Eastern Mediterranean University

Faculty of Engineering

Department of Electrical and Electronic Engineering

EE 529 - Circuits and Systems Analysis

Year and Semester     : 5/6, Fall/Spring

Credit Hour                : (3,0) 3

Pre/Co-requisite(s)     :

Academic Term          : Spring 2008-09

 

Catalog Description:

Definitions of physical systems, Component characterization. Elements of graph theory, basic postulates: circuit and cut-set equations. Formulation of system equations in matrix form. Branch, chord, mixed and state-space formulations. Solution of system equations, time-domain, s-domain solutions. Various applications to physical systems.

 

Prerequisite by Topic:

The main prerequisite is circuit analysis.

 

Instructors:

Assoc. Prof. Dr. Mustafa Kemal Uyguroğlu

 

Office Hours: Friday  (10:30-12:20)

 

e-mail: mustafa.uyguroglu@emu.edu.tr

 

 

Textbook:  

H.E.Koenig, Y. Tokad, H. K. Kesavan, H.G.Hedges,  Analysis of Discrete Physical Systems, McGraw Hill, 1967.

 

References:

  1. Ö. Hüseyin, Y. Ceyhun, S. Penbeci, K. Abdullah, Electrical Systems Analysis, METU Publication, 1976

 

Course Objectives :

At the end of this course, students will be able to:

  1. Identify physical systems and represent those systems in schematic form
  2. Define the mathematical models of two-terminal and multi-terminal components
  3. Draw the system graph and write the associated constraint equations
  4. Establish a fundamental set of circuit and cut-set equations for the system graph.
  5. Obtain  the state equations of  first and second order electric systems involving capacitors and inductors
  6. Solve  the system equations in time- and s-domain

 

 

COURSE OUTLINE and Organization

 

WK #

HRS

D E S C R I P T I O N

1-2

6

1. Introduction

Definition of physical systems, The First Postulate of System Theory, Component Models, Mathematical Representation of Typical Signals.

3

3

2. Mathematical Model of Two-terminal Components

Elementary Two-terminal components Models, Step-function Response, Frequency Response Characteristics

4-5

6

3. Mathematical Model of Multi-terminal Components

Elementary n-terminal Components, Linear Perfect Couplers and Gyrators, Small-signal model of typical Two-port Components, Two-port Active Components.

6-7

9

4. The System Graph and Associated Constraint Equations

The system Graph, Basic Definitions and Elementary Properties of Linear Graphs, Circuit Vectors and Matrices, Cut-set vectors and Matrices, Incident Vectors and Matrices, Practical Application of circuit and Cut-set Equations

8-9

 

Midterm Examinations

10

3

4.The System Graph and Associated Constraint Equations

The System Graph, Basic Definitions and Elementary Properties of Linear Graphs. Circuit Vectors and Matrices. Cut-set Vectors and Matrices. İncidence Vectors and Matrices

11-12

6

5.  State Models

Systems of Differential equations in Normal Form. State Equations for Linear Systems. Solutions of State Equations

13-14

6

6.  Network Model Approach

Application of Graph theory to 3-dimensional mechanical systems

15-17

 

FINAL EXAMS

        

Computer Usage:

Students are encouraged to use the Internet to search for various topics, including contents of similar courses offered elsewhere. MATLAB software is used for solution of system equations. Students can reach the necessary information about the course on the web site:

http://faraday.ee.emu.edu.tr/ee529

 

 

GRADING  POLICY

Homework 20 %, Midterm  30%,  Final Examination  50%   

 

NG Policy:

Students who do not pass the course and fail to attend the lectures regularly may be given the NG grade.

 

Make-Up Exam Policy:

Students who fail to attend the lectures regularly will not be given make-up examination.