SU1364891A2 - Device for graduating electromagnetic flowmeters - Google Patents

Abstract

This invention relates to a measurement technique. The purpose of the invention is the extension of the functional capabilities of the device for the calibration of flow meters. The output voltage of the phase-sensitive detector 4 is fed to the input of the memory integrator 5, at the output of which a signal corresponding to the sign of the phase mismatch arises and is proportional to its duration. This signal is fed to the input of the phase shifter 2. With the phase detuning of the circuit being tested and the calibration device, the output signal of the memory integrator 5 changes the phase shift in the phase shifter 2 so that the absolute value of the input voltage of the memory integrator 5 is close to O, i.e. to the condition of phase matching set. 1 il. i (L

Description

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The invention relates to the field of measurement technology, in particular the measurement of the flow rate of an electrically conductive liquid, and is an improvement of the device according to the author. St. No. 1174763.

The purpose of the invention is to expand the functional capabilities of the device for calibrating electromagnetic flowmeters.

The drawing shows a block diagram of the device.

The device contains a voltage source simulating signal 1 of the primary converter, an adjustable phase shifter 2, a voltage source 3 simulating a reference signal of the primary converter, a phase-sensitive detector 4 and a voltage meter 5 made in the form of a storage integrator.

The output of the adjustable phase shifter 2 is connected to the input of the reference signal of the phase-sensitive detector 4 and the input of the subtractor 6, the output of the source 3 of the reference signal 3 is connected to the input of the phase-sensitive converter 7, the output of the phase-sensitive detector 4 is connected to the measuring input of memories of the integrator 5, whose output is connected with the guarding input of the variable phase shifter 2, and the memory control input with the output of the phase-sensitive converter 7.

The device works as follows.

The alternating voltage generated by source 3 and imitating the reference signal of the primary converter is fed to the input of the reference signal of the phase-sensitive converter 7. The differential signal from the output of the subtractor 6 enters the input of the measured signal of the phase-sensitive detector 4, the output of which has a voltage with value proportional to the value of the output voltage of the subtractor 6, functionally related to the value of the phase difference between the flow rate signal and the internal reference signal m, the phase shift is unknown and is individual for each pa zkzempl measuring circuit. In this case, the sign of the output voltage of the phase-sensitive detector 4 is one

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Significantly corresponds to the sign of the phase angle between the internal reference signal of the phase-sensitive element

with the converter 7 and the input signal of the flow rate of the measuring circuit.

The output voltage of the phase-sensitive detector is fed to the input of the memory integrator 5, the output of which generates a signal corresponding in sign and also proportional to the value of the duration of the phase error. This signal is fed to the control input of the adjustable phase shifter 2. In the case of phase detuning of the tested circuit and graduation device, the output signal of the storage integrator 5 changes the phase shift in the adjustable phase shifter 2 so that the absolute value of the input voltage of the storage integrator 5 is close to zero that corresponds to close to zero

The 25th value of the angle of the phase difference between the flow input signal and the internal reference signal of the phase-sensitive element of the flow meter measuring circuit, i.e. phase condition

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If the voltage that imitates the flow signal, is lower than the performance limit of the autotune system using the

The Tg of the stroke as carrier, the output signal of the flow meter reaches

0

nor small enough to convert the voltage meter integrator circuit to the memory mode. At the same time, the output signal of the meter retains the value corresponding to the phase matching at a voltage flow rate voltage sufficient for the operation of the autotune phase system.

Claims (1)

5 This prevents the uncertainty of the phase setting in the installation mode of the zero graduated flow meter. The invention The device for the calibration of Q of magnetic flow meters on the author. St. No. 1174763, characterized in that, in order to expand the functionality, the voltage meter is designed as a memory integrator, its output is connected to the control input of the variable phase shifter, and the memory control input is connected to the output of the calibrated flow meter. five