Transformer‐Based Z‐Source Inverter with MVDC Link

Authors

  • Enrique González-Rivera Author
  • Carlos Andrés García-Vázquez Author
  • Pablo García-Triviño Author
  • Raúl Sarrias Mena Author
  • Francisco Jurado Author
  • Luis Sainz Author
  • Santiago Bogarra Author
  • Felipe Córcoles Author
  • Luis M. Fernández Ramírez Author

DOI:

https://doi.org/10.24084/repqj20.373

Keywords:

Transformer-based Z-source converter, medium voltage direct current link, control, grid-connected

Abstract

Z‐source inverters have attracted considerable attention in renewable energy systems like photovoltaic (PV) systems due to advantages such as buck–boost power conversion in single stage, shoot-through capability, and wide range of input voltage regulation. Transformer-Based Z-source inverters (Trans ZSI) based on magnetically coupled inductors and reduced number of passive components can be used to improve the boost capacity of these inverters, and to increase the voltage levels. Medium voltage DC (MVDC) is being used more and more in distribution grids and renewable energy systems. This paper presents a trans Z-source inverter with MVDC link where renewable energy systems and energy storage systems can be integrated. The active and reactive powers and DC voltage are controlled by acting on the modulation index and shoot-through duty cycle of the converter. The trans-Z-source inverter is evaluated under different operating conditions to illustrate its suitable operation.

Author Biographies

  • Enrique González-Rivera

    Department of Electrical Engineering 
    Higher Technical School of Engineering of Algeciras (ETSI Algeciras), University of Cadiz 
    Avda. Ramón Puyol, s/n, 11202 Algeciras (Spain)

  • Carlos Andrés García-Vázquez

    Department of Electrical Engineering 
    Higher Technical School of Engineering of Algeciras (ETSI Algeciras), University of Cadiz 
    Avda. Ramón Puyol, s/n, 11202 Algeciras (Spain) 

  • Pablo García-Triviño

    Department of Electrical Engineering 
    Higher Technical School of Engineering of Algeciras (ETSI Algeciras), University of Cadiz 
    Avda. Ramón Puyol, s/n, 11202 Algeciras (Spain) 

  • Raúl Sarrias Mena

    Department of Engineering in Automation, Electronics and Computer Architecture & Networks 
    Higher Technical School of Engineering of Algeciras (ETSI Algeciras), University of Cadiz 
    Avda. Ramón Puyol, s/n, 11202 Algeciras (Spain) 

  • Francisco Jurado

    Department of Electrical Engineering, EPS Linares, University of Jaén 
    23700 Linares, Jaén, Spain 

  • Luis Sainz

    Department of Electrical Engineering, ETSEIB, UPC, Avda. Diagonal 647, 08028 Barcelona, Spain 

  • Santiago Bogarra

    Department of Electrical Engineering, ESEIAAT, UPC, C/ Colón 1, 08222 Terrassa, Barcelona, Spain

  • Felipe Córcoles

    Department of Electrical Engineering, ESEIAAT, UPC, C/ Colón 1, 08222 Terrassa, Barcelona, Spain 

  • Luis M. Fernández Ramírez

    Department of Electrical Engineering 
    Higher Technical School of Engineering of Algeciras (ETSI Algeciras), University of Cadiz 
    Avda. Ramón Puyol, s/n, 11202 Algeciras (Spain) 

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Published

2024-01-03

Issue

Vol. 20 No. 5 (2022)

Section

Articles