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Personal Computer Circuit Design Tools

Model Libraries

© copyright intusoft 1988-1997 P.O.Box 710 San Pedro, Ca. 90733-0710 Tel. (310) 833-0710 Fax (310) 833-9658 email [email protected] web - www.intusoft.com

The software programs described, or referenced, herein are copyrighted and all rights are reserved by Intusoft, Inc. The programs may not be copied or duplicated except as expressly permitted in the Software License Agreement. ISSPICE 4 is based on Berkeley SPICE 3F.5, which was developed by the Department of Electrical Engineering and Computer Sciences, University of California, Berkeley CA and XSPICE, which was developed by Georgia Tech Research Corp., Georgia Institute of Technology, Atlanta Georgia, 30332-0800 Portions of ISSPICE 4 have been developed at Universite Catholique de Louvain in Belgium, University of Illinois, and Macquarie University in Australia. Many thanks to Benjamin Iniguez, Pablo Menu, Anthony Parker and Christophe Basso for their contributions to IS SPICE4 ’s models. Portions of this manual have been previously published in EDN Magazine. This publication may contain technical inaccuracies or typographical errors. Changes are periodically made to the information herein; these changes will be incorporated in new editions of this publication. Model Library Listings, Copyright © intusoft, 1988-97. All Rights Reserved. This document may not, in whole or in part, be copied, photocopied, reproduced, transmitted, or transcribed to any electronic medium or machine readable form, or translated into any language, in any form, by any means, without prior written permission from intusoft.

is a trademark of intusoft

Intusoft, the Intusoft logo, ISSPICE , ISSPICE 3, ISSPICE 4, SPICENET, INTUSCOPE, PRESPICE and IsEd are trademarks of Intusoft, Inc. All company/product names are trademarks/registered trademarks of their respective owners. All company/product names are trademarks/registered trademarks of their respective owners. Windows and Windows NT are trademarks of Microsoft Corporation. Printed in the U.S.A.

2

rev. 97/8

Contents Chapter 1

Model Listings 7 8 9 10 13 24 31 32 33 34 36 38 38 39 40 44 50 51 58 66 67 68 69 73 74 75 76 92 97 101 102 103 107 108 109 110 111 112 114 115 117

Introduction Using Intusoft’s SPICE Models Getting SPICE Models Generic Template Models Diodes/Zener Diodes Rectifier Diodes Switching Diodes GaAs Diodes/Varactor Diodes Laser Diodes Schottky Diodes Diode Bridges JFET Current Regulators Laser Diodes/Photo Diodes Generic Diodes Small Signal Transistors (NPN) Small Signal Transistors (PNP) Darlington Transistors (NPN/PNP) Power Transistors (NPN/PNP) RF Bipolar Transistors MMICs GaAs MESFETs/PIN Diodes/Couplers RF FETs/RF Beads JFETs Small Signal MOSFETs (N-Channel) Small Signal MOSFETs (P-Channel) Dual-Gate MOSFETs Power MOSFETs (N-Channel) SCRs Triacs Alternistors Sidacs/Sidactors IGBTs UJTs, PUTs, Regulators Power MOS Drivers/Nonlinear Magnetic Cores PWM ICs Transformers Magnetic Cores Intusoft Op-Amp Models Advanced Linear Devices Analog Devices and PMI Apex Microtechnology/Burr-Brown

3

TABLE OF CONTENTS

118 119 120 121 124 125 134 135 136 136 136 137 137 137 138 138 138 138 139 140 140 141 143 153 153 154 155 156 157 158 159 160 162 163 165 166 167 Chapter 2

