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SF-TA10USB-D0.9+SF-C20-USB
SINCEREFIRST
This is medical WiFi-enabled BF2013 CMOS integrated LED endoscope camera module. The module supports 0.3MP pixels and VGA resolution (640×480), delivering smooth real-time imaging at up to 30 frames per second. The sensor size is 1/31 inch, with a pixel size of 2.25μm×2.25μm, ensuring excellent low-light performance. The module features an 88° field of view (FOV), a focus range of 20~60mm, and a maximum image circle of 4.8mm. It adopts a manual focus mechanism and an integrated design. The lens, with a diameter of 3.5mm and a steel shell, is robust and durable. It also incorporates six 0402 LED lights to provide sufficient illumination. Using a DVP interface to connect to a dedicated WiFi transmission board, it can wirelessly transmit images in real time to mobile phones or computers. The entire module is manufactured using SMT (Surface Mount Technology) and AA (Active Alignment) processes, ensuring consistent optical performance and stability. |  |
Wireless Connectivity and Ease of Operation: Utilizing WiFi wireless transmission technology, it completely eliminates the constraints of traditional cables. This provides doctors with greater mobility during procedures, reduces cable tangling issues in surgeries, and enhances operational convenience and flexibility.
Integrated Lighting and Excellent Imaging: The built-in six high-performance LED fill lights provide uniform and ample illumination. Combined with the large 2.25μm pixel size design, it ensures clear and bright image quality even in low-light environments within body cavities, meeting diagnostic requirements.
Compact Design and Easy Integration: The integrated design and ultra-thin 3.5mm diameter allow for easy integration into various medical instruments. The steel-shell lens enhances durability, making it suitable for use in different clinical environments.
Real-Time Sharing and Collaborative Diagnosis: Through WiFi connectivity, images can be transmitted in real time to multiple display devices, enabling medical teams to view them simultaneously. This supports remote consultations and teaching demonstrations, facilitating teamwork and knowledge sharing.
Low Cost and High Reliability: Manufactured using SMT and AA processes, the module ensures product consistency and reliability while reducing production costs, making high-quality endoscopic inspection technology more accessible and affordable.
Product Name | Micro Endoscope Camera Module |
Features | DVP Interface |
Resolution | VGA |
Sensor | BF2013 CMOS sensor |
Diameter | 3.5mm |
Focusing Range | 20~60mm |
LED | 0402 6Pcs |
Trademark | SINCERE FIRST |
Fov | 88° |
Focus | Fixed |
Disposable Wireless Endoscopic Examinations: Particularly suitable for disposable bronchoscopes, gastrointestinal endoscopes, and other examinations. The wireless design eliminates complex cable management, reduces the barrier to use, and improves examination efficiency.
Emergency and Bedside Diagnostics: In emergency rooms or bedside examinations, wireless connectivity allows doctors to perform endoscopic inspections quickly without complicated equipment setup, enhancing diagnostic speed and patient turnover.
Medical Teaching and Training: Wireless transmission allows multiple trainees to view real-time images simultaneously, making it ideal for endoscopy operation teaching and skill training, thereby improving teaching effectiveness and training efficiency.
Veterinary Medicine and Animal Healthcare: Also applicable in pet hospitals and animal healthcare. The wireless design makes animal examinations more convenient and safer, improving the accuracy of veterinary diagnostics.
A1: Its most standout features are its highly integrated design and wireless connectivity. It combines a CMOS sensor, LED fill lights, and a WiFi transmission module into an extremely compact design (only 3.5mm in diameter), completely eliminating the constraints of traditional endoscope cables. It wirelessly transmits real-time video to mobile phones or computers via WiFi.
A2: It is very simple to use. Once powered, the module creates a WiFi hotspot. You just need to connect your phone or computer to this hotspot, then open a dedicated APP or computer software (or universal webcam software) to view the live video. Typically, no complicated drivers are required, greatly simplifying integration and usage.
A3: The module supports VGA resolution (640x480) and 0.3MP pixels, paired with six high-performance LED lights for ample illumination. It delivers clear and smooth real-time video (30fps). Its large 2.25μm pixel size ensures excellent light sensitivity in low-light environments within body cavities. This resolution is well-suited for clinical applications such as observation, positioning, and preliminary diagnosis.
A4: In an unobstructed environment, the transmission range can typically reach up to 10 meters, sufficient for most operating room or examination room applications. The wireless design avoids electromagnetic interference (EMI) from cables, ensuring high transmission stability and reliable video signals during procedures and examinations.
A5: The lens part of the module has a diameter of 3.5mm and is equipped with a protective steel sleeve, making it sturdy and durable. This size is already suitable for many natural body cavities. If a thinner size is required, other models may need to be considered.
