![49L-CBSA-1.0X5.0X0.4 Allicdata Electronics](https://files.allicdata.com/upload/common/default.jpg)
Allicdata Part #: | 49L-CBSA-1.0X5.0X0.4-ND |
Manufacturer Part#: |
49L-CBSA-1.0X5.0X0.4 |
Price: | $ 14.64 |
Product Category: | RF/IF and RFID |
Manufacturer: | Leader Tech Inc. |
Short Description: | 49L SERIES CBS SHIELD ASSEMBLY |
More Detail: | RF Shield Shield, 2-Piece 1.000" (25.40mm) X 5.000... |
DataSheet: | ![]() |
Quantity: | 1000 |
22 +: | $ 13.30990 |
Series: | 40-CBS |
Packaging: | Bulk |
Part Status: | Active |
Type: | Shield, 2-Piece |
Height - Overall: | 0.400" (10.16mm) |
Length - Overall: | 5.000" (127.00mm) |
Width - Overall: | 1.000" (25.40mm) |
Ventilation: | Vent Holes in Pattern |
Mounting Type: | Through Hole |
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RF shields, such as 49L-CBSA-1.0X5.0X0.4, are an important class of components intended to protect electronic systems from electromagnetic interference (EMI). In particular, RF shields are used to attenuate, or reduce, the power of the RF signals that are emitted by electronic systems. This is important because EMI signals can interfere with the operation of other electronic systems nearby. In addition, RF shields can be used to protect people from potentially dangerous radiation levels.
RF Shields, such as 49L-CBSA-1.0X5.0X0.4, are made of materials that absorb or reflect electromagnetic frequencies. These types of shields are commonly made of metallic foils and films, copper mesh, and aluminum or ferrite plates. RF shields are also available in a variety of shapes and sizes depending on their application. For example, RF shields used for automotive applications may have an irregular shape to minimize drag and increase the efficiency of the shield.
The most common application for RF shields is in radiofrequency applications. Radiofrequency radiation is emitted from electronic devices such as cell phones, Wi-Fi networks, and radio transmitters. These types of RF radiation can interfere with electronic systems and can cause health problems if exposed to for long periods of time. The goal of using RF shields is to reduce the level of radiation emitted. This can be accomplished by designating a specific area where the RF radiation is reduced, or by creating a physically barrier to block or reflect the RF radiation.
Another important application for RF shields is in the area of medical electronics. In this case, the RF shields are used to protect patients from the potentially dangerous radiation emitted by medical devices. In particular, RF shields are used to reduce the level of radiation emitted from diagnostic imaging equipment such as CT scanners and MRI machines. These shields are typically made using a combination of materials such as copper mesh and absorbent foams.
The working principle of RF shields is based on the principle of electromagnetic shielding. Electromagnetic shielding works by reducing the amount of electromagnetic radiation that is able to pass through the shield. This is done by using materials that block, reflect, or absorb electromagnetic radiation. The type of material used to make the shield will depend on the type of radiation being protected against and the level of attenuation that is desired.
In the case of 49L-CBSA-1.0X5.0X0.4, it is a shielding material designed to reduce the transmission of radiofrequency radiation while still allowing the passage of other signals such as audio and video. The material is made up of a combination of copper mesh and other shielding materials, which work together to reduce the level of radiation that passes through the shield. The shield also contains a conductive coating that helps to ensure that the shield is effective in blocking RF radiation.
In conclusion, RF shields, such as 49L-CBSA-1.0X5.0X0.4, are an important class of components used for a variety of applications. They are used to reduce interference from radiofrequency radiation, as well as to protect people from potentially dangerous radiation levels. The working principle of RF shields is based on the principle of electromagnetic shielding, which uses materials that block, reflect, or absorb electromagnetic radiation. The type of shielding material that is used will depend on the type of radiation that is being protected against, as well as the desired level of attenuation.
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