Modeling Semiconductors 183 185 186 187 188 188

4

Harris/Comlinear/Elantec Linear Technology/Maxim Motorola/National Semiconductor SGS-Thomson/Texas Instruments Opto-Isolators Varistors (MOVs) Vacuum Tubes Miscellaneous Capacitors Analog Behavioral Models Mathematical Functions Analog Behavioral Models Function Blocks Laplace & Z Domain Functions Fuzzy Logic Functions Basic Mechanical Functions Neural Networks Switched Capacitor Filters and Elements Switched Capacitor Elements Digital Logic and Mixed Mode Simulation Elements Generic Digital Primitives CMOS Gates TTL Gates I/O Stages (Input-Output Only) ECL Gates Digital Potentiometers Voltage Regulators & References Analog Switches Relays/Drivers/PLLs/Timers Bridges/Thermal Models Fuse Models Enhanced Signal Sources Coaxial Cables Thermistors Hall Effect Sensors Pressure Sensors Connectors Introduction Diodes Default Diode Limitations Other Diode Model Limitations Notes About Using The Default Diode Model Forward Conduction

191 192 194 195 196 196 197 201 204 205 Chapter 3

BJTs 207 207 209 211 211 214 214 215 216 217 218 218 219 219

Chapter 4

Bipolar Junction Transistors Default BJT Limitations The IsSpice4 BJT Model Base Resistance Determining DC Model Parameters from Data Sheets Reverse Parameters BJT Dynamic Parameters Determining Dynamic Parameters from Data Sheets BJT AC Parameters BJT Temperature Parameters An Enhanced BJT Default Model Limitations Power Transistors References

JFETs 221 221 222 223 223 224 224 226 229 230

Chapter 5

Diode Reverse Conduction Diode Charge Storage Variation With Temperature Diode Noise Area Dependence Example of Modeling From A Data Sheet Determination of Parameters From Data Sheets Generic Diodes Modeling Schottky Barrier or Germanium Diodes Generic Zener Diodes

Junction Field Effect Transistors Overview DC Characteristics Dynamic Behavior Noise Temperature Dependence Determining JFET Parameters from Data Sheets Parameter Tweaking Gallium Arsenide FET: (GaAsFET) References

MESFETs 231 231 232 233 234

Metal Semiconductor Field Effect Transistors Overview DC Characteristics Charge Storage Noise

5

TABLE OF CONTENTS

234 Chapter 6

235 235 238 240 Chapter 7

Metal Oxide Semiconductor FETs Overview Spice MOSFET Models References

Macromodels 243 244 246 247 248 248 250 251 253 254 255 256 257 260 261 261 262 262 265

Chapter 8

References

MOSFETs

Operational Amplifier Models Generic Op-amps Input Stage Interstage Output Stage Example Bipolar and JFET Input Op-amps LM111 Comparator Generic Signal Generators Generic Functions Analog Computer Functions Generic Crystals Generic Potentiometer Opto-Isolator Generic Voltage Controlled Resistor Generic Phase Locked Loop Models Random Noise Sources Generic Thermal Models Generic Interconnect References

Models For Power Electronics 267 269 271 274 275 279 282 284 287

Saturable Reactor Model How The Core Model Works Calculating Core Parameters Using And Testing The Saturable Core Transformer Models Small Signal AC Analysis of PWMs A Silicon Controlled Rectifier (SCR) Model Special Sources For Power Supply Designers References

289

Appendix A: Model References

Appendices

6

Model Listings

Introduction The ICAP model libraries consist of ISSPICE .MODEL and .SUBCKT statements which are grouped into several files, each having a different library name with the extension “.LIB”. This booklet contains a listing of all IS SPICE models in the ICAP packages, Power Supply Designer's Library, RF Device Library, Mechatronics Library and the vendor-supplied IC libraries. One or more of the following categories will be provided in the listings. Part #

Model/Subcircuit Name

IS SPICE Letter

SPICENET Symbol

Passed Library Description Parameters Name

The “Part #” column provides the part number for the component. It may also give an indication of the device’s functionality. The “Model/Subcircuit Name” is the name used in the ISSPICE .MODEL or .SUBCKT statement. The “IS SPICE Letter” is the key letter that is used in the IS SPICE netlist to refer to the element. It will be “A, D, J, M, Q, R, S, O, U, W, or Z”, for any device that is described using the IS SPICE .MODEL statement, and “X” for a device that is described by an IS SPICE .SUBCKT netlist. The “SPICENET Symbol” is the name of the symbol that is used to call the device when in S PICENET. SPICENET symbols come in three types; primitives (i.e. diodes, transistors, JFETs, MOSFETs),

7

INTRODUCTION

specific subcircuit symbols (i.e. UA741), and generic subcircuit symbols. There are two classes of generic subcircuit symbols, one for elements that use the parameter passing syntax (i.e. XFMR, OPAMP), and one that applies to a specific class of devices (i.e. IGBT, OPTO, FUSE, etc.). The “Passed Parameters” show a list of the parameters that must be defined before the element can be used. The “Library Name” is the filename.LIB file in which the device is located. The “Description” is selfexplanatory. The connections to the device, in the order that they appear in the IS SPICE statement, may also be listed.

