.Modelica.Electrical.Analog.Sources

Time-dependent and controlled voltage and current sources

Information

This package contains time-dependent and controlled voltage and current sources. Most of the sources use the behavior modeled in the Modelica.Blocks.Sources package. All sources are ideal in the sense that no internal resistances are included.

Contents

NameDescription
SignalVoltageGeneric voltage source using the input signal as source voltage
ConstantVoltageSource for constant voltage
StepVoltageStep voltage source
RampVoltageRamp voltage source
SineVoltageSine voltage source
CosineVoltageCosine voltage source
SineVoltageVariableFrequencyAndAmplitudeSine voltage source with variable frequency and amplitude
CosineVoltageVariableFrequencyAndAmplitudeCosine voltage source with variable frequency and amplitude
ExpSineVoltageExponentially damped sine voltage source
ExponentialsVoltageRising and falling exponential voltage source
PulseVoltagePulse voltage source
SawToothVoltageSaw tooth voltage source
TrapezoidVoltageTrapezoidal voltage source
LightningImpulseVoltageLightning impulse voltage
TableVoltageVoltage source by linear interpolation in a table
SupplyVoltageSupply voltage (positive and negative)
SignalCurrentGeneric current source using the input signal as source current
ConstantCurrentSource for constant current
StepCurrentStep current source
RampCurrentRamp current source
SineCurrentSine current source
CosineCurrentCosine current source
SineCurrentVariableFrequencyAndAmplitudeSine current source with variable frequency and amplitude
CosineCurrentVariableFrequencyAndAmplitudeCosine current source with variable frequency and amplitude
ExpSineCurrentExponentially damped sine current source
ExponentialsCurrentRising and falling exponential current source
PulseCurrentPulse current source
SawToothCurrentSaw tooth current source
TrapezoidCurrentTrapezoidal current source
LightningImpulseCurrentLightning impulse current
TableCurrentCurrent source by linear interpolation in a table
LightningImpulseLightning impulse voltage or current trajectory
DCPowerSupplySimple model of a DC power supply cv - cp - cc

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 © 1998-2025, Modelica Association and contributors

Generated at 2025-11-27T19:14:02Z by OpenModelicaOpenModelica 1.25.7 using GenerateDoc.mos