摘要
本文提出一款应用于5G频段,可实现方位面±40°波束扫描的圆极化微带相控阵天线。该相控阵天线单元是由矩形贴片、上下介质板、缝隙耦合馈电结构、金属反射板构成。利用切比雪夫综合法的一分八不等分功分器实现相控阵天线的馈电形式。测试结果表明,阵列天线的驻波比带宽为3.25 GHz~3.69 GHz,端口隔离度大于25 dB,扫描过程中增益最大为21 dB,增益衰落小于3 dB,最大扫描角处轴比为2.89 dB。该天线具有低剖面、高隔离度、高增益以及良好的波束扫描性能等优点。
A circularly polarized microstrip phased array antenna that can achieve azimuth±40°beam scanning in the 5G frequency band is proposed.The phased array antenna element is composed of a rectangular patch,upper and lower dielectric plates,a slot coupled feed structure and a metal reflective plate.The feed form of phased array antenna is realized by using the one-eighth unequal power divider of Chebyshev synthesis method.The test results show that the standing wave ratio bandwidth of the array antenna is 3.25 GHz~3.69 GHz,the port isolation is greater than 25 dB,the maximum gain during scanning is 21 dB,the gain fading is less than 3 dB,and the axial ratio at the maximum scanning angle is 2.89 dB.The antenna has the advantages of low profile,high isolation,high gain and good beam scanning performance.
作者
李冯
庄伟
LI Feng;ZHUANG Wei(School of Computer and Electronic Information,School of Artificial Intelligence,Nanjing Normal University,Nanjing 210023,China;School of Physical Science and Technology,Nanjing Normal University,Nanjing 210023,China)
出处
《微波学报》
CSCD
北大核心
2024年第1期13-17,共5页
Journal of Microwaves
基金
国家自然科学基金(12174197)
关键词
5G
微带
相控阵
低剖面
波束扫描
5G
microstrip
phased array
low profile
beam scanning
