Title :
Investigation on piezoelectric helix for use as a hydrophone
Author_Institution :
Peking Univ., Beijing, China
Abstract :
The piezoelectric helical spring is analyzed for use as a hydrophone. Because the polarity in the helix is arranged parallel to the electrode planes, the shear mode, g/sub 15/ can perform the elastoelectric conversion without any undesired couplings under hydrostatic condition. In this paper, the structural effects are modeled using the concept of stress amplifier. The gain factor, G, is defined as the ratio of the average stress in the piezoceramic to the detected pressure and, therefore, provides a G-fold increase in voltage responsivity. In addition, a solution for increasing the capacitance while maintaining the sensitivity is proposed. Numerical results showing high hydrostatic responsivities are given.
Keywords :
hydrophones; piezoceramics; piezoelectric transducers; capacitance; elastoelectric conversion; gain factor; hydrophone; hydrostatic responsivity; piezoceramic; piezoelectric helix; sensitivity; shear mode; spring mode; stress amplifier; voltage responsivity; Capacitance; Ceramics; Electrodes; Organizing; Piezoelectric materials; Pistons; Sonar equipment; Springs; Stress; Voltage;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
