Optimized convection based mass airflow sensor circuit

US 20030212510A1
Filed: 10/29/2002
Published: 11/13/2003
Est. Priority Date: 05/13/2002
Status: Active Grant

First Claim

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1. An apparatus for measuring the amount of flow of a flowing medium comprising:

a bridge circuit across which a bridge voltage Vb is developed such that the magnitude of the bridge voltage Vb is indicative of the amount of flow, the bridge circuit including a signal side for deriving a signal voltage V_RLwhich is a voltage divided function of the bridge voltage Vb as determined at least in part by the resistance RH of a self-heated resistor in ratio to the resistance RL of a power resistor where the resistance RH is related to the temperature of the heated resistor as determined at least in part by the difference between the heat generated within the heated resistor as a function of the voltage applied across the heated resistor and the heat transferred away from the heated resistor as a function of the amount of fluid flow, the bridge circuit also including a reference side for defining a reference voltage Vr which is a voltage divided function of the bridge voltage Vb as determined at least in part by a resistance Rp of a potentiometer, and an amplifier responsive to the difference between the signal voltage V_RLand the reference voltage Vr for altering the bridge voltage Vb to maintain the heat generated within the self-heated resistor thereby maintaining its temperature and related resistance RH so as to equalize the signal voltage V_RLand the reference voltage Vr.

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Abstract

A method and apparatus for measuring the amount of flow of a flowing medium. The method and apparatus include a bridge circuit configured to develop a bridge voltage Vb such that the magnitude of the bridge voltage Vb is indicative of the amount of flow. The bridge circuit is configured without having an ambient temperature sensor, thus the bridge voltage is uncompensated with respect to ambient temperature. A thermistor circuit is configured to generate a temperature reference voltage indicative of ambient temperature. A conditioning circuit is configured to receive the uncompensated bridge voltage and the temperature reference voltage to process the same and generate a compensated bridge voltage with respect to ambient temperature. The compensated bridge voltage is indicative of fluid flow

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23 Claims

1. An apparatus for measuring the amount of flow of a flowing medium comprising:
- a bridge circuit across which a bridge voltage Vb is developed such that the magnitude of the bridge voltage Vb is indicative of the amount of flow, the bridge circuit including a signal side for deriving a signal voltage V_RLwhich is a voltage divided function of the bridge voltage Vb as determined at least in part by the resistance RH of a self-heated resistor in ratio to the resistance RL of a power resistor where the resistance RH is related to the temperature of the heated resistor as determined at least in part by the difference between the heat generated within the heated resistor as a function of the voltage applied across the heated resistor and the heat transferred away from the heated resistor as a function of the amount of fluid flow, the bridge circuit also including a reference side for defining a reference voltage Vr which is a voltage divided function of the bridge voltage Vb as determined at least in part by a resistance Rp of a potentiometer, and an amplifier responsive to the difference between the signal voltage V_RLand the reference voltage Vr for altering the bridge voltage Vb to maintain the heat generated within the self-heated resistor thereby maintaining its temperature and related resistance RH so as to equalize the signal voltage V_RLand the reference voltage Vr.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The apparatus of claim 1, wherein said potentiometer is a digital programmable potentiometer.
  - 3. The apparatus of claim 1, wherein the bridge voltage is further processed to correct for ambient air temperature changes.
  - 4. The apparatus of claim 3 further comprising:
    - a thermistor circuit configured to generate a temperature reference voltage to correct the bridge voltage with respect to ambient air changes.
  - 5. The apparatus of claim 4, wherein the temperature reference voltage is tapped from between a pull up resistive element electrically connected to a voltage reference source and a thermistor element electrically connected to ground.
  - 6. The apparatus of claim 5, wherein the temperature reference voltage is indicative of ambient air temperature.
  - 7. The apparatus of claim 5, wherein the temperature reference voltage and the bridge voltage are input into a conditioning circuit to generate a compensated bridge voltage with respect to ambient air temperature.
  - 8. The apparatus of claim 7, wherein the conditioning circuit processes the compensated bridge voltage by multiplying the bridge voltage input by a constant and an inverse of the following equation:
  - 9. The apparatus of claim 8, wherein said temperature reference voltage is processed with a linear piecewise circuit prior to processing with the conditioning circuit for ambient temperature ranges greater than about 50°
    - C.
  - 10. The apparatus of claim 8, wherein the conditioning circuit is one of a voltage controlled oscillator circuit and an analog multiplier-divider circuit.
  - 11. The apparatus of claim 10, wherein said voltage controlled oscillator circuit outputs a frequency output indicative of a compensated bridge voltage with respect to ambient temperature.
  - 12. The apparatus of claim 10, wherein said analog multiplier-divider circuit outputs a voltage output indicative of a compensated bridge voltage with respect to ambient temperature.
  - 13. The apparatus of claim 5, wherein said thermistor element is one of a thermistor and a temperature dependent resistive element.

