Direct to digital oximeter and method for calculating oxygenation levels
First Claim
1. An oximeter for non-invasively measuring arterial oxygen saturation, comprising:
- a sensor including at least first, second and third light emitting devices for producing light in at least three wavelengths;
at least one photodetector for detecting said light, after passing through a tissue sample containing a pulsating blood supply, and for producing an analog electrical current signal representing the absorption of each wavelength of said light;
an analog to digital converter for converting said analog electrical current signal to a digital voltage signal; and
a processing unit for processing said digital voltage signal to calculate an arterial oxygen saturation.
2 Assignments
0 Petitions
Accused Products
Abstract
An oximeter for non-invasively measuring the oxygen saturation in blood with increased speed and accuracy is disclosed. The oximeter includes a number of features which increase the functionality of the device including: a dynamic range control for monitoring a range of inputs from low level signals encountered in fetal and other applications to typical or high level signals; light emitting devices of different wavelengths for filtering noise and providing additional medial monitoring functions; and an improved method for calculating the oxygenation levels without the need to take peak and valley measurements. The device includes a sensor unit which can be attached to a patient and an oximeter which determines the oxygen saturation in the blood based on signals received from the sensor. The sensor can include light emitting devices in three or more wavelengths to provide additional functions. In the present invention, the detected signal is immediately converted to a digital value.
345 Citations
14 Claims
-
1. An oximeter for non-invasively measuring arterial oxygen saturation, comprising:
-
a sensor including at least first, second and third light emitting devices for producing light in at least three wavelengths;
at least one photodetector for detecting said light, after passing through a tissue sample containing a pulsating blood supply, and for producing an analog electrical current signal representing the absorption of each wavelength of said light;
an analog to digital converter for converting said analog electrical current signal to a digital voltage signal; and
a processing unit for processing said digital voltage signal to calculate an arterial oxygen saturation. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
-
10. A method for non-invasively measuring arterial oxygen saturation, comprising the steps of:
-
producing light of at least first, second, and third wavelength;
directing said light at a tissue sample containing a pulsating blood supply;
detecting said light, after passing through said tissue sample, and producing an analog electrical current signal representing the absorption rate of each wavelength of said light;
then converting said analog electrical current signal to a digital voltage signal;
then processing the digital voltage signal to calculate an arterial oxygen saturation. - View Dependent Claims (11, 12, 13, 14)
-
Specification
-
- Resources
-
Current AssigneeCriticare Systems, Inc. (Opto Circuits (India) Ltd.)
-
Original AssigneeCriticare Systems, Inc. (Opto Circuits (India) Ltd.)
-
InventorsLarsen, Michael T., Reuss, James L.
-
Primary Examiner(s)WINAKUR, ERIC FRANK
-
Application NumberUS09/740,595Publication NumberTime in Patent Office798 DaysField of Search600/323, 600/330, 600/336, 600/473, 600/476, 356/39, 356/41US Class Current600/323CPC Class CodesA61B 5/14551 for measuring blood gases
