Affiliation:
1. School of Electrical & Control Engineering, Heilongjiang University of Science & Technology, , China
Abstract
In order to weaken the torque ripple caused by cogs torque and increase the output torque of permanent magnet synchronous motor, this paper proposes a multi-objective optimization method of permanent magnet synchronous motor based on Improved Multi-Objective Salp Swarm Optimization Algorithm (IMOSSA) and Spearman correlation analysis. Firstly, the improved strategy of Multi-Objective Salp Swarm Algorithm (MOSSA) was proposed, and the effectiveness of the improved algorithm was further verified by the performance test of the algorithm. Then, the motor simulation model was established, and the high correlation parameters were filtered out by Spearman correlation analysis. The response surface model was established by Response Surface Method (RSM), and the regression equation was given. The IMOSSA was used for iterative optimization. Through optimization, the experimental results show that under the premise of meeting the efficiency design requirements, the average output torque of the motor is increased by 21.35%, the torque ripple and cogging torque are reduced by 45.04% and 39.17% respectively, which verifies the effectiveness and feasibility of the proposed method.
Reference21 articles.
1. Methods for reducing cogging force in permanent magnet machines: A review;Hao;Energies,2023
2. Multiobjective optimization of IPMSM with FSCW applying rotor notch design for torque performance improvement;Sun;IEEE Transactions on Magnetics,2022
3. Analysis of an axial-flux slotted limited-angle torque motor with quasi-Halbach array for torque performance improvement;Wang;CES Transactions on Electrical Machines and Systems,2023
4. Overview of key technologies for multidisciplinary optimization of motors based on surrogate model;Xie;Transactions of China Electrotechnical Society,2022
5. Multi objective optimization design of high-speed permanent magnet motors based on multi physical field approximation model;Dai;Transactions of China Electrotechnical Society,2022