Diaphragm type piezoelectric electroacoustic transducer

US 4,228,379 A
Filed: 08/28/1978
Issued: 10/14/1980
Est. Priority Date: 08/28/1978
Status: Expired due to Term

First Claim

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1. An electroacoustic transducer comprising:

a housing having a chamber therein and an aperture;

a vibrating assembly mounted in the chamber of said housing and including;

a metal diaphragm confronting the aperture;

a piezoelectric element engaging one surface of the diaphragm; and

an acoustically-massive clamp ring engaging the periphery of the diaphragm;

first and second electrical terminals connected to said piezoelectric element; and

an acoustic leakage path within the chamber between the back of the diaphragm and the front of the diaphragm and allowing a controlled portion of backward radiation from the back surface of the diaphragm to leak around the periphery of the vibrating assembly to said aperture at a controlled phase with respect to the forward radiation from the front surface of the diaphragm to modify the directional characteristics of the transducer.

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Abstract

An electroacoustic transducer especially for use in intrusion alarm systems and comprising a metal diaphragm having a thickness-poled piezoelectric ceramic disk bonded to the center thereof and having an electrode surface in contact with the metal diaphragm. An integral tab outwardly extends from the diaphragm to provide one electrical terminal, while the other electrical terminal is provided by a flexible electrical ribbon connection to the other electrode of the ceramic disk. An acoustically massive clamp ring attached to the periphery of the diaphragm defines the area of vibration. The vibrating assembly is mounted within a plastic housing having a chamber configured and dimensioned to improve the electroacoustic performance of the transducer structure. Various pattern directors can be employed with the transducer to achieve shaping of the pattern.

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21 Claims

1. An electroacoustic transducer comprising:
- a housing having a chamber therein and an aperture;
  
  a vibrating assembly mounted in the chamber of said housing and including;
  
  a metal diaphragm confronting the aperture;
  
  a piezoelectric element engaging one surface of the diaphragm; and
  
  an acoustically-massive clamp ring engaging the periphery of the diaphragm;
  
  first and second electrical terminals connected to said piezoelectric element; and
  
  an acoustic leakage path within the chamber between the back of the diaphragm and the front of the diaphragm and allowing a controlled portion of backward radiation from the back surface of the diaphragm to leak around the periphery of the vibrating assembly to said aperture at a controlled phase with respect to the forward radiation from the front surface of the diaphragm to modify the directional characteristics of the transducer.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The transducer of claim 1 wherein said metal diaphragm is circular and wherein said piezoelectric element is a thickness-poled piezoelectric disk attached symmetrically on one surface of the diaphragm, said disk being substantially coincident with the central vibrational area of the diaphragm.
  - 3. The transducer of claim 1 wherein:
    - the piezoelectric element has an electrode surface in electrical contact with the diaphragm;
      
      and wherein said terminals include;
      
      a first electrical terminal integral with the diaphragm and outwardly extending therefrom; and
      
      a second electrical terminal attached to a second electrode of the piezoelectric element and flexible to minimize damping of the diaphragm.
  - 4. The transducer of claim 1 wherein said housing includes means supporting said vibrating assembly in spaced disposition within the housing to provide the acoustic leakage path.
  - 5. The assembly of claim 2 wherein said diaphragm is vibrationally operative in the first three diametral modes of vibration for a clamped edge circular plate.
  - 6. The assembly of claim 2 wherein said metal diaphragm is brass.
  - 7. The transducer of claim 1 wherein said housing includes a reflecting surface operative to reflect rearwardly emitted energy from said diaphragm back to the aperture of said transducer.
  - 8. The transducer of claim 1 wherein said housing includes a rim extending forwardly of the diaphragm and operative to reflect energy into the direct energy beam.

9. An electroacoustic transducer comprising:
- a housing having a chamber therein and an aperture;
  
  a vibrating assembly mounted in the chamber of said housing and including;
  
  a metal diaphragm confronting the aperture;
  
  a piezoelectric element engaging one surface of the diaphragm;
  
  an acoustically-massive clamp ring engaging the periphery of the diaphragm;
  
  first and second electrical terminals connected to said piezoelectric element; and
  
  an acoustic leakage path within the chamber between the back of the diaphragm and the front of the diaphragm and operative when the transducer is in a transmitting mode to direct a portion of backward radiation from the back surface of the diaphragm to the aperture at a controlled phase in relation to the forward radiation from the front surface of the diaphragm to modify the directional transmission characteristics of the transducer, and operative when the transducer is in a receiving mode to direct a portion of received radiation from the aperture to the back surface of the diaphragm at a controlled phase in relation to the radiation received at the front surface of the diaphragm to modify the directional receiving characteristics of the transducer.

