Due to limitations of low power density, high cost, heavy weight, etc., the development and
application of battery-powered devices are facing with unprecedented technical challenges …

Wireless power transfer system (WPTS)-based wireless electric vehicles, classified into
roadway-powered electric vehicles (RPEVs) and stationary charging electric vehicles …

Wireless power transfer (WPT), which transmits power by an electromagnetic field across an
intervening space, provides the prospect of new opportunities for electric vehicles (EVs) to …

Roadway-powered electric vehicles (RPEVs) are attractive candidates for future
transportation because they do not rely on large and heavy batteries but directly and …

Laser power transmission (LPT) is one of the most promising technologies in the long-range
wireless power transfer field. LPT research has been driven by the desire to remotely power …

Near-field magnetic wireless systems have distinct advantages over their conventional
farfield counterparts in water-rich environments, such as underwater, underground, and in …

Traditional power supply cords have become less important because they prevent large-
scale utilization and mobility. In addition, the use of batteries as a substitute for power cords …

There is a need for charging electric vehicles (EVs) wirelessly since it provides a more
convenient, reliable, and safer charging option for EV customers. A wireless charging …

A general and systematic comparison of eight compensation schemes in the inductive
power transfer system (IPTS) of single magnetic coupling and two capacitors is proposed in …

This paper examines two of the primary power supply architectures being predominantly
used for wireless electric vehicle (EV) charging, namely the series LC (SLC) resonant and …