In inductive power transfer applications, it is possible to ensure high efficiency of the main coils by operating at the optimum load. Since the optimum load depends on the coupling between the main coils, the operation needs to be adapted to match this case at different alignment conditions. This paper proposes a method to keep the optimum load constant by varying the natural resonant frequency of both the primary and secondary circuits of a S-S compensation network. This is possible by changing the value of the compensation capacitors at different alignments. This strategy differs from the ones found in the literature, where the input and the output voltage are changed to always match the optimum load. The proposed concept is proven throu...
In high-power wireless battery charging that uses inductive power transfer, a considerable amount of...
For automotive battery charging, the series-series compensated inductive power transmission shows a ...
Electric vehicles are every day more and more important and diffuse in all day life. They represent ...
Nowadays, inductive power transfer (IPT) with magnetic resonance is the most used method for high-po...
Transferring electrical power without any wiring has been a dream since late 19th century. There wer...
Electric vehicles (EVs) have been playing an important role recently, because of rising oil price...
L’autonomie limitée du véhicule électrique est le premier frein au développement du marché de l’élec...
In the last years the interest on the inductive charging of electric vehicles is grown according to ...
The increasing use of automobiles around the world are causing serious environmental problems. As a ...
This paper focuses on the modeling and implementation of an Electric Vehicle (EV) wireless charging ...
none5siThis paper presents a study on the behaviour of the currents in a 1-D resonator array of indu...
Nowadays, Wireless Power Transfer (WPT) technology is receiving more attention in the automotive sec...
When considering EV wireless charging that uses inductive power transfer with magnetic resonance, th...
978-1-84919-815-8International audienceIn this paper, a clever method for a preliminary design induc...
In response to government's global warming targets, electric vehicles (EV) penetration is increasing...
In high-power wireless battery charging that uses inductive power transfer, a considerable amount of...
For automotive battery charging, the series-series compensated inductive power transmission shows a ...
Electric vehicles are every day more and more important and diffuse in all day life. They represent ...
Nowadays, inductive power transfer (IPT) with magnetic resonance is the most used method for high-po...
Transferring electrical power without any wiring has been a dream since late 19th century. There wer...
Electric vehicles (EVs) have been playing an important role recently, because of rising oil price...
L’autonomie limitée du véhicule électrique est le premier frein au développement du marché de l’élec...
In the last years the interest on the inductive charging of electric vehicles is grown according to ...
The increasing use of automobiles around the world are causing serious environmental problems. As a ...
This paper focuses on the modeling and implementation of an Electric Vehicle (EV) wireless charging ...
none5siThis paper presents a study on the behaviour of the currents in a 1-D resonator array of indu...
Nowadays, Wireless Power Transfer (WPT) technology is receiving more attention in the automotive sec...
When considering EV wireless charging that uses inductive power transfer with magnetic resonance, th...
978-1-84919-815-8International audienceIn this paper, a clever method for a preliminary design induc...
In response to government's global warming targets, electric vehicles (EV) penetration is increasing...
In high-power wireless battery charging that uses inductive power transfer, a considerable amount of...
For automotive battery charging, the series-series compensated inductive power transmission shows a ...
Electric vehicles are every day more and more important and diffuse in all day life. They represent ...