Research on Direct Torque Control of Induction Motor Based on Genetic Algorithm and Fuzzy Adaptive PI Controller
A novel direct torque control strategy, using genetic algorithm on-line to optimize the fuzzy PI controller, is proposed. In this approach, according to speed error and its first time derivative, the proportional coefficient Kp and integral coefficient Ki can be on-line adjusted by fuzzy adaptive PI speed regulation, and the fuzzy logic adapter parameters are optimized by genetic algorithm to improve the self-adaptation of speed. Moreover, the second fuzzy logic controller is applied to select the voltage vector instead of the conventional hysteresis controllers. In this paper, a comparative study between fuzzy PI direct torque control and proposed approach shows that not only the speed response,overshoot and speed steady precision have been improved, but also the torque, flux and stator current ripples have been effectively decreased at low speed, and the robustness of the whole system has been enhanced.
direct torque control fuzzy control adaptive speed regulator genetic algorithm torque ripple
Hao Li Qiuyun Mo Zhilin Zhao
School of Mechanical & Electrical Engineering Guilin University of Electronic & Technology Guilin 541004, China
国际会议
长沙
英文
2300-2303
2010-03-13(万方平台首次上网日期,不代表论文的发表时间)