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Wireless Power Transfer for Variable Load, Distance, and Power Division Ratio in a Loosely-Coupled Multiple-Receiver Relay System

Jung-Hoon Cho, Sunghun Jung, Young‐Joon Kim

2022IEEE Transactions on Industrial Electronics29 citationsDOI

Abstract

This article proposes a wireless power transfer (WPT) system for variant receiver (Rx) configuration, power distribution ratio, load, and distance with multiple relays, each of which is connected to a resistive load. Each Rx relay transfers power to an adjacent Rx and acts as a relay while its local load consumes power. We develop a methodology for the design of WPT resonators that achieve optimum efficiency for multiple receivers with power distribution ratios, loads, and distances. The WPT configuration is extended to a general m×n, two-dimensional grid for a large area coverage. A mathematical model of the proposed WPT system is provided, and a multiple-Rx wireless power network using a power inverter serves as a proof-of-concept. Following the design guidelines provided in this article, experimental examples with variable parameters while delivering a total power of 100 W are discussed. To illustrate the practical applicability of this approach, a demonstration on a consumer display and speaker device is performed.

Topics & Concepts

Wireless power transferRelayMaximum power transfer theoremWirelessPower (physics)Electrical engineeringElectronic engineeringInverterEngineeringComputer scienceTelecommunicationsVoltagePhysicsQuantum mechanicsWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksWireless Body Area Networks
Wireless Power Transfer for Variable Load, Distance, and Power Division Ratio in a Loosely-Coupled Multiple-Receiver Relay System | Litcius