In the current version of SIMBA, the inductance parameters for the synchronous machine are defined as separate arrays dependent on current:
$L_d(I_d)$: Inductance as a function of direct-axis current, $I_d$.
$L_q(I_q)$: Inductance as a function of quadrature-axis current, $I_q$.
Proposed Enhancement:
Add the capability to define inductance as a function of both $I_d$ and $I_q$ simultaneously. This enhancement would require the user to define:
A $L_d$ matrix of size $[N_q \times N_d]$.
A $L_q$ matrix of size $[N_q \times N_d]$.
An $I_d$ array of length $N_d$.
An $I_q$ array of length $N_q$.
This change will allow for more precise modeling of the machine's magnetic characteristics under various operating conditions.
In the current version of SIMBA, the inductance parameters for the synchronous machine are defined as separate arrays dependent on current:
Proposed Enhancement: Add the capability to define inductance as a function of both $I_d$ and $I_q$ simultaneously. This enhancement would require the user to define:
This change will allow for more precise modeling of the machine's magnetic characteristics under various operating conditions.