Super-twisting sliding-mode observer-based model reference adaptive speed control for PMSM drives
Résumé
In this paper, a three inputs six-phase Interleaved Boost Converter
(IBC) is proposed and designed for Fuel Cell (FC) systems, where
the different Polymer Electrolyte Membrane Fuel Cells (PEMFC)
systems are employed to validate. Considering that the selected
converter is composed of three two-phase IBCs connecting in
parallel, it shows many superiorities in topology, such as simple
structure, high scalability/flexibility, easy maintenance and good
fault-tolerant ability. The whole design process containing the
selection of phase numbers, parameters design of the converter's
components and steady-state operations analysis is focused in this
paper. To further validate the correctness of the designed
converter, a test bench is established based on
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Soumis le : jeudi 6 juillet 2023-14:39:28
Dernière modification le : vendredi 7 juillet 2023-03:33:35
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Identifiants
- HAL Id : hal-04154009 , version 1
Citer
Yongchao Liu, Salah Laghrouche, Daniel Depernet, Abdoul Diaye, Abdesslem Djerdir, et al.. Super-twisting sliding-mode observer-based model reference adaptive speed control for PMSM drives. Journal of The Franklin Institute, 2023, 360 (2), pp.985 - 1004. ⟨hal-04154009⟩
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