18EC32 Network Theory syllabus for TE



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

Module-1 Basic Concepts 0 hours

Basic Concepts:

Practical sources, Source transformations, Network reduction using Star – Delta transformation, Loop and node analysis with linearly dependent and independent sources for DC and AC networks.

Module-2 Network Theorems 0 hours

Network Theorems:

Superposition, Millman‘s theorems, Thevinin‘s and Norton‘s theorems, Maximum Power transfer theorem.

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 and final conditions in RL, RC and RLC circuits for AC and DC excitations.

Module-4 Laplace Transformation & Applications 0 hours

Laplace Transformation & Applications:

Solution of networks, step, ramp and impulse responses, waveform Synthesis.

Module-5 Two port network parameters 0 hours

Two port network parameters:

Definition of Z, Y, h and Transmission parameters, modelling with these parameters, relationship between parameters sets.

 

Resonance:

Series Resonance: Variation of Current and Voltage with Frequency, Selectivity and Bandwidth, Q-Factor, Circuit Magnification Factor, Selectivith with Variable Capacitance, Selectivity with Variable Inductance.

 

Parallel Resonance:

Selectivity and Bandwidth, Maximum Impedance Conditions with C, L and f Variable, current in Anti-Resonant Circuit, The General Case-Resistance Present in both Branches.

 

Course Outcomes:

  • At the end of the course, the students will be ableto 
  • Determine currents and voltages using source transformation/ source shifting/ mesh/ nodal analysis and reduce given network using star-delta transformation/source transformation/ source shifting. 
  • Solve network problems by applying Superposition/ Reciprocity/ Thevenin‘s/ Norton‘s/ Maximum Power Transfer/ Millman‘s Network Theorems and electrical laws to reduce circuit complexities and to arrive at feasible solutions.  Calculate current and voltages for the given circuit under transient conditions. 
  • Apply Laplace transform to solve the given network.  Solve the given network using specified two port network parameter like Z or Y or T or h.  Understand the concept of resonance

 

Question paper pattern: 

  • Examination will be conducted for 100 marks with question paper containing 10 full questions, each of 20 marks.
  • Each full question can have a maximum of 4 sub questions.  There will be 2 full questions from each module covering all the topics of the module. 
  • Students will have to answer 5 full questions, selecting one full question from each module. 
  • The total marks will be proportionally reduced to 60 marks as SEE marks is 60.

 

Text Books:

1. M.E. Van Valkenberg (2000), ―Network analysisǁ, Prentice Hall of India, 3rdedition, 2000, ISBN: 9780136110958.

2. Roy Choudhury, ―Networks and systemsǁ, 2nd edition, New Age International Publications, 2006, ISBN: 9788122427677

 

Reference Books:

1. Hayt, Kemmerly and Durbin ―Engineering Circuit Analysisǁ, TMH 7th Edition, 2010.

2. J. David Irwin /R. Mark Nelms, ―Basic Engineering Circuit Analysisǁ, John Wiley, 8thed, 2006.

3. Charles K Alexander and Mathew N O Sadiku, ― Fundamentals of Electric Circuitsǁ, Tata McGraw-Hill, 3rd Ed, 2009.

Last Updated: Tuesday, January 24, 2023