Capacitive pressure transducer with isolated sensing diaphragm

US 4,370,890 A
Filed: 10/06/1980
Issued: 02/01/1983
Est. Priority Date: 10/06/1980
Status: Expired due to Term

First Claim

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1. An improved capacitive pressure transducer having a transducer housing,a sensor housing disposed in the transducer housing and having a central cavity,diaphragm means supported on said sensor housing and extending across the central cavity to thereby divide the central cavity into two central chambers, said diaphragm means being deflectable under pressure and at least a portion thereof being conductive to provide a first plate of a variable sensor capacitor,each of said chambers having a conductive surface portion spaced from the diaphragm for providing second plates of a pair of variable sensor capacitors,a pair of isolators, said isolators each having an isolator chamber and an isolator diaphragm disposed therein,separate passageway means coupling each isolator chamber to a separate central chamber,means to permit applying separate pressures to the respective isolator diaphragms at a static line pressure, each isolator chamber, its associated passageway means and connected central chamber enclosing a substantially incompressible fluid such that the diaphragm means is urged to deflect and change the capacitance of the variable sensor capacitors responsive to the differential between the static line pressures applied to the isolator diaphragms,means for physically supporting the isolators in a position spaced from the sensor housing, the sensor housing and the diaphragm means being constructed so that as the sensor housing warps under increasing static line pressure levels on the isolators, the stress on the diaphragm means correspondingly changes to reduce error in capacitance caused by changing static line pressure levels as the diaphragm means deflects in response to the same dfferential in static line pressures.

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Abstract

A capacitance transducer has a central chamber with a conductive diaphragm disposed therein to separate the chamber into at least two portions, at least one portion having an electrical conductor disposed thereon to form in combination with the diaphragm at least one variable sensor capacitor, and wherein at least one portion of the chamber is coupled by a passageway to communicate with an isolator having an isolator chamber and an isolator diaphragm which in combination with the conductive diaphragm enclose a substantially incompressible fluid such that when pressure is applied to an exposed side of the isolation diaphragm, the conductive diaphragm is urged to deflect and thus change the sensor capacitance. Configuration of the isolators, spaced from the sensor capacitors, and other factors disclosed herein, eliminate unwanted mechanical and thermal stresses thereby improving the capacitive sensors'"'"' response to pressure.

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24 Claims

1. An improved capacitive pressure transducer having a transducer housing,a sensor housing disposed in the transducer housing and having a central cavity,diaphragm means supported on said sensor housing and extending across the central cavity to thereby divide the central cavity into two central chambers, said diaphragm means being deflectable under pressure and at least a portion thereof being conductive to provide a first plate of a variable sensor capacitor,each of said chambers having a conductive surface portion spaced from the diaphragm for providing second plates of a pair of variable sensor capacitors,a pair of isolators, said isolators each having an isolator chamber and an isolator diaphragm disposed therein,separate passageway means coupling each isolator chamber to a separate central chamber,means to permit applying separate pressures to the respective isolator diaphragms at a static line pressure, each isolator chamber, its associated passageway means and connected central chamber enclosing a substantially incompressible fluid such that the diaphragm means is urged to deflect and change the capacitance of the variable sensor capacitors responsive to the differential between the static line pressures applied to the isolator diaphragms,means for physically supporting the isolators in a position spaced from the sensor housing, the sensor housing and the diaphragm means being constructed so that as the sensor housing warps under increasing static line pressure levels on the isolators, the stress on the diaphragm means correspondingly changes to reduce error in capacitance caused by changing static line pressure levels as the diaphragm means deflects in response to the same dfferential in static line pressures.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A transducer according to claim 1 wherein the diaphragm means is supported with respect to the sensor housing to provide an initial prestress on the diaphragm.
  - 3. Apparatus according to claim 1 wherein the isolators are spaced from the sensor housing for isolation such that mechanical stress on portions of either of the isolators, other than as caused by the incompressible fluid, has no substantial effect on the sensor housing.
  - 4. Apparatus according to claim 1 wherein the respective passageway means transmits the changes in pressure through the substantially incompressible fluid to the respective central chamber and the diaphragm means therein without subjecting the sensor housing to other substantial mechanical stress.
  - 5. Apparatus according to claim 1 wherein the sensor housing is formed from metal and the cavity is partially filled with a non-porous, insulating material forming an interface surface with the metal of the sensor housing, and wherein the central chambers are each formed in the insulating material, the conductive surface portions of the central chambers being disposed on the insulating material, the interface surface of the insulating material and metal being positioned so as to be subjected to compression forces under static line pressures.

