The objective of this paper is to investigate the impact of the spiral coil shape of inductive coupled power transfer on its performance. The coil shapes evaluated are: circular, square and pentagon spiral shapes. The coils are modelled in Ansoft Maxwell software. Simulations are carried out to determine the mutual inductance, coupling coefficient and magnetic flux density. The performance in term of magnetic flux density, mutual inductance and coupling coefficient of the three coils shapes are compared. Of the three shapes, the pentagon is shown to have the best performance in term of its mutual inductance, coupling coefficient and magnetic flux density
The paper deals with magnetic coupling between circular turns, modelling of spiral coil arranged con...
As an effective wireless power energy transfer method, inductive power transfer has been gaining...
This paper deals with a generic methodology to evaluate the magnetic parameters of contactless power...
International audienceNowadays, inductive power transfer technology is widely considered for the cha...
Inductive power transfer technology is now widely used to provide power into various devices, such a...
Basic principles of inductive coupling of power transfer is based on the mutual inductance and coup...
Inductive power transfer (IPT) technology is gaining popularity for wireless charging applications o...
Inductive coupling wireless power transfer is using time-varying resonant magnetic coupling to trans...
This paper presents a design optimization algorithm for series-series compensated Inductive Power Tr...
A basic analysis of inductive coils and its parameter calculations are presented. The simulations of...
In this paper, parameter analysis of the inductive coils is evaluated for low power Wireless Power T...
Considering the massive development that took place in the past two decades, wireless power transfer...
In this paper, a simplified method for the calculation of a mutual inductance of the planar spiral c...
Inductive Power Transfer (IPT) is well-established for applications with biomedical implants and rad...
The proper selection of winding parameters for resonant circuits in inductive power transmission sys...
The paper deals with magnetic coupling between circular turns, modelling of spiral coil arranged con...
As an effective wireless power energy transfer method, inductive power transfer has been gaining...
This paper deals with a generic methodology to evaluate the magnetic parameters of contactless power...
International audienceNowadays, inductive power transfer technology is widely considered for the cha...
Inductive power transfer technology is now widely used to provide power into various devices, such a...
Basic principles of inductive coupling of power transfer is based on the mutual inductance and coup...
Inductive power transfer (IPT) technology is gaining popularity for wireless charging applications o...
Inductive coupling wireless power transfer is using time-varying resonant magnetic coupling to trans...
This paper presents a design optimization algorithm for series-series compensated Inductive Power Tr...
A basic analysis of inductive coils and its parameter calculations are presented. The simulations of...
In this paper, parameter analysis of the inductive coils is evaluated for low power Wireless Power T...
Considering the massive development that took place in the past two decades, wireless power transfer...
In this paper, a simplified method for the calculation of a mutual inductance of the planar spiral c...
Inductive Power Transfer (IPT) is well-established for applications with biomedical implants and rad...
The proper selection of winding parameters for resonant circuits in inductive power transmission sys...
The paper deals with magnetic coupling between circular turns, modelling of spiral coil arranged con...
As an effective wireless power energy transfer method, inductive power transfer has been gaining...
This paper deals with a generic methodology to evaluate the magnetic parameters of contactless power...