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Low Computational Burden Predictive Direct Power Control of Quasi Z-Source Inverter for Grid-Tied PV Applications

Author

Listed:
  • Abderahmane Abid

    (LEVRES Laboratory, Department of Electrical Engineering, El-Oued University, El-Oued 3900, Algeria)

  • Abualkasim Bakeer

    (Department of Electrical Engineering, Faculty of Engineering, Aswan University, Aswan 81542, Egypt)

  • Laid Zellouma

    (LEVRES Laboratory, Department of Electrical Engineering, El-Oued University, El-Oued 3900, Algeria)

  • Mansour Bouzidi

    (Department of Electronics and Communications, Ouargla University, Ouargla 30000, Algeria)

  • Abderezak Lashab

    (Center for Research on Microgrids (CROM), Aalborg University, 9220 Aalborg, Denmark)

  • Boualaga Rabhi

    (Department of Electrical Engineering, Biskra University, Biskra 7000, Algeria)

Abstract

This paper proposes a simplified predictive direct power control for the grid-tied quasi Z-source inverter. The proposed control implements a model predictive control structure to achieve the maximum obtainable power from the collected PV source. The power delivered to the grid is managed to compensate for the reactive power and, as needed, to ensure the grid’s stability. A predictive power model for a quasi Z-source inverter is developed in which the proposed control can operate with a fixed switching frequency without a weighting factor. The simplified space vector modulation uses the three appropriate switching vectors that are selected and applied using precalculated switching times during each switching period, in which the required switching vectors are determined only from one sector in the space vector diagram, taking all of the information of the other sectors, which leads to reducing the computational burden. Simulation results and comparative study are used to confirm the proposed control performance for the grid-tied quasi Z-source inverter capable of tracking and generating the maximum power from PV with fast-tracking dynamics, ensuring the ac voltage desired, and better tracking of the active and reactive power reference with the lowest power ripple. The grid current harmonics were tested and conformed to the IEEE-519 standard. Additionally, the proposed simplified PDPC is experimentally validated using the Hardware-in-the-Loop emulator and the C2000TM-microcontroller-LaunchPadXL TMS320F28379D kit, establishing the usability and good result of our proposed control approach in terms of requirements.

Suggested Citation

  • Abderahmane Abid & Abualkasim Bakeer & Laid Zellouma & Mansour Bouzidi & Abderezak Lashab & Boualaga Rabhi, 2023. "Low Computational Burden Predictive Direct Power Control of Quasi Z-Source Inverter for Grid-Tied PV Applications," Sustainability, MDPI, vol. 15(5), pages 1-20, February.
    • Handle: RePEc:gam:jsusta:v:15:y:2023:i:5:p:4153-:d:1079778
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    References listed on IDEAS

    as
    1. Arvind Yadav & Subhash Chandra & Mohit Bajaj & Naveen Kumar Sharma & Emad M. Ahmed & Salah Kamel, 2022. "A Topological Advancement Review of Magnetically Coupled Impedance Source Network Configurations," Sustainability, MDPI, vol. 14(5), pages 1-17, March.
    2. Abdelbasset Krama & Laid Zellouma & Boualaga Rabhi & Shady S. Refaat & Mansour Bouzidi, 2018. "Real-Time Implementation of High Performance Control Scheme for Grid-Tied PV System for Power Quality Enhancement Based on MPPC-SVM Optimized by PSO Algorithm," Energies, MDPI, vol. 11(12), pages 1-26, December.
    3. Lluís Monjo & Luis Sainz & Juan José Mesas & Joaquín Pedra, 2021. "Quasi-Z-Source Inverter-Based Photovoltaic Power System Modeling for Grid Stability Studies," Energies, MDPI, vol. 14(2), pages 1-16, January.
    4. Francesca Ceglia & Elisa Marrasso & Giovanna Pallotta & Carlo Roselli & Maurizio Sasso, 2022. "The State of the Art of Smart Energy Communities: A Systematic Review of Strengths and Limits," Energies, MDPI, vol. 15(9), pages 1-28, May.
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