Optical sensor for detecting the dew point of an atmosphere

US 6,084,665 A
Filed: 09/01/1998
Issued: 07/04/2000
Est. Priority Date: 09/01/1998
Status: Expired due to Fees

First Claim

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1. An optical sensor for detecting the dew point of an atmosphere for use with an optical measurement system, said optical measurement system including a source of light energy, a light detector, and a light energy conduction arrangement for directing light energy from said source of light energy to said optical sensor and to return light energy from said optical sensor to said light detector, said optical sensor comprising:

a substrate located within said atmosphere having at least a first surface;

a first waveguide located on said substrate'"'"'s first surface and including a first end and a second end, said first end optically connected to said optical measurement system light energy conduction arrangement, arranged to receive light energy from said source of light energy and to direct light energy to said light detector;

a second waveguide located on said substrate first surface parallel to and in a spaced relationship to said first waveguide, said second waveguide including an end prepared as a reflecting surface; and

means for cooling arranged to cool said optical sensor to a temperature below the ambient temperature of said atmosphere to cause water vapor that may be contained in said atmosphere to condense between said first and second waveguides forming an evanescent region in the area of said condensate and coupling said light energy from said first waveguide to said second waveguide wherein said second waveguide'"'"'s reflecting surface directs said light energy back to said evanescent region, coupling said light energy to said first waveguide first end and to said light energy conduction arrangement.

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Abstract

An optical sensor for detecting the dew point of an atmosphere is disclosed for use with an optical measurement system. The optical measurement system includes a source of light energy, a light detector, and a light energy conduction arrangement for directing light energy from the source of light energy to the optical sensor. The light energy conduction arrangement also returns light energy from the optical sensor to the light detector. The optical sensor of the present invention includes a substrate located within the atmosphere and a first waveguide located on a surface of the substrate. The first waveguide includes a first end optically connected to the light energy conduction arrangement arranged to receive thereat light energy from the source of light energy and to direct thereat light energy to the light detector. A second waveguide is located on the substrate first surface parallel to and in a spaced relationship to the first waveguide. The second waveguide includes an end that is prepared as a reflecting surface. A means for cooling is attached to the substrate and is arranged to cool the optical sensor to a temperature below the ambient temperature of the atmosphere, to cause water vapor that may be contained in the atmosphere to condense and form deposits of water between the first and second waveguides. The water deposits form an evanescent region in the area of the condensate, coupling the light energy from the first waveguide to the second waveguide. The light energy entering the second waveguide is reflected off of the second waveguide'"'"'s reflecting surface and is directed back to the evanescent region, where the light energy is coupled back to the first waveguide and the light energy conduction arrangement for transmission to the light detector.

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8 Claims

1. An optical sensor for detecting the dew point of an atmosphere for use with an optical measurement system, said optical measurement system including a source of light energy, a light detector, and a light energy conduction arrangement for directing light energy from said source of light energy to said optical sensor and to return light energy from said optical sensor to said light detector, said optical sensor comprising:
- a substrate located within said atmosphere having at least a first surface;
  
  a first waveguide located on said substrate'"'"'s first surface and including a first end and a second end, said first end optically connected to said optical measurement system light energy conduction arrangement, arranged to receive light energy from said source of light energy and to direct light energy to said light detector;
  
  a second waveguide located on said substrate first surface parallel to and in a spaced relationship to said first waveguide, said second waveguide including an end prepared as a reflecting surface; and
  
