Microflow based differential pressure sensor

US 6,917,886 B2
Filed: 12/13/2001
Issued: 07/12/2005
Est. Priority Date: 11/06/2000
Status: Expired due to Term

First Claim

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1. A self contained differential pressure sensor capable of being coupled to an apparatus through which a fluid flows, said sensor comprising:

a fluid channeling device having a fluid channel defined therethrough and a fluid flow detector located in said fluid channel, said fluid channeling device further having a flexible input hose, a flexible output hose, and a fluid container having an input aperture to which said flexible input hose is coupled and an output aperture to which said flexible output hose is coupled;

a circuit coupled to said fluid flow detector for detecting a level of fluid flow through said fluid channel;

memory having stored therein a characteristic of said fluid channeling device, said characteristic comprising at least one fluid channel calibration constant, and wherein said characteristic of said fluid channeling device stored in said memory comprises calibration data related to the fluid impedance characteristics for said flexible input hose and said flexible output hose; and

a microcontroller coupled to said fluid flow detector and said memory, said microcontroller being configured to determine a differential pressure value based on said level and on said characteristic;

wherein the differential pressure sensor is capable of being coupled to the apparatus via said flexible input hose and said flexible output hose.

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Abstract

A differential pressure sensor based on pressure induced micro-flow that includes two connecting hoses that are considered when the pressure sensor is calibrated. The inventive differential pressure sensor includes a flexible hose as part of the device itself, and is calibrated with the flexible hose in place (consequently, a usable hose length needs to be specified beforehand). Calibration constants for the air flow channel are determined and stored in non-volatile memory, and used to provide accurate pressure measurements. Thus, impedance in the air flow path introduced by the flexible hose is considered when the pressure sensor is calibrated. That insures that any measurement of air flow is not adversely effected by the introduction of an impedance in the air flow path previously not considered by the sensor. The present invention thus provides a self-contained differential pressure sensing device suitable for detecting changes in pressure for applications where a small amount of leakage is acceptable.

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24 Claims

1. A self contained differential pressure sensor capable of being coupled to an apparatus through which a fluid flows, said sensor comprising:
- a fluid channeling device having a fluid channel defined therethrough and a fluid flow detector located in said fluid channel, said fluid channeling device further having a flexible input hose, a flexible output hose, and a fluid container having an input aperture to which said flexible input hose is coupled and an output aperture to which said flexible output hose is coupled;
  
  a circuit coupled to said fluid flow detector for detecting a level of fluid flow through said fluid channel;
  
  memory having stored therein a characteristic of said fluid channeling device, said characteristic comprising at least one fluid channel calibration constant, and wherein said characteristic of said fluid channeling device stored in said memory comprises calibration data related to the fluid impedance characteristics for said flexible input hose and said flexible output hose; and
  
  a microcontroller coupled to said fluid flow detector and said memory, said microcontroller being configured to determine a differential pressure value based on said level and on said characteristic;
  
  wherein the differential pressure sensor is capable of being coupled to the apparatus via said flexible input hose and said flexible output hose.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. A differential pressure sensor as recited by claim 1, wherein said fluid flow detector comprises:
    - a first thermistor provided at a first location in said fluid channel; and
      
      a second thermistor provided at a second location in said fluid channel.
  - 3. A differential pressure sensor as recited by claim 2, wherein a fluid flows through said fluid channel in a fluid flow direction, and wherein said second location is downstream from said first location in the fluid flow direction.
  - 4. A differential pressure sensor as recited by claim 1, wherein said characteristic of said fluid channeling device comprises a first constant K₁and a second constant K₂.
  - 5. A differential pressure sensor as recited by claim 2, wherein said circuit comprises:
    - a wheatstone bridge circuit having four resistors, one of which is said second thermistor; and
      
      a voltage divider circuit having two resistors, one of which is said first thermistor.
  - 6. A differential pressure sensor as recited by claim 5, wherein said second thermistor is operated in constant temperature mode.
  - 7. A differential pressure sensor as recited by claim 5, wherein said circuit further comprises an operational amplifier electrically coupled to said wheatstone bridge circuit to maintain said wheatstone bridge circuit in a balanced condition.

8. A method of calibrating a self contained differential pressure sensor comprising the steps of:
- (a) providing a calibration system having an enclosure with a pressure chamber and a controller for controlling a pressure with the pressure chamber;
  
  (b) coupling a pressure sensor to be calibrated to the calibration system and controller, said pressure sensor comprising a fluid channeling device that comprises a flexible input hose and a flexible output hose, said pressure sensor being coupled to said calibration system via said flexible input hose and said flexible output hose;
  
  (c) setting a pressure within the pressure chamber;
  
  (d) recording an a differential pressure output signal of the pressure sensor to be calibrated indicative of its response to the pressure set within the pressure chamber in step (c);
  
  (e) calculating a constant for the pressure sensor to be calibrated based on the output signal recorded in step (d); and
  
  (f) writing the constant in a memory of the pressure sensor to be calibrated, wherein a characteristic of said fluid channeling device stored in said memory comprises calibration data related to a fluid impedance characteristic of said flexible input hose and a fluid impedance characteristic of said flexible output hose.
- View Dependent Claims (9)
- - 9. A method as recited by claim 8, further comprising the step of repeating steps (c) through (e) for a predetermined number of iterations.

