|******************************************************************** [IBIS Ver] 1.1 [File name] cf650pga.ibs [File rev] 2.0 [Date] 7/7/94 [Source] The file was oringinated at Intel Corporation. [Notes] The following information corresponds to the 80960CF on process 650 in the 168 lead PGA package but has not been correlated with silicon. Correlation will have taken place in the next revision. [Disclaimer] The following information is for modeling purposes only and is not guaranteed. |******************************************************************** [Component] i960CF (TM) [Manufacturer] Intel [Package] | typ min max R_pkg 1256m 335m 2178m L_pkg 9.5nH 3.8nH 15.5nH C_pkg 6.3pF 3.5pF 9.0pF |******************************************************************** [Pin] signal_name model_name A01 NC NC A02 FAIL# P1P17 A03 NC NC A04 NC NC A05 NC NC A06 DREQ1# P1P24A A07 DREQ3# P1P24A A08 DACK1# P1P16 AO9 DACK2# P1P16 A10 DACK3# P1P16 A11 EOP/TC0# P1P43 A12 EOP/TC1# P1P43 A13 EOP/TC2# P1P43 A14 EOP/TC3# P1P43 A15 XINT1# P1P25 A16 RESET# P10SCHMITT A17 XINT2# P1P25 B01 BOFF# P1P24A B02 STEST P1P25 B03 NC NC B04 NC NC B05 DREQ0# P1P24A B06 DREQ2# P1P24A BO7 VCC POWER B08 DACK0# P1P16 B09 VCC POWER B10 VCCPLL POWER B11 VCC POWER B12 VCC POWER B13 PCLK2 P1P09 B14 PCLK1 P1P09 B15 XINT0# P1P25 B16 XINT3# P1P25 B17 XINT5# P1P25 C01 D3 P1P19 C02 D1 P1P19 C03 ONCE# P1P24A C04 NC NC C05 NC NC C06 VCC POWER C07 VSS GND C08 VSS GND C09 VSS GND C10 VSS GND C11 VSS GND C12 VSS GND C13 CLKIN P1P23CLK C14 CLKMODE P1P23CKM C15 XINT4# P1P25 C16 XINT6# P1P25 C17 XINT7# P1P25 D01 D5 P1P19 D02 D2 P1P19 D03 NC NC D15 NMI# P1P25 D16 A2 P1P16 D17 A3 P1P16 E01 D7 P1P19 E02 D4 P1P19 E03 D0 P1P19 E15 VCC POWER E16 A4 P1P16 E17 A5 P1P16 F01 D8 P1P19 F02 D6 P1P19 F03 VCC POWER F15 VSS GND F16 VCC POWER F17 A6 P1P16 G01 D9 P1P19 G02 VCC POWER G03 VSS GND G15 VSS GND G16 A7 P1P16 G17 A8 P1P16 H01 D11 P1P19 H02 D10 P1P19 H03 VSS GND H15 VSS GND H16 VCC POWER H17 A9 P1P16 J01 D12 P1P19 J02 VCC POWER J03 VSS GND J15 VSS GND J16 VCC POWER J17 A10 P1P16 K01 D13 P1P19 K02 VCC POWER K03 VSS GND K15 VSS GND K16 VCC POWER K17 A11 P1P16 L01 D15 P1P19 L02 D14 P1P19 L03 VSS GND L15 VSS GND L16 A13 P1P16 L17 A12 P1P16 M01 D16 P1P19 M02 VCC POWER M03 VSS GND M15 VSS GND M16 VCC POWER M17 A14 P1P16 N01 D17 P1P19 N02 D18 P1P19 N03 VCC POWER N15 VCC POWER N16 A16 P1P16 N17 A15 P1P16 P01 D19 P1P19 P02 D20 P1P19 P03 D22 P1P19 P15 A20 P1P16 P16 A19 P1P16 P17 A17 P1P16 Q01 D21 P1P19 Q02 D23 P1P19 Q03 D26 P1P19 Q04 D28 P1P19 Q05 D30 P1P19 Q06 VCC POWER Q07 VSS GND Q08 VSS GND Q09 VSS GND Q10 VSS GND Q12 SUP# P1P17 Q13 A30 P1P16 Q14 A28 P1P16 Q15 A24 P1P16 Q16 A21 P1P16 Q17 A18 P1P16 R01 D24 P1P19 R02 D27 P1P19 R03 D31 P1P19 R04 BTERM# P1P24 R05 HOLD P1P23 R06 ADS# P1P16 R07 VCC POWER R08 VCC POWER R09 BE0# P1P16 R10 VCC POWER R11 VCC POWER R12 DMA# P1P17 R13 BREQ P1P17 R14 A29 P1P16 R15 A26 P1P16 R16 A23 P1P16 R17 