|*************************************************************************** | Texas Instruments Incorporated | Data Transmissions Products | IBIS Model for SN65HVD07 | 8D SOIC Package |*************************************************************************** | [IBIS Ver] 3.2 [Comment char] |_char [File name] hvd07.ibs [File Rev] 1.1 [Date] 11Apr07 [Source] File originated at Texas Instruments Incorporated. Data Transmission Products Group. [Notes] [Disclaimer] (C) Copyright Texas Instruments Incorporated 2002 All rights reserved Texas Instruments Incorporated hereby grants 1the user of this IBIS model a non-exclusive, nontransferable license to use this IBIS model under the following terms. Before using this IBIS model, the user should read this license. If the user does not accept these terms, the IBIS model should be returned to Texas Instruments within 30 days. 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Contact Texas Instruments at ATTN:DATA TRANSMISSIONS | | |**************************************************************************** [Copyright] Copyright 2002, Texas Instruments, All Rights Reserved [Component] HVD07D [Manufacturer] Texas Instruments Incorporated [Package] | typ min max R_pkg 0.036 0.033 0.039 L_pkg 3.340nH 2.445nH 4.233nH C_pkg 0.470pF 0.308pF 0.631pF | |**************************************************************************** | [Pin] signal_name model_name R_pin L_pin C_pin | 1 R RECEIVER_OUT 0.034 4.233n 0.630p 2 RE DRVR_IN_RCVR_EN 0.038 2.445n 0.309p 3 DE DRIVER_EN 0.039 2.448n 0.309p 4 D DRVR_IN_RCVR_EN 0.033 4.231n 0.631p 5 GND GND 0.033 4.230n 0.630p 6 A DRVR/REC_BI 0.039 2.450n 0.308p 7 B DRVR/REC_BI 0.039 2.448n 0.309p 8 VCC POWER 0.033 4.231n 0.630p | [Diff_pin] inv_pin vdiff tdelay_typ tdelay_min tdelay_max | | The 'A' pin is Diff_pin and the 'B' pin is the inv_pin | 6 7 0.200 0 0 0 | |**************************************************************************** | Driver Input / Receiver Enable Model |**************************************************************************** | [Model] DRVR_IN_RCVR_EN Model_type Input |Signals D,RE Vinh = 2.0 Vinl = 0.8 | typ min max C_comp 1.0pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 5.0V 4.5V 5.5V | |**************************************************************************** | [GND_clamp] | Voltage I(typ) I(min) I(max) | -5.0 -4.20E+00 NA NA -4.0 -3.22E+00 NA NA -3.0 -2.23E+00 NA NA -2.0 -1.22E+00 NA NA -1.0 -1.90E-01 NA NA -0.8 -2.34E-02 NA NA -0.6 -5.57E-05 NA NA -0.4 -2.77E-05 NA NA -0.2 -2.77E-05 