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Nicola Femia
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2020 – today
- 2024
- [c65]Giulia Di Capua, Antonio Maffucci, Domenico Capriglione, Gennaro Di Mambro, Nicola Femia, Nunzio Oliva, Luca De Guglielmo:
Mutual Inductance Modeling for the Analysis of the Impact on Wireless Power Transfer Systems. M&N 2024: 1-6 - 2023
- [c64]Giulia Di Capua
, Nunzio Oliva, Filippo Milano, Carmine Bourelly, Francesco Porpora
A Behavioral Model for Lithium Batteries based on Genetic Programming. ISCAS 2023: 1-5 - [c63]Giulia Di Capua
GaN Power Transistors Behavioral Modeling. SMACD 2023: 1-4 - [c62]Nicola Femia, Hamidreza Jafarian, Giulia Di Capua
Power Losses Analysis of SiC MOSFETs in DC-DC Converters with High-Ripple-Current Inductors. SMACD 2023: 1-4 - 2022
- [j21]Alberto Delgado
Self and Mutual Inductance Behavioral Modeling of Square-Shaped IPT Coils With Air Gap and Ferrite Core Plates. IEEE Access 10: 7476-7488 (2022) - [c61]Giulia Di Capua
Exploiting Saturable Inductors in SEPIC Regulators. SMACD 2022: 1-4 - [c60]Gennaro Di Mambro
Control-Oriented Optimization of Coil Pair Design in Dynamic WPT Systems for Electrical Vehicles. SMACD 2022: 1-4 - [c59]Giulia Di Capua
Modeling of Ferrite Inductors Power Loss Based on Genetic Programming and Neural Networks. WIVACE 2022: 245-253 - 2021
- [j20]Giulia Di Capua
Optimal Coils and Control Matching in Wireless Power Transfer Dynamic Battery Chargers for Electric Vehicles. IEEE Access 9: 166542-166551 (2021) - [j19]Kateryna Stoyka
Behavioral modeling of Wireless Power Transfer System coils. Math. Comput. Simul. 183: 208-220 (2021) - [j18]Giulia Di Capua
Mutual Inductance Behavioral Modeling for Wireless Power Transfer System Coils. IEEE Trans. Ind. Electron. 68(3): 2196-2206 (2021) - [c58]Nicola Femia, Giulia Di Capua
Optimum Design of Differential-Mode Input Filters for DC-DC Switching Regulators. ISCAS 2021: 1-5 - 2020
- [j17]Kateryna Stoyka
Power Inductors Behavioral Modeling Revisited. IEEE Trans. Circuits Syst. 67-I(12): 5636-5649 (2020) - [c57]Nicola Femia, Giulia Di Capua
Saturation and Thermal Stability of Power Inductors. ICECS 2020: 1-4 - [c56]Kateryna Stoyka, Giulia Di Capua
Coupled Inductors Analysis with Saturation and Thermal Effects. ICECS 2020: 1-4 - [c55]Kateryna Stoyka, Luca De Guglielmo, Giulia Di Capua
Transmitter Input Current Modeling in Electric Vehicles Dynamic Charging IPT Systems. ICECS 2020: 1-4 - [c54]Kateryna Stoyka, Giulia Di Capua, Gennaro Di Mambro, Nicola Femia, Fabio Freschi, Antonio Maffucci, Salvatore Ventre:
Behavioral Models for the Analysis of Dynamic Wireless Charging Systems for Electrical Vehicles. ISCAS 2020: 1-5
2010 – 2019
- 2019
- [j16]Pietro Burrascano
A Pulse Compression procedure for power inductors modeling up to moderate non-linearity. Integr. 66: 16-23 (2019) - [j15]Alberto Oliveri
A Power-Loss-Dependent Inductance Model for Ferrite-Core Power Inductors in Switch-Mode Power Supplies. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(6): 2394-2402 (2019) - [c53]Kateryna Stoyka, Giulia Di Capua
Normalized Inductance Modeling for Ferrite Power Inductor Families. ICECS 2019: 843-846 - [c52]Nicola Femia, Giulia Di Capua
On Buck-Boost Converter Power Inductor Matching. ISCAS 2019: 1-5 - [c51]Giulia Di Capua
