From: owner-ibis-users@eda.org (ibis-users) To: ibis-users-digest@eda.org Subject: ibis-users V1 #59 Reply-To: Sender: owner-ibis-users@eda.org Errors-To: owner-ibis-users@eda.org Precedence: bulk ibis-users Thursday, June 2 2005 Volume 01 : Number 059 ---------------------------------------------------------------------- Date: Fri, 20 May 2005 10:50:55 -0700 From: "lgreen" Subject: RE: [IBIS-Users] problem with the rising and falling waveforms Hi, Vivek, Two items: 1) The V-t curves should have "zero slope" at both ends. 2) There I-V tables need a small enough step size so the linear interpolation is accurate where the load line crosses. Either (or both) of those could cause the parser report that you are seeing. Drawing a load line on the I-V table can help identify the problem. Another thought: Is 100 Ohms the usual transmission line impedance for designs using this device? Is this same resistance used for the [Ramp] section? Best regards, Lynne "IBIS training when you need it, where you need it." Dr. Lynne Green Green Streak Programs http://www.greenstreakprograms.com 425-788-0412 lgreen22@mindspring.com - -----Original Message----- From: owner-ibis-users@eda.org [mailto:owner-ibis-users@eda.org] On Behalf Of Vivek Kumar Sundriyal Sent: Friday, May 20, 2005 3:22 AM To: ibis-users@eda.org; owner-ibis-users@eda.org Subject: [IBIS-Users] problem with the rising and falling waveforms Hi , On running the IBISCHK4 on a generated IBIS model, I get the following error : ERROR - Model K3B07LG24Q7_QQ60: The [Rising Waveform] with [R_fixture]=100 Ohms and [V_fixture_max]=0V has MAX column DC endpoints of 0.00V and 3.46v, but an equivalent load applied to the model's I-V tables yields different voltages ( 0.00V and 4.23V), a difference of 0.03% and 18.33%, respectively. ERROR - Model K3B07LG24Q7_QQ60: The [Rising Waveform] with [R_fixture]=100 Ohms and [V_fixture_max]=3.6V has MAX column DC endpoints of 0.11V and 3.60v, but an equivalent load applied to the model's I-V tables yields different voltages ( 0.11V and 4.40V), a difference of 0.04% and 18.69%, respectively. Can anyone guide me on the cause of this error ? And how can I get over with it ? Thanks , Vivek |------------------------------------------------------------------ |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, 20 May 2005 11:13:33 -0700 From: "Tom Dagostino" Subject: RE: [IBIS-Users] problem with the rising and falling waveforms Lets try some simple evaluation first. 1, Have you done any analysis of your tables? Have you plotted the VT and IV curves? Do they look reasonable? Do you know what reasonable is for this buffer? Do the transitions complete? Is there sufficient number of points in all curves? Are the IV curves what you expect? If the buffer is a CMOS totem pole does the pullup have zero current at Vdd? Do you have reasonable clamp curves? 2, do you find it funny that you have a buffer that has a 3.6 volt supply (I assume that because your termination voltage V_fixtrue_max is usually Vdd) but your IV curve load line is predicting 4.4V? 3, Is your setup for simulation correct? Do you have the proper supplies to the proper nodes? Tom Dagostino Teraspeed Labs 13610 SW Harness Lane Beaverton, OR 97008 503-430-1065 http://www.teraspeed.com tom@teraspeed.com Teraspeed Consulting Group LLC 121 North River Drive Narragansett, RI 02882 401-284-1827 Teraspeed is the registered service mark of Teraspeed Consulting Group LLC - -----Original Message----- From: owner-ibis-users@eda.org [mailto:owner-ibis-users@eda.org]On Behalf Of lgreen Sent: Friday, May 20, 2005 10:51 AM To: 'Vivek Kumar Sundriyal'; ibis-users@eda.org; owner-ibis-users@eda.org Subject: RE: [IBIS-Users] problem with the rising and falling waveforms Hi, Vivek, Two items: 1) The V-t curves should have "zero slope" at both ends. 2) There I-V tables need a small enough step size so the linear interpolation is accurate where the load line crosses. Either (or both) of those could cause the parser report that you are seeing. Drawing a load line on the I-V table can help identify the problem. Another thought: Is 100 Ohms the usual transmission line impedance for designs using this device? Is this same resistance used for the [Ramp] section? Best regards, Lynne "IBIS training when you need it, where you need it." Dr. Lynne Green Green Streak Programs http://www.greenstreakprograms.com 425-788-0412 lgreen22@mindspring.com - -----Original Message----- From: owner-ibis-users@eda.org [mailto:owner-ibis-users@eda.org] On Behalf Of Vivek Kumar Sundriyal Sent: Friday, May 20, 2005 3:22 AM To: ibis-users@eda.org; owner-ibis-users@eda.org Subject: [IBIS-Users] problem with the rising and falling waveforms Hi , On running the IBISCHK4 on a generated IBIS model, I get the following error : ERROR - Model K3B07LG24Q7_QQ60: The [Rising Waveform] with [R_fixture]=100 Ohms and [V_fixture_max]=0V has MAX column DC endpoints of 0.00V and 3.46v, but an equivalent load applied to the model's I-V tables yields different voltages ( 0.00V and 4.23V), a difference of 0.03% and 18.33%, respectively. ERROR - Model K3B07LG24Q7_QQ60: The [Rising Waveform] with [R_fixture]=100 Ohms and [V_fixture_max]=3.6V has MAX column DC endpoints of 0.11V and 3.60v, but an equivalent load applied to the model's I-V tables yields different voltages ( 0.11V and 4.40V), a difference of 0.04% and 18.69%, respectively. Can anyone guide me on the cause of this error ? And how can I get over with it ? Thanks , Vivek |------------------------------------------------------------------ |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 |------------------------------------------------------------------ |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, 20 May 2005 17:28:37 -0500 (CDT) From: CW - Doran David Subject: [IBIS-Users] question: Diff pin tdelay_typ values - --Watch_of_Nightingales_173_000 Content-Type: TEXT/plain; charset=us-ascii Content-MD5: mbDiTNHSUj8kH9k8nelrGw== Just want to ask about the [Diff Pin] entry under the tdelay_typ/tdelay_min/tdelay_max columns. IBIS spec says these are the "launch delays of the non-inverting pins relative to the inverting pins". So is this just the difference in prop delays between the non-inverting & inverting pins ? Below is sample waveforms. Do I just measure the difference in delays between the red & white signals and use that for my "tdelay" values ? Since it's relative to the inverting pin, looks like tdelay is * positive if non-inverting pin lags the inverting pin * negative if non-inverting pin leads the inverting pin Thanks, Below is example. [Diff Pin] inv_pin vdiff tdelay_typ tdelay_min tdelay_max |--------- ------- ----- ---------- ---------- ---------- P N 0.20V 0.020ns 0.020ns 0.020ns ------ from IBIS spec : | The fourth, fifth, and sixth columns, | tdelay_typ, tdelay_min, and tdelay_max, contain launch delays | of the non-inverting pins relative to the inverting pins. 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Content-Type: text/plain Content-Transfer-Encoding: 7bit The enclosed BIRD98: Gate Modulation Effect (table format), is submitted on behalf of Arpad Muranyi of Intel Corp. It will be discussed at the June 3rd, 2005 IBIS Open Forum teleconference. 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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 May 2005 11:15:50 -0700 From: "Mirmak, Michael" Subject: [IBIS-Users] BIRD97.2: Gate Modulation Effect This is a multi-part message in MIME format. - ------_=_NextPart_001_01C5621E.F2BB54B5 Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: quoted-printable The enclosed updated BIRD, Gate Modulation Effect, is issued on behalf of Arpad Muranyi. It will be discussed at the June 3, 2005 IBIS Open Forum teleconference. - - Michael Mirmak Intel Corp. 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http://www.eda.org/pub/ibis/email/ E-mail since 1993 ------------------------------ Date: Thu, 26 May 2005 15:51:00 -0500 (CDT) From: CW - Doran David Subject: [IBIS-Users] [RAMP] for differential output LVDS Hello experts: I'm simulating a LVDS driver that has differential outputs (one inverting and one non-inverting) and trying to get my [RAMP] data for IBIS model. Typically, IBIS spec says to place 50-ohm resistor to Vdd for down-ramp, and 50-ohm resistor to Vss for the up-ramp. However, the vendor spec for all timing & waveforms says to place a 100-ohm termination between the two outputs. So in this case, can I ignore the IBIS spec and not use the Vdd & Vss resistor, but use a resistor between the two outputs instead ? Also, same question for my AC test fixture for rising & falling waveforms: is it OK to ignore the IBIS spec and not use the Vdd & Vss R_fixture but use a 100-ohm termination between the two outputs ? I'm confuse here since IBIS test fixture for rising & falling waveforms requires listing a R_fixture, V_fixture, C_fixture... and none of these are for the connection between outputs. They are only for connecting to V_fixture, which I don't have. So I cannot even specify a V_fixture in this case with termination between the two outputs. Also, the IBIS spec mentions "true differential models" in Section 6b with model types Input_diff, Output_diff, I/O_diff, and 3-state_diff... but not sure this applies to my LVDS driver. My spec simply states that this driver must have a 50-ohm transmission line for each output, and then terminated by 100-ohm resistor across the outputs at the far end. any inputs appreciated! If it helps, below are my model types used for each output (P & N) : [Model] TX1P Model_type Output Polarity Non-Inverting Enable Active-Low Vmeas = 1.200V Rref = 50.000 .... [Model] TX1N Model_type Output Polarity Inverting Enable Active-Low Vmeas = 1.200V Rref = 50.000 Cref = 0.000pF .... |------------------------------------------------------------------ |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 May 2005 15:32:46 -0700 From: "Tom Dagostino" Subject: RE: [IBIS-Users] [RAMP] for differential output LVDS For LVDS IBIS models we use two 50 Ohm resistors, one each from each output of the LVDS driver. The other end of each resistor is tied to Vcm of the driver. This gives a set of waveforms that match the expected operating conditions the driver will see. You can also tie those resistors to Vouthi and Voutlo of the output to get waveforms that best approximate the IBIS gnd/vcc conditions. I would not use a termination to ground or vcc for LVDS modeling. In all three cases above V_fixture is the termination voltage, Vcm, Vouthi, Voutlo. The resistor is 50 Ohms and never use a C_fixture in a model. My experience is they cause simulators to fail. If you feel the need to put C_fixture in make it equal to 0.00 pF. - -----Original Message----- From: owner-ibis-users@eda.org [mailto:owner-ibis-users@eda.org]On Behalf Of CW - Doran David Sent: Thursday, May 26, 2005 1:51 PM To: ibis-users@eda.org Subject: [IBIS-Users] [RAMP] for differential output LVDS Hello experts: I'm simulating a LVDS driver that has differential outputs (one inverting and one non-inverting) and trying to get my [RAMP] data for IBIS model. Typically, IBIS spec says to place 50-ohm resistor to Vdd for down-ramp, and 50-ohm resistor to Vss for the up-ramp. However, the vendor spec for all timing & waveforms says to place a 100-ohm termination between the two outputs. So in this case, can I ignore the IBIS spec and not use the Vdd & Vss resistor, but use a resistor between the two outputs instead ? Also, same question for my AC test fixture for rising & falling waveforms: is it OK to ignore the IBIS spec and not use the Vdd & Vss R_fixture but use a 100-ohm termination between the two outputs ? I'm confuse here since IBIS test fixture for rising & falling waveforms requires listing a R_fixture, V_fixture, C_fixture... and none of these are for the connection between outputs. They are only for connecting to V_fixture, which I don't have. So I cannot even specify a V_fixture in this case with termination between the two outputs. Also, the IBIS spec mentions "true differential models" in Section 6b with model types Input_diff, Output_diff, I/O_diff, and 3-state_diff... but not sure this applies to my LVDS driver. My spec simply states that this driver must have a 50-ohm transmission line for each output, and then terminated by 100-ohm resistor across the outputs at the far end. any inputs appreciated! If it helps, below are my model types used for each output (P & N) : [Model] TX1P Model_type Output Polarity Non-Inverting Enable Active-Low Vmeas = 1.200V Rref = 50.000 .... [Model] TX1N Model_type Output Polarity Inverting Enable Active-Low Vmeas = 1.200V Rref = 50.000 Cref = 0.000pF .... |------------------------------------------------------------------ |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 May 2005 09:15:22 -0700 From: "Mirmak, Michael" Subject: [IBIS-Users] Agenda, IBIS Open Forum teleconference for June 3, 2005 IBIS Open Forum Meeting Agenda for June 3, 2005 Telephone Number Bridge Passcode 1-916-356-2663 1 372-4753 All meetings are 8:00 AM to 9:55 AM US Pacific Time. When calling into the meeting, provide the bridge number and passcode at the automated prompts. If asked by an operator, please request to join the IBIS Open Forum hosted by Michael Mirmak. For international numbers, please contact Michael Mirmak. 8:00 Check-In, Intros, Announcements Mirmak - Intros of New IBIS Participants, Meeting Quorum Mirmak - Call for Patents (IBIS 4.0, 4.1, ICM) Mirmak - Membership Update and Treasurer's Report Mirmak - Review of Previous Meeting's Minutes (and ARs) Mirmak May 13, 2005 Open Forum Minutes - Press & Web Page Updates Huq, All - Models Library Update Wang - Miscellaneous Announcements Mirmak - Opens for New Issues All 8:15 Administrative and Project Discussions Mailing List Administration Ross International/External Progress - IEC TC47 Ross - Other activities All EIA/ANSI Approval Activities Wolff Summit Planning - DAC 2005 Summit Update Mirmak - DesignCon East Summit Update All - China Summit Update Wang/Ross - Other events All IBIS Version 4.1 Parser Status Ross - Call for vote on $2500 parser fee ICM 1.1 Specification and Parser Status Green/Mirmak - Second Formal "Reading" Committee Reports - Quality Committee Haller - Model Review Committee Green - Futures Committee Huq/Mirmak - Cookbook Committee Huq/Mirmak S2IBIS3 Status Varma/Ross New Administrative Issues All 8:45 Technical Discussion BIRD94.1: Clarifications on [Diff Pin] Parameters Muranyi BIRD95.5: Power Integrity Analysis Using IBIS Huq BIRD97.2: Gate Modulation Effect Muranyi BIRD98: Gate Modeulation Effect (table format) Muranyi IBISCHK4 BUG Status Mirmak/Angulo ICMCHK1 BUG Status Green New Technical Issues All 9:50 Wrap Up and Next Meeting Plans Mirmak - June 14, 2005 DAC IBIS Summit - June 24, 2005 IBIS Open Forum 9:55 Sign Off |------------------------------------------------------------------ |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 May 2005 11:11:19 -0700 From: Syed Huq Subject: [IBIS-Users] IBIS Summit Final Call for Papers - DAC June14th, 2005, Anaheim CA - ----------------------------------------------------------------------- IBIS SUMMIT FINAL CALL FOR PARTICIPATION & PRESENTATIONS - ----------------------------------------------------------------------- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ I B I S S U M M I T M E E T I N G Time/Date: Tuesday June 14, 2005, 8:00 AM to 5:00 PM Location: Anaheim Marriott 700 West Convention Way Anaheim, California 92802-3483 Content: Presentations and Discussions Purpose: Solicit and Exchange IBIS Model Related Information and Ideas. Sponsors: IBIS Open Forum Cadence Design Systems Mentor Graphics If your company would be interested in co-sponsoring this event, please contact Syed Huq . DAC: June 13-17, 2005 Anaheim Convention Center Anaheim, California FREE Exhibit Pass is available on Monday only. See for more information. BACKGROUND The Design Automation Conference (DAC) is the premier Electronic Design Automation (EDA) and silicon solution event. DAC features over 50 technical sessions covering the latest in design methodologies and EDA tool developments in addition to an exhibit floor, with combined booth and demo suites, showcasing over 200 of the leading EDA, silicon and IP providers. Topics of current interest to the EIA IBIS Open Forum are addressed at DAC. This meeting will be conducted as a formal IBIS Summit Meeting. Presentations are expected to be available and archived in an electronic format, and minutes of the meeting will be issued. Any pending formal decisions (votes) will be announced at least two weeks prior to the meeting. The annual election of officers will be held. Nominations can be sent to Syed Huq or made at the meeting. Current Nominees are: Chair - Michael Mirmak, Intel Vice-Chair - Syed Huq, Cisco Systems, Inc Secretary - Randy Wolff, Micron Techonology Librarian - Lance Wang, Cadence Design Systems Webmaster - Syed Huq, Cisco Systems, Inc Postmaster - Bob Ross, Teraspeed Consulting Group CALL FOR PARTICIPANTS People involved in IBIS Model development, EDA tool development, and digital circuit design are invited to participate to the Summit meeting. If you plan to participate, please register with the information below: Name: E-mail address: Company: Telephone: Send to: Syed Huq at Cisco Systems, Inc (shuq@cisco.com) CALL FOR PRESENTATIONS We are seeking presentations from individuals who have IBIS experiences or issues. Format of Presentation: LCD Projection with Windows laptop. Time: 15-30 Minutes Electronic Archival: We request electronic versions so that the presentations can be archived and also made available to non-attendees. Formats used in the past have been text, Power Point, Word, Postscript, and Acrobat. Electronic presentations should be made available by June 7, 2004 for uploading and copying to the presentation laptop. If you plan a presentation, please supply Title: Presenter: E-mail address: Company: Telephone: Estimate Time: Send this to: Syed Huq (shuq@cisco.com) AGENDA The agenda includes presentations, discussions, breaks, and a luncheon (which will be provided). This will be developed as presentation proposals are received. The following individuals have signed up to present at the summit (presentation titles are tentative). - IBIS Chair's Report, Michael Mirmak, Intel - Library Modeling Project at Silicon Integration Initiative (Si2), Sumit Dasgupta, Si2 - Multi-Gigabit SerDes Analysis using IBISv4.1/VHDL-AMS, Syed Huq/Ian Dodd, Cisco Systems, Inc & Mentor Graphics - TBD, Arpad Muranyi, Intel - Things you can learn from V-I curves, Todd Westerhoff, Cisco Systems, Inc - BIRD95.5 and multi-buffer simulation, Zhiping Yang, Cisco Systems, Inc - YourNameHere - You LIST OF NEARBY HOTELS See for travel directions, hotels and other information. |------------------------------------------------------------------ |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: Wed, 01 Jun 2005 05:49:29 +0000 From: "lau yy" Subject: [IBIS-Users] maximum current flows

