Title :
PID Tuning for Optimal Closed-Loop Performance With Specified Gain and Phase Margins
Author_Institution :
Dept. of Thermal Energy Eng., China Univ. of Pet., Beijing, China
Abstract :
A new robust proportional-integrative-derivative (PID) tuning method based on nonlinear optimization is developed. The closed-loop bandwidth is maximized for specified gain and phase margins (GPM) with constraint on overshoot ratio, so that criteria of closed-loop performance and robustness are both satisfied. The equations of open-loop amplitude ratio and phase change are derived based on frequency analysis for the first-order plus time delay system with a PID controller in parallel form. The equation of closed-loop amplitude ratio is also explicitly given. The formulated optimization problem from the tuning method based on GPM with constraint on closed-loop amplitude ratio is further given. The method is demonstrated in simulation examples and compared with previous work on this topic.
Keywords :
closed loop systems; delay systems; optimal control; optimisation; robust control; three-term control; PID controller; PID tuning method; closed-loop amplitude ratio; closed-loop bandwidth; first-order plus time delay system; frequency analysis; gain margin; nonlinear optimization; open-loop amplitude ratio; optimal closed-loop performance; phase change; phase margin; robust proportional-integrative-derivative method; Bandwidth; Equations; Mathematical model; Optimization; Robustness; Simulation; Tuning; Gain margin; nonlinear optimization; phase margin; process control; proportional-integrative-derivative (PID) tuning; robustness;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2012.2198479
