Pressure sensors

US 5,134,887 A
Filed: 09/22/1989
Issued: 08/04/1992
Est. Priority Date: 09/22/1989
Status: Expired due to Fees

First Claim

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1. A force sensor comprising:

at least one reference element having a substantially planar surface;

a deflectable diaphragm having a central deflection area disposed adjacent and facing the reference element, the surface of the diaphragm in the central deflection area facing the reference element having a fourth order curvature in a concave sense;

peripheral means comprising a flange integral to the diaphragm about the central deflection area and bonding means about the central deflection area coupling the flange to the reference element such that the peripheral means is substantially non-deflecting in response to the forces applied, to confine the deflection of the diaphragm to the central deflection area;

means associated with the diaphragm for sensing the deflection thereof in response to an applied force; and

means for applying the force to be sensed to the central deflection area of the diaphragm on the side opposite the reference element.

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Abstract

A capacitive force responsive transducer provides a linear relationship between electrical output and input force variations while protecting the sensing diaphragm from damage during extremely high overload forces. In one example differential pressures or forces are applied to opposite sides of a diaphragm interposed between two supporting plates, such that the diaphragm deflects toward one supporting plate and away from the other. Electrodes on opposite sides of the diaphragm are moved oppositely toward or away from facing electrodes on the supporting plates. A fourth order deflection curve machined into both surfaces of the diaphragm assures very linear capacitance variations (l/c) with the input differential pressures. Other electrodes are disposed in positions to provide invariant reference capacitors. At overload differential pressures, the diaphragm surface becomes flat and engages a supporting plate. A method of forming the fourth order "deflection curve" surfaces into the diaphragm uses a precision flat grinder in combination with fixtures that cause the diaphragm to deflect under internal pressure into the grinding or lapping surfaces. Successive grinding steps remove surface areas of the deflected diaphragm until a flat condition is achieved in the curved surface. On removal of the diaphragm from the fixture and release of internal pressure, the diaphragm assumes a final "fourth order" shape.

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24 Claims

1. A force sensor comprising:
- at least one reference element having a substantially planar surface;
  
  a deflectable diaphragm having a central deflection area disposed adjacent and facing the reference element, the surface of the diaphragm in the central deflection area facing the reference element having a fourth order curvature in a concave sense;
  
  peripheral means comprising a flange integral to the diaphragm about the central deflection area and bonding means about the central deflection area coupling the flange to the reference element such that the peripheral means is substantially non-deflecting in response to the forces applied, to confine the deflection of the diaphragm to the central deflection area;
  
  means associated with the diaphragm for sensing the deflection thereof in response to an applied force; and
  
  means for applying the force to be sensed to the central deflection area of the diaphragm on the side opposite the reference element.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. A sensor as set forth in claim 1 above, wherein the means for sensing comprises piezoresistive means coupled to the central deflation area of the diaphragm.
  - 3. A sensor as set forth in claim 1 above, wherein the means for sensing comprises a pair of facing electrodes on the planar surface of the reference element and the central deflection area of the diaphragm respectively.
  - 4. A sensor as set forth in claim 1 above, wherein the sensor is a differential sensor and comprises first and second reference elements having planar surfaces disposed on opposite sides of the diaphragm, and being substantially non-deflecting under the forces applied, the peripheral means comprising the two reference elements and means bonding the two reference elements to the diaphragm about the central deflection area, the means for sensing being associated with at least one concave surface of the diaphragm.
  - 5. A sensor as set forth in claim 4 above, wherein the means for sensing are associated with both sides of the diaphragm, and include reference means disposed on the reference element and diaphragm, and wherein the sensor includes means for applying loads to both sides of the diaphragm.
  - 6. A sensor as set forth in claim 1 above, wherein the sensor comprises a pair of side by side diaphragms in a single structure adjacent and facing a spaced apart planar surface of a reference element, the peripheral means comprising an integral flange about the central deflection area of each diaphragm means for applying separate loads to each of the different diaphragms, and means associated with each of the different diaphragms for sensing the deflection thereof, and wherein the means for applying force comprises means for applying different forces to the diaphragms and the means for sensing comprises means for sensing the different in the forces.

