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Thermal resistance of AlGaN/GaN HEMTs on SopSiC composite substrate

Thermal resistance of AlGaN/GaN HEMTs on SopSiC composite substrate

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In this reported work, the thermal resistance of AlGaN/GaN HEMTs processed on SopSiC composite substrate is determined by electrical I-V pulsed measurement. SopSiC substrate is based on an innovative structure with a thin Si single crystal layer transferred on top of a thick polycrystalline SiC wafer. For the first time, it is demonstrated that the thermal resistivity of such devices reaches 18.9 K·mm/W when 7.5 W/mm power is dissipated, while 23.5 K·mm/W are measured on silicon in the same conditions. This result shows the capabilities of composite substrates to compete with silicon for microwave power applications.

Inspec keywords: semiconductor device measurement; pulse measurement; III-V semiconductors; silicon compounds; gallium compounds; thermal resistance; high electron mobility transistors; aluminium compounds

Other keywords: thermal resistance; microwave power application; SiC; thin Si single crystal layer; HEMT; thermal resistivity; electrical I-V pulsed measurement; SopSiC composite substrate; thick polycrystalline SiC wafer; AlGaN-GaN

Subjects: Other field effect devices

References

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      • B. Benbakhti , A. Soltani , K. Kalna , M. Rousseau , J.-C. De Jaeger . Effects of self-heating on performance degradation in AlGaN/GaN-based devices. IEEE Trans. Electron Devices , 10 , 2178 - 2185
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      • D. Ducatteau , A. Minko , V. Hoel , E. Morvan , E. Delos , B. Grimbert , H. Lahreche , P. Bove , C. Gaquiere , J.C. De Jaeger , S. Delage . Output power density of 5.1/mm at 18 GHz with an AlGaN/GaN HEMT on Si substrate. Electron. Lett. , 5 , 71 - 72
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      • V. Hoel , N. Defrance , J.C. De Jaeger , H. Gerard , C. Gaquiere , H. Lahreche , R. Langer , A. Wilk , M. Lijadi , S. Delage . First microwave power performance of AlGaN/GaN HEMTs on SopSiC composite substrate. Electron. Lett. , 3 , 238 - 239
http://iet.metastore.ingenta.com/content/journals/10.1049/el.2010.0431
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