Vortex flow meter transmitter including piezo-electric sensor

US 3,948,098 A
Filed: 04/24/1974
Issued: 04/06/1976
Est. Priority Date: 04/24/1974
Status: Expired due to Term

First Claim

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1. A piezo-electric flow-rate converter for transforming variable-frequency pressure pulses from a vortex-shedding flow meter into a d-c output signal to be transmitted through a two-wire transmission line to a central station which includes, in series between the two wires of said transmission line, a source of d-c voltage and a current-sensing means to produce an effect determined by the magnitude of d-c current flowing through said two-wire transmission line;

said flow-rate converter comprising;

piezo-electric means responsive to said pressure pulses to develop a corresponding voltage signal varying in frequency with the applied pressure-pulse frequency;

first amplifier means having an input to which said variable-frequency voltage signal is coupled and including means to produce an alternating control signal at the frequency of said a-c voltage;

controllable current-source means having an input coupled to the output of said first amplifier means to receive said alternating control signal, said current-source means including means to develop a low-level continuous d-c signal current the magnitude of which is directly proportional to the frequency of said control signal;

second amplifier means having an input coupled to the output of said current-source means to receive said low-level continuous d-c signal current, said second amplifier means including an output circuit with first and second output terminals to be connected respectively to the two wires of said two-wire transmission line, said output circuit including current-varying means for controlling the magnitude of a relatively high-level d-c output current flowing through said terminals and powered by said source of d-c voltage;

a feedback resistor forming part of said converter and connected in the output of said second amplifier means to develop a feedback signal responsive to the current flowing through said output circuit terminals;

negative feedback circuit means coupling said feedback resistor to said input of said second amplifier means so as to effect correspondence between changes in the d-c output current flowing through said output terminals and changes in said low-level d-c signal current resulting from changes in the fluid flow rate; and

power circuit means coupled to said output terminals to produce, from the electrical power of said source of d-c voltage, d-c supply voltages for said first and second amplifier means and said controllable current-source means.

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Abstract

Flow-metering apparatus of the vortex-shedding type wherein an obstruction in a flowing fluid develops a series of vortices which are sensed by a pressure-responsive piezo-electric element to produce an alternating voltage having a frequency corresponding to the fluid flow rate. The piezo-electric voltage signal is processed by electronic circuitry to provide for precise detection of the zero-crossings of the voltage alternations. The resulting frequency signal controls the charge/discharge characteristics of a set of capacitors, with the average charging current corresponding in magnitude to the frequency of vortex shedding. This average current controls an output amplifier in a feedback arrangement to produce a relatively high-powered d-c flow signal over a two-wire transmission line leading to a remote station. In another arrangement, a high-powered pulsating flow signal is developed for transmission over a three-wire transmission line leading to a remote station.

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19 Claims

1. A piezo-electric flow-rate converter for transforming variable-frequency pressure pulses from a vortex-shedding flow meter into a d-c output signal to be transmitted through a two-wire transmission line to a central station which includes, in series between the two wires of said transmission line, a source of d-c voltage and a current-sensing means to produce an effect determined by the magnitude of d-c current flowing through said two-wire transmission line;
- said flow-rate converter comprising;
  
  piezo-electric means responsive to said pressure pulses to develop a corresponding voltage signal varying in frequency with the applied pressure-pulse frequency;
  
  first amplifier means having an input to which said variable-frequency voltage signal is coupled and including means to produce an alternating control signal at the frequency of said a-c voltage;
  
  controllable current-source means having an input coupled to the output of said first amplifier means to receive said alternating control signal, said current-source means including means to develop a low-level continuous d-c signal current the magnitude of which is directly proportional to the frequency of said control signal;
  
  second amplifier means having an input coupled to the output of said current-source means to receive said low-level continuous d-c signal current, said second amplifier means including an output circuit with first and second output terminals to be connected respectively to the two wires of said two-wire transmission line, said output circuit including current-varying means for controlling the magnitude of a relatively high-level d-c output current flowing through said terminals and powered by said source of d-c voltage;
  
  a feedback resistor forming part of said converter and connected in the output of said second amplifier means to develop a feedback signal responsive to the current flowing through said output circuit terminals;
  
  negative feedback circuit means coupling said feedback resistor to said input of said second amplifier means so as to effect correspondence between changes in the d-c output current flowing through said output terminals and changes in said low-level d-c signal current resulting from changes in the fluid flow rate; and
  
