CLL261: Difference between revisions
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| credits = 4 | | credits = 4 | ||
| credit_structure = 3-1-0 | | credit_structure = 3-1-0 | ||
| pre_requisites = MTL100, CLL111 | | pre_requisites = [[MTL100]], [[CLL111]] | ||
| overlaps = MCL212, ELL225, ELL205 | | overlaps = [[MCL212]], [[ELL225]], [[ELL205]] | ||
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== CLL261 : process Dynamics and Control == | == CLL261 : process Dynamics and Control == | ||
Introduction to automation, block diagrams; revision of Laplace transform. Modeling based on transfer function approach, open-loop systems: dynamic response of first order systems, first order systems in series, second order systems, and transportation lag. Feedback control: P, PI, PID controllers. Dynamic response of closed loop systems Linear stability analysis: Routh stability criterion, root locus diagrams. Frequency response: Bode diagrams, Nyquist diagrams, Bode and Nyquist stability criterion. Controller tuning: Zeigler-Nichols and Cohen-Coon methods. Introduction to advanced control: feedforward control, cascade control, dead time compensation, ratio control, internal model control. | Introduction to automation, block diagrams; revision of Laplace transform. Modeling based on transfer function approach, open-loop systems: dynamic response of first order systems, first order systems in series, second order systems, and transportation lag. Feedback control: P, PI, PID controllers. Dynamic response of closed loop systems Linear stability analysis: Routh stability criterion, root locus diagrams. Frequency response: Bode diagrams, Nyquist diagrams, Bode and Nyquist stability criterion. Controller tuning: Zeigler-Nichols and Cohen-Coon methods. Introduction to advanced control: feedforward control, cascade control, dead time compensation, ratio control, internal model control. | ||
Latest revision as of 16:24, 14 April 2026
| CLL261 | |
|---|---|
| process Dynamics and Control | |
| Credits | 4 |
| Structure | 3-1-0 |
| Pre-requisites | MTL100, CLL111 |
| Overlaps | MCL212, ELL225, ELL205 |
CLL261 : process Dynamics and Control
Introduction to automation, block diagrams; revision of Laplace transform. Modeling based on transfer function approach, open-loop systems: dynamic response of first order systems, first order systems in series, second order systems, and transportation lag. Feedback control: P, PI, PID controllers. Dynamic response of closed loop systems Linear stability analysis: Routh stability criterion, root locus diagrams. Frequency response: Bode diagrams, Nyquist diagrams, Bode and Nyquist stability criterion. Controller tuning: Zeigler-Nichols and Cohen-Coon methods. Introduction to advanced control: feedforward control, cascade control, dead time compensation, ratio control, internal model control.