Method and apparatus for a liquid chemical concentration analysis system

US 7,397,547 B2
Filed: 07/21/2006
Issued: 07/08/2008
Est. Priority Date: 09/26/2005
Status: Active Grant

First Claim

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1. An optical sensor, comprising:

an optical housing having a housing sensing surface;

an optical window coupled to the housing sensing surface forming a housing sensing surface/optical window interface;

a sensing window having a window sensing surface, the sensing window coupled to the optical window forming an optical window/sensing window interface and such that the window sensing surface is capable of being in direct contact with a sample;

a photodetector array coupled to the optical housing; and

a light source coupled to the optical housing and configured to emit light towards the window sensing surface such that the light will pass through the housing sensing surface/optical window interface and the optical window/sensing window interface, a portion of the light being reflected from the window sensing surface onto the photodetector array, wherein the photodetector array is configured to obtain information about the intensity of the reflected light.

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Abstract

An apparatus utilizes optical reflectivity (REF) to measure concentrations in liquids. The REF optical system is packaged in a compact and cost-effective form factor. An electronic circuit drives the optical system. The miniaturized REF sensor is situated in an optical-fluidic cell or an optical-fluidic manifold with an optical window in contact with the liquid. Changes in a total internal reflection (TIR) signal are sensitive to temperature and concentration of the liquid. These changes in the TIR signal are used to accurately determine the concentration in the liquid. The liquids may be either static or dynamic.

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19 Claims

1. An optical sensor, comprising:
- an optical housing having a housing sensing surface;
  
  an optical window coupled to the housing sensing surface forming a housing sensing surface/optical window interface;
  
  a sensing window having a window sensing surface, the sensing window coupled to the optical window forming an optical window/sensing window interface and such that the window sensing surface is capable of being in direct contact with a sample;
  
  a photodetector array coupled to the optical housing; and
  
  a light source coupled to the optical housing and configured to emit light towards the window sensing surface such that the light will pass through the housing sensing surface/optical window interface and the optical window/sensing window interface, a portion of the light being reflected from the window sensing surface onto the photodetector array, wherein the photodetector array is configured to obtain information about the intensity of the reflected light.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The optical sensor of claim 1, wherein the sensing window is made of a dielectric material.
  - 3. The optical sensor of claim 2, wherein the dielectric material is sapphire.
  - 4. The optical sensor of claim 2, wherein the dielectric material is quartz.
  - 5. The optical sensor of claim 2, wherein the dielectric material is glass.
  - 6. The optical sensor of claim 1, wherein the sensing window is coupled to the optical window by an optical epoxy.
  - 7. The optical sensor of claim 1 further including a sample housing coupled to the optical housing and including a geometric fluid path that directs the sample toward the sensing surface while enhancing the mixing of the sample at the sensing surface.

8. An optical sensor system, comprising:
- an optical housing having a sensing surface that includes an optical window;
  
  a second optical window coupled to the sensing surface such that the second optical window is capable of being in direct contact with a sample at a sample/second optical window interface;
  
  a photodetector array coupled to the optical housing;
  
  a light source coupled to the optical housing and configured to emit light towards the sensing surface, a portion of the light being reflected from the sample/second optical window interface onto the photodetector array, wherein the photodetector array is configured to-obtain information about the intensity of the reflected light; and
  
  a signal processing unit communicatively coupled to the photodetector array, the signal processing unit configured to determine an index of refraction of the sample using the obtained information about the intensity of the reflected light.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
- - 9. The optical sensor system of claim 8, wherein the second optical window is made of a dielectric material.
  - 10. The optical sensor system of claim 9, wherein the dielectric material is sapphire.
  - 11. The optical sensor system of claim 9, wherein the dielectric material is quartz.
  - 12. The optical sensor system of claim 9, wherein the dielectric material is glass.
  - 13. The optical sensor system of claim 8, wherein the signal processing unit is further configured to determine a concentration of the sample based on at least the index of refraction of the sample.
  - 14. The optical sensor system of claim 8, wherein the light source is a light emitting diode.
  - 15. The optical sensor of claim 8 further including a sample housing coupled to the optical housing and including a geometric fluid path that directs the sample toward the second optical window while enhancing the mixing of the sample at the sample/second optical window interface.

16. An optical sensor, comprising:
- an optical housing having a housing sensing surface and a reflecting surface arranged at an obtuse angle to the housing sensing surface;
  
  an optical window attached to the housing sensing surface;
  
  a planar sapphire optical window having a sample sensing surface coupled to the optical window forming an optical window/sapphire window interface and such that the sample sensing surface is capable of being in direct contact with a sample;
  
  a photodetector array coupled to the optical housing; and
  
  a light emitting diode coupled to the optical housing and configured to emit light towards the sample sensing surface such that the emitted light passes through the optical window/sapphire window interface, wherein a portion of the light reflected from the sample sensing surface is directed onto the photodetector array by the reflecting surface and, wherein the photodetector array is configured to obtain information about the intensity of the reflected light.
- View Dependent Claims (17, 18, 19)
- - 17. The optical sensor of claim 16, wherein the planar sapphire optical window is coupled to the optical window using an optical epoxy.
  - 18. The optical sensor of claim 16, wherein the sample is a liquid.
  - 19. The optical sensor of claim 16 further including a sample housing coupled to the optical housing and including a geometric fluid path that directs the sample toward the sample sensing surface while enhancing the mixing of the sample at the sample sensing surface.

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Current Assignee
Jetalon Solutions, Inc.
Original Assignee
Jetalon Solutions, Inc.
Inventors
Boyd, Charles Eric, Chiarello, Ronald P., McPhee, Duncan A.
Primary Examiner(s)
Pham; Hoa Q

Application Number

US11/490,575
Publication Number

US 20070070331A1
Time in Patent Office

718 Days
Field of Search

356422-440, 356/244, 356/246, 356445-448, 356128-137
US Class Current

356/136
CPC Class Codes

G01N 21/0303   Optical path conditioning i...

G01N 21/4133   Refractometers, e.g. differ...

G01N 21/552   Attenuated total reflection

Method and apparatus for a liquid chemical concentration analysis system

First Claim

9 Assignments

0 Petitions

Accused Products

Abstract

45 Citations

19 Claims

Specification

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Method and apparatus for a liquid chemical concentration analysis system

First Claim

9 Assignments

Subscription Required

Subscription Required

0 Petitions

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Accused Products

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Abstract

45 Citations

19 Claims

Specification

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Solutions

Use Cases

Quick Links