Apparatus for determining the .sup.13 CO.sub.2 /.sup.12 CO.sub.2 ratio of concentrations in a gas sample
First Claim
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1. Apparatus for the determination of the 12 CO2 /13 CO2 -ratio in a gas sample, comprising:
- an infrared light source and means to pulse said source at a frequency, two first cells traversed in parallel by the light from said light source one containing substantially only 13 CO2 and the other containing substantially only 12 CO2 ;
two second cells also traversed in parallel by the light of the infrared light source and in each case containing one part of the gas sample;
first pressure converting means having a diaphragm for converting periodic pressure fluctuations caused by the absorption of said light in two of said cells into electrical signals;
wherein said two first cells are located in the optical path upstream of said two second cells, the pressure in one of said two first cells is adjustable and the diaphragm of said first pressure converting means is positioned in such a way that it is sensitive to pressure fluctuations in each of said two second cells.
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Abstract
A measuring apparatus based on the NDIR process. Pulsed infrared light traverses in two parallel optical beams (3, 4) initially a cell (6) filled with 13 CO2 and a cell (7) filled with 12 CO2 and then, in parallel, two cells (8, 9) which are filled with the gas sample to be analyzed. Cells (8, 9) together with a capacitor microphone (15) serving as the pressure converting means form an optopneumatic receiver (17). By regulating the pressure in cell (6) the minimum of the pressure conversion signal is investigated and related to a correspondingly obtained reference value. The simply constructed apparatus permits a 13 CO2 breathing test to be performed inexpensively.
44 Citations
20 Claims
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1. Apparatus for the determination of the 12 CO2 /13 CO2 -ratio in a gas sample, comprising:
- an infrared light source and means to pulse said source at a frequency, two first cells traversed in parallel by the light from said light source one containing substantially only 13 CO2 and the other containing substantially only 12 CO2 ;
two second cells also traversed in parallel by the light of the infrared light source and in each case containing one part of the gas sample;
first pressure converting means having a diaphragm for converting periodic pressure fluctuations caused by the absorption of said light in two of said cells into electrical signals;
wherein said two first cells are located in the optical path upstream of said two second cells, the pressure in one of said two first cells is adjustable and the diaphragm of said first pressure converting means is positioned in such a way that it is sensitive to pressure fluctuations in each of said two second cells. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 15, 16, 17, 18, 19, 20)
- an infrared light source and means to pulse said source at a frequency, two first cells traversed in parallel by the light from said light source one containing substantially only 13 CO2 and the other containing substantially only 12 CO2 ;
- 13. Apparatus according to claim to 10, wherein the two third cells communicate with one another by means of a connecting line and the length of said connecting line and the frequency of the means to pulse the infrared light source are chosen in such a way that, with respect to the periodic pressure fluctuation in the two third cells, an antinode of longitudinal wave occurs at the diaphragm of the second pressure converting means.
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Current AssigneeMIC Medical Instruments Corporation
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Original AssigneeMIC Medical Instruments Corporation
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InventorsGross, Joachim
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Primary Examiner(s)Fields, Carolyn E.
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Application NumberUS08/266,628Time in Patent Office546 DaysField of Search250/345, 250/343US Class Current250/345CPC Class CodesG01N 21/37 using pneumatic detection o...G01N 21/61 Non-dispersive gas analyser...
