Cincoze Fanless Embedded Computer Cooling Techniques

From the workstation automatic picking arms in an automobile factory to the autonomous mining vehicles in a mine, or even the automatic oil drilling platforms at sea, embedded computers provide stability and reliability that keeps industry moving. Embedded computers provide the computing power, peripheral connections, data analysis, and real-time networking needed in various application environments, such as smart manufacturing, transportation, rail, energy and mining, and more. But with the high possibility of harsh conditions in these environments, effective heat dissipation becomes a critical element for stable operation. Cincoze’s robust, reliable, and application-focused fanless embedded computers meet a wide range of application requirements and, importantly, feature a proprietary heat dissipation structure that’s the key to stable operation and enables wide temperature operation (-40°C to 70°C) that beats the industry standard.

Decrypting Cincoze Cooling Solutions

Excessively high temperatures are detrimental to the service life of computer parts and, left unchecked, can lead to degraded performance through CPU throttling or even system shutdown. Fortunately, embedded computer manufacturers have a few unique techniques to achieve the ideal balance between performance and heat dissipation. Before decoding Cincoze’s cooling solution, you should first understand that there are multiple heat sources on the motherboard, including the CPU, chipset, GPU, LAN controller, Choke, MOSFET, and others. Generally speaking, there are two cooling methods to choose from. The first is active cooling, which uses fans to move the hot air away from heat-generating parts. The other option is passive cooling, which harnesses the conductive properties of specific metals to transfer energy from the heated parts to the system’s outer shell.

Embedded computers are designed to handle harsh conditions in various installation environments such as hot and humid or even freezing temperatures outdoors or large amounts of dust or sawdust on a production line. These environmental factors are key points, so for these reasons, Cincoze embedded computers use a closed fanless design that increases robustness and effectively eliminates the risk of dust accumulating inside the computer and affecting operation.

Cincoze fanless embedded computer’s cooling solution is carefully calculated and precision designed by the R&D unit’s thermal design engineer in the early stages of product design and aims to strike the ideal balance between cooling and performance by designing the system to wick heat away from the CPU and GPU faster than it’s generated.

Cincoze Embedded Computers - Thermal Energy Transfer Architecture

International Wide Temperature Certification

To provide the most suitable embedded computer for application requirements, Cincoze invests many resources in its R&D center, setting up multiple different laboratories, such as an EMC, signal, hardware, and temperature labs. The temperature lab, in particular, ensures that Cincoze embedded computers can maintain stable and smooth operation when dealing with multitasking operations in temperatures from -40°C to 70°C. Cincoze embedded computers have also passed the following standards to meet application-specific certification requirements:

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