7. A differential pressure sensor comprising the combination of:
- a pair of spaced apart reference elements having planar facing surfaces in opposition and being substantially non-deflecting under the pressures applied, and each reference element including means for communicating a fluid under pressure into the region of the facing surface thereon;
  
  diaphragm means disposed between the reference elements about a central deflection region, the diaphragm having concave surfaces on each side, the curvatures of the concave surfaces of the diaphragm varying in accordance with the deflection curve for an edge bound diaphragm to have a central region curving in one sense and edge regions curving in the opposite sense and separated when not deflected by a gap determined primarily by the concavity from the facing surface of the adjacent reference element;
  
  reference elements about the periphery of the central deflection region, such that the periphery of the diaphragm means is not deflecting and the concave surface on the side toward which the diaphragm moves tends to become planar; and
  
  sensing means to determine the deflection of the diaphragm means in response to the pressures exerted by the fluids.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
- - 8. A sensor as set forth in claim 7 above, wherein the sensing means comprises electrode means on at least one reference element and on at least one concave surface of the diaphragm means to form one or more variable capacitors.
  - 9. A sensor as set forth in claim 8 above, further including at least one set of reference electrodes on facing surfaces of the reference elements and another set of reference electrodes on both sides of the diaphragm interposed spatially between the reference electrodes on the reference elements, the reference elements being coupled to form an invariant reference capacitor for use in signal processing the output of the sensor.
  - 10. A sensor as set forth in claim 9 above, wherein the diaphragm when deflected toward a reference member tends to become substantially planar at a limit position and wherein the adjacent reference element acts as a planar backup surface for engagement against the substantially planar surface of the deflected diaphragm in the event of excess deflection pressure.
  - 11. A sensor as set forth in claim 10 above, wherein the reference element and diaphragm are concentric about a central axis and the peripheral means is concentric about the central axis at a given radius and comprises glass bonding layers.
  - 12. A sensor as set forth in claim 11 above, wherein the reference elements each include aperture means leading to the gap between the reference element and the associated side of the diaphragm, and wherein the reference elements and concave surfaces of the diaphragm each include opposed thin electrode means on the surfaces thereof.
  - 13. A sensor as set forth in claim 12 above, wherein the curve on the surface of the diaphragms are configured to provide capacitive output inversely proportional to the deflection of the diaphragm.
  - 14. A sensor as set forth in claim 7 above, wherein the sensing means comprises piezoresistive means disposed at least on one concave surface of the diaphragm means in the central deflection region.
  - 15. A sensor as set forth in claim 14 above, wherein the piezoresistive means are disposed on both concave surfaces of the diaphragm means in the central deflection region.
  - 16. A sensor as set forth in claim 7 above, including in addition housing means encompassing the reference elements and diaphragm and deformable support means holding the structure of the reference elements and diaphragm within the housing with said support means providing substantially greater axial than radial stiffness symmetrically about the structure.
  - 17. A sensor as set forth in claim 16 above, wherein said support means comprises a pair of rings having axial and transverse cross-sectional areas, and wherein the housing means has spaced apart mounting surfaces adjacent the opposite ends of the sensor, and the rings each separately engage a different mounting surface and the adjacent end of the sensor.

18. A differential pressure sensor comprising:
- a differential pressure sensing cell of principally ceramic material having faces on opposing parallel sides thereof exposed to different fluids whose differential pressure is to be sensed the cell having a periphery that is symmetrical about a central axis normal to the opposing forces and the fluid forces acting axially;
  
  a metal housing encompassing the pressure cell and including mounting surfaces thereon spaced apart from the periphery of the cell and disposed thereabove; and
  
  a pair of mechanical support ring coupling means, each coupling a different one of the opposing faces at the periphery of the cell to the housing, each of the mechanical coupling means forming a three dimensional body symmetrically disposed about the adjacent face of the cell and having greater stiffness in the direction in which fluid pressure forces act against the cell than in the direction normal thereto.
- View Dependent Claims (19)
- - 19. The invention as set forth in claim 18 above, wherein the support rings have generally S-shaped cross sections with axial and radial beams, the axial beam length and thickness relative to the radial length and thickness providing the desired stiffness relationship.

