A method to control the power distribution among receivers by the load values in a single-input, multiple-output (SIMO) wireless power transfer (WPT) system is investigated. We first derive the value of loads to maximize total efficiency. Next, a simple, but effective analytical formula of the load condition for the desired power distribution ratio is presented. The derived load solutions are simply given by system figure of merits and desired power ratios. The formula is validated with many numerical examples via electromagnetic simulations. We demonstrate that with the choice of loads from this simple formula, the power can be conveniently and accurately distributed among receivers for most practical requirements in SIMO WPT systems
Publisher Copyright: IEEEIn this paper, a new technique of synchronized sampling to estimate the tra...
Wireless Power Transfer (WPT) allows seamless power transfer from the source to the load without an...
Capacitive wireless power transfer from one transmitter to multiple receivers is discussed and analy...
In this paper, the efficiency of single-input multiple-output (SIMO) wireless power transfer systems...
With the increase of charging requirements in electrical equipment, the wireless power transfer (WPT...
We propose the conditions for maximum overall efficiency at the constraint of satisfying asymmetric ...
This paper derives an expression of efficiency of wireless power transfer on a situation that there ...
A systematic method is presented in this paper to show that, based only on the measurements of the i...
This paper derives an expression of efficiency of wireless power transfer on a situation that there ...
This paper proposes an optimal power distribution method for multi-objective wireless power transfer...
Multiple-receiver wireless power transfer (MRWPT) systems have revolutionary potential for use in ap...
We consider wireless power transfer, realized by means of resonant reactive magnetic coupling, betwe...
The problem of determining the optimal loads for realizing maximum power transfer...
Wireless power transfer (WPT) is a convenient, flexible, and safe alternative to its wired counterpa...
Inductive wireless power transfer is a more mature technology than capacitive wireless transfer. The...
Publisher Copyright: IEEEIn this paper, a new technique of synchronized sampling to estimate the tra...
Wireless Power Transfer (WPT) allows seamless power transfer from the source to the load without an...
Capacitive wireless power transfer from one transmitter to multiple receivers is discussed and analy...
In this paper, the efficiency of single-input multiple-output (SIMO) wireless power transfer systems...
With the increase of charging requirements in electrical equipment, the wireless power transfer (WPT...
We propose the conditions for maximum overall efficiency at the constraint of satisfying asymmetric ...
This paper derives an expression of efficiency of wireless power transfer on a situation that there ...
A systematic method is presented in this paper to show that, based only on the measurements of the i...
This paper derives an expression of efficiency of wireless power transfer on a situation that there ...
This paper proposes an optimal power distribution method for multi-objective wireless power transfer...
Multiple-receiver wireless power transfer (MRWPT) systems have revolutionary potential for use in ap...
We consider wireless power transfer, realized by means of resonant reactive magnetic coupling, betwe...
The problem of determining the optimal loads for realizing maximum power transfer...
Wireless power transfer (WPT) is a convenient, flexible, and safe alternative to its wired counterpa...
Inductive wireless power transfer is a more mature technology than capacitive wireless transfer. The...
Publisher Copyright: IEEEIn this paper, a new technique of synchronized sampling to estimate the tra...
Wireless Power Transfer (WPT) allows seamless power transfer from the source to the load without an...
Capacitive wireless power transfer from one transmitter to multiple receivers is discussed and analy...