The 3.3mm probe high-frame-rate dual-use (medical & industrial) endoscope camera module can accurately match the core needs of scenarios and form multi-dimensional key advantages when applied to veterinary micro flexible endoscopes (used for foreign body retrieval, diagnostic examination, and artificial insemination). Equipped with an ultra-fine 3.3mm probe and flexible medical-grade materials, the module can be easily integrated into the catheter of the micro flexible endoscope, smoothly accessing the narrow body cavities of animals such as small pets and livestock (e.g., the oviduct of poultry and the trachea of young animals). It not only avoids cavity dilation and trauma caused by overly large probes but also deforms in sync with the catheter to fit the curvature of the cavity, meeting the needs of flexible steering during foreign body retrieval and mucosal protection during artificial insemination. Meanwhile, its durability of over 10,000 bending cycles adapts to the long service life requirements of equipment for high-frequency use in veterinary scenarios.
In terms of imaging performance, the module is equipped with the medical-grade OH01A10 image sensor, combined with 720P resolution, 60fps high frame rate, and TV distortion controlled below -2%, enabling real-time capture of dynamic images inside animals. During foreign body retrieval, it can accurately track foreign bodies moving with respiration or gastrointestinal peristalsis without motion blur or delay; during diagnostic examination, it can truly restore the size and shape of lesions such as cavity mucosal inflammation and ulcers, avoiding misjudgment caused by distortion; during artificial insemination, it clearly displays the internal structure of the reproductive tract, assisting in controlling the catheter direction to ensure accurate insemination position. Additionally, the 10-100mm wide focusing range allows seamless switching between macro cavity structure observation and micro tissue detail observation, improving diagnostic efficiency.
For the dark environment inside animal bodies, the module’s 4 optional 0201-type LED light sources support 500-1000lux adjustable light intensity. It can use strong light to penetrate food residues in the digestive tract for clear visualization of foreign body contours during foreign body retrieval, and weak light to avoid stimulating the reproductive tract mucosa and causing spasms during artificial insemination. The uniform light distribution eliminates "light spot blind areas" and prevents missing small lesions on the cavity sidewalls during diagnostic examination.
In terms of operational convenience, the USB interface supports plug-and-play functionality without complex driver debugging, allowing veterinarians to directly connect it to commonly used devices such as laptops, portable monitors, or even mobile tablets. For example, during artificial insemination of livestock on farms, veterinarians do not need to carry heavy dedicated hosts and can view images in real time with lightweight equipment, enhancing the flexibility of on-site operations. The module’s overall lightweight design (weighing only a few grams thanks to SMT precision technology) does not increase the load on the micro flexible endoscope catheter, ensuring operational accuracy inside the animal cavity (e.g., stable catheter control during artificial insemination).
Furthermore, the module supports ethylene oxide (EO) sterilization, complying with hygiene standards for veterinary medical equipment. It effectively prevents cross-infection (e.g., transmission of canine distemper virus and avian mycoplasma) when used for diagnostic examination of multiple animals. The probe is made of wear-resistant and corrosion-resistant medical-grade materials, further adapting to the high-frequency use scenario of "batch livestock examination" on farms and reducing long-term equipment replacement costs.
In summary, the module effectively addresses the pain points of traditional veterinary endoscopes (such as excessive size, blurry imaging, and complex operation) through its core advantages of miniaturized size, precise imaging, flexible illumination, convenient operation, and medical-grade durability. It enhances the accuracy of veterinary operations and the comfort of animals, further improving the practicality and professionalism of the veterinary tool series.
