|********************************************************************* [IBIS Ver] 1.1 [File name] cf648pqf.ibs [File rev] 1.0 [Date] 7/7/94 [Source] The file was oringinated at Intel Corporation. [Notes] The following information corresponds to the 80960CF on process 648 and has not been validated. [Disclaimer] The following information is for modeling purposes only and is not guaranteed. |********************************************************************* [Component] i960CF (TM) [Manufacturer] Intel [Package] |variable typ min max R_pkg 95m 79m 111m L_pkg 7.5nH 8.8nH 10.1nH C_pkg 0.7pF 1.4pF 2.2pF | |********************************************************************* [Pin] signal_name model_name | 1 VCC POWER 2 VSS GND 3 D23 P1P19 4 D22 P1P19 5 D21 P1P19 6 D20 P1P19 7 VSS GND 8 D19 P1P19 9 D18 P1P19 10 D17 P1P19 11 D16 P1P19 12 VCC POWER 13 D15 P1P19 14 D14 P1P19 15 D13 P1P19 16 VSS GND 17 D12 P1P19 18 D11 P1P19 19 D10 P1P19 20 VCC POWER 21 D9 P1P19 22 D8 P1P19 23 D7 P1P19 24 VSS GND 25 D6 P1P19 26 D5 P1P19 27 D4 P1P19 28 VCC POWER 29 NC NC 30 VSS GND 31 NC NC 32 VCC POWER 33 D3 P1P19 34 D2 P1P19 35 D1 P1P19 36 D0 P1P19 37 VCC POWER 38 VSS GND 39 VSS GND 40 BOFF# P1P24A 41 NC NC 42 NC NC 43 ONCE# P1P24A 44 VCC POWER 45 FAIL# P1P17 46 STEST P1P25 47 NC NC 48 NC NC 49 VSS GND 50 VCC POWER 51 NC NC 52 NC NC 53 NC NC 54 NC NC 55 NC NC 56 VSS GND 57 DREQ0# P1P24A 58 DREQ1# P1P24A 59 DREQ2# P1P24A 60 DREQ3# P1P24A 61 VCC POWER 62 DACK0# P1P16 63 DACK1# P1P16 64 DACK2# P1P16 65 DACK3# P1P16 66 EOP0/TC0# P1P43 67 EOP1/TC1# P1P43 68 EOP2/TC2# P1P43 69 EOP3/TC3# P1P43 70 VSS GND 71 VCC POWER 72 VCCPLL POWER 73 NC NC 74 PCKL2 P1P09 75 VSS GND 76 NC NC 77 VSS GND 78 PCLK1 P1P09 79 VCC POWER 80 NC NC 81 VSS GND 82 VCC POWER 83 VSS GND 84 NC NC 85 CLKMODE P1P23CKM 86 NC NC 87 CLKIN P1P23CLK 88 VSS GND 89 VSS GND 90 NC NC 91 RESET# P10SCHMITT 92 VSS GND 93 XINT0# P1P25 94 XINT1# P1P25 95 XINT2# P1P25 96 VCC POWER 97 NC NC 98 VSS GND 99 VCC POWER 100 XINT3# P1P25 101 XINT4# P1P25 102 XINT5# P1P25 103 VCC POWER 104 NC NC 105 VSS GND 106 XINT6# P1P25 107 XINT7# P1P25 108 NMI# P1P25 109 VSS GND 110 VSS GND 111 AS P1P16 112 A3 P1P16 113 A4 P1P16 114 A5 P1P16 115 VCC POWER 116 A6 P1P16 117 A7 P1P16 118 A8 P1P16 119 A9 P1P16 120 A10 P1P16 121 VSS GND 122 A11 P1P16 123 A12 P1P16 124 A13 P1P16 125 VSS GND 126 NC NC 127 VCC POWER 128 A14 P1P16 129 A15 P1P16 130 A16 P1P16 131 VSS GND 132 A17 P1P16 133 A18 P1P16 134 A19 P1P16 135 VSS GND 136 A20 P1P16 137 A21 P1P16 138 A22 P1P16 139 A23 P1P16 140 VCC POWER 141 A24 P1P16 142 A25 P1P16 143 A26 P1P16 144 A27 P1P16 145 A28 P1P16 146 NC NC 147 VSS GND 148 VCC POWER 149 NC NC 150 VSS GND 151 A29 P1P16 152 A30 P1P16 153 A31 P1P16 154 VCC POWER 155 BREQ P1P17 156 LOCK# P1P17 157 NC NC 158 SUP# P1P17 159 D/C# P1P17 160 DMA# P1P17 161 VSS GND 162 WAIT# P1P16 163 DT/R# P1P16 164 W/R# P1P16 165 VSS GND 166 NC NC 167 DEN# P1P16 168 VCC POWER 169 BLAST# P1P16 170 BE0# P1P16 171 VCC POWER 172 BE1# P1P16 173 VSS GND 174 VSS GND 175 BE2# P1P16 176 BE3# P1P16 177 NC NC 178 ADS# P1P16 179 HOLDA P1P16 180 VCC POWER 181 HOLD P1P23 182 READY# P1P23 183 NC NC 184 