SU1286903A1 - Pressure-differential-to-unified current signal converter - Google Patents

Abstract

The invention relates to a measurement technique and can be used in devices for matching the output signals of primary sensors with remote control systems and computing devices designed, for example, to calculate the flow rate of natural gas in main gas pipelines. The purpose of the invention is to improve the accuracy of converting pressure drop into a unified current signal - achieved by reducing the temperature error and increasing the noise immunity of the device. For this purpose, an alternating voltage converter 9 is introduced into the device into a unified current signal, a synchronous detector 3, a comparator 4, and a reference voltage source 5. The drawing also shows a stabilized generator 1, an alternating voltage converter 2, a differential pressure sensor 6, an alternating voltage amplifier 7, a precision rectifier 8, a power supply unit 10. 1 il. i (L

Description

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The invention relates to a measurement technique and can be used in devices for matching the output signals of primary sensors with remote control systems and computing devices for calculating the flow rate of natural gas in main gas pipelines, whose inputs are designed for a unified current signal.

The purpose of the invention is to increase the accuracy of converting the pressure differential to a unified current signal by reducing the temperature error and increasing the noise immunity of the device.

The drawing shows a diagram of the proposed device.

The converter contains a stabilized generator 1, an alternating voltage converter into an alternating current 2, a synchronous detector 3, a comparator 4, a source 5 of the reference voltage, a pressure differential sensor 6, the primary winding of which is connected to the output of the converter 2 - alternating voltage into alternating current, and the secondary winding with an input of an alternating voltage amplifier 7, a precision rectifier 8, a voltage converter 9 into a unified current signal (voltage - current and power supply unit 10).

The device works as follows.

The stabilized generator 1 generates a sinusoidal alternating voltage, the amplitude of which is stabilized by the output voltage of the comparator 4, continuously comparing the output voltage of the source 5 of the reference voltage with the output voltage of the synchronous detector 3. The use of the synchronous detector 3 to detect the output voltage of the stabilized generator 1 and comparator 4 lead to an increase in the temporal stability of the amplitude of the alternating voltage and a decrease in its temperature error.

The output voltage of the stabilized generator 1 is fed to the inverter 2 of alternating voltage to alternating current. The output of converter 2 is connected to the primary winding of sensor 6. When a pressure difference is detected at the input of sensor 6

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The differential pressure across its secondary winding is driven by an alternating voltage of the same frequency as the frequency of the supply voltage. The voltage from the secondary winding of the differential pressure sensor 6 is fed to the input of the amplifier 7, which produces an amplification of alternating voltage. From the output of the amplifier 7, an alternating voltage proportional to the pressure drop is fed to a precision rectifier 8, the synchronization of which is carried out by the output voltage of the stabilized generator 1. From the output of the precision rectifier 8, the useful signal through the converter 9 is voltage - current enters the output device.

Thus, the proposed converter improves the accuracy of converting the pressure drop to a unified current signal, which allows to obtain an additional effect when taking into account the consumption of natural gas in gas pipelines.

Claims (1)

Invention Formula A differential pressure converter into a unified current signal containing a power supply unit connected to a stabilized generator, voltage amplifier, voltage converter to a unified current signal, a precision rectifier, a differential pressure sensor, the secondary winding of which is connected to the input of a voltage amplifier whose output connected to the first input of a precision rectifier, the output of which is connected to the input of a voltage converter in a unified current signal, which differs from In order to improve accuracy, an alternating voltage to alternating current converter, a synchronous detector, a comparator and a reference voltage source, the output of which is connected to the first input of the comparator, the second input of which is connected to the synchronous detector, and the output of the control input stabilized generator, the output of which is connected to the input of the synchronous detector, the control input of the precision rectifier and the input of the converter 31286903 4 voltage to alternating current, the output of an alternating voltage body with a voltage is connected to a primary winding current, a synchronous detector, a pressure differential sensor, with a comparator and a source of reference power supply connected to a voltage converter.