MICROWIRE TEMPERATURE SENSORS CONSTRUCTED TO ELIMINATE STRESS-RELATED TEMPERATURE MEASUREMENT INACCURACIES AND METHOD OF MANUFACTURING SAID SENSORS

US 20120230365A1
Filed: 03/05/2012
Published: 09/13/2012
Est. Priority Date: 03/09/2011
Status: Active Grant

First Claim

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1. A material temperature sensor comprising:

an outer, close-ended tube; and

a sensor assembly within said tube including—

an elongated, magnetically susceptible temperature-sensing primary microwire having a re-magnetization response under the influence of an applied alternating magnetic field and operable to sense the temperature of said material over a selected temperature range, said primary microwire re-magnetization response being defined by at least one short, detectable pulse of magnetic field perturbation of defined duration and different above and below a primary microwire set point temperature, said primary microwire set point temperature being at or below the Curie temperature of the primary microwire;

an elongated, magnetically susceptible temperature-sensing secondary microwire having a re-magnetization response different than the re-magnetization response of said primary microwire under the influence of said applied alternating magnetic field and operable to sense the temperature of said material over at least a portion of said curing temperature range, said secondary microwire re-magnetization response being defined by at least one short, detectable pulse of magnetic field perturbation of defined duration and different above and below a secondary microwire set point temperature, where the secondary microwire Curie temperature is less than or equal to the Curie temperature of said primary microwire,said tube formed of a material which does not appreciably magnetically bias said primary microwire, such that the presence of said tube does not significantly alter the re-magnetization responses of said primary and secondary microwires,said tube operable to substantially prevent forces exerted on the tube by said material during curing thereof from distorting said sensor assembly within said tube.

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Abstract

Improved, highly accurate microwire sensors (10) include a microwire assembly (14) including at least one primary, temperature-sensing microwire (16) encased within a closed-ended, stress-absorbing protective tube (12). Preferably, the sensor assembly (14) includes a plurality of microwires, e.g., a primary temperature-sensing microwire (16), a reference microwire (18), and a calibration microwire (20). The sensors (10) may be embedded within a heat-treatable or curable material (24) to monitor the temperature of the material (24) over a selected temperature range, e.g., during a pre- and/or post-curing temperature range. The tube (12) is formed of material which does not appreciably magnetically bias the microwire assembly (14), and substantially prevents forces exerted on the tube (12) from distorting the sensor assembly (14).

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19 Claims

1. A material temperature sensor comprising:
- an outer, close-ended tube; and
  
  a sensor assembly within said tube including—
  
  an elongated, magnetically susceptible temperature-sensing primary microwire having a re-magnetization response under the influence of an applied alternating magnetic field and operable to sense the temperature of said material over a selected temperature range, said primary microwire re-magnetization response being defined by at least one short, detectable pulse of magnetic field perturbation of defined duration and different above and below a primary microwire set point temperature, said primary microwire set point temperature being at or below the Curie temperature of the primary microwire;
  
  an elongated, magnetically susceptible temperature-sensing secondary microwire having a re-magnetization response different than the re-magnetization response of said primary microwire under the influence of said applied alternating magnetic field and operable to sense the temperature of said material over at least a portion of said curing temperature range, said secondary microwire re-magnetization response being defined by at least one short, detectable pulse of magnetic field perturbation of defined duration and different above and below a secondary microwire set point temperature, where the secondary microwire Curie temperature is less than or equal to the Curie temperature of said primary microwire,said tube formed of a material which does not appreciably magnetically bias said primary microwire, such that the presence of said tube does not significantly alter the re-magnetization responses of said primary and secondary microwires,said tube operable to substantially prevent forces exerted on the tube by said material during curing thereof from distorting said sensor assembly within said tube.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The temperature sensor of claim 1, said primary and secondary microwires being adhered together to form a microwire bundle, said bundle operable to maintain the relative positions of the primary and secondary microwires within said tube during said material curing.
  - 3. The temperature sensor of claim 2, including a layer of lubrication covering the outer surfaces of said microwire bundle.
  - 4. The temperature sensor of claim 3, said lubrication being a dry lubricant.
  - 5. The temperature sensor of claim 1, said sensor assembly including an elongated, magnetically susceptible reference microwire having a re-magnetization response under the influence of said applied alternating magnetic field which is defined by at least one short, detectable pulse of magnetic field perturbation of defined duration, said re-magnetization response of said reference microwire being substantially constant throughout said curing temperature range.
  - 6. The temperature sensor of claim 5, said primary, secondary, and reference microwires being adhered together to form a microwire bundle, said bundle operable to maintain the relative positions of the primary, secondary, and reference microwires within said tube during said material curing.
  - 7. The temperature sensor of claim 6, including a layer of lubrication covering the outer surfaces of said microwire bundle.
  - 8. The temperature sensor of claim 7, said lubrication being a dry lubricant.
  - 9. The temperature sensor of claim 1, said tube being sized to have an internal volume greater than the volume of said sensor assembly, whereby said sensor assembly is free to move to a limited extent within the tube.
  - 10. The temperature sensor of claim 1, said tube formed of synthetic resin material.

