Title :
Transfer-function models of sampled systems
Author :
Gibson, J.A. ; Hamilton-Jenkins, M.A.
Author_Institution :
University of Canterbury, Electrical Engineering Department, Christchurch, New Zealand
fDate :
4/1/1983 12:00:00 AM
Abstract :
Finite-length Padé approximants to sampling delays enable sampled systems to be represented by continuous models. Accuracy depends on the length of the rational Padé approximants, since they determine the complexity of the models. System-reduction techniques provide a compromise between accuracy and complexity. Low-order Padé-based models provide conveniently simple indicators of distortion induced by digital discretisation of a continuous system in terms of system-parameter perturbations and dead time. System-parameter and time-shift compensations can greatly reduce the distortion.
Keywords :
approximation theory; network analysis; perturbation techniques; sampled data systems; transfer functions; continuous models; dead time; digital discretisation; distortion indicator; finite-length Pade approximants; low-order Pade based models; sampled systems; sampling delays; system reduction techniques; system-parameter perturbations; time-shift compensations; transfer function models;
Journal_Title :
Electronic Circuits and Systems, IEE Proceedings G
DOI :
10.1049/ip-g-1:19830008
