直流电流比较器解调电路的设计与仿真

2019 14th IEEE International Conference on Electronic Measurement & Instruments (ICEMI) Pub Date : 2019-11-01 DOI:10.1109/ICEMI46757.2019.9101824

Zhou Liren, Pan Yang, Zhu Li

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引用次数: 4

摘要

解调电路是直流电流比较器(DCC)的重要组成部分，其性能直接影响整个系统的精度、灵敏度和噪声。分别描述了两种解调方法的工作原理，并在此基础上设计了相应的电路;进行了实验和仿真研究。研究结果表明，两种方法都能实现将表征被测直流电流的均匀谐波信号转换成相应的直流电压的功能。峰值差分解调的重要优点是可以对所有的均匀谐波信号进行解调。从而获得较高的检测增益，有利于提高灵敏度。但二次电流纹波较大。相敏解调的窄带特性有利于降低系统噪声水平;二次电流纹波很小。由于只解调二次谐波，因此必须满足最佳条件才能实现高灵敏度。

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Design and simulation of DC current comparator demodulation circuit

The demodulation circuit is a major part of DC current comparator (DCC), of which performance directly influences the accuracy, sensitivity and noise of whole system. Separately describe the working principle of two demodulation methods, based on which the corresponding circuits were designed; experiments and simulation studies were carried out. The research results show that both methods can realize the function of converting the even harmonic signals characterizing the measured DC current to the corresponding DC voltage. The important advantage of peak difference demodulation is that it can demodulate all even harmonic signals. A high detection gain will be obtained accordingly, which is favorable to increase sensitivity. But the ripple of secondary current is large. Narrow band characteristics of phase sensitive demodulation are beneficial for reducing the system noise level; the ripple of secondary current is very small. As only second harmonic is demodulated, it is necessary to satisfy the best condition to achieve high sensitivity.

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2019 14th IEEE International Conference on Electronic Measurement & Instruments (ICEMI)

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