A Novel Multilevel Converter with Stable Voltage to The Renewable Energy Systems

Authors

  • Vathala Nagi Reddy UG Student, Department of Electrical and Electronics Engineering in PACE Institute of Technology and Sciences, Ongole, AP, India Author
  • Puram Lohith Kumar UG Student, Department of Electrical and Electronics Engineering in Pace Institute of Technology and Sciences, Ongole, AP, India Author
  • K Sowjan kumar Assistant Professor, Department of EEE, PACE Institute of Technology & Sciences, Ongole, AP, India Author
  • Tanikonda Prasanth UG Student, Department of Electrical and Electronics Engineering in Pace Institute of Technology and Sciences, Ongole, AP, India Author
  • Yekollu Chakradhar UG Student, Department of Electrical and Electronics Engineering in Pace Institute of Technology and Sciences, Ongole, AP, India Author
  • Y Prakash Professor, Department of EEE, PACE Institute of Technology & Sciences, Ongole, AP, India Author
  • Nakka Venkata Karthik UG Student, Department of Electrical and Electronics Engineering in Pace Institute of Technology and Sciences, Ongole, AP, India Author
  • K V Narayana Assistant Professor, Department of EEE, PACE Institute of Technology & Sciences, Ongole, AP, India Author
  • K Venkateswarlu Professor, Department of EEE, PACE Institute of Technology & Sciences, Ongole, AP, India Author

Keywords:

Multilevel, Renewable, Energy Systems

Abstract

In this proposed paper, a novel nine-level inverter (NLI) topology  is proposed, which uses fewer components to provide nine  voltage levels in the output. Ten semiconductor switches, four  capacitors, and one dc voltage source are included in this NLI.  Through various logical arrangements of the dc source and  capacitors and the use of power semiconductor switches, the nine  voltage levels are generated. In this case, only two switches can  conduct simultaneously in any mode. As a result, the system's  efficiency is increased and conduction losses are decreased. The  low total standing voltage (TSV) of the power semiconductor  switches is another crucial aspect of this design. Gate signals are  produced using a suggested modulation approach to lessen the  power switches' switching loss. Several Simulink simulations are  run in order to validate the NLI. The suggested inverter has a  much lower requirement for components and dc sources as  compared to conventional topologies. In order to increase the  efficiency of the power generating process in renewable energy  systems, the proposed NLI structure can be implemented. 

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Published

2021-11-30

Issue

Vol. 8 No. 6 (2021): International Journal of Innovative Research in Engineering & Management (Nov) 2021

Section

Articles

How to Cite

A Novel Multilevel Converter with Stable Voltage to The Renewable Energy Systems . (2021). International Journal of Innovative Research in Engineering & Management, 8(6), 1135–1139. Retrieved from https://acspublisher.com/journals/index.php/ijirem/article/view/12025