Title :
Modal S-matrix design of metal finned waveguide components and its application to transformers and filters
Author :
Bornemann, Jens ; Arndt, Fritz
Author_Institution :
Dept. of E.C.E. Victoria Univ., BC, Canada
fDate :
7/1/1992 12:00:00 AM
Abstract :
Optimized all-metal E-plane finned waveguide components are designed with the rigorous method of modal field expansion into the ridged eigenmodes, which includes both the higher order mode interaction between the step discontinuities and the finite thickness of the fins. The design, which combines the advantage of constant fin thickness with that of the optimum matching potential of different waveguide inner cross-section dimensions and fin heights, achieves very broadband transformers and evanescent-mode filters with improved performance. Computer optimized data demonstrate the efficiency of the method by typical design examples: compact transformers for WR112, WR42, WR15, and WR12 input waveguides to E-plane finned waveguides, corrugated lowpass filters designed for a cutoff frequency in the waveguide Ku and U bands, and an evanescent-mode bandpass filter with unequal fin heights. The theory is verified by available measurements
Keywords :
S-matrix theory; band-pass filters; low-pass filters; microwave filters; passive filters; waveguide components; E-plane; WR112; WR12; WR15; WR42; bandpass filter; broadband transformers; constant fin thickness; corrugated lowpass filters; evanescent-mode filters; fin heights; finite thickness; higher order mode interaction; inner cross-section dimensions; metal finned waveguide components; modal S-matrix design; modal field expansion; ridged eigenmodes; step discontinuities; Band pass filters; Bandwidth; Design optimization; Microwave circuits; Rectangular waveguides; Transformers; Waveguide components; Waveguide discontinuities; Waveguide junctions; Waveguide transitions;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
