| *************************************************** | Philips Semiconductors Inc. | Logic Products Group | | IBIS model of 74LVT2244 | 3.3V Octal buffer w/30 Ohm term. resistors (3-State) |[Packages]: |[Package1]: SO 20-pin (D) Package ; |[Package2]: SSOP 20-Pin Packages ; |[Package3]: TSSOP 20-pin (PW) Package ; | *************************************************** | [IBIS Ver] 3.2 [File Name] lvt2244.ibs [File Rev] 1.2 [Date] 22-May-2001 [Source] File created from simulations by LPG Philips Semiconductors Nijmegen | [Notes] V1.2 Revised model. | [Disclaimer] (C) Copyright 2001 Philips Semiconductors All rights reserved Philips Semiconductors warrants and represents that the IBIS model identified herein is owned by Philips Semiconductors (PHILIPS). The model provided is not warranted as fully representing all of the operating characteristics and specifications of the semiconductor products to which the model relates. Moreover, unless there is a signed, written agreement to the contrary, this IBIS model is furnished on an "as is" basis without support or warranty of any kind, either expressed or implied, regarding the use thereof, and PHILIPS specifically disclaims all implied warranties of merchantability and fitness of the model for any purpose. PHILIPS does not assume any liability arising out of the application or use of this IBIS model including infringement of patents and copyrights, nor does PHILIPS convey any license under its patents and copyrights or the rights of others. PHILIPS provides IBIS models as a service to our customers. You and your company shall not distribute, convey, sell, or give these models to anyone else without receiving prior written permission from PHILIPS. PHILIPS reserves the right to make changes without notice to these IBIS models to improve reliability, function, or design. Please be aware that your receipt and subsequent use of the IBIS information provided shall serve as acceptance of the terms and conditions of this agreement. If you do not accept these terms, you should return or destroy the IBIS models and any other accompanying information immediately. |============================================================================= |============================================================================= | | S T A T E M E N T O F I N T E N T | |================== Taken from IBIS specification by EIG ===================== |============================================================================= | | In order to enable an industry standard method to electronically transport | IBIS Modeling Data between semiconductor vendors, simulation vendors, and | end customers, this template is proposed. The intention of this template is | to specify a consistent format that can be parsed by software, allowing | simulation vendors to derive models compatible with their own products. | | One goal of this template is to represent the current state of IBIS data, | while allowing a growth path to more complex models / methods (when deemed | appropriate). This would be accomplished by a revision of the base | template, and possibly the addition of new keywords or categories. | | Another goal of this template is to ensure that it is simple enough for | semiconductor vendors and customers to use and modify, while ensuring that | it is rigid enough for simulation vendors to write reliable parsers. | | Finally, this template is meant to contain a complete description of the I/O | elements on an entire component. Consequently, several models will need to | be defined in each file, as well as a table that equates the appropriate | buffer to the correct pin and signal name. | | Version 3.2 of this electronic template was finalized by an industry-wide | group of experts representing various companies and interests. Regular | "EIA IBIS Open Forum" meetings were held to accomplish this task. | | Commitment to Backward Compatibility. Version 1.0 is the first valid IBIS | ASCII file format. It represents the minimum amount of I/O buffer | information required to create an accurate IBIS model of common CMOS and | bipolar I/O structures. Future revisions of the ASCII file will add items | considered to be "enhancements" to Version 1.0 to allow accurate modeling | of new, or other I/O buffer structures. Consequently, all future revisions | will be considered supersets of Version 1.0, allowing backward | compatibility. In addition, as modeling platforms develop support for | revisions of the IBIS ASCII template, all previous revisions of the template | must also be supported. | | Version 1.1 update. The file "ver1_1.ibs" is conceptually the same as the | 1.0 version of the IBIS ASCII format (ver1_0.ibs). However, various | comments have been added for further clarification. | | Version 2.0 update. The file "ver2_0.ibs" maintains backward compatibility | with Versions 1.0 and 1.1. All new keywords and elements added in Version | 2.0 are optional. A complete list of changes to the specification is in the | IBIS Version 2.0 Release Notes document ("ver2_0.rn"). | | Version 2.1 update. The file "ver2_1.ibs" contains clarification text | changes, corrections, and two additional waveform parameters beyond | Version 2.0. | | Version 3.0 update. The file "ver3_0.ibs" adds a number of new keywords | and functionality. A complete list of functions can be found on eda.org | under /pub/ibis/birds/birddir.txt showing the approved Buffer Issue | Resolution Documents (BIRDs) that have been approved for Version 3.0. | | Version 3.1 update. The file "ver3_1.ibs" contains a major reformatting of | the document and a simplification of the wording. It also contains some | new technical enhancements that were unresolved when Version 3.0 was | approved. | | Version 3.2 update. The file "ver3_2.ibs" adds more technical advances and | also a number of editorial changes documented in 12 BIRDs and also in | responses to public letter ballot comments. | |============================================================================= |============================================================================= | | G E N E R A L S Y N T A X R U L E S A N D G U I D E L I N E S | |================== Taken from IBIS specification by EIG ===================== |============================================================================= | | This section contains general syntax rules and guidelines for ASCII IBIS | files: | | 1) The content of the files is case sensitive, except for reserved | words and keywords. | | 2) The following words are reserved words and must not be used for | any other purposes in the document: | POWER - reserved model name, used with power supply pins, | GND - reserved model name, used with ground pins, | NC - reserved model name, used with no-connect pins, | NA - used where data not available. | | 3) To facilitate portability between operating systems, file names used in | the IBIS file must only have lower case characters. File names should | have a basename of no more than twenty characters followed by a period | ('.') , followed by a file name extension of no more than three | characters. The file name and extension must use characters from the | set (space, ' ', 0x20 is not included): | | a b c d e f g h i j k l m n o p q r s t u v w