Remote monitoring of tightness of stator windings
First Claim
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1. A system for monitoring tightness of stator windings in an electric machine, the system comprising:
- a light source for providing light at multiple wavelengths;
an optical separation sensor situated in a stator core, wherein the optical separation sensor comprises an optical fiber core, an optical fiber cladding enclosing the optical fiber core, and an optical interface element situated in a region of the optical fiber cladding such that a portion of the provided light from the light source is absorbable by the optical interface element,wherein the optical interface element comprises a wavelength selective material configured for higher percentage absorption of the provided light at a first wavelength as compared to percentage absorption of the provided light at a second wavelength;
a meter for measuring intensities of the provided light at the first and second wavelengths after absorption by the optical interface element; and
a control subsystem for using the measured intensities to assess the tightness of the stator windings.
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Abstract
A system for monitoring tightness of stator windings in an electric machine is provided. The system includes a light source for providing an optical power. The system also includes an optical separation sensor situated in a stator core and including an optical interface element for absorbing some of the optical power. Further, the system includes a power meter for measuring at least one intensity of the optical power after absorption by the optical interface element and a control subsystem for assessing the tightness of the stator windings.
26 Citations
13 Claims
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1. A system for monitoring tightness of stator windings in an electric machine, the system comprising:
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a light source for providing light at multiple wavelengths; an optical separation sensor situated in a stator core, wherein the optical separation sensor comprises an optical fiber core, an optical fiber cladding enclosing the optical fiber core, and an optical interface element situated in a region of the optical fiber cladding such that a portion of the provided light from the light source is absorbable by the optical interface element, wherein the optical interface element comprises a wavelength selective material configured for higher percentage absorption of the provided light at a first wavelength as compared to percentage absorption of the provided light at a second wavelength; a meter for measuring intensities of the provided light at the first and second wavelengths after absorption by the optical interface element; and a control subsystem for using the measured intensities to assess the tightness of the stator windings. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A ripple spring device comprising:
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a ripple spring; an optical separation sensor in contact with the ripple spring, wherein the optical separation sensor comprises an optical fiber core, an optical fiber cladding enclosing the optical fiber core, and an optical interface element situated in a region of the optical fiber cladding such that a portion of the provided light from a light source is absorbable by the optical interface element, wherein the optical interface element comprises a wavelength selective material configured for higher percentage absorption of the provided light at a first wavelength as compared to percentage absorption of the provided light at a second wavelength. - View Dependent Claims (10, 11, 12)
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13. A method for monitoring tightness of stator windings in an electrical machine, the method comprising:
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providing light from a light source to an optical separation sensor located between a plurality of wedge system components; absorbing the provided light by an optical interface element of the optical separation sensor, wherein the optical separation sensor comprises at least one optical fiber situated between the plurality of wedge system components, wherein the at least one optical fiber comprises a core and a cladding surrounding the core, and wherein the optical interface element is situated at least partially within a section of the cladding for absorbing the provided light, wherein the optical interface element is configured for higher percentage absorption of the provided light at a first wavelength as compared to percentage absorption of the provided light at a second wavelength; measuring the provided light at the first and second wavelengths after absorption by the optical interface element; and determining the tightness of the stator windings based on a ratio of the intensities at the first wavelength and the second wavelength.
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Specification