Title:Linear Motion Control with a Low Power Hydraulic Switching Converter - Part II: Flatness based ControlAuthor(s):Helmut Kogler,  Rudolf ScheidlAbstract:Hydraulic switching control is an opportunity for economic, robust and energy efficient hydraulic motion control. The hydraulic buck converter represents a promising concept, which meets these requirements. Part I of this publication has shown, that for a convenient control performance a model based control should be applied. In this paper a flatness based controller for linear hydraulic motion control with a sub kilowatts hydraulic buck converter is presented. A simple model based on an averaging of the switching converter is employed to derive a flatness based controller combined with a nonlinear observer to estimate all system states only from a position signal. Its performance is studied by simulations and experiments for large ramp type and sinusoidal motions of a heavy mass. Comparison of motion quality and energy consumption are made between the converter and a standard hydraulic proportional drive using a servo-valve instead of the switching converter. With this flatness based controller a tracking performance as good as of a proportional drive can be achieved, yet at much better efficiency. Proportional control for the switching converter, however, leads to inferior results for this type of intended motions.Journal:Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Eng.ISSN:0959-6518Page Reference:page 818-828, 34 page(s)Publishing:3/2015Volume:229Number:3

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