Toward 5G Wireless Power Harvesting: A Promising Broadbeam Equiconvex Lens-Integrated mmWave Harvester for Smart City Environments

0 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE microwave and wireless technology letters Pub Date : 2025-03-28 DOI:10.1109/LMWT.2025.3570677

Marvin Joshi;Kexin Hu;Charles A. Lynch;Manos M. Tentzeris

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引用次数: 0

Abstract

For the first time, the authors propose a 3-D lens-enabled, broadbeam energy harvester capable of mW-level of harvested power across a wide angular coverage. The design incorporates a 25-rectenna “pixel” array, each featuring a circularly polarized antenna with a highly sensitive half-wave rectifier, and an equiconvex 3-D dielectric lens to enhance power capture and angular coverage. In a proof-of-concept testing, the harvester achieved a peak power capture of 6.5 mW and maintained mW level of harvested power, at incident power densities as low as 0.1 mW/cm², across a broad solid angle of 2.68sr, representing the highest combined harvested power across angular coverage among mmWave harvesters. With 5G/mm-Wave EIRP of

$\mathrm {75~dBm}$

, the harvester can theoretically capture 6.5 mW at 40 m and sustain 1 mW out to 80 m. With broadbeam coverage and efficient energy harvesting, this system enables advanced smart city applications while reducing reliance on traditional power sources.

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迈向5G无线能量收集：用于智慧城市环境的有前途的宽带等凸透镜集成毫米波收集器

作者首次提出了一种3-D透镜，宽波束能量收集器，能够在广角覆盖范围内获得兆瓦级的能量。该设计包含一个25个整流天线“像素”阵列，每个阵列都有一个圆极化天线和一个高灵敏度的半波整流器，以及一个等凸三维介电透镜，以增强功率捕获和角度覆盖。在概念验证测试中，在2.68sr宽立体角的入射功率密度低至0.1 mW/cm2的情况下，收割机实现了6.5 mW的峰值功率捕获，并保持了mW的收获功率水平，代表了毫米波收割机在角度覆盖范围内的最高综合收获功率。5G/毫米波EIRP为75~dBm，理论上收割机可以在40米处捕获6.5兆瓦，并在80米处维持1兆瓦。凭借宽带覆盖和高效的能量收集，该系统实现了先进的智慧城市应用，同时减少了对传统电源的依赖。

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

IEEE microwave and wireless technology letters

CiteScore

6.00

自引率

0.00%

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