Title :
An optimal circular-waveguide dual-mode filter without tuning screws
Author_Institution :
Corporate R&D, Cambridge, Ont., Canada
fDate :
3/1/1999 12:00:00 AM
Abstract :
A novel circular-waveguide dual-mode (CWDM) filter structure is proposed. The coupling between the degenerate modes in the same cavity is provided by an off-centered circular iris built in at the middle of the resonant cavities. Considering the facts of: (1) simplicity of the mechanical process; (2) a potentially high Q; (3) a wide spurious-free frequency band; and (4) the effectiveness of electromagnetic (EM) modeling, the structure can be considered as an optimal coupling structure for CWDM filters when a precise EM design is required. A rigorous mathematical proof is given for explaining its working mechanism. The detailed formulations for designing the new coupling structure is also discussed. To validate the new structure, a narrow-bandwidth four-pole Ku-band elliptic filter is designed, manufactured and tested. Very good agreement is obtained between the calculated and measured responses
Keywords :
Q-factor; circular waveguides; elliptic filters; microwave filters; mode matching; passive filters; waveguide filters; waveguide theory; EM modeling; circular-waveguide filter; degenerate modes coupling; four-pole Ku-band elliptic filter; high Q-factor; narrow-bandwidth elliptic filter; offcentered circular iris; optimal coupling structure; optimal dual-mode filter; resonant cavities; wide spurious-free frequency band; Band pass filters; Electromagnetic coupling; Electromagnetic modeling; Electromagnetic waveguides; Fasteners; Frequency; Manufacturing; Matched filters; Microwave filters; Resonance;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
