UNIVERSITY QUESTION PAPER - April 2018
SERIES QUESTION PAPER - February 2018
SERIES QUESTION PAPER - March 2018
MODULE-1
Class 1 : Introduction to the course and course plan discussion
Class 2 : Process variable types and selection criteria, Degree of freedom (PPT)
Class 3 : Incentives for process control (PPT)
Class 4 : Characteristics of physical system (PPT)
Class 5 : Elements of process dynamics (PPT)
Class 6 : Types of processes-Dead time, Regulating/Non self-regulating (PPT)
Class 7 : Types of processes-Interacting/Non-interacting system (NOTE), Single/Multi capacity, Linear/Non-linear (PPT)
Class 8 : Study of processes (PPT)
Class 9 : Oscillation and damping, Selection of control action (PPT)
Complete ppt
Matlab programs
MODULE-2
Class 1 : Analysis of Control loop : Steady state gain, Process gain, Valve gain. Transmitter gain (PPT)
Class 2 : Process time constant, Process dead time (PPT)
Class 3 : Variable time constant, Examples (PPT)
Class 4 : Linearizing an equal percentage valve, Variable pressure drop (PPT)
Class 5 : Analysis of Flow Control, Pressure Control
Class 6 : Analysis of Liquid level Control, Temperature control
Class 7 : SLPC & MLPC-features, faceplate, functions, Comparison of SLPC and MLPC (PPT)
Class 8 : Scaling, types of scaling, examples of scaling (PPT)
Complete ppt
Matlab programs
MODULE-3
Class 1 : Feedback Control: Basic principles, Elements of the feedback Loop, Block Diagram
Class 2 : Control Performance Measures for Common Input Changes
Class 3 : Selection of Variables for Control Approach to Process Control
Class 4 : Factors in Controller Tuning
Class 5 : Determining Tuning Constants for Good Control Performance
Class 6 : Correlations for tuning Constants, Fine Tuning of the controller tuning Constants.
PPT (New)
Matlab programs
MODULE-4
Class 1 : Feed forward control, feedback-feed forward control
Class 2 : Cascade control, Ratio control, Selective Control , Split range control
Class 3 : Nonlinear Elements in Loop: Limiters, Dead Zones, Backlash, Dead Band Velocity Limiting, Negative Resistance.
PPT (Combined)
Matlab programs
MODULE-5
Class 1,2,3,4 : Multivariable Control: Concept of Multivariable Control: Interactions and its effects(PPT), Modelling and transfer functions, Influence of Interaction o the possibility of feedback control, important effects on Multivariable system behaviour, effect of Interaction on stability and tuning of Multi Loop Control system. (NOTE)
Class 5 : Relative Gain Array (Refer above note & text) (PPT)
Class 6 : Enhancement through Decoupling (Refer above note & text)(PPT)
Class 7 : Multi Loop control Performance through: Loop Paring, tuning. Single Loop Enhancements.(PPT)
Complete ppt
Module 5 Text (Page 617 onwards .Syllabus is exactly lifted from this text. Refer it)
Matlab programs
MODULE-6
Class 1 : Step analysis method for finding first, second and multiple time constants and dead time.(PPT)
Class 2 : Model Based controllers: Internal Model control, Smith predictor(PPT)
Class 3 : Optimal controller, Model Predictive controller, Dynamic matrix controller (DMC). Self Tuning Controller(PPT)
Class 4 : Fuzzy logic systems and Fuzzy controllers, Introduction(PPT)
Class 5 : Basic Concepts of Fuzzy Logic, Fuzzy Sets, Fuzzy Relation, Fuzzy Graphs, and Fuzzy Arithmetic, Fuzzy If-Then Rules, Fuzzy Logic Applications. (NOTE-1,2,3,4,5,6,7)
Class 6 : Neuro-Fuzzy Artificial Neural networks and ANN controller.(PPT)(NOTE)
Complete ppt
Matlab programs