Multiple Level Inverter Scheme for Improved Power Quality of Renewable Energy Solar Panel

S.  Sivarajeswari; Soumya Nikhil  Hublikar; Yogendra  Kumar; Shobana  D.; A.  Deepak; Meduri  Oliva

Authors

S. Sivarajeswari Associate Professor, Department of Electrical and Electronics Engineering, Sri Sairam Institute of Technology, West Tambaram, Chennai, Tamilnadu
Soumya Nikhil Hublikar Assistant Professor, Sanjay Bhokare Group of Institutes, Miraj
Yogendra Kumar Department of Electrical Engineering, GLA University, Mathura, India
Shobana D. Assistant Professor, Department of Electrical and Electronics Engineering, Panimalar Engineering College, Chennai, Tamilnadu
A. Deepak Department of Electronics and Communication Engineering, Saveetha School of Engineering, Saveetha Institute of Medical and Technical Sciences, Saveetha University, Chennai, Tamilnadu
Meduri Oliva Assistant professor, Department of Mechanical Engineering, Lakireddy Balireddy College of Engineering, Mylavaram, Andhra Pradesh, India

Keywords:

Multilevel inverter (MLI), PV system, Maximum power point tracking, MPPT, Modified MLC converter, Leakage current suppression

Abstract

Using a layered voltage source inverter rather than a normal one is advantageous in a number of ways and should be considered. By manipulating the voltages at the AC output ends, small quantities of harmonic distortion can be added into spiral staircase waveforms. The thing that's needed right now is a filter that takes up less space in storage. The optimistic outlook that can be attributed to photovoltaic systems' extensive use can be credited to the widespread use of solar systems. Over 635 gigawatts have been added to the global installed capacity, which is sufficient to meet approximately 2% of the world's demand for electricity. In the realm of power technology, there will be a growing demand for individuals to track down converters that they can have faith in. Power circuits are essential in order to successfully transform useable solar energy into usable electricity. Multilayer inverters, also known as MLIs, are favoured by scientists over two-level inverters due to their lower levels of electromagnetic interference (EMI), greater efficiencies, and higher DC link voltages. MLI is an abbreviation, which is why this is the case. The model was developed with the help of a piece of software for simulation called MATLAB/SIMULINK. A 40W generator prototype is now going through the testing phase. The trials demonstrate that the 27-level PWM-based cascaded multilevel inverter constructed from three H-bridges is capable of functioning properly.

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Multiple Level Inverter Scheme for Improved Power Quality of Renewable Energy Solar Panel

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