Design of Signal Acquisition System Based on Earthquake Precursor Electromagnetic Disturbance

2022 4th International Conference on Intelligent Control, Measurement and Signal Processing (ICMSP) Pub Date : 2022-07-08 DOI:10.1109/ICMSP55950.2022.9859206

Zhijian Zhou, Weijie Sun, Yihang Wang, Wenduo Li

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Abstract

The seismic precursory data collecting system, which includes short-circuit noise, frequency band, and dynamic range, is an important link in the digitalization of seismic monitoring systems. The digital requirements of electromagnetic sensors for seismic precursor detection are met in this study by a high accuracy, low noise, and powerful embedding acquisition method. The low noise signal conditioning circuit is constructed based on the sensor's output voltage and bandwidth, and 1kHz sampling is achieved using a 24-bit high-precision ADS1256 analog-to-digital conversion chip, and the data is then communicated to the PC through the 485 bus. Finally, the acquisition system's noise level in the 0.5Hz~60Hz region is around −120dB, with a dynamic range of 133dB. The acquisition system is compared to the NI Company's 4431 acquisition system in order to validate its correctness. The findings reveal that the two systems work similarly, and the self-made acquisition system is significantly less expensive than the 4431 acquisition system.

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基于地震前兆电磁干扰的信号采集系统设计

地震前兆数据采集系统是地震监测系统数字化的重要环节，它包括短路噪声、频带和动态范围。采用高精度、低噪声、功能强大的嵌入采集方法，满足了电磁传感器对地震前兆检测的数字化要求。根据传感器的输出电压和带宽构建低噪声信号调理电路，利用24位高精度ADS1256模数转换芯片实现1kHz采样，然后通过485总线将数据传输到PC机。最后，采集系统在0.5Hz~60Hz区域的噪声级约为- 120dB，动态范围为133dB。将采集系统与NI公司的4431采集系统进行比较，以验证其正确性。结果表明，两种系统的工作原理相似，自制采集系统的成本明显低于4431采集系统。

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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2022 4th International Conference on Intelligent Control, Measurement and Signal Processing (ICMSP)

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