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Revision C

Device Library GuideDevice Library GuideDevice Library GuideDevice Library GuideDevice Library Guide

2N5457

IRGB420U

IRF634S

Q6004L4

+10V

12VSPDT

1mH

74LS10

+ HA2520

74LS298I0dI0cI0bI0aI1dI1cI1bI1a

SCP

QdQcQbQa

1N4004MPSA06

CircuitLogix

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Table of Contents

Device Symbols 3Digital ICs 40SPICE Models 44

Diodes 44Zener Diodes 46Schottky Diodes 47Diode Bridge Rectifiers 48Bipolar Junction Transistors (NPN) 48Bipolar Junction Transistors (PNP) 49Darlington BJT0Silicon-Controlled Rectifiers 50Triacs 51JFETs 51IGBTs 52MOSFET s (N-channel) 52MOSFET s (P-channel) 53Operational Amplifiers 54Voltage Comparators 54Crystals 54Vacuum Tubes 54Transformers 54Math Functions 54Relay Coils/Contacts 55Misc Analog Devices 557400 series TTL 55FAST 55Low-power Schottkey TTL 55Shottkey TTL 554000-series CMOS 56

Vendor Supplied SPICE Models 57Comlinear 57Elantec 57Harris Semiconductor 57Linear Technology 57Maxim 58Motorola 58National Semiconductor 58Polyfet 59Siliconix 59Texas Instruments 59Zetex 59

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Device SymbolsDevice SymbolsDevice SymbolsDevice SymbolsDevice Symbols

The device symbols are stored in two files: DEVICE.LIB and USER.LIB.All macro devices created by the user are stored in USER.LIB.

Devices can be selected from the libraries in various ways (refer toChapter 4: Drawing and Editing Schematics in the User Manual). Onceyou have selected a device, it will follow the mouse to any position withinthe drawing window. If the portion of the work area where you need toposition the device is not currently visible, move the device to the borderof the window and the circuit will automatically scroll.

To place the device, click the mouse and the device will be placed at itspresent position. To cancel placement of the device press the spacebar ordouble-click the mouse. Devices can be mirrored and/or rotated prior toplacing them. To rotate a device, press the R key or click the right mousebutton. To mirror a device, press the M key.

The “Auto Repeat” option in the Options menu determines whether thesame device can be placed in the work area multiple times, or if you mustselect each device separately to place it (refer to Chapter 12: OptionsMenu in the User Manual).

The devices and instruments are described in this section. They areclassified into the following categories:

Analog Only Can only be used in Analog simulation mode.Digital Only Can only be used in Digital simulation mode.Analog/Digital Can be used in either Analog or Digital simulation

modes.Schematic These devices are intended for drawing schematics and

are not functional.

To assist you in finding the items in the library, each of the followingdevice descriptions include the location in the parts browser. Thelocation is displayed in the following format:

[Major Device Class/Minor Device Class] (Default Hotkey)

CircuitLogix is by no means limited to the devices provided in thedevice library. New devices can be created as macros or by importingSpice-compatible subcircuits. User defined devices are permanently storedin the library files and can be used just like any other device. Refer toChapter 16: Creating New Devices in the user manual for more informa-tion.

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+V+V+V+V+VAnalog/Digital [Analog/Power] (1)In analog simulation mode, this device provides a fully programmable DCpower supply. It can be programmed for either a positive or negativevoltage. It always uses the ground node as a reference. In digitalsimulation mode it provides a fixed High state. By removing the SpiceData and Spice Prefix, the Bus Data can be used to link nodes together.Example circuits: LOCK.CKT, ANALOG.CKT.

+V

.IC.IC.IC.IC.ICAnalog Only [Analog/SPICE Controls] (I)Wire an .IC device to any node that needs .IC (Initial Conditions)programmed. Double-click on the device and set the Label-Value field tothe desired initial value. Example circuit: 555.CKT..IC

.NODESET.NODESET.NODESET.NODESET.NODESETAnalog Only [Analog/SPICE Controls] (N)Wire a .NODESET device to any node that needs Nodeset programmed.Double-click on the device and set the Label-Value field to the desiredNodeset value. Example circuit: BISTABLE.CKT..NS

1K RAM1K RAM1K RAM1K RAM1K RAMAnalog/Digital [Digital/RAM-PROM]This is a 1024 x 8 Random Access Memory. Multiple RAM chips may beused in a single circuit or macro. However, RAM data is not saved withthe circuit or macro. Both the CS and WE pins must be pulled low to writeinto the RAM. To read from the RAM, keep the WE pin high and pull theCS pin low. For debugging purposes, you can edit the contents of theRAM.

1K RAM

A9A8A7A6A5A4A3A2A1A0

IO7IO6IO5IO4IO3IO2IO1IO0

CSWE

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4x4 Switch4x4 Switch4x4 Switch4x4 Switch4x4 SwitchAnalog/Digital [Switches/Matrix]This is a 4x4 switch matrix. Clicking on one of the buttons closes a switchwhich connects one of the horizontal pins to one of the vertical pins. Theswitch remains closed until another button is clicked. If you try to activatethe switch while running an analog simulation, CircuitMaker will ask ifyou want to rerun the simulation with the switch in the new position.Example circuit: 4X4.CKT.

y4

y3

y2

y1

x4x1 x2 x3

C D E F

8 9 A B

4 5 6 7

0 1 2 3

555 Timer555 Timer555 Timer555 Timer555 TimerAnalog Only [Linear ICs/Timers]This device includes the SPICE data for simulating a 555 Timer. Timersmay be selected from a list of available subcircuits or new subcircuits maybe added by the user. Double-click on the device to select the desiredsubcircuit. When creating astable circuits, initial conditions will berequired on the timing capacitor in order for SPICE to converge on asolution. For monostable operation, the component model subcircuitshould be used rather than the macromodel subcircuit. Example circuit:555.CKT.

GndTrgOutRst Ctl

ThrDisVcc

555

AC Outlet, AC PlugAC Outlet, AC PlugAC Outlet, AC PlugAC Outlet, AC PlugAC Outlet, AC PlugAnalog Only/Schematic [Connectors/Misc]These devices are included for schematic purposes, however, the ACOutlet may be included during Analog simulations. Each contact istreated as having a very high shunt resistance (1E+12) to ground.

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ADC0800ADC0800ADC0800ADC0800ADC0800Analog Only [Data Converters/A/D]The ADC0800 includes a Digital Simcode model to simulate an ADC0800Analog-to-Digital Converter. Conversion is performed using a successiveapproximation technique. The minimum and maximum voltage of Vin aredetermined by the Vref+ and Vref- pins. The minimum resolution of themeasurable voltage on Vin is determined by the Spice option ADCSTEP(by default, this is set to 10mV). When SC (Start Conversion) goes fromlow to high the conversion begins and, following a 200ns delay, EOC (EndOf Conversion) goes low. Each conversion requires 40 clock cycles andthe clock frequency must be in the range of 50kHz to 800kHz. Whenconversion is complete, EOC is set high. Example circuit:ADC0800.CKT.

ADC0800D4D5D6D7Vref-SCOEVggEOC Vss

ClkVin

D0D1

Vref+D2D3

Vdd

ADC8ADC8ADC8ADC8ADC8Analog Only [Data Converters/A/D]The ADC8 includes a Digital Simcode model to simulate a generic 8-bitAnalog-to-Digital Converter. Conversion is performed using a successiveapproximation technique. The minimum and maximum voltage of Vin aredetermined by the Vref+ and Vref- pins. The minimum resolution of themeasurable voltage on Vin is determined by the Spice option ADCSTEP(by default, this is set to 10mV). When SC (Start Conversion) goes fromlow to high the conversion begins and, following a 200ns delay, EOC (EndOf Conversion) goes low. After 1us, the conversion is complete and EOCis set high. Example circuit: ADC8.CKT.

ADC8

Vin

Vref+Vref-

SCOE

EOCD0D1D2D3D4D5D6D7

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Amp8, Amp10Amp8, Amp10Amp8, Amp10Amp8, Amp10Amp8, Amp10Analog Only [Linear ICs/Buffers-Amps]This device includes the SPICE data for simulating amplifiers. Amplifiersmay be selected from a list of available subcircuits or new subcircuits maybe added by the user. Double-click on the device to select the desiredsubcircuit.

Analog Mux2Analog Mux2Analog Mux2Analog Mux2Analog Mux2Analog Only [Linear ICs/Buffers-Amps]This device includes the SPICE data for simulating an analog multiplexer.Muxes may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit.

A

B

AntennaAntennaAntennaAntennaAntennaAnalog Only [Schematic Symbols/Antennas]This device includes an internal 50 ohm resistor to ground. The resistancecan be changed by editing its Label-Value field.

ASCII KeyASCII KeyASCII KeyASCII KeyASCII KeyDigital Only [Digital/Input Device] (A)The ASCII Key operates like the Hex Key with one addition: A strobepulse (low, high, low level) is generated and appears on the pin labeled“S”. The binary code for any ASCII character can be generated by thisdevice. This device simulates a keyboard. Example circuit:DISPLAY.CKT.

1234567S

A

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ASCII DisplayASCII DisplayASCII DisplayASCII DisplayASCII DisplayAnalog/Digital [Displays/Digital Only] (a)This represents a 16X4 LCD display intended mainly for use in Digitalsimulation mode. Up to 4 lines of 16 ASCII characters per line can bedisplayed on this device. The character, determined by the binary codeapplied to pins 1-7, is sent to the display when the level on the /CP pinchanges from high to low. NOTE: <RETURN> will start a new line,<BACKSPACE> will delete a previously entered character, CTRL+G(bell) will send a beep to the PC's speaker, and CTRL+L (form-feed) willclear the display. The background color of the display can be changed.The text is always the Device Text color. This device can be used inAnalog simulation mode as well, but no characters will be displayed.Example circuit: DISPLAY.CKT.

7654321CP

This is the ASCII Di splay.

BatteryBatteryBatteryBatteryBatteryAnalog/Digital [Analog/Power] (b)In analog simulation mode, this device includes the SPICE data forsimulating a DC voltage source. The voltage is specified in the Label/Value field. In digital simulation mode it provides a fixed High state onthe “+” pin and a fixed Low state on the “-” pin. Example circuit:CEAMP.CKT.

+

Buffer/AmpBuffer/AmpBuffer/AmpBuffer/AmpBuffer/AmpAnalog Only [Linear ICs/Buffers-Amps]This device includes the SPICE data for simulating buffers and amplifiers.Buffers/amps may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit.

+

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CA 7-Seg, CC 7-SegCA 7-Seg, CC 7-SegCA 7-Seg, CC 7-SegCA 7-Seg, CC 7-SegCA 7-Seg, CC 7-SegAnalog/Digital [Displays/7-Segment LEDs]These are Common-anode and Common-cathode 7-Segment LED Dis-plays intended mainly for use in Digital simulation mode. They willdisplay each of 7 segments plus the decimal point, corresponding to theinput pins as they are pulled low. Different colors can be selected for eachdisplay. If the Prop Delay for this device is set to greater than 1, thedisplay will remain visible even when power is removed. This allows thedisplay to be multiplexed without causing a flash each time the display isaddressed. This allows the display to better simulate real-time operation.In a real circuit the flashes are not usually noticeable because of the highrepetition rate of the multiplexing circuit. These devices can be used inAnalog simulation mode as well, but the segments will not light up.Example circuit: DISPLAY.CKT.

abcdef g.

Gnd

abcdef g.

V+

Capacitor, Polar Cap, Var CapacitorCapacitor, Polar Cap, Var CapacitorCapacitor, Polar Cap, Var CapacitorCapacitor, Polar Cap, Var CapacitorCapacitor, Polar Cap, Var CapacitorAnalog Only [Passive Components/Capacitors] (c, C)These devices include the SPICE data for simulating a capacitor. Thevalue of the capacitor is specified in the Label/Value field. It is drawn as a“variable” capacitor for schematic purposes only. Example circuit:555.CKT.

+

SemiCapacitorSemiCapacitorSemiCapacitorSemiCapacitorSemiCapacitorAnalog Only [Passive Components/Capacitors]This device includes the SPICE data for simulating a semiconductorcapacitor. Semiconductor capacitors may be selected from a list ofavailable subcircuits or new subcircuits may be added by the user. Double-click on the device to select the desired subcircuit.

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CarCarCarCarCarAnalog/Digital [Digital/Output Device]This is an animated device with a Start input, a Finish output and a Resetbutton. It is intended mainly for use in Digital simulation mode. Multiplecars may be placed in the circuit. The number of simulation ticks it takesfor a car to reach the finish is random for each car. A new random numberis generated each time the Reset button in the Toolbar is pressed. Thereset button on the car returns the car to its starting position. Double-clickon the car to program the travel distance (up to 1000 units). Differentcolors can be selected for each car. This device can also be used in Analogsimulation mode, but there will be no animation and the Finish output willnever go true. Example circuit: CARS.CKT.

SF

Reset

CautionCautionCautionCautionCautionSchematic [Schematic Symbols/Misc]This device is included for schematic purposes.

CDA-5CDA-5CDA-5CDA-5CDA-5Analog Only [Linear ICs/Buffers-Amps]This device includes the SPICE data for simulating current differencingamplifiers. Amplifiers may be selected from a list of available subcircuitsor new subcircuits may be added by the user. Double-click on the device toselect the desired subcircuit.

CFA-Amp8CFA-Amp8CFA-Amp8CFA-Amp8CFA-Amp8Analog Only [Linear ICs/Buffers-Amps]This device includes the SPICE data for simulating a current feedbackamplifier. Amplifiers may be selected from a list of available subcircuitsor new subcircuits may be added by the user. Double-click on the device toselect the desired subcircuit.

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Coax, TwinLead, TwistedPairCoax, TwinLead, TwistedPairCoax, TwinLead, TwistedPairCoax, TwinLead, TwistedPairCoax, TwinLead, TwistedPairSchematic [Schematic Symbols/Cables]These devices are included for schematic purposes. SPICE data may beadded by the user to simulate the lossless, lossy or URC transmission lines.

Coil 3T, Coil 5TCoil 3T, Coil 5TCoil 3T, Coil 5TCoil 3T, Coil 5TCoil 3T, Coil 5TAnalog Only [Passive Components/Inductors]These devices include the SPICE data for simulating an inductor. Theinductance of the coil is specified in the Label/Value field. Examplecircuit: RESONANT.CKT.

Comparator5, Comparator6Comparator5, Comparator6Comparator5, Comparator6Comparator5, Comparator6Comparator5, Comparator6Analog Only [Linear ICs/Comparators]These devices include the SPICE data for simulating 5-pin and 6-pinvoltage comparators. Comparators may be selected from a list of availablesubcircuits or new subcircuits may be added by the user. Double-click onthe device to select the desired subcircuit.

ConnectorConnectorConnectorConnectorConnectorAnalog/Digital [Connectors/Misc]This device has an internal wire that connects the two sides, so it behavesjust like a wire during simulation.

CrystalCrystalCrystalCrystalCrystalAnalog Only [Crystals/Standard]This device includes the SPICE data for simulating a crystal. Crystals maybe selected from a list of available subcircuits or new subcircuits may beadded by the user. Double-click on the device to select the desiredsubcircuit. Example circuit: XTAL_OSC.CKT.

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DAC8DAC8DAC8DAC8DAC8Analog Only [Data Converters/D/A]The DAC8 includes a Digital Simcode model to simulate a generic 8-bitDigital-to-Analog Converter. The minimum and maximum voltage ofVout are determined by the Vref+ and Vref- pins. Example circuit:DAC8.CKT.

DAC8D7D6D5D4D3D2D1D0

Vref-Vref+

Vout

Data SeqData SeqData SeqData SeqData SeqAnalog/Digital [Digital/Instrument]The Data Sequencer allows the user to specify up to 32k bytes which can beoutput in a defined sequence. Multiple Data Sequencers may be individu-ally programmed. Refer to Chapter 5: Digital Logic Simulation in theuser manual to program this device. Example circuit: BUSWIRE.CKT.

87654321

CP1CP2

DataSeq

DB-9, DB-15, DB-15HD, DB-25, 13W3DB-9, DB-15, DB-15HD, DB-25, 13W3DB-9, DB-15, DB-15HD, DB-25, 13W3DB-9, DB-15, DB-15HD, DB-25, 13W3DB-9, DB-15, DB-15HD, DB-25, 13W3Schematic [Connectors/DB Type, Misc]These devices are included for schematic purposes. Example circuit:DB9.CKT.

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DC MotorDC MotorDC MotorDC MotorDC MotorAnalog/Digital [Motors/DC]In digital simulation mode, the DC Motor is an animated device. Thearmature will rotate clockwise when there is a high on the positiveterminal and a low on the negative terminal. It will rotate counterclockwise when there is a high on the negative terminal and a low on thepositive terminal. In analog mode, the DC Motor is not animated, but itacts as an inductor and a resistor in series. Example circuit:LADDER.CKT.

Diac:A, Diac:B, Diac:C, Diac:DDiac:A, Diac:B, Diac:C, Diac:DDiac:A, Diac:B, Diac:C, Diac:DDiac:A, Diac:B, Diac:C, Diac:DDiac:A, Diac:B, Diac:C, Diac:DSchematic [Schematic Symbols/Diacs]This device is included for schematic purposes.

Diff-Amp7, Diff-Amp8Diff-Amp7, Diff-Amp8Diff-Amp7, Diff-Amp8Diff-Amp7, Diff-Amp8Diff-Amp7, Diff-Amp8Analog Only [Linear ICs/Buffers-Amps]This device includes the SPICE data for simulating differential amplifiers.Amplifiers may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit.

DiodeDiodeDiodeDiodeDiodeAnalog Only [Active Components/Diodes] (d)This device includes the SPICE data for simulating a junction diode.Diodes may be selected from a list of available models or new models maybe added by the user. Double-click on the device to select the desiredmodel. Example circuit: ASTABLE.CKT.

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Varactor, Varactor:AVaractor, Varactor:AVaractor, Varactor:AVaractor, Varactor:AVaractor, Varactor:AAnalog Only [Active Components/Diodes]This device includes the SPICE data for simulating a variable capacitancediode. Diodes may be selected from a list of available models or newmodels may be added by the user. Double-click on the device to select thedesired model.

Zener DiodeZener DiodeZener DiodeZener DiodeZener DiodeAnalog Only [Active Components/Diodes] (D)This device includes the SPICE data for simulating a zener diode. Diodesmay be selected from a list of available models or new models may beadded by the user. Double-click on the device to select the desired model.Example circuit: PS1.CKT.

Fuse, Fuse:A, Thermal FuseFuse, Fuse:A, Thermal FuseFuse, Fuse:A, Thermal FuseFuse, Fuse:A, Thermal FuseFuse, Fuse:A, Thermal FuseAnalog Only [Fuses/Electronic] (f) [Fuses/Thermal]These devices include the SPICE data for simulating a current fuse. Fusesmay be selected from a list of available subcircuits or new subcircuits maybe added by the user. Double-click on the device to select the desiredsubcircuit.100mA 100mA 100mA

F->V SourceF->V SourceF->V SourceF->V SourceF->V SourceAnalog Only [Analog/Power]This is a linear frequency-controlled voltage source. The voltage on theoutput (right-hand side) is controlled by the frequency of the signal on theinput (left-hand side). Double-click on the device to change its character-istics. Adjustable characteristics include VIL, VIH and Cycles/Volt. Ex-ample circuit: FCVS.CKT.

+

-

+

-

FW BridgeFW BridgeFW BridgeFW BridgeFW BridgeAnalog Only [Active Components/Diodes]This device includes the SPICE data for simulating a full-wave bridgerectifier. Bridges may be selected from a list of available subcircuits or

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new subcircuits may be added by the user. Double-click on the device toselect the desired subcircuit. Example circuit: PS1.CKT.

