Separate 0.9mm Diameter 1MP Micro CSI OCHTA10 Type-C Endoscope Camera Module with LED

This is separate 0.9mm diameter 1MP micro CSI OCHTA10 Type-C endoscope camera module with LED. The core advantage of this module lies in its lens with a diameter of only 0.9mm. This ultra-small design enables it to easily penetrate extremely narrow spaces that traditional endoscopes cannot reach, such as tiny pipes and the fine gaps inside precision machinery. This significantly expands the application boundaries of endoscopes, making it capable of easily handling tasks in industrial fields for the inspection of tiny components or in medical scenarios for the observation of human delicate parts. It uses OV Technology's OCHTA10 CMOS color image sensor, with a sensor size of 1/31 inch and pixel size of 1.008μmx1.008μm, supporting a resolution of 400x400 (i.e., 160,000 pixels) and a maximum frame rate of 30FPS. It can clearly capture the details of the observed object. The lens angle reaches 120°, combined with the manual focusing function, allowing for flexible adjustment of the observation angle and clarity. It integrates 4 LED lighting lamps to ensure clear images even in dim lighting conditions. In terms of interface, it uses a Type-C interface, with a transmission rate of USB2.0 and support for UVC protocol, ensuring stable and efficient data transmission. Its separate design is convenient for installation and use, and is produced using advanced SMT technology and AA process to ensure stable product performance and reliable quality.

This endoscopic camera module, due to its outstanding feature of a 0.9mm lens diameter, can be used in the medical field for various precise examinations and surgeries such as neurology, ophthalmology, otolaryngology, cardiology, spine surgery, urology, gynecology, joint surgery, etc., helping doctors clearly observe the tiny parts inside the human body and improving the accuracy of diagnosis and surgical precision. In the industrial field, it is applicable for internal inspections of mechanical equipment, detection of microelectronic components, and quality control of assembly lines, enabling precise detection of potential problems without disassembling the equipment and enhancing production efficiency and product quality. In the dental and veterinary fields, it is also highly useful, assisting in detailed oral examinations and observing tiny lesions in animals' bodies.