
Multispectral SWIR camera 365-1700nm
- technology: electro-optical tunable filter
- 365 – 1700 nm
- spectral bands: 6 VNIR + 6 SWIR; possibility of spectral maps
- spatial resolution: 6.4 MP (Si, CMOS) + 0.3 MP (InGaAs)
ISC-MUSES9-MS is an all in one, dual sensor multispectral camera (or hyperspectral camera depending on the speaker) operating in the 365-1700nm spectral range. It effectively addresses the demand for an integrated, low cost, volume and weight, polyspectral imagers in the UV-VIS-NIR-SWIR.
MUSES9-MS-1700 spectral imaging system can be configured to operate with either one sensor made of silicon (UV-Vis-NIR: 365-1000 nm) or InGaAs (SWIR: 1000-1700 nm) or with both sensors to cover the entire spectral range 365-1700nm. The camera integrates a spectral band electro-optical tuning mechanism for selecting or for fully automatic scanning of up to 6+6 = 12 spectral bands. The camera comes with standard and configurable versions. All images captured in this ultrawide spectral range are sharply focused via an internal autofocusing mechanism.
Advantages of electro-optical tunable filter technology in hyperspectral cameras:
- full use of the spectral range of the CMOS (Si) or InGaAs sensor in UVA - VIS - NIR – SWIR (unlike Fabry-Perot filter technology, or certain push-broom technologies)
- use of lenses with F thread (F-mount) so as not to compromise neither the field of view nor the focusing distance (unlike hyperspectral imagers by F-P filter or interferometry + Fourier transform among other technologies)
- polarization independent, allowing a high filter light throughput. It transmits 94% of the incoming light at any given active spectral band, while, at the same time, rejecting all the out-of-band wavelengths with an incredible blocking efficiency exciding 4 OD (T=0.00001%).
- can effectively accommodate both static and moving scenes
Click here to learn more about our electro-optical filter technology versus Fabry-Perot filter technology..
Additional advantages of the ISC-Muses9-MS hyperspectral camera:
- powerful camera control and spectral image and hypercube processing software at no extra cost
- optional spectral maps: represent with a color (fake, not real) all pixels of the same spectral class (similar spectral characteristics).
- configurable with one or two sensors for standard or ultrawide wavelength range: 365-1000, 1000-1700 or 365-1700 nm
- built upon a modular design, allowing for the customization of both spectral range and spectral band number and options.
ISC-Muses9-MS1700 Hyperspectral Imager Specifications:
|
ISC-Muses9-MS1700 |
Notes |
Technology |
EO filter |
|
Wl range |
365-1700 |
|
Spectral bands |
6 (Si) + 6 (InGaAs) |
|
Spectral maps |
Optional |
|
Spatial resolution/band |
6.4 + 0.3 MP |
Si-CMOS: 3096 x 2080 px; InGaAs: 640 x 512 (HxV) |
Light throughput |
94% (pol. Indep.) |
|
Spectral cube scanning time |
~10 s |
exposure limited |
Spectral image inspection |
Video rate spectral imaging |
at any selected wavelength |
Imaging modes |
Transmission, fluorescence, reflection |
|
Nr. spectra per spectral cube |
328000 |
|
Mechanical scanning |
Not required |
|
Camera thread - lens type |
F-mount |
Freedom in lens selection / focal length |
Dynamic range |
12-bit |
|
Interface |
USB3.0 |
|
Calibration |
Automatic |
In all imaging modes |
Weight |
1850 g |
|
Control + processing software |
Incl. |
|
Here is a comparison of our various polyspectral cameras:
Technology |
EO filter |
EO filter |
Snapshot |
Snapshot |
Wl range |
370-1000 |
365-1700 |
370-1000 |
400-1000 |
Spectral bands |
126 / 315 |
6 (Si) + 6 (InGaAs) |
10 / 22 |
22 |
Spectral maps |
optional |
optional |
0 / 2 |
optional |
Spatial resolution/band |
6.4 MP |
6.4 + 0.3 MP |
6.4 MP |
6.4 MP |
Light throughput |
94% (pol. Indep.) |
94% (pol. Indep.) |
90% (pol. Indep.) |
96% (pol. Indep.) |
Thread - lens type |
C-mount |
F-mount |
C-mount |
C-mount |
Interface |
USB3.0 |
USB3.0 |
USB3.0 |
USB3.1 |
Weight |
2100 g |
1850 g |
480 g |
310 g |
Control + process sw |
Incl. |
Incl. |
Incl. |
Incl. |
Opt 1000-1700 nm |
handheld configurable |
(drone model) |
And their fields of action - preferred applications for multispectral-hyperspectral imagers:
nm |
370-1000 |
365-1700 |
370-1000 |
400-1000 |
400-1000 |
Drones / RPAS / UAVs |
|
|
|
|
x |
Handheld |
|
|
|
x |
|
In-line applications |
|
|
x |
|
|
Machine (artificial) vision |
|
|
x |
|
|
General lab use, R&D |
x |
x |
|
|
|
High sensitivity / low light |
x |
x |
x |
x |
x |
Forensics |
x |
x |
x |
|
|
Vegetation, agricultura (NDVI-VI) |
x |
|
|
x |
x |
Microscopy - fluorescence imaging |
x |
|
|
|
|
Solar photovoltaic - perovskite |
x |
|
|
|
|
Biology, biomedicine, pharma |
x |
x |
|
|
|
Mining, geology |
x |
|
|
|
x |
Recycling, sorting |
|
|
x |
|
|
Art |
x |
x |
|
x |
x |
(*) Configured as handheld
These multispectral and hyperspectral systems are not perfect, but they are among the best, and at PCL we are very pleased to be the distributors in Spain of the polyspectral technology expert Spectricon.
More information: ventas@procarelight.com / +34 605 024 420
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