| Quantity: | |
|---|---|
SF-TA10USB-D0.9
SINCEREFIRST
This mini camera module provides exceptional in compact form factors. With a pixel resolution of 400H x 400V, the OCHTA10 Sensor ensures vibrant and colorful imaging quality. This remarkable 0.9mm endoscope camera module offers a narrow diameter of just 0.9mm, enabling access to tight spaces within the body or complex machinery. Its fixed focus design guarantees sharp images at various distances, while the wide field of view (FOV) of 120° ± 6° allows for expansive visual coverage with each capture. Utilizing versatile output formats, including YUV and MJPG, the OCHTA10 camera module is compatible with a wide range of devices and applications, allowing seamless integration with USB camera modules and other imaging systems. this micro endoscope camera module is its compact design, which facilitates the development of effective endoscope camera solutions, as an endoscope camera , the OCHTA10 Sensor and its accompanying camera module stand out as a reliable, high-quality choice for enhancing imaging capabilities in various fields |  |
Product Advantage ◢
Optical Size: The sensor features a compact 1/31" optical size,
Output and Power: It provides an analog output with a single 3.3V power supply, simplifying integration into systems.
Control Features: Equipped with on-chip PLL and SPI for easy communication, plus exposure and gain control for optimized imaging.
Shutter Mode: The pseudo-global shutter (LED mode) enables enhanced image capture in dynamic lighting conditions, ensuring crisp, clear visuals.
Technical Parameters ◢
Product Name | Mini Endoscope Camera Module |
Features | Small Endoscope Camera Module |
Pixel | 400*400 |
Sensor | OCHTA10 CMOS sensor |
Diameter | 0.9mm |
Imaging Quality: | Colorful Output |
Formats | YUV/MJPG |
Trademark | SINCERE FIRST |
Fov(D) | 120°±6° |
Focus | Fixed |
Product Uses ◢
medical, industrial, and agricultural fields.
FAQ ◢
Q1: What is a endoscope camera module?
A1: The endoscope camera module is an efficient device, which is widely used in medical, industrial and scientific research fields. Through high-speed transmission interface, combined with 6G network technology, it realizes real-time data transmission, supports remote consultation and analysis, helps doctors accurately observe internal organs and tissues, timely detect lesions, and improves diagnosis and treatment efficiency. In medicine, gastroscopy and colonoscopy are used to directly observe the digestive tract and perform biopsies to ensure a more accurate diagnosis. In the industrial sector, endoscopes can be used for non-destructive inspection of mechanical equipment and pipes to help engineers detect wear, corrosion or blockage problems, improve work efficiency, reduce safety risks, and ensure the normal operation of equipment.
Q2: Are you factory or trade company?
A2: We are a leading camera module manufacturer with ten dust-free and sterile automated workshops to ensure efficient and precise production processes. Through systematic training, employees strictly abide by the cleaning and operating norms, and wear clean room dustproof clothing to ensure a clean environment. Each endoscope module undergoes rigorous multi-stage testing to ensure a pass rate higher than industry standards. The company also has a dedicated research and development team dedicated to technological innovation and product optimization to meet the growing market demand.
Q3: How to control an endoscope camera module?
A3:The operation of the endoscope camera module includes several key steps, such as data transmission, software parameter setting, and image processing and display. Successful operation depends on a tight collaboration between hardware and software to ensure smooth system operation. In general, endoscopic cameras generally need to operate within a specific voltage range to avoid damage caused by voltage instability, short circuit. To ensure a stable connection, the control module is generally connected to devices such as computers, tablets or smartphones via USB, micro-USB, HDMI or Wi-Fi interfaces. Users can install dedicated software or applications compatible with the camera to easily adjust zoom, focus, resolution, contrast, and various parameters of the image, and even record it. In addition, users can monitor video feedback in real time and make instant adjustments according to actual needs to ensure the optimal shooting effect. The flexibility of operation and monitoring can also be further improved through network connectivity, making the endoscopic camera play a greater role in a variety of application scenarios.