GroundGroundGroundGroundGroundAnalog/Digital [Analog/Power], [Digital/Power] (0 (zero))In analog simulation mode, this device provides a ground reference nodefor the circuit. Every analog circuit must have a ground reference. Indigital simulation mode it provides a fixed Low state.

Hex DisplayHex DisplayHex DisplayHex DisplayHex DisplayAnalog/Digital [Displays/Digital Only] (h)This is a Hexadecimal 7-Segment Display with a built in decoder. It isintended mainly for use in Digital simulation mode. It will display ahexadecimal number (0-9 and A-F) based on the binary code applied to thepins 1-4. Different colors can be selected for each display. This device canalso be used in Analog simulation mode, but the segements will not lightup. Example circuit: SIM.CKT.

1234

Hex KeyHex KeyHex KeyHex KeyHex KeyDigital Only [Digital/Input Device] (H)This is a hexadecimal key. It will generate the binary code associated withthe hexadecimal number displayed on the key. After the hex key has beenselected (single click on the hex number shown in the middle of thedevice), the hex number displayed can be changed in two ways: 1) click onthe number displayed to increment it, or 2) press a hexadecimal key (0-9and A-F) on the keyboard. Multiple Keys may be used in a circuit; only theselected key will accept input from the keyboard. Example circuit:LOCK.CKT.

1234

0

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I Source, V SourceI Source, V SourceI Source, V SourceI Source, V SourceI Source, V SourceAnalog/Digital [Analog/Power] (i, v)In analog simulation mode, these are independent DC current and voltagesources. Enter the current or voltage in the Label-Value field. In digitalsimulation mode, they provide a fixed High state on the “+” terminal anda fixed Low state on the “-” terminal (the arrow points away from the “+”terminal, toward the “-” terminal on the I Source). Example circuit:741.CKT.

+

-

I->I Source, V->I SourceI->I Source, V->I SourceI->I Source, V->I SourceI->I Source, V->I SourceI->I Source, V->I SourceAnalog Only [Analog/Power]These are linear current-controlled and voltage controlled current sources.The current on the output (right-hand side) is controlled by the current orvoltage on the input (left-hand side). Use the Label-Value to set the input-to-output transfer ratio. Example circuit: 741.CKT.

+

-

I->Switch, V->SwitchI->Switch, V->SwitchI->Switch, V->SwitchI->Switch, V->SwitchI->Switch, V->SwitchAnalog Only [Switches/Controlled]These devices include the SPICE data for simulating a current-controlledand voltage-controlled switch. Specific models may be added by the user.Example circuit: SWITCHES.CKT.

+

-

I->V Source, V->V SourceI->V Source, V->V SourceI->V Source, V->V SourceI->V Source, V->V SourceI->V Source, V->V SourceAnalog Only [Analog/Power]These are linear current-controlled and voltage-controlled voltagesources. The voltage on the output (right-hand side) is controlled by the

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current or voltage on the input (left-hand side). Use the Label-Value to setthe input-to-output transfer ratio. Example circuit: 741.CKT.

+

-

+

-

+

-

I-Math1, I-Math2I-Math1, I-Math2I-Math1, I-Math2I-Math1, I-Math2I-Math1, I-Math2Analog Only [Math Functions/Current]These devices provide direct access to SPICE’s nonlinear dependentsource math functions. They are set up in subcircuit format to provide easyselection of the math functions. I-Math1 provides access to the single-variable current functions (abs, cos, sqrt, etc.) I-Math2 provides access tothe dual-variable current operations (+, -, *, / and ^).

I+I- Q-

Q+ABS(I)

A+A-B+B-

Q-Q+

I(A+B)

IDC10, IDC16, IDC20, IDC26, IDC34, IDC36, IDC40,IDC10, IDC16, IDC20, IDC26, IDC34, IDC36, IDC40,IDC10, IDC16, IDC20, IDC26, IDC34, IDC36, IDC40,IDC10, IDC16, IDC20, IDC26, IDC34, IDC36, IDC40,IDC10, IDC16, IDC20, IDC26, IDC34, IDC36, IDC40,IDC50IDC50IDC50IDC50IDC50Schematic [Connectors/IDC Type]These devices are included for schematic purposes. Bus wires may beadded internally to the macro to connect two of them together for simula-tion. Be sure to use a unique bus wire number for each pair of connectors.

Inductor, Var InductorInductor, Var InductorInductor, Var InductorInductor, Var InductorInductor, Var InductorAnalog Only [Passive Components/Inductors] (l, L)This device includes the SPICE data for simulating an inductor. Theinductance of the coil is specified in the Label/Value field. It is drawn asa “variable” inductor for schematic purposes only.

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Input, OutputInput, OutputInput, OutputInput, OutputInput, OutputAnalog/Digital [Connectors/Misc]These are schematic symbols of page connectors in a circuit. All “Input”and “Output” devices that have the same name will operate as though theywere connected together. Double-click on the device to edit the name.Example circuit: INOUTPUT.CKT.

SysClk SysClk

LampLampLampLampLampAnalog/Digital [Displays/Incandescent]This device includes the SPICE data for simulating a resistor in analogmode. The value of the resistor is specified in the Label/Value field. Indigital simulation mode, the lamp will light when one terminal is high andthe other terminal is low. Each lamp may be a different color.

LEDLEDLEDLEDLEDAnalog/Digital [Displays/Diode]This is a Light Emitting Diode. In digital mode, it will “light” when a lowlevel is applied to its cathode and a high level is applied to its anode.Different colors can be selected for each LED. This device also includesthe SPICE data for simulating an LED. LEDs may be selected from a listof available subcircuits or new subcircuits may be added by the user.Double-click on the device to select the desired subcircuit. Examplecircuit: OPTO.CKT.

Logic DisplayLogic DisplayLogic DisplayLogic DisplayLogic DisplayAnalog/Digital [Displays/Digital Only]This is a simple logic state indicator intended for use mainly in Digitalsimulation mode. It has only one pin and indicates whether the state is low(display off) or high (display on). Double-click on the Logic Display tochange its color. This device can also be used in Analog simulation mode,but it does not light. Example circuit: LED.CKT.

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Logic SwitchLogic SwitchLogic SwitchLogic SwitchLogic SwitchAnalog/Digital [Switches/Digital]This is a switch which provides either a Low or a High logic level when indigital simulation mode and two programmable voltage levels while inanalog simulation mode. When in analog mode, the default voltages levelsare 0v and 5v. To change the voltage levels, select the switch by dragginga selection rectangle around it, double-click on it, and then enter a SPICEcomment of the following form into the SPICE Data field: *0=1v 1=10v.This comment will make the switch output 1v for a low level and 10v fora high level. While digital simulation is running a single click on theswitch will cause its output to immediately change states. If you click onthe switch while running an analog simulation, CircuitLogix will ask ifyou want to rerun the simulation with the switch in the new position. Tomove a switch to a new location you must first drag a selection rectangleover the switch to select it. Example circuit: SIM.CKT.

LossLessLineLossLessLineLossLessLineLossLessLineLossLessLineAnalog Only [Transmission Lines/SPICE Simulation]This device includes the SPICE data for simulating a lossless transmissionline. Characteristic impedance is specified in the Label/Value field. Timedelay or frequency/normalized length are specified in the Spice Data field.Example circuit: LLTRAN.CKT.

LossyLine, URC-LineLossyLine, URC-LineLossyLine, URC-LineLossyLine, URC-LineLossyLine, URC-LineAnalog Only [Transmission Lines/SPICE Simulation]These devices include the SPICE data for simulating lossy and uniformdistributed RC transmission lines. Specific models may be added by theuser.

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MC1496MC1496MC1496MC1496MC1496Analog Only [Linear ICs/Modulators]This device includes the SPICE data for simulating an MC1496 BalancedModulator/Demodulator. Devices may be selected from a list of availablesubcircuits or new subcircuits may be added by the user. Double-click onthe device to select the desired subcircuit. Example circuit:AMMOD.CKT.

MC1496GVcVcVsVs Vee

BiasOutOut

G

Mono Jack, Stereo Jack, Phone Jack, Phone PlugMono Jack, Stereo Jack, Phone Jack, Phone PlugMono Jack, Stereo Jack, Phone Jack, Phone PlugMono Jack, Stereo Jack, Phone Jack, Phone PlugMono Jack, Stereo Jack, Phone Jack, Phone PlugSchematic [Connectors/Misc]These devices are included for schematic purposes. Bus wires may beadded internally to the macro to connect two of them together for simula-tion. Be sure to use a unique bus wire number for each pair of connectors.

MultimeterMultimeterMultimeterMultimeterMultimeterAnalog Only [Analog/Instruments]Multimeters can be wired directly into the circuit to measure resistance,voltage or current. DC voltage and current can only be measured ifOperating Point Analysis is enabled. To measure DC AVG or AC RMSvoltage or current, Transient Analysis must be enabled and must simulateenough cycles of transient data to make the measurements meaningful.Multiple multimeters may be individually programmed. Refer to Chapter6: Analog/Mixed-Signal Simulation in the user manual to program thisdevice. Example circuit: SWITCHES.CKT.

DC V 5.0 00 V

N-IGBT, N-IGBT:A, N-IGBT:B, N-IGBT:CN-IGBT, N-IGBT:A, N-IGBT:B, N-IGBT:CN-IGBT, N-IGBT:A, N-IGBT:B, N-IGBT:CN-IGBT, N-IGBT:A, N-IGBT:B, N-IGBT:CN-IGBT, N-IGBT:A, N-IGBT:B, N-IGBT:CAnalog Only [Active Components/IGBTs]These devices include the SPICE data for simulating N-channel InsulatedGate Bipolar Transistors. Transistors may be selected from a list ofavailable models or new models may be added by the user. Double-clickon the device to select the desired model.

21

N-JFET, N-JFET:AN-JFET, N-JFET:AN-JFET, N-JFET:AN-JFET, N-JFET:AN-JFET, N-JFET:AAnalog Only [Active Components/JFETs] (j)This device includes the SPICE data for simulating an N-channel junctionfield-effect transistor. JFETs may be selected from a list of availablemodels or new models may be added by the user. Double-click on thedevice to select the desired model. Example circuit: CSJFAMP.CKT.

N-MESFET, N-MESFET:AN-MESFET, N-MESFET:AN-MESFET, N-MESFET:AN-MESFET, N-MESFET:AN-MESFET, N-MESFET:AAnalog Only [Active Components/MESFETs] (z)This device includes the SPICE data for simulating an N-channelMESFET (GaAsFET). MESFETs may be selected from a list of availablemodels or new models may be added by the user. Double-click on thedevice to select the desired model.

N-DMOS 3T, N-DMOS 3T:A, N-DMOS 4T, N-DMOSN-DMOS 3T, N-DMOS 3T:A, N-DMOS 4T, N-DMOSN-DMOS 3T, N-DMOS 3T:A, N-DMOS 4T, N-DMOSN-DMOS 3T, N-DMOS 3T:A, N-DMOS 4T, N-DMOSN-DMOS 3T, N-DMOS 3T:A, N-DMOS 4T, N-DMOS4T:A4T:A4T:A4T:A4T:AAnalog Only [Active Components/MOSFETs Depl]These devices include the SPICE data for simulating 3-terminal and 4-terminal N-channel Depletion Mode MOSFETs. MOSFETs may beselected from a list of available models or new models may be added by theuser. Double-click on the device to select the desired model.

N-EMOS 3T, N-EMOS 3T:A, N-EMOS 4T, N-EMOSN-EMOS 3T, N-EMOS 3T:A, N-EMOS 4T, N-EMOSN-EMOS 3T, N-EMOS 3T:A, N-EMOS 4T, N-EMOSN-EMOS 3T, N-EMOS 3T:A, N-EMOS 4T, N-EMOSN-EMOS 3T, N-EMOS 3T:A, N-EMOS 4T, N-EMOS4T:A4T:A4T:A4T:A4T:AAnalog Only [Active Components/MOSFETs Enh] (m)These devices include the SPICE data for simulating 3-terminal and 4-terminal N-channel Enhancement Mode MOSFETs. MOSFETs may beselected from a list of available models or new models may be added by theuser. Double-click on the device to select the desired model.

22

N-UJTN-UJTN-UJTN-UJTN-UJTAnalog Only [Active Components/Unijunction]This device includes the SPICE data for simulating an N-channelunijunction transistor. Transistors may be selected from a list of availablesubcircuits or new subcircuits may be added by the user. Double-click onthe device to select the desired subcircuit. See also: Subcircuits.

NC Push-button, NO Push-button, SPDT PBNC Push-button, NO Push-button, SPDT PBNC Push-button, NO Push-button, SPDT PBNC Push-button, NO Push-button, SPDT PBNC Push-button, NO Push-button, SPDT PBAnalog/Digital [Switches/Push Button]These are Normally-Closed, Normally-Open and Single-Pole Double-Throw Push-Button switches. While digital simulation is running, theswitch may be activated by clicking on it with the left mouse button andwill remain in the activated position as long as the mouse button is helddown. Multiple switches of the same type may be activated simulta-neously if they have the same label in the Label-Value field. Theseswitches cannot be activated while running an analog simulation, butsimply act as a short or an open. Example circuit: CARS.CKT.

NLI Source, NLV SourceNLI Source, NLV SourceNLI Source, NLV SourceNLI Source, NLV SourceNLI Source, NLV SourceAnalog Only [Analog/Power]These are nonlinear current and voltage sources. Example circuit:741.CKT.

+

-

NPN Darling1, NPN Darling2, NPN Darling3NPN Darling1, NPN Darling2, NPN Darling3NPN Darling1, NPN Darling2, NPN Darling3NPN Darling1, NPN Darling2, NPN Darling3NPN Darling1, NPN Darling2, NPN Darling3Analog Only [Active Components/Darlingtons]These devices include the SPICE data for simulating an NPN DarlingtonTransistor. Transistors may be selected from a list of available subcircuitsor new subcircuits may be added by the user. Double-click on the device toselect the desired subcircuit.

23

NPN Trans:B, NPN Trans:CNPN Trans:B, NPN Trans:CNPN Trans:B, NPN Trans:CNPN Trans:B, NPN Trans:CNPN Trans:B, NPN Trans:CAnalog Only [Active Components/BJTs] (q)These devices include the SPICE data for simulating an NPN bipolarjunction transistor. Transistors may be selected from a list of availablemodels or new models may be added by the user. Double-click on thedevice to select the desired model. Example circuit: CEAMP.CKT.

Op-Amp3Op-Amp3Op-Amp3Op-Amp3Op-Amp3Analog Only [Linear ICs/OPAMPs]This device is primarily intended for schematic purposes, but it includesSPICE data for simulating an ideal operational amplifier.

Op-Amp5, Op-Amp5:A, Op-Amp6, Op-Amp6:A, Op-Op-Amp5, Op-Amp5:A, Op-Amp6, Op-Amp6:A, Op-Op-Amp5, Op-Amp5:A, Op-Amp6, Op-Amp6:A, Op-Op-Amp5, Op-Amp5:A, Op-Amp6, Op-Amp6:A, Op-Op-Amp5, Op-Amp5:A, Op-Amp6, Op-Amp6:A, Op-Amp7, Op-Amp7:AAmp7, Op-Amp7:AAmp7, Op-Amp7:AAmp7, Op-Amp7:AAmp7, Op-Amp7:AAnalog Only [Linear ICs/OPAMPs] (o)These devices include the SPICE data for simulating operational amplifi-ers. Op amps may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit. Example circuit: ANALOG.CKT.

++++++

OptoIsolatorOptoIsolatorOptoIsolatorOptoIsolatorOptoIsolatorAnalog/Digital [Optical Devices/Coupler]This is an NPN optical isolator. In digital mode, the LED in this deviceoperates exactly like a regular LED. When the LED is “on”, the logic levelapplied to the NPN transistor's emitter will appear on its collector. Whenthe LED is “off”, a 3-state level will appear on the transistor's collector. Inanalog mode, the LED does not light, but the SPICE subcircuit informa-tion will be used for simulation. Double-click on the device to select thedesired subcircuit. Example circuits: OPTO.CKT, STEPPER.CKT.

24

P-IGBT, P-IGBT:A, P-IGBT:B, P-IGBT:CP-IGBT, P-IGBT:A, P-IGBT:B, P-IGBT:CP-IGBT, P-IGBT:A, P-IGBT:B, P-IGBT:CP-IGBT, P-IGBT:A, P-IGBT:B, P-IGBT:CP-IGBT, P-IGBT:A, P-IGBT:B, P-IGBT:CAnalog Only [Active Components/IGBTs]These devices include the SPICE data for simulating P-channel InsulatedGate Bipolar Transistors. Transistors may be selected from a list ofavailable models or new models may be added by the user. Double-clickon the device to select the desired model.

P-JFET, P-JFET:AP-JFET, P-JFET:AP-JFET, P-JFET:AP-JFET, P-JFET:AP-JFET, P-JFET:AAnalog Only [Active Components/JFETs] (J)This device includes the SPICE data for simulating a P-channel junctionfield-effect transistor. JFETs may be selected from a list of availablemodels or new models may be added by the user. Double-click on thedevice to select the desired model.

P-MESFET, P-MESFET:AP-MESFET, P-MESFET:AP-MESFET, P-MESFET:AP-MESFET, P-MESFET:AP-MESFET, P-MESFET:AAnalog Only [Active Components/MESFETs] (Z)These devices include the SPICE data for simulating a P-channelMESFET (GaAsFET). MESFETs may be selected from a list of availablemodels or new models may be added by the user. Double-click on thedevice to select the desired model.

P-DMOS 3T, P-DMOS 3T:A, P-DMOS 4T, P-DMOSP-DMOS 3T, P-DMOS 3T:A, P-DMOS 4T, P-DMOSP-DMOS 3T, P-DMOS 3T:A, P-DMOS 4T, P-DMOSP-DMOS 3T, P-DMOS 3T:A, P-DMOS 4T, P-DMOSP-DMOS 3T, P-DMOS 3T:A, P-DMOS 4T, P-DMOS4T:A4T:A4T:A4T:A4T:AAnalog Only [Active Components/MOSFETs Depl]These devices include the SPICE data for simulating 3-terminal and 4-terminal P-channel Depletion Mode MOSFETs. MOSFETs may beselected from a list of available models or new models may be added by theuser. Double-click on the device to select the desired model.

25

P-EMOS 3T, P-EMOS 3T:A, P-EMOS 4T, P-EMOSP-EMOS 3T, P-EMOS 3T:A, P-EMOS 4T, P-EMOSP-EMOS 3T, P-EMOS 3T:A, P-EMOS 4T, P-EMOSP-EMOS 3T, P-EMOS 3T:A, P-EMOS 4T, P-EMOSP-EMOS 3T, P-EMOS 3T:A, P-EMOS 4T, P-EMOS4T:A4T:A4T:A4T:A4T:AAnalog Only [Active Components/MOSFETs Enh] (M)These devices include the SPICE data for simulating 3-terminal and 4-terminal P-channel Enhancement Mode MOSFETs. MOSFETs may beselected from a list of available models or new models may be added by theuser. Double-click on the device to select the desired model.

Pentode, Pentode:HPentode, Pentode:HPentode, Pentode:HPentode, Pentode:HPentode, Pentode:HSchematic [Active Components/Vacuum Tubes]These devices are included for schematic purposes.

Photo DiodePhoto DiodePhoto DiodePhoto DiodePhoto DiodeSchematic [Optical Devices/Sensors]This device is included for schematic purposes.