10. A system for controlling air flow in an enclosure having a chamber defined therein, said system comprising:
- a supply air system coupled to the chamber for providing air flow into the chamber; and
  
  a first differential pressure sensor coupled to said supply air system and comprising;
  
  an air channeling device having an air channel defined therethrough and a air flow detector located in said air channel, said air channeling device further having a flexible input hose, a flexible output hose, and a container having an input aperture to which said flexible input hose is coupled, and an output aperture to which said flexible output hose is coupled, said first differential pressure sensor being coupled to said supply air system via said flexible input hose and said flexible output hose;
  
  a circuit coupled to said air flow detector for detecting a level of air flow through said air channel; and
  
  memory having stored therein a characteristic of said air channeling device, said characteristic comprising at least one air channel calibration constant, and wherein said characteristic of said air channeling device stored in said memory comprises calibration data related to the fluid impedance characteristics for said flexible input hose and said flexible output hose;
  
  said first differential pressure sensor calculating a differential pressure and controlling said supply air system to maintain a predetermined air flow in the enclosure.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 11. A system as recited by claim 10, wherein said air flow detector comprises:
    - a first thermistor provided at a first location in said air channel; and
      
      a second thermistor provided at a second location in said air channel.
  - 12. A system as recited by claim 11, wherein air flows through said air channel in an air flow direction, and wherein said second location is downstream from said first location in the air flow direction.
  - 13. A system as recited by claim 10, wherein said characteristic of said air channeling device comprises a first constant K₁and a second constant K₂.
  - 14. A system as recited by claim 11, wherein said circuit comprises:
    - a wheatstone bridge circuit having four resistors, one of which is said second thermistor; and
      
      a voltage divider circuit having two resistors, one of which is said first thermistor.
  - 15. A system as recited by claim 14, wherein said second thermistor is operated in constant temperature mode.
  - 16. A system as recited by claim 14, wherein said circuit further comprises an operational amplifier electrically coupled to said wheatstone bridge circuit to maintain said wheatstone bridge circuit in a balanced condition.
  - 17. A system as recited by claim 10, further comprising an exhaust air system coupled to the chamber for providing air flow out of the chamber.
  - 18. A system as recited by claim 17, further comprising:
    - a second differential pressure sensor coupled to said exhaust air system and comprising;
      
      an air channeling device having an air channel defined therethrough and a air flow detector located in said air channel, said air channeling device further having a flexible input hose, a flexible output hose, and a container having an input aperture to which said flexible input hose is coupled, and an output aperture to which said flexible output hose is coupled, said second differential pressure sensor being coupled to said supply air system via said flexible input hose and said flexible output hose;
      
      a circuit coupled to said air flow detector for detecting a change in air flow through said air channel; and
      
      memory having stored therein a characteristic of said air channeling device, said characteristic comprising at least one air channel calibration constant, and wherein said characteristic of said air channeling device stored in said memory comprises calibration data related to the fluid impedance characteristics for said flexible input hose and said flexible output hose;
      
      said second differential pressure sensor calculating a differential pressure and controlling said exhaust air system to maintain a predetermined air flow in the enclosure.
  - 19. A system as recited by claim 18, wherein said air flow detector comprises:
    - a first thermistor provided at a first location in said air channel; and
      
      a second thermistor provided at a second location in said air channel.
  - 20. A system as recited by claim 19, wherein air flows through said air channel in an air flow direction, and wherein said second location is downstream from said first location in the air flow direction.
  - 21. A system as recited by claim 18, wherein said characteristic of said air channeling device comprises a first constant K₁and a second constant K₂.
  - 22. A system as recited by claim 19, wherein said circuit comprises:
    - a wheatstone bridge circuit having four resistors, one of which is said second thermistor; and
      
      a voltage divider circuit having two resistors, one of which is said first thermistor.
  - 23. A system as recited by claim 22, wherein said second thermistor is operated in constant temperature mode.
  - 24. A system as recited by claim 22, wherein said circuit further comprises an operational amplifier electrically coupled to said wheatstone bridge circuit to maintain said wheatstone bridge circuit in a balanced condition.

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Current Assignee
Adam Cohen, Josh Tang
Original Assignee
Adam Cohen, Josh Tang
Inventors
Cohen, Adam, Tang, Josh
Primary Examiner(s)
Barlow, John
Assistant Examiner(s)
BHAT, ADITYA S

Application Number

US10/021,860
Publication Number

US 20020077759A1
Time in Patent Office

1,307 Days
Field of Search

732/042.6, 732/042.7, 738/614.2, 732/041.6, 73/13, 738/615.2, 73/13.4, 732/025, 702/45, 702/47, 126/116.A, 222/1, 600/505, 324/662
US Class Current

702/45
CPC Class Codes

G01F 1/68 by using thermal effects

G01F 5/00 Measuring a proportion of t...

Microflow based differential pressure sensor

First Claim

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Abstract

20 Citations

24 Claims

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Microflow based differential pressure sensor

First Claim

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Abstract

20 Citations

24 Claims

Specification

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Solutions

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