The working principle and application fields of a fully automatic microscope
A fully automatic microscope is a high-tech product that utilizes advanced distributed control technology and modular embedded structure to achieve the goal of improving work efficiency through optoelectronic and computational integration.
Traditional microscopes manually adjust and focus, resulting in high labor intensity and low work efficiency for operators. The fully automatic microscope adopts an automatic motion platform to replace manual fine tuning and focusing.
Working principle of fully automatic microscope
By adopting advanced control technology, the XYZ three-axis control of the stage is achieved, enabling fast and large-scale automatic focusing; Adopting a two-dimensional automatic loading platform to achieve automatic adjustment of the sample, efficiently and quickly adjusting the target sample to the field of view of the objective lens; The image is transmitted to the display using CCD, completely breaking away from the mode of standing human eye observation of the sample.
The fully automatic microscope can achieve full automation functions such as panoramic automatic scanning, automatic mosaic, automatic return, synchronous browsing, and remote control through software. It is a high-tech product that integrates optoelectronics to improve work efficiency.
Features of fully automatic microscope
1. The microscope is fully automated, and the corresponding software can achieve complete automation
2. Small size, convenient for use in various occasions
3. Sample automatic movement
4. The accuracy has reached the upstream level of similar products at present
5. Autofocus
Application field of fully automatic microscope
Fully automatic microscopes are widely used in image stitching, image comparison, defect detection, sample observation, biological experiments, medical experiments, general industrial microscopes, semiconductor testing, laser engraving, student projects, scientific research, and other fields.
Features:
High precision, small size, thin thickness, and good rigidity.
Place of use:
Microscope stage, high-speed scanning.
Purpose:
Existing microscope automation transformation, high-speed scanning of glass slides.
Product Description:
1. The forward and reverse microscope stage is driven by a linear stepper motor, guided by an imported square guide rail, and controlled by a grating ruler closed-loop, achieving super size, thin thickness, large load, high accuracy, and long service life.
2. Suitable for precise movement of samples under a microscope, equipped with a DB9 control interface as standard, directly connected to a PMC100/400 controller
