This article proposes a review map for comparative designs of wireless high-power transfer
(WHPT) systems using single-and double-resonance blocks. In-depth analyses and key …

To maintain a stable output voltage under various operating conditions without introducing
extra dc/dc converters, phase-shift (PS) control is usually adopted for wireless power transfer …

Wireless Power Transfer (WPT) using inductive and magnetic resonance coupling
developing at enormous pace due to its diversity of applications, such as electric vehicles …

A typical charging profile for the Li-ion batteries in electric vehicles (EVs) includes a constant
current (CC) charging stage and a constant voltage (CV) charging. This letter proposes a …

Wireless power transfer (WPT) has been a promising way to transfer power wirelessly over
certain distances through the mutual inductance (MI) of the magnetically coupled transmitter …

Efficiency remains a key challenge in wireless charging in academia and industry. In this
article, a new wireless power transfer (WPT) system based on a double-half-bridge (DHB) …

In order to achieve the safe and efficient energy use in the electric vehicle, the continuous
and accurate monitoring of lithium-ion batteries (LIBs) has become a long-standing research …

Coupling variations in inductive power transfer (IPT) systems are almost inevitable, which
results in unstable transmission power. In order to withstand the coupling variation for an IPT …

This article proposes an enhanced timely and robust constant current (CC) control for
wireless in-flight charging systems. The challenge for practical wireless in-flight charging …

In this letter, a new power and data-parallel transmission method for wireless power transfer
(WPT) systems based on a magnetically decoupled coupling structure is proposed. Unipolar …