6. An improved capacitive pressure transducer having a transducer housing,a sensor housing disposed in the transducer housing and having a central cavity,diaphragm means supported on said sensor housing and extending across the central cavity to thereby divide the central cavity into two central chambers, said diaphragm means being deflectable under pressure and at least a portion thereof being conductive to provide a first plate of a variable sensor capacitor,each of said chambers having a conductive surface portion spaced from the diaphragm for providing second plates of a pair of variable sensor capacitors,a pair of isolators, said isolators each having an isolator chamber and an isolator diaphragm disposed therein,separate passageway means coupling each isolator chamber to a separate central chamber,means to permit applying separate pressures to the respective isolator diaphragms at a static line pressure, each isolator chamber, its associated passageway means and connected central chamber enclosing a substantially incompressible fluid such that the diaphragm means is urged to deflect and change the capacitance of the variable sensor capacitors responsive to the differential between the static line pressure applied to the isolator diaphragms,means for physically supporting the isolators in a position spaced from the sensor housing,the sensor housing being constructed and clamping the diaphragm means so that the diaphragm means is stressed at different amounts when the static line pressure changes to substantially compensate the capacitance output as the sensor housing warps under changes in static line pressure with the same differential pressure.
- View Dependent Claims (7, 8)
- - 7. Apparatus according to claim 6, wherein the sensor housing and diaphragm means have coefficients of elasticity and are of relative size so that the stress on the diaphragm means changes to provide a maximum error in output across the span of response of the transducer of less than 1% for each 1,000 psi of static line pressure change on the diaphragm means at the same differential pressure.
  - 8. Apparatus according to claim 6 wherein the sensor housing and diaphragm means material is such that the maximum error in output across the span of response of the transducer is less than 0.25% per 1,000 psi of static line pressure change on the diaphragm means at the same differential pressure.

9. A capacitive pressure transducer including a support frame, a sensor housing mounted on said frame, said sensor housing having a central chamber defined therein and a diaphragm having a conductive portion forming a first capacitor plate enclosing one portion of the chamber, said diaphragm being supported on the housing and held taut thereon under an initial prestress of between 50,000 and 200,000 psi, means forming a second capacitor plate on the surface defining said chamber and cooperating with said diaphragm to form a variable capacitor, said housing including a second means enclosing a surface of said diaphragm opposite from said second capacitor plate, passageway means open through the plate means to said second means, and isolator means spaced from the sensor housing and having an isolator chamber defined therein, conduit means connecting the chamber in said isolator means to the passageway means, said passageway means, said isolator means and the second means enclosing said diaphragm being filled with a substantially incompressible fluid, said isolator chamber including at least one wall deflectable under pressure to transmit such pressure through the incompressible fluid to act upon such diaphragm.
- View Dependent Claims (10, 11, 12, 13, 14)
- - 10. The apparatus of claim 9 wherein the diaphragm is disposed on the sensor housing and there is an initial prestress on such diaphragm.
  - 11. Apparatus according to claim 10 wherein the prestress is between 50,000 and 200,000 PSI.
  - 12. The combination as specified in claim 9 wherein said isolator means is mounted on said frame at a location spaced from said transducer housing.
  - 13. The apparatus as specified in claim 12 wherein said isolator means comprises an isolator housing, said isolator chamber being formed in said isolator housing, said wall deflectable under pressure comprising a flexible diaphragm enclosing said isolator chamber.
  - 14. The combination as specified in claim 13 wherein said conduit means comprise tubing which will bend under external loads.

