Publication | Closed Access
Basic Mechanisms of Threshold-Voltage Instability and Implications for Reliability Testing of SiC MOSFETs
440
Citations
40
References
2014
Year
EngineeringBasic MechanismsPower ElectronicsThreshold-voltage InstabilityReliability EngineeringNanoelectronicsElectronic PackagingReliabilityMaterials EngineeringElectrical EngineeringHardware ReliabilityBias Temperature InstabilityBias-temperature StressThreshold VoltagePower Semiconductor DeviceTime-dependent Dielectric BreakdownDevice ReliabilityMicroelectronicsSic MosfetsStress-induced Leakage CurrentApplied PhysicsCircuit ReliabilityActivation EnergyElectrical Insulation
A review of the basic mechanisms affecting the stability of the threshold voltage in response to a bias-temperature stress is presented in terms of the charging and activation of near-interfacial oxide traps. An activation energy of approximately 1.1 eV was calculated based on new experimental results. Implications of these factors, including the recovery of some bias-temperature stress-activated defects, for improved device reliability testing are discussed.
| Year | Citations | |
|---|---|---|
Page 1
Page 1