GaN-On-Diamond HEMT Technology With TAVG = 176°C at PDC,max = 56 W/mm Measured by Transient Thermoreflectance Imaging

GaN-On-Diamond HEMT Technology With TAVG = 176°C at PDC,max = 56 W/mm Measured by Transient Thermoreflectance Imaging

Record DC power has been demonstrated in AlGaN/GaN high electron mobility transistors fabricated using a substrate replacement process in which a thick diamond substrate is grown by chemical vapor deposition following removal of the original Si substrate. Crucial to the process is a ~30 nm thick SiN...

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Veröffentlicht in:IEEE electron device letters 2019-06, Vol.40 (6), p.881-884
Hauptverfasser: Tadjer, Marko J., Anderson, Travis J., Ancona, Mario G., Raad, Peter E., Komarov, Pavel, Bai, Tingyu, Gallagher, James C., Koehler, Andrew D., Goorsky, Mark S., Francis, Daniel A., Hobart, Karl D., Kub, Fritz J.
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum gallium nitrides
Chemical vapor deposition
Computer simulation
Diamond
Diamonds
Electron mobility
Gallium nitride
Gallium nitrides
GaN
HEMTs
High electron mobility transistors
Interlayers
Organic chemistry
Semiconductor devices
Silicon substrates
Substrates
Temperature measurement
Thermal imaging
thermal management
Thermal resistance
thermoreflectance
transmission electron microscopy
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Zusammenfassung:Record DC power has been demonstrated in AlGaN/GaN high electron mobility transistors fabricated using a substrate replacement process in which a thick diamond substrate is grown by chemical vapor deposition following removal of the original Si substrate. Crucial to the process is a ~30 nm thick SiN interlayer that has been optimized for thermal resistance. The reductions obtained in self-heating have been quantified by transient thermoreflectance imaging and interpreted using 3D numerical simulation. With a DC power dissipation level of 56 W/mm, the measured average and maximum temperatures in the gate-drain access region were 176 °C and 205 °C, respectively.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2019.2909289