The OVM6948 endoscope camera module launched by OmniVision provides the global endoscope industry with an innovative solution featuring "ultra-small size + high reliability + low-cost adaptation" through its sub-millimeter miniaturization breakthrough and mature commercial capabilities. With the Gui
I. Market Pattern: LED and Xenon Lamps Coexist, with Accelerated LED ReplacementComparison of Technical RoutesXenon Lamps: Occupy the high-end medical market relying on high radiant energy and 5800K daylight color temperature. However, they have shortcomings such as short lifespan (only 500 hours),
Amid the trend of medical endoscope diagnosis and treatment evolving toward "high precision, three-dimensionalization, and intelligence," endoscope camera modules, as the "visual core" of the equipment, their technological breakthroughs directly determine the accuracy of diagnosis and treatment as w
On April 8th, the 91st China International Medical Equipment Fair (CMEF) opened at the National Exhibition and Convention Center (Shanghai). Shenzhen SonoScape Medical made a grand appearance with a series of smart endoscope innovations, including the debut of its new-generation smart endoscope plat
Recently, the news that the Second Affiliated Hospital of University of South China completed a high-difficulty skull base minimally invasive surgery using Karl Storz’s 4K ultra-high-definition (UHD) endoscope system has once again brought high-end endoscope technology into the industry spotlight. A
Early in a routine gastrointestinal screening, a subtle mucosal lesion went unnoticed on a conventional low-resolution endoscope.
Medical imaging devices are becoming smaller, smarter, and more integrated than ever.
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As a core tool in modern dental diagnosis and treatment, the performance of oral endoscopes directly depends on the technical level of their core component—the camera module. The OCH2B30 camera module launched by OmniVision Group in 2024 (with ultra-small size of 2.6mm×2.6mm, 2-megapixel resolution,
As the core optical component of an endoscope camera module, the lens's protective performance directly determines imaging stability and equipment service life. In scenarios pursuing miniaturization (e.g., lenses with a diameter of 1.5mm), adding a steel shell restricts spatial adaptability. Thus, a
As a key tool in dental diagnosis and treatment, dental endoscopes need to achieve high-definition imaging in the narrow spaces of the oral cavity (such as the posterior dental region and gingival sulcus), while meeting the requirements of frequent disinfection, flexible operation, and medical compl
As a key tool in dental diagnosis and treatment, dental endoscopes need to achieve accurate detail capture (such as early dental caries and plaque detection) in the narrow, low-light oral environment, while meeting requirements for ergonomic operation, medical compliance, and adaptability to diagnos
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Separated endoscope camera modules, characterized by the independent layout of "lens - DSP board", are widely used in scenarios such as medical minimally invasive procedures and industrial narrow-space inspection. The connection method between the lens and the DSP board directly affects the module’s
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The imaging quality of endoscope camera modules heavily depends on lighting conditions. Take the split-type module equipped with the OmniVision OH01A10 sensor as an example: its F4.0 aperture and 1.116μm pixels can handle regular lighting, but whether to opt for the integrated 4 0201-type LED fill l
Endoscopic camera modules, as the "visual core" of minimally invasive medical procedures and precision industrial inspections, require their structural design to balance imaging performance, environmental adaptability, and application-specific needs. The steel shell, an optional protective component
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SF-C50USB-D1.5-Side
SINCEREFIRST
This is USB OCHFA10 CMOS separated 1.5mm industrial side - view endoscope camera module. It takes side - view imaging combined with an 86° field of view as its core advantage, enabling it to accurately capture a wide range of side - scene views. Both the Horizontal Field of View (HFOV) and Vertical Field of View (VFOV) reach 86°, effectively solving the problem of limited side observation range of traditional endoscopes and making the imaging of subtle areas more comprehensive. It is equipped with the OmniVision OVCHFA10 CMOS color image sensor. The 1/18 - inch sensor size, combined with a pixel size of 1.008 μm × 1.008 μm, can output clear 700x700 resolution color images and support a maximum frame rate of 30FPS, ensuring no motion blur during dynamic observation. In terms of optical performance, the module has a short focal length of 0.418mm and an F5.0 aperture. Coupled with a precise focusing range of 5 - 50mm and a manual focusing design, it can flexibly adapt to observation needs at different distances. Moreover, the distortion is controlled within < - 11%, ensuring the geometric accuracy of the imaging. The product adopts a separated design, with a lens diameter of only 1.5mm, allowing it to easily penetrate into narrow spaces for detection. At the same time, it is equipped with a USB2.0 interface and supports the UVC protocol, enabling plug - and - play convenient connection. Advanced SMT technology and AA process are used in the production process to ensure the stability and consistency of the module, providing reliable high - definition imaging support for medical, industrial testing and other scenarios. | ![]() |
1. Outstanding Vision and Observation: Side - view imaging combined with an 86° field of view breaks through the limitation of the side observation range of traditional endoscopes, enabling it to comprehensively capture scenes in subtle side areas and improve the integrity of observation.
