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Design of Low-Frequency Extended Signal Conditioning Circuit for Coal Mine Geophone
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Design of Low-Frequency Extended Signal Conditioning Circuit for Coal Mine Geophone
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Design of Low-Frequency Extended Signal Conditioning Circuit for Coal Mine Geophone
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Journal Article
Design of Low-Frequency Extended Signal Conditioning Circuit for Coal Mine Geophone
2025
Overview
The traditional magnetoelectric geophone is widely used in the microseismic monitoring of coal mines. However, its measurement capability in the low-frequency range is insufficient and cannot fully meet the monitoring requirements of underground coal mines, which extend as low as 0.1 Hz. This paper proposes a signal conditioning (SC) circuit based on the extended filtering method to improve the low-frequency response capability of the geophone. Through simulation and experimental tests, it is verified that the designed SC circuit can reduce the cut-off frequency of the EST-4.5C geophone from 4.5 Hz to 0.16 Hz. Meanwhile, the noise introduced by this SC circuit is relatively low thanks to its simple and easy-to-implement structural model. The test results also indicate that it provides a strong ability to resist noise interference for the geophone, which is valuable under complex working conditions. Overall, this circuit offers a feasible option for enhancing the capability of the seismic geophones used in coal mines to detect low-frequency vibration signals.
