SU416012A1 - Method of automatic control of electrochemical cell current - Google Patents

Description

I

The invention relates to the field of measurement of the parameters of electric two-poles and is intended, for example, to automatically regulate a given measurement mode of the object under study, regardless of the change in the parameters of the latter. It can be used in electrical engineering, biology, electrochemistry and other areas.

A known method of automatically controlling the current of an electrochemical elementary is that the current flowing through the electrochemical cell is transformed into a proportional voltage, which is compared with the reference voltage and the error signal is extracted. This signal is amplified and fed to a circuit of a series-connected electrochemical cell and a reference resistor.

However, the implementation of the method is complicated. In addition, it does not allow the regulation of the current regulation of the electrochemical cell at the same time by its variable and constant components. The method is applicable to adjusting the current only in a narrow range of frequencies and, down

Consequently, it can be used to study electrochemical reactions with a small speed range.

To simultaneously control the current of the electrochemical cell at the same time constant and variable components, simplify the method and enable measurement of the parameters of electrochemical reactions in a wide frequency range and, consequently, expanding the values of reaction speeds, a method is proposed by which variable and constant voltages varying according to the required experiment, the program, and the voltage of the electrochemical cell are summed up And their sum is fed to a circuit of series-connected exemplary ezistora and electrochemical cell.

Regulation of the current of an electrochemical cell at the same time by a constant and variable component greatly expands the possibilities of the galvanostatic method for studying the mechanism of electrochemical reactions: the accuracy of the studied reactions does not disappear

the resolution is increased by an order of magnitude.

The drawing shows the scheme, the implementation of the proposed method.

The source voltages of harmonic oscillation source 1 and source 2, which varies according to the program required for the experiment, are fed directly to the first and second outputs of the adder 3, and the voltage from the electrochemical cell 4 is fed to the third input of the adder via the voltage follower 5. The resulting sum of voltages from the output of the adder 3 is fed to a circuit of series-connected exemplary resistor 6, with a nominal value of Re and an electrochemical cell 4. When the transmission coefficient of the feedback loop (voltage repeater output of the adder) is close to unity, the current of the electrochemical cell regulated and maintained equal

0 (,) Kj / Re

where EI and EZ are the voltages of sources 1 and 2, Kz is the transfer coefficient of the adder 3.

In this case, the voltage of the electrochemical cell is a function of its internal parameters only.

The constant and variable components of the voltage of the electrochemical cell are measured by known methods, for example, by balancing the voltage at the repeater output by the reference voltage.

Claims (1)

Invention Formula A method of automatically controlling the current of an electrochemical cell based on converting a current to a proportional voltage, characterized in that, in order to simultaneously control the variable and constant components of the current, simplify the method and enable measurement of the parameters of electrochemical reactions in a wide frequency range, the variable and the constant voltage, varying according to the program of the experiment, and the voltage of the electrochemical cell are summed up and their sum is fed to the follower circuit. a resistor connected to a model and an electrochemical cell. .