Super-Twisting Extended State Observer-Based Quasi-Proportional-Resonant Controller for Permanent Magnet Synchronous Motor Drive System
Qiankang Hou, Huanzhi Wang, Chenhao Zhao, Shoukun Xu, Yuefei Zuo, Christopher H. T. Lee, Shihong Ding
Abstract
For the purpose of realizing permanent magnet synchronous motor (PMSM) systems with strong robustness and smooth speed, the quasi-proportional-resonant (QPR) controller is combined with the super-twisting extended state observer (STESO) in this article. Although the traditional active disturbance rejection control (ADRC) scheme generally selects a sufficiently large bandwidth of linear extended state observer (LESO) to enhance the time-varying disturbance rejection capacity, the bandwidth of LESO is limited by system stiffness. To solve this tough issue, the STESO using a generalized super-twisting technique is developed to optimize the stability and anti-disturbance capacity of the motor drive system. In addition, the QPR controller is combined with the proposed STESO to suppress the motor speed fluctuation. Experimental results show that the proposed STESO-based QPR control algorithm has satisfactory characteristics.