Hardware Implementation of Nonisolated Sextuple Output Hybrid Converter

Hardware Implementation of Non-isolated Sextuple Output Hybrid Converter

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2019 by IJETT Journal
Volume-67 Issue-11
Year of Publication : 2019
Authors : Harshal D. Vaidya, Dr. S. M. Badave, Ruchita P. Dahad
DOI :  10.14445/22315381/IJETT-V67I11P228

Citation 

MLA Style: Harshal D. Vaidya, Dr. S. M. Badave, Ruchita P. Dahad "Hardware Implementation of Non-isolated Sextuple Output Hybrid Converter" International Journal of Engineering Trends and Technology 67.11 (2019):174-183.

APA Style:Harshal D. Vaidya, Dr. S. M. Badave, Ruchita P. Dahad. Hardware Implementation of Non-isolated Sextuple Output Hybrid Converter  International Journal of Engineering Trends and Technology, 67(11),174-183.

Abstract
A new derivative of DC-DC converter without isolation with the help of conventional dc-dc converters fit for renewable energy and high-voltage applications. Integration of switched inductor circuit in power circuit lifts the voltage. And so, it overpowers the parasitic effects of the circuit components. Conventional DC-DC converters like SEPIC, Cuk, Zeta, Boost, etc., are employed for renewable energy and industrial applications. However they suffer from parasitic effects with reduced output voltage, and limited with low efficiency. These problems are overruled by the nonisolated DC-DC output converter for augmenting the output voltage. This converter is having single semiconductor switch without any isolation and able to supply high output with varying duty cycle. A simulation of converter capable of sextuple DC outputs from single DC input with varying duty ratio is presented. Additionally, an experimental prototype with six different output voltages based on a Single- Ended Primary Inductance (SEPIC)-Cuk-Zeta combination is developed.

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Keywords
Sextuple output-Non-isolated-Single semiconductor switch-SEPIC-Cuk-Zeta