A Highly-efficiency Position Sensorless Electric Vehicle Synchronous Reluctance Motor Drive

Q4 Energy

Journal of Nuclear Energy Science and Power Generation Technology Pub Date : 2021-05-02 DOI:10.21926/jept.2103037

C. Liaw, G. V. Kumar, Min-Ze Lu

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Abstract

The development of high-efficiency motor drives for various applications is important in the industry 4.0 era, especially for their extensive application to electric vehicles (EVs). In this study, a position sensorless EV synchronous reluctance motor (SynRM) drive has been developed, which exhibits good driving performance and efficiency over a wide speed and load range. To solve the key problems popularly encountered in the existing approaches, the high-frequency injection (HFI) scheme based on q-axis injection has been proposed. In addition, the changed-frequency injection has been adopted considering the effects of speed/load dependent slotting ripple current. Robust observed speed and position controllers have been added to enhance the sensorless control performance. For the SynRM basic driving control scheme, robust current control and adaptive commutation with minimized motor losses have been achieved that yield satisfactory driving performance up to the rated speed and load. Good EV driving performance has been demonstrated experimentally, including starting, dynamic, acceleration/deceleration, and reversible operations. In addition, the steady-state characteristics have been assessed, and the high efficiencies have been observed to be comparable to the standard drive.

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一种高效的无位置传感器电动汽车同步磁阻电机驱动

在工业4.0时代，为各种应用开发高效电机驱动器非常重要，特别是在电动汽车(ev)上的广泛应用。本研究开发了一种无位置传感器的电动汽车同步磁阻电动机(SynRM)驱动器，该驱动器在较宽的速度和负载范围内具有良好的驱动性能和效率。针对现有方法中普遍存在的关键问题，提出了基于q轴注入的高频注入(HFI)方案。此外，考虑到速度/负载相关的开缝纹波电流的影响，采用了变频注入。鲁棒观察速度和位置控制器被加入，以提高无传感器控制性能。对于SynRM基本驱动控制方案，实现了鲁棒电流控制和自适应换相，使电机损耗最小，在额定速度和负载下具有令人满意的驱动性能。在启动、动态、加速/减速和可逆操作等方面，实验证明了该系统具有良好的电动汽车驾驶性能。此外，稳态特性已被评估，高效率已被观察到可与标准驱动器相媲美。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Nuclear Energy Science and Power Generation Technology Energy-Energy Engineering and Power Technology

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