一种提升圆极化微带缝隙耦合天线增益的方法
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- 英文论文题名:An Effective Way to Improve Gain of Circular Polarized Microstrip Slot Coupled Antennas
- 论文作者:李名玮 ; 苏涛
- 英文论文作者:Ming Wei Li ; Tao Su ; Xidian University
- 年:2017
- 作者机构:西安电子科技大学;
- 论文关键词:高增益 ; 圆极化 ; 宽频带 ; 卫星通信系统
- 英文论文关键词:high gain ; circular polarization ; wideband ; Satellite Mobile Communication System
- 会议召开时间:2017-05-08
- 会议录名称:2017年全国微波毫米波会议论文集(中册)
- 英文会议录名称:Proceedings of 2017 National Conference on Microwave and Millimeter Waves(NCMMW2017)
- 语种:中文
- 分类号:TN822
- 学会代码:ZDWB
- 会议名称:2017年全国微波毫米波会议
- 会议地点:中国浙江杭州
- 主办单位:中国电子学会
- 学会名称:中国电子学会微波分会
- 页数:4
- 文件大小:1002k
- 原文格式:D
- 会议级别:全国
摘要
本文提出一种4单元的左旋圆极化微带缝隙耦合天线设计方案,适用于1.98-2.2GHz的卫星通信频段。文中提出一种提升卫星通信频段圆极化天线设计方法。仿真结果表明,该圆极化天线可实现在1.9-2.25GHz内,驻波比小于1.5,圆极化轴比小于3d B。相比于原天线,其最大增益提升了0.55d Bi。并可根据工程需要,继续提升增益。这种天线具有电性能优良、结构简单可靠、制造成本低等特点,非常适用于卫星通信系统。
A 4-cell left-hand microstrip slot circular polarized coupling antenna is presented, which applied to 1.98-2.2GHz frequency bands currently known of satellite mobile communication system. In this paper, a high gain antenna design way for the satellite mobile bands is proposed. According to the simulation results, the antenna is found to have an excellent performance within a wideband range from 1.9-2.25 GHz. The VSWR is less than 1.5, circular polarized axial ratio is less than 3d B.Compared to the original antenna, its biggest gain increased 0.55 d Bi. The biggest gain could also be extended according to the engineering needs. The antenna has an excellent electrical performance, simple and reliable structure, low manufacturing cost characteristics, which also could be applied for satellite mobile communication system.
A 4-cell left-hand microstrip slot circular polarized coupling antenna is presented, which applied to 1.98-2.2GHz frequency bands currently known of satellite mobile communication system. In this paper, a high gain antenna design way for the satellite mobile bands is proposed. According to the simulation results, the antenna is found to have an excellent performance within a wideband range from 1.9-2.25 GHz. The VSWR is less than 1.5, circular polarized axial ratio is less than 3d B.Compared to the original antenna, its biggest gain increased 0.55 d Bi. The biggest gain could also be extended according to the engineering needs. The antenna has an excellent electrical performance, simple and reliable structure, low manufacturing cost characteristics, which also could be applied for satellite mobile communication system.
引文
[1]R.Q.Lee and K.F.Lee,Experimental study of the two-layer electromagnetically coupled rectangular patch atenna[J],IEEE transaction.Antennas and Propagation,vol 14,no 11,pp1298-1302,2004.
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[3]R.Q.Lee,T Talty and K.F.Lee,Circular polarization characteristics of stacked microstrip antenna[J],Electron.Lett,vol 26,no25,pp 2109-2110,1990.
[4]G.V.Trentini,Partially reflecting sheet array[J],IEEE Transaction.Antennas and Propagation,vol 4,no 44,pp 666-671,1956.
[5]V.R.Vaidya,R.K.Gupta,S.K.Mishra and J.Mukherjee,Right-hand/Left-hand circular polarized high gain antennas using partially reflective surfaces[J],IEEE Transaction,Antennas Wireless Propagation Letter,vol 13,no 4,pp 649-653,1983.
[2]S.Egashiara and E.Nishiyama,Stacked microstrip antenna with wide bandwidth and high gain,IEEE transaction.Antenna and Propagation,vol 44,no 11,pp 1533-1534,1996.
[3]R.Q.Lee,T Talty and K.F.Lee,Circular polarization characteristics of stacked microstrip antenna[J],Electron.Lett,vol 26,no25,pp 2109-2110,1990.
[4]G.V.Trentini,Partially reflecting sheet array[J],IEEE Transaction.Antennas and Propagation,vol 4,no 44,pp 666-671,1956.
[5]V.R.Vaidya,R.K.Gupta,S.K.Mishra and J.Mukherjee,Right-hand/Left-hand circular polarized high gain antennas using partially reflective surfaces[J],IEEE Transaction,Antennas Wireless Propagation Letter,vol 13,no 4,pp 649-653,1983.