Content :
- Poly phase AC circuit analysis
- Y-connected generator
- Phasor diagram
- Power calculation
- Measurement of 3 phase power using 2-wattmeter method
- Analysis of three phase balanced load
- Analysis of three phase unbalanced circuit
- Mesh method or inspection method
- Components of electrical network
- 1. Resistor
- 2. Inductors
- 3. Capacitors
- 4. Transformers
- 5. Gyrators
- 6. Voltage sources
- 7. Current sources
- Basic function
- 1. Unit impulse function
- 2. Unit step function
- 3. Unit ramp function
- Impulse response of a network
- Laplace transform of some basic function
- Initial and final values
- KVL & KCL analysis
- Laplace transform of a rectangular pulse
- Transient response of any electrical network
- Series RLC circuit
- Frequency response
- Features of RLC network
- Quality factors
- Band width
- Parallel RLC circuit
- Features
- Coupled network
- Consideration of mutual inductance
- 1. In terms of M
- 2. In terms of K
- NETWORK FUNCTION
- 1. One port network
- 2. Two port network
- Series RLC circuit with non-sinusoidal excitation
- Two port network parameters
- Interconnection between various 2-port networks
- 1. Cascaded network
- 2. Series network
- 3. Parallel network
- 4. Series parallel network
- 5. Parallel-series network
- FILTERS
- 1. Low pass filters
- 2. High pass filters
- 3. Band pass filters
- 4. Band stop filters
- 5. Notch filters
- 6. APF-all pass filters
- Advantages
- Disadvantages
- GRAPH THEORY
- Tree of graph
- 1. Tie-set matrix
- 2. Cut-set matrix
- Incidence matrix
- Reduced incidence matrix
- Series RL circuit
- Network theorems
- Super position theorem
- Thevenin’s and Norton’s theorem
- Maximum power transfer theorem
- Reciprocity theorem
- Tellegen’s theorem
- Millman’s theorem
- Dual-millman’s theorem
- Star-delta transformation
- Network synthesis
- Conditions for a network
- 1. Physically realizable
- 2. Stable
- Hurwitz polynomials
- Duality between two networks
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