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SF-USB3.5-100
SINCEREFIRST
This is a 1MP Camera Module, a versatile USB Camera Module designed for a range of applications, including medical imaging. This 3.5mm Endoscope Camera Module offers impressive 1280x720 resolution and supports standard USB2.0 connectivity for easy integration with various devices. Featuring a Field of View (FOV) of 78 degrees and a Depth of Field (DOF) ranging from 15mm to 60mm, this endoscope camera module is perfect for precision imaging in tight spaces. Equipped with six LEDs, the light source ensures optimal illumination during procedures. With an effective focal length (EFL) of 1.5cm to 6cm and a wide aperture of F. NO. 1.0±0.05, this medical endoscope camera module captures clear and detailed images. The camera operates at frame rates of 20/30 fps and functions effectively in temperatures from -10°C to +50°C. |  |
Product Advantage ◢
Resolution: 1MP with 1280x720 output for clear images.
Integration: USB2.0 interface for easy connectivity.
Design: 3.5mm diameter, ideal for tight spaces.
Lighting: Six built-in LEDs and F.NO. 1.0±0.05 for optimal illumination.
Technical Parameters ◢
Product Name | Mini Endoscope Camera Module |
Features | 3.5mm Endoscope Camera Module |
Pixel | 1280*720 |
Sensor | CMOS sensor |
Diameter | 3.5mm |
F. NO. | 1.0±0.05 |
Frame rate | 20/30Fps |
Trademark | SINCERE FIRST |
Fov(D) | 78° |
Focus | Fixed |
Product Uses ◢
Pipe inspection: The endoscope is used to inspect the inside of the pipe and identify problems such as blockage and corrosion.
Mechanical equipment inspection: used to inspect the internal parts of the machine to assess wear and failure.
Welding quality inspection: In the welding industry, check the weld.
Aerospace: Used to check the internal condition of aircraft and rocket engines to ensure safety.
FAQ ◢
Q1: What is a endoscope camera module?
A1: The endoscope camera module is a key component of endoscopes for a variety of applications, responsible for capturing internal images and transmitting them to external display devices. To complete difficult-to-detect areas, these modules typically consist of high-resolution image sensors, light sources, and transmission interfaces that provide clear, real-time images to assist doctors in diagnosis and surgery. The endoscope camera module is mainly composed of the following parts: cmos image sensor, cable module and image signal processor board, lens system, light source system and housing to provide complete image imaging to meet the needs of endoscopes and catheters. The design of endoscope camera module emphasizes miniaturization, high resolution and low power consumption. To meet the strict requirements of the environment on the device. As technology advances, these modules are becoming more compact, versatile, and specialized.
Q2: Are you factory or trade company?
A2: We are a leading smart camera module manufacturer in the industry, focusing on providing high quality smart camera products. Including but not limited to USB camera module, MIPI camera module, endoscope module. Our factory is equipped with ten dust-free and sterile automated workshops, ensuring that every step is carried out in an efficient and clean environment, minimizing the risk of contamination. After professional training, employees strictly follow the operating procedures to ensure production safety and health. Each endoscope module goes through multiple rigorous inspections during the production process to maintain an industry-leading pass rate. At the same time, our research and development team keeps up with market dynamics and promotes technological innovation to ensure that our products are always at the forefront of the industry in terms of technology and application. We are always committed to providing customers with quality solutions to win the trust of the market.
Q3: How to control an endoscope camera module?
A3: The operation of the endoscope camera module involves a series of intricate processes, including data transmission, software parameter configuration, and image processing. The stability and reliability of its performance are contingent upon seamless integration between hardware and software components, typically operating optimally within a specified voltage range. To mitigate the impact of voltage fluctuations, endoscopic cameras are commonly interfaced with computers, tablets, or smartphones via USB, micro-USB, HDMI, or wireless Wi-Fi connections. By deploying specialized software, users can conveniently adjust parameters such as zoom, focus, resolution, and contrast, while simultaneously monitoring the video stream in real-time to ensure precise and smooth operation.
Q4: What does an endoscope camera module see?
A4: The endoscopic camera module is widely used in medical, industrial and academic research fields and is capable of capturing high-definition images and videos of narrow internal structures. In the medical field, endoscopes are inserted into the body through slender tubes and provide a wide, detailed view to help doctors diagnose lesions, inflammation or other health problems. The integrated light source equipped with the endoscope ensures that it can work normally in the dark environment, and can be used in stomach, intestine, bronchus, and other organs to observe human tissue and blood vessel abnormalities in real time, and monitor tumors, infections, and obstructions. With the help of the network, doctors can remotely monitor the condition through real-time images, which facilitates accurate diagnosis and treatment. In industrial applications, endoscopic camera modules can access areas of machinery, plumbing and other infrastructure that cannot be directly observed to help detect wear, corrosion or blockage, reducing damage and greatly improving the efficiency of repairs and inspections. Through high-speed network connections, industry experts can remotely view images in real time, analyze and judge, and guide field staff to make timely maintenance decisions, reduce equipment downtime, and ensure normal operation.
Q5: What can be customized for endoscope camera modules?
A5: The endoscope camera module offers a comprehensive range of customization options to address the specific requirements of customers. Users can opt for either integrated or standalone solutions tailored for medical or industrial applications. The lens diameter can be adjusted to suit various operating environments, ensuring optimal imaging performance. Additionally, customers have the option to include dust- and water-resistant protective steel sleeves to enhance durability. The built-in LED lighting system is also available as an optional feature, providing high-intensity illumination to improve visibility in low-light conditions, which is particularly beneficial for medical inspections.
