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SF-C016USB-D1.2 V1.0
SINCEREFIRST
This 1.2mm diameter USB2.0 interface flexible inspection Endoscope camera module With light endoscope camera module, with a diameter of only 1.2mm and a USB 2.0 interface, is designed for seamless integration into various precision inspection scenarios. Its compact size and high-performance configuration allow it to easily meet visual inspection needs in narrow and delicate environments. Equipped with the high-performance OCHTA10 image sensor and a resolution of 200×200, it captures fine details of inspection objects clearly—even minute structures appear sharp, providing reliable visual support for thorough examinations. To address low-light inspection challenges, the module features four white LED beads that effectively illuminate the target area, significantly enhancing visibility in dark environments and preventing missed details due to insufficient lighting. Optically, it offers a 3.75mm focal length and a field of view of 120° (horizontal) × 88.8° (vertical). Combined with a broad focusing range of 3mm–50mm, it can capture microscopic details as close as 3mm or cover inspection areas up to 50mm deep, easily adapting to varying depth requirements. Structurally, the module balances flexibility and practicality: the cable diameter is just 1.4mm, allowing easy navigation through complex and confined spaces. With a maximum cable length of 2 meters, operators gain ample working radius, minimizing spatial constraints. It is compatible with both Windows and Android systems, supports plug-and-play functionality, and requires no complex driver installation—enabling quick connection and significantly improving inspection efficiency. Suitable for medical, industrial, and other fields requiring instant inspection. |  |
High-Performance Image Sensor: Uses the OCHTA10 CMOS image sensor. CMOS technology offers low power consumption and high response speed, capturing stable images under varying lighting conditions. With LED auxiliary lighting, it further reduces noise and enhances image purity, ensuring inspection accuracy.
Precision Optical Configuration: A fixed 3.75mm focal length and F2.8 aperture ensure sharp detail capture in close-range inspections while maintaining brightness at medium distances. Combined with a wide 120°×88.8° field of view, it covers a larger area in a single scan, reducing the need for frequent adjustments and boosting efficiency.
Ultra-Slim Design and Flexible Cable: The 1.2mm outer diameter allows access to ultra-fine channels beyond the reach of conventional endoscopes. The 2-meter flexible cable offers both toughness and adaptability, navigating complex bends and confined spaces with ease.
Strong Environmental Adaptability: Four white LEDs provide consistent illumination in dark settings, improving visibility in low-light areas and preventing inspection errors. Supporting USB 2.0 UVC standard output and optional AV output, it accommodates various display and recording devices.
Cross-Platform Compatibility: Works with both Windows and Android systems without system-specific debugging. Enables rapid connection for professional analysis on computers or on-site mobile viewing, reducing adaptation costs across multiple scenarios.
1. ENT Medical Examinations: The 1.2mm diameter minimizes patient discomfort during nasal, ear canal, and throat inspections.
2. Dentistry: Provides clear visuals during root canal treatments, aiding precise infection removal.
3. Industrial Dynamic Detection: High-speed auto-focus tracks moving objects in real time for assembly lines or UAV obstacle avoidance.
4. Multi-Scenario Detail and Panoramic Inspection: A 3mm–∞ focus range supports seamless switching from micro-details (e.g., solder joints) to wide-area overviews.
Product Name | Mini Endoscope Camera Module |
Image Sensor | OCHTA10 |
Diameter | 1.2mm |
Focusing Range | 3mm-50mm |
Focal Length | 3.75mm |
F No. | 2.8 |
FOV(H*V) | 120°×88.8° |
TV Distortion | <-11% |
Output | USB2.0 UVC |
Image Device | 1/36" |
FAQ
1. How does the endoscope camera module work?
The endoscope camera module collects the internal image through the front optical lens, converts it into electrical signal by CMOS or CCD sensor, and then optimizes it through image processing chip for noise reduction and enhancement, and finally outputs high-definition video signal. Some modules support wireless transmission or fiber optic signal transmission, suitable for medical or industrial inspection scenarios.
2. How does the Field of view (FOV) of the module affect the use effect?
The field of view Angle determines the imaging range. The wide Angle (above 120°) is suitable for observing a large area, but the edge may be distorted. Narrow angles (below 60°) provide a more focused picture. The selection should be based on the application scenario, such as laparoscopic surgery commonly used 70°-90° balanced field of view and detail.
3. What is the significance of the depth of field range of the module?
Large depth of field (such as 5mm to 50mm) can clearly show near and far objects at the same time, reduce the need for frequent focusing, suitable for endoscopic surgery; Shallow depth of field is used to highlight specific plane details, such as skin inspection.
