Clearance measurement system

US 5,723,980 A
Filed: 06/07/1995
Issued: 03/03/1998
Est. Priority Date: 06/07/1995
Status: Expired due to Term

First Claim

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1. A measurement system, comprising:

a sensor disposed in a housing in which one or more elements are movable relative to the housing, the sensor and each of the elements being separated by a distance and forming a sensing capacitor having a first value dependent on the distance between the sensor and each element as each element passes the sensor, and having a second value when no element is passing the sensor, the sensor generating a signal representative of the capacitance of the sensing capacitor;

an amplifier coupled to the sensor and having a substantially constant gain, the amplifier amplifying the signal generated by the sensor to create an output signal which includes maxima and minima, the maxima corresponding to instances when an element passes the sensor and the minima corresponding to instances when no element is passing the sensor, wherein the maxima includes a first noise component and the minima includes a second noise component;

a biasing network coupled between the amplifier and the sensor, the biasing network including a voltage source for providing a substantially constant voltage to the sensor; and

a processor coupled to the amplifier for;

(i) determining the difference between at least one of the maxima of the amplified output signal, and at least one of the minima of the amplified output signal wherein the first noise component and the second noise component are substantially canceled in determining the difference, (ii) determining the capacitance of the sensing capacitor by multiplying the voltage provided by the voltage source, by the gain provided by the amplifier, and by the difference between the at least one of the maxima of the amplified signal and the at least one of the minima of the amplified signal, and (iii) determining the distance between the sensor and each of the elements using the capacitance.

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Abstract

The measuring device of the invention uses a capacitor polarized by a continuous voltage and conditioned by a continuous charge amplifier, this charge amplifier having a high-band filter structure, preferably of the second order. The technology of the capacitor and the linking cable is coaxial. The tuning of the chain measurement is effected theoretically without needing standardization.

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20 Claims

1. A measurement system, comprising:
- a sensor disposed in a housing in which one or more elements are movable relative to the housing, the sensor and each of the elements being separated by a distance and forming a sensing capacitor having a first value dependent on the distance between the sensor and each element as each element passes the sensor, and having a second value when no element is passing the sensor, the sensor generating a signal representative of the capacitance of the sensing capacitor;
  
  an amplifier coupled to the sensor and having a substantially constant gain, the amplifier amplifying the signal generated by the sensor to create an output signal which includes maxima and minima, the maxima corresponding to instances when an element passes the sensor and the minima corresponding to instances when no element is passing the sensor, wherein the maxima includes a first noise component and the minima includes a second noise component;
  
  a biasing network coupled between the amplifier and the sensor, the biasing network including a voltage source for providing a substantially constant voltage to the sensor; and
  
  a processor coupled to the amplifier for;
  
  (i) determining the difference between at least one of the maxima of the amplified output signal, and at least one of the minima of the amplified output signal wherein the first noise component and the second noise component are substantially canceled in determining the difference, (ii) determining the capacitance of the sensing capacitor by multiplying the voltage provided by the voltage source, by the gain provided by the amplifier, and by the difference between the at least one of the maxima of the amplified signal and the at least one of the minima of the amplified signal, and (iii) determining the distance between the sensor and each of the elements using the capacitance.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A measurement system according to claim 1, wherein the amplifier comprises a first operational amplifier, a first feedback capacitor, and a restoration circuit.
  - 3. A measurement system according to claim 2, wherein the restoration circuit comprises a first resistor in parallel with the first feedback capacitor.
  - 4. A measurement system according to claim 3, wherein the restoration circuit further comprises a second operational amplifier connected at its output to the first resistor, a second feedback capacitor, and a second resistor connected to the second operational amplifier, the second feedback capacitor, and ground.
  - 5. A measurement system according to claim 4, wherein the housing comprises a turbine engine and the elements comprise fan blades.

6. A measurement system, comprising:
- a sensor disposed in a housing in which one or more elements are movable relative to the housing, the sensor and each of the elements being separated by a distance and forming a sensing capacitor having a first value dependent on the distance between the sensor and each element as each element passes the sensor, and having a second value when no element is passing the sensor, the sensor generating a signal representative of the capacitance of the sensing capacitor;
  
  an amplifier coupled to the sensor and having a substantially constant gain, the amplifier amplifying the signal generated by the sensor to create an output signal which includes maxima and minima, the maxima corresponding to instances when an element passes the sensor and the minima corresponding to instances when no element is passing the sensor, wherein each of the maxima and the minima include a substantially equivalent noise component;
  
  a biasing network coupled between the amplifier and the sensor, the biasing network including a voltage source for providing a substantially constant voltage to the sensor, and a blocking capacitor for preventing the substantially constant voltage from being applied to the amplifier; and
  
