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Venkateswara Reddy Network Theory29th, Sep.2010
Concepts Units Modules
Introduction 1.Introduction to three
phase circuits
Three-
Phase
Circuits
Generation of three phase voltages
Star Connected System
Delta Connected System
Star Connected System for Unbalanced Load
Delta Connected System for Unbalanced Load
Determination of power in star 2.Analysis of andY
for balanced load and
calculation of power
Determination power in delta
Power measurement using two wattmeter
method
Transient response of R-L circuits for D.C
excitation Series combination Parallel combination
1.D.C Transient Analysis
using differentialequation method
2.D.C
TransientAnalysis
Transient response of R-C circuits for D.C
excitation
Series combination Parallel combination
Transient response of R-L-C circuits for D.C
excitation
Series combination Parallel combination
Transient response of R-L circuits for D.C
excitation
Series combination Parallel combination
2.DC transient analysis
using Laplace Method
Transient response of R-C circuits for D.C
excitation
Series combination Parallel combination
Transient response of R-L-C circuits for D.C
excitation
Series combination Parallel combination
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Venkateswara Reddy Network Theory29th, Sep.2010
Transient response of R-L circuits for A.C
excitation
Series combination Parallel combination
1.A.C Transient Analysis
using differential
equations
3.A.C
transient
Analysis
Transient response of R-C circuits for A.C
excitation
Series com bination Parallel combination
Transient response of R-L-C circuits for A.C
excitation
Series combination Parallel combination
Transient response of R-L circuits for A.C
excitation
Series combination Parallel combination
2.A.C Transient analysis
using laplace transforms
Transient response of R-C circuits for A.C
excitation
Series combination Parallel combination
Transient response of R-L-C circuits for A.C
excitation
Series combination Parallel combination
The concept of complex frequency 1.Network functions
part-1
4.Network
functionsPhysical interpretation of complex frequency
Transform impedance and transform circuits
Series and parallel combination of elements
Terminal pairs or ports
Network functions for the one-port and two-
port
Poles and zeros of network functions 2.Network functions
part-2Significance of poles and zeros
Properties of driving point functions
Properties of transfer functions
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Venkateswara Reddy Network Theory29th, Sep.2010
Necessary conditions for driving point
functions
Necessary conditions for transfer functions
Time domain response from pole zero plot
Z-parameters 1.Network Parameters-1 5.Network
Parameters
-parameters
ABCD-parameters
Hybrid parameters
Cascade networks 2.Network Parameters-2
Concept of transformed network
2-port network parameters using transformed
variables
Low-pass filters 1.Filters 6.FiltersHigh-pass filters
Band pass filters
Band elimination filters
Prototype filter design
Fourier theorem 1.Fourier analysis part-1 7.Fourier
Analysis of
A.C.
Circuits
Consideration of symmetry
Exponential form of Fourier series
Line spectra
phase angle spectra 2.Fourier analysis part-2
Fourier integrals
Fourier transforms
Properties of fourier transforms
