06793 - Electrotechnics

Course Unit Page

  • Teacher Franco Mastri

  • Credits 6

  • SSD ING-IND/31

  • Teaching Mode Traditional lectures

  • Language Italian

  • Course Timetable from Feb 25, 2019 to Jun 05, 2019

Academic Year 2018/2019

Learning outcomes

Knowledge of basic circuit theory, methods for circuit analysis, magnetic circuits, principle of operation of single phase transformer.

Course contents

Basic concepts
Lumped circuits. Circuit elements. Voltage and current.
Power and energy. Sign conventions. Passive and active elements.
Kirchhoff's laws. Elementary network topology.
D. C. circuits
Resistors. Independent voltage and current sources. Dependent sources.
Series and parallel circuits. Current and voltage dividers. Source transformations. Millman's formulas. Wye-delta transformation.
Analisys methods: node-voltage and mesh-current methods.
Network theoremes: Tellegen's theorem, superposition principle, Thevenin's and Norton's theorems.
A.C. circuits
Capacitors. Inductors. Coupled inductors.
Phasors. Impedance and admittance. Circuit analysis in the phasor domain.
Power in AC circuits: active, reactive, and apparent power. Complex power. Effective (RMS) values. Power factor correction. Maximum power transfer.
Frequency response. Transfer function. Resonance.
Non-sinusoidal periodic regime. Introduction to Fourier series.
Transient analysis
First order RC and RL circuits. Initial conditions. Transient and steady state response. Zero input and zero state response. Second order RLC circuits. Three phase systems
Wye and delta connections, symmetrical and balanced systems, asymmetrical and unbalanced systems, power in three phase systems, power factor correction.
Magnetic circuits
Review of stationary magnetic field laws, ferromagnetic materials, magnetic hysteresis, reluctance and permeance, Hopkinson's law, magnetic circuit analysis, self and mutual induction.
Transformers
Operating principle, energy losses, internal equations, ideal transformer, equivalent circuits, open-circuit and short-circuit tests, efficiency.

Readings/Bibliography

Lecture slides are available at the following address:
http://www.die.ing.unibo.it/pers/mastri/didattica.htm

Exercises:

  • P. Ghigi, M. Martelli, F. Mastri. Esercizi di Elettrotecnica. Società Editrice Esculapio.
References:
  • R. Perfetti. Circuiti elettrici. Zanichelli.
  • C.K. Alexander, M.N.O. Sadiku. Circuiti elettrici. McGraw-Hill.
  • G. Rizzoni. Elettrotecnica: Principi ed applicazioni. McGraw-Hill.
  • G. Fabricatore, Elettrotecnica ed applicazioni, Ed. Liguori.

Teaching methods

Theoretical lessons and numerical exercises.

Assessment methods

The exam consists of a written test and includes a set of exercises, aiming to verify that the students understand and know how to apply the methods of circuit analysis, and a questionnaire on the theoretical aspects of the course.
During the examination is not allowed to consult books or notes, while the use of a calculator is recommended.
More information about the exam will be provided during the course and, in particular, examples resolution of exam exercises be presented during the exercitations. Exam exercises proposed in previous years and their solutions are available at the address http://www.die.ing.unibo.it/pers/mastri/didattica.htm

Links to further information

http://www.die.ing.unibo.it/pers/mastri/didattica.htm

Office hours

See the website of Franco Mastri