Carlo TRIGONA
Archivio avvisi
Upcoming lectures for the course "Smart Energy Harvesting Devices"
Students are informed that classes tomorrow (7 March) and on Friday (8 March) are suspended. The next class will be on Tuesday, the 12th, at 8 a.m. in the INF A classroom.
Talk Prof. Derbel - martedì 30 Gennaio
Talk n.1 (30/01/2024 11:00-11.45) – BUILDING 14 – ROOM D31
Advancements in novel measurement systems, materials, and wireless power transfer designed for biomedical applications
Abstract: In the first step of this talk, I will present the University of Sfax, then the National Engineering School of Sfax, and then the Control and Energy Management Laboratory. The second step consists to present our project TIRAM which is entitled « Teleassistance for people with respiratory difficulties using ventilation adapted to thoracic tomographic bioimpedance measurements ». The aim of this project
Talk 6 July 10:00 D31
1) 10-10.30 D31, 6-July "Synchronization in energy harvesting systems with multiple resonators", Prof. Grzegorz Litak, Lublin University of Technology, Lublin, Poland
2) 10.30-11.00 D31, 6-July "Impulse excitation diagram in energy harvesting systems" Prof. Damian Gąska, Prof. Jerzy Margielewicz, Silesian University of Technology, Poland
Inizio lezioni MISURE ELETTRICHE
Si comunica agli studenti che il corso "9795455 - MISURE ELETTRICHE" comincerà lunedì giorno 13 marzo, 14-17 aula IE.
First lesson-SMART ENERGY HARVESTING DEVICES
The course "1016157 - SMART ENERGY HARVESTING DEVICES" will begin on Tuesday - March 14, 9-11 room D43.
Nonlinear effects in vibration energy harvesting
Prof. Grzegorz Litak
Head of Department of Automation at the Lublin University of Technology, Lublin, Poland
Friday 30 July 2021 11:00-11:40 AM – Zoom
https://zoom.us/j/97841699952?pwd=S2JpM0hrUWplWXFyS2MrR3p2MHZGUT09
ID: 978 4169 9952; Passcode: 4QhZ11
A frequency transmission band of the nonlinear energy harvester are studied experimentally and numerically. For the analysis, the nonlinear piezoelectric energy harvesting system based on a cantilever elastic beam has been applied to harvest the kinetic energy of the moving frame. In modelling we used a double-well like potential induced by permanent