电液系统低抖振滑模控制器的设计

2016 IEEE First International Conference on Control, Measurement and Instrumentation (CMI) Pub Date : 2016-02-25 DOI:10.1109/CMI.2016.7413762

S. Das Mahapatra, R. Saha, D. Sanyal, A. Sengupta, U. Bhattacharyya, S. K. Sanyal

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引用次数: 4

摘要

设计了一阶和二阶滑模控制器，用于电液作动系统的线性运动跟踪，该系统具有死带和其他非线性特征，如气缸的伸缩、滞后和Stribeck特性。一种输入线性化结构已经被开发出来，用于非线性系统的1阶和2阶滑模控制器(SMC)。所应用的SMC与一个简单的积分补偿器相耦合，以衰减输入信号的颤振和输出的任何稳态误差。实时实验表明，一阶控制器在1.4Hz以上跟踪效果较好，二阶控制器在1.4Hz以下跟踪效果较好。

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Designing low-chattering sliding mode controller for an electrohydraulic system

Sliding mode controllers of first and second orders have been designed for linear motion tracking for an eletrohydraulic actuation system having deadband and other nonlinear features like cylinder stiction, hysterisis and Stribeck characteristics. An input linearized structure has been developed to formulate sliding mode controllers, or SMC, of orders 1 and 2 for the nonlinear system. The applied SMC is coupled with a simple integral compensator for attenuating both the chatter of the input signal and any steady state error of the output. Real-time experiments have been carried out that show the first-order controller as better above 1.4Hz tracking and the second-order controller as better below 1.4Hz.

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2016 IEEE First International Conference on Control, Measurement and Instrumentation (CMI)

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