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Thermal Imbalance Among Paralleling Chips in Power Modules and the Impact From Traction Inverter System View

Xiang Li, Yangang Wang, Guiqin Chang, Xuejiao Huang, Wei Gong, Yiyi Chen, Zhongxu Wang, Matthew Packwood, Haihui Luo, Guoyou Liu

2022IEEE Transactions on Industrial Electronics16 citationsDOI

Abstract

In a high-power semiconductor power module where multiple chips are populated in parallel, the thermal imbalance problem arises. In this article, the next-generation standard high-voltage insulated-gate bipolar transistor module for high-speed railcar traction is investigated to characterize the internal thermal imbalance among paralleling chips and evaluate the impact on temperature distribution in field application. The former is accomplished by a new test algorithm with a purposely designed module sample, while the latter is achieved via an advanced electro-thermal simulation from chip level to system level. The experimentally verified thermal network among paralleling chips reveals the multiple reasons for the thermal imbalance. A comparison between the simulation and experimental results regarding the paralleling chips’ power-cycling scenario helps to confirm the effectiveness of the chip model, the thermal network, and the electro-thermal simulation approach. A further electro-thermal simulation shows that the module internal thermal imbalance can lead to significant junction temperature discrepancy among paralleling chips in traction inverter applications, which should be taken into consideration for the long-term reliability assessment.

Topics & Concepts

Junction temperatureThermalInsulated-gate bipolar transistorHeat sinkInverterTraction (geology)TransistorPower semiconductor deviceReliability (semiconductor)Power moduleElectronic engineeringThermal resistancePower (physics)ChipTemperature cyclingVoltageComputer scienceElectrical engineeringEngineeringMechanical engineeringPhysicsQuantum mechanicsMeteorologySilicon Carbide Semiconductor TechnologiesElectromagnetic Compatibility and Noise SuppressionThermal Analysis in Power Transmission
Thermal Imbalance Among Paralleling Chips in Power Modules and the Impact From Traction Inverter System View | Litcius