西安邮电大学学报
西安郵電大學學報
서안유전대학학보
Journal of Xi'an University of Posts and Telecommunications
2014年
5期
96-100
,共5页
陈斌%赵鹏%杨路刚%颜慧
陳斌%趙鵬%楊路剛%顏慧
진빈%조붕%양로강%안혜
矩量法%阻抗矩阵%并矢格林函数%短波天线%辐射性能
矩量法%阻抗矩陣%併矢格林函數%短波天線%輻射性能
구량법%조항구진%병시격림함수%단파천선%복사성능
method of moment%impedance matrix%dyadic Green’s function%shortwave antenna%radiation performance
R WG矩量法在短波天线和地面全剖分时数据量过大且地面效应不足,针对由此引起的计算准确度偏低问题,提出一种新的计算模型。新模型引入辅助三角形对短波接地天线馈源模型进行改进,以理想导电半空间场型并矢格林函数作为电场积分方程的积分内核,R WG边元仅剖分天线辐射体。采用矩量法离散电场积分方程,分析阻抗矩阵计算中的奇异积分和高震荡性问题,引入9点积分法予以解决。以短波鞭状天线为例,进行场强方向图和输入阻抗的仿真,结果与商用电磁仿真软件FEKO以及公开的文献吻合较好。新模型可减小计算量和仿真时间,提高计算准确度。
R WG矩量法在短波天線和地麵全剖分時數據量過大且地麵效應不足,針對由此引起的計算準確度偏低問題,提齣一種新的計算模型。新模型引入輔助三角形對短波接地天線饋源模型進行改進,以理想導電半空間場型併矢格林函數作為電場積分方程的積分內覈,R WG邊元僅剖分天線輻射體。採用矩量法離散電場積分方程,分析阻抗矩陣計算中的奇異積分和高震盪性問題,引入9點積分法予以解決。以短波鞭狀天線為例,進行場彊方嚮圖和輸入阻抗的倣真,結果與商用電磁倣真軟件FEKO以及公開的文獻吻閤較好。新模型可減小計算量和倣真時間,提高計算準確度。
R WG구량법재단파천선화지면전부분시수거량과대차지면효응불족,침대유차인기적계산준학도편저문제,제출일충신적계산모형。신모형인입보조삼각형대단파접지천선궤원모형진행개진,이이상도전반공간장형병시격림함수작위전장적분방정적적분내핵,R WG변원부부분천선복사체。채용구량법리산전장적분방정,분석조항구진계산중적기이적분화고진탕성문제,인입9점적분법여이해결。이단파편상천선위례,진행장강방향도화수입조항적방진,결과여상용전자방진연건FEKO이급공개적문헌문합교호。신모형가감소계산량화방진시간,제고계산준학도。
There would be too much data and little ground effect to calculate the radiation filed correctly when shortwave antenna and ground are all meshed by RWG-MoM.Therefore a new calculation model is proposed in this paper.In this model,some auxiliary triangles are introduced to improve the feed source model,only the antenna radiator is meshed by RWG (RAO-Wilton-Glisson,RWG)edge elements,and the electric field’s dyadic Green’s function integral solution is obtained on perfectly electric conducting flat.The Method of Moment (MoM)is adapted to discrete the Electric Field Integral Equation (EFIE). The singular integral and highly ringing in impedance matrix calculating are analysed and solved by Nine Points Integral Method.Using shortwave whip antenna as example,the field pattern and input imped-ance are simulated and calculated.Results are in good agreement with the ones calculated by commercial electromagnetic simulation software FEKO and published papers.This new model could reduce the quan-tity of data and formulated time and increase the calculation accuracy.