Using Intusoft’s SPICE Models To use these models directly with any other SPICE program:

8

•

Enter the proper syntax for the desired element into the input netlist. Use the .MODEL or .SUBCKT name which is listed in the Model/Subcircuit Name column.

•

Append the appropriate .MODEL or .SUBCKT netlist from the .LIB file, listed in the Library Name column, into your input SPICE netlist (.CIR file). Run normally.

CHAPTER 1 - MODEL LISTINGS

Getting SPICE Models Intusoft has four packages which help you get ISS PICE models:

Power Supply Designer’s Library RF Device Library Vendor Supplied Op-amp/IC Models Mechatronics Library Standard ICAP/4 Libraries

There are also other ways to get or create ISSPICE models: Intusoft Technical Support Staff SPICEMOD - Modeling Spreadsheet Program CMSDK - Code Model Software Development Kit

9

Generic Template Models All generic models are represented by ISS PICE subcircuits. This means that they all must be called with the ISSPICE key letter “X” in the input netlist. All generic models require specific parameters to be passed into the subcircuit. These parameters and their units are listed below.

10

Part Name

Subcircuit Name

SPICENET Symbol

Library Name

[Connections] & Parameters

NPN Transistor PNP Transistor NPN Power BJT

NBJT PBJT NPWR

NBJT PBJT NPWR

Device Device Device

[Collector, Base, Emitter] COB C-B Cap. in Farads at 10V FT Gain Bandwidth Product in Hz TS Storage Time in Seconds IMAX Max. IC in Amps

Rectifier Diode

DIODE

DIODE

Device

[Anode,Cathode] IMAX Max. ID in Amps TRR TRR in Seconds VMAX Maximum Continuous Reverse Voltage in Volts

Soft Recovery Diode

DBEHAV

DBEHAV

Device

[Anode,Cathode]

Zener Diode, Low Voltage

LZEN

LZEN

Device

[Anode,Cathode] ZV Breakdown at .02 Amps in V

Zener Diode, High Voltage

HZEN

HZEN

Device

[Anode,Cathode] ZV Breakdown at 125mW Dissipation in V

N Channel JFET

JFET

JFET

Device2

[Drain, Gate, Source] VTO Threshold Voltage in V IDSS Drain Current in Amps GDS Output Conductance in mhos

GaAs FET

GAS

GAS

Device

[Drain, Gate, Source] VT Threshold Voltage in Volts L Channel Length in microns W Channel Width in microns KP Gain in Amps/Volt2 DC Capacitance in Farads/micron N Number of Parallel Stripes RHOG Gate Metal Res. in Ω/micron RHOD Drain Metal Res. in Ω/micron

Transformer XFMR XMFR Device Transformer XFMR-TAP XFMR-TAP Device Center Tapped [Pri+, Pri-, Sec+, Sec Center, Sec-]

[Pri+, Pri-, Sec+, Sec-] RATIO Turns Ratio (Secondary/Primary)

Saturable Core

CORE

CORE

Device

[Hi, Lo, Flux Test Point] VSEC Flux Capacity in V-Sec IVSEC Initial Flux Capacity in V-Sec LMAG Magnetizing Inductance in H LSAT Saturation Inductance in H FEDDY Eddy Current Critical Frequency in Hz

Pulse Width Modulator

PWM

PWM

Device

[In+, In-, Out, Control+, Control- ] No Parameters

Generic Template Models Part Name

Subcircuit SPICENET Name Symbol

Library Name

[Connections] & Parameters

Wire Wire4

WIRE WIRE4

WIRE WIRE4

Device Device

[In, Out] LEN Interconnect Length in in. Z Interconnect Impedance in Ω

WireA WIREA WIREA (Wire elements made from LC sections)

