Modeling vector control of the asynchronous drive of electric rolling stock auxiliary machines

Russian Railway Science Pub Date : 2022-03-29 DOI:10.21780/2223-9731-2022-81-1-23-30

Yu.. M. Kulinich, S. Shukharev, V. K. Dukhovnikov, A. Gulyaev

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Abstract

Introduction. The development of power semiconductor devices and technology served the basis for fundamentally new types of frequency-controlled electric drives with traction asynchronous motors on the rolling stock of electrified railways. Therefore, problems of theoretical and experimental study of the operating modes of the mentioned drives become actual. This article is a theme continuation of the asynchronous machines control on the AC locomotive, which was presented in no. 5 of Russian Railway Scientific Journal in 2021.Materials and methods. For analysing the frequency converter operation, the authors used mathematical modeling methods, which allowed evaluating the motor operation in various modes without resorting to time-consuming full-scale tests. Recently, software packages for visual programming have been developed, aimed mainly at domestic users, which are not inferior in their capabilities to leading foreign counterparts. Among such software products is SimInTech software for modeling technical systems, developed by 3V Service. The software focuses on solving various applied problems, particularly, on modeling a vector control system for an asynchronous drive.Results. The authors developed a mathematical model of an asynchronous drive of auxiliary machines of an electric locomotive in a rotating coordinate system d – q by the SimInTech application package and concerning the cross-impact influence of d and q control channels.Discussion and conclusion. The developed complex of an asynchronous motor and a vector control system enable to work out various algorithms for improving the energy efficiency of the operation of asynchronous auxiliary machines of an electric locomotive by applying the proposed algorithm for choosing the optimal value of the rotor flux linkage. The presented vector control structure also enables to implement it on the basis of modern microcontrollers, helping to reduce programming time.

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电动机车车辆辅机异步驱动的建模矢量控制

介绍。功率半导体器件和技术的发展为电气化铁路机车车辆上采用牵引异步电动机的新型变频驱动奠定了基础。因此，上述驱动器的工作模式的理论和实验研究的问题成为现实。本文是交流机车异步电机控制主题的延续。《俄罗斯铁路科学杂志》2021年第5期。材料和方法。为了分析变频器的运行，作者使用了数学建模方法，该方法允许在各种模式下评估电机运行，而无需诉诸耗时的全面测试。最近，已经开发了用于可视化编程的软件包，主要针对国内用户，其能力并不逊于领先的国外同类产品。在这些软件产品中，有3V Service开发的用于技术系统建模的SimInTech软件。该软件侧重于解决各种应用问题，特别是异步驱动器矢量控制系统的建模。利用SimInTech应用程序包建立了d - q旋转坐标系下电力机车辅机异步传动的数学模型，考虑了d和q控制通道的交叉冲击影响。讨论与结论。所开发的异步电动机与矢量控制系统的综合体，可以应用所提出的选择转子磁链最优值的算法，求解出提高电力机车异步辅机运行能效的各种算法。所提出的矢量控制结构也可以在现代微控制器的基础上实现，有助于减少编程时间。

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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Russian Railway Science

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