Photo NPNPhoto NPNPhoto NPNPhoto NPNPhoto NPNSchematic [Optical Devices/Sensors]This device is included for schematic purposes.

Photo ResistPhoto ResistPhoto ResistPhoto ResistPhoto ResistAnalog Only [Optical Devices/Sensors]This device includes the SPICE data for simulating a standard resistor.The value of the resistor is specified in the Label/Value field.

26

PLLPLLPLLPLLPLLAnalog Only [Linear ICs/Phase-Locked Loops]This device includes Digital Simcode and XSpice data for simulating aPhase-Locked Loop (PLL). Double-click on the device to select an appro-private model based on the center frequency of the FM signal. The centerfrequency and frequency range of the model is determined by its Fc and Frparameters, respectively. The PLL consists of a Voltage-Controlled Oscil-lator (VCO), and an XOR phase comparator. An external low pass filter isadded by wiring a resistor and capacitor to the appropriate pins, as shownin the example circuit PLL.CKT.

The VCO outputs a square wave whose frequency corresponds to the inputvoltage at Vin. For example, suppose the center frequency (Fc) is set at10kHz, and the range (Fr) is set at 5kHz, with Vdd and Vss at 5V and 0Vrespectively. Then a voltage of 2.5V at Vin would cause an output fre-quency of 10kHz at Vout, while 0V at Vin would result in 5kHz at Vout,and 5V at Vin would result in 15kHz at Vout. If the available PLL modelsdo not cover the desired frequency range, you can edit one of the models,change the parameters, and save it with a new name. The PLL device canlock on frequencies that are within the range specified by Fc +/- Fr

To achieve phase lock, Vout is wired to Comp, which is one of the phasecomparator inputs. The other phase comparator input (Sig) is wired to theincoming reference signal. A phase difference in the two signals will causethe phase compare output (PC) to be high more than it is low, which causesthe external capacitor to be charged, more than it is discharged, resultingin a higher input voltage at Vin. This increases the frequency at Vout,thus bringing the two signals into phase. When in the locked state, theVout will lag the input signal (Sig) by 0 degrees at the low end of theVCO’s frequency range, 90 degrees at the center frequency (Fc), and 180degrees at the high end.

The Vin signal is internally connected to the Dem pin through a sourcefollower. Thus the demodulated signal can be accessed at the Dem pin sothat the Vin pin is not loaded down. Example circuit: PLL.CKT.

PLLSigCompVout

Vss DemVin

PC

Vdd

27

Piezo BuzzerPiezo BuzzerPiezo BuzzerPiezo BuzzerPiezo BuzzerAnalog/Digital [Transducers/Sound Device]In digital simulation mode, the piezo buzzer will send a continuous streamof beeps to the PC's speaker when a low level is applied to its “-” terminaland a high level is applied to its “+” terminal. It contains SPICE data foruse in analog mode as a capacitor. Example circuit: SOUND.CKT.

+ -

Plot VarPlot VarPlot VarPlot VarPlot VarAnalog Only [Analog/SPICE Controls]This device provides a list of all of the plot variables for which data hasbeen collected for the circuit. Place this device anywhere in the drawingwindow; no wires are needed. Click on the device with the Probe Tool,then select the variable you wish to plot from the list. To view multiplewaveforms, SHIFT-click on the Plot Var device.

Plot

Vari able

PNP Darling1, PNP Darling2, PNP Darling3PNP Darling1, PNP Darling2, PNP Darling3PNP Darling1, PNP Darling2, PNP Darling3PNP Darling1, PNP Darling2, PNP Darling3PNP Darling1, PNP Darling2, PNP Darling3Analog Only [Active Components/Darlingtons]This device includes the SPICE data for simulating an PNP DarlingtonTransistor. Transistors may be selected from a list of available subcircuitsor new subcircuits may be added by the user. Double-click on the device toselect the desired subcircuit.

PNP Trans:B, PNP Trans:CPNP Trans:B, PNP Trans:CPNP Trans:B, PNP Trans:CPNP Trans:B, PNP Trans:CPNP Trans:B, PNP Trans:CAnalog Only [Active Components/BJTs] (Q)These devices include the SPICE data for simulating an PNP bipolarjunction transistor. Transistors may be selected from a list of availablemodels or new models may be added by the user. Double-click on thedevice to select the desired model. Example circuit: PUSHPULL.CKT.

28

PROM32PROM32PROM32PROM32PROM32Analog/Digital [Digital/RAM-PROM]This is a 32 x 8 PROM. Multiple PROMs may be individually pro-grammed. Refer to Chapter 10: Edit Menu in the user manual to programthis device. PROM data is saved with the circuit and in macros. Examplecircuit: STEPPER.CKT.

PROM32CS

A4A3A2A1A0

O7O6O5O4O3O2O1O0

PulserPulserPulserPulserPulserDigital Only [Digital/Instrument] (p)The Pulser is a programmable pulse generator. Multiple Pulsers may beindividually programmed. Refer to Chapter 5: Digital Logic Simulationin the user manual to program this device. Example circuit: SIM.CKT.

CP1CP2

Q1Q2

PUTPUTPUTPUTPUTAnalog Only [Active Components/Unijunction]This device includes the SPICE data for simulating a programmableunijunction transistor. PUTs may be selected from a list of availablesubcircuits or new subcircuits may be added by the user. Double-click onthe device to select the desired subcircuit.

Reference3Reference3Reference3Reference3Reference3Analog Only [Linear ICs/References]This device includes the SPICE data for simulating a 3-pin programmablereference. References may be selected from a list of available subcircuitsor new subcircuits may be added by the user. Double-click on the device toselect the desired subcircuit.

29

Regulator3Regulator3Regulator3Regulator3Regulator3Analog Only [Linear ICs/Regulators]This device includes the SPICE data for simulating a 3-pin voltageregulator. Regulators may be selected from a list of available subcircuitsor new subcircuits may be added by the user. Double-click on the device toselect the desired subcircuit.

IN

COM

OUT

RelaysRelaysRelaysRelaysRelaysRelays are available in two forms. The SPDT Relay is a complete unit,containing both the coil and the contacts in a single device. Other relaydevices are available in separate sections, allowing you to create your ownrelays with multiple pairs of contacts. By assigning the same text in theDescription field of the coil and the contacts, the coil can be assigned toswitch any number of contacts.

SPDT RelaySPDT RelaySPDT RelaySPDT RelaySPDT RelayAnalog/Digital [Relays/Complete]This device includes the SPICE data for simulating a Single-Pole Double-Throw relay. Relays may be selected from a list of available subcircuits ornew subcircuits may be added by the user. Double-click on the device toselect the desired subcircuit. In digital mode, it switches the contactconnections when a low level is applied to one terminal of the coil and ahigh level is applied to the other terminal. Example circuit:ALARM.CKT, ANRELAY.CKT.

Circle, Polar Coil, Rectangle, Solenoid, StandardCircle, Polar Coil, Rectangle, Solenoid, StandardCircle, Polar Coil, Rectangle, Solenoid, StandardCircle, Polar Coil, Rectangle, Solenoid, StandardCircle, Polar Coil, Rectangle, Solenoid, StandardAnalog/Digital [Relays/Coil] (k)These relay coils can be used in conjunction with any of the relay contacts.In order to control contacts with a given coil, set the Description field tothe same string for both the coil and all contacts which the coil shouldcontrol.

In digital simulation mode, the coils switch when a low level is applied toone terminal of the coil and a high level is applied to the other terminal.The pickup and release times for a coil can be individually programmed.

30

The pickup time is the time delay following activation of the coil until thecontacts close while the release time is the time following deactivation ofthe coil until the contacts open. To change the pickup and release times,double-click on a coil and then enter a SPICE comment of the followingform into the SPICE Data field: *p=2 r=3. This comment will set thedigital simulation mode pickup time to be 2 ticks and the release time to be3 ticks.

In analog simulation mode the coil may be selected from a list of availablemodels or new models may be added by the user. Double-click on thedevice to select the desired model. Note: No SPICE data is included for theLatch Coil or the Polar Latch. Example circuit: LADDER.CKT.

Latch Coil, Polar LatchLatch Coil, Polar LatchLatch Coil, Polar LatchLatch Coil, Polar LatchLatch Coil, Polar LatchDigital Only [Relays/Coil] (k)These relay coils are similar to those described above with the followingexceptions: 1) they do not contain SPICE simulation data for use in analogsimulation and 2) being latched coils, they latch the contacts into theopposite position with a single pulse.

SPDT:A, SPDT:B, SPDT:C, SPST-NC, SPST-NOSPDT:A, SPDT:B, SPDT:C, SPST-NC, SPST-NOSPDT:A, SPDT:B, SPDT:C, SPST-NC, SPST-NOSPDT:A, SPDT:B, SPDT:C, SPST-NC, SPST-NOSPDT:A, SPDT:B, SPDT:C, SPST-NC, SPST-NOAnalog/Digital [Relays/Contacts] (K)These relay contacts can be used in conjunction with any of the relay coils.In order to control contacts with a given coil, set the Description field tothe same string for both the coil and all contacts which the coil shouldcontrol. In analog simulation mode, the contacts may be selected from alist of available models or new models may be added by the user. Double-click on the device to select the desired model. Example circuit:LADDER.CKT.

31

RDIP14, RDIP14:A, RDIP16, RDIP16:ARDIP14, RDIP14:A, RDIP16, RDIP16:ARDIP14, RDIP14:A, RDIP16, RDIP16:ARDIP14, RDIP14:A, RDIP16, RDIP16:ARDIP14, RDIP14:A, RDIP16, RDIP16:ARSIP10, RSIP10:A, RSIP6, RSIP6:ARSIP10, RSIP10:A, RSIP6, RSIP6:ARSIP10, RSIP10:A, RSIP6, RSIP6:ARSIP10, RSIP10:A, RSIP6, RSIP6:ARSIP10, RSIP10:A, RSIP6, RSIP6:ARSIP8, RSIP8:ARSIP8, RSIP8:ARSIP8, RSIP8:ARSIP8, RSIP8:ARSIP8, RSIP8:AAnalog Only [Passive Components/Resistors]These devices include the SPICE data for simulating resistor packs. Thevalue of the resistors is specified in the Label/Value field.

Resistor, Resistor:AResistor, Resistor:AResistor, Resistor:AResistor, Resistor:AResistor, Resistor:AAnalog/Digital [Passive Components/Resistors] (r)These devices include the SPICE data for simulating a resistor. The valueof the resistor is specified in the Label/Value field. In digital simulationmode, when connected directly to a +V or a Ground, it acts like a standardpull-up or pull-down resistor. Otherwise, it acts as an open in digitalsimulation mode. Example circuits: ROCKET.CKT, ANALOG.CKT.

SemiResistor, SemiResistorASemiResistor, SemiResistorASemiResistor, SemiResistorASemiResistor, SemiResistorASemiResistor, SemiResistorAAnalog Only [Passive Components/Resistors]This device includes the SPICE data for simulating a semiconductorresistor. Semiconductor resistors may be selected from a list of availablesubcircuits or new subcircuits may be added by the user. Double-click onthe device to select the desired subcircuit.

32

Var Resistor, Var ResistorAVar Resistor, Var ResistorAVar Resistor, Var ResistorAVar Resistor, Var ResistorAVar Resistor, Var ResistorAAnalog Only [Passive Components/Resistors] (R)These devices include the SPICE data for simulating two fixed resistors bysetting the following defaults:

Label/Value: 10k 40%Spice Data: %DA %1 %2 4k

%DB %2 %3 6k

where the total resistance is 4k + 6k = 10k. The values in the Spice Datafield are adjusted automatically by changing the Label-Value.

RocketRocketRocketRocketRocketAnalog/Digital [Digital/Output Devices]This is an animated device similar to the Car, but with + and - input pins.When a high state is placed on the + input and a low state is placed on the- input, the rocket will fire. The reset button on the rocket returns therocket to its starting position. Double-click on the rocket to program thetravel distance (up to 1000 units). Different colors can be selected for eachrocket. This device can also be used in Analog simulation mode, but is notanimated. In this mode, a 1kW resistor is placed across the + and - inputpins. Example circuit: ROCKET.CKT.

+-

Reset

SchottkySchottkySchottkySchottkySchottkyAnalog Only [Active Components/Diodes]This device includes the SPICE data for simulating a schottky diode.Diodes may be selected from a list of available models or new models maybe added by the user. Double-click on the device to select the desiredmodel.

33

SCOPESCOPESCOPESCOPESCOPEDigital Only [Digital/Instrument] (T)A “SCOPE” is actually a tool which allows you to look at simulationwaveforms as they are charted in the Waveforms window. Connect ascope (each scope must have a unique name) at each point in the circuitwhere you wish to see the states charted. Double-click on the device to editthe name. SCOPEs are also used to identify the connecting nodes whencreating a subcircuit drawing for use in exporting a SPICE subcircuit.Example circuit: SCOPE.CKT.

TP1

SCRSCRSCRSCRSCRAnalog Only [Active Components/SCRs]This device includes the SPICE data for simulating an SCR (thyristor).SCRs may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit. Example circuit: SCR.CKT.

ShockleyShockleyShockleyShockleyShockleySchematic [Schematic Symbols/Diodes]This device is included for schematic purposes.

Signal GenSignal GenSignal GenSignal GenSignal GenAnalog Only [Analog/Instruments] (g)This is a fully programmable, multifunction analog signal generatorwhich offers a variety of output waveforms. Multiple generators may beindividually programmed. The minimum and maximum amplitudes ofthe waveform are stored in the Label-Value field and by default aredisplayed above the device symbol. Refer to Chapter 6: Analog/Mixed-Signal Simulation in the user manual to program this device. Examplecircuit: ANALOG.CKT.

1.0 kHz

-1/1V

34

SIP2, SIP3, SIP4, SIP5, SIP6, SIP7, SIP8, SIP10,SIP2, SIP3, SIP4, SIP5, SIP6, SIP7, SIP8, SIP10,SIP2, SIP3, SIP4, SIP5, SIP6, SIP7, SIP8, SIP10,SIP2, SIP3, SIP4, SIP5, SIP6, SIP7, SIP8, SIP10,SIP2, SIP3, SIP4, SIP5, SIP6, SIP7, SIP8, SIP10,SIP12, SIP16, SIP20SIP12, SIP16, SIP20SIP12, SIP16, SIP20SIP12, SIP16, SIP20SIP12, SIP16, SIP20Schematic [Connectors/SIP Type]These devices are included for schematic purposes.

SPDT Switch, SPST SwitchSPDT Switch, SPST SwitchSPDT Switch, SPST SwitchSPDT Switch, SPST SwitchSPDT Switch, SPST SwitchAnalog/Digital [Switches/Toggle] (S)These are functional Single-Pole Double-Throw and Single-Pole Single-Throw switches. Multiple switches of the same type may be activatedsimultaneously (creating double-pole or triple-pole switches, etc.) if theyhave the same label in the Label-Value field. If you try to activate theswitch while running an analog simulation, CircuitLogix will ask if youwant to rerun the simulation with the switch in the new position. Examplecircuit: ALARM.CKT.

SpeakerSpeakerSpeakerSpeakerSpeakerAnalog/Digital [Transducers/Sound Device]In digital simulation mode, the speaker will send a single beep to the PC’sspeaker when a low level is applied to one of its terminals and a high levelis applied to its other terminal. It will also send a single beep each time thehigh and low level are reversed or removed and then applied. It containsSPICE data for use in analog mode as a resistor. Example circuit:SOUND.CKT.

35

StepperStepperStepperStepperStepperAnalog/Digital [Digital/Output Device]This device simulates an eight position stepper motor. It is intendedmainly for Digital simulation mode. It can be connected in unipolar orbipolar mode and can be driven in full or half steps. The following tablesshow how the motor is driven in unipolar mode with the A and B terminalsconnected to a logic high. In analog simulation mode, it is not animated,but treated as inductors and resistors in series. Example circuit:STEPPER.CKT.

1 A2

3B4

1 2 3 40 x 0 00 x x 00 0 x 0x 0 x 0x 0 0 0x 0 0 x0 0 0 x0 x 0 x

Half Steps Counter C

lockwise R

otation

1 2 3 40 x 0 x0 x x 0x 0 x 0x 0 0 x

Full Steps

CW

Rot

atio

n

CC

W R

otation

x = Off (3-state)0 = Logic Low

StoplightStoplightStoplightStoplightStoplightAnalog/Digital [Digital/Output Device]This device has 3 lights—red, yellow and green—with one input for eachlight. It is intended mainly for use in Digital simulation mode. The lightwill be on when its associated pin is in the high state and off when its pinis in the low state. In analog simulation mode, the lights do not light.Example circuit: DISPLAY.CKT.

TerminalTerminalTerminalTerminalTerminalAnalog/Digital [Connectors/Misc] (t)This is a schematic symbol of a generic connector terminal point. It can beused in Analog simulations to connect digital simcode devices to a powerbus. To do so, enter the name of the bus as the name of the Terminal. TheTerminal can also be used to connect a circuit node to any other circuitnode by using giving multiple terminals the same name. See Chapter 4:Drawing and Editing Schematics in the user manual.

36

Tetrode, Tetrode:HTetrode, Tetrode:HTetrode, Tetrode:HTetrode, Tetrode:HTetrode, Tetrode:HSchematic [Active Components/Vacuum Tubes]This device includes the SPICE data for simulating a vacuum tube tetrode.Tetrodes may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit. Example circuit: VTPWRAMP.CKT.

TransformersTransformersTransformersTransformersTransformersCircuitLogix provides two different types of transformer simulation. Thefirst method which most closely represents the functionality of actualtransformers uses subcircuits, consisting of a voltage-controlled voltagesupply, a current-controlled current supply, winding resistances and leak-age and magnetization inductors. The turns ratios for these devices isdetermined by the voltage and current gains of the supplies. The Trans1,Trans2 and Trans3 devices use this method.

The second method uses coupled (mutual) inductors. This method isdescribed in detail in the Analog Simulation chapter. The drawback tothis method is that the impedance of the secondary winding is not reflectedback into the primary. The Transformer and CTTransformer devices usethis method. See Coupled Inductors for more information.

Note: For SPICE to operate properly, all nodes in a circuit require a DCpath to ground. In circuits that use transformers, both sides of thetransformer need a DC path to ground. This can be accomplished invarious ways:

1. Ground can be connected directly to both sides of the transformer (seeexample circuit PS1.CKT).

2. Ground can be connected indirectly to both sides of the transformerthrough a resistor (see example circuit PS2.CKT).

3. Enable the RSHUNT option in the Analog Options dialog box which isaccessed from the Options menu.

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Trans1, Trans2, Trans3Trans1, Trans2, Trans3Trans1, Trans2, Trans3Trans1, Trans2, Trans3Trans1, Trans2, Trans3Analog Only [Transformers/Subcircuit]These devices include the SPICE data for simulating a transformer.Transformers may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit. Example circuits: PS1.CKT, PS2.CKT.

Transformer, CTTransformerTransformer, CTTransformerTransformer, CTTransformerTransformer, CTTransformerTransformer, CTTransformerAnalog Only [Transformers/Coupled Inductors]These devices include the SPICE data for simulating a pair and a trio ofcoupled inductors. Example circuit: VTPWRAMP.CKT.

Triac:A, Triac:BTriac:A, Triac:BTriac:A, Triac:BTriac:A, Triac:BTriac:A, Triac:BAnalog Only [Active Components/Triacs]This device includes the SPICE data for simulating a triac (thyristor).Triacs may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit. Example circuit: TRIAC.CKT.