  power circuit means coupled to said output terminals to produce, from the electrical power of said source of d-c voltage, d-c supply voltages for said first and second amplifier means and said controllable current-source means.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. Apparatus as claimed in claim 1, wherein said first amplifier means includes means to produce a sharp-edged square-wave signal as said control signal, and having sharply-defined transitions at the zero-signal axis;
    - said current-source means further comprising;
      
      capacitor means;
      
      switch means operable by said square-wave control signal alternately between closed and open positions at the frequency of said pressure pulses;
      
      switch circuit means interconnecting said capacitor means and said switch means with said power circuit means to alternately charge and discharge said capacitor means in synchronism with said pressure pulses to produce an average d-c capacitor current flow through said switch means corresponding to the frequency of said pressure pulses; and
      
      means connecting said average d-c capacitor current to said input of said second amplifier means to serve as said low-level d-c signal current for controlling the magnitude of said d-c output current.
  - 3. Apparatus as claimed in claim 2, wherein said switch means comprises first and second switches operable alternately by said square-wave control signal;
    - said first switch meana serving when actuated to connect a voltage from said power circuit means to said capacitor means to charge said capacitor means to a preselected d-c voltage level; and
      
      said second switch means serving when actuated to discharge said capacitor means.
  - 4. Apparatus as claimed in claim 1, wherein said first amplifier means includes positive feedback means to produce effective dead-band in the amplifier operation, such that the amplifier output will be driven alternately between its positive and negative saturation levels by a piezo-electric input signal of predetermined small magnitude comparable to that produced at relatively low flow rates but larger than the normal noise level signals encountered, whereby said first amplifier means provides rapid switching yet is relatively insensitive to noise.
  - 5. Apparatus as claimed in claim 4, wherein said feedback means includes a resistance divider-network coupled to the amplifier output to develop a positive feedback signal which is substantially smaller than the amplifier output signal.
  - 6. Apparatus as claimed in claim 5, wherein said feedback means includes means to produce a feedback signal the changes in which are less than one-hundredth the magnitude of the corresponding changes in the first amplifier output signal.
  - 7. Apparatus as claimed in claim 1, including zero-setting means to supply to the input of said second amplifier means a d-c current signal representing a zero level and arranged to produce from the output of said second amplifier means, when the frequency of said pressure pulses is at a predetermined minimum value, an output current in said two-wire line having a pre-set constant level representing a minimum flow rate;
    - andcircuit means coupled to said power circuit means to provide d-c power to said zero-setting means.
  - 8. Apparatus as claimed in claim 7, including span-adjusting means for controlling the amount of change of said d-c output current through said two-wire circuit for a given change in fluid flow rate.
  - 9. Apparatus as claimed in claim 1, wherein said current-source means comprises means responsive conjointly to the level of an applied d-c control voltage and to the frequency of pressure-pulses for producing said low-level d-c signal for said second amplifier means;
    - means coupled to said power circuit means for producing said d-c control voltage; and
      
      means for adjusting the magnitude of said d-c control voltage to alter the amount of change in said low-level d-c signal for a given change in pressure pulse frequency and provide a span adjustment which does not interact with other adjustments of the transmitter.
  - 10. Apparatus as claimed in claim 9, wherein said span-adjusting means comprises an operational amplifier producing said d-c control voltage;
    - potentiometer means coupled to said power circuit means to develop a manually-controllable d-c supply voltage; and
      
      means coupling said manually-controllable d-c supply voltage to the input of said operational amplifier to fix the magnitude of said d-c control voltage applied to said current-source means.

11. A field-mountable vortex-meter flow transmitter comprising:
- a piezo-electric sensor responsive to the vortex pressure pulses for developing an alternating voltage signal corresponding to the fluid flow rate;
  
  frequency-responsive electronic means having an input to which said alternating voltage signal is directed and including means to develop a low-level continuous d-c current signal the magnitude of which is porportional to the frequency of said alternating voltage;
  
  output power amplifier means;
  
  an output circuit for said power amplifier means, said output circuit including first and second output terminals for connection respectively to the separate wires of a two-wire transmission line leading to a remote area having a d-c power supply and a current-sensing device in series with each other and with said transmission line;
  
  said output power amplifier means including means to control the magnitude of the d-c output current flowing through said first and second output terminals from the d-c power supply at said remote area;
  
  a feedback resistor connected in series with said output circuit and including means to develop a feedback signal responsive to said d-c output current;
  
  summing circuit means connecting said low-level d-c current signal and said feedback signal together to the input of said output power amplifier to develop a composite amplifier input signal representing a comparison of said low-level d-c current signal and said feedback signal, the d-c output current flowing through said first and second output terminals being continuously controlled by said output power amplifier means so that said output current tracks said low-level d-c current signal developed by said frequency-responsive electronic means;
  
