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SF-C1019USB-1000P-D3.9-PLUS-D140 V1.0
SINCEREFIRST
The 3.9mm USB2.0 endoscope camera module features an ES101 sensor, LED lighting, a flexible focusing range of 10-100mm, a short focal length design of 0.75mm, an aperture of F5.2, and an ultra-wide field of view Angle of 140° to capture a clear and wide field of view. Its TV distortion is less than -30%, ensuring that the image is natural and true. The module supports high-quality image capture and is especially suitable for medical imaging and industrial inspection scenarios. |  |
Product Advantage ◢
1. Ultra-small size: The module size is only 3.9mm, easy to integrate in micro devices, suitable for space-limited application scenarios.
2. High resolution and wide field of view: ES101 sensor supports high resolution and wide field of view of 140°, ensuring clear images and wide field of view, easy to observe a wide range of fine structures.
3. Flexible focusing: With a focusing range of 10-100mm, the shooting distance is flexible and adjustable to adapt to the shooting needs of different scenes.
1. Medical equipment: Widely used in endoscopy, to provide doctors with clear image support, help accurate diagnosis and treatment.
2. Industrial testing: Used in industrial testing scenarios, such as pipelines and machinery interiors, to help engineers quickly discover equipment faults or defects, improving detection efficiency and accuracy.
Technical Parameters ◢
Product Name | 3.9MM Endoscope Camera Module |
Features | USB2.0 Medical Endoscope Camera Module |
LED | 0402 White Led |
Sensor | ES101 |
Focal Length | 0.75mm |
Focusing Range | 10-100mm |
Fov(D) | 140° |
Trademark | SINCERE FIRST |
DSP | USB2.0 UVC |
Focus | Fixed |
FAQ ◢
1. What is a endoscope camera module?
The endoscope camera module is an advanced device specifically designed to capture high-definition images and videos of narrow internal structures, widely used in many fields such as medical, industrial and scientific research. In the medical field, the high-speed transmission interface adopted can transmit data in real time, achieve remote consultation and analysis through 6G network connection, and help doctors observe internal organs and tissues and identify potential lesions and health problems. In application, the use of gastroscopy and colonoscopy in general can help doctors directly observe the situation in the digestive tract, perform biopsies and provide immediate feedback, thus improving the accuracy of diagnosis and timeliness of treatment. In the industrial field, endoscopic in-depth inspection of mechanical equipment and pipes helps engineers find wear, corrosion and blockage, and adopts non-destructive detection methods, which greatly improves work efficiency, but also reduces potential safety risks and ensures the normal operation of equipment.
2. How to control an endoscope camera module?
When performing endoscopic operations, the user needs to fully understand the characteristics of the device and ensure that the operation steps are performed accurately to obtain the best image quality and data recording. Therefore, it is particularly important to be familiar with the use of relevant software and equipment to improve work efficiency and imaging effect. The operation of the endoscope camera module includes data transmission, software parameter setting, image processing and image display. For successful operations, seamless collaboration between hardware and software is essential. Endoscope cameras generally operate in a specific voltage range, so it is necessary to prevent fluctuations caused by voltage instability. To ensure a stable connection, the control module is usually connected to devices such as computers, tablets or smartphones through a variety of interfaces, including USB, micro-USB, HDMI and wireless Wi-Fi. Depending on the compatibility of the camera, users can install dedicated software or applications to easily adjust Settings such as zoom, focus, resolution, contrast, and other image parameters. In addition, users can also monitor the video picture in real time and dynamically adjust it according to demand to achieve the best imaging results.
3. Advantages of AI-assisted endoscope modules?
It integrates real-time lesion labeling, surgical navigation, automatic exposure and other functions, and relies on edge computing chips (to achieve low latency processing).
4. How does 3D endoscope achieve stereoscopic vision?
Images of the left and right eyes are captured through a dual lens module or a splitter prism, and synchronously output to a 3D display at ≥1080p/60fps to ensure smooth operation, suitable for minimally invasive surgery.
