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.
Across many regions of the world, especially in developing countries and isolated communities, access to advanced medical diagnostics depends on how effectively local clinics can connect with remote specialists.
Advances in medical imaging are redefining what surgeons can achieve during minimally invasive procedures.
In modern clinical practice, imaging precision defines treatment accuracy. Choosing the right Medical Endoscope determines how well surgeons and diagnosticians visualize tissue structures, identify abnormalities, and perform minimally invasive procedures safely.
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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
As a professional platform focused on robotic surgery team training, the VirtaMed RoboS Simulator derives its core value from creating a highly realistic simulation environment that enables seamless transition from skill training to clinical application. The endoscope imaging system, as the core car
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
In the design of separated endoscope camera modules, the connection method between the lens and the DSP board directly affects the product’s miniaturization capability, transmission stability, and scenario adaptability. Currently, the mainstream connection methods—wire bonding, MIPI/DVP interface, a
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-C1019USB-D6.0-SV-L25-D110
SINCEREFIRST
| This is the OV9734 CMOS 6mm Diameter LED Pipeline Inspection Side-View Endoscope Camera Module, specifically designed for high-definition observation in narrow spaces. It features the OmniVision OV9734 CMOS color image sensor as its core, with 1MP pixel resolution, supporting 720P HD resolution and a smooth frame rate of 30FPS. In terms of optical configuration, the module is equipped with a lens with an aperture of F4.0, and its field of view (FOV) reaches 95° (diagonal, DFOV), 85° (horizontal, HFOV), and 43.5° (vertical, VFOV). Combined with a focal length of 1.08mm and a depth of field (DOF) range of 10~100mm, it enables wide-angle coverage and clear imaging within a relatively wide distance. Additionally, its TV distortion is less than -10%, which effectively minimizes image distortion. It also supports manual focusing, allowing precise adjustment of clarity according to observation needs. In practical applications, the module’s side-view imaging design works efficiently with the wide-angle lens. When dealing with narrow spaces, it can cover a large side-area without frequent angle adjustments of the module, significantly reducing observation blind spots and improving inspection efficiency. For the interface, it adopts a USB2.0 interface and supports the UVC protocol, enabling convenient compatibility with various devices such as computers and industrial computers. In terms of structure, it features a detachable design; the lens is equipped with a steel shell, which has a diameter of only 6mm and a length of 25mm, allowing flexible access to narrow inspection spaces. The lens is also integrated with 4 0402 LED beads for supplementary lighting. The entire module is manufactured using SMT (Surface Mount Technology) process and AA (Active Alignment) process, ensuring product consistency and reliability. | ![]() |
Minimized Blind Spots: The 95° ultra-wide diagonal FOV combined with a unique side-view imaging design allows direct lateral observation without rotating the module, effectively addressing blind spots inherent in straight-view systems and greatly enhancing inspection efficiency in pipelines, cavities, and other complex environments.
Compact and Rugged: With a lens diameter of just 6mm and integrated micro-LEDs, it achieves seamless integration of lighting and imaging. The 25mm steel shell ensures mechanical strength and durability during deep inspections.
Plug-and-Play: Standard USB 2.0 interface with UVC protocol support enables quick compatibility with most operating systems (e.g., Windows, Linux, macOS) without additional drivers, significantly reducing integration complexity and development time.
Superior Quality: Manufactured with SMT and AA active alignment processes, it guarantees high precision alignment between the lens and sensor, delivering stable, clear, and consistent image quality with TV distortion controlled within -10%.
Product Name | Side View 6mm endoscope camera module |
Features | Inspection endoscope camera module |
Pixel Size | 1MP |
Sensor | OV9734 |
TV Distortion | <-10% |
Focal Length | 1.08mm |
FOV(D) | 95°, 85°, 43.5° |
Trademark | SINCERE FIRST |
Interface | USB2.0 |
Focusing Range | 10-100mm |
1. Medical and Healthcare Field: Suitable for small human cavity inspections such as dental root canal examinations and ENT (Ear, Nose, Throat) cavity observation. The 6mm thin steel shell allows gentle insertion; the side-view imaging combined with wide-angle can clearly present the details of cavity walls, and the LED supplementary lighting can cope with the dark environment inside the cavity, helping medical staff make accurate judgments.
2. Industrial Inspection Field: Used for inspections of internal chambers of precision equipment and inner walls of small hydraulic/pneumatic pipes. The side-view and wide-angle design enables comprehensive observation of wear, blockage, or corrosion on the sidewalls of pipelines; the 10~100mm depth of field adapts to the observation needs of different pipe diameters, helping maintenance personnel detect faults in a timely manner.
3. Electronic Manufacturing Field: Applicable to scenarios such as appearance inspection of micro solder joints on PCB boards and internal observation of chip packaging. Manual focusing can accurately capture subtle defects such as cold solder joints and packaging cracks; the detachable design facilitates flexible arrangement in production lines, improving inspection efficiency.
4. Automotive Maintenance Field: Used for inspections of internal chambers of small auto parts and automotive pipelines. The 6mm steel shell can penetrate narrow spaces; the wide-angle side-view enables comprehensive inspection of internal structural problems, assisting maintenance personnel in accurately locating fault points.
5. Cultural Relics Restoration Field: Suitable for observing narrow gaps and holes of cultural relics. Low-distortion imaging and precise focusing can clearly present the internal details of cultural relics, avoiding secondary damage to cultural relics during the restoration process and providing a basis for formulating restoration plans.
