📄 emif_com.ibs
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|************************************************************************
| / 7\'7 Xilinx SpartanII I/O Buffer IBIS File
| \ \ Xilinx Inc.
| / / 2100 Logic Drive
| \_\/.\ San Jose, CA 95124
|************************************************************************
|
[IBIS ver] 3.2
[File name] EMIF_COM.ibs
[File Rev] 1.5
[Date] Tue Mar 24 16:08:51 2009
[Source] Hspice simulations (23e: TT, SS, FF)
[Notes] Xilinx IBIS model for SpartanII I/O
The package models are provided for VQ100, TQ144, CS144,
PQ208, FG256 and FG456 package types, with VQ100 being
selected as a default.
COMMENTS: Models include process corners for MIN and MAX.
NOTE: This file is compliant with IBIS Version 3.2, but it
may not implement all approved 3.2 features.
NOTE: Newer versions of the buffer models may be available.
Check the web (http://www.xilinx.com/support/sw_ibis.htm) for
the latest file revision. However, please be aware that the
web files are not compatible for use with IBISWriter, and
must be manually annotated, should their use be preferred.
[Disclaimer] The data in this model is derived from SPICE simulations using
modeling information extracted from the target process. While
a great deal of care has been taken to provide information
that is accurate, this model is considered preliminary as it
has not been verified by actual silicon measurement. Treat the
data in this model as preliminary until actual silicon
verification is performed.
[Copyright] Copyright 2000, Xilinx Inc., All rights reserved
|
|************************************************************************
| Component Spartan-II
|************************************************************************
|
[Component] Spartan2
[Manufacturer] Xilinx Inc.
[Package]
| For Package Type pq208
| variable typ min max
R_pkg 182.50m 180.00m 185.00m
L_pkg 13.350nH 11.700nH 15.000nH
C_pkg 1.5500pF 1.3000pF 1.8000pF
|
|************************************************************************
|
[Pin] signal_name model_name R_pin L_pin C_pin
P175 LED[7] LVTTL12S_O
P178 LED[1] LVTTL12S_O
P152 TEA[2] LVTTL12S_I
P151 TEA[3] LVTTL12S_I
P150 TEA[4] LVTTL12S_I
P114 EXT_INT[6] LVTTL12S_O
P149 TEA[5] LVTTL12S_I
P180 LED[5] LVTTL12S_O
P176 LED[2] LVTTL12S_O
P120 TED[0] LVTTL12S
P121 TED[1] LVTTL12S
P122 TED[2] LVTTL12S
P123 TED[3] LVTTL12S
P126 TED[4] LVTTL12S
P125 TED[5] LVTTL12S
P132 TED[6] LVTTL12S
P129 TED[7] LVTTL12S
P127 TED[8] LVTTL12S
P119 EXT_INT[7] LVTTL12S_O
P134 TED[9] LVTTL12S
P160 CE[2] LVTTL12S_I
P181 LED[6] LVTTL12S_O
P161 CE[3] LVTTL12S_I
P113 EXT_INT[4] LVTTL12S_O
P188 LED[3] LVTTL12S_O
P179 LED[0] LVTTL12S_O
P148 AOE LVTTL12S_I
P133 TED[10] LVTTL12S
P147 ARE LVTTL12S_I
P136 TED[11] LVTTL12S
P135 TED[12] LVTTL12S
P140 TED[13] LVTTL12S
P115 EXT_INT[5] LVTTL12S_O
P138 TED[14] LVTTL12S
P187 LED[4] LVTTL12S_O
P139 TED[15] LVTTL12S
P146 AWE LVTTL12S_I
P208 VCCO POWER
P207 TCK LVTTL12F_I
P198 GND GND
P197 VCCO POWER
P196 VCCINT POWER
P190 GND GND
P186 VCCINT POWER
P184 VCCO POWER
P183 GND GND
P177 GND GND