This is medical WiFi-enabled BF2013 CMOS integrated LED endoscope camera module. The module supports 0.3MP pixels and VGA resolution (640×480), delivering smooth real-time imaging at up to 30 frames per second. The sensor size is 1/31 inch, with a pixel size of 2.25μm×2.25μm, ensuring excellent low-light performance. The module features an 88° field of view (FOV), a focus range of 20~60mm, and a maximum image circle of 4.8mm. It adopts a manual focus mechanism and an integrated design. The lens, with a diameter of 3.5mm and a steel shell, is robust and durable. It also incorporates six 0402 LED lights to provide sufficient illumination. Using a DVP interface to connect to a dedicated WiFi transmission board, it can wirelessly transmit images in real time to mobile phones or computers. The entire module is manufactured using SMT (Surface Mount Technology) and AA (Active Alignment) processes, ensuring consistent optical performance and stability. | |
Wireless Connectivity and Ease of Operation: Utilizing WiFi wireless transmission technology, it completely eliminates the constraints of traditional cables. This provides doctors with greater mobility during procedures, reduces cable tangling issues in surgeries, and enhances operational convenience and flexibility.
Integrated Lighting and Excellent Imaging: The built-in six high-performance LED fill lights provide uniform and ample illumination. Combined with the large 2.25μm pixel size design, it ensures clear and bright image quality even in low-light environments within body cavities, meeting diagnostic requirements.
Compact Design and Easy Integration: The integrated design and ultra-thin 3.5mm diameter allow for easy integration into various medical instruments. The steel-shell lens enhances durability, making it suitable for use in different clinical environments.
Real-Time Sharing and Collaborative Diagnosis: Through WiFi connectivity, images can be transmitted in real time to multiple display devices, enabling medical teams to view them simultaneously. This supports remote consultations and teaching demonstrations, facilitating teamwork and knowledge sharing.
Low Cost and High Reliability: Manufactured using SMT and AA processes, the module ensures product consistency and reliability while reducing production costs, making high-quality endoscopic inspection technology more accessible and affordable.
Product Name | Micro Endoscope Camera Module |
Features | DVP Interface |
Resolution | VGA |
Sensor | BF2013 CMOS sensor |
Diameter | 3.5mm |
Focusing Range | 20~60mm |
LED | 0402 6Pcs |
Trademark | SINCERE FIRST |
Fov | 88° |
Focus | Fixed |
Disposable Wireless Endoscopic Examinations: Particularly suitable for disposable bronchoscopes, gastrointestinal endoscopes, and other examinations. The wireless design eliminates complex cable management, reduces the barrier to use, and improves examination efficiency.
Emergency and Bedside Diagnostics: In emergency rooms or bedside examinations, wireless connectivity allows doctors to perform endoscopic inspections quickly without complicated equipment setup, enhancing diagnostic speed and patient turnover.
Medical Teaching and Training: Wireless transmission allows multiple trainees to view real-time images simultaneously, making it ideal for endoscopy operation teaching and skill training, thereby improving teaching effectiveness and training efficiency.
Veterinary Medicine and Animal Healthcare: Also applicable in pet hospitals and animal healthcare. The wireless design makes animal examinations more convenient and safer, improving the accuracy of veterinary diagnostics.
A1: Its most standout features are its highly integrated design and wireless connectivity. It combines a CMOS sensor, LED fill lights, and a WiFi transmission module into an extremely compact design (only 3.5mm in diameter), completely eliminating the constraints of traditional endoscope cables. It wirelessly transmits real-time video to mobile phones or computers via WiFi.
A2: It is very simple to use. Once powered, the module creates a WiFi hotspot. You just need to connect your phone or computer to this hotspot, then open a dedicated APP or computer software (or universal webcam software) to view the live video. Typically, no complicated drivers are required, greatly simplifying integration and usage.
A3: The module supports VGA resolution (640x480) and 0.3MP pixels, paired with six high-performance LED lights for ample illumination. It delivers clear and smooth real-time video (30fps). Its large 2.25μm pixel size ensures excellent light sensitivity in low-light environments within body cavities. This resolution is well-suited for clinical applications such as observation, positioning, and preliminary diagnosis.
A4: In an unobstructed environment, the transmission range can typically reach up to 10 meters, sufficient for most operating room or examination room applications. The wireless design avoids electromagnetic interference (EMI) from cables, ensuring high transmission stability and reliable video signals during procedures and examinations.
A5: The lens part of the module has a diameter of 3.5mm and is equipped with a protective steel sleeve, making it sturdy and durable. This size is already suitable for many natural body cavities. If a thinner size is required, other models may need to be considered.
