A/D测量链误差源识别方法

Proceedings of the 20th IEEE Instrumentation Technology Conference (Cat. No.03CH37412) Pub Date : 2003-05-20 DOI:10.1109/IMTC.2003.1208031

J. Jakubiec, K. Kanopka

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引用次数: 7

摘要

现代测量仪器和系统中的测量数据是通过一个链来获得的，该链通常由仪表放大器、采样保持电路和模数转换器组成。这些因素引入误差，影响输出结果的不确定性。为了评估这种不确定性，必须确定链的误差模型和特定误差的分布。本文介绍了一种A/D链误差的识别方法。该方法包括两种操作。首先，使用函数生成器测量在选定条件下的输出(结果)误差分布。其次，根据所得误差分布，利用误差模型给出的误差间关系，确定局部误差的概率密度函数。为了验证有关分布形状的假设，使用了定义为误差值集参数的不确定性之间的关系。该方法已应用于A/D转换卡的选择误差的确定。

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Identification method of error sources of A/D measuring chain

Measurement data in modern measuring instruments and systems is obtained using a chain which typically consists of an instrumentation amplifier, sample-and-hold circuit and an analog-to-digital converter. These elements introduce errors which influence uncertainty of the output results. To evaluate this uncertainty one must determine an error model of the chain and distributions of particular errors. The paper describes an identification method of the A/D chain errors. The method consists in operations of two kinds. First, using a function generator, one measures the output (resultant) error distribution in selected conditions. Next, probability density functions of partial errors are determined basing on the obtained resultant error distribution and using the relationship between errors given by the error model. In order to verify hypotheses concerning the shape of distribution, relations between uncertainties defined as parameters of error value sets are used. The method has been applied to determine selected errors of an A/D conversion card.

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来源期刊

Proceedings of the 20th IEEE Instrumentation Technology Conference (Cat. No.03CH37412)

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