Device

[In, Out] Z Interconnect Impedance in Ω LEN Interconnect Length in in. K dielectric constant

Crosstalk Model MWIRE [In+, Out+, In-, Out-]

MWIRE

Device

LEN Interconnect Length in in. Z Interconnect Impedance in Ω KM Inductive Coupling Constant KC Capacitive Coupling Constant

Ground Plane GWIRE GWIRE Coupling [Signal In, Signal Out, Gnd In, Gnd Out]

Device

LEN Interconnect length in in. Z Interconnect Impedance in Ω KM Inductive Coupling Constant N Turns Ratio

Potentiometer

RPOT

RPOT

Device2

[Top, Wiper, Bottom, Ctrl+, Ctrl-] RPOT Resistance in Ω

Crystal

XTAL

XTAL

Device2

Crystal with Temperature

XTALT

XTALT

Device2

[In, Out] FREQ Freq. of Oscillation in Hz Q Q of Crystal RS Series Resistance in Ω CP Parallel Capacitance in Farads Above plus TEMP Crystal Temperature in Deg. C TC Temp. Coefficient in ppm per Deg. C

Switch

SWITCH

SWITCH

Device

[Term1, Term2, Control] No Parameters

Psw1 SWITCH SWITCH2 Device [+, -, Ctrl+, Ctrl- (Same as S element)], Von > Voff Case Ron On resistance in Ω Psw2 SWITCH SWITCH2 Device Roff Off resistance in Ω Von < Voff Case Von On voltage in Volts Gsw SWITCH SWITCH3 Device Voff Off voltage in Volts Expsw SWITCH SWITCH3 Device Defaults: Ron=1, Roff=1MEG, Von=1V, Voff=0V, SC=15.78 for GSW, SC=20 for WXPSW Tanhsw SWITCH SWITCHPB Device Defaults Ron=1, Roff=1MEG, Von=1V, Voff=1V

[Term1, Term2, Control] Ron On resistance in Ω Roff Off resistance in Ω Von On voltage in Volts Voff Off voltage in Volts Smooth Transition Vout=In2 after Tswitch

SSWITCH TIMESW

SSWITCH TIMESW

Switches Switches

Resistance Time Variable R = Rnom•Vin2

VARES

VARES

Device

[Term1, Term2, Vin] Rnom in Ω

VARCAP

Device

[Term1, Term2, Vin] Cnom in Farads

Capacitance VARCAP Time Variable C = Cnom(1 + Vin)

11

Generic Template Models Part Name

Subcircuit Name

SPICENET Symbol

Library Name

[Connections] & Parameters

Inductance Time Variable L = Lnom•Vin

VARIND

VARIND

Device

[Term1, Term2, Vin] Lnom in Henries

Inductor

IND

IND

Device

Capacitor

CAP

CAP

Device

[plus, minus] L Inductance in Henries DCR DC resistance in Ω CP Parallel capacitance in Farads [plus, minus] C Capacitance in Farads ESR Series resistance in Ω ESL Series inductance in Henries

Generic Bipolar Op-amp

OPAMP

OPAMP

Nonlin and Lin

Generic FET Op-amp

FETAMP

FETAMP

Nonlin and Lin

Transimpedance Op-amp (5Volt)

AMPC5G

AMPC5G

Nonlin

Transimpedance Op-amp (15Volt)

AMPC15G

AMPC15G

Nonlin

[In-, In+, Out, VCC, VEE] VOS Input Offset Voltage in Volts IOS Input Offset Current in Amps IBIAS Input Bias Current in Amps FT Gain Bandwidth in Hz DVDT Slew Rate in Volts/Sec. GAIN DC Gain in Volts/Volt [In-, In+, Out, VCC, VEE] RF Feedback Resistor in Ω FC -3db Bandwidth in Hz DVDT Slew Rate in Volts/Sec.

