Tuning of IMC based PID controllers for integrating systems with time delay

Tuning of IMC based PID controllers for integrating systems with time delay

Design of Proportional Integral and Derivative (PID) controllers based on IMC principles for various types of integrating systems with time delay is proposed. PID parameters are given in terms of process model parameters and a tuning parameter. The tuning parameter is IMC filter time constant. In th...

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Bibliographic Details
Published in:ISA transactions Vol. 63; pp. 242 - 255
Main Authors: Kumar, D.B. Santosh, Padma Sree, R.
Format: Journal Article
Language:English
Published: United States Elsevier Ltd 01-07-2016
Subjects:
Controllers
Design engineering
IMC method
Integrating systems
Mathematical models
Ms value
Parameters
PID controller
Servomechanisms
Time constant
Time delay
Tuning
Unstable system
IMC method
PID controller
Ms value
Unstable system
Time delay
Integrating systems
M(s) value
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Summary:Design of Proportional Integral and Derivative (PID) controllers based on IMC principles for various types of integrating systems with time delay is proposed. PID parameters are given in terms of process model parameters and a tuning parameter. The tuning parameter is IMC filter time constant. In the present work, the IMC filter (Q) is chosen in such a manner that the order of the denominator of IMC controller is one less than the order of the numerator. The IMC filter time constant (λ) is tuned in such a way that a good compromise is made between performance and robustness for both servo and regulatory problems. To improve servo response of the controller a set point filter is designed such that the closed loop response is similar to that of first order plus time delay system. The proposed controller design method is applied to various transfer function models and to the non-linear model equations of jacketed CSTR to demonstrate its applicability and effectiveness. The performance of the proposed controller is compared with the recently reported methods in terms of IAE and ITAE. The smooth functioning of the controller is determined in terms of total variation and compared with recently reported methods. Simulation studies are carried out on various integrating systems with time delay to show the effectiveness and superiority of the proposed controllers. •PID controller with a filter is designed for various types of integrating systems with time delay.•Simple method based on Internal Model Control (IMC) principles.•Tuning rules are given for PIPTD system and DIPTD system with time delay for Ms=2.•Set point filter is selected such that closed loop response resembles the response of FOPTD system.•Good performance for both servo and regulatory problems.
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ISSN:0019-0578
1879-2022
DOI:10.1016/j.isatra.2016.03.020