Home / Syllabus / KTU B.Tech S3 Syllabus Electronics and Communication

KTU B.Tech S3 Syllabus Electronics and Communication

KTU B.Tech S3 Syllabus Electronics and communication

 

 

clickhereMA201 Linear Algebra & Complex Analysis

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clickhereEC201 Netwok theory

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clickhereEC203 Solid state devices

 

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clickhereEC205 Electronic circuits

 

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clickhereEC207 Logic circuit design

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clickhereHS210 Life Skills

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clickhereHS200 Business Economics

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clickhereEC231 Electronic devices & circuits lab

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clickhereEC233 Electronic Design Automation Lab

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KTU B.Tech S3 Syllabus Electronics and Communication Engineering for
EC201: NETWORK THEORY
MODULE I

Introduction to circuit variables and circuit elements, Review of Kirchhoff’s Laws, Independent and dependent Sources, Source transformations

Network topology, Network graphs, Trees, Incidence matrix, Tie-set matrix and Cut-set matrix

Solution methods applied to dc and phasor circuits: Mesh and node analysis of network containing independent and dependent sources

MODULE II

Network theorems applied to dc and phasor circuits: Thevenin’s theorem, Norton’s theorem, Superposition theorem, Reciprocity theorem, Millman’s theorem, Maximum power transfer theorem.

Laplace transform, properties Laplace Transforms and inverse Laplace transform of common functions, Important theorems: Time shifting theorem, Frequency shifting theorem, Time differentiation theorem, Time integration theorem, s domain differentiation theorem, s domain integration theorem, Initial value theorem, Final value theorem.

FIRST INTERNAL EXAM

MODULE III

Partial Fraction expansions for inverse Laplace transforms, Solution of differential equations using Laplace transforms

Transformation of basic signals and circuits into s-domain

Transient analysis of RL, RC, and RLC networks with impulse, step, pulse, exponential and sinusoidal inputs.

Analysis of networks with transformed impedance and dependent sources.

MODULE IV

Network functions for the single port and two ports, properties of driving point and transfer functions, Poles and Zeros of network functions, Significance of Poles and Zeros.

Time domain response from pole zero plot, Impulse Response.

Network functions in the sinusoidal steady state, Magnitude and Phase response

SECOND INTERNAL EXAM

MODULE V

Parameters of two port network: impedance, admittance, transmission and hybrid parameters, Interrelationship among parameter sets.

Series and parallel connections of two port networks.

Reciprocal and Symmetrical two port network.

Characteristic impedance, Image impedance and propagation constant (derivation not required)

MODULE VI

Resonance: Series resonance, bandwidth, Q factor and Selectivity, Parallel resonance.

Coupled circuits: single tuned and double tuned circuits, dot convention, coefficient of coupling, Analysis of coupled circuits

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