Title :
IMC-PID controller tuning from closed-loop setpoint response
Author :
Hasan, Mudassir ; Shamsuzzoha, M. ; Lee, Moonyong
Author_Institution :
Sch. of Chem. Eng. & Technol., Yeungnam Univ., Kyongsan, South Korea
Abstract :
The proposed IMC-PID tuning method is extension of the recently published setpoint overshoot method (2010). It is one step procedure to obtain the PI/PID setting which gives the better performance and robustness. The method requires one closed-loop step setpoint response experiment using a proportional only controller with gain Kc0. Based on simulations for a range of first-order with delay processes, simple correlations have been derived to give PI/PID.filter controller settings. The controller gain (Kc/Kc0) is only a function of the overshoot observed in the setpoint experiment. The controller integral and derivative time (τI and τD) is mainly a function of the time to reach the first peak (tp). The proposed tuning method shows better performance than the setpoint overshoot method (2010) for broad range of processes.
Keywords :
PI control; closed loop systems; control system synthesis; correlation methods; delays; three-term control; IMC-PID controller tuning; PID filter controller settings; closed-loop setpoint response; closed-loop step setpoint response experiment; controller derivative time; controller gain; controller integral time; first-order delay processes; proportional only controller; setpoint overshoot method; Correlation; Delay; Delay effects; Educational institutions; Process control; Robustness; Tuning; IMC-PID; PI controller; closed-loop response; overshoot; step test;
Conference_Titel :
Control, Automation and Systems (ICCAS), 2012 12th International Conference on
Conference_Location :
JeJu Island
Print_ISBN :
978-1-4673-2247-8
