|******************************************************************** [IBIS Ver] 1.1 [File name] saqfp.ibs [File rev] 1.0 [Date] 8/20/94 [Source] The file was oringinated at Intel Corporation. [Notes] The following information corresponds to the 80960SA on process 648 in the 80 lead QFP package and it has not been validated. [Disclaimer] The following information is for modeling purposes only and is not guaranteed. |******************************************************************** [Component] i960SA (TM) [Manufacturer] Intel [Package] | typ min max R_pkg 85.0m 62.0m 109.0m L_pkg 8.0nH 5.1nH 10.8nH C_pkg 0.4pF 0.1pF 0.6pF |******************************************************************** [Pin] signal_name model_name 1 A22 KLIOBUFOUT 2 A21 KLIOBUFOUT 3 A20 KLIOBUFOUT 4 A19 KLIOBUFOUT 5 A18 KLIOBUFOUT 6 A17 KLIOBUFOUT 7 A16 KLIOBUFOUT 8 VCC POWER 9 VSS GND 10 AD15 KLIOBUF 11 AD14 KLIOBUF 12 VCC GND 13 VSS POWER 14 AD13 KLIOBUF 15 AD12 KLIOBUF 16 AD11 KLIOBUF 17 AD10 KLIOBUF 18 AD9 KLIOBUFOUT 19 AD8 KLIOBUFOUT 20 AD7 KLIOBUFOUT 21 VCC POWER 22 VSS GND 23 VCC POWER 24 VSS GND 25 AD6 KLIOBUF 26 AD5 KLIOBUF 27 AD4 KLIOBUF 28 AD3 KLIOBUF 29 AD2 KLIOBUF 30 AD1 KLIOBUF 31 D0 KLIOBUF 32 VSS GND 33 VSS GND 34 A3 KLIOBUFOUT 35 A2 KLIOBUFOUT 36 VCC POWER 37 VSS GND 38 A1 KLIOBUFOUT 39 NC NC 40 BE1# KLIOBUFOUT 41 BE0# KLIOBUFOUT 42 VCC POWER 43 VSS GND 44 CLK2 CLOCKBUF 45 RESET# RSTBUF 46 INT0# KLIOBUFIN 47 INT1 KLIOBUFIN 48 INT2/INTR KLIOBUFIN 49 INT3#/INTA# KLIOBUF 50 HLDA KLIOBUF1OUT 51 VCC POWER 52 VSS GND 53 HOLD KLIOBUF1IN 54 W/R# KLIOBUF1OUT 55 DEN# KLIOBUF1OUT 56 DT/R# KLIOBUF1OUT 57 BLAST# KLIOBUF1OUT 58 LOCK# KLIOBUF1 59 VCC POWER 60 VSS GND 61 VCC POWER 62 VSS GND 63 NC NC 64 AS# KLIOBUFOUT 65 VSS GND 66 ALE ALEIOBUF 67 READY# KLIOBUFIN 68 A31 KLIOBUFOUT 69 A30 KLIOBUFOUT 70 A29 KLIOBUFOUT 71 A28 KLIOBUFOUT 72 VSS GND 73 VCC POWER 74 A27 KLIOBUFOUT 75 A26 KLIOBUFOUT 76 A25 KLIOBUFOUT 77 VCC POWER 78 VSS GND 79 A24 KLIOBUFOUT 80 A23 KLIOBUFOUT | | |This following model descriptions describe each of the |different type of buffers. | | |******************************************************************** | |This is the model for buffer KLIOBUFOUT. | |******************************************************************** | | [Model] KLIOBUFOUT Model_type Output Polarity Non-Inverting Enable Active-High |signals A(16:31),A(1:3),AS#,BE(0:1)# | |variable typ min max C_comp 2.5pF 2.3pF 2.8pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -269.0m -170.0m -362.0m -4.0V -225.0m -139.0m -301.0m -3.0V -182.0m -107.0m -240.0m -2.0V -130.0m -75.0m -172.0m -1.0V -70.0m -39.0m -93.0m 0.0V 0.0m 0.0m 0.0m 1.0V 50.0m 30.0m 72.0m 2.0V 78.0m 45.0m 110.0m 3.0V 88.0m 52.0m 125.0m 4.0V 90.0m 53.0m 