Assay of Inductive-Capacitive Probe for the Measurement of the Conductivity of Liquids

The basic principle of a noncontact method of measurement of conductivity of liquids, presented earlier, is analysed to evolve design rules to have minimal error in the measurement. In this method, the current is sent through the liquid whose conductivity is to be measured by induction and the voltage across the liquid column is measured using capacitive coupled electrodes and the conductivity computed therefrom. Hence, problems that arise due to contamination or corrosion of contacting electrodes are eliminated. The signal conditioning circuit is developed such that the measurement of the voltage-drop across the column of the liquid and hence the determination of the conductivity of the liquids unaffected by the coupling capacitances of the potential electrodes. Thus, small deviations that can creep in during manufacturing of the probe (manufacturing tolerances) do not affect the performance. An error analysis of the proposed system was carried out and the practicality of the scheme verified by developing and testing a prototype. The test results showed a worst-case error of 0.82% in conductivity measurements. The facts that the proposed method is unaffected by the coupling capacitors and the presence of materials kept outside of the probe were also verified.

Automated summary

The noncontact method of measuring liquid conductivity analyzed the basic principle to minimize errors, sending current through the liquid and measuring voltage with capacitive coupled electrodes. The signal conditioning circuit ensures accuracy of the measurements, unaffected by manufacturing tolerances. Testing showed a worst-case error of 0.82%, verifying the practicality of the proposed system.