Allicdata Part #: | 9-1542003-0-ND |
Manufacturer Part#: |
9-1542003-0 |
Price: | $ 8.11 |
Product Category: | Fans, Thermal Management |
Manufacturer: | TE Connectivity AMP Connectors |
Short Description: | HEAT SINK BGA 37.5MM 3FIN RADIAL |
More Detail: | Heat Sink BGA Aluminum |
DataSheet: | 9-1542003-0 Datasheet/PDF |
Quantity: | 1000 |
450 +: | $ 7.30296 |
Series: | -- |
Part Status: | Active |
Type: | -- |
Package Cooled: | BGA |
Attachment Method: | Clip |
Shape: | Cylindrical |
Length: | -- |
Width: | -- |
Diameter: | 1.375" (34.92mm) OD |
Height Off Base (Height of Fin): | 0.479" (12.17mm) |
Power Dissipation @ Temperature Rise: | -- |
Thermal Resistance @ Forced Air Flow: | 5.70°C/W @ 200 LFM |
Thermal Resistance @ Natural: | 11.00°C/W |
Material: | Aluminum |
Material Finish: | Black Anodized |
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Thermal – Heat Sinks are electronic components used to cool off components, devices, and systems. They are, essentially, the counterpart to a heat source, which dissipates heat energy by either radiance or direct contact. While heat sinks are usually used to cool electronic components, they can also be used to dissipate heat energy in more passive ways.
The 9-1542003-0 is a type of thermal – heat sink that is tailored to meet the specific needs of certain applications. It utilizes a unique combination of aluminum alloy and copper alloy to create a product that can effectively dissipate more heat than standard products. This is due to its combination of air-cooled and direct-cooling features, which make it one of the most efficient heat sinks available.
The 9-1542003-0’s working principle is based on the concept of heat transfer. Heat transfer, in general, refers to the transfer of thermal energy from one area to another. Heat transfer occurs due to temperature differences between two objects, and the rate of heat transfer depends upon the size of the temperature difference. In the 9-1542003-0, heat is transferred by convection, radiation, and conduction. The process of convection is used to move air over the heat sink, which carries heat away from the component. Radiation is the emission of thermal energy in the form of waves, which is beneficial because it can reach far away locations on the component to dissipate heat. Finally, conduction is the transfer of heat energy through the use of transferred electrons or vibrations within the material, which goes toward cooling the component.
The 9-1542003-0 thermal – heat sink is often used in applications that require the efficient dissipation of heat energy. This includes applications in the automotive, telecommunications, and power generation industries. For example, automobile engines often generate a lot of heat, so heat sinks are often used to channel the heat away from the engine and other components. In telecommunications, large amounts of heat can build up in the various components due to the large amount of electrical activity that takes place. Heat sinks are often used to cool these components off. Lastly, power generation facilities often require cooling due to the intense heat that is generated from the potential conversion of fuel or energy. Heat sinks are necessary due to their ability to dissipate heat energy effectively.
Heat sinks can also be used in applications where cooling is not only needed but also beneficial. This is because the heat that is dissipated from the component can be used to heat other components in the system or to fuel other processes, such as desalination or air conditioning. Heat can also be recovered from certain processes and stored or re-used in other processes. This type of application is especially beneficial for facilities or operations that run on electricity, as the heat generated from the electricity can be saved or recycled for other purposes.
In conclusion, the 9-1542003-0 thermal – heat sink is an efficient and reliable product tailored for use in a wide variety of cooling applications. It is specifically designed to dissipate heat energy at a higher rate than traditional heat sinks, and its efficient working principle utilizes convection, radiation, and conduction to transfer heat away from components. It is mostly used in applications that involve high levels of heat, such as automotive, telecommunications, and power generation, but it can also be used for applications that call for cooling and the recovery of heat energy.
The specific data is subject to PDF, and the above content is for reference