SU890222A1 - Volt-amperograph - Google Patents

Description

(54) BOnbTAIfflEPOrPAO

one

The invention relates to electrochemical, analytical, and physicochemical measurements and can be used in radio engineering, instrumentation, semiconductor technology for automatic measurement, control and tracking of the process of obtaining the necessary product.

Known voltampereografy, razrabotchivke. in constant-current and alternating, oscillographic and pulsed modes p 1.

However, the sensitivity of these devices is limited by the residual current of the sensor. The sensor contains an anode, a cathode, an electrode, a solution of a high concentration indifferent electrolyte of 0.1-1 M, in which the substance with a concentration of M is located. Such concentrations are the limit for the above-mentioned voltammetry modes (polarography and known devices. In addition

The limiting sensitivity of these devices has a high error (30-50%.

At low concentrations of a depolarizer substance that is regenerating (oxidizing) on the electrode in the presence of indium (1x 1rent electrolyte, along with the depolarizer current, there is a residual current that distorts the measurement results and reduces sensitivity and accuracy. This current contains the capacitive current component from traces of oxygen, components of impurities, components resulting from the finite value of the insulation resistance of the circuits. The residual current limits the sensitivity of current-voltage measuring methods Ereni low concentrations of the substance in the solution and increases the error o.limitons.

Claims (2)

