s波段超宽带应用的新型双圆堆叠微带贴片天线设计

2016 International Conference on Control, Computing, Communication and Materials (ICCCCM) Pub Date : 2016-10-01 DOI:10.1109/ICCCCM.2016.7918225

Aman Nag, Divesh Mittal, Avneet Kaur, Ekambir Sidhu

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引用次数: 1

摘要

本文提出了用于s波段应用的双圆形堆叠微带贴片天线的设计和性能分析。在天线设计中，采用介电常数为4.4的材料FR 4作为衬底。接地、贴片和馈线是铜质的。该天线在贴片上有两个圆形堆叠，阻抗带宽为110 MHz，工作频率范围为3.34 GHz ~ 3.45 GHz。在该天线设计中，采用了叠加的方法来提高天线的方向性和回波损耗。该天线采用阻抗为49.36 Ω的微带馈线馈电。从回波损耗(dB)、阻抗带宽(MHz)、指向性(dBi)、增益(dB)、驻波比(VSWR)和阻抗(欧姆)等方面分析了天线的性能。该天线谐振频率为3.40 GHz，最小回波损耗为- 41.55 dB，增益为4.45 dB，指向性为6.47 dBi。该天线可用于s波段(2ghz - 4ghz)应用。利用CST Microwave Studio 2014对该天线进行了设计和仿真。该天线已成功制作完成，并在E5071C网络分析仪和消声室上进行了测试。实验结果表明，CST天线模拟结果与实际制作结果吻合较好。

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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Novel dual circular stacked microstrip patch antenna design for S-band UWB applications

In this paper, the design and performance analysis of dual circular stacked microstrip patch antenna for S-band applications has been proposed. In the proposed antenna design, the substrate of material FR 4 having dielectric constant 4.4 have been used. The ground, patch and feedline are of copper material. The proposed antenna has two circular stackings on the patch and the antenna has impedance bandwidth of 110 MHz with operating frequency ranging from 3.34 GHz to 3.45 GHz. In the proposed antenna design, the stacking has been employed to enhance the directivity and return loss. The proposed antenna design has been fed by microstrip feedline having impedance of 49.36 Ω. The performance of antenna has been analyzed in terms of return loss (dB), impedance bandwidth (MHz), directivity (dBi), gain (dB), VSWR and impedance (ohms). The proposed antenna design resonates at 3.40 GHz frequency with minimum return loss of −41.55 dB, gain of 4.45 dB and directivity of 6.47 dBi. The proposed antenna can be used for S-band (2GHz–4 GHz) applications. The proposed antenna has been designed and simulated using CST Microwave Studio 2014. The proposed antenna has been successfully fabricated and tested using E5071C network analyzer and anechoic chamber. It has been observed that the CST simulated antenna results closely match with the practically fabricated results of the proposed antenna.

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来源期刊

2016 International Conference on Control, Computing, Communication and Materials (ICCCCM)

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