SU917103A1 - Device for determination of electromechanical cell investigated electrode potential - Google Patents

Description

The invention relates to electrical measurements, namely to measuring voltage with compensation of an excess value that depends linearly on current, and can be used to measure the polarization potential of the electrode of an electrochemical cell in electrochemistry studies of weighty processes with compensation for voltage drop in the electrolyte between the test electrode and the reference electrode.

A device is known for determining the potential of the studied electrode of an electrochemical cell, containing a current source, an auxiliary electrode and a reference electrode located in the electrochemical cell, a load resistor connected between the studied electrode and one of the poles of the current source, a compensating voltage source and an indicator, while the current source is connected with auxiliary and through the source of compensating voltage of the electrode under study, and the source of compensating voltage includes connected to studied by the electrode inverting DC amplifier [1].

The disadvantages of the known device are the complexity of the measurement process and the bulkiness of the device, 5 due to the complex circuit of the compensating device, requiring an additional source that provides a current value not less than the current of the main power source, • JQ, which is actually associated with duplication of the main power source of the cell.

The purpose of the invention is to simplify the device.

This goal is achieved by the fact that in the device for determining the potential of the studied electrode of the electrochemical cell, containing a current source, an auxiliary electrode and a reference electrode located in the electrochemical cell, a resistor connected between the studied electrode and one of the poles of the current source, a compensating voltage source and an indicator, the source of the compensating voltage is made in the form of a voltage divider of two series-connected resistors connected between the electronic, kind of comparison and a common terminal of the current source and resistor, the second electrode of the current source is connected to the auxiliary electrode, and the resistor is equipped with an additional movable contact, the indicator being connected between the movable contact of the resistor and the common terminal of two resistors of the voltage divider.

The drawing shows a diagram of a device.

The device contains a current source 1 connected to an auxiliary electrode 2 of the electrochemical cell 3. Between the reference electrode 4 and the common terminal 5 connected to the source 1, a high-resistance voltage divider is included, consisting of resistors 6 and 7 of equal resistance. Between the studied electrode 8 and the common terminal 5, a resistance resistor 9 is included several orders of magnitude smaller than the resistance of the high-resistance divider. The outputs of the voltage divider and resistor are connected to the indicator 10.

The device operates as follows.

When the current source 1 is turned on, an electric current flows through the electrochemical cell 3 between the auxiliary electrode 2 and the test electrode 8, and a voltage equal to that between the reference electrode 4 and the common terminal 5 appears

Ug = Phi + IR ₉ + <IR, where is the potential of the studied electrode;

.I - current flowing through the cell;

R _g is the ohmic resistance of the electrolyte between the test electrode and the reference electrode.

Due to the equal resistance of resistors b and 7, connected between the reference electrode 4 and the common terminal 5, a part of the voltage U _e equal to

Up. _ FM-t-IR e + IR

2

Next, using a resistor 9 in the circuit of the studied electrode 8, between the movable contact of the resistor 9 and the common terminal 5, the resistance is set equal to –ηφ-, which determines the appearance of the voltage U _K equal to 'τι - ^{IR + IR} g to 2 at the output of this resistor

Due to the connection of the outputs of the parallel connected voltage divider and resistor to the indicator 10, a voltage difference appears in the output of the latter, proportional to the measured potential of the studied electrode 8

U _c , fi

2 2 ’2-

Thus, isolating from the measured potential a voltage proportional to the voltage drop in the electrolyte and subtracting this voltage from the total voltage of the reference electrode eliminates the need for controlled current feedback, which greatly simplifies the measurement process and simplifies the device circuit, since it excludes feedback from the compensation circuit covered current source.

The proposed device is characterized by high measurement accuracy, small dimensions and simple design - requiring low costs in the manufacture.

Claims (1)

the current source and the resistor, the second electrode of the current source is connected to the auxiliary electrode, and the resistor is provided with an additional movable contact, the indicator being turned on between the movable contact resistor and the common terminal of two resistors of the voltage. The drawing shows a device diagram. The device contains a current source 1 connected to the auxiliary electrode 2 of the electrochemical cell 3. Between the electrode 4 and the common terminal 5 connected to the source 1, a high-voltage voltage divider is connected, consisting of resistors b and 7 of equal resistance. Between the electrode under study and the common terminal 5, a resistor is connected by several orders of magnitude smaller than the resistance of the high-resistance separator. The outputs of the voltage divider and resistor are connected to the indicator 10. The device operates as follows. When current source 1 is switched on, an electric current flows through the electrochemical cell 3 between the auxiliary electrode 2 and the test electrode 8, and a voltage appears between the comparison electrode 4 and the common terminal 5, {5VAVg, -t-IRg - 3.R where is the potential of the electrode under study; . I is the current flowing through the cell; R is the ohmic resistance of the electrolyte between the electrode under study and the reference electrode. Due to the equal resistance of the resistors b and 7, connected between the reference electrode 4 and the common terminal 5, the part of the voltage Ug arrives at the output of the divider formed by them, is Up, 4 U-t-IRq 4-IR 22. Further, using a resistor 9 in the circuit of the electrode under study 8, a resistance is set between the moving contact of the resistor 9 and the common terminal 5 equal to what determines the voltage U at the output of this resistor equal to n - IR + IRa x 2 - due to connecting the outputs of parallel-connected voltage dividers and a resistor to the indicator 10, a voltage difference appears at the output of the latter, proportional to the measured potential of the studied electrode 8 Uc ,, ChiIIe -ТК IR4R9 and - --..So, separation from the measured capacity is tight and proportional to the voltage drop in the electrolyte, and subtracting this voltage from the total voltage of the reference electrode eliminates the need for controlled current feedback, which greatly simplifies the measurement process and simplifies the circuitry of the device, since it excludes from the feedback compensation circuit current source. The proposed device is characterized by high measurement accuracy, small dimensions and simple design, which requires low production costs. Apparatus of the Invention A device for determining the potential of an electrode of an electrochemical cell under investigation, comprising a current source, an auxiliary electrode and a comparison electrode located in an electrochemical cell, a resistor connected between the electrode under study and one of the poles of the current source, a voltage-compensating source and an indicator that connects . e with the fact that, for the purpose of control, the compensating voltage source is designed as a voltage divider of two series-connected resistors connected between the reference electrode and the common terminal of the current source and the resistor, the second electrode of the current source is connected to the auxiliary electrode, and the resistor is provided with an additional movable contact, with the indicator being connected between the movable contact of the resistor and the common terminal-two of the voltage-divider resistors.Sources of information taken into account during the examination 1. USSR author's certificate. 387294, class G 01 R 19 / 16.03.06.71.