NA NA 0.0 -2.76E-05 NA NA 2.4 -2.53E-05 NA NA 5.0 1.20E-11 NA NA | [Power_clamp] |------------------------------------------------------------- | Note that the[POWER_clamp]voltage table is referenced to Vcc | and is calculated using Vtable=Vcc - Vmeasured. |------------------------------------------------------------- | Voltage I(typ) I(min) I(max) | -5.0 8.78E-03 NA NA -4.0 6.67E-03 NA NA -3.0 4.57E-03 NA NA -2.0 2.48E-03 NA NA -1.8 2.07E-03 NA NA -1.6 1.65E-03 NA NA -1.4 1.24E-03 NA NA -1.2 8.41E-04 NA NA -1.0 4.52E-04 NA NA -0.8 1.10E-04 NA NA -0.6 1.00E-05 NA NA -0.4 6.42E-06 NA NA -0.2 3.15E-06 NA NA 0.0 1.20E-11 NA NA |**************************************************************************** | Driver Enable Model |**************************************************************************** | [Model] DRIVER_EN Model_type Input |Signals DE Vinh = 2.0 Vinl = 0.8 | typ min max C_comp 1.0pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 5.0V 4.5V 5.5V | |**************************************************************************** | [GND_clamp] | Voltage I(typ) I(min) I(max) -5.0 -4.20E+00 NA NA -4.0 -3.22E+00 NA NA -3.0 -2.23E+00 NA NA -2.0 -1.22E+00 NA NA -1.0 -1.90E-01 NA NA -0.8 -2.34E-02 NA NA -0.6 -5.57E-05 NA NA -0.4 -2.77E-05 NA NA -0.2 -2.77E-05 NA NA 0.0 -2.76E-05 NA NA 2.4 -2.53E-05 NA NA 5.0 1.20E-11 NA NA | [Power_clamp] |------------------------------------------------------------- | Note that the[POWER_clamp]voltage table is referenced to Vcc | and is calculated using Vtable=Vcc - Vmeasured. |------------------------------------------------------------- | Voltage I(typ) I(min) I(max) | -5.0 8.78E-03 NA NA -4.0 6.67E-03 NA NA -3.0 4.57E-03 NA NA -2.0 2.48E-03 NA NA -1.8 2.07E-03 NA NA -1.6 1.65E-03 NA NA -1.4 1.24E-03 NA NA -1.2 8.41E-04 NA NA -1.0 4.52E-04 NA NA -0.8 1.10E-04 NA NA -0.6 1.00E-05 NA NA -0.4 6.42E-06 NA NA -0.2 3.15E-06 NA NA 0.0 1.20E-11 NA NA | |**************************************************************************** | Driver Output / Receiver Input Model |**************************************************************************** | [Model] DRVR/REC_BI Model_type I/O | Signals A,B Vinl = 4.3V Vinh = 1.0V Vmeas = 3.1V |Reference voltage for timing measurements Cref = 50pF |Timing specification test load capacitance value Rref = 54 |Note: 54 Ohm load; single ended configuration | Timing specification test load voltage | variable typ min max | C_comp 32pF 26pF 38pF | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 5.0V 4.5V 5.5V | |**************************************************************************** | [Pulldown] | Voltage I(typ) I(min) I(max) -5.0 -3.81E-05 NA NA -4.8 -3.70E-05 NA NA -4.6 -3.60E-05 NA NA -4.4 -3.50E-05 NA NA -4.2 -3.40E-05 NA NA -4.0 -3.30E-05 NA NA -3.8 -3.20E-05 NA NA -3.6 -3.10E-05 NA NA -3.4 -3.00E-05 NA NA -3.2 -2.89E-05 NA NA -3.0 -2.79E-05 NA NA -2.8 -2.69E-05 NA NA -2.6 -2.59E-05 NA NA -2.4 -2.49E-05 NA NA -2.2 -2.39E-05 NA NA -2.0 -2.29E-05 NA NA -1.8 -2.19E-05 NA NA -1.6 -2.08E-05 NA NA -1.4 -1.98E-05 NA NA -1.2 -1.88E-05 NA NA -1.0 -1.78E-05 NA NA -0.8 -1.68E-05 NA NA -0.6 -1.58E-05 NA NA -0.4 -1.48E-05 NA NA -0.2 -1.37E-05 NA NA 0.0 -1.27E-05 NA NA 0.2 -1.16E-05 NA NA 0.4 1.07E-04 NA NA 0.6 9.71E-03 NA NA 0.8 3.01E-02 NA NA 1.0 5.14E-02 NA NA 1.2 7.19E-02 NA NA 1.4 9.08E-02 NA NA 1.6 1.07E-01 NA NA 1.8 1.18E-01 NA NA 2.0 1.24E-01 NA NA 2.2 1.28E-01 NA NA 2.4 1.32E-01 NA NA 2.6 1.35E-01 NA NA 2.8 1.38E-01 NA NA 3.0 1.41E-01 NA NA 3.2 1.43E-01 NA NA 3.4 1.45E-01 NA NA 3.6 1.48E-01 NA NA 3.8 1.49E-01 NA NA 4.0 1.51E-01 NA NA 4.2 1.53E-01 NA NA 4.4 1.54E-01 NA NA 4.6 1.55E-01 NA NA 4.8 1.55E-01 NA NA 5.0 1.56E-01 NA NA 5.2 1.56E-01 NA NA 5.4 1.57E-01 NA NA 5.6 1.57E-01 NA NA 5.8 1.57E-01 NA NA 6.0 1.57E-01 NA NA 6.2 1.57E-01 NA NA 6.4 1.57E-01 NA NA 6.6 1.58E-01 NA NA 6.8 1.58E-01 NA NA 7.0 1.58E-01 NA NA 7.2 1.58E-01 NA NA 7.4 1.58E-01 NA NA 7.6 1.58E-01 NA NA 7.8 1.58E-01 NA NA 8.0 1.58E-01 NA NA 8.2 1.59E-01 NA NA 8.4 1.59E-01 NA NA 8.6 1.59E-01 NA NA 8.8 1.59E-01 NA NA 9.0 1.59E-01 NA NA 9.2 1.59E-01 NA NA 9.4 1.59E-01 NA NA 9.6 1.59E-01 NA NA 9.8 1.59E-01 NA NA 10.0 1.59E-01 NA NA [Pullup] | Voltage I(typ) I(min) I(max) |------------------------------------------------------------- | Note that the[Pullup]voltage table is referenced to Vcc | and is calculated using Vtable=Vcc - Vmeasured. |------------------------------------------------------------- -1.0 1.42E-01 NA NA -0.8 1.12E-01 NA NA -0.6 8.27E-02 NA NA -0.4 5.39E-02 NA NA -0.2 2.64E-02 NA NA 0.0 1.26E-05 NA NA 0.2 -2.47E-02 NA NA 0.4 -4.74E-02 NA NA 0.6 -6.79E-02 NA NA 0.8 -8.63E-02 NA NA 1.0 -1.03E-01 NA NA 1.2 -1.16E-01 NA NA 1.4 -1.27E-01 NA NA 1.6 -1.36E-01 NA NA 1.8 -1.41E-01 NA NA 2.0 -1.45E-01 NA NA 2.2 -1.47E-01 NA NA 2.4 -1.50E-01 NA NA 2.6 -1.51E-01 NA NA 2.8 -1.53E-01 NA NA 3.0 -1.54E-01 NA NA 3.2 -1.55E-01 NA NA 3.4 -1.56E-01 NA NA 3.6 -1.56E-01 NA NA 3.8 -1.56E-01 NA NA 4.0 -1.57E-01 NA NA 4.2 -1.57E-01 NA NA 4.4 -1.57E-01 NA NA 4.6 -1.57E-01 NA NA 4.8 -1.57E-01 NA NA 5.0 -1.58E-01 NA NA 5.2 -1.58E-01 NA NA 5.4 -1.58E-01 NA NA 5.6 -1.58E-01 