Symmetric LED array for pulse oximetry
First Claim
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1. A sensor for pulse oximeter systems comprising:
- a first source of electromagnetic radiation configured to emit electromagnetic radiation at approximately a first center wavelength;
a second source of electromagnetic radiation configured to emit electromagnetic radiation at approximately a second center wavelength, different from the first center wavelength;
a third source of electromagnetic radiation configured to emit electromagnetic radiation at approximately a third center wavelength, different from the first and second center wavelengths, wherein the first center wavelength being less than a desired aggregate center wavelength, the third center wavelength being greater than the desired aggregate center wavelength, and the emission spectra of the first and third sources of electromagnetic radiation overlap at a half power level or greater of their respective emission maxima, the addition of the spectra causing a peak generally corresponding to the desired aggregate center wavelength; and
a photodetector configured to receive electromagnetic radiation from blood-perfused tissue irradiated by the first, second and third sources of electromagnetic radiation.
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Abstract
There is provided a sensor for pulse oximeter systems. The sensor comprises a first source of electromagnetic radiation configured to operate at a first wavelength, a second source of electromagnetic radiation configured to operate at a second wavelength, and a third source of electromagnetic radiation configured to operate at a third wavelength. The emission spectra of the first and third sources of electromagnetic radiation overlap at their half power level or greater and correspond to a center wavelength in the range of 650 to 670 nm.
946 Citations
20 Claims
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1. A sensor for pulse oximeter systems comprising:
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a first source of electromagnetic radiation configured to emit electromagnetic radiation at approximately a first center wavelength; a second source of electromagnetic radiation configured to emit electromagnetic radiation at approximately a second center wavelength, different from the first center wavelength; a third source of electromagnetic radiation configured to emit electromagnetic radiation at approximately a third center wavelength, different from the first and second center wavelengths, wherein the first center wavelength being less than a desired aggregate center wavelength, the third center wavelength being greater than the desired aggregate center wavelength, and the emission spectra of the first and third sources of electromagnetic radiation overlap at a half power level or greater of their respective emission maxima, the addition of the spectra causing a peak generally corresponding to the desired aggregate center wavelength; and a photodetector configured to receive electromagnetic radiation from blood-perfused tissue irradiated by the first, second and third sources of electromagnetic radiation. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A system for determining physiological parameters comprising:
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a sensor comprising; a first light emitting diode (LED) configured to emit radiation in the red region of the electromagnetic spectrum, the first LED having a first peak emission at less than a desired aggregate center wavelength; a second LED configured to operate in the infrared or near-infrared region of the electromagnetic spectrum; a third LED configured to operate in the red region of the electromagnetic spectrum, the third LED having a second peak emission at greater than the desired aggregate center wavelength wherein the first and second peak emissions are generally symmetrically disposed about the desired aggregate center wavelength; and a photodetector configured to generate a signal corresponding to received electromagnetic radiation from blood-perfused tissue irradiated by the first, second and third LEDs; and a pulse oximeter configured to compute physiological parameters based on the signal generated by the photodetector. - View Dependent Claims (15, 16, 17, 18, 19)
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20. A method for determining physiological parameters using a pulse oximeter comprising:
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transmitting electromagnetic radiation from a first light emitting diode (LED), a second LED and a third LED, wherein the first and third LEDs operate concurrently, the first LED is configured to emit electromagnetic radiation at a first center wavelength, the second LED is configured to emit electromagnetic radiation at a second center wavelength, different from the first center wavelength, the third LED is configured to emit electromagnetic radiation at a third center wavelength, different from the first and second center wavelengths, the first center wavelength is less than a desired aggregate center wavelength, the third center wavelength is greater than the desired aggregate center wavelength, and the emission spectra of the first and third LEDs overlap at greater than or equal to a half power level of their respective emission spectra causing a peak corresponding to the desired aggregate center wavelength; generating a photoelectrical signal corresponding to the electromagnetic radiation from the first, second and third LEDs; and computing physiological parameters based on the photoelectrical signal.
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Specification