Digital power metering

US 5,122,735 A
Filed: 06/14/1990
Issued: 06/16/1992
Est. Priority Date: 06/14/1990
Status: Expired due to Term

First Claim

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1. Apparatus for metering a power supply, comprising:

scaling means connectable with said supply for deriving scaled current and voltage signals of given amplitude;

selector means actuable for selecting said scaled current and voltage signals;

converter means actuable to sample the amplitudes of said scaled current and voltage signals within predetermined regular sampling intervals for effecting the conversion thereof to corresponding uncorrected current and voltage digital values; and

control means for actuating said selector means and said converter means, for providing predetermined intra-integer bit correction to said uncorrected current and voltage digital values to provide corrected current and voltage digital sample signals for each said sampling interval, for effecting select arithmetic treatment of said corrected current and voltage digital sample signals to derive digital power quantity signals, and for selectively accumulating said digital power quantity signals to derive pulse categorized meter output signals.

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Abstract

A digital power meter achieves enhanced accuracies through the utilization of a sequence of meter stage improvements. Such improvements include the utilization of a digital phase shift based cycle phase realignment following the scaling function of the meter. The cycle phase corrected signals are digitized utilizing a sampling procedure wherein two samples of both current and voltage are taken within a precisely defined sampling interval. These samples are improved by the application thereto of a truncation correction and are averaged prior to being combined to provide quantity signals such as watt, VAR, volt, amperes, and the like. By developing subinterval transfer of components of these quantities to an overflow register, errors otherwise occurring at this stage of metering are substantially eliminated.

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27 Claims

1. Apparatus for metering a power supply, comprising:
- scaling means connectable with said supply for deriving scaled current and voltage signals of given amplitude;
  
  selector means actuable for selecting said scaled current and voltage signals;
  
  converter means actuable to sample the amplitudes of said scaled current and voltage signals within predetermined regular sampling intervals for effecting the conversion thereof to corresponding uncorrected current and voltage digital values; and
  
  control means for actuating said selector means and said converter means, for providing predetermined intra-integer bit correction to said uncorrected current and voltage digital values to provide corrected current and voltage digital sample signals for each said sampling interval, for effecting select arithmetic treatment of said corrected current and voltage digital sample signals to derive digital power quantity signals, and for selectively accumulating said digital power quantity signals to derive pulse categorized meter output signals.

2. The method for metering an electrical power supply having first and second parameters exhibiting given relative cycle phase relationship, comprising the steps of:
- scaling said first and second parameters to derive corresponding first and second electrical parameter signals;
  
  sampling said first and second electrical parameter signals within predetermined regular sampling intervals to provide corresponding first and second digital parameter signals;
  
  treating said first and second digital parameter signals to provide predetermined electrical quantity signals of given values;
  
  accumulating said predetermined electrical quantity signals for a predetermined interval to provide an accumulated value for said electrical quantity signals;
  
  determining a subinterval value representing a portion of said accumulated value corresponding with a predetermined increment of a said sampling interval;
  
  providing an overflow accumulator having a predetermined overflow value;
  
  transferring said subinterval value to said overflow accumulator until said overflow value is reached; and
  
  outputting a quantity pulse when said overflow value is reached.
- View Dependent Claims (3, 4)
- - 3. The method of claim 2 in which said predetermined interval of said accumulation of electrical quantity signals corresponds with the interval of one cycle of a said electrical power supply.
  - 4. The method of claim 3 in which said sampling interval is a fraction of said one cycle of said electrical power supply.

5. Apparatus for metering a power supply having current and voltage parameters exhibiting given relative cycle phase relationship, comprising:
- a sampling network actuable within predetermined regular sampling intervals to provide current and voltage digital signals corresponding with said current and voltage parameters; and
  
