Nibras Syarif Ramadhan, Era Purwanto, Bambang Sumantri, Hary Oktavianto, Moch Rafi Damas Abdilla, Abdillah Aziz Muntashir
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引用次数: 0
摘要
感应电机(IM)的低速运行需要特殊处理,以保持其性能。间接面向场控制(IFOC)方法的使用使感应电机在各种条件下都能可靠运行,但 IFOC 的性能取决于作为 IFOC 一部分的 dq 轴控制器的可靠性。因此,本研究采用灰狼优化器 (GWO) 方法来优化 d 轴侧的 PI 控制器。该方法的数据与传统的 PI 方法进行了比较评估。结果表明,GWO-PI 和传统 PI 方法具有相同的稳态值(SSV)和误差(SSE)。采用 GWO-PI 方法后,积分绝对误差(IAE)降低了 0.36%,电流消耗降低了 3.96-10.62%。在上升时间和稳定时间方面,采用 GWO-PI 方法后,上升时间缩短了 0.001-0.02 秒,稳定时间缩短了 0.08-0.362 秒。这表明,在低速运行案例研究中,在 IFOC 方法的 d 轴控制器上实施 GWO-PI 方法可以优化 IM 速度性能并降低电流消耗。
Performance improvement of induction motor drives in low-speed operation using gray wolf optimizer based on IFOC
Low-speed operation of induction motors (IM) requires special treatment to maintain their performance. The use of the indirect field-oriented control (IFOC) method makes the IM reliable in a variety of conditions, but the performance of IFOC is dependent on the reliability of the dq-axis controller, which is part of IFOC. Therefore, this research offers the implementation of the grey wolf optimizer (GWO) method to optimize the PI controller on the d-axis side. The data from this method is compared to the conventional PI method for evaluation. The results show that the GWO-PI and conventional PI method have the same steady-state value (SSV) and error (SSE). The implementation of the GWO-PI method reduces the integral absolute error (IAE) by up to 0.36% and the current consumption by 3.96–10.62%. As for the rise time and settling time aspects, the implementation of GWO-PI provides improvements of 0.001–0.02 s for rise time and 0.08–0.362 s for settling time. This indicates that the implementation of the GWO-PI method on the d-axis controller of the IFOC method can optimize the performance of IM speed and reduce current consumption in the case study of low-speed operation.
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.