By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
Infrared radiation is used by thermographic cameras to produce images, much like visible light is used by regular cameras to produce images. Infrared cameras are sensitive to wavelengths from roughly 1,000 nm to roughly 14,000 nm, as opposed to the visible light camera’s 400-700 nanometer range.
An instance of a thermographic camera used in firefighting is a thermal imaging camera, also referred to as a TIC. Firefighters can view hot spots through smoke, darkness, or heat-permeable barriers thanks to cameras that convert infrared radiation into visible light.
The Brazil Thermal camera market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Launch of the SLX-SuperHawk thermal imaging camera by Leonardo For the first time, the SLX-SuperHawk camera, which is intended to survive four times as long as cameras of a similar price without service, is on display at DSEI in London. When operational conditions demand prompt, informed judgements, a crisp image is crucial.
In complete darkness, SLX-Superhawk generates HD photos with a resolution of 1280×1024. For the British Army and Italy’s Forza NEC battlefield digitization effort, Leonardo has already delivered high-resolution night vision and vehicle situational awareness cameras, offering the best vision for today’s 24/7, all-weather battlefield.
The SLX-SuperHawk, the newest Infra-Red (IR) camera from Leonardo, will make its public debut at the DSEI expo in London, UK, from 10 to 13 September. The SLX-SuperHawk utilises the SuperHawk detector from the firm, which consists of more than a million distinct infrared pixels that are each less than 1/12th the thickness of a human hair.
The camera is extremely capable of addressing long-range surveillance and targeting needs in difficult conditions thanks to this sophisticated detector and the built-in picture processing.
The engine life of the SLX-SuperHawk is 40,000 hours, which is four times longer than the typical medium-wave infrared thermal imaging camera. By lowering the need for routine maintenance and replacement parts, significantly extended engine life offers the user an alluring total cost of ownership.
The camera can take High Definition (HD) photos with a resolution of 1280×1024 in complete darkness by detecting temperature variations as small as 1/50th of a degree. When faced with operational scenarios that demand hasty judgements, it’s critical to develop a clearer picture.