FUSEG FUSEG FUSEG Thermal See April 1991 Newsletter for parameter definition

[Fuse+, Fuse-] Rcolde, HCTE, KS, TB

CCORE1 CCORE2 Lcouple

Behavioral PWL mode core Behavioral Hysteresis mode core coupled inductor model

Part #

CCR1_DEF CCR2_DEF Lcouple

Part Name

Part Type

COUPLEDL ROYRXFMR TURNS CCCS CCVS VCCS VCVS REALG REALZ

COUPLEDL ROYRXFMR TURNS CCCS CCVS VCCS VCVS RGa_Def RZ_Def

Transformers Transformers Transformers Dep. Sources Dep. Sources Dep. Sources Dep. Sources Real Real

Part #

Part Name

Part Type

FTUBE

Tubes

FTUBE

CM1 CM1 CM1

Part

Description

Sub Type

Linear Linear Linear Linear Generic Generic

Coupled Inductors Dual CT Input, Single Output Winding Current Controlled Current Current Controlled Voltage Voltage Controlled Current Voltage Controlled Voltage Gain for real data; Sampled Data Z^-1 real unit delay; Sampled Data

Part

[Connections] & Parameters

Sub Type Fluorescent

[F1, F1, F2, F2] VTHRES Cold lamp strike voltage VARC Lamp arc voltage ISUS Current at which arc stops

For Other Generic Models, Please See The Following Sections: Analog Behavioral Models, Power Electronics, Vacuum Tubes, Magnetic Cores, and Thermal Models.

12

Diodes Zener Diodes [669] Part #

02BZ2_2 02BZ2_7 02BZ3_3 02BZ3_9 02BZ4_7 02CZ10 02CZ11 02CZ12 02CZ13 02CZ15 02CZ16 02CZ18 02CZ2_0 02CZ2_2 02CZ2_4 02CZ2_7 02CZ20 02CZ22 02CZ24 02CZ27 02CZ3_0 02CZ3_3 02CZ3_6 02CZ3_9 02CZ30 02CZ33 02CZ36 02CZ39 02CZ4_3 02CZ4_7 02CZ5_1 02CZ5_6 02CZ6_2 02CZ6_8 02CZ7_5 02CZ8_2 02CZ9_1 02Z10A 02Z11A 02Z12A 02Z13A 02Z15A 02Z16A 02Z18A 02Z20A 02Z22A 02Z24A 02Z5_6A 02Z6_2A 02Z6_8A 02Z7_5A 02Z8_2A 02Z9_1A 04AZ10 04AZ11 04AZ12

Part Name

Part Type

Part

Description

Sub Type

[Connect: Anode, Cathode]

Z02BZ2_2 Z02BZ2_7 Z02BZ3_3 Z02BZ3_9 Z02BZ4_7 Z02CZ10 Z02CZ11 Z02CZ12 Z02CZ13 Z02CZ15 Z02CZ16 Z02CZ18 Z02CZ2_0 Z02CZ2_2 Z02CZ2_4 Z02CZ2_7 Z02CZ20 Z02CZ22 Z02CZ24 Z02CZ27 Z02CZ3_0 Z02CZ3_3 Z02CZ3_6 Z02CZ3_9 Z02CZ30 Z02CZ33 Z02CZ36 Z02CZ39 Z02CZ4_3 Z02CZ4_7 Z02CZ5_1 Z02CZ5_6 Z02CZ6_2 Z02CZ6_8 Z02CZ7_5 Z02CZ8_2 Z02CZ9_1 Z02Z10A Z02Z11A Z02Z12A Z02Z13A Z02Z15A Z02Z16A Z02Z18A Z02Z20A Z02Z22A Z02Z24A Z02Z5_6A Z02Z6_2A Z02Z6_8A Z02Z7_5A Z02Z8_2A Z02Z9_1A Z04AZ10 Z04AZ11 Z04AZ12

Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes

Zener 50V Zener >50V Zener >50V Zener >50V Zener >50V Zener >50V Zener >50V Zener >50V Zener >50V Zener >50V Zener >50V Zener >50V Zener >50V Zener 50V Zener >50V Zener >50V Zener >50V Zener 10V-50V Zener 10V-50V Zener 10V-50V Zener 10V-50V Zener 5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier >5A Rectifier 100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power 100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V

