Temperature sensor and extensometer

US 7,575,371 B1
Filed: 11/10/2005
Issued: 08/18/2009
Est. Priority Date: 11/11/2004
Status: Expired due to Fees

First Claim

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1. A temperature sensor and extensometer for monitoring an electrical conductor, comprised of one or more acoustic generators attached along said conductor where the said acoustic generators emit one or more acoustic signals consisting of a sinusoid of finite extent in time and having a narrow range of acoustic frequencies, where the said acoustic signals travel in the said conductor as longitudinal or torsional acoustic waves, where the frequency of said acoustic signals are selected to ensure that the acoustic signals are launched in said conductor as both the lowest order longitudinal acoustic wave and the lowest order torsional acoustic wave, where one or more acoustic detectors are attached along said conductor, where an electronic timer measures the time between the launching of one or more said acoustic signals by said acoustic generators and the detection of one or more said acoustic signals by said acoustic detectors, where a signal processor computes the travel time of a first acoustic signal between two locations on said conductor where the travel time has a first temperature dependence, and computes the travel time of a second acoustic signal between two locations on said conductor where the travel time has a second temperature dependence, such that the difference or ratio of travel times can be used to calculate the temperature along the region of said conductor wherein the acoustic signals traveled, and the travel times can be used to calculate the distance traveled by the acoustic signals.

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Abstract

A thermometer and extensometer for cables and conductors is described. The travel time of one or more acoustic signals along a conductor is used to determine the temperature along the conductor and the length of the conductor. The acoustic frequency is selected to minimize temporal dispersion of the propagating acoustic energy. The technique can be used to measure the temperature and sag of an overhead power line, the temperature of the windings in a transformer, or the temperature of the central conductor in a coaxial power cable.

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12 Claims

1. A temperature sensor and extensometer for monitoring an electrical conductor, comprised of one or more acoustic generators attached along said conductor where the said acoustic generators emit one or more acoustic signals consisting of a sinusoid of finite extent in time and having a narrow range of acoustic frequencies, where the said acoustic signals travel in the said conductor as longitudinal or torsional acoustic waves, where the frequency of said acoustic signals are selected to ensure that the acoustic signals are launched in said conductor as both the lowest order longitudinal acoustic wave and the lowest order torsional acoustic wave, where one or more acoustic detectors are attached along said conductor, where an electronic timer measures the time between the launching of one or more said acoustic signals by said acoustic generators and the detection of one or more said acoustic signals by said acoustic detectors, where a signal processor computes the travel time of a first acoustic signal between two locations on said conductor where the travel time has a first temperature dependence, and computes the travel time of a second acoustic signal between two locations on said conductor where the travel time has a second temperature dependence, such that the difference or ratio of travel times can be used to calculate the temperature along the region of said conductor wherein the acoustic signals traveled, and the travel times can be used to calculate the distance traveled by the acoustic signals.
- View Dependent Claims (2, 3)
- - 2. The sensor in claim 1 where said conductor consists of an overhead transmission line conductor or a distribution line conductor in an electric power system.
  - 3. The sensor in claim 1 where the acoustic signals are modulated in each successive emission of the acoustic signals, where information is modulated onto said acoustic signals using one or more of the methods including but not limited to amplitude or phase modulation, and where the information may include but is not limited to the absolute time the said acoustic signals were generated, the identification of the said acoustic generator, the identification of the intended acoustic detector of the said acoustic signals, the physical location of the intended acoustic detector of the said acoustic signals, the intended absolute time prior to which the intended acoustic detector must receive the said acoustic signals, the intended absolute time after which the intended acoustic detector must receive the said acoustic signals, or the physical location of the said acoustic generator.

4. A temperature sensor and extensometer for monitoring an electrical conductor, comprised of one or more acoustic generators attached along said conductor where the said acoustic generators emit one or more acoustic signals consisting of a sinusoid of finite extent in time and having a narrow range of acoustic frequencies, where the said acoustic signals travel in the said conductor as longitudinal or torsional acoustic waves, where the frequency of said acoustic signals are selected to ensure that the acoustic signals are launched in said conductor as a superposition of the lowest order and first order longitudinal acoustic waves in the said conductor, where one or more acoustic detectors are attached along said conductor, where an electronic timer measures the time between the launching of one or more said acoustic signals by said acoustic generators and the detection of one or more said acoustic signals by said acoustic detectors, where a signal processor computes the travel time of a first acoustic signal between two locations on said conductor where the travel time has a first temperature dependence, and computes the travel time of a second acoustic signal between two locations on said conductor where the travel time has a second temperature dependence, such that the difference or ratio of travel times can be used to calculate the temperature along the region of said conductor wherein the acoustic signals traveled, and the travel times can be used to calculate the distance traveled by the acoustic signals.
- View Dependent Claims (5, 6)
- - 5. The sensor in claim 4 where said conductor consists of an overhead transmission line conductor or a distribution line conductor in an electric power system.
  - 6. The sensor in claim 4 where the acoustic signals are modulated in each successive emission of the acoustic signals, where information is modulated onto said acoustic signals using one or more of the methods including but not limited to amplitude or phase modulation, and where the information may include but is not limited to the absolute time the said acoustic signals were generated, the identification of the said acoustic generator, the identification of the intended acoustic detector of the said acoustic signals, the physical location of the intended acoustic detector of the said acoustic signals, the intended absolute time prior to which the intended acoustic detector must receive the said acoustic signals, the intended absolute time after which the intended acoustic detector must receive the said acoustic signals, or the physical location of the said acoustic generator.

