Syllabus Electrical Circuit Analysis - (BE03009031) Toal Credits = TH / 30 Assessment Pattern and Marks Total Marks Theory Tutorial / Practical ESE (E) PA (M) PA (I) TW / SL (I) ESE (V) 04 70 30 20 30 50 200 Sr. No. Content 1. Network Theorems and Coupled circuits Solution of circuits with independent sources using Node and Mesh analysis, Classification of dependent sources, Solution of circuits with dependent sources using Node and Mesh analysis, Concept of Super-node and Supermesh in circuits with independent and dependent sources, Superposition theorem, Thevenin theorem, Norton theorem, Maximum power transfer theorem for circuits with independent and dependent sources, Concept of duality and dual networks, Mutually coupled circuits, Dot Convention in coupled circuits. (Chapters - 1, 2, 3) 2. Initial and Final Conditions Initial and final conditions in elements, Concept of steady state and transient state response, The series RL circuit, Step response of RL circuit by solving differential equations, Features of RL circuit step response, Steady state response and forced response, Linearity and superposition in dynamic circuits, RC Circuit equations, Zero-Input response of RC circuit, Zero-State response of RC circuits for various inputs, The series RLC circuit zero-input response, Step response of series RLC circuit, Transient response of RLC circuit with sinusoidal excitation. (Chapter - 4) 3. Sinusoidal Steady State Analysis The complex exponential forcing function, Sinusoidal steady state response using complex exponential (ej), Concept of the phasor, Transforming a circuit in to phasor equivalent circuit, Sinusoidal steady state response from phasor equivalent circuit. (Chapters - 5, 6) 4. Electrical Circuit Analysis Using Laplace Transforms Introduction to Laplace Transform, Laplace transform of standard input signals, Initial value and final value theorem, Inverse Laplace transform, Solution of differential equations using Laplace transform, s-Domain equivalents of circuit elements, The s-Domain equivalent circuit, Total response of first order and second order circuits using s-Domain equivalent circuit, Introduction of transfer function, Concept of Poles and Zeros, Transfer function representation of electrical circuits. (Chapter - 7) 5. Two Port Network and Network Functions Introduction to Two Port Networks, relationship of two port variables, Short-circuit admittance parameter, Open-circuit impedance parameter, Transmission Parameter, Hybrid Parameter, Relationships between parameters, Parallel connection of two-port networks. (Chapters - 8, 9)
