Boundary-layer microphone
First Claim
1. A microphone comprising:
- a finite area and thickness sound reflecting plate;
an electrical transducer element associated with said plate; and
a transducer element membrane located on said plate;
wherein said plate is triangular and said membrane is located in a manner such that path lengths from every edge point of said triangular plate to a center of said membrane are distributed uniformly over a length range wherein an upper limit of said range corresponds to an acoustic wave length of an upper boundary frequency and a lower limit of said range corresponds to a half wave length of a transition frequency at which a doubling formation of acoustic pressure begins in a region proximal to a wave incident surface of said triangular plate and an even frequency response is obtained at said membrane upon superposition of an incident primary sound field and a secondary sound field generated by diffraction at an edge of said triangular plate.
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Accused Products
Abstract
A boundary-layer microphone may obtain a frequency independent, hemispherical directional characteristic with a high tonal quality. The geometrical configuration of the mounting plate and the installed location of the membrane within the surface of the mounting plate are chosen so that a flat frequency response is obtained at the installed location of the membrane, i.e., the superposition of the incident primary sound field on the secondary sound field created by diffraction will not cause any deviation from a flat frequency response and a smooth, hemispherical polar pattern. The mounting plate may be triangular. The membrane may be installed in the vicinity of the center of gravity of a scalene triangle.
36 Citations
16 Claims
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1. A microphone comprising:
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a finite area and thickness sound reflecting plate; an electrical transducer element associated with said plate; and a transducer element membrane located on said plate;
wherein said plate is triangular and said membrane is located in a manner such that path lengths from every edge point of said triangular plate to a center of said membrane are distributed uniformly over a length range wherein an upper limit of said range corresponds to an acoustic wave length of an upper boundary frequency and a lower limit of said range corresponds to a half wave length of a transition frequency at which a doubling formation of acoustic pressure begins in a region proximal to a wave incident surface of said triangular plate and an even frequency response is obtained at said membrane upon superposition of an incident primary sound field and a secondary sound field generated by diffraction at an edge of said triangular plate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A microphone comprising:
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a finite area and thickness sound reflecting triangular plate; an electrical transducer element associated with said triangular plate; and a transducer element membrane located on said triangular plate near a geometric center of gravity of said triangular plate in a manner such that an even frequency response is obtained at said membrane upon superposition of an incident primary sound field and a secondary sound field generated by diffraction at an edge of said triangular plate. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A microphone according to cliam 9, wherein said electrical transducer element further comprises a pressure calibrated transducer.
Specification