Supercapacitors in bias systems for low frequency noise measurements

2011 21st International Conference on Noise and Fluctuations Pub Date : 2011-06-12 DOI:10.1109/ICNF.2011.5994351

G. Scandurra, C. Ciofi

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引用次数: 4

Abstract

We explore the possibility of employing supercapacitors in the design of very low noise programmable voltage and current sources to be used for biasing the device under test in low frequency noise measurements. This is accomplished by taking advantage of the large capacitance of supercapacitors for realizing a low pass filter with a very low frequency corner for filtering out the noise produced by a solid state high accuracy DA converter. In order to obtain the desired attenuation of the noise down to a few hundred mHz, a very low frequency corner must be employed, thus resulting in very long transients (in the order of a few hours) upon each voltage change. This problem is specifically addressed in this paper. Indeed, we have designed a programmable voltage reference capable of generating voltages in the range 0–2.5 V with a resolution of about 2.5 mV, an accuracy better than 2 mV and a settling time of about 200 s. The output noise is below 4×10−16, 5×10−18, and 1×10−18 V2/Hz at 100 mHz, 1 Hz, and 10 Hz, respectively. The application of such a low voltage reference for the realization of a very low noise programmable current source is also discussed and demonstrated.

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低频噪声测量偏置系统中的超级电容器

我们探索在极低噪声可编程电压和电流源的设计中使用超级电容器的可能性，用于在低频噪声测量中对被测器件进行偏置。这是通过利用超级电容器的大电容来实现具有极低频率角的低通滤波器来滤除固态高精度数模转换器产生的噪声来实现的。为了获得所需的噪声衰减到几百兆赫兹，必须使用一个非常低的频率角，从而导致每次电压变化的瞬态时间很长(按几个小时的顺序)。本文对这一问题进行了具体论述。实际上，我们设计了一个可编程电压基准，能够产生0-2.5 V范围内的电压，分辨率约为2.5 mV，精度优于2 mV，稳定时间约为200 s。100mhz、1hz、10hz时，输出噪声分别低于4×10−16、5×10−18、1×10−18 V2/Hz。本文还讨论并演示了利用这种低电压基准来实现极低噪声可编程电流源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 21st International Conference on Noise and Fluctuations

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