Dynamic Hysteresis Modeling Method for Iron Core in High-frequency Transformers Based on Permeance-capacitance Analogy and Energetic Model

CHEN Bin; CHEN Yibo; WAN Nina; HUANG Li; TANG Bo

doi:10.13334/j.0258-8013.pcsee.240353

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Dynamic Hysteresis Modeling Method for Iron Core in High-frequency Transformers Based on Permeance-capacitance Analogy and Energetic Model

更新时间：2026-02-02

- Dynamic Hysteresis Modeling Method for Iron Core in High-frequency Transformers Based on Permeance-capacitance Analogy and Energetic Model
- Vol. 45, Issue 16, Pages: 6591-6602(2025)
- 作者机构：
  
  1. 湖北省输电线路工程技术研究中心(三峡大学),湖北省,宜昌市,443002
  2. 三峡大学电气与新能源学院,湖北省,宜昌市,443002
  3. 国网湖北省电力有限公司宜昌供电公司,湖北省,宜昌市,443002
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.240353
  CLC：
- Published：2025
- 稿件说明：
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CHEN Bin, CHEN Yibo, WAN Nina, et al. Dynamic Hysteresis Modeling Method for Iron Core in High-frequency Transformers Based on Permeance-capacitance Analogy and Energetic Model[J]. 2025, 45(16): 6591-6602.
DOI：

CHEN Bin, CHEN Yibo, WAN Nina, et al. Dynamic Hysteresis Modeling Method for Iron Core in High-frequency Transformers Based on Permeance-capacitance Analogy and Energetic Model[J]. 2025, 45(16): 6591-6602. DOI： 10.13334/j.0258-8013.pcsee.240353.

摘要

高频变压器是能量路由器、光伏逆变器等功率变换装置的关键设备，运行中存在复杂的电磁暂态工况。为了构建精确的高频变压器电磁暂态模型，需要准确模拟铁芯动态磁滞特性。该文首先在电力电子仿真软件PLECS中将磁导-电容类比法与Energetic磁滞模型相结合，构建表征静态磁滞效应的铁芯静态磁滞磁导模型；其次，在静态磁滞磁导模型基础上，依据损耗统计理论，引入磁阻和受控磁动势源用以表征铁芯涡流损耗和剩余损耗的动态损耗分量，构建铁芯动态磁滞磁导模型；然后，基于不同工况下实验测量数据，结合损耗统计理论与场分离技术获得各频率下静态磁滞回线，推导静态模型参数随频率变化规律，得到考虑静态参数频率效应的动态磁滞磁导模型特征参数；最后，将所建铁芯模型在不同频率、磁密的正弦波与不同占空比方波激励下的仿真结果与实验测量结果进行对比分析，验证铁芯模型的有效性。

Abstract

High-frequency transformers are key equipment for power conversion devices such as energy routers and photovoltaic inverters

encountering complex transient conditions. To establish an accurate electromagnetic transient model for high-frequency transformers

it is essential to simulate the dynamic hysteresis characteristics of the core precisely. First

This paper integrates the permeance-capacitance analogy method with the Energetic hysteresis model in the power electronics simulation software PLECS

constructing a static hysteresis permeance model of the core

representing the static hysteresis effect. Secondly

based on the static hysteresis permeance model

and in accordance with the principle of loss separation

magnetic resistance and controlled magnetomotive force sources are introduced to characterize the dynamic loss components of eddy current loss and residual loss in the iron core

and a dynamic hysteresis permeance model of the iron core is constructed. Then

based on experimental measurement data under different operating conditions

combined with the principle of loss separation and field separation technology

static hysteresis loops are calculated at various frequencies. The variation law of static model parameters with frequency is derived

and the characteristic parameters of the dynamic hysteresis permeance model considering the frequency effect of static parameters are obtained. Finally

the simulation results and experimental measurement results of the proposed model under sinusoidal and variable duty cycle square waves with different frequencies and magnetic densities are compared and analyzed to verify its effectiveness.

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