462 4-Pin Sensor Cable with Straight M8 Female Connector.

Sensor sizes range from 20.7×13.8 mm to 28.7×19.1 mm, but are typically 22.3×14.9 mm for Canon and 23.5×15.6 mm for other manufacturers. Each variant results in ...

A concave lens is thinner at the center than at the edge. Parallel light rays passing into one side of the lens diverge (spread out) as they emerge from the other side.

A Bi632 Light Red Interference Bandpass Filter is recommended for use with red laser diodes or LED lighting where precise illumination control is needed.

The abbreviation GmbH stands for Gesellschaft mit beschränkter Haftung, which in English means a 'limited liability company' or 'company with limited liability' ...

Toshiba CMOS sensors have been developed for use in a wide variety of low power consumption, good image quality and fast line-by-line scanner applications.

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When you look through a magnifying glass, or take a picture with a camera, you are using a lens. A lens is a polished piece of glass or transparent plastic with curved surfaces. There are two main shapes of lenses, CONVEX and CONCAVE.

This type of lens is thicker in the center than at the edge. Parallel rays of light entering it on one side will converge (meet) at a particular spot on the other side of the lens. Magnifying glasses and microscopes use convex lenses.

A magnifying glass makes an object look bigger. Holding it close to an object makes a virtual image of the object form on the same side of the glass as the object. When you look through the magnifying glass, this virtual object seems to be larger than the real one. The thicker the lens, the larger the virtual image.

A microscope makes a tiny, nearby object look much bigger. A telescope makes a large, distant object or scene appear much closer and brighter. In both instruments, light from the object passes through two or more lenses to form an image. The shapes of the lenses and the distances between them alter the image that is produced.

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If you are nearsighted, your eye lens focuses a scene just in front of the retina in your eye and the image you see is blurred. A concave lens spreads out the light rays before they enter the eye, so that they are focused on the retina and the image is sharp.

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A lens changes the direction of light waves by refraction. It may form an image of a scene or an object. The image might be smaller (as in a camera), or larger (as in a microscope). Because a lens is curved, light rays strike different parts of its surface and are bent by different amounts. Depending on the lens shape, a beam of light either diverges (spreads out) or converges (concentrates).

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AQT530 Configuration Guide ; 6, Pink, − ; 7, Blue, Power GND ; 8, Red, Power 10 ... 25 V DC ; −, Black, Cable GND ...

Diverging (spreading) light rays are made parallel by the first convex lens. The second convex lens angles the parallel rays so that they converge—meet or focus—at a certain point, called the focal point.

Diverging light rays are made parallel by a convex lens. But when the parallel light rays pass through a concave lens, they diverge (spread out) again.

Es un lente de enfoque manual único, diseñado exclusivamente para las tomas macro, entre el tamaño real (1x) y 5x el tamaño real; en su máxima ampliación, usted ...

The BSI DAVIS processing consisted of the following steps [100] : bonding the standard CMOS wafer front side to a carrier wafer, flipping the sensor to expose ...