2. HD Imaging Performance: Equipped with the OVCHFA10 CMOS sensor, the 1/18 - inch sensor size, together with a pixel size of 1.008 μm × 1.008 μm, outputs 700x700 resolution color images. It supports a maximum frame rate of 30FPS, presenting clear image details.
3. Flexible and Precise Optical Adaptability: The combination of a 0.418mm short focal length and an F5.0 aperture, along with a precise focusing range of 5 - 50mm and a manual focusing design, can flexibly meet observation needs at different distances. The distortion is controlled within < - 11% to ensure the geometric accuracy of the imaging.
4. Convenient and Practical Design: Adopting a separated design, the lens has a diameter of only 1.5mm, making it easy to penetrate into narrow spaces for detection. It is equipped with a USB2.0 interface and supports the UVC protocol, realizing plug - and - play for convenient operation.
5. Stable and Reliable Process: Advanced SMT technology and AA process are used in production to ensure the high quality of the module in terms of stability and consistency and extend its service life.
Industrial Testing Field: It can be used for defect detection in narrow spaces such as small gaps inside precision machinery, the side inner walls of pipelines, and solder joints of electronic components. For example, it can detect the side wear of internal pipelines in automobile engines and the side connection status of circuit board solder joints.
Medical Auxiliary Field: It is suitable for observing the side tissues of human body cavities. For instance, in otolaryngology, it can check the side mucosa status of the middle ear canal; in stomatology, it can detect side caries on the adjacent surfaces of teeth, providing clear imaging support for diagnosis.
Scientific Research Experiment Scenario: It is used for observing and researching the side structures of micro samples. For example, in materials science, it can analyze the side textures of micro materials; in biology, it can observe the side morphology of biological samples, providing reliable image data for experiments.
Sensor | OCHFA10 |
Lens Material | Plastic |
Connector | Mini USB-5P |
Diameter | 3.6mm |
F No. | 5.0 |
Basic tolerance | ±0.1mm |
Focusing Range | 5~50mm |
Focal Length | 0.418mm |
F Number | 4.0 |
FOV(H*V) | 86°*86° |
TV Distortion | <-11% |
Sterilization history, sensor wear (e.g. number of hours on) must be confirmed, and must be re-certified by the original manufacturer, otherwise there is a risk of cross-infection or performance.
For comprehensive resolution, durability, and after-sales support (such as medical modules that require calibration services from manufacturers), industrial scenarios can prioritize MTBF (mean time to failure) indicators.
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).
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.
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).
