Circuit for monitoring the conductivity of a solution
First Claim
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1. A circuit for monitoring the conductivity of a solution comprising:
- a conductivity cell having first and second drive probes and first and second receiving probes;
a constant current source connected to said first and second drive probes for supplying current thereto;
a first high impedance voltage follower amplifier connected at its input to said first receiving probe and having an output;
a second high impedance voltage follower amplifier connected at its input to said second receiving probe and having an output;
a differential amplifier having first and second inputs and an output for producing a signal proportional to the resistance and conductivity of said solution, said first input being connected to said first voltage follower output and said second input being connected to said second voltage follower output;
an operational amplifier having inverting and noninverting input being connected to said differential amplifier output;
sensing means responsive to temperature changes in said solution for producing a variable impedance; and
,feedback means for said operational amplifier including said sensing means connected between said operational amplifier inverting input and said second drive probe, whereby said operational amplifier responds to said variable impedance for maintaining said signal at a predetermined level.
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Abstract
A circuit for monitoring the conductivity of a solution has a four probe conductivity cell which is supplied by a constant current source to provide a signal proportional to the conductivity. A thermistor is connected in the feedback circuit of an operational amplifier and responds to temperature changes in the solution to change the gain of the amplifier and maintain the circuit output at a predetermined level.
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Citations
3 Claims
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1. A circuit for monitoring the conductivity of a solution comprising:
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a conductivity cell having first and second drive probes and first and second receiving probes; a constant current source connected to said first and second drive probes for supplying current thereto; a first high impedance voltage follower amplifier connected at its input to said first receiving probe and having an output; a second high impedance voltage follower amplifier connected at its input to said second receiving probe and having an output; a differential amplifier having first and second inputs and an output for producing a signal proportional to the resistance and conductivity of said solution, said first input being connected to said first voltage follower output and said second input being connected to said second voltage follower output; an operational amplifier having inverting and noninverting input being connected to said differential amplifier output; sensing means responsive to temperature changes in said solution for producing a variable impedance; and
,feedback means for said operational amplifier including said sensing means connected between said operational amplifier inverting input and said second drive probe, whereby said operational amplifier responds to said variable impedance for maintaining said signal at a predetermined level. - View Dependent Claims (2, 3)
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Specification
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Current AssigneeHorace A. Jr. Teass
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Original AssigneeHorace A. Jr. Teass
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InventorsTeass, Horace A. Jr.
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Primary Examiner(s)Rolinec, Rudolph V.
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Assistant Examiner(s)Tokar, Michael J.
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Application NumberUS05/647,884Time in Patent Office515 DaysField of Search324/30 R, 324/30 B, 324/71 R, 204/195 R, 204/195 CUS Class Current324/441CPC Class CodesG01N 27/046 provided with temperature c...G01R 27/22 Measuring resistance of fluids
