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DC and AC Circuit Analysis Theoretical concepts discussed; DC and 1st Order Transient Analysis. Ohm’s law. Kirchhoff’s laws (KCL and KVL). Nodal analysis. Branch analysis. Source transformations. Thevenin and Norton equivalent circuits. Maximum power transfer. Introducion to operational amplifiers. nductance. Capacitance. Mutual Inductance. Transient response of RL and RC. 1st Order Transient AC and 2nd Order Transient Analysis. Sinusoids and Phasors. Sinusoidal Steady- State Analysis. Nodal analysis. Branch analysis. Source transformations. Thevenin´s and Norton´s equivalent circuits. Sinusoidal Steady-State power calculation. Balanced three-phase circuits.

Course Topics Series and Parallel Circuits Impedance and Voltage Phasor Diagrams Series Circuits Admittance and Susceptance R-L, R-C, and R-L-C Parallel Circuits Admittance and Current Phasor Diagrams Equivalent Circuits Series and Parallel AC Circuits Alternating Current Methods of Analysis Dependent Sources Branch Current Analysis Mesh Analysis Node Voltage Analysis Bridge Networks Delta-Wye Transformation Network Theorems Superposition Thevenin Norton Maximum Power Transfer AC Power Apparent Power Reactive Power Average Power Power Triangle Power Factor Correction Resonance Series Resonant Circuit Quality Factor Frequency Response of a Series Resonant Circuit Parallel Resonant Circuit Frequency Response of a Parallel Resonant Circuit Filters, Transfer Functions and Bode Plots Decibels Filters R-C, Low Pass Filter R-C, High Pass Filter Low-Pass Filter with Limited Attenuation Attenuated High Pass Filter Standard Functions Poles and Zeros R-C Band Pass Filter Multiple Pole Low Pass Filter Transformers Mutual Inductance The Ideal Transform Homework Exams & Tests Quizes

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