High gain multiband and frequency reconfigurable metamaterial superstrate microstrip patch antenna for C/X/Ku-band wireless network applications

We present a metamaterial superstrate based microstrip patch antenna with PIN diode switches applicable for wireless network applications. Metamaterials in the form of square array and circle array are used as superstrate based on microstrip antenna. The superstrate layers are also working as radome...

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Veröffentlicht in:	Wireless networks 2021-04, Vol.27 (3), p.2131-2146
Hauptverfasser:	K.Sumathi, Lavadiya, Sunil, Yin, PengZhi, Parmar, Juveriya, Patel, Shobhit K.
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Sprache:	eng
Schlagworte:	Antenna design Antennas Bandwidths Communications Engineering Computer Communication Networks Diodes Electrical Engineering Electronic devices Engineering High gain IT in Business Metamaterials Microstrip antennas Networks Patch antennas PIN diodes Radomes Reconfiguration Reflectance Superhigh frequencies Switches Wireless networks
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container_title	Wireless networks
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creator	K.Sumathi Lavadiya, Sunil Yin, PengZhi Parmar, Juveriya Patel, Shobhit K.
description	We present a metamaterial superstrate based microstrip patch antenna with PIN diode switches applicable for wireless network applications. Metamaterials in the form of square array and circle array are used as superstrate based on microstrip antenna. The superstrate layers are also working as radome and provide strength to the overall structure and improve different antenna parameters like gain and bandwidth. The design results in the form of reflection coefficient (S 11 ), gain, and bandwidth are compared for different metamaterial superstrate. The reconfiguration in frequency is also achieved by adding PIN diode switches in the metamaterial superstrate. The design results show multiband and high gain behavior for metamaterial superstrate designs. We have also analyzed the effect of using liquid metamaterial superstrate on microstrip antenna design. The design results of liquid metamaterial superstrate design are also compared with copper material superstrate design and simple microstrip patch antenna design. The proposed metamaterial superstrate microstrip antenna design with PIN diodes can become a building block for C/X/Ku-band wireless network devices.
doi_str_mv	10.1007/s11276-021-02567-5
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Metamaterials in the form of square array and circle array are used as superstrate based on microstrip antenna. The superstrate layers are also working as radome and provide strength to the overall structure and improve different antenna parameters like gain and bandwidth. The design results in the form of reflection coefficient (S 11 ), gain, and bandwidth are compared for different metamaterial superstrate. The reconfiguration in frequency is also achieved by adding PIN diode switches in the metamaterial superstrate. The design results show multiband and high gain behavior for metamaterial superstrate designs. We have also analyzed the effect of using liquid metamaterial superstrate on microstrip antenna design. The design results of liquid metamaterial superstrate design are also compared with copper material superstrate design and simple microstrip patch antenna design. 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subjects	Antenna design Antennas Bandwidths Communications Engineering Computer Communication Networks Diodes Electrical Engineering Electronic devices Engineering High gain IT in Business Metamaterials Microstrip antennas Networks Patch antennas PIN diodes Radomes Reconfiguration Reflectance Superhigh frequencies Switches Wireless networks
title	High gain multiband and frequency reconfigurable metamaterial superstrate microstrip patch antenna for C/X/Ku-band wireless network applications
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