From: owner-ibis-users@ (ibis-users) To: ibis-users-digest@eda.org Subject: ibis-users V1 #14 Reply-To: Sender: owner-ibis-users@ Errors-To: owner-ibis-users@ Precedence: bulk ibis-users Friday, January 3 2003 Volume 01 : Number 014 ---------------------------------------------------------------------- Date: Fri, 20 Dec 2002 08:54:12 -0800 From: "Peters, Stephen" Subject: RE: [IBIS-Users] IBIS Models for bidi I/O Hello Suresh: Visit the IBIS website and download the IBIS Cookbook for v2.1 http://www.eigroup.org/ibis/tools.htm This will give you a good introduction to IBIS modeling, including how to model IO bi-directional buffers. Regards, Stephen Peters Intel Corp. - -----Original Message----- From: Suresh C [mailto:csuresh@india.ti.com] Sent: Thursday, December 19, 2002 9:13 PM To: ibis-users Subject: [IBIS-Users] IBIS Models for bidi I/O Hi, This is Suresh here. I'm new to IBIS modeling. I would apprecitate if anyone could guide me for generating models for bidirectional IO's with pullup. Any documents/links would be helpful. Thanks and Regards, Suresh =================================================================== Suresh C Ph: 91-80-5099437 MSP India Tactical Cells Team Texas Instruments, India - -------------------------------------------------------------------- "All experience is an arch wherethrough gleams that untraveled world, whose margin fades for ever and for ever when I move" =================================================================== |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Thu, 26 Dec 2002 15:53:12 +0530 From: Anshuli Goel Subject: [IBIS-Users] Rise waveform and Ramp rate Hello IBIS Gurus I have one doubt , in the IBIS model how do we take into account for the Rising waveform and ramp rate. ? How in the simulation these two parameter are used . ? I have C_f also while calculation of rising waveform which is going to affect the rise time of the cell . Regards Anshuli |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Thu, 26 Dec 2002 17:57:03 +0530 From: Anshuli Goel Subject: [IBIS-Users] Ramp Rate Hello IBIS Gurus I am trying to generate the IBIS model of a Bi-di buffer in only output direction. In first case in s2ibis2 script I give 1ns as rise and fall time and in the output IBIs file I get some ramp rate, in second case I change the rise and fall time in s2ibis2 script but in the output IBIS file the ramp rate is not changed as compared to first case. ( While I expected it to change since output rise and fall time depends on input slew and output load , in this case only input slew is changing ) . Why this is happening ? Is there some other parameters also that I need to change ? Regards Anshuli |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Thu, 26 Dec 2002 10:56:19 -0800 From: "Tom Dagostino" Subject: RE: [IBIS-Users] Ramp Rate Most output buffers have many stages between the point that you stimulate it and the output node that you are measuring. Each of these stages have some gain. The gain plus the number of stages involved will take a slow input ramp and normalize it so that what you see is the same slew rate in the output for any reasonable input ramp. You will likely see a different time delay through the buffer based on the slew rate of the input but the output slew rate will remain constant. Tom Dagostino Teraspeed Consulting Group LLC Teraspeed Consulting Group LLC 2926 SE Yamhill St. Device Modeling Division Portland, OR 97214 13610 SW Harness Lane Beaverton, OR 97008 http://www.teraspeed.com 503-430-1065 tom@teraspeed.com - -----Original Message----- From: owner-ibis-users@server.eda.org [mailto:owner-ibis-users@server.eda.org]On Behalf Of Anshuli Goel Sent: Thursday, December 26, 2002 4:27 AM To: ibis-users@eda.org Subject: [IBIS-Users] Ramp Rate Hello IBIS Gurus I am trying to generate the IBIS model of a Bi-di buffer in only output direction. In first case in s2ibis2 script I give 1ns as rise and fall time and in the output IBIs file I get some ramp rate, in second case I change the rise and fall time in s2ibis2 script but in the output IBIS file the ramp rate is not changed as compared to first case. ( While I expected it to change since output rise and fall time depends on input slew and output load , in this case only input slew is changing ) . Why this is happening ? Is there some other parameters also that I need to change ? Regards Anshuli |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Thu, 26 Dec 2002 11:02:08 -0800 (PST) From: Syed Huq Subject: Re: [IBIS-Users] Ramp Rate Have you done this test using SPICE only(bypassing s2ibis2) and measure the Ramp(Ouput) on SPICE ? Also, what was the input Tr/Tf for the second case ? Syed >Date: Thu, 26 Dec 2002 17:57:03 +0530 >From: Anshuli Goel >X-Accept-Language: en >MIME-Version: 1.0 >To: "ibis-users@eda.org" >Subject: [IBIS-Users] Ramp Rate >Content-Transfer-Encoding: 7bit > >Hello IBIS Gurus > >I am trying to generate the IBIS model of a Bi-di buffer in only output >direction. In first case in s2ibis2 script I give 1ns as rise and fall >time and in the output IBIs file I get some ramp rate, > in second case I change the rise and fall time in s2ibis2 script >but in the output IBIS file the ramp rate is not changed as compared to >first case. >( While I expected it to change since output rise and fall time depends >on input slew and output load , in this case only input slew is changing >) . > >Why this is happening ? >Is there some other parameters also that I need to change ? > >Regards >Anshuli > > >|------------------------------------------------------------------ >|For help or to subscribe/unsubscribe, email majordomo@eda.org >|with just the appropriate command message(s) in the body: >| >| help >| subscribe ibis >| subscribe ibis-users >| unsubscribe ibis >| unsubscribe ibis-users >| >|or email a written request to ibis-request@eda.org. >| >|IBIS reflector archives exist under: >| >| http://www.eda.org/pub/ibis/email_archive/ Recent >| http://www.eda.org/pub/ibis/users_archive/ Recent >| http://www.eda.org/pub/ibis/email/ E-mail since 1993 |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Fri, 27 Dec 2002 02:04:04 +0200 From: "Elya B. Joffe" Subject: [IBIS-Users] CALL FOR EMC COMPUTER MODELING AND SIMULATION DEMONSTRATIONS 2003 IEEE INTERNATIONAL SYMPOSIUM ON EMC, ISTANBUL MAY 11-16, 2003: CALL FOR EMC COMPUTER MODELING AND SIMULATION DEMONSTRATIONS SPONSORED BY THE IEEE EMC SOCIETY EDUCATION AND STUDENT ACTIVITIES COMMITTEE We are planning to hold special sessions on EMC Computer Modeling and Simulation (M&S) Demonstrations at the 2003 IEEE International Symposium on EMC in Istanbul, Turkey. These special sessions build upon the success of previous years' M&S demonstrations. This session is devoted to illustrating fundamental EMC modeling and simulation concepts and methods through a series of interactive computer demonstrations performed over a three-day period. Various computational electromagnetic (CEM) modeling techniques will be demonstrated illustrating their application to simple canonical-type problems in order to show how specific EMC problems can be analytically solved. These include the application of the moment method (MoM), uniform theory of diffraction (UTD) and variations on the asymptotic ray tracing method, finite difference time-domain (FDTD), finite element modeling (FEM), transmission line (TL) theory, and other useful methods. The demonstrations will be conducted using general-purpose codes to illustrate the M&S concepts and approaches. Hands-on participation during the demonstrations is encouraged. The demonstrations may cover, but not be limited to the following topics: · Shielding Effectiveness, Aperture Leakage Effects · System-Level Cable Interactions (Crosstalk, Radiation and Coupling) · System-Level EMC Antenna Interactions Analysis for Large, Complex Structures · Lightning, EMP and other Transient Field Interactions with Structures · EMC and Signal Integrity Simulation Techniques for Printed Circuit Boards, including Power and Ground Voltage Simultaneous Switching Noise (SSN) and Effects of Decoupling, Other proposals are encouraged and will be considered but S&M demonstrations on popular topics from previous years will also be welcomed. If you are interested in having a S&M Demonstration considered, please submit by e-mail only a short written proposal to the Symposium Secretariat at emc2003@ortra.co.il or to Andy Drozd at a.l.drozd@ieee.org no later than January 30, 2003. The proposal should include: a) Title of Demonstration b) Presenter Name(s)/Company Affiliation including city/state/country c) 1st/2nd choice for preferred day/time period (e.g., Tuesday AM, Wednesday PM, etc.) d) A 50-word description. Please indicate in the e-mail subject line the title: "EMC S&M - EMC'2003". Please note that presenters will be required to bring their own laptop computers. Arrangements can be made with the Chair for use of other A/V aids. Note: Computer codes and tools used for this session shall not be demonstrated for commercial or promotional purposes. The IEEE EMC Society does not specifically endorse any software code, tool, or technique used in any of the demonstrations. The Organizing Committee reserves the right to cancel any presentation or topic that is deemed to be of a commercial nature at any time prior to or during this session. Best greetings, and Happy New Year, Elya B. Joffe, Symposium General Chairman |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Tue, 31 Dec 2002 12:04:30 +0530 From: Anshuli Goel Subject: [IBIS-Users] Validation of IBIS model - --------------3078EED3D53D836294F97E0D Content-Type: text/plain; charset=us-ascii Content-Transfer-Encoding: 7bit Hello IBIS Gurus I am trying to simulate the IBIS model in Spice for it's validation . I generated the IBIS model by s2ibis2 script. After that I had two case. 1. Simulate the spice netlist of the buffer with some load . 2. Replace the subckt of buffer with IBIS model for same setup and compare these two results. I used the following setup : Buffer | \ R ______________ - ------| \-------/\/\/\/\/\---|_______| |______ Load |/ | |__Tx___________ | _|_ ___ C | | \/ In Ist case I have the spice subckt of the buffer and in second case I replced the subckt of buffer with IBIS model. The other end of Tx is left open . In the ouput file at the junction of cap I see a lots of ringing in first case while with IBIS model I don't see any ringing. Why this is happening. Why the IBIS model is not able to give any ringing? I am attaching the waveforms for both of the cases for reference. Waveform with IBIS model : [Image] Waveform with Spice simulation : [Image] Is this the trend or is there anything wrong in my setup ? Regards Anshuli Goel . - --------------3078EED3D53D836294F97E0D Content-Type: multipart/related; boundary="------------179B5FB289B768CB7D40EB08" - --------------179B5FB289B768CB7D40EB08 Content-Type: text/html; charset=us-ascii Content-Transfer-Encoding: 7bit Hello IBIS Gurus

