Applications of negative permeability metamaterials for electromagnetic resonance type wireless power transfer systems

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY EPJ Applied Metamaterials Pub Date : 2023-01-01 DOI:10.1051/epjam/2022020
Kaiqi Nie, Qing Hou
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引用次数: 1

Abstract

With the development of electric drive systems such as unmanned aerial vehicles and electric vehicles, the charging problem of power supply devices has become increasingly prominent. However, the traditional charging method requires physical circuits, which makes it impossible to achieve freedom of the position in actual use. The wireless power transmission technology, which mainly relies on electromagnetic wave to complete energy transmission, is expected to get rid of the restriction of physical space location and solve the problem of charging location, which has great potential in medical treatment, rescue, detection and other fields. However, the low transmission efficiency and short transmission distance caused by electromagnetic field leakage are the two main problems faced by radio energy transmission systems. In general, with the increase of transmission distance, the transmission efficiency will drop sharply. Fortunately, inserting a negative permeability metamaterial with extraordinary electromagnetic characteristics into the transmitting and receiving coils will greatly alleviate this attenuation trend and can also shield electromagnetic radiation to a certain extent. In this paper, some experiments of negative permeability metamaterials used in electromagnetic resonance type wireless power transfer systems are summarized for reference.
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负磁导率超材料在电磁共振型无线电力传输系统中的应用
随着无人机、电动汽车等电驱动系统的发展,供电设备的充电问题日益突出。然而,传统的充电方式需要物理电路,这使得在实际使用中无法实现位置自由。无线电力传输技术主要依靠电磁波完成能量传输,有望摆脱物理空间位置的限制,解决充电位置问题,在医疗、救援、检测等领域具有巨大潜力。然而,由于电磁场泄漏导致的传输效率低和传输距离短是无线能量传输系统面临的两个主要问题。一般情况下,随着传输距离的增加,传输效率会急剧下降。幸运的是,在发射和接收线圈中插入具有特殊电磁特性的负磁导率超材料将大大缓解这种衰减趋势,并在一定程度上屏蔽电磁辐射。本文总结了一些应用于电磁共振型无线传输系统的负磁导率超材料的实验结果,以供参考。
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来源期刊
EPJ Applied Metamaterials
EPJ Applied Metamaterials MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
3.10
自引率
6.20%
发文量
16
审稿时长
8 weeks
期刊最新文献
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