|******************************************************************** [IBIS Ver] 1.1 [File name] jx3hipq.ibs [File rev] 2.1 [Date] 7/21/94 [Source] This file was originated at Intel Corporation. [Notes] The following information corresponds to the 80960JX processor in high drive mode with Vcc at 3.3V in the 132 lead PQFP package and it has not been validated. [Disclaimer] This information is for modeling purposes only and is not guaranteed. |******************************************************************** [Component] 80960JX [Manufacturer] Intel [Package] | typ min max R_pkg 88.0m 63.0m 113.0m L_pkg 8.7nH 5.3nH 12.0nH C_pkg 0.6pF 0.2pF 0.9pF | |******************************************************************************* [Pin] signal_name model_name 1 TRST# IBUFFERICE 2 TCK IBUFWOBS 3 TMS IBUFFERICE 4 HOLD IBUFFER 5 XINT0# IBUFFER 6 XINT1# IBUFFER 7 XINT2# IBUFFER 8 XINT3# IBUFFER 9 VCC POWER 10 VSS GND 11 XINT4# IBUFFER 12 XINT5# IBUFFER 13 XINT6# IBUFFER 14 XINT7# IBUFFER 15 NMI# IBUFFER 16 VCC POWER 17 VSS GND 18 NC NC 19 NC NC 20 NC NC 21 NC NC 22 NC NC 23 FAIL# OBUFFER 24 ALE# OBUFFER 25 TDO OBUFWOBS 26 VCC POWER 27 VSS GND 28 WIDTH/HLTD1 OBUFFER 29 VCC POWER 30 VSS GND 31 WIDTH/HLTD0 OBUFFER 32 A2 OBUFFER 33 A3 OBUFFER 34 BLAST# OBUFFER 35 D/C# OBUFFER 36 ADS# OBUFFER 37 W/R# OBUFFER 38 VSS GND 39 VCC POWER 40 VSS GND 41 VCC POWER 42 DT/R# OBUFFER 43 DEN# OBUFFER 44 HOLDA OBUFFER 45 ALE OBUFFER 46 VSS GND 47 VCC POWER 48 VSS GND 49 VCC POWER 50 LOCK#/ONCE# IOBUFWEAKP 51 BSTAT OBUFFER 52 BE0# OBUFFER 53 BE1# OBUFFER 54 BE2# OBUFFER 55 BE3# OBUFFER 56 VSS GND 57 VCC POWER 58 VSS GND 59 VCC POWER 60 AD31 IOBUFFER 61 AD30 IOBUFFER 62 AD29 IOBUFFER 63 AD28 IOBUFFER 64 VSS GND 65 VCC POWER 66 AD27 IOBUFFER 67 NC NC 68 AD26 IOBUFFER 69 AD25 IOBUFFER 70 AD24 IOBUFFER 71 VSS GND 72 VCC POWER 73 VSS GND 74 VCC POWER 75 AD23 IOBUFFER 76 AD22 IOBUFFER 77 AD21 IOBUFFER 78 AD20 IOBUFFER 79 VSS GND 80 VCC POWER 81 AD19 IOBUFFER 82 AD18 IOBUFFER 83 AD17 IOBUFFER 84 AD16 IOBUFFER 85 VSS GND 86 VCC POWER 87 AD15 IOBUFFER 88 AD14 IOBUFFER 89 AD13 IOBUFFER 90 AD12 IOBUFFER 91 VSS GND 92 VCC POWER 93 VSS GND 94 VCC POWER 95 AD11 IOBUFFER 96 AD10 IOBUFFER 97 VSS GND 98 VCC POWER 99 AD9 IOBUFFER 100 AD8 IOBUFFER 101 AD7 IOBUFFER 102 AD6 IOBUFFER 103 AD5 IOBUFFER 104 AD4 IOBUFFER 105 VCC POWER 106 VSS GND 107 AD3 IOBUFFER 108 AD2 IOBUFFER 109 AD1 IOBUFFER 110 AD0 IOBUFFER 111 VCC POWER 112 VSS GND 113 VCC POWER 114 VSS GND 115 VCC POWER 116 VSS GND 117 CLKIN ICLKBUF 118 VSS GND 119 VCCPLL POWER 120 VCC POWER 121 NC NC 122 NC NC 123 VCC POWER 124 VSS GND 125 RESET# IBUFFER 126 NC NC 127 NC NC 128 STEST IBUFFER 129 VCC POWER 130 TDI IBUFFERICE 131 VSS GND 132 RDYRCV# IBUFFER | | |This following model descriptions describe each of the different type |of buffers. | | |******************************************************************** | |This is the model for buffer OBUFFER. | |******************************************************************************* | [Model] OBUFFER Model_type Output Polarity Non-Inverting