NA NA 5.8 -1.58E-01 NA NA 6.0 -1.58E-01 NA NA 6.2 -1.58E-01 NA NA 6.4 -1.58E-01 NA NA 6.6 -1.58E-01 NA NA 6.8 -1.58E-01 NA NA 7.0 -1.59E-01 NA NA 7.2 -1.59E-01 NA NA 7.4 -1.59E-01 NA NA 7.6 -1.59E-01 NA NA 7.8 -1.59E-01 NA NA 8.0 -1.59E-01 NA NA 8.2 -1.59E-01 NA NA 8.4 -1.59E-01 NA NA 8.6 -1.59E-01 NA NA 8.8 -1.59E-01 NA NA 9.0 -1.59E-01 NA NA 9.2 -1.59E-01 NA NA 9.4 -1.59E-01 NA NA 9.6 -1.59E-01 NA NA 9.8 -1.59E-01 NA NA 10.0 -1.59E-01 NA NA | [GND_clamp] | Voltage I(typ) I(min) I(max) |------------------------------------------------------------- | Outputs in High Impedance (off) |------------------------------------------------------------- | -5.0 -3.81E-05 NA NA -4.0 -3.30E-05 NA NA -3.0 -2.79E-05 NA NA -2.0 -2.29E-05 NA NA -1.0 -1.78E-05 NA NA 0.0 -1.27E-05 NA NA 2.4 -5.69E-07 NA NA 5.0 1.26E-05 NA NA | [POWER_clamp] | Voltage I(typ) I(min) I(max) |------------------------------------------------------------- | Note that the [POWER_clamp] voltage table is referenced to Vcc | and is calculated using Vtable = Vcc - Vmeasured. | Outputs in Tri-state. |------------------------------------------------------------- -5.0 4.90E-05 NA NA -4.0 4.21E-05 NA NA -3.0 3.53E-05 NA NA -2.0 2.85E-05 NA NA -1.0 2.15E-05 NA NA 0.0 1.26E-05 NA NA |**************************************************************************** | [Ramp] | | | typ min max dV/dt_r 2.00/174ns NA NA dV/dt_f 2.00/192ns NA NA R_load = 54ohm | Note: The measurement is on a differential configuration | with 54ohm line-to-line and a 10pF cap from each | line-to-ground. [Rising Waveform] R_fixture = 54.000 V_fixture = 3.100 C_fixture = 0.000 L_fixture = 0.000 | | time V(typ) V(min) V(max) | 0.000S 900.182mV NA NA 36.000nS 911.773mV NA NA 42.000nS 911.773mV NA NA 48.000nS 923.365mV NA NA 54.000nS 923.365mV NA NA 60.000nS 946.547mV NA NA 66.000nS 958.138mV NA NA 72.000nS 981.321mV NA NA 78.000nS 1.005V NA NA 84.000nS 1.039V NA NA 90.000nS 1.062V NA NA 96.000nS 1.097V NA NA 102.000nS 1.144V NA NA 108.000nS 1.178V NA NA 114.000nS 1.225V NA NA 120.000nS 1.271V NA NA 126.000nS 1.317V NA NA 132.000nS 1.375V NA NA 138.000nS 1.433V NA NA 144.000nS 1.491V NA NA 150.000nS 1.572V NA NA 156.000nS 1.654V NA NA 162.000nS 1.746V NA NA 168.000nS 1.839V NA NA 174.000nS 1.943V NA NA 180.000nS 2.036V NA NA 186.000nS 2.140V NA NA 192.000nS 2.245V NA NA 198.000nS 2.349V NA NA 204.000nS 2.453V NA NA 210.000nS 2.569V NA NA 216.000nS 2.674V NA NA 222.000nS 2.766V NA NA 228.000nS 2.871V NA NA 234.000nS 2.963V NA NA 240.000nS 3.056V NA NA 246.000nS 3.149V NA NA 252.000nS 