Integrated ZVT Cell Applied to Decentralized Multi-String PV System

Authors

  • R. C. Beltrame Author
  • M. I. Desconzi Author
  • M. L. S. Martins Author
  • J. R. Pinheiro Author
  • H. L. Hey Author

DOI:

https://doi.org/10.24084/repqj09.476

Abstract

This paper exploits the advantages of using a cascaded connection of dc-dc step-up stages for a series string of photovoltaic (PV) panels in a single-phase residential/commercial grid connected installation. It is demonstrated that when multistring PV systems are adopted in order to minimize shadowing problems, it is required to employ some approach to reduce the switching losses (turn-on losses of MOSFETs and mainly diode reverse-recovery losses) of the dc-dc step-up stages. As a multistring PV system is normally comprised by several dc-dc stepup stages, integrated soft-switching topologies are attractive due to their compactness, reliability and low cost. Thus, this work proposes to use an integrated zero-voltage transition (ZVT) cell, which assists all dc-dc step-up stages and employs a very compact circuit, enabling to minimize the switching losses, improving the system efficiency. The proposed cell makes use of a magnetically-coupled auxiliary voltage source implemented by adding a secondary winding on the input inductors. In order to validate the proposed topology, experimental results are presented.

Author Biographies

  • R. C. Beltrame

    Power Electronics and Control Research Group, Federal University of Santa Maria

    97105-900, Santa Maria, RS, BRAZIL

    Phone number: +55 55 32208463, e-mail: beltrame@mail.ufsm.br

  • M. I. Desconzi

    Power Electronics and Control Research Group, Federal University of Santa Maria

    97105-900, Santa Maria, RS, BRAZIL

    Phone number: +55 55 32208463

  • M. L. S. Martins

    Power Analysis and Processing Research Group, Federal University of Technology – Parana

    85503-390, Pato Branco, PR, BRAZIL

    Phone number: +55 46 32202572, e-mail: mlucio@utfpr.edu.br

  • J. R. Pinheiro

    Power Electronics and Control Research Group, Federal University of Santa Maria

    97105-900, Santa Maria, RS, BRAZIL

    Phone number: +55 55 32208463,

  • H. L. Hey

    Power Electronics and Control Research Group, Federal University of Santa Maria

    97105-900, Santa Maria, RS, BRAZIL

    Phone number: +55 55 32208463

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Published

2024-01-17

Issue

Section

Articles