Ultra-clear thermal vision, high-definition imaging

The new high-definition thermal imager of Universal Microvision provides the clearest thermal imaging effect on the market with ultra-clear 1280 x 1024 pixel resolution. Our high-definition thermal cameras can clearly capture subtle differences, fine details, and tiny goals.
Main features:
1280 x 1024 resolution provides the highest number of pixels in non-cooling thermal cameras. High-definition thermal images allow operators to easily distinguish even slight temperature differences and details. Key information is clearly visible, not obscured.
• Long-distance detection capability up to 5 km allows you to identify small objects, vehicles and intruders at long distances. Combined with high-definition imaging, you can gain unprecedented visual clarity at longer distances, enhancing situational awareness and decision-making capabilities.
• The 12x continuous zoom feature gives you the flexibility to adjust your field of view without sacrificing clarity or resolution. Zoom in close range to obtain a clear close-up view, while zooming out at a distance to obtain a panoramic viewing angle while maintaining the same number of pixels and high-definition image quality.
• The exact sensitive temperature range is -40°C to 550°C, and objects can be detected even if the temperature changes are small. Numerous structures, machines and processes for temperature variations within this range can be effectively monitored.
• Ergonomic and robust design withstands harsh environmental conditions. The thermal imager operates around the clock (24/7/365) at outdoor temperatures as low as -45 °C to 65 °C without degradation in image quality.
Contact our sales engineers today to learn more about how our HD thermal imaging cameras can help situational awareness, outdoor security, predictive maintenance, and other applications that require the highest quality thermal imaging, precise focus and fine detail with their ultra-clear HD resolution. Custom configurations are available upon request.