MPSST多绕组高频变压器的设计与实现

M. Rashidi, Abedalsalam Bani-Ahmed, Robabeh Nasiri, A. Mazaheri, A. Nasiri
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引用次数: 17

摘要

近年来,随着新一代大功率高频电力电子开关的发展,以及对小型可控变流器的需求,使得固态变压器领域取得了重大发展。本文阐述了作为固态变压器主要元件的高频变压器的设计过程。本课题设计、研究并制作了一种适用于多端口SST应用的多绕组变压器。在MPSST中,几个绕组为磁芯供电。因此,各对绕组之间的耦合系数成为本文研究的重要因素。由于变压器是为高频应用而设计的,因此由于高频时较高的集肤效应和涡流损耗,变压器导线和铁芯的功率损耗增加。本文讨论了MPSST高频变压器设计中的三个重要因素。首先,根据磁通密度、频率范围、损耗和价格对四种可能的磁芯材料进行了比较。然后对电缆的选择进行了说明,最后提出了在同一磁芯上不同绕组的布置和分布,并利用ANSYS Maxwell三维仿真计算了电感和耦合系数矩阵。该变压器是在实验室中构建的,其电感值与仿真的期望值相匹配。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and implementation of a multi winding high frequency transformer for MPSST application
Development of the new generation of high power and high frequency power electronic switches along with the need for compact controllable converters for utilization of distributed energy resources in the grid, have led to significant developments in the area of solid state transformers in the last years. The design process of a high frequency transformer as the main element in the solid state transformer is illustrated in this article. A multi winding transformer for multiport SST application is designed, studied and built in this research. In a MPSST several windings feed the core. As the result, coupling coefficient between each pair of windings, become an important factor which is studied in this study. Since the transformer is designed for high frequency applications, the power loss in the wire and core of the transformer increases as the result of higher skin effect and eddy current loss in high frequency. Three important factors in the design of HF transformer for MPSST are discussed in the paper. First, four different possible core materials are compared based on their flux density, frequency range, loss and price. Then the cable selection is illustrated and finally, different winding placement and distribution on the same core are suggested and the inductance and coupling coefficient matrices are calculated using ANSYS Maxwell 3D simulation. The transformer is built in the lab and the inductance values matches the expected values from the simulation.
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