Spring 2014

EE 202 - Circuit Theory II

Section 4

 

Course:

        4 Credits, METU, Dept. of Electrical and Electronics Engineering

Instructor:

        Yeşim Serinağaoğlu (e-mail: yserin@metu.edu.tr, Office: DZ-03)

Office Hours:

          By appointment (Send me an e-mail to arrange a time.)

Reference Books:

1.      Fundamentals of Electric Circuits , C.K. Alexander and M. N. O. Sadiku, McGraw-Hill,

2.      The Analysis and Design of Linear Circuits, R. E. Thomas, A. J. Rosa, Prentice Hall, 1998.

3.      Electric Circuits, James W. Nilsson, S.A. Riedel, Prentice Hall, 2001.

4.      Linear and Nonlinear Circuits, L. O. Chua, C. A. Desoer, E. S. Kuh, McGraw-Hill, 1987.

5.      Basic Circuit Theory, C. A. Desoer, E. S. Kuh, McGraw-Hill, 1969.

Course Outline:

• Linear time-invariant (LTI) dynamic circuits
• Sinusoidal steady state (SSS) analysis
• Power in the sinusoidal steady state
• Balanced three-phase circuits
• Complex frequency (s) domain analysis
• Frequency response
• State Equations

Exams:

          Midterm Exam 1:           

          Midterm Exam 2:

Final Exam:                   

 

HW Assignments:

                    

Problem Set ZPS 1: pdf	Solve problems 1, 2, 3, 5a,b, 8, 9
Problem Set ZPS 2: pdf
Problem Set ZPS 3: pdf
Problem Set ZPS 4: pdf
Problem Set ZPS 5: pdf
Problem Set ZPS 6: pdf

 
 
 
 

Exercise Sets:

1.      Problem set on mutual inductors, transformers

2.      Problem set

3.      Problem set

4.      Problems at the end of reference book chapters (for a list of related chapters, please refer to the list of suggested reading below.)

5.      Problem set I on circuit analysis in complex frequency (s) domain.

6.      Problem set II on circuit analysis in complex frequency (s) domain.            

7.      Problem set III on circuit analysis in complex frequency (s) domain.           

           

Supplementary Notes:

1. State Equations

 

Example        

 

Also read:

                                                              i.      Chapter 12, Sec.6 State Equations from Chua, Desoer and Kuh (1987).

                                                            ii.      Chapter 12, State Equations from Desoer and Kuh (1969).

                                                          iii.      Chapter 14, from Basic Circuit Theory

                                                          iv.      Lecture notes for EE 201: Graph theory.

 

2. Derivation of
3. Partial lecture notes Phasors
1. Properties of phasors
2. Terminal equations of capacitors and inductors in phasor domain.

 

4. Autotransformers

 

5. Partial lecture notes on three-phase circuits

 

6. Suggested Reading (Important note: this is just a suggestion, you are responsible from all topics covered in our classes):

 

1. Chapter 10 (Node and mesh analysis) and 14 (Natural frequencies), Appendix C (Differential equations) from Desoer and Kuh (1969)
2. Sinusoidal steady-state response:

                                                              i.      Chapter 8 and 15 from Thomas and Rosa (4^th ed.)

                                                            ii.      Chapter 9 and 10 from Nilsson and Riedel (7^th ed.) (Also read 6.4 and 6.5 (Mutual Inductance) from this book)

                                                          iii.      Chapter 7 and 8 from Desoer and Kuh (1969)

                                                          iv.      Chapter 9 from Chua, Desoer and Kuh (1987)

 

7. Elements in the s-domain       

 

8. Circuit analysis in Laplace domain,
1. Example 1,     
2. Example 2.     

 

9. Two-port networks    

 

10. Lecture notes

 

11. Frequency Response: Chapter 12 from Thomas and Rosa (4^th ed.)       

 

12. Magnitude and frequency scaling – Chapter 15.2 Scaling from Nilsson and Riedel (7^th ed.) (or the corresponding section from any other Circuit Theory book).