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     Research Journal of Applied Sciences, Engineering and Technology

Research Article   |   OPEN ACCESS

PLC-based Smith Predictor for Control of the Temperature Process with Long Dead Time

1M. Balaji and 2K. Porkumaran
1Department of Electronics and Instrumentation Engineering, College of Engineering and Technology, Pollachi
2Institute of Technology, Coimbatore, Tamilnadu, India
Research Journal of Applied Sciences, Engineering and Technology  2016  2:143-152
http://dx.doi.org/10.19026/rjaset.13.2925  |  © The Author(s) 2016
Received: June ‎8, ‎2015  |  Accepted: September ‎3, ‎2015  |  Published: July 15, 2016
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Abstract

This study presents the development of dead-time compensator with Proportional Integral-Derivative (PID) controller and their implementation in real-time using the Programmable Logic Controller (PLC) on a heater-furnace system that constitute the temperature process. Though PID controller is effective to most of the processes, it has draw backs when used to control the processes with significant dead time. Therefore to eliminate the effects of long dead time, the dead-time compensator combined with PID is proposed. The control equation for the proposed dead time compensator is developed using the mathematical model of heater-furnace system and ladder logic program is created in GE Fanuc Versamax PLC. The PID controller is tuned using process reaction curve method and programmed in PLC. The proposed controller has an outer loop control mechanism with dead time compensator which feeds the inner loop PID controller. The effects of dead time on the performance of PID controller are eliminated through the outer loop control mechanism whose output does not contain modelling errors. The results of the proposed dead-time compensator with PID are compared with the results of the conventional PID controller without dead time compensation for both steady state response and servo-regulatory response. The results of the proposed controller show better improvement in the time domain specifications compared to conventional PID controller.

Keywords:

Dead-time compensator, GE Fanuc PLC , long dead time , PID controller, temperature process,

References

  1. Astrom, K. and T. Hägglund, 1995. PID Controllers: Theory, Design, and Tuning'. In: International Society for Measurement and Control. 2nd Edn., ISA Transaction, Research Triangle Park, NC.
  2. Astrom, K.J., C.C. Hang and B.C. Lim, 1994. A new Smith predictor for controlling a process with an integrator and long dead-time. IEEE T. Automat. Contr., 39(2): 343-345.
    CrossRef    
  3. Balaji, M. and K. Vijayakumar, 2009. Tuning and real-time implementation of VFPID controller with the ladder functions of PLC on a thermal process. Proceeding of Annual Research Symposium Conference. Indian Institute of Technology, Madras.
  4. Furukawa, F. and E. Shimemura, 1983. Predictive control for systems with time delay. Int. J. Control, 37(2): 399-412.
    CrossRef    
  5. García, P. and P. Albertos, 2013. Robust tuning of a generalized predictor-based controller for integrating and unstable systems with long time-delay. J. Process Contr., 23(8): 1205-1216.
    CrossRef    
  6. Gawthrop, P.J., 1977. Some interpretations of the self-tuning controller. P. I. Electr. Eng., 124(10): 889-894.
    CrossRef    
  7. Guzmán, J.L., P. García, T. Hägglund, S. Dormido, P. Albertos and M. Berenguel, 2008. Interactive tool for analysis of time-delay systems with dead-time compensators. Control Eng. Pract., 16(7): 824-835.
    CrossRef    
  8. Hagglund, T., 1992. A predictive PI controller for processes with long dead times. IEEE Control Syst., 12(1): 57-60.
    CrossRef    
  9. Hamamchi, S.E., I. Kaya and D.P. Atherton, 2001. Smith predictor design by CDM. Proceeding of European Control Conference (ECC, 2001), pp: 2364-2369.
  10. Ingimundarson, A. and T. Hägglund, 2001. Robust tuning procedures of dead-time compensating controllers. Control Eng. Pract., 9(11): 1195-1208.
    CrossRef    
  11. Ingimundarson, A. and T. Hägglund, 2002. Performance comparison between PID and dead-time compensating controllers. J. Process Contr., 12(8): 887-895.
    CrossRef    
  12. Kaya, I., 2003. Obtaining controller parameters for a new PI-PD smith predictor using autotuning. J. Process Contr., 13(5): 465-472.
    CrossRef    
  13. Kristiansson, B. and B. Lennartson, 2006. Robust tuning of PI and PID controllers: Using derivative action despite sensor noise. IEEE Control Syst., 26(1): 55-69.
    CrossRef    
  14. Liu, T., Y.Z. Cai, D.Y. Gu and W.D. Zhang, 2005. New modified Smith predictor scheme for integrating and unstable processes with time delay. IEE P-Contr. Theor. Ap., 152(2): 238-246.
  15. Matausek, M.R. and A.D. Micic, 1996. A modified Smith predictor for controlling a process with an integrator and long dead-time. IEEE T. Automat. Contr., 41(8): 1199-1203.
    CrossRef    
  16. Matausek, M.R. and A.D. Micic, 1999. On the modified Smith predictor for controlling a process with an integrator and long dead-time. IEEE T. Automat. Contr., 44(8): 1603-1606.
    CrossRef    
  17. Normey-Rico, J.E. and E.F. Camacho, 1999. Robust tuning of DTC's for processes with Integrator and longer dead-time. IEEE T. Automat. Contr., 44(8): 1597-1603.
    CrossRef    
  18. Normey-Rico, J.E. and E.F. Camacho, 2002. A unified approach to design Dead-time compensators for stable and integrative processes with dead-time. IEEE T. Automat. Contr., 47(2): 299-305.
    CrossRef    
  19. Normey-Rico, J.E. and E.F. Camacho, 2008. Dead-time compensators: A survey. Control Eng. Pract., 16(4): 407-428.
    CrossRef    
  20. Pagano, D., J.E. Normey-Rico and A.L.D. Franco, 2001. Stability analysis of a modified Smith predictor for integrative plants with dead-time uncertainties and saturations. Proceeding of the 40th IEEE Conference on Decision and Control. Orlando, FL, 2: 1855-1860.
    CrossRef    
  21. Palmor, Z.J. and M. Blau, 1994. An auto-tuner for Smith dead time compensator. Int. J. Control, 60(1): 117-135.
    CrossRef    
  22. Rao, A.S. and M.Chidambaram, 2005. Enhanced smith predictor for unstable processes with time delay. Ind. Eng. Chem. Res., 44(22): 8291-8299.
    CrossRef    
  23. Smith, O.J., 1959. A controller to overcome dead time. ISA J., 6(2): 28-33.
  24. VersaMax® PLC User's Manual, 2001. Programmable Control Products. BY GE Fanuc Automation.
  25. Vrecko, D., D. Vrancic, D. Juricic and S. Strmcnik, 2001. A new modified smith predictor: The concept, design and tuning. ISA T., 40(2): 111-121.
    CrossRef    
  26. Watanabe, K. and M. Ito, 1981. A process-Model control for linear systems with delay. IEEE T. Automat. Contr., 26(6): 1261-1269.
    CrossRef    

Competing interests

The authors have no competing interests.

Open Access Policy

This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

Copyright

The authors have no competing interests.
ISSN (Online):  2040-7467
ISSN (Print):   2040-7459
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