前馈
控制器(灌溉)
控制理论(社会学)
接触器
弹道
计算机科学
执行机构
控制工程
信号(编程语言)
迭代学习控制
工程类
控制(管理)
人工智能
物理
程序设计语言
功率(物理)
天文
生物
量子力学
农学
作者
Eloy Serrano-Seco,Edgar Ramirez-Laboreo,Eduardo Moya-Lasheras,Carlos Sagüés
标识
DOI:10.1109/tie.2022.3231254
摘要
Electromechanical relays and contactors suffer from strong collisions at the end of the switching operations. This causes several undesirable phenomena, such as clicking, mechanical wear and contact bounce. Thus, there is great interest in mitigating these switching impacts while keeping the advantageous features of these devices. This paper proposes a complete control strategy for soft landing. The control structure includes three main components. The first one is a real-time flux-tracking feedback controller, which presents several advantages over voltage or current control. The second one is a feedforward controller, which computes the flux reference signal based on a proposed dynamical model and the desired position trajectory for the switching operations. Lastly, the third control component is a learning-type run-to-run adaptation law that iteratively adapts the model parameters based on an audio signal. It exploits the repetitive nature of these devices in order to circumvent modeling discrepancies due to unit-to-unit variability or small changes between operations. The effectiveness of the proposed control is demonstrated through various experiments.
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