|*************************************************************************** | National Semiconductor Corporation | Interface Products Group | IBIS Model of High Speed Link Transmitter | 48L TSSOP |*************************************************************************** | [IBIS Ver] 2.1 [Comment char] |_char [File name] 90cr215.ibs [File Rev] 2.1 [Date] 4/29/97 [Source] File originated at National Semiconductor Corporation. Interface Group/Analog Division. All data based on Empirical Measurements(Bench). [Notes] File created by SBH. | Rev. 2.1 Notes: - Changed Vmeas and Vref of OUT model to 1.2 V - Fixed package syntax error - Modified by TSC on 10/31/02 | [Disclaimer] (C) Copyright National Semiconductor Corporation 1994 All rights reserved National Semiconductor Corporation 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 National within 30 days. The user is granted this license only to use the IBIS model and is not granted rights to sell, load, rent, lease or license the IBIS model in whole or in part, or in modified form to anyone other than user. User may modify the IBIS model to suit its specific applications but rights to derivative works and such modifications shall belong to National. This IBIS model is provided on an "AS IS" basis and National makes absolutely no warranty with respect to the information contained herein.NATIONAL DISCLAIMS AND CUSTOMER WAIVES ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. The entire risk as to quality and performance is with the Customer. ACCORDINGLY, IN NO EVENT SHALL THE COMPANY BE LIABLE FOR ANY DAMAGES, WHETHER IN CONTRACT OR TORT,INCLUDING ANY LOST PROFITS OR OTHER INCIDENTAL, CONSEQUENTIAL, EXEMPLARY, OR PUNITIVE DAMAGES ARISING OUT OF THE USE OR APPLICATION OF THE IBIS model provided in this package.Further, National reserves the right to make changes without notice to any product herein to improve reliability, function, or design. National does not convey any license under patent rights or any other intellectual property rights, including those of third parties. National is not obligated to provide maintenance or support for the licensed IBIS model. Contact National at ATTN:INTERFACE APPLICATIONS/IBIS MODELS. 2900 Semiconductor Drive, M/S A2595, Santa Clara, CA 95052-8090 | | |**************************************************************************** [Copyright] Copyright 1994, National Semiconductor, All Rights Reserved [Component] DS90CR215MTD [Manufacturer] National Semiconductor Corp [Package] | typ min max R_pkg 35.0m NA NA L_pkg 4.31nH NA NA C_pkg 0.70pF NA NA | |**************************************************************************** | [Pin] signal_name model_name R_pin L_pin C_pin | 1 TxIN4 DS90CR215_IN 2 Vcc POWER 3 TxIN5 DS90CR215_IN 4 TxIN6 DS90CR215_IN 5 GND GND 6 TxIN7 DS90CR215_IN 7 TxIN8 DS90CR215_IN 8 Vcc POWER 9 TxIN9 DS90CR215_IN 10 TxIN10 DS90CR215_IN 11 GND GND 12 TxIN11 DS90CR215_IN 13 TxIN12 DS90CR215_IN 14 Vcc POWER 15 TxIN13 DS90CR215_IN 16 TxIN14 DS90CR215_IN 17 GND GND 18 TxIN15 DS90CR215_IN 19 TxIN16 DS90CR215_IN 20 TxIN17 DS90CR215_IN 21 Vcc POWER 22 TxIN18 DS90CR215_IN 23 TxIN19 DS90CR215_IN 24 GND GND 25 TxIN20 DS90CR215_IN 26 TxCLKIN DS90CR215_IN 27 PWRDWN* DS90CR215_PDIN 28 PLLGND GND 29 PLLVCC POWER 30 PLLGND GND 31 LVDSGND GND 32 TxCLKOUT+ DS90CR215_OUT 33 TxCLKOUT- DS90CR215_OUT 34 TxOUT2+ DS90CR215_OUT 35 TxOUT2- DS90CR215_OUT 36 LVDSGND GND 37 LVDSVCC POWER 38 TxOUT1+ DS90CR215_OUT 39 TxOUT1- DS90CR215_OUT 40 