Title :
Scattering matrix approach for the design of microwave filters
Author :
Tascone, Riccardo ; Savi, Patrizia ; Trinchero, Daniele ; Orta, Renato
Author_Institution :
Dipt. di Elettronica, Politecnico di Torino, Italy
fDate :
3/1/2000 12:00:00 AM
Abstract :
A synthesis procedure, based on a distributed parameter model, for the design of microwave filters is presented in this paper. The frequency response of the filter is described in terms of the characteristic polynomial T21=S11/S21 where S11 and S21 are the scattering parameters of the filter. Starting from the desired polynomial T21, the design scheme directly yields the scattering parameters of the various junctions, which can be realized by any kind of discontinuity. The capability of synthesizing an arbitrary frequency response allows one to introduce the concept of a “predistorted” characteristic polynomial in order to compensate for the degradations caused by multimodal interactions, frequency dispersion, etc. Comparison with measured data of a Chebyshev-like eight-pole E-plane filter confirms the validity of the method also in the presence of losses
Keywords :
S-matrix theory; S-parameters; compensation; distributed parameter filters; frequency response; linear network synthesis; microwave filters; passive filters; polynomials; waveguide discontinuities; waveguide filters; characteristic polynomial; compensation; discontinuity; distributed parameter model; frequency dispersion; frequency response; microwave filter design; multimodal interactions; scattering matrix approach; scattering parameters; synthesis procedure; Degradation; Design automation; Frequency response; Microwave devices; Microwave filters; Polynomials; Scattering parameters; Transmission line discontinuities; Transmission line matrix methods; Waveguide discontinuities;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
