基于负时间常数信息的电压边界条件击穿鲁棒仿真方法

2019 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD) Pub Date : 2019-09-01 DOI:10.1109/SISPAD.2019.8870527

S. Kumashiro, Tatsuya Kamei, A. Hiroki, K. Kobayashi

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引用次数: 0

摘要

优势时间常数分析表明，半导体方程在硬击穿时变为正反馈状态，即使采用延拓方法，稳态牛顿迭代的收敛性也相当困难。提出了一种检测直流牛顿迭代过程中出现负时间常数并切换到暂态仿真的硬击穿鲁棒仿真方法。TR模拟时的负时间常数值用于时间步长限制，最大时间常数值用于确定TR模拟的最终时间。利用该方法，通过在电压边界处进行简单的电压扫描，可以鲁棒地获得对应于每个直流偏置的回吸I-V轨迹中稳定工作点的迹线。

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A Robust Simulation Method for Breakdown with Voltage Boundary Condition Utilizing Negative Time Constant Information

Dominant time constant analysis reveals that the semiconductor equations at hard breakdown turn into a positive feedback state where the convergence of steady state (DC) Newton iteration is substantially difficult even if continuation method is used. A robust simulation method for hard breakdown which detects the appearance of negative time constant during DC Newton iteration and then switches to transient (TR) simulation is proposed. The negative time constant value during the TR simulation is used for the time step restriction and the maximum time constant value is used for the determination of the final time of the TR simulation. By using the proposed method, a trace of the stable operation points in the snapback I-V trajectory corresponding to each DC bias can be obtained robustly with a simple voltage sweep at the voltage boundary.

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来源期刊

2019 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)

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