The Yildiz Technical University
Department of Computer Engineering
Course Syllabus
Course Title:
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Instructor:
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Course Web Page
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Circuit Theory (Sec1)
Computer Engineering
Course Number:
Designation:
BLM
Compulsory
Fethullah Karabiber
D215
Instructor's Office:
fkara@yildiz.edu.tr
https://www.ce.yildiz.edu.tr/personal/fkarabiber
Monday, Thu 9:00 – 11:00
Monday, 13:00 – 15:50
D011
Lecture Hall
This course enables the students learn the first important part of
electrical circuit fundamentals that is required for electrical engineer.
The course will provide knowledge on Direct Current (DC) computation,
principles of analyzing DC circuits, and different techniques for DC
circuits design.
1) ” Engineering circuit Analysis,7th edition ” , Hayt, Kemmerly,
and Durbin, McGraw-Hill,201, 8th Edition.
2) Basic Engineering Circuit Analysis, Irwin & Nelms ,
3) Temel Mühendislik Devre Analizi, , Irwin ,Nelms, Aydemir,
Nobel Yayıncılık
The student should be able to:
1. Analyze wide range of pure resistive DC circuits using the
different techniques covered through-out the course.
2. Gains hands-on experience in DC circuit problem solving tricks
and shortcuts.
3. Utilize the Thevenin theorem as a core tool in circuit analysis.
4. Analyze RL, RC, and RLC circuits with the proper tools.
5. Carry power consumption calculation for different components
in a DC circuit.
6. Design, simulate, and implement Basic DC circuits.
3 class sessions every week; 50 minutes each.
First Exam
Second Exam
Laboratuary
Final Exam
(20 Points)
(20 Points)
(20 Points)
(40 Points)
Attendance is mandatory. No more than 30% no excuse absent is
permitted.
Week
1.
2.
Date
17 Feb 2014
24 Feb 2014
3.
4.
03 Mar2014
10 Mar2014
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17 Mar2014
24 Mar2014
31 Mar2014
7 Apr 2014
14 Apr 2014
21 Apr 2014
28 Apr 2014
5 May 2014
12 May 2014
19 May 2014
26 May 2014
2 Jun 2014
Topic
Introduction
Definitions and units
Voltage and current laws; Ohms law; Kirchhoff’s current and voltage
laws; series and parallel connected sources; voltage and current division
Nodal and Mesh analysis; supper node and super mesh (Ch4)
Circuit analysis techniques: superposition, source transformation,
Thevinien and Norton equivalent circuits; maximum power transfer,
Delta-Wye conversion (chapter 5, text).
The Operational Amplifier
Review, Practice
Midterm 1
Capacitors and inductors; voltage –current relationships (chapter 7, text).
Basic RL and RC circuits; natural and forced response (chapter 8, text).
Basic RLC circuits (chapter 9, text).
Sinusoidal Steady-State Analyis(Chapter 10)
Circuit Analysis in S domain (Chapter 15)
Holiday
Midterm 2
Final Exam week