x y z | 0 1 2 3 4 5 6 7 8 9 _ ^ $ ~ ! # % & - { } ) ( @ ' ` | | The file name and extension are recommended to be lower case on | systems that support such names. | | 4) A line of the file may have at most 80 characters, followed by a line | termination sequence. The line termination sequence must be one of the | following two sequences: a linefeed character, or a carriage return | followed by linefeed character. | | 5) Anything following the comment character is ignored and considered a | comment on that line. The default "|" (pipe) character can be changed | by the keyword [Comment Char] to any other character. The [Comment Char] | keyword can be used throughout the file as desired. | | 6) Keywords must be enclosed in square brackets, [], and must start in | column 1 of the line. No space or tab is allowed immediately after the | opening bracket '[' or immediately before the closing bracket ']'. If | used, only one space (' ') or underscore ('_') character separates the | parts of a multi-word keyword. | | 7) Underscores and spaces are equivalent in keywords. Spaces are not | allowed in subparameter names. | | 8) Valid scaling factors are: | T = tera k = kilo n = nano | G = giga m = milli p = pico | M = mega u = micro f = femto | When no scaling factors are specified, the appropriate base units are | assumed. (These are volts, amperes, ohms, farads, henries, and | seconds.) The parser looks at only one alphabetic character after a | numerical entry, therefore it is enough to use only the prefixes to | scale the parameters. However, for clarity, it is allowed to use full | abbreviations for the units, (e.g., pF, nH, mA, mOhm). In addition, | scientific notation IS allowed (e.g., 1.2345e-12). | | 9) The I-V data tables should use enough data points around sharply curved | areas of the I-V curves to describe the curvature accurately. In linear | regions there is no need to define unnecessary data points. | | 10) The use of tab characters is legal, but they should be avoided as much | as possible. This is to eliminate possible complications that might | arise in situations when tab characters are automatically converted to | multiple spaces by text editing, file transferring and similar software. | In cases like that, lines might become longer than 80 characters, which | is illegal in IBIS files. | | 11) Currents are considered positive when their direction is into the | component. | | 12) All temperatures are represented in degrees Celsius. | | 13) Only ASCII characters, as defined in ANSI Standard X3.4-1986, may be | used in an IBIS file. The use of characters with codes greater than | hexadecimal 07E is not allowed. Also, ASCII control characters | (those numerically less than hexadecimal 20) are not allowed, except | for tabs or in a line termination sequence. As mentioned in item 10 | above, the use of tab characters is discouraged. | | |******************************************************** | Info for SO 20-pin (D) Package |******************************************************** | [Component] 74LVT2244_1 [Manufacturer] Philips Semiconductors Inc. | [Package] | typ min max R_pkg 5.95E-02 5.36E-02 6.59E-02 L_pkg 4.21E-09 3.07E-09 5.91E-09 C_pkg 0.910E-12 0.758E-12 1.110E-12 | | [Pin] signal_name model_name R_pin L_pin C_pin 1 1OE# EN_5 5.75E-02 5.91E-09 1.050E-12 2 1A0 INPUT_2 6.25E-02 4.85E-09 1.040E-12 3 2Y3 OUT3STNR 6.59E-02 3.92E-09 0.861E-12 4 1A1 INPUT_2 5.79E-02 3.32E-09 0.803E-12 5 2Y2 OUT3STNR 5.36E-02 3.07E-09 0.758E-12 6 1A2 INPUT_2 5.36E-02 3.07E-09 0.758E-12 7 2Y1 OUT3STNR 5.79E-02 3.32E-09 0.803E-12 8 1A3 INPUT_2 6.59E-02 3.92E-09 0.861E-12 9 2Y0 OUT3STNR 6.25E-02 4.85E-09 1.040E-12 10 Gnd GND 5.75E-02 5.91E-09 1.110E-12 11 2A0 INPUT_2 5.75E-02 5.91E-09 1.110E-12 12 1Y3 OUT3STNR 6.25E-02 4.85E-09 1.040E-12 13 2A1 INPUT_2 6.59E-02 3.92E-09 0.861E-12 14 1Y2 OUT3STNR 5.79E-02 3.32E-09 0.803E-12 15 2A2 INPUT_2 5.36E-02 3.07E-09 0.758E-12 16 1Y1 OUT3STNR 5.36E-02 3.07E-09 0.758E-12 17 2A3 INPUT_2 5.79E-02 3.32E-09 0.803E-12 18 1Y0 OUT3STNR 6.59E-02 3.92E-09 0.861E-12 19 2OE# EN_5 6.25E-02 4.85E-09 1.040E-12 20 Vcc POWER 5.75E-02 5.91E-09 1.110E-12 | | |******************************************************** | Info for SSOP 20-Pin Packages |******************************************************** | [Component] 74LVT2244_2 [Manufacturer] Philips Semiconductors Inc. | [Package] | typ min max R_pkg 50.90m 43.00m 62.10m L_pkg 2.37nH 1.87nH 3.04nH C_pkg 0.62pF 0.55pF 0.71pF | | [Pin] signal_name model_name R_pin L_pin C_pin 1 1OE# EN_5 47.20m 3.04nH 0.65pF 2 1A0 INPUT_2 51.40m 2.60nH 0.70pF 3 2Y3 OUT3STNR 62.10m 2.31nH 0.59pF 4 1A1 INPUT_2 50.80m 2.03nH 0.58pF 5 2Y2 OUT3STNR 43.00m 1.87nH 0.56pF 6 1A2 INPUT_2 43.00m 1.87nH 0.56pF 7 2Y1 OUT3STNR 50.80m 2.03nH 0.58pF 8 1A3 INPUT_2 62.10m 2.31nH 0.59pF 9 2Y0 OUT3STNR 51.40m 2.60nH 0.70pF 10 Gnd GND 47.20m 3.04nH 0.69pF 11 2A0 INPUT_2 47.20m 3.05nH 0.69pF 12 1Y3 OUT3STNR 51.40m 2.60nH 0.70pF 13 2A1 INPUT_2 62.10m 2.32nH 0.59pF 14 1Y2 OUT3STNR 50.80m 2.03nH 0.58pF 15 2A2 INPUT_2 43.00m 1.88nH 0.55pF 16 1Y1 OUT3STNR 43.00m 1.87nH 0.55pF 17 2A3 INPUT_2 50.80m 2.03nH 0.58pF 18 1Y0 OUT3STNR 62.10m 2.31nH 0.59pF 19 2OE# EN_5 51.40m 2.60nH 0.71pF 20 Vcc POWER 47.50m 3.00nH 0.68pF | | |******************************************************** | Info for TSSOP 20-pin (PW) Package |******************************************************** | [Component] 74LVT2244_3 [Manufacturer] Philips Semiconductors Inc. | [Package] | typ min max R_pkg 7.24E-02 6.63E-02 8.34E-02 L_pkg 2.47E-09 2.09E-09 3.18E-09 C_pkg 0.341E-12 0.282E-12 0.420E-12 | | [Pin] signal_name model_name R_pin L_pin C_pin 1 1OE# EN_5 6.63E-02 3.18E-09 0.408E-12 2 1A0 INPUT_2 6.67E-02 2.55E-09 0.398E-12 3 2Y3 OUT3STNR 8.34E-02 2.35E-09 0.317E-12 4 1A1 INPUT_2 7.44E-02 2.16E-09 0.293E-12 5 2Y2 OUT3STNR 7.10E-02 2.09E-09 0.282E-12 6 1A2 INPUT_2 7.10E-02 2.09E-09 0.282E-12 7 2Y1 OUT3STNR 7.44E-02 2.16E-09 0.293E-12 8 1A3 INPUT_2 8.34E-02 2.35E-09 0.317E-12 9 2Y0 OUT3STNR 6.67E-02 2.55E-09 0.397E-12 10 Gnd GND 6.63E-02 3.18E-09 0.420E-12 11 2A0 INPUT_2 6.63E-02 3.17E-09 0.420E-12 12 1Y3 OUT3STNR 6.67E-02 2.55E-09 0.397E-12 13 2A1 INPUT_2 8.34E-02 2.35E-09 0.317E-12 14 1Y2 OUT3STNR 7.44E-02 2.16E-09 0.293E-12 15 2A2 INPUT_2 7.10E-02 2.09E-09 0.282E-12 16 1Y1 OUT3STNR 7.10E-02 2.09E-09 0.282E-12 17 2A3 INPUT_2 7.44E-02 2.16E-09 0.293E-12 18 1Y0 OUT3STNR 8.34E-02 2.35E-09 0.317E-12 19 2OE# EN_5 6.67E-02 2.55E-09 0.398E-12 20 Vcc POWER 6.63E-02 3.17E-09 0.420E-12 | |************************************************************************ | Model EN_5 |************************************************************************ | [Model] EN_5 Model_type Input Polarity Non-Inverting Vinl = 0.8000V Vinh = 2.0000V C_comp 2.6pF 1.0pF 4.1pF | | [Model Spec] | | Note: The input and output voltage ratings may be exceeded if the input and | output current ratings are observed (please refer to the data sheet) | | Subparameter typ min max | | Thresholds | Vinh 2.0 NA NA Vinl 0.8 NA NA | | Overshoot | S_overshoot_high 4.6 4.6 4.6 | Static overshoot S_overshoot_low -0.5 -0.5 -0.5 D_overshoot_high 7.2 7.2 7.2 | Dynamic overshoot D_overshoot_low -3.6 -3.6 -3.6 | D_overshoot_time 3n 3n 3n | | | Timing Thresholds | Vmeas 1.5 1.5 1.5 | [Temperature Range] 25.0000 85.0000 -40.0000 | Remark: The curves below are the result of a simulation using the following | die temperatures: 55.0000 110.0000 0.0000 | [Voltage Range] 3.3000V 3.0000V 3.6000V |Process Range nominal slow fast [GND_clamp] | voltage I(typ) I(min) I(max) | -5.5000 -1.1440A -1.1500A -1.1390A -5.3000 -1.0970A -1.1030A -1.0920A -5.1000 -1.0500A -1.0550A -1.0440A -4.9000 -1.0020A -1.0080A -0.9968A -4.7000 -0.9547A -0.9606A -0.9493A -4.5000 -0.9073A -0.9133A -0.9019A -4.3000 -0.8599A -0.8660A -0.8544A -4.1000 -0.8126A -0.8187A -0.8070A -3.9000 -0.7652A -0.7714A -0.7596A -3.7000 -0.7179A -0.7241A -0.7122A -3.5000 -0.6706A -0.6769A -0.6648A -3.3000 -0.6234A -0.6298A -0.6175A -3.1000 -0.5762A -0.5826A -0.5702A -2.9000 -0.5290A -0.5356A -0.5230A -2.7000 -0.4819A -0.4886A -0.4757A -2.5000 -0.4348A -0.4416A -0.4286A -2.3000 -0.3879A -0.3948A -0.3815A -2.1000 -0.3410A -0.3480A -0.3345A -1.9000 -0.2943A -0.3015A -0.2876A -1.7000 -0.2477A -0.2551A -0.2409A -1.5000 -0.2014A -0.2089A -0.1944A -1.3000 -0.1555A -0.1632A -0.1482A -1.1000 -0.1101A -0.1181A -0.1026A -0.9000 -65.9670mA -74.1310mA -58.1560mA -0.7000 -25.0160mA -33.0040mA -17.4380mA -0.5000 -0.9238mA -3.5980mA -0.1242mA -0.3000 -2.0530uA -27.1790uA -52.1670nA -0.1000 -2.2110nA -85.5280nA -14.5940pA 0.1000 73.4810pA 4.6190nA 0.5382pA 0.3000 76.5900pA 4.8830nA 1.1420pA 0.5000 77.1930pA 4.8840nA 1.7420pA 0.7000 77.7930pA 4.8850nA 2.3400pA 0.9000 78.3920pA 4.8860nA 2.9380pA 1.1000 78.9900pA 4.8860nA 3.5350pA 1.3000 79.5890pA 4.8870nA 4.1320pA 1.5000 80.1870pA 4.8880nA 4.7290pA 1.7000 80.7860pA 4.8880nA 5.3260pA 1.9000 81.3880pA 4.8890nA 5.9240pA 2.1000 81.9900pA 4.8900nA 6.5260pA 2.3000 82.5920pA 4.8900nA 7.1300pA 2.5000 83.1930pA 4.8910nA 7.7340pA 2.7000 83.7940pA 4.8920nA 8.3370pA 2.9000 84.3940pA 4.8920nA 8.9400pA 3.1000 84.9940pA 4.8930nA 9.5420pA 3.3000 85.5950pA 4.8940nA 10.1430pA 3.5000 86.194pA 4.8940nA 10.743pA 3.7000 86.795pA 4.8950nA 11.343pA 3.9000 87.395pA 4.8960nA 11.942pA 4.1000 87.995pA 4.8960nA 12.542pA 4.3000 88.595pA 4.8970nA 13.142pA 4.5000 89.195pA 4.8980nA 13.743pA 4.7000 89.795pA 4.8980nA 14.343pA 4.9000 90.396pA 4.8990nA 14.943pA 5.1000 90.996pA 4.9000nA 15.543pA 5.3000 91.595pA 4.9010nA 16.143pA 5.5000 92.196pA 4.9010nA 16.742pA | [POWER_clamp] | voltage I(typ) I(min) I(max) | -8.0000 0.5741A 0.5517A 0.5968A -7.9000 0.5654A 0.5431A 0.5881A -7.8000 0.5567A 0.5345A 0.5793A -7.7000 0.5480A 0.5259A 0.5706A -7.6000 0.5394A 0.5174A 0.5619A -7.5000 0.5308A 0.5089A 0.5533A -7.4000 0.5223A 0.5004A 0.5446A -7.3000 0.5138A 0.4920A 0.5360A -7.2000 0.5053A 0.4836A 0.5274A -7.1000 0.4968A 0.4753A 0.5189A -7.0000 0.4884A 0.4670A 0.5104A -6.9000 0.4801A 0.4587A 0.5019A -6.8000 0.4717A 0.4505A 0.4935A -6.7000 0.4634A 0.4422A 0.4851A -6.6000 0.4551A 0.4339A 0.4767A -6.5000 0.4467A 0.4252A 0.4683A -6.4000 0.4380A 0.4127A 0.4598A -6.3000 0.4262A 0.3862A 0.4511A -6.2000 0.4010A 0.3580A 0.4384A -6.1000 0.3742A 0.3286A 0.4143A -6.0000 0.3462A 0.2978A 0.3890A -5.9000 0.3168A 0.2658A 0.3624A -5.8000 0.2861A 0.2325A 0.3346A -5.7000 0.2540A 0.1981A 0.3055A -5.6000 0.2206A 0.1629A 0.2749A -5.5000 0.1860A 0.1271A 0.2429A -5.4000 0.1504A 91.4830mA 0.2095A -5.3000 0.1142A 57.2870mA 0.1748A -5.2000 78.3130mA 27.1720mA 0.1390A -5.1000 44.2460mA 7.1200mA 0.1026A -5.0000 16.0660mA 1.3010mA 66.4980mA -4.9000 2.5450mA 0.6571mA 32.7460mA -4.8000 0.8545mA 0.5087mA 7.7360mA -4.7000 0.6722mA 0.3936mA 1.1860mA -4.6000 0.5532mA 0.2835mA 0.8446mA -4.5000 0.4379mA 0.1789mA 0.7218mA -4.4000 0.3250mA 85.6450uA 0.6036mA -4.3000 0.2160mA 20.5180uA 0.4865mA -4.2000 0.1147mA 1.5850uA 0.3711mA -4.1000 33.9110uA 84.2020nA 0.2583mA -4.0000 2.4350uA 8.7490nA 0.1506mA -3.9000 75.9650nA 5.0920nA 56.0360uA -3.8000 2.3110nA 4.9150nA 4.6950uA -3.7000 0.1612nA 4.9060nA 78.6500nA -3.6000 98.2740pA 4.9050nA 1.1480nA -3.5000 96.1520pA 4.9050nA 37.6320pA -3.4000 95.7980pA 4.9040nA 21.4730pA -3.3000 95.4970pA 4.9040nA 20.9470pA -3.2000 95.1970pA 4.9040nA 20.6430pA -3.1000 94.8960pA 4.9030nA 20.3430pA -3.0000 94.5960pA 4.9030nA 20.0430pA -2.9000 94.2960pA 4.9030nA 19.7430pA -2.8000 93.9960pA 4.9020nA 19.4430pA -2.7000 93.6960pA 4.9020nA 19.1430pA -2.6000 93.3960pA 4.9020nA 18.8430pA -2.5000 93.0960pA 4.9010nA 18.5430pA -2.4000 92.7950pA 4.9010nA 18.2420pA -2.3000 92.4960pA 4.9010nA 17.9420pA -2.2000 92.1960pA 4.9000nA 17.6420pA -2.1000 91.8950pA 4.9000nA 17.3420pA -2.0000 91.5950pA 4.8990nA 17.0420pA -1.9000 91.2960pA 4.8990nA 16.7420pA -1.8000 90.9960pA 4.8990nA 16.4430pA -1.7000 90.6960pA 4.8980nA 16.1430pA -1.6000 90.3960pA 4.8980nA 15.8430pA -1.5000 90.0950pA 4.8980nA 15.5430pA -1.4000 89.7950pA 4.8970nA 15.2430pA -1.3000 89.4950pA 4.8970nA 14.9430pA -1.2000 89.1950pA 4.8970nA 14.6430pA -1.1000 88.8950pA 4.8960nA 14.3430pA -1.0000 88.5950pA 4.8960nA 14.0430pA -0.9000 88.2950pA 4.8960nA 13.7420pA -0.8000 87.9950pA 4.8950nA 13.4420pA -0.7000 87.6950pA 4.8950nA 13.1420pA -0.6000 87.3950pA 4.8950nA 12.8420pA -0.5000 87.0950pA 4.8940nA 12.5420pA -0.4000 86.7950pA 4.8940nA 12.2420pA -0.3000 86.4940pA 4.8940nA 11.9420pA -0.2000 86.1940pA 4.8930nA 11.6420pA -0.1000 85.8950pA 4.8930nA 11.3430pA 0.0000 85.5950pA 4.8930nA 11.0430pA | | End [Model] EN_5 | |************************************************************************ | Model INPUT_2 |************************************************************************ | [Model] INPUT_2 Model_type Input Polarity Non-Inverting Vinl = 0.8000V Vinh = 2.0000V C_comp 3.3pF 2.5pF 4.1pF | | [Model Spec] | | Note: The input and output voltage ratings may be exceeded if the input and | output current ratings are observed (please refer to the data sheet) | | Subparameter typ min max | | Thresholds | Vinh 2.0 NA NA Vinl 0.8 NA NA | | Overshoot | S_overshoot_high 4.6 4.6 4.6 | Static overshoot S_overshoot_low -0.5 -0.5 -0.5 D_overshoot_high 7.2 7.2 7.2 | Dynamic overshoot D_overshoot_low -3.6 -3.6 -3.6 | D_overshoot_time 3n 3n 3n | | | Timing Thresholds | Vmeas 1.5 1.5 1.5 | [Temperature Range] 25.0000 85.0000 -40.0000 | Remark: The curves below are the result of a simulation using the following | die temperatures: 55.0000 110.0000 0.0000 | [Voltage Range] 3.3000V 3.0000V 3.6000V |Process Range nominal slow fast [GND_clamp] | voltage I(typ) I(min) I(max) | -5.5000 -1.1450A -1.1510A -1.1400A -5.3000 -1.0980A -1.1040A -1.0930A -5.1000 -1.0500A -1.0560A -1.0450A -4.9000 -1.0030A -1.0090A -0.9977A -4.7000 -0.9553A -0.9612A -0.9501A -4.5000 -0.9078A -0.9138A -0.9026A -4.3000 -0.8604A -0.8664A -0.8551A -4.1000 -0.8130A -0.8191A -0.8076A -3.9000 -0.7656A -0.7718A -0.7601A -3.7000 -0.7183A -0.7245A -0.7127A -3.5000 -0.6710A -0.6773A -0.6652A -3.3000 -0.6237A -0.6301A -0.6179A -3.1000 -0.5765A -0.5829A -0.5705A -2.9000 -0.5293A -0.5358A -0.5233A -2.7000 -0.4822A -0.4888A -0.4760A -2.5000 -0.4351A -0.4419A -0.4289A -2.3000 -0.3881A -0.3950A -0.3818A -2.1000 -0.3413A -0.3482A -0.3347A -1.9000 -0.2945A -0.3016A -0.2878A -1.7000 -0.2479A -0.2552A -0.2411A -1.5000 -0.2016A -0.2091A -0.1946A -1.3000 -0.1556A -0.1633A -0.1484A -1.1000 -0.1103A -0.1182A -0.1027A -0.9000 -66.0870mA -74.2370mA -58.2710mA -0.7000 -25.1170mA -33.0930mA -17.5350mA -0.5000 -0.9995mA -3.6620mA -0.1985mA -0.3000 -47.3340uA -64.1740uA -44.6690uA -0.1000 -15.1380uA -12.4130uA -14.9020uA 0.1000 15.0260uA 12.1120uA 14.8560uA 0.3000 44.5720uA 35.2250uA 44.4490uA 0.5000 