Title :
Wide range continuously high electrical performance tunable E-plane filter by mechanical translation
Author :
Jolly, Nicolas ; Tantot, Olivier ; Delhote, Nicolas ; Verdeyme, Serge ; Estagerie, Laetitia ; Carpentier, Ludovic ; Pacaud, Damien
Author_Institution :
Univ. de Limoges, Albert, France
Abstract :
This paper introduces a new concept capable of obtaining a wide frequency excursion, keeping high electrical performances. To reach such performances, the use of waveguide resonators is chosen, actuated by a mechanical system is made. Starting from a classical 2 pole E-plane filter, which consists of thin walls implemented along the propagation axis inside a waveguide, we make both the filter external coupling and the frequency tunable by moveable walls. Thus, on the two pole presented, it allows to control the resonance frequency of the system. A simulated 2-pole filter is continuously tuned from 8.37 GHz to 10.04GHz (thus 20%) with a quality factor Q of 6000. It was fabricated by a low cost 3D plastic printing, in order to validate the principle with a fast prototyping technique.
Keywords :
band-pass filters; circuit tuning; resonator filters; waveguide filters; bandpass filters; classical 2 pole E-plane filter; fast prototyping technique; filter external coupling; frequency 8.37 GHz to 10.04 GHz; low cost 3D plastic printing; mechanical system; mechanical translation; moveable walls; propagation axis; quality factor; resonance frequency; thin walls; waveguide resonators; wide range continuously high electrical performance tunable E-plane filter; Band-pass filters; Cavity resonators; Couplings; Filtering theory; Microwave filters; Optical filters; Resonator filters; 3D plastic printing; Bandpass filters; Continuously tunable filters; E-plane filters; High-Q filters; additive manufacturing;
Conference_Titel :
Microwave Conference (EuMC), 2014 44th European
Conference_Location :
Rome
DOI :
10.1109/EuMC.2014.6986442
