The microscope utilizes new focus variation methods, enabling a rapid measurement to construct the 3D surface of the material. The result is a high-resolution, large depth-of-field, color image with nanometer-level height resolution for an accurate profile. The laser can scan in the XYZ directions to collect data throughout the entirety of the specified range. It uses two light sources, white light for gathering color and a laser source for scanning the surface of an object and collecting detailed height information. VK-X1000 3D laser confocal microscope can produce high-resolution 3D images to analyze and characterize different surfaces. In Nguyen-Tri Lab, the VHX-S600E microscope is used for surface morphology studies of textiles as well as polymer crystallization. VHX-S600E also comes with powerful and intelligent software that allows a variety of easy, real-time, and accurate measurements from 2D measurement to 3D contours and surface roughness. Owing to a newly developed imaging engine and a universal lens, the magnification can be adjusted between 20x to 1000x simply by turning the knob. Both reflectance and transmittance lights are available in a variety of modes. Eucentric design ensures that the target stays centered in the field of view, even if the lens is tilted or rotated.
In addition, adjustment mechanisms allow easy field-of-view alignment, rotation, and oblique axis motion. It is equipped with a fully automated console that allows to easily control all components: from adjusting the focus to changing magnification. VHX-S600E is a digital microscope in the VHX-7000 series designed by Keyence, which is the world’s first 4K ultra-high accuracy digital microscope series.
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