Development of advanced winding condition control technology of electric motors based on pulsed method

Resource-Efficient Technologies Pub Date : 2017-09-01 DOI:10.1016/j.reffit.2017.08.001

Alexey V. Mytnikov, Valeriy A. Lavrinovich, Arina M. Evseeva, Ivan A. Stepanov

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引用次数: 2

Abstract

More than 80 percent of all electrical energy customers are electric motors. Therefore one of the prospects of resource-effective technologies in power industry is control of rotating electric equipment condition. Winding defects are one of the main causes of electric motor failures. Reliable control of winding condition is an urgent task of modern electrical engineering technology. The present article is devoted to the research of pulsed method application of transformer winding control for electric motor winding condition control. The procedure of winding condition control technology is described. The proposed method is based on the known pulsed method. The essential difference between the two methods is that only one probing impulse is used which is a probing impulse and response signal at once. The results of diagnostic procedure research at different winding defects are given. It is established that the place of winding damage corresponds to characteristic impulse changes. The defect of definite types causes specific changes of the probing impulse form. Therefore, different winding defects could be found with high accuracy along winding.

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基于脉冲方法的先进电机绕组状态控制技术的开发

80%以上的电能客户是电动机。因此，旋转电力设备状态控制是电力工业资源高效技术的前景之一。绕组缺陷是电动机故障的主要原因之一。绕组状态的可靠控制是现代电气工程技术的一项紧迫任务。本文主要研究了脉冲法变压器绕组控制在电机绕组状态控制中的应用。介绍了卷绕工况控制技术的流程。提出的方法是基于已知的脉冲方法。两种方法的本质区别在于只使用一个探测脉冲，即同时使用探测脉冲和响应信号。给出了不同绕组缺陷诊断程序研究的结果。确定了绕组损伤位置与特征脉冲变化相对应。确定类型的缺陷引起探测脉冲形式的特定变化。因此，沿绕线方向可以高精度地发现不同的绕线缺陷。

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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来源期刊

Resource-Efficient Technologies

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审稿时长

7 weeks