Most Popular Papers

A dual band printed microstrip patch antenna is proposed in this paper which operates at 2.5 GHz and 5.8 GHz which can be used for wireless cordless phones applications. The antenna is designed and fabricated using FR-4 substrate having a dielectric constant of 4.1 and thickness of 1.5 millimeter (mm).The antenna design consists of two patches interconnected with each other and meant for dual frequency operation with the outer patch resonates at 2.5 GHz and the inner patch resonates at 5.8GHz respectively. A 50 Ω coaxial line is used to feed the antenna at the inner patch. The antenna consists of ground plane of same size as that of substrate and has a compact size of 30 mm × 40 mm. The radiation characteristics of the proposed antenna are bidirectional with good simulated return loss lower than -10 dB. The antenna is simulated using electromagnetic (EM) simulation software. The measured results show good agreement with the simulation predictions. For its light weight, low manufacturing cost, ease of designing and small size properties this antenna can be easily integrable in portable communication devices. This antenna can be used in wireless phones for commercial applications.
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Dual Band Antenna; Microstrip Antennas; Patch Antenna

B. Yildirim, Multiband and compact WCDMA/WLAN antenna for mobile equipment, IEEE Antennas and Wireless Propogation Letters, Volume 10, 2011, Pages 14-16.

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L. Shafai, W. Chamma, G. Seguin, N. Sultan, Dual-band dual-polarized microstrip antennas for SAR applications, Antennas and Propagation Society International Symposium, IEEE, Volume 3, 1997, Pages 1866-1869.

B. G. Porter, G. B. Noakes, S. S. Gearhart, Design of dual-band dual-polarized wire antennas using a genetic algorithm, Progress In Electromagnetics Research, PIER, Volume 83, 2008, Pages 293 – 306.

M. A. Ebrahimi-Ganjeh, A. R. Attari, Interaction of dual band helical and PIFA handset antennas with human head and hand, Progress In Electromagnetics Research, PIER, Volume 77, 2007, Pages 225 – 242.

Y. L. Kuo, K. L. Wong, Printed double-T monopole antenna for 2.4/5.2 GHz dual band WLAN operations, IEEE Transactions on Antennas and Propagation, Volume. 51 N. 9,2003, Pages 2187 –2192.

M. Ali, H. S. Hwang, T. Sittironnarit, Design and analysis of an R-shaped dual-band planar inverted-F antenna for vehicular applications, IEEE Transactions on Vehicular Technology, Volume 53 N. 1, 2004, Pages 29 – 37.

M. Hosseini, M. Hakkak, P. Rezaei, Design of a dual-band quadrifilar helix antenna, IEEE Antennas and Wireless Propagation Letters, Volume 4, 2005, Pages 39 – 42.

Z. Zhang, W. Chen, Z. Feng, M. F. Skander, Integrated dual-band antenna sustem design incorporating cell phone bezel, IEEE Antennas and Wireless Propagation Letters, Volume 7, 2008, Pages 585-587.

M. Midrio, S. Boscolo, F. Sacchetto, C. G. Someda, A. D. Capobianco, F. M. Pigozzo, Planar, compact dual-band antenna for wireless LAN applications, IEEE Antennas and Wireless Propagation Letters, Volume 8, 2009, Pages 1234 – 1237.

C. W. Jung, F. D. Flaviis, A dual-band antenna for WLAN Applications by double rectangular patch with 4-bridges, Antennas and Propagation Society International Symposium, IEEE, Volume 4, 2004, Pages 4280-4283.

R. Bansal, A. Jain, M. Kumar, R. S. Meena, Compact dual and microstrip loop antenna using defective ground plane, International Conference on Communication Systems and Network Technologies, 2012, Pages 20-22.

R. Sharma, M. Kumar, Dual band microstrip- fed printed antennas for wireless applications, Fourth International Conference on Computational Intelligence and Communication Networks, 2012, Pages 37 – 40.

R. Sharma, M. Kumar, Dual band double square microstrip antenna for wireless applications, International Conference on Communication and Electronics System Design, Volume8760, 2013, Pages 1 – 5.

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W. C. Liu, Optimal design of dualband CPW-fed G-shaped monopole antenna for WLAN application, Progress In Electromagnetics Research, PIER, Volume 74, 2007, Pages 21 – 38.

K. P. Wei, Z. J. Zhang, Z. H. Feng, Design of a dualband omnidirectional planar microstrip antenna array, Progress In Electromagnetics Research, PIER, Volume 126, 2012, Pages 101 – 120.

S. Mekerta, Printed dipole antenna for wireless communications, (2012) International Journal on Communications Antenna and Propogation (IRECAP), 2(2), pp. 160 – 165.

J. S. T. Thilagam, P. K. Jawahar, A. Sivakumar, Rectangular microstrip patch antenna characteristic study for wireless communication applications, (2012) International Journal on Communications Antenna and Propogation (IRECAP), 2(1), pp. 10 – 15.

N. Hassan, Effect of the human body on microstrip antennas in biomedical applications, (2012) International Journal on Communications Antenna and Propogation (IRECAP), 2(1), pp. 61 – 67.

A. Jain, R. Bansal, R. S. Meena, M. Kumar, Compact broadband microstrip patch antenna using U-type hexaferrite substrate, (2012) International Journal on Communications Antenna and Propogation (IRECAP), 2(5), pp. 321 – 327.

R. Sharma, M. Kumar, Dual band microstrip antenna with double square patch and conical bridges for wireless applications, (2013) International Journal on Communications Antenna and Propogation (IRECAP), 3(1), pp. 77 – 82.