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SINCEREFIRST
This is a CE, RoHS-certified HD 720P OV9734 CMOS LED bare endoscope camera module. It is equipped with the OmniVision OV9734 color image sensor, featuring 1MP pixels, 720-resolution output capability, and a maximum frame rate of 30FPS. The sensor has a size of 1/4 inch and a pixel size of 1.75μm x 1.75μm, enabling precise capture of details. Its core performance advantage lies in its optical configuration: the F4.0 aperture, combined with 6 integrated 0201-sized LED beads on the lens, balances light intake in dark environments such as equipment interiors and body cavities, preventing overexposure or underexposure of images during fill light and ensuring clear imaging. The 102° field of view, paired with a 3.3mm ultra-fine lens, allows full coverage of the panoramic view in narrow spaces without frequent lens movement, significantly reducing operational complexity. In addition, the module supports manual focusing and direct imaging, and adopts a separated design: it connects to the DSP board via a Type-C interface using MIPI signals, then outputs data through a USB 5Pin interface at USB 2.0 speed, and is compatible with the UVC protocol for plug-and-play functionality. The DSP board is equipped with a one-key photo function for instant capture of key images. During production, SMT technology and AA (Active Alignment) process are adopted to ensure alignment accuracy between the lens and the sensor, thus guaranteeing image quality stability. The module has also passed international certifications including CE, FCC, RoHS, and Reach, ensuring its safety and environmental compliance. |  |
Excellent Optical Performance: The F4.0 aperture provides greater depth of field. When imaging in narrow cavities, tissues or structures at different front-to-back levels can be clearly displayed simultaneously, reducing the risk of defocus caused by changes in cavity depth and improving inspection efficiency.
Wide Field of View: The 102° ultra-wide field of view can capture a wider area view. Compared with traditional narrow-angle lenses, it can obtain more comprehensive images of anatomical structures or inspection areas at the same operating distance, significantly reducing scanning blind spots and operation time.
Clear and Stable Imaging: The moderate F4.0 aperture helps reduce optical aberrations. Combined with the precise positioning enabled by the AA process, it ensures relatively uniform and controllable distortion of clear images across the entire wide field of view.
High Compliance and Safety: Having passed multiple international certifications such as CE, FCC, RoHS, and Reach, the product meets international standards in terms of electromagnetic compatibility, electrical safety, and restriction of hazardous substances, removing barriers for equipment export and commercial application.
Compact and Convenient: The tiny 3.3mm diameter, integrated LED lighting, separated design, and one-key photo function on the DSP board together form a plug-and-play, full-featured solution that can be easily integrated into end devices.
Veterinary Diagnosis and Treatment: Used for preliminary inspection of the ear canal, oral cavity, or digestive tract of pets (such as dogs and cats). It can enter the pet's body cavities, quickly take photos to save diagnostic images, and assist in formulating subsequent diagnosis plans.
Ancient Building Inspection and Maintenance: It can penetrate into gaps of wooden components or edges of murals. In the low-light environment inside ancient buildings, it clearly captures the width of cracks and the peeling of mural paint layers. The one-key photo function records the location of defects, providing intuitive basis for restoration plans.
Home Appliance Maintenance: For internal components such as air conditioner evaporator pipes, washing machine drum bearings, and refrigerator condenser pipes, it quickly locates fault points and saves fault images, facilitating maintenance personnel to confirm problems and conduct subsequent review.
Product Name | Bare LED Endoscope Camera Module |
Image Sensor | OV974 CMOS Sensor |
Pixel | 1MP |
Diameter | 3.3mm |
View Angle | 102° |
F NO | 4.0 |
Product Type | Butoon Photo Endoscope Camera Module |
Led | 6pcs 0201 Led |
Interface | USB 5Pin |
Feature | CMOS sensor Endoscope Camera Module |
Type-C transmits MIPI signals to the DSP board (high-speed, low-latency for 30FPS raw images); USB 5Pin outputs via USB 2.0 (supports UVC). This avoids signal interference & enables plug-and-play with computers/inspection tools.
Yes. It has passed international certifications including CE, FCC, RoHS, and REACH, meeting regulatory standards of most countries/regions—no extra compliance adjustments are needed for overseas use.
Fits diverse depths (0.1mm chip close-ups, 102° wide shots). Adjust the lens focus ring slightly — no complex calibration.
It supports the UVC Protocol, enabling plug-and-play functionality with mainstream systems (Windows, Linux, Android, MacOS) without extra drivers. The Separated design also allows flexible arrangement of the lens and control board to fit installation spaces.
