Power losses calculation in modern solid ferromagnetics throughout the implicit iterative method within 3D fields analysis

2021 6th International Conference on Nanotechnology for Instrumentation and Measurement (NanofIM) Pub Date : 2021-11-25 DOI:10.1109/NanofIM54124.2021.9737346

D. Koteras, B. Tomczuk, A. Waindok

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引用次数: 1

Abstract

The prediction and measurement verification of power losses in modern solid ferromagnetic cores operating at medium frequency has been described. The cores are made of nanostructures. After three-dimensional field analysis in the above-mentioned cores, the integral parameters of the field were determined. They differ from the catalog ones. Manufacturers do not provide the values of electrical conductivity and magnetic permeability in a wide range of the flux density values and operating frequencies. Particularly, this applies the electrical conductivities of the solid core, which are necessary for correct determination of eddy current losses. The original implicit iterative algorithm for calculation of the conductivity values under given operating frequencies was developed and presented. The calculated magnetic core losses have been tested for such solid materials as the magnetically soft composite (SMC) called Somaloy and for a ferrite. Good compliance of the calculated hysteresis losses and the eddy current ones with the measured values was obtained.

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功率损耗计算在现代固体铁磁中贯穿于三维场分析的隐式迭代法

介绍了中频工作的现代固体铁磁铁芯功率损耗的预测和测量验证。核心是由纳米结构制成的。通过对上述岩心的三维场分析，确定了三维场的整体参数。它们与目录上的不同。制造商没有提供大范围磁通密度值和工作频率下的电导率和磁导率值。特别是，这适用于固体铁芯的电导率，这是正确测定涡流损耗所必需的。提出了计算给定工作频率下电导率值的隐式迭代算法。计算出的磁芯损耗已经在软磁复合材料(SMC) Somaloy和铁氧体等固体材料中进行了测试。计算得到的磁滞损耗和涡流损耗与实测值吻合较好。

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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2021 6th International Conference on Nanotechnology for Instrumentation and Measurement (NanofIM)

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