SU1492259A1 - Measuring converter of remote conductometer - Google Patents

Abstract

The invention relates to analytical instrumentation, in particular, to conductometry, and can be used in oceanographic and hydrological studies in the tasks of determining the electrical conductivity of liquid media. The aim of the invention is to improve the measurement accuracy. This goal is achieved by moving from the amplitude form of the informative signal to the frequency one, for which the integrator, a comparator and a two-point voltage regulator are introduced into the remote conductivity meter measuring transducer containing a three-electrode conductometric cell with two current and one potential electrodes , which ensures the conversion of a signal proportional to the electrical conductivity of the liquid under study into a frequency. 1 il.

Description

The invention relates to analytical instrumentation, in particular to conductometry, and can be used for remote measurements of seawater conductivity, for example, in oceanographic studies.

The aim of the invention is to improve the measurement accuracy.

The drawing shows a block diagram of a measuring transmitter of a remote conductivity meter.

The converter contains a three-electrode conductometric cell 1 with the first and second current electrodes 2 and 3 and the potential electrode 4, the separation capacitor 5, the comparison unit 6, the stabilizer 7 of the two-pole voltage, the integrator 8 and the current source 9. The second current electrode 3 is a converter housing and is connected to a common bus. The current source 9 is externally controlled. The output of the t-eye source 9 is connected to the first current electrode 2 of the conductometric cell I, the input of the current source 9 is connected to the output of the stabilizer 7 and to the input of the integrator 8, the output of which is connected to the inverting input of the comparator unit 6, the non-inverting input of which is through the separation capacitor

SP

5 is connected to the potential electrode A of the conductometric cell 1. The output of the comparison unit 6 is connected to the input of the voltage regulator 7, the output of which is the output of the converter.

The transducer is connected to the measuring equipment by a two-drive line.

Depending on the electrical conductivity of the electrolyte, the frequency of polarity of the voltage at its output is directly proportional to the value of the conductivity. When transmitting a frequency-modulated signal for a distance, its frequency does not depend on interference and communication link parameters, therefore, the measurement accuracy does not depend on these factors.

When the converter is immersed in the test medium at the initial moment at the output of the comparison unit 6, either a positive or negative voltage is established, which is stabilized by a two-pole voltage stabilizer 7. Through the current electrodes 2 and 3 of the conductometric cell 1, a current flows from the current source 9 corresponding to the polarity of the voltage from the output of the two-pole voltage regulator 7. The voltage from the potential electrode 4, inversely proportional to the conductivity of the electrolyte, flows through a coupling capacitor 5 to a non-inverting input. In this case, its inverting input receives a linearly varying voltage of the same polarity from the output of the integrator 8, as soon as the voltage on the inverting input of 5 comparison block 6 becomes equal to the voltage on the non-inverting input, the voltage of the comparison block 6 will change to the opposite, and the process is repeated again.

The voltage at the non-inverting input of the comparison unit 6 is inversely proportional to

Claims (1)

Invention Formula A remote conductometer measuring transducer containing a three-electrode conductometric cell including a potential electrode, a first and second current electrodes, the second current electrode being a converter body and connected to a common bus, a coupling capacitor and a current source connected to the first current electrode, characterized in that , in order to control the accuracy, an integrator, a comparator unit and a two-pole voltage regulator are introduced into it, and the current source is controlled by the controller, Wiring its input is connected to the output of the two-pole voltage regulator and the integrator input is the output of which is connected to the inverting input of the comparator unit, the non-inverting input of which is connected to the potential electrode through the separation capacitor and the output is connected to the input of the stabilizer of the two-pole voltage whose output is the output of the converter.