Impact of Inductors Saturation on DC-DC Switching Regulators. RTSI 2019: 254-259 - [c50]Giulia Di Capua
Design of Differential-Mode Input Filters for DC-DC Switching Regulators. SMACD 2019: 165-168 - [c49]Giulia Di Capua
Sensitivity Analysis of Inductive Power Transfer Systems for Electric Vehicles Battery Charging. SMACD 2019: 173-176 - [i1]Kateryna Stoyka, Ricieri Akihito Pessinatti Ohashi, Nicola Femia:
Behavioral Switching Loss Modeling of Inverter Modules. CoRR abs/1906.04428 (2019) - 2018
- [j14]Erhan Ozalevli
A Cost-Effective Adaptive Rectifier for Low Power Loosely Coupled Wireless Power Transfer Systems. IEEE Trans. Circuits Syst. I Regul. Pap. 65-I(7): 2318-2329 (2018) - [c48]Kateryna Stoyka, Giulia Di Capua
Modeling of Stepped Air-Gap Ferrite Inductors in Switching Power Supplies. ICECS 2018: 401-404 - [c47]Nicola Femia, Giulia Di Capua
Hysteretic Regulators with Partially-Saturated Inductors. ICECS 2018: 417-420 - [c46]Giulia Di Capua
Loss Behavioral Modeling for Ferrite Inductors. SMACD 2018: 1-9 - [c45]Kateryna Stoyka, Ricieri Akihito Pessinatti Ohashi, Nicola Femia:
Behavioral Switching Loss Modeling of Inverter Modules. SMACD 2018: 1-120 - [c44]Pietro Burrascano, Giulia Di Capua
Pulse Compression for Ferrite Inductors Modeling in Moderate Saturation. SMACD 2018: 229-232 - [c43]Giulia Di Capua
Geometric form Factors-Based Power Transformers Design. SMACD 2018: 245-248 - 2017
- [j13]Giulia Di Capua
A generalized numerical method for ferrite inductors analysis in high current ripple operation. Integr. 58: 473-484 (2017) - [c42]Nicola Femia:
A cost-effective technique for dynamic testing of DC-DC power supplies. ICIT 2017: 6-11 - [c41]Giulia Di Capua
Photocatalytic reactor with multiphase digital control of luminous radiation. ICIT 2017: 177-182 - [c40]Giulia Di Capua
Validation of inductors sustainable-saturation-operation in switching power supplies design. ICIT 2017: 242-247 - [c39]Giulia Di Capua
Ferrite inductor models for switch-mode power supplies analysis and design. SMACD 2017: 1-4 - [c38]Nicola Femia, Giulia Di Capua
Impact of receiver conversion configuration on the efficiency of Wireless Power Transfer Systems. SMACD 2017: 1-4 - [c37]Nicola Femia, Giulia Di Capua
Harmonic analysis of diode-bridge rectifiers in Wireless Power Transfer System. SMACD 2017: 1-4 - [c36]Kateryna Stoyka, Nicola Femia, Giulia Di Capua
Optimizing power converters with partially saturated inductors by evolutionary algorithms. SMACD 2017: 1-4 - 2016
- [j12]Giulia Di Capua
Impact of losses and mismatches on power and efficiency of Wireless Power Transfer Systems with controlled secondary-side rectifier. Integr. 55: 384-392 (2016) - [c35]Nicola Femia, Mario Migliaro, Antonio Della Cioppa
A genetic programming approach to modeling power losses of Insulate Gate Bipolar Transistors. CEC 2016: 4705-4712 - [c34]Giulia Di Capua
Genetic programming approach for identification of ferrite inductors power loss models. IECON 2016: 1112-1117 - [c33]Nicola Femia:
Feedback Injection-based Technique for DC-DC power supplies transient and AC response testing. IECON 2016: 4983-4988 - [c32]Nicola Femia, Giulia Di Capua
