ELECTRICAL AND ELECTRONICS ENGINEERING (ENGLISH) PROGRAMME
COURSE DESCRIPTION
Name of the Course Unit Code Year Semester In-Class Hours (T+P) Credit ECTS Credit
ELECTRICAL MACHINES EEE317 3 5 3+0 3.0 5.0


General Information
Language of Instruction English
Level of the Course Unit Bachelor's Degree, TYYÇ: Level 6, EQF-LLL: Level 6, QF-EHEA: First Cycle
Type of the Course Compulsory
Mode of Delivery of the Course Unit Face-to-face
Work Placement(s) Requirement for the Course Unit Optional
Coordinator of the Course Unit
Instructor(s) of the Course Unit Dr. CHINEDU FRANK OKWOSE
Assistant(s) of the Course Unit

Prerequisites and/or co-requisities of the course unit
CATEGORY OF THE COURSE UNIT
Category of the Course Unit Degree of Contribution (%)
Fundamental Course in the field % 50
Course providing specialised skills to the main field % 20
Course providing supportive skills to the main field % 20
Course providing humanistic, communication and management skills % 5
Course providing transferable skills % 5

Objectives and Contents
Objectives of the Course Unit Besides learning the basic machine fundamentals students will be able to understand the working of the motors, generators and transformers in detail.
Contents of the Course Unit This course analyzes magnetic materials, magnetic parameters and magnetic properties of the materials. Application of soft magnetic materials and magnetic circuits are also involved in the course. Single phase transformers are analyzed in two categories such as ideal transformers and real transformers. Special purpose transformers such as auto-transformers and their power rating advantage are analyzed. This course also aims to examine three-phase transformers and their functions in power distribution systems. AC/DC machinery fundamentals, simple rotating loop, power flow and losses of real DC machines, analysis of shunt and series connected DC machines and DC generator fundamentals are also take significant part in the course.
Contribution of the Course Intending to Provide the Professional Education This course contributes for students who will be working in power sector of E&E engineering.

No
Key Learning Outcomes of the Course Unit
On successful completion of this course unit, students/learners will or will be able to:
1 Understanding the knowledge about fundamental physical laws governing working of electromagnetic circuits
2 Exploring the working of linear machine as generator, motor and transformer by applying basic electromagnetic laws on them
3 Converting linear electrical machine into practical machine. Detailed analysis, working, construction and variable loading characteristics of practical DC and AC electrical machines
4 Apply acquired knowledge to develop modern day applications out of these practical electrical machines exploiting their unique characteristics

Learning Activities & Teaching Methods of the Course Unit
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Weekly Course Contents and Study Materials for Preliminary & Further Study
Week Topics (Subjects) Preparatory & Further Activities
1 AC Machinary Fundamentals No file found
2 Mechanical and electromagnetic fundamentals: The magnetic field No file found
3 Faraday's law and magnetic circuits No file found
4 Calculation of inductance and mutual inductance No file found
5 Electromagnetic Energy Conversion: Energy balance and force evaluation No file found
6 Synchronous Generators No file found
7 Midterm Exam No file found
8 Synchronous Motors No file found
9 Induction Motors No file found
10 Transformers: Ideal Transformers No file found
11 Real transformers , OC & SC tests, voltage regulation and efficiency, 3 phase transformers No file found
12 DC machinery fundamentals: Simple rotating four-loop machine No file found
13 Introduction to DC motors: The equivalent circuit of a DC motor No file found
14 Separately excited shunt, series and compounded DC motors No file found

SOURCE MATERIALS & RECOMMENDED READING
1-Stephen J Chapman, Electric Machinery Fundamentals 5th Edition, McGraw-Hill, 2012
2-Electrical Engineering Principles and Applications, 4rd Edition, by Allan R. Hambley, Pearson Education 2008
3- A. E. Fitzgerald, C. Kingsley, S. D. Umans, Electric Machinery 6. Ed, McGraw-Hill, 2003

