5G高隔离缺陷接地结构分形贴片天线

Q3 Physics and Astronomy Journal of Nano-and electronic Physics Pub Date : 2023-01-01 DOI:10.21272/jnep.15(3).03012
A. Es-saleh, M. Bendaoued, S. Lakrit, Sudipta Das, M. Atounti, A. Faize
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引用次数: 0

摘要

提出了一种新型具有缺陷地面结构的紧凑圆形分形单极贴片天线(FMPA)。用迭代函数系统(IFS)创建了建议的分形几何。包含这种分形几何的主要目的是为了实现小型化和宽带性能。5G应用中规定的FMPA的完整几何形状是通过将分形与方形和八段星形结合来构建的;在每个线段中,我们创建一个从一个线段到另一个线段旋转45°的正方形。提出的分形几何尺寸为146 mm 2。天线的底平面由缺陷接地结构(DGS)组成,以获得更好的隔离和小型化。该结构提供了良好的性能指标,如增益和反射系数。本工作使用的衬底为Rogers RO4003C,其介电常数为3.55,高为0.2 mm,损耗正切为0.025。计算机仿真技术-微波工作室(CST)对该天线进行了评估。该天线工作频率为26 GHz,阻抗带宽为0.357 GHz,最大反射系数为- 24.426 dB。该天线的峰值增益为3.83 dB,最大辐射效率为95.78%,并通过保持其紧凑的尺寸获得所需的辐射方向图。
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A Novel Fractal Patch Antenna Using Defected Ground Structure (DGS) with High Isolation for 5G Applications
This paper presents a novel compact circular shaped fractal monopole patch antenna (FMPA) with de-fected ground structure (DGS). The suggested fractal geometry has been created by using an iterated function system (IFS). The primary aim behind the inclusion of this fractal geometry is used to achieve miniaturization and wideband performance. The complete geometry of the prescribed FMPA for 5G applications is constructed by incorporating fractals with square and star with eight segments; in each segment we create a square with a rotation of 45° from one segment to another. The dimension of proposed fractal geometry is 14  6 mm 2 . The bottom plane of the antenna consists of defected ground structures (DGS) to acquire better isolation and miniaturization. The proposed structure provides a good performance metrics such as gain, and reflection coefficient. The substrate used in this work is Rogers RO4003C, which has a dielectric constant of 3.55, a high of 0.2 mm, and loss tangent of 0.025. Computer Simulation Technology-Microwave Studio (CST) is used to evaluate this antenna. The suggested antenna operates at 26 GHz with an impedance bandwidth of 0.357 GHz along with maximum reflection coefficient of – 24.426 dB. The prescribed antenna attains a peak gain of 3.83 dB, maximum radiation efficiency of 95.78 % and desired radiation patterns by maintaining its compact size.
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来源期刊
Journal of Nano-and electronic Physics
Journal of Nano-and electronic Physics Materials Science-Materials Science (all)
CiteScore
1.40
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0.00%
发文量
69
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