Course Details

Subject {L-T-P / C} : EE2401 : Network Theory {3-0-0 / 3}
Subject Nature : Theory
Coordinator : Prof. Bidyadhar Subudhi


Fourier Series and Fourier Transform: Fourier Series of Periodic Signals, Continuous and Discrete Time Fourier Transform, Frequency Response of Systems Solving Networks using Super-node and Super-mesh techniques Network Theorems for Circuits with both Dependent sources Laplace Transform: Properties, Solutions of Differential Equations with Non-zero Initial Conditions Network Transients: Laplace Transform based Solution, Frequency Response of R-L-C Series Circuit, Series and Parallel Resonance Graph Theory and Electrical Circuit Solution Two-Port Network Analysis.Network functions: Poles and zeros: Network functions, Poles and zeros of network functions, Restriction of poles and zeros location for driving point functions, Restriction of poles and zeros location for transfer function, Time domain behaviour and stability from pole zero plot.

Course Objectives

  1. To analyse the response of a network using Fouries Series, Fourier Transform and Laplace Transform Techniques

Course Outcomes

CO1: Learn Fouries Series(FS), Fourier Transform(FT) and Laplace Tranform(LT) Techniques
CO2: Apply FS, FT and LT techniques for network anslsysis
CO3: To solve networks using super mesh and super node techniques
CO4: To e, Steady state response, network functions
CO4: Obtain the maximum power transfer to the load , and Analyze the series resonant and parallel resonant circuit
CO5: evaluate two-port network parameters , design attenuators and equalizers
CO6: Synthesize one port network using Foster and Cauer Forms.

Essential Reading

  1. C.K.Alexander and M.N.O.Sadiku, Fundamentals of Electric Circuits,, McGrawHill, 2013
  2. W. H. Hayt and T. E. Kimmerley, Engineering Circuit Analysis, TMH, 2001

Supplementary Reading

  1. M. E. Van Valkenberg, Network Analysis, PHI, 1990
  2. C. L. Philips, J. M. Parr and E. A. Riskin, Signals, Systems and Transforms, PHI, 4e, 2013