Thermoresistive sensor system

US 5,137,370 A
Filed: 03/25/1991
Issued: 08/11/1992
Est. Priority Date: 03/25/1991
Status: Expired due to Fees

First Claim

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1. A thermoresistive sensor circuit for determining thermal properties of a medium while compensating for changes in the ambient temperature of the medium comprising:

a first sensor for being mounted in the medium, said first sensor having a resistance that varies with temperature;

a second sensor for being mounted in the medium, said second sensor having a resistance that varies with the temperature;

a thermal compensation control connected for supplying two currents;

a first current through said first sensor such that I₁³ R₁ of said first sensor is held constant, where I₁ is the current through said first sensor and R₁ is the resistance of said first sensor, thereby producing a first voltage (V₁) across said first sensor;

a second current through said second sensor, thereby producing a second voltage (V₂) across said second sensor; and

output means connected to detect the voltages of said first and second sensors and for producing an output signal in response to said voltages, said output signal being representative of the thermal properties of the medium.

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Abstract

A thermoresistive sensor system compensates for ambient temperature of a medium. First and second side-by-side sensors are mounted in the medium, each having a resistance that varies with temperature change in the medium. A thermal compensation control circuit supplies current to the first sensor such that the cube of its current times its resistance (I₁³ ×R₁) is constant. The control circuit supplies current to the second sensor at a multiple of the current through the first sensor. A signal based upon the voltages across each sensor is produced as a temperature compensated output. In this manner, the system automatically compensates for temperature changes in the medium which would otherwise degrade the accuracy of the output.

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12 Claims

1. A thermoresistive sensor circuit for determining thermal properties of a medium while compensating for changes in the ambient temperature of the medium comprising:
- a first sensor for being mounted in the medium, said first sensor having a resistance that varies with temperature;
  
  a second sensor for being mounted in the medium, said second sensor having a resistance that varies with the temperature;
  
  a thermal compensation control connected for supplying two currents;
  
  a first current through said first sensor such that I₁³ R₁ of said first sensor is held constant, where I₁ is the current through said first sensor and R₁ is the resistance of said first sensor, thereby producing a first voltage (V₁) across said first sensor;
  
  a second current through said second sensor, thereby producing a second voltage (V₂) across said second sensor; and
  
  output means connected to detect the voltages of said first and second sensors and for producing an output signal in response to said voltages, said output signal being representative of the thermal properties of the medium.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The thermoresistive sensor circuit of claim 1 further comprising:
    - said thermal compensation control supplying the second current at a magnitude equal to a constant multiplied by the magnitude of said first current.
  - 3. The thermoresistive sensor circuit of claim 1 wherein said thermal compensation control includes means connected for monitoring V₁ and I₁, producing a voltage V_s corresponding in magnitude to I₁, squaring V_s to produce a signal V_s² equal to the magnitude of I_s² and multiplying V_s² by the V₁ to produce a control signal having a magnitude equal to I₁³ R¹.
  - 4. The thermoresistive sensor circuit of claim 1 wherein said thermal compensation control includes means connected for monitoring V₁ and I₁ for producing a control signal having a magnitude equal to I₁³ R₁, for producing a control voltage V_c and for producing the currents I₁ and I₂ in response to V_c so that I₂ =C I₁.
  - 5. The thermoresistive sensor circuit of claim 4 wherein said thermal compensation control maintains the constant C at a value less than 1.
  - 6. The thermoresistive sensor circuit of claim 4 wherein said thermal compensation control maintains the constant C at a value greater than 1.
  - 7. The thermoresistive sensor circuit of claim 1 wherein said output means further comprises means for multiplying V_a by G, where G is a gain which is approximately equal to I₁, divided by current I₂, to produce G V₂ ;
    - andmeans for producing the output signal to correspond to V₁ minus G V₂.
  - 8. The thermoresistive sensor circuit of claim 7 further comprising a means for setting the gain G to compensate for a difference in the resistance R₁ and R₂ of said first and second sensors at an initial temperature T_e.
  - 9. The thermoresistive sensor circuit of claim 1 further comprising means for adjusting said output signal to a desired magnitude when the medium is in a minimum heat transfer condition.
  - 10. The thermoresistive sensor circuit of claim 1 further comprising means for adjusting said output signal to a desired magnitude when the medium is in a maximum heat transfer condition.
  - 11. The thermoresistive sensor of claim 3 wherein said medium comprises a combination of gas and liquid, said first and second sensor being mounted in the gas and liquid to determine the level of liquid.

