Robust control of a wind energy conversion system: FPGA real-time implementation

Abdelhafid El Attafi; Houda El Alami; Badre Bossoufi; Dokhyl AlQahtani; Saad Motahhir; Mishari Metab Almalki; Thamer A.H. Alghamdi

doi:10.1016/j.heliyon.2024.e35712

Robust control of a wind energy conversion system: FPGA real-time implementation

Abdelhafid El Attafi, Houda El Alami, Badre Bossoufi, Dokhyl AlQahtani, Saad Motahhir, Mishari Metab Almalki, Thamer A.H. Alghamdi

Electrical Engineering

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

This study employs an FPGA board to implement a robust control technique for wind energy conversion systems (WECS). This approach facilitates extensive testing and validation of the control system across diverse wind conditions, utilizing the FPGA's parallel processing capabilities and advanced control algorithms. This method ensures robustness against nonlinearities and system uncertainties. FPGA-in-the-loop (FIL) testing provides precise and effective simulation results, enabling rapid prototyping and iterative modifications of control algorithms. The effectiveness of the robust control strategy is confirmed by FIL findings, demonstrating significant improvements in WECS stability and efficiency. Furthermore, the study highlights the strategy's potential to enhance WECS reliability and efficiency in real-world applications.

Original language	English
Article number	e35712
Journal	Heliyon
Volume	10
Issue number	15
DOIs	https://doi.org/10.1016/j.heliyon.2024.e35712
State	Published - 15 Aug 2024

Keywords

DFIG
FPGA
FPGA-In-the-loop
HDL
MATLAB/Simulink
Proportional integral derivative controller
Wind energy conversion system

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.heliyon.2024.e35712

Cite this

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title = "Robust control of a wind energy conversion system: FPGA real-time implementation",

abstract = "This study employs an FPGA board to implement a robust control technique for wind energy conversion systems (WECS). This approach facilitates extensive testing and validation of the control system across diverse wind conditions, utilizing the FPGA's parallel processing capabilities and advanced control algorithms. This method ensures robustness against nonlinearities and system uncertainties. FPGA-in-the-loop (FIL) testing provides precise and effective simulation results, enabling rapid prototyping and iterative modifications of control algorithms. The effectiveness of the robust control strategy is confirmed by FIL findings, demonstrating significant improvements in WECS stability and efficiency. Furthermore, the study highlights the strategy's potential to enhance WECS reliability and efficiency in real-world applications.",

keywords = "DFIG, FPGA, FPGA-In-the-loop, HDL, MATLAB/Simulink, Proportional integral derivative controller, Wind energy conversion system",

author = "\{El Attafi\}, Abdelhafid and \{El Alami\}, Houda and Badre Bossoufi and Dokhyl AlQahtani and Saad Motahhir and Almalki, \{Mishari Metab\} and Alghamdi, \{Thamer A.H.\}",

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doi = "10.1016/j.heliyon.2024.e35712",

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AU - El Attafi, Abdelhafid

AU - El Alami, Houda

AU - Bossoufi, Badre

AU - AlQahtani, Dokhyl

AU - Motahhir, Saad

AU - Almalki, Mishari Metab

AU - Alghamdi, Thamer A.H.

PY - 2024/8/15

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N2 - This study employs an FPGA board to implement a robust control technique for wind energy conversion systems (WECS). This approach facilitates extensive testing and validation of the control system across diverse wind conditions, utilizing the FPGA's parallel processing capabilities and advanced control algorithms. This method ensures robustness against nonlinearities and system uncertainties. FPGA-in-the-loop (FIL) testing provides precise and effective simulation results, enabling rapid prototyping and iterative modifications of control algorithms. The effectiveness of the robust control strategy is confirmed by FIL findings, demonstrating significant improvements in WECS stability and efficiency. Furthermore, the study highlights the strategy's potential to enhance WECS reliability and efficiency in real-world applications.

AB - This study employs an FPGA board to implement a robust control technique for wind energy conversion systems (WECS). This approach facilitates extensive testing and validation of the control system across diverse wind conditions, utilizing the FPGA's parallel processing capabilities and advanced control algorithms. This method ensures robustness against nonlinearities and system uncertainties. FPGA-in-the-loop (FIL) testing provides precise and effective simulation results, enabling rapid prototyping and iterative modifications of control algorithms. The effectiveness of the robust control strategy is confirmed by FIL findings, demonstrating significant improvements in WECS stability and efficiency. Furthermore, the study highlights the strategy's potential to enhance WECS reliability and efficiency in real-world applications.

KW - DFIG

KW - FPGA

KW - FPGA-In-the-loop

KW - HDL

KW - MATLAB/Simulink

KW - Proportional integral derivative controller

KW - Wind energy conversion system

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JO - Heliyon

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ER -

Robust control of a wind energy conversion system: FPGA real-time implementation

Abstract

Keywords

UN SDGs

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