I am trying to simulate the IBIS model in Spice for it's validation .

I generated the IBIS model by s2ibis2 script. After that I had two case.

1. Simulate the spice netlist of the buffer with some load .
2. Replace the subckt of buffer with IBIS model for same setup and compare these two results.

I used the following setup :

        Buffer
                | \                       R                                    ______________
------|   \-------/\/\/\/\/\---|_______|                              |______ Load
                 |/                                           |               |__Tx___________ |
                                                           _|_
                                                           ___ C
                                                              |
                                                              |
                                                             \/

In Ist case I have the spice subckt of the buffer and in second case I replced the subckt of buffer with IBIS model.
The other end of Tx is left open .
In the ouput file at the junction of cap I see a lots of ringing in first case while with IBIS model I don't see any ringing. Why this is happening. Why the IBIS model is not able to give any ringing?

I am attaching the waveforms for both of the cases for reference.

Waveform with IBIS model :

Waveform with Spice simulation :

Is this the trend or is there anything wrong in my setup ?

Regards
Anshuli Goel .
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http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Tue, 31 Dec 2002 12:19:22 +0530 From: Anshuli Goel Subject: [IBIS-Users] [Fwd: Validation of IBIS model] - --------------29945B2C35E4D8F7A02FDF62 Content-Type: text/plain; charset=us-ascii Content-Transfer-Encoding: 7bit Resending with correct waveform. Anshuli Anshuli Goel wrote: > Hello IBIS Gurus > > I am trying to simulate the IBIS model in Spice for it's validation . > > I generated the IBIS model by s2ibis2 script. After that I had two > case. > > 1. Simulate the spice netlist of the buffer with some load . > 2. Replace the subckt of buffer with IBIS model for same setup and > compare these two results. > > I used the following setup : > > Buffer > | \ > R ______________ > ------| \-------/\/\/\/\/\---|_______| > |______ Load > |/ > | |__Tx___________ | > _|_ > ___ C > | > | > \/ > > > In Ist case I have the spice subckt of the buffer and in second case I > replced the subckt of buffer with IBIS model. > The other end of Tx is left open . > In the ouput file at the junction of cap I see a lots of ringing in > first case while with IBIS model I don't see any ringing. Why this is > happening. Why the IBIS model is not able to give any ringing? > > I am attaching the waveforms for both of the cases for reference. > > Waveform with IBIS model : > [Image] > > > Waveform with Spice simulation : > > [Image] > > > > > Is this the trend or is there anything wrong in my setup ? > > Regards > Anshuli Goel . > - --------------29945B2C35E4D8F7A02FDF62 Content-Type: multipart/related; boundary="------------F9425FA69D77257CF9112071" - --------------F9425FA69D77257CF9112071 Content-Type: text/html; charset=us-ascii Content-Transfer-Encoding: 7bit Resending with correct waveform.
Anshuli

Anshuli Goel wrote:

Hello IBIS Gurus
I am trying to simulate the IBIS model in Spice for it's validation .
I generated the IBIS model by s2ibis2 script. After that I had two case.
1. Simulate the spice netlist of the buffer with some load .
2. Replace the subckt of buffer with IBIS model for same setup and compare these two results.
I used the following setup :
        Buffer
                | \                       R                                    ______________
------|   \-------/\/\/\/\/\---|_______|                              |______ Load
                 |/                                           |               |__Tx___________ |
                                                           _|_
                                                           ___ C
                                                              |
                                                              |
                                                             \/

In Ist case I have the spice subckt of the buffer and in second case I replced the subckt of buffer with IBIS model.
The other end of Tx is left open .
In the ouput file at the junction of cap I see a lots of ringing in first case while with IBIS model I don't see any ringing. Why this is happening. Why the IBIS model is not able to give any ringing?
I am attaching the waveforms for both of the cases for reference.
Waveform with IBIS model :

Waveform with Spice simulation :

Is this the trend or is there anything wrong in my setup ?
Regards
Anshuli Goel .

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under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Tue, 31 Dec 2002 13:53:06 -0500 From: "Ingraham, Andrew" Subject: RE: [IBIS-Users] [Fwd: Validation of IBIS model] The "ringing" that I see with the SPICE model, looks more like some sort of numerical oscillation that you sometimes get in SPICE, and not real ringing. This numerical oscillation is an uncommon but occasional artifact of SPICE. If present, it can usually be eliminated by using .OPTION METHOD=GEAR rather than the default TRAPezoidal method. You don't say how long the transmission line is, but it is probably not causing the sub-nanosecond wiggles that you are seeing on the SPICE model waveform. If it isn't numerical oscillation, another place to look would be the package parasitic modeling. Either the IBIS model, or the simulator's use of it, might have simplified the circuit representation of the package, compared to the SPICE model. Regards, Andy |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Fri, 03 Jan 2003 18:18:23 +0530 From: Anshuli Goel Subject: RE: [IBIS-Users] [Fwd: Validation of IBIS model] This is a multi-part message in MIME format. - --------------B842646A17AA9719DFE56773 Content-Type: multipart/alternative; boundary="------------E291E76E1A9B5AE3DAB14C19" - --------------E291E76E1A9B5AE3DAB14C19 Content-Type: text/plain; charset=us-ascii Content-Transfer-Encoding: 7bit Hi Andy Thanx for the reply. That problem was actually because of timestep used in simulation. I used a finer timestep and my problem vanished. But I have other problem. I am using the following setup for validating the IBIS model. I hook up buffer subckt once and once i hookup IBIS model with the rest of the setup. [Image] Hi Andy Thanx for the reply. That problem was actually because of timestep used in simulation. I used a finer timestep and my problem vanished. But I have other problem. I am using the following setup for validating the IBIS model. I hook up buffer subckt once and once i hookup IBIS model with the rest of the setup. The load changes from open circuit to matched load to short circiuit. I see some ringing in matched load case with IBIS model simulation which is not captured in SPICE simulation . (For open load and short circuit load my results are matching) Why the results at matched load are not matching ? The parameters for Tx is Z0=50ohm and Td=0.4ns Input has 1ns risetime. I am attaching the IBIS model and s2ibis2 script also. Waveform with ringing (IBIS simulation) [Image] Waveform without ringing(SPICE simulation using the subckt) [Image] Regards Anshuli Ingraham, Andrew" wrote: The "ringing" that I see with the SPICE model, looks more like some sort of numerical oscillation that you sometimes get in SPICE, and not real ringing. This numerical oscillation is an uncommon but occasional artifact of SPICE. If present, it can usually be eliminated by using .OPTION METHOD=GEAR rather than the default TRAPezoidal method. You don't say how long the transmission line is, but it is probably not causing the sub-nanosecond wiggles that you are seeing on the SPICE model waveform. If it isn't numerical oscillation, another place to look would be the package parasitic modeling. Either the IBIS model, or the simulator's use of it, might have simplified the circuit representation of the package, compared to the SPICE model. Regards, Andy |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 - --------------E291E76E1A9B5AE3DAB14C19 Content-Type: multipart/related; boundary="------------CCA94B8156E349412DE8A480" - --------------CCA94B8156E349412DE8A480 Content-Type: text/html; charset=us-ascii Content-Transfer-Encoding: 7bit
Hi Andy

Thanx for the reply. That problem was actually because of timestep used in simulation. I used a finer
timestep and my problem vanished.

