混合动力汽车内嵌式永磁同步电机转矩控制策略分析

IF 2.8 Q2 MULTIDISCIPLINARY SCIENCES
S. Usha, P. Geetha, R. Palanisamy, None Kitmo, Yosef Berhan Jember
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引用次数: 0

摘要

摘要本文研究的意义在于混合动力汽车的转矩控制策略。混合动力商用车的牵引电机必须具有较高的功率密度重量比和极低速度下的优异扭矩。比例积分控制器根据实际输出功率和参考输出功率之间的差估计高分辨率转子位置。该方法既能校正霍尔传感器的安装误差,又能准确估计转子位置。在本研究中,还使用电流比例积分控制器来确定永磁通链。实验用于测试其他关键指标,如d轴和q轴电感,定子电阻和能量损耗。测量参数保存在查找表中,该表涵盖了在不同电流水平下的整个工作范围。最大转矩/安培控制方法与前馈参数迭代法相结合,可以在这些精确参数的基础上实现准确有效的转矩控制。本文对模拟的联邦试验程序车辆的标准行驶工况性能要求进行了分析,以了解车辆的真实模型要求。在Matlab/Simulink环境下,分析了该方法的有效性。模型和实验结果验证了该方法的有效性、转矩脉动、定子和转子磁链、车辆参数的灵敏度以及计算复杂度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of torque controlling strategies of interior permanent magnet synchronous machine in hybrid electric vehicle
Abstract Significance of this research is based on torque controlling strategies in hybrid electric vehicle. The traction motor of a hybrid electric commercial vehicle must have a high power density-to-weight ratio and excellent torque at extremely low speeds. A proportional-integral controller estimates the high-resolution rotor position based on the difference between actual as well as reference output power. This technique can correct for hall position sensor installation error and also accurately estimate rotor position. In this study, a current proportional integral controller is also used to determine the permanent magnetic flux linkage. Experiments are used to test other key metrics such as d-axis and q-axis inductances, stator resistance, and energy loss. The measured parameters are kept in lookup tables that span the whole operating range at various current levels. A maximum torque per ampere control methodology, paired with the feed forward parameter iteration method, may be used to produce accurate and efficient torque control based on these precise parameters. The standard driving cycle performance requirements of the modelled Federal Test Procedure vehicle is analysed in the article for understanding the real model requirements of the vehicle. The efficacy of the proposed methodology using Matlab/Simulink environment is analysed. Both modelling and experimental findings validate the efficacy, torque ripple, stator and rotor flux, sensitivity of the vehicle parameter as well as the computational complexity of the proposed methodology.
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来源期刊
SN Applied Sciences
SN Applied Sciences MULTIDISCIPLINARY SCIENCES-
自引率
3.80%
发文量
292
审稿时长
22 weeks
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