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Mutual Coupling Reduction between Microstrip Antennas Using Electromagnetic Bandgap Structure


Affiliations
1 Department of Electronics and Telecommunication Engineering, Sinhgad College of Engineering, Maharashtra, India
2 Department of Electronics and Telecommunication Engineering, Sou. Venutai Chavan Polytechnic, Maharashtra, India
3 Department of Aerospace Engineering, Defence Institute of Advanced Technology, Maharashtra, India
     

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When the number of antenna elements is placed in forming the arrays, mutual coupling between the antenna elements is a critical issue. This is particularly concern in phase array antennas. Mutual coupling is a potential source of performance degradation in the form of deviation of the radiation pattern from the desired one, gain reduction due to excitation of surface wave, increased side lobe levels etc. EBG (Electromagnetic Band Gap) structure (also called as Photonic Bandgap Structure PBG) not only enhances the performance of the patch antennas but also provides greater amount of isolation when placed between the microstrip arrays. This greatly reduces the mutual coupling between the antenna elements. The radiation efficiency, gain, antenna efficiency, VSWR, frequency, directivity etc greatly improves over the conventional patch antennas using EBG. The EBG structure and normal patch antenna is simulated using IE3D antenna simulation software.

Keywords

Antenna, Electromagnetic Band Gap (EBG), Mutual Coupling, Surface Waves, Antenna Efficiency.
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  • Mutual Coupling Reduction between Microstrip Antennas Using Electromagnetic Bandgap Structure

Abstract Views: 272  |  PDF Views: 0

Authors

G. N. Gaikwad
Department of Electronics and Telecommunication Engineering, Sinhgad College of Engineering, Maharashtra, India
V. V. Dixit
Department of Electronics and Telecommunication Engineering, Sinhgad College of Engineering, Maharashtra, India
D. G. Ganage
Department of Electronics and Telecommunication Engineering, Sinhgad College of Engineering, Maharashtra, India
Y. D. Chincholkar
Department of Electronics and Telecommunication Engineering, Sinhgad College of Engineering, Maharashtra, India
U. P. Alwandi
Department of Electronics and Telecommunication Engineering, Sou. Venutai Chavan Polytechnic, Maharashtra, India
S. R. Pawar
Department of Electronics and Telecommunication Engineering, Sou. Venutai Chavan Polytechnic, Maharashtra, India
J. P. Kolhe
Department of Aerospace Engineering, Defence Institute of Advanced Technology, Maharashtra, India

Abstract


When the number of antenna elements is placed in forming the arrays, mutual coupling between the antenna elements is a critical issue. This is particularly concern in phase array antennas. Mutual coupling is a potential source of performance degradation in the form of deviation of the radiation pattern from the desired one, gain reduction due to excitation of surface wave, increased side lobe levels etc. EBG (Electromagnetic Band Gap) structure (also called as Photonic Bandgap Structure PBG) not only enhances the performance of the patch antennas but also provides greater amount of isolation when placed between the microstrip arrays. This greatly reduces the mutual coupling between the antenna elements. The radiation efficiency, gain, antenna efficiency, VSWR, frequency, directivity etc greatly improves over the conventional patch antennas using EBG. The EBG structure and normal patch antenna is simulated using IE3D antenna simulation software.

Keywords


Antenna, Electromagnetic Band Gap (EBG), Mutual Coupling, Surface Waves, Antenna Efficiency.