Abstract
A super-wideband (SWB) steering-shaped printed monopole antenna (SPMA) having a ratio bandwidth (RBW) close to 11:1 is presented in this paper. Partial ground plane with rounded top corner and a rectangular notch are used to get wide bandwidth. Good impedance matching is achieved by a microstrip feed line with linear tapering. A 22.78 GHz bandwidth for S11 ≤ −10 dB is achieved from 2.22 GHz to 25 GHz. A 4 dB average peak gain and a variation from 96% to 57% in radiation efficiency are observed. The simulated far-field patterns in the two principal planes at different frequencies are presented. The proposed radiator can be used for different civilian and military applications.
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Anveshkumar N, Gandhi AS (2018) A five-port integrated UWB and narrowband antennas system design for CR applications. IEEE Trans Antennas Propag 66(4):1669–1676
Ray KP (2008) Design aspects of printed monopole antennas for ultra-wide band applications. Int J Antennas Propag 2008:1–8. https://doi.org/10.1155/2008/713858
Sudheer Kumar T, Jaya Ch, Srinivasa Raju GRLVN (2017) On the notch band characteristics of Koch fractal antenna for UWB applications. Int J Control Theory Appl 10(6):701–707
Anveshkumar N, Gandhi AS (2018) A survey on planar antenna designs for cognitive radio applications. Wirel Pers Commun 98:541–569
Terlapu SK, Chowdary PSR, Jaya Ch, Chakravarthy VVSSS, Satapathy SC (2018) On the design of fractal UWB wide slot antenna with notch band characteristics. In: Satapathy S, Bhateja V, Anguera J (eds) Proceedings of 3rd international conference on micro-electronics, electromagnetics and telecommunications, Jan 2018. Lecture notes in electrical engineering, vol 471. Springer, Singapore, pp 907–912. https://doi.org/10.1007/978-981-10-7329-8_94
Rumsey V (1966) Frequency independent antennas. Academic Press, New York
Liu J, Zhong S, Esselle KP (2011) A printed elliptical monopole antenna with modified feeding structure for bandwidth enhancement. IEEE Trans Antennas Propag 59(2):667–670
Deng C, Xie Y, Li P (2009) CPW-fed planar printed monopole antenna with impedance bandwidth enhanced. IEEE Antennas Wirel Propag Lett 8:1394–1397
Cao P, Huang Y, Zhang J, Alrawashdeh R (2013) A compact super wideband monopole antenna. In: 7th European conference on antennas and propagation, pp 3107–3110
Gorai A, Karmakar A, Pal M, Ghatak R (2013) A CPW-fed propeller shaped monopole antenna with super wideband characteristics. Prog Electromagn Res C 45:125–135
Manohar M, Kshetrimayum RS, Gogoi AK (2013) Printed monopole antenna with tapered feed line, feed region and patch for super wideband applications. IET Microw Antennas Propag 1–7. https://doi.org/10.1049/iet-map.2013.0094
Torres CAF, Monroy JLM, Morales HL, Perez RAC, Tellez AC (2017) A novel fractal antenna based on the Sierpinski structure for super wide-band applications. Microw Opt Technol Lett 59(5):1148–1153
Gorai A, Karmakar A, Pal M, Ghatak R (2015) A super wideband Chebyshev tapered antipodal Vivaldi antenna. Int J Electron Commun (AEÜ) 69:1328–1333
Singhal S, Singh AK (2016) CPW-fed phi-shaped monopole antenna for super-wideband applications. Prog Electromagn Res C 64:105–116
Okas P, Sharma A, Das G, Gangwar RK (2018) Elliptical slot loaded partially segmented circular monopole antenna for super wideband application. Int J Electron Commun (AEÜ) 88:63–69
Akbari M, Koohestani M, Ghobadi C, Nourinia J (2011) Compact CPW-fed printed monopole antenna with super-wideband performance. Microw Opt Technol Lett 53(7):1481–1483
Manohar M, Kshetrimayum RS, Gogoi AK (2017) A compact dual band-notched circular ring printed monopole antenna for super-wideband applications. Radio Eng 26(1):64–70
Barbarino S, Consoli F (2010) Study on super-wideband planar asymmetrical dipole antennas of circular shape. IEEE Trans Antennas Propag 58(12):4074–4078
Singhal S (2018) Octagonal Sierpinski band-notched super-wideband antenna with defected ground structure and symmetrical feeding. J Comput Electron 17(3):1071–1081
Okan Y, Smith D, Michael E (2013) Printed slot loaded bow-tie antenna with super wideband radiation characteristics for imaging applications. IEEE Trans Antennas Propag 61(12):6206–6210
Singhal S, Singh AK (2017) CPW-fed octagonal super-wideband fractal antenna with defected ground structure. IET Microw Antennas Propag 11(3):370–377
Rafique U, Din SU (2018) Beveled-shaped super-wideband planar antenna. Turk J Electr Comput Sci 26:2417–2425
Weisbeck W, Adamiuk G, Sturm C (2009) Basic properties and design principles of UWB antennas. Proc IEEE 97(2):372–385
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Alluri, S., Rangaswamy, N. (2021). A Tapered Microstrip-Fed Steering-Shaped Super-Wideband Printed Monopole Antenna. In: Chowdary, P., Chakravarthy, V., Anguera, J., Satapathy, S., Bhateja, V. (eds) Microelectronics, Electromagnetics and Telecommunications. Lecture Notes in Electrical Engineering, vol 655. Springer, Singapore. https://doi.org/10.1007/978-981-15-3828-5_36
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DOI: https://doi.org/10.1007/978-981-15-3828-5_36
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