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SF-C2015USB-1080P-D8
SINCEREFIRST
| This 2MP 1080P Medical Inspection Camera 8mm HD Endoscope Camera Module is a versatile and high-performance solution suitable for various inspection needs. Equipped with a 1/5-inch CMOS sensor, the module delivers 2-megapixel high-definition imaging and outputs 1080P resolution images, clearly presenting the detailed features of the inspected target and providing a reliable visual basis for diagnosis and detection. The module adopts a compact structural design, with a head size of only 31.0mm (length) × 8.0mm (outer diameter, tolerance ±0.10mm), paired with a flexible connecting cable of 3.5±0.15mm in diameter and 230±10mm in length. It can easily access narrow and hard-to-reach spaces, breaking the spatial limitations of traditional detection. In terms of optical configuration, the module is equipped with a lens with a 60° field of view (DFOV), a focal length of f=2.63mm, and an aperture of F2.8, which simultaneously meets the requirements of wide-field coverage and light intake in low-light environments. The focusing range can be flexibly adjusted between 30mm-50mm to accurately focus on inspected targets at different distances, and the TV distortion rate is <1%, effectively avoiding image distortion and ensuring the authenticity of imaging. In addition, the module supports optional 8 LED lights of 0402 specification, which can provide sufficient light sources in dim environments to significantly improve image visibility. In terms of interfaces, it is compatible with Type-C and USB Type A, and also supports a USB2.0 output interface, enabling convenient connection to displays, computers, and other devices for real-time image transmission and data interaction, adapting to multi-scenario application needs such as medical diagnosis and industrial testing. |  |
HD Imaging with Precise Details: Equipped with a 2MP CMOS sensor and 1080P output specification, combined with an optical design with TV distortion rate <1%, it can clearly capture the subtle features of inspected targets (such as tiny lesions in human tissues and minor wear of industrial parts), providing highly reliable image support for subsequent analysis and judgment.
Compact and Flexible with Strong Scene Adaptability: The 8.0mm outer diameter head and flexible connecting cable design can adapt to various narrow-space scenarios (such as human ear canals, blood vessels, and small equipment pipelines). The adjustable focusing range of 30mm-50mm can be flexibly adjusted according to the detection distance, meeting the detection needs of different precision without replacing equipment.
Low-Light Adaptability with High Environmental Fault Tolerance: Optional 8 0402 LED fill lights, paired with an F2.8 large-aperture lens, can still output clear images in low-light or no-light environments, solving the problem of detection blind spots in dim scenarios. It is particularly suitable for low-light scenarios such as deep internal cavities of the human body and enclosed industrial equipment.
Multi-Interface Compatibility for Easy Use: It supports Type-C and USB Type A connecting cables at the same time, and is equipped with a USB2.0 output interface, enabling quick connection to computers, medical displays, industrial control screens, and other devices without additional adapters, simplifying the equipment connection process and improving detection efficiency.
Reliable Quality and Wide Application Range: Adopting a black round steel sleeve as the shell material, it has both wear resistance and corrosion resistance, extending the service life of the module. The production process strictly follows aseptic and dust-free standards, which not only meets the hygiene requirements of medical scenarios but also adapts to the complex working conditions of industrial environments, realizing the reusability of "one module for multiple scenarios".
Gynecological Equipment: Adapts to hysteroscopes for uterine cavity detection—observes endometrium, identifies fibroids/polyps, and guides minimally invasive surgeries.
Respiratory Equipment: Adapts to bronchoscopes for trachea/bronchi/lung airway checks—identifies inflammation/obstruction/tumors and supports biopsy.
Electronic Component Testing: Works with solder joint endoscopes for circuit boards—identifies cold soldering/missing soldering to ensure electronic device stability.
Pipeline Testing: Adapts to industrial pipeline endoscopes for 10mm-50mm metal/plastic pipes—checks corrosion/blockages/weld defects without disassembly, cutting maintenance costs.
Sensor | CMOS sensor |
LED | 0402 LED |
Connector | Type-C |
Image Device | 1/5" inch |
Output Interface | USB2.0 |
Application | Industrial, Medical |
Lens | DFOV60 |
F No. | F2.8 |
A1: Endoscope camera modules are essential tools for visual inspections in various industries, including healthcare, manufacturing, and home repairs. These devices allow users to monitor and intervene in difficult-to-reach areas in real-time. Equipped with LED lights, they provide clear imaging even in dimly lit environments, with both flexible and rigid models available. Typically, they connect to monitors through USB or HDMI, making them good for medical diagnoses, industrial evaluations, and plumbing checks.