A22 P1P16 S01 D25 P1P19 S02 D29 P1P19 S03 READY# P1P23 S04 HOLDA P1P16 S05 BE3# P1P16 S06 BE2# P1P16 S07 BE1# P1P16 S08 BLAST# P1P16 S09 DEN# P1P16 S10 W/R# P1P16 S11 DT/R# P1P16 S12 WAIT# P1P16 S13 D/C# P1P17 S14 LOCK# P1P17 S15 A31 P1P16 S16 A27 P1P16 S17 A25 P1P16 | | |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(0:3)#,A(2:31),ADS#,HOLDA,BE(0:3)#,BLAST#,DEN#,W/R#, |DT/R#,WAIT# | |variable typ min max C_comp 3.9pF 3.5pF 4.3pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -79.0m -46.0m -109.0m -4.0V -79.0m -45.0m -107.0m -3.0V -77.0m -44.0m -106.0m -2.0V -75.0m -42.0m -103.0m -1.0V -50.0m -30.0m -67.0m 0.0V 0.0m 0.0m 0.0m 1.0V 45.0m 26.0m 61.0m 2.0V 78.0m 47.0m 106.0m 3.0V 98.0m 60.0m 133.0m 4.0V 104.0m 64.0m 143.0m 5.0V 104.0m 65.0m 143.0m 6.0V 105.0m 65.0m 144.0m 7.0V 105.0m 65.0m 144.0m 8.0V 105.0m 66.0m 145.0m 9.0V 105.0m 66.0m 145.0m 10.0V 106.0m 66.0m 145.0m | |******************************************************************** |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 -77.0m -51.0m -105.0m 9.0V -76.0m -50.0m -104.0m 8.0V -75.0m -49.0m -103.0m 7.0V -74.0m -48.0m -101.0m 6.0V -73.0m -48.0m -99.0m 5.0V -72.0m -47.0m -98.0m 4.0V -70.0m -45.0m -96.0m 3.0V -64.0m -41.0m -90.0m 2.0V -51.0m -31.0m -74.0m 1.0V -30.0m -15.0m -50.0m 0.0V 0.0m 7.0m -13.0m -1.0V 38.0m 34.0m 33.0m -2.0V 76.0m 59.0m 83.0m -3.0V 113.0m 85.0m 131.0m -4.0V 149.0m 111.0m 177.0m -5.0V 186.0m 137.0m 224.0m | [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 -1.0m 0.0m -0.6V -1.0m -1.0m -1.0m -0.7V -2.0m -2.0m -2.0m -0.8V -4.0m -3.0m -5.0m -0.9V -6.0m -5.0m -7.0m -1.0V -8.0m -6.0m -11.0m -3.0V -61.0m -40.0m -79.0m -5.0V -114.0m -78.0m -145.0m | |******************************************************************** |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 2.0m 0.0m -0.5V 0.0m 3.0m 0.0m -0.6V 1.0m 4.0m 0.0m -0.7V 2.0m 5.0m 0.0m -0.8V 3.0m 6.0m 0.0m -0.9V 5.0m 7.0m 1.0m -1.0V 6.0m 8.0m 1.0m -3.0V 55.0m 45.0m 58.0m -5.0V 120.0m 93.0m 136.0m | [Ramp] | typ min max dV/dt_r 1.6/0.6n 1.3/0.8n 2.0/0.6n dV/dt_f 2.0/0.9n 1.5/1.0n 2.4/0.8n | |******************************************************************** |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 3.9pF 3.5pF 4.3pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -56.0m -32.0m -77.0m -4.0V -55.0m -32.0m -76.0m -3.0V -55.0m -31.0m -74.0m -2.0V -53.0m -30.0m -73.0m -1.0V -35.0m -21.0m -48.0m 0.0V 0.0m 0.0m 0.0m 1.0V 32.0m 19.0m 44.0m 2.0V 55.0m 33.0m 76.0m 3.0V 69.0m 43.0m 94.0m 4.0V 73.0m 45.0m 100.0m 5.0V 74.0m 46.0m 101.0m 6.0V 74.0m 46.0m 101.0m 7.0V 74.0m 46.0m 101.0m 8.0V 74.0m 46.0m 103.0m 9.0V 75.0m 46.0m 103.0m 10.0V 75.0m 47.0m 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 -55.0m -36.0m -74.0m 9.0V -54.0m -36.0m -74.0m 8.0V -54.0m -35.0m -73.0m 7.0V -53.0m -34.0m -72.0m 6.0V -52.0m -34.0m -72.0m 5.0V -51.0m -34.0m -70.0m 4.0V -50.0m -33.0m -68.0m 3.0V -46.0m -30.0m -64.0m 2.0V -37.0m -22.0m -53.0m 1.0V -22.0m -11.0m -35.0m 0.0V 0.0m 5.0m -9.0m -1.0V 27.0m 24.0m 24.0m -2.0V 54.0m 43.0m 59.0m -3.0V 81.0m 61.0m 93.0m -4.0V 107.0m 80.0m 127.0m -5.0V 133.0m 98.0m 160.0m | [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 -1.0m 0.0m -0.6V -1.0m -1.0m -1.0m -0.7V -2.0m -2.0m -2.0m -0.8V -4.0m -3.0m -5.0m -0.9V -6.0m -5.0m -7.0m -1.0V -8.0m -6.0m -110m -3.0V -62.0m -41.0m -79.0m -5.0V -116.0m -79.0m -146.0m | |******************************************************************** |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 2.0m 0.0m -0.5V 0.0m 3.0m 0.0m -0.6V 1.0m 4.0m 0.0m -0.7V 2.0m 5.0m 0.0m -0.8V 3.0m 6.0m 0.0m -0.9V 5.0m 7.0m 1.0m -1.0V 6.0m 8.0m 1.0m -3.0V 55.0m 45.0m 58.0m -5.0V 120.0m 94.0m 136.0m | [Ramp] |variable typ min max dV/dt_r 1.4/1.3n 1.0/1.3n 1.6/1.2n dV/dt_f 1.7/0.9n 1.2/1.0n 2.1/0.8n | |******************************************************************** |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 6.3pF 5.7pF 7.0pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -136.0m -80.0m -185.0m -4.0V -135.0m -78.0m -184.0m -3.0V -133.0m -77.0m -182.0m -2.0V -129.0m -74.0m -176.0m -1.0V -84.0m -50.0m -115.0m 0.0V 0.0m 0.0m 0.0m 1.0V 76.0m 45.0m 105.0m 2.0V 132.0m 80.0m 181.0m 3.0V 167.0m 102.0m 228.0m 4.0V 177.0m 110.0m 243.0m 5.0V 177.0m 110.0m 243.0m 6.0V 178.0m 111.0m 244.0m 7.0V 179.0m 111.0m 245.0m 8.0V 179.0m 112.0m 247.0m 9.0V 180.0m 112.0m 247.0m 10.0V 180.0m 112.0m 247.0m | |******************************************************************** |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 -120.0m -80.0m -164.0m 9.0V -119.0m -79.0m -163.0m 8.0V -118.0m -78.0m -161.0m 7.0V -116.0m -76.0m -159.0m 6.0V -115.0m -75.0m -157.0m 5.0V -113.0m -74.0m -155.0m 4.0V -109.0m -71.0m -150.0m 3.0V -101.0m -65.0m -140.0m 2.0V -81.0m -48.0m -117.0m 1.0V -47.0m -24.0m -77.0m 0.0V 0.0m 12.0m -20.0m -1.0V 59.0m 53.0m 52.0m -2.0V 119.0m 94.0m 130.0m -3.0V 177.0m 133.0m 205.0m -4.0V 234.0m 174.0m 279.0m -5.0V 292.0m 215.0m 352.0m | [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 -1.0m 0.0m -0.6V -1.0m -2.0m -1.0m -0.7V -4.0m -4.0m -4.0m -0.8V -7.0m -7.0m -8.0m -0.9V -11.0m -8.0m -13.0m -1.0V -15.0m -11.0m -19.0m -3.0V -110.0m -72.0m -142.0m -5.0V -206.0m -139.0m -260.0m | |******************************************************************** |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 3.0m 0.0m -0.5V 0.0m 5.0m 0.0m -0.6V 0.0m 7.0m 0.0m -0.7V 0.0m 8.0m 0.0m -0.8V 0.0m 10.0m 0.0m -0.9V 1.0m 12.0m 1.0m -1.0V 2.0m 14.0m 2.0m -3.0V 82.0m 77.0m 97.0m -5.0V 195.0m 159.0m 230.0m | [Ramp] |variable typ min max dV/dt_r 2.1/0.7n 1.7/0.9n 2.4/0.7n dV/dt_f 2.4/0.8n 1.9/1.0n 2.6/0.6n | |******************************************************************** |end of p1p09 model |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer P1P19. | |******************************************************************** | [Model] P1P19 