Pulse oximeter
First Claim
1. A pulse oximeter comprising:
- a red light source and an infrared light source which apply red light and infrared light, respectively, having two different wavelengths to a living tissue including arterial blood;
a light-receiving element which detects optical reception outputs after the red light and the infrared light having the two different wavelengths and which are respectively emitted from said red light source and said infrared light source haven been absorbed by the living tissue;
first computing means for computing an absorbance ratio between pulsating components of light absorbance for the two different wavelengths due to the arterial blood, based on dc components and pulsating components of the respective two different wavelengths which are obtained from the reception outputs of said light-receiving element;
correction circuit means for detecting a degree of fluctuation in the absorbance ratio outputted from said first computing means, for holding the pulsating components of said respective two different wavelengths when the pulsating components of said respective two different wavelengths are stable, and for computing a corrected absorbance ratio using the stable pulsating components of the respective two different wavelengths which were held and the dc components of the respective two different wavelengths at a present time when a fluctuation in the absorbance ratio exceeds a predetermined value; and
a second computing means for computing an oxygen saturation of the arterial blood based on the absorbance ratio produced from said correction circuit means.
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Accused Products
Abstract
A improved pulse oximeter comprises first and second light-emitting diodes that apply red light and infrared light, respectively, to a living tissue including the arterial blood, a photodiode for detecting optical outputs as produced after the red and infrared light of two wavelengths issuing from light-emitting diodes have been absorbed by the living tissue, a first computing unit that computes the ratio between the pulsating components of light absorbance Φ for the two wavelengths due to the arterial blood on the basis of the dc components and pulsating components of the respective wavelengths that are obtained from the reception outputs of the photodiode, a correction circuit that not only detects the degree of fluctuation in the absorbance ratio Φ as produced from the first computing unit but which also holds the pulsating components of the respective wavelengths when they are stable and which, if there is a fluctuation in the absorbance ratio Φ, computes a corrected absorbance ratio Φ'"'"' using the pulsating components of the respective wavelengths that were held at the stable time and the dc components of the respective wavelengths at the present time, and a second computing unit 16 for computing the oxygen saturation of arterial blood on the basis of the absorbance ratio Φ'"'"' as produced from the correction circuit. This pulse oximeter permits the intended measurement to be continued consistently even if there occurs noise due to body movements and yet it is capable of measurements with good response.
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2 Claims
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1. A pulse oximeter comprising:
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a red light source and an infrared light source which apply red light and infrared light, respectively, having two different wavelengths to a living tissue including arterial blood; a light-receiving element which detects optical reception outputs after the red light and the infrared light having the two different wavelengths and which are respectively emitted from said red light source and said infrared light source haven been absorbed by the living tissue; first computing means for computing an absorbance ratio between pulsating components of light absorbance for the two different wavelengths due to the arterial blood, based on dc components and pulsating components of the respective two different wavelengths which are obtained from the reception outputs of said light-receiving element; correction circuit means for detecting a degree of fluctuation in the absorbance ratio outputted from said first computing means, for holding the pulsating components of said respective two different wavelengths when the pulsating components of said respective two different wavelengths are stable, and for computing a corrected absorbance ratio using the stable pulsating components of the respective two different wavelengths which were held and the dc components of the respective two different wavelengths at a present time when a fluctuation in the absorbance ratio exceeds a predetermined value; and a second computing means for computing an oxygen saturation of the arterial blood based on the absorbance ratio produced from said correction circuit means. - View Dependent Claims (2)
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Specification