Abstract
Transmit arrays have been mostly used for beam collimation applications, either with fixed or scanning beam capability. But transmit arrays can also be used to synthesize power radiation patterns complying with power pattern templates. A new analytical formulation is presented here to obtain a phase-only correction function corresponding to a given power template. The transmit-array transforms the known power radiation pattern of the primary source into a desired output power pattern. The proposed formulation, specialized for axial-symmetric structures, is based on geometrical optics and provides the solution directly from the evaluation of two closed-form first-order differential equations. As a proof of concept, a sec2 with a roll-off at 45° is defined as the target power pattern, at the 30 GHz Ka-band. A 10.8 dBi radiation pattern with the circular polarization is used to illuminate a 180 mm $\times \,\, 180$ mm transmit array with 60 mm focal distance. Previously designed 3.35 mm thick phase-delay unit cells are used as an example to implement the calculated phase distribution over the transmit-array aperture. The measured antenna radiation pattern matches quite well the template, with a steep fall of the radiation at the roll-off angle and low cross-polarization. This validates the concept, the formulation, and the fabricated prototype.
Highlights
ANTENNA radiation pattern shaping is widely used in different applications
In the dashed line radiation pattern the aperture fields are obtained from the original full-wave problem, but the Physical Optics (PO) integration is restricted to the transmit array top aperture only
Measurements were carried out for two orthogonal linear polarizations, in order to retrieve by postprocessing the transmit-array radiation pattern, when illuminated by a perfect circular polarization feed
Summary
ANTENNA radiation pattern shaping is widely used in different applications. For instance, contoured beams may be required in satellite antennas to restrict Earth coverage to certain areas with shaped borders [1], leaving out the neighboring regions. Reflect-arrays [14], [15] and transmit-arrays [16]-[22] are special cases of reflectors and lenses, respectively Both are thin, planar, light-weight, low-cost structures, that can transform the phase and amplitude of the incident wave into some prescribed output form. To the authors’ best knowledge, reports on amplitude shaping produced by transmit-arrays are very scarce in the literature [23], [24] In these references, the transmit-array is designed as a phase and amplitude shifting surface (PASS) to produce an axial-symmetric flat-top radiation pattern with roll-off at 20o with linear polarization. The present paper proposes a completely different approach It assumes that the amplitude template can be met relying only on an appropriate phase correction introduced by the transmit-array, with near-unit transmission amplitude all over the aperture.
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