ATS-16A-195-C1-R0 Fans, Thermal Management |
|
Allicdata Part #: | ATS-16A-195-C1-R0-ND |
Manufacturer Part#: |
ATS-16A-195-C1-R0 |
Price: | $ 3.13 |
Product Category: | Fans, Thermal Management |
Manufacturer: | Advanced Thermal Solutions Inc. |
Short Description: | HEATSINK 40X40X12MM XCUT |
More Detail: | Heat Sink Assorted (BGA, LGA, CPU, ASIC...) Alumin... |
DataSheet: | ATS-16A-195-C1-R0 Datasheet/PDF |
Quantity: | 1000 |
10 +: | $ 2.81736 |
30 +: | $ 2.74134 |
50 +: | $ 2.58905 |
100 +: | $ 2.43671 |
250 +: | $ 2.28446 |
500 +: | $ 2.20830 |
1000 +: | $ 1.97985 |
Series: | pushPIN™ |
Part Status: | Active |
Type: | Top Mount |
Package Cooled: | Assorted (BGA, LGA, CPU, ASIC...) |
Attachment Method: | Push Pin |
Shape: | Square, Fins |
Length: | 1.575" (40.00mm) |
Width: | 1.575" (40.00mm) |
Diameter: | -- |
Height Off Base (Height of Fin): | 0.472" (12.00mm) |
Power Dissipation @ Temperature Rise: | -- |
Thermal Resistance @ Forced Air Flow: | 10.88°C/W @ 100 LFM |
Thermal Resistance @ Natural: | -- |
Material: | Aluminum |
Material Finish: | Blue Anodized |
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
Thermal - Heat Sinks are used in a variety of applications for controlling and dissipating heat. The ATS-16A-195-C1-R0 Heat Sink is a particularly effective solution in providing the temperature control and heat dissipation required in high-heat stress thermal management applications such as high-powered electronics. This heat sink is commonly used in consumer electronics such as gaming consoles and computers, but can also be found in industrial applications. This article will provide an overview of the ATS-16A-195-C1-R0 application field and working principle.
The ATS-16A-195-C1-R0 Heat Sink is designed for applications that require guaranteed performance at temperatures up to 200°C. This heat sink is made from aircraft grade aluminum for maximum heat transfer and durability. It features a fin core design that is optimized for minimized thermal resistance and high-efficiency heat dissipation. The design also features a closed fin structure for minimal turbulence and maximum air pressure. Additionally, the heat sink has rounded edges to prevent damage and ensure a secure fit.
The working principle of the ATS-16A-195-C1-R0 Heat Sink revolves around two major components: the passive heat sink and active cooling fan. A passive heat sink is a device designed to transfer heat away from a hot surface and dissipate the heat energy into the surrounding environment. This type of device consists of metal that is able to absorb heat from an object and effectively transfer it away. The second component, an active cooling fan, is necessary to further move air and dissipate heat from the heat sink more effectively.
The combined performance of these two components allows the ATS-16A-195-C1-R0 Heat Sink to effectively dissipate heat from electronic systems. The passive heat sink absorbs the heat from the surface of the device and the active cooling fan helps disperse the heat away from the area. This combination ensures consistent and reliable performance for a range of applications.
The ATS-16A-195-C1-R0 Heat Sink is suitable for a range of applications that require efficient heat dissipation. These applications include personal computers, gaming consoles, network racks, communication systems, medical equipment, and industrial machines. By providing reliable thermal performance in extreme temperatures, the ATS-16A-195-C1-R0 Heat Sink can be an effective solution for these and other applications.
In summary, the ATS-16A-195-C1-R0 Heat Sink is an effective solution for high-heat stress thermal management applications. The combination of a passive heat sink and active cooling fan allows it to effectively transfer and dissipate heat from electronic systems. With its aircraft grade aluminum construction, rounded edges and fin core design, this thermal solution is suitable for a range of industry applications. Additionally, its performance can be trusted in temperatures up to 200°C.
The specific data is subject to PDF, and the above content is for reference