Savitribai Phule Pune University, Maharashtra, Electrical Engineering Semester 4, Network Analysis Syllabus

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Unit - 1 Types of Network, Mesh, and Nodal analysis
Unit1
Types of Network Mesh and Nodal analysis
1.1 Lumped and Distributed Linear and Nonlinear Bilateral and Unilateral Timevariant and Timeinvariant
1.2 Independent and Dependent controlled voltage and current sources.
1.3 Concept of voltage and current divider Source transformation and shifting.
1.4 Network Equations Network equations on Loop basis and Node basis the choice between Loop analysis and Nodal analysis.
1.5 Concept of super node and super mesh
1.6 Mutual inductance Dot convention for coupled circuits
1.7 Concept of duality and dual networks.
Unit - 2 Network Theorem
Unit2
Network Theorem
2.1 Superposition Theorem
2.2 Thevenin Norton Theorem
2.3 Maximum Power Transfer Theorem
2.4 Reciprocity Theorem
2.5 Millman theorems applied to electrical networks with all types of sources.
2.6 Graph Theory Tree Cotree Incidence matrix Fcutset Matrix Tie set Matrix
Unit - 3 Transients in RLC circuit
Unit3
Transients in RLC circuit
3.1 Solutions of differential equations and network equations using the classical method for RL RC and RLC circuits
3.2 Initial and Final Condition
Unit - 4 Laplace Transform
Unit4
Laplace Transform
4.1 Basic Properties of Laplace Transform
4.2 Laplace Transform of Basic R L and C components
4.3 Solutions of differential equations and network equations using Laplace transform method for RL RC and RLC circuits series and parallel
4.4 Inverse Laplace transforms
4.5 Transformed networks with initial conditions
4.6 Analysis of electrical circuits with applications of step pulse impulse ramp functions shifted singular functions the convolution integral
4.7 Application of initial and final value theorem.
Unit - 5 Two-port network and Filters
Unit5
Twoport network and Filters
5.1 Two Port Network Z Y H and transmission parameters
5.2 Interrelations between parameters
5.3 Introduction to passive filters low pass filters high pass filters.
5.4 mderived LPF and HPF filters and design.
Unit - 6 Network Functions
Unit6
Network Functions
6.1 Poles and Zeros Terminal pairs or ports
6.2 Network functions for the one port and two ports the calculation of network functions general networks.
6.3 Poles and zeros of network functions
6.4 Restrictions on poles and zeros locations for transfer functions and driving point function
6.5 Time –domain behavior from the pole and zero plot
6.6 Stability of active networks
6.7 Parallel Resonance Resonance frequency Quality factor Current and resonance.
119.2 2x 50x L
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Other Subjects of Semester-2
Power system i
Electrical machines - i
Numerical methods & computer programming
Fundamentals of micro-controllers and applications
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