New coordinated drive mode switching strategy for distributed drive electric vehicles with energy storage system

Adel Oubelaid; Khoudir Kakouche; Youcef Belkhier; Nima Khosravi; Nabil Taib; Toufik Rekioua; Mohit Bajaj; Djamila Rekioua; Milkias Berhanu Tuka

doi:10.1038/s41598-024-56209-9

Scientific Reports (Mar 2024)

New coordinated drive mode switching strategy for distributed drive electric vehicles with energy storage system

Adel Oubelaid,
Khoudir Kakouche,
Youcef Belkhier,
Nima Khosravi,
Nabil Taib,
Toufik Rekioua,
Mohit Bajaj,
Djamila Rekioua,
Milkias Berhanu Tuka

Affiliations

Adel Oubelaid: Faculté de Technologie, Laboratoire de Technologie Industrielle et de l’Information, Université de Bejaia
Khoudir Kakouche: Faculté de Technologie, Laboratoire de Technologie Industrielle et de l’Information, Université de Bejaia
Youcef Belkhier: Institut de Recherche de l’Ecole Navale (EA 3634, IRENav), French Naval Academy
Nima Khosravi: Centre of Research Impact and Outcome, Chitkara University Institute of Engineering and Technology, Chitkara University
Nabil Taib: Faculté de Technologie, Laboratoire de Technologie Industrielle et de l’Information, Université de Bejaia
Toufik Rekioua: Faculté de Technologie, Laboratoire de Technologie Industrielle et de l’Information, Université de Bejaia
Mohit Bajaj: Department of Electrical Engineering, Graphic Era (Deemed to be University)
Djamila Rekioua: Faculté de Technologie, Laboratoire de Technologie Industrielle et de l’Information, Université de Bejaia
Milkias Berhanu Tuka: Department of Electrical Power and Control Engineering, Adama Science and Technology University

DOI: https://doi.org/10.1038/s41598-024-56209-9
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 29

Abstract

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Abstract High performance and comfort are key features recommended in hybrid electric vehicle (HEV) design. In this paper, a new coordination strategy is proposed to solve the issue of undesired torque jerks and large power ripples noticed respectively during drive mode commutations and power sources switching. The proposed coordinated switching strategy uses stair-based transition function to perform drive mode commutations and power source switching’s within defined transition periods fitting the transient dynamics of power sources and traction machines. The proposed technique is applied on a battery/ supercapacitor electric vehicle whose traction is ensured by two permanent magnet synchronous machines controlled using direct torque control and linked to HEV front and rear wheels. Simulation results highlight that the proposed coordinated switching strategy has a noteworthy positive impact on enhancing HEV transient performance as DC bus fluctuations were reduced to a narrow band of 6 V and transient torque ripples were almost suppressed.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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Abstract

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