双极晶体管中分布动态横向大信号开关效应的建模

2019 IEEE 19th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems (SiRF) Pub Date : 1900-01-01 DOI:10.1109/SIRF.2019.8709136

M. Schröter, M. Krattenmacher

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引用次数: 2

摘要

现有的紧凑模型中描述动态发射极电流拥挤的方法只适用于小信号操作。因此，研究了双极晶体管文本快速非线性大信号开关的不同建模方法。这些选择包括多晶体管模型和不同版本的双晶体管模型，以及具有横向电荷划分跨直流内部基极电阻的单晶体管。与发射极下内部晶体管区域的二维数值器件模拟结果相比，具有至少五个段的多晶体管模型和具有横向电荷划分的单晶体管模型似乎最准确地描述了随时间变化的大信号集电极电流。

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Modeling distributed dynamic lateral large-signal switching effects in bipolar transistors

The presently existing approach for describing dynamic emitter current-crowding in present compact models is only applicable to small-signal operation. Therefore, different options for modeling textbf fast nonlinear large-signal switching of bipolar transistors have been investigated. Such options include multi-transistor models and different versions of a two-transistor model as well as a single transistor with lateral charge partitioning across the DC internal base resistance. Compared to the results of 2D numerical device simulation of the internal transistor region under the emitter, a multi-transistor model with at least five segments and a single transistor model with lateral charge partitioning appear to be most accurate for describing the time dependent large-signal collector current.

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来源期刊

2019 IEEE 19th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems (SiRF)

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