This is a 1MP Camera Module, a versatile USB Camera Module designed for a range of applications, including medical imaging. This 3.5mm Endoscope Camera Module offers impressive 1280x720 resolution and supports standard USB2.0 connectivity for easy integration with various devices. Featuring a Field of View (FOV) of 78 degrees and a Depth of Field (DOF) ranging from 15mm to 60mm, this endoscope camera module is perfect for precision imaging in tight spaces. Equipped with six LEDs, the light source ensures optimal illumination during procedures. With an effective focal length (EFL) of 1.5cm to 6cm and a wide aperture of F. NO. 1.0±0.05, this medical endoscope camera module captures clear and detailed images. The camera operates at frame rates of 20/30 fps and functions effectively in temperatures from -10°C to +50°C. | |
Product Advantage ◢
Resolution: 1MP with 1280x720 output for clear images.
Integration: USB2.0 interface for easy connectivity.
Design: 3.5mm diameter, ideal for tight spaces.
Lighting: Six built-in LEDs and F.NO. 1.0±0.05 for optimal illumination.
Technical Parameters ◢
Product Name | Mini Endoscope Camera Module |
Features | 3.5mm Endoscope Camera Module |
Pixel | 1280*720 |
Sensor | CMOS sensor |
Diameter | 3.5mm |
F. NO. | 1.0±0.05 |
Frame rate | 20/30Fps |
Trademark | SINCERE FIRST |
Fov(D) | 78° |
Focus | Fixed |
Product Uses ◢
Pipe inspection: The endoscope is used to inspect the inside of the pipe and identify problems such as blockage and corrosion.
Mechanical equipment inspection: used to inspect the internal parts of the machine to assess wear and failure.
Welding quality inspection: In the welding industry, check the weld.
Aerospace: Used to check the internal condition of aircraft and rocket engines to ensure safety.
FAQ ◢
Q1: What is a endoscope camera module?
A1: The endoscope camera module is a key component of endoscopes for a variety of applications, responsible for capturing internal images and transmitting them to external display devices. To complete difficult-to-detect areas, these modules typically consist of high-resolution image sensors, light sources, and transmission interfaces that provide clear, real-time images to assist doctors in diagnosis and surgery. The endoscope camera module is mainly composed of the following parts: cmos image sensor, cable module and image signal processor board, lens system, light source system and housing to provide complete image imaging to meet the needs of endoscopes and catheters. The design of endoscope camera module emphasizes miniaturization, high resolution and low power consumption. To meet the strict requirements of the environment on the device. As technology advances, these modules are becoming more compact, versatile, and specialized.
Q2: Are you factory or trade company?
A2: We are a leading smart camera module manufacturer in the industry, focusing on providing high quality smart camera products. Including but not limited to USB camera module, MIPI camera module, endoscope module. Our factory is equipped with ten dust-free and sterile automated workshops, ensuring that every step is carried out in an efficient and clean environment, minimizing the risk of contamination. After professional training, employees strictly follow the operating procedures to ensure production safety and health. Each endoscope module goes through multiple rigorous inspections during the production process to maintain an industry-leading pass rate. At the same time, our research and development team keeps up with market dynamics and promotes technological innovation to ensure that our products are always at the forefront of the industry in terms of technology and application. We are always committed to providing customers with quality solutions to win the trust of the market.
Q3: How to control an endoscope camera module?
A3: The operation of the endoscope camera module involves a series of intricate processes, including data transmission, software parameter configuration, and image processing. The stability and reliability of its performance are contingent upon seamless integration between hardware and software components, typically operating optimally within a specified voltage range. To mitigate the impact of voltage fluctuations, endoscopic cameras are commonly interfaced with computers, tablets, or smartphones via USB, micro-USB, HDMI, or wireless Wi-Fi connections. By deploying specialized software, users can conveniently adjust parameters such as zoom, focus, resolution, and contrast, while simultaneously monitoring the video stream in real-time to ensure precise and smooth operation.
Q4: What does an endoscope camera module see?
A4: The endoscopic camera module is widely used in medical, industrial and academic research fields and is capable of capturing high-definition images and videos of narrow internal structures. In the medical field, endoscopes are inserted into the body through slender tubes and provide a wide, detailed view to help doctors diagnose lesions, inflammation or other health problems. The integrated light source equipped with the endoscope ensures that it can work normally in the dark environment, and can be used in stomach, intestine, bronchus, and other organs to observe human tissue and blood vessel abnormalities in real time, and monitor tumors, infections, and obstructions. With the help of the network, doctors can remotely monitor the condition through real-time images, which facilitates accurate diagnosis and treatment. In industrial applications, endoscopic camera modules can access areas of machinery, plumbing and other infrastructure that cannot be directly observed to help detect wear, corrosion or blockage, reducing damage and greatly improving the efficiency of repairs and inspections. Through high-speed network connections, industry experts can remotely view images in real time, analyze and judge, and guide field staff to make timely maintenance decisions, reduce equipment downtime, and ensure normal operation.
Q5: What can be customized for endoscope camera modules?
A5: The endoscope camera module offers a comprehensive range of customization options to address the specific requirements of customers. Users can opt for either integrated or standalone solutions tailored for medical or industrial applications. The lens diameter can be adjusted to suit various operating environments, ensuring optimal imaging performance. Additionally, customers have the option to include dust- and water-resistant protective steel sleeves to enhance durability. The built-in LED lighting system is also available as an optional feature, providing high-intensity illumination to improve visibility in low-light conditions, which is particularly beneficial for medical inspections.
