ELEN E3201
Circuit Analysis
- Charge and current
- Energy and voltage
- Resistors and independent sources
- Electric power
- Consistent units
- KCL
- KVL
- Elementary circuit analysis
- Simplifying techniques
- Resistive circuits
- Controlled sources
- Load network
- Proportionality principle
- Superposition theorem
- Thevenin and Norton networks
- Source conversion
- Node analysis
- Mesh analysis
- Delta-Wye transformations
- Real sources & Power transfer
- Amplifier Models
- Opamps, ideal opamps (review)
- Node analysis with opamps
- Capacitors
- Inductors
- Capacitive circuits
- Differential circuit equations
- Natural response, stability
- Forced response
- First-order DC transients
- Step and pulse response
- Second order DC transients
- Second-order natural response
- Complex numbers
- Amplitude and phase
- The phasor concept
- Impedance and admittance
- Generalization of memoryless analysis techniques
- Resonance
- AC superposition
- Power in AC steady state & RMS values
- Maximum power transfer
- Mutual inductances and transformers
- Balanced 3-phase circuits
- Complex frequency
- Generalized impedances and admittances
- Network functions
- Poles and zeros, stability
- Bode Diagrams
- Frequency response
- Two-Port networks, impedance parameters
- Circuit analysis with two-ports