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SF-C1011USB-D3.3-720P60
SINCEREFIRST
This is 3.3mm probe high frame rate USB endoscope camera module, integrated with LED illumination, is specifically designed for high-precision and miniaturized imaging requirements, featuring both medical-grade reliability and industrial-grade practicality. The module is core-equipped with an ultra-fine 3.3mm probe, which can easily adapt to narrow-space inspection scenarios. It adopts the medically optimized OH01A10 image sensor and is paired with a USB-interface DSP (Digital Signal Processor), enabling plug-and-play convenient operation that requires no complex debugging for quick deployment. Meanwhile, the module supports the optional configuration of 4 0201-type LED light sources, which can provide sufficient and uniform illumination according to the operating environment, effectively solving the problem of insufficient imaging clarity in dark areas. In terms of imaging performance, the module boasts accurate and comprehensive parameters: it has a focal length of 1.25mm, matched with an F-number (aperture value) of 3.58, which optimizes light intake to improve imaging quality in low-light environments; its diagonal field of view (DFOV) reaches 95°, which not only covers a wide observation range but also balances image details, avoiding edge information loss caused by excessive wide-angle; TV distortion is controlled within < -2%, significantly reducing image stretching and distortion to ensure image authenticity. In addition, the 10-100mm focusing range can flexibly cover observation needs from macro structures to micro details without frequent equipment replacement; the 720P resolution combined with a high frame rate of 60fps delivers dynamic images with no motion blur, ensuring the fluency of real-time imaging. The module's basic tolerance is strictly controlled within ±0.1mm, and it is manufactured using the SMT (ROHS-compliant) process, further guaranteeing structural precision and assembly adaptability. It can be widely applied in fields such as medical diagnosis, veterinary treatment, and industrial inspection. |  |
60FPS High Frame Rate: It supports 60fps high frame rate output, with dynamic images free of motion blur and delay, enabling accurate synchronization with on-site image changes. It can feed back on-site images in real time, effectively reducing the risk of misoperation caused by image lag and improving inspection accuracy.
Ultra-Miniaturized Design: Adopting an ultra-fine 3.3mm probe structure, it features a compact size and flexibility-adaptable performance, allowing easy access to the human body, small pipelines, gaps, and other spaces. It can significantly reduce patient trauma, cover more inspection blind spots, and enhance the safety and comfort of surgical procedures.
Double Optimization for Imaging & Illumination: The built-in OH01A10 sensor provides core support for imaging quality; combined with the 95° field of view, it not only meets the needs of wide-range observation but also clearly presents image details. The 10-100mm wide focusing range enables seamless switching from macro overall structures to micro details, improving inspection efficiency. Meanwhile, the 4 optional 0201-type LED light sources allow flexible adjustment of illumination intensity according to the application scenario, ensuring uniform imaging brightness and clear details.
Balance of Convenience & Precision: The DSP adopts a USB interface design to realize "plug-and-play" functionality, eliminating the need for additional complex driver adaptation and saving debugging time; the module's basic tolerance is strictly controlled within ±0.1mm, and it is produced via the SMT (ROHS-compliant) process to ensure assembly precision between the probe and supporting equipment; the F-number of 3.58 further optimizes light intake performance, and when combined with the low TV distortion of < -2%, it ensures that images maintain brightness while restoring the real scene to the greatest extent.
1. Medical Diagnosis: It is compatible with minimally invasive surgical instruments such as arthroscopes and laparoscopes. The 95° field of view combined with the 10-100mm focusing range can clearly display the internal tissue structures of joint cavities and abdominal cavities, providing accurate surgical navigation support for medical staff and facilitating minimally invasive treatment.
2. Industrial Inspection: It is used for the inspection of facilities such as pipelines and cables. The wide-angle field of view can fully cover the inner walls of pipelines, enabling quick identification of problems such as blockages, corrosion, and aging. It is widely applied in municipal engineering pipeline maintenance and cable fault detection in the power industry.