  control means including first accumulator means and an overflow accumulator means having a predetermined overflow value for selectively actuating said sampling network to derive said current and voltage digital signals, for treating said current and voltage digital signals to provide predetermined electrical quantity signals of given values, for accumulating said predetermined electrical quantity signals at said first accumulator means for a predetermined interval to provide an accumulated value for said electrical quantity signals, for deriving a subinterval value representing a portion of said accumulated value corresponding with a predetermined increment of a said sampling interval, for transferring said subinterval value to said overflow accumulator means at a rate corresponding with said increment of a said sampling interval until said overflow value is reached, and for outputting a quantity pulse when said overflow value is reached.
- View Dependent Claims (6, 7, 8, 9)
- - 6. The apparatus of claim 5 in which said control means is responsive to actuate said sampling means at least twice during said sampling interval to provide at least two preliminary said current and voltage digital signals and is responsive to average said preliminary current and voltage digital signals for providing said predetermined electrical quantity signals.
  - 7. The apparatus of claim 5 in which said predetermined interval of said accumulation of electrical quantity signals corresponds with the interval of one cycle of said current and voltage parameters.
  - 8. The apparatus of claim 5 including:
    - scaling means connectable to said power supply for deriving scaled current and voltage signals for corresponding cycles of said supply and having a post scaling relative cycle phase relationshp;
      
      a cycle phase shift network responsive to one of said scaled current and voltage signals and controllable for aligning said post scaling relative cycle phase relationship to a correspondence with said given relative cycle phase relationship to provide cycle phase corrected said current and voltage digital signals; and
      
      said control means effects control of said cycle phase shift network.
  - 9. The apparatus of claim 5 in which:
    - said sampling network includes an analog-to-digital converter actuable by said control means within said sampling interval to provide preliminary current and voltage digital signals; and
      
      said control means is responsive to said preliminary current and voltage digital sample signals to apply a binary digital truncation correction thereto.

10. Apparatus for monitoring an electrical power supply having first and second electrical parameters exhibiting given relative cycle phase relationship comprising:
- scaling means connectable with said supply for deriving first and second electrical parameter signals for corresponding cycles of said supply having a post scaling relative cycle phase relationship;
  
  a cycle phase shift network including a phase delay network coupled to receive a select said electrical parameter signal for effecting a phase delay thereof in correspondence with the select impedance of a variable impedance component provided as a digital-to-analog converter controllable in response to a digital input for aligning said post scaling relative cycle phase relationship to a correspondence with said given relative cycle phase relationship to provide first and second cycle phase corrected electrical parameter signals;
  
  a sampling network actuable for sampling the amplitudes of said first and second phase corrected electrical parameter signals and deriving corresponding first and said digital sample signals; and
  
  control means for controlling said cycle phase shift network by providing said digital input, for actuating said sampling network within predetermined regular sampling intervals to derive said first and second digital sample signals for effecting select arithmetic treatment of said first and second digital sample signals to derive digital power quantity signals, and for selectively accumulating said digital power quantity signals to derive pulse categorized meter output signals.
- View Dependent Claims (11, 12, 13)
- - 11. The apparatus of claim 10 in which said control means is responsive to arithmetically treat said first and second digital sample signals to derive said digital power quantity signals as watt² signals and VAR² signals, and is responsive to said watt² and VAR² signals to derive volt ampere signals as the square root of the sum thereof.
  - 12. The apparatus of claim 10 in which said control means includes clock means for providing clock signals and is responsive to said clock signals for deriving said sampling intervals and is responsive to a succession of said sampling intervals representing 60°
    - of a said cycle to derive digital power quantity signals as Q signals.
  - 13. The apparatus of claim 10 in which said control means includes clock means for providing clock signals and is responsive to said clock signals for deriving said sampling intervals and is responsive to a succession of said sampling intervals representing 90°
    - of a said cycle to derive said digital power quantity signals as VAR signals.

14. Apparatus for monitoring an electrical power supply having first and second electrical parameters exhibiting given relative cycle phase relationship comprising:
- scaling means connectable with said supply for deriving first and second electrical parameter signals for corresponding cycles of said supply having a post scaling relative cycle phase relationship;
  
  a cycle phase shift network responsive to a select said electrical parameter signal and controllable for aligning said post scaling relative cycle phase relationship to a correspondence with said given relative cycle phase relationship to provide first and second cycle phase corrected electrical parameter signals;
  
  a sampling network including an analog-to-digital converter actuable for sampling the amplitudes of said first and second phase corrected electrical parameter signals to provide corresponding preliminary first and second digital sample signals; and
  
  control means for controlling said cycle phase shift network, for actuating said sampling network within predetermined regular sampling intervals to derive said preliminary first and second digital sample signals, responsive to said preliminary first and second digital parameter signals to apply a binary digital truncation correction to said preliminary first and second digital parameter signals to derive corresponding first and second digital sample signals, for effecting select arithmetic treatment of said first and second digital sample signals to derive digital power quantity signals, and for selectively accumulating said digital power quantity signals to derive pulse categorized meter output signals.
- View Dependent Claims (15)
- - 15. The apparatus of claim 14 in which said control means is responsive to actuate said analog-to-digital converter at least four times within said sampling interval to provide at least two of each said preliminary first and second digital parameter signals, is responsive to apply said truncation correction to each said preliminary first and second digital parameter signals and is responsive thereto to carry out an averaging thereof prior to effecting said select arithmetic treatment.