Model_type I/O Polarity Non-Inverting | |Signal D(0:31) | |variable typ min max C_comp 4.5pF 4.0pF 5.0pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |voltage I(typ) I(min) I(max) | -5.0V -79.0m -46.0m -109.0m -4.0V -79.0m -45.0m -107.0m -3.0V -77.0m -44.0m -106.0m -2.0V -75.0m -42.0m -103.0m -1.0V -50.0m -30.0m -67.0m 0.0V 0.0m 0.0m 0.0m 1.0V 45.0m 26.0m 61.0m 2.0V 78.0m 47.0m 106.0m 3.0V 98.0m 60.0m 133.0m 4.0V 104.0m 64.0m 143.0m 5.0V 104.0m 65.0m 143.0m 6.0V 105.0m 65.0m 144.0m 7.0V 105.0m 65.0m 144.0m 8.0V 105.0m 66.0m 145.0m 9.0V 105.0m 66.0m 145.0m 10.0V 106.0m 66.0m 145.0m | |******************************************************************** |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 -77.0m -51.0m -105.0m 9.0V -76.0m -50.0m -104.0m 8.0V -75.0m -49.0m -103.0m 7.0V -74.0m -48.0m -101.0m 6.0V -73.0m -48.0m -99.0m 5.0V -72.0m -47.0m -98.0m 4.0V -70.0m -45.0m -96.0m 3.0V -64.0m -41.0m -90.0m 2.0V -51.0m -31.0m -74.0m 1.0V -30.0m -15.0m -50.0m 0.0V 0.0m 7.0m -13.0m -1.0V 38.0m 34.0m 33.0m -2.0V 76.0m 59.0m 83.0m -3.0V 113.0m 85.0m 131.0m -4.0V 149.0m 111.0m 177.0m -5.0V 186.0m 137.0m 224.0m | [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 -1.0m 0.0m -0.6V -1.0m -1.0m -1.0m -0.7V -2.0m -3.0m -2.0m -0.8V -4.0m -4.0m -5.0m -0.9V -7.0m -6.0m -7.0m -1.0V -9.0m -7.0m -12.0m -3.0V -78.0m -52.0m -102.0m -5.0V -148.0m -100.0m -189.0m | |******************************************************************** |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 2.0m 0.0m -0.5V 0.0m 3.0m 0.0m -0.6V 1.0m 5.0m 0.0m -0.7V 2.0m 7.0m 0.0m -0.8V 3.0m 7.0m 0.0m -0.9V 6.0m 10.0m 1.0m -1.0V 7.0m 12.0m 1.0m -3.0V 73.0m 58.0m 78.0m -5.0V 154.0m 117.0m 177.0m | [Ramp] |variable typ min max dV/dt_r 1.6/0.7n 1.2/0.8n 2.0/0.7n dV/dt_f 2.0/0.8n 1.5/1.0n 2.4/0.8n | |******************************************************************** |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 4.4pF 4.0pF 4.8pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |voltage I(typ) I(min) I(max) | -5.0V -79.0m -46.0m -109.0m -4.0V -79.0m -45.0m -107.0m -3.0V -77.0m -44.0m -106.0m -2.0V -75.0m -42.0m -103.0m -1.0V -50.0m -30.0m -67.0m 0.0V 0.0m 0.0m 0.0m 1.0V 45.0m 26.0m 61.0m 2.0V 78.0m 47.0m 106.0m 3.0V 98.0m 60.0m 133.0m 4.0V 104.0m 64.0m 143.0m 5.0V 104.0m 65.0m 143.0m 6.0V 105.0m 65.0m 144.0m 7.0V 105.0m 65.0m 144.0m 8.0V 105.0m 66.0m 145.0m 9.0V 105.0m 66.0m 145.0m 10.0V 106.0m 66.0m 145.0m | |******************************************************************** |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 -77.0m -51.0m -105.0m 9.0V -76.0m -50.0m -104.0m 8.0V -75.0m -49.0m -103.0m 7.0V -74.0m -48.0m -101.0m 6.0V -73.0m -48.0m -99.0m 5.0V -72.0m -47.0m -98.0m 4.0V -70.0m -45.0m -96.0m 3.0V -64.0m -41.0m -90.0m 2.0V -51.0m -31.0m -74.0m 1.0V -30.0m -15.0m -50.0m 0.0V 0.0m 7.0m -13.0m -1.0V 38.0m 34.0m 33.0m -2.0V 76.0m 59.0m 