基于分形几何与CSRR相结合的天线性能改进

IF 2.7 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

Journal of Information and Telecommunication Pub Date : 2023-02-18 DOI:10.1080/24751839.2023.2174646

T. N. Cao, Thi Quynh Hoa Nguyen, Thi Nha Nguyen, Ngoc Hieu Nguyen, D. T. Le

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引用次数: 0

摘要

为提高5G系统的性能，提出了一种工作在3.5 GHz的天线设计方法。天线的设计采用了分形几何和结构不完美的地平面。其中，辐射面具有闵可夫斯基岛分形几何的形式，被移除的地面部分为互补的分环谐振器单元胞。在本设计中，衬底材料为fr4 -环氧树脂微波层压板，其介电常数为ε = 4.4，损耗正切(tan δ)为0.02,h = 1.6 mm厚度用于设计天线。采用微带线馈电方式，采用HFSS软件进行仿真。与原微带天线相比，该天线的总尺寸减小了约56%，带宽提高了207%，峰值增益提高到4.66 dB，辐射效率提高到89.3%。制作了天线的物理模型并进行了测量，验证了设计的正确性。

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Improved performance for antenna based on a combination of fractal geometry with CSRR

ABSTRACT In this paper, an antenna design method operating at 3.5 GHz for 5G system is presented to improve its performance. The antenna is designed using fractal geometry combined with an imperfectly structured ground plane. In which, the radiation surface has the form of a Minkowski island fractal geometry, and the removed part of the ground is a complementary split ring resonator unit cell. In this design, the substrate material is FR4-epoxy microwave laminates with dielectric constant ϵ = 4.4, loss tangent (tan δ) of 0.02, and h = 1.6 mm thickness used to design the antennas. HFSS software is used in the simulation with the feeding method with a microstrip line. The proposed antenna has a significant performance increase compared to the original microstrip antenna such as reduced about 56% reduction in total size, enhanced 207% bandwidth, increased peak gain to 4.66 dB, and improved radiated efficiency to 89.3%. The physical model of the antenna has been fabricated and measured to verify the correctness of the design.

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来源期刊

Journal of Information and Telecommunication Multiple-

CiteScore

7.50

自引率

0.00%

发文量

审稿时长

27 weeks