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Title Analysis of CSRR Based Circular Patch Monopole Antenna for Ku-band Satellite Communication Applications, C-band and X-band Applications
Authors Teja Babu, K.
Sri Kavya, K.Ch.
Kotamraju, Sarat K.
Tilak, G.B.G.
ORCID
Keywords monopole antenna
high gain
CSRR
Type Article
Date of Issue 2021
URI https://essuir.sumdu.edu.ua/handle/123456789/82589
Publisher Sumy State University
License In Copyright
Citation K. Teja Babu, K.Ch. Sri Kavya, Sarat K. Kotamraju, G.B.G. Tilak, J. Nano- Electron. Phys. 13 No 1, 01016 (2021). DOI: https://doi.org/10.21272/jnep.13(1).01016
Abstract In this paper, a circular patch monopole antenna with circular CSRR slots is presented for WiMAX applications. The proposed antenna contains circular polarized patch with circular CSRR slots. Smaller triple-band antenna is planned by drawing CSRR slots on the radiating component. It is seen from the outcomes that the proposed antenna can be utilized for satellite communication application. In order to verify high separation between adjacent components, the circular patch monopole antenna array of the proposed antenna element is also manufactured and tested in order to make the proposed antenna a possible candidate to be incorporated into satellite communications. Utilizing this strategy, a changed circular monopole are proposed and examined as the plan model. Both estimated and reproduced results are given and talked about to confirming the legitimacy of proposed plan procedure. In an ordinary lab climate, the injurious multi-way transmission impacts on the exchange capacity of the model receiving wire pair were noticed and talked about. This streamlining procedure would not carry any size or cost increment to the printed monopoles, and the improvement of transmission execution is very detectable, which has all the earmarks of being a critical improvement over printed UWB monopoles.The antenna delivers maximum peak gain of 8.27 dB at 13.9 GHz.The proposed antenna with the dimensions of 26231.6. The estimated results: radiation pattern, peak gain, radiation efficiency is showing the good results. The proposed antenna can be utilized for C-band (4.2, 7.6 GHz), 5.5 (HYPERLAN) X-band (9.7 and 11.4 GHz) and Ku-band (13.9 GHz) satellite communication applications.
Appears in Collections: Журнал нано- та електронної фізики (Journal of nano- and electronic physics)

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