金刚石衬底上AlGaN/GaN异质结构的热阻评价

D. Dumka, T. Chou
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引用次数: 8

摘要

对金刚石衬底上的AlGaN/GaN异质结构进行了热评价。为了强调金刚石衬底对GaN的优势,将GaN-on- diamond材料上的测试结果与GaN-on- sic和GaN-on- si材料上的测试结果进行了比较。采用0.25 μm栅极长度工艺制备了台面电阻和高电子迁移率晶体管(hemt)。采用红外热像仪测量了不同功耗条件下测试电阻和晶体管的温升。在传统的台面电阻器上添加一个简单的功能,可以使用红外热像仪进行非破坏性,晶圆上兼容和更可靠的表面温度测定。包括直流电流-电压特性,以显示不同衬底对hemt电学行为的影响。我们的研究结果清楚地表明,与SiC和Si衬底相比,用于GaN hemt的金刚石衬底具有显着的热优势,其电性能接近可比。对于相同hemt中相同的平均通道温升,我们估计本研究中使用的GaN-on- diamond材料允许GaN-on- sic的1.7倍耗散功率和GaN-on-Si的3X耗散功率。
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Evaluation of thermal resistance of AlGaN/GaN heterostructure on diamond substrate
Thermal assessment of AlGaN/GaN heterostructure on diamond substrate is presented. To emphasize the advantages of diamond substrate for GaN, results of test devices on GaN-on-Diamond material are compared to those on GaN-on-SiC and GaN-on-Si materials. Mesa resistors and High Electron Mobility Transistors (HEMTs) fabricated using a 0.25 μm gate length process are characterized. Infrared thermography is employed for measurement of temperature rise in the test resistors and transistors at different power dissipation conditions. Addition of a simple feature to the conventional mesa resistor is found to allow a non-destructive, on-wafer compatible and more reliable surface temperature determination using IR thermography. DC current-voltage characteristics are included to show the impact of different substrates on the electrical behavior of HEMTs. Our results clearly demonstrate a significant thermal advantage of diamond substrate compared to SiC and Si substrate for GaN HEMTs designed for closely comparable electrical performance. For the same average channel temperature rise in the identical HEMTs, we estimate that GaN-on-Diamond material used in this study allows 1.7X dissipated power of GaN-on-SiC and 3X dissipated power of GaN -on-Si.
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