Broad range light detection system
First Claim
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1. A system for determining the amount of light received by a detector during a sampling period, where the detector produces an output which is a function of light being received, the system comprising:
- a first integration device operatively connected to the output of the detector and adapted to generate a first integration signal during the sampling period, the first integration signal being proportional to the amount of light received by the detector during the sampling period so long as the amount of light received during the sampling period is less than a first predetermined amount;
a second integration device operatively connected to the output of the detector and adapted to generate a second integration signal during the sampling period, the second integration signal being proportional to the amount of light received by the detector during the sampling period so long as the amount of light received during the sampling period is less than a second predetermined amount, wherein the second predetermined amount is at least several times greater than the first predetermined amount; and
a range selection system connected to the first and second integration devices and configured to automatically select one of the integration signals to use in determining the amount of light received by the detector based upon the amount of light received during the sampling period as represented by the integration signals.
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Abstract
A broad-range light-detection system. In some embodiments, the system includes apparatus and methods for detecting light with high accuracy over a broad range of intensities. In other embodiments, the system includes apparatus and methods for automatically scaling the detection range to improve detection based on the intensity of the detected light. In yet other embodiments, the system includes apparatus and methods for detecting light with increased speed, particularly in applications involving analysis of successive samples.
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Citations
8 Claims
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1. A system for determining the amount of light received by a detector during a sampling period, where the detector produces an output which is a function of light being received, the system comprising:
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a first integration device operatively connected to the output of the detector and adapted to generate a first integration signal during the sampling period, the first integration signal being proportional to the amount of light received by the detector during the sampling period so long as the amount of light received during the sampling period is less than a first predetermined amount;
a second integration device operatively connected to the output of the detector and adapted to generate a second integration signal during the sampling period, the second integration signal being proportional to the amount of light received by the detector during the sampling period so long as the amount of light received during the sampling period is less than a second predetermined amount, wherein the second predetermined amount is at least several times greater than the first predetermined amount; and
a range selection system connected to the first and second integration devices and configured to automatically select one of the integration signals to use in determining the amount of light received by the detector based upon the amount of light received during the sampling period as represented by the integration signals. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of measuring light intensity from a source, comprising:
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detecting photons incident on a detector from the source;
generating a first integration signal proportional to the cumulative number of photons incident on the detector during a sampling period so long as the cumulative number of photons is less than a first range value;
simultaneously with generating a first integration value, generating a second integration signal proportional to the number of photons incident on the detector during the sampling period so long as the cumulative number of photons is less than a second range value, where the second range value is at least an order of magnitude larger than the first range value;
selecting one of the integration signals to use in computing a detected light intensity based on whether the cumulative number of photons incident on the detector during the sampling period exceeded the first range value; and
computing a detected light intensity using the selected integration signal. - View Dependent Claims (8)
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Specification
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Current AssigneeMolecular Devices
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Original AssigneeLJL Biosystems, Inc. (Danaher Corporation)
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InventorsStumbo, David P., Modlin, Douglas N., Stellmacher, Rick V.
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Primary Examiner(s)LE, QUE TAN
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Application NumberUS09/643,221Time in Patent Office473 DaysField of Search250/214.SW, 250/214.R, 250/205, 250/214.1, 250/206, 250/223.R, 250/221, 250/227.22, 250/227.11, 356/73, 327/564, 327/565US Class Current250/214.0SWCPC Class CodesG01N 21/6408 with measurement of decay t...G01N 21/6445 Measuring fluorescence pola...G01N 21/6452 Individual samples arranged...
