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Main Authors: He, Haoming, Zhou, Yilin, He, Zhongqi, Feng, Yuhao, Liu, Changjun
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.23404
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author He, Haoming
Zhou, Yilin
He, Zhongqi
Feng, Yuhao
Liu, Changjun
author_facet He, Haoming
Zhou, Yilin
He, Zhongqi
Feng, Yuhao
Liu, Changjun
contents This letter presents the design and implementation of a compact high-efficiency octave microwave rectifier. A key highlight is the novel segmented impedance matching method, a unique approach that expands the rectifier bandwidth. The diode reactance is initially regulated by a series short-ended microstrip line. Impedance-compensated structures, characterized by varying admittance properties across an extensive frequency range, partition the operating frequency band into two segments based on the input impedance, thereby minimizing impedance variation. Ultimately, the input impedance is matched by a novel triple-band matching network. An octave rectifier was fabricated and measured. Results demonstrate that the rectifier achieves over 50% efficiency over 1.3-2.55 GHz fractional bandwidth 64.9% at 0-dBm RF input power. Even with a decrease in input power to -10 dBm, the rectifier maintains over 30% efficiency.
format Preprint
id arxiv_https___arxiv_org_abs_2512_23404
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle High-Efficiency Octave Bandwidth Rectifier for Electromagnetic Energy Harvesting
He, Haoming
Zhou, Yilin
He, Zhongqi
Feng, Yuhao
Liu, Changjun
Applied Physics
This letter presents the design and implementation of a compact high-efficiency octave microwave rectifier. A key highlight is the novel segmented impedance matching method, a unique approach that expands the rectifier bandwidth. The diode reactance is initially regulated by a series short-ended microstrip line. Impedance-compensated structures, characterized by varying admittance properties across an extensive frequency range, partition the operating frequency band into two segments based on the input impedance, thereby minimizing impedance variation. Ultimately, the input impedance is matched by a novel triple-band matching network. An octave rectifier was fabricated and measured. Results demonstrate that the rectifier achieves over 50% efficiency over 1.3-2.55 GHz fractional bandwidth 64.9% at 0-dBm RF input power. Even with a decrease in input power to -10 dBm, the rectifier maintains over 30% efficiency.
title High-Efficiency Octave Bandwidth Rectifier for Electromagnetic Energy Harvesting
topic Applied Physics
url https://arxiv.org/abs/2512.23404