Design of Wireless Power Transmission System with Double D-coil
Authors: 
Kun Li, Shijie Zhang, Qing Liu, Junyou Liu, Peng Wang, Hongyang Gao, Heming Wang, Hongzheng WangAuthors Info & Claims
Kun Li, Shijie Zhang, Qing Liu, Junyou Liu, Peng Wang, Hongyang Gao, Heming Wang, Hongzheng WangAuthors Info & ClaimsPages 1049 - 1054
Abstract
Aiming at the problem that in the tradition double-coil resonance wireless power transmission system, the receiving coil misalignment in the center of the transmitting coil, resulting in a rapid decline in transmission effect. This paper creatively proposes the double D-coil wireless power transmission system, and compared with the traditional two-coil WPT system, a series of experiments have been designed. The results show that when the double D-coil system moves along the y-axis, a higher S21 value can be obtained and it will not decrease significantly with the offset. The S21 value in the X-axis direction is also higher than that of the tradition two-coil system.
References
[1]
Huang, X., Wang, W., & Tan, L. (2017). Technical progress and application development of magnetic coupling resonant wireless power transfer. Automation of Electric Power Systems.
[2]
K. Li et al., "Influence of Coil Radius, Distance and Working Frequency on Efficiency in Two-Coil Magnetically Coupled Resonant Wireless Power Transmission System," 2019 IEEE International Conference on Mechatronics and Automation (ICMA), Tianjin, China, 2019, pp. 2121--2125.
[3]
Sampath, J. P. K., Alphones, A., & Shimasaki, H. (2017). Coil design guidelines for high efficiency of wireless power transfer (WPT). 2016 IEEE Region 10 Conference (TENCON). IEEE.
[4]
Feenaghty, M., & Dahle, R. (2016). A compact and high quality factor Archimedean coil geometry for wireless power transfer. 2016 IEEE Wireless Power Transfer Conference (WPTC). IEEE.
[5]
Nam, H. V., Ninh, D. D., Hyoungjun, K., & Chulhun, S. (2017). High-efficiency wireless power transfer by optimal load and metamaterial slab. Ice Electronics Express, 14(14), 14.
[6]
Miller, J. M., Onar, O. C., White, C., Campbell, S., & Steyerl, A. (2014). Demonstrating dynamic wireless charging of an electric vehicle: the benefit of electrochemical capacitor smoothing. Power Electronics Magazine IEEE, 1(1), 12--24.
[7]
Kurs, André, Karalis, Aristeidis, Moffatt, & Robert. (2007). Wireless power transfer via strongly coupled magnetic resonances. Science.
[8]
Lin, D., Zhang, C., & Hui, S. Y. R. (2016). Mathematic analysis of omnidirectional wireless power transfer---part-ii three-dimensional systems. IEEE Transactions on Power Electronics, 32(1), 613--624.
Index Terms
- Design of Wireless Power Transmission System with Double D-coil
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Published In
November 2020
1202 pages
ISBN:9781450387811
DOI:10.1145/3443467
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Association for Computing Machinery
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Published: 01 February 2021
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EITCE 2020
EITCE 2020: 2020 4th International Conference on Electronic Information Technology and Computer Engineering
November 6 - 8, 2020
Xiamen, China
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EITCE '20 Paper Acceptance Rate 214 of 441 submissions, 49%;
Overall Acceptance Rate 508 of 972 submissions, 52%
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