Network Analysis and Synthesis | Syllabus | College Platform - NITH
Electrical Engineering211
211core Course
Network Analysis and Synthesis
4 Credits
5 Modules
Updated 12/31/2024
01
Network theorems and Transient Analysis:
12 Lectures
Review of Network theorems for AC circuits:
Thevenin’s Norton’s Superposition Reciprocity theorem Millman’s theorem compensation
Tellegan’s theorem and Maximum Power Transfer theorems. Transient Analysis of Networks:
Network elements Transient response of R-L-C for DC and sinusoidal excitation
Initial condition
Solution using differential equation approach and Laplace transform method. Self-inductance
Coefficient of coupling
dot convention analysis of coupled circuits
analysis of single tuned and
double tuned circuits.
02
Network Graph Theory:
6 Lectures
Definition Graph Tree Basic cut- set and tie-set matrices for planer
networks-loop and nodal method of analysis of networks with independent and dependent Voltage
And current source Duality And dual networks.
03
Network Functions:
6 Lectures
Introduction driving point and transfer functions poles and zeros and their
significance network functions for one port and two port networks time domain behavior from the
pole-zero plot.
04
Two-Port Network:
6 Lectures
Introduction different parameters and relationship between different
parameters inter-connections of two port networks open circuit and short-circuit impedances and
ABCD constants image impedance image parameters.
05
Network Synthesis:
6 Lectures
Network realizability Hurwitz Polynomials Positive real functions
Properties of RC RL And LC networks Foster and Cauer forms of realization. Introduction to
active and passive filters.
Open Source
Transparency at Core.
This platform is built by students, for students. We believe in open collaboration to make academic resources accessible to everyone.