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Main Authors: He, Haoming, Dan, Zongyang, He, Zhongqi, Liu, Changjun
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.14524
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author He, Haoming
Dan, Zongyang
He, Zhongqi
Liu, Changjun
author_facet He, Haoming
Dan, Zongyang
He, Zhongqi
Liu, Changjun
contents In this letter, we present an innovative design for a compact, high-efficiency all-polarization receiving rectenna tailored for wireless power transmission. This rectenna, which integrates an antenna with two same rectifier units, employs direct conjugate matching of antenna impedance to rectifier impedance. This approach eliminates the necessity for an external impedance-matching network, thereby reducing the overall dimensions of the rectenna. The implementation of virtual ground concept streamlines the design of the rectifier's output filter. The low-profile antenna, engineered for operation at 2.45 GHz, demonstrates high conversion efficiency across all polarization angles. The measured RF-to-DC efficiency exceeds 63% for all polarization angles, achieving a peak efficiency of 82.2%.
format Preprint
id arxiv_https___arxiv_org_abs_2512_14524
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Compact High-Efficiency All-Polarization Rectenna for Wireless Power Transmission
He, Haoming
Dan, Zongyang
He, Zhongqi
Liu, Changjun
Applied Physics
In this letter, we present an innovative design for a compact, high-efficiency all-polarization receiving rectenna tailored for wireless power transmission. This rectenna, which integrates an antenna with two same rectifier units, employs direct conjugate matching of antenna impedance to rectifier impedance. This approach eliminates the necessity for an external impedance-matching network, thereby reducing the overall dimensions of the rectenna. The implementation of virtual ground concept streamlines the design of the rectifier's output filter. The low-profile antenna, engineered for operation at 2.45 GHz, demonstrates high conversion efficiency across all polarization angles. The measured RF-to-DC efficiency exceeds 63% for all polarization angles, achieving a peak efficiency of 82.2%.
title Compact High-Efficiency All-Polarization Rectenna for Wireless Power Transmission
topic Applied Physics
url https://arxiv.org/abs/2512.14524