|*************************************************************************** | Texas Instruments Incorporated | Data Transmissions Products | IBIS Model for SN65LVDT122 | 16D SOIC Package |*************************************************************************** | [IBIS Ver] 3.2 [Comment char] |_char [File name] lvdt122.ibs [File Rev] 2.0 [Date] 15May02 [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 the 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] LVDT122D [Manufacturer] Texas Instruments Incorporated [Package] | typ min max R_pkg 0.035 0.030 0.040 L_pkg 2.181nH 1.231nH 3.257nH C_pkg 0.322pF 0.163pF 0.546pF | |**************************************************************************** | [Pin] signal_name model_name R_pin L_pin C_pin | 1 1B RCVR_IN 0.040 3.251n 0.546p 2 1A RCVR_IN 0.039 2.561n 0.393p 3 S0 CONTROL_IN 0.030 1.681n 0.186p 4 1DE DRIVER_EN 0.030 1.231n 0.163p 5 S1 CONTROL_IN 0.030 1.231n 0.163p 6 2A RCVR_IN 0.030 1.681n 0.186p 7 2B RCVR_IN 0.039 2.564n 0.393p 8 GND GND 0.040 3.257n 0.545p 9 GND GND 0.040 3.247n 0.546p 10 2Y DRVR_OUT 0.039 2.558n 0.394p 11 2Z DRVR_OUT 0.030 1.681n 0.187p 12 2DE DRIVER_EN 0.030 1.231n 0.163p 13 1Z DRVR_OUT 0.030 1.231n 0.163p 14 1Y DRVR_OUT 0.030 1.681n 0.187p 15 VCC POWER 0.039 2.558n 0.394p 16 VCC POWER 0.040 3.246n 0.546p | [Diff_pin] inv_pin vdiff tdelay_typ tdelay_min tdelay_max | | The 'xY' pin is Diff_pin and the 'xZ' pin is the inv_pin | 2 1 0.100 0 0 0 6 7 0.100 0 0 0 14 13 NA 0 0 0 10 11 NA 0 0 0 | |**************************************************************************** | Control Input Model |**************************************************************************** | [Model] CONTROL_IN Model_type Input |Signals S0,S1 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] 3.3V 3.0V 3.6V | |**************************************************************************** | [GND_clamp] | Voltage I(typ) I(min) I(max) | | -3.3 -1.25E-02 NA NA -3.0 -1.09E-02 NA NA -2.5 -8.24E-03 NA NA -2.0 -5.73E-03 NA NA -1.5 -3.36E-03 NA NA -1.0 -1.25E-03 NA NA -0.9 -8.94E-04 NA NA -0.8 -5.64E-04 NA NA -0.7 -2.75E-04 NA NA -0.6 -8.64E-05 NA NA -0.5 -1.61E-05 NA NA -0.4 -2.40E-06 NA NA -0.3 -1.09E-06 NA NA -0.2 -6.88E-07 NA NA -0.1 -3.37E-07 NA NA 0.0 -5.64E-12 NA NA 3.3 3.62E-06 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) | 0.0 3.62E-06 NA NA -3.3 3.63E-06 NA NA |**************************************************************************** | Driver Enable Model |**************************************************************************** | [Model] DRIVER_EN Model_type Input |Signals 1DE,2DE 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] 3.3V 3.0V 3.6V | |**************************************************************************** | [GND_clamp] | Voltage I(typ) I(min) I(max) | | -3.3 -1.25E-02 NA NA -3.0 -1.09E-02 NA NA -2.5 -8.24E-03 NA NA -2.0 -5.73E-03 NA NA -1.5 -3.35E-03 NA NA -1.0 -1.25E-03 NA NA -0.9 -8.94E-04 NA NA -0.8 -5.63E-04 NA NA -0.7 -2.75E-04 NA NA -0.6 -8.54E-05 NA NA -0.5 -1.51E-05 NA NA -0.4 -1.56E-06 NA NA -0.3 -6.10E-07 NA NA -0.2 -5.75E-07 NA NA -0.1 -5.74E-07 NA NA 0.0 -5.73E-07 NA NA 3.3 4.42E-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) | 0.0 4.42E-11 NA NA -0.5 2.76E-07 NA NA -0.6 3.39E-07 NA NA -0.7 5.89E-07 NA NA -0.8 8.69E-06 NA NA -0.9 9.85E-05 NA NA -1.0 2.81E-04 NA NA -1.1 4.94E-04 