SU1383184A1 - Conductivity apparatus - Google Patents

Abstract

The invention relates to the field of measurement technology and can be used in the physico-chemical analysis of the properties of materials according to their specific conductivity, and can also be used to monitor the state of liquid or pulp-like process media of chemical production. The purpose of the invention is to improve the measurement accuracy. The device contains measuring and comparative circuits, connected through a switch to a high-frequency amplifier, forming an auto-oscillator, the output of which is connected through an amplitude detector, a first amplifier and a controllable element to a comparative circuit and a meter. A series-connected phase detector and a second amplifier are additionally introduced into the device, with the first input of the phase detector connected to the second output of the switch and the second input of the phase detector connected to the output of the first amplifier. 1 il. about $ (L

Description

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The invention relates to the field of measurement technology and can be used in the physicochemical analysis of the properties of materials according to their specific electrical conductivity, and can also be used to monitor the state of liquid or pulp technological media of chemical production.

The purpose of the invention is to increase the measurement accuracy. .

The drawing shows the block diagram of the conductometer.

The conductometer consists of auto-oscillator 1, detector 2, first amplifier 3 of phase detector 4, and second amplifier. 5, a controlled element (opto-pair) 6 and a meter 7. The self-oscillator 1 contains a high-frequency amplifier 8, a switch 9, a measuring 10. and a comparative 11 circuit.

Conductometer works as follows.

Using switch 9, measuring 10 or comparative 11 circuits are connected alternately to high-frequency amplifier 8, forming an oscillator 1. At the output of high-frequency amplifier 8, a sinusoidal voltage with a frequency of 500-800 kHz modulated by amplitude with switching frequency of switch- (40-60) is obtained Hz. If the equivalent resistance of the measuring circuit is less than the comparative one, the voltage at the output of the oscillator during the connection of the measuring circuit is less, and during the connection of the comparative circuit cheers - more amplitude. This voltage is applied to detector 2, the output is alternating voltage with a switching frequency that is applied to amplifier 3. The amplified voltage is applied to the second input of phase detector 4, which is compared with the control voltage of the switch to the first input.

At the output of the phase detector, pulses appear only in the case when a positive half-wave voltage corresponds to a voltage from a comparative circuit. These pulses are amplified by the amplifier 5 and are fed to the LED of the optocoupler 6. In this case, the photoresistor of the optocoupler reduces its

JQ electrical resistance and shunts the comparative circuit. This causes a decrease in the equivalent resistance of the comparative circuit and the voltage across it. The circuit is balanced; the unbalance that keeps the circuit in equilibrium is determined by the overall gain. As a result, the resistances of the measuring and comparative circuits are equalized. If the measuring circuit is shunted by the measured medium, then the comparative circuit is shunted by the optocoupler photoresistor by the same amount. Consequently, the optocoupler resistance is an informative parameter, which is measured by meter 7.

Claims (1)

Invention Formula A conductivity meter, containing measuring and comparative circuits, connected through a switch to a high-frequency amplifier, forming an auto-oscillator, the output of which through an amplitude detector, first amplifier and controllable element is connected with a comparative circuit and meter, characterized in that the device is additionally introduced in series connected phase detector and a second amplifier, the output of which is connected to the input of the controlled element, with the first input of the phase detector nen to the second output switch and the second input of the phase detector coupled to an output of the first amplifier.