A Wideband Compact Patch Antenna for Ka-band and CubeSat Applications

被引:3
作者
El Hammoumi, Mohamed [1 ]
El Idrissi, Najiba El Amrani [1 ]
Raad, Raad [2 ]
Theoharis, Panagiotis Ioannis [2 ]
Tubbal, Faisel [2 ]
机构
[1] Sidi Mohamed Ben Abdellah Univ, Fac Sci & Technol, Fes, Morocco
[2] Univ Wollongong, Sch Elect Comp & Telecomunicat Engn, Wollongong, NSW, Australia
来源
2021 15TH INTERNATIONAL CONFERENCE ON SIGNAL PROCESSING AND COMMUNICATION SYSTEMS (ICSPCS) | 2021年
关键词
Ka-band; CubeSat; 5G; Wideband; Patch antenna;
D O I
10.1109/ICSPCS53099.2021.9660306
中图分类号
TP18 [人工智能理论];
学科分类号
081104 ; 0812 ; 0835 ; 1405 ;
摘要
In this paper, we propose a wideband microstrip patch antenna for Ka-band CubeSat applications. A square patch antenna printed on a grounded FR4 slab is used as the building block. Furthermore, its performance is enhanced in terms of impedance bandwidth by adding a parasitic element close to the radiating edge of the main patch and by adding slots across the non-radiating edges of the patch to further improve the gain performance. A wide -10dB impedance bandwidth of 21% as well as a -3dB gain bandwidth of 35% across the Ka-band were achieved. The antenna presents excellent cross polarization discrimination performance in the E-plane with a maximum gain of 7dBi at 28.3GHz.
引用
收藏
页数:5
相关论文
共 18 条
[1]   Antenna Designs for CubeSats: A Review [J].
Abulgasem, Suhila ;
Tubbal, Faisel ;
Raad, Raad ;
Theoharis, Panagiotis Ioannis ;
Lu, Sining ;
Iranmanesh, Saeid .
IEEE ACCESS, 2021, 9 :45289-45324
[2]   A Wideband Metal-Only Patch Antenna for CubeSat [J].
Abulgasem, Suhila ;
Tubbal, Faisel ;
Raad, Raad ;
Theoharis, Panagiotis Ioannis ;
Liu, Sining ;
Ali Khan, Muhammad Usman .
ELECTRONICS, 2021, 10 (01) :1-13
[3]  
Ahmad W, 2016, IEEE ANTENNAS PROP, P1747, DOI 10.1109/APS.2016.7696580
[4]   Patch antenna with improved performance using DGS for 28GHz applications [J].
Awan, Wahaj Abbas ;
Zaidi, Abir ;
Baghdad, Abdennaceur .
2019 INTERNATIONAL CONFERENCE ON WIRELESS TECHNOLOGIES, EMBEDDED AND INTELLIGENT SYSTEMS (WITS), 2019,
[5]  
Bakkali M. E., 2017, P 2 INT C COMPUTING
[6]   Advanced CubeSat Antennas for Deep Space and Earth Science Missions: A review [J].
Chahat, Nacer ;
Decrossas, Emmanuel ;
Gonzalez-Ovejero, David ;
Yurduseven, Okan ;
Radway, Matthew J. ;
Hodges, Richard E. ;
Estabrook, Polly ;
Baker, John D. ;
Bell, David J. ;
Cwik, Thomas A. ;
Chattopadhyay, Goutam .
IEEE ANTENNAS AND PROPAGATION MAGAZINE, 2019, 61 (05) :37-46
[7]   Millimeter wave antenna with enhanced bandwidth for 5G wireless application [J].
Ghazaoui, Y. ;
El Alami, A. ;
El Ghzaoui, M. ;
Das, S. ;
Barad, D. ;
Mohapatra, S. .
JOURNAL OF INSTRUMENTATION, 2020, 15 (01)
[8]  
Gupta V., 2020, NOVEL DESIGN COMPACT, V9, P2278, DOI [10.35940/ijitee.C9011.019320, DOI 10.35940/IJITEE.C9011.019320]
[9]   Reflectarray antennas: a smart solution for new generation satellite mega-constellations in space communications [J].
Imaz-Lueje, Borja ;
Prado, Daniel R. ;
Arrebola, Manuel ;
Pino, Marcos R. .
SCIENTIFIC REPORTS, 2020, 10 (01)
[10]  
Kaei AF, 2019, I C SCI TECH AUTO CO, P648, DOI [10.1109/sta.2019.8717292, 10.1109/STA.2019.8717292]
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