Volume 20 No 12 (2022)
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IMPROVISING SUPERIOR LEVITATION AND DYNAMIC CONTROLPERFORMANCE OF ACTIVE MAGNETIC BEARING
Paddam Babu Rao , Dr.Prabodh Khampariya
Abstract
In this paper, the application of optimal state estimation and optimal state feedback algorithms for constant dynamic magnetic bearing control is dealt with. A reduced switch converter for the dynamic magnetic bearing system is investigated and its exhibition is experimentally approved at 32,000 rpmon a 4- hub magnetic bearing test-rig. In view of the coupled coil created as of late as an option for the course of action and unidirectional current activity, the reduced switch converter is derived and its methods of activity are expounded. In contrast with traditional topologies, this converter diminishes the necessity on the quantity of switches, gate drives, and pulse width modulation signalsoriginating from the controller. The analysis and experimental outcomes effectively approve the activity of the reduced switch converter to meet the magnetic bearing activity prerequisites.
Keywords
Active Magnetic Bearing, adaptive control
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