Q4: What does an endoscope camera module see?
A4: Endoscope camera module plays an increasingly important role in modern medical diagnosis and is widely used in the examination and treatment of many diseases. Its high-precision imaging capabilities allow doctors to examine a wide range of body parts in depth to detect and diagnose underlying conditions earlier, such as cancers, ulcers and polyps in the gastrointestinal tract. Gastroscopy and colonoscopy are typical applications. Through these modules, the doctor can clearly view the condition of the esophagus, stomach and intestinal wall. Bronchoscopy also relies on these modules to identify abnormalities in the airways and lungs, helping in the early diagnosis of respiratory diseases. In urology, endoscopic modules are widely used to examine the bladder and urethra to ensure that lesions are detected in time. In addition, the field of ENT is also dependent on endoscopic techniques, such as otoscopy for ear diagnosis and nasolaryngology for assessing the health of the nasal cavity and throat. The minimally invasive nature of endoscopes is not only suitable for routine examinations, but also plays an important role in surgery. For example, laparoscopic surgery obtains high-definition images through small incisions, allowing doctors to operate with precision, thus reducing patient pain and recovery time. Many endoscope models are equipped with a built-in lighting system that provides a clear view even in dim conditions, ensuring accuracy and safety. With the development of Internet technology, the combination of endoscope and network is becoming more and more popular, and real-time image transmission technology enables doctors to remotely monitor the health status of patients, further improving the efficiency of diagnosis and treatment. These technological advances not only support accurate diagnosis, but also create more favorable conditions for early treatment and rehabilitation of patients.
Q5: What can be customized for endoscope camera modules?
A5: The endoscope camera module is available in two options: integrated or separate. You can choose the diameter size to suit your specific needs, and the module can be customized with or without a steel sleeve for added durability. Additionally, the camera can be equipped with an LED light, ensuring clear visibility in dark or hard-to-reach areas. we support you to tailor the endoscope to meet your unique requirements, whether for medical, industrial, or DIY use.
This mini camera module provides exceptional in compact form factors. With a pixel resolution of 400H x 400V, the OCHTA10 Sensor ensures vibrant and colorful imaging quality. This remarkable 0.9mm endoscope camera module offers a narrow diameter of just 0.9mm, enabling access to tight spaces within the body or complex machinery. Its fixed focus design guarantees sharp images at various distances, while the wide field of view (FOV) of 120° ± 6° allows for expansive visual coverage with each capture. Utilizing versatile output formats, including YUV and MJPG, the OCHTA10 camera module is compatible with a wide range of devices and applications, allowing seamless integration with USB camera modules and other imaging systems. this micro endoscope camera module is its compact design, which facilitates the development of effective endoscope camera solutions, as an endoscope camera , the OCHTA10 Sensor and its accompanying camera module stand out as a reliable, high-quality choice for enhancing imaging capabilities in various fields | |
Product Advantage ◢
Optical Size: The sensor features a compact 1/31" optical size,
Output and Power: It provides an analog output with a single 3.3V power supply, simplifying integration into systems.
Control Features: Equipped with on-chip PLL and SPI for easy communication, plus exposure and gain control for optimized imaging.
Shutter Mode: The pseudo-global shutter (LED mode) enables enhanced image capture in dynamic lighting conditions, ensuring crisp, clear visuals.
Technical Parameters ◢
Product Name | Mini Endoscope Camera Module |
Features | Small Endoscope Camera Module |
Pixel | 400*400 |
Sensor | OCHTA10 CMOS sensor |
Diameter | 0.9mm |
Imaging Quality: | Colorful Output |
Formats | YUV/MJPG |
Trademark | SINCERE FIRST |
Fov(D) | 120°±6° |
Focus | Fixed |
Product Uses ◢
medical, industrial, and agricultural fields.
FAQ ◢
Q1: What is a endoscope camera module?