16. Apparatus for metering a polyphase power supply with first to last elements, comprising:
- scaling means connectable with said power supply for deriving scaled current and voltage signals corresponding with each said element;
  
  a sampling network including an analog-to-digital converter actuable for sampling the amplitude of said scaled current and voltage signals to provide corresponding preliminary current and voltage digital sample signals; and
  
  control means for actuating said sampling network within predetermined sampling intervals to derive at least two said preliminary voltage digital sample signals and at least two said preliminary current digital sample signals within said sampling interval, responsive to said preliminary voltage and current digital sample signals to apply a binary digital truncation correction thereto to derive corresponding voltage digital sample signal and current digital sample signals, and for carrying out the averaging thereof to provide corresponding averaged voltage sample signals and averaged current sample signals, for effecting select arithmetic treatment of said averaged voltage sample signals to derive digital power quantity signals, and for selectively accumulating said digital power quantity signals to derive pulse categorized meter output signals.
- View Dependent Claims (17, 18, 19, 20)
- - 17. The apparatus of claim 16 in which:
    - said control means effects actuation of said converter at equal, successive time increments within each said sampling interval.
  - 18. The apparatus of claim 16 in which said sampling interval is selected to correspond with about 21/2°
    - of a 360°
      
      cycle of said power supply.
  - 19. The apparatus of claim 16 including:
    - a cycle phase shift network responsive to said scaled voltage signals and controllable for aligning the cycle phase position thereof with respect to the cycle phase position of corresponding said scaled current signals to a relationship substantially matching that of said power supply; and
      
      said control means effects said control of said cycle phase shift network.
  - 20. The apparatus of claim 16 in which said control means is responsive to arithmetically treat said averaged current and averaged voltage sample signals said digital power quantity signals as watt² signals and VAR² signals, and is responsive to said watt² signals and said VAR² signals to derive volt ampere signals as the square root of the sum thereof.

21. The method for metering an electrical power supply having firs and second parameters exhibiting given relative cycle phase relationship, comprising the steps of:
- scaling said first and second parameters to derive corresponding first and second electrical parameters signals;
  
  sampling said first and second electrical parameter signals with predetermined regular sampling intervals representing a fraction of one cycle of said power supply to provide corresponding first and second digital parameter signals;
  
  treating said first and second digital parameter signals to provide predetermined electrical quantity signals of given values;
  
  accumulating said predetermined electrical quantity signals for a predetermined interval corresponding with the interval of one cycle of said power supply, to provide an accumulated value for said electrical quantity signals;
  
  determining a subinterval value representing a portion of said accumulated value corresponding with a predetermined increment of a said sampling interval, said subinterval value being determined as said accumulated value divided by the product of the number of said sampling intervals represented by said predetermined interval and a predetermined transfer factor;
  
  providing an overflow accumulator having a predetermined overflow value;
  
  transferring said subinterval value to said overflow accumulator until said overflow value is reached; and
  
  outputting a quantity pulse when said overflow value is reached.

22. The method for metering an electrical power supply having first and second parameters exhibiting given relative cycle phase relationship, comprising the steps of:
- scaling said first and second parameters to derive corresponding first and second electrical parameter signals;
  
  sampling said first and second electrical parameter signals within predetermined regular sampling intervals, said sampling being carried out at least twice within each said sampling interval to provide corresponding first and second digital parameter signals, and said first and second digital parameter signals are an average of the value of said sampling;
  
  treating said first and second digital parameter signals to provide predetermined electrical quantity signals of given values;
  
  accumulating said predetermined electrical quantity signals for a predetermined interval to provide an accumulated value for said electrical quantity signals;
  
  determining a subinterval value representing a portion of said accumulated value corresponding with a predetermined increment of a said sampling interval;
  
  providing an overflow accumulator having a predetermined overflow value;
  
  transferring said subinterval value to said overflow accumulator until said overflow value is reached; and
  
  outputting a quantity pulse when said overflow value is reached.
- View Dependent Claims (23)
- - 23. The method of claim 22 in which said sampling of said first and second parameter signals includes the steps of:
    - providing an analog-to-digital converter;
      
      converting said first and second parameter signals to binary digital form with said analog-to-digital converter to provide preliminary first and second digital parameter signals;
      
      applying a binary digital truncation correction to said preliminary first and second digital parameter signals to form said first and second digital parameter signals.

