MCE 207 Principles of Electrical and Electronic Engineering

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Course name: MCE 207 Principles of
Electrical and Electronic Engineering
Department: Mechanical
Engineering
Language
Compulsory/Elective
Prerequisites
Course Contents
Course Objectives
Learning Outcomes and
Competences
Recitation/
(Etud)
Lab
Project/Field
Study
3
Credit
(ECTS)
Methods of Education
Lecture
Semester
Homework
Other
Total
4
28
28
20
44
120
English
Compulsory
None
Fundamentals of electrical engineering: electric circuits, circuit components and laws,
analytic solution techniques, alternative current circuits, multi-phase systems, transient
phenomena. Electronic circuits: diodes, transistors, operational amplifiers, digital
electronics. Electrical machines: transformers, induction machines, synchronous
machines, direct current machines.
This course aims to provide the non-electrical engineering student with a foundation
for understanding the basic principles of electrical and electronic systems, to underline
mutual concepts of electrical engineering and non-electrical engineering disciplines, to
give the theoretical and practical electric knowledge.
Successfully completing this course, students will be able to:
1. Have electric knowledge, which is necessary for an engineer,
2. Undestand working principles of electric system,
3. Comprehend fundamentals of electric machinery,
4. Understand basic electronic knowledge,
5. Have capability and to solve the problems about electric in non-electrical
engineering disciplines.
Textbook and /or
References
Rizzoni G, Fundamentals of Electrical Engineering, 4th ed., McGraw-Hill
Assessment Criteria
Midterm Exams
Quizzes
Homeworks
Projects
Term Paper
Laboratory work
Other
Final Exam
If any, mark as (X)
X
Percentage (%)
40
X
60
Course Plan
Week
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Instructors
Topic
Fundamentals of Electric Circuits.
Resistive Network Analysis
AC Network Analysis
Transient Analysis
Frequency Response and System Concepts
AC Power
Midterm exam
Operational Amplifiers
Semiconductors and Diodes
Bipolar Junction Transistors: Operation, Circuit Models, and
Applications
Field-Effect Transistors: Operation, Circuit Models, and Applications
Digital Logic Circuits
Principles of Electromechanics
Introduction to Electric Machines
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