SU1190303A2 - Apparatus for measuring electric conductance - Google Patents

Abstract

DEVICE FOR MEASUREMENT OF ELECTRICAL CONDUCTIVITY according to ed. St. No. 1138762, characterized in that, in order to improve the measurement accuracy, a second additional winding is inserted into it, which is winding on the same magnetic circuit as the measuring winding, and completely identical to it, included in accordance with the measuring winding, an inverting AC voltage amplifier, the second amplifier with a unit gain, the common output of the measuring windings and the second additional terminal connected to the input of an inverting AC voltage amplifier, the output of the second additional winding Inonu with. the inverting input of the amplifier with a unit gain, another output of the measuring winding is connected to the non-inverting input and the output of the amplifier with a single gain factor, the output of the inverting AC voltage amplifier is connected to the input of the reverse voltage, the output of the inverting AC voltage amplifier is connected to the input of a millivoltmeter alternating current.

Description

1 The invention relates to a measurement technique, is intended to measure the electrical conductivity of electrolytes, and is an improvement on a PC bus device. No. I138762. The purpose of the invention is to improve the measurement accuracy by eliminating the influence of the parameters of the magnetic circuit on {the result of measurements. The drawing shows a block diagram of a device for measuring electrical conductivity. The device consists of an electrical conductivity sensor containing two toroidal magnetic cores 1 and 2 located coaxially, on one of which two identical windings are wound: excitation winding 3 and additional winding 4, two identical windings on the other magnetic core 2: winding 5 measuring and second additional winding 6, generator 7 of sinusoidal voltage, first amplifier 8 with a single gain factor and inverting amplifier 9 of alternating voltage, second amplifier 10 with a single factor gain amplifier and millivoltmeter 11 ac. In this case, the excitation winding 3 and the additional winding 4 are turned on and their common output is connected to the amplifier 8, the winding 3 output is connected to the output of the generator 7 and to the inverting input of the amplifier 8, the additional winding 4 is connected to the non-inverting input of the amplifier 8, measuring winding 5 and additional 6 are connected in opposite way and their common output is connected to the input of inverting amplifier 9, the measuring winding 5 is connected to the output and to the non-inverting input of amplifier 10, additional winding 6 connected to the inverting input of the amplifier 10, between the input and output of the inverting AC voltage amplifier is connected to the resistance, the output of the inverting amplifier 9 is connected to the input of a millivoltmeter 1 1. The device works the next time. 32 From the generator 7, a sinusoidal voltage U is fed to the excitation winding 3, through which a current Z3 begins to flow. At the same time, a current 3 flowing in the electrolyte, caused by the EMF in the coil. In the additional winding 4, the emf will be equal to. fU, S, W4W3tJ. (U, S, A / 4W, CO 4 J 6,. / UB where | M, is the magnetic permeability of the magnetic circuit 1; 5 (is the cross-sectional area of the magnetic circuit 1, K, is the average length of the magnetic lines in the magnetic core 1 W is the number of turns additional winding 41 W - number of turns of excitation winding 3, 9 turn of electrolyte, 3 - current flowing through additional winding 4, E - EMF induced in additional winding 4, - signal frequency.Since the input impedance of the amplifier with a unit gain factor is large, the current flowing through the additional winding 4 is very, therefore the third member in The expression (1) can be neglected. EMF EA, induced in the additional winding 4, is applied to the non-inverting input of amplifier 8 with unit gain, and the inverting input is supplied with voltage Uj from generator 7 of sinusoidal voltage. a gain factor of 8 is the difference of these voltages J (jg, compensating for the voltage drop across the active resistance of the excitation winding 3 Lij6 Bx, UBxrUy8 + E4 i .Uj, where 43 is the output voltage of the amplifier with a unit coefficient

Claims (1)

DEVICE FOR MEASURING ELECTRICAL CONDUCTIVITY by ed. St. No. 1138762, characterized in that, in order to increase the measurement accuracy, a second additional winding is inserted into it, which is wound on the same magnetic circuit as the measuring winding, and completely identical to it, included in accordance with the measuring winding, an inverting AC voltage amplifier, the second an amplifier with a unity gain, wherein the common output of the measuring and second additional windings is connected to the input of an inverting AC amplifier, the output of the second additional winding is connected . an inverting input of the amplifier with a unity gain, the other output of the measuring winding is connected to a non-inverting input and an output of an amplifier with a unity gain, the output of the inverting AC amplifier is connected to the input through the feedback resistance, the output of the inverting AC amplifier is connected to the input of an AC millivoltmeter.