Temperature dependence of led and its theoretical effect on pulse oximetry

K. J. Reynolds; J. P. De Kock; L. Tarassenko; J. T.B. Moyle

doi:10.1093/bja/67.5.638

Temperature dependence of led and its theoretical effect on pulse oximetry

K. J. Reynolds, J. P. De Kock, L. Tarassenko, J. T.B. Moyle

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

Ambient temperature is known to affect the emission spectrum of a fight-emitting diode (LED). This study has investigated the effect of changes in ambient temperature on the emission spectra of two LED with peak emission wavelengths similar to those used in pulse oximetry. There was a 5.5-nm increase in the peak wavelength for a 660-nm LED, and a 7.8-nm increase in the peak wavelength for a 950-nm LED as temperature increased from 0 to 50 °C. Using a simple theoretical model based on the Beer-Lambert law, the effect of these shifts in wavelength on pulse oximeter accuracy was examined and found to be negligible over the temperature range studied.

Original language	English
Pages (from-to)	638-643
Number of pages	6
Journal	British Journal of Anaesthesia
Volume	67
Issue number	5
DOIs	https://doi.org/10.1093/bja/67.5.638
Publication status	Published - Nov 1991
Externally published	Yes

Keywords

Equipment: pulse oximeters
Monitoring: pulse oximeters

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abstract = "Ambient temperature is known to affect the emission spectrum of a fight-emitting diode (LED). This study has investigated the effect of changes in ambient temperature on the emission spectra of two LED with peak emission wavelengths similar to those used in pulse oximetry. There was a 5.5-nm increase in the peak wavelength for a 660-nm LED, and a 7.8-nm increase in the peak wavelength for a 950-nm LED as temperature increased from 0 to 50 °C. Using a simple theoretical model based on the Beer-Lambert law, the effect of these shifts in wavelength on pulse oximeter accuracy was examined and found to be negligible over the temperature range studied.",

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AU - Reynolds, K. J.

AU - De Kock, J. P.

AU - Tarassenko, L.

AU - Moyle, J. T.B.

PY - 1991/11

Y1 - 1991/11

N2 - Ambient temperature is known to affect the emission spectrum of a fight-emitting diode (LED). This study has investigated the effect of changes in ambient temperature on the emission spectra of two LED with peak emission wavelengths similar to those used in pulse oximetry. There was a 5.5-nm increase in the peak wavelength for a 660-nm LED, and a 7.8-nm increase in the peak wavelength for a 950-nm LED as temperature increased from 0 to 50 °C. Using a simple theoretical model based on the Beer-Lambert law, the effect of these shifts in wavelength on pulse oximeter accuracy was examined and found to be negligible over the temperature range studied.

AB - Ambient temperature is known to affect the emission spectrum of a fight-emitting diode (LED). This study has investigated the effect of changes in ambient temperature on the emission spectra of two LED with peak emission wavelengths similar to those used in pulse oximetry. There was a 5.5-nm increase in the peak wavelength for a 660-nm LED, and a 7.8-nm increase in the peak wavelength for a 950-nm LED as temperature increased from 0 to 50 °C. Using a simple theoretical model based on the Beer-Lambert law, the effect of these shifts in wavelength on pulse oximeter accuracy was examined and found to be negligible over the temperature range studied.

KW - Equipment: pulse oximeters

KW - Monitoring: pulse oximeters

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JO - British Journal of Anaesthesia

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Temperature dependence of led and its theoretical effect on pulse oximetry

Abstract

Keywords

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