Electric Circuits (EEE1002)
Credits : 3
Topics Included: Introduction to Circuit Elements, Ohms Law and Kirchhoff’s Laws. Voltage and Current Division, Star-Delta Transformation and Source Transformation.
Topics Included: Nodal and Mesh Analysis of Linear Network with Independent and Dependent DC sources.
Topics Included: Thevenin’s Theorem, Norton’s Theorem, Maximum Power Transfer Theorem and Superposition Theorem for circuits with independent and dependent sources.
Topics Included: Dynamic Circuit Elements – L and C. Analysis of Source Free RC, RL and RLC Circuits, Singularity Functions, Step Response of RC, RL and RLC Circuits.
Topics Included: Introduction to Sinusoids and Phasors, Impedance and Admittance with Phasors Representation. RMS and Average Values of Sinusoids, Instantaneous and Average Power, and Complex Power – Real Power, Reactive Power and Apparent Power Calculations and Power Factor.
Topics Included: Sinusoidal Steady State Analysis for AC circuits with independent sources. Frequency Response of Circuits with R, L and C Combinations. Resonance in Series and Parallel RLC Circuits. Balanced Three Phase Circuits, Power in a Balanced System, Three Phase Power Measurement.
Topics Included: Magnetically Coupled Circuits, Self and Mutual Inductance, Dot Convention, Energy in Coupled Circuits, Mesh Analysis of Magnetically Coupled Circuits.