Dear ALL,

Recently, I have faced the maximumcurrent flows warning. Do anyone know what actual the main cause?

I suspect is the R package/ R _pin value that is too small. I try to replace some larger value

and simulate again. I found that the problems gone. Is it that mean the problem cause by the R?

Below are the message the shown after use ibischk3.

WARNING - Model 'A22': Extreme currents present in TYP GND_Clamp VI Curve
(-23.94A @ -1.5V)
WARNING - Model 'A22': Extreme currents present in MIN GND_Clamp VI Curve
(-26.24A @ -1.5V)
WARNING - Model 'A22': Extreme currents present in MAX GND_Clamp VI Curve
(-22.08A @ -1.5V)
WARNING - Model 'OEB': Extreme currents present in TYP GND_Clamp VI Curve
(-15.92A @ -1.5V)
WARNING - Model 'OEB': Extreme currents present in MIN GND_Clamp VI Curve
(-17.48A @ -1.5V)
WARNING - Model 'OEB': Extreme currents present in MAX GND_Clamp VI Curve
(-14.66A @ -1.5V)
WARNING - Model 'CLK': Extreme currents present in TYP GND_Clamp VI Curve
(-3.133e+11A @ -1.5V)
WARNING - Model 'CLK': Extreme currents present in MIN GND_Clamp VI Curve
(-4.438e+10A @ -1.5V)
WARNING - Model 'CLK': Extreme currents present in MAX GND_Clamp VI Curve
(-3.558e+12A @ -1.5V)

Any comments on this?

Rdgs

YYLAU

|------------------------------------------------------------------ |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: Wed, 1 Jun 2005 11:37:30 +0530 From: Subject: RE: [IBIS-Users] maximum current flows This is a multi-part message in MIME format. - ------_=_NextPart_001_01C56670.320F4E41 Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: quoted-printable Hello yylau, =0D I think the problem can be resolved by doing the folowing: 1)In your s2i file check out for the name of your output buffer under the pins header.=0D for eg.=0D [Pin] 1 dout dout output In this case the output buffer name is "dout" =0D 2)Once you know this,you then open the netlist.sp and add the following statement : =0D rohm dout dout_pad 2.0 =0D What this statement does is that it will insert a resistance of 2.0ohms between your old output buffer "dout" and your new output buffer named "dout_pad" This will help you reduce the high currents you are getting and should eliminate all the errors during ibischk. =0D 3)After making this change in the netlist.sp go back to the s2i file and change the name of the output buffer to dout_pad as this is your new output buffer. 4)You can now run the s2ibis script. =0D The value of the resistance can be adjusted till you get the desired result. =0D =0D Hope this helps. =0D regards, Nilimp Bhatt ________________________________ From: owner-ibis-users@eda.org [mailto:owner-ibis-users@eda.org] On Behalf Of lau yy Sent: Wednesday, June 01, 2005 11:19 AM To: ibis-users@eda.org Subject: [IBIS-Users] maximum current flows Dear ALL, =0D Recently, I have faced the maximumcurrent flows warning. Do anyone know what actual the main cause? =0D I suspect is the R package/ R _pin value that is too small. I try to replace some larger value=0D and simulate again. I found that the problems gone. Is it that mean the problem cause by the R? =0D Below are the message the shown after use ibischk3. =0D WARNING - Model 'A22': Extreme currents present in TYP GND_Clamp VI Curve=0D (-23.94A @ -1.5V) WARNING - Model 'A22': Extreme currents present in MIN GND_Clamp VI Curve=0D (-26.24A @ -1.5V) WARNING - Model 'A22': Extreme currents present in MAX GND_Clamp VI Curve=0D (-22.08A @ -1.5V) WARNING - Model 'OEB': Extreme currents present in TYP GND_Clamp VI Curve=0D (-15.92A @ -1.5V) WARNING - Model 'OEB': Extreme currents present in MIN GND_Clamp VI Curve=0D (-17.48A @ -1.5V) WARNING - Model 'OEB': Extreme currents present in MAX GND_Clamp VI Curve=0D (-14.66A @ -1.5V) WARNING - Model 'CLK': Extreme currents present in TYP GND_Clamp VI Curve=0D (-3.133e+11A @ -1.5V) WARNING - Model 'CLK': Extreme currents present in MIN GND_Clamp VI Curve=0D (-4.438e+10A @ -1.5V) WARNING - Model 'CLK': Extreme currents present in MAX GND_Clamp VI Curve=0D (-3.558e+12A @ -1.5V) =0D Any comments on this? =0D =0D Rdgs YYLAU |------------------------------------------------------------------ |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=0D Confidentiality Notice=0D The information contained in this electronic message and any attachments to= this message are intended for the exclusive use of the addressee(s) and may contain confidential or= privileged information. If you are not the intended recipient, please notify the sender at Wipro or= Mailadmin@wipro.com immediately and destroy all copies of this message and any attachments. - ------_=_NextPart_001_01C56670.320F4E41 Content-Type: text/html; charset="us-ascii" Content-Transfer-Encoding: quoted-printable

Hello yylau,

I think the problem can be resolved by doing the= =0D folowing:

1)In your s2i file check out for the name of= your=0D output buffer under the pins header.

for eg.

[Pin]

1 dout dout output

In this case the output buffer name is=0D "dout"

2)Once you know this,you then open the= netlist.sp=0D and add the following statement :

rohm dout dout_pad 2.0

What this statement does is that it will= insert a=0D resistance of 2.0ohms between your old output buffer "dout" and your= new=0D output buffer named "dout_pad"

This will help you reduce the high currents you= are=0D getting and should eliminate all the errors during=0D ibischk.

3)After making this change in the netlist.sp go= back to=0D the s2i file and change the name of the output buffer to dout_pad as this= is=0D your new output buffer.

4)You can now run the s2ibis=0D script.

The value of the resistance can be adjusted till= you=0D get the desired result.

Hope this helps.

regards,

Nilimp= Bhatt

From: owner-ibis-users@eda.org=0D [mailto:owner-ibis-users@eda.org] On Behalf Of lau= yy
Sent:=0D Wednesday, June 01, 2005 11:19 AM
To:=0D ibis-users@eda.org
Subject: [IBIS-Users] maximum current=0D flows

Dear ALL,

Recently, I have faced the maximumcurrent flows= warning. Do=0D anyone know what actual the main cause?

I suspect is the R package/ R _pin value that is too= =0D small. I try to replace some larger value

and simulate again. I found that the problems gone.= Is it=0D that mean the problem cause by the R?

Below are the message the shown after use= ibischk3.

WARNING - Model 'A22': Extreme currents present in= TYP=0D GND_Clamp VI Curve
(-23.94A @ -1.5V)
WARNING - Model= 'A22':=0D Extreme currents present in MIN GND_Clamp VI Curve
(-26.24A @=0D -1.5V)
WARNING - Model 'A22': Extreme currents present in= MAX=0D GND_Clamp VI Curve
(-22.08A @ -1.5V)
WARNING - Model= 'OEB':=0D Extreme currents present in TYP GND_Clamp VI Curve
(-15.92A @=0D -1.5V)
WARNING - Model 'OEB': Extreme currents present in= MIN=0D GND_Clamp VI Curve
(-17.48A @ -1.5V)
WARNING - Model= 'OEB':=0D Extreme currents present in MAX GND_Clamp VI Curve
(-14.66A @=0D -1.5V)
WARNING - Model 'CLK': Extreme currents present in= TYP=0D GND_Clamp VI Curve
(-3.133e+11A @ -1.5V)
WARNING - Model= =0D 'CLK': Extreme currents present in MIN GND_Clamp VI Curve=
(-4.438e+10A=0D @ -1.5V)
WARNING - Model 'CLK': Extreme currents present in= MAX=0D GND_Clamp VI Curve
(-3.558e+12A @ -1.5V)

Any= comments on=0D this?

