SU428264A1 - AUTOMATIC MEASURING OUTPUT ELECTRICAL CONDUCTIVITY - Google Patents

Description

-. . .Т "Isooruschnio" refers to the elsm of the ionic part of the ionic: electrical conductivity, in particular, the electronic conduction meter of the liquid, irimea. Cmigo in chemical chemistry and other areas of the national economy l.1 controlling and managing technological processes. Devices for measuring ionic conductivity are known, using bridge circuits on the rotor current or circuits of a crimson type. A disadvantage of the known devices is the complexity of the measurement process, due to the fact that measurements on non-current currents require an ITPI bumixture number of mobile controls, which increases the measurement time and makes it impossible to automate the measurement process or not to measure the active component. (The voltage of the measuring object is measured.) The simplest of the invention is the creation of aBTOMaTH4ecj oro device that provides a practical, inertialessless accurate () measurement of ionic electricity. electrical conductivity. This zero is achieved by the fact that the ion gauge is equipped with a cathode accelerator with an adjustable transmission coefficient, onto the grid of which the non-homogeneous voltage is applied from the measuring cell and the bias voltage from the output of the phase-sensitive detector to the inputs of which are voltage removed the measuring cell and the output of the adder, and one of the inputs of the su.mmator is connected to a resistor connected in series with the measuring cell and the other to the cathode load of the repeater together with a switch or digital th indicator. The drawing shows a diagram of the edit meter. The variable voltage from the source / stable amplitude and frequency is supplied to the measuring circuit, including measuring cell 2 and the reference resistor, V. The measuring cell with the measured veneergy has a complex conductivity due to the active component and capacitive part. The alternating voltage of the cell 2 through the separation capacitor 4 is fed to the cathode follower 5. (; the cathode resistor, the voltage goes to the adder (and the indicator 7. To the second flow of the adder, the voltage disappears from the reference resistor).

You have the voltage from the adder 6 fed to the Pa-saw sensory rectifier 8, to the second input of which comes the voltage from cell 2, and the output signal from the rectifier to the repeater network 5. The voltage from cell 2 goes to the repeater and then to the adder, where it is added to the voltage taken from pe: uiCTOpa -L

The total voltage phase is compared with phase: i) voltage on cell 2 with a phase-sensitive rectifier 8, the output signal changes the coherence factor of supply of poyvurel 5 in such a way that the phase shift between these voltages is 90 °. In this case, the voltage across the cathode resistor uniquely determines the conductivity. It arrives at indicator 7, a graduated non-transducer of veppo in units of leg-conductive HCl.

The subject of the invention is an Automatic Ion Conductivity Meter containing a source of stabilized alternating voltage, measure: an integral cell, a reference resistor, a split capacitor, a cathode follower, an adder, a phase-sensitive rectifier and an indicator, that is, that, for the purpose of automating measurements and increasing reliability, the cathode repeater grid is connected through an isolating capacitor with a measuring cap and directly to the output of the phase sensitive one straight in Which odes are connected to a cell and an output of an adder, with one of the inputs of an adder being connected to a reference resistor connected in series with a cell, and the other to a cathode of a repeater to which the indicator is connected.

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