Power MOSFET failure and degradation mechanisms in flyback topology under high temperature and high humidity conditions

Vaalasranta, Ilkka; Pippola, J.; Frisk, Laura

doi:10.1109/demped.2013.6645691

Cited by 10 publications

(5 citation statements)

References 11 publications

(15 reference statements)

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“…To get the lifetime of a key specification for a PA, the first step is to investigate the humidity dependency of the specifications for a PA [27]. This is because the lifetime of a key specification for a PA is directly and positively related to humidity [28][29][30]. Therefore, it is a must-have to know the humidity dependency of the specifications for a PA.…”

Section: Introductionmentioning

confidence: 99%

Experimental investigation on the performance degradations of the GaN class-F power amplifier under humidity conditions

Zhou

2021

Semicond. Sci. Technol.

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To investigate the humidity dependency of the specifications for a GaN class-F power amplifier (PA), humidity experiments are conducted in the Vötsch Industrietechnik SC3 1000 MHG environmental test chamber. The experimental results show that the key specifications of the PA, such as the output power and power-added efficiency, the large-signal gain, and the drain current show degradation as humidity increases. The reason for this degradation may be the reduction of the 2DEG mobility density due to surface degradation at AlGaN recess regions caused by diffusion phenomena of Ga, and Al. The results concluded here would be helpful for the PA designers to understand the humidity effects on the key specifications for the GaN class-F PA comprehensively, so that the designers could consider the effects on the design cycle of the compensation circuits in advance.

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Section: Introductionmentioning

confidence: 99%

Experimental investigation on the performance degradations of the GaN class-F power amplifier under humidity conditions

Zhou

2021

Semicond. Sci. Technol.

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“…Latch-Up: IGBTs and MOSFETs can latch up if the parasitic thyristor or bipolar junction transistor structure is activated, causing a loss of gate control. Any excessive current will kill the device if the latch-up is not eliminated [30,33]. High dv/dt causes MOSFET and IGBT latch-up.…”

Section: Chip-related Failure Mechanisms 1 Dielectric Breakdown: the ...mentioning

confidence: 99%

“…Dielectric Breakdown: The Failure Mechanisms of Contemporary Power Electronic Devices are listed in Figure 14. A time-dependent dielectric breakdown (TDDB) occurs when gate oxide degrades owing to accumulating faults [25,30]. Impact ionization, anode hole injection, and trap production are described in [31].…”

Section: Chip-related Failure Mechanisms 1 Dielectric Breakdown: the ...mentioning

confidence: 99%

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An Overview of Multilevel Inverters Lifetime Assessment for Grid-Connected Solar Photovoltaic Applications

2023

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Nowadays, due to advancements in power electronic devices as well as the rise in consumer awareness of the need to protect the environment on a global scale, many people are turning to the use of solar photovoltaic (PV) technology in the distributed power generation side. In the field of power electronics, manufacturers need to develop products that have high lifespans. Power electronic device reliability is important for the maintenance of the device and may be scheduled under that information. Rather than preventing failures, reliability can be improved by predicting them. Even though some research has been conducted over the past few years to investigate the reliability of power electronic devices, the reliability is many common circuits has not been investigated and this leads to a big challenge for researchers. In this review paper, an overview of the grid-connected multilevel inverters for PV systems with motivational factors, features, assessment parameters, topologies, modulation schemes of the multilevel inverter, and the selection process for specific applications are presented. In this paper, the findings of a comprehensive reliability analysis of fundamental multilevel inverters are studied. To evaluate the reliability of three basic multilevel inverters, a calculation is made using each component’s mean time before its failure. Two techniques of computation approximate and exact were used to arrive at the final result. To calculate power losses in temperature-sensitive components such as diodes and switches, MATLAB Simulink is employed. In addition, the concept of oversizing photovoltaic (PV) arrays is presented in this study. This concept proposes that energy output may be increased by increasing the size of the PV array under conditions of poor solar irradiation. Finally, the mission-profile-based and Monte Carlo simulation-based methods process flows are discussed for the accurate lifetime prediction and reliability assessments of PV inverters in a real-time scenario, followed by a conclusion with future work.

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“…In [93], the authors propose a new on-board CM of the aging of solder layers in IGBTs for electric vehicle applications, while [77] proposes an online PCA-based algorithm for early fault detection in IGBT switches. The fault detection and degradation of other components, such as MOSFETs, is studied in [94].…”

Section: B Power Component Fault Diagnosismentioning

confidence: 99%

Advances in Electrical Machine, Power Electronic, and Drive Condition Monitoring and Fault Detection: State of the Art

Riera-Guasp

Antonino-Daviu

Capolino

2015

IEEE Trans. Ind. Electron.

486

234

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Power MOSFET failure and degradation mechanisms in flyback topology under high temperature and high humidity conditions

Cited by 10 publications

References 11 publications

Experimental investigation on the performance degradations of the GaN class-F power amplifier under humidity conditions

Experimental investigation on the performance degradations of the GaN class-F power amplifier under humidity conditions

An Overview of Multilevel Inverters Lifetime Assessment for Grid-Connected Solar Photovoltaic Applications

Advances in Electrical Machine, Power Electronic, and Drive Condition Monitoring and Fault Detection: State of the Art

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