Design of a Novel Miniaturized Frequency Selective Surface Based on 2.5-Dimensional Jerusalem Cross for 5G Applications

Peng Zhao; Yihang Zhang; Rongrong Sun; Wen-Sheng Zhao; Yue Hu; Gaofeng Wang

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Design of a Novel Miniaturized Frequency Selective Surface Based on 2.5-Dimensional Jerusalem Cross for 5G Applications

机译：基于2.5维耶路撒冷交叉进行5G应用的新型小型化频率选择表面的设计

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A compact frequency selective surface (FSS) for 5G applications has been designed based on 2.5-dimensional Jerusalem cross. The proposed element consists of two main parts: the successive segments of the metal traces placed alternately on the two surfaces of the substrate and the vertical vias connecting traces. Compared with previous published two-dimensional miniaturized elements, the transmission curves indicate a significant size reduction (1/26 wavelengths at the resonant frequency) and exhibit good angular and polarization stabilities. Furthermore, a general equivalent circuit model is established to provide direct physical insight into the operating principle of this FSS. A prototype of the proposed FSS has been fabricated and measured, and the results validate this design.

机译：基于2.5维耶路撒冷交叉设计了一种用于5G应用的紧凑型频率选择表面（FSS）。该元件由两个主要部分组成：交替放置在基板两个表面上的连续金属迹线段和连接迹线的垂直通孔。与之前发布的二维小型化元件相比，透射曲线表明尺寸显著减小（谐振频率下为1/26波长），并且具有良好的角度和偏振稳定性。此外，还建立了一个通用的等效电路模型，以提供对该FSS工作原理的直接物理洞察。已经制作并测量了所提出的FSS的原型，结果验证了该设计。

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《Wireless communications & mobile computing》 |2018年第1期|共6页
作者
Peng Zhao; Yihang Zhang; Rongrong Sun; Wen-Sheng Zhao; Yue Hu; Gaofeng Wang;
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作者单位

Key Lab of RF Circuits and Systems of Ministry of Education School of Electronics and Information Hangzhou Dianzi University;

Key Lab of RF Circuits and Systems of Ministry of Education School of Electronics and Information Hangzhou Dianzi University;

Key Lab of RF Circuits and Systems of Ministry of Education School of Electronics and Information Hangzhou Dianzi University;

Key Lab of RF Circuits and Systems of Ministry of Education School of Electronics and Information Hangzhou Dianzi University;

Key Lab of RF Circuits and Systems of Ministry of Education School of Electronics and Information Hangzhou Dianzi University;

Key Lab of RF Circuits and Systems of Ministry of Education School of Electronics and Information Hangzhou Dianzi University;

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Design of a Novel Miniaturized Frequency Selective Surface Based on 2.5-Dimensional Jerusalem Cross for 5G Applications

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