BTERM# P1P24 185 VSS GND 186 D31 P1P19 187 D30 P1P19 188 D29 P1P19 189 D28 P1P19 190 VCC POWER 191 D27 P1P19 192 D26 P1P19 193 NC NC 194 D25 P1P19 195 D24 P1P19 196 VSS GND | | |This following model descriptions describe each of the |different type of buffers. | | |********************************************************************* | |This is the model for buffer p1p16. | |********************************************************************* | | [Model] P1P16 Model_type Output Polarity Non-Inverting |signals DACK(0:)#,A(2:31),ADS#,HOLDA,BE(0:3)#,BLAST#,DEN#,W/R#,DT/R#, |WAIT# | |variable typ min max C_comp 5.8pF 5.2pF 6.4pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -78.0m -39.0m -112.0m -4.0V -76.0m -37.0m -111.0m -3.0V -74.0m -35.0m -107.0m -2.0V -65.0m -34.0m -85.0m -1.0V -33.0m -22.0m -43.0m 0.0V 0.0m 0.0m 0.0m 1.0V 33.0m 21.0m 41.0m 2.0V 63.0m 41.0m 81.0m 3.0V 90.0m 59.0m 117.0m 4.0V 113.0m 73.0m 149.0m 5.0V 131.0m 83.0m 175.0m 6.0V 140.0m 86.0m 191.0m 7.0V 142.0m 88.0m 196.0m 8.0V 144.0m 89.0m 198.0m 9.0V 145.0m 89.0m 201.0m 10.0V 145.0m 89.0m 202.0m | |********************************************************************* |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 10.0V in the table it is actually 10 volts below Vcc and -5.0V |with respect to ground. |********************************************************************* | [Pullup] | |Voltage I(typ) I(min) I(max) | 10.0V -73.0m -46.0m -102.0m 9.0V -73.0m -46.0m -102.0m 8.0V -73.0m -46.0m -102.0m 7.0V -72.0m -45.0m -100.0m 6.0V -70.0m -44.0m -98.0m 5.0V -68.0m -43.0m -94.0m 4.0V -62.0m -39.0m -87.0m 3.0V -52.0m -32.0m -73.0m 2.0V -38.0m -22.0m -56.0m 1.0V -20.0m -10.0m -33.0m 0.0V 2.0m 4.0m -8.0m -1.0V 21.0m 12.0m 20.0m -2.0V 25.0m 12.0m 34.0m -3.0V 25.0m 12.0m 37.0m -4.0V 26.0m 13.0m 37.0m -5.0V 26.0m 13.0m 38.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V -1.0m -5.0m -1.0m -0.7V -5.0m -7.0m -4.0m -0.8V -8.0m -11.0m -8.0m -0.9V -13.0m -14.0m -13.0m -1.0V -17.0m -16.0m -19.0m -3.0V -108.0m -83.0m -131.0m -5.0V -201.0m -149.0m -245.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 10.0m 0.0m -0.5V 1.0m 12.0m 0.0m -0.6V 3.0m 16.0m 0.0m -0.7V 7.0m 19.0m 0.0m -0.8V 11.0m 22.0m 0.0m -0.9V 15.0m 25.0m 1.0m -1.0V 19.0m 29.0m 6.0m -3.0V 111.0m 94.0m 117.0m -5.0V 203.0m 162.0m 231.0m | [Ramp] | typ min max dV/dt_r 1.4/0.2n 1.1/0.3n 1.7/0.2n dV/dt_f 1.8/0.2n 1.5/0.4n 2.1/0.2n | |********************************************************************* |end of p1p16 model |********************************************************************* | | | | |********************************************************************* | |This is the model for the buffer P1P17 | |********************************************************************* | [Model] P1P17 Model_type Output Polarity Non-Inverting |Signals FAIL#,SUP#,DMA#,BREQ,D/C#,LOCK# | |variable typ min max C_comp 4.6pF 4.1pF 5.1pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | | | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -45.0m -24.0m -65.0m -4.0V -41.0m -20.0m -59.0m -3.0V -40.0m -20.0m -58.0m -2.0V -39.0m -19.0m -57.0m -1.0V -34.0m -17.0m -46.0m 0.0V 0.0m 0.0m 0.0m 1.0V 31.0m 19.0m 41.0m 2.0V 53.0m 33.0m 72.0m 3.0V 66.0m 40.0m 90.0m 4.0V 71.0m 44.0m 98.0m 5.0V 71.0m 44.0m 99.0m 6.0V 72.0m 44.0m 100.0m 7.0V 73.0m 44.0m 100.0m 8.0V 73.0m 44.0m 100.0m 9.0V 73.0m 44.0m 100.0m 10.0V 73.0m 44.0m 100.0m | |********************************************************************* |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 10.0V in the table it is actually 10 volts below Vcc and -5.0V |with respect to ground. |********************************************************************* | [Pullup] | |Voltage I(typ) I(min) I(max) | 10.0V -38.0m -24.0m -53.0m 9.0V -36.0m -23.0m -51.0m 8.0V -36.0m -23.0m -51.0m 7.0V -36.0m -23.0m -51.0m 6.0V -36.0m -23.0m -51.0m 5.0V -35.0m -22.0m -50.0m 4.0V -34.0m -21.0m -47.0m 3.0V -31.0m -19.0m -44.0m 2.0V -25.0m -14.0m -37.0m 1.0V -14.0m -7.0m -24.0m 0.0V 0.0m 3.0m -6.0m -1.0V 12.0m 7.0m 15.0m -2.0V 13.0m 7.0m 19.0m -3.0V 14.0m 7.0m 19.0m -4.0V 14.0m 7.0m 20.0m -5.0V 14.0m 7.0m 20.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V -1.0m -7.0m 0.0m -0.7V -6.0m -12.0m -5.0m -0.8VV -14.0m -17.0m -13.0m -0.9V -21.0m -24.0m -21.0m -1.0V -29.0m -30.0m -32.0m -3.0V -203.0m -155.0m -247.0m -5.0V -380.0m -282.0m -465.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 16.0m 0.0m -0.5V 0.0m 21.0m 0.0m -0.6V 4.0m 27.0m 7.0m -0.7V 10.0m 34.0m 0.0m -0.8V 18.0m 39.0m 0.0m -0.9V 26.0m 46.0m 1.0m -1.0V 34.0m 52.0m 8.0m -3.0V 208.0m 178.0m 220.0m -5.0V 384.0m 305.0m 439.0m | [Ramp] | typ min max dV/dt_r 1.0/0.3n 0.6/0.4n 1.2/0.2n dV/dt_f 1.7/1.0n 1.1/0.8n 2.0/0.4n | |********************************************************************* |end of p1p17 model |********************************************************************* | | | | |********************************************************************* | |This is the model for the buffer P1P09. | |********************************************************************* | [Model] P1P09 Model_type Output Polarity Non-Inverting Enable Active-High |Signals PCLK(1:2) | |variable typ min max C_comp 5.6pF 5.0pF 6.2pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -100.0m -48.0m -145.0m -4.0V -98.0m -47.0m -142.0m -3.0V -94.0m -45.0m -131.0m -2.0V -71.0m -42.0m -91.0m -1.0V -36.0m -25.0m -46.0m 0.0V 0.0m 0.0m 0.0m 1.0V 35.0m 24.0m 45.0m 2.0V 69.0m 46.0m 87.0m 3.0V 100.0m 66.0m 129.0m 4.0V 129.0m 85.0m 166.0m 5.0V 154.0m 100.0m 201.0m 6.0V 174.0m 110.0m 230.0m 7.0V 184.0m 113.0m 250.0m 8.0V 187.0m 115.0m 257.0m 9.0V 189.0m 116.0m 261.0m 10.0V 190.0m 116.0m 263.0m | |********************************************************************* |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 10.0V in the table it is actually 10 volts below Vcc and -5.0V |with respect to ground. |********************************************************************* | [Pullup] | |Voltage I(typ) I(min) I(max) | 10.0V -95.0m -60.0m -132.0m 9.0V -95.0m -60.0m -132.0m 8.0V -95.0m -59.0m -132.0m 7.0V -93.0m -59.0m -129.0m 6.0V -90.0m -57.0m -125.0m 5.0V -86.0m -54.0m -119.0m 4.0V -77.0m -48.0m -106.0m 3.0V -63.0m -39.0m -89.0m 2.0V -44.0m -26.0m -65.0m 1.0V -23.0m -12.0m -39.0m 0.0V 0.0m 5.0m -9.0m -1.0V 25.0m 14.0m 22.0m -2.0V 31.0m 16.0m 46.0m -3.0V 33.0m 16.0m 47.0m -4.0V 33.0m 16.0m 47.0m -5.0V 34.0m 17.0m 48.