Ion measuring apparatus and monitoring system

US 4,822,456 A
Filed: 06/05/1987
Issued: 04/18/1989
Est. Priority Date: 06/05/1987
Status: Expired due to Term

First Claim

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1. In an on-line, real time ion measurement system having an ion electrode and a reference electrode immersed in a solution to be measured, a device for continuous monitoring of the impedances of said ion electrode and said reference electrode comprising:

a solution ground electrode immersed in said solution and closely spaced from said reference electrode;

first signal producing means for producing a first time varying electrical signal, said first signal applied across said ion electrode and a common ground, thereby producing a first time varying ground current proportional to the impedance of said ion electrode;

second signal producing means for producing a second time varying electrical signal orthogonal and uncorrelated with said first signal, said second signal applied across said solution ground electrode and said common ground, thereby producing a second time varying ground current proportional to the impedance of said reference electrode;

first cross correlator means having a first input connected to said first signal producing means and a second input connected to receive a signal proportional to said first time varying ground current, said first cross correlator means for producing an output proportional to the magnitude of said first time varying ground current indicative of the impedance of said ion electrode; and

second cross correlator means having a first input connected to said second signal producing means and a second input connected to receive a signal proportional to said first time varying ground current, said second cross correlator means for producing an output proportional to the magnitude of said second time varying ground current indicative of the impedance of said reference electrode.

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Abstract

A real time, on-line ion mesurement system for a solution has continuous monitoring of the physical conditions of the ion electrode and the reference electrode of the system. A dual chamber reference electrode is provided having an inner chamber and electrode for providing an ion measurement reference potential, and an outer chamber and electrode for producing a monitoring potential to detect poisoning of the reference electrode membrane. A first time varying low level signal is applied to the ion electrode and a second time varying low level signal orthogonal to and uncorrelated with the first signal is applied to a solution ground electrode disposed in the solution adjacent the reference electrode, the signals producing a composite common ground current. A pair of cross-correlators extracts the two time varying components from the common ground current for measuring the ion electrode and reference electrode impedances. Visual readouts and threshold circuits are provided to indicate when changes in impedances and the reference monitoring potential occur indicative of a system fault.

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20 Claims

1. In an on-line, real time ion measurement system having an ion electrode and a reference electrode immersed in a solution to be measured, a device for continuous monitoring of the impedances of said ion electrode and said reference electrode comprising:
- a solution ground electrode immersed in said solution and closely spaced from said reference electrode;
  
  first signal producing means for producing a first time varying electrical signal, said first signal applied across said ion electrode and a common ground, thereby producing a first time varying ground current proportional to the impedance of said ion electrode;
  
  second signal producing means for producing a second time varying electrical signal orthogonal and uncorrelated with said first signal, said second signal applied across said solution ground electrode and said common ground, thereby producing a second time varying ground current proportional to the impedance of said reference electrode;
  
  first cross correlator means having a first input connected to said first signal producing means and a second input connected to receive a signal proportional to said first time varying ground current, said first cross correlator means for producing an output proportional to the magnitude of said first time varying ground current indicative of the impedance of said ion electrode; and
  
  second cross correlator means having a first input connected to said second signal producing means and a second input connected to receive a signal proportional to said first time varying ground current, said second cross correlator means for producing an output proportional to the magnitude of said second time varying ground current indicative of the impedance of said reference electrode.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The system as recited in claim 1 which further comprises:
    - first readout means connected to said first cross correlator means output for indicating said ion electrode impedance; and
      
      second readout means connected to said second cross means correlator output for indicating said reference electrode impedance.
  - 3. The system as recited in claim 2 in which said first and second readout means include alarm means for producing an alarm when either of said impedance values differ from a preselected value range.
  - 4. The system as recited in claim 1 in which first and second signal producing means each produce a pseudorandom binary signal.
  - 5. The system as recited in claim 1 further comprises:
    - means for measuring a dc component of said common ground current proportional to an ion concentration value for said solution; and
      
      means for indicating said ion concentration value.
  - 6. The system as recited in claim 5 in which said first and second time varying signals are at least an order of magnitude less amplitude than said decomponent of said common ground current.
  - 7. The system as recited in claim 4 in which said first and second cross correlators include computer means for receiving said first and second time varying ground current signals, for digitizing said ground current signals, for receiving said pseudorandom binary signals, and for producing said first and second outputs.

