Abstract
In this paper, a theoretical study for the design of multi-source transmitters suitable for perpendicular dynamic wireless power transfer is presented. Unlike conventional systems, the concept presented here overcomes the traditional limitation on the receiver's orientation by providing an optimal distribution of the transmitted energy obtained by using different sources. For this purpose, a theoretical study of different transmitters has been achieved by solving the inverse problem. Comparison with conventional single-source transmitters carrying the same total current as the multi-source transmitters, shows a significant enhancement of the power gain when a Genetic Algorithm is used. The obtained theoretical results show power gain levels over 7.5 dB for different path lengths at different heights. At the end, a solution for a path of an infinite length is presented.
Subject
Electrical and Electronic Engineering,Computer Networks and Communications,Energy Engineering and Power Technology
Reference20 articles.
1. Genetic Algorithms + Data Structures = Evolution Programs
2. Detection of Electromagnetic Radiations Sources at the Switching Time Scale Using an Inverse Problem-Based Resolution Method—Application to Power Electronic Circuits
3. Jonah O. ; Georgakopoulos S.V. ; Tentzeris M.M. : Orientation insensitive power transfer by magnetic resonance for mobile devices, in Proc. 2013 IEEE Wireless Power Transfer, Perugia, Italy, May 2013, 5–9.
4. RF-Powered Stent With Integrated Circuit Breaker for Safeguarded Wireless Hyperthermia Treatment
5. Waffenschmidtt E. ; Staring T. : Limitation of inductive power transfer for consumer applications, in EPE ’09 13th European Conf. on Power Electronics and Applications, September 2009, 2009, 1–10.
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