Title :
Microstrip filter design using direct EM field simulation
Author :
Bandler, John W. ; Biernacki, Radoslaw M. ; Chen, Shao Hua ; Swanson, Daniel G., Jr. ; Ye, Shen
Author_Institution :
Optimization Syst. Associates Inc., Dundas, Ont., Canada
fDate :
7/1/1994 12:00:00 AM
Abstract :
For the first time, we present minimax filter design with electromagnetic (EM) simulations driven directly by a gradient-based optimizer. Challenges of efficiency, discretization of geometrical dimensions, and continuity of optimization variables are overcome by a three-stage attack: 1) efficient on-line response interpolation with respect to geometrical dimensions of microstrip structures simulated with fixed grid sizes; 2) smooth and accurate gradient evaluation for use in conjunction with the proposed interpolation; and 3) storing the results of expensive EM simulations in a dynamically updated database. Simulation of a lowpass microstrip filter illustrates the conventional use of EM simulation for design validation. Design optimization of a double folded stub bandstop filter and of a millimeter-wave 26-40 GHz interdigital capacitor bandpass microstrip filter illustrates the new technique
Keywords :
band-pass filters; band-stop filters; digital simulation; electromagnetic fields; low-pass filters; microstrip components; microwave filters; 26 to 40 GHz; design validation; direct EM field simulation; double folded stub bandstop filter; dynamically updated database; efficiency; fixed grid sizes; geometrical dimension; geometrical dimensions; gradient evaluation; gradient-based optimizer; lowpass microstrip filter; microstrip filter design; millimeter-wave interdigital capacitor bandpass filter; minimax filter design; on-line response interpolation; Band pass filters; Circuit simulation; Computational modeling; Design optimization; Interpolation; Microstrip filters; Microwave filters; Minimax techniques; Solid modeling; Spatial databases;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
