| Quantity: | |
|---|---|
SF-C1019USB-1000P-D3.6-D140-PLUS
SINCEREFIRST
This module is perfect for a Medical Endoscope Camera Module, and with a 3.9mm diameter, it can fit into compact endoscope systems while offering wide-angle views. This 3.9mm diameter Endoscope Camera module with an ES101 sensor is designed with a maximum resolution of 1000Hx1000V, utilizing a 1.4um BSI pixel design. It features an innovative architecture that ensures high-resolution performance. The ES101 sensor camera module supports full-frame, skip, binning, and window modes, providing flexible output formats.Compatible with LVDS/MIPI, and offering both 10-bit and 8-bit image output, it meets diverse needs. |  |
Product Advantage ◢
Resolution: The ES101 sensor offers 1000Hx1000V resolution with 1.4um BSI pixel design.
Flexible Output Formats: Supports full-frame, skip, binning, and window modes.
Image Output Compatibility: LVDS/MIPI+10bit/8bit options for versatile applications.
Compact and Versatile: Ideal for Medical Endoscope Camera Modules and 3.9mm diameter endoscope systems with wide-angle views.
Technical Parameters ◢
Product Name | Endoscope Camera Module |
Features | Mini Endoscope Camera Module |
Interface | USB |
Sensor | ES101 |
Focusing Range | 10-100mm |
Resolution | 1000P Max 60fps |
Focal Length | 0.75mm |
Connector | Mini USB-5P |
DSP | USB2.0 UVC |
Led | 0402 White Led |
Product Uses ◢
gastroscope
laryngoscope
enteroscope
FAQ ◢
Q1: What is a endoscope camera module?
A1:An endoscopic camera module is a device that can help people see in narrow areas that are not visible to the naked eye, including human and animal health monitoring, industrial equipment inspection, and home plumbing inspection. This device enables real-time observation and intervention and is particularly suitable for examining internal or hard-to-reach areas. Depending on the needs and application areas, endoscopic cameras are often equipped with a variety of image sensors and imaging technologies to adapt to different screening environments. Importantly, these devices must be able to provide clear and detailed images. Moreover, most endoscopic modules are equipped with LED lighting systems, which are especially critical in low or dark environments or even complete darkness. Some endoscopic camera modules have a flexible bending design that allows them to adapt to more complex inspection environments. Rigid endoscopes can move slowly along narrow areas, while rigid endoscopes are suitable for straight-through inspection. They cannot be bent and folded at will, and when connected to display devices, they usually support a variety of output interfaces to adapt to different display devices, including USB, HDMI, WiFi, TYPE-C, and MICRO-USB, which provides users with the convenience of connecting to a monitor or recording device for real-time observation, analysis, and image capture. In the medical field, endoscopic cameras are widely used in the diagnosis of gastrointestinal, respiratory, urinary and reproductive diseases. At the same time, these devices also play an important role in the field of industrial testing, widely used in aerospace, manufacturing and automotive testing and other industries, and can even be used in families to check water pipes, heating pipes, natural gas pipelines, toilet sewers and other plumbing systems, as well as refrigerators, televisions, drinking fountains and air conditioning and other electrical appliances.
Q2: Are you factory or trade company?
A2:
We are an original equipment manufacturer (OEM) dedicated to smart camera modules, with our own production base, equipped with ten dust-free and sterile production workshops. Under the guidance of international advanced quality standards, we carry out production operations efficiently. Our team follows standardized operating procedures to ensure a high degree of stability and reliability in the manufacturing process. Each employee has undergone systematic professional training, works according to strict working procedures, and wears specially designed dust-free clothing to keep the production environment hygienic and sterile.We take the quality of our products extremely seriously, ensuring that each camera module goes through a rigorous multi-stage inspection and testing to ensure high quality control standards. In addition, we have an independent research and development team, continue to increase investment in the research and development of independent products, encourage technological innovation. With our independent research and development capabilities, we have successfully launched a number of camera modules with competitive advantages in the industry.
Q3: How to control an endoscope camera module?
