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.
photo introduction photo introduction photo introduction photo introduction photo introduction photo introduction photo introduction photo introduction photo introduction photo introduction photo introduction photo introductionphoto introduction photo introduction photo introduction photo introducti
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
Modern medicine has transformed the way doctors diagnose and treat conditions inside the human body. Among the most powerful diagnostic tools available today is the Endoscope Camera, a device that allows physicians to look directly into internal organs without the need for large surgical incisions. From digestive health monitoring to preventive cancer screening, the endoscope has become essential for accurate, minimally invasive diagnostics.
| Availability: | |
|---|---|
| Quantity: | |
SF-SJN345
SINCEREFIRST
This is VGA resolution CSI BF20A6 USB 2.0 medical 4.5mm bare endoscope camera component. It utilizes the BF20A6 CMOS color sensor, delivering 640 × 480 @ 30 fps and 0.3 MP resolution. The 1/10-inch sensor features large 1.6 µm × 1.6 µm pixels to markedly enhance imaging in low-light conditions. Six high-brightness LEDs in a ring configuration, combined with an F2.8 aperture and 72° wide-angle lens, provide shadow-free, uniform illumination for clear visualization within confined spaces. USB 2.0 high-speed transmission is supported, and the module is available in both a 4.5 mm bare version and a 5 mm stainless-sleeved version, purpose-built for precision visualization tasks such as industrial inspection and medical endoscopy. | ![]() |
Low-Light Imaging Optimization: Large 1.6 µm × 1.6 µm pixels on a 1/10-inch BF20A6 CMOS sensor, paired with an F2.8 aperture, markedly enhance image quality under dim lighting.
Efficient Illumination: Six high-brightness LEDs in a ring configuration, together with a 72° wide-angle lens, deliver shadow-free, uniform lighting in tight spaces, ensuring clear visuals.
Portability & Compatibility: Available in two form factors—φ4.5 mm bare module and φ5 mm stainless-sleeved module—to suit varied applications; USB 2.0 enables high-speed data transfer for real-time imaging and operation.
Precision Application: Purpose-built for medical endoscopy and industrial inspection, the VGA resolution (640 × 480 @ 30 fps) meets fundamental visualization needs while balancing performance and cost.
Product Name | 0.3MP Endoscope Camera Module |
Features | Micro Endoscope Camera Module |
Pixel | 1.6um*1.6um |
Sensor | BF20A6 sensor |
Diameter | 4.5mm or 5mm |
Interface | USB2.0 |
FOV | 72° |
Connector | USB 5PIN |
F.NO | 2.8 |
Warranty | 10 Years |
Dental & Ophthalmic Examination: With an ultra-slim 4.5 mm diameter and 6-LED ring illumination, the module is ideal for root-canal procedures or retinal inspections, minimizing patient discomfort.
Precision Equipment Maintenance: The stainless-sleeved 5 mm variant can safely enter narrow spaces inside engines, pipelines, or machinery to detect wear, blockages, or other faults.
Electronic Component QC: The 640 × 480 VGA resolution provides sufficient detail for inspecting PCB solder joints and miniature components, delivering cost-effective basic quality control.
FAQ
1. 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 are multi-integrated dedicated medical image interfaces.
2. What are the common specifications of the resolution of the endoscope camera module?
Mainstream resolutions include 720p, 1080p, 4K, etc. Medical grade modules usually require more than 1080p to ensure diagnostic accuracy, while industrial modules may choose lower resolutions to reduce costs according to demand. Ultra-high resolution modules (such as 4K) are mostly used in precision surgery or scientific research.
3. How does the Field of view (FOV) of the module affect the use effect?
The field of view Angle determines the imaging range. The wide Angle is suitable for observing a large area, but the edge may be distorted. Narrow angles provide a more focused picture. The selection should be based on the application scenario, such as laparoscopic surgery commonly used 70°-90° balanced field of view and detail.
This is VGA resolution CSI BF20A6 USB 2.0 medical 4.5mm bare endoscope camera component. It utilizes the BF20A6 CMOS color sensor, delivering 640 × 480 @ 30 fps and 0.3 MP resolution. The 1/10-inch sensor features large 1.6 µm × 1.6 µm pixels to markedly enhance imaging in low-light conditions. Six high-brightness LEDs in a ring configuration, combined with an F2.8 aperture and 72° wide-angle lens, provide shadow-free, uniform illumination for clear visualization within confined spaces. USB 2.0 high-speed transmission is supported, and the module is available in both a 4.5 mm bare version and a 5 mm stainless-sleeved version, purpose-built for precision visualization tasks such as industrial inspection and medical endoscopy. | ![]() |
Low-Light Imaging Optimization: Large 1.6 µm × 1.6 µm pixels on a 1/10-inch BF20A6 CMOS sensor, paired with an F2.8 aperture, markedly enhance image quality under dim lighting.
Efficient Illumination: Six high-brightness LEDs in a ring configuration, together with a 72° wide-angle lens, deliver shadow-free, uniform lighting in tight spaces, ensuring clear visuals.
Portability & Compatibility: Available in two form factors—φ4.5 mm bare module and φ5 mm stainless-sleeved module—to suit varied applications; USB 2.0 enables high-speed data transfer for real-time imaging and operation.
Precision Application: Purpose-built for medical endoscopy and industrial inspection, the VGA resolution (640 × 480 @ 30 fps) meets fundamental visualization needs while balancing performance and cost.
Product Name | 0.3MP Endoscope Camera Module |
Features | Micro Endoscope Camera Module |
Pixel | 1.6um*1.6um |
Sensor | BF20A6 sensor |
Diameter | 4.5mm or 5mm |
Interface | USB2.0 |
FOV | 72° |
Connector | USB 5PIN |
F.NO | 2.8 |
Warranty | 10 Years |
Dental & Ophthalmic Examination: With an ultra-slim 4.5 mm diameter and 6-LED ring illumination, the module is ideal for root-canal procedures or retinal inspections, minimizing patient discomfort.
Precision Equipment Maintenance: The stainless-sleeved 5 mm variant can safely enter narrow spaces inside engines, pipelines, or machinery to detect wear, blockages, or other faults.
Electronic Component QC: The 640 × 480 VGA resolution provides sufficient detail for inspecting PCB solder joints and miniature components, delivering cost-effective basic quality control.
FAQ
1. 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 are multi-integrated dedicated medical image interfaces.
2. What are the common specifications of the resolution of the endoscope camera module?
Mainstream resolutions include 720p, 1080p, 4K, etc. Medical grade modules usually require more than 1080p to ensure diagnostic accuracy, while industrial modules may choose lower resolutions to reduce costs according to demand. Ultra-high resolution modules (such as 4K) are mostly used in precision surgery or scientific research.
3. How does the Field of view (FOV) of the module affect the use effect?
The field of view Angle determines the imaging range. The wide Angle is suitable for observing a large area, but the edge may be distorted. Narrow angles provide a more focused picture. The selection should be based on the application scenario, such as laparoscopic surgery commonly used 70°-90° balanced field of view and detail.