But I have other problem. I am using the following setup for validating the IBIS model. I hook up buffer
subckt once and once i hookup IBIS model with the rest of the setup.

Hi Andy

Thanx for the reply. That problem was actually because of timestep used in simulation. I used a finer
timestep and my problem vanished.

But I have other problem. I am using the following setup for validating the IBIS model. I hook up buffer
subckt once and once i hookup IBIS model with the rest of the setup.

The load changes from open circuit to matched load to short circiuit.
I see some ringing in matched load case with IBIS model simulation which is not captured in SPICE
simulation . (For open load and short circuit load my results are matching)
Why the results at matched load are not matching ?
The parameters for Tx is Z0=50ohm and Td=0.4ns
Input has 1ns risetime.

I am attaching the IBIS model and s2ibis2 script also.

Waveform with ringing (IBIS simulation)

Waveform without ringing(SPICE simulation using the subckt)

Regards
Anshuli
Ingraham, Andrew" wrote:

The "ringing" that I see with the SPICE model, looks more like some sort of numerical oscillation that you
sometimes get in SPICE, and not real ringing. This numerical oscillation is an uncommon but occasional
artifact of SPICE. If present, it can usually be eliminated by using .OPTION METHOD=GEAR rather
than the default TRAPezoidal method.

You don't say how long the transmission line is, but it is probably not causing the sub-nanosecond wiggles
that you are seeing on the SPICE model waveform.

If it isn't numerical oscillation, another place to look would be the package parasitic modeling. Either the
IBIS model, or the simulator's use of it, might have simplified the circuit representation of the package,
compared to the SPICE model.