5. 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.
The 3.9mm USB2.0 endoscope camera module features an ES101 sensor, LED lighting, a flexible focusing range of 10-100mm, a short focal length design of 0.75mm, an aperture of F5.2, and an ultra-wide field of view Angle of 140° to capture a clear and wide field of view. Its TV distortion is less than -30%, ensuring that the image is natural and true. The module supports high-quality image capture and is especially suitable for medical imaging and industrial inspection scenarios. | |
Product Advantage ◢
1. Ultra-small size: The module size is only 3.9mm, easy to integrate in micro devices, suitable for space-limited application scenarios.
2. High resolution and wide field of view: ES101 sensor supports high resolution and wide field of view of 140°, ensuring clear images and wide field of view, easy to observe a wide range of fine structures.
3. Flexible focusing: With a focusing range of 10-100mm, the shooting distance is flexible and adjustable to adapt to the shooting needs of different scenes.
1. Medical equipment: Widely used in endoscopy, to provide doctors with clear image support, help accurate diagnosis and treatment.
2. Industrial testing: Used in industrial testing scenarios, such as pipelines and machinery interiors, to help engineers quickly discover equipment faults or defects, improving detection efficiency and accuracy.
Technical Parameters ◢
Product Name | 3.9MM Endoscope Camera Module |
Features | USB2.0 Medical Endoscope Camera Module |
LED | 0402 White Led |
Sensor | ES101 |
Focal Length | 0.75mm |
Focusing Range | 10-100mm |
Fov(D) | 140° |
Trademark | SINCERE FIRST |
DSP | USB2.0 UVC |
Focus | Fixed |
FAQ ◢
1. What is a endoscope camera module?
The endoscope camera module is an advanced device specifically designed to capture high-definition images and videos of narrow internal structures, widely used in many fields such as medical, industrial and scientific research. In the medical field, the high-speed transmission interface adopted can transmit data in real time, achieve remote consultation and analysis through 6G network connection, and help doctors observe internal organs and tissues and identify potential lesions and health problems. In application, the use of gastroscopy and colonoscopy in general can help doctors directly observe the situation in the digestive tract, perform biopsies and provide immediate feedback, thus improving the accuracy of diagnosis and timeliness of treatment. In the industrial field, endoscopic in-depth inspection of mechanical equipment and pipes helps engineers find wear, corrosion and blockage, and adopts non-destructive detection methods, which greatly improves work efficiency, but also reduces potential safety risks and ensures the normal operation of equipment.
2. How to control an endoscope camera module?
When performing endoscopic operations, the user needs to fully understand the characteristics of the device and ensure that the operation steps are performed accurately to obtain the best image quality and data recording. Therefore, it is particularly important to be familiar with the use of relevant software and equipment to improve work efficiency and imaging effect. The operation of the endoscope camera module includes data transmission, software parameter setting, image processing and image display. For successful operations, seamless collaboration between hardware and software is essential. Endoscope cameras generally operate in a specific voltage range, so it is necessary to prevent fluctuations caused by voltage instability. To ensure a stable connection, the control module is usually connected to devices such as computers, tablets or smartphones through a variety of interfaces, including USB, micro-USB, HDMI and wireless Wi-Fi. Depending on the compatibility of the camera, users can install dedicated software or applications to easily adjust Settings such as zoom, focus, resolution, contrast, and other image parameters. In addition, users can also monitor the video picture in real time and dynamically adjust it according to demand to achieve the best imaging results.
3. Advantages of AI-assisted endoscope modules?
It integrates real-time lesion labeling, surgical navigation, automatic exposure and other functions, and relies on edge computing chips (to achieve low latency processing).
4. How does 3D endoscope achieve stereoscopic vision?
Images of the left and right eyes are captured through a dual lens module or a splitter prism, and synchronously output to a 3D display at ≥1080p/60fps to ensure smooth operation, suitable for minimally invasive surgery.
5. 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.
