High-pass filter for enhancing the resolution of AC power line harmonic measurements

US 5,347,464 A
Filed: 09/22/1992
Issued: 09/13/1994
Est. Priority Date: 09/22/1992
Status: Expired due to Term

First Claim

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1. An apparatus for measuring alternating current power line voltage waveform harmonics from an alternating current power system having at least two line conductors and a fundamental frequency, the apparatus comprising:

a. means for receiving a signal proportional to an alternating current power line voltage waveform, said means coupled to the line conductors;

b. means for filtering the signal forming a filtered signal, said means coupled to the means for receiving a signal, wherein the means for filtering the signal comprises a high-pass filter having a corner frequency higher than the fundamental frequency of the alternating current power system and lower than three times the fundamental frequency of the alternating current power system;

c. means for amplifying the filtered signal forming an amplified signal; and

d. means for converting the amplified signal to a frequency-domain signal having harmonic signals, said means coupled to the means for filtering the signal.

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Abstract

An instrument employs a high-pass filter and an associated amplifier to reduce the number of Analog-to-Digital-Converter bits required to determine the amplitude of harmonics contained in digitally sampled AC (alternating current) power system voltage or current waveforms. The instrument is coupled to a power system having a line conductor and a neutral conductor for obtaining time-domain representations of the current flowing in the line conductor and the voltage difference between the line conductor and the neutral conductor. The time-domain representations are converted to frequency-domain representations by a single-chip microprocessor.

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24 Claims

1. An apparatus for measuring alternating current power line voltage waveform harmonics from an alternating current power system having at least two line conductors and a fundamental frequency, the apparatus comprising:
- a. means for receiving a signal proportional to an alternating current power line voltage waveform, said means coupled to the line conductors;
  
  b. means for filtering the signal forming a filtered signal, said means coupled to the means for receiving a signal, wherein the means for filtering the signal comprises a high-pass filter having a corner frequency higher than the fundamental frequency of the alternating current power system and lower than three times the fundamental frequency of the alternating current power system;
  
  c. means for amplifying the filtered signal forming an amplified signal; and
  
  d. means for converting the amplified signal to a frequency-domain signal having harmonic signals, said means coupled to the means for filtering the signal.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The apparatus according to claim 1 wherein the means for filtering the signal is incorporated in a band-pass filter.
  - 3. The apparatus according to claim 1 wherein the means for converting the filtered signal comprises a single-chip microprocessor having a regularly-sampled analog-to-digital converter.
  - 4. The apparatus according to claim 3 wherein the single-chip microprocessor comprises means for executing a Discrete Fourier Transform.
  - 5. The apparatus as claimed in claim 3 wherein the analog-to-digital converter samples the signal at a sampling frequency which is two orders of magnitude higher than the fundamental frequency of the power system.

6. An apparatus for measuring alternating current power line current waveform harmonics from an alternating current power system having at least two line conductors and a fundamental frequency, the apparatus comprising:
- a. means for receiving a signal proportional to an alternating current power line current waveform, said means coupled to the line conductors;
  
  b. means for filtering the signal forming a filtered signal, said means coupled to the means for receiving a signal, wherein the means for filtering the signal comprises a high-pass filter having a corner frequency higher than the fundamental frequency of the alternating current power system and lower than three times the fundamental frequency of the alternating current power system;
  
  c. means for amplifying the filtered signal forming a amplified signal; and
  
  d. means for converting the amplified signal to a frequency-domain signal having harmonic signals, said means coupled to the means for filtering the signal.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The apparatus according to claim 6 wherein the means for filtering the signal is incorporated in a band-pass filter.
  - 8. The apparatus according to claim 6 wherein the means for converting the filtered signal comprises a single-chip microprocessor having a regularly-sampled analog-to-digital converter.
  - 9. The apparatus according to claim 8 wherein the single-chip microprocessor comprises means for executing a Discrete Fourier Transform.
  - 10. The apparatus as claimed in claim 8 wherein the analog-to-digital converter samples the signal at a sampling frequency which is two orders of magnitude higher than the fundamental frequency of the power system.

11. An apparatus for measuring alternating current power line voltage and current waveform harmonics from an alternating current power system having at least two line conductors and a fundamental frequency, the apparatus comprising:
- a. means for receiving a first signal proportional to an alternating current power line voltage waveform, said means coupled to the line conductor and the neutral conductor;
  
  b. means for filtering the first signal forming a first filtered signal, said means coupled to the means for receiving a first signal, wherein the means for filtering the signal comprises a high-pass filter having a corner frequency higher than the fundamental frequency of the alternating current power system and lower than three times the fundamental frequency of the alternating current power system;
  
  c. means for amplifying the first filtered signal forming a first amplified signal;
  
  d. means for converting the first amplified signal to a first frequency-domain signal having harmonic signals, said means coupled to the means for filtering the first signal;
  
  e. means for receiving a second signal proportional to an alternating current power line current waveform, said means coupled to the line conductor and the neutral conductor;
  
  f. means for filtering the second signal forming a second filtered signal, said means coupled to the means for receiving a second signal, wherein the means for filtering the signal comprises a high-pass filter having a corner frequency higher than the fundamental frequency of the alternating current power system and lower than three times the fundamental frequency of the alternating current power system;
  
  g. means for amplifying the second filtered signal forming a second amplified signal; and
  
  h. means for converting the second amplified signal to a second frequency-domain signal having harmonic signals, said means coupled to the means for filtering the second signal.
- View Dependent Claims (12, 13, 14, 15)
- - 12. The apparatus according to claim 11 wherein the means for filtering the first signal and the means for filtering the second signal are both incorporated in band-pass filters.
  - 13. The apparatus according to claim 11 wherein the means for converting the first amplified signal and the means for converting the second amplified signal comprises a single-chip microprocessor having a regularly-sampled analog-to-digital converter.
  - 14. The apparatus according to claim 13 wherein the single-chip microprocessor executes a Discrete Fourier Transform.
  - 15. The apparatus according to claim 13 wherein the analog-to-digital converter samples the first and second voltage signals at a sampling frequency which is two orders of magnitude higher than the fundamental frequency of the power system.

