Basic study of transmitting power control method without signal communication for Wireless In-Wheel Motor via magnetic resonance coupling

Author

Gunji, Daisuke ; Imura, Takehiro ; Fujimoto, Hiroshi

Author_Institution

NSK Ltd., Univ. of Tokyo, Chiba, Japan

fYear

2015

fDate

6-8 March 2015

Firstpage

317

Lastpage

322

Abstract

In order to improve reliability and safety of an In-Wheel Motor, the Wireless In-Wheel Motor (W-IWM) using magnetic resonance coupling has been proposed. Transmitting power of the W-IWM is controlled by the primary inverter and the secondary converter. One of a technical issue of the W-IWM is transmitting power variation due to the load power variation and the coupling coefficient variation. In this paper, we propose feedback control method of the transmitting power on the primary side using primary voltage margin. The primary voltage margin can be measured by the primary current. The proposed method requires no signal communication between the primary side and the secondary side. The effectiveness of the proposed method is verified by simulation and experiment.

Keywords

electric motors; feedback; inductive power transmission; magnetic resonance; power control; reliability; safety; W-IWM; coupling coefficient variation; feedback control method; in-wheel motor reliability; in-wheel motor safety; load power variation; magnetic resonance coupling; primary current; primary inverter; primary voltage margin; secondary converter; transmitting power control method; transmitting power variation; wireless in-wheel motor; Coils; Couplings; Hysteresis; Inverters; Resonant frequency; Switches; Voltage control;

fLanguage

English

Publisher

ieee

Conference_Titel

Mechatronics (ICM), 2015 IEEE International Conference on

Conference_Location

Nagoya

Type

conf

DOI

10.1109/ICMECH.2015.7083995

Filename

7083995