An Overview of Advancements in Multimotor Drives: Structural Diversity, Advanced Control, Specific Technical Challenges, and Solutions

IF 23.2 1区 计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC Proceedings of the IEEE Pub Date : 2024-03-01 DOI:10.1109/JPROC.2024.3387061
Chao Gong;Yunwei Ryan Li;Navid R. Zargari
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Abstract

Multimotor drives have become increasingly important in modern industrial applications due to their ability to provide superior performance, efficiency, and flexibility compared to single-motor systems. Hence, this article presents an overview of recent advancements in multimotor drives, focusing on three main areas: structural diversity, advanced control, and emerging challenges and solutions. First, the various structural configurations of multimotor drives are summarized, which include parallel, cascaded, and hybrid configurations. The features as well as component motors and converters of each configuration are discussed, along with the selection rules of a particular configuration for a given application. Second, from the perspective of different performance requirements, the advanced control technologies used for multimotor drives are discussed. Then, this article highlights the technical challenges associated with multimotor drives, including coordination control, mutual interference, communication, interdependent fault diagnosis, and power quality. Meanwhile, viable solutions to these challenges are summarized. Finally, a discussion of the future directions and opportunities for further research and development in the field of multimotor drives is presented. Through this article, scholars and engineers can gain a comprehensive understanding of current and future developments in multimotor drives, contributing to continued research in this field and facilitating successful integration into various applications.
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多电机驱动技术进步概览:结构多样性、先进控制、具体技术挑战和解决方案
与单电机系统相比,多电机驱动器能够提供卓越的性能、效率和灵活性,因此在现代工业应用中变得越来越重要。因此,本文概述了多电机驱动器的最新进展,重点关注三个主要领域:结构多样性、先进控制以及新出现的挑战和解决方案。首先,概述了多电机驱动器的各种结构配置,包括并联、级联和混合配置。讨论了每种配置的特点、组成电机和变流器,以及针对特定应用选择特定配置的规则。其次,从不同性能要求的角度出发,讨论了用于多电机驱动的先进控制技术。然后,本文强调了与多电机驱动器相关的技术挑战,包括协调控制、相互干扰、通信、相互依赖的故障诊断和电能质量。同时,总结了应对这些挑战的可行解决方案。最后,讨论了多电机驱动领域进一步研究和发展的未来方向和机遇。通过这篇文章,学者和工程师们可以全面了解多电机驱动器的当前和未来发展,从而促进该领域的持续研究,并推动其成功集成到各种应用中。
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来源期刊
Proceedings of the IEEE
Proceedings of the IEEE 工程技术-工程:电子与电气
CiteScore
46.40
自引率
1.00%
发文量
160
审稿时长
3-8 weeks
期刊介绍: Proceedings of the IEEE is the leading journal to provide in-depth review, survey, and tutorial coverage of the technical developments in electronics, electrical and computer engineering, and computer science. Consistently ranked as one of the top journals by Impact Factor, Article Influence Score and more, the journal serves as a trusted resource for engineers around the world.
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