Title :
Pretuning and adaptation of PI controllers
Author_Institution :
Dept. of Eng. Sci., Univ. of Oxford, UK
Abstract :
A method is proposed for the closed-loop tuning of a PI controller in cascade with a plant having an unknown transfer function, based on adding a variable-frequency sinewave to the loop´s set-point. It applies design-point methodology in the Nyquist diagram to a phase-frequency adaptor coupled with gain estimators that monitor the closed-loop signals. The approach is shown to give good results over a wide range of cases, using test transfer functions taken from the literature that represent typical process dynamics. By comparing its step responses with those of loops tuned by standard Ziegler-Nichols and Cohen-Coon rules (as applied by many autotuners), the approach is seen to give consistent transients that are characterised by a user-specified damping factor. Adaptive tuning can be attained, ´quietly in the background´ during normal PI control of a slowly varying plant, as convergence and tracking are obtained even if the output signal:noise ratio is less than one.
Keywords :
Nyquist diagrams; PI control; adaptive control; amplitude estimation; closed loop systems; control system synthesis; frequency estimation; phase estimation; root loci; step response; Nyquist diagram; PI controllers; adaptation; adaptive tuning; closed-loop signal monitoring; closed-loop tuning; consistent transients; convergence; design-point methodology; gain estimators; loop set-point; output signal-noise ratio; phase-frequency adaptor; pretuning; process dynamics; root-locus ideas; slowly varying plant; step responses; tracking; unknown transfer function; user-specified damping factor; variable-frequency sinewave;
Journal_Title :
Control Theory and Applications, IEE Proceedings -
DOI :
10.1049/ip-cta:20030853
