The specification of controller setting for a standard controller typically requires a trade-off between set point tracking and disturbance rejection. For this reason two simple strategies can be used to adjust the set point and disturbance responses independently. These strategies are referred to as controllers with two degree of freedom. Unfortunately, the tuning parameters in the case of model uncertainty at two degree of freedom structure controller is difficult to obtain. Juwari et al (2013) has introduced maximum peak-gain margin (Mp-GM) tuning method to obtain setting parameter of two degree of freedom structure controller based on model uncertainty. This tuning method are able to obtain the good controller parameter even under processes uncertainties on standard two degree of freedom (was abbreviated as 2DOF) IMC. This research will be conducted on development maximum peak-gain margin tuning method for a two degree of freedom PID filter set point structure controller. The simulation results show that the maximum peak gain margin tuning method can give a good target set point tracking, disturbance rejection and robustness in system a 2DOF-PID filter set point controller.

Two degree of freedom structure controller; IMC; PID; Maximum peak; Gain Margin

H. M. Mazzini and D. F. G., Santos, “Two Degree of Freedom PID control for Integrating Process”,XVIII Congreso Brasilleiro Automatica/12 a 16 Setembro 2010.

M. Morari, and E. Zafiriou, Robust Process Control, Englewood Cliffs, NJ: Prentice –Hall, 1989.

M. T. Tham “Part of a set of lecture notes on Introduction to Robust Control”, Chemical and Process Engineering University of Newcastle Upon Time, 2002.

D.E. Seborg, T.F. Edgar, and D.A. Mellicamp, “Process Dynamic and Control”, 2nd ed. USA: John Wiley & Sons, Inc., 2004.

M. Araki, and H. Taguchi, “Two Degree of Freedom PID Controller”, International Journal of Control, Automation and Systems, Vol. 1, No. 4, 2003.

R. Vilanova, V. M. Alvaro, and O. Arrieta, “Analitycal Robust Tuning Approach for two degree of freedom”, Engineering letter, 19:3, EL_19_3_08, 2011.

I. Kaya, “Two-degree-of-freedom IMC structure and controller design for integrating processes based on gain and phase-margin specifications”, IEE Proc.-Control Theory Appl., Vol. 151, No. 4, 2004.

T.E. Marlin, “Process Control:Designing Processes and Control Systems for Dynamic Performance”, Chemical Engineering Series. 2nd ed. Boston: McGrawHill, 2000.

H. Taguchi and M. Araki, “Two-Degree-of-Freedom PID controllers - Their functions and optimal tuning,” in IFAC Digital Control: Past, Present and Future of PID Control, April 2000, Terrassa, Spain.

D.H. Kim, “Tuning of 2-DOF PID controller by immune algorithm,” In Congress on Evolutionary Computation (CEC’02), May 12-17, Honolulu, HI-USA, 2002, pp. 675–680.

C. Brosilow and B. Joseph, “Techniques of model-based control”, Prentice Hall International Series in the Physical and Chemical Engineering Science. New Jersey: Prentice Hall PTR 2001.

K. Stryczek, M. Laiseca, C. Brosilow, and M.G. Leitman, “Tuning and Design of Single-Input, Single-Output Control Systems for Parametric Uncertainty”, AIChE Journal, Vol. 46, No.8, pp.1616-1631, 2000.

Juwari, A. A. Badhrulhisham, C. S.Yee, and M. Rosbi “A New Tuning Method for Two-Degree-of-Freedom Internal Model Control under Parametric Uncertainty”, Process Systems Engineering And Process Safety. Chinese Journal of Chemical Engineering, Vol 21, No. 9, 2013.

J. Zhang, J. Wang, and Z. Zhao, “A Novel Two Degree of Freedom PID Controller for Integrator and Dead Time Process”, Proceedings of the 6th World Congress on Intelligent Control and Automation, June 21 -23 2006, Dalian, China.

R.Vilanova, “IMC based Robust PID design: Tuning guidelines and automatic tuning”, J. of Proc. Cont. 18(1): 61-70 (2008).

D.M. Chang, C.C. Yu, and I.L. Chien, “Coordinate control of blending systems”, IEEE Trans. on Cont. Sys. Tech.. Vol. 6, No. 4, pp. 495-506, 1998.

J. Nancy and P.E. Sell, ”Process Control Fundamentals for the Pulp and Paper Industry”, TAPPI Process Control Textbook, Tappi Press, Atlanta, GA, 1995, pp. 428, 187.