SU1449872A1 - Device for measuring concentration of liquid media - Google Patents

Abstract

The invention relates to the control of the quality parameters of water-oil emulsions, in particular, the determination of the oil content in a highly watered emulsion, and can be used in process automation systems, field oil and water treatment. The aim of the invention is to increase the measurement accuracy by ensuring the stability of the signal amplitude. The device contains an alternating voltage generator, a transformer sensor with supply and reception windings, dividers, a digital-to-analog converter, zero-organs, subtractive circuits, and a circuit I. A distinctive feature of the device is the presence of two dividers, a digital-analog converter, two zero org-v new, two subtractive circuits and circuit I. Moreover, the inputs of the dividers are connected to the output of the generator, the output of the first divider is connected to the power winding of the transformer sensor via a digital-to-analog converter input of a first zero-body output of the second divider is connected to the first inputs of the subtracting circuits second inputs of which are connected to the outputs of the zero-bodies, the second input of the zero-body connected to the receiving winding of transformer sensor. 1 il. with $ (L

Description

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The invention relates to a measurement technique, is intended to control the content of petroleum products and can be used in the refining and other industrial fields.

The aim of the invention is to improve the measurement accuracy by ensuring the stability of the amplitude of the measured signal.

The drawing shows a functional diagram of the device.

The device contains a generator of 1 rectangular pulses, the output of which through divider 2 and digital-analog converter (DAC) 3, the total division factor of which is n, is connected to the supply coil of the transformer sensor, the divider with division factor n + 1, adders 5 and 6, null-bodies 7 and 8, made in the form of comparators, and the outputs of adders 5 and 6 are connected to the circuit And 9.

The device works as follows.

The linear pulses from the generator 1, having passed through the divider 2 and the digital cylinder 3, are converted into a stepwise sinusoidal signal, which is fed to the supply coil of the transformer sensor and simultaneously: to the input of the zero-organ 8. Voltage induced in the receiving coil W , through the fluid coil, shifted in phase relative to the input voltage, includes a null-organ 7, and the voltage from the supply coil is zero-organ 8. From the outputs of the null organs, signals are fed to the adders 5 and 6. The second inputs of the adders are combined and de jstelle 4 are connected to the gene Rathore 1.

The division ratio of divider 2 and ZDL 3 is n, and the division factor of divider 4 is n + 1. In this case, square-wave pulses are removed from the subtractors at a significantly reduced frequency, which facilitates further signal processing. The pulses are shifted in phase, depending on the conductivity of the liquid coil received

to the AND circuit, from the output of which the phase difference signal is taken, proportional to the concentration.

Thus, the use of a digital-to-analog converter makes it possible to synchronize rigidly the zero-moment of the moment when the signal passes through O, since the first step of a sinusoidally step voltage

nor at the time of transition through O has a steep front. In addition, the amplitude of the signal increases in stability, and the signal at the receiving coil of the transformer sensor has a minimum harmonic coefficient.

A subsequent decrease in the frequency of the signal being processed reduces the loss of the useful signal during switching and increases the accuracy

measurements

Formula inventions

A device for measuring the concentration of liquid media, comprising an alternating voltage generator and a transformer sensor with supply and receiver windings, which is designed so that

measurement accuracy by ensuring the stability of the amplitude of the signal, the device further comprises first and second frequency dividers, a digital-to-analog converter,

the first and second zero-bodies, the first and second adders and the element And, with the generator output connected to the inputs of the first and second frequency dividers, the output of the first divider is connected to the input of the digital-analog

converter, the output of which is connected to the supply winding of the transformer sensor and the input of the first zero-organ, the output of the second divider

frequency is connected to the first inputs of the first and second adders, the receiving winding through the second zero-body is connected to the second input of the second adder, and the output of the first

the zero-organ is connected to the second input of the first adder, while the outputs of the adders are connected to the inputs of the AND element, the output of which is the output of the device.

Claims (1)

Claim A device for measuring the concentration of liquid media, containing an alternating voltage generator and a transformer sensor with supply and receiving windings, with the exception that in order to improve the measurement accuracy by ensuring the stability of the signal amplitude, the device further comprises the first and second frequency dividers, a digital-to-analog converter, the first and second zero-organs, the first and second adders and the And element, the generator output being connected to the inputs of the first and second frequency dividers, the output of the first spruce is connected to the input of the digital-analog converter, the output of which is connected to the supply winding of the transformer sensor and the input of the first zero-organ, the output of the second frequency divider is connected to the first inputs of the first and second adders, the receiving winding through the second zero-organ is connected to the second input of the second adder and the output of the first zero-organ is connected to the second input of the first adder, while the outputs of the adders are connected to the inputs of the element And, the output of which is the output of the device.