83.0m -3.0V 113.0m 85.0m 131.0m -4.0V 149.0m 111.0m 177.0m -5.0V 186.0m 137.0m 224.0m | [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 -1.0m 0.0m -0.6V -1.0m -1.0m -1.0m -0.7V -2.0m -3.0m -2.0m -0.8V -4.0m -4.0m -5.0m -0.9V -7.0m -6.0m -7.0m -1.0V -9.0m -7.0m -12.0m -3.0V -78.0m -52.0m -102.0m -5.0V -148.0m -100.0m -189.0m | |******************************************************************** |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 2.0m 0.0m -0.5V 0.0m 3.0m 0.0m -0.6V 1.0m 5.0m 0.0m -0.7V 2.0m 7.0m 0.0m -0.8V 3.0m 7.0m 0.0m -0.9V 6.0m 10.0m 1.0m -1.0V 7.0m 12.0m 1.0m -3.0V 73.0m 58.0m 78.0m -5.0V 154.0m 117.0m 177.0m | [Ramp] |variable] typ min max dV/dt_r 1.7/0.7n 1.2/0.8n 2.0/0.6n dV/dt_f 2.2/0.9n 1.5/1.0n 2.4/0.8n | |******************************************************************** |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 1.7pF 1.5pF 1.8pF | |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 0.0m 0.0m -0.7V 0.0m -2.0m 0.0m -0.8V -2.0m -7.0m -1.0m -0.9V -9.0m -15.0m -7.0m -1.0V -21.0m -26.0m -20.0m -3.0V -340.0m -287.0m -398.0m -5.0V -670.0m -557.0m -787.0m | |******************************************************************** |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 3.0m 0.0m -0.5V 0.0m 10.0m 0.0m -0.6V 0.0m 21.0m 0.0m -0.7V 0.0m 31.0m 0.0m -0.8V 3.0m 44.0m 0.0m -0.9V 13.0m 56.0m 0.0m -1.0V 26.0m 69.0m 0.0m -3.0V 348.0m 335.0m 348.0m -5.0V 679.0m 607.0m 738.0m | |******************************************************************** |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 1.7pF 1.5pF 1.8pF | |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 0.0m 0.0m -0.7V 0.0m -2.0m 0.0m -0.8V -2.0m -7.0m -1.0m -0.9V -9.0m -15.0m -7.0m -1.0V -21.0m -26.0m -20.0m -3.0V -340.0m -287.0m -398.0m -5.0V -670.0m -557.0m -787.0m | |******************************************************************** |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 3.0m 0.0m -0.5V 0.0m 10.0m 0.0m -0.6V 0.0m 21.0m 0.0m -0.7V 0.0m 31.0m 0.0m -0.8V 3.0m 44.0m 0.0m -0.9V 13.0m 56.0m 0.0m -1.0V 26.0m 69.0m 0.0m -3.0V 348.0m 335.0m 348.0m -5.0V 679.0m 607.0m 738.0m | |******************************************************************** |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 1.4pF 1.3pF 1.6pF | |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 0.0m 0.0m -0.7V 0.0m -2.0m 0.0m -0.8V -2.0m -7.0m -1.0m -0.9V -9.0m -15.0m -7.0m -1.0V -21.0m -26.0m -20.0m -3.0V -340.0m -287.0m -398.0m -5.0V -670.0m -557.0m -787.0m | |******************************************************************** |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 3.0m 0.0m -0.5V 0.0m 10.0m 0.0m -0.6V 0.0m 21.0m 0.0m -0.7V 0.0m 31.0m 0.0m -0.8V 3.0m 44.0m 0.0m -0.9V 13.0m 56.0m 0.0m -1.0V 26.0m 69.0m 0.0m -3.0V 348.0m 335.0m 348.0m -5.0V 679.0m 607.0m 738.0m | |******************************************************************** |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 