Title :
Computer Code for Passivity Enforcement of Rational Macromodels by Residue Perturbation
Author_Institution :
SINTEF Energy Res., Trondheim
fDate :
5/1/2007 12:00:00 AM
Abstract :
Passivity of rational macromodels is a necessary requirement for guaranteeing a stable time-domain simulation. This paper describes a freely available routine for passivity enforcement of multiport models (y parameters) using residue perturbation. The procedure calculates a correction to the original model by adjusting its residues and constant term as a postprocessing step while minimizing the model perturbation in the least squares (LS) sense. Control parameters are available for limiting the number of free variables and for specifying different LS weighting schemes. Two different constraint types can be specified, which helps to ensure reliable convergence when applied in an iterative scheme. Usage of a sparse solver is shown to greatly reduce the computation time. The software is demonstrated by several numerical examples
Keywords :
iterative methods; least squares approximations; mathematics computing; perturbation techniques; rational functions; state-space methods; time domain analysis; LS weighting schemes; computer code; iterative scheme; least squares sense; multiport models; passivity enforcement; pole-residue model; postprocessing step; rational approximation; rational macromodels; residue perturbation; state-space model; system identification; time-domain simulation; Computational modeling; Eigenvalues and eigenfunctions; Frequency; Function approximation; Least squares methods; Mathematical model; Packaging; Power system interconnection; Power system modeling; Time domain analysis; Passivity enforcement; pole-residue model; rational approximation; state-space model; system identification;
Journal_Title :
Advanced Packaging, IEEE Transactions on
DOI :
10.1109/TADVP.2007.896014
