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Palm tree structured wide band monopole antenna

Published online by Cambridge University Press:  30 March 2015

Sandeep K. Palaniswamy*
Affiliation:
Department of Electronics and Communication Engineering, College of Engineering, Guindy Campus, Anna University, Chennai 600 025, India
Kanagasabai Malathi
Affiliation:
Department of Electronics and Communication Engineering, College of Engineering, Guindy Campus, Anna University, Chennai 600 025, India
Arun K. Shrivastav
Affiliation:
Center for Electromagnetics, SAMEER, Taramani, Chennai, India
*
Corresponding author: P. S. Kumar Email: vrpchs@gmail.com

Abstract

This paper presents design, fabrication, and testing of a palm tree structured monopole antenna for wideband applications. The proposed antenna has a wide impedance bandwidth (−10 dB bandwidth) from 4 to 10.4 GHz. Palm tree antenna of compact size 23 mm × 20 mm is designed and fabricated on an FR4 substrate of thickness 1.6 mm. To validate the design, a mathematical relationship between the parameters of the palm tree geometry and the lower cut-off frequency has been established. Parametric study has been carried out to obtain optimum wideband characteristics. The prototype is experimentally validated for the band 4–10.4 GHz within ultra-wideband operations. Transfer function, impulse response and Group delay has been plotted in order to address the time domain characteristics of the palm tree antenna with fidelity factor values. The possible applications cover 5.2–5.8 GHz WLAN, C-band operations, 5.5 GHz WiMAX, and Wireless USB.

