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Adaptive Multiband Rectifier System for Stabilized Wireless Energy Harvesting at Flexible Distances and Dynamic Conditions

Yuchao Wang, Cheng Zhang, Zebin Zhu, Shihao Sun, Lei Wang, Chaoyun Song, Qiang Cheng

2023IEEE Transactions on Industrial Electronics13 citationsDOIOpen Access PDF

Abstract

The unpredictable propagation of ambient radio frequency (RF) waves may cause significant randomness in power densities against the propagation distance, time, and locations. To address this challenge, we propose a novel adaptive rectifier system with stabilized output dc power against dynamic power densities. A novel detection circuit is designed to identify the frequency range and receiving power level. Then the received RF power is amplified to the saturated level by referring to the detected frequency and power information for adaptive dc biasing control for an integrated power amplifier. Doing so makes the input power to the rectifier constant regardless of the power and frequency variations. The experimentally validated system can output a stabilized power under the time-varying power range of −10 to 0 dBm and location varying within 0.5 m at 1.8, 2.1, and 2.6 GHz. Compared with conventional designs, this system has realized stabilized and enhanced conversion efficiency (61% at 1.8 GHz, 64% at 2.1 GHz, and 53% at 2.6 GHz) and therefore could be adopted for wireless powering distributed sensors and Internet of Thing (IoT) devices continuously and steadily at flexible conditions.

Topics & Concepts

Rectifier (neural networks)AmplifierRadio frequencyPower (physics)Energy harvestingElectrical engineeringPower bandwidthWirelessRF power amplifierElectronic engineeringComputer scienceEngineeringTelecommunicationsPhysicsMachine learningCMOSStochastic neural networkRecurrent neural networkQuantum mechanicsArtificial neural networkEnergy Harvesting in Wireless NetworksWireless Power Transfer SystemsInnovative Energy Harvesting Technologies
Adaptive Multiband Rectifier System for Stabilized Wireless Energy Harvesting at Flexible Distances and Dynamic Conditions | Litcius