73.3490uA 56.7200uA 73.8340uA 0.7000 0.1013mA 76.4630uA 0.1030mA 0.9000 0.1283mA 94.2900uA 0.1316mA 1.1000 0.1532mA 0.1095mA 0.1595mA 1.3000 0.1747mA 0.1189mA 0.1861mA 1.5000 0.1889mA 0.1136mA 0.2106mA 1.7000 62.0730uA -0.1808mA 0.2148mA 1.9000 -0.2469mA -0.1518mA -0.2525mA 2.1000 -0.1998mA -0.1102mA -0.2710mA 2.3000 -0.1466mA -65.8180uA -0.2189mA 2.5000 -91.8940uA -23.6910uA -0.1645mA 2.7000 -39.1680uA -0.8983uA -0.1097mA 2.9000 -2.5970uA 1.9900nA -56.0100uA 3.1000 -3.9580nA 5.0600nA -9.6810uA 3.3000 85.7830pA 5.0700nA -10.9020nA 3.5000 91.325pA 5.0710nA 7.429pA 3.7000 92.131pA 5.0720nA 11.519pA 3.9000 92.932pA 5.0730nA 12.322pA 4.1000 93.733pA 5.0740nA 13.123pA 4.3000 94.534pA 5.0750nA 13.925pA 4.5000 95.335pA 5.0750nA 14.726pA 4.7000 96.136pA 5.0760nA 15.528pA 4.9000 96.937pA 5.0770nA 16.329pA 5.1000 97.739pA 5.0780nA 17.131pA 5.3000 98.539pA 5.0790nA 17.933pA 5.5000 99.340pA 5.0800nA 18.734pA | [POWER_clamp] | voltage I(typ) I(min) I(max) | -8.0000 0.5741A 0.5519A 0.5969A -7.9000 0.5654A 0.5433A 0.5881A -7.8000 0.5567A 0.5346A 0.5793A -7.7000 0.5481A 0.5261A 0.5706A -7.6000 0.5395A 0.5175A 0.5619A -7.5000 0.5309A 0.5090A 0.5533A -7.4000 0.5223A 0.5005A 0.5446A -7.3000 0.5138A 0.4921A 0.5360A -7.2000 0.5053A 0.4837A 0.5274A -7.1000 0.4969A 0.4754A 0.5189A -7.0000 0.4884A 0.4670A 0.5104A -6.9000 0.4801A 0.4588A 0.5019A -6.8000 0.4717A 0.4505A 0.4935A -6.7000 0.4634A 0.4423A 0.4851A -6.6000 0.4551A 0.4339A 0.4767A -6.5000 0.4467A 0.4253A 0.4683A -6.4000 0.4381A 0.4128A 0.4598A -6.3000 0.4262A 0.3862A 0.4511A -6.2000 0.4010A 0.3580A 0.4384A -6.1000 0.3742A 0.3286A 0.4143A -6.0000 0.3462A 0.2978A 0.3890A -5.9000 0.3168A 0.2658A 0.3624A -5.8000 0.2861A 0.2325A 0.3346A -5.7000 0.2540A 0.1981A 0.3054A -5.6000 0.2205A 0.1628A 0.2749A -5.5000 0.1859A 0.1271A 0.2429A -5.4000 0.1503A 91.4500mA 0.2095A -5.3000 0.1142A 57.2530mA 0.1748A -5.2000 78.2840mA 27.1440mA 0.1390A -5.1000 44.2170mA 7.1070mA 0.1026A -5.0000 16.0450mA 1.2990mA 66.4730mA -4.9000 2.5400mA 0.6569mA 32.7230mA -4.8000 0.8542mA 0.5086mA 7.7230mA -4.7000 0.6721mA 0.3935mA 1.1850mA -4.6000 0.5531mA 0.2834mA 0.8445mA -4.5000 0.4378mA 0.1788mA 0.7217mA -4.4000 0.3249mA 85.5510uA 0.6035mA -4.3000 0.2159mA 20.4720uA 0.4864mA -4.2000 0.1146mA 1.5800uA 0.3710mA -4.1000 33.8530uA 84.1130nA 0.2582mA -4.0000 2.4280uA 8.9160nA 0.1506mA -3.9000 75.7220nA 5.2710nA 55.9720uA -3.8000 2.3120nA 5.0940nA 4.6810uA -3.7000 0.1696nA 5.0860nA 78.3930nA -3.6000 0.1068nA 5.0850nA 1.1480nA -3.5000 0.1046nA 5.0840nA 41.1890pA -3.4000 0.1041nA 5.0840nA 24.9820pA -3.3000 0.1037nA 5.0830nA 24.3550pA -3.2000 0.1033nA 5.0830nA 23.9490pA -3.1000 0.1029nA 5.0820nA 23.5480pA -3.0000 0.1025nA 5.0820nA 23.1460pA -2.9000 0.1021nA 5.0820nA 22.7450pA -2.8000 0.1017nA 5.0810nA 22.3440pA -2.7000 0.1013nA 5.0810nA 21.9430pA -2.6000 0.1009nA 5.0800nA 21.5410pA -2.5000 0.1005nA 5.0800nA 21.1400pA -2.4000 0.1001nA 5.0790nA 20.7390pA -2.3000 99.7410pA 5.0790nA 20.3380pA -2.2000 99.3400pA 5.0790nA 19.9370pA -2.1000 98.9400pA 5.0780nA 19.5360pA -2.0000 98.5390pA 5.0780nA 19.1350pA -1.9000 98.1390pA 5.0770nA 18.7340pA -1.8000 97.7390pA 5.0770nA 18.3330pA -1.7000 97.3380pA 5.0760nA 17.9330pA -1.6000 96.9370pA 5.0760nA 17.5320pA -1.5000 96.5370pA 5.0750nA 17.1310pA -1.4000 96.1360pA 5.0750nA 16.7300pA -1.3000 95.7350pA 5.0750nA 16.3290pA -1.2000 95.3350pA 5.0740nA 15.9280pA -1.1000 94.9350pA 5.0740nA 15.5280pA -1.0000 94.5340pA 5.0730nA 15.1270pA -0.9000 94.1340pA 5.0730nA 14.7260pA -0.8000 93.7330pA 5.0720nA 14.3250pA -0.7000 93.3330pA 5.0720nA 13.9250pA -0.6000 92.9320pA 5.0710nA 13.5240pA -0.5000 92.5320pA 5.0710nA 13.1230pA -0.4000 92.1310pA 5.0710nA 12.7230pA -0.3000 91.7300pA 5.0700nA 12.3220pA -0.2000 91.3250pA 5.0690nA 11.9210pA -0.1000 90.7680pA 5.0600nA 11.5190pA 0.0000 85.7830pA 4.8980nA 11.0630pA | | End [Model] INPUT_2 | |************************************************************************ | Model OUT3STNR |************************************************************************ | [Model] OUT3STNR Model_type 3-state Polarity Non-Inverting Enable Active-Low Vmeas = 1.5000V Cref = 50.0000pF Rref = 0.5000k Vref = 0.000V C_comp 7.3pF 5.6pF 9.1pF | | [Model Spec] | | Note: The input and output voltage ratings may be exceeded if the input and | output current ratings are observed (please refer to the data sheet) | | Subparameter typ min max | | Overshoot | S_overshoot_high 4.6 4.6 4.6 | Static overshoot S_overshoot_low -0.5 -0.5 -0.5 D_overshoot_high 7.2 7.2 7.2 | Dynamic overshoot D_overshoot_low -3.6 -3.6 -3.6 | D_overshoot_time 3n 3n 3n | | | Timing Thresholds | Vmeas 1.5 1.5 1.5 | | [Temperature Range] 25.0000 85.0000 -40.0000 | Remark: The curves below are the result of a simulation using the following | die temperatures: 55.0000 110.0000 0.0000 | [Voltage Range] 3.3000V 3.0000V 3.6000V |Process Range nominal slow fast [Pulldown] | voltage I(typ) I(min) I(max) | -5.500E+00 7.885E-03 1.775E-03 5.587E-03 -5.250E+00 8.987E-03 1.791E-03 5.205E-03 -5.000E+00 9.885E-03 1.846E-03 4.832E-03 -4.750E+00 10.441E-03 1.959E-03 4.469E-03 -4.500E+00 10.460E-03 2.161E-03 4.116E-03 -4.250E+00 9.935E-03 2.515E-03 3.772E-03 -4.000E+00 9.170E-03 3.137E-03 3.438E-03 -3.750E+00 8.364E-03 4.178E-03 3.113E-03 -3.500E+00 7.564E-03 5.608E-03 2.798E-03 -3.250E+00 6.779E-03 7.064E-03 2.492E-03 -3.000E+00 6.010E-03 8.115E-03 2.195E-03 -2.750E+00 5.259E-03 8.311E-03 1.908E-03 -2.500E+00 4.525E-03 7.585E-03 1.632E-03 -2.250E+00 3.811E-03 6.523E-03 1.365E-03 -2.000E+00 3.118E-03 5.427E-03 1.110E-03 -1.750E+00 2.449E-03 4.344E-03 868.510E-06 -1.500E+00 1.809E-03 3.287E-03 644.324E-06 -1.250E+00 1.214E-03 2.270E-03 450.507E-06 -1.000E+00 712.815E-06 1.337E-03 302.077E-06 -750.000E-03 -314.532E-06 511.033E-06 -1.318E-03 -500.000E-03 -957.240E-06 -725.123E-06 -1.279E-03 -250.000E-03 -619.809E-06 -528.830E-06 -787.130E-06 0.000E+00 -238.612E-06 -194.900E-06 -262.541E-06 100.000E-03 164.825E-06 543.873E-06 -37.306E-06 200.000E-03 1.784E-03 2.613E-03 609.515E-06 300.000E-03 4.517E-03 5.558E-03 2.765E-03 400.000E-03 7.749E-03 8.927E-03 5.779E-03 500.000E-03 11.236E-03 12.533E-03 9.119E-03 600.000E-03 14.875E-03 16.290E-03 12.625E-03 700.000E-03 18.615E-03 20.151E-03 16.229E-03 800.000E-03 22.428E-03 24.088E-03 19.901E-03 900.000E-03 26.293E-03 28.083E-03 23.621E-03 1.000E+00 30.200E-03 32.123E-03 27.376E-03 1.100E+00 34.140E-03 36.199E-03 31.161E-03 1.200E+00 38.107E-03 40.305E-03 34.968E-03 1.300E+00 42.096E-03 44.435E-03 38.793E-03 1.400E+00 46.103E-03 48.585E-03 42.634E-03 1.500E+00 50.126E-03 52.753E-03 46.489E-03 1.600E+00 54.163E-03 56.936E-03 50.354E-03 1.700E+00 58.212E-03 61.132E-03 54.230E-03 1.800E+00 62.270E-03 65.338E-03 58.114E-03 1.900E+00 66.338E-03 69.555E-03 62.005E-03 2.000E+00 70.414E-03 73.779E-03 65.904E-03 2.100E+00 74.496E-03 78.011E-03 69.808E-03 2.200E+00 78.585E-03 82.249E-03 73.718E-03 2.300E+00 82.680E-03 86.493E-03 77.632E-03 2.400E+00 86.780E-03 90.741E-03 81.551E-03 2.500E+00 90.884E-03 94.994E-03 85.474E-03 2.600E+00 94.992E-03 99.250E-03 89.401E-03 2.700E+00 99.104E-03 103.509E-03 93.331E-03 2.800E+00 103.219E-03 107.770E-03 97.264E-03 2.900E+00 107.337E-03 112.033E-03 101.200E-03 3.000E+00 111.457E-03 116.298E-03 105.138E-03 3.100E+00 115.580E-03 120.564E-03 109.079E-03 3.200E+00 119.705E-03 124.830E-03 113.022E-03 3.300E+00 123.831E-03 