Litcius/Paper detail

1 Bit Dual-Linear Polarized Reconfigurable Transmitarray Antenna Using Asymmetric Dipole Elements With Parasitic Bypass Dipoles

Yu Wang, Shenheng Xu, Fan Yang, Douglas H. Werner

2020IEEE Transactions on Antennas and Propagation105 citationsDOI

Abstract

Reconfigurable transmitarray antennas with independent dual-linear polarization phase controlling capability are essential for wireless communications applications. This work proposes a novel 1 bit transmitarray element design at Ku-band, which adopts the receiver-transmitter structure with an active receiving dipole and a passive asymmetric transmitting dipole. The 1 bit phase shift is achieved by alternating two p-i-n diodes integrated on the active dipole to reverse its current direction. To mitigate the influence of p-i-n diodes and reduce the element insertion loss, a parasitic bypass dipole is added next to each dipole. Element simulations show that a low loss of only 1.0 dB is achieved. The dual-linear polarization capability is obtained by orthogonally interlacing two sets of proposed receiver-transmitter structures. A 100-element transmitarray prototype is designed, fabricated, and measured. The measured gain is 18.3 dB at 12.2 GHz, corresponding to an aperture efficiency of 22.6%. The 2-D beam-scanning capability for independent dual-linear polarization is experimentally verified and the scan angle covers ±50°. The measured maximum scan gain loss is 2.9 and 3.5 dB in the two principal planes, respectively.

Topics & Concepts

OpticsReconfigurable antennaDipole antennaDipolePIN diodePolarization (electrochemistry)Linear polarizationMaterials sciencePhysicsTransmitterAntenna (radio)DiodeOptoelectronicsTelecommunicationsComputer scienceAntenna efficiencyQuantum mechanicsLaserChemistryChannel (broadcasting)Physical chemistryAdvanced Antenna and Metasurface TechnologiesAntenna Design and AnalysisRFID technology advancements