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引用次数: 1
摘要
本文提出了基于二维电子气(2DEG)通道载流子数量波动的AlGaN/GaN自取向hfet 1/ f低频噪声(LFN)的理论研究。本研究验证了热激活陷阱水平对1/ f LFN特性的作用。仿真结果证实,低频噪声行为符合1/ γ的特征,频率指数β在0 ~ 2之间。在室温下,将模拟结果与实验结果进行了比较。研究了温度对噪声特性的影响。发现频率指数随温度变化。
Non-fundamental low frequency noise theory: Drain noise-current modeling of AlGaN/GaN HFETs
This work presents a theoretical study on the 1/ƒ low frequency noise (LFN) based on the fluctuations in the number of carriers in the two-dimensional electron gas (2DEG) channel of AlGaN/GaN self-aligned HFETs. This study validates the role of thermally activated trap levels on 1/ƒ LFN characteristics. Simulation results confirm that the low frequency noise behavior follows characteristic of 1/ƒ γ with frequency exponent β between 0 and 2. At room temperature the simulation results are compared with the experiments. The effect of temperature is also studied on the noise behavior. It is found that the frequency exponent can vary with temperature.
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