WOLFRAM SYSTEM MODELER
MagneticFlux |
Wolfram Language
In[1]:=
SystemModel["Modelica.SIunits.MagneticFlux"]
Out[1]:=
Type Information
| MagneticFlux |
Quantity: "MagneticFlux" Unit: Wb |
|---|
Used in Examples (5)
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Modelica.Electrical.Machines.Examples.SynchronousInductionMachines Test example: ElectricalExcitedSynchronousInductionMachine with voltage controller |
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Modelica.Electrical.Machines.Examples.SynchronousInductionMachines Test example: ElectricalExcitedSynchronousInductionMachine with rectifier |
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Modelica.Electrical.Machines.Examples.DCMachines Test example: DC with permanent magnet starting with current controller |
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Modelica.Magnetic.FundamentalWave.Examples.BasicMachines Test example: ElectricalExcitedSynchronousInductionMachine with voltage controller |
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Modelica.Magnetic.FundamentalWave.Examples.BasicMachines Test example: ElectricalExcitedSynchronousInductionMachine with rectifier |
Used in Components (26)
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Modelica.Electrical.Analog.Basic Simple model of an inductor with saturation |
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Modelica.Electrical.Analog.Basic Ideal linear electrical inductor with variable inductance |
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Modelica.Electrical.Analog.Ideal Ideal transformer core with or without magnetization |
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Modelica.Electrical.Machines.BasicMachines.Components Partial airgap model |
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Modelica.Electrical.Machines.BasicMachines.Components Partial airgap model of a DC machine |
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Modelica.Electrical.Machines.Interfaces Partial model for DC machine |
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Modelica.Electrical.Machines.Utilities Voltage controller |
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Modelica.Magnetic.FluxTubes.Examples.SolenoidActuator.Components Advanced network model of a lifting magnet with planar armature end face, split magnetomotive force |
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Transformer3PhaseYyWithHysteresis Modelica.Magnetic.FluxTubes.Examples.Hysteresis.Components Three phase transformer in Yy configuration |
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Modelica.Magnetic.FluxTubes.Basic Ideal electro-magnetic energy conversion |
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ElectroMagneticConverterWithLeakageInductance Modelica.Magnetic.FluxTubes.Basic Electro-magnetic energy conversion with a leakage inductance |
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Modelica.Magnetic.FluxTubes.Interfaces Partial component with magnetic potential difference of the two magnetic ports p and n and magnetic flux Phi from p to n |
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ConstantMagneticPotentialDifference Modelica.Magnetic.FluxTubes.Sources Constant magnetomotive force |
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SignalMagneticPotentialDifference Modelica.Magnetic.FluxTubes.Sources Signal-controlled magnetomotive force |
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Modelica.Magnetic.FluxTubes.Sources Source of constant magnetic flux |
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MagneticPotentialDifferenceSensor Modelica.Magnetic.FluxTubes.Sensors Sensor to measure magnetic potential difference |
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Modelica.Magnetic.FundamentalWave.BasicMachines.Components Symmetric winding model coupling electrical and magnetic domain |
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Modelica.Magnetic.FundamentalWave.BasicMachines.Components Symmetric winding model coupling electrical and magnetic domain |
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Modelica.Magnetic.FundamentalWave.Interfaces Two magnetic ports for graphical modeling with additional variables |
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Modelica.Magnetic.FundamentalWave.Interfaces Two magnetic ports for textual modeling |
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Modelica.Magnetic.QuasiStatic.FluxTubes.Interfaces Partial component with two magnetic ports p and n for textual programming |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.Components Symmetric winding model coupling electrical and magnetic domain |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.BasicMachines.Components Quasi static single phase winding neglecting induced voltage |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.Sensors Sensor to measure magnetic flux |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.Interfaces Partial two port for graphical programming with additional variables |
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Modelica.Magnetic.QuasiStatic.FundamentalWave.Interfaces Elementary partial two port for textual programming |