新型SVM-DTC控制算法的BLDCM转矩脉动抑制策略OA
BLDCM Torque Ripple Reduction Strategy of Novel SVM-DTC Control Structure
无刷直流电机具有高可靠性、高效率等优点,但由于自身结构特点以及驱动特点,在运行过程中会产生较大的转矩脉动.针对该运行问题,提出了一种改进的无刷直流电机直接转矩控制策略,采用新型空间脉宽调制技术替代传统直接转矩控制中的开关表模块,并且和滑模控制器相结合.对空间脉宽调制技术的运算过程进行改进,简化了计算过程.引入滑模控制器替代传统的PI控制器,利用超螺旋算法优化控制过程.在仿真环境下,对比了传统直接转矩控制和新型直接转矩控制策略,结果表明,新型直接转矩控制策略在电机响应时间、转速超调量和转矩波动幅度方面均有显著改善.
Brushless DC motor has the advantages of high reliability and high efficiency,but due to its own structural characteristics and driving characteristics,it will produce large torque pulsation during operation.In light of this operation problem,an improved direct torque control strategy for brushless DC motor was proposed,which adopts a new space vector pulse width modulation technique to replace the switching table module in the traditional direct torque control,and combines it with the sliding mode controller.The arithmetic process of the spatial pulse width modulation technique was improved to simplify the calculation process.The sliding mode controller was introduced to replace the traditional PI controller,and the control process was optimized using the super-helix algorithm.Under the simulation environment,the traditional direct torque control and the new direct torque control strategy were compared,and the results show that the new direct torque control strategy has significant improvement in motor response time,speed overshoot and torque fluctuation amplitude.
王宇飞;王博;江秀红
沈阳航空航天大学电子信息学院,辽宁 沈阳 110136沈阳航空航天大学电子信息学院,辽宁 沈阳 110136沈阳航空航天大学电子信息学院,辽宁 沈阳 110136
信息技术与安全科学
无刷直流电机直接转矩控制转矩脉动抑制空间脉宽调制技术滑模控制
brushless DC motor(BLDCM)direct torque control(DTC)torque ripple reductionspace vector pulse width modulation(SVPWM)sliding mode control
《电气传动》 2026 (5)
3-10,8
辽宁省教育厅重点攻关项目(JYT2020160)
评论