24. The method for metering an electrical power supply having first and second parameters exhibiting given relative cycle phase relationship, comprising the steps of:
- scaling said first and second parameters to derive corresponding first and second electrical parameter signals;
  
  sampling said first and second electrical parameter signals within predetermined regular sampling interval by;
  
  providing an analog-to-digital converter,converting said first and second parameter signals to binary digital form with said analog-to-digital converter to provide preliminary first and second digital parameter signals, andapplying a binary digital truncation correction to said preliminary first and second digital parameter signals to form corresponding first and second digital parameter signals;
  
  treating said first and second digital parameter signals to provide predetermined electrical quantity signals of given values;
  
  accumulating said predetermined electrical quantity signals for a predetermined interval to provide an accumulated value for said electrical quantity signals;
  
  determining a subinterval value representing a portion of said accumulated value corresponding with a predetermined increment of a said sampling interval;
  
  providing an overflow accumulator having a predetermined overflow value;
  
  transferring said subinterval value to said overflow accumulator until said overflow value is reached; and
  
  outputting a quantity pulse when said overflow value is reached.
- View Dependent Claims (27)
- - 27. The method of claim 24 in said sampling of said first and second parameter signals is carried out at least twice within each sampling interval and said first and second digital parameter signals are an average of the values of said sampling.

25. Apparatus for metering a power supply having current and voltage parameters exhibiting given relative cycle phase relationship comprising:
- a sampling network actuable within predetermined regular sampling intervals to provide preliminary current and voltage digital signals corresponding with said current and voltage parameters; and
  
  control means including first accumulator means and an overflow accumulator means having a predetermined overflow value for selectively actuating said sampling network at least twice during said sampling interval to provide at least two said preliminary current and voltage digital signals, responsive to average said preliminary current and voltage signals to derive current and voltage digital signals, for treating said current and voltage digital signals to provide predetermined electrical quantity signals of given values, for accumulating said predetermined electrical quantity signals at said first accumulator means for a predetermined interval to provide an accumulated value for said electrical quantity signals, for deriving a subinterval value representing a portion of said accumulated value corresponding with a predetermined increment of a said sampling interval, for transferring said subinterval value to said overflow accumulator means at a rate corresponding with said increment of a said sampling interval until said overflow value is reached, and for outputting a quantity pulse when said overflow value is reached.

26. Apparatus for metering a power supply having current and voltage parameters exhibiting given relative cycle phase relationship, comprising:
- a sampling network including an analog-to-digital converter actuable within predetermined regular sampling intervals to provide preliminary current and voltage digital signals corresponding with said current and voltage parameters; and
  
  control means including first accumulator means and an overflow accumulator means having a predetermined overflow value for selectively actuating said sampling network to derive said preliminary current and voltage digital signals, responsive to said preliminary current and voltage digital sample signals to apply a binary digital truncation correction thereto to derive current and voltage digital signals, for treating said current and voltage digital signals to provide predetermined electrical quantity signals of given values, for accumulating said predetermined electrical quantity signals at said first accumulator means for a predetermined interval to provide an accumulated value for said electrical quantity signals, for deriving a subinterval value representing a portion of said accumulated value corresponding with a predetermined increment of a said sampling interval, for transferring said subinterval value to said overflow accumulator means at a rate corresponding with said increment of a said sampling interval until said overflow value is reached, and for outputting a quantity pulse when said overflow value is reached.

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Current Assignee
TransData, Inc.
Original Assignee
TransData, Inc.
Inventors
Porter, Lawrence R., Hammond, Scott H.
Primary Examiner(s)
Wieder, Kenneth A.
Assistant Examiner(s)
BURNS, WILLIAM

Application Number

US07/538,273
Time in Patent Office

733 Days
Field of Search

324/103 R, 324/142, 324/141, 364/483, 364/492, 364/481
US Class Current

324/142
CPC Class Codes

G01R 21/133 by using digital technique

Digital power metering

First Claim

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Abstract

150 Citations

27 Claims

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Digital power metering

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Abstract

150 Citations

27 Claims

Specification

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