Techniques for Schumann Resonance Measurements: A Comparison of Four Amplifiers With a Noise Floor Estimate

Schumann resonances are very weak natural electromagnetic signals produced in the earth-ionosphere cavity located in the extremely low frequency (ELF) band (7-60 Hz), and the sensors that measure them produce amplitudes of few microvolts. Strong signals from power lines (50-60 Hz) occur in the same...

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Bibliographic Details
Published in:IEEE transactions on instrumentation and measurement 2015-10, Vol.64 (10), p.2759-2768
Main Authors: Gázquez Parra, José A., Fernandez Ros, Manuel, Novas Castellano, Nuria, Garcia Salvador, Rosa M.
Format: Article
Language:English
Subjects:
Extremely low frequency (ELF) band
Gain
Geophysical measurement techniques
Ground penetrating radar
Impedance
instrumentation amplifier (IA)
magnetic sensor
measurement
Noise
Schumann resonance
Sensor phenomena and characterization
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Summary:Schumann resonances are very weak natural electromagnetic signals produced in the earth-ionosphere cavity located in the extremely low frequency (ELF) band (7-60 Hz), and the sensors that measure them produce amplitudes of few microvolts. Strong signals from power lines (50-60 Hz) occur in the same frequency range. Amplification techniques play a key role in acquiring resonance modes with the best signal-to-noise (S/N) ratio. This paper presents a study of the various structures of amplification systems that optimize the S/N ratio for the signal of interest. The aim of this paper is to measure all possible resonance modes with low time acquisition. To this end, we compare four instrumentation amplifiers and design a new indirect method for obtaining the noise floor of the system with sensors manufactured on magnetic cores that are several meters long. We present the measurements of the Schumann resonance achieved using these techniques at the ELF electromagnetic wave observatory at Calar Alto (Spain). The solutions adopted allow measurement of seven resonance modes with an acquisition time of 30 min, where the S/N ratio in the fundamental mode was 39 dB.
ISSN:0018-9456
1557-9662
DOI:10.1109/TIM.2015.2420376