Single-phase wireless power transfer system controlled by magnetic core reactors at transmitter and receiver

Luis Romba; Stanimir S. Valtchev; Rui Melício

doi:10.1007/978-3-319-56077-9_41

Single-phase wireless power transfer system controlled by magnetic core reactors at transmitter and receiver

Luis Romba, Stanimir S. Valtchev, Rui Melício

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

The applications of wireless power transmission have become widely increasing over the last decade, mainly in the battery charging systems for electric vehicles. This paper focuses on the single-phase wireless power transfer prototype controlled by magnetic core reactors in either side of the system: that of the transmitter, and that of the receiver. The described wireless power transfer system prototype employs a strong magnetic coupling technology to improve the power transmission efficiency. In the same time, a magnetic core reactor is used to control the “tuning” between the transmitter and the receiver frequencies, allowing for that increase of the system efficiency. Finally, practical results of the implemented prototype are presented.

Original language	English
Title of host publication	Technological Innovation for Smart Systems - 8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017, Proceedings
Publisher	Springer New York LLC
Pages	419-428
Number of pages	10
ISBN (Print)	9783319560762
DOIs	https://doi.org/10.1007/978-3-319-56077-9_41
Publication status	Published - 2017
Event	8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017 - Costa De Caparica, Portugal Duration: 3 May 2017 → 5 May 2017

Publication series

Name	IFIP Advances in Information and Communication Technology
Volume	499
ISSN (Print)	1868-4238

Conference

Conference	8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017
Country	Portugal
City	Costa De Caparica
Period	3/05/17 → 5/05/17

Keywords

Magnetic core reactor
Strongly magnetic coupling
Wireless power transfer

Access to Document

10.1007/978-3-319-56077-9_41Licence: CC BY-NC-ND

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Romba, L., Valtchev, S. S., & Melício, R. (2017). Single-phase wireless power transfer system controlled by magnetic core reactors at transmitter and receiver. In Technological Innovation for Smart Systems - 8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017, Proceedings (pp. 419-428). (IFIP Advances in Information and Communication Technology; Vol. 499). Springer New York LLC. https://doi.org/10.1007/978-3-319-56077-9_41

Romba, Luis ; Valtchev, Stanimir S. ; Melício, Rui. / Single-phase wireless power transfer system controlled by magnetic core reactors at transmitter and receiver. Technological Innovation for Smart Systems - 8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017, Proceedings. Springer New York LLC, 2017. pp. 419-428 (IFIP Advances in Information and Communication Technology).

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abstract = "The applications of wireless power transmission have become widely increasing over the last decade, mainly in the battery charging systems for electric vehicles. This paper focuses on the single-phase wireless power transfer prototype controlled by magnetic core reactors in either side of the system: that of the transmitter, and that of the receiver. The described wireless power transfer system prototype employs a strong magnetic coupling technology to improve the power transmission efficiency. In the same time, a magnetic core reactor is used to control the “tuning” between the transmitter and the receiver frequencies, allowing for that increase of the system efficiency. Finally, practical results of the implemented prototype are presented.",

keywords = "Magnetic core reactor, Strongly magnetic coupling, Wireless power transfer",

author = "Luis Romba and Valtchev, {Stanimir S.} and Rui Mel{\'i}cio",

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Romba, L, Valtchev, SS & Melício, R 2017, Single-phase wireless power transfer system controlled by magnetic core reactors at transmitter and receiver. in Technological Innovation for Smart Systems - 8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017, Proceedings. IFIP Advances in Information and Communication Technology, vol. 499, Springer New York LLC, pp. 419-428, 8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017, Costa De Caparica, Portugal, 3/05/17. https://doi.org/10.1007/978-3-319-56077-9_41

Single-phase wireless power transfer system controlled by magnetic core reactors at transmitter and receiver. / Romba, Luis; Valtchev, Stanimir S.; Melício, Rui.

Technological Innovation for Smart Systems - 8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017, Proceedings. Springer New York LLC, 2017. p. 419-428 (IFIP Advances in Information and Communication Technology; Vol. 499).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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AB - The applications of wireless power transmission have become widely increasing over the last decade, mainly in the battery charging systems for electric vehicles. This paper focuses on the single-phase wireless power transfer prototype controlled by magnetic core reactors in either side of the system: that of the transmitter, and that of the receiver. The described wireless power transfer system prototype employs a strong magnetic coupling technology to improve the power transmission efficiency. In the same time, a magnetic core reactor is used to control the “tuning” between the transmitter and the receiver frequencies, allowing for that increase of the system efficiency. Finally, practical results of the implemented prototype are presented.

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Romba L, Valtchev SS, Melício R. Single-phase wireless power transfer system controlled by magnetic core reactors at transmitter and receiver. In Technological Innovation for Smart Systems - 8th IFIP WG 5.5/SOCOLNET Advanced Doctoral Conference on Computing, Electrical and Industrial Systems, DoCEIS 2017, Proceedings. Springer New York LLC. 2017. p. 419-428. (IFIP Advances in Information and Communication Technology). https://doi.org/10.1007/978-3-319-56077-9_41