TAGS:-RGPV NETWORK ANALYSIS SYLLABUS I EC-305 SYLLABUS I RGPV EC-305 NETWORK ANALYSIS SYLLABUS I RGPV EC 3RD SEM NETWORK ANALYSIS SYLLABUS I NETWORK THEORY SYLLABUS I CIRCUIT THEORY SYLLABUS I EC-305 SYLLABUS I RGPV SYLLABUS EC-305 I NETWORK ANALYSIS EC-305 SYLLABUS I RGPV NETWORK ANALYSIS SYLLABUS I DOWNLOAD NETWORK THEORY SYLLABUS
Rajiv Gandhi Proudhyogiki Vishwavidyalaya, Bhopal
Bachelor of Engineering(ELECTRONICS AND COMMUNICATION)
Bachelor of Engineering(ELECTRONICS AND COMMUNICATION)
NETWORK ANALYSIS (EC-305)
UNIT I
Graph Theory: Tree, Tree branch & link,Incidence matrix, cut set and tie set matrices, dual networks, Dot convention, coupling co-efficient,tuned circuits, Series & parallel resonance.Introduction to circuit elements R,L,C and their characteristics in terms of linearity & time dependant nature, voltage & current sources controlled & uncontrolled sources KCL and KVL analysis, Nodal & mesh analysis, analysis of magnetically coupled circuits, Transient analysis :-Transients in RL,RC&RLC Circuits, initial conditions, time constants. Steady state analysis- Concept of phasor & vector,impedance & admittance, Network topology, concept of Network
UNIT II
Network Theorems for AC & DC circuits:Thevenins & Norton’s, Superpositions, Reciprocity,Compensation, Substitution, Maximum power transfer, and Millman’s theorem, Tellegen’s theorem,problems with dependent & independent sources.
UNIT III
Frequency domain analysis – Laplace transform solution of Integro-differential equations, transform of waveform synthesized with step ramp, Gate and sinusoidal functions, Initial & final value theorem,Network Theorems in transform domain.
UNIT IV
Concept of signal spectra: Fourier series co-efficient of a periodic waveform, symmetries as related to Fourier coefficients, Trigonometric & Exponential 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, Necessary condition for driving point & transfer function.Two port parameters – Z,Y, ABCD, Hybrid parameters, their inverse & image parameters, relationship between parameters, Interconnection of two ports networks, Terminated two port network.
References Books:
- M.E. Van Valkenburg, Network Analysis, (PHI)
- F.F.Kuo, Network Analysis.
- Mittal GK; Network Analysis; Khanna Publisher
- Mesereau and Jackson; Circuit Analysis- A system Approach; Pearson.
- Sudhakar & Pillai; Circuit & Networks- Analysis and Synthesis; TMH
- Hayt W.H. & J.E. Kemmerly; Engineering Circuit Analysis; TMH
- Decarlo lin; Linear circuit Analysis; Oxford
- William D Stanley : Network Analysis with Applications, Pearson Education
- Roy Choudhary D; Network and systems; New Age Pub
- Charles K. Alexander & Matthew N.O. Sadiku: Electrical Circuits :TMH
- Chakraborti :Circuit theory: Dhanpat Rai
- B.Chattopadhyay & P.C.Rakshit; Fundamental of Electrical circuit theory; S Chand
- Nilson & Riedel , Electric circuits ;Pearson.
List of experiments (Expandable):
All experiments (wherever applicable) should be performed through the following steps.
Step 1: Circuit should be designed/ drafted on paper.
Step 2: The designed/drafted circuit should be simulated using Simulation S/W (TINA-V7/ PSPICE/ Labview/ CIRCUIT MAKER).
Step 3: The designed/drafted circuit should be tested on the bread board and compare the results with the simulated results.
Step 4: Thebread board circuit should be fabricated on PCB prepared on PCB machine..
- To Verify Thevenin Theorem.
- To Verify Superposition Theorem.
- To Verify Reciprocity Theorem.
- To Verify Maximum Power Transfer Theorem.
- To Verify Millman’s Theorem.
- To Determine Open Circuit parameters of a Two Port Network.
- To Determine Short Circuit parameters of a Two Port Network.
- To Determine A,B, C, D parameters of a Two Port Network
- To Determine h parameters of a Two Port Network
- To Find Frequency Response of RLC Series Circuit.
- To Find Frequency Response of RLC parallel Circuit.
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