Device for measuring the fluorescence of a medium
First Claim
1. A method for fluorescent spectroscopic in-line determination of the protein content of a medium containing milk, comprising the steps of:
- illuminating the medium by radiation from a radiation source;
guiding a part of the radiation from said radiation source by a beam splitter to a reference receiving element that detects the source intensity of said radiation source;
detecting an emission intensity of a medium radiation emitted by the medium based on fluorescence with an emission-receiving element;
detecting a scattering intensity of the medium radiation scattered by the medium in a range of the absorption of the radiation of the radiation source caused by fluorescence with a scattering-receiving element;
measuring the temperature of the medium;
measuring the temperature of at least one of the receiving elements;
compensating the respective detection of radiation by the at least one of the receiving elements for an effect of the measured temperature of the least one of the receiving elements; and
converting the detected emission intensity, in combination with the detected scattering intensity, and in combination with a compensation for an effect of the measured temperature of the medium on the fluorescence of the medium, into a concentration value of fluorescent parts of the medium,wherein said radiation source, said beam splitter, and said reference receiving element are commonly arranged on a holding device such that a main receiving direction of said reference receiving element and a main direction of the radiation of said radiation source are at a 90°
angle to one another, andwherein the main direction of radiation of the radiation source is parallel to a main receiving direction of said emission-receiving element and to a main receiving direction of said scattering-receiving element.
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Accused Products
Abstract
A device for measuring the fluorescence of a medium having a radiation source, an emission-receiving element and an optical imaging element arranged on the sensor side of the optical imaging element, and a scattering-receiving element arranged on the sensor side of the optical imaging element and in which the radiation source, the imaging element and the emission-receiving element are aligned and configured relative to one another so that the medium present on the medium side of the imaging element can be illuminated by radiation from the radiation source, and the emission intensity of the medium radiation emitted by the medium based on fluorescence can be detected with the emission-receiving element. To provide a device for measuring the fluorescence of a medium which has an increased reliability in measuring the fluorescence, temperature compensation is performed relative to the temperature of the medium and/or at least one of the receiving elements.
34 Citations
6 Claims
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1. A method for fluorescent spectroscopic in-line determination of the protein content of a medium containing milk, comprising the steps of:
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illuminating the medium by radiation from a radiation source; guiding a part of the radiation from said radiation source by a beam splitter to a reference receiving element that detects the source intensity of said radiation source; detecting an emission intensity of a medium radiation emitted by the medium based on fluorescence with an emission-receiving element; detecting a scattering intensity of the medium radiation scattered by the medium in a range of the absorption of the radiation of the radiation source caused by fluorescence with a scattering-receiving element; measuring the temperature of the medium; measuring the temperature of at least one of the receiving elements; compensating the respective detection of radiation by the at least one of the receiving elements for an effect of the measured temperature of the least one of the receiving elements; and converting the detected emission intensity, in combination with the detected scattering intensity, and in combination with a compensation for an effect of the measured temperature of the medium on the fluorescence of the medium, into a concentration value of fluorescent parts of the medium, wherein said radiation source, said beam splitter, and said reference receiving element are commonly arranged on a holding device such that a main receiving direction of said reference receiving element and a main direction of the radiation of said radiation source are at a 90°
angle to one another, andwherein the main direction of radiation of the radiation source is parallel to a main receiving direction of said emission-receiving element and to a main receiving direction of said scattering-receiving element. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification