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Magnetically-levitated drives are compelling in applications where long-lifetime operation or process chamber encapsulation is a requirement. To exploit these advantages, contactless position sensors are needed for position information of the rotor. Off-the-market sensor technologies render high-performance magnetic levitation possible; yet their system integration may be challenging.In this work, a position sensing system based on Eddy-current generation is proposed. A single integrated circuit excites an array of four opposing miniature coils, allowing for differential measurement. Coupled to a micro-controller, it can estimate position of an electrically-conductive target —in this case the rotor of a magnetically-levitated drive— at high sampling rates.
Juan Patricio Tomás Peralta Fierro
Mario Paolone, André Hodder, Lucien André Félicien Pierrejean, Simone Rametti