Condensed oximeter system with noise reduction software
First Claim
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1. A method for determining a parameter of blood, comprising the steps of:
- emitting a first and second wavelength of light through a sample;
detecting said first and second wavelengths of light through said sample;
producing first and second analog signals responsive to the detection of said first and second wavelengths, respectively, said first and second analog signals being proportional to the intensity of said first and second wavelengths of light, respectively, said first analog signal having an AC and a DC component, and said second analog signal having an AC and a DC component;
separating said AC component of said first analog signal from said first analog signal to produce a first separated AC component, and separating said AC component of said second analog signal from said second analog signal to produce a second separated AC component;
computing the derivatives of said first and second separated AC components; and
computing said parameter of blood, said parameter of blood being dependent on the derivatives of said first and second separated AC components.
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Abstract
A compact pulse oximetry system which separates the combined signal into its respective AC and DC components. By separating the signal into AC and DC components, a smaller order bit A/D converter may be used while still maintaining signal accuracy. Instead of using the combined signal to calculate the oxygen saturation content, the system microprocessor computes the Ratio of Ratios using the derivative of the separated AC component of the diffused signal to calculate the oxygen saturation of the measured fluid. To calculate the Ratio of Ratios, a ratio of the derivative value of the separated AC component is used. Instead of taking a single sample between the peak and valley of the signal, the oximeter system samples each value. To decrease the effect of system noise, a linear regression is performed over each sample.
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Citations
15 Claims
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1. A method for determining a parameter of blood, comprising the steps of:
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emitting a first and second wavelength of light through a sample; detecting said first and second wavelengths of light through said sample; producing first and second analog signals responsive to the detection of said first and second wavelengths, respectively, said first and second analog signals being proportional to the intensity of said first and second wavelengths of light, respectively, said first analog signal having an AC and a DC component, and said second analog signal having an AC and a DC component; separating said AC component of said first analog signal from said first analog signal to produce a first separated AC component, and separating said AC component of said second analog signal from said second analog signal to produce a second separated AC component; computing the derivatives of said first and second separated AC components; and computing said parameter of blood, said parameter of blood being dependent on the derivatives of said first and second separated AC components. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 14, 15)
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13. An apparatus for measuring a parameter of the blood, comprising:
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a first and second light emitting means for emitting first and second wavelengths of light, respectively, said first and second light emitting means directing light through a sample; means responsive to said first and second light emitting means for detecting said first and second wavelengths of light transmitted through said sample, said detection means producing first and second analog signals, said first and second signals being an analog signal, said first and second analog signals being proportional to the intensity of said first and second wavelengths of light, respectively, said first and second analog signals each having an AC and a DC component; means for separating said AC component of said first analog signal from said first analog signal to produce a first separated AC component and separating said AC component of said second analog signal from said second analog signal to produce a second separated AC component, wherein said means for separating includes a subtractor circuit; an analog to digital converter, coupled to said means for separating, said converter converting said first separated AC component into a first digital signal and said second separated AC component into a second digital signal, said analog to digital converter having an input voltage range; and means for taking a linear regression of the ratio of derivatives of said first and second separated AC components for a plurality of sample points in a period, said means for taking a linear regression including a microprocessor which computes said parameter of blood from said first and second digital signals, wherein the value of said parameter of blood is dependent on the derivative of said first separated AC component and the derivative of said second separated AC component.
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Specification
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Current AssigneeNellcor Puritan Bennett Incorporated (Medtronic Plc)
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Original AssigneeNellcor Incorporated (Medtronic Plc)
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InventorsPotratz, Robert S.
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Primary Examiner(s)Sykes, Angela D.
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Application NumberUS08/225,486Time in Patent Office823 DaysField of Search128/633, 128/664-67, 356/39-41US Class Current600/330CPC Class CodesA61B 5/14551 for measuring blood gasesA61B 5/7207 of noise induced by motion ...A61B 5/7239 using differentiation inclu...
