BF20A6 CMOS Sensor 4.5mm Diameter Mini Endoscope Camera Module

This BF20A6 CMOS Sensor 4.5mm Diameter Mini Endoscope Camera Module ,is a specialized ultra-micro endoscope designed exclusively for ultra-narrow space applications, focusing on ultra-micro endoscopy and flexible path detection to provide reliable visualization solutions for tiny space detection. Built around the BF20A6 CMOS sensor with a 1/10.1-inch optical format, it achieves high integration and stable imaging in a compact volume— the small target surface sensor is perfectly matched with the micro probe, maximizing the use of limited space to ensure stable and clear imaging, while significantly improving structural integration for easy integration into various small devices. Its probe diameter is precisely controlled at 4.5mm, an extreme miniaturization design that breaks through the space limitations of conventional endoscopes, allowing easy access to micro-holes, thin pipes and narrow gaps that ordinary equipment cannot reach, greatly expanding the scope of detectable spaces. The probe adopts a steel sheet + FPC flexible reinforced structure, which not only enhances the structural strength and service life of the probe but also enables flexible bending, adapting to the detection needs of complex and flexible paths in narrow spaces. With a total probe length of 52±0.1mm and an effective working section of 30mm, it balances the flexibility of detection and the stability of operation, ensuring accurate positioning and detection in deep narrow spaces. Under a 24MHz clock, the module can achieve a maximum real-time output of 30fps, ensuring smooth dynamic images without trailing, fully meeting the needs of real-time detection and dynamic observation. Equipped with a standard FPC cable interface, it provides convenient conditions for embedded system integration, simplifying the integration process and improving deployment efficiency. Integrating extreme miniaturization, flexible structure, stable imaging and easy integration, this module is widely applicable to ultra-thin pipeline detection, precision electronic maintenance, automobile maintenance and experimental observation, becoming a reliable solution for tiny space visualization detection.