Phase error analysis of displaced-axis dual reflector antenna for satellite earth stations

In a classical Cassegrain geometry, the sub-reflector partly blocks reflected rays from the main reflector. Feed antenna of the subreflector also blocks some of the radiated energy towards main reflector. In a properly designed displaced-axis dual-reflector antenna (DADRA) system based on axially-di...

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Bibliographic Details
Published in:International journal of electronics and communications 2019-10, Vol.110, p.152824, Article 152824
Main Authors: Demirci, Aykut, Sonmez, Nurdan, Tokan, Fikret, Tokan, Nurhan Turker
Format: Article
Language:English
Subjects:
Corrugated feed horn
Displaced-axis dual reflector
Earth station antennas
Phase error loss
Satellite communication
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Summary:In a classical Cassegrain geometry, the sub-reflector partly blocks reflected rays from the main reflector. Feed antenna of the subreflector also blocks some of the radiated energy towards main reflector. In a properly designed displaced-axis dual-reflector antenna (DADRA) system based on axially-displaced ellipse (ADE) sub-reflector configuration, these blockage losses are minimized. Thus, with its high gain and low return-loss, DADRA system is a strong candidate for large scale earth station antennas. In general, to achieve maximum gain using a single-reflector system, the phase center of the feed antenna should be placed at the focus of the paraboloidal reflector. However, phase center of a feed antenna moves with the change of frequency. Phase error loss is not avoidable, especially in wide band applications. In this work, phase error losses due to axial defocusing of a DADRA system designed for satellite earth station are analysed in Ku-band. The system is fed by a corrugated horn. Phase center stability of the feed over a wide frequency band is exhibited resulting in negligible loss levels. The results are compared with that of a single-paraboloidal reflector fed by the same horn. Measured and simulated patterns of DADRA system are presented.
ISSN:1434-8411
1618-0399
DOI:10.1016/j.aeue.2019.152824