Development of a cooling system for 6U module based on Elbrus microprocessor

Radio industry (Russia) Pub Date : 2020-04-14 DOI:10.21778/2413-9599-2020-30-1-16-23

Sh. M. Sazho, V. Vorobushkov, A. S. Gladkih, S. V. Senchenkov

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Abstract

The article discusses the design features of cooling systems for compact Eurocard format modules based on the Elbrus microprocessor. The issue of ensuring the necessary thermal regime of the processor module in the space shortage conditions in order to accommodate the cooling system has been solved. The estimated calculation showed the underperformance of the passive cooling of the Elbrus-4S microprocessor with a heat output of 60 W. In this regard, a 3D model of an active cooling system with 5.5×10.3×4.6 cm dimensions was developed. Thermal calculations were performed using the SolidWorks Flow Simulation program in order to optimize the radiator geometry and fan speed. It was assumed that an optimized cooling system will ensure that the chip temperature of the Elbrus-4S processor is no more than +87 °C (at an ambient temperature of +55 °C). Based on the results of the study, three prototypes were produced for testing. Further tests conducted on prototypes showed the efficiency of the cooling system and the high accuracy of the simulation results. During tests in a climatic chamber at a temperature of +55 °C, the temperature on the microprocessor chip did not exceed +84 °C (a difference of 3 °C compared to the estimated one).

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基于Elbrus微处理器的6U模块冷却系统的开发

本文讨论了基于Elbrus微处理器的紧凑型欧洲卡格式模块的冷却系统设计特点。在空间短缺的情况下，确保处理器模块的必要热状态以容纳冷却系统的问题已经解决。计算结果表明，当elbrush - 4s微处理器的热输出为60 W时，其被动冷却性能不佳。在这方面，开发了一个主动冷却系统的三维模型，尺寸为5.5×10.3×4.6 cm。使用SolidWorks Flow Simulation程序进行热计算，以优化散热器几何形状和风扇速度。假设优化后的冷却系统将确保elbrush - 4s处理器的芯片温度不超过+87℃(环境温度为+55℃)。根据研究结果，生产了三种原型机进行测试。在样机上进行的进一步测试表明，冷却系统的效率和模拟结果的准确性很高。在温度为+55°C的气候室中进行测试期间，微处理器芯片上的温度不超过+84°C(与估计温度相比相差3°C)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Radio industry (Russia)

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