Triode, Triode:HTriode, Triode:HTriode, Triode:HTriode, Triode:HTriode, Triode:HAnalog Only [Active Components/Vacuum Tubes]This device includes the SPICE data for simulating a vacuum tube triode.Triodes may be selected from a list of available subcircuits or newsubcircuits may be added by the user. Double-click on the device to selectthe desired subcircuit. Example circuit: RIAAAMP.CKT.

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TunnelTunnelTunnelTunnelTunnelSchematic [Schematic Symbols/Diodes]This device is included for schematic purposes.

Vac Diode, Vac Diode:HVac Diode, Vac Diode:HVac Diode, Vac Diode:HVac Diode, Vac Diode:HVac Diode, Vac Diode:HSchematic [Active Components/Vacuum Tubes]These devices are included for schematic purposes.

V C OV C OV C OV C OV C OAnalog Only [Analog/Power]This device includes XSpice data for simulating a Voltage-ControlledOscillator. Output signal can be a sine, square or triangle wave. Double-click on the device to change its characteristics. Output frequency iscontrolled by the input voltage. Characteristics which can be adjusted bythe user include low and high output voltage levels, duty cycle (for squareand triangle waves), rise and fall times (for square waves) and the inputcontrol voltage vs. output frequency point arrays. The input controlvoltage vs. output frequency point arrays are used to define a line which,when extrapolated determines the frequency produced by any given inputvoltage. By default, a 1V DC input produces an 1kHz signal on the output;a 2V DC input produces an 2kHz signal on the output, etc. Examplecircuit: VCO.CKT.

V-Math1, V-Math1 Ref, V-Math2, V-Math2 RefV-Math1, V-Math1 Ref, V-Math2, V-Math2 RefV-Math1, V-Math1 Ref, V-Math2, V-Math2 RefV-Math1, V-Math1 Ref, V-Math2, V-Math2 RefV-Math1, V-Math1 Ref, V-Math2, V-Math2 RefAnalog Only [Math Functions/Voltage]These devices provide direct access to SPICE’s nonlinear dependentsource math functions. They are set up in subcircuit format to provide easyselection of the math functions. V-Math1 and V-Math1 Ref providesaccess to the single-variable voltage functions (abs, cos, sqrt, etc.) V-Math2 and V-Math2 Ref provides access to the dual-variable voltageoperations (+, -, *, / and ^). V-Math1 and V-Math2 require only a single

39

input for each variable which is then referenced to ground. V-Math1 Refand V-Math 2 Ref require both + and - inputs for each variable andprovide both a + and - output. Example circuit: MATH1.CKT.

V QABS(V)

V+V- Q-

Q+ABS(V)

AB

QV(A+B)

A+A-B+B-

Q-Q+

V(A+B)

WindowWindowWindowWindowWindowDigital Only [Digital/I/O Device]This is an animated device which simulates the opening and closing of awindow. It has a single input (OC) which opens the window when highand closes it when low, or, it can be opened or closed by clicking on thewindow pane with the mouse. It also contains a single-pole double-throwswitch that is activated when the window is opened or closed. Examplecircuit: ALARM.CKT.

CNO

NC

OC

Basic Logic DevicesBasic Logic DevicesBasic Logic DevicesBasic Logic DevicesBasic Logic DevicesAnalog/Digital [Digital/the minor class varies]Basic logic devices include a variety of common gates and flip-flops. Mostof the gates are provided with their DeMorgan equivalents. Examplecircuit: 4X4.CKT.

Buffers: Output will follow the input.3-State Buffers: If the output is enabled, output will follow the input.Inverters: If the input is high, output will be low.AND gates: If all inputs high, output will be high. 2, 3 and 4 inputs.OR gates: If any input high, output will be high. 2, 3 and 4 inputs.NAND gates: If all inputs high, output will be low. 2, 3, 4 and 8 inputs.NOR gates: If any input high, output will be low. 2, 3, 4 and 8 inputs.XOR gates: If only one input is high, output will be high. 2 inputs.XNOR gates: If only one input is high, output will be low. 2 inputs.D Flip-flops: Output follows the input when clock occurs.JK Flip-flops: Output based on J and K inputs when the clock occurs.SR Flip-flops: Output is high when set, low when reset.

40

Digital ICsDigital ICsDigital ICsDigital ICsDigital ICsAnalog/Digital [Digital ICs by Number/the minor class varies]CircuitLogix provides a comprehensive library of commonly used Digitalintegrated circuits. Pin names are based on the HE4000 and 74LS00families as defined by Philips Semiconductors, an international manufac-turer of integrated circuits. The device number listed below indicates thelogical function of the device. In digital simulation mode, the logicfunction of all families (74xx, 74LSxx, 74Sxx, 74Fxx, 74HCxx, etc.) is thesame. In analog simulation mode, the characteristics of each family isunique. Characteristics of each part can be adjusted only within the min,max and typical databook values.

Note: O.C. = Open Collector outputs.

4000 Dual 3-Input NOR Gate and Inverter4001 Quad 2-Input NOR Gate4002 Dual 4-Input NOR Gate4006 18-Stage Static Shift Register4008 4-Bit Binary Full Adder4011 Quad 2-Input NAND Gate4012 Dual 4-Input NAND Gate4013 Dual D Flip Flop4014 8-Bit Static Shift Register4015 Dual 4-bit Static Shift Register4017 5-Stage Johnson Counter4018 Presettable Divide-by-n Counter4019 Quad 2-Input Multiplexer4020 14-Stage Binary Counter4021 8-Bit Static Shift Register4022 4-Stage Divide-by-8 Johnson Counter4023 Triple 3-Input NAND Gate4024 7-Stage Binary Counter4025 Triple 3-Input NOR Gate4027 Dual JK Flip Flop4028 1-of-10 Decoder4029 Synchronous Up/Down Binary/Decade Counter4030 Quad Exclusive-OR Gate4031 64-Stage Static Shift Register4035 4-Bit Universal Shift Register4040 12-Stage Binary Counter4041 Quad True/Complement Buffer4042 Quad D-Latch4043 Quad R/S Latch (3-State)4044 Quad R/S Latch (3-State)4049 Hex Inverter4050 Hex Buffer4068 8-Input NAND Gate4069 Hex Inverter4070 Quad Exclusive-OR Gate4071 Quad 2-Input OR Gate4072 Dual 4-Input OR Gate4073 Triple 3-Input AND Gate

41

4075 Triple 3-Input OR Gate4076 Quad D Register (3-State)4077 Quad Exclusive-NOR Gate4078 8-Input NOR Gate4081 Quad 2-Input AND Gate4082 Dual 4-Input AND Gate4085 Dual 2-Wide 2-Input AND-OR-Invert Gate4086 4-Wide 2-Input AND-OR-Invert Gate4093 Quad 2-Input NAND Schmitt Trigger4094 8-Stage Shift-and-Store Bus Register4104 Quad Low-to-High Voltage Translator (3-State)4502 Strobed Hex Inverter/Buffer4505 64-Bit, 1-Bit per Word Random Access Read/Write Memory4508 Dual 4-Bit Latch4510 BCD Up/Down Counter4511 BCD to 7-Segment Latch/Decoder/Driver4512 8-Input Multiplexer (3-State)4514 1-of-16 Decoder/Demultiplexer with Input Latches4515 1-of-16 Decoder/Demultiplexer with Input Latches4516 Binary Up/Down Counter4517 Dual 64-Bit Static Shift Register4518 Dual BCD Counter4519 Quad 2-Input Multiplexer4520 Dual 4-Bit Binary Counter4522 Programmable 4-Bit BCD Down Counter4526 Programmable 4-Bit Binary Down Counter4531 13-Input Parity Checker/Generator4532 8-Input Priority Encoder4539 Dual 4-Input Multiplexer4543 BCD to 7-Segment Latch/Decoder/Driver4555 Dual 1-or-4 Decoder/Demultiplexer4556 Dual 1-of-4 Decoder/Demultiplexer4585 4-Bit Magnitude Comparator4731 Quad 64-Bit Static Shift Register

7400 Quad 2-Input NAND Gate7401 Quad 2-Input NAND Gate (O.C.)7402 Quad 2-Input NOR Gate7403 Quad 2-Input NAND Gate (O.C.)7404 Hex Inverter7405 Hex Inverter (O.C.)7406 Hex Inverter Buffer/Driver (O.C.)7407 Hex Inverter/Driver (O.C.)7408 Quad 2-Input AND Gate7409 Quad 2-Input AND Gate (O.C.)7410 Triple 3-Input NAND Gate7411 Triple 3-Input AND Gate7412 Triple 3-Input NAND Gate (O.C.)7413 Dual 4-Input NAND Schmitt Trigger7414 Hex Inverter Schmitt Trigger7415 Triple 3-Input AND Gate (O.C.)7416 Hex Inverter Buffer/Driver (O.C.)7417 Hex Buffer/Driver (O.C.)7420 Dual 4-Input NAND Gate7421 Dual 4-Input AND Gate7422 Dual 4-Input NAND Gate (O.C.)

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7425 Dual 4-Input NOR Gate with Strobe7426 Quad 2-Input NAND Gate (O.C.)7427 Triple 3-Input NOR Gate7428 Quad 2-Input NOR Buffer7430 8-Input NAND Gate7432 Quad 2-Input OR Gate7433 Quad 2-Input NOR Buffer (O.C.)7437 Quad 2-Input NAND Buffer7438 Quad 2-Input NAND Buffer (O.C.)7439 Quad 2-Input NAND Buffer (O.C.)7440 Dual 4-Input NAND Buffer7442 BCD-to-Decimal Decoder (1-of-10)7445 BCD-to-Decimal Decoder/Driver (O.C.)7447 BCD-to-Seven-Segment Decoder/Driver (O.C.)7448 BCD-to-Seven-Segment Decoder/Driver w/Pullups7473 Dual J-K Flip-Flop7474 Dual D Flip-Flop7475 Quad Bistable Latch7476 Dual J-K Flip-Flop7483 4-Bit Full Adder7485 4-Bit Magnitude Comparator7486 Quad 2-Input Exclusive-OR Gate7490 Decade Counter7492 Divide-by-Twelve Counter7493 4-Bit Binary Ripple Counter7495 4-Bit Shift Register7496 5-Bit Shift Register74107 Dual J-K Flip-Flop74109 Dual J-K Positive Edge-Trigger Flip-Flop74112 Dual J-K Edge-Triggered Flip-Flop74113 Dual J-K Edge-Triggered Flip-Flop74125 Quad Buffer (3-State)74126 Quad Buffer (3-State)74133 13-Input NAND Gate74136 Quad 2-Input Exclusive-OR Gate (O.C.)74138 1-of-8 Decoder/Demultiplexer74139 Dual 1-of-4 Decoder/Demultiplexer74147 10-Line to 4-Line Priority Encoder74148 8-Input Priority Encoder74151 8-Input Multiplexer74153 Dual 4-Line to 1-Line Multiplexer74154 1-of-16 Decoder/Demultiplexer74155 Dual 2-Line to 4-Line Decoder/Demultiplexer74157 Quad 2-Input Data Selector/Multiplexer74158 Quad 2-Input Data Selector/Multiplexer (Inverting)74160A BCD Decade Counter74161A 4-Bit Binary Counter74162A BCD Decade Counter74163A 4-Bit Binary Counter74164 8-Bit Serial-In Parallel-Out Shift Register74165 8-Bit Serial/Parallel-In, Serial-Out Shift Register74166 8-Bit Serial/Parallel-In, Serial-Out Shift Register74168 Synchronous BCD Decade Up/Down Counter74169 Synchronous 4-Bit Binary Up/Down Counter74173 Quad D Flip-Flop (3-State)74174 Hex D Flip-Flop

43

74175 Quad D Flip-Flop74181 4-Bit Arithmetic Logic Unit7482 Lookahead Carry Generator74190 Presettable BCD/Decade Up/Down Counter74191 Presettable 4-Bit Binary Up/Down Counter74192 Presettable BCD/Decade Up/Down Counter74193 Presettable 4-Bit Binary Up/Down Counter74194 4-Bit Bidirectional Universal Shift Register74195 4-Bit Parallel Access Shift Register74197 Presettable 4-Bit Binary Ripple Counter74199 8-Bit Parallel Access Shift Register74240 Octal Inverter Buffer (3-State)74241 Octal Buffer (3-State)74242 Quad Inverting Transceiver (3-State)74243 Quad Bus Transceiver (3-State)74244 Octal Buffer (3-State)74245 Octal Bus Transceiver (3-State)74247 BCD-to-Seven-Segment Decoder/Driver (O.C.)74248 BCD-to-Seven-Segment Decoder/Driver w/Pullups74251 8-Input Multiplexer (3-State)74253 Dual 4-Input Multiplexer (3-State)74256 Dual 4-Bit Addressable Latch74257 Quad 2-Line to 1-Line Data Selector/Multiplexer (3-State)74258 Quad 2-Line to 1-Line Data Selector/Multiplexer (3-State)74259 8-Bit Addressable Latch74266 Quad 2-Input Exclusive-NOR Gate (O.C.)74273 Octal D Flip-Flop74280 9-Bit Odd/Even Parity Generator/Checker74283 4-Bit Full Adder with Fast Carry74290 BCD Decade Counter74293 4-Bit Binary Ripple Counter74298 Quad 2-Port Register74352 Dual 4-Line to 1-Line Multiplexer74353 Dual 4-Input Multiplexer (3-State)74373 Octal Transparent Latch (3-State)74374 Octal D Flip-Flop (3-State)74375 Quad Bistable Latch74377 Octal D Flip-Flop with Clock Enable74378 Hex D Flip-Flop with Clock Enable74568 BCD Decade Up/Down Synchronous Counter (3-State)74569 4-Bit Binary Up/Down Synchronous Counter (3-State)

44

SPICE ModelsSPICE ModelsSPICE ModelsSPICE ModelsSPICE ModelsThe SPICE models listed on the following pages are for use inCircuitLogix's Analog simulation mode. The models in this section werecreated by Logic Design Inc. Those models marked with anasterisk (*) are only available in the full version ofCircuitLogix.

* CircuitMaker PRO only

DiodesDiodesDiodesDiodesDiodes(785 Devices)100HF100PV100HF120PV100HF140PV100HF160PV100HF20PV100HF40PV100HF60PV100HF80PV10CTQ15010CTQ150S12CTQ03512CTQ035S12CTQ04012CTQ04512CTQ045S12F1012F10012F100B12F10B12F12012F120B12F2012F20B12F4012F40B12F6012F60B12F8012F80B130HF100PV130HF120PV130HF140PV130HF160PV130HF20PV130HF40PV130HF60PV130HF80PV150CMQ035150CMQ040150CMQ045150CNQ045150HF100PV150HF120PV150HF140PV150HF160PV150HF20PV150HF40PV150HF60PV150HF80PV150K100A150K10A150K20A150K30A150K40A150K5A150K60A150K80A150KS10150KS100A

1N341N3670A1N3671A1N3672A1N3673A1N3735*1N3736*1N3737*1N3738*1N3739*1N3740*1N3741*1N3742*1N3743*1N37651N37661N37671N37681N40011N40021N40031N40041N40051N40061N40071N4044*1N4045*1N4046*1N4047*1N4048*1N4049*1N4050*1N4051*1N4052*1N4053*1N4054*1N4055*1N4056*1N41481N41491N41501N41511N41521N41531N41541N42441N43051N44461N44471N44481N44541N4561N456A1N4571N457A1N4581N458A1N4591N459A

150KS20150KS40150KS5150KS60150KS80A150L100A*150L10A*150L20A*150L40A*150L5A*150L60A*150L80A*151CMQ035151CMQ040151CMQ045151CNQ045152CMQ030153CMQ080153CMQ100153CNQ10015CTQ03515CTQ035S15CTQ04015CTQ04515CTQ045S160CMQ035160CMQ040160CMQ045160CNQ045161CMQ035161CMQ040161CMQ045161CNQ045162CMQ030162CNQ030163CMQ080163CMQ100163CNQ100168CMQ06016CTQ08016CTQ080S16CTQ10016CTQ100S16F1016F10016F12016F2016F4016F6016F801N11831N1183A1N11841N1184A1N11851N1185A1N11861N1186A1N1187

30CTQ05030CTQ050S30CTQ06030CTQ060S32CTQ03032CTQ030S400CNQ035400CNQ040400CNQ045401CMQ045401CNQ035401CNQ040401CNQ045403CMQ100403CNQ080403CNQ100408CMQ060408CNQ060409CNQ15040CDQ03540CDQ04040CDQ04540CPQ03540CPQ04040CPQ04540CPQ05040CPQ06040CPQ08040CPQ10040HF1040HF10040HF12040HF14040HF16040HF2040HF4040HF6040HF80440CMQ030440CNQ030444CNQ035444CNQ040444CNQ045445CNQ01545L10*45L100*45L120*45L140*45L160*45L20*45L40*45L60*45L80*470PDA10*470PDA20*470PDA40*470PDA60*470PDAR10*470PDAR20*

25CTQ03525CTQ035S25CTQ04025CTQ04525CTQ045S25F1025F10025F12025F2025F4025F6025F80300CNQ035300CNQ040300CNQ045300HF100*300HF120*300HF140*300HF160*300HF20*300HF40*300HF60*300HF80*300U100A*300U10A*300U20A*300U40A*300U60A*300U80A*301CNQ035301CNQ040301CNQ045301CNQ050301U100 D301U120*301U140*301U160*301U180*301U200*301U220*301U240*301U250*301U80 D303CNQ080303CNQ100309CNQ15030CPQ03530CPQ04030CPQ04530CPQ05030CPQ06030CPQ08030CPQ10030CPQ15030CTQ03530CTQ035S30CTQ04030CTQ04530CTQ045S

1N462A1N463A1N49341N49381N5162*1N52821N54001N54011N54021N54041N54061N54071N54081N9141N914A1N914B1N9161N916A1N916B200CNQ035200CNQ040200CNQ045200HF100PV*200HF120PV*200HF140PV*200HF160PV*200HF20PV*200HF40PV*200HF60PV*200HF80PV*201CMQ045201CNQ035201CNQ040201CNQ045201CNQ050203CMQ100203CNQ080203CNQ100208CMQ060208CNQ060209CMQ150209CNQ15020CTQ03520CTQ035S20CTQ04020CTQ04520CTQ045S21PT1021PT2021PT4021PT521PT60220CMQ030220CNQ025220CNQ030224CNQ035224CNQ040224CNQ045225CNQ015

1N1187A1N11881N1188A1N11891N1189A1N11901N1190A1N1199A1N1200A1N1201A1N1202A1N1203A1N1204A1N1205A1N1206A1N2054*1N2055*1N2057*1N2059*1N2061*1N2064*1N2066*1N2067*1N2068*1N2128A1N2129A1N21301N2131A1N2133A1N2135A1N2137A1N2138A1N30641N30701N3085*1N3086*1N3087*1N3088*1N3089*1N3090*1N3091*1N3092*1N3111*1N32081N32091N32101N32111N32121N32131N32141N3288A1N3289A1N3290A1N3291A1N3292B1N3293A1N3294A1N3295A1N3296A

45

470PDAR40*470PDAR60*60CDQ03560CDQ04060CDQ04560CNQ03560CNQ04060CNQ04560CNQ04560CNQ045SL60CNQ045SM61CNQ03561CNQ04061CNQ04561CNQ045SL61CNQ045SM62CNQ03062CNQ030SL62CNQ030SM63CNQ08063CNQ10063CNQ100SL63CNQ100SM6CWQ03F6CWQ04F6CWQ05F6CWQ06F6CWQ09F6CWQ10F6F106F1006F1206F206F406F606F8070HF1070HF10070HF12070HF14070HF16070HF2070HF4070HF6070HF8070U10*70U100*70U120*70U140*70U160*70U20*70U40*70U60*70U80*73HF1073HF10073HF12073HF2073HF4073HF6073HF8080CNQ035