Regards,
Andy

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Content-Type: text/plain; charset=us-ascii; name="ubt062.ibs" Content-Transfer-Encoding: 7bit Content-Disposition: inline; filename="ubt062.ibs" |************************************************************************ | IBIS file ubt062.ibs created by s2ibis2 version 1.1 | North Carolina State University Electronics Research Laboratory 1995 |************************************************************************ | [IBIS ver] 2.1 [File name] ubt062.ibs [File Rev] 0 [Date] Jan 29, 2002 [Source] From TFP501 DATA BUFFER spice models [Disclaimer] Please be aware that in the absence of a written agreement Texas Instruments(TI) assumes no liability for: (1) The accuracy of the IBIS models provided to your company (2) The proper functioning of these Models in your design or for any resulting applications;or (3)Infringement of patents,copyrights or intellectual property rights resulting from your use of these models. TI provides IBIS Models as a service to our customers and therefore reserves the right to limit distribution of the Models. [Copyright] Property of Texas Instruments Incorporated. Unauthorised reproduction and/or distribution is strictly prohibited. This product is protected under copyright law and trade secret law as an unpublished work. Created 2000,(C) Copyright 2000,Texas Instruments Inc., All Rights Reserved.These commodities are under the U.S. Government distribution license control.As such,they are not to be re-exported without the prior approval of the U.S. Department of Commerce. | |************************************************************************ | Component OUTPUT DRIVER |************************************************************************ | [Component] OUTPUT DRIVER [Manufacturer] Texas Instruments [Package] | variable typ min max R_pkg 0.000 0.000 0.000 L_pkg 0.000H 0.000H 0.000H C_pkg 0.000F 0.000F 0.000F | [Pin] signal_name model_name R_pin L_pin C_pin Y Y tristate_driver | A A dummy | GZ GZ dummy VDDS VDDS POWER VSSS VSSS GND | |************************************************************************ | Model tristate_driver |************************************************************************ | [Model] tristate_driver Model_type 3-state Polarity Non-Inverting Enable Active-Low C_comp 1.00pF 1.00pF 1.00pF | | [Temperature Range] 25.00 0.11k 0.000 [Voltage Range] 3.30V 3.00V 3.60V [Pulldown] | voltage I(typ) I(min) I(max) | -3.30 -1.36mA -0.85mA -1.66mA -3.10 -1.51mA -0.93mA -1.84mA -2.90 -1.69mA -1.03mA -2.07mA -2.70 -1.91mA -1.15mA -2.36mA -2.50 -2.20mA -1.31mA -2.74mA -2.30 -2.60mA -1.51mA -3.27mA -2.10 -3.15mA -1.78mA -4.04mA -1.90 -4.00mA -2.16mA -5.28mA -1.70 -5.44mA -2.73mA -7.56mA -1.50 -8.39mA -3.69mA -13.14mA -1.00 -65.61mA -16.11mA -88.40mA -0.90 -78.35mA -27.17mA -95.48mA -0.80 -79.93mA -40.67mA -91.62mA -0.70 -73.77mA -48.01mA -84.11mA -0.60 -65.05mA -46.03mA -74.54mA -0.50 -54.78mA -39.39mA -63.00mA -0.40 -43.98mA -31.62mA -50.67mA -0.30 -33.07mA -23.69mA -38.16mA -0.20 -22.10mA -15.76mA -25.54mA -0.10 -11.08mA -7.86mA -12.82mA 0.00 0.23nA 1.82nA 0.76nA 0.10 10.95mA 7.69mA 12.74mA 0.20 21.61mA 15.11mA 25.20mA 0.30 31.96mA 22.23mA 37.39mA 0.40 41.99mA 29.07mA 49.29mA 0.50 51.70mA 35.60mA 60.89mA 0.60 61.08mA 41.83mA 72.19mA 0.70 70.11mA 47.74mA 83.19mA 0.80 78.80mA 53.33mA 93.86mA 0.90 87.11mA 58.59mA 0.10A 1.00 95.05mA 63.51mA 0.11A 1.10 0.10A 68.08mA 0.12A 1.20 0.11A 72.30mA 0.13A 1.30 0.12A 76.14mA 0.14A 1.40 0.12A 79.61mA 0.15A 1.50 0.13A 82.69mA 0.16A 1.60 0.13A 85.37mA 0.17A 1.70 0.14A 87.65mA 0.17A 1.80 0.14A 89.52mA 0.18A 1.90 0.15A 91.00mA 0.19A 2.00 0.15A 92.14mA 0.19A 2.10 0.15A 93.01mA 0.20A 2.20 0.16A 93.69mA 0.20A 2.30 0.16A 94.25mA 0.21A 2.40 0.16A 94.71mA 0.21A 2.50 0.16A 95.10mA 0.21A 2.60 0.16A 95.44mA 0.21A 2.70 0.16A 95.74mA 0.22A 2.80 0.16A 96.01mA 0.22A 2.90 0.16A 96.25mA 0.22A 3.00 0.16A 96.48mA 0.22A 3.10 0.16A 96.68mA 0.22A 3.20 0.16A 96.87mA 0.22A 3.30 0.16A 97.04mA 0.22A 3.40 0.16A 97.22mA 0.22A 3.50 0.16A 97.38mA 0.22A 3.60 0.16A 97.54mA 0.22A 3.70 0.16A 97.77mA 0.22A 3.80 0.16A 98.31mA 0.22A 3.90 0.16A 99.33mA 0.22A 4.00 0.16A 0.10A 0.22A 4.10 0.16A 0.10A 0.22A 4.20 0.16A 0.10A 0.22A 4.30 0.16A 0.11A 0.22A 4.50 0.17A 0.11A 0.22A 4.70 0.17A 0.12A 0.22A 4.90 0.18A 0.12A 0.23A 5.10 0.19A 0.13A 0.23A 5.30 0.19A 0.13A 0.24A 5.50 0.20A 0.14A 