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SF-SJN345
SINCEREFIRST
This 0.3MP USB 5-Pin Interface BF20A6 CMOS Sensor Endoscope Camera Module is specifically designed for visual inspection requirements within confined spaces. Its core design objective is to address the challenges of image acquisition in narrow, enclosed environments. Featuring the BF20A6 sensor, it delivers a baseline imaging resolution of 0.3MP and integrates 6 high-brightness LEDs as supplementary illumination sources to ensure clear image information capture inside pipes or cavities lacking natural light ingress. Structurally, the module employs Rigid-Flex PCB technology, with its main body diameter precisely controlled at 4.5mm (5.0mm specifications available upon request), supplemented by 0.2mm steel sheet for localized reinforcement. Data transmission and power supply are accomplished through a USB 5-pin interface. The module is primarily intended for image acquisition within enclosed spaces such as pipes and cavities, adapting to the visual requirements of various endoscopic inspection equipment. |  |
1.Miniaturized Design: The ultra-small diameter provides physical feasibility for entering extremely narrow pipes and微小 cavities inside precision instruments, effectively addressing application pain points where traditional endoscopic probes cannot be used due to excessive size.
2.Integrated Illumination: The module integrates 6 micro LEDs, providing stable and sufficient illumination for the photosensitive element, thereby ensuring image brightness and contrast.
3.Standardized Interface: Utilizes a universal USB 5-pin interface for signal and power transmission, offering plug-and-play functionality.
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 |
1.Non-Destructive Industrial Pipeline Inspection: Applied in evaluating the internal condition of various water pipes, gas pipes, and oil pipes. Used to locate blockages, assess weld quality, identify internal wall corrosion and cracks, providing直观 evidence for pipeline maintenance and repair.
2.Inspection Inside Precision Electronics and Machinery: Enables internal observation of deep holes or cavities within engine blocks, hydraulic valve blocks, and precision instrument bases. In the electronics field, it can be used to inspect solder joint conditions on the backside of circuit boards and the contact status of connectors.
3.Internal Exploration of Building Structures and Home Appliances: Suitable for verifying internal pipeline routing after wall openings and checking embedment situations during renovation. It can also深入 air conditioning ducts, water heater tanks, washing machine drum interlayers, and other appliance interiors for fault diagnosis or foreign object retrieval.
4.Auxiliary Applications in Limited Medical and Veterinary Care: Holds potential for observing superficial natural cavities such as the oral cavity and ear canal. In veterinary medicine, it can be used to examine oral or ear canal issues in animals, or assist in simple procedures like foreign body removal.
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 0.3MP USB 5-Pin Interface BF20A6 CMOS Sensor Endoscope Camera Module is specifically designed for visual inspection requirements within confined spaces. Its core design objective is to address the challenges of image acquisition in narrow, enclosed environments. Featuring the BF20A6 sensor, it delivers a baseline imaging resolution of 0.3MP and integrates 6 high-brightness LEDs as supplementary illumination sources to ensure clear image information capture inside pipes or cavities lacking natural light ingress. Structurally, the module employs Rigid-Flex PCB technology, with its main body diameter precisely controlled at 4.5mm (5.0mm specifications available upon request), supplemented by 0.2mm steel sheet for localized reinforcement. Data transmission and power supply are accomplished through a USB 5-pin interface. The module is primarily intended for image acquisition within enclosed spaces such as pipes and cavities, adapting to the visual requirements of various endoscopic inspection equipment. | |
1.Miniaturized Design: The ultra-small diameter provides physical feasibility for entering extremely narrow pipes and微小 cavities inside precision instruments, effectively addressing application pain points where traditional endoscopic probes cannot be used due to excessive size.
2.Integrated Illumination: The module integrates 6 micro LEDs, providing stable and sufficient illumination for the photosensitive element, thereby ensuring image brightness and contrast.
3.Standardized Interface: Utilizes a universal USB 5-pin interface for signal and power transmission, offering plug-and-play functionality.
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 |
1.Non-Destructive Industrial Pipeline Inspection: Applied in evaluating the internal condition of various water pipes, gas pipes, and oil pipes. Used to locate blockages, assess weld quality, identify internal wall corrosion and cracks, providing直观 evidence for pipeline maintenance and repair.
2.Inspection Inside Precision Electronics and Machinery: Enables internal observation of deep holes or cavities within engine blocks, hydraulic valve blocks, and precision instrument bases. In the electronics field, it can be used to inspect solder joint conditions on the backside of circuit boards and the contact status of connectors.
3.Internal Exploration of Building Structures and Home Appliances: Suitable for verifying internal pipeline routing after wall openings and checking embedment situations during renovation. It can also深入 air conditioning ducts, water heater tanks, washing machine drum interlayers, and other appliance interiors for fault diagnosis or foreign object retrieval.
4.Auxiliary Applications in Limited Medical and Veterinary Care: Holds potential for observing superficial natural cavities such as the oral cavity and ear canal. In veterinary medicine, it can be used to examine oral or ear canal issues in animals, or assist in simple procedures like foreign body removal.
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.
