Iron loss comparison of standard SiFe and nanocrystalline materials for power transformers in a dual active bridge converter

Tobias Kauder, K. Hameyer
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引用次数: 5

Abstract

This paper presents an analysis of different structured ferromagnetic materials for medium frequency applications. Metrological characteristics are performed at standardized instruments made by Brockhaus, i.e., Epstein frames and ring coil testing module. The final application is a transformer core used in a galvanically isolated phase-shifted dc-dc converter. The efficiency of a dual-active-bridge (DAB3) DC-DC converter is influenced, among others, by the iron losses of the medium frequency transformer. The iron losses of grain-oriented SiFe, non-oriented SiFe and nanocrystalline materials are measured at medium frequencies up to several kilohertz under sinusoidal excitation. The IEM-5-Parameter iron loss formula, which is based on semi-physical parameters, is used to evaluate the material characteristics. In addition, the excitation signal is adapted to the DAB3 application. The signal is examined by using a fast Fourier transform. The semi-physical iron loss separation model is adapted to consider the occurring harmonics in polarization.
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双有源桥式变换器电力变压器用标准SiFe材料与纳米晶材料铁损比较
本文分析了中频应用中不同结构的铁磁材料。计量特性是在Brockhaus制造的标准化仪器上进行的,即爱泼斯坦框架和环圈测试模块。最后一个应用是用于电隔离相移dc-dc变换器的变压器铁芯。双有源桥式(DAB3) DC-DC变换器的效率主要受中频变压器铁损耗的影响。在中频高达几千赫兹的正弦激励下,测量了晶粒取向SiFe、非取向SiFe和纳米晶材料的铁损耗。采用基于半物理参数的iem -5参数铁损公式对材料特性进行评价。此外,该激励信号适合于DAB3的应用。利用快速傅里叶变换对信号进行检测。采用半物理铁损分离模型考虑极化过程中出现的谐波。
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