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Robust microprocessor control of a brushless D.C. motor driving variable inertia loads

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dc.contributor.author Karunadasa, JP
dc.contributor.author Renfrew, AC
dc.date.accessioned 1992T02:29:11Z
dc.date.available 1992T02:29:11Z
dc.identifier.uri http://dl.lib.mrt.ac.lk/handle/123/8671
dc.description.abstract The integration of mechanical and electrical elements into a mechatronic design is facilitated, if unwanted interaction is minimized by means of a suitable control technique. The example of a brushless d.c. motor servomechanism, in which speed and position control must be robust in the presence of mechanical load changes, is considered. Torque pulsations are also removed by a software current controller. It is shown that, while classical control is adequate for current and speed controls, a nonlinear (sliding mode) controller is necessary for position. The design process is outlined and experimental results are shown.
dc.language en
dc.title Robust microprocessor control of a brushless D.C. motor driving variable inertia loads
dc.type Article-Abstract
dc.identifier.year 1992
dc.identifier.journal Mechatronics
dc.identifier.issue 4
dc.identifier.volume 2
dc.identifier.pgnos 347-361


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