G. Acciari scite author profile

IEEE Trans. Power Electron.

Graci

Scala

2011

There is an increasing focus on reducing costs and improving efficiency for photovoltaic (PV) cells and modules as well as finding a more efficient approach to the product manufacturing. This letter introduces an innovative solution to bypass shaded PV cells instead of a traditional Schottky diode, in order to avoid overheating of cells in the case of partial shading. The goal is to reduce the power dissipation and improve the general efficiency of a PV generator. A novel device called cool bypass switch is then presented. It is made up of a Power MOS driven by a controller with the task to charge a storage capacitor. Tests and comparisons with standard Schottky diodes are then performed and experimental results are reported in terms of current intensity and operating temperature. The resulting circuit shows better diode performances and considerably lower dissipated power in shading condition. The little packing cases allow an easy integration inside the PV module. In comparison with traditional diodes, the integrated power switch provides a negligible leakage current during PV panel energy production

Harvesting rainfall energy by means of piezoelectric transducer

Viola

Miceli

2013

Theory and performance of parabolic true logarithmic amplifier

IEE Proc., Circuits Devices Syst.

Giannini

Limiti

1997

Piezoelectric Rainfall Energy Harvester Performance by an Advanced Arduino-Based Measuring System

IEEE Trans. on Ind. Applicat.

Caruso

Miceli

et al. 2018

This paper presents the performances of rainfall energy harvesting through the use of a piezoelectric transducer and an Arduino-based measuring system. Different studies agree on the possibility of generating electricity from rainfall, but to date, a study on measuring the quantity of energy produced during rainfall is still missing. The present study begins with results obtained from laboratory researchers using piezoelectric transducers and oscilloscopes, finalized to measure the energy produced from a single raindrop, and concludes with an ad hoc Arduino-based measuring system, aimed to measure the actual amount of electrical energy produced by a piezoelectric transducer that is exposed to rainfall of variable durations.

Piezoelectric model of rainfall energy harvester

Viola

Miceli

et al. 2014

In this paper a model to predict the harvest of the energy contained in rainfall by means of piezoelectric transducers is presented. Different studies agree on the level of suitable generated voltage on the electrodes of a piezoelectric transducer subjected to rainfall, but a complete characterization on the supplied power is still missing. This work, in order to limit optimistic forecasts, compares the behavior of the transducers subjected to real and artificial rainfall, a condition that has shown promising behavior in laboratory.