Your search keyword '"Husev, Oleksandr"' showing total 16 results

1. Grounding and Isolation Requirements in DC Microgrids: Overview and Critical Analysis.

Author

Azizi, Mohammadreza, Husev, Oleksandr, Veligorskyi, Oleksandr, Rahimpour, Saeed, and Roncero-Clemente, Carlos

Subjects

*CRITICAL analysis, *MICROGRIDS, *ENERGY futures

Abstract

DC microgrids, along with existing AC grids, are a future trend in energy distribution systems. At the same time, many related issues are still undefined and unsolved. In particular, uncertainty prevails in isolation requirements between AC grids and novel microgrids as well as in the grounding approaches. This paper presents a critical technical analysis and an overview of possible grounding approaches in DC systems and the feasibility of avoiding isolation between AC and DC grids. [ABSTRACT FROM AUTHOR]

Published

2023

2. Induction Generator with Direct Control and a Limited Number of Measurements on the Side of the Converter Connected to the Power Grid.

Author

Kasprowicz, Andrzej Bogdan, Husev, Oleksandr, and Strzelecki, Ryszard

Subjects

*ELECTRIC power distribution grids, *INDUCTION generators, *WIND turbine blades, *PULSE width modulation, *PHASE-locked loops, *VOLTAGE control, *GRIDS (Cartography)

Abstract

The article presents an induction generator connected to the power grid using the AC/DC/AC converter and LCL coupling filter. Three-level inverters were used in the converter, both from the generator side and the power grid side. The algorithm realizing Pulse Width Modulation (PWM) in inverters has been simplified to the maximum. Control of the induction generator was based on the Direct Field-Oriented Control (DFOC) method. At the same time, voltage control has been used for this solution. The MPPT algorithm has been extended to include the variable pitch range of wind turbine blades. The active voltage balancing circuit has been used in the inverter DC voltage circuit. In the control system of the grid converter with an LCL filter, the number of measurements was limited to the measurement of power grid currents and voltages. Synchronization of control from the power grid side is ensured by the use of a PLL loop with the system of preliminary suppression of undesired harmonics. [ABSTRACT FROM AUTHOR]

Published

2023

3. Design and Analysis of a DC Solid-State Circuit Breaker for Residential Energy Router Application.

Author

Rahimpour, Saeed, Husev, Oleksandr, and Vinnikov, Dmitri

Subjects

*NETWORK routers, *HYBRID integrated circuits, *FAULT currents, *SHORT-circuit currents, *CLEAN energy, *TEST validity

Abstract

Energy routers act as an interface between the distribution network and electrical facilities, which meet the requirements of clean energy substitution and achieve the energy sharing and information transmission in the energy network. However, the protection of the dc load side of residential energy routers including interruption and isolation of short-circuit fault currents is vital for discussion. Since the traditional mechanical and hybrid circuit breakers for dc fault protection have the drawback of slow operation, a solid-state circuit breaker (SSCB) is an optimal solution for fast dc fault interruption. In this paper, a dc SSCB is proposed that uses an RCD + MOV snubber circuit, which is considered the best and most complete circuit used in common SSCBs. There are two main contributions in this paper: First, a dc SSCB is designed, which isolates both positive and negative terminals of a circuit and its working principle and operating modes along with the formulas for calculation of crucial time intervals, voltages, and currents along with the design procedure are provided. Second, a soft turn-on auxiliary is designed to prevent a high current surge caused by the capacitance difference between the source and the load. The experimental results demonstrate the proper performance of the topology and the validity of the findings. [ABSTRACT FROM AUTHOR]

