Analysis and Design of Bowtie Antenna with Different Shapes and Structures
|International Journal of Engineering Trends and Technology (IJETT)||
|© 2014 by IJETT Journal|
|Year of Publication : 2014|
|Authors : Babita Harchandra, Randhir Singh
|DOI : 10.14445/22315381/IJETT-V18P234|
Babita Harchandra, Randhir Singh "Analysis and Design of Bowtie Antenna with Different Shapes and Structures ", International Journal of Engineering Trends and Technology (IJETT), V18(4),171-175 Dec 2014. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
The demand of compact, efficient and economical communication devices has been tremendously increased. Same demand has been observed in antennas for multi-band applications. In this work, different designs of bowtie antennas are studied. The proposed antennas are designed, and results are evaluated to study different output parameters. The results confirmed that the proposed antennas may be useful for different mobile communication systems and Wireless applications. The results showed sufficient isolation among the operating frequency bands with improvement in gain and directivity. The results obtained had showed better improvement in the return loss and radiation pattern in comparison to the other existing antennas.
 Y. P. Zhang and J. J. Wang, "Theory and analysis of differentially-driven microstrip antennas, "IEEE Transactions on Antennas and Propagation, Vol. 54, pp. 1092-1099, 2006.
 K. P. Yang and K. L. Wong, “Dual band circularly polarized square microstrip antenna,” IEEE Trans. Antennas Propagat., Vol. 49, No. 3, 378–382, March 2001.
 E. Munson, “Single slot cavity antennas assembly,” U.S. Patent No. 3713 162, Jan. 23, 1973.
 H. D. Weinschel, “Progress report on development of microstrip cylindrical arrays for sounding rockets,” Physic. and Sci. Lab., New Mexico State Univ., Las Cruces, 1973.
 K. Buell, H. Mosallaei and K. Sarabandi, “A substrate for small patch antennas providing tunable miniaturization factor," IEEE Trans. Microwave Theory Tech., Vol. 54, 135-139, 2006.
 D. M. Pozar, Microwave Engineering: Wiley Inter-science, 2006.
 R. Chair, C. L. Mak, K. F. Lee, K. M. Luk, A. A. Kishk, “Miniature wide-band half U-slot and half E-shaped patch antennas,” IEEE Transactions on Antennas and Propagation., Vol. 53, pp. 2645–2652, 2005.
 H. Nakano, K. Vichien, “Dual-Frequency Patch Antenna with a Rectangular Notch,” Electronics Letters, vol. 25, No. 16, pp. 1067-1068, 1989.
 S. Arya, S. Khan, C. Shan, P. K. Lehana, “Design of a Microstrip Patch Antenna for Mobile Wireless Communication Systems,” Journal of Computational Intelligence and Electronic Systems, Vol. 1, No. 2, pp. 178-182, 2012.
 A. Aslam, F. A. Bhatti, “Matching Technique for Microstrip Patch Antenna Using GCPW Feed,” International Conference on Emerging Technologies, pp. 66 – 69, 2009.
 R. Arora, A. Kumar, S. Khan, S. Arya, “Finite Element Modeling and Design of Rectangular Patch Antenna with Different Feeding Techniques,” Open journal of Antenna and Propagation, vol. 1, no. 1, 2013.
 S. Arya, S. Khan, C. K. Shan, P. Lehana, “Design of Small Integrated Antenna for Peer to Peer Wireless Communication,” International Journal of Mobile Network Communications & Telematics, Vol. 2, no. 3, pp. 11-20, 2012,
 R. Arora, A. Kumar, S. Khan, S. Arya, “Design Analysis and Comparison of HE shaped and E Shaped Microstrip Patch Antennas,” International Journal on Communications Antenna and Propagation, Vol. 4, no. 1, pp. 27-31, 2014.
 L. C. Tsai, "A Dual-Band Bow-Tie-Shaped CPW-Fed Slot Antenna for WLAN Applications," Progress In Electromagnetics Research C, Vol. 47, 167–171, 2014.
 J. P. DeVilliers,and J.P.Jacobs,“Gaussian process modeling of CPW-fed slot antennas,” Progress In Electromagnetics Research, Vol. 98, 233–249, 2009.
 C. Y. Huang, C. C. Lin, and W. F.Chen, “Multiple band-stop bow-tie slot antennas for multiband wireless systems,” IET Micro., Ant. Propag., Vol. 2, No. 6, 588–593, Jun. 2008.
Microstrip patch antenna, insertion loss, multi-band, mobile communication; bowtie antenna.