Ultralow Noise Low Offset Chopper Amplifier for Induction Coil Sensor to Detect Geomagnetic Field of 1 mHz to 1 kHz

IF 1 4区 工程技术 Q4 ENGINEERING, GEOLOGICAL
Jiawei Li, Zhen-zhu Xi, Chen Xingpeng, Wang He, Long Xia, Z. Sheng, Wang Liang
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引用次数: 1

Abstract

An induction coil sensor (ICS) is important for measuring low-frequency (DC-1kHz) geomagnetic field. The accuracy of the preamplifier is one key factor determining the performance of the sensor. But the preamplifier is susceptible to 1/ f noise, offset voltage and drift. In order to eliminate these influences, a preamplifier circuit with three amplifier stages based on chopper technology has been designed, and its performance has been tested. The results show that: 1) The 1/ f noise corner frequency is 3 mHz, the equivalent input voltage noise (EIVN) level of the circuit is [Formula: see text] and [Formula: see text]; 2) The equivalent input current noise (EICN) level of the circuit is [Formula: see text]; 3) The offset voltage is about 600 nV, and the time drift performance is excellent. In conclusion, the preamplifier circuit has characteristics of ultralow noise, low offset voltage and low time drift. It can effectively amplify low-frequency weak geomagnetic signals from 1 mHz to 1 kHz and provides excellent performance for low-frequency ICS.
用于感应线圈传感器的超低噪声低偏置斩波放大器,用于检测1 mHz至1 kHz的地磁场
感应线圈传感器(ICS)是测量低频(DC-1kHz)地磁场的重要器件。前置放大器的精度是决定传感器性能的关键因素之一。但是前置放大器容易受到1/ f噪声、失调电压和漂移的影响。为了消除这些影响,设计了一种基于斩波技术的三级前置放大电路,并对其性能进行了测试。结果表明:1)1/ f噪声角频率为3 mHz,电路的等效输入电压噪声(EIVN)电平为[公式:见文]和[公式:见文];2)电路的等效输入电流噪声(EICN)电平为[公式:见文];3)偏置电压约为600 nV,时漂性能优良。综上所述,该前置放大电路具有超低噪声、低偏置电压和低时漂的特点。它能有效放大1 mHz ~ 1 kHz的低频弱地磁信号,为低频ICS提供了优良的性能。
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来源期刊
Journal of Environmental and Engineering Geophysics
Journal of Environmental and Engineering Geophysics 地学-地球化学与地球物理
CiteScore
2.70
自引率
0.00%
发文量
13
审稿时长
6 months
期刊介绍: The JEEG (ISSN 1083-1363) is the peer-reviewed journal of the Environmental and Engineering Geophysical Society (EEGS). JEEG welcomes manuscripts on new developments in near-surface geophysics applied to environmental, engineering, and mining issues, as well as novel near-surface geophysics case histories and descriptions of new hardware aimed at the near-surface geophysics community.
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