Description
Capture Detail & Area
The 31.7mm Diagonal combined with a small 3.2 micron pixels helps instrument builders looking to Niquest match their optics whilst reducing the number of images needed. The overall impact is a reduction in imaging cycle time which delivering your results faster.
Global Shutter Advantage
The LEO 3249 has been designed for large format, high spatial resolution imaging where throughput is essential. By delivering larger sample coverage in combination with a global shutter design the LEO 3249 can reduce cycle times in complex multiplexed experiments.
High Speed
The LEO series breaks the speed-to-data limits of sCMOS. In the case of the 3249 delivering 49 Million pixels at a staggering 71 fps. Combined with the physical area this speed delivers the ultimate solution for those seeking to maximise their instruments throughput.
Specification
- Product Model:Leo 3249
- Sensor Model:GMAX 3249
- Sensor Type:sCMOS (Global Shutter)
- Shutter Type:Global Shutter
- Pixel Size:3.2 μm ×3.2 μm
- Peak QE:65%
- Chrome:Color & Mono
- Array Diagonal:31.7 mm ( APS-H )
- Effective Area:22.4 mm x 22.4 mm
- Resolution:7000 x 7000
- Full Well Capacity (12 bit):11ke- @ PGA × 0.75; 2 ke- @ PGA × 6
- Full Well Capacity (10 bit):10.6 ke- @ PGA ×0.75; 9.8 ke- @ PGA ×1.25
- Frame Rate:71 fps @ 10 bit;31 fps @ 12 bit
- Read out Noise (12 bit):7.7 e- @ PGA × 0.75; 5e- @ PGA ×1.25; 1.9e- @ PGA × 6
- Read out Noise (10 bit):11.8 e- @ PGA ×0.75; 7.5e- @ PGA ×1.25
- Cooling Method:Air / Liquid / Passive (no fan) Cooling
- Interface:100G GigE
- Dark Current:<3 e-/ p / s @ 25 ℃
- Data Bit Depth:10 bit , 12 bit
- Power Consumption:2.2 W @ 10 bit; 2 W @12 bit
- Optical Interface:Customer Specified
- Dimensions:Compact Design
- Weight:< 1kg