Type
Research Papers
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2015 

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References

REFERENCES

[1] Federal Communications Commission: “First report and order”. Revision of part 15 of the commission's rules regarding ultrawideband transmission systems, 2002.Google Scholar
[2] Ren, Y.J.; Chang, K.: Ultra-wideband planar elliptical ring antenna. Electron. Lett., 42 (8) (2006), 447449.CrossRefGoogle Scholar
[3] Joon, I.K.; Yong, J.: Design of ultra wideband coplanar waveguide-fed LI-shape planar monopole antennas. IEEE Antennas Wireless Propag. Lett., 6 (2007), 383387.Google Scholar
[4] Abbosh, A.S.; Bialkowski, M.E.: Design of ultra wideband planar monopole antennas of circular and elliptical shape. IEEE Trans. Antennas Propag., 56 (1) (2008), 1723.Google Scholar
[5] Gopikrishna, M.; Krishna, D.D.; Aanandan, C.K.; Mohanan, P.; Vasudevan, K.: Compact linear tapered slot antenna for UWB applications. Electron. Lett., 44 (20) (2008), 11741175.CrossRefGoogle Scholar
[6] Moghadasi, M.N.; Rousta, H.; Virdee, B.S.: Compact UWB planar monopole antenna. IEEE Antennas Wireless Propag. Lett., 8 (22) (2009), 13821385.Google Scholar
[7] Ahmed, O.; Sebak, A.R.: A printed monopole antenna with two steps and a circular slot for UWB applications. IEEE Antennas Wireless Propag. Lett., 7 (2008), 411413.Google Scholar
[8] Deng, C.; Xie, Y.J.; Li, P.: CPW-fed planar printed monopole antenna with impedance bandwidth enhanced. IEEE Antennas Wireless Propag. Lett., 8 (2009), 13941397.Google Scholar
[9] Liang, J.; Chiau, C.C.; Chen, X.; Parini, C.G.: Study of a printed circular disc monopole antenna for UWB systems. IEEE Trans. Antennas Propag., 53 (11) (2005), 35003504.Google Scholar
[10] Nguyen, D.T.; Lee, D.H.; Park, H.C.: Very compact printed triple band-notched UWB antenna with quarter-wavelength slots. IEEE Antennas Wireless Propag. Lett., 11 (2012), 411414.Google Scholar
[11] Angelopoulos, E.S.; Anastopoulos, A.Z.; Kaklamani, D.I.; Alexandridis, A.A.; Lazarakis, F.; Dangakis, K.: Circular and elliptical CPW-fed slot and microstrip-fed antennas for ultrawideband applications. IEEE Antennas Wireless Propag. Lett., 5 (2006), 294297.Google Scholar
[12] Ebrahimi, E.; Litschke, O.; Baggen, R.; Hall, P.S.: Isolation enhancement of planar disc antenna and ground plane in UWB applications. Electron. Lett., 46 (23) (2010), 15391541.Google Scholar
[13] Jung, J.; Choi, W.; Choi, J.: A small wideband microstrip-fed monopole antenna. IEEE Microw. Lett., 15 (10) (2005), 703705.Google Scholar
[14] Jung, J.; Choi, W.; Choi, J.: A compact broadband antenna with an L-shaped notch. IEICE Trans. Commun., E89-B (6) (2006), 19681971.Google Scholar
[15] Ojaroudi, M.; Kohneshahri, G.; Noory, J.: Small modified monopole antenna for UWB application. Microw. Antennas Propag., 3 (5) (2009), 863869.Google Scholar
[16] Kerkhoff, A.J.; Rogers, R.L.; Ling, H.: Design and analysis of planar monopole antennas using a genetic algorithm approach. IEEE Trans. Antennas Propag., 52 (10) (2004), 27092718.CrossRefGoogle Scholar
[17] Ojaroudi, M.; Ghanbari, Gh.; Ojaroudi, N.; Ghobadi, Ch.: Small square monopole antenna for UWB applications with variable frequency band-notch function. IEEE Antennas Wireless Propag. Lett., 8 (2009), 10611064.CrossRefGoogle Scholar
[18] Ray, K.P.: Design aspects of printed monopole antennas for ultra-wide band applications. Int. J. Antennas Propag., 1 (2008), 18.Google Scholar
[19] Agrawall, N.P.; Kumar, G.; Ray, K.P.: Wide-band planar monopole antennas. IEEE Trans. Antennas Propagation, 46 (2) (1998), 294295.Google Scholar
[20] Gautam, A.K.; Yadav, S.; Kanaujia, B.K.: A CPW-fed compact UWB microstrip antenna. IEEE Antennas Wireless Propag. Lett., 12 (2013), 151154.Google Scholar
[21] Xu, K.; Zhu, Z.; Li, H.; Huangfu, J.; Li, C.; Ran, L.: A printed single-layer UWB monopole antenna with extended ground plane stubs. IEEE Antennas Wireless Propag. Lett., 12 (2013), 237240.Google Scholar
[22] Sung, Y.: UWB monopole antenna with two notched bands based on the folded stepped impedance resonator. IEEE Antennas Wireless Propag. Lett., 11 (2012), 500502.Google Scholar
[23] Venkata, S.K.; Rana, M.; Bakariya, P.S.; Dwari, S.; Sarkar, M.: Planar ultrawideband monopole antenna with tri-notch band characteristics. Progr. Electromagn. Res. C, 46 (2014), 163170.Google Scholar
[24] Rani, S.; Singh, D. Er.; Sherdia, K.: UWB Circular Microstrip Patch Antenna design simulation & its analysis. Int. J. Adv. Res. Comput. Commun. Eng., 3 (7) (2014), 75197521.Google Scholar
[25] Chen, Z.N.; See, T.S.P.; Qing, X.: Small printed ultrawideband antenna with reduced ground plane effect. IEEE Trans. Antennas Propag., 55 (2) (2007), 383388.Google Scholar
[26] Chaturvedi, S.; Sharma, S.; Chaturvedi, S.; Sangal, S.; Sharma, S.: Ultra-wide bandwidth circular monopole antenna. Int. J. Sci. Res. Eng. Technol., 1 (5) (2012), 279282.Google Scholar
[27] Ershadh, M.; Krishna, P.; Bhagyaveni; Subramanian, S.: Design of a novel antenna and its characterization in frequency and time domains for ultra wide band applications. Progr. Electromagn. Res. C, 48 (2014), 6976.Google Scholar
[28] Gao, G.-P.; Hu, B.; Zhang, J.-S.: Design of a miniaturization printed circular-slot UWB antenna by the half-cutting method. IEEE Antennas Wireless Propag. Lett., 12 (2013), 567570.Google Scholar
[29] Quintero, G.; Zurcher, J.-F.; Skrivervik, A.K.: System fidelity factor: a new method for comparing UWB antennas. IEEE Trans. Antennas Propag., 59 (7) (2011), 25022512.Google Scholar
[30] Thwin, S.S.: Compact asymmetric inverted cone ring monopole antenna for UWB applications. Progr. Electromagn. Res. Lett., 36 (2013), 5765.Google Scholar