SU681369A1 - Method of measuring electric signals of chromatographic detectors - Google Patents

Description

one

The invention relates to the field of analytical chemistry and can be used in analytical instrumentation, in particular to create chromatographic instruments.

A known method for measuring the ionization current of chromatographic detectors, which consists in measuring the voltage drop at high resistance 1. The significant disadvantages of this method of measuring the current of ionization detectors are the need to reconcile the measuring resistance of the ionization current meter with the internal resistance of the ionization detector and the need to compensate the initial current of the ionization detector for realizing the possibility of differential measurement of useful with Ignala

Closest to the present invention is a method for measuring the signals of chromatographic detectors, which consists in recording the parameters of electric circuit 2,

However, this method is characterized by relatively low sensitivity, and its implementation requires a significant number of additional elements that compensate for the initial imbalance of the bridge, and the considerable difficulties of amplifying the detector signal, associated with its relatively low output resistance, which also makes it possible to use standard ionization signal amplifiers. detectors.

The purpose of the invention is to improve the accuracy and reliability of measurements.

This is achieved by the fact that the electrical signal of the chromatographic detectors is fed to the load resistance, and

5 Joule heat measurements using a pyroelectric sensor, by charge of which the value of the signal is judged.

The essence of the method is as follows.

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Claims (2)

The electrical signal of the chromatographic detector causes a current through the ohmic resistance of the load, which, in turn, will produce heat. In this case, the pyro5 electrical sensor, which is in thermal contact with the load, generates a charge proportional to the amount of heat released. Taking into account the fact that the signal of the pyro electric sensor is proportional to the rate of change of its temperature, the charge on the pyroelectric will occur only under the condition that the rate of change of temperature is different from zero. Therefore, the initial detector current does not generate a signal on the pyroelectric, that in turn, eliminates the need to use a source of compensation. At the same time, the detector’s electrical signal corresponding to the chromatographic peak generates a signal on the pyroelectric. An additional advantage of the proposed method is the fact that the detector is not galvanically connected to the input of the amplifier. Thus, it is possible to use a standard ionization current amplifier to measure the electrical signal of any chromatographic detector. The proposed method was used to measure the thermal conductivity detector signal of an LHM-8MD chromatograph. ITG-0.5, included in the chromatograph kit, was used as an amplifier. Anapiz propane in helium - 0,005 about. Consumption of carrier gas (helium) 30 ml / min. The temperature of the evaporator and detector is 120 ° C, the dose volume is 1 ml. An insulated conductor with a resistive impedance of 940 ohms, deposited on the outer electrode of a cylindrical pyroelectric sensor (PZT-19, 8 mm ®nar®vn b mm), with a certain polarization directed along the radius was used as the load resistance. The received signal corresponds to the threshold value of the HOCTI sensor better than.%. The present invention allows to significantly expand the range of application, in particular of natarometers and thermochemical detectors, making it possible to determine the maximum permissible concentration of a number of toxic impurities in the air, such as carbon monoxide, nitrous oxide, on the basis of serial chromatographs. This will greatly contribute to solving the complex problem of environmental protection. Claims The method of measuring electrical signals of chromatographic detectors by registering electrical circuit parameters, characterized in that, in order to improve the accuracy and reliability of measurements, the electrical signal of the detector is passed through ohmic resistance, and the heat produced is measured using a pyroelectric signal. from which one judges the magnitude of the change in the detector signal. Sources of information taken into account in the examination 1. Alexander B.C., Prishnikov V.A. Instruments for measuring low voltages and currents. L., Energie, 1971, p. 43-52. 2. Pavlenko V.A. Automatic industrial gas analyzers. Factory laboratory, 1954, t.20, p. 868.