Young-Wook Kim, Hwigon Kim, Jaeyeon Park, Seung-Ki Sul
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引用次数: 0
摘要
本研究提出了一种在线最小损耗(ML)控制策略,该策略考虑了转矩控制应用中内部永磁同步电机的铁损和铜损。所提出的 ML 控制策略利用一个约束优化问题来满足转矩参考跟踪和损耗最小化。为实现损耗最小化,采用了等效铁损电阻电路。为解决优化问题,通过数值分析算法应用了拉格朗日乘法。由此得出的解决方案可为每个采样瞬间提供最佳电流参考值。拉格朗日乘法器法需要磁通连线、动态电感和铁损电阻等参数。基本磁通量通过磁通量观测器估算,动态电感通过高频电压信号注入估算。拟议的铁损电阻估算器无需任何初步实验即可估算出等效铁电阻。使用电流传感器测量直流输入功率,以在线准确估算铁损电阻。为了分析 ML 控制与传统的每安培最大扭矩控制相比的有效性,使用了有限元分析。通过模拟和实验验证了所提出的 ML 控制策略的可行性。
On-line minimum loss control strategy of IPMSM in torque-controlled application
This study proposes an on-line minimum loss (ML) control strategy that considers the iron and copper losses of an interior permanent magnet synchronous motor in torque-controlled applications. The proposed ML control strategy utilizes a constrained optimization problem to satisfy torque reference tracking and loss minimization. An equivalent iron loss resistance circuit is adopted for the loss minimization. To solve the optimization problem, the Lagrange multiplier method is applied through a numerical analysis algorithm. The resulting solution provides the optimal current reference for every sampling instant. The Lagrange multiplier method needs parameters such as magnetic flux linkages, dynamic inductances, and iron loss resistance. Fundamental magnetic flux linkages are estimated using a flux observer, and the dynamic inductances are estimated with high-frequency voltage signal injection. The proposed iron loss resistance estimator estimates the equivalent iron resistance without any preliminary experiments. DC input power is measured using a current sensor for the accurate on-line estimation of iron loss resistance. To analyze the effectiveness of ML control compared with conventional maximum torque per ampere control, finite element analysis is used. The feasibility of the proposed ML control strategy is verified through simulation and experiments.
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.