Circuit theory. Kirchhoff’s laws. Passive and active components.
Millman’s, Thevenin’s and Norton’s theorems. Mesh and node analysis methods. Transient response and steady state response.
Phasors. Frequency response. Resonant circuits. AC steady state power. Power factor correction.
Three-phase systems. Coupled inductors. Transformer.
9 CFU course: Dynamic circuit analysis. Laplace transform. Two-port network parameters.
Course Content - 1 semester - last names M-Z
Basic electrical quantities. Circuit theory and its applicability limits. Kirchhoff's laws. Passive and active components. Linear circuit theorems. Node and mesh analysis methods. Circuit analysis in the time domain. Sinusoidal steady-state analysis. AC steady-state power. Power factor correction. Three-phase systems. Laplace transform method for circuit analysis. Network functions. Stability. Frequency response. Resonant circuits. Two-port network parameters.
Course Content - 2 semestre
Dynamic circuit analysis in the time-domain, analysis of circuits with operational amplifiers, Laplace transform, two-port network parameters.
A. Liberatore, S. Manetti, M.C. Piccirilli, A. Reatti
"Circuiti elettrici ed elettronici" Vol. 1 + 2
Progetto Leonardo - Ed. Esculapio - Bologna.
V. Daniele, A. Liberatore, R. D. Graglia, S. Manetti
"Elettrotecnica" III edizione 2005
Monduzzi Editore.
R. Perfetti
"Circuiti elettrici"
Zanichelli
Exercises are available on the Moodle platform
Learning Objectives - 1 semester - last names M-Z
Achievement of the theoretical background necessary for understanding the behavior of electrical networks and deriving their input/output relationships.
Ability to use the appropriate technical terminology, in order to:
• Understand the literature about electrical networks;
• Effectively present subjects relevant to the discipline;
• Critically discuss the subjects treated in the course.
Development of the competences necessary for the prosecution of the studies and for an autonomous adjournment.