Incident Electric Field Effect and Numerical Dosimetry for a Wireless Power Transfer System Using Magnetically Coupled Resonances

Author

Sang Wook Park ; Wake, Kanako ; Watanabe, Shigetaka

Author_Institution

Nat. Inst. of Inf. & Commun. Technol., Tokyo, Japan

Volume

61

Issue

9

fYear

2013

fDate

Sept. 2013

Firstpage

3461

Lastpage

3469

Abstract

We conducted a dosimetry study of a wireless power transfer (WPT) system, which is based on magnetically coupled resonances. The electric and magnetic fields produced by the system have been calculated using the method of moments. We calculated the induced electric fields and the specific absorption rates in a Japanese adult male model by the scattered-field finite-difference time-domain method, taking into account both the incident electric and magnetic fields, and also by the impedance method, but only taking into account the incident magnetic fields. We discuss the differences between the results obtained by the two methods. We also discuss the compliance of the WPT system with international safety guidelines.

Keywords

bioelectric potentials; biomagnetism; dosimetry; electric impedance; finite difference time-domain analysis; magnetic resonance; Japanese adult male model; impedance method; incident electric field effect; induced electric fields; international safety guidelines; magnetic fields; magnetically coupled resonances; method-of-moments; numerical dosimetry; scattered-field finite-difference time-domain method; specific absorption rates; wireless power transfer system; Coils; Computational modeling; Dosimetry; Finite difference methods; Guidelines; Impedance measurement; Magnetic resonance; Dosimetry; IF; finite-difference time-domain (FDTD) method; impedance method; quasi-static approximation (QSA); wireless power transfer (WPT) system;

fLanguage

English

Journal_Title

Microwave Theory and Techniques, IEEE Transactions on

Publisher

ieee

ISSN

0018-9480

Type

jour

DOI

10.1109/TMTT.2013.2274053

Filename

6573379