SU1247787A1 - Device for checking phase alternation in three-phase network - Google Patents

Abstract

This invention relates to the field of electrical engineering. It can be used to control the sequence of alternating phases of a three-phase AC network. The aim of the invention is to improve the reliability of the device. UTZH) W (P / DJ 0 The device contains resistors 1–6, diodes 8, 9, 10, optocouplers 11 and 12, and diode 13 light emission. In this case, the device contains three voltage dividers, each of which consists of two resistors 1 , 2, phases I, 3, 4 phases C, 5, 6 phases W, connected to an artificial zero point 7. The device, with the correct phase rotation, ensures the continuous operation of the light-emitting diode 13. When establishing correspondence between the minimum allowable voltage of the monitored network and the minimum input the thyristor optocouplers actuation current 11, 12 o- emitting optocoupler 13 performs control for the failures in the network voltage. 1 yl. W w ch1 00

Description

The invention is related to electrical engineering, and more specifically to measurements of electrical quantities, and can be used to control the phase sequence of a three-phase AC network.

The aim of the invention is to increase the reliability of the device, due to galvanic isolation for controlling and lowering the operating voltages on the dividers and to expanding the functional capabilities of signaling that the mains voltage drops below the required level.

The drawing shows the electrical circuit of the device.

A device for controlling the alternation of phases of a three-phase network contains three voltage dividers, each of which consists of two resistors 1, 2 of phase G; resistors 3, 4 of phase II, resistors 5, 6 of phase in, connected to an artificial zero point 7. Anodes of diodes 8, 9, 10 are connected to the outputs of the voltage dividers of the phases G, I, 1C, respectively. The cathode of the first diode 8 is connected to the anode of the input light emitter of the first thyristor optocoupler 11, and its cathode is connected to an artificial zero point 7. The cathode of the second diode 9 is connected to the anode of the light emitter of the second thyristor optocoupler 12, and its cathode to the photodetector anode of the first thyristor optocoupler 11 The cathode of which is connected to the artificial zero point 7. The anode of the photo-receiver is connected to the cathode of the third diode 10. a second thyristor optocoupler 12, and a light emitting diode 13 is connected between the cathode of the photoreceiver of the second thyristor optocoupler 12 and the artificial zero point 7, which can serve as a standalone indicator or light emitting element of the optocoupler controlling the protection circuit. assemblies, since the voltage across the diodes does not exceed a few volts, and the currents through them are tens of milliamperes. The device works as follows.

After connecting the device to a controlled three-phase voltage source, diodes 8.9, 10, connected respectively to the outputs of the voltage dividers of the phases I, I, fll, are unlocked alternately, once per period of the mains voltage. If the sequence of alternation of phases G- III is observed, the half-wave voltage of phase 1 is positive, it passes through diode 8 and the current through the emitter of the thyristor optocoupler 11 to the artificial zero point 7, opens its photodetector, and the thyristor optocoupler 11

is open. The positive half-wave voltage of phase II passes through diode 9 and the current through the light emitter of the thyristor optocoupler 12 and the photodetector of the thyristor optocoupler .11 to the artificial zero point 7 opens the photodetector of the thyristor optocoupler 12. Positive half-wave, phase III of the phase III passes through the diode 10 and the current through the photodetector of the thyristor optocoupler 12 to the artificial zero point 7 triggers the light-emitting diode 13. In case of incorrect phase alternation 1 - III, the positive half-wave of the IG phase does not trigger with vetohunner tsego diode 13, since the photodetector of the thyristor optocoupler 12. is closed. When one or more phases disappear in the network, the order of operation of the elements of the device is disrupted, which leads to the disconnection of the photodetector of the thyristor optocoupler 12 and the light emitting diode 13.

The device, with proper phase rotation, ensures the continuous operation of the light-emitting diode 13. In determining the correspondence between the minimum allowable voltage of the monitored network and the minimum input current, trigger the thyristor optocouplers 11 12 and the light emitting diode 13 monitors the voltage dips in the network.

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Claims (1)

Invention Formula A device for controlling the alternation of phases of a three-phase network, containing four resistors, three diodes and an optocoupler, characterized in that, in order to increase the reliability of the device and to extend its functionality, a second optocoupler, two resistors and a light emitting diode are inserted into it, each The phase includes voltage dividers consisting of two series-connected resistors. 3 12477874 and the second ends of the voltage divider, the second optocoupler, the cathode connected / connected to an artificial zero through the photodetector of the first optocoupler with point, with the light emitter per-artificial zero point, and to the third optocoupler is connected via a third-voltage diode output The output of the divider voltage of the first 5 Phase is through the diode and the photodetector of the phase, and its cathode is connected to a skilled optocoupler connected to a light-emitting zero point, to the output is a diode connected to an artificial A second-phase voltage voltage is used as the zero point, and a light emitting thyristor optocouplers are used to cut the diode.