Broadband planar slot antenna using a simple single-layer FSS stopband

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Broadband planar slot antenna using a simple single-layer FSS stopband

机译：使用简单的单层FSS阻带的宽带平面缝隙天线

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In this study, the authors propose a simple structure of a new broadband planar slot antenna using a wide single-layer frequency selective surface (FSS) stopband. The proposed design is realised in two stages. First, the performances of the FSS unit cells are investigated using the finite element method of high-frequency structure simulator. Besides, the FSS structure considered as a stop-band filter in the bandwidth $lpar 3 - 7, {m GHz}par $(3-7GHz), is also validated by computer simulation technology microwave studio. Second, this FSS reflector is combined with a miniaturised wideband planar slot antenna $lpar 29 imes 24 imes 1.57, ; {m m}{m m}3par $(29x24x1.57mm3). The final proposed combination is also designed, optimised, fabricated and validated by measurements. The obtained results show an operating impedance bandwidth of $86.38percnt $86.38% $lpar 2.92 - 7.36, {m GHz}par $(2.92-7.36GHz) including the Worldwide interoperability for Microwave Access band, the C band for satellite applications, and the Wireless Local Area Network band. Furthermore, the antenna provides an $8.87, {m dBi}$8.87dBi measured maximum gain. Compared to the same antenna without FSS, a maximum gain enhancement of $5.53, {m dBi}$5.53dBi is achieved by the proposed structure. In addition, the back lobes are reduced in the proposed structure by $ gt 15, {m dBi}$>15dBi, compared to a simple antenna. The total size of the proposed antenna, integrating the FSS, is 0.63 lambda(0) x 0.63 lambda(0) x 0.12 lambda(0).

机译：在这项研究中，作者提出了一种使用宽单层频率选择性表面（FSS）阻带的新型宽带平面缝隙天线的简单结构。拟议的设计分两个阶段实现。首先，使用高频结构仿真器的有限元方法研究了FSS晶胞的性能。此外，计算机模拟技术微波工作室也验证了被认为是带宽$ lpar 3-7 { rm GHz} rpar $（3-7GHz）中的阻带滤波器的FSS结构。第二，该FSS反射器与小型化宽带平面缝隙天线组合在一起。 { rm m} { rm m} 3 rpar $（29x24x1.57mm3）。最终提出的组合还可以通过测量来设计，优化，制造和验证。获得的结果显示，工作阻抗带宽为$ 86.38 percnt $ 86.38％$ lpar 2.92-7.36 ，{ rm GHz} rpar $（2.92-7.36GHz），包括微波访问频带的全球互操作性，卫星的C频带应用程序以及无线局域网频段。此外，天线提供了$ 8.87 ，{ rm dBi} $ 8.87dBi的最大测量增益。与没有FSS的相同天线相比，所提出的结构可实现最大增益增强$ 5.53 ，{ rm dBi} $ 5.53dBi。另外，与简单天线相比，在所提议的结构中，后瓣减小了$ gt 15 ，{ rm dBi} $> 15dBi。集成了FSS的拟议天线的总大小为0.63 lambda（0）x 0.63 lambda（0）x 0.12 lambda（0）。

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《Microwaves, Antennas & Propagation, IET》 |2020年第3期|203-210|共8页
作者

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作者单位

Univ Msila Elect Dept Msila 28000 Algeria;

Univ Bordj Bou Arreridj Elect Dept LETA El Anasser 34031 Algeria;

Univ Bordj Bou Arreridj Elect Dept LETA El Anasser 34031 Algeria|Ecole Natl Super Informat ESI Ex INI Algiers Algeria;

INRS EMT Quebec City PQ Canada;

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正文语种 eng
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wireless LAN; frequency selective surfaces; slot antennas; antenna radiation patterns; planar antennas; microwave antennas; microstrip antennas; broadband antennas; finite element analysis; satellite antennas; band-stop filters; reflector antennas; impedance bandwidth; microwave access band; wireless local area network; broadband planar slot antenna; frequency selective surface; FSS unit cells; finite element method; high-frequency structure simulator; FSS structure; stop-band filter; computer simulation technology microwave studio; FSS reflector; wideband planar slot antenna; simple single-layer FSS stopband; Worldwide interoperability for Microwave Access band; C band; satellite applications; gain enhancement; frequency 2; 92 GHz to 7; 36 GHz;

机译：无线网络;频率选择表面;缝隙天线;天线辐射方向图;平面天线;微波天线;微带天线;宽带天线;有限元分析;卫星天线;带阻滤波器;反射天线;阻抗带宽微波接入频段;无线局域网宽带平面缝隙天线;频率选择表面FSS单位单元;有限元法高频结构模拟器FSS结构;阻带滤波器计算机仿真技术微波工作室;FSS反射器;宽带平面缝隙天线;简单的单层FSS阻带;微波访问频段的全球互操作性;C波段;卫星应用;获得增强;频率2;92 GHz至7;36 GHz;

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1. Broadband Single-Layer Slotted Array Antenna in SIW Technology [J] . Mencarelli D., Morini A., Prudenzano F., Antennas and Wireless Propagation Letters, IEEE . 2016,第1期

机译：SIW技术的宽带单层缝隙阵列天线
2. Single-layer broadband planar antenna using ultrathin high-efficiency focusing metasurfaces [J] . Hai-Sheng Hou, Guang-Ming Wang, Hai-Peng Li, 中国物理：英文版 . 2017,第005期

机译：使用超薄高效聚焦超表面的单层宽带平面天线
3. Broadband Planar SIW Cavity-Backed Slot Antennas Aided by Unbalanced Shorting Vias [J] . Wu Qi, Yin Jiexi, Yu Chen, IEEE Antennas and Wireless Propagation Letters . 2019,第2期

机译：不平衡短通孔辅助的宽带平面SIW腔体支持的缝隙天线
4. Design of constant gain UWB planar antenna using single-layer FSS [C] . Yahya, Rabia, Itami, Makoto IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting . 2015

机译：基于单层FSS的恒定增益UWB平面天线设计
5. The broadband, shallow, reflecting cavity-backed slot spiral antenna. [D] . Nurnberger, Michael William. 2002

机译：宽带，浅，反射腔后隙缝隙螺旋天线。
6. A Graphene-Based Stopband FSS with Suppressed Mutual Coupling in Dielectric Resonator Antennas [O] . Wei Qian, Wei Xia, Wenqing Zhou, 2021

机译：基于石墨烯的阻带FSS具有介质谐振器天线中的抑制互联耦合
7. Planar broadband slotted two-ring antenna for mobile communication of the fifth generation radiation [O] . Т.А. Цалиев 2019

机译：平面宽带开槽双环天线，用于第五代辐射的移动通信
8. A STUDY OF THE SLOT TRANSMISSION LINE AND SLOT ANTENNAS Part 5 Radiation Fields of Slot-Yagi Antennas on Finite Planar and Curved Surfaces [R] . Robert W Burton 1963

机译：缝隙传输线和缝隙天线的研究第5部分有限平面和曲面上的缝 - 八木天线的辐射场

Broadband planar slot antenna using a simple single-layer FSS stopband

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