Design of a compact wideband bi-directional pattern antenna for 5G applications

S. Lamultree, Supada Srisukhot, C. Saetiaw, K. Nuangwongsa, C. Phongcharoenpanich
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Abstract

In this research, a wideband bi-directional pattern antenna implemented by a circular monopole encircled with an enforced-radiation circular ring incorporated with inversed L-shaped stub is designed to operate over the mid-band of 5G applications ranging from 2 to 6 GHz. It is contrived of a copper overlaid on FR4 substrate with relative permittivity of 4.3 and height of 1.6 mm. This proposed antenna is fed by a 50-ohm coplanar waveguide, which is printed on the same side of the radiated circular monopole. To further enrich the impedance matching, a pair of etched slots is added-on the ground plane near the fed line to reduce the return loss. In the study, the initial parameters are theoretically worked out, and then simulation is then performed by using an electromagnetic solutions tool to numerically discover the set of solution parameters. From the simulation results, this proposed antenna offers the |S11|<–10 dB covered the operating frequency running from 1.79 to over 8 GHz with fractional bandwidth 126.90 % and 1.74 to 7.07 GHz with fractional bandwidth 101.04 % for the simulation excluded and included SMA, respectively. It provides a linear polarization with total efficiency better than 81.5 %. After that, an antenna prototype with compact dimensions of 45×45×0.6 mm3 was fabricated and testified to validate the simulation results. The measurement results provide a stability bi-directional pattern with peak gain of 5.54 dBi covering a 10 dB return loss bandwidth of 118.5 % (1.93–7.54 GHz). Simulated |S11|, 2D radiation pattern and gain are reasonably in good agreement with experimental results. Furthermore, this proposed antenna is compared with the current compact, wideband and 5G antenna to indicate its prospective for the interested bands
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面向5G应用的紧凑型宽带双向方向天线设计
在本研究中,设计了一种宽带双向方向图天线,该天线由圆形单极子环绕,强制辐射圆形环与反l形stub结合,用于在2至6 GHz的5G应用中频范围内工作。该器件采用相对介电常数为4.3,高度为1.6 mm的铜片复盖在FR4衬底上。该天线由一个50欧姆共面波导馈电,该波导印刷在辐射圆形单极子的同侧。为了进一步丰富阻抗匹配,在馈线附近的地平面上增加了一对蚀刻槽,以减少回波损耗。在研究中,首先从理论上计算出初始参数,然后利用电磁解算工具进行仿真,数值发现解算参数集。仿真结果表明,在不含SMA和含SMA的情况下,该天线的工作频率为1.79 ~ 8 GHz,带宽为126.90%,工作频率为1.74 ~ 7.07 GHz,带宽为101.04%,工作频率< -10 dB。它提供了一个总效率优于81.5%的线偏振。在此基础上,制作了尺寸为45×45×0.6 mm3的天线样机,并对仿真结果进行了验证。测量结果提供了一个稳定的双向方向图,峰值增益为5.54 dBi, 10db回波损耗带宽为118.5% (1.93-7.54 GHz)。模拟的S11、二维辐射方向图和增益与实验结果基本吻合。此外,将该天线与现有的紧凑型、宽带和5G天线进行了比较,以表明其在相关频段的前景
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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