Diaphragm design for a bender type acoustic sensor
First Claim
1. An omnidirectional acoustic sensor having an edge mounted air-backed diaphragm in an assembly which has a central axis, said assembly being mounted so as to be responsive to acoustic pressure waves, wherein the improvement comprises a plurality of piezoelectric ceramic discs, one disc mounted on each face of the diaphragm to form therewith a sensor unit whose acoustical and capacitive sensitivities are relatively independent of varying static pressure, the discs and diaphragm being of a preselected size such that the ratio of disc diameter to diaphragm is not greater than about 0.8 and the maximum radius of said discs further lies within the radius of zero stress of said diaphragm, said radius of zero stress being defined as that radius, measured from the center of said diaphragm where the stress is greatest, outwardly to the point on the diaphragm where the stress is at a minimum.
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Abstract
An omnidirectional acoustic sensor has an air-backed diaphragm in a unit which has a central axis and is mounted so as to be responsive to acoustic pressure waves. A piezoelectric ceramic disc is attached to each face of the diaphragm. This combination forms a sensor unit whose acoustical and capacitive sensitivities are relatively independent of varying static pressure. The ceramic discs and diaphragm are each of a preselected size such that the ratio of disc diameter to diaphragm diameter is not greater than about 0.8. The sensor assembly further includes collar-like support means from which the diaphragm is supported. The sensor unit has a radius of zero stress, with the diaphragm being connected to the support means radially outwardly of the radius of zero stress. The ceramic discs lie within that radius of zero stress. In the preferred configuration the diaphragm and support means are the same piece of material. A sensor assembly is formed by securing two sensors together, the collar-like support means being joined together by axially facing surfaces thereof.
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7 Claims
- 1. An omnidirectional acoustic sensor having an edge mounted air-backed diaphragm in an assembly which has a central axis, said assembly being mounted so as to be responsive to acoustic pressure waves, wherein the improvement comprises a plurality of piezoelectric ceramic discs, one disc mounted on each face of the diaphragm to form therewith a sensor unit whose acoustical and capacitive sensitivities are relatively independent of varying static pressure, the discs and diaphragm being of a preselected size such that the ratio of disc diameter to diaphragm is not greater than about 0.8 and the maximum radius of said discs further lies within the radius of zero stress of said diaphragm, said radius of zero stress being defined as that radius, measured from the center of said diaphragm where the stress is greatest, outwardly to the point on the diaphragm where the stress is at a minimum.
Specification