MATERIAL SHARING
Course Notes No file found
Presentations No file found
Homework No file found
Exam Questions & Solutions No file found
Useful Links No file found
Video and Visual Materials No file found
Other No file found
Announcements No file found

CONTRIBUTION OF THE COURSE UNIT TO THE PROGRAMME LEARNING OUTCOMES
KNOWLEDGE
Theoretical
No PROGRAMME LEARNING OUTCOMES LEVEL OF CONTRIBUTION*
0 1 2 3 4 5
1 Basic principles of multivariable calculus, including differentiation, integration and differential equations. X
2 Basics of electric and electronic circuits theory. X
3 Sustainability, environmental impact and life cycle assessment of electrical & electronics engineering works. Renewable energy systems. X
4 Management principles and ethical issues for electrical engineers. X
SKILLS
Cognitive
No PROGRAMME LEARNING OUTCOMES LEVEL OF CONTRIBUTION*
0 1 2 3 4 5
1 Apply methods from electromagnetic theory and basic physics to the analysis of electrical and electronic systems including electrical power systems X
2 Extract relevant physical properties from the Laplace, Fourier and z transforms of differential equations X
3 Devise lab experiments, collect and analyse data from physical and simulated test systems and use the results to solve technical problems. X
4 Use lab equipment effectively and safely to measure and analyse electronic and electrical systems, both digital and analog. X
*Level of Contribution (0-5): Empty-Null (0), 1- Very Low, 2- Low, 3- Medium, 4- High, 5- Very High

No
Key Learning Outcomes of the Course Unit
On successful completion of this course unit, students/learners will or will be able to:
PROGRAMME LEARNING OUTCOMES
1 Understanding the knowledge about fundamental physical laws governing working of electromagnetic circuits1 (4), 2 (3), 3 (4), 4 (3), 5 (3), 6 (3), 7 (3), 8 (2)
2 Exploring the working of linear machine as generator, motor and transformer by applying basic electromagnetic laws on them1 (4), 2 (4), 3 (3), 4 (4), 5 (4), 6 (2), 7 (2), 8 (4)
3 Converting linear electrical machine into practical machine. Detailed analysis, working, construction and variable loading characteristics of practical DC and AC electrical machines1 (2), 2 (3), 3 (1), 4 (5), 5 (4), 6 (1), 7 (2), 8 (5)
4 Apply acquired knowledge to develop modern day applications out of these practical electrical machines exploiting their unique characteristics1 (4), 2 (2), 3 (3), 4 (3), 5 (3), 6 (5), 7 (5), 8 (2)

Assessment
Assessment & Grading of In-Term Activities Number of
Activities
Degree of Contribution (%)
Mid-Term Exam 0 -
Computer Based Presentation 0 -
Short Exam 0 -
Presentation of Report 0 -
Homework Assessment 0 -
Oral Exam 0 -
Presentation of Thesis 0 -
Presentation of Document 0 -
Expert Assessment 0 -
Board Exam 0 -
Practice Exam 0 -
Year-End Final Exam 0 -
Internship Exam 0 -
TOTAL 0 %100
Contribution of In-Term Assessments to Overall Grade 0 %50
Contribution of Final Exam to Overall Grade 1 %50
TOTAL 1 %100


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 0 0
Preliminary & Further Study 14 0 0
Land Surveying 0 0 0
Group Work 0 0 0
Laboratory 0 0 0
Reading 0 0 0
Assignment (Homework) 0 0 0
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 0 0 0
Total Workload for Learning & Teaching Activities - - 0
Workload for Assessment Activities
Type of the Assessment Activites # of Assessment Activities
Duration
(hours, h)
Workload (h)
Final Exam 1 0 0
Preparation for the Final Exam 0 0 0
Mid-Term Exam 0 0 0
Preparation for the Mid-Term Exam 0 0 0
Short Exam 0 0 0
Preparation for the Short Exam 0 0 0
Total Workload for Assessment Activities - - 0
Total Workload of the Course Unit - - 0
Workload (h) / 25.5 0.0
ECTS Credits allocated for the Course Unit 5.0