TxOUT0+ DS90CR215_OUT 41 TxOUT0- DS90CR215_OUT 42 LVDSGND GND 43 N/C NC 44 TxIN0 DS90CR215_IN 45 TxIN1 DS90CR215_IN 46 GND GND 47 TxIN2 DS90CR215_IN 48 TxIN3 DS90CR215_IN | [Diff_pin] inv_pin vdiff tdelay_typ tdelay_min tdelay_max | | The '+' pin is Diff_pin and the '-' pin is the inv_pin | 32 33 NA 0 0 0 34 35 NA 0 0 0 38 39 NA 0 0 0 40 41 NA 0 0 0 | |**************************************************************************** | Driver Input MODEL |**************************************************************************** | [Model] DS90CR215_IN Model_type Input |Signals TxIN0 ~ TxIN20 Vinh = 2.0 Vinl = 0.8 | typ min max C_comp 5.863pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 3.3V 3.0V 3.6V | |**************************************************************************** | | [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) | 3.000000 0.00mA NA NA -3.00 0.00mA NA NA | [GND_clamp] |Voltage I(typ) I(min) I(max) | 3.3000V 0.0000E-09 NA NA 0.0 -4.3506E-09 NA NA -0.04412 -2.9808E-07 NA NA -0.08824 -6.1798E-07 NA NA -0.13235 -9.8090E-07 NA NA -0.17647 -1.4444E-06 NA NA -0.22059 -2.3576E-06 NA NA -0.26471 -5.5410E-06 NA NA -0.30882 -1.9952E-05 NA NA -0.35294 -8.9462E-05 NA NA -0.39706 -3.8706E-04 NA NA -0.44118 -1.3854E-03 NA NA -0.48529 -3.8478E-03 NA NA -0.52941 -8.5276E-03 NA NA -0.57353 -1.5104E-02 NA NA -0.61765 -1.9610E-02 NA NA -0.66177 -1.7514E-02 NA NA -0.70588 -3.0412E-03 NA NA -0.75 -8.5996E-03 NA NA -0.79412 -1.9648E-02 NA NA -0.83824 -3.6452E-02 NA NA -0.88235 -5.6372E-02 NA NA -0.92647 -7.8664E-02 NA NA -3.300V -900.0mA NA NA | |**************************************************************************** | Driver PWRDWN* Input MODEL |**************************************************************************** | [Model] DS90CR215_PDIN Model_type Input |Signals PWRDWN* Vinh = 2.0 Vinl = 0.8 | typ min max C_comp 5.863pF NA NA | |**************************************************************************** | | typ min max [Temperature Range] 25.0 NA NA [Voltage range] 3.3V 3.0V 3.6V | |**************************************************************************** | | [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) | 3.000000 0.00mA NA NA -3.00 0.00mA NA NA | [GND_clamp] |Voltage I(typ) I(min) I(max) 3.300V 0.00000E-10 NA NA 0.00 5.31600E-10 NA NA -0.04412 -1.28100E-07 NA NA -0.08824 -2.43980E-07 NA NA -0.13235 -3.93240E-07 NA NA -0.17647 -5.83900E-07 NA NA -0.22059 -1.11760E-06 NA NA -0.26471 -3.42820E-06 NA NA -0.30882 -1.52240E-05 NA NA -0.35294 -7.36960E-05 NA NA -0.39706 -3.30740E-04 NA NA -0.44118 -1.20840E-03 NA NA -0.48529 -3.45420E-03 NA NA -0.52941 -7.84140E-03 NA NA -0.57353 -1.42060E-02 NA NA -0.61765 -1.95420E-02 NA NA -0.66177 -1.56160E-02 NA NA -0.70588 -4.99440E-03 NA NA -0.75 -1.29820E-02 NA NA -0.79412 -2.55060E-02 NA NA -0.83824 -4.17760E-02 NA NA -0.88235 -6.08680E-02 NA NA -0.92647 -8.20560E-02 NA NA -3.300V -900.0mA NA NA | |**************************************************************************** | Driver Output MODEL |**************************************************************************** | [Model] DS90CR215_OUT Model_type 3-state | Signals TxOUT0 ~ TxOUT2; TxCLKOUT Vmeas = 1.2V |This is 0.0v differential on ouput Cref = 5pF |Timing specification test load capacitance value Rref = 100 |Note: 100 Ohm between the two driver outputs Vref = 1.2 |Timing specification test load voltage; GND | variable typ min max | C_comp 6.763pF 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) -3.3V -2.4530E-03 NA NA -0.44118 -2.4530E-03 NA NA -0.26471 -5.7736E-04 NA NA -0.08824 -1.9758E-04 NA NA 0.088235 1.8674E-04 NA NA 0.264706 5.5922E-04 NA NA 0.441176 9.3442E-04 NA NA 0.617647 1.3120E-03 NA NA 0.794118 1.8464E-03 NA NA 0.970588 2.6520E-03 NA NA 1.14706 3.5198E-03 NA NA 1.32353 4.3756E-03 NA NA 1.5 5.2262E-03 NA NA 1.67647 6.0534E-03 NA NA 1.85294 6.8012E-03 NA NA 2.02941 7.4334E-03 NA NA 2.20588 7.8348E-03 NA NA 2.38235 7.9966E-03 NA NA 2.55882 8.0564E-03 NA NA 2.73529 8.0874E-03 NA NA 2.91176 8.1156E-03 NA NA 3.08824 8.1382E-03 NA NA 3.26471 8.1592E-03 NA NA 3.44118 8.1808E-03 NA NA 3.61765 8.2030E-03 NA NA 3.79412 8.2256E-03 NA NA 3.97059 8.2382E-03 NA NA 4.14706 8.2608E-03 NA NA 4.32353 8.2802E-03 NA NA 4.5 8.3058E-03 NA NA 6.6V 8.3058E-03 NA NA | [Pullup] |------------------------------------------------------------- | Note that the[Pullup]voltage table is referenced to Vcc | and is calculated using Vtable=Vcc - Vmeasured. |------------------------------------------------------------- |Voltage I(typ) I(min) I(max) 6.6V -3.0580E-03 NA NA 3.3 -3.0580E-03 NA NA 3.167647 -3.0452E-03 NA NA 3.035294 -3.0326E-03 NA NA 2.902941 -3.0194E-03 NA NA 2.770588 -2.9990E-03 NA NA 2.638235 -2.9634E-03 NA NA 2.505882 -2.9964E-03 NA NA 2.373529 -2.9420E-03 NA NA 2.24118 -2.9230E-03 NA NA 2.10882 -2.9564E-03 NA NA 1.97647 -2.9232E-03 NA NA 1.84412 -2.8894E-03 NA NA 1.71176 -2.8596E-03 NA NA 1.57941 -2.8258E-03 NA NA 1.44706 -2.7764E-03 NA NA 1.31471 -2.0776E-03 NA NA 1.18235 -2.5770E-04 NA NA 1.05 -1.9828E-06 NA NA 0.91765 -6.4188E-08 NA NA 0.78529 2.6542E-09 NA NA 0.65294 9.8860E-10 NA NA 0.52059 1.1222E-09 NA NA 0.38824 1.9602E-09 NA NA 0.25588 2.6302E-09 NA NA 0.12353 4.4294E-09 NA NA -0.00882 1.7652E-09 NA NA -0.14118 1.4370E-09 NA NA -0.27353 1.6188E-09 NA NA -0.40588 1.5988E-09 NA NA -0.53824 1.7044E-09 NA NA -0.67059 2.4826E-09 NA NA -0.80294 3.2180E-09 NA NA -0.93529 3.3662E-09 NA NA -1.06765 3.7294E-09 NA NA -1.2 4.2942E-09 NA NA -3.3V 4.2942E-09 NA NA | [GND_clamp] |------------------------------------------------------------- | Outputs in Tri-state. |------------------------------------------------------------- | Voltage I(typ) I(min) I(max) | 3.3V 0.0000E-10 NA NA 0 2.6744E-10 NA NA -0.04412 4.7320E-10 NA NA -0.08824 -2.6690E-09 NA NA -0.13235 -1.9004E-08 NA NA -0.17647 -1.0890E-07 NA NA -0.22059 -5.9056E-07 NA NA -0.26471 -3.1964E-06 NA NA -0.30882 -1.6914E-05 NA NA -0.35294 -8.6666E-05 NA NA -0.39706 -3.9566E-04 NA NA -0.44118 -1.3956E-03 NA NA -0.48529 -3.8230E-03 NA NA -0.52941 -8.1758E-03 NA NA -0.57353 -1.4394E-02 NA NA -0.61765 -2.0480E-02 NA NA -0.66177 -1.0272E-02 NA NA -0.70588 -2.2888E-02 NA NA -0.75 -9.4024E-03 NA NA -0.79412 -1.5880E-02 NA NA -0.83824 -3.0308E-02 NA NA -0.88235 -5.0010E-02 NA NA -0.92647 -7.2002E-02 NA NA -3.3V -900.0mA NA NA | [POWER_clamp] | |------------------------------------------------------------- | Note that the[POWER_clamp]voltage table is referenced to Vcc | and is calculated using Vtable=Vcc - Vmeasured. | Outputs in Tri-state. |------------------------------------------------------------- |Voltage I(typ) I(min) I(max) 3.000000 0.00mA NA NA -3.00 0.00mA NA NA | |**************************************************************************** | [Ramp] | | Note: Ramp rate measured on single-ended Driver Output. | | typ min max | dV/dt_r 135.0m/0.484n NA NA dV/dt_f 135.0m/0.679n NA NA | R_load = 100Ohm | Note: This 100 Ohm is across the two driver output | [End]