Power vs efficiency analysis in high-frequency wireless power transfer systems - Part I: Model. RTSI 2016: 1-5 - [c31]Nicola Femia, Giulia Di Capua
Power vs efficiency analysis in high-frequency wireless power transfer systems - Part II: Applications. RTSI 2016: 1-5 - [c30]Giulia Di Capua
Impact of semiconductors on the performance of Wireless Power Transfer Systems. SMACD 2016: 1-4 - [c29]Giulia Di Capua
An improved algorithm for the analysis of partially saturated ferrite inductors in switching power supplies. SMACD 2016: 1-4 - [c28]Nicola Femia, Mario Migliaro, C. Pastore, Davide Toledo:
In-system IGBT power loss behavioral modeling. SMACD 2016: 1-4 - 2015
- [c27]Giulia Di Capua
Switching power supplies operating with partially saturated inductors. ICIT 2015: 1205-1210 - [c26]Massimiliano De Cristofaro, Giulia Di Capua
Models and methods for energy productivity analysis of PV systems. INDIN 2015: 1153-1158 - [c25]Massimiliano De Cristofaro, Nicola Femia, Giovanni Petrone, Giampaolo Buticchi
The effect of a constant power load on the stability of a smart transformer. INDIN 2015: 1605-1610 - [c24]Giulia Di Capua
Differential evolution algorithm-based identification of Ferrite Core Inductors saturation curves. INDIN 2015: 1636-1641 - [c23]Kateryna Stoyka, Giulia Di Capua
Identification of ferrite core inductors parameters by evolutionary algorithms. INDIN 2015: 1648-1653 - 2014
- [j11]Giulia Di Capua
A Critical Investigation of Coupled Inductors SEPIC Design Issues. IEEE Trans. Ind. Electron. 61(6): 2724-2734 (2014) - [c22]Federico Baronti, Nicola Femia
Comparing open-circuit voltage hysteresis models for lithium-iron-phosphate batteries. IECON 2014: 5635-5640 - [c21]Giulia Di Capua
Analysis and characterization of power MOSFETs for power converters energy&reliability-aware-design. ISIE 2014: 410-415 - [c20]Massimiliano De Cristofaro, Nicola Femia
Minimum computing adaptive MPPT control. ISIE 2014: 1384-1389 - 2013
- [j10]Nicola Femia
Optimal control of photovoltaic arrays. Math. Comput. Simul. 91: 1-15 (2013) - [j9]Antonietta De Nardo, Giulia Di Capua
Transformer Design for Isolated Switching Converters Based on Geometric Form Factors of Magnetic Cores. IEEE Trans. Ind. Electron. 60(6): 2158-2166 (2013) - [c19]Andrea Cantillo, Giulia Di Capua
Stability limit analysis for peak-current-controlled Ćuk converter. IECON 2013: 1284-1289 - [c18]Federico Baronti
Experimental analysis of open-circuit voltage hysteresis in lithium-iron-phosphate batteries. IECON 2013: 6728-6733 - [c17]Nicola Femia
Storage unit and load management in photovoltaic inverters for residential application. IECON 2013: 6800-6805 - [c16]Federico Baronti
Parameter identification of Li-Po batteries in electric vehicles: A comparative study. ISIE 2013: 1-7 - 2012
- [c15]Nicola Femia
Photovoltaic-fed LED lighting system with SOC-based dimmable LED load. IECON 2012: 1132-1137 - 2011
- [j8]Andrea Cantillo, Antonietta De Nardo, Nicola Femia
A Unified Practical Design Method for Capacitors of Switching Converters. IEEE Trans. Ind. Electron. 58(8): 3521-3536 (2011) - 2010
- [j7]Antonietta De Nardo, Nicola Femia
Optimal Buck Converter Output Filter Design for Point-of-Load Applications. IEEE Trans. Ind. Electron. 57(4): 1330-1341 (2010)
2000 – 2009
- 2009
- [j6]Nicola Femia
