Weitao Deng scite author profile

-In this paper, a parameter optimization based iterative learning control strategy is presented for permanent magnet synchronous motor control. This paper analyzes the mechanism of iterative learning control suppressing PMSM torque ripple and discusses the impact of controller parameters on steady-state and dynamic performance of the system. Based on the analysis, an optimization problem is constructed, and the expression of the optimal controller parameter is obtained to adjust the controller parameter online. Experimental research is carried out on a 5.2kW PMSM. The results show that the parameter optimization based iterative learning control proposed in this paper achieves lower torque ripple during steady-state operation and short regulating time of dynamic response, thus satisfying the demands for both steady state and dynamic performance of the speed regulating system.

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Weitao Deng

Online Multiparameter Identification of Surface-Mounted PMSM Considering Inverter Disturbance Voltage

Torque ripple minimization of PMSM using PI type iterative learning control

Direct Torque Control of Matrix Converter-Fed PMSM Drives Using Multidimensional Switching Table for Common-Mode Voltage Minimization

Maximum Voltage Transfer Ratio of Matrix Converter Under DTC With Rotating Vectors

Torque Ripple Minimization of PMSM Using Parameter Optimization Based Iterative Learning Control

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