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V -2.0m -5.0m -1.0m -0.7V -5.0m -8.0m -4.0m -0.8V -9.0m -11.0m -8.0m -0.9V -13.0m -14.0m -14.0m -1.0V -17.0m -17.0m -19.0m -3.0V -108.0m -83.0m -131.0m -5.0V -201.0m -149.0m -245.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 10.0m 0.0m -0.5V 1.0m 13.0m 0.0m -0.6V 3.0m 16.0m 0.0m -0.7V 7.0m 19.0m 0.0m -0.8V 11.0m 22.0m 0.0m -0.9V 15.0m 25.0m 2.0m -1.0V 20.0m 29.0m 6.0m -3.0V 111.0m 95.0m 117.0m -5.0V 203.0m 162.0m 231.0m | [Ramp] | typ min max dV/dt_r 1.6/0.2n 1.1/0.3n 1.8/0.2n dV/dt_f 1.8/0.2n 1.4/0.4n 2.1/0.2n | |********************************************************************* |end of model p1p09 |********************************************************************* | | | | |********************************************************************* | |This is the model for the buffer P1P19 | |********************************************************************* | [Model] P1P19 Model_type I/O Polarity Non-Inverting |Signals D(0:31) | |variable typ min max C_comp 6.3pF 5.7pF 6.9pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |voltage I(typ) I(min) I(max) | -5.0V -78.0m -39.0m -112.0m -4.0V -76.0m -37.0m -111.0m -3.0V -74.0m -35.0m -107.0m -2.0V -65.0m -34.0m -85.0m -1.0V -33.0m -22.0m -43.0m 0.0V 0.0m 0.0m 0.0m 1.0V 33.0m 21.0m 41.0m 2.0V 63.0m 41.0m 81.0m 3.0V 90.0m 59.0m 117.0m 4.0V 113.0m 73.0m 149.0m 5.0V 131.0m 83.0m 175.0m 6.0V 140.0m 86.0m 191.0m 7.0V 142.0m 88.0m 196.0m 8.0V 144.0m 89.0m 198.0m 9.0V 145.0m 89.0m 201.0m 10.0V 145.0m 89.0m 202.0m | |********************************************************************* |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 10.0V in the table it is actually 10 volts below Vcc and -5.0V |with respect to ground. |********************************************************************* | [Pullup] | |Voltage I(typ) I(min) I(max) | 10.0V -73.0m -46.0m -102.0m 9.0V -73.0m -46.0m -102.0m 8.0V -73.0m -46.0m -102.0m 7.0V -72.0m -45.0m -100.0m 6.0V -70.0m -44.0m -98.0m 5.0V -68.0m -43.0m -94.0m 4.0V -62.0m -39.0m -87.0m 3.0V -52.0m -32.0m -73.0m 2.0V -38.0m -22.0m -56.0m 1.0V -20.0m -10.0m -33.0m 0.0V 2.0m 4.0m -8.0m -1.0V 21.0m 12.0m 20.0m -2.0V 25.0m 12.0m 34.0m -3.0V 25.0m 12.0m 37.0m -4.0V 26.0m 13.0m 37.0m -5.0V 26.0m 13.0m 38.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V -1.0m -5.0m -1.0m -0.7V -5.0m -7.0m -4.0m -0.8V -8.0m -11.0m -8.0m -0.9V -13.0m -14.0m -13.0m -1.0V -17.0m -16.0m -19.0m -3.0V -108.0m -83.0m -131.0m -5.0V -201.0m -149.0m -245.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 8.0m 0.0m -0.5V 0.0m 12.0m 0.0m -0.6V 2.0m 15.0m 0.0m -0.7V 6.0m 18.0m 0.0m -0.8V 10.0m 21.0m 0.0m -0.9V 14.0m 24.0m 1.0m -1.0V 18.0m 27.0m 5.0m -3.0V 109.0m 94.0m 116.0m -5.0V 202.0m 160.0m 229.0m | [Ramp] | typ min max dV/dt_r 1.4/0.2n 1.0/0.4n 1.7/0.2n dV/dt_f 1.8/0.3n 1.3/0.5n 2.1/0.2n | |********************************************************************* |end of model p1p19 |********************************************************************* | | | | |********************************************************************* | |This is the model for the buffer P1P43 | |********************************************************************* | [Model] P1P43 Model_type I/O Polarity Non-Inverting |Signals EOP/TC(0:3)# | |variable typ min max C_comp 4.3pF 3.9pF 4.7pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |voltage I(typ) I(min) I(max) | -5.0V -186.0m -122.0m -241.0m -4.0V -160.0m -103.0m -210.0m -3.0V -131.0m -83.0m -175.0m -2.0V -98.0m -59.0m -131.0m -1.0V -55.0m -33.0m -76.0m 0.0V 0.0m 0.0m 0.0m 1.0V 43.0m 25.0m 60.0m 2.0V 63.0m 38.0m 87.0m 3.0V 70.0m 43.0m 97.0m 4.0V 71.0m 44.0m 98.0m 5.0V 72.0m 44.0m 99.0m 6.0V 73.0m 44.0m 100.0m 7.0V 73.0m 45.0m 102.0m 8.0V 74.0m 45.0m 102.0m 9.0V 74.0m 45.0m 103.0m 10.0V 75.0m 46.0m 103.0m | |********************************************************************* |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 10.0V in the table it is actually 10 volts below Vcc and -5.0V |with respect to ground. |********************************************************************* | [Pullup] | |Voltage I(typ) I(min) I(max) | 10.0V -43.0m -26.0m -54.0m 9.0V -39.0m -25.0m -54.0m 8.0V -38.0m -24.0m -53.0m 7.0V -37.0m -24.0m -52.0m 6.0V -37.0m -23.0m -51.0m 5.0V -36.0m -23.0m -50.0m 4.0V -35.0m -21.0m -48.0m 3.0V -32.0m -20.0m -46.0m 2.0V -27.0m -16.0m -40.0m 1.0V -16.0m -7.0m -27.0m 0.0V 0.0m 4.0m -7.0m -1.0V 21.0m 17.0m 19.0m -2.0V 40.0m 30.0m 46.0m -3.0V 59.0m 43.0m 71.0m -4.0V 78.0m 55.0m 94.0m -5.0V 96.0m 68.0m 118.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m -1.0m 0.0m -0.7V -1.0m -2.0m -1.0m -0.8V -3.0m -3.0m -4.0m -0.9V -5.0m -3.0m -6.0m -1.0V -6.0m -4.0m -8.0m -3.0V -57.0m -37.0m -73.0m -5.0V -123.0m -84.0m -155.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m 0.0m 0.0m -0.7V 0.0m 0.0m 0.0m -0.8V 0.0m 0.0m 0.0m -0.9V 0.0m 0.0m 0.0m -1.0V 0.0m 0.0m 0.0m -3.0V 11.0m 10.0m 11.0m -5.0V 32.0m 25.0m 37.0m | [Ramp] | typ min max dV/dt_r 1.0/0.3n 0.6/0.5n 1.3/0.2n dV/dt_f 1.9/0.6n 1.1/0.9n 2.2/0.5n | |********************************************************************* |end of model p1p43 |********************************************************************* | | | | |********************************************************************* | |This is the model for buffer P1P23 | |********************************************************************* | [Model] P1P23 Model_type Input Polarity Non-Inverting |Signals HOLD#,READY# | |variable typ min max C_comp 4.3pF 3.9pF 4.7pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [GND_Clamp] | |voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m -1.0m 0.0m -0.7V -1.0m -2.0m -1.0m -0.8V -3.0m -3.0m -4.0m -0.9V -5.0m -3.0m -6.0m -1.0V -6.0m -4.0m -8.0m -3.0V -57.0m -37.0m -73.0m -5.0V -125.0m -85.0m -158.