0.25A 5.70 0.21A 0.15A 0.26A 5.90 0.22A 0.15A 0.27A 6.10 0.23A 0.16A 0.28A 6.60 0.25A 0.18A 0.31A | [Pullup] | voltage I(typ) I(min) I(max) | -3.30 0.19A 0.14A 0.22A -3.10 0.17A 0.13A 0.21A -2.90 0.16A 0.12A 0.20A -2.70 0.15A 0.11A 0.18A -2.50 0.14A 0.10A 0.17A -2.30 0.13A 95.29mA 0.16A -2.10 0.12A 86.97mA 0.14A -1.90 0.11A 78.58mA 0.13A -1.70 95.92mA 70.13mA 0.11A -1.50 84.34mA 61.65mA 0.10A -1.00 55.41mA 40.43mA 66.39mA -0.90 49.71mA 36.21mA 59.64mA -0.80 44.11mA 31.99mA 52.93mA -0.70 38.52mA 27.81mA 46.23mA -0.60 32.93mA 23.69mA 39.59mA -0.50 26.89mA 19.15mA 32.28mA -0.40 21.82mA 15.46mA 26.26mA -0.30 16.40mA 11.71mA 19.79mA -0.20 10.92mA 7.80mA 13.19mA -0.10 5.45mA 3.89mA 6.59mA 0.00 -50.55pA 0.19nA -8.66pA 0.10 -5.42mA -3.86mA -6.57mA 0.20 -10.80mA -7.67mA -13.09mA 0.30 -16.13mA -11.45mA -19.56mA 0.40 -21.41mA -15.18mA -25.98mA 0.50 -26.64mA -18.87mA -32.36mA 0.60 -31.82mA -22.52mA -38.69mA 0.70 -36.95mA -26.12mA -44.96mA 0.80 -42.03mA -29.67mA -51.19mA 0.90 -47.04mA -33.17mA -57.35mA 1.00 -52.00mA -36.62mA -63.46mA 1.10 -56.90mA -40.02mA -69.52mA 1.20 -61.73mA -43.35mA -75.51mA 1.30 -66.50mA -46.64mA -81.44mA 1.40 -71.20mA -49.85mA -87.31mA 1.50 -75.83mA -53.01mA -93.11mA 1.60 -80.39mA -56.10mA -98.84mA 1.70 -84.87mA -59.11mA -0.10A 1.80 -89.27mA -62.06mA -0.11A 1.90 -93.59mA -64.92mA -0.12A 2.00 -97.83mA -67.71mA -0.12A 2.10 -0.10A -70.40mA -0.13A 2.20 -0.11A -73.01mA -0.13A 2.30 -0.11A -75.52mA -0.14A 2.40 -0.11A -77.92mA -0.14A 2.50 -0.12A -80.22mA -0.15A 2.60 -0.12A -82.40mA -0.15A 2.70 -0.12A -84.46mA -0.16A 2.80 -0.13A -86.39mA -0.16A 2.90 -0.13A -88.18mA -0.17A 3.00 -0.13A -89.82mA -0.17A 3.10 -0.14A -91.33mA -0.17A 3.20 -0.14A -92.68mA -0.18A 3.30 -0.14A -93.88mA -0.18A 3.40 -0.15A -94.93mA -0.19A 3.50 -0.15A -95.84mA -0.19A 3.60 -0.15A -96.65mA -0.19A 3.70 -0.15A -97.42mA -0.20A 3.80 -0.15A -98.41mA -0.20A 3.90 -0.15A -0.10A -0.20A 4.00 -0.16A -0.11A -0.21A 4.10 -0.16A -0.13A -0.21A 4.20 -0.16A -0.15A -0.21A 4.30 -0.16A -0.18A -0.21A 4.50 -0.17A -0.25A -0.22A 4.70 -0.19A -0.31A -0.22A 4.90 -0.25A -0.38A -0.23A 5.10 -0.31A -0.45A -0.24A 5.30 -0.38A -0.52A -0.28A 5.50 -0.45A -0.59A -0.34A 5.70 -0.52A -0.66A -0.41A 5.90 -0.59A -0.73A -0.48A 6.10 -0.66A -0.80A -0.55A 6.60 -0.83A -0.97A -0.72A | [GND_clamp] | voltage I(typ) I(min) I(max) | -3.30 -0.83A -0.87A -0.82A -3.20 -0.80A -0.83A -0.79A -3.10 -0.76A -0.80A -0.75A -3.00 -0.73A -0.76A -0.72A -2.90 -0.69A -0.73A -0.68A -2.80 -0.66A -0.69A -0.65A -2.70 -0.62A -0.66A -0.61A -2.60 -0.59A -0.62A -0.58A -2.50 -0.55A -0.59A -0.54A -2.40 -0.52A -0.55A -0.51A -2.30 -0.48A -0.52A -0.47A -2.20 -0.45A -0.48A -0.44A -2.10 -0.41A -0.45A -0.40A -2.00 -0.38A -0.41A -0.37A -1.90 -0.34A -0.38A -0.33A -1.80 -0.31A -0.34A -0.30A -1.70 -0.27A -0.31A -0.26A -1.60 -0.24A -0.27A -0.23A -1.50 -0.20A -0.24A -0.19A -1.40 -0.17A -0.21A -0.16A -1.30 -0.14A -0.17A -0.13A -1.20 -0.10A -0.14A -94.11mA -1.10 -71.82mA -0.11A -63.09mA -1.00 -42.74mA -76.42mA -35.42mA -0.90 -19.32mA -47.75mA -16.33mA -0.80 -7.10mA -23.49mA -8.13mA -0.70 -2.58mA -7.64mA -3.52mA -0.60 -0.58mA -1.56mA -0.86mA -0.50 -59.71uA -0.22mA -89.89uA -0.40 -3.47uA -23.19uA -4.68uA -0.30 -0.13uA -1.95uA -0.15uA -0.20 -4.67nA -0.14uA -5.89nA -0.10 -0.88nA -15.91nA -2.42nA 0.00 -0.72nA -8.13nA -2.11nA 0.10 -0.65nA -7.31nA -1.87nA 0.20 -0.58nA -6.86nA -1.67nA 0.30 -0.52nA -6.44nA -1.48nA 0.40 -0.47nA -6.06nA -1.31nA 0.50 -0.42nA -5.69nA -1.16nA 0.60 -0.37nA -5.33nA -1.02nA 0.70 -0.32nA -4.99nA -0.89nA 0.80 -0.28nA -4.66nA -0.77nA 0.90 -0.23nA -4.35nA -0.67nA 1.00 -0.19nA -4.04nA -0.57nA 1.10 -0.16nA -3.75nA -0.48nA 1.20 -0.12nA -3.48nA -0.40nA 1.30 -86.91pA -3.21nA -0.33nA 1.40 -54.25pA -2.95nA -0.26nA 1.50 -23.03pA -2.70nA -0.20nA 1.60 6.89pA -2.47nA -0.14nA 1.70 35.59pA -2.24nA -93.94pA 1.80 63.18pA -2.02nA -47.09pA 1.90 89.77pA -1.81nA -3.94pA 2.00 0.12nA -1.61nA 35.93pA 2.10 0.14nA -1.41nA 72.89pA 2.20 0.16nA -1.23nA 0.11nA 2.30 0.19nA -1.05nA 0.14nA 2.40 0.21nA -0.88nA 0.17nA 2.50 0.23nA -0.72nA 0.20nA 2.60 0.25nA -0.58nA 0.22nA 2.70 0.27nA -0.45nA 0.25nA 2.80 0.29nA -0.33nA 0.27nA 2.90 0.31nA -0.18nA 0.30nA 3.00 0.32nA 1.39nA 0.32nA 3.10 0.34nA 28.99nA 0.34nA 3.20 0.35nA 0.46uA 0.36nA 3.30 0.39nA 12.57uA 0.37nA | [POWER_clamp] | voltage I(typ) I(min) I(max) | -3.30 2.75mA 2.42mA 3.12mA -3.20 2.63mA 2.31mA 2.99mA -3.10 2.51mA 2.19mA 2.87mA -3.00 2.39mA 2.08mA 2.75mA -2.90 