Version_3_2_3

Version 3.2.3 (January 23, 2019)

Information

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

Version 3.2.3 is backward compatible to version 3.2.2, that is models developed with versions 3.0, 3.0.1, 3.1, 3.2, 3.2.1 or 3.2.2 will work without any changes also with version 3.2.3. This version is a "clean-up" with major emphasis on quality improvement and tool compatibility. The goal is that all Modelica tools will support this package and will interpret it in the same way. Short Overview:

  • This version of the Modelica package is fully compatible to Modelica Specification 3.2 revision 2.
     
  • About 570 issues (including pull requests) have been addressed for this release.

The exact difference between package Modelica version 3.2.3 and version 3.2.2 is summarized in a comparison table.


The following new libraries have been added:

Modelica.Magnetic.QuasiStatic.FluxTubes This library provides models for the investigation of quasi static electromagnetic devices with lumped magnetic networks in a comparable way as Modelica.Magnetic.FluxTubes.
(This library was developed by Christian Kral).
Modelica.Electrical.Machines.Examples.ControlledDCDrives This library demonstrates the control of a permanent magnet dc machine: current control, speed control and position control along with the necessary components in sublibrary Utilities.
(This library was developed by Anton Haumer).


The following new components have been added to existing libraries:

Modelica.Blocks.Interfaces.Adaptors
FlowToPotentialAdaptor
PotentialToFlowAdaptor
Partial adaptors for generation of FMUs, optionally taking first and second derivative into account, for consistent components in various domains.
Modelica.Blocks.Math
Power Computes the power of the input signal.
WrapAngle Wraps the angle signal at the input to the interval ]-π, π] or [0, 2π[.
Pythagoras This block determines the hypotenuse from the legs or one leg from the hypotenuse and the other leg.
TotalHarmonicDistortion This block calculates THD of the signal at the input.
RealFFT This block samples the input and calculates the FFT, writing the result to a mat file when the simulation terminates.
Modelica.Blocks.Routing
Multiplex Multiplexer block for arbitrary number of input signals
DeMultiplex Demultiplexer block for arbitrary number of output signals
Modelica.Blocks.Tables
CombiTable2Dv Variant of CombiTable2D (table look-up in two dimensions) with vector inputs and vector output
Modelica.ComplexBlocks.Routing
Replicator
ExtractSignal
Extractor
ComplexPassThrough
Complex implementations analogous to the real implementations.
Modelica.ComplexBlocks.ComplexMath
Bode Determine variables of a Bode diagram.
Modelica.ComplexBlocks.Sources
RampPhasor A source of a phasor with constant angle and ramped amplitude.
Modelica.Electrical.Analog.Basic
GeneralCurrentToVoltageAdaptor
GeneralVoltageToCurrentAdaptor
Adaptors for the generation of FMUs, optionally taking first and second derivative into account.
Modelica.Electrical.Analog.Sensors
MultiSensor Measures voltage, current and power simultaneously.
Modelica.Electrical.MultiPhase.Sensors
MultiSensor Measures voltage, current and active power for each phase as well as total power simultaneously.
AronSensor Measures active power for a threephase system by two singlephase power sensors in an Aron circuit.
ReactivePowerSensor Measures reactive power for a threephase system.
Modelica.Electrical.Machines.Examples
SMEE_DOL Electrically excited synchronous machine, starting direct on line via the damper cage, synchronised by increasing excitation voltage.
SMR_DOL Synchronous reluctance machine, starting direct on line via the damper cage, synchronised when reaching synchronous speed.
Modelica.Electrical.Machines.Sensors
HallSensor Simple model of a hall sensor, measuring the angle aligned with the orientation of phase 1.
Modelica.Electrical.PowerConverters.DCAC.Control
PWM
SVPWM
IntersectivePWM
Standard three-phase pwm algorithms: space vector and intersective.
Modelica.Electrical.PowerConverters.DCDC
ChopperStepUp Step up chopper (boost converter) model.
Modelica.Electrical.QuasiStationary.SinglePhase.Sensors
MultiSensor Measures voltage, current and apparent power simultaneously.
Modelica.Electrical.QuasiStationary.MultiPhase.Sensors
MultiSensor Measures voltage, current and apparent power for m phases as well as total apparent power simultaneously.
AronSensor Measures active power for a threephase system by two singlephase power sensors in an Aron circuit.
ReactivePowerSensor Measures reactive power for a threephase system.
Modelica.Electrical.QuasiStationary.{SinglePhase, MultiPhase}.Sources
FrequencySweepVoltageSource
FrquencySweepCurrentSource
Voltage source and current source with integrated frequency sweep.
Modelica.Mechanics.MultiBody
Visualizers.Rectangle A planar rectangular surface.
Modelica.Mechanics.Rotational.Components
GeneralAngleToTorqueAdaptor
GeneralTorqueToAngleAdaptor
Adaptors for the generation of FMUs, optionally taking first and second derivative into account.
Note: These adaptors give the same results as:
AngleToTorqueAdaptor
TorqueToAngleAdaptor
but extend from Modelica.Blocks.Interfaces.Adaptors like adaptors in other domains.
Modelica.Mechanics.Rotational.Sources
EddyCurrentTorque Rotational eddy current brake.
Modelica.Mechanics.Translational.Components
GeneralForceToPositionAdaptor
GeneralPositionToForceAdaptor
Adaptors for the generation of FMUs, optionally taking first and second derivative into account.
Modelica.Mechanics.Translational.Sources
EddyCurrentForce Translational eddy current brake.
Modelica.Magnetic.FundamentalWave.Examples
A lot of new test examples for fundamental wave machines.
Modelica.Magnetic.QuasiStatic.FundamentalWave.Sensors
RotorDisplacementAngle Measures the rotor displacement angle of a quasi-static machine.
Modelica.Thermal.HeatTransfer.Components
GeneralHeatFlowToTemperatureAdaptor
GeneralTemperatureToHeatFlowAdaptor
Adaptors for the generation of FMUs, optionally taking first derivative into account.
Modelica.Thermal.FluidHeatFlow.Examples
WaterPump
TestOpenTank
TwoTanks
TestCylinder
New examples testing and demonstrating the new resp. enhanced components.
Modelica.Thermal.FluidHeatFlow.Components
Pipe A pipe model with optional heatPort which replaces the isolatedPipe and the heatedPipe.
OpenTank A simple model of an open tank.
Cylinder A simple model of a piston/cylinder with translational flange.
OneWayValve A simple one way valve model (comparable to an electrical ideal diode)
Modelica.Thermal.FluidHeatFlow.Media
Water_10degC
Water_90degC
Glycol20_20degC
Glycol50_20degC
MineralOil
Several new records defining media properties.
Modelica.Thermal.FluidHeatFlow.Interfaces.Partials
SinglePortLeft Replaces the (now obsolete) partial model Ambient and is also used for Sources.AbsolutePressure.
SinglePortBottom Same as SinglePortLeft but with the flowPort at the bottom; used for the new Components.OpenTank model.
Modelica.Constants
q The elementary charge of an electron.
Modelica.Icons
FunctionsPackage This icon indicates a package that contains functions.
RecordPackage This icon indicates a package that contains records.