NA NA -1.2 7.20E-04 NA NA -1.3 9.52E-04 NA NA -2.3 3.37E-03 NA NA -3.3 5.83E-03 NA NA |**************************************************************************** | Receiver Input Model |**************************************************************************** | [Model] RCVR_IN Model_type Input |Signals 1A,1B,2A,2B Vinh = 1.4 Vinl = 1.0 | typ min max C_comp 1.0pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 3.3V 3.0V 3.6V | |**************************************************************************** | [GND_clamp] | Voltage I(typ) I(min) I(max) | | -1.6 -4.26E+09 NA NA -1.5 -8.93E+07 NA NA -1.2 -8.19E+02 NA NA -0.9 -8.11E-03 NA NA -0.6 -1.38E-07 NA NA -0.3 -5.15E-11 NA NA -0.2 -3.10E-11 NA NA -0.1 -1.80E-11 NA NA 0.0 -9.66E-12 NA NA 3.3 1.12E-10 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) | 0.0 1.27E-10 NA NA -3.3 2.61E-10 NA NA | |**************************************************************************** | Driver Output Model |**************************************************************************** | [Model] DRVR_OUT Model_type Output_ECL | Signals 1Y,1Z,2Y,2Z Vmeas = 1.2V |Reference voltage for timing measurements Cref = 5pF |Timing specification test load capacitance value Rref = 50 |Note: 50 Ohm load; single ended configuration | variable typ min max | C_comp 1.0pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 3.3V 3.0V 3.6V | |**************************************************************************** | [Pulldown] | Voltage I(typ) I(min) I(max) 3.50 -6.140E-02 NA NA 3.40 -5.618E-02 NA NA 3.30 -5.098E-02 NA NA 3.20 -4.582E-02 NA NA 3.10 -4.018E-02 NA NA 3.00 -3.577E-02 NA NA 2.90 -3.161E-02 NA NA 2.80 -2.783E-02 NA NA 2.70 -2.444E-02 NA NA 2.60 -2.155E-02 NA NA 2.50 -1.601E-02 NA NA 2.40 -7.616E-03 NA NA 2.30 3.780E-04 NA NA 2.25 4.195E-03 NA NA 2.20 8.001E-03 NA NA 2.15 1.179E-02 NA NA 2.10 1.521E-02 NA NA 2.05 1.657E-02 NA NA 2.00 1.678E-02 NA NA 1.95 1.680E-02 NA NA 1.90 1.682E-02 NA NA 1.80 1.685E-02 NA NA 1.70 1.687E-02 NA NA 1.60 1.689E-02 NA NA 1.50 1.691E-02 NA NA 1.40 1.692E-02 NA NA 1.30 1.693E-02 NA NA 1.20 1.694E-02 NA NA 1.10 1.695E-02 NA NA 1.00 1.695E-02 NA NA 0.90 1.696E-02 NA NA 0.80 1.697E-02 NA NA 0.70 1.698E-02 NA NA 0.60 1.698E-02 NA NA 0.50 1.699E-02 NA NA 0.40 1.700E-02 NA NA 0.30 1.700E-02 NA NA 0.20 1.701E-02 NA NA 0.10 1.702E-02 NA NA 0.00 1.702E-02 NA NA -0.10 1.703E-02 NA NA -0.20 1.703E-02 NA NA -0.30 1.704E-02 NA NA -0.40 1.705E-02 NA NA -0.50 1.705E-02 NA NA -0.60 1.707E-02 NA NA -0.70 1.742E-02 NA NA -0.80 2.301E-02 NA NA -0.90 4.807E-02 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. |------------------------------------------------------------- 3.50 -6.098E-02 NA NA 3.40 -5.736E-02 NA NA 3.30 -5.380E-02 NA NA 3.20 -5.041E-02 NA NA 3.10 -4.722E-02 NA NA 3.00 -4.441E-02 NA NA 2.90 -4.216E-02 NA NA 2.80 -4.024E-02 NA NA 2.70 -3.858E-02 NA NA 2.60 -3.622E-02 NA NA 2.50 -3.455E-02 NA NA 2.40 -3.283E-02 NA NA 2.30 -3.102E-02 NA NA 2.25 -2.921E-02 NA NA 2.20 -2.599E-02 NA NA 2.15 -2.220E-02 NA NA 2.10 -1.841E-02 NA NA 2.05 -1.479E-02 NA NA 2.00 -1.101E-02 NA NA 1.95 -7.411E-03 NA NA 1.90 -3.995E-03 NA NA 1.85 -9.998E-04 NA NA 1.80 6.019E-05 NA NA 1.75 1.731E-04 NA NA 1.70 2.778E-04 NA NA 1.60 6.615E-04 NA NA 1.50 1.208E-03 NA NA 1.40 1.618E-03 NA NA 1.30 1.700E-03 NA NA 1.20 1.727E-03 NA NA 1.10 1.755E-03 NA NA 1.00 