This letter describes an extensive analysis of the time- and field-dependent trapping processes that occur in GaN-based gate injection transistors exposed to high drain voltage levels. Results indicate that-even if the devices do not suffer from current collapse-continuous exposure to high drain voltages can induce a remarkable increase in the on-resistance (R-on). The increase in R-on can be recovered by leaving the device in rest conditions: Temperature-dependent analysis indicates that the activation energy of the detrapping process is equal to 0.47 eV. By time-resolved electroluminescence characterization, we show that this effect is related to the capture of electrons in the gate-drain access region. Finally, we show that charge emission can be significantly accelerated through the injection of holes from the gate.
Time- and Field-Dependent Trapping in GaN-Based Enhancement-Mode Transistors With p-Gate
MENEGHINI, MATTEO;C. d. Santi;ZANONI, ENRICO;MENEGHESSO, GAUDENZIO
2012
Abstract
This letter describes an extensive analysis of the time- and field-dependent trapping processes that occur in GaN-based gate injection transistors exposed to high drain voltage levels. Results indicate that-even if the devices do not suffer from current collapse-continuous exposure to high drain voltages can induce a remarkable increase in the on-resistance (R-on). The increase in R-on can be recovered by leaving the device in rest conditions: Temperature-dependent analysis indicates that the activation energy of the detrapping process is equal to 0.47 eV. By time-resolved electroluminescence characterization, we show that this effect is related to the capture of electrons in the gate-drain access region. Finally, we show that charge emission can be significantly accelerated through the injection of holes from the gate.
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