The design and decoupling of TX/RX antenna with omnidirectional conical beam operating at V band

IF 0.8 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Frequenz Pub Date : 2024-03-08 DOI:10.1515/freq-2023-0330

Zhu Duan, Rubing Bai, Zhongyun Li, Rong Hu, Qian Ling, Yunhua Tang

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Abstract

In this work, a high isolation transmitter–receiver antenna with omnidirectional conical beam operating at 61.5 GHz is presented. The proposed dual-antenna system consists of a transmitter (TX) antenna and a receiver (RX) antenna with the same structure, composed of a circular metal patch with ring slot and metal shorting vias, fed by a coaxial probe at their respective geometric center. And both antennas are placed on a circular metal platform, positioned symmetrically with each other. To increase the isolation between them, three different decoupling methods are proposed, and the one with an electromagnetic band gap (EBG) structure added in-between shows the most promising decoupling effect, as the surface wave current can be maximally suppressed. The overall size of the antenna system is 2.2552 × π × 0.579 λ 0 3, where λ 0 is the free space wavelength at 61.5 GHz. A prototype of the proposed antenna system with EBG decoupling structure is fabricated and measured, demonstrating that the TX–RX isolation is 57.9 dB at 61.5 GHz, 21.6 dB better than that without decoupling structure, with omnidirectional conical beam radiation achieved at the same time.

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在 V 波段工作的带有全向锥形波束的发射/接收天线的设计和解耦

本研究提出了一种工作频率为 61.5 千兆赫、具有全向锥形波束的高隔离度发射器-接收器天线。所提出的双天线系统由一个发射器（TX）天线和一个接收器（RX）天线组成，这两个天线的结构相同，都是由一个带有环形槽和金属短路通孔的圆形金属贴片组成，在各自的几何中心由一个同轴探针馈电。两根天线都放置在一个圆形金属平台上，相互对称。为了提高它们之间的隔离度，我们提出了三种不同的去耦方法，其中在中间添加电磁带隙（EBG）结构的去耦效果最好，因为它可以最大限度地抑制表面波电流。天线系统的总尺寸为 2.2552 × π × 0.579 λ 0 3，其中 λ 0 是 61.5 GHz 频率下的自由空间波长。我们制作并测量了带有 EBG 去耦结构的拟议天线系统原型，结果表明，在 61.5 GHz 频率下，TX-RX 隔离度为 57.9 dB，比没有去耦结构的天线系统高 21.6 dB，同时还实现了全向锥形波束辐射。

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来源期刊

Frequenz 工程技术-工程：电子与电气

CiteScore

2.40

自引率

18.20%

发文量

审稿时长

3 months

期刊介绍： Frequenz is one of the leading scientific and technological journals covering all aspects of RF-, Microwave-, and THz-Engineering. It is a peer-reviewed, bi-monthly published journal. Frequenz was first published in 1947 with a circulation of 7000 copies, focusing on telecommunications. Today, the major objective of Frequenz is to highlight current research activities and development efforts in RF-, Microwave-, and THz-Engineering throughout a wide frequency spectrum ranging from radio via microwave up to THz frequencies. RF-, Microwave-, and THz-Engineering is a very active area of Research & Development as well as of Applications in a wide variety of fields. It has been the key to enabling technologies responsible for phenomenal growth of satellite broadcasting, wireless communications, satellite and terrestrial mobile communications and navigation, high-speed THz communication systems. It will open up new technologies in communications, radar, remote sensing and imaging, in identification and localization as well as in sensors, e.g. for wireless industrial process and environmental monitoring as well as for biomedical sensing.