73924 - Power Electronic Circuits M

Academic Year 2024/2025

  • Docente: Mattia Ricco
  • Credits: 6
  • SSD: ING-IND/31
  • Language: English

Learning outcomes

The goal of the course is to provide supplements of linear and non-linear electric circuits with special emphasis towards power electronic circuits. The main topics addressed in the course regards current and voltage harmonic distortion and powers in non-sinusoidal steady-state, Power diodes and SCRs, single phase and three phases rectifiers, Power electronic switches, emerging component, basics of pulse width modulation (PWM), single-phase and three-phase inverters and others. At the end of the course students master power electronics technologies with a special emphasis towards the automation field. The course provides basic in power electronics that are instrumental to the course “Electric Drives for Automation M”.

Course contents

Module I (30h)

  • Supplements of linear and non-linear electric circuits.
  • Non sinusoidal periodic waveforms. Current and voltage harmonic distortion and powers in non-sinusoidal steady-state.
  • Conduction and commutation losses.
  • Power diodes and SCRs. Power electronic switches: BJT, MOSFET, IGBT, emerging components.
  • Rectifiers: single-phase and three-phase. PFC single-phase and three-phase (Vienna Rectifier).
  • Pulse width modulation (PWM).
  • Choppers: buck, boost, buck-boost, Cùk, half-bridge, full bridge.

Module II (30h)

  • Single-phase inverters: half-bridge and full bridge. Unipolar and bipolar modulation
  • Three-phase inverters: six-step and PWM modulation. Common-mode signal injection: centered and discontinuous modulations.
  • Multilevel inverters: cascaded H-bridge, Diode clamped (NPC), Flying capacitor. Modular multilevel converters (MMC).
  • Digital implementation ofmodulation techniques: microcontrollers, DSP boards, FPGA systems.

Readings/Bibliography

  • Mohan, Undeland, Robbins: Power Electronics. J.Wiley & Sons
  • Rashid: Power Electronics: Circuits Devices and Applications. Prentice Hall
  • Kassakian, Schlecht, Verrghese: Principles of Power Electronics. MIT Addison-Wesley

Teaching methods

Classroom lessons (theory and applications). Some practical experiences including DSP/FPGA boards.

Assessment methods

Written and/or eventually oral exam (interview). Possibility of midterm written exams. A project report is required for Module 2 (more information available on Virtuale).

Teaching tools

Lesson notes in English. Use of PLECS for circuit simulations.

Italian textbooks are also available. Please directly contact the professor.

Office hours

See the website of Mattia Ricco

See the website of Riccardo Mandrioli

SDGs

Affordable and clean energy Sustainable cities Climate Action

This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.