电子器件中的温度波动和1/f噪声

Proceedings of the 15th Biennial University/Government/ Industry Microelectronics Symposium (Cat. No.03CH37488) Pub Date : 2003-09-04 DOI:10.1109/UGIM.2003.1225764

L. Forbes, X.Y. Wang, C.W. Zhang

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引用次数: 0

摘要

电阻器1/f噪声的Hooge经验方程可以用温度波动来描述，Hooge参数与样品中传导电子总数与原子总数之比简单相关。在低频时，平均温度周围的均方温度波动取决于到散热器的扩散传递时间，而与样品中的原子数成反比。在较高频率下，温度波动被样品的热容量衰减，这导致温度波动的频率依赖于1/f。本文将这些温度波动的结果应用于描述双极晶体管的1/f噪声。在双极晶体管中，电流是温度的指数函数，因此噪声更容易观察和测量。

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Temperature fluctuations and 1/f noise in electron devices

Hooge's empirical equation for the 1/f noise of resistors has been shown to be described by temperature fluctuations and Hooge's parameter was shown to be simply related to the ratio of the total number of conduction electrons and total number of atoms in the sample. At low frequencies the mean square temperature fluctuation around the average temperature depends on the diffusion transit time to the heat sink and inversely on the number of atoms in the sample. At higher frequencies temperature fluctuations are attenuated by the heat capacity of the sample which results in the 1/f frequency dependence of temperature fluctuations. Here the results for these temperature fluctuations are applied to describe the 1/f noise of bipolar transistors. In bipolar transistors the current is an exponential function of temperature so the noise is easier to observe and measure.

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Proceedings of the 15th Biennial University/Government/ Industry Microelectronics Symposium (Cat. No.03CH37488)

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