Session
Weekday Session 11: Communications
Location
Utah State University, Logan, UT
Abstract
This paper proposes a new full-metal unit cell for reflectarray antenna for space applications. It can be scaled to operate from X-band to Ka-band with the same manufacturing process. In this paper, An X-band 3-panel reflectarray for small satellite has been designed in this paper. The reflectarray has been simulated on the [8-8.4] GHz band and shows a good stability on the band. The maximum gain is 28 dB and the half-power beamwidth is 8°.
Full-Metal Reflectarray for Space Applications
Utah State University, Logan, UT
This paper proposes a new full-metal unit cell for reflectarray antenna for space applications. It can be scaled to operate from X-band to Ka-band with the same manufacturing process. In this paper, An X-band 3-panel reflectarray for small satellite has been designed in this paper. The reflectarray has been simulated on the [8-8.4] GHz band and shows a good stability on the band. The maximum gain is 28 dB and the half-power beamwidth is 8°.
