Application of Motorized Microscope Stage in the Upgrade of Optical Microscopes
Optical microscopes play an important role in engineering and scientific research. With the continuous changes of the measured object, the requirements for microscope measurement accuracy are constantly increasing, and the requirements for displacement accuracy and functional implementation of the stage are becoming higher and higher. The demand for electrification is becoming increasingly apparent, especially under high magnification objective lenses, where the field of view is small, any inaccurate movement may cause the observed features to move out of the field of view.
Advantages of electric loading platform
The existing manual loading platform can achieve multi axis movement or rotation adjustment, and can provide high-precision displacement steps through the handwheel. However, there are some limitations to manual loading platforms: they cannot consistently output the same step distance, and there may be human errors; As the usage time increases, the damping of the handwheel will become smaller and smaller, making it easier to accurately locate and more susceptible to external interference; The manual stage requires manual contact operation, which is very inconvenient to operate due to distance when observed by the display. Prolonged use of the eyepiece for observation can lead to eye fatigue.
The electric stage can achieve high-precision displacement output, more accurate quantification of step distance, high-precision repeated positioning, and meticulous displacement control, improving the efficiency of research work.
1. The upright and inverted microscope stages are driven by linear stepper motors, guided by imported guide rails, and controlled by a closed-loop grating ruler, achieving oversize, thin thickness, high load, high precision, and long lifespan.
2. Suitable for precise movement of samples under a microscope, standard DB9 control interface, directly connected to PMC100/400 controller
