Title :
Narrow-Width Inductive Power Transfer System for Online Electrical Vehicles
Author :
Huh, J. ; Lee, S.W. ; Lee, W.Y. ; Cho, G.H. ; Rim, C.T.
Author_Institution :
Dept. of Electr. Eng., Korea Adv. Inst. of Sci. & Technol., Daejeon, South Korea
Abstract :
A new inductive power transfer system with a narrow rail width, a small pickup size, and a large air gap for online electric vehicles is proposed in this paper. By introducing a new core structure, the orientation of the magnetic flux alternates along with the road; hence, an inductive power transfer system with a narrow rail width of 10 cm, a large air gap of 20 cm, and a large lateral displacement about 24 cm was implemented. The resonant circuit of the inductive power transfer system, driven by a current source, was fully characterized. The experimental results showed that the maximum output power was 35 kW and that the maximum efficiency was 74% at 27 kW. The proposed system was found to be adequate for electric vehicles, allowing them to drive freely on specially implemented roads by obtaining power from the buried power supply rail.
Keywords :
air gaps; electric vehicles; inductive power transmission; air gap; buried power supply rail; core structure; current source; efficiency 74 percent; magnetic flux; narrow-width inductive power transfer system; online electrical vehicles; power 27 kW; power 35 kW; size 10 cm; size 20 cm; size 24 cm; Air gaps; Inductance; Magnetic cores; Magnetic flux; Power supplies; Rails; Vehicles; Contactless power transfer system; narrow-width rail; online electrical vehicle; wireless power transfer;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2011.2160972
