This paper reports the results obtained from a laboratory characterization of a prototype designed for the measurement of temperature and acoustic emission in underwater applications. The implemented prototype has been designed to minimize energy consumption while assuring both high-temperature measurement accuracy and low harmonic distortions on the acquired acoustic signal. In this paper, the current consumption and the waveform recorder characterization of the prototype are discussed.
Design and characterization of an energy-efficient underwater system for temperature and acoustic emission monitoring
Daponte P.;De Vito L.;Picariello F.;Tudosa I.
2024-01-01
Abstract
This paper reports the results obtained from a laboratory characterization of a prototype designed for the measurement of temperature and acoustic emission in underwater applications. The implemented prototype has been designed to minimize energy consumption while assuring both high-temperature measurement accuracy and low harmonic distortions on the acquired acoustic signal. In this paper, the current consumption and the waveform recorder characterization of the prototype are discussed.File in questo prodotto:
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