Arcing fault detection system using fluctuations in current peaks and waveforms

US 5,839,092 A
Filed: 03/26/1997
Issued: 11/17/1998
Est. Priority Date: 03/26/1997
Status: Expired due to Term

First Claim

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1. A method of detecting arcing faults in a line conductor carrying an electrical current between a power source and a load, said electrical current defining an AC waveform comprising a series of alternating positive half cycles and negative half cycles, said method comprising the steps of:

(a) obtaining current samples in a series of half cycles of said waveform;

(b) determining a peak current within each of the series of half cycles;

(c) comparing the peak currents of a selected pair of said half cycles to determine a slope direction between said selected pair of half cycles;

(d) counting a number of reversals in polarity occurring in a selected time interval, said reversals in polarity occurring when the slope direction between said selected pair of half cycles differs from the slope direction of a next selected pair of half cycles;

(e) generating an arc indicative signal when the number of reversals in polarity occurring within said selected time interval equals or exceeds a predetermined threshold number.

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Abstract

A system for detecting arcing faults in a line conductor carrying an electrical current between a power source and a load, the electrical current defining an AC waveform comprising a series of alternating positive half cycles and negative half cycles. In one embodiment, the method comprises the steps of obtaining current samples in a series of half cycles of the waveform, determining the peak current of each of the half cycles, and comparing the peak currents to determine changes in slope between half cycles. The number of changes in slope occurring within a selected time interval are counted and an arc indicative signal is produced when the number of reversals in polarity in slope occurring within the selected time interval equals or exceeds a predetermined threshold number. In another embodiment, the method comprises, in addition to the steps above, the steps of normalizing each of the current samples and autocorrelating the normalized current samples to obtain a measure of significant waveform shape changes between consecutive half cycles. Both the number of changes in slope and the number of significant waveform shape changes occurring within a selected time interval are counted and an arc indicative signal is produced when the number of reversals in polarity or the number of waveform changes equal or exceed predetermined threshold values.

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32 Claims

1. A method of detecting arcing faults in a line conductor carrying an electrical current between a power source and a load, said electrical current defining an AC waveform comprising a series of alternating positive half cycles and negative half cycles, said method comprising the steps of:
- (a) obtaining current samples in a series of half cycles of said waveform;
  
  (b) determining a peak current within each of the series of half cycles;
  
  (c) comparing the peak currents of a selected pair of said half cycles to determine a slope direction between said selected pair of half cycles;
  
  (d) counting a number of reversals in polarity occurring in a selected time interval, said reversals in polarity occurring when the slope direction between said selected pair of half cycles differs from the slope direction of a next selected pair of half cycles;
  
  (e) generating an arc indicative signal when the number of reversals in polarity occurring within said selected time interval equals or exceeds a predetermined threshold number.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method of claim 1 wherein the selected pair of half cycles comprises two consecutive half cycles.
  - 3. The method of claim 1 wherein the selected pair of half cycles comprises two consecutive negative half cycles.
  - 4. The method of claim 1 wherein the selected pair of half cycles comprises two consecutive positive half cycles.
  - 5. The method of claim 1 wherein step (d) comprises counting only the number of reversals in polarity in which the peak current of a second of said selected pair of half cycles is at least five amps.
  - 6. The method of claim 1 wherein step (d) comprises counting only the number of reversals in polarity in which the peak currents of said selected pair of half cycles differ by at least five percent.
  - 7. The method of claim 1 wherein the selected time interval is one second and the predetermined threshold number is fifteen.

