SU1337821A1 - Conductivity apparatus - Google Patents

Abstract

The invention relates to a technique for measuring the electrical conductivity of liquids and can be used primarily in metrology. The purpose of the invention is to improve the measurement accuracy. The conductometer contains an alternating voltage generator 1, a transformer conductometric transducer 2, a USI-, a relay 3, a synchronous detector 4, a large-scale amplifier 7, a digital indication device 8, and transformers 9-11 with elements 12 and 13 of communication. Controller block 5 is entered into the conductivity meter, code 6 converter is a voltage and a scale amplifier 7. The latter serves to eliminate the influence on the measurement accuracy of the variation of conductive constant liquid turns. Its gain is set when calibrating the conductometer. 1 il. about b (l with so with v | 00 Is5

Description

one

The invention relates to the technique of measuring the specific (or relative) electrical conductivity (EC) of liquids and can be used primarily in metrology as an exemplary measurement tool for calibrating or calibrating standard measuring instruments of lower accuracy, working measuring instruments, as well as for certification of standard solutions direct compaction

The purpose of the invention is to improve the measurement accuracy of the specific (or relative) EF of liquids by eliminating the errors of the electronic circuit blocks while simplifying the design of the conductometric transducer.

The drawing shows the block diagram of the conductometer.

The conductometer includes an alternating voltage generator 1, a transformer conductometric converter 2, an amplifier 3 connected in series, a synchronous detector 4, a control unit 5, a code-voltage converter 6 and a scale amplifier 7, as well as a digital display device 8. The conductometric converter 2 consists of power transformers 9 and 10, transformer 11, elements 12 and 13 of communication, with the first element 12 of communication covering the cores of transformers 9 and 11, and the second element 13 of communication - cores of transformers 10 and 11. Output The generator 1 is connected to the winding 14 of the transformer 9 and to the reference input of the converter 6 a code is a voltage, the output of which is connected to the winding 15 of the transformer 10 through the large-scale amplifier 7. The output winding 16 of the transformer 11, which is a transformer comparator The bridges are connected to the input of the amplifier 3, the output of which is connected to the input of the synchronous detector 4. The control input of the synchronous detector 4 is connected to the generator 1. The output of the synchronous detector 4 is fed to the input of the control unit 5, the output of which is connected to the input of the digital display device 8 and control input of the code-voltage converter 6. The second conclusions of the windings 14,

378212

15,16 are connected to the common bus device.

Conductometer works as follows.

In the measurement, the elements 12 and 13 of the connection are filled with liquids (for example, the element of connection 12 with the liquid under study, the element of communication 13 with a sample liquid). A generator 1 connected to the winding 14 of the transformer 9 excites an emf in the communication element 12, under the action of which a current 1 flows in the communication element 12. There is 15 voltage on the winding 15 of the transformer 10 coming from the output of the code-voltage converter 6 through the large-scale the amplifier 7, excites the emf in the communication element 13, under the action of

 which current flows 1. The difference in magnetic fluxes generated by the currents 1 and Ij in the core of the transformer 11 causes an electromotive force in the output winding 16, which is amplified

1) by the amplifier 3 and is fed to the input of the synchronous detector 4. Depending on whether the current I, the current is 1 or more, the output voltage of the detector 4 is, respectively, positive or negative. The output voltage of the synchronous detector 4 input to the control unit 5 is analyzed. At the output of the control unit 5, a code is generated that changes the input signal of the amplifier 3.

The scaled amplifier 7 serves to eliminate the influence on the measurement accuracy of the variation of the conductive constant liquid turns. Its gain factor is set when calibrating the conductivity meter as follows. Both liquid coils are filled with the same liquid. Then, by changing the position of the slider of the variable resistors of the scale amplifier 7, a conductivity meter reading corresponding to an electrical conductivity ratio of one is obtained.

50

The condition under which the output code of the conductometer corresponds to the measured value is

F, - F, O,

where F,, Oj are the magnetic fluxes generated in the transformer by 11 currents IT and 1о, respectively.

Claims (1)

Invention Formula A conductivity meter comprising an indicator, a conductometric transducer consisting of the first, second and third transformers, the first communication element encompassing the cores of the first and third transformers, the second communication element encompassing the cores of the second and third transformers, and the first windings of the first and The second transformers are interconnected, an alternating voltage generator, a series-connected amplifier and a synchronous detector, characterized in that, in order to improve the accuracy measurements while simplifying the conductometric converter, in addition to Compiled by Krinov Editor I.RyOchenko Tehred M.Hodanich Order 4127/64 Circulation 730 VN1P111I USSR State Committee on inventions and discoveries PZOZ Z, Moscow, Zh-35, Raushsk nab., 4/5 Corr Sub Industrial enterprise of the en-gial enterprise, Uzhgorod, st. Project, 4 u 15 20 378214 a control unit, a code-voltage converter, a large-scale amplifier were introduced, the input of the control unit connected to the output of the synchronous detector, and ei o the output to the indicator input and the control input of the code-voltage converter, the reference input of which is connected to the output of the alternator voltage and with the second output winding of the first transformer, and the output with the second output winding of the second transformer through a large-scale amplification with adjustable transmission coefficient, the first winding output of each transformer pa device connected to the common bus, and the second terminal of the third transformer coil is connected to the input of the amplifier. Proofreader A, T sko Subscription