Published

2022

4. A Review of Hybrid Converter Topologies.

Author

Afshari, Hossein, Husev, Oleksandr, Matiushkin, Oleksandr, and Vinnikov, Dmitri

Subjects

*BATTERY storage plants, *SOLAR energy

Abstract

There is a growing interest in solar energy systems with storage battery assistance. There is a corresponding growing interest in hybrid converters. This paper provides a comprehensive review of hybrid converter topologies. The concept of a hybrid inverter is introduced and then classified into isolated and non-isolated structures based on using a galvanic transformer. The classification and description of each type are presented based on the features and applications. Furthermore, the most popular commercial solutions are investigated in terms of their simplicity, flexibility, efficiency, and battery technology. The summarizing features are presented through tables, and future trends for researchers to follow to develop efficient hybrid converters are discussed. This review paper is intended as a convenient reference for hybrid converter users. [ABSTRACT FROM AUTHOR]

Published

2022

5. Wireless Charging Station Design for Electric Scooters: Case Study Analysis.

Author

Shevchenko, Viktor, Pakhaliuk, Bohdan, Husev, Oleksandr, Vinnikov, Dmitri, and Strzelecki, Ryszard

Subjects

*WIRELESS power transmission, *AUTOMOBILE industry, *ELECTRON tube grids

Abstract

This study proposes an example of a wireless charging station design for a small-scale vehicle available on the market. The article analyzes basic transmitter inverter topologies and their compensation methods in terms of flexibility of control, tolerance to uncertainty in positioning, and the possibility of decreasing the integration price. Our comprehensive analysis focuses on the battery voltage range, energy capacity, cost, and travel distance. We evaluate the constraints of efficiency, transmitted power, amount of used material, and size of the energy delivery system based on our design example. The aim is to increase the penetration of wireless technology in terms of convenience and integration capabilities. [ABSTRACT FROM AUTHOR]

Published

2024

6. Single-Stage Buck–Boost Inverters: A State-of-the-Art Survey.

Author

Azizi, Mohammadreza, Husev, Oleksandr, and Vinnikov, Dmitri

Subjects

*SOLAR panels, *PHOTOVOLTAIC power systems, *VOLTAGE

Abstract

Single-stage buck–boost inverters have attracted the attention of many researchers, due to their ability to increase/decrease the output voltage in one power conversion stage. One of the most important uses of these inverters is in photovoltaic applications, where the voltage of the solar panels varies in a wide range. In recent years, many new inverters have been proposed to improve the performance of existing structures. In this paper, the state of the art of these single-stage buck–boost inverters is discussed. The advantages and disadvantages of each structure are examined from different perspectives, such as the number of components, losses, and performance. Finally, in a general comparison, the properties of all structures are discussed and summarized in a table. [ABSTRACT FROM AUTHOR]

Published

2022

7. Grid-Forming Operation of Energy-Router Based on Model Predictive Control with Improved Dynamic Performance.

Author

Najafzadeh, Mahdieh, Strzelecka, Natalia, Husev, Oleksandr, Roasto, Indrek, Nassereddine, Kawsar, Vinnikov, Dmitri, and Strzelecki, Ryszard

Subjects

*PREDICTION models, *VOLTAGE references, *MICROGRIDS, *REFERENCE values, *VOLTAGE, *ELECTRICAL load

Abstract

The focus of this study is on the grid-forming operation of the Energy Router (ER) based on Model Predictive Control (MPC). ER is regarded as a key component of microgrids. It is a converter that interfaces the microgrid (s) with the utility grid. The ER has a multiport structure and bidirectional energy flow control. The ER concept can be implemented in Nearly Zero-Energy Buildings (NZEB) to provide flexible energy control. A concept is proposed where the ER works as a single grid-forming converter. The challenge is to keep the predefined reference voltage and frequency inside the NZEB in all possible modes, including the idle operation mode, current sources, and nonlinear load control. To gain stability and output voltage quality, the MPC is proposed. The design of the modified MPC algorithm with improved dynamics performance is explained. PLECS software is utilized to verify the proposed algorithm. The results demonstrate the suitable performance of the proposed control method in terms of total harmonic distortion of the output voltage. The influence of weighting coefficiencies is evaluated, showing the higher impact of the capacitor filter voltage on lowering the total harmonics distortion of the output voltage. Finally, the capability of the control system toward step change in the reference value is evaluated. [ABSTRACT FROM AUTHOR]

