Dual-band frequency reconfigurable 5G microstrip antenna

Jurnal Ilmiah SINERGI Pub Date : 2023-01-13 DOI:10.22441/sinergi.2023.1.010

Y. Rahayu, Yoga Bayu Pradana, Yoshihide Yamada

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Abstract

Microstrip Antenna is widely developed and used in modern telecommunications equipment because of its advantages. Microstrip antenna is also used in 5G development which is expected to increase communication capacity and also be able to provide very large data rates. The frequency used in 5G is 28, 38, and 78 GHz. However, the 5G network with high frequency has a weakness: transmitted waves are vulnerable to weather because of their dense waveform. Therefore, the multiband is used to support different frequencies in one antenna. Furthermore, antenna reconfiguration is used to set the antenna to work on a different frequency and adjust different radiation patterns depending on the needs without changing the form of the antenna. This paper proposes the dual-band frequency reconfigurable antenna with RT Duroid 5880 as its substrate using PIN diodes placed between the main patch and secondary patch element and simulated on CST software for 28 GHz and 38 GHz with two conditions, ON and OFF. Both simulated and measured results show that the antenna can work well as intended. During the OFF condition, the antenna only works at 38 GHz, while in the ON condition, the antenna works at 28 GHz and 38 GHz, respectively.

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双频可重构5G微带天线

微带天线以其独特的优点在现代通信设备中得到了广泛的发展和应用。微带天线也用于5G开发，预计将增加通信容量，并能够提供非常大的数据速率。5G使用的频率是28ghz、38ghz和78ghz。然而，高频率的5G网络有一个弱点:由于其密集的波形，传输波容易受到天气的影响。因此，使用多频段来支持在一个天线中使用不同的频率。此外，天线重新配置用于设置天线在不同的频率上工作，并根据需要调整不同的辐射方向图，而不改变天线的形式。本文提出了一种以RT Duroid 5880为衬底的双频频率可重构天线，在主贴片和副贴片元件之间放置PIN二极管，并在CST软件上进行了28 GHz和38 GHz两种开、关两种情况下的仿真。仿真和实测结果表明，该天线能达到预期的工作效果。在关闭状态下，天线只工作在38ghz，在打开状态下，天线分别工作在28ghz和38ghz。

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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Jurnal Ilmiah SINERGI

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审稿时长

5 weeks