IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0986403
(2007-11-21)
|
등록번호 |
US-7847944
(2011-01-31)
|
우선권정보 |
WO-PCT/EP2005/052374(2005-05-24) |
발명자
/ 주소 |
- Buettner, Christian
- Kuderer, Hubert
|
출원인 / 주소 |
- Agilent Technologies, Inc.
|
인용정보 |
피인용 횟수 :
12 인용 특허 :
9 |
초록
A Method of correcting a multi-path absorbance measuring system is suggested. The multi-path absorbance measuring system has a plurality of n measuring path: The method is executed by correcting the signal of the measuring paths based on a determined linearization function.
대표청구항
▼
The invention claimed is: 1. Method of correcting a multi-path absorbance determination system adapted for determining absorbance of a sample contained in a fluid, wherein the multi-path absorbance determination system comprises a plurality of n measuring paths each adapted for measuring an amounts
The invention claimed is: 1. Method of correcting a multi-path absorbance determination system adapted for determining absorbance of a sample contained in a fluid, wherein the multi-path absorbance determination system comprises a plurality of n measuring paths each adapted for measuring an amounts of light transmitted through the-fluid in the measuring path, the method comprising: correcting a signal related to the amounts of light transmitted through the fluid in the measuring paths based on correction values determined for the actual system, and determining absorbance from the corrected signal, wherein the correction values have been determined by: filling the measuring paths with an initial fluid as the fluid without containing the sample, determining values related to the amounts of light transmitted through the initial fluid in each of the measuring paths, and determining the correction values based on the determined values. 2. Method of claim 1, wherein correcting the signal of the measuring paths comprises using a linearization function determined from the correction values. 3. Method of claim 2, wherein each measuring path comprises a flow cell, the method comprising determining a linearization function A1 cm=F*As by determining an intensity distribution fi with i=[1 . . . n] amongst a plurality of n flow cells, wherein fi=10i/sum [i=[1 . . . n]; 10i], inserting the values of fi and pi in the equation F[A1 cm]=A1 cm/−log [sum[i=[1 . . . n]; fi*10^[−pi*A1 cm]]], and inverting the equation numerically point by point for all possible A1 cm within the dynamic range of the multi-path absorbance determination system, wherein “F[A1 cm]” is the linearization factor dependent on A1 cm, “A1 cm” is the 1 cm absorbance c*ε, “As” is the absorbance as a function of the measured absorption of the plurality of n measuring paths by the photo detecting device, “fi” is the intensity distribution amongst the n different measuring paths of the multi-path absorbance determination system for 1=[1 . . . n], and “pi” is the path length of the flow cell i of the multi-path absorbance determination system for 1=[1 . . . n]. 4. Method of claim 2, wherein the linearization function is determined for different wavelengths of the spectral range of the light emitting device. 5. Method of claim 1, wherein each measuring path comprises a flow cell, the method comprising: setting a switching device to at least n different switching states, wherein a different pattern of measuring paths is interrupted in each switching state, measuring the signal of a photo detecting device in each switching state, and establishing a linear system of equations A*I=M, wherein A is an m×n matrix, each row of A represents a pattern of values “0” and “1” representing a switching state of the switching device for the plurality of n measuring paths, a value of “0” represents an interrupted measuring path and a value of “1” represents a non-interrupted measuring path, I is an n×1 vector representing the amount of light transmitted through each of the flow cell of the multi-path absorbance determination system, and M is an m×1 vector representing the measured signals of the photo detecting device. 6. Method of claim 1, wherein the multi-path absorbance determination system comprises a plurality of n flow cells with different light-path-lengths pi with i=[1 . . . n] connected in series, and side effects depend in particular on the geometry of the flow cells and a respective dead time in fluid conduits to the flow cells, the method comprising: detecting individual absorbance signals of the plurality of n flow cells, transforming at least one of the individual absorbance signals, wherein the transformation comprises at least one of: a time-shift for compensating the time delay between the plurality of n flow cells, a peak broadening, a peak broadening inverse function for compensating the different light-path-lengths, and a term for compensating the diffusion within the cells. 7. Method of claim 6, comprising of: calculating the related intensities of each of the plurality of n flow cells based on the transformed absorbance signal. 8. A multi-path absorbance determination system for determining absorbance of a sample and for executing the method of claim 1, comprising a light emitting device for irradiating the sample, a plurality of n measuring paths for conducting the irradiated light through the sample, wherein the n measuring paths comprise n different light-path-lengths pi with i=[1 . . . n] and wherein the n measuring paths are coupled to the light emitting device, a photo detecting device for detecting light emitted by the light emitting device and conducted through the sample by the measuring paths, and a switching device adapted for interrupting at least one of the measuring paths. 9. The multi-path absorbance determination system of claim 8, wherein the switching device is adapted for realizing at least n−1 different switching states for interrupting at least one of the measuring paths in each state, and for realizing one switching state wherein all measuring paths are non-interrupted. 10. The multi-path absorbance determination system of claim 8, wherein the photo detecting device is adapted for at least one of: measuring the sum of the light conducted through all of the non-interrupted measuring paths in each switching state of the switching device; measuring separately a plurality of n different sums of light intensities conducted through all of the non-interrupted measuring paths respectively in the n different switching states of the switching device. 11. The multi-path absorbance determination system of claim 8, wherein the photo detecting device and the switching device are adapted for measuring the light intensity of each single measuring path. 12. A software program or product, stored on a computer readable medium, for controlling the multi-path absorbance determination system of claim 11, when run on a data processing system. 13. The multi-path absorbance determination system of claim 8, wherein the switching device comprises at least one of the following: an aperture, a liquid crystal device, a shutter. 14. A software program or product, stored on a computer readable medium, for executing or controlling the method of claim 1, when run on a data processing system.
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