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ELECTRICA

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Original Articles

Implementation of Generalized Model Predictive Control Algorithm for DC-DC Boost Converter on STM32

Ali Hmidene ¹ , Hichem Bennasr ² , Faouzi M'sahli ³

Author Affiliation(s)

Department of Electrical Engineering, Higher Institute of Technological Studies of Sousse, Direction of ISETs, Erriadh, Tunisia

Department of Electrical Engineering, Higher Institute of Technological Studies of Sfax, Direction of ISETs, Tunisia

Department of Electrical Engineering, University of Monastir, National Engineering School of Monastir, Tunisia

ELECTRICA 2024; 24: 722-732

DOI: 10.5152/electrica.2024.24059

Keywords : Boost converter, fast dynamic systems, microcontroller, MPC controller, reduction of time calculations

Read: 84 Downloads: 44 Published: 08 November 2024

Volume 24, Issue 3, September 2024

Abstract
This paper presents the practical implementation of a Generalized Model Predictive Control (GPC) algorithm using low-cost microcontrollers. The computational efficiency of the predictive controller is achieved through an explicit analytical solution calculated offline. The proposed approach is implemented, reviewed, and compared with academic benchmarks and complex dynamic systems. Experimental results are provided using both Black-Box and White-Box models based on a boost converter, with a comparison between the two models. The algorithm demonstrates good control performance with low computational time, making it suitable for real-time applications in systems with fast dynamics.

Cite this article as: A. Hmidene, H. Bennasr and F. M'sahli, "Implementation of generalized model predictive control algorithm for DC-DC boost converter on STM32," Electrica, 24(3), 722-732, 2024.

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