PEAK TS2050-050 Pocket Erect Image Measuring Microscope, 50X Magnification, 1.7mm Field of View

0




Buy Now with Best Price



The PEAK TS2050-050 pocket-size 50x erected-image model (EIM) measuring microscope has a metric-scale reticle with 0.020mm scale divisions, a 1.6mm measuring range, and a 1.7mm (0.070") field of view, and is used to measure objects in field, lab, and quality control applications. The microscope has a prism that displays images true-to-life rather than inverted. The clear acrylic base and high-resolution, color-corrected glass lens and provide maximum light and full contrast. Separate focus control for the reticle and object provide sharp focus for accurate scale readings. The microscope is 4-15/32 x 1/2 inches (H x W). (H is height, the vertical distance from the lowest to highest point; W is width, the horizontal distance from left to right.)

Specifications

Power 50x
Field of view 1.7mm
Measuring range 1.6mm
Scale division 0.020mm
Dimensions* 4-15/32 x 1/2 inches (H x W)

*H is height, the vertical distance from the lowest to highest point; W is width, the horizontal distance from left to right.

Microscopes are instruments used to enhance the resolution of an object or image. Types include compound, stereo, or digital. Compound microscopes use a compound optical system with an objective lens and an eyepiece. Stereo microscopes show object depth in a three-dimensional image. Digital microscopes are used to display an image on a monitor, rather than looking through a lens. Microscopes can have monocular (one), binocular (two), or trinocular (three) eyepieces, with varying magnification abilities. Magnification ability refers to the size of an image. Resolution, also known as resolvant power, refers to the clarity of the image. The interaction between field of view (FOV), numerical aperture (NA), and working distance (WD) determines resolution. Microscopes can control magnification through a fixed focus, or through a range of adjustments. They can also utilize LED, fluorescent, and mirror light sources to help control viewing capabilities. Microscopes are widely used in education, lab research, biology, metallurgy, engineering, chemistry, manufacturing, and in the medical, forensic science, and veterinary industries.

PEAK produces optical glass and equipment such as microscopes and loupes. The company, founded in 1950, is headquartered in Tokyo, Japan.


Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
50x magnification and 1.7mm (0.070") field of view
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
50x magnification and 1.7mm (0.070") field of view
Erected Image Model (EIM) has a prism that displays the image true-to-life rather than inverted
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
50x magnification and 1.7mm (0.070") field of view
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
50x magnification and 1.7mm (0.070") field of view
Erected Image Model (EIM) has a prism that displays the image true-to-life rather than inverted
High resolution color-corrected glass lens ensures full contrast
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
50x magnification and 1.7mm (0.070") field of view
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
50x magnification and 1.7mm (0.070") field of view
Erected Image Model (EIM) has a prism that displays the image true-to-life rather than inverted
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
50x magnification and 1.7mm (0.070") field of view
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
Pocket-size measuring microscope has a metric-scale reticle with 0.020mm divisions and 1.6mm measuring range is used to measure objects in field, lab, and quality control applications
50x magnification and 1.7mm (0.070") field of view
Erected Image Model (EIM) has a prism that displays the image true-to-life rather than inverted
High resolution color-corrected glass lens ensures full contrast
Separate focus for reticle and specimen ensure sharp focus and accurate readings