Syllabus Main Point

Unit-I Introduction to circuit elements R, L, C and their characteristics in terms of linearity & time dependent nature, voltage & current sources controlled & uncontrolled sources KCL and KVL analysis, Nodal & mesh analysis, analysis of magnetically coupled circuits, Transient analysis: Transients in RL, ICT Based & green board RC&RLC Circuits, initial conditions, time constants. Steady state analysis- based class room teaching Concept of phasor & vector, impedance & admittance, Network topology, concept of Network graph, Tree, Tree branch & link, Incidence matrix, cut set and tie set matrices, dual networks, Dot convention coupling co- efficient, tuned circuits, Series & paratlel resonance. 

Unit-II Network Theorems for AC & DC circuits- Theremins& Norton's, Superposition's, Reciprocity, Compensation, Substitution, Maximum power IcrK Based & green board transfer, and Mill man's theorem, Tellegen's theorem, problems with based class room teaching dependent & independent sources. 

Unit-III Frequency domain analysis-Laplace transform solution of Integro-differential equations, transform of waveform synthesized with step ramp, Gate and ICT Based & green board sinusoidal functions, Initial & final value theorem, Network Theorems .S based class room teaching transform domain 

Unit-IV Concept of signal spectra, Fourier series co-efficient of a periodic waveform, symmetries as related to Fourier cocfficients, Trigonometric & Exponential ICT Based & green board based class room teaching form of Fourier series. 

Unit-V Network function & Two port networks- concept of complex frequency, Network Transfer functions for one port & two ports, poles and zeros, NEEssary condition for driving point & transfer fanction. Two port parameters ICT Based & green board -Z, Y, ABCD, Hybrid parameters, their inverse & image parameters, based class room teaching relationship between parameters, Interconection o two ports networks, terminated two port networks.

 

Text Books:-

  1. Network Analysis by M.E. Van Valkenburg 
  2. Network Analysisan Synthesis by B.R. Gupta
  3. NETWORK ANALYSIS, Question and Answer by Yaakub Bin Omar & Wan Mohd Zamri Bin Wan Ab Rahman Politeknik Sultan Salahuddin Abdul Aziz Shah 2022

References Books:-

  1. M.E. Van Valkenburg. Network Analysis, Pearson 
  2. William H Hayt. E. Kemmerly, Steven M Durbin; Engineering Circuit Analysis; McGraw Hil
  3. Richard C Dorf, James A Svoboda, Introduction to Electric Circuits, Wiley India, 2015 
  4. Charles K. Alexander & Matthew N.O. Sadiku: Electrical Circuits; McGraw-Hill 
  5. J David Irwin, Robert M Nelms, Engineering Circuit Analysis, Wiley India, 2015 
  6. Robert L Boylestad, introductory circuit analysis, Pearson, 2016 
  7. M S Sukhija. T K Nagsarkar; Circuits and Networks, Oxford University Press, 2015 
  8. Samarajit Ghosh, Network Theory Analysis and Synthesis 
  9. Network Analysis and Synthesis by Pankaj Swarnkar

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Assignment Questions (Subject:- Network Analysis)

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Network Analysis Assignment Questions Instructions: Solve any 8 questions in each section. Make appropriate assumptions wherever necessary. Unit 1 1. Find the value of Va for the following circuit using K.V.L . 2. Explain Ohm’s law with the help of examples. 3. Define the following terms (i) Branch (ii) Sub graph (iii) Node (iii) Tree (b) For the graph shown below find incidence and cut set matrices .  4. Determine the current in the 5 (Ω) ohm resistor by any one method. 5. Explain Kirchhoff's Current Law and Voltage Law with the help of examples. 6. State and explain Kirchhoff’s laws. 7. State Kirchhoff’s voltage law. 8. Define and state the properties of incidence matrix . 9. For the network shown below draw the graph and find incidence and tie–set matrices. 10. Find branch currents for the following circuit.  11. Using nodal analysis find all branch currents for the following circuit.  Unit 2 1. Determine the current flowing through 5 ohms resistance in the net...
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