Design of a high power transfer pickup for on-line electric vehicle (OLEV)

Author

Song, Boyune ; Shin, Jaegue ; Lee, Seokhwan ; Shin, Seungyong ; Kim, Yangsu ; Jeon, Sungjeub ; Jung, Guho

Author_Institution

On-line Electr. Vehicle Project, KAIST, Daejeon, South Korea

fYear

2012

fDate

4-8 March 2012

Firstpage

1

Lastpage

4

Abstract

Recent electric vehicle technology with battery has faced many problems: high cost, weight, driving distance, long charging time and danger of electric shock. An inductive power transfer pickup for electric vehicles such as pickup of traditional transformer enables electric vehicles to overcome these problems by using contactless power transfer. Also, inductive power transfer pickup has many advantages including high efficiency, high power, a large air gap and lightweight. In this paper, proposed inductive power pickup was developed using series capacitor with ferrite cores and multi-windings and was tested for its ability to transfer electricity wirelessly. When tested for output power and efficiency of pickup, output power of 20kW and efficiency of 86.7% were achieved at 20 kHz and 250mm air gap.

Keywords

battery powered vehicles; cores; electric shocks; inductive power transmission; power capacitors; windings; OLEV; air gap; battery electric vehicle technology; contactless power transfer; distance 250 mm; driving distance; efficiency 86.7 percent; electric shock danger; electricity wireless transfer; ferrite core testing; frequency 20 kHz; high power transfer pickup design; inductive power transfer pickup; long charging time; multiwinding testing; on-line electric vehicle technology; power 20 kW; series capacitor; transformer; Coils; Current measurement; Electric vehicles; Equations; Mathematical model; Power generation; Resonant frequency; electric vehicle technology with battery; inductive power transfer pickup; output power and efficiency;

fLanguage

English

Publisher

ieee

Conference_Titel

Electric Vehicle Conference (IEVC), 2012 IEEE International

Conference_Location

Greenville, SC

Print_ISBN

978-1-4673-1562-3

Type

conf

DOI

10.1109/IEVC.2012.6183285

Filename

6183285