Abstract
A novel phasing line is proposed in this communication for a broadband dynamic tuning of an active aperture-coupled reflectarray cell. A couple of wideband radial stubs, loaded by a single varactor diode, is adopted to realize the dynamic phase shift mechanism, thus combining unit cell beam-scanning and/or reshaping pattern capabilities with frequency reconfigurability feature, as demanded by several radar or satellite communication applications. When compared with the existing solutions on the same task, the proposed configuration integrates a single tunable lumped element (i.e., varactor diode), requiring a very simple biasing network. The proposed approach is adopted to design an $X$ -band reflectarray cell giving 320° phase agility within a measured frequency range of about 8.5%, significantly greater than that achievable through the use of a standard linear phasing line. As a further feature, the designed cell shows a useful improvement of the instantaneous bandwidth at the middle of the tuning band.
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