An Investigation of Wideband Rectennas for Wireless Energy Harvesting

Jingwei Zhang, Yi Huang, P. Cao
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引用次数: 20

Abstract

This paper is focused on a wireless energy harvesting system using a rectifying antenna (rectenna). The proposed device consists of a wideband cross-dipole antenna, a microwave low-pass filter and a doubling rectifying circuit using Shottcky diodes as rectifying elements. Previously, a few of wideband rectennas have been investigated at 1.7 to 2.5 GHz. The originality of this paper is on the new wideband rectenna design which can harvest the ambient radio frequency (RF) power at 1.7 to 2.5 GHz. In this system, a new wideband cross dipole is designed and used to achieve the required bandwidth and duel-polarization. In addition, the voltage doubling rectifying circuit is optimized to achieve the best performance at power density levels < 200 μW/cm2 which are typical in urban environments. The characteristics of the proposed rectenna over the desired frequency range are investigated, and the integrated rectenna is simulated, made and tested for low input power densities from 5 to 200 μW/cm2. The simulation and measurement results of the rectenna are compared and a good agreement is achieved. The results demonstrate that the maximum rectenna conversion efficiency is nearly 57% around 1.7 GHz and over 20% over the wideband of interest for the incident power density of 120 μW/cm2. It is noted that the impedance matching is one of the main factors affecting the rectenna energy conversion efficiency. This new wideband rectenna has great potential to harvest wireless energy in GSM/3G/4G and ISM 2.4 GHz bands.
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用于无线能量收集的宽带整流天线研究
本文主要研究一种采用整流天线的无线能量收集系统。该器件由宽带交叉偶极子天线、微波低通滤波器和以肖特基二极管为整流元件的倍频整流电路组成。以前,已经研究了一些1.7到2.5 GHz的宽带天线。本文的创新之处在于新型宽带天线的设计,该天线可以采集1.7 ~ 2.5 GHz的环境射频(RF)功率。在该系统中,设计了一种新的宽带交叉偶极子,并使用它来实现所需的带宽和双极化。此外,对倍压整流电路进行了优化,使其在城市环境中典型的功率密度< 200 μW/cm2时具有最佳性能。研究了所提出的整流天线在期望频率范围内的特性,并在5 ~ 200 μW/cm2的低输入功率密度下对整流天线进行了仿真、制作和测试。对整流天线的仿真结果和实测结果进行了比较,得到了较好的一致性。结果表明,当入射功率密度为120 μW/cm2时,该天线在1.7 GHz附近的最大转换效率接近57%,在目标宽带上的最大转换效率超过20%。指出阻抗匹配是影响整流天线能量转换效率的主要因素之一。这种新型宽带整流天线在GSM/3G/4G和ISM 2.4 GHz频段具有巨大的无线能量收集潜力。
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