P171 VCCINT POWER
P170 VCCO POWER
P169 GND GND
P159 TDI LVTTL12F_I
P158 GND GND
P157 TDO LVTTL12F_O
P156 VCCO POWER
P155 CCLK LVTTL12F
P154 DOUT_BUSY LVTTL12F_O
P153 DIN_D0 LVTTL12F
P145 GND GND
P144 VCCO POWER
P143 VCCINT POWER
P142 D2 LVTTL12F
P137 GND GND
P131 GND GND
P130 VCCO POWER
P128 VCCINT POWER
P124 GND GND
P118 VCCINT POWER
P117 VCCO POWER
P116 GND GND
P108 D7 LVTTL12F
P107 INIT LVTTL12F
P106 PROGRAM LVTTL12F_I
P105 VCCO POWER
P104 DONE LVTTL12F
P103 GND GND
P93 GND GND
P92 VCCO POWER
P91 VCCINT POWER
P85 GND GND
P79 GND GND
P78 VCCO POWER
P76 VCCINT POWER
P72 GND GND
P66 VCCINT POWER
P65 VCCO POWER
P64 GND GND
P54 M2 LVTTL12F_I
P53 VCCO POWER
P52 M0 LVTTL12F_I
P51 GND GND
P50 M1 LVTTL12F_I
P40 GND GND
P39 VCCO POWER
P38 VCCINT POWER
P32 GND GND
P28 VCCINT POWER
P26 VCCO POWER
P25 GND GND
P19 GND GND
P13 VCCINT POWER
P12 VCCO POWER
P11 GND GND
P2 TMS LVTTL12F_I
P1 GND GND
|
|************************************************************************
| Note - the values for Vref specified below refer to the IBIS
| Vref (the voltage to which the load resistor is connected in
| the IBIS model) and not the Vref of the corresponding
| differential input standard.
| These 2 Vrefs will not necessarily have the same value for a given
| standard.
|
|************************************************************************
| Model LVTTL12F
|************************************************************************
|
[Model] LVTTL12F
Model_type I/O
Polarity Non-Inverting
Enable Active-Low
Vinl = 0.800V
Vinh = 2.000V
Vmeas = 1.4000V
Cref = 35.0000pF
Rref = 1.0000M
Vref = 0.000V
C_comp 6.5000pF 5.0000pF 8.0000pF
|
|
[Temperature Range] 27.0000 100.0000 0.000
[Voltage Range] 3.3000V 3.0000V 3.6000V
[Pulldown]
| voltage I(typ) I(min) I(max)
|
-3.3000 -42.8000mA -28.5420mA -47.8900mA
-3.1000 -42.8000mA -28.5420mA -47.8900mA
-2.9000 -42.8000mA -28.5420mA -47.8900mA
-2.7000 -42.8000mA -28.5420mA -47.8900mA
-2.5000 -42.8000mA -28.5420mA -47.8900mA
-2.3000 -42.8000mA -28.5420mA -47.8900mA
-2.1000 -42.8000mA -28.5420mA -47.8900mA
-1.9000 -42.8000mA -28.5420mA -47.8900mA
-1.7000 -42.8000mA -28.5420mA -47.8900mA
-1.5000 -42.8000mA -28.5420mA -47.8900mA
-1.0000 -42.8000mA -28.5420mA -47.8900mA
-0.9000 -42.8000mA -28.5420mA -47.8900mA
-0.8000 -42.8000mA -28.5420mA -47.4000mA
-0.7000 -41.2840mA -28.5420mA -45.3800mA
-0.6000 -38.4720mA -28.5420mA -42.9010mA
-0.5000 -34.0126mA -25.2276mA -38.7700mA
-0.4000 -27.8776mA -20.5926mA -32.1201mA
-0.3000 -21.1760mA -15.5547mA -24.5058mA
-0.2000 -14.2798mA -10.4086mA -16.5899mA
-0.1000 -7.2210mA -5.2209mA -8.4210mA
0.0000 -0.2107nA -1.4720nA -0.1888nA
0.1000 7.1430mA 5.1020mA 8.4010mA
0.2000 13.9600mA 9.9400mA 16.4900mA
0.3000 20.4400mA 14.5100mA 24.2600mA
0.4000 26.5800mA 18.8000mA 31.6800mA
0.5000 32.3500mA 22.8100mA 38.7500mA
0.6000 37.7600mA 26.5300mA 45.4500mA
0.7000 42.7900mA 29.9700mA 51.7600mA
0.8000 47.4300mA 33.1100mA 57.6700mA
0.9000 51.6800mA 35.9600mA 63.1700mA
1.0000 55.5200mA 38.5200mA 68.2400mA
1.1000 58.9600mA 40.7800mA 72.8600mA
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