Voltage-Doubler RF-to-DC Rectifiers for Ambient RF Energy Harvesting and Wireless Power Transfer Systems

Recent Wireless Power Transfer Technologies Pub Date : 2019-11-05 DOI:10.5772/intechopen.89271

Abdul Quddious, M. Antoniades, P. Vryonides, S. Nikolaou

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引用次数: 5

Abstract

Wireless Power Transfer (WPT) is promoted as a key enabling technology (KET) for the widespread use of batteryless Internet of Things (IoT) devices and for 5G wireless networks. RF-to-DC rectifiers are essential components for the exploitation of either ambient RF power or wireless transmitted power from a dedicated source. There are several alternative rectifier topologies which can be selected depending on the desired wireless charging scenario and may include one or more diodes. For full rectification, a minimum of two diodes are needed. The current chapter discusses various implementations of voltage-doubler designs, which revolve around the basic topology of two diodes and two capacitors. Schottky diodes are usually used, in combination with lumped capacitors. Off-the-shelf diodes include both separate diodes and integrated voltage-doubler topologies in a single package. Rectifiers are inherently narrowband, non-linear devices, and the RF-to-DC efficiency, which is usually the figure of merit, depends non-linearly on both the termination load and the received RF power. The bandwidth of the rectifier depends on the preceding matching network.

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用于环境射频能量收集和无线电力传输系统的倍压射频-直流整流器

无线电力传输(WPT)被推广为广泛使用无电池物联网(IoT)设备和5G无线网络的关键使能技术(KET)。RF-to- dc整流器是利用环境RF功率或来自专用源的无线传输功率的基本组件。有几种可供选择的整流器拓扑结构，可以根据所需的无线充电场景进行选择，并且可以包括一个或多个二极管。为了完全整流，至少需要两个二极管。本章讨论了各种倍压器设计的实现，它们围绕着两个二极管和两个电容器的基本拓扑。肖特基二极管通常与集总电容器结合使用。现成的二极管包括单独的二极管和集成的电压倍频拓扑在一个单一的封装。整流器本质上是窄带非线性器件，其RF-to- dc效率(通常是性能指标)与终端负载和接收到的RF功率均呈非线性关系。整流器的带宽取决于前面的匹配网络。

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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Recent Wireless Power Transfer Technologies

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