Targeted-Subharmonic-Eliminating Pulse Density Modulation for Wireless Power Transfer Systems

TL;DR

This paper introduces a novel pulse density modulation technique for wireless power transfer systems that effectively suppresses abnormal oscillations and is robust against parameter deviations, improving system stability.

Contribution

A new targeted-subharmonic-eliminating PDM method is proposed, designed to eliminate specific subharmonic components causing oscillations in WPT systems.

Findings

Effective suppression of current abnormal oscillations.

Robustness against coupling coefficient deviations.

Reduced fluctuations in current amplitudes.

Abstract

This letter proposes a targeted-subharmonic-eliminating pulse density modulation (PDM) method for series-series (SS) compensated wireless power transfer (WPT) systems. The subharmonic frequency components which excite current abnormal oscillations in PDM controlled WPT systems are eliminated through a specially designed noise transfer function (NTF). The proposed method is simple to implement in both primary and secondary sides of WPT systems and exhibits a certain tolerance to deviations caused by inaccurate coupling coefficient identification in NTF design. Experimental results demonstrated the effectiveness and robustness of the proposed method in suppressing current abnormal oscillations and reducing the fluctuations in current amplitudes.