Title :
A control technique for Inductively Coupling Power Transfer systems
Author :
Keratipaiboon, Nuttakron ; Sirisukprasert, Siriroj
Author_Institution :
Dept. of Electr. Eng., Kasetsart Univ., Bangkok, Thailand
Abstract :
This paper presents a power transfer technique for Inductively Coupling Power Transfer (ICPT) Systems by searching suitable switching frequency based on the maximum DC power supply current. To verify the proposed control strategy, an ICPT system is implemented by a full-bridge resonant inverter that is compensated its switching losses by capacitors on both primary and secondary sides. The analysis and design techniques for the ICPT system are presented. By using the proposed control method, the maximum power transfer can be accomplished, even though the shape of coil, the capacitor compensation topologies and air-gap are changed. The experimental results prove that the maximum power transfer can be successfully achieved.
Keywords :
air gaps; capacitor switching; frequency control; inductive power transmission; power transmission control; resonant invertors; ICPT system; air-gap; capacitor compensation topologies; coil shape; control technique; design techniques; frequency control; full-bridge resonant inverter; inductively coupling power transfer systems; maximum DC power supply current; mutual inductance; switching frequency; switching losses; Capacitors; Coils; Inductance; Resonant frequency; Shape; Switching frequency; Topology; Capacitor Compensation; ICPT; Mutual Inductance; Resonant Frequency; Variable Frequency Control;
Conference_Titel :
Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON), 2014 11th International Conference on
Conference_Location :
Nakhon Ratchasima
DOI :
10.1109/ECTICon.2014.6839792
