FEMIA, Nicola
FEMIA, Nicola
Dipartimento di Ingegneria dell'Informazione ed Elettrica e Matematica applicata/DIEM
A Behavioral Model for Lithium Batteries based on Genetic Programming
2023-01-01 Di Capua, G.; Oliva, N.; Milano, F.; Bourelly, C.; Porpora, F.; Maffucci, A.; Femia, N.
A Cost-Effective Adaptive Rectifier for Low Power Loosely Coupled Wireless Power Transfer Systems
2018-01-01 Ozalevli, Erhan; Femia, Nicola; DI CAPUA, Giulia; Subramonian, Rajaram; Du, Dingkun; Sankman, Joseph; El Markhi, Mustapha
A Cost-Effective Technique for Dynamic Testing of DC-DC Power Supplies
2017-01-01 Femia, Nicola
A Critical Investigation of Coupled Inductors SEPIC Design Issues
2014-01-01 DI CAPUA, Giulia; Femia, Nicola
A discrete time technique for accurate ripple recovery in DC-DC converter circuits
1992-01-01 Femia, Nicola; Tucci, Vincenzo
A Fast Analytical Method to Predict DC Operating Point of DC-DC Switching Regulators in Discontinuous Conduction Mode
2013-01-01 DI CAPUA, Giulia; Femia, Nicola; Zamboni, Walter
A fast method to find the state of switches after forced commutations in switching converters
1996-01-01 Femia, Nicola
A generalized numerical method for ferrite inductors analysis in high current ripple operation
2017-01-01 DI CAPUA, Giulia; Femia, Nicola; Stoyka, Kateryna
A genetic programming approach to modeling power losses of Insulate Gate Bipolar Transistors
2016-01-01 Femia, Nicola; Migliaro, Mario; DELLA CIOPPA, Antonio
A Layered Software Architecture with Uncertainty Handling Capabilities for Circuit Computer-Aided Design
1998-01-01 Arcelli Fontana, Francesca; DE SANTO, Massimo; Femia, Nicola; Spagnuolo, Giovanni; Vocca, Giovanni
A losses-based Analysis for Electric Vehicle Wireless Chargers
2015-01-01 DI CAPUA, Giulia; Aguado Sánchez, José Antonio; Triviño Cabrera, Alicia; Fernández Cabrera, David; Femia, Nicola; Petrone, Giovanni; Spagnuolo, Giovanni
A new analog MPPT technique: TEODI
2010-01-01 Femia, Nicola; Petrone, Giovanni; Spagnuolo, Giovanni; M., Vitelli
A Novel AC Power Loss Model for Ferrite Power Inductors
2019-01-01 Stoyka, Kateryna; Di Capua, Giulia; Femia, Nicola
A novel approach to transformers design based on acceptability boundary curves of magnetic cores
2010-01-01 DI CAPUA, Giulia; Femia, Nicola
A novel design method to prevent SEPIC’s instability
2008-01-01 DE NARDO, Antonietta; Femia, Nicola; Felice, Forrisi; Maurizio, Granato
A Novel Method to Predict the Real Operation of Ferrite Inductors with Moderate Saturation in Switching Power Supplies Applications
2016-01-01 DI CAPUA, Giulia; Femia, Nicola
A novel software architecture for computer-aided analysis of circuits with uncertain parameters
1999-01-01 DE SANTO, Massimo; Femia, Nicola; Spagnuolo, Giovanni; Arcelli Fontana, Francesca
A Numerical Method for ZVS Investigation in Isolated Converters
2015-01-01 DI CAPUA, Giulia; Femia, Nicola
A Power-Loss-Dependent Inductance Model for Ferrite-Core Power Inductors in Switch-Mode Power Supplies
2019-01-01 Oliveri, Alberto; DI CAPUA, Giulia; Stoyka, Kateryna; Lodi, Matteo; Storace, Marco; Femia, Nicola
A Pulse Compression procedure for power inductors modeling up to moderate non-linearity
2019-01-01 Burrascano, Pietro; DI CAPUA, Giulia; Femia, Nicola; Laureti, Stefano; Ricci, Marco