18ML36 Network Analysis syllabus for ML



A d v e r t i s e m e n t

Module-1 Basic concepts 0 hours

Basic concepts:

Sources of electrical energy, Source transformation, Loop and node analysis with dependent & independent sources for DC networks, concept of super node and super mesh analysis for only independent sources for DC networks. Numerical on all Topics

Module-2 Network theorems 0 hours

Network theorems:

Super position, reciprocity, Millman’s theorem Thevinin’s& Norton’s theorem (for DC networks only), Maximum power transfer theorem (for AC & DC networks) Numerical on all Topics

Module-3 Transient behavior and initial conditions 0 hours

Transient behavior and initial conditions:

Behavior of circuit elements under switching condition and their representation, evaluation of initial & final conditions in RL, RC &RLC circuits for DC excitations.

 

Two port network parameters:

Definitions and modeling of Z, Y, H & transmission parameters Numerical on all Topics

Module-4 Resonant Circuits 0 hours

Resonant Circuits:

Series resonance: Variation of current and voltage with frequency, Selectivity & Bandwidth, Q-factor Parallel resonance: General case-resistance present in both branches, Selectivity & Bandwidth. Numerical on all Topics

Module-5 Network topology 0 hours

Network topology:

Graph of a network, concepts of: tree & co-tree, incidence matrix, tie-set & cut-set schedules, Principle of duality. Numerical on all Topics

 

Course Outcomes:

After studying this course, students will able to:

• Apply the basic concepts (Laws, theorems) of networks to obtain solution.

• Choose the appropriate/specific technique to analyze the networks.

• Realize and Analyze the network behavior

 

Question Paper Pattern:

• The question paper will have TEN questions.

• Each full question carry 20 marks

• In each full question, preferably 40% should be related to theoretical concepts/derivations and 60% should be related problems/solutions.

• There will be TWO full questions (with maximum of THREE sub questions) from each module.

• Each full question will have sub questions covering all the topics under a module.

• The students will have to answer FIVE full questions, selecting ONE full question from each module.

 

Textbooks:

1. Engineering Circuit Analysis, William H Hayt et al, McGraw Hill, 8th Edition.

2. Networks and Systems, D Roy Choudhury, New Age International Publishers, 3rd Edition.

3. Network Analysis, M.E. Van Valkenburg, Prentice-Hall, 3rd Edition.

 

Reference Books:

1. Introduction to Electric circuits, Richard C Dorf& James A Svoboda, Wiley, 9th Edition.

2. Electric Circuits, MahmoodNahvi, McGraw Hill, 9th Edition

Last Updated: Tuesday, January 24, 2023