PP110-13-34C 13mm Travel X Axis Manual Displacement Station,Manual Stage,Manual Linear Stage,stable Movement,Manual Optical Stage,Manual Optical Stage,X Axis Manual Optical Sliding Stage,Linear Translation Stages

PP110-13-34C 13mm Travel X Axis Manual Displacement Station,Manual Stage,Manual Linear Stage,stable Movement,Manual Optical Stage,Manual Optical Stage,X Axis Manual Optical Sliding Stage,Linear Translation Stages

Item Number: PP110-13-34C Travel Range: 13mm Actuator Type: Micrometer Head in Center Travel Guide: Crossed Roller Bearing Platform: 34mm × 34mm Parallelism: 30μm Straightness: 20μm Driving Parallelism:30μm Minimum Scale: 10μm Positional Accuracy: 5μm Minimum Adjust Distance: 2μm/0.1μm Pitching: 80” Yawing: 60″ Material – Finish: Aluminum Alloy - Black-Anodized Load capacity: 2Kgs Weight: 0.07kgs
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Product Details

PDV offers high precision electric platform, high precision manual platform, optical plate, microscope bracket, long working distance objective, microscope lighting source, optical bench products for laboratory light path building.  

we will provide excellent service and competitive price for you, we are expecting become your long-term partner in China.


PP110-13-34C 13mm Travel X Axis Manual Displacement Station,Manual Stage,Manual Linear Stage,stable Movement,Manual Optical Stage,Manual Optical Stage,X Axis Manual Optical Sliding Stage,Linear Translation Stages


Item Number: PP110-13-34C

Travel Range: 13mm

Actuator Type: Micrometer Head in Center

Travel Guide: Crossed Roller Bearing

Platform: 34mm × 34mm

Parallelism: 30μm

Straightness: 20μm

Driving Parallelism:30μm

Minimum Scale: 10μm

Positional Accuracy: 5μm

Minimum Adjust Distance: 2μm/0.1μm

Pitching: 80”

Yawing: 60″

Material – Finish: Aluminum Alloy - Black-Anodized

Load capacity: 2Kgs

Weight: 0.07kgs

Product  size drawings

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Industry  knowledge about the factors affect the microscope imaging

The various differences in the above fields, except for the field curvature, affect the clarity of the image. Distortion is another property of the difference, the beam's concentricity is not damaged. Thus, it does not affect the sharpness of the image, but makes it distorted like the original object, in shape.

(1) When the object is located in the lens object twice times the focal length, then in the image square twice times the focal length, the focus is formed to reduce the inverted real;

(2) When the object is located at twice times the focal length of the lens, the same size of inverted real is formed on the twice-times focal length of the image square;

(3) When the object is located within twice times focal length of the lens, and outside the focal point, a magnified inverted real is formed outside the focal length of the image square twice times;

(4) When the object is in the focal point of the lens, the image cannot be imaged;

(5) When the object is within the focal point of the lens, the image is not formed, and the same side of the lens side forms a magnified upright virtual than the object in the far position.

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