Views: 0 Author: Site Editor Publish Time: 2026-01-02 Origin: Site
In the fields of minimally invasive medical diagnosis/treatment and industrial precision inspection, "compact size + stable performance" is a core selection requirement. This Integrated endoscope camera bare module based on the OV9734 sensor breaks through spatial constraints with an ultra-slim 3.6mm diameter, emerging as a cost-effective solution for narrow-domain observation scenarios.
Core technical highlights directly address key pain points: Adopting an Integrated structure, it seamlessly fuses the lens and DSP board, featuring a non-redundant design for the bare module that can be easily adapted to devices requiring access to narrow spaces—such as electronic otolaryngoscopes and micro-pipeline detectors. Equipped with a 1MP OV9734 CMOS sensor, it outputs 1280×720@30fps HD video; paired with FPGA-enhanced noise reduction technology and 4 integrated 0402 white LEDs, it restores fine details even in low-light environments. The 95° wide field of view and 10-100mm manual focusing range reduce the frequency of equipment adjustments during observation. Medical-grade 2000V electrical isolation and sterilization-resistant design ensure clinical safety, while the USB 2.0 UVC protocol enables plug-and-play compatibility with Windows/Android/Linux systems. With an ultra-low latency of less than 1ms, it provides real-time feedback for precise operations.
Medical device manufacturers: Prioritize adaptation for minimally invasive diagnostic/therapeutic instruments such as disposable cystoscopes, otoscopes, and dental endoscopes. The 3.6mm diameter minimizes patient trauma, and medical-grade compliance meets clinical sterilization and safety requirements.
Industrial inspection solution providers: Suitable for pipeline crawling robots, engine borescopes, and PCB precision detectors. The ultra-slim size combined with a 6-meter flexible cable (customizable) caters to long-distance and narrow-channel defect detection needs.
Special equipment R&D teams: Ideal for scenarios requiring customized interfaces (e.g., Type-C), LED color temperature, or outer tube materials—its flexible customization capabilities match differentiated integration requirements.
