《电力自动化设备》

引用本文:	张慧英,田铭兴,柴佐时,王田戈.基于Jiles-Atherton逆模型的磁阀式可控电抗器特性计算[J].电力自动化设备,2018,(11):
	ZHANG Huiying,TIAN Mingxing,CHAI Zuoshi,WANG Tiange.Characteristic calculation of magnetic-valve controllable reactor based on inverse Jiles-Atherton model[J].Electric Power Automation Equipment,2018,(11):

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基于Jiles-Atherton逆模型的磁阀式可控电抗器特性计算
张慧英^1,2, 田铭兴^1,2, 柴佐时^1,2, 王田戈^1,2
1.兰州交通大学自动化与电气工程学院，甘肃兰州 730070;2.兰州交通大学甘肃省轨道交通电气自动化工程实验室，甘肃兰州730070

摘要:

在分析计算磁阀式可控电抗器(MCR)的特性时，必须考虑交、直流共同激励和铁芯磁路各部分磁化状态不同的特点。提出了基于Jiles-Atherton逆模型的MCR等效磁化特性模型，该模型考虑了磁滞、直流偏磁和小截面磁阀等因素对磁化特性的影响，适用于不同结构参数下的MCR；基于等效磁化特性模型提出了MCR电流特性、控制特性和损耗特性的计算公式和方法；针对一个MCR样机进行了理论计算和实验测量，同时与基于理想小斜率模型的计算结果进行了对比。结果表明，提出的MCR等效磁化特性模型及其电流特性、控制特性和损耗特性计算方法是正确有效的，对MCR的工程设计计算有一定的参考和指导意义。

关键词: 磁阀式可控电抗器 Jiles-Atherton逆模型磁化特性计算

DOI：10.16081/j.issn.1006-6047.2018.11.019

分类号:

基金项目:国家自然科学基金资助项目(51367010,51167009)；甘肃省科技计划项目(17JR5RA083)；兰州交通大学优秀科研团队项目(201701)

Characteristic calculation of magnetic-valve controllable reactor based on inverse Jiles-Atherton model

ZHANG Huiying^1,2, TIAN Mingxing^1,2, CHAI Zuoshi^1,2, WANG Tiange^1,2

1.School of Automation & Electrical Engineering, Lanzhou Jiaotong University, Lanzhou 730070, China;2.Gansu Province Engineering Laboratory for Rail Transit Electrical Automation, Lanzhou Jiaotong University, Lanzhou 730070, China

Abstract:

In the calculation and analysis of the characteristics of the MCR(Magnetic valve Controllable Reactor),it is necessary to consider the characteristics of both AC and DC excitation and different magnetization states of the core magnetic circuit. Firstly, an equivalent magnetization characteristic model of MCR based on inverse Jiles-Atherton model is proposed. This model considers the effects of hysteresis, DC magnetic bias and small section magnetic valve on the magnetization characteristics, and it is suitable for MCR with different structural parameters. Subsequently, the calculating formulas and methods for current characteristics, control characteristics and loss characteristics of MCR are proposed based on the equivalent magnetization model. Finally, the theoretical calculation and experimental measurement for a MCR prototype are carried out, and the results are compared with those based on the ideal small slope model. Test results indicate that the proposed MCR equivalent magnetization characteristic model and its current characteristic, control characteristic and loss characteristic calculation method are correct and effective, which provides a certain reference and guidance for engineering design and calculation of MCR.

Key words: magnetic valve controllable reactor inverse Jiles-Atherton model magnetization characteristic calculation

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