ICTACT Journal on Microelectronics

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Analysis of Stacked Antenna in Satellite Application


Affiliations
1 Department of Nanoelectronics and Integration Division, IRRD Automatons, India
2 School of Computing Science and Engineering, Galgotias University, India
     

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We propose in this paper a Broadband Stacked Microstrip Patch Antenna structure with a microstrip feeding technique to achieve wide bandwidth and high gain. The proposed stacked antenna executes the frequency range from 4GHz to 10GHz in C band. A parametric analysis is performed to study the inter-element distance effect on antenna performance (directivity, input impedance and radiation efficiency). The results obtained show that in the case of the fully driven element high directivities can be achieved for small distances. The proposed antenna is used for a wide range of applications, such as satellite communication, weather radar systems, applications for Wi-Fi and ISM Band. The C Band is known to perform better on adverse weather conditions than the standard Ku Band for satellite communication. The parameters of the antenna are analysed using the HFSS Tool.

Keywords

Microstrip Patch Antenna, Stacked Antenna, ISM and C band, Satellite Application.
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  • Analysis of Stacked Antenna in Satellite Application

Abstract Views: 192  |  PDF Views: 0

Authors

S. Jayasri
Department of Nanoelectronics and Integration Division, IRRD Automatons, India
A. Daniel
School of Computing Science and Engineering, Galgotias University, India

Abstract


We propose in this paper a Broadband Stacked Microstrip Patch Antenna structure with a microstrip feeding technique to achieve wide bandwidth and high gain. The proposed stacked antenna executes the frequency range from 4GHz to 10GHz in C band. A parametric analysis is performed to study the inter-element distance effect on antenna performance (directivity, input impedance and radiation efficiency). The results obtained show that in the case of the fully driven element high directivities can be achieved for small distances. The proposed antenna is used for a wide range of applications, such as satellite communication, weather radar systems, applications for Wi-Fi and ISM Band. The C Band is known to perform better on adverse weather conditions than the standard Ku Band for satellite communication. The parameters of the antenna are analysed using the HFSS Tool.

Keywords


Microstrip Patch Antenna, Stacked Antenna, ISM and C band, Satellite Application.