A2: To operate an endoscope camera, both hardware and software are essential. The camera needs to be powered within its specified voltage range and connected through interfaces like USB, Type-C, HDMI, or Wi-Fi. Communication between the camera and the controlling device is established through these interfaces, allowing command transmission. Software, either custom or third-party, manages the camera’s video capture and functions. Image processing algorithms further enhance features like zoom, focus, and recording, with settings optimized according to the specific application for the best performance.
A3: Endoscope camera modules are designed to capture images and videos from difficult-to-reach areas inside the body or objects. In medical applications such as gastroscopy, colonoscopy, and bronchoscopy, these devices allow for detailed examination of internal organs like the stomach, intestines, and lungs, helping detect issues like tumors, ulcers, and infections. Specialized endoscopes, such as cystoscopes, otoscopes, and nasopharyngoscopes, enable thorough inspection of the bladder, ears, and nasal cavities. These tools are equipped with built-in lighting to ensure clear visibility during minimally invasive procedures in low-light conditions.
A4:The endoscope camera module comes in both integrated and separate designs, with customizable diameter sizes to suit various needs. Users can also select models with durable stainless steel covers and built-in LED lighting, offering flexibility and adaptability for different applications. Whether you need a compact option or more advanced features, these modules can be tailored to meet your specific requirements.
A5: The manufacturer is a professional factory, not a trading company. The quality assurance measures include: adopting an aseptic and dust-free production environment, with staff equipped with dust-proof equipment and strictly following operating procedures; detailed standard documents are available for all links of the production process to ensure consistent performance of each batch of products; strict inspection and testing are conducted after each process; at the same time, it has an independent R&D system to continuously optimize product technology and ensure the reliability and safety of the module in medical and industrial scenarios.
A6: Control requires the collaboration of hardware and software: In terms of hardware, it is necessary to supply power to the module within the specified voltage range and connect it to control equipment through USB, Type-C, or HDMI interfaces. In terms of software, customized software or third-party compatible software can be used to realize functions such as video capture, image adjustment, and video storage. Image clarity can also be optimized through image processing algorithms, and software parameters need to be adjusted according to actual application scenarios to achieve the best effect.
| This 2MP 1080P Medical Inspection Camera 8mm HD Endoscope Camera Module is a versatile and high-performance solution suitable for various inspection needs. Equipped with a 1/5-inch CMOS sensor, the module delivers 2-megapixel high-definition imaging and outputs 1080P resolution images, clearly presenting the detailed features of the inspected target and providing a reliable visual basis for diagnosis and detection. The module adopts a compact structural design, with a head size of only 31.0mm (length) × 8.0mm (outer diameter, tolerance ±0.10mm), paired with a flexible connecting cable of 3.5±0.15mm in diameter and 230±10mm in length. It can easily access narrow and hard-to-reach spaces, breaking the spatial limitations of traditional detection. In terms of optical configuration, the module is equipped with a lens with a 60° field of view (DFOV), a focal length of f=2.63mm, and an aperture of F2.8, which simultaneously meets the requirements of wide-field coverage and light intake in low-light environments. The focusing range can be flexibly adjusted between 30mm-50mm to accurately focus on inspected targets at different distances, and the TV distortion rate is <1%, effectively avoiding image distortion and ensuring the authenticity of imaging. In addition, the module supports optional 8 LED lights of 0402 specification, which can provide sufficient light sources in dim environments to significantly improve image visibility. In terms of interfaces, it is compatible with Type-C and USB Type A, and also supports a USB2.0 output interface, enabling convenient connection to displays, computers, and other devices for real-time image transmission and data interaction, adapting to multi-scenario application needs such as medical diagnosis and industrial testing. | |
HD Imaging with Precise Details: Equipped with a 2MP CMOS sensor and 1080P output specification, combined with an optical design with TV distortion rate <1%, it can clearly capture the subtle features of inspected targets (such as tiny lesions in human tissues and minor wear of industrial parts), providing highly reliable image support for subsequent analysis and judgment.
Compact and Flexible with Strong Scene Adaptability: The 8.0mm outer diameter head and flexible connecting cable design can adapt to various narrow-space scenarios (such as human ear canals, blood vessels, and small equipment pipelines). The adjustable focusing range of 30mm-50mm can be flexibly adjusted according to the detection distance, meeting the detection needs of different precision without replacing equipment.
