Fast dynamic DC-link voltage control strategy for dual three-phase PM-assisted synchronous reluctance starter/generator system

IF 1.3 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Shengqiao Hao, Zimin Li, Yuejin Tan, Ronghai Qu, Wubin Kong
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引用次数: 0

Abstract

This paper proposes a fast dynamic DC-link voltage control strategy for dual three-phase permanent-magnet-assisted synchronous reluctance starter/generator (DTP-PMa-SRS/G) system. First, the model of a DTP-PMa-SRS/G is analyzed considering its asymmetric structure. A power balance strategy is adopted to solve the coupling problem between two sets of windings. Then the power model of the starter/generator system is analyzed considering the disturbance caused by inherent parameter uncertainty and external load variation. To improve the dynamic response performance of the DC-link voltage, an integral terminal sliding-mode DC-link voltage controller (ITSMVC) with an extended state observer (ESO) is proposed. The system stability is verified by Lyapunov theory. A simple parameter design method for the proposed ESO-ITSMVC is adopted to ensure satisfactory performance. Finally, a comparison of experimental results with the conventional ITSMVC, the active-disturbance rejection controller (ADRC), and the disturbance observer-ITSMVC (DO-ITSMVC) is carried out. The superior DC-link voltage dynamic response performance of the proposed method is verified.

Abstract Image

双三相永磁辅助同步磁阻起动器/发电机系统的快速动态直流链路电压控制策略
本文提出了双三相永磁辅助同步磁阻起动器/发电机(DTP-PMa-SRS/G)系统的快速动态直流链路电压控制策略。首先,考虑到 DTP-PMa-SRS/G 的非对称结构,对其模型进行了分析。采用功率平衡策略来解决两组绕组之间的耦合问题。然后,考虑到固有参数不确定性和外部负载变化造成的干扰,对起动器/发电机系统的功率模型进行分析。为改善直流链电压的动态响应性能,提出了一种带有扩展状态观测器(ESO)的积分终端滑模直流链电压控制器(ITSMVC)。系统稳定性通过 Lyapunov 理论得到了验证。为确保令人满意的性能,采用了一种简单的参数设计方法来设计拟议的ESO-ESMVC。最后,将实验结果与传统的 ITSMVC、有源干扰抑制控制器(ADRC)和干扰观测器-ITSMVC(DO-ITSMVC)进行了比较。验证了所提出方法的卓越直流链路电压动态响应性能。
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来源期刊
Journal of Power Electronics
Journal of Power Electronics 工程技术-工程:电子与电气
CiteScore
2.30
自引率
21.40%
发文量
195
审稿时长
3.6 months
期刊介绍: The scope of Journal of Power Electronics includes all issues in the field of Power Electronics. Included are techniques for power converters, adjustable speed drives, renewable energy, power quality and utility applications, analysis, modeling and control, power devices and components, power electronics education, and other application.
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