SYLLABUS

 

ENGIN 232: Circuit Analysis II       3 Credits

 

PREREQUISITE: Engin 231 (Circuit Analysis I)

 

TEXT:             Basic Engineering Circuit Analysis, 7th Edition,

                        J. David Irwin, Prentice Hall

 

OBJECTIVE:

            This course is a continuation of Engin 231 (Circuit Analysis I). The first half of the course covers ac steady-state analysis involving time-domain as well as frequency domain. Various concepts like frequency response, Bode plots and response are studied in detail. The second half of the course covers the topics like transformers, network transfer functions, and Laplace transforms.

 

SYLLABUS

      Complex numbers and phasor concept

      Frequency domain analysis; impedance concept

     Circuit theorems for phasors

     Mesh and nodal analysis with phasor, superposition, Thevenin's and Norton's theorem

     Sinusoidal circuits containing Op-Amp and dependent sources

     Introduction to average power, power factor

     Effective and RMS values

     Three phase circuits, Y- transformations

     Magnetically coupled networks

     Frequency response

     Bode plots

     Resonance

     Complex frequency concept

     Transform function, poles and zeros of the circuit

     Natural response using transfer functions

     Introduction to Laplace transforms

     Properties of Laplace transforms

     Partial-fraction expansion to find inverse Laplace transforms

     Application of Laplace transforms to circuits with arbitrary inputs

 

GRADE:

                  The final grade comprises 10% from participation, 10% from homework, 30% from midterm and 50% from the final.