Defu Hu scite author profile

With the development of various electronics, the way of transmitting energy by wire has brought increasingly negative effects on the operability and convenience of products. As wireless power transfer (WPT) technology requires no transmission lines, it has received increasingly wide attention. Most of the previous research on the technology of magnetic resonant coupling WPT mainly focused on the transmission of energy in the air. This paper establishes the wireless power transfer system model under non-ferromagnetic metallic environment and studies the effect of non-ferromagnetic metallic environment on coil self-inductance L, mutual inductance M and coil resistance R of WPT system. On this basis, the study on the relationship between coil diameter and mutual inductance is carried out for aluminium pipe, and the relationship between coil diameter and diameter of metal pipe at the maximum mutual inductance is fitted. Besides, experimental verification is conducted for the change of mutual inductance between the coils of WPT system in the aluminium pipe, presenting that the actual measurement results of mutual inductance in the aluminium pipe are consistent with the theory.

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Research on the Characteristics of Wireless Power Transfer in Ferromagnetic Metal Pipe

Sun

et al. 2020

J. Phys.: Conf. Ser.

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With the development of society, radio energy transmission technology has been paid more and more attention. However, in the actual application environment, the surrounding metal environment has a significant impact on the radio energy transmission performance. Based on the technology of MRR radio energy transmission, this paper establishes a two coil radio energy transmission model, and analyzes the influence of metal environment on the coil self inductance L, mutual inductance m and coil resistance R of the radio energy transmission system by finite element simulation. On this basis, aiming at the ferromagnetic metal environment, the steel pipe is selected as the research object to study the relationship between coil diameter and mutual inductance in the metal pipe, and the relationship between coil diameter and metal pipe diameter when the maximum mutual inductance is obtained through fitting analysis. At the same time, through the experiment, the mutual inductance between the coils of the wireless energy system in the steel tube is verified, and the experimental results are very consistent with the theory.

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Research on Influence Rules of Metal Sheet on Magnetic Resonance Coupling Wireless Power Transmission System

Cao

Wang

et al. 2018

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Defu Hu

Transmission characteristics of magnetic resonance coupling‐based multi‐load wireless power transmission system

Research on the Characteristics of Wireless Power Transfer in Non-ferromagnetic Metal Pipe

Research on the Characteristics of Wireless Power Transfer in Ferromagnetic Metal Pipe

Research on Influence Rules of Metal Sheet on Magnetic Resonance Coupling Wireless Power Transmission System

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