[Detector Tech
Specs] [Spectrometer System] [Determination
Spectral Resolution] [Emission Spectra] [Holmium
Perchlorate] [Lithium Carbonate Spectra] [Deuterium
Spectra] [White Light Spectra]
Detector Technical Specifications
| File
|
Description
|
ILX511.pdf |
Sony ILX511 CCD
detector 2048 pixels 14um wide by 200um tall |
TCD1201D.pdf |
Toshiba TCD1201D
PDA detector 2048 pixels 14um wide by 200um tall |
InGaAs512.pdf |
InGaAs Linear Photodiode Array
- cooled PDA detector 512 pixels 25um x 500um tall
- range 0.9-1.7um |
InGaAs1024.pdf |
InGaAs Linear Photodiode Array
- cooled PDA detector 1024 pixels 25um x 500um tall
- range 0.9-1.7um |
|
NIRX-InGaAs.pdf |
InGaAs Linear Photodiode Array
- cooled PDA detector 512 & 1024
pixels 25um x 250um tall
- extended range 0.9-2.2um |
Spectrometer System -
General Characteristics
| Optical input: |
SMA 905 connector for
single strand optical fiber or probe attachment.
|
| Sensitivity: |
Dependant on detector ILX511~80
TCD2101~200 S7011~10 photons per count.
|
| Signal2Noise: |
with CCD <=1000:1 with
PDA<=2000:1 with InGaAs <3500:1
|
| Stray Light: |
for
BLUE/GREEN-Wave < 0.1%@435nm; for
BLACK-Comet <0.02%@435nm < 0.2%@220nm
|
| Linear Range: |
0-2.1 absorbance units (< 0.5%)
|
| Exposures: |
Standard electronics =
4ms-60 seconds,
LT-12= 2ms-60 sec, LT-14 = 1ms-60 sec
|
| Resolution: |
Depends on
Model + slit selection (0.1nm-10nm); for BLACK-Comet < 0.75nm
|
| Accuracy: |
Wavelength < 0.25nm
|
| Repeatability: |
Wavelength < 0.05nm
|
| Stability: |
Wavelength < 0.001nm per Deg C
|
| Compensation: |
StellarNet temperature
compensation for detector count stabilization is software selectable.
RED-Wave-NIR-InGaAs spectrometers have a Thermo Electrically Cooled (TEC) detectors.
|
Determination of Spectral Resolution
Resolving-power
Resolution (RR)
When closely spaced
line emission peaks can be resolved (such as the 577+579nm Mercury doublet)
and are clearly separated at Half the Max peak height (HM), the distance
between the peak and where its slope intersects the HM is the resolving
resolution in nanometer(s). StellarNet estimates spectrometer resolution
using RR. In a spectrograph with a perfectly imaged detector array, RR
will be the nm/pixel dispersion. Larger slits decrease resolution as the
image spreads to adjacent detector pixels.
Line-width Resolution (LR)
When a single peak is measured at its Full Width Half Max (FWHM), the
difference where the slopes intersect the HM is the Line-width resolution in
nanometer(s). Conversion from LR to RR use: LR ~= 2 * RR.
Emission Spectra - HgAr gas and
Laser/LEDs
 |
StellarNet UV Spectrometer, range 200 -
600nm, with 10um slit installed and 1200 g/mm holographic grating with
0.4 nm resolution. Optics available in either
BLUE-Wave advanced miniature or GREEN-Wave low cost
portable
spectrometer platforms. |
 |
StellarNet UV spectrometer zoomed to
clearly show mercury doublet at 576.9 and 579.0 nm. The amount area
returning to the base line between the adjacent peaks is a good indicator of
the instruments resolution. |
 |
StellarNet
BLACK-Comet UV+VIS spectrometer, range
190 - 850nm, with 25um slit installed
and 590 g/mm concave aberration corrected holographic
grating with 0.7 nm resolution. With NO mirrors the unit has minimal
stray light, less components and superb image quality. |
 |
StellarNet
VIS
spectrometer, range 350 - 1150nm, with 25um slit installed and 600g/mm
holographic grating with 2.5 nm resolution.
Optics
available in either
BLUE-Wave advanced
miniature or GREEN-Wave low cost portable
spectrometer
platforms. |
 |
StellarNet model NIR3 spectrometer,
range 550 - 840nm, with 25um slit installed and 1800g/mm holographic grating
with 0.3nm resolution. Optics available in either
BLUE-Wave advanced miniature or GREEN-Wave low cost
portable
spectrometers. |
 |
StellarNet model NIR3 spectrometer
zoomed to clearly show mercury doublet at 576.9 and 579.0nm. The
amount area returning to the base line between the adjacent peaks is a
good indicator of the instruments resolution. |
Absorbance Spectra - Holmium Perchlorate
 |
StellarNet
BLACK-Comet UV+VIS spectrometer, range
190-850nm, with 25um slit installed
and 590 g/mm concave aberration corrected holographic
grating with 0.7 nm resolution. With NO mirrors the unit has low stray
light, less components and superb image quality. |
Absorbance Spectra - Lithium Carbonate
 |
StellarNet
BLACK-Comet UV+VIS spectrometer, range 200 - 850nm, with 25um slit installed
and 590 g/mm concave aberration corrected holographic
grating with 0.7 nm resolution. With NO mirrors the unit has low stray
light, less components and superb image quality. |
Deuterium Spectra from SL3 Fiber Optic Lamp
 |
StellarNet
BLACK-Comet UV+VIS
spectrometer, range 200 - 850nm, with 25um slit installed attached via
F400-UV fiber optic cable to the StellarNet SL3 Deuterium Lamp. |
White Light Spectra from SL1-CAL Lamp
 |
StellarNet
BLACK-Comet UV+VIS
SpectroRadiometer with NIST traceable irradiance calibration for 300 -
850nm, with 200um slit providing 6nm resolution. An F400-UV-VIS fiber
optic cable attachment with CR1 cosine receptor is measuring the SL1-CAL
(irradiance calibration) lamps blackbody curve. The lamp is a white
light (tungsten + krypton gas) with 2800 Kelvin CCT. |
Deuterium & Halogen Spectra from SL1-Filter
plus SL3 coupled by F400YB fiber
 |
StellarNet EPP2000-UVN-SR
SpectroRadiometer with NIST traceable irradiance calibration for
200 -
1100nm, with 50um slit providing
2nm resolution. An F600-UV-VIS
fiber optic cable attachment with CR2 cosine
receptor is measuring the combined lamp
output at the F400YB fiber optic bundle. The resulting blackbody curve
for UV + VIS + NIR is shown. The F400YB cable can be attached to
reflectance probes and transmission fixtures for a variety of spectroscopy
measurements requiring high power (21 watt per sq meter) references.
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