### Electromechanical Energy Conversion

#### Course Description

The structure of the system and the basic laws of electromechanical energy conversion. The general theory of electrical machines. The principle of operation, main parts, types and external characteristics of DC machines. The basic theory of AC electrical machines. Rotating magnetic field, windings, induced voltage. The principle of operation, structure, equivalent circuit, no-load condition, locked rotor condition, torque characteristics of an induction machine.

#### Learning Outcomes

1. Describe the operating principle of rotating electrical machines
2. Derive basic mathematical equation according to general theory of electrical machines
3. Apply the general model of electrical machine for various types of machines
4. Analyze steady state operating conditions of various types of electrical machines
5. Relate classical theory of electromagnetic fields to operating principle of electrical machines

#### Forms of Teaching

Lectures

classical lectures using blackboard in combination with PowerPoint slides

Exercises

solving numerical examples related to the content of the lectures

Partial e-learning

posting study materials and communicating with students through the course website. Moodle quizzes.

Laboratory

laboratory exercises using electrical machines, and accompanying power supply and measuring equipment for the purpose of practical demonstration and confirmation of the acquired theoretical knowledge

Continuous Assessment Exam
Laboratory Exercises 50 % 15 % 50 % 15 %
Mid Term Exam: Written 40 % 30 % 0 %
Final Exam: Written 40 % 30 %
Final Exam: Oral 25 %
Exam: Written 50 % 50 %
Exam: Oral 35 %

#### Week by Week Schedule

1. Magnetic circuits and magnetic materials
2. Fundamentals of electromechanical energy conversion
3. Fundamentals of electrical machines
4. DC machine operating principle
5. Steady-state model od DC machine
6. DC machine speed control
7. DC machine in electric drive
8. Midterm exam
9. Operating principles of AC machines. Rotating magnetic field.
10. Induction motor construction and equivalent circuit.
11. Analysis of induction motor equivalent circuit.
12. No-load and short circuit test.
13. Induction motor starting and speed control.
14. Induction machine in a variable speed drive.
15. Final exam

#### Study Programmes

[FER3-EN] Electrical Engineering and Information Technology - study
(5. semester)

#### Literature

R.Wolf (1995.), Osnove električnih strojeva, Školska knjiga, Zagreb
Stephen Umans, A Fitzgerald, Charles Kingsley (2013.), Electric Machinery, McGraw-Hill Higher Education
Stephen J. Chapman (2012.), Electric Machinery Fundamentals, McGraw-Hill Medical Publishing

#### General

ID 209768
Winter semester
4 ECTS
L0 English Level
L2 e-Learning
45 Lectures
0 Seminar
15 Exercises
15 Laboratory exercises
0 Project laboratory