Dependence of V\text {TH} Stability on Gate-Bias Under Reverse-Bias Stress in E-mode GaN MIS-FET.

In this letter, we investigated the threshold voltage V\text {TH} stability under reverse-bias step-stress in the E-mode LPCVD-SiNx/PECVD-SiNx/GaN MIS-FET. Under the OFF-state reverse-bias stress with the same net gate-to-drain voltage ( V\text {GD} ), the V\text {TH} shift shows an obvious dependence on the negative gate bias. With a V\text {GS} of 0 V, the V\text {TH} shift is small and recoverable, while the V\text {TH} shifts are substantially larger with more negative gate bias ( V\text {GS}=-20 V). This larger V\text {TH} shifts caused by the negative V\text {GS} can be explained with a hole-induced degradation model. An important indication revealed by this model is that negative gate bias should be well confined in high-power switching applications of GaN E-mode MIS-FET for a stable V\text {TH} . [ABSTRACT FROM PUBLISHER]