A3: The control operation of the endoscope camera module involves many complex links, including power management, data connection, software application and image processing. This process requires a high degree of coordination between hardware and software to ensure effective applications in medical and industrial fields. First of all, the power connection is crucial, endoscope cameras usually operate within a specific voltage range, so it is necessary to ensure the stability of the power supply to prevent failure or short circuit due to power surges. Effective data transfer connections are also essential, and common connections include USB, TYPE-C, MICRO-USB, HDMI, and Wi-Fi wireless connections. These interfaces enable the camera to exchange data with control devices such as computers or mobile terminals. If a wireless connection is selected, the necessary control signals are sent to the camera through the preset data interface for remote operation. Next, you need to use dedicated software or existing applications, which can be customized or third-party platforms that support video capture and camera control. This type of software provides an intuitive user interface that enables operators to easily manage the camera, including setting parameters and receiving live video streams. Image processing algorithms play an important role in the control process, which can analyze the captured video stream in real time and help the operator adjust the camera functions effectively. For example, operators are able to zoom, adjust focus, take photos and record video, and adjust Settings at any time according to actual needs to achieve the best image and performance optimization.
Q4: What does an endoscope camera module see?
A4: The endoscopic camera module captures detailed images and video of the internal structure of the human body or the structure of animals, and is typically used in medical, industrial or research Settings. In medical applications, it provides visualization of the gastrointestinal tract, bladder and respiratory system, reproductive system and other organs, allowing diagnosis and monitoring of conditions such as tumors, infections or blockages. Specimens can be collected if necessary, and an endoscopic camera can see tissue, blood vessels and abnormalities in real time, facilitating minimally invasive surgery. In industrial Settings, it can inspect areas of machinery, plumbing or infrastructure that are difficult to see directly with the naked eye, highlighting wear, corrosion or blockage. The module usually has a high resolution sensor and various lighting options, such as white led, different environments require different number of lamp beads, generally equipped with four led lamp beads to improve visibility in different environments, ensuring clear and accurate imaging for analysis and decision making.
Q5: What can be customized for endoscope camera modules?
A5: The endoscope camera module can be selected as integrated or separated, and the diameter size, and whether it comes with a steel sleeve and LED light can also be customized.
This module is perfect for a Medical Endoscope Camera Module, and with a 3.9mm diameter, it can fit into compact endoscope systems while offering wide-angle views. This 3.9mm diameter Endoscope Camera module with an ES101 sensor is designed with a maximum resolution of 1000Hx1000V, utilizing a 1.4um BSI pixel design. It features an innovative architecture that ensures high-resolution performance. The ES101 sensor camera module supports full-frame, skip, binning, and window modes, providing flexible output formats.Compatible with LVDS/MIPI, and offering both 10-bit and 8-bit image output, it meets diverse needs. | |
Product Advantage ◢
Resolution: The ES101 sensor offers 1000Hx1000V resolution with 1.4um BSI pixel design.
Flexible Output Formats: Supports full-frame, skip, binning, and window modes.
Image Output Compatibility: LVDS/MIPI+10bit/8bit options for versatile applications.
Compact and Versatile: Ideal for Medical Endoscope Camera Modules and 3.9mm diameter endoscope systems with wide-angle views.
Technical Parameters ◢
Product Name | Endoscope Camera Module |
Features | Mini Endoscope Camera Module |
Interface | USB |
Sensor | ES101 |
Focusing Range | 10-100mm |
Resolution | 1000P Max 60fps |
Focal Length | 0.75mm |
Connector | Mini USB-5P |
DSP | USB2.0 UVC |
Led | 0402 White Led |
Product Uses ◢
gastroscope
laryngoscope
enteroscope
FAQ ◢
Q1: What is a endoscope camera module?