Enable Active-Low |Signals FAIL#,ALE#,WIDTH/HLTD(0:1),A(2:3),BLAST#,D/C#,ADS#,W/R#,DT/R#, |DEN#,HOLDA#,ALE,BSTAT,BE(0:3)# | |variable typ min max C_comp 6.4pF 5.8pF 7.0pF | |variable typ min max [Voltage range] 3.3v 3.0v 3.6v | [Pulldown] | |Voltage I(typ) I(min) I(max) | -3.3V -126.0m -72.0m -174.0m -2.3V -123.0m -71.0m -170.0m -1.3V -101.0m -63.0m -130.0m -0.3V -23.0m -15.0m -31.0m 0.0V 0.0m 0.0m 0.0m 0.3V 22.0m 14.0m 29.0m 1.3V 80.0m 49.0m 108.0m 2.3V 107.0m 62.0m 153.0m 3.3V 108.0m 62.0m 160.0m 4.3V 109.0m 63.0m 160.0m 5.3V 110.0m 63.0m 161.0m 6.6V 110.0m 63.0m 162.0m | |******************************************************************** |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 6.6V in the table it is actually 6.6 volts below Vcc and |-3.3V with respect to ground. |******************************************************************** | [Pullup] | |Voltage I(typ) I(min) I(max) | 6.6V -87.0m -54.0m -126.0m 5.6V -85.0m -53.0m -124.0m 4.6V -83.0m -52.0m -122.0m 3.6V -81.0m -50.0m -119.0m 3.3V -80.0m -50.0m -118.0m 3.0V -80.0m -49.0m -117.0m 2.0V -74.0m -45.0m -110.0m 1.0V -51.0m -25.0m -83.0m 0.0V 0.0m 14.0m -24.0m -1.0V 74.0m 66.0m 65.0m -2.0V 151.0m 117.0m 168.0m -3.3V 251.0m 186.0m 296.0m | [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 -3.0m -4.0m -3.0m -0.7V -7.0m -8.0m -7.0m -0.8V -13.0m -15.0m -14.0m -0.9V -23.0m -26.0m -25.0m -1.0V -38.0m -39.0m -41.0m -2.3V -284.0m -240.0m -333.0m -3.3 -481.0m -401.0m -566.0m | |******************************************************************** |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 |3V in the table is actually 3.3V with respect to ground and 0.3V |above Vcc. |******************************************************************** | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.3V 0.0m 0.0m 0.0m -0.1V 0.0m 0.0m 0.0m -0.2V 0.0m 1.0m 0.0m -0.3V 0.0m 2.0m 0.0m -0.4V 0.0m 3.0m 0.0m -0.5V 0.0m 5.0m 0.0m -0.6V 1.0m 7.0m 0.0m -0.7V 3.0m 8.0m 0.0m -2.3V 57.0m 52.0m 54.0m -3.3V 108.0m 89.0m 116.0m | [Ramp] | typ min max dV/dt_r 1.4/0.5n 1.1/0.8n 1.7/0.4n dV/dt_f 1.5/0.8n 1.2/1.1n 1.8/0.6n | |******************************************************************** |end of buffer model OBUFFER |******************************************************************** | | | | |******************************************************************** | |This is the model for buffer OBUFWOBS. | |******************************************************************** | [Model] OBUFWOBS Model_type Output Polarity Non-Inverting Enable Active-Low |Signals TDO# | |variable typ min max C_comp 6.4pF 5.8pF 7pF | |variable typ min max [Voltage range] 3.3v 3.0v 3.6v | [Pulldown] | |Voltage I(typ) I(min) I(max) | -3.3V -126.0m -72.0m -174.0m -2.3V -123.0m -71.0m -170.0m -1.3V -101.0m -63.0m -130.0m -0.3V -23.0m -15.0m -31.0m 0.0V 0.0m 0.0m 0.0m 0.3V 22.0m 14.0m 29.0m 1.3V 80.0m 49.0m 108.0m 2.3V 107.0m 62.0m 153.0m 3.3V 108.0m 62.0m 160.0m 4.3V 109.0m 63.0m 160.0m 5.3V 110.0m 63.0m 161.0m 6.6V 110.0m 63.0m 162.0m || |******************************************************************** |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 6.6V in the table it is actually 6.6 volts below Vcc and |-3.3V with respect to ground. |******************************************************************** | [Pullup] | |Voltage I(typ) I(min) I(max) | 6.6V -87.0m -54.0m -126.0m 5.6V -85.0m -53.0m -124.0m 4.6V -83.0m -52.0m -122.0m 3.6V -81.0m -50.0m -119.0m 3.3V -80.0m -50.0m -118.0m 3.0V -80.0m -49.0m -117.0m 2.0V -74.0m -45.0m -110.0m 1.0V -51.0m -25.0m -83.0m 0.0V 0.0m 14.0m -24.0m -1.0V 74.0m 66.0m 65.0m -2.0V 151.0m 117.0m 168.0m -3.3V 251.0m 186.0m 296.0m | [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 -3.0m -4.0m -3.0m -0.7V -7.0m -8.0m -7.0m -0.8V -13.0m -15.0m -14.0m -0.9V -23.0m -26.0m -25.0m -1.0V -38.0m -39.0m -41.0m -2.3V -284.0m -240.0m -333.0m -3.3 -481.0m -401.0m -566.0m || |******************************************************************** |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 |3V in the table is actually 3.3V with respect to ground and 0.3V |above Vcc. |******************************************************************** | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.3V 0.0m 0.0m 0.0m -0.1V 0.0m 0.0m 0.0m -0.2V 0.0m 1.0m 0.0m -0.3V 0.0m 2.0m 0.0m -0.4V 0.0m 3.0m 0.0m -0.5V 0.0m 5.0m 0.0m -0.6V 1.0m 7.0m 0.0m -0.7V 3.0m 8.0m 0.0m -2.3V 57.0m 52.0m 54.0m -3.3V 108.0m 89.0m 116.0m | [Ramp] | typ min max dV/dt_r 1.4/0.5n 1.1/0.8n 1.7/0.4n dV/dt_f 1.5/0.8n 1.2/1.1n 1.8/0.6n | |******************************************************************** |end of buffer model OBUFWOBS |******************************************************************** | | | | |******************************************************************** | |This is the model for buffer IOBUFFER. | | |******************************************************************** | [Model] IOBUFFER Model_type I/O Polarity Non-Inverting Enable Active-Low |Signals AD(0:31) | |variable typ min max C_comp 8.3pF 7.5pF 9.1pF | |variable typ min max [Voltage range] 3.3v 3.0v 3.6v | [Pulldown] | |Voltage I(typ) I(min) I(max) | -3.3V -126.0m -72.0m -174.0m -2.3V -123.0m -71.0m -170.0m -1.3V -101.0m -63.0m -130.0m -0.3V -23.0m -15.0m -31.0m 0.0V 0.0m 0.0m 0.0m 0.3V 22.0m 14.0m 29.0m 1.3V 80.0m 49.0m 108.0m 2.3V 107.0m 62.0m 153.0m 3.3V 108.0m 62.0m 160.0m 4.3V 109.0m 63.0m 160.0m 5.3V 110.0m 63.0m 161.0m 6.6V 110.0m 63.0m 162.0m || |******************************************************************** |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 6.6V in the table it is actually 6.6 volts below Vcc and |-3.3V with respect to ground. |******************************************************************** | [Pullup] | |Voltage I(typ) I(min) I(max) | 6.6V -87.0m -54.0m -126.0m 5.6V -85.0m -53.0m -124.0m 4.6V -83.0m -52.0m -122.0m 3.6V -81.0m -50.0m -119.0m 3.3V -80.0m -50.0m -118.0m 3.0V -80.0m -49.0m -117.0m 2.0V -74.0m -45.0m -110.0m 1.0V -51.0m -25.0m -83.0m 0.0V 0.0m 14.0m -24.0m -1.0V 74.0m 66.0m 65.0m -2.0V 151.0m 117.0m 168.0m -3.3V 251.0m 186.0m 296.0m | [GND_Clamp] | 