5G、X、Ku波段圆形贴片天线馈电方式对天线特性的影响

Q3 Physics and Astronomy
Nitasha Bisht, P. Malik, Sudipta Das
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引用次数: 0

摘要

本文对一种开槽圆形贴片微带天线的同轴馈电和微带线馈电进行了比较分析。当采用各种馈电技术来增加阻抗匹配时,会影响电压驻波比、辐射方向图、增益等几个特性参数的性能。为了确定这些变量的影响程度,进行了比较研究,并在本工作中提供了结果。利用高频结构模拟器(HFSS)三维电磁软件对天线进行了设计和仿真。预期的同轴馈电天线谐振频率为7.5 GHz、12.5 GHz和15 GHz,带宽分别为1800、720和360 MHz,峰值增益为5.63 dB。微带馈电天线谐振频率分别为3.5、7、12.8、15、17.5 GHz,带宽分别为180、450、90、1170、2250 MHz,峰值增益为6.57 dB。在增益、带宽和多频带特性方面,微带线馈电已被证明优于同轴探头馈电。天线设计尺寸为33.5633.56 mm 2。用于圆形贴片微带天线设计的衬底是FR4。该天线具有多频带特性和带宽提高等特点。该天线可以在X、Ku及更低的5G频段中有效利用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Feeding Methods for a Circular Shaped Multiband Patch Antenna at 5G, X and Ku Band to Quantify their Effects on Antenna Characteristics
The paper is a comparative analysis of coaxial feed and microstrip line feed for a slotted circular patch microstrip antenna. When various feeding techniques are used to increase impedance matching, the performance of several characteristic parameters, such as voltage standing wave ratio, radiation pattern, gain etc. are impacted. To determine the extent to which these variables are affected, a comparison study is conducted, and the results are provided in this work. With the help of High Frequency Structure Simulator (HFSS) 3D electromagnetic software the antenna is devised and simulated. The intended coaxial feed antenna resonates at 7.5 GHz, 12.5 GHz, and 15 GHz, with bandwidths of 1800, 720, and 360 MHz, respectively, and 5.63 dB as a peak gain. In contrast, the proposed micro-strip feed antenna resonates at 3.5, 7, 12.8, 15, 17.5 GHz with a bandwidth of 180, 450, 90, 1170, 2250 MHz and a peak gain of 6.57 dB. In terms of gain, bandwidth, and multiband characteristics, microstrip line feed has been shown to outperform coaxial probe feed. The antenna designed with dimension of 33.56  33.56 mm 2 . The substrate used for the designing of circular patch microstrip antenna is FR4. The novel features of the designed antenna include its multiband properties and increased bandwidth. The proposed antenna can be utilized efficiently in X, Ku and lower 5G band.
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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
自引率
0.00%
发文量
69
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