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Multifrequency Modulation to Achieve an Individual and Continuous Power Distribution for Simultaneous MR-WPT System With an Inverter

Chen Qi, Sheng Huang, Xiyou Chen, Peng Wang

2021IEEE Transactions on Power Electronics36 citationsDOI

Abstract

To achieve an individual and continuous power distribution for multireceiver wireless power transfer (WPT) systems, a novel multifrequency modulation method has been proposed. In the proposed method, a look-up table and delta-sigma modulation scheme are introduced to generate a mixed-frequency driving voltage pulse by synthesizing it from the given voltage pulses. The components of synthesized driving voltage pulse have continuously and individually varying amplitudes of multiple specific frequencies. With the proposed modulation method, only a standard full-bridge inverter is employed in the transmitting side to achieve power distribution among receivers, leading to a simple configuration of the transmitting source. Moreover, the proposed method has a small calculation burden and can be easily extended to the system with more receivers. When compared with the existing multifrequency modulation method, a lower switching frequency is obtained in the proposed method. Finally, the effectiveness of the proposed modulation method is verified theoretically and experimentally.

Topics & Concepts

Modulation (music)Pulse-width modulationInverterDelta-sigma modulationElectronic engineeringPulse-density modulationPower (physics)Wireless power transferVoltagePulse-frequency modulationPulse-amplitude modulationFrequency modulationControl theory (sociology)EngineeringComputer sciencePulse (music)PhysicsAcousticsElectrical engineeringRadio frequencyCMOSControl (management)Artificial intelligenceQuantum mechanicsWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksWireless Body Area Networks
Multifrequency Modulation to Achieve an Individual and Continuous Power Distribution for Simultaneous MR-WPT System With an Inverter | Litcius