Journal
IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION
Volume 69, Issue 12, Pages 8158-8169Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TAP.2021.3090789
Keywords
Beam-scanning antennas; gap waveguide technology; lens antennas; mechanical beam scanning; parallel-plate optics
Funding
- European Commission through the H2020 Marie Sklodowska-Curie Project REVOLVE [722840]
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This article presents a parallel-plate lens beam-former for satellite communications, which achieves beam steering through a mechanical feed system and is optimized using geometrical optics technique for continuous beam-steering capability over a large range. The proposed concept is validated by an all-metal prototype of a 20.5 lambda lens, showing good performance.
This article presents a parallel-plate lens beam-former for continuous wide-angle scanning. The design is based on a compact dual-lens system with extended scanning range and is optimized using a previously developed geometrical optics technique. Beam steering is accomplished with a mechanical feed system based on the noncontact characteristic of groove gap waveguides, offering large bandwidth, low profile, and mechanical ruggedness. The proposed concept is validated by an all-metal prototype of a 20.5 lambda lens operating in the uplink Ka-hand allocated to satellite communications (27.5-31 GHz). Good agreement is obtained between the simulated and measured performances. The measured return loss is greater than 12 dB over the entire frequency band and beyond. High scanning performances are achieved over an angular range of +/- 50 degrees (+/- 14 beamwidths), with maximum scan losses in the order of 3 dB and good pattern stability over the entire band. The proposed solution is particularly suited for next-generation satellite terminals requiring compact broadband antennas with continuous beam-steering capability over a large angular range.
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