![]() ![]() Inamdar K, Kosta YP, Patnaik S (2015) Criss-cross metamaterial-substrate microstrip antenna with enhanced gain and bandwidth. IEEE Antennas Wirel Propag Lett 8:1198–1201 Microw Opt Technol Lett 17:205–207Īttia H, Yousefi L, Bait-Suwailam MM, Boybay MS, Ramahi OM (2009) Enhanced-gain microstrip antenna using engineered magnetic superstrates. George J, Aanandan CK, Mohanan P, Nair KG, Sreemoolanathan H, Sebastian MT (1998) Dielectric-resonator loaded microstrip antenna for enhanced impedance bandwidth and efficiency. In: Proceedings of IEEE antennas and propagation society international symposium, pp 1734–1735 Sethi WT, Vettikalladi H, Alkanhal MA (2014) High gain stacked antenna array for 60 GHz communication systems. Ghassemi N, Rashed-Mohassel J, Neshati MH, Tavakoli S, Ghassemi M (2008) A high gain dual stacked aperture coupled microstrip antenna for wideband applications. Mabaso M, Kumar P (2018) A dual band patch antenna for bluetooth and wireless local area networks applications. Kumar P (2017) Design of low cross-polarized patch antenna for ultra-wideband applications. Garg R, Bhartia P, Bahl I, Ittipiboon A (2001) Microstrip antenna design handbook. Keywordsīalanis CA (2005) Antenna theory-analysis and design. The designed MSA is suitable for 2.4 GHz wireless local area networks (WLAN) applications. The MSA provides a high directivity of 7.282 dBi and gain of 3.675 dB which is much higher than the MSA with normal ground plane and without reflected ground plane. ![]() The comparison between simulated and measured results shows reasonable agreement. Simulated MSA parameters along with and measured results are presented and discussed. The designed MSA is fabricated and measured. Using CST microwave studio, the dimensions of the MSA are optimized. The simulation of the designed MSA is performed in CST microwave studio. ![]() The gain of the MSA is increased by using defected ground structure (DGS) technique and a reflected ground plane. In this paper, a rectangular microstrip antenna (MSA) with enhanced gain for 2.4 GHz wireless local area network applications is presented. Wireless communication systems require high gain antennas for many reasons such as for better quality of receiving signals and for low transmitting power. ![]()
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