I: Continuous Response (RPC) |
Fundamental and derived magnitudes.
Active and passive elements and their functional relationships.
Kirchhoff's laws.
Analysis by the technique of mesh voltages. Analysis by the techniques of node currents.
Simplifying techniques; Thévenin and Norton equivalent circuits. |
III: Steady-state sinusoidal response (RSP) |
Transient and steady-state regimes.
Definition and parameters.
Concepts of phasor and impedance.
Mesh and node analysis of steady-state sinusoidal regime networks.
Divisor circuits.
Autoinductance and mutual inductance.
Linear and ideal transformers.
Power expressions.
Thévenin and Norton equivalent circuits. |
V: Signals and systems |
lasses of signals.
Some relevant signals: step function, unit impulse function, exponential function, sinusoidal function.
Classes of systems.
System properties; linear, time invariant systems; response to impulse. |
VII: Frequency domain analysis. |
Filter concept.
Filter classes.
Filter responses.
Periodic signals. |