Abstract
Analysis of a microstrip patch antenna with multiple parasitic patches and shorting vias for bandwidth enhancement is carried out in order to identify modes on the fed triangular patch and parasitic patches to put forth a clear explanation about the same. Fed and parasitic patches are simulated individually, and then, combined structure is studied and mode identification is done by comparing overall modal frequencies with that of the frequencies of individual patches. Also, modified configuration of shorted antenna is proposed which resulted in a simulated bandwidth of 1056 MHz and measured bandwidth of 1130 MHz.
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References
Wong KL (2002) Compact and broadband microstrip antennas, 1st edn. Wiley, New York
Kumar G, Ray KP (2003) Broadband microstrip antennas, 1st edn. Artech House, USA
Weigand S, Huff GH, Pan KH, Bernhard JT (2003) Analysis and design of broad-band single-layer rectangular U-slot microstrip patch antennas. IEEE Trans Antennas Propag 51(3):457–468
Deshmukh AA, Ray KP (2017) Analysis and design of broadband U-slot cut rectangular microstrip antennas. Sādhanā. 42(10):1671–1684
Egashira S, Nishiyama E (1996) Stacked microstrip antenna with wide bandwidth and high gain. IEEE Trans Antennas Propag 44(11):1533–1534
Abraham J, Mathew T, Aanandan CK (2016) A novel proximity fed gap coupled microstrip patch array for wireless applications. Prog Electromagn Res 61:171–178
Deshmukh AA, Kamble P, Doshi A, Venkata APC (2018) Multi-resonator variations of 120° sectoral microstrip antennas for wider bandwidth. In: Proceedings of international conference on wireless communication, pp 169–175
Deshmukh AA, Pawar S (2018) Gap-coupled designs of compact F-shape microstrip antennas for wider bandwidth. In: Proceedings of international conference on wireless communication 2018, pp 85–93
Kandwal A, Khah SK (2013) A novel design of gap-coupled sectoral patch antenna. IEEE Antennas Wirel Propag Lett 12:674–677
Wong H, So KK, Gao X (2016) Bandwidth enhancement of a monopolar patch antenna with V-shaped slot for car-to-car and WLAN communications. IEEE Trans Veh Technol 65(3):1130–1136
Da Xu K, Xu H, Liu Y, Li J, Liu QH (2018) Microstrip patch antennas with multiple parasitic patches and shorting vias for bandwidth enhancement. IEEE Access 6:11624–11633
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Chavali, V.A.P., Ambekar, A.G., Kudoo, C., Shah, M., Deshmukh, A.A., Ray, K.P. (2020). Analysis of Microstrip Patch Antenna with Multiple Parasitic Patches and Shorting Vias for Bandwidth Enhancement. In: Janyani, V., Singh, G., Tiwari, M., Ismail, T. (eds) Optical and Wireless Technologies. Lecture Notes in Electrical Engineering, vol 648. Springer, Singapore. https://doi.org/10.1007/978-981-15-2926-9_22
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DOI: https://doi.org/10.1007/978-981-15-2926-9_22
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