Single-phase power shunt active filter design using photovoltaic as reactive power compensator
Introduction. The rapid production of electronic equipment circulating and used by the public has resulted in a decline in the power quality in the power system. The goal of the article is to build a parallel active filter for reactive power compensation in a single-phase power system using photovol...
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| Published in | Electronics and electromechanics Vol. 2025; no. 3; pp. 59 - 64 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Kharkiv
Department of Electrical Apparatus of National Technical University, Kharkiv Polytechnic Institute
01.05.2025
National Technical University, Ukraine National Technical University "Kharkiv Polytechnic Institute" |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2074-272X 2309-3404 |
| DOI | 10.20998/2074-272X.2025.3.09 |
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| Abstract | Introduction. The rapid production of electronic equipment circulating and used by the public has resulted in a decline in the power quality in the power system. The goal of the article is to build a parallel active filter for reactive power compensation in a single-phase power system using photovoltaic (PV) as the input DC link voltage for the inverter through simulation modeling using MATLAB/Simulink. Methods. The method used is to design a parallel active filter modeling for a single-phase electrical network that serves loads in the form of AC DC converters with inductive recessive and capacitive recessive loads using MATLAB/Simulink. Results. The simulation results show that the total harmonic distortion (THD) value of the system before being screened is 37.93 % for inductive resistive loads and 18.77 % for capacitive resistive loads, and after going through screening the THD value can drop significantly by 0.35 % for inductive resistive loads and 1.45 % for resistive capacitive loads. Practical value. PV systems can be used as power generators to provide a voltage of 800 V on a single-phase parallel active power filter using a voltage source inverter. References 30, table 2, figures 11. |
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| AbstractList | Introduction. The rapid production of electronic equipment circulating and used by the public has resulted in a decline in the power quality in the power system. The goal of the article is to build a parallel active filter for reactive power compensation in a single-phase power system using photovoltaic (PV) as the input DC link voltage for the inverter through simulation modeling using MATLAB/Simulink. Methods. The method used is to design a parallel active filter modeling for a single-phase electrical network that serves loads in the form of AC DC converters with inductive recessive and capacitive recessive loads using MATLAB/Simulink. Results. The simulation results show that the total harmonic distortion (THD) value of the system before being screened is 37.93 % for inductive resistive loads and 18.77 % for capacitive resistive loads, and after going through screening the THD value can drop significantly by 0.35 % for inductive resistive loads and 1.45 % for resistive capacitive loads. Practical value. PV systems can be used as power generators to provide a voltage of 800 V on a single-phase parallel active power filter using a voltage source inverter. References 30, table 2, figures 11. Introduction. The rapid production of electronic equipment circulating and used by the public has resulted in a decline in the power quality in the power system. The goal of the article is to build a parallel active filter for reactive power compensation in a single-phase power system using photovoltaic (PV) as the input DC link voltage for the inverter through simulation modeling using MATLAB/Simulink. Methods. The method used is to design a parallel active filter modeling for a single-phase electrical network that serves loads in the form of AC DC converters with inductive recessive and capacitive recessive loads using MATLAB/Simulink. Results. The simulation results show that the total harmonic distortion (THD) value of the system before being screened is 37.93 % for inductive resistive loads and 18.77 % for capacitive resistive loads, and after going through screening the THD value can drop significantly by 0.35 % for inductive resistive loads and 1.45 % for resistive capacitive loads. Practical value. PV systems can be used as power generators to provide a voltage of800 V on a single-phase parallel active power filter using a voltage source inverter. References 30, table 2, figures 11. Key words: active shunt filter, compensator, photovoltaic, reactive power, voltage source inverter. |
| Audience | Academic |
| Author | Dwinanto, B. Siswono, H. Setiyono, Setiyono Thalib, F. |
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| Copyright | COPYRIGHT 2025 Department of Electrical Apparatus of National Technical University, Kharkiv Polytechnic Institute 2025. This work is published under https://creativecommons.org/licenses/by/4.0/legalcode (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. |
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| SubjectTerms | active shunt filter Alternative energy sources compensator Compensators Electric potential Electric power systems Electrical engineering Electrical networks Electronic equipment Electronic equipment and supplies Filter design (mathematics) Harmonic distortion Inverters Matlab Modelling photovoltaic Photovoltaic cells Reactive power Simulation Solar energy Solar energy industry Voltage voltage source inverter |
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| Title | Single-phase power shunt active filter design using photovoltaic as reactive power compensator |
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