TUCSEN FL9BW 9MP USB3 Cooled Monochrome Camera
Cooled monochrome CMOS digital scientific camera, designed for long exposure imaging with very low noise and very high sensitivity.
Description of the Tuscen FL 9BW camera
Thanks to a high-performance Sony IMX533 BSI CMOS sensor and Tucsen’s expertise in cooling chamber design, it achieves remarkable low-signal imaging performance.
Its ultra-low dark current (< 0.0005 e-/pixel/second) and active cooling to -25°C enable exposures of up to 60 minutes with a very high signal-to-noise ratio.
It also incorporates advanced glow suppression and calibration technologies for precision quantitative analysis.
Features of the Tuscen FL 9BW camera
Sony IMX533CLK-D BSI CMOS sensor, 1″ (15.96 mm) format
Resolution 3000 × 3000 pixels (9 MP)
Pixel size: 3.76 × 3.76 µm
Effective area: 11.28 mm × 11.28 mm
Ultra-low dark current: < 0.0005 e-/p/s
Cooling to -25°C (at 22°C ambient temperature)
Integrated Sony glow suppression technology
Advanced background and dead pixel calibration
Very low read noise: 0.9 e-
High quantum efficiency: 92% peak
Technical specifications of the Tuscen FL 9BW camera
| Caractéristique | Valeur |
|---|---|
| Model | FL 9BW |
| Type of sensor | BSI CMOS |
| Sensor model | Sony IMX533CLK-D |
| Colour / Mono | Monochrome |
| Sensor size (diagonal) | 15.96 mm (1″) |
| Effective area | 11.28 mm × 11.28 mm |
| Pixel size | 3.76 × 3.76 µm |
| Resolution | 3000 × 3000 pixels (9 MP) |
| Cooling | -25 °C to ambient temperature 22 °C |
| Dark current | < 0.0005 e-/p/s |
| Playback noise | 0,9 e- |
| Quantum efficiency | 92% (peak) |
Applications
- Long exposure fluorescence imaging
- Astronomy and deep sky imaging
- Quantitative analysis of weak signals
- Imaging at very low light levels
- Scientific applications requiring very high SNR
Documentation
Brochure
PDF file – 3373.2 ko