Rdgs

YYLAU

|------= - ------------------------------------------------------------=0D |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just= the=0D appropriate command message(s) in the body: | | help | subscribe ibis= | subscribe ibis-users | unsubscribe ibis |= =0D unsubscribe ibis-users | |or email a= =0D written request to ibis-request@eda.org. | |IBIS reflector archives exist= under:=0D | | http://www.eda.org/pub/ibis/email_archive/ Recent |=0D http://www.eda.org/pub/ibis/users_archive/ Recent |=0D http://www.eda.org/pub/ibis/email/ E-mail since 1993=0D

Confidentiality Notice

The information contained in this electronic message and any attachments to= this message are intended
for the exclusive use of the addressee(s) and may contain confidential or= privileged information. If
you are not the intended recipient, please notify the sender at Wipro or= Mailadmin@wipro.com immediately
and destroy all copies of this message and any attachments.

- ------_=_NextPart_001_01C56670.320F4E41-- |------------------------------------------------------------------ |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: Wed, 1 Jun 2005 09:55:54 -0400 From: "Andrew Ingraham" Subject: [IBIS-Users] Re: maximum current flows This is a multi-part message in MIME format. - ------=_NextPart_000_0132_01C56690.19ECCBC0 Content-Type: text/plain; charset="Windows-1252" Content-Transfer-Encoding: quoted-printable It is unlikely that the silicon of your chip is actually capable of = sourcing that much current. 26 amps is a lot. 3 tera-amps is = impossible. More likely, you created this IBIS model from SPICE, and your SPICE = models are the problem. Your SPICE models give unrealistically large = currents, probably in the clamp diodes. It is not that uncommon to find SPICE models where the diodes do not = include any series resistance. I'll bet that's what's wrong with your = SPICE model. All diodes have some resistance. Don't fix your problem by blindly adding package resistance. Find out = where the model is wrong (clamp diodes, transistor models, a scale = factor mistake, package resistance, etc.), and then go about fixing it. = Fix what's wrong; but don't stick on a "band-aid" that happens to make = the warnings go away. If you have a package resistance you thought was = OK, don't change it unless you can prove the resistance was wrong. Regards, Andy - ------=_NextPart_000_0132_01C56690.19ECCBC0 Content-Type: text/html; charset="Windows-1252" Content-Transfer-Encoding: quoted-printable

It is unlikely that the silicon of = your chip=20 is actually capable of sourcing that much=20 current. 26 amps is a lot. 3 tera-amps is = impossible.

More likely, you created this IBIS = model from=20 SPICE, and your SPICE models are the problem. Your SPICE=20 models give unrealistically large currents, probably in the clamp=20 diodes.

It is not that uncommon to find SPICE = models where=20 the diodes do not include any series resistance. I'll bet that's = what's=20 wrong with your SPICE model. All diodes=20 have some resistance.

Don't fix your problem by blindly=20 adding package resistance. Find out where the model is wrong = (clamp=20 diodes, transistor models, a scale factor mistake, package resistance, = etc.),=20 and then go about fixing it. Fix what's wrong; but don't stick on = a=20 "band-aid" that happens to make the warnings go away. If you have = a=20 package resistance you thought was OK, don't change it unless you = can prove=20 the resistance was wrong.

Regards,

Andy

- ------=_NextPart_000_0132_01C56690.19ECCBC0-- |------------------------------------------------------------------ |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, 3 Jun 2005 01:05:03 -0500 (CDT) From: CW - Doran David Subject: [IBIS-Users] question regarding LVDS buffer validation - --Unkindness_of_Ravens_675_000 Content-Type: TEXT/plain; charset=us-ascii Content-MD5: wyQuRGjOpBjFap1sjbDY7A== Hello experts, I just made a model for a LVDS driver, attached below. Driver has data input "D" and two outputs : P is non-inverting N is inverting I'm trying to validate the model by simulating it together with Spice netlist of the model. Red line is netlist; white line is IBIS model. As you can see, the first transition is an excellent match but 2nd one has a delay. 1st plot or the "P" signals shows good match on L-H transition but IBIS model is too fast on H-L transition 2nd plot or the "N" signals shows good match on H-L transition but IBIS model is too fast on L-H transition. Since the problem is symmetric, I thought maybe someone can tell me why this occurs. I don't understand why 1st transition is very good match but 2nd is too early for IBIS (white signal). Any hints appreciated. Model attached, and passed the 4.1 parser except for warnings on the DC load line (waveforms vs. IV data). 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(TAEC) All | rights reserved except those specifically granted below. You may | REPRODUCE this IBIS model as reasonably necessary to make bona-fide | backup copies. You may not prepare DERIVATIVE WORKS from this IBIS model. | You may not DISTRIBUTE this IBIS model. These rights are granted to you, | and you may grant 100% of these rights to another party, in which case | they would have 100% of these rights and you would retain none of these | rights. This is a grant of Toshiba America Electronic Components Inc. | copyright rights under U.S. USC 106A and requires no acceptance on your part. | [IBIS ver] 3.2 [File name] zelv16tx1.ibs [File Rev] 1.0 [Date] June 3, 2005 | [Source] HSPICE Simulations using HSPICE version W-2004.09, Generated by: TOSHIBA DALLAS DESIGN CENTER | [Notes] Based on Toshiba 0.11um CMOS LVDS TX1 Driver. Package parasitics included. Includes two rising & two falling waveforms for each P & N output model. Passes IBIS Checker V4.1.1. | [Disclaimer] THIS IBIS MODEL HAS BEEN CREATED BY HSPICE SIMULATIONS. THESE IBIS MODELS ARE PROVIDED "AS IS" WITH NO WARRANTY WHATSOEVER AND TAEC SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE,OR AGAINST INFRINGEMENT. | [Copyright] Copyright 2005 Toshiba America Electronic Components Inc. | |************************************************************************ | Component DDP3020 |************************************************************************ | [Component] DDP3020 [Manufacturer] Toshiba America Electronic Components [Package] | variable typ min max | ------- ------- ------- R_pkg 0.148 0.113 0.182 L_pkg 4.571n 3.506n 5.636n C_pkg 1.138p 0.873p 1.403p | [Pin] signal_name model_name R_pin L_pin C_pin |---- ----------- ---------- ----- ----- ----- P OUT_P TX1P N OUT_N TX1N VDD VDD POWER VSS VSS GND | [Diff Pin] inv_pin vdiff tdelay_typ tdelay_min tdelay_max |--------- ------- ----- ---------- ---------- ---------- P N 0.20V -0.031ns 0.000ns -0.044ns | | Note: "tdelay_*" contain launch delays of the non-inverting pins | relative to the inverting pins (delayP - delayN). The | values can be of either polarity. | |************************************************************************ | Model TX1P |************************************************************************ | [Model] TX1P Model_type Output Polarity Non-Inverting Enable Active-Low Vmeas = 1.200V Rref = 50.000 Cref = 0.000pF C_comp 2.5730pF 2.5490pF 2.6100pF | [Temperature Range] 25.0000 125.000 -40.000 [Voltage Range] 1.5000V 1.4000V 1.6000V | [Pulldown] | Voltage I(typ) I(min) I(max) | ----------- ----------- ----------- ---------- -1.500000 -181.739234m -124.836335m -417.503739m -1.454545 -143.704616m -107.366577m -353.262384m -1.409091 -121.580683m -98.021669m -291.979805m -1.363636 -109.983428m -92.665916m -233.015491m -1.318182 -102.407228m -88.417527m -183.183224m -1.272727 -98.852081m -85.276503m -142.483005m -1.227273 -95.493824m -82.233711m -117.536158m -1.181818 -92.332455m -79.289150m -108.342682m -1.136364 -89.168232m -76.359212m -101.989568m -1.090909 -86.001155m -73.443896m -98.476816m -1.045455 -82.826515m -70.539890m -94.995350m -1.000000 -79.644311m -67.647193m -91.545171m -954.545455m -76.456415m -64.768405m -88.073537m -909.090909m -73.262826m -61.903528m -84.580448m -863.636364m -70.066081m -59.055582m -81.065661m -818.181818m -66.866178m -56.224569m -77.529174m -772.727273m -63.666490m -53.413804m -73.972438m -727.272727m -60.467018m -50.623289m -70.395452m -681.818182m -57.272292m -47.856903m -66.801300m -636.363636m -54.082312m -45.114646m -63.189982m -590.909091m -50.903142m -42.401287m -59.566709m -545.454545m -47.734782m -39.716827m -55.931482m -500.000000m -44.585388m -37.067381m -52.292362m -454.545455m -41.454962m -34.452948m -48.649350m -409.090909m -38.354699m -31.881743m -45.014683m -363.636364m -35.284602m -29.353765m -41.388363m -318.181818m -32.260683m -26.880735m -37.789391m -272.727273m -29.282942m -24.462651m -34.217768m -227.272727m -26.375939m -22.117605m -30.704769m -181.818182m -23.539674m -19.845597m -27.250393m -136.363636m -20.816293m -17.677455m -23.911809m -90.909091m -18.205796m -15.613179m -20.689017m -45.454545m -15.790963m -13.709089m -17.703841m 0.000000 -13.571794m -11.965185m -14.956281m 45.454545m -11.623163m -10.403346m -12.612306m 90.909091m -9.945070m -9.023573m -10.671915m 136.363636m -8.585123m -7.834852m -9.210590m 181.818182m -7.543321m -6.837182m -8.228331m 227.272727m -6.720416m -6.020036m -7.441497m 272.727273m -6.116409m -5.383413m -6.850087m 318.181818m -5.559182m -4.822449m -6.284714m 363.636364m -5.048734m -4.337145m -5.745376m 409.090909m -4.547630m -3.866992m -5.211697m 454.545455m -4.055871m -3.411989m -4.683676m 500.000000m -3.568061m -2.958176m -4.158034m 545.454545m -3.084201m -2.505554m -3.634770m 590.909091m -2.601204m -2.039742m -3.113359m 636.363636m -2.119069m -1.560739m -2.593800m 681.818182m -1.624473m -1.038762m -2.075419m 727.272727m -1.117417m -473.811404u -1.558215m 772.727273m -549.312460u 161.739617u -1.031341m 818.181818m 79.839111u 867.890881u -494.795724u 863.636364m 836.090773u 1.607738m 116.278087u 909.090909m 1.719443m 2.381281m 801.880915u 954.545455m 2.654153m 3.109617m 1.688686m 1.000000 3.640222m 3.792744m 2.776694m 1.045455 4.521305m 4.410099m 3.941969m 1.090909 5.297402m 4.961681m 5.184511m 1.136364 5.970116m 5.473212m 6.238560m 1.181818 6.539448m 5.944691m 7.104116m 1.227273 7.067868m 6.397066m 7.828597m 1.272727 7.555374m 6.830338m 8.412001m 1.318182 8.030463m 7.254734m 8.957002m 1.363636 8.493134m 7.670254m 9.463600m 1.409091 8.947368m 8.081638m 9.963435m 1.454545 9.393165m 8.488885m 10.456508m 1.500000 9.831746m 8.894375m 10.947056m 1.545455 10.263112m 9.298108m 11.435080m 1.590909 10.690754m 9.701743m 11.914445m 1.636364 11.114671m 10.105281m 12.385152m 1.681818 11.537369m 10.513078m 12.844838m 1.727273 11.958848m 10.925133m 13.293505m 1.772727 12.382479m 11.365482m 13.737130m 1.818182 12.808263m 11.834125m 14.175713m 1.863636 13.262304m 12.427859m 14.616008m 1.909091 13.744602m 13.146685m 15.058014m 1.954545 14.409526m 14.132849m 15.552881m 2.000000 15.257074m 15.386350m 16.100609m 2.045455 16.530292m 16.896012m 17.029232m 2.090909 18.229181m 18.661834m 18.338751m 2.136364 20.288930m 20.577566m 20.364739m 2.181818 22.709538m 22.643208m 23.107198m 2.227273 25.323694m 24.792064m 26.301675m 2.272727 28.131397m 27.024133m 29.948170m 2.318182 31.051642m 29.312540m 33.799287m 2.363636 34.084428m 31.657283m 37.855025m 2.409091 37.194496m 34.058657m 42.015777m 2.454545 40.381848m 36.516662m 46.281541m 2.500000 43.642112m 39.020625m 50.604477m 2.545455 46.975287m 41.570546m 54.984586m 2.590909 50.361668m 44.200554m 59.415155m 2.636364 53.801254m 46.910649m 63.896185m 2.681818 57.305982m 50.138203m 68.604102m 2.727273 60.875851m 53.883218m 73.538907m 2.772727 65.150906m 60.258605m 81.692915m 2.818182 70.131147m 69.264366m 93.066124m 2.863636 79.031422m 81.963761m 108.973124m 2.909091 91.851730m 98.356791m 129.413914m 2.954545 107.988686m 116.587808m 151.238228m 3.000000 127.442289m 136.656814m 174.446064m | [Pullup] | Voltage I(typ) I(min) I(max) | ----------- ----------- ----------- ---------- -1.500000 168.783603m 132.398636m 263.733910m -1.454545 152.602635m 120.112452m 240.024246m -1.409091 141.506833m 111.768277m 217.229048m -1.363636 133.939706m 105.840257m 195.148147m -1.318182 128.087837m 101.019270m 175.792221m -1.272727 123.951226m 97.305317m 159.161270m -1.227273 119.909721m 93.757122m 147.534773m -1.181818 115.963322m 90.374687m 140.912730m -1.136364 112.000401m 87.024104m 135.353703m -1.090909 108.020957m 83.705373m 130.857692m -1.045455 104.031565m 80.400174m 126.355697m -1.000000 100.032223m 77.108507m 121.847720m -954.545455m 96.012864m 73.823041m 117.284651m -909.090909m 91.973487m 70.543776m 112.666488m -863.636364m 87.913527m 67.267706m 107.994417m -818.181818m 83.832984m 63.994833m 103.268437m -772.727273m 79.734626m 60.726934m 98.489779m -727.272727m 75.618455m 57.464009m 93.658442m -681.818182m 71.487558m 54.208531m 88.767616m -636.363636m 67.341937m 50.960501m 83.817302m -590.909091m 63.183636m 47.723007m 78.797602m -545.454545m 59.012657m 44.496048m 73.708518m -500.000000m 54.824735m 41.282732m 68.570148m -454.545455m 50.619871m 38.083059m 63.382493m -409.090909m 46.395887m 34.897487m 58.130052m -363.636364m 42.152782m 31.726018m 52.812825m -318.181818m 37.878773m 28.561649m 47.369791m -272.727273m 33.573860m 25.404380m 41.800951m -227.272727m 29.196133m 22.234879m 36.159189m -181.818182m 24.745591m 19.053145m 30.397553m -136.363636m 20.264473m 15.851980m 24.604766m -90.909091m 15.752777m 12.631384m 18.825088m -45.454545m 11.293043m 9.442715m 13.051030m 0.000000 6.885269m 6.285973m 7.358366m 45.454545m 2.678916m 3.269715m 1.929164m 90.909091m -1.326017m 393.942344u -3.325815m 136.363636m -5.064797m -2.268685m -8.195161m 181.818182m -8.537423m -4.718167m -13.021658m 227.272727m -11.813183m -6.961636m -17.539023m 272.727273m -14.892077m -8.999094m -22.022041m 318.181818m -17.796925m -10.876347m -26.189739m 363.636364m -20.527726m -12.593396m -30.322401m 409.090909m -23.079125m -14.165230m -34.117786m 454.545455m -25.451122m -15.591848m -37.875696m 500.000000m -27.640510m -16.879633m -41.276661m 545.454545m -29.647289m -18.028585m -44.637966m 590.909091m -31.477961m -19.057103m -47.629303m 636.363636m -33.132526m -19.965186m -50.579532m 681.818182m -34.636136m -20.794560m -53.162156m 727.272727m -35.988789m -21.545225m -55.703936m 772.727273m -37.242548m -22.260660m -57.910498m 818.181818m -38.397413m -22.940865m -60.079815m 863.636364m -39.503964m -23.602705m -61.993618m 909.090909m -40.562200m -24.246180m -63.879030m 954.545455m -41.587729m -24.878230m -65.611484m 1.000000 -42.580549m -25.498855m -67.326942m 1.045455 -43.547580m -26.112306m -68.929895m 1.090909 -44.488821m -26.718581m -70.520348m 1.136364 -45.410410m -27.320198m -72.013784m 1.181818 -46.312347m -27.917156m -73.496440m 1.227273 -47.199299m -28.510971m -74.900285m 1.272727 -48.071267m -29.101643m -76.295374m 1.318182 -48.931645m -29.690139m -77.627770m 1.363636 -49.780433m -30.276460m -78.953201m 1.409091 -50.620120m -30.861660m -80.228645m 1.454545 -51.450706m -31.445740m -81.498534m 1.500000 -52.274198m -32.029475m -82.728218m 1.545455 -53.090597m -32.612864m -83.953435m 1.590909 -53.901487m -33.195965m -85.146028m 1.636364 -54.706870m -33.778776m -86.334996m 1.681818 -55.507627m -34.362611m -87.497394m 1.727273 -56.303758m -34.947471m -88.656840m 1.772727 -57.096637m -35.541067m -89.794110m 1.818182 -57.886265m -36.143397m -90.928916m 1.863636 -58.680202m -36.791540m -92.045552m 1.909091 -59.478450m -37.485496m -93.160170m 1.954545 -60.335650m -38.338676m -94.269324m 2.000000 -61.251801m -39.351082m -95.377870m 2.045455 -62.435273m -40.636266m -96.608056m 2.090909 -63.886066m -42.194230m -97.851756m 2.136364 -65.740329m -43.969610m -99.839502m 2.181818 -67.998063m -45.962407m -101.909919m 2.227273 -70.476641m -48.052809m -105.018324m 2.272727 -73.176064m -50.240816m -108.242061m 2.318182 -75.944218m -52.463481m -111.852200m 2.363636 -78.781103m -54.720804m -115.505273m 2.409091 -81.641139m -56.995139m -119.207438m 2.454545 -84.524323m -59.286486m -122.915058m 2.500000 -87.420224m -61.593277m -126.607528m 2.545455 -90.328842m -63.915512m -130.298314m 2.590909 -93.246096m -66.265344m -133.964015m 2.636364 -96.171987m -68.642774m -137.626929m 2.681818 -99.110743m -71.203138m -141.278077m 2.727273 -102.062363m -73.946435m -144.927916m 2.772727 -105.258109m -78.563772m -149.784627m 2.818182 -108.697981m -85.055148m -154.775435m 2.863636 -116.617252m -100.431562m -179.599373m 2.909091 -129.015922m -124.693012m -206.626993m 2.954545 -154.027580m -158.807779m -258.295814m 3.000000 -191.652227m -202.775863m -312.702547m | [Ramp] | variable typ min max | -------- -------------- -------------- ---------------- dV/dt_r 0.3083/90.48p 0.2482/116.11p 0.3622/64.78p dV/dt_f 0.1825/68.01p 0.1620/99.95p 0.2334/59.54p R_load = 100.0000 | [Rising Waveform] | --- P --- R_fixture =100.000 V_fixture = 1.5000 V_fixture_min = 1.4000 V_fixture_max = 1.6000 | time V(typ) V(min) V(max) | ----------- --------- --------- -------- 0.000000 1.044829 1.009311 1.086518 20.000000p 1.044829 1.009311 1.086518 40.000000p 1.044829 1.009311 1.086518 60.000000p 1.044829 1.009311 1.086518 80.000000p 1.044829 1.009311 1.086518 100.000000p 1.044829 1.009311 1.086518 120.000000p 1.044829 1.009311 1.086518 140.000000p 1.044829 1.009311 1.086518 160.000000p 1.044829 1.009311 1.086518 180.000000p 1.044829 1.009311 1.086518 200.000000p 1.044829 1.009311 1.086516 220.000000p 1.044829 1.009311 1.086526 240.000000p 1.044829 1.009311 1.086460 260.000000p 1.044828 1.009311 1.086510 280.000000p 1.044834 1.009311 1.086755 300.000000p 1.044841 1.009311 1.088159 320.000000p 1.044820 1.009311 1.084188 340.000000p 1.044784 1.009310 1.102803 360.000000p 1.044800 1.009311 1.168851 380.000000p 1.045315 1.009315 1.255852 400.000000p 1.046075 1.009324 1.360376 420.000000p 1.041807 1.009338 1.463282 440.000000p 1.037036 1.009310 1.518764 460.000000p 1.056076 1.009267 1.540470 480.000000p 1.102575 1.009241 1.550265 500.000000p 1.164803 1.009283 1.551488 520.000000p 1.235016 1.009481 1.552169 540.000000p 1.306606 1.010110 1.552459 560.000000p 1.369774 1.010321 1.553055 580.000000p 1.406933 1.008432 1.553871 600.000000p 1.429226 1.003770 1.554704 620.000000p 1.437305 997.778344m 1.555551 640.000000p 1.441616 999.880287m 1.556317 660.000000p 1.442702 1.017222 1.557026 680.000000p 1.442933 1.047298 1.557644 700.000000p 1.443511 1.086076 1.558196 720.000000p 1.444181 1.130444 1.558644 740.000000p 1.445173 1.176843 1.559016 760.000000p 1.446251 1.224037 1.559326 780.000000p 1.447337 1.263116 1.559591 800.000000p 1.448427 1.298584 1.559799 820.000000p 1.449417 1.318809 1.559964 840.000000p 1.450380 1.328807 1.560103 860.000000p 1.451168 1.335576 1.560221 880.000000p 1.451910 1.336637 1.560311 900.000000p 1.452507 1.337458 1.560381 920.000000p 1.453066 1.336761 1.560441 940.000000p 1.453482 1.336135 1.560494 960.000000p 1.453861 1.335957 1.560533 980.000000p 1.454152 1.335875 1.560562 1.000000n 1.454420 1.336398 1.560589 1.020000n 1.454609 1.336977 1.560614 1.040000n 1.454775 1.337918 1.560631 1.060000n 1.454905 1.338874 1.560643 1.080000n 1.455024 1.339924 1.560655 1.100000n 1.455104 1.340968 1.560667 1.120000n 1.455174 1.341968 1.560674 1.140000n 1.455232 1.342947 1.560677 1.160000n 1.455287 1.343793 1.560682 1.180000n 1.455323 1.344617 1.560688 1.200000n 1.455353 1.345297 1.560690 1.220000n 1.455383 1.345953 1.560689 1.240000n 1.455412 1.346460 1.560690 1.260000n 1.455429 1.346948 1.560693 1.280000n 1.455443 1.347319 1.560692 1.300000n 1.455461 1.347674 1.560690 1.320000n 1.455478 1.347927 1.560689 1.340000n 1.455487 1.348170 1.560690 1.360000n 1.455494 1.348345 1.560688 1.380000n 1.455504 1.348511 1.560685 1.400000n 1.455516 1.348622 1.560684 1.420000n 1.455520 1.348728 1.560684 1.440000n 1.455523 1.348804 1.560682 1.460000n 1.455529 1.348876 1.560679 1.480000n 1.455537 1.348922 1.560677 1.500000n 1.455539 1.348966 1.560676 1.520000n 1.455539 1.349000 1.560674 1.540000n 1.455544 1.349032 1.560672 1.560000n 1.455549 1.349052 1.560670 1.580000n 1.455550 1.349072 1.560669 1.600000n 1.455549 1.349090 1.560667 1.620000n 1.455552 1.349108 1.560665 1.640000n 1.455556 1.349118 1.560664 1.660000n 1.455556 1.349129 1.560663 1.680000n 1.455554 1.349141 1.560661 1.700000n 1.455557 1.349152 1.560660 1.720000n 1.455560 1.349159 1.560658 1.740000n 1.455560 1.349166 1.560658 1.760000n 1.455558 1.349175 1.560656 1.780000n 1.455560 1.349183 1.560655 1.800000n 1.455563 1.349187 1.560654 1.820000n 1.455563 1.349192 1.560654 1.840000n 1.455562 1.349198 1.560653 1.860000n 1.455563 1.349204 1.560652 1.880000n 1.455566 1.349207 1.560651 1.900000n 1.455566 1.349210 1.560651 1.920000n 1.455565 1.349215 1.560650 1.940000n 1.455567 1.349219 1.560649 1.960000n 1.455569 1.349221 1.560649 1.980000n 1.455569 1.349223 1.560649 | [Rising Waveform] | --- P --- R_fixture =100.000 V_fixture = 0.9250 V_fixture_min = 0.9250 V_fixture_max = 0.9250 | time V(typ) V(min) V(max) | ----------- --------- --------- -------- 0.000000 848.497858m 818.060734m 870.434332m 20.000000p 848.497861m 818.060736m 870.434335m 40.000000p 848.497857m 818.060733m 870.434330m 60.000000p 848.497855m 818.060730m 870.434329m 80.000000p 848.497856m 818.060732m 870.434331m 100.000000p 848.497855m 818.060732m 870.434329m 120.000000p 848.497853m 818.060730m 870.434326m 140.000000p 848.497850m 818.060728m 870.434334m 160.000000p 848.497851m 818.060727m 870.434418m 180.000000p 848.497898m 818.060726m 870.434231m 200.000000p 848.497931m 818.060730m 870.432621m 220.000000p 848.497771m 818.060765m 870.442496m 240.000000p 848.497214m 818.060794m 870.372149m 260.000000p 848.496585m 818.060712m 870.430425m 280.000000p 848.501748m 818.060643m 870.610238m 300.000000p 848.509080m 818.060548m 871.932077m 320.000000p 848.489948m 818.060185m 868.603215m 340.000000p 848.460364m 818.059719m 875.125209m 360.000000p 848.465350m 818.060305m 915.479653m 380.000000p 848.914035m 818.063601m 980.214365m 400.000000p 849.784512m 818.073285m 1.082543 420.000000p 846.254405m 818.088126m 1.206059 440.000000p 840.915794m 818.062512m 1.323321 460.000000p 853.829540m 818.021784m 1.390213 480.000000p 886.920456m 817.995333m 1.437910 500.000000p 929.196776m 818.027104m 1.454430 520.000000p 981.907284m 818.198230m 1.466534 540.000000p 1.049402 818.801516m 1.470393 560.000000p 1.123983 819.099072m 1.473960 580.000000p 1.193896 817.522447m 1.476980 600.000000p 1.252421 813.326947m 1.479631 620.000000p 1.288415 807.535469m 1.481591 640.000000p 1.316792 808.480376m 1.483314 660.000000p 1.330943 822.470020m 1.484598 680.000000p 1.340285 846.690642m 1.485744 700.000000p 1.346126 876.721083m 1.486636 720.000000p 1.350782 910.167932m 1.487428 740.000000p 1.354470 946.682674m 1.488035 760.000000p 1.357831 987.143584m 1.488587 780.000000p 1.360578 1.030557 1.489035 800.000000p 1.363117 1.074957 1.489433 820.000000p 1.365153 1.115814 1.489736 840.000000p 1.367019 1.146476 1.490015 860.000000p 1.368532 1.172201 1.490250 880.000000p 1.369927 1.188170 1.490457 900.000000p 1.371035 1.201810 1.490611 920.000000p 1.372048 1.209184 1.490756 940.000000p 1.372862 1.215724 1.490883 960.000000p 1.373609 1.220017 1.490994 980.000000p 1.374201 1.224051 1.491074 1.000000n 1.374739 1.227389 1.491151 1.020000n 1.375171 1.230600 1.491222 1.040000n 1.375568 1.233471 1.491283 1.060000n 1.375880 1.236223 1.491325 1.080000n 1.376164 1.238660 1.491367 1.100000n 1.376393 1.240984 1.491409 1.120000n 1.376604 1.243007 1.491444 1.140000n 1.376771 1.244922 1.491466 1.160000n 1.376923 1.246547 1.491490 1.180000n 1.377048 1.248078 1.491517 1.200000n 1.377164 1.249359 1.491538 1.220000n 1.377258 1.250561 1.491550 1.240000n 1.377343 1.251549 1.491564 1.260000n 1.377415 1.252473 1.491582 1.280000n 1.377483 1.253227 1.491596 1.300000n 1.377539 1.253929 1.491603 1.320000n 1.377590 1.254494 1.491612 1.340000n 1.377635 1.255019 1.491625 1.360000n 1.377677 1.255441 1.491635 1.380000n 1.377712 1.255832 1.491640 1.400000n 1.377745 1.256143 1.491646 1.420000n 1.377774 1.256432 1.491656 1.440000n 1.377803 1.256664 1.491664 1.460000n 1.377827 1.256880 1.491667 1.480000n 1.377849 1.257052 1.491671 1.500000n 1.377870 1.257214 1.491680 1.520000n 1.377890 1.257346 1.491686 1.540000n 1.377907 1.257470 1.491688 1.560000n 1.377924 1.257571 1.491692 1.580000n 1.377939 1.257667 1.491699 1.600000n 1.377954 1.257749 1.491705 1.620000n 1.377967 1.257826 1.491707 1.640000n 1.377980 1.257891 1.491710 1.660000n 1.377992 1.257954 1.491717 1.680000n 1.378004 1.258009 1.491721 1.700000n 1.378015 1.258062 1.491723 1.720000n 1.378026 1.258107 1.491726 1.740000n 1.378036 1.258151 1.491732 1.760000n 1.378046 1.258192 1.491737 1.780000n 1.378055 1.258230 1.491738 1.800000n 1.378065 1.258264 1.491741 1.820000n 1.378074 1.258297 1.491747 1.840000n 1.378082 1.258328 1.491751 1.860000n 1.378091 1.258358 1.491753 1.880000n 1.378099 1.258384 1.491755 1.900000n 1.378107 1.258410 1.491760 1.920000n 1.378115 1.258435 1.491764 1.940000n 1.378122 1.258458 1.491766 1.960000n 1.378130 1.258479 1.491769 1.980000n 1.378137 1.258501 1.491773 | [Falling Waveform] | --- P --- R_fixture =100.000 V_fixture = 1.5000 V_fixture_min = 1.4000 V_fixture_max = 1.6000 | time V(typ) V(min) V(max) | ---------- --------- --------- -------- 0.000000 1.455753 1.349570 1.560817 20.000000p 1.455753 1.349570 1.560817 40.000000p 1.455753 1.349570 1.560817 60.000000p 1.455753 1.349570 1.560817 80.000000p 1.455753 1.349570 1.560817 100.000000p 1.455753 1.349570 1.560817 120.000000p 1.455753 1.349570 1.560817 140.000000p 1.455753 1.349570 1.560817 160.000000p 1.455753 1.349570 1.560817 180.000000p 1.455753 1.349570 1.560817 200.000000p 1.455753 1.349570 1.560818 220.000000p 1.455753 1.349570 1.560814 240.000000p 1.455753 1.349570 1.560864 260.000000p 1.455755 1.349570 1.560790 280.000000p 1.455752 1.349570 1.560396 300.000000p 1.455739 1.349570 1.559470 320.000000p 1.455759 1.349571 1.567106 340.000000p 1.455768 1.349572 1.586820 360.000000p 1.455660 1.349572 1.585717 380.000000p 1.455564 1.349569 1.566874 400.000000p 1.454684 1.349560 1.510603 420.000000p 1.456245 1.349541 1.420740 440.000000p 1.470036 1.349554 1.318765 460.000000p 1.476929 1.349572 1.231265 480.000000p 1.472595 1.349575 1.164753 500.000000p 1.457000 1.349579 1.113345 520.000000p 1.427534 1.349552 1.080871 540.000000p 1.375266 1.349456 1.062022 560.000000p 1.307440 1.348945 1.052789 580.000000p 1.234235 1.348274 