Allicdata Part #: | 1066-1064-ND |
Manufacturer Part#: |
10628 |
Price: | $ 0.95 |
Product Category: | Optoelectronics |
Manufacturer: | Carclo Technical Plastics |
Short Description: | LENS BUBBLE 20MM DOWNLIGHT |
More Detail: | Lens with Integrated Mount Clear Wide Lumileds™ L... |
DataSheet: | 10628 Datasheet/PDF |
Quantity: | 1000 |
Lead Free Status / RoHS Status: | Lead free / RoHS Compliant |
Moisture Sensitivity Level (MSL): | 1 (Unlimited) |
384 +: | $ 0.86183 |
Lens Style: | Round with Domed Top |
Lens Size: | 20mm Dia |
Lens Transparency: | Diffused |
Optical Pattern: | Wide |
Viewing Angle: | -- |
For Use With/Related Manufacturer: | Cree, LG Innotek, Lumileds, Nichia, Osram, Plessey, Samsung, Seoul, Stanley, Toshiba |
Material: | Polycarbonate |
Mounting Type: | Adhesive |
Series: | -- |
Part Status: | Active |
Lead Free Status / RoHS Status: | -- |
Type: | Lens with Integrated Mount |
Moisture Sensitivity Level (MSL): | -- |
Color: | Clear |
Number of LEDs: | 1 |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Introduction
The 10628 application field and working principle is a powerful tool used by scientists and engineers to understand the optical behavior of lenses. It is often used to analyze the features of lenses for various applications such as microscopy, imaging, and virtual reality (VR). In this article, we will be discussing the 10628 application field and working principle.
Applying the 10628 Principle to Lens Design
The 10628 principle, or Snell-Descartes’ Law, is used to measure the behavior of lenses when exposed to specific incident lightwaves. The law is a mathematical formulation of the optical refraction behavior of lenses based on the refractive index of the lens material, the radius of curvature of the lens’ surfaces, and the angles between the incident lightwave and the normal of the lens’ surfaces. The 10628 application field and working principle can be used to understand the transmission of light through a lens, as well as the change in direction of the light beam as it exits the lens.
To design a lens using the 10628 principle, one must first understand the refraction behavior of lenses and the index of refraction (IOR) of the lens materials. Refraction is a process in which light is bent as it passes from one medium to another. This bending is due to a change in the speed of the light as it enters different mediums, and this change is determined by the refractive index of the medium. The refractive index of a material is the ratio of the speed of light in a vacuum to the speed of light in the material.
Once the refractive index of the lens materials (IOR) is known, the next step is to calculate the incident angle of the lightwave entering the lens. This is done by using the 10628 application field and working principle. The law states that the incident angle of the lightwave is related to the refractive index of the lens material and the radius of curvature of the lens’ surfaces. This equation is used to calculate the angles at which the lightwave will bend when it exits the lens.
The 10628 principle can also be used to calculate the focal distance of the lens. This is the distance between the center of the lens and the point at which the light is focused. The focal distance can be used to create lenses of different magnifications, and to optimize the performance of the lens depending on the type of application.
Applications of the 10628 Principle
As mentioned above, the 10628 principle is used to design lenses for various applications. Microscopes use lenses of different magnifications to create an image of a sample, and the 10628 principle can be used to design those lenses. It is also used to design lenses for cameras, telescopes, and virtual reality headsets, where the focus and magnification of the lenses are critical for proper image capture and display.
The 10628 principle is also used to develop lenses that can be used in medical scanning and imaging applications. These lenses are designed to capture images of the interior of the human body, and they must be designed with precise angles and carefully calculated focal distances to ensure that the images they capture are clear.
Finally, the 10628 principle can be used to understand and predict the behavior of lenses when they are exposed to various light sources. This is important in applications such as photography and lighting design, where the precise angles and focal distances of lenses can be used to create desired lighting effects.
The specific data is subject to PDF, and the above content is for reference
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1062-20-0222 | TE Connectiv... | -- | 1000 | CONTACT SKT 16-22AWG CRIM... |
1062-20-0122 | TE Connectiv... | -- | 1000 | CONTACT SKT 16-22AWG CRIM... |
1062-14-0122 | TE Connectiv... | 0.15 $ | 1000 | CONTACT SKT 14-18AWG CRIM... |
1062-16-0622 | TE Connectiv... | -- | 1000 | CONTACT SKT 16-20AWG CRIM... |
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1062253-1 | TE Connectiv... | 50.94 $ | 1000 | CONN SSMA JACK STR 50 OHM... |
1062258-1 | TE Connectiv... | 62.38 $ | 1000 | CONN SSMA PLUG STR 50 OHM... |
1062252-1 | TE Connectiv... | 65.0 $ | 1000 | CONN SSMA RCPT R/A 50 OHM... |
1062249-1 | TE Connectiv... | 92.2 $ | 1000 | CONN SSMA RCPT R/A 50 OHM... |
1062177-1 | TE Connectiv... | 30.23 $ | 1000 | CONN SMA JACK STR 50 OHM ... |
1062256-1 | TE Connectiv... | 32.73 $ | 1000 | CONN SSMA PLUG STR 50 OHM... |
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