3.218V NA NA 258.000nS 3.288V NA NA 264.000nS 3.358V NA NA 270.000nS 3.415V NA NA 276.000nS 3.473V NA NA 282.000nS 3.520V NA NA 288.000nS 3.578V NA NA 294.000nS 3.636V NA NA 300.000nS 3.694V NA NA 306.000nS 3.752V NA NA 312.000nS 3.810V NA NA 318.000nS 3.868V NA NA 324.000nS 3.925V NA NA 330.000nS 3.972V NA NA 336.000nS 4.018V NA NA 342.000nS 4.065V NA NA 348.000nS 4.111V NA NA 354.000nS 4.146V NA NA 360.000nS 4.180V NA NA 366.000nS 4.227V NA NA 372.000nS 4.262V NA NA 378.000nS 4.296V NA NA 384.000nS 4.343V NA NA 390.000nS 4.378V NA NA 396.000nS 4.424V NA NA 402.000nS 4.459V NA NA 408.000nS 4.505V NA NA 414.000nS 4.540V NA NA 420.000nS 4.575V NA NA 426.000nS 4.598V NA NA 432.000nS 4.633V NA NA 438.000nS 4.656V NA NA 444.000nS 4.679V NA NA 450.000nS 4.702V NA NA 456.000nS 4.714V NA NA 474.000nS 4.725V NA NA 480.000nS 4.737V NA NA 504.000nS 4.748V NA NA 510.000nS 4.748V NA NA [Falling Waveform] R_fixture = 54.000 V_fixture = 3.100 C_fixture = 0.000 L_fixture = 0.000 | | time V(typ) V(min) V(max) | 0.000S 4.748V NA NA 24.000nS 4.737V NA NA 30.000nS 4.737V NA NA 36.000nS 4.737V NA NA 42.000nS 4.725V NA NA 48.000nS 4.714V NA NA 54.000nS 4.702V NA NA 60.000nS 4.691V NA NA 66.000nS 4.668V NA NA 72.000nS 4.645V NA NA 78.000nS 4.610V NA NA 84.000nS 4.576V NA NA 90.000nS 4.541V NA NA 96.000nS 4.507V NA NA 102.000nS 4.472V NA NA 108.000nS 4.426V NA NA 114.000nS 4.391V NA NA 120.000nS 4.345V NA NA 126.000nS 4.299V NA NA 132.000nS 4.253V NA NA 138.000nS 4.207V NA NA 144.000nS 4.161V NA NA 150.000nS 4.126V NA NA 156.000nS 4.080V NA NA 162.000nS 4.034V NA NA 168.000nS 4.000V NA NA 174.000nS 3.953V NA NA 180.000nS 3.919V NA NA 186.000nS 3.873V NA NA 192.000nS 3.827V NA NA 198.000nS 3.781V NA NA 204.000nS 3.735V NA NA 210.000nS 3.688V NA NA 216.000nS 3.642V NA NA 222.000nS 3.585V NA NA 228.000nS 3.539V NA NA 234.000nS 3.493V NA NA 240.000nS 3.447V NA NA 246.000nS 3.400V NA NA 252.000nS 3.354V NA NA 258.000nS 3.297V NA NA 264.000nS 3.239V NA NA 270.000nS 3.182V NA NA 276.000nS 3.112V NA NA 282.000nS 3.032V NA NA 288.000nS 2.951V NA NA 294.000nS 2.870V NA NA 300.000nS 2.778V NA NA 306.000nS 2.686V NA NA 312.000nS 2.582V NA NA 318.000nS 2.467V NA NA 324.000nS 2.363V NA NA 330.000nS 2.260V NA NA 336.000nS 2.156V NA NA 342.000nS 2.052V NA NA 348.000nS 1.949V NA NA 354.000nS 1.845V NA NA 360.000nS 1.741V NA NA 366.000nS 1.649V NA NA 372.000nS 1.568V NA NA 378.000nS 1.488V NA NA 384.000nS 1.419V NA NA 390.000nS 1.373V NA NA 396.000nS 1.315V NA NA 402.000nS 1.280V NA NA 408.000nS 1.234V NA NA 414.000nS 1.200V NA NA 420.000nS 