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首页> 外文会议>International Conference on Smart Grids, Power and Advanced Control Engineering >Minimization of torque ripple using DITC with optimum bandwidth and switching frequency for SRM employed in electric vehicle
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Minimization of torque ripple using DITC with optimum bandwidth and switching frequency for SRM employed in electric vehicle

机译:使用DITC具有最佳带宽和电动车辆SRM的开关频率的扭矩脉动最小化

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This paper presents the modeling and simulation of two-level and three-level Direct Instantaneous Torque Controller (DITC) for Switched Reluctance Motor (SRM) employed in electric vehicle. DITC is implemented taking torque as control variable and is estimated from the look-up table by considering current and rotor position of SRM. Further, PI controller is designed using symmetrical optimum method and integrated with two-level torque controller. Performance of two-level torque controller with and without PI controller is observed in terms of torque ripple for various bandwidths and switching frequency. It is observed that, the contribution of PI controller in terms of torque ripple minimization is not remarkable. In this regard, three-level torque controller is implemented in order to achieve the better performance and desired features for the operation of SRM in electric vehicle (EV). Finally, performances of two-level and three-level torque controller are compared in terms of minimum torque ripple, wide speed operation, high starting torque and converter switching frequency. It is observed that three-level torque controller has better performance than two-level controller for SRM employed in electric vehicle.
机译:本文介绍了电动车辆中采用的开关磁阻电动机(SRM)的两级和三级直瞬时扭矩控制器(DITC)的建模和仿真。 DITC通过考虑SRM的电流和转子位置来实现作为控制变量的扭矩作为控制变量估计。此外,PI控制器使用对称的最佳方法设计并与两级扭矩控制器集成。在各种带宽和开关频率的扭矩脉动方面观察到具有和不具有PI控制器的两级扭矩控制器的性能。观察到,PI控制器在扭矩脉动最小化方面的贡献不是显着的。在这方面,实现了三级扭矩控制器,以实现用于在电动车辆(EV)中SRM的操作的更好的性能和期望特​​征。最后,在最小扭矩脉动,宽速度操作,高启动扭矩和转换器开关频率方面比较了两级和三级扭矩控制器的性能。观察到,三级扭矩控制器具有比电动车辆中的SRM的两级控制器更好的性能。

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