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Compact asymmetric coplanar strip fed Sinc shaped monopole antenna for multiband applications

Published online by Cambridge University Press:  20 July 2015

Ritesh Kumar Badhai*
Affiliation:
Department of Electronics and Communication Engineering, Birla Institute of Technology, Extension Centre Patna, Patna-800014, India. Phone: +91 9955165732
Nisha Gupta
Affiliation:
Department of Electronics and Communication Engineering, Birla Institute of Technology, Mesra, Ranchi-835215, India
*
Corresponding author: R. K. Badhai Email: riteshkbadhai@bitmesra.ac.in

Abstract

A compact asymmetric coplanar strip fed Sinc shaped monopole antenna suitable for multifrequency operations is proposed for portable wireless devices. The proposed Sinc shaped monopole antenna with truncated half ground plane operates at three frequency bands, 2110–2380, 4180–4600, and 5200–5678 MHz, showing fractional impedance bandwidths of 12, 9, and 8.8%, respectively, suitable for Universal Mobile Telecommunications System, Long Term Evolution handheld devices, Worldwide Interoperability for Microwave Access, Wireless Local Area Network, Hyperlan-2, and aeronautical navigation applications. Proposed antenna shows a dual mode of polarization. Finally a prototype model is developed for a typical configuration and the simulated results are validated experimentally.

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

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References

REFERENCES

[1] Chiou, J.Y.; Sze, J.Y.; Wong, K.L.: A broad-band CPW-fed strip loaded square slot antenna. IEEE Trans. Antennas Propag., 51 (2003), 719721.Google Scholar
[2] Liu, W.C.: Broadband dual-frequency cross-shaped slot CPW-fed monopole antenna for WLAN operation. Microw. Opt. Technol. Lett., 46 (2005), 353355.Google Scholar
[3] Lin, Y.D.; Chi, P.L.: Tapered bent folded monopole for dual-band wireless local area network (WLAN) systems. IEEE Antennas Wireless Propag. Lett., 4 (2005), 355357.Google Scholar
[4] Chung, K.; Yun, T.; Choi, J.: Wideband CPW-fed monopole antenna with parasitic elements and slots. Electron. Lett., 40 (2004), 10381040.Google Scholar
[5] Liu, W.C.: Broadband dual-frequency meandered CPW-fed monopole antenna. Electron. Lett., 40 (21) (2004), 1131911320.Google Scholar
[6] Chen, H.D.: Broadband CPW-fed square slot antennas with a widened tuning stub. IEEE Trans. Antennas Propag., 51 (8) (2003), 19821986.Google Scholar
[7] Lin, X.C.; Yu, C.C.: A dual-band CPW-fed inductive slot monopole hybrid antenna. IEEE Trans. Antennas Propag., 56 (1) (2008), 282285.Google Scholar
[8] Deepu, V.; Raj, R.K.; Joseph, M.; Suma, M.N.; Mohanan, P.: Compact asymmetric coplanr strip fed monopole antenna for multiband application. IEEE Trans. Antennas Propag., 55 (8) (2008), 23512357.Google Scholar
[9] Ashkarali, P.; Sreenath, S.; Sujith, R.; Dinesh, R.; Krishna, D.D.; Aanandan, C.K.: A compact asymmetric coplanar strip fed dual-band antenna for DCS/WLAN applications. Microw. Opt. Technol. Lett., 54 (4) (2012), 10871089.Google Scholar
[10] Cheng, C.M.; Yang, H.C.; Yang, C.F.; Chen, K.H.; Zeng, S.S.: Develop dual-band CPW asymmetric monopole antennas on the aluminum oxide substrates, in Microwave Conf. APMC Asia Pacific, 2009, 1984–1986.Google Scholar
[11] Wu, J.W.; Ke, J.Y.; Jou, C.F.; Wang, C.J.: Microstrip-fed broadband circularly polarised monopole antenna. IET, Microw., Antennas Propag., 4 (4) (2010), 518525.Google Scholar
[12] Ghobadi, A.; Dehmollaian, M.: A printed circularly polarized Y-shaped monopole antenna. IEEE Antennas Wireless Propag. Lett., 11 (2012), 2225.Google Scholar
[13] Zhou, S.W.; Li, P.H.; Wang, Y.; Feng, W.H.; Liu, Z.Q.: A CPW-fed broadband circularly polarized regular-hexagonal slot antenna with L-shape monopole. IEEE Antennas Wireless Propag. Lett, 10 (2011), 11821185.Google Scholar
[14] Yang, H.Y.D.; Castaneda, J.A.; Flaviis, F.D.: A novel printed sinc antenna for wireless communications. IEEE Antenna Propag. Soc. Int. Symp., 4 (2002), 4851.Google Scholar
[15] Gupta, N.; Mishra, M.; Kotha, S.C.; Kiran, Y.: Multifrequency characteristics of sinc shaped microstrip patch antenna. Microw. Opt. Technol. Lett., 49 (7) (2007), 16731675.Google Scholar
[16] Badhai, R.K.; Gupta, N.: Parametric study of Sinc shaped monopole antenna for wireless devices. Appl. Comp. Electron. Soc., 30 (1) (2015), 123131.Google Scholar
[17] Bao, X.; Ammann, M.: Printed circularly polarised antenna with ultra-wide axial-ratio bandwidth. IET Microw., Antennas Propag., 5 (9) (2011), 10891096.Google Scholar
[18] Wang, M.Z.; Zhang, F.S.; Zhu, Y.; Ma, L.T.: Design of CPW-fed circularly polarized antenna with two orthogonal slots. Prog. Electromagn. Res. Lett., 33 (2012), 109117.Google Scholar
[19] Kummer, W.; Gillespie, E.S.: Antenna measurements-1978. Proc. IEEE, 66 (4) (1978), 483507.Google Scholar
[20] Boonvisat, S.; Promwong, S.; Supanakoon, P.; Kaewmechai, S.; Sitiyopasakul, P.: Indoor propagation channel measurement of wideband antenna with robotic, in IEEE Int. Symp. in Communications and Information Technology, 2, 2005, 1124–1127.Google Scholar
[21] Loh, T.H.; Collett, M.: A rigorous measurement technique for radiation pattern characterisation of embedded wireless communication systems, in Progress in Electromagnetics Research Symp., Kuala Lumpur, Malaysia 2, 2012, 1405–1408.Google Scholar