Ridged Waveguide Slot Phased Array for 5G Millimeter-wave Application

Abstract

A slotted waveguide phased array based on a single-ridged waveguide (SRWG) with enhanced scanning angle, wide impedance bandwidth and side lobes bandwidth, as well as low cross-polarization is designed. A transition structure is designed to feed the ridge waveguide with polarization torsion and conversion from the ridge waveguide to a standard rectangular waveguide. A single waveguide is divided into two subarrays to achieve small angle scanning in vertical dimension (yoz plane). An 8 × 8 array is designed and simulated to validate the slot antenna design. The bandwidth for VSWR＜2.0 is 3 GHz at the center frequency of 28 GHz. The realized gain at the center frequency is 24.0 dBi with antenna efficiencies better than 83%. The side lobes are controlled lower than -15dB over the entire working frequency, and the array can achieve a horizontal (xoz plane) scanning angle of ±45 °, and vertical scanning angle of ± 3 °, respectively.