125.0m 5.0V 90.0m 53.0m 129.0m 6.0V 91.0m 53.0m 130.0m 7.0V 92.0m 53.0m 130.0m 8.0V 92.0m 54.0m 131.0m 9.0V 92.0m 54.0m 131.0m 10.0V 93.0m 54.0m 131.0m | |******************************************************************** |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 -27.0m -61.0m 9.0V -41.0m -25.0m -58.0m 8.0V -40.0m -25.0m -57.0m 7.0V -40.0m -25.0m -55.0m 6.0V -39.0m -25.0m -55.0m 5.0V -39.0m -24.0m -54.0m 4.0V -38.0m -23.0m -53.0m 3.0V -36.0m -21.0m -51.0m 2.0V -29.0m -16.0m -44.0m 1.0V -18.0m -8.0m -30.0m 0.0V 0.0m 4.0m -8.0m -1.0V 22.0m 19.0m 20.0m -2.0V 44.0m 33.0m 51.0m -3.0V 67.0m 48.0m 79.0m -4.0V 89.0m 62.0m 109.0m -5.0V 111.0m 78.0m 137.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m -1.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V 0.0m -3.0m 0.0m -0.7V -1.0m -4.0m -1.0m -0.8V -2.0m -5.0m -2.0m -0.9V -3.0m -6.0m -5.0m -1.0V -5.0m -7.0m -6.0m -3.0V -45.0m -37.0m -58.0m -5.0V -116.0m -75.0m -156.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 2.0m 0.0m -0.5V 0.0m 2.0m 0.0m -0.6V 0.0m 2.0m 0.0m -0.7V 0.0m 3.0m 0.0m -0.8V 0.0m 3.0m 0.0m -0.9V 0.0m 4.0m 0.0m -1.0V 0.0m 4.0m 0.0m -3.0V 11.0m 16.0m 11.0m -5.0V 35.0m 32.0m 39.0m | [Ramp] | typ min max dV/dt_r 1.0/0.3n 0.8/0.4n 1.4/0.3n dV/dt_f 2.0/3.0n 1.6/5.0n 2.4/3.0n | |******************************************************************** |end of model kliobuf |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer KLIOBUF1OUT. | |******************************************************************** | [Model] KLIOBUF1OUT Model_type Output Polarity Non-Inverting Enable Active-High |Signals W/R#,DEN#,DT/R#,HLDA,BLAST/FAIL# | |variable typ min max C_comp 2.5pF 2.3pF 2.8pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -269.0m -170.0m -362.0m -4.0V -225.0m -139.0m -301.0m -3.0V -182.0m -107.0m -240.0m -2.0V -130.0m -75.0m -172.0m -1.0V -70.0m -39.0m -93.0m 0.0V 0.0m 0.0m 0.0m 1.0V 50.0m 30.0m 72.0m 2.0V 78.0m 45.0m 110.0m 3.0V 88.0m 52.0m 125.0m 4.0V 90.0m 53.0m 125.0m 5.0V 90.0m 53.0m 129.0m 6.0V 91.0m 53.0m 130.0m 7.0V 92.0m 53.0m 130.0m 8.0V 92.0m 54.0m 131.0m 9.0V 92.0m 54.0m 131.0m 10.0V 93.0m 54.0m 131.0m | |******************************************************************** |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 -27.0m -61.0m 9.0V -41.0m -25.0m -58.0m 8.0V -40.0m -25.0m -57.0m 7.0V -40.0m -25.0m -55.0m 6.0V -39.0m -25.0m -55.0m 5.0V -39.0m -24.0m -54.0m 4.0V -38.0m -23.0m -53.0m 3.0V -36.0m -21.0m -51.0m 2.0V -29.0m -16.0m -44.0m 1.0V -18.0m -8.0m -30.0m 0.0V 0.0m 4.0m -8.0m -1.0V 22.0m 19.0m 20.0m -2.0V 44.0m 33.0m 51.0m -3.0V 67.0m 48.0m 79.0m -4.0V 89.0m 62.0m 109.0m -5.0V 111.0m 78.0m 137.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m -1.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V 0.0m -3.0m 0.0m -0.7V -1.0m -4.0m -1.0m -0.8V -2.0m -5.0m -2.0m -0.9V -3.0m -6.0m -5.0m -1.0V -5.0m -7.0m -6.0m -3.0V -45.0m -37.0m -58.0m -5.0V -116.0m -75.0m -156.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 2.0m 0.0m -0.5V 0.0m 2.0m 0.0m -0.6V 0.0m 2.0m 0.0m -0.7V 0.0m 3.0m 0.0m -0.8V 0.0m 3.0m 0.0m -0.9V 0.0m 4.0m 0.0m -1.0V 0.0m 4.0m 0.0m -3.0V 11.0m 16.0m 11.0m -5.0V 35.0m 32.0m 39.0m | [Ramp] |variable typ min max dV/dt_r 1.0/0.3n 0.8/0.4n 1.4/0.3n dV/dt_f 2.0/3.0n 1.6/5.0n 2.4/3.0n | |******************************************************************** |end of kliobuf1out model |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer ALEIOBUF. | |******************************************************************** | [Model] ALEIOBUF Model_type Output Polarity Non-Inverting Enable Active-High |Signals ALE | |variable typ min max C_comp 2.5pF 2.3pF 2.8pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |Voltage I(typ) I(min) I(max) | -5.0V -269.0m -170.0m -362.0m -4.0V -225.0m -139.0m -301.0m -3.0V -182.0m -107.0m -240.0m -2.0V -130.0m -75.0m -172.0m -1.0V -70.0m -39.0m -93.0m 0.0V 0.0m 0.0m 0.0m 1.0V 50.0m 30.0m 72.0m 2.0V 78.0m 45.0m 110.0m 3.0V 88.0m 52.0m 125.0m 4.0V 90.0m 53.0m 125.0m 5.0V 90.0m 53.0m 129.0m 6.0V 91.0m 53.0m 130.0m 7.0V 92.0m 53.0m 130.0m 8.0V 92.0m 54.0m 131.0m 9.0V 92.0m 54.0m 131.0m 10.0V 93.0m 54.0m 131.0m | |******************************************************************** |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 -27.0m -61.0m 9.0V -41.0m -25.0m -58.0m 8.0V -40.0m -25.0m -57.0m 7.0V -40.0m -25.0m -55.0m 6.0V -39.0m -25.0m -55.0m 5.0V -39.0m -24.0m -54.0m 4.0V -38.0m -23.0m -53.0m 3.0V -36.0m -21.0m -51.0m 2.0V -29.0m -16.0m -44.0m 1.0V -18.0m -8.0m -30.0m 0.0V 0.0m 4.0m -8.0m -1.0V 22.0m 19.0m 20.0m -2.0V 44.0m 33.0m 51.0m -3.0V 67.0m 48.0m 79.0m -4.0V 89.0m 62.0m 109.0m -5.0V 111.0m 78.0m 137.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m -1.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V 0.0m -3.0m 0.0m -0.7V -1.0m -4.0m -1.0m -0.8V -2.0m -5.0m -2.0m -0.9V -3.0m -6.0m -5.0m -1.0V -5.0m -7.0m -6.0m -3.0V -45.0m -37.0m -58.0m -5.0V -116.0m -75.0m -156.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 2.0m 0.0m -0.5V 0.0m 2.0m 0.0m -0.6V 0.0m 2.0m 0.0m -0.7V 0.0m 3.0m 0.0m -0.8V 0.0m 3.0m 0.0m -0.9V 0.0m 4.0m 0.0m -1.0V 0.0m 4.0m 0.0m -3.0V 11.0m 16.0m 11.0m -5.0V 35.0m 32.0m 39.0m | [Ramp] |variable typ min max dV/dt_r 1.0/0.3n 0.8/0.4n 1.4/0.3n dV/dt_f 2.0/3.0n 1.6/5.0n 2.4/3.0n | |******************************************************************** |end of aleiobuf model |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer