ELECTRIC MACHINERY PROGRAMME COURSE DESCRIPTION

Code	Name of the Course Unit	Semester	In-Class Hours (T+P)	Credit	ECTS Credit
EEM301	ELECTRIC MACHINERY	8	5	4	5

GENERAL INFORMATION
Language of Instruction :	Turkish
Level of the Course Unit :	BACHELOR'S DEGREE, TYY: + 6.Level, EQF-LLL: 6.Level, QF-EHEA: First Cycle
Type of the Course :	Elective
Mode of Delivery of the Course Unit	-
Coordinator of the Course Unit	Assist.Prof. DİDEM YILMAZ ÇAPKUR
Instructor(s) of the Course Unit
Course Prerequisite	No

OBJECTIVES AND CONTENTS
Objectives of the Course Unit:	To learn the structures and working principles of Direct Current Machines and Transformers
Contents of the Course Unit:	General Principles and Definitions Related to Energy Conversion / Energy Conversion in One and Two Excitation Systems / Energy Conversion in One and Two Excitation Systems / Structure of Direct Current Machines and Types of Excitation / Electrical Equivalent Circuits and Inductive Reaction of Direct Current Machines / Temporary and Continuous Operation of Direct Current Machines Voltage Equations / Extraction of Sudden Moment Expressions in Direct Current Machines / Losses in Direct Current Machines and Efficiency / Overview of Speed Control Methods in Direct Current Machines / General Structures, Types and Operating Principles of Transformers / Explanation of the Idle Operation of a Phase Transformer and Secondary Magnitudes in a Loaded Transformer Reduction to Primary Quantities / Equivalent Circuits of One-Phase Transformers and Drawing of Phasor Diagrams / Investigation of Short-Circuit Work in One-Phase Transformers and Removal of Loss and Efficiency Statements / One-Phase Transformers Explanation of Different Operating Conditions by Drawing the Kapp Diagram of a / Parallel Operation of Two-Phase Transformers and Autotransformers

KEY LEARNING OUTCOMES OF THE COURSE UNIT (On successful completion of this course unit, students/learners will or will be able to)

1. Transferring Knowledge and Practice about Basic Mathematics, Science and Electrical Engineering 2. To be able to design, conduct, analyze and interpret the results of a desired electrical engineering experiment. 3. To Identify, Identify and Solve an Electrical Engineering Problem Encountered 4. To have general information about the equivalent circuit and phasor diagrams of Direct Current Machines 5. To have general information about the equivalent circuit of transformers and drawing of phasor diagrams

WEEKLY COURSE CONTENTS AND STUDY MATERIALS FOR PRELIMINARY & FURTHER STUDY
Week	Preparatory	Topics(Subjects)	Method
1	-	General Principles and Definitions Related to Energy Conversion	-
2	-	Energy Conversion in One and Two Excitation Systems	-
3	-	Electromechanical Energy Conversion and Investigation of Self-Inductance According to Machine Models	-
4	-	Structure and Stimulation Methods of Direct Current Machines	-
5	-	Electrical Equivalent Circuits and Armature Reaction of Direct Current Machines	-
6	-	Temporary and Continuous Working Voltage Equations of Direct Current Machines	-
7	-	Extraction of Sudden Moment Expressions in Direct Current Machines, Solution of Problems Related to the Subject	-
8	-	Overview of Speed Control Methods in Direct Current Machines	-
9	-	General Examination of Transformers, Explanation of One-Phase Transformer Idle Operation	-
10	-	MID-TERM EXAM	-
11	-	Reduction of Secondary Quantities to Primary Quantities in a Loaded Transformer	-
12	-	Removing Equivalent Circuits of One-Phase Transformers and Drawing Phasor Diagrams	-
13	-	Investigation of Short Circuit Operation in One Phase Transformers and Removal of Loss and Efficiency Statements	-
14	-	Explanation of Different Working Conditions by Drawing Kapp Diagram of One-Phase Transformers, Solution of Problems Related to the Subject.	-
15	-	Preparation for Final exam	-
16	-	FINAL EXAM	-
17	-	FINAL EXAM	-

SOURCE MATERIALS & RECOMMENDED READING
1) Elektrik Makinaları-1, Güngör Bal, Seçkin Yayıncılık, 2017. 2) Elektrik Makinaları-2, Güngör Bal, Seçkin Yayıncılık, 2017.

