MultiPhaseElectroMagneticConverter
Multi phase electro magnetic converter
Library
Modelica/Magnetic/FundamentalWave/Components
Description
Each phase of an phase winding has an effective number of turns, and an respective winging angle and a phase current .
The total complex magnetic potential difference of the multi phase winding is determined by:
In this equation each contribution of a winding magnetomotive force on the total complex magnetic potential difference is aligned with the respective orientation of the winding.
The voltages induced in each winding depend on the cosines between the orientation of the winding and the angle of the complex magnetic flux. Additionally, the magnitudes of the induced voltages are proportional to the respective number of turns. This relationship can be modeled by means of
for and is also illustrated by the following figure:
See also
SinglePhaseElectroMagneticConverter
Parameters
Name | Label | Description | Data Type | Valid Values |
---|---|---|---|---|
mo_m | m | Number of phases | Scalar | |
mo_effectiveTurns | effectiveTurns | Effective number of turns | Vector | |
mo_orientation | orientation | Orientation of the resulting fundamental wave field phasor | Vector |
Name | Label | Description | Data Type | Valid Values |
---|---|---|---|---|
mo__nmodifiers | Number of Modifiers | Specifies the number of modifiers | Number | |
mo__modifiers | Modifiers | Add new modifier | Structure | |
mo__modifiers/varname | Variable name | Cell of strings | 'v' | |
mo__modifiers/attribute | Attribute | Cell of strings | 'start' | |
mo__modifiers/value | Value |
Ports
Name | Type | Description | IO Type | Number |
---|---|---|---|---|
plug_p | implicit | Positive plug | input | 1 |
plug_n | implicit | Negative plug | output | 1 |
port_p | implicit | Positive complex magnetic port | input | 2 |
port_n | implicit | Negative complex magnetic port | output | 2 |