CS198529B1 - Connexion for elimination of dropping electrode failure of differencial pulse polarograph - Google Patents

Description

The invention solves a circuit for eliminating a drop electrode failure in a differential pulse polarograph.

The hitherto known connections eliminate only a partial effect of drop failure, and only in classical DC polarographs or in so-called SQARE-WAWE polarographs. These known connections essentially only stop the increase in polarization voltage during the drop electrode failure.

They cannot be used in differential halves of polarographs, because even after the polarization voltage has stopped, the signal increases which does not correspond to any depolarizer and is therefore an artifact. In addition, the differential connection of analog memories and further amplification of the signal difference will multiply the effect of the fault.

_{Solves circuit for eliminating disturbances drop electrode by differential pulse polarography according to the invention whose principle consists in that at the input terminal, for connecting the output of the second analog memory of differential pulse polarography is via shunt capacitor and a series resistor connected to the inverting input of the operational the non-inverting input of which is connected to a voltage divider consisting of a potenoiometer and a series resistor and supplied from the positive pole of the source, the output of the operational amplifier being connected via an output resistor based on the first transistor to the collector of which a collector resistor and a diode; it is connected both to the base of the second transistor and to the series connected resistors, and to the collector of the second transistor is connected

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198 S29 collects a resistor and its switching transistor base, whose collector is connected to a timer capacitor connected at its other end to the cathode of the diode and to a relay whose first contact is connected both to the negative pole of the source and to the divider The resistor is connected to the output terminal for connection to the input circuit of the Variable Voltage Integration Generator and the other contact is connected between the terminals for connecting the pen lift device.

The circuitry of the present invention prevents misalignment when droplet electrode failure occurs and commands the repetition of the part of the polarogram where the failure occurred. The whole operaoe takes place without human intervention, and thus are fully automatic. Obviously, the connection will prevent the influence of other kinds of disturbances, eg caused by electromagnetic disturbances, carelessness during operation, etc. It will thus increase the readability and reliability of the recordings, it will prevent polarographic work by avoiding unnecessary repetition of the whole record several times and allowing measurement in extreme. diluted diluents, when the sensitivity to defects is highest ·

An example of a circuit for eliminating a droplet electrode failure in a differential pulse polarograph is shown in the accompanying drawing. forms a voltage divider from the positive pole of the power supply 21 ·

The inverting input of the operational amplifier 6 is connected to the input terminal 1 via a series resistor 2 and a derivative capacitor 2. The output of the operational amplifier 6 is connected via an output resistor 2 to the inverter, consisting of the first transistor 6, the collector resistor 2 and the diode 10. 10 are connected to a timing switch consisting of a second transistor 12 of a switching resistor 17 of a resistor 11 of a resistor 12 of a timing capacitor 15 and a relay 16. The first contact 20 of the relay 16 is connected to the negative pole of the source 31 The other capacitor is connected to the parallel resistor 21 and to the cathode of the diode 28, the anode of which is connected to the output terminal 29. The second contact 21 of the relay 16 is connected. between the terminals 22, 23 to which the lift circuit is connected • The earth conductor and the center of the source 21 are connected to the earth terminal 22.

The terminal 1 is connected to the output of the second analogue memory of the differential pulse polarograph, where ee forms a discontinuous voltage waveform during the analysis, corresponding to the envelope of the classical polarographlocal curve. This comparison is followed by a comparator consisting of an operational amplifier 8 and other components. comparator to negative saturated state · The amount of permissible voltage jump sl is set by setting the potenoiometer 18. By flipping the comparator the timer is activated and the contacts 22. 21 are switched to the closed state. The time the contacts 22 »21 remain in the closed state is set

198 S29 adjustable resistor 14 »Contacts 20. 21 both close the pickup circuit and close the circuit consisting of resistors 24. 25. 27. coupling capacitor 26 and coupling diode 28. Because the output terminal 29 connects to the input circuit of the variable voltage integration generator u of the polarograph, ee transfers the electric charge to the input of the generator, which integrates the charge. This shifts the polarization voltage back. After a preset period of time for which the timer is set, the contacts 20, 21 open and the pie is lowered again. The part of the program where the fault occurred is repeated.

Claims (1)

SUBJECT OF THE INVENTION Differential pulse polarograph to eliminate droplet electrode failure, characterized in that an inverting input of an operational amplifier (3) is connected to the input terminal (1) for connecting the output of the second analogue pulse polarograph analogue memory via a derivative capacitor (2) and a series resistor (3). (?) »Whose non-inverting input is connected to a voltage divider formed by a potentiometer (18) and a resistor (19) and supplied from the positive pole of the source (31), the output of the operational amplifier (6) being connected to the output resistor (7) > a first transistor (8) to which a collector resistor (9) is connected and a separating diode (10), the cathode of which is connected both to the base of the second transistor (12) and the series resistors (13, 14) connected in series, the second transistor (12) is connected to the resistor (11) and to its emitter base of the switching transistor (17) to whose collector it is connected on the one hand a timing capacitor (15) connected at its other end to the cathode of the separating diode (10) and on the other hand to a relay (16) whose first contact (20) is connected to the negative pole of the source (31) and a resistor (24) and a grounding resistor (25), the center of which is coupled via the coupling capacitor (26) and the coupling diode (28) to the output terminal (29) for connection to the input circuit of the variable voltage integration generator and the second contact (21) between the terminals (22, 23) for the connection of the pick-up device.