Course name: CENG 205 Electrical
Circuits and Electronic Devices
Department:
Computer Engineering
Semester
3
Credit
(ECTS)
Methods of Education
Lecture
Recitation/
(Etud)
Lab
Project/Field
Study
Home
work
Other
Total
7
36
Language
Compulsory/Elective
Prerequisites
Course Contents
Course Objectives
Learning Outcomes
and Competences
Textbook and /or
References
Assessment Criteria
20
50
60
20
210
English
Compulsory
None
Introduction and definitions: Current, voltage, power, energy. Circuit elements:
Voltage and current sources, resistance and Ohm’s law. Kirchoff’s laws. Simple
resistive circuits: series, parallel combinations. Delta-to Wye transformation
Techniques of Circuit Analysis: Node-voltage method, mesh-current method, source
transformations, Thevenin and Norton equivalents, maximum power transfer,
superposition. Operational Amplifier circuits. Inductance, capacitance, and mutual
inductance. Response of first-order RL and RC Circuits. Natural and step responses
of RLC Circuits
Aim of this course is to teach analysis methods for electrical circuits. Using these
methods, student will learn how to calculate current, voltage, and power of circuit
elements. This course prepares students for electronic courses
1. Identify the electrical elements used in electrical and electronics circuits
2. Analyze electrical circuits with dc excitation
3. Analyze electric circuits with alternating current excitation
4. Apply mathematical methods in engineering analysis.
1.Charles. K. Alexander and Matthew N.O. Sadiku, Fundamentals of Electric
Circuits, New York, McGraw Hill, 2005
2. Thomas L Floyd, Principles of Electric Circuits, Upper Saddle River, NJ, Prentice
Hall, 2002
If any, mark as (X) Percentage (%)
Midterm Exams
Quizzes
Homework
Projects
Term Paper
Laboratory work
Other
Final Exam
Instructors
24
X
20
X
X
10
15
X
X
X
10
5
40