129.091E-03 116.968E-03 3.400E+00 127.958E-03 133.316E-03 120.914E-03 3.500E+00 132.080E-03 137.632E-03 124.863E-03 3.600E+00 136.218E-03 141.899E-03 128.811E-03 3.950E+00 150.693E-03 157.279E-03 142.649E-03 4.300E+00 166.661E-03 174.165E-03 156.886E-03 4.650E+00 184.609E-03 191.818E-03 174.255E-03 5.000E+00 203.511E-03 207.957E-03 193.447E-03 5.350E+00 220.272E-03 223.556E-03 213.627E-03 5.700E+00 236.074E-03 239.016E-03 232.521E-03 6.050E+00 251.711E-03 254.422E-03 248.914E-03 6.400E+00 267.338E-03 269.761E-03 264.847E-03 6.750E+00 282.969E-03 284.988E-03 280.701E-03 7.100E+00 298.590E-03 300.021E-03 296.505E-03 7.450E+00 314.170E-03 314.640E-03 312.290E-03 7.800E+00 329.732E-03 327.868E-03 328.011E-03 8.150E+00 345.282E-03 335.132E-03 343.712E-03 8.500E+00 360.816E-03 344.254E-03 359.396E-03 8.850E+00 376.329E-03 360.565E-03 375.069E-03 9.200E+00 391.811E-03 377.000E-03 390.731E-03 9.550E+00 407.249E-03 393.485E-03 406.387E-03 9.900E+00 422.616E-03 409.999E-03 422.038E-03 10.250E+00 437.850E-03 426.529E-03 437.689E-03 10.600E+00 452.763E-03 443.026E-03 453.343E-03 10.950E+00 466.206E-03 459.466E-03 469.005E-03 11.000E+00 467.658E-03 461.778E-03 471.243E-03 | [Pullup] | voltage I(typ) I(min) I(max) | -8.000E+00 60.444E-06 27.653E-06 124.597E-06 -7.650E+00 58.658E-06 26.827E-06 120.982E-06 -7.300E+00 57.067E-06 26.091E-06 117.764E-06 -6.950E+00 55.664E-06 25.441E-06 114.930E-06 -6.600E+00 54.442E-06 24.874E-06 112.465E-06 -6.250E+00 53.392E-06 24.384E-06 110.352E-06 -5.900E+00 52.503E-06 23.974E-06 108.565E-06 -5.550E+00 37.300E-06 23.629E-06 102.638E-06 -5.200E+00 46.186E-06 23.345E-06 105.802E-06 -4.850E+00 50.620E-06 23.116E-06 104.728E-06 -4.500E+00 50.287E-06 22.935E-06 104.149E-06 -4.150E+00 49.989E-06 22.793E-06 103.572E-06 -3.800E+00 49.762E-06 22.683E-06 103.131E-06 -3.450E+00 49.588E-06 22.598E-06 102.799E-06 -3.100E+00 49.455E-06 22.531E-06 102.547E-06 -2.750E+00 49.349E-06 22.477E-06 102.349E-06 -2.400E+00 49.260E-06 22.432E-06 102.185E-06 -2.050E+00 49.182E-06 22.390E-06 102.041E-06 -1.700E+00 49.108E-06 22.352E-06 101.907E-06 -1.350E+00 49.037E-06 22.314E-06 101.777E-06 -1.000E+00 48.966E-06 22.276E-06 101.648E-06 -900.000E-03 48.946E-06 22.265E-06 101.611E-06 -800.000E-03 48.925E-06 22.254E-06 101.573E-06 -700.000E-03 48.905E-06 22.243E-06 101.536E-06 -600.000E-03 48.884E-06 22.232E-06 101.498E-06 -500.000E-03 48.861E-06 22.217E-06 101.459E-06 -400.000E-03 48.832E-06 7.873E-03 101.418E-06 -300.000E-03 7.531E-03 5.868E-03 101.359E-06 -200.000E-03 4.986E-03 3.902E-03 6.000E-03 -100.000E-03 2.488E-03 1.948E-03 2.967E-03 0.000E+00 73.154E-09 7.044E-09 2.087E-06 100.000E-03 -2.476E-03 -1.928E-03 -2.924E-03 200.000E-03 -4.933E-03 -3.823E-03 -5.838E-03 300.000E-03 -7.372E-03 -5.684E-03 -8.739E-03 400.000E-03 -9.790E-03 -7.509E-03 -11.629E-03 500.000E-03 -12.188E-03 -9.296E-03 -14.506E-03 600.000E-03 -14.565E-03 -11.045E-03 -17.371E-03 700.000E-03 -16.921E-03 -12.755E-03 -20.224E-03 800.000E-03 -19.253E-03 -14.430E-03 -23.063E-03 900.000E-03 -21.563E-03 -16.109E-03 -25.889E-03 1.000E+00 -23.849E-03 -17.990E-03 -28.701E-03 1.100E+00 -26.109E-03 -20.405E-03 -31.499E-03 1.200E+00 -28.345E-03 -23.301E-03 -34.282E-03 1.300E+00 -30.559E-03 -26.437E-03 -37.051E-03 1.400E+00 -32.777E-03 -29.667E-03 -39.804E-03 1.500E+00 -35.110E-03 -27.464E-03 -42.542E-03 1.600E+00 -37.002E-03 -30.621E-03 -45.264E-03 1.700E+00 -39.092E-03 -33.936E-03 -47.968E-03 1.800E+00 -41.151E-03 -37.336E-03 -50.656E-03 1.900E+00 -43.192E-03 -40.783E-03 -53.327E-03 2.000E+00 -45.296E-03 -44.257E-03 -55.979E-03 2.100E+00 -47.722E-03 -47.745E-03 -58.612E-03 2.200E+00 -50.644E-03 -51.239E-03 -61.226E-03 2.300E+00 -53.911E-03 -54.731E-03 -63.820E-03 2.400E+00 -57.362E-03 -58.217E-03 -66.394E-03 2.500E+00 -60.914E-03 -61.692E-03 -68.946E-03 2.600E+00 -64.527E-03 -65.153E-03 -71.476E-03 2.700E+00 -68.179E-03 -68.597E-03 -73.983E-03 2.800E+00 -71.856E-03 -72.021E-03 -76.467E-03 2.900E+00 -75.551E-03 -75.425E-03 -78.926E-03 3.000E+00 -79.258E-03 -78.810E-03 -81.362E-03 3.100E+00 -82.972E-03 -82.178E-03 -83.779E-03 3.200E+00 -86.692E-03 -85.534E-03 -86.216E-03 3.300E+00 -90.413E-03 -88.888E-03 -88.815E-03 3.400E+00 -94.134E-03 -92.254E-03 -91.773E-03 3.500E+00 -97.850E-03 -95.624E-03 -95.054E-03 3.600E+00 -101.557E-03 -98.773E-03 -98.526E-03 3.800E+00 -108.898E-03 -101.974E-03 -105.749E-03 4.000E+00 -115.666E-03 -103.438E-03 -113.148E-03 4.200E+00 -118.023E-03 -104.610E-03 -120.559E-03 4.400E+00 -118.461E-03 -105.617E-03 -127.486E-03 4.600E+00 -118.520E-03 -106.530E-03 -129.664E-03 4.800E+00 -118.410E-03 -107.400E-03 -130.374E-03 5.000E+00 -118.213E-03 -108.252E-03 -130.800E-03 5.200E+00 -117.982E-03 -109.100E-03 -131.073E-03 5.400E+00 -117.780E-03 -109.938E-03 -131.067E-03 5.600E+00 -117.681E-03 -110.685E-03 -130.695E-03 5.800E+00 -117.691E-03 -111.071E-03 -130.099E-03 6.000E+00 -117.763E-03 -110.823E-03 -129.388E-03 6.200E+00 -117.868E-03 -110.032E-03 -128.612E-03 6.400E+00 -117.996E-03 -108.908E-03 -127.794E-03 6.600E+00 -118.148E-03 -107.585E-03 -126.949E-03 6.800E+00 -118.323E-03 -106.134E-03 -126.084E-03 7.000E+00 -118.522E-03 -104.595E-03 -125.203E-03 7.200E+00 -118.740E-03 -102.991E-03 -124.310E-03 7.400E+00 -118.965E-03 -101.336E-03 -123.409E-03 7.600E+00 -119.146E-03 -99.642E-03 -122.501E-03 7.800E+00 -119.146E-03 -97.914E-03 -121.595E-03 8.000E+00 -118.798E-03 -96.160E-03 -120.716E-03 8.200E+00 -118.091E-03 -94.382E-03 -119.906E-03 8.400E+00 -117.125E-03 -92.584E-03 -119.181E-03 8.600E+00 -115.991E-03 -90.770E-03 -118.519E-03 8.800E+00 -114.744E-03 -88.941E-03 -117.899E-03 9.000E+00 -113.423E-03 -87.100E-03 -117.309E-03 9.100E+00 -112.742E-03 -86.175E-03 -117.024E-03 | [GND_clamp] | voltage I(typ) I(min) I(max) | -5.500E+00 -1.871E+00 -1.895E+00 -1.855E+00 -5.350E+00 -1.813E+00 -1.835E+00 -1.796E+00 -5.200E+00 -1.754E+00 -1.776E+00 -1.738E+00 -5.050E+00 -1.695E+00 -1.716E+00 -1.679E+00 -4.900E+00 -1.637E+00 -1.656E+00 -1.621E+00 -4.750E+00 -1.578E+00 -1.596E+00 -1.562E+00 -4.600E+00 -1.520E+00 -1.537E+00 -1.503E+00 -4.450E+00 -1.461E+00 -1.477E+00 -1.445E+00 -4.300E+00 -1.403E+00 -1.417E+00 -1.386E+00 -4.150E+00 -1.344E+00 -1.358E+00 -1.328E+00 -4.000E+00 -1.286E+00 -1.299E+00 -1.269E+00 -3.850E+00 -1.227E+00 -1.240E+00 -1.211E+00 -3.700E+00 -1.169E+00 -1.181E+00 -1.152E+00 -3.550E+00 -1.110E+00 -1.123E+00 -1.094E+00 -3.400E+00 -1.052E+00 -1.064E+00 -1.036E+00 -3.250E+00 -993.046E-03 -1.006E+00 -977.160E-03 -3.100E+00 -934.606E-03 -947.546E-03 -918.793E-03 -2.950E+00 -876.197E-03 -889.313E-03 -860.460E-03 -2.800E+00 -817.825E-03 -831.120E-03 -802.167E-03 -2.650E+00 -759.500E-03 -772.971E-03 -743.919E-03 -2.500E+00 -701.228E-03 -714.876E-03 -685.727E-03 -2.350E+00 -643.023E-03 -656.847E-03 -627.600E-03 -2.200E+00 -584.900E-03 -598.900E-03 -569.552E-03 -2.050E+00 -526.879E-03 -541.056E-03 -511.601E-03 -1.900E+00 -468.986E-03 -483.342E-03 -453.771E-03 -1.750E+00 -411.259E-03 -425.798E-03 -396.098E-03 -1.600E+00 -353.751E-03 -368.477E-03 -338.633E-03 -1.450E+00 -296.545E-03 -311.462E-03 -281.458E-03 -1.300E+00 -239.778E-03 -254.883E-03 -224.714E-03 -1.150E+00 -183.702E-03 -198.967E-03 -168.689E-03 -1.000E+00 -128.874E-03 -144.164E-03 -114.136E-03 -850.000E-03 -76.918E-03 -91.581E-03 -63.435E-03 -700.000E-03 -31.977E-03 -44.430E-03 -21.677E-03 -550.000E-03 -3.752E-03 -9.963E-03 -804.649E-06 -400.000E-03 -53.310E-06 -357.668E-06 -3.698E-06 -250.000E-03 -400.517E-09 -7.200E-06 -8.282E-09 -100.000E-03 -2.391E-09 -89.610E-09 -49.848E-12 50.000E-03 26.404E-12 3.167E-09 -28.017E-12 200.000E-03 43.575E-12 4.337E-09 -24.315E-12 350.000E-03 46.204E-12 4.354E-09 -20.791E-12 500.000E-03 48.723E-12 4.356E-09 -17.385E-12 650.000E-03 51.223E-12 4.359E-09 -14.092E-12 800.000E-03 53.702E-12 4.361E-09 -10.907E-12 950.000E-03 56.163E-12 4.364E-09 -7.824E-12 1.100E+00 58.607E-12 4.366E-09 -4.840E-12 1.250E+00 61.031E-12 4.369E-09 -1.949E-12 1.400E+00 63.437E-12 4.371E-09 853.002E-15 1.550E+00 65.825E-12 4.373E-09 3.570E-12 1.700E+00 68.199E-12 4.376E-09 6.206E-12 1.850E+00 70.557E-12 4.378E-09 8.766E-12 2.000E+00 72.900E-12 4.381E-09 11.251E-12 2.150E+00 75.226E-12 4.383E-09 13.666E-12 2.300E+00 77.541E-12 4.386E-09 16.017E-12 2.450E+00 79.845E-12 4.389E-09 18.304E-12 2.600E+00 82.146E-12 4.391E-09 20.533E-12 2.750E+00 84.449E-12 4.403E-09 22.707E-12 2.900E+00 87.390E-12 4.905E-09 24.829E-12 3.050E+00 137.249E-12 26.831E-09 26.934E-12 3.200E+00 3.896E-09 630.402E-09 32.931E-12 3.350E+00 238.358E-09 18.725E-06 568.367E-12 3.500E+00 8.316E-06 6.540E-09 75.549E-09 3.650E+00 171.841E-12 6.543E-09 8.979E-06 3.800E+00 174.915E-12 6.547E-09 48.840E-12 3.950E+00 177.980E-12 6.550E-09 51.548E-12 4.100E+00 181.032E-12 6.553E-09 54.293E-12 4.250E+00 184.095E-12 6.557E-09 57.081E-12 4.400E+00 187.174E-12 6.560E-09 59.922E-12 4.550E+00 190.254E-12 6.563E-09 62.814E-12 4.700E+00 193.348E-12 6.566E-09 65.763E-12 4.850E+00 196.449E-12 6.570E-09 68.780E-12 5.000E+00 199.552E-12 6.573E-09 71.858E-12 5.150E+00 202.656E-12 6.576E-09 75.011E-12 5.300E+00 205.721E-12 6.579E-09 78.231E-12 5.450E+00 208.769E-12 6.583E-09 81.536E-12 5.500E+00 209.781E-12 6.584E-09 82.649E-12 | [POWER_clamp] | voltage I(typ) I(min) I(max) | -8.000E+00 629.345E-03 604.393E-03 654.762E-03 -7.900E+00 619.650E-03 594.772E-03 644.998E-03 -7.800E+00 609.981E-03 585.181E-03 635.256E-03 -7.700E+00 600.339E-03 575.621E-03 625.539E-03 -7.600E+00 590.725E-03 566.094E-03 615.848E-03 -7.500E+00 581.142E-03 556.600E-03 606.183E-03 -7.400E+00 571.591E-03 547.143E-03 596.546E-03 -7.300E+00 562.073E-03 537.724E-03 586.938E-03 -7.200E+00 552.590E-03 528.345E-03 577.362E-03 -7.100E+00 543.145E-03 519.010E-03 567.818E-03 -7.000E+00 533.740E-03 509.720E-03 558.309E-03 -6.900E+00 524.377E-03 500.477E-03 548.837E-03 -6.800E+00 515.057E-03 491.285E-03 539.403E-03 -6.700E+00 505.784E-03 482.144E-03 530.009E-03 -6.600E+00 496.559E-03 473.056E-03 520.658E-03 -6.500E+00 487.382E-03 464.017E-03 511.351E-03 -6.400E+00 478.252E-03 455.020E-03 502.088E-03 -6.300E+00 469.164E-03 446.042E-03 492.870E-03 -6.200E+00 460.100E-03 437.018E-03 483.690E-03 -6.100E+00 451.014E-03 427.713E-03 474.537E-03 -6.000E+00 441.746E-03 415.807E-03 465.371E-03 -5.900E+00 431.120E-03 380.883E-03 456.069E-03 -5.800E+00 401.378E-03 340.730E-03 445.764E-03 -5.700E+00 364.390E-03 296.862E-03 418.985E-03 -5.600E+00 323.970E-03 248.992E-03 385.097E-03 -5.500E+00 279.658E-03 197.169E-03 348.193E-03 -5.400E+00 231.103E-03 142.248E-03 307.775E-03 -5.300E+00 178.322E-03 86.897E-03 263.322E-03 -5.200E+00 122.323E-03 37.806E-03 214.402E-03 -5.100E+00 66.624E-03 8.193E-03 160.969E-03 -5.000E+00 21.166E-03 1.324E-03 104.168E-03 -4.900E+00 2.683E-03 658.614E-06 48.641E-03 -4.800E+00 857.591E-06 509.406E-06 9.350E-03 -4.700E+00 673.076E-06 394.111E-06 1.199E-03 -4.600E+00 553.865E-06 283.875E-06 845.828E-06 -4.500E+00 438.468E-06 179.166E-06 722.654E-06 -4.400E+00 325.417E-06 85.748E-06 604.317E-06 -4.300E+00 216.230E-06 20.543E-06 487.124E-06 -4.200E+00 114.858E-06 1.588E-06 371.538E-06 -4.100E+00 33.950E-06 85.998E-09 258.610E-06 -4.000E+00 2.438E-06 10.463E-09 150.822E-06 -3.900E+00 76.195E-09 6.800E-09 56.102E-06 -3.800E+00 2.460E-09 6.621E-09 4.700E-06 -3.700E+00 305.837E-12 6.610E-09 78.844E-09 -3.600E+00 241.017E-12 6.607E-09 1.255E-09 -3.500E+00 237.013E-12 6.605E-09 140.199E-12 -3.400E+00 234.816E-12 6.603E-09 121.330E-12 -3.300E+00 232.666E-12 6.601E-09 118.176E-12 -3.200E+00 230.541E-12 6.599E-09 115.298E-12 -3.100E+00 228.411E-12 6.596E-09 112.485E-12 -3.000E+00 226.294E-12 6.594E-09 109.721E-12 -2.900E+00 224.183E-12 6.592E-09 107.008E-12 -2.800E+00 222.085E-12 6.590E-09 104.354E-12 -2.700E+00 220.003E-12 6.588E-09 101.743E-12 -2.600E+00 217.917E-12 6.586E-09 99.185E-12 -2.500E+00 215.849E-12 6.584E-09 96.669E-12 -2.400E+00 213.786E-12 6.581E-09 94.198E-12 -2.300E+00 211.730E-12 6.579E-09 91.774E-12 -2.200E+00 209.680E-12 6.577E-09 89.391E-12 -2.100E+00 207.654E-12 6.575E-09 87.053E-12 -2.000E+00 205.620E-12 6.573E-09 84.748E-12 -1.900E+00 203.572E-12 6.571E-09 82.483E-12 -1.800E+00 201.519E-12 6.568E-09 80.259E-12 -1.700E+00 199.451E-12 6.566E-09 78.066E-12 -1.600E+00 197.383E-12 6.564E-09 75.907E-12 -1.500E+00 195.313E-12 6.562E-09 73.788E-12 -1.400E+00 193.247E-12 6.560E-09 71.693E-12 -1.300E+00 191.183E-12 6.558E-09 69.636E-12 -1.200E+00 189.119E-12 6.555E-09 67.605E-12 -1.100E+00 187.073E-12 6.553E-09 65.600E-12 -1.000E+00 185.025E-12 6.551E-09 63.625E-12 -900.000E-03 182.974E-12 6.549E-09 61.680E-12 -800.000E-03 180.929E-12 6.547E-09 59.760E-12 -700.000E-03 178.889E-12 6.544E-09 57.862E-12 -600.000E-03 176.855E-12 6.542E-09 55.985E-12 -500.000E-03 174.814E-12 6.540E-09 54.133E-12 -400.000E-03 172.772E-12 6.538E-09 52.300E-12 -300.000E-03 170.711E-12 6.535E-09 50.489E-12 -200.000E-03 168.576E-12 6.528E-09 48.681E-12 -100.000E-03 165.142E-12 6.429E-09 46.894E-12 0.000E+00 124.182E-12 5.111E-09 49.801E-12 | [Ramp] | variable typ min max dV/dt_r 1.060E+00/514.993E-12 861.990E-03/1.056E-09 1.260E+00/351.302E-12 dV/dt_f 1.221E+00/156.710E-12 1.122E+00/185.838E-12 1.306E+00/141.616E-12 R_load = 50.0000 | [Rising Waveform] R_fixture = 50.0000 V_fixture = 0.000 V_fixture_min = 0.000 V_fixture_max = 0.000 | time V(typ) V(min) V(max) | 0.000s 10.852E-03 8.443E-03 11.866E-03 50.000ps 15.484E-03 12.186E-03 13.870E-03 100.000ps 7.802E-03 10.851E-03 3.520E-03 150.000ps -2.160E-03 2.469E-03 1.748E-03 200.000ps -3.719E-03 -2.617E-03 20.975E-03 250.000ps 1.644E-03 -4.655E-03 98.989E-03 300.000ps 11.528E-03 -4.606E-03 205.681E-03 350.000ps 27.060E-03 -2.888E-03 326.696E-03 400.000ps 75.979E-03 1.006E-03 548.989E-03 450.000ps 138.316E-03 5.332E-03 777.091E-03 500.000ps 201.166E-03 9.362E-03 1.047E+00 550.000ps 327.709E-03 12.897E-03 1.265E+00 600.000ps 496.068E-03 17.244E-03 1.416E+00 650.000ps 696.937E-03 28.354E-03 1.540E+00 700.000ps 924.667E-03 51.731E-03 1.645E+00 750.000ps 1.118E+00 81.985E-03 1.738E+00 800.000ps 1.254E+00 113.189E-03 1.801E+00 850.000ps 1.330E+00 149.659E-03 1.849E+00 900.000ps 1.352E+00 221.812E-03 1.897E+00 950.000ps 1.361E+00 321.014E-03 1.945E+00 1.000ns 1.370E+00 445.176E-03 1.984E+00 1.050ns 1.400E+00 603.630E-03 2.013E+00 1.100ns 1.448E+00 759.454E-03 2.033E+00 1.150ns 1.491E+00 892.599E-03 2.048E+00 1.200ns 1.535E+00 991.895E-03 2.059E+00 1.250ns 1.577E+00 1.056E+00 2.068E+00 1.300ns 1.612E+00 1.088E+00 2.074E+00 1.350ns 1.639E+00 1.098E+00 2.079E+00 1.400ns 1.661E+00 1.092E+00 2.083E+00 1.450ns 1.677E+00 1.076E+00 2.086E+00 1.500ns 1.691E+00 1.053E+00 2.089E+00 1.550ns 1.701E+00 1.030E+00 2.091E+00 1.600ns 1.710E+00 1.007E+00 2.093E+00 1.650ns 1.717E+00 993.738E-03 2.095E+00 1.700ns 1.722E+00 997.453E-03 2.097E+00 