摘要:根据开关磁阻电机的特性,建立电机数学模型,分析了电机工作原理及电机运行中的相电流、磁链和位置角三者之间的关系;在Matlab/Simulink环境下搭建开关磁阻电机调速系统模型,仿真分析了电压、开断角对电机转速、转矩、电流的影响;基于仿真分析,设计了电流、转速双闭环调速控制系统,并将其与电流斩波调速控制系统进行对比,仿真结果表明,电流、转速双闭环调速控制具有起动快、脉动小和运行稳定等优点,更适用于开关磁阻电机的调速控制。 关键词:开关磁阻电机;双闭环控制;电流斩波控制 Abstract: Based on fractional order calculus and active disturbance rejection control (ADRC), a robust control system with permanent magnet synchronous motor (PMSM) speed servo was presented. Fractional order calculus spread the stable region of the system parameters, the ESO has good performances of observing the unknown disturbances. By bilinear transformation and continued fraction expansion, the discrete model of fractional order integral was obtained. Then, the fractional order proportional integral nonlinear feedback was established to enhance the robustness of system against the disturbances. Compared with ADRC using nonlinear function, simulation results verified the effectiveness of the proposed control method. Key words: discrete model;fractional order calculus;permanent magnet synchronous motor;active disturbance rejection control; speed control
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