Design Implementation of Improved Power Quality for Single Phase to Three Phase Signal Generated Circuit in Grid-Connected PV Systems

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Detalles Bibliográficos
Publicado en:	The Institute of Electrical and Electronics Engineers, Inc. (IEEE) Conference Proceedings (2025), p. 1-5
Autor principal:	Shankar, Moguthala
Otros Autores:	Senthilkumar, R
Publicado:	The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Materias:	Design analysis Harmonic distortion Photovoltaics Modules Energy flow Electric potential Hardware Voltage Photovoltaic cells Buck converters Rectifiers Economic
Acceso en línea:	Citation/Abstract
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Descripción
Resumen:	Conference Title: 2025 International Conference on Computing Technologies & Data Communication (ICCTDC)Conference Start Date: 2025 July 4Conference End Date: 2025 July 5Conference Location: HASSAN, IndiaThe present work focuses on developing an advanced hardware version of the circuit with enhanced power quality, single phase to three-phase signal conversion for gridconnected photovoltaic systems. The paper is aimed at designing the proposed circuit to enhance the efficiency and effectiveness of the given $12 ~\mathrm{V}, 25 ~\mathrm{W}$ photovoltaic system using the buck converter, oscillation section, charge controller circuit, MBR20 A (100 V rectifier), and Excluma frequency duty cycle module. This system uses energy efficiently, improves voltage regulation, and converts a single-phase input into a three-phase output with minimal harmonic distortion. The circuit can be adjusted to accommodate a wide range of load conditions because of the step-down voltage regulation of the buck converter. The Excluma frequency duty cycle module modulates the signal for precise switching control. It provides three-phase stable signals with negligible oscillation anomalies through the oscillation section. Charge controllers effectively control energy flow and protect the PV system from overcharge and reverse current by using MBR-20A rectifier components. It makes power quality along with improved hardware design analysis and testing better and reliable for the system. Results validate the potential of the system for small-scale PV systems that are connected to the grid in terms of demonstrating environmentally friendly and efficient energy solutions.
DOI:	10.1109/ICCTDC64446.2025.11159064
Fuente:	Science Database