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SF-TA10USB-D0.9
SINCEREFIRST
This 0.9mm Wide Angle OCHTA10 Mini Endoscope Camera Module, features the OCHTA10 sensor at its core. With an ultra-compact 0.9mm lens diameter as its key advantage and a 120°±6° wide-angle field of view, it is specifically engineered for close-range inspection in extremely confined spaces. It effortlessly penetrates micro-pipes, and gaps in precision equipment—areas conventional lenses struggle to reach. The module delivers 400×400 effective pixels with a 1.008μm×1.008μm pixel size, meeting fundamental visualization needs. It features a standardized USB interface and a 2.54mm/6-pin female header for stable transmission and easy assembly. The product includes a 2.5-meter transmission cable for remote operation and observation, accommodating scenarios where close proximity is impractical. Reserved LED positive and negative pins allow flexible expansion of supplementary lighting functionality to enhance imaging performance in low-light environments. Critical module dimensions are strictly controlled (e.g., lens diameter ±0.2mm, length ±0.1mm). Its compact, uniform structure complies with RoHS environmental standards. Reliable soldering techniques and cable construction ensure durability and suitability for mass integration.Widely applicable for micro-pipeline inspection, precision electronic equipment maintenance, handheld micro-detector accessories, and low-cost visualization scenarios, it delivers a cost-effective, easy-to-integrate front-end imaging solution for basic observation needs in ultra-confined spaces. Its ultra-slim dimensions, wide-angle coverage, and flexible adaptability make it an ideal choice. |  |
1. Ultra-Thin with Superior Penetration: With an exceptionally small 0.9mm lens diameter, it effortlessly accesses ultra-narrow areas like micro-pipes and precision equipment gaps—spaces conventional lenses cannot reach—maximizing observation reach.
2. Wide-Angle Coverage for Enhanced Efficiency: A 120°±6° wide-angle view captures larger areas in a single shot, eliminating repeated position adjustments and significantly boosting observation efficiency in confined spaces.
3. Flexible Long-Distance Operation: Standard 2.5-meter transmission cable supports remote observation, accommodating scenarios where close proximity is impractical and broadening application possibilities.
4. Easy Integration & Cost-Friendly: Standardized USB interface + 2.54mm/6-pin female connector. Simple structure and easy assembly facilitate bulk integration into various inspection equipment, meeting fundamental visualization needs.
1. Micro-Pipe Inspection Applications: Designed for industrial micro-pipes, medical microtubes, and precision fluid conduits. The 0.9mm ultra-thin lens penetrates deep into pipe interiors, while the 120° wide-angle lens captures blockages, wear, corrosion, and other conditions, meeting visualization demands for minute passages.
2. Precision Electronic Component Inspection: Used for examining internal gaps and pin connections in electronic components like chips, circuit boards, and micro-sensors. Effortlessly penetrates confined spaces to assist in troubleshooting short circuits, poor contacts, and other faults.
3. Handheld Micro-Inspection Tool Integration: Serves as a front-end imaging module for portable micro-endoscopes and specialized inspection devices. Paired with a 2.5-meter cable, it adapts to ultra-compact outdoor/field observation scenarios.
4. Low-cost bulk integration scenarios: Suitable for basic visualization devices with modest pixel requirements, such as miniature security probes, toy visualization accessories, and entry-level inspection instruments, cost-effectively meeting fundamental observation needs.
Product Name | 0.9mm Endoscope Camera Component |
Image Sensor | OCHTA10 CMOS |
Lens Size | 1/31 inch |
Pixel Size | 1.008um X 1.008um |
Maximum effective pixel | 400x400 |
Interface type | USB2.0 High Speed |
View Angle | 120° |
Supported resolution and frame rate | 30fps VGA YUV MJPEG / 30fps QVGA YUV |
Focus Type | Fixed Focus |
Operating temperature | -20~70℃ |
FAQ
1. What are the special requirements of laparoscopic surgical modules?
Anti-fogging design (lens heating or anti-fogging coating), 3D imaging capability, instrument channel integration, and color reproduction must be accurate (e.g., distinguishing tissue oxygen status).
2. Why do pipeline inspection modules need long cables?
The cable length is usually 10-30 meters, including Kevlar tensile layer and waterproof connector, which supports real-time transmission while resisting internal friction and chemical corrosion of the pipeline.
3. What is the difference between medical and industrial endoscope modules?
The medical module emphasizes biocompatibility, sterilization and high image quality, and needs to comply with FDA/CE certification; Industrial modules focus on durability (such as corrosion protection), wide temperature operation (-20°C to 70°C), and special light sources (such as UV).
4. Does this endoscope camera module require driver installation?
No, it is completely driver-free. With a USB2.0 interface and UVC protocol support, it offers plug-and-play functionality on Windows, Mac, and Android systems.
5. Does this endoscope camera module support custom lenses?
We support the customization of endoscope camera module lenses with a diameter of 0.9mm.