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 -3.0m -4.0m -3.0m -0.7V -7.0m -9.0m -7.0m -0.8V -14.0m -18.0m -15.0m -0.9V -29.0m -34.0m -27.0m -1.0V -50.0m -56.0m -53.0m -2.3V -499.0m -422.0m -583.0m -3.3 -860.0m -717.0m -1009.0m || |******************************************************************** |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 |3V in the table is actually 3.3V with respect to ground and 0.3V |above Vcc. |******************************************************************** | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.3V 0.0m 0.0m 0.0m -0.1V 0.0m 0.0m 0.0m -0.2V 0.0m 1.0m 0.0m -0.3V 0.0m 2.0m 0.0m -0.4V 0.0m 4.0m 0.0m -0.5V 0.0m 9.0m 0.0m -0.6V 1.0m 19.0m 0.0m -0.7V 3.0m 32.0m 0.0m -2.3V 281.0m 284.0m 256.0m -3.3V 496.0m 455.0m 512.0m | [Ramp] | typ min max dV/dt_r 1.4/0.5n 1.1/0.8n 1.7/0.4n dV/dt_f 1.5/0.8n 1.2/1.1n 1.8/0.6n | |******************************************************************** |end of buffer model IOBUFFER |******************************************************************** | | | | |******************************************************************** | | |This is the model for buffer IOBUFWEAKP. | | |******************************************************************** | [Model] IOBUFWEAKP Model_type I/O Polarity Non-Inverting Enable Active-Low |Signals LOCK#/ONCE# | |variable typ min max C_comp 8.3pF 7.5pF 9.1pF | |variable typ min max [Voltage range] 3.3v 3.0v 3.6v | [Pulldown] | |Voltage I(typ) I(min) I(max) | -3.3V -126.0m -72.0m -174.0m -2.3V -123.0m -71.0m -170.0m -1.3V -101.0m -63.0m -130.0m -0.3V -23.0m -15.0m -31.0m 0.0V 0.0m 0.0m 0.0m 0.3V 22.0m 14.0m 29.0m 1.3V 80.0m 49.0m 108.0m 2.3V 107.0m 62.0m 153.0m 3.3V 108.0m 62.0m 160.0m 4.3V 109.0m 63.0m 160.0m 5.3V 110.0m 63.0m 161.0m 6.6V 110.0m 63.0m 162.0m || |******************************************************************** |Note that the pullup voltage in the data table is derived from the |equation: |Vtable = Vcc - Voutput |For the 6.6V in the table it is actually 6.6 volts below Vcc and |-3.3V with respect to ground. |******************************************************************** | [Pullup] | |Voltage I(typ) I(min) I(max) | 6.6V -87.0m -54.0m -126.0m 5.6V -85.0m -53.0m -124.0m 4.6V -83.0m -52.0m -122.0m 3.6V -81.0m -50.0m -119.0m 3.3V -80.0m -50.0m -118.0m 3.0V -80.0m -49.0m -117.0m 2.0V -74.0m -45.0m -110.0m 1.0V -51.0m -25.0m -83.0m 0.0V 0.0m 14.0m -24.0m -1.0V 74.0m 66.0m 65.0m -2.0V 151.0m 117.0m 168.0m -3.3V 251.0m 186.0m 296.0m | [GND_Clamp] | 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 -3.0m -4.0m -3.0m -0.7V -7.0m -9.0m -7.0m -0.8V -14.0m -18.0m -15.0m -0.9V -29.0m -34.0m -27.0m -1.0V -50.0m -56.0m -53.0m -2.3V -499.0m -422.0m -583.0m -3.3 -860.0m -717.0m -1009.0m || |******************************************************************** |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 |3V in the table is actually 3.3V with respect to ground and 0.3V |above Vcc. |******************************************************************** | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.3V 