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Fabrication and Underwater Testing of a Vector Hydrophone Comprising a Triaxial Piezoelectric Accelerometer and Spherical Hydrophone

Title
Fabrication and Underwater Testing of a Vector Hydrophone Comprising a Triaxial Piezoelectric Accelerometer and Spherical Hydrophone
Author(s)
Roh, TaehounYeo, Hong GooJoh, CheeyoungRoh, YongraeKim, KyungseopSeo, Hee-seonChoi, Hongsoo
Issued Date
2022-12
Citation
Sensors, v.22, no.24
Type
Article
Author Keywords
piezoelectric accelerometerPMN-PT piezoelectric single crystalvector hydrophone
Keywords
SENSOR
ISSN
1424-8220
Abstract
A vector hydrophone is an underwater acoustic sensor that can detect the direction of a sound source. Wide-band characteristics and high sensitivity enhance the performance of underwater surveillance systems in complex environments. A vector hydrophone comprising a triaxial piezoelectric accelerometer and spherical hydrophone was fabricated and tested in the air and underwater. The vector hydrophone was designed to exceed the quantitative figures of merit (i.e., receiving voltage sensitivity and bandwidth) of commercially available hydrophones. Accelerometer performance was enhanced by placing a pair of piezoelectric single crystals on each axis and modifying the seismic mass material. The receiving voltage sensitivity of the omnidirectional hydrophone was approximately −160 dB relative to (Formula presented.) with the amplifier in water; the sensitivity of the accelerometer exceeded 300 mV/g in air and −215 dB relative to (Formula presented.) underwater over the frequency range of interest. The receiving directivity of the vector hydrophone was validated underwater, which confirmed that it could detect the direction of a sound source. © 2022 by the authors.
URI
http://hdl.handle.net/20.500.11750/17424
DOI
10.3390/s22249796
Publisher
MDPI
Related Researcher
  • 최홍수 Choi, Hongsoo
  • Research Interests Micro/Nano robot; Neural prostheses; MEMS; BMI; MEMS/NEMS; BioMEMS; MEMS 초음파 트랜스듀스; 인공와우
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Appears in Collections:
Department of Robotics and Mechatronics Engineering Bio-Micro Robotics Lab 1. Journal Articles

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