Abstract
Here, a simple, planar monopole antenna with polarization diversity for quad band application using a single feed mechanism has been reported. The design antenna which is proposed here involves two L-shaped radiators with two asymmetric cross slots within it creating mutual coupling to attain dual circularly polarized (CP) bands. To generate quad impedance bandwidth (IBW), defective ground plane is utilized on the bottom portion on the substrate. The antenna which is proposed covered the quad simulated IBs that are from 3.631–4.167 GHz (535.6 MHz, frc1 = 3.9 GHz, 13.73%), 6.542–8.494 GHz (1951.8 MHz, frc2 = 7.52 GHz, 25.96%), 8.859–10.253 GHz (1134.3 MHz, frc3 = 9.56 GHz, 14.59%) and 10.8494–beyond 15 GHz (4150.6 MHz, frc4 = 12.92 GHz, 32.19%), respectively. The simulated dual ARBWs span over 3.865–4.069 GHz (203.7 MHz, fcp1 = 3.97 GHz, 5.14%) within 1st IB and 8.888–9.785 GHz (897.3 MHz, fcp2 = 9.34 GHz, 9.6%) within 3rd IB. The simulated peak gain between 2.2 and 6.01dBi span throughout IBW region makes the dual CP bands appropriate for some part of S- and X-band, particularly fixed-satellite service (FSS) and synthetic aperture radar (SAR) applications.
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Dhara, R. (2023). Quad Band Planar Monopole Antenna with Polarization Diversity for FSS and SAR Application. In: Dhavse, R., Kumar, V., Monteleone, S. (eds) Emerging Technology Trends in Electronics, Communication and Networking. Lecture Notes in Electrical Engineering, vol 952. Springer, Singapore. https://doi.org/10.1007/978-981-19-6737-5_8
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