Title :
Tracking Fishes With a Microwatt Acoustical Receiver —An Archival Tag Development
Author :
Fischer, Godi ; Lee, Sangmok ; Obara, Michael ; Kasturi, Prasan ; Rossby, H. Thomas ; Recksiek, Conrad W.
Author_Institution :
Dept. of Electr. & Comput. Eng., Rhode Island Univ., Kingston, RI
Abstract :
This paper presents the design of an ultralow-power acoustical receiver circuit intended to track small aquatic animals. The receiver forms a crucial component of a versatile data logger capable of sensing and storing a variety of biologically important data such as geographic position, ambient temperature, pressure, etc. The size of the final tag will be determined by the size of the cylindrical hydrophone, which will serve as housing for all electronic components, the external sensors, the timing crystal, and the battery. The receiver circuit was prototyped on a 0.5-mum complementary metal-oxide-semiconductor (CMOS) chip. Extensive lab tests proved all system component functional. The fully operational receiver consumes 21 muW at 3 V. Results from a preliminary field test, conducted with a source generating a sound pressure level of 180 dB re 1 muPa, predict a tracking range of 100-120 km
Keywords :
acoustic receivers; data loggers; low-power electronics; network synthesis; 0.5 micron; 1 muPa; 21 muW; 3 V; CMOS chip; aquatic animal tracking; archival tag development; cylindrical hydrophone; data-storage tag; fish tracking; low-noise filtering; microwatt acoustical receiver; ultra low-power acoustical receiver circuit; underwater acoustics; Acoustic sensors; Batteries; Biosensors; Circuit testing; Electronic components; Marine animals; Prototypes; Sonar equipment; Temperature sensors; Timing; Data-storage tag; fish tracking; low-noise filtering; low-power complementary metal–oxide–semiconductor (CMOS) design; underwater acoustics;
Journal_Title :
Oceanic Engineering, IEEE Journal of
DOI :
10.1109/JOE.2006.880376
