Publication detail

Design of Power Coupled Resonant Circuit for Wireless Power Transfer

TOMÁNEK, R. MARTIŠ, J. VOREL, P.

Original Title

Design of Power Coupled Resonant Circuit for Wireless Power Transfer

English Title

Design of Power Coupled Resonant Circuit for Wireless Power Transfer

Type

conference paper

Language

en

Original Abstract

This paper describes the design of a power coupled resonant circuit for wireless power transfer with coils distance of 600 mm and a nominal power of 20 kW. The transfer is provided by the inductive coupling of the resonant circuit with 800 mm diameter coils. The resonant circuit is powered by an inverter with IGBT modules working on frequency 130 kHz. The functionality of the realized device is verified by measurements, the evaluation of which is at the end of the article.

English abstract

This paper describes the design of a power coupled resonant circuit for wireless power transfer with coils distance of 600 mm and a nominal power of 20 kW. The transfer is provided by the inductive coupling of the resonant circuit with 800 mm diameter coils. The resonant circuit is powered by an inverter with IGBT modules working on frequency 130 kHz. The functionality of the realized device is verified by measurements, the evaluation of which is at the end of the article.

Keywords

wireless power transfer, resonant drive, coupled resonant circuit

Released

09.09.2020

Publisher

Brno University of Technology

Location

Brno

ISBN

978-80-214-5889-5

Book

Advanced Batteries Accumulators and Fuel Cells – 21st ABAF

Edition

1

Pages from

184

Pages to

186

Pages count

3

URL

https://www.aba-brno.cz/download/2020-ABAF-Proceeding.pdf

Documents

BibTex 


@inproceedings{BUT164366,
  author="Radek {Tománek} and Jan {Martiš} and Pavel {Vorel}",
  title="Design of Power Coupled Resonant Circuit for Wireless Power Transfer",
  annote="This paper describes the design of a power coupled resonant circuit for wireless power transfer with coils distance of 600 mm and a nominal power of 20 kW. The transfer is provided by the inductive coupling of the resonant circuit with 800 mm diameter coils. The resonant circuit is powered by an inverter with IGBT modules working on frequency 130 kHz. The functionality of the realized device is verified by measurements, the evaluation of which is at the end of the article.",
  address="Brno University of Technology",
  booktitle="Advanced Batteries Accumulators and Fuel Cells – 21st ABAF",
  chapter="164366",
  edition="1",
  howpublished="online",
  institution="Brno University of Technology",
  year="2020",
  month="september",
  pages="184--186",
  publisher="Brno University of Technology",
  type="conference paper"
}