Scientific Reports (Feb 2024)

Extendable high gain low current/high pulse modified quadratic–SEPIC converter for water treatment applications

  • P. Sumathy,
  • J. Divya Navamani,
  • Jagabar Sathik Mohamed Ali,
  • A. Lavanya,
  • Pradeep Vishnuram,
  • Mohit Bajaj,
  • Shir Ahmad Dost Mohammadi,
  • Lukas Prokop

DOI
https://doi.org/10.1038/s41598-024-55708-z
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 20

Abstract

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Abstract Substantial attention has been drawn over the past few years by high step-up dc-dc converters owing to their applications in a wide range. Apart from renewable energy applications, high voltage/ high pulse converters are efficiently used in water treatment applications. The converter suggested a combination of Quadratic and SEPIC converters with a diode-capacitor cell. This topology generates high-voltage repetitive pulses with a single semiconductor switch and reduced component count. The stress across the components is less than the high-gain converters reported in the literature. The topology has an extendable feature by increasing the number of diode-capacitor cells without affecting the stress. The superiority of the high pulse generating topology is validated with a similar converter in the literature. This paper discusses the nL5 simulator results for the proposed rated topology required for water treatment. A scaled-down 50 W prototype is tested for various input voltages to generate high voltage pulse, and the analytical study is validated.

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