ASSESSMENT
Assessment & Grading of In-Term Activities	Number of Activities	Degree of Contribution (%)	Description	Examination Method

Level of Contribution
0	1	2	3	4	5

KNOWLEDGE
Theoretical
	Programme Learning Outcomes	Level of Contribution
		0	1	2	3	4	5
1	Gain sufficient knowledge in Mathematics, Science and Industrial Engineering.

KNOWLEDGE
Factual
	Programme Learning Outcomes	Level of Contribution
		0	1	2	3	4	5
1	Analyzes and evaluates existing application areas in the field of Industrial Engineering and develops applications for their solutions.

SKILLS
Cognitive
	Programme Learning Outcomes	Level of Contribution
		0	1	2	3	4	5
1	Analyzes a system, the components of that system, the process of that system, and designs the system by examining it in line with realistic constraints and goals.
2	Gains the ability to model and solve engineering problems.

SKILLS
Practical
	Programme Learning Outcomes	Level of Contribution
		0	1	2	3	4	5
1	Identifies the problems that may be encountered in the field of industrial engineering and acquires the ability to choose and apply the appropriate method to be used in problem solving.
2	Selects and uses technical tools necessary for industrial engineering applications; uses information technologies effectively.
3	Designs experiments, conducts experiments, collects data, analyzes and interprets the results to examine problems in the field of industrial engineering.

OCCUPATIONAL
Autonomy & Responsibility
	Programme Learning Outcomes	Level of Contribution
		0	1	2	3	4	5
1	Gains the ability to work effectively within a team.
2	Works effectively individually and takes responsibility.

OCCUPATIONAL
Learning to Learn
	Programme Learning Outcomes	Level of Contribution
		0	1	2	3	4	5
1	Accesses the necessary information for a determined problem and searches for resources for this purpose.
2	Has the ability to follow all developments in the field of industrial engineering and constantly renew itself.

OCCUPATIONAL
Communication & Social
	Programme Learning Outcomes	Level of Contribution
		0	1	2	3	4	5
1	Gains oral and written communication skills and speaks at least one foreign language.

OCCUPATIONAL
Occupational and/or Vocational
	Programme Learning Outcomes	Level of Contribution
		0	1	2	3	4	5
1	Has awareness of professional and ethical responsibility.
2	Has knowledge about the universal and social effects of industrial engineering applications and reaches solutions by being aware of the importance of an innovative approach in solving engineering problems.

WORKLOAD & ECTS CREDITS OF THE COURSE UNIT
Workload for Learning & Teaching Activities
Type of the Learning Activites	Learning Activities (# of week)	Duration (hours, h)	Workload (h)
Lecture & In-Class Activities	14	5	70
Preliminary & Further Study	0	0	0
Land Surveying	0	0	0
Group Work	6	2	12
Laboratory	7	2	14
Reading	0	0	0
Assignment (Homework)	2	2	4
Project Work	0	0	0
Seminar	0	0	0
Internship	0	0	0
Technical Visit	0	0	0
Web Based Learning	0	0	0
Implementation/Application/Practice	0	0	0
Practice at a workplace	0	0	0
Occupational Activity	0	0	0
Social Activity	0	0	0
Thesis Work	0	0	0
Field Study	0	0	0
Report Writing	7	2	14
Final Exam	1	1	1
Preparation for the Final Exam	1	4	4
Mid-Term Exam	1	1	1
Preparation for the Mid-Term Exam	1	2	2
Short Exam	2	2	4
Preparation for the Short Exam	0	0	0
TOTAL	42	0	126