4.4pF 4.0PF 4.8PF | |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 -1.0m 0.0m -0.6V -1.0m -1.0m -1.0m -0.7V -2.0m -3.0m -2.0m -0.8V -4.0m -4.0m -5.0m -0.9V -7.0m -6.0m -7.0m -1.0V -9.0m -7.0m -12.0m -3.0V -79.0m -53.0m -102.0m -5.0V -150.0m -101.0m -190.0m | |******************************************************************** |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 2.0m 0.0m -0.5V 0.0m 3.0m 0.0m -0.6V 1.0m 4.0m 0.0m -0.7V 2.0m 5.0m 0.0m -0.8V 3.0m 6.0m 0.0m -0.9V 5.0m 7.0m 1.0m -1.0V 6.0m 8.0m 1.0m -3.0V 55.0m 45.0m 58.0m -5.0V 120.0m 94.0m 136.0m | |******************************************************************** |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 1.4pF 1.3pF 1.6pF | |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 0.0m 0.0m -0.7V 0.0m -2.0m 0.0m -0.8V -2.0m -7.0m -1.0m -0.9V -9.0m -15.0m -7.0m -1.0V -21.0m -26.0m -20.0m -3.0V -340.0m -287.0m -398.0m -5.0V -670.0m -557.0m -787.0m | |******************************************************************** |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 3.0m 0.0m -0.5V 0.0m 10.0m 0.0m -0.6V 0.0m 21.0m 0.0m -0.7V 0.0m 31.0m 0.0m -0.8V 3.0m 44.0m 0.0m -0.9V 13.0m 56.0m 0.0m -1.0V 26.0m 69.0m 0.0m -3.0V 348.0m 335.0m 348.0m -5.0V 679.0m 607.0m 738.0m | |******************************************************************** |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 4.4pF 4.0pF 4.8pF | |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 -1.0m -1.0m -1.0m -0.7V -2.0m -3.0m -2.0m -0.8V -4.0m -5.0m -4.0m -0.9V -7.0m -11.0m -7.0m -1.0V -16.0m -20.0m -17.0m -3.0V -331.0m -278.0m -388.0m -5.0V -661.0m -548.0m -778.0m | |******************************************************************** |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 4.0m 0.0m -0.5V 0.0m 12.0m 0.0m -0.6V 1.0m 23.0m 0.0m -0.7V 1.0m 34.0m 0.0m -0.8V 5.0m 47.0m 0.0m -0.9V 15.0m 59.0m 0.0m -1.0V 29.0m 72.0m 2.0m -3.0V 351.0m 339.0m 351.0m -5.0V 681.0m 609.0m 741.0m | |******************************************************************** |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 4.4pF 4.0pF 4.8pF | |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 -1.0m -1.0m -1.0m -0.7V -2.0m -3.0m -2.0m -0.8V -4.0m -5.0m -4.0m -0.9V -7.0m -11.0m -7.0m -1.0V -16.0m -20.0m -17.0m -3.0V -331.0m -278.0m -388.0m -5.0V -661.0m -548.0m -778.0m | |******************************************************************** |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 4.0m 0.0m -0.5V 0.0m 12.0m 0.0m -0.6V 1.0m 23.0m 0.0m -0.7V 1.0m 34.0m 0.0m -0.8V 5.0m 47.0m 0.0m -0.9V 15.0m 59.0m 0.0m -1.0V 29.0m 72.0m 2.0m -3.0V 351.0m 339.0m 351.0m -5.0V 681.0m 609.0m 741.0m | |******************************************************************** |end of model p1p23ckm |******************************************************************** [End]