OE <> _OUT_M <> _OUT_OE <> 0. to. inches T type routing, place R at branch point. V._IH R KOhm RN.KOhm R Ohm R Ohm R Ohm R Ohm RN.KOhm efault: Pull-own 0K Pull-High for PU FE_MOE base on line load RT_X PF/0V UTEH O.,LT. IH-M(IE_) charlie_xie Wednesday, October, 00 ate: heet of.0
V._IH V.U_IH U INL X lock ignals U - U- <= 0 mils Pair Width/pace: /0 mils Impedence: 0 ohm(differential) Other ignals pace: >= 0 mils lock ignals apce:>= 0 mils LxWxH=xx. U0 RN 0KOhm RN RN 0KOhm 0KOhm V.U_IH RN RN RN 0KOhm 0KOhm 0KOhm R0 00KOhm U_O# U_O#0 PM_YRT# <> PM_TLOW# <> P_UY# design guideline recommended.ohm V. RN 0KOhm <,> <> URI: W/: / mils Length: <= 0." RN 0KOhm <,> H_THRMTRIP_# <> <> <> <,> <> <> U_PN0 <> U_PP0 <> U_PN <> U_PP <> U_PN <> U_PP <> U_PN <> U_PP <> U_PN <> U_PP <> U_PN <> U_PP R.Ohm U_O# U_O# PM_PRLPVR <> PM_PWRTN# <,> IH_PWROK <> PM_RI# <> PM_RMRT# <,,,> <,,> PM TT# PM_LP_# PM_LP_# <> PM_TPPI# <,> PM_TPPU# PM_U_TT# PM_THRM# PM_VTE URI <=0." U_O#0 U_O# 0 0 P_UY# R T T TPt Y0 V0 Y Y LP_# W Y Y Y W J PM_YRT# Y V <=" W0 R Ohm V UP0N PIO UP0P PIO UPN PIO UPP PIO UPN PIO UPP PIO UPN PIO UPP PIO UPN PIO UPP PIO UPN PIO UPP PIO PIO URI PIO URI# PIO PIO0 O0# PIO O# PIO O# PIO O# O# 0TE O# 0M# PUPWR PUY#/PIO PULP# _TT#/PIO PLP# PUPERF#/PIO FERR# PRLPVR INNE# LN_RT# INIT# PWRTN# INTR PWROK NMI RI# MI# RMRT# TPLK# LP_#/PIO RIN# LP_# LP_# LP_# TP_PI#/PIO TP_PU#/PIO0 MUXEL/PIO ULK U_TT#/LPP# Y_REET# THRM# THRMTRIP# VTE/VRMPWR R V V W V W W J0 F0 0 F H0 F H H F E _# WLN_ON# _F0 _F _F _F _F Y Y U U <=" W R Ohm V V W V U EXTMI#_ <0> KI_ <0> IO_MI# <> _# <> 0_LE_EN# <0> K_OFF# <> _F0 <> _F <> _F <> _F <> _F <> PUFN_P_ <> FWH_WP# <> H0TE <0> H_0M# <> H_PWR <> H_PULP# <> H_PLP# <,> H_FERR# <> H_INNE# <> H_INIT# <,> H_INTR <> H_NMI <> H_MI# <> H_TPLK# <> KPURT <0> V. FW0M INTEL REQUET V. RN 0KOhm RN 0KOhm PM_LP_# U V 0.uF/0V U_WLN_ON# U_WLN_ON# <> LP_# Y NZ0PX PM_LP_# <,> <> MPI_WLN_ON Q0 UMKN WLN_ON# MPI_WLN_ON Q0 UMKN UTEH O.,LT. IH-M(U_PM) charlie_xie Wednesday, October, 00 ate: heet of 0.0
LxWxH=xx. U0E V. V. V..V -.V(/- %) 0-M:0. V._IH V._IH V._IHHU V._IH VREF_IH VREF EQUENE 0 (00m max.) NW- V.V -.V(/- %) 0-M:0. 0 0.uF/0V 0.uF/0V six capacitors(0.uf) recommended.v -.V(/- %) 0-M: 0. 0.uF/0V 0 0.uF/0V R0 KOhm 0.uF/0V 0 0.uF/0V 0.uF/0V UF/0V H H J J K M0 P P U V0 V V K0 K K K P0 T U V L M P T E V LxWxH=xx. U0 V V V V V V V V V V 0 V V V V V V V V V V V V V V VHI_ VHI_ VHI_ VHI_ VREF_ VREF_ VU VU VU VU VU VU VU VU VU VU 0 VU VU VU VU VU VU VU VU FW0M VREF_U VRT VPLL VI HIREF V_PU_IO_ V_PU_IO_ V_PU_IO_0 VLN_/VU VLN_/VU VLN_/VU VLN_/VU E F0 F F F F K V V V E E E0 F R T U E Y M U P F F E F RT_VI V.U_IH V.U.V -.V(/- %) 0-: m V.U_IH.V -.V(/- %) 0-M: m VREF_U_IH V_RT RT_VI <> HU_VREF_IH <>.0V -.V(/- %) VP 