14. A method for temperature compensation of a constant temperature anemometer for measuring the amount of flow of a flowing medium, the method comprising:
- configuring a bridge circuit to develop a bridge voltage Vb such that the magnitude of the bridge voltage Vb is indicative of the amount of flow, generating an bridge voltage from the bridge circuit, the bridge voltage is uncompensated with respect to ambient temperature;
  
  generating a temperature reference voltage indicative of ambient temperature from a thermistor circuit;
  
  receiving the uncompensated bridge voltage and the temperature reference voltage in a conditioning circuit configured to process the uncompensated bridge voltage and the temperature reference voltage; and
  
  generating a compensated bridge voltage with respect to ambient temperature, the compensated bridge voltage indicative of fluid flow across resistor RH in an ambient temperature range.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23)
- - 15. The method of claim 14, wherein configuring the bridge circuit further comprises:
    - including a signal side for deriving a signal voltage V_RLwhich is a voltage divided function of the bridge voltage Vb as determined at least in part by the resistance RH of a self-heated resistor in ratio to the resistance RL of a power resistor where the resistance RH is related to the temperature of the heated resistor as determined at least in part by the difference between the heat generated within the heated resistor as a function of the voltage applied across the heated resistor and the heat transferred away from the heated resistor as a function of the amount of fluid flow;
      
      including a reference side for defining a reference voltage Vr which is a voltage divided function of the bridge voltage Vb as determined at least in part by a resistance Rp of a potentiometer; and
      
      including an amplifier responsive to the difference between the signal voltage V_RLand the reference voltage Vr for altering the bridge voltage Vb to maintain the heat generated within the self-heated resistor thereby maintaining its temperature and related resistance RH so as to equalize the signal voltage V_RLand the reference voltage Vr.
  - 16. The method of claim 15, wherein said potentiometer is a digital programmable potentiometer.
  - 17. The method of claim 14, wherein the bridge voltage is further processed to correct for ambient air temperature changes.
  - 18. The method of claim 14, wherein the temperature reference voltage is tapped from between a pull up resistive element electrically connected to a voltage reference source and a thermistor element electrically connected to ground.
  - 19. The method of claim 14, wherein the conditioning circuit processes the compensated bridge voltage by multiplying the bridge voltage input by a constant and an inverse of the following equation:
  - 20. The method of claim 14, wherein said temperature reference voltage is processed with a linear piecewise circuit prior to processing with the conditioning circuit for ambient temperature ranges greater than about 50°
    - C.
  - 21. The method of claim 14, wherein the conditioning circuit is one of a voltage controlled oscillator circuit and an analog multiplier-divider circuit.
  - 22. The method of claim 21, wherein said voltage controlled oscillator circuit outputs a frequency output indicative of a compensated bridge voltage with respect to ambient temperature.
  - 23. The method of claim 21, wherein said analog multiplier-divider circuit outputs a voltage output indicative of a compensated bridge voltage with respect to ambient temperature.

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Current Assignee
Delphi Technologies Ip Limited (BorgWarner Incorporated)
Original Assignee
Delphi Technologies, Inc. (BorgWarner Incorporated)
Inventors
Gee, Gregory P.

Granted Patent

US 6,813,570 B2
Time in Patent Office

Days
Field of Search
US Class Current

702/50
CPC Class Codes

G01F 1/69 of resistive type

G01F 1/698 Feedback or rebalancing cir...

Optimized convection based mass airflow sensor circuit

First Claim

2 Assignments

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Abstract

93 Citations

23 Claims

Specification

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Optimized convection based mass airflow sensor circuit

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

93 Citations

23 Claims

Specification

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Solutions

Use Cases

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