Contribution To The Improvement Of The Wireless Power Transmission System Using Magnetic Inductance Systems

H Clerc Randrianjafiniarivo, J. J Zoé Tiganà MANDIMBY, Jalalaina ANDRIANAIVOARIVELO, Zely A. Randriamanantany

Abstract


This article presents a comprehensive study of the system dedicated to wireless power transmission via magnetic resonance. The primary objective of this article is to address the shortcomings in wireless power transmission through magnetic coupling. It begins with a detailed review of previous research in this field, highlighting current challenges and gaps to be overcome. A thorough analysis of magnetic resonance principles is then presented, emphasizing key aspects related to long-distance power transmission. The proposal of new coil configurations is systematically discussed, accompanied by numerical simulations. In conclusion, this article makes a significant contribution to the understanding and improvement of wireless power transmission systems through magnetic resonance. The results obtained pave the way for future developments towards the realization of intelligent, sustainable, and modern wireless charging stations.

Keywords


Transmission, Magnetic Coupling, Magnetic Resonance, Coil Configurations, Power Transmission Systems.

Full Text:

PDF

References


: "Antennas and Propagation for Wireless Communication Systems" by Simon R. Saunders and Alejandro Aragon-Zavala

: "Analysis, Experimental Results, and Range Adaptation of Magnetically Coupled Resonators for Wireless Power Transfer" Alanson P. Sample, Student Member, IEEE; David T. Meyer, Student Member, IEEE; and Joshua R. Smith, Member, IEEE, p3, March 2011

:Rectifying Loose Coils, Microwave magazine.

Antennas and Propagation for Wireless Communication Systems" by Simon R. Saunders and Alejandro Aragon-Zavala

: K. Fotopoulou and B. Flynn, “Wireless power transfer in loosely coupled links: Coil

misalignment model,” IEEE Trans. Magn., vol. 47, no. 2, pp. 416–430, 2011.

:Analysis, Experimental Results, and Range Adaptation of Magnetically Coupled Resonators for Wireless Power Transfer Alanson P. Sample, Student Member, IEEE; David T. Meyer, Student Member, IEEE; and Joshua R. Smith, Member, IEEE, p3, March 2011

: Analysis, Experimental Results, and Range Adaptation of Magnetically Coupled Resonators for Wireless Power Transfer Alanson P. Sample, Student Member, IEEE; David T. Meyer, Student Member, IEEE; and Joshua R. Smith, Member, IEEE, p4, March 2011

: J.Gozalvez, “WiTricity - The Wireless Power Transfer,” IEEE Vehicular Technology Magazine (IEE/IEEE), Vol. 2, Issue 2, 38-44, June 2007

: K. Fotopoulou and B. Flynn, “Wireless power transfer in loosely coupled links: Coil misalignment model,” IEEE Trans. Magn., vol. 47, no. 2, pp. 416–430, 2011.

: ScienceFacts.net




DOI: http://dx.doi.org/10.52155/ijpsat.v47.1.6605

Refbacks

  • There are currently no refbacks.


Copyright (c) 2024 MANDIMBY Junior Tiganà

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.