Methods and systems for monitoring stator winding vibration
First Claim
1. A system for monitoring a stator winding, comprising:
- at least one sensor comprising;
at least one actively powered conductive sensor antenna deposited on a first side of at least one layer of a printed circuit board substrate, wherein at least a portion of the at least one antenna is positioned to substantially face a stator winding, anda non-conductive shield mounted to an opposing side of the at least one layer of the printed circuit board substrate, wherein at least a portion of the shield is positioned to substantially face away from the stator winding;
at least one alternating current power source in communication with the at least one sensor and operable to deliver current to the at least one sensor antenna; and
at least one signal processing unit in communication with the at least one sensor and operable to measure a load on the at least one sensor antenna and transmit vibration data to a controller responsive to the load on the at least one sensor antenna.
3 Assignments
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Accused Products
Abstract
Embodiments of methods and systems for monitoring stator winding vibration of a rotating electric machine are provided. According to one example embodiment, a system includes at least one sensor including at least one conductive sensor antenna deposited on a first side of at least one layer of a printed circuit board substrate and positioned to substantially face a stator winding, and a non-conductive shield mounted to an opposing side of the printed circuit board substrate and positioned to substantially face away from the stator winding. The system further includes an alternating current power source in communication with the sensor and operable to deliver current to the conductive sensor antenna. A signal processing unit may be in communication with the sensor, operable to measure a load on the sensor antenna and to transmit vibration data to a controller responsive to the load on the sensor antenna.
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Citations
20 Claims
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1. A system for monitoring a stator winding, comprising:
- at least one sensor comprising;
at least one actively powered conductive sensor antenna deposited on a first side of at least one layer of a printed circuit board substrate, wherein at least a portion of the at least one antenna is positioned to substantially face a stator winding, and a non-conductive shield mounted to an opposing side of the at least one layer of the printed circuit board substrate, wherein at least a portion of the shield is positioned to substantially face away from the stator winding; at least one alternating current power source in communication with the at least one sensor and operable to deliver current to the at least one sensor antenna; and
at least one signal processing unit in communication with the at least one sensor and operable to measure a load on the at least one sensor antenna and transmit vibration data to a controller responsive to the load on the at least one sensor antenna. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- at least one sensor comprising;
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12. A method for monitoring a stator winding, comprising:
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providing at least one actively powered sensor comprising at least one conductive sensor antenna substantially deposited on a first side of at least one layer of a printed circuit board substrate; providing a non-conductive shield mounted to an opposing side of the least one layer of the printed circuit board substrate; positioning at least a portion of the at least one sensor along a stator winding, wherein the first side of the printed circuit board substrate faces substantially towards the stator winding and the opposing side faces substantially away from the stator winding; delivering alternating current from an alternating current power source to the at least one sensor antenna; receiving a measurement of a load on at least one sensor antenna by a signal processing unit, wherein the load is affected by variations in an electromagnetic field caused by movement of the stator winding; and transmitting vibration data to a controller from the signal processing unit responsive to the load on the at least one sensor antenna. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
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20. An apparatus for monitoring a stator winding, comprising:
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a printed circuit board substrate comprising a first side and an opposing side, wherein the first side is positionable against a stator winding; at least one actively powered conductive sensor antenna deposited on the first side of the printed circuit board substrate; at least one electrical feed in electrical communication with the at least one conductive sensor antenna and operable to connect to a power source and a signal processing unit; and at least one non-conductive shield mounted to the opposing side of the printed circuit board substrate; wherein the power source is operable to deliver current through the at least one electrical feed to the at least one sensor antenna; and wherein the signal processing unit is operable to measure a load on the at least one sensor antenna affected by variations in an electromagnetic field caused by movement of the stator winding, and to transmit vibration data to a controller responsive to the load on the at least one sensor antenna.
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Specification