0.0m 0.0m 0.0m -0.1V 0.0m 0.0m 0.0m -0.2V 0.0m 1.0m 0.0m -0.3V 0.0m 2.0m 0.0m -0.4V 0.0m 4.0m 0.0m -0.5V 0.0m 9.0m 0.0m -0.6V 1.0m 19.0m 0.0m -0.7V 3.0m 32.0m 0.0m -2.3V 281.0m 284.0m 256.0m -3.3V 496.0m 455.0m 512.0m | [Ramp] | typ min max dV/dt_r 1.4/0.5n 1.1/0.8n 1.7/0.4n dV/dt_f 1.5/0.8n 1.2/1.1n 1.8/0.6n | |******************************************************************** |end of buffer model IOBUFWEAKP |******************************************************************** | | | | |******************************************************************** | |This is the model for buffer IBUFFER. | |******************************************************************** | [Model] IBUFFER Model_type Input Polarity Non-Inverting Enable Active-Low |Signals HOLD,XINT(0:7)#,NMI#,RESET#,RDYRCV#,STEST | |variable typ min max C_comp 2.0pF 1.8pF 2.2pF | |variable typ min max [Voltage range] 3.3v 3.0v 3.6v | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 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 -1.0m -2.0m 0.0m -0.9V -4.0m -8.0m -3.0m -1.0V -13.0m -17.0m -12.0m -2.0V -166.0m -142.0m -193.0m -3.0V -329.0m -276.0m -386.0m -3.3V -378.0m -316.0m -444.0m || |******************************************************************** |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 |3V in the table is actually 3.3V with respect to ground and 0.3V |above Vcc. |******************************************************************** | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.3V 0.0m 0.0m 0.0m -0.2V 0.0m 0.0m 0.0m -0.3V 0.0m 0.0m 0.0m -0.4V 0.0m 1.0m 0.0m -0.5V 0.0m 4.0m 0.0m -0.6V 0.0m 12.0m 0.0m -0.7V 0.0m 23.0m 0.0m -1.7V 126.0m 151.0m 88.0m -2.7V 289.0m 285.0m 280.0m -3.3V 388.0m 366.0m 396.0m | |******************************************************************** |end of buffer model IBUFFER |******************************************************************** | | | | |******************************************************************** | |This is the model for buffer IBUFFERICE. | |******************************************************************** | [Model] IBUFFERICE Model_type Input Polarity Non-Inverting Enable Active-Low |Signals TRST#,TMS,TDI | |variable typ min max C_comp 2.0pF 1.8pF 2.2pF | |variable typ min max [Voltage range] 3.3v 3.0v 3.6v | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 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 -1.0m -2.0m 0.0m -0.9V -4.0m -8.0m -3.0m -1.0V -13.0m -17.0m -12.0m -2.0V -166.0m -142.0m -193.0m -3.0V -329.0m -276.0m -386.0m -3.3V -378.0m -316.0m -444.0m || |******************************************************************** |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 |3V in the table is actually 3.3V with respect to ground and 0.3V |above Vcc. |******************************************************************** | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.3V 0.0m 0.0m 0.0m -0.2V 0.0m 0.0m 0.0m -0.3V 0.0m 0.0m 0.0m -0.4V 0.0m 1.0m 0.0m -0.5V 0.0m 4.0m 0.0m -0.6V 