重庆理工大学学报:自然科学
重慶理工大學學報:自然科學
중경리공대학학보:자연과학
Journal of Chongqing Institute of Technology
2012年
11期
88-92
,共5页
龙文峰%李杜%周伟%付云起
龍文峰%李杜%週偉%付雲起
룡문봉%리두%주위%부운기
超宽带%圆锥天线%增益
超寬帶%圓錐天線%增益
초관대%원추천선%증익
ultra-wideband%conical antenna%gain
提出了一种对圆锥天线的外部轮廓线进行改进以提高天线性能的方法。介绍了组成天线轮廓线的每个椭圆半径的设计过程,用HFSS软件对设计的天线进行仿真优化,并选定七椭圆锥凸起型天线。仿真结果表明:天线覆盖0.3~3 GHz的频带,在10∶1的频带范围内天线的实际增益大于0 dBi。
提齣瞭一種對圓錐天線的外部輪廓線進行改進以提高天線性能的方法。介紹瞭組成天線輪廓線的每箇橢圓半徑的設計過程,用HFSS軟件對設計的天線進行倣真優化,併選定七橢圓錐凸起型天線。倣真結果錶明:天線覆蓋0.3~3 GHz的頻帶,在10∶1的頻帶範圍內天線的實際增益大于0 dBi。
제출료일충대원추천선적외부륜곽선진행개진이제고천선성능적방법。개소료조성천선륜곽선적매개타원반경적설계과정,용HFSS연건대설계적천선진행방진우화,병선정칠타원추철기형천선。방진결과표명:천선복개0.3~3 GHz적빈대,재10∶1적빈대범위내천선적실제증익대우0 dBi。
A method to improve comical antenna performance based on external contour modification is presented in this paper.It also describes the design process of radius of each ellipse that composes antenna contour.The antenna designed is simulated and optimized by HFSS software and the seven-ellipse and convex-type cone antenna is finally selected.The results show that the frequency of the antenna ranges from 0.3GHz to 3 GHz and the actual gain of the antenna is greater than 0dBi within the frequency rang of 10∶1.
