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基于有限元分析的无线充电线圈的铁氧体设计 被引量:2

Ferrite design for wireless charging coil based onfinite element analysis
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摘要 电动汽车无线电能传输(WPT)线圈包括线圈本身、线圈托板和铁氧体三部分。放置在发射、接收线圈垂直方向外侧的铁氧体磁片对电动汽车无线充电系统有增大传输距离和传输效率的作用。为了实现铁氧体磁片的设计,以7.7 kW无线电能传输接收线圈为例,在有限元分析软件ANSYS建立其有限元模型,通过控制变量法对铁氧体磁片参数变化情况下线圈参数的变化进行仿真研究;分析了线圈各参数的特性和相互之间的约束关系;给出无线电能传输线圈铁氧体磁片的设计依据;最后根据分析结果搭建实物模型进行验证。实验结果表明:在线圈尺寸确定时,增加所设计的铁氧体磁片后系统的传输功率可达到7.7 kW,传输效率最高为93.5%。 The wireless power transmission(WPT)coil of the electric vehicle includes a coil itself,a coil tray and a ferrite.The ferrite magnetic sheet placed outside the vertical direction of the transmitting and receiving coils has an effect of increasing the transmission distance and the transmission efficiency of the electric vehicle wireless charging system.In order to realize the design of ferrite magnetic sheet,taking the 7.7 kW WPT receiving coil as an example,establishing its finite element model in finite element analysis software ANSYS.Simulation study on the change of coil parameters under the variation of ferrite magnetic sheet parameters by controlled variable method,analyze the characteristics of the parameters of the coil and the constraint relationship between them,the overall design basis for the ferrite magnetic sheet of the wireless energy transmission coil is given,Finally,based on the analysis results,build a physical model to verify.It is found that when the coil size is determined,the transmission power of the system can be up to 7.7 kW and the transmission efficiency is up to 93.5%after the designed ferrite magnetic sheet is added.
作者 夏晓雪 朱玉玉 曹鑫 高传薪 武丽 XIA Xiaoxue;ZHU Yuyu;CAO Xin;GAO Chuanxin;WU Li(School of Information Engineering,Southwest University of Science and Technology,Mianyang 621000,China;School of Electrical Engineering,Sichuan University,Chengdu 610000,China)
机构地区 西南科技大学信息工程学院 四川大学电气工程学院
出处 《传感器与微系统》 CSCD 北大核心 2021年第8期68-72,共5页 Transducer and Microsystem Technologies
关键词 无线电能传输线圈 铁氧体磁片 有限元分析 传输功率 传输效率 wireless power transmission(WPT)coil ferrite magnetic sheet finite element analysis transmission power transmission efficiency
分类号 TM933 [电气工程—电力电子与电力传动]
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传感器与微系统
2021年 第8期

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