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Wide Input Power Range <i>X</i>-Band Rectifier With Dynamic Capacitive Self-Compensation

Hang Lin, Xiaojie Chen, Zhongqi He, Yuyang Xiao, Wenquan Che, Changjun Liu

2021IEEE Microwave and Wireless Components Letters18 citationsDOI

Abstract

A microwave rectifier composed of a pair of Schottky diodes with dynamic capacitive self-compensation is proposed in this letter. The impedance of a Schottky diode usually varies with the input power. A method using paired diodes for capacitive self-compensation is presented to enhance the rectifier's dynamic power range. The imaginary part of one diode's impedance is compensated using another identical diode with a section of transmission line by impedance transforming. The proposed method reduces the effect of the input power on the diode impedance. An X-band rectifier using a pair of HSMS-286 Schottky diodes based on the proposed method is designed and fabricated. This rectifier, with a dc load of 300 Ω, achieves power conversion efficiency of 64.5% at 9.7 GHz and has a 15.3-dB input power dynamic range with efficiency exceeding 50%. The rectifier is expected to be used in wireless power transmission systems with flexible distance requirements.

Topics & Concepts

Rectifier (neural networks)Schottky diodePrecision rectifierDiodeCapacitive sensingImpedance matchingElectrical impedanceInput impedanceMaterials scienceElectrical engineeringRectennaCompensation (psychology)OptoelectronicsElectronic engineeringPower factorEngineeringVoltageComputer sciencePsychoanalysisPsychologyRecurrent neural networkMachine learningRectificationArtificial neural networkStochastic neural networkEnergy Harvesting in Wireless NetworksWireless Power Transfer SystemsAntenna Design and Analysis
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