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AuthorMasoudi, Siamak
AuthorBen-Brahim, Lazhar
AuthorGastli, Adel
AuthorAl-Emadi, Nasser
AuthorDjemai, Mohamed
Available date2024-08-12T08:26:57Z
Publication Date2024
Publication NameIEEE Access
ResourceScopus
ISSN21693536
URIhttp://dx.doi.org/10.1109/ACCESS.2024.3385437
URIhttp://hdl.handle.net/10576/57608
AbstractLinear switched reluctance motors (LSRMs) are highly popular due to their simple and robust structure, affordable pricing, and ability to operate at high efficiency. However, a major drawback of these motors is the high ripple force. In this paper, a novel structure for a linear motor with an exceptionally lightweight rotor and a stator with separate poles is presented, making it suitable for use in electric train systems. The proposed system not only significantly reduces force fluctuations but also enables the distribution of force along the length of the moving vehicle, ensuring smooth motion. Moreover, the reliability of the system is enhanced, as the LSRM can continue its motion even in the presence of a fault in one of the phases. In applications with high speeds, the use of a fast controller seems essential, but conventional fast regulators often lack sufficient precision. To address this issue, a new control system is introduced, utilizing a new 12-vector voltage switching table and a current controller. Unlike conventional control methods, the phases firing angle in the proposed system is not fixed. As a result, acceptable performance at different speeds is achieved through an adaptive real-time turn-on position control.
Languageen
PublisherIEEE
Subject2D finite element analysis
adaptive phase turn-on
current control
force distribution
Multi-stator linear switched reluctance motor
reliability
switching table
TitleReducing Force Ripples and Enhancing Reliability in LSRMs Through Modern Structure and Advanced Control Systems
TypeArticle
Pagination50114-50125
Volume Number12
dc.accessType Open Access


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