1.050477 600.000000p 1.165567 1.351024 1.051310 620.000000p 1.113727 1.359081 1.054407 640.000000p 1.066346 1.364337 1.058241 660.000000p 1.038236 1.363753 1.062605 680.000000p 1.015232 1.357822 1.066384 700.000000p 1.005347 1.346400 1.069742 720.000000p 998.939385m 1.330650 1.072434 740.000000p 999.074835m 1.309954 1.074646 760.000000p 1.000944 1.282988 1.076325 780.000000p 1.005092 1.245586 1.077620 800.000000p 1.009843 1.203538 1.078558 820.000000p 1.014730 1.155855 1.079238 840.000000p 1.019655 1.112170 1.079701 860.000000p 1.023822 1.071445 1.080008 880.000000p 1.027788 1.040541 1.080199 900.000000p 1.030793 1.011454 1.080305 920.000000p 1.033543 993.773900m 1.080354 940.000000p 1.035478 977.527885m 1.080360 960.000000p 1.037197 970.281671m 1.080342 980.000000p 1.038305 963.949874m 1.080307 1.000000n 1.039251 963.358492m 1.080263 1.020000n 1.039818 963.241739m 1.080213 1.040000n 1.040284 966.104547m 1.080162 1.060000n 1.040521 969.142645m 1.080110 1.080000n 1.040696 973.281158m 1.080060 1.100000n 1.040768 977.420730m 1.080010 1.120000n 1.040812 981.566946m 1.079963 1.140000n 1.040804 985.627835m 1.079918 1.160000n 1.040783 989.153070m 1.079875 1.180000n 1.040757 992.563106m 1.079835 1.200000n 1.040731 995.249961m 1.079796 1.220000n 1.040703 997.825911m 1.079760 1.240000n 1.040674 999.705645m 1.079726 1.260000n 1.040660 1.001493 1.079694 1.280000n 1.040650 1.002697 1.079665 1.300000n 1.040643 1.003834 1.079637 1.320000n 1.040637 1.004542 1.079612 1.340000n 1.040643 1.005203 1.079589 1.360000n 1.040652 1.005570 1.079568 1.380000n 1.040661 1.005908 1.079549 1.400000n 1.040670 1.006068 1.079533 1.420000n 1.040686 1.006211 1.079520 1.440000n 1.040705 1.006251 1.079508 1.460000n 1.040721 1.006285 1.079498 1.480000n 1.040736 1.006277 1.079491 1.500000n 1.040757 1.006267 1.079486 1.520000n 1.040779 1.006241 1.079483 1.540000n 1.040799 1.006216 1.079482 1.560000n 1.040818 1.006199 1.079483 1.580000n 1.040841 1.006184 1.079487 1.600000n 1.040865 1.006175 1.079493 1.620000n 1.040887 1.006169 1.079500 1.640000n 1.040908 1.006179 1.079510 1.660000n 1.040933 1.006190 1.079522 1.680000n 1.040959 1.006207 1.079535 1.700000n 1.040983 1.006226 1.079550 1.720000n 1.041007 1.006257 1.079568 1.740000n 1.041034 1.006287 1.079588 1.760000n 1.041062 1.006319 1.079609 1.780000n 1.041088 1.006353 1.079631 1.800000n 1.041114 1.006392 1.079656 1.820000n 1.041142 1.006432 1.079683 1.840000n 1.041172 1.006469 1.079711 1.860000n 1.041200 1.006507 1.079739 1.880000n 1.041227 1.006548 1.079771 1.900000n 1.041257 1.006590 1.079804 1.920000n 1.041288 1.006627 1.079838 1.940000n 1.041318 1.006664 1.079873 1.960000n 1.041347 1.006705 1.079910 1.980000n 1.041378 1.006745 1.079950 | [Falling Waveform] | --- P --- R_fixture =100.000 V_fixture = 0.9250 V_fixture_min = 0.9250 V_fixture_max = 0.9250 | time V(typ) V(min) V(max) | ---------- --------- --------- -------- 0.000000 1.378520 1.259335 1.492002 20.000000p 1.378520 1.259335 1.492002 40.000000p 1.378520 1.259335 1.492002 60.000000p 1.378520 1.259335 1.492002 80.000000p 1.378520 1.259335 1.492002 100.000000p 1.378520 1.259335 1.492002 120.000000p 1.378520 1.259335 1.492002 140.000000p 1.378520 1.259335 1.492002 160.000000p 1.378520 1.259335 1.492002 180.000000p 1.378520 1.259335 1.492002 200.000000p 1.378520 1.259335 1.492003 220.000000p 1.378520 1.259335 1.491999 240.000000p 1.378521 1.259335 1.492048 260.000000p 1.378522 1.259335 1.491978 280.000000p 1.378519 1.259335 1.491590 300.000000p 1.378506 1.259335 1.490668 320.000000p 1.378526 1.259336 1.498162 340.000000p 1.378537 1.259337 1.510766 360.000000p 1.378431 1.259336 1.476593 380.000000p 1.378312 1.259334 1.396325 400.000000p 1.377481 1.259325 1.302281 420.000000p 1.379273 1.259306 1.200096 440.000000p 1.390035 1.259321 1.094083 460.000000p 1.383781 1.259340 1.010517 480.000000p 1.346137 1.259344 941.383377m 500.000000p 1.282283 1.259340 897.080696m 520.000000p 1.215420 1.259290 864.038026m 540.000000p 1.146388 1.259166 852.020073m 560.000000p 1.073615 1.258707 844.472511m 580.000000p 1.001839 1.258358 845.272071m 600.000000p 936.640376m 1.261291 846.648445m 620.000000p 888.613180m 1.266995 849.101845m 640.000000p 846.390955m 1.264734 851.449542m 660.000000p 822.230001m 1.248500 853.599870m 680.000000p 804.174950m 1.215940 855.633566m 700.000000p 797.332813m 1.170969 857.449487m 720.000000p 794.281381m 1.124974 859.101137m 740.000000p 795.997981m 1.081359 860.446056m 760.000000p 799.326491m 1.040389 861.664581m 780.000000p 803.696762m 996.861190m 862.647104m 800.000000p 808.419217m 952.192376m 863.531759m 820.000000p 813.162302m 905.518904m 864.233673m 840.000000p 817.912360m 864.897045m 864.862037m 860.000000p 821.972777m 828.557240m 865.353069m 880.000000p 825.800048m 801.533122m 865.792603m 900.000000p 828.916543m 778.226886m 866.135980m 920.000000p 831.792747m 764.924063m 866.442587m 940.000000p 834.034500m 754.281639m 866.680534m 960.000000p 836.061767m 750.797340m 866.894089m 980.000000p 837.593279m 748.824646m 867.062100m 1.000000n 838.957192m 750.919109m 867.212916m 1.020000n 839.950140m 753.677718m 867.331623m 1.040000n 840.817677m 758.223295m 867.439388m 1.060000n 841.438111m 762.968575m 867.526721m 1.080000n 841.975009m 768.251181m 867.606180m 1.100000n 842.348259m 773.450448m 867.670936m 1.120000n 842.666185m 778.425481m 867.730838m 1.140000n 842.890773m 783.193923m 867.781678m 1.160000n 843.083805m 787.406509m 867.828829m 1.180000n 843.220025m 791.377432m 867.869094m 1.200000n 843.337037m 794.698131m 867.907168m 1.220000n 843.428077m 797.786033m 867.941152m 1.240000n 843.510336m 800.247567m 867.973314m 1.260000n 843.576730m 802.510902m 868.002071m 1.280000n 843.637761m 804.240961m 868.029802m 1.300000n 843.694609m 805.814754m 868.055614m 1.320000n 843.750043m 806.968098m 868.080458m 1.340000n 843.801212m 808.007486m 868.103492m 1.360000n 843.850939m 808.740264m 868.125990m 1.380000n 843.901153m 809.395223m 868.147487m 1.400000n 843.951530m 809.840799m 868.168446m 1.420000n 843.999894m 810.236869m 868.188402m 1.440000n 844.047576m 810.499739m 868.208065m 1.460000n 844.095938m 810.733865m 868.227179m 1.480000n 844.144530m 810.890655m 868.245953m 1.500000n 844.191340m 811.032158m 868.264092m 1.520000n 844.237548m 811.132530m 868.282038m 1.540000n 844.284049m 811.226864m 868.299621m 1.560000n 844.330649m 811.304948m 868.316976m 1.580000n 844.375586m 811.380991m 868.333905m 1.600000n 844.419961m 811.451537m 868.350683m 1.620000n 844.464429m 811.523194m 868.367181m 1.640000n 844.508927m 811.597840m 868.383518m 1.660000n 844.551997m 811.673391m 868.399555m 1.680000n 844.594583m 811.751376m 868.415464m 1.700000n 844.637212m 811.831362m 868.431135m 1.720000n 844.679855m 811.916731m 868.446686m 1.740000n 844.721325m 812.002570m 868.462012m 1.760000n 844.762397m 812.089675m 868.477218m 1.780000n 844.803508m 812.178067m 868.492199m 1.800000n 844.844632m 812.269917m 868.507090m 1.820000n 844.884792m 812.361325m 868.521812m 1.840000n 844.924626m 812.451541m 868.536415m 1.860000n 844.964489m 812.542386m 868.550796m 1.880000n 845.004362m 812.634922m 868.565107m 1.900000n 845.043421m 812.726439m 868.579287m 1.920000n 845.082204m 812.815216m 868.593352m 1.940000n 845.120994m 812.904330m 868.607201m 1.960000n 845.159786m 812.994352m 868.620991m 1.980000n 845.197862m 813.082997m 868.634673m | | End [Model] TX1P | |************************************************************************ | Model TX1N |************************************************************************ | [Model] TX1N Model_type Output Polarity Inverting Enable Active-Low Vmeas = 1.200V Rref = 50.000 Cref = 0.000pF C_comp 2.5450pF 2.5210pF 2.5820pF | [Temperature Range] 25.0000 125.000 -40.000 [Voltage Range] 1.5000V 1.4000V 1.6000V | [Pulldown] | Voltage I(typ) I(min) I(max) | ----------- ----------- ----------- ---------- -1.500000 -171.089240m -121.136113m -379.618741m -1.454545 -137.941334m -105.667735m -322.390954m -1.409091 -118.800905m -97.234609m -267.923518m -1.363636 -108.763720m -92.232850m -215.623629m -1.318182 -102.014718m -88.179324m -171.884980m -1.272727 -98.553900m -85.074031m -136.707570m -1.227273 -95.248368m -82.054124m -115.186674m -1.181818 -92.098120m -79.119603m -107.322290m -1.136364 -88.943958m -76.198910m -101.651912m -1.090909 -85.785882m -73.292045m -98.175540m -1.045455 -82.620427m -70.396488m -94.717461m -1.000000 -79.447593m -67.512240m -91.277674m -954.545455m -76.269257m -64.641899m -87.816612m -909.090909m -73.085419m -61.785466m -84.334274m -863.636364m -69.898592m -58.945917m -80.830590m -818.181818m -66.708775m -56.123255m -77.305558m -772.727273m -63.519317m -53.320758m -73.760655m -727.272727m -60.330216m -50.538426m -70.195879m -681.818182m -57.145968m -47.780103m -66.614324m -636.363636m -53.966572m -45.045789m -63.015990m -590.909091m -50.798040m -42.340216m -59.406068m -545.454545m -47.640373m -39.663384m -55.784556m -500.000000m -44.501655m -37.021363m -52.159458m -454.545455m -41.381885m -34.414153m -48.530774m -409.090909m -38.292161m -31.849914m -44.910631m -363.636364m -35.232483m -29.328647m -41.299029m -318.181818m -32.218722m -26.861998m -37.714780m -272.727273m -29.250879m -24.449969m -34.157884m -227.272727m -26.353310m -22.110550m -30.659292m -181.818182m -23.526014m -19.843741m -27.219003m -136.363636m -20.810817m -17.680213m -23.893605m -90.909091m -18.207719m -15.619965m -20.683098m -45.454545m -15.798928m -13.719059m -17.708146m 0.00000 -13.584445m -11.977494m -14.968750m 45.454545m -11.638783m -10.417122m -12.629712m 90.909091m -9.961943m -9.037942m -10.691031m 136.363636m -8.602008m -7.849192m -9.229602m 181.818182m -7.558978m -6.850873m -8.245423m 227.272727m -6.734974m -6.032902m -7.457236m 272.727273m -6.129996m -5.395280m -6.865040m 318.181818m -5.572000m -4.833433m -6.299020m 363.636364m -5.060986m -4.347362m -5.759177m 409.090909m -4.559317m -3.876309m -5.225011m 454.545455m -4.066994m -3.420275m -4.696522m 500.000000m -3.578496m -2.964927m -4.170406m 545.454545m -3.093823m -2.510267m -3.646661m 590.909091m -2.609463m -2.041283m -3.124700m 636.363636m -2.125415m -1.557976m -2.604524m 681.818182m -1.627028m -1.030389m -2.085089m 727.272727m -1.114302m -458.521255u -1.566394m 772.727273m -536.978465u 182.891815u -1.035688m 818.181818m 104.942717u 893.850709u -492.970611u 863.636364m 872.828788u 1.634554m 131.200578u 909.090909m 1.766680m 2.405002m 836.825566u 954.545455m 2.702596m 3.128591m 1.743702m 1.000000 3.680578m 3.805319m 2.851828m 1.045455 4.551421m 4.417607m 4.019221m 1.090909 5.315125m 4.965454m 5.245879m 1.136364 5.979156m 5.474485m 6.281955m 1.181818 6.543513m 5.944700m 7.127449m 1.227273 7.068878m 6.396319m 7.838985m 1.272727 7.555251m 6.829342m 8.416563m 1.318182 8.029655m 7.253664m 8.958149m 1.363636 8.492090m 7.669285m 9.463745m 1.409091 8.946206m 8.080826m 9.962945m 1.454545 9.392002m 8.488287m 10.455749m 1.500000 9.830672m 8.894002m 10.946062m 1.545455 10.262218m 9.297973m 11.433882m 1.590909 10.690068m 9.701841m 11.913132m 1.636364 11.114223m 10.105606m 12.383812m 1.681818 11.537158m 10.513590m 12.843583m 1.727273 11.958871m 10.925795m 13.292445m 1.772727 12.382698m 11.366105m 13.736272m 1.818182 12.808638m 11.834522m 14.175066m 1.863636 13.262526m 12.427434m 14.615493m 1.909091 13.744361m 13.144840m 15.057553m 1.954545 14.407444m 14.128791m 15.551622m 2.000000 15.251774m 15.379289m 16.097698m 2.045455 16.520026m 16.885478m 17.020775m 2.090909 18.212198m 18.647359m 18.320852m 2.136364 20.264386m 20.558944m 20.333697m 