Accurate Temperature Estimation of SiC Power mosfets Under Extreme Operating Conditions

Tsibizov, Alexander; Kovacevic-Badstuebner, Ivana; Kakarla, Bhagyalakshmi; Großner, Ulrike

doi:10.1109/tpel.2019.2917221

Cited by 68 publications

(26 citation statements)

References 44 publications

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“…Note this one greatly exceeds 1000K after 10µs. Such a temperature level is in agreement with recent publications using the same modelling approach but on different chips' size [16] or considering a different VDS bias [17].…”

Section: First Validation Of the Electro-thermal Modelsupporting

confidence: 91%

Circuit-type modelling of SiC power Mosfet in short-circuit operation including selective fail-to-open and fail-to-short modes competition

Richardeau

Boige

2019

Microelectronics Reliability

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SiC Mosfet has very unique properties in extreme operation such as a well-known fail-to-short failure mode but in competition with a lesser known fail-to-open failure mode. These two modes are generally studied and modelled separately, whereas, in practice, they are coupled with the junction temperature of the chip. This paper presents a circuit-type modelling approach of these two modes simultaneously. This modelling allows to simulate the selectivity and competition between these two modes, one is clearly critical and the other is advantageously safe. The proposed model is then compared with short-circuit test of 1.2kV-80m MOSFET SiC.

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Section: First Validation Of the Electro-thermal Modelsupporting

confidence: 91%

Circuit-type modelling of SiC power Mosfet in short-circuit operation including selective fail-to-open and fail-to-short modes competition

Richardeau

Boige

2019

Microelectronics Reliability

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“…12(b). With the application of SiC and GaN devices, new challenges come from the nonlinearity of thermal impedance in a wide range of temperature stresses [96,97], as well as PCB board-level thermal modeling and optimization [98].…”

Section: B Simplified Electro-thermal Modelingmentioning

confidence: 99%

Power Electronics Reliability: State of the Art and Outlook

Wang

Blaabjerg

2021

IEEE J. Emerg. Sel. Topics Power Electron.

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“…The inverter lifetime considering an EV powertrain has been estimated using power cycling test with a constant load or data driven load profile-based methods for maximum thermal stress analysis [12]. A constant heat generation model is developed to identify hotspot in the power module and bonding strength of the inverter [12][13][14][15][16]. Consequently, variable thermal cycling model is being to identify material degradation based on the average and maximum temperature swing.…”

Section: Background Literature Of Inverter Reliability Estimationmentioning

confidence: 99%

“…The inverter thermal analysis is mostly described in 1-D model [12][13][14][15]. However, to improve accuracy in this paper third-order analytical model is used to track heat conduction in the power module from the chip to the heatsink.…”

Section: Derivation Of Electro-thermal Model Parameters Considering Imentioning

confidence: 99%

An Approach for Estimating the Reliability of IGBT Power Modules in Electrified Vehicle Traction Inverters

et al. 2020

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The reliability analysis of traction inverters is of great interest due to the use of new semi-conductor devices and inverter topologies in electric vehicles (EVs). Switching devices in the inverter are the most vulnerable component due to the electrical, thermal and mechanical stresses based on various driving conditions. Accurate stress analysis of power module is imperative for development of compact high-performance inverter designs with enhanced reliability. Therefore, this paper presents an inverter reliability estimation approach using an enhanced power loss model developed considering dynamic and transient influence of power semi-conductors. The temperature variation tracking has been improved by incorporating power module component parameters in an LPTN model of the inverter. A 100 kW EV grade traction inverter is used to validate the developed mathematical models towards estimating the inverter performance and subsequently, predicting the remaining useful lifetime of the inverter against two commonly used drive cycles.

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Accurate Temperature Estimation of SiC Power mosfets Under Extreme Operating Conditions

Cited by 68 publications

References 44 publications

Circuit-type modelling of SiC power Mosfet in short-circuit operation including selective fail-to-open and fail-to-short modes competition

Circuit-type modelling of SiC power Mosfet in short-circuit operation including selective fail-to-open and fail-to-short modes competition

Power Electronics Reliability: State of the Art and Outlook

An Approach for Estimating the Reliability of IGBT Power Modules in Electrified Vehicle Traction Inverters

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