Description
The MIC IP Starlight 7100i Camera is a cutting-edge PTZ surveillance solution designed for mission-critical security applications. Incorporating starlight imaging technology and exceptional low-light sensitivity, it addresses the demands for robust, high-quality image capture. Its ruggedized construction meets industry standards for challenging environments, outperforming conventional IP cameras with superior resilience in harsh conditions such as extreme weather and heavy shock or vibration.
Ideal for various sectors, the camera serves:
– Transportation: highways, bridges, tunnels, and ports
– Critical infrastructure: power generation, transmission, refineries, pipelines, and mining operations
– High-security settings: government facilities and data centers
– Mission-critical environments necessitating high-resolution imaging
– Complex scenes with intricate details in diverse lighting conditions
– Installations where minimizing downtime is crucial due to high service costs
**Key Features**
**Exceptional Low-light Performance**
Equipped with the latest sensor technology and advanced noise suppression, the camera offers remarkable color sensitivity under minimal lighting, consistently delivering superior color performance.
**High Dynamic Range**
Featuring an impressive dynamic range, the camera excels in real-world conditions. In extended dynamic range mode, it uses an electronic shutter to capture multiple exposures, creating high-contrast frames with clear details in both bright and shadowed areas. This feature enables distinct identification of objects and features, even with intense backlighting.
**Ruggedized Design for Extreme Applications**
Engineered for durability in demanding surveillance settings, the entire metal body of the camera is anodized to resist high-impact, low-frequency vibrations. It complies with the IK10 rating for impact resistance and meets IEC 60068 standards for vibration and shock. The closed-loop positioning system ensures the camera maintains its position through constant vibration or after significant shock, eliminating the need for recalibration.
