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1.Circuit Model:
Characteristics and applications of linear circuit elements, Ideal and non -ideal sources, Voltage and Current series, parallel and compound circuit analysis, Loading effects, Ammeter and Volt meter.
2. Circuit Theory and DC Analysis:
Voltage and Current Divider rule, Kerchief’s law, Supper position theorem, Thevenin’s theorem, Norton’s theorem, Super position Theorem, Maximum power Transfer theorem, Reciprocity theorem, Mesh and Nodal analysis, Matrix form of Mesh and Nodal equation, Use of Creamer’s rule, Bridge Networks, T-Pie and Pie-T conversions.
3. Transient and Time Domain Analysis:
Transient and RC, RL and RLC circuits, Pulse repetition rate and duty cycles, Average value, RC response to square wave input.
4. AC Theory and Frequency Domain Analysis:
Properties of sinusoidal and square waveform analysis, Phasor diagram, The “j’ operator, Resonance phenomena, Fourier method of wave form analysis, Laplace’s transform and its application in linear circuits.
5. Networks:
Two port network and its parameters, Equivalent circuits, analog filter design, Elementary filter theory, Characteristics impedance, Law pass filter, High pass filter, Band pass filter, Band Elimination filter, m-derived T section, M-derived Pi section, m-derived band pass filter.
6. Compound Circuit and Transformers:
Self and mutual inductance, Analysis of coupled Circuit, Coefficient coupling, Linear transformer.
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