leds.mspct: Spectral irradiance for diverse LEDs
In photobiologyLEDs: Spectral Data for Light-Emitting-Diodes
leds.mspct R Documentation
Spectral irradiance for diverse LEDs
Description
A collection of emission spectra of light-emitting-diodes
from different suppliers.
Usage
leds.mspct
Format
A "source_mspct" object containing 74
"source_spct" objects.
In each of the member spectra, the variables are as follows:
w.length (nm)
s.e.irrad (W m-2 nm-1)
Details
The "leds.mspct" object contains "source_spct" objects
with spectral irradiance data. As the exact distance from LED to cosine
diffuser and/or the the driving current vary among spectra, they have been
all normalized to the wavelength of maximum spectral energy irradiance.
When the details of the measurement conditions are know, these are stored
as metadata attributes. In any case, it needs to be taken into account than even
in these cases measurements have not been done in an optical bench, so
values of spectral irradiance are subject to errors due to possible
misalignment. The shape of the spectra, in contrast can be relied upon as
measurements were done with well calibrated instruments.
The output of LEDs at a given current decreases as their temperature
increases. The wavelength at the peak of emission can depend on the
temperature and current, but shifts tend to be only a couple of nanometres.
In LED arrays with heterogeneous LED chips or white LEDs based on secondary
emission from phosphor the shave of the spectrum can slightly change
depending on the drive current and temperature.
There is variation among LEDs of the same type, specially with respect
wavelength and light output. The data included are for individual LEDs and
can be expected to differ to some extent from the typical values in the
manufacturers specifications. Some of the LEDs for which data are included
are only of historical interest as their production has been discontinued,
usually replaced by new types with enhanced performance. When known, the
approximate "vintage" is provided in the metadata.
The spectral data are not expressed at constant wavelength intervals. Not
only the intervals vary in the raw data from the array spectrometer, but in
addition function thin_wl has been applied to
reduce the storage space needed. In brief the wavelength interval has been
increased as much as possible in those regions of the spectrum that lack
detailed features (such as linear slopes and wavelength regions with zero
light emission).
Note
Please see the help page for led_brands for LED
suppliers' contact information.
Please see the metadata in each spectrum for other information.
These metadata are
stored as attributes of the individual source_spct objects and can
accessed with functions
comment,
getWhatMeasured,
getWhenMeasured and
getHowMeasured.
Some of the spectra also contain
information on the measurement accessible with
getInstrDesc and
getInstrSettings.
See also the comment attribute of the leds.mspct
object.
See Also
oo_maya_leds
Examples
library(photobiology)
names(leds.mspct)
leds.mspct$Nichia_NS6L183AT_H1_sw
cat(getWhatMeasured(leds.mspct$Nichia_NS6L183AT_H1_sw))
peaks(leds.mspct$Nichia_NS6L183AT_H1_sw, span = 100)
wl_range(leds.mspct$Nichia_NS6L183AT_H1_sw)
wl_stepsize(leds.mspct$Nichia_NS6L183AT_H1_sw)
intersect(LedEngin_leds, blue_leds)
leds.mspct[intersect(LedEngin_leds, blue_leds)]
photobiologyLEDs documentation built on Nov. 2, 2023, 6:27 p.m.
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| leds.mspct | R Documentation |
Spectral irradiance for diverse LEDs
Description
A collection of emission spectra of light-emitting-diodes from different suppliers.
Usage
leds.mspct
Format
A "source_mspct" object containing 74
"source_spct" objects.
In each of the member spectra, the variables are as follows:
w.length (nm)
s.e.irrad (W m-2 nm-1)
Details
The "leds.mspct" object contains "source_spct" objects
with spectral irradiance data. As the exact distance from LED to cosine
diffuser and/or the the driving current vary among spectra, they have been
all normalized to the wavelength of maximum spectral energy irradiance.
When the details of the measurement conditions are know, these are stored
as metadata attributes. In any case, it needs to be taken into account than even
in these cases measurements have not been done in an optical bench, so
values of spectral irradiance are subject to errors due to possible
misalignment. The shape of the spectra, in contrast can be relied upon as
measurements were done with well calibrated instruments.
The output of LEDs at a given current decreases as their temperature increases. The wavelength at the peak of emission can depend on the temperature and current, but shifts tend to be only a couple of nanometres. In LED arrays with heterogeneous LED chips or white LEDs based on secondary emission from phosphor the shave of the spectrum can slightly change depending on the drive current and temperature.
There is variation among LEDs of the same type, specially with respect wavelength and light output. The data included are for individual LEDs and can be expected to differ to some extent from the typical values in the manufacturers specifications. Some of the LEDs for which data are included are only of historical interest as their production has been discontinued, usually replaced by new types with enhanced performance. When known, the approximate "vintage" is provided in the metadata.
The spectral data are not expressed at constant wavelength intervals. Not
only the intervals vary in the raw data from the array spectrometer, but in
addition function thin_wl has been applied to
reduce the storage space needed. In brief the wavelength interval has been
increased as much as possible in those regions of the spectrum that lack
detailed features (such as linear slopes and wavelength regions with zero
light emission).
Note
Please see the help page for led_brands for LED
suppliers' contact information.
Please see the metadata in each spectrum for other information.
These metadata are
stored as attributes of the individual source_spct objects and can
accessed with functions
comment,
getWhatMeasured,
getWhenMeasured and
getHowMeasured.
Some of the spectra also contain
information on the measurement accessible with
getInstrDesc and
getInstrSettings.
See also the comment attribute of the leds.mspct
object.
See Also
oo_maya_leds
Examples
library(photobiology)
names(leds.mspct)
leds.mspct$Nichia_NS6L183AT_H1_sw
cat(getWhatMeasured(leds.mspct$Nichia_NS6L183AT_H1_sw))
peaks(leds.mspct$Nichia_NS6L183AT_H1_sw, span = 100)
wl_range(leds.mspct$Nichia_NS6L183AT_H1_sw)
wl_stepsize(leds.mspct$Nichia_NS6L183AT_H1_sw)
intersect(LedEngin_leds, blue_leds)
leds.mspct[intersect(LedEngin_leds, blue_leds)]
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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