ATS-10A-09-C1-R0

Series:	pushPIN™
Part Status:	Active
Type:	Top Mount
Package Cooled:	Assorted (BGA, LGA, CPU, ASIC...)
Attachment Method:	Push Pin
Shape:	Square, Fins
Length:	1.772" (45.00mm)
Width:	1.772" (45.00mm)
Diameter:	--
Height Off Base (Height of Fin):	0.790" (20.00mm)
Power Dissipation @ Temperature Rise:	--
Thermal Resistance @ Forced Air Flow:	10.56°C/W @ 100 LFM
Thermal Resistance @ Natural:	--
Material:	Aluminum
Material Finish:	Blue Anodized

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ATS-10A-09-C1-R0 Thermal - Heat Sinks

Heat sinks are designed to improve the efficiency of the thermal environment by transferring the heat from one area to another. This is accomplished by using a combination of materials and techniques to allow heat to be transferred from a surface to a cooler surface. ATS-10A-09-C1-R0 thermal-heat sinks are designed to use a combination of aluminum and copper to achieve improved performance.

Application

ATS-10A-09-C1-R0 thermal-heat sinks can be used in a variety of applications where improved thermal performance is required. Some of the typical applications include:

• Data center cooling.
• Electronics & computer cooling.
• Medical cooling applications.
• Industrial cooling applications.
• Aerospace and automotive cooling.

Design And Features

The design of ATS-10A-09-C1-R0 thermal-heat sinks utilizes a combination of aluminum and copper to achieve improved performance. The aluminum base provides a good thermal dissipation while the copper core helps to improve the overall thermal conductivity. The design also features a low profile so that it fits into tight spaces and a low profile means less heat is trapped underneath. This keeps the system running more efficiently. The sink also has a fin edge that reduces airflow turbulence and improves overall cooling performance.The performance of any heat sink depends on the size, material, shape and the distance from other heat-producing components. ATS-10A-09-C1-R0 thermal-heat sinks offer good performance in application with the right dimensions. They also have good power handling capabilities and a wide range of sizes to meet the needs of each application.

Working Principle

The working principle of ATS-10A-09-C1-R0 thermal-heat sinks is based on the thermodynamics of heat transfer. Heat is dissipated from the component surfaces through their metallic base and spread through the fins. The fins of the sink increase the surface area and also allow for better air flow by reducing turbulence. This increases the overall convective efficiency and helps to improve heat dissipation.The design of ATS-10A-09-C1-R0 thermal-heat sinks is also optimized to maximize the air flow. This includes adjusting the spacing between the fins and the base to ensure air is allowed to flow freely around the fins and over the component surfaces. Additionally, the fin edge radius is optimized to reduce turbulence and make the most of the available airflow.The cooling performance of ATS-10A-09-C1-R0 thermal-heat sinks is further improved by use of a copper core in the design. This enhances conductivity and helps to increase the efficiency of heat transfer. As a result, ATS-10A-09-C1-R0 thermal-heat sinks are able to dissipate heat more quickly and effectively.

Conclusion

Overall, ATS-10A-09-C1-R0 thermal-heat sinks offer great performance in applications where improved thermal conductivity and better heat dissipation are required. The combination of aluminum and copper provides for greater heat transfer capabilities and the low profile design allows for easy installation in tight spaces. Additionally, the optimized design of the fins and the copper core ensure maximum air flow and improved cooling performances.

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