ReleaseNotes
Release Notes
Library
Modelica/Magnetic/QuasiStatic/FundamentalWave/UsersGuide
Description
Version 3.2.3, 2019-01-23
- Fixed propagation of excitation leakage factor, see #2403
- Unified communication interval, see #2279
- Unified simulation tolerances, see #2278
- Fixed wrong initial conditions of #2277
- Added more examples from Machines.Examples, see #2276
- AddedRotorDisplacementAngle, see #2050
Version 3.2.2, 2015-02-02
- Restructuring of components in Interfaces and BasesClasses
- Migration of library to MSL trunk
- Update and improvement of documentation
- Added new component:
- Removed parameter text from icon layer for reluctance and permeance model
- Fixed issues of ticket #1524
- Restructured cage models with reluctance instead of inductance model according to ticket #1537
- Bug fixes according to #1226
- Added magnitude and argument of complex magnetic potentials, magnetic fluxes, voltages and currents in interface, electromagnetic coupling and machine models, see #1405
- Added active, reactive and apparent power and power factor in interface and machine models, see #1405
- Added new interface model PartialTwoPortExtended to simplify consistent inclusion of variables, see #1405
- Changed icon and location of terminal box according to #1706
Version 0.4.1, 2013-12-18
- Renamed base magnetic port to MagneticPort
- Bug fix of single to multi phase converter
- Bug fix of phase number propagation in SaliencyCageWinding fixed
- Improved documentation of library
- Added current controlled SMR example and indicated SMR inverter example as obsolete
- Improved example of mains supplied SMPM with damper cage
Version 0.4.0, 2013-11-13
- Renamed all machine class names according to #1348
Version 0.3.0, 2013-11-07
- Renamed the library from QuasiStationaryFundamantalWave to QuasiStaticFundamantalWave according to #1344
Version 0.2.5, 2013-11-06
- Changed implementation of symmetrical components: symmetricTransformationMatrix(m) is now multiplied by numberOfSymmetricBaseSystems(m) in order to overcome differences in calculation of current and voltage symmetrical components. The symmetrical components of a system of even phase numbers are now equal to the symmetrical components of one corresponding base system.
- Improved examples package and removed SMPM_Inverter example
Version 0.2.4, 2013-10-02
- Implemented induction machine with squirrel cage example with inverter
- Alternative implementation of transformation matrix for faster compilation in Dymola
Version 0.2.3, 2013-09-25
- Adapted sine / cosine of QS V/f-converter to match transient behavior
Version 0.2.2, 2013-09-24
- Fixed initialization of examples (changed implementation of QuasiStationary.Sources, added start values for gamma, gammas, gammar)
Version 0.2.1, 2013-09-23
- Implemented permanent magnet synchronous machine example with inverter
Version 0.2.0, 2013-09-01
- Implemented induction machine with slip ring rotor including example
- Implemented magnetic crossing
Version 0.1.0, 2013-08-27
- Documentation of phasor concept
- Connections.branch between electric and magnetic quasi static connectors to handle open circuit and motor operation of machines
- Saliency effects are properly considered
- Electromagnetic coupling with Analog domain is implemented fully quasi static with v = 0 at the electric connectors -- this may have to be changed in the future
- Implemented machine types
- Induction machine with squirrel cage
- Permanent magnet synchronous machine with optional damper cage
- Electrical excited synchronous machine with optional damper cage (may be removed in first release)
- Synchronous reluctance machine with optional damper cage (may be removed in first release)