Liquid Cold Plate Design

The performance of these components is critical to the overall effectiveness of the liquid system.

Liquid cold plate design.

Each design is unique precisely optimized to your heat source s manufacturing method material and dimensions resulting in hot spot elimination. A cold plate is responsible for taking the heat from the device s and transfer it to a single phase liquid coolant circulating through internal channels of the plate and subsequently reject it downstream to a radiator. Liquid cooled cold plates are commonly used for high heat flux or high power electronics cooling applications. Liquid cold plates are responsible for transferring heat from surfaces with high heat loads to the fluid used within a liquid cooling system.

Cold plate design fabrication and testing a thermal control plate thermal interface plate thermal sink or cold plate is used for heat sinking at a specified temperature many thermal control systems such as air cooling have limitations requiring enough airflow to remove heat efficiently. The quality of this product has been highly evaluated by authoritative testing organizations based on a strict performance test and quality test. Liquid cold plate design manufacturing process. Liquid cooled cold plates offer superior cooling for high power electronic devices and can be purchased as standard products or can be custom designed.

Liquid cold plates designed using generative technology usher in additional layers of performance and adaptability. A custom cold plate is needed when there is a special shape or interface requirement or an extreme performance requirement. Liquid cold plate is a kind efficient heat sink of igbt gto and other power elements. Cold plates provide localized cooling by transferring heat from a device to a liquid that flows to a remote heat exchanger and dissipates into either the ambient or to another liquid in a secondary cooling system.

Characteristics of the material we design and manufacture the optimum liquid cold plate with material to meet your application and operating environment such as copper with excellent heat dissipation aluminum with excellent weight saving stainless steel with strong corrosion resistance. Generally the copper tube is buried in the aluminum substrate that is the aluminum substrate is machined by cnc machining and then the punched copper tube is pressed by a punching machine.