The degradation of packaged GaN HEMTs for high power applications has been studied under long term reverse bias step stress tests. Increases of leakage current and dynamic Ron resistance have been found. This degradation is possibly caused by the formation of localized defects which have been observed by backside electroluminescence imaging. In addition the effect of device layout and substrate material on the dynamic Ron as well as its temperature, recovery behavior, and drain voltage dependence have been investigated on wafer-level. The recovery behavior and the temperature dependence indicate that the dynamic Ron resistance increase is caused by surface or buffer carrier trapping. By reducing the buffer trap density the dynamic Ron resis...
International audienceThis paper describes the high temperature reverse bias (HTRB) stress effects o...
This paper describes a detailed analysis of the time-dependent degradation kinetics of GaN-based hig...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
GaN HEMT degradation induced by reverse gate bias stress methods has been investigated by means of e...
This paper describes an investigation of the effect of reverse-bias stress on the leakage current an...
The reliability of GaN HEMTs under RF stress has been evaluated and correlated with DC stress and cu...
The effects of short-term step-stress on the performance of GaN HEMTs have been evaluated for the fi...
In this paper we present the results of an experiment carried out on HEMT test structures, which wer...
The degradation mechanisms induced in GaN-based HEMTs when reverse gate-bias stress are applied have...
The reliability of GaN HEMTs under RF stress has been evaluated and correlated with DC stress and cu...
GaN power switches provide remarkable performance in terms of power-density, reduced parasitics, and...
This paper analyzes the reverse-bias degradation of GaN-based HEMTs. Experimental evidence collected...
This paper reports on an extensive analysis of the trapping processes and of the reliability of expe...
This paper analyzes the kinetics of the gate-edge degradation on GaN HEMTs by means of constant volt...
This paper reports the results of degradation tests performed at Vgs = -5V and increasing Vds levels...
International audienceThis paper describes the high temperature reverse bias (HTRB) stress effects o...
This paper describes a detailed analysis of the time-dependent degradation kinetics of GaN-based hig...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
GaN HEMT degradation induced by reverse gate bias stress methods has been investigated by means of e...
This paper describes an investigation of the effect of reverse-bias stress on the leakage current an...
The reliability of GaN HEMTs under RF stress has been evaluated and correlated with DC stress and cu...
The effects of short-term step-stress on the performance of GaN HEMTs have been evaluated for the fi...
In this paper we present the results of an experiment carried out on HEMT test structures, which wer...
The degradation mechanisms induced in GaN-based HEMTs when reverse gate-bias stress are applied have...
The reliability of GaN HEMTs under RF stress has been evaluated and correlated with DC stress and cu...
GaN power switches provide remarkable performance in terms of power-density, reduced parasitics, and...
This paper analyzes the reverse-bias degradation of GaN-based HEMTs. Experimental evidence collected...
This paper reports on an extensive analysis of the trapping processes and of the reliability of expe...
This paper analyzes the kinetics of the gate-edge degradation on GaN HEMTs by means of constant volt...
This paper reports the results of degradation tests performed at Vgs = -5V and increasing Vds levels...
International audienceThis paper describes the high temperature reverse bias (HTRB) stress effects o...
This paper describes a detailed analysis of the time-dependent degradation kinetics of GaN-based hig...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...