SD VOx, 95/275mm, 18km
Infiniti’s thermal cameras let you see further than any other night vision technology. Thermal cameras, unlike traditional visible cameras, use heat rather than light to see an object. Humans, animals, and vehicles are very hot in contrast to most backgrounds making trespassers hiding in shadows or bushes easy to spot. Thermal images are also unaffected by bright light and have the ability to see through atmospheric obstructions such as smoke, dust, and light fog. This makes it an ideal technology for a number of applications, including but not limited to surveillance and security, search and rescue, fire, marine and land navigation, and wide area situational assessment.
This is a Long-Wave Infrared (LWIR) camera which means it operates on 7,000nm–14,000nm wavelengths where terrestrial temperature targets emit most of their infrared energy. Using the built-in Dynamic Image Contrast Enhancement (DICE) for increased contrast and image clarity, this system is capable of detecting vehicles up to 16km away.* While thermal is a significant investment, its superior range and performance allows it to replace and outperform other solutions, making it a viable option for many applications.
Rated for 7km human detection and 18km vehicle detection.
*Please read our DRI Whitepaper to properly understand what “detection” means in thermal camera ratings.
LWIR Uncooled VOx Thermal Imager
Our GEN II VOx 17μm uncooled sensor has a resolution of either 320×240 or 640×480 and a sensitivity able to detect differences in temperature as small as ±0.05°C. The sensor’s no-maintenance VOx design, unlike ASI and other thermal cores, is self healing and resistant to solar damage.
Dual-FOV Germainum Lens
We pair the uncooled VOx core with a precision-engineered ƒ1.3 germanium lens with a dual-FOV design allowing you to view targets at either 95mm or 275mm. This allows for long-range detection of thermal targets by switching between a 6.5° and 2.3° field of view. These lenses also feature auto focus capabilities, delivering crisp, clear images even when changing inbetween FOVs, ensuring optimal performance and situational awareness in the wide field of view and crisp details in the narrow field of view.