A Dual-Band Dual-Polarized Antenna for Harvesting in Cellular and Digital Terrestrial Television Bands

IF 3.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Khatereh Nadali;Neeraj Kumar Maurya;Patrick McEvoy;Max J. Ammann
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Abstract

The growing prevalence of IoT devices has heightened the focus on minimizing energy consumption in low-power electronic systems. Ambient radio frequency (RF) energy harvesting allows self-sustaining electronic devices to operate in IoT networks without cables, batteries, or allocated energy sources. This paper presents an innovative printed dual-band dual-polarized antenna designed for ambient RF energy harvesting in IoT applications. The proposed antenna targets efficient RF energy conversion from the most prevalent cellular frequency bands (sub-1 GHz and 1800 MHz) and sub-700 MHz Digital Terrestrial Television. This antenna is a significant advancement in the field, boasting a wide circularly polarized 610-968 MHz bandwidth and a linearly polarized bandwidth covering the GSM/4G 1800 MHz band. The antenna’s integration with a rectifier circuit demonstrates its ability to convert ambient RF energy into electrical power, regardless of the source antenna orientation. This integrated antenna development significantly reduces battery dependency in low-power IoT devices, paving the way for more sustainable and versatile wireless networks. Specifically, this antenna is crafted to achieve broad CP and adequate impedance bandwidths across targeted frequencies, crucial for the diverse requirements of ambient RF energy harvesting. Such a design meets our primary objectives of capturing RF energy effectively, with its omnidirectional pattern enabling it to collect ambient RF signals from different polarizations and directions.
用于手机和地面数字电视频道采集的双频双极化天线
随着物联网设备的日益普及,人们更加关注如何最大限度地降低低功耗电子系统的能耗。环境射频(RF)能量采集允许自持式电子设备在物联网网络中运行,而无需电缆、电池或分配的能源。本文介绍了一种创新的印刷双频双极化天线,设计用于物联网应用中的环境射频能量采集。该天线的目标是从最流行的蜂窝频段(1 GHz 以下和 1800 MHz)和 700 MHz 以下的数字地面电视进行高效的射频能量转换。该天线在该领域取得了重大进展,具有宽广的圆极化 610-968 MHz 带宽和覆盖 GSM/4G 1800 MHz 频段的线性极化带宽。该天线与整流电路的集成表明,无论天线源方向如何,它都能将环境射频能量转化为电能。这种集成天线的开发大大降低了低功耗物联网设备对电池的依赖性,为更可持续和多功能的无线网络铺平了道路。具体来说,该天线的设计可在目标频率上实现宽泛的 CP 和足够的阻抗带宽,这对于满足环境射频能量采集的各种要求至关重要。这种设计满足了我们有效捕获射频能量的主要目标,其全向性模式使其能够收集来自不同极化和方向的环境射频信号。
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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来源期刊
CiteScore
6.50
自引率
12.50%
发文量
90
审稿时长
8 weeks
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