3. Veterinary Field: It is suitable for in-vivo inspection scenarios in veterinary diagnosis and treatment. With its miniaturized probe and clear imaging, it provides reliable image support for the diagnosis of animal internal organs, joints, and other parts.
Product Name | Miniature endoscope camera module with led |
Basic tolerance | ±0.1mm |
DSP | USB |
Sensor | OH01A10 |
Focusing Range | 10-100mm |
Focal Length | 1.25mm |
F Number | 3.58 |
FOV(D) | 95° |
TV Distortion | <-2% |
Diameter | 3.3mm |
An endoscopic camera module captures images inside the body through an optical lens at the front end, converts them into electrical signals via a CMOS or CCD sensor, and then optimizes them through an image processing chip for noise reduction and enhancement, etc. Finally, it outputs high-definition video signals. Some modules support wireless transmission or optical fiber signal transmission, and are suitable for medical or industrial inspection scenarios.
The mainstream resolutions include 720p, 1080p, and 4K. Medical-grade modules typically require a resolution of 1080p or higher to ensure diagnostic accuracy, while industrial modules may choose lower resolutions based on requirements to reduce costs. Ultra-high resolution modules (such as 4K) are mostly used in precise surgeries or scientific research fields.
The field of view determines the imaging range. A wide-angle (above 120°) is suitable for observing large areas but may have edge distortion; a narrow-angle (below 60°) provides a more focused image. The choice should be based on the application scenario. For example, in laparoscopic surgery, a 70°-90° FOV is commonly used to balance the field of view and details.
Yes, it is designed for dual use and has a standard version that meets basic needs of both fields. No need to purchase separate versions—you only need to confirm additional requirements (e.g., medical sterilization, industrial waterproofing) if your scenario has special demands.
The warranty period is 24 months for medical-use modules (covers sensor, LED, and structural defects caused by non-human factors) and 12 months for industrial-use modules. Extended warranties (up to 36 months) are available for an additional fee.
This is 3.3mm probe high frame rate USB endoscope camera module, integrated with LED illumination, is specifically designed for high-precision and miniaturized imaging requirements, featuring both medical-grade reliability and industrial-grade practicality. The module is core-equipped with an ultra-fine 3.3mm probe, which can easily adapt to narrow-space inspection scenarios. It adopts the medically optimized OH01A10 image sensor and is paired with a USB-interface DSP (Digital Signal Processor), enabling plug-and-play convenient operation that requires no complex debugging for quick deployment. Meanwhile, the module supports the optional configuration of 4 0201-type LED light sources, which can provide sufficient and uniform illumination according to the operating environment, effectively solving the problem of insufficient imaging clarity in dark areas. In terms of imaging performance, the module boasts accurate and comprehensive parameters: it has a focal length of 1.25mm, matched with an F-number (aperture value) of 3.58, which optimizes light intake to improve imaging quality in low-light environments; its diagonal field of view (DFOV) reaches 95°, which not only covers a wide observation range but also balances image details, avoiding edge information loss caused by excessive wide-angle; TV distortion is controlled within < -2%, significantly reducing image stretching and distortion to ensure image authenticity. In addition, the 10-100mm focusing range can flexibly cover observation needs from macro structures to micro details without frequent equipment replacement; the 720P resolution combined with a high frame rate of 60fps delivers dynamic images with no motion blur, ensuring the fluency of real-time imaging. The module's basic tolerance is strictly controlled within ±0.1mm, and it is manufactured using the SMT (ROHS-compliant) process, further guaranteeing structural precision and assembly adaptability. It can be widely applied in fields such as medical diagnosis, veterinary treatment, and industrial inspection. | |
60FPS High Frame Rate: It supports 60fps high frame rate output, with dynamic images free of motion blur and delay, enabling accurate synchronization with on-site image changes. It can feed back on-site images in real time, effectively reducing the risk of misoperation caused by image lag and improving inspection accuracy.
