We discuss recent advancements in the development of vertical GaN devices, and the related reliability challenges. Key results indicate that: (i) vertical GaN devices can show high performance, low background doping, and kV-range breakdown voltages; avalanche capability (a property of Si and SiC devices) is demonstrated also for vertical devices on silicon substrate, enabling reliable high-voltage operation; (ii) threshold voltage instabilities are related to the presence of interface and border traps, whose contribution can be modeled with great accuracy by prior characterization of the trap distribution profile; (iii) gate stack reliability is mainly limited by oxide breakdown; factors limiting off-state failure are discussed. Strategies for device improvement are proposed, also based on the learnings from silicon and silicon carbide technology.
Vertical GaN Devices: Reliability Challenges and Lessons Learned from Si and SiC / Meneghini, M., Fregolent, M., Zagni, N., Hamadoui, Y., Marcuzzi, A., Favero, D., De Santi, C., Buffolo, M., Tomasi, M., Zappala, G., Bahat-Treidel, E., Brusaterra, E., Brunner, F., Hilt, O., Huber, C., Medjdoub, F., Meneghesso, G., Verzellesi, G., Pavan, P., Zanoni, E.. - (2024), pp. 1-4. (2024 IEEE International Electron Devices Meeting, IEDM 2024 USA 7-11, December 2024) [10.1109/IEDM50854.2024.10873536].
Vertical GaN Devices: Reliability Challenges and Lessons Learned from Si and SiC
Zagni N.;Verzellesi G.;Pavan P.;
2024
Abstract
We discuss recent advancements in the development of vertical GaN devices, and the related reliability challenges. Key results indicate that: (i) vertical GaN devices can show high performance, low background doping, and kV-range breakdown voltages; avalanche capability (a property of Si and SiC devices) is demonstrated also for vertical devices on silicon substrate, enabling reliable high-voltage operation; (ii) threshold voltage instabilities are related to the presence of interface and border traps, whose contribution can be modeled with great accuracy by prior characterization of the trap distribution profile; (iii) gate stack reliability is mainly limited by oxide breakdown; factors limiting off-state failure are discussed. Strategies for device improvement are proposed, also based on the learnings from silicon and silicon carbide technology.
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