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In this letter, we report an approach to improve the forward bias gate reliability of Schottky gate p-GaN HEMTs. In particular, a gate layout solution, namely Gate Within Active Area (GWA), aimed at improving the high-temperature time to failure (TTF), is proposed and validated. This solution allows to avoid the exposure of the gate finger (p-GaN/metal) to the nitrogen-implantation needed for termination and isolation purposes. GWA devices feature a significantly improved gate reliability at high temperature with respect to the reference ones, under both DC and pulsed stress tests. Finally, it is demonstrated that the Schottky gate p-GaN HEMTs show a positive temperature-dependent gate TTF in a range up to 150 °C, confirming the crucial role of impact ionization on the gate failure.

Tallarico A.N., Millesimo M., Borga M., Bakeroot B., Posthuma N., Cosnier T., et al. (2024). P-GaN Gate HEMTs: A Solution to Improve the High-Temperature Gate Lifetime. IEEE ELECTRON DEVICE LETTERS, 45(9), 1630-1633 [10.1109/LED.2024.3424563].

P-GaN Gate HEMTs: A Solution to Improve the High-Temperature Gate Lifetime

Tallarico A. N.^{Primo

Investigation};Millesimo M.^{Secondo

Membro del Collaboration Group};Borga M.^{Membro del Collaboration Group};Bakeroot B.;Posthuma N.;Cosnier T.;Decoutere S.;Sangiorgi E.^{Penultimo

Membro del Collaboration Group};Fiegna C.^{Ultimo

Membro del Collaboration Group}

2024

Abstract

In this letter, we report an approach to improve the forward bias gate reliability of Schottky gate p-GaN HEMTs. In particular, a gate layout solution, namely Gate Within Active Area (GWA), aimed at improving the high-temperature time to failure (TTF), is proposed and validated. This solution allows to avoid the exposure of the gate finger (p-GaN/metal) to the nitrogen-implantation needed for termination and isolation purposes. GWA devices feature a significantly improved gate reliability at high temperature with respect to the reference ones, under both DC and pulsed stress tests. Finally, it is demonstrated that the Schottky gate p-GaN HEMTs show a positive temperature-dependent gate TTF in a range up to 150 °C, confirming the crucial role of impact ionization on the gate failure.

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	Anno
	
				2024
			
	Rivista
	
				IEEE ELECTRON DEVICE LETTERS
			
	Codice DOI
	
				https://dx.doi.org/10.1109/LED.2024.3424563
			
	Citazione
	
				Tallarico A.N.,  Millesimo M.,  Borga M.,  Bakeroot B.,  Posthuma N.,  Cosnier T., et al. (2024). P-GaN Gate HEMTs: A Solution to Improve the High-Temperature Gate Lifetime. IEEE ELECTRON DEVICE LETTERS, 45(9), 1630-1633 [10.1109/LED.2024.3424563].
			
	Tutti gli autori
	
						Tallarico A.N.; Millesimo M.; Borga M.; Bakeroot B.; Posthuma N.; Cosnier T.; Decoutere S.; Sangiorgi E.; Fiegna C.
					
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/985500

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