The digital microscope is the microscope with this century. It surpasses all previous types of microscopes because it allows the storage of the images of the specimen in different phases for future reference or for simultaneous full- image viewing.You also have the digital microscope.
This kind is different from other kinds since this takes away the optics for the human eyes.Simply said, an electronic digital microscope does not need an eyepiece or an ocular.
It doesn't have a part where you can work through the specimen being examined. Instead, it utilizes a charge-coupled device (CCD) camera. The optical image is then seen by projecting it to a monitor.
Matters of Magnification
If you're able to remember your elementary science, you'll recall that the compound microscope uses two optical systems: the eyepiece and the lenses. You can also get to know more about different types of microscopes from testimonials posted at New York Microscope Co. online magazines.
The working together of both systems provides you with a magnification that's much like almost nothing. You obtain high-powered total magnification from the product of the capabilities of both the eyepiece and lens. As a result, you can view a specimen in as high a magnification as 2000X.
This scenario isn't applicable in the digital microscope. Magnification is influenced by the capacity of the monitor – meaning, it's influenced by just how much larger the specimen can be reproduced on screen.
Basically, how big the monitor has dictated the magnification. On the common, this method features a 15" monitor. Comparing this to a magnification of an optical microscope, this is at most of the 60% less.
When referring to the quality of recorded images, on one other hand, the digital microscope is in the lead. Because it has the capacity of directly projecting the image on the CCD camera, then it can perform away with the compromises and adjustments needed when the camera is mounted on an eyepiece. You can even read this for further information about digital microscopes.
Many digital microscope systems are capable of developing a 3D image. This really is accomplished through image stacking.
Images from the cheapest to the greatest focal plane in the field of view are taken and are then reconstructed to make a 3D model.