- Docente: Mattia Ricco
- Credits: 6
- SSD: ING-IND/31
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Bologna
- Corso: Second cycle degree programme (LM) in Electrical Energy Engineering (cod. 9066)
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from Sep 20, 2022 to Dec 21, 2022
Learning outcomes
The student will acquire knowledge and methodologies for the synthesis and use of continuous, discrete, and real-time models for components, devices and systems for the enertronic, with particular reference to power electronic converters, photovoltaic generators, storage systems and electromagnetic devices.
Course contents
General approach of circuit modelling: continuous-time models, discrete-time models, frequency models. Low- and high-frequency modelling of electromagnetic and electromagnetic devices. Photovoltaic cell models. Linearized converter models. Battery models. State-space model representation: canonical forms, observability, controllability, transfer functions. Discretization methods (Forward Euler, Backward Euler, Tustin). State-space discrete-time model representation, Z-transform, stability regions. Development and implementation of real-time models with reprogrammable digital circuits and networks. Introduction to CPLD and FPGA devices. Implementation methodology on FPGAs, fixed-point representation, design tools. Examples of real-time models.
Readings/Bibliography
- G. Petrone, C. A. Ramosฉ\Paja, G. Spagnuolo: Photovoltaic Sources Modeling. J.Wiley & Sons.
Teaching methods
Classroom lectures (theory and applications). Some practical experiences on FPGA boards.
Assessment methods
Written and/or oral exam (interview).
Teaching tools
Lecture notes in English. Use of Simulink (Matlab) for circuit simulations.
Office hours
See the website of Mattia Ricco
SDGs
This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.