| Quantity: | |
|---|---|
SF-G2013EJ23+SF-WiFiE3
SINCEREFIRST
The Sensor BF2013 is a highly efficient VGA camera module ,which is a Mini Camera Module integrates a CMOS image sensor (CIS) and image signal processing (ISP) functions, offering exceptional image quality with ultra-low dark noise and high sensitivity. With a range of integrated features, including noise-canceling this Mini Endoscope Camera Module is equipped for precise control over exposure, white balance, and color saturation. This endoscope camera module supports two-wire serial interface, providing flexibility for users to control sensor settings and adjust image quality. Capable of running at up to 30 frames per second at a 24 MHz clock in VGA mode, this Medical Endoscope Camera Module is ideal for applications like medical imaging and industrial inspections, including use in Wifi Endoscope Camera Modules for wireless operation.
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Integration: Combines CMOS sensor and image signal processing (ISP).
Sensor: 653 x 493 pixels, ultra-low dark noise, high sensitivity.
Flexible Data Formats: Supports Bayer RGB, RGB444, RGB555, RGB565, YCbCr 4:2:2.
Control and Processing: Auto exposure, white balance, and color saturation adjustments via serial interface.
1. Aircraft fuel tank: WiFi module realizes wireless transmission in confined space, VGA resolution detects 0.2mm cracks, dark noise optimization penetrates coating interference, and supports remote control of robot crawlers.
2. Electromagnetic navigation bronchoscope: VGA resolution supports 3D CT reconstruction, 30fps real-time tracking navigation probe, high-sensitivity sensor captures peripheral pulmonary nodules, and is suitable for sub-millimeter registration of electromagnetic positioning system.
3. On-site disaster assessment: WiFi module builds temporary LAN, VGA image multi-terminal sharing, dark environment optimization penetrates smoke and dust, and supports rapid injury assessment of collapsed casualties.
Product Name | Endoscope Camera Module |
Features | Smallest Endoscope Camera Module |
Length | 0402 LED |
Sensor | BF2013 |
Focusing Range | 20-66mm |
Fov(D) | 88° |
Focal Length | 3.75mm |
Keyword | cmos camera module |
Circle | 4.8mm |
TV Distortion | 0402 White Led |
FAQ
1. What is the difference between medical and industrial endoscope modules?
The medical module emphasizes biocompatibility, sterilization and high image quality, and needs to comply with FDA/CE certification; Industrial modules focus on durability (such as corrosion protection), wide temperature operation (-20°C to 70°C), and special light sources (such as UV).
2. Why is low illumination performance important for endoscope modules?
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.
3. What is the significance of the depth of field range of the module?
Large depth of field 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.
The Sensor BF2013 is a highly efficient VGA camera module ,which is a Mini Camera Module integrates a CMOS image sensor (CIS) and image signal processing (ISP) functions, offering exceptional image quality with ultra-low dark noise and high sensitivity. With a range of integrated features, including noise-canceling this Mini Endoscope Camera Module is equipped for precise control over exposure, white balance, and color saturation. This endoscope camera module supports two-wire serial interface, providing flexibility for users to control sensor settings and adjust image quality. Capable of running at up to 30 frames per second at a 24 MHz clock in VGA mode, this Medical Endoscope Camera Module is ideal for applications like medical imaging and industrial inspections, including use in Wifi Endoscope Camera Modules for wireless operation.
|
Integration: Combines CMOS sensor and image signal processing (ISP).
Sensor: 653 x 493 pixels, ultra-low dark noise, high sensitivity.
Flexible Data Formats: Supports Bayer RGB, RGB444, RGB555, RGB565, YCbCr 4:2:2.
Control and Processing: Auto exposure, white balance, and color saturation adjustments via serial interface.
1. Aircraft fuel tank: WiFi module realizes wireless transmission in confined space, VGA resolution detects 0.2mm cracks, dark noise optimization penetrates coating interference, and supports remote control of robot crawlers.
2. Electromagnetic navigation bronchoscope: VGA resolution supports 3D CT reconstruction, 30fps real-time tracking navigation probe, high-sensitivity sensor captures peripheral pulmonary nodules, and is suitable for sub-millimeter registration of electromagnetic positioning system.
3. On-site disaster assessment: WiFi module builds temporary LAN, VGA image multi-terminal sharing, dark environment optimization penetrates smoke and dust, and supports rapid injury assessment of collapsed casualties.
Product Name | Endoscope Camera Module |
Features | Smallest Endoscope Camera Module |
Length | 0402 LED |
Sensor | BF2013 |
Focusing Range | 20-66mm |
Fov(D) | 88° |
Focal Length | 3.75mm |
Keyword | cmos camera module |
Circle | 4.8mm |
TV Distortion | 0402 White Led |
FAQ
1. What is the difference between medical and industrial endoscope modules?
The medical module emphasizes biocompatibility, sterilization and high image quality, and needs to comply with FDA/CE certification; Industrial modules focus on durability (such as corrosion protection), wide temperature operation (-20°C to 70°C), and special light sources (such as UV).
2. Why is low illumination performance important for endoscope modules?
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.
3. What is the significance of the depth of field range of the module?
Large depth of field 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.
