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An optical microscope that offers a three-dimensional view of a specimen is called a stereo microscope. Other names for it include stereo zoom microscope and dissecting microscope. Separate objective lenses and eyepieces are included in dissecting microscope components.
Separate objective lenses and eyepieces are included in dissecting microscope components. As a result, each eye has its own unique optical path. A three-dimensional image is created by the slightly varying angling views to the left and right eyes. It also goes by the name “dissecting microscope” since it provides a three-dimensional perspective.
A stereomicroscope is a low-power compound device used for a closer examination of three-dimensional specimens than is achievable with a hand lens. Additionally, they provide a sizable working distance that enables users to manipulate the specimens that the scope is seeing.
The apparatus provides slightly distinct viewing angles to the left and right using two unique optical pathways, two objectives, and two eyepieces. The device uses two distinct optical pathways, two objectives, and two eyepieces to provide the left and right eyes slightly different viewing angles.
The Global stereo microscope market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
With a wide 6.3X to 320X magnification range, a 12.5:1 zoom ratio, and a Common Main Objective design, UNITRON’s new Z12 zoom stereo microscope offers all of these advantages.
The Z12 has a lot of features that are generally seen in microscopes that cost more money. Three new platforms, a plain focusing stand, a transmitted light base with sliding/tilting mirror, and a compact profile LED transmitted light base, are suitable for the most demanding applications.
The color-balanced LED light sources deliver brilliant illumination to the specimen, and are highly cost effective low energy usage and long lifespans and low energy consumption and long lifespans. A trinocular observation head with a 5°–45° tilt provides the user-adjustable ergonomic viewing comfort.
The trinocular port is ready to accommodate a digital microscope camera, and its apochromatic objectives provide sharp color reproduction and high resolution of fine structures.in imaging. Click-stop zoom positions make it quick and easy to switch back to a certain magnification level, improving reproducibility.
DRV Stereo CAM improves compatible conventional binocular stereo microscopes to full HD 3D digital stereo imagery in addition to flawlessly integrating with Vision Engineering’s own ergonomic stereo microscope, the Lynx EVO.
The advantages of both high resolution optical microscopy and Vision Engineering’s patented DRV “glasses-free” digital 3D stereo viewing technology are combined in this one-of-a-kind device.
The revolutionary architecture of the DRV Stereo CAM enables viewing to be separated from the target subject, allowing remote, safe, and ergonomic positioning of the operator when the subject is required to be in a hygienic or hostile environment. It is possible to securely and remotely see samples in 3D distant from the microscope that are in laminar flow cabinets, over production lines, or in regions that are difficult to access. Vision Engineering’s own software is fully integrated with DRV Stereo CAM.
