Claims
- 1. A sensor for measuring low concentrations of particles in a viscous fluid, said sensor comprising:a VCSEL, wherein said VCSEL emits a laser light beam; a diffusing cone located opposite said VCSEL that captures incident light from the laser light beam through the viscous fluid and prevents reflection of the incident light back into the viscous fluid; a side scatter detector contained within a side scatter detector housing and located between said diffusing cone and said VCSEL proximate said laser light beam, wherein said side scatter detector housing is darkened to substantially eliminate ambient light and undesirable reflections, and wherein said side scatter detector monitors power associated with said VCSEL and reduces part-to-part variation of said VCSEL and is located in a vicinity of the incident light to thereby measure an intensity of said laser light beam; a forward scatter detector that detects forward-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam, wherein said forward scatter detector is located proximate said laser light beam and is contained within a forward scatter detector housing that is darkened to substantially eliminate ambient light and undesirable reflections; a radial side detector that detects radial-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam, wherein said radial side detector is located proximate said laser light beam; and a back scatter detector that detects back-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam, wherein said back scatter detector is located proximate said laser light beam, such that turbidity information is obtained from said side scatter detector, said forward scatter detector, said radial side detector and said back scatter detector to determine low concentrations of particles within said viscous fluid.
- 2. The sensor of claim 1 wherein said forward scatter detector is angled toward said laser light beam at approximately a 30 degree angle to a center of a path of said laser light beam.
- 3. The sensor of claim 1 wherein said side scatter detector is located at approximately 90 degrees to said laser light beam.
- 4. The sensor of claim 1 wherein said side scatter detector comprises a D-side detector.
- 5. The sensor of claim 1 wherein said VCSEL comprises a VCSEL powered by at least 8 mA of forward current.
- 6. The sensor of claim 5 wherein said viscous fluid comprises a solution having a concentration of approximately 7 NTU.
- 7. The sensor of claim 5 wherein said viscous fluid comprises a solution having a concentration of approximately 13 NTU.
- 8. The sensor of claim 5 wherein said viscous fluid comprises a solution having a concentration of approximately 20 NTU to 50 NTU.
- 9. The sensor of claim 1 wherein said sensor comprises a probe-type cell fixture sensor.
- 10. A sensor for measuring low concentrations of particles in a viscous fluid, said sensor comprising:a VCSEL, wherein said VCSEL emits a laser light beam through said viscous fluid; a diffusing cone, located opposite said VCSEL, that entirely captures incident light from the laser light beam emitted from the VCSEL through said viscous fluid and prevents reflection of said light back into said viscous fluid; a side scatter detector contained within a side scatter detector housing and located between said diffusing cone and said VCSEL proximate said laser light beam, wherein said side scatter detector housing is darkened to substantially eliminate ambient light and undesirable reflections, and wherein said side scatter detector monitors power associated with said VCSEL and reduces part-to-part variation of said VCSEL and is located in a vicinity of light to thereby measure an intensity of said laser light beam, wherein said side scatter detector is located approximately 90 degrees to said laser light beam; a forward scatter detector that detects forward-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam, wherein said forward scatter detector is located proximate said laser light beam and is contained within a forward scatter detector housing that is darkened to substantially eliminate ambient light and undesirable reflections, wherein said forward scatter detector is angled into said laser light beam at approximately a 30 degree angle to a center of a path of said laser light beam; a radial side detector that detects radial-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam, wherein said radial side detector is located proximate said laser light beam; and a back scatter detector that detects back-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam, wherein said back scatter detector is located proximate to said laser light beam, such that turbidity information is obtained from said side scatter detector, said forward scatter detector, said radial side detector and said back scatter detector to determine low concentrations of particles within said viscous fluid.
- 11. A method for measuring low concentrations of particles in a viscous fluid, said method comprising the steps of:locating a diffusing cone opposite a VCSEL such that said diffusing cone entirely captures incident light from a laser light beam emitted from said VCSEL through said viscous fluid and prevents reflection of said light back into said viscous fluid; positioning said VCSEL opposite said diffusing cone such that said VCSEL emits the laser light beam from said VCSEL to said diffusing cone through said viscous fluid; locating a side scatter detector contained within a side scatter detector housing between said diffusing cone and said VCSEL and proximate said laser light beam, wherein said side scatter detector housing is darkened to substantially eliminate ambient light and undesirable reflections, and wherein said side scatter detector monitors power associated with said VCSEL and reduces part-to-part variation of said VCSEL and is located in a vicinity of said laser light beam to thereby measure an intensity of said laser light beam; positioning a forward scatter detector contained within a forward scatter detector housing darkened to substantially eliminate ambient light and undesirable reflections proximate said laser light beam, wherein said forward scatter detector detects forward-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam; locating a radial side detector proximate said laser light beam, wherein said radial side detector detects radial-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam; and positioning a back scatter detector proximate said laser light beam, wherein said back scatter detector detects back-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam, such that information is obtained from said side scatter detector, said forward scatter detector, said radial side detector and said back scatter detector to determine low concentrations of particles within said viscous fluid.
- 12. The sensor of claim 11 further comprising the step of:configuring said forward scatter detector, such that said forward scatter detector is angled toward said laser light beam at approximately a 30-degree angle to a center of a path of said laser light beam.
- 13. The sensor of claim 11 further comprising the step of:configuring said side scatter detector, such that said side scatter detector is located at approximately 90 degrees to said laser light beam.
- 14. The method of claim 11 wherein said side scatter detector comprises a D-side detector.
- 15. The method of claim 11 wherein said VCSEL comprises a VCSEL powered at least 8 mA of forward current.
- 16. The method of claim 15 wherein said viscous fluid comprises a solution having a concentration of approximately 7 NTU.
- 17. The method of claim 15 wherein said viscous fluid comprises a solution having a concentration of approximately 13 NTU.
- 18. The method of claim 15 wherein said viscous fluid comprises a solution having a concentration of approximately 20 NTU to 50 NTU.
- 19. The method of claim 11 wherein said sensor comprises a probe-type cell fixture sensor.
- 20. The method of claim 11 further comprising the step of:locating at least one additional forward scatter detector contained within a forward scatter detector housing darkened to substantially eliminate ambient light and undesirable reflections proximate said laser light beam, wherein said at least one additional forward scatter detector detects forward-scattered light reflected from particles contained within said viscous fluid that come into contact with said laser light beam.
Parent Case Info
This application is related to co-pending and co-owned patent applications entitled: “Focused Laser Light Turbidity Sensor,” U.S. Ser. No. 09/788,723, filed on Feb. 19, 2001.
US Referenced Citations (38)
Foreign Referenced Citations (3)
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| WO 99 36772 |
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Non-Patent Literature Citations (1)
| Entry |
| PCT International Search Report, dated Mar. 4, 2002, relevant to PCT counterpart of current U.S. patent application. |