Turbidity sensor with analog to digital conversion capability
First Claim
Patent Images
1. A turbidity sensor, comprising:
- a light source;
first and second light sensitive components disposed in light communication relation with said light source, said first light sensitive component being disposed to directly receive light emanating from said light source, said second light sensitive component being disposed to receive light emanating from said light source and scattered by particles suspended between said light source and said first light sensitive component, said first and second light sensitive components having first and second output signals, respectfully, which are representative of the light intensity received by their respective light sensitive components;
means for determining a predefined relationship of said first and second output signals, said determining means comprising first means for canceling said first output signal with a first plurality of current pulses and second means for canceling said second output signal with a second plurality of current pulses, said determining means further comprising means for comparing said first and second plurality of pulses.
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Abstract
A turbidity sensor is provided with a light source and a plurality of light sensitive components which are disposed proximate a conduit to measure the light intensity directly across the conduit from the light source and at an angle therefrom. The conduit is provided with a plurality of protrusions extending radially inward from the walls of the conduit to discourage the passage of air bubbles through the light beam of the sensor. The direct light beam and scattered light are compared to form a relationship that is indicative of the turbidity of the liquid passing through the conduit. The rate of change of turbidity is provided as a monitored variable.
70 Citations
14 Claims
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1. A turbidity sensor, comprising:
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a light source; first and second light sensitive components disposed in light communication relation with said light source, said first light sensitive component being disposed to directly receive light emanating from said light source, said second light sensitive component being disposed to receive light emanating from said light source and scattered by particles suspended between said light source and said first light sensitive component, said first and second light sensitive components having first and second output signals, respectfully, which are representative of the light intensity received by their respective light sensitive components; means for determining a predefined relationship of said first and second output signals, said determining means comprising first means for canceling said first output signal with a first plurality of current pulses and second means for canceling said second output signal with a second plurality of current pulses, said determining means further comprising means for comparing said first and second plurality of pulses. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A turbidity sensor, comprising:
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a light source; a first light sensitive component; a second light sensitive component, said first and second light sensitive components being disposed in light relation with said light source; means for passing a fluid between said light source and said first light sensitive component; first means for determining a first relationship between a first output from said first light sensitive component and a second output from said second light sensitive component, said first determining means comprising first means for canceling said first output signal with a first number of current pulses and second means for canceling said second output signal with a second number of current pulses, said first relationship being a ratio of said first and second numbers; and second means for determining a rate of change of said first relationship as a function of time. - View Dependent Claims (8, 9, 10)
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11. A turbidity sensor, comprising:
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a fluid conduit; a light source disposed to transmit light along a first axis extending through said conduit; a first light sensitive component disposed on said first axis to receive light from said light source; a second light sensitive component disposed to receive light in a direction generally perpendicular to said axis from an internal portion of said conduit; means for comparing the light intensity received by said first and second light sensitive components and providing a signal representative thereof, said comparing means comprising first means for providing a first signal representative of said light intensity of said first light sensitive component and second means for providing a second signal representative of said light intensity of said second light sensitive component, said comparing means further comprising first means for canceling said first signal with a first number of current pulses and second means for canceling said second signal with a second number of current pulses, said comparing means further comprising means for determining a ratio of said first and second numbers. - View Dependent Claims (12, 13, 14)
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Specification