
Skade
T2SL Skade is a 1280x1024, 7.5 µm pixel pitch SWaP MWIR detector. Its world-leading T2SL technology enables a compact form factor and low power consumption in both rotary and split linear cooler configurations.


Description
The Skade is a 1280 × 1024, 7.5 µm pitch T2SL detector designed for demanding MWIR applications. Our groundbreaking T2SL technology combines high resolution, high quantum efficiency across the full 3–5 µm spectral range, low NETD, exceptional array uniformity and operability, all within an outstanding SWaP (Size, Weight and Power) footprint.
Applications
Long range security & surveillance
Space constrained systems (UAV gimbals, compact multisensor systems)
High performance ISR and targeting airborne gimbals
Handheld and battery powered systems (goggles, portable cameras)
Mobile and stationary platforms
General information
Application:
General purpose
Format:
1280x1024
Technology:
T2SL
Pixel pitch:
7.5 µm
Typical detector
performance
Spectral range:
3.7-5.1 µm
CO2 notch filter optional
F number options:
F/2, F/3, F/4
NETD:
30 mK @F/3, 60 Hz
Pixel operability:
99.9 %
MTF at Nyquist:
60 %
Proximity electronics
Supply voltage:
5 V
Maximum frame rate:
60 Hz
120 Hz optional
Electrical interfaces:
Camera Link
Cooler control and poximity elecronics included
IDDCA Parameters
Cooler options:
RMs1, K580, K588, SX020
Power consumption:
2 W
Without proximity electronics
Cool down time:
4 min
Cooler voltage:
12 V
Weight and dimensions:
260 g (RMs1) 350 g (K588)
97x58x55 mm (RMs1) 87x72x58 mm (K588)
Cooler MTTF:
12 500 h (RMs1), 30 000 h (K588)
Environmental conditions:
MIL-STD-810
Downloads
Product leaflet
T2SL
Skade
EvalKit
Building something new? Our evaluation kits have everything you need to try our detectors and design your camera system. They’re modular and include a power supply, frame-grabbing electronics, image acquisition software and optics.
Plug in and get going in minutes!
Technical characteristics described above are not contractual and may change without prior notice. This is revision 1.0.