  means for cooling arranged to cool said optical sensor to a temperature below the ambient temperature of said atmosphere to cause water vapor that may be contained in said atmosphere to condense between said first and second waveguides forming an evanescent region in the area of said condensate and coupling said light energy from said first waveguide to said second waveguide wherein said second waveguide'"'"'s reflecting surface directs said light energy back to said evanescent region, coupling said light energy to said first waveguide first end and to said light energy conduction arrangement.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The optical sensor in accordance to claim 1 wherein said optical measurement system further includes a temperature control circuit and said substrate further includes a second surface, and said means for cooling is located on said substrate second surface and is operatively connected to said temperature control circuit, and responsive to signals from said temperature control circuit said means for cooling cools said substrate.
  - 3. The optical sensor in accordance to claim 2 wherein said means for cooling is a thermoelectric cooler and responsive to first signals from said temperature control circuit said thermoelectric cooler cools said substrate.
  - 4. The optical sensor in accordance to claim 3 wherein, responsive to second signals from said temperature control circuit, said thermoelectric cooler heats said substrate.
  - 5. The optical sensor in accordance to claim 1 wherein said first waveguide second end is disposed to direct said light energy that strikes said second end out of said first waveguide, whereby in the absence of said evanescent region a majority of said light energy is conducted through said first waveguide and out of said first waveguide second end.
  - 6. The optical sensor in accordance to claim 2 wherein said optical measurement system further includes a controller operatively connected to said light detector and to said temperature control circuit, and said optical sensor further includes a temperature sensor located on said substrate first surface operatively connected to said temperature control circuit said temperature sensor sends signals to said temperature control circuit representative of the temperature of said optical sensor and, responsive to said light detector receiving light energy from said optical sensor of a predetermined magnitude, said controller reads the temperature of said optical sensor from said temperature control circuit.

7. An optical sensor for detecting the dew point of an atmosphere for use with an optical measurement system, said optical measurement system including a source of light energy, a light detector, and a light energy conduction arrangement for directing light energy from said source of light energy to said optical sensor and to return light energy from said optical sensor to said light detector, said optical sensor comprising:
- first light energy guiding means located in said atmosphere optically connected to said light energy conduction arrangement, said first light energy guiding means arranged to receive light energy from said source of light energy and to direct light energy back to said light detector;
  
  second light energy guiding means located in said atmosphere parallel to and in a spaced relationship to said first light energy guiding means, said second light energy guiding means further including an end prepared as a reflecting surface; and
  
  means for cooling arranged to cool said first and said second light energy guiding means to a temperature below the ambient temperature of said atmosphere to cause water vapor that may be contained in said atmosphere to condense between said first and second light energy guiding means forming an evanescent region in the area of said condensate and coupling said light energy from said first light energy guiding means to said second light energy guiding means wherein said reflecting surface reflects said light energy striking said reflecting surface back to said evanescent region coupling said light energy back to said first light energy guiding means and to said light energy conduction arrangement and said light detector.

8. An optical sensor for detecting the presence of a liquid for use with an optical measurement system, said optical measurement system including a source of light energy, a light detector, and a light energy conduction arrangement for directing light energy from said source of light energy to said optical sensor and to return light energy from said optical sensor to said light detector, said optical sensor comprising:
- a substrate located in an area where the presence of a liquid is to be detected, said substrate having at least a first planar surface;
  
  first light energy guiding means located on said substrate'"'"'s first surface optically connected to said light energy conduction arrangement, said first light energy guiding means arranged to receive light energy from said source of light energy and to direct light energy back to said light detector;
  
  second light energy guiding means located on said substrate'"'"'s first surface in parallel to and in spaced relationship to said first light energy guiding means, said second light energy guiding means further including an end prepared as a reflecting surface; and
  
  responsive to liquid contacting said first and said first and said second light energy guiding means and an evanescent region is formed in the area of liquid contact coupling said light energy from said first light energy guiding means to said second light energy guiding means wherein said reflecting surface reflects said light energy striking said reflecting surface back to said evanescent region coupling said light energy back to said first energy guiding means and to said light energy conduction arrangement and said detector.

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Current Assignee
Honeywell Incorporated (Honeywell International Inc.)
Original Assignee
Honeywell International Inc.
Inventors
Trainer, Michael N.
Primary Examiner(s)
Font, Frank G.
Assistant Examiner(s)
STAFIRA, MICHAEL PATRICK

Application Number

US09/145,068
Time in Patent Office

672 Days
Field of Search

356/244, 356/246, 356/445, 356/446, 250/216, 250/227.11, 250/227.24, 250/227.25
US Class Current

356/244
CPC Class Codes

G01N 21/552 Attenuated total reflection

Optical sensor for detecting the dew point of an atmosphere

First Claim

1 Assignment

0 Petitions

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Abstract

6 Citations

8 Claims

Specification

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Optical sensor for detecting the dew point of an atmosphere

First Claim

1 Assignment

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Accused Products

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Abstract

6 Citations

8 Claims

Specification

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Solutions

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