Low-Light Adaptability with High Environmental Fault Tolerance: Optional 8 0402 LED fill lights, paired with an F2.8 large-aperture lens, can still output clear images in low-light or no-light environments, solving the problem of detection blind spots in dim scenarios. It is particularly suitable for low-light scenarios such as deep internal cavities of the human body and enclosed industrial equipment.
Multi-Interface Compatibility for Easy Use: It supports Type-C and USB Type A connecting cables at the same time, and is equipped with a USB2.0 output interface, enabling quick connection to computers, medical displays, industrial control screens, and other devices without additional adapters, simplifying the equipment connection process and improving detection efficiency.
Reliable Quality and Wide Application Range: Adopting a black round steel sleeve as the shell material, it has both wear resistance and corrosion resistance, extending the service life of the module. The production process strictly follows aseptic and dust-free standards, which not only meets the hygiene requirements of medical scenarios but also adapts to the complex working conditions of industrial environments, realizing the reusability of "one module for multiple scenarios".
Gynecological Equipment: Adapts to hysteroscopes for uterine cavity detection—observes endometrium, identifies fibroids/polyps, and guides minimally invasive surgeries.
Respiratory Equipment: Adapts to bronchoscopes for trachea/bronchi/lung airway checks—identifies inflammation/obstruction/tumors and supports biopsy.
Electronic Component Testing: Works with solder joint endoscopes for circuit boards—identifies cold soldering/missing soldering to ensure electronic device stability.
Pipeline Testing: Adapts to industrial pipeline endoscopes for 10mm-50mm metal/plastic pipes—checks corrosion/blockages/weld defects without disassembly, cutting maintenance costs.
Sensor | CMOS sensor |
LED | 0402 LED |
Connector | Type-C |
Image Device | 1/5" inch |
Output Interface | USB2.0 |
Application | Industrial, Medical |
Lens | DFOV60 |
F No. | F2.8 |
A1: Endoscope camera modules are essential tools for visual inspections in various industries, including healthcare, manufacturing, and home repairs. These devices allow users to monitor and intervene in difficult-to-reach areas in real-time. Equipped with LED lights, they provide clear imaging even in dimly lit environments, with both flexible and rigid models available. Typically, they connect to monitors through USB or HDMI, making them good for medical diagnoses, industrial evaluations, and plumbing checks.
A2: To operate an endoscope camera, both hardware and software are essential. The camera needs to be powered within its specified voltage range and connected through interfaces like USB, Type-C, HDMI, or Wi-Fi. Communication between the camera and the controlling device is established through these interfaces, allowing command transmission. Software, either custom or third-party, manages the camera’s video capture and functions. Image processing algorithms further enhance features like zoom, focus, and recording, with settings optimized according to the specific application for the best performance.
A3: Endoscope camera modules are designed to capture images and videos from difficult-to-reach areas inside the body or objects. In medical applications such as gastroscopy, colonoscopy, and bronchoscopy, these devices allow for detailed examination of internal organs like the stomach, intestines, and lungs, helping detect issues like tumors, ulcers, and infections. Specialized endoscopes, such as cystoscopes, otoscopes, and nasopharyngoscopes, enable thorough inspection of the bladder, ears, and nasal cavities. These tools are equipped with built-in lighting to ensure clear visibility during minimally invasive procedures in low-light conditions.
A4:The endoscope camera module comes in both integrated and separate designs, with customizable diameter sizes to suit various needs. Users can also select models with durable stainless steel covers and built-in LED lighting, offering flexibility and adaptability for different applications. Whether you need a compact option or more advanced features, these modules can be tailored to meet your specific requirements.
A5: The manufacturer is a professional factory, not a trading company. The quality assurance measures include: adopting an aseptic and dust-free production environment, with staff equipped with dust-proof equipment and strictly following operating procedures; detailed standard documents are available for all links of the production process to ensure consistent performance of each batch of products; strict inspection and testing are conducted after each process; at the same time, it has an independent R&D system to continuously optimize product technology and ensure the reliability and safety of the module in medical and industrial scenarios.
A6: Control requires the collaboration of hardware and software: In terms of hardware, it is necessary to supply power to the module within the specified voltage range and connect it to control equipment through USB, Type-C, or HDMI interfaces. In terms of software, customized software or third-party compatible software can be used to realize functions such as video capture, image adjustment, and video storage. Image clarity can also be optimized through image processing algorithms, and software parameters need to be adjusted according to actual application scenarios to achieve the best effect.