The closest to the invention is an AC 1-CT volt-gramp, containing an adder, aoy xc torus (Mo ii (.) JiKjiinu-4i b.izh iui.4 iiic4VK) iunx voltage, and to the output of usi chi. EC, MuiunotiTH with: a sensitivity regulator, connected to a semi-graphical sensor, which is connected via ycirjiHTCju, cMtrnata, a coherent detector, and a flaw detector unit to itself write 11rib () py f2j. The disadvantage of 1П1Т-I is the high level of residual current, which leads to a decrease in sensitivity and accuracy of the HOCTI measurement. The purpose of the invention is to increase the sensitivity and accuracy of measurement. The goal is achieved by the fact that in; and, a tamperograph containing an adder, to which is connected 6J7OK 1-snooping polarizing voltages, and to the output - a power amplifier with a sensitivity topo i sensitivity, connected with a polarographic sensor, which is connected via amplification Ti; jn of the signal, coherent detector and bh (.1k automatics-i to the recorder, additionally contains a compensation voltage generator, amplifier 1 1 response: amplifications, psgrvy and second filters and ycTpoiicTBO output , with the generator tor compensation is connected to the 1 -matmat, the V1LHOD of the amplifier C1 is connected to the input of the compensation frequency amplifier connected through the amplitudes of the HI.III detector and the first filter to the input of the subtractor, the BTOpoii input of the KOTOpoio through the automation unit and the second filter is connected to the coherent detector, the Kotopoio output is connected to the automation unit, with ech, the voltage value of the compensation generator varies between 2-50 mV and the frequency 20-2000 Hz. The drawing shows a block diagram of a voltamperograph. The wavegraph contains a block of 1 generator of polarizing voltages, which can be; a) constant, b) linearly changing, c) jointly according to claims. a and b; d) sinusoidal; d amplitude modulated; f) jointly on PP, a, b, d; Well together on PP. a, b, e. The polarizing voltage through the adder 2 and the power amplifier 3 (compensator) with a sensitivity regulator is applied to the electrodes of the sensor 4. The voltage of the compensation current from the generator 5 and the compensation frequency also comes. The magnitude of this example is varied from 2 to 50 mB with qacTOToii: 20-2000 Hz. The sensor current is amplified by the signal amplifier 6 and supplied in three channels; 1 lam: pa coherent detector input 7, input to amplifier 8 of the compensation frequency with adjustable gain and input to filter 9 of the compensation frequency, which does not pass compensation voltage to the output. The output of amplifier 8 is connected to an input of an amplitude detector 10, the output voltage of which through a filter 11 is fed to the first input of a subtractor 12. The second input of a subtractive device 12 is connected via a switching unit 13 or to an output of a filter 9 depending on the current detection from a constant linear change and their sum of polarizing voltages, or with the output of a coherent detector 7 in the case of detection of the current of sensor A from sinusoids, tonal and amplitude-modulated polarizing voltages. The output of the subtractor ycTpoficTBa 12 is connected to the input of the recorder 14. Starting, stopping and synchronizing the unit 1, the sensor 4 and the recorder 14 to automatically record the current-voltage trajectory, the electrodes are performed by the automation unit 1 5. The device works as follows. The current from the polarizing voltage generated in block 1 flowing through the power amplifier 3 and sensor 4 enters the signal amplifier 6, the output of which through the coherent detector 7 or filter 9 is fed to the second input of the subtractor 12. The first input of the subtractor The device 12 is supplied with a residual current compensation current, which is formed by applying a voltage to the sensor 4. compensation from generator 5. The compensation current always has a frequency higher than the frequency of the polarizing voltage for all modes of operation of unit 1, as indicated, and the voltage value is 2-50 mV. The compensation current, as well as the current of the measured depolarizer, is amplified by the signal amplifier 6 and fed to the input of the amplifier 8 with a controlled gain factor. From the output of usshshtel 8, the compensation signal is rectified by the amplitude detro rop (JM 10 n (lch pye I with fi)) () m M. (output JHJibTpii 1 1 ip m.chennp and () filter1) Omini 11 is bend; compensation has KpuBoii form current compensated; - for stalling by a electrode with a electrode very close to the curve shape (-transient current) - 1 voltage between; 1; at the electrodes. The amplitude of the compensation current from the output of the filter 11 varies with the gain factor of the amplifier 8. From the output of the filter 1I, a compensation current is necessary1 (the values are fed to the first input 1 and read 1 to 1 of device 12 in the same phase as t Signal from detector 7 or filter 9. Measurement is performed as follows: In the mode of linearly varying voltage, the generator block is set to an initial voltage with a magnitude not less than the depolarizer regeneration (oxidation) potential. The signal current through the filter 9 of the compensation frequency and switching unit 13 is fed to subtractor device 12. The recorder registers the residual current.From the generator 5, the compensation frequency voltage is applied to the sensor with a voltage of 2 mV and often 200 Hz. The gain compensation adjustment adjusts the minimum self-writing device 14 reading. After starting blocks 1 and 14 and introducing residual current compensation outside the restoration potential on the paper, the self-writing device must be able to withstand a horizontal line. When the residual current is adjusted to minimum, block 1 is also turned on by adjusting the gain of block 8. In the mode of linearly changing and sinusoidal voltage, a compensation voltage of 5 mV with a frequency of 500 G is fed from generator 5 to the sensor. The signal (residual current) through the coherent detector 7 and the switching unit 13 is fed to the input of the subtractor 12. The compensation current through the blocks 8, 10, P goes to the block 12 The rest occurs as in the description above mode. Compensation of the residual current in other solutions is carried out similarly to the two described modes. 2. 5ngs 1 o.sh.shskch rin chdii from .chipet before, .and (use of ichvestsio. In rstud gach e pp..yyutg 4yBCTHirre; u iT (CTf. IKiiisi nI) rach, which allows you to define K {. the mishap, in particular, the wastewater iipiiMbiiiLHCHH), x, is below the level of the maximum permissible community center. Claim 1. VoltamperOffice containing the 1st adder, to which the generator block is connected to a polarizer, and to the adapter - an amplifier of 1 power with a regulator of sensitivity, connected to a polarographic sensor, which is connected through an amplifier, current detector) and an automatics unit for a self-made device, an instrument, so that, in order to improve sensitivity and accuracy, it additionally contains an alternator) P1I compensation, amplification of the compensation frequency, amplitude H detector, 1st first and second fij lTpy and a reading device, while the compensation voltage generator to the adder, the output of the user’s receiver is connected to the input of the compensation frequency amplifier, connected {o1o through the amplitude detector 1, the first filter to the first input is subtracted from the device, the second input of which is through the automation unit and the second filter is connected to a coherent detector, the output of which is connected to the automation unit. 2. Vrltamperograph according to claim 1, which is indicated by the fact that the voltage value of the compensation generator varies from 2 to 50 mV and the frequency from 20 to 2000 Hz. Sources of the I1 formation, taken into account during the examination 1.Brook B.C. Polarographic methods. M., Energie, 1972, p. 127. 2. Malinina R.D., Salihdzhanova R.F. Polograf alternating current GSHT-1. Factory Laboratory, 1971, 37, No. 9, p. A54