7. A temperature sensor and extensometer for monitoring an electrical conductor, comprised of one or more acoustic generators attached along said conductor where the said acoustic generators emit one or more acoustic signals consisting of a sinusoid of finite extent in time and having a narrow range of acoustic frequencies, where the said acoustic signals travel in the said conductor as longitudinal or torsional acoustic waves, where the frequency of said acoustic signals are selected to ensure that the acoustic signals are launched in said conductor as a superposition of the lowest order and first order torsional acoustic waves in the said conductor, where one or more acoustic detectors are attached along said conductor, where an electronic timer measures the time between the launching of one or more said acoustic signals by said acoustic generators and the detection of one or more said acoustic signals by said acoustic detectors, where a signal processor computes the travel time of a first acoustic signal between two locations on said conductor where the travel time has a first temperature dependence, and computes the travel time of a second acoustic signal between two locations on said conductor where the travel time has a second temperature dependence, such that the difference or ratio of travel times can be used to calculate the temperature along the region of said conductor wherein the acoustic signals traveled, and the travel times can be used to calculate the distance traveled by the acoustic signals.
- View Dependent Claims (8, 9)
- - 8. The sensor in claim 7 where said conductor consists of an overhead transmission line conductor or a distribution line conductor in an electric power system.
  - 9. The sensor in claim 7 where the acoustic signals are modulated in each successive emission of the acoustic signals, where information is modulated onto said acoustic signals using one or more of the methods including but not limited to amplitude or phase modulation, and where the information may include but is not limited to the absolute time the said acoustic signals were generated, the identification of the said acoustic generator, the identification of the intended acoustic detector of the said acoustic signals, the physical location of the intended acoustic detector of the said acoustic signals, the intended absolute time prior to which the intended acoustic detector must receive the said acoustic signals, the intended absolute time after which the intended acoustic detector must receive the said acoustic signals, or the physical location of the said acoustic generator.

10. A temperature sensor and extensometer for monitoring an electrical conductor, comprised of one or more acoustic generators attached along said conductor where the said acoustic generators emit one or more acoustic signals consisting of a sinusoid of finite extent in time and having a narrow range of acoustic frequencies, where the said acoustic signals travel in the said conductor as longitudinal or torsional acoustic waves, where the frequency of said acoustic signals are selected to ensure that the acoustic signals are comprised of a first frequency of sufficiently low value that it propagates in the conductor as the lowest order longitudinal acoustic wave or torsional acoustic wave, and a second frequency having such a value that it propagates as a superposition of the lowest order and first order longitudinal acoustic modes or torsional acoustic modes in the said conductor, where one or more acoustic detectors are attached along said conductor, where an electronic timer measures the time between the launching of one or more said acoustic signals by said acoustic generators and the detection of one or more said acoustic signals by said acoustic detectors, where a signal processor computes the travel time of a first acoustic signal between two locations on said conductor where the travel time has a first temperature dependence and computes the travel time of a second acoustic signal between two locations on said conductor where the travel time has a second temperature dependence such that the difference or ratio of travel times can be used to calculate the temperature along the region of said conductor wherein the acoustic signals traveled and the travel times can be used to calculate the distance traveled by the acoustic signals.
- View Dependent Claims (11, 12)
- - 11. The sensor in claim 10 where said conductor consists of an overhead transmission line conductor or a distribution line conductor in an electric power system.
  - 12. The sensor in claim 10 where the acoustic signals are modulated in each successive emission of the acoustic signals, where information is modulated onto said acoustic signals using one or more of the methods including but not limited to amplitude or phase modulation, and where the information may include but is not limited to the absolute time the said acoustic signals were generated, the identification of the said acoustic generator, the identification of the intended acoustic detector of the said acoustic signals, the physical location of the intended acoustic detector of the said acoustic signals, the intended absolute time prior to which the intended acoustic detector must receive the said acoustic signals, the intended absolute time after which the intended acoustic detector must receive the said acoustic signals, or the physical location of the said acoustic generator.

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Current Assignee
FieldMetrics, Inc.
Original Assignee
FieldMetrics, Inc.
Inventors
Hamilton, Pamela Jane, Yakymyshyn, Christopher Paul, Brubaker, Michael Allen
Primary Examiner(s)
Verbitsky; Gail
Assistant Examiner(s)
Jagan; Mirellys

Application Number

US11/164,131
Time in Patent Office

1,377 Days
Field of Search

374/119, 374/141, 374/117, 374/45, 374/55, 374/6, 702/130, 702/159, 367/127, 367/129, 367/99, 73/18.1, 73/18.2, 736/28, 735/97, 736/32
US Class Current

374/119
CPC Class Codes

G01B 17/04   for measuring the deformati...

G01K 11/24   of the velocity of propagat...

G01K 2217/00   Temperature measurement usi...

G01N 2291/02854   Length, thickness

G01N 2291/042   Wave modes

G01N 2291/0421   Longitudinal waves

G01N 29/07   by measuring propagation ve...

G01N 29/348   with frequency characterist...

G01N 29/4454   Signal recognition, e.g. sp...

Temperature sensor and extensometer

First Claim

1 Assignment

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Abstract

Citations

12 Claims

Specification

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Temperature sensor and extensometer

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

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12 Claims

Specification

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