Simple sugar concentration sensor and method
First Claim
1. An apparatus for measuring change in sugar concentration in a fluid relative to a baseline concentration, the apparatus comprising:
- a source of optical energy, said source having an emitter with an emission pattern;
a first optical detector spaced a distance from said source;
a second optical detector collocated with said first optical detector;
a plurality of polarizers optically between said source and said detectors, said plurality of polarizers comprising;
a first polarizer intersecting the emission pattern; and
a second polarizer rotated relative to the first polarizer by a first rotational amount Θ
, spaced a distance from the first polarizer, and proximal to said second optical detector, wherein said first polarizer is optically between said source and said second polarizer;
a volume of liquid, said volume intersecting said emission pattern and positioned optically between said first polarizer and said second polarizer and optically between said first polarizer and said first detector; and
at least one circuit coupled to said first optical detector and said second optical detector,said at least one circuit comprising;
a compensating circuit coupled to said second optical detector;
a subtractor circuit coupled to said compensating circuit and said first optical detector; and
a gain circuit coupled to said subtractor circuit.
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Accused Products
Abstract
A glucose sensor comprising an optical energy source having an emitter with an emission pattern; a first polarizer intersecting the emission pattern; a second polarizer spaced a distance from the first polarizer and intersecting the emission pattern, the second polarizer rotated relative to the first polarizer by a first rotational amount Θ; a first optical detector intersecting the emission pattern; a second optical detector positioned proximal to the second polarizer, the first polarizer and the second polarizer being positioned between the optical energy source and the second optical detector, the second optical detector intersecting the emission pattern; a compensating circuit coupled to the second optical detector; and a subtractor circuit coupled to the compensating circuit and the first optical detector.
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Citations
19 Claims
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1. An apparatus for measuring change in sugar concentration in a fluid relative to a baseline concentration, the apparatus comprising:
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a source of optical energy, said source having an emitter with an emission pattern; a first optical detector spaced a distance from said source; a second optical detector collocated with said first optical detector; a plurality of polarizers optically between said source and said detectors, said plurality of polarizers comprising; a first polarizer intersecting the emission pattern; and a second polarizer rotated relative to the first polarizer by a first rotational amount Θ
, spaced a distance from the first polarizer, and proximal to said second optical detector, wherein said first polarizer is optically between said source and said second polarizer;a volume of liquid, said volume intersecting said emission pattern and positioned optically between said first polarizer and said second polarizer and optically between said first polarizer and said first detector; and at least one circuit coupled to said first optical detector and said second optical detector, said at least one circuit comprising; a compensating circuit coupled to said second optical detector; a subtractor circuit coupled to said compensating circuit and said first optical detector; and a gain circuit coupled to said subtractor circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method of detecting an amount of change of sugar concentration in a subject fluid relative to a baseline concentration, the method comprising:
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directing optical energy in a first direction; positioning the subject fluid between a first polarizer and a first detector, between said first polarizer and a second polarizer rotated relative to the first polarizer by a first rotational amount Θ
, and between said first polarizer and a second detector, wherein said second polarizer is positioned between the first polarizer and said second detector;passing the optical energy through the first polarizer to become once-polarized optical energy; passing the once-polarized optical energy through the subject fluid to become rotated once-polarized optical energy; detecting an intensity of the rotated once-polarized optical energy; passing at least a portion of the rotated once-polarized optical energy through the second polarizer to become twice-polarized optical energy; detecting the intensity of the twice-polarized optical energy; providing a signal representative of a difference between the intensity of the rotated once-polarized optical energy and the intensity of the twice-polarized optical energy; and correlating the signal to a sugar concentration. - View Dependent Claims (16, 17, 18, 19)
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Specification