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ORCIDKateryna Stoyka
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2020 – today
- 2022
[j6]Alberto Delgado
, Giulia Di Capua, Kateryna Stoyka, Lixin Shi, Nicola Femia, Antonio Maffucci, Salvatore Ventre, Pedro Alou, Jesús Ángel Oliver, José Antonio Cobos:
Self and Mutual Inductance Behavioral Modeling of Square-Shaped IPT Coils With Air Gap and Ferrite Core Plates. IEEE Access 10: 7476-7488 (2022)- 2021
- [j5]Kateryna Stoyka, Gennaro Di Mambro, Nicola Femia, Antonio Maffucci, Salvatore Ventre, Fabio Villone:
Behavioral modeling of Wireless Power Transfer System coils. Math. Comput. Simul. 183: 208-220 (2021) - [j4]Giulia Di Capua, Nicola Femia, Kateryna Stoyka, Gennaro Di Mambro, Antonio Maffucci, Salvatore Ventre, Fabio Villone:
Mutual Inductance Behavioral Modeling for Wireless Power Transfer System Coils. IEEE Trans. Ind. Electron. 68(3): 2196-2206 (2021) - 2020
- [j3]Kateryna Stoyka, Nicola Femia, Giulia Di Capua:
Power Inductors Behavioral Modeling Revisited. IEEE Trans. Circuits Syst. 67-I(12): 5636-5649 (2020) - [c19]Nicola Femia, Giulia Di Capua, Kateryna Stoyka:
Saturation and Thermal Stability of Power Inductors. ICECS 2020: 1-4 - [c18]Kateryna Stoyka, Giulia Di Capua, Nicola Femia:
Coupled Inductors Analysis with Saturation and Thermal Effects. ICECS 2020: 1-4 - [c17]Kateryna Stoyka, Luca De Guglielmo, Giulia Di Capua, Nicola Femia:
Transmitter Input Current Modeling in Electric Vehicles Dynamic Charging IPT Systems. ICECS 2020: 1-4 - [c16]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
- [j2]Alberto Oliveri, Giulia Di Capua, Kateryna Stoyka, Matteo Lodi, Marco Storace, Nicola Femia:
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) - [c15]Kateryna Stoyka, Giulia Di Capua, Nicola Femia:
Normalized Inductance Modeling for Ferrite Power Inductor Families. ICECS 2019: 843-846 - [c14]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Impact of Inductors Saturation on DC-DC Switching Regulators. RTSI 2019: 254-259 - [c13]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Design of Differential-Mode Input Filters for DC-DC Switching Regulators. SMACD 2019: 165-168 - [c12]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
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
- [c11]Kateryna Stoyka, Giulia Di Capua, Nicola Femia:
Modeling of Stepped Air-Gap Ferrite Inductors in Switching Power Supplies. ICECS 2018: 401-404 - [c10]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Loss Behavioral Modeling for Ferrite Inductors. SMACD 2018: 1-9 - [c9]Kateryna Stoyka, Ricieri Akihito Pessinatti Ohashi, Nicola Femia:
Behavioral Switching Loss Modeling of Inverter Modules. SMACD 2018: 1-120 - 2017
- [j1]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
A generalized numerical method for ferrite inductors analysis in high current ripple operation. Integr. 58: 473-484 (2017) - [c8]Giulia Di Capua, Nicola Femia, Mario Migliaro, Anna Rizzo, Olga Sacco, Diana Sannino, Kateryna Stoyka, Vincenzo Vaiano:
Photocatalytic reactor with multiphase digital control of luminous radiation. ICIT 2017: 177-182 - [c7]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Validation of inductors sustainable-saturation-operation in switching power supplies design. ICIT 2017: 242-247 - [c6]Giulia Di Capua, Nicola Femia, Kateryna Stoyka, Matteo Lodi, Alberto Oliveri, Marco Storace:
Ferrite inductor models for switch-mode power supplies analysis and design. SMACD 2017: 1-4 - [c5]Kateryna Stoyka, Nicola Femia, Giulia Di Capua:
Optimizing power converters with partially saturated inductors by evolutionary algorithms. SMACD 2017: 1-4 - 2016
- [c4]Giulia Di Capua, Nicola Femia, Mario Migliaro, Kateryna Stoyka:
Genetic programming approach for identification of ferrite inductors power loss models. IECON 2016: 1112-1117 - [c3]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
An improved algorithm for the analysis of partially saturated ferrite inductors in switching power supplies. SMACD 2016: 1-4 - 2015
- [c2]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Differential evolution algorithm-based identification of Ferrite Core Inductors saturation curves. INDIN 2015: 1636-1641 - [c1]Kateryna Stoyka, Giulia Di Capua, Antonio Della Cioppa, Nicola Femia, Giovanni Spagnuolo:
Identification of ferrite core inductors parameters by evolutionary algorithms. INDIN 2015: 1648-1653
Coauthor Index
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