A tunable impedance surface performing as a reconfigurable beam steering reflector

Abstract: We describe a reconfigurable microwave surface that performs as a new kind of beam steering reflector. The surface is textured with an array of tiny resonators, which provide a frequency-dependent surface impedance. By tuning the individual resonators, the surface impedance, and thus the reflection coefficient phase, can be varied as a function of position across the reflector. Using a reflection phase gradient, the surface can steer a reflected beam. As an example, we have built a simple mechanically tuned su… Show more

“…For example, the capacitance between the patches (which appears in Figures 3(a) and (b)) can be made adjustable by placing a tunable capacitor such as a varactor diode across the gaps. Tunable impedance surfaces have been demonstrated for use as plane-wave re-direction surfaces [68] though the bias network can theoretically be reconfigured for such surfaces to work as tunable reflectarrays. While the downside of this approach is that many more tunable components are needed due to the sub-wavelength size of the unit cell, the reduced unit cell size also provides for improved bandwidth characteristics [17] leading to potentially broadband reflectarray performance.…”

Reconfigurable Reflectarrays and Array Lenses for Dynamic Antenna Beam Control: A Review

“…For example, the capacitance between the patches (which appears in Figures 3(a) and (b)) can be made adjustable by placing a tunable capacitor such as a varactor diode across the gaps. Tunable impedance surfaces have been demonstrated for use as plane-wave re-direction surfaces [68] though the bias network can theoretically be reconfigured for such surfaces to work as tunable reflectarrays. While the downside of this approach is that many more tunable components are needed due to the sub-wavelength size of the unit cell, the reduced unit cell size also provides for improved bandwidth characteristics [17] leading to potentially broadband reflectarray performance.…”

Reconfigurable Reflectarrays and Array Lenses for Dynamic Antenna Beam Control: A Review

“…The equivalence between these highimpedance surfaces and materials with resonant artificial permeabilities is outlined in Ref. [34], and the permeability of the equivalent medium can be written according to Eq. (1), with A ¼ 100%.…”

Copper vs. iron: Microwave magnetism in the metamaterial age

“…More advanced aspects covering tunable AMC, [2][3][4], multiband and miniaturized AMC, [5][6][7][8].…”

A digitally tuned capacitor as an active element for reconfigurable Artificial Magnetic Conductors