Marian K. Kazimierczuk", Pulse-width Modulated DC-DC Power Converters", Wiley September 2008, ISBN: 978-0-470-69465-7.
by Marian K. Kazimierczuk, Dariusz Czarkowski" Resonant Power Converters, 2nd Edition
Wiley, March 2011, ISBN: 978-0-470-90538-8
F. Groppi, C. Zuccaro, "Impianti Solari Fotovoltaici a Norme CEI, Hoepli
M. Moroni, G. Nitrati, "Progettazione fotovoltaica in conto energia", EPC Libri
Cataloghi costruttori, materiale disponibile sui siti di costruttori
Haitham Abu-Rub, Mariusz Malinowski, Kamal Al-Haddad, "Power Electronics for Renewable Energy Systems, Transportation and Industrial Applications", July 2014, Wiley-IEEE Press, ISBN: 978-1-118-63403-5
Learning Objectives
Form a level
professionalizing the student's knowledge for
make it able to operate autonomously in the field of practical applications in the photovoltaic sector and in the field of electronic power converters.
Prerequisites
Knowledge of the analysis techniques of linear circuits both in the domain of
time that of the frequency. Basics of Control Theory
Intermediate tests
Oral discussion of a project draft
The final exam aims to ascertain the acquisition of learning outcomes in terms of knowledge and skills by conducting an oral interview based on a project developed during the course.
The intermediate tests consist, in each case, of 3 exercises aimed at verifying knowledge on three-phase systems, on electric machines.
The oral exam consists of an interview aimed at evaluating the student's communication skills and at bringing out the knowledge of the topics discussed and discussed in the course.
Course program
Photovoltaics: Conversion of solar energy into electricity. Photovoltaic modules technologies. Characteristics of photovoltaic modules. Electric energy conversion systems. MMPT techniques. Sizing criteria for photovoltaic fields. Estimation of the flexibility of a photovoltaic generator and econimic valorisation of the energy produced - "Conto Energia". Optimization techniques of photovoltaic systems: mismatching, shading, positioning of modules, orientation and inclination.
DC-AC converters for interfacing with the network of renewable sources.
RECTIFIERS: Single-phase rectifiers and simple and double half-wave,
uncontrolled, uncontrolled type, and controlled. Three-phase rectifiers
and simple and double half-wave, of uncontrolled semi-controlled type, e
checked.
CONVERTERS CONTINUES CONTINUED: PWM converters:
Buck type converter Boost type converter. Type converter
buck-boost. Forward type converter. Flyback converter.
Push-pull converter. Half-bridge type converter.
Full bridge type converter. Linear models of continuous converters
continuous PWM type.
INVERTER: Single phase and three phase inverter with square wave with
cancellation of harmonics. Switching resonant type inverter
zero-voltage.
Inverter for wireless transmission of electricity
POWER SUPPLIES: Stabilized power supplies. Linear regulators and a
switching. Isolated dc-dc converters. Control of dc-dc converters
switching devices used as stabilizers. Dc-dc regulator project
SEMICONDUCTOR DEVICES: Diodes, SCR, GTO, power transistors,
power mosfet, IGBT, MCT, Power Modules.