KLIOBUF. | |******************************************************************** | [Model] KLIOBUF Model_type I/O Polarity Non-Inverting Enable Active-High | |Signal AD(A:15),D0 | |variable typ min max C_comp 2.5pF 2.3pF 2.8pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |voltage I(typ) I(min) I(max) | -5.0V -269.0m -170.0m -362.0m -4.0V -225.0m -139.0m -301.0m -3.0V -182.0m -107.0m -240.0m -2.0V -130.0m -75.0m -172.0m -1.0V -70.0m -39.0m -93.0m 0.0V 0.0m 0.0m 0.0m 1.0V 50.0m 30.0m 72.0m 2.0V 78.0m 45.0m 110.0m 3.0V 88.0m 52.0m 125.0m 4.0V 90.0m 53.0m 125.0m 5.0V 90.0m 53.0m 129.0m 6.0V 91.0m 53.0m 130.0m 7.0V 92.0m 53.0m 130.0m 8.0V 92.0m 54.0m 131.0m 9.0V 92.0m 54.0m 131.0m 10.0V 93.0m 54.0m 131.0m | |******************************************************************** |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 -27.0m -61.0m 9.0V -41.0m -25.0m -58.0m 8.0V -40.0m -25.0m -57.0m 7.0V -40.0m -25.0m -55.0m 6.0V -39.0m -25.0m -55.0m 5.0V -39.0m -24.0m -54.0m 4.0V -38.0m -23.0m -53.0m 3.0V -36.0m -21.0m -51.0m 2.0V -29.0m -16.0m -44.0m 1.0V -18.0m -8.0m -30.0m 0.0V 0.0m 4.0m -8.0m -1.0V 22.0m 19.0m 20.0m -2.0V 44.0m 33.0m 51.0m -3.0V 67.0m 48.0m 79.0m -4.0V 89.0m 62.0m 109.0m -5.0V 111.0m 78.0m 137.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m -1.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V 0.0m -3.0m 0.0m -0.7V -1.0m -4.0m -1.0m -0.8V -2.0m -5.0m -2.0m -0.9V -3.0m -6.0m -5.0m -1.0V -5.0m -7.0m -6.0m -3.0V -45.0m -37.0m -58.0m -5.0V -116.0m -75.0m -156.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 2.0m 0.0m -0.5V 0.0m 2.0m 0.0m -0.6V 0.0m 2.0m 0.0m -0.7V 0.0m 3.0m 0.0m -0.8V 0.0m 3.0m 0.0m -0.9V 0.0m 4.0m 0.0m -1.0V 0.0m 4.0m 0.0m -3.0V 11.0m 16.0m 11.0m -5.0V 35.0m 32.0m 39.0m | [Ramp] |variable typ min max dV/dt_r 1.0/0.3n 0.8/0.4n 1.4/0.3n dV/dt_f 2.0/3.0n 1.6/5.0n 2.4/3.0n | |******************************************************************** |end of model kliobuf |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer KLIOBUF1. | |******************************************************************** | [Model] KLIOBUF1 Model_type I/O Polarity Non-Inverting Enable Active-High |Signals LOCK# | |variable typ min max C_comp 2.5pF 2.3pF 2.8pF | |variable typ min max [Voltage range] 5.0V 4.7V 5.3V | [Pulldown] | |voltage I(typ) I(min) I(max) | -5.0V -269.0m -170.0m -362.0m -4.0V -225.0m -139.0m -301.0m -3.0V -182.0m -107.0m -240.0m -2.0V -130.0m -75.0m -172.0m -1.0V -70.0m -39.0m -93.0m 0.0V 0.0m 0.0m 0.0m 1.0V 50.0m 30.0m 72.0m 2.0V 78.0m 45.0m 110.0m 3.0V 88.0m 52.0m 125.0m 4.0V 90.0m 53.0m 125.0m 5.0V 90.0m 53.0m 129.0m 6.0V 91.0m 53.0m 130.0m 7.0V 92.0m 53.0m 130.0m 8.0V 92.0m 54.0m 131.0m 9.0V 92.0m 54.0m 131.0m 10.0V 93.0m 54.0m 131.0m | |******************************************************************** |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 -27.0m -61.0m 9.0V -41.0m -25.0m -58.0m 8.0V -40.0m -25.0m -57.0m 7.0V -40.0m -25.0m -55.0m 6.0V -39.0m -25.0m -55.0m 5.0V -39.0m -24.0m -54.0m 4.0V -38.0m -23.0m -53.0m 3.0V -36.0m -21.0m -51.0m 2.0V -29.0m -16.0m -44.0m 1.0V -18.0m -8.0m -30.0m 0.0V 0.0m 4.0m -8.0m -1.0V 22.0m 19.0m 20.0m -2.0V 44.0m 33.0m 51.0m -3.0V 67.0m 48.0m 79.0m -4.0V 89.0m 62.0m 109.0m -5.0V 111.0m 78.0m 137.0m | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 0.0m -1.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V 0.0m -3.0m 0.0m -0.7V -1.0m -4.0m -1.0m -0.8V -2.0m -5.0m -2.0m -0.9V -3.0m -6.0m -5.0m -1.0V -5.0m -7.0m -6.0m -3.0V -45.0m -37.0m -58.0m -5.0V -116.0m -75.0m -156.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 2.0m 0.0m -0.5V 0.0m 2.0m 0.0m -0.6V 0.0m 2.0m 0.0m -0.7V 0.0m 3.0m 0.0m -0.8V 0.0m 3.0m 0.0m -0.9V 0.0m 4.0m 0.0m -1.0V 0.0m 4.0m 0.0m -3.0V 11.0m 16.0m 11.0m -5.0V 35.0m 32.0m 39.0m | [Ramp] |variable] typ min max dV/dt_r 1.0/0.3n 0.8/0.4n 1.4/0.3n dV/dt_f 2.0/3.0n 1.6/5.0n 2.4/3.0n | |******************************************************************** |end of model kliobuf1 |******************************************************************** | | | | |******************************************************************** | |This is the model for buffer KLIOBUFIN. | |******************************************************************** | [Model] KLIOBUFIN Model_type Input Polarity Non-Inverting Enable Active-High |Signals READY,INT0,INT1,INT3#/INTA#,INT2/INTR | |variable typ min max C_comp 2.5pF 2.3pF 2.8pF | |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 -1.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V 0.0m -3.0m 0.0m -0.7V -1.0m -4.0m -1.0m -0.8V -2.0m -5.0m -2.0m -0.9V -3.0m -6.0m -5.0m -1.0V -5.0m -7.0m -6.0m -3.0V -45.0m -37.0m -58.0m -5.0V -116.0m -75.0m -156.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 2.0m 0.0m -0.5V 0.0m 2.0m 0.0m -0.6V 0.0m 2.0m 0.0m -0.7V 0.0m 3.0m 0.0m -0.8V 0.0m 3.0m 0.0m -0.9V 0.0m 4.0m 0.0m -1.0V 0.0m 4.0m 0.0m -3.0V 11.0m 16.0m 11.0m -5.0V 35.0m 32.0m 39.0m | |******************************************************************** |end of model kliobufin |******************************************************************** | | | | |******************************************************************** | |This is the model of the buffer KLIOBUF1IN. | |******************************************************************** | [Model] KLIOBUF1IN Model_type Input Polarity Non-Inverting |Signals HOLD | |variable typ min max C_comp 2.5pF 2.3pF 2.8pF | |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 -1.0m 0.0m -0.4V 0.0m -1.0m 0.0m -0.5V 0.0m -3.0m 0.0m -0.6V 0.0m -3.0m 0.0m -0.7V -1.0m -4.0m -1.0m -0.8V -2.0m -5.0m -2.0m -0.9V -3.0m -6.0m -5.0m -1.0V -5.0m -7.0m -6.0m -3.0V -45.0m -37.0m -58.0m -5.0V -116.0m -75.0m -156.