MutualInductor
Linear mutual inductor
Library
Modelica/Electrical/QuasiStationary/MultiPhase/Basic
Description
Model of a multi phase inductor providing a mutual inductance matrix model.
Implementation
v[1] = j*omega*L[1,1]*i[1] + j*omega*L[1,2]*i[2] + ... + j*omega*L[1,m]*i[m] v[2] = j*omega*L[2,1]*i[1] + j*omega*L[2,2]*i[2] + ... + j*omega*L[2,m]*i[m] : : : : v[m] = j*omega*L[m,1]*i[1] + j*omega*L[m,2]*i[2] + ... + j*omega*L[m,m]*i[m]
Parameters
Name | Label | Description | Data Type | Valid Values |
---|---|---|---|---|
mo_m | m | Number of phases | Scalar | |
mo_epsilon | epsilon | Relative accuracy tolerance of matrix symmetry | Scalar | |
mo_L | L | Mutual inductance matrix | Matrix |
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 | 'abs_v' | |
mo__modifiers/attribute | Attribute | Cell of strings | 'start' | |
mo__modifiers/value | Value |
Ports
Name | Type | Description | IO Type | Number |
---|---|---|---|---|
plug_p | implicit | Positive quasi-static polyphase plug | input | 1 |
plug_n | implicit | Negative quasi-static polyphase plug | output | 1 |