Credit Structure: (4-0)4
Catalog Description:
Sinusoidal steady-state analysis. Three-phase circuits. Coupled
inductors. Frequency response. Linear time-invariant dynamic circuits:
state equations, natural frequencies, complex frequency domain
analysis. Time-varying and nonlinear circuits.
Course Objectives:
Introduction to the fundamental concepts and tools of electrical
science. (Continuation of EE-201)
Prerequisities:
EE 201 and MATH 255
Textbook(s):
J. W.Nilsson, “Electric Circuits”, 4th Ed., Addison-Wesley
Publishing Company, Inc., 1993.
Reference:
L. O.Chua, C. A.Desoer, E. S.Kuh, “Linear and Nonlinear
Circuits”, McGraw-Hill, 1969.
Syllabus:
1- Sinusoidal Steady-State Analysis, (6 class hours)
2- Coupled Inductance, (6 class hours)
3- Series and Parallel Resonance, (8 class hours)
4- Sinusoidal Steady-State Power Calculations, (6 class hours)
5- Balanced Three-Phase Circuits, (6 class hours)
6- Introduction to Laplace Transform, (4 class hours)
7- The Laplace Transform in Circuit Analysis, (8 class hours)
8- The Transfer Function, (6 class hours)
9- State Equations. (6 class hours)
Homeworks, Quizzes, Projects:
None
Computer Usage:
None
Laboratory Work:
None
Category Content:
Mathematics and Basic Sciences: None
Engineering Design: None
Engineering Sciences: 4
Humanities & Social Sciences: None
Departmental: None
Instructors:
Ismet Erkmen