Labotronics Wi-Fi digital microscope is a cutting-edge optical instrument equipped with a built-in digital camera and Wi-Fi connectivity, allowing users to view, capture, and share magnified images and videos of specimens wirelessly on smartphones, tablets, or computers. These microscopes offer portability, making them suitable for fieldwork and on-the-go applications. They often feature adjustable magnification, LED illumination, and user-friendly apps or software for image capture and analysis. Wi-Fi digital microscopes are versatile tools used in education, research, quality control, and various hobbyist pursuits, offering the convenience of wireless connectivity for real-time specimen examination and easy sharing of findings, making them valuable for a wide range of microscopy tasks.
Sensor |
3.0MP CMOS sensor |
Image capture resolution |
3M
5M
8M
12M |
Video capture resolution |
1920 x 1080 (1080P)
1280 x 720 (720P)
VGA |
Focus range |
Manual focus from 0 mm to 50 mm |
Labotronics HDMI digital microscope is a modern microscope that integrates high-definition multimedia interface (HDMI) technology, allowing users to view and capture magnified images and videos directly on a monitor or TV screen. These microscopes offer ease of use and convenience, eliminating the need for traditional eyepieces. They are equipped with a built-in camera and illumination system, and the captured images and videos are displayed in real-time in high-definition on a larger screen. Our HDMI digital microscopes are versatile tools used in fields such as education, quality control, and inspection, providing sharp and detailed imaging for various applications.
Sensor |
3.0MP CMOS sensor |
Focal distance |
10 mm to 500 mm |
Magnification |
10X ~ 200X |
Video output |
1080P Full HD
720P
VGA |
Our fluorescent stereo microscope is a specialized optical instrument designed for three-dimensional observation of specimens, particularly those labeled with fluorescent markers. Combining the advantages of stereo microscopy with fluorescence illumination, it offers a broader view of the sample and enables the visualization of fluorescent structures in high contrast. These microscopes are commonly used in various fields such as biology, genetics, and material science to examine the 3D distribution and morphology of fluorescently tagged objects. They feature dedicated fluorescence light sources, filters, and objective lenses to enhance the visualization of specific fluorophores.
Zoom objective |
0.8X ~ 5X |
Zoom ratio |
1:6 |
Optical system |
Infinite parallel zoom optical system |
Viewing head |
Binocular head |
Zoom objective |
0.8X ~ 8X |
Zoom ratio |
1:10 |
Optical system |
Infinite parallel zoom optical system |
Viewing head |
Binocular head |
Zoom objective |
0.8X ~ 6.4X |
Zoom ratio |
1:8 |
Optical system |
Infinite parallel zoom optical system |
Viewing head |
Binocular head |
We provide an inverted biological microscope, a specialized optical instrument designed for studying biological specimens that cannot be easily examined on a conventional upright microscope. Inverted microscopes have their light source and objective lenses positioned below the specimen, allowing for the examination of cells, tissues, and other biological samples cultured in containers like Petri dishes or multi-well plates. These microscopes are commonly used in cell biology, microbiology, and tissue culture applications, providing a clear view of live cells and tissues in their natural environment.
Viewing head |
Trinocular |
Viewing head inclination |
Inclined at 30° |
Interpupillary distance |
48 mm ~ 75 mm |
Eyepiece |
EW10X/22 mm |
Viewing Head |
Trinocular head inclined at 30°C |
Interpurpillary Distance |
48 – 75 mm |
Eyepiece |
High point, wide field eyepiece EW10x/22mm |
Nosepiece |
Quintuple |
Viewing head |
Seidentopf Trinocular |
Viewing head inclination |
Inclined at 30° |
Interpupillary distance |
48 mm ~ 75 mm |
Eyepiece |
WF10X/20 mmEyepiece tube Φ 30 mm |
Our reflective polarizing microscope is a specialized optical instrument designed for examining reflective and anisotropic materials under polarized light. Unlike traditional transmitted light microscopes, it utilizes reflected light to observe opaque specimens like metals, minerals, and other reflective surfaces. These microscopes feature specialized objectives, polarizers, and compensators to control and analyze the polarization of light. Reflective polarizing microscopes are commonly used in fields like geology, materials science, and metallurgy to study crystalline structures, stress patterns, and other optical properties in opaque samples. They play a crucial role in analyzing material composition and quality, making them valuable tools for research, quality control, and failure analysis in various industrial and scientific applications.
Viewing head |
Binocular |
Eyepiece |
WF10X / 18 |
Optical compensator |
λ Slip (First class red)
1/ 4λ Slip
Quartz wedge |
Achromatic objective |
4X
10X |