Electromagnetic Performance Analysis of a Novel Monolithic Radome for Airborne Applications

被引:41
|
作者
Nair, Raveendranath U. [1 ]
Jha, Rakesh M. [1 ]
机构
[1] NAL CSIR, Computat Electromagnet Lab, Aerosp Elect & Syst Div, Bangalore 560017, Karnataka, India
来源
IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION | 2009年 / 57卷 / 11期
关键词
Airborne radomes; monolithic half-wave; radome performance parameters; variable thickness radome (VTR) design;
D O I
10.1109/TAP.2009.2026595
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A monolithic half-wave hybrid variable thickness radome (hyVTR) is proposed here for airborne applications. The 3-Dray-tracing (in conjunction with aperture integration method), which is adapted here to evaluate the radome performance parameters, facilitates efficient analysis of antenna-radome interactions. The optimized power reflection hy-VTR design is established to be superior to the conventional constant thickness radome (CTR) designs in terms of the EM performance.
引用
收藏
页码:3664 / 3668
页数:5
相关论文
共 50 条
  • [41] A Novel Technique to Characterize the Effect of Rain Over a Radome for Radar Applications
    Mancini, Alessio
    Salazar, Jorge L.
    Lebron, Rodrigo M.
    Cheong, Boon Leng
    2017 IEEE RADAR CONFERENCE (RADARCONF), 2017, : 470 - 475
  • [42] An Efficient Hybrid Method for Electrical Performance Analysis of Radome
    Zhao, Jiahui
    Tan, Zhenpei
    Bai, Ming
    2024 INTERNATIONAL CONFERENCE ON MICROWAVE AND MILLIMETER WAVE TECHNOLOGY, ICMMT, 2024,
  • [43] Electrical Performance Analysis of the Integration of Antenna Array and Radome
    Kuai, Xianglan
    Cao, Qunsheng
    Wang, Bing
    2022 CROSS STRAIT RADIO SCIENCE & WIRELESS TECHNOLOGY CONFERENCE, CSRSWTC, 2022,
  • [44] Multi-layered graded porous radome design for dual-band airborne radar applications
    Vinisha, C. V.
    Yazeen, P. S. Mohammed
    Mahima, P.
    Joy, Vineetha
    Nair, R. U.
    ELECTRONICS LETTERS, 2017, 53 (03) : 189 - 191
  • [45] Design and characterization for a high-temperature dual-band radome wall structure for airborne applications
    Zhou, Licheng
    Liu, Zejia
    Tang, Liqun
    Pei, Yongmao
    MATERIALS & DESIGN, 2017, 114 : 264 - 270
  • [46] A Hybrid Method for Fast and Efficient Evaluation of Electromagnetic Performance of the Radome-Enclosed Antennas
    Ke, Haiwen
    Wang, Pengyuan
    Liu, Jinbo
    Li, Ji
    He, Mang
    IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2022, 70 (10) : 9795 - 9805
  • [47] Novel monolithic VCSEL devices for datacom applications
    Steinle, G
    Wolf, HD
    Popp, M
    Egorov, AY
    Kristen, G
    Riechert, H
    51ST ELECTRONIC COMPONENTS & TECHNOLOGY CONFERENCE, 2001, : 218 - 222
  • [48] The Development and Applications of the Semi-Airborne Electromagnetic System in China
    Wu, Xin
    Xue, Guoqiang
    Fang, Guangyou
    Li, Xiu
    Ji, Yanju
    IEEE ACCESS, 2019, 7 : 104956 - 104966
  • [49] Electromagnetic scattering analysis of stealth radome with inductively coupled plasma in interlayer chamber
    Chen J.
    Xu H.
    Wei X.
    Chen Z.
    Lyu H.
    Hangkong Xuebao/Acta Aeronautica et Astronautica Sinica, 2018, 39 (03):
  • [50] Evaluation of a double-lens dielectric radome using a microstrip patch antenna for electromagnetic applications
    Kim, Taehoon
    Kumar, Sathish
    Ravikumar, C. V.
    Ahmad, Shafiq
    Yepuganti, Karuna
    Varma, P. Srinivasa
    AIN SHAMS ENGINEERING JOURNAL, 2024, 15 (12)
12345