Monopole Cavity Resonator Antenna with AMC and Superstrate for 5G WiMAX Applications

Pub Date : 2023-03-13 DOI:10.14429/dsj.73.17759
A. Verma, R. Arya, Srinivasa Nallanthighal Raghava
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引用次数: 1

Abstract

For 5G and WiMAX applications, a coplanar waveguide (CPW)-fed monopole antenna sandwiched between an artificial magnetic conductor (AMC) and a superstrate is investigated. Because traditional planar antennas have low gains, they are unsuitable for a wide range of applications. This paper explores scientific strategies for increasing radiation gain in low-gain antennas such as planar monopoles. We use AMC in conjunction with superstrate to achieve a high gain antenna, with the monopole antenna serving as the primary radiator. However, a superstate like this demands the use of materials with high permittivity, and most of such materials are not readily available on the market. Even if such materials are available, they are mostly expensive and unsuitable for commercial systems. We investigate various superstrates and elaborate on which way these superstrates can be used interchangeably without compromising antenna performance. In the end, we fabricate one of these three superstrates. The antenna, which also employs AMC in tandem with the superstrate, has an impedance bandwidth ranging from 3.2 GHz to 3.75 GHz with 7 dBi gain, so it can be a viable candidate for 5G and WiMAX applications
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5G WiMAX应用中具有AMC和超高速率的单极腔谐振天线
对于5G和WiMAX应用,研究了夹在人工磁导体(AMC)和超导体之间的共面波导(CPW)馈电单极天线。由于传统的平面天线增益较低,因此不适合广泛的应用。本文探讨了提高平面单极子等低增益天线辐射增益的科学策略。我们将AMC与超高速率结合使用,以单极天线作为主辐射器,实现高增益天线。然而,像这样的超级状态需要使用具有高介电常数的材料,并且大多数这样的材料在市场上并不容易获得。即使有这种材料,它们大多是昂贵的,不适合商业系统。我们研究了各种超高速率,并详细说明了在不影响天线性能的情况下,这些超高速率可以互换使用的方式。最后,我们制作了这三个超级板中的一个。该天线还采用AMC与超高速率串联,阻抗带宽从3.2 GHz到3.75 GHz,增益为7 dBi,因此它可以成为5G和WiMAX应用的可行候选者
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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