Modeling of the thyristor controlled rectifiers for control of Ward - Leonard system

2009 7th International Symposium on Intelligent Systems and Informatics Pub Date : 2009-10-23 DOI:10.1109/SISY.2009.5291167

G. A. Biacs, M. Adzic

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引用次数: 4

Abstract

The classical scheme of DC motor control developed by Ward Leonard, employs for this purpose a rotating DC generator, the armature voltage of which is controlled through the field. The DC generator is driven by an AC motor and running at approximately constant speed. The disadvantages of this type are in the number of full-size machines in the chain, which raises the cost and lowers the overall efficiency. Combined with up-to-date control, drives of this type are still in use today. This paper presents a study of the model of the thyristor controlled rectifiers for control of Ward – Leonard system. The control structure consist outer speed regulation loops operating through a faster two current regulation inner loop. One for the motor armature current and two for DC generator field current. This paper also describes the mathematical models of the generator, motor, mechanical load, rectifiers, speed regulator, current regulator and completed control system implemented in SIMULINK. At the end, simulation results are included to illustrate the effectiveness of the proposed controlled method.

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Ward - Leonard系统晶闸管控制整流器的建模

由沃德·伦纳德(Ward Leonard)开发的直流电动机控制的经典方案为此目的使用旋转直流发电机，其电枢电压通过磁场控制。直流发电机由交流电动机驱动，以大约恒定的速度运行。这种类型的缺点是在链中的全尺寸机器的数量，这提高了成本，降低了整体效率。与最新的控制相结合，这种类型的驱动器至今仍在使用。本文研究了用于沃德-伦纳德系统控制的晶闸管控制整流器的模型。控制结构由外部调速回路组成，通过一个更快的两电流调节内环运行。一个为电机电枢电流，两个为直流发电机励磁电流。文中还描述了发电机、电机、机械负载、整流器、调速器、电流调节器的数学模型以及在SIMULINK中实现的完整控制系统。最后通过仿真结果验证了所提控制方法的有效性。

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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2009 7th International Symposium on Intelligent Systems and Informatics

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