A Novel High-Gain Sum and Difference Conical Beam-Scanning Reflector Antenna

A novel sum and difference (SD) conical beam-scanning reflector antenna is proposed in this paper. The reflector surface, illuminated by two omnidirectional horns, is a body of revolution obtained by revolving the generating parabola about a symmetry axis. The horns stacked along the symmetry axis o...

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Bibliographic Details
Published in:IEEE access 2020, Vol.8, p.103291-103300
Main Authors: Yang, Junxiang, Qi, Shi-Shan, Wu, Wen, Fang, Da-Gang
Format: Article
Language:English
Subjects:
Antenna arrays
Antenna design
Antenna feeds
Coaxial waveguides
conical beam
Error analysis
Horns
Lenses
magic-T
Parabolic reflectors
Polytetrafluoroethylene
Rectangular waveguides
Reflector antenna
Reflector antennas
Scanning
Sidelobes
sum and difference beams
Symmetry
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Summary:A novel sum and difference (SD) conical beam-scanning reflector antenna is proposed in this paper. The reflector surface, illuminated by two omnidirectional horns, is a body of revolution obtained by revolving the generating parabola about a symmetry axis. The horns stacked along the symmetry axis of the reflector are fed by a nest coaxial waveguide. Teflon lens is used to improve the side lobe levels and reflection coefficients of the feed horns. By tilting the generating parabola and using the offset feeding method, two conical beams, with different beam pointing angles, were generated. A compact feed network was also designed to feed the two horns, which includes two rectangular TE 10 mode-to-coaxial TEM mode transitions and a Magic-T to implement SD beams. The scanning performance of conical beams can be achieved by mechanically moving the feed antennas along the symmetry axis and taking full advantage of offset focus characteristic of the parabolic reflector. The error in angle measurement was also discussed. The SD conical beam-scanning antenna was formed by a parabolic dish with a radius of 18~\lambda operating at 24 GHz. The proposed antenna was designed, simulated, and fabricated. The measured results show that the difference beam null-depth is −25 dB and the sum beam gain is 15 dBi at 40°. The sum beam gain varies by less than 1.5 dB across the scan coverage from 30.8° to 45.2°. The measured results are found to be in good agreement with the simulated ones.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2020.2998835