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ORCIDAndrii Chub
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2020 – today
- 2024
[j24]Andrii Chub, Naser Hassanpour, Neelesh Yadav
, Tanel Jalakas, Andrei Blinov, Dmitri Vinnikov:
Analysis of Design Requirements and Optimization Possibilities of Partial Power Converter for Photovoltaic String Applications in DC Microgrids. IEEE Access 12: 14605-14619 (2024)- [j23]Abderahmane Abid, Abualkasim Bakeer, Hani Albalawi, Mansour Bouzidi, Abderezak Lashab, Andrii Chub, Sherif A. Zaid:
Model-Free Predictive Control for Improved Performance and Robustness of Three-Phase Quasi Z-Source Inverters. IEEE Access 12: 87850-87863 (2024) - [j22]Abualkasim Bakeer, Andrii Chub, Dmitri Vinnikov:
Self-Healing Photovoltaic Microconverter With Zero Redundancy and Accurate Low-Cost Fault Detection. IEEE Trans. Ind. Electron. 71(1): 646-656 (2024) - [j21]Edivan Laercio Carvalho, Aleksandra Sidorova, Andrei Blinov, Andrii Chub, Dmitri Vinnikov:
Design Considerations of Dual-Active Bridge DC Grid-Forming Converter for DC Buildings. IEEE Trans. Ind. Electron. 71(9): 10601-10611 (2024) - 2023
- [j20]Vadim Sidorov, Andrii Chub, Dmitri Vinnikov, Andre Lindvest:
Novel Universal Power Electronic Interface for Integration of PV Modules and Battery Energy Storages in Residential DC Microgrids. IEEE Access 11: 30845-30858 (2023) - [j19]Abderahmane Abid, Abualkasim Bakeer, Hani Albalawi, Laid Zellouma, Mansour Bouzidi, Abderezak Lashab, Boualaga Rabhi, Andrii Chub:
Optimized Modulation Scheme for Four-Leg Quasi Z-Source Inverter: Reducing Power Loss and Improving Output Quality. IEEE Access 11: 94125-94137 (2023) - [j18]Edivan Laercio Carvalho, Andrei Blinov, Pietro Emiliani, Andrii Chub, Dmitri Vinnikov:
Three-Phase Bidirectional Isolated AC-DC Matrix-Converter With Full Soft-Switching Range. IEEE Access 11: 119270-119283 (2023) - [c26]Edivan Laercio Carvalho, Andrei Blinov, Andrii Chub, Dmitri Vinnikov:
Effect of Droop Control Curves on the Efficiency of Dual-Active Bridge Converters. IECON 2023: 1-6 - 2022
- [j17]Omar Abdel-Rahim, Andrii Chub, Dmitri Vinnikov, Andrei Blinov:
DC Integration of Residential Photovoltaic Systems: A Survey. IEEE Access 10: 66974-66991 (2022) - [j16]Omar Abdel-Rahim, Andrii Chub, Hamed Mashinchi Maheri, Andrei Blinov, Dmitri Vinnikov:
High-Performance Buck-Boost Partial Power Quasi-Z-Source Series Resonance Converter. IEEE Access 10: 130177-130189 (2022) - [j15]Andrei Blinov, Oleksandr Korkh, Andrii Chub, Dmitri Vinnikov, Dimosthenis Peftitsis, Staffan Norrga, Ilya Galkin:
High Gain DC-AC High-Frequency Link Inverter With Improved Quasi-Resonant Modulation. IEEE Trans. Ind. Electron. 69(2): 1465-1476 (2022) - [c25]Omar Abdel-Rahim, Andrii Chub, Andrei Blinov, Dmitri Vinnikov:
Series Buck-Boost Partial Power Converter based on the Push-Pull converter. IECON 2022: 1-5 - [c24]Edivan Laercio Carvalho, Andrei Blinov, Andrii Chub, Dmitri Vinnikov:
Analysis of Holdup Time for DC Grid-Forming Isolated Active Front-End Converters. IECON 2022: 1-6 - [c23]Pietro Emiliani, Andrei Blinov, Andrii Chub, Giovanni De Carne, Dmitri Vinnikov:
Black Start and Fault Tolerant Operation of Isolated Matrix Converter for dc Microgrids. IECON 2022: 1-5 - 2021
- [j14]Carlos Restrepo, Catalina González-Castaño, Javier A. Muñoz, Andrii Chub, Enric Vidal-Idiarte, Roberto Giral:
An MPPT Algorithm for PV Systems Based on a Simplified Photo-Diode Model. IEEE Access 9: 33189-33202 (2021) - [j13]Catalina González-Castaño, Carlos Restrepo, Fredy Sanz, Andrii Chub, Roberto Giral:
DC Voltage Sensorless Predictive Control of a High-Efficiency PFC Single-Phase Rectifier Based on the Versatile Buck-Boost Converter. Sensors 21(15): 5107 (2021) - [j12]Denys Zinchenko, Andrei Blinov, Andrii Chub, Dmitri Vinnikov, Ievgen Verbytskyi, Sertac Bayhan:
High-Efficiency Single-Stage On-Board Charger for Electrical Vehicles. IEEE Trans. Veh. Technol. 70(12): 12581-12592 (2021) - [c22]Omar Abdel-Rahim, Andrii Chub, Andrei Blinov, Dmitri Vinnikov:
New High-Gain Non-Inverting Buck-Boost Converter. IECON 2021: 1-6 - [c21]Tanel Jalakas, Roman Kosenko, Andrii Chub, Dmitri Vinnikov, Andrei Blinov:
Current-Fed Partial Power Converter for Photovoltaic Applications in DC Microgrids. IECON 2021: 1-5 - 2020
- [j11]Dmitri Vinnikov, Andrii Chub, Denys Zinchenko, Vadim Sidorov, Mariusz Malinowski, Sertac Bayhan:
Topology-Morphing Photovoltaic Microconverter With Wide MPPT Voltage Window and Post-Fault Operation Capability. IEEE Access 8: 153941-153955 (2020) - [j10]Andrii Chub, Dmitri Vinnikov, Roman Kosenko, Elizaveta Liivik, Ilya Galkin:
Bidirectional DC-DC Converter for Modular Residential Battery Energy Storage Systems. IEEE Trans. Ind. Electron. 67(3): 1944-1955 (2020) - [c20]Andrii Chub, Denys Zinchenko, Dmitri Vinnikov, Andrei Blinov:
Three-Port Flyback Converter for Photovoltaic Module Integration in Bipolar DC Microgrids. ICIT 2020: 909-914 - [c19]Dmitri Vinnikov, Andrii Chub, Oleksandr Korkh, Elizaveta Liivik, Andrei Blinov:
Voltage Gain Extension Techniques for High Step-Up Galvanically Isolated DC-DC Converters. ICIT 2020: 1021-1027 - [c18]Andrei Blinov, Oleksandr Korkh, Andrii Chub, Dmitri Vinnikov:
Improved Modulation Method for Full-Bridge AC-DC HF-Link Converter. ICIT 2020: 1173-1177
2010 – 2019
- 2019
- [j9]Andrei Blinov, Roman Kosenko, Andrii Chub, Dmitri Vinnikov:
Snubberless boost full-bridge converters: Analysis of soft switching performance and limitations. Int. J. Circuit Theory Appl. 47(6): 884-908 (2019) - [j8]Dmitri Vinnikov, Andrii Chub, Elizaveta Liivik, Roman Kosenko, Oleksandr Korkh:
Solar Optiverter - A Novel Hybrid Approach to the Photovoltaic Module Level Power Electronics. IEEE Trans. Ind. Electron. 66(5): 3869-3880 (2019) - [j7]Yanfeng Shen, Andrii Chub, Huai Wang, Dmitri Vinnikov, Elizaveta Liivik, Frede Blaabjerg:
Wear-Out Failure Analysis of an Impedance-Source PV Microinverter Based on System-Level Electrothermal Modeling. IEEE Trans. Ind. Electron. 66(5): 3914-3927 (2019) - [c17]Farhad Abbasi Aghdam Meinagh, Ebrahim Babaei, Dmitri Vinnikov, Andrii Chub:
Modified High Voltage Gain Soft-Switched Quasi-Switched Boost Inverter. ICIT 2019: 1087-1092 - [c16]Dmitri Vinnikov, Andrii Chub, Oleksandr Korkh, Samir Kouro:
Wide Input Voltage Range High Step-Up DC-DC Converter with Fault-Tolerant Operation Capability. ICIT 2019: 1099-1104 - [c15]Andrii Chub, Dmitri Vinnikov, Samir Kouro, Mariusz Malinowski:
Three-Mode Reconfigurable Rectifier for DC-DC Converters with Wide Input Voltage Range. IECON 2019: 4429-4435 - [c14]Elizaveta Liivik, Dmitri Vinnikov, Andrii Chub, Yanfeng Shen, Huai Wang, Frede Blaabjerg:
Reliability Study of Input Side Capacitors in Impedance-Source PV Microconverters. IECON 2019: 5026-5032 - [c13]Oleksandr Korkh, Andrei Blinov, Andrii Chub, Dmitri Vinnikov:
Zero-Current Switching Impedance-Source DC-DC Converter. IECON 2019: 5051-5056 - 2018
- [j6]Andrii Chub, Dmitri Vinnikov, Elizaveta Liivik, Tanel Jalakas:
Multiphase Quasi-Z-Source DC-DC Converters for Residential Distributed Generation Systems. IEEE Trans. Ind. Electron. 65(10): 8361-8371 (2018) - [c12]Andrii Chub, Dmitri Vinnikov, Elizaveta Liivik, Tanel Jalakas, Andrei Blinov:
Design of Multiphase Single-Switch Impedance-Source Converters. IECON 2018: 3718-3724 - [c11]Andrei Blinov, Roman Kosenko, Andrii Chub, Dmitri Vinnikov:
Bidirectional Soft Switching Current Source DC-DC Converter for Residential DC Microgrids. IECON 2018: 6059-6064 - [c10]Elizaveta Liivik, Andrii Chub, Ariya Sangwongwanich, Yanfeng Shen, Dmitri Vinnikov, Frede Blaabjerg:
Wear-Out Failure Analysis of Solar Optiverter Operating with 60- and 72-Cell Si Crystalline PV Modules. IECON 2018: 6134-6140 - 2017
- [j5]Andrii Chub, Dmitri Vinnikov, Roman Kosenko, Elizaveta Liivik:
Wide Input Voltage Range Photovoltaic Microconverter With Reconfigurable Buck-Boost Switching Stage. IEEE Trans. Ind. Electron. 64(7): 5974-5983 (2017) - [j4]Andrii Chub, Oleksandr Husev, Andrei Blinov, Dmitri Vinnikov:
Novel Isolated Power Conditioning Unit for Micro Wind Turbine Applications. IEEE Trans. Ind. Electron. 64(7): 5984-5993 (2017) - [c9]Andrii Chub, Levy Ferreira Costa, Marco Liserre:
Analysis and design of asymmetric quad-active-bridge converter. IECON 2017: 5367-5372 - [c8]Dmitri Vinnikov, Andrii Chub, Elizaveta Liivik, Frede Blaabjerg:
Magnetically integrated high step-up resonant DC-DC converter for distributed photovoltaic systems. IECON 2017: 7691-7697 - [c7]Dmitri Vinnikov, Andrii Chub, Elizaveta Liivik:
Multiphase galvanically isolated impedance-source DC-DC converter for residential renewable energy applications. ISIE 2017: 1775-1780 - 2016
- [j3]Oleksandr Husev, Andrii Chub, Enrique Romero-Cadaval, Carlos Roncero-Clemente, Dmitri Vinnikov:
Hysteresis current control with distributed shoot-through states for impedance source inverters. Int. J. Circuit Theory Appl. 44(4): 783-797 (2016) - [j2]Alexander Suzdalenko, Andrii Chub:
Current sensorless control for half-bridge based AC/DC PFC converter with consideration of conduction losses. Int. J. Circuit Theory Appl. 44(12): 2072-2084 (2016) - [c6]Roman Kosenko, Andrii Chub, Andrei Blinov:
Full-soft-switching high step-up bidirectional isolated current-fed push-pull DC-DC converter for battery energy storage applications. IECON 2016: 6548-6553 - [c5]Dmitri Vinnikov, Andrii Chub, Elizaveta Liivik:
Single-switch galvanically isolated step-up DC-DC converter for residential photovoltaic applications. IECON 2016: 6578-6582 - 2015
- [j1]Oleksandr Husev, Lisa Liivik, Frede Blaabjerg, Andrii Chub, Dmitri Vinnikov, Indrek Roasto:
Galvanically Isolated Quasi-Z-Source DC-DC Converter With a Novel ZVS and ZCS Technique. IEEE Trans. Ind. Electron. 62(12): 7547-7556 (2015) - [c4]Andrii Chub, Dmitri Vinnikov, Tanel Jalakas:
Galvanically isolated quasi-Z-source DC-DC converters with combined energy transfer for renewable energy sources integration. ICIT 2015: 2896-2900 - [c3]Dmitri Vinnikov, Andrii Chub, Oleksandr Husev, Janis Zakis:
Quasi-Z-source half-bridge DC-DC converter for photovoltaic applications. ICIT 2015: 2935-2940 - [c2]Andrii Chub, Jacek Rabkowski, Andrei Blinov, Dmitri Vinnikov:
Study on power losses of the full soft-switching current-fed DC/DC converter with Si and GaN devices. IECON 2015: 13-18 - 2013
- [c1]Andrei Blinov, Andrii Chub, Dmitri Vinnikov, Toomas Rang:
Feasibility study of Si and SiC MOSFETs in high-gain DC/DC converter for renewable energy applications. IECON 2013: 5975-5978
Coauthor Index
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last updated on 2024-08-05 20:19 CEST by the dblp team
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