course syllabus controlsystems
DESCRIPTION
control systemsTRANSCRIPT
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 1 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
1.0 Course Description This course covers the study of transfer functions, block diagrams, signal flow graphs, root locus, Bode, Nyquist and Polar plots, sensitivity and stability criteria, linear feedback systems and compensation techniques circuits.
2.0 Intended Learning Outcomes of the Course
At the end of the course, the students will be able to:1. Define Control Systems.2. Discuss and evaluate the Different types of Control System.3. Know the History of Control System4. Discuss the Modern Applications of Control System5. Perform Laplace transform and Inverse Laplace Transform6. Use Laplace transform to solve Intergo-differential equations7. Know the Laplace transform of Electrical Networks8. Solve the Voltage, Current and Impedance of Electrical Networks using Laplace Transforms9. Define Transfer Function10. Use Electrical Circuit Principles to solve the Transfer Functions of a System11. Use Electronics Principles to solve the Transfer Functions of an OPAMP
ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 2 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
12. Understand the different System Response13. Assess the different system variables.14. Understand the principle of System Stability15. Reduce Block Diagram using Block Reduction Theorems16. Understand Signal Flow Graphs
3.0 Grading System
Lecture/Laboratory: Prelims Midterm Finals Quizzes 40% 40% 40% Class Standing 10% 10% 10% Major Exam 50% 50% 50% TOTAL 100% 100% 100%
FINAL GRADE = 30% Prelim + 30% Midterm + 40% Final
4.0 Course Program
ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 3 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
Time Frame(No. of Hours) Topics Intended Learning Outcomes Teaching and Learning Activities Assessment Tools
3 hoursPRELIM PERIOD
1. INTRODUCTION TO CONTROL SYSTEMS1.1 Define Control Systems1.2 Importance of Control system1.3 Kinds of Controls System1.4 Modern Application of Control System
1. Define Control Systems.2. Discuss and evaluate the Different
types of Control System.3. Know the History of Control
System4. Discuss the Modern Applications of
Control System
Laboratory Experiments
Film Viewing
Discussions
Research
Quizzes and Seatworks
6 hours 2. LAPLACE TRANSFORMS2.1 Laplace Transform General Equation2.2 Laplace Transform Functions2.3 LaplaceTransform Theorems2.4 Inverse Laplace Transforms2.5 Partial Fractions2.6 Heaviside Expansion2.7 Solution to Integro Differential
1. Perform Laplace transform and Inverse Laplace Transform
2. Use Laplace transform to solve Intergo-differential equations
Laboratory Experiments using SCILAB
Discussions
Research
Quizzes and Seatworks
ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 4 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
Equations
6 hours MIDTERM PERIOD
3. ELECTRICAL NETWORKS3.1 Laplace Impedances3.2 Current and Voltage of Electrical Devices and its Laplace Transforms3.3 Laplace Solutions to Electrical Networks
1. Know the Laplace transform of Electrical Networks
2. Solve the Voltage, Current and Impedance of Electrical Networks using Laplace Transforms
Laboratory Experiments using SCILAB
Discussions
Research
Quizzes and Recitation
Time Frame(No. of Hours) Topics Intended Learning Outcomes Teaching and Learning Activities Assessment Tools
6 hours 4. TRANSFER FUNCTIONS 1. Define Transfer Function Laboratory Experiments using SCILAB Quizzes and Recitation
ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 5 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
4.1 Define Transfer Function4.2 Uses of Transfer Function4.3 Deriving Transfer Functions
2. Use Electrical Circuit Principles to solve the Transfer Functions of a System
3. Use Electronics Principles to solve the Transfer Functions of an OPAMP
Discussions
Research
3 hours
5. SYSTEM RESPONSE5.1 Impulse Response5.2 Step Response5.3 First order Systems5.4 Second Order Systems
1. Understand the different System Response
2. Assess the different system variables.
Laboratory Experiments using SCILAB
Discussions
Research
Quizzes and Recitation
ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 6 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
3 hours
FINAL PERIOD6. SYSTEM STABILITY
6.1 Concept of Stability6.2 Routh – Hurwitz stability criterion6.3 Relative Stability
1. Understand the principle of System Stability
Laboratory Experiments using SCILAB
Discussions
Research
Quizzes and Recitation
Time Frame(No. of Hours) Topics Intended Learning Outcomes Teaching and Learning Activities Assessment Tools
3 hours 7. BLOCK DIAGRAM REDUCTION7.1 Block Diagram Reduction Theorems
1. Reduce Block Diagram using Block Reduction Theorems
Laboratory Experiments using SCILAB
Discussions
Research
Quizzes and Recitation
3 hours 8. SIGNAL FLOW GRAPH7.1 Basic Signal Flow Graph7.2 Signal Flow Graph vs Block Diagram
1. Understand Signal Flow Graphs Laboratory Experiments using SCILAB
DiscussionsQuizzes and Recitation
ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 7 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
Reduction7.3 Signal Flow Graph Equivalent Research
5. Text book (If necessary)
Nise, Norman S. Control Systems Engineering, 3rd Edition. John Wiley & Sons, 2000.
7. References ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 8 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
Nise, Norman S. Control Systems Engineering, Just Ask! Control Solutions Companion, 4th Edition. John Wiley & Sons 2003.Dorf, Richard C., Bishop ], Robert H. Modern Control System, 9th Edition. Prentce Hall, 2000Huntington, John. Control Systems for Live Entertainment, 2nd Edition. Focal Press, 2000
Kuo, Benjamin C., Golnaraghi, Farid. Automatic Control Systems, 8th Edition. John Wiley & Sons, 2002Ogata, Katsuhiko. Modern Control Engineering, 4th Edition. Prentice Hall, 2001Zilouchian, Ali, Jamshidi, Mohammad. Intelligent Control Systems Using Soft Computing Methodologies. CRC Press, 2001.Bateson, Robert N. Introduction to Control System Technology, 7th Edition. Prentice Hall, 2001.
Prepared by:
Tirso L. Llantada, ECE
Date
18 February 2015
Reviewed by:
Michelle Caringuian, MIT
Date
18 February 2015
Approved by:
Mary Jane Laranang, MCP, MIT
Date
18 February 2015
ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.
COURSE SYLLABUSCOLLEGE OF ENGINEERING
Issue No: 01 Revision No: 00
Effectivity Date: February 18, 2015
Course Code: EE301 Page 9 of
Course Title:
FEEDBACK AND CONTROL SYSTEMS
Prerequisite: EE202, ECE202, MATH311
Credit Unit: 4 units
Lecture Hour: 3 Laboratory Hour: 1
ISO 9001:2000 QMS Document
This is a controlled document and is subject to revision control requirements. Users should verify latest revision.