2.181818 22.676589m 22.620233m 23.059310m 2.227273 25.281817m 24.764558m 26.235610m 2.272727 28.080069m 26.991921m 29.862598m 2.318182 30.990369m 29.275426m 33.693444m 2.363636 34.012718m 31.615073m 37.728149m 2.409091 37.111961m 34.010551m 41.867410m 2.454545 40.288098m 36.461860m 46.111226m 2.500000 43.535486m 38.958858m 50.412156m 2.545455 46.854124m 41.501546m 54.770200m 2.590909 50.226362m 44.118153m 59.174496m 2.636364 53.652201m 46.808679m 63.625046m 2.681818 57.136103m 49.945954m 68.242270m 2.727273 60.678069m 53.529977m 73.026167m 2.772727 64.769109m 59.422240m 80.352754m 2.818182 69.409222m 67.622742m 90.222030m 2.863636 77.410007m 79.207733m 104.390076m 2.909091 88.771464m 94.177212m 122.856893m 2.954545 103.289678m 110.869488m 142.729007m 3.000000 120.964648m 129.284559m 164.006417m | [Pullup] | Voltage I(typ) I(min) I(max) | ----------- ----------- ----------- ---------- -1.500000 160.893063m 127.714178m 246.301199m -1.454545 147.347283m 117.224649m 224.665552m -1.409091 138.314973m 110.061506m 204.061817m -1.363636 132.179273m 104.838196m 184.271203m -1.318182 127.103975m 100.417954m 167.591810m -1.272727 123.089078m 96.800780m 154.023638m -1.227273 119.116146m 93.309972m 144.511597m -1.181818 115.185179m 89.945530m 139.055689m -1.136364 111.237150m 86.608795m 134.108103m -1.090909 107.272057m 83.299766m 129.668840m -1.045455 103.299657m 80.005089m 125.206353m -1.000000 99.319950m 76.724765m 120.720643m -954.545455m 95.319723m 73.450247m 116.181931m -909.090909m 91.298977m 70.181537m 111.590217m -863.636364m 87.259358m 66.916923m 106.947350m -818.181818m 83.200864m 63.656407m 102.253331m -772.727273m 79.126213m 60.401756m 97.508656m -727.272727m 75.035403m 57.152970m 92.713327m -681.818182m 70.931374m 53.912479m 87.857907m -636.363636m 66.814126m 50.680283m 82.942399m -590.909091m 62.685111m 47.459375m 77.962710m -545.454545m 58.544331m 44.249757m 72.918841m -500.000000m 54.386742m 41.054303m 67.830340m -454.545455m 50.212344m 37.873013m 62.697206m -409.090909m 46.021056m 34.705897m 57.498067m -363.636364m 41.812879m 31.552955m 52.232922m -318.181818m 37.572833m 28.406787m 46.842763m -272.727273m 33.300916m 25.267394m 41.327591m -227.272727m 28.956927m 22.115243m 35.744525m -181.818182m 24.540865m 18.950335m 30.051754m -136.363636m 20.098329m 15.766868m 24.332160m -90.909091m 15.629320m 12.564844m 18.630497m -45.454545m 11.214647m 9.396532m 12.936520m 0.00000 6.854312m 6.261930m 7.327495m 45.454545m 2.694614m 3.267873m 1.981356m 90.909091m -1.264446m 414.362460u -3.193515m 136.363636m -4.962304m -2.227463m -7.998323m 181.818182m -8.398962m -4.657602m -12.762013m 227.272727m -11.643666m -6.884704m -17.226879m 272.727273m -14.696416m -8.908766m -21.658542m 318.181818m -17.578083m -10.774824m -25.782935m 363.636364m -20.288667m -12.482878m -29.873187m 409.090909m -22.822293m -14.047068m -33.633619m 454.545455m -25.178960m -15.467393m -37.357404m 500.000000m -27.355030m -16.749837m -40.730984m 545.454545m -29.350503m -17.894399m -44.065652m 590.909091m -31.171289m -18.919067m -47.036054m 636.363636m -32.817388m -19.823841m -49.965981m 681.818182m -34.313197m -20.650040m -52.532482m 727.272727m -35.658716m -21.397664m -55.058603m 772.727273m -36.905369m -22.110079m -57.251696m 818.181818m -38.053154m -22.787285m -59.407787m 863.636364m -39.152617m -23.446182m -61.308657m 909.090909m -40.203757m -24.086768m -63.181169m 954.545455m -41.222299m -24.715995m -64.900518m 1.000000 -42.208244m -25.333862m -66.602850m 1.045455 -43.168524m -25.944620m -68.192867m 1.090909 -44.103139m -26.548268m -69.770404m 1.136364 -45.018228m -27.147314m -71.251146m 1.181818 -45.913789m -27.741759m -72.721133m 1.227273 -46.794482m -28.333111m -74.112557m 1.272727 -47.660306m -28.921368m -75.495251m 1.318182 -48.514643m -29.507490m -76.815522m 1.363636 -49.357493m -30.091478m -78.128856m 1.409091 -50.191330m -30.674377m -79.392475m 1.454545 -51.016156m -31.256187m -80.650569m 1.500000 -51.833963m -31.837679m -81.868716m 1.545455 -52.644752m -32.418853m -83.082424m 1.590909 -53.450097m -32.999752m -84.263748m 1.636364 -54.249999m -33.580374m -85.441473m 1.681818 -55.045326m -34.161978m -86.592844m 1.727273 -55.836076m -34.744565m -87.741286m 1.772727 -56.623560m -35.335565m -88.867745m 1.818182 -57.407777m -35.934980m -89.991761m 1.863636 -58.195743m -36.578702m -91.097692m 1.909091 -58.987457m -37.266733m -92.201614m 1.954545 -59.833973m -38.110398m -93.298657m 2.000000 -60.735291m -39.109696m -94.394936m 2.045455 -61.893345m -40.379770m -95.595759m 2.090909 -63.308137m -41.920619m -96.808198m 2.136364 -65.125957m -43.680511m -98.713429m 2.181818 -67.346805m -45.659448m -100.695637m 2.227273 -69.795310m -47.737846m -103.728961m 2.272727 -72.471473m -49.915707m -106.879076m 2.318182 -75.219477m -52.128963m -110.449272m 2.363636 -78.039321m -54.377615m -114.066144m 2.409091 -80.883041m -56.643363m -117.741814m 2.454545 -83.750637m -58.926208m -121.424017m 2.500000 -86.631127m -61.224294m -125.093059m 2.545455 -89.524511m -63.537622m -128.760637m 2.590909 -92.426625m -65.876983m -132.403952m 2.636364 -95.337468m -68.242377m -136.044570m 2.681818 -98.259675m -70.770518m -139.668357m 2.727273 -101.193246m -73.461406m -143.290273m 2.772727 -104.318959m -77.794979m -147.706344m 2.818182 -107.636816m -83.771237m -152.210655m 2.863636 -114.588794m -97.572387m -172.437535m 2.909091 -125.174895m -119.198430m -194.411366m 2.954545 -146.781365m -149.599734m -239.415087m 3.000000 -179.408205m -188.776298m -286.977684m | [Ramp] | variable typ min max | -------- -------------- -------------- ---------------- dV/dt_r 0.3084/90.96p 0.2472/130.69p 0.3621/61.99p dV/dt_f 0.1815/67.04p 0.1639/86.16p 0.2328/61.14p R_load = 100.0000 | [Rising Waveform] | --- N --- R_fixture =100.000 V_fixture = 1.5000 V_fixture_min = 1.4000 V_fixture_max = 1.6000 | time V(typ) V(min) V(max) | ----------- --------- --------- -------- 0.000000 1.043806 1.008841 1.084648 20.000000p 1.043806 1.008841 1.084648 40.000000p 1.043806 1.008841 1.084648 60.000000p 1.043806 1.008841 1.084648 80.000000p 1.043806 1.008841 1.084648 100.000000p 1.043806 1.008841 1.084648 120.000000p 1.043806 1.008841 1.084648 140.000000p 1.043806 1.008841 1.084648 160.000000p 1.043806 1.008841 1.084648 180.000000p 1.043806 1.008841 1.084648 200.000000p 1.043806 1.008841 1.084649 220.000000p 1.043806 1.008841 1.084645 240.000000p 1.043807 1.008841 1.084707 260.000000p 1.043809 1.008841 1.084595 280.000000p 1.043805 1.008841 1.084789 300.000000p 1.043793 1.008842 1.084987 320.000000p 1.043815 1.008842 1.078306 340.000000p 1.043785 1.008843 1.114886 360.000000p 1.043728 1.008843 1.192848 380.000000p 1.044089 1.008840 1.288903 400.000000p 1.045032 1.008830 1.397768 420.000000p 1.041954 1.008812 1.493119 440.000000p 1.036323 1.008833 1.535094 460.000000p 1.050798 1.008844 1.548815 480.000000p 1.093381 1.008830 1.554119 500.000000p 1.153514 1.008832 1.553367 520.000000p 1.222072 1.008896 1.552934 540.000000p 1.293912 1.009070 1.552732 560.000000p 1.359550 1.009519 1.553012 580.000000p 1.400322 1.009958 1.553641 600.000000p 1.425502 1.008714 1.554360 620.000000p 1.435017 1.005659 1.555146 640.000000p 1.440380 1.001288 1.555889 660.000000p 1.441866 1.002799 1.556601 680.000000p 1.442324 1.015975 1.557220 700.000000p 1.442993 1.041482 1.557770 720.000000p 1.443718 1.076290 1.558221 740.000000p 1.444739 1.116076 1.558600 760.000000p 1.445839 1.159824 1.558908 780.000000p 1.446929 1.202786 1.559166 800.000000p 1.448016 1.245397 1.559370 820.000000p 1.449008 1.278133 1.559537 840.000000p 1.449975 1.298503 1.559670 860.000000p 1.450761 1.314317 1.559780 880.000000p 1.451498 1.320908 1.559865 900.000000p 1.452097 1.326874 1.559933 920.000000p 1.452660 1.328908 1.559988 940.000000p 1.453077 1.330822 1.560033 960.000000p 1.453454 1.331974 1.560067 980.000000p 1.453750 1.333130 1.560094 1.000000n 1.454023 1.334313 1.560116 1.020000n 1.454213 1.335502 1.560134 1.040000n 1.454379 1.336730 1.560147 1.060000n 1.454513 1.337951 1.560157 1.080000n 1.454637 1.339126 1.560165 1.100000n 1.454718 1.340281 1.560171 1.120000n 1.454788 1.341307 1.560175 1.140000n 1.454849 1.342310 1.560176 1.160000n 1.454908 1.343163 1.560177 1.180000n 1.454944 1.343991 1.560178 1.200000n 1.454973 1.344659 1.560177 1.220000n 1.455004 1.345305 1.560175 1.240000n 1.455037 1.345816 1.560173 1.260000n 1.455053 1.346307 1.560171 1.280000n 1.455066 1.346679 1.560168 1.300000n 1.455084 1.347037 1.560164 1.320000n 1.455103 1.347307 1.560161 1.340000n 1.455111 1.347565 1.560158 1.360000n 1.455116 1.347752 1.560155 1.380000n 1.455127 1.347932 1.560150 1.400000n 1.455140 1.348066 1.560147 1.420000n 1.455144 1.348194 1.560144 1.440000n 1.455144 1.348285 1.560140 1.460000n 1.455152 1.348373 1.560136 1.480000n 1.455161 1.348440 1.560133 1.500000n 1.455162 1.348505 1.560130 1.520000n 1.455160 1.348552 1.560127 1.540000n 1.455165 1.348597 1.560123 1.560000n 1.455172 1.348635 1.560120 1.580000n 1.455171 1.348671 1.560118 1.600000n 1.455169 1.348699 1.560115 1.620000n 1.455173 1.348726 1.560112 1.640000n 1.455178 1.348750 1.560109 1.660000n 1.455177 1.348773 1.560108 1.680000n 1.455174 1.348792 1.560106 1.700000n 1.455177 1.348810 1.560103 1.720000n 1.455182 1.348827 1.560101 1.740000n 1.455181 1.348844 1.560100 1.760000n 1.455178 1.348857 1.560099 1.780000n 1.455181 1.348870 1.560097 1.800000n 1.455185 1.348883 1.560095 1.820000n 1.455184 1.348896 1.560095 1.840000n 1.455182 1.348906 1.560094 1.860000n 1.455184 1.348916 1.560093 1.880000n 1.455189 1.348925 1.560092 1.900000n 1.455188 1.348935 1.560092 1.920000n 1.455186 1.348943 1.560092 1.940000n 1.455188 1.348951 1.560091 1.960000n 1.455192 1.348959 1.560091 1.980000n 1.455192 1.348966 1.560092 | [Rising Waveform] | --- N --- R_fixture =100.000 V_fixture = 0.9250 V_fixture_min = 0.9250 V_fixture_max = 0.9250 | time V(typ) V(min) V(max) | ----------- --------- --------- -------- 0.000000 847.906859m 817.368304m 870.563750m 20.000000p 847.906857m 817.368302m 870.563748m 40.000000p 847.906861m 817.368305m 870.563752m 60.000000p 847.906863m 817.368307m 870.563754m 80.000000p 847.906863m 817.368306m 870.563755m 100.000000p 847.906864m 817.368307m 870.563759m 120.000000p 847.906867m 817.368308m 870.563760m 140.000000p 847.906866m 817.368309m 870.563757m 160.000000p 847.906864m 817.368310m 870.563749m 180.000000p 847.906868m 817.368309m 870.563575m 200.000000p 847.906746m 817.368308m 870.565217m 220.000000p 847.906754m 817.368310m 870.560883m 240.000000p 847.907513m 817.368271m 870.623285m 260.000000p 847.909202m 817.368166m 870.543060m 280.000000p 847.905891m 817.368257m 870.683206m 300.000000p 847.892984m 817.368473m 871.383948m 320.000000p 847.914553m 817.369202m 863.671024m 340.000000p 847.890986m 817.370249m 883.316647m 360.000000p 847.833149m 817.369814m 937.239296m 380.000000p 848.133863m 817.366816m 1.017901 400.000000p 849.120712m 817.357289m 1.132487 420.000000p 846.712806m 817.338650m 1.259220 440.000000p 840.955647m 817.358547m 1.365200 460.000000p 850.068496m 817.370879m 1.416853 480.000000p 879.969636m 817.359904m 1.452195 500.000000p 919.816372m 817.361786m 1.461937 520.000000p 969.204419m 817.412924m 1.469249 540.000000p 1.034049 817.557393m 1.472024 560.000000p 1.107414 817.973985m 1.474708 580.000000p 1.179077 818.474768m 1.477222 600.000000p 1.240816 817.520904m 1.479492 620.000000p 1.279938 814.837027m 1.481303 640.000000p 1.311414 810.196706m 1.482896 660.000000p 1.327209 809.343045m 1.484078 680.000000p 1.337704 