Published

2022

8. Bidirectional Twisted Single-Stage Single-Phase Buck-Boost DC-AC Converter.

Author

Husev, Oleksandr, Matiushkin, Oleksandr, Roncero-Clemente, Carlos, Vinnikov, Dmitri, and Chopyk, Vasyl

Subjects

*DC-AC converters

Abstract

This paper describes a bidirectional twisted single-phase single-stage buck-boost dc-ac converter based on an output unfolding circuit. This solution is derived by the combination of an inverting buck-boost dc-dc converter and an unfolding circuit. The operation principle, component design guidelines, along with the control approach are presented. The zero-crossing distortion problem is discussed and solved by a simple approach. The simulation and experimental results confirm all theoretical statements. Loss distribution and achievable efficiency are analyzed. Finally, the pros and cons of the proposed solution, along with the most promising application field, are analyzed and discussed in the conclusion. [ABSTRACT FROM AUTHOR]

Published

2019

9. Experimental Comparison of Two-Level Full-SiC and Three-Level Si–SiC Quasi-Z-Source Inverters for PV Applications.

Author

Stepenko, Serhii, Husev, Oleksandr, Vinnikov, Dmitri, Roncero-Clemente, Carlos, Pires Pimentel, Sergio, and Santasheva, Elena

Subjects

*FIELD-effect transistors, *DC-AC converters, *METAL oxide semiconductor field-effect transistors, *TRANSISTORS, *PULSE width modulation transformers, *SEMICONDUCTORS

Abstract

The paper presents a comparative study of two solar string inverters based on the Quasi-Z-Source (QZS) network. The first solution comprises a full-SiC two-level QZS inverter, while the second design was built based on a three-level neutral-point-clamped QZS inverter with Silicon based Metal–Oxide–Semiconductor Field-Effect Transistors (Si MOSFETs). Several criteria were taken into consideration: the size of passive elements, thermal design and size of heatsinks, voltage stress across semiconductors, and efficiency investigation. The Photovoltaic (PV)-string rated at 1.8 kW power was selected as a case study system. The advantages and drawbacks of both solutions are presented along with conclusions. [ABSTRACT FROM AUTHOR]

Published

2019

10. Comparative Evaluation of Common-Ground Converters for Dual-Purpose Application.

Author

Hemmati Shahsavar, Tala, Rahimpour, Saeed, Vosoughi Kurdkandi, Naser, Fesenko, Artem, Matiushkin, Oleksandr, Husev, Oleksandr, and Vinnikov, Dmitri

Subjects

*COMPARATIVE method, *DC-to-DC converters, *DC-AC converters, *STRAY currents, *ELECTRIC current rectifiers, *COMPARATIVE studies

Abstract

The focus of this paper is to provide a comparative analysis of various common-ground converters that serve as dual-purpose power electronic interfaces. These interfaces are designed to be used in both DC and single-phase AC grids, utilizing the same terminals for both modes of operation. The idea lies in the utilization of the same semiconductors in the DC-DC and DC-AC configurations, resulting in minimal redundancy. Particular attention is focused on the comparative evaluation approach. A novel Flying Inductor (FI)-based converter was selected for experimental verification. The design example and experimental prototype of a dual-purpose DC-DC/AC power electronic converter is capable of providing 2 kVA of power in AC mode and 4 kW in DC mode. The experimental results indicate that the converter can operate in both AC and DC grids according to their respective modes. The conclusion of the study highlights the potential applications and main benefits of this technology. [ABSTRACT FROM AUTHOR]

Published

2023

11. Power Converter Solutions for Industrial PV Applications—A Review.

Author

Verbytskyi, Ievgen, Lukianov, Mykola, Nassereddine, Kawsar, Pakhaliuk, Bohdan, Husev, Oleksandr, and Strzelecki, Ryszard Michał

