International Journals Sadeq Ali Qasem Mohammed, Hasan Ali Gamal Al-kaf, and Kyo-Beum Lee, "Robust Hybrid Current Control Approach for IPMSM Drives Subjected to System Uncertainty," IEEE Transactions on Industrial Electronics, in press. -SCI
2024
본문
A robust hybrid current control approach is designed in this research work which merges an adaptive control law and iterative learning control law
to overcome the system uncertainty of interior-mounted permanent magnet synchronous motor (IPMSM) drives. The former adaptive control law is
employed in the steady-state condition, and the ILC law is used exclusively in the transient condition. Compared with the traditional hybrid control
approaches, the proposed method combines the adaptive control's resilience against system uncertainty with maintaining a better tracking capability,
i.e., better dynamic as well as steady-state control qualities (e.g., fast dynamic response, smaller steady-state error, lower total harmonic distortion
(THD), etc.) irrespective of changing perturbations. The stability analysis is then ensured mathematically by the convergence of the current state
error goes to zero. The proposed approach’s effectiveness is confirmed by simulation and experimental findings acquired with a PSIM software
package and an experimental IPMSM test rig employing the TMS320F28335-DSP, respectively. As a result, the improved transient response and
steady-state performance indicate that the suggested control approach outperforms the standard approach.