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ECE – 303 NETWORK ANALYSIS
Resonance in AC Circuits: Series and Parallel Resonance, Characteristics, Properties of resonant Circuit, Selectivity, bandwidth and Q factor.
Coupled Circuits: Coefficient of Coupling, Dot Convention, Analysis of Coupled Circuits
Complex Waves: Fourier Series Representation, Evaluation of Fourier Series Coefficients, Wave Symmetry, RMS values of Complex Waves.
Impedance function and Network Theorems: The concept of Complex frequency, Transform impedance and transform circuits, Series and parallel combinations, Super position and reciprocity, Thevenin’s Theorem and Norton’s Theorem, Miller’s Theorem, Substitution, Compensation, Milliman, Maximum power transfer theorem, Solution of Networks consisting of linear elements (Resistance, Inductance, Capacitance) with initial condition, Active elements like voltage and current sources, controlled sources by using loop variable, node voltage variable, Thhevenin’s and Norton’s method in transformed domain.
Network Functions, Poles and Zeros: Network function for one port and two ports, Calculation of network functions like ladder networks, General Networks, Poles and zeros of network functions, Time Domain behaviour from Pole and zero plot.
Two Port parameters (Transform Domain): Relation between two part network variables, Short circuit admittance, Open circuit impedance parameters, Hybrid parameters, two generator equivalent circuit, One generator equivalent circuit, Transmission and inverse transmission parameters, Relation between parameter sets, Equalization of parameters of two port networks, Network containing passive elements and controlled sources, Input and Output impedance, transfer functions, Input Output Relationship, Voltage and Current gain
Network Synthesis: Definition of positive real numbers, properties of positive real numbers, Properties of LC, RC and RL driving point function, Synthesis of LC, RC and RL driving point function in FOSTER I & II and CAUER I & II forms.
1. Network Analysis: Van Valkenberg, PHI
2. Network Synthesis by Van Valkenburg, PHI ELE - 501
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