10. An electroacoustic transducer comprising:
- a housing having an aperture;
  
  a vibrating assembly mounted in said housing and including a metal diaphragm confronting the aperture, a piezoelectric element engaging one surface of the diaphragm and an acoustically-massive clamp ring engaging the periphery of the diaphragm;
  
  the vibrating assembly being driven by or receiving a fixed frequency less than the resonant frequency of the vibrating assembly, such that as ambient temperature increases, the resonant frequency decreases and approaches the fixed frequency;
  
  an acoustic leakage path between the back of the diaphragm and the front of the diaphragm and operative when the transducer is in a transmitting mode, to direct a portion of backward radiation from the back surface of the diaphragm to the aperture to provide greater reinforcement of forward energy with increasing temperature, and operative when the transducer is in a receiving mode, to become more nearly in phase with increasing temperature thereby to increase the sensitivity with increasing temperature.

11. For use with an electroacoustic transducer having a vibrating assembly which includes a metal diaphragm, a pattern director comprising:
- a first cavity having an input aperture spaced from said diaphragm to receive energy therefrom prior to beam formation;
  
  a second cavity contiguous with the first cavity and having a diameter one Fresnel zone greater in area than that of the first cavity; and
  
  the length of the first cavity and second cavity being one-quarter wavelength and one-half wavelength, respectively.
- View Dependent Claims (12, 13, 14)
- - 12. The pattern director of claim 11 further including a rim surrounding the radiating aperture of the second cavity and extending forwardly thereof by an amount sufficient to reflect energy back into the second cavity to enhance zero axis radiation.
  - 13. The pattern director of claim 11 further including a third cavity contiguous with said second cavity and joining a fourth cavity which terminates in a radiating aperture.
  - 14. The pattern director of claim 11 further including a deflector element disposed in said second cavity and having a sloping surface to reflect energy to provide a non-conical beam shape.

15. For use with an electroacoustic transducer having a vibrating assembly which includes a metal diaphragm, a pattern director comprising a cylindrical housing attached to said transducer and having a wall confronting said diaphragm with an opening therethrough offset from the transducer axis, andan acoustic waveguide in said housing for providing a pattern disposed about a slant angle with respect to the cylindrical axis of the cylindrical housing.
- View Dependent Claims (16, 17, 18)
- - 16. The pattern director of claim 15 wherein said opening is tangent to the inside wall of the acoustic waveguide.
  - 17. The pattern director of claim 15 wherein said opening is circular.
  - 18. The pattern director of claim 15 wherein said opening is semicircular.

19. An electroacoustic transducer comprising:
- a housing having a chamber therein and an aperture;
  
  a vibrating assembly mounted in the chamber of said housing and including;
  
  a metal diaphragm confronting the aperture;
  
  a piezoelectric element engaging one surface of the diaphragm; and
  
  an acoustically-massive clamp ring engaging the periphery of the diaphragm;
  
  first and second electrical terminals connected to said piezoelectric element;
  
  an acoustic leakage path within the chamber between the back of the diaphragm and the front of the diaphragm and allowing a controlled portion of backward radiation from the back surface of the diaphragm to leak around the periphery of the vibrating assembly to said aperture at a controlled phase with respect to the forward radiation from the front surface of the diaphragm to modify the directional characteristics of the transducer; and
  
  a pattern director secured to said housing and extending outwardly and in communication with said aperture and having at least one cavity configured to provide a pattern of intended shape.
- View Dependent Claims (20, 21)
- - 20. The transducer of claim 19 wherein said pattern director includes a plate centrally disposed forwardly of said aperture and operative to occlude zero axis radiation to cause a null in the pattern about the zero axis;
    - anda first cavity contiguous with said plate and a second larger cavity contiguous with the first cavity, said cavities being configured to provide pattern cancellation at the zero axis while enhancing the pattern at slant angles about one-half wavelength in each cavity.
  - 21. The transducer of claim 19 wherein said pattern director includes a cylindrical cavity extending forwardly of said aperture and having a length of about one-quarter wavelength;
    - a second cavity continguous with the first cavity and having a length about one-half wavelength and a diameter one Fresnel zone greater in area than that of the first cavity.

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Current Assignee
Sentrol Incorporated (Carrier Global Corporation)
Original Assignee
American District Telegraph Company
Inventors
Guscott, John K., Wendt, Roger, Renner, Gerard
Primary Examiner(s)
Budd, Mark O.

Application Number

US05/937,126
Time in Patent Office

778 Days
Field of Search

310/322, 310/323, 310/324, 310/312, 310/334, 310/335, 310/346, 179/110 A, 179/115 R, 179/115 ES, 179/181 R, 179/138 R, 340/14, 181/148, 181/150, 181/152, 181/153, 181/155, 181/156, 181/160, 181/174, 181/175, 181/177, 181/182, 181/183, 181/187, 181/191, 181/196, 181/206
US Class Current

310/322
CPC Class Codes

G10K 9/122 using piezoelectric driving...

H04R 17/10 Resonant transducers, i.e. ...

Diaphragm type piezoelectric electroacoustic transducer

First Claim

7 Assignments

0 Petitions

Accused Products

Abstract

35 Citations

21 Claims

Specification

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Diaphragm type piezoelectric electroacoustic transducer

First Claim

7 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

35 Citations

21 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links