20. A pressure transducer comprising:
- a reference member having a planar surface, the reference member being substantially non-bending under the pressures being sensed;
  
  a pressure sensing diaphragm having a flanged periphery disposed closely adjacent and substantially parallel to the planar surface of the reference member with the flange facting away from the reference member, the diaphragm being affixed to the reference member along the flanged periphery to define an interior region, the interior region of the diaphragm on the flange side being subjected to pressures to be measured and of a thickness such as to undergo deflection, the interior region of the diaphragm on the side facing the reference member having a concave curvature corresponding to the inverse of the deflection for a peripherally secured deflectable planar member, and the concave curvature tending to become substantially planar when deflected toward the reference member, wherein the concave depth in the diaphragm is of the order of 5-50 microns;
  
  the reference member including at least one thin planar electrode on the surface thereof in an interior region and the diaphragm including in the interior region at least one thin planar electrode on the surface thereof such that the capacitor thereby formed changes with applied pressure and wherein the reference member acts as a planar backup surface for engagement against the planar surface of the deflected diaphragm in the event of excess deflection pressure;
  
  bonding means of up to 10 microns in height at the flanged periphery coupling the reference member to the diaphragm; and
  
  including in addition a peripheral glass spacer layer between the reference member and diaphragm, reference electrodes on the diaphragm and reference member, a glass layer on the reference element corresponding in thickness to the spacer layer and overlying the planar electrode thereon, and a thin sealing glass layer overlying the reference electrode on the diaphragm.
- View Dependent Claims (21)
- - 21. The sensor of claim 20 above, wherein the reference member and diaphragm are fabricated from a brittle elastic material from the class including ceramic, glass, fused quartz, silicon, and semiconductor material.

22. A pressure transducer comprising:
- a reference member having a planar surface, the reference member being substantially non-bending under the pressures being sensed;
  
  a pressure sensing diaphragm fabricated from semiconductor material having a flanged periphery disposed closely adjacent and substantially parallel to the planar surface of the reference member with the flange facing away from the reference member, the diaphragm being affixed to the reference member along the flanged periphery to define an interior region, the interior region of the diaphragm on the flange side being subjected to pressures to be measured and of a thickness such as to undergo deflection, the interior region of the diaphragm on the side facing the reference member having a concave curvature corresponding to the inverse of the deflection for a peripherally secured deflectable planar member, and the concave curvature tends to become substantially planar when deflected toward the reference member, wherein the diaphragm contains at least one piezoresistive element diffusive into the concave surface of the diaphragm that changes resistance in response to the deflection of the diaphragm under the influence of the pressure and wherein the concave depth in the diaphragm is of the order of 5-50 microns;
  
  the reference member fabricated from material that closely matches the thermal coefficient of expansion of the diaphragm material; and
  
  further including bonding means of up to 10 microns in height at the flanged periphery coupling the reference member to the diaphragm.
- View Dependent Claims (23, 24)
- - 23. The sensor as set forth in claim 22 above, wherein the diaphragm when deflected toward the reference member tends to become substantially planar and wherein the reference member acts as a planar backup surface for engagement against the planar surface of the deflected diaphragm in the event of excess deflection pressure.
  - 24. The sensor as set forth in claim 23 above, wherein the semiconductor material is silicon, and wherein there are a plurality of piezoresistive elements on the diaphragm.

Specification

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Litigation Campaign Assessment

Current Assignee
Bell, Robert L.
Original Assignee
Bell, Robert L.
Inventors
Bell, Robert L.
Primary Examiner(s)
WOODIEL, DONALD

Application Number

US07/410,995
Time in Patent Office

1,047 Days
Field of Search

73/724, 73/718, 73/717, 73/716, 73/756, 361/283
US Class Current

73/718
CPC Class Codes

G01L 9/0042   Constructional details asso...

G01L 9/0054   integral with a semiconduct...

G01L 9/0073   using a semiconductive diap...

G01L 9/0075   using a ceramic diaphragm, ...

Pressure sensors

First Claim

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Abstract

Citations

24 Claims

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Pressure sensors

First Claim

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Abstract

Citations

24 Claims

Specification

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