8. In a system for continuous measurement of the ion concentration of a solution having an ion electrode and a reference electrode each immersed in said solution, apparatus for monitoring said ion electrode and said reference electrode for changes in characteristics thereof comprising:
- a solution ground electrode immersed in said solution and closely spaced from said reference electrode;
  
  first means for producing a first time varying electrical signal, said first signal applied across said ion electrode and a common ground, thereby producing a first component of a common ground current;
  
  second means for producing a second time varying electrical signal orthogonal and uncorrelated with said first signal, said second signal applied across said solution ground electrode and said common ground, thereby producing a second component of a common ground current;
  
  a first correlator having a first input connected to said first signal producing means and a second input connected to receive a signal proportional to said common ground current, said first correlator producing an output proportional to the magnitude of said first component of said common ground current indicative of the impedance of said ion electrode; and
  
  a second correlator having a first input connected to said second signal producing means and a second input connected to receive said signal proportional to said common ground current, said second correlator producing an output proportional to the magnitude of said second component of said common ground current indicative of the impedance of said reference electrode.

9. An ion measurement system having an ion electrode and an electrode monitoring system comprising:
- a. a reference electrode cell for providing a reference voltage to said ion measurement system, said cell havingi. an outer nonconductive envelope,ii. a first permeable junction membrane closing a first end of said outer envelope thereby forming an outer chamber,iii. an inner nonconductive envelope disposed within said outer envelope,iv. a second permeable junction membrane closing a first end of said inner envelope thereby forming an inner chamber,v. a first electrode element disposed in said outer chamber,vi. a second electrode element disposed in said inner chamber,vii. a first electrolyte filling said first chamber, andviii. a second electrolyte filling said second chamber, said reference electrode cell immersed in a solution to be measured;
  
  b. a solution ground electrode immersed in said solution and closely spaced from said reference electrode cell;
  
  c. means connected to said second electrode element for providing a dc reference voltage to said measurement system with respect to a common ground, said means producing a fixed dc component of a common ground current;
  
  d. means for producing a time varying electrical signal, said signal applied across said solution ground electrode and said common ground, thereby producing a time varying component of said common ground current;
  
  e. a cross correlator having a first input connected to said signal producing means and a second input connected to receive a signal proportional to said common ground current, said cross correlator producing an output proportional to the magnitude of said time varying component of said common ground current indicative of the impedance of said reference electrode cell; and
  
  f. a dc measurement circuit connected to said first electrode for monitoring a normally constant voltage from said first electrode element indicative of the physical condition of said reference electrode cell.

10. A real time, on-line system for measurement of ion concentration in a solution having monitoring of ion electrodes and reference electrodes of the system comprising:
- a. an ion electrode immersed in said solution for producing an ion potential proportional to an ion concentration of said solution;
  
  b. a reference electrode cell for immersion in said solution, and having an inner chamber and an outer chamber, said inner chamber separated from said outer chamber by a first permeable membrane, and said outer chamber separated from said solution by a second permeable membrane, said inner and outer chambers filled with respective electrolytes;
  
  c. a reference electrode element disposed in said inner chamber of said reference electrode cell;
  
  d. a monitoring electrode element disposed in said outer chamber of said reference electrode cell;
  
  e. a solution ground electrode immersed in said solution and closely spaced from said reference electrode cell;
  
  f. first means for producing a first time varying electrical signal, said first signal applied across said ion electrode and a common ground, thereby producing a first time varying component of a common ground current;
  
  g. second means for producing a second time varying electrical signal orthogonal and uncorrelated with said first signal, said second signal applied across said solution ground and said common ground, thereby producing a second time varying component of said common ground current;
  
  h. a dc measurement circuit connected to said monitoring electrode element for monitoring a normally constant voltage from said monitoring electrode element indicative of the physical condition of said reference electrode cell;
  
  i. a first cross correlator having a first input connected to said first signal producing means and a second input connected to receive a signal proportional to said common ground current, said first cross correlator producing a first output proportional to the magnitude of said first time varying component of said common ground current indicative of the impedance of said ion electrode; and
  
  j. a second cross correlator having a first input connected to said second first signal producing means and a second input connected to receive said signal proportional to said common ground current, said second cross correlator producing a second output proportional to the magnitude of said second time varying component of said common ground currents indicative of said reference electrode cell impedance.