2.27mA 1.97mA 2.62mA -2.80 2.15mA 1.86mA 2.50mA -2.70 2.03mA 1.75mA 2.38mA -2.60 1.91mA 1.64mA 2.26mA -2.50 1.80mA 1.53mA 2.14mA -2.40 1.68mA 1.42mA 2.02mA -2.30 1.57mA 1.31mA 1.91mA -2.20 1.46mA 1.20mA 1.80mA -2.10 1.35mA 1.10mA 1.69mA -2.00 1.24mA 0.99mA 1.58mA -1.90 1.14mA 0.89mA 1.47mA -1.80 1.03mA 0.79mA 1.36mA -1.70 0.92mA 0.69mA 1.25mA -1.60 0.82mA 0.59mA 1.14mA -1.50 0.71mA 0.49mA 1.03mA -1.40 0.61mA 0.40mA 0.92mA -1.30 0.50mA 0.30mA 0.81mA -1.20 0.40mA 0.21mA 0.70mA -1.10 0.30mA 0.13mA 0.59mA -1.00 0.20mA 59.77uA 0.49mA -0.90 0.11mA 18.49uA 0.38mA -0.80 40.99uA 4.33uA 0.28mA -0.70 9.91uA 2.46uA 0.18mA -0.60 5.33uA 2.35uA 88.82uA -0.50 0.51mA 0.51mA 0.74mA -0.40 73.05uA 0.21mA 0.14mA -0.30 0.88uA 12.57uA 1.31uA -0.20 30.21nA 0.46uA 37.86nA -0.10 1.25nA 28.99nA 1.56nA 0.00 0.39nA 1.39nA 0.46nA | [Ramp] | variable typ min max dV/dt_r 1.43/0.82n 1.16/1.67n 1.64/0.53n dV/dt_f 1.66/0.70n 1.39/1.35n 1.86/0.47n R_load = 50.00 | [Rising Waveform] R_fixture = 10.00k V_fixture = 0.000 V_fixture_min = 0.000 V_fixture_max = 0.000 C_fixture = 30.00pF | time V(typ) V(min) V(max) | 0.000S 4.42nV 80.54nV 10.42nV 0.20nS 19.28uV -3.23uV 75.50uV 0.40nS -0.95mV 0.16mV -5.70mV 0.60nS -10.40mV -3.33mV 25.76mV 0.80nS 14.02mV -12.14mV 0.15V 1.00nS 94.19mV -14.20mV 0.42V 1.20nS 0.22V 2.35mV 0.80V 1.40nS 0.36V 27.80mV 1.17V 1.60nS 0.60V 72.98mV 1.70V 1.80nS 0.90V 0.13V 2.19V 2.00nS 1.25V 0.21V 2.59V 2.20nS 1.61V 0.31V 2.89V 2.40nS 1.96V 0.43V 3.12V 2.60nS 2.26V 0.57V 3.27V 2.80nS 2.56V 0.77V 3.40V 3.00nS 2.75V 0.95V 3.47V 3.20nS 2.86V 1.10V 3.51V 3.40nS 2.98V 1.31V 3.54V 3.60nS 3.07V 1.52V 3.56V 3.80nS 3.13V 1.72V 3.57V 4.00nS 3.18V 1.91V 3.58V 4.20nS 3.22V 2.12V 3.59V 4.40nS 3.25V 2.29V 3.59V 4.60nS 3.26V 2.39V 3.59V 4.80nS 3.26V 2.47V 3.59V 5.00nS 3.27V 2.56V 3.59V 5.20nS 3.28V 2.64V 3.59V 5.40nS 3.28V 2.73V 3.59V 5.60nS 3.29V 2.79V 3.59V 5.80nS 3.29V 2.82V 3.59V 6.00nS 3.29V 2.85V 3.59V 6.20nS 3.29V 2.88V 3.59V 6.40nS 3.29V 2.90V 3.59V 6.60nS 3.29V 2.92V 3.59V 6.80nS 3.29V 2.93V 3.59V 7.00nS 3.29V 2.95V 3.59V 7.20nS 3.29V 2.96V 3.59V 7.40nS 3.29V 2.96V 3.59V 7.60nS 3.29V 2.97V 3.59V 7.80nS 3.29V 2.97V 3.59V 8.00nS 3.29V 2.98V 3.59V 8.20nS 3.29V 2.98V 3.59V 8.40nS 3.29V 2.98V 3.59V 8.60nS 3.29V 2.98V 3.59V 8.80nS 3.29V 2.99V 3.59V 9.00nS 3.29V 2.99V 3.59V 9.20nS 3.29V 2.99V 3.59V 9.40nS 3.29V 2.99V 3.59V 9.60nS 3.29V 2.99V 3.59V 9.80nS 3.29V 2.99V 3.59V 10.00nS 3.29V 2.99V 3.59V | [Falling Waveform] R_fixture = 10.00k V_fixture = 3.30 V_fixture_min = 3.00 V_fixture_max = 3.60 C_fixture = 30.00pF | time V(typ) V(min) V(max) | 0.000S 3.30V 3.00V 3.60V 0.20nS 3.30V 3.00V 3.60V 0.40nS 3.30V 3.00V 3.60V 0.60nS 3.30V 3.00V 3.56V 0.80nS 3.25V 3.01V 3.42V 1.00nS 3.13V 2.98V 3.20V 1.20nS 3.00V 2.93V 2.84V 1.40nS 2.87V 2.88V 2.44V 1.60nS 2.62V 2.81V 1.81V 1.80nS 2.28V 2.74V 1.17V 2.00nS 1.86V 2.65V 0.66V 2.20nS 1.40V 2.55V 0.34V 2.40nS 0.97V 2.41V 0.17V 2.60nS 0.61V 2.23V 74.09mV 2.80nS 0.32V 1.96V 25.07mV 3.00nS 0.18V 1.72V 9.21mV 3.20nS 0.11V 1.53V 4.95mV 3.40nS 58.53mV 1.27V 2.93mV 3.60nS 30.02mV 1.01V 2.60mV 3.80nS 15.73mV 0.78V 2.71mV 4.00nS 8.94mV 0.58V 2.86mV 4.20nS 5.46mV 0.39V 2.95mV 4.40nS 4.14mV 0.25V 2.96mV 4.60nS 3.81mV 0.19V 2.94mV 4.80nS 3.61mV 0.14V 2.93mV 5.00nS 3.47mV 97.89mV 2.91mV 5.20nS 3.38mV 66.23mV 2.89mV 5.40nS 3.30mV 41.25mV 2.88mV 5.60nS 3.25mV 25.89mV 2.86mV 5.80nS 3.21mV 19.97mV 2.85mV 6.00nS 3.19mV 15.82mV 2.84mV 6.20nS 3.16mV 11.94mV 2.83mV 6.40nS 3.13mV 9.42mV 2.83mV 6.60nS 3.11mV 7.77mV 2.82mV 6.80nS 3.09mV 6.67mV 2.82mV 7.00nS 3.07mV 5.94mV 2.81mV 7.20nS 3.06mV 5.44mV 2.81mV 7.40nS 3.04mV 5.02mV 2.81mV 7.60nS 3.03mV 4.74mV 2.80mV 7.80nS 3.02mV 4.61mV 2.80mV 8.00nS 3.02mV 4.52mV 2.80mV 8.20nS 3.01mV 4.41mV 2.80mV 8.40nS 3.01mV 4.33mV 2.80mV 8.60nS 3.00mV 4.27mV 2.80mV 8.80nS 3.00mV 4.22mV 2.80mV 9.00nS 2.99mV 4.17mV 2.80mV 9.20nS 2.99mV 4.14mV 2.80mV 9.40nS 2.99mV 4.10mV 2.80mV 9.60nS 2.98mV 4.07mV 2.80mV 9.80nS 2.98mV 4.04mV 2.80mV 10.00nS 2.98mV 4.03mV 2.80mV | | End [Model] tristate_driver | | End [Component] OUTPUT DRIVER | [End] - --------------B842646A17AA9719DFE56773 Content-Type: text/plain; charset=us-ascii; name="data0.s2i" Content-Transfer-Encoding: 7bit Content-Disposition: inline; filename="data0.s2i" | data0 - TFP501 DATA BUFFER : tristatable output buffer, with ST=0. | | | Specify the IBIS version and file revision number. | [IBIS Ver] 2.1 [File rev] 0 [File