1.165V NA NA 426.000nS 1.142V NA NA 432.000nS 1.108V NA NA 438.000nS 1.085V NA NA 444.000nS 1.061V NA NA 450.000nS 1.038V NA NA 456.000nS 1.015V NA NA 462.000nS 1.004V NA NA 468.000nS 992.357mV NA NA 474.000nS 980.835mV NA NA 480.000nS 969.313mV NA NA 486.000nS 957.791mV NA NA 498.000nS 946.269mV NA NA 510.000nS 934.748mV NA NA 522.000nS 923.226mV NA NA 546.000nS 911.704mV NA NA 570.000nS 911.704mV NA NA 594.000nS 900.182mV NA NA [Model] RECEIVER_OUT Model_type 3-state | Signals R Vmeas = 1.5V |Reference voltage for timing measurements Cref = 15pF |Timing specification test load capacitance value Vref = 0 |Timing specification test load voltage; GND | variable typ min max | C_comp 1.0pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 5.0V 4.5V 5.5V | |**************************************************************************** | [Pulldown] | Voltage I(typ) I(min) I(max) -5.0 -4.95E+00 NA NA -4.0 -3.79E+00 NA NA -3.0 -2.62E+00 NA NA -2.0 -1.44E+00 NA NA -1.0 -2.49E-01 NA NA -0.8 -7.09E-02 NA NA -0.6 -3.59E-02 NA NA -0.4 -2.40E-02 NA NA -0.2 -1.21E-02 NA NA 0.0 -4.01E-11 NA NA 0.2 1.18E-02 NA NA 0.4 2.30E-02 NA NA 0.6 3.37E-02 NA NA 0.8 4.37E-02 NA NA 1.0 5.32E-02 NA NA 1.2 6.20E-02 NA NA 1.4 7.02E-02 NA NA 1.6 7.78E-02 NA NA 1.8 8.47E-02 NA NA 2.0 9.09E-02 NA NA 2.2 9.64E-02 NA NA 2.4 1.01E-01 NA NA 2.6 1.05E-01 NA NA 2.8 1.09E-01 NA NA 3.0 1.11E-01 NA NA 3.2 1.12E-01 NA NA 3.8 1.15E-01 NA NA 4.0 1.15E-01 NA NA 4.2 1.16E-01 NA NA 4.8 1.16E-01 NA NA 5.0 1.17E-01 NA NA 5.2 1.17E-01 NA NA 5.8 1.18E-01 NA NA 6.0 1.18E-01 NA NA 7.0 2.04E-01 NA NA 8.0 3.81E-01 NA NA 9.0 5.61E-01 NA NA 10.0 7.41E-01 NA NA | [Pullup] | Voltage I(typ) I(min) I(max) |------------------------------------------------------------- | Note that the[Pullup]voltage table is referenced to Vcc | and is calculated using Vtable=Vcc - Vmeasured. |------------------------------------------------------------- -5.0 7.41E-01 NA NA -4.0 5.60E-01 NA NA -3.0 3.80E-01 NA NA -2.0 2.02E-01 NA NA -1.0 5.17E-02 NA NA 0.0 4.97E-11 NA NA 0.2 -9.96E-03 NA NA 0.4 -1.96E-02 NA NA 0.6 -2.89E-02 NA NA 0.8 -3.79E-02 NA NA 1.0 -4.66E-02 NA NA 1.2 -5.48E-02 NA NA 1.4 -6.28E-02 NA NA 1.6 -7.03E-02 NA NA 1.8 -7.74E-02 NA NA 2.0 -8.41E-02 NA NA 2.2 -9.04E-02 NA NA 2.8 -1.06E-01 NA NA 3.0 -1.11E-01 NA NA 3.2 -1.15E-01 NA NA 3.8 -1.23E-01 NA NA 4.0 -1.25E-01 NA NA 4.2 -1.26E-01 NA NA 4.8 -1.30E-01 NA NA 5.0 -1.31E-01 NA NA 6.0 -3.24E-01 NA NA 7.0 -1.44E+00 NA NA 8.0 -2.62E+00 NA NA 9.0 -3.79E+00 NA NA 10.0 -4.95E+00 NA NA | [GND_clamp] | Voltage