Circuit Analysis I
EEE 121: Basic Electrical Circuits [3.0] Fundamental concepts and units, Circuit variables and elements: voltage, current, power, energy, independent and dependent sources, resistance.
Basic laws: Ohm’s law, Kirchoff’s current and voltage laws. Simple resistive circuits: series and parallel circuits, voltage and current division, wye-delta transformation.
Techniques of circuit analysis: Nodal and mesh analysis including supernode and supermesh.
Network theorems: Source transformation, Thevenin’s theorem, Norton’s theorem and superposition theorem with applications in circuits having independent and dependent sources, maximum power transfer condition and reciprocity theorem.
Energy storage elements: Inductors and capacitors, series parallel combination of inductors and capacitors. Responses of RL and RC circuits: natural and step responses.
Magnetic quantities and variables: Flux, permeability and reluctance, magnetic field strength, magnetic potential, flux density, magnetization curve.
Laws in magnetic circuits: Ohm’s law and Ampere’s circuital law. Magnetic circuits: series, parallel and series- parallel circuits.
Introduction to alternating current circuits, Sinusoidal functions: Instantaneous current, voltage, power effective current and voltage, average power, phasors and complex quantities, impedance, real and reactive power, power factor.
Basic laws: Ohm’s law, Kirchoff’s current and voltage laws. Simple resistive circuits: series and parallel circuits, voltage and current division, wye-delta transformation.
Techniques of circuit analysis: Nodal and mesh analysis including supernode and supermesh.
Network theorems: Source transformation, Thevenin’s theorem, Norton’s theorem and superposition theorem with applications in circuits having independent and dependent sources, maximum power transfer condition and reciprocity theorem.
Energy storage elements: Inductors and capacitors, series parallel combination of inductors and capacitors. Responses of RL and RC circuits: natural and step responses.
Magnetic quantities and variables: Flux, permeability and reluctance, magnetic field strength, magnetic potential, flux density, magnetization curve.
Laws in magnetic circuits: Ohm’s law and Ampere’s circuital law. Magnetic circuits: series, parallel and series- parallel circuits.
Introduction to alternating current circuits, Sinusoidal functions: Instantaneous current, voltage, power effective current and voltage, average power, phasors and complex quantities, impedance, real and reactive power, power factor.
|
|