Title :
Design of Broadband Transmitarray Unit Cells With Comparative Study of Different Numbers of Layers
Author :
Nematollahi, Hoda ; Laurin, Jean-Jacques ; Page, J.E. ; Encinar, JoseÌ A.
Author_Institution :
Dept. of Electr. Eng., Ecole Polytech., Montreal, QC, Canada
Abstract :
A generalized methodology to design low-profile transmitarray (TA) antennas made of several stacked layers with nonresonant printed phasing elements is presented. A study of the unit cell bandwidth, phase-shift range and tolerances has been conducted considering different numbers of layers. A structure with three metalized layers with capacitive and inductive elements enabling a phase range of nearly 360° and low insertion loss is introduced. A study of the four-layer structure shows improvement in the performance of the unit cells in terms of bandwidth from 2% to more than 20% and a complete phase coverage. Implementations on a flexible substrate of TAs with progressive phase shift operating at 19 GHz are used for validation.
Keywords :
broadband antennas; microwave antenna arrays; microwave phase shifters; transmitting antennas; broadband transmitarray unit cell design; capacitive elements; four-layer structure; frequency 19 GHz; inductive elements; insertion loss; low-profile TA antenna design; low-profile transmitarray antenna design; metalized layers; nonresonant printed phasing elements; performance improvement; phase-shift range; unit cell bandwidth; Bandwidth; Geometry; Insertion loss; Integrated circuit modeling; Propagation losses; Substrates; Transmitting antennas; Multi-layers; Multilayers; spatial phase shifters; transmitarray (TA) antenna; transmitarray antenna;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2015.2402285
