SE EXTC SEM 3 – NETWORK THEORY

Module 1 – Electrical Circuit Analysis
13 Topics
1.1.a – Circuit Analysis:
1.1.a.1 – Analysis of circuits with and without dependent sources using generalized loop and node analysis
1.1.a.2 – Super mesh analysis technique
1.1.a.3 – Super node analysis technique
1.1.b.1 – Superposition theorem
1.1.b.2 – Thevenin’s theorem
1.1.b.3 – Norton’s theorem
1.1.b.4 – Maximum Power Transfer Theorems
1.2.a – Concept of Self and mutual inductances
1.2.b – Coefficient of coupling
1.2.c – Dot convention
1.2.d – Equivalent circuit
1.2.e – Solution using mesh analysis(for two loops only)
Module 2 – Graph Theory
11 Topics
2.1.d.4 – Reduced Incident matrix
2.1.d.5 – Tieset matrix
2.1.d.6 – f-cutset matrix
2.2.a – Relationship between sub matrices A, B & Q
2.2.b – KVL & KCL using matrix
2.1.a – Objectives of graph theory
2.1.b – Linear Oriented Graphs
2.1.c – Graph terminologies
2.1.d.1 – Incidence matrix
2.1.d.2 – Circuit matrix
2.1.d.3 – Cut-set matrix
Module 3 – Time and frequency domain analysis
8 Topics
3.1 – Time domain analysis of R-L and R-C Circuits:
3.1.a – Forced and natural response
3.1.b – Initial and final values
3.1.c – Solution using first order and second order differential equation with step signals
3.2 – Frequency domain analysis of R-L-C Circuits:
3.2.a – Forced and natural response
3.2.b – Effect of damping factor
3.2.c – Solution using second order equation for step signal
Module 4 – Network functions
7 Topics
4.1.a – Network functions for the one port and two port networks
4.1.b – Driving point and transfer functions
4.1.c – Poles and Zeros of Network functions
4.1.d – Necessary condition for transfer functions
4.1.e – Calculation of residues by graphical methods
4.1.f – Testing for Hurwitz polynomial
4.2 – Analysis of ladder & symmetrical lattice network (Up to two nodes or loops)
Module 5 – Two port Networks
7 Topics
5.1 – Parameters:
5.1.a – Open Circuits
5.1.b – Short Circuit
5.1.c – Transmission and Hybrid parameters
5.1.d – Relationship among parameters
5.1.e – Conditions for reciprocity and symmetry
5.2 – Interconnections of Two-Port networks T & pi representation
Module 6 – Synthesis of RLC circuits
5 Topics
6.1.a – Concept of positive real function
6.1.b – Necessary and sufficient conditions for Positive real Functions
6.2.a – Properties of LC , RC & RL driving point functions
6.2.b – LC ,RC & RL network synthesis in Causer-1 & Causer-2 forms
6.2.c – LC ,RC & RL network synthesis in Foster-1 & Foster-2 forms (Up to Two Loops only)
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4.1.f – Testing for Hurwitz polynomial

SE EXTC SEM 3 – NETWORK THEORY Module 4 – Network functions 4.1.f – Testing for Hurwitz polynomial
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