1.750ns 1.727E+00 1.011E+00 2.099E+00 1.800ns 1.731E+00 1.030E+00 2.102E+00 1.850ns 1.734E+00 1.058E+00 2.103E+00 1.900ns 1.737E+00 1.091E+00 2.104E+00 1.950ns 1.740E+00 1.126E+00 2.104E+00 2.000ns 1.742E+00 1.163E+00 2.104E+00 2.050ns 1.744E+00 1.200E+00 2.104E+00 2.100ns 1.745E+00 1.231E+00 2.104E+00 2.150ns 1.747E+00 1.258E+00 2.104E+00 2.200ns 1.748E+00 1.280E+00 2.104E+00 2.250ns 1.749E+00 1.299E+00 2.105E+00 2.300ns 1.750E+00 1.315E+00 2.105E+00 2.350ns 1.751E+00 1.328E+00 2.105E+00 2.400ns 1.752E+00 1.339E+00 2.105E+00 2.450ns 1.753E+00 1.349E+00 2.105E+00 2.500ns 1.753E+00 1.357E+00 2.105E+00 2.550ns 1.754E+00 1.365E+00 2.105E+00 2.600ns 1.754E+00 1.372E+00 2.106E+00 2.650ns 1.755E+00 1.378E+00 2.106E+00 2.700ns 1.755E+00 1.383E+00 2.106E+00 2.750ns 1.756E+00 1.389E+00 2.106E+00 2.800ns 1.756E+00 1.393E+00 2.106E+00 2.850ns 1.757E+00 1.398E+00 2.106E+00 2.900ns 1.757E+00 1.401E+00 2.106E+00 2.950ns 1.757E+00 1.405E+00 2.107E+00 3.000ns 1.758E+00 1.408E+00 2.107E+00 3.100ns 1.758E+00 1.414E+00 2.107E+00 3.200ns 1.759E+00 1.419E+00 2.107E+00 3.300ns 1.759E+00 1.422E+00 2.107E+00 3.400ns 1.760E+00 1.425E+00 2.108E+00 3.500ns 1.760E+00 1.427E+00 2.108E+00 3.600ns 1.761E+00 1.429E+00 2.108E+00 3.700ns 1.761E+00 1.430E+00 2.109E+00 3.800ns 1.762E+00 1.432E+00 2.109E+00 3.900ns 1.762E+00 1.433E+00 2.109E+00 4.000ns 1.762E+00 1.434E+00 2.109E+00 4.100ns 1.763E+00 1.435E+00 2.109E+00 4.200ns 1.763E+00 1.435E+00 2.110E+00 4.300ns 1.763E+00 1.436E+00 2.110E+00 4.400ns 1.764E+00 1.436E+00 2.110E+00 4.500ns 1.764E+00 1.437E+00 2.110E+00 4.600ns 1.764E+00 1.437E+00 2.110E+00 4.700ns 1.764E+00 1.438E+00 2.110E+00 4.800ns 1.765E+00 1.438E+00 2.110E+00 4.900ns 1.765E+00 1.439E+00 2.110E+00 5.000ns 1.766E+00 1.439E+00 2.110E+00 5.250ns 1.767E+00 1.440E+00 2.110E+00 5.500ns 1.770E+00 1.440E+00 2.110E+00 5.750ns 1.770E+00 1.441E+00 2.111E+00 6.000ns 1.770E+00 1.441E+00 2.111E+00 6.250ns 1.770E+00 1.442E+00 2.111E+00 6.500ns 1.771E+00 1.442E+00 2.111E+00 6.750ns 1.771E+00 1.442E+00 2.111E+00 7.000ns 1.772E+00 1.443E+00 2.111E+00 7.250ns 1.773E+00 1.443E+00 2.111E+00 7.500ns 1.774E+00 1.443E+00 2.111E+00 7.750ns 1.775E+00 1.443E+00 2.111E+00 8.000ns 1.776E+00 1.444E+00 2.111E+00 8.250ns 1.777E+00 1.444E+00 2.111E+00 8.500ns 1.777E+00 1.444E+00 2.111E+00 8.750ns 1.777E+00 1.444E+00 2.111E+00 9.000ns 1.778E+00 1.445E+00 2.111E+00 9.250ns 1.778E+00 1.445E+00 2.111E+00 9.500ns 1.778E+00 1.445E+00 2.111E+00 9.750ns 1.778E+00 1.445E+00 2.111E+00 | [Rising Waveform] R_fixture = 50.0000 V_fixture = 3.3000 V_fixture_min = 3.0000 V_fixture_max = 3.6000 | time V(typ) V(min) V(max) | 0.000s 1.265E+00 1.130E+00 1.423E+00 50.000ps 1.269E+00 1.133E+00 1.425E+00 100.000ps 1.260E+00 1.130E+00 1.416E+00 150.000ps 1.255E+00 1.122E+00 1.423E+00 200.000ps 1.261E+00 1.122E+00 1.444E+00 250.000ps 1.272E+00 1.124E+00 1.503E+00 300.000ps 1.279E+00 1.128E+00 1.574E+00 350.000ps 1.286E+00 1.133E+00 1.639E+00 400.000ps 1.316E+00 1.137E+00 1.730E+00 450.000ps 1.349E+00 1.139E+00 1.863E+00 500.000ps 1.372E+00 1.139E+00 2.026E+00 550.000ps 1.395E+00 1.137E+00 2.228E+00 600.000ps 1.436E+00 1.135E+00 2.470E+00 650.000ps 1.513E+00 1.140E+00 2.727E+00 700.000ps 1.619E+00 1.154E+00 2.996E+00 750.000ps 1.756E+00 1.170E+00 3.188E+00 800.000ps 1.913E+00 1.183E+00 3.320E+00 850.000ps 2.059E+00 1.190E+00 3.401E+00 900.000ps 2.206E+00 1.195E+00 3.454E+00 950.000ps 2.383E+00 1.202E+00 3.495E+00 1.000ns 2.583E+00 1.217E+00 3.525E+00 1.050ns 2.772E+00 1.249E+00 3.546E+00 1.100ns 2.909E+00 1.302E+00 3.560E+00 1.150ns 3.009E+00 1.373E+00 3.569E+00 1.200ns 3.080E+00 1.461E+00 3.575E+00 1.250ns 3.137E+00 1.561E+00 3.579E+00 1.300ns 3.181E+00 1.665E+00 3.583E+00 1.350ns 3.211E+00 1.771E+00 3.585E+00 1.400ns 3.232E+00 1.882E+00 3.587E+00 1.450ns 3.247E+00 1.998E+00 3.589E+00 1.500ns 3.258E+00 2.116E+00 3.590E+00 1.550ns 3.265E+00 2.232E+00 3.591E+00 1.600ns 3.271E+00 2.337E+00 3.592E+00 1.650ns 3.276E+00 2.424E+00 3.593E+00 1.700ns 3.280E+00 2.516E+00 3.593E+00 1.750ns 3.283E+00 2.599E+00 3.594E+00 1.800ns 3.287E+00 2.674E+00 3.594E+00 1.850ns 3.290E+00 2.723E+00 3.594E+00 1.900ns 3.292E+00 2.762E+00 3.595E+00 1.950ns 3.294E+00 2.797E+00 3.595E+00 2.000ns 3.295E+00 2.827E+00 3.595E+00 2.050ns 3.296E+00 2.853E+00 3.595E+00 2.100ns 3.296E+00 2.876E+00 3.596E+00 2.150ns 3.296E+00 2.898E+00 3.596E+00 2.200ns 3.296E+00 2.918E+00 3.596E+00 2.250ns 3.297E+00 2.934E+00 3.596E+00 2.300ns 3.297E+00 2.946E+00 3.596E+00 2.350ns 3.297E+00 2.956E+00 3.596E+00 2.400ns 3.297E+00 2.964E+00 3.597E+00 2.450ns 3.297E+00 2.969E+00 3.597E+00 2.500ns 3.297E+00 2.973E+00 3.597E+00 2.550ns 3.297E+00 2.976E+00 3.597E+00 2.600ns 3.297E+00 2.979E+00 3.597E+00 2.650ns 3.297E+00 2.981E+00 3.597E+00 2.700ns 3.297E+00 2.983E+00 3.598E+00 2.750ns 3.297E+00 2.984E+00 3.598E+00 2.800ns 3.297E+00 2.985E+00 3.598E+00 2.850ns 3.297E+00 2.987E+00 3.598E+00 2.900ns 3.297E+00 2.988E+00 3.598E+00 2.950ns 3.297E+00 2.989E+00 3.598E+00 3.000ns 3.297E+00 2.990E+00 3.598E+00 3.100ns 3.297E+00 2.991E+00 3.598E+00 3.200ns 3.297E+00 2.993E+00 3.598E+00 3.300ns 3.297E+00 2.995E+00 3.598E+00 3.400ns 3.298E+00 2.996E+00 3.598E+00 3.500ns 3.298E+00 2.998E+00 3.598E+00 3.600ns 3.298E+00 2.999E+00 3.598E+00 3.700ns 3.298E+00 3.000E+00 3.598E+00 3.800ns 3.298E+00 3.000E+00 3.598E+00 3.900ns 3.298E+00 3.000E+00 3.598E+00 4.000ns 3.298E+00 3.000E+00 3.598E+00 4.100ns 3.298E+00 3.000E+00 3.598E+00 4.200ns 3.298E+00 3.000E+00 3.599E+00 4.300ns 3.298E+00 2.999E+00 3.599E+00 4.400ns 3.298E+00 2.999E+00 3.599E+00 4.500ns 3.298E+00 2.999E+00 3.599E+00 4.600ns 3.298E+00 2.999E+00 3.599E+00 4.700ns 3.298E+00 2.999E+00 3.599E+00 4.800ns 3.298E+00 2.999E+00 3.599E+00 4.900ns 3.298E+00 2.999E+00 3.599E+00 5.000ns 3.298E+00 2.999E+00 3.599E+00 5.250ns 3.298E+00 2.999E+00 3.599E+00 5.500ns 3.299E+00 2.999E+00 3.599E+00 5.750ns 3.299E+00 2.999E+00 3.599E+00 6.000ns 3.299E+00 2.999E+00 3.599E+00 6.250ns 3.299E+00 2.999E+00 3.599E+00 6.500ns 3.299E+00 2.999E+00 3.599E+00 6.750ns 3.299E+00 2.999E+00 3.600E+00 7.000ns 3.299E+00 2.999E+00 3.600E+00 7.250ns 3.299E+00 2.999E+00 3.600E+00 7.500ns 3.299E+00 2.999E+00 3.600E+00 7.750ns 3.299E+00 2.999E+00 3.600E+00 8.000ns 3.299E+00 2.999E+00 3.600E+00 8.250ns 3.299E+00 2.999E+00 3.600E+00 8.500ns 3.299E+00 2.999E+00 3.600E+00 8.750ns 3.299E+00 2.999E+00 3.600E+00 9.000ns 3.299E+00 2.999E+00 3.600E+00 9.250ns 3.299E+00 2.999E+00 3.600E+00 9.500ns 3.299E+00 2.999E+00 3.600E+00 9.750ns 3.299E+00 2.999E+00 3.600E+00 | [Falling Waveform] R_fixture = 50.0000 V_fixture = 0.000 V_fixture_min = 0.000 V_fixture_max = 0.000 | time V(typ) V(min) V(max) | 0.000s 1.780E+00 1.450E+00 2.111E+00 50.000ps 1.779E+00 1.449E+00 2.111E+00 100.000ps 1.780E+00 1.448E+00 2.113E+00 150.000ps 1.783E+00 1.451E+00 2.113E+00 200.000ps 1.784E+00 1.452E+00 2.099E+00 250.000ps 1.782E+00 1.453E+00 2.076E+00 300.000ps 1.774E+00 1.454E+00 2.058E+00 350.000ps 1.760E+00 1.454E+00 2.055E+00 400.000ps 1.745E+00 1.455E+00 2.080E+00 450.000ps 1.733E+00 1.454E+00 2.101E+00 500.000ps 1.724E+00 1.452E+00 2.081E+00 550.000ps 1.719E+00 1.449E+00 1.846E+00 600.000ps 1.719E+00 1.446E+00 1.384E+00 650.000ps 1.726E+00 1.441E+00 835.912E-03 700.000ps 1.740E+00 1.436E+00 519.312E-03 750.000ps 1.751E+00 1.430E+00 340.739E-03 800.000ps 1.746E+00 1.424E+00 228.585E-03 850.000ps 1.713E+00 