Need assistance to find the best hyperspectral camera for your application? Contact me and I will gladly help.
Romero Kicken
+31 85 080 5944 - Option 2
romero@photonmission.com
VNIR-S Hyperspectral Camera (400-1000nm)
- industry proof
- easily integrated
- high speed/resolution
The VNIR-S Hyperspectral Camera by ClydeHSI is a cost-effective, high-performance entry-level camera designed for a wide range of applications. Operating in the 400-1000 nm spectral range, it offers 8 nm spectral resolution and features 2560 spatial pixels and 1024 spectral pixels. The camera supports interfaces such as USB-3, GiGe, and CameraLINK, achieving frame rates up to 420 fps. It is fully compatible with ClydeHSI's hyperspectral scanning solutions and various objective lenses, making it versatile for research, field, and industrial uses.
VNIR-HR Hyperspectral Camera (400-1000nm)
- industry proof
- easily integrated
- high speed/resolution
The VNIR-HR hyperspectral camera by ClydeHSI is a high-resolution imaging device designed for high-speed applications within the 400-1000 nm spectral range. It features a spectral resolution of less than 3 nm and offers up to 2560 spatial pixels and 2048 spectral pixels. The camera is equipped with an integrated shutter, supports multiple interfaces including USB-3 and CameraLINK, and can achieve a frame rate of up to 420 frames per second. It's compatible with various hyperspectral scanning solutions and objective lenses, making it versatile for different imaging needs.
NIR-HR Hyperspectral Camera (900-1700nm)
The NIR-HR Hyperspectral Camera by ClydeHSI is designed for high-speed measurements in the 900-1700 nm spectral range. It offers a spectral resolution of less than 5 nm and spatial resolution with 320 pixels across the track. The camera supports multiple interfaces like USB-3, GiGe, and CameraLINK, and can achieve up to 344 frames per second. Its integrated shutter and compatibility with various scanning solutions and lenses make it ideal for diverse scientific and industrial applications.
NIR-HR+ Hyperspectral Camera (950-1700nm)
The NIR-HR+ Hyperspectral Camera by ClydeHSI offers advanced imaging in the 950-1700 nm range. It features a spectral resolution of <5 nm and doubles the spatial resolution of the NIR-HR model, with 640 spatial pixels and 512 spectral pixels. The camera maintains high-speed data acquisition with a frame rate of 300 fps and supports interfaces such as USB-3, GiGe, and CameraLINK. Ideal for demanding applications, it is compatible with various hyperspectral scanning solutions and lenses.
SWIR-384 Hyperspectral Camera (900-2500nm)
The SWIR-384 Hyperspectral Camera by ClydeHSI offers high-resolution imaging in the 1000-2500 nm range. With ≤12 nm spectral resolution, it features 384 spatial pixels and 288 spectral pixels, achieving up to 450 frames per second. It supports CameraLINK interface, making it ideal for applications requiring extended spectral range and high-speed data acquisition.
Speccer
- ease of use
- fast results
- temperature conditions cannot be simulated
The Speccer is an accessoire that is compatible with all inno-spec hyperspectral cameras. This neat tool, will jumpstart your hyperspectral imaging work by simulating an industrial conveyer belt. With this tool you can simulate different light conditions and measurement speeds to create your chemometric models in a laboratory environment.
Official partner of ClydeHSI
Clyde HSI is on a mission to provide each and every one of their clients with a complete, end-to-end hyperspectral imaging solution. Each solution is designed and rigorously tested to ensure robust, reliable, accurate and repeatable hyperspectral imaging measurements across a range of academic and industrial applications. We believe that their high quality engineering and design, allows them to develop market leading products and services. Within our Photonics Research Facility, they have the capability to rapidly develop new products and systems, and welcome the opportunity to partner with our customers on new developments - both within the scientific research community and for equipment for industrial applications.