基于fpga的锁相放大器，分辨率低于ppm，工作频率高达6 MHz

2016 IEEE International Conference on Electronics, Circuits and Systems (ICECS) Pub Date : 2016-12-01 DOI:10.1109/ICECS.2016.7841146

G. Gervasoni, M. Carminati, G. Ferrari

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引用次数: 4

摘要

数字锁相放大器主要用于不同科学领域的高分辨率测量。实验证据表明，由于在锁定输出上观察到额外的信号比例1/f噪声，最先进的高频商业模型不允许测量分辨率优于几十ppm的信号。这种噪声来自于信号在从产生阶段到采集阶段的过程中所经历的低频增益波动。为了克服这些波动，我们构思并实现了一种新型的开关比率结构，可以抑制噪声，其性能已经过实验验证，分辨率提高了一个数量级以上(从9到0.6 ppm)。描述了实现的混合信号板(称为ELIA，增强型锁相放大器)，并讨论了最大化锁相放大器分辨率的一些重要设计细节。

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FPGA-based lock-in amplifier with sub-ppm resolution working up to 6 MHz

Digital lock-in amplifiers are largely used to perform high-resolution measurements in different scientific fields. The experimental evidence shows that state-of-the-art, high frequency commercial models do not allow to measure signals with a resolution better than few tens of ppm due to additional signal-proportional 1/f noise observed on the lock-in output. This noise arises from low-frequency gain fluctuations experienced by the signal during the path from the generation stage to the acquisition one. To overcome these fluctuations, we conceived and implemented a novel switched ratiometric architecture allowing noise rejection, whose performance has been experimentally verified obtaining a resolution enhancement by more than an order of magnitude (from 9 to 0.6 ppm). The realized mixed-signal board (called ELIA as Enhanced Lock-In Amplifier) is described and some important design details to maximize the resolution of the lock-in amplifier are discussed.

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2016 IEEE International Conference on Electronics, Circuits and Systems (ICECS)

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