EE 201
NETWORK
ANALYSIS
3-1-0-4
Total Lectures: 42
1.
2.
3.
4.
5.
6.
Development of Circuit Concept: Introduction, capacitance, inductance and
resistance parameters, approximation of a physical system as a circuit, reference
directions for current and voltage, voltage and current sources, active element
conventions, dot convention for coupled circuits, topological description of
networks, linear graphs of a network and its parts, loops and trees, incidence
matrix, cut-set matrix and tie-set matrix.
[6]
Network Equations: Kirchhoff’s laws, minimum number of network equations,
source Transformations, formulation of network equations, loop variable analysis
[6]
& node variable analysis and duality.
Analysis of RLC Circuits: First order differential equation, general and
particular solutions, time constant, integrating factor and solution of networks
with RC and RL combinations, second order equations, circuits with internal
excitations, higher order equations circuit with internal excitation, network
excited by external energy sources, the Laplace transformation, some basic
theorems for the Laplace transformation, transform impedance and transform
circuits, series and parallel combination of elements, transient analysis using
Laplace transform, partial fraction expansion, solution of problems by Laplace
transformation.
Network Theorems: Superposition and reciprocity theorems, Thevenin’s and
Norton’s theorems, Millman’s theorem, Tellegen’s theorem, and maximum
power transfer theorem, application of these theorems to networks with a.c and
d.c excitation and with dependent sources.
Two Port Network: Two port parameters, impedance, admittance, hybrid, inverse
hybrid, ABCD parameters, relationship between various parameters, reciprocity
and symmetry of two port network, inter connection of two port networks, image
impedance and short circuit and open circuit impedances.
Synthesis of One Port Network: Elementary synthesis procedures, properties of
LC immittance function, synthesis of LC driving point immittance, properties of
RC driving point impedances, synthesis of RC impedances or RL admittances,
properties of RL impedances and RC admittances, synthesis of certain RLC
functions.
[12]
[6]
[6]
[6]
Text Books
M.E. Van Valkenberg, “Introduction to Modern Network Synthesis”, John Wiley
1.
and Sons, Inc., 1960.
A. Chakrabarti, “Circuit Theory – Analysis and Synthesis”, Dhanpat Rai & Co.,
2.
2001. International Editions, 1993.
A. Sudhakar and S.P. Shyam Mohan, “Circuits and Network Analysis and
3.
Synthesis”, Tata McGraw-Hill, 2007.
W.H. Hyatt Jr. and J.E. Kemmerly, “Engineering Circuits Analysis”, McGraw-Hill.
4.