1.782E-03 NA NA 0.90 1.810E-03 NA NA 0.80 1.837E-03 NA NA 0.70 1.865E-03 NA NA 0.60 1.895E-03 NA NA 0.50 1.922E-03 NA NA 0.40 1.950E-03 NA NA 0.30 1.977E-03 NA NA 0.20 2.005E-03 NA NA 0.10 2.032E-03 NA NA 0.00 2.060E-03 NA NA -0.10 2.087E-03 NA NA -0.20 2.118E-03 NA NA -0.30 2.146E-03 NA NA -0.40 2.173E-03 NA NA -0.50 2.201E-03 NA NA -0.60 2.243E-03 NA NA -0.70 2.620E-03 NA NA -0.80 8.206E-03 NA NA -0.90 3.460E-02 NA NA [GND_clamp] | Voltage I(typ) I(min) I(max) |------------------------------------------------------------- | Outputs in High Impedance (off) |------------------------------------------------------------- | -1.2 -1.22E+03 NA NA -1.1 -2.56E+01 NA NA -1.0 -5.41E-01 NA NA -0.9 -1.49E-02 NA NA -0.8 -2.42E-03 NA NA -0.7 -1.03E-03 NA NA -0.6 -2.86E-04 NA NA -0.5 -3.49E-05 NA NA -0.4 -2.66E-06 NA NA -0.3 -1.43E-07 NA NA -0.2 -9.25E-09 NA NA -0.1 -4.98E-09 NA NA 0.0 -4.78E-09 NA NA 3.3 2.08E-10 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. |------------------------------------------------------------- 0.0 2.08E-10 NA NA -3.3 6.05E-10 NA NA [Ramp] | | | typ min max dV/dt_r 0.232/138ps NA NA dV/dt_f 0.232/133ps NA NA R_load = 50ohm |Note: The measurement is on a single-ended configuration | with 100ohm line-to-line. [Rising Waveform] R_fixture = 50.0 V_fixture = 1.2 C_fixture = 0p L_fixture = 0n | V(typ) V(min) V(max) 0.000E+00 1.026 NA NA 2.500E-11 1.026 NA NA 5.000E-11 1.026 NA NA 7.500E-11 1.026 NA NA 1.000E-10 1.026 NA NA 1.250E-10 1.027 NA NA 1.500E-10 1.027 NA NA 1.750E-10 1.029 NA NA 2.000E-10 1.035 NA NA 2.250E-10 1.049 NA NA 2.500E-10 1.072 NA NA 2.750E-10 1.102 NA NA 3.000E-10 1.143 NA NA 3.250E-10 1.189 NA NA 3.500E-10 1.235 NA NA 3.750E-10 1.279 NA NA 4.000E-10 1.319 NA NA 4.250E-10 1.349 NA NA 4.500E-10 1.374 NA NA 4.750E-10 1.392 NA NA 5.000E-10 1.406 NA NA 5.250E-10 1.417 NA NA 5.500E-10 1.424 NA NA 5.750E-10 1.429 NA NA 6.000E-10 1.432 NA NA 6.250E-10 1.434 NA NA 6.500E-10 1.434 NA NA 6.750E-10 1.433 NA NA 7.000E-10 1.432 NA NA 7.250E-10 1.430 NA NA 7.500E-10 1.429 NA NA 7.750E-10 1.427 NA NA 8.000E-10 1.425 NA NA 8.250E-10 1.423 NA NA 8.500E-10 1.421 NA NA 8.750E-10 1.419 NA NA 9.000E-10 1.418 NA NA 9.250E-10 1.417 NA NA 9.500E-10 1.415 NA NA 9.750E-10 1.415 NA NA 1.000E-09 1.414 NA NA 1.025E-09 1.413 NA NA 1.050E-09 1.413 NA NA [Falling Waveform] R_fixture = 50.0 V_fixture = 1.2 C_fixture = 0p L_fixture = 0n | V(typ) V(min) V(max) 0.000E+00 1.412 NA NA 2.500E-11 1.413 NA NA 5.000E-11 1.413 NA NA 7.500E-11 1.413 NA NA 1.000E-10 1.413 NA NA 1.250E-10 1.412 NA NA 1.500E-10 1.411 NA NA 1.750E-10 1.408 NA NA 2.000E-10 1.402 NA NA 2.250E-10 1.387 NA NA 2.500E-10 1.361 NA NA 2.750E-10 1.324 NA NA 3.000E-10 1.279 NA NA 3.250E-10 1.230 NA NA 3.500E-10 1.185 NA NA 3.750E-10 1.142 NA NA 4.000E-10 1.104 NA NA 4.250E-10 1.073 NA NA 4.500E-10 1.047 NA NA 4.750E-10 1.027 NA NA 5.000E-10 1.014 NA NA 5.250E-10 1.004 NA NA 5.500E-10 0.999 NA NA 5.750E-10 0.996 NA NA 6.000E-10 0.995 NA NA 6.250E-10 0.996 NA NA 6.500E-10 0.999 NA NA 6.750E-10 1.003 NA NA 7.000E-10 1.007 NA NA 7.250E-10 1.011 NA NA 7.500E-10 1.015 NA NA 7.750E-10 1.018 NA NA 8.000E-10 1.021 NA NA 8.250E-10 1.023 NA NA 8.500E-10 1.025 NA NA 8.750E-10 1.025 NA NA 9.000E-10 1.025 NA NA 9.250E-10 1.025 NA NA 9.500E-10 1.025 NA NA 9.750E-10 1.025 NA NA 1.000E-09 1.025 NA NA 1.025E-09 1.024 NA NA 1.050E-09 1.024 NA NA | [End] ÿ