Ders Planı

Lesson Information

Course Credit	3.0
Course ECTS Credit	4.0
Teaching Language of Instruction	İngilizce
Level of Course	Bachelor's Degree, TYYÇ: Level 6, EQF-LLL: Level 6, QF-EHEA: First Cycle
Type of Course	Compulsory
Mode of Delivery	Face-to-face
Does the course require compulsory or optional work experience?	Z
Course Coordinator	Prof. Dr. MEHMET EMİN TACER
Instructor (s)	Prof. Dr. MEHMET EMİN TACER
Course Assistant

Purpose and Content

The aim of the course	Learning the basic structure, operating principles and steady-stae operaing characteristics of the electromechanical and electromagnetic systems.
Course Content	Electromechanical-Energy-Conversion ; The magnetic, electric, mechanic and electromemagnetics relationships; definations and references signs of the generator, motor and transformer; Elementary motor and generator. DC Machines; Basic structure and operating principles ; electrical and mathematical models; steady-State Operating Characteristics. Synchronous Machines; Basic structure and operating principles; Rotating field, types according to rotor structures and phase numbers, Equivalent circuits, Electrical and mathematical models, Steady-State Operating Characteristics Transformers; Basic structure and operating principles; Ideal and real transformer models, No load and load test for equivalent circuit parameters, Electrical and mathematical models of three-phase transformers, Auto transformers; Voltage and current transformers. Induction Machines; Basic structure and principles; Single-phase and three-phase inducting machines, Equivalent circuits, Steady-State Operating Characteristics, Starting methods, Parameter Determination from No-Load and Blocked-Rotor Tests,

The aim of the course

Learning the basic structure, operating principles and steady-stae operaing characteristics of the electromechanical and electromagnetic systems.

Course Content

Electromechanical-Energy-Conversion ; The magnetic, electric, mechanic and electromemagnetics relationships; definations and references signs of the generator, motor and transformer; Elementary motor and generator. DC Machines; Basic structure and operating principles ; electrical and mathematical models; steady-State Operating Characteristics. Synchronous Machines; Basic structure and operating principles; Rotating field, types according to rotor structures and phase numbers, Equivalent circuits, Electrical and mathematical models, Steady-State Operating Characteristics Transformers; Basic structure and operating principles; Ideal and real transformer models, No load and load test for equivalent circuit parameters, Electrical and mathematical models of three-phase transformers, Auto transformers; Voltage and current transformers. Induction Machines; Basic structure and principles; Single-phase and three-phase inducting machines, Equivalent circuits, Steady-State Operating Characteristics, Starting methods, Parameter Determination from No-Load and Blocked-Rotor Tests,

Learning Outcomes

Mathematics , Science and sufficient knowledge in electrical engineering issues; theoretical and practical knowledge in the field of Electrical and Electronics Engineering the ability to apply for modeling and problem solving.
Ability to identify, define, formulate and solve complex engineering problems; ability to select and implement the appropriate analysis and modeling methods in this respect.
Ability to work effectively in interdisciplinary and multidisciplinary teams; ability to work individually .
Act according to ethical , professional and ethical responsibility about the standards used in electrical and electronic engineering applications
The ability to design to meet specific needs;complex system , process, device or product under realistic constraints and conditions , the ability to apply modern design methods for this purpose .
Awareness of the necessity of lifelong learning ; Access to knowledge, science and developments in technology and continuous self -improvement.
Awareness of universal and social dimensions of health electrical engineering applications , contemporary issues and their impact on the environment and safety ; awareness of the legal consequences of engineering solutions .
Ability to communicate effectively in Turkish, both oral and written, with at least one foreign language knowledge, ability to write effective reports and understand written reports, prepare design and production reports, make effective presentations, giving clear and concise instructions and receiving skills.
Information on project management and practices in business life such as risk management and change management; awareness about entrepreneurship, innovation and sustainable development.
Analyzing and solving using modern techniques and tools for complex problems encountered in the electrical and electronics application development , selection and use of skills , skills to use ICT effectively
Designing experiments for the study of electrical engineering problems , conduct experiments, collect data , analyze and interpret the results .
Awareness about occupational health and safety
Development and scientific publications of conciousness can be followed in the electrical and electronics engineering. Developed will be able to access the resources that it can meet the education requirements for the new system awareness.

Weekly Course Subjects

1	Introduction; Electromechanical and electromagnetic systems and applications,
2	The magnetic, electric, mechanic and electromemagnetics relationships;
3	Definations and references signs of the generator, motor and transformer; Elementary motor and generator.
4	DC Machines; Basic structure, Types of the machines, electrical and mathematical models,
5	DC Machines; The action of the commutator, Induced voltage and torque; Generator and motor characteristics, Steady-State Operating Characteristics,
6	Synchronous Machines; Basic structure and types; Rotating magnetic field,
7	Synchronous Machines; Equivalent circuits, Electrical and mathematical models; Induced voltage and torque, Phasor diagrams, Steady-State operating Characteristics of Generator and motor,
8	Midterm exam
9	Induction Machines; Basic structure and types,
10	Induction Machines;Single-phase machines, inductive and capacitive starting and torque characteristics,
11	Induction Machines; Poly-phase machines, Equivalent circuits, Steady-State Operating Characteristics,
12	Induction Machines; Starting methods, Parameter Determination from No-Load and Blocked-Rotor Tests,
13	Transformers; Basic structure and types; Single-phase transformers, Ideal transformers, (Equivalent circuits), Three-phase transformers,Electrical and mathematical models of three-phase transformers,
14	Transformers; Parameter Determination from No-Load and short-circuit Tests; Auto transformers; Voltage and current transformers.

Resources

Tacer M.E., ‘’Course Notes’’

Chapman S. J., “Electric Machinery Fundamentals”, McGraw-Hill Inc., New York, Toronto, 1996,

Thaler G. B., “Electrical Machines: Dynamics and Steady State”, John Wiley & Sons Inc., NewYork, London, Sydney, 1966,

Slemon G.R. and Straugen A.,” Electromechanical Systems”, John Wiley & Sons Inc., NewYork, Toronto, London, Sydney, 1980,

Del Tora V., “Electromechanical Devices for Energy Conversion and Control Systems”, Prentice-Hall Inc. Englewood Cliffs, New Jersey.

Fitzgerald A.E, Kinglrey C., Umans S.D., “Electric Machinery”, Sith Edition, McGraw-Hill Inc., New York, Toronto. 2003.

Sarıoğlu M.K.,”Elektrik Makinalarının Temelleri, I (Enerji dönüşümü, Makina modelleri)”, İstanbul Teknik Üniversitesi, Matbaa Teknisyenleri Basımevi, İstanbul, 1975.

Yamayee Z. A., Balla, JR Juan.,”Electromechanical Energy Devices and Power Systems”, John Wiley & Sons Inc., NewYork, London, Singapore, Toronto 1994,

CLASS 1

CLASS 2

CLASS 3

CLASS 4

Lesson Information

Purpose and Content

Learning Outcomes

Weekly Course Subjects

Resources

ABOUT IAU

COMMITTEE

PUBLICATIONS

MEDIA CENTER