Extremum Seeking Control of Hybrid Excited PM Synchronous Motors for Minimum Losses Tracking
Event details
Date | 04.10.2024 |
Hour | 11:00 › 12:00 |
Speaker | Mr Simone Baratto, Università degli Studi di Padova |
Location | |
Category | Conferences - Seminars |
Event Language | English |
ABSTRACT
This talk deals with the characterization and the online tracking of the minimum losses trajectory in hybrid excited permanent magnet motors. In electrical machines including a rotor winding producing a flux, Joule losses are produced in the rotor as well. Thus, the optimal control trajectory to develop the maximum torque per losses has to consider not only the stator losses, but the rotor losses as well.To this end, we will talk about the extremum seeking control strategy, analyzing the conditions to ensure the convergence of the system to a stable operating point. We will also address the accuracy of the control technique by evaluating the results obtained on a prototype of an hybrid excited permanent magnet motor.
BIOGRAPHY
Simone Baratto received his B.Sc. degree in Electronic Engineering in 2021 and his M.Sc. degree in Control Systems Engineering in 2023, both at Università degli Studi di Padova. Building on a strong academic background in electronics and applied control on complex systems, he has developed a deep expertise in modelling and control of electric drives.
His research interests revolve around advanced control strategies applied in areas such as autonomous systems and complex dynamic processes, which aims to improve the safety, efficiency, and adaptability of autonomous systems in uncertain environments.
This talk deals with the characterization and the online tracking of the minimum losses trajectory in hybrid excited permanent magnet motors. In electrical machines including a rotor winding producing a flux, Joule losses are produced in the rotor as well. Thus, the optimal control trajectory to develop the maximum torque per losses has to consider not only the stator losses, but the rotor losses as well.To this end, we will talk about the extremum seeking control strategy, analyzing the conditions to ensure the convergence of the system to a stable operating point. We will also address the accuracy of the control technique by evaluating the results obtained on a prototype of an hybrid excited permanent magnet motor.
BIOGRAPHY
Simone Baratto received his B.Sc. degree in Electronic Engineering in 2021 and his M.Sc. degree in Control Systems Engineering in 2023, both at Università degli Studi di Padova. Building on a strong academic background in electronics and applied control on complex systems, he has developed a deep expertise in modelling and control of electric drives.
His research interests revolve around advanced control strategies applied in areas such as autonomous systems and complex dynamic processes, which aims to improve the safety, efficiency, and adaptability of autonomous systems in uncertain environments.
Practical information
- General public
- Free
Organizer
- Professor Giancarlo Ferrari Trecate