Jinlei Meng scite author profile

the current sharing of the chips in parallel is one of the key points of the layout design of IGBT module. The current imbalance of the chips leads to imbalance losses and temperature, and increases the failure of the chip with highest temperature, so attention should be paid during the IGBT module design. In this paper, the asymmetric stray parameters of the circuit in parallel and the coupling between the gate circuit and the power circuit are analyzed by the equivalent circuit method, but the simulation results and the experimental results show that the stray inductances and resistances, extracted at the fixed frequency, can't reflect the electrical behaviors of the power and gate circuit. A method to extract the stray parameters is proposed in this paper, which can be used to reflect the current imbalance of the switching and conducting behaviors.(a) The geometry of IGBT module A

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Design & analysis of a novel IGBT package with double-sided cooling

Zhong

Meng

Ning

et al. 2014

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A Finite Differential Method based IGBT model in PSPICE

Ning

Meng

2015

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Jinlei Meng

Comprehensive comparative analysis of two types of commonly-used layouts of IGBT packages

Research and measurement of chip current imbalance in IGBT module with multiple chips in parallel

Design & analysis of a novel IGBT package with double-sided cooling

A Finite Differential Method based IGBT model in PSPICE

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Jinlei Meng

Comprehensive comparative analysis of two types of commonly-used layouts of IGBT packages

Research and measurement of chip current imbalance in IGBT module with multiple chips in parallel

Design &amp; analysis of a novel IGBT package with double-sided cooling

A Finite Differential Method based IGBT model in PSPICE

Contact Info

Product

Resources

About

Design & analysis of a novel IGBT package with double-sided cooling