16. A method of measuring alternating current power line parameter waveform harmonics from an alternating current power system having at least two line conductors and a fundamental frequency, comprising the steps of:
- a. forming a signal proportional to an alternating current power line parameter waveform;
  
  b. filtering the signal through a high-pass filter forming a high-pass signal wherein the high-pass filter has a corner frequency higher than the fundamental frequency of the alternating current power system and lower than three times the fundamental frequency of the alternating current power system;
  
  c. amplifying the high-pass signal forming an amplified high-pass signal;
  
  d. converting the amplified high-pass signal to a frequency-domain high-pass signal having harmonic signals; and
  
  e. measuring the harmonic signals in the frequency-domain high-pass signals.
- View Dependent Claims (17, 18, 19)
- - 17. The method as claimed in claim 16 further comprising the step of converting the amplified high-pass signal and measuring the harmonic signals further comprises the step of regularly-sampling by an analog-to-digital converter.
  - 18. The method according to claim 17 further comprising the step of resolving a Discrete Fourier Transform.
  - 19. The method as claimed in claim 16 further comprising the step of communicating the frequency-domain high-pass signal to another system.

20. An instrument coupled to an alternating current power line system having a line conductor, a neutral conductor and a fundamental frequency, for measuring power line voltage or current waveform harmonics, the instrument comprising:
- a. a voltage attenuator coupled to the line conductor and the neutral conductor for receiving a first voltage signal proportional to the voltage difference between the line conductor and neutral conductor and reducing the first voltage signal to a level appropriate for further processing;
  
  b. a first differential amplifier coupled to the voltage attenuator for removing any undesired common-mode signals;
  
  c. a first low-pass filter, having an input and an output, the input coupled to the first differential amplifier for removing frequency components from the first voltage signal that are above one half of a sampling frequency;
  
  d. a first high-pass filter, having an input and an output, the input coupled to the output of the first low-pass filter for removing a fundamental from the first voltage signal;
  
  e. a first amplifier, having an input and an output, the input coupled to the output of the first high-pass filter for increasing the amplitude of remaining harmonic signals in the first voltage signal;
  
  f. a current transformer coupled to the line conductor for sensing the current flowing through the line conductor;
  
  g. a burden resistor coupled to the current transformer for forming a second voltage signal proportional to the current flowing through the line conductor;
  
  h. a second differential amplifier coupled to the burden resistor for removing undesired common-mode signals;
  
  i. a second low-pass filter, having an input and an output, the input coupled to the second differential amplifier for removing frequency components from the second voltage signal that are above one half of a sampling frequency;
  
  j. a second high-pass filter, having an input and an output, the input coupled to the output of the second low-pass filter for removing a fundamental from the second voltage signal;
  
  k. a second amplifier, having an input and an output, the input coupled to the output of the second high-pass filter for increasing the amplitude of remaining harmonic signals in the first voltage signal; and
  
  a single-chip microprocessor, having a read-only memory, a random-access memory, an analog-to-digital converter and a plurality of input/output circuits, the analog-to-digital converter coupled to the output of the first low-pass filter, the output of the first amplifier, the output of the second low-pass filter and the output of the second amplifier for converting the first and second voltage signals to a first and second frequency- domain representation,wherein the first and second high-pass filters have a corner frequency that is above the fundamental frequency of the power system and below a lowest harmonic frequency of interest.
- View Dependent Claims (21, 22, 23, 24)
- - 21. The instrument as claimed in claim 20 further comprising a communications port coupled to one of the input/output circuits of the single-chip microprocessor for communicating with other systems.
  - 22. The instrument as claimed in claim 20 wherein the analog-to-digital converter samples the first and second voltage signals at a sampling frequency which is two orders of magnitude higher than the fundamental frequency of the power system.
  - 23. The instrument as claimed in claim 20 wherein the first amplifier has a higher gain than the second amplifier.
  - 24. The instrument as claimed in claim 20 wherein a gain factor of the first and second amplifiers is set by the single-chip microprocessor for maximizing the resolution of harmonic measurements while avoiding saturation of the analog-to-digital converter.

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Current Assignee
Basic Measuring Instruments, Inc.
Original Assignee
Basic Measuring Instruments, Inc.
Inventors
McEachern, Alexander, Hord, Bryan D.
Primary Examiner(s)
Teska, Kevin J.

Application Number

US07/949,026
Time in Patent Office

721 Days
Field of Search

364/481, 364/483, 364/487, 364/492, 364/550, 324/520, 324/527, 324/532, 324/533, 324/534, 324/127, 324/142, 340/661, 340/870.17, 341/131, 341/139
US Class Current

702/197
CPC Class Codes

G01R 19/0053   Noise discrimination; Analo...

G01R 23/165   using filters

G01R 23/20   Measurement of non-linear d...

High-pass filter for enhancing the resolution of AC power line harmonic measurements

First Claim

6 Assignments

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Abstract

77 Citations

24 Claims

Specification

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High-pass filter for enhancing the resolution of AC power line harmonic measurements

First Claim

6 Assignments

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0 Petitions

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Accused Products

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Abstract

77 Citations

24 Claims

Specification

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Solutions

Use Cases

Quick Links