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m 0.0m 0.0m -0.7V 0.0m 0.0m 0.0m -0.8V 0.0m 0.0m 0.0m -0.9V 0.0m 0.0m 0.0m -1.0V 0.0m 0.0m 0.0m -3.0V 7.0m 7.0m 7.0m -5.0V 22.0m 16.0m 24.0m | |******************************************************************** |end of model p1p23 |******************************************************************** | | | | |******************************************************************** | |This is the model of the buffer P1P24. | |******************************************************************** | [Model] P1P24 Model_type Input Polarity Non-Inverting |Signals BTERM# | |variable typ min max C_comp 4.3pF 3.9pF 4.7pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [GND_Clamp] | |voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m -1.0m 0.0m -0.7V -1.0m -2.0m -1.0m -0.8V -3.0m -3.0m -4.0m -0.9V -5.0m -3.0m -6.0m -1.0V -6.0m -4.0m -8.0m -3.0V -57.0m -37.0m -73.0m -5.0V -125.0m -85.0m -158.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m 0.0m 0.0m -0.7V 0.0m 0.0m 0.0m -0.8V 0.0m 0.0m 0.0m -0.9V 0.0m 0.0m 0.0m -1.0V 0.0m 0.0m 0.0m -3.0V 7.0m 7.0m 7.0m -5.0V 22.0m 16.0m 24.0m | |******************************************************************** |end of model p1p24 |******************************************************************** | | | | |******************************************************************** | |This is the model of buffer P1P24A. | |******************************************************************** | [Model] P1P24A Model_type Input Polarity Non-Inverting |Signals DREQ(0:3)#,BOFF#,ONCE# | |variable typ min max C_comp 4.3pF 3.9pF 4.7pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [GND_Clamp] | |voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m -1.0m 0.0m -0.7V -1.0m -2.0m -1.0m -0.8V -3.0m -3.0m -4.0m -0.9V -5.0m -3.0m -6.0m -1.0V -6.0m -4.0m -8.0m -3.0V -57.0m -37.0m -73.0m -5.0V -125.0m -85.0m -158.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m 0.0m 0.0m -0.7V 0.0m 0.0m 0.0m -0.8V 0.0m 0.0m 0.0m -0.9V 0.0m 0.0m 0.0m -1.0V 0.0m 0.0m 0.0m -3.0V 7.0m 7.0m 7.0m -5.0V 22.0m 16.0m 24.0m | |******************************************************************** |end of model p1p24a |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer P1P25. | |******************************************************************** | [Model] P1P25 Model_type Input Polarity Non-Inverting |Signals XINT(0:7)#,STEST,NMI# | |variable typ min max C_comp 5.2pF 4.7pF 5.7pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [GND_Clamp] | |voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V -1.0m -7.0m -1.0m -0.7V -7.0m -12.0m -5.0m -0.8V -14.0m -17.0m -13.0m -0.9V -21.0m -24.0m -22.0m -1.0V -30.0m -30.0m -32.0m -3.0V -203.0m -155.0m -247.0m -5.0V -380.0m -282.0m -465.0m | |******************************************************************** |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |******************************************************************** | [POWER_Clamp] | |voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 17.0m 0.0m -0.5V 0.0m 21.0m 0.0m -0.6V 4.0m 27.0m 0.0m -0.7V 10.0m 34.0m 0.0m -0.8V 18.0m 39.0m 0.0m -0.9V 26.0m 46.0m 1.0m -1.0V 34.0m 52.0m 8.0m -3.0V 208.0m 178.0m 220.0m -5.0V 384.0m 305.0m 438.0m | |******************************************************************** |end of model p1p25 |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer P10SCHMITT. | |******************************************************************** | [Model] P10SCHMITT Model_type Input Polarity Non-Inverting | |Signals RESET# | |variable typ min max C_comp 4.0pF 3.6pF 4.4pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [GND_Clamp] | |voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m -1.0m 0.0m -0.7V -1.0m -2.0m -1.0m -0.8V -3.0m -3.0m -4.0m -0.9V -5.0m -3.0m -6.0m -1.0V -6.0m -4.0m -8.0m -3.0V -57.0m -37.0m -73.0m -5.0V -125.0m -85.0m -158.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m 0.0m 0.0m -0.7V 0.0m 0.0m 0.0m -0.8V 0.0m 0.0m 0.0m -0.9V 0.0m 0.0m 0.0m -1.0V 0.0m 0.0m 0.0m -3.0V 7.0m 7.0m 7.0m -5.0V 22.0m 16.0m 24.0m | |******************************************************************** |end of model p10schmitt |******************************************************************** | | | | |******************************************************************** | |This is the model for buffer P1P23CLK. | |******************************************************************** | [Model] P1P23CLK Model_type Input Polarity Non-Inverting |Signals CLKIN | |variable typ min max C_comp 4.3pF 3.9pF 4.7pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [GND_Clamp] | |voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m -1.0m 0.0m -0.7V -1.0m -2.0m -1.0m -0.8V -3.0m -3.0m -4.0m -0.9V -5.0m -3.0m -6.0m -1.0V -6.0m -4.0m -8.0m -3.0V -57.0m -37.0m -73.0m -5.0V -125.0m -85.0m -158.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m 0.0m 0.0m -0.7V 0.0m 0.0m 0.0m -0.8V 0.0m 0.0m 0.0m -0.9V 0.0m 0.0m 0.0m -1.0V 0.0m 0.0m 0.0m -3.0V 7.0m 7.0m 7.0m -5.0V 22.0m 16.0m 24.0m | |******************************************************************** |end of model p1p23clk |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer P1P23CKM | |******************************************************************** | [Model] P1P23CKM Model_type Input Polarity Non-Inverting |Signals CLKMODE | |variable typ min max C_comp 4.3pF 3.9pF 4.7pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [GND_Clamp] | |voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m -1.0m 0.0m -0.7V -1.0m -2.0m -1.0m -0.8V -3.0m -3.0m -4.0m -0.9V -5.0m -3.0m -6.0m -1.0V -6.0m -4.0m -8.0m -3.0V -57.0m -37.0m -73.0m -5.0V -125.0m -85.0m -158.0m | |********************************************************************* |Note that the voltages in the Power_clamp data table are Vcc relative |which means they are referenced to Vcc. The voltages in the table |are derived from the following equation: |Vtable = Vcc - Voutput |0V in the table is actually 5V with respect to ground and 0V above Vcc. |********************************************************************* | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m 0.0m 0.0m -0.4V 0.0m 0.0m 0.0m -0.5V 0.0m 0.0m 0.0m -0.6V 0.0m 0.0m 0.0m -0.7V 0.0m 0.0m 0.0m -0.8V 0.0m 0.0m 0.0m -0.9V 0.0m 0.0m 0.0m -1.0V 0.0m 0.0m 0.0m -3.0V 7.0m 7.0m 7.0m -5.0V 22.0m 16.0m 24.0m | |******************************************************************** |end of model p1p23ckm |******************************************************************** [End]