8. A method of detecting arcing faults in a line conductor carrying an electrical current between a power source and a load, said electrical current defining an AC waveform comprising a series of alternating positive half cycles and negative half cycles, said method comprising the steps of:
- (a) obtaining current samples in a series of half cycles of said waveform;
  
  (b) determining a peak current within each of the series of half cycles;
  
  (c) normalizing each of the current samples;
  
  (d) comparing the peak currents of a selected pair of said half cycles to determine a slope direction between said selected pair of half cycles;
  
  (e) autocorrelating the normalized current samples to obtain a measure of significant waveform shape changes between the selected half cycles;
  
  (f) counting a number of reversals in polarity occurring within a selected time interval, said reversals in polarity occurring when the slope direction between said selected pair of half cycles differs from the slope direction of a next selected pair of half cycles;
  
  (g) counting a number of significant waveform shape changes occurring within said selected time interval; and
  
  (h) generating an arc indicative signal when the number of reversals in polarity occurring within said selected time interval equals or exceeds a first predetermined threshold number and when the number of significant shape changes occurring within said selected time interval equals or exceeds a second predetermined threshold number.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
- - 9. The method of claim 8 wherein the selected pair of half cycles comprises two consecutive half cycles.
  - 10. The method of claim 8 wherein the selected pair of half cycles comprises two consecutive negative half cycles.
  - 11. The method of claim 8 wherein the selected pair of half cycles comprises two consecutive positive half cycles.
  - 12. The method of claim 8 wherein step (e) comprises:
    - computing the differences between the normalized current samples of said selected pair of half cycles;
      
      summing the absolute values of the differences between the normalized current samples of said selected pair of half cycles; and
      
      evaluating the summed absolute values in relation to a third predetermined threshold to determine whether the summed absolute values represent a significant waveform shape change between said selected pair of half cycles.
  - 13. The method of claim 8 wherein the selected time interval is one second, the first predetermined threshold number is fifteen and the second predetermined threshold number is three.
  - 14. The method of claim 8 wherein step (f) comprises counting only the number of reversals in polarity in which the peak current of a second of said selected pair of half cycles is at least five amps.
  - 15. The method of claim 8 wherein step (f) comprises counting only the number of reversals in polarity in which the peak currents of said selected pair of half cycles differ by at least five percent.

16. An apparatus for detecting arcing faults in a line conductor carrying an electrical current between a power source and a load, said electrical current defining an AC waveform comprising a series of alternating positive half cycles and negative half cycles, said apparatus comprising:
- (a) a sampler for obtaining current samples in a series of half cycles of said waveform;
  
  (b) a peak detector for determining a peak current of each of the series of half cycles of said waveform;
  
  (c) means for comparing the peak currents of a selected pair of said half cycles to determine a slope direction between said selected pair of half cycles;
  
  (d) means for counting a number of reversals in polarity occurring within a selected time interval, said reversals in polarity occurring when the slope direction between said selected pair of half cycles differs from the slope direction of a next selected pair of half cycles; and
  
  (e) means for generating an arc indicative signal when the number of reversals in polarity occurring within said selected time interval equals or exceeds a predetermined threshold number.
- View Dependent Claims (17, 18, 19, 20, 21, 22)
- - 17. The apparatus of claim 16 wherein the selected pair of half cycles comprises two consecutive half cycles.
  - 18. The apparatus of claim 16 wherein the selected pair of half cycles comprises two consecutive negative half cycles.
  - 19. The apparatus of claim 16 wherein the selected pair of half cycles comprises two consecutive positive half cycles.
  - 20. The apparatus of claim 16 wherein the means for counting the number of reversals in polarity counts only the number of reversals in polarity in which the peak current of a second of said selected pair of half cycles is at least five amps.
  - 21. The apparatus of claim 16 wherein the means for counting the number of reversals in polarity counts only the number of reversals in polarity in which the peak currents of said selected pair of half cycles differ by at least five percent.
  - 22. The apparatus of claim 16 wherein the selected time interval is one second and the predetermined threshold number is fifteen.