Subjects

*POWER electronics, *CONVERTERS (Electronics), *ENERGY storage, *SOLAR batteries, *HIGH voltages, *INDUSTRIAL applications, *MAXIMUM power point trackers

Abstract

As the use of photovoltaics becomes more widespread, new technologies for more efficient energy generation, transmission, and distribution based on power electronics converters are being developed. The most common applications are grid-on, energy storage, hybrid, and high voltage gain applications. These applications impose several additional requirements in the design of power converters associated with the solar battery's maximum power tracking and operation in a wide range of input currents and voltages. The practical realization of such solutions can be implemented on the basis of various topologies, which requires a preliminary application of criteria for assessing their effectiveness. The paper conducts a comparison of different topologies on power converters based on two parameters that describe their cost and power loss for various PV applications. For a straightforward study, these parameters are represented using the gain factor, which allows for an accurate comparison of the efficiency of various types of converters. [ABSTRACT FROM AUTHOR]

Published

2022

12. Design and Experimental Validation of a Single-Stage PV String Inverter with Optimal Number of Interleaved Buck-Boost Cells.

Author

Fesenko, Artem, Matiushkin, Oleksandr, Husev, Oleksandr, Vinnikov, Dmitri, Strzelecki, Ryszard, Kołodziejek, Piotr, and Dannier, Adolfo

Subjects

*SEMICONDUCTOR switches, *POWER density, *EXPERIMENTAL design, *DC-to-DC converters, *SEMICONDUCTORS

Abstract

Increasing converter power density is a problem of topical interest. This paper discusses an interleaved approach of the efficiency increase in the buck-boost stage of an inverter with unfolding circuit in terms of losses in semiconductors, output voltage ripples and power density. Main trends in the power converter development are reviewed. A losses model was designed and used for the proposed solution to find an optimal number of interleaved cells. It describes static and dynamic losses in semiconductor switches for buck and boost mode. The presented calculation results demonstrate the efficiency of the interleaved approach for photovoltaic system. 1 kW power converter prototype was designed with two parallel dc-dc cells for experimental verification of obtained theoretical results. The experimental results confirm theoretical statements. [ABSTRACT FROM AUTHOR]

Published

2021

13. Feasibility Study GaN Transistors Application in the Novel Split-Coils Inductive Power Transfer System with T-Type Inverter.

Author

Shevchenko, Viktor, Pakhaliuk, Bohdan, Husev, Oleksandr, Veligorskyi, Oleksandr, Stepins, Deniss, and Strzelecki, Ryszard

Subjects

*WIRELESS power transmission, *TRANSISTORS, *POWER electronics, *INDUCTIVE power transmission, *ELECTRIC current rectifiers, *AC DC transformers

Abstract

A promising solution for inductive power transfer and wireless charging is presented on the basis of a single-phase three-level T-type Neutral Point Clamped GaN-based inverter with two coupled transmitting coils. The article focuses on the feasibility study of GaN transistor application in the wireless power transfer system based on the T-type inverter on the primary side. An analysis of power losses in the main components of the system is performed: semiconductors and magnetic elements. System modeling was performed using Power Electronics Simulation Software (PSIM). It is shown that the main losses of the system are static losses in the filter inductor and rectifier diodes on the secondary side, while GaN transistors can be successfully used for the wireless power transfer system. The main features of the Printed Circuit Board (PCB) design of GaN transistors are considered in advance. [ABSTRACT FROM AUTHOR]

Published

2020

14. Optimal Rotating Receiver Angles Estimation for Multicoil Dynamic Wireless Power Transfer.

Author

Pakhaliuk, Bohdan, Shevchenko, Viktor, Mućko, Jan, Husev, Oleksandr, Lukianov, Mykola, Kołodziejek, Piotr, Strzelecka, Natalia, and Strzelecki, Ryszard

Subjects

*WIRELESS power transmission, *TRAJECTORY optimization, *TRANSMITTERS (Communication), *ANGULAR velocity

