Serving as pivotal front-end image capture equipment, FCB-EV9520L adopts a 1/2.8-inch STARVIS 2 CMOS sensor. It steadily delivers 1080P/60fps full HD videos with 2.13 million effective pixels, providing accurate visual references for clinical observation. Featuring 30x optical zoom and 12x digital zoom with a total 360x zoom ratio, it vividly presents millimeter-level vascular branches, nerve endings and bone textures. It helps surgeons accurately identify lesion boundaries and adjacent tissues during sophisticated neurosurgical and orthopedic operations.

Equipped with 130dB wide dynamic range technology, the module intelligently adjusts brightness gaps between intense surgical lamp light and instrument shadows. It prevents detail loss caused by overexposure or underexposure, retaining complete and distinct information of skin textures and lesion features under complex lighting conditions.

As the core back-end signal processing unit, CM2002HU eliminates bottlenecks restricting HD image transmission and application via intelligent encoding. It adopts dual-stream compression algorithm, cutting data volume by half while maintaining diagnosis-grade image quality. This effectively addresses bandwidth limitations in telemedicine and realizes low-latency real-time 1080P video transmission. Smooth and lag-free footage enables remote specialists to offer synchronized visual guidance for cross-regional surgical instruction and emergency consultation, lowering operational risks arising from transmission delay.

The integrated solution revolutionizes surgical teaching by enabling high-definition surgical view display and multi-terminal synchronous sharing. FCB-EV9520L captures subtle operational details ranging from instrument holding posture to lesion resection procedures. Encoded images are simultaneously transmitted to teaching displays, mobile devices and remote academic platforms. Learners can observe full surgical procedures in real time, while specialists deliver targeted explanations based on clear visuals. It solves drawbacks of limited space and single viewing angle in conventional teaching.

In cross-regional remote surgical guidance, live surgical footage from grassroots hospitals is transmitted instantly to senior experts. Professionals deliver practical operational suggestions based on clear images, empowering grassroots medical facilities to perform complex surgeries and promoting equitable distribution of premium medical resources.