FAQ
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.
In case of insufficient light in the body or pipeline environment, the module needs a high sensitivity sensor and a large aperture lens, and the noise reduction algorithm ensures the clarity of the dark field. Some products use infrared fill light or HDR technology to improve low light performance.
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.
It is specifically designed for high-definition observation in narrow spaces. Its 6mm-diameter steel shell lens can flexibly access tight areas.
| This is the OV9734 CMOS 6mm Diameter LED Pipeline Inspection Side-View Endoscope Camera Module, specifically designed for high-definition observation in narrow spaces. It features the OmniVision OV9734 CMOS color image sensor as its core, with 1MP pixel resolution, supporting 720P HD resolution and a smooth frame rate of 30FPS. In terms of optical configuration, the module is equipped with a lens with an aperture of F4.0, and its field of view (FOV) reaches 95° (diagonal, DFOV), 85° (horizontal, HFOV), and 43.5° (vertical, VFOV). Combined with a focal length of 1.08mm and a depth of field (DOF) range of 10~100mm, it enables wide-angle coverage and clear imaging within a relatively wide distance. Additionally, its TV distortion is less than -10%, which effectively minimizes image distortion. It also supports manual focusing, allowing precise adjustment of clarity according to observation needs. In practical applications, the module’s side-view imaging design works efficiently with the wide-angle lens. When dealing with narrow spaces, it can cover a large side-area without frequent angle adjustments of the module, significantly reducing observation blind spots and improving inspection efficiency. For the interface, it adopts a USB2.0 interface and supports the UVC protocol, enabling convenient compatibility with various devices such as computers and industrial computers. In terms of structure, it features a detachable design; the lens is equipped with a steel shell, which has a diameter of only 6mm and a length of 25mm, allowing flexible access to narrow inspection spaces. The lens is also integrated with 4 0402 LED beads for supplementary lighting. The entire module is manufactured using SMT (Surface Mount Technology) process and AA (Active Alignment) process, ensuring product consistency and reliability. | ![]() |
Minimized Blind Spots: The 95° ultra-wide diagonal FOV combined with a unique side-view imaging design allows direct lateral observation without rotating the module, effectively addressing blind spots inherent in straight-view systems and greatly enhancing inspection efficiency in pipelines, cavities, and other complex environments.
Compact and Rugged: With a lens diameter of just 6mm and integrated micro-LEDs, it achieves seamless integration of lighting and imaging. The 25mm steel shell ensures mechanical strength and durability during deep inspections.
Plug-and-Play: Standard USB 2.0 interface with UVC protocol support enables quick compatibility with most operating systems (e.g., Windows, Linux, macOS) without additional drivers, significantly reducing integration complexity and development time.
Superior Quality: Manufactured with SMT and AA active alignment processes, it guarantees high precision alignment between the lens and sensor, delivering stable, clear, and consistent image quality with TV distortion controlled within -10%.
Product Name | Side View 6mm endoscope camera module |
Features | Inspection endoscope camera module |
Pixel Size | 1MP |
Sensor | OV9734 |
TV Distortion | <-10% |
Focal Length | 1.08mm |
FOV(D) | 95°, 85°, 43.5° |
Trademark | SINCERE FIRST |
Interface | USB2.0 |
Focusing Range | 10-100mm |
1. Medical and Healthcare Field: Suitable for small human cavity inspections such as dental root canal examinations and ENT (Ear, Nose, Throat) cavity observation. The 6mm thin steel shell allows gentle insertion; the side-view imaging combined with wide-angle can clearly present the details of cavity walls, and the LED supplementary lighting can cope with the dark environment inside the cavity, helping medical staff make accurate judgments.
2. Industrial Inspection Field: Used for inspections of internal chambers of precision equipment and inner walls of small hydraulic/pneumatic pipes. The side-view and wide-angle design enables comprehensive observation of wear, blockage, or corrosion on the sidewalls of pipelines; the 10~100mm depth of field adapts to the observation needs of different pipe diameters, helping maintenance personnel detect faults in a timely manner.
3. Electronic Manufacturing Field: Applicable to scenarios such as appearance inspection of micro solder joints on PCB boards and internal observation of chip packaging. Manual focusing can accurately capture subtle defects such as cold solder joints and packaging cracks; the detachable design facilitates flexible arrangement in production lines, improving inspection efficiency.
4. Automotive Maintenance Field: Used for inspections of internal chambers of small auto parts and automotive pipelines. The 6mm steel shell can penetrate narrow spaces; the wide-angle side-view enables comprehensive inspection of internal structural problems, assisting maintenance personnel in accurately locating fault points.
5. Cultural Relics Restoration Field: Suitable for observing narrow gaps and holes of cultural relics. Low-distortion imaging and precise focusing can clearly present the internal details of cultural relics, avoiding secondary damage to cultural relics during the restoration process and providing a basis for formulating restoration plans.
FAQ
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.
In case of insufficient light in the body or pipeline environment, the module needs a high sensitivity sensor and a large aperture lens, and the noise reduction algorithm ensures the clarity of the dark field. Some products use infrared fill light or HDR technology to improve low light performance.
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.
It is specifically designed for high-definition observation in narrow spaces. Its 6mm-diameter steel shell lens can flexibly access tight areas.
