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Comparative Analysis of IGBT Parameters Variation Under Different Accelerated Aging Tests

Mohamed Halick Mohamed Sathik, Prasanth Sundararajan, Firman Sasongko, Josep Pou, S. Natarajan

2020IEEE Transactions on Electron Devices36 citationsDOI

Abstract

Power semiconductor devices are vulnerable to thermomechanical fatigue due to temperature cycling caused by system load profile and external climatic conditions. As the reliability performance of power semiconductor devices in power converter systems is determined by this temperature stress, accelerated power or thermal cycling test are used in this article to emulate the temperature stress. The failure mechanisms due to temperature stress can be studied, and it also helps to develop the lifetime estimation model for power semiconductor devices. In the past, active power cycling and passive thermal cycling tests are investigated separately to develop the failure mechanism model based on the device's electrical parameter changes and scanning electron microscopic (SEM) analysis. However, there is no detailed report on, how different temperature stresses emulated by dc, pulsewidth modulation (PWM) power cycling, and thermal cycling affects the device physically, and how much changes it introduces in the device's electrical parameters. Therefore, this article presents an experimental investigation of active dc, PWM power cycling and passive thermal cycling approaches on 1.2-kV 50-A fast trench insulated gate bipolar junction transistor (IGBT) devices. The device electrical parameters, such as ON-state voltage, threshold voltage, gate current, gate voltage, and thermal resistance, were monitored during the study to classify the effects of temperature stress produced by dc, PWM power cycling, and thermal cycling on these electrical parameters.

Topics & Concepts

Power cyclingTemperature cyclingJunction temperatureInsulated-gate bipolar transistorPower semiconductor deviceMaterials scienceStress (linguistics)Semiconductor devicePower MOSFETVoltagePulse-width modulationPower moduleBipolar junction transistorElectrical engineeringPower (physics)Reliability (semiconductor)OptoelectronicsTransistorMOSFETThermalEngineeringComposite materialQuantum mechanicsPhysicsMeteorologyLinguisticsPhilosophyLayer (electronics)Silicon Carbide Semiconductor TechnologiesSemiconductor materials and devicesElectromagnetic Compatibility and Noise Suppression