基于准直接计算的永磁同步电机自感控制分析设计

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2023-03-16 DOI:10.1109/OJIA.2023.3276820
Niklas Himker;Axel Mertens
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引用次数: 3

摘要

电机自感控制(SSC)的分析描述和参数化是朝着更容易调试这些系统迈出的重要一步。在准直接(QD)计算中,结合了通过数值优化进行高带宽位置估计的优点和锁相环的滤波特性。QD计算使用两个参数进行估计。借助传动系的最大可能加速度,导出了这两个参数之间的相互依赖关系。剩余的自由度用于调整估计的动力学。利用解析推导的估计器的传递函数,选择速度控制的参数,并实现指定的相位裕度。在分析参数化的帮助下,不需要进行经验或数值调整,这是SSC独有的。所有结果都经过了实验验证。
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Analytical Design of Self-Sensing Control for PMSM Using Quasi-Direct Calculation
The analytical description and parameterization of a self-sensing control (SSC) for an electrical machine is an important step toward easier commissioning of these systems. In this article, the advantages of high bandwidth position estimation via numerical optimization and the filtering characteristics of a phase-locked loop are combined in the quasi-direct (QD) calculation. The QD calculation uses two parameters for estimation. With the help of the maximum possible acceleration of the drive train, an interdependency between these two parameters is derived. The remaining degree of freedom is used to tune the dynamics of the estimation. Using the transfer function of the estimator, which is derived analytically, the parameters of the speed control are selected, and a specified phase-margin is implemented. With the help of the analytical parameterization, no empirical or numerical tuning needs to be done, which is unique for SSC. All results are experimentally validated.
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