80CNQ04080CNQ04580CNQ045SL80CNQ045SM81CNQ03581CNQ04081CNQ04581CNQ045SL81CNQ045SM81CNQ05081CNQ050SL81CNQ050SM82CNQ03082CNQ030SL82CNQ030SM83CNQ08083CNQ10083CNQ100SL83CNQ100SM84CNQ03584CNQ04084CNQ04584CNQ045SL84CNQ045SM85CNQ01585CNQ015SL85CNQ015SM85HF1085HF10085HF12085HF14085HF16085HF2085HF4085HF6085HF8088CNQ06088HF1088HF10088HF12088HF2088HF4088HF6088HF8089CNQ1508AF05NPP8AF1NPP8AF2NPP8AF4NPPBAS116BAV170BAV199BAV70BAV74BAV99BAW156BAW56DIODEFD700FD777FDH300FDH300A

FDH333FDH3595FDH400FDH444FDH600FJT1100FJT1101FJT1102MAD1108MAD1109MBR1535CTMBR1545CTMBR2035CTMBR2045CTMBR2080CTMBR2090CTMBR2100CTMBR2535CTMBR2545CTMBR3035CTMBR3035PTMBR3045CTMBR3045PTMBR4045PTMBR4060PTMBR6045WTMBRB1535CTSMBRB1545CTSMBRB2080CTSMBRB2090CTSMBRB2100CTSMMAD1108MMAD1109MMBD2835MMBD2836MMBD6050MMBD6100MMBD7000MMBD914MSD6100MSD6150SC1500C25L*SC1500C26L*SC1500C28L*SC1500C30L*SD1100C02C*SD1100C02L*SD1100C04C*SD1100C04L*SD1100C06C*SD1100C06L*SD1100C08C*SD1100C08L*SD1100C10C*SD1100C10L*SD1100C12C*SD1100C12L*SD1100C14C*SD1100C14L*SD1100C16C*SD1100C16L*SD1100C18C*

SD1100C18L*SD1100C20C*SD1100C20L*SD1100C22C*SD1100C22L*SD1100C24C*SD1100C24L*SD1100C25C*SD1100C25L*SD1100C26C*SD1100C26L*SD1100C28C*SD1100C28L*SD1100C30C*SD1100C30L*SD1100C32C*SD1100C32L*SD1500C02L*SD1500C04L*SD1500C06L*SD1500C08L*SD1500C10L*SD1500C12L*SD1500C14L*SD1500C16L*SD1500C18L*SD1500C20L*SD1500C22L*SD1500C24L*SD150N02PV*SD150N04PV*SD150N06PV*SD150N08PV*SD150N10PV*SD150N12PV*SD150N14PV*SD150N16PV*SD150N18PC*SD150N20PC*SD150N22PC*SD150N24PC*SD150N25PC*SD1700C24K*SD1700C25KSD1700C26K*SD1700C28K*SD1700C30K*SD1700C32K*SD1700C34K*SD1700C36K*SD1700C38K*SD1700C40K*SD1700C42K*SD1700C44K*SD1700C45K*SD2000C02L*SD2000C04L*SD2000C06L*SD2000C08L*SD2000C10L*SD200N02PV*SD200N04PV*

SD200N06PV*SD200N08PV*SD200N10PV*SD200N12PV*SD200N14PV*SD200N16PV*SD200N18PC*SD200N20PC*SD200N22PC*SD200N24PC*SD241SD300C02C*SD300C04C*SD300C06C*SD300C08C*SD300C10C*SD300C12C*SD300C14C*SD300C16C*SD300C18C*SD300C20C*SD300C22C*SD300C24C*SD300C25C*SD300C26C*SD300C28C*SD300C30C*SD300C32C*SD300N02PV*SD300N04PV*SD300N06PV*SD300N08PV*SD300N10PV*SD300N12PV*SD300N14PV*SD300N16PV*SD300N18PC*SD300N20PC*SD300N22PC*SD300N24PC*SD300N25PC*SD300N26PC*SD300N28PC*SD300N30PC*SD300N32PC*SD400C02C*SD400C04C*SD400C06C*SD400C08C*SD400C10C*SD400C12C*SD400C14C*SD400C16C*SD400C18C*SD400C20C*SD400C22C*SD400C24C*SD400N02PV*SD400N04PV*SD400N06PV*SD400N08PV*SD400N10PV*

SD400N12PV*SD400N14PV*SD400N16PV*SD400N18PC*SD400N20PC*SD400N22PC*SD400N24PC*SD500N30PC*SD500N32PC*SD500N34PC*SD500N36PC*SD500N38PC*SD500N40PC*SD500N42PC*SD500N44PC*SD500N45PC*SD600N02PC*SD600N04PC*SD600N06PC*SD600N08PC*SD600N10PC*SD600N12PC*SD600N14PC*SD600N16PC*SD600N18PC*SD600N20PC*SD600N22PC*SD600N24PC*SD600N25PC*SD600N26PC*SD600N28PC*SD600N30PC*SD600N32PC*SD700C30L*SD700C32L*SD700C34L*SD700C36L*SD700C38L*SD700C40L*SD700C42L*SD700C44L*SD700C45L*SD800C24L*SD800C25L*SD800C26L*SD800C28L*SD800C30L*SD800C32L*SD800C34L*SD800C36L*SD800C38L*SD800C40L*SD800C42L*SD800C44L*SD800C45L*SM4001TRSM4002TRSM4003TRSM4004TRSM4005TRSM4006TRSM4007TR

* CircuitMaker PRO only

46

Zener DiodesZener DiodesZener DiodesZener DiodesZener Diodes(730 Devices)

1N47281N4728A1N47291N4729A1N47301N4730A1N47311N4731A1N47321N4732A1N47331N4733A1N47341N4734A1N47351N4735A1N47361N4736A1N47371N4737A1N47381N4738A1N47391N4739A1N47401N4740A1N47411N4741A1N47421N4742A1N47431N4743A1N47441N4744A1N47451N4745A1N47461N4746A1N47471N4747A1N47481N4748A1N47491N4749A1N47501N4750A1N47511N4751A1N4751B1N47521N4752A1N47531N4753A1N47541N4754A1N47551N4755A1N47561N4756A1N47571N4757A1N47581N4758A1N47591N4759A1N47601N4760A1N47611N4761A1N4762

DL4740A*DL4741A*DL4742A*DL4743A*DL4744A*DL4745A*DL4746A*DL4747A*DL4748A*DL4749A*DL4750A*DL4751A*DL4752A*DL4753A*DL4754A*DL4755A*DL4756A*DL4757A*DL4758A*DL4759A*DL4760A*DL4761A*DL4762A*DL4763A*DL4764A*DL5226B*DL5227B*DL5228B*DL5229B*DL5230B*DL5231B*DL5232B*DL5233B*DL5234B*DL5235B*DL5236B*DL5237B*DL5238B*DL5239B*DL5240B*DL5241B*DL5242B*DL5243B*DL5244B*DL5245B*DL5246B*DL5247B*DL5248B*DL5249B*DL5250B*DL5251B*DL5252B*DL5253B*DL5254B*DL5255B*DL5256B*DL5257B*DL5258B*DL5259B*DL5260B*DL5261B*DL5262B*DZ23C10DZ23C11DZ23C12DZ23C13DZ23C15DZ23C16DZ23C18DZ23C20

BZX84C30LT1BZX84C33LT1BZX84C36LT1BZX84C39LT1BZX84C3V0LT1BZX84C3V3LT1BZX84C3V6LT1BZX84C3V9LT1BZX84C43LT1BZX84C47LT1BZX84C4V3LT1BZX84C4V7LT1BZX84C51LT1BZX84C56LT1BZX84C5V1LT1BZX84C5V6LT1BZX84C62LBZX84C68LT1BZX84C6V2LT1BZX84C6V8LT1BZX84C75LT1BZX84C7V5LT1BZX84C8V2LT1BZX84C9V1LT1BZX85C10*BZX85C11*BZX85C12*BZX85C13*BZX85C15*BZX85C16*BZX85C18*BZX85C20*BZX85C22*BZX85C24*BZX85C27*BZX85C2V7*BZX85C30*BZX85C33*BZX85C36*BZX85C39*BZX85C3V0*BZX85C3V3*BZX85C3V6*BZX85C3V9*BZX85C43*BZX85C47*BZX85C4V3*BZX85C4V7*BZX85C51*BZX85C56*BZX85C5V1*BZX85C5V6*BZX85C62*BZX85C68*BZX85C6V2*BZX85C6V8*BZX85C75*BZX85C7V5*BZX85C8V2*BZX85C9V1*DL4730A*DL4731A*DL4732A*DL4733A*DL4734A*DL4735A*DL4736A*DL4737A*DL4738A*DL4739A*

BZT52C3*BZT52C30*BZT52C33*BZT52C36*BZT52C39*BZT52C3V3*BZT52C3V6*BZT52C3V9*BZT52C43*BZT52C47*BZT52C4V3*BZT52C4V7*BZT52C51*BZT52C5V1*BZT52C5V6*BZT52C6V2*BZT52C6V8*BZT52C7V5*BZT52C8V2*BZT52C9V1*BZX55C10*BZX55C11*BZX55C12*BZX55C13*BZX55C15*BZX55C16*BZX55C18*BZX55C20*BZX55C22*BZX55C24*BZX55C27*BZX55C2V4*BZX55C2V7*BZX55C30*BZX55C33*BZX55C36*BZX55C39*BZX55C3V0*BZX55C3V3*BZX55C3V6*BZX55C3V9*BZX55C43*BZX55C47*BZX55C4V3*BZX55C4V7*BZX55C51*BZX55C56*BZX55C5V1*BZX55C5V6*BZX55C62*BZX55C68*BZX55C6V2*BZX55C6V8*BZX55C75*BZX55C7V5*BZX55C8V2*BZX55C9V1*BZX84C10LT1BZX84C11LT1BZX84C12LT1BZX84C13LT1BZX84C15LT1BZX84C16LT1BZX84C18LT1BZX84C20LT1BZX84C22LT1BZX84C24LT1BZX84C27LT1BZX84C2V4LT1BZX84C2V7LT1

1N969B1N970B1N971B1N972B1N973B1N974BBZG03C10*BZG03C100*BZG03C11*BZG03C110*BZG03C12*BZG03C120*BZG03C13*BZG03C130*BZG03C15*BZG03C150*BZG03C16*BZG03C160*BZG03C18*BZG03C180*BZG03C20*BZG03C200*BZG03C22*BZG03C220*BZG03C24*BZG03C240*BZG03C27*BZG03C270*BZG03C30*BZG03C33*BZG03C36*BZG03C39*BZG03C43*BZG03C47*BZG03C51*BZG03C56*BZG03C62*BZG03C68*BZG03C75*BZG03C82*BZG03C91*BZG05C10*BZG05C11*BZG05C12*BZG05C13*BZG05C15*BZG05C3V3*BZG05C3V6*BZG05C3V9*BZG05C4V3*BZG05C4V7*BZG05C5V1*BZG05C5V6*BZG05C6V2*BZG05C6V8*BZG05C7V5*BZG05C8V2*BZG05C9V1*BZT52C10*BZT52C11*BZT52C12*BZT52C13*BZT52C15*BZT52C16*BZT52C18*BZT52C20*BZT52C22*BZT52C24*BZT52C27*BZT52C2V7*

1N5359B1N5360B1N5361B1N5362B1N5363B1N5364B1N5365B1N5366B1N5367B1N5368B1N5369B1N5370B1N5371B1N5372B1N5373B1N5374B1N5375B1N5376B1N5377B1N5378B1N5379B1N5380B1N5381B1N5382B1N5383B1N5384B1N5385B1N5386B1N5387B1N5388B1N7461N746A1N7471N747A1N7481N748A1N7491N749A1N7501N750A1N7511N751A1N7521N752A1N7531N753A1N7541N754A1N7551N755A1N7561N756A1N7571N757A1N7581N758A1N7591N759A1N957B1N958B1N959B1N960B1N961B1N962B1N963B1N964B1N965B1N966B1N967B1N968B

1N4762A1N47631N4763A1N47641N4764A1N5221B*1N5222B1N5223B*1N5224B*1N5225B*1N5226B1N5227B1N5228B1N5229B1N5230B1N5231B1N5232B1N5233B1N5234B1N5235B1N5236B1N5237B1N5238B1N5239B1N5240B1N5241B1N5242B1N5243B1N5244B1N5245A1N5245B1N5246B1N5247B1N5248B1N5249B1N5250B1N5251B1N5252B1N5253B1N5254B1N5255B1N5256B1N5257B1N5258B1N5259B1N5260B1N5261B1N5262B1N5263B*1N5264B*1N5265B*1N5266B*1N5267B*1N5342B1N5343B1N5344B1N5345B1N5346B1N5347B1N5348B1N5349B1N5350B1N5351B1N5352B1N5353B1N5354B1N5355B1N5356B1N5357B1N5358B

* CircuitMaker PRO only

47

Schottky DiodesSchottky DiodesSchottky DiodesSchottky DiodesSchottky Diodes(185 Devices)

DZ23C22DZ23C24DZ23C27DZ23C2V7DZ23C3DZ23C30DZ23C33DZ23C36DZ23C39DZ23C3V3DZ23C3V6DZ23C3V9DZ23C43DZ23C47DZ23C4V4DZ23C4V7DZ23C51DZ23C5V1DZ23C5V6DZ23C6V2DZ23C6V8DZ23C7V5DZ23C8V2DZ23C9V1DZ89C10DZ89C100DZ89C11DZ89C110DZ89C12DZ89C120DZ89C13DZ89C130DZ89C15DZ89C150DZ89C16DZ89C160DZ89C18DZ89C180DZ89C20DZ89C200

MMSZ13T1MMSZ15T1MMSZ16T1MMSZ18T1MMSZ20T1MMSZ22T1MMSZ24T1MMSZ27T1MMSZ2V4T1MMSZ2V7T1MMSZ30T1MMSZ33T1MMSZ36T1MMSZ39T1MMSZ3V3T1MMSZ3V6T1MMSZ3V9T1MMSZ43T1MMSZ47T1MMSZ4V3T1MMSZ4V7T1MMSZ51T1MMSZ56T1MMSZ5V1T1MMSZ5V6T1MMSZ62T1MMSZ68T1MMSZ6V2T1MMSZ6V8T1MMSZ75T1MMSZ7V5T1MMSZ8V2T1MMSZ9V1T1ZENERZMU100*ZMU120*ZMU150*ZMU180*ZPU100*ZPU120*

MMBZ5234BLT1MMBZ5235BLT1MMBZ5236BLT1MMBZ5237BLT1MMBZ5240BLT1MMBZ5241BLT1MMBZ5242BLT1MMBZ5243BMMBZ5244BLT1MMBZ5245BLT1MMBZ5246BLT1MMBZ5247BLT1MMBZ5248BLT1MMBZ5249BLT1MMBZ5250BLT1MMBZ5251BLT1MMBZ5252BLT1MMBZ5253BLT1MMBZ5254BLT1MMBZ5255BLT1MMBZ5256BLT1MMBZ5257BLT1MMBZ5258BLT1MMBZ5258BLT1MMBZ5259BLT1MMBZ5259BLT1MMBZ5260BLT1MMBZ5261BLT1MMBZ5262BLT1MMBZ5263BLT1MMBZ5264BLT1MMBZ5265BLT1MMBZ5266BLT1MMBZ5267BLT1MMBZ5268BLT1MMBZ5269BLT1MMBZ5270BLT1MMSZ10T1MMSZ11T1MMSZ12T1

DZ89C22DZ89C24DZ89C27DZ89C30DZ89C33DZ89C36DZ89C39DZ89C3V9DZ89C43DZ89C47DZ89C4V3DZ89C4V7DZ89C51DZ89C56DZ89C5V1DZ89C5V6DZ89C62DZ89C68DZ89C6V2DZ89C6V8DZ89C75DZ89C7V5DZ89C82DZ89C8V2DZ89C91DZ89C9V1MMBZ3V0T1MMBZ5221BLT1MMBZ5222BLT1MMBZ5223BLT1MMBZ5224BLT1MMBZ5225BLT1MMBZ5226BLT1MMBZ5227BLT1MMBZ5228BLT1MMBZ5229BLT1MMBZ5230BLT1MMBZ5231BLT1MMBZ5232BLT1MMBZ5233BLT1

ZPU150*ZPU180*ZPY1*ZPY10*ZPY100*ZPY11*ZPY12*ZPY13*ZPY15*ZPY16*ZPY18*ZPY20*ZPY22*ZPY24*ZPY27*ZPY3_9*ZPY30*ZPY33*ZPY36*ZPY39*ZPY4_3*ZPY4_7*ZPY43*ZPY47*ZPY5_1*ZPY5_6*ZPY51*ZPY56*ZPY6_2*ZPY6_8*ZPY62*ZPY68*ZPY7_5*ZPY75*ZPY8_2*ZPY82*ZPY9_1*ZPY91*ZY1*ZY10*

ZY100*ZY11*ZY110*ZY12*ZY120*ZY13*ZY130*ZY15*ZY150*ZY16*ZY160*ZY18*ZY180*ZY20*ZY200*ZY22*ZY24*ZY27*ZY3_9*ZY30*ZY33*ZY36*ZY39*ZY4_3*ZY4_7*ZY43*ZY5_1*ZY5_6*ZY51*ZY56*ZY6_2*ZY6_8*ZY62*ZY68*ZY7_5*ZY75*ZY8_2*ZY82*ZY9_1*ZY91*

10BQ01510BQ040*10BQ060*10BQ100*10MQ040*10MQ060*10MQ090*10TQ035*10TQ035S*10TQ040*10TQ045*10TQ045S*11DQ0311DQ0411DQ0511DQ0611DQ0911DQ10120NQ035*120NQ040*120NQ045*120NQ045R*121NQ035*121NQ040*121NQ045*121NQ045R*122NQ030*

244NQ045*244NQ045R*245NQ015*245NQ015R*248NQ060*248NQ060R*249NQ150*249NQ150R*30BQ015*30BQ040*30BQ060*30BQ100*30FQ035*30FQ040*30FQ045*30WQ03F*30WQ04F*30WQ05F*30WQ06F*30WQ09F*30WQ10F*31DQ03*31DQ04*31DQ05*31DQ06*31DQ09*

181NQ045R*182NQ030*182NQ030R*183NQ080*183NQ100*183NQ100R*185NQ015*185NQ015R*188NQ060*188NQ060R*189NQ150*189NQ150R*18TQ035*18TQ035S*18TQ040*18TQ045*18TQ045S*19TQ015*19TQ015S*1N58281N58341N60951N60961N60971N60981N63911N6392

20FQ035*20FQ040*20FQ045*20TQ035*20TQ035S*20TQ040*20TQ045*20TQ045S*21FQ035*21FQ040*21FQ045*240NQ035*240NQ040*240NQ045*240NQ045R*241NQ035*241NQ040*241NQ045*241NQ045R*242NQ030*242NQ030R*243NQ080*243NQ100*243NQ100R*244NQ035*244NQ040*

122NQ030R*123NQ080*123NQ100*123NQ100R*124NQ035*124NQ040*124NQ045*124NQ045R*125NQ015*125NQ015R*128NQ060*128NQ060R*129NQ150*129NQ150R*12TQ035*12TQ035S*12TQ040*12TQ045*12TQ045S*15MQ040*180NQ035*180NQ040*180NQ045*180NQ045R*181NQ035*181NQ040*181NQ045*