name] ubt06225.ibs |[Clean up] [Clamp tolerance] 0 | | Add some comments to identify the file. | [date] Jan 29, 2002 [source] From TFP501 DATA BUFFER spice models [Disclaimer] Please be aware that in the absence of a written agreement +Texas Instruments(TI) assumes no liability for: +(1) The accuracy of the IBIS models provided to your company +(2) The proper functioning of these Models in your design + or for any resulting applications;or +(3)Infringement of patents,copyrights or intellectual + property rights resulting from your use of these models. + TI provides IBIS Models as a service to our customers and + therefore reserves the right to limit distribution of the + Models. [Copyright] Property of Texas Instruments Incorporated. +Unauthorised reproduction and/or distribution is strictly prohibited. +This product is protected under copyright law and trade +secret law as an unpublished work. +Created 2000,(C) Copyright 2000,Texas Instruments Inc., +All Rights Reserved.These commodities are under the U.S. +Government distribution license control.As such,they are not +to be re-exported without the prior approval of the U.S. +Department of Commerce. | | Give the spice type. Allowable values are hspice, pspice, spice2, | spice3 and spectre. | [Spice type] spice2 [Spice command] "spice3 -tmp /tmp -init /dev/null %s %s /dev/null >%s 2>&1" | | Now specify some global parameters. These parameters will apply to | _all_ the models in this file. | | Note on the [Temperature range] keyword: Since this is a CMOS circuit, | the min column contains the highest temperature, since this temperature | causes or amplifies the "min" (slow, weak) behavior, while the max | column contains the lowest temperature, since this temperature causes or | amplifies the "max" (fast, strong) behavior. If this were a bipolar | circuit, these temperature values would be reversed. | [temperature range] 25 115 0 [voltage range] 3.3 3 3.6 [sim time] 10ns [vil] 0 0 0 [vih] 1.5 1.35 1.65 [rload] 25 [Tr] .2n .2n .2n [Tf] .2n .2n .2n | | Specify the default pin parasitics | |[R_pkg] 0.1 0.097 0.123 |[L_pkg] 1.5nH 2.0nH 2.5nH |[C_pkg] 1.5pF 1.0pF 2.0pF [C_comp] 1p 1p 1p | | Component Description | [Component] OUTPUT DRIVER [manufacturer] Texas Instruments | | Specify the SPICE file where the circuit is located. | | ST made high in the SPICE netlist | | [Spice file] UBT062.spi | | Now specify the pin list. Since we're just creating an IBIS file for | the driver, we'll use a very short pin list. | | The pin list formats can be found in doc/s2ibis2.txt. Briefly, the | first line of each pin is of the form | | pin_name spice_node signal_name model_name | | If a pin description has more than one line (e.g. the first pin in the | pin list below), the second line is of the form | | -> input_pin enable_pin | | Note that the second line must begin with the symbol "->". [Pin] Y Y3 Y tristate_driver - -> A GZ A A A dummy GZ GZ GZ dummy VDDS VDDS VDDS POWER VSSS VSSS VSSS GND | | Now we give the particulars of the model "tristate_driver". It is of | type "3-State" (allowable types may be found in doc/s2ibis2.txt) and is | non-inverting. We want to use models from the file "spectre.mod" for | typ, min and max simulations, and we want to include both a rising and | falling waveform in our IBIS model. Both the rising and falling | wveforms have a 500 ohm load; the rising waveform has the load | grounded, while the falling waveform has the load connected to 3.3V. | Neither waveform includes any other test fixture or package parasitics. | [Model] tristate_driver [Model type] 3-state [Polarity] Non-inverting [Enable] active-low [Model file] models_nom models_weak models_s [Rising waveform] 10000 0 0 0 NA 30p NA NA NA [Falling waveform] 10000 3.3 3.0 3.6 NA 30p NA NA NA |[Vmeas] 1.5 | | Now specify stuff for the model "input". [Model] dummy [nomodel] - --------------B842646A17AA9719DFE56773-- |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | subscribe ibis | subscribe ibis-users | unsubscribe ibis | unsubscribe ibis-users | |or email a written request to ibis-request@eda.org. | |IBIS reflector archives exist under: | | http://www.eda.org/pub/ibis/email_archive/ Recent | http://www.eda.org/pub/ibis/users_archive/ Recent | http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ End of ibis-users V1 #14 ************************