Substrate Integrated Waveguide - Dielectric Resonator Antenna for Future Wireless Communication

IF 1 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

SAIEE Africa Research Journal Pub Date : 2022-08-09 DOI:10.23919/SAIEE.2022.9853021

Emmanuel K. Chemweno;Pradeep Kumar;Thomas J. O. Afullo

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引用次数: 7

Abstract

A substrate integrated waveguide (SIW) fed rectangular-shaped dielectric resonator antenna (DRA) is proposed for application in the D - Band frequency regime. The Dielectric Resonator (DR) is designed to operate in higher order modes. A rectangular-shaped narrow slot is used to excite the DR element, leading to multiple resonances. The resulting structure is a multi-resonant antenna operating at six frequencies at 123.64 GHz, 125.76 GHz, 127.4 GHz, 129.9 GHz, 134.9 GHz and 137.7 GHz frequencies. These are identified as TE10δ1, TE7δ5, TEδ31, TEδ25, TEδ31 and TEδ35 modes of operation of the resonator, respectively. These resonances are merged to achieve a −10 dB impedance bandwidth ranging between 122.58 GHz and 139.51 GHz, equivalent to 13.4% at a center frequency of 125.76 GHz. Moreover, the antenna possesses a stable radiation pattern in the broadband direction, across the entire frequency band of operation. Simulation results show that the antenna has a peak gain of 12.3 dBi, maximum directivity of 13.14 dBi and maximum efficiency of 84% at a frequency of 126 GHz. Simulated results show that the proposed design has potential and suitability for utilization in future wireless communications.

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用于未来无线通信的衬底集成波导-介质谐振天线

--提出了一种衬底集成波导馈电矩形介质谐振器天线（DRA），用于D波段频率范围。介质谐振器（DR）被设计为在更高阶模式下工作。矩形窄槽用于激励DR元件，从而导致多个谐振。由此产生的结构是在123.64 GHz、125.76 GHz、127.4 GHz、129.9 GHz、134.9 GHz和137.7 GHz频率的六个频率下工作的多谐振天线。这些模式分别被确定为谐振器的TE 10δ1、TE 7δ5、TEδ31、TEδ25、TEΔ31和TEδ35工作模式。这些谐振被合并以实现范围在122.58 GHz和139.51 GHz之间的-10dB阻抗带宽，在125.76 GHz的中心频率下相当于13.4%。此外，天线在宽带方向上，在整个工作频带上具有稳定的辐射方向图。仿真结果表明，该天线在126GHz频率下具有12.3dBi的峰值增益、13.14dBi的最大指向性和84%的最大效率。仿真结果表明，所提出的设计在未来的无线通信中具有潜力和适用性。

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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SAIEE Africa Research Journal ENGINEERING, ELECTRICAL & ELECTRONIC-

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