Guia docente 2018_19 Escuela de Ingeniería de Telecomunicación

Contents

Topic	Sub-topic
Presentation and Introduction.
I: DC Steady-State Response	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.
II: Sinusoidal Steady-state Response	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.
III: Two-Port Circuits	Definition of a two-port circuit. Characteristic parameters. Combining two-ports. A two-port in a circuit.
IV: Transient Response	Transient regime origin. Conditions of study. Inductors and capacitors in steady-state continuous regime. Single reactive element circuits.
V: Signals and Systems	Types of signals. Some relevant signals: step function, unit impulse function, exponential function, sinusoidal function. Types of systems. System properties; linear, time invariant systems; impulse response.
VI: The Laplace Transform	Definition. Direct transforms. Inverse transform determination. Application to linear circuits. The transfer function. Steady-state response in a circuit. Response to a sinusoidal input.
VII: Frequency Selective Filters	Filter concept. Filter types. Filter responses.