Analysis of a Photovoltaic System Based on a Highly Efficient Single-Phase Transformerless Inverter

The essential requirement for a cleaner environment, along with rising consumption, puts a strain on the distribution system and power plants, reducing electricity availability, quality, and security. Grid-connected photovoltaic systems are one of the solutions for overcoming this. The examination a...

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Bibliographic Details
Published in:Energies (Basel) 2022-09, Vol.15 (17), p.6145
Main Authors: Aljafari, Belqasem, Loganathan, Ashok Kumar, Vairavasundaram, Indragandhi, Ramachadran, Selvamathi, Nagarajan, Amutha Prabha
Format: Article
Language:English
Subjects:
Alternative energy sources
Analysis
Bridges
Buck converters
Cost reduction
Direct current
Efficiency
Electric power distribution
Electric power generation
Electricity
Electronics industry
Energy resources
Energy storage
grid-connected system
high-efficiency inverter
Inverters
Leakage current
Market shares
photovoltaic
Photovoltaic cells
Photovoltaics
Polarity
Power plants
Renewable resources
Security
single-phase inverter
Solar energy
Solar energy industry
Topology
transformerless inverter
Trends
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Summary:The essential requirement for a cleaner environment, along with rising consumption, puts a strain on the distribution system and power plants, reducing electricity availability, quality, and security. Grid-connected photovoltaic systems are one of the solutions for overcoming this. The examination and verification of transformerless topologies and control techniques was a significant goal of this study. The transformerless concept is advantageous for its high efficiency; the transformerless converter has added advantages of reduced price, complexity, weight, and size. This study presents a novel high-efficiency transformerless architecture that does not create common-mode currents and does not inject DC current into the grid. A single-phase transformerless inverter circuit with two step-down converters was constructed in this study. Low-frequency switches determine the polarity of the grid connection. In order to control the gate pulses of switching devices, which each regulate a half-wave of the output current, a PIC 16F877 was employed. Because there were fewer semiconductors and they were simpler to operate, it was possible to achieve a high degree of efficiency and reliability. A prototype model with input 12 V, 2 A was fabricated, test results were obtained with reduced common-mode current and DC current, and high efficiency was obtained with reduced switching losses. Further investigation for the improvement of efficiency with the elimination of ground current and leakage current has been analysed through simulation.
ISSN:1996-1073
1996-1073
DOI:10.3390/en15176145