Title :
Space-mapping optimization of microwave circuits exploiting surrogate models
Author :
Bakr, Mohamed H. ; Bandler, John W. ; Madsen, Kaj ; Rayas-Sanchez, J.E. ; Søndergaard, Jacob
Author_Institution :
Dept. of Electr. & Comput. Eng., McMaster Univ., Hamilton, Ont., Canada
fDate :
12/1/2000 12:00:00 AM
Abstract :
A powerful new space-mapping (SM) optimization algorithm is presented in this paper. It draws upon recent developments in both surrogate model-based optimization and modeling of microwave devices, SM optimization is formulated as a general optimization problem of a surrogate model. This model is a convex combination of a mapped coarse model and a linearized fine model. It exploits, in a novel way, a linear frequency-sensitive mapping. During the optimization iterates, the coarse and fine models are simulated at different sets of frequencies. This approach is shown to be especially powerful if a significant response shift exists. The algorithm is illustrated through the design of a capacitively loaded 10:1 impedance transformer and a double-folded stub filter. A high-temperature superconducting filter is also designed using decoupled frequency and SMs
Keywords :
circuit optimisation; high-temperature superconductors; impedance convertors; microwave circuits; superconducting filters; superconducting microwave devices; waveguide filters; capacitively loaded 10:1 impedance transformer; convex combination; double-folded stub filter; general optimization problem; high-temperature superconducting filter; linear frequency-sensitive mapping; linearized fine model; mapped coarse model; microwave circuits; space-mapping optimization; surrogate models; Computational modeling; Frequency; High temperature superconductors; Impedance; Microwave circuits; Microwave filters; Optimization methods; Samarium; Superconducting filters; Superconducting microwave devices;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