This is USB OCHFA10 CMOS separated 1.5mm industrial side - view endoscope camera module. It takes side - view imaging combined with an 86° field of view as its core advantage, enabling it to accurately capture a wide range of side - scene views. Both the Horizontal Field of View (HFOV) and Vertical Field of View (VFOV) reach 86°, effectively solving the problem of limited side observation range of traditional endoscopes and making the imaging of subtle areas more comprehensive. It is equipped with the OmniVision OVCHFA10 CMOS color image sensor. The 1/18 - inch sensor size, combined with a pixel size of 1.008 μm × 1.008 μm, can output clear 700x700 resolution color images and support a maximum frame rate of 30FPS, ensuring no motion blur during dynamic observation. In terms of optical performance, the module has a short focal length of 0.418mm and an F5.0 aperture. Coupled with a precise focusing range of 5 - 50mm and a manual focusing design, it can flexibly adapt to observation needs at different distances. Moreover, the distortion is controlled within < - 11%, ensuring the geometric accuracy of the imaging. The product adopts a separated design, with a lens diameter of only 1.5mm, allowing it to easily penetrate into narrow spaces for detection. At the same time, it is equipped with a USB2.0 interface and supports the UVC protocol, enabling plug - and - play convenient connection. Advanced SMT technology and AA process are used in the production process to ensure the stability and consistency of the module, providing reliable high - definition imaging support for medical, industrial testing and other scenarios. | ![]() |
1. Outstanding Vision and Observation: Side - view imaging combined with an 86° field of view breaks through the limitation of the side observation range of traditional endoscopes, enabling it to comprehensively capture scenes in subtle side areas and improve the integrity of observation.
2. HD Imaging Performance: Equipped with the OVCHFA10 CMOS sensor, the 1/18 - inch sensor size, together with a pixel size of 1.008 μm × 1.008 μm, outputs 700x700 resolution color images. It supports a maximum frame rate of 30FPS, presenting clear image details.
3. Flexible and Precise Optical Adaptability: The combination of a 0.418mm short focal length and an F5.0 aperture, along with a precise focusing range of 5 - 50mm and a manual focusing design, can flexibly meet observation needs at different distances. The distortion is controlled within < - 11% to ensure the geometric accuracy of the imaging.
4. Convenient and Practical Design: Adopting a separated design, the lens has a diameter of only 1.5mm, making it easy to penetrate into narrow spaces for detection. It is equipped with a USB2.0 interface and supports the UVC protocol, realizing plug - and - play for convenient operation.
5. Stable and Reliable Process: Advanced SMT technology and AA process are used in production to ensure the high quality of the module in terms of stability and consistency and extend its service life.
Industrial Testing Field: It can be used for defect detection in narrow spaces such as small gaps inside precision machinery, the side inner walls of pipelines, and solder joints of electronic components. For example, it can detect the side wear of internal pipelines in automobile engines and the side connection status of circuit board solder joints.
Medical Auxiliary Field: It is suitable for observing the side tissues of human body cavities. For instance, in otolaryngology, it can check the side mucosa status of the middle ear canal; in stomatology, it can detect side caries on the adjacent surfaces of teeth, providing clear imaging support for diagnosis.
Scientific Research Experiment Scenario: It is used for observing and researching the side structures of micro samples. For example, in materials science, it can analyze the side textures of micro materials; in biology, it can observe the side morphology of biological samples, providing reliable image data for experiments.
Sensor | OCHFA10 |
Lens Material | Plastic |
Connector | Mini USB-5P |
Diameter | 3.6mm |
F No. | 5.0 |
Basic tolerance | ±0.1mm |
Focusing Range | 5~50mm |
Focal Length | 0.418mm |
F Number | 4.0 |
FOV(H*V) | 86°*86° |
TV Distortion | <-11% |
Sterilization history, sensor wear (e.g. number of hours on) must be confirmed, and must be re-certified by the original manufacturer, otherwise there is a risk of cross-infection or performance.
For comprehensive resolution, durability, and after-sales support (such as medical modules that require calibration services from manufacturers), industrial scenarios can prioritize MTBF (mean time to failure) indicators.
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).
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.
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).