This 0.9mm Wide Angle OCHTA10 Mini Endoscope Camera Module, features the OCHTA10 sensor at its core. With an ultra-compact 0.9mm lens diameter as its key advantage and a 120°±6° wide-angle field of view, it is specifically engineered for close-range inspection in extremely confined spaces. It effortlessly penetrates micro-pipes, and gaps in precision equipment—areas conventional lenses struggle to reach. The module delivers 400×400 effective pixels with a 1.008μm×1.008μm pixel size, meeting fundamental visualization needs. It features a standardized USB interface and a 2.54mm/6-pin female header for stable transmission and easy assembly. The product includes a 2.5-meter transmission cable for remote operation and observation, accommodating scenarios where close proximity is impractical. Reserved LED positive and negative pins allow flexible expansion of supplementary lighting functionality to enhance imaging performance in low-light environments. Critical module dimensions are strictly controlled (e.g., lens diameter ±0.2mm, length ±0.1mm). Its compact, uniform structure complies with RoHS environmental standards. Reliable soldering techniques and cable construction ensure durability and suitability for mass integration.Widely applicable for micro-pipeline inspection, precision electronic equipment maintenance, handheld micro-detector accessories, and low-cost visualization scenarios, it delivers a cost-effective, easy-to-integrate front-end imaging solution for basic observation needs in ultra-confined spaces. Its ultra-slim dimensions, wide-angle coverage, and flexible adaptability make it an ideal choice. | |
1. Ultra-Thin with Superior Penetration: With an exceptionally small 0.9mm lens diameter, it effortlessly accesses ultra-narrow areas like micro-pipes and precision equipment gaps—spaces conventional lenses cannot reach—maximizing observation reach.
2. Wide-Angle Coverage for Enhanced Efficiency: A 120°±6° wide-angle view captures larger areas in a single shot, eliminating repeated position adjustments and significantly boosting observation efficiency in confined spaces.
3. Flexible Long-Distance Operation: Standard 2.5-meter transmission cable supports remote observation, accommodating scenarios where close proximity is impractical and broadening application possibilities.
4. Easy Integration & Cost-Friendly: Standardized USB interface + 2.54mm/6-pin female connector. Simple structure and easy assembly facilitate bulk integration into various inspection equipment, meeting fundamental visualization needs.
1. Micro-Pipe Inspection Applications: Designed for industrial micro-pipes, medical microtubes, and precision fluid conduits. The 0.9mm ultra-thin lens penetrates deep into pipe interiors, while the 120° wide-angle lens captures blockages, wear, corrosion, and other conditions, meeting visualization demands for minute passages.
2. Precision Electronic Component Inspection: Used for examining internal gaps and pin connections in electronic components like chips, circuit boards, and micro-sensors. Effortlessly penetrates confined spaces to assist in troubleshooting short circuits, poor contacts, and other faults.
3. Handheld Micro-Inspection Tool Integration: Serves as a front-end imaging module for portable micro-endoscopes and specialized inspection devices. Paired with a 2.5-meter cable, it adapts to ultra-compact outdoor/field observation scenarios.
4. Low-cost bulk integration scenarios: Suitable for basic visualization devices with modest pixel requirements, such as miniature security probes, toy visualization accessories, and entry-level inspection instruments, cost-effectively meeting fundamental observation needs.
Product Name | 0.9mm Endoscope Camera Component |
Image Sensor | OCHTA10 CMOS |
Lens Size | 1/31 inch |
Pixel Size | 1.008um X 1.008um |
Maximum effective pixel | 400x400 |
Interface type | USB2.0 High Speed |
View Angle | 120° |
Supported resolution and frame rate | 30fps VGA YUV MJPEG / 30fps QVGA YUV |
Focus Type | Fixed Focus |
Operating temperature | -20~70℃ |
FAQ
1. What are the special requirements of laparoscopic surgical modules?
Anti-fogging design (lens heating or anti-fogging coating), 3D imaging capability, instrument channel integration, and color reproduction must be accurate (e.g., distinguishing tissue oxygen status).
2. Why do pipeline inspection modules need long cables?
The cable length is usually 10-30 meters, including Kevlar tensile layer and waterproof connector, which supports real-time transmission while resisting internal friction and chemical corrosion of the pipeline.
3. What is the difference between medical and industrial endoscope modules?
The medical module emphasizes biocompatibility, sterilization and high image quality, and needs to comply with FDA/CE certification; Industrial modules focus on durability (such as corrosion protection), wide temperature operation (-20°C to 70°C), and special light sources (such as UV).
4. Does this endoscope camera module require driver installation?
No, it is completely driver-free. With a USB2.0 interface and UVC protocol support, it offers plug-and-play functionality on Windows, Mac, and Android systems.
5. Does this endoscope camera module support custom lenses?
We support the customization of endoscope camera module lenses with a diameter of 0.9mm.
