Automation 1

General Data
Academic program	General Engineering Program			Module Manager(s) : BENALLOUCH Mohamed
EC Type : Lectures	Automation 1 (LIIAem05EAssAna)
Tutorials : 6h00 Lab Work : 8h00 Lectures : 28h00 Individual work : 14h00 Total duration: 42	Status	Period Semester 5	Teaching language : French/English

General objectives
Introduction to different notions and basic concepts of linear automation - Ability to set up and find the resolution of a regulatory problem by defining the inputs/outputs of the process concerned and following a rigorous approach. - Tools and concepts to identify the dynamic behavior of industrial processes. - Continuous time system control techniques and their applications. - Regulator main methods, limits, and usual applications. - Method technical vocabulary. - Ability to choose a solution adapted to the processes to be controlled according to the industry imposed specifications.

General objectives

Introduction to different notions and basic concepts of linear automation
- Ability to set up and find the resolution of a regulatory problem by defining the inputs/outputs of the process concerned and following a rigorous approach.
- Tools and concepts to identify the dynamic behavior of industrial processes.
- Continuous time system control techniques and their applications.
- Regulator main methods, limits, and usual applications.
- Method technical vocabulary.
- Ability to choose a solution adapted to the processes to be controlled according to the industry imposed specifications.

Content
Chapter 1: Generalities and examples, the notion of regulation, the notion of the closed loop, the specifications loads, pose a regulation problem through an example. - Chapter 2: Study of signals, modeling (knowledge model and a behavior model), place transform, transfer function, block diagram. - Chapter 3: Temporal analysis (Fdt of order 1, Fdt of order 2 ...), map of poles and zeros, graphic modeling. - Chapter 4: The classical control laws (PI, PD, PID, AvancePH, RetardPH ...), empirical methods of synthesis of correctors, methods of synthesis not compensation of the poles. - Chapter 5: Summary of correctors by pole placement, reference system, Evans location. - Chapter 6: Synthesis of correctors by frequency approach, frequency analysis of the behavior of a process (Places of Bode, Black, Nichols, Nyquist….) Practical work : Lab Work1: Direct current machine speed regulation. Lab Work2: Single column level control

Content

Chapter 1: Generalities and examples, the notion of regulation, the notion of the closed loop, the specifications loads, pose a regulation problem through an example.
- Chapter 2: Study of signals, modeling (knowledge model and a behavior model), place transform, transfer function, block diagram.
- Chapter 3: Temporal analysis (Fdt of order 1, Fdt of order 2 ...), map of poles and zeros, graphic modeling.
- Chapter 4: The classical control laws (PI, PD, PID, AvancePH, RetardPH ...), empirical methods of synthesis of correctors, methods of synthesis not compensation of the poles.
- Chapter 5: Summary of correctors by pole placement, reference system, Evans location.
- Chapter 6: Synthesis of correctors by frequency approach, frequency analysis of the behavior of a
process (Places of Bode, Black, Nichols, Nyquist….)
Practical work :
Lab Work1: Direct current machine speed regulation.
Lab Work2: Single column level control

Corequis
Introduction to Automation

Bibliographie
1-.F. Franklin, J.D. Powell, and A. Emami-Naeini, "Feedback Control of Dynamic Systems," Prentice Hall, 4th edition (2002) 2-K. Ogata. Discrete-time control systems. Prentice Hall, Upper Saddle River, New Jersey, 1995. 3-K. Ogata. Modern Control Engineering. Prentice Hall, Upper Saddle River, New Jersey, 1997. 4-R. C. Dorf and R. H. Bishop. Modern control systems. Prentice Hall, Upper Saddle River, New Jersey.

Bibliographie

1-.F. Franklin, J.D. Powell, and A. Emami-Naeini, "Feedback Control of Dynamic Systems," Prentice Hall, 4th edition (2002)
2-K. Ogata. Discrete-time control systems. Prentice Hall, Upper Saddle River, New Jersey, 1995.
3-K. Ogata. Modern Control Engineering. Prentice Hall, Upper Saddle River, New Jersey, 1997.
4-R. C. Dorf and R. H. Bishop. Modern control systems. Prentice Hall, Upper Saddle River, New Jersey.

Assessment(s)
N°	Nature	Coefficient	Observable objectives
1		2	Written exam
2		1	Practical work