Ultra-Miniaturized Design: Adopting an ultra-fine 3.3mm probe structure, it features a compact size and flexibility-adaptable performance, allowing easy access to the human body, small pipelines, gaps, and other spaces. It can significantly reduce patient trauma, cover more inspection blind spots, and enhance the safety and comfort of surgical procedures.
Double Optimization for Imaging & Illumination: The built-in OH01A10 sensor provides core support for imaging quality; combined with the 95° field of view, it not only meets the needs of wide-range observation but also clearly presents image details. The 10-100mm wide focusing range enables seamless switching from macro overall structures to micro details, improving inspection efficiency. Meanwhile, the 4 optional 0201-type LED light sources allow flexible adjustment of illumination intensity according to the application scenario, ensuring uniform imaging brightness and clear details.
Balance of Convenience & Precision: The DSP adopts a USB interface design to realize "plug-and-play" functionality, eliminating the need for additional complex driver adaptation and saving debugging time; the module's basic tolerance is strictly controlled within ±0.1mm, and it is produced via the SMT (ROHS-compliant) process to ensure assembly precision between the probe and supporting equipment; the F-number of 3.58 further optimizes light intake performance, and when combined with the low TV distortion of < -2%, it ensures that images maintain brightness while restoring the real scene to the greatest extent.
1. Medical Diagnosis: It is compatible with minimally invasive surgical instruments such as arthroscopes and laparoscopes. The 95° field of view combined with the 10-100mm focusing range can clearly display the internal tissue structures of joint cavities and abdominal cavities, providing accurate surgical navigation support for medical staff and facilitating minimally invasive treatment.
2. Industrial Inspection: It is used for the inspection of facilities such as pipelines and cables. The wide-angle field of view can fully cover the inner walls of pipelines, enabling quick identification of problems such as blockages, corrosion, and aging. It is widely applied in municipal engineering pipeline maintenance and cable fault detection in the power industry.
3. Veterinary Field: It is suitable for in-vivo inspection scenarios in veterinary diagnosis and treatment. With its miniaturized probe and clear imaging, it provides reliable image support for the diagnosis of animal internal organs, joints, and other parts.
Product Name | Miniature endoscope camera module with led |
Basic tolerance | ±0.1mm |
DSP | USB |
Sensor | OH01A10 |
Focusing Range | 10-100mm |
Focal Length | 1.25mm |
F Number | 3.58 |
FOV(D) | 95° |
TV Distortion | <-2% |
Diameter | 3.3mm |
An endoscopic camera module captures images inside the body through an optical lens at the front end, converts them into electrical signals via a CMOS or CCD sensor, and then optimizes them through an image processing chip for noise reduction and enhancement, etc. Finally, it outputs high-definition video signals. Some modules support wireless transmission or optical fiber signal transmission, and are suitable for medical or industrial inspection scenarios.
The mainstream resolutions include 720p, 1080p, and 4K. Medical-grade modules typically require a resolution of 1080p or higher to ensure diagnostic accuracy, while industrial modules may choose lower resolutions based on requirements to reduce costs. Ultra-high resolution modules (such as 4K) are mostly used in precise surgeries or scientific research fields.
The field of view determines the imaging range. A wide-angle (above 120°) is suitable for observing large areas but may have edge distortion; a narrow-angle (below 60°) provides a more focused image. The choice should be based on the application scenario. For example, in laparoscopic surgery, a 70°-90° FOV is commonly used to balance the field of view and details.
Yes, it is designed for dual use and has a standard version that meets basic needs of both fields. No need to purchase separate versions—you only need to confirm additional requirements (e.g., medical sterilization, industrial waterproofing) if your scenario has special demands.
The warranty period is 24 months for medical-use modules (covers sensor, LED, and structural defects caused by non-human factors) and 12 months for industrial-use modules. Extended warranties (up to 36 months) are available for an additional fee.
