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SF-C0310USB-D3.9-PLUS
SINCEREFIRST
This micro-endoscopic imaging system features a 3.9mm ultra-compact design incorporating the GC030A high-sensitivity sensor and 1.074mm short-focus optical lens, delivering exceptional 90° wide-angle visualization within a 20-80mm operational range, with robust metal-clad construction ensuring durability for industrial inspection, pipeline maintenance, and medical diagnostic applications across various operating systems via standard USB connectivity. |  |
Expansive Visual Coverage: The 90° wide-angle optics provide comprehensive field coverage in a single scan, significantly minimizing inspection omissions in confined spaces.
Unparalleled Access Capability: With its industry-leading 3.9mm micro-probe design, the system reaches deep into mechanical assemblies and infrastructure cavities previously inaccessible to conventional inspection tools.
Precision Diagnostic Imaging: Combining high-resolution sensor technology with optimized short-focus optics, the solution delivers crisp, distortion-free visuals across its entire 20-80mm working range for accurate defect identification.
Industrial Machinery Inspection
Pipeline Maintenance
Medical Endoscopy
Automotive Diagnostics
Aerospace Component Testing
Product Name | 3.9mm Endoscope Camera Module |
Basic tolerance | ±0.1mm |
DSP | USB2.0 |
Sensor | GC030A |
Focusing Range | 20-80mm |
Focal Length | 1.074mm |
F Number | 3.58 |
FOV(D) | 90° |
TV Distortion | <-5.5% |
Connector | Mini USB-5P |
The slender diameter of 3.9mm enables this borescope inspection camera module to easily access narrow spaces, such as small holes in mechanical equipment, the interior of pipelines, and the gaps of electronic devices. In places where traditional large-scale inspection equipment cannot reach, it can play a crucial role, greatly expanding the scope of inspection.
With its small overall size, it is convenient to carry. Whether in a workshop site, outdoor operation, or laboratory environment, it can be used conveniently without the need for the transportation and installation of large inspection equipment.
The USB interface is one of the most common interface types nowadays, and almost all devices like computers, laptops, and some tablets support USB connection. This means that this module can be easily connected to a variety of devices without the need for additional complex drivers or adapters, reducing the usage threshold and improving the compatibility of the equipment.
Through the USB interface, the data transmission is stable and fast, which can instantly transmit the images and videos captured by the camera to the connected device, making it convenient for users to view and analyze the inspection results in a timely manner.
It is designed to be sturdy and durable, able to withstand certain impacts, vibrations, and harsh working environments. The insertion tube is usually made of high-strength and wear-resistant materials, which are not easy to be damaged, ensuring the stability and reliability of the equipment during long-term use.
This durability makes the module suitable for various industrial and civil scenarios, reducing the maintenance cost and replacement frequency of the equipment.
1. Which devices can this module be connected to?
This module can be connected via the USB interface to most computers (including Windows, Mac OS, and Linux systems), laptops, and some tablets that support USB devices. As long as the device has a USB interface and can recognize external devices, this module can be used.
2. Can the brightness of the lighting system be adjusted?
Yes, the brightness of the lighting system can usually be adjusted. You can adjust the lighting brightness through the operation interface on the connected device or the control buttons on the module itself (if available) to adapt to different inspection environments.
3. Can the images and videos be saved?
Yes, the operation software on the connected device generally provides the function of saving images and videos. You can save the captured images and videos to the hard disk or other storage media of the device for subsequent viewing, analysis, and archiving.
This micro-endoscopic imaging system features a 3.9mm ultra-compact design incorporating the GC030A high-sensitivity sensor and 1.074mm short-focus optical lens, delivering exceptional 90° wide-angle visualization within a 20-80mm operational range, with robust metal-clad construction ensuring durability for industrial inspection, pipeline maintenance, and medical diagnostic applications across various operating systems via standard USB connectivity. | |
Expansive Visual Coverage: The 90° wide-angle optics provide comprehensive field coverage in a single scan, significantly minimizing inspection omissions in confined spaces.
Unparalleled Access Capability: With its industry-leading 3.9mm micro-probe design, the system reaches deep into mechanical assemblies and infrastructure cavities previously inaccessible to conventional inspection tools.
Precision Diagnostic Imaging: Combining high-resolution sensor technology with optimized short-focus optics, the solution delivers crisp, distortion-free visuals across its entire 20-80mm working range for accurate defect identification.
Industrial Machinery Inspection
Pipeline Maintenance
Medical Endoscopy
Automotive Diagnostics
Aerospace Component Testing
Product Name | 3.9mm Endoscope Camera Module |
Basic tolerance | ±0.1mm |
DSP | USB2.0 |
Sensor | GC030A |
Focusing Range | 20-80mm |
Focal Length | 1.074mm |
F Number | 3.58 |
FOV(D) | 90° |
TV Distortion | <-5.5% |
Connector | Mini USB-5P |
The slender diameter of 3.9mm enables this borescope inspection camera module to easily access narrow spaces, such as small holes in mechanical equipment, the interior of pipelines, and the gaps of electronic devices. In places where traditional large-scale inspection equipment cannot reach, it can play a crucial role, greatly expanding the scope of inspection.
With its small overall size, it is convenient to carry. Whether in a workshop site, outdoor operation, or laboratory environment, it can be used conveniently without the need for the transportation and installation of large inspection equipment.
The USB interface is one of the most common interface types nowadays, and almost all devices like computers, laptops, and some tablets support USB connection. This means that this module can be easily connected to a variety of devices without the need for additional complex drivers or adapters, reducing the usage threshold and improving the compatibility of the equipment.
Through the USB interface, the data transmission is stable and fast, which can instantly transmit the images and videos captured by the camera to the connected device, making it convenient for users to view and analyze the inspection results in a timely manner.
It is designed to be sturdy and durable, able to withstand certain impacts, vibrations, and harsh working environments. The insertion tube is usually made of high-strength and wear-resistant materials, which are not easy to be damaged, ensuring the stability and reliability of the equipment during long-term use.
This durability makes the module suitable for various industrial and civil scenarios, reducing the maintenance cost and replacement frequency of the equipment.
1. Which devices can this module be connected to?
This module can be connected via the USB interface to most computers (including Windows, Mac OS, and Linux systems), laptops, and some tablets that support USB devices. As long as the device has a USB interface and can recognize external devices, this module can be used.
2. Can the brightness of the lighting system be adjusted?
Yes, the brightness of the lighting system can usually be adjusted. You can adjust the lighting brightness through the operation interface on the connected device or the control buttons on the module itself (if available) to adapt to different inspection environments.
3. Can the images and videos be saved?
Yes, the operation software on the connected device generally provides the function of saving images and videos. You can save the captured images and videos to the hard disk or other storage media of the device for subsequent viewing, analysis, and archiving.
