Description
This 3D digital microscope offers an immersive viewing experience with its 4K ultra-high-definition imaging and stereo depth perception, delivering precise visualization of fine details. Designed with USB and HDMI outputs, it supports real-time display and data transfer to an external monitor or computer, making it ideal for inspection, documentation, and analysis. The advanced optical system ensures accurate color reproduction and sharp clarity, while the flexible design allows comfortable viewing from multiple angles. Perfect for electronics repair, industrial inspection, precision assembly, and educational demonstrations, this 3D digital microscope combines performance, convenience, and professional-grade imaging in one device.
Specification of 3D Digital Microscope
| Optical Magnification | 0.7x – 4.5x continuous zoom |
| Digital Magnification | 26x – 180x |
| Sensor | 1/1.8 Inch |
| Resolution | 3840*2160P@60FPS |
| Pixel Size | 2.0μm*2.0μm |
| Output Interface | HDMI + USB 2.0 + USB 3.0 |
| Lens Interface | C Mount |
| Power Supply | DC 12V |
| External Devices | HD Monitor + Computer |
| Storage Method | External storage |
| Basic Functions | Photo Capture, Video Recording, Measurement |
| Image Adjustment | Color, Color Temperature, White Balance, Exposure |
| Camera Features | Horizontal/vertical mirroring, freezing, computer software measurement, digital zoom in/out, auto exposure, auto white balance, grid lines, etc. |
| Illumination Method | 56 LEDs ring light illumination |
| Menu Language | Simplified Chinese, Traditional Chinese, English |
Applications of 3D Digital Microscope
- Electronics and PCB Inspection – Examining solder joints, microcircuits, and component placement with 3D visualization.
- Semiconductor Industry – Inspecting wafers, bonding wires, and microstructures with depth accuracy.
- Industrial Quality Control – Detecting surface defects, cracks, and dimensional deviations in manufactured parts.
- Metallurgical Analysis – Observing grain structures, weld joints, and material fractures.
- Precision Engineering – Inspecting fine mechanical components and assemblies for accuracy.
- Medical Device Inspection – Ensuring quality and cleanliness of surgical instruments and medical components.
- Educational and Research Institutions – Demonstrating microscopic 3D structures for scientific study and training.
- Jewelry and Watchmaking – Evaluating craftsmanship, engravings, and gemstone quality.
- Forensic Science – Analyzing trace evidence, tool marks, and document authenticity.
- 3D Printing and Prototyping – Checking surface finish and structural integrity of printed models.
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