Title :
A Double-Sided LCC Compensation Network and Its Tuning Method for Wireless Power Transfer
Author :
Siqi Li ; Weihan Li ; Junjun Deng ; Nguyen, Trong Duy ; Mi, Chunting Chris
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Michigan, Dearborn, MI, USA
Abstract :
This paper proposes a double-sided LCC compensation network and its tuning method for wireless power transfer (WPT). With the proposed topology and its tuning method, the resonant frequency is irrelevant with the coupling coefficient between the two coils and is also independent of the load condition, which means that the system can work at a constant switching frequency. Analysis in frequency domain is given to show the characteristics of the proposed method. We also propose a method to tune the network to realize zero voltage switching (ZVS) for the Primary-side switches. Simulation and experimental results verified analysis and validity of the proposed compensation network and the tuning method. A wireless charging system with output power of up to 7.7 kW for electric vehicles was built, and 96% efficiency from dc power source to battery load is achieved.
Keywords :
battery chargers; battery powered vehicles; inductive power transmission; zero voltage switching; WPT; ZVS; battery load; constant switching frequency; coupling coefficient; dc power source; double-sided LCC compensation network; efficiency 96 percent; electric vehicles; frequency domain analysis; primary-side switches; tuning method; wireless charging system; wireless power transfer; zero voltage switching; Capacitors; Coils; Couplings; Inductance; Resonant frequency; Topology; Zero voltage switching; Battery charger; current source; electric vehicle; wireless power transfer (WPT); zero voltage switching (ZVS);
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2014.2347006