This 1.2mm diameter USB2.0 interface flexible inspection Endoscope camera module With light endoscope camera module, with a diameter of only 1.2mm and a USB 2.0 interface, is designed for seamless integration into various precision inspection scenarios. Its compact size and high-performance configuration allow it to easily meet visual inspection needs in narrow and delicate environments. Equipped with the high-performance OCHTA10 image sensor and a resolution of 200×200, it captures fine details of inspection objects clearly—even minute structures appear sharp, providing reliable visual support for thorough examinations. To address low-light inspection challenges, the module features four white LED beads that effectively illuminate the target area, significantly enhancing visibility in dark environments and preventing missed details due to insufficient lighting. Optically, it offers a 3.75mm focal length and a field of view of 120° (horizontal) × 88.8° (vertical). Combined with a broad focusing range of 3mm–50mm, it can capture microscopic details as close as 3mm or cover inspection areas up to 50mm deep, easily adapting to varying depth requirements. Structurally, the module balances flexibility and practicality: the cable diameter is just 1.4mm, allowing easy navigation through complex and confined spaces. With a maximum cable length of 2 meters, operators gain ample working radius, minimizing spatial constraints. It is compatible with both Windows and Android systems, supports plug-and-play functionality, and requires no complex driver installation—enabling quick connection and significantly improving inspection efficiency. Suitable for medical, industrial, and other fields requiring instant inspection. | |
High-Performance Image Sensor: Uses the OCHTA10 CMOS image sensor. CMOS technology offers low power consumption and high response speed, capturing stable images under varying lighting conditions. With LED auxiliary lighting, it further reduces noise and enhances image purity, ensuring inspection accuracy.
Precision Optical Configuration: A fixed 3.75mm focal length and F2.8 aperture ensure sharp detail capture in close-range inspections while maintaining brightness at medium distances. Combined with a wide 120°×88.8° field of view, it covers a larger area in a single scan, reducing the need for frequent adjustments and boosting efficiency.
Ultra-Slim Design and Flexible Cable: The 1.2mm outer diameter allows access to ultra-fine channels beyond the reach of conventional endoscopes. The 2-meter flexible cable offers both toughness and adaptability, navigating complex bends and confined spaces with ease.
Strong Environmental Adaptability: Four white LEDs provide consistent illumination in dark settings, improving visibility in low-light areas and preventing inspection errors. Supporting USB 2.0 UVC standard output and optional AV output, it accommodates various display and recording devices.
Cross-Platform Compatibility: Works with both Windows and Android systems without system-specific debugging. Enables rapid connection for professional analysis on computers or on-site mobile viewing, reducing adaptation costs across multiple scenarios.
1. ENT Medical Examinations: The 1.2mm diameter minimizes patient discomfort during nasal, ear canal, and throat inspections.
2. Dentistry: Provides clear visuals during root canal treatments, aiding precise infection removal.
3. Industrial Dynamic Detection: High-speed auto-focus tracks moving objects in real time for assembly lines or UAV obstacle avoidance.
4. Multi-Scenario Detail and Panoramic Inspection: A 3mm–∞ focus range supports seamless switching from micro-details (e.g., solder joints) to wide-area overviews.
Product Name | Mini Endoscope Camera Module |
Image Sensor | OCHTA10 |
Diameter | 1.2mm |
Focusing Range | 3mm-50mm |
Focal Length | 3.75mm |
F No. | 2.8 |
FOV(H*V) | 120°×88.8° |
TV Distortion | <-11% |
Output | USB2.0 UVC |
Image Device | 1/36" |
FAQ
1. How does the endoscope camera module work?
The endoscope camera module collects the internal image through the front optical lens, converts it into electrical signal by CMOS or CCD sensor, and then optimizes it through image processing chip for noise reduction and enhancement, and finally outputs high-definition video signal. Some modules support wireless transmission or fiber optic signal transmission, suitable for medical or industrial inspection scenarios.
2. How does the Field of view (FOV) of the module affect the use effect?
The field of view Angle determines the imaging range. The wide Angle (above 120°) is suitable for observing a large area, but the edge may be distorted. Narrow angles (below 60°) provide a more focused picture. The selection should be based on the application scenario, such as laparoscopic surgery commonly used 70°-90° balanced field of view and detail.
3. What is the significance of the depth of field range of the module?
Large depth of field (such as 5mm to 50mm) can clearly show near and far objects at the same time, reduce the need for frequent focusing, suitable for endoscopic surgery; Shallow depth of field is used to highlight specific plane details, such as skin inspection.