11. A material temperature sensor comprising:
- an outer, close-ended tube; and
  
  a sensor assembly within said tube including—
  
  an elongated, magnetically susceptible temperature-sensing primary microwire having a re-magnetization response under the influence of an applied alternating magnetic field and operable to sense the temperature of said material over a selected temperature range, said primary microwire re-magnetization response being defined by at least one short, detectable pulse of magnetic field perturbation of defined duration and different above and below a primary microwire set point temperature, where said primary microwire pulse is detectable as a voltage pulse, said primary microwire set point temperature being at or below the Curie temperature of the primary microwire,wherein the integral over time of said primary microwire detected voltage pulse at any given material temperature within said curing temperature range has a first magnitude;
  
  an elongated, magnetically susceptible reference microwire having a re-magnetization response different than the re-magnetization response of said primary microwire under the influence of said applied alternating magnetic field, said reference microwire re-magnetization response being defined by at least one short, detectable pulse of magnetic field perturbation of defined duration, where said reference microwire pulse is detectable as a voltage pulse, said microwire re-magnetization response being substantially constant throughout said temperature range,wherein the integral over time of said reference microwire detected voltage pulse at said given material temperature has a second magnitude,wherein the quotient of said first and second magnitudes provides a quotient value which is used in part to determine the temperature of said material,said tube formed of a material which does not appreciably magnetically bias said primary microwire, such that the presence of said tube does not significantly alter the re-magnetization responses of said primary and reference microwires,said tube operable to substantially prevent forces exerted on the tube by said material during curing thereof from distorting said sensor assembly within said tube.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The temperature sensor of claim 11, said primary and reference microwires being adhered together to form a microwire bundle, said bundle operable to maintain the relative positions of the primary and reference microwires within said tube during said material curing.
  - 13. The temperature sensor of claim 12, including a layer of lubrication covering the outer surfaces of said microwire bundle.
  - 14. The temperature sensor of claim 13, said lubrication being a dry lubricant.
  - 15. The temperature sensor of claim 11, said tube being sized to have an internal volume greater than the volume of said sensor assembly, whereby said sensor assembly is free to move to a limited extent within the tube.
  - 16. The temperature of claim 11, said tube formed of synthetic resin material.

17. A material temperature sensor comprising:
- an outer, close-ended tube; and
  
  an elongated, magnetically susceptible temperature-sensing primary microwire encased within said tube and having a re-magnetization response under the influence of an applied alternating magnetic field and operable to sense the temperature of said material over a selected temperature range, said primary microwire re-magnetization response being defined by at least one short, detectable pulse of magnetic field perturbation of defined duration and different above and below a primary microwire set point temperature, said primary microwire set point temperature being at or below the Curie temperature of the primary microwire.
- View Dependent Claims (18, 19)
- - 18. The sensor of claim 17, there being a plurality of microwires within said tube.
  - 19. The sensor of claim 18, there being a calibration microwire and/or a reference microwire within said tube.

Specification

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Current Assignee
TSI Technolocies, LLC
Original Assignee
TSI Technolocies, LLC
Inventors
Clothier, Brian L.

Granted Patent

US 9,212,955 B2
Time in Patent Office

Days
Field of Search
US Class Current

374/163
CPC Class Codes

G01K 1/08   Protective devices, e.g. ca...

G01K 15/005   Calibration

G01K 7/36   using magnetic elements, e....

MICROWIRE TEMPERATURE SENSORS CONSTRUCTED TO ELIMINATE STRESS-RELATED TEMPERATURE MEASUREMENT INACCURACIES AND METHOD OF MANUFACTURING SAID SENSORS

First Claim

2 Assignments

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Accused Products

Abstract

16 Citations

19 Claims

Specification

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MICROWIRE TEMPERATURE SENSORS CONSTRUCTED TO ELIMINATE STRESS-RELATED TEMPERATURE MEASUREMENT INACCURACIES AND METHOD OF MANUFACTURING SAID SENSORS

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

16 Citations

19 Claims

Specification

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Solutions

Use Cases

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