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Liquid cold plate is a critical component in thermal management systems, offering efficient cooling solutions by transferring heat through a circulating liquid within the plate. They are widely used in various applications, including electronics, data centers, electric vehicles, and ESS.
The cold plate liquid cooling technology solution combined with air-cooled technology can be better utilized in the cooling system of the data center and enhance the refrigeration ability.
Cold plates feature a heat source mounting surface, internal passages for liquid to pass through, and an inlet and outlet. Thermal engineers optimize cold plate liquid flow path design and construction to maximize cooling within the liquid cooling system constraints like pressure drop and flow.
Liquid coolant circulates through channels or tubes integrated into the battery pack, absorbing and taking care of high heat loads via a liquid cold plate. These two cooling methods are frequently employed individually or in combination to manage and regulate temperatures effectively.
To select the best cold plate for your application, you need to know the cooling fluid flow rate, fluid inlet temperature, heat load of the devices attached to the cold plate, and the maximum desired cold plate surface temperature, Tmax.
JetCool’s SmartPlates feature a microjet impingement design that targets thermal hot spots directly, maximizing cooling efficiency at the chip level. These facility-ready cold plates connect effortlessly to our liquid-to-liquid 6U CDU, providing a streamlined, plug-and-play cooling solution that scales easily for high-density racks.
In their new white paper, the company explores the state of liquid cooling and how microconvective cooling technology using cold plate design can drive data center capabilities. First, the paper outlines the types of liquid cooling solutions and how the technology enables faster compute.
There are 2 main categories of liquid cooling – direct to chip (sometimes called conductive or cold plate) and immersive. From these two categories come a total of five main liquid cooling methods, as the diagram in Figure 1 depicts (the orange boxes). In this section, we’ll describe and illustrate each method. The Green Grid
Two-phase cold plate technology marks a significant advancement in liquid cooling systems for high-performance computing environments. It offers exceptional temperature control and reliability through its dynamic heat transfer capabilities.
Liquid-cooled cold plates offer superior cooling for high power electronic devices and can be purchased as standard products or can be custom designed. A custom cold plate is needed when there is a special shape or interface requirement or an extreme performance requirement.