Inductive power transfer (IPT) is gaining popularity across a wide range of battery charging applications like biomedical, consumer electronics and electric vehicle (EV) charging. One of the major challenges in designing IPT charge pads is determining the optimal physical sizes of the magnetic couplers resulting in efficient power transfer and low cost of materials. In EV applications, it is especially difficult due to the variation in nominal air gap, required power levels associated with different vehicle classes, and charging locations that may be encountered. This paper aims to determine the relationship between optimal coupler sizes and the nominal air gap of an IPT system. Finite element analysis (FEA) is used to model the electromagn...
Increasing problems of air pollution caused by petrol-fueled vehicles had a positive impact on the e...
Les travaux de recherche de cette thèse sont menés dans le cadre d’une collaboration entre le labora...
Due to the urgent desire for a fast, convenient, and efficient battery charging technology for elect...
Inductive power transfer (IPT) is becoming increasingly popular in stationary electric vehicle (EV) ...
Inductive power transfer (IPT) is becoming increasingly popular in stationary electric vehicle charg...
© 2017 IEEE. The number of commercial electric vehicles has increased significantly in recent years....
International audienceRecently, the number of electric vehicles (EVs) is increasing due to the decli...
Inductive power transfer is a near-field technology for the transmission of electric energy via osci...
This paper focuses on the magnetic design of a multi-coil system for an inductive power transfer (IP...
Nowadays, inductive power transfer (IPT) with magnetic resonance is the most used method for high-po...
During the last decades, public awareness of the environmental, economic and social consequences of ...
This paper aims to investigate the dynamic charging performance of an 11 kW dynamic inductive power ...
The advance of Inducive Power Transfer (IPT) system is capable to transfer large power across an air...
The depletion in energy sources especially oil is among the crucial issues nowadays in Malaysia. Sin...
Increasing problems of air pollution caused by petrol-fueled vehicles had a positive impact on the e...
Les travaux de recherche de cette thèse sont menés dans le cadre d’une collaboration entre le labora...
Due to the urgent desire for a fast, convenient, and efficient battery charging technology for elect...
Inductive power transfer (IPT) is becoming increasingly popular in stationary electric vehicle (EV) ...
Inductive power transfer (IPT) is becoming increasingly popular in stationary electric vehicle charg...
© 2017 IEEE. The number of commercial electric vehicles has increased significantly in recent years....
International audienceRecently, the number of electric vehicles (EVs) is increasing due to the decli...
Inductive power transfer is a near-field technology for the transmission of electric energy via osci...
This paper focuses on the magnetic design of a multi-coil system for an inductive power transfer (IP...
Nowadays, inductive power transfer (IPT) with magnetic resonance is the most used method for high-po...
During the last decades, public awareness of the environmental, economic and social consequences of ...
This paper aims to investigate the dynamic charging performance of an 11 kW dynamic inductive power ...
The advance of Inducive Power Transfer (IPT) system is capable to transfer large power across an air...
The depletion in energy sources especially oil is among the crucial issues nowadays in Malaysia. Sin...
Increasing problems of air pollution caused by petrol-fueled vehicles had a positive impact on the e...
Les travaux de recherche de cette thèse sont menés dans le cadre d’une collaboration entre le labora...
Due to the urgent desire for a fast, convenient, and efficient battery charging technology for elect...