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一种单层双频宽带GNSS测量型天线设计 被引量:3

Design of a Monolayer Dual-frequency Broadband Antenna with Surveying for GNSS
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摘要 基于单介质层结构,设计了一款双频宽带全球卫星导航系统(GNSS)测量型天线,天线采用单层高性能轻质复合材料作为双频微带天线共用的辐射介质基板.双频辐射贴片单元采用共面齿轮结构设计,并在天线单元外围设置一系列短路销钉来有效改善天线轴比带宽、低仰角辐射增益等参数,四馈点馈电技术和宽带耦合相移馈电网络的应用保证了天线相位中心稳定度更加可靠.设计结果表明,该双频天线单元大于等于5dBi的辐射增益带宽均大于245MHz,高低频3dB轴比带宽分别为-76°-76°和-116°-116°,低仰角90°增益滑落均小于11.5dB,经实物样机对比测试分析,实测结果与仿真结果基本吻合.实测频谱显示,该天线工作频段覆盖目前在运行的四大导航系统全部工作频点,较好满足GNSS精确测量与定位系统终端设备应用需求. A monolayer broadband antenna with surveying for global navigation satellite system(GNSS) ispresented,and a monolayer high-performance composite is chosen as the common dielectric substrate of thedual-frequency microstrip antenna. Dual-band radiation patches use a coplanar sawtooth structure,andsome short- circuit probes distributed on the edge of the antenna can improve axial-ratio bandwidth andlow elevation gain of antenna. The four-feed network is designed to achieve a stability reliable phase centerof antenna. The 5 dBi radiation gain bandwidths of dual-frequency antenna are both greater than 245 MHz,and the 3 dB axial-ratio bandwidth of high-frequency antenna unit and of low-frequency antenna unit are-76°-76°and -116°-116°respectively,and the gain slide of antenna is less than 11. 5 dB in low angleof elevation for 90°. The experimental results show that the simulation results and the testing results are inagreement. The measured spectrum shows that the developed antenna can cover all corresponding operatingbandwidth for GNSS. Especially it is suitable for the terminal equipment of precision measurement and posi-tioning for GNSS.
作者 李晓鹏 李庚禄 张华福
机构地区 广州中海达卫星导航技术股份有限公司
出处 《电讯技术》 北大核心 2015年第2期211-215,共5页 Telecommunication Engineering
关键词 全球卫星导航系统 双频宽带天线 单介质层 共面齿轮 低仰角 global navigation satellite system dual -frequency broadband antenna monolayer coplanarsawtooth low elevation
分类号 TN821 [电子电信—信息与通信工程]
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参考文献8

  • 1Sim C Y D,Lin K W,Row J S. Design of An Annular-Ring Microstrip Antenna for Circular Polarized [C] / /Proceedings of 2004 IEEE Antennas and Propagation So-ciety International Symposium. Monterey, CA: IEEE,2004:471-474.
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二级参考文献20

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共引文献15

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电讯技术
2015年 第2期

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