A1: The endoscope camera module is an efficient device, which is widely used in medical, industrial and scientific research fields. Through high-speed transmission interface, combined with 6G network technology, it realizes real-time data transmission, supports remote consultation and analysis, helps doctors accurately observe internal organs and tissues, timely detect lesions, and improves diagnosis and treatment efficiency. In medicine, gastroscopy and colonoscopy are used to directly observe the digestive tract and perform biopsies to ensure a more accurate diagnosis. In the industrial sector, endoscopes can be used for non-destructive inspection of mechanical equipment and pipes to help engineers detect wear, corrosion or blockage problems, improve work efficiency, reduce safety risks, and ensure the normal operation of equipment.
Q2: Are you factory or trade company?
A2: We are a leading camera module manufacturer with ten dust-free and sterile automated workshops to ensure efficient and precise production processes. Through systematic training, employees strictly abide by the cleaning and operating norms, and wear clean room dustproof clothing to ensure a clean environment. Each endoscope module undergoes rigorous multi-stage testing to ensure a pass rate higher than industry standards. The company also has a dedicated research and development team dedicated to technological innovation and product optimization to meet the growing market demand.
Q3: How to control an endoscope camera module?
A3:The operation of the endoscope camera module includes several key steps, such as data transmission, software parameter setting, and image processing and display. Successful operation depends on a tight collaboration between hardware and software to ensure smooth system operation. In general, endoscopic cameras generally need to operate within a specific voltage range to avoid damage caused by voltage instability, short circuit. To ensure a stable connection, the control module is generally connected to devices such as computers, tablets or smartphones via USB, micro-USB, HDMI or Wi-Fi interfaces. Users can install dedicated software or applications compatible with the camera to easily adjust zoom, focus, resolution, contrast, and various parameters of the image, and even record it. In addition, users can monitor video feedback in real time and make instant adjustments according to actual needs to ensure the optimal shooting effect. The flexibility of operation and monitoring can also be further improved through network connectivity, making the endoscopic camera play a greater role in a variety of application scenarios.
Q4: What does an endoscope camera module see?
A4: Endoscope camera module plays an increasingly important role in modern medical diagnosis and is widely used in the examination and treatment of many diseases. Its high-precision imaging capabilities allow doctors to examine a wide range of body parts in depth to detect and diagnose underlying conditions earlier, such as cancers, ulcers and polyps in the gastrointestinal tract. Gastroscopy and colonoscopy are typical applications. Through these modules, the doctor can clearly view the condition of the esophagus, stomach and intestinal wall. Bronchoscopy also relies on these modules to identify abnormalities in the airways and lungs, helping in the early diagnosis of respiratory diseases. In urology, endoscopic modules are widely used to examine the bladder and urethra to ensure that lesions are detected in time. In addition, the field of ENT is also dependent on endoscopic techniques, such as otoscopy for ear diagnosis and nasolaryngology for assessing the health of the nasal cavity and throat. The minimally invasive nature of endoscopes is not only suitable for routine examinations, but also plays an important role in surgery. For example, laparoscopic surgery obtains high-definition images through small incisions, allowing doctors to operate with precision, thus reducing patient pain and recovery time. Many endoscope models are equipped with a built-in lighting system that provides a clear view even in dim conditions, ensuring accuracy and safety. With the development of Internet technology, the combination of endoscope and network is becoming more and more popular, and real-time image transmission technology enables doctors to remotely monitor the health status of patients, further improving the efficiency of diagnosis and treatment. These technological advances not only support accurate diagnosis, but also create more favorable conditions for early treatment and rehabilitation of patients.
Q5: What can be customized for endoscope camera modules?
A5: The endoscope camera module is available in two options: integrated or separate. You can choose the diameter size to suit your specific needs, and the module can be customized with or without a steel sleeve for added durability. Additionally, the camera can be equipped with an LED light, ensuring clear visibility in dark or hard-to-reach areas. we support you to tailor the endoscope to meet your unique requirements, whether for medical, industrial, or DIY use.
