Characterizing and Modelling Non-Linear Rectifiers for RF Energy Harvesting

M. Wagih, A. Weddell, S. Beeby
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引用次数: 2

Abstract

AbstractRadio Frequency Energy Harvesting and power transfer, using rectifying antennas, are increasingly seen as an enabling technology of power-autonomous devices. The non-linearity of the rectification element, the diode, adds challenges when experimentally characterizing and comparing the performance of different rectifiers, requiring complex measurement techniques to characterize a diode experimentally, and adds to the challenges of designing a matching network. This paper presents a method for characterizing the power conversion of a mismatched rectifier using a single-port vector network analyzer, omitting the need for impedance tuners and accurately reflecting the non-linearity of the diode. The proposed approach minimizes uncertainty sources in the test setup and shows close agreement with optimized harmonic balance simulation. Finally, harmonic balance simulation is utilized to compare the source and load impedance of the two most common rectifier topologies, a single series and a voltage doubler, acting as a guide for matching network and antenna design.
用于射频能量收集的非线性整流器的特性和建模
使用整流天线的射频能量收集和功率传输越来越被视为电力自主设备的使能技术。整流元件二极管的非线性增加了实验表征和比较不同整流器性能时的挑战,需要复杂的测量技术来实验表征二极管,并增加了设计匹配网络的挑战。本文提出了一种用单端口矢量网络分析仪表征失配整流器功率转换的方法,省去了阻抗调谐器的需要,并准确地反映了二极管的非线性。该方法最大限度地减少了测试装置中的不确定源,并与优化后的谐波平衡仿真结果非常吻合。最后,利用谐波平衡仿真比较了两种最常见的整流器拓扑(单串联和倍压器)的源阻抗和负载阻抗,作为匹配网络和天线设计的指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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