Litcius/Paper detail

Effects of Total-Ionizing-Dose Irradiation on Single-Event Burnout for Commercial Enhancement-Mode AlGaN/GaN High-Electron Mobility Transistors*

Siyuan Chen, Xin Yu, Wu Lu, Shuai Yao, Xiaolong Li, Xin Wang, Mohan Liu, Shanxue Xi, Libin Wang, Jing Sun, Chengfa He, Qi Guo

2020Chinese Physics Letters14 citationsDOI

Abstract

We investigate the synergism effect of total ionizing dose (TID) on single-event burnout (SEB) for commercial enhancement-mode AlGaN/GaN high-electron mobility transistors. Our experimental results show that the slight degradation of devices caused by gamma rays can affect the stability of the devices during the impact of high energy particles. During heavy ion irradiation, the safe working values of drain voltage are significantly reduced for devices which have already been irradiated by 60 Co gamma rays before. This could be attributed to more charges trapped caused by 60 Co gamma rays, which make GaN devices more vulnerable to SEB. Moreover, the electrical parameters of GaN devices after 60 Co gamma and heavy-ion irradiations are presented, such as the output characteristic curve, effective threshold voltages, and leakage current of drain. These results demonstrate that the synergistic effect of TID on SEB for GaN power devices does in fact exist.

Topics & Concepts

Materials scienceOptoelectronicsIrradiationTransistorIonizing radiationThreshold voltageAbsorbed doseIonGamma rayVoltageElectronLeakage (economics)Heavy ionElectrical engineeringPhysicsNuclear physicsEngineeringQuantum mechanicsEconomicsMacroeconomicsGaN-based semiconductor devices and materialsRadiation Effects in ElectronicsSemiconductor materials and devices
Effects of Total-Ionizing-Dose Irradiation on Single-Event Burnout for Commercial Enhancement-Mode AlGaN/GaN High-Electron Mobility Transistors* | Litcius