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 2.0m 0.0m -0.5V 0.0m 2.0m 0.0m -0.6V 0.0m 2.0m 0.0m -0.7V 0.0m 3.0m 0.0m -0.8V 0.0m 3.0m 0.0m -0.9V 0.0m 4.0m 0.0m -1.0V 0.0m 4.0m 0.0m -3.0V 11.0m 16.0m 11.0m -5.0V 35.0m 32.0m 39.0m | |******************************************************************** |end of model kliobuf1in |******************************************************************** | | | | |******************************************************************** | |This is the model of buffer CLOCKBUF. | |******************************************************************** | [Model] CLOCKBUF Model_type Input Polarity Non-Inverting |Signals CLK2 | |variable typ min max C_comp 1.2pF 1.1pF 1.3pF | |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 -3.0m 0.0m -0.5V 0.0m -9.0m 0.0m -0.6V -6.0m -20.0m -2.0m -0.7V -17.0m -31.0m -13.0m -0.8V -31.0m -44.0m -28.0m -0.9V -46.0m -56.0m -65.0m -1.0V -62.0m -69.0m -65.0m -3.0V -387.0m -335.0m -448.0m -5.0V -718.0m -606.0m -839.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 39.0m 0.0m -0.5V 2.0m 51.0m 0.0m -0.6V 11.0m 63.0m 0.0m -0.7V 24.0m 76.0m 0.0m -0.8V 38.0m 89.0m 0.0m -0.9V 54.0m 103.0m 6.0m -1.0V 69.0m 116.0m 20.0m -3.0V 395.0m 384.0m 399.0m -5.0V 726.0m 654.0m 789.0m | |******************************************************************** |end of model clockbuf |******************************************************************** | | | | |******************************************************************** | |This is the model for the buffer RSTBUF. | |******************************************************************** | [Model] RSTBUF Model_type Input Polarity Non-Inverting |Signals RESET# | |variable typ min max C_comp 1.2pF 1.1pF 1.3pF | |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 -3.0m 0.0m -0.5V 0.0m -9.0m 0.0m -0.6V -6.0m -20.0m -2.0m -0.7V -17.0m -31.0m -13.0m -0.8V -31.0m -44.0m -28.0m -0.9V -46.0m -56.0m -65.0m -1.0V -62.0m -69.0m -65.0m -3.0V -387.0m -335.0m -448.0m -5.0V -718.0m -606.0m -839.0m | |******************************************************************** |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 1.0m 0.0m -0.4V 0.0m 39.0m 0.0m -0.5V 2.0m 51.0m 0.0m -0.6V 11.0m 63.0m 0.0m -0.7V 24.0m 76.0m 0.0m -0.8V 38.0m 89.0m 0.0m -0.9V 54.0m 103.0m 6.0m -1.0V 69.0m 116.0m 20.0m -3.0V 395.0m 384.0m 399.0m -5.0V 726.0m 654.0m 789.0m |******************************************************************** |end of model rstbuf |******************************************************************** [End]