Observe the differences of micro organisms under a microscope
Combining the advantages of microscope and imaging spectrometer, hyperspectral data acquisition of microscope images can be readily performed.
Existing biological microscopes, fluorescence microscopes, stereoscopic microscopes and metallographic microscopes can be modified, and common microscopes can be easily converted into hyperspectral microscopes.
Customers can customize the microscope model according to their needs.
FigSpec® series imaging spectrometers have an integrated vision camera and a hyperspectral camera inside. The vision camera can be used to quickly preview the sampled image and confirm that the image meets the requirements before acquiring the hyperspectral image data.
Study on diagnostic method of atlas combined with gastric cancer
Example 2: virtual staining of pathological sections based on hyperspectral technology
Micro hyperspectral image and labeling of melanoma
Micrographs and spectra of giant panda hair (400-1000nm)
| Model | FS-20 | FS-22 | FS-23 |
| Lighting mode | Passive lighting (excluding light source) | ||
| Spectroscopic mode | grating | ||
| Spectral range | 400-1000nm | ||
| Spectral band | 300 | ||
| Spectral FWHM | 2.5nm | ||
| Slit width | 25μm | ||
| Detector original pixels | 1920*1200 | ||
| Sensor target size | 11.3mm*7.1mm | ||
| Imaging speed* | 60s(x1),30s(x2),15s(x4) | 20s(x1),10s(x2),5s(x4) | 48s(x1),24s(x2),12s(x4) |
| Detector | CMOS | ||
| Field angle(FOV)** | 25.4°(f=25mm) | 12.8°(f=50mm) | |
| Instantaneous field angle | 1.0mrad(f=25mm camera lens) | 0.5mrad(f=50mm camera lens) | |
| Scanning range | >30° | >32° | |
| Image resolution | 1920*2400 | 1920*6000 | |
| Camera output bit depth | 12 digits | ||
| ROI | Support single area | Support multiple regions | |
| Interface | GIGE(GigE) | USB3.0 | |
| Focusing mode | Manual focus | Auto focus | |
| Overall size | 263*178*120mm | ||
| Machine weight | Less than 4.5kg | ||
* x1:1920,x2:960,x4:480
** Different focal length lenses can be customized