I(typ) I(min) I(max) |------------------------------------------------------------- | Outputs in High Impedance (off) |------------------------------------------------------------- | -5.0 -4.95E+00 NA NA -4.0 -3.79E+00 NA NA -3.0 -2.62E+00 NA NA -2.0 -1.43E+00 NA NA -1.0 -2.30E-01 NA NA -0.8 -3.38E-02 NA NA -0.6 -1.37E-04 NA NA -0.4 -3.84E-07 NA NA -0.2 -4.85E-10 NA NA 0.0 -6.00E-11 NA NA 2.0 -9.43E-12 NA NA 5.0 6.64E-11 NA NA | [POWER_clamp] | Voltage I(typ) I(min) I(max) |------------------------------------------------------------- | Note that the [POWER_clamp] voltage table is referenced to Vcc | and is calculated using Vtable = Vcc - Vmeasured. | Outputs in Tri-state. |------------------------------------------------------------- -5.0 7.41E-01 NA NA -4.0 5.60E-01 NA NA -3.0 3.80E-01 NA NA -2.0 2.00E-01 NA NA -1.0 2.76E-02 NA NA -0.8 2.47E-03 NA NA -0.6 1.82E-06 NA NA -0.4 8.94E-10 NA NA -0.2 7.19E-11 NA NA 0.0 6.64E-11 NA NA | |**************************************************************************** | [Ramp] | typ min max dV/dt_r 4.10V/2.16ns NA NA dV/dt_f 3.86V/3.15ns NA NA R_load = 50 | [Rising Waveform] R_fixture = 50.000 V_fixture = 0.000 C_fixture = 0.000 L_fixture = 0.000 | | time V(typ) V(min) V(max) | 0.000S 2.127nV NA NA 4.200nS 101.176mV NA NA 4.400nS 404.706mV NA NA 4.600nS 1.113V NA NA 4.800nS 1.922V NA NA 5.000nS 2.631V NA NA 5.200nS 3.035V NA NA 5.400nS 3.238V NA NA 5.600nS 3.339V NA NA 5.800nS 3.440V NA NA 6.000nS 3.440V NA NA [Falling Waveform] R_fixture = 50.000 V_fixture = 0.000 C_fixture = 0.000 L_fixture = 0.000 | | time V(typ) V(min) V(max) | 0.000S 3.440V NA NA 4.200nS 3.339V NA NA 4.400nS 2.833V NA NA 4.600nS 1.821V NA NA 4.800nS 809.412mV NA NA 5.000nS 404.706mV NA NA 5.200nS 101.176mV NA NA 5.400nS 101.176mV NA NA 5.600nS 2.127nV NA NA [Rising Waveform] R_fixture = 50.000 V_fixture = 5.000 C_fixture = 0.000 L_fixture = 0.000 | | time V(typ) V(min) V(max) | 0.000S 1.400V NA NA 3.600nS 1.500V NA NA 3.800nS 1.500V NA NA 4.000nS 1.700V NA NA 4.200nS 2.200V NA NA 4.400nS 3.300V NA NA 4.600nS 4.200V NA NA 4.800nS 4.700V NA NA 5.000nS 4.900V NA NA 5.200nS 5.000V NA NA 5.400nS 5.000V NA NA [Falling Waveform] R_fixture = 50.000 V_fixture = 5.000 C_fixture = 0.000 L_fixture = 0.000 | | time V(typ) V(min) V(max) | 0.000S 5.000V NA NA 4.400nS 4.900V NA NA 4.600nS 4.500V NA NA 4.800nS 3.800V NA NA 5.000nS 2.900V NA NA 5.200nS 2.300V NA NA 5.400nS 1.900V NA NA 5.600nS 1.700V NA NA 5.800nS 1.600V NA NA 6.000nS 1.500V NA NA 6.200nS 1.500V NA NA 6.400nS 1.500V NA NA 6.600nS 1.400V NA NA [End] ÿ