Title :
Study on the Optimal Switching Frequency for Maximum Wireless Power Transfer in a Variable Airgap System
Author :
Chan-Bae Park ; Hyung-Woo Lee
Author_Institution :
Korea Railroad Res. Inst., Uiwang, South Korea
Abstract :
This paper presents the optimal switching frequency for maximum wireless power transfer (WPT) used in railway applications that have a variable airgap. Voltage gain is one of key elements judging the system performance, and can be presented as a function of the switching frequency and number of primary winding turns. The optimal switching frequency in the given parameters for WPT has been investigated in detail using a simulation. From the results, the optimal switching frequency obtained for maximum power transfer according to the design variables such as airgap, number of primary windings, mean length turns, and leakage flux, was different from the resonant frequency for maximum efficiency.
Keywords :
air gaps; inductive power transmission; railways; WPT; design variables; leakage flux; maximum efficiency; maximum wireless power transfer; mean length turns; optimal switching frequency; primary winding turns; railway applications; resonant frequency; switching frequency; variable airgap system; voltage gain; Educational institutions; Inductance; Power electronics; Rail transportation; Resonant frequency; Switching frequency; Wireless communication; Maximum voltage gain; resonant frequency; switching frequency; wireless power transfer (WPT);
Journal_Title :
Emerging and Selected Topics in Power Electronics, IEEE Journal of
DOI :
10.1109/JESTPE.2014.2320975
