WOLFRAM SYSTEM MODELER

Ideal

Ideal electrical elements such as switches, diode, transformer, operational amplifier

Package Contents

IdealDiode

Ideal diode

IdealThyristor

Ideal thyristor

IdealGTOThyristor

Ideal GTO thyristor

IdealTwoWaySwitch

Ideal two-way switch

IdealIntermediateSwitch

Ideal intermediate switch

ControlledIdealTwoWaySwitch

Controlled ideal two-way switch

ControlledIdealIntermediateSwitch

Controlled ideal intermediate switch

IdealOpAmp

Ideal operational amplifier (norator-nullator pair)

IdealOpAmp3Pin

Ideal operational amplifier (norator-nullator pair), but 3 pins

IdealOpAmpLimited

Ideal operational amplifier with limitation

IdealizedOpAmpLimited

Idealized operational amplifier with limitation

IdealTransformer

Ideal transformer core with or without magnetization

Idle

Idle branch

Short

Short cut branch

IdealOpeningSwitch

Ideal electrical opener

IdealClosingSwitch

Ideal electrical closer

ControlledIdealOpeningSwitch

Controlled ideal electrical opener

ControlledIdealClosingSwitch

Controlled ideal electrical closer

OpenerWithArc

Ideal opening switch with simple arc model

CloserWithArc

Ideal closing switch with simple arc model

ControlledOpenerWithArc

Controlled ideal electrical opener with simple arc model

ControlledCloserWithArc

Controlled ideal electrical closer with simple arc model

IdealTriac

Ideal triac, based on ideal thyristors

AD_Converter

Simple n-bit analog to digital converter

DA_Converter

Simple digital to analog converter

Information

This information is part of the Modelica Standard Library maintained by the Modelica Association.

This package contains electrical components with idealized behaviour. To enable more realistic applications than it is possible with pure realistic behavior some components are improved by additional features. E.g. the switches have resistances for the open or close case which can be parametrized.

Wolfram Language

In[1]:=
SystemModel["Modelica.Electrical.Analog.Ideal"]
Out[1]:=

Revisions

Main Authors:
Christoph Clauß <christoph@clauss-it.com>
André Schneider <Andre.Schneider@eas.iis.fraunhofer.de>
Fraunhofer Institute for Integrated Circuits
Design Automation Department
Zeunerstraße 38
D-01069 Dresden

Copyright © 1998-2020, Modelica Association and contributors