Kink effect in current–voltage characteristics of a GaN-based high electron mobility transistor with an AlGaN back barrier

The kink effect in current–voltage(IV)characteristic s seriously deteriorates the performance of a GaN-based HEMT.Based on a series of direct current(DC)IV measurements in a GaN-based HEMT with an AlGaN back barrier,a possible mechanism with electron-trapping and detrapping processes is proposed.Kink-related deep levels are activated by a high drain source voltage(Vds)and located in a GaN channel layer.Both electron trapping and detrapping processes are accomplished with the help of hot electrons from the channel by impact ionization.Moreover,the mechanism is verified by two other DC IV measurements and a model with an expression of the kink current.     

Time-dependent degradation of threshold voltage in AIGaN/GaN high electron mobility transistorsTime-dependent degradation of threshold voltage in AIGaN/GaN high electron mobility transistors

This paper gives a detailed analysis of the time-dependent degradation of the threshold voltage in A1GaN/GaN high electron mobility transistors （HEMTs） submitted to off-state stress. The threshold voltage shows a positive shift in the early stress, then turns to a negative shift. The negative shift of the threshold voltage seems to have a long recovery time. A model related with the balance of electron trapping and detrapping induced by shallow donors and deep acceptors is proposed to explain this degradation mode.     

Kink effect in current-voltage characteristics of a GaN-based high electron mobility transistor with an AIGaN back barrier

The kink effect in current-voltage （IV） characteristic s seriously deteriorates the performance of a GaN-based HEMT. Based on a series of direct current （DC） IV measurements in a GaN-based HEMT with an AlGaN back barrier, a possible mechanism with electron-trapping and detrapping processes is proposed. Kink-related deep levels are activated by a high drain source voltage （Vds） and located in a GaN channel layer. Both electron trapping and detrapping processes are accomplished with the help of hot electrons from the channel by impact ionization. Moreover, the mechanism is verified by two other DC IV measurements and a model with an expression of the kink current.     

Time-dependent degradation of threshold voltage in AlGaN/GaN high electron mobility transistors

This paper gives a detailed analysis of the time-dependent degradation of the threshold voltage in AlGaN/GaN high electron mobility transistors(HEMTs) submitted to off-state stress. The threshold voltage shows a positive shift in the early stress, then turns to a negative shift. The negative shift of the threshold voltage seems to have a long recovery time. A model related with the balance of electron trapping and detrapping induced by shallow donors and deep acceptors is proposed to explain this degradation mode.