Litcius/Paper detail

Analysis of Facet-Loaded Rectangular DR-Rectenna Designs for Multisource RF Energy-Harvesting Applications

Daasari Surender, Md. Ahsan Halimi, Taimoor Khan, Fazal Ahmed Talukdar, Binod Kumar Kanaujia, Karumudi Rambabu, Ahmed A. Kishk

2022IEEE Transactions on Antennas and Propagation18 citationsDOI

Abstract

In this article, the characteristics of four spiral-facet structures are studied for RF energy-harvesting (RFEH) applications for increasing the harvesting power from the surrounding atmosphere. A rectangular dielectric resonance antenna (RDRA) is selected and placed above an FR4-epoxy substrate. Metallic rectangular spirals are then placed on the dielectric resonator (DR) surface to create resonances with insensitive polarization characteristics. The proposed spirals help provide wideband/multiband characteristics at 4.85, 5.0, 5.5, 5.8, and 6.25 GHz that covers 5G 4.9, WLAN 5.0, WLAN 5.5, Wi-Fi 5.8, and Wi-Fi 6E bands, respectively. The minimum gain achieved is 5 dBi in all possible configurations. A broadband rectifier circuit (4.67–7.0 GHz) with a staircase multistage transmission line matching network (MN) covering all resonant frequencies in various facet-loaded antenna configurations is proposed for RF-to-dc conversion purposes. The rectifier’s maximum power conversion efficiency (PCE) is achieved as 77.3% at a 13.5 dBm input power level, and the corresponding output voltage is 4.92 V.

Topics & Concepts

RectennaMaterials scienceEnergy harvestingOptoelectronicsWidebandImpedance matchingAntenna (radio)Energy conversion efficiencyElectrical engineeringResonatorRectifier (neural networks)Radio frequencyVoltageReflector (photography)OpticsPower (physics)Electrical impedancePhysicsComputer scienceRectificationEngineeringLight sourceMachine learningArtificial neural networkQuantum mechanicsStochastic neural networkRecurrent neural networkEnergy Harvesting in Wireless NetworksAntenna Design and AnalysisAdvanced MIMO Systems Optimization
Analysis of Facet-Loaded Rectangular DR-Rectenna Designs for Multisource RF Energy-Harvesting Applications | Litcius