一种基于单PI控制器的电动汽车感应电机驱动空间矢量调制直接转矩控制新方案

Q3 Energy Journal of Energy Systems Pub Date : 2022-09-30 DOI:10.30521/jes.1003180
Mohan Malla, S. Gudey
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引用次数: 0

摘要

实现电动汽车的瞬时转矩和平稳速度在很大程度上取决于电机驱动系统所采用的调制方案和控制器类型。具有两个PI控制器的DTC-SVM(空间矢量调制)方法具有良好的稳态和瞬态响应。然而,在电动汽车应用中,仍然需要减小感应电动机定子电流和转矩波动。本文提出了一种新的方法,利用适当的增益值使异步电动机驱动的定子电流谐波和转矩纹波最小化,并应用于转矩PI控制器。利用单个PI控制器实现了感应电机驱动的良好性能。磁链和转矩均得到有效控制,转矩脉动较小。在本研究中,在额定转矩值下,在额定速度的全部、一半和四分之一下获得了转矩和电流波纹。本文分析了在不同转速下指令转矩单位阶跃变化驱动的瞬态运行。提出了恒开关频率下的空间矢量脉宽调制(SVPWM)。在静止参照系理论下进行了建模和仿真。在稳态和瞬态操作期间观察了性能。得到了暂态状态下转矩响应和定子电流的稳定时间。在稳态时得到转矩波纹。对于相同的扭矩命令,与具有两个PI控制器的DTC-SVM的比较是很容易理解的。给出了经典、双PI控制器和单PI控制器在不同参考磁通下电机输入电流的总谐波失真(THD)。采用单PI控制器的DTC-SVM方案具有良好的稳态和瞬态特性,稳定时间短,鲁棒性好,并通过通量矢量轨迹进行了验证。
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A Novel space vector modulated DTC scheme of induction motor drive with a single PI controller for electric vehicles
Facilitating instantaneous torque and smooth speed of Electric vehicle (EV) largely relies on modulation scheme employed and type of controller used for motor drive system. The DTC-SVM (Space Vector Modulation) approach with two PI controllers has an excellent steady state and transient response. However, there is still a need to reduce stator current and torque ripples in induction motor for application in Electric vehicle. This paper presents a new approach to minimize stator current harmonics, torque ripple of an induction motor drive with appropriate gain value for torque PI controller. Good performance of the induction motor drive is achieved using a single PI controller. Both flux and torque are controlled effectively with less torque ripple. In this study, torque and current ripples are obtained at full, one-half and one-fourth of the rated speeds at rated torque value. This work analyzes the transient operation of the drive for unit step change in command torque at various rotor speeds. Space Vector Pulse Width Modulation (SVPWM) of the drive at constant switching frequency is presented. Modeling and Simulation is performed in the stationary reference frame theory. The performance is observed during steady state and transient operations. The settling time of torque responses and stator currents are obtained during transient conditions. Torque ripples are obtained during steady state. A comparison with DTC-SVM with two PI controllers for the same Torque commands is well understood. Total Harmonic Distortion (THD) in the motor input current at different reference fluxes are tabulated for classical, two PI controllers and a single PI controller. The proposed DTC-SVM scheme with single PI controller is found to be robust with good steady state and transient characteristics with less settling time and is validated with flux vector trajectories.
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来源期刊
Journal of Energy Systems
Journal of Energy Systems Environmental Science-Management, Monitoring, Policy and Law
CiteScore
1.60
自引率
0.00%
发文量
29
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