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SF-C016USB-D1.4
SINCEREFIRST
This is LED light Ultra-Miniature 1.2mm USB endoscope camera module. Featuring an ultra-slim 1.2mm probe diameter paired with a groundbreaking 0.175mm focal length, this endoscopic camera penetrates extreme confined spaces—from sub-1.5mm blood vessels to microelectronic circuitry—delivering distortion-free imaging even in deep recesses. Its plug-and-play USB design ensures seamless compatibility across major operating systems. An integrated high-brightness LED system, engineered with specialized light-guide optics, guarantees uniform illumination and exceptional image clarity across the entire 3–30mm adjustable focus range. |  |
Optical Performance: High-transmission lenses and precision focal adjustment capture microscopic details to macro structures without distortion, enabling accurate diagnostics in variable-depth environments.
Miniaturization: At 1.2mm—among the world’s smallest endoscopic probes—it sets a new standard for accessibility in micro-scale inspection, validated by space-grade miniaturization technology.
Optimized Illumination: Advanced light-guide engineering eliminates hotspots, ensuring consistent brightness for critical observations in low-visibility cavities.
Cross-Domain Versatility: Single-device solution for medical, industrial, and research applications, reducing operational complexity and costs.
1. Dental Diagnostics: Root canal visualization, periodontal pocket depth measurement, and micro-gap detection around implants.
2. Precision Machinery: Lubrication monitoring in micro-bearings, carbon-deposit inspection in aircraft fuel nozzles, and dynamic analysis of watch gear trains.
3. Minimally invasive vascular intervention: It can carry out real-time imaging into the tiny blood vessels of more than 1.5mm, assist vascular stent placement, thrombus removal and other fine operations, and be a navigation tool for the treatment of vascular malformations in neurosurgery.
4. Material Science: Microstructure examination of alloys and composites under stress tests.
Product Name | Miniature endoscope camera module |
Basic tolerance | ±0.1mm |
DSP | USB |
Sensor | OCHTA10 |
Focusing Range | 3-30mm |
Focal Length | 0.175mm |
F Number | 3.58 |
FOV(H*V) | 100°*100° |
TV Distortion | <-11% |
Connerctor | Micro USB-5P |
1. 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.
2. How to achieve waterproof and sterilization design?
The medical-grade module uses IP68 waterproof seal, the housing material is resistant to high temperature and pressure (such as epoxy resin), and can withstand 134°C steam sterilization. Industrial modules may require only a splash proof design (IP54).
3. What are the interface types of the module?
Common interfaces include USB3.0, HDMI, SDI, etc. Industrial scenarios may use PoE power supply interfaces, and medical devices integrate dedicated medical image interfaces (such as DVI-Med).
This is LED light Ultra-Miniature 1.2mm USB endoscope camera module. Featuring an ultra-slim 1.2mm probe diameter paired with a groundbreaking 0.175mm focal length, this endoscopic camera penetrates extreme confined spaces—from sub-1.5mm blood vessels to microelectronic circuitry—delivering distortion-free imaging even in deep recesses. Its plug-and-play USB design ensures seamless compatibility across major operating systems. An integrated high-brightness LED system, engineered with specialized light-guide optics, guarantees uniform illumination and exceptional image clarity across the entire 3–30mm adjustable focus range. | |
Optical Performance: High-transmission lenses and precision focal adjustment capture microscopic details to macro structures without distortion, enabling accurate diagnostics in variable-depth environments.
Miniaturization: At 1.2mm—among the world’s smallest endoscopic probes—it sets a new standard for accessibility in micro-scale inspection, validated by space-grade miniaturization technology.
Optimized Illumination: Advanced light-guide engineering eliminates hotspots, ensuring consistent brightness for critical observations in low-visibility cavities.
Cross-Domain Versatility: Single-device solution for medical, industrial, and research applications, reducing operational complexity and costs.
1. Dental Diagnostics: Root canal visualization, periodontal pocket depth measurement, and micro-gap detection around implants.
2. Precision Machinery: Lubrication monitoring in micro-bearings, carbon-deposit inspection in aircraft fuel nozzles, and dynamic analysis of watch gear trains.
3. Minimally invasive vascular intervention: It can carry out real-time imaging into the tiny blood vessels of more than 1.5mm, assist vascular stent placement, thrombus removal and other fine operations, and be a navigation tool for the treatment of vascular malformations in neurosurgery.
4. Material Science: Microstructure examination of alloys and composites under stress tests.
Product Name | Miniature endoscope camera module |
Basic tolerance | ±0.1mm |
DSP | USB |
Sensor | OCHTA10 |
Focusing Range | 3-30mm |
Focal Length | 0.175mm |
F Number | 3.58 |
FOV(H*V) | 100°*100° |
TV Distortion | <-11% |
Connerctor | Micro USB-5P |
1. 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.
2. How to achieve waterproof and sterilization design?
The medical-grade module uses IP68 waterproof seal, the housing material is resistant to high temperature and pressure (such as epoxy resin), and can withstand 134°C steam sterilization. Industrial modules may require only a splash proof design (IP54).
3. What are the interface types of the module?
Common interfaces include USB3.0, HDMI, SDI, etc. Industrial scenarios may use PoE power supply interfaces, and medical devices integrate dedicated medical image interfaces (such as DVI-Med).