80SQ035*80SQ040*80SQ045*85HQ035*85HQ040*85HQ045*8TQ080*8TQ080S*8TQ100*8TQ100S*90SQ035*90SQ040*90SQ045*95HQ015*95SQ015*MBR1035*MBR1045*MBR1635*MBR1645*MBR735*MBR745*MBR7535*MBR7545*SD41*SD51*SKYDIODE

31DQ10*50HQ035*50HQ040*50HQ045*50SQ080*50SQ100*50WQ03F*50WQ04F*50WQ05F*50WQ06F*50WQ09F*50WQ10F*51HQ035*51HQ040*51HQ045*55HQ030*60HQ080*60HQ100*6TQ035*6TQ035S*6TQ040*6TQ045*6TQ045S*75HQ035*75HQ040*75HQ045*

* CircuitMaker PRO only

48

Diode Bridge RectifiersDiode Bridge RectifiersDiode Bridge RectifiersDiode Bridge RectifiersDiode Bridge Rectifiers(53 Devices)

18DB0518DB118DB1018DB218DB418DB618DB81BQ20

DF01DF02DF04DF06DF08DF10KBPC1005

2KBP012KBP022KBP042KBP062KBP082KBP10BRIDGEDF005

2KBB102KBB1002KBB202KBB402KBB52KBB602KBB802KBP005

1BQ401KAB101KAB1001KAB201KAB401KAB51KAB601KAB80

Bipolar Junction Transistors (NPN)Bipolar Junction Transistors (NPN)Bipolar Junction Transistors (NPN)Bipolar Junction Transistors (NPN)Bipolar Junction Transistors (NPN)(507 Devices)

2N18932N21022N2218A2N22192N2219A2N22222N2222A2N22702N23692N2369A2N24842N28952N28962N30192N30202N30532N3053A2N30552N35002N35012N35072N37002N39032N39042N39472N40142N41232N41242N42642N42652N44002N44012N44102N50882N50892N52092N52102N55502N55512N64312N65152N65162N65172N9302N930ABC140-10BC140-16BC141-10BC141-16BC337-16BC337-25BC337-40BC338-16BC338-25BC338-40

BC368BC394BC489BC489ABC489BBC546ABC546BBC547ABC547BBC547CBC548ABC548BBC548CBC635BC637BC639BC817-16LT1BC817-25BC817-40BC818-25BC818-40BC846ABC846ALT1BC846BLT1BC847ABC847ALT1BC847BLT1BC847CBC847CLT1BC848ALT1BC848BLT1BC848CLT1BC849ALT1BC849BLT1BC849CBC850ALT1BC850BLT1BC850CLT1BCP54BCP56-10T1BCP56-16T1BCP56T1BCP68T1BCW31BCW33BCW60ALT1BCW60BLT1BCW60DLT1BCW65CBCW71BCX19LT1BCX20LT1BCX70GLT1BCX70JLT1BCX70KLT1

BDC01DBDC05BF199BF224BF240BF258BF374BF391BF392BF393BF420BF422BF720BF844BF959BSP19AT1BSP20AT1BSS64LT1BSS71BSS72BSS73BSV52LT1BSX20CV12253D44H8ECG10ECG101ECG103ECG103AECG107ECG108ECG11ECG123ECG123AECG123APECG124ECG128ECG128PECG13ECG130*ECG15ECG152*ECG154ECG157*ECG16ECG161ECG162ECG163A*ECG164ECG165ECG171*ECG175ECG18ECG181ECG184*

ECG186*ECG186A*ECG188ECG190*ECG191ECG194ECG196*ECG198ECG199ECG20ECG210ECG216ECG22ECG224*ECG225ECG227ECG228AECG229ECG23ECG2300*ECG2301*ECG2302*ECG2303*ECG2304*ECG2305*ECG2307*ECG2308*ECG2309*ECG2310*ECG2311*ECG2312*ECG2313*ECG2318*ECG2319*ECG2321*ECG2323*ECG2324*ECG2325*ECG2327*ECG2328*ECG233ECG2330*ECG2331*ECG2333*ECG2337*ECG2339*ECG2347*ECG2348*ECG2353*ECG2354*ECG2363*ECG2365*ECG237*ECG238*ECG24

ECG26ECG278ECG280ECG283ECG284*ECG286*ECG287ECG29*ECG291*ECG295ECG300ECG31ECG311ECG313*ECG315ECG316*ECG317*ECG318*ECG319P*ECG320*ECG320F*ECG321ECG327*ECG328*ECG331*ECG340*ECG341*ECG342*ECG343*ECG346*ECG36*ECG360*ECG369*ECG373*ECG375ECG376ECG377*ECG379*ECG382*ECG384*ECG385*ECG386*ECG387*ECG388ECG389*ECG390*ECG392*ECG394*ECG396*ECG399*ECG40ECG42ECG44ECG47ECG472*

ECG241ECG2428*ECG2430*ECG2501*ECG2503*ECG2504*ECG2505*ECG2506*ECG2507*ECG2508*ECG2510*ECG2511*ECG2513*ECG2515*ECG2517*ECG2519*ECG2521*ECG2522*ECG2524*ECG2526*ECG2528*ECG2530*ECG2533*ECG2534*ECG2536*ECG2538*ECG2539*ECG255ECG2561*ECG2562*ECG2564*ECG2566*ECG2568*ECG2570*ECG2572*ECG2574*ECG2576*ECG2578*ECG2579*ECG2580*ECG2581*ECG2582*ECG2583*ECG2584*ECG2585*ECG2586*ECG2588*ECG2590*ECG2591*ECG2592*ECG2593*ECG2594*ECG2596*ECG2597*ECG2598

KBPC601KBPC602KBPC604KBPC606KBPC608KBPC610MDA2500

KBPC101KBPC102KBPC104KBPC106KBPC108KBPC110KBPC6005

ECG473*ECG474*ECG479*ECG486*ECG487*ECG488*ECG49*ECG51ECG52ECG53ECG54*ECG56*ECG58ECG60*ECG63*ECG64*ECG69ECG70*ECG71ECG72ECG74ECG75*ECG76*ECG77ECG78ECG79ECG81ECG85ECG86ECG87ECG89ECG90ECG92*ECG94ECG95ECG96*MJE15030MJE340MM3001MM3725MMBT100MMBT100AMMBT2222ALT1MMBT2222LT1MMBT2369ALT1MMBT2369LT1MMBT2484LT1MMBT3904MMBT4124MMBT4401MMBT5088MMBT5089MMBT5179MMBT5550LT1MMBT5551

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49

MMBT6428LT1MMBT6429LT1MMBT6517MMBT918MMBTA05LT1MMBTA06MMBTA20LT1MMBTA42MMBTA43MMBTA43LT1MMBTH10MMBTH11MMBTH20MMBTH24MMPQ2222MMPQ2222AMMPQ2369MMPQ3725

PBF259RSPBF259SPN100PN100APN3563PN918PZT3904PZT651T1PZTA06PZTA42QNPNTN3019ATN3440ATN3725ATN6714ATN6715ATN6717A

MSC2295CMSC2404CMSC3130MSD1328RMSD1819A-RT1MSD1819A-ST1MSD601RMSD601-ST1MSD602RNPNNZT44H8NZT651NZT6714NZT6715NZT6717P2N2222APBF259

MPSA43MPSA44MPSH04MPSH10MPSH11MPSH20MPSH24MPSH34MPSL01MPSW01MPSW01AMPSW05MPSW06MPSW10MPSW42MSC1621MSC2295B

MMPQ3904MMPQ6842MPQ2222MPQ2222AMPQ2369MPQ2483MPQ2484MPQ3725MPQ3904MPQ7041MPQ7042MPQ7043MPS2222MPS2222AMPS2369MPS2369AMPS2711MPS2712

MPS2713MPS2714MPS3563MPS3646MPS3866MPS3904MPS4123MPS4124MPS5179MPS650MPS6507MPS651MPS6520MPS6521MPS6530MPS6531MPS6560MPS6568A

MPS6571MPS6595MPS6601MPS6602MPS6714MPS6715MPS6717MPS8050MPS8098MPS8099MPS918MPSA05MPSA06MPSA16MPSA17MPSA18MPSA42

Bipolar Junction Transistors (PNP)Bipolar Junction Transistors (PNP)Bipolar Junction Transistors (PNP)Bipolar Junction Transistors (PNP)Bipolar Junction Transistors (PNP)(341 Devices)

2N29042N2904A2N29052N2905A2N29062N2906A2N29072N2907A2N2955*2N32442N32502N32512N3251A2N34672N34682N34972N35462N36342N36352N36362N36372N37992N39052N39062N39632N39642N40322N40332N40362N40372N41252N41262N42582N44022N44032N44052N44072N49312N50862N50872N50872N54002N54012N57712N64332N65192N6520BC160-16BC161-16

BC177BC177ABC177BBC212BC212BBC213BC214BC307BC307BBC307CBC308CBC309BBC327BC327-16BC327-25BC328BC328-16BC328-25BC369BC393BC450BC450ABC490BC490ABC556BC556BBC557BC557ABC557BBC557CBC558BBC559BC559BBC559CBC560BBC560CBC636BC638BC640BC807-16BC807-25BC807-40BC856ALT1BC856BLT1BC857ALT1BC857BBC857CBC858ALT1BC858BLT1

ECG185*ECG187*ECG187A*ECG189ECG19*ECG193*ECG193A*ECG197*ECG21*ECG211*ECG213*ECG217*ECG218ECG219*ECG2306*ECG2314*ECG2322*ECG2329*ECG234*ECG2364*ECG2366*ECG240ECG242*ECG2429*ECG2431*ECG25*ECG2502*ECG2509*ECG2512*ECG2514*ECG2516*ECG2518*ECG2520*ECG2523*ECG2525*ECG2527*ECG2529*ECG2531*ECG2535*ECG2537*ECG2563*ECG2565*ECG2567*ECG2569*ECG2571*ECG2575*ECG2577*ECG27*ECG28*

ECG281*ECG285*ECG288*ECG292*ECG30*ECG307*ECG32*ECG332*ECG353*ECG354*ECG355*ECG356*ECG37*ECG374*ECG378*ECG38ECG381*ECG383*ECG39*ECG391*ECG393*ECG395*ECG397*ECG398ECG41*ECG43*ECG45*ECG50*ECG55*ECG59*ECG61*ECG68ECG82*ECG88ECG91*ECG93*MM4001MMBT200MMBT200AMMBT2907AMMBT2907LT1MMBT3640MMBT3906MMBT404AMMBT4126MMBT4258MMBT4403MMBT5086MMBT5087

MMBT5401MMBT5771MMBT6520MMBT8599MMBTA55LT1MMBTA56MMBTA70LT1MMBTA92MMBTA93LT1MMBTH81MMPQ2907MMPQ3467MMPQ3799MMPQ3906MPQ2906MPQ2907MPQ2907AMPQ3467MPQ3762MPQ3798MPQ3799MPQ3906MPQ7091MPQ7093MPS2907MPS2907AMPS3638MPS3638AMPS3640MPS3906MPS404AMPS4125MPS4126MPS4258MPS536MPS5771MPS6523MPS6562MPS6651MPS6652MPS6726MPS6727MPS750MPS751MPS8093MPS8550MPS8598MPS8599

MPSA55MPSA56MPSA70MPSA92MPSA93MPSH81MPSL51MPSW51MPSW51AMPSW55MPSW56MPSW92MSA1022BMSA1022CMSB1218A-RT1MSB1218A-ST1MSB709RMSB709-ST1MSB710-QT1MSB710RNZT45H8NZT6726NZT6728NZT6729NZT751P2N2907APBF493PBF493RPBF493RSPBF493SPN200PN200APN2907APN3640PN4356PNPPZT2907APZT3906PZT751T1PZTA56PZTA92PZTA96TN2905ATN3467ATN4033ATN6726ATN6728ATN6729A

BC858CLT1BCP52BCP53T1BCP69T1BCW29LT1BCW30LT1BCW61BLT1BCW61CLT1BCW61DLT1BCW68GBCW69LT1BCW70LT1BCX17LT1BCX18LT1BCX71KBCY70BCY71BCY72BDB02CBDB02DBDC02DBF421BF423BF492BF493BF493SBF721BFW43BSP16BSS63LT1BSS74BSS75BSS76BSV16-10D45H8ECG100*ECG102*ECG102A*ECG106*ECG12*ECG126A*ECG129*ECG129P*ECG14*ECG153*ECG159*ECG160*ECG17*ECG180*

* CircuitMaker PRO only

50

Darlington BJTsDarlington BJTsDarlington BJTsDarlington BJTsDarlington BJTs(106 Devices)

2N60402N60422N64262N64272N64272N70522N7053BC372BC373BC517BC618BCV26BCV27BSP52T1BSP62T1ECG214*

MPSW13MPSW14MPSW45MPSW45AMPSW63MPSW64NPN1NPN2NPN3PNP1PNP2PNP3PZTA14T1PZTA64T1TIP141

ECG2547*ECG2548*ECG2551*ECG2552*ECG2553*ECG2554*ECG2555*ECG2556*ECG2559*ECG2560*ECG258*ECG261*ECG262*ECG263*ECG264*

ECG246*ECG247*ECG248*ECG249*ECG250*ECG251*ECG252*ECG253*ECG254*ECG2540*ECG2541*ECG2542*ECG2544*ECG2545*ECG2546*

ECG215*ECG2316*ECG2317*ECG2326*ECG2343*ECG2344*ECG2345*ECG2346*ECG2349*ECG2350*ECG2351*ECG2352*ECG243*ECG244*ECG245*

MPS6724MPS6725MPSA13MPSA14MPSA25MPSA26MPSA27MPSA28MPSA29MPSA62MPSA63MPSA64MPSA64MPSA75MPSA77

ECG265*ECG266*ECG267*ECG268*ECG269*ECG272*ECG273*ECG274*ECG275*MMBT6427LT1MMBTA13LT1MMBTA14LT1MMBTA63LT1MMBTA64LT1MPQ6426

Silicon-Controlled RectifiersSilicon-Controlled RectifiersSilicon-Controlled RectifiersSilicon-Controlled RectifiersSilicon-Controlled Rectifiers(441 Devices)

10RIA10*10RIA100*10RIA120*10RIA20*10RIA40*10RIA60*10RIA80*110RKI10*110RKI100*110RKI120*110RKI20*110RKI40*110RKI60*110RKI80*16RIA10*16RIA100*16RIA120*16RIA140*16RIA160*16RIA20*16RIA40*16RIA60*16RIA80*180RKI100*180RKI20*180RKI40*180RKI60*180RKI80*22RIA10*22RIA100*22RIA120*22RIA140*22RIA160*22RIA20*22RIA40*22RIA60*22RIA80*25RIA10*25RIA100*25RIA120*25RIA140*25RIA160*25RIA20*25RIA40*25RIA60*25RIA80*2N1792*2N1793*

2N1794*2N1795*2N1796*2N1797*2N1798*2N1799*2N1800*2N1801*2N1802*2N1803*2N1804*2N1805*2N1806*2N1807*2N1909*2N1910*2N1911*2N1912*2N1913*2N1914*2N1915*2N1916*2N2023*2N2024*2N2025*2N2026*2N2027*2N2028*2N2029*2N2030*2N23262N3091*2N3092*2N3093*2N3094*2N3095*2N3096*2N3097*2N3098*2N41712N50602N50612N50622N50632N50642N5204*2N5205*2N5206*

2N5207*2N62372N62382N62392N62402N62412N65642N65652N681*2N682*2N683*2N684*2N685*2N686*2N687*2N688*2N689*2N690*2N691*2N692*50RIA10*50RIA100*50RIA120*50RIA140*50RIA160*50RIA20*50RIA40*50RIA60*50RIA80*70RIA10*70RIA100*70RIA120*70RIA20*70RIA40*70RIA60*70RIA80*80RIA10*80RIA100*80RIA120*80RIA20*80RIA40*80RIA60*80RIA80*80RKI10*80RKI100*80RKI120*80RKI20*80RKI40*

80RKI60*80RKI80*BRX44BRX45BRX46BRX47BRX49BRY55-100BRY55-200BRY55-30BRY55-400BRY55-500BRY55-60BRY55-600C106AC106BC106DC106FC106MC149M10EC103AEC103A1EC103A2EC103A3EC103BEC103B1EC103B2EC103B3EC103CEC103C1EC103C2EC103C3EC103DEC103D1EC103D2EC103D3EC103EEC103E1EC103E2EC103E3EC103MEC103M1EC103M2EC103M3EC113AEC113A3EC113BEC113B3

EC113CEC113C3EC113DEC113D3EC113EEC113E3EC113MEC113M3MCR100-3MCR100-4MCR100-6MCR100-8MCR102MCR103MCR106-2MCR106-3MCR106-4MCR22-2MCR22-3MCR22-4MCR22-6MCR22-8MCR506-2MCR506-3MCR506-4MCR506-6MCR506-8MRC106-6MRC106-8S0503LS1S0503LS2S0503LS3S1003LS1S1003LS2S1003LS3S19CFS2003LS1S2003LS2S2003LS3S4003LS1S4003LS2S4003LS3S6003LS1S6003LS2S6003LS3SCRST110C02C0*ST110C04C0*

ST110C06C0*ST110C08C0*ST110C10C0*ST110C12C0*ST110C14C0*ST110C16C0*ST110S02P0V*ST110S04P0V*ST110S06P0V*ST110S08P0V*ST110S10P0V*ST110S12P0V*ST110S14P0*ST110S16P0*ST1200C04K0*ST1200C06K0*ST1200C08K0*ST1200C10K0*ST1200C12K0*ST1200C14K0*ST1200C16K0*ST1200C18K0*ST1200C20K0*ST1230C04K0*ST1230C06K0*ST1230C08K0*ST1230C10K0*ST1230C12K0*ST1230C14K0*ST1230C16K0*ST1280C02K0*ST1280C04K0*ST1280C06K0*ST180C02C0*ST180C04C0*ST180C06C0*ST180C08C0*ST180C10C0*ST180C12C0*ST180C14C0*ST180C16C0*ST180C18C0*ST180C20C0*ST180S02P0V*ST180S04P0V*ST180S06P0V*ST180S08P0V*ST180S10P0V*

ST180S12P0V*ST180S14P0*ST180S16P0*ST180S18P0*ST180S20P0*ST1900C45R0*ST1900C46R0*ST1900C48R0*ST1900C50R0*ST1900C52R0*ST2100C35R0*ST2100C36R0*ST2100C38R0*ST2100C40R0*ST2100C42R0*ST2100C44R0*ST2100C45R0*ST230C02C0*ST230C04C0*ST230C06C0*ST230C08C0*ST230C10C0*ST230C12C0*ST230C14C0*ST230C16C0*ST230S02P0V*ST230S04P0V*ST230S06P0V*ST230S08P0V*ST230S10P0V*ST230S12P0V*ST230S14P0*ST230S16P0*ST2600C20R0*ST2600C22R0*ST2600C24R0*ST2600C26R0*ST2600C28R0*ST2600C30R0*ST280C02C0*ST280C04C0*ST280C06C0*ST280CH02C0*ST280CH04C0*ST280CH06C0*ST280S02P0V*ST280S04P0V*ST280S06P0V*

* CircuitMaker PRO only

51

ST300C02C0*ST300C02L0*ST300C04C0*ST300C04L0*ST300C06C0*ST300C06L0*ST300C08C0*ST300C08L0*ST300C10C0*ST300C10L0*ST300C12C0*ST300C12L0*ST300C14C0*ST300C14L0*ST300C16C0*ST300C16L0*ST300C18C0*ST300C18L0*