This is a CE, RoHS-certified HD 720P OV9734 CMOS LED bare endoscope camera module. It is equipped with the OmniVision OV9734 color image sensor, featuring 1MP pixels, 720-resolution output capability, and a maximum frame rate of 30FPS. The sensor has a size of 1/4 inch and a pixel size of 1.75μm x 1.75μm, enabling precise capture of details. Its core performance advantage lies in its optical configuration: the F4.0 aperture, combined with 6 integrated 0201-sized LED beads on the lens, balances light intake in dark environments such as equipment interiors and body cavities, preventing overexposure or underexposure of images during fill light and ensuring clear imaging. The 102° field of view, paired with a 3.3mm ultra-fine lens, allows full coverage of the panoramic view in narrow spaces without frequent lens movement, significantly reducing operational complexity. In addition, the module supports manual focusing and direct imaging, and adopts a separated design: it connects to the DSP board via a Type-C interface using MIPI signals, then outputs data through a USB 5Pin interface at USB 2.0 speed, and is compatible with the UVC protocol for plug-and-play functionality. The DSP board is equipped with a one-key photo function for instant capture of key images. During production, SMT technology and AA (Active Alignment) process are adopted to ensure alignment accuracy between the lens and the sensor, thus guaranteeing image quality stability. The module has also passed international certifications including CE, FCC, RoHS, and Reach, ensuring its safety and environmental compliance. | |
Excellent Optical Performance: The F4.0 aperture provides greater depth of field. When imaging in narrow cavities, tissues or structures at different front-to-back levels can be clearly displayed simultaneously, reducing the risk of defocus caused by changes in cavity depth and improving inspection efficiency.
Wide Field of View: The 102° ultra-wide field of view can capture a wider area view. Compared with traditional narrow-angle lenses, it can obtain more comprehensive images of anatomical structures or inspection areas at the same operating distance, significantly reducing scanning blind spots and operation time.
Clear and Stable Imaging: The moderate F4.0 aperture helps reduce optical aberrations. Combined with the precise positioning enabled by the AA process, it ensures relatively uniform and controllable distortion of clear images across the entire wide field of view.
High Compliance and Safety: Having passed multiple international certifications such as CE, FCC, RoHS, and Reach, the product meets international standards in terms of electromagnetic compatibility, electrical safety, and restriction of hazardous substances, removing barriers for equipment export and commercial application.
Compact and Convenient: The tiny 3.3mm diameter, integrated LED lighting, separated design, and one-key photo function on the DSP board together form a plug-and-play, full-featured solution that can be easily integrated into end devices.
Veterinary Diagnosis and Treatment: Used for preliminary inspection of the ear canal, oral cavity, or digestive tract of pets (such as dogs and cats). It can enter the pet's body cavities, quickly take photos to save diagnostic images, and assist in formulating subsequent diagnosis plans.
Ancient Building Inspection and Maintenance: It can penetrate into gaps of wooden components or edges of murals. In the low-light environment inside ancient buildings, it clearly captures the width of cracks and the peeling of mural paint layers. The one-key photo function records the location of defects, providing intuitive basis for restoration plans.
Home Appliance Maintenance: For internal components such as air conditioner evaporator pipes, washing machine drum bearings, and refrigerator condenser pipes, it quickly locates fault points and saves fault images, facilitating maintenance personnel to confirm problems and conduct subsequent review.
Product Name | Bare LED Endoscope Camera Module |
Image Sensor | OV974 CMOS Sensor |
Pixel | 1MP |
Diameter | 3.3mm |
View Angle | 102° |
F NO | 4.0 |
Product Type | Butoon Photo Endoscope Camera Module |
Led | 6pcs 0201 Led |
Interface | USB 5Pin |
Feature | CMOS sensor Endoscope Camera Module |
Type-C transmits MIPI signals to the DSP board (high-speed, low-latency for 30FPS raw images); USB 5Pin outputs via USB 2.0 (supports UVC). This avoids signal interference & enables plug-and-play with computers/inspection tools.
Yes. It has passed international certifications including CE, FCC, RoHS, and REACH, meeting regulatory standards of most countries/regions—no extra compliance adjustments are needed for overseas use.
Fits diverse depths (0.1mm chip close-ups, 102° wide shots). Adjust the lens focus ring slightly — no complex calibration.
It supports the UVC Protocol, enabling plug-and-play functionality with mainstream systems (Windows, Linux, Android, MacOS) without extra drivers. The Separated design also allows flexible arrangement of the lens and control board to fit installation spaces.
