Fen Guo, Tuo Li, Hongtao Man, Kai Liu, Xiaoliang Wang
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引用次数: 1
摘要
为了进一步提高GaNRF器件的散热效率,本文考虑了一种结合金刚石衬底和金刚石扩散片的增强散热结构。通过稳态仿真分析了散热结构的热管理能力。模拟主要比较了双金刚石散热结构与GaN on SiC、GaN on diamond和GaN on SiC带金刚石扩散器的散热结构的传热能力和特性。仿真结果表明,双金刚石结构器件的结温为120℃,明显低于SiC衬底的结温,这是由于金刚石衬底与金刚石扩散器的协同作用增强了双向散热。结果还表明,与单金刚石衬底相比,在双金刚石结构中仅添加10 $\mu$m金刚石衬底,器件的散热性能提高了约15%。此外,通过优化扩散板厚度和界面热阻,可以进一步提高传热能力。
Enhanced Heat Dissipation of GaN RF Devices Based on Double-diamond Structure
In this paper, an enhanced heat dissipation structure, combining diamond substrate and diamond spreader, is considered for further improving the heat dissipation efficiency of GaNRF devices. The steady-state simulation is performed to analyze the thermal management ability of heat dissipation structures. The simulation is mainly focused on the comparisons of heat transfer capability and characteristics for double-diamond heat dissipation structure and the others, including GaN on SiC, GaN on diamond and GaN on SiC with diamond spreader. Simulation demonstrates that the junction temperature of device with double-diamond structure is 120°C, significantly lower than that on SiC substrate, since the coordination of diamond substrate and diamond spreader strengthens heat dissipation in both directions. The results also show that the heat dissipation performance of device is improved about 15 % by adding only 10 $\mu$m diamond spreader in double-diamond structure compared to that of single diamond substrate. In addition, the heat transfer ability could be further enhanced by optimizing the spreader thickness and the interface thermal resistance.
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