Conductivity probe
First Claim
1. An open-cell conductivity sensor comprisinga first current electrode;
- a second current electrode spaced from and opposite said first current electrode, said first and second current electrodes being situated on a common axis;
a first ring-shaped voltage electrode surrounding said first current electrode and having said common axis as a center line;
a second ring-shaped voltage electrode surrounding said second current electrode and having said common axis as a center line;
means for developing an alternating current across said current electrodes, and producing a potential field between said current electrodes which is sensed by said voltage electrodes; and
means for sensing the potential across said voltage electrodes;
said alternating current developing means being responsive to said sensing means to maintain in-phase potential across said voltage electrodes at a substantially constant value, the amount of current required to maintain said in-phase potential at a constant value being linearly proportional to the conductivity of a medium between said first and second current electrodes.
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Accused Products
Abstract
A four-electrode open-cell conductivity sensor for measuring the conductivity of ocean water. A simplified version of the conductivity sensor may be used as a standard conductivity cell for measurement of fluid conductivity in a laboratory, or for monitoring fluid conductivity in a chemical processing plant. The sensor includes opposed electrode pairs each of which include a hemispherical current electrode and a coaxial ring-shaped voltage electrode. In operation, an alternating current is generated across the opposed current electrodes and the resultant electric field is sensed by the voltage electrodes. A feedback circuit is utilized to adjust the amplitude of the electric current generated across the current electrodes so that the inphase potential across the voltage electrodes is maintained at a substantially constant level. The conductivity of the fluid between the opposed electrode pair can be obtained directly from the current flowing across the current electrodes without the need for precalibrating the sensor against known conductivity standards.
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Citations
20 Claims
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1. An open-cell conductivity sensor comprising
a first current electrode; -
a second current electrode spaced from and opposite said first current electrode, said first and second current electrodes being situated on a common axis; a first ring-shaped voltage electrode surrounding said first current electrode and having said common axis as a center line; a second ring-shaped voltage electrode surrounding said second current electrode and having said common axis as a center line; means for developing an alternating current across said current electrodes, and producing a potential field between said current electrodes which is sensed by said voltage electrodes; and means for sensing the potential across said voltage electrodes; said alternating current developing means being responsive to said sensing means to maintain in-phase potential across said voltage electrodes at a substantially constant value, the amount of current required to maintain said in-phase potential at a constant value being linearly proportional to the conductivity of a medium between said first and second current electrodes. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A four-electrode open-cell conductivity sensor comprising
a first electrode pair including a voltage electrode and a current electrode mounted on a mounting member; -
a second electrode pair spaced from and opposite said first electrode pair and including a voltage electrode and a current electrode mounted on said mounting member; means for generating an electric current across the current electrodes of said first and second electrode pairs, thereby producing a potential field between said current electrodes which is sensed by said voltage electrodes, said counting member being arranged outside a primary current path of said electrical current; sensing means for producing a DC voltage signal which is a function of the potential across the voltage electrodes of said first and second electrode pairs; and comparator means for comparing said DC voltage signal with a reference voltage and producing an error signal which is a function of the difference between said DC voltage signal and said reference voltage; said electric current generating means operating in response to said error signal to adjust the amplitude of the current developed across the current electrodes of said first and second electrode pairs such that the potential across said voltage electrodes is maintained at a substantially constant level. - View Dependent Claims (11, 12, 13, 14)
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15. A method for measuring the conductivity of a fluid with a four-electrode open-cell sensor including a first electrode pair mounted on a mounting member and a second electrode pair mounted on said mounting member spaced from and opposite said first electrode pair, each of said first and second electrode pairs including a current electrode and a voltage electrode, comprising the steps of
generating an electric current across the current electrodes of said first and second electrode pairs to produce a potential field between said current electrodes, said mounting member being arranged outside a primary current path of said electric current; -
sensing the potential across the voltage electrodes and producing a DC voltage signal which is a function of the sensed potential across the voltage electrodes; comparing said DC voltage signal with a reference voltage and producing an error signal which is a function of the difference between said DC voltage signal and said reference voltage; and adjusting the amplitude of the current generated across the current electrodes of said first and second electrode pairs in response to said error signal such that the potential across said voltage electrodes is maintained at a substantially constant level. - View Dependent Claims (16, 17)
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18. A four-electrode open-cell conductivity sensor comprising
a first electrode pair including a voltage electrode and a current electrode; -
a second electrode pair spaced from said first electrode pair and including a voltage electrode and a current electrode; means for generating an electric current across the current electrodes of said first and second electrode pairs, thereby producing a potential field between said current electrodes which is sensed by said voltage electrodes; sensing means for producing a DC voltage signal which is a function of the potential across the voltage electrodes of said first and second electrode pairs; and comparator means for comparing said DC voltage signal with a reference voltage and producing an error signal which is a function of the difference between said DC voltage signal and said reference voltage; said electric current generating means operating in response to said error signal to adjust the amplitude of the current developed across the current electrodes of said first and second electrode pairs such that the potential across said voltage electrodes is maintained at a substantially constant level; said electric current generating means including means for generating a sine wave signal and a multiplier for multiplying said sine wave signal by said error signal to generate an AC current signal which is applied to said current electrodes. - View Dependent Claims (19, 20)
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Specification