Current Fault Tolerance Control Strategy for 3-Phase Switched Reluctance Motor Combined With Position Signal Reconstruction
Xiaodong Sun, Yiliang Zhu, Yingfeng Cai, Yefei Xiong, Ming Yao, Chaochun Yuan
Abstract
In this paper, a fault-tolerant control method for switched reluctance motors is proposed for the faults of power converters that occur during the operation of switched reluctance motors. The method combines position reconstruction strategies based on fault tolerant control. The fault detection scheme can accurately determine the faults component and faults type, and then and then maintain the motor drive through the current reconstruction. The position reconstruction scheme improves the traditional inductance detection method, which can improve the situation that the position signal fault leads to the current reconstruction fault. In addition, this paper sets constraints on the reconstruction of position signals to enhance the stability and robustness of position signals. Finally, the stability of the proposed method is verified by experiments.