A1:An endoscopic camera module is a device that can help people see in narrow areas that are not visible to the naked eye, including human and animal health monitoring, industrial equipment inspection, and home plumbing inspection. This device enables real-time observation and intervention and is particularly suitable for examining internal or hard-to-reach areas. Depending on the needs and application areas, endoscopic cameras are often equipped with a variety of image sensors and imaging technologies to adapt to different screening environments. Importantly, these devices must be able to provide clear and detailed images. Moreover, most endoscopic modules are equipped with LED lighting systems, which are especially critical in low or dark environments or even complete darkness. Some endoscopic camera modules have a flexible bending design that allows them to adapt to more complex inspection environments. Rigid endoscopes can move slowly along narrow areas, while rigid endoscopes are suitable for straight-through inspection. They cannot be bent and folded at will, and when connected to display devices, they usually support a variety of output interfaces to adapt to different display devices, including USB, HDMI, WiFi, TYPE-C, and MICRO-USB, which provides users with the convenience of connecting to a monitor or recording device for real-time observation, analysis, and image capture. In the medical field, endoscopic cameras are widely used in the diagnosis of gastrointestinal, respiratory, urinary and reproductive diseases. At the same time, these devices also play an important role in the field of industrial testing, widely used in aerospace, manufacturing and automotive testing and other industries, and can even be used in families to check water pipes, heating pipes, natural gas pipelines, toilet sewers and other plumbing systems, as well as refrigerators, televisions, drinking fountains and air conditioning and other electrical appliances.
Q2: Are you factory or trade company?
A2:
We are an original equipment manufacturer (OEM) dedicated to smart camera modules, with our own production base, equipped with ten dust-free and sterile production workshops. Under the guidance of international advanced quality standards, we carry out production operations efficiently. Our team follows standardized operating procedures to ensure a high degree of stability and reliability in the manufacturing process. Each employee has undergone systematic professional training, works according to strict working procedures, and wears specially designed dust-free clothing to keep the production environment hygienic and sterile.We take the quality of our products extremely seriously, ensuring that each camera module goes through a rigorous multi-stage inspection and testing to ensure high quality control standards. In addition, we have an independent research and development team, continue to increase investment in the research and development of independent products, encourage technological innovation. With our independent research and development capabilities, we have successfully launched a number of camera modules with competitive advantages in the industry.
Q3: How to control an endoscope camera module?
A3: The control operation of the endoscope camera module involves many complex links, including power management, data connection, software application and image processing. This process requires a high degree of coordination between hardware and software to ensure effective applications in medical and industrial fields. First of all, the power connection is crucial, endoscope cameras usually operate within a specific voltage range, so it is necessary to ensure the stability of the power supply to prevent failure or short circuit due to power surges. Effective data transfer connections are also essential, and common connections include USB, TYPE-C, MICRO-USB, HDMI, and Wi-Fi wireless connections. These interfaces enable the camera to exchange data with control devices such as computers or mobile terminals. If a wireless connection is selected, the necessary control signals are sent to the camera through the preset data interface for remote operation. Next, you need to use dedicated software or existing applications, which can be customized or third-party platforms that support video capture and camera control. This type of software provides an intuitive user interface that enables operators to easily manage the camera, including setting parameters and receiving live video streams. Image processing algorithms play an important role in the control process, which can analyze the captured video stream in real time and help the operator adjust the camera functions effectively. For example, operators are able to zoom, adjust focus, take photos and record video, and adjust Settings at any time according to actual needs to achieve the best image and performance optimization.
Q4: What does an endoscope camera module see?
A4: The endoscopic camera module captures detailed images and video of the internal structure of the human body or the structure of animals, and is typically used in medical, industrial or research Settings. In medical applications, it provides visualization of the gastrointestinal tract, bladder and respiratory system, reproductive system and other organs, allowing diagnosis and monitoring of conditions such as tumors, infections or blockages. Specimens can be collected if necessary, and an endoscopic camera can see tissue, blood vessels and abnormalities in real time, facilitating minimally invasive surgery. In industrial Settings, it can inspect areas of machinery, plumbing or infrastructure that are difficult to see directly with the naked eye, highlighting wear, corrosion or blockage. The module usually has a high resolution sensor and various lighting options, such as white led, different environments require different number of lamp beads, generally equipped with four led lamp beads to improve visibility in different environments, ensuring clear and accurate imaging for analysis and decision making.
Q5: What can be customized for endoscope camera modules?
A5: The endoscope camera module can be selected as integrated or separated, and the diameter size, and whether it comes with a steel sleeve and LED light can also be customized.
