Method and apparatus for generating motor current spectra to enhance motor system fault detection
First Claim
1. A method for motor current signature analysis to determine frequencies in perturbations within the current, the current having a sinusoidal nonstationary carrier wave frequency, said method comprising the steps:
- deriving an analog signal related to said current having the non-stationary carrier wave containing the perturbations;
selecting a resolution value, R, for analysis of a discrete data set;
selecting a desired sampling rate, fsamp, that is at least twice a maximum frequency to be analyzed in said frequencies in said perturbations;
calculating an actual sampling rate, f'"'"'samp, that is close to said desired sampling rate, said actual sampling rate being equal to a product of the carrier wave frequency, fcarrier, multiplied by a selected number of samples, m, divided by a selected number of cycles of the carrier wave, where the number of cycles is a whole number;
producing from said actual sampling rate, f'"'"'samp, a dynamically adjusted sampling rate which varies according to frequency variations in the nonstationary carrier wave;
sampling said analog signal said selected number of times, m, at said dynamically adjusted sampling rate to create said discrete data set containing a stationary carrier wave form having said exact whole number of cycles;
performing Discrete Fourier Transform of said discrete data set at said selected resolution value, R, and said dynamically adjusted sampling rate andanalyzing a result of said Discrete Fourier Transform of said discrete data set for frequencies of the perturbations.
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Abstract
A method and circuitry for sampling periodic amplitude modulations in a nonstationary periodic carrier wave to determine frequencies in the amplitude modulations. The method and circuit are described in terms of an improved motor current signature analysis. The method insures that the sampled data set contains an exact whole number of carrier wave cycles by defining the rate at which samples of motor current data are collected. The circuitry insures that a sampled data set containing stationary carrier waves is recreated from the analog motor current signal containing nonstationary carrier waves by conditioning the actual sampling rate to adjust with the frequency variations in the carrier wave. After the sampled data is transformed to the frequency domain via the Discrete Fourier Transform, the frequency distribution in the discrete spectra of those components due to the carrier wave and its harmonics will be minimized so that signals of interest are more easily analyzed.
52 Citations
12 Claims
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1. A method for motor current signature analysis to determine frequencies in perturbations within the current, the current having a sinusoidal nonstationary carrier wave frequency, said method comprising the steps:
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deriving an analog signal related to said current having the non-stationary carrier wave containing the perturbations; selecting a resolution value, R, for analysis of a discrete data set; selecting a desired sampling rate, fsamp, that is at least twice a maximum frequency to be analyzed in said frequencies in said perturbations; calculating an actual sampling rate, f'"'"'samp, that is close to said desired sampling rate, said actual sampling rate being equal to a product of the carrier wave frequency, fcarrier, multiplied by a selected number of samples, m, divided by a selected number of cycles of the carrier wave, where the number of cycles is a whole number; producing from said actual sampling rate, f'"'"'samp, a dynamically adjusted sampling rate which varies according to frequency variations in the nonstationary carrier wave; sampling said analog signal said selected number of times, m, at said dynamically adjusted sampling rate to create said discrete data set containing a stationary carrier wave form having said exact whole number of cycles; performing Discrete Fourier Transform of said discrete data set at said selected resolution value, R, and said dynamically adjusted sampling rate and analyzing a result of said Discrete Fourier Transform of said discrete data set for frequencies of the perturbations. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for motor current signature analysis to determine frequencies in perturbations within the current, the current having a sinusoidal nonstationary carrier wave, said method comprising the steps:
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deriving, with a differential transformer inserted into a lead to the motor, an analog signal related to said current having the non-stationary carrier wave containing the perturbations; selecting a resolution value, R, for analysis of a discrete data set; selecting a desired sampling rate, fsamp, that is at least twice a maximum frequency to be analyzed in said frequencies in said perturbations; calculating an actual sampling rate, f'"'"'samp, close to said desired sampling rate, fsamp, said actual sampling rate, f'"'"'samp, being equal to a product of the carrier wave frequency, fcarrier, multiplied by a selected number of samples, m, divided by a selected number of cycles of the carrier wave, where the number of cycles is a whole number; producing from said actual sampling rate, f'"'"'samp, a dynamically adjusted sampling rate which varies according to frequency variations in the nonstationary carrier wave, said dynamically adjusted sampling rate achieved by inputting said analog signal into both an analog-to-digital converter and a variable frequency clock generator, with an output clock signal from said clock generator triggering collection of samples of said analog signal by said analog-to-digital converter according to variations in frequency of the carrier wave; sampling said analog signal said selected number of times, m, at said dynamically adjusted sampling rate to create said discrete data set containing a stationary carrier wave form having said exact whole number of cycles; performing Discrete Fourier Transform of said discrete data set at said selected resolution value, R, and said dynamically adjusted sampling rate; and analyzing a result of said Discrete Fourier Transform of said discrete data set for frequencies of the perturbations. - View Dependent Claims (8, 9, 10)
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11. A method for motor current signature analysis to determine frequencies in perturbations within the current, the current having a sinusoidal nonstationary carrier wave, said method comprising the steps:
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deriving, with a differential transformer inserted into a lead to the motor, an analog signal related to said current having the nonstationary carrier wave;
containing the perturbations;selecting a resolution value, R, for analysis of a discrete data set; selecting a desired sampling rate, fsamp, that is at least twice a maximum frequency to be analyzed in said frequencies in said perturbations; calculating an actual sampling rate, f'"'"'samp, close to said desired sampling rate, fsamp, said actual sampling rate, f'"'"'samp, being equal to a product of the carrier wave frequency, fcarrier, multiplied by a selected number of samples, m, divided by a selected number of cycles of the carrier wave, where the number of cycles is a whole number; producing from said actual sampling rate, f'"'"'samp, a dynamically adjusted sampling rate which varies according to frequency variations in the nonstationary carrier wave, said dynamically adjusted sampling rate achieved by inputting said analog signal into both an analog-to-digital convertor and a phase comparitor, a dc output of said phase comparitor feeding an input to a voltage controlled oscillator preset to a selected frequency, with an output of said voltage controlled oscillator both triggering operation of said analog-to-digital convertor and inputting said phase comparitor, whereby detection of a phase difference, due to frequency changes in said carrier wave, by said phase comparitor causes said dc output of said phase comparitor to change accordingly thereby causing said output of said voltage controlled oscillator to change frequency for triggering said analog-to-digital convertor; sampling said analog signal said selected number of times, m, at said dynamically adjusted sampling rate to create said discrete data set containing a stationary carrier wave form having said exact whole number of cycles; performing Discrete Fourier Transform of said discrete data set at said selected resolution value, R, and said dynamically adjusted sampling rate; and analyzing a result of said Discrete Fourier Transform of said discrete data set for frequencies of the perturbations. - View Dependent Claims (12)
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Specification