Transmit-Receive Parabolic Reflectarray to Generate Two Beams per Feed for Multispot Satellite Antennas in Ka-Band

This contribution describes the design of a multibeam parabolic reflectarray to produce two adjacent beams per feed in orthogonal circular polarization (CP) simultaneously at the transmission (Tx) and reception (Rx) frequencies in the Ka-band. The variable rotation technique (VRT) has been applied to the reflectarray cells based on two types of resonant elements, which makes it possible to provide orthogonal beams at Tx and Rx, as well as to implement an in-band optimization procedure to reduce the cross-polarization. A 90 cm parabolic reflectarray has been designed, manufactured, and tested to produce multiple adjacent beams in RHCP and LHCP at both 20 and 30 GHz. The results are satisfactory and validate the concept of generating two spaced beams in the orthogonal CP by a single feed, changing the polarization of the beam between Tx and Rx. This concept can be suitable for multispot satellites in the Ka-band, enabling to halve the number of onboard antennas and feeds.

Automated summary

This paper presents the design of a multibeam parabolic reflectarray capable of generating two adjacent beams in orthogonal circular polarization at both the Tx and Rx frequencies in the Ka-band. The concept has been validated by designing, manufacturing, and testing a 90 cm parabolic reflectarray that can produce multiple adjacent beams at 20 and 30 GHz.