II: Transient Response |
Transient and steady-state regimes.
Transient regime origin.
Conditions of study (transient between two steady-state continuous regimes, two reactive elements as a maximum).
Inductors and capacitors in steady-state continuous regime.
Single reactive element networks: time expression, time constant.
Two reactive elements networks: types of responses, time expressions, damping coefficient, angular resonant frequency.
Networks changing in several time values.
Partially coupled elements networks. |
III: Steady-state sinusoidal response |
Definition and parameters.
Concepts of phasor and impedance.
Mesh and node analysis of steady-state sinusoidal regime networks.
Autoinductance and mutual inductance.
Linear and ideal transformers.
Power expressions: instantaneous power, complex power, average power, reactive power.
Thévenin and Norton equivalent circuits.
Frequency response.
Using the superposition principle. |
IV: Two-ports |
Definition of a two-port circuit.
Characteristic parameters.
Sets of characteristic parameters.
Characteristic parameters determination.
Combining two-ports.
A two-port in a circuit. |
VI: Laplace transform |
Definition.
Direct transforms.
Inverse transform determination.
Application to linear circuits.
The transference function.
Steady-state response in a circuit.
Response for a sinusoidal input.
Application of the superposition principle. |
VIII: Filters. |
Filter concept.
Filter classes.
Ideal and real filters.
Low pass prototype based design.
Filter responses. |