Abstract
A single-arm rectangular spiral antenna is analyzed using the finite-difference time-domain method. The spiral is printed on a finite-size dielectric substrate backed by a finite-size conducting plane. Both the substrate and conducting planes are square with a side length L of less than 0.6/spl lambda//sub 0/ (/spl lambda//sub 0/: wavelength in free space). The radiation pattern is dependent on the outermost arm peripheral length C. The spiral whose peripheral length is within 2/spl lambda//sub g/<C<3/spl lambda//sub g/ (/spl lambda//sub g/: the guided wavelength of the current) radiates a tilted beam of circular polarization. When the peripheral length is decreased to /spl lambda//sub g/<C<2/spl lambda//sub g/, the spiral radiates an axial beam. The axial beam has a wide half-power beam width of approximately 102/spl deg/ (for L/spl ap/0.369/spl lambda//sub 0/) with a gain of approximately 6.7 dB. The axial beam shows a 15% frequency bandwidth for a 3 dB axial ratio criterion. Over this bandwidth, the voltage standing-wave ratio (VSWR) is less than two, as desired. The experimental results for the radiation pattern, gain, axial ratio, and VSWR are also presented.
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