Labotronics long working distance stereo microscope is a specialized optical instrument designed for observing and working with specimens that require a significant distance between the objective lens and the specimen. These microscopes provide a larger space or "working distance" under the objective lenses, making them suitable for tasks that involve manipulating or repairing samples while maintaining clear and magnified observation. Long working distance stereo microscopes are commonly used in fields like electronics, entomology, and circuit board assembly, allowing users to access and work on delicate or larger specimens without the need for physical contact.
Viewing head |
Binocular |
Eyepiece |
WF 10X / 20 mm |
Inclination |
45° |
Diopter adjustment |
± 5 dp |
Our research biological microscope is an advanced laboratory instrument specially designed for high-resolution observation and analysis of biological specimens. These microscopes offer a wide range of features, including a variety of objective lenses, multiple observation techniques like phase contrast, fluorescence, and DIC, as well as digital imaging capabilities. Research biological microscopes are commonly used in various scientific fields such as cell biology, microbiology, and histology, allowing researchers to explore and document the intricate structures and functions of biological samples. Their precision, versatility, and advanced imaging technology make them indispensable tools for in-depth biological research and the development of scientific knowledge.
Viewing head |
Seidentopf Trinocular |
Viewing head inclination |
30° inclined |
Interpupillary distance |
50 mm ~ 76 mm |
Frame |
Biological frame (transmitted) |
Viewing head |
Seidentopf Trinocular |
Viewing head inclination |
30° inclined |
Interpupillary distance |
50 mm ~ 76 mm |
Frame |
Biological frame (transmitted) |
Viewing head |
Seidentopf Trinocular |
Viewing head inclination |
30° inclined |
Interpupillary distance |
50 mm ~ 76 mm |
Frame |
Fluorescence frame (transmitted) |
Our USB digital microscope is a compact and versatile optical instrument that connects to a computer via a USB port. Equipped with a built-in digital camera, it allows users to view, capture, and record magnified images and videos of specimens directly on a computer screen. USB digital microscopes are ideal for a wide range of applications, including education, quality control, and hobbyist use. They often feature adjustable magnification, built-in LED illumination, and user-friendly software for image capture and analysis. These microscopes contribute to the convenience and efficiency of specimen examination and documentation, making them valuable tools for various microscopy tasks.
Image sensor |
1.3 Mega Pixels CMOS Sensor (interpolate to 2MP with software) |
Image and video capture resolution |
1600 × 1280 pixels
1280 × 1024 pixels
1024 × 960 pixels
1024 × 768 pixels
800 × 600 pixels
640 × 480 pixels
352 × 288 pixels
320 × 240 pixels
320 × 240 pixels |
Focus ranger |
Manual focus from
10 mm to 500 mm |
Frame rate |
Max 30 f / s under 600 Lus Brightness |
Image sensor |
5.0 Mega Pixels CMOS sensor (interpolated to 12.0 MP) |
Image and video capture resolution |
12M
9M
5M
3M
1.3M
VGA |
Focus ranger |
Manual focus from 10mm to 50mm |
Frame rate |
Max. 30 f / s under 600 Lus Brightness |
Image sensor |
2.0 Mega Pixels CMOS sensor |
Image and video capture resolution |
1920 × 1080 pixels
1280 × 720 pixels
640 × 480 pixels |
Focus ranger |
Manual focus from
10 mm to 500 mm |
Frame rate |
Max 30 f / s under 600 Lus Brightness |
Image sensor |
5.0 Mega Pixels CMOS sensor (true resolution) |
Image and video capture resolution |
5 M
3 M
1.3 M
VGA, QVGA |
Focus ranger |
Manual focus from
10 mm to 500 mm |
Frame rate |
Max 30 f / s under 600 Lus Brightness |
We provide digital microscope, a modern optical instrument equipped with a digital camera and imaging technology to capture and display magnified images or videos of specimens on a computer or digital device screen. Unlike traditional microscopes, digital microscopes do not require eyepieces; instead, they offer live, real-time digital visualization, making it easier to share and document observations. These microscopes are versatile tools widely used in various fields, including research, education, and quality control, for their ability to capture high-resolution images, measure objects, and record videos for further analysis.
Viewing head |
Monocular |
Inter-pupillary distance |
|
Eyepiece ( Wide field eyepiece ) |
WF10X / 18 mm |
Eyepiece ( Extra wide field ) |
|
Viewing head |
Monocular |
Inter-pupillary distance |
|
Eyepiece ( Wide field eyepiece ) |
WF10X / 18 mm |
Eyepiece ( Extra wide field ) |
|
Viewing head |
Binocular |
Inter-pupillary distance |
|
Eyepiece ( Wide field eyepiece ) |
WF10X / 18 mm |
Eyepiece ( Extra wide field ) |
|
Viewing head |
Siedentopf binocular |
Inter-pupillary distance |
|
Eyepiece ( Wide field eyepiece ) |
WF10X / 18 mm |
Eyepiece ( Extra wide field ) |
|
Our portable measuring microscope is a compact and handheld optical instrument designed for precise measurement and inspection of small objects and components in various industries, including manufacturing and quality control. These microscopes offer the capability to magnify and measure objects with high accuracy using built-in reticles, micrometers, or digital measurement systems. They are highly portable and often battery-powered, making them suitable for use in the field or at different locations within a facility. Portable measuring microscopes are equipped with bright LED illumination and adjustable focus for clear and detailed observation.
Total magnification |
40X |
Objective |
4X |
Illumination |
Pen light, battery |
Numerical aperture |
0.1 |
Total magnification |
20X |
Objective |
2X |
Illumination |
Pen light, battery |
Numerical aperture |
0.05 |
Total magnification |
100X |
Objective |
10X |
Illumination |
Pen light, battery |
Numerical aperture |
0.25 |
Total magnification |
40X |
Objective |
160 mm |
Illumination |
Pen Light Illumination (with holder, No Battery) |
Numerical aperture |
0.1 |