The promising element of the infrastructure of unmanned electric vehicles is wireless chargers. The central part of such systems is a resonant circuit that provides wireless power transfer. The article discusses a set of criteria used for making the rational choice of the resonant circuit parameters. Such criteria include the efficiency, the current transfer coefficient, the excess voltage on the resonant circuit capacitors over the input voltage, the ratio between the transmitting circuit current and the receiving one. For the resonant circuit with fixed coils size and fixed resonant frequency, the families of curves were obtained via parametric analysis to show how these criteria change depending on the inductance and capacitance of the r...
Wireless power transfer systems are finding increasing applications which can enhance the living sta...
This paper analytically discusses various factors that affects static wireless charging of an electr...
The evolution of power electronics led to rapid development in wireless charging technology; as a re...
In high-power wireless battery charging that uses inductive power transfer, a considerable amount of...
Wireless energy transfer systems (WETSs) using the inductive coupling resonant topology are receivin...
This chapter compares various compensation methods for resonant coupling of the wireless energy tran...
Nowadays, inductive power transfer (IPT) with magnetic resonance is the most used method for high-po...
A Wireless Power Transfer system for charging electric vehicles must have high efficiency to compete...
This report presents an adaptive wireless charging system for electrical vehicles. Three important a...
Wireless power transfer (WPT) is an emerging technology and trending topic in the field of research ...
Recently, wireless power transfer (WPT) systems have been used as battery chargers for electric vehi...
With ever-increasing concerns for the safety and convenience of the power supply, there is a fast gr...
With ever-increasing concerns for the safety and convenience of the power supply, there is a fast gr...
This paper proposes a new and general method to optimize a working frequency and a load resistance i...
This article deals with the description of topology configuration of wireless energy transfer system...
Wireless power transfer systems are finding increasing applications which can enhance the living sta...
This paper analytically discusses various factors that affects static wireless charging of an electr...
The evolution of power electronics led to rapid development in wireless charging technology; as a re...
In high-power wireless battery charging that uses inductive power transfer, a considerable amount of...
Wireless energy transfer systems (WETSs) using the inductive coupling resonant topology are receivin...
This chapter compares various compensation methods for resonant coupling of the wireless energy tran...
Nowadays, inductive power transfer (IPT) with magnetic resonance is the most used method for high-po...
A Wireless Power Transfer system for charging electric vehicles must have high efficiency to compete...
This report presents an adaptive wireless charging system for electrical vehicles. Three important a...
Wireless power transfer (WPT) is an emerging technology and trending topic in the field of research ...
Recently, wireless power transfer (WPT) systems have been used as battery chargers for electric vehi...
With ever-increasing concerns for the safety and convenience of the power supply, there is a fast gr...
With ever-increasing concerns for the safety and convenience of the power supply, there is a fast gr...
This paper proposes a new and general method to optimize a working frequency and a load resistance i...
This article deals with the description of topology configuration of wireless energy transfer system...
Wireless power transfer systems are finding increasing applications which can enhance the living sta...
This paper analytically discusses various factors that affects static wireless charging of an electr...
The evolution of power electronics led to rapid development in wireless charging technology; as a re...