Study and Implementation of 19-Level Multilevel Inverter and its Onfigurations

The medium voltage range (2,3-13,8 kilovolt) of AC engines is some examples of this fact. Because of the high voltage range, connecting only one semiconductor switch to the grid directly is difficult. Many implementations include multi-level converters; automotive engine drives, renewable energy sys...

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Bibliographic Details
Published inAnnals of the Romanian society for cell biology Vol. 25; no. 5; pp. 1809 - 1815
Main Authors Kumar, S Sathish, Sivachitra, M, Meenakumari, R, Gowsiha, G, Kokila, S, Santhiya, R
Format Journal Article
LanguageEnglish
Published Arad "Vasile Goldis" Western University Arad, Romania 01.01.2021
Subjects
Alternative energy sources
Cellular biology
Fuel cells
Interfaces
Power supply
Renewable resources
Voltage
India
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Summary:The medium voltage range (2,3-13,8 kilovolt) of AC engines is some examples of this fact. Because of the high voltage range, connecting only one semiconductor switch to the grid directly is difficult. Many implementations include multi-level converters; automotive engine drives, renewable energy systems interfaces (photo-voltaic, wind, and fuel cell systems)[5], high-voltage, direct current transmission systems (HVDC), and traction systems. 2.1 OBJECTIVE The main purpose of this research is to learn, * The generation of 19-level AC output is based on DC sources such as batteries and solar panels. * The switch count is to be condensed in this proposed system. * Total Harmonics distortions (THD) are to be reduced in the output. 2.2 WORKING PRINCIPLE For this nineteen-step inverter, a MOSFET-based complete bridge inverter circuit is cascaded are shown in figure.1. [...]this configuration is known as an asymmetrical cascaded inverter.
ISSN:2067-3019
2067-8282