EE2210 Electric Circuits

Course Description | Textbook | Class notes | Teaching Method | Course Content | Grading | Ethics policy

Introduction | Electric circuits and current | Systems of units | Voltage | Power and energy

Linear model | Active and passive circuit elements | Resistors | Sources | Voltmeter and ammeters | Resistive transducers | Switches

Circuit model | Kirchhoff's Laws | Series resistors and voltage division | Parallel resistors and current division | Series voltage current sources and parallel current sources | Circuit analysis | Δ to Y equivalent

Node-voltage analysis with current sources | Node-voltage analysis with current and voltage sources | Node-voltage analysis with dependent sources | Mesh-current analysis with independent sources | Mesh-current analysis with current and voltage sources | Mesh-current analysis with dependent sources | Node-voltage vs. mesh-current methods

Source transformations | Superposition | Thévenin theorem | Norton's equivalent circuit | Maximum power transfer

The operational amplifier (OpAmp) | Ideal OpAmp | Nodal analysis of ckt with OpAmp | Design using OpAmp | OpAmp ckt and linear algebraic equations | Practical OpAmp

Capacitors | Energy storage in a capacitor | Series and parallel capacitors | Inductors | Energy storage in an inductor | Series and parallel inductors | Initial conditions of switched circuits | OpAmp circuits and linear differential equations

1st-order circuits | Response of 1st-order circuits to constant input | Sequential switching | Stability of 1st-order circuits | Unit step source | Response of 1st-order circuits to nonconstant input

2nd-order circuit equation form | Solution of 2nd-order circuits: natural response | Natural response of RLC circuit | Natural response of critically damped RLC circuit | Natural response of underdamped RLC circuit | Forced response of RLC circuit | Complete response of an RLC circuit | State variable approach

Sinusoidal sources | Phasors and sinusoids | Impedances | Series and parallel impedances | Mesh and node equations | Thévenin and Norton equivalent circuits | Superposition | Phasor diagrams | OpAmps in AC circuits | Complete response

Instantaneous and average power | Effective value of periodic waveform | Complex power | Power factor | Power superposition principle | Maximum power transfer theorem | Coupled inductors | Ideal transformer