Source:Shenzhen Kai Mo Rui Electronic Technology Co. LTD2026-07-09
With the rapid advancement of technology and continuous emergence of sophisticated equipment, the FCB-EV9520L has stood out across a wide range of industries by virtue of its exclusive performance and functional strengths.

I. Product Specifications
1. Image Sensor
The FCB-EV9520L adopts a 1/2.8-type STARVIS™ 2 CMOS sensor with approximately 2.13 million effective pixels. Its exceptional light-sensing capability lays a solid foundation for premium image quality.
In terms of output resolution, it supports multiple formats including 1920×1080 and 1280×720 to satisfy definition demands for diverse scenarios. It is compatible with abundant video signal standards such as 1080p/60 and 1080p/50, enabling flexible integration with various display and storage devices.
2. Lens & Zoom Performance
The integrated lens features a focal length ranging from 4.3 mm to 129 mm with an aperture of F1.6–F4.7. This optical design delivers excellent light intake under diverse ambient conditions for stable high-quality footage.Equipped with 30x optical zoom, it clearly captures distant targets; paired with 12x digital zoom, the unit delivers powerful overall magnification. It effortlessly captures panoramic wide scenes as well as detailed close-up shots of tiny subjects.
3. Additional Technical Parameters
Camera control is implemented via the VISCA protocol (3.3V CMOS logic level, 5.5V tolerance), with selectable baud rates including 9.6 kbps and 19.2 kbps, and 1 stop bit.Synchronization mode: Internal sync.Power supply: 7 V ~ 12 V DC.Dimensions: 50 × 60 × 89.7 mm; weight: approx. 239 g. Its compact and lightweight form factor facilitates easy installation and system integration.
II. Core Product Features
1. Ultra-High Sensitivity & Low-Light Imaging
Powered by the cutting-edge STARVIS™ 2 CMOS sensor, the module achieves extraordinary photosensitivity and outputs color images even under extremely dim lighting.Conventional cameras often suffer degraded image quality or only produce monochrome video at night or in low-light environments. The FCB-EV9520L breaks this limitation: it renders clear scene details even under faint starlight, delivering reliable visual data for applications with strict ambient light requirements.
2. High Definition & Superior Zoom Capability
Whether zooming in on faraway targets or magnifying miniature objects, the FCB-EV9520L consistently preserves sharp image clarity.For targeted monitoring of designated areas, its precise zoom positioning quickly locks onto subjects with crisp details, drastically improving the efficiency and accuracy of information acquisition.
III. Application Scenarios
1. Industrial Inspection Sector
On industrial production lines, it performs product quality inspection: high-definition imaging and zoom functions identify surface defects to ensure finished goods comply with quality standards.
For power infrastructure patrols, the camera block can be mounted on inspection robots or UAVs. Even in low-visibility conditions, it clearly records equipment operating status and circuit connections to detect potential hazards in a timely manner and guarantee stable power grid operation.
2. UAV Industry
When integrated onto drones, the FCB-EV9520L supports aerial mapping, geological surveying and other missions. Its robust zoom function flexibly captures ground targets from variable distances and viewing angles with crystal-clear imagery.
Built-in advanced electronic image stabilization effectively counteracts vibration caused by drone flight, delivering steady and smooth footage to generate high-quality raw data for mapping and geological exploration.
Conclusion
Boasting outstanding performance and broad compatibility, the FCB-EV9520L demonstrates remarkable advantages in industrial inspection, UAV payload integration and numerous other vertical fields. Its high-definition imaging and versatile functionalities strongly empower intelligent upgrading across industries, making this camera block a premium choice balancing technical prowess and practical usability.