Oximeter apparatus
First Claim
1. In a reflectance oximeter comprising a s ens or having a red light source, an infrared light source, and a photodetector for receiving light from said sources reflected from tissue, the improvement wherein said sensor comprises a housing having an aperture, a sensor carrier, said light sources and photodetector being mounted to have active light emitting and light receiving surfaces respectively at one side of said carrier, an electrical connection arrangement for said sources and photodetector within said housing, and resilient means for mounting said carrier in said aperture, whereby said carrier floats with respect to said housing.
3 Assignments
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Accused Products
Abstract
An oximeter apparatus especially adapted to reflectance oximetry includes a sensor having a red LED, an infrared LED and a photosensor resiliently mounted in a carrier to provide constant linear pressure characteristics. The LED'"'"'s and photodetector are fixed to a flexible circuit board. The d.c. components of the reflectance signals are fed back to control the brightness of the LED'"'"'s A.c. component signals from the photodetector are rejected in the determination of oxygen saturation when the red and infrared a.c. components differ by more than a determined amount. The difference between the maximum and minimum values of each pulse is employed in the determination of oxygen saturation, with two measurements being taken for each pulse.
250 Citations
8 Claims
- 1. In a reflectance oximeter comprising a s ens or having a red light source, an infrared light source, and a photodetector for receiving light from said sources reflected from tissue, the improvement wherein said sensor comprises a housing having an aperture, a sensor carrier, said light sources and photodetector being mounted to have active light emitting and light receiving surfaces respectively at one side of said carrier, an electrical connection arrangement for said sources and photodetector within said housing, and resilient means for mounting said carrier in said aperture, whereby said carrier floats with respect to said housing.
- 7. In a non-invasive reflectance oximeter comprising a sensor having a red light source, an infrared light source, and a photodetector for receiving light from said sources reflected from tissue, the improvement wherein said sensor comprises a housing having an aperture and a sensor carrier resiliently mounted within said housing, said light sources and photodetector being mounted on said carrier to have active light emitting and light receiving surfaces respectively at one side of said carrier facing externally of said housing through said aperture, whereby said sensor may yield upon the application of external pressure thereto, and light barrier means coating said sources and photodetector on substantially all surfaces except said active light emitting and receiving surfaces.
Specification