SU1599746A1 - Device for measuring ratio of specific electric conduction of liquids - Google Patents

Abstract

The invention relates to analytical instrumentation, in particular to means of conductometry, and can be used to solve a wide class of problems of physicochemical analysis of electrically conductive liquids. The aim of the invention is to improve the measurement accuracy. This is achieved by using two four-electrode measuring conductometric cells (QWs), with their current electrodes connected in series and connected between the outputs of two leading amplifiers (OC). The GENERATOR IS CONNECTED TO THE NON-INVERTING INPUT OF THE FIRST OU, potential electrodes of the first QW are connected respectively to the inverting inputs of the OU, and the meter to the potential electrodes of the second QW. 1 il.

Description

The invention relates to analytical instrumentation, in particular to means of conductometry, and can be used to solve a wide class of problems in the physicochemical analysis of electrically conductive liquids.

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

The drawing shows a block diagram of the proposed device for measuring the ratio of the specific electrical conductivities of liquids.

The device includes operational amplifiers (OA) 1 and 2, an alternating current voltage generator 3 connected between the non-inverting input of the amplifier and the device zero bus, meter 4, the first four-electrode conductometric cell 5 s

current electrodes 6 and 7 and potential electrodes 8 and 9, the second, four-electrode conductometric cell 10 with current electrodes 11 and 12 and potential electrodes 13 and 14.

Current electrodes of cells 5 and 10 are connected in series between outputs OU 1 and 2. Potential electrodes 8 and 9 of cell 5 are connected to the corresponding inverting .. inputs OU 1 and 2. The non-inverting input of OU 2 is connected to the zero bus of the device. Meter 4 is connected to potential electrodes 13 and 14 of the second index of the junction cell 10,

The device works as follows.

No

-k1

4i (55

; Under the action of the reference voltage of the generator 3, the output of the amplifier 1 generates a voltage that, through the liquid filling the cell 5, and the electrode 9 is supplied to the inverting input of the amplifier 2. As a result, the output of the amplifier 2 also produces a voltage . The circuit formed by the series connection of the cells 5 and 10 is under voltage equal to the voltage difference between the outputs of the amplifiers 1 and 2. At the same time, a current I flows through the current supply electrodes of the two cells, which practically does not send. Due to the large input resistance of operational amplifiers 1 and 2, through potential electrodes 8 and 9, it also does not branch into the external circuit and through the potential electrode 13 and 14 in, the large input resistance of the voltage meter 4. But through the potential electrodes 8 and 9, the negative feedback of both amplifiers is carried out. Therefore, due to the very high gain of the operational amplifiers 1 and 2, the voltage between the inverting and non-inverting inputs of both amplifiers is very close to zero, and the difference between these voltages is from zero, the greater the gain of the amplifiers, which follows from a very general property inherent in negative-feedback operational amplifiers. But this means that the voltage on the electrode 8 (relative to the common busbar) is almost equal to the reference voltage of the generator 3, and the voltage on the electrodynamic 9 is almost zero. Due to the potential between the potential electrodes 8 and 9, it almost coincides with the reference voltage Ug, generator 3, regardless of the conductivity of the fluid in cells 5 and 10. In words, when the conductivity of the fluids filling the cells changes, the effect of negative reverse, Due to the coupling of both amplifiers, the current through the cells is changed in such a way that the voltage between the potential electrodes 8 and 9 retains its value.

The output voltage (between electrodes 13 and 14) is

- K - to -GIO

where K is the proportionality coefficient;

G g / G io is the ratio of specific, electrical conductivities of conductometric cells 5 and 10.

Claims (1)

Invention Formula A device for measuring the ratio of the specific conductivities of liquids, containing two conductometric cells, a meter, an operational amplifier, and an alternating current voltage generator, connected between the non-inverting amplifier input and the zero bus of the device, in order to improve the measurement accuracy, the second operational amplifier with a non-inverting input connected to the zero (common) bus, and conductometric cells are made with four-electrode ones, and the current electrodes of the cells are connected in series between the outputs of the amplifiers, the potential electrodes of the first conductometric cell are connected respectively to the inverting inputs of the amplifiers, and the meter is connected to the potential electrodes of the second conductometric cell. Editor T. Parfenova Compiled by Yu.Korshunov Tehred L. Oliynyk Proofreader L. Revska Order 3138 Circulation 511 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, ZH-PZ: 4/5 Ushskaya Nab. Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 Subscription