Direct current machine monitoring system and method
First Claim
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1. A system for determining a rotation frequency of a direct current machine comprising:
- (a) a sensor for monitoring load current of the machine; and
(b) a computer for (i) obtaining a power spectrum of the load current, (ii) identifying significant peaks of the power spectrum, (iii) identifying one of the significant peaks as indicative of rotation frequency, and (iv) identifying a frequency of the identified peak as the rotation frequency.
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Abstract
A direct current machine monitoring system includes a current sensor for monitoring load current of the machine; and a computer for obtaining a power spectrum in a range including a machine trait-passing frequency, determining a magnitude of a maximum peak in the power spectrum in a range including the trait-passing frequency plus or minus an uncertainty frequency, and evaluating the magnitude of the maximum peak to assess a condition of the machine. The computer may additionally or alternatively be used for obtaining a low frequency power spectrum of the load current, obtaining at least one magnitude of a component of the power spectrum at a respective predicted frequency, and evaluating the at least one magnitude of the component to assess the condition of the machine.
50 Citations
31 Claims
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1. A system for determining a rotation frequency of a direct current machine comprising:
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(a) a sensor for monitoring load current of the machine; and
(b) a computer for (i) obtaining a power spectrum of the load current, (ii) identifying significant peaks of the power spectrum, (iii) identifying one of the significant peaks as indicative of rotation frequency, and (iv) identifying a frequency of the identified peak as the rotation frequency. - View Dependent Claims (2)
(a) determining whether a magnitude of a first one of the significant peaks is within an acceptable range, whether a first frequency of the first one of the significant peaks is within an acceptable frequency range, and whether the first frequency does not coincide with a system harmonic frequency, and (b)(1) if so, identifying the first one of the significant peaks as the rotation peak, or (b)(2) if not, repeating (a) using a different one of the significant peaks.
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3. A direct current machine monitoring system comprising:
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(a) a current sensor for monitoring load current of the machine; and
(b) a computer for (i) obtaining a rotation frequency of the machine by (aa) obtaining a first power spectrum of the load current, (bb) identifying significant peaks of the first power spectrum, (cc) identifying one of the significant peaks as indicative of rotation frequency, and (dd) identifying a frequency of the identified peak as the rotation frequency, (ii) multiplying the rotation frequency and a machine trait number to obtain a trait-passing frequency, (iii) obtaining a second power spectrum in a range including the trait-passing frequency, (iv) determining a magnitude of a maximum peak in the second power spectrum, and (v) evaluating the magnitude of the maximum peak to assess a condition of the machine. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10)
(a) determining whether a magnitude of a first one of the significant peaks is within an acceptable range, whether a first frequency of the first one of the significant peaks is within an acceptable frequency range, and whether the first frequency does not coincide with a system harmonic frequency, and (b)(1) if so, identifying the first one of the significant peaks as the rotation peak, or (b)(2) if not, repeating (a) using a different one of the significant peaks. -
10. The system of claim 3 wherein the machine trait number comprises a number of commutator bars or armature slots of the machine.
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11. A direct current machine monitoring system comprising:
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(a) a current sensor for monitoring load current of the machine; and
(b) a computer for (i) obtaining a power spectrum in a range including a machine trait-passing frequency, (ii) determining a magnitude of a maximum peak in the power spectrum in a range including the trait-passing frequency plus or minus an uncertainty frequency, and (iii) evaluating the magnitude of the maximum peak to assess a condition of the machine. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
(i) obtain an additional spectrum of the load current, the additional spectrum including frequencies in a low frequency range, (ii) obtain at least one magnitude of a component of the additional power spectrum at a respective predicted frequency, and (iii) evaluate the at least one magnitude of the component to differentiate whether a degradation of the direct current machine is due to commutator degradation. -
18. The system of claim 17 wherein the computer is adapted to evaluate the at least one magnitude by identifying a function of the at least one magnitude and evaluating the function.
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19. The system of claim 18 wherein identifying the function includes normalizing the at least one magnitude by dividing the at least one magnitude by a respective magnitude of the load current.
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20. The system of claim 18 wherein the at least one magnitude comprises a plurality of magnitudes and wherein the function comprises an average of the plurality of magnitudes.
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21. The system of claim 18 wherein the at least one magnitude comprises a plurality of magnitudes and wherein the function comprises a distribution index of the plurality of magnitudes.
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22. A direct current machine monitoring system comprising:
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(a) a current sensor for monitoring load current of the machine; and
(b) a computer for (i) obtaining a rotation frequency of the machine, (ii) multiplying the rotation frequency and a machine trait number to obtain a trait-passing frequency, (iii) obtaining a first power spectrum of the load current in a range including the trait-passing frequency and a second power spectrum of the load current including frequencies in a low frequency range, (iv) determining a first magnitude of a maximum peak in the first power spectrum, (v) obtaining at least one second magnitude of a component of the second power spectrum at a respective predicted frequency, and (vi) evaluating the first and second magnitudes to assess commutation degradation of the machine. - View Dependent Claims (23, 24)
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25. A direct current machine monitoring system comprising:
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(a) a current sensor for monitoring load current of the machine; and
(b) a computer for (i) obtaining a low frequency power spectrum of the load current, (ii) obtaining at least one magnitude of a component of the power spectrum at a respective predicted frequency, and (iii) evaluating the at least one magnitude of the component to assess a condition of the machine. - View Dependent Claims (26, 27, 28, 29, 30, 31)
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Specification
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Current AssigneeGE Global Sourcing LLC (Westinghouse Air Brake Technologies Corporation)
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Original AssigneeGeneral Electric Company
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InventorsHokanson, Paul Robert, Barton, Richard Kenneth, Koegl, Rudolph Alfred Albert, Treanor, Michael Paul, Kliman, Gerald Burt
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Primary Examiner(s)Hoff, Marc S.
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Assistant Examiner(s)Raymond, Edward
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Application NumberUS09/579,488Time in Patent Office959 DaysField of Search702/75, 702/33-35, 702/57-60, 702/76-78, 702/81, 702/82, 702/106, 702/145, 702/146, 702/199, 73/10.8, 736/60, 735/140.2, 324/512, 324/513, 324/520, 324/522, 324/166, 324/76.19, 324/76.22US Class Current702/75CPC Class CodesG01R 31/343 in operation
