Contour Illumination Unit Mitutoyo-378-736

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SKU:
Mitutoyo-378-736
Condition:
New
  • Contour Illumination Unit Mitutoyo-378-736
  • Contour Illumination Unit Mitutoyo-378-736
  • Contour Illumination Unit Mitutoyo-378-736
  • Contour Illumination Unit Mitutoyo-378-736


Quick Overview
Transmitted Illuminator Input Port Size: Dia. 7mm. For Mitutoyo-378-730.

Mitutoyo-378-736 Contour Illumination Unit
Transmitted Illuminator
Transmitted Illuminator Mounting Size Dia. 39mm
Transmitted Illuminator Input Port Size Dia. 7mm
Net Weight0.80kg (1.76lbs)
Applied FieldFor Mitutoyo-378-730

 


Technical Info

Instructions
IlluminatorClose Λ
The conditions of different illumination of the microscope are a very important parameter. Choosing the correct illumination method can improve the resolution and contrast of the image, which is very important for observing the imaging of different objects.

The wavelength of the light source is the most important factor affecting the resolution of the microscope. The wavelength of the light source must be smaller than the distance between the two points to be observed in order to be distinguished by the human eye. The resolution of the microscope is inversely proportional to the wavelength of the light source. Within the range of the visible light, the violet wavelength is the shortest, providing also the highest resolution. The wavelength of visible light is between 380~780nm, the maximum multiple of optical magnification is 1000-2000X, and the limit resolution of optical microscope is about 200nms. In order to be able to observe a much smaller object and increase the resolution of the microscope, it is necessary to use light having a much shorter wavelength as the light source.
The most commonly used technical parameters for describing illumination are luminescence intensity and color temperature. Luminescence intensity, with lumen as unit, is the physical unit of luminous flux. The more lumens, the stronger the illumination. Color temperature, with K (Kelvin) as unit, is a unit of measure indicating the color component of the light. The color temperature of red is the lowest, then orange, yellow, white, and blue, all gradually increased, with the color temperature of blue being the highest. The light color of the incandescent lamp is warm white, its color temperature is 2700K, the color temperature of the halogen lamp is about 3000K, and the color temperature of the daylight fluorescent lamp is 6000K.


A complex and complete lighting system can include a light source, a lampshade or lamp compartment, a condenser lens, a diaphragm, a variety of wavelength filters, a heat sink cooling system, a power supply, and a dimming device etc. Select and use different parts as needed. Of which, selection and use of the illuminating light source is the most important part of the microscope illumination system, as and other components are designed around the illuminating wavelength curve and characteristics of the illuminating light source.

Some of the microscope light sources are pre-installed on the body or frame of the microscope, and some are independent. There are many types and shapes of light sources. Depending on the requirements of the microscope and the object to be observed, one type or multiple types of illumination at the same time can be selected. In addition, the whole beam and band adjustment of the light source, the position and illumination angle of the light source, and the intensity and brightness of the light all have a great influence on the imaging.
For microscope imaging, a good lighting system may be a system that allows for more freedom of adjustment. In actual work, such as industry, too many adjustment mechanisms may affect the efficiency of use, therefore choose the appropriated configured lighting conditions is very important.
Transmitted IlluminatorClose Λ
Transmitted illuminator is a kind of illumination observation method in which an object to be observed is placed between an objective lens and the illuminator or light source, it is suitable for transparent or translucent object to be inspected, and the vast majority of biological microscopes belong to such illumination methods. When applied on a stereo microscope, it can also be used as a kind of bright background to show the contour of the object being observed, showing the accurate edges when measuring.

Transmissive lighting can also be divided into two types: "central illumination" and "oblique illumination":
Center illumination: this is the most commonly used transmissive illumination method. It is characterized by the central axis of the illumination beam being in the same line with the optical axis of the microscope. It is further divided into "critical illumination" and "Kohler illumination".
Oblique illumination: for this kind of illumination, the central axis of its illumination beam is not in the same line with the optical axis of the microscope, but forms a certain angle to the optical axis, illuminating obliquely on the object, and therefore it is called oblique illumination. Stereo microscope often uses oblique illumination for easy observation of objects of different heights, and increase the stereoscopic effect of images.

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