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高频激励下软磁复合材料动态磁滞模型及实验验证

荆盈张艳丽王振张殿海朱建国

中国电机工程学报2025，Vol.45Issue(7)：2845-2854,封3,11.

中国电机工程学报2025，Vol.45Issue(7)：2845-2854,封3,11.DOI:10.13334/j.0258-8013.pcsee.232696

高频激励下软磁复合材料动态磁滞模型及实验验证

Dynamic Hysteresis Model and Experimental Verification of Soft Magnetic Composites Under High Frequency Excitation

荆盈 ¹张艳丽 ¹王振 ¹张殿海 ¹朱建国²

作者信息

1. 教育部特种电机与高压电器重点实验室(沈阳工业大学),辽宁省沈阳市 110870
2. 悉尼大学电气工程系,澳大利亚悉尼 2006
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摘要

Abstract

Soft magnetic composites,due to the superior high-frequency characteristics,have become the preferred core materials in the design of transformers and motors.To enhance the efficiency and power density of these devices under high-efficiency magnetization,it is imperative to refine the accuracy of iron loss calculations during the product design phase.This paper presents a dynamic hysteresis model based on trapezoidal equivalent circuit combined with neural network,which can be used to calculate the iron loss of high frequency soft magnetic composites.This model computes static hysteresis loss,eddy current loss,and anomalous loss using non-ideal inductance,constant resistance,and nonlinear resistance,respectively.A neural network algorithm,which accurately characterizes the magnetization process,is employed to enhance the simulation accuracy of static hysteresis loops at low magnetic densities.The model also accounts for the skin effect's impact on iron losses when calculating eddy current and anomalous losses using the trapezoidal equivalent circuit.Furthermore,a magnetic characteristic testing system for soft magnetic materials under high-frequency sinusoidal excitation is developed.Experiments measuring hysteresis loops and iron losses of soft magnetic composites are conducted in the 1Hz to 10kHz frequency range.The calculated iron losses are compared with experimental data,confirming the model's accuracy in estimating losses under high-frequency sinusoidal excitation.This research offers a loss calculation method with a straightforward model structure,high precision,and practical applicability for the optimized design of transformers and motors.

关键词

软磁复合材料/梯形等效电路/神经网络/动态磁滞模型/高频正弦激励

Key words

soft magnetic composite materials/trapezoidal equivalent circuit/neural network/dynamic hysteresis model/high frequency sinusoidal excitation

分类

信息技术与安全科学

引用本文复制引用

荆盈,张艳丽,王振,张殿海,朱建国..高频激励下软磁复合材料动态磁滞模型及实验验证[J].中国电机工程学报,2025,45(7):2845-2854,封3,11.

基金项目

国家自然科学基金项目(面上项目)(52277015).Project Supported by National Natural Science Foundation of China(General Program)(52277015). （面上项目）

中国电机工程学报

OA北大核心

ISSN：0258-8013

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