Abstract

This study proposed an approach to dynamic wireless charging that uses a rotating receiver coil. Our simulation study focused on the verification of a novel way of increasing the coupling coefficient and power transfer stability by following the flux of the transmitting coils. To obtain the highest possible coupling by means of the FEM analysis, we studied the optimization of the trajectory of the angular velocity of the rotating receiver. The coupling coefficient trajectories that were obtained were simulated by means of the state space model with three transmitters. Our comprehensive analysis showed that the proposed approach of wireless power transmission enabled a 40% increase in the usage of track space. [ABSTRACT FROM AUTHOR]

Published

2021

15. Exploratory Data Analysis Based Short-Term Electrical Load Forecasting: A Comprehensive Analysis.

Author

Javed, Umar, Ijaz, Khalid, Jawad, Muhammad, Ansari, Ejaz A., Shabbir, Noman, Kütt, Lauri, and Husev, Oleksandr

Subjects

*LOAD forecasting (Electric power systems), *ELECTRICAL load, *ELECTRIC power system planning, *DATA analysis, *STANDARD deviations, *FORECASTING

Abstract

Power system planning in numerous electric utilities merely relies on the conventional statistical methodologies, such as ARIMA for short-term electrical load forecasting, which is incapable of determining the non-linearities induced by the non-linear seasonal data, which affect the electrical load. This research work presents a comprehensive overview of modern linear and non-linear parametric modeling techniques for short-term electrical load forecasting to ensure stable and reliable power system operations by mitigating non-linearities in electrical load data. Based on the findings of exploratory data analysis, the temporal and climatic factors are identified as the potential input features in these modeling techniques. The real-time electrical load and meteorological data of the city of Lahore in Pakistan are considered to analyze the reliability of different state-of-the-art linear and non-linear parametric methodologies. Based on performance indices, such as Root Mean Square Error (RMSE), Mean Absolute Percentage Error (MAPE) and Mean Absolute Error (MAE), the qualitative and quantitative comparisons have been conferred among these scientific rationales. The experimental results reveal that the ANN–LM with a single hidden layer performs relatively better in terms of performance indices compared to OE, ARX, ARMAX, SVM, ANN–PSO, KNN, ANN–LM with two hidden layers and bootstrap aggregation models. [ABSTRACT FROM AUTHOR]

Published

2021

16. Closed-Loop Control System Design for Wireless Charging of Low-Voltage EV Batteries with Time-Delay Constraints.

Author

Shevchenko, Viktor, Pakhaliuk, Bohdan, Zakis, Janis, Veligorskyi, Oleksandr, Luszcz, Jaroslaw, Husev, Oleksandr, Lytvyn, Oleksandr, and Matiushkin, Oleksandr

Subjects

*CLOSED loop systems, *WIRELESS power transmission, *SYSTEMS design, *ELECTRIC vehicle batteries, *SYSTEM analysis, *WIRELESS communications

Abstract

This paper presents an inductive power transfer system on the basis of a double single-phase three-level T-type inverter and two split transmitting coils for constant current and constant voltage wireless charging of low-voltage light electric vehicle batteries with closed-loop control, considering time-delay communication constraints. An optimal control structure and a modified control strategy were chosen and implemented to the wireless power transfer system as a result of a review and analysis of existing solutions. The control system analysis and adjustment of the coefficients of the regulator using Laplace transform were performed. Our study addressed the behavior of the control system with different time delays as well as the dynamic response of the system. The detecting algorithm of a secondary coil was proposed, which ensured efficient system operation and increased the functionality, safety and usability of the device. The efficiency of energy transfer of 90% was reached at the transmitted power of 110 W, which is at the level of existing solutions considered in the article and opens the way to the commercialization of the proposed solution. Therefore, the feasibility of using a nonclassical multilevel inverter, together with split transmitting coils for wireless charging was confirmed. [ABSTRACT FROM AUTHOR]

Published

2021