  power circuit means connected to said output circuit and including means to supply operating power from said d-c power supply to said frequency-responsive electronic means and to said output power amplifier;
  
  the average d-c current flowing through said first and second output terminals and sensed by said current-sensing device indicating by its magnitude the frequency of said alternating voltage and thereby indicating the flow rate of the fluid being measured by the vortex flow-meter.
- View Dependent Claims (12, 13, 14, 15)
- - 12. Apparatus as claimed in claim 11, wherein said output power amplifier means includes a voltage amplifier followed by a power output stage;
    - said power circuit means comprising means to establish a positive reference voltage with respect to a circuit common;
      
      means connecting said positive reference voltage to said voltage amplifier means to supply energization thereto; and
      
      means connecting a load resistor in the negative potential side of said power output stage, whereby current flows from said output stage through the load resistor and then to the two-wire transmission line.
  - 13. Apparatus as claimed in claim 12, including means connecting the positive potential end of said load resistor to said circuit common so that the potential of the other end of said load resistor is negative with respect to the potential of said circuit common;
    - said connecting means serving to direct the power circuit means return current through said load resistor, together with the current through said power output stage, to the return line of the two-wire transmission line.
  - 14. Apparatus as claimed in claim 13, wherein said power circuit means includes bias means to establish a positive bias voltage with respect to said circuit common;
    - andmeans connecting said bias voltage to the input of said voltage amplifier to set its input operational level at a potential above the current common potential of the power voltage supplied to said voltage amplifier.
  - 15. Apparatus as claimed in claim 14, including diode means connected between the positive end of said feedback resistor and the corresponding output terminal of said power output stage, to establish a bias voltage assuring proper operation of said power output stage.

16. Transmitter apparatus for use in industrial process instrumentation systems for developing a d-c measurement signal corresponding to the magnitude of a process condition such as flow rate and suited for transmission over a relatively long transmission line to a remote receiving station having a supply source of d-c voltage to furnish power for developing said measurement signal;
- said transmitter apparatus comprising;
  
  condition-responsive means comprising a transducer responsive to said process condition and including signal-generating means for developing an alternating voltage having a frequency continuously varying with and proportional to the magnitude of said process condition;
  
  controllable d-c current-source means coupled to the output of said condition-responsive means and responsive to said alternating voltage signal, said current-source means including means for developing uniform-sized increments of electrical energy and for releasing said increments of energy at a rate proportional to the frequency of said alternating voltage signal, whereby to produce a d-c current signal having an average value proportional to the frequency of said alternating voltage signal;
  
  amplifier means having a summing input terminal connected to the output of said current-source means to receive said d-c current signal therefrom;
  
  an output circuit for said amplifier means comprising first and second terminals to be connected respectively to the individual wires of a two-wire transmission line leading to said remote receiving station, said amplifier means output circuit including current-varying means to controllably vary the flow of current from said source of d-c voltage through said transmission line; and
  
  a feedback circuit coupling the output of said amplifier means to said summing junction to establish correspondence between said average d-c current and the d-c current flowing in said two-wire output circuit, whereby the current in said two-wire transmission line corresponds to the magnitude of said process condition.
- View Dependent Claims (17, 18, 19)
- - 17. Apparatus as claimed in claim 16, wherein said condition-responsive means includes means responsive to the flow rate of a fluid for developing an alternating voltage signal having a frequency corresponding to the fluid flow rate.
  - 18. Apparatus as claimed in claim 17, wherein said signal generating means comprises an element which is physically deflectable at a frequency corresponding to flow rate and includes means to produce an alternating voltage at the frequency of said deflection.
  - 19. Apparatus as claimed in claim 16, wherein said current-source means comprises capacitor means which is chargeable to a predetermined voltage to provide said uniform-sized increments of electrical energy.

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Current Assignee
The Foxboro Company (Schneider Electric SE)
Original Assignee
The Foxboro Company (Schneider Electric SE)
Inventors
Robinson, Robert J., Richardson, David A.
Primary Examiner(s)
Goldstein, Herbert

Application Number

US05/463,734
Time in Patent Office

713 Days
Field of Search

73/194 B, 324/78 J, 340/186, 340/210
US Class Current

73/861.24
CPC Class Codes

G01F 1/3259 for detecting fluid pressur...

G01F 1/3287 circuits therefor

Vortex flow meter transmitter including piezo-electric sensor

First Claim

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Abstract

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19 Claims

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Vortex flow meter transmitter including piezo-electric sensor

First Claim

1 Assignment

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Accused Products

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Abstract

75 Citations

19 Claims

Specification

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Solutions

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