60V 5A 100V 4A 60V 4A 100V 10A 60V 10A 100V 8A 60V 8A IR 100V 28A 0.077ohm 200V 2A 150V 2A 200V 1.5A 150V 1.5A IR 250V 3A 2ohm 200V 3.5A 150V 3.5A 200V 3A 150V 3A IR 250V 4A 1.1ohm 200V 6A 150V 6A 200V 5A 150V 5A IR 200V 18A 0.18ohm IR 250V 14A 0.28ohm 400V 1.5A IR 20V 4A 0.1ohm SO8 DUAL IR 50V 2A 0.3ohm SO8 DUAL 350V 1.5A 400V 1.3A 350V 1.3A 400V 2.5A 350V 2.5A 400V 2A 350V 2A 400V 3.5A 350V 3.5A 400V 3A 350V 3A 400V 10A 350V 10A 500V 1.5A 450V 1.5A 500V 1A 450V 1A 500V 3A 450V 3A 500V 2.5A 450V 2.5A 500V 8A 450V 8A 500V 7A 450V 7A 1000V 1.3A 1000V 1.2A IR 600V 2A 4.4ohm IR 600V 4A 2.2ohm IR 600V 6A 1.2ohm IR 800V 2A 6.5ohm

[Connect: Drain, Gate, Source]

Power MOSFETs Part # IRFBE30 IRFBF20 IRFBF30 IRFBG20 IRFBG30 IRFD014 IRFD024 IRFD110 IRFD120 IRFD1Z0 IRFD210 IRFD220 IRFD221 IRFD222 IRFD223 IRFF110 IRFF111 IRFF112 IRFF113 IRFF210 IRFF211 IRFF212 IRFF213 IRFF220 IRFF221 IRFF222 IRFF223 IRFF230 IRFF231 IRFF232 IRFF233 IRFF310 IRFF311 IRFF312 IRFF313 IRFF320 IRFF321 IRFF322 IRFF323 IRFF330 IRFF331 IRFF332 IRFF333 IRFF420 IRFF421 IRFF422 IRFF423 IRFF430 IRFF431 IRFF432 IRFF433 IRFI0140 IRFI510G IRFI520G IRFI530G IRFI540G IRFI614G IRFI620G

(N-Channel)

(cont'd)

Part Name

Part Type

Part Sub Type

Description

IRFBE30 IRFBF20 IRFBF30 IRFBG20 IRFBG30 IRFD014 IRFD024 IRFD110 IRFD120 IRFD1Z0 IRFD210 IRFD220 IRFD221 IRFD222 IRFD223 IRFF110 IRFF111 IRFF112 IRFF113 IRFF210 IRFF211 IRFF212 IRFF213 IRFF220 IRFF221 IRFF222 IRFF223 IRFF230 IRFF231 IRFF232 IRFF233 IRFF310 IRFF311 IRFF312 IRFF313 IRFF320 IRFF321 IRFF322 IRFF323 IRFF330 IRFF331 IRFF332 IRFF333 IRFF420 IRFF421 IRFF422 IRFF423 IRFF430 IRFF431 IRFF432 IRFF433 IRFI0140 IRFI510G IRFI520G IRFI530G IRFI540G IRFI614G IRFI620G

MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N

Power >100V Power >100V Power >100V Power >100V Power >100V Power 100V Power 100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power 100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power 100V Power >100V Power >100V Power >100V

SUPERTEX 350V 2A 7ohm SUPERTEX 400V 2A 7ohm SUPERTEX 20V 1A 1ohm SUPERTEX 15V 0A 7ohm SUPERTEX 60V 1A 2.5ohm SUPERTEX 60V 1A 2.5ohm SUPERTEX 240V 0A 10ohm SUPERTEX 300V 0A 25ohm SUPERTEX 18V 1A 2.5ohm SUPERTEX 20V 4A 0.8ohm SUPERTEX 40V 4A 0.8ohm SUPERTEX 60V 6A 1ohm SUPERTEX 100V 6A 1ohm SUPERTEX 200V 3A 4ohm SUPERTEX 240V 3A 4ohm SUPERTEX 350V 1A 8ohm SUPERTEX 400V 1A 8ohm SUPERTEX 350V 4A 3ohm SUPERTEX 400V 4A 3ohm SUPERTEX 400V 4A 3ohm 30V 9A 16.5MOHM SUPERTEX 40V 2A 2.5ohm SUPERTEX 40V 2A 2.5ohm SUPERTEX 40V 2A 2.5ohm SUPERTEX 40V 2A 2.5ohm SUPERTEX 40V 2A 2.5ohm SUPERTEX 60V 2A 2.5ohm SUPERTEX 60V 2A 2.5ohm SUPERTEX 60V 2A 2.5ohm SUPERTEX 60V 2A 2.5ohm SUPERTEX 60V 2A 2.5ohm SUPERTEX 90V 2A 2.5ohm SUPERTEX 90V 2A 2.5ohm SUPERTEX 90V 2A 2.5ohm SUPERTEX 90V 2A 2.5ohm SUPERTEX 350V 6A 1.8ohm SUPERTEX 350V 6A 1.8ohm SUPERTEX 350V 6A 1.8ohm SUPERTEX 400V 6A 1.8ohm SUPERTEX 400V 6A 1.8ohm SUPERTEX 400V 6A 1.8ohm SUPERTEX 450V 6A 2.8ohm SUPERTEX 450V 6A 2.8ohm SUPERTEX 450V 6A 2.8ohm SUPERTEX 500V 6A 2.8ohm SUPERTEX 500V 6A 2.8ohm SUPERTEX 500V 6A 2.8ohm SUPERTEX 550V 3A 4ohm SUPERTEX 550V 3A 4ohm SUPERTEX 600V 3A 4ohm SUPERTEX 600V 3A 4ohm SUPERTEX 350V 0A 25ohm SUPERTEX 350V 0A 25ohm SUPERTEX 400V 0A 25ohm SUPERTEX 400V 0A 25ohm SUPERTEX 450V 0A 40ohm SUPERTEX 450V 0A 40ohm

[Connect: Drain, Gate, Source]

85

Power MOSFETs Part #

VN0550N2 VN0550N3 VN0606 VN0610 VN0635N2 VN0635N3 VN0635N5 VN0640N2 VN0640N3 VN0640N5 VN0645N2 VN0645N3 VN0645N5 VN0650N2 VN0650N3 VN0650N5 VN0655N2 VN0655N3 VN0655N5 VN0660N2 VN0660N3 VN0660N5 VN0808 VN10KN3 VN10KN9 VN10LF VN1206B VN1206L VN1210L VN1304N2 VN1304N3 VN1306N2 VN1306N3 VN1310N2 VN1310N3 VN1310N8 VN1706B VN1706D VN1706L VN1710L VN2010L VN2106N3 VN2110K1 VN2110N3 VN2206N2 VN2206N3 VN2210N2 VN2210N3 VN2220N2 VN2220N3 VN2222LL VN2222NC VN2224N2 VN2224N3 VN2406B VN2406D VN2406L

86

(N-Channel)

(cont'd)

Part Name

Part Type

Part Sub Type

Description

VN0550N2 VN0550N3 VN0606 VN0610 VN0635N2 VN0635N3 VN0635N5 VN0640N2 VN0640N3 VN0640N5 VN0645N2 VN0645N3 VN0645N5 VN0650N2 VN0650N3 VN0650N5 VN0655N2 VN0655N3 VN0655N5 VN0660N2 VN0660N3 VN0660N5 VN0808 VN10KN3 VN10KN9 VN10LF VN1206B VN1206L VN1210L VN1304N2 VN1304N3 VN1306N2 VN1306N3 VN1310N2 VN1310N3 VN1310N8 VN1706B VN1706D VN1706L VN1710L VN2010L VN2106N3 VN2110K1 VN2110N3 VN2206N2 VN2206N3 VN2210N2 VN2210N3 VN2220N2 VN2220N3 VN2222LL VN2222NC VN2224N2 VN2224N3 VN2406B VN2406D VN2406L

MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N MOSFETs N

Power >100V Power >100V Power 100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power 100V Power 100V Power 100V Power 100V Power >100V Power >100V Power >100V Power >100V

SUPERTEX 40V 3A 1.5ohm SUPERTEX 60V 2A 2ohm SUPERTEX 100V 2A 2ohm SUPERTEX 160V 2A 8ohm SUPERTEX 200V 2A 8ohm SUPERTEX 350V 1A 19ohm SUPERTEX 400V 1A 19ohm SUPERTEX 400V 1A 19ohm SUPERTEX 350V 1A 11ohm SUPERTEX 400V 1A 11ohm SUPERTEX 400V 1A 11ohm SUPERTEX 40V 1A 6ohm SUPERTEX 40V 1A 6ohm SUPERTEX 40V 1A 6ohm SUPERTEX 40V 1A 6ohm SUPERTEX 40V 1A 6ohm SUPERTEX 60V 1A 6ohm SUPERTEX 60V 1A 6ohm SUPERTEX 60V 1A 6ohm SUPERTEX 60V 1A 6ohm SUPERTEX 60V 1A 6ohm SUPERTEX 90V 1A 6ohm SUPERTEX 90V 1A 6ohm SUPERTEX 90V 1A 6ohm SUPERTEX 160V 1A 15ohm SUPERTEX 160V 1A 15ohm SUPERTEX 160V 1A 15ohm SUPERTEX 200V 1A 15ohm SUPERTEX 200V 1A 15ohm SUPERTEX 200V 1A 15ohm SUPERTEX 30V 2A 2.5ohm SUPERTEX 30V 2A 2.5ohm SUPERTEX 350V 4A 4.5ohm SUPERTEX 350V 4A 4.5ohm SUPERTEX 350V 4A 4.5ohm SUPERTEX 400V 4A 4.5ohm SUPERTEX 400V 4A 4.5ohm SUPERTEX 400V 4A 4.5ohm SUPERTEX 450V 3A 5.5ohm SUPERTEX 450V 3A 5.5ohm SUPERTEX 450V 3A 5.5ohm SUPERTEX 500V 3A 5.5ohm SUPERTEX 500V 3A 5.5ohm SUPERTEX 500V 3A 5.5ohm SUPERTEX 350V 0A 45ohm SUPERTEX 350V 0A 45ohm SUPERTEX 400V 0A 45ohm SUPERTEX 400V 0A 45ohm SUPERTEX 450V 0A 80ohm SUPERTEX 450V 0A 80ohm SUPERTEX 500V 0A 80ohm SUPERTEX 500V 0A 80ohm SUPERTEX 350V 1A 19ohm SUPERTEX 350V 1A 19ohm SUPERTEX 350V 1A 19ohm SUPERTEX 400V 1A 19ohm SUPERTEX 400V 1A 19ohm SUPERTEX 400V 1A 19ohm

[Connect: Drain, Gate, Source]

Power MOSFETs Part #

VP0645N2 VP0645N3 VP0645N5 VP0650N2 VP0650N3 VP0650N5 VP0808B VP0808L VP1008B VP1008L VP1304N2 VP1304N3 VP1306N2 VP1306N3 VP1310N2 VP1310N3 VP1310N8 VP2106N3 VP2110K1 VP2110N3 VP2206N2 VP2206N3 VP2210N2 VP2210N3 VP3203N3 VP3203N8 ZVP2106 ZVP2106G ZVP3306

(P-Channel)

(cont'd)

Part Name

Part Type

Part Sub Type

Description

VP0645N2 VP0645N3 VP0645N5 VP0650N2 VP0650N3 VP0650N5 VP0808B VP0808L VP1008B VP1008L VP1304N2 VP1304N3 VP1306N2 VP1306N3 VP1310N2 VP1310N3 VP1310N8 VP2106N3 VP2110K1 VP2110N3 VP2206N2 VP2206N3 VP2210N2 VP2210N3 VP3203N3 VP3203N8 ZVP2106 ZVP2106G ZVP3306

MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P MOSFETs P

Power >100V Power >100V Power >100V Power >100V Power >100V Power >100V Power