0.0m 12.0m 0.0m -0.7V 0.0m 23.0m 0.0m -1.7V 126.0m 151.0m 88.0m -2.7V 289.0m 285.0m 280.0m -3.3V 388.0m 366.0m 396.0m | |******************************************************************** |end of buffer model IBUFFERICE |******************************************************************** | | | | |******************************************************************** | |This is the model for buffer IBUFWOBS. | |******************************************************************** | [Model] IBUFWOBS Model_type Input Polarity Non-Inverting Enable Active-Low |Signals TCK | |variable typ min max C_comp 2.0pF 1.8pF 2.2pF | |variable typ min max [Voltage range] 3.3v 3.0v 3.6v | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 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 -1.0m -2.0m 0.0m -0.9V -4.0m -8.0m -3.0m -1.0V -13.0m -17.0m -12.0m -2.0V -166.0m -142.0m -193.0m -3.0V -329.0m -276.0m -386.0m -3.3V -378.0m -316.0m -444.0m || |******************************************************************** |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 |3V in the table is actually 3.3V with respect to ground and 0.3V |above Vcc. |******************************************************************** | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.3V 0.0m 0.0m 0.0m -0.2V 0.0m 0.0m 0.0m -0.3V 0.0m 0.0m 0.0m -0.4V 0.0m 1.0m 0.0m -0.5V 0.0m 4.0m 0.0m -0.6V 0.0m 12.0m 0.0m -0.7V 0.0m 23.0m 0.0m -1.7V 126.0m 151.0m 88.0m -2.7V 289.0m 285.0m 280.0m -3.3V 388.0m 366.0m 396.0m | |******************************************************************** |end of buffer model IBUFWOBS |******************************************************************** | | | | |******************************************************************** | |This is the model for buffer ICLKBUF. | |******************************************************************** | [Model] ICLKBUF Model_type Input Polarity Non-Inverting Enable Active-Low |Signals CLKIN | |variable typ min max C_comp 2.0pF 1.8pF 2.2pF | |variable typ min max [Voltage range] 3.3v 3.0v 3.6v | [GND_Clamp] | |Voltage I(typ) I(min) I(max) | 0.0V 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 -1.0m -2.0m 0.0m -0.9V -4.0m -8.0m -3.0m -1.0V -13.0m -17.0m -12.0m -2.0V -166.0m -142.0m -193.0m -3.0V -329.0m -276.0m -386.0m -3.3V -378.0m -316.0m -444.0m || |******************************************************************** |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 |3V in the table is actually 3.3V with respect to ground and 0.3V |above Vcc. |******************************************************************** | [POWER_Clamp] | |Voltage I(typ) I(min) I(max) | 0.3V 0.0m 0.0m 0.0m -0.2V 0.0m 0.0m 0.0m -0.3V 0.0m 0.0m 0.0m -0.4V 0.0m 1.0m 0.0m -0.5V 0.0m 4.0m 0.0m -0.6V 0.0m 12.0m 0.0m -0.7V 0.0m 23.0m 0.0m -1.7V 126.0m 151.0m 88.0m -2.7V 289.0m 285.0m 280.0m -3.3V 388.0m 366.0m 396.0m | |******************************************************************** |end of buffer model ICLKBUF |******************************************************************** [End]