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Glossary
Semester (Sem)
1First Semester
2Second Semester
AAnnual course
Educational activities
CSimilar or integrative activities
Language
Course completely offered in italian
Course completely offered in english
--Not available
Innovative teaching
The credits shown next to this symbol indicate the part of the course CFUs provided with Innovative teaching.
These CFUs include:
  • Subject taught jointly with companies or organizations
  • Blended Learning & Flipped Classroom
  • Massive Open Online Courses (MOOC)
  • Soft Skills
Course Details
Context
Academic Year 2019/2020
School School of Industrial and Information Engineering
Name (Bachelor of Science degree)(ord. 270) - LC (367) Industrial Production Engineering
Track PGG - Piano non diversificato
Programme Year 2

Course Details
ID Code 054133
Course Title ELECTRICAL ENGINEERING
Course Type Mono-Disciplinary Course
Credits (CFU / ECTS) 8.0
Semester Second Semester
Course Description Basic concepts of Electricity: Electrical quantities and components: Current, Voltage, Resistance, basic units; electric circuits definition, electric power, energy conservation. Resistors, independent generators, shorts and opens in circuit. Basic Circuit Analysis: Ohm's law. Voltage and current divider. Kirchhoff's laws. Work, energy and power. Series circuits, Kirchhoff's Voltage law. Parallel circuits. Kirchhoff's Current law. Methods to calculate Total Resistance. Combinations of resistors and independent sources. Different types of dependent sources: VCVS, VCCS, CCVS, CCCS. Basic Network Theorems: Maximum Power Transfer. Thevenin and Norton theorems. Equivalent parameters. Loop and mesh current analysis. Nodal analysis approach. Linear resistive circuits and Linear superposition principle. Circuits with Semiconductor Diodes, Operational Amplifiers and Applications: Nonlinear circuits with diodes and relative applications. Operational Amplifiers circuits: real and ideal Op-amp. Inverting, non-inverting and special purpose Op-amp circuits. Cascading of Op-amp circuits. Transient Response and Fundamentals of AC Circuits: Capacitance. Inductance and self-inductance. Capacitors and Inductors combination in series and parallel. Energy stored in L and C. RC and RL circuits. Steady State Analysis for Sinusoidal Excitation. Review of complex numbers. Analysis of Circuits by Phasor Transformation. Basics on Magnetic Circuits. ThreePhase Circuits. AC generators, three-phase circuits with balanced and unbalanced load, three-phase circuits with neutral. Power in AC circuits, power factor, power factor correction of a single and three-phase load. Principles of electromechanical energy conversion: Generators and motors. Principles of operation and equivalent circuit of generators and DC motors and induction motor. Overview of mechanical and electrical characteristics of motors. Transformers and principles of Electrical Machines. Basic transformer characteristics and applications
Scientific-Disciplinary Sector (SSD)
Educational activities SSD Code SSD Description CFU
C
ING-IND/31
ELECTRICAL ENGINEERING
5.0
C
ING-IND/32
POWER ELECTRONIC CONVERTERS, ELECTRICAL MACHINES AND DRIVES
3.0
Innovative teaching The course includes  1.0  credits in Innovative Teaching as follows:
  • Subject taught jointly with companies or organizations

Schedule, add and removeAlphabetical groupProfessorLanguageCourse details
From (included)To (excluded)
--AZZZZGrimaccia Francesco
manifesti v. 3.4.3 / 3.4.3
Area Servizi ICT
30/10/2020