TY - JOUR
AU - Li, Ruojin
AB - Hydrophone is a key component of marine seismic exploration systems, divided into a scalar hydrophone and vector hydrophone. The electrochemical vector hydrophone has attracted much attention due to its high sensitivity and low-frequency detection capability. With the development of noise reduction technology, high-frequency noise has been effectively suppressed, while low-frequency noise is still difficult to control, which has become a key issue in the monitoring of underwater target radiation noise. The traditional electrochemical vector hydrophone based on the molecular electron transfer (MET) principle is limited in the working bandwidth in the low-frequency band, which affects the detection capability of low-frequency radiation signals from underwater targets. In order to solve this problem, a frequency response extension method of a MET electrochemical vector hydrophone based on dynamic feedback network is proposed. By introducing a dynamic force balance negative feedback system based on a digital signal processor (DSP), the working bandwidth of the hydrophone is extended, and the detection capability of low-frequency signals is enhanced. At the same time, the system has field adjustability and can resist the long-term system frequency characteristic drift. Experimental results show that the proposed method effectively improves the frequency response performance of the electrochemical vector hydrophone, providing a new technical solution for its application in the monitoring of low-frequency radiation noise from underwater targets.
TI - Frequency Response Extension Method of MET Vector Hydrophone Based on Dynamic Feedback Network
JF - Applied Sciences
DO - 10.3390/app15031620
DA - 2025-02-05
UR - https://www.deepdyve.com/lp/multidisciplinary-digital-publishing-institute/frequency-response-extension-method-of-met-vector-hydrophone-based-on-IFOT1b76dG
SP - 1620
VL - 15
IS - 3
DP - DeepDyve
ER -