817.005559m 1.485143 700.000000p 1.344078 833.250049m 1.485988 720.000000p 1.349059 855.392302m 1.486735 740.000000p 1.352927 881.654011m 1.487298 760.000000p 1.356419 912.547651m 1.487814 780.000000p 1.359252 950.289997m 1.488241 800.000000p 1.361862 990.794702m 1.488615 820.000000p 1.363944 1.035620 1.488892 840.000000p 1.365846 1.076539 1.489151 860.000000p 1.367387 1.113680 1.489373 880.000000p 1.368806 1.142203 1.489566 900.000000p 1.369932 1.167279 1.489704 920.000000p 1.370959 1.183079 1.489835 940.000000p 1.371785 1.196930 1.489954 960.000000p 1.372543 1.205536 1.490055 980.000000p 1.373141 1.213289 1.490122 1.000000n 1.373686 1.218751 1.490188 1.020000n 1.374124 1.223810 1.490254 1.040000n 1.374525 1.227789 1.490307 1.060000n 1.374841 1.231507 1.490339 1.080000n 1.375127 1.234520 1.490373 1.100000n 1.375359 1.237353 1.490410 1.120000n 1.375571 1.239701 1.490439 1.140000n 1.375739 1.241908 1.490452 1.160000n 1.375892 1.243735 1.490469 1.180000n 1.376018 1.245449 1.490491 1.200000n 1.376134 1.246861 1.490507 1.220000n 1.376227 1.248184 1.490512 1.240000n 1.376312 1.249268 1.490520 1.260000n 1.376384 1.250282 1.490534 1.280000n 1.376450 1.251107 1.490543 1.300000n 1.376505 1.251878 1.490543 1.320000n 1.376555 1.252504 1.490547 1.340000n 1.376598 1.253088 1.490556 1.360000n 1.376639 1.253560 1.490561 1.380000n 1.376673 1.254000 1.490560 1.400000n 1.376704 1.254358 1.490561 1.420000n 1.376732 1.254692 1.490568 1.440000n 1.376758 1.254962 1.490571 1.460000n 1.376780 1.255216 1.490568 1.480000n 1.376802 1.255425 1.490568 1.500000n 1.376820 1.255622 1.490573 1.520000n 1.376837 1.255783 1.490576 1.540000n 1.376853 1.255937 1.490573 1.560000n 1.376869 1.256066 1.490573 1.580000n 1.376882 1.256188 1.490577 1.600000n 1.376894 1.256292 1.490578 1.620000n 1.376906 1.256391 1.490575 1.640000n 1.376918 1.256478 1.490575 1.660000n 1.376928 1.256560 1.490578 1.680000n 1.376938 1.256632 1.490579 1.700000n 1.376947 1.256701 1.490577 1.720000n 1.376957 1.256763 1.490576 1.740000n 1.376965 1.256822 1.490579 1.760000n 1.376973 1.256875 1.490580 1.780000n 1.376981 1.256926 1.490578 1.800000n 1.376990 1.256973 1.490577 1.820000n 1.376997 1.257019 1.490580 1.840000n 1.377003 1.257060 1.490581 1.860000n 1.377010 1.257100 1.490579 1.880000n 1.377018 1.257137 1.490578 1.900000n 1.377024 1.257174 1.490581 1.920000n 1.377030 1.257206 1.490581 1.940000n 1.377036 1.257239 1.490580 1.960000n 1.377044 1.257270 1.490579 1.980000n 1.377049 1.257300 1.490581 | [Falling Waveform] | --- N --- R_fixture =100.000 V_fixture = 1.5000 V_fixture_min = 1.4000 V_fixture_max = 1.6000 | time V(typ) V(min) V(max) | ---------- --------- --------- -------- 0.000000 1.455469 1.349351 1.560485 20.000000p 1.455469 1.349351 1.560485 40.000000p 1.455469 1.349351 1.560485 60.000000p 1.455469 1.349351 1.560485 80.000000p 1.455469 1.349351 1.560485 100.000000p 1.455469 1.349351 1.560485 120.000000p 1.455469 1.349351 1.560485 140.000000p 1.455469 1.349351 1.560485 160.000000p 1.455469 1.349351 1.560485 180.000000p 1.455469 1.349351 1.560485 200.000000p 1.455470 1.349351 1.560483 220.000000p 1.455469 1.349351 1.560493 240.000000p 1.455469 1.349351 1.560419 260.000000p 1.455467 1.349351 1.560406 280.000000p 1.455472 1.349351 1.559908 300.000000p 1.455480 1.349351 1.559158 320.000000p 1.455480 1.349350 1.582034 340.000000p 1.455463 1.349349 1.587273 360.000000p 1.455281 1.349349 1.572431 380.000000p 1.455118 1.349352 1.538324 400.000000p 1.454314 1.349364 1.469646 420.000000p 1.455080 1.349389 1.377427 440.000000p 1.468783 1.349383 1.285557 460.000000p 1.476735 1.349360 1.209650 480.000000p 1.473619 1.349307 1.152533 500.000000p 1.459392 1.349236 1.108940 520.000000p 1.430407 1.349189 1.081392 540.000000p 1.377429 1.349187 1.065392 560.000000p 1.308262 1.349263 1.057565 580.000000p 1.233479 1.348970 1.055619 600.000000p 1.163430 1.347984 1.056439 620.000000p 1.110838 1.348028 1.059252 640.000000p 1.062872 1.354435 1.062655 660.000000p 1.034795 1.361468 1.066483 680.000000p 1.011989 1.364736 1.069834 700.000000p 1.002545 1.363909 1.072843 720.000000p 996.641183m 1.358567 1.075260 740.000000p 997.290722m 1.347196 1.077253 760.000000p 999.676784m 1.328217 1.078772 780.000000p 1.004250 1.293942 1.079952 800.000000p 1.009403 1.252857 1.080804 820.000000p 1.014603 1.197711 1.081419 840.000000p 1.019815 1.143754 1.081842 860.000000p 1.024179 1.092526 1.082127 880.000000p 1.028318 1.052303 1.082302 900.000000p 1.031435 1.014418 1.082398 920.000000p 1.034280 991.216454m 1.082445 940.000000p 1.036261 969.916116m 1.082458 960.000000p 1.038012 960.551863m 1.082445 980.000000p 1.039129 952.394050m 1.082414 1.000000n 1.040078 951.809882m 1.082379 1.020000n 1.040630 951.834997m 1.082342 1.040000n 1.041076 955.684996m 1.082300 1.060000n 1.041290 959.750277m 1.082254 1.080000n 1.041443 965.167026m 1.082213 1.100000n 1.041489 970.573633m 1.082176 1.120000n 1.041506 975.916579m 1.082137 1.140000n 1.041476 981.141750m 1.082097 1.160000n 1.041434 985.627572m 1.082062 1.180000n 1.041388 989.960079m 1.082032 1.200000n 1.041341 993.330119m 1.081999 1.220000n 1.041297 996.554880m 1.081964 1.240000n 1.041254 998.867632m 1.081935 1.260000n 1.041226 1.001061 1.081911 1.280000n 1.041202 1.002502 1.081883 1.300000n 1.041184 1.003856 1.081854 1.320000n 1.041167 1.004658 1.081831 1.340000n 1.041162 1.005401 1.081811 1.360000n 1.041160 1.005774 1.081789 1.380000n 1.041159 1.006111 1.081766 1.400000n 1.041159 1.006225 1.081747 1.420000n 1.041166 1.006319 1.081733 1.440000n 1.041174 1.006296 1.081716 1.460000n 1.041181 1.006265 1.081698 1.480000n 1.041187 1.006183 1.081685 1.500000n 1.041198 1.006100 1.081676 1.520000n 1.041211 1.006010 1.081664 1.540000n 1.041220 1.005921 1.081651 1.560000n 1.041229 1.005842 1.081643 1.580000n 1.041243 1.005765 1.081639 1.600000n 1.041257 1.005709 1.081632 1.620000n 1.041269 1.005656 1.081624 1.640000n 1.041280 1.005620 1.081621 1.660000n 1.041295 1.005586 1.081621 1.680000n 1.041311 1.005571 1.081619 1.700000n 1.041325 1.005557 1.081616 1.720000n 1.041338 1.005553 1.081617 1.740000n 1.041355 1.005551 1.081622 1.760000n 1.041373 1.005560 1.081624 1.780000n 1.041388 1.005569 1.081625 1.800000n 1.041402 1.005580 1.081630 1.820000n 1.041421 1.005593 1.081639 1.840000n 1.041440 1.005612 1.081646 1.860000n 1.041457 1.005631 1.081650 1.880000n 1.041473 1.005648 1.081659 1.900000n 1.041493 1.005666 1.081672 1.920000n 1.041514 1.005688 1.081681 1.940000n 1.041532 1.005710 1.081690 1.960000n 1.041550 1.005729 1.081702 1.980000n 1.041571 1.005748 1.081718 | [Falling Waveform] | --- N --- R_fixture =100.000 V_fixture = 0.9250 V_fixture_min = 0.9250 V_fixture_max = 0.9250 | time V(typ) V(min) V(max) | ---------- --------- --------- -------- 0.000000 1.377533 1.258651 1.490691 20.000000p 1.377533 1.258651 1.490691 40.000000p 1.377533 1.258651 1.490691 60.000000p 1.377533 1.258651 1.490691 80.000000p 1.377533 1.258651 1.490691 100.000000p 1.377533 1.258651 1.490691 120.000000p 1.377533 1.258651 1.490691 140.000000p 1.377533 1.258651 1.490691 160.000000p 1.377533 1.258651 1.490691 180.000000p 1.377533 1.258651 1.490691 200.000000p 1.377533 1.258651 1.490689 220.000000p 1.377533 1.258651 1.490698 240.000000p 1.377532 1.258651 1.490625 260.000000p 1.377531 1.258651 1.490616 280.000000p 1.377535 1.258651 1.490119 300.000000p 1.377543 1.258651 1.489458 320.000000p 1.377543 1.258650 1.509750 340.000000p 1.377529 1.258649 1.497853 360.000000p 1.377350 1.258649 1.426995 380.000000p 1.377166 1.258652 1.332838 400.000000p 1.376397 1.258663 1.236365 420.000000p 1.377422 1.258688 1.133962 440.000000p 1.388526 1.258682 1.036983 460.000000p 1.384265 1.258660 966.520152m 480.000000p 1.349374 1.258611 909.938897m 500.000000p 1.286902 1.258543 876.859680m 520.000000p 1.219924 1.258493 852.877528m 540.000000p 1.150379 1.258470 845.881433m 560.000000p 1.076878 1.258512 841.926329m 580.000000p 1.004088 1.258236 843.649371m 600.000000p 937.827924m 1.257475 845.649658m 620.000000p 888.915921m 1.257952 848.167618m 640.000000p 845.868603m 1.263187 850.575149m 660.000000p 821.291039m 1.264411 852.776491m 680.000000p 802.957473m 1.255330 854.839376m 700.000000p 796.152375m 1.231714 856.643735m 720.000000p 793.244662m 1.195065 858.290849m 740.000000p 795.177371m 1.153604 859.644358m 760.000000p 798.746464m 1.111296 860.871794m 780.000000p 803.317945m 1.066398 861.863824m 800.000000p 808.228300m 1.020127 862.758967m 820.000000p 813.133236m 967.070911m 863.473203m 840.000000p 818.036340m 916.591736m 864.114877m 860.000000p 822.215402m 869.852959m 864.621063m 880.000000p 826.149690m 831.991931m 865.076063m 900.000000p 829.347988m 798.628425m 865.435486m 920.000000p 832.297472m 777.366046m 865.758752m 940.000000p 834.593992m 759.784896m 866.014503m 960.000000p 836.669767m 752.108540m 866.245690m 980.000000p 838.234675m 746.702518m 866.431013m 1.000000n 839.626875m 747.405102m 866.599633m 1.020000n 840.638978m 749.143411m 866.737065m 1.040000n 841.522582m 753.668460m 866.863047m 1.060000n 842.152161m 758.576078m 866.967650m 1.080000n 842.695861m 764.513046m 867.064816m 1.100000n 843.073738m 770.397989m 867.148097m 1.120000n 843.395556m 776.142955m 867.225898m 1.140000n 843.621783m 781.662574m 867.293465m 1.160000n 843.815693m 786.575874m 867.357859m 1.180000n 843.953918m 791.207365m 867.416330m 1.200000n 844.073317m 795.080619m 867.471880m 1.220000n 844.165848m 798.679367m 867.521979m 1.240000n 844.249295m 801.539521m 867.570839m 1.260000n 844.318882m 804.162420m 867.617385m 1.280000n 844.383783m 806.146953m 867.662097m 1.300000n 844.443777m 807.944001m 867.703385m 1.320000n 844.502113m 809.236599m 867.744353m 1.340000n 844.558069m 810.392407m 867.784726m 1.360000n 844.613221m 811.180168m 867.823714m 1.380000n 844.667738m 811.874375m 867.860115m 1.400000n 844.722041m 812.316868m 867.896663m 1.420000n 844.775960m 812.701488m 867.933487m 1.440000n 844.829748m 812.930395m 867.969101m 1.460000n 844.882745m 813.125211m 868.002454m 1.480000n 844.935473m 813.228300m 868.036213m 1.500000n 844.987919m 813.315527m 868.070727m 1.520000n 845.040271m 813.360075m 868.104088m 1.540000n 845.091219m 813.397785m 868.135296m 1.560000n 845.141694m 813.417096m 868.167063m 1.580000n 845.191980m 813.436781m 868.199877m 1.600000n 845.242203m 813.457469m 868.231545m 1.620000n 845.290693m 813.479371m 868.261073m 1.640000n 845.338598m 813.504542m 868.291263m 1.660000n 845.386578m 813.533474m 868.322690m 1.680000n 845.434583m 813.572527m 868.352958m 1.700000n 845.480725m 813.613226m 868.381062m 1.720000n 845.526238m 813.658353m 868.409900m 1.740000n 845.572132m 813.706499m 868.440111m 1.760000n 845.618156m 813.762765m 868.469143m 1.780000n 845.662252m 813.819310m 868.495974m 1.800000n 845.705696m 813.876605m 868.523594m 1.820000n 845.749786m 813.935675m 868.552687m 1.840000n 845.794095m 813.999518m 868.580581m 1.860000n 845.836415m 814.062514m 868.606236m 1.880000n 845.878064m 814.123231m 868.632723m 1.900000n 845.920562m 814.184971m 868.660761m 1.920000n 845.963347m 814.249465m 868.687582m 1.940000n 846.004076m 814.312563m 868.712130m 1.960000n 846.044111m 814.371907m 868.737542m 1.980000n 846.085293m 814.432404m 868.764570m | | End [Model] TX1N | | End [Component] DDP3020 | [End] - --Unkindness_of_Ravens_675_000-- |------------------------------------------------------------------ |For help or to subscribe/unsubscribe, email majordomo@eda.org |with just the appropriate command message(s) in the body: | | help | 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