MultiPhaseElectroMagneticConverter
Multi phase electro magnetic converter
Library
Modelica/Magnetic/QuasiStatic/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
is the positive symmetrical component of the currents.
The positive sequence of the voltages
induced in each winding is directly proportional to the complex magnetic flux and the number of turns. This relationship can be modeled by means of
.
See also
Modelica.Magnetic.FundamentalWave.Components.SinglePhaseElectroMagneticConverter, Modelica.Magnetic.FundamentalWave.Components.MultiPhaseElectroMagneticConverter, QuasiStaticAnalogElectroMagneticConverter
Parameters
| Name | Label | Description | Data Type | Valid Values |
|---|---|---|---|---|
mo_j | j | Scalar | ||
mo_m | m | Number of phases | Scalar | |
mo_effectiveTurns | effectiveTurns | Effective number of turns | Scalar | |
mo_orientation | orientation | Orientation of the first winding axis | Scalar | |
mo_N | N | Complex effective number of turns | Scalar | |
mo_sTM | sTM | Matrix | ||
mo_indexNonPos | indexNonPos | Indices of all non positive sequence components | Vector | |
mo_indexPos | indexPos | Indices of all positive sequence components | Vector |
| Name | Label | Description | Data Type | Valid Values |
|---|---|---|---|---|
mo_abs_v | abs_v | abs_v | Structure | |
mo_abs_v/fixed | fixed | Cell of vectors | true | |
mo_abs_v/start | start | Cell of vectors | ||
mo_arg_v | arg_v | arg_v | Structure | |
mo_arg_v/fixed | fixed | Cell of vectors | true | |
mo_arg_v/start | start | Cell of vectors | ||
mo_abs_i | abs_i | abs_i | Structure | |
mo_abs_i/fixed | fixed | Cell of vectors | true | |
mo_abs_i/start | start | Cell of vectors | ||
mo_arg_i | arg_i | arg_i | Structure | |
mo_arg_i/fixed | fixed | Cell of vectors | true | |
mo_arg_i/start | start | Cell of vectors | ||
mo_P | P | P | Structure | |
mo_P/fixed | fixed | Cell of vectors | true | |
mo_P/start | start | Cell of vectors | ||
mo_P_total | P_total | P_total | Structure | |
mo_P_total/fixed | fixed | Cell of scalars | true | |
mo_P_total/start | start | Cell of scalars | ||
mo_Q | Q | Q | Structure | |
mo_Q/fixed | fixed | Cell of vectors | true | |
mo_Q/start | start | Cell of vectors | ||
mo_Q_total | Q_total | Q_total | Structure | |
mo_Q_total/fixed | fixed | Cell of scalars | true | |
mo_Q_total/start | start | Cell of scalars | ||
mo_S | S | S | Structure | |
mo_S/fixed | fixed | Cell of vectors | true | |
mo_S/start | start | Cell of vectors | ||
mo_S_total | S_total | S_total | Structure | |
mo_S_total/fixed | fixed | Cell of scalars | true | |
mo_S_total/start | start | Cell of scalars | ||
mo_pf | pf | pf | Structure | |
mo_pf/fixed | fixed | Cell of vectors | true | |
mo_pf/start | start | Cell of vectors | ||
mo_abs_V_m | abs_V_m | abs_V_m | Structure | |
mo_abs_V_m/fixed | fixed | Cell of scalars | true | |
mo_abs_V_m/start | start | Cell of scalars | ||
mo_arg_V_m | arg_V_m | arg_V_m | Structure | |
mo_arg_V_m/fixed | fixed | Cell of scalars | true | |
mo_arg_V_m/start | start | Cell of scalars | ||
mo_abs_Phi | abs_Phi | abs_Phi | Structure | |
mo_abs_Phi/fixed | fixed | Cell of scalars | true | |
mo_abs_Phi/start | start | Cell of scalars | ||
mo_arg_Phi | arg_Phi | arg_Phi | Structure | |
mo_arg_Phi/fixed | fixed | Cell of scalars | true | |
mo_arg_Phi/start | start | Cell of scalars | ||
mo_omega | omega | omega | Structure | |
mo_omega/fixed | fixed | Cell of scalars | true | |
mo_omega/start | start | Cell of scalars |
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 |