使用非滤波电压源逆变器的变压器磁化损耗

Advances in Power Electronic Pub Date : 2013-05-08 DOI:10.1155/2013/261959

Rickard Ekström, Senad Apelfröjd, M. Leijon

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引用次数: 6

摘要

本文给出了用直接耦合非滤波三相电压源逆变器(VSI)对80kva电力变压器进行磁化的结果。这种拓扑结构的主要优点是减小了开关滤波器的尺寸以及滤波器的损耗。缺点包括变压器绕组的应力较大和变压器的磁化损耗较大。本文给出了不同电压水平下的总磁化损耗。变压器已在不同电压水平下以50hz的额定频率磁化。导出了饱和特性和磁化电阻作为电压的函数。这些被用作模拟的输入。对三种不同直流电平下的磁化损耗进行了实验测量和模拟。仿真结果与实验结果吻合较好。正如预期的那样，脉冲电压波形比相应的50 Hz情况产生更大的磁化损失。损耗很大程度上依赖于直流电平。

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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Transformer Magnetization Losses Using a Nonfiltered Voltage-Source Inverter

Results from the magnetization of an 80 kVA power transformer, using a directly coupled nonfiltered three-phase voltage-source inverter (VSI), are presented. The major benefits of this topology are reduction in switching filter size as well as filter losses. Drawbacks include higher stress on the transformer windings and higher transformer magnetization losses. In this paper, the total magnetization losses are presented for different voltage levels. The transformer has been magnetized with the rated frequency of 50 Hz at various voltage levels. The saturation characteristics as well as the magnetizing resistance are derived as functions of the voltage. These are used as inputs for the simulations. The magnetization losses have been experimentally measured and simulated for three different DC levels. Results from the simulations show good agreement with the experimental results. As expected, the pulsed voltage waveforms generate larger magnetization losses than the corresponding 50 Hz case. The losses are strongly dependent on the DC level.

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Advances in Power Electronic

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