CS210284B1 - Connection for polarization of mercury drop by one or more pulses - Google Patents

Description

The invention relates to a circuit for polarizing a mercury drop by one or more polarizing pulses at a steady step voltage.

The digital polarization voltage generators used so far exhibit considerable noise during operation due to the fluctuation of the least significant bit in the digital-to-analog converter. Complex filters are required to remove this noise.

These drawbacks are eliminated by a circuit according to the invention consisting of resistors, potentiometers, capacitors, amplifiers, voltage source, pulse generator, digital divider and analogue converter, characterized in that an integration amplifier in which an integration capacitor is connected between the inverting input and output, the inverting input is also connected to an integrating resistor, the other end of which is connected to the slider of the first potentiometer, the ends of which are connected both to the ground conductor and to the divider resistor connected to the comparator amplifier output; an integrating amplifier, which is further coupled via a first addition resistor to a addition point, wherein the inverting input of the comparative amplifier is connected via a second comparative resistor to the output of the D / A converter, and is not inverted the comparing input of the comparing amplifier is connected via a third comparing resistor to a second potentiometer slider, one end of which is connected to earth wire and the other end to a changeover contact, both input contacts of which are connected to the positive and negative voltage of the voltage source; through a second summation resistor to the pulse generator and to the third summation resistor to the output of a potentiostatic amplifier whose non-inverting βBup is connected to the first terminal, wherein the output of the summation amplifier is connected to the second terminal; counter connected to digital-to-analog converter.

The advantage of the circuitry according to the invention is to eliminate the influence of voltage increment and hence a part of the charging current during the polarization cycle in differential pulse polarography. In addition, the circuit according to the invention makes it possible to polarize a drop by multiple pulses at the same voltage jump, thereby obtaining a greater fill of the analog memories in which the current samples are stored. Another advantage is the virtually complete elimination of the effect of the charging current when using a hanging mercury drop. The circuitry of the present invention also removes the noise typical of digital voltage generators.

Note: The wiring for the mercury drop polarization by one or more pulses is shown in the attached figure.

; An integrating amplifier 12 in which an integrating capacitor 11 is connected between the inverting input and the output, and an integrating resistor 7 is also connected to the inverting input, the other end of which is connected to the slider of the first potentiometer 9. a resistor 8 connected to the output of comparative amplifier 13, to which a non-inverting input is connected via a first comparative resistor 4 output of an integrating amplifier 12, which is further coupled via a first read resistor 1 to a read point 24; a comparator resistor 5 at the output of the digital-to-analog converter 21, and further, the non-inverting input of the comparator amplifier 13 is connected via a third comparator resistor 8 to a second potentiometer 10, one end of which is connected to ground and the other end 16, whose input contacts are connected to the positive and negative voltage of the voltage source 17, and further the addition point 24 is connected via the second addition resistor 2 to the pulse generator 18 and through the third addition resistor 3 to the output of the potentiostatic amplifier 15 whose non-inverting input The pulse generator 18 is connected to a digital divider 19, which is connected via a counter 20 to a digital-to-analog converter 21.

The circuit according to the invention works as follows:

From the pulse generator 18, the pulses are fed to the summing point 24 of the summing amplifier 14. The same pulses are also fed via the digital divider 19 to the counter 20 and further to the input of the digital-to-analog converter 21 whose output step voltage is monitored by the comparing amplifier 13. the pulse from the pulse generator 18. The number of pulses per voltage jump is given by the digital divider 19. The integration amplifier 12 with the comparative amplifier 13 follows the voltage jumps of the digital-to-analog converter 21 sufficiently but smooth out minor irregularities due to digital pulse processing. In addition, the integration amplifier 12 also allows the generation of a linearly variable voltage for the classical DC polarography method.

A circuit for polarizing a mercury drop by one or more pulses consisting of resistors, potentiometers, capacitors, amplifiers, voltage source, pulse generator, digital divider and analogue converter, characterized in that the integration amplifier (12) is between an integrated capacitor (11) is connected to the output, and an inverting input (7) is also connected to the inverting input, the other end of which is connected to the slider of the first potentiometer (9). connected to the output of a comparative amplifier (13) to which a non-inverting input is connected via a first comparative resistor (4) to an output of an integrating amplifier (12) which is further coupled via a first additive resistor (10) to an addition point (24); the amplifier (13) is connected via a second comparator.

Claims (1)

BACKGROUND OF THE INVENTION por (5) to output a digital-to-analog transducer (21), while the non-inverting input of comparative amplifier (13) is coupled via a third comparator resistor (6) to a second potentiometer slider (10). an end for a changeover contact of the switch (16), both input contacts of which are connected to the positive and negative terminals of the power supply (17), the addition point (24) being connected via a second addition resistor (2) to the pulse generator (18); on the one hand through a third addition resistor (3) to the output of a potentiostatic amplifier (15), the non-inverting input of which is connected to the first terminal (22), the output of the addition amplifier (14) being connected to the second terminal (23); (18) connected to a digital divider (19), which is connected via a counter (20) to a digital-to-analog converter