12. A thermoresistive sensor for determining thermal properties of a medium surrounding the sensor while compensating for changes in the ambient temperature of the sensor comprising:
- a first sensor for being mounted in a medium, said first sensor having a resistance which varies with temperature;
  
  a second sensor for being mounted in a medium, said second sensor having a resistance which varies with temperature;
  
  means for mounting said first and second sensors side-by-side in the medium;
  
  a thermal compensation control connected for supplying two currents;
  a first current (I₁) through, and a voltage (V₁) across, said first sensor such that I₃¹ R₁ of said first sensor is held constant, said constant being given by equation;
  space="preserve" listing-type="equation">K=I.sub.1.sup.3 R.sub.1
  whereK equals the constant of said first sensor;
  
  I₁ is the first current supplied by said thermal compensation control through said first sensor;
  
  R₁ equals a resistance of the first sensor at an ambient temperature; and
  a second current (I₂) through, and a voltage (V₂) across, said second sensor such that the second current through said second sensor is equal to a fixed multiple multiplied by the first current through said first sensor, said second current being represented by equation;
  space="preserve" listing-type="equation">I.sub.2 =CI.sub.1
  whereI₂ equals the current supplied by said thermal compensation control through said second sensor;
  means for multiplying the voltage (V₂) across said second sensor by a gain equal to the reciprocal (1/C) of the constant (C) to produce V_G represented by equation;
  space="preserve" listing-type="equation">V.sub.G =GV.sub.2
  where V_G equals said multiplied voltage;
  
  G equals the gain of the means for multiplying;
  means connected for providing a control voltage (V_s) for said thermal compensation control to control the currents supplied to said first and second sensors, said voltage represented by equation;
  space="preserve" listing-type="equation">V.sub.s =I.sub.1.sup.3 R.sub.1
  where
  V_S equals the control voltage for controlling the currents supplied to said first and second sensors;
  
  means connected for producing a control signal from the control voltage for said thermal compensation control to control the currents I₁ and I₂ delivered to said first and second sensors; and
  
  means connected for measuring the difference in the voltages of said first sensor (V₁) and said multiplied voltage (V_G), said difference in voltages represented by equation;
  
  ##EQU14## Δ
  
  V equals the difference in voltages of said first sensor and said multiplied voltage (V_G);
  
  I₀ equals the current through said first sensor at 0°
  
  C.;
  
  R₀ equals the resistance of said first sensor at 0°
  
  C.;
  
  α
  
  equals a temperature coefficient of resistance of said first or second sensors;
  
  A equals a surface area of said first or second sensors; and
  
  h equals a heat transfer coefficient of said first or second sensors,means connected for producing an output signal corresponding to the difference in voltage Δ
  
  V.

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Current Assignee
Delta M Corporation 525 Warehouse RD Oak Ridge TN
Original Assignee
Delta T Corporation (Spectris PLC)
Inventors
McCulloch, Reginald W., Garcia, Omar
Primary Examiner(s)
Cuchlinski, Jr., William A.
Assistant Examiner(s)
Bennett, G. Bradley

Application Number

US07/675,757
Time in Patent Office

505 Days
Field of Search

73/290 R, 73/295, 374/3, 374/10, 374/44, 374/45, 374/133, 374/163, 374/164, 374/183, 374/185, 374/139, 374/141, 340/622, 364/557, 364/571.03
US Class Current

374/173
CPC Class Codes

G01F 23/246 thermal devices

Thermoresistive sensor system

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Thermoresistive sensor system

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