  a processor coupled to the amplifier for determining the capacitance of the sensing capacitor and the distance between the sensor and each of the elements by determining the difference between at least one of the maxima of the amplified output signal and at least one of the minima of the amplified output signal, thereby eliminating the noise components of the maxima and minima, multiplying the voltage provided by the voltage source, by the gain provided by the amplifier, and by the difference between at least one of the maxima of the amplified output signal, and at least one of the minima of the amplified output signal.
- View Dependent Claims (7, 8, 9, 10)
- - 7. A measurement system according to claim 6, wherein the amplifier comprises a first operational amplifier, a first feedback capacitor, and a restoration circuit.
  - 8. A measurement system according to claim 7, wherein the restoration circuit comprises a first resistor in parallel with the first feedback capacitor.
  - 9. A measurement system according to claim 8, wherein the restoration circuit further comprises a second operational amplifier connected at its output to the first resistor, a second feedback capicator, and a second resistor connected to the second operational amplifier, the second feedback capacitor, and ground.
  - 10. A measurement system according to claim 9, wherein the housing comprises a turbine engine and the elements comprise fan blades.

11. A measurement system, comprising:
- a sensor disposed in a housing in which one or more elements are movable relative to the housing, the sensor and each of the elements being separated by a distance and forming a sensing capacitor having a first value dependent on the distance between the sensor and each element as each element passes the sensor, and having a second value when no element is passing the sensor, the sensor generating a signal representative of the capacitance of the sensing capacitor;
  
  an amplifier coupled to the sensor and having a substantially constant gain, the amplifier amplifying the signal generated by the sensor to create an output signal which includes maxima and minima, the maxima corresponding to instances when an element passes the sensor and the minima corresponding to instances when no element is passing the sensor;
  
  a feedback circuit coupled between the amplifier and the sensor, and a voltage source applied to the feedback circuit, for providing a substantially constant voltage to the sensor;
  
  a blocking capacitor coupled between the feedback circuit and the voltage source for substantially preventing the voltage source from providing a voltage at the amplifier; and
  
  a processor coupled to the amplifier, for determining the capacitance of the sensing capacitor and the distance between the sensor and each of the elements by multiplying the voltage provided by the voltage source, by the gain provided by the amplifier, and by the difference between at least one of the maxima of the amplified output signal, and at least one of the minima of the amplified output signal.
- View Dependent Claims (12, 13, 14, 15, 16, 17)
- - 12. A measurement system according to claim 11, wherein the amplifier comprises a first operational amplifier, a first feedback capacitor, and a restoration circuit.
  - 13. A measurement system according to claim 12, wherein the restoration circuit comprises a first resistor in parallel with the first feedback capacitor.
  - 14. A measurement system according to claim 13, wherein the restoration circuit further comprises a second operational amplifier connected at its output to the first resistor, a second feedback capacitor, and a second resistor connected to the second operational amplifier, the second feedback capacitor, and ground.
  - 15. A measurement system according to claim 11, further comprising a resistor in series with the blocking capacitor and the feedback circuit.
  - 16. A measurement system according to claim 15, wherein the feedback circuit comprises a third operational amplifier and a third resistor.
  - 17. A measurement system according to claim 16, wherein the housing comprises a turbine engine and the elements comprise fan blades.

18. A method of measuring distance, comprising:
- providing a sensor disposed in a housing in which one or more elements are movable relative to the housing, the sensor and each of the elements being separated by a distance and forming a sensing capacitor having a capacitance dependent on the distance between the sensor and each element as each element passes the sensor and having substantially zero capacitance when no element is passing the sensor;
  
  supplying substantially constant voltage to the sensor;
  
  generating a signal with the sensor, the signal being representative of the capacitance of the sensing capacitor;
  
  amplifying the signal generated by the sensor with an amplifier having a substantially constant gain to create an output signal having maxima and minima, the maxima corresponding to instances when an element passes the sensor and the minima corresponding to instances when no element is passing the sensor, wherein each of the maxima and minima have a noise component associated therewith;
  
  preventing the substantially constant voltage from being applied to the amplifier;
  
  determining the difference between at least one of the maxima of the amplified output signal and at least one of the minima of the amplified output signal and obtaining a difference value that is substantially free of the noise components; and
  
  determining the capacitance of the sensing capacitor and the distance between the sensor and each of the elements by multiplying the voltage provided by the voltage source, by the gain provided by the amplifier, and by the difference value.
- View Dependent Claims (19, 20)
- - 19. A method of measuring distance according to claim 18, wherein the housing comprises a turbine engine and the elements comprise fan blades.
  - 20. A method of measuring distance according to claim 18, further comprising determining the distance using the capacitance of the sensing capacitor.

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Current Assignee
Aerogage Corporation
Original Assignee
Aerogage Corporation
Inventors
Roberge, James K., Haase, Wayne C.
Primary Examiner(s)
Regan, Maura K.

Application Number

US08/476,084
Time in Patent Office

1,000 Days
Field of Search

324/661, 324/662, 324/663, 324/601, 324/671, 324/672
US Class Current

324/662
CPC Class Codes

F01D 21/04 responsive to undesired pos...

G01B 7/14 for measuring distance or c...

Clearance measurement system

First Claim

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Abstract

Citations

20 Claims

Specification

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Clearance measurement system

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

20 Claims

Specification

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Solutions

Use Cases

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