Title :
Fractal and multiband communication antennas
Author :
Lee, Yoonjae ; Yeo, Junho ; Mittra, Raj ; Ganguly, Suman ; Tenbarge, Joseph
Author_Institution :
Center for Remote Sensing Inc, Fairfax, VA, USA
Abstract :
In this paper we present two novel multiband antenna designs for multiple frequency applications. The first of these, which is based on fractal concepts, is a Sierpinski gasket type of fractal configuration, printed on a dielectric substrate backed by a ground plane. We propose a novel approach to enhancing its multiband performance, in terms of impedance matching characteristics as well as radiation patterns, at three operating frequencies. The second design combines a rectangular microstrip patch with a cylindrical dielectric resonator, and operates at multiple frequencies. Specifically, we describe a stacked configuration of a dielectric resonator antenna on a microstrip patch for three frequency bands. Circular polarization is obtained by utilizing four coaxial feeds in phase quadrature. This configuration is found to exhibit good cross-polarisation rejection characteristics.
Keywords :
antenna feeds; antenna radiation patterns; dielectric resonator antennas; electromagnetic wave polarisation; fractals; impedance matching; microstrip antennas; multifrequency antennas; Sierpinski gasket type; circular polarization; coaxial feeds; cross-polarisation rejection; cylindrical dielectric resonator; dielectric substrate; fractal antennas; ground plane; impedance matching characteristics; multiband communication antennas; multiband performance; phase quadrature; printed antenna; radiation patterns; rectangular microstrip patch; stacked configuration; Antenna radiation patterns; Dielectric resonator antennas; Dielectric substrates; Fractals; Frequency; Gaskets; Impedance matching; Microstrip antennas; Microstrip resonators; Multifrequency antennas;
Conference_Titel :
Wireless Communication Technology, 2003. IEEE Topical Conference on
Print_ISBN :
0-7803-8196-3
DOI :
10.1109/WCT.2003.1321521
