Kuznets curve with parabola-shaped ultra-wideband antenna with defected ground plane for communications

Int. J. Pervasive Comput. Commun. Pub Date : 2021-06-17 DOI:10.1108/IJPCC-02-2021-0056

Lalitha Bhavani Konkyana, Sudhakar V. Alapati

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Abstract

Purpose This paper aims to state the configuration of the proposed antenna which is competent to many networks such as LTE and X band applications. The experimental study encountered the significance of the proposed antenna. Design/methodology/approach A novel compact Kuznets curve with parabola-shaped quad-band notched antenna is demonstrated in this paper. The presented prototype is ascertained on a composite material composed of woven fiberglass cloth with an epoxy resin binder. The resulting ultra-wideband antenna ranges 3.1–3.54 GHz, 5.17–5.51 GHz, 5.74–6.43 GHz and 6.79–7.60 GHz. To avoid the frequency bands which cause UWB interference,the projected antenna has been incorporated with slotted patch. The proposed antenna design is attained in four steps. The simple circular patch antenna model with defected ground plane is subjected to stepwise progression by including parabola-shaped slot and U shaped slot on the patch to attain four notched bands. Findings This projected antenna possesses an optimal bond among simulated and measured outcomes,which is more suitable for the quad notched band applications. Substrate analysis is done by varying substrate material, and notch behavior is presented. The proposed method’s optimum performance in metrics such as return loss, voltage standing wave ratio and radiation pattern varies its frequency range from 2.56 to 7.6 GHz. Originality/value The antenna adaptation of the defected ground plane has achieved through the quad notched band with operating frequency ranges 2.56 to 7.6 GHz and with eliminated frequency ranges 3.55–5.16 GHz, 5.52–5.73 GHz, 6.44–6.78 GHz and 7.66–10.6 GHz.

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库兹涅茨曲线带带缺陷地平面的超宽带通信天线

本文旨在说明所提出的天线的配置，该天线适用于许多网络，如LTE和X波段应用。实验研究遇到了所提出天线的意义。设计/方法/方法本文展示了一种新型的带抛物线型四带陷波天线的紧凑库兹涅茨曲线。在玻璃纤维织物与环氧树脂粘合剂组成的复合材料上确定了原型。由此产生的超宽带天线范围为3.1-3.54 GHz、5.17-5.51 GHz、5.74-6.43 GHz和6.79-7.60 GHz。为了避免产生超宽带干扰的频段，在投影天线中加入了开槽贴片。所提出的天线设计分为四个步骤。对具有缺陷地平面的简单圆形贴片天线模型，通过在贴片上加入抛物线形槽和U形槽进行逐步推进，得到4个缺口带。结果该投影天线在模拟和测量结果之间具有最佳的结合，更适合于四陷波带的应用。通过改变衬底材料进行衬底分析，并给出了缺口行为。在2.56 ~ 7.6 GHz的频率范围内，该方法在回波损耗、电压驻波比和辐射方向图等指标上的性能最优。通过工作频率2.56 ~ 7.6 GHz的四陷波带和消除频率3.55 ~ 5.16 GHz、5.52 ~ 5.73 GHz、6.44 ~ 6.78 GHz和7.66 ~ 10.6 GHz的四陷波带实现对缺陷地平面的天线适配。

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Int. J. Pervasive Comput. Commun.

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