Basic concepts: Sources of electrical energy, Source transformation, Loop and node analysis with dependent & independent sources for DC networks, concept of super node and super mesh analysis for only independent sources for DC networks. Numerical on all Topics
Network theorems:
Super position, reciprocity, Millman‟s theorem Thevinin‟s & Norton‟s theorem (for DC networks only), Maximum power transfer theorem (for AC & DC networks) Numerical on all Topics
Transient behavior and initial conditions: Behavior of circuit elements under switching condition and their representation, evaluation of initial & final conditions in RL, RC & RLC circuits for DC excitations.
Two port network parameters: Definitions and modeling of Z, Y, H & transmission parameters Numerical on all Topics
Resonant Circuits:
Series resonance: Variation of current and voltage with frequency, Selectivity & Bandwidth, Q-factor Parallel resonance: General case-resistance present in both branches, Selectivity & Bandwidth. Numerical on all Topics
Network topology: Graph of a network, concepts of: tree & co-tree, incidence matrix, tie-set & cut-set schedules, Solution of resistive networks using equilibrium equations in matrix form, Principle of duality. Numerical on all Topics