Method for on-line detection of resistance-to-ground faults in active magnetic bearing systems
First Claim
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1. A magnetic bearing, comprising:
- a stator having a plurality of protrusions extending radially-inward therefrom and electrical windings wound about each protrusion to form a corresponding plurality of bearing coils, the plurality of bearing coils being disposed within an insulative coating adapted to protect against the ingress of liquids;
a controller communicable with the electrical windings and configured to control an electrical current in each bearing coil to maintain a rotor centered within the stator;
a sensing wire coupled to at least one of the plurality of bearing coils and also disposed within the insulative coating; and
a sensing device communicably coupled to the sensing wire and configured monitor a resistance to ground of the sensing wire, wherein the resistance to ground of the sensing wire is indicative of a resistance to ground of the at least one the plurality of bearing coils.
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Abstract
A magnetic bearing is disclosed that includes a sensing wire wrapped around one or more of the bearing coils and configured to measure the resistance to ground of each bearing coil. With the presence of contaminants such as liquids, a protective coating disposed about the bearing coils degrades over time, thereby reducing the resistance to ground of the bearing coils. The sensing wire transmits the detected resistance to ground of the bearing coils to an adjacent sensing device, which can provide an output that informs a user whether corrective action is required to prevent damage or failure of the magnetic bearing.
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Citations
20 Claims
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1. A magnetic bearing, comprising:
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a stator having a plurality of protrusions extending radially-inward therefrom and electrical windings wound about each protrusion to form a corresponding plurality of bearing coils, the plurality of bearing coils being disposed within an insulative coating adapted to protect against the ingress of liquids; a controller communicable with the electrical windings and configured to control an electrical current in each bearing coil to maintain a rotor centered within the stator; a sensing wire coupled to at least one of the plurality of bearing coils and also disposed within the insulative coating; and a sensing device communicably coupled to the sensing wire and configured monitor a resistance to ground of the sensing wire, wherein the resistance to ground of the sensing wire is indicative of a resistance to ground of the at least one the plurality of bearing coils. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of operating a magnetic bearing, comprising:
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circulating a cooling gas through a bearing cavity where the magnetic bearing is arranged, the magnetic bearing having a circular stator with a plurality of coils extending radially-inward therefrom, the plurality coils having an insulative coating disposed thereon to protect against the ingress of liquids; sensing a first resistance to ground with a sensing wire coupled to the first coil, the sensing wire also having the insulative coating disposed thereon; and monitoring the first resistance to ground as the insulative coating degrades over time, the first resistance to ground being monitored with a sensing device communicably coupled to the sensing wire, and wherein the first resistance to ground is indicative of a resistance to ground of the first coil. - View Dependent Claims (11, 12, 13, 14)
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15. A magnetic bearing, comprising:
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a circular stator having a plurality of magnetic pole pairs spaced about the stator and extending radially-inward therefrom, each magnetic pole pair comprising a pair of adjacent bearing coils protected against the ingress of liquids by an insulative coating; a sensing wire coupled to a first magnetic pole pair, the first magnetic pole pair being arranged at the bottom of the stator, wherein the sensing wire is also disposed within the insulative coating; and a sensing device communicably coupled to the sensing wire and configured to monitor a resistance to ground of the sensing wire as the insulative coating degrades over time, wherein the resistance to ground of the sensing wire is indicative of a resistance to ground of the first magnetic pole pair. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification