High impedance fault detection apparatus and method

US 4,466,071 A
Filed: 09/28/1981
Issued: 08/14/1984
Est. Priority Date: 09/28/1981
Status: Expired due to Term

First Claim

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1. Apparatus for detecting a high impedance fault on an electric power line having 60 Hz alternating current flowing therethrough, which comprises:

a transducer coupled to the line, for providing a voltage signal indicative of the magnitude and waveform of current flowing in the line;

a filter coupled to said transducer, for producing a signal output comprising the high frequency components of said transducer voltage signal;

an amplifier coupled to said filter, for increasing the level of the filter output signal;

a sample-and-hold circuit coupled to said amplifier, for taking samples of the amplifier output signal level during each cycle of the alternating power line current;

an analog-to-digital converter coupled to said sample and-hold circuit, for converting each sample of the amplifier output signal to digital data representative thereof;

a digital data buss;

a microcomputer system, including interconnected central processing unit (CPU) and memory,said microcomputer system being coupled via the data buss to said analog-to-digital converter to receive digital data therefrom,said CPU performing computations using said digital data to detect the occurrence of an event on the power line based on a predetermined increase in level of the high frequency components of the alternating current flowing in the line,said CPU evaluating the time duration over which an event exists on the power line to determine the event to be a fault, andsaid CPU producing a fault indication output code on the data buss; and

a circuit breaker interface connected to the data buss, said interface producing a circuit breaker trip signal in response to a fault indication output code on the data buss.

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Abstract

Apparatus is provided for detecting the presence of a high impedance arcing fault on an electrical circuit, particularly a high voltage power line. Detection of a high impedance fault is realized by monitoring the high frequency components of the alternating current in the circuit, and evaluating the high frequency components of each cycle of the alternating current using a microcomputer operating in accordance with a program of instructions, to determine the occurrence of a significant increase in magnitude of the high frequency components, and then to determine whether the increase exists for a prescribed period of time and follows a prescribed pattern. The high frequency components are monitored using a current-to-voltage transducer coupled to the electrical circuit, bandpass filters coupled to the transducer, and an analog-to-digital converter providing digitized samples of the filtered transducer output voltage signal.

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18 Claims

1. Apparatus for detecting a high impedance fault on an electric power line having 60 Hz alternating current flowing therethrough, which comprises:
- a transducer coupled to the line, for providing a voltage signal indicative of the magnitude and waveform of current flowing in the line;
  
  a filter coupled to said transducer, for producing a signal output comprising the high frequency components of said transducer voltage signal;
  
  an amplifier coupled to said filter, for increasing the level of the filter output signal;
  
  a sample-and-hold circuit coupled to said amplifier, for taking samples of the amplifier output signal level during each cycle of the alternating power line current;
  
  an analog-to-digital converter coupled to said sample and-hold circuit, for converting each sample of the amplifier output signal to digital data representative thereof;
  
  a digital data buss;
  
  a microcomputer system, including interconnected central processing unit (CPU) and memory,said microcomputer system being coupled via the data buss to said analog-to-digital converter to receive digital data therefrom,said CPU performing computations using said digital data to detect the occurrence of an event on the power line based on a predetermined increase in level of the high frequency components of the alternating current flowing in the line,said CPU evaluating the time duration over which an event exists on the power line to determine the event to be a fault, andsaid CPU producing a fault indication output code on the data buss; and
  
  a circuit breaker interface connected to the data buss, said interface producing a circuit breaker trip signal in response to a fault indication output code on the data buss.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The apparatus of claim 1 wherein said transducer is a current-to-voltage transformer.
  - 3. The apparatus of claim 1 further comprising a display interfaced to the data buss for receiving data from the CPU indicative of the number of events detected since a defined time start point, and providing a visual readout of the number of detected events.
  - 4. The apparatus of claim 1 further comprising a display interfaced to the data buss for receiving data from the CPU indicative of the number of faults detected since a defined start point, and providing a visual readout of the number of detected faults.
  - 5. The apparatus of claim 1 further comprising serial interface means for providing communication of data from the CPU to peripheral apparatus.

6. Apparatus for detecting high impedance faults on an electrical circuit having alternating current flowing therethrough, which comprises:
- means coupled to the electrical circuit for generating a signal indicative of the magnitude and waveform of the current in the circuit, and for removing from said generated signal the portion indicative of frequency components below a preselected frequency, so as to provide an output signal indicative of the high frequency components of the alternating current in the electrical circuit; and
  
  means receiving said output signal, for evaluating the same to determine whether the magnitude of the high frequency components of the alternating current in the electric circuit is above a prescribed level, and after determining that said components are above the prescribed level, for evaluating said output signal to further determine whether the magnitude of the high frequency components of the alternating current in the electric circuit remains above the prescribed level for at least a prescribed minimum number of cycles of the alternating current, thereby determining the existence of a high impedance fault condition on the electrical circuit.
- View Dependent Claims (7, 8, 9, 10, 11)
- - 7. The apparatus of claim 6 wherein said output signals generating means generates multiple bit digital code signals, and wherein said evaluating means comprises a microcomputer operating in accordance with a set of program instructions.
  - 8. The apparatus of claim 6 wherein said output signals generating means includes means for generating a voltage signal representative of the magnitude and waveform of the alternating current in the electrical circuit;
    - a high pass filter for substantially removing from said voltage signal frequency components below a defined frequency;
      
      means for sampling filtered voltage signals at a plurality of points within each cycle of the alternating current and an analog-to-digital converter for producing multiple bit digital code signals representative of each voltage signal sample.
  - 9. The apparatus of claim 6 or 8 wherein said output signals evaluating means comprises a microcomputer including a central processing unit, random access memory, and read-only memory.
  - 10. The apparatus of claim 9 wherein a set of program instructions is stored in said read-only memory for causing said central processing unit to evaluate said output signals to determine a fault, by:
    - computing an energy level for a present cycle of the alternating current in the electrical circuit;
      
      comparing the computed energy level to an average energy level; and
      
      if the computed energy level for the present cycle exceeds the average energy level by a predetermined amount, counting the number of cycles within a prescribed time interval that the computed energy level exceeds by the predetermined amount the average energy level.
  - 11. The apparatus of claim 9 wherein a set of program instructions are stored in said read-only memory for causing said central processing unit to evaluate said output signals to determine a fault by executing an event detection routine which involves computing an energy level for a present cycle of the alternating current in the electrical circuit;
    - comparing the present cycle energy level to an average energy level of the alternating current over a preceding time interval;
      
      if the comparison finds that the present cycle energy level is at least 30% greater than the average energy level, an event detection is indicated and an event identification routine is entered;
      
      if the comparison finds that the present cycle energy level is less than 50% greater than the average energy level, a new average energy level is computed using the present cycle energy level and the event detection routine is again entered; and
      
      by executing an event identification routine which involves computing the energy level for a present cycle of the alternating current in the electrical circuit;
      
      comparing the energy level of the present cycle to the average energy level of the alternating current prior to an event detection;
      
      if the comparison finds that the present cycle energy level is at least 50% greater than the average energy level, incrementing a count of cycles having an energy level at least 30% greater than the average energy level;
      
      if the comparison finds that the present cycle energy level is less than 30% greater than the average energy level, leaving the cycles count at the present value;
      
      after a defined time period, comparing the cycles count to a preselected maximum count indicative of a fault condition on the electrical circuit;
      
      if the count is equal to or greater than the maximum count, outputting a fault indication from the central processing unit; and
      
      if the count is less than the maximum count, entering the event detection routine.

12. Apparatus for detecting a high impedance fault on an electrical circuit having alternating current flowing therethrough, and having a circuit breaker for disconnecting the circuit from a source of electrical power, which comprises:
- a transducer coupled to the electrical circuit for providing a voltage signal indicative of the magnitude and waveform of the current in the circuit;
  
  a filter coupled to the transducer, for substantially removing from the voltage signal frequency components below a preselected frequency;
  
  means for sampling the filtered voltage signal a plurality of times during a cycle of the alternating current, and converting each voltage sample to a digital data word representative of the voltage sample;
  
  a microcomputer system, including interconnected central processing unit (CPU) and memory means, coupled to said sampling and converting means,said memory storing a fault detection program routine comprising an instruction set for instructing predetermined computation processing by the central processing unit using the voltage samples digital data, to determine whether the magnitude of the high frequency components in a cycle of the alternating current in the electric circuit is at least a prescribed level, and after determining that said components are above the prescribed level, to further determine whether the magnitude of the high frequency components of the alternating current in the electric circuit remains at least the prescribed level for at least a prescribed minimum number of cycles during a prescribed time interval, thereby determining a fault condition on the electrical circuit; and
  