0-M:. (PU,MH,IH) 0.uF/0V V..V -.V(/- %) 0-M:m 0 0.uF/0V 0 0.uF/0V 00 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V V.U 0.uF/0V 0.uF/0V 0.0uF/V 0 0.uF/0V V. V. 0.uF/0V 0 0.uF/0V 0 0 0 0 E0 E E E E E E E F V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_0 V_0 V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_0 V_0 V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_0 V_0 V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_0 V_0 V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_ V_00 V_0 V_0 V_ V_0 FW0M H J K K K K K L0 L L L L L M M M M M0 M N0 N N N N N N N N P P P0 P P R R R T T T U0 V V V W W W Y Y V. V.U_IH VU 0 UF/0V UF/0V UF/0V UF/0V VREF_U_IH NW- R0 KOhm all decupling caps should be placed close to the component pin VREF_U_IH V. VREFU EQUENE 0.uF/0V 0 UF/0V UF/0V UF/0V UTEH O.,LT. IH-M(POWER) charlie_xie Wednesday, October, 00 ate: heet of.0
I address:h.v/-% M:0m 0:0m V._LK R 0KOhm PF X LK_X LK_X <=0." <=0.".Mhz PF 應儘量靠近各 pin. F F FUNTION 0 0 00MHZ() 0 MHZ <> LK_EN# <> LK_IH "~." R 0PF R.Ohm _LK_IH <=0." 0 U Vtt_PWR# VI VI VI VI VI VI0 F/PILK_F0 X X VREF VPI VPI VV VPU VPU 0 V 0 V V._LK 0.uF/0V V._LK V._LK 0.uF/0V 0.uF/0V 0.uF/0V 0.uF/0V UF/0V UF/0V L L V._LK V._LK V. V. 0.uF/0V 0.uF/0V 0Ohm/00MHz UF/0V 0 0uF 0.uF/0V UF/0V L 0Ohm/00MHz 0Ohm/00MHz UF/0V V. 0 00MHZ MHZ <> LK_MINIPI 0KOhm "~." R0 0PF R _LK_MINIPI <=0.".Ohm F/PILK_F PULKT R _LK_PU00 <=0." <=0.".Ohm "~" <=0." R LK_PU00 <> <> LK_PO0 0KOhm "~." 0PF R.Ohm _LK_PO0 0 <=0." EL/PILK_F MULTEL0/PILK0 PULK PULKT _LK_PU00# <=0." _LK_MH00 <=0." R.Ohm R.Ohm.Ohm <=0." "~" <=0." R.Ohm <=0." "~" <=0." R0 LK_PU00# <> LK_MH00 <> HOT_LK ROUP in L Pair Width/pace:/mils roup pace:>=mils Lengeh Match:/-0 mils <> LK_LN R.Ohm _LK_LN "~." <=0." R 0PF MOE/PILK PULK PULKT0/(F).Ohm R _LK_MH00# <=0." <=0." "~".Ohm <=0." R _F <0> LK_MH00# <> <> LK_ 0KOhm "~." 0PF R _LK_ <=0." PILK.Ohm PULK0/(F) _F <0>.Ohm LK ROUP: In L or L reakout W/:/0mils(<=0.") <> LK_IO "~." 0PF R _LK_IO <=0.".Ohm PILK REF0 R _LK_IH <=0." "~.".Ohm 0PF LK_IH <> roup pace >=0mils Length Match :same as LK LK ROUP: In L or L reakout W/:/0mils(<=0.") roup pace >=0mils Length Match :/-00 mils <> LK_FWH <0> LK_K <> LK_MH <> LK_P <> LK_IH "~." "~." "~." 0PF 0 0PF 0PF PM 0PF "~." 0PF R _LK_FWH <=0.".Ohm R _LK_K <=0.".Ohm R0 _LK_MH <=0.".Ohm R _LK_P <=0.".Ohm R _LK_IH <=0.".Ohm PILK PILK V_0 V_ V_ V_/MHz_ MHz_ MHz_0 T 0 LK PU_TOP# PI_TOP# P# IREF F F F0 R _LK_IO <=0." "~".Ohm R _LK_IH <=0." "~".Ohm _ <,,> L_ <,,> PM_TPPU# <0,> PM_TPPI# <0> R V.Ohm R 0KOhm R KOhm _F <0> _F <0> R KOhm R 0KOhm R KOhm _F0 <0> LK_IO <> 0PF LK_IH <> 0 0PF PM_LP_# <0,> I0 R 0KOhm 靠近 PU 和 MH, 以確保 LK 信號品質. UTEH O.,LT. LOK-I0 EL_TN Wednesday, October, 00 ate: heet of.0