15. A variable reactance pressure transducer having an internal cavity, a deflectable sensing diaphragm mounted on the transducer and dividing the cavity into first and second cavity sections, said transducer having a central axis lying generally normal to said diaphragm, said cavity sections each being defined by cavity surfaces which taper from the diaphragm inwardly toward the central axis in direction away from the diaphragm, a filling of insulation material in each of said cavity sections, said insulation material having recessed surfaces adjacent the diaphragm on opposite sides thereof to form chambers permitting deflection of said diaphragm under loads toward the respective recessed surface, means to provide pressure to opposite sides of said diaphragm tending to deflect said diaphragm when pressures on opposite sides are different from each other, and means to sense the deflection of said diaphragm with respect to the recessed surfaces.
- View Dependent Claims (16, 17, 18, 19, 20, 21, 22)
- - 16. The combination as specified in claim 15 wherein said insulation material is a glass or ceramic material bonded to the cavity surfaces.
  - 17. The combination as sepcified in claim 16 wherein said cavity surfaces are generally conical, and are generated about the central axis to form an included angle of between 20°
    - and 70°
      
      with respect to the central axis.
  - 18. The combination of claim 17 wherein the bond between the insulation material and the glass or ceramic material is substantially in compression when the sensing diaphragm is under load.
  - 19. Apparatus according to claim 18 wherein the diaphragm is formed from a cobalt based, high strength stainless steel, the insulation material is an alkali-lead glass and the housing is stainless steel.
  - 20. Apparatus according to claim 18 wherein the diaphragm is NiSpan C, the insulation material is Owens 0120 glass and the housing is NiSpan C.
  - 21. Apparatus according to claim 18 wherein the diaphragm is formed from Havar stainless steel, the insulation material is Corning 1990 glass and the housing is austenitic stainless steel.
  - 22. Apparatus according to claim 18 wherein the diaphragm is formed from Elgiloy alloy, the insulation material is Corning 1990 glass and the housing is austenitic stainless steel.

23. In a capacitive pressure transducer having a housing with an internal cavity, a deflectable, electrically conducting sensing diaphragm mounted on the transducer and dividing the cavity into first and second cavity sections, said transducer having a central axis lying generally normal to said diaphragm, a filling of insulation material in each of said cavity sections, said insulation material having recessed surfaces adjacent the diaphragm on opposite sides thereof to form chambers permitting deflection of said diaphragm under loads toward the respective recessed surface, means on the respective recessed surfaces forming capacitor plates which in combination with the diaphragm form first and second sensing capacitors generally symmetrical with each other relative to the diaphragm at a rest position and having capacitance values of C₁ and C₂, respectively, means to provide pressure to opposite sides of said diaphragm tending to deflect said diaphragm when pressures on opposite sides are different from each other to thereby lower the capacitance value of one of the sensing capacitors and raise the value of the other sensing capacitor, the reference position of the diaphragm being reached when the pressure on opposite sides of the diaphragm is equal, the improvement comprising selecting the dimensions and the coefficients of elasticity of the diaphragm, the insulation material and the housing in relation to the diaphragm diameter to insure that the product of diaphragm stretch times the capacitance spacing at rest position of the diaphragm remains substantially equal to a constant under changing pressures of equal magnitudes on opposite sides of said diaphragm.

24. An improved capacitive pressure transducer having a transducer housing,a sensor housing disposed in and electrically isolated from the transducer housing,diaphragm means, deflectable under pressure, at least a portion of which is conductive, supported on the sensor housing for providing a first plate of a variable sensor capacitor,at least one cavity in the sensor housing, said cavity having a conductive surface portion for providing a second plate of a variable sensor capacitor and for providing in combination with the diaphragm means a central chamber,at least one isolator, said isolator having an isolator chamber and an isolator diaphragm disposed therein,passageway means coupling said isolator chamber to the central chamber, and the isolator chamber, and said passageway means and connected central chamber enclosing a substantially incompressible fluid such that the diaphragm means is urged to deflect and change the capacitance of the variable sensor capacitor responsive to the pressure applied to the isolator diaphragm, andmeans for physically supporting the isolator in a position spaced from the sensor housing, including means to electrically isolate the isolator from the sensor housing.

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Current Assignee
Rosemount Incorporated (Emerson Electric Company)
Original Assignee
Rosemount Incorporated (Emerson Electric Company)
Inventors
Frick, Roger L.
Primary Examiner(s)
Woodiel, Donald O.

Application Number

US06/194,758
Time in Patent Office

848 Days
Field of Search

73/706, 73/708, 73/718, 361/283
US Class Current

73/718
CPC Class Codes

G01L 13/025 using diaphragms

G01L 9/0072 using variations in capacit...

Capacitive pressure transducer with isolated sensing diaphragm

First Claim

1 Assignment

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Accused Products

Abstract

Citations

24 Claims

Specification

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Capacitive pressure transducer with isolated sensing diaphragm

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

24 Claims

Specification

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Solutions

Use Cases

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