  means coupled to the central processing unit and actuated thereby upon a determination of a fault condition on the electrical circuit, for actuating the circuit breaker to disconnect the electrical circuit.
- View Dependent Claims (13, 14, 15)
- - 13. The apparatus of claim 12 wherein said filter removes from the voltage signal frequency components below 2 kHz.
  - 14. The apparatus of claims 12 or 13 wherein the prescribed level is 50% greater than the average magnitude of the high frequency components over a prescribed time interval.
  - 15. The apparatus of claim 12 wherein the prescribed minimum number of cycles is 32, and the prescribed time interval equals the duration of 255 cycles of a 60 Hz signal.

16. A method of detecting high impedance faults in an electrical circuit having alternating current flowing therein, comprising the steps of:
- (a) producing a signal representative of the magnitude and waveform of the alternating current;
  
  (b) filtering the signal to substantially remove frequency components below a prescribed frequency;
  
  (c) sampling the amplitude of the filtered signal a plurality of time during a present cycle of the alternating current;
  
  (d) computing the energy level of the filtered signal during a present cycle based on the samples taken during the cycle;
  
  (e) comparing the computed energy level of the present cycle to an average of the computed energy levels over a preceding time interval spanning a plurality of preceding cycles of the alternating current;
  
  (f) if the computed energy level of the present cycle is at least a prescribed amount greater than the average energy level, computing the energy level of the filtered signal during each of a predetermined number of the successive following cycles of the alternating current;
  
  (g) comparing the computed energy level of each cycle to said computed energy level average;
  
  (h) counting the number of cycles wherein the computed energy level exceeded said computed energy level average;
  
  (i) comparing said count of cycles to a predetermined count value; and
  
  (j) producing a fault indication if said count of cycles equals or exceeds the predetermined count value.

17. A method of detecting high impedance faults in an electrical circuit having electrical current flowing therein, comprising the steps of:
- generating a signal indicative of the magnitude and waveform of the current in the circuit;
  
  removing from said generated signal the portion indicative of frequency components below a preselected frequency, so as to provide a signal indicative of the high frequency components of the current in the circuit;
  
  monitoring the high frequency components of the electrical current to measure the energy level thereof;
  
  detecting an increase in high frequency component energy level above an average energy level existing over a preceding prescribed time interval; and
  
  determining the existence of an increased high frequency components energy level over a prescribed period of time, thereby determining the existance of a high impedance fault condition on the electrical circuit.

18. Apparatus for detecting high impedance faults on an electrical circuit having electrical current flowing therethrough, which comprises:
- means coupled to the electrical circuit for generating a signal indicative of the magnitude and waveform of the current in the circuit, and for removing from said generated signal the portion indicative of frequency components below a preselected frequency, so as to provide an output signal indicative of the high frequency components of the alternating current in the electrical circuit; and
  
  means receiving said output signal, for evaluating the same to determine whether the magnitude of the high frequency components is above a prescribed level, and after determining that said components are above the prescribed level, for evaluating said output signal to further determine whether the magnitude of the high frequency components of the electrical current in the electric circuit remains above the prescribed level for at least a prescribed minimum period of time, thereby determining the existence of a high impedance fault condition on the electrical circuit.

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Current Assignee
Texas A&M University System
Original Assignee
Texas A&M University System
Inventors
Russell, B. Don Jr.
Primary Examiner(s)
Krass, Errol A.
Assistant Examiner(s)
Tager, Clifford L.

Application Number

US06/306,304
Time in Patent Office

1,051 Days
Field of Search

364/481, 364/482, 364/483, 364/492, 364/484, 361/44, 361/45, 361/46, 361/83, 361/1, 361/86, 361/87, 361/88, 361/89, 361/113, 324/51, 324/52
US Class Current

700/293
CPC Class Codes

H02H 1/0015   Using arc detectors

H02H 1/04   Arrangements for preventing...

H02H 3/52   responsive to the appearanc...

High impedance fault detection apparatus and method

First Claim

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Abstract

260 Citations

18 Claims

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High impedance fault detection apparatus and method

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

260 Citations

18 Claims

Specification

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Solutions

Use Cases

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