ST300C20C0*ST300C20L0*ST300S02P0*ST300S04P0*ST300S06P0*ST300S08P0*ST300S10P0*ST300S12P0*ST300S14P0*ST300S16P0*ST300S18P0*ST300S20P0*ST3230C10R0*ST3230C12R0*ST3230C14R0*ST3230C16R0*ST3230C18R0*ST330C02C0*

ST330C02L0*ST330C04C0*ST330C04L0*ST330C06C0*ST330C06L0*ST330C08C0*ST330C08L0*ST330C10C0*ST330C10L0*ST330C12C0*ST330C12L0*ST330C14C0*ST330C14L0*ST330C16C0*ST330C16L0*ST330S02P0*ST330S04P0*ST330S06P0*

T106C1T106D1T106E1T106F1T106M1T107A1T107B1T107C1T107D1T107E1T107F1T107M1TCR22-2TCR22-3TCR22-4TCR22-6TCR22-8

ST700C16L0*ST700C18L0*ST700C20L0*ST700C22L0*ST730C04L0*ST730C06L0*ST730C08L0*ST730C10L0*ST730C12L0*ST730C14L0*ST730C16L0*ST730C18L0*ST780C02L0*ST780C04L0*ST780C06L0*T106A1T106B1

ST330S08P0*ST330S10P0*ST330S12P0*ST330S14P0*ST330S16P0*ST380C02C0*ST380C04C0*ST380C06C0*ST380CH02C0*ST380CH04C0*ST380CH06C0*ST700C04L0*ST700C06L0*ST700C08L0*ST700C10L0*ST700C12L0*ST700C14L0*

MAC15A6MAC15A8MAC210-10MAC210-4MAC210-6MAC210-8Q2004L3Q2004L4

Q5004L3Q5004L4Q5006L4Q5008L4Q5010L5Q5015L5Q501E3Q501E4

Q4004L4Q4006L4Q4008L4Q4010L5Q4015L5Q401E3Q401E4Q4025R5

Q2006L4Q2008L4Q2010L5Q2015L5Q201E3Q201E4Q2025R5Q4004L3

TriacsTriacsTriacsTriacsTriacs(54 Devices)

Junction Field-Effect TransistorsJunction Field-Effect TransistorsJunction Field-Effect TransistorsJunction Field-Effect TransistorsJunction Field-Effect Transistors(167 Devices)

2N26082N2609*2N3370*2N3458*2N3459*2N3684*2N3685*2N3686*2N3687*2N3821*2N3822*2N3823*2N3824*2N3921*2N3922*2N3954*2N3954A*2N3955*2N3955A*2N3956*2N3957*2N3958*2N3966*2N3967*

2N5516*2N5517*2N5518*2N5519*2N5520*2N5521*2N5522*2N5523*2N5524*2N5545*2N5556*2N5557*2N5558*2N5565*2N5566*2N56402N56682N56692N56702N5902*2N5904*2N5905*2N5906*2N5907*

2N4381*2N4391*2N4392*2N43932N44162N4416A*2N4856*2N4856A*2N4857*2N4857A*2N4858*2N4858A*2N4859*2N4859A*2N4860*2N4860A*2N4861*2N4861A*2N5018*2N5019*2N5020*2N5021*2N5045*2N5046*

2N3970*2N3971*2N3972*2N4084*2N4091*2N4092*2N4093*2N4117*2N4117A*2N4118*2N4118A*2N4119*2N4119A*2N4220*2N4220A*2N4221*2N4221A*2N4222*2N4222A*2N4223*2N4338*2N4339*2N4340*2N4341*

2N5047*2N5078*2N5103*2N5105*2N5114*2N5115*2N5116*2N5196*2N5197*2N5199*2N5358*2N5397*2N5398*2N5432*2N5433*2N5434*2N5452*2N5454*2N54572N54592N54602N54842N54862N5515*

Q7025R5Q8004L4Q8006L5Q8008L5Q8010L5Q8015L5Q8025R5

Q601E4Q6025R5Q7004L4Q7006L5Q7008L5Q7010L5Q7015L5

Q5025R5Q6004L3Q6004L4Q6006L5Q6008L5Q6010L5Q6015L5Q601E3

J410*J411*J412*MPF3821*MPF3822*NDF9406*NDF9407*NDF9409*NDF9410*NJFETPJFETU257*U308*U309*U310*U401*U402*U403*U404*U405*U406*U440*U441*

2N5909*2N5911*2N5912*2N6483*2N6484*2N6485*BF244ABF244BBF244CBF245*BF245A*BF245B*BF245C*BF246A*BF246B*BF247B*BF256B*BF256C*J401*J402*J403*J404*J405*J406*

* CircuitMaker PRO only

52

IGBTsIGBTsIGBTsIGBTsIGBTs(65 Devices)

ECG3300ECG3300*ECG3301*ECG3302*ECG3303*ECG3310*ECG3311*ECG3312*ECG3320*ECG3321*

IRGBC40UIRGBF20FIRGBF30FIRGBH50FIRGIH50F*IRGMC30F*IRGMC30U*IRGMC40F*IRGMC40U*

IRGB440UIRGBC20FIRGBC20SIRGBC20UIRGBC30FIRGBC30SIRGBC30UIRGBC40FIRGBC40S

ECG3322*ECG3323*IRGAC30F*IRGAC30U*IRGAC40F*IRGAC40U*IRGAC50F*IRGAC50U*IRGB420UIRGB430U

MOSFETs (N-Channel)MOSFETs (N-Channel)MOSFETs (N-Channel)MOSFETs (N-Channel)MOSFETs (N-Channel)(682 Devices)

2N37962N37972N4351IRF1010IRF1010SIRF120*IRF121*IRF122*IRF123*IRF130*IRF131*IRF1310IRF1310SIRF132*IRF133*IRF150*IRF151*IRF152*IRF153*IRF1740GLCIRF1840GLCIRF220*IRF221*IRF222*IRF223*IRF230*IRF231*IRF232*IRF233*IRF234*IRF235*IRF236*IRF237*IRF244*IRF245*IRF246*IRF247*IRF320*IRF321*IRF322*IRF323*IRF330*IRF331*IRF332*IRF333*IRF420*IRF421*IRF422*IRF423*IRF430*IRF431*IRF432*IRF433*IRF450*

IRF451*IRF452*IRF453*IRF510IRF510SIRF511*IRF512*IRF513*IRF520IRF520SIRF521*IRF522*IRF523*IRF530IRF530SIRF540IRF540SIRF541*IRF542*IRF543*IRF610IRF610SIRF611*IRF612*IRF613*IRF614IRF614SIRF620IRF620SIRF621*IRF622*IRF623*IRF624IRF624SIRF630IRF630SIRF634IRF634SIRF640IRF640SIRF641*IRF642*IRF643*IRF644IRF644SIRF645*IRF646*IRF647*IRF710IRF7101IRF7102IRF7103IRF710SIRF720

IRGMC50F*IRGMC50U*IRGP420UIRGP430UIRGP440UIRGPC40FIRGPC40SIRGPC40UIRGPC50F

IRFD313*IRFD320IRFD321*IRFD322*IRFD323*IRFD420IRFD620IRFDC10LCIRFF110*IRFF111*IRFF112*IRFF113*IRFF120*IRFF121*IRFF122*IRFF123*IRFF130*IRFF131*IRFF132*IRFF133*IRFF210*IRFF211*IRFF212*IRFF213*IRFF220*IRFF221*IRFF222*IRFF223*IRFF230*IRFF231*IRFF232*IRFF233*IRFF320*IRFF321*IRFF322*IRFF323*IRFF420*IRFF421*IRFF422*IRFF423*IRFF430*IRFF431*IRFF432*IRFF433*IRFI1010GIRFI1310GIRFI510GIRFI520GIRFI530GIRFI540GIRFI614GIRFI620GIRFI624GIRFI630G

IRF7201IRF720SIRF721*IRF722*IRF723*IRF730IRF730SIRF731*IRF732*IRF733*IRF734IRF740IRF740LCIRF740SIRF744IRF820IRF820SIRF821*IRF822*IRF823*IRF830IRF830SIRF840IRF840LCIRF840SIRFAC40*IRFAC42*IRFBC10LCIRFBC20IRFBC30IRFBC40IRFBC40LCIRFBC42*IRFBE20IRFBE30IRFBF20IRFBF30IRFBG20IRFBG30IRFD014IRFD024IRFD110IRFD120IRFD1Z0IRFD210IRFD214IRFD220IRFD221*IRFD222*IRFD223*IRFD224IRFD310IRFD311*IRFD312*

IRFP253*IRFP254IRFP260IRFP264IRFP340IRFP344IRFP350IRFP350LCIRFP351*IRFP352*IRFP353*IRFP354IRFP360IRFP360LCIRFP362*IRFP440IRFP448IRFP450IRFP450LCIRFP451*IRFP452*IRFP453*IRFP460IRFP460LCIRFP462*IRFPC30IRFPC40IRFPC48IRFPC50IRFPC50LCIRFPC60LCIRFPE30IRFPE40IRFPE50IRFPF30IRFPF40IRFPF50IRFPG30IRFPG40IRFPG42*IRFPG50IRFPG60IRFR014IRFR024IRFR110IRFR120IRFR210IRFR214IRFR220IRFR221*IRFR222*IRFR224IRFR310IRFR320

IRFK3D450IRFK3DC50IRFK3F150IRFK3F250IRFK3F350IRFK3F450IRFK3FC50IRFK4H054IRFK4H150IRFK4H250IRFK4H350IRFK4H450IRFK4HC50IRFK4HE50IRFK4J054IRFK4J150IRFK4J250IRFK4J350IRFK4J450IRFK4JC50IRFK4JE50IRFK6H054IRFK6H150IRFK6H250IRFK6H350IRFK6H450IRFK6HC50IRFK6J054IRFK6J150IRFK6J250IRFK6J350IRFK6J450IRFK6JC50IRFL014IRFL110IRFL210IRFL214IRFP044IRFP048IRFP054IRFP064IRFP140IRFP141*IRFP142*IRFP143*IRFP150IRFP240IRFP241*IRFP242*IRFP243*IRFP244IRFP250IRFP251*IRFP252*

IRFI634GIRFI640GIRFI644GIRFI720GIRFI730GIRFI734GIRFI740GIRFI744GIRFI820GIRFI830GIRFI840GIRFIBC20GIRFIBC30GIRFIBC40GIRFIBC40GLCIRFIBE20GIRFIBE30GIRFIBF20GIRFIBF30GIRFIP044IRFIP054IRFIP140IRFIP150IRFIP240IRFIP244IRFIP250IRFIP254IRFIP340IRFIP350IRFIP440IRFIP448IRFIP450IRFIZ14GIRFIZ24GIRFIZ34GIRFIZ44GIRFIZ48GIRFK20350IRFK20450IRFK2D054IRFK2D150IRFK2D250IRFK2DC50IRFK2DE50IRFK2F054IRFK2F150IRFK2F250IRFK2F350IRFK2F450IRFK2FC50IRFK2FE50IRFK3D150IRFK3D250IRFK3D350

IRGPH40MIRGPH50MIRGPH50UIRGVH50F*MGW12N120MGW20N120MGW30N60MGY25N120MGY40N60PIGBT

IRGPC50KIRGPC50MIRGPC50SIRGPC50UIRGPF20FIRGPF30FIRGPF40FIRGPF50FIRGPH40F

* CircuitMaker PRO only

53

IRFR321*IRFR322*IRFR410*IRFR420IRFR421*IRFR422*IRFRC20IRFS1Z0IRFU014IRFU024IRFU110IRFU120IRFU210IRFU214IRFU220IRFU221*IRFU222*IRFU224IRFU310IRFU320IRFU321*IRFU322*IRFU410*IRFU420IRFU421*IRFU422*IRFUC20IRFZ14IRFZ14SIRFZ20IRFZ24IRFZ24SIRFZ34IRFZ34SIRFZ44IRFZ44SIRFZ46IRFZ46SIRFZ48IRFZ48SIRL2203IRL2203SIRL3705IRL510

IRLZ44IRLZ44SMMDF1N05EMMDF2N02EMMDF3N02HDMMDF3N03HDMMDF4N01HDMMFT1N10EMMFT2N02ELMMFT3055VMMFT3055VLMMSF5N02HDMMSF5N03HDMMSF7N03HDMP15N06EMTB10N40EMTB15N06VMTB16N25EMTB1N100EMTB20N20EMTB2N40EMTB2N60EMTB30N06VLMTB33N10EMTB35N06ZLMTB36N06VMTB3N100EMTB3N120EMTB4N80EMTB52N06VMTB52N06VLMTB55N06ZMTB60N06HDMTB6N60EMTB75N03HDLMTB75N05HDMTB8N50EMTB9N25EMTD10N10ELMTD12N06EZLMTD15N06VMTD15N06VLMTD1N50EMTD1N60E

IRL510SIRL520IRL520SIRL530IRL530SIRL540IRL540SIRL620SIRL630SIRL640SIRL9705SIRLD014IRLD024IRLD110IRLD120IRLI2203GIRLI3705GIRLI520GIRLI530GIRLI540GIRLI620GIRLI630GIRLI640GIRLIZ14GIRLIZ24GIRLIZ34GIRLIZ44GIRLL014IRLL110IRLR014IRLR024IRLR110IRLR120IRLS0Z0IRLU014IRLU024IRLU110IRLU120IRLZ14IRLZ14SIRLZ24IRLZ24SIRLZ34IRLZ34S

MOSFETs (P-Channel)MOSFETs (P-Channel)MOSFETs (P-Channel)MOSFETs (P-Channel)MOSFETs (P-Channel)(166 Devices)

IRF7104IRF7202IRF7203IRF7204IRF7205IRF9140*IRF9141*IRF9142*IRF9143*IRF9230*IRF9231*IRF9232*IRF9233*IRF9240*IRF9241*IRF9242*IRF9243*IRF9510IRF9510SIRF9511*IRF9512*IRF9513*IRF9520IRF9520S

IRF9530SIRF9531*IRF9532*IRF9533*IRF9540IRF9540SIRF9541*IRF9542*IRF9543*IRF9610IRF9610SIRF9620IRF9620SIRF9630IRF9630SIRF9640IRF9640SIRF9641*IRF9642*IRF9643*IRF9Z14IRF9Z14SIRF9Z24IRF9Z24S

IRF9Z34IRF9Z34SIRFD9014IRFD9024IRFD9110IRFD9113*IRFD9120IRFD9210IRFD9220IRFI9520GIRFI9530GIRFI9540GIRFI9620GIRFI9630GIRFI9640GIRFI9Z14GIRFI9Z24GIRFI9Z34GIRFIP9140IRFIP9240IRFL9014IRFL9110IRFP9140IRFP9240

IRFP9241*IRFP9242*IRFP9243*IRFR9014IRFR9024IRFR9110IRFR9120IRFR9210IRFR9220IRFU9014IRFU9024IRFU9110*IRFU9110*IRFU9120*IRFU9120*IRFU9210IRFU9220*IRFU9220*MMDF2P01HDMMDF2P02EMMDF2P02HDMMDF2P03HDMMFT2955EMMSF2P02E

RFF70N06*RFG40N10*RFG45N06*RFG50N06*RFG70N06*RFK70N06*RFL1N12*RFL1N15*RFL1N18*RFL1N20*RFL2N05*RFL2N06*RFP14N05*RFP14N06*RFP22N10*RFP25N05*RFP25N06*RFP3055*RFP40N10*RFP42N03*RFP42N03L*RFP45N02L*RFP45N06*RFP50N06*RFP70N03*RFP70N06*SI3442DVSI4420DYSI4450DYSI4480DYSI4946EYSI4980DYSI6331DQSI6434DQSI6802DQSI6925DQSI6926DQSI6954DQSI9426DYSI9802DYSI9804DYSI9925DYSI9926DY

MTY14N100EMTY16N80EMTY20N50EMTY25N60EMTY30N50EMTY55N20ENMOSRF1S22N10*RF1S22N10SM*RF1S25N06*RF1S25N06SM*RF1S40N10*RF1S40N10SM*RF1S42N03*RF1S42N03L*RF1S42N03LSM*RF1S42N03SM*RF1S45N02L*RF1S45N02LSM*RF1S45N06*RF1S45N06SM*RF1S50N06*RF1S50N06SM*RF1S540*RF1S540SM*RF1S640*RF1S640SM*RF1S644*RF1S644SM*RF1S70N03*RF1S70N03SM*RF1S70N06*RF1S70N06SM*RFD14N05*RFD14N05SM*RFD14N06*RFD14N06SM*RFD16N05*RFD16N05SM*RFD16N06*RFD16N06SM*RFD3055*RFD3055SM*

MTP35N06ZLMTP36N06VMTP3N100EMTP3N120EMTP3N50EMTP3N60EMTP4N40EMTP4N50EMTP4N80EMTP52N06VMTP52N06VLMTP55N06ZMTP5N40EMTP60N06HDMTP6N60EMTP75N03HDLMTP75N05HDMTP75N06HDMTP7N20EMTP8N50EMTP9N25EMTSF3N02HDMTSF3N03HDMTV10N100EMTV16N50EMTV20N50EMTV25N50EMTV32N20EMTV32N25EMTV6N100EMTW10N100EMTW14N50EMTW16N40EMTW20N50EMTW24N40EMTW32N20EMTW32N25EMTW35N15EMTW45N10EMTW6N100EMTW7N80EMTW8N60EMTY100N10E

MTD1N80EMTD20N03HDLMTD20N06HDMTD20N06HDLMTD20N06VMTD2N40EMTD2N50EMTD3055VMTD3055VLMTD3N25EMTD4N20EMTD5N25EMTD6N10EMTD6N15MTD6N20EMTD9N10EMTDF1N02HDMTDF1N03HDMTE125N20EMTE215N10EMTE30N50EMTE53N50EMTP10N10EMTP10N10ELMTP10N40EMTP12N10EMTP15N06VMTP15N06VLMTP16N25EMTP1N100EMTP1N50EMTP1N60EMTP1N80EMTP20N06VMTP20N20EMTP27N10EMTP2N40EMTP2N50EMTP2N60EMTP3055VMTP3055VLMTP30N06VLMTP33N10E

MMSF3P02HDMMSF3P03HDMMSF4P01HDMTB23P06VMTB2P50EMTB30P06VMTB50P03HDLMTD1P50EMTD20P03HDLMTD20P06HDLMTD2955VMTD5P06VMTD6P10EMTP12P10MTP23P06VMTP2955VMTP2P50EMTP30P06VMTP50P03HDLMTP5P06VMTP6P20EMTSF1P02HDMTSF2P02HDPMOS

RF1S30P05*RF1S30P05SM*RF1S30P06*RF1S30P06SM*RF1S60P03*RF1S60P03SM*RF1S9530*RF1S9530SM*RF1S9540*RF1S9540SM*RF1S9640*RF1S9640SM*RFD15P05*RFD15P05SM*RFD15P06*RFD15P06SM*RFD8P06E*RFD8P06ESM*RFD8P06LE*RFD8P06LESM*RFF60P06*RFG30P05*RFG30P06*

RFG60P03*RFG60P05E*RFG60P06E*RFP15P05*RFP15P06*RFP30P05*RFP30P06*RFP60P03*RFP8P06E*RFP8P06LE*RFT1P06E*SI3455DVSI3457DVSI4425DYSI4925DYSI4948EYSI6332DQSI6415DQSI6459DQSI6933DQSI9424DYSI9803DYSI9934DY

* CircuitMaker PRO only

54

LF347LF351LF353LF411CLF412CLM2902LM307

TL081TL082TL083TL084TL085TL087

TL070TL071TL072TL074TL075TL080

TL052TL054TL060TL061TL062TL064TL066

OPAMP5TL022CTL031TL032TL034TL044CTL051

LM324LM348LM358LM3900MC1458MC3403NE5534

Operational AmplifiersOperational AmplifiersOperational AmplifiersOperational AmplifiersOperational Amplifiers(46 Devices)

