Title :
Design of a Simple Transition From Microstrip to Ridge Gap Waveguide Suited for MMIC and Antenna Integration
Author :
Zaman, A.U. ; Vukusic, Tin ; Alexanderson, Mats ; Kildal, Per-Simon
Author_Institution :
Dept. of Signals & Syst., Chalmers Univ. of Technol., Goteborg, Sweden
Abstract :
This letter describes a simple and low-loss microstrip-to-ridge gap waveguide transition with a very compact geometry. The transition transforms the electromagnetic (EM) fields from the microstrip mode to the air-filled ridge gap waveguide mode. This is achievable if the height of the air gap in the ridge gap waveguide is kept almost equal to the thickness of the substrate of the microstrip line. The transition has a pressure contact between the ridge and the microstrip line, so it works without soldering. This is advantageous in systems that require mechanically separable split-blocks or modules and need a lot of transitions. Experimental results of the manufactured back-to-back transition show an insertion loss of 0.32 dB and a return loss of 14.15 dB over 55% relative bandwidth in Ka-band.
Keywords :
MMIC; geometry; microstrip antenna arrays; microstrip lines; microwave antenna arrays; ridge waveguides; EM fields; Ka-band; MMIC-antenna integration; air gap height; air-filled ridge gap waveguide mode; antenna array; back-to-back transition; compact geometry; electromagnetic fields; insertion loss; loss 0.32 dB; loss 14.15 dB; low-loss microstrip-to-ridge gap waveguide transition; microstrip line; microstrip mode; pressure contact; substrate thickness; Antennas; Electromagnetic waveguides; Metals; Microstrip; Substrates; Waveguide transitions; Antenna array; microstrip transition; monolithic microwave integrated circuit (MMIC) integration; ridge gap waveguide;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2013.2293151
