Experimental Magnetization Curve of a Transformer Considering Harmonic Distortion

2019 IEEE Workshop on Power Electronics and Power Quality Applications (PEPQA) Pub Date : 2019-05-30 DOI:10.1109/PEPQA.2019.8851565

Edwin Herlyt Lopera-Mazo, C. M. Londoño-Parra

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引用次数: 1

Abstract

Transformers are essential devices in power and distribution systems, since they reduce energy losses produced in the transmission stage. The magnetic system is the most-important part to its operation because energy conversion process will always be defined and bounded by the electromagnetic characteristics of its ferromagnetic core. This paper proposes an experimental method based on electromagnetic principles to obtain an approximated magnetization curve of an electric transformer, which can be used as a reference to analyze magnetic-system-behavior evolution through time. Moreover, the obtained magnetization curve considers voltage and current harmonic components produced during the test. Therefore, a detailed division of input transformer power is done, assuming the total active power are magnetic losses and the total non-active power corresponds to magnetization power. Obtained results showed the proposed method relevance, after comparing it with a magnetization curve which rejects harmonic content of signals and a magnetization curve released by a ferromagnetic material manufacturer.

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考虑谐波畸变的变压器实验磁化曲线

变压器是电力和配电系统中必不可少的设备，因为它可以减少传输阶段产生的能量损失。磁系统是其运行中最重要的部分，因为能量转换过程总是由其铁磁磁芯的电磁特性来定义和限制的。本文提出了一种基于电磁学原理的实验方法，获得了变压器的近似磁化曲线，可作为分析磁系统行为随时间演变的参考。得到的磁化曲线考虑了试验过程中产生的电压和电流谐波分量。因此，假定总有功功率为磁损，总无功功率对应磁化功率，对变压器输入功率进行详细划分。将该方法与抑制信号谐波含量的磁化曲线和某铁磁材料厂家发布的磁化曲线进行比较，结果表明了该方法的相关性。

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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来源期刊

2019 IEEE Workshop on Power Electronics and Power Quality Applications (PEPQA)

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