Litcius/Paper detail

True-Time-Delay Mechanical Phase Shifter in Gap Waveguide Technology for Slotted Waveguide Arrays in <i>Ka</i>-Band

Daniel Sánchez‐Escuderos, José I. Herranz-Herruzo, Miguel Ferrando‐Rocher, Alejandro Valero‐Nogueira

2020IEEE Transactions on Antennas and Propagation40 citationsDOIOpen Access PDF

Abstract

This article proposes a novel all-metal mechanical phase shifter in gap waveguide technology. The phase shifter is aimed at providing beam-scanning capabilities to conventional slot array antennas along the elevation plane. To validate experimentally the beam-steering functionality, a 4×8 slot-array antenna has been designed and fabricated, along with the phase-shifting mechanism. The whole antenna consists of two pieces: a lower rotatable block, which changes the length of concentric groove gap waveguides, and an upper fixed block, where the slot-array antenna is placed. Experimental results validate the proposed concept, having obtained steering angles of up to 25°, with gain levels around 20 dBi with an antenna efficiency close to 90%. A reflection coefficient below -10 dB is achieved for a wide range of rotation angles from 29.5 to 30.5 GHz. The proposed phase shifter is completely scalable to any array size and its true-time-delay nature enables wide steering ranges for closely-spaced slot arrays with wideband radiation performance.

Topics & Concepts

Phase shift moduleTrue time delayOpticsBeam steeringAntenna (radio)WaveguideSlotted waveguidePhase (matter)WidebandSlot antennaPhased arrayRadiation patternPhysicsMaterials scienceBeam (structure)Computer scienceTelecommunicationsInsertion lossQuantum mechanicsMicrowave Engineering and WaveguidesGyrotron and Vacuum Electronics ResearchRadio Frequency Integrated Circuit Design