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Extraction of Mathematical Models of Electrical and Mechanical Systems And analysis In Computer Environment

Energy Systems Engineering

Institute of Natural and Applied Sciences
Second Cycle (Master's Degree)
Course Unit Title Course Unit Code Type of Course Unit Level of Course Unit Year of Study Semester ECTS Credits
Extraction of Mathematical Models of Electrical and Mechanical Systems And analysis In Computer Environment EJM542 Elective Master's degree 1 Spring 8

Name of Lecturer(s)

Associate Prof. Dr. Abdulhakim KARAKAYA

Learning Outcomes of the Course Unit

1) Makes Laplace and Inverse Laplace Transforms in computer environment.
2) Reduces the block diagram of a system. It applies in computer environment
3) Reduces the block diagram of systems with disruptive inputs. Makes advanced analysis in computer environment
4) Knows the basic properties of ideal system elements. It applies in computer environment
5) Makes mathematical models of electrical and mechanical systems
6) .
7) Simulates the control of linear systems in computer environment.

Program Competencies-Learning Outcomes Relation

  Program Competencies
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27
Learning Outcomes
1 High No relation Middle No relation No relation No relation No relation Middle Middle Middle No relation No relation No relation High High High High High No relation Low Low Middle No relation No relation Low Middle Low
2 High No relation Middle No relation No relation No relation No relation Middle Middle Middle No relation No relation No relation High High High High High No relation Low Low Middle No relation No relation Low Middle Low
3 High No relation Middle No relation No relation No relation No relation Middle Middle Middle No relation No relation No relation High High High High High No relation Low Low Middle No relation No relation Low Middle Low
4 High No relation Middle No relation No relation No relation No relation Middle Middle Middle No relation No relation No relation High High High High High No relation Low Low Middle No relation No relation Low Middle Low
5 High No relation No relation Low Low Low No relation Middle Middle Middle Low Low Low High High High High High Low Low Low Middle No relation Low Low Middle Low
6 High No relation Middle Low Low Low No relation Middle Middle Middle Low Low Low High High High High High Low Low Low Middle No relation Low Low Middle Low
7 High No relation Middle No relation No relation No relation No relation Middle Middle Middle No relation No relation No relation High High High High High No relation Low Low Middle No relation No relation Low Middle Low

Mode of Delivery

Face to Face

Prerequisites and Co-Requisites

None

Recommended Optional Programme Components

Control Systems

Course Contents

Basic concepts and definitions. Control systems theory and its application in computer environment. Realization of Laplace Transforms in computer environment. Inverse Laplace Transform, Simple Poles Method, Multiple Roots Method, Complex Conjugate Poles Method. Analysis of Transfer Functions in computer environment. Realization of control systems block diagrams in computer environment. Making mathematical models of electrical and mechanical systems and creating block diagrams. Advanced analysis of block diagrams in computer environment. Reduction of disruptive input systems and realization in computer environment. Transfer functions of electrical and mechanical systems. Application of electrical and mechanical circuits in computer environment. Realization of linear systems in computer environment using modern control methods.

Weekly Schedule

1) Basic concepts and definitions.
2) Laplace Transforms.
3) Making Laplace Transforms in computer environment.
4) Control systems theory and its application in computer environment.
5) Transfer Functions and their applications in computer environment.
6) Basic properties of ideal system elements and their application in computer environment.
7) Finding the transfer function in block diagrams.
8) Example applications in computer environment about block diagrams and transfer function.
9) Midterm
10) Reduction of disruptive input systems and analysis in computer environment.
11) Block diagram of electrical systems.
12) Analysis of electrical systems in computer environment.
13) Building the block diagram of mechanical systems.
14) Analysis of mechanical systems in computer environment.
15) Realization of linear systems in computer environment using modern control methods.
16) Final exam

Recommended or Required Reading

Planned Learning Activities and Teaching Methods

1) Lecture
2) Lecture
3) Lecture
4) Question-Answer
5) Question-Answer
6) Question-Answer
7) Discussion
8) Discussion
9) Discussion
10) Drill and Practice
11) Drill and Practice
12) Drill and Practice
13) Demonstration
14) Demonstration
15) Demonstration
16) Modelling
17) Modelling
18) Modelling
19) Role Playing
20) Role Playing
21) Role Playing
22) Group Study
23) Group Study
24) Group Study
25) Simulation
26) Simulation
27) Simulation
28) Brain Storming
29) Brain Storming
30) Brain Storming
31) Six Hat Methods
32) Six Hat Methods
33) Six Hat Methods
34) Case Study
35) Case Study
36) Case Study
37) Lab / Workshop
38) Lab / Workshop
39) Lab / Workshop
40) Self Study
41) Self Study
42) Self Study
43) Problem Solving
44) Problem Solving
45) Problem Solving
46) Project Based Learning
47) Project Based Learning
48) Project Based Learning


Assessment Methods and Criteria

Contribution of Midterm Examination to Course Grade

30%

Contribution of Final Examination to Course Grade

70%

Total

100%

Language of Instruction

Turkish

Work Placement(s)

Not Required