|*************************************************************************** | Texas Instruments Incorporated | Data Transmissions Products | IBIS Model for SN65HVD05 | 8D SOIC Package |*************************************************************************** | [IBIS Ver] 3.2 [Comment char] |_char [File name] hvd05.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] HVD05D [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 = 2.6V |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 -1.52E-04 NA NA -4.8 -1.48E-04 NA NA -4.6 -1.44E-04 NA NA -4.4 -1.40E-04 NA NA -4.2 -1.36E-04 NA NA -4.0 -1.32E-04 NA NA -3.8 -1.28E-04 NA NA -3.6 -1.24E-04 NA NA -3.4 -1.20E-04 NA NA -3.2 -1.16E-04 NA NA -3.0 -1.12E-04 NA NA -2.8 -1.08E-04 NA NA -2.6 -1.04E-04 NA NA -2.4 -9.94E-05 NA NA -2.2 -9.54E-05 NA NA -2.0 -9.13E-05 NA NA -1.8 -8.73E-05 NA NA -1.6 -8.32E-05 NA NA -1.4 -7.92E-05 NA NA -1.2 -7.51E-05 NA NA -1.0 -7.11E-05 NA NA -0.8 -6.70E-05 NA NA -0.6 -6.30E-05 NA NA -0.4 -5.89E-05 NA NA -0.2 -5.49E-05 NA NA 0.0 -5.08E-05 NA NA 0.2 -4.67E-05 NA NA 0.4 7.54E-05 NA NA 0.6 9.68E-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 1.50E-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 1.58E-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 1.59E-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 [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 1.44E-01 NA NA -0.8 1.13E-01 NA NA -0.6 8.28E-02 NA NA -0.4 5.40E-02 NA NA -0.2 2.64E-02 NA NA 0.0 5.04E-05 NA NA 0.2 -2.47E-02 NA NA 0.4 -4.73E-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 -1.59E-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 -1.60E-01 NA NA 10.0 -1.60E-01 NA NA | [GND_clamp] | Voltage I(typ) I(min) I(max) |------------------------------------------------------------- | Outputs in High Impedance (off) |------------------------------------------------------------- | -5.0 -9.09E-05 NA NA -4.0 -7.09E-05 NA NA -3.0 -5.08E-05 NA NA -2.0 -3.10E-05 NA NA -1.0 -1.19E-05 NA NA 0.0 -6.12E-10 NA NA 2.4 3.57E-05 NA NA 5.0 8.76E-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 2.13E-04 NA NA -4.0 1.88E-04 NA NA -3.0 1.63E-04 NA NA -2.0 1.38E-04 NA NA -1.0 1.13E-04 NA NA 0.0 8.76E-05 NA NA |**************************************************************************** | [Ramp] | | | typ min max dV/dt_r 2.00/1.3ns NA NA dV/dt_f 2.01/2.5ns NA NA R_load = 54ohm | Note: The measurement is on a single-ended configuration | with 54ohm line-to-line. [Rising Waveform] R_fixture = 54.000 V_fixture = 2.600 C_fixture = 0.000 L_fixture = 0.000 | | time V(typ) V(min) V(max) | 0.000S 825.912mV NA NA 2.800nS 814.382mV NA NA 3.000nS 779.793mV NA NA 3.200nS 722.145mV NA NA 3.400nS 676.027mV NA NA 3.600nS 606.849mV NA NA 3.800nS 583.789mV NA NA 4.000nS 606.849mV NA NA 4.200nS 652.967mV NA NA 4.400nS 745.204mV NA NA 4.600nS 883.560mV NA NA 4.800nS 1.045V NA NA 5.000nS 1.241V NA NA 5.200nS 1.472V NA NA 5.400nS 1.852V NA NA 5.600nS 2.417V NA NA 5.800nS 2.901V NA NA 6.000nS 3.270V NA NA 6.200nS 3.547V NA NA 6.400nS 3.766V NA NA 6.600nS 3.950V NA NA 6.800nS 4.089V NA NA 7.000nS 4.204V NA NA 7.200nS 4.285V NA NA 7.400nS 4.354V NA NA 7.600nS 4.412V NA NA 7.800nS 4.446V NA NA 8.000nS 4.481V NA NA 8.200nS 4.515V NA NA 8.400nS 4.538V NA NA 8.600nS 4.550V NA NA 8.800nS 4.573V NA NA 9.000nS 4.585V NA NA 9.200nS 4.596V NA NA 9.400nS 4.608V NA NA 9.600nS 4.608V NA NA 9.800nS 4.619V NA NA 10.200nS 4.631V NA NA 10.400nS 4.642V NA NA 11.000nS 4.654V NA NA 11.800nS 4.665V NA NA 13.400nS 4.677V NA NA [Falling Waveform] R_fixture = 30.000 V_fixture = 2.600 C_fixture = 0.000 L_fixture = 0.000 | | time V(typ) V(min) V(max) | 0.000S 4.457V NA NA 3.000nS 4.477V NA NA 3.200nS 4.529V NA NA 3.400nS 4.601V NA NA 3.600nS 4.632V NA NA 3.800nS 4.642V NA NA 4.000nS 4.621V NA NA 4.200nS 4.560V NA NA 4.400nS 4.477V NA NA 4.600nS 4.354V NA NA 4.800nS 4.190V NA NA 5.000nS 3.974V NA NA 5.200nS 3.655V NA NA 5.400nS 3.244V NA NA 5.600nS 2.843V NA NA 5.800nS 2.525V NA NA 6.000nS 2.268V NA NA 6.200nS 2.062V NA NA 6.400nS 1.898V NA NA 6.600nS 1.764V NA NA 6.800nS 1.651V NA NA 7.000nS 1.559V NA NA 7.200nS 1.477V NA NA 7.400nS 1.415V NA NA 7.600nS 1.364V NA NA 7.800nS 1.312V NA NA 8.000nS 1.281V NA NA 8.200nS 1.251V NA NA 8.400nS 1.220V NA NA 8.600nS 1.199V NA NA 8.800nS 1.179V NA NA 9.000nS 1.158V NA NA 9.200nS 1.148V NA NA 9.400nS 1.127V NA NA 9.600nS 1.117V NA NA 9.800nS 1.107V NA NA 10.000nS 1.096V NA NA 10.200nS 1.096V NA NA 10.400nS 1.086V NA NA 10.600nS 1.076V NA NA 10.800nS 1.076V NA NA 11.000nS 1.066V NA NA 11.200nS 1.066V NA NA 11.400nS 1.055V NA NA 11.800nS 1.055V NA NA 12.000nS 1.045V NA NA 12.600nS 1.045V NA NA 12.800nS 1.035V NA NA 13.800nS 1.035V NA NA 17.200nS 1.014V 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