The following existing components have been marked as obsolete and will be removed in a future release:

Modelica.Blocks.Interfaces.Adaptors
SendReal
SendBoolean
SendInteger
ReceiveReal
ReceiveBoolean
ReceiveInteger
Use expandable connectors instead.
Modelica.StateGraph.Temporary
SetRealParameter Use parameter Real instead.
anyTrue Use Modelica.Math.BooleanVectors.anyTrue instead.
allTrue Use Modelica.Math.BooleanVectors.allTrue instead instead.
RadioButton Use future model from Modelica.Blocks.Interaction instead.
NumericValue Use Modelica.Blocks.Interaction.Show.RealValue instead.
IndicatorLamp Use Modelica.Blocks.Interaction.Show.BooleanValue instead.
Modelica.Electrical.Digital.Converters
LogicToXO1
LogicToXO1Z
Use LogicToX01 or LogicToX01Z instead.
Modelica.Electrical.Machines
BasicMachines.Components.BasicTransformer Use Interfaces.PartialBasicTransformer instead.
Modelica.Electrical.Spice3.Internal
BJT Use BJT2 instead.
Bjt3.* Use revised classes instead.
Modelica.Mechanics.MultiBody
Examples.Loops.Utilities.GasForce Use Examples.Loops.Utilities.GasForce2 instead.
Sensors.TansformAbsoluteVector
Sensors.TansformRelativeVector
Use Sensors.TransformAbsoluteVector or Sensors.TransformRelativeVector instead.
Visualizers.Ground Use ground plane visualization of World or Visualizers.Rectangle instead.
Modelica.Fluid.Icons
VariantLibrary
BaseClassLibrary
Use icons from Modelica.Icons instead.
Modelica.Media.Examples
Tests.Components.* Use classes from Utilities instead.
TestOnly.*
Tests.MediaTestModels.*
Use test models from ModelicaTest.Media instead.
Modelica.Thermal.FluidHeatFlow
Components.IsolatedPipe
Components.HeatedPipe
Extend from the new pipe model with optional heatPort.
Interfaces.Partials.Ambient Extends from SinglePortLeft.
Modelica.Math
baseIcon1
baseIcon2
Use icons from Modelica.Math.Icons instead.
Modelica.Icons
Library
Library2
GearIcon
MotorIcon
Info
Use (substitute) icons from Modelica.Icons, Modelica.Mechanics.Rotational.Icons or Modelica.Electrical.Machines.Icons instead.
Modelica.SIunits.Conversions.NonSIunits
FirstOrderTemperaturCoefficient
SecondOrderTemperaturCoefficient
Use Modelica.SIunits.LinearTemperatureCoefficientResistance or Modelica.SIunits.QuadraticTemperatureCoefficientResistance instead.


