基于磁通通道磁阻模型的电磁执行器模型控制

2011 16th International Conference on Methods & Models in Automation & Robotics Pub Date : 2011-09-29 DOI:10.1109/MMAR.2011.6031354

J. Reuter, Matthias Jäkle, Felix Prauße, Felix Rey

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引用次数: 2

摘要

对电磁执行器的面向控制的磁模型进行了分析和评估，以反映电磁特性的重要特征。此外，利用磁通通道模型可以忽略不期望的调谐要求。这里的重点放在涡流的建模上，因为涡流损耗的精确计算是设计最小化这些损耗的控制策略的要求。结果表明，与有限元模型相比，通量通道模型计算量小，计算效果好。然而，通量通道模型在基于平面的优化方案中需要额外的步骤。这一步骤称为状态分解，将在本文的第二部分进行解释。

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Model-based control of solenoid actuators using flux channel reluctance models

Control-oriented magnetic models for solenoid actuators are analyzed and evaluated subject to their capabilities to reflect important features of the magnetic properties. Moreover, it is shown that undesired tuning requirements can be omitted by use of flux channel models. The focus here is put on the modeling of eddy currents since the accurate calculation of eddy current losses is a requirement for control strategies that are designed to minimize these losses. It is shown that flux channel models provide good results while the computational burden is low in comparison to finite element models. However, flux channel models require an additional step when used in flatness-based optimization schemes. This step is called state-decomposition and is explained in the second part of this paper.

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2011 16th International Conference on Methods & Models in Automation & Robotics

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