Dynamic model of one-cycle control for converters operating in continuous and discontinuous conduction modes. Int. J. Circuit Theory Appl. 37(5): 661-684 (2009) - [j5]Nicola Femia
A Technique for Improving P&O MPPT Performances of Double-Stage Grid-Connected Photovoltaic Systems. IEEE Trans. Ind. Electron. 56(11): 4473-4482 (2009) - [c14]Andrea Cantillo, Antonietta De Nardo, Nicola Femia
Scoring criteria for the selection of capacitors in DC to DC converters design. ICECS 2009: 287-290 - [c13]Andrea Cantillo, Antonietta De Nardo, Nicola Femia
A unified model for filter capacitor constraints in DC to DC switching converters design. ICECS 2009: 295-298 - 2008
- [j4]Nicola Femia
Distributed Maximum Power Point Tracking of Photovoltaic Arrays: Novel Approach and System Analysis. IEEE Trans. Ind. Electron. 55(7): 2610-2621 (2008) - [c12]Antonietta De Nardo, Nicola Femia
Optimal design of input filters for dc-dc switching regulator using ceramic and electrolytic capacitors. ICECS 2008: 950-953 - [c11]Antonietta De Nardo, Nicola Femia
SEPIC converter passive components design. ICECS 2008: 1002-1005 - 2006
- [c10]Luigi Egiziano, Nicola Femia, D. Granozio, Giovanni Petrone, Giovanni Spagnuolo
Photovoltaic inverters with Perturb&Observe MPPT technique and one-cycle control. ISCAS 2006 - [c9]Nicola Femia, Giovanni Petrone, Giovanni Spagnuolo, Massimo Vitelli:
One-cycle control of converters operating in DCM. ISCAS 2006 - 2004
- [j3]Margherita DiLorenzo del Casale, Nicola Femia
Selection of optimal closed-loop controllers for DC-DC voltage regulators based on nominal and tolerance design. IEEE Trans. Ind. Electron. 51(4): 840-849 (2004) - 2003
- [c8]Luigi Egiziano, Nicola Femia, Giovanni Spagnuolo, Massimo Vitelli:
Steady-state analysis of PWM DC-to-DC regulators. ISCAS (3) 2003: 288-291 - 2002
- [c7]Margherita DiLorenzo del Casale, Nicola Femia, Patrizia Lamberti
Nominal and tolerance design of closed-loop controllers for DC-DC voltage regulators. ISCAS (4) 2002: 747-750 - [c6]Massimo Vitelli
Tolerance design of DC-DC switching regulators. ISCAS (4) 2002: 751-754 - 2001
- [c5]Massimo De Santo, Nicola Femia, Mario Molinara, Giovanni Spagnuolo:
Multi agent systems for circuit tolerance and sensitivity analysis. ISCAS (5) 2001: 343-346 - [c4]Nicola Femia, Giovanni Spagnuolo, Massimo Vitelli:
Generalized invariant models for the analysis of soft-switching cells. ISCAS (3) 2001: 672-675 - 2000
- [c3]Nicola Femia, Massimo Vitelli, Giovanni Spagnuolo, Domenico Cerbasi:
Analysis of hard synchronous commutations in switching converters. ISCAS 2000: 251-254 - [c2]Nicola Femia, Massimo Vitelli, Domenico Cerbasi, Giovanni Spagnuolo:
Analysis of soft synchronous commutations in switching converters. ISCAS 2000: 268-271
1990 – 1999
- 1999
- [c1]Massimo De Santo, Nicola Femia, Giovanni Spagnuolo, Francesca Arcelli:
A novel software architecture for computer-aided analysis of circuits with uncertain parameters. ISCAS (5) 1999: 230-233 - 1996
- [j2]Nicola Femia, Giovanni Spagnuolo, V. Tucci:
Errata: "Interval Analysis in Power Electronics". J. Circuits Syst. Comput. 6(2): 185-186 (1996) - 1995
- [j1]Nicola Femia, Giovanni Spagnuolo
Interval Analysis in Power Electronics. J. Circuits Syst. Comput. 5(3): 317-336 (1995)
Coauthor Index
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