SULEYMAN DEMIREL UNIVERSITY
Computer Engineering Faculty
Chair Informatics
Syllabus
Discipline: EE 201 Basic Circuit Theory
Number of credits: 3 credits (2/2/1)
Term: Fall 2011
Instructor’s full name: Dr. Larissa Kiziyeva, M.Sc. Tosik Cemil
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Information on the instructor |
Time and place |
Contact information | ||
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Room |
Office hours (TSIS) |
Tel.: |
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Larissa A. Kiziyeva |
304 |
Monday, Tuesday 15-30- 17-30 |
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kiziyevalarissa@mail.ru |
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Tosik Cemil |
302 |
Tuesday, Fraday 15-30- 17-30 |
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cemilto@yahoo.com |
Pre-requisites
Algebra and Geometry, Calculus, Physics
Course goals and objectives
EE 201 is designed to educate students about the analysis of basic electrical circuits. Its purpose is to present, as clearly and completely as possible, the transient and the steady state responses of basic circuit elements such as resistors, capacitors, and inductors.
Literature
Required
Thomas R. E and Rosa A. J. – The Analysis and Design of Linear Circuits – Prentice Hall, International edition, 1998.
Supplementary
Desoer C. A. and Kuh E. S. – Basic Circuit Theory - McGraw-Hill, International edition, 1969.
James W. Nilsson and Susan A. Riedel.- Electric Circuits - Prentice Hall, International edition, 2008
Don H. Johnson, J.D. Rise.- Fundamentals of Electrical Engineering, Rice University, 1999.
Kiziyeva L. Basic circuit theory. Test questions with solutions. – Almaty, 2006.
6. Кизиева Л. А. Теория линейных электрических цепей. (примеры тестовых задний с решениями). – Алматы, 2006.
Course Structure:
Total: 15 weeks - Sep 19, 2011 – Dec 30, 2011
Lectures – 2 h/wk
Lab session – 1 h/wk
Grading criteria
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Types of tasks |
Scores |
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Attendance and participation |
- |
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Laboratory works |
20 |
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Quizzes |
20 |
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SSS: homework |
5 |
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SSSI: practices |
10 |
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Mid-term exam |
15 |
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Final exam |
30 |
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Total |
100 |
The form the schedule of performance and delivery of works
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Type of evaluation |
Week |
Total | |||||||||||||||
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1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
10 |
11 |
12 |
13 |
14 |
15 |
16-17 |
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1 |
Attendance and participation |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
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- |
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2 |
Laboratory works |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
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20 |
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3 |
Quizzes |
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* |
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* |
* |
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* |
* |
* |
* |
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20 |
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4 |
SSS: homework |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
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5 |
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5 |
SSSI: practice |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
* |
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10 |
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6 |
Mid-term exam |
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* |
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15 |
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7 |
Final exam |
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* |
30 |
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Total |
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100 |
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week |
Name of the topic and content |
Literature |
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1 |
Introduction
Circuit reduction |
[1]. Ch.1, pp.3-15, Ch.2, pp. 21-67 |
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2 |
Circuit analysis techniques
Linearity properties (unit output method) |
[1]. Ch.3, pp.84-114
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3 |
Thevenin and Norton circuits
Norton equivalent circuit |
[3].Ch.3, pp. 114-147 |
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4 |
Waveforms and their characteristics. Capacitance and inductance
Inductance |
[1]. Ch.5, pp. 255-296, Ch.6, pp. 305- 332 |
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5 |
Mutual inductance
Application of mutual inductance |
[1]. Ch.6, pp. 332-345.
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6 |
First-order circuits
First-order circuit sinusoidal response |
[1]. Ch.7, pp. 357-391 |
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7 |
Second-order circuits
Second-order circuit step response |
[1]. Ch.7, pp. 391-420.
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8 |
Phasors
Equivalence with phasors |
[1]. Ch.8, pp. 433-460.
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9 |
Basic and General circuit analysis with phasors
Maximum power transfer |
[1]. Ch.8, pp. 460-498.
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10 |
Tow-port circuits
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[3].Ch.18, pp. 730-751
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11 |
Analog filter design
Filter prototypes |
[3]. Ch.15, pp. 606-645. |
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12 |
Laplace transforms
Impedance and admittance |
[1].Ch.9,pp. 518-528,Ch.10,pp. 569-584.
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13 |
Laplace transforms circuit analysis
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[1].Ch.10,pp. 584-619 |
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14 |
Fourier series
Alternative form of the Fourier series |
[1].Ch.15, pp. 881-893.
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15 |
Fourier transforms application
Calculation of signals applying Fourier series |
[1]. Ch.15, pp. 893-910 |