23. An apparatus for detecting arcing faults in a line conductor carrying an electrical current between a power source and a load, said electrical current defining an AC waveform comprising a series of alternating positive half cycles and negative half cycles, said apparatus comprising:
- (a) a sampler for obtaining current samples in a series of half cycles of said waveform;
  
  (b) a peak detector for determining a peak current of each of the series of half cycles of said waveform;
  
  (c) means for comparing the peak currents of a selected pair of said half cycles to determine a slope direction between said selected pair of half cycles;
  
  (d) means for counting a number of reversals in polarity occurring within a selected time interval, said reversals in polarity occurring when the slope direction between said selected pair of half cycles differs from the slope direction of a next selected pair of half cycles; and
  
  (e) means for normalizing each of the current samples;
  
  (f) means for autocorrelating the normalized current samples to obtain a measure of significant waveform shape changes between the selected half cycles;
  
  (g) means for counting a number of significant waveform shape changes occurring within said selected time interval; and
  
  (h) means for generating an arc indicative signal when the number of reversals in polarity occurring within said selected time interval equals or exceeds a first predetermined threshold number and when the number of significant waveform shape changes occurring within said selected time interval equals or exceeds a second threshold number.
- View Dependent Claims (24, 25, 26, 27, 28, 29, 30)
- - 24. The apparatus of claim 23 wherein the selected pair of half cycles comprises two consecutive half cycles.
  - 25. The apparatus of claim 23 wherein the selected pair of half cycles comprises two consecutive negative half cycles.
  - 26. The apparatus of claim 23 wherein the selected pair of half cycles comprises two consecutive positive half cycles.
  - 27. The apparatus of claim 23 wherein the means for counting the number of reversals in polarity counts only the number of reversals in polarity in which the peak current of a second of said pair of half cycles is at least five amps.
  - 28. The apparatus of claim 23 wherein the means for counting the number of reversals in polarity counts only the number of reversals in polarity in which the peak currents of said selected pair of half cycles differ by at least five percent.
  - 29. The apparatus of claim 23 wherein the selected time interval is one second, the first predetermined threshold number is fifteen and the second predetermined threshold number is three.
  - 30. The apparatus of claim 23 wherein the means for autocorrelating the normalized current samples associated with the first and second half cycles comprises:
    - means for computing the differences between the normalized current samples of said selected pair of half cycles;
      
      means for summing the absolute values of the differences between the normalized current samples of said selected pair of half cycles; and
      
      means for evaluating the summed absolute values in relation to a third predetermined threshold to determine whether the summed absolute values represent a significant waveform shape change between said selected pair of half cycles.

31. A method of detecting arcing faults in a line conductor carrying an electrical current between a power source and a load, said electrical current defining an AC waveform comprising a series of alternating positive half cycles and negative half cycles, said method comprising the steps of:
- obtaining current samples in a series of half cycles of said waveform;
  
  counting a number of significant slope changes in each of said half cycles; and
  
  generating an arc indicative signal when the number of significant slope changes within a selected time interval equals or exceeds a predetermined threshold number.

32. A method of detecting arcing faults in a line conductor carrying an electrical current between a power source and a load, said electrical current defining an AC waveform comprising a series of alternating positive half cycles and negative half cycles, said method comprising the steps of:
- obtaining current samples in a series of half cycles of said waveform;
  
  normalizing each of the current samples;
  
  counting a number of significant slope changes in each of said half cycles;
  
  counting a number of significant waveform shape changes in each of said half cycles; and
  
  generating an arc indicative signal when the number of significant slope changes occurring within a selected time interval equals or exceeds a first predetermined threshold number and when the number of significant shape changes occurring within said selected time interval equals or exceeds a second predetermined threshold number.

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Current Assignee
Square D Company (Schneider Electric SE)
Original Assignee
Square D Company (Schneider Electric SE)
Inventors
Wong, Kon B., Bettis, Charles D., Erger, Robert J.
Primary Examiner(s)
Trammell, James P.
Assistant Examiner(s)
Smithers, Matthew

Application Number

US08/825,005
Time in Patent Office

601 Days
Field of Search

364/487, 361/42, 361/93, 324/536, 702/58
US Class Current

702/58
CPC Class Codes

G01R 31/1272   of cable, line or wire insu...

G01R 31/52   Testing for short-circuits,...

H02H 1/0015   Using arc detectors

Arcing fault detection system using fluctuations in current peaks and waveforms

First Claim

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Arcing fault detection system using fluctuations in current peaks and waveforms

First Claim

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Abstract

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Specification

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