A Low-Switching-Frequency Flux Observer and Torque Model of Deadbeat–Direct Torque and Flux Control on Induction Machine Drives

Wang Yukai; Tobayashi Shunsuke; Lorenz Robert D.

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A Low-Switching-Frequency Flux Observer and Torque Model of Deadbeat–Direct Torque and Flux Control on Induction Machine Drives

机译：低开关频率磁通观测器和无差拍转矩模型-感应电机驱动器上的直接转矩和磁通控制

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摘要

This paper presents a digital implementation of deadbeat–direct torque and flux control (DB-DTFC) for induction machines at low switching frequencies (SFs). For high SFs, existing discrete-time flux observers and Volt–second-based inverse torque models used for DB-DTFC achieve acceptable flux estimation accuracy and fast torque response. However, the flux estimate is less accurate when the SF is reduced and the DB-DTFC performance degrades. This paper develops a more suitable flux observer and Volt–second-based inverse torque model that minimizes flux estimation error and improves torque control for DB-DTFC. Simulation and experimental results are provided to evaluate the performance of the proposed observer and torque model at very low SFs. Consequently, digital implementation of low-SF DB-DTFC on high-power induction machines is feasible.

机译：本文介绍了低开关频率（SFs）下感应电机的无差拍直接转矩和磁通量控制（DB-DTFC）的数字实现。对于高SF，现有的离散时间磁通观测器和用于DB-DTFC的基于伏秒的逆转矩模型可实现可接受的磁通估计精度和快速的转矩响应。但是，当SF减小并且DB-DTFC性能下降时，通量估计就不太准确。本文开发了一种更合适的磁通观测器和基于伏秒的逆转矩模型，该模型可最小化磁通估计误差并改善DB-DTFC的转矩控制。提供了仿真和实验结果，以评估在非常低的SF下所提出的观测器和扭矩模型的性能。因此，在大功率感应电机上实现低SF DB-DTFC的数字实现是可行的。

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来源
《Industry Applications, IEEE Transactions on》 |2015年第3期|2255-2267|共13页
作者
Wang Yukai; Tobayashi Shunsuke; Lorenz Robert D.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Couplings; Mathematical model; Observers; Rotors; Stators; Switching frequency; Torque; Deadbeat-direct torque and flux control (DB-DTFC),; Deadbeat???direct torque and flux control (DB-DTFC); flux observer; flux observer,; low switching frequency operation.; low-switching-frequency (SF) operation;

机译：联轴器;数学模型;观察者;转子;定子;开关频率;转矩;无差拍直接转矩和磁通量控制（DB-DTFC）;无差拍???直接转矩和磁通量控制（DB-DTFC）;通量观察器;通量观察器;低开关频率操作。;低开关频率（SF）操作;

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专利

1. Extending High-Speed Operating Range of Induction Machine Drives Using Deadbeat-Direct Torque and Flux Control With Precise Flux Weakening [J] . Yang Xu, Chikara Morito, Robert D. Lorenz IEEE Transactions on Industry Applications . 2019,第4期

机译：使用无差拍直接转矩和磁通控制以及精确的磁通弱化扩展感应电机驱动器的高速运行范围
2. Enhanced Methodology for Injection-Based Real-Time Parameter Estimation to Improve Back EMF Self-Sensing in Induction Machine Deadbeat-Direct Torque and Flux Control Drives [J] . Kang Wang, Robert D. Lorenz, Noor Aamir Baloch Industry Applications, IEEE Transactions on . 2018,第6期

机译：增强的基于注入的实时参数估计方法，以改善感应电机无差拍直接转矩和磁通控制驱动器中的反电动势自感应
3. Loss Manipulation Capabilities of Deadbeat Direct Torque and Flux Control Induction Machine Drives [J] . Wang Yukai, Ito Takumi, Lorenz Robert D. Industry Applications, IEEE Transactions on . 2015,第6期

机译：无差拍直接转矩和磁通控制感应电机驱动器的损耗操纵能力
4. Deadbeat-direct torque and flux control on low switching frequency induction machine drives using the enhanced flux observer and torque model [C] . Wang Yukai, Tobayashi Shunsuke, Lorenz Robert D. 2013 IEEE Energy Conversion Congress amp; Exposition . 2013

机译：使用增强的磁通观测器和转矩模型对低开关频率感应电机驱动器进行无差拍直接转矩和磁通控制
5. Deadbeat - Direct Torque and Flux Control Drives for High Power Applications using Low Switching Frequency Multi-level Inverters. [D] . Wang, Yukai. 2016

机译：Deadbeat-使用低开关频率多电平逆变器的高功率应用的直接转矩和磁通控制驱动器。
6. The Effects of Cogging Torque Reduction in Axial Flux Machines [O] . Samuel Mengesha, Shailendra Rajput, Simon Lineykin, 2021

机译：齿槽扭矩减小的影响轴向磁通机
7. Stator- and rotor-flux-based deadbeat direct torque control of induction machines [O] . Kenny, Barbara H., Lorenz, Robert D. 2003

机译：基于定子和转子磁通的感应电机的无差拍直接转矩控制
8. Stator and Rotor Flux Based Deadbeat Direct Torque Control of Induction Machines [R] . Kenny, B. H. , Lorenz, R. D. 2002

机译：基于定子和转子磁链的感应电机无差拍直接转矩控制

A Low-Switching-Frequency Flux Observer and Torque Model of Deadbeat–Direct Torque and Flux Control on Induction Machine Drives

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