ATS-17A-129-C3-R0

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Thermal management, which is the process of creating and maintaining optimal temperatures in electrical and electronic components, is critical to the operation of many modern technologies. One of the main types of components used to help manage temperature in the circuit and control board is heat sinks. One widely used type of heat sink is the ATS-17A-129-C3-R0. This article will discuss the application field and working principle of the ATS-17A-129-C3-R0 thermal-heat sink.

ACT-17A-129-C3-R0 thermal- heat sinks are typically used in higher-temperature applications, such as to manage temperatures in electrical power electronics applications and in motors. The typical working environment is in the 96-98℃ temperature range. The ACT-17A-129-C3-R0 is also suitable for use in applications with large current or high-power densities.These thermal-heat sinks are usually manufactured with a galvanized aluminium alloy base that features superior thermal performance and heat dissipation, as well as corrosion resistance. The sink body is typically composed of a high-pressure die-cast aluminium alloy, which makes it very strong and lightweight. The fins are made from a special bimetallic strip with extended heat dissipation capability, and the core is made from a galvanised steel tube.

In addition, ACT-17A-129-C3-R0 thermal-heat sinks also feature a patented two-level surface technology that provides better heat dissipation. This technology utilizes an inner layer that is composed of grooves, which helps to reduce turbulence during operation and thus improve heat dissipation. Furthermore, the outer layer of the thermal-heat sink features metal fins that are angled to increase surface-level contact and thus provide better heat conduction.

The primary working principle of ACT-17A-129-C3-R0 thermal-heat sinks is to transfer heat away from its source and dissipate it into the surrounding environment. The heat from the components is conducted through the metal fins on the outer surface and then dissipated through the cooling fins into the surrounding air. This process helps to keep the components cool, thus avoiding potential problems such as overheating.The main benefit of ACT-17A-129-C3-R0 thermal-heat sinks is that they are very efficient at removing heat, thus ensuring reliable operation of the components even under high-temperature conditions. The heat sink body also has a low profile, which helps to reduce the overall size of the system, thus providing a cost-effective solution. In addition, it also features a high air-flow rate, which helps to ensure that the components do not overheat.

In conclusion, ACT-17A-129-C3-R0 thermal-heat sinks are a reliable and efficient solution for managing temperatures in a variety of electronic systems. They are primarily used in applications with higher temperatures and also aid in keeping components cooler with their effective heat transfer and low-profile design. The two-layer surface technology further helps to improve heat transfer, while the high air-flow rate helps to ensure that the components operate reliably even under extreme conditions. All of these features make the ACT-17A-129-C3-R0 an ideal choice for many electronic systems.

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