11. A real time, on-line system for measurement of ion concentration in a solution having monitoring of the physical conditions of an ion electrode and a reference electrode of the system comprising:
- a. an ion electrode immersed in said solution for producing an ion potential proportional to an ion concentration of said solution;
  
  b. a reference electrode cell immersed in said solution for producing a reference potential, said cell having an inner chamber and an outer chamber, said inner chamber separated from said outer chamber by a first permeable membrane, and said outer chamber separated from said solution by a second permeable membrane, said inner and outer chambers filled with respective electrolytes;
  
  c. a reference electrode element disposed in said outer chamber of said reference electrode cell;
  
  d. a monitoring electrode element disposed in said outer chamber of said reference electrode cell;
  
  e. a solution ground electrode immersed in said solution and closely spaced from said reference electrode; and
  
  f. a digital computer having a programmable memory, a temporary memory, and a display, said computer programmed toi. generate a first pseudorandom binary signal, said computer having a first output for communicating said first signal to said ion electrode,ii. generate a second pseudorandom binary signal orthogonal and uncorrelated with said first signal, said computer having a second output for communicating said second signal to said solution ground,iii. cross correlate a signal proportional to a common ground current signal from said reference electrode cell to said computer, said computer having a first input connected to said reference electrode, said cross correlation producing a first display output to said display indicative of the impedance of said reference electrode cell,iv. cross correlate a signal proportional to said common ground current signal from said ion electrode to said computer via said first input thereto, said cross correlation producing a second output to said display indicative of the impedance of said ion electrode,v. monitor, via a second input, said reference electrode cell impedance and said ion electrode impedance for comparison with values calculated and stored in said temporary memory, andvi. display said ion and reference electrode cell impedances, said computer including a third input connected to said ion electrode and programmed to measure and display an ion concentration therefrom.
- View Dependent Claims (12, 13, 14, 15, 16, 17)
- - 12. The system as recited in claim 11 in which said computer is further programmed to produce an alarm when said ion electrode impedance or said reference electrode cell impedance is not within a preprogrammed value range.
  - 13. The system as recited in claim 11 in which said computer is further programmed to monitor a fixed dc voltage from said monitoring electrode and to display said voltage.
  - 14. The system as recited in claim 13 in which said computer is further programmed to produce an alarm when said voltage varies from a preprogrammed fixed value.
  - 15. The system as recited in claim 14 in which said computer is programmed to measure and display an ion concentration indicated by a dc ion voltage from said ion electrode.
  - 16. The system as recited in claim 11 in which said computer includes analog-to-digital converter means for digitizing analog signals from said first, second and third inputs.
  - 17. The system as recited in claim 11 in which said computer includes:
    - a multiplexer having inputs connected to said first, second and third inputs; and
      
      an analog-to-digital converter having an input connected to an output of said multiplexer and an output connected to a fourth input of said computer.

18. The method of monitoring the physical condition of a reference electrode and an ion electrode in a system having a reference electrode cell and an ion electrode for continuous measurement of an ion concentration of a solution where the method comprises:
- a. disposing a solution ground electrode adjacent the reference electrode cell;
  
  b. driving the solution ground electrode against a common ground with a first time varying signal from a first source thereby producing a first signal component of a common ground current;
  
  c. driving the ion electrode against the common ground with a second time varying signal from a second source in which the second signal is uncorrelated and orthogonal to the first signal thereby producing a second signal component of the common ground current;
  
  d. cross-correlating the common ground current with said first time varying signal to produce a first output proportional to the impedance of the reference electrode cell; and
  
  e. cross-correlating the common ground current with said second time varying signal to produce a second output proportional to the impedance of the ion electrode.
- View Dependent Claims (19, 20)
- - 19. The method as recited in claim 18 including the further steps of:
    - f. providing a measuring circuit having first and second threshold impedance ranges;
      
      g. comparing the first output to the first threshold range and producing an indication when the ion electrode impedance differs from the first threshold range; and
      
      h. comparing the second output to the second threshold range and producing an indication when the reference electrode impedance differs from the second threshold range.
  - 20. The method as recited in claim 18 including the further steps of:
    - f. providing a second chamber in the reference electrode cell between a reference electrode in the cell and the solution;
      
      g. providing a monitoring electrode in the second chamber of the reference electrode cell;
      
      h. measuring a potential from the monitoring electrode; and
      
      i. establishing a potential threshold range for the monitoring electrode and comparing the monitoring electrode potential with the threshold range for producing an indication when such monitoring electrode potential differs from the threshold range.

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Current Assignee
Avron I. Bryan
Original Assignee
Avron I. Bryan
Inventors
Bryan, Avron I.
Primary Examiner(s)
Niebling, John F.
Assistant Examiner(s)
GORGOS, KATHRYN L

Application Number

US07/058,866
Time in Patent Office

683 Days
Field of Search

204/412, 204/416, 204/418, 204/419, 204/435, 204/1 T
US Class Current

205/789
CPC Class Codes

G01N 27/4165 for pH meters

Ion measuring apparatus and monitoring system

First Claim

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Abstract

55 Citations

20 Claims

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Ion measuring apparatus and monitoring system

First Claim

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Abstract

55 Citations

20 Claims

Specification

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Use Cases

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