1.418E+00 155.762E-03 900.000ps 1.562E+00 1.411E+00 112.225E-03 950.000ps 1.200E+00 1.405E+00 84.167E-03 1.000ns 788.728E-03 1.399E+00 63.125E-03 1.050ns 476.360E-03 1.393E+00 48.119E-03 1.100ns 319.135E-03 1.387E+00 36.647E-03 1.150ns 219.664E-03 1.382E+00 28.741E-03 1.200ns 154.351E-03 1.377E+00 23.486E-03 1.250ns 113.978E-03 1.373E+00 19.909E-03 1.300ns 84.938E-03 1.370E+00 17.351E-03 1.350ns 64.885E-03 1.366E+00 15.427E-03 1.400ns 51.880E-03 1.358E+00 13.937E-03 1.450ns 41.836E-03 1.345E+00 12.756E-03 1.500ns 35.276E-03 1.321E+00 11.792E-03 1.550ns 31.709E-03 1.279E+00 10.996E-03 1.600ns 29.037E-03 1.227E+00 10.335E-03 1.650ns 26.216E-03 1.171E+00 9.783E-03 1.700ns 23.308E-03 1.105E+00 9.322E-03 1.750ns 20.590E-03 1.016E+00 8.937E-03 1.800ns 18.253E-03 903.504E-03 8.618E-03 1.850ns 16.343E-03 780.162E-03 8.356E-03 1.900ns 14.826E-03 664.488E-03 8.169E-03 1.950ns 13.633E-03 570.111E-03 8.279E-03 2.000ns 12.681E-03 504.093E-03 8.771E-03 2.050ns 11.907E-03 467.272E-03 9.073E-03 2.100ns 11.269E-03 452.285E-03 9.131E-03 2.150ns 10.739E-03 443.563E-03 9.045E-03 2.200ns 10.291E-03 427.933E-03 8.883E-03 2.250ns 9.905E-03 405.797E-03 8.680E-03 2.300ns 9.566E-03 379.028E-03 8.464E-03 2.350ns 9.261E-03 349.432E-03 8.253E-03 2.400ns 8.979E-03 318.791E-03 8.056E-03 2.450ns 8.729E-03 288.236E-03 7.873E-03 2.500ns 8.563E-03 258.616E-03 7.706E-03 2.550ns 8.558E-03 230.511E-03 7.553E-03 2.600ns 8.752E-03 204.220E-03 7.413E-03 2.650ns 8.998E-03 179.991E-03 7.286E-03 2.700ns 9.110E-03 157.945E-03 7.171E-03 2.750ns 9.122E-03 138.097E-03 7.066E-03 2.800ns 9.148E-03 120.364E-03 6.971E-03 2.850ns 9.182E-03 104.644E-03 6.885E-03 2.900ns 9.170E-03 90.805E-03 6.807E-03 2.950ns 9.111E-03 78.701E-03 6.736E-03 3.000ns 9.032E-03 68.172E-03 6.673E-03 3.100ns 8.878E-03 51.077E-03 6.563E-03 3.200ns 8.737E-03 38.324E-03 6.475E-03 3.300ns 8.616E-03 29.088E-03 6.403E-03 3.400ns 8.519E-03 22.437E-03 6.346E-03 3.500ns 8.448E-03 17.600E-03 6.302E-03 3.600ns 8.403E-03 14.029E-03 6.271E-03 3.700ns 8.383E-03 11.349E-03 6.249E-03 3.800ns 8.385E-03 9.292E-03 6.238E-03 3.900ns 8.409E-03 7.683E-03 6.236E-03 4.000ns 8.453E-03 6.400E-03 6.242E-03 4.100ns 8.518E-03 5.347E-03 6.256E-03 4.200ns 8.605E-03 4.450E-03 6.277E-03 4.300ns 8.718E-03 3.647E-03 6.304E-03 4.400ns 8.865E-03 2.795E-03 6.337E-03 4.500ns 9.057E-03 1.587E-03 6.375E-03 4.600ns 9.264E-03 611.218E-06 6.418E-03 4.700ns 9.433E-03 -12.522E-06 6.465E-03 4.800ns 9.569E-03 -320.804E-06 6.516E-03 4.900ns 9.686E-03 -189.448E-06 6.571E-03 5.000ns 9.788E-03 947.890E-06 6.628E-03 5.250ns 9.999E-03 10.524E-03 6.784E-03 5.500ns 10.180E-03 22.664E-03 6.957E-03 5.750ns 10.343E-03 30.492E-03 7.143E-03 6.000ns 10.492E-03 29.481E-03 7.339E-03 6.250ns 10.629E-03 21.396E-03 7.543E-03 6.500ns 10.753E-03 14.427E-03 7.751E-03 6.750ns 10.867E-03 11.129E-03 7.962E-03 7.000ns 10.970E-03 9.925E-03 8.175E-03 7.250ns 11.064E-03 9.603E-03 8.385E-03 7.500ns 11.150E-03 9.544E-03 8.593E-03 7.750ns 11.226E-03 9.560E-03 8.795E-03 8.000ns 11.294E-03 9.601E-03 8.990E-03 8.250ns 11.354E-03 9.641E-03 9.176E-03 8.500ns 11.406E-03 9.673E-03 9.353E-03 8.750ns 11.451E-03 9.692E-03 9.520E-03 9.000ns 11.488E-03 9.701E-03 9.677E-03 9.250ns 11.519E-03 9.700E-03 9.822E-03 9.500ns 11.543E-03 9.691E-03 9.955E-03 9.750ns 11.563E-03 9.676E-03 10.078E-03 | [Falling Waveform] R_fixture = 50.0000 V_fixture = 3.3000 V_fixture_min = 3.0000 V_fixture_max = 3.6000 | time V(typ) V(min) V(max) | 0.000s 3.300E+00 3.000E+00 3.600E+00 50.000ps 3.299E+00 2.998E+00 3.599E+00 100.000ps 3.300E+00 2.998E+00 3.601E+00 150.000ps 3.303E+00 3.001E+00 3.602E+00 200.000ps 3.304E+00 3.003E+00 3.586E+00 250.000ps 3.301E+00 3.003E+00 3.561E+00 300.000ps 3.293E+00 3.003E+00 3.543E+00 350.000ps 3.280E+00 3.003E+00 3.543E+00 400.000ps 3.267E+00 3.003E+00 3.576E+00 450.000ps 3.257E+00 3.001E+00 3.612E+00 500.000ps 3.250E+00 2.999E+00 3.612E+00 550.000ps 3.247E+00 2.995E+00 3.356E+00 600.000ps 3.250E+00 2.989E+00 2.891E+00 650.000ps 3.261E+00 2.983E+00 2.430E+00 700.000ps 3.284E+00 2.977E+00 1.935E+00 750.000ps 3.311E+00 2.971E+00 1.622E+00 800.000ps 3.331E+00 2.967E+00 1.484E+00 850.000ps 3.333E+00 2.963E+00 1.407E+00 900.000ps 3.205E+00 2.961E+00 1.362E+00 950.000ps 2.893E+00 2.959E+00 1.334E+00 1.000ns 2.515E+00 2.960E+00 1.319E+00 1.050ns 2.124E+00 2.961E+00 1.310E+00 1.100ns 1.706E+00 2.963E+00 1.301E+00 1.150ns 1.452E+00 2.964E+00 1.296E+00 1.200ns 1.334E+00 2.966E+00 1.292E+00 1.250ns 1.272E+00 2.968E+00 1.291E+00 1.300ns 1.232E+00 2.971E+00 1.290E+00 1.350ns 1.208E+00 2.977E+00 1.290E+00 1.400ns 1.194E+00 2.986E+00 1.290E+00 1.450ns 1.186E+00 2.999E+00 1.290E+00 1.500ns 1.181E+00 3.012E+00 1.290E+00 1.550ns 1.177E+00 3.023E+00 1.290E+00 1.600ns 1.174E+00 3.032E+00 1.290E+00 1.650ns 1.173E+00 3.034E+00 1.291E+00 1.700ns 1.173E+00 2.999E+00 1.291E+00 1.750ns 1.174E+00 2.868E+00 1.291E+00 1.800ns 1.175E+00 2.654E+00 1.292E+00 1.850ns 1.175E+00 2.388E+00 1.292E+00 1.900ns 1.175E+00 2.086E+00 1.293E+00 1.950ns 1.175E+00 1.750E+00 1.293E+00 2.000ns 1.175E+00 1.450E+00 1.293E+00 2.050ns 1.175E+00 1.279E+00 1.294E+00 2.100ns 1.176E+00 1.195E+00 1.294E+00 2.150ns 1.177E+00 1.148E+00 1.295E+00 2.200ns 1.178E+00 1.121E+00 1.296E+00 2.250ns 1.179E+00 1.104E+00 1.297E+00 2.300ns 1.180E+00 1.095E+00 1.298E+00 2.350ns 1.182E+00 1.090E+00 1.298E+00 2.400ns 1.183E+00 1.087E+00 1.299E+00 2.450ns 1.185E+00 1.084E+00 1.299E+00 2.500ns 1.187E+00 1.083E+00 1.300E+00 2.550ns 1.188E+00 1.082E+00 1.300E+00 2.600ns 1.191E+00 1.083E+00 1.301E+00 2.650ns 1.193E+00 1.083E+00 1.301E+00 2.700ns 1.195E+00 1.084E+00 1.302E+00 2.750ns 1.198E+00 1.085E+00 1.302E+00 2.800ns 1.201E+00 1.086E+00 1.303E+00 2.850ns 1.204E+00 1.088E+00 1.304E+00 2.900ns 1.208E+00 1.090E+00 1.304E+00 2.950ns 1.212E+00 1.092E+00 1.305E+00 3.000ns 1.216E+00 1.094E+00 1.306E+00 3.100ns 1.228E+00 1.100E+00 1.307E+00 3.200ns 1.241E+00 1.106E+00 1.309E+00 3.300ns 1.255E+00 1.114E+00 1.311E+00 3.400ns 1.268E+00 1.121E+00 1.313E+00 3.500ns 1.276E+00 1.129E+00 1.316E+00 3.600ns 1.280E+00 1.135E+00 1.318E+00 3.700ns 1.278E+00 1.138E+00 1.321E+00 3.800ns 1.272E+00 1.138E+00 1.325E+00 3.900ns 1.266E+00 1.137E+00 1.329E+00 4.000ns 1.261E+00 1.135E+00 1.334E+00 4.100ns 1.259E+00 1.132E+00 1.340E+00 4.200ns 1.259E+00 1.130E+00 1.348E+00 4.300ns 1.261E+00 1.128E+00 1.358E+00 4.400ns 1.263E+00 1.127E+00 1.370E+00 4.500ns 1.266E+00 1.127E+00 1.383E+00 4.600ns 1.268E+00 1.127E+00 1.397E+00 4.700ns 1.269E+00 1.128E+00 1.410E+00 4.800ns 1.268E+00 1.129E+00 1.421E+00 4.900ns 1.267E+00 1.129E+00 1.429E+00 5.000ns 1.266E+00 1.130E+00 1.433E+00 5.250ns 1.265E+00 1.130E+00 1.428E+00 5.500ns 1.266E+00 1.130E+00 1.419E+00 5.750ns 1.266E+00 1.129E+00 1.420E+00 6.000ns 1.266E+00 1.129E+00 1.425E+00 6.250ns 1.266E+00 1.129E+00 1.426E+00 6.500ns 1.266E+00 1.130E+00 1.423E+00 6.750ns 1.266E+00 1.130E+00 1.422E+00 7.000ns 1.266E+00 1.130E+00 1.423E+00 7.250ns 1.266E+00 1.129E+00 1.424E+00 7.500ns 1.266E+00 1.129E+00 1.424E+00 7.750ns 1.266E+00 1.129E+00 1.423E+00 8.000ns 1.266E+00 1.129E+00 1.423E+00 8.250ns 1.266E+00 1.129E+00 1.423E+00 8.500ns 1.266E+00 1.129E+00 1.423E+00 8.750ns 1.266E+00 1.129E+00 1.423E+00 9.000ns 1.266E+00 1.129E+00 1.423E+00 9.250ns 1.266E+00 1.129E+00 1.423E+00 9.500ns 1.266E+00 1.129E+00 1.423E+00 9.750ns 1.266E+00 1.129E+00 1.423E+00 | | End [Model] OUT3STNR | | [END]