Three Phase Four Switch Inverter Based DVR for Power Quality Improvement With Optimized CSA Approach

Industries driven by electric power require controlled and improved power quality for the optimal exploitation of resources. However, certain crucial issues greatly influence power quality, causing monetary losses to both the utility and customers. Numerous custom power devices are available to comp...

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Veröffentlicht in:	IEEE access 2022, Vol.10, p.72263-72278
Hauptverfasser:	Reddy, Sanepalle Gopal, Ganapathy, S., Manikandan, M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Active filters CSA Digital video recorders DVR Electric potential Electronic devices Harmonic analysis Harmonic distortion injection transformer Inverters Optimization Power harmonic filters Power quality Search algorithms Switches Voltage Voltage control Voltage fluctuations Voltage regulators voltage sag voltage swell
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description	Industries driven by electric power require controlled and improved power quality for the optimal exploitation of resources. However, certain crucial issues greatly influence power quality, causing monetary losses to both the utility and customers. Numerous custom power devices are available to compensate for power quality issues; however, these devices alter the parameters of the transmission and distribution systems. Hence, a dynamic voltage restorer (DVR) is adopted in this study, which mitigates voltage disorders by establishing the desired quality and voltage level demanded by any sensitive load. The DVR adopts a 3\phi four-switch voltage-source inverter (VSI) that acts as a cost-effective solution with a reduced number of switches. The cuckoo search algorithm (CSA) was utilized in this study as it solves multiple optimization issues with ease of implementation. Because it is robust to variations in the system, it significantly aids in enhancing the efficiency of the DVR by compensating for the variations in voltage and minimizing the total harmonic distortion (THD). The entire work was verified in MATLAB/Simulink to demonstrate the effectiveness of the introduced technique in smoothing the distorted voltage. The proposed approach achieved an efficiency of 92.6% witha simulation THD of 2.8% and hardware THD of 2.95%.
doi_str_mv	10.1109/ACCESS.2022.3188629
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However, certain crucial issues greatly influence power quality, causing monetary losses to both the utility and customers. Numerous custom power devices are available to compensate for power quality issues; however, these devices alter the parameters of the transmission and distribution systems. Hence, a dynamic voltage restorer (DVR) is adopted in this study, which mitigates voltage disorders by establishing the desired quality and voltage level demanded by any sensitive load. The DVR adopts a <inline-formula> <tex-math notation="LaTeX">3\phi </tex-math></inline-formula> four-switch voltage-source inverter (VSI) that acts as a cost-effective solution with a reduced number of switches. The cuckoo search algorithm (CSA) was utilized in this study as it solves multiple optimization issues with ease of implementation. Because it is robust to variations in the system, it significantly aids in enhancing the efficiency of the DVR by compensating for the variations in voltage and minimizing the total harmonic distortion (THD). The entire work was verified in MATLAB/Simulink to demonstrate the effectiveness of the introduced technique in smoothing the distorted voltage. 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However, certain crucial issues greatly influence power quality, causing monetary losses to both the utility and customers. Numerous custom power devices are available to compensate for power quality issues; however, these devices alter the parameters of the transmission and distribution systems. Hence, a dynamic voltage restorer (DVR) is adopted in this study, which mitigates voltage disorders by establishing the desired quality and voltage level demanded by any sensitive load. The DVR adopts a <inline-formula> <tex-math notation="LaTeX">3\phi </tex-math></inline-formula> four-switch voltage-source inverter (VSI) that acts as a cost-effective solution with a reduced number of switches. The cuckoo search algorithm (CSA) was utilized in this study as it solves multiple optimization issues with ease of implementation. 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subjects	Active filters CSA Digital video recorders DVR Electric potential Electronic devices Harmonic analysis Harmonic distortion injection transformer Inverters Optimization Power harmonic filters Power quality Search algorithms Switches Voltage Voltage control Voltage fluctuations Voltage regulators voltage sag voltage swell
title	Three Phase Four Switch Inverter Based DVR for Power Quality Improvement With Optimized CSA Approach
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