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内置微通道T/R组件壳体设计及试验研究
引用本文:丁承文,吕辉. 内置微通道T/R组件壳体设计及试验研究[J]. 电子机械工程, 2022, 38(2): 33-37. DOI: 10.19659/j.issn.1008-5300.2022.02.009
作者姓名:丁承文  吕辉
作者单位:南京电子技术研究所,江苏南京210039
摘    要:为了降低界面热阻对微通道散热性能的制约,提出了一种组件壳体内置微通道散热单元的设计架构,以满足新一代高功率芯片T/R组件的热控需求.对内置微通道的传热特性进行数值仿真分析,优选出最佳结构参数组合.基于优选设计参数,整合UV-LIGA微细加工技术、精密扩散焊接技术及微组装技术,完成内置微通道散热单元T/R组件的模拟样件研...

关 键 词:T/R组件  微通道  数值模拟  散热测试

Design and Test of T/R Module Shell with Built-in Micro-channels
DING Chengwen,LV Hui. Design and Test of T/R Module Shell with Built-in Micro-channels[J]. Electro-Mechanical Engineering, 2022, 38(2): 33-37. DOI: 10.19659/j.issn.1008-5300.2022.02.009
Authors:DING Chengwen  LV Hui
Affiliation:Nanjing Research Institute of Electronics Technology
Abstract:This paper presents a design of T/R module shell with built-in micro-channels to reduce the restriction of interface thermal resistance on the heat dissipation performance of micro-channels. Through this research, the goal of heat dissipation performance of the new generation high-power chips is achieved. The heat transfer characteristics of the built-in micro-channels are analyzed by numerical simulation, and the best combination of design parameters is optimized. The T/R module samples with built-in micro-channels are prepared by UV-LIGA, diffusion welding and micro-assembly technologies. The performance testing system for the micro-channel heat exchanger is developed to verify the heat dissipation effect of the samples. The results show that the heat flux of the T/R module with built-in micro-channels reaches 274.2 W/cm2, which can keep the high power chips to work under the allowable temperature. This thermal design method can be widely used in the electronic device with high heat flux in local area.
Keywords:T/R module   micro-channel   numerical simulation   heat transfer test
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