DESIGN AND IMPLEMENTATION OF A RESONANT WIRELESS POWER TRANSMISSION SYSTEM BASED ON A SELF OSCILATING D.C-A.C CONVERTER

Authors

  • Hans Hoffmann Sathler
  • Pedro Donoso Garcia
  • Ulisses Fabrini Barbosa
  • Felipe de Oliveira Silva Zanon
  • Úrsula do Carmo Resende

DOI:

https://doi.org/10.26512/ripe.v2i25.20843

Keywords:

Wireless Power Transmission. Self-Oscillating Converter. Inductive Coupling.

Abstract

In the present work a complete wireless power system, composed by two identical units (Transmitter and Receiver) and a Power Electronic Converter (PEC), was designed and built. Receiver unit is constituted of two wire coils, drive coil (DC) and main coil (MC), while transmitter unit have only a MC. In transmitter unit the MC is connected to the PEC. In the receiver unit the DC is connected to a load of 1kΩ and inductively coupled to the MC. DC has one turn and MC ten turns with 8.3894 ï­H. As the natural capacitance of each MC is very small, a capacitor was solder in parallel with each MC to reduce the resonant frequency to about 1.3MHz. The PEC is a self-oscillating DC-AC power converter projected to work in the range from 800kHz to 3MHz.

Downloads

Download data is not yet available.

References

Brown, W. C., 1984. The History of Power Transmission by Radio Waves. pp. 1230-1242.

Kurs, A. et al., 2007. Wireless Power Transfer Via Strongly Coupled Magnetic Resonances. Science, Volume 317.

W Wei, Y. K. N. K. T. A., 2014. Characteristic Analysis of Double Spiral Resonator for Wireless Power Transmission. January.

Jonah, O. & Georgakopoulos, S. V., 2013. Wireless Power Transfer in Concrete Via Strongly Coupled Magnetic Resonance. 3 March.

Bonifácio, N., 2009. "Transmissão de Energia Sem Fios".

Wenzhen, F., 2008. Analysis of Transmission Mechanism and Efficiency of Resonance Coupling Wireless Energy Transfer System in Electrical Machines.ICEMS.

Balanis, C. A., 2005. Antenna Theory Analysis & Design.

J. C. MAXWELL, 2002. A Treatise on Electricity and Magnetism, Oxford Classic Texts in the Physical Sciences, No 1, New York.

Queiroz, A. C. M. d., 2003. "Cálculo de Indutâncias e Indutâncias Mútuas pelo Método de Maxwell". "Semana da Elerônica", September.

Knight, D. W., 2010. The Self-Resonance and Self-Capacitance of Solenoid Coils. [Online] Available at: www.g3ynh.info/ . Accessed in: March 2016.

Downloads

Published

2017-02-10

How to Cite

Sathler, H. H., Garcia, P. D., Barbosa, U. F., Silva Zanon, F. de O., & Resende, Úrsula do C. (2017). DESIGN AND IMPLEMENTATION OF A RESONANT WIRELESS POWER TRANSMISSION SYSTEM BASED ON A SELF OSCILATING D.C-A.C CONVERTER. Revista Interdisciplinar De Pesquisa Em Engenharia, 2(25), 49–58. https://doi.org/10.26512/ripe.v2i25.20843

Issue

Vol. 2 No. 25 (2016): UNDERGRADUATE POSTER SESSION (I)

Section

Artigos

License

Given the public access policy of the journal, the use of the published texts is free, with the obligation of recognizing the original authorship and the first publication in this journal. The authors of the published contributions are entirely and exclusively responsible for their contents.

1. The authors authorize the publication of the article in this journal.
2. The authors guarantee that the contribution is original, and take full responsibility for its content in case of impugnation by third parties.
3. The authors guarantee that the contribution is not under evaluation in another journal.
4. The authors keep the copyright and convey to the journal the right of first publication, the work being licensed under a Creative Commons Attribution License-BY.
5. The authors are allowed and stimulated to publicize and distribute their work on-line after the publication in the journal.
6. The authors of the approved works authorize the journal to distribute their content, after publication, for reproduction in content indexes, virtual libraries and similars.
7. The editors reserve the right to make adjustments to the text and to adequate the article to the editorial rules of the journal.