Multi-Machine Traction Drive Based on Parallel Connected Synchronous Machines

2021 29th Iranian Conference on Electrical Engineering (ICEE) Pub Date : 2021-05-18 DOI:10.1109/ICEE52715.2021.9544272

H. M. Pirouz

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Abstract

This paper investigates both the system topology and the control strategy of a new multi-machine traction drive for rail vehicle traction bogies. The drive topology is comprised of two pairs of dual paralleled permanent magnet synchronous machines (PMSMs), each linked to a bogie wheelset through a planetary gearset. A pair of these gearsets, which act as an electronically controlled differential mechanism, removes the speed difference of paralleled propulsive PMSMs, through two paralleled auxiliary PMSMs. Then, a new cascaded sliding mode speed control is suggested to generate the reference currents for each shared converter feeding a set of paralleled PMSMs. The proposed controller is based on a reaching law with a reduced chattering approach, on their control signals, while its tracking performance remains satisfactory. Through these suggestions, the drive transient response can be improved during critical situations, especially during regenerative braking and under low adhesion conditions. The performance of proposed multimachine traction drive and its controller are evaluated by simulations and verified by experiments.

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基于并联同步电机的多机牵引传动

本文研究了一种新型轨道车辆牵引转向架多机牵引驱动系统的拓扑结构和控制策略。驱动拓扑由两对双并联永磁同步电机(pmms)组成，每对电机通过行星齿轮组连接到转向架轮对。这些齿轮组的一对，作为一个电子控制差动机构，消除并联推进永磁同步电动机的速度差，通过两个并联辅助永磁同步电动机。然后，提出了一种新的级联滑模速度控制方法，为每个共享变换器馈送一组并联的永磁同步电动机产生参考电流。所提出的控制器是基于一种减少抖振的趋近律，对其控制信号进行控制，同时保持了令人满意的跟踪性能。通过这些建议，可以改善关键情况下的驱动瞬态响应，特别是在再生制动和低附着条件下。通过仿真对所提出的多机牵引传动及其控制器的性能进行了评价，并进行了实验验证。

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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2021 29th Iranian Conference on Electrical Engineering (ICEE)

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