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1.1 Introduction to Electrical Circuits - Network elements classification - Electric charge and current - Electric energy and potential
1.2 Resistance parameter - series and parallel combination - Inductance parameter - series and parallel combination - Capacitance parameter - series and parallel combination
1.3 Energy sources: Ideal - Non-ideal, Independent and dependent sources
1.4 Source transformation
1.5 Kirchoff’s laws, Mesh analysis and Nodal analysis problem solving with resistances only including dependent sources also
1.6 A.C Fundamentals and Network Topology - Definitions of terms associated with periodic functions: Time period, Angular velocity and frequency, RMS value, Average value, Form factor and peak factor- problem solving - Phase angle, Phasor representation, Addition and subtraction of phasors - Mathematical representation of sinusoidal quantities, Explanation with relevant theory, problem solving - Principal of Duality with examples
1.7 Network Topology: Definitions of branch, node, tree, planar, non-planar graph, incidence matrix, basic tie set schedule, basic cut set schedule
2.1 Steady State Analysis of A.C Circuits - Response to sinusoidal excitation - pure resistance, pure inductance, pure capacitance
2.2 Impedance concept, phase angle, series R-L, R-C, R-L-C circuits problem solving
2.3 Complex impedance and phasor notation for R-L, R-C, R-L-C problem solving using mesh and nodal analysis
2.4 Star-Delta conversion, problem solving
3.1 Coupled Circuits - Self inductance - Mutual inductance - Coefficient of coupling
3.2 Analysis of coupled circuits, Natural current
3.3 Dot rule of coupled circuits - Conductively coupled equivalent circuits- problem solving
3.4 Resonance: Introduction, Definition of Q - Series resonance, Bandwidth of series resonance - Parallel resonance, Bandwidth of parallel resonance
3.5 Current in anti resonance
3.6 General case- resistance present in both branches, anti resonance at all frequencies
4.1 Network Theorems: Thevinin’s, Norton’s, Milliman’s, Reciprocity
4.2 Compensation - Substitution
4.3 Superposition Theorem
4.4 Max Power Transfer Theorem
4.5 Tellegens Theorem - Problem solving using dependent sources also
5.1 Two-port networks - Relationship of two port networks, Z-parameters, Y-parameters, Transmission line parameters, h-parameters
5.2 Transmission line parameters - Hybrid(H) Parameters or h-parameters - Inverse h-parameters
5.3 Inverse Transmission line parameters - Relationship between parameter sets
5.4 Parallel connection of two port networks - Cascading of two port networks - Series connection of two port networks - Problem solving including dependent sources also
6.1 Transients: First order differential equations, Definition of time constants, R-L circuit, R-C circuit with DC excitation - Evaluating initial conditions procedure
6.2 Second order differential equations, homogeneous, non-homogenous equations
6.3 Problem solving using R-L-C elements with DC excitation and AC excitation
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CategoriesElectronics & Communication
Format EPUB
TypeeBook