The following existing components have been improved in a backward compatible way:

Modelica.Blocks.Continuous
Integrator
LimIntegrator
Added optional reset and set value inputs.
LimPID Added an optional feed-forward input.
Modelica.Blocks.Sources
CombiTimeTable The time events were not considered at the interval boundaries in case of linear interpolation and non-replicated sample points. This has been generalized by introduction of the new parameter timeEvents with the default option to always generate time events at the interval boundaries, which might lead to slower, but more accurate simulations.
BooleanTable
IntegerTable
Added options to set start time, shift time and extrapolation kind, especially to set periodic extrapolation.
Modelica.Blocks.Tables
CombiTable1D
CombiTable1Ds
CombiTable2D
Added option to set the extrapolation kind and to optionally print a warning in case of extrapolated table input.


The following existing components have been changed in a non-backward compatible way:

Modelica.Blocks
Interfaces.PartialNoise
Noise.UniformNoise
Noise.NormalNoise
Noise.TruncatedNormalNoise
Noise.BandLimitedWhiteNoise
As a side-effect of the corrected computation in Modelica.Math.Random.Utilities.impureRandomInteger the localSeed parameter is computed differently if useAutomaticLocalSeed is set to true.
Modelica.ComplexBlocks.Routing
ComplexPassThrough Fixed the connector types from Real to Complex
Modelica.Mechanics.MultiBody
World Added new parameter animateGround for optional ground plane visualization.
Users that have copied the World model (of MSL 3.0, 3.0.1, 3.1, 3.2, 3.2.1, or 3.2.2) as an own World model and used it as inner world component, might have broken their models. Generally, for MSL models with sub-typing (due to inner/outer), it is strongly suggested to extend from this MSL model, instead of copying it.
Modelica.Media.Interfaces
PartialMedium Added new constant C_default as default value for the trace substances of medium.
Users that have created an own medium by inheritance from the PartialMedium package and already added the C_default constant, might have broken their models.
Users that have copied the PartialMedium package (of MSL 3.0, 3.0.1, 3.1, 3.2, 3.2.1, or 3.2.2) as an own Medium package, might have broken their models. Generally, for MSL classes with sub-typing (due to a replaceable declaration), it is strongly suggested to extend from this MSL class, instead of copying it.


The following critical errors have been fixed (i.e., errors that can lead to wrong simulation results):

Modelica.Blocks.Sources
TimeTable The derivative of the TimeTable output could no longer be determined. This has been corrected.
Modelica.Media.Air
MoistAir.molarMass
ReferenceMoistAir.molarMass
The computation of the function output MM was wrong. This has been corrected.
Modelica.Media.IdealGases.Common.Functions
thermalConductivityEstimate The computation of the function output lambda was wrong for the modified Eucken correlation, i.e., if method is set to 2. This has been corrected.
Modelica.Media.IdealGases.Common.SingleGasesData
CH2
CH3
CH3OOH
C2CL2
C2CL4
C2CL6
C2HCL
C2HCL3
CH2CO_ketene
O_CH_2O
HO_CO_2OH
CH2BrminusCOOH
C2H3CL
CH2CLminusCOOH
HO2
HO2minus
OD
ODminus
The coefficients for blow, ahigh and bhigh were wrong. This has been corrected.
Modelica.Media.IdealGases.Common.MixtureGasNasa
mixtureViscosityChung The computation of the function output etaMixture was wrong. This has been corrected.
Modelica.Media.Incompressible.TableBased
BaseProperties The unit of the gas constant R for table based media was not correctly considered. This has been corrected.
Modelica.Math.Random.Utilities
impureRandomInteger The function output y was not computed to yield a discrete uniform distribution for a minimum value imin of 1. This has been corrected.