Add to ORKGThis paper presents the analysis of the coupling coefficient(k), Q value of the resonator, and the optimum loaded resistance at Rx for the magnetically coupled wireless power transmission using two loops(resonators). In addition, the metamaterial, conductor, and the relay methods have been used in order to improve the limitation problem of transmission efficiency by using the figure of merit. We have achieved the increase of transmission efficiency about 11~60 % using the proposed methods by analyzing and comparing th
In this paper, a wireless power transfer system (WPT) with magnetically coupled resonators is studie...
Copyright © 2014 Changsheng Li et al.This is an open access article distributed under the Creative C...
Analysis of magnetic resonant wireless power transfer systems aims to achieve maximum efficiency of ...
We have proposed and analyzed an equivalent circuit for a magnetically coupled wireless power transm...
As a new wireless energy transmission technology, magnetically coupled resonant wireless energy tran...
This paper focuses on non-radiative wireless power transfer implemented by means of a resonant magne...
The topology and parameter characteristics of the wireless energy transmission system are the main f...
We consider wireless power transfer, realized by means of resonant reactive magnetic coupling, betwe...
Wireless power transfer via magnetic resonant coupling is an improved form of inductive coupling. Ma...
In order to extend the transmission distance and improve the transmission efficiency of the traditio...
This paper provides the design formulas for achieving a coupling–independent regime for a wireless ...
Abstract — In this paper, the wireless power transfer link with metallic plates is studied. By enfo...
Multiple magnetic couplings used to increase the link distance in wireless power transfer systems (W...
Magnetically coupled resonant (MCR) wireless power transfer (WPT) is a promising technology, which h...
A wireless power transmission link with two transmitters and single receiver is analyzed and the pro...
In this paper, a wireless power transfer system (WPT) with magnetically coupled resonators is studie...
Copyright © 2014 Changsheng Li et al.This is an open access article distributed under the Creative C...
Analysis of magnetic resonant wireless power transfer systems aims to achieve maximum efficiency of ...
We have proposed and analyzed an equivalent circuit for a magnetically coupled wireless power transm...
As a new wireless energy transmission technology, magnetically coupled resonant wireless energy tran...
This paper focuses on non-radiative wireless power transfer implemented by means of a resonant magne...
The topology and parameter characteristics of the wireless energy transmission system are the main f...
We consider wireless power transfer, realized by means of resonant reactive magnetic coupling, betwe...
Wireless power transfer via magnetic resonant coupling is an improved form of inductive coupling. Ma...
In order to extend the transmission distance and improve the transmission efficiency of the traditio...
This paper provides the design formulas for achieving a coupling–independent regime for a wireless ...
Abstract — In this paper, the wireless power transfer link with metallic plates is studied. By enfo...
Multiple magnetic couplings used to increase the link distance in wireless power transfer systems (W...
Magnetically coupled resonant (MCR) wireless power transfer (WPT) is a promising technology, which h...
A wireless power transmission link with two transmitters and single receiver is analyzed and the pro...
In this paper, a wireless power transfer system (WPT) with magnetically coupled resonators is studie...
Copyright © 2014 Changsheng Li et al.This is an open access article distributed under the Creative C...
Analysis of magnetic resonant wireless power transfer systems aims to achieve maximum efficiency of ...