Title :
Field theory-based design and optimization of compact multiple gap coupled microstrip filter with loaded stub
Author :
Zhu, Lei ; Wu, Ke
Author_Institution :
Dept. de Genie Electr. et de Genie Inf., Ecole Polytech. de Montreal, Que., Canada
Abstract :
This paper presents a field theory-oriented CAD model with a circuit-based optimization algorithm for the design of a class of integrated gap-coupled microstrip filters. These filters consist of multiple stub-loaded line resonators that are coupled through gaps. The proposed technique is based on a platform of unified lumped circuit network characterizing gap-coupled structures. The lumped circuit parameters are accurately obtained by the use of a newly proposed “Short-Open Calibration” (SOC) technique that is self-consistently accommodated in a full-wave method of moments (MoM). A 3-pole bandpass filter with the bandwidth of 1.2% is designed and the prediction of its optimized characteristics agrees well with simulated results from the HP Momentum
Keywords :
band-pass filters; circuit CAD; circuit optimisation; distributed parameter networks; equivalent circuits; linear network synthesis; method of moments; microstrip filters; passive filters; resonator filters; 3-pole bandpass filter; CAD model; circuit-based optimization algorithm; compact microstrip filter; field theory-based design; full-wave MoM algorithm; full-wave method of moments; lumped circuit parameters; multiple gap coupled microstrip filter; multiple stub-loaded line resonators; short-open calibration technique; unified lumped circuit network structures; Algorithm design and analysis; Band pass filters; Bandwidth; Coupling circuits; Design automation; Design optimization; Filtering theory; Microstrip filters; Moment methods; Resonator filters;
Conference_Titel :
Microwave Conference Proceedings, 1997. APMC '97, 1997 Asia-Pacific
Print_ISBN :
962-442-117-X
DOI :
10.1109/APMC.1997.654680
