Analysis of Micro S Trip Fractal Arrays
Abstract
Micro strip antennas are used not only as single
element but are very popular in arrays. Arrays are very versatile and are used to synthesize a required pattern that cannot be achieved with a single element. In addition they are used to scan the beam of an antenna system, increase the directivity, and perform various other functions which would be difficult with any one single element. Micro strip Arrays can be analyzed using the above theory of uniform linear arrays.
In this paper we discussed different microstrip arrays named
cantor linear array antenna, sierpenski gasket antenna and different shapes of arrays, after that here we are observing which type of fractal array producing best and directivity.
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Jaggard, D.L., Jaggard A.D., Cantor Ring Arrays. In Microwave and
Optical Technology Letters. Vol. 19 No. 2 October 5 1998.
Jaggard, D.L., Jaggard A.D., Frangos V. P., Fractal Electrodynamics
Surfaces and Superlattices. Jan. 1999.
Jaggard, D.L., Jaggard A.D., Cantor Ring Diffractals. In Optics
Communications. Elsevier. October 1998.
Ulaby, Fawwaz. Fundamentals of Applied Electromagnetics. Prentice
Hall, New Jersey.1999.
Lee, S.W. Antenna Handbook, Theory, Applications, & Design.
Reinhold Company. New York. 1998.
Stutzman, W.L. Antenna Theory & Design. Wert company.
Pennsylvania. 1995.
A. Azari and J. Rowhani, “ultrawideband fractal microstrip antenna
design,” Progr. Electromagn. Res. C, vol. 2, pp. 7–12, 2008.
D. H. Werner and S. Ganguly, “An overview of fractal antenna
engineering research,” IEEE Trans. Antennas Propag. Mag., vol. 45, pp.
–57, Feb. 2003.
K. J. Vinoy, J. K. Abraham, and V. K. Vardan, “On the relationship
between fractal dimension and the performance of ulti-resonant dipole
antennas using koch curves,” IEEE Trans. Antennas Propag., vol. 51, no.
, pp. 2296–2303, Sep. 2003.
J. P. Gianvittorio and Y. R. Samii, “Fractal antennas: A novel antenna
miniaturization technique and applications,”IEEE Antennas Propag.
Mag., vol. 44, no. 1, Feb. 2002.
D. H.Werner and M. Raj, Frontiers in Electromagnetics. New York:
IEEE Press, 2000.
D. H. Werner, R. L. Haupt, and P. L. Werner, “Fractal antenna
engineering: The theory and design of fractal antenna arrays,” IEEE
AntennasPropag. Mag., vol. 41, no. 5, pp. 37–59, 1999.
N. Cohen, “Fractal antenna application in wireless telecommunications,”
in Proc. Electronics Industries Forum of New England, 1997, pp. 43–
J. Gouyet, Physics and Fractal Structures. NewYork: Springer, 1996.
J. Romeu and J. Soler, “Generalized Sierpinski fractal multiband
antenna,” IEEE Trans. Antennas Propag., vol. 49, no. 8, pp. 1237–1239,
Aug. 2001.
C. A. Balanis, Antenna Theory: Analysis and Design, 3rd ed. Hoboken,
NJ: Wiley, 2005.
D. M. Pozar and D. H. Schubert, Microstrip Antennas—The
Analysisand Design of Microstrip Antennas and Arrays. New York:
IEEE Press, 1995.
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