TL088TL321TL322UA741UA747UA748

LM111 SWCOMPLM339LP211LP111

Voltage ComparatorsVoltage ComparatorsVoltage ComparatorsVoltage ComparatorsVoltage Comparators(5 Devices)

1.000MHZ1.8432MHZ10.000MHZ11.000MHZ12.000MHZ15.000MHZ16.000MHZ2.000MHZ2.4576MHZ20.000MHZ24.000MHZ3.000MHZ3.2768MHZ3.5795MHZ3.6864MHZ4.000MHZ5.000MHZ6.000MHZ

CrystalsCrystalsCrystalsCrystalsCrystals(103 Devices)

ECS-200-20-1ECS-200-20-4ECS-200-20-7ECS-20-20-1ECS-20-20-2ECS-21-32-2ECS-240-16-4ECS-240-16-7ECS-240-20-1ECS-240-20-4ECS-240-20-7ECS-24-32-1ECS-24-32-2ECS25.6322PECS-29.4322PECS-30-32-2ECS-32-17-1

6.144MHZ8.000MHZECS.3271213ECS.327814ECS-10-13-1ECS-10-13-2ECS-10-8-14ECS110.5201ECS110.5204ECS110.5207ECS-120-32-1ECS129.6184ECS-153-20-4ECS162.5204ECS-18-13-1ECS-18-13-2ECS196.6201

ECS-35-17-1ECS-35-17-4ECS-35-17-7ECS-35-2ECS36.4322PECS-36-18-1ECS-36-18-4ECS-36-20-7ECS-37-32-2PECS38.59202ECS-39-17-1ECS-3X8ECS40.3201ECS-40-20-1ECS-40-20-4ECS-40-20-7ECS-41-20-1

12AU7 7199P6SN76L6GC587912AX7

Vacuum TubesVacuum TubesVacuum TubesVacuum TubesVacuum Tubes(7 Devices)

7199T

10to110to1CT

5to12to1CT1to52to1

1to1CT1to2

1to11to10

TransformersTransformersTransformersTransformersTransformers(11 Devices)

Math FunctionsMath FunctionsMath FunctionsMath FunctionsMath Functions(63 Devices)

ABSIABSVABSVRACOSHIACOSHVACOSHVRACOSIACOSVACOSVR

LNILNVLNVRLOGILOGVLOGVRMULTIMULTVMULTVR

COSICOSVCOSVRDIVIDIVVDIVVREXPIEXPVEXPVR

ATANHIATANHVATANHVRATANIATANVATANVRCOSHICOSHVCOSHVR

ADDIADDVADDVRASINHIASINHVASINHVRASINIASINVASINVR

ECS-60-32-1ECS-60-32-4ECS-61-32-1ECS-61-32-4ECS-61-32-7ECS-65-12-1ECS-65-20-4ECS-73-20-1ECS-73-20-4ECS76.8201ECS-80-20-1ECS98.3201ECS98.3207R145-32.768R26-32.768R38-32.768RSM200S32.76

ECS-42-12-1ECS-42-12-4ECS-44-20-1ECS-44-20-4ECS-44-20-7ECS-44-32-2PECS-49-20-1ECS-49-20-4ECS-49-20-7ECS498.6201ECS-50-20-1ECS-50-20-4ECS-51-20-1ECS-51-20-4ECS-52-32-1ECS-52-32-4ECS59.9201

5to1CT

SUBISUBVSUBVRTANITANVTANVRUNARYIUNARYVUNARYVR

SINHISINHVSINHVRSINISINVSINVRSQRTISQRTVSQRTVR

55

120VCOIL NORMAL5VCOIL24VCOIL12VCOIL

Relay Coils/ContactsRelay Coils/ContactsRelay Coils/ContactsRelay Coils/ContactsRelay Coils/Contacts(5 Devices)

10to110to1CT

5to12to1CT1to52to1

1to1CT1to2

1to11to10

Misc. Analog DevicesMisc. Analog DevicesMisc. Analog DevicesMisc. Analog DevicesMisc. Analog Devices(17 Devices)

7400-series TTL7400-series TTL7400-series TTL7400-series TTL7400-series TTL(9 Devices)

74067407

741477445743974257428

74148 74199

FASTFASTFASTFASTFAST(92 Devices)

74F0074F0274F0474F0674F0774F0874F1074F1174F1374F1474F2074F2774F3074F32

74F17474F17574F18174F18274F19074F19174F19274F19374F19474F19574F19974F24074F241

74F15774F157A74F15874F158A74F16074F16174F16274F16374F16474F16674F16874F16974F173

74F125x474F12674F126x474F13274F13374F13874F13974F139x274F14874F15174F151A74F15374F154

74F3774F4074F7474F8374F8574F8674F10974F109x274F11274F112x274F11374F113x274F125

Low-power Schottky TTLLow-power Schottky TTLLow-power Schottky TTLLow-power Schottky TTLLow-power Schottky TTL(128 Devices)

74LS0074LS0174LS0274LS0474LS0574LS0874LS0974LS1074LS1174LS1274LS1374LS1474LS1574LS2074LS2174LS2274LS2574LS2674LS27

74LS16574LS16674LS16874LS16974LS17374LS17474LS17574LS18174LS19074LS19174LS19274LS19374LS19474LS19574LS19774LS19974LS24074LS241

74LS13674LS13874LS13974LS139x274LS14774LS14874LS15174LS15374LS15474LS15574LS15674LS15774LS15874LS16074LS16174LS16274LS16374LS164

74LS83A74LS8574LS8674LS9074LS9274LS9374LS9574LS9674LS109A74LS109Ax274LS11274LS112x274LS11374LS113x274LS113A74LS12574LS126x474LS132

74LS3074LS3274LS3374LS3774LS3874LS4074LS4274LS4774LS4874LS4974LS7374LS73A74LS73x274LS7474LS74x274LS7574LS7674LS76A74LS76x2

74S133 74S28074S182

Schottky TTLSchottky TTLSchottky TTLSchottky TTLSchottky TTL(3 Devices)

74F27374F280A74F280B74F28374F29874F35274F35374F37374F37474F37774F37874F56874F569

74F24274F24374F24474F24574F25174F251A74F25374F25674F25774F257A74F25874F258A74F259

74LS24274LS24374LS24474LS24574LS24774LS24874LS24974LS25174LS25374LS25674LS25774LS25874LS25974LS26074LS26674LS27374LS28074LS283

74LS29874LS35274LS35374LS37374LS37474LS37574LS37774LS37874LS56874LS569buffer3sbuffa3slssrfflsqdfflsdfflsram1klsprom32quad3sta

5to1CT

56

400040014002400640084011401240134014

4000-series CMOS4000-series CMOS4000-series CMOS4000-series CMOS4000-series CMOS(72 Devices)

401540174018401940204021402240234024

402540274028402940304031403540404041

404240434044404940504068406940704071

407240734075407640774078408140824085

408640934094450245054508451045114512

45144515451645174518451945204520x24522

452645314532453945434555455645854731

57

CLC109CLC111CLC400CLC402

ComlinearComlinearComlinearComlinearComlinear(26 Devices)

CLC404CLC405CLC406CLC407

CLC409CLC410CLC412

CLC414CLC415CLC420

CLC425CLC426CLC428

CLC430CLC432CLC440

CLC449CLC501CLC502

CLC505CLC522CLC532

EL2020/ELEL2028/ELEL2029/ELEL2030/ELEL2038/ELEL2039/ELEL2040/EL

�lantec�lantec�lantec�lantec�lantec(47 Devices)

EL2041/ELEL2044/ELEL2045/ELEL2070/ELEL2071/ELEL2073/ELEL2074/EL

EL2176/ELEL2180/ELEL2186/ELEL2190/ELEL2210/ELEL2211/ELEL2223/EL

EL2075/ELEL2099/ELEL2120/ELEL2160/ELEL2166/ELEL2170/ELEL2175/EL

HA2500HA2502HA2510HA2512HA2520HA2522

Harris SemiconductorHarris SemiconductorHarris SemiconductorHarris SemiconductorHarris Semiconductor(39 Devices)

HA2539HA2540HA2541HA2542HA2544HA2548

HA2841HA2842HA2850HA5004HA5020HA5101

HA2600HA2602HA2620HA2622HA2839HA2840

HA5102HA5104HA5112HA5114HA5127

HA5137HA5147HA5190HA5221HA5222

HFA3046HFA3096HFA3127HFA3128IRF9530

LF155LF155ALF156LF156ALF355LF355ALF356LF356ALF412LF412ALH2108LH2108ALM10CLM101ALM107LM108LM108ALM118LM301ALM308

Linear TechnologyLinear TechnologyLinear TechnologyLinear TechnologyLinear Technology(168 Devices)

LM308ALM318LM318S8LT118ALT318ALT1001LT1002LT1001S8LT1001ALT1002ALT1006LT1006ALT1006S8LT1007LT1007CSLT1007ALT1008LT1012LT1012ALT1012D

LT1056LT1056ALT1056S8LT1057LT1057ALT1057SLT1058LT1058ALT1077LT1078LT1078ALT1079LT1079ALT1097LT1115LT1122LT1178LT1178ALT1179LT1179A

LT1012S8LT1013LT1013ALT1013DLT1014LT1014ALT1014DLT1022LT1022ALT1024LT1024ALT1028LT1028ALT1028CSLT1037LT1037ALT1037CSLT1055LT1055ALT1055S8

LT1190LT1191LT1192LT1195LT1200LT1201LT1202LT1208LT1209LT1217LT1220LT1221LT1223LT1224LT1225LT1226LT1227LT1229LT1230LT1252

Vendor Supplied SPICE ModelsVendor Supplied SPICE ModelsVendor Supplied SPICE ModelsVendor Supplied SPICE ModelsVendor Supplied SPICE Models

The SPICE models listed on the following pages are for use inCircuitMaker's Analog simulation mode. The models in this section wereoriginally supplied by various hardware vendors. In some cases, themodels have been modified slightly to conform to the standard BerkeleySPICE format.

EL2460/ELEL2539/ELEL2540/ELEL400/ELEL4393/ELEL5190/EL

EL2360/ELEL2386/ELEL2423/ELEL2424/ELEL2444/ELEL2445/EL

EL2224/ELEL2232/ELEL2242/ELEL2243/ELEL2244/ELEL2245/ELEL2260/EL

LT1253LT1254LT1259LT1260LT1354LT1355LT1356LT1357LT1358LT1359LT1360LT1361LT1362LT1363LT1364LT1365LTC1047LTC1049LTC1050LTC1050A

LTC1051LTC1052LTC1052CSLTC1053LTC1150LTC7652OP05OP05AOP05COP05EOP07OP07AOP07COP07CS8OP07EOP15AOP15BOP15COP15EOP15F

58

OP15GOP16AOP16BOP16C

OP27COP27EOP27GOP37A

OP16EOP16FOP16GOP27A

OP37COP37EOP37GOP97

OP215AOP215COP215E

OP237COP237EOP237G

OP227EOP227GOP237A

OP215GOP227AOP227C

MAX406AcMAX406BcMAX406AdMAX406BdMAX407MAX409AMAX409BMAX417MAX418MAX419MAX410MAX410B

MaximMaximMaximMaximMaxim(92 Devices)

MAX412MAX412BMAX414MAX414BMAX4100MAX4101MAX4106MAX4107MAX4108MAX4109MAX4112MAX4113

MAX4212MAX4216MAX4220MAX4223MAX4224MAX4225MAX4226MAX4227MAX4228MAX4278MAX427

MAX4259MAX4162MAX4163MAX4164MAX4165MAX4167MAX4169MAX4178MAX4182MAX4184MAX4186MAX4187

MAX4122MAX4126MAX4129MAX4124MAX4128MAX4130MAX4132MAX4134MAX4144MAX4158MAX4159MAX4258

MAX437MAX4330MAX4332MAX4334MAX473MAX474MAX475MAX477MAX47815MAX4785MAX4783

BFS17LF441LF442LF444LM11LM833LM2904

MotorolaMotorolaMotorolaMotorolaMotorola(49 Devices)

MC33182MC33184MC33204MC33272MC33274MC33282

MC1536MC1747MC3458MC4558MC4741MC33071

MC33072MC33074MC33076MC33077MC33078MC33079

MC33171MC33172MC33174MC33178MC33179MC33181

MC33284MC34001MC34084MC34184MMBR521MMBR571

MMBR901MMBR931MMBR941MMBR951MRF5711MRF5812

National SemiconductorNational SemiconductorNational SemiconductorNational SemiconductorNational Semiconductor(182 Devices)

2N3904/NS2N3906/NS2N5086/NS2N5088/NS2N5401/NS2N5551/NSBSR14/NSBSR15/NSBSR17A/NSBSR18A/NSBSS63/NSBSS64/NSBSV52/NSLF155/NSLF156/NSLF157/NSLF255/NSLF256/NSLF257/NSLF351/NSLF353/NSLF355/NSLF356/NSLF357/NSLF411/NSLF412/NSLF441A/NSLF441B/NSLF442A/NSLF442B/NSLF444A/NS

MAX908MAX922MAX924MAX934MAX941MAX942MAX944MAX975LPMAX975HSMAX977LPMAX977HS

MAX47915MAX4795MAX4793MAX492MAX494MAX495MAX496MAX497MAX498MAX499MAX907

MRF9011MRF9331MRF9411MRF947MRF9511TCA0372

MMBT5401/NSMMBT5551/NSMMBTA06/NSMMBTA42/NSMMBTA56/NSMMBTA92/NSMMBTH10/NSMMPQ2222/NSMMPQ2369A/NSMMPQ2907/NSMMPQ3904/NSMMPQ3906/NSMPS5179/NSMPSA06/NSMPSA42/NSMPSA56/NSMPSA92/NSMPSH10/NSPN2222A/NSPN2369A/NSPN2907A/NSPN4258/NSPZT2222A/NSPZT2907A/NSPZT3904/NSPZT3906/NSPZTA06/NSPZTA42/NSPZTA56/NSPZTA92/NS

LMC660B/NSLMC662/NSLMC662A/NSLMC6762A/NSLMC6762B/NSLMC6772A/NSLMC6772B/NSLMC7101A/NSLMC7101B/NSLMC7111A/NSLMC7111B/NSLMC7211A/NSLMC7211B/NSLMC7221A/NSLMC7221B/NSLPC660A/NSLPC660B/NSLPC661A/NSLPC661B/NSLPC662A/NSLPC662B/NSMMBT2222A/NSMMBT2369A/NSMMBT2907A/NSMMBT3904/NSMMBT3906/NSMMBT4258/NSMMBT5086/NSMMBT5088/NSMMBT5179/NS

LM6262/NSLM6264/NSLM6265/NSLM6317/NSLM6361/NSLM6362/NSLM6364/NSLM6365/NSLM7121/NSLM7131A/NSLM7131B/NSLM7171A/NSLM7171B/NSLM7301/NSLM741/NSLMC6001A/NSLMC6001B/NSLMC6022/NSLMC6024/NSLMC6032/NSLMC6034/NSLMC6035/NSLMC6036/NSLMC6041A/NSLMC6041B/NSLMC6042A/NSLMC6042B/NSLMC6044A/NSLMC6044B/NSLMC6061A/NS

LF444B/NSLF451/NSLF453/NSLM111/NSLM118/NSLM124/NSLM158/NSLM218/NSLM224/NSLM258/NSLM2902/NSLM2904/NSLM318/NSLM324/NSLM358/NSLM6118/NSLM6132A/NSLM6132B/NSLM6142A/NSLM6142B/NSLM6152A/NSLM6152B/NSLM6161/NSLM6162/NSLM6164/NSLM6165/NSLM6171A/NSLM6171B/NSLM6172/NSLM6181/NSLM6218/NS

LMC6061B/NSLMC6062A/NSLMC6062B/NSLMC6064A/NSLMC6064B/NSLMC6081A/NSLMC6081B/NSLMC6082A/NSLMC6082B/NSLMC6084A/NSLMC6084B/NSLMC6462A/NSLMC6462B/NSLMC6464A/NSLMC6464B/NSLMC6482A/NSLMC6484A/NSLMC6492A/NSLMC6492B/NSLMC6494A/NSLMC6494B/NSLMC6572A/NSLMC6572B/NSLMC6574A/NSLMC6574B/NSLMC6582A/NSLMC6582B/NSLMC6584A/NSLMC6584B/NSLMC660A/NS

1007F1008F1020F1021

PolyfetPolyfetPolyfetPolyfetPolyfet(27 Devices)

F2012F2021F2201S

F1022F1027F1072F1074

F1120F1174F1214F1240

F1260F2001F2002

F2202SL88008L88012

L88016L88081L88082

L88083P121P123

Si3441DVSi3454DVSi4410DYSi4412DY

SiliconixSiliconixSiliconixSiliconixSiliconix(26 Devices)

Si4431DYSi4435DYSi4936DYSi4947DY

Si4953DYSi6426DQSi6433DQSi6435DQ

LP239LP2901

Texas InstrumentsTexas InstrumentsTexas InstrumentsTexas InstrumentsTexas Instruments(16 Devices)

TLC3704TLC372

LP311LP339

TLC339TLC352

TLC354TLC3702

ZetexZetexZetexZetexZetex(169 Devices)

2N67152N67272SA12132SC2873BAL74BAL99BAR74BAR99BAS16BAS19BAS20BAS21BC107BPBC108BPBC109BPBC177APBC178APBC182BPBC183BPBC184BPBC212APBC213APBC237BPBC238BPBC239BP

BC307APBC308APBC337APBC338APBC413BPBC414BPBC415APBC416APBC546BPBC547BPBC548BPBC549BPBC550BPBC556APBC557APBC558APBC559APBC560APBC846BBC847BBC848BBC849BBC850BBC856A

BC857ABC858ABC859ABC860ABCV72BCW29BCW32BCW60CBCW61ABCW65ABCW66FBCW67ABCW68FBCW69BCW72BCW89BCX38BBCX70JBCX71GBFQ31BFS60FCX458FCX558FCX649

FZT758FZT788AFZT788BFZT789AFZT790AFZT792AHD3AMPSA20ZTX107ZTX107BZTX108ZTX108BZTX109ZTX109BZTX212ZTX212AZTX213ZTX214ZTX214AZTX231AZTX237ZTX237BZTX238ZTX238B

ZTX239ZTX239BZTX320ZTX321ZTX337AZTX338AZTX450ZTX454ZTX455ZTX458ZTX550ZTX558ZTX604ZTX605ZTX649ZTX650ZTX651ZTX657ZTX658ZTX688BZTX689BZTX690BZTX692BZTX694B

FCX749FMMD6050FMMD914FMMT38BFMMT597FMMT918FMMTA20FMMTA70FZT604FZT605FZT649FZT651FZT657FZT658FZT688BFZT689BFZT690BFZT692BFZT694BFZT696BFZT705FZT749FZT751FZT757

SUP65P06-20SUP70N06-14SUP75N06-08

Si9936DYSi9947DYSUP60N06-18

Si6955DQSi6956DQSi9434DYSi9933DY

Si6447DQSi6943DQSi6946DQSi6953DQ

TLV2354I3TLV2354I5

TLV2352I3TLV2352I5

TLC374TLC393

ZTX696BZTX704ZTX705ZTX749ZTX750ZTX751ZTX757ZTX758ZTX788AZTX788BZTX789AZTX790AZTX792AZTX795AZTX796AZTX948ZTX949ZTX951ZTX953ZTX955ZTX956ZTX957ZTX958ZTX968

59