利用改进的TCAD雪崩模型研究igbt中电流灯丝运动与局部发热的关系

2020 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD) Pub Date : 2020-09-23 DOI:10.23919/SISPAD49475.2020.9241680

T. Suwa

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引用次数: 3

摘要

对于高压电源器件的研制，了解电流灯丝的局部发热现象对可靠性设计具有重要意义。电流细丝意味着高密度电流仅在活性电池的某些部分流动，并在局部产生大量热量。在器件开关过程中，由于某些原因，电流过大时，就会出现这种现象。本文的目的是利用改进的雪崩模型澄清以下几点:冲击电离系数的局部晶格温度依赖性是电流灯丝运动的主要因素，并且运动显著抑制了局部热量的产生。特别是，当环境温度较低且耗尽层到达igbt背面的缓冲层后，这种趋势变得更加强烈。

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Investigation of the relationship between current filament movement and local heat generation in IGBTs by using modified avalanche model of TCAD

For development of high voltage power devices, it is very important to understand local heat generation phenomena of current filaments especially for reliability designs. Current filaments mean high density currents flow only in some parts of active cells and induce large heat generation locally. They appear when excessive current flows for some reasons during device switching. The aim of this paper is to clarify the following by using a modified avalanche model: The local lattice temperature dependence of impact ionization coefficients is a main factor in current filament movements, and the